// Package generated Code generated by go-bindata. (@generated) DO NOT EDIT. // sources: // translations/OWNERS // translations/extract.py // translations/kubectl/OWNERS // translations/kubectl/de_DE/LC_MESSAGES/k8s.mo // translations/kubectl/de_DE/LC_MESSAGES/k8s.po // translations/kubectl/default/LC_MESSAGES/k8s.mo // translations/kubectl/default/LC_MESSAGES/k8s.po // translations/kubectl/en_US/LC_MESSAGES/k8s.mo // translations/kubectl/en_US/LC_MESSAGES/k8s.po // translations/kubectl/fr_FR/LC_MESSAGES/k8s.mo // translations/kubectl/fr_FR/LC_MESSAGES/k8s.po // translations/kubectl/it_IT/LC_MESSAGES/k8s.mo // translations/kubectl/it_IT/LC_MESSAGES/k8s.po // translations/kubectl/ja_JP/LC_MESSAGES/k8s.mo // translations/kubectl/ja_JP/LC_MESSAGES/k8s.po // translations/kubectl/ko_KR/LC_MESSAGES/k8s.mo // translations/kubectl/ko_KR/LC_MESSAGES/k8s.po // translations/kubectl/pt_BR/LC_MESSAGES/k8s.mo // translations/kubectl/pt_BR/LC_MESSAGES/k8s.po // translations/kubectl/template.pot // translations/kubectl/zh_CN/LC_MESSAGES/k8s.mo // translations/kubectl/zh_CN/LC_MESSAGES/k8s.po // translations/kubectl/zh_TW/LC_MESSAGES/k8s.mo // translations/kubectl/zh_TW/LC_MESSAGES/k8s.po // translations/test/default/LC_MESSAGES/k8s.mo // translations/test/default/LC_MESSAGES/k8s.po // translations/test/en_US/LC_MESSAGES/k8s.mo // translations/test/en_US/LC_MESSAGES/k8s.po package generated import ( "fmt" "io/ioutil" "os" "path/filepath" "strings" "time" ) type asset struct { bytes []byte info os.FileInfo } type bindataFileInfo struct { name string size int64 mode os.FileMode modTime time.Time } // Name return file name func (fi bindataFileInfo) Name() string { return fi.name } // Size return file size func (fi bindataFileInfo) Size() int64 { return fi.size } // Mode return file mode func (fi bindataFileInfo) Mode() os.FileMode { return fi.mode } // Mode return file modify time func (fi bindataFileInfo) ModTime() time.Time { return fi.modTime } // IsDir return file whether a directory func (fi bindataFileInfo) IsDir() bool { return fi.mode&os.ModeDir != 0 } // Sys return file is sys mode func (fi bindataFileInfo) Sys() interface{} { return nil } var _translationsOwners = []byte(`# See the OWNERS docs at https://go.k8s.io/owners reviewers: - brendandburns approvers: - sig-cli-maintainers - brendandburns `) func translationsOwnersBytes() ([]byte, error) { return _translationsOwners, nil } func translationsOwners() (*asset, error) { bytes, err := translationsOwnersBytes() if err != nil { return nil, err } info := bindataFileInfo{name: "translations/OWNERS", size: 0, mode: os.FileMode(0), modTime: time.Unix(0, 0)} a := &asset{bytes: bytes, info: info} return a, nil } var _translationsExtractPy = []byte(`#!/usr/bin/env python # Copyright 2017 The Kubernetes Authors. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. """Extract strings from command files and externalize into translation files. Expects to be run from the root directory of the repository. Usage: extract.py pkg/kubectl/cmd/apply.go """ import fileinput import sys import re class MatchHandler(object): """ Simple holder for a regular expression and a function to run if that regular expression matches a line. The function should expect (re.match, file, linenumber) as parameters """ def __init__(self, regex, replace_fn): self.regex = re.compile(regex) self.replace_fn = replace_fn def short_replace(match, file, line_number): """Replace a Short: ... cobra command description with an internationalization """ sys.stdout.write('{}i18n.T({}),\n'.format(match.group(1), match.group(2))) SHORT_MATCH = MatchHandler(r'(\s+Short:\s+)("[^"]+"),', short_replace) def import_replace(match, file, line_number): """Add an extra import for the i18n library. Doesn't try to be smart and detect if it's already present, assumes a gofmt round wil fix things. """ sys.stdout.write('{}\n"k8s.io/kubectl/pkg/util/i18n"\n'.format(match.group(1))) IMPORT_MATCH = MatchHandler('(.*"k8s.io/kubectl/pkg/cmd/util")', import_replace) def string_flag_replace(match, file, line_number): """Replace a cmd.Flags().String("...", "", "...") with an internationalization """ sys.stdout.write('{}i18n.T("{})"))\n'.format(match.group(1), match.group(2))) STRING_FLAG_MATCH = MatchHandler('(\s+cmd\.Flags\(\).String\("[^"]*", "[^"]*", )"([^"]*)"\)', string_flag_replace) def long_string_replace(match, file, line_number): return '{}i18n.T({}){}'.format(match.group(1), match.group(2), match.group(3)) LONG_DESC_MATCH = MatchHandler('(LongDesc\()(` + "`" + `[^` + "`" + `]+` + "`" + `)([^\n]\n)', long_string_replace) EXAMPLE_MATCH = MatchHandler('(Examples\()(` + "`" + `[^` + "`" + `]+` + "`" + `)([^\n]\n)', long_string_replace) def replace(filename, matchers, multiline_matchers): """Given a file and a set of matchers, run those matchers across the file and replace it with the results. """ # Run all the matchers line_number = 0 for line in fileinput.input(filename, inplace=True): line_number += 1 matched = False for matcher in matchers: match = matcher.regex.match(line) if match: matcher.replace_fn(match, filename, line_number) matched = True break if not matched: sys.stdout.write(line) sys.stdout.flush() with open(filename, 'r') as datafile: content = datafile.read() for matcher in multiline_matchers: match = matcher.regex.search(content) while match: rep = matcher.replace_fn(match, filename, 0) # Escape back references in the replacement string # (And escape for Python) # (And escape for regex) rep = re.sub('\\\\(\\d)', '\\\\\\\\\\1', rep) content = matcher.regex.sub(rep, content, 1) match = matcher.regex.search(content) sys.stdout.write(content) # gofmt the file again from subprocess import call call(["goimports", "-w", filename]) replace(sys.argv[1], [SHORT_MATCH, IMPORT_MATCH, STRING_FLAG_MATCH], [LONG_DESC_MATCH, EXAMPLE_MATCH]) `) func translationsExtractPyBytes() ([]byte, error) { return _translationsExtractPy, nil } func translationsExtractPy() (*asset, error) { bytes, err := translationsExtractPyBytes() if err != nil { return nil, err } info := bindataFileInfo{name: "translations/extract.py", size: 0, mode: os.FileMode(0), modTime: time.Unix(0, 0)} a := &asset{bytes: bytes, info: info} return a, nil } var _translationsKubectlOwners = []byte(`# See the OWNERS docs at https://go.k8s.io/owners approvers: - sig-cli-maintainers reviewers: - sig-cli `) func translationsKubectlOwnersBytes() ([]byte, error) { return _translationsKubectlOwners, nil } func translationsKubectlOwners() (*asset, error) { bytes, err := translationsKubectlOwnersBytes() if err != nil { return nil, err } info := bindataFileInfo{name: "translations/kubectl/OWNERS", size: 0, mode: os.FileMode(0), modTime: time.Unix(0, 0)} a := &asset{bytes: bytes, info: info} return a, nil } var _translationsKubectlDe_deLc_messagesK8sMo = 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# Create a ClusterRoleBinding for user1, user2, and group1 using the cluster-admin ClusterRole\n\t\t kubectl create clusterrolebinding cluster-admin --clusterrole=cluster-admin --user=user1 --user=user2 --group=group1\x00\n\t\t # Create a RoleBinding for user1, user2, and group1 using the admin ClusterRole\n\t\t kubectl create rolebinding admin --clusterrole=admin --user=user1 --user=user2 --group=group1\x00\n\t\t # Create a new configmap named my-config based on folder bar\n\t\t kubectl create configmap my-config --from-file=path/to/bar\n\n\t\t # Create a new configmap named my-config with specified keys instead of file basenames on disk\n\t\t kubectl create configmap my-config --from-file=key1=/path/to/bar/file1.txt --from-file=key2=/path/to/bar/file2.txt\n\n\t\t # Create a new configmap named my-config with key1=config1 and key2=config2\n\t\t kubectl create configmap my-config --from-literal=key1=config1 --from-literal=key2=config2\x00\n\t\t # If you don't already have a .dockercfg file, you can create a dockercfg secret directly by using:\n\t\t kubectl create secret docker-registry my-secret --docker-server=DOCKER_REGISTRY_SERVER --docker-username=DOCKER_USER --docker-password=DOCKER_PASSWORD --docker-email=DOCKER_EMAIL\x00\n\t\t # Show metrics for all nodes\n\t\t kubectl top node\n\n\t\t # Show metrics for a given node\n\t\t kubectl top node NODE_NAME\x00\n\t\t# Apply the configuration in pod.json to a pod.\n\t\tkubectl apply -f ./pod.json\n\n\t\t# Apply the JSON passed into stdin to a pod.\n\t\tcat pod.json | kubectl apply -f -\n\n\t\t# Note: --prune is still in Alpha\n\t\t# Apply the configuration in manifest.yaml that matches label app=nginx and delete all the other resources that are not in the file and match label app=nginx.\n\t\tkubectl apply --prune -f manifest.yaml -l app=nginx\n\n\t\t# Apply the configuration in manifest.yaml and delete all the other configmaps that are not in the file.\n\t\tkubectl apply --prune -f manifest.yaml --all --prune-whitelist=core/v1/ConfigMap\x00\n\t\t# Auto scale a deployment \"foo\", with the number of pods between 2 and 10, no target CPU utilization specified so a default autoscaling policy will be used:\n\t\tkubectl autoscale deployment foo --min=2 --max=10\n\n\t\t# Auto scale a replication controller \"foo\", with the number of pods between 1 and 5, target CPU utilization at 80%:\n\t\tkubectl autoscale rc foo --max=5 --cpu-percent=80\x00\n\t\t# Convert 'pod.yaml' to latest version and print to stdout.\n\t\tkubectl convert -f pod.yaml\n\n\t\t# Convert the live state of the resource specified by 'pod.yaml' to the latest version\n\t\t# and print to stdout in json format.\n\t\tkubectl convert -f pod.yaml --local -o json\n\n\t\t# Convert all files under current directory to latest version and create them all.\n\t\tkubectl convert -f . | kubectl create -f -\x00\n\t\t# Create a ClusterRole named \"pod-reader\" that allows user to perform \"get\", \"watch\" and \"list\" on pods\n\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --resource=pods\n\n\t\t# Create a ClusterRole named \"pod-reader\" with ResourceName specified\n\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --resource=pods --resource-name=readablepod\x00\n\t\t# Create a Role named \"pod-reader\" that allows user to perform \"get\", \"watch\" and \"list\" on pods\n\t\tkubectl create role pod-reader --verb=get --verb=list --verb=watch --resource=pods\n\n\t\t# Create a Role named \"pod-reader\" with ResourceName specified\n\t\tkubectl create role pod-reader --verb=get --verg=list --verb=watch --resource=pods --resource-name=readablepod\x00\n\t\t# Create a new resourcequota named my-quota\n\t\tkubectl create quota my-quota --hard=cpu=1,memory=1G,pods=2,services=3,replicationcontrollers=2,resourcequotas=1,secrets=5,persistentvolumeclaims=10\n\n\t\t# Create a new resourcequota named best-effort\n\t\tkubectl create quota best-effort --hard=pods=100 --scopes=BestEffort\x00\n\t\t# Create a pod disruption budget named my-pdb that will select all pods with the app=rails label\n\t\t# and require at least one of them being available at any point in time.\n\t\tkubectl create poddisruptionbudget my-pdb --selector=app=rails --min-available=1\n\n\t\t# Create a pod disruption budget named my-pdb that will select all pods with the app=nginx label\n\t\t# and require at least half of the pods selected to be available at any point in time.\n\t\tkubectl create pdb my-pdb --selector=app=nginx --min-available=50%\x00\n\t\t# Create a pod using the data in pod.json.\n\t\tkubectl create -f ./pod.json\n\n\t\t# Create a pod based on the JSON passed into stdin.\n\t\tcat pod.json | kubectl create -f -\n\n\t\t# Edit the data in docker-registry.yaml in JSON using the v1 API format then create the resource using the edited data.\n\t\tkubectl create -f docker-registry.yaml --edit --output-version=v1 -o json\x00\n\t\t# Create a service for a replicated nginx, which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose rc nginx --port=80 --target-port=8000\n\n\t\t# Create a service for a replication controller identified by type and name specified in \"nginx-controller.yaml\", which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose -f nginx-controller.yaml --port=80 --target-port=8000\n\n\t\t# Create a service for a pod valid-pod, which serves on port 444 with the name \"frontend\"\n\t\tkubectl expose pod valid-pod --port=444 --name=frontend\n\n\t\t# Create a second service based on the above service, exposing the container port 8443 as port 443 with the name \"nginx-https\"\n\t\tkubectl expose service nginx --port=443 --target-port=8443 --name=nginx-https\n\n\t\t# Create a service for a replicated streaming application on port 4100 balancing UDP traffic and named 'video-stream'.\n\t\tkubectl expose rc streamer --port=4100 --protocol=udp --name=video-stream\n\n\t\t# Create a service for a replicated nginx using replica set, which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose rs nginx --port=80 --target-port=8000\n\n\t\t# Create a service for an nginx deployment, which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose deployment nginx --port=80 --target-port=8000\x00\n\t\t# Delete a pod using the type and name specified in pod.json.\n\t\tkubectl delete -f ./pod.json\n\n\t\t# Delete a pod based on the type and name in the JSON passed into stdin.\n\t\tcat pod.json | kubectl delete -f -\n\n\t\t# Delete pods and services with same names \"baz\" and \"foo\"\n\t\tkubectl delete pod,service baz foo\n\n\t\t# Delete pods and services with label name=myLabel.\n\t\tkubectl delete pods,services -l name=myLabel\n\n\t\t# Delete a pod with minimal delay\n\t\tkubectl delete pod foo --now\n\n\t\t# Force delete a pod on a dead node\n\t\tkubectl delete pod foo --grace-period=0 --force\n\n\t\t# Delete all pods\n\t\tkubectl delete pods --all\x00\n\t\t# Describe a node\n\t\tkubectl describe nodes kubernetes-node-emt8.c.myproject.internal\n\n\t\t# Describe a pod\n\t\tkubectl describe pods/nginx\n\n\t\t# Describe a pod identified by type and name in \"pod.json\"\n\t\tkubectl describe -f pod.json\n\n\t\t# Describe all pods\n\t\tkubectl describe pods\n\n\t\t# Describe pods by label name=myLabel\n\t\tkubectl describe po -l name=myLabel\n\n\t\t# Describe all pods managed by the 'frontend' replication controller (rc-created pods\n\t\t# get the name of the rc as a prefix in the pod the name).\n\t\tkubectl describe pods frontend\x00\n\t\t# Drain node \"foo\", even if there are pods not managed by a ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet on it.\n\t\t$ kubectl drain foo --force\n\n\t\t# As above, but abort if there are pods not managed by a ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet, and use a grace period of 15 minutes.\n\t\t$ kubectl drain foo --grace-period=900\x00\n\t\t# Edit the service named 'docker-registry':\n\t\tkubectl edit svc/docker-registry\n\n\t\t# Use an alternative editor\n\t\tKUBE_EDITOR=\"nano\" kubectl edit svc/docker-registry\n\n\t\t# Edit the job 'myjob' in JSON using the v1 API format:\n\t\tkubectl edit job.v1.batch/myjob -o json\n\n\t\t# Edit the deployment 'mydeployment' in YAML and save the modified config in its annotation:\n\t\tkubectl edit deployment/mydeployment -o yaml --save-config\x00\n\t\t# Get output from running 'date' from pod 123456-7890, using the first container by default\n\t\tkubectl exec 123456-7890 date\n\n\t\t# Get output from running 'date' in ruby-container from pod 123456-7890\n\t\tkubectl exec 123456-7890 -c ruby-container date\n\n\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container from pod 123456-7890\n\t\t# and sends stdout/stderr from 'bash' back to the client\n\t\tkubectl exec 123456-7890 -c ruby-container -i -t -- bash -il\x00\n\t\t# Get output from running pod 123456-7890, using the first container by default\n\t\tkubectl attach 123456-7890\n\n\t\t# Get output from ruby-container from pod 123456-7890\n\t\tkubectl attach 123456-7890 -c ruby-container\n\n\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container from pod 123456-7890\n\t\t# and sends stdout/stderr from 'bash' back to the client\n\t\tkubectl attach 123456-7890 -c ruby-container -i -t\n\n\t\t# Get output from the first pod of a ReplicaSet named nginx\n\t\tkubectl attach rs/nginx\n\t\t\x00\n\t\t# Get the documentation of the resource and its fields\n\t\tkubectl explain pods\n\n\t\t# Get the documentation of a specific field of a resource\n\t\tkubectl explain pods.spec.containers\x00\n\t\t# Install bash completion on a Mac using homebrew\n\t\tbrew install bash-completion\n\t\tprintf \"\n# Bash completion support\nsource $(brew --prefix)/etc/bash_completion\n\" >> $HOME/.bash_profile\n\t\tsource $HOME/.bash_profile\n\n\t\t# Load the kubectl completion code for bash into the current shell\n\t\tsource <(kubectl completion bash)\n\n\t\t# Write bash completion code to a file and source if from .bash_profile\n\t\tkubectl completion bash > ~/.kube/completion.bash.inc\n\t\tprintf \"\n# Kubectl shell completion\nsource '$HOME/.kube/completion.bash.inc'\n\" >> $HOME/.bash_profile\n\t\tsource $HOME/.bash_profile\n\n\t\t# Load the kubectl completion code for zsh[1] into the current shell\n\t\tsource <(kubectl completion zsh)\x00\n\t\t# List all pods in ps output format.\n\t\tkubectl get pods\n\n\t\t# List all pods in ps output format with more information (such as node name).\n\t\tkubectl get pods -o wide\n\n\t\t# List a single replication controller with specified NAME in ps output format.\n\t\tkubectl get replicationcontroller web\n\n\t\t# List a single pod in JSON output format.\n\t\tkubectl get -o json pod web-pod-13je7\n\n\t\t# List a pod identified by type and name specified in \"pod.yaml\" in JSON output format.\n\t\tkubectl get -f pod.yaml -o json\n\n\t\t# Return only the phase value of the specified pod.\n\t\tkubectl get -o template pod/web-pod-13je7 --template={{.status.phase}}\n\n\t\t# List all replication controllers and services together in ps output format.\n\t\tkubectl get rc,services\n\n\t\t# List one or more resources by their type and names.\n\t\tkubectl get rc/web service/frontend pods/web-pod-13je7\n\n\t\t# List all resources with different types.\n\t\tkubectl get all\x00\n\t\t# Listen on ports 5000 and 6000 locally, forwarding data to/from ports 5000 and 6000 in the pod\n\t\tkubectl port-forward mypod 5000 6000\n\n\t\t# Listen on port 8888 locally, forwarding to 5000 in the pod\n\t\tkubectl port-forward mypod 8888:5000\n\n\t\t# Listen on a random port locally, forwarding to 5000 in the pod\n\t\tkubectl port-forward mypod :5000\n\n\t\t# Listen on a random port locally, forwarding to 5000 in the pod\n\t\tkubectl port-forward mypod 0:5000\x00\n\t\t# Mark node \"foo\" as schedulable.\n\t\t$ kubectl uncordon foo\x00\n\t\t# Mark node \"foo\" as unschedulable.\n\t\tkubectl cordon foo\x00\n\t\t# Partially update a node using strategic merge patch\n\t\tkubectl patch node k8s-node-1 -p '{\"spec\":{\"unschedulable\":true}}'\n\n\t\t# Partially update a node identified by the type and name specified in \"node.json\" using strategic merge patch\n\t\tkubectl patch -f node.json -p '{\"spec\":{\"unschedulable\":true}}'\n\n\t\t# Update a container's image; spec.containers[*].name is required because it's a merge key\n\t\tkubectl patch pod valid-pod -p '{\"spec\":{\"containers\":[{\"name\":\"kubernetes-serve-hostname\",\"image\":\"new image\"}]}}'\n\n\t\t# Update a container's image using a json patch with positional arrays\n\t\tkubectl patch pod valid-pod --type='json' -p='[{\"op\": \"replace\", \"path\": \"/spec/containers/0/image\", \"value\":\"new image\"}]'\x00\n\t\t# Print flags inherited by all commands\n\t\tkubectl options\x00\n\t\t# Print the address of the master and cluster services\n\t\tkubectl cluster-info\x00\n\t\t# Print the client and server versions for the current context\n\t\tkubectl version\x00\n\t\t# Print the supported API versions\n\t\tkubectl api-versions\x00\n\t\t# Replace a pod using the data in pod.json.\n\t\tkubectl replace -f ./pod.json\n\n\t\t# Replace a pod based on the JSON passed into stdin.\n\t\tcat pod.json | kubectl replace -f -\n\n\t\t# Update a single-container pod's image version (tag) to v4\n\t\tkubectl get pod mypod -o yaml | sed 's/\\(image: myimage\\):.*$/\x01:v4/' | kubectl replace -f -\n\n\t\t# Force replace, delete and then re-create the resource\n\t\tkubectl replace --force -f ./pod.json\x00\n\t\t# Return snapshot logs from pod nginx with only one container\n\t\tkubectl logs nginx\n\n\t\t# Return snapshot logs for the pods defined by label app=nginx\n\t\tkubectl logs -lapp=nginx\n\n\t\t# Return snapshot of previous terminated ruby container logs from pod web-1\n\t\tkubectl logs -p -c ruby web-1\n\n\t\t# Begin streaming the logs of the ruby container in pod web-1\n\t\tkubectl logs -f -c ruby web-1\n\n\t\t# Display only the most recent 20 lines of output in pod nginx\n\t\tkubectl logs --tail=20 nginx\n\n\t\t# Show all logs from pod nginx written in the last hour\n\t\tkubectl logs --since=1h nginx\n\n\t\t# Return snapshot logs from first container of a job named hello\n\t\tkubectl logs job/hello\n\n\t\t# Return snapshot logs from container nginx-1 of a deployment named nginx\n\t\tkubectl logs deployment/nginx -c nginx-1\x00\n\t\t# Run a proxy to kubernetes apiserver on port 8011, serving static content from ./local/www/\n\t\tkubectl proxy --port=8011 --www=./local/www/\n\n\t\t# Run a proxy to kubernetes apiserver on an arbitrary local port.\n\t\t# The chosen port for the server will be output to stdout.\n\t\tkubectl proxy --port=0\n\n\t\t# Run a proxy to kubernetes apiserver, changing the api prefix to k8s-api\n\t\t# This makes e.g. the pods api available at localhost:8001/k8s-api/v1/pods/\n\t\tkubectl proxy --api-prefix=/k8s-api\x00\n\t\t# Scale a replicaset named 'foo' to 3.\n\t\tkubectl scale --replicas=3 rs/foo\n\n\t\t# Scale a resource identified by type and name specified in \"foo.yaml\" to 3.\n\t\tkubectl scale --replicas=3 -f foo.yaml\n\n\t\t# If the deployment named mysql's current size is 2, scale mysql to 3.\n\t\tkubectl scale --current-replicas=2 --replicas=3 deployment/mysql\n\n\t\t# Scale multiple replication controllers.\n\t\tkubectl scale --replicas=5 rc/foo rc/bar rc/baz\n\n\t\t# Scale job named 'cron' to 3.\n\t\tkubectl scale --replicas=3 job/cron\x00\n\t\t# Set the last-applied-configuration of a resource to match the contents of a file.\n\t\tkubectl apply set-last-applied -f deploy.yaml\n\n\t\t# Execute set-last-applied against each configuration file in a directory.\n\t\tkubectl apply set-last-applied -f path/\n\n\t\t# Set the last-applied-configuration of a resource to match the contents of a file, will create the annotation if it does not already exist.\n\t\tkubectl apply set-last-applied -f deploy.yaml --create-annotation=true\n\t\t\x00\n\t\t# Show metrics for all pods in the default namespace\n\t\tkubectl top pod\n\n\t\t# Show metrics for all pods in the given namespace\n\t\tkubectl top pod --namespace=NAMESPACE\n\n\t\t# Show metrics for a given pod and its containers\n\t\tkubectl top pod POD_NAME --containers\n\n\t\t# Show metrics for the pods defined by label name=myLabel\n\t\tkubectl top pod -l name=myLabel\x00\n\t\t# Shut down foo.\n\t\tkubectl stop replicationcontroller foo\n\n\t\t# Stop pods and services with label name=myLabel.\n\t\tkubectl stop pods,services -l name=myLabel\n\n\t\t# Shut down the service defined in service.json\n\t\tkubectl stop -f service.json\n\n\t\t# Shut down all resources in the path/to/resources directory\n\t\tkubectl stop -f path/to/resources\x00\n\t\t# Start a single instance of nginx.\n\t\tkubectl run nginx --image=nginx\n\n\t\t# Start a single instance of hazelcast and let the container expose port 5701 .\n\t\tkubectl run hazelcast --image=hazelcast --port=5701\n\n\t\t# Start a single instance of hazelcast and set environment variables \"DNS_DOMAIN=cluster\" and \"POD_NAMESPACE=default\" in the container.\n\t\tkubectl run hazelcast --image=hazelcast --env=\"DNS_DOMAIN=cluster\" --env=\"POD_NAMESPACE=default\"\n\n\t\t# Start a replicated instance of nginx.\n\t\tkubectl run nginx --image=nginx --replicas=5\n\n\t\t# Dry run. Print the corresponding API objects without creating them.\n\t\tkubectl run nginx --image=nginx --dry-run\n\n\t\t# Start a single instance of nginx, but overload the spec of the deployment with a partial set of values parsed from JSON.\n\t\tkubectl run nginx --image=nginx --overrides='{ \"apiVersion\": \"v1\", \"spec\": { ... } }'\n\n\t\t# Start a pod of busybox and keep it in the foreground, don't restart it if it exits.\n\t\tkubectl run -i -t busybox --image=busybox --restart=Never\n\n\t\t# Start the nginx container using the default command, but use custom arguments (arg1 .. argN) for that command.\n\t\tkubectl run nginx --image=nginx -- ... \n\n\t\t# Start the nginx container using a different command and custom arguments.\n\t\tkubectl run nginx --image=nginx --command -- ... \n\n\t\t# Start the perl container to compute \u03c0 to 2000 places and print it out.\n\t\tkubectl run pi --image=perl --restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'\n\n\t\t# Start the cron job to compute \u03c0 to 2000 places and print it out every 5 minutes.\n\t\tkubectl run pi --schedule=\"0/5 * * * ?\" --image=perl --restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'\x00\n\t\t# Update node 'foo' with a taint with key 'dedicated' and value 'special-user' and effect 'NoSchedule'.\n\t\t# If a taint with that key and effect already exists, its value is replaced as specified.\n\t\tkubectl taint nodes foo dedicated=special-user:NoSchedule\n\n\t\t# Remove from node 'foo' the taint with key 'dedicated' and effect 'NoSchedule' if one exists.\n\t\tkubectl taint nodes foo dedicated:NoSchedule-\n\n\t\t# Remove from node 'foo' all the taints with key 'dedicated'\n\t\tkubectl taint nodes foo dedicated-\x00\n\t\t# Update pod 'foo' with the label 'unhealthy' and the value 'true'.\n\t\tkubectl label pods foo unhealthy=true\n\n\t\t# Update pod 'foo' with the label 'status' and the value 'unhealthy', overwriting any existing value.\n\t\tkubectl label --overwrite pods foo status=unhealthy\n\n\t\t# Update all pods in the namespace\n\t\tkubectl label pods --all status=unhealthy\n\n\t\t# Update a pod identified by the type and name in \"pod.json\"\n\t\tkubectl label -f pod.json status=unhealthy\n\n\t\t# Update pod 'foo' only if the resource is unchanged from version 1.\n\t\tkubectl label pods foo status=unhealthy --resource-version=1\n\n\t\t# Update pod 'foo' by removing a label named 'bar' if it exists.\n\t\t# Does not require the --overwrite flag.\n\t\tkubectl label pods foo bar-\x00\n\t\t# Update pods of frontend-v1 using new replication controller data in frontend-v2.json.\n\t\tkubectl rolling-update frontend-v1 -f frontend-v2.json\n\n\t\t# Update pods of frontend-v1 using JSON data passed into stdin.\n\t\tcat frontend-v2.json | kubectl rolling-update frontend-v1 -f -\n\n\t\t# Update the pods of frontend-v1 to frontend-v2 by just changing the image, and switching the\n\t\t# name of the replication controller.\n\t\tkubectl rolling-update frontend-v1 frontend-v2 --image=image:v2\n\n\t\t# Update the pods of frontend by just changing the image, and keeping the old name.\n\t\tkubectl rolling-update frontend --image=image:v2\n\n\t\t# Abort and reverse an existing rollout in progress (from frontend-v1 to frontend-v2).\n\t\tkubectl rolling-update frontend-v1 frontend-v2 --rollback\x00\n\t\t# View the last-applied-configuration annotations by type/name in YAML.\n\t\tkubectl apply view-last-applied deployment/nginx\n\n\t\t# View the last-applied-configuration annotations by file in JSON\n\t\tkubectl apply view-last-applied -f deploy.yaml -o json\x00\n\t\tApply a configuration to a resource by filename or stdin.\n\t\tThis resource will be created if it doesn't exist yet.\n\t\tTo use 'apply', always create the resource initially with either 'apply' or 'create --save-config'.\n\n\t\tJSON and YAML formats are accepted.\n\n\t\tAlpha Disclaimer: the --prune functionality is not yet complete. Do not use unless you are aware of what the current state is. See https://issues.k8s.io/34274.\x00\n\t\tConvert config files between different API versions. Both YAML\n\t\tand JSON formats are accepted.\n\n\t\tThe command takes filename, directory, or URL as input, and convert it into format\n\t\tof version specified by --output-version flag. If target version is not specified or\n\t\tnot supported, convert to latest version.\n\n\t\tThe default output will be printed to stdout in YAML format. One can use -o option\n\t\tto change to output destination.\x00\n\t\tCreate a ClusterRole.\x00\n\t\tCreate a ClusterRoleBinding for a particular ClusterRole.\x00\n\t\tCreate a RoleBinding for a particular Role or ClusterRole.\x00\n\t\tCreate a TLS secret from the given public/private key pair.\n\n\t\tThe public/private key pair must exist before hand. The public key certificate must be .PEM encoded and match the given private key.\x00\n\t\tCreate a configmap based on a file, directory, or specified literal value.\n\n\t\tA single configmap may package one or more key/value pairs.\n\n\t\tWhen creating a configmap based on a file, the key will default to the basename of the file, and the value will\n\t\tdefault to the file content. If the basename is an invalid key, you may specify an alternate key.\n\n\t\tWhen creating a configmap based on a directory, each file whose basename is a valid key in the directory will be\n\t\tpackaged into the configmap. Any directory entries except regular files are ignored (e.g. subdirectories,\n\t\tsymlinks, devices, pipes, etc).\x00\n\t\tCreate a namespace with the specified name.\x00\n\t\tCreate a new secret for use with Docker registries.\n\n\t\tDockercfg secrets are used to authenticate against Docker registries.\n\n\t\tWhen using the Docker command line to push images, you can authenticate to a given registry by running\n\n\t\t $ docker login DOCKER_REGISTRY_SERVER --username=DOCKER_USER --password=DOCKER_PASSWORD --email=DOCKER_EMAIL'.\n\n That produces a ~/.dockercfg file that is used by subsequent 'docker push' and 'docker pull' commands to\n\t\tauthenticate to the registry. The email address is optional.\n\n\t\tWhen creating applications, you may have a Docker registry that requires authentication. In order for the\n\t\tnodes to pull images on your behalf, they have to have the credentials. You can provide this information\n\t\tby creating a dockercfg secret and attaching it to your service account.\x00\n\t\tCreate a pod disruption budget with the specified name, selector, and desired minimum available pods\x00\n\t\tCreate a resource by filename or stdin.\n\n\t\tJSON and YAML formats are accepted.\x00\n\t\tCreate a resourcequota with the specified name, hard limits and optional scopes\x00\n\t\tCreate a role with single rule.\x00\n\t\tCreate a secret based on a file, directory, or specified literal value.\n\n\t\tA single secret may package one or more key/value pairs.\n\n\t\tWhen creating a secret based on a file, the key will default to the basename of the file, and the value will\n\t\tdefault to the file content. If the basename is an invalid key, you may specify an alternate key.\n\n\t\tWhen creating a secret based on a directory, each file whose basename is a valid key in the directory will be\n\t\tpackaged into the secret. Any directory entries except regular files are ignored (e.g. subdirectories,\n\t\tsymlinks, devices, pipes, etc).\x00\n\t\tCreate a service account with the specified name.\x00\n\t\tCreate and run a particular image, possibly replicated.\n\n\t\tCreates a deployment or job to manage the created container(s).\x00\n\t\tCreates an autoscaler that automatically chooses and sets the number of pods that run in a kubernetes cluster.\n\n\t\tLooks up a Deployment, ReplicaSet, or ReplicationController by name and creates an autoscaler that uses the given resource as a reference.\n\t\tAn autoscaler can automatically increase or decrease number of pods deployed within the system as needed.\x00\n\t\tDelete resources by filenames, stdin, resources and names, or by resources and label selector.\n\n\t\tJSON and YAML formats are accepted. Only one type of the arguments may be specified: filenames,\n\t\tresources and names, or resources and label selector.\n\n\t\tSome resources, such as pods, support graceful deletion. These resources define a default period\n\t\tbefore they are forcibly terminated (the grace period) but you may override that value with\n\t\tthe --grace-period flag, or pass --now to set a grace-period of 1. Because these resources often\n\t\trepresent entities in the cluster, deletion may not be acknowledged immediately. If the node\n\t\thosting a pod is down or cannot reach the API server, termination may take significantly longer\n\t\tthan the grace period. To force delete a resource,\tyou must pass a grace\tperiod of 0 and specify\n\t\tthe --force flag.\n\n\t\tIMPORTANT: Force deleting pods does not wait for confirmation that the pod's processes have been\n\t\tterminated, which can leave those processes running until the node detects the deletion and\n\t\tcompletes graceful deletion. If your processes use shared storage or talk to a remote API and\n\t\tdepend on the name of the pod to identify themselves, force deleting those pods may result in\n\t\tmultiple processes running on different machines using the same identification which may lead\n\t\tto data corruption or inconsistency. Only force delete pods when you are sure the pod is\n\t\tterminated, or if your application can tolerate multiple copies of the same pod running at once.\n\t\tAlso, if you force delete pods the scheduler may place new pods on those nodes before the node\n\t\thas released those resources and causing those pods to be evicted immediately.\n\n\t\tNote that the delete command does NOT do resource version checks, so if someone\n\t\tsubmits an update to a resource right when you submit a delete, their update\n\t\twill be lost along with the rest of the resource.\x00\n\t\tDeprecated: Gracefully shut down a resource by name or filename.\n\n\t\tThe stop command is deprecated, all its functionalities are covered by delete command.\n\t\tSee 'kubectl delete --help' for more details.\n\n\t\tAttempts to shut down and delete a resource that supports graceful termination.\n\t\tIf the resource is scalable it will be scaled to 0 before deletion.\x00\n\t\tDisplay Resource (CPU/Memory/Storage) usage of nodes.\n\n\t\tThe top-node command allows you to see the resource consumption of nodes.\x00\n\t\tDisplay Resource (CPU/Memory/Storage) usage of pods.\n\n\t\tThe 'top pod' command allows you to see the resource consumption of pods.\n\n\t\tDue to the metrics pipeline delay, they may be unavailable for a few minutes\n\t\tsince pod creation.\x00\n\t\tDisplay Resource (CPU/Memory/Storage) usage.\n\n\t\tThe top command allows you to see the resource consumption for nodes or pods.\n\n\t\tThis command requires Heapster to be correctly configured and working on the server. \x00\n\t\tDrain node in preparation for maintenance.\n\n\t\tThe given node will be marked unschedulable to prevent new pods from arriving.\n\t\t'drain' evicts the pods if the APIServer supports eviction\n\t\t(http://kubernetes.io/docs/admin/disruptions/). Otherwise, it will use normal DELETE\n\t\tto delete the pods.\n\t\tThe 'drain' evicts or deletes all pods except mirror pods (which cannot be deleted through\n\t\tthe API server). If there are DaemonSet-managed pods, drain will not proceed\n\t\twithout --ignore-daemonsets, and regardless it will not delete any\n\t\tDaemonSet-managed pods, because those pods would be immediately replaced by the\n\t\tDaemonSet controller, which ignores unschedulable markings. If there are any\n\t\tpods that are neither mirror pods nor managed by ReplicationController,\n\t\tReplicaSet, DaemonSet, StatefulSet or Job, then drain will not delete any pods unless you\n\t\tuse --force. --force will also allow deletion to proceed if the managing resource of one\n\t\tor more pods is missing.\n\n\t\t'drain' waits for graceful termination. You should not operate on the machine until\n\t\tthe command completes.\n\n\t\tWhen you are ready to put the node back into service, use kubectl uncordon, which\n\t\twill make the node schedulable again.\n\n\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_drain.svg)\x00\n\t\tEdit a resource from the default editor.\n\n\t\tThe edit command allows you to directly edit any API resource you can retrieve via the\n\t\tcommand line tools. It will open the editor defined by your KUBE_EDITOR, or EDITOR\n\t\tenvironment variables, or fall back to 'vi' for Linux or 'notepad' for Windows.\n\t\tYou can edit multiple objects, although changes are applied one at a time. The command\n\t\taccepts filenames as well as command line arguments, although the files you point to must\n\t\tbe previously saved versions of resources.\n\n\t\tEditing is done with the API version used to fetch the resource.\n\t\tTo edit using a specific API version, fully-qualify the resource, version, and group.\n\n\t\tThe default format is YAML. To edit in JSON, specify \"-o json\".\n\n\t\tThe flag --windows-line-endings can be used to force Windows line endings,\n\t\totherwise the default for your operating system will be used.\n\n\t\tIn the event an error occurs while updating, a temporary file will be created on disk\n\t\tthat contains your unapplied changes. The most common error when updating a resource\n\t\tis another editor changing the resource on the server. When this occurs, you will have\n\t\tto apply your changes to the newer version of the resource, or update your temporary\n\t\tsaved copy to include the latest resource version.\x00\n\t\tMark node as schedulable.\x00\n\t\tMark node as unschedulable.\x00\n\t\tOutput shell completion code for the specified shell (bash or zsh).\n\t\tThe shell code must be evaluated to provide interactive\n\t\tcompletion of kubectl commands. This can be done by sourcing it from\n\t\tthe .bash_profile.\n\n\t\tNote: this requires the bash-completion framework, which is not installed\n\t\tby default on Mac. This can be installed by using homebrew:\n\n\t\t $ brew install bash-completion\n\n\t\tOnce installed, bash_completion must be evaluated. This can be done by adding the\n\t\tfollowing line to the .bash_profile\n\n\t\t $ source $(brew --prefix)/etc/bash_completion\n\n\t\tNote for zsh users: [1] zsh completions are only supported in versions of zsh >= 5.2\x00\n\t\tPerform a rolling update of the given ReplicationController.\n\n\t\tReplaces the specified replication controller with a new replication controller by updating one pod at a time to use the\n\t\tnew PodTemplate. The new-controller.json must specify the same namespace as the\n\t\texisting replication controller and overwrite at least one (common) label in its replicaSelector.\n\n\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_rollingupdate.svg)\x00\n\t\tReplace a resource by filename or stdin.\n\n\t\tJSON and YAML formats are accepted. If replacing an existing resource, the\n\t\tcomplete resource spec must be provided. This can be obtained by\n\n\t\t $ kubectl get TYPE NAME -o yaml\n\n\t\tPlease refer to the models in https://htmlpreview.github.io/?https://github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions.html to find if a field is mutable.\x00\n\t\tSet a new size for a Deployment, ReplicaSet, Replication Controller, or Job.\n\n\t\tScale also allows users to specify one or more preconditions for the scale action.\n\n\t\tIf --current-replicas or --resource-version is specified, it is validated before the\n\t\tscale is attempted, and it is guaranteed that the precondition holds true when the\n\t\tscale is sent to the server.\x00\n\t\tSet the latest last-applied-configuration annotations by setting it to match the contents of a file.\n\t\tThis results in the last-applied-configuration being updated as though 'kubectl apply -f ' was run,\n\t\twithout updating any other parts of the object.\x00\n\t\tTo proxy all of the kubernetes api and nothing else, use:\n\n\t\t $ kubectl proxy --api-prefix=/\n\n\t\tTo proxy only part of the kubernetes api and also some static files:\n\n\t\t $ kubectl proxy --www=/my/files --www-prefix=/static/ --api-prefix=/api/\n\n\t\tThe above lets you 'curl localhost:8001/api/v1/pods'.\n\n\t\tTo proxy the entire kubernetes api at a different root, use:\n\n\t\t $ kubectl proxy --api-prefix=/custom/\n\n\t\tThe above lets you 'curl localhost:8001/custom/api/v1/pods'\x00\n\t\tUpdate field(s) of a resource using strategic merge patch\n\n\t\tJSON and YAML formats are accepted.\n\n\t\tPlease refer to the models in https://htmlpreview.github.io/?https://github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions.html to find if a field is mutable.\x00\n\t # Create a new TLS secret named tls-secret with the given key pair:\n\t kubectl create secret tls tls-secret --cert=path/to/tls.cert --key=path/to/tls.key\x00\n\t # Create a new namespace named my-namespace\n\t kubectl create namespace my-namespace\x00\n\t # Create a new secret named my-secret with keys for each file in folder bar\n\t kubectl create secret generic my-secret --from-file=path/to/bar\n\n\t # Create a new secret named my-secret with specified keys instead of names on disk\n\t kubectl create secret generic my-secret --from-file=ssh-privatekey=~/.ssh/id_rsa --from-file=ssh-publickey=~/.ssh/id_rsa.pub\n\n\t # Create a new secret named my-secret with key1=supersecret and key2=topsecret\n\t kubectl create secret generic my-secret --from-literal=key1=supersecret --from-literal=key2=topsecret\x00\n\t # Create a new service account named my-service-account\n\t kubectl create serviceaccount my-service-account\x00\n\t# Create a new ExternalName service named my-ns \n\tkubectl create service externalname my-ns --external-name bar.com\x00\n\tCreate an ExternalName service with the specified name.\n\n\tExternalName service references to an external DNS address instead of\n\tonly pods, which will allow application authors to reference services\n\tthat exist off platform, on other clusters, or locally.\x00\n\tHelp provides help for any command in the application.\n\tSimply type kubectl help [path to command] for full details.\x00\n # Create a new LoadBalancer service named my-lbs\n kubectl create service loadbalancer my-lbs --tcp=5678:8080\x00\n # Create a new clusterIP service named my-cs\n kubectl create service clusterip my-cs --tcp=5678:8080\n\n # Create a new clusterIP service named my-cs (in headless mode)\n kubectl create service clusterip my-cs --clusterip=\"None\"\x00\n # Create a new deployment named my-dep that runs the busybox image.\n kubectl create deployment my-dep --image=busybox\x00\n # Create a new nodeport service named my-ns\n kubectl create service nodeport my-ns --tcp=5678:8080\x00\n # Dump current cluster state to stdout\n kubectl cluster-info dump\n\n # Dump current cluster state to /path/to/cluster-state\n kubectl cluster-info dump --output-directory=/path/to/cluster-state\n\n # Dump all namespaces to stdout\n kubectl cluster-info dump --all-namespaces\n\n # Dump a set of namespaces to /path/to/cluster-state\n kubectl cluster-info dump --namespaces default,kube-system --output-directory=/path/to/cluster-state\x00\n Create a LoadBalancer service with the specified name.\x00\n Create a clusterIP service with the specified name.\x00\n Create a deployment with the specified name.\x00\n Create a nodeport service with the specified name.\x00\n Display addresses of the master and services with label kubernetes.io/cluster-service=true\n To further debug and diagnose cluster problems, use 'kubectl cluster-info dump'.\x00A comma-delimited set of quota scopes that must all match each object tracked by the quota.\x00A comma-delimited set of resource=quantity pairs that define a hard limit.\x00A label selector to use for this budget. Only equality-based selector requirements are supported.\x00A label selector to use for this service. Only equality-based selector requirements are supported. If empty (the default) infer the selector from the replication controller or replica set.)\x00A schedule in the Cron format the job should be run with.\x00Additional external IP address (not managed by Kubernetes) to accept for the service. If this IP is routed to a node, the service can be accessed by this IP in addition to its generated service IP.\x00Apply a configuration to a resource by filename or stdin\x00Approve a certificate signing request\x00Assign your own ClusterIP or set to 'None' for a 'headless' service (no loadbalancing).\x00Attach to a running container\x00Auto-scale a Deployment, ReplicaSet, or ReplicationController\x00ClusterIP to be assigned to the service. Leave empty to auto-allocate, or set to 'None' to create a headless service.\x00ClusterRole this ClusterRoleBinding should reference\x00ClusterRole this RoleBinding should reference\x00Container name which will have its image upgraded. Only relevant when --image is specified, ignored otherwise. Required when using --image on a multi-container pod\x00Convert config files between different API versions\x00Copy files and directories to and from containers.\x00Create a ClusterRoleBinding for a particular ClusterRole\x00Create a LoadBalancer service.\x00Create a NodePort service.\x00Create a RoleBinding for a particular Role or ClusterRole\x00Create a TLS secret\x00Create a clusterIP service.\x00Create a configmap from a local file, directory or literal value\x00Create a deployment with the specified name.\x00Create a namespace with the specified name\x00Create a pod disruption budget with the specified name.\x00Create a quota with the specified name.\x00Create a resource by filename or stdin\x00Create a secret for use with a Docker registry\x00Create a secret from a local file, directory or literal value\x00Create a secret using specified subcommand\x00Create a service account with the specified name\x00Create a service using specified subcommand.\x00Create an ExternalName service.\x00Delete resources by filenames, stdin, resources and names, or by resources and label selector\x00Delete the specified cluster from the kubeconfig\x00Delete the specified context from the kubeconfig\x00Deny a certificate signing request\x00Deprecated: Gracefully shut down a resource by name or filename\x00Describe one or many contexts\x00Display Resource (CPU/Memory) usage of nodes\x00Display Resource (CPU/Memory) usage of pods\x00Display Resource (CPU/Memory) usage.\x00Display cluster info\x00Display clusters defined in the kubeconfig\x00Display merged kubeconfig settings or a specified kubeconfig file\x00Display one or many resources\x00Displays the current-context\x00Documentation of resources\x00Drain node in preparation for maintenance\x00Dump lots of relevant info for debugging and diagnosis\x00Edit a resource on the server\x00Email for Docker registry\x00Execute a command in a container\x00Explicit policy for when to pull container images. Required when --image is same as existing image, ignored otherwise.\x00Forward one or more local ports to a pod\x00Help about any command\x00IP to assign to the Load Balancer. If empty, an ephemeral IP will be created and used (cloud-provider specific).\x00Manage a deployment rollout\x00Mark node as schedulable\x00Mark node as unschedulable\x00Mark the provided resource as paused\x00Modify certificate resources.\x00Modify kubeconfig files\x00Name or number for the port on the container that the service should direct traffic to. Optional.\x00Only return logs after a specific date (RFC3339). Defaults to all logs. Only one of since-time / since may be used.\x00Output shell completion code for the specified shell (bash or zsh)\x00Password for Docker registry authentication\x00Path to PEM encoded public key certificate.\x00Path to private key associated with given certificate.\x00Perform a rolling update of the given ReplicationController\x00Precondition for resource version. Requires that the current resource version match this value in order to scale.\x00Print the client and server version information\x00Print the list of flags inherited by all commands\x00Print the logs for a container in a pod\x00Replace a resource by filename or stdin\x00Resume a paused resource\x00Role this RoleBinding should reference\x00Run a particular image on the cluster\x00Run a proxy to the Kubernetes API server\x00Set a new size for a Deployment, ReplicaSet, Replication Controller, or Job\x00Set specific features on objects\x00Set the last-applied-configuration annotation on a live object to match the contents of a file.\x00Set the selector on a resource\x00Sets a cluster entry in kubeconfig\x00Sets a context entry in kubeconfig\x00Sets a user entry in kubeconfig\x00Sets an individual value in a kubeconfig file\x00Sets the current-context in a kubeconfig file\x00Show details of a specific resource or group of resources\x00Show the status of the rollout\x00Synonym for --target-port\x00Take a replication controller, service, deployment or pod and expose it as a new Kubernetes Service\x00The image for the container to run.\x00The image pull policy for the container. If left empty, this value will not be specified by the client and defaulted by the server\x00The minimum number or percentage of available pods this budget requires.\x00The name for the newly created object.\x00The name for the newly created object. If not specified, the name of the input resource will be used.\x00The name of the API generator to use, see http://kubernetes.io/docs/user-guide/kubectl-conventions/#generators for a list.\x00The name of the API generator to use. Currently there is only 1 generator.\x00The name of the API generator to use. There are 2 generators: 'service/v1' and 'service/v2'. The only difference between them is that service port in v1 is named 'default', while it is left unnamed in v2. Default is 'service/v2'.\x00The name of the generator to use for creating a service. Only used if --expose is true\x00The network protocol for the service to be created. Default is 'TCP'.\x00The port that the service should serve on. Copied from the resource being exposed, if unspecified\x00The port that this container exposes. If --expose is true, this is also the port used by the service that is created.\x00The type of secret to create\x00Type for this service: ClusterIP, NodePort, or LoadBalancer. Default is 'ClusterIP'.\x00Undo a previous rollout\x00Update field(s) of a resource using strategic merge patch\x00Update image of a pod template\x00Update resource requests/limits on objects with pod templates\x00Update the annotations on a resource\x00Update the labels on a resource\x00Update the taints on one or more nodes\x00Username for Docker registry authentication\x00View latest last-applied-configuration annotations of a resource/object\x00View rollout history\x00kubectl controls the Kubernetes cluster manager\x00Project-Id-Version: kubernetes\nReport-Msgid-Bugs-To: EMAIL\nPOT-Creation-Date: 2017-09-02 01:36+0200\nPO-Revision-Date: 2017-09-02 01:36+0200\nLanguage: de_DE\nMIME-Version: 1.0\nContent-Type: text/plain; charset=UTF-8\nContent-Transfer-Encoding: 8bit\nPlural-Forms: nplurals=2; plural=(n != 1);\nLast-Translator: Steffen Schmitz \nLanguage-Team: Steffen Schmitz \nX-Generator: Poedit 1.8.7.1\nX-Poedit-SourceCharset: UTF-8\n\x00\n\t\t # Erstellt ein ClusterRoleBinding f\u00fcr user1, user2 und group1 mit der ClusterRole cluster-admin\n\t\t kubectl create clusterrolebinding cluster-admin --clusterrole=cluster-admin --user=user1 --user=user2 --group=group1\x00\n\t\t # Erstellt ein RoleBinding f\u00fcr user1, user2 und group1 mit der ClusterRole admin\n\t\t kubectl create rolebinding admin --clusterrole=admin --user=user1 --user=user2 --group=group1\x00\n\t\t # Erstellt eine neue ConfigMap mit dem Namen my-config basierend auf dem Ordner bar\n\t\t kubectl create configmap my-config --from-file=path/to/bar\n\n\t\t # Erstellt eine neue ConfigMap mit dem Namen my-config mit den angegebenen Keys statt des Dateinamens auf der Festplatte.\n\t\t kubectl create configmap my-config --from-file=key1=/path/to/bar/file1.txt --from-file=key2=/path/to/bar/file2.txt\n\n\t\t # Erstellt eine neue ConfigMap mit dem Namen my-config mit key1=config1 und key2=config2\n\t\t kubectl create configmap my-config --from-literal=key1=config1 --from-literal=key2=config2\x00\n\t\t # Wenn keine .dockercfg Datei existiert, kann direkt ein dockercfg Secret erstellen mit:\n\t\t kubectl create secret docker-registry my-secret --docker-server=DOCKER_REGISTRY_SERVER --docker-username=DOCKER_USER --docker-password=DOCKER_PASSWORD --docker-email=DOCKER_EMAIL\x00\n\t\t # Zeige Metriken f\u00fcr alle Nodes\n\t\t kubectl top node\n\n\t\t # Zeige Metriken f\u00fcr den gegebenen Node\n\t\t kubectl top node NODE_NAME\x00\n\t\t# Wende die Konfiguration in pod.json auf einen Pod an.\n\t\tkubectl apply -f ./pod.json\n\n\t\t# Wende die JSON-Daten von stdin auf einen Pod an.\n\t\tcat pod.json | kubectl apply -f -\n\n\t\t# Hinweis: --prune ist noch in Alpha\n\t\t# Wende die Konfiguration, mit dem Label app=nginx, im manifest.yaml an und l\u00f6sche alle Resourcen, die nicht in der Datei sind oder nicht das Label app=nginx besitzen.\n\t\tkubectl apply --prune -f manifest.yaml -l app=nginx\n\n\t\t# Wende die Konfiguration im manifest.yaml an und l\u00f6sche alle ConfigMaps, die nicht in der Datei sind.\n\t\tkubectl apply --prune -f manifest.yaml --all --prune-whitelist=core/v1/ConfigMap\x00\n\t\t# Auto-skaliere ein Deployment \"foo\", mit einer Anzahl an Pods zwischen 2 und 10, eine Ziel-CPU-Auslastung ist angegeben, sodass eine Standard-autoskalierungsregel verwendet wird:\n\t\tkubectl autoscale deployment foo --min=2 --max=10\n\n\t\t# Auto-skaliere einen Replication-Controller \"foo\", mit einer Anzahl an Pods zwischen 1 und 5, mit einer Ziel-CPU-Auslastung von 80%:\n\t\tkubectl autoscale rc foo --max=5 --cpu-percent=80\x00\n\t\t# Konvertiere 'pod.yaml' zur neuesten Version und schreibe auf stdout.\n\t\tkubectl convert -f pod.yaml\n\n\t\t# Konvertiere den aktuellen Zustand der Resource, die in 'pod.yaml' angegeben ist, zur neuesten Version\n\t\t# und schreibe auf stdout im JSON-Format.\n\t\tkubectl convert -f pod.yaml --local -o json\n\n\t\t# Konvertiere alle Dateien im aktuellen Ordner zur neuesten Version und erstelle sie.\n\t\tkubectl convert -f . | kubectl create -f -\x00\n\t\t# Erstellt eine ClusterRole \"pod-reader\", die es Nutzern erlaubt \"get\", \"watch\" und \"list\" auf den Pods auszuf\u00fchren\n\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --resource=pods\n\n\t\t# Erstellt eine ClusterRole \"pod-reader\" mit dem angegebenen ResourceName\n\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --resource=pods --resource-name=readablepod\x00\n\t\t# Erstellt eine Role \"pod-reader\", die es dem Nutzer erlaubt \"get\", \"watch\" und \"list\" auf den Pods auszuf\u00fchren\n\t\tkubectl create role pod-reader --verb=get --verb=list --verb=watch --resource=pods\n\n\t\t# Erstellt eine Role \"pod-reader\" mit dem angegebenen ResourceName\n\t\tkubectl create role pod-reader --verb=get --verg=list --verb=watch --resource=pods --resource-name=readablepod\x00\n\t\t# Erstellt eine neue ResourceQuota my-quota\n\t\tkubectl create quota my-quota --hard=cpu=1,memory=1G,pods=2,services=3,replicationcontrollers=2,resourcequotas=1,secrets=5,persistentvolumeclaims=10\n\n\t\t# Erstellt eine neue ResourceQuota best-effort\n\t\tkubectl create quota best-effort --hard=pods=100 --scopes=BestEffort\x00\n\t\t# Erstellt ein Pod-Disruption-Budget my-pdb, dass alle Pods mit dem Label app=rails ausw\u00e4hlt\n\t\t# und sicherstellt, dass mindestens einer von ihnen zu jedem Zeitpunkt verf\u00fcgbar ist.\n\t\tkubectl create poddisruptionbudget my-pdb --selector=app=rails --min-available=1\n\n\t\t# Erstellt ein Pod-Disruption-Budget my-pdb, dass alle Pods mit dem Label app=nginx ausw\u00e4hlt\n\t\t# und sicherstellt, dass mindestens die H\u00e4lfte der gew\u00e4hlten Pods zu jedem Zeitpunkt verf\u00fcgbar ist.\n\t\tkubectl create pdb my-pdb --selector=app=nginx --min-available=50%\x00\n\t\t# Erstellt einen Pod mit den Daten in pod.json.\n\t\tkubectl create -f ./pod.json\n\n\t\t# Erstellt einen Pod basierend auf den JSON-Daten von stdin.\n\t\tcat pod.json | kubectl create -f -\n\n\t\t# Ver\u00e4ndert die Daten in docker-registry.yaml in JSON mit dem v1 API Format und erstellt eine Resource mit den ver\u00e4nderten Daten.\n\t\tkubectl create -f docker-registry.yaml --edit --output-version=v1 -o json\x00\n\t\t# Erstellt einen Service f\u00fcr einen replizierten nginx, der auf Port 80 h\u00f6rt und verbindet sich mit den Containern auf Port 8000.\n\t\tkubectl expose rc nginx --port=80 --target-port=8000\n\n\t\t# Erstellt einen Service f\u00fcr einen Replication-Controller, der \u00fcber type und name in \"nginx-controller.yaml\" identifiziert wird, auf Port 80 h\u00f6rt und verbindet sich mit den Containern auf Port 8000.\n\t\tkubectl expose -f nginx-controller.yaml --port=80 --target-port=8000\n\n\t\t# Erstellt einen Service, mit dem Namen \"frontend\", f\u00fcr einen Pod valid-pod, der auf port 444 h\u00f6rt\n\t\tkubectl expose pod valid-pod --port=444 --name=frontend\n\n\t\t# Erstellt einen zweiten Service basierend auf dem vorherigen Service, der den Container Port 8443 auf Port 443 mit dem Namen \"nginx-https\" anbietet\n\t\tkubectl expose service nginx --port=443 --target-port=8443 --name=nginx-https\n\n\t\t# Erstellt einen Service f\u00fcr eine Replicated-Streaming-Application auf Port 4100, die UDP-Traffic verarbeitet und 'video-stream' hei\u00dft.\n\t\tkubectl expose rc streamer --port=4100 --protocol=udp --name=video-stream\n\n\t\t# Erstellt einen Service f\u00fcr einen replizierten nginx mit einem Replica-Set, dass auf Port 80 h\u00f6rt und verbindet sich mit den Containern auf Port 8000.\n\t\tkubectl expose rs nginx --port=80 --target-port=8000\n\n\t\t# Erstellt einen Service f\u00fcr ein nginx Deployment, dass auf Port 80 h\u00f6rt und verbindet sich mit den Containern auf Port 8000.\n\t\tkubectl expose deployment nginx --port=80 --target-port=8000\x00\n\t\t# L\u00f6scht einen Pod mit type und name aus pod.json.\n\t\tkubectl delete -f ./pod.json\n\n\t\t# L\u00f6scht einen Pod mit dem type und name aus den JSON-Daten von stdin.\n\t\tcat pod.json | kubectl delete -f -\n\n\t\t# L\u00f6scht Pods und Services mit den Namen \"baz\" und \"foo\"\n\t\tkubectl delete pod,service baz foo\n\n\t\t# L\u00f6scht Pods und Services mit dem Label name=myLabel.\n\t\tkubectl delete pods,services -l name=myLabel\n\n\t\t# L\u00f6scht einen Pod mit minimaler Verz\u00f6gerung\n\t\tkubectl delete pod foo --now\n\n\t\t# Erzwingt das L\u00f6schen eines Pods auf einem toten Node\n\t\tkubectl delete pod foo --grace-period=0 --force\n\n\t\t# L\u00f6scht alle Pods\n\t\tkubectl delete pods --all\x00\n\t\t# Beschreibt einen Knoten\n\t\tkubectl describe nodes kubernetes-node-emt8.c.myproject.internal\n\n\t\t# Beschreibt einen Pod\n\t\tkubectl describe pods/nginx\n\n\t\t# Beschreibt einen Pod mit type und name aus \"pod.json\"\n\t\tkubectl describe -f pod.json\n\n\t\t# Beschreibt alle Pods\n\t\tkubectl describe pods\n\n\t\t# Beschreibt Pods mit dem Label name=myLabel\n\t\tkubectl describe po -l name=myLabel\n\n\t\t# Beschreibt alle Pods, die vom ReplicationController 'frontend' verwaltet werden (rc-erstellte Pods\n\t\t# bekommen den Namen des rc als Prefix im Podnamen).\n\t\tkubectl describe pods frontend\x00\n\t\t# Leere den Knoten \"foo\", selbst wenn er Pods enth\u00e4lt, die nicht von einem ReplicationController, ReplicaSet, Job, DaemonSet oder StatefulSet verwaltet werden.\n\t\t$ kubectl drain foo --force\n\n\t\t# Wie zuvor, aber es wird abgebrochen, wenn er Pods enth\u00e4lt, die nicht von einem ReplicationController, ReplicaSet, Job, DaemonSet oder StatefulSet verwaltet werden und mit einer Schonfrist von 15 Minuten.\n\t\t$ kubectl drain foo --grace-period=900\x00\n\t\t# Bearbeite den Service 'docker-registry':\n\t\tkubectl edit svc/docker-registry\n\n\t\t# Benutze einen anderen Editor\n\t\tKUBE_EDITOR=\"nano\" kubectl edit svc/docker-registry\n\n\t\t# Bearbeite den Job 'myjob' in JSON mit dem v1 API Format:\n\t\tkubectl edit job.v1.batch/myjob -o json\n\n\t\t# Bearbeite das Deployment 'mydeployment' in YAML und speichere die ver\u00e4nderte Konfiguration in ihrer Annotation:\n\t\tkubectl edit deployment/mydeployment -o yaml --save-config\x00\n\t\t# Erhalte die Ausgabe vom Aufruf von 'date' auf dem Pod 123456-7890, mit dem ersten Container als Standard\n\t\tkubectl exec 123456-7890 date\n\n\t\t# Erhalte die Ausgabe vom Aufruf von 'date' im Ruby-Container aus dem Pod 123456-7890\n\t\tkubectl exec 123456-7890 -c ruby-container date\n\n\t\t# Wechsle in den Terminal-Modus und sende stdin zu 'bash' im Ruby-Container aus dem Pod 123456-7890\n\t\t# und sende stdout/stderr von 'bash' zur\u00fcck zum Client\n\t\tkubectl exec 123456-7890 -c ruby-container -i -t -- bash -il\x00\n\t\t# Erhalte die Ausgabe vom laufenden Pod 123456-7890, mit dem ersten Container als Standard\n\t\tkubectl attach 123456-7890\n\n\t\t# Erhalte die Ausgabe vom Ruby-Container aus dem Pod 123456-7890\n\t\tkubectl attach 123456-7890 -c ruby-container\n\n\t\t# Wechsle in den Terminal-Modus und sende stdin zu 'bash' im Ruby-Container aus dem Pod 123456-7890\n\t\t# und sende stdout/stderr von 'bash' zur\u00fcck zum Client\n\t\tkubectl attach 123456-7890 -c ruby-container -i -t\n\n\t\t# Erhalte die Ausgabe vom ersten Pod eines ReplicaSets nginx\n\t\tkubectl attach rs/nginx\n\t\t\x00\n\t\t# Erhalte die Dokumentation einer Resource und ihrer Felder\n\t\tkubectl explain pods\n\n\t\t# Erhalte die Dokumentation eines speziellen Felds einer Resource\n\t\tkubectl explain pods.spec.containers\x00\n\t\t# Installiere bash completion auf einem Mac mit homebrew\n\t\tbrew install bash-completion\n\t\tprintf \"\n# Bash completion support\nsource $(brew --prefix)/etc/bash_completion\n\" >> $HOME/.bash_profile\n\t\tsource $HOME/.bash_profile\n\n\t\t# Lade den kubectl-Completion-Code f\u00fcr bash in der aktuellen Shell\n\t\tsource <(kubectl completion bash)\n\n\t\t# Schreibe den Bash-Completion-Code in eine Datei und source sie im .bash_profile\n\t\tkubectl completion bash > ~/.kube/completion.bash.inc\n\t\tprintf \"\n# Kubectl shell completion\nsource '$HOME/.kube/completion.bash.inc'\n\" >> $HOME/.bash_profile\n\t\tsource $HOME/.bash_profile\n\n\t\t# Lade den kubectl-Completion-Code f\u00fcr zsh[1] in die aktuelle Shell\n\t\tsource <(kubectl completion zsh)\x00\n\t\t# Liste alle Pods im ps-Format auf.\n\t\tkubectl get pods\n\n\t\t# Liste alle Pods im ps-Format mit zus\u00e4tzlichen Informationen (wie dem Knotennamen) auf.\n\t\tkubectl get pods -o wide\n\n\t\t# Liste alle einzelnen ReplicationController mit dem angegebenen Namen im ps-Format auf.\n\t\tkubectl get replicationcontroller web\n\n\t\t# Liste einen einzelnen Pod im JSON-Format auf.\n\t\tkubectl get -o json pod web-pod-13je7\n\n\t\t# Liste einen Pod mit Typ und Namen aus \"pod.yaml\" im JSON-Format auf.\n\t\tkubectl get -f pod.yaml -o json\n\n\t\t# Gib nur den phase-Wert des angegebenen Pods zur\u00fcck.\n\t\tkubectl get -o template pod/web-pod-13je7 --template={{.status.phase}}\n\n\t\t# Liste alle ReplicationController und Services im ps-Format auf.\n\t\tkubectl get rc,services\n\n\t\t# Liste eine oder mehrere Resourcen \u00fcber ihren Typ und Namen auf.\n\t\tkubectl get rc/web service/frontend pods/web-pod-13je7\n\n\t\t# Liste alle Resourcen mit verschiedenen Typen auf.\n\t\tkubectl get all\x00\n\t\t# H\u00f6rt lokal auf Port 5000 und 6000 und leitet Daten zum/vom Port 5000 und 6000 weiter an den Pod\n\t\tkubectl port-forward mypod 5000 6000\n\n\t\t# H\u00f6rt lokal auf Port 8888 und leitet an Port 5000 des Pods weiter\n\t\tkubectl port-forward mypod 8888:5000\n\n\t\t# H\u00f6rt auf einen zuf\u00e4lligen lokalen Port und leitet an Port 5000 des Pods weiter\n\t\tkubectl port-forward mypod :5000\n\n\t\t# H\u00f6rt auf einen zuf\u00e4lligen lokalen Port und leitet an Port 5000 des Pods weiter\n\t\tkubectl port-forward mypod 0:5000\x00\n\t\t# Markiere Knoten \"foo\" als schedulable.\n\t\t$ kubectl uncordon foo\x00\n\t\t# Markiere Knoten \"foo\" als unschedulable.\n\t\tkubectl cordon foo\x00\n\t\t# Aktualisiere einen Knoten teilweise mit einem Strategic-Merge-Patch\n\t\tkubectl patch node k8s-node-1 -p '{\"spec\":{\"unschedulable\":true}}'\n\n\t\t# Aktualisiere einen Knoten, mit type und name aus \"node.json\", mit einem Strategic-Merge-Patch\n\t\tkubectl patch -f node.json -p '{\"spec\":{\"unschedulable\":true}}'\n\n\t\t# Aktualisiere das Image eines Containers; spec.containers[*].name ist erforderlich, da es der Merge-Key ist\n\t\tkubectl patch pod valid-pod -p '{\"spec\":{\"containers\":[{\"name\":\"kubernetes-serve-hostname\",\"image\":\"new image\"}]}}'\n\n\t\t# Aktualisiere das Image eines Containers mit einem JSON-Patch mit Positional-Arrays\n\t\tkubectl patch pod valid-pod --type='json' -p='[{\"op\": \"replace\", \"path\": \"/spec/containers/0/image\", \"value\":\"new image\"}]'\x00\n\t\t# Gebe Optionen aus, die an alle Kommandos vererbt werden\n\t\tkubectl options\x00\n\t\t# Gebe die Adresse des Masters und des Cluster-Services aus\n\t\tkubectl cluster-info\x00\n\t\t# Gebe die Client- und Server-Versionen des aktuellen Kontexts aus\n\t\tkubectl version\x00\n\t\t# Gebe die unterst\u00fctzten API Versionen aus\n\t\tkubectl api-versions\x00\n\t\t# Ersetze einen Pod mit den Daten aus pod.json.\n\t\tkubectl replace -f ./pod.json\n\n\t\t# Ersetze einen Pod mit den JSON-Daten von stdin.\n\t\tcat pod.json | kubectl replace -f -\n\n\t\t# Setze die Pod-Image-Version (tag) eines einzelnen Containers zu v4\n\t\tkubectl get pod mypod -o yaml | sed 's/\\(image: myimage\\):.*$/\x01:v4/' | kubectl replace -f -\n\n\t\t# Erzwinge das Ersetzen, L\u00f6schen und Neu-Erstellen der Resource\n\t\tkubectl replace --force -f ./pod.json\x00\n\t\t# Gib die Snapshot-Logs des Pods nginx mit nur einem Container zur\u00fcck\n\t\tkubectl logs nginx\n\n\t\t# Gib die Snapshot-Logs f\u00fcr die Pods mit dem Label app=nginx zur\u00fcck\n\t\tkubectl logs -lapp=nginx\n\n\t\t# Gib die Snapshot-Logs des zuvor gel\u00f6schten Ruby-Containers des Pods web-1 zur\u00fcck\n\t\tkubectl logs -p -c ruby web-1\n\n\t\t# Starte das Streaming der Logs vom Ruby-Container im Pod web-1\n\t\tkubectl logs -f -c ruby web-1\n\n\t\t# Zeige die letzten 20 Zeilen der Ausgabe des Pods nginx\n\t\tkubectl logs --tail=20 nginx\n\n\t\t# Zeige alle Logs der letzten Stunde des Pods nginx an\n\t\tkubectl logs --since=1h nginx\n\n\t\t# Gib die Snapshot-Logs des ersten Containers des Jobs hello zur\u00fcck\n\t\tkubectl logs job/hello\n\n\t\t# Gib die Snapshot-Logs des Containers nginx-1 eines Deployments nginx zur\u00fcck\n\t\tkubectl logs deployment/nginx -c nginx-1\x00\n\t\t# Starte einen Proxy zum Kubernetes-Apiserver auf Port 8011 und sende statische Inhalte von ./local/www/\n\t\tkubectl proxy --port=8011 --www=./local/www/\n\n\t\t# Starte einen Proxy zum Kubernetes-Apiserver auf einem zuf\u00e4lligen lokalen Port.\n\t\t# Der gew\u00e4hlte Port f\u00fcr den Server wird im stdout zur\u00fcckgegeben.\n\t\tkubectl proxy --port=0\n\n\t\t# Starte einen Proxy zum Kubernetes-Apiserver und \u00e4ndere das API-Prefix zu k8s-api\n\t\t# Damit ist die Pods-API bspw. unter localhost:8001/k8s-api/v1/pods/ erreichbar\n\t\tkubectl proxy --api-prefix=/k8s-api\x00\n\t\t# Skaliere ein ReplicaSet 'foo' auf 3.\n\t\tkubectl scale --replicas=3 rs/foo\n\n\t\t# Skaliere eine Resource mit type und name aus \"foo.yaml\" auf 3.\n\t\tkubectl scale --replicas=3 -f foo.yaml\n\n\t\t# Wenn die aktuelle Gr\u00f6\u00dfe des Deployments mysql 2 ist, skaliere mysql auf 3.\n\t\tkubectl scale --current-replicas=2 --replicas=3 deployment/mysql\n\n\t\t# Skaliere mehrere MultiplicationController.\n\t\tkubectl scale --replicas=5 rc/foo rc/bar rc/baz\n\n\t\t# Skaliere den Job cron auf 3.\n\t\tkubectl scale --replicas=3 job/cron\x00\n\t\t# Setze die Last-Applied-Configuration einer Resource auf den Inhalt einer Datei.\n\t\tkubectl apply set-last-applied -f deploy.yaml\n\n\t\t# F\u00fchre Set-Last-Applied auf jeder Konfigurationsdatei in einem Ordner aus.\n\t\tkubectl apply set-last-applied -f path/\n\n\t\t# Setze die Last-Applied-Configuration einer Resource auf den Inhalt einer Datei; erstellt die Annotation, wenn sie noch nicht existiert.\n\t\tkubectl apply set-last-applied -f deploy.yaml --create-annotation=true\n\t\t\x00\n\t\t# Zeige Metriken f\u00fcr alle Pods im Namespace default\n\t\tkubectl top pod\n\n\t\t# Zeige Metriken f\u00fcr alle Pods im gegebenen namespace\n\t\tkubectl top pod --namespace=NAMESPACE\n\n\t\t# Zeige Metriken f\u00fcr den gebenen Pod und seine Container\n\t\tkubectl top pod POD_NAME --containers\n\n\t\t# Zeige Metriken f\u00fcr Pods mit dem Label name=myLabel\n\t\tkubectl top pod -l name=myLabel\x00\n\t\t# Stoppe foo.\n\t\tkubectl stop replicationcontroller foo\n\n\t\t# Stoppe Pods und Services mit dem Label name=myLabel.\n\t\tkubectl stop pods,services -l name=myLabel\n\n\t\t# Stoppe den in service.json definierten Service\n\t\tkubectl stop -f service.json\n\n\t\t# Stoppe alle Resourcen im Ordner path/to/resources\n\t\tkubectl stop -f path/to/resources\x00\n\t\t# Starte eine einzelne Instanz von nginx.\n\t\tkubectl run nginx --image=nginx\n\n\t\t# Starte eine einzelne Instanz von hazelcast und \u00f6ffne Port 5701 auf dem Container.\n\t\tkubectl run hazelcast --image=hazelcast --port=5701\n\n\t\t# Starte eine einzelne Instanz von hazelcast und setze die Umgebungs-variablen \"DNS_DOMAIN=cluster\" und \"POD_NAMESPACE=default\" im Container.\n\t\tkubectl run hazelcast --image=hazelcast --env=\"DNS_DOMAIN=cluster\" --env=\"POD_NAMESPACE=default\"\n\n\t\t# Starte eine replizierte Instanz von nginx.\n\t\tkubectl run nginx --image=nginx --replicas=5\n\n\t\t# Testlauf. Zeige die zugeh\u00f6rigen API Objekte ohne sie zu erstellen.\n\t\tkubectl run nginx --image=nginx --dry-run\n\n\t\t# Starte eine einzelne Instanz von nginx, aber \u00fcberlade die Spec des Deployments mit einer Teilmenge von JSON-Werten.\n\t\tkubectl run nginx --image=nginx --overrides='{ \"apiVersion\": \"v1\", \"spec\": { ... } }'\n\n\t\t# Starte einen busybox Pod und lass ihn im Vordergrund laufen; starte ihn nicht neu, wenn er existiert.\n\t\tkubectl run -i -t busybox --image=busybox --restart=Never\n\n\t\t# Starte einen nginx-Container mit dem Standardkommando, aber \u00fcbergebe die Parameter (arg1 .. argN) an das Kommando.\n\t\tkubectl run nginx --image=nginx -- ... \n\n\t\t# Starte den nginx-Container mit einem anderen Kommando und Parametern.\n\t\tkubectl run nginx --image=nginx --command -- ... \n\n\t\t# Starte den perl-Container, um \u03c0 auf 2000 Stellen zu berechnen und gib es aus.\n\t\tkubectl run pi --image=perl --restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'\n\n\t\t# Starte den cron-Job, um \u03c0 auf 2000 Stellen zu berechnen und gib sie alle 5 Minuten aus.\n\t\tkubectl run pi --schedule=\"0/5 * * * ?\" --image=perl --restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'\x00\n\t\t# Aktualisiere Knoten 'foo' mit einem Taint mit dem Key 'dedicated', dem Value 'special-user' und dem Effect 'NoSchedule'.\n\t\t# Wenn ein Taint mit dem Key und Effect schon existiert, wird sein Value mit den gegebenen Werten ersetzt.\n\t\tkubectl taint nodes foo dedicated=special-user:NoSchedule\n\n\t\t# Entferne vom Knoten 'foo' den Taint mit dem Key 'dedicated' und dem Effect 'NoSchedule', wenn er existiert.\n\t\tkubectl taint nodes foo dedicated:NoSchedule-\n\n\t\t# Entferne vom Knoten 'foo' alle Tains mit dem Key 'dedicated'\n\t\tkubectl taint nodes foo dedicated-\x00\n\t\t# Aktualisiere den Pod 'foo' mit dem Label 'unhealthy' und dem Value 'true'.\n\t\tkubectl label pods foo unhealthy=true\n\n\t\t# Aktualisiere den Pod 'foo' mit dem Label 'status' und dem Value 'unhealthy' und \u00fcberschreibe alle bisherigen Values.\n\t\tkubectl label --overwrite pods foo status=unhealthy\n\n\t\t# Aktualisiere alle Pods im Namespace\n\t\tkubectl label pods --all status=unhealthy\n\n\t\t# Aktualisiere den Pod mit type und name aus \"pod.json\"\n\t\tkubectl label -f pod.json status=unhealthy\n\n\t\t# Aktualisiere den Pod 'foo', wenn die Resource sich nicht von version 1 unterscheidet.\n\t\tkubectl label pods foo status=unhealthy --resource-version=1\n\n\t\t# Aktualisiere den Pod 'foo', indem das Label 'bar' gel\u00f6scht wird, wenn es existiert.\n\t\t# Ben\u00f6tigt kein --overwrite flag.\n\t\tkubectl label pods foo bar-\x00\n\t\t# Aktualisiere die Pods in frontend-v1 mit den neuen Replication-Controller Daten in frontend-v2.json.\n\t\tkubectl rolling-update frontend-v1 -f frontend-v2.json\n\n\t\t# Aktualisiere die Pods in frontend-v1 mit den JSON-Daten von stdin.\n\t\tcat frontend-v2.json | kubectl rolling-update frontend-v1 -f -\n\n\t\t# Aktualisiere die Pods von frontend-v1 auf frontend-v2, indem das Image ge\u00e4ndert wird und\n\t\t# der Name des ReplicationControllers.\n\t\tkubectl rolling-update frontend-v1 frontend-v2 --image=image:v2\n\n\t\t# Aktualisiere die Pods in frontend, indem das Image ge\u00e4ndert, aber der alte Name beibehalten wird.\n\t\tkubectl rolling-update frontend --image=image:v2\n\n\t\t# Breche ein laufendes Rollout (von frontend-v1 zu frontend-v2) ab und mache es r\u00fcckg\u00e4ngig.\n\t\tkubectl rolling-update frontend-v1 frontend-v2 --rollback\x00\n\t\t# Zeige die Annotation Last-Applied-Configuration mit type/name in YAML an.\n\t\tkubectl apply view-last-applied deployment/nginx\n\n\t\t# Zeige die Annotation Last-applied-configuration mit der Datei in JSON an\n\t\tkubectl apply view-last-applied -f deploy.yaml -o json\x00\n\t\tWende eine Konfiguration auf eine Resource mit Dateinamen oder stdin an.\n\t\tDie Resource wird erstellt, wenn sie noch nicht existiert.\n\t\tUm 'apply' zu benutzen, muss die Resource initital mit 'apply' oder 'create --save-config' erstellt werden.\n\n\t\tJSON- und YAML-Formate werden akzeptiert.\n\n\t\tAlpha Disclaimer: Die --prune Funktion ist noch nicht fertig. Benutze sie nicht, wenn der aktuelle Zustand nicht bekannt ist. Siehe https://issues.k8s.io/34274.\x00\n\t\tKonvertiere Konfigurationsdateien zwischen API Versionen. Sowohl YAML-\n\t\talsauch JSON-Formate werden akzeptiert.\n\n\t\tDer Befehlt akzeptiert Dateinamen, Ordner oder URL als Parameter und konvertiert es ins Format\n\t\tder mit --output-version gegebenen Version. Wenn die Zielversion nicht \n\t\tangegeben wird oder ung\u00fcltig ist, wird die neueste Version verwendet.\n\n\t\tDie Standardausgabe wird auf stdout im YAML-Format ausgegeben. Man kann die Option -o verwenden,\n\t\tum das Ausgabeziel festzulegen.\x00\n\t\tErstelle eine ClusterRole.\x00\n\t\tErstelle ein ClusterRoleBinding f\u00fcr eine bestimmte ClusterRole.\x00\n\t\tErstelle ein RoleBinding f\u00fcr eine bestimmte ClusterRole.\x00\n\t\tErstelle ein TLS-Secret vom gegebenen Public/Private-Schl\u00fcsselpaar.\n\n\t\tDas Public/Private-Schl\u00fcsselpaar muss vorab bestehen. Das Public-Key-Zertifikat muss im PEM-Format sein und zum gegebenen Private-Key passen.\x00\n\t\tErstelle eine ConfigMap basierend auf einer Datei, einem Order oder einem gegebenen Wert.\n\n\t\tEine einzelne ConfigMap kann eins oder mehr Key/Value-Paare beinhalten.\n\n\t\tWenn man eine ConfigMap von einer Datei erstellt, wird der Key standardm\u00e4\u00dfig der Name der Datei, und der Wert wird\n\t\tstandardm\u00e4\u00dfig der Dateiinhalt. Wenn der Dateiname ein ung\u00fcltiger Key ist, kann ein anderer Key angegeben werden.\n\n\t\tWenn man eine ConfigMap von einem Ordner erstellt, wird jede Datei, deren Name ein g\u00fcltiger Key ist\n\t\tin die ConfigMap aufgenommen. Jegliche Eintr\u00e4ge im Ordner, die keine regul\u00e4ren Dateien sind, werden ignoriert (z.B. SubDirectories, \n\t\tSymLinks, Devices, Pipes, usw).\x00\n\t\tErstelle einen Namespace mit dem gegebenen Namen.\x00\n\t\tErstelle ein Secret f\u00fcr die Benutzung mit Docker-Registries.\n\n\t\tDockercfg Secrets werden f\u00fcr die Authentifizierung bei Docker-Registries benutzt.\n\n\t\tWenn die Docker-command -line zum pushen von Images benutzt wird, kann man sich bei einer gegebenen Registry authentifizieren mit\n\n\t\t $ docker login DOCKER_REGISTRY_SERVER --username=DOCKER_USER --password=DOCKER_PASSWORD --email=DOCKER_EMAIL'.\n\n Dies produziert eine ~/.dockercfg Datei, die f\u00fcr folgende 'docker push' und 'docker pull' Befehle genutzt wird,\n\t\tum sich an der Registry zu authentifizieren. Die E-Mail-Adresse ist optional.\n\n\t\tBei der Erstellung von Applikationen, kann eine Docker-Registry eine Authentifizierung verlangen. Damit\n\t\tdeine Knoten in deinem Namen Images herunterladen k\u00f6nnen, ben\u00f6tigen sie die Credentials. Man kann diese Information bereitstellen\n\t\tindem man ein dockercfg secret erstellt und zu seinem ServiceAccount hinzuf\u00fcgt.\x00\n\t\tErstelle ein Pod-Disruption-Budget mit dem gegebenen name, selector und der gew\u00fcnschten Mindestanzahl verf\u00fcgbarer Pods\x00\n\t\tErstelle eine Resource mit Dateinamen oder stdin.\n\n\t\tJSON- und YAML-Formate werden akzeptiert.\x00\n\t\tErstelle eine ResourceQuota mit dem gegebenen name, hard limits und optional scopes\x00\n\t\tErstelle eine Role mit einer einzelnen Rule.\x00\n\t\tErstelle ein Secret basierend auf einer Datei, einem Ordner oder einem gegebenen Wert.\n\n\t\tEin einzelnes Secret kann eins oder mehr Key/Value-Paare beinhalten.\n\n\t\tWenn man ein Secret von einer Datei erstellt, wird der Key standardm\u00e4\u00dfig der Name der Datei, und der Wert wird\n\t\tstandardm\u00e4\u00dfig der Dateiinhalt. Wenn der Dateiname ein ung\u00fcltiger Key ist, kann ein anderer Key angegeben werden.\n\n\t\tWenn man ein Secret von einem Ordner erstellt, wird jede Datei, deren Name ein g\u00fcltiger Key ist\n\t\tin das Secret aufgenommen. Jegliche Eintr\u00e4ge im Ordner, die keine regul\u00e4ren Dateien sind, werden ignoriert (z.B. SubDirectories, \n\t\tSymLinks, Devices, Pipes, usw).\x00\n\t\tErstelle einen ServiceAccount mit dem gegebenen Namen.\x00\n\t\tErstelle und starte ein bestimmtes Image, m\u00f6glicherweise repliziert.\n\n\t\tErstellt ein Deployment oder Job, um den/die erstellten Container zu verwalten.\x00\n\t\tErstellt einen AutoScaler der die Anzahl der Pods, die im Kubernetes-Cluster laufen, automatisch w\u00e4hlt und anpasst.\n\n\t\tSucht ein Deployment, ReplicaSet oder ReplicationController mit Namen name und erstellt einen AutoScaler, der die Resource als Referenz nimmt.\n\t\tEin AutoScaler kann die Anzahl der im System deployten Pods nach Bedarf erh\u00f6hen oder verringern.\x00\n\t\tL\u00f6scht die Resourcen mit Dateinamen, stdin, resources- und names- oder mit resources- und label-Selektor.\n\n\t\tJSON- und YAML-Formate werden akzeptiert. Nur einer der Parameter darf verwendet werden: Dateiname,\n\t\tresources- und names-, oder resources- und label-Selektor.\n\n\t\tManche Resourcen, zum Beispiel Pods, unterst\u00fctzen grazi\u00f6ses L\u00f6schen. Sie definieren einen Standardzeitraum\n\t\tbevor das L\u00f6schen erzwungen wird (grace-period), aber dieser Wert kann \u00fcberschrieben werden mit\n\t\tder --grace-period Option, oder mit --now, das die grace-period auf 1 setzt. Da diese Resourcen\n\t\th\u00e4ufig Einheiten im Cluster sind, kann das L\u00f6schen nicht immer direkt best\u00e4tigt werden. Wenn der Knoten\n\t\tauf dem der Pod l\u00e4uft nicht verf\u00fcgbar ist, oder den API Server nicht erreichen kann, kann das L\u00f6schen bedeutend l\u00e4nger dauern\n\t\tals die grace-period. Um das L\u00f6schen zu erzwingen, muss eine grace-period von 0 \u00fcbergeben werden\n\t\tund die --force Option gesetzt sein.\n\n\t\tWICHTIG: Ein erzwungenes L\u00f6schen wartet nicht auf die Best\u00e4tigung, dass der Prozess\n\t\tbeendet wurde, was den Prozess am Leben erhalten kann, bis der Knoten die L\u00f6schung erkennt\n\t\tund das grazi\u00f6se L\u00f6schen beendet. Wenn Prozesse Shared-Storage oder eine Remote-API verwenden und\n\t\tden Namen des Pods brauchen, um sich selbst zu identifizieren, kann das erzwungene L\u00f6schen dazu f\u00fchren, dass\n\t\tmehrere Prozesse auf der gleichen Maschine die gleiche Identit\u00e4t verwenden, was zu\n\t\tDatenkorruption oder Inkonsistenz f\u00fchren kann. Erzwinge nur ein L\u00f6schen, wenn sichergestellt ist, dass der Pod\n\t\tgel\u00f6scht ist, oder wenn die Anwendung mehrere gleichzeitig laufende Kopien verarbeiten kann.\n\t\tAu\u00dferdem kann es passieren, dass der Scheduler neue Pods auf dem Knoten plaziert, bevor der Knoten\n\t\tdie Resourcen freigegeben hat, sodass diese Pods direkt entfernt werden.\n\n\t\tBer\u00fccksichtige au\u00dferdem, dass der Delete-Befehl KEINE versionen pr\u00fcft, sodass, wenn jemand\n\t\tein Update einer Resource gleichzeitig mit Deinem delete anst\u00f6\u00dft, dessen Update\n\t\tmit dem Rest der Resource entfernt wird.\x00\n\t\tVeraltet: Fahre eine Resource mit Namen oder Dateinamen grazi\u00f6s heruter.\n\n\t\tDer Stop-Befehl ist veraltet und alle Funktioneren werden mit dem Delete-Befehl abgedeckt.\n\t\tSiehe 'kubectl delete --help' f\u00fcr mehr Details.\n\n\t\tVersucht eine Resource, die grazi\u00f6ses L\u00f6schen unterst\u00fctzt, herunterzufahren und zu l\u00f6schen.\n\t\tWenn die Resource skaliert werden kann, wird sie vor dem L\u00f6schen auf 0 skaliert.\x00\n\t\tZeigt die Resourcennutzung (CPU/Memory/Storage) von Knoten.\n\n\t\tDer top-node-Befehl erlaubt es, die Resourcennutzung von Knoten zu betrachten.\x00\n\t\tZeigt die Resourcennutzung (CPU/Memory/Storage) von Pods.\n\n\t\tDer 'top pod'-Befehl erlaubt es, die Resourcennutzung von Pods zu betrachten.\n\n\t\tAufgrund der Metrik-Pipeline-Verz\u00f6gerung, k\u00f6nnen sie f\u00fcr ein paar Minuten nicht verf\u00fcgbar sein,\n\t\tnach der Pod-Erstellung.\x00\n\t\tZeige Resourcennutzung (CPU/Memory/Storage).\n\n\t\tDer top-Befehl erlaubt es, die Resourcennutzung von Knoten oder Pods zu betrachten.\n\n\t\tDieser Befehl ben\u00f6tigt eine korrekt konfigurierte und funktionierende Heapster-Installation auf dem Server. \x00\n\t\tLeere Knoten, um eine Wartung vorzubereiten.\n\n\t\tDer gegebene Knoten wird als unschedulable markiert, um die Zuordnung von neuen Pods zu verhindern.\n\t\t'drain' entfernt den Pod, falls der API-Server die Entfernung unterst\u00fctzt\n\t\t(http://kubernetes.io/docs/admin/disruptions/). Wenn nicht, wird ein normales DELETE verwendet,\n\t\tum die Pods zu l\u00f6schen.\n\t\t'drain' entfernt oder l\u00f6scht alle Pods mit der Ausnahme von Mirror-Pods (welche vom API Server nicht gel\u00f6scht werden k\u00f6nnen)\n\t\tWenn DaemonSet-verwaltete Pods existieren, wird 'drain' nicht fortgesetzt\n\t\tohne die --ignore-daemonsets Option, und es wird in keinem Fall\n\t\tDaemonSet-verwaltete Pods l\u00f6schen, weil diese Pods direkt ersetzt w\u00fcrden durch den\n\t\tDaemonSet-Controller, der unschedulable Markierungen ignoriert. Wenn es irgendwelche\n\t\tPods gibt, die weder Mirror-Pods sind, noch von einem ReplicationController,\n\t\tReplicaSet, DaemonSet, StatefulSet oder Job verwaltet werden, wird drain keine Pods l\u00f6schen, au\u00dfer die\n\t\t--force Option ist gesetzt. --force l\u00e4sst das L\u00f6schen selbst zu, wenn die verwaltende Resource von einem\n\t\toder mehreren Pods fehlt.\n\n\t\t'drain' wartet auf eine grazi\u00f6se L\u00f6schung. Man sollte auf der Maschine nichts tun, w\u00e4hrend\n\t\tder Befehl l\u00e4uft.\n\n\t\tWenn der Knoten wieder bereit ist die Arbeit aufzunehmen, benutze kubectl uncordon,\n\t\twas den Knoten als schedulable markiert.\n\n\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_drain.svg)\x00\n\t\tBearbeite eine Resource mit dem Standardeditor.\n\n\t\tDer edit-Befehl erlaubt es jede API Resource direkt zu bearbeiten, wenn sie mit den\n\t\tCommand-Line-Tools erreichbar ist. Er \u00f6ffnet den Editor, der in der KUBE_EDITOR oder EDITOR\n\t\tUmgebunsvariable festgelegt ist, oder 'vi' auf Linux und 'notepad' auf Windows.\n\t\tEs ist m\u00f6glich mehrere Objekte zu bearbeiten, aber die \u00c4nderungen werden nacheinander angewendet. Der Befehl\n\t\takzeptiert Dateinamen und Command-Line-Parameter, aber die verwendeten Dateien m\u00fcssen\n\t\tvorab gespeicherte Versionen von Resourcen sein.\n\n\t\tDie Bearbeitung verwendet die API Version, die genutzt wurde, um die Resource zu lesen.\n\t\tUm eine spezifische API Version zu verwenden, muss die vollst\u00e4ndige Resource, Version und Group angegeben werden.\n\n\t\tDas Standardformat ist YAML. Um mit JSON zu arbeiten, setze \"-o json\".\n\n\t\tDie Option --windows-line-endings kann benutzt werden, um Windows Zeilen-umbr\u00fcche zu verwenden,\n\t\tansonsten wird der Standard des Betriebssystems verwendet.\n\n\t\tFalls beim Update ein Fehler auftritt, wird eine tempor\u00e4re Datei auf der Festplatte angelegt,\n\t\tdie die nicht verarbeiteten \u00c4nderungen enth\u00e4lt. Der h\u00e4ufigste Fehler beim Bearbeiten einer Resource\n\t\tist ein anderer Editor, der die Resource auf dem Server \u00e4ndert. Wenn das auftritt, muss man\n\t\tseine \u00c4nderungen auf die neue Version anwenden oder seine tempor\u00e4re\n\t\tgespeicherte Kopie mit der neuesten Resourcenversion aktualisieren.\x00\n\t\tMarkiere Knoten als schedulable.\x00\n\t\tMarkiere Knoten als unschedulable.\x00\n\t\tGibt den Shell-Completion-Code f\u00fcr die angegebene Shell aus (bash oder zsh).\n\t\tDer Shell-Code muss f\u00fcr eine interaktive Vervollst\u00e4ndigung von kubectl \n\t\tausgewertet werden. Das ist m\u00f6glich, indem man\n\t\tdie .bash_profile Datei sourcet.\n\n\t\tHinweis: Dies setzt das Bash-Completion-Framework voraus, das auf dem Mac nicht standardm\u00e4\u00dfig installiert ist. \n\t\tEs kann mit homebrew installiert werden:\n\n\t\t $ brew install bash-completion\n\n\t\tSobald es installiert ist, muss bash_completion ausgewertet werden. Dies wird erreicht, indem man\n\t\tdie folgende Zeile zur .bash_profile-Datei hinzuf\u00fcgt\n\n\t\t $ source $(brew --prefix)/etc/bash_completion\n\n\t\tHinweis f\u00fcr zsh Nutzer: [1] zsh completions werden nur in Versionen von zsh >= 5.2 unterst\u00fctzt\x00\n\t\tF\u00fchre ein Rolling-Update des gegebenen ReplicationControllers aus.\n\n\t\tErsetzt den gegebenen ReplicationController mit einem neuen Replication-Controller, indem die neue PodTampleta Pod f\u00fcr Pod\n\t\tangewendet wird. Die new-controller.json muss den gleichen Namespace wie\n\t\tder aktuelle ReplicationController besitzen und mindestens ein gemeinsames Label im ReplicaSelector \u00fcberschreiben.\n\n\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_rollingupdate.svg)\x00\n\t\tErsetze eine Resource mit Dateinamen oder stdin.\n\n\t\tJSON- and YAML-Formate werden akzeptiert. Wenn eine existierende Resource ersetzt wird,\n\t\tmuss die vollst\u00e4ndige spSpecec mitgegeben werden. Diese kann hiermit ausgelesen werden\n\n\t\t $ kubectl get TYPE NAME -o yaml\n\n\t\tBitte konsultiere https://htmlpreview.github.io/?https://github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions.html um zu erfahren, ob ein Feld ver\u00e4ndert werden darf.\x00\n\t\tSetze eine neue Gr\u00f6\u00dfe f\u00fcr ein Deployment, ReplicaSet, Replication-Contoller oder Job.\n\n\t\tScale erlaubt es Nutzern eine oder mehr Voraussetzungen f\u00fcr die Aktion festzulegen.\n\n\t\tWenn --current-replicas oder --resource-version gegeben ist, wird es validiert, bevor\n\t\tscale versucht wird, und es wird garantiert, dass die Voraussetzungen erf\u00fcllt sind, wenn\n\t\tscale zum Server geschickt wird.\x00\n\t\tSetze die aktuelle Annotation Last-Applied-Configuration auf den Inhalt der Datei.\n\t\tDas bedeutet, dass Last-Applied-Configuration aktualisiert wird, als ob 'kubectl apply -f ' ausgef\u00fchrt wurde,\n\t\tohne andere Teile des Objekts zu aktualisieren.\x00\n\t\tProxy alle Teile der Kubernetes-API und sonst nichts:\n\n\t\t $ kubectl proxy --api-prefix=/\n\n\t\tProxy nur bestimmte Teile der Kubernetes-API und einige statische Dateien:\n\n\t\t $ kubectl proxy --www=/my/files --www-prefix=/static/ --api-prefix=/api/\n\n\t\tDer Befehl oben l\u00e4sst dich 'curl localhost:8001/api/v1/pods' aufrufen.\n\n\t\tProxy alle Teile der Kubernetes-API auf einem anderen root:\n\n\t\t $ kubectl proxy --api-prefix=/custom/\n\n\t\tDer Befehl oben l\u00e4sst dich 'curl localhost:8001/custom/api/v1/pods' aufrufen\x00\n\t\tAktualisiere Felder einer Resource mit einem Strategic-Merge-Patch\n\n\t\tJSON- und YAML-Formate werden akzeptiert.\n\n\t\tBitte konsultiere https://htmlpreview.github.io/?https://github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions.html um zu erfahren, ob ein Feld mutable ist.\x00\n\t # Erstelle ein neues TLS Secret tl-secret mit dem gegebenen Schl\u00fcsselpaar:\n\t kubectl create secret tls tls-secret --cert=path/to/tls.cert --key=path/to/tls.key\x00\n\t # Erstelle einen neuen Namespace my-namespace\n\t kubectl create namespace my-namespace\x00\n\t # Erstelle ein neues Secret my-secret mit einem Key f\u00fcr jede Datei im Ordner bar\n\t kubectl create secret generic my-secret --from-file=path/to/bar\n\n\t # Erstelle ein neues Secret my-secret mit den gegebenen Keys statt der Namen auf der Festplatte\n\t kubectl create secret generic my-secret --from-file=ssh-privatekey=~/.ssh/id_rsa --from-file=ssh-publickey=~/.ssh/id_rsa.pub\n\n\t # Erstelle ein neues Scret my-secret mit key1=supersecret und key2=topsecret\n\t kubectl create secret generic my-secret --from-literal=key1=supersecret --from-literal=key2=topsecret\x00\n\t # Erstelle einen neuen ServiceAccount my-service-account\n\t kubectl create serviceaccount my-service-account\x00\n\t# Erstelle einen neuen ExternalName-Service my-ns \n\tkubectl create service externalname my-ns --external-name bar.com\x00\n\tErstelle einen ExternalName-Service mit den gegebenen Namen.\n\n\tExternalName service referenziert eine externe DNS Adresse statt\n\teines pods, was Anwendungsautoren erlaubt, einen Service zu referenzieren,\n\tder abseits der Platform, auf anderen Clustern oder lokal exisiert.\x00\n\tHelp hilft bei jedem Befehl in der Anwendung.\n\tGib einfach kubectl help [path to command] f\u00fcr alle Details ein.\x00\n # Erstelle einen neuen LoadBalancer-Service my-lbs\n kubectl create service loadbalancer my-lbs --tcp=5678:8080\x00\n # Erstelle einen neuen ClusterIP-Service my-cs\n kubectl create service clusterip my-cs --tcp=5678:8080\n\n # Erstelle einen neuen ClusterIP-Service my-cs (im headless-Modus)\n kubectl create service clusterip my-cs --clusterip=\"None\"\x00\n # Erstelle ein neues Deployment my-dep, dass das busybox-Image nutzt.\n kubectl create deployment my-dep --image=busybox\x00\n # Erstelle einen neuen NodePort-Service my-ns\n kubectl create service nodeport my-ns --tcp=5678:8080\x00\n # Schreibe den aktuellen Cluster-Zustand auf stdout\n kubectl cluster-info dump\n\n # Schreibe aktuellen Cluster-Zustand in /path/to/cluster-state\n kubectl cluster-info dump --output-directory=/path/to/cluster-state\n\n # Schreibe alle Namespaces auf stdout\n kubectl cluster-info dump --all-namespaces\n\n # Schreibe eine Menge an Namespaces in /path/to/cluster-state\n kubectl cluster-info dump --namespaces default,kube-system --output-directory=/path/to/cluster-state\x00\n Erstelle einen LoadBalancer-Service mit dem gegebenen Namen.\x00\n Erstelle einen ClusterIP-Service mit dem gegebenen Namen.\x00\n Erstelle ein Deployment mit dem gegebenen Namen.\x00\n Erstelle einen NodePort-Service mit dem gegebenen Namen.\x00\n Zeigt Adressen des Master und von Services mit Label kubernetes.io/cluster-service=true\n F\u00fcr das weitere Debugging und die Diagnose von Clusterproblemen nutze 'kubectl cluster-info dump'.\x00Eine komma-separierte Menge von Quota-Scopes, die zu jedem Object passen muss, dass von der Quota betroffen ist.\x00Eine komma-separierte Menge von resource=quantity Paaren, die ein hartes Limit definieren.\x00Ein Label-Selektor, der f\u00fcr das Budget benutzt werden kann. Nur gleichheits-basierte Auswahlkriterien werden unterst\u00fctzt.\x00Ein Label-Selektor, der f\u00fcr den Service benutzt werden kann. Nur gleichheits-basierte Auswahlkriterien werden unterst\u00fctzt. Wenn er leer ist (standard), wird der Selektor vom ReplicationController oder ReplicaSet abgeleitet\x00Ein Schedule im Cron Format, dass der Job nutzen soll.\x00Zus\u00e4tzliche, externe IP Adressen (die nicht von Kubernetes verwaltet werden), die der Service akzeptieren soll. Wenn diese IP zu einem Knoten gerouted wird, kann der Service \u00fcber die IP angesprochen werden, zus\u00e4tzlich zu seiner generierten Service-IP.\x00Wende eine Konfiguration auf eine Resource \u00fcber den Dateinamen oder stdin an\x00Genehmige eine Certificate-Signing-Request\x00Weise Deine eigene ClusterIP zu oder setze sie auf 'None' f\u00fcr einen 'headless'-Service (kein LoadBalancing).\x00Weise einem laufenden Container zu\x00Auto-skaliere ein Deployment, ReplicaSet oder ReplicationController\x00ClusterIP, die dem Service zugewiesen werden soll. Freilassen, f\u00fcr automatische Zuweisung oder auf 'None' setzen f\u00fcr einen headless-Service.\x00ClusterRole, die das ClusterRoleBinding referenzieren soll\x00ClusterRole, die das RoleBinding referenzieren soll\x00Name des Containers dessen Image aktualisiert wird. Nur relevant, wenn --image angegeben ist, sonst ignoriert. Verpflichtend, wenn --image auf einem Multi-Container-Pod verwendet wird\x00Konvertiere Config-Dateien zwischen verschiedenen API Versionen\x00Kopiere Dateien und Ordner aus/in Container(n).\x00Erstelle ein ClusterRoleBinding f\u00fcr eine bestimmte ClusterRole\x00Erstelle einen LoadBalancer-Service.\x00Erstelle einen NodePort-Service.\x00Erstelle ein RoleBinding f\u00fcr eine bestimmte Role oder ClusterRole\x00Erstelle ein TLS-Secret\x00Erstelle einen ClusterIP-Service\x00Erstelle eine ConfigMap von einer Datei, einem Ordner oder einem festen Wert\x00Erstelle ein Deployment mit dem gegebenen Namen.\x00Erstelle einen Namespace mit dem gegebenen Namen\x00Erstelle ein Pod-Disruption-Budget mit dem gegebenen Namen.\x00Erstelle eine Quota mit dem gegebenen Namen.\x00Erstelle eine Resource von einer Datei oder stdin\x00Erstelle ein Secret f\u00fcr die Benutzung mit einer Docker-Registry\x00Erstelle ein Secret von einer lokalen Datei, einem Ordner oder einem festen Wert\x00Erstelle ein Secret mit dem angegebenen Sub-Befehl\x00Erstelle einen ServiceAccount mit dem gegebenen Namen\x00Erstelle einen Servuce mit dem angegebenen Sub-Befehl\x00Erstelle einen ExternalName-Service.\x00L\u00f6sche Resourcen von einer Datei, stdin, resources- und names- oder mit resources- und label-Selektor\x00L\u00f6sche das angegebene Cluster aus der kubeconfig\x00L\u00f6sche den angegebenen Kontext aus der kubeconfig\x00Lehne eine Certificate-Signing-Request ab\x00Veraltet: Grazi\u00f6ses herunterfahren einer Resource \u00fcber den Namen oder Dateinamen\x00Beschreibe einen oder mehrere Kontexte\x00Zeige Resourcennutzung (CPU/Memory) von Knoten\x00Zeige Resourcennutzung (CPU/Memory) von Pods\x00Zeige Resourcennutzung (CPU/Memory).\x00Zeige Cluster-Info\x00Zeige Cluster, die in der kubeconfig definiert sind\x00Zeige vereinte kubeconfig-Einstellungen oder die angegebene kubeconfig-Datei\x00Zeige eine oder mehrere Resourcen\x00Zeige den aktuellen Kontext\x00Dokumentation einer Resource\x00Leere Knoten, um eine Wartung vorzubereiten\x00Zeige viele relevante Informationen f\u00fcr Debugging und Diagnose\x00Bearbeite eine Resource auf dem Server\x00E-Mail f\u00fcr Docker-Registry\x00F\u00fchre einen Befehl im Container aus\x00Explizite Vorgabe, wann Container-Images gepullt werden. Verpflichtend, wenn --image ist gleich dem aktuellen Image ist - sonst ignoriert.\x00Leite einen oder mehrere lokale Ports an einen Pod weiter\x00Hilfe f\u00fcr jeden Befehl\x00IP, die dem Load-Balancer zugewiesen wird. Falls leer, wird eine tempor\u00e4re IP erstellt und verwendet (Cloud-Provider spezifisch)\x00Verwalte ein Deployment-Rollout\x00Markiere Knoten als schedulable\x00Markiere Knoten als unschedulable\x00Markiere die gegebene Resource als pausiert\x00Ver\u00e4ndere Certificate-Resources\x00Ver\u00e4ndere kubeconfig Dateien\x00Name oder Nummer des Ports in dem Container, zu dem der Service Daten leiten soll. Optional.\x00Zeige nur Logs nach einem bestimmten Datum (RFC3339) an. Zeigt standardm\u00e4\u00dfig alle logs. Es kann entweder since-time oder since benutzt werden.\x00Zeige Shell-Completion-Code f\u00fcr die angegebene Shell (bash oder zsh)\x00Passwort f\u00fcr die Authentifizierung bei der Docker-Registry\x00Pfad des Public-Key-Zertifikats im PEM-Format.\x00Pfad zum Private-Key, der zum gegebenen Zertifikat passt.\x00F\u00fchre ein Rolling-Update des gegebenen ReplicationControllers aus\x00Vorbedingung f\u00fcr Resource-Version. Verlangt, dass die aktuelle Resource-Version diesen Wert erf\u00fcllt, um zu skalieren.\x00Schreibt die Client- und Server-Versionsinformation\x00Schreibt die Liste von Optionen, die alle Befehle erben\x00Schreibt die Logs f\u00fcr einen Container in einem Pod\x00Ersetze eine Resource von einem Dateinamen oder stdin\x00Setze eine pausierte Resource fort\x00Role, die dieses RoleBinding referenzieren soll\x00Starte ein bestimmtes Image auf dem Cluster\x00Starte einen Proxy zum Kubernetes-API-Server\x00Setze eine neue Gr\u00f6\u00dfe f\u00fcr ein Deployment, ReplicaSet, ReplicationController oder Job\x00Setze bestimmte Features auf Objekten\x00Setze die Annotation Last-Applied-Configuration auf einem Live-Objekt auf den Inhalt einer Datei.\x00Setze den Selektor auf einer Resource\x00Setze einen Cluster-Eintrag in der kubeconfig\x00Setze einen Kontext-Eintrag in der kubeconfig\x00Setze einen User-Eintrag in der kubeconfig\x00Setze einen einzelnen Value in einer kubeconfig-Datei\x00Setze den aktuellen Kontext in einer kubeconfig-Datei\x00Zeige Details zu einer bestimmten Resource oder Gruppe von Resourcen\x00Zeige den Status des Rollout\x00Synonym f\u00fcr --target-port\x00Nehme einen Replication Controller, Service, Deployment oder Pod und biete ihn als neuen Kubernetes-Service an\x00Das Image, dass auf dem Container gestartet werden soll.\x00Die Image-Pull-Policy f\u00fcr den Container. Wenn leer, wird der Wert nicht vom Client gesetzt, sondern standardm\u00e4\u00dfig vom Server.\x00Die minimale Anzahl oder Prozentzahl von verf\u00fcgbaren Pods, die das Budget voraussetzt.\x00Der Name des neu erstellten Objekts.\x00Der Name des neu erstellten Objekts. Falls nicht angegeben, wird der Name der Input-Resource verwendet.\x00Der Name des zu verwendenden API-Generators. Siehe http://kubernetes.io/docs/user-guide/kubectl-conventions/#generators f\u00fcr eine \u00dcbersicht.\x00Der Name des zu verwendenden API-Generators. Zur Zeit gibt es nur einen Generator.\x00Der Name des zu verwendenden API-Generators. Es gibt zwei Generatoren: 'service/v1' und 'service/v2'. Der einzige Unterschied ist, dass der Serviceport in v1 'default' hei\u00dft, w\u00e4hrend er in v2 unbenannt bleibt. Standard ist 'service/v2'.\x00Der Name des zu verwendenden Generators, um einen Service zu erstellen. Wird nur benutzt, wenn --expose true ist\x00Das Netzwerkprotokoll, f\u00fcr den zu erstellenden Service. Standard ist 'TCP'.\x00Der Port auf den der Service h\u00f6ren soll. Wird von der angebotenen Resource kopiert, falls nicht angegeben\x00Der Port, den der Container anbietet. Wenn --expose true ist, ist es auch der Port, den der zu erstellende Service verwendet\x00Der Typ des zu erstellenden Secrets\x00Typ f\u00fcr diesen Service: ClusterIP, NodePort oder LoadBalancer. Standard ist 'ClusterIP'.\x00Widerrufe ein vorheriges Rollout\x00Aktualisiere Felder einer Resource mit einem Strategic-Merge-Patch\x00Aktualisiere das Image einer Pod-Template\x00Aktualisiere Resourcen requests/limits auf Objekten mit Pod-Templates\x00Aktualisiere die Annotationen auf einer Resource\x00Aktualisiere die Labels auf einer Resource\x00Aktualisiere die Taints auf einem oder mehreren Knoten\x00Username f\u00fcr Authentifizierung bei der Docker-Registry\x00Zeige die aktuelle Annotation Last-Applied-Configuration einer Resource / eines Object\x00Zeige rollout-Verlauf\x00kubectl kontrolliert den Kubernetes-Cluster-Manager\x00") func translationsKubectlDe_deLc_messagesK8sMoBytes() ([]byte, error) { return _translationsKubectlDe_deLc_messagesK8sMo, nil } func translationsKubectlDe_deLc_messagesK8sMo() (*asset, error) { bytes, err := translationsKubectlDe_deLc_messagesK8sMoBytes() if err != nil { return nil, err } info := bindataFileInfo{name: "translations/kubectl/de_DE/LC_MESSAGES/k8s.mo", size: 0, mode: os.FileMode(0), modTime: time.Unix(0, 0)} a := &asset{bytes: bytes, info: info} return a, nil } var _translationsKubectlDe_deLc_messagesK8sPo = []byte(`# German translation. # Copyright (C) 2017 # This file is distributed under the same license as the Kubernetes package. # FIRST AUTHOR steffenschmitz@hotmail.de, 2017. # #, fuzzy msgid "" msgstr "" "Project-Id-Version: kubernetes\n" "Report-Msgid-Bugs-To: EMAIL\n" "POT-Creation-Date: 2017-09-02 01:36+0200\n" "PO-Revision-Date: 2017-09-02 01:36+0200\n" "Language: de_DE\n" "MIME-Version: 1.0\n" "Content-Type: text/plain; charset=UTF-8\n" "Content-Transfer-Encoding: 8bit\n" "Plural-Forms: nplurals=2; plural=(n != 1);\n" "Last-Translator: Steffen Schmitz \n" "Language-Team: Steffen Schmitz \n" "X-Generator: Poedit 1.8.7.1\n" "X-Poedit-SourceCharset: UTF-8\n" #: pkg/kubectl/cmd/create_clusterrolebinding.go:35 msgid "" "\n" "\t\t # Create a ClusterRoleBinding for user1, user2, and group1 using the " "cluster-admin ClusterRole\n" "\t\t kubectl create clusterrolebinding cluster-admin --clusterrole=cluster-" "admin --user=user1 --user=user2 --group=group1" msgstr "" "\n" "\t\t # Erstellt ein ClusterRoleBinding für user1, user2 und group1 mit der " "ClusterRole cluster-admin\n" "\t\t kubectl create clusterrolebinding cluster-admin --clusterrole=cluster-" "admin --user=user1 --user=user2 --group=group1" #: pkg/kubectl/cmd/create_rolebinding.go:35 msgid "" "\n" "\t\t # Create a RoleBinding for user1, user2, and group1 using the admin " "ClusterRole\n" "\t\t kubectl create rolebinding admin --clusterrole=admin --user=user1 --" "user=user2 --group=group1" msgstr "" "\n" "\t\t # Erstellt ein RoleBinding für user1, user2 und group1 mit der " "ClusterRole admin\n" "\t\t kubectl create rolebinding admin --clusterrole=admin --user=user1 --" "user=user2 --group=group1" #: pkg/kubectl/cmd/create_configmap.go:44 msgid "" "\n" "\t\t # Create a new configmap named my-config based on folder bar\n" "\t\t kubectl create configmap my-config --from-file=path/to/bar\n" "\n" "\t\t # Create a new configmap named my-config with specified keys instead " "of file basenames on disk\n" "\t\t kubectl create configmap my-config --from-file=key1=/path/to/bar/file1." "txt --from-file=key2=/path/to/bar/file2.txt\n" "\n" "\t\t # Create a new configmap named my-config with key1=config1 and " "key2=config2\n" "\t\t kubectl create configmap my-config --from-literal=key1=config1 --from-" "literal=key2=config2" msgstr "" "\n" "\t\t # Erstellt eine neue ConfigMap mit dem Namen my-config basierend auf " "dem Ordner bar\n" "\t\t kubectl create configmap my-config --from-file=path/to/bar\n" "\n" "\t\t # Erstellt eine neue ConfigMap mit dem Namen my-config mit den " "angegebenen Keys statt des Dateinamens auf der Festplatte.\n" "\t\t kubectl create configmap my-config --from-file=key1=/path/to/bar/file1." "txt --from-file=key2=/path/to/bar/file2.txt\n" "\n" "\t\t # Erstellt eine neue ConfigMap mit dem Namen my-config mit key1=config1" " und key2=config2\n" "\t\t kubectl create configmap my-config --from-literal=key1=config1 --from-" "literal=key2=config2" #: pkg/kubectl/cmd/create_secret.go:135 msgid "" "\n" "\t\t # If you don't already have a .dockercfg file, you can create a " "dockercfg secret directly by using:\n" "\t\t kubectl create secret docker-registry my-secret --docker-" "server=DOCKER_REGISTRY_SERVER --docker-username=DOCKER_USER --docker-" "password=DOCKER_PASSWORD --docker-email=DOCKER_EMAIL" msgstr "" "\n" "\t\t # Wenn keine .dockercfg Datei existiert, kann direkt ein " "dockercfg Secret erstellen mit:\n" "\t\t kubectl create secret docker-registry my-secret --docker-" "server=DOCKER_REGISTRY_SERVER --docker-username=DOCKER_USER --docker-" "password=DOCKER_PASSWORD --docker-email=DOCKER_EMAIL" #: pkg/kubectl/cmd/top_node.go:65 msgid "" "\n" "\t\t # Show metrics for all nodes\n" "\t\t kubectl top node\n" "\n" "\t\t # Show metrics for a given node\n" "\t\t kubectl top node NODE_NAME" msgstr "" "\n" "\t\t # Zeige Metriken für alle Nodes\n" "\t\t kubectl top node\n" "\n" "\t\t # Zeige Metriken für den gegebenen Node\n" "\t\t kubectl top node NODE_NAME" #: pkg/kubectl/cmd/apply.go:84 msgid "" "\n" "\t\t# Apply the configuration in pod.json to a pod.\n" "\t\tkubectl apply -f ./pod.json\n" "\n" "\t\t# Apply the JSON passed into stdin to a pod.\n" "\t\tcat pod.json | kubectl apply -f -\n" "\n" "\t\t# Note: --prune is still in Alpha\n" "\t\t# Apply the configuration in manifest.yaml that matches label app=nginx " "and delete all the other resources that are not in the file and match label " "app=nginx.\n" "\t\tkubectl apply --prune -f manifest.yaml -l app=nginx\n" "\n" "\t\t# Apply the configuration in manifest.yaml and delete all the other " "configmaps that are not in the file.\n" "\t\tkubectl apply --prune -f manifest.yaml --all --prune-whitelist=core/v1/" "ConfigMap" msgstr "" "\n" "\t\t# Wende die Konfiguration in pod.json auf einen Pod an.\n" "\t\tkubectl apply -f ./pod.json\n" "\n" "\t\t# Wende die JSON-Daten von stdin auf einen Pod an.\n" "\t\tcat pod.json | kubectl apply -f -\n" "\n" "\t\t# Hinweis: --prune ist noch in Alpha\n" "\t\t# Wende die Konfiguration, mit dem Label app=nginx, im manifest.yaml " "an und lösche alle Resourcen, die nicht in der Datei sind oder nicht das " "Label app=nginx besitzen.\n" "\t\tkubectl apply --prune -f manifest.yaml -l app=nginx\n" "\n" "\t\t# Wende die Konfiguration im manifest.yaml an und lösche alle ConfigMaps, " "die nicht in der Datei sind.\n" "\t\tkubectl apply --prune -f manifest.yaml --all --prune-whitelist=core/v1/" "ConfigMap" #: pkg/kubectl/cmd/autoscale.go:40 #, c-format msgid "" "\n" "\t\t# Auto scale a deployment \"foo\", with the number of pods between 2 and " "10, no target CPU utilization specified so a default autoscaling policy will " "be used:\n" "\t\tkubectl autoscale deployment foo --min=2 --max=10\n" "\n" "\t\t# Auto scale a replication controller \"foo\", with the number of pods " "between 1 and 5, target CPU utilization at 80%:\n" "\t\tkubectl autoscale rc foo --max=5 --cpu-percent=80" msgstr "" "\n" "\t\t# Auto-skaliere ein Deployment \"foo\", mit einer Anzahl an Pods zwischen " "2 und 10, eine Ziel-CPU-Auslastung ist angegeben, sodass eine Standard-" "autoskalierungsregel verwendet wird:\n" "\t\tkubectl autoscale deployment foo --min=2 --max=10\n" "\n" "\t\t# Auto-skaliere einen Replication-Controller \"foo\", mit einer Anzahl an " "Pods zwischen 1 und 5, mit einer Ziel-CPU-Auslastung von 80%:\n" "\t\tkubectl autoscale rc foo --max=5 --cpu-percent=80" #: pkg/kubectl/cmd/convert.go:49 msgid "" "\n" "\t\t# Convert 'pod.yaml' to latest version and print to stdout.\n" "\t\tkubectl convert -f pod.yaml\n" "\n" "\t\t# Convert the live state of the resource specified by 'pod.yaml' to the " "latest version\n" "\t\t# and print to stdout in json format.\n" "\t\tkubectl convert -f pod.yaml --local -o json\n" "\n" "\t\t# Convert all files under current directory to latest version and create " "them all.\n" "\t\tkubectl convert -f . | kubectl create -f -" msgstr "" "\n" "\t\t# Konvertiere 'pod.yaml' zur neuesten Version und schreibe auf stdout.\n" "\t\tkubectl convert -f pod.yaml\n" "\n" "\t\t# Konvertiere den aktuellen Zustand der Resource, die in 'pod.yaml' " "angegeben ist, zur neuesten Version\n" "\t\t# und schreibe auf stdout im JSON-Format.\n" "\t\tkubectl convert -f pod.yaml --local -o json\n" "\n" "\t\t# Konvertiere alle Dateien im aktuellen Ordner zur neuesten Version und " "erstelle sie.\n" "\t\tkubectl convert -f . | kubectl create -f -" #: pkg/kubectl/cmd/create_clusterrole.go:34 msgid "" "\n" "\t\t# Create a ClusterRole named \"pod-reader\" that allows user to perform " "\"get\", \"watch\" and \"list\" on pods\n" "\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --" "resource=pods\n" "\n" "\t\t# Create a ClusterRole named \"pod-reader\" with ResourceName specified\n" "\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --" "resource=pods --resource-name=readablepod" msgstr "" "\n" "\t\t# Erstellt eine ClusterRole \"pod-reader\", die es Nutzern erlaubt " "\"get\", \"watch\" und \"list\" auf den Pods auszuführen\n" "\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --" "resource=pods\n" "\n" "\t\t# Erstellt eine ClusterRole \"pod-reader\" mit dem angegebenen " "ResourceName\n" "\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --" "resource=pods --resource-name=readablepod" #: pkg/kubectl/cmd/create_role.go:41 msgid "" "\n" "\t\t# Create a Role named \"pod-reader\" that allows user to perform \"get" "\", \"watch\" and \"list\" on pods\n" "\t\tkubectl create role pod-reader --verb=get --verb=list --verb=watch --" "resource=pods\n" "\n" "\t\t# Create a Role named \"pod-reader\" with ResourceName specified\n" "\t\tkubectl create role pod-reader --verb=get --verg=list --verb=watch --" "resource=pods --resource-name=readablepod" msgstr "" "\n" "\t\t# Erstellt eine Role \"pod-reader\", die es dem Nutzer erlaubt " "\"get\", \"watch\" und \"list\" auf den Pods auszuführen\n" "\t\tkubectl create role pod-reader --verb=get --verb=list --verb=watch --" "resource=pods\n" "\n" "\t\t# Erstellt eine Role \"pod-reader\" mit dem angegebenen ResourceName\n" "\t\tkubectl create role pod-reader --verb=get --verg=list --verb=watch --" "resource=pods --resource-name=readablepod" #: pkg/kubectl/cmd/create_quota.go:35 msgid "" "\n" "\t\t# Create a new resourcequota named my-quota\n" "\t\tkubectl create quota my-quota --hard=cpu=1,memory=1G,pods=2,services=3," "replicationcontrollers=2,resourcequotas=1,secrets=5," "persistentvolumeclaims=10\n" "\n" "\t\t# Create a new resourcequota named best-effort\n" "\t\tkubectl create quota best-effort --hard=pods=100 --scopes=BestEffort" msgstr "" "\n" "\t\t# Erstellt eine neue ResourceQuota my-quota\n" "\t\tkubectl create quota my-quota --hard=cpu=1,memory=1G,pods=2,services=3," "replicationcontrollers=2,resourcequotas=1,secrets=5," "persistentvolumeclaims=10\n" "\n" "\t\t# Erstellt eine neue ResourceQuota best-effort\n" "\t\tkubectl create quota best-effort --hard=pods=100 --scopes=BestEffort" #: pkg/kubectl/cmd/create_pdb.go:35 #, c-format msgid "" "\n" "\t\t# Create a pod disruption budget named my-pdb that will select all pods " "with the app=rails label\n" "\t\t# and require at least one of them being available at any point in " "time.\n" "\t\tkubectl create poddisruptionbudget my-pdb --selector=app=rails --min-" "available=1\n" "\n" "\t\t# Create a pod disruption budget named my-pdb that will select all pods " "with the app=nginx label\n" "\t\t# and require at least half of the pods selected to be available at any " "point in time.\n" "\t\tkubectl create pdb my-pdb --selector=app=nginx --min-available=50%" msgstr "" "\n" "\t\t# Erstellt ein Pod-Disruption-Budget my-pdb, dass alle Pods mit " "dem Label app=rails auswählt\n" "\t\t# und sicherstellt, dass mindestens einer von ihnen zu jedem Zeitpunkt " "verfügbar ist.\n" "\t\tkubectl create poddisruptionbudget my-pdb --selector=app=rails --min-" "available=1\n" "\n" "\t\t# Erstellt ein Pod-Disruption-Budget my-pdb, dass alle Pods mit " "dem Label app=nginx auswählt\n" "\t\t# und sicherstellt, dass mindestens die Hälfte der gewählten Pods zu " "jedem Zeitpunkt verfügbar ist.\n" "\t\tkubectl create pdb my-pdb --selector=app=nginx --min-available=50%" #: pkg/kubectl/cmd/create.go:47 msgid "" "\n" "\t\t# Create a pod using the data in pod.json.\n" "\t\tkubectl create -f ./pod.json\n" "\n" "\t\t# Create a pod based on the JSON passed into stdin.\n" "\t\tcat pod.json | kubectl create -f -\n" "\n" "\t\t# Edit the data in docker-registry.yaml in JSON using the v1 API format " "then create the resource using the edited data.\n" "\t\tkubectl create -f docker-registry.yaml --edit --output-version=v1 -o json" msgstr "" "\n" "\t\t# Erstellt einen Pod mit den Daten in pod.json.\n" "\t\tkubectl create -f ./pod.json\n" "\n" "\t\t# Erstellt einen Pod basierend auf den JSON-Daten von stdin.\n" "\t\tcat pod.json | kubectl create -f -\n" "\n" "\t\t# Verändert die Daten in docker-registry.yaml in JSON mit dem v1 API " "Format und erstellt eine Resource mit den veränderten Daten.\n" "\t\tkubectl create -f docker-registry.yaml --edit --output-version=v1 -o json" #: pkg/kubectl/cmd/expose.go:53 msgid "" "\n" "\t\t# Create a service for a replicated nginx, which serves on port 80 and " "connects to the containers on port 8000.\n" "\t\tkubectl expose rc nginx --port=80 --target-port=8000\n" "\n" "\t\t# Create a service for a replication controller identified by type and " "name specified in \"nginx-controller.yaml\", which serves on port 80 and " "connects to the containers on port 8000.\n" "\t\tkubectl expose -f nginx-controller.yaml --port=80 --target-port=8000\n" "\n" "\t\t# Create a service for a pod valid-pod, which serves on port 444 with " "the name \"frontend\"\n" "\t\tkubectl expose pod valid-pod --port=444 --name=frontend\n" "\n" "\t\t# Create a second service based on the above service, exposing the " "container port 8443 as port 443 with the name \"nginx-https\"\n" "\t\tkubectl expose service nginx --port=443 --target-port=8443 --name=nginx-" "https\n" "\n" "\t\t# Create a service for a replicated streaming application on port 4100 " "balancing UDP traffic and named 'video-stream'.\n" "\t\tkubectl expose rc streamer --port=4100 --protocol=udp --name=video-" "stream\n" "\n" "\t\t# Create a service for a replicated nginx using replica set, which " "serves on port 80 and connects to the containers on port 8000.\n" "\t\tkubectl expose rs nginx --port=80 --target-port=8000\n" "\n" "\t\t# Create a service for an nginx deployment, which serves on port 80 and " "connects to the containers on port 8000.\n" "\t\tkubectl expose deployment nginx --port=80 --target-port=8000" msgstr "" "\n" "\t\t# Erstellt einen Service für einen replizierten nginx, der auf Port 80 " "hört und verbindet sich mit den Containern auf Port 8000.\n" "\t\tkubectl expose rc nginx --port=80 --target-port=8000\n" "\n" "\t\t# Erstellt einen Service für einen Replication-Controller, der über type " "und name in \"nginx-controller.yaml\" identifiziert wird, auf Port 80 " "hört und verbindet sich mit den Containern auf Port 8000.\n" "\t\tkubectl expose -f nginx-controller.yaml --port=80 --target-port=8000\n" "\n" "\t\t# Erstellt einen Service, mit dem Namen \"frontend\", für einen Pod " "valid-pod, der auf port 444 hört\n" "\t\tkubectl expose pod valid-pod --port=444 --name=frontend\n" "\n" "\t\t# Erstellt einen zweiten Service basierend auf dem vorherigen Service, " "der den Container Port 8443 auf Port 443 mit dem Namen \"nginx-https\" " "anbietet\n" "\t\tkubectl expose service nginx --port=443 --target-port=8443 --name=nginx-" "https\n" "\n" "\t\t# Erstellt einen Service für eine Replicated-Streaming-Application auf " "Port 4100, die UDP-Traffic verarbeitet und 'video-stream' heißt.\n" "\t\tkubectl expose rc streamer --port=4100 --protocol=udp --name=video-" "stream\n" "\n" "\t\t# Erstellt einen Service für einen replizierten nginx mit einem Replica-" "Set, dass auf Port 80 hört und verbindet sich mit den Containern auf Port 8000.\n" "\t\tkubectl expose rs nginx --port=80 --target-port=8000\n" "\n" "\t\t# Erstellt einen Service für ein nginx Deployment, dass auf Port 80 hört " "und verbindet sich mit den Containern auf Port 8000.\n" "\t\tkubectl expose deployment nginx --port=80 --target-port=8000" #: pkg/kubectl/cmd/delete.go:68 msgid "" "\n" "\t\t# Delete a pod using the type and name specified in pod.json.\n" "\t\tkubectl delete -f ./pod.json\n" "\n" "\t\t# Delete a pod based on the type and name in the JSON passed into " "stdin.\n" "\t\tcat pod.json | kubectl delete -f -\n" "\n" "\t\t# Delete pods and services with same names \"baz\" and \"foo\"\n" "\t\tkubectl delete pod,service baz foo\n" "\n" "\t\t# Delete pods and services with label name=myLabel.\n" "\t\tkubectl delete pods,services -l name=myLabel\n" "\n" "\t\t# Delete a pod with minimal delay\n" "\t\tkubectl delete pod foo --now\n" "\n" "\t\t# Force delete a pod on a dead node\n" "\t\tkubectl delete pod foo --grace-period=0 --force\n" "\n" "\t\t# Delete all pods\n" "\t\tkubectl delete pods --all" msgstr "" "\n" "\t\t# Löscht einen Pod mit type und name aus pod.json.\n" "\t\tkubectl delete -f ./pod.json\n" "\n" "\t\t# Löscht einen Pod mit dem type und name aus den JSON-Daten von stdin.\n" "\t\tcat pod.json | kubectl delete -f -\n" "\n" "\t\t# Löscht Pods und Services mit den Namen \"baz\" und \"foo\"\n" "\t\tkubectl delete pod,service baz foo\n" "\n" "\t\t# Löscht Pods und Services mit dem Label name=myLabel.\n" "\t\tkubectl delete pods,services -l name=myLabel\n" "\n" "\t\t# Löscht einen Pod mit minimaler Verzögerung\n" "\t\tkubectl delete pod foo --now\n" "\n" "\t\t# Erzwingt das Löschen eines Pods auf einem toten Node\n" "\t\tkubectl delete pod foo --grace-period=0 --force\n" "\n" "\t\t# Löscht alle Pods\n" "\t\tkubectl delete pods --all" #: pkg/kubectl/cmd/describe.go:54 msgid "" "\n" "\t\t# Describe a node\n" "\t\tkubectl describe nodes kubernetes-node-emt8.c.myproject.internal\n" "\n" "\t\t# Describe a pod\n" "\t\tkubectl describe pods/nginx\n" "\n" "\t\t# Describe a pod identified by type and name in \"pod.json\"\n" "\t\tkubectl describe -f pod.json\n" "\n" "\t\t# Describe all pods\n" "\t\tkubectl describe pods\n" "\n" "\t\t# Describe pods by label name=myLabel\n" "\t\tkubectl describe po -l name=myLabel\n" "\n" "\t\t# Describe all pods managed by the 'frontend' replication controller (rc-" "created pods\n" "\t\t# get the name of the rc as a prefix in the pod the name).\n" "\t\tkubectl describe pods frontend" msgstr "" "\n" "\t\t# Beschreibt einen Knoten\n" "\t\tkubectl describe nodes kubernetes-node-emt8.c.myproject.internal\n" "\n" "\t\t# Beschreibt einen Pod\n" "\t\tkubectl describe pods/nginx\n" "\n" "\t\t# Beschreibt einen Pod mit type und name aus \"pod.json\"\n" "\t\tkubectl describe -f pod.json\n" "\n" "\t\t# Beschreibt alle Pods\n" "\t\tkubectl describe pods\n" "\n" "\t\t# Beschreibt Pods mit dem Label name=myLabel\n" "\t\tkubectl describe po -l name=myLabel\n" "\n" "\t\t# Beschreibt alle Pods, die vom ReplicationController 'frontend' " "verwaltet werden (rc-erstellte Pods\n" "\t\t# bekommen den Namen des rc als Prefix im Podnamen).\n" "\t\tkubectl describe pods frontend" #: pkg/kubectl/cmd/drain.go:165 msgid "" "\n" "\t\t# Drain node \"foo\", even if there are pods not managed by a " "ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet on it.\n" "\t\t$ kubectl drain foo --force\n" "\n" "\t\t# As above, but abort if there are pods not managed by a " "ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet, and use a " "grace period of 15 minutes.\n" "\t\t$ kubectl drain foo --grace-period=900" msgstr "" "\n" "\t\t# Leere den Knoten \"foo\", selbst wenn er Pods enthält, die nicht von " "einem ReplicationController, ReplicaSet, Job, DaemonSet oder StatefulSet " "verwaltet werden.\n" "\t\t$ kubectl drain foo --force\n" "\n" "\t\t# Wie zuvor, aber es wird abgebrochen, wenn er Pods enthält, die nicht von " "einem ReplicationController, ReplicaSet, Job, DaemonSet oder StatefulSet " "verwaltet werden und mit einer Schonfrist von 15 Minuten.\n" "\t\t$ kubectl drain foo --grace-period=900" #: pkg/kubectl/cmd/edit.go:80 msgid "" "\n" "\t\t# Edit the service named 'docker-registry':\n" "\t\tkubectl edit svc/docker-registry\n" "\n" "\t\t# Use an alternative editor\n" "\t\tKUBE_EDITOR=\"nano\" kubectl edit svc/docker-registry\n" "\n" "\t\t# Edit the job 'myjob' in JSON using the v1 API format:\n" "\t\tkubectl edit job.v1.batch/myjob -o json\n" "\n" "\t\t# Edit the deployment 'mydeployment' in YAML and save the modified " "config in its annotation:\n" "\t\tkubectl edit deployment/mydeployment -o yaml --save-config" msgstr "" "\n" "\t\t# Bearbeite den Service 'docker-registry':\n" "\t\tkubectl edit svc/docker-registry\n" "\n" "\t\t# Benutze einen anderen Editor\n" "\t\tKUBE_EDITOR=\"nano\" kubectl edit svc/docker-registry\n" "\n" "\t\t# Bearbeite den Job 'myjob' in JSON mit dem v1 API Format:\n" "\t\tkubectl edit job.v1.batch/myjob -o json\n" "\n" "\t\t# Bearbeite das Deployment 'mydeployment' in YAML und speichere die " "veränderte Konfiguration in ihrer Annotation:\n" "\t\tkubectl edit deployment/mydeployment -o yaml --save-config" #: pkg/kubectl/cmd/exec.go:41 msgid "" "\n" "\t\t# Get output from running 'date' from pod 123456-7890, using the first " "container by default\n" "\t\tkubectl exec 123456-7890 date\n" "\n" "\t\t# Get output from running 'date' in ruby-container from pod 123456-7890\n" "\t\tkubectl exec 123456-7890 -c ruby-container date\n" "\n" "\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container " "from pod 123456-7890\n" "\t\t# and sends stdout/stderr from 'bash' back to the client\n" "\t\tkubectl exec 123456-7890 -c ruby-container -i -t -- bash -il" msgstr "" "\n" "\t\t# Erhalte die Ausgabe vom Aufruf von 'date' auf dem Pod 123456-7890, mit " "dem ersten Container als Standard\n" "\t\tkubectl exec 123456-7890 date\n" "\n" "\t\t# Erhalte die Ausgabe vom Aufruf von 'date' im Ruby-Container aus dem Pod " "123456-7890\n" "\t\tkubectl exec 123456-7890 -c ruby-container date\n" "\n" "\t\t# Wechsle in den Terminal-Modus und sende stdin zu 'bash' im Ruby-Container " "aus dem Pod 123456-7890\n" "\t\t# und sende stdout/stderr von 'bash' zurück zum Client\n" "\t\tkubectl exec 123456-7890 -c ruby-container -i -t -- bash -il" #: pkg/kubectl/cmd/attach.go:42 msgid "" "\n" "\t\t# Get output from running pod 123456-7890, using the first container by " "default\n" "\t\tkubectl attach 123456-7890\n" "\n" "\t\t# Get output from ruby-container from pod 123456-7890\n" "\t\tkubectl attach 123456-7890 -c ruby-container\n" "\n" "\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container " "from pod 123456-7890\n" "\t\t# and sends stdout/stderr from 'bash' back to the client\n" "\t\tkubectl attach 123456-7890 -c ruby-container -i -t\n" "\n" "\t\t# Get output from the first pod of a ReplicaSet named nginx\n" "\t\tkubectl attach rs/nginx\n" "\t\t" msgstr "" "\n" "\t\t# Erhalte die Ausgabe vom laufenden Pod 123456-7890, mit dem ersten " "Container als Standard\n" "\t\tkubectl attach 123456-7890\n" "\n" "\t\t# Erhalte die Ausgabe vom Ruby-Container aus dem Pod 123456-7890\n" "\t\tkubectl attach 123456-7890 -c ruby-container\n" "\n" "\t\t# Wechsle in den Terminal-Modus und sende stdin zu 'bash' im Ruby-Container " "aus dem Pod 123456-7890\n" "\t\t# und sende stdout/stderr von 'bash' zurück zum Client\n" "\t\tkubectl attach 123456-7890 -c ruby-container -i -t\n" "\n" "\t\t# Erhalte die Ausgabe vom ersten Pod eines ReplicaSets nginx\n" "\t\tkubectl attach rs/nginx\n" "\t\t" #: pkg/kubectl/cmd/explain.go:39 msgid "" "\n" "\t\t# Get the documentation of the resource and its fields\n" "\t\tkubectl explain pods\n" "\n" "\t\t# Get the documentation of a specific field of a resource\n" "\t\tkubectl explain pods.spec.containers" msgstr "" "\n" "\t\t# Erhalte die Dokumentation einer Resource und ihrer Felder\n" "\t\tkubectl explain pods\n" "\n" "\t\t# Erhalte die Dokumentation eines speziellen Felds einer Resource\n" "\t\tkubectl explain pods.spec.containers" #: pkg/kubectl/cmd/completion.go:65 msgid "" "\n" "\t\t# Install bash completion on a Mac using homebrew\n" "\t\tbrew install bash-completion\n" "\t\tprintf \"\n" "# Bash completion support\n" "source $(brew --prefix)/etc/bash_completion\n" "\" >> $HOME/.bash_profile\n" "\t\tsource $HOME/.bash_profile\n" "\n" "\t\t# Load the kubectl completion code for bash into the current shell\n" "\t\tsource <(kubectl completion bash)\n" "\n" "\t\t# Write bash completion code to a file and source if from .bash_profile\n" "\t\tkubectl completion bash > ~/.kube/completion.bash.inc\n" "\t\tprintf \"\n" "# Kubectl shell completion\n" "source '$HOME/.kube/completion.bash.inc'\n" "\" >> $HOME/.bash_profile\n" "\t\tsource $HOME/.bash_profile\n" "\n" "\t\t# Load the kubectl completion code for zsh[1] into the current shell\n" "\t\tsource <(kubectl completion zsh)" msgstr "" "\n" "\t\t# Installiere bash completion auf einem Mac mit homebrew\n" "\t\tbrew install bash-completion\n" "\t\tprintf \"\n" "# Bash completion support\n" "source $(brew --prefix)/etc/bash_completion\n" "\" >> $HOME/.bash_profile\n" "\t\tsource $HOME/.bash_profile\n" "\n" "\t\t# Lade den kubectl-Completion-Code für bash in der aktuellen Shell\n" "\t\tsource <(kubectl completion bash)\n" "\n" "\t\t# Schreibe den Bash-Completion-Code in eine Datei und source sie im " ".bash_profile\n" "\t\tkubectl completion bash > ~/.kube/completion.bash.inc\n" "\t\tprintf \"\n" "# Kubectl shell completion\n" "source '$HOME/.kube/completion.bash.inc'\n" "\" >> $HOME/.bash_profile\n" "\t\tsource $HOME/.bash_profile\n" "\n" "\t\t# Lade den kubectl-Completion-Code für zsh[1] in die aktuelle Shell\n" "\t\tsource <(kubectl completion zsh)" #: pkg/kubectl/cmd/get.go:64 msgid "" "\n" "\t\t# List all pods in ps output format.\n" "\t\tkubectl get pods\n" "\n" "\t\t# List all pods in ps output format with more information (such as node " "name).\n" "\t\tkubectl get pods -o wide\n" "\n" "\t\t# List a single replication controller with specified NAME in ps output " "format.\n" "\t\tkubectl get replicationcontroller web\n" "\n" "\t\t# List a single pod in JSON output format.\n" "\t\tkubectl get -o json pod web-pod-13je7\n" "\n" "\t\t# List a pod identified by type and name specified in \"pod.yaml\" in " "JSON output format.\n" "\t\tkubectl get -f pod.yaml -o json\n" "\n" "\t\t# Return only the phase value of the specified pod.\n" "\t\tkubectl get -o template pod/web-pod-13je7 --template={{.status.phase}}\n" "\n" "\t\t# List all replication controllers and services together in ps output " "format.\n" "\t\tkubectl get rc,services\n" "\n" "\t\t# List one or more resources by their type and names.\n" "\t\tkubectl get rc/web service/frontend pods/web-pod-13je7\n" "\n" "\t\t# List all resources with different types.\n" "\t\tkubectl get all" msgstr "" "\n" "\t\t# Liste alle Pods im ps-Format auf.\n" "\t\tkubectl get pods\n" "\n" "\t\t# Liste alle Pods im ps-Format mit zusätzlichen Informationen (wie dem " "Knotennamen) auf.\n" "\t\tkubectl get pods -o wide\n" "\n" "\t\t# Liste alle einzelnen ReplicationController mit dem angegebenen Namen im " "ps-Format auf.\n" "\t\tkubectl get replicationcontroller web\n" "\n" "\t\t# Liste einen einzelnen Pod im JSON-Format auf.\n" "\t\tkubectl get -o json pod web-pod-13je7\n" "\n" "\t\t# Liste einen Pod mit Typ und Namen aus \"pod.yaml\" im JSON-Format auf.\n" "\t\tkubectl get -f pod.yaml -o json\n" "\n" "\t\t# Gib nur den phase-Wert des angegebenen Pods zurück.\n" "\t\tkubectl get -o template pod/web-pod-13je7 --template={{.status.phase}}\n" "\n" "\t\t# Liste alle ReplicationController und Services im ps-Format auf.\n" "\t\tkubectl get rc,services\n" "\n" "\t\t# Liste eine oder mehrere Resourcen über ihren Typ und Namen auf.\n" "\t\tkubectl get rc/web service/frontend pods/web-pod-13je7\n" "\n" "\t\t# Liste alle Resourcen mit verschiedenen Typen auf.\n" "\t\tkubectl get all" #: pkg/kubectl/cmd/portforward.go:53 msgid "" "\n" "\t\t# Listen on ports 5000 and 6000 locally, forwarding data to/from ports " "5000 and 6000 in the pod\n" "\t\tkubectl port-forward mypod 5000 6000\n" "\n" "\t\t# Listen on port 8888 locally, forwarding to 5000 in the pod\n" "\t\tkubectl port-forward mypod 8888:5000\n" "\n" "\t\t# Listen on a random port locally, forwarding to 5000 in the pod\n" "\t\tkubectl port-forward mypod :5000\n" "\n" "\t\t# Listen on a random port locally, forwarding to 5000 in the pod\n" "\t\tkubectl port-forward mypod 0:5000" msgstr "" "\n" "\t\t# Hört lokal auf Port 5000 und 6000 und leitet Daten zum/vom Port 5000 und " "6000 weiter an den Pod\n" "\t\tkubectl port-forward mypod 5000 6000\n" "\n" "\t\t# Hört lokal auf Port 8888 und leitet an Port 5000 des Pods weiter\n" "\t\tkubectl port-forward mypod 8888:5000\n" "\n" "\t\t# Hört auf einen zufälligen lokalen Port und leitet an Port 5000 des Pods " "weiter\n" "\t\tkubectl port-forward mypod :5000\n" "\n" "\t\t# Hört auf einen zufälligen lokalen Port und leitet an Port 5000 des Pods " "weiter\n" "\t\tkubectl port-forward mypod 0:5000" #: pkg/kubectl/cmd/drain.go:118 msgid "" "\n" "\t\t# Mark node \"foo\" as schedulable.\n" "\t\t$ kubectl uncordon foo" msgstr "" "\n" "\t\t# Markiere Knoten \"foo\" als schedulable.\n" "\t\t$ kubectl uncordon foo" #: pkg/kubectl/cmd/drain.go:93 msgid "" "\n" "\t\t# Mark node \"foo\" as unschedulable.\n" "\t\tkubectl cordon foo" msgstr "" "\n" "\t\t# Markiere Knoten \"foo\" als unschedulable.\n" "\t\tkubectl cordon foo" #: pkg/kubectl/cmd/patch.go:66 msgid "" "\n" "\t\t# Partially update a node using strategic merge patch\n" "\t\tkubectl patch node k8s-node-1 -p '{\"spec\":{\"unschedulable\":true}}'\n" "\n" "\t\t# Partially update a node identified by the type and name specified in " "\"node.json\" using strategic merge patch\n" "\t\tkubectl patch -f node.json -p '{\"spec\":{\"unschedulable\":true}}'\n" "\n" "\t\t# Update a container's image; spec.containers[*].name is required " "because it's a merge key\n" "\t\tkubectl patch pod valid-pod -p '{\"spec\":{\"containers\":[{\"name\":" "\"kubernetes-serve-hostname\",\"image\":\"new image\"}]}}'\n" "\n" "\t\t# Update a container's image using a json patch with positional arrays\n" "\t\tkubectl patch pod valid-pod --type='json' -p='[{\"op\": \"replace\", " "\"path\": \"/spec/containers/0/image\", \"value\":\"new image\"}]'" msgstr "" "\n" "\t\t# Aktualisiere einen Knoten teilweise mit einem Strategic-Merge-Patch\n" "\t\tkubectl patch node k8s-node-1 -p '{\"spec\":{\"unschedulable\":true}}'\n" "\n" "\t\t# Aktualisiere einen Knoten, mit type und name aus \"node.json\", mit einem " "Strategic-Merge-Patch\n" "\t\tkubectl patch -f node.json -p '{\"spec\":{\"unschedulable\":true}}'\n" "\n" "\t\t# Aktualisiere das Image eines Containers; spec.containers[*].name ist " "erforderlich, da es der Merge-Key ist\n" "\t\tkubectl patch pod valid-pod -p '{\"spec\":{\"containers\":[{\"name\":" "\"kubernetes-serve-hostname\",\"image\":\"new image\"}]}}'\n" "\n" "\t\t# Aktualisiere das Image eines Containers mit einem JSON-Patch mit " "Positional-Arrays\n" "\t\tkubectl patch pod valid-pod --type='json' -p='[{\"op\": \"replace\", " "\"path\": \"/spec/containers/0/image\", \"value\":\"new image\"}]'" #: pkg/kubectl/cmd/options.go:29 msgid "" "\n" "\t\t# Print flags inherited by all commands\n" "\t\tkubectl options" msgstr "" "\n" "\t\t# Gebe Optionen aus, die an alle Kommandos vererbt werden\n" "\t\tkubectl options" #: pkg/kubectl/cmd/clusterinfo.go:41 msgid "" "\n" "\t\t# Print the address of the master and cluster services\n" "\t\tkubectl cluster-info" msgstr "" "\n" "\t\t# Gebe die Adresse des Masters und des Cluster-Services aus\n" "\t\tkubectl cluster-info" #: pkg/kubectl/cmd/version.go:32 msgid "" "\n" "\t\t# Print the client and server versions for the current context\n" "\t\tkubectl version" msgstr "" "\n" "\t\t# Gebe die Client- und Server-Versionen des aktuellen Kontexts aus\n" "\t\tkubectl version" #: pkg/kubectl/cmd/apiversions.go:34 msgid "" "\n" "\t\t# Print the supported API versions\n" "\t\tkubectl api-versions" msgstr "" "\n" "\t\t# Gebe die unterstützten API Versionen aus\n" "\t\tkubectl api-versions" #: pkg/kubectl/cmd/replace.go:50 msgid "" "\n" "\t\t# Replace a pod using the data in pod.json.\n" "\t\tkubectl replace -f ./pod.json\n" "\n" "\t\t# Replace a pod based on the JSON passed into stdin.\n" "\t\tcat pod.json | kubectl replace -f -\n" "\n" "\t\t# Update a single-container pod's image version (tag) to v4\n" "\t\tkubectl get pod mypod -o yaml | sed 's/\\(image: myimage\\):.*$/:v4/' | " "kubectl replace -f -\n" "\n" "\t\t# Force replace, delete and then re-create the resource\n" "\t\tkubectl replace --force -f ./pod.json" msgstr "" "\n" "\t\t# Ersetze einen Pod mit den Daten aus pod.json.\n" "\t\tkubectl replace -f ./pod.json\n" "\n" "\t\t# Ersetze einen Pod mit den JSON-Daten von stdin.\n" "\t\tcat pod.json | kubectl replace -f -\n" "\n" "\t\t# Setze die Pod-Image-Version (tag) eines einzelnen Containers zu v4\n" "\t\tkubectl get pod mypod -o yaml | sed 's/\\(image: myimage\\):.*$/:v4/' | " "kubectl replace -f -\n" "\n" "\t\t# Erzwinge das Ersetzen, Löschen und Neu-Erstellen der Resource\n" "\t\tkubectl replace --force -f ./pod.json" #: pkg/kubectl/cmd/logs.go:40 msgid "" "\n" "\t\t# Return snapshot logs from pod nginx with only one container\n" "\t\tkubectl logs nginx\n" "\n" "\t\t# Return snapshot logs for the pods defined by label app=nginx\n" "\t\tkubectl logs -lapp=nginx\n" "\n" "\t\t# Return snapshot of previous terminated ruby container logs from pod " "web-1\n" "\t\tkubectl logs -p -c ruby web-1\n" "\n" "\t\t# Begin streaming the logs of the ruby container in pod web-1\n" "\t\tkubectl logs -f -c ruby web-1\n" "\n" "\t\t# Display only the most recent 20 lines of output in pod nginx\n" "\t\tkubectl logs --tail=20 nginx\n" "\n" "\t\t# Show all logs from pod nginx written in the last hour\n" "\t\tkubectl logs --since=1h nginx\n" "\n" "\t\t# Return snapshot logs from first container of a job named hello\n" "\t\tkubectl logs job/hello\n" "\n" "\t\t# Return snapshot logs from container nginx-1 of a deployment named " "nginx\n" "\t\tkubectl logs deployment/nginx -c nginx-1" msgstr "" "\n" "\t\t# Gib die Snapshot-Logs des Pods nginx mit nur einem Container zurück\n" "\t\tkubectl logs nginx\n" "\n" "\t\t# Gib die Snapshot-Logs für die Pods mit dem Label app=nginx zurück\n" "\t\tkubectl logs -lapp=nginx\n" "\n" "\t\t# Gib die Snapshot-Logs des zuvor gelöschten Ruby-Containers des Pods " "web-1 zurück\n" "\t\tkubectl logs -p -c ruby web-1\n" "\n" "\t\t# Starte das Streaming der Logs vom Ruby-Container im Pod web-1\n" "\t\tkubectl logs -f -c ruby web-1\n" "\n" "\t\t# Zeige die letzten 20 Zeilen der Ausgabe des Pods nginx\n" "\t\tkubectl logs --tail=20 nginx\n" "\n" "\t\t# Zeige alle Logs der letzten Stunde des Pods nginx an\n" "\t\tkubectl logs --since=1h nginx\n" "\n" "\t\t# Gib die Snapshot-Logs des ersten Containers des Jobs hello zurück\n" "\t\tkubectl logs job/hello\n" "\n" "\t\t# Gib die Snapshot-Logs des Containers nginx-1 eines Deployments nginx " "zurück\n" "\t\tkubectl logs deployment/nginx -c nginx-1" #: pkg/kubectl/cmd/proxy.go:53 msgid "" "\n" "\t\t# Run a proxy to kubernetes apiserver on port 8011, serving static " "content from ./local/www/\n" "\t\tkubectl proxy --port=8011 --www=./local/www/\n" "\n" "\t\t# Run a proxy to kubernetes apiserver on an arbitrary local port.\n" "\t\t# The chosen port for the server will be output to stdout.\n" "\t\tkubectl proxy --port=0\n" "\n" "\t\t# Run a proxy to kubernetes apiserver, changing the api prefix to k8s-" "api\n" "\t\t# This makes e.g. the pods api available at localhost:8001/k8s-api/v1/" "pods/\n" "\t\tkubectl proxy --api-prefix=/k8s-api" msgstr "" "\n" "\t\t# Starte einen Proxy zum Kubernetes-Apiserver auf Port 8011 und sende " "statische Inhalte von ./local/www/\n" "\t\tkubectl proxy --port=8011 --www=./local/www/\n" "\n" "\t\t# Starte einen Proxy zum Kubernetes-Apiserver auf einem zufälligen lokalen " "Port.\n" "\t\t# Der gewählte Port für den Server wird im stdout zurückgegeben.\n" "\t\tkubectl proxy --port=0\n" "\n" "\t\t# Starte einen Proxy zum Kubernetes-Apiserver und ändere das API-Prefix " "zu k8s-api\n" "\t\t# Damit ist die Pods-API bspw. unter localhost:8001/k8s-api/v1/pods/ " "erreichbar\n" "\t\tkubectl proxy --api-prefix=/k8s-api" #: pkg/kubectl/cmd/scale.go:43 msgid "" "\n" "\t\t# Scale a replicaset named 'foo' to 3.\n" "\t\tkubectl scale --replicas=3 rs/foo\n" "\n" "\t\t# Scale a resource identified by type and name specified in \"foo.yaml\" " "to 3.\n" "\t\tkubectl scale --replicas=3 -f foo.yaml\n" "\n" "\t\t# If the deployment named mysql's current size is 2, scale mysql to 3.\n" "\t\tkubectl scale --current-replicas=2 --replicas=3 deployment/mysql\n" "\n" "\t\t# Scale multiple replication controllers.\n" "\t\tkubectl scale --replicas=5 rc/foo rc/bar rc/baz\n" "\n" "\t\t# Scale job named 'cron' to 3.\n" "\t\tkubectl scale --replicas=3 job/cron" msgstr "" "\n" "\t\t# Skaliere ein ReplicaSet 'foo' auf 3.\n" "\t\tkubectl scale --replicas=3 rs/foo\n" "\n" "\t\t# Skaliere eine Resource mit type und name aus \"foo.yaml\" auf 3.\n" "\t\tkubectl scale --replicas=3 -f foo.yaml\n" "\n" "\t\t# Wenn die aktuelle Größe des Deployments mysql 2 ist, skaliere mysql auf 3.\n" "\t\tkubectl scale --current-replicas=2 --replicas=3 deployment/mysql\n" "\n" "\t\t# Skaliere mehrere MultiplicationController.\n" "\t\tkubectl scale --replicas=5 rc/foo rc/bar rc/baz\n" "\n" "\t\t# Skaliere den Job cron auf 3.\n" "\t\tkubectl scale --replicas=3 job/cron" #: pkg/kubectl/cmd/apply_set_last_applied.go:67 msgid "" "\n" "\t\t# Set the last-applied-configuration of a resource to match the contents " "of a file.\n" "\t\tkubectl apply set-last-applied -f deploy.yaml\n" "\n" "\t\t# Execute set-last-applied against each configuration file in a " "directory.\n" "\t\tkubectl apply set-last-applied -f path/\n" "\n" "\t\t# Set the last-applied-configuration of a resource to match the contents " "of a file, will create the annotation if it does not already exist.\n" "\t\tkubectl apply set-last-applied -f deploy.yaml --create-annotation=true\n" "\t\t" msgstr "" "\n" "\t\t# Setze die Last-Applied-Configuration einer Resource auf den Inhalt einer " "Datei.\n" "\t\tkubectl apply set-last-applied -f deploy.yaml\n" "\n" "\t\t# Führe Set-Last-Applied auf jeder Konfigurationsdatei in einem Ordner aus.\n" "\t\tkubectl apply set-last-applied -f path/\n" "\n" "\t\t# Setze die Last-Applied-Configuration einer Resource auf den Inhalt einer " "Datei; erstellt die Annotation, wenn sie noch nicht existiert.\n" "\t\tkubectl apply set-last-applied -f deploy.yaml --create-annotation=true\n" "\t\t" #: pkg/kubectl/cmd/top_pod.go:61 msgid "" "\n" "\t\t# Show metrics for all pods in the default namespace\n" "\t\tkubectl top pod\n" "\n" "\t\t# Show metrics for all pods in the given namespace\n" "\t\tkubectl top pod --namespace=NAMESPACE\n" "\n" "\t\t# Show metrics for a given pod and its containers\n" "\t\tkubectl top pod POD_NAME --containers\n" "\n" "\t\t# Show metrics for the pods defined by label name=myLabel\n" "\t\tkubectl top pod -l name=myLabel" msgstr "" "\n" "\t\t# Zeige Metriken für alle Pods im Namespace default\n" "\t\tkubectl top pod\n" "\n" "\t\t# Zeige Metriken für alle Pods im gegebenen namespace\n" "\t\tkubectl top pod --namespace=NAMESPACE\n" "\n" "\t\t# Zeige Metriken für den gebenen Pod und seine Container\n" "\t\tkubectl top pod POD_NAME --containers\n" "\n" "\t\t# Zeige Metriken für Pods mit dem Label name=myLabel\n" "\t\tkubectl top pod -l name=myLabel" #: pkg/kubectl/cmd/stop.go:40 msgid "" "\n" "\t\t# Shut down foo.\n" "\t\tkubectl stop replicationcontroller foo\n" "\n" "\t\t# Stop pods and services with label name=myLabel.\n" "\t\tkubectl stop pods,services -l name=myLabel\n" "\n" "\t\t# Shut down the service defined in service.json\n" "\t\tkubectl stop -f service.json\n" "\n" "\t\t# Shut down all resources in the path/to/resources directory\n" "\t\tkubectl stop -f path/to/resources" msgstr "" "\n" "\t\t# Stoppe foo.\n" "\t\tkubectl stop replicationcontroller foo\n" "\n" "\t\t# Stoppe Pods und Services mit dem Label name=myLabel.\n" "\t\tkubectl stop pods,services -l name=myLabel\n" "\n" "\t\t# Stoppe den in service.json definierten Service\n" "\t\tkubectl stop -f service.json\n" "\n" "\t\t# Stoppe alle Resourcen im Ordner path/to/resources\n" "\t\tkubectl stop -f path/to/resources" #: pkg/kubectl/cmd/run.go:57 msgid "" "\n" "\t\t# Start a single instance of nginx.\n" "\t\tkubectl run nginx --image=nginx\n" "\n" "\t\t# Start a single instance of hazelcast and let the container expose port " "5701 .\n" "\t\tkubectl run hazelcast --image=hazelcast --port=5701\n" "\n" "\t\t# Start a single instance of hazelcast and set environment variables " "\"DNS_DOMAIN=cluster\" and \"POD_NAMESPACE=default\" in the container.\n" "\t\tkubectl run hazelcast --image=hazelcast --env=\"DNS_DOMAIN=cluster\" --" "env=\"POD_NAMESPACE=default\"\n" "\n" "\t\t# Start a replicated instance of nginx.\n" "\t\tkubectl run nginx --image=nginx --replicas=5\n" "\n" "\t\t# Dry run. Print the corresponding API objects without creating them.\n" "\t\tkubectl run nginx --image=nginx --dry-run\n" "\n" "\t\t# Start a single instance of nginx, but overload the spec of the " "deployment with a partial set of values parsed from JSON.\n" "\t\tkubectl run nginx --image=nginx --overrides='{ \"apiVersion\": \"v1\", " "\"spec\": { ... } }'\n" "\n" "\t\t# Start a pod of busybox and keep it in the foreground, don't restart it " "if it exits.\n" "\t\tkubectl run -i -t busybox --image=busybox --restart=Never\n" "\n" "\t\t# Start the nginx container using the default command, but use custom " "arguments (arg1 .. argN) for that command.\n" "\t\tkubectl run nginx --image=nginx -- ... \n" "\n" "\t\t# Start the nginx container using a different command and custom " "arguments.\n" "\t\tkubectl run nginx --image=nginx --command -- ... \n" "\n" "\t\t# Start the perl container to compute π to 2000 places and print it " "out.\n" "\t\tkubectl run pi --image=perl --restart=OnFailure -- perl -Mbignum=bpi -" "wle 'print bpi(2000)'\n" "\n" "\t\t# Start the cron job to compute π to 2000 places and print it out every " "5 minutes.\n" "\t\tkubectl run pi --schedule=\"0/5 * * * ?\" --image=perl --" "restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'" msgstr "" "\n" "\t\t# Starte eine einzelne Instanz von nginx.\n" "\t\tkubectl run nginx --image=nginx\n" "\n" "\t\t# Starte eine einzelne Instanz von hazelcast und öffne Port 5701 auf dem " "Container.\n" "\t\tkubectl run hazelcast --image=hazelcast --port=5701\n" "\n" "\t\t# Starte eine einzelne Instanz von hazelcast und setze die Umgebungs-" "variablen \"DNS_DOMAIN=cluster\" und \"POD_NAMESPACE=default\" im Container.\n" "\t\tkubectl run hazelcast --image=hazelcast --env=\"DNS_DOMAIN=cluster\" --" "env=\"POD_NAMESPACE=default\"\n" "\n" "\t\t# Starte eine replizierte Instanz von nginx.\n" "\t\tkubectl run nginx --image=nginx --replicas=5\n" "\n" "\t\t# Testlauf. Zeige die zugehörigen API Objekte ohne sie zu erstellen.\n" "\t\tkubectl run nginx --image=nginx --dry-run\n" "\n" "\t\t# Starte eine einzelne Instanz von nginx, aber überlade die Spec des " "Deployments mit einer Teilmenge von JSON-Werten.\n" "\t\tkubectl run nginx --image=nginx --overrides='{ \"apiVersion\": \"v1\", " "\"spec\": { ... } }'\n" "\n" "\t\t# Starte einen busybox Pod und lass ihn im Vordergrund laufen; starte ihn " "nicht neu, wenn er existiert.\n" "\t\tkubectl run -i -t busybox --image=busybox --restart=Never\n" "\n" "\t\t# Starte einen nginx-Container mit dem Standardkommando, aber übergebe " "die Parameter (arg1 .. argN) an das Kommando.\n" "\t\tkubectl run nginx --image=nginx -- ... \n" "\n" "\t\t# Starte den nginx-Container mit einem anderen Kommando und Parametern.\n" "\t\tkubectl run nginx --image=nginx --command -- ... \n" "\n" "\t\t# Starte den perl-Container, um π auf 2000 Stellen zu berechnen und gib es " "aus.\n" "\t\tkubectl run pi --image=perl --restart=OnFailure -- perl -Mbignum=bpi -" "wle 'print bpi(2000)'\n" "\n" "\t\t# Starte den cron-Job, um π auf 2000 Stellen zu berechnen und gib sie alle " "5 Minuten aus.\n" "\t\tkubectl run pi --schedule=\"0/5 * * * ?\" --image=perl --" "restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'" #: pkg/kubectl/cmd/taint.go:67 msgid "" "\n" "\t\t# Update node 'foo' with a taint with key 'dedicated' and value 'special-" "user' and effect 'NoSchedule'.\n" "\t\t# If a taint with that key and effect already exists, its value is " "replaced as specified.\n" "\t\tkubectl taint nodes foo dedicated=special-user:NoSchedule\n" "\n" "\t\t# Remove from node 'foo' the taint with key 'dedicated' and effect " "'NoSchedule' if one exists.\n" "\t\tkubectl taint nodes foo dedicated:NoSchedule-\n" "\n" "\t\t# Remove from node 'foo' all the taints with key 'dedicated'\n" "\t\tkubectl taint nodes foo dedicated-" msgstr "" "\n" "\t\t# Aktualisiere Knoten 'foo' mit einem Taint mit dem Key 'dedicated', dem " "Value 'special-user' und dem Effect 'NoSchedule'.\n" "\t\t# Wenn ein Taint mit dem Key und Effect schon existiert, wird sein Value " "mit den gegebenen Werten ersetzt.\n" "\t\tkubectl taint nodes foo dedicated=special-user:NoSchedule\n" "\n" "\t\t# Entferne vom Knoten 'foo' den Taint mit dem Key 'dedicated' und dem Effect " "'NoSchedule', wenn er existiert.\n" "\t\tkubectl taint nodes foo dedicated:NoSchedule-\n" "\n" "\t\t# Entferne vom Knoten 'foo' alle Tains mit dem Key 'dedicated'\n" "\t\tkubectl taint nodes foo dedicated-" #: pkg/kubectl/cmd/label.go:77 msgid "" "\n" "\t\t# Update pod 'foo' with the label 'unhealthy' and the value 'true'.\n" "\t\tkubectl label pods foo unhealthy=true\n" "\n" "\t\t# Update pod 'foo' with the label 'status' and the value 'unhealthy', " "overwriting any existing value.\n" "\t\tkubectl label --overwrite pods foo status=unhealthy\n" "\n" "\t\t# Update all pods in the namespace\n" "\t\tkubectl label pods --all status=unhealthy\n" "\n" "\t\t# Update a pod identified by the type and name in \"pod.json\"\n" "\t\tkubectl label -f pod.json status=unhealthy\n" "\n" "\t\t# Update pod 'foo' only if the resource is unchanged from version 1.\n" "\t\tkubectl label pods foo status=unhealthy --resource-version=1\n" "\n" "\t\t# Update pod 'foo' by removing a label named 'bar' if it exists.\n" "\t\t# Does not require the --overwrite flag.\n" "\t\tkubectl label pods foo bar-" msgstr "" "\n" "\t\t# Aktualisiere den Pod 'foo' mit dem Label 'unhealthy' und dem Value " "'true'.\n" "\t\tkubectl label pods foo unhealthy=true\n" "\n" "\t\t# Aktualisiere den Pod 'foo' mit dem Label 'status' und dem Value " "'unhealthy' und überschreibe alle bisherigen Values.\n" "\t\tkubectl label --overwrite pods foo status=unhealthy\n" "\n" "\t\t# Aktualisiere alle Pods im Namespace\n" "\t\tkubectl label pods --all status=unhealthy\n" "\n" "\t\t# Aktualisiere den Pod mit type und name aus \"pod.json\"\n" "\t\tkubectl label -f pod.json status=unhealthy\n" "\n" "\t\t# Aktualisiere den Pod 'foo', wenn die Resource sich nicht von version 1 " "unterscheidet.\n" "\t\tkubectl label pods foo status=unhealthy --resource-version=1\n" "\n" "\t\t# Aktualisiere den Pod 'foo', indem das Label 'bar' gelöscht wird, wenn es " "existiert.\n" "\t\t# Benötigt kein --overwrite flag.\n" "\t\tkubectl label pods foo bar-" #: pkg/kubectl/cmd/rollingupdate.go:54 msgid "" "\n" "\t\t# Update pods of frontend-v1 using new replication controller data in " "frontend-v2.json.\n" "\t\tkubectl rolling-update frontend-v1 -f frontend-v2.json\n" "\n" "\t\t# Update pods of frontend-v1 using JSON data passed into stdin.\n" "\t\tcat frontend-v2.json | kubectl rolling-update frontend-v1 -f -\n" "\n" "\t\t# Update the pods of frontend-v1 to frontend-v2 by just changing the " "image, and switching the\n" "\t\t# name of the replication controller.\n" "\t\tkubectl rolling-update frontend-v1 frontend-v2 --image=image:v2\n" "\n" "\t\t# Update the pods of frontend by just changing the image, and keeping " "the old name.\n" "\t\tkubectl rolling-update frontend --image=image:v2\n" "\n" "\t\t# Abort and reverse an existing rollout in progress (from frontend-v1 to " "frontend-v2).\n" "\t\tkubectl rolling-update frontend-v1 frontend-v2 --rollback" msgstr "" "\n" "\t\t# Aktualisiere die Pods in frontend-v1 mit den neuen Replication-" "Controller Daten in frontend-v2.json.\n" "\t\tkubectl rolling-update frontend-v1 -f frontend-v2.json\n" "\n" "\t\t# Aktualisiere die Pods in frontend-v1 mit den JSON-Daten von stdin.\n" "\t\tcat frontend-v2.json | kubectl rolling-update frontend-v1 -f -\n" "\n" "\t\t# Aktualisiere die Pods von frontend-v1 auf frontend-v2, indem das Image " "geändert wird und\n" "\t\t# der Name des ReplicationControllers.\n" "\t\tkubectl rolling-update frontend-v1 frontend-v2 --image=image:v2\n" "\n" "\t\t# Aktualisiere die Pods in frontend, indem das Image geändert, aber der " "alte Name beibehalten wird.\n" "\t\tkubectl rolling-update frontend --image=image:v2\n" "\n" "\t\t# Breche ein laufendes Rollout (von frontend-v1 zu frontend-v2) ab und " "mache es rückgängig.\n" "\t\tkubectl rolling-update frontend-v1 frontend-v2 --rollback" #: pkg/kubectl/cmd/apply_view_last_applied.go:52 msgid "" "\n" "\t\t# View the last-applied-configuration annotations by type/name in YAML.\n" "\t\tkubectl apply view-last-applied deployment/nginx\n" "\n" "\t\t# View the last-applied-configuration annotations by file in JSON\n" "\t\tkubectl apply view-last-applied -f deploy.yaml -o json" msgstr "" "\n" "\t\t# Zeige die Annotation Last-Applied-Configuration mit type/name in YAML an.\n" "\t\tkubectl apply view-last-applied deployment/nginx\n" "\n" "\t\t# Zeige die Annotation Last-applied-configuration mit der Datei in JSON an\n" "\t\tkubectl apply view-last-applied -f deploy.yaml -o json" #: pkg/kubectl/cmd/apply.go:75 msgid "" "\n" "\t\tApply a configuration to a resource by filename or stdin.\n" "\t\tThis resource will be created if it doesn't exist yet.\n" "\t\tTo use 'apply', always create the resource initially with either 'apply' " "or 'create --save-config'.\n" "\n" "\t\tJSON and YAML formats are accepted.\n" "\n" "\t\tAlpha Disclaimer: the --prune functionality is not yet complete. Do not " "use unless you are aware of what the current state is. See https://issues." "k8s.io/34274." msgstr "" "\n" "\t\tWende eine Konfiguration auf eine Resource mit Dateinamen oder stdin an.\n" "\t\tDie Resource wird erstellt, wenn sie noch nicht existiert.\n" "\t\tUm 'apply' zu benutzen, muss die Resource initital mit 'apply' oder " "'create --save-config' erstellt werden.\n" "\n" "\t\tJSON- und YAML-Formate werden akzeptiert.\n" "\n" "\t\tAlpha Disclaimer: Die --prune Funktion ist noch nicht fertig. Benutze sie " "nicht, wenn der aktuelle Zustand nicht bekannt ist. Siehe https://issues.k8s." "io/34274." #: pkg/kubectl/cmd/convert.go:38 msgid "" "\n" "\t\tConvert config files between different API versions. Both YAML\n" "\t\tand JSON formats are accepted.\n" "\n" "\t\tThe command takes filename, directory, or URL as input, and convert it " "into format\n" "\t\tof version specified by --output-version flag. If target version is not " "specified or\n" "\t\tnot supported, convert to latest version.\n" "\n" "\t\tThe default output will be printed to stdout in YAML format. One can use " "-o option\n" "\t\tto change to output destination." msgstr "" "\n" "\t\tKonvertiere Konfigurationsdateien zwischen API Versionen. Sowohl YAML-\n" "\t\talsauch JSON-Formate werden akzeptiert.\n" "\n" "\t\tDer Befehlt akzeptiert Dateinamen, Ordner oder URL als Parameter und " "konvertiert es ins Format\n" "\t\tder mit --output-version gegebenen Version. Wenn die Zielversion nicht \n" "\t\tangegeben wird oder ungültig ist, wird die neueste Version verwendet.\n" "\n" "\t\tDie Standardausgabe wird auf stdout im YAML-Format ausgegeben. Man kann " "die Option -o verwenden,\n" "\t\tum das Ausgabeziel festzulegen." #: pkg/kubectl/cmd/create_clusterrole.go:31 msgid "" "\n" "\t\tCreate a ClusterRole." msgstr "" "\n" "\t\tErstelle eine ClusterRole." #: pkg/kubectl/cmd/create_clusterrolebinding.go:32 msgid "" "\n" "\t\tCreate a ClusterRoleBinding for a particular ClusterRole." msgstr "" "\n" "\t\tErstelle ein ClusterRoleBinding für eine bestimmte ClusterRole." #: pkg/kubectl/cmd/create_rolebinding.go:32 msgid "" "\n" "\t\tCreate a RoleBinding for a particular Role or ClusterRole." msgstr "" "\n" "\t\tErstelle ein RoleBinding für eine bestimmte ClusterRole." #: pkg/kubectl/cmd/create_secret.go:200 msgid "" "\n" "\t\tCreate a TLS secret from the given public/private key pair.\n" "\n" "\t\tThe public/private key pair must exist before hand. The public key " "certificate must be .PEM encoded and match the given private key." msgstr "" "\n" "\t\tErstelle ein TLS-Secret vom gegebenen Public/Private-Schlüsselpaar.\n" "\n" "\t\tDas Public/Private-Schlüsselpaar muss vorab bestehen. Das Public-Key-" "Zertifikat muss im PEM-Format sein und zum gegebenen Private-Key passen." #: pkg/kubectl/cmd/create_configmap.go:32 msgid "" "\n" "\t\tCreate a configmap based on a file, directory, or specified literal " "value.\n" "\n" "\t\tA single configmap may package one or more key/value pairs.\n" "\n" "\t\tWhen creating a configmap based on a file, the key will default to the " "basename of the file, and the value will\n" "\t\tdefault to the file content. If the basename is an invalid key, you may " "specify an alternate key.\n" "\n" "\t\tWhen creating a configmap based on a directory, each file whose basename " "is a valid key in the directory will be\n" "\t\tpackaged into the configmap. Any directory entries except regular files " "are ignored (e.g. subdirectories,\n" "\t\tsymlinks, devices, pipes, etc)." msgstr "" "\n" "\t\tErstelle eine ConfigMap basierend auf einer Datei, einem Order oder einem " "gegebenen Wert.\n" "\n" "\t\tEine einzelne ConfigMap kann eins oder mehr Key/Value-Paare beinhalten.\n" "\n" "\t\tWenn man eine ConfigMap von einer Datei erstellt, wird der Key standard" "mäßig der Name der Datei, und der Wert wird\n" "\t\tstandardmäßig der Dateiinhalt. Wenn der Dateiname ein ungültiger Key ist, " "kann ein anderer Key angegeben werden.\n" "\n" "\t\tWenn man eine ConfigMap von einem Ordner erstellt, wird jede Datei, deren " "Name ein gültiger Key ist\n" "\t\tin die ConfigMap aufgenommen. Jegliche Einträge im Ordner, die keine " "regulären Dateien sind, werden ignoriert (z.B. SubDirectories, \n" "\t\tSymLinks, Devices, Pipes, usw)." #: pkg/kubectl/cmd/create_namespace.go:32 msgid "" "\n" "\t\tCreate a namespace with the specified name." msgstr "" "\n" "\t\tErstelle einen Namespace mit dem gegebenen Namen." #: pkg/kubectl/cmd/create_secret.go:119 msgid "" "\n" "\t\tCreate a new secret for use with Docker registries.\n" "\n" "\t\tDockercfg secrets are used to authenticate against Docker registries.\n" "\n" "\t\tWhen using the Docker command line to push images, you can authenticate " "to a given registry by running\n" "\n" "\t\t $ docker login DOCKER_REGISTRY_SERVER --username=DOCKER_USER --" "password=DOCKER_PASSWORD --email=DOCKER_EMAIL'.\n" "\n" " That produces a ~/.dockercfg file that is used by subsequent 'docker " "push' and 'docker pull' commands to\n" "\t\tauthenticate to the registry. The email address is optional.\n" "\n" "\t\tWhen creating applications, you may have a Docker registry that requires " "authentication. In order for the\n" "\t\tnodes to pull images on your behalf, they have to have the credentials. " "You can provide this information\n" "\t\tby creating a dockercfg secret and attaching it to your service account." msgstr "" "\n" "\t\tErstelle ein Secret für die Benutzung mit Docker-Registries.\n" "\n" "\t\tDockercfg Secrets werden für die Authentifizierung bei Docker-Registries " "benutzt.\n" "\n" "\t\tWenn die Docker-command -line zum pushen von Images benutzt wird, kann man " "sich bei einer gegebenen Registry authentifizieren mit\n" "\n" "\t\t $ docker login DOCKER_REGISTRY_SERVER --username=DOCKER_USER --" "password=DOCKER_PASSWORD --email=DOCKER_EMAIL'.\n" "\n" " Dies produziert eine ~/.dockercfg Datei, die für folgende 'docker push' " "und 'docker pull' Befehle genutzt wird,\n" "\t\tum sich an der Registry zu authentifizieren. Die E-Mail-Adresse ist " "optional.\n" "\n" "\t\tBei der Erstellung von Applikationen, kann eine Docker-Registry eine " "Authentifizierung verlangen. Damit\n" "\t\tdeine Knoten in deinem Namen Images herunterladen können, benötigen sie " "die Credentials. " "Man kann diese Information bereitstellen\n" "\t\tindem man ein dockercfg secret erstellt und zu seinem ServiceAccount " "hinzufügt." #: pkg/kubectl/cmd/create_pdb.go:32 msgid "" "\n" "\t\tCreate a pod disruption budget with the specified name, selector, and " "desired minimum available pods" msgstr "" "\n" "\t\tErstelle ein Pod-Disruption-Budget mit dem gegebenen name, selector und " "der gewünschten Mindestanzahl verfügbarer Pods" #: pkg/kubectl/cmd/create.go:42 msgid "" "\n" "\t\tCreate a resource by filename or stdin.\n" "\n" "\t\tJSON and YAML formats are accepted." msgstr "" "\n" "\t\tErstelle eine Resource mit Dateinamen oder stdin.\n" "\n" "\t\tJSON- und YAML-Formate werden akzeptiert." #: pkg/kubectl/cmd/create_quota.go:32 msgid "" "\n" "\t\tCreate a resourcequota with the specified name, hard limits and optional " "scopes" msgstr "" "\n" "\t\tErstelle eine ResourceQuota mit dem gegebenen name, hard limits und optional " "scopes" #: pkg/kubectl/cmd/create_role.go:38 msgid "" "\n" "\t\tCreate a role with single rule." msgstr "" "\n" "\t\tErstelle eine Role mit einer einzelnen Rule." #: pkg/kubectl/cmd/create_secret.go:47 msgid "" "\n" "\t\tCreate a secret based on a file, directory, or specified literal value.\n" "\n" "\t\tA single secret may package one or more key/value pairs.\n" "\n" "\t\tWhen creating a secret based on a file, the key will default to the " "basename of the file, and the value will\n" "\t\tdefault to the file content. If the basename is an invalid key, you may " "specify an alternate key.\n" "\n" "\t\tWhen creating a secret based on a directory, each file whose basename is " "a valid key in the directory will be\n" "\t\tpackaged into the secret. Any directory entries except regular files " "are ignored (e.g. subdirectories,\n" "\t\tsymlinks, devices, pipes, etc)." msgstr "" "\n" "\t\tErstelle ein Secret basierend auf einer Datei, einem Ordner oder einem " "gegebenen Wert.\n" "\n" "\t\tEin einzelnes Secret kann eins oder mehr Key/Value-Paare beinhalten.\n" "\n" "\t\tWenn man ein Secret von einer Datei erstellt, wird der Key standard" "mäßig der Name der Datei, und der Wert wird\n" "\t\tstandardmäßig der Dateiinhalt. Wenn der Dateiname ein ungültiger Key ist, " "kann ein anderer Key angegeben werden.\n" "\n" "\t\tWenn man ein Secret von einem Ordner erstellt, wird jede Datei, deren " "Name ein gültiger Key ist\n" "\t\tin das Secret aufgenommen. Jegliche Einträge im Ordner, die keine " "regulären Dateien sind, werden ignoriert (z.B. SubDirectories, \n" "\t\tSymLinks, Devices, Pipes, usw)." #: pkg/kubectl/cmd/create_serviceaccount.go:32 msgid "" "\n" "\t\tCreate a service account with the specified name." msgstr "" "\n" "\t\tErstelle einen ServiceAccount mit dem gegebenen Namen." #: pkg/kubectl/cmd/run.go:52 msgid "" "\n" "\t\tCreate and run a particular image, possibly replicated.\n" "\n" "\t\tCreates a deployment or job to manage the created container(s)." msgstr "" "\n" "\t\tErstelle und starte ein bestimmtes Image, möglicherweise repliziert.\n" "\n" "\t\tErstellt ein Deployment oder Job, um den/die erstellten Container zu " "verwalten." #: pkg/kubectl/cmd/autoscale.go:34 msgid "" "\n" "\t\tCreates an autoscaler that automatically chooses and sets the number of " "pods that run in a kubernetes cluster.\n" "\n" "\t\tLooks up a Deployment, ReplicaSet, or ReplicationController by name and " "creates an autoscaler that uses the given resource as a reference.\n" "\t\tAn autoscaler can automatically increase or decrease number of pods " "deployed within the system as needed." msgstr "" "\n" "\t\tErstellt einen AutoScaler der die Anzahl der Pods, die im Kubernetes-" "Cluster laufen, automatisch wählt und anpasst.\n" "\n" "\t\tSucht ein Deployment, ReplicaSet oder ReplicationController mit Namen name " "und erstellt einen AutoScaler, der die Resource als Referenz nimmt.\n" "\t\tEin AutoScaler kann die Anzahl der im System deployten Pods nach Bedarf " "erhöhen oder verringern." #: pkg/kubectl/cmd/delete.go:40 msgid "" "\n" "\t\tDelete resources by filenames, stdin, resources and names, or by " "resources and label selector.\n" "\n" "\t\tJSON and YAML formats are accepted. Only one type of the arguments may " "be specified: filenames,\n" "\t\tresources and names, or resources and label selector.\n" "\n" "\t\tSome resources, such as pods, support graceful deletion. These resources " "define a default period\n" "\t\tbefore they are forcibly terminated (the grace period) but you may " "override that value with\n" "\t\tthe --grace-period flag, or pass --now to set a grace-period of 1. " "Because these resources often\n" "\t\trepresent entities in the cluster, deletion may not be acknowledged " "immediately. If the node\n" "\t\thosting a pod is down or cannot reach the API server, termination may " "take significantly longer\n" "\t\tthan the grace period. To force delete a resource,\tyou must pass a grace" "\tperiod of 0 and specify\n" "\t\tthe --force flag.\n" "\n" "\t\tIMPORTANT: Force deleting pods does not wait for confirmation that the " "pod's processes have been\n" "\t\tterminated, which can leave those processes running until the node " "detects the deletion and\n" "\t\tcompletes graceful deletion. If your processes use shared storage or " "talk to a remote API and\n" "\t\tdepend on the name of the pod to identify themselves, force deleting " "those pods may result in\n" "\t\tmultiple processes running on different machines using the same " "identification which may lead\n" "\t\tto data corruption or inconsistency. Only force delete pods when you are " "sure the pod is\n" "\t\tterminated, or if your application can tolerate multiple copies of the " "same pod running at once.\n" "\t\tAlso, if you force delete pods the scheduler may place new pods on those " "nodes before the node\n" "\t\thas released those resources and causing those pods to be evicted " "immediately.\n" "\n" "\t\tNote that the delete command does NOT do resource version checks, so if " "someone\n" "\t\tsubmits an update to a resource right when you submit a delete, their " "update\n" "\t\twill be lost along with the rest of the resource." msgstr "" "\n" "\t\tLöscht die Resourcen mit Dateinamen, stdin, resources- und names- oder mit " "resources- und label-Selektor.\n" "\n" "\t\tJSON- und YAML-Formate werden akzeptiert. Nur einer der Parameter darf " "verwendet werden: Dateiname,\n" "\t\tresources- und names-, oder resources- und label-Selektor.\n" "\n" "\t\tManche Resourcen, zum Beispiel Pods, unterstützen graziöses Löschen. Sie " "definieren einen Standardzeitraum\n" "\t\tbevor das Löschen erzwungen wird (grace-period), aber dieser Wert kann " "überschrieben werden mit\n" "\t\tder --grace-period Option, oder mit --now, das die grace-period auf 1 " "setzt. " "Da diese Resourcen\n" "\t\thäufig Einheiten im Cluster sind, kann das Löschen nicht immer direkt " "bestätigt werden. Wenn der Knoten\n" "\t\tauf dem der Pod läuft nicht verfügbar ist, oder den API Server nicht " "erreichen kann, kann das Löschen bedeutend länger dauern\n" "\t\tals die grace-period. Um das Löschen zu erzwingen, muss eine grace-period " "von 0 übergeben werden\n" "\t\tund die --force Option gesetzt sein.\n" "\n" "\t\tWICHTIG: Ein erzwungenes Löschen wartet nicht auf die Bestätigung, dass " "der Prozess\n" "\t\tbeendet wurde, was den Prozess am Leben erhalten kann, bis der Knoten " "die Löschung erkennt\n" "\t\tund das graziöse Löschen beendet. Wenn Prozesse Shared-Storage oder eine " "Remote-API verwenden und\n" "\t\tden Namen des Pods brauchen, um sich selbst zu identifizieren, kann das " "erzwungene Löschen dazu führen, dass\n" "\t\tmehrere Prozesse auf der gleichen Maschine die gleiche Identität verwenden, " "was zu\n" "\t\tDatenkorruption oder Inkonsistenz führen kann. Erzwinge nur ein " "Löschen, wenn sichergestellt ist, dass der Pod\n" "\t\tgelöscht ist, oder wenn die Anwendung mehrere gleichzeitig laufende " "Kopien verarbeiten kann.\n" "\t\tAußerdem kann es passieren, dass der Scheduler neue Pods auf dem Knoten " "plaziert, bevor der Knoten\n" "\t\tdie Resourcen freigegeben hat, sodass diese Pods direkt entfernt werden.\n" "\n" "\t\tBerücksichtige außerdem, dass der Delete-Befehl KEINE versionen prüft, " "sodass, wenn jemand\n" "\t\tein Update einer Resource gleichzeitig mit Deinem delete anstößt, dessen " "Update\n" "\t\tmit dem Rest der Resource entfernt wird." #: pkg/kubectl/cmd/stop.go:31 msgid "" "\n" "\t\tDeprecated: Gracefully shut down a resource by name or filename.\n" "\n" "\t\tThe stop command is deprecated, all its functionalities are covered by " "delete command.\n" "\t\tSee 'kubectl delete --help' for more details.\n" "\n" "\t\tAttempts to shut down and delete a resource that supports graceful " "termination.\n" "\t\tIf the resource is scalable it will be scaled to 0 before deletion." msgstr "" "\n" "\t\tVeraltet: Fahre eine Resource mit Namen oder Dateinamen graziös heruter.\n" "\n" "\t\tDer Stop-Befehl ist veraltet und alle Funktioneren werden mit dem Delete-" "Befehl abgedeckt.\n" "\t\tSiehe 'kubectl delete --help' für mehr Details.\n" "\n" "\t\tVersucht eine Resource, die graziöses Löschen unterstützt, herunterzufahren " "und zu löschen.\n" "\t\tWenn die Resource skaliert werden kann, wird sie vor dem Löschen auf 0 " "skaliert." #: pkg/kubectl/cmd/top_node.go:60 msgid "" "\n" "\t\tDisplay Resource (CPU/Memory/Storage) usage of nodes.\n" "\n" "\t\tThe top-node command allows you to see the resource consumption of nodes." msgstr "" "\n" "\t\tZeigt die Resourcennutzung (CPU/Memory/Storage) von Knoten.\n" "\n" "\t\tDer top-node-Befehl erlaubt es, die Resourcennutzung von Knoten zu " "betrachten." #: pkg/kubectl/cmd/top_pod.go:53 msgid "" "\n" "\t\tDisplay Resource (CPU/Memory/Storage) usage of pods.\n" "\n" "\t\tThe 'top pod' command allows you to see the resource consumption of " "pods.\n" "\n" "\t\tDue to the metrics pipeline delay, they may be unavailable for a few " "minutes\n" "\t\tsince pod creation." msgstr "" "\n" "\t\tZeigt die Resourcennutzung (CPU/Memory/Storage) von Pods.\n" "\n" "\t\tDer 'top pod'-Befehl erlaubt es, die Resourcennutzung von Pods zu " "betrachten.\n" "\n" "\t\tAufgrund der Metrik-Pipeline-Verzögerung, können sie für ein paar Minuten " "nicht verfügbar sein,\n" "\t\tnach der Pod-Erstellung." #: pkg/kubectl/cmd/top.go:33 msgid "" "\n" "\t\tDisplay Resource (CPU/Memory/Storage) usage.\n" "\n" "\t\tThe top command allows you to see the resource consumption for nodes or " "pods.\n" "\n" "\t\tThis command requires Heapster to be correctly configured and working on " "the server. " msgstr "" "\n" "\t\tZeige Resourcennutzung (CPU/Memory/Storage).\n" "\n" "\t\tDer top-Befehl erlaubt es, die Resourcennutzung von Knoten oder Pods zu " "betrachten.\n" "\n" "\t\tDieser Befehl benötigt eine korrekt konfigurierte und funktionierende " "Heapster-Installation auf dem Server. " #: pkg/kubectl/cmd/drain.go:140 msgid "" "\n" "\t\tDrain node in preparation for maintenance.\n" "\n" "\t\tThe given node will be marked unschedulable to prevent new pods from " "arriving.\n" "\t\t'drain' evicts the pods if the APIServer supports eviction\n" "\t\t(http://kubernetes.io/docs/admin/disruptions/). Otherwise, it will use " "normal DELETE\n" "\t\tto delete the pods.\n" "\t\tThe 'drain' evicts or deletes all pods except mirror pods (which cannot " "be deleted through\n" "\t\tthe API server). If there are DaemonSet-managed pods, drain will not " "proceed\n" "\t\twithout --ignore-daemonsets, and regardless it will not delete any\n" "\t\tDaemonSet-managed pods, because those pods would be immediately replaced " "by the\n" "\t\tDaemonSet controller, which ignores unschedulable markings. If there " "are any\n" "\t\tpods that are neither mirror pods nor managed by ReplicationController,\n" "\t\tReplicaSet, DaemonSet, StatefulSet or Job, then drain will not delete " "any pods unless you\n" "\t\tuse --force. --force will also allow deletion to proceed if the " "managing resource of one\n" "\t\tor more pods is missing.\n" "\n" "\t\t'drain' waits for graceful termination. You should not operate on the " "machine until\n" "\t\tthe command completes.\n" "\n" "\t\tWhen you are ready to put the node back into service, use kubectl " "uncordon, which\n" "\t\twill make the node schedulable again.\n" "\n" "\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_drain.svg)" msgstr "" "\n" "\t\tLeere Knoten, um eine Wartung vorzubereiten.\n" "\n" "\t\tDer gegebene Knoten wird als unschedulable markiert, um die Zuordnung von " "neuen Pods zu verhindern.\n" "\t\t'drain' entfernt den Pod, falls der API-Server die Entfernung unterstützt\n" "\t\t(http://kubernetes.io/docs/admin/disruptions/). Wenn nicht, wird ein " "normales DELETE verwendet,\n" "\t\tum die Pods zu löschen.\n" "\t\t'drain' entfernt oder löscht alle Pods mit der Ausnahme von Mirror-Pods (" "welche vom API Server nicht gelöscht werden können)\n" "\t\tWenn DaemonSet-verwaltete Pods existieren, wird 'drain' " "nicht fortgesetzt\n" "\t\tohne die --ignore-daemonsets Option, und es wird in keinem Fall\n" "\t\tDaemonSet-verwaltete Pods löschen, weil diese Pods direkt ersetzt würden " "durch den\n" "\t\tDaemonSet-Controller, der unschedulable Markierungen ignoriert. Wenn es " "irgendwelche\n" "\t\tPods gibt, die weder Mirror-Pods sind, noch von einem ReplicationController,\n" "\t\tReplicaSet, DaemonSet, StatefulSet oder Job verwaltet werden, wird drain " "keine Pods löschen, außer die\n" "\t\t--force Option ist gesetzt. --force lässt das Löschen selbst zu, wenn die " "verwaltende Resource von einem\n" "\t\toder mehreren Pods fehlt.\n" "\n" "\t\t'drain' wartet auf eine graziöse Löschung. Man sollte auf der Maschine " "nichts tun, während\n" "\t\tder Befehl läuft.\n" "\n" "\t\tWenn der Knoten wieder bereit ist die Arbeit aufzunehmen, benutze kubectl " "uncordon,\n" "\t\twas den Knoten als schedulable markiert.\n" "\n" "\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_drain.svg)" #: pkg/kubectl/cmd/edit.go:56 msgid "" "\n" "\t\tEdit a resource from the default editor.\n" "\n" "\t\tThe edit command allows you to directly edit any API resource you can " "retrieve via the\n" "\t\tcommand line tools. It will open the editor defined by your KUBE_EDITOR, " "or EDITOR\n" "\t\tenvironment variables, or fall back to 'vi' for Linux or 'notepad' for " "Windows.\n" "\t\tYou can edit multiple objects, although changes are applied one at a " "time. The command\n" "\t\taccepts filenames as well as command line arguments, although the files " "you point to must\n" "\t\tbe previously saved versions of resources.\n" "\n" "\t\tEditing is done with the API version used to fetch the resource.\n" "\t\tTo edit using a specific API version, fully-qualify the resource, " "version, and group.\n" "\n" "\t\tThe default format is YAML. To edit in JSON, specify \"-o json\".\n" "\n" "\t\tThe flag --windows-line-endings can be used to force Windows line " "endings,\n" "\t\totherwise the default for your operating system will be used.\n" "\n" "\t\tIn the event an error occurs while updating, a temporary file will be " "created on disk\n" "\t\tthat contains your unapplied changes. The most common error when " "updating a resource\n" "\t\tis another editor changing the resource on the server. When this occurs, " "you will have\n" "\t\tto apply your changes to the newer version of the resource, or update " "your temporary\n" "\t\tsaved copy to include the latest resource version." msgstr "" "\n" "\t\tBearbeite eine Resource mit dem Standardeditor.\n" "\n" "\t\tDer edit-Befehl erlaubt es jede API Resource direkt zu bearbeiten, wenn " "sie mit den\n" "\t\tCommand-Line-Tools erreichbar ist. Er öffnet den Editor, der in der " "KUBE_EDITOR oder EDITOR\n" "\t\tUmgebunsvariable festgelegt ist, oder 'vi' auf Linux und " "'notepad' auf Windows.\n" "\t\tEs ist möglich mehrere Objekte zu bearbeiten, aber die Änderungen werden " "nacheinander angewendet. Der Befehl\n" "\t\takzeptiert Dateinamen und Command-Line-Parameter, aber die verwendeten " "Dateien müssen\n" "\t\tvorab gespeicherte Versionen von Resourcen sein.\n" "\n" "\t\tDie Bearbeitung verwendet die API Version, die genutzt wurde, um die " "Resource zu lesen.\n" "\t\tUm eine spezifische API Version zu verwenden, muss die vollständige " "Resource, Version und Group angegeben werden.\n" "\n" "\t\tDas Standardformat ist YAML. Um mit JSON zu arbeiten, setze \"-o json\".\n" "\n" "\t\tDie Option --windows-line-endings kann benutzt werden, um Windows Zeilen-" "umbrüche zu verwenden,\n" "\t\tansonsten wird der Standard des Betriebssystems verwendet.\n" "\n" "\t\tFalls beim Update ein Fehler auftritt, wird eine temporäre Datei auf der " "Festplatte angelegt,\n" "\t\tdie die nicht verarbeiteten Änderungen enthält. Der häufigste Fehler beim " "Bearbeiten einer Resource\n" "\t\tist ein anderer Editor, der die Resource auf dem Server ändert. Wenn das " "auftritt, muss man\n" "\t\tseine Änderungen auf die neue Version anwenden oder seine temporäre\n" "\t\tgespeicherte Kopie mit der neuesten Resourcenversion aktualisieren." #: pkg/kubectl/cmd/drain.go:115 msgid "" "\n" "\t\tMark node as schedulable." msgstr "" "\n" "\t\tMarkiere Knoten als schedulable." #: pkg/kubectl/cmd/drain.go:90 msgid "" "\n" "\t\tMark node as unschedulable." msgstr "" "\n" "\t\tMarkiere Knoten als unschedulable." #: pkg/kubectl/cmd/completion.go:47 msgid "" "\n" "\t\tOutput shell completion code for the specified shell (bash or zsh).\n" "\t\tThe shell code must be evaluated to provide interactive\n" "\t\tcompletion of kubectl commands. This can be done by sourcing it from\n" "\t\tthe .bash_profile.\n" "\n" "\t\tNote: this requires the bash-completion framework, which is not " "installed\n" "\t\tby default on Mac. This can be installed by using homebrew:\n" "\n" "\t\t $ brew install bash-completion\n" "\n" "\t\tOnce installed, bash_completion must be evaluated. This can be done by " "adding the\n" "\t\tfollowing line to the .bash_profile\n" "\n" "\t\t $ source $(brew --prefix)/etc/bash_completion\n" "\n" "\t\tNote for zsh users: [1] zsh completions are only supported in versions " "of zsh >= 5.2" msgstr "" "\n" "\t\tGibt den Shell-Completion-Code für die angegebene Shell aus (bash oder zsh).\n" "\t\tDer Shell-Code muss für eine interaktive Vervollständigung von kubectl \n" "\t\tausgewertet werden. Das ist möglich, indem man\n" "\t\tdie .bash_profile Datei sourcet.\n" "\n" "\t\tHinweis: Dies setzt das Bash-Completion-Framework voraus, das auf dem Mac " "nicht standardmäßig installiert ist. \n" "\t\tEs kann mit homebrew installiert werden:\n" "\n" "\t\t $ brew install bash-completion\n" "\n" "\t\tSobald es installiert ist, muss bash_completion ausgewertet werden. Dies " "wird erreicht, indem man\n" "\t\tdie folgende Zeile zur .bash_profile-Datei hinzufügt\n" "\n" "\t\t $ source $(brew --prefix)/etc/bash_completion\n" "\n" "\t\tHinweis für zsh Nutzer: [1] zsh completions werden nur in Versionen " "von zsh >= 5.2 unterstützt" #: pkg/kubectl/cmd/rollingupdate.go:45 msgid "" "\n" "\t\tPerform a rolling update of the given ReplicationController.\n" "\n" "\t\tReplaces the specified replication controller with a new replication " "controller by updating one pod at a time to use the\n" "\t\tnew PodTemplate. The new-controller.json must specify the same namespace " "as the\n" "\t\texisting replication controller and overwrite at least one (common) " "label in its replicaSelector.\n" "\n" "\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_rollingupdate.svg)" msgstr "" "\n" "\t\tFühre ein Rolling-Update des gegebenen ReplicationControllers aus.\n" "\n" "\t\tErsetzt den gegebenen ReplicationController mit einem neuen Replication-" "Controller, indem die neue PodTampleta Pod für Pod\n" "\t\tangewendet wird. Die new-controller.json muss den gleichen Namespace wie\n" "\t\tder aktuelle ReplicationController besitzen und mindestens ein " "gemeinsames Label im ReplicaSelector überschreiben.\n" "\n" "\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_rollingupdate.svg)" #: pkg/kubectl/cmd/replace.go:40 msgid "" "\n" "\t\tReplace a resource by filename or stdin.\n" "\n" "\t\tJSON and YAML formats are accepted. If replacing an existing resource, " "the\n" "\t\tcomplete resource spec must be provided. This can be obtained by\n" "\n" "\t\t $ kubectl get TYPE NAME -o yaml\n" "\n" "\t\tPlease refer to the models in https://htmlpreview.github.io/?https://" "github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions." "html to find if a field is mutable." msgstr "" "\n" "\t\tErsetze eine Resource mit Dateinamen oder stdin.\n" "\n" "\t\tJSON- and YAML-Formate werden akzeptiert. Wenn eine existierende Resource " "ersetzt wird,\n" "\t\tmuss die vollständige spSpecec mitgegeben werden. Diese kann hiermit " "ausgelesen werden\n" "\n" "\t\t $ kubectl get TYPE NAME -o yaml\n" "\n" "\t\tBitte konsultiere https://htmlpreview.github.io/?https://" "github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions." "html um zu erfahren, ob ein Feld verändert werden darf." #: pkg/kubectl/cmd/scale.go:34 msgid "" "\n" "\t\tSet a new size for a Deployment, ReplicaSet, Replication Controller, or " "Job.\n" "\n" "\t\tScale also allows users to specify one or more preconditions for the " "scale action.\n" "\n" "\t\tIf --current-replicas or --resource-version is specified, it is " "validated before the\n" "\t\tscale is attempted, and it is guaranteed that the precondition holds " "true when the\n" "\t\tscale is sent to the server." msgstr "" "\n" "\t\tSetze eine neue Größe für ein Deployment, ReplicaSet, Replication-" "Contoller oder Job.\n" "\n" "\t\tScale erlaubt es Nutzern eine oder mehr Voraussetzungen für die Aktion " "festzulegen.\n" "\n" "\t\tWenn --current-replicas oder --resource-version gegeben ist, wird " "es validiert, bevor\n" "\t\tscale versucht wird, und es wird garantiert, dass die Voraussetzungen " "erfüllt sind, wenn\n" "\t\tscale zum Server geschickt wird." #: pkg/kubectl/cmd/apply_set_last_applied.go:62 msgid "" "\n" "\t\tSet the latest last-applied-configuration annotations by setting it to " "match the contents of a file.\n" "\t\tThis results in the last-applied-configuration being updated as though " "'kubectl apply -f ' was run,\n" "\t\twithout updating any other parts of the object." msgstr "" "\n" "\t\tSetze die aktuelle Annotation Last-Applied-Configuration auf den Inhalt " "der Datei.\n" "\t\tDas bedeutet, dass Last-Applied-Configuration aktualisiert wird, als ob " "'kubectl apply -f ' ausgeführt wurde,\n" "\t\tohne andere Teile des Objekts zu aktualisieren." #: pkg/kubectl/cmd/proxy.go:36 msgid "" "\n" "\t\tTo proxy all of the kubernetes api and nothing else, use:\n" "\n" "\t\t $ kubectl proxy --api-prefix=/\n" "\n" "\t\tTo proxy only part of the kubernetes api and also some static files:\n" "\n" "\t\t $ kubectl proxy --www=/my/files --www-prefix=/static/ --api-prefix=/" "api/\n" "\n" "\t\tThe above lets you 'curl localhost:8001/api/v1/pods'.\n" "\n" "\t\tTo proxy the entire kubernetes api at a different root, use:\n" "\n" "\t\t $ kubectl proxy --api-prefix=/custom/\n" "\n" "\t\tThe above lets you 'curl localhost:8001/custom/api/v1/pods'" msgstr "" "\n" "\t\tProxy alle Teile der Kubernetes-API und sonst nichts:\n" "\n" "\t\t $ kubectl proxy --api-prefix=/\n" "\n" "\t\tProxy nur bestimmte Teile der Kubernetes-API und einige statische Dateien:\n" "\n" "\t\t $ kubectl proxy --www=/my/files --www-prefix=/static/ --api-prefix=/" "api/\n" "\n" "\t\tDer Befehl oben lässt dich 'curl localhost:8001/api/v1/pods' aufrufen.\n" "\n" "\t\tProxy alle Teile der Kubernetes-API auf einem anderen root:\n" "\n" "\t\t $ kubectl proxy --api-prefix=/custom/\n" "\n" "\t\tDer Befehl oben lässt dich 'curl localhost:8001/custom/api/v1/pods' " "aufrufen" #: pkg/kubectl/cmd/patch.go:59 msgid "" "\n" "\t\tUpdate field(s) of a resource using strategic merge patch\n" "\n" "\t\tJSON and YAML formats are accepted.\n" "\n" "\t\tPlease refer to the models in https://htmlpreview.github.io/?https://" "github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions." "html to find if a field is mutable." msgstr "" "\n" "\t\tAktualisiere Felder einer Resource mit einem Strategic-Merge-Patch\n" "\n" "\t\tJSON- und YAML-Formate werden akzeptiert.\n" "\n" "\t\tBitte konsultiere https://htmlpreview.github.io/?https://" "github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions." "html um zu erfahren, ob ein Feld mutable ist." #: pkg/kubectl/cmd/label.go:70 #, c-format msgid "" "\n" "\t\tUpdate the labels on a resource.\n" "\n" "\t\t* A label must begin with a letter or number, and may contain letters, " "numbers, hyphens, dots, and underscores, up to %[1]d characters.\n" "\t\t* If --overwrite is true, then existing labels can be overwritten, " "otherwise attempting to overwrite a label will result in an error.\n" "\t\t* If --resource-version is specified, then updates will use this " "resource version, otherwise the existing resource-version will be used." msgstr "" #: pkg/kubectl/cmd/taint.go:58 #, c-format msgid "" "\n" "\t\tUpdate the taints on one or more nodes.\n" "\n" "\t\t* A taint consists of a key, value, and effect. As an argument here, it " "is expressed as key=value:effect.\n" "\t\t* The key must begin with a letter or number, and may contain letters, " "numbers, hyphens, dots, and underscores, up to %[1]d characters.\n" "\t\t* The value must begin with a letter or number, and may contain letters, " "numbers, hyphens, dots, and underscores, up to %[2]d characters.\n" "\t\t* The effect must be NoSchedule, PreferNoSchedule or NoExecute.\n" "\t\t* Currently taint can only apply to node." msgstr "" #: pkg/kubectl/cmd/apply_view_last_applied.go:46 msgid "" "\n" "\t\tView the latest last-applied-configuration annotations by type/name or " "file.\n" "\n" "\t\tThe default output will be printed to stdout in YAML format. One can use " "-o option\n" "\t\tto change output format." msgstr "" #: pkg/kubectl/cmd/cp.go:37 msgid "" "\n" "\t # !!!Important Note!!!\n" "\t # Requires that the 'tar' binary is present in your container\n" "\t # image. If 'tar' is not present, 'kubectl cp' will fail.\n" "\n" "\t # Copy /tmp/foo_dir local directory to /tmp/bar_dir in a remote pod in " "the default namespace\n" "\t\tkubectl cp /tmp/foo_dir :/tmp/bar_dir\n" "\n" " # Copy /tmp/foo local file to /tmp/bar in a remote pod in a specific " "container\n" "\t\tkubectl cp /tmp/foo :/tmp/bar -c \n" "\n" "\t\t# Copy /tmp/foo local file to /tmp/bar in a remote pod in namespace " "\n" "\t\tkubectl cp /tmp/foo /:/tmp/bar\n" "\n" "\t\t# Copy /tmp/foo from a remote pod to /tmp/bar locally\n" "\t\tkubectl cp /:/tmp/foo /tmp/bar" msgstr "" #: pkg/kubectl/cmd/create_secret.go:205 msgid "" "\n" "\t # Create a new TLS secret named tls-secret with the given key pair:\n" "\t kubectl create secret tls tls-secret --cert=path/to/tls.cert --key=path/" "to/tls.key" msgstr "" "\n" "\t # Erstelle ein neues TLS Secret tl-secret mit dem gegebenen Schlüsselpaar:\n" "\t kubectl create secret tls tls-secret --cert=path/to/tls.cert --key=path/" "to/tls.key" #: pkg/kubectl/cmd/create_namespace.go:35 msgid "" "\n" "\t # Create a new namespace named my-namespace\n" "\t kubectl create namespace my-namespace" msgstr "" "\n" "\t # Erstelle einen neuen Namespace my-namespace\n" "\t kubectl create namespace my-namespace" #: pkg/kubectl/cmd/create_secret.go:59 msgid "" "\n" "\t # Create a new secret named my-secret with keys for each file in folder " "bar\n" "\t kubectl create secret generic my-secret --from-file=path/to/bar\n" "\n" "\t # Create a new secret named my-secret with specified keys instead of " "names on disk\n" "\t kubectl create secret generic my-secret --from-file=ssh-privatekey=~/." "ssh/id_rsa --from-file=ssh-publickey=~/.ssh/id_rsa.pub\n" "\n" "\t # Create a new secret named my-secret with key1=supersecret and " "key2=topsecret\n" "\t kubectl create secret generic my-secret --from-literal=key1=supersecret " "--from-literal=key2=topsecret" msgstr "" "\n" "\t # Erstelle ein neues Secret my-secret mit einem Key für jede Datei " "im Ordner bar\n" "\t kubectl create secret generic my-secret --from-file=path/to/bar\n" "\n" "\t # Erstelle ein neues Secret my-secret mit den gegebenen Keys statt " "der Namen auf der Festplatte\n" "\t kubectl create secret generic my-secret --from-file=ssh-privatekey=~/." "ssh/id_rsa --from-file=ssh-publickey=~/.ssh/id_rsa.pub\n" "\n" "\t # Erstelle ein neues Scret my-secret mit key1=supersecret und " "key2=topsecret\n" "\t kubectl create secret generic my-secret --from-literal=key1=supersecret " "--from-literal=key2=topsecret" #: pkg/kubectl/cmd/create_serviceaccount.go:35 msgid "" "\n" "\t # Create a new service account named my-service-account\n" "\t kubectl create serviceaccount my-service-account" msgstr "" "\n" "\t # Erstelle einen neuen ServiceAccount my-service-account\n" "\t kubectl create serviceaccount my-service-account" #: pkg/kubectl/cmd/create_service.go:232 msgid "" "\n" "\t# Create a new ExternalName service named my-ns \n" "\tkubectl create service externalname my-ns --external-name bar.com" msgstr "" "\n" "\t# Erstelle einen neuen ExternalName-Service my-ns \n" "\tkubectl create service externalname my-ns --external-name bar.com" #: pkg/kubectl/cmd/create_service.go:225 msgid "" "\n" "\tCreate an ExternalName service with the specified name.\n" "\n" "\tExternalName service references to an external DNS address instead of\n" "\tonly pods, which will allow application authors to reference services\n" "\tthat exist off platform, on other clusters, or locally." msgstr "" "\n" "\tErstelle einen ExternalName-Service mit den gegebenen Namen.\n" "\n" "\tExternalName service referenziert eine externe DNS Adresse statt\n" "\teines pods, was Anwendungsautoren erlaubt, einen Service zu referenzieren,\n" "\tder abseits der Platform, auf anderen Clustern oder lokal exisiert." #: pkg/kubectl/cmd/help.go:30 msgid "" "\n" "\tHelp provides help for any command in the application.\n" "\tSimply type kubectl help [path to command] for full details." msgstr "" "\n" "\tHelp hilft bei jedem Befehl in der Anwendung.\n" "\tGib einfach kubectl help [path to command] für alle Details ein." #: pkg/kubectl/cmd/create_service.go:173 msgid "" "\n" " # Create a new LoadBalancer service named my-lbs\n" " kubectl create service loadbalancer my-lbs --tcp=5678:8080" msgstr "" "\n" " # Erstelle einen neuen LoadBalancer-Service my-lbs\n" " kubectl create service loadbalancer my-lbs --tcp=5678:8080" #: pkg/kubectl/cmd/create_service.go:53 msgid "" "\n" " # Create a new clusterIP service named my-cs\n" " kubectl create service clusterip my-cs --tcp=5678:8080\n" "\n" " # Create a new clusterIP service named my-cs (in headless mode)\n" " kubectl create service clusterip my-cs --clusterip=\"None\"" msgstr "" "\n" " # Erstelle einen neuen ClusterIP-Service my-cs\n" " kubectl create service clusterip my-cs --tcp=5678:8080\n" "\n" " # Erstelle einen neuen ClusterIP-Service my-cs (im headless-Modus)\n" " kubectl create service clusterip my-cs --clusterip=\"None\"" #: pkg/kubectl/cmd/create_deployment.go:36 msgid "" "\n" " # Create a new deployment named my-dep that runs the busybox image.\n" " kubectl create deployment my-dep --image=busybox" msgstr "" "\n" " # Erstelle ein neues Deployment my-dep, dass das busybox-Image " "nutzt.\n" " kubectl create deployment my-dep --image=busybox" #: pkg/kubectl/cmd/create_service.go:116 msgid "" "\n" " # Create a new nodeport service named my-ns\n" " kubectl create service nodeport my-ns --tcp=5678:8080" msgstr "" "\n" " # Erstelle einen neuen NodePort-Service my-ns\n" " kubectl create service nodeport my-ns --tcp=5678:8080" #: pkg/kubectl/cmd/clusterinfo_dump.go:62 msgid "" "\n" " # Dump current cluster state to stdout\n" " kubectl cluster-info dump\n" "\n" " # Dump current cluster state to /path/to/cluster-state\n" " kubectl cluster-info dump --output-directory=/path/to/cluster-state\n" "\n" " # Dump all namespaces to stdout\n" " kubectl cluster-info dump --all-namespaces\n" "\n" " # Dump a set of namespaces to /path/to/cluster-state\n" " kubectl cluster-info dump --namespaces default,kube-system --output-" "directory=/path/to/cluster-state" msgstr "" "\n" " # Schreibe den aktuellen Cluster-Zustand auf stdout\n" " kubectl cluster-info dump\n" "\n" " # Schreibe aktuellen Cluster-Zustand in /path/to/cluster-state\n" " kubectl cluster-info dump --output-directory=/path/to/cluster-state\n" "\n" " # Schreibe alle Namespaces auf stdout\n" " kubectl cluster-info dump --all-namespaces\n" "\n" " # Schreibe eine Menge an Namespaces in /path/to/cluster-state\n" " kubectl cluster-info dump --namespaces default,kube-system --output-" "directory=/path/to/cluster-state" #: pkg/kubectl/cmd/annotate.go:78 msgid "" "\n" " # Update pod 'foo' with the annotation 'description' and the value 'my " "frontend'.\n" " # If the same annotation is set multiple times, only the last value will " "be applied\n" " kubectl annotate pods foo description='my frontend'\n" "\n" " # Update a pod identified by type and name in \"pod.json\"\n" " kubectl annotate -f pod.json description='my frontend'\n" "\n" " # Update pod 'foo' with the annotation 'description' and the value 'my " "frontend running nginx', overwriting any existing value.\n" " kubectl annotate --overwrite pods foo description='my frontend running " "nginx'\n" "\n" " # Update all pods in the namespace\n" " kubectl annotate pods --all description='my frontend running nginx'\n" "\n" " # Update pod 'foo' only if the resource is unchanged from version 1.\n" " kubectl annotate pods foo description='my frontend running nginx' --" "resource-version=1\n" "\n" " # Update pod 'foo' by removing an annotation named 'description' if it " "exists.\n" " # Does not require the --overwrite flag.\n" " kubectl annotate pods foo description-" msgstr "" #: pkg/kubectl/cmd/create_service.go:170 msgid "" "\n" " Create a LoadBalancer service with the specified name." msgstr "" "\n" " Erstelle einen LoadBalancer-Service mit dem gegebenen Namen." #: pkg/kubectl/cmd/create_service.go:50 msgid "" "\n" " Create a clusterIP service with the specified name." msgstr "" "\n" " Erstelle einen ClusterIP-Service mit dem gegebenen Namen." #: pkg/kubectl/cmd/create_deployment.go:33 msgid "" "\n" " Create a deployment with the specified name." msgstr "" "\n" " Erstelle ein Deployment mit dem gegebenen Namen." #: pkg/kubectl/cmd/create_service.go:113 msgid "" "\n" " Create a nodeport service with the specified name." msgstr "" "\n" " Erstelle einen NodePort-Service mit dem gegebenen Namen." #: pkg/kubectl/cmd/clusterinfo_dump.go:53 msgid "" "\n" " Dumps cluster info out suitable for debugging and diagnosing cluster " "problems. By default, dumps everything to\n" " stdout. You can optionally specify a directory with --output-directory. " "If you specify a directory, kubernetes will\n" " build a set of files in that directory. By default only dumps things in " "the 'kube-system' namespace, but you can\n" " switch to a different namespace with the --namespaces flag, or specify --" "all-namespaces to dump all namespaces.\n" "\n" " The command also dumps the logs of all of the pods in the cluster, these " "logs are dumped into different directories\n" " based on namespace and pod name." msgstr "" #: pkg/kubectl/cmd/clusterinfo.go:37 msgid "" "\n" " Display addresses of the master and services with label kubernetes.io/" "cluster-service=true\n" " To further debug and diagnose cluster problems, use 'kubectl cluster-info " "dump'." msgstr "" "\n" " Zeigt Adressen des Master und von Services mit Label kubernetes.io/" "cluster-service=true\n" " Für das weitere Debugging und die Diagnose von Clusterproblemen nutze " "'kubectl cluster-info dump'." #: pkg/kubectl/cmd/create_quota.go:62 msgid "" "A comma-delimited set of quota scopes that must all match each object " "tracked by the quota." msgstr "" "Eine komma-separierte Menge von Quota-Scopes, die zu jedem Object passen " "muss, dass von der Quota betroffen ist." #: pkg/kubectl/cmd/create_quota.go:61 msgid "" "A comma-delimited set of resource=quantity pairs that define a hard limit." msgstr "" "Eine komma-separierte Menge von resource=quantity Paaren, die ein hartes " "Limit definieren." #: pkg/kubectl/cmd/create_pdb.go:64 msgid "" "A label selector to use for this budget. Only equality-based selector " "requirements are supported." msgstr "" "Ein Label-Selektor, der für das Budget benutzt werden kann. Nur gleichheits-" "basierte Auswahlkriterien werden unterstützt." #: pkg/kubectl/cmd/expose.go:104 msgid "" "A label selector to use for this service. Only equality-based selector " "requirements are supported. If empty (the default) infer the selector from " "the replication controller or replica set.)" msgstr "" "Ein Label-Selektor, der für den Service benutzt werden kann. Nur gleichheits-" "basierte Auswahlkriterien werden unterstützt. Wenn er leer ist (standard), wird " "der Selektor vom ReplicationController oder ReplicaSet abgeleitet" #: pkg/kubectl/cmd/run.go:139 msgid "A schedule in the Cron format the job should be run with." msgstr "Ein Schedule im Cron Format, dass der Job nutzen soll." #: pkg/kubectl/cmd/expose.go:109 msgid "" "Additional external IP address (not managed by Kubernetes) to accept for the " "service. If this IP is routed to a node, the service can be accessed by this " "IP in addition to its generated service IP." msgstr "" "Zusätzliche, externe IP Adressen (die nicht von Kubernetes verwaltet werden), " "die der Service akzeptieren soll. Wenn diese IP zu einem Knoten gerouted wird, " "kann der Service über die IP angesprochen werden, zusätzlich zu seiner " "generierten Service-IP." #: pkg/kubectl/cmd/expose.go:110 pkg/kubectl/cmd/run.go:122 msgid "" "An inline JSON override for the generated object. If this is non-empty, it " "is used to override the generated object. Requires that the object supply a " "valid apiVersion field." msgstr "" #: pkg/kubectl/cmd/run.go:137 msgid "" "An inline JSON override for the generated service object. If this is non-" "empty, it is used to override the generated object. Requires that the object " "supply a valid apiVersion field. Only used if --expose is true." msgstr "" #: pkg/kubectl/cmd/apply.go:104 msgid "Apply a configuration to a resource by filename or stdin" msgstr "Wende eine Konfiguration auf eine Resource über den Dateinamen oder " "stdin an" #: pkg/kubectl/cmd/certificates.go:72 msgid "Approve a certificate signing request" msgstr "Genehmige eine Certificate-Signing-Request" #: pkg/kubectl/cmd/create_service.go:82 msgid "" "Assign your own ClusterIP or set to 'None' for a 'headless' service (no " "loadbalancing)." msgstr "" "Weise Deine eigene ClusterIP zu oder setze sie auf 'None' für einen 'headless'-" "Service (kein LoadBalancing)." #: pkg/kubectl/cmd/attach.go:70 msgid "Attach to a running container" msgstr "Weise einem laufenden Container zu" #: pkg/kubectl/cmd/autoscale.go:56 msgid "Auto-scale a Deployment, ReplicaSet, or ReplicationController" msgstr "Auto-skaliere ein Deployment, ReplicaSet oder ReplicationController" #: pkg/kubectl/cmd/expose.go:113 msgid "" "ClusterIP to be assigned to the service. Leave empty to auto-allocate, or " "set to 'None' to create a headless service." msgstr "" "ClusterIP, die dem Service zugewiesen werden soll. Freilassen, für " "automatische Zuweisung oder auf 'None' setzen für einen headless-Service." #: pkg/kubectl/cmd/create_clusterrolebinding.go:56 msgid "ClusterRole this ClusterRoleBinding should reference" msgstr "ClusterRole, die das ClusterRoleBinding referenzieren soll" #: pkg/kubectl/cmd/create_rolebinding.go:56 msgid "ClusterRole this RoleBinding should reference" msgstr "ClusterRole, die das RoleBinding referenzieren soll" #: pkg/kubectl/cmd/rollingupdate.go:102 msgid "" "Container name which will have its image upgraded. Only relevant when --" "image is specified, ignored otherwise. Required when using --image on a " "multi-container pod" msgstr "" "Name des Containers dessen Image aktualisiert wird. Nur relevant, wenn " "--image angegeben ist, sonst ignoriert. Verpflichtend, wenn --image auf einem " "Multi-Container-Pod verwendet wird" #: pkg/kubectl/cmd/convert.go:68 msgid "Convert config files between different API versions" msgstr "Konvertiere Config-Dateien zwischen verschiedenen API Versionen" #: pkg/kubectl/cmd/cp.go:65 msgid "Copy files and directories to and from containers." msgstr "Kopiere Dateien und Ordner aus/in Container(n)." #: pkg/kubectl/cmd/create_clusterrolebinding.go:44 msgid "Create a ClusterRoleBinding for a particular ClusterRole" msgstr "Erstelle ein ClusterRoleBinding für eine bestimmte ClusterRole" #: pkg/kubectl/cmd/create_service.go:182 msgid "Create a LoadBalancer service." msgstr "Erstelle einen LoadBalancer-Service." #: pkg/kubectl/cmd/create_service.go:125 msgid "Create a NodePort service." msgstr "Erstelle einen NodePort-Service." #: pkg/kubectl/cmd/create_rolebinding.go:44 msgid "Create a RoleBinding for a particular Role or ClusterRole" msgstr "Erstelle ein RoleBinding für eine bestimmte Role oder ClusterRole" #: pkg/kubectl/cmd/create_secret.go:214 msgid "Create a TLS secret" msgstr "Erstelle ein TLS-Secret" #: pkg/kubectl/cmd/create_service.go:69 msgid "Create a clusterIP service." msgstr "Erstelle einen ClusterIP-Service" #: pkg/kubectl/cmd/create_configmap.go:60 msgid "Create a configmap from a local file, directory or literal value" msgstr "Erstelle eine ConfigMap von einer Datei, einem Ordner oder einem " "festen Wert" #: pkg/kubectl/cmd/create_deployment.go:46 msgid "Create a deployment with the specified name." msgstr "Erstelle ein Deployment mit dem gegebenen Namen." #: pkg/kubectl/cmd/create_namespace.go:45 msgid "Create a namespace with the specified name" msgstr "Erstelle einen Namespace mit dem gegebenen Namen" #: pkg/kubectl/cmd/create_pdb.go:50 msgid "Create a pod disruption budget with the specified name." msgstr "Erstelle ein Pod-Disruption-Budget mit dem gegebenen Namen." #: pkg/kubectl/cmd/create_quota.go:48 msgid "Create a quota with the specified name." msgstr "Erstelle eine Quota mit dem gegebenen Namen." #: pkg/kubectl/cmd/create.go:63 msgid "Create a resource by filename or stdin" msgstr "Erstelle eine Resource von einer Datei oder stdin" #: pkg/kubectl/cmd/create_secret.go:144 msgid "Create a secret for use with a Docker registry" msgstr "Erstelle ein Secret für die Benutzung mit einer Docker-Registry" #: pkg/kubectl/cmd/create_secret.go:74 msgid "Create a secret from a local file, directory or literal value" msgstr "Erstelle ein Secret von einer lokalen Datei, einem Ordner oder einem " "festen Wert" #: pkg/kubectl/cmd/create_secret.go:35 msgid "Create a secret using specified subcommand" msgstr "Erstelle ein Secret mit dem angegebenen Sub-Befehl" #: pkg/kubectl/cmd/create_serviceaccount.go:45 msgid "Create a service account with the specified name" msgstr "Erstelle einen ServiceAccount mit dem gegebenen Namen" #: pkg/kubectl/cmd/create_service.go:37 msgid "Create a service using specified subcommand." msgstr "Erstelle einen Servuce mit dem angegebenen Sub-Befehl" #: pkg/kubectl/cmd/create_service.go:241 msgid "Create an ExternalName service." msgstr "Erstelle einen ExternalName-Service." #: pkg/kubectl/cmd/delete.go:132 msgid "" "Delete resources by filenames, stdin, resources and names, or by resources " "and label selector" msgstr "Lösche Resourcen von einer Datei, stdin, resources- und names- oder mit " "resources- und label-Selektor" #: pkg/kubectl/cmd/config/delete_cluster.go:39 msgid "Delete the specified cluster from the kubeconfig" msgstr "Lösche das angegebene Cluster aus der kubeconfig" #: pkg/kubectl/cmd/config/delete_context.go:39 msgid "Delete the specified context from the kubeconfig" msgstr "Lösche den angegebenen Kontext aus der kubeconfig" #: pkg/kubectl/cmd/certificates.go:122 msgid "Deny a certificate signing request" msgstr "Lehne eine Certificate-Signing-Request ab" #: pkg/kubectl/cmd/stop.go:59 msgid "Deprecated: Gracefully shut down a resource by name or filename" msgstr "Veraltet: Graziöses herunterfahren einer Resource über den Namen " "oder Dateinamen" #: pkg/kubectl/cmd/config/get_contexts.go:64 msgid "Describe one or many contexts" msgstr "Beschreibe einen oder mehrere Kontexte" #: pkg/kubectl/cmd/top_node.go:78 msgid "Display Resource (CPU/Memory) usage of nodes" msgstr "Zeige Resourcennutzung (CPU/Memory) von Knoten" #: pkg/kubectl/cmd/top_pod.go:80 msgid "Display Resource (CPU/Memory) usage of pods" msgstr "Zeige Resourcennutzung (CPU/Memory) von Pods" #: pkg/kubectl/cmd/top.go:44 msgid "Display Resource (CPU/Memory) usage." msgstr "Zeige Resourcennutzung (CPU/Memory)." #: pkg/kubectl/cmd/clusterinfo.go:51 msgid "Display cluster info" msgstr "Zeige Cluster-Info" #: pkg/kubectl/cmd/config/get_clusters.go:41 msgid "Display clusters defined in the kubeconfig" msgstr "Zeige Cluster, die in der kubeconfig definiert sind" #: pkg/kubectl/cmd/config/view.go:67 msgid "Display merged kubeconfig settings or a specified kubeconfig file" msgstr "Zeige vereinte kubeconfig-Einstellungen oder die angegebene kubeconfig-" "Datei" #: pkg/kubectl/cmd/get.go:111 msgid "Display one or many resources" msgstr "Zeige eine oder mehrere Resourcen" #: pkg/kubectl/cmd/config/current_context.go:49 msgid "Displays the current-context" msgstr "Zeige den aktuellen Kontext" #: pkg/kubectl/cmd/explain.go:51 msgid "Documentation of resources" msgstr "Dokumentation einer Resource" #: pkg/kubectl/cmd/drain.go:178 msgid "Drain node in preparation for maintenance" msgstr "Leere Knoten, um eine Wartung vorzubereiten" #: pkg/kubectl/cmd/clusterinfo_dump.go:39 msgid "Dump lots of relevant info for debugging and diagnosis" msgstr "Zeige viele relevante Informationen für Debugging und Diagnose" #: pkg/kubectl/cmd/edit.go:110 msgid "Edit a resource on the server" msgstr "Bearbeite eine Resource auf dem Server" #: pkg/kubectl/cmd/create_secret.go:160 msgid "Email for Docker registry" msgstr "E-Mail für Docker-Registry" #: pkg/kubectl/cmd/exec.go:69 msgid "Execute a command in a container" msgstr "Führe einen Befehl im Container aus" #: pkg/kubectl/cmd/rollingupdate.go:103 msgid "" "Explicit policy for when to pull container images. Required when --image is " "same as existing image, ignored otherwise." msgstr "" "Explizite Vorgabe, wann Container-Images gepullt werden. Verpflichtend, wenn " "--image ist gleich dem aktuellen Image ist - sonst ignoriert." #: pkg/kubectl/cmd/portforward.go:76 msgid "Forward one or more local ports to a pod" msgstr "Leite einen oder mehrere lokale Ports an einen Pod weiter" #: pkg/kubectl/cmd/help.go:37 msgid "Help about any command" msgstr "Hilfe für jeden Befehl" #: pkg/kubectl/cmd/expose.go:103 msgid "" "IP to assign to the Load Balancer. If empty, an ephemeral IP will be created " "and used (cloud-provider specific)." msgstr "" "IP, die dem Load-Balancer zugewiesen wird. Falls leer, wird eine temporäre IP " "erstellt und verwendet (Cloud-Provider spezifisch)" #: pkg/kubectl/cmd/expose.go:112 msgid "" "If non-empty, set the session affinity for the service to this; legal " "values: 'None', 'ClientIP'" msgstr "" #: pkg/kubectl/cmd/annotate.go:136 msgid "" "If non-empty, the annotation update will only succeed if this is the current " "resource-version for the object. Only valid when specifying a single " "resource." msgstr "" #: pkg/kubectl/cmd/label.go:134 msgid "" "If non-empty, the labels update will only succeed if this is the current " "resource-version for the object. Only valid when specifying a single " "resource." msgstr "" #: pkg/kubectl/cmd/rollingupdate.go:99 msgid "" "Image to use for upgrading the replication controller. Must be distinct from " "the existing image (either new image or new image tag). Can not be used " "with --filename/-f" msgstr "" #: pkg/kubectl/cmd/rollout/rollout.go:47 msgid "Manage a deployment rollout" msgstr "Verwalte ein Deployment-Rollout" #: pkg/kubectl/cmd/drain.go:128 msgid "Mark node as schedulable" msgstr "Markiere Knoten als schedulable" #: pkg/kubectl/cmd/drain.go:103 msgid "Mark node as unschedulable" msgstr "Markiere Knoten als unschedulable" #: pkg/kubectl/cmd/rollout/rollout_pause.go:74 msgid "Mark the provided resource as paused" msgstr "Markiere die gegebene Resource als pausiert" #: pkg/kubectl/cmd/certificates.go:36 msgid "Modify certificate resources." msgstr "Verändere Certificate-Resources" #: pkg/kubectl/cmd/config/config.go:40 msgid "Modify kubeconfig files" msgstr "Verändere kubeconfig Dateien" #: pkg/kubectl/cmd/expose.go:108 msgid "" "Name or number for the port on the container that the service should direct " "traffic to. Optional." msgstr "" "Name oder Nummer des Ports in dem Container, zu dem der Service Daten leiten " "soll. Optional." #: pkg/kubectl/cmd/logs.go:113 msgid "" "Only return logs after a specific date (RFC3339). Defaults to all logs. Only " "one of since-time / since may be used." msgstr "" "Zeige nur Logs nach einem bestimmten Datum (RFC3339) an. Zeigt standardmäßig " "alle logs. Es kann entweder since-time oder since benutzt werden." #: pkg/kubectl/cmd/completion.go:104 msgid "Output shell completion code for the specified shell (bash or zsh)" msgstr "Zeige Shell-Completion-Code für die angegebene Shell (bash oder zsh)" #: pkg/kubectl/cmd/convert.go:85 msgid "" "Output the formatted object with the given group version (for ex: " "'extensions/v1beta1').)" msgstr "" #: pkg/kubectl/cmd/create_secret.go:158 msgid "Password for Docker registry authentication" msgstr "Passwort für die Authentifizierung bei der Docker-Registry" #: pkg/kubectl/cmd/create_secret.go:226 msgid "Path to PEM encoded public key certificate." msgstr "Pfad des Public-Key-Zertifikats im PEM-Format." #: pkg/kubectl/cmd/create_secret.go:227 msgid "Path to private key associated with given certificate." msgstr "Pfad zum Private-Key, der zum gegebenen Zertifikat passt." #: pkg/kubectl/cmd/rollingupdate.go:85 msgid "Perform a rolling update of the given ReplicationController" msgstr "Führe ein Rolling-Update des gegebenen ReplicationControllers aus" #: pkg/kubectl/cmd/scale.go:83 msgid "" "Precondition for resource version. Requires that the current resource " "version match this value in order to scale." msgstr "" "Vorbedingung für Resource-Version. Verlangt, dass die aktuelle Resource-" "Version diesen Wert erfüllt, um zu skalieren." #: pkg/kubectl/cmd/version.go:40 msgid "Print the client and server version information" msgstr "Schreibt die Client- und Server-Versionsinformation" #: pkg/kubectl/cmd/options.go:38 msgid "Print the list of flags inherited by all commands" msgstr "Schreibt die Liste von Optionen, die alle Befehle erben" #: pkg/kubectl/cmd/logs.go:93 msgid "Print the logs for a container in a pod" msgstr "Schreibt die Logs für einen Container in einem Pod" #: pkg/kubectl/cmd/replace.go:71 msgid "Replace a resource by filename or stdin" msgstr "Ersetze eine Resource von einem Dateinamen oder stdin" #: pkg/kubectl/cmd/rollout/rollout_resume.go:72 msgid "Resume a paused resource" msgstr "Setze eine pausierte Resource fort" #: pkg/kubectl/cmd/create_rolebinding.go:57 msgid "Role this RoleBinding should reference" msgstr "Role, die dieses RoleBinding referenzieren soll" #: pkg/kubectl/cmd/run.go:97 msgid "Run a particular image on the cluster" msgstr "Starte ein bestimmtes Image auf dem Cluster" #: pkg/kubectl/cmd/proxy.go:69 msgid "Run a proxy to the Kubernetes API server" msgstr "Starte einen Proxy zum Kubernetes-API-Server" #: pkg/kubectl/cmd/create_secret.go:161 msgid "Server location for Docker registry" msgstr "" #: pkg/kubectl/cmd/scale.go:71 msgid "" "Set a new size for a Deployment, ReplicaSet, Replication Controller, or Job" msgstr "" "Setze eine neue Größe für ein Deployment, ReplicaSet, ReplicationController " "oder Job" #: pkg/kubectl/cmd/set/set.go:38 msgid "Set specific features on objects" msgstr "Setze bestimmte Features auf Objekten" #: pkg/kubectl/cmd/apply_set_last_applied.go:83 msgid "" "Set the last-applied-configuration annotation on a live object to match the " "contents of a file." msgstr "" "Setze die Annotation Last-Applied-Configuration auf einem Live-Objekt auf den " "Inhalt einer Datei." #: pkg/kubectl/cmd/set/set_selector.go:82 msgid "Set the selector on a resource" msgstr "Setze den Selektor auf einer Resource" #: pkg/kubectl/cmd/config/create_cluster.go:68 msgid "Sets a cluster entry in kubeconfig" msgstr "Setze einen Cluster-Eintrag in der kubeconfig" #: pkg/kubectl/cmd/config/create_context.go:58 msgid "Sets a context entry in kubeconfig" msgstr "Setze einen Kontext-Eintrag in der kubeconfig" #: pkg/kubectl/cmd/config/create_authinfo.go:104 msgid "Sets a user entry in kubeconfig" msgstr "Setze einen User-Eintrag in der kubeconfig" #: pkg/kubectl/cmd/config/set.go:60 msgid "Sets an individual value in a kubeconfig file" msgstr "Setze einen einzelnen Value in einer kubeconfig-Datei" #: pkg/kubectl/cmd/config/use_context.go:49 msgid "Sets the current-context in a kubeconfig file" msgstr "Setze den aktuellen Kontext in einer kubeconfig-Datei" #: pkg/kubectl/cmd/describe.go:86 msgid "Show details of a specific resource or group of resources" msgstr "Zeige Details zu einer bestimmten Resource oder Gruppe von " "Resourcen" #: pkg/kubectl/cmd/rollout/rollout_status.go:58 msgid "Show the status of the rollout" msgstr "Zeige den Status des Rollout" #: pkg/kubectl/cmd/expose.go:106 msgid "Synonym for --target-port" msgstr "Synonym für --target-port" #: pkg/kubectl/cmd/expose.go:88 msgid "" "Take a replication controller, service, deployment or pod and expose it as a " "new Kubernetes Service" msgstr "" "Nehme einen Replication Controller, Service, Deployment oder Pod und biete " "ihn als neuen Kubernetes-Service an" #: pkg/kubectl/cmd/run.go:117 msgid "The image for the container to run." msgstr "Das Image, dass auf dem Container gestartet werden soll." #: pkg/kubectl/cmd/run.go:119 msgid "" "The image pull policy for the container. If left empty, this value will not " "be specified by the client and defaulted by the server" msgstr "" "Die Image-Pull-Policy für den Container. Wenn leer, wird der Wert nicht vom " "Client gesetzt, sondern standardmäßig vom Server." #: pkg/kubectl/cmd/rollingupdate.go:101 msgid "" "The key to use to differentiate between two different controllers, default " "'deployment'. Only relevant when --image is specified, ignored otherwise" msgstr "" #: pkg/kubectl/cmd/create_pdb.go:63 msgid "" "The minimum number or percentage of available pods this budget requires." msgstr "" "Die minimale Anzahl oder Prozentzahl von verfügbaren Pods, die das Budget " "voraussetzt." #: pkg/kubectl/cmd/expose.go:111 msgid "The name for the newly created object." msgstr "Der Name des neu erstellten Objekts." #: pkg/kubectl/cmd/autoscale.go:72 msgid "" "The name for the newly created object. If not specified, the name of the " "input resource will be used." msgstr "" "Der Name des neu erstellten Objekts. Falls nicht angegeben, wird der Name " "der Input-Resource verwendet." #: pkg/kubectl/cmd/run.go:116 msgid "" "The name of the API generator to use, see http://kubernetes.io/docs/user-" "guide/kubectl-conventions/#generators for a list." msgstr "" "Der Name des zu verwendenden API-Generators. Siehe http://kubernetes.io/docs/" "user-guide/kubectl-conventions/#generators für eine Übersicht." #: pkg/kubectl/cmd/autoscale.go:67 msgid "" "The name of the API generator to use. Currently there is only 1 generator." msgstr "" "Der Name des zu verwendenden API-Generators. Zur Zeit gibt es nur einen " "Generator." #: pkg/kubectl/cmd/expose.go:99 msgid "" "The name of the API generator to use. There are 2 generators: 'service/v1' " "and 'service/v2'. The only difference between them is that service port in " "v1 is named 'default', while it is left unnamed in v2. Default is 'service/" "v2'." msgstr "" "Der Name des zu verwendenden API-Generators. Es gibt zwei Generatoren: " "'service/v1' und 'service/v2'. Der einzige Unterschied ist, dass der " "Serviceport in v1 'default' heißt, während er in v2 unbenannt bleibt. " "Standard ist 'service/v2'." #: pkg/kubectl/cmd/run.go:136 msgid "" "The name of the generator to use for creating a service. Only used if --" "expose is true" msgstr "" "Der Name des zu verwendenden Generators, um einen Service zu erstellen. Wird " "nur benutzt, wenn --expose true ist" #: pkg/kubectl/cmd/expose.go:100 msgid "The network protocol for the service to be created. Default is 'TCP'." msgstr "Das Netzwerkprotokoll, für den zu erstellenden Service. Standard ist " "'TCP'." #: pkg/kubectl/cmd/expose.go:101 msgid "" "The port that the service should serve on. Copied from the resource being " "exposed, if unspecified" msgstr "" "Der Port auf den der Service hören soll. Wird von der angebotenen Resource " "kopiert, falls nicht angegeben" #: pkg/kubectl/cmd/run.go:124 msgid "" "The port that this container exposes. If --expose is true, this is also the " "port used by the service that is created." msgstr "" "Der Port, den der Container anbietet. Wenn --expose true ist, ist es auch " "der Port, den der zu erstellende Service verwendet" #: pkg/kubectl/cmd/run.go:134 msgid "" "The resource requirement limits for this container. For example, 'cpu=200m," "memory=512Mi'. Note that server side components may assign limits depending " "on the server configuration, such as limit ranges." msgstr "" #: pkg/kubectl/cmd/run.go:133 msgid "" "The resource requirement requests for this container. For example, " "'cpu=100m,memory=256Mi'. Note that server side components may assign " "requests depending on the server configuration, such as limit ranges." msgstr "" #: pkg/kubectl/cmd/run.go:131 msgid "" "The restart policy for this Pod. Legal values [Always, OnFailure, Never]. " "If set to 'Always' a deployment is created, if set to 'OnFailure' a job is " "created, if set to 'Never', a regular pod is created. For the latter two --" "replicas must be 1. Default 'Always', for CronJobs ` + "`" + `Never` + "`" + `." msgstr "" #: pkg/kubectl/cmd/create_secret.go:88 msgid "The type of secret to create" msgstr "Der Typ des zu erstellenden Secrets" #: pkg/kubectl/cmd/expose.go:102 msgid "" "Type for this service: ClusterIP, NodePort, or LoadBalancer. Default is " "'ClusterIP'." msgstr "" "Typ für diesen Service: ClusterIP, NodePort oder LoadBalancer. Standard ist " "'ClusterIP'." #: pkg/kubectl/cmd/rollout/rollout_undo.go:72 msgid "Undo a previous rollout" msgstr "Widerrufe ein vorheriges Rollout" #: pkg/kubectl/cmd/config/unset.go:48 msgid "Unsets an individual value in a kubeconfig file" msgstr "" #: pkg/kubectl/cmd/patch.go:96 msgid "Update field(s) of a resource using strategic merge patch" msgstr "Aktualisiere Felder einer Resource mit einem Strategic-Merge-Patch" #: pkg/kubectl/cmd/set/set_image.go:95 msgid "Update image of a pod template" msgstr "Aktualisiere das Image einer Pod-Template" #: pkg/kubectl/cmd/set/set_resources.go:102 msgid "Update resource requests/limits on objects with pod templates" msgstr "Aktualisiere Resourcen requests/limits auf Objekten mit Pod-Templates" #: pkg/kubectl/cmd/annotate.go:116 msgid "Update the annotations on a resource" msgstr "Aktualisiere die Annotationen auf einer Resource" #: pkg/kubectl/cmd/label.go:114 msgid "Update the labels on a resource" msgstr "Aktualisiere die Labels auf einer Resource" #: pkg/kubectl/cmd/taint.go:87 msgid "Update the taints on one or more nodes" msgstr "Aktualisiere die Taints auf einem oder mehreren Knoten" #: pkg/kubectl/cmd/create_secret.go:156 msgid "Username for Docker registry authentication" msgstr "Username für Authentifizierung bei der Docker-Registry" #: pkg/kubectl/cmd/apply_view_last_applied.go:64 msgid "View latest last-applied-configuration annotations of a resource/object" msgstr "Zeige die aktuelle Annotation Last-Applied-Configuration einer Resource " "/ eines Object" #: pkg/kubectl/cmd/rollout/rollout_history.go:52 msgid "View rollout history" msgstr "Zeige rollout-Verlauf" #: pkg/kubectl/cmd/clusterinfo_dump.go:46 msgid "" "Where to output the files. If empty or '-' uses stdout, otherwise creates a " "directory hierarchy in that directory" msgstr "" #: pkg/kubectl/cmd/run_test.go:85 msgid "dummy restart flag)" msgstr "" #: pkg/kubectl/cmd/create_service.go:254 msgid "external name of service" msgstr "" #: pkg/kubectl/cmd/cmd.go:227 msgid "kubectl controls the Kubernetes cluster manager" msgstr "kubectl kontrolliert den Kubernetes-Cluster-Manager" `) func translationsKubectlDe_deLc_messagesK8sPoBytes() ([]byte, error) { return _translationsKubectlDe_deLc_messagesK8sPo, nil } func translationsKubectlDe_deLc_messagesK8sPo() (*asset, error) { bytes, err := translationsKubectlDe_deLc_messagesK8sPoBytes() if err != nil { return nil, err } info := bindataFileInfo{name: "translations/kubectl/de_DE/LC_MESSAGES/k8s.po", size: 0, mode: os.FileMode(0), modTime: time.Unix(0, 0)} a := &asset{bytes: bytes, info: info} return a, nil } var _translationsKubectlDefaultLc_messagesK8sMo = 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# Create a ClusterRoleBinding for user1, user2, and group1 using the cluster-admin ClusterRole\n\t\t kubectl create clusterrolebinding cluster-admin --clusterrole=cluster-admin --user=user1 --user=user2 --group=group1\x00\n\t\t # Create a RoleBinding for user1, user2, and group1 using the admin ClusterRole\n\t\t kubectl create rolebinding admin --clusterrole=admin --user=user1 --user=user2 --group=group1\x00\n\t\t # Create a new configmap named my-config based on folder bar\n\t\t kubectl create configmap my-config --from-file=path/to/bar\n\n\t\t # Create a new configmap named my-config with specified keys instead of file basenames on disk\n\t\t kubectl create configmap my-config --from-file=key1=/path/to/bar/file1.txt --from-file=key2=/path/to/bar/file2.txt\n\n\t\t # Create a new configmap named my-config with key1=config1 and key2=config2\n\t\t kubectl create configmap my-config --from-literal=key1=config1 --from-literal=key2=config2\x00\n\t\t # If you don't already have a .dockercfg file, you can create a dockercfg secret directly by using:\n\t\t kubectl create secret docker-registry my-secret --docker-server=DOCKER_REGISTRY_SERVER --docker-username=DOCKER_USER --docker-password=DOCKER_PASSWORD --docker-email=DOCKER_EMAIL\x00\n\t\t # Show metrics for all nodes\n\t\t kubectl top node\n\n\t\t # Show metrics for a given node\n\t\t kubectl top node NODE_NAME\x00\n\t\t# Apply the configuration in pod.json to a pod.\n\t\tkubectl apply -f ./pod.json\n\n\t\t# Apply the JSON passed into stdin to a pod.\n\t\tcat pod.json | kubectl apply -f -\n\n\t\t# Note: --prune is still in Alpha\n\t\t# Apply the configuration in manifest.yaml that matches label app=nginx and delete all the other resources that are not in the file and match label app=nginx.\n\t\tkubectl apply --prune -f manifest.yaml -l app=nginx\n\n\t\t# Apply the configuration in manifest.yaml and delete all the other configmaps that are not in the file.\n\t\tkubectl apply --prune -f manifest.yaml --all --prune-whitelist=core/v1/ConfigMap\x00\n\t\t# Auto scale a deployment \"foo\", with the number of pods between 2 and 10, no target CPU utilization specified so a default autoscaling policy will be used:\n\t\tkubectl autoscale deployment foo --min=2 --max=10\n\n\t\t# Auto scale a replication controller \"foo\", with the number of pods between 1 and 5, target CPU utilization at 80%:\n\t\tkubectl autoscale rc foo --max=5 --cpu-percent=80\x00\n\t\t# Convert 'pod.yaml' to latest version and print to stdout.\n\t\tkubectl convert -f pod.yaml\n\n\t\t# Convert the live state of the resource specified by 'pod.yaml' to the latest version\n\t\t# and print to stdout in json format.\n\t\tkubectl convert -f pod.yaml --local -o json\n\n\t\t# Convert all files under current directory to latest version and create them all.\n\t\tkubectl convert -f . | kubectl create -f -\x00\n\t\t# Create a ClusterRole named \"pod-reader\" that allows user to perform \"get\", \"watch\" and \"list\" on pods\n\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --resource=pods\n\n\t\t# Create a ClusterRole named \"pod-reader\" with ResourceName specified\n\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --resource=pods --resource-name=readablepod\x00\n\t\t# Create a Role named \"pod-reader\" that allows user to perform \"get\", \"watch\" and \"list\" on pods\n\t\tkubectl create role pod-reader --verb=get --verb=list --verb=watch --resource=pods\n\n\t\t# Create a Role named \"pod-reader\" with ResourceName specified\n\t\tkubectl create role pod-reader --verb=get --verg=list --verb=watch --resource=pods --resource-name=readablepod\x00\n\t\t# Create a new resourcequota named my-quota\n\t\tkubectl create quota my-quota --hard=cpu=1,memory=1G,pods=2,services=3,replicationcontrollers=2,resourcequotas=1,secrets=5,persistentvolumeclaims=10\n\n\t\t# Create a new resourcequota named best-effort\n\t\tkubectl create quota best-effort --hard=pods=100 --scopes=BestEffort\x00\n\t\t# Create a pod disruption budget named my-pdb that will select all pods with the app=rails label\n\t\t# and require at least one of them being available at any point in time.\n\t\tkubectl create poddisruptionbudget my-pdb --selector=app=rails --min-available=1\n\n\t\t# Create a pod disruption budget named my-pdb that will select all pods with the app=nginx label\n\t\t# and require at least half of the pods selected to be available at any point in time.\n\t\tkubectl create pdb my-pdb --selector=app=nginx --min-available=50%\x00\n\t\t# Create a pod using the data in pod.json.\n\t\tkubectl create -f ./pod.json\n\n\t\t# Create a pod based on the JSON passed into stdin.\n\t\tcat pod.json | kubectl create -f -\n\n\t\t# Edit the data in docker-registry.yaml in JSON using the v1 API format then create the resource using the edited data.\n\t\tkubectl create -f docker-registry.yaml --edit --output-version=v1 -o json\x00\n\t\t# Create a service for a replicated nginx, which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose rc nginx --port=80 --target-port=8000\n\n\t\t# Create a service for a replication controller identified by type and name specified in \"nginx-controller.yaml\", which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose -f nginx-controller.yaml --port=80 --target-port=8000\n\n\t\t# Create a service for a pod valid-pod, which serves on port 444 with the name \"frontend\"\n\t\tkubectl expose pod valid-pod --port=444 --name=frontend\n\n\t\t# Create a second service based on the above service, exposing the container port 8443 as port 443 with the name \"nginx-https\"\n\t\tkubectl expose service nginx --port=443 --target-port=8443 --name=nginx-https\n\n\t\t# Create a service for a replicated streaming application on port 4100 balancing UDP traffic and named 'video-stream'.\n\t\tkubectl expose rc streamer --port=4100 --protocol=udp --name=video-stream\n\n\t\t# Create a service for a replicated nginx using replica set, which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose rs nginx --port=80 --target-port=8000\n\n\t\t# Create a service for an nginx deployment, which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose deployment nginx --port=80 --target-port=8000\x00\n\t\t# Delete a pod using the type and name specified in pod.json.\n\t\tkubectl delete -f ./pod.json\n\n\t\t# Delete a pod based on the type and name in the JSON passed into stdin.\n\t\tcat pod.json | kubectl delete -f -\n\n\t\t# Delete pods and services with same names \"baz\" and \"foo\"\n\t\tkubectl delete pod,service baz foo\n\n\t\t# Delete pods and services with label name=myLabel.\n\t\tkubectl delete pods,services -l name=myLabel\n\n\t\t# Delete a pod with minimal delay\n\t\tkubectl delete pod foo --now\n\n\t\t# Force delete a pod on a dead node\n\t\tkubectl delete pod foo --grace-period=0 --force\n\n\t\t# Delete all pods\n\t\tkubectl delete pods --all\x00\n\t\t# Describe a node\n\t\tkubectl describe nodes kubernetes-node-emt8.c.myproject.internal\n\n\t\t# Describe a pod\n\t\tkubectl describe pods/nginx\n\n\t\t# Describe a pod identified by type and name in \"pod.json\"\n\t\tkubectl describe -f pod.json\n\n\t\t# Describe all pods\n\t\tkubectl describe pods\n\n\t\t# Describe pods by label name=myLabel\n\t\tkubectl describe po -l name=myLabel\n\n\t\t# Describe all pods managed by the 'frontend' replication controller (rc-created pods\n\t\t# get the name of the rc as a prefix in the pod the name).\n\t\tkubectl describe pods frontend\x00\n\t\t# Drain node \"foo\", even if there are pods not managed by a ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet on it.\n\t\t$ kubectl drain foo --force\n\n\t\t# As above, but abort if there are pods not managed by a ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet, and use a grace period of 15 minutes.\n\t\t$ kubectl drain foo --grace-period=900\x00\n\t\t# Edit the service named 'docker-registry':\n\t\tkubectl edit svc/docker-registry\n\n\t\t# Use an alternative editor\n\t\tKUBE_EDITOR=\"nano\" kubectl edit svc/docker-registry\n\n\t\t# Edit the job 'myjob' in JSON using the v1 API format:\n\t\tkubectl edit job.v1.batch/myjob -o json\n\n\t\t# Edit the deployment 'mydeployment' in YAML and save the modified config in its annotation:\n\t\tkubectl edit deployment/mydeployment -o yaml --save-config\x00\n\t\t# Get output from running 'date' from pod 123456-7890, using the first container by default\n\t\tkubectl exec 123456-7890 date\n\n\t\t# Get output from running 'date' in ruby-container from pod 123456-7890\n\t\tkubectl exec 123456-7890 -c ruby-container date\n\n\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container from pod 123456-7890\n\t\t# and sends stdout/stderr from 'bash' back to the client\n\t\tkubectl exec 123456-7890 -c ruby-container -i -t -- bash -il\x00\n\t\t# Get output from running pod 123456-7890, using the first container by default\n\t\tkubectl attach 123456-7890\n\n\t\t# Get output from ruby-container from pod 123456-7890\n\t\tkubectl attach 123456-7890 -c ruby-container\n\n\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container from pod 123456-7890\n\t\t# and sends stdout/stderr from 'bash' back to the client\n\t\tkubectl attach 123456-7890 -c ruby-container -i -t\n\n\t\t# Get output from the first pod of a ReplicaSet named nginx\n\t\tkubectl attach rs/nginx\n\t\t\x00\n\t\t# Get the documentation of the resource and its fields\n\t\tkubectl explain pods\n\n\t\t# Get the documentation of a specific field of a resource\n\t\tkubectl explain pods.spec.containers\x00\n\t\t# Install bash completion on a Mac using homebrew\n\t\tbrew install bash-completion\n\t\tprintf \"\n# Bash completion support\nsource $(brew --prefix)/etc/bash_completion\n\" >> $HOME/.bash_profile\n\t\tsource $HOME/.bash_profile\n\n\t\t# Load the kubectl completion code for bash into the current shell\n\t\tsource <(kubectl completion bash)\n\n\t\t# Write bash completion code to a file and source if from .bash_profile\n\t\tkubectl completion bash > ~/.kube/completion.bash.inc\n\t\tprintf \"\n# Kubectl shell completion\nsource '$HOME/.kube/completion.bash.inc'\n\" >> $HOME/.bash_profile\n\t\tsource $HOME/.bash_profile\n\n\t\t# Load the kubectl completion code for zsh[1] into the current shell\n\t\tsource <(kubectl completion zsh)\x00\n\t\t# List all pods in ps output format.\n\t\tkubectl get pods\n\n\t\t# List all pods in ps output format with more information (such as node name).\n\t\tkubectl get pods -o wide\n\n\t\t# List a single replication controller with specified NAME in ps output format.\n\t\tkubectl get replicationcontroller web\n\n\t\t# List a single pod in JSON output format.\n\t\tkubectl get -o json pod web-pod-13je7\n\n\t\t# List a pod identified by type and name specified in \"pod.yaml\" in JSON output format.\n\t\tkubectl get -f pod.yaml -o json\n\n\t\t# Return only the phase value of the specified pod.\n\t\tkubectl get -o template pod/web-pod-13je7 --template={{.status.phase}}\n\n\t\t# List all replication controllers and services together in ps output format.\n\t\tkubectl get rc,services\n\n\t\t# List one or more resources by their type and names.\n\t\tkubectl get rc/web service/frontend pods/web-pod-13je7\n\n\t\t# List all resources with different types.\n\t\tkubectl get all\x00\n\t\t# Listen on ports 5000 and 6000 locally, forwarding data to/from ports 5000 and 6000 in the pod\n\t\tkubectl port-forward mypod 5000 6000\n\n\t\t# Listen on port 8888 locally, forwarding to 5000 in the pod\n\t\tkubectl port-forward mypod 8888:5000\n\n\t\t# Listen on a random port locally, forwarding to 5000 in the pod\n\t\tkubectl port-forward mypod :5000\n\n\t\t# Listen on a random port locally, forwarding to 5000 in the pod\n\t\tkubectl port-forward mypod 0:5000\x00\n\t\t# Mark node \"foo\" as schedulable.\n\t\t$ kubectl uncordon foo\x00\n\t\t# Mark node \"foo\" as unschedulable.\n\t\tkubectl cordon foo\x00\n\t\t# Partially update a node using strategic merge patch\n\t\tkubectl patch node k8s-node-1 -p '{\"spec\":{\"unschedulable\":true}}'\n\n\t\t# Partially update a node identified by the type and name specified in \"node.json\" using strategic merge patch\n\t\tkubectl patch -f node.json -p '{\"spec\":{\"unschedulable\":true}}'\n\n\t\t# Update a container's image; spec.containers[*].name is required because it's a merge key\n\t\tkubectl patch pod valid-pod -p '{\"spec\":{\"containers\":[{\"name\":\"kubernetes-serve-hostname\",\"image\":\"new image\"}]}}'\n\n\t\t# Update a container's image using a json patch with positional arrays\n\t\tkubectl patch pod valid-pod --type='json' -p='[{\"op\": \"replace\", \"path\": \"/spec/containers/0/image\", \"value\":\"new image\"}]'\x00\n\t\t# Print flags inherited by all commands\n\t\tkubectl options\x00\n\t\t# Print the address of the master and cluster services\n\t\tkubectl cluster-info\x00\n\t\t# Print the client and server versions for the current context\n\t\tkubectl version\x00\n\t\t# Print the supported API versions\n\t\tkubectl api-versions\x00\n\t\t# Replace a pod using the data in pod.json.\n\t\tkubectl replace -f ./pod.json\n\n\t\t# Replace a pod based on the JSON passed into stdin.\n\t\tcat pod.json | kubectl replace -f -\n\n\t\t# Update a single-container pod's image version (tag) to v4\n\t\tkubectl get pod mypod -o yaml | sed 's/\\(image: myimage\\):.*$/\x01:v4/' | kubectl replace -f -\n\n\t\t# Force replace, delete and then re-create the resource\n\t\tkubectl replace --force -f ./pod.json\x00\n\t\t# Return snapshot logs from pod nginx with only one container\n\t\tkubectl logs nginx\n\n\t\t# Return snapshot logs for the pods defined by label app=nginx\n\t\tkubectl logs -lapp=nginx\n\n\t\t# Return snapshot of previous terminated ruby container logs from pod web-1\n\t\tkubectl logs -p -c ruby web-1\n\n\t\t# Begin streaming the logs of the ruby container in pod web-1\n\t\tkubectl logs -f -c ruby web-1\n\n\t\t# Display only the most recent 20 lines of output in pod nginx\n\t\tkubectl logs --tail=20 nginx\n\n\t\t# Show all logs from pod nginx written in the last hour\n\t\tkubectl logs --since=1h nginx\n\n\t\t# Return snapshot logs from first container of a job named hello\n\t\tkubectl logs job/hello\n\n\t\t# Return snapshot logs from container nginx-1 of a deployment named nginx\n\t\tkubectl logs deployment/nginx -c nginx-1\x00\n\t\t# Run a proxy to kubernetes apiserver on port 8011, serving static content from ./local/www/\n\t\tkubectl proxy --port=8011 --www=./local/www/\n\n\t\t# Run a proxy to kubernetes apiserver on an arbitrary local port.\n\t\t# The chosen port for the server will be output to stdout.\n\t\tkubectl proxy --port=0\n\n\t\t# Run a proxy to kubernetes apiserver, changing the api prefix to k8s-api\n\t\t# This makes e.g. the pods api available at localhost:8001/k8s-api/v1/pods/\n\t\tkubectl proxy --api-prefix=/k8s-api\x00\n\t\t# Scale a replicaset named 'foo' to 3.\n\t\tkubectl scale --replicas=3 rs/foo\n\n\t\t# Scale a resource identified by type and name specified in \"foo.yaml\" to 3.\n\t\tkubectl scale --replicas=3 -f foo.yaml\n\n\t\t# If the deployment named mysql's current size is 2, scale mysql to 3.\n\t\tkubectl scale --current-replicas=2 --replicas=3 deployment/mysql\n\n\t\t# Scale multiple replication controllers.\n\t\tkubectl scale --replicas=5 rc/foo rc/bar rc/baz\n\n\t\t# Scale job named 'cron' to 3.\n\t\tkubectl scale --replicas=3 job/cron\x00\n\t\t# Set the last-applied-configuration of a resource to match the contents of a file.\n\t\tkubectl apply set-last-applied -f deploy.yaml\n\n\t\t# Execute set-last-applied against each configuration file in a directory.\n\t\tkubectl apply set-last-applied -f path/\n\n\t\t# Set the last-applied-configuration of a resource to match the contents of a file, will create the annotation if it does not already exist.\n\t\tkubectl apply set-last-applied -f deploy.yaml --create-annotation=true\n\t\t\x00\n\t\t# Show metrics for all pods in the default namespace\n\t\tkubectl top pod\n\n\t\t# Show metrics for all pods in the given namespace\n\t\tkubectl top pod --namespace=NAMESPACE\n\n\t\t# Show metrics for a given pod and its containers\n\t\tkubectl top pod POD_NAME --containers\n\n\t\t# Show metrics for the pods defined by label name=myLabel\n\t\tkubectl top pod -l name=myLabel\x00\n\t\t# Shut down foo.\n\t\tkubectl stop replicationcontroller foo\n\n\t\t# Stop pods and services with label name=myLabel.\n\t\tkubectl stop pods,services -l name=myLabel\n\n\t\t# Shut down the service defined in service.json\n\t\tkubectl stop -f service.json\n\n\t\t# Shut down all resources in the path/to/resources directory\n\t\tkubectl stop -f path/to/resources\x00\n\t\t# Start a single instance of nginx.\n\t\tkubectl run nginx --image=nginx\n\n\t\t# Start a single instance of hazelcast and let the container expose port 5701 .\n\t\tkubectl run hazelcast --image=hazelcast --port=5701\n\n\t\t# Start a single instance of hazelcast and set environment variables \"DNS_DOMAIN=cluster\" and \"POD_NAMESPACE=default\" in the container.\n\t\tkubectl run hazelcast --image=hazelcast --env=\"DNS_DOMAIN=cluster\" --env=\"POD_NAMESPACE=default\"\n\n\t\t# Start a replicated instance of nginx.\n\t\tkubectl run nginx --image=nginx --replicas=5\n\n\t\t# Dry run. Print the corresponding API objects without creating them.\n\t\tkubectl run nginx --image=nginx --dry-run\n\n\t\t# Start a single instance of nginx, but overload the spec of the deployment with a partial set of values parsed from JSON.\n\t\tkubectl run nginx --image=nginx --overrides='{ \"apiVersion\": \"v1\", \"spec\": { ... } }'\n\n\t\t# Start a pod of busybox and keep it in the foreground, don't restart it if it exits.\n\t\tkubectl run -i -t busybox --image=busybox --restart=Never\n\n\t\t# Start the nginx container using the default command, but use custom arguments (arg1 .. argN) for that command.\n\t\tkubectl run nginx --image=nginx -- ... \n\n\t\t# Start the nginx container using a different command and custom arguments.\n\t\tkubectl run nginx --image=nginx --command -- ... \n\n\t\t# Start the perl container to compute \u03c0 to 2000 places and print it out.\n\t\tkubectl run pi --image=perl --restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'\n\n\t\t# Start the cron job to compute \u03c0 to 2000 places and print it out every 5 minutes.\n\t\tkubectl run pi --schedule=\"0/5 * * * ?\" --image=perl --restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'\x00\n\t\t# Update node 'foo' with a taint with key 'dedicated' and value 'special-user' and effect 'NoSchedule'.\n\t\t# If a taint with that key and effect already exists, its value is replaced as specified.\n\t\tkubectl taint nodes foo dedicated=special-user:NoSchedule\n\n\t\t# Remove from node 'foo' the taint with key 'dedicated' and effect 'NoSchedule' if one exists.\n\t\tkubectl taint nodes foo dedicated:NoSchedule-\n\n\t\t# Remove from node 'foo' all the taints with key 'dedicated'\n\t\tkubectl taint nodes foo dedicated-\x00\n\t\t# Update pod 'foo' with the label 'unhealthy' and the value 'true'.\n\t\tkubectl label pods foo unhealthy=true\n\n\t\t# Update pod 'foo' with the label 'status' and the value 'unhealthy', overwriting any existing value.\n\t\tkubectl label --overwrite pods foo status=unhealthy\n\n\t\t# Update all pods in the namespace\n\t\tkubectl label pods --all status=unhealthy\n\n\t\t# Update a pod identified by the type and name in \"pod.json\"\n\t\tkubectl label -f pod.json status=unhealthy\n\n\t\t# Update pod 'foo' only if the resource is unchanged from version 1.\n\t\tkubectl label pods foo status=unhealthy --resource-version=1\n\n\t\t# Update pod 'foo' by removing a label named 'bar' if it exists.\n\t\t# Does not require the --overwrite flag.\n\t\tkubectl label pods foo bar-\x00\n\t\t# Update pods of frontend-v1 using new replication controller data in frontend-v2.json.\n\t\tkubectl rolling-update frontend-v1 -f frontend-v2.json\n\n\t\t# Update pods of frontend-v1 using JSON data passed into stdin.\n\t\tcat frontend-v2.json | kubectl rolling-update frontend-v1 -f -\n\n\t\t# Update the pods of frontend-v1 to frontend-v2 by just changing the image, and switching the\n\t\t# name of the replication controller.\n\t\tkubectl rolling-update frontend-v1 frontend-v2 --image=image:v2\n\n\t\t# Update the pods of frontend by just changing the image, and keeping the old name.\n\t\tkubectl rolling-update frontend --image=image:v2\n\n\t\t# Abort and reverse an existing rollout in progress (from frontend-v1 to frontend-v2).\n\t\tkubectl rolling-update frontend-v1 frontend-v2 --rollback\x00\n\t\t# View the last-applied-configuration annotations by type/name in YAML.\n\t\tkubectl apply view-last-applied deployment/nginx\n\n\t\t# View the last-applied-configuration annotations by file in JSON\n\t\tkubectl apply view-last-applied -f deploy.yaml -o json\x00\n\t\tApply a configuration to a resource by filename or stdin.\n\t\tThis resource will be created if it doesn't exist yet.\n\t\tTo use 'apply', always create the resource initially with either 'apply' or 'create --save-config'.\n\n\t\tJSON and YAML formats are accepted.\n\n\t\tAlpha Disclaimer: the --prune functionality is not yet complete. Do not use unless you are aware of what the current state is. See https://issues.k8s.io/34274.\x00\n\t\tConvert config files between different API versions. Both YAML\n\t\tand JSON formats are accepted.\n\n\t\tThe command takes filename, directory, or URL as input, and convert it into format\n\t\tof version specified by --output-version flag. If target version is not specified or\n\t\tnot supported, convert to latest version.\n\n\t\tThe default output will be printed to stdout in YAML format. One can use -o option\n\t\tto change to output destination.\x00\n\t\tCreate a ClusterRole.\x00\n\t\tCreate a ClusterRoleBinding for a particular ClusterRole.\x00\n\t\tCreate a RoleBinding for a particular Role or ClusterRole.\x00\n\t\tCreate a TLS secret from the given public/private key pair.\n\n\t\tThe public/private key pair must exist before hand. The public key certificate must be .PEM encoded and match the given private key.\x00\n\t\tCreate a configmap based on a file, directory, or specified literal value.\n\n\t\tA single configmap may package one or more key/value pairs.\n\n\t\tWhen creating a configmap based on a file, the key will default to the basename of the file, and the value will\n\t\tdefault to the file content. If the basename is an invalid key, you may specify an alternate key.\n\n\t\tWhen creating a configmap based on a directory, each file whose basename is a valid key in the directory will be\n\t\tpackaged into the configmap. Any directory entries except regular files are ignored (e.g. subdirectories,\n\t\tsymlinks, devices, pipes, etc).\x00\n\t\tCreate a namespace with the specified name.\x00\n\t\tCreate a new secret for use with Docker registries.\n\n\t\tDockercfg secrets are used to authenticate against Docker registries.\n\n\t\tWhen using the Docker command line to push images, you can authenticate to a given registry by running\n\n\t\t $ docker login DOCKER_REGISTRY_SERVER --username=DOCKER_USER --password=DOCKER_PASSWORD --email=DOCKER_EMAIL'.\n\n That produces a ~/.dockercfg file that is used by subsequent 'docker push' and 'docker pull' commands to\n\t\tauthenticate to the registry. The email address is optional.\n\n\t\tWhen creating applications, you may have a Docker registry that requires authentication. In order for the\n\t\tnodes to pull images on your behalf, they have to have the credentials. You can provide this information\n\t\tby creating a dockercfg secret and attaching it to your service account.\x00\n\t\tCreate a pod disruption budget with the specified name, selector, and desired minimum available pods\x00\n\t\tCreate a resource by filename or stdin.\n\n\t\tJSON and YAML formats are accepted.\x00\n\t\tCreate a resourcequota with the specified name, hard limits and optional scopes\x00\n\t\tCreate a role with single rule.\x00\n\t\tCreate a secret based on a file, directory, or specified literal value.\n\n\t\tA single secret may package one or more key/value pairs.\n\n\t\tWhen creating a secret based on a file, the key will default to the basename of the file, and the value will\n\t\tdefault to the file content. If the basename is an invalid key, you may specify an alternate key.\n\n\t\tWhen creating a secret based on a directory, each file whose basename is a valid key in the directory will be\n\t\tpackaged into the secret. Any directory entries except regular files are ignored (e.g. subdirectories,\n\t\tsymlinks, devices, pipes, etc).\x00\n\t\tCreate a service account with the specified name.\x00\n\t\tCreate and run a particular image, possibly replicated.\n\n\t\tCreates a deployment or job to manage the created container(s).\x00\n\t\tCreates an autoscaler that automatically chooses and sets the number of pods that run in a kubernetes cluster.\n\n\t\tLooks up a Deployment, ReplicaSet, or ReplicationController by name and creates an autoscaler that uses the given resource as a reference.\n\t\tAn autoscaler can automatically increase or decrease number of pods deployed within the system as needed.\x00\n\t\tDelete resources by filenames, stdin, resources and names, or by resources and label selector.\n\n\t\tJSON and YAML formats are accepted. Only one type of the arguments may be specified: filenames,\n\t\tresources and names, or resources and label selector.\n\n\t\tSome resources, such as pods, support graceful deletion. These resources define a default period\n\t\tbefore they are forcibly terminated (the grace period) but you may override that value with\n\t\tthe --grace-period flag, or pass --now to set a grace-period of 1. Because these resources often\n\t\trepresent entities in the cluster, deletion may not be acknowledged immediately. If the node\n\t\thosting a pod is down or cannot reach the API server, termination may take significantly longer\n\t\tthan the grace period. To force delete a resource,\tyou must pass a grace\tperiod of 0 and specify\n\t\tthe --force flag.\n\n\t\tIMPORTANT: Force deleting pods does not wait for confirmation that the pod's processes have been\n\t\tterminated, which can leave those processes running until the node detects the deletion and\n\t\tcompletes graceful deletion. If your processes use shared storage or talk to a remote API and\n\t\tdepend on the name of the pod to identify themselves, force deleting those pods may result in\n\t\tmultiple processes running on different machines using the same identification which may lead\n\t\tto data corruption or inconsistency. Only force delete pods when you are sure the pod is\n\t\tterminated, or if your application can tolerate multiple copies of the same pod running at once.\n\t\tAlso, if you force delete pods the scheduler may place new pods on those nodes before the node\n\t\thas released those resources and causing those pods to be evicted immediately.\n\n\t\tNote that the delete command does NOT do resource version checks, so if someone\n\t\tsubmits an update to a resource right when you submit a delete, their update\n\t\twill be lost along with the rest of the resource.\x00\n\t\tDeprecated: Gracefully shut down a resource by name or filename.\n\n\t\tThe stop command is deprecated, all its functionalities are covered by delete command.\n\t\tSee 'kubectl delete --help' for more details.\n\n\t\tAttempts to shut down and delete a resource that supports graceful termination.\n\t\tIf the resource is scalable it will be scaled to 0 before deletion.\x00\n\t\tDisplay Resource (CPU/Memory/Storage) usage of nodes.\n\n\t\tThe top-node command allows you to see the resource consumption of nodes.\x00\n\t\tDisplay Resource (CPU/Memory/Storage) usage of pods.\n\n\t\tThe 'top pod' command allows you to see the resource consumption of pods.\n\n\t\tDue to the metrics pipeline delay, they may be unavailable for a few minutes\n\t\tsince pod creation.\x00\n\t\tDisplay Resource (CPU/Memory/Storage) usage.\n\n\t\tThe top command allows you to see the resource consumption for nodes or pods.\n\n\t\tThis command requires Heapster to be correctly configured and working on the server. \x00\n\t\tDrain node in preparation for maintenance.\n\n\t\tThe given node will be marked unschedulable to prevent new pods from arriving.\n\t\t'drain' evicts the pods if the APIServer supports eviction\n\t\t(http://kubernetes.io/docs/admin/disruptions/). Otherwise, it will use normal DELETE\n\t\tto delete the pods.\n\t\tThe 'drain' evicts or deletes all pods except mirror pods (which cannot be deleted through\n\t\tthe API server). If there are DaemonSet-managed pods, drain will not proceed\n\t\twithout --ignore-daemonsets, and regardless it will not delete any\n\t\tDaemonSet-managed pods, because those pods would be immediately replaced by the\n\t\tDaemonSet controller, which ignores unschedulable markings. If there are any\n\t\tpods that are neither mirror pods nor managed by ReplicationController,\n\t\tReplicaSet, DaemonSet, StatefulSet or Job, then drain will not delete any pods unless you\n\t\tuse --force. --force will also allow deletion to proceed if the managing resource of one\n\t\tor more pods is missing.\n\n\t\t'drain' waits for graceful termination. You should not operate on the machine until\n\t\tthe command completes.\n\n\t\tWhen you are ready to put the node back into service, use kubectl uncordon, which\n\t\twill make the node schedulable again.\n\n\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_drain.svg)\x00\n\t\tEdit a resource from the default editor.\n\n\t\tThe edit command allows you to directly edit any API resource you can retrieve via the\n\t\tcommand line tools. It will open the editor defined by your KUBE_EDITOR, or EDITOR\n\t\tenvironment variables, or fall back to 'vi' for Linux or 'notepad' for Windows.\n\t\tYou can edit multiple objects, although changes are applied one at a time. The command\n\t\taccepts filenames as well as command line arguments, although the files you point to must\n\t\tbe previously saved versions of resources.\n\n\t\tEditing is done with the API version used to fetch the resource.\n\t\tTo edit using a specific API version, fully-qualify the resource, version, and group.\n\n\t\tThe default format is YAML. To edit in JSON, specify \"-o json\".\n\n\t\tThe flag --windows-line-endings can be used to force Windows line endings,\n\t\totherwise the default for your operating system will be used.\n\n\t\tIn the event an error occurs while updating, a temporary file will be created on disk\n\t\tthat contains your unapplied changes. The most common error when updating a resource\n\t\tis another editor changing the resource on the server. When this occurs, you will have\n\t\tto apply your changes to the newer version of the resource, or update your temporary\n\t\tsaved copy to include the latest resource version.\x00\n\t\tMark node as schedulable.\x00\n\t\tMark node as unschedulable.\x00\n\t\tOutput shell completion code for the specified shell (bash or zsh).\n\t\tThe shell code must be evaluated to provide interactive\n\t\tcompletion of kubectl commands. This can be done by sourcing it from\n\t\tthe .bash_profile.\n\n\t\tNote: this requires the bash-completion framework, which is not installed\n\t\tby default on Mac. This can be installed by using homebrew:\n\n\t\t $ brew install bash-completion\n\n\t\tOnce installed, bash_completion must be evaluated. This can be done by adding the\n\t\tfollowing line to the .bash_profile\n\n\t\t $ source $(brew --prefix)/etc/bash_completion\n\n\t\tNote for zsh users: [1] zsh completions are only supported in versions of zsh >= 5.2\x00\n\t\tPerform a rolling update of the given ReplicationController.\n\n\t\tReplaces the specified replication controller with a new replication controller by updating one pod at a time to use the\n\t\tnew PodTemplate. The new-controller.json must specify the same namespace as the\n\t\texisting replication controller and overwrite at least one (common) label in its replicaSelector.\n\n\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_rollingupdate.svg)\x00\n\t\tReplace a resource by filename or stdin.\n\n\t\tJSON and YAML formats are accepted. If replacing an existing resource, the\n\t\tcomplete resource spec must be provided. This can be obtained by\n\n\t\t $ kubectl get TYPE NAME -o yaml\n\n\t\tPlease refer to the models in https://htmlpreview.github.io/?https://github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions.html to find if a field is mutable.\x00\n\t\tSet a new size for a Deployment, ReplicaSet, Replication Controller, or Job.\n\n\t\tScale also allows users to specify one or more preconditions for the scale action.\n\n\t\tIf --current-replicas or --resource-version is specified, it is validated before the\n\t\tscale is attempted, and it is guaranteed that the precondition holds true when the\n\t\tscale is sent to the server.\x00\n\t\tSet the latest last-applied-configuration annotations by setting it to match the contents of a file.\n\t\tThis results in the last-applied-configuration being updated as though 'kubectl apply -f ' was run,\n\t\twithout updating any other parts of the object.\x00\n\t\tTo proxy all of the kubernetes api and nothing else, use:\n\n\t\t $ kubectl proxy --api-prefix=/\n\n\t\tTo proxy only part of the kubernetes api and also some static files:\n\n\t\t $ kubectl proxy --www=/my/files --www-prefix=/static/ --api-prefix=/api/\n\n\t\tThe above lets you 'curl localhost:8001/api/v1/pods'.\n\n\t\tTo proxy the entire kubernetes api at a different root, use:\n\n\t\t $ kubectl proxy --api-prefix=/custom/\n\n\t\tThe above lets you 'curl localhost:8001/custom/api/v1/pods'\x00\n\t\tUpdate field(s) of a resource using strategic merge patch\n\n\t\tJSON and YAML formats are accepted.\n\n\t\tPlease refer to the models in https://htmlpreview.github.io/?https://github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions.html to find if a field is mutable.\x00\n\t\tUpdate the labels on a resource.\n\n\t\t* A label must begin with a letter or number, and may contain letters, numbers, hyphens, dots, and underscores, up to %[1]d characters.\n\t\t* If --overwrite is true, then existing labels can be overwritten, otherwise attempting to overwrite a label will result in an error.\n\t\t* If --resource-version is specified, then updates will use this resource version, otherwise the existing resource-version will be used.\x00\n\t\tUpdate the taints on one or more nodes.\n\n\t\t* A taint consists of a key, value, and effect. As an argument here, it is expressed as key=value:effect.\n\t\t* The key must begin with a letter or number, and may contain letters, numbers, hyphens, dots, and underscores, up to %[1]d characters.\n\t\t* The value must begin with a letter or number, and may contain letters, numbers, hyphens, dots, and underscores, up to %[2]d characters.\n\t\t* The effect must be NoSchedule, PreferNoSchedule or NoExecute.\n\t\t* Currently taint can only apply to node.\x00\n\t\tView the latest last-applied-configuration annotations by type/name or file.\n\n\t\tThe default output will be printed to stdout in YAML format. One can use -o option\n\t\tto change output format.\x00\n\t # !!!Important Note!!!\n\t # Requires that the 'tar' binary is present in your container\n\t # image. If 'tar' is not present, 'kubectl cp' will fail.\n\n\t # Copy /tmp/foo_dir local directory to /tmp/bar_dir in a remote pod in the default namespace\n\t\tkubectl cp /tmp/foo_dir :/tmp/bar_dir\n\n # Copy /tmp/foo local file to /tmp/bar in a remote pod in a specific container\n\t\tkubectl cp /tmp/foo :/tmp/bar -c \n\n\t\t# Copy /tmp/foo local file to /tmp/bar in a remote pod in namespace \n\t\tkubectl cp /tmp/foo /:/tmp/bar\n\n\t\t# Copy /tmp/foo from a remote pod to /tmp/bar locally\n\t\tkubectl cp /:/tmp/foo /tmp/bar\x00\n\t # Create a new TLS secret named tls-secret with the given key pair:\n\t kubectl create secret tls tls-secret --cert=path/to/tls.cert --key=path/to/tls.key\x00\n\t # Create a new namespace named my-namespace\n\t kubectl create namespace my-namespace\x00\n\t # Create a new secret named my-secret with keys for each file in folder bar\n\t kubectl create secret generic my-secret --from-file=path/to/bar\n\n\t # Create a new secret named my-secret with specified keys instead of names on disk\n\t kubectl create secret generic my-secret --from-file=ssh-privatekey=~/.ssh/id_rsa --from-file=ssh-publickey=~/.ssh/id_rsa.pub\n\n\t # Create a new secret named my-secret with key1=supersecret and key2=topsecret\n\t kubectl create secret generic my-secret --from-literal=key1=supersecret --from-literal=key2=topsecret\x00\n\t # Create a new service account named my-service-account\n\t kubectl create serviceaccount my-service-account\x00\n\t# Create a new ExternalName service named my-ns \n\tkubectl create service externalname my-ns --external-name bar.com\x00\n\tCreate an ExternalName service with the specified name.\n\n\tExternalName service references to an external DNS address instead of\n\tonly pods, which will allow application authors to reference services\n\tthat exist off platform, on other clusters, or locally.\x00\n\tHelp provides help for any command in the application.\n\tSimply type kubectl help [path to command] for full details.\x00\n # Create a new LoadBalancer service named my-lbs\n kubectl create service loadbalancer my-lbs --tcp=5678:8080\x00\n # Create a new clusterIP service named my-cs\n kubectl create service clusterip my-cs --tcp=5678:8080\n\n # Create a new clusterIP service named my-cs (in headless mode)\n kubectl create service clusterip my-cs --clusterip=\"None\"\x00\n # Create a new deployment named my-dep that runs the busybox image.\n kubectl create deployment my-dep --image=busybox\x00\n # Create a new nodeport service named my-ns\n kubectl create service nodeport my-ns --tcp=5678:8080\x00\n # Dump current cluster state to stdout\n kubectl cluster-info dump\n\n # Dump current cluster state to /path/to/cluster-state\n kubectl cluster-info dump --output-directory=/path/to/cluster-state\n\n # Dump all namespaces to stdout\n kubectl cluster-info dump --all-namespaces\n\n # Dump a set of namespaces to /path/to/cluster-state\n kubectl cluster-info dump --namespaces default,kube-system --output-directory=/path/to/cluster-state\x00\n # Update pod 'foo' with the annotation 'description' and the value 'my frontend'.\n # If the same annotation is set multiple times, only the last value will be applied\n kubectl annotate pods foo description='my frontend'\n\n # Update a pod identified by type and name in \"pod.json\"\n kubectl annotate -f pod.json description='my frontend'\n\n # Update pod 'foo' with the annotation 'description' and the value 'my frontend running nginx', overwriting any existing value.\n kubectl annotate --overwrite pods foo description='my frontend running nginx'\n\n # Update all pods in the namespace\n kubectl annotate pods --all description='my frontend running nginx'\n\n # Update pod 'foo' only if the resource is unchanged from version 1.\n kubectl annotate pods foo description='my frontend running nginx' --resource-version=1\n\n # Update pod 'foo' by removing an annotation named 'description' if it exists.\n # Does not require the --overwrite flag.\n kubectl annotate pods foo description-\x00\n Create a LoadBalancer service with the specified name.\x00\n Create a clusterIP service with the specified name.\x00\n Create a deployment with the specified name.\x00\n Create a nodeport service with the specified name.\x00\n Dumps cluster info out suitable for debugging and diagnosing cluster problems. By default, dumps everything to\n stdout. You can optionally specify a directory with --output-directory. If you specify a directory, kubernetes will\n build a set of files in that directory. By default only dumps things in the 'kube-system' namespace, but you can\n switch to a different namespace with the --namespaces flag, or specify --all-namespaces to dump all namespaces.\n\n The command also dumps the logs of all of the pods in the cluster, these logs are dumped into different directories\n based on namespace and pod name.\x00\n Display addresses of the master and services with label kubernetes.io/cluster-service=true\n To further debug and diagnose cluster problems, use 'kubectl cluster-info dump'.\x00A comma-delimited set of quota scopes that must all match each object tracked by the quota.\x00A comma-delimited set of resource=quantity pairs that define a hard limit.\x00A label selector to use for this budget. Only equality-based selector requirements are supported.\x00A label selector to use for this service. Only equality-based selector requirements are supported. If empty (the default) infer the selector from the replication controller or replica set.)\x00A schedule in the Cron format the job should be run with.\x00Additional external IP address (not managed by Kubernetes) to accept for the service. If this IP is routed to a node, the service can be accessed by this IP in addition to its generated service IP.\x00An inline JSON override for the generated object. If this is non-empty, it is used to override the generated object. Requires that the object supply a valid apiVersion field.\x00An inline JSON override for the generated service object. If this is non-empty, it is used to override the generated object. Requires that the object supply a valid apiVersion field. Only used if --expose is true.\x00Apply a configuration to a resource by filename or stdin\x00Approve a certificate signing request\x00Assign your own ClusterIP or set to 'None' for a 'headless' service (no loadbalancing).\x00Attach to a running container\x00Auto-scale a Deployment, ReplicaSet, or ReplicationController\x00ClusterIP to be assigned to the service. Leave empty to auto-allocate, or set to 'None' to create a headless service.\x00ClusterRole this ClusterRoleBinding should reference\x00ClusterRole this RoleBinding should reference\x00Container name which will have its image upgraded. Only relevant when --image is specified, ignored otherwise. Required when using --image on a multi-container pod\x00Convert config files between different API versions\x00Copy files and directories to and from containers.\x00Create a ClusterRoleBinding for a particular ClusterRole\x00Create a LoadBalancer service.\x00Create a NodePort service.\x00Create a RoleBinding for a particular Role or ClusterRole\x00Create a TLS secret\x00Create a clusterIP service.\x00Create a configmap from a local file, directory or literal value\x00Create a deployment with the specified name.\x00Create a namespace with the specified name\x00Create a pod disruption budget with the specified name.\x00Create a quota with the specified name.\x00Create a resource by filename or stdin\x00Create a secret for use with a Docker registry\x00Create a secret from a local file, directory or literal value\x00Create a secret using specified subcommand\x00Create a service account with the specified name\x00Create a service using specified subcommand.\x00Create an ExternalName service.\x00Delete resources by filenames, stdin, resources and names, or by resources and label selector\x00Delete the specified cluster from the kubeconfig\x00Delete the specified context from the kubeconfig\x00Deny a certificate signing request\x00Deprecated: Gracefully shut down a resource by name or filename\x00Describe one or many contexts\x00Display Resource (CPU/Memory) usage of nodes\x00Display Resource (CPU/Memory) usage of pods\x00Display Resource (CPU/Memory) usage.\x00Display cluster info\x00Display clusters defined in the kubeconfig\x00Display merged kubeconfig settings or a specified kubeconfig file\x00Display one or many resources\x00Displays the current-context\x00Documentation of resources\x00Drain node in preparation for maintenance\x00Dump lots of relevant info for debugging and diagnosis\x00Edit a resource on the server\x00Email for Docker registry\x00Execute a command in a container\x00Explicit policy for when to pull container images. Required when --image is same as existing image, ignored otherwise.\x00Forward one or more local ports to a pod\x00Help about any command\x00IP to assign to the Load Balancer. If empty, an ephemeral IP will be created and used (cloud-provider specific).\x00If non-empty, set the session affinity for the service to this; legal values: 'None', 'ClientIP'\x00If non-empty, the annotation update will only succeed if this is the current resource-version for the object. Only valid when specifying a single resource.\x00If non-empty, the labels update will only succeed if this is the current resource-version for the object. Only valid when specifying a single resource.\x00Image to use for upgrading the replication controller. Must be distinct from the existing image (either new image or new image tag). Can not be used with --filename/-f\x00Manage a deployment rollout\x00Mark node as schedulable\x00Mark node as unschedulable\x00Mark the provided resource as paused\x00Modify certificate resources.\x00Modify kubeconfig files\x00Name or number for the port on the container that the service should direct traffic to. Optional.\x00Only return logs after a specific date (RFC3339). Defaults to all logs. Only one of since-time / since may be used.\x00Output shell completion code for the specified shell (bash or zsh)\x00Output the formatted object with the given group version (for ex: 'extensions/v1beta1').)\x00Password for Docker registry authentication\x00Path to PEM encoded public key certificate.\x00Path to private key associated with given certificate.\x00Perform a rolling update of the given ReplicationController\x00Precondition for resource version. Requires that the current resource version match this value in order to scale.\x00Print the client and server version information\x00Print the list of flags inherited by all commands\x00Print the logs for a container in a pod\x00Replace a resource by filename or stdin\x00Resume a paused resource\x00Role this RoleBinding should reference\x00Run a particular image on the cluster\x00Run a proxy to the Kubernetes API server\x00Server location for Docker registry\x00Set a new size for a Deployment, ReplicaSet, Replication Controller, or Job\x00Set specific features on objects\x00Set the last-applied-configuration annotation on a live object to match the contents of a file.\x00Set the selector on a resource\x00Sets a cluster entry in kubeconfig\x00Sets a context entry in kubeconfig\x00Sets a user entry in kubeconfig\x00Sets an individual value in a kubeconfig file\x00Sets the current-context in a kubeconfig file\x00Show details of a specific resource or group of resources\x00Show the status of the rollout\x00Synonym for --target-port\x00Take a replication controller, service, deployment or pod and expose it as a new Kubernetes Service\x00The image for the container to run.\x00The image pull policy for the container. If left empty, this value will not be specified by the client and defaulted by the server\x00The key to use to differentiate between two different controllers, default 'deployment'. Only relevant when --image is specified, ignored otherwise\x00The minimum number or percentage of available pods this budget requires.\x00The name for the newly created object.\x00The name for the newly created object. If not specified, the name of the input resource will be used.\x00The name of the API generator to use, see http://kubernetes.io/docs/user-guide/kubectl-conventions/#generators for a list.\x00The name of the API generator to use. Currently there is only 1 generator.\x00The name of the API generator to use. There are 2 generators: 'service/v1' and 'service/v2'. The only difference between them is that service port in v1 is named 'default', while it is left unnamed in v2. Default is 'service/v2'.\x00The name of the generator to use for creating a service. Only used if --expose is true\x00The network protocol for the service to be created. Default is 'TCP'.\x00The port that the service should serve on. Copied from the resource being exposed, if unspecified\x00The port that this container exposes. If --expose is true, this is also the port used by the service that is created.\x00The resource requirement limits for this container. For example, 'cpu=200m,memory=512Mi'. Note that server side components may assign limits depending on the server configuration, such as limit ranges.\x00The resource requirement requests for this container. For example, 'cpu=100m,memory=256Mi'. Note that server side components may assign requests depending on the server configuration, such as limit ranges.\x00The restart policy for this Pod. Legal values [Always, OnFailure, Never]. If set to 'Always' a deployment is created, if set to 'OnFailure' a job is created, if set to 'Never', a regular pod is created. For the latter two --replicas must be 1. Default 'Always', for CronJobs `Never`.\x00The type of secret to create\x00Type for this service: ClusterIP, NodePort, or LoadBalancer. Default is 'ClusterIP'.\x00Undo a previous rollout\x00Unsets an individual value in a kubeconfig file\x00Update field(s) of a resource using strategic merge patch\x00Update image of a pod template\x00Update resource requests/limits on objects with pod templates\x00Update the annotations on a resource\x00Update the labels on a resource\x00Update the taints on one or more nodes\x00Username for Docker registry authentication\x00View latest last-applied-configuration annotations of a resource/object\x00View rollout history\x00Where to output the files. If empty or '-' uses stdout, otherwise creates a directory hierarchy in that directory\x00dummy restart flag)\x00external name of service\x00kubectl controls the Kubernetes cluster manager\x00Project-Id-Version: gettext-go-examples-hello\nReport-Msgid-Bugs-To: EMAIL\nPOT-Creation-Date: 2017-03-14 21:32-0700\nPO-Revision-Date: 2017-05-24 18:01+0800\nLast-Translator: Brendan Burns \nLanguage-Team: \nLanguage: en\nMIME-Version: 1.0\nContent-Type: text/plain; charset=UTF-8\nContent-Transfer-Encoding: 8bit\nX-Generator: Poedit 1.8.12\nX-Poedit-SourceCharset: UTF-8\nPlural-Forms: nplurals=2; plural=(n != 1);\n\x00\n\t\t # Create a ClusterRoleBinding for user1, user2, and group1 using the cluster-admin ClusterRole\n\t\t kubectl create clusterrolebinding cluster-admin --clusterrole=cluster-admin --user=user1 --user=user2 --group=group1\x00\n\t\t # Create a RoleBinding for user1, user2, and group1 using the admin ClusterRole\n\t\t kubectl create rolebinding admin --clusterrole=admin --user=user1 --user=user2 --group=group1\x00\n\t\t # Create a new configmap named my-config based on folder bar\n\t\t kubectl create configmap my-config --from-file=path/to/bar\n\n\t\t # Create a new configmap named my-config with specified keys instead of file basenames on disk\n\t\t kubectl create configmap my-config --from-file=key1=/path/to/bar/file1.txt --from-file=key2=/path/to/bar/file2.txt\n\n\t\t # Create a new configmap named my-config with key1=config1 and key2=config2\n\t\t kubectl create configmap my-config --from-literal=key1=config1 --from-literal=key2=config2\x00\n\t\t # If you don't already have a .dockercfg file, you can create a dockercfg secret directly by using:\n\t\t kubectl create secret docker-registry my-secret --docker-server=DOCKER_REGISTRY_SERVER --docker-username=DOCKER_USER --docker-password=DOCKER_PASSWORD --docker-email=DOCKER_EMAIL\x00\n\t\t # Show metrics for all nodes\n\t\t kubectl top node\n\n\t\t # Show metrics for a given node\n\t\t kubectl top node NODE_NAME\x00\n\t\t# Apply the configuration in pod.json to a pod.\n\t\tkubectl apply -f ./pod.json\n\n\t\t# Apply the JSON passed into stdin to a pod.\n\t\tcat pod.json | kubectl apply -f -\n\n\t\t# Note: --prune is still in Alpha\n\t\t# Apply the configuration in manifest.yaml that matches label app=nginx and delete all the other resources that are not in the file and match label app=nginx.\n\t\tkubectl apply --prune -f manifest.yaml -l app=nginx\n\n\t\t# Apply the configuration in manifest.yaml and delete all the other configmaps that are not in the file.\n\t\tkubectl apply --prune -f manifest.yaml --all --prune-whitelist=core/v1/ConfigMap\x00\n\t\t# Auto scale a deployment \"foo\", with the number of pods between 2 and 10, no target CPU utilization specified so a default autoscaling policy will be used:\n\t\tkubectl autoscale deployment foo --min=2 --max=10\n\n\t\t# Auto scale a replication controller \"foo\", with the number of pods between 1 and 5, target CPU utilization at 80%:\n\t\tkubectl autoscale rc foo --max=5 --cpu-percent=80\x00\n\t\t# Convert 'pod.yaml' to latest version and print to stdout.\n\t\tkubectl convert -f pod.yaml\n\n\t\t# Convert the live state of the resource specified by 'pod.yaml' to the latest version\n\t\t# and print to stdout in json format.\n\t\tkubectl convert -f pod.yaml --local -o json\n\n\t\t# Convert all files under current directory to latest version and create them all.\n\t\tkubectl convert -f . | kubectl create -f -\x00\n\t\t# Create a ClusterRole named \"pod-reader\" that allows user to perform \"get\", \"watch\" and \"list\" on pods\n\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --resource=pods\n\n\t\t# Create a ClusterRole named \"pod-reader\" with ResourceName specified\n\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --resource=pods --resource-name=readablepod\x00\n\t\t# Create a Role named \"pod-reader\" that allows user to perform \"get\", \"watch\" and \"list\" on pods\n\t\tkubectl create role pod-reader --verb=get --verb=list --verb=watch --resource=pods\n\n\t\t# Create a Role named \"pod-reader\" with ResourceName specified\n\t\tkubectl create role pod-reader --verb=get --verg=list --verb=watch --resource=pods --resource-name=readablepod\x00\n\t\t# Create a new resourcequota named my-quota\n\t\tkubectl create quota my-quota --hard=cpu=1,memory=1G,pods=2,services=3,replicationcontrollers=2,resourcequotas=1,secrets=5,persistentvolumeclaims=10\n\n\t\t# Create a new resourcequota named best-effort\n\t\tkubectl create quota best-effort --hard=pods=100 --scopes=BestEffort\x00\n\t\t# Create a pod disruption budget named my-pdb that will select all pods with the app=rails label\n\t\t# and require at least one of them being available at any point in time.\n\t\tkubectl create poddisruptionbudget my-pdb --selector=app=rails --min-available=1\n\n\t\t# Create a pod disruption budget named my-pdb that will select all pods with the app=nginx label\n\t\t# and require at least half of the pods selected to be available at any point in time.\n\t\tkubectl create pdb my-pdb --selector=app=nginx --min-available=50%\x00\n\t\t# Create a pod using the data in pod.json.\n\t\tkubectl create -f ./pod.json\n\n\t\t# Create a pod based on the JSON passed into stdin.\n\t\tcat pod.json | kubectl create -f -\n\n\t\t# Edit the data in docker-registry.yaml in JSON using the v1 API format then create the resource using the edited data.\n\t\tkubectl create -f docker-registry.yaml --edit --output-version=v1 -o json\x00\n\t\t# Create a service for a replicated nginx, which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose rc nginx --port=80 --target-port=8000\n\n\t\t# Create a service for a replication controller identified by type and name specified in \"nginx-controller.yaml\", which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose -f nginx-controller.yaml --port=80 --target-port=8000\n\n\t\t# Create a service for a pod valid-pod, which serves on port 444 with the name \"frontend\"\n\t\tkubectl expose pod valid-pod --port=444 --name=frontend\n\n\t\t# Create a second service based on the above service, exposing the container port 8443 as port 443 with the name \"nginx-https\"\n\t\tkubectl expose service nginx --port=443 --target-port=8443 --name=nginx-https\n\n\t\t# Create a service for a replicated streaming application on port 4100 balancing UDP traffic and named 'video-stream'.\n\t\tkubectl expose rc streamer --port=4100 --protocol=udp --name=video-stream\n\n\t\t# Create a service for a replicated nginx using replica set, which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose rs nginx --port=80 --target-port=8000\n\n\t\t# Create a service for an nginx deployment, which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose deployment nginx --port=80 --target-port=8000\x00\n\t\t# Delete a pod using the type and name specified in pod.json.\n\t\tkubectl delete -f ./pod.json\n\n\t\t# Delete a pod based on the type and name in the JSON passed into stdin.\n\t\tcat pod.json | kubectl delete -f -\n\n\t\t# Delete pods and services with same names \"baz\" and \"foo\"\n\t\tkubectl delete pod,service baz foo\n\n\t\t# Delete pods and services with label name=myLabel.\n\t\tkubectl delete pods,services -l name=myLabel\n\n\t\t# Delete a pod with minimal delay\n\t\tkubectl delete pod foo --now\n\n\t\t# Force delete a pod on a dead node\n\t\tkubectl delete pod foo --grace-period=0 --force\n\n\t\t# Delete all pods\n\t\tkubectl delete pods --all\x00\n\t\t# Describe a node\n\t\tkubectl describe nodes kubernetes-node-emt8.c.myproject.internal\n\n\t\t# Describe a pod\n\t\tkubectl describe pods/nginx\n\n\t\t# Describe a pod identified by type and name in \"pod.json\"\n\t\tkubectl describe -f pod.json\n\n\t\t# Describe all pods\n\t\tkubectl describe pods\n\n\t\t# Describe pods by label name=myLabel\n\t\tkubectl describe po -l name=myLabel\n\n\t\t# Describe all pods managed by the 'frontend' replication controller (rc-created pods\n\t\t# get the name of the rc as a prefix in the pod the name).\n\t\tkubectl describe pods frontend\x00\n\t\t# Drain node \"foo\", even if there are pods not managed by a ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet on it.\n\t\t$ kubectl drain foo --force\n\n\t\t# As above, but abort if there are pods not managed by a ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet, and use a grace period of 15 minutes.\n\t\t$ kubectl drain foo --grace-period=900\x00\n\t\t# Edit the service named 'docker-registry':\n\t\tkubectl edit svc/docker-registry\n\n\t\t# Use an alternative editor\n\t\tKUBE_EDITOR=\"nano\" kubectl edit svc/docker-registry\n\n\t\t# Edit the job 'myjob' in JSON using the v1 API format:\n\t\tkubectl edit job.v1.batch/myjob -o json\n\n\t\t# Edit the deployment 'mydeployment' in YAML and save the modified config in its annotation:\n\t\tkubectl edit deployment/mydeployment -o yaml --save-config\x00\n\t\t# Get output from running 'date' from pod 123456-7890, using the first container by default\n\t\tkubectl exec 123456-7890 date\n\n\t\t# Get output from running 'date' in ruby-container from pod 123456-7890\n\t\tkubectl exec 123456-7890 -c ruby-container date\n\n\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container from pod 123456-7890\n\t\t# and sends stdout/stderr from 'bash' back to the client\n\t\tkubectl exec 123456-7890 -c ruby-container -i -t -- bash -il\x00\n\t\t# Get output from running pod 123456-7890, using the first container by default\n\t\tkubectl attach 123456-7890\n\n\t\t# Get output from ruby-container from pod 123456-7890\n\t\tkubectl attach 123456-7890 -c ruby-container\n\n\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container from pod 123456-7890\n\t\t# and sends stdout/stderr from 'bash' back to the client\n\t\tkubectl attach 123456-7890 -c ruby-container -i -t\n\n\t\t# Get output from the first pod of a ReplicaSet named nginx\n\t\tkubectl attach rs/nginx\n\t\t\x00\n\t\t# Get the documentation of the resource and its fields\n\t\tkubectl explain pods\n\n\t\t# Get the documentation of a specific field of a resource\n\t\tkubectl explain pods.spec.containers\x00\n\t\t# Install bash completion on a Mac using homebrew\n\t\tbrew install bash-completion\n\t\tprintf \"\n# Bash completion support\nsource $(brew --prefix)/etc/bash_completion\n\" >> $HOME/.bash_profile\n\t\tsource $HOME/.bash_profile\n\n\t\t# Load the kubectl completion code for bash into the current shell\n\t\tsource <(kubectl completion bash)\n\n\t\t# Write bash completion code to a file and source if from .bash_profile\n\t\tkubectl completion bash > ~/.kube/completion.bash.inc\n\t\tprintf \"\n# Kubectl shell completion\nsource '$HOME/.kube/completion.bash.inc'\n\" >> $HOME/.bash_profile\n\t\tsource $HOME/.bash_profile\n\n\t\t# Load the kubectl completion code for zsh[1] into the current shell\n\t\tsource <(kubectl completion zsh)\x00\n\t\t# List all pods in ps output format.\n\t\tkubectl get pods\n\n\t\t# List all pods in ps output format with more information (such as node name).\n\t\tkubectl get pods -o wide\n\n\t\t# List a single replication controller with specified NAME in ps output format.\n\t\tkubectl get replicationcontroller web\n\n\t\t# List a single pod in JSON output format.\n\t\tkubectl get -o json pod web-pod-13je7\n\n\t\t# List a pod identified by type and name specified in \"pod.yaml\" in JSON output format.\n\t\tkubectl get -f pod.yaml -o json\n\n\t\t# Return only the phase value of the specified pod.\n\t\tkubectl get -o template pod/web-pod-13je7 --template={{.status.phase}}\n\n\t\t# List all replication controllers and services together in ps output format.\n\t\tkubectl get rc,services\n\n\t\t# List one or more resources by their type and names.\n\t\tkubectl get rc/web service/frontend pods/web-pod-13je7\n\n\t\t# List all resources with different types.\n\t\tkubectl get all\x00\n\t\t# Listen on ports 5000 and 6000 locally, forwarding data to/from ports 5000 and 6000 in the pod\n\t\tkubectl port-forward mypod 5000 6000\n\n\t\t# Listen on port 8888 locally, forwarding to 5000 in the pod\n\t\tkubectl port-forward mypod 8888:5000\n\n\t\t# Listen on a random port locally, forwarding to 5000 in the pod\n\t\tkubectl port-forward mypod :5000\n\n\t\t# Listen on a random port locally, forwarding to 5000 in the pod\n\t\tkubectl port-forward mypod 0:5000\x00\n\t\t# Mark node \"foo\" as schedulable.\n\t\t$ kubectl uncordon foo\x00\n\t\t# Mark node \"foo\" as unschedulable.\n\t\tkubectl cordon foo\x00\n\t\t# Partially update a node using strategic merge patch\n\t\tkubectl patch node k8s-node-1 -p '{\"spec\":{\"unschedulable\":true}}'\n\n\t\t# Partially update a node identified by the type and name specified in \"node.json\" using strategic merge patch\n\t\tkubectl patch -f node.json -p '{\"spec\":{\"unschedulable\":true}}'\n\n\t\t# Update a container's image; spec.containers[*].name is required because it's a merge key\n\t\tkubectl patch pod valid-pod -p '{\"spec\":{\"containers\":[{\"name\":\"kubernetes-serve-hostname\",\"image\":\"new image\"}]}}'\n\n\t\t# Update a container's image using a json patch with positional arrays\n\t\tkubectl patch pod valid-pod --type='json' -p='[{\"op\": \"replace\", \"path\": \"/spec/containers/0/image\", \"value\":\"new image\"}]'\x00\n\t\t# Print flags inherited by all commands\n\t\tkubectl options\x00\n\t\t# Print the address of the master and cluster services\n\t\tkubectl cluster-info\x00\n\t\t# Print the client and server versions for the current context\n\t\tkubectl version\x00\n\t\t# Print the supported API versions\n\t\tkubectl api-versions\x00\n\t\t# Replace a pod using the data in pod.json.\n\t\tkubectl replace -f ./pod.json\n\n\t\t# Replace a pod based on the JSON passed into stdin.\n\t\tcat pod.json | kubectl replace -f -\n\n\t\t# Update a single-container pod's image version (tag) to v4\n\t\tkubectl get pod mypod -o yaml | sed 's/\\(image: myimage\\):.*$/\x01:v4/' | kubectl replace -f -\n\n\t\t# Force replace, delete and then re-create the resource\n\t\tkubectl replace --force -f ./pod.json\x00\n\t\t# Return snapshot logs from pod nginx with only one container\n\t\tkubectl logs nginx\n\n\t\t# Return snapshot logs for the pods defined by label app=nginx\n\t\tkubectl logs -lapp=nginx\n\n\t\t# Return snapshot of previous terminated ruby container logs from pod web-1\n\t\tkubectl logs -p -c ruby web-1\n\n\t\t# Begin streaming the logs of the ruby container in pod web-1\n\t\tkubectl logs -f -c ruby web-1\n\n\t\t# Display only the most recent 20 lines of output in pod nginx\n\t\tkubectl logs --tail=20 nginx\n\n\t\t# Show all logs from pod nginx written in the last hour\n\t\tkubectl logs --since=1h nginx\n\n\t\t# Return snapshot logs from first container of a job named hello\n\t\tkubectl logs job/hello\n\n\t\t# Return snapshot logs from container nginx-1 of a deployment named nginx\n\t\tkubectl logs deployment/nginx -c nginx-1\x00\n\t\t# Run a proxy to kubernetes apiserver on port 8011, serving static content from ./local/www/\n\t\tkubectl proxy --port=8011 --www=./local/www/\n\n\t\t# Run a proxy to kubernetes apiserver on an arbitrary local port.\n\t\t# The chosen port for the server will be output to stdout.\n\t\tkubectl proxy --port=0\n\n\t\t# Run a proxy to kubernetes apiserver, changing the api prefix to k8s-api\n\t\t# This makes e.g. the pods api available at localhost:8001/k8s-api/v1/pods/\n\t\tkubectl proxy --api-prefix=/k8s-api\x00\n\t\t# Scale a replicaset named 'foo' to 3.\n\t\tkubectl scale --replicas=3 rs/foo\n\n\t\t# Scale a resource identified by type and name specified in \"foo.yaml\" to 3.\n\t\tkubectl scale --replicas=3 -f foo.yaml\n\n\t\t# If the deployment named mysql's current size is 2, scale mysql to 3.\n\t\tkubectl scale --current-replicas=2 --replicas=3 deployment/mysql\n\n\t\t# Scale multiple replication controllers.\n\t\tkubectl scale --replicas=5 rc/foo rc/bar rc/baz\n\n\t\t# Scale job named 'cron' to 3.\n\t\tkubectl scale --replicas=3 job/cron\x00\n\t\t# Set the last-applied-configuration of a resource to match the contents of a file.\n\t\tkubectl apply set-last-applied -f deploy.yaml\n\n\t\t# Execute set-last-applied against each configuration file in a directory.\n\t\tkubectl apply set-last-applied -f path/\n\n\t\t# Set the last-applied-configuration of a resource to match the contents of a file, will create the annotation if it does not already exist.\n\t\tkubectl apply set-last-applied -f deploy.yaml --create-annotation=true\n\t\t\x00\n\t\t# Show metrics for all pods in the default namespace\n\t\tkubectl top pod\n\n\t\t# Show metrics for all pods in the given namespace\n\t\tkubectl top pod --namespace=NAMESPACE\n\n\t\t# Show metrics for a given pod and its containers\n\t\tkubectl top pod POD_NAME --containers\n\n\t\t# Show metrics for the pods defined by label name=myLabel\n\t\tkubectl top pod -l name=myLabel\x00\n\t\t# Shut down foo.\n\t\tkubectl stop replicationcontroller foo\n\n\t\t# Stop pods and services with label name=myLabel.\n\t\tkubectl stop pods,services -l name=myLabel\n\n\t\t# Shut down the service defined in service.json\n\t\tkubectl stop -f service.json\n\n\t\t# Shut down all resources in the path/to/resources directory\n\t\tkubectl stop -f path/to/resources\x00\n\t\t# Start a single instance of nginx.\n\t\tkubectl run nginx --image=nginx\n\n\t\t# Start a single instance of hazelcast and let the container expose port 5701 .\n\t\tkubectl run hazelcast --image=hazelcast --port=5701\n\n\t\t# Start a single instance of hazelcast and set environment variables \"DNS_DOMAIN=cluster\" and \"POD_NAMESPACE=default\" in the container.\n\t\tkubectl run hazelcast --image=hazelcast --env=\"DNS_DOMAIN=cluster\" --env=\"POD_NAMESPACE=default\"\n\n\t\t# Start a replicated instance of nginx.\n\t\tkubectl run nginx --image=nginx --replicas=5\n\n\t\t# Dry run. Print the corresponding API objects without creating them.\n\t\tkubectl run nginx --image=nginx --dry-run\n\n\t\t# Start a single instance of nginx, but overload the spec of the deployment with a partial set of values parsed from JSON.\n\t\tkubectl run nginx --image=nginx --overrides='{ \"apiVersion\": \"v1\", \"spec\": { ... } }'\n\n\t\t# Start a pod of busybox and keep it in the foreground, don't restart it if it exits.\n\t\tkubectl run -i -t busybox --image=busybox --restart=Never\n\n\t\t# Start the nginx container using the default command, but use custom arguments (arg1 .. argN) for that command.\n\t\tkubectl run nginx --image=nginx -- ... \n\n\t\t# Start the nginx container using a different command and custom arguments.\n\t\tkubectl run nginx --image=nginx --command -- ... \n\n\t\t# Start the perl container to compute \u03c0 to 2000 places and print it out.\n\t\tkubectl run pi --image=perl --restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'\n\n\t\t# Start the cron job to compute \u03c0 to 2000 places and print it out every 5 minutes.\n\t\tkubectl run pi --schedule=\"0/5 * * * ?\" --image=perl --restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'\x00\n\t\t# Update node 'foo' with a taint with key 'dedicated' and value 'special-user' and effect 'NoSchedule'.\n\t\t# If a taint with that key and effect already exists, its value is replaced as specified.\n\t\tkubectl taint nodes foo dedicated=special-user:NoSchedule\n\n\t\t# Remove from node 'foo' the taint with key 'dedicated' and effect 'NoSchedule' if one exists.\n\t\tkubectl taint nodes foo dedicated:NoSchedule-\n\n\t\t# Remove from node 'foo' all the taints with key 'dedicated'\n\t\tkubectl taint nodes foo dedicated-\x00\n\t\t# Update pod 'foo' with the label 'unhealthy' and the value 'true'.\n\t\tkubectl label pods foo unhealthy=true\n\n\t\t# Update pod 'foo' with the label 'status' and the value 'unhealthy', overwriting any existing value.\n\t\tkubectl label --overwrite pods foo status=unhealthy\n\n\t\t# Update all pods in the namespace\n\t\tkubectl label pods --all status=unhealthy\n\n\t\t# Update a pod identified by the type and name in \"pod.json\"\n\t\tkubectl label -f pod.json status=unhealthy\n\n\t\t# Update pod 'foo' only if the resource is unchanged from version 1.\n\t\tkubectl label pods foo status=unhealthy --resource-version=1\n\n\t\t# Update pod 'foo' by removing a label named 'bar' if it exists.\n\t\t# Does not require the --overwrite flag.\n\t\tkubectl label pods foo bar-\x00\n\t\t# Update pods of frontend-v1 using new replication controller data in frontend-v2.json.\n\t\tkubectl rolling-update frontend-v1 -f frontend-v2.json\n\n\t\t# Update pods of frontend-v1 using JSON data passed into stdin.\n\t\tcat frontend-v2.json | kubectl rolling-update frontend-v1 -f -\n\n\t\t# Update the pods of frontend-v1 to frontend-v2 by just changing the image, and switching the\n\t\t# name of the replication controller.\n\t\tkubectl rolling-update frontend-v1 frontend-v2 --image=image:v2\n\n\t\t# Update the pods of frontend by just changing the image, and keeping the old name.\n\t\tkubectl rolling-update frontend --image=image:v2\n\n\t\t# Abort and reverse an existing rollout in progress (from frontend-v1 to frontend-v2).\n\t\tkubectl rolling-update frontend-v1 frontend-v2 --rollback\x00\n\t\t# View the last-applied-configuration annotations by type/name in YAML.\n\t\tkubectl apply view-last-applied deployment/nginx\n\n\t\t# View the last-applied-configuration annotations by file in JSON\n\t\tkubectl apply view-last-applied -f deploy.yaml -o json\x00\n\t\tApply a configuration to a resource by filename or stdin.\n\t\tThis resource will be created if it doesn't exist yet.\n\t\tTo use 'apply', always create the resource initially with either 'apply' or 'create --save-config'.\n\n\t\tJSON and YAML formats are accepted.\n\n\t\tAlpha Disclaimer: the --prune functionality is not yet complete. Do not use unless you are aware of what the current state is. See https://issues.k8s.io/34274.\x00\n\t\tConvert config files between different API versions. Both YAML\n\t\tand JSON formats are accepted.\n\n\t\tThe command takes filename, directory, or URL as input, and convert it into format\n\t\tof version specified by --output-version flag. If target version is not specified or\n\t\tnot supported, convert to latest version.\n\n\t\tThe default output will be printed to stdout in YAML format. One can use -o option\n\t\tto change to output destination.\x00\n\t\tCreate a ClusterRole.\x00\n\t\tCreate a ClusterRoleBinding for a particular ClusterRole.\x00\n\t\tCreate a RoleBinding for a particular Role or ClusterRole.\x00\n\t\tCreate a TLS secret from the given public/private key pair.\n\n\t\tThe public/private key pair must exist before hand. The public key certificate must be .PEM encoded and match the given private key.\x00\n\t\tCreate a configmap based on a file, directory, or specified literal value.\n\n\t\tA single configmap may package one or more key/value pairs.\n\n\t\tWhen creating a configmap based on a file, the key will default to the basename of the file, and the value will\n\t\tdefault to the file content. If the basename is an invalid key, you may specify an alternate key.\n\n\t\tWhen creating a configmap based on a directory, each file whose basename is a valid key in the directory will be\n\t\tpackaged into the configmap. Any directory entries except regular files are ignored (e.g. subdirectories,\n\t\tsymlinks, devices, pipes, etc).\x00\n\t\tCreate a namespace with the specified name.\x00\n\t\tCreate a new secret for use with Docker registries.\n\n\t\tDockercfg secrets are used to authenticate against Docker registries.\n\n\t\tWhen using the Docker command line to push images, you can authenticate to a given registry by running\n\n\t\t $ docker login DOCKER_REGISTRY_SERVER --username=DOCKER_USER --password=DOCKER_PASSWORD --email=DOCKER_EMAIL'.\n\n That produces a ~/.dockercfg file that is used by subsequent 'docker push' and 'docker pull' commands to\n\t\tauthenticate to the registry. The email address is optional.\n\n\t\tWhen creating applications, you may have a Docker registry that requires authentication. In order for the\n\t\tnodes to pull images on your behalf, they have to have the credentials. You can provide this information\n\t\tby creating a dockercfg secret and attaching it to your service account.\x00\n\t\tCreate a pod disruption budget with the specified name, selector, and desired minimum available pods\x00\n\t\tCreate a resource by filename or stdin.\n\n\t\tJSON and YAML formats are accepted.\x00\n\t\tCreate a resourcequota with the specified name, hard limits and optional scopes\x00\n\t\tCreate a role with single rule.\x00\n\t\tCreate a secret based on a file, directory, or specified literal value.\n\n\t\tA single secret may package one or more key/value pairs.\n\n\t\tWhen creating a secret based on a file, the key will default to the basename of the file, and the value will\n\t\tdefault to the file content. If the basename is an invalid key, you may specify an alternate key.\n\n\t\tWhen creating a secret based on a directory, each file whose basename is a valid key in the directory will be\n\t\tpackaged into the secret. Any directory entries except regular files are ignored (e.g. subdirectories,\n\t\tsymlinks, devices, pipes, etc).\x00\n\t\tCreate a service account with the specified name.\x00\n\t\tCreate and run a particular image, possibly replicated.\n\n\t\tCreates a deployment or job to manage the created container(s).\x00\n\t\tCreates an autoscaler that automatically chooses and sets the number of pods that run in a kubernetes cluster.\n\n\t\tLooks up a Deployment, ReplicaSet, or ReplicationController by name and creates an autoscaler that uses the given resource as a reference.\n\t\tAn autoscaler can automatically increase or decrease number of pods deployed within the system as needed.\x00\n\t\tDelete resources by filenames, stdin, resources and names, or by resources and label selector.\n\n\t\tJSON and YAML formats are accepted. Only one type of the arguments may be specified: filenames,\n\t\tresources and names, or resources and label selector.\n\n\t\tSome resources, such as pods, support graceful deletion. These resources define a default period\n\t\tbefore they are forcibly terminated (the grace period) but you may override that value with\n\t\tthe --grace-period flag, or pass --now to set a grace-period of 1. Because these resources often\n\t\trepresent entities in the cluster, deletion may not be acknowledged immediately. If the node\n\t\thosting a pod is down or cannot reach the API server, termination may take significantly longer\n\t\tthan the grace period. To force delete a resource,\tyou must pass a grace\tperiod of 0 and specify\n\t\tthe --force flag.\n\n\t\tIMPORTANT: Force deleting pods does not wait for confirmation that the pod's processes have been\n\t\tterminated, which can leave those processes running until the node detects the deletion and\n\t\tcompletes graceful deletion. If your processes use shared storage or talk to a remote API and\n\t\tdepend on the name of the pod to identify themselves, force deleting those pods may result in\n\t\tmultiple processes running on different machines using the same identification which may lead\n\t\tto data corruption or inconsistency. Only force delete pods when you are sure the pod is\n\t\tterminated, or if your application can tolerate multiple copies of the same pod running at once.\n\t\tAlso, if you force delete pods the scheduler may place new pods on those nodes before the node\n\t\thas released those resources and causing those pods to be evicted immediately.\n\n\t\tNote that the delete command does NOT do resource version checks, so if someone\n\t\tsubmits an update to a resource right when you submit a delete, their update\n\t\twill be lost along with the rest of the resource.\x00\n\t\tDeprecated: Gracefully shut down a resource by name or filename.\n\n\t\tThe stop command is deprecated, all its functionalities are covered by delete command.\n\t\tSee 'kubectl delete --help' for more details.\n\n\t\tAttempts to shut down and delete a resource that supports graceful termination.\n\t\tIf the resource is scalable it will be scaled to 0 before deletion.\x00\n\t\tDisplay Resource (CPU/Memory/Storage) usage of nodes.\n\n\t\tThe top-node command allows you to see the resource consumption of nodes.\x00\n\t\tDisplay Resource (CPU/Memory/Storage) usage of pods.\n\n\t\tThe 'top pod' command allows you to see the resource consumption of pods.\n\n\t\tDue to the metrics pipeline delay, they may be unavailable for a few minutes\n\t\tsince pod creation.\x00\n\t\tDisplay Resource (CPU/Memory/Storage) usage.\n\n\t\tThe top command allows you to see the resource consumption for nodes or pods.\n\n\t\tThis command requires Heapster to be correctly configured and working on the server. \x00\n\t\tDrain node in preparation for maintenance.\n\n\t\tThe given node will be marked unschedulable to prevent new pods from arriving.\n\t\t'drain' evicts the pods if the APIServer supports eviction\n\t\t(http://kubernetes.io/docs/admin/disruptions/). Otherwise, it will use normal DELETE\n\t\tto delete the pods.\n\t\tThe 'drain' evicts or deletes all pods except mirror pods (which cannot be deleted through\n\t\tthe API server). If there are DaemonSet-managed pods, drain will not proceed\n\t\twithout --ignore-daemonsets, and regardless it will not delete any\n\t\tDaemonSet-managed pods, because those pods would be immediately replaced by the\n\t\tDaemonSet controller, which ignores unschedulable markings. If there are any\n\t\tpods that are neither mirror pods nor managed by ReplicationController,\n\t\tReplicaSet, DaemonSet, StatefulSet or Job, then drain will not delete any pods unless you\n\t\tuse --force. --force will also allow deletion to proceed if the managing resource of one\n\t\tor more pods is missing.\n\n\t\t'drain' waits for graceful termination. You should not operate on the machine until\n\t\tthe command completes.\n\n\t\tWhen you are ready to put the node back into service, use kubectl uncordon, which\n\t\twill make the node schedulable again.\n\n\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_drain.svg)\x00\n\t\tEdit a resource from the default editor.\n\n\t\tThe edit command allows you to directly edit any API resource you can retrieve via the\n\t\tcommand line tools. It will open the editor defined by your KUBE_EDITOR, or EDITOR\n\t\tenvironment variables, or fall back to 'vi' for Linux or 'notepad' for Windows.\n\t\tYou can edit multiple objects, although changes are applied one at a time. The command\n\t\taccepts filenames as well as command line arguments, although the files you point to must\n\t\tbe previously saved versions of resources.\n\n\t\tEditing is done with the API version used to fetch the resource.\n\t\tTo edit using a specific API version, fully-qualify the resource, version, and group.\n\n\t\tThe default format is YAML. To edit in JSON, specify \"-o json\".\n\n\t\tThe flag --windows-line-endings can be used to force Windows line endings,\n\t\totherwise the default for your operating system will be used.\n\n\t\tIn the event an error occurs while updating, a temporary file will be created on disk\n\t\tthat contains your unapplied changes. The most common error when updating a resource\n\t\tis another editor changing the resource on the server. When this occurs, you will have\n\t\tto apply your changes to the newer version of the resource, or update your temporary\n\t\tsaved copy to include the latest resource version.\x00\n\t\tMark node as schedulable.\x00\n\t\tMark node as unschedulable.\x00\n\t\tOutput shell completion code for the specified shell (bash or zsh).\n\t\tThe shell code must be evaluated to provide interactive\n\t\tcompletion of kubectl commands. This can be done by sourcing it from\n\t\tthe .bash_profile.\n\n\t\tNote: this requires the bash-completion framework, which is not installed\n\t\tby default on Mac. This can be installed by using homebrew:\n\n\t\t $ brew install bash-completion\n\n\t\tOnce installed, bash_completion must be evaluated. This can be done by adding the\n\t\tfollowing line to the .bash_profile\n\n\t\t $ source $(brew --prefix)/etc/bash_completion\n\n\t\tNote for zsh users: [1] zsh completions are only supported in versions of zsh >= 5.2\x00\n\t\tPerform a rolling update of the given ReplicationController.\n\n\t\tReplaces the specified replication controller with a new replication controller by updating one pod at a time to use the\n\t\tnew PodTemplate. The new-controller.json must specify the same namespace as the\n\t\texisting replication controller and overwrite at least one (common) label in its replicaSelector.\n\n\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_rollingupdate.svg)\x00\n\t\tReplace a resource by filename or stdin.\n\n\t\tJSON and YAML formats are accepted. If replacing an existing resource, the\n\t\tcomplete resource spec must be provided. This can be obtained by\n\n\t\t $ kubectl get TYPE NAME -o yaml\n\n\t\tPlease refer to the models in https://htmlpreview.github.io/?https://github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions.html to find if a field is mutable.\x00\n\t\tSet a new size for a Deployment, ReplicaSet, Replication Controller, or Job.\n\n\t\tScale also allows users to specify one or more preconditions for the scale action.\n\n\t\tIf --current-replicas or --resource-version is specified, it is validated before the\n\t\tscale is attempted, and it is guaranteed that the precondition holds true when the\n\t\tscale is sent to the server.\x00\n\t\tSet the latest last-applied-configuration annotations by setting it to match the contents of a file.\n\t\tThis results in the last-applied-configuration being updated as though 'kubectl apply -f ' was run,\n\t\twithout updating any other parts of the object.\x00\n\t\tTo proxy all of the kubernetes api and nothing else, use:\n\n\t\t $ kubectl proxy --api-prefix=/\n\n\t\tTo proxy only part of the kubernetes api and also some static files:\n\n\t\t $ kubectl proxy --www=/my/files --www-prefix=/static/ --api-prefix=/api/\n\n\t\tThe above lets you 'curl localhost:8001/api/v1/pods'.\n\n\t\tTo proxy the entire kubernetes api at a different root, use:\n\n\t\t $ kubectl proxy --api-prefix=/custom/\n\n\t\tThe above lets you 'curl localhost:8001/custom/api/v1/pods'\x00\n\t\tUpdate field(s) of a resource using strategic merge patch\n\n\t\tJSON and YAML formats are accepted.\n\n\t\tPlease refer to the models in https://htmlpreview.github.io/?https://github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions.html to find if a field is mutable.\x00\n\t\tUpdate the labels on a resource.\n\n\t\t* A label must begin with a letter or number, and may contain letters, numbers, hyphens, dots, and underscores, up to %[1]d characters.\n\t\t* If --overwrite is true, then existing labels can be overwritten, otherwise attempting to overwrite a label will result in an error.\n\t\t* If --resource-version is specified, then updates will use this resource version, otherwise the existing resource-version will be used.\x00\n\t\tUpdate the taints on one or more nodes.\n\n\t\t* A taint consists of a key, value, and effect. As an argument here, it is expressed as key=value:effect.\n\t\t* The key must begin with a letter or number, and may contain letters, numbers, hyphens, dots, and underscores, up to %[1]d characters.\n\t\t* The value must begin with a letter or number, and may contain letters, numbers, hyphens, dots, and underscores, up to %[2]d characters.\n\t\t* The effect must be NoSchedule, PreferNoSchedule or NoExecute.\n\t\t* Currently taint can only apply to node.\x00\n\t\tView the latest last-applied-configuration annotations by type/name or file.\n\n\t\tThe default output will be printed to stdout in YAML format. One can use -o option\n\t\tto change output format.\x00\n\t # !!!Important Note!!!\n\t # Requires that the 'tar' binary is present in your container\n\t # image. If 'tar' is not present, 'kubectl cp' will fail.\n\n\t # Copy /tmp/foo_dir local directory to /tmp/bar_dir in a remote pod in the default namespace\n\t\tkubectl cp /tmp/foo_dir :/tmp/bar_dir\n\n # Copy /tmp/foo local file to /tmp/bar in a remote pod in a specific container\n\t\tkubectl cp /tmp/foo :/tmp/bar -c \n\n\t\t# Copy /tmp/foo local file to /tmp/bar in a remote pod in namespace \n\t\tkubectl cp /tmp/foo /:/tmp/bar\n\n\t\t# Copy /tmp/foo from a remote pod to /tmp/bar locally\n\t\tkubectl cp /:/tmp/foo /tmp/bar\x00\n\t # Create a new TLS secret named tls-secret with the given key pair:\n\t kubectl create secret tls tls-secret --cert=path/to/tls.cert --key=path/to/tls.key\x00\n\t # Create a new namespace named my-namespace\n\t kubectl create namespace my-namespace\x00\n\t # Create a new secret named my-secret with keys for each file in folder bar\n\t kubectl create secret generic my-secret --from-file=path/to/bar\n\n\t # Create a new secret named my-secret with specified keys instead of names on disk\n\t kubectl create secret generic my-secret --from-file=ssh-privatekey=~/.ssh/id_rsa --from-file=ssh-publickey=~/.ssh/id_rsa.pub\n\n\t # Create a new secret named my-secret with key1=supersecret and key2=topsecret\n\t kubectl create secret generic my-secret --from-literal=key1=supersecret --from-literal=key2=topsecret\x00\n\t # Create a new service account named my-service-account\n\t kubectl create serviceaccount my-service-account\x00\n\t# Create a new ExternalName service named my-ns \n\tkubectl create service externalname my-ns --external-name bar.com\x00\n\tCreate an ExternalName service with the specified name.\n\n\tExternalName service references to an external DNS address instead of\n\tonly pods, which will allow application authors to reference services\n\tthat exist off platform, on other clusters, or locally.\x00\n\tHelp provides help for any command in the application.\n\tSimply type kubectl help [path to command] for full details.\x00\n # Create a new LoadBalancer service named my-lbs\n kubectl create service loadbalancer my-lbs --tcp=5678:8080\x00\n # Create a new clusterIP service named my-cs\n kubectl create service clusterip my-cs --tcp=5678:8080\n\n # Create a new clusterIP service named my-cs (in headless mode)\n kubectl create service clusterip my-cs --clusterip=\"None\"\x00\n # Create a new deployment named my-dep that runs the busybox image.\n kubectl create deployment my-dep --image=busybox\x00\n # Create a new nodeport service named my-ns\n kubectl create service nodeport my-ns --tcp=5678:8080\x00\n # Dump current cluster state to stdout\n kubectl cluster-info dump\n\n # Dump current cluster state to /path/to/cluster-state\n kubectl cluster-info dump --output-directory=/path/to/cluster-state\n\n # Dump all namespaces to stdout\n kubectl cluster-info dump --all-namespaces\n\n # Dump a set of namespaces to /path/to/cluster-state\n kubectl cluster-info dump --namespaces default,kube-system --output-directory=/path/to/cluster-state\x00\n # Update pod 'foo' with the annotation 'description' and the value 'my frontend'.\n # If the same annotation is set multiple times, only the last value will be applied\n kubectl annotate pods foo description='my frontend'\n\n # Update a pod identified by type and name in \"pod.json\"\n kubectl annotate -f pod.json description='my frontend'\n\n # Update pod 'foo' with the annotation 'description' and the value 'my frontend running nginx', overwriting any existing value.\n kubectl annotate --overwrite pods foo description='my frontend running nginx'\n\n # Update all pods in the namespace\n kubectl annotate pods --all description='my frontend running nginx'\n\n # Update pod 'foo' only if the resource is unchanged from version 1.\n kubectl annotate pods foo description='my frontend running nginx' --resource-version=1\n\n # Update pod 'foo' by removing an annotation named 'description' if it exists.\n # Does not require the --overwrite flag.\n kubectl annotate pods foo description-\x00\n Create a LoadBalancer service with the specified name.\x00\n Create a clusterIP service with the specified name.\x00\n Create a deployment with the specified name.\x00\n Create a nodeport service with the specified name.\x00\n Dumps cluster info out suitable for debugging and diagnosing cluster problems. By default, dumps everything to\n stdout. You can optionally specify a directory with --output-directory. If you specify a directory, kubernetes will\n build a set of files in that directory. By default only dumps things in the 'kube-system' namespace, but you can\n switch to a different namespace with the --namespaces flag, or specify --all-namespaces to dump all namespaces.\n\n The command also dumps the logs of all of the pods in the cluster, these logs are dumped into different directories\n based on namespace and pod name.\x00\n Display addresses of the master and services with label kubernetes.io/cluster-service=true\n To further debug and diagnose cluster problems, use 'kubectl cluster-info dump'.\x00A comma-delimited set of quota scopes that must all match each object tracked by the quota.\x00A comma-delimited set of resource=quantity pairs that define a hard limit.\x00A label selector to use for this budget. Only equality-based selector requirements are supported.\x00A label selector to use for this service. Only equality-based selector requirements are supported. If empty (the default) infer the selector from the replication controller or replica set.)\x00A schedule in the Cron format the job should be run with.\x00Additional external IP address (not managed by Kubernetes) to accept for the service. If this IP is routed to a node, the service can be accessed by this IP in addition to its generated service IP.\x00An inline JSON override for the generated object. If this is non-empty, it is used to override the generated object. Requires that the object supply a valid apiVersion field.\x00An inline JSON override for the generated service object. If this is non-empty, it is used to override the generated object. Requires that the object supply a valid apiVersion field. Only used if --expose is true.\x00Apply a configuration to a resource by filename or stdin\x00Approve a certificate signing request\x00Assign your own ClusterIP or set to 'None' for a 'headless' service (no loadbalancing).\x00Attach to a running container\x00Auto-scale a Deployment, ReplicaSet, or ReplicationController\x00ClusterIP to be assigned to the service. Leave empty to auto-allocate, or set to 'None' to create a headless service.\x00ClusterRole this ClusterRoleBinding should reference\x00ClusterRole this RoleBinding should reference\x00Container name which will have its image upgraded. Only relevant when --image is specified, ignored otherwise. Required when using --image on a multi-container pod\x00Convert config files between different API versions\x00Copy files and directories to and from containers.\x00Create a ClusterRoleBinding for a particular ClusterRole\x00Create a LoadBalancer service.\x00Create a NodePort service.\x00Create a RoleBinding for a particular Role or ClusterRole\x00Create a TLS secret\x00Create a clusterIP service.\x00Create a configmap from a local file, directory or literal value\x00Create a deployment with the specified name.\x00Create a namespace with the specified name\x00Create a pod disruption budget with the specified name.\x00Create a quota with the specified name.\x00Create a resource by filename or stdin\x00Create a secret for use with a Docker registry\x00Create a secret from a local file, directory or literal value\x00Create a secret using specified subcommand\x00Create a service account with the specified name\x00Create a service using specified subcommand.\x00Create an ExternalName service.\x00Delete resources by filenames, stdin, resources and names, or by resources and label selector\x00Delete the specified cluster from the kubeconfig\x00Delete the specified context from the kubeconfig\x00Deny a certificate signing request\x00Deprecated: Gracefully shut down a resource by name or filename\x00Describe one or many contexts\x00Display Resource (CPU/Memory) usage of nodes\x00Display Resource (CPU/Memory) usage of pods\x00Display Resource (CPU/Memory) usage.\x00Display cluster info\x00Display clusters defined in the kubeconfig\x00Display merged kubeconfig settings or a specified kubeconfig file\x00Display one or many resources\x00Displays the current-context\x00Documentation of resources\x00Drain node in preparation for maintenance\x00Dump lots of relevant info for debugging and diagnosis\x00Edit a resource on the server\x00Email for Docker registry\x00Execute a command in a container\x00Explicit policy for when to pull container images. Required when --image is same as existing image, ignored otherwise.\x00Forward one or more local ports to a pod\x00Help about any command\x00IP to assign to the Load Balancer. If empty, an ephemeral IP will be created and used (cloud-provider specific).\x00If non-empty, set the session affinity for the service to this; legal values: 'None', 'ClientIP'\x00If non-empty, the annotation update will only succeed if this is the current resource-version for the object. Only valid when specifying a single resource.\x00If non-empty, the labels update will only succeed if this is the current resource-version for the object. Only valid when specifying a single resource.\x00Image to use for upgrading the replication controller. Must be distinct from the existing image (either new image or new image tag). Can not be used with --filename/-f\x00Manage a deployment rollout\x00Mark node as schedulable\x00Mark node as unschedulable\x00Mark the provided resource as paused\x00Modify certificate resources.\x00Modify kubeconfig files\x00Name or number for the port on the container that the service should direct traffic to. Optional.\x00Only return logs after a specific date (RFC3339). Defaults to all logs. Only one of since-time / since may be used.\x00Output shell completion code for the specified shell (bash or zsh)\x00Output the formatted object with the given group version (for ex: 'extensions/v1beta1').)\x00Password for Docker registry authentication\x00Path to PEM encoded public key certificate.\x00Path to private key associated with given certificate.\x00Perform a rolling update of the given ReplicationController\x00Precondition for resource version. Requires that the current resource version match this value in order to scale.\x00Print the client and server version information\x00Print the list of flags inherited by all commands\x00Print the logs for a container in a pod\x00Replace a resource by filename or stdin\x00Resume a paused resource\x00Role this RoleBinding should reference\x00Run a particular image on the cluster\x00Run a proxy to the Kubernetes API server\x00Server location for Docker registry\x00Set a new size for a Deployment, ReplicaSet, Replication Controller, or Job\x00Set specific features on objects\x00Set the last-applied-configuration annotation on a live object to match the contents of a file.\x00Set the selector on a resource\x00Sets a cluster entry in kubeconfig\x00Sets a context entry in kubeconfig\x00Sets a user entry in kubeconfig\x00Sets an individual value in a kubeconfig file\x00Sets the current-context in a kubeconfig file\x00Show details of a specific resource or group of resources\x00Show the status of the rollout\x00Synonym for --target-port\x00Take a replication controller, service, deployment or pod and expose it as a new Kubernetes Service\x00The image for the container to run.\x00The image pull policy for the container. If left empty, this value will not be specified by the client and defaulted by the server\x00The key to use to differentiate between two different controllers, default 'deployment'. Only relevant when --image is specified, ignored otherwise\x00The minimum number or percentage of available pods this budget requires.\x00The name for the newly created object.\x00The name for the newly created object. If not specified, the name of the input resource will be used.\x00The name of the API generator to use, see http://kubernetes.io/docs/user-guide/kubectl-conventions/#generators for a list.\x00The name of the API generator to use. Currently there is only 1 generator.\x00The name of the API generator to use. There are 2 generators: 'service/v1' and 'service/v2'. The only difference between them is that service port in v1 is named 'default', while it is left unnamed in v2. Default is 'service/v2'.\x00The name of the generator to use for creating a service. Only used if --expose is true\x00The network protocol for the service to be created. Default is 'TCP'.\x00The port that the service should serve on. Copied from the resource being exposed, if unspecified\x00The port that this container exposes. If --expose is true, this is also the port used by the service that is created.\x00The resource requirement limits for this container. For example, 'cpu=200m,memory=512Mi'. Note that server side components may assign limits depending on the server configuration, such as limit ranges.\x00The resource requirement requests for this container. For example, 'cpu=100m,memory=256Mi'. Note that server side components may assign requests depending on the server configuration, such as limit ranges.\x00The restart policy for this Pod. Legal values [Always, OnFailure, Never]. If set to 'Always' a deployment is created, if set to 'OnFailure' a job is created, if set to 'Never', a regular pod is created. For the latter two --replicas must be 1. Default 'Always', for CronJobs `Never`.\x00The type of secret to create\x00Type for this service: ClusterIP, NodePort, or LoadBalancer. Default is 'ClusterIP'.\x00Undo a previous rollout\x00Unsets an individual value in a kubeconfig file\x00Update field(s) of a resource using strategic merge patch\x00Update image of a pod template\x00Update resource requests/limits on objects with pod templates\x00Update the annotations on a resource\x00Update the labels on a resource\x00Update the taints on one or more nodes\x00Username for Docker registry authentication\x00View latest last-applied-configuration annotations of a resource/object\x00View rollout history\x00Where to output the files. If empty or '-' uses stdout, otherwise creates a directory hierarchy in that directory\x00dummy restart flag)\x00external name of service\x00kubectl controls the Kubernetes cluster manager\x00") func translationsKubectlDefaultLc_messagesK8sMoBytes() ([]byte, error) { return _translationsKubectlDefaultLc_messagesK8sMo, nil } func translationsKubectlDefaultLc_messagesK8sMo() (*asset, error) { bytes, err := translationsKubectlDefaultLc_messagesK8sMoBytes() if err != nil { return nil, err } info := bindataFileInfo{name: "translations/kubectl/default/LC_MESSAGES/k8s.mo", size: 0, mode: os.FileMode(0), modTime: time.Unix(0, 0)} a := &asset{bytes: bytes, info: info} return a, nil } var _translationsKubectlDefaultLc_messagesK8sPo = []byte(`# Test translations for unit tests. # Copyright (C) 2016 # This file is distributed under the same license as the Kubernetes package. # FIRST AUTHOR brendan.d.burns@gmail.com, 2016. # msgid "" msgstr "" "Project-Id-Version: gettext-go-examples-hello\n" "Report-Msgid-Bugs-To: EMAIL\n" "POT-Creation-Date: 2017-03-14 21:32-0700\n" "PO-Revision-Date: 2017-05-24 18:01+0800\n" "Last-Translator: Brendan Burns \n" "Language-Team: \n" "Language: en\n" "MIME-Version: 1.0\n" "Content-Type: text/plain; charset=UTF-8\n" "Content-Transfer-Encoding: 8bit\n" "X-Generator: Poedit 1.8.12\n" "X-Poedit-SourceCharset: UTF-8\n" "Plural-Forms: nplurals=2; plural=(n != 1);\n" #: pkg/kubectl/cmd/create_clusterrolebinding.go:35 msgid "" "\n" "\t\t # Create a ClusterRoleBinding for user1, user2, and group1 using the " "cluster-admin ClusterRole\n" "\t\t kubectl create clusterrolebinding cluster-admin --clusterrole=cluster-" "admin --user=user1 --user=user2 --group=group1" msgstr "" "\n" "\t\t # Create a ClusterRoleBinding for user1, user2, and group1 using the " "cluster-admin ClusterRole\n" "\t\t kubectl create clusterrolebinding cluster-admin --clusterrole=cluster-" "admin --user=user1 --user=user2 --group=group1" #: pkg/kubectl/cmd/create_rolebinding.go:35 msgid "" "\n" "\t\t # Create a RoleBinding for user1, user2, and group1 using the admin " "ClusterRole\n" "\t\t kubectl create rolebinding admin --clusterrole=admin --user=user1 --" "user=user2 --group=group1" msgstr "" "\n" "\t\t # Create a RoleBinding for user1, user2, and group1 using the admin " "ClusterRole\n" "\t\t kubectl create rolebinding admin --clusterrole=admin --user=user1 --" "user=user2 --group=group1" #: pkg/kubectl/cmd/create_configmap.go:44 msgid "" "\n" "\t\t # Create a new configmap named my-config based on folder bar\n" "\t\t kubectl create configmap my-config --from-file=path/to/bar\n" "\n" "\t\t # Create a new configmap named my-config with specified keys instead " "of file basenames on disk\n" "\t\t kubectl create configmap my-config --from-file=key1=/path/to/bar/file1." "txt --from-file=key2=/path/to/bar/file2.txt\n" "\n" "\t\t # Create a new configmap named my-config with key1=config1 and " "key2=config2\n" "\t\t kubectl create configmap my-config --from-literal=key1=config1 --from-" "literal=key2=config2" msgstr "" "\n" "\t\t # Create a new configmap named my-config based on folder bar\n" "\t\t kubectl create configmap my-config --from-file=path/to/bar\n" "\n" "\t\t # Create a new configmap named my-config with specified keys instead " "of file basenames on disk\n" "\t\t kubectl create configmap my-config --from-file=key1=/path/to/bar/file1." "txt --from-file=key2=/path/to/bar/file2.txt\n" "\n" "\t\t # Create a new configmap named my-config with key1=config1 and " "key2=config2\n" "\t\t kubectl create configmap my-config --from-literal=key1=config1 --from-" "literal=key2=config2" #: pkg/kubectl/cmd/create_secret.go:135 msgid "" "\n" "\t\t # If you don't already have a .dockercfg file, you can create a " "dockercfg secret directly by using:\n" "\t\t kubectl create secret docker-registry my-secret --docker-" "server=DOCKER_REGISTRY_SERVER --docker-username=DOCKER_USER --docker-" "password=DOCKER_PASSWORD --docker-email=DOCKER_EMAIL" msgstr "" "\n" "\t\t # If you don't already have a .dockercfg file, you can create a " "dockercfg secret directly by using:\n" "\t\t kubectl create secret docker-registry my-secret --docker-" "server=DOCKER_REGISTRY_SERVER --docker-username=DOCKER_USER --docker-" "password=DOCKER_PASSWORD --docker-email=DOCKER_EMAIL" #: pkg/kubectl/cmd/top_node.go:65 msgid "" "\n" "\t\t # Show metrics for all nodes\n" "\t\t kubectl top node\n" "\n" "\t\t # Show metrics for a given node\n" "\t\t kubectl top node NODE_NAME" msgstr "" "\n" "\t\t # Show metrics for all nodes\n" "\t\t kubectl top node\n" "\n" "\t\t # Show metrics for a given node\n" "\t\t kubectl top node NODE_NAME" #: pkg/kubectl/cmd/apply.go:84 msgid "" "\n" "\t\t# Apply the configuration in pod.json to a pod.\n" "\t\tkubectl apply -f ./pod.json\n" "\n" "\t\t# Apply the JSON passed into stdin to a pod.\n" "\t\tcat pod.json | kubectl apply -f -\n" "\n" "\t\t# Note: --prune is still in Alpha\n" "\t\t# Apply the configuration in manifest.yaml that matches label app=nginx " "and delete all the other resources that are not in the file and match label " "app=nginx.\n" "\t\tkubectl apply --prune -f manifest.yaml -l app=nginx\n" "\n" "\t\t# Apply the configuration in manifest.yaml and delete all the other " "configmaps that are not in the file.\n" "\t\tkubectl apply --prune -f manifest.yaml --all --prune-whitelist=core/v1/" "ConfigMap" msgstr "" "\n" "\t\t# Apply the configuration in pod.json to a pod.\n" "\t\tkubectl apply -f ./pod.json\n" "\n" "\t\t# Apply the JSON passed into stdin to a pod.\n" "\t\tcat pod.json | kubectl apply -f -\n" "\n" "\t\t# Note: --prune is still in Alpha\n" "\t\t# Apply the configuration in manifest.yaml that matches label app=nginx " "and delete all the other resources that are not in the file and match label " "app=nginx.\n" "\t\tkubectl apply --prune -f manifest.yaml -l app=nginx\n" "\n" "\t\t# Apply the configuration in manifest.yaml and delete all the other " "configmaps that are not in the file.\n" "\t\tkubectl apply --prune -f manifest.yaml --all --prune-whitelist=core/v1/" "ConfigMap" #: pkg/kubectl/cmd/autoscale.go:40 #, c-format msgid "" "\n" "\t\t# Auto scale a deployment \"foo\", with the number of pods between 2 and " "10, no target CPU utilization specified so a default autoscaling policy will " "be used:\n" "\t\tkubectl autoscale deployment foo --min=2 --max=10\n" "\n" "\t\t# Auto scale a replication controller \"foo\", with the number of pods " "between 1 and 5, target CPU utilization at 80%:\n" "\t\tkubectl autoscale rc foo --max=5 --cpu-percent=80" msgstr "" "\n" "\t\t# Auto scale a deployment \"foo\", with the number of pods between 2 and " "10, no target CPU utilization specified so a default autoscaling policy will " "be used:\n" "\t\tkubectl autoscale deployment foo --min=2 --max=10\n" "\n" "\t\t# Auto scale a replication controller \"foo\", with the number of pods " "between 1 and 5, target CPU utilization at 80%:\n" "\t\tkubectl autoscale rc foo --max=5 --cpu-percent=80" #: pkg/kubectl/cmd/convert.go:49 msgid "" "\n" "\t\t# Convert 'pod.yaml' to latest version and print to stdout.\n" "\t\tkubectl convert -f pod.yaml\n" "\n" "\t\t# Convert the live state of the resource specified by 'pod.yaml' to the " "latest version\n" "\t\t# and print to stdout in json format.\n" "\t\tkubectl convert -f pod.yaml --local -o json\n" "\n" "\t\t# Convert all files under current directory to latest version and create " "them all.\n" "\t\tkubectl convert -f . | kubectl create -f -" msgstr "" "\n" "\t\t# Convert 'pod.yaml' to latest version and print to stdout.\n" "\t\tkubectl convert -f pod.yaml\n" "\n" "\t\t# Convert the live state of the resource specified by 'pod.yaml' to the " "latest version\n" "\t\t# and print to stdout in json format.\n" "\t\tkubectl convert -f pod.yaml --local -o json\n" "\n" "\t\t# Convert all files under current directory to latest version and create " "them all.\n" "\t\tkubectl convert -f . | kubectl create -f -" #: pkg/kubectl/cmd/create_clusterrole.go:34 msgid "" "\n" "\t\t# Create a ClusterRole named \"pod-reader\" that allows user to perform " "\"get\", \"watch\" and \"list\" on pods\n" "\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --" "resource=pods\n" "\n" "\t\t# Create a ClusterRole named \"pod-reader\" with ResourceName specified\n" "\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --" "resource=pods --resource-name=readablepod" msgstr "" "\n" "\t\t# Create a ClusterRole named \"pod-reader\" that allows user to perform " "\"get\", \"watch\" and \"list\" on pods\n" "\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --" "resource=pods\n" "\n" "\t\t# Create a ClusterRole named \"pod-reader\" with ResourceName specified\n" "\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --" "resource=pods --resource-name=readablepod" #: pkg/kubectl/cmd/create_role.go:41 msgid "" "\n" "\t\t# Create a Role named \"pod-reader\" that allows user to perform \"get" "\", \"watch\" and \"list\" on pods\n" "\t\tkubectl create role pod-reader --verb=get --verb=list --verb=watch --" "resource=pods\n" "\n" "\t\t# Create a Role named \"pod-reader\" with ResourceName specified\n" "\t\tkubectl create role pod-reader --verb=get --verg=list --verb=watch --" "resource=pods --resource-name=readablepod" msgstr "" "\n" "\t\t# Create a Role named \"pod-reader\" that allows user to perform \"get" "\", \"watch\" and \"list\" on pods\n" "\t\tkubectl create role pod-reader --verb=get --verb=list --verb=watch --" "resource=pods\n" "\n" "\t\t# Create a Role named \"pod-reader\" with ResourceName specified\n" "\t\tkubectl create role pod-reader --verb=get --verg=list --verb=watch --" "resource=pods --resource-name=readablepod" #: pkg/kubectl/cmd/create_quota.go:35 msgid "" "\n" "\t\t# Create a new resourcequota named my-quota\n" "\t\tkubectl create quota my-quota --hard=cpu=1,memory=1G,pods=2,services=3," "replicationcontrollers=2,resourcequotas=1,secrets=5," "persistentvolumeclaims=10\n" "\n" "\t\t# Create a new resourcequota named best-effort\n" "\t\tkubectl create quota best-effort --hard=pods=100 --scopes=BestEffort" msgstr "" "\n" "\t\t# Create a new resourcequota named my-quota\n" "\t\tkubectl create quota my-quota --hard=cpu=1,memory=1G,pods=2,services=3," "replicationcontrollers=2,resourcequotas=1,secrets=5," "persistentvolumeclaims=10\n" "\n" "\t\t# Create a new resourcequota named best-effort\n" "\t\tkubectl create quota best-effort --hard=pods=100 --scopes=BestEffort" #: pkg/kubectl/cmd/create_pdb.go:35 #, c-format msgid "" "\n" "\t\t# Create a pod disruption budget named my-pdb that will select all pods " "with the app=rails label\n" "\t\t# and require at least one of them being available at any point in " "time.\n" "\t\tkubectl create poddisruptionbudget my-pdb --selector=app=rails --min-" "available=1\n" "\n" "\t\t# Create a pod disruption budget named my-pdb that will select all pods " "with the app=nginx label\n" "\t\t# and require at least half of the pods selected to be available at any " "point in time.\n" "\t\tkubectl create pdb my-pdb --selector=app=nginx --min-available=50%" msgstr "" "\n" "\t\t# Create a pod disruption budget named my-pdb that will select all pods " "with the app=rails label\n" "\t\t# and require at least one of them being available at any point in " "time.\n" "\t\tkubectl create poddisruptionbudget my-pdb --selector=app=rails --min-" "available=1\n" "\n" "\t\t# Create a pod disruption budget named my-pdb that will select all pods " "with the app=nginx label\n" "\t\t# and require at least half of the pods selected to be available at any " "point in time.\n" "\t\tkubectl create pdb my-pdb --selector=app=nginx --min-available=50%" #: pkg/kubectl/cmd/create.go:47 msgid "" "\n" "\t\t# Create a pod using the data in pod.json.\n" "\t\tkubectl create -f ./pod.json\n" "\n" "\t\t# Create a pod based on the JSON passed into stdin.\n" "\t\tcat pod.json | kubectl create -f -\n" "\n" "\t\t# Edit the data in docker-registry.yaml in JSON using the v1 API format " "then create the resource using the edited data.\n" "\t\tkubectl create -f docker-registry.yaml --edit --output-version=v1 -o json" msgstr "" "\n" "\t\t# Create a pod using the data in pod.json.\n" "\t\tkubectl create -f ./pod.json\n" "\n" "\t\t# Create a pod based on the JSON passed into stdin.\n" "\t\tcat pod.json | kubectl create -f -\n" "\n" "\t\t# Edit the data in docker-registry.yaml in JSON using the v1 API format " "then create the resource using the edited data.\n" "\t\tkubectl create -f docker-registry.yaml --edit --output-version=v1 -o json" #: pkg/kubectl/cmd/expose.go:53 msgid "" "\n" "\t\t# Create a service for a replicated nginx, which serves on port 80 and " "connects to the containers on port 8000.\n" "\t\tkubectl expose rc nginx --port=80 --target-port=8000\n" "\n" "\t\t# Create a service for a replication controller identified by type and " "name specified in \"nginx-controller.yaml\", which serves on port 80 and " "connects to the containers on port 8000.\n" "\t\tkubectl expose -f nginx-controller.yaml --port=80 --target-port=8000\n" "\n" "\t\t# Create a service for a pod valid-pod, which serves on port 444 with " "the name \"frontend\"\n" "\t\tkubectl expose pod valid-pod --port=444 --name=frontend\n" "\n" "\t\t# Create a second service based on the above service, exposing the " "container port 8443 as port 443 with the name \"nginx-https\"\n" "\t\tkubectl expose service nginx --port=443 --target-port=8443 --name=nginx-" "https\n" "\n" "\t\t# Create a service for a replicated streaming application on port 4100 " "balancing UDP traffic and named 'video-stream'.\n" "\t\tkubectl expose rc streamer --port=4100 --protocol=udp --name=video-" "stream\n" "\n" "\t\t# Create a service for a replicated nginx using replica set, which " "serves on port 80 and connects to the containers on port 8000.\n" "\t\tkubectl expose rs nginx --port=80 --target-port=8000\n" "\n" "\t\t# Create a service for an nginx deployment, which serves on port 80 and " "connects to the containers on port 8000.\n" "\t\tkubectl expose deployment nginx --port=80 --target-port=8000" msgstr "" "\n" "\t\t# Create a service for a replicated nginx, which serves on port 80 and " "connects to the containers on port 8000.\n" "\t\tkubectl expose rc nginx --port=80 --target-port=8000\n" "\n" "\t\t# Create a service for a replication controller identified by type and " "name specified in \"nginx-controller.yaml\", which serves on port 80 and " "connects to the containers on port 8000.\n" "\t\tkubectl expose -f nginx-controller.yaml --port=80 --target-port=8000\n" "\n" "\t\t# Create a service for a pod valid-pod, which serves on port 444 with " "the name \"frontend\"\n" "\t\tkubectl expose pod valid-pod --port=444 --name=frontend\n" "\n" "\t\t# Create a second service based on the above service, exposing the " "container port 8443 as port 443 with the name \"nginx-https\"\n" "\t\tkubectl expose service nginx --port=443 --target-port=8443 --name=nginx-" "https\n" "\n" "\t\t# Create a service for a replicated streaming application on port 4100 " "balancing UDP traffic and named 'video-stream'.\n" "\t\tkubectl expose rc streamer --port=4100 --protocol=udp --name=video-" "stream\n" "\n" "\t\t# Create a service for a replicated nginx using replica set, which " "serves on port 80 and connects to the containers on port 8000.\n" "\t\tkubectl expose rs nginx --port=80 --target-port=8000\n" "\n" "\t\t# Create a service for an nginx deployment, which serves on port 80 and " "connects to the containers on port 8000.\n" "\t\tkubectl expose deployment nginx --port=80 --target-port=8000" #: pkg/kubectl/cmd/delete.go:68 msgid "" "\n" "\t\t# Delete a pod using the type and name specified in pod.json.\n" "\t\tkubectl delete -f ./pod.json\n" "\n" "\t\t# Delete a pod based on the type and name in the JSON passed into " "stdin.\n" "\t\tcat pod.json | kubectl delete -f -\n" "\n" "\t\t# Delete pods and services with same names \"baz\" and \"foo\"\n" "\t\tkubectl delete pod,service baz foo\n" "\n" "\t\t# Delete pods and services with label name=myLabel.\n" "\t\tkubectl delete pods,services -l name=myLabel\n" "\n" "\t\t# Delete a pod with minimal delay\n" "\t\tkubectl delete pod foo --now\n" "\n" "\t\t# Force delete a pod on a dead node\n" "\t\tkubectl delete pod foo --grace-period=0 --force\n" "\n" "\t\t# Delete all pods\n" "\t\tkubectl delete pods --all" msgstr "" "\n" "\t\t# Delete a pod using the type and name specified in pod.json.\n" "\t\tkubectl delete -f ./pod.json\n" "\n" "\t\t# Delete a pod based on the type and name in the JSON passed into " "stdin.\n" "\t\tcat pod.json | kubectl delete -f -\n" "\n" "\t\t# Delete pods and services with same names \"baz\" and \"foo\"\n" "\t\tkubectl delete pod,service baz foo\n" "\n" "\t\t# Delete pods and services with label name=myLabel.\n" "\t\tkubectl delete pods,services -l name=myLabel\n" "\n" "\t\t# Delete a pod with minimal delay\n" "\t\tkubectl delete pod foo --now\n" "\n" "\t\t# Force delete a pod on a dead node\n" "\t\tkubectl delete pod foo --grace-period=0 --force\n" "\n" "\t\t# Delete all pods\n" "\t\tkubectl delete pods --all" #: pkg/kubectl/cmd/describe.go:54 msgid "" "\n" "\t\t# Describe a node\n" "\t\tkubectl describe nodes kubernetes-node-emt8.c.myproject.internal\n" "\n" "\t\t# Describe a pod\n" "\t\tkubectl describe pods/nginx\n" "\n" "\t\t# Describe a pod identified by type and name in \"pod.json\"\n" "\t\tkubectl describe -f pod.json\n" "\n" "\t\t# Describe all pods\n" "\t\tkubectl describe pods\n" "\n" "\t\t# Describe pods by label name=myLabel\n" "\t\tkubectl describe po -l name=myLabel\n" "\n" "\t\t# Describe all pods managed by the 'frontend' replication controller (rc-" "created pods\n" "\t\t# get the name of the rc as a prefix in the pod the name).\n" "\t\tkubectl describe pods frontend" msgstr "" "\n" "\t\t# Describe a node\n" "\t\tkubectl describe nodes kubernetes-node-emt8.c.myproject.internal\n" "\n" "\t\t# Describe a pod\n" "\t\tkubectl describe pods/nginx\n" "\n" "\t\t# Describe a pod identified by type and name in \"pod.json\"\n" "\t\tkubectl describe -f pod.json\n" "\n" "\t\t# Describe all pods\n" "\t\tkubectl describe pods\n" "\n" "\t\t# Describe pods by label name=myLabel\n" "\t\tkubectl describe po -l name=myLabel\n" "\n" "\t\t# Describe all pods managed by the 'frontend' replication controller (rc-" "created pods\n" "\t\t# get the name of the rc as a prefix in the pod the name).\n" "\t\tkubectl describe pods frontend" #: pkg/kubectl/cmd/drain.go:165 msgid "" "\n" "\t\t# Drain node \"foo\", even if there are pods not managed by a " "ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet on it.\n" "\t\t$ kubectl drain foo --force\n" "\n" "\t\t# As above, but abort if there are pods not managed by a " "ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet, and use a " "grace period of 15 minutes.\n" "\t\t$ kubectl drain foo --grace-period=900" msgstr "" "\n" "\t\t# Drain node \"foo\", even if there are pods not managed by a " "ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet on it.\n" "\t\t$ kubectl drain foo --force\n" "\n" "\t\t# As above, but abort if there are pods not managed by a " "ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet, and use a " "grace period of 15 minutes.\n" "\t\t$ kubectl drain foo --grace-period=900" #: pkg/kubectl/cmd/edit.go:80 msgid "" "\n" "\t\t# Edit the service named 'docker-registry':\n" "\t\tkubectl edit svc/docker-registry\n" "\n" "\t\t# Use an alternative editor\n" "\t\tKUBE_EDITOR=\"nano\" kubectl edit svc/docker-registry\n" "\n" "\t\t# Edit the job 'myjob' in JSON using the v1 API format:\n" "\t\tkubectl edit job.v1.batch/myjob -o json\n" "\n" "\t\t# Edit the deployment 'mydeployment' in YAML and save the modified " "config in its annotation:\n" "\t\tkubectl edit deployment/mydeployment -o yaml --save-config" msgstr "" "\n" "\t\t# Edit the service named 'docker-registry':\n" "\t\tkubectl edit svc/docker-registry\n" "\n" "\t\t# Use an alternative editor\n" "\t\tKUBE_EDITOR=\"nano\" kubectl edit svc/docker-registry\n" "\n" "\t\t# Edit the job 'myjob' in JSON using the v1 API format:\n" "\t\tkubectl edit job.v1.batch/myjob -o json\n" "\n" "\t\t# Edit the deployment 'mydeployment' in YAML and save the modified " "config in its annotation:\n" "\t\tkubectl edit deployment/mydeployment -o yaml --save-config" #: pkg/kubectl/cmd/exec.go:41 msgid "" "\n" "\t\t# Get output from running 'date' from pod 123456-7890, using the first " "container by default\n" "\t\tkubectl exec 123456-7890 date\n" "\n" "\t\t# Get output from running 'date' in ruby-container from pod 123456-7890\n" "\t\tkubectl exec 123456-7890 -c ruby-container date\n" "\n" "\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container " "from pod 123456-7890\n" "\t\t# and sends stdout/stderr from 'bash' back to the client\n" "\t\tkubectl exec 123456-7890 -c ruby-container -i -t -- bash -il" msgstr "" "\n" "\t\t# Get output from running 'date' from pod 123456-7890, using the first " "container by default\n" "\t\tkubectl exec 123456-7890 date\n" "\n" "\t\t# Get output from running 'date' in ruby-container from pod 123456-7890\n" "\t\tkubectl exec 123456-7890 -c ruby-container date\n" "\n" "\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container " "from pod 123456-7890\n" "\t\t# and sends stdout/stderr from 'bash' back to the client\n" "\t\tkubectl exec 123456-7890 -c ruby-container -i -t -- bash -il" #: pkg/kubectl/cmd/attach.go:42 msgid "" "\n" "\t\t# Get output from running pod 123456-7890, using the first container by " "default\n" "\t\tkubectl attach 123456-7890\n" "\n" "\t\t# Get output from ruby-container from pod 123456-7890\n" "\t\tkubectl attach 123456-7890 -c ruby-container\n" "\n" "\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container " "from pod 123456-7890\n" "\t\t# and sends stdout/stderr from 'bash' back to the client\n" "\t\tkubectl attach 123456-7890 -c ruby-container -i -t\n" "\n" "\t\t# Get output from the first pod of a ReplicaSet named nginx\n" "\t\tkubectl attach rs/nginx\n" "\t\t" msgstr "" "\n" "\t\t# Get output from running pod 123456-7890, using the first container by " "default\n" "\t\tkubectl attach 123456-7890\n" "\n" "\t\t# Get output from ruby-container from pod 123456-7890\n" "\t\tkubectl attach 123456-7890 -c ruby-container\n" "\n" "\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container " "from pod 123456-7890\n" "\t\t# and sends stdout/stderr from 'bash' back to the client\n" "\t\tkubectl attach 123456-7890 -c ruby-container -i -t\n" "\n" "\t\t# Get output from the first pod of a ReplicaSet named nginx\n" "\t\tkubectl attach rs/nginx\n" "\t\t" #: pkg/kubectl/cmd/explain.go:39 msgid "" "\n" "\t\t# Get the documentation of the resource and its fields\n" "\t\tkubectl explain pods\n" "\n" "\t\t# Get the documentation of a specific field of a resource\n" "\t\tkubectl explain pods.spec.containers" msgstr "" "\n" "\t\t# Get the documentation of the resource and its fields\n" "\t\tkubectl explain pods\n" "\n" "\t\t# Get the documentation of a specific field of a resource\n" "\t\tkubectl explain pods.spec.containers" #: pkg/kubectl/cmd/completion.go:65 msgid "" "\n" "\t\t# Install bash completion on a Mac using homebrew\n" "\t\tbrew install bash-completion\n" "\t\tprintf \"\n" "# Bash completion support\n" "source $(brew --prefix)/etc/bash_completion\n" "\" >> $HOME/.bash_profile\n" "\t\tsource $HOME/.bash_profile\n" "\n" "\t\t# Load the kubectl completion code for bash into the current shell\n" "\t\tsource <(kubectl completion bash)\n" "\n" "\t\t# Write bash completion code to a file and source if from .bash_profile\n" "\t\tkubectl completion bash > ~/.kube/completion.bash.inc\n" "\t\tprintf \"\n" "# Kubectl shell completion\n" "source '$HOME/.kube/completion.bash.inc'\n" "\" >> $HOME/.bash_profile\n" "\t\tsource $HOME/.bash_profile\n" "\n" "\t\t# Load the kubectl completion code for zsh[1] into the current shell\n" "\t\tsource <(kubectl completion zsh)" msgstr "" "\n" "\t\t# Install bash completion on a Mac using homebrew\n" "\t\tbrew install bash-completion\n" "\t\tprintf \"\n" "# Bash completion support\n" "source $(brew --prefix)/etc/bash_completion\n" "\" >> $HOME/.bash_profile\n" "\t\tsource $HOME/.bash_profile\n" "\n" "\t\t# Load the kubectl completion code for bash into the current shell\n" "\t\tsource <(kubectl completion bash)\n" "\n" "\t\t# Write bash completion code to a file and source if from .bash_profile\n" "\t\tkubectl completion bash > ~/.kube/completion.bash.inc\n" "\t\tprintf \"\n" "# Kubectl shell completion\n" "source '$HOME/.kube/completion.bash.inc'\n" "\" >> $HOME/.bash_profile\n" "\t\tsource $HOME/.bash_profile\n" "\n" "\t\t# Load the kubectl completion code for zsh[1] into the current shell\n" "\t\tsource <(kubectl completion zsh)" #: pkg/kubectl/cmd/get.go:64 msgid "" "\n" "\t\t# List all pods in ps output format.\n" "\t\tkubectl get pods\n" "\n" "\t\t# List all pods in ps output format with more information (such as node " "name).\n" "\t\tkubectl get pods -o wide\n" "\n" "\t\t# List a single replication controller with specified NAME in ps output " "format.\n" "\t\tkubectl get replicationcontroller web\n" "\n" "\t\t# List a single pod in JSON output format.\n" "\t\tkubectl get -o json pod web-pod-13je7\n" "\n" "\t\t# List a pod identified by type and name specified in \"pod.yaml\" in " "JSON output format.\n" "\t\tkubectl get -f pod.yaml -o json\n" "\n" "\t\t# Return only the phase value of the specified pod.\n" "\t\tkubectl get -o template pod/web-pod-13je7 --template={{.status.phase}}\n" "\n" "\t\t# List all replication controllers and services together in ps output " "format.\n" "\t\tkubectl get rc,services\n" "\n" "\t\t# List one or more resources by their type and names.\n" "\t\tkubectl get rc/web service/frontend pods/web-pod-13je7\n" "\n" "\t\t# List all resources with different types.\n" "\t\tkubectl get all" msgstr "" "\n" "\t\t# List all pods in ps output format.\n" "\t\tkubectl get pods\n" "\n" "\t\t# List all pods in ps output format with more information (such as node " "name).\n" "\t\tkubectl get pods -o wide\n" "\n" "\t\t# List a single replication controller with specified NAME in ps output " "format.\n" "\t\tkubectl get replicationcontroller web\n" "\n" "\t\t# List a single pod in JSON output format.\n" "\t\tkubectl get -o json pod web-pod-13je7\n" "\n" "\t\t# List a pod identified by type and name specified in \"pod.yaml\" in " "JSON output format.\n" "\t\tkubectl get -f pod.yaml -o json\n" "\n" "\t\t# Return only the phase value of the specified pod.\n" "\t\tkubectl get -o template pod/web-pod-13je7 --template={{.status.phase}}\n" "\n" "\t\t# List all replication controllers and services together in ps output " "format.\n" "\t\tkubectl get rc,services\n" "\n" "\t\t# List one or more resources by their type and names.\n" "\t\tkubectl get rc/web service/frontend pods/web-pod-13je7\n" "\n" "\t\t# List all resources with different types.\n" "\t\tkubectl get all" #: pkg/kubectl/cmd/portforward.go:53 msgid "" "\n" "\t\t# Listen on ports 5000 and 6000 locally, forwarding data to/from ports 5000 and 6000 in the pod" "\t\tkubectl port-forward pod/mypod 5000 6000" "\n" "\t\t# Listen on ports 5000 and 6000 locally, forwarding data to/from ports 5000 and 6000 in a pod selected by the deployment" "\t\tkubectl port-forward deployment/mydeployment 5000 6000" "\n" "\t\t# Listen on ports 5000 and 6000 locally, forwarding data to/from ports 5000 and 6000 in a pod selected by the service" "\t\tkubectl port-forward service/myservice 5000 6000" "\n" "\t\t# Listen on port 8888 locally, forwarding to 5000 in the pod" "\t\tkubectl port-forward pod/mypod 8888:5000" "\n" "\t\t# Listen on a random port locally, forwarding to 5000 in the pod" "\t\tkubectl port-forward pod/mypod :5000" msgstr "" "\n" "\t\t# Listen on ports 5000 and 6000 locally, forwarding data to/from ports 5000 and 6000 in the pod" "\t\tkubectl port-forward pod/mypod 5000 6000" "\n" "\t\t# Listen on ports 5000 and 6000 locally, forwarding data to/from ports 5000 and 6000 in a pod selected by the deployment" "\t\tkubectl port-forward deployment/mydeployment 5000 6000" "\n" "\t\t# Listen on ports 5000 and 6000 locally, forwarding data to/from ports 5000 and 6000 in a pod selected by the service" "\t\tkubectl port-forward service/myservice 5000 6000" "\n" "\t\t# Listen on port 8888 locally, forwarding to 5000 in the pod" "\t\tkubectl port-forward pod/mypod 8888:5000" "\n" "\t\t# Listen on a random port locally, forwarding to 5000 in the pod" "\t\tkubectl port-forward pod/mypod :5000" #: pkg/kubectl/cmd/drain.go:118 msgid "" "\n" "\t\t# Mark node \"foo\" as schedulable.\n" "\t\t$ kubectl uncordon foo" msgstr "" "\n" "\t\t# Mark node \"foo\" as schedulable.\n" "\t\t$ kubectl uncordon foo" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/drain.go#L102 #: pkg/kubectl/cmd/drain.go:93 msgid "" "\n" "\t\t# Mark node \"foo\" as unschedulable.\n" "\t\tkubectl cordon foo" msgstr "" "\n" "\t\t# Mark node \"foo\" as unschedulable.\n" "\t\tkubectl cordon foo" #: pkg/kubectl/cmd/patch.go:66 msgid "" "\n" "\t\t# Partially update a node using strategic merge patch\n" "\t\tkubectl patch node k8s-node-1 -p '{\"spec\":{\"unschedulable\":true}}'\n" "\n" "\t\t# Partially update a node identified by the type and name specified in " "\"node.json\" using strategic merge patch\n" "\t\tkubectl patch -f node.json -p '{\"spec\":{\"unschedulable\":true}}'\n" "\n" "\t\t# Update a container's image; spec.containers[*].name is required " "because it's a merge key\n" "\t\tkubectl patch pod valid-pod -p '{\"spec\":{\"containers\":[{\"name\":" "\"kubernetes-serve-hostname\",\"image\":\"new image\"}]}}'\n" "\n" "\t\t# Update a container's image using a json patch with positional arrays\n" "\t\tkubectl patch pod valid-pod --type='json' -p='[{\"op\": \"replace\", " "\"path\": \"/spec/containers/0/image\", \"value\":\"new image\"}]'" msgstr "" "\n" "\t\t# Partially update a node using strategic merge patch\n" "\t\tkubectl patch node k8s-node-1 -p '{\"spec\":{\"unschedulable\":true}}'\n" "\n" "\t\t# Partially update a node identified by the type and name specified in " "\"node.json\" using strategic merge patch\n" "\t\tkubectl patch -f node.json -p '{\"spec\":{\"unschedulable\":true}}'\n" "\n" "\t\t# Update a container's image; spec.containers[*].name is required " "because it's a merge key\n" "\t\tkubectl patch pod valid-pod -p '{\"spec\":{\"containers\":[{\"name\":" "\"kubernetes-serve-hostname\",\"image\":\"new image\"}]}}'\n" "\n" "\t\t# Update a container's image using a json patch with positional arrays\n" "\t\tkubectl patch pod valid-pod --type='json' -p='[{\"op\": \"replace\", " "\"path\": \"/spec/containers/0/image\", \"value\":\"new image\"}]'" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/options.go#L37 #: pkg/kubectl/cmd/options.go:29 msgid "" "\n" "\t\t# Print flags inherited by all commands\n" "\t\tkubectl options" msgstr "" "\n" "\t\t# Print flags inherited by all commands\n" "\t\tkubectl options" #: pkg/kubectl/cmd/clusterinfo.go:41 msgid "" "\n" "\t\t# Print the address of the master and cluster services\n" "\t\tkubectl cluster-info" msgstr "" "\n" "\t\t# Print the address of the master and cluster services\n" "\t\tkubectl cluster-info" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/version.go#L39 #: pkg/kubectl/cmd/version.go:32 msgid "" "\n" "\t\t# Print the client and server versions for the current context\n" "\t\tkubectl version" msgstr "" "\n" "\t\t# Print the client and server versions for the current context\n" "\t\tkubectl version" #: pkg/kubectl/cmd/apiversions.go:34 msgid "" "\n" "\t\t# Print the supported API versions\n" "\t\tkubectl api-versions" msgstr "" "\n" "\t\t# Print the supported API versions\n" "\t\tkubectl api-versions" #: pkg/kubectl/cmd/replace.go:50 msgid "" "\n" "\t\t# Replace a pod using the data in pod.json.\n" "\t\tkubectl replace -f ./pod.json\n" "\n" "\t\t# Replace a pod based on the JSON passed into stdin.\n" "\t\tcat pod.json | kubectl replace -f -\n" "\n" "\t\t# Update a single-container pod's image version (tag) to v4\n" "\t\tkubectl get pod mypod -o yaml | sed 's/\\(image: myimage\\):.*$/:v4/' | " "kubectl replace -f -\n" "\n" "\t\t# Force replace, delete and then re-create the resource\n" "\t\tkubectl replace --force -f ./pod.json" msgstr "" "\n" "\t\t# Replace a pod using the data in pod.json.\n" "\t\tkubectl replace -f ./pod.json\n" "\n" "\t\t# Replace a pod based on the JSON passed into stdin.\n" "\t\tcat pod.json | kubectl replace -f -\n" "\n" "\t\t# Update a single-container pod's image version (tag) to v4\n" "\t\tkubectl get pod mypod -o yaml | sed 's/\\(image: myimage\\):.*$/:v4/' | " "kubectl replace -f -\n" "\n" "\t\t# Force replace, delete and then re-create the resource\n" "\t\tkubectl replace --force -f ./pod.json" #: pkg/kubectl/cmd/logs.go:40 msgid "" "\n" "\t\t# Return snapshot logs from pod nginx with only one container\n" "\t\tkubectl logs nginx\n" "\n" "\t\t# Return snapshot logs for the pods defined by label app=nginx\n" "\t\tkubectl logs -lapp=nginx\n" "\n" "\t\t# Return snapshot of previous terminated ruby container logs from pod " "web-1\n" "\t\tkubectl logs -p -c ruby web-1\n" "\n" "\t\t# Begin streaming the logs of the ruby container in pod web-1\n" "\t\tkubectl logs -f -c ruby web-1\n" "\n" "\t\t# Display only the most recent 20 lines of output in pod nginx\n" "\t\tkubectl logs --tail=20 nginx\n" "\n" "\t\t# Show all logs from pod nginx written in the last hour\n" "\t\tkubectl logs --since=1h nginx\n" "\n" "\t\t# Return snapshot logs from first container of a job named hello\n" "\t\tkubectl logs job/hello\n" "\n" "\t\t# Return snapshot logs from container nginx-1 of a deployment named " "nginx\n" "\t\tkubectl logs deployment/nginx -c nginx-1" msgstr "" "\n" "\t\t# Return snapshot logs from pod nginx with only one container\n" "\t\tkubectl logs nginx\n" "\n" "\t\t# Return snapshot logs for the pods defined by label app=nginx\n" "\t\tkubectl logs -lapp=nginx\n" "\n" "\t\t# Return snapshot of previous terminated ruby container logs from pod " "web-1\n" "\t\tkubectl logs -p -c ruby web-1\n" "\n" "\t\t# Begin streaming the logs of the ruby container in pod web-1\n" "\t\tkubectl logs -f -c ruby web-1\n" "\n" "\t\t# Display only the most recent 20 lines of output in pod nginx\n" "\t\tkubectl logs --tail=20 nginx\n" "\n" "\t\t# Show all logs from pod nginx written in the last hour\n" "\t\tkubectl logs --since=1h nginx\n" "\n" "\t\t# Return snapshot logs from first container of a job named hello\n" "\t\tkubectl logs job/hello\n" "\n" "\t\t# Return snapshot logs from container nginx-1 of a deployment named " "nginx\n" "\t\tkubectl logs deployment/nginx -c nginx-1" #: pkg/kubectl/cmd/proxy.go:53 msgid "" "\n" "\t\t# Run a proxy to kubernetes apiserver on port 8011, serving static " "content from ./local/www/\n" "\t\tkubectl proxy --port=8011 --www=./local/www/\n" "\n" "\t\t# Run a proxy to kubernetes apiserver on an arbitrary local port.\n" "\t\t# The chosen port for the server will be output to stdout.\n" "\t\tkubectl proxy --port=0\n" "\n" "\t\t# Run a proxy to kubernetes apiserver, changing the api prefix to k8s-" "api\n" "\t\t# This makes e.g. the pods api available at localhost:8001/k8s-api/v1/" "pods/\n" "\t\tkubectl proxy --api-prefix=/k8s-api" msgstr "" "\n" "\t\t# Run a proxy to kubernetes apiserver on port 8011, serving static " "content from ./local/www/\n" "\t\tkubectl proxy --port=8011 --www=./local/www/\n" "\n" "\t\t# Run a proxy to kubernetes apiserver on an arbitrary local port.\n" "\t\t# The chosen port for the server will be output to stdout.\n" "\t\tkubectl proxy --port=0\n" "\n" "\t\t# Run a proxy to kubernetes apiserver, changing the api prefix to k8s-" "api\n" "\t\t# This makes e.g. the pods api available at localhost:8001/k8s-api/v1/" "pods/\n" "\t\tkubectl proxy --api-prefix=/k8s-api" #: pkg/kubectl/cmd/scale.go:43 msgid "" "\n" "\t\t# Scale a replicaset named 'foo' to 3.\n" "\t\tkubectl scale --replicas=3 rs/foo\n" "\n" "\t\t# Scale a resource identified by type and name specified in \"foo.yaml\" " "to 3.\n" "\t\tkubectl scale --replicas=3 -f foo.yaml\n" "\n" "\t\t# If the deployment named mysql's current size is 2, scale mysql to 3.\n" "\t\tkubectl scale --current-replicas=2 --replicas=3 deployment/mysql\n" "\n" "\t\t# Scale multiple replication controllers.\n" "\t\tkubectl scale --replicas=5 rc/foo rc/bar rc/baz\n" "\n" "\t\t# Scale job named 'cron' to 3.\n" "\t\tkubectl scale --replicas=3 job/cron" msgstr "" "\n" "\t\t# Scale a replicaset named 'foo' to 3.\n" "\t\tkubectl scale --replicas=3 rs/foo\n" "\n" "\t\t# Scale a resource identified by type and name specified in \"foo.yaml\" " "to 3.\n" "\t\tkubectl scale --replicas=3 -f foo.yaml\n" "\n" "\t\t# If the deployment named mysql's current size is 2, scale mysql to 3.\n" "\t\tkubectl scale --current-replicas=2 --replicas=3 deployment/mysql\n" "\n" "\t\t# Scale multiple replication controllers.\n" "\t\tkubectl scale --replicas=5 rc/foo rc/bar rc/baz\n" "\n" "\t\t# Scale job named 'cron' to 3.\n" "\t\tkubectl scale --replicas=3 job/cron" #: pkg/kubectl/cmd/apply_set_last_applied.go:67 msgid "" "\n" "\t\t# Set the last-applied-configuration of a resource to match the contents " "of a file.\n" "\t\tkubectl apply set-last-applied -f deploy.yaml\n" "\n" "\t\t# Execute set-last-applied against each configuration file in a " "directory.\n" "\t\tkubectl apply set-last-applied -f path/\n" "\n" "\t\t# Set the last-applied-configuration of a resource to match the contents " "of a file, will create the annotation if it does not already exist.\n" "\t\tkubectl apply set-last-applied -f deploy.yaml --create-annotation=true\n" "\t\t" msgstr "" "\n" "\t\t# Set the last-applied-configuration of a resource to match the contents " "of a file.\n" "\t\tkubectl apply set-last-applied -f deploy.yaml\n" "\n" "\t\t# Execute set-last-applied against each configuration file in a " "directory.\n" "\t\tkubectl apply set-last-applied -f path/\n" "\n" "\t\t# Set the last-applied-configuration of a resource to match the contents " "of a file, will create the annotation if it does not already exist.\n" "\t\tkubectl apply set-last-applied -f deploy.yaml --create-annotation=true\n" "\t\t" #: pkg/kubectl/cmd/top_pod.go:61 msgid "" "\n" "\t\t# Show metrics for all pods in the default namespace\n" "\t\tkubectl top pod\n" "\n" "\t\t# Show metrics for all pods in the given namespace\n" "\t\tkubectl top pod --namespace=NAMESPACE\n" "\n" "\t\t# Show metrics for a given pod and its containers\n" "\t\tkubectl top pod POD_NAME --containers\n" "\n" "\t\t# Show metrics for the pods defined by label name=myLabel\n" "\t\tkubectl top pod -l name=myLabel" msgstr "" "\n" "\t\t# Show metrics for all pods in the default namespace\n" "\t\tkubectl top pod\n" "\n" "\t\t# Show metrics for all pods in the given namespace\n" "\t\tkubectl top pod --namespace=NAMESPACE\n" "\n" "\t\t# Show metrics for a given pod and its containers\n" "\t\tkubectl top pod POD_NAME --containers\n" "\n" "\t\t# Show metrics for the pods defined by label name=myLabel\n" "\t\tkubectl top pod -l name=myLabel" #: pkg/kubectl/cmd/stop.go:40 msgid "" "\n" "\t\t# Shut down foo.\n" "\t\tkubectl stop replicationcontroller foo\n" "\n" "\t\t# Stop pods and services with label name=myLabel.\n" "\t\tkubectl stop pods,services -l name=myLabel\n" "\n" "\t\t# Shut down the service defined in service.json\n" "\t\tkubectl stop -f service.json\n" "\n" "\t\t# Shut down all resources in the path/to/resources directory\n" "\t\tkubectl stop -f path/to/resources" msgstr "" "\n" "\t\t# Shut down foo.\n" "\t\tkubectl stop replicationcontroller foo\n" "\n" "\t\t# Stop pods and services with label name=myLabel.\n" "\t\tkubectl stop pods,services -l name=myLabel\n" "\n" "\t\t# Shut down the service defined in service.json\n" "\t\tkubectl stop -f service.json\n" "\n" "\t\t# Shut down all resources in the path/to/resources directory\n" "\t\tkubectl stop -f path/to/resources" #: pkg/kubectl/cmd/run.go:57 msgid "" "\n" "\t\t# Start a single instance of nginx.\n" "\t\tkubectl run nginx --image=nginx\n" "\n" "\t\t# Start a single instance of hazelcast and let the container expose port " "5701 .\n" "\t\tkubectl run hazelcast --image=hazelcast --port=5701\n" "\n" "\t\t# Start a single instance of hazelcast and set environment variables " "\"DNS_DOMAIN=cluster\" and \"POD_NAMESPACE=default\" in the container.\n" "\t\tkubectl run hazelcast --image=hazelcast --env=\"DNS_DOMAIN=cluster\" --" "env=\"POD_NAMESPACE=default\"\n" "\n" "\t\t# Start a replicated instance of nginx.\n" "\t\tkubectl run nginx --image=nginx --replicas=5\n" "\n" "\t\t# Dry run. Print the corresponding API objects without creating them.\n" "\t\tkubectl run nginx --image=nginx --dry-run\n" "\n" "\t\t# Start a single instance of nginx, but overload the spec of the " "deployment with a partial set of values parsed from JSON.\n" "\t\tkubectl run nginx --image=nginx --overrides='{ \"apiVersion\": \"v1\", " "\"spec\": { ... } }'\n" "\n" "\t\t# Start a pod of busybox and keep it in the foreground, don't restart it " "if it exits.\n" "\t\tkubectl run -i -t busybox --image=busybox --restart=Never\n" "\n" "\t\t# Start the nginx container using the default command, but use custom " "arguments (arg1 .. argN) for that command.\n" "\t\tkubectl run nginx --image=nginx -- ... \n" "\n" "\t\t# Start the nginx container using a different command and custom " "arguments.\n" "\t\tkubectl run nginx --image=nginx --command -- ... \n" "\n" "\t\t# Start the perl container to compute π to 2000 places and print it " "out.\n" "\t\tkubectl run pi --image=perl --restart=OnFailure -- perl -Mbignum=bpi -" "wle 'print bpi(2000)'\n" "\n" "\t\t# Start the cron job to compute π to 2000 places and print it out every " "5 minutes.\n" "\t\tkubectl run pi --schedule=\"0/5 * * * ?\" --image=perl --" "restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'" msgstr "" "\n" "\t\t# Start a single instance of nginx.\n" "\t\tkubectl run nginx --image=nginx\n" "\n" "\t\t# Start a single instance of hazelcast and let the container expose port " "5701 .\n" "\t\tkubectl run hazelcast --image=hazelcast --port=5701\n" "\n" "\t\t# Start a single instance of hazelcast and set environment variables " "\"DNS_DOMAIN=cluster\" and \"POD_NAMESPACE=default\" in the container.\n" "\t\tkubectl run hazelcast --image=hazelcast --env=\"DNS_DOMAIN=cluster\" --" "env=\"POD_NAMESPACE=default\"\n" "\n" "\t\t# Start a replicated instance of nginx.\n" "\t\tkubectl run nginx --image=nginx --replicas=5\n" "\n" "\t\t# Dry run. Print the corresponding API objects without creating them.\n" "\t\tkubectl run nginx --image=nginx --dry-run\n" "\n" "\t\t# Start a single instance of nginx, but overload the spec of the " "deployment with a partial set of values parsed from JSON.\n" "\t\tkubectl run nginx --image=nginx --overrides='{ \"apiVersion\": \"v1\", " "\"spec\": { ... } }'\n" "\n" "\t\t# Start a pod of busybox and keep it in the foreground, don't restart it " "if it exits.\n" "\t\tkubectl run -i -t busybox --image=busybox --restart=Never\n" "\n" "\t\t# Start the nginx container using the default command, but use custom " "arguments (arg1 .. argN) for that command.\n" "\t\tkubectl run nginx --image=nginx -- ... \n" "\n" "\t\t# Start the nginx container using a different command and custom " "arguments.\n" "\t\tkubectl run nginx --image=nginx --command -- ... \n" "\n" "\t\t# Start the perl container to compute π to 2000 places and print it " "out.\n" "\t\tkubectl run pi --image=perl --restart=OnFailure -- perl -Mbignum=bpi -" "wle 'print bpi(2000)'\n" "\n" "\t\t# Start the cron job to compute π to 2000 places and print it out every " "5 minutes.\n" "\t\tkubectl run pi --schedule=\"0/5 * * * ?\" --image=perl --" "restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'" #: pkg/kubectl/cmd/taint.go:67 msgid "" "\n" "\t\t# Update node 'foo' with a taint with key 'dedicated' and value 'special-" "user' and effect 'NoSchedule'.\n" "\t\t# If a taint with that key and effect already exists, its value is " "replaced as specified.\n" "\t\tkubectl taint nodes foo dedicated=special-user:NoSchedule\n" "\n" "\t\t# Remove from node 'foo' the taint with key 'dedicated' and effect " "'NoSchedule' if one exists.\n" "\t\tkubectl taint nodes foo dedicated:NoSchedule-\n" "\n" "\t\t# Remove from node 'foo' all the taints with key 'dedicated'\n" "\t\tkubectl taint nodes foo dedicated-" msgstr "" "\n" "\t\t# Update node 'foo' with a taint with key 'dedicated' and value 'special-" "user' and effect 'NoSchedule'.\n" "\t\t# If a taint with that key and effect already exists, its value is " "replaced as specified.\n" "\t\tkubectl taint nodes foo dedicated=special-user:NoSchedule\n" "\n" "\t\t# Remove from node 'foo' the taint with key 'dedicated' and effect " "'NoSchedule' if one exists.\n" "\t\tkubectl taint nodes foo dedicated:NoSchedule-\n" "\n" "\t\t# Remove from node 'foo' all the taints with key 'dedicated'\n" "\t\tkubectl taint nodes foo dedicated-" #: pkg/kubectl/cmd/label.go:77 msgid "" "\n" "\t\t# Update pod 'foo' with the label 'unhealthy' and the value 'true'.\n" "\t\tkubectl label pods foo unhealthy=true\n" "\n" "\t\t# Update pod 'foo' with the label 'status' and the value 'unhealthy', " "overwriting any existing value.\n" "\t\tkubectl label --overwrite pods foo status=unhealthy\n" "\n" "\t\t# Update all pods in the namespace\n" "\t\tkubectl label pods --all status=unhealthy\n" "\n" "\t\t# Update a pod identified by the type and name in \"pod.json\"\n" "\t\tkubectl label -f pod.json status=unhealthy\n" "\n" "\t\t# Update pod 'foo' only if the resource is unchanged from version 1.\n" "\t\tkubectl label pods foo status=unhealthy --resource-version=1\n" "\n" "\t\t# Update pod 'foo' by removing a label named 'bar' if it exists.\n" "\t\t# Does not require the --overwrite flag.\n" "\t\tkubectl label pods foo bar-" msgstr "" "\n" "\t\t# Update pod 'foo' with the label 'unhealthy' and the value 'true'.\n" "\t\tkubectl label pods foo unhealthy=true\n" "\n" "\t\t# Update pod 'foo' with the label 'status' and the value 'unhealthy', " "overwriting any existing value.\n" "\t\tkubectl label --overwrite pods foo status=unhealthy\n" "\n" "\t\t# Update all pods in the namespace\n" "\t\tkubectl label pods --all status=unhealthy\n" "\n" "\t\t# Update a pod identified by the type and name in \"pod.json\"\n" "\t\tkubectl label -f pod.json status=unhealthy\n" "\n" "\t\t# Update pod 'foo' only if the resource is unchanged from version 1.\n" "\t\tkubectl label pods foo status=unhealthy --resource-version=1\n" "\n" "\t\t# Update pod 'foo' by removing a label named 'bar' if it exists.\n" "\t\t# Does not require the --overwrite flag.\n" "\t\tkubectl label pods foo bar-" #: pkg/kubectl/cmd/rollingupdate.go:54 msgid "" "\n" "\t\t# Update pods of frontend-v1 using new replication controller data in " "frontend-v2.json.\n" "\t\tkubectl rolling-update frontend-v1 -f frontend-v2.json\n" "\n" "\t\t# Update pods of frontend-v1 using JSON data passed into stdin.\n" "\t\tcat frontend-v2.json | kubectl rolling-update frontend-v1 -f -\n" "\n" "\t\t# Update the pods of frontend-v1 to frontend-v2 by just changing the " "image, and switching the\n" "\t\t# name of the replication controller.\n" "\t\tkubectl rolling-update frontend-v1 frontend-v2 --image=image:v2\n" "\n" "\t\t# Update the pods of frontend by just changing the image, and keeping " "the old name.\n" "\t\tkubectl rolling-update frontend --image=image:v2\n" "\n" "\t\t# Abort and reverse an existing rollout in progress (from frontend-v1 to " "frontend-v2).\n" "\t\tkubectl rolling-update frontend-v1 frontend-v2 --rollback" msgstr "" "\n" "\t\t# Update pods of frontend-v1 using new replication controller data in " "frontend-v2.json.\n" "\t\tkubectl rolling-update frontend-v1 -f frontend-v2.json\n" "\n" "\t\t# Update pods of frontend-v1 using JSON data passed into stdin.\n" "\t\tcat frontend-v2.json | kubectl rolling-update frontend-v1 -f -\n" "\n" "\t\t# Update the pods of frontend-v1 to frontend-v2 by just changing the " "image, and switching the\n" "\t\t# name of the replication controller.\n" "\t\tkubectl rolling-update frontend-v1 frontend-v2 --image=image:v2\n" "\n" "\t\t# Update the pods of frontend by just changing the image, and keeping " "the old name.\n" "\t\tkubectl rolling-update frontend --image=image:v2\n" "\n" "\t\t# Abort and reverse an existing rollout in progress (from frontend-v1 to " "frontend-v2).\n" "\t\tkubectl rolling-update frontend-v1 frontend-v2 --rollback" #: pkg/kubectl/cmd/apply_view_last_applied.go:52 msgid "" "\n" "\t\t# View the last-applied-configuration annotations by type/name in YAML.\n" "\t\tkubectl apply view-last-applied deployment/nginx\n" "\n" "\t\t# View the last-applied-configuration annotations by file in JSON\n" "\t\tkubectl apply view-last-applied -f deploy.yaml -o json" msgstr "" "\n" "\t\t# View the last-applied-configuration annotations by type/name in YAML.\n" "\t\tkubectl apply view-last-applied deployment/nginx\n" "\n" "\t\t# View the last-applied-configuration annotations by file in JSON\n" "\t\tkubectl apply view-last-applied -f deploy.yaml -o json" #: pkg/kubectl/cmd/apply.go:75 msgid "" "\n" "\t\tApply a configuration to a resource by filename or stdin.\n" "\t\tThis resource will be created if it doesn't exist yet.\n" "\t\tTo use 'apply', always create the resource initially with either 'apply' " "or 'create --save-config'.\n" "\n" "\t\tJSON and YAML formats are accepted.\n" "\n" "\t\tAlpha Disclaimer: the --prune functionality is not yet complete. Do not " "use unless you are aware of what the current state is. See https://issues." "k8s.io/34274." msgstr "" "\n" "\t\tApply a configuration to a resource by filename or stdin.\n" "\t\tThis resource will be created if it doesn't exist yet.\n" "\t\tTo use 'apply', always create the resource initially with either 'apply' " "or 'create --save-config'.\n" "\n" "\t\tJSON and YAML formats are accepted.\n" "\n" "\t\tAlpha Disclaimer: the --prune functionality is not yet complete. Do not " "use unless you are aware of what the current state is. See https://issues." "k8s.io/34274." #: pkg/kubectl/cmd/convert.go:38 msgid "" "\n" "\t\tConvert config files between different API versions. Both YAML\n" "\t\tand JSON formats are accepted.\n" "\n" "\t\tThe command takes filename, directory, or URL as input, and convert it " "into format\n" "\t\tof version specified by --output-version flag. If target version is not " "specified or\n" "\t\tnot supported, convert to latest version.\n" "\n" "\t\tThe default output will be printed to stdout in YAML format. One can use " "-o option\n" "\t\tto change to output destination." msgstr "" "\n" "\t\tConvert config files between different API versions. Both YAML\n" "\t\tand JSON formats are accepted.\n" "\n" "\t\tThe command takes filename, directory, or URL as input, and convert it " "into format\n" "\t\tof version specified by --output-version flag. If target version is not " "specified or\n" "\t\tnot supported, convert to latest version.\n" "\n" "\t\tThe default output will be printed to stdout in YAML format. One can use " "-o option\n" "\t\tto change to output destination." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_service.go#L68 #: pkg/kubectl/cmd/create_clusterrole.go:31 msgid "" "\n" "\t\tCreate a ClusterRole." msgstr "" "\n" "\t\tCreate a ClusterRole." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_clusterrolebinding.go#L43 #: pkg/kubectl/cmd/create_clusterrolebinding.go:32 msgid "" "\n" "\t\tCreate a ClusterRoleBinding for a particular ClusterRole." msgstr "" "\n" "\t\tCreate a ClusterRoleBinding for a particular ClusterRole." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_rolebinding.go#L43 #: pkg/kubectl/cmd/create_rolebinding.go:32 msgid "" "\n" "\t\tCreate a RoleBinding for a particular Role or ClusterRole." msgstr "" "\n" "\t\tCreate a RoleBinding for a particular Role or ClusterRole." #: pkg/kubectl/cmd/create_secret.go:200 msgid "" "\n" "\t\tCreate a TLS secret from the given public/private key pair.\n" "\n" "\t\tThe public/private key pair must exist before hand. The public key " "certificate must be .PEM encoded and match the given private key." msgstr "" "\n" "\t\tCreate a TLS secret from the given public/private key pair.\n" "\n" "\t\tThe public/private key pair must exist before hand. The public key " "certificate must be .PEM encoded and match the given private key." #: pkg/kubectl/cmd/create_configmap.go:32 msgid "" "\n" "\t\tCreate a configmap based on a file, directory, or specified literal " "value.\n" "\n" "\t\tA single configmap may package one or more key/value pairs.\n" "\n" "\t\tWhen creating a configmap based on a file, the key will default to the " "basename of the file, and the value will\n" "\t\tdefault to the file content. If the basename is an invalid key, you may " "specify an alternate key.\n" "\n" "\t\tWhen creating a configmap based on a directory, each file whose basename " "is a valid key in the directory will be\n" "\t\tpackaged into the configmap. Any directory entries except regular files " "are ignored (e.g. subdirectories,\n" "\t\tsymlinks, devices, pipes, etc)." msgstr "" "\n" "\t\tCreate a configmap based on a file, directory, or specified literal " "value.\n" "\n" "\t\tA single configmap may package one or more key/value pairs.\n" "\n" "\t\tWhen creating a configmap based on a file, the key will default to the " "basename of the file, and the value will\n" "\t\tdefault to the file content. If the basename is an invalid key, you may " "specify an alternate key.\n" "\n" "\t\tWhen creating a configmap based on a directory, each file whose basename " "is a valid key in the directory will be\n" "\t\tpackaged into the configmap. Any directory entries except regular files " "are ignored (e.g. subdirectories,\n" "\t\tsymlinks, devices, pipes, etc)." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_namespace.go#L44 #: pkg/kubectl/cmd/create_namespace.go:32 msgid "" "\n" "\t\tCreate a namespace with the specified name." msgstr "" "\n" "\t\tCreate a namespace with the specified name." #: pkg/kubectl/cmd/create_secret.go:119 msgid "" "\n" "\t\tCreate a new secret for use with Docker registries.\n" "\n" "\t\tDockercfg secrets are used to authenticate against Docker registries.\n" "\n" "\t\tWhen using the Docker command line to push images, you can authenticate " "to a given registry by running\n" "\n" "\t\t $ docker login DOCKER_REGISTRY_SERVER --username=DOCKER_USER --" "password=DOCKER_PASSWORD --email=DOCKER_EMAIL'.\n" "\n" " That produces a ~/.dockercfg file that is used by subsequent 'docker " "push' and 'docker pull' commands to\n" "\t\tauthenticate to the registry. The email address is optional.\n" "\n" "\t\tWhen creating applications, you may have a Docker registry that requires " "authentication. In order for the\n" "\t\tnodes to pull images on your behalf, they have to have the credentials. " "You can provide this information\n" "\t\tby creating a dockercfg secret and attaching it to your service account." msgstr "" "\n" "\t\tCreate a new secret for use with Docker registries.\n" "\n" "\t\tDockercfg secrets are used to authenticate against Docker registries.\n" "\n" "\t\tWhen using the Docker command line to push images, you can authenticate " "to a given registry by running\n" "\n" "\t\t $ docker login DOCKER_REGISTRY_SERVER --username=DOCKER_USER --" "password=DOCKER_PASSWORD --email=DOCKER_EMAIL'.\n" "\n" " That produces a ~/.dockercfg file that is used by subsequent 'docker " "push' and 'docker pull' commands to\n" "\t\tauthenticate to the registry. The email address is optional.\n" "\n" "\t\tWhen creating applications, you may have a Docker registry that requires " "authentication. In order for the\n" "\t\tnodes to pull images on your behalf, they have to have the credentials. " "You can provide this information\n" "\t\tby creating a dockercfg secret and attaching it to your service account." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_pdb.go#L49 #: pkg/kubectl/cmd/create_pdb.go:32 msgid "" "\n" "\t\tCreate a pod disruption budget with the specified name, selector, and " "desired minimum available pods" msgstr "" "\n" "\t\tCreate a pod disruption budget with the specified name, selector, and " "desired minimum available pods" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create.go#L56 #: pkg/kubectl/cmd/create.go:42 msgid "" "\n" "\t\tCreate a resource by filename or stdin.\n" "\n" "\t\tJSON and YAML formats are accepted." msgstr "" "\n" "\t\tCreate a resource by filename or stdin.\n" "\n" "\t\tJSON and YAML formats are accepted." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_quota.go#L47 #: pkg/kubectl/cmd/create_quota.go:32 msgid "" "\n" "\t\tCreate a resourcequota with the specified name, hard limits and optional " "scopes" msgstr "" "\n" "\t\tCreate a resourcequota with the specified name, hard limits and optional " "scopes" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_quota.go#L47 #: pkg/kubectl/cmd/create_role.go:38 msgid "" "\n" "\t\tCreate a role with single rule." msgstr "" "\n" "\t\tCreate a role with single rule." #: pkg/kubectl/cmd/create_secret.go:47 msgid "" "\n" "\t\tCreate a secret based on a file, directory, or specified literal value.\n" "\n" "\t\tA single secret may package one or more key/value pairs.\n" "\n" "\t\tWhen creating a secret based on a file, the key will default to the " "basename of the file, and the value will\n" "\t\tdefault to the file content. If the basename is an invalid key, you may " "specify an alternate key.\n" "\n" "\t\tWhen creating a secret based on a directory, each file whose basename is " "a valid key in the directory will be\n" "\t\tpackaged into the secret. Any directory entries except regular files " "are ignored (e.g. subdirectories,\n" "\t\tsymlinks, devices, pipes, etc)." msgstr "" "\n" "\t\tCreate a secret based on a file, directory, or specified literal value.\n" "\n" "\t\tA single secret may package one or more key/value pairs.\n" "\n" "\t\tWhen creating a secret based on a file, the key will default to the " "basename of the file, and the value will\n" "\t\tdefault to the file content. If the basename is an invalid key, you may " "specify an alternate key.\n" "\n" "\t\tWhen creating a secret based on a directory, each file whose basename is " "a valid key in the directory will be\n" "\t\tpackaged into the secret. Any directory entries except regular files " "are ignored (e.g. subdirectories,\n" "\t\tsymlinks, devices, pipes, etc)." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_serviceaccount.go#L44 #: pkg/kubectl/cmd/create_serviceaccount.go:32 msgid "" "\n" "\t\tCreate a service account with the specified name." msgstr "" "\n" "\t\tCreate a service account with the specified name." #: pkg/kubectl/cmd/run.go:52 msgid "" "\n" "\t\tCreate and run a particular image, possibly replicated.\n" "\n" "\t\tCreates a deployment or job to manage the created container(s)." msgstr "" "\n" "\t\tCreate and run a particular image, possibly replicated.\n" "\n" "\t\tCreates a deployment or job to manage the created container(s)." #: pkg/kubectl/cmd/autoscale.go:34 msgid "" "\n" "\t\tCreates an autoscaler that automatically chooses and sets the number of " "pods that run in a kubernetes cluster.\n" "\n" "\t\tLooks up a Deployment, ReplicaSet, or ReplicationController by name and " "creates an autoscaler that uses the given resource as a reference.\n" "\t\tAn autoscaler can automatically increase or decrease number of pods " "deployed within the system as needed." msgstr "" "\n" "\t\tCreates an autoscaler that automatically chooses and sets the number of " "pods that run in a kubernetes cluster.\n" "\n" "\t\tLooks up a Deployment, ReplicaSet, or ReplicationController by name and " "creates an autoscaler that uses the given resource as a reference.\n" "\t\tAn autoscaler can automatically increase or decrease number of pods " "deployed within the system as needed." #: pkg/kubectl/cmd/delete.go:40 msgid "" "\n" "\t\tDelete resources by filenames, stdin, resources and names, or by " "resources and label selector.\n" "\n" "\t\tJSON and YAML formats are accepted. Only one type of the arguments may " "be specified: filenames,\n" "\t\tresources and names, or resources and label selector.\n" "\n" "\t\tSome resources, such as pods, support graceful deletion. These resources " "define a default period\n" "\t\tbefore they are forcibly terminated (the grace period) but you may " "override that value with\n" "\t\tthe --grace-period flag, or pass --now to set a grace-period of 1. " "Because these resources often\n" "\t\trepresent entities in the cluster, deletion may not be acknowledged " "immediately. If the node\n" "\t\thosting a pod is down or cannot reach the API server, termination may " "take significantly longer\n" "\t\tthan the grace period. To force delete a resource,\tyou must pass a grace" "\tperiod of 0 and specify\n" "\t\tthe --force flag.\n" "\n" "\t\tIMPORTANT: Force deleting pods does not wait for confirmation that the " "pod's processes have been\n" "\t\tterminated, which can leave those processes running until the node " "detects the deletion and\n" "\t\tcompletes graceful deletion. If your processes use shared storage or " "talk to a remote API and\n" "\t\tdepend on the name of the pod to identify themselves, force deleting " "those pods may result in\n" "\t\tmultiple processes running on different machines using the same " "identification which may lead\n" "\t\tto data corruption or inconsistency. Only force delete pods when you are " "sure the pod is\n" "\t\tterminated, or if your application can tolerate multiple copies of the " "same pod running at once.\n" "\t\tAlso, if you force delete pods the scheduler may place new pods on those " "nodes before the node\n" "\t\thas released those resources and causing those pods to be evicted " "immediately.\n" "\n" "\t\tNote that the delete command does NOT do resource version checks, so if " "someone\n" "\t\tsubmits an update to a resource right when you submit a delete, their " "update\n" "\t\twill be lost along with the rest of the resource." msgstr "" "\n" "\t\tDelete resources by filenames, stdin, resources and names, or by " "resources and label selector.\n" "\n" "\t\tJSON and YAML formats are accepted. Only one type of the arguments may " "be specified: filenames,\n" "\t\tresources and names, or resources and label selector.\n" "\n" "\t\tSome resources, such as pods, support graceful deletion. These resources " "define a default period\n" "\t\tbefore they are forcibly terminated (the grace period) but you may " "override that value with\n" "\t\tthe --grace-period flag, or pass --now to set a grace-period of 1. " "Because these resources often\n" "\t\trepresent entities in the cluster, deletion may not be acknowledged " "immediately. If the node\n" "\t\thosting a pod is down or cannot reach the API server, termination may " "take significantly longer\n" "\t\tthan the grace period. To force delete a resource,\tyou must pass a grace" "\tperiod of 0 and specify\n" "\t\tthe --force flag.\n" "\n" "\t\tIMPORTANT: Force deleting pods does not wait for confirmation that the " "pod's processes have been\n" "\t\tterminated, which can leave those processes running until the node " "detects the deletion and\n" "\t\tcompletes graceful deletion. If your processes use shared storage or " "talk to a remote API and\n" "\t\tdepend on the name of the pod to identify themselves, force deleting " "those pods may result in\n" "\t\tmultiple processes running on different machines using the same " "identification which may lead\n" "\t\tto data corruption or inconsistency. Only force delete pods when you are " "sure the pod is\n" "\t\tterminated, or if your application can tolerate multiple copies of the " "same pod running at once.\n" "\t\tAlso, if you force delete pods the scheduler may place new pods on those " "nodes before the node\n" "\t\thas released those resources and causing those pods to be evicted " "immediately.\n" "\n" "\t\tNote that the delete command does NOT do resource version checks, so if " "someone\n" "\t\tsubmits an update to a resource right when you submit a delete, their " "update\n" "\t\twill be lost along with the rest of the resource." #: pkg/kubectl/cmd/stop.go:31 msgid "" "\n" "\t\tDeprecated: Gracefully shut down a resource by name or filename.\n" "\n" "\t\tThe stop command is deprecated, all its functionalities are covered by " "delete command.\n" "\t\tSee 'kubectl delete --help' for more details.\n" "\n" "\t\tAttempts to shut down and delete a resource that supports graceful " "termination.\n" "\t\tIf the resource is scalable it will be scaled to 0 before deletion." msgstr "" "\n" "\t\tDeprecated: Gracefully shut down a resource by name or filename.\n" "\n" "\t\tThe stop command is deprecated, all its functionalities are covered by " "delete command.\n" "\t\tSee 'kubectl delete --help' for more details.\n" "\n" "\t\tAttempts to shut down and delete a resource that supports graceful " "termination.\n" "\t\tIf the resource is scalable it will be scaled to 0 before deletion." #: pkg/kubectl/cmd/top_node.go:60 msgid "" "\n" "\t\tDisplay Resource (CPU/Memory/Storage) usage of nodes.\n" "\n" "\t\tThe top-node command allows you to see the resource consumption of nodes." msgstr "" "\n" "\t\tDisplay Resource (CPU/Memory/Storage) usage of nodes.\n" "\n" "\t\tThe top-node command allows you to see the resource consumption of nodes." #: pkg/kubectl/cmd/top_pod.go:53 msgid "" "\n" "\t\tDisplay Resource (CPU/Memory/Storage) usage of pods.\n" "\n" "\t\tThe 'top pod' command allows you to see the resource consumption of " "pods.\n" "\n" "\t\tDue to the metrics pipeline delay, they may be unavailable for a few " "minutes\n" "\t\tsince pod creation." msgstr "" "\n" "\t\tDisplay Resource (CPU/Memory/Storage) usage of pods.\n" "\n" "\t\tThe 'top pod' command allows you to see the resource consumption of " "pods.\n" "\n" "\t\tDue to the metrics pipeline delay, they may be unavailable for a few " "minutes\n" "\t\tsince pod creation." #: pkg/kubectl/cmd/top.go:33 msgid "" "\n" "\t\tDisplay Resource (CPU/Memory/Storage) usage.\n" "\n" "\t\tThe top command allows you to see the resource consumption for nodes or " "pods.\n" "\n" "\t\tThis command requires Heapster to be correctly configured and working on " "the server. " msgstr "" "\n" "\t\tDisplay Resource (CPU/Memory/Storage) usage.\n" "\n" "\t\tThe top command allows you to see the resource consumption for nodes or " "pods.\n" "\n" "\t\tThis command requires Heapster to be correctly configured and working on " "the server. " #: pkg/kubectl/cmd/drain.go:140 msgid "" "\n" "\t\tDrain node in preparation for maintenance.\n" "\n" "\t\tThe given node will be marked unschedulable to prevent new pods from " "arriving.\n" "\t\t'drain' evicts the pods if the APIServer supports eviction\n" "\t\t(http://kubernetes.io/docs/admin/disruptions/). Otherwise, it will use " "normal DELETE\n" "\t\tto delete the pods.\n" "\t\tThe 'drain' evicts or deletes all pods except mirror pods (which cannot " "be deleted through\n" "\t\tthe API server). If there are DaemonSet-managed pods, drain will not " "proceed\n" "\t\twithout --ignore-daemonsets, and regardless it will not delete any\n" "\t\tDaemonSet-managed pods, because those pods would be immediately replaced " "by the\n" "\t\tDaemonSet controller, which ignores unschedulable markings. If there " "are any\n" "\t\tpods that are neither mirror pods nor managed by ReplicationController,\n" "\t\tReplicaSet, DaemonSet, StatefulSet or Job, then drain will not delete " "any pods unless you\n" "\t\tuse --force. --force will also allow deletion to proceed if the " "managing resource of one\n" "\t\tor more pods is missing.\n" "\n" "\t\t'drain' waits for graceful termination. You should not operate on the " "machine until\n" "\t\tthe command completes.\n" "\n" "\t\tWhen you are ready to put the node back into service, use kubectl " "uncordon, which\n" "\t\twill make the node schedulable again.\n" "\n" "\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_drain.svg)" msgstr "" "\n" "\t\tDrain node in preparation for maintenance.\n" "\n" "\t\tThe given node will be marked unschedulable to prevent new pods from " "arriving.\n" "\t\t'drain' evicts the pods if the APIServer supports eviction\n" "\t\t(http://kubernetes.io/docs/admin/disruptions/). Otherwise, it will use " "normal DELETE\n" "\t\tto delete the pods.\n" "\t\tThe 'drain' evicts or deletes all pods except mirror pods (which cannot " "be deleted through\n" "\t\tthe API server). If there are DaemonSet-managed pods, drain will not " "proceed\n" "\t\twithout --ignore-daemonsets, and regardless it will not delete any\n" "\t\tDaemonSet-managed pods, because those pods would be immediately replaced " "by the\n" "\t\tDaemonSet controller, which ignores unschedulable markings. If there " "are any\n" "\t\tpods that are neither mirror pods nor managed by ReplicationController,\n" "\t\tReplicaSet, DaemonSet, StatefulSet or Job, then drain will not delete " "any pods unless you\n" "\t\tuse --force. --force will also allow deletion to proceed if the " "managing resource of one\n" "\t\tor more pods is missing.\n" "\n" "\t\t'drain' waits for graceful termination. You should not operate on the " "machine until\n" "\t\tthe command completes.\n" "\n" "\t\tWhen you are ready to put the node back into service, use kubectl " "uncordon, which\n" "\t\twill make the node schedulable again.\n" "\n" "\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_drain.svg)" #: pkg/kubectl/cmd/edit.go:56 msgid "" "\n" "\t\tEdit a resource from the default editor.\n" "\n" "\t\tThe edit command allows you to directly edit any API resource you can " "retrieve via the\n" "\t\tcommand line tools. It will open the editor defined by your KUBE_EDITOR, " "or EDITOR\n" "\t\tenvironment variables, or fall back to 'vi' for Linux or 'notepad' for " "Windows.\n" "\t\tYou can edit multiple objects, although changes are applied one at a " "time. The command\n" "\t\taccepts filenames as well as command line arguments, although the files " "you point to must\n" "\t\tbe previously saved versions of resources.\n" "\n" "\t\tEditing is done with the API version used to fetch the resource.\n" "\t\tTo edit using a specific API version, fully-qualify the resource, " "version, and group.\n" "\n" "\t\tThe default format is YAML. To edit in JSON, specify \"-o json\".\n" "\n" "\t\tThe flag --windows-line-endings can be used to force Windows line " "endings,\n" "\t\totherwise the default for your operating system will be used.\n" "\n" "\t\tIn the event an error occurs while updating, a temporary file will be " "created on disk\n" "\t\tthat contains your unapplied changes. The most common error when " "updating a resource\n" "\t\tis another editor changing the resource on the server. When this occurs, " "you will have\n" "\t\tto apply your changes to the newer version of the resource, or update " "your temporary\n" "\t\tsaved copy to include the latest resource version." msgstr "" "\n" "\t\tEdit a resource from the default editor.\n" "\n" "\t\tThe edit command allows you to directly edit any API resource you can " "retrieve via the\n" "\t\tcommand line tools. It will open the editor defined by your KUBE_EDITOR, " "or EDITOR\n" "\t\tenvironment variables, or fall back to 'vi' for Linux or 'notepad' for " "Windows.\n" "\t\tYou can edit multiple objects, although changes are applied one at a " "time. The command\n" "\t\taccepts filenames as well as command line arguments, although the files " "you point to must\n" "\t\tbe previously saved versions of resources.\n" "\n" "\t\tEditing is done with the API version used to fetch the resource.\n" "\t\tTo edit using a specific API version, fully-qualify the resource, " "version, and group.\n" "\n" "\t\tThe default format is YAML. To edit in JSON, specify \"-o json\".\n" "\n" "\t\tThe flag --windows-line-endings can be used to force Windows line " "endings,\n" "\t\totherwise the default for your operating system will be used.\n" "\n" "\t\tIn the event an error occurs while updating, a temporary file will be " "created on disk\n" "\t\tthat contains your unapplied changes. The most common error when " "updating a resource\n" "\t\tis another editor changing the resource on the server. When this occurs, " "you will have\n" "\t\tto apply your changes to the newer version of the resource, or update " "your temporary\n" "\t\tsaved copy to include the latest resource version." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/drain.go#L127 #: pkg/kubectl/cmd/drain.go:115 msgid "" "\n" "\t\tMark node as schedulable." msgstr "" "\n" "\t\tMark node as schedulable." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/drain.go#L102 #: pkg/kubectl/cmd/drain.go:90 msgid "" "\n" "\t\tMark node as unschedulable." msgstr "" "\n" "\t\tMark node as unschedulable." #: pkg/kubectl/cmd/completion.go:47 msgid "" "\n" "\t\tOutput shell completion code for the specified shell (bash or zsh).\n" "\t\tThe shell code must be evaluated to provide interactive\n" "\t\tcompletion of kubectl commands. This can be done by sourcing it from\n" "\t\tthe .bash_profile.\n" "\n" "\t\tNote: this requires the bash-completion framework, which is not " "installed\n" "\t\tby default on Mac. This can be installed by using homebrew:\n" "\n" "\t\t $ brew install bash-completion\n" "\n" "\t\tOnce installed, bash_completion must be evaluated. This can be done by " "adding the\n" "\t\tfollowing line to the .bash_profile\n" "\n" "\t\t $ source $(brew --prefix)/etc/bash_completion\n" "\n" "\t\tNote for zsh users: [1] zsh completions are only supported in versions " "of zsh >= 5.2" msgstr "" "\n" "\t\tOutput shell completion code for the specified shell (bash or zsh).\n" "\t\tThe shell code must be evaluated to provide interactive\n" "\t\tcompletion of kubectl commands. This can be done by sourcing it from\n" "\t\tthe .bash_profile.\n" "\n" "\t\tNote: this requires the bash-completion framework, which is not " "installed\n" "\t\tby default on Mac. This can be installed by using homebrew:\n" "\n" "\t\t $ brew install bash-completion\n" "\n" "\t\tOnce installed, bash_completion must be evaluated. This can be done by " "adding the\n" "\t\tfollowing line to the .bash_profile\n" "\n" "\t\t $ source $(brew --prefix)/etc/bash_completion\n" "\n" "\t\tNote for zsh users: [1] zsh completions are only supported in versions " "of zsh >= 5.2" #: pkg/kubectl/cmd/rollingupdate.go:45 msgid "" "\n" "\t\tPerform a rolling update of the given ReplicationController.\n" "\n" "\t\tReplaces the specified replication controller with a new replication " "controller by updating one pod at a time to use the\n" "\t\tnew PodTemplate. The new-controller.json must specify the same namespace " "as the\n" "\t\texisting replication controller and overwrite at least one (common) " "label in its replicaSelector.\n" "\n" "\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_rollingupdate.svg)" msgstr "" "\n" "\t\tPerform a rolling update of the given ReplicationController.\n" "\n" "\t\tReplaces the specified replication controller with a new replication " "controller by updating one pod at a time to use the\n" "\t\tnew PodTemplate. The new-controller.json must specify the same namespace " "as the\n" "\t\texisting replication controller and overwrite at least one (common) " "label in its replicaSelector.\n" "\n" "\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_rollingupdate.svg)" #: pkg/kubectl/cmd/replace.go:40 msgid "" "\n" "\t\tReplace a resource by filename or stdin.\n" "\n" "\t\tJSON and YAML formats are accepted. If replacing an existing resource, " "the\n" "\t\tcomplete resource spec must be provided. This can be obtained by\n" "\n" "\t\t $ kubectl get TYPE NAME -o yaml\n" "\n" "\t\tPlease refer to the models in https://htmlpreview.github.io/?https://" "github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions." "html to find if a field is mutable." msgstr "" "\n" "\t\tReplace a resource by filename or stdin.\n" "\n" "\t\tJSON and YAML formats are accepted. If replacing an existing resource, " "the\n" "\t\tcomplete resource spec must be provided. This can be obtained by\n" "\n" "\t\t $ kubectl get TYPE NAME -o yaml\n" "\n" "\t\tPlease refer to the models in https://htmlpreview.github.io/?https://" "github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions." "html to find if a field is mutable." #: pkg/kubectl/cmd/scale.go:34 msgid "" "\n" "\t\tSet a new size for a Deployment, ReplicaSet, Replication Controller, or " "Job.\n" "\n" "\t\tScale also allows users to specify one or more preconditions for the " "scale action.\n" "\n" "\t\tIf --current-replicas or --resource-version is specified, it is " "validated before the\n" "\t\tscale is attempted, and it is guaranteed that the precondition holds " "true when the\n" "\t\tscale is sent to the server." msgstr "" "\n" "\t\tSet a new size for a Deployment, ReplicaSet, Replication Controller, or " "Job.\n" "\n" "\t\tScale also allows users to specify one or more preconditions for the " "scale action.\n" "\n" "\t\tIf --current-replicas or --resource-version is specified, it is " "validated before the\n" "\t\tscale is attempted, and it is guaranteed that the precondition holds " "true when the\n" "\t\tscale is sent to the server." #: pkg/kubectl/cmd/apply_set_last_applied.go:62 msgid "" "\n" "\t\tSet the latest last-applied-configuration annotations by setting it to " "match the contents of a file.\n" "\t\tThis results in the last-applied-configuration being updated as though " "'kubectl apply -f ' was run,\n" "\t\twithout updating any other parts of the object." msgstr "" "\n" "\t\tSet the latest last-applied-configuration annotations by setting it to " "match the contents of a file.\n" "\t\tThis results in the last-applied-configuration being updated as though " "'kubectl apply -f ' was run,\n" "\t\twithout updating any other parts of the object." #: pkg/kubectl/cmd/proxy.go:36 msgid "" "\n" "\t\tTo proxy all of the kubernetes api and nothing else, use:\n" "\n" "\t\t $ kubectl proxy --api-prefix=/\n" "\n" "\t\tTo proxy only part of the kubernetes api and also some static files:\n" "\n" "\t\t $ kubectl proxy --www=/my/files --www-prefix=/static/ --api-prefix=/" "api/\n" "\n" "\t\tThe above lets you 'curl localhost:8001/api/v1/pods'.\n" "\n" "\t\tTo proxy the entire kubernetes api at a different root, use:\n" "\n" "\t\t $ kubectl proxy --api-prefix=/custom/\n" "\n" "\t\tThe above lets you 'curl localhost:8001/custom/api/v1/pods'" msgstr "" "\n" "\t\tTo proxy all of the kubernetes api and nothing else, use:\n" "\n" "\t\t $ kubectl proxy --api-prefix=/\n" "\n" "\t\tTo proxy only part of the kubernetes api and also some static files:\n" "\n" "\t\t $ kubectl proxy --www=/my/files --www-prefix=/static/ --api-prefix=/" "api/\n" "\n" "\t\tThe above lets you 'curl localhost:8001/api/v1/pods'.\n" "\n" "\t\tTo proxy the entire kubernetes api at a different root, use:\n" "\n" "\t\t $ kubectl proxy --api-prefix=/custom/\n" "\n" "\t\tThe above lets you 'curl localhost:8001/custom/api/v1/pods'" #: pkg/kubectl/cmd/patch.go:59 msgid "" "\n" "\t\tUpdate field(s) of a resource using strategic merge patch\n" "\n" "\t\tJSON and YAML formats are accepted.\n" "\n" "\t\tPlease refer to the models in https://htmlpreview.github.io/?https://" "github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions." "html to find if a field is mutable." msgstr "" "\n" "\t\tUpdate field(s) of a resource using strategic merge patch\n" "\n" "\t\tJSON and YAML formats are accepted.\n" "\n" "\t\tPlease refer to the models in https://htmlpreview.github.io/?https://" "github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions." "html to find if a field is mutable." #: pkg/kubectl/cmd/label.go:70 #, c-format msgid "" "\n" "\t\tUpdate the labels on a resource.\n" "\n" "\t\t* A label must begin with a letter or number, and may contain letters, " "numbers, hyphens, dots, and underscores, up to %[1]d characters.\n" "\t\t* If --overwrite is true, then existing labels can be overwritten, " "otherwise attempting to overwrite a label will result in an error.\n" "\t\t* If --resource-version is specified, then updates will use this " "resource version, otherwise the existing resource-version will be used." msgstr "" "\n" "\t\tUpdate the labels on a resource.\n" "\n" "\t\t* A label must begin with a letter or number, and may contain letters, " "numbers, hyphens, dots, and underscores, up to %[1]d characters.\n" "\t\t* If --overwrite is true, then existing labels can be overwritten, " "otherwise attempting to overwrite a label will result in an error.\n" "\t\t* If --resource-version is specified, then updates will use this " "resource version, otherwise the existing resource-version will be used." #: pkg/kubectl/cmd/taint.go:58 #, c-format msgid "" "\n" "\t\tUpdate the taints on one or more nodes.\n" "\n" "\t\t* A taint consists of a key, value, and effect. As an argument here, it " "is expressed as key=value:effect.\n" "\t\t* The key must begin with a letter or number, and may contain letters, " "numbers, hyphens, dots, and underscores, up to %[1]d characters.\n" "\t\t* The value must begin with a letter or number, and may contain letters, " "numbers, hyphens, dots, and underscores, up to %[2]d characters.\n" "\t\t* The effect must be NoSchedule, PreferNoSchedule or NoExecute.\n" "\t\t* Currently taint can only apply to node." msgstr "" "\n" "\t\tUpdate the taints on one or more nodes.\n" "\n" "\t\t* A taint consists of a key, value, and effect. As an argument here, it " "is expressed as key=value:effect.\n" "\t\t* The key must begin with a letter or number, and may contain letters, " "numbers, hyphens, dots, and underscores, up to %[1]d characters.\n" "\t\t* The value must begin with a letter or number, and may contain letters, " "numbers, hyphens, dots, and underscores, up to %[2]d characters.\n" "\t\t* The effect must be NoSchedule, PreferNoSchedule or NoExecute.\n" "\t\t* Currently taint can only apply to node." #: pkg/kubectl/cmd/apply_view_last_applied.go:46 msgid "" "\n" "\t\tView the latest last-applied-configuration annotations by type/name or " "file.\n" "\n" "\t\tThe default output will be printed to stdout in YAML format. One can use " "-o option\n" "\t\tto change output format." msgstr "" "\n" "\t\tView the latest last-applied-configuration annotations by type/name or " "file.\n" "\n" "\t\tThe default output will be printed to stdout in YAML format. One can use " "-o option\n" "\t\tto change output format." #: pkg/kubectl/cmd/cp.go:37 msgid "" "\n" "\t # !!!Important Note!!!\n" "\t # Requires that the 'tar' binary is present in your container\n" "\t # image. If 'tar' is not present, 'kubectl cp' will fail.\n" "\n" "\t # Copy /tmp/foo_dir local directory to /tmp/bar_dir in a remote pod in " "the default namespace\n" "\t\tkubectl cp /tmp/foo_dir :/tmp/bar_dir\n" "\n" " # Copy /tmp/foo local file to /tmp/bar in a remote pod in a specific " "container\n" "\t\tkubectl cp /tmp/foo :/tmp/bar -c \n" "\n" "\t\t# Copy /tmp/foo local file to /tmp/bar in a remote pod in namespace " "\n" "\t\tkubectl cp /tmp/foo /:/tmp/bar\n" "\n" "\t\t# Copy /tmp/foo from a remote pod to /tmp/bar locally\n" "\t\tkubectl cp /:/tmp/foo /tmp/bar" msgstr "" "\n" "\t # !!!Important Note!!!\n" "\t # Requires that the 'tar' binary is present in your container\n" "\t # image. If 'tar' is not present, 'kubectl cp' will fail.\n" "\n" "\t # Copy /tmp/foo_dir local directory to /tmp/bar_dir in a remote pod in " "the default namespace\n" "\t\tkubectl cp /tmp/foo_dir :/tmp/bar_dir\n" "\n" " # Copy /tmp/foo local file to /tmp/bar in a remote pod in a specific " "container\n" "\t\tkubectl cp /tmp/foo :/tmp/bar -c \n" "\n" "\t\t# Copy /tmp/foo local file to /tmp/bar in a remote pod in namespace " "\n" "\t\tkubectl cp /tmp/foo /:/tmp/bar\n" "\n" "\t\t# Copy /tmp/foo from a remote pod to /tmp/bar locally\n" "\t\tkubectl cp /:/tmp/foo /tmp/bar" #: pkg/kubectl/cmd/create_secret.go:205 msgid "" "\n" "\t # Create a new TLS secret named tls-secret with the given key pair:\n" "\t kubectl create secret tls tls-secret --cert=path/to/tls.cert --key=path/" "to/tls.key" msgstr "" "\n" "\t # Create a new TLS secret named tls-secret with the given key pair:\n" "\t kubectl create secret tls tls-secret --cert=path/to/tls.cert --key=path/" "to/tls.key" #: pkg/kubectl/cmd/create_namespace.go:35 msgid "" "\n" "\t # Create a new namespace named my-namespace\n" "\t kubectl create namespace my-namespace" msgstr "" "\n" "\t # Create a new namespace named my-namespace\n" "\t kubectl create namespace my-namespace" #: pkg/kubectl/cmd/create_secret.go:59 msgid "" "\n" "\t # Create a new secret named my-secret with keys for each file in folder " "bar\n" "\t kubectl create secret generic my-secret --from-file=path/to/bar\n" "\n" "\t # Create a new secret named my-secret with specified keys instead of " "names on disk\n" "\t kubectl create secret generic my-secret --from-file=ssh-privatekey=~/." "ssh/id_rsa --from-file=ssh-publickey=~/.ssh/id_rsa.pub\n" "\n" "\t # Create a new secret named my-secret with key1=supersecret and " "key2=topsecret\n" "\t kubectl create secret generic my-secret --from-literal=key1=supersecret " "--from-literal=key2=topsecret" msgstr "" "\n" "\t # Create a new secret named my-secret with keys for each file in folder " "bar\n" "\t kubectl create secret generic my-secret --from-file=path/to/bar\n" "\n" "\t # Create a new secret named my-secret with specified keys instead of " "names on disk\n" "\t kubectl create secret generic my-secret --from-file=ssh-privatekey=~/." "ssh/id_rsa --from-file=ssh-publickey=~/.ssh/id_rsa.pub\n" "\n" "\t # Create a new secret named my-secret with key1=supersecret and " "key2=topsecret\n" "\t kubectl create secret generic my-secret --from-literal=key1=supersecret " "--from-literal=key2=topsecret" #: pkg/kubectl/cmd/create_serviceaccount.go:35 msgid "" "\n" "\t # Create a new service account named my-service-account\n" "\t kubectl create serviceaccount my-service-account" msgstr "" "\n" "\t # Create a new service account named my-service-account\n" "\t kubectl create serviceaccount my-service-account" #: pkg/kubectl/cmd/create_service.go:232 msgid "" "\n" "\t# Create a new ExternalName service named my-ns \n" "\tkubectl create service externalname my-ns --external-name bar.com" msgstr "" "\n" "\t# Create a new ExternalName service named my-ns \n" "\tkubectl create service externalname my-ns --external-name bar.com" #: pkg/kubectl/cmd/create_service.go:225 msgid "" "\n" "\tCreate an ExternalName service with the specified name.\n" "\n" "\tExternalName service references to an external DNS address instead of\n" "\tonly pods, which will allow application authors to reference services\n" "\tthat exist off platform, on other clusters, or locally." msgstr "" "\n" "\tCreate an ExternalName service with the specified name.\n" "\n" "\tExternalName service references to an external DNS address instead of\n" "\tonly pods, which will allow application authors to reference services\n" "\tthat exist off platform, on other clusters, or locally." #: pkg/kubectl/cmd/help.go:30 msgid "" "\n" "\tHelp provides help for any command in the application.\n" "\tSimply type kubectl help [path to command] for full details." msgstr "" "\n" "\tHelp provides help for any command in the application.\n" "\tSimply type kubectl help [path to command] for full details." #: pkg/kubectl/cmd/create_service.go:173 msgid "" "\n" " # Create a new LoadBalancer service named my-lbs\n" " kubectl create service loadbalancer my-lbs --tcp=5678:8080" msgstr "" "\n" " # Create a new LoadBalancer service named my-lbs\n" " kubectl create service loadbalancer my-lbs --tcp=5678:8080" #: pkg/kubectl/cmd/create_service.go:53 msgid "" "\n" " # Create a new clusterIP service named my-cs\n" " kubectl create service clusterip my-cs --tcp=5678:8080\n" "\n" " # Create a new clusterIP service named my-cs (in headless mode)\n" " kubectl create service clusterip my-cs --clusterip=\"None\"" msgstr "" "\n" " # Create a new clusterIP service named my-cs\n" " kubectl create service clusterip my-cs --tcp=5678:8080\n" "\n" " # Create a new clusterIP service named my-cs (in headless mode)\n" " kubectl create service clusterip my-cs --clusterip=\"None\"" #: pkg/kubectl/cmd/create_deployment.go:36 msgid "" "\n" " # Create a new deployment named my-dep that runs the busybox image.\n" " kubectl create deployment my-dep --image=busybox" msgstr "" "\n" " # Create a new deployment named my-dep that runs the busybox image.\n" " kubectl create deployment my-dep --image=busybox" #: pkg/kubectl/cmd/create_service.go:116 msgid "" "\n" " # Create a new nodeport service named my-ns\n" " kubectl create service nodeport my-ns --tcp=5678:8080" msgstr "" "\n" " # Create a new nodeport service named my-ns\n" " kubectl create service nodeport my-ns --tcp=5678:8080" #: pkg/kubectl/cmd/clusterinfo_dump.go:62 msgid "" "\n" " # Dump current cluster state to stdout\n" " kubectl cluster-info dump\n" "\n" " # Dump current cluster state to /path/to/cluster-state\n" " kubectl cluster-info dump --output-directory=/path/to/cluster-state\n" "\n" " # Dump all namespaces to stdout\n" " kubectl cluster-info dump --all-namespaces\n" "\n" " # Dump a set of namespaces to /path/to/cluster-state\n" " kubectl cluster-info dump --namespaces default,kube-system --output-" "directory=/path/to/cluster-state" msgstr "" "\n" " # Dump current cluster state to stdout\n" " kubectl cluster-info dump\n" "\n" " # Dump current cluster state to /path/to/cluster-state\n" " kubectl cluster-info dump --output-directory=/path/to/cluster-state\n" "\n" " # Dump all namespaces to stdout\n" " kubectl cluster-info dump --all-namespaces\n" "\n" " # Dump a set of namespaces to /path/to/cluster-state\n" " kubectl cluster-info dump --namespaces default,kube-system --output-" "directory=/path/to/cluster-state" #: pkg/kubectl/cmd/annotate.go:78 msgid "" "\n" " # Update pod 'foo' with the annotation 'description' and the value 'my " "frontend'.\n" " # If the same annotation is set multiple times, only the last value will " "be applied\n" " kubectl annotate pods foo description='my frontend'\n" "\n" " # Update a pod identified by type and name in \"pod.json\"\n" " kubectl annotate -f pod.json description='my frontend'\n" "\n" " # Update pod 'foo' with the annotation 'description' and the value 'my " "frontend running nginx', overwriting any existing value.\n" " kubectl annotate --overwrite pods foo description='my frontend running " "nginx'\n" "\n" " # Update all pods in the namespace\n" " kubectl annotate pods --all description='my frontend running nginx'\n" "\n" " # Update pod 'foo' only if the resource is unchanged from version 1.\n" " kubectl annotate pods foo description='my frontend running nginx' --" "resource-version=1\n" "\n" " # Update pod 'foo' by removing an annotation named 'description' if it " "exists.\n" " # Does not require the --overwrite flag.\n" " kubectl annotate pods foo description-" msgstr "" "\n" " # Update pod 'foo' with the annotation 'description' and the value 'my " "frontend'.\n" " # If the same annotation is set multiple times, only the last value will " "be applied\n" " kubectl annotate pods foo description='my frontend'\n" "\n" " # Update a pod identified by type and name in \"pod.json\"\n" " kubectl annotate -f pod.json description='my frontend'\n" "\n" " # Update pod 'foo' with the annotation 'description' and the value 'my " "frontend running nginx', overwriting any existing value.\n" " kubectl annotate --overwrite pods foo description='my frontend running " "nginx'\n" "\n" " # Update all pods in the namespace\n" " kubectl annotate pods --all description='my frontend running nginx'\n" "\n" " # Update pod 'foo' only if the resource is unchanged from version 1.\n" " kubectl annotate pods foo description='my frontend running nginx' --" "resource-version=1\n" "\n" " # Update pod 'foo' by removing an annotation named 'description' if it " "exists.\n" " # Does not require the --overwrite flag.\n" " kubectl annotate pods foo description-" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_namespace.go#L44 #: pkg/kubectl/cmd/create_service.go:170 msgid "" "\n" " Create a LoadBalancer service with the specified name." msgstr "" "\n" " Create a LoadBalancer service with the specified name." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_serviceaccount.go#L44 #: pkg/kubectl/cmd/create_service.go:50 msgid "" "\n" " Create a clusterIP service with the specified name." msgstr "" "\n" " Create a clusterIP service with the specified name." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_deployment.go#L44 #: pkg/kubectl/cmd/create_deployment.go:33 msgid "" "\n" " Create a deployment with the specified name." msgstr "" "\n" " Create a deployment with the specified name." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_deployment.go#L44 #: pkg/kubectl/cmd/create_service.go:113 msgid "" "\n" " Create a nodeport service with the specified name." msgstr "" "\n" " Create a nodeport service with the specified name." #: pkg/kubectl/cmd/clusterinfo_dump.go:53 msgid "" "\n" " Dumps cluster info out suitable for debugging and diagnosing cluster " "problems. By default, dumps everything to\n" " stdout. You can optionally specify a directory with --output-directory. " "If you specify a directory, kubernetes will\n" " build a set of files in that directory. By default only dumps things in " "the 'kube-system' namespace, but you can\n" " switch to a different namespace with the --namespaces flag, or specify --" "all-namespaces to dump all namespaces.\n" "\n" " The command also dumps the logs of all of the pods in the cluster, these " "logs are dumped into different directories\n" " based on namespace and pod name." msgstr "" "\n" " Dumps cluster info out suitable for debugging and diagnosing cluster " "problems. By default, dumps everything to\n" " stdout. You can optionally specify a directory with --output-directory. " "If you specify a directory, kubernetes will\n" " build a set of files in that directory. By default only dumps things in " "the 'kube-system' namespace, but you can\n" " switch to a different namespace with the --namespaces flag, or specify --" "all-namespaces to dump all namespaces.\n" "\n" " The command also dumps the logs of all of the pods in the cluster, these " "logs are dumped into different directories\n" " based on namespace and pod name." #: pkg/kubectl/cmd/clusterinfo.go:37 msgid "" "\n" " Display addresses of the master and services with label kubernetes.io/" "cluster-service=true\n" " To further debug and diagnose cluster problems, use 'kubectl cluster-info " "dump'." msgstr "" "\n" " Display addresses of the master and services with label kubernetes.io/" "cluster-service=true\n" " To further debug and diagnose cluster problems, use 'kubectl cluster-info " "dump'." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_quota.go#L61 #: pkg/kubectl/cmd/create_quota.go:62 msgid "" "A comma-delimited set of quota scopes that must all match each object " "tracked by the quota." msgstr "" "A comma-delimited set of quota scopes that must all match each object " "tracked by the quota." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_quota.go#L60 #: pkg/kubectl/cmd/create_quota.go:61 msgid "" "A comma-delimited set of resource=quantity pairs that define a hard limit." msgstr "" "A comma-delimited set of resource=quantity pairs that define a hard limit." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_pdb.go#L63 #: pkg/kubectl/cmd/create_pdb.go:64 msgid "" "A label selector to use for this budget. Only equality-based selector " "requirements are supported." msgstr "" "A label selector to use for this budget. Only equality-based selector " "requirements are supported." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L106 #: pkg/kubectl/cmd/expose.go:104 msgid "" "A label selector to use for this service. Only equality-based selector " "requirements are supported. If empty (the default) infer the selector from " "the replication controller or replica set.)" msgstr "" "A label selector to use for this service. Only equality-based selector " "requirements are supported. If empty (the default) infer the selector from " "the replication controller or replica set.)" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L136 #: pkg/kubectl/cmd/run.go:139 msgid "A schedule in the Cron format the job should be run with." msgstr "A schedule in the Cron format the job should be run with." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L111 #: pkg/kubectl/cmd/expose.go:109 msgid "" "Additional external IP address (not managed by Kubernetes) to accept for the " "service. If this IP is routed to a node, the service can be accessed by this " "IP in addition to its generated service IP." msgstr "" "Additional external IP address (not managed by Kubernetes) to accept for the " "service. If this IP is routed to a node, the service can be accessed by this " "IP in addition to its generated service IP." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L119 #: pkg/kubectl/cmd/expose.go:110 pkg/kubectl/cmd/run.go:122 msgid "" "An inline JSON override for the generated object. If this is non-empty, it " "is used to override the generated object. Requires that the object supply a " "valid apiVersion field." msgstr "" "An inline JSON override for the generated object. If this is non-empty, it " "is used to override the generated object. Requires that the object supply a " "valid apiVersion field." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L134 #: pkg/kubectl/cmd/run.go:137 msgid "" "An inline JSON override for the generated service object. If this is non-" "empty, it is used to override the generated object. Requires that the object " "supply a valid apiVersion field. Only used if --expose is true." msgstr "" "An inline JSON override for the generated service object. If this is non-" "empty, it is used to override the generated object. Requires that the object " "supply a valid apiVersion field. Only used if --expose is true." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/apply.go#L98 #: pkg/kubectl/cmd/apply.go:104 msgid "Apply a configuration to a resource by filename or stdin" msgstr "Apply a configuration to a resource by filename or stdin" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/certificates.go#L71 #: pkg/kubectl/cmd/certificates.go:72 msgid "Approve a certificate signing request" msgstr "Approve a certificate signing request" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_service.go#L81 #: pkg/kubectl/cmd/create_service.go:82 msgid "" "Assign your own ClusterIP or set to 'None' for a 'headless' service (no " "loadbalancing)." msgstr "" "Assign your own ClusterIP or set to 'None' for a 'headless' service (no " "loadbalancing)." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/attach.go#L64 #: pkg/kubectl/cmd/attach.go:70 msgid "Attach to a running container" msgstr "Attach to a running container" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/autoscale.go#L55 #: pkg/kubectl/cmd/autoscale.go:56 msgid "Auto-scale a Deployment, ReplicaSet, or ReplicationController" msgstr "Auto-scale a Deployment, ReplicaSet, or ReplicationController" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L115 #: pkg/kubectl/cmd/expose.go:113 msgid "" "ClusterIP to be assigned to the service. Leave empty to auto-allocate, or " "set to 'None' to create a headless service." msgstr "" "ClusterIP to be assigned to the service. Leave empty to auto-allocate, or " "set to 'None' to create a headless service." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_clusterrolebinding.go#L55 #: pkg/kubectl/cmd/create_clusterrolebinding.go:56 msgid "ClusterRole this ClusterRoleBinding should reference" msgstr "ClusterRole this ClusterRoleBinding should reference" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_rolebinding.go#L55 #: pkg/kubectl/cmd/create_rolebinding.go:56 msgid "ClusterRole this RoleBinding should reference" msgstr "ClusterRole this RoleBinding should reference" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollingupdate.go#L101 #: pkg/kubectl/cmd/rollingupdate.go:102 msgid "" "Container name which will have its image upgraded. Only relevant when --" "image is specified, ignored otherwise. Required when using --image on a " "multi-container pod" msgstr "" "Container name which will have its image upgraded. Only relevant when --" "image is specified, ignored otherwise. Required when using --image on a " "multi-container pod" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/convert.go#L67 #: pkg/kubectl/cmd/convert.go:68 msgid "Convert config files between different API versions" msgstr "Convert config files between different API versions" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/cp.go#L64 #: pkg/kubectl/cmd/cp.go:65 msgid "Copy files and directories to and from containers." msgstr "Copy files and directories to and from containers." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_clusterrolebinding.go#L43 #: pkg/kubectl/cmd/create_clusterrolebinding.go:44 msgid "Create a ClusterRoleBinding for a particular ClusterRole" msgstr "Create a ClusterRoleBinding for a particular ClusterRole" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_service.go#L181 #: pkg/kubectl/cmd/create_service.go:182 msgid "Create a LoadBalancer service." msgstr "Create a LoadBalancer service." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_service.go#L124 #: pkg/kubectl/cmd/create_service.go:125 msgid "Create a NodePort service." msgstr "Create a NodePort service." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_rolebinding.go#L43 #: pkg/kubectl/cmd/create_rolebinding.go:44 msgid "Create a RoleBinding for a particular Role or ClusterRole" msgstr "Create a RoleBinding for a particular Role or ClusterRole" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L214 #: pkg/kubectl/cmd/create_secret.go:214 msgid "Create a TLS secret" msgstr "Create a TLS secret" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_service.go#L68 #: pkg/kubectl/cmd/create_service.go:69 msgid "Create a clusterIP service." msgstr "Create a clusterIP service." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_configmap.go#L59 #: pkg/kubectl/cmd/create_configmap.go:60 msgid "Create a configmap from a local file, directory or literal value" msgstr "Create a configmap from a local file, directory or literal value" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_deployment.go#L44 #: pkg/kubectl/cmd/create_deployment.go:46 msgid "Create a deployment with the specified name." msgstr "Create a deployment with the specified name." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_namespace.go#L44 #: pkg/kubectl/cmd/create_namespace.go:45 msgid "Create a namespace with the specified name" msgstr "Create a namespace with the specified name" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_pdb.go#L49 #: pkg/kubectl/cmd/create_pdb.go:50 msgid "Create a pod disruption budget with the specified name." msgstr "Create a pod disruption budget with the specified name." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_quota.go#L47 #: pkg/kubectl/cmd/create_quota.go:48 msgid "Create a quota with the specified name." msgstr "Create a quota with the specified name." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create.go#L56 #: pkg/kubectl/cmd/create.go:63 msgid "Create a resource by filename or stdin" msgstr "Create a resource by filename or stdin" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L143 #: pkg/kubectl/cmd/create_secret.go:144 msgid "Create a secret for use with a Docker registry" msgstr "Create a secret for use with a Docker registry" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L73 #: pkg/kubectl/cmd/create_secret.go:74 msgid "Create a secret from a local file, directory or literal value" msgstr "Create a secret from a local file, directory or literal value" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L34 #: pkg/kubectl/cmd/create_secret.go:35 msgid "Create a secret using specified subcommand" msgstr "Create a secret using specified subcommand" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_serviceaccount.go#L44 #: pkg/kubectl/cmd/create_serviceaccount.go:45 msgid "Create a service account with the specified name" msgstr "Create a service account with the specified name" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_service.go#L36 #: pkg/kubectl/cmd/create_service.go:37 msgid "Create a service using specified subcommand." msgstr "Create a service using specified subcommand." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_service.go#L240 #: pkg/kubectl/cmd/create_service.go:241 msgid "Create an ExternalName service." msgstr "Create an ExternalName service." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/delete.go#L130 #: pkg/kubectl/cmd/delete.go:132 msgid "" "Delete resources by filenames, stdin, resources and names, or by resources " "and label selector" msgstr "" "Delete resources by filenames, stdin, resources and names, or by resources " "and label selector" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/delete_cluster.go#L38 #: pkg/kubectl/cmd/config/delete_cluster.go:39 msgid "Delete the specified cluster from the kubeconfig" msgstr "Delete the specified cluster from the kubeconfig" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/delete_context.go#L38 #: pkg/kubectl/cmd/config/delete_context.go:39 msgid "Delete the specified context from the kubeconfig" msgstr "Delete the specified context from the kubeconfig" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/certificates.go#L121 #: pkg/kubectl/cmd/certificates.go:122 msgid "Deny a certificate signing request" msgstr "Deny a certificate signing request" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/stop.go#L58 #: pkg/kubectl/cmd/stop.go:59 msgid "Deprecated: Gracefully shut down a resource by name or filename" msgstr "Deprecated: Gracefully shut down a resource by name or filename" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/get_contexts.go#L62 #: pkg/kubectl/cmd/config/get_contexts.go:64 msgid "Describe one or many contexts" msgstr "Describe one or many contexts" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/top_node.go#L77 #: pkg/kubectl/cmd/top_node.go:78 msgid "Display Resource (CPU/Memory) usage of nodes" msgstr "Display Resource (CPU/Memory) usage of nodes" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/top_pod.go#L79 #: pkg/kubectl/cmd/top_pod.go:80 msgid "Display Resource (CPU/Memory) usage of pods" msgstr "Display Resource (CPU/Memory) usage of pods" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/top.go#L43 #: pkg/kubectl/cmd/top.go:44 msgid "Display Resource (CPU/Memory) usage." msgstr "Display Resource (CPU/Memory) usage." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/clusterinfo.go#L49 #: pkg/kubectl/cmd/clusterinfo.go:51 msgid "Display cluster info" msgstr "Display cluster info" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/get_clusters.go#L40 #: pkg/kubectl/cmd/config/get_clusters.go:41 msgid "Display clusters defined in the kubeconfig" msgstr "Display clusters defined in the kubeconfig" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/view.go#L64 #: pkg/kubectl/cmd/config/view.go:67 msgid "Display merged kubeconfig settings or a specified kubeconfig file" msgstr "Display merged kubeconfig settings or a specified kubeconfig file" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/get.go#L107 #: pkg/kubectl/cmd/get.go:111 msgid "Display one or many resources" msgstr "Display one or many resources" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/current_context.go#L48 #: pkg/kubectl/cmd/config/current_context.go:49 msgid "Displays the current-context" msgstr "Displays the current-context" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/explain.go#L50 #: pkg/kubectl/cmd/explain.go:51 msgid "Documentation of resources" msgstr "Documentation of resources" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/drain.go#L176 #: pkg/kubectl/cmd/drain.go:178 msgid "Drain node in preparation for maintenance" msgstr "Drain node in preparation for maintenance" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/clusterinfo_dump.go#L37 #: pkg/kubectl/cmd/clusterinfo_dump.go:39 msgid "Dump lots of relevant info for debugging and diagnosis" msgstr "Dump lots of relevant info for debugging and diagnosis" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/edit.go#L100 #: pkg/kubectl/cmd/edit.go:110 msgid "Edit a resource on the server" msgstr "Edit a resource on the server" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L159 #: pkg/kubectl/cmd/create_secret.go:160 msgid "Email for Docker registry" msgstr "Email for Docker registry" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/exec.go#L68 #: pkg/kubectl/cmd/exec.go:69 msgid "Execute a command in a container" msgstr "Execute a command in a container" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollingupdate.go#L102 #: pkg/kubectl/cmd/rollingupdate.go:103 msgid "" "Explicit policy for when to pull container images. Required when --image is " "same as existing image, ignored otherwise." msgstr "" "Explicit policy for when to pull container images. Required when --image is " "same as existing image, ignored otherwise." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/portforward.go#L75 #: pkg/kubectl/cmd/portforward.go:76 msgid "Forward one or more local ports to a pod" msgstr "Forward one or more local ports to a pod" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/help.go#L36 #: pkg/kubectl/cmd/help.go:37 msgid "Help about any command" msgstr "Help about any command" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L105 #: pkg/kubectl/cmd/expose.go:103 msgid "" "IP to assign to the Load Balancer. If empty, an ephemeral IP will be created " "and used (cloud-provider specific)." msgstr "" "IP to assign to the Load Balancer. If empty, an ephemeral IP will be created " "and used (cloud-provider specific)." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L114 #: pkg/kubectl/cmd/expose.go:112 msgid "" "If non-empty, set the session affinity for the service to this; legal " "values: 'None', 'ClientIP'" msgstr "" "If non-empty, set the session affinity for the service to this; legal " "values: 'None', 'ClientIP'" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/annotate.go#L135 #: pkg/kubectl/cmd/annotate.go:136 msgid "" "If non-empty, the annotation update will only succeed if this is the current " "resource-version for the object. Only valid when specifying a single " "resource." msgstr "" "If non-empty, the annotation update will only succeed if this is the current " "resource-version for the object. Only valid when specifying a single " "resource." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/label.go#L132 #: pkg/kubectl/cmd/label.go:134 msgid "" "If non-empty, the labels update will only succeed if this is the current " "resource-version for the object. Only valid when specifying a single " "resource." msgstr "" "If non-empty, the labels update will only succeed if this is the current " "resource-version for the object. Only valid when specifying a single " "resource." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollingupdate.go#L98 #: pkg/kubectl/cmd/rollingupdate.go:99 msgid "" "Image to use for upgrading the replication controller. Must be distinct from " "the existing image (either new image or new image tag). Can not be used " "with --filename/-f" msgstr "" "Image to use for upgrading the replication controller. Must be distinct from " "the existing image (either new image or new image tag). Can not be used " "with --filename/-f" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollout/rollout.go#L46 #: pkg/kubectl/cmd/rollout/rollout.go:47 msgid "Manage a deployment rollout" msgstr "Manage a deployment rollout" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/drain.go#L127 #: pkg/kubectl/cmd/drain.go:128 msgid "Mark node as schedulable" msgstr "Mark node as schedulable" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/drain.go#L102 #: pkg/kubectl/cmd/drain.go:103 msgid "Mark node as unschedulable" msgstr "Mark node as unschedulable" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollout/rollout_pause.go#L73 #: pkg/kubectl/cmd/rollout/rollout_pause.go:74 msgid "Mark the provided resource as paused" msgstr "Mark the provided resource as paused" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/certificates.go#L35 #: pkg/kubectl/cmd/certificates.go:36 msgid "Modify certificate resources." msgstr "Modify certificate resources." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/config.go#L39 #: pkg/kubectl/cmd/config/config.go:40 msgid "Modify kubeconfig files" msgstr "Modify kubeconfig files" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L110 #: pkg/kubectl/cmd/expose.go:108 msgid "" "Name or number for the port on the container that the service should direct " "traffic to. Optional." msgstr "" "Name or number for the port on the container that the service should direct " "traffic to. Optional." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/logs.go#L108 #: pkg/kubectl/cmd/logs.go:113 msgid "" "Only return logs after a specific date (RFC3339). Defaults to all logs. Only " "one of since-time / since may be used." msgstr "" "Only return logs after a specific date (RFC3339). Defaults to all logs. Only " "one of since-time / since may be used." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/completion.go#L97 #: pkg/kubectl/cmd/completion.go:104 msgid "Output shell completion code for the specified shell (bash or zsh)" msgstr "Output shell completion code for the specified shell (bash or zsh)" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/edit.go#L115 #: pkg/kubectl/cmd/convert.go:85 msgid "" "Output the formatted object with the given group version (for ex: " "'extensions/v1beta1').)" msgstr "" "Output the formatted object with the given group version (for ex: " "'extensions/v1beta1').)" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L157 #: pkg/kubectl/cmd/create_secret.go:158 msgid "Password for Docker registry authentication" msgstr "Password for Docker registry authentication" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L226 #: pkg/kubectl/cmd/create_secret.go:226 msgid "Path to PEM encoded public key certificate." msgstr "Path to PEM encoded public key certificate." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L227 #: pkg/kubectl/cmd/create_secret.go:227 msgid "Path to private key associated with given certificate." msgstr "Path to private key associated with given certificate." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollingupdate.go#L84 #: pkg/kubectl/cmd/rollingupdate.go:85 msgid "Perform a rolling update of the given ReplicationController" msgstr "Perform a rolling update of the given ReplicationController" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/scale.go#L82 #: pkg/kubectl/cmd/scale.go:83 msgid "" "Precondition for resource version. Requires that the current resource " "version match this value in order to scale." msgstr "" "Precondition for resource version. Requires that the current resource " "version match this value in order to scale." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/version.go#L39 #: pkg/kubectl/cmd/version.go:40 msgid "Print the client and server version information" msgstr "Print the client and server version information" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/options.go#L37 #: pkg/kubectl/cmd/options.go:38 msgid "Print the list of flags inherited by all commands" msgstr "Print the list of flags inherited by all commands" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/logs.go#L86 #: pkg/kubectl/cmd/logs.go:93 msgid "Print the logs for a container in a pod" msgstr "Print the logs for a container in a pod" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/replace.go#L70 #: pkg/kubectl/cmd/replace.go:71 msgid "Replace a resource by filename or stdin" msgstr "Replace a resource by filename or stdin" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollout/rollout_resume.go#L71 #: pkg/kubectl/cmd/rollout/rollout_resume.go:72 msgid "Resume a paused resource" msgstr "Resume a paused resource" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_rolebinding.go#L56 #: pkg/kubectl/cmd/create_rolebinding.go:57 msgid "Role this RoleBinding should reference" msgstr "Role this RoleBinding should reference" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L94 #: pkg/kubectl/cmd/run.go:97 msgid "Run a particular image on the cluster" msgstr "Run a particular image on the cluster" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/proxy.go#L68 #: pkg/kubectl/cmd/proxy.go:69 msgid "Run a proxy to the Kubernetes API server" msgstr "Run a proxy to the Kubernetes API server" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L161 #: pkg/kubectl/cmd/create_secret.go:161 msgid "Server location for Docker registry" msgstr "Server location for Docker registry" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/scale.go#L71 #: pkg/kubectl/cmd/scale.go:71 msgid "" "Set a new size for a Deployment, ReplicaSet, Replication Controller, or Job" msgstr "" "Set a new size for a Deployment, ReplicaSet, Replication Controller, or Job" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/set/set.go#L37 #: pkg/kubectl/cmd/set/set.go:38 msgid "Set specific features on objects" msgstr "Set specific features on objects" #: pkg/kubectl/cmd/apply_set_last_applied.go:83 msgid "" "Set the last-applied-configuration annotation on a live object to match the " "contents of a file." msgstr "" "Set the last-applied-configuration annotation on a live object to match the " "contents of a file." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/set/set_selector.go#L81 #: pkg/kubectl/cmd/set/set_selector.go:82 msgid "Set the selector on a resource" msgstr "Set the selector on a resource" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/create_cluster.go#L67 #: pkg/kubectl/cmd/config/create_cluster.go:68 msgid "Sets a cluster entry in kubeconfig" msgstr "Sets a cluster entry in kubeconfig" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/create_context.go#L57 #: pkg/kubectl/cmd/config/create_context.go:58 msgid "Sets a context entry in kubeconfig" msgstr "Sets a context entry in kubeconfig" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/create_authinfo.go#L103 #: pkg/kubectl/cmd/config/create_authinfo.go:104 msgid "Sets a user entry in kubeconfig" msgstr "Sets a user entry in kubeconfig" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/set.go#L59 #: pkg/kubectl/cmd/config/set.go:60 msgid "Sets an individual value in a kubeconfig file" msgstr "Sets an individual value in a kubeconfig file" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/use_context.go#L48 #: pkg/kubectl/cmd/config/use_context.go:49 msgid "Sets the current-context in a kubeconfig file" msgstr "Sets the current-context in a kubeconfig file" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/describe.go#L80 #: pkg/kubectl/cmd/describe.go:86 msgid "Show details of a specific resource or group of resources" msgstr "Show details of a specific resource or group of resources" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollout/rollout_status.go#L57 #: pkg/kubectl/cmd/rollout/rollout_status.go:58 msgid "Show the status of the rollout" msgstr "Show the status of the rollout" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L108 #: pkg/kubectl/cmd/expose.go:106 msgid "Synonym for --target-port" msgstr "Synonym for --target-port" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L87 #: pkg/kubectl/cmd/expose.go:88 msgid "" "Take a replication controller, service, deployment or pod and expose it as a " "new Kubernetes Service" msgstr "" "Take a replication controller, service, deployment or pod and expose it as a " "new Kubernetes Service" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L114 #: pkg/kubectl/cmd/run.go:117 msgid "The image for the container to run." msgstr "The image for the container to run." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L116 #: pkg/kubectl/cmd/run.go:119 msgid "" "The image pull policy for the container. If left empty, this value will not " "be specified by the client and defaulted by the server" msgstr "" "The image pull policy for the container. If left empty, this value will not " "be specified by the client and defaulted by the server" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollingupdate.go#L100 #: pkg/kubectl/cmd/rollingupdate.go:101 msgid "" "The key to use to differentiate between two different controllers, default " "'deployment'. Only relevant when --image is specified, ignored otherwise" msgstr "" "The key to use to differentiate between two different controllers, default " "'deployment'. Only relevant when --image is specified, ignored otherwise" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_pdb.go#L62 #: pkg/kubectl/cmd/create_pdb.go:63 msgid "" "The minimum number or percentage of available pods this budget requires." msgstr "" "The minimum number or percentage of available pods this budget requires." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L113 #: pkg/kubectl/cmd/expose.go:111 msgid "The name for the newly created object." msgstr "The name for the newly created object." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/autoscale.go#L71 #: pkg/kubectl/cmd/autoscale.go:72 msgid "" "The name for the newly created object. If not specified, the name of the " "input resource will be used." msgstr "" "The name for the newly created object. If not specified, the name of the " "input resource will be used." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L113 #: pkg/kubectl/cmd/run.go:116 msgid "" "The name of the API generator to use, see http://kubernetes.io/docs/user-" "guide/kubectl-conventions/#generators for a list." msgstr "" "The name of the API generator to use, see http://kubernetes.io/docs/user-" "guide/kubectl-conventions/#generators for a list." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/autoscale.go#L66 #: pkg/kubectl/cmd/autoscale.go:67 msgid "" "The name of the API generator to use. Currently there is only 1 generator." msgstr "" "The name of the API generator to use. Currently there is only 1 generator." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L98 #: pkg/kubectl/cmd/expose.go:99 msgid "" "The name of the API generator to use. There are 2 generators: 'service/v1' " "and 'service/v2'. The only difference between them is that service port in " "v1 is named 'default', while it is left unnamed in v2. Default is 'service/" "v2'." msgstr "" "The name of the API generator to use. There are 2 generators: 'service/v1' " "and 'service/v2'. The only difference between them is that service port in " "v1 is named 'default', while it is left unnamed in v2. Default is 'service/" "v2'." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L133 #: pkg/kubectl/cmd/run.go:136 msgid "" "The name of the generator to use for creating a service. Only used if --" "expose is true" msgstr "" "The name of the generator to use for creating a service. Only used if --" "expose is true" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L99 #: pkg/kubectl/cmd/expose.go:100 msgid "The network protocol for the service to be created. Default is 'TCP'." msgstr "The network protocol for the service to be created. Default is 'TCP'." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L100 #: pkg/kubectl/cmd/expose.go:101 msgid "" "The port that the service should serve on. Copied from the resource being " "exposed, if unspecified" msgstr "" "The port that the service should serve on. Copied from the resource being " "exposed, if unspecified" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L121 #: pkg/kubectl/cmd/run.go:124 msgid "" "The port that this container exposes. If --expose is true, this is also the " "port used by the service that is created." msgstr "" "The port that this container exposes. If --expose is true, this is also the " "port used by the service that is created." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L131 #: pkg/kubectl/cmd/run.go:134 msgid "" "The resource requirement limits for this container. For example, 'cpu=200m," "memory=512Mi'. Note that server side components may assign limits depending " "on the server configuration, such as limit ranges." msgstr "" "The resource requirement limits for this container. For example, 'cpu=200m," "memory=512Mi'. Note that server side components may assign limits depending " "on the server configuration, such as limit ranges." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L130 #: pkg/kubectl/cmd/run.go:133 msgid "" "The resource requirement requests for this container. For example, " "'cpu=100m,memory=256Mi'. Note that server side components may assign " "requests depending on the server configuration, such as limit ranges." msgstr "" "The resource requirement requests for this container. For example, " "'cpu=100m,memory=256Mi'. Note that server side components may assign " "requests depending on the server configuration, such as limit ranges." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L128 #: pkg/kubectl/cmd/run.go:131 msgid "" "The restart policy for this Pod. Legal values [Always, OnFailure, Never]. " "If set to 'Always' a deployment is created, if set to 'OnFailure' a job is " "created, if set to 'Never', a regular pod is created. For the latter two --" "replicas must be 1. Default 'Always', for CronJobs ` + "`" + `Never` + "`" + `." msgstr "" "The restart policy for this Pod. Legal values [Always, OnFailure, Never]. " "If set to 'Always' a deployment is created, if set to 'OnFailure' a job is " "created, if set to 'Never', a regular pod is created. For the latter two --" "replicas must be 1. Default 'Always', for CronJobs ` + "`" + `Never` + "`" + `." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L87 #: pkg/kubectl/cmd/create_secret.go:88 msgid "The type of secret to create" msgstr "The type of secret to create" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L101 #: pkg/kubectl/cmd/expose.go:102 msgid "" "Type for this service: ClusterIP, NodePort, or LoadBalancer. Default is " "'ClusterIP'." msgstr "" "Type for this service: ClusterIP, NodePort, or LoadBalancer. Default is " "'ClusterIP'." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollout/rollout_undo.go#L71 #: pkg/kubectl/cmd/rollout/rollout_undo.go:72 msgid "Undo a previous rollout" msgstr "Undo a previous rollout" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/unset.go#L47 #: pkg/kubectl/cmd/config/unset.go:48 msgid "Unsets an individual value in a kubeconfig file" msgstr "Unsets an individual value in a kubeconfig file" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/patch.go#L91 #: pkg/kubectl/cmd/patch.go:96 msgid "Update field(s) of a resource using strategic merge patch" msgstr "Update field(s) of a resource using strategic merge patch" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/set/set_image.go#L94 #: pkg/kubectl/cmd/set/set_image.go:95 msgid "Update image of a pod template" msgstr "Update image of a pod template" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/set/set_resources.go#L101 #: pkg/kubectl/cmd/set/set_resources.go:102 msgid "Update resource requests/limits on objects with pod templates" msgstr "Update resource requests/limits on objects with pod templates" #: pkg/kubectl/cmd/annotate.go:116 msgid "Update the annotations on a resource" msgstr "Update the annotations on a resource" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/label.go#L109 #: pkg/kubectl/cmd/label.go:114 msgid "Update the labels on a resource" msgstr "Update the labels on a resource" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/taint.go#L88 #: pkg/kubectl/cmd/taint.go:87 msgid "Update the taints on one or more nodes" msgstr "Update the taints on one or more nodes" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L155 #: pkg/kubectl/cmd/create_secret.go:156 msgid "Username for Docker registry authentication" msgstr "Username for Docker registry authentication" #: pkg/kubectl/cmd/apply_view_last_applied.go:64 msgid "View latest last-applied-configuration annotations of a resource/object" msgstr "" "View latest last-applied-configuration annotations of a resource/object" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollout/rollout_history.go#L51 #: pkg/kubectl/cmd/rollout/rollout_history.go:52 msgid "View rollout history" msgstr "View rollout history" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/clusterinfo_dump.go#L45 #: pkg/kubectl/cmd/clusterinfo_dump.go:46 msgid "" "Where to output the files. If empty or '-' uses stdout, otherwise creates a " "directory hierarchy in that directory" msgstr "" "Where to output the files. If empty or '-' uses stdout, otherwise creates a " "directory hierarchy in that directory" #: pkg/kubectl/cmd/run_test.go:85 msgid "dummy restart flag)" msgstr "dummy restart flag)" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_service.go#L253 #: pkg/kubectl/cmd/create_service.go:254 msgid "external name of service" msgstr "external name of service" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/cmd.go#L217 #: pkg/kubectl/cmd/cmd.go:227 msgid "kubectl controls the Kubernetes cluster manager" msgstr "kubectl controls the Kubernetes cluster manager" #~ msgid "" #~ "watch is only supported on individual resources and resource collections " #~ "- %d resources were found" #~ msgid_plural "" #~ "watch is only supported on individual resources and resource collections " #~ "- %d resources were found" #~ msgstr[0] "" #~ "watch is only supported on individual resources and resource collections " #~ "- %d resource was found" #~ msgstr[1] "" #~ "watch is only supported on individual resources and resource collections " #~ "- %d resources were found" `) func translationsKubectlDefaultLc_messagesK8sPoBytes() ([]byte, error) { return _translationsKubectlDefaultLc_messagesK8sPo, nil } func translationsKubectlDefaultLc_messagesK8sPo() (*asset, error) { bytes, err := translationsKubectlDefaultLc_messagesK8sPoBytes() if err != nil { return nil, err } info := bindataFileInfo{name: "translations/kubectl/default/LC_MESSAGES/k8s.po", size: 0, mode: os.FileMode(0), modTime: time.Unix(0, 0)} a := &asset{bytes: bytes, info: info} return a, nil } var _translationsKubectlEn_usLc_messagesK8sMo = 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# Create a ClusterRoleBinding for user1, user2, and group1 using the cluster-admin ClusterRole\n\t\t kubectl create clusterrolebinding cluster-admin --clusterrole=cluster-admin --user=user1 --user=user2 --group=group1\x00\n\t\t # Create a RoleBinding for user1, user2, and group1 using the admin ClusterRole\n\t\t kubectl create rolebinding admin --clusterrole=admin --user=user1 --user=user2 --group=group1\x00\n\t\t # Create a new configmap named my-config based on folder bar\n\t\t kubectl create configmap my-config --from-file=path/to/bar\n\n\t\t # Create a new configmap named my-config with specified keys instead of file basenames on disk\n\t\t kubectl create configmap my-config --from-file=key1=/path/to/bar/file1.txt --from-file=key2=/path/to/bar/file2.txt\n\n\t\t # Create a new configmap named my-config with key1=config1 and key2=config2\n\t\t kubectl create configmap my-config --from-literal=key1=config1 --from-literal=key2=config2\x00\n\t\t # If you don't already have a .dockercfg file, you can create a dockercfg secret directly by using:\n\t\t kubectl create secret docker-registry my-secret --docker-server=DOCKER_REGISTRY_SERVER --docker-username=DOCKER_USER --docker-password=DOCKER_PASSWORD --docker-email=DOCKER_EMAIL\x00\n\t\t # Show metrics for all nodes\n\t\t kubectl top node\n\n\t\t # Show metrics for a given node\n\t\t kubectl top node NODE_NAME\x00\n\t\t# Apply the configuration in pod.json to a pod.\n\t\tkubectl apply -f ./pod.json\n\n\t\t# Apply the JSON passed into stdin to a pod.\n\t\tcat pod.json | kubectl apply -f -\n\n\t\t# Note: --prune is still in Alpha\n\t\t# Apply the configuration in manifest.yaml that matches label app=nginx and delete all the other resources that are not in the file and match label app=nginx.\n\t\tkubectl apply --prune -f manifest.yaml -l app=nginx\n\n\t\t# Apply the configuration in manifest.yaml and delete all the other configmaps that are not in the file.\n\t\tkubectl apply --prune -f manifest.yaml --all --prune-whitelist=core/v1/ConfigMap\x00\n\t\t# Auto scale a deployment \"foo\", with the number of pods between 2 and 10, no target CPU utilization specified so a default autoscaling policy will be used:\n\t\tkubectl autoscale deployment foo --min=2 --max=10\n\n\t\t# Auto scale a replication controller \"foo\", with the number of pods between 1 and 5, target CPU utilization at 80%:\n\t\tkubectl autoscale rc foo --max=5 --cpu-percent=80\x00\n\t\t# Convert 'pod.yaml' to latest version and print to stdout.\n\t\tkubectl convert -f pod.yaml\n\n\t\t# Convert the live state of the resource specified by 'pod.yaml' to the latest version\n\t\t# and print to stdout in json format.\n\t\tkubectl convert -f pod.yaml --local -o json\n\n\t\t# Convert all files under current directory to latest version and create them all.\n\t\tkubectl convert -f . | kubectl create -f -\x00\n\t\t# Create a ClusterRole named \"pod-reader\" that allows user to perform \"get\", \"watch\" and \"list\" on pods\n\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --resource=pods\n\n\t\t# Create a ClusterRole named \"pod-reader\" with ResourceName specified\n\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --resource=pods --resource-name=readablepod\x00\n\t\t# Create a Role named \"pod-reader\" that allows user to perform \"get\", \"watch\" and \"list\" on pods\n\t\tkubectl create role pod-reader --verb=get --verb=list --verb=watch --resource=pods\n\n\t\t# Create a Role named \"pod-reader\" with ResourceName specified\n\t\tkubectl create role pod-reader --verb=get --verg=list --verb=watch --resource=pods --resource-name=readablepod\x00\n\t\t# Create a new resourcequota named my-quota\n\t\tkubectl create quota my-quota --hard=cpu=1,memory=1G,pods=2,services=3,replicationcontrollers=2,resourcequotas=1,secrets=5,persistentvolumeclaims=10\n\n\t\t# Create a new resourcequota named best-effort\n\t\tkubectl create quota best-effort --hard=pods=100 --scopes=BestEffort\x00\n\t\t# Create a pod disruption budget named my-pdb that will select all pods with the app=rails label\n\t\t# and require at least one of them being available at any point in time.\n\t\tkubectl create poddisruptionbudget my-pdb --selector=app=rails --min-available=1\n\n\t\t# Create a pod disruption budget named my-pdb that will select all pods with the app=nginx label\n\t\t# and require at least half of the pods selected to be available at any point in time.\n\t\tkubectl create pdb my-pdb --selector=app=nginx --min-available=50%\x00\n\t\t# Create a pod using the data in pod.json.\n\t\tkubectl create -f ./pod.json\n\n\t\t# Create a pod based on the JSON passed into stdin.\n\t\tcat pod.json | kubectl create -f -\n\n\t\t# Edit the data in docker-registry.yaml in JSON using the v1 API format then create the resource using the edited data.\n\t\tkubectl create -f docker-registry.yaml --edit --output-version=v1 -o json\x00\n\t\t# Create a service for a replicated nginx, which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose rc nginx --port=80 --target-port=8000\n\n\t\t# Create a service for a replication controller identified by type and name specified in \"nginx-controller.yaml\", which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose -f nginx-controller.yaml --port=80 --target-port=8000\n\n\t\t# Create a service for a pod valid-pod, which serves on port 444 with the name \"frontend\"\n\t\tkubectl expose pod valid-pod --port=444 --name=frontend\n\n\t\t# Create a second service based on the above service, exposing the container port 8443 as port 443 with the name \"nginx-https\"\n\t\tkubectl expose service nginx --port=443 --target-port=8443 --name=nginx-https\n\n\t\t# Create a service for a replicated streaming application on port 4100 balancing UDP traffic and named 'video-stream'.\n\t\tkubectl expose rc streamer --port=4100 --protocol=udp --name=video-stream\n\n\t\t# Create a service for a replicated nginx using replica set, which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose rs nginx --port=80 --target-port=8000\n\n\t\t# Create a service for an nginx deployment, which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose deployment nginx --port=80 --target-port=8000\x00\n\t\t# Delete a pod using the type and name specified in pod.json.\n\t\tkubectl delete -f ./pod.json\n\n\t\t# Delete a pod based on the type and name in the JSON passed into stdin.\n\t\tcat pod.json | kubectl delete -f -\n\n\t\t# Delete pods and services with same names \"baz\" and \"foo\"\n\t\tkubectl delete pod,service baz foo\n\n\t\t# Delete pods and services with label name=myLabel.\n\t\tkubectl delete pods,services -l name=myLabel\n\n\t\t# Delete a pod with minimal delay\n\t\tkubectl delete pod foo --now\n\n\t\t# Force delete a pod on a dead node\n\t\tkubectl delete pod foo --grace-period=0 --force\n\n\t\t# Delete all pods\n\t\tkubectl delete pods --all\x00\n\t\t# Describe a node\n\t\tkubectl describe nodes kubernetes-node-emt8.c.myproject.internal\n\n\t\t# Describe a pod\n\t\tkubectl describe pods/nginx\n\n\t\t# Describe a pod identified by type and name in \"pod.json\"\n\t\tkubectl describe -f pod.json\n\n\t\t# Describe all pods\n\t\tkubectl describe pods\n\n\t\t# Describe pods by label name=myLabel\n\t\tkubectl describe po -l name=myLabel\n\n\t\t# Describe all pods managed by the 'frontend' replication controller (rc-created pods\n\t\t# get the name of the rc as a prefix in the pod the name).\n\t\tkubectl describe pods frontend\x00\n\t\t# Drain node \"foo\", even if there are pods not managed by a ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet on it.\n\t\t$ kubectl drain foo --force\n\n\t\t# As above, but abort if there are pods not managed by a ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet, and use a grace period of 15 minutes.\n\t\t$ kubectl drain foo --grace-period=900\x00\n\t\t# Edit the service named 'docker-registry':\n\t\tkubectl edit svc/docker-registry\n\n\t\t# Use an alternative editor\n\t\tKUBE_EDITOR=\"nano\" kubectl edit svc/docker-registry\n\n\t\t# Edit the job 'myjob' in JSON using the v1 API format:\n\t\tkubectl edit job.v1.batch/myjob -o json\n\n\t\t# Edit the deployment 'mydeployment' in YAML and save the modified config in its annotation:\n\t\tkubectl edit deployment/mydeployment -o yaml --save-config\x00\n\t\t# Get output from running 'date' from pod 123456-7890, using the first container by default\n\t\tkubectl exec 123456-7890 date\n\n\t\t# Get output from running 'date' in ruby-container from pod 123456-7890\n\t\tkubectl exec 123456-7890 -c ruby-container date\n\n\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container from pod 123456-7890\n\t\t# and sends stdout/stderr from 'bash' back to the client\n\t\tkubectl exec 123456-7890 -c ruby-container -i -t -- bash -il\x00\n\t\t# Get output from running pod 123456-7890, using the first container by default\n\t\tkubectl attach 123456-7890\n\n\t\t# Get output from ruby-container from pod 123456-7890\n\t\tkubectl attach 123456-7890 -c ruby-container\n\n\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container from pod 123456-7890\n\t\t# and sends stdout/stderr from 'bash' back to the client\n\t\tkubectl attach 123456-7890 -c ruby-container -i -t\n\n\t\t# Get output from the first pod of a ReplicaSet named nginx\n\t\tkubectl attach rs/nginx\n\t\t\x00\n\t\t# Get the documentation of the resource and its fields\n\t\tkubectl explain pods\n\n\t\t# Get the documentation of a specific field of a resource\n\t\tkubectl explain pods.spec.containers\x00\n\t\t# Install bash completion on a Mac using homebrew\n\t\tbrew install bash-completion\n\t\tprintf \"\n# Bash completion support\nsource $(brew --prefix)/etc/bash_completion\n\" >> $HOME/.bash_profile\n\t\tsource $HOME/.bash_profile\n\n\t\t# Load the kubectl completion code for bash into the current shell\n\t\tsource <(kubectl completion bash)\n\n\t\t# Write bash completion code to a file and source if from .bash_profile\n\t\tkubectl completion bash > ~/.kube/completion.bash.inc\n\t\tprintf \"\n# Kubectl shell completion\nsource '$HOME/.kube/completion.bash.inc'\n\" >> $HOME/.bash_profile\n\t\tsource $HOME/.bash_profile\n\n\t\t# Load the kubectl completion code for zsh[1] into the current shell\n\t\tsource <(kubectl completion zsh)\x00\n\t\t# List all pods in ps output format.\n\t\tkubectl get pods\n\n\t\t# List all pods in ps output format with more information (such as node name).\n\t\tkubectl get pods -o wide\n\n\t\t# List a single replication controller with specified NAME in ps output format.\n\t\tkubectl get replicationcontroller web\n\n\t\t# List a single pod in JSON output format.\n\t\tkubectl get -o json pod web-pod-13je7\n\n\t\t# List a pod identified by type and name specified in \"pod.yaml\" in JSON output format.\n\t\tkubectl get -f pod.yaml -o json\n\n\t\t# Return only the phase value of the specified pod.\n\t\tkubectl get -o template pod/web-pod-13je7 --template={{.status.phase}}\n\n\t\t# List all replication controllers and services together in ps output format.\n\t\tkubectl get rc,services\n\n\t\t# List one or more resources by their type and names.\n\t\tkubectl get rc/web service/frontend pods/web-pod-13je7\n\n\t\t# List all resources with different types.\n\t\tkubectl get all\x00\n\t\t# Listen on ports 5000 and 6000 locally, forwarding data to/from ports 5000 and 6000 in the pod\n\t\tkubectl port-forward mypod 5000 6000\n\n\t\t# Listen on port 8888 locally, forwarding to 5000 in the pod\n\t\tkubectl port-forward mypod 8888:5000\n\n\t\t# Listen on a random port locally, forwarding to 5000 in the pod\n\t\tkubectl port-forward mypod :5000\n\n\t\t# Listen on a random port locally, forwarding to 5000 in the pod\n\t\tkubectl port-forward mypod 0:5000\x00\n\t\t# Mark node \"foo\" as schedulable.\n\t\t$ kubectl uncordon foo\x00\n\t\t# Mark node \"foo\" as unschedulable.\n\t\tkubectl cordon foo\x00\n\t\t# Partially update a node using strategic merge patch\n\t\tkubectl patch node k8s-node-1 -p '{\"spec\":{\"unschedulable\":true}}'\n\n\t\t# Partially update a node identified by the type and name specified in \"node.json\" using strategic merge patch\n\t\tkubectl patch -f node.json -p '{\"spec\":{\"unschedulable\":true}}'\n\n\t\t# Update a container's image; spec.containers[*].name is required because it's a merge key\n\t\tkubectl patch pod valid-pod -p '{\"spec\":{\"containers\":[{\"name\":\"kubernetes-serve-hostname\",\"image\":\"new image\"}]}}'\n\n\t\t# Update a container's image using a json patch with positional arrays\n\t\tkubectl patch pod valid-pod --type='json' -p='[{\"op\": \"replace\", \"path\": \"/spec/containers/0/image\", \"value\":\"new image\"}]'\x00\n\t\t# Print flags inherited by all commands\n\t\tkubectl options\x00\n\t\t# Print the address of the master and cluster services\n\t\tkubectl cluster-info\x00\n\t\t# Print the client and server versions for the current context\n\t\tkubectl version\x00\n\t\t# Print the supported API versions\n\t\tkubectl api-versions\x00\n\t\t# Replace a pod using the data in pod.json.\n\t\tkubectl replace -f ./pod.json\n\n\t\t# Replace a pod based on the JSON passed into stdin.\n\t\tcat pod.json | kubectl replace -f -\n\n\t\t# Update a single-container pod's image version (tag) to v4\n\t\tkubectl get pod mypod -o yaml | sed 's/\\(image: myimage\\):.*$/\x01:v4/' | kubectl replace -f -\n\n\t\t# Force replace, delete and then re-create the resource\n\t\tkubectl replace --force -f ./pod.json\x00\n\t\t# Return snapshot logs from pod nginx with only one container\n\t\tkubectl logs nginx\n\n\t\t# Return snapshot logs for the pods defined by label app=nginx\n\t\tkubectl logs -lapp=nginx\n\n\t\t# Return snapshot of previous terminated ruby container logs from pod web-1\n\t\tkubectl logs -p -c ruby web-1\n\n\t\t# Begin streaming the logs of the ruby container in pod web-1\n\t\tkubectl logs -f -c ruby web-1\n\n\t\t# Display only the most recent 20 lines of output in pod nginx\n\t\tkubectl logs --tail=20 nginx\n\n\t\t# Show all logs from pod nginx written in the last hour\n\t\tkubectl logs --since=1h nginx\n\n\t\t# Return snapshot logs from first container of a job named hello\n\t\tkubectl logs job/hello\n\n\t\t# Return snapshot logs from container nginx-1 of a deployment named nginx\n\t\tkubectl logs deployment/nginx -c nginx-1\x00\n\t\t# Run a proxy to kubernetes apiserver on port 8011, serving static content from ./local/www/\n\t\tkubectl proxy --port=8011 --www=./local/www/\n\n\t\t# Run a proxy to kubernetes apiserver on an arbitrary local port.\n\t\t# The chosen port for the server will be output to stdout.\n\t\tkubectl proxy --port=0\n\n\t\t# Run a proxy to kubernetes apiserver, changing the api prefix to k8s-api\n\t\t# This makes e.g. the pods api available at localhost:8001/k8s-api/v1/pods/\n\t\tkubectl proxy --api-prefix=/k8s-api\x00\n\t\t# Scale a replicaset named 'foo' to 3.\n\t\tkubectl scale --replicas=3 rs/foo\n\n\t\t# Scale a resource identified by type and name specified in \"foo.yaml\" to 3.\n\t\tkubectl scale --replicas=3 -f foo.yaml\n\n\t\t# If the deployment named mysql's current size is 2, scale mysql to 3.\n\t\tkubectl scale --current-replicas=2 --replicas=3 deployment/mysql\n\n\t\t# Scale multiple replication controllers.\n\t\tkubectl scale --replicas=5 rc/foo rc/bar rc/baz\n\n\t\t# Scale job named 'cron' to 3.\n\t\tkubectl scale --replicas=3 job/cron\x00\n\t\t# Set the last-applied-configuration of a resource to match the contents of a file.\n\t\tkubectl apply set-last-applied -f deploy.yaml\n\n\t\t# Execute set-last-applied against each configuration file in a directory.\n\t\tkubectl apply set-last-applied -f path/\n\n\t\t# Set the last-applied-configuration of a resource to match the contents of a file, will create the annotation if it does not already exist.\n\t\tkubectl apply set-last-applied -f deploy.yaml --create-annotation=true\n\t\t\x00\n\t\t# Show metrics for all pods in the default namespace\n\t\tkubectl top pod\n\n\t\t# Show metrics for all pods in the given namespace\n\t\tkubectl top pod --namespace=NAMESPACE\n\n\t\t# Show metrics for a given pod and its containers\n\t\tkubectl top pod POD_NAME --containers\n\n\t\t# Show metrics for the pods defined by label name=myLabel\n\t\tkubectl top pod -l name=myLabel\x00\n\t\t# Shut down foo.\n\t\tkubectl stop replicationcontroller foo\n\n\t\t# Stop pods and services with label name=myLabel.\n\t\tkubectl stop pods,services -l name=myLabel\n\n\t\t# Shut down the service defined in service.json\n\t\tkubectl stop -f service.json\n\n\t\t# Shut down all resources in the path/to/resources directory\n\t\tkubectl stop -f path/to/resources\x00\n\t\t# Start a single instance of nginx.\n\t\tkubectl run nginx --image=nginx\n\n\t\t# Start a single instance of hazelcast and let the container expose port 5701 .\n\t\tkubectl run hazelcast --image=hazelcast --port=5701\n\n\t\t# Start a single instance of hazelcast and set environment variables \"DNS_DOMAIN=cluster\" and \"POD_NAMESPACE=default\" in the container.\n\t\tkubectl run hazelcast --image=hazelcast --env=\"DNS_DOMAIN=cluster\" --env=\"POD_NAMESPACE=default\"\n\n\t\t# Start a replicated instance of nginx.\n\t\tkubectl run nginx --image=nginx --replicas=5\n\n\t\t# Dry run. Print the corresponding API objects without creating them.\n\t\tkubectl run nginx --image=nginx --dry-run\n\n\t\t# Start a single instance of nginx, but overload the spec of the deployment with a partial set of values parsed from JSON.\n\t\tkubectl run nginx --image=nginx --overrides='{ \"apiVersion\": \"v1\", \"spec\": { ... } }'\n\n\t\t# Start a pod of busybox and keep it in the foreground, don't restart it if it exits.\n\t\tkubectl run -i -t busybox --image=busybox --restart=Never\n\n\t\t# Start the nginx container using the default command, but use custom arguments (arg1 .. argN) for that command.\n\t\tkubectl run nginx --image=nginx -- ... \n\n\t\t# Start the nginx container using a different command and custom arguments.\n\t\tkubectl run nginx --image=nginx --command -- ... \n\n\t\t# Start the perl container to compute \u03c0 to 2000 places and print it out.\n\t\tkubectl run pi --image=perl --restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'\n\n\t\t# Start the cron job to compute \u03c0 to 2000 places and print it out every 5 minutes.\n\t\tkubectl run pi --schedule=\"0/5 * * * ?\" --image=perl --restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'\x00\n\t\t# Update node 'foo' with a taint with key 'dedicated' and value 'special-user' and effect 'NoSchedule'.\n\t\t# If a taint with that key and effect already exists, its value is replaced as specified.\n\t\tkubectl taint nodes foo dedicated=special-user:NoSchedule\n\n\t\t# Remove from node 'foo' the taint with key 'dedicated' and effect 'NoSchedule' if one exists.\n\t\tkubectl taint nodes foo dedicated:NoSchedule-\n\n\t\t# Remove from node 'foo' all the taints with key 'dedicated'\n\t\tkubectl taint nodes foo dedicated-\x00\n\t\t# Update pod 'foo' with the label 'unhealthy' and the value 'true'.\n\t\tkubectl label pods foo unhealthy=true\n\n\t\t# Update pod 'foo' with the label 'status' and the value 'unhealthy', overwriting any existing value.\n\t\tkubectl label --overwrite pods foo status=unhealthy\n\n\t\t# Update all pods in the namespace\n\t\tkubectl label pods --all status=unhealthy\n\n\t\t# Update a pod identified by the type and name in \"pod.json\"\n\t\tkubectl label -f pod.json status=unhealthy\n\n\t\t# Update pod 'foo' only if the resource is unchanged from version 1.\n\t\tkubectl label pods foo status=unhealthy --resource-version=1\n\n\t\t# Update pod 'foo' by removing a label named 'bar' if it exists.\n\t\t# Does not require the --overwrite flag.\n\t\tkubectl label pods foo bar-\x00\n\t\t# Update pods of frontend-v1 using new replication controller data in frontend-v2.json.\n\t\tkubectl rolling-update frontend-v1 -f frontend-v2.json\n\n\t\t# Update pods of frontend-v1 using JSON data passed into stdin.\n\t\tcat frontend-v2.json | kubectl rolling-update frontend-v1 -f -\n\n\t\t# Update the pods of frontend-v1 to frontend-v2 by just changing the image, and switching the\n\t\t# name of the replication controller.\n\t\tkubectl rolling-update frontend-v1 frontend-v2 --image=image:v2\n\n\t\t# Update the pods of frontend by just changing the image, and keeping the old name.\n\t\tkubectl rolling-update frontend --image=image:v2\n\n\t\t# Abort and reverse an existing rollout in progress (from frontend-v1 to frontend-v2).\n\t\tkubectl rolling-update frontend-v1 frontend-v2 --rollback\x00\n\t\t# View the last-applied-configuration annotations by type/name in YAML.\n\t\tkubectl apply view-last-applied deployment/nginx\n\n\t\t# View the last-applied-configuration annotations by file in JSON\n\t\tkubectl apply view-last-applied -f deploy.yaml -o json\x00\n\t\tApply a configuration to a resource by filename or stdin.\n\t\tThis resource will be created if it doesn't exist yet.\n\t\tTo use 'apply', always create the resource initially with either 'apply' or 'create --save-config'.\n\n\t\tJSON and YAML formats are accepted.\n\n\t\tAlpha Disclaimer: the --prune functionality is not yet complete. Do not use unless you are aware of what the current state is. See https://issues.k8s.io/34274.\x00\n\t\tConvert config files between different API versions. Both YAML\n\t\tand JSON formats are accepted.\n\n\t\tThe command takes filename, directory, or URL as input, and convert it into format\n\t\tof version specified by --output-version flag. If target version is not specified or\n\t\tnot supported, convert to latest version.\n\n\t\tThe default output will be printed to stdout in YAML format. One can use -o option\n\t\tto change to output destination.\x00\n\t\tCreate a ClusterRole.\x00\n\t\tCreate a ClusterRoleBinding for a particular ClusterRole.\x00\n\t\tCreate a RoleBinding for a particular Role or ClusterRole.\x00\n\t\tCreate a TLS secret from the given public/private key pair.\n\n\t\tThe public/private key pair must exist before hand. The public key certificate must be .PEM encoded and match the given private key.\x00\n\t\tCreate a configmap based on a file, directory, or specified literal value.\n\n\t\tA single configmap may package one or more key/value pairs.\n\n\t\tWhen creating a configmap based on a file, the key will default to the basename of the file, and the value will\n\t\tdefault to the file content. If the basename is an invalid key, you may specify an alternate key.\n\n\t\tWhen creating a configmap based on a directory, each file whose basename is a valid key in the directory will be\n\t\tpackaged into the configmap. Any directory entries except regular files are ignored (e.g. subdirectories,\n\t\tsymlinks, devices, pipes, etc).\x00\n\t\tCreate a namespace with the specified name.\x00\n\t\tCreate a new secret for use with Docker registries.\n\n\t\tDockercfg secrets are used to authenticate against Docker registries.\n\n\t\tWhen using the Docker command line to push images, you can authenticate to a given registry by running\n\n\t\t $ docker login DOCKER_REGISTRY_SERVER --username=DOCKER_USER --password=DOCKER_PASSWORD --email=DOCKER_EMAIL'.\n\n That produces a ~/.dockercfg file that is used by subsequent 'docker push' and 'docker pull' commands to\n\t\tauthenticate to the registry. The email address is optional.\n\n\t\tWhen creating applications, you may have a Docker registry that requires authentication. In order for the\n\t\tnodes to pull images on your behalf, they have to have the credentials. You can provide this information\n\t\tby creating a dockercfg secret and attaching it to your service account.\x00\n\t\tCreate a pod disruption budget with the specified name, selector, and desired minimum available pods\x00\n\t\tCreate a resource by filename or stdin.\n\n\t\tJSON and YAML formats are accepted.\x00\n\t\tCreate a resourcequota with the specified name, hard limits and optional scopes\x00\n\t\tCreate a role with single rule.\x00\n\t\tCreate a secret based on a file, directory, or specified literal value.\n\n\t\tA single secret may package one or more key/value pairs.\n\n\t\tWhen creating a secret based on a file, the key will default to the basename of the file, and the value will\n\t\tdefault to the file content. If the basename is an invalid key, you may specify an alternate key.\n\n\t\tWhen creating a secret based on a directory, each file whose basename is a valid key in the directory will be\n\t\tpackaged into the secret. Any directory entries except regular files are ignored (e.g. subdirectories,\n\t\tsymlinks, devices, pipes, etc).\x00\n\t\tCreate a service account with the specified name.\x00\n\t\tCreate and run a particular image, possibly replicated.\n\n\t\tCreates a deployment or job to manage the created container(s).\x00\n\t\tCreates an autoscaler that automatically chooses and sets the number of pods that run in a kubernetes cluster.\n\n\t\tLooks up a Deployment, ReplicaSet, or ReplicationController by name and creates an autoscaler that uses the given resource as a reference.\n\t\tAn autoscaler can automatically increase or decrease number of pods deployed within the system as needed.\x00\n\t\tDelete resources by filenames, stdin, resources and names, or by resources and label selector.\n\n\t\tJSON and YAML formats are accepted. Only one type of the arguments may be specified: filenames,\n\t\tresources and names, or resources and label selector.\n\n\t\tSome resources, such as pods, support graceful deletion. These resources define a default period\n\t\tbefore they are forcibly terminated (the grace period) but you may override that value with\n\t\tthe --grace-period flag, or pass --now to set a grace-period of 1. Because these resources often\n\t\trepresent entities in the cluster, deletion may not be acknowledged immediately. If the node\n\t\thosting a pod is down or cannot reach the API server, termination may take significantly longer\n\t\tthan the grace period. To force delete a resource,\tyou must pass a grace\tperiod of 0 and specify\n\t\tthe --force flag.\n\n\t\tIMPORTANT: Force deleting pods does not wait for confirmation that the pod's processes have been\n\t\tterminated, which can leave those processes running until the node detects the deletion and\n\t\tcompletes graceful deletion. If your processes use shared storage or talk to a remote API and\n\t\tdepend on the name of the pod to identify themselves, force deleting those pods may result in\n\t\tmultiple processes running on different machines using the same identification which may lead\n\t\tto data corruption or inconsistency. Only force delete pods when you are sure the pod is\n\t\tterminated, or if your application can tolerate multiple copies of the same pod running at once.\n\t\tAlso, if you force delete pods the scheduler may place new pods on those nodes before the node\n\t\thas released those resources and causing those pods to be evicted immediately.\n\n\t\tNote that the delete command does NOT do resource version checks, so if someone\n\t\tsubmits an update to a resource right when you submit a delete, their update\n\t\twill be lost along with the rest of the resource.\x00\n\t\tDeprecated: Gracefully shut down a resource by name or filename.\n\n\t\tThe stop command is deprecated, all its functionalities are covered by delete command.\n\t\tSee 'kubectl delete --help' for more details.\n\n\t\tAttempts to shut down and delete a resource that supports graceful termination.\n\t\tIf the resource is scalable it will be scaled to 0 before deletion.\x00\n\t\tDisplay Resource (CPU/Memory/Storage) usage of nodes.\n\n\t\tThe top-node command allows you to see the resource consumption of nodes.\x00\n\t\tDisplay Resource (CPU/Memory/Storage) usage of pods.\n\n\t\tThe 'top pod' command allows you to see the resource consumption of pods.\n\n\t\tDue to the metrics pipeline delay, they may be unavailable for a few minutes\n\t\tsince pod creation.\x00\n\t\tDisplay Resource (CPU/Memory/Storage) usage.\n\n\t\tThe top command allows you to see the resource consumption for nodes or pods.\n\n\t\tThis command requires Heapster to be correctly configured and working on the server. \x00\n\t\tDrain node in preparation for maintenance.\n\n\t\tThe given node will be marked unschedulable to prevent new pods from arriving.\n\t\t'drain' evicts the pods if the APIServer supports eviction\n\t\t(http://kubernetes.io/docs/admin/disruptions/). Otherwise, it will use normal DELETE\n\t\tto delete the pods.\n\t\tThe 'drain' evicts or deletes all pods except mirror pods (which cannot be deleted through\n\t\tthe API server). If there are DaemonSet-managed pods, drain will not proceed\n\t\twithout --ignore-daemonsets, and regardless it will not delete any\n\t\tDaemonSet-managed pods, because those pods would be immediately replaced by the\n\t\tDaemonSet controller, which ignores unschedulable markings. If there are any\n\t\tpods that are neither mirror pods nor managed by ReplicationController,\n\t\tReplicaSet, DaemonSet, StatefulSet or Job, then drain will not delete any pods unless you\n\t\tuse --force. --force will also allow deletion to proceed if the managing resource of one\n\t\tor more pods is missing.\n\n\t\t'drain' waits for graceful termination. You should not operate on the machine until\n\t\tthe command completes.\n\n\t\tWhen you are ready to put the node back into service, use kubectl uncordon, which\n\t\twill make the node schedulable again.\n\n\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_drain.svg)\x00\n\t\tEdit a resource from the default editor.\n\n\t\tThe edit command allows you to directly edit any API resource you can retrieve via the\n\t\tcommand line tools. It will open the editor defined by your KUBE_EDITOR, or EDITOR\n\t\tenvironment variables, or fall back to 'vi' for Linux or 'notepad' for Windows.\n\t\tYou can edit multiple objects, although changes are applied one at a time. The command\n\t\taccepts filenames as well as command line arguments, although the files you point to must\n\t\tbe previously saved versions of resources.\n\n\t\tEditing is done with the API version used to fetch the resource.\n\t\tTo edit using a specific API version, fully-qualify the resource, version, and group.\n\n\t\tThe default format is YAML. To edit in JSON, specify \"-o json\".\n\n\t\tThe flag --windows-line-endings can be used to force Windows line endings,\n\t\totherwise the default for your operating system will be used.\n\n\t\tIn the event an error occurs while updating, a temporary file will be created on disk\n\t\tthat contains your unapplied changes. The most common error when updating a resource\n\t\tis another editor changing the resource on the server. When this occurs, you will have\n\t\tto apply your changes to the newer version of the resource, or update your temporary\n\t\tsaved copy to include the latest resource version.\x00\n\t\tMark node as schedulable.\x00\n\t\tMark node as unschedulable.\x00\n\t\tOutput shell completion code for the specified shell (bash or zsh).\n\t\tThe shell code must be evaluated to provide interactive\n\t\tcompletion of kubectl commands. This can be done by sourcing it from\n\t\tthe .bash_profile.\n\n\t\tNote: this requires the bash-completion framework, which is not installed\n\t\tby default on Mac. This can be installed by using homebrew:\n\n\t\t $ brew install bash-completion\n\n\t\tOnce installed, bash_completion must be evaluated. This can be done by adding the\n\t\tfollowing line to the .bash_profile\n\n\t\t $ source $(brew --prefix)/etc/bash_completion\n\n\t\tNote for zsh users: [1] zsh completions are only supported in versions of zsh >= 5.2\x00\n\t\tPerform a rolling update of the given ReplicationController.\n\n\t\tReplaces the specified replication controller with a new replication controller by updating one pod at a time to use the\n\t\tnew PodTemplate. The new-controller.json must specify the same namespace as the\n\t\texisting replication controller and overwrite at least one (common) label in its replicaSelector.\n\n\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_rollingupdate.svg)\x00\n\t\tReplace a resource by filename or stdin.\n\n\t\tJSON and YAML formats are accepted. If replacing an existing resource, the\n\t\tcomplete resource spec must be provided. This can be obtained by\n\n\t\t $ kubectl get TYPE NAME -o yaml\n\n\t\tPlease refer to the models in https://htmlpreview.github.io/?https://github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions.html to find if a field is mutable.\x00\n\t\tSet a new size for a Deployment, ReplicaSet, Replication Controller, or Job.\n\n\t\tScale also allows users to specify one or more preconditions for the scale action.\n\n\t\tIf --current-replicas or --resource-version is specified, it is validated before the\n\t\tscale is attempted, and it is guaranteed that the precondition holds true when the\n\t\tscale is sent to the server.\x00\n\t\tSet the latest last-applied-configuration annotations by setting it to match the contents of a file.\n\t\tThis results in the last-applied-configuration being updated as though 'kubectl apply -f ' was run,\n\t\twithout updating any other parts of the object.\x00\n\t\tTo proxy all of the kubernetes api and nothing else, use:\n\n\t\t $ kubectl proxy --api-prefix=/\n\n\t\tTo proxy only part of the kubernetes api and also some static files:\n\n\t\t $ kubectl proxy --www=/my/files --www-prefix=/static/ --api-prefix=/api/\n\n\t\tThe above lets you 'curl localhost:8001/api/v1/pods'.\n\n\t\tTo proxy the entire kubernetes api at a different root, use:\n\n\t\t $ kubectl proxy --api-prefix=/custom/\n\n\t\tThe above lets you 'curl localhost:8001/custom/api/v1/pods'\x00\n\t\tUpdate field(s) of a resource using strategic merge patch\n\n\t\tJSON and YAML formats are accepted.\n\n\t\tPlease refer to the models in https://htmlpreview.github.io/?https://github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions.html to find if a field is mutable.\x00\n\t\tUpdate the labels on a resource.\n\n\t\t* A label must begin with a letter or number, and may contain letters, numbers, hyphens, dots, and underscores, up to %[1]d characters.\n\t\t* If --overwrite is true, then existing labels can be overwritten, otherwise attempting to overwrite a label will result in an error.\n\t\t* If --resource-version is specified, then updates will use this resource version, otherwise the existing resource-version will be used.\x00\n\t\tUpdate the taints on one or more nodes.\n\n\t\t* A taint consists of a key, value, and effect. As an argument here, it is expressed as key=value:effect.\n\t\t* The key must begin with a letter or number, and may contain letters, numbers, hyphens, dots, and underscores, up to %[1]d characters.\n\t\t* The value must begin with a letter or number, and may contain letters, numbers, hyphens, dots, and underscores, up to %[2]d characters.\n\t\t* The effect must be NoSchedule, PreferNoSchedule or NoExecute.\n\t\t* Currently taint can only apply to node.\x00\n\t\tView the latest last-applied-configuration annotations by type/name or file.\n\n\t\tThe default output will be printed to stdout in YAML format. One can use -o option\n\t\tto change output format.\x00\n\t # !!!Important Note!!!\n\t # Requires that the 'tar' binary is present in your container\n\t # image. If 'tar' is not present, 'kubectl cp' will fail.\n\n\t # Copy /tmp/foo_dir local directory to /tmp/bar_dir in a remote pod in the default namespace\n\t\tkubectl cp /tmp/foo_dir :/tmp/bar_dir\n\n # Copy /tmp/foo local file to /tmp/bar in a remote pod in a specific container\n\t\tkubectl cp /tmp/foo :/tmp/bar -c \n\n\t\t# Copy /tmp/foo local file to /tmp/bar in a remote pod in namespace \n\t\tkubectl cp /tmp/foo /:/tmp/bar\n\n\t\t# Copy /tmp/foo from a remote pod to /tmp/bar locally\n\t\tkubectl cp /:/tmp/foo /tmp/bar\x00\n\t # Create a new TLS secret named tls-secret with the given key pair:\n\t kubectl create secret tls tls-secret --cert=path/to/tls.cert --key=path/to/tls.key\x00\n\t # Create a new namespace named my-namespace\n\t kubectl create namespace my-namespace\x00\n\t # Create a new secret named my-secret with keys for each file in folder bar\n\t kubectl create secret generic my-secret --from-file=path/to/bar\n\n\t # Create a new secret named my-secret with specified keys instead of names on disk\n\t kubectl create secret generic my-secret --from-file=ssh-privatekey=~/.ssh/id_rsa --from-file=ssh-publickey=~/.ssh/id_rsa.pub\n\n\t # Create a new secret named my-secret with key1=supersecret and key2=topsecret\n\t kubectl create secret generic my-secret --from-literal=key1=supersecret --from-literal=key2=topsecret\x00\n\t # Create a new service account named my-service-account\n\t kubectl create serviceaccount my-service-account\x00\n\t# Create a new ExternalName service named my-ns \n\tkubectl create service externalname my-ns --external-name bar.com\x00\n\tCreate an ExternalName service with the specified name.\n\n\tExternalName service references to an external DNS address instead of\n\tonly pods, which will allow application authors to reference services\n\tthat exist off platform, on other clusters, or locally.\x00\n\tHelp provides help for any command in the application.\n\tSimply type kubectl help [path to command] for full details.\x00\n # Create a new LoadBalancer service named my-lbs\n kubectl create service loadbalancer my-lbs --tcp=5678:8080\x00\n # Create a new clusterIP service named my-cs\n kubectl create service clusterip my-cs --tcp=5678:8080\n\n # Create a new clusterIP service named my-cs (in headless mode)\n kubectl create service clusterip my-cs --clusterip=\"None\"\x00\n # Create a new deployment named my-dep that runs the busybox image.\n kubectl create deployment my-dep --image=busybox\x00\n # Create a new nodeport service named my-ns\n kubectl create service nodeport my-ns --tcp=5678:8080\x00\n # Dump current cluster state to stdout\n kubectl cluster-info dump\n\n # Dump current cluster state to /path/to/cluster-state\n kubectl cluster-info dump --output-directory=/path/to/cluster-state\n\n # Dump all namespaces to stdout\n kubectl cluster-info dump --all-namespaces\n\n # Dump a set of namespaces to /path/to/cluster-state\n kubectl cluster-info dump --namespaces default,kube-system --output-directory=/path/to/cluster-state\x00\n # Update pod 'foo' with the annotation 'description' and the value 'my frontend'.\n # If the same annotation is set multiple times, only the last value will be applied\n kubectl annotate pods foo description='my frontend'\n\n # Update a pod identified by type and name in \"pod.json\"\n kubectl annotate -f pod.json description='my frontend'\n\n # Update pod 'foo' with the annotation 'description' and the value 'my frontend running nginx', overwriting any existing value.\n kubectl annotate --overwrite pods foo description='my frontend running nginx'\n\n # Update all pods in the namespace\n kubectl annotate pods --all description='my frontend running nginx'\n\n # Update pod 'foo' only if the resource is unchanged from version 1.\n kubectl annotate pods foo description='my frontend running nginx' --resource-version=1\n\n # Update pod 'foo' by removing an annotation named 'description' if it exists.\n # Does not require the --overwrite flag.\n kubectl annotate pods foo description-\x00\n Create a LoadBalancer service with the specified name.\x00\n Create a clusterIP service with the specified name.\x00\n Create a deployment with the specified name.\x00\n Create a nodeport service with the specified name.\x00\n Dumps cluster info out suitable for debugging and diagnosing cluster problems. By default, dumps everything to\n stdout. You can optionally specify a directory with --output-directory. If you specify a directory, kubernetes will\n build a set of files in that directory. By default only dumps things in the 'kube-system' namespace, but you can\n switch to a different namespace with the --namespaces flag, or specify --all-namespaces to dump all namespaces.\n\n The command also dumps the logs of all of the pods in the cluster, these logs are dumped into different directories\n based on namespace and pod name.\x00\n Display addresses of the master and services with label kubernetes.io/cluster-service=true\n To further debug and diagnose cluster problems, use 'kubectl cluster-info dump'.\x00A comma-delimited set of quota scopes that must all match each object tracked by the quota.\x00A comma-delimited set of resource=quantity pairs that define a hard limit.\x00A label selector to use for this budget. Only equality-based selector requirements are supported.\x00A label selector to use for this service. Only equality-based selector requirements are supported. If empty (the default) infer the selector from the replication controller or replica set.)\x00A schedule in the Cron format the job should be run with.\x00Additional external IP address (not managed by Kubernetes) to accept for the service. If this IP is routed to a node, the service can be accessed by this IP in addition to its generated service IP.\x00An inline JSON override for the generated object. If this is non-empty, it is used to override the generated object. Requires that the object supply a valid apiVersion field.\x00An inline JSON override for the generated service object. If this is non-empty, it is used to override the generated object. Requires that the object supply a valid apiVersion field. Only used if --expose is true.\x00Apply a configuration to a resource by filename or stdin\x00Approve a certificate signing request\x00Assign your own ClusterIP or set to 'None' for a 'headless' service (no loadbalancing).\x00Attach to a running container\x00Auto-scale a Deployment, ReplicaSet, or ReplicationController\x00ClusterIP to be assigned to the service. Leave empty to auto-allocate, or set to 'None' to create a headless service.\x00ClusterRole this ClusterRoleBinding should reference\x00ClusterRole this RoleBinding should reference\x00Container name which will have its image upgraded. Only relevant when --image is specified, ignored otherwise. Required when using --image on a multi-container pod\x00Convert config files between different API versions\x00Copy files and directories to and from containers.\x00Create a ClusterRoleBinding for a particular ClusterRole\x00Create a LoadBalancer service.\x00Create a NodePort service.\x00Create a RoleBinding for a particular Role or ClusterRole\x00Create a TLS secret\x00Create a clusterIP service.\x00Create a configmap from a local file, directory or literal value\x00Create a deployment with the specified name.\x00Create a namespace with the specified name\x00Create a pod disruption budget with the specified name.\x00Create a quota with the specified name.\x00Create a resource by filename or stdin\x00Create a secret for use with a Docker registry\x00Create a secret from a local file, directory or literal value\x00Create a secret using specified subcommand\x00Create a service account with the specified name\x00Create a service using specified subcommand.\x00Create an ExternalName service.\x00Delete resources by filenames, stdin, resources and names, or by resources and label selector\x00Delete the specified cluster from the kubeconfig\x00Delete the specified context from the kubeconfig\x00Deny a certificate signing request\x00Deprecated: Gracefully shut down a resource by name or filename\x00Describe one or many contexts\x00Display Resource (CPU/Memory) usage of nodes\x00Display Resource (CPU/Memory) usage of pods\x00Display Resource (CPU/Memory) usage.\x00Display cluster info\x00Display clusters defined in the kubeconfig\x00Display merged kubeconfig settings or a specified kubeconfig file\x00Display one or many resources\x00Displays the current-context\x00Documentation of resources\x00Drain node in preparation for maintenance\x00Dump lots of relevant info for debugging and diagnosis\x00Edit a resource on the server\x00Email for Docker registry\x00Execute a command in a container\x00Explicit policy for when to pull container images. Required when --image is same as existing image, ignored otherwise.\x00Forward one or more local ports to a pod\x00Help about any command\x00IP to assign to the Load Balancer. If empty, an ephemeral IP will be created and used (cloud-provider specific).\x00If non-empty, set the session affinity for the service to this; legal values: 'None', 'ClientIP'\x00If non-empty, the annotation update will only succeed if this is the current resource-version for the object. Only valid when specifying a single resource.\x00If non-empty, the labels update will only succeed if this is the current resource-version for the object. Only valid when specifying a single resource.\x00Image to use for upgrading the replication controller. Must be distinct from the existing image (either new image or new image tag). Can not be used with --filename/-f\x00Manage a deployment rollout\x00Mark node as schedulable\x00Mark node as unschedulable\x00Mark the provided resource as paused\x00Modify certificate resources.\x00Modify kubeconfig files\x00Name or number for the port on the container that the service should direct traffic to. Optional.\x00Only return logs after a specific date (RFC3339). Defaults to all logs. Only one of since-time / since may be used.\x00Output shell completion code for the specified shell (bash or zsh)\x00Output the formatted object with the given group version (for ex: 'extensions/v1beta1').)\x00Password for Docker registry authentication\x00Path to PEM encoded public key certificate.\x00Path to private key associated with given certificate.\x00Perform a rolling update of the given ReplicationController\x00Precondition for resource version. Requires that the current resource version match this value in order to scale.\x00Print the client and server version information\x00Print the list of flags inherited by all commands\x00Print the logs for a container in a pod\x00Replace a resource by filename or stdin\x00Resume a paused resource\x00Role this RoleBinding should reference\x00Run a particular image on the cluster\x00Run a proxy to the Kubernetes API server\x00Server location for Docker registry\x00Set a new size for a Deployment, ReplicaSet, Replication Controller, or Job\x00Set specific features on objects\x00Set the last-applied-configuration annotation on a live object to match the contents of a file.\x00Set the selector on a resource\x00Sets a cluster entry in kubeconfig\x00Sets a context entry in kubeconfig\x00Sets a user entry in kubeconfig\x00Sets an individual value in a kubeconfig file\x00Sets the current-context in a kubeconfig file\x00Show details of a specific resource or group of resources\x00Show the status of the rollout\x00Synonym for --target-port\x00Take a replication controller, service, deployment or pod and expose it as a new Kubernetes Service\x00The image for the container to run.\x00The image pull policy for the container. If left empty, this value will not be specified by the client and defaulted by the server\x00The key to use to differentiate between two different controllers, default 'deployment'. Only relevant when --image is specified, ignored otherwise\x00The minimum number or percentage of available pods this budget requires.\x00The name for the newly created object.\x00The name for the newly created object. If not specified, the name of the input resource will be used.\x00The name of the API generator to use, see http://kubernetes.io/docs/user-guide/kubectl-conventions/#generators for a list.\x00The name of the API generator to use. Currently there is only 1 generator.\x00The name of the API generator to use. There are 2 generators: 'service/v1' and 'service/v2'. The only difference between them is that service port in v1 is named 'default', while it is left unnamed in v2. Default is 'service/v2'.\x00The name of the generator to use for creating a service. Only used if --expose is true\x00The network protocol for the service to be created. Default is 'TCP'.\x00The port that the service should serve on. Copied from the resource being exposed, if unspecified\x00The port that this container exposes. If --expose is true, this is also the port used by the service that is created.\x00The resource requirement limits for this container. For example, 'cpu=200m,memory=512Mi'. Note that server side components may assign limits depending on the server configuration, such as limit ranges.\x00The resource requirement requests for this container. For example, 'cpu=100m,memory=256Mi'. Note that server side components may assign requests depending on the server configuration, such as limit ranges.\x00The restart policy for this Pod. Legal values [Always, OnFailure, Never]. If set to 'Always' a deployment is created, if set to 'OnFailure' a job is created, if set to 'Never', a regular pod is created. For the latter two --replicas must be 1. Default 'Always', for CronJobs `Never`.\x00The type of secret to create\x00Type for this service: ClusterIP, NodePort, or LoadBalancer. Default is 'ClusterIP'.\x00Undo a previous rollout\x00Unsets an individual value in a kubeconfig file\x00Update field(s) of a resource using strategic merge patch\x00Update image of a pod template\x00Update resource requests/limits on objects with pod templates\x00Update the annotations on a resource\x00Update the labels on a resource\x00Update the taints on one or more nodes\x00Username for Docker registry authentication\x00View latest last-applied-configuration annotations of a resource/object\x00View rollout history\x00Where to output the files. If empty or '-' uses stdout, otherwise creates a directory hierarchy in that directory\x00dummy restart flag)\x00external name of service\x00kubectl controls the Kubernetes cluster manager\x00Project-Id-Version: gettext-go-examples-hello\nReport-Msgid-Bugs-To: EMAIL\nPOT-Creation-Date: 2017-03-14 21:32-0700\nPO-Revision-Date: 2017-03-14 21:33-0800\nLast-Translator: Brendan Burns \nLanguage-Team: \nLanguage: en\nMIME-Version: 1.0\nContent-Type: text/plain; charset=UTF-8\nContent-Transfer-Encoding: 8bit\nX-Generator: Poedit 1.6.10\nX-Poedit-SourceCharset: UTF-8\nPlural-Forms: nplurals=2; plural=(n != 1);\n\x00\n\t\t # Create a ClusterRoleBinding for user1, user2, and group1 using the cluster-admin ClusterRole\n\t\t kubectl create clusterrolebinding cluster-admin --clusterrole=cluster-admin --user=user1 --user=user2 --group=group1\x00\n\t\t # Create a RoleBinding for user1, user2, and group1 using the admin ClusterRole\n\t\t kubectl create rolebinding admin --clusterrole=admin --user=user1 --user=user2 --group=group1\x00\n\t\t # Create a new configmap named my-config based on folder bar\n\t\t kubectl create configmap my-config --from-file=path/to/bar\n\n\t\t # Create a new configmap named my-config with specified keys instead of file basenames on disk\n\t\t kubectl create configmap my-config --from-file=key1=/path/to/bar/file1.txt --from-file=key2=/path/to/bar/file2.txt\n\n\t\t # Create a new configmap named my-config with key1=config1 and key2=config2\n\t\t kubectl create configmap my-config --from-literal=key1=config1 --from-literal=key2=config2\x00\n\t\t # If you don't already have a .dockercfg file, you can create a dockercfg secret directly by using:\n\t\t kubectl create secret docker-registry my-secret --docker-server=DOCKER_REGISTRY_SERVER --docker-username=DOCKER_USER --docker-password=DOCKER_PASSWORD --docker-email=DOCKER_EMAIL\x00\n\t\t # Show metrics for all nodes\n\t\t kubectl top node\n\n\t\t # Show metrics for a given node\n\t\t kubectl top node NODE_NAME\x00\n\t\t# Apply the configuration in pod.json to a pod.\n\t\tkubectl apply -f ./pod.json\n\n\t\t# Apply the JSON passed into stdin to a pod.\n\t\tcat pod.json | kubectl apply -f -\n\n\t\t# Note: --prune is still in Alpha\n\t\t# Apply the configuration in manifest.yaml that matches label app=nginx and delete all the other resources that are not in the file and match label app=nginx.\n\t\tkubectl apply --prune -f manifest.yaml -l app=nginx\n\n\t\t# Apply the configuration in manifest.yaml and delete all the other configmaps that are not in the file.\n\t\tkubectl apply --prune -f manifest.yaml --all --prune-whitelist=core/v1/ConfigMap\x00\n\t\t# Auto scale a deployment \"foo\", with the number of pods between 2 and 10, no target CPU utilization specified so a default autoscaling policy will be used:\n\t\tkubectl autoscale deployment foo --min=2 --max=10\n\n\t\t# Auto scale a replication controller \"foo\", with the number of pods between 1 and 5, target CPU utilization at 80%:\n\t\tkubectl autoscale rc foo --max=5 --cpu-percent=80\x00\n\t\t# Convert 'pod.yaml' to latest version and print to stdout.\n\t\tkubectl convert -f pod.yaml\n\n\t\t# Convert the live state of the resource specified by 'pod.yaml' to the latest version\n\t\t# and print to stdout in json format.\n\t\tkubectl convert -f pod.yaml --local -o json\n\n\t\t# Convert all files under current directory to latest version and create them all.\n\t\tkubectl convert -f . | kubectl create -f -\x00\n\t\t# Create a ClusterRole named \"pod-reader\" that allows user to perform \"get\", \"watch\" and \"list\" on pods\n\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --resource=pods\n\n\t\t# Create a ClusterRole named \"pod-reader\" with ResourceName specified\n\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --resource=pods --resource-name=readablepod\x00\n\t\t# Create a Role named \"pod-reader\" that allows user to perform \"get\", \"watch\" and \"list\" on pods\n\t\tkubectl create role pod-reader --verb=get --verb=list --verb=watch --resource=pods\n\n\t\t# Create a Role named \"pod-reader\" with ResourceName specified\n\t\tkubectl create role pod-reader --verb=get --verg=list --verb=watch --resource=pods --resource-name=readablepod\x00\n\t\t# Create a new resourcequota named my-quota\n\t\tkubectl create quota my-quota --hard=cpu=1,memory=1G,pods=2,services=3,replicationcontrollers=2,resourcequotas=1,secrets=5,persistentvolumeclaims=10\n\n\t\t# Create a new resourcequota named best-effort\n\t\tkubectl create quota best-effort --hard=pods=100 --scopes=BestEffort\x00\n\t\t# Create a pod disruption budget named my-pdb that will select all pods with the app=rails label\n\t\t# and require at least one of them being available at any point in time.\n\t\tkubectl create poddisruptionbudget my-pdb --selector=app=rails --min-available=1\n\n\t\t# Create a pod disruption budget named my-pdb that will select all pods with the app=nginx label\n\t\t# and require at least half of the pods selected to be available at any point in time.\n\t\tkubectl create pdb my-pdb --selector=app=nginx --min-available=50%\x00\n\t\t# Create a pod using the data in pod.json.\n\t\tkubectl create -f ./pod.json\n\n\t\t# Create a pod based on the JSON passed into stdin.\n\t\tcat pod.json | kubectl create -f -\n\n\t\t# Edit the data in docker-registry.yaml in JSON using the v1 API format then create the resource using the edited data.\n\t\tkubectl create -f docker-registry.yaml --edit --output-version=v1 -o json\x00\n\t\t# Create a service for a replicated nginx, which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose rc nginx --port=80 --target-port=8000\n\n\t\t# Create a service for a replication controller identified by type and name specified in \"nginx-controller.yaml\", which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose -f nginx-controller.yaml --port=80 --target-port=8000\n\n\t\t# Create a service for a pod valid-pod, which serves on port 444 with the name \"frontend\"\n\t\tkubectl expose pod valid-pod --port=444 --name=frontend\n\n\t\t# Create a second service based on the above service, exposing the container port 8443 as port 443 with the name \"nginx-https\"\n\t\tkubectl expose service nginx --port=443 --target-port=8443 --name=nginx-https\n\n\t\t# Create a service for a replicated streaming application on port 4100 balancing UDP traffic and named 'video-stream'.\n\t\tkubectl expose rc streamer --port=4100 --protocol=udp --name=video-stream\n\n\t\t# Create a service for a replicated nginx using replica set, which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose rs nginx --port=80 --target-port=8000\n\n\t\t# Create a service for an nginx deployment, which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose deployment nginx --port=80 --target-port=8000\x00\n\t\t# Delete a pod using the type and name specified in pod.json.\n\t\tkubectl delete -f ./pod.json\n\n\t\t# Delete a pod based on the type and name in the JSON passed into stdin.\n\t\tcat pod.json | kubectl delete -f -\n\n\t\t# Delete pods and services with same names \"baz\" and \"foo\"\n\t\tkubectl delete pod,service baz foo\n\n\t\t# Delete pods and services with label name=myLabel.\n\t\tkubectl delete pods,services -l name=myLabel\n\n\t\t# Delete a pod with minimal delay\n\t\tkubectl delete pod foo --now\n\n\t\t# Force delete a pod on a dead node\n\t\tkubectl delete pod foo --grace-period=0 --force\n\n\t\t# Delete all pods\n\t\tkubectl delete pods --all\x00\n\t\t# Describe a node\n\t\tkubectl describe nodes kubernetes-node-emt8.c.myproject.internal\n\n\t\t# Describe a pod\n\t\tkubectl describe pods/nginx\n\n\t\t# Describe a pod identified by type and name in \"pod.json\"\n\t\tkubectl describe -f pod.json\n\n\t\t# Describe all pods\n\t\tkubectl describe pods\n\n\t\t# Describe pods by label name=myLabel\n\t\tkubectl describe po -l name=myLabel\n\n\t\t# Describe all pods managed by the 'frontend' replication controller (rc-created pods\n\t\t# get the name of the rc as a prefix in the pod the name).\n\t\tkubectl describe pods frontend\x00\n\t\t# Drain node \"foo\", even if there are pods not managed by a ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet on it.\n\t\t$ kubectl drain foo --force\n\n\t\t# As above, but abort if there are pods not managed by a ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet, and use a grace period of 15 minutes.\n\t\t$ kubectl drain foo --grace-period=900\x00\n\t\t# Edit the service named 'docker-registry':\n\t\tkubectl edit svc/docker-registry\n\n\t\t# Use an alternative editor\n\t\tKUBE_EDITOR=\"nano\" kubectl edit svc/docker-registry\n\n\t\t# Edit the job 'myjob' in JSON using the v1 API format:\n\t\tkubectl edit job.v1.batch/myjob -o json\n\n\t\t# Edit the deployment 'mydeployment' in YAML and save the modified config in its annotation:\n\t\tkubectl edit deployment/mydeployment -o yaml --save-config\x00\n\t\t# Get output from running 'date' from pod 123456-7890, using the first container by default\n\t\tkubectl exec 123456-7890 date\n\n\t\t# Get output from running 'date' in ruby-container from pod 123456-7890\n\t\tkubectl exec 123456-7890 -c ruby-container date\n\n\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container from pod 123456-7890\n\t\t# and sends stdout/stderr from 'bash' back to the client\n\t\tkubectl exec 123456-7890 -c ruby-container -i -t -- bash -il\x00\n\t\t# Get output from running pod 123456-7890, using the first container by default\n\t\tkubectl attach 123456-7890\n\n\t\t# Get output from ruby-container from pod 123456-7890\n\t\tkubectl attach 123456-7890 -c ruby-container\n\n\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container from pod 123456-7890\n\t\t# and sends stdout/stderr from 'bash' back to the client\n\t\tkubectl attach 123456-7890 -c ruby-container -i -t\n\n\t\t# Get output from the first pod of a ReplicaSet named nginx\n\t\tkubectl attach rs/nginx\n\t\t\x00\n\t\t# Get the documentation of the resource and its fields\n\t\tkubectl explain pods\n\n\t\t# Get the documentation of a specific field of a resource\n\t\tkubectl explain pods.spec.containers\x00\n\t\t# Install bash completion on a Mac using homebrew\n\t\tbrew install bash-completion\n\t\tprintf \"\n# Bash completion support\nsource $(brew --prefix)/etc/bash_completion\n\" >> $HOME/.bash_profile\n\t\tsource $HOME/.bash_profile\n\n\t\t# Load the kubectl completion code for bash into the current shell\n\t\tsource <(kubectl completion bash)\n\n\t\t# Write bash completion code to a file and source if from .bash_profile\n\t\tkubectl completion bash > ~/.kube/completion.bash.inc\n\t\tprintf \"\n# Kubectl shell completion\nsource '$HOME/.kube/completion.bash.inc'\n\" >> $HOME/.bash_profile\n\t\tsource $HOME/.bash_profile\n\n\t\t# Load the kubectl completion code for zsh[1] into the current shell\n\t\tsource <(kubectl completion zsh)\x00\n\t\t# List all pods in ps output format.\n\t\tkubectl get pods\n\n\t\t# List all pods in ps output format with more information (such as node name).\n\t\tkubectl get pods -o wide\n\n\t\t# List a single replication controller with specified NAME in ps output format.\n\t\tkubectl get replicationcontroller web\n\n\t\t# List a single pod in JSON output format.\n\t\tkubectl get -o json pod web-pod-13je7\n\n\t\t# List a pod identified by type and name specified in \"pod.yaml\" in JSON output format.\n\t\tkubectl get -f pod.yaml -o json\n\n\t\t# Return only the phase value of the specified pod.\n\t\tkubectl get -o template pod/web-pod-13je7 --template={{.status.phase}}\n\n\t\t# List all replication controllers and services together in ps output format.\n\t\tkubectl get rc,services\n\n\t\t# List one or more resources by their type and names.\n\t\tkubectl get rc/web service/frontend pods/web-pod-13je7\n\n\t\t# List all resources with different types.\n\t\tkubectl get all\x00\n\t\t# Listen on ports 5000 and 6000 locally, forwarding data to/from ports 5000 and 6000 in the pod\n\t\tkubectl port-forward mypod 5000 6000\n\n\t\t# Listen on port 8888 locally, forwarding to 5000 in the pod\n\t\tkubectl port-forward mypod 8888:5000\n\n\t\t# Listen on a random port locally, forwarding to 5000 in the pod\n\t\tkubectl port-forward mypod :5000\n\n\t\t# Listen on a random port locally, forwarding to 5000 in the pod\n\t\tkubectl port-forward mypod 0:5000\x00\n\t\t# Mark node \"foo\" as schedulable.\n\t\t$ kubectl uncordon foo\x00\n\t\t# Mark node \"foo\" as unschedulable.\n\t\tkubectl cordon foo\x00\n\t\t# Partially update a node using strategic merge patch\n\t\tkubectl patch node k8s-node-1 -p '{\"spec\":{\"unschedulable\":true}}'\n\n\t\t# Partially update a node identified by the type and name specified in \"node.json\" using strategic merge patch\n\t\tkubectl patch -f node.json -p '{\"spec\":{\"unschedulable\":true}}'\n\n\t\t# Update a container's image; spec.containers[*].name is required because it's a merge key\n\t\tkubectl patch pod valid-pod -p '{\"spec\":{\"containers\":[{\"name\":\"kubernetes-serve-hostname\",\"image\":\"new image\"}]}}'\n\n\t\t# Update a container's image using a json patch with positional arrays\n\t\tkubectl patch pod valid-pod --type='json' -p='[{\"op\": \"replace\", \"path\": \"/spec/containers/0/image\", \"value\":\"new image\"}]'\x00\n\t\t# Print flags inherited by all commands\n\t\tkubectl options\x00\n\t\t# Print the address of the master and cluster services\n\t\tkubectl cluster-info\x00\n\t\t# Print the client and server versions for the current context\n\t\tkubectl version\x00\n\t\t# Print the supported API versions\n\t\tkubectl api-versions\x00\n\t\t# Replace a pod using the data in pod.json.\n\t\tkubectl replace -f ./pod.json\n\n\t\t# Replace a pod based on the JSON passed into stdin.\n\t\tcat pod.json | kubectl replace -f -\n\n\t\t# Update a single-container pod's image version (tag) to v4\n\t\tkubectl get pod mypod -o yaml | sed 's/\\(image: myimage\\):.*$/\x01:v4/' | kubectl replace -f -\n\n\t\t# Force replace, delete and then re-create the resource\n\t\tkubectl replace --force -f ./pod.json\x00\n\t\t# Return snapshot logs from pod nginx with only one container\n\t\tkubectl logs nginx\n\n\t\t# Return snapshot logs for the pods defined by label app=nginx\n\t\tkubectl logs -lapp=nginx\n\n\t\t# Return snapshot of previous terminated ruby container logs from pod web-1\n\t\tkubectl logs -p -c ruby web-1\n\n\t\t# Begin streaming the logs of the ruby container in pod web-1\n\t\tkubectl logs -f -c ruby web-1\n\n\t\t# Display only the most recent 20 lines of output in pod nginx\n\t\tkubectl logs --tail=20 nginx\n\n\t\t# Show all logs from pod nginx written in the last hour\n\t\tkubectl logs --since=1h nginx\n\n\t\t# Return snapshot logs from first container of a job named hello\n\t\tkubectl logs job/hello\n\n\t\t# Return snapshot logs from container nginx-1 of a deployment named nginx\n\t\tkubectl logs deployment/nginx -c nginx-1\x00\n\t\t# Run a proxy to kubernetes apiserver on port 8011, serving static content from ./local/www/\n\t\tkubectl proxy --port=8011 --www=./local/www/\n\n\t\t# Run a proxy to kubernetes apiserver on an arbitrary local port.\n\t\t# The chosen port for the server will be output to stdout.\n\t\tkubectl proxy --port=0\n\n\t\t# Run a proxy to kubernetes apiserver, changing the api prefix to k8s-api\n\t\t# This makes e.g. the pods api available at localhost:8001/k8s-api/v1/pods/\n\t\tkubectl proxy --api-prefix=/k8s-api\x00\n\t\t# Scale a replicaset named 'foo' to 3.\n\t\tkubectl scale --replicas=3 rs/foo\n\n\t\t# Scale a resource identified by type and name specified in \"foo.yaml\" to 3.\n\t\tkubectl scale --replicas=3 -f foo.yaml\n\n\t\t# If the deployment named mysql's current size is 2, scale mysql to 3.\n\t\tkubectl scale --current-replicas=2 --replicas=3 deployment/mysql\n\n\t\t# Scale multiple replication controllers.\n\t\tkubectl scale --replicas=5 rc/foo rc/bar rc/baz\n\n\t\t# Scale job named 'cron' to 3.\n\t\tkubectl scale --replicas=3 job/cron\x00\n\t\t# Set the last-applied-configuration of a resource to match the contents of a file.\n\t\tkubectl apply set-last-applied -f deploy.yaml\n\n\t\t# Execute set-last-applied against each configuration file in a directory.\n\t\tkubectl apply set-last-applied -f path/\n\n\t\t# Set the last-applied-configuration of a resource to match the contents of a file, will create the annotation if it does not already exist.\n\t\tkubectl apply set-last-applied -f deploy.yaml --create-annotation=true\n\t\t\x00\n\t\t# Show metrics for all pods in the default namespace\n\t\tkubectl top pod\n\n\t\t# Show metrics for all pods in the given namespace\n\t\tkubectl top pod --namespace=NAMESPACE\n\n\t\t# Show metrics for a given pod and its containers\n\t\tkubectl top pod POD_NAME --containers\n\n\t\t# Show metrics for the pods defined by label name=myLabel\n\t\tkubectl top pod -l name=myLabel\x00\n\t\t# Shut down foo.\n\t\tkubectl stop replicationcontroller foo\n\n\t\t# Stop pods and services with label name=myLabel.\n\t\tkubectl stop pods,services -l name=myLabel\n\n\t\t# Shut down the service defined in service.json\n\t\tkubectl stop -f service.json\n\n\t\t# Shut down all resources in the path/to/resources directory\n\t\tkubectl stop -f path/to/resources\x00\n\t\t# Start a single instance of nginx.\n\t\tkubectl run nginx --image=nginx\n\n\t\t# Start a single instance of hazelcast and let the container expose port 5701 .\n\t\tkubectl run hazelcast --image=hazelcast --port=5701\n\n\t\t# Start a single instance of hazelcast and set environment variables \"DNS_DOMAIN=cluster\" and \"POD_NAMESPACE=default\" in the container.\n\t\tkubectl run hazelcast --image=hazelcast --env=\"DNS_DOMAIN=cluster\" --env=\"POD_NAMESPACE=default\"\n\n\t\t# Start a replicated instance of nginx.\n\t\tkubectl run nginx --image=nginx --replicas=5\n\n\t\t# Dry run. Print the corresponding API objects without creating them.\n\t\tkubectl run nginx --image=nginx --dry-run\n\n\t\t# Start a single instance of nginx, but overload the spec of the deployment with a partial set of values parsed from JSON.\n\t\tkubectl run nginx --image=nginx --overrides='{ \"apiVersion\": \"v1\", \"spec\": { ... } }'\n\n\t\t# Start a pod of busybox and keep it in the foreground, don't restart it if it exits.\n\t\tkubectl run -i -t busybox --image=busybox --restart=Never\n\n\t\t# Start the nginx container using the default command, but use custom arguments (arg1 .. argN) for that command.\n\t\tkubectl run nginx --image=nginx -- ... \n\n\t\t# Start the nginx container using a different command and custom arguments.\n\t\tkubectl run nginx --image=nginx --command -- ... \n\n\t\t# Start the perl container to compute \u03c0 to 2000 places and print it out.\n\t\tkubectl run pi --image=perl --restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'\n\n\t\t# Start the cron job to compute \u03c0 to 2000 places and print it out every 5 minutes.\n\t\tkubectl run pi --schedule=\"0/5 * * * ?\" --image=perl --restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'\x00\n\t\t# Update node 'foo' with a taint with key 'dedicated' and value 'special-user' and effect 'NoSchedule'.\n\t\t# If a taint with that key and effect already exists, its value is replaced as specified.\n\t\tkubectl taint nodes foo dedicated=special-user:NoSchedule\n\n\t\t# Remove from node 'foo' the taint with key 'dedicated' and effect 'NoSchedule' if one exists.\n\t\tkubectl taint nodes foo dedicated:NoSchedule-\n\n\t\t# Remove from node 'foo' all the taints with key 'dedicated'\n\t\tkubectl taint nodes foo dedicated-\x00\n\t\t# Update pod 'foo' with the label 'unhealthy' and the value 'true'.\n\t\tkubectl label pods foo unhealthy=true\n\n\t\t# Update pod 'foo' with the label 'status' and the value 'unhealthy', overwriting any existing value.\n\t\tkubectl label --overwrite pods foo status=unhealthy\n\n\t\t# Update all pods in the namespace\n\t\tkubectl label pods --all status=unhealthy\n\n\t\t# Update a pod identified by the type and name in \"pod.json\"\n\t\tkubectl label -f pod.json status=unhealthy\n\n\t\t# Update pod 'foo' only if the resource is unchanged from version 1.\n\t\tkubectl label pods foo status=unhealthy --resource-version=1\n\n\t\t# Update pod 'foo' by removing a label named 'bar' if it exists.\n\t\t# Does not require the --overwrite flag.\n\t\tkubectl label pods foo bar-\x00\n\t\t# Update pods of frontend-v1 using new replication controller data in frontend-v2.json.\n\t\tkubectl rolling-update frontend-v1 -f frontend-v2.json\n\n\t\t# Update pods of frontend-v1 using JSON data passed into stdin.\n\t\tcat frontend-v2.json | kubectl rolling-update frontend-v1 -f -\n\n\t\t# Update the pods of frontend-v1 to frontend-v2 by just changing the image, and switching the\n\t\t# name of the replication controller.\n\t\tkubectl rolling-update frontend-v1 frontend-v2 --image=image:v2\n\n\t\t# Update the pods of frontend by just changing the image, and keeping the old name.\n\t\tkubectl rolling-update frontend --image=image:v2\n\n\t\t# Abort and reverse an existing rollout in progress (from frontend-v1 to frontend-v2).\n\t\tkubectl rolling-update frontend-v1 frontend-v2 --rollback\x00\n\t\t# View the last-applied-configuration annotations by type/name in YAML.\n\t\tkubectl apply view-last-applied deployment/nginx\n\n\t\t# View the last-applied-configuration annotations by file in JSON\n\t\tkubectl apply view-last-applied -f deploy.yaml -o json\x00\n\t\tApply a configuration to a resource by filename or stdin.\n\t\tThis resource will be created if it doesn't exist yet.\n\t\tTo use 'apply', always create the resource initially with either 'apply' or 'create --save-config'.\n\n\t\tJSON and YAML formats are accepted.\n\n\t\tAlpha Disclaimer: the --prune functionality is not yet complete. Do not use unless you are aware of what the current state is. See https://issues.k8s.io/34274.\x00\n\t\tConvert config files between different API versions. Both YAML\n\t\tand JSON formats are accepted.\n\n\t\tThe command takes filename, directory, or URL as input, and convert it into format\n\t\tof version specified by --output-version flag. If target version is not specified or\n\t\tnot supported, convert to latest version.\n\n\t\tThe default output will be printed to stdout in YAML format. One can use -o option\n\t\tto change to output destination.\x00\n\t\tCreate a ClusterRole.\x00\n\t\tCreate a ClusterRoleBinding for a particular ClusterRole.\x00\n\t\tCreate a RoleBinding for a particular Role or ClusterRole.\x00\n\t\tCreate a TLS secret from the given public/private key pair.\n\n\t\tThe public/private key pair must exist before hand. The public key certificate must be .PEM encoded and match the given private key.\x00\n\t\tCreate a configmap based on a file, directory, or specified literal value.\n\n\t\tA single configmap may package one or more key/value pairs.\n\n\t\tWhen creating a configmap based on a file, the key will default to the basename of the file, and the value will\n\t\tdefault to the file content. If the basename is an invalid key, you may specify an alternate key.\n\n\t\tWhen creating a configmap based on a directory, each file whose basename is a valid key in the directory will be\n\t\tpackaged into the configmap. Any directory entries except regular files are ignored (e.g. subdirectories,\n\t\tsymlinks, devices, pipes, etc).\x00\n\t\tCreate a namespace with the specified name.\x00\n\t\tCreate a new secret for use with Docker registries.\n\n\t\tDockercfg secrets are used to authenticate against Docker registries.\n\n\t\tWhen using the Docker command line to push images, you can authenticate to a given registry by running\n\n\t\t $ docker login DOCKER_REGISTRY_SERVER --username=DOCKER_USER --password=DOCKER_PASSWORD --email=DOCKER_EMAIL'.\n\n That produces a ~/.dockercfg file that is used by subsequent 'docker push' and 'docker pull' commands to\n\t\tauthenticate to the registry. The email address is optional.\n\n\t\tWhen creating applications, you may have a Docker registry that requires authentication. In order for the\n\t\tnodes to pull images on your behalf, they have to have the credentials. You can provide this information\n\t\tby creating a dockercfg secret and attaching it to your service account.\x00\n\t\tCreate a pod disruption budget with the specified name, selector, and desired minimum available pods\x00\n\t\tCreate a resource by filename or stdin.\n\n\t\tJSON and YAML formats are accepted.\x00\n\t\tCreate a resourcequota with the specified name, hard limits and optional scopes\x00\n\t\tCreate a role with single rule.\x00\n\t\tCreate a secret based on a file, directory, or specified literal value.\n\n\t\tA single secret may package one or more key/value pairs.\n\n\t\tWhen creating a secret based on a file, the key will default to the basename of the file, and the value will\n\t\tdefault to the file content. If the basename is an invalid key, you may specify an alternate key.\n\n\t\tWhen creating a secret based on a directory, each file whose basename is a valid key in the directory will be\n\t\tpackaged into the secret. Any directory entries except regular files are ignored (e.g. subdirectories,\n\t\tsymlinks, devices, pipes, etc).\x00\n\t\tCreate a service account with the specified name.\x00\n\t\tCreate and run a particular image, possibly replicated.\n\n\t\tCreates a deployment or job to manage the created container(s).\x00\n\t\tCreates an autoscaler that automatically chooses and sets the number of pods that run in a kubernetes cluster.\n\n\t\tLooks up a Deployment, ReplicaSet, or ReplicationController by name and creates an autoscaler that uses the given resource as a reference.\n\t\tAn autoscaler can automatically increase or decrease number of pods deployed within the system as needed.\x00\n\t\tDelete resources by filenames, stdin, resources and names, or by resources and label selector.\n\n\t\tJSON and YAML formats are accepted. Only one type of the arguments may be specified: filenames,\n\t\tresources and names, or resources and label selector.\n\n\t\tSome resources, such as pods, support graceful deletion. These resources define a default period\n\t\tbefore they are forcibly terminated (the grace period) but you may override that value with\n\t\tthe --grace-period flag, or pass --now to set a grace-period of 1. Because these resources often\n\t\trepresent entities in the cluster, deletion may not be acknowledged immediately. If the node\n\t\thosting a pod is down or cannot reach the API server, termination may take significantly longer\n\t\tthan the grace period. To force delete a resource,\tyou must pass a grace\tperiod of 0 and specify\n\t\tthe --force flag.\n\n\t\tIMPORTANT: Force deleting pods does not wait for confirmation that the pod's processes have been\n\t\tterminated, which can leave those processes running until the node detects the deletion and\n\t\tcompletes graceful deletion. If your processes use shared storage or talk to a remote API and\n\t\tdepend on the name of the pod to identify themselves, force deleting those pods may result in\n\t\tmultiple processes running on different machines using the same identification which may lead\n\t\tto data corruption or inconsistency. Only force delete pods when you are sure the pod is\n\t\tterminated, or if your application can tolerate multiple copies of the same pod running at once.\n\t\tAlso, if you force delete pods the scheduler may place new pods on those nodes before the node\n\t\thas released those resources and causing those pods to be evicted immediately.\n\n\t\tNote that the delete command does NOT do resource version checks, so if someone\n\t\tsubmits an update to a resource right when you submit a delete, their update\n\t\twill be lost along with the rest of the resource.\x00\n\t\tDeprecated: Gracefully shut down a resource by name or filename.\n\n\t\tThe stop command is deprecated, all its functionalities are covered by delete command.\n\t\tSee 'kubectl delete --help' for more details.\n\n\t\tAttempts to shut down and delete a resource that supports graceful termination.\n\t\tIf the resource is scalable it will be scaled to 0 before deletion.\x00\n\t\tDisplay Resource (CPU/Memory/Storage) usage of nodes.\n\n\t\tThe top-node command allows you to see the resource consumption of nodes.\x00\n\t\tDisplay Resource (CPU/Memory/Storage) usage of pods.\n\n\t\tThe 'top pod' command allows you to see the resource consumption of pods.\n\n\t\tDue to the metrics pipeline delay, they may be unavailable for a few minutes\n\t\tsince pod creation.\x00\n\t\tDisplay Resource (CPU/Memory/Storage) usage.\n\n\t\tThe top command allows you to see the resource consumption for nodes or pods.\n\n\t\tThis command requires Heapster to be correctly configured and working on the server. \x00\n\t\tDrain node in preparation for maintenance.\n\n\t\tThe given node will be marked unschedulable to prevent new pods from arriving.\n\t\t'drain' evicts the pods if the APIServer supports eviction\n\t\t(http://kubernetes.io/docs/admin/disruptions/). Otherwise, it will use normal DELETE\n\t\tto delete the pods.\n\t\tThe 'drain' evicts or deletes all pods except mirror pods (which cannot be deleted through\n\t\tthe API server). If there are DaemonSet-managed pods, drain will not proceed\n\t\twithout --ignore-daemonsets, and regardless it will not delete any\n\t\tDaemonSet-managed pods, because those pods would be immediately replaced by the\n\t\tDaemonSet controller, which ignores unschedulable markings. If there are any\n\t\tpods that are neither mirror pods nor managed by ReplicationController,\n\t\tReplicaSet, DaemonSet, StatefulSet or Job, then drain will not delete any pods unless you\n\t\tuse --force. --force will also allow deletion to proceed if the managing resource of one\n\t\tor more pods is missing.\n\n\t\t'drain' waits for graceful termination. You should not operate on the machine until\n\t\tthe command completes.\n\n\t\tWhen you are ready to put the node back into service, use kubectl uncordon, which\n\t\twill make the node schedulable again.\n\n\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_drain.svg)\x00\n\t\tEdit a resource from the default editor.\n\n\t\tThe edit command allows you to directly edit any API resource you can retrieve via the\n\t\tcommand line tools. It will open the editor defined by your KUBE_EDITOR, or EDITOR\n\t\tenvironment variables, or fall back to 'vi' for Linux or 'notepad' for Windows.\n\t\tYou can edit multiple objects, although changes are applied one at a time. The command\n\t\taccepts filenames as well as command line arguments, although the files you point to must\n\t\tbe previously saved versions of resources.\n\n\t\tEditing is done with the API version used to fetch the resource.\n\t\tTo edit using a specific API version, fully-qualify the resource, version, and group.\n\n\t\tThe default format is YAML. To edit in JSON, specify \"-o json\".\n\n\t\tThe flag --windows-line-endings can be used to force Windows line endings,\n\t\totherwise the default for your operating system will be used.\n\n\t\tIn the event an error occurs while updating, a temporary file will be created on disk\n\t\tthat contains your unapplied changes. The most common error when updating a resource\n\t\tis another editor changing the resource on the server. When this occurs, you will have\n\t\tto apply your changes to the newer version of the resource, or update your temporary\n\t\tsaved copy to include the latest resource version.\x00\n\t\tMark node as schedulable.\x00\n\t\tMark node as unschedulable.\x00\n\t\tOutput shell completion code for the specified shell (bash or zsh).\n\t\tThe shell code must be evaluated to provide interactive\n\t\tcompletion of kubectl commands. This can be done by sourcing it from\n\t\tthe .bash_profile.\n\n\t\tNote: this requires the bash-completion framework, which is not installed\n\t\tby default on Mac. This can be installed by using homebrew:\n\n\t\t $ brew install bash-completion\n\n\t\tOnce installed, bash_completion must be evaluated. This can be done by adding the\n\t\tfollowing line to the .bash_profile\n\n\t\t $ source $(brew --prefix)/etc/bash_completion\n\n\t\tNote for zsh users: [1] zsh completions are only supported in versions of zsh >= 5.2\x00\n\t\tPerform a rolling update of the given ReplicationController.\n\n\t\tReplaces the specified replication controller with a new replication controller by updating one pod at a time to use the\n\t\tnew PodTemplate. The new-controller.json must specify the same namespace as the\n\t\texisting replication controller and overwrite at least one (common) label in its replicaSelector.\n\n\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_rollingupdate.svg)\x00\n\t\tReplace a resource by filename or stdin.\n\n\t\tJSON and YAML formats are accepted. If replacing an existing resource, the\n\t\tcomplete resource spec must be provided. This can be obtained by\n\n\t\t $ kubectl get TYPE NAME -o yaml\n\n\t\tPlease refer to the models in https://htmlpreview.github.io/?https://github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions.html to find if a field is mutable.\x00\n\t\tSet a new size for a Deployment, ReplicaSet, Replication Controller, or Job.\n\n\t\tScale also allows users to specify one or more preconditions for the scale action.\n\n\t\tIf --current-replicas or --resource-version is specified, it is validated before the\n\t\tscale is attempted, and it is guaranteed that the precondition holds true when the\n\t\tscale is sent to the server.\x00\n\t\tSet the latest last-applied-configuration annotations by setting it to match the contents of a file.\n\t\tThis results in the last-applied-configuration being updated as though 'kubectl apply -f ' was run,\n\t\twithout updating any other parts of the object.\x00\n\t\tTo proxy all of the kubernetes api and nothing else, use:\n\n\t\t $ kubectl proxy --api-prefix=/\n\n\t\tTo proxy only part of the kubernetes api and also some static files:\n\n\t\t $ kubectl proxy --www=/my/files --www-prefix=/static/ --api-prefix=/api/\n\n\t\tThe above lets you 'curl localhost:8001/api/v1/pods'.\n\n\t\tTo proxy the entire kubernetes api at a different root, use:\n\n\t\t $ kubectl proxy --api-prefix=/custom/\n\n\t\tThe above lets you 'curl localhost:8001/custom/api/v1/pods'\x00\n\t\tUpdate field(s) of a resource using strategic merge patch\n\n\t\tJSON and YAML formats are accepted.\n\n\t\tPlease refer to the models in https://htmlpreview.github.io/?https://github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions.html to find if a field is mutable.\x00\n\t\tUpdate the labels on a resource.\n\n\t\t* A label must begin with a letter or number, and may contain letters, numbers, hyphens, dots, and underscores, up to %[1]d characters.\n\t\t* If --overwrite is true, then existing labels can be overwritten, otherwise attempting to overwrite a label will result in an error.\n\t\t* If --resource-version is specified, then updates will use this resource version, otherwise the existing resource-version will be used.\x00\n\t\tUpdate the taints on one or more nodes.\n\n\t\t* A taint consists of a key, value, and effect. As an argument here, it is expressed as key=value:effect.\n\t\t* The key must begin with a letter or number, and may contain letters, numbers, hyphens, dots, and underscores, up to %[1]d characters.\n\t\t* The value must begin with a letter or number, and may contain letters, numbers, hyphens, dots, and underscores, up to %[2]d characters.\n\t\t* The effect must be NoSchedule, PreferNoSchedule or NoExecute.\n\t\t* Currently taint can only apply to node.\x00\n\t\tView the latest last-applied-configuration annotations by type/name or file.\n\n\t\tThe default output will be printed to stdout in YAML format. One can use -o option\n\t\tto change output format.\x00\n\t # !!!Important Note!!!\n\t # Requires that the 'tar' binary is present in your container\n\t # image. If 'tar' is not present, 'kubectl cp' will fail.\n\n\t # Copy /tmp/foo_dir local directory to /tmp/bar_dir in a remote pod in the default namespace\n\t\tkubectl cp /tmp/foo_dir :/tmp/bar_dir\n\n # Copy /tmp/foo local file to /tmp/bar in a remote pod in a specific container\n\t\tkubectl cp /tmp/foo :/tmp/bar -c \n\n\t\t# Copy /tmp/foo local file to /tmp/bar in a remote pod in namespace \n\t\tkubectl cp /tmp/foo /:/tmp/bar\n\n\t\t# Copy /tmp/foo from a remote pod to /tmp/bar locally\n\t\tkubectl cp /:/tmp/foo /tmp/bar\x00\n\t # Create a new TLS secret named tls-secret with the given key pair:\n\t kubectl create secret tls tls-secret --cert=path/to/tls.cert --key=path/to/tls.key\x00\n\t # Create a new namespace named my-namespace\n\t kubectl create namespace my-namespace\x00\n\t # Create a new secret named my-secret with keys for each file in folder bar\n\t kubectl create secret generic my-secret --from-file=path/to/bar\n\n\t # Create a new secret named my-secret with specified keys instead of names on disk\n\t kubectl create secret generic my-secret --from-file=ssh-privatekey=~/.ssh/id_rsa --from-file=ssh-publickey=~/.ssh/id_rsa.pub\n\n\t # Create a new secret named my-secret with key1=supersecret and key2=topsecret\n\t kubectl create secret generic my-secret --from-literal=key1=supersecret --from-literal=key2=topsecret\x00\n\t # Create a new service account named my-service-account\n\t kubectl create serviceaccount my-service-account\x00\n\t# Create a new ExternalName service named my-ns \n\tkubectl create service externalname my-ns --external-name bar.com\x00\n\tCreate an ExternalName service with the specified name.\n\n\tExternalName service references to an external DNS address instead of\n\tonly pods, which will allow application authors to reference services\n\tthat exist off platform, on other clusters, or locally.\x00\n\tHelp provides help for any command in the application.\n\tSimply type kubectl help [path to command] for full details.\x00\n # Create a new LoadBalancer service named my-lbs\n kubectl create service loadbalancer my-lbs --tcp=5678:8080\x00\n # Create a new clusterIP service named my-cs\n kubectl create service clusterip my-cs --tcp=5678:8080\n\n # Create a new clusterIP service named my-cs (in headless mode)\n kubectl create service clusterip my-cs --clusterip=\"None\"\x00\n # Create a new deployment named my-dep that runs the busybox image.\n kubectl create deployment my-dep --image=busybox\x00\n # Create a new nodeport service named my-ns\n kubectl create service nodeport my-ns --tcp=5678:8080\x00\n # Dump current cluster state to stdout\n kubectl cluster-info dump\n\n # Dump current cluster state to /path/to/cluster-state\n kubectl cluster-info dump --output-directory=/path/to/cluster-state\n\n # Dump all namespaces to stdout\n kubectl cluster-info dump --all-namespaces\n\n # Dump a set of namespaces to /path/to/cluster-state\n kubectl cluster-info dump --namespaces default,kube-system --output-directory=/path/to/cluster-state\x00\n # Update pod 'foo' with the annotation 'description' and the value 'my frontend'.\n # If the same annotation is set multiple times, only the last value will be applied\n kubectl annotate pods foo description='my frontend'\n\n # Update a pod identified by type and name in \"pod.json\"\n kubectl annotate -f pod.json description='my frontend'\n\n # Update pod 'foo' with the annotation 'description' and the value 'my frontend running nginx', overwriting any existing value.\n kubectl annotate --overwrite pods foo description='my frontend running nginx'\n\n # Update all pods in the namespace\n kubectl annotate pods --all description='my frontend running nginx'\n\n # Update pod 'foo' only if the resource is unchanged from version 1.\n kubectl annotate pods foo description='my frontend running nginx' --resource-version=1\n\n # Update pod 'foo' by removing an annotation named 'description' if it exists.\n # Does not require the --overwrite flag.\n kubectl annotate pods foo description-\x00\n Create a LoadBalancer service with the specified name.\x00\n Create a clusterIP service with the specified name.\x00\n Create a deployment with the specified name.\x00\n Create a nodeport service with the specified name.\x00\n Dumps cluster info out suitable for debugging and diagnosing cluster problems. By default, dumps everything to\n stdout. You can optionally specify a directory with --output-directory. If you specify a directory, kubernetes will\n build a set of files in that directory. By default only dumps things in the 'kube-system' namespace, but you can\n switch to a different namespace with the --namespaces flag, or specify --all-namespaces to dump all namespaces.\n\n The command also dumps the logs of all of the pods in the cluster, these logs are dumped into different directories\n based on namespace and pod name.\x00\n Display addresses of the master and services with label kubernetes.io/cluster-service=true\n To further debug and diagnose cluster problems, use 'kubectl cluster-info dump'.\x00A comma-delimited set of quota scopes that must all match each object tracked by the quota.\x00A comma-delimited set of resource=quantity pairs that define a hard limit.\x00A label selector to use for this budget. Only equality-based selector requirements are supported.\x00A label selector to use for this service. Only equality-based selector requirements are supported. If empty (the default) infer the selector from the replication controller or replica set.)\x00A schedule in the Cron format the job should be run with.\x00Additional external IP address (not managed by Kubernetes) to accept for the service. If this IP is routed to a node, the service can be accessed by this IP in addition to its generated service IP.\x00An inline JSON override for the generated object. If this is non-empty, it is used to override the generated object. Requires that the object supply a valid apiVersion field.\x00An inline JSON override for the generated service object. If this is non-empty, it is used to override the generated object. Requires that the object supply a valid apiVersion field. Only used if --expose is true.\x00Apply a configuration to a resource by filename or stdin\x00Approve a certificate signing request\x00Assign your own ClusterIP or set to 'None' for a 'headless' service (no loadbalancing).\x00Attach to a running container\x00Auto-scale a Deployment, ReplicaSet, or ReplicationController\x00ClusterIP to be assigned to the service. Leave empty to auto-allocate, or set to 'None' to create a headless service.\x00ClusterRole this ClusterRoleBinding should reference\x00ClusterRole this RoleBinding should reference\x00Container name which will have its image upgraded. Only relevant when --image is specified, ignored otherwise. Required when using --image on a multi-container pod\x00Convert config files between different API versions\x00Copy files and directories to and from containers.\x00Create a ClusterRoleBinding for a particular ClusterRole\x00Create a LoadBalancer service.\x00Create a NodePort service.\x00Create a RoleBinding for a particular Role or ClusterRole\x00Create a TLS secret\x00Create a clusterIP service.\x00Create a configmap from a local file, directory or literal value\x00Create a deployment with the specified name.\x00Create a namespace with the specified name\x00Create a pod disruption budget with the specified name.\x00Create a quota with the specified name.\x00Create a resource by filename or stdin\x00Create a secret for use with a Docker registry\x00Create a secret from a local file, directory or literal value\x00Create a secret using specified subcommand\x00Create a service account with the specified name\x00Create a service using specified subcommand.\x00Create an ExternalName service.\x00Delete resources by filenames, stdin, resources and names, or by resources and label selector\x00Delete the specified cluster from the kubeconfig\x00Delete the specified context from the kubeconfig\x00Deny a certificate signing request\x00Deprecated: Gracefully shut down a resource by name or filename\x00Describe one or many contexts\x00Display Resource (CPU/Memory) usage of nodes\x00Display Resource (CPU/Memory) usage of pods\x00Display Resource (CPU/Memory) usage.\x00Display cluster info\x00Display clusters defined in the kubeconfig\x00Display merged kubeconfig settings or a specified kubeconfig file\x00Display one or many resources\x00Displays the current-context\x00Documentation of resources\x00Drain node in preparation for maintenance\x00Dump lots of relevant info for debugging and diagnosis\x00Edit a resource on the server\x00Email for Docker registry\x00Execute a command in a container\x00Explicit policy for when to pull container images. Required when --image is same as existing image, ignored otherwise.\x00Forward one or more local ports to a pod\x00Help about any command\x00IP to assign to the Load Balancer. If empty, an ephemeral IP will be created and used (cloud-provider specific).\x00If non-empty, set the session affinity for the service to this; legal values: 'None', 'ClientIP'\x00If non-empty, the annotation update will only succeed if this is the current resource-version for the object. Only valid when specifying a single resource.\x00If non-empty, the labels update will only succeed if this is the current resource-version for the object. Only valid when specifying a single resource.\x00Image to use for upgrading the replication controller. Must be distinct from the existing image (either new image or new image tag). Can not be used with --filename/-f\x00Manage a deployment rollout\x00Mark node as schedulable\x00Mark node as unschedulable\x00Mark the provided resource as paused\x00Modify certificate resources.\x00Modify kubeconfig files\x00Name or number for the port on the container that the service should direct traffic to. Optional.\x00Only return logs after a specific date (RFC3339). Defaults to all logs. Only one of since-time / since may be used.\x00Output shell completion code for the specified shell (bash or zsh)\x00Output the formatted object with the given group version (for ex: 'extensions/v1beta1').)\x00Password for Docker registry authentication\x00Path to PEM encoded public key certificate.\x00Path to private key associated with given certificate.\x00Perform a rolling update of the given ReplicationController\x00Precondition for resource version. Requires that the current resource version match this value in order to scale.\x00Print the client and server version information\x00Print the list of flags inherited by all commands\x00Print the logs for a container in a pod\x00Replace a resource by filename or stdin\x00Resume a paused resource\x00Role this RoleBinding should reference\x00Run a particular image on the cluster\x00Run a proxy to the Kubernetes API server\x00Server location for Docker registry\x00Set a new size for a Deployment, ReplicaSet, Replication Controller, or Job\x00Set specific features on objects\x00Set the last-applied-configuration annotation on a live object to match the contents of a file.\x00Set the selector on a resource\x00Sets a cluster entry in kubeconfig\x00Sets a context entry in kubeconfig\x00Sets a user entry in kubeconfig\x00Sets an individual value in a kubeconfig file\x00Sets the current-context in a kubeconfig file\x00Show details of a specific resource or group of resources\x00Show the status of the rollout\x00Synonym for --target-port\x00Take a replication controller, service, deployment or pod and expose it as a new Kubernetes Service\x00The image for the container to run.\x00The image pull policy for the container. If left empty, this value will not be specified by the client and defaulted by the server\x00The key to use to differentiate between two different controllers, default 'deployment'. Only relevant when --image is specified, ignored otherwise\x00The minimum number or percentage of available pods this budget requires.\x00The name for the newly created object.\x00The name for the newly created object. If not specified, the name of the input resource will be used.\x00The name of the API generator to use, see http://kubernetes.io/docs/user-guide/kubectl-conventions/#generators for a list.\x00The name of the API generator to use. Currently there is only 1 generator.\x00The name of the API generator to use. There are 2 generators: 'service/v1' and 'service/v2'. The only difference between them is that service port in v1 is named 'default', while it is left unnamed in v2. Default is 'service/v2'.\x00The name of the generator to use for creating a service. Only used if --expose is true\x00The network protocol for the service to be created. Default is 'TCP'.\x00The port that the service should serve on. Copied from the resource being exposed, if unspecified\x00The port that this container exposes. If --expose is true, this is also the port used by the service that is created.\x00The resource requirement limits for this container. For example, 'cpu=200m,memory=512Mi'. Note that server side components may assign limits depending on the server configuration, such as limit ranges.\x00The resource requirement requests for this container. For example, 'cpu=100m,memory=256Mi'. Note that server side components may assign requests depending on the server configuration, such as limit ranges.\x00The restart policy for this Pod. Legal values [Always, OnFailure, Never]. If set to 'Always' a deployment is created, if set to 'OnFailure' a job is created, if set to 'Never', a regular pod is created. For the latter two --replicas must be 1. Default 'Always', for CronJobs `Never`.\x00The type of secret to create\x00Type for this service: ClusterIP, NodePort, or LoadBalancer. Default is 'ClusterIP'.\x00Undo a previous rollout\x00Unsets an individual value in a kubeconfig file\x00Update field(s) of a resource using strategic merge patch\x00Update image of a pod template\x00Update resource requests/limits on objects with pod templates\x00Update the annotations on a resource\x00Update the labels on a resource\x00Update the taints on one or more nodes\x00Username for Docker registry authentication\x00View latest last-applied-configuration annotations of a resource/object\x00View rollout history\x00Where to output the files. If empty or '-' uses stdout, otherwise creates a directory hierarchy in that directory\x00dummy restart flag)\x00external name of service\x00kubectl controls the Kubernetes cluster manager\x00") func translationsKubectlEn_usLc_messagesK8sMoBytes() ([]byte, error) { return _translationsKubectlEn_usLc_messagesK8sMo, nil } func translationsKubectlEn_usLc_messagesK8sMo() (*asset, error) { bytes, err := translationsKubectlEn_usLc_messagesK8sMoBytes() if err != nil { return nil, err } info := bindataFileInfo{name: "translations/kubectl/en_US/LC_MESSAGES/k8s.mo", size: 0, mode: os.FileMode(0), modTime: time.Unix(0, 0)} a := &asset{bytes: bytes, info: info} return a, nil } var _translationsKubectlEn_usLc_messagesK8sPo = []byte(`# Test translations for unit tests. # Copyright (C) 2016 # This file is distributed under the same license as the Kubernetes package. # FIRST AUTHOR brendan.d.burns@gmail.com, 2016. # msgid "" msgstr "" "Project-Id-Version: gettext-go-examples-hello\n" "Report-Msgid-Bugs-To: EMAIL\n" "POT-Creation-Date: 2017-03-14 21:32-0700\n" "PO-Revision-Date: 2017-03-14 21:33-0800\n" "Last-Translator: Brendan Burns \n" "Language-Team: \n" "Language: en\n" "MIME-Version: 1.0\n" "Content-Type: text/plain; charset=UTF-8\n" "Content-Transfer-Encoding: 8bit\n" "X-Generator: Poedit 1.6.10\n" "X-Poedit-SourceCharset: UTF-8\n" "Plural-Forms: nplurals=2; plural=(n != 1);\n" #: pkg/kubectl/cmd/create_clusterrolebinding.go:35 msgid "" "\n" "\t\t # Create a ClusterRoleBinding for user1, user2, and group1 using the " "cluster-admin ClusterRole\n" "\t\t kubectl create clusterrolebinding cluster-admin --clusterrole=cluster-" "admin --user=user1 --user=user2 --group=group1" msgstr "" "\n" "\t\t # Create a ClusterRoleBinding for user1, user2, and group1 using the " "cluster-admin ClusterRole\n" "\t\t kubectl create clusterrolebinding cluster-admin --clusterrole=cluster-" "admin --user=user1 --user=user2 --group=group1" #: pkg/kubectl/cmd/create_rolebinding.go:35 msgid "" "\n" "\t\t # Create a RoleBinding for user1, user2, and group1 using the admin " "ClusterRole\n" "\t\t kubectl create rolebinding admin --clusterrole=admin --user=user1 --" "user=user2 --group=group1" msgstr "" "\n" "\t\t # Create a RoleBinding for user1, user2, and group1 using the admin " "ClusterRole\n" "\t\t kubectl create rolebinding admin --clusterrole=admin --user=user1 --" "user=user2 --group=group1" #: pkg/kubectl/cmd/create_configmap.go:44 msgid "" "\n" "\t\t # Create a new configmap named my-config based on folder bar\n" "\t\t kubectl create configmap my-config --from-file=path/to/bar\n" "\n" "\t\t # Create a new configmap named my-config with specified keys instead " "of file basenames on disk\n" "\t\t kubectl create configmap my-config --from-file=key1=/path/to/bar/file1." "txt --from-file=key2=/path/to/bar/file2.txt\n" "\n" "\t\t # Create a new configmap named my-config with key1=config1 and " "key2=config2\n" "\t\t kubectl create configmap my-config --from-literal=key1=config1 --from-" "literal=key2=config2" msgstr "" "\n" "\t\t # Create a new configmap named my-config based on folder bar\n" "\t\t kubectl create configmap my-config --from-file=path/to/bar\n" "\n" "\t\t # Create a new configmap named my-config with specified keys instead " "of file basenames on disk\n" "\t\t kubectl create configmap my-config --from-file=key1=/path/to/bar/file1." "txt --from-file=key2=/path/to/bar/file2.txt\n" "\n" "\t\t # Create a new configmap named my-config with key1=config1 and " "key2=config2\n" "\t\t kubectl create configmap my-config --from-literal=key1=config1 --from-" "literal=key2=config2" #: pkg/kubectl/cmd/create_secret.go:135 msgid "" "\n" "\t\t # If you don't already have a .dockercfg file, you can create a " "dockercfg secret directly by using:\n" "\t\t kubectl create secret docker-registry my-secret --docker-" "server=DOCKER_REGISTRY_SERVER --docker-username=DOCKER_USER --docker-" "password=DOCKER_PASSWORD --docker-email=DOCKER_EMAIL" msgstr "" "\n" "\t\t # If you don't already have a .dockercfg file, you can create a " "dockercfg secret directly by using:\n" "\t\t kubectl create secret docker-registry my-secret --docker-" "server=DOCKER_REGISTRY_SERVER --docker-username=DOCKER_USER --docker-" "password=DOCKER_PASSWORD --docker-email=DOCKER_EMAIL" #: pkg/kubectl/cmd/top_node.go:65 msgid "" "\n" "\t\t # Show metrics for all nodes\n" "\t\t kubectl top node\n" "\n" "\t\t # Show metrics for a given node\n" "\t\t kubectl top node NODE_NAME" msgstr "" "\n" "\t\t # Show metrics for all nodes\n" "\t\t kubectl top node\n" "\n" "\t\t # Show metrics for a given node\n" "\t\t kubectl top node NODE_NAME" #: pkg/kubectl/cmd/apply.go:84 msgid "" "\n" "\t\t# Apply the configuration in pod.json to a pod.\n" "\t\tkubectl apply -f ./pod.json\n" "\n" "\t\t# Apply the JSON passed into stdin to a pod.\n" "\t\tcat pod.json | kubectl apply -f -\n" "\n" "\t\t# Note: --prune is still in Alpha\n" "\t\t# Apply the configuration in manifest.yaml that matches label app=nginx " "and delete all the other resources that are not in the file and match label " "app=nginx.\n" "\t\tkubectl apply --prune -f manifest.yaml -l app=nginx\n" "\n" "\t\t# Apply the configuration in manifest.yaml and delete all the other " "configmaps that are not in the file.\n" "\t\tkubectl apply --prune -f manifest.yaml --all --prune-whitelist=core/v1/" "ConfigMap" msgstr "" "\n" "\t\t# Apply the configuration in pod.json to a pod.\n" "\t\tkubectl apply -f ./pod.json\n" "\n" "\t\t# Apply the JSON passed into stdin to a pod.\n" "\t\tcat pod.json | kubectl apply -f -\n" "\n" "\t\t# Note: --prune is still in Alpha\n" "\t\t# Apply the configuration in manifest.yaml that matches label app=nginx " "and delete all the other resources that are not in the file and match label " "app=nginx.\n" "\t\tkubectl apply --prune -f manifest.yaml -l app=nginx\n" "\n" "\t\t# Apply the configuration in manifest.yaml and delete all the other " "configmaps that are not in the file.\n" "\t\tkubectl apply --prune -f manifest.yaml --all --prune-whitelist=core/v1/" "ConfigMap" #: pkg/kubectl/cmd/autoscale.go:40 #, c-format msgid "" "\n" "\t\t# Auto scale a deployment \"foo\", with the number of pods between 2 and " "10, no target CPU utilization specified so a default autoscaling policy will " "be used:\n" "\t\tkubectl autoscale deployment foo --min=2 --max=10\n" "\n" "\t\t# Auto scale a replication controller \"foo\", with the number of pods " "between 1 and 5, target CPU utilization at 80%:\n" "\t\tkubectl autoscale rc foo --max=5 --cpu-percent=80" msgstr "" "\n" "\t\t# Auto scale a deployment \"foo\", with the number of pods between 2 and " "10, no target CPU utilization specified so a default autoscaling policy will " "be used:\n" "\t\tkubectl autoscale deployment foo --min=2 --max=10\n" "\n" "\t\t# Auto scale a replication controller \"foo\", with the number of pods " "between 1 and 5, target CPU utilization at 80%:\n" "\t\tkubectl autoscale rc foo --max=5 --cpu-percent=80" #: pkg/kubectl/cmd/convert.go:49 msgid "" "\n" "\t\t# Convert 'pod.yaml' to latest version and print to stdout.\n" "\t\tkubectl convert -f pod.yaml\n" "\n" "\t\t# Convert the live state of the resource specified by 'pod.yaml' to the " "latest version\n" "\t\t# and print to stdout in json format.\n" "\t\tkubectl convert -f pod.yaml --local -o json\n" "\n" "\t\t# Convert all files under current directory to latest version and create " "them all.\n" "\t\tkubectl convert -f . | kubectl create -f -" msgstr "" "\n" "\t\t# Convert 'pod.yaml' to latest version and print to stdout.\n" "\t\tkubectl convert -f pod.yaml\n" "\n" "\t\t# Convert the live state of the resource specified by 'pod.yaml' to the " "latest version\n" "\t\t# and print to stdout in json format.\n" "\t\tkubectl convert -f pod.yaml --local -o json\n" "\n" "\t\t# Convert all files under current directory to latest version and create " "them all.\n" "\t\tkubectl convert -f . | kubectl create -f -" #: pkg/kubectl/cmd/create_clusterrole.go:34 msgid "" "\n" "\t\t# Create a ClusterRole named \"pod-reader\" that allows user to perform " "\"get\", \"watch\" and \"list\" on pods\n" "\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --" "resource=pods\n" "\n" "\t\t# Create a ClusterRole named \"pod-reader\" with ResourceName specified\n" "\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --" "resource=pods --resource-name=readablepod" msgstr "" "\n" "\t\t# Create a ClusterRole named \"pod-reader\" that allows user to perform " "\"get\", \"watch\" and \"list\" on pods\n" "\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --" "resource=pods\n" "\n" "\t\t# Create a ClusterRole named \"pod-reader\" with ResourceName specified\n" "\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --" "resource=pods --resource-name=readablepod" #: pkg/kubectl/cmd/create_role.go:41 msgid "" "\n" "\t\t# Create a Role named \"pod-reader\" that allows user to perform \"get" "\", \"watch\" and \"list\" on pods\n" "\t\tkubectl create role pod-reader --verb=get --verb=list --verb=watch --" "resource=pods\n" "\n" "\t\t# Create a Role named \"pod-reader\" with ResourceName specified\n" "\t\tkubectl create role pod-reader --verb=get --verg=list --verb=watch --" "resource=pods --resource-name=readablepod" msgstr "" "\n" "\t\t# Create a Role named \"pod-reader\" that allows user to perform \"get" "\", \"watch\" and \"list\" on pods\n" "\t\tkubectl create role pod-reader --verb=get --verb=list --verb=watch --" "resource=pods\n" "\n" "\t\t# Create a Role named \"pod-reader\" with ResourceName specified\n" "\t\tkubectl create role pod-reader --verb=get --verg=list --verb=watch --" "resource=pods --resource-name=readablepod" #: pkg/kubectl/cmd/create_quota.go:35 msgid "" "\n" "\t\t# Create a new resourcequota named my-quota\n" "\t\tkubectl create quota my-quota --hard=cpu=1,memory=1G,pods=2,services=3," "replicationcontrollers=2,resourcequotas=1,secrets=5," "persistentvolumeclaims=10\n" "\n" "\t\t# Create a new resourcequota named best-effort\n" "\t\tkubectl create quota best-effort --hard=pods=100 --scopes=BestEffort" msgstr "" "\n" "\t\t# Create a new resourcequota named my-quota\n" "\t\tkubectl create quota my-quota --hard=cpu=1,memory=1G,pods=2,services=3," "replicationcontrollers=2,resourcequotas=1,secrets=5," "persistentvolumeclaims=10\n" "\n" "\t\t# Create a new resourcequota named best-effort\n" "\t\tkubectl create quota best-effort --hard=pods=100 --scopes=BestEffort" #: pkg/kubectl/cmd/create_pdb.go:35 #, c-format msgid "" "\n" "\t\t# Create a pod disruption budget named my-pdb that will select all pods " "with the app=rails label\n" "\t\t# and require at least one of them being available at any point in " "time.\n" "\t\tkubectl create poddisruptionbudget my-pdb --selector=app=rails --min-" "available=1\n" "\n" "\t\t# Create a pod disruption budget named my-pdb that will select all pods " "with the app=nginx label\n" "\t\t# and require at least half of the pods selected to be available at any " "point in time.\n" "\t\tkubectl create pdb my-pdb --selector=app=nginx --min-available=50%" msgstr "" "\n" "\t\t# Create a pod disruption budget named my-pdb that will select all pods " "with the app=rails label\n" "\t\t# and require at least one of them being available at any point in " "time.\n" "\t\tkubectl create poddisruptionbudget my-pdb --selector=app=rails --min-" "available=1\n" "\n" "\t\t# Create a pod disruption budget named my-pdb that will select all pods " "with the app=nginx label\n" "\t\t# and require at least half of the pods selected to be available at any " "point in time.\n" "\t\tkubectl create pdb my-pdb --selector=app=nginx --min-available=50%" #: pkg/kubectl/cmd/create.go:47 msgid "" "\n" "\t\t# Create a pod using the data in pod.json.\n" "\t\tkubectl create -f ./pod.json\n" "\n" "\t\t# Create a pod based on the JSON passed into stdin.\n" "\t\tcat pod.json | kubectl create -f -\n" "\n" "\t\t# Edit the data in docker-registry.yaml in JSON using the v1 API format " "then create the resource using the edited data.\n" "\t\tkubectl create -f docker-registry.yaml --edit --output-version=v1 -o json" msgstr "" "\n" "\t\t# Create a pod using the data in pod.json.\n" "\t\tkubectl create -f ./pod.json\n" "\n" "\t\t# Create a pod based on the JSON passed into stdin.\n" "\t\tcat pod.json | kubectl create -f -\n" "\n" "\t\t# Edit the data in docker-registry.yaml in JSON using the v1 API format " "then create the resource using the edited data.\n" "\t\tkubectl create -f docker-registry.yaml --edit --output-version=v1 -o json" #: pkg/kubectl/cmd/expose.go:53 msgid "" "\n" "\t\t# Create a service for a replicated nginx, which serves on port 80 and " "connects to the containers on port 8000.\n" "\t\tkubectl expose rc nginx --port=80 --target-port=8000\n" "\n" "\t\t# Create a service for a replication controller identified by type and " "name specified in \"nginx-controller.yaml\", which serves on port 80 and " "connects to the containers on port 8000.\n" "\t\tkubectl expose -f nginx-controller.yaml --port=80 --target-port=8000\n" "\n" "\t\t# Create a service for a pod valid-pod, which serves on port 444 with " "the name \"frontend\"\n" "\t\tkubectl expose pod valid-pod --port=444 --name=frontend\n" "\n" "\t\t# Create a second service based on the above service, exposing the " "container port 8443 as port 443 with the name \"nginx-https\"\n" "\t\tkubectl expose service nginx --port=443 --target-port=8443 --name=nginx-" "https\n" "\n" "\t\t# Create a service for a replicated streaming application on port 4100 " "balancing UDP traffic and named 'video-stream'.\n" "\t\tkubectl expose rc streamer --port=4100 --protocol=udp --name=video-" "stream\n" "\n" "\t\t# Create a service for a replicated nginx using replica set, which " "serves on port 80 and connects to the containers on port 8000.\n" "\t\tkubectl expose rs nginx --port=80 --target-port=8000\n" "\n" "\t\t# Create a service for an nginx deployment, which serves on port 80 and " "connects to the containers on port 8000.\n" "\t\tkubectl expose deployment nginx --port=80 --target-port=8000" msgstr "" "\n" "\t\t# Create a service for a replicated nginx, which serves on port 80 and " "connects to the containers on port 8000.\n" "\t\tkubectl expose rc nginx --port=80 --target-port=8000\n" "\n" "\t\t# Create a service for a replication controller identified by type and " "name specified in \"nginx-controller.yaml\", which serves on port 80 and " "connects to the containers on port 8000.\n" "\t\tkubectl expose -f nginx-controller.yaml --port=80 --target-port=8000\n" "\n" "\t\t# Create a service for a pod valid-pod, which serves on port 444 with " "the name \"frontend\"\n" "\t\tkubectl expose pod valid-pod --port=444 --name=frontend\n" "\n" "\t\t# Create a second service based on the above service, exposing the " "container port 8443 as port 443 with the name \"nginx-https\"\n" "\t\tkubectl expose service nginx --port=443 --target-port=8443 --name=nginx-" "https\n" "\n" "\t\t# Create a service for a replicated streaming application on port 4100 " "balancing UDP traffic and named 'video-stream'.\n" "\t\tkubectl expose rc streamer --port=4100 --protocol=udp --name=video-" "stream\n" "\n" "\t\t# Create a service for a replicated nginx using replica set, which " "serves on port 80 and connects to the containers on port 8000.\n" "\t\tkubectl expose rs nginx --port=80 --target-port=8000\n" "\n" "\t\t# Create a service for an nginx deployment, which serves on port 80 and " "connects to the containers on port 8000.\n" "\t\tkubectl expose deployment nginx --port=80 --target-port=8000" #: pkg/kubectl/cmd/delete.go:68 msgid "" "\n" "\t\t# Delete a pod using the type and name specified in pod.json.\n" "\t\tkubectl delete -f ./pod.json\n" "\n" "\t\t# Delete a pod based on the type and name in the JSON passed into " "stdin.\n" "\t\tcat pod.json | kubectl delete -f -\n" "\n" "\t\t# Delete pods and services with same names \"baz\" and \"foo\"\n" "\t\tkubectl delete pod,service baz foo\n" "\n" "\t\t# Delete pods and services with label name=myLabel.\n" "\t\tkubectl delete pods,services -l name=myLabel\n" "\n" "\t\t# Delete a pod with minimal delay\n" "\t\tkubectl delete pod foo --now\n" "\n" "\t\t# Force delete a pod on a dead node\n" "\t\tkubectl delete pod foo --grace-period=0 --force\n" "\n" "\t\t# Delete all pods\n" "\t\tkubectl delete pods --all" msgstr "" "\n" "\t\t# Delete a pod using the type and name specified in pod.json.\n" "\t\tkubectl delete -f ./pod.json\n" "\n" "\t\t# Delete a pod based on the type and name in the JSON passed into " "stdin.\n" "\t\tcat pod.json | kubectl delete -f -\n" "\n" "\t\t# Delete pods and services with same names \"baz\" and \"foo\"\n" "\t\tkubectl delete pod,service baz foo\n" "\n" "\t\t# Delete pods and services with label name=myLabel.\n" "\t\tkubectl delete pods,services -l name=myLabel\n" "\n" "\t\t# Delete a pod with minimal delay\n" "\t\tkubectl delete pod foo --now\n" "\n" "\t\t# Force delete a pod on a dead node\n" "\t\tkubectl delete pod foo --grace-period=0 --force\n" "\n" "\t\t# Delete all pods\n" "\t\tkubectl delete pods --all" #: pkg/kubectl/cmd/describe.go:54 msgid "" "\n" "\t\t# Describe a node\n" "\t\tkubectl describe nodes kubernetes-node-emt8.c.myproject.internal\n" "\n" "\t\t# Describe a pod\n" "\t\tkubectl describe pods/nginx\n" "\n" "\t\t# Describe a pod identified by type and name in \"pod.json\"\n" "\t\tkubectl describe -f pod.json\n" "\n" "\t\t# Describe all pods\n" "\t\tkubectl describe pods\n" "\n" "\t\t# Describe pods by label name=myLabel\n" "\t\tkubectl describe po -l name=myLabel\n" "\n" "\t\t# Describe all pods managed by the 'frontend' replication controller (rc-" "created pods\n" "\t\t# get the name of the rc as a prefix in the pod the name).\n" "\t\tkubectl describe pods frontend" msgstr "" "\n" "\t\t# Describe a node\n" "\t\tkubectl describe nodes kubernetes-node-emt8.c.myproject.internal\n" "\n" "\t\t# Describe a pod\n" "\t\tkubectl describe pods/nginx\n" "\n" "\t\t# Describe a pod identified by type and name in \"pod.json\"\n" "\t\tkubectl describe -f pod.json\n" "\n" "\t\t# Describe all pods\n" "\t\tkubectl describe pods\n" "\n" "\t\t# Describe pods by label name=myLabel\n" "\t\tkubectl describe po -l name=myLabel\n" "\n" "\t\t# Describe all pods managed by the 'frontend' replication controller (rc-" "created pods\n" "\t\t# get the name of the rc as a prefix in the pod the name).\n" "\t\tkubectl describe pods frontend" #: pkg/kubectl/cmd/drain.go:165 msgid "" "\n" "\t\t# Drain node \"foo\", even if there are pods not managed by a " "ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet on it.\n" "\t\t$ kubectl drain foo --force\n" "\n" "\t\t# As above, but abort if there are pods not managed by a " "ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet, and use a " "grace period of 15 minutes.\n" "\t\t$ kubectl drain foo --grace-period=900" msgstr "" "\n" "\t\t# Drain node \"foo\", even if there are pods not managed by a " "ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet on it.\n" "\t\t$ kubectl drain foo --force\n" "\n" "\t\t# As above, but abort if there are pods not managed by a " "ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet, and use a " "grace period of 15 minutes.\n" "\t\t$ kubectl drain foo --grace-period=900" #: pkg/kubectl/cmd/edit.go:80 msgid "" "\n" "\t\t# Edit the service named 'docker-registry':\n" "\t\tkubectl edit svc/docker-registry\n" "\n" "\t\t# Use an alternative editor\n" "\t\tKUBE_EDITOR=\"nano\" kubectl edit svc/docker-registry\n" "\n" "\t\t# Edit the job 'myjob' in JSON using the v1 API format:\n" "\t\tkubectl edit job.v1.batch/myjob -o json\n" "\n" "\t\t# Edit the deployment 'mydeployment' in YAML and save the modified " "config in its annotation:\n" "\t\tkubectl edit deployment/mydeployment -o yaml --save-config" msgstr "" "\n" "\t\t# Edit the service named 'docker-registry':\n" "\t\tkubectl edit svc/docker-registry\n" "\n" "\t\t# Use an alternative editor\n" "\t\tKUBE_EDITOR=\"nano\" kubectl edit svc/docker-registry\n" "\n" "\t\t# Edit the job 'myjob' in JSON using the v1 API format:\n" "\t\tkubectl edit job.v1.batch/myjob -o json\n" "\n" "\t\t# Edit the deployment 'mydeployment' in YAML and save the modified " "config in its annotation:\n" "\t\tkubectl edit deployment/mydeployment -o yaml --save-config" #: pkg/kubectl/cmd/exec.go:41 msgid "" "\n" "\t\t# Get output from running 'date' from pod 123456-7890, using the first " "container by default\n" "\t\tkubectl exec 123456-7890 date\n" "\n" "\t\t# Get output from running 'date' in ruby-container from pod 123456-7890\n" "\t\tkubectl exec 123456-7890 -c ruby-container date\n" "\n" "\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container " "from pod 123456-7890\n" "\t\t# and sends stdout/stderr from 'bash' back to the client\n" "\t\tkubectl exec 123456-7890 -c ruby-container -i -t -- bash -il" msgstr "" "\n" "\t\t# Get output from running 'date' from pod 123456-7890, using the first " "container by default\n" "\t\tkubectl exec 123456-7890 date\n" "\n" "\t\t# Get output from running 'date' in ruby-container from pod 123456-7890\n" "\t\tkubectl exec 123456-7890 -c ruby-container date\n" "\n" "\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container " "from pod 123456-7890\n" "\t\t# and sends stdout/stderr from 'bash' back to the client\n" "\t\tkubectl exec 123456-7890 -c ruby-container -i -t -- bash -il" #: pkg/kubectl/cmd/attach.go:42 msgid "" "\n" "\t\t# Get output from running pod 123456-7890, using the first container by " "default\n" "\t\tkubectl attach 123456-7890\n" "\n" "\t\t# Get output from ruby-container from pod 123456-7890\n" "\t\tkubectl attach 123456-7890 -c ruby-container\n" "\n" "\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container " "from pod 123456-7890\n" "\t\t# and sends stdout/stderr from 'bash' back to the client\n" "\t\tkubectl attach 123456-7890 -c ruby-container -i -t\n" "\n" "\t\t# Get output from the first pod of a ReplicaSet named nginx\n" "\t\tkubectl attach rs/nginx\n" "\t\t" msgstr "" "\n" "\t\t# Get output from running pod 123456-7890, using the first container by " "default\n" "\t\tkubectl attach 123456-7890\n" "\n" "\t\t# Get output from ruby-container from pod 123456-7890\n" "\t\tkubectl attach 123456-7890 -c ruby-container\n" "\n" "\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container " "from pod 123456-7890\n" "\t\t# and sends stdout/stderr from 'bash' back to the client\n" "\t\tkubectl attach 123456-7890 -c ruby-container -i -t\n" "\n" "\t\t# Get output from the first pod of a ReplicaSet named nginx\n" "\t\tkubectl attach rs/nginx\n" "\t\t" #: pkg/kubectl/cmd/explain.go:39 msgid "" "\n" "\t\t# Get the documentation of the resource and its fields\n" "\t\tkubectl explain pods\n" "\n" "\t\t# Get the documentation of a specific field of a resource\n" "\t\tkubectl explain pods.spec.containers" msgstr "" "\n" "\t\t# Get the documentation of the resource and its fields\n" "\t\tkubectl explain pods\n" "\n" "\t\t# Get the documentation of a specific field of a resource\n" "\t\tkubectl explain pods.spec.containers" #: pkg/kubectl/cmd/completion.go:65 msgid "" "\n" "\t\t# Install bash completion on a Mac using homebrew\n" "\t\tbrew install bash-completion\n" "\t\tprintf \"\n" "# Bash completion support\n" "source $(brew --prefix)/etc/bash_completion\n" "\" >> $HOME/.bash_profile\n" "\t\tsource $HOME/.bash_profile\n" "\n" "\t\t# Load the kubectl completion code for bash into the current shell\n" "\t\tsource <(kubectl completion bash)\n" "\n" "\t\t# Write bash completion code to a file and source if from .bash_profile\n" "\t\tkubectl completion bash > ~/.kube/completion.bash.inc\n" "\t\tprintf \"\n" "# Kubectl shell completion\n" "source '$HOME/.kube/completion.bash.inc'\n" "\" >> $HOME/.bash_profile\n" "\t\tsource $HOME/.bash_profile\n" "\n" "\t\t# Load the kubectl completion code for zsh[1] into the current shell\n" "\t\tsource <(kubectl completion zsh)" msgstr "" "\n" "\t\t# Install bash completion on a Mac using homebrew\n" "\t\tbrew install bash-completion\n" "\t\tprintf \"\n" "# Bash completion support\n" "source $(brew --prefix)/etc/bash_completion\n" "\" >> $HOME/.bash_profile\n" "\t\tsource $HOME/.bash_profile\n" "\n" "\t\t# Load the kubectl completion code for bash into the current shell\n" "\t\tsource <(kubectl completion bash)\n" "\n" "\t\t# Write bash completion code to a file and source if from .bash_profile\n" "\t\tkubectl completion bash > ~/.kube/completion.bash.inc\n" "\t\tprintf \"\n" "# Kubectl shell completion\n" "source '$HOME/.kube/completion.bash.inc'\n" "\" >> $HOME/.bash_profile\n" "\t\tsource $HOME/.bash_profile\n" "\n" "\t\t# Load the kubectl completion code for zsh[1] into the current shell\n" "\t\tsource <(kubectl completion zsh)" #: pkg/kubectl/cmd/get.go:64 msgid "" "\n" "\t\t# List all pods in ps output format.\n" "\t\tkubectl get pods\n" "\n" "\t\t# List all pods in ps output format with more information (such as node " "name).\n" "\t\tkubectl get pods -o wide\n" "\n" "\t\t# List a single replication controller with specified NAME in ps output " "format.\n" "\t\tkubectl get replicationcontroller web\n" "\n" "\t\t# List a single pod in JSON output format.\n" "\t\tkubectl get -o json pod web-pod-13je7\n" "\n" "\t\t# List a pod identified by type and name specified in \"pod.yaml\" in " "JSON output format.\n" "\t\tkubectl get -f pod.yaml -o json\n" "\n" "\t\t# Return only the phase value of the specified pod.\n" "\t\tkubectl get -o template pod/web-pod-13je7 --template={{.status.phase}}\n" "\n" "\t\t# List all replication controllers and services together in ps output " "format.\n" "\t\tkubectl get rc,services\n" "\n" "\t\t# List one or more resources by their type and names.\n" "\t\tkubectl get rc/web service/frontend pods/web-pod-13je7\n" "\n" "\t\t# List all resources with different types.\n" "\t\tkubectl get all" msgstr "" "\n" "\t\t# List all pods in ps output format.\n" "\t\tkubectl get pods\n" "\n" "\t\t# List all pods in ps output format with more information (such as node " "name).\n" "\t\tkubectl get pods -o wide\n" "\n" "\t\t# List a single replication controller with specified NAME in ps output " "format.\n" "\t\tkubectl get replicationcontroller web\n" "\n" "\t\t# List a single pod in JSON output format.\n" "\t\tkubectl get -o json pod web-pod-13je7\n" "\n" "\t\t# List a pod identified by type and name specified in \"pod.yaml\" in " "JSON output format.\n" "\t\tkubectl get -f pod.yaml -o json\n" "\n" "\t\t# Return only the phase value of the specified pod.\n" "\t\tkubectl get -o template pod/web-pod-13je7 --template={{.status.phase}}\n" "\n" "\t\t# List all replication controllers and services together in ps output " "format.\n" "\t\tkubectl get rc,services\n" "\n" "\t\t# List one or more resources by their type and names.\n" "\t\tkubectl get rc/web service/frontend pods/web-pod-13je7\n" "\n" "\t\t# List all resources with different types.\n" "\t\tkubectl get all" #: pkg/kubectl/cmd/portforward.go:53 msgid "" "\n" "\t\t# Listen on ports 5000 and 6000 locally, forwarding data to/from ports " "5000 and 6000 in the pod\n" "\t\tkubectl port-forward mypod 5000 6000\n" "\n" "\t\t# Listen on port 8888 locally, forwarding to 5000 in the pod\n" "\t\tkubectl port-forward mypod 8888:5000\n" "\n" "\t\t# Listen on a random port locally, forwarding to 5000 in the pod\n" "\t\tkubectl port-forward mypod :5000\n" "\n" "\t\t# Listen on a random port locally, forwarding to 5000 in the pod\n" "\t\tkubectl port-forward mypod 0:5000" msgstr "" "\n" "\t\t# Listen on ports 5000 and 6000 locally, forwarding data to/from ports " "5000 and 6000 in the pod\n" "\t\tkubectl port-forward mypod 5000 6000\n" "\n" "\t\t# Listen on port 8888 locally, forwarding to 5000 in the pod\n" "\t\tkubectl port-forward mypod 8888:5000\n" "\n" "\t\t# Listen on a random port locally, forwarding to 5000 in the pod\n" "\t\tkubectl port-forward mypod :5000\n" "\n" "\t\t# Listen on a random port locally, forwarding to 5000 in the pod\n" "\t\tkubectl port-forward mypod 0:5000" #: pkg/kubectl/cmd/drain.go:118 msgid "" "\n" "\t\t# Mark node \"foo\" as schedulable.\n" "\t\t$ kubectl uncordon foo" msgstr "" "\n" "\t\t# Mark node \"foo\" as schedulable.\n" "\t\t$ kubectl uncordon foo" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/drain.go#L102 #: pkg/kubectl/cmd/drain.go:93 msgid "" "\n" "\t\t# Mark node \"foo\" as unschedulable.\n" "\t\tkubectl cordon foo" msgstr "" "\n" "\t\t# Mark node \"foo\" as unschedulable.\n" "\t\tkubectl cordon foo" #: pkg/kubectl/cmd/patch.go:66 msgid "" "\n" "\t\t# Partially update a node using strategic merge patch\n" "\t\tkubectl patch node k8s-node-1 -p '{\"spec\":{\"unschedulable\":true}}'\n" "\n" "\t\t# Partially update a node identified by the type and name specified in " "\"node.json\" using strategic merge patch\n" "\t\tkubectl patch -f node.json -p '{\"spec\":{\"unschedulable\":true}}'\n" "\n" "\t\t# Update a container's image; spec.containers[*].name is required " "because it's a merge key\n" "\t\tkubectl patch pod valid-pod -p '{\"spec\":{\"containers\":[{\"name\":" "\"kubernetes-serve-hostname\",\"image\":\"new image\"}]}}'\n" "\n" "\t\t# Update a container's image using a json patch with positional arrays\n" "\t\tkubectl patch pod valid-pod --type='json' -p='[{\"op\": \"replace\", " "\"path\": \"/spec/containers/0/image\", \"value\":\"new image\"}]'" msgstr "" "\n" "\t\t# Partially update a node using strategic merge patch\n" "\t\tkubectl patch node k8s-node-1 -p '{\"spec\":{\"unschedulable\":true}}'\n" "\n" "\t\t# Partially update a node identified by the type and name specified in " "\"node.json\" using strategic merge patch\n" "\t\tkubectl patch -f node.json -p '{\"spec\":{\"unschedulable\":true}}'\n" "\n" "\t\t# Update a container's image; spec.containers[*].name is required " "because it's a merge key\n" "\t\tkubectl patch pod valid-pod -p '{\"spec\":{\"containers\":[{\"name\":" "\"kubernetes-serve-hostname\",\"image\":\"new image\"}]}}'\n" "\n" "\t\t# Update a container's image using a json patch with positional arrays\n" "\t\tkubectl patch pod valid-pod --type='json' -p='[{\"op\": \"replace\", " "\"path\": \"/spec/containers/0/image\", \"value\":\"new image\"}]'" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/options.go#L37 #: pkg/kubectl/cmd/options.go:29 msgid "" "\n" "\t\t# Print flags inherited by all commands\n" "\t\tkubectl options" msgstr "" "\n" "\t\t# Print flags inherited by all commands\n" "\t\tkubectl options" #: pkg/kubectl/cmd/clusterinfo.go:41 msgid "" "\n" "\t\t# Print the address of the master and cluster services\n" "\t\tkubectl cluster-info" msgstr "" "\n" "\t\t# Print the address of the master and cluster services\n" "\t\tkubectl cluster-info" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/version.go#L39 #: pkg/kubectl/cmd/version.go:32 msgid "" "\n" "\t\t# Print the client and server versions for the current context\n" "\t\tkubectl version" msgstr "" "\n" "\t\t# Print the client and server versions for the current context\n" "\t\tkubectl version" #: pkg/kubectl/cmd/apiversions.go:34 msgid "" "\n" "\t\t# Print the supported API versions\n" "\t\tkubectl api-versions" msgstr "" "\n" "\t\t# Print the supported API versions\n" "\t\tkubectl api-versions" #: pkg/kubectl/cmd/replace.go:50 msgid "" "\n" "\t\t# Replace a pod using the data in pod.json.\n" "\t\tkubectl replace -f ./pod.json\n" "\n" "\t\t# Replace a pod based on the JSON passed into stdin.\n" "\t\tcat pod.json | kubectl replace -f -\n" "\n" "\t\t# Update a single-container pod's image version (tag) to v4\n" "\t\tkubectl get pod mypod -o yaml | sed 's/\\(image: myimage\\):.*$/:v4/' | " "kubectl replace -f -\n" "\n" "\t\t# Force replace, delete and then re-create the resource\n" "\t\tkubectl replace --force -f ./pod.json" msgstr "" "\n" "\t\t# Replace a pod using the data in pod.json.\n" "\t\tkubectl replace -f ./pod.json\n" "\n" "\t\t# Replace a pod based on the JSON passed into stdin.\n" "\t\tcat pod.json | kubectl replace -f -\n" "\n" "\t\t# Update a single-container pod's image version (tag) to v4\n" "\t\tkubectl get pod mypod -o yaml | sed 's/\\(image: myimage\\):.*$/:v4/' | " "kubectl replace -f -\n" "\n" "\t\t# Force replace, delete and then re-create the resource\n" "\t\tkubectl replace --force -f ./pod.json" #: pkg/kubectl/cmd/logs.go:40 msgid "" "\n" "\t\t# Return snapshot logs from pod nginx with only one container\n" "\t\tkubectl logs nginx\n" "\n" "\t\t# Return snapshot logs for the pods defined by label app=nginx\n" "\t\tkubectl logs -lapp=nginx\n" "\n" "\t\t# Return snapshot of previous terminated ruby container logs from pod " "web-1\n" "\t\tkubectl logs -p -c ruby web-1\n" "\n" "\t\t# Begin streaming the logs of the ruby container in pod web-1\n" "\t\tkubectl logs -f -c ruby web-1\n" "\n" "\t\t# Display only the most recent 20 lines of output in pod nginx\n" "\t\tkubectl logs --tail=20 nginx\n" "\n" "\t\t# Show all logs from pod nginx written in the last hour\n" "\t\tkubectl logs --since=1h nginx\n" "\n" "\t\t# Return snapshot logs from first container of a job named hello\n" "\t\tkubectl logs job/hello\n" "\n" "\t\t# Return snapshot logs from container nginx-1 of a deployment named " "nginx\n" "\t\tkubectl logs deployment/nginx -c nginx-1" msgstr "" "\n" "\t\t# Return snapshot logs from pod nginx with only one container\n" "\t\tkubectl logs nginx\n" "\n" "\t\t# Return snapshot logs for the pods defined by label app=nginx\n" "\t\tkubectl logs -lapp=nginx\n" "\n" "\t\t# Return snapshot of previous terminated ruby container logs from pod " "web-1\n" "\t\tkubectl logs -p -c ruby web-1\n" "\n" "\t\t# Begin streaming the logs of the ruby container in pod web-1\n" "\t\tkubectl logs -f -c ruby web-1\n" "\n" "\t\t# Display only the most recent 20 lines of output in pod nginx\n" "\t\tkubectl logs --tail=20 nginx\n" "\n" "\t\t# Show all logs from pod nginx written in the last hour\n" "\t\tkubectl logs --since=1h nginx\n" "\n" "\t\t# Return snapshot logs from first container of a job named hello\n" "\t\tkubectl logs job/hello\n" "\n" "\t\t# Return snapshot logs from container nginx-1 of a deployment named " "nginx\n" "\t\tkubectl logs deployment/nginx -c nginx-1" #: pkg/kubectl/cmd/proxy.go:53 msgid "" "\n" "\t\t# Run a proxy to kubernetes apiserver on port 8011, serving static " "content from ./local/www/\n" "\t\tkubectl proxy --port=8011 --www=./local/www/\n" "\n" "\t\t# Run a proxy to kubernetes apiserver on an arbitrary local port.\n" "\t\t# The chosen port for the server will be output to stdout.\n" "\t\tkubectl proxy --port=0\n" "\n" "\t\t# Run a proxy to kubernetes apiserver, changing the api prefix to k8s-" "api\n" "\t\t# This makes e.g. the pods api available at localhost:8001/k8s-api/v1/" "pods/\n" "\t\tkubectl proxy --api-prefix=/k8s-api" msgstr "" "\n" "\t\t# Run a proxy to kubernetes apiserver on port 8011, serving static " "content from ./local/www/\n" "\t\tkubectl proxy --port=8011 --www=./local/www/\n" "\n" "\t\t# Run a proxy to kubernetes apiserver on an arbitrary local port.\n" "\t\t# The chosen port for the server will be output to stdout.\n" "\t\tkubectl proxy --port=0\n" "\n" "\t\t# Run a proxy to kubernetes apiserver, changing the api prefix to k8s-" "api\n" "\t\t# This makes e.g. the pods api available at localhost:8001/k8s-api/v1/" "pods/\n" "\t\tkubectl proxy --api-prefix=/k8s-api" #: pkg/kubectl/cmd/scale.go:43 msgid "" "\n" "\t\t# Scale a replicaset named 'foo' to 3.\n" "\t\tkubectl scale --replicas=3 rs/foo\n" "\n" "\t\t# Scale a resource identified by type and name specified in \"foo.yaml\" " "to 3.\n" "\t\tkubectl scale --replicas=3 -f foo.yaml\n" "\n" "\t\t# If the deployment named mysql's current size is 2, scale mysql to 3.\n" "\t\tkubectl scale --current-replicas=2 --replicas=3 deployment/mysql\n" "\n" "\t\t# Scale multiple replication controllers.\n" "\t\tkubectl scale --replicas=5 rc/foo rc/bar rc/baz\n" "\n" "\t\t# Scale job named 'cron' to 3.\n" "\t\tkubectl scale --replicas=3 job/cron" msgstr "" "\n" "\t\t# Scale a replicaset named 'foo' to 3.\n" "\t\tkubectl scale --replicas=3 rs/foo\n" "\n" "\t\t# Scale a resource identified by type and name specified in \"foo.yaml\" " "to 3.\n" "\t\tkubectl scale --replicas=3 -f foo.yaml\n" "\n" "\t\t# If the deployment named mysql's current size is 2, scale mysql to 3.\n" "\t\tkubectl scale --current-replicas=2 --replicas=3 deployment/mysql\n" "\n" "\t\t# Scale multiple replication controllers.\n" "\t\tkubectl scale --replicas=5 rc/foo rc/bar rc/baz\n" "\n" "\t\t# Scale job named 'cron' to 3.\n" "\t\tkubectl scale --replicas=3 job/cron" #: pkg/kubectl/cmd/apply_set_last_applied.go:67 msgid "" "\n" "\t\t# Set the last-applied-configuration of a resource to match the contents " "of a file.\n" "\t\tkubectl apply set-last-applied -f deploy.yaml\n" "\n" "\t\t# Execute set-last-applied against each configuration file in a " "directory.\n" "\t\tkubectl apply set-last-applied -f path/\n" "\n" "\t\t# Set the last-applied-configuration of a resource to match the contents " "of a file, will create the annotation if it does not already exist.\n" "\t\tkubectl apply set-last-applied -f deploy.yaml --create-annotation=true\n" "\t\t" msgstr "" "\n" "\t\t# Set the last-applied-configuration of a resource to match the contents " "of a file.\n" "\t\tkubectl apply set-last-applied -f deploy.yaml\n" "\n" "\t\t# Execute set-last-applied against each configuration file in a " "directory.\n" "\t\tkubectl apply set-last-applied -f path/\n" "\n" "\t\t# Set the last-applied-configuration of a resource to match the contents " "of a file, will create the annotation if it does not already exist.\n" "\t\tkubectl apply set-last-applied -f deploy.yaml --create-annotation=true\n" "\t\t" #: pkg/kubectl/cmd/top_pod.go:61 msgid "" "\n" "\t\t# Show metrics for all pods in the default namespace\n" "\t\tkubectl top pod\n" "\n" "\t\t# Show metrics for all pods in the given namespace\n" "\t\tkubectl top pod --namespace=NAMESPACE\n" "\n" "\t\t# Show metrics for a given pod and its containers\n" "\t\tkubectl top pod POD_NAME --containers\n" "\n" "\t\t# Show metrics for the pods defined by label name=myLabel\n" "\t\tkubectl top pod -l name=myLabel" msgstr "" "\n" "\t\t# Show metrics for all pods in the default namespace\n" "\t\tkubectl top pod\n" "\n" "\t\t# Show metrics for all pods in the given namespace\n" "\t\tkubectl top pod --namespace=NAMESPACE\n" "\n" "\t\t# Show metrics for a given pod and its containers\n" "\t\tkubectl top pod POD_NAME --containers\n" "\n" "\t\t# Show metrics for the pods defined by label name=myLabel\n" "\t\tkubectl top pod -l name=myLabel" #: pkg/kubectl/cmd/stop.go:40 msgid "" "\n" "\t\t# Shut down foo.\n" "\t\tkubectl stop replicationcontroller foo\n" "\n" "\t\t# Stop pods and services with label name=myLabel.\n" "\t\tkubectl stop pods,services -l name=myLabel\n" "\n" "\t\t# Shut down the service defined in service.json\n" "\t\tkubectl stop -f service.json\n" "\n" "\t\t# Shut down all resources in the path/to/resources directory\n" "\t\tkubectl stop -f path/to/resources" msgstr "" "\n" "\t\t# Shut down foo.\n" "\t\tkubectl stop replicationcontroller foo\n" "\n" "\t\t# Stop pods and services with label name=myLabel.\n" "\t\tkubectl stop pods,services -l name=myLabel\n" "\n" "\t\t# Shut down the service defined in service.json\n" "\t\tkubectl stop -f service.json\n" "\n" "\t\t# Shut down all resources in the path/to/resources directory\n" "\t\tkubectl stop -f path/to/resources" #: pkg/kubectl/cmd/run.go:57 msgid "" "\n" "\t\t# Start a single instance of nginx.\n" "\t\tkubectl run nginx --image=nginx\n" "\n" "\t\t# Start a single instance of hazelcast and let the container expose port " "5701 .\n" "\t\tkubectl run hazelcast --image=hazelcast --port=5701\n" "\n" "\t\t# Start a single instance of hazelcast and set environment variables " "\"DNS_DOMAIN=cluster\" and \"POD_NAMESPACE=default\" in the container.\n" "\t\tkubectl run hazelcast --image=hazelcast --env=\"DNS_DOMAIN=cluster\" --" "env=\"POD_NAMESPACE=default\"\n" "\n" "\t\t# Start a replicated instance of nginx.\n" "\t\tkubectl run nginx --image=nginx --replicas=5\n" "\n" "\t\t# Dry run. Print the corresponding API objects without creating them.\n" "\t\tkubectl run nginx --image=nginx --dry-run\n" "\n" "\t\t# Start a single instance of nginx, but overload the spec of the " "deployment with a partial set of values parsed from JSON.\n" "\t\tkubectl run nginx --image=nginx --overrides='{ \"apiVersion\": \"v1\", " "\"spec\": { ... } }'\n" "\n" "\t\t# Start a pod of busybox and keep it in the foreground, don't restart it " "if it exits.\n" "\t\tkubectl run -i -t busybox --image=busybox --restart=Never\n" "\n" "\t\t# Start the nginx container using the default command, but use custom " "arguments (arg1 .. argN) for that command.\n" "\t\tkubectl run nginx --image=nginx -- ... \n" "\n" "\t\t# Start the nginx container using a different command and custom " "arguments.\n" "\t\tkubectl run nginx --image=nginx --command -- ... \n" "\n" "\t\t# Start the perl container to compute π to 2000 places and print it " "out.\n" "\t\tkubectl run pi --image=perl --restart=OnFailure -- perl -Mbignum=bpi -" "wle 'print bpi(2000)'\n" "\n" "\t\t# Start the cron job to compute π to 2000 places and print it out every " "5 minutes.\n" "\t\tkubectl run pi --schedule=\"0/5 * * * ?\" --image=perl --" "restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'" msgstr "" "\n" "\t\t# Start a single instance of nginx.\n" "\t\tkubectl run nginx --image=nginx\n" "\n" "\t\t# Start a single instance of hazelcast and let the container expose port " "5701 .\n" "\t\tkubectl run hazelcast --image=hazelcast --port=5701\n" "\n" "\t\t# Start a single instance of hazelcast and set environment variables " "\"DNS_DOMAIN=cluster\" and \"POD_NAMESPACE=default\" in the container.\n" "\t\tkubectl run hazelcast --image=hazelcast --env=\"DNS_DOMAIN=cluster\" --" "env=\"POD_NAMESPACE=default\"\n" "\n" "\t\t# Start a replicated instance of nginx.\n" "\t\tkubectl run nginx --image=nginx --replicas=5\n" "\n" "\t\t# Dry run. Print the corresponding API objects without creating them.\n" "\t\tkubectl run nginx --image=nginx --dry-run\n" "\n" "\t\t# Start a single instance of nginx, but overload the spec of the " "deployment with a partial set of values parsed from JSON.\n" "\t\tkubectl run nginx --image=nginx --overrides='{ \"apiVersion\": \"v1\", " "\"spec\": { ... } }'\n" "\n" "\t\t# Start a pod of busybox and keep it in the foreground, don't restart it " "if it exits.\n" "\t\tkubectl run -i -t busybox --image=busybox --restart=Never\n" "\n" "\t\t# Start the nginx container using the default command, but use custom " "arguments (arg1 .. argN) for that command.\n" "\t\tkubectl run nginx --image=nginx -- ... \n" "\n" "\t\t# Start the nginx container using a different command and custom " "arguments.\n" "\t\tkubectl run nginx --image=nginx --command -- ... \n" "\n" "\t\t# Start the perl container to compute π to 2000 places and print it " "out.\n" "\t\tkubectl run pi --image=perl --restart=OnFailure -- perl -Mbignum=bpi -" "wle 'print bpi(2000)'\n" "\n" "\t\t# Start the cron job to compute π to 2000 places and print it out every " "5 minutes.\n" "\t\tkubectl run pi --schedule=\"0/5 * * * ?\" --image=perl --" "restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'" #: pkg/kubectl/cmd/taint.go:67 msgid "" "\n" "\t\t# Update node 'foo' with a taint with key 'dedicated' and value 'special-" "user' and effect 'NoSchedule'.\n" "\t\t# If a taint with that key and effect already exists, its value is " "replaced as specified.\n" "\t\tkubectl taint nodes foo dedicated=special-user:NoSchedule\n" "\n" "\t\t# Remove from node 'foo' the taint with key 'dedicated' and effect " "'NoSchedule' if one exists.\n" "\t\tkubectl taint nodes foo dedicated:NoSchedule-\n" "\n" "\t\t# Remove from node 'foo' all the taints with key 'dedicated'\n" "\t\tkubectl taint nodes foo dedicated-" msgstr "" "\n" "\t\t# Update node 'foo' with a taint with key 'dedicated' and value 'special-" "user' and effect 'NoSchedule'.\n" "\t\t# If a taint with that key and effect already exists, its value is " "replaced as specified.\n" "\t\tkubectl taint nodes foo dedicated=special-user:NoSchedule\n" "\n" "\t\t# Remove from node 'foo' the taint with key 'dedicated' and effect " "'NoSchedule' if one exists.\n" "\t\tkubectl taint nodes foo dedicated:NoSchedule-\n" "\n" "\t\t# Remove from node 'foo' all the taints with key 'dedicated'\n" "\t\tkubectl taint nodes foo dedicated-" #: pkg/kubectl/cmd/label.go:77 msgid "" "\n" "\t\t# Update pod 'foo' with the label 'unhealthy' and the value 'true'.\n" "\t\tkubectl label pods foo unhealthy=true\n" "\n" "\t\t# Update pod 'foo' with the label 'status' and the value 'unhealthy', " "overwriting any existing value.\n" "\t\tkubectl label --overwrite pods foo status=unhealthy\n" "\n" "\t\t# Update all pods in the namespace\n" "\t\tkubectl label pods --all status=unhealthy\n" "\n" "\t\t# Update a pod identified by the type and name in \"pod.json\"\n" "\t\tkubectl label -f pod.json status=unhealthy\n" "\n" "\t\t# Update pod 'foo' only if the resource is unchanged from version 1.\n" "\t\tkubectl label pods foo status=unhealthy --resource-version=1\n" "\n" "\t\t# Update pod 'foo' by removing a label named 'bar' if it exists.\n" "\t\t# Does not require the --overwrite flag.\n" "\t\tkubectl label pods foo bar-" msgstr "" "\n" "\t\t# Update pod 'foo' with the label 'unhealthy' and the value 'true'.\n" "\t\tkubectl label pods foo unhealthy=true\n" "\n" "\t\t# Update pod 'foo' with the label 'status' and the value 'unhealthy', " "overwriting any existing value.\n" "\t\tkubectl label --overwrite pods foo status=unhealthy\n" "\n" "\t\t# Update all pods in the namespace\n" "\t\tkubectl label pods --all status=unhealthy\n" "\n" "\t\t# Update a pod identified by the type and name in \"pod.json\"\n" "\t\tkubectl label -f pod.json status=unhealthy\n" "\n" "\t\t# Update pod 'foo' only if the resource is unchanged from version 1.\n" "\t\tkubectl label pods foo status=unhealthy --resource-version=1\n" "\n" "\t\t# Update pod 'foo' by removing a label named 'bar' if it exists.\n" "\t\t# Does not require the --overwrite flag.\n" "\t\tkubectl label pods foo bar-" #: pkg/kubectl/cmd/rollingupdate.go:54 msgid "" "\n" "\t\t# Update pods of frontend-v1 using new replication controller data in " "frontend-v2.json.\n" "\t\tkubectl rolling-update frontend-v1 -f frontend-v2.json\n" "\n" "\t\t# Update pods of frontend-v1 using JSON data passed into stdin.\n" "\t\tcat frontend-v2.json | kubectl rolling-update frontend-v1 -f -\n" "\n" "\t\t# Update the pods of frontend-v1 to frontend-v2 by just changing the " "image, and switching the\n" "\t\t# name of the replication controller.\n" "\t\tkubectl rolling-update frontend-v1 frontend-v2 --image=image:v2\n" "\n" "\t\t# Update the pods of frontend by just changing the image, and keeping " "the old name.\n" "\t\tkubectl rolling-update frontend --image=image:v2\n" "\n" "\t\t# Abort and reverse an existing rollout in progress (from frontend-v1 to " "frontend-v2).\n" "\t\tkubectl rolling-update frontend-v1 frontend-v2 --rollback" msgstr "" "\n" "\t\t# Update pods of frontend-v1 using new replication controller data in " "frontend-v2.json.\n" "\t\tkubectl rolling-update frontend-v1 -f frontend-v2.json\n" "\n" "\t\t# Update pods of frontend-v1 using JSON data passed into stdin.\n" "\t\tcat frontend-v2.json | kubectl rolling-update frontend-v1 -f -\n" "\n" "\t\t# Update the pods of frontend-v1 to frontend-v2 by just changing the " "image, and switching the\n" "\t\t# name of the replication controller.\n" "\t\tkubectl rolling-update frontend-v1 frontend-v2 --image=image:v2\n" "\n" "\t\t# Update the pods of frontend by just changing the image, and keeping " "the old name.\n" "\t\tkubectl rolling-update frontend --image=image:v2\n" "\n" "\t\t# Abort and reverse an existing rollout in progress (from frontend-v1 to " "frontend-v2).\n" "\t\tkubectl rolling-update frontend-v1 frontend-v2 --rollback" #: pkg/kubectl/cmd/apply_view_last_applied.go:52 msgid "" "\n" "\t\t# View the last-applied-configuration annotations by type/name in YAML.\n" "\t\tkubectl apply view-last-applied deployment/nginx\n" "\n" "\t\t# View the last-applied-configuration annotations by file in JSON\n" "\t\tkubectl apply view-last-applied -f deploy.yaml -o json" msgstr "" "\n" "\t\t# View the last-applied-configuration annotations by type/name in YAML.\n" "\t\tkubectl apply view-last-applied deployment/nginx\n" "\n" "\t\t# View the last-applied-configuration annotations by file in JSON\n" "\t\tkubectl apply view-last-applied -f deploy.yaml -o json" #: pkg/kubectl/cmd/apply.go:75 msgid "" "\n" "\t\tApply a configuration to a resource by filename or stdin.\n" "\t\tThis resource will be created if it doesn't exist yet.\n" "\t\tTo use 'apply', always create the resource initially with either 'apply' " "or 'create --save-config'.\n" "\n" "\t\tJSON and YAML formats are accepted.\n" "\n" "\t\tAlpha Disclaimer: the --prune functionality is not yet complete. Do not " "use unless you are aware of what the current state is. See https://issues." "k8s.io/34274." msgstr "" "\n" "\t\tApply a configuration to a resource by filename or stdin.\n" "\t\tThis resource will be created if it doesn't exist yet.\n" "\t\tTo use 'apply', always create the resource initially with either 'apply' " "or 'create --save-config'.\n" "\n" "\t\tJSON and YAML formats are accepted.\n" "\n" "\t\tAlpha Disclaimer: the --prune functionality is not yet complete. Do not " "use unless you are aware of what the current state is. See https://issues." "k8s.io/34274." #: pkg/kubectl/cmd/convert.go:38 msgid "" "\n" "\t\tConvert config files between different API versions. Both YAML\n" "\t\tand JSON formats are accepted.\n" "\n" "\t\tThe command takes filename, directory, or URL as input, and convert it " "into format\n" "\t\tof version specified by --output-version flag. If target version is not " "specified or\n" "\t\tnot supported, convert to latest version.\n" "\n" "\t\tThe default output will be printed to stdout in YAML format. One can use " "-o option\n" "\t\tto change to output destination." msgstr "" "\n" "\t\tConvert config files between different API versions. Both YAML\n" "\t\tand JSON formats are accepted.\n" "\n" "\t\tThe command takes filename, directory, or URL as input, and convert it " "into format\n" "\t\tof version specified by --output-version flag. If target version is not " "specified or\n" "\t\tnot supported, convert to latest version.\n" "\n" "\t\tThe default output will be printed to stdout in YAML format. One can use " "-o option\n" "\t\tto change to output destination." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_service.go#L68 #: pkg/kubectl/cmd/create_clusterrole.go:31 msgid "" "\n" "\t\tCreate a ClusterRole." msgstr "" "\n" "\t\tCreate a ClusterRole." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_clusterrolebinding.go#L43 #: pkg/kubectl/cmd/create_clusterrolebinding.go:32 msgid "" "\n" "\t\tCreate a ClusterRoleBinding for a particular ClusterRole." msgstr "" "\n" "\t\tCreate a ClusterRoleBinding for a particular ClusterRole." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_rolebinding.go#L43 #: pkg/kubectl/cmd/create_rolebinding.go:32 msgid "" "\n" "\t\tCreate a RoleBinding for a particular Role or ClusterRole." msgstr "" "\n" "\t\tCreate a RoleBinding for a particular Role or ClusterRole." #: pkg/kubectl/cmd/create_secret.go:200 msgid "" "\n" "\t\tCreate a TLS secret from the given public/private key pair.\n" "\n" "\t\tThe public/private key pair must exist before hand. The public key " "certificate must be .PEM encoded and match the given private key." msgstr "" "\n" "\t\tCreate a TLS secret from the given public/private key pair.\n" "\n" "\t\tThe public/private key pair must exist before hand. The public key " "certificate must be .PEM encoded and match the given private key." #: pkg/kubectl/cmd/create_configmap.go:32 msgid "" "\n" "\t\tCreate a configmap based on a file, directory, or specified literal " "value.\n" "\n" "\t\tA single configmap may package one or more key/value pairs.\n" "\n" "\t\tWhen creating a configmap based on a file, the key will default to the " "basename of the file, and the value will\n" "\t\tdefault to the file content. If the basename is an invalid key, you may " "specify an alternate key.\n" "\n" "\t\tWhen creating a configmap based on a directory, each file whose basename " "is a valid key in the directory will be\n" "\t\tpackaged into the configmap. Any directory entries except regular files " "are ignored (e.g. subdirectories,\n" "\t\tsymlinks, devices, pipes, etc)." msgstr "" "\n" "\t\tCreate a configmap based on a file, directory, or specified literal " "value.\n" "\n" "\t\tA single configmap may package one or more key/value pairs.\n" "\n" "\t\tWhen creating a configmap based on a file, the key will default to the " "basename of the file, and the value will\n" "\t\tdefault to the file content. If the basename is an invalid key, you may " "specify an alternate key.\n" "\n" "\t\tWhen creating a configmap based on a directory, each file whose basename " "is a valid key in the directory will be\n" "\t\tpackaged into the configmap. Any directory entries except regular files " "are ignored (e.g. subdirectories,\n" "\t\tsymlinks, devices, pipes, etc)." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_namespace.go#L44 #: pkg/kubectl/cmd/create_namespace.go:32 msgid "" "\n" "\t\tCreate a namespace with the specified name." msgstr "" "\n" "\t\tCreate a namespace with the specified name." #: pkg/kubectl/cmd/create_secret.go:119 msgid "" "\n" "\t\tCreate a new secret for use with Docker registries.\n" "\n" "\t\tDockercfg secrets are used to authenticate against Docker registries.\n" "\n" "\t\tWhen using the Docker command line to push images, you can authenticate " "to a given registry by running\n" "\n" "\t\t $ docker login DOCKER_REGISTRY_SERVER --username=DOCKER_USER --" "password=DOCKER_PASSWORD --email=DOCKER_EMAIL'.\n" "\n" " That produces a ~/.dockercfg file that is used by subsequent 'docker " "push' and 'docker pull' commands to\n" "\t\tauthenticate to the registry. The email address is optional.\n" "\n" "\t\tWhen creating applications, you may have a Docker registry that requires " "authentication. In order for the\n" "\t\tnodes to pull images on your behalf, they have to have the credentials. " "You can provide this information\n" "\t\tby creating a dockercfg secret and attaching it to your service account." msgstr "" "\n" "\t\tCreate a new secret for use with Docker registries.\n" "\n" "\t\tDockercfg secrets are used to authenticate against Docker registries.\n" "\n" "\t\tWhen using the Docker command line to push images, you can authenticate " "to a given registry by running\n" "\n" "\t\t $ docker login DOCKER_REGISTRY_SERVER --username=DOCKER_USER --" "password=DOCKER_PASSWORD --email=DOCKER_EMAIL'.\n" "\n" " That produces a ~/.dockercfg file that is used by subsequent 'docker " "push' and 'docker pull' commands to\n" "\t\tauthenticate to the registry. The email address is optional.\n" "\n" "\t\tWhen creating applications, you may have a Docker registry that requires " "authentication. In order for the\n" "\t\tnodes to pull images on your behalf, they have to have the credentials. " "You can provide this information\n" "\t\tby creating a dockercfg secret and attaching it to your service account." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_pdb.go#L49 #: pkg/kubectl/cmd/create_pdb.go:32 msgid "" "\n" "\t\tCreate a pod disruption budget with the specified name, selector, and " "desired minimum available pods" msgstr "" "\n" "\t\tCreate a pod disruption budget with the specified name, selector, and " "desired minimum available pods" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create.go#L56 #: pkg/kubectl/cmd/create.go:42 msgid "" "\n" "\t\tCreate a resource by filename or stdin.\n" "\n" "\t\tJSON and YAML formats are accepted." msgstr "" "\n" "\t\tCreate a resource by filename or stdin.\n" "\n" "\t\tJSON and YAML formats are accepted." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_quota.go#L47 #: pkg/kubectl/cmd/create_quota.go:32 msgid "" "\n" "\t\tCreate a resourcequota with the specified name, hard limits and optional " "scopes" msgstr "" "\n" "\t\tCreate a resourcequota with the specified name, hard limits and optional " "scopes" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_quota.go#L47 #: pkg/kubectl/cmd/create_role.go:38 msgid "" "\n" "\t\tCreate a role with single rule." msgstr "" "\n" "\t\tCreate a role with single rule." #: pkg/kubectl/cmd/create_secret.go:47 msgid "" "\n" "\t\tCreate a secret based on a file, directory, or specified literal value.\n" "\n" "\t\tA single secret may package one or more key/value pairs.\n" "\n" "\t\tWhen creating a secret based on a file, the key will default to the " "basename of the file, and the value will\n" "\t\tdefault to the file content. If the basename is an invalid key, you may " "specify an alternate key.\n" "\n" "\t\tWhen creating a secret based on a directory, each file whose basename is " "a valid key in the directory will be\n" "\t\tpackaged into the secret. Any directory entries except regular files " "are ignored (e.g. subdirectories,\n" "\t\tsymlinks, devices, pipes, etc)." msgstr "" "\n" "\t\tCreate a secret based on a file, directory, or specified literal value.\n" "\n" "\t\tA single secret may package one or more key/value pairs.\n" "\n" "\t\tWhen creating a secret based on a file, the key will default to the " "basename of the file, and the value will\n" "\t\tdefault to the file content. If the basename is an invalid key, you may " "specify an alternate key.\n" "\n" "\t\tWhen creating a secret based on a directory, each file whose basename is " "a valid key in the directory will be\n" "\t\tpackaged into the secret. Any directory entries except regular files " "are ignored (e.g. subdirectories,\n" "\t\tsymlinks, devices, pipes, etc)." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_serviceaccount.go#L44 #: pkg/kubectl/cmd/create_serviceaccount.go:32 msgid "" "\n" "\t\tCreate a service account with the specified name." msgstr "" "\n" "\t\tCreate a service account with the specified name." #: pkg/kubectl/cmd/run.go:52 msgid "" "\n" "\t\tCreate and run a particular image, possibly replicated.\n" "\n" "\t\tCreates a deployment or job to manage the created container(s)." msgstr "" "\n" "\t\tCreate and run a particular image, possibly replicated.\n" "\n" "\t\tCreates a deployment or job to manage the created container(s)." #: pkg/kubectl/cmd/autoscale.go:34 msgid "" "\n" "\t\tCreates an autoscaler that automatically chooses and sets the number of " "pods that run in a kubernetes cluster.\n" "\n" "\t\tLooks up a Deployment, ReplicaSet, or ReplicationController by name and " "creates an autoscaler that uses the given resource as a reference.\n" "\t\tAn autoscaler can automatically increase or decrease number of pods " "deployed within the system as needed." msgstr "" "\n" "\t\tCreates an autoscaler that automatically chooses and sets the number of " "pods that run in a kubernetes cluster.\n" "\n" "\t\tLooks up a Deployment, ReplicaSet, or ReplicationController by name and " "creates an autoscaler that uses the given resource as a reference.\n" "\t\tAn autoscaler can automatically increase or decrease number of pods " "deployed within the system as needed." #: pkg/kubectl/cmd/delete.go:40 msgid "" "\n" "\t\tDelete resources by filenames, stdin, resources and names, or by " "resources and label selector.\n" "\n" "\t\tJSON and YAML formats are accepted. Only one type of the arguments may " "be specified: filenames,\n" "\t\tresources and names, or resources and label selector.\n" "\n" "\t\tSome resources, such as pods, support graceful deletion. These resources " "define a default period\n" "\t\tbefore they are forcibly terminated (the grace period) but you may " "override that value with\n" "\t\tthe --grace-period flag, or pass --now to set a grace-period of 1. " "Because these resources often\n" "\t\trepresent entities in the cluster, deletion may not be acknowledged " "immediately. If the node\n" "\t\thosting a pod is down or cannot reach the API server, termination may " "take significantly longer\n" "\t\tthan the grace period. To force delete a resource,\tyou must pass a grace" "\tperiod of 0 and specify\n" "\t\tthe --force flag.\n" "\n" "\t\tIMPORTANT: Force deleting pods does not wait for confirmation that the " "pod's processes have been\n" "\t\tterminated, which can leave those processes running until the node " "detects the deletion and\n" "\t\tcompletes graceful deletion. If your processes use shared storage or " "talk to a remote API and\n" "\t\tdepend on the name of the pod to identify themselves, force deleting " "those pods may result in\n" "\t\tmultiple processes running on different machines using the same " "identification which may lead\n" "\t\tto data corruption or inconsistency. Only force delete pods when you are " "sure the pod is\n" "\t\tterminated, or if your application can tolerate multiple copies of the " "same pod running at once.\n" "\t\tAlso, if you force delete pods the scheduler may place new pods on those " "nodes before the node\n" "\t\thas released those resources and causing those pods to be evicted " "immediately.\n" "\n" "\t\tNote that the delete command does NOT do resource version checks, so if " "someone\n" "\t\tsubmits an update to a resource right when you submit a delete, their " "update\n" "\t\twill be lost along with the rest of the resource." msgstr "" "\n" "\t\tDelete resources by filenames, stdin, resources and names, or by " "resources and label selector.\n" "\n" "\t\tJSON and YAML formats are accepted. Only one type of the arguments may " "be specified: filenames,\n" "\t\tresources and names, or resources and label selector.\n" "\n" "\t\tSome resources, such as pods, support graceful deletion. These resources " "define a default period\n" "\t\tbefore they are forcibly terminated (the grace period) but you may " "override that value with\n" "\t\tthe --grace-period flag, or pass --now to set a grace-period of 1. " "Because these resources often\n" "\t\trepresent entities in the cluster, deletion may not be acknowledged " "immediately. If the node\n" "\t\thosting a pod is down or cannot reach the API server, termination may " "take significantly longer\n" "\t\tthan the grace period. To force delete a resource,\tyou must pass a grace" "\tperiod of 0 and specify\n" "\t\tthe --force flag.\n" "\n" "\t\tIMPORTANT: Force deleting pods does not wait for confirmation that the " "pod's processes have been\n" "\t\tterminated, which can leave those processes running until the node " "detects the deletion and\n" "\t\tcompletes graceful deletion. If your processes use shared storage or " "talk to a remote API and\n" "\t\tdepend on the name of the pod to identify themselves, force deleting " "those pods may result in\n" "\t\tmultiple processes running on different machines using the same " "identification which may lead\n" "\t\tto data corruption or inconsistency. Only force delete pods when you are " "sure the pod is\n" "\t\tterminated, or if your application can tolerate multiple copies of the " "same pod running at once.\n" "\t\tAlso, if you force delete pods the scheduler may place new pods on those " "nodes before the node\n" "\t\thas released those resources and causing those pods to be evicted " "immediately.\n" "\n" "\t\tNote that the delete command does NOT do resource version checks, so if " "someone\n" "\t\tsubmits an update to a resource right when you submit a delete, their " "update\n" "\t\twill be lost along with the rest of the resource." #: pkg/kubectl/cmd/stop.go:31 msgid "" "\n" "\t\tDeprecated: Gracefully shut down a resource by name or filename.\n" "\n" "\t\tThe stop command is deprecated, all its functionalities are covered by " "delete command.\n" "\t\tSee 'kubectl delete --help' for more details.\n" "\n" "\t\tAttempts to shut down and delete a resource that supports graceful " "termination.\n" "\t\tIf the resource is scalable it will be scaled to 0 before deletion." msgstr "" "\n" "\t\tDeprecated: Gracefully shut down a resource by name or filename.\n" "\n" "\t\tThe stop command is deprecated, all its functionalities are covered by " "delete command.\n" "\t\tSee 'kubectl delete --help' for more details.\n" "\n" "\t\tAttempts to shut down and delete a resource that supports graceful " "termination.\n" "\t\tIf the resource is scalable it will be scaled to 0 before deletion." #: pkg/kubectl/cmd/top_node.go:60 msgid "" "\n" "\t\tDisplay Resource (CPU/Memory/Storage) usage of nodes.\n" "\n" "\t\tThe top-node command allows you to see the resource consumption of nodes." msgstr "" "\n" "\t\tDisplay Resource (CPU/Memory/Storage) usage of nodes.\n" "\n" "\t\tThe top-node command allows you to see the resource consumption of nodes." #: pkg/kubectl/cmd/top_pod.go:53 msgid "" "\n" "\t\tDisplay Resource (CPU/Memory/Storage) usage of pods.\n" "\n" "\t\tThe 'top pod' command allows you to see the resource consumption of " "pods.\n" "\n" "\t\tDue to the metrics pipeline delay, they may be unavailable for a few " "minutes\n" "\t\tsince pod creation." msgstr "" "\n" "\t\tDisplay Resource (CPU/Memory/Storage) usage of pods.\n" "\n" "\t\tThe 'top pod' command allows you to see the resource consumption of " "pods.\n" "\n" "\t\tDue to the metrics pipeline delay, they may be unavailable for a few " "minutes\n" "\t\tsince pod creation." #: pkg/kubectl/cmd/top.go:33 msgid "" "\n" "\t\tDisplay Resource (CPU/Memory/Storage) usage.\n" "\n" "\t\tThe top command allows you to see the resource consumption for nodes or " "pods.\n" "\n" "\t\tThis command requires Heapster to be correctly configured and working on " "the server. " msgstr "" "\n" "\t\tDisplay Resource (CPU/Memory/Storage) usage.\n" "\n" "\t\tThe top command allows you to see the resource consumption for nodes or " "pods.\n" "\n" "\t\tThis command requires Heapster to be correctly configured and working on " "the server. " #: pkg/kubectl/cmd/drain.go:140 msgid "" "\n" "\t\tDrain node in preparation for maintenance.\n" "\n" "\t\tThe given node will be marked unschedulable to prevent new pods from " "arriving.\n" "\t\t'drain' evicts the pods if the APIServer supports eviction\n" "\t\t(http://kubernetes.io/docs/admin/disruptions/). Otherwise, it will use " "normal DELETE\n" "\t\tto delete the pods.\n" "\t\tThe 'drain' evicts or deletes all pods except mirror pods (which cannot " "be deleted through\n" "\t\tthe API server). If there are DaemonSet-managed pods, drain will not " "proceed\n" "\t\twithout --ignore-daemonsets, and regardless it will not delete any\n" "\t\tDaemonSet-managed pods, because those pods would be immediately replaced " "by the\n" "\t\tDaemonSet controller, which ignores unschedulable markings. If there " "are any\n" "\t\tpods that are neither mirror pods nor managed by ReplicationController,\n" "\t\tReplicaSet, DaemonSet, StatefulSet or Job, then drain will not delete " "any pods unless you\n" "\t\tuse --force. --force will also allow deletion to proceed if the " "managing resource of one\n" "\t\tor more pods is missing.\n" "\n" "\t\t'drain' waits for graceful termination. You should not operate on the " "machine until\n" "\t\tthe command completes.\n" "\n" "\t\tWhen you are ready to put the node back into service, use kubectl " "uncordon, which\n" "\t\twill make the node schedulable again.\n" "\n" "\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_drain.svg)" msgstr "" "\n" "\t\tDrain node in preparation for maintenance.\n" "\n" "\t\tThe given node will be marked unschedulable to prevent new pods from " "arriving.\n" "\t\t'drain' evicts the pods if the APIServer supports eviction\n" "\t\t(http://kubernetes.io/docs/admin/disruptions/). Otherwise, it will use " "normal DELETE\n" "\t\tto delete the pods.\n" "\t\tThe 'drain' evicts or deletes all pods except mirror pods (which cannot " "be deleted through\n" "\t\tthe API server). If there are DaemonSet-managed pods, drain will not " "proceed\n" "\t\twithout --ignore-daemonsets, and regardless it will not delete any\n" "\t\tDaemonSet-managed pods, because those pods would be immediately replaced " "by the\n" "\t\tDaemonSet controller, which ignores unschedulable markings. If there " "are any\n" "\t\tpods that are neither mirror pods nor managed by ReplicationController,\n" "\t\tReplicaSet, DaemonSet, StatefulSet or Job, then drain will not delete " "any pods unless you\n" "\t\tuse --force. --force will also allow deletion to proceed if the " "managing resource of one\n" "\t\tor more pods is missing.\n" "\n" "\t\t'drain' waits for graceful termination. You should not operate on the " "machine until\n" "\t\tthe command completes.\n" "\n" "\t\tWhen you are ready to put the node back into service, use kubectl " "uncordon, which\n" "\t\twill make the node schedulable again.\n" "\n" "\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_drain.svg)" #: pkg/kubectl/cmd/edit.go:56 msgid "" "\n" "\t\tEdit a resource from the default editor.\n" "\n" "\t\tThe edit command allows you to directly edit any API resource you can " "retrieve via the\n" "\t\tcommand line tools. It will open the editor defined by your KUBE_EDITOR, " "or EDITOR\n" "\t\tenvironment variables, or fall back to 'vi' for Linux or 'notepad' for " "Windows.\n" "\t\tYou can edit multiple objects, although changes are applied one at a " "time. The command\n" "\t\taccepts filenames as well as command line arguments, although the files " "you point to must\n" "\t\tbe previously saved versions of resources.\n" "\n" "\t\tEditing is done with the API version used to fetch the resource.\n" "\t\tTo edit using a specific API version, fully-qualify the resource, " "version, and group.\n" "\n" "\t\tThe default format is YAML. To edit in JSON, specify \"-o json\".\n" "\n" "\t\tThe flag --windows-line-endings can be used to force Windows line " "endings,\n" "\t\totherwise the default for your operating system will be used.\n" "\n" "\t\tIn the event an error occurs while updating, a temporary file will be " "created on disk\n" "\t\tthat contains your unapplied changes. The most common error when " "updating a resource\n" "\t\tis another editor changing the resource on the server. When this occurs, " "you will have\n" "\t\tto apply your changes to the newer version of the resource, or update " "your temporary\n" "\t\tsaved copy to include the latest resource version." msgstr "" "\n" "\t\tEdit a resource from the default editor.\n" "\n" "\t\tThe edit command allows you to directly edit any API resource you can " "retrieve via the\n" "\t\tcommand line tools. It will open the editor defined by your KUBE_EDITOR, " "or EDITOR\n" "\t\tenvironment variables, or fall back to 'vi' for Linux or 'notepad' for " "Windows.\n" "\t\tYou can edit multiple objects, although changes are applied one at a " "time. The command\n" "\t\taccepts filenames as well as command line arguments, although the files " "you point to must\n" "\t\tbe previously saved versions of resources.\n" "\n" "\t\tEditing is done with the API version used to fetch the resource.\n" "\t\tTo edit using a specific API version, fully-qualify the resource, " "version, and group.\n" "\n" "\t\tThe default format is YAML. To edit in JSON, specify \"-o json\".\n" "\n" "\t\tThe flag --windows-line-endings can be used to force Windows line " "endings,\n" "\t\totherwise the default for your operating system will be used.\n" "\n" "\t\tIn the event an error occurs while updating, a temporary file will be " "created on disk\n" "\t\tthat contains your unapplied changes. The most common error when " "updating a resource\n" "\t\tis another editor changing the resource on the server. When this occurs, " "you will have\n" "\t\tto apply your changes to the newer version of the resource, or update " "your temporary\n" "\t\tsaved copy to include the latest resource version." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/drain.go#L127 #: pkg/kubectl/cmd/drain.go:115 msgid "" "\n" "\t\tMark node as schedulable." msgstr "" "\n" "\t\tMark node as schedulable." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/drain.go#L102 #: pkg/kubectl/cmd/drain.go:90 msgid "" "\n" "\t\tMark node as unschedulable." msgstr "" "\n" "\t\tMark node as unschedulable." #: pkg/kubectl/cmd/completion.go:47 msgid "" "\n" "\t\tOutput shell completion code for the specified shell (bash or zsh).\n" "\t\tThe shell code must be evaluated to provide interactive\n" "\t\tcompletion of kubectl commands. This can be done by sourcing it from\n" "\t\tthe .bash_profile.\n" "\n" "\t\tNote: this requires the bash-completion framework, which is not " "installed\n" "\t\tby default on Mac. This can be installed by using homebrew:\n" "\n" "\t\t $ brew install bash-completion\n" "\n" "\t\tOnce installed, bash_completion must be evaluated. This can be done by " "adding the\n" "\t\tfollowing line to the .bash_profile\n" "\n" "\t\t $ source $(brew --prefix)/etc/bash_completion\n" "\n" "\t\tNote for zsh users: [1] zsh completions are only supported in versions " "of zsh >= 5.2" msgstr "" "\n" "\t\tOutput shell completion code for the specified shell (bash or zsh).\n" "\t\tThe shell code must be evaluated to provide interactive\n" "\t\tcompletion of kubectl commands. This can be done by sourcing it from\n" "\t\tthe .bash_profile.\n" "\n" "\t\tNote: this requires the bash-completion framework, which is not " "installed\n" "\t\tby default on Mac. This can be installed by using homebrew:\n" "\n" "\t\t $ brew install bash-completion\n" "\n" "\t\tOnce installed, bash_completion must be evaluated. This can be done by " "adding the\n" "\t\tfollowing line to the .bash_profile\n" "\n" "\t\t $ source $(brew --prefix)/etc/bash_completion\n" "\n" "\t\tNote for zsh users: [1] zsh completions are only supported in versions " "of zsh >= 5.2" #: pkg/kubectl/cmd/rollingupdate.go:45 msgid "" "\n" "\t\tPerform a rolling update of the given ReplicationController.\n" "\n" "\t\tReplaces the specified replication controller with a new replication " "controller by updating one pod at a time to use the\n" "\t\tnew PodTemplate. The new-controller.json must specify the same namespace " "as the\n" "\t\texisting replication controller and overwrite at least one (common) " "label in its replicaSelector.\n" "\n" "\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_rollingupdate.svg)" msgstr "" "\n" "\t\tPerform a rolling update of the given ReplicationController.\n" "\n" "\t\tReplaces the specified replication controller with a new replication " "controller by updating one pod at a time to use the\n" "\t\tnew PodTemplate. The new-controller.json must specify the same namespace " "as the\n" "\t\texisting replication controller and overwrite at least one (common) " "label in its replicaSelector.\n" "\n" "\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_rollingupdate.svg)" #: pkg/kubectl/cmd/replace.go:40 msgid "" "\n" "\t\tReplace a resource by filename or stdin.\n" "\n" "\t\tJSON and YAML formats are accepted. If replacing an existing resource, " "the\n" "\t\tcomplete resource spec must be provided. This can be obtained by\n" "\n" "\t\t $ kubectl get TYPE NAME -o yaml\n" "\n" "\t\tPlease refer to the models in https://htmlpreview.github.io/?https://" "github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions." "html to find if a field is mutable." msgstr "" "\n" "\t\tReplace a resource by filename or stdin.\n" "\n" "\t\tJSON and YAML formats are accepted. If replacing an existing resource, " "the\n" "\t\tcomplete resource spec must be provided. This can be obtained by\n" "\n" "\t\t $ kubectl get TYPE NAME -o yaml\n" "\n" "\t\tPlease refer to the models in https://htmlpreview.github.io/?https://" "github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions." "html to find if a field is mutable." #: pkg/kubectl/cmd/scale.go:34 msgid "" "\n" "\t\tSet a new size for a Deployment, ReplicaSet, Replication Controller, or " "Job.\n" "\n" "\t\tScale also allows users to specify one or more preconditions for the " "scale action.\n" "\n" "\t\tIf --current-replicas or --resource-version is specified, it is " "validated before the\n" "\t\tscale is attempted, and it is guaranteed that the precondition holds " "true when the\n" "\t\tscale is sent to the server." msgstr "" "\n" "\t\tSet a new size for a Deployment, ReplicaSet, Replication Controller, or " "Job.\n" "\n" "\t\tScale also allows users to specify one or more preconditions for the " "scale action.\n" "\n" "\t\tIf --current-replicas or --resource-version is specified, it is " "validated before the\n" "\t\tscale is attempted, and it is guaranteed that the precondition holds " "true when the\n" "\t\tscale is sent to the server." #: pkg/kubectl/cmd/apply_set_last_applied.go:62 msgid "" "\n" "\t\tSet the latest last-applied-configuration annotations by setting it to " "match the contents of a file.\n" "\t\tThis results in the last-applied-configuration being updated as though " "'kubectl apply -f ' was run,\n" "\t\twithout updating any other parts of the object." msgstr "" "\n" "\t\tSet the latest last-applied-configuration annotations by setting it to " "match the contents of a file.\n" "\t\tThis results in the last-applied-configuration being updated as though " "'kubectl apply -f ' was run,\n" "\t\twithout updating any other parts of the object." #: pkg/kubectl/cmd/proxy.go:36 msgid "" "\n" "\t\tTo proxy all of the kubernetes api and nothing else, use:\n" "\n" "\t\t $ kubectl proxy --api-prefix=/\n" "\n" "\t\tTo proxy only part of the kubernetes api and also some static files:\n" "\n" "\t\t $ kubectl proxy --www=/my/files --www-prefix=/static/ --api-prefix=/" "api/\n" "\n" "\t\tThe above lets you 'curl localhost:8001/api/v1/pods'.\n" "\n" "\t\tTo proxy the entire kubernetes api at a different root, use:\n" "\n" "\t\t $ kubectl proxy --api-prefix=/custom/\n" "\n" "\t\tThe above lets you 'curl localhost:8001/custom/api/v1/pods'" msgstr "" "\n" "\t\tTo proxy all of the kubernetes api and nothing else, use:\n" "\n" "\t\t $ kubectl proxy --api-prefix=/\n" "\n" "\t\tTo proxy only part of the kubernetes api and also some static files:\n" "\n" "\t\t $ kubectl proxy --www=/my/files --www-prefix=/static/ --api-prefix=/" "api/\n" "\n" "\t\tThe above lets you 'curl localhost:8001/api/v1/pods'.\n" "\n" "\t\tTo proxy the entire kubernetes api at a different root, use:\n" "\n" "\t\t $ kubectl proxy --api-prefix=/custom/\n" "\n" "\t\tThe above lets you 'curl localhost:8001/custom/api/v1/pods'" #: pkg/kubectl/cmd/patch.go:59 msgid "" "\n" "\t\tUpdate field(s) of a resource using strategic merge patch\n" "\n" "\t\tJSON and YAML formats are accepted.\n" "\n" "\t\tPlease refer to the models in https://htmlpreview.github.io/?https://" "github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions." "html to find if a field is mutable." msgstr "" "\n" "\t\tUpdate field(s) of a resource using strategic merge patch\n" "\n" "\t\tJSON and YAML formats are accepted.\n" "\n" "\t\tPlease refer to the models in https://htmlpreview.github.io/?https://" "github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions." "html to find if a field is mutable." #: pkg/kubectl/cmd/label.go:70 #, c-format msgid "" "\n" "\t\tUpdate the labels on a resource.\n" "\n" "\t\t* A label must begin with a letter or number, and may contain letters, " "numbers, hyphens, dots, and underscores, up to %[1]d characters.\n" "\t\t* If --overwrite is true, then existing labels can be overwritten, " "otherwise attempting to overwrite a label will result in an error.\n" "\t\t* If --resource-version is specified, then updates will use this " "resource version, otherwise the existing resource-version will be used." msgstr "" "\n" "\t\tUpdate the labels on a resource.\n" "\n" "\t\t* A label must begin with a letter or number, and may contain letters, " "numbers, hyphens, dots, and underscores, up to %[1]d characters.\n" "\t\t* If --overwrite is true, then existing labels can be overwritten, " "otherwise attempting to overwrite a label will result in an error.\n" "\t\t* If --resource-version is specified, then updates will use this " "resource version, otherwise the existing resource-version will be used." #: pkg/kubectl/cmd/taint.go:58 #, c-format msgid "" "\n" "\t\tUpdate the taints on one or more nodes.\n" "\n" "\t\t* A taint consists of a key, value, and effect. As an argument here, it " "is expressed as key=value:effect.\n" "\t\t* The key must begin with a letter or number, and may contain letters, " "numbers, hyphens, dots, and underscores, up to %[1]d characters.\n" "\t\t* The value must begin with a letter or number, and may contain letters, " "numbers, hyphens, dots, and underscores, up to %[2]d characters.\n" "\t\t* The effect must be NoSchedule, PreferNoSchedule or NoExecute.\n" "\t\t* Currently taint can only apply to node." msgstr "" "\n" "\t\tUpdate the taints on one or more nodes.\n" "\n" "\t\t* A taint consists of a key, value, and effect. As an argument here, it " "is expressed as key=value:effect.\n" "\t\t* The key must begin with a letter or number, and may contain letters, " "numbers, hyphens, dots, and underscores, up to %[1]d characters.\n" "\t\t* The value must begin with a letter or number, and may contain letters, " "numbers, hyphens, dots, and underscores, up to %[2]d characters.\n" "\t\t* The effect must be NoSchedule, PreferNoSchedule or NoExecute.\n" "\t\t* Currently taint can only apply to node." #: pkg/kubectl/cmd/apply_view_last_applied.go:46 msgid "" "\n" "\t\tView the latest last-applied-configuration annotations by type/name or " "file.\n" "\n" "\t\tThe default output will be printed to stdout in YAML format. One can use " "-o option\n" "\t\tto change output format." msgstr "" "\n" "\t\tView the latest last-applied-configuration annotations by type/name or " "file.\n" "\n" "\t\tThe default output will be printed to stdout in YAML format. One can use " "-o option\n" "\t\tto change output format." #: pkg/kubectl/cmd/cp.go:37 msgid "" "\n" "\t # !!!Important Note!!!\n" "\t # Requires that the 'tar' binary is present in your container\n" "\t # image. If 'tar' is not present, 'kubectl cp' will fail.\n" "\n" "\t # Copy /tmp/foo_dir local directory to /tmp/bar_dir in a remote pod in " "the default namespace\n" "\t\tkubectl cp /tmp/foo_dir :/tmp/bar_dir\n" "\n" " # Copy /tmp/foo local file to /tmp/bar in a remote pod in a specific " "container\n" "\t\tkubectl cp /tmp/foo :/tmp/bar -c \n" "\n" "\t\t# Copy /tmp/foo local file to /tmp/bar in a remote pod in namespace " "\n" "\t\tkubectl cp /tmp/foo /:/tmp/bar\n" "\n" "\t\t# Copy /tmp/foo from a remote pod to /tmp/bar locally\n" "\t\tkubectl cp /:/tmp/foo /tmp/bar" msgstr "" "\n" "\t # !!!Important Note!!!\n" "\t # Requires that the 'tar' binary is present in your container\n" "\t # image. If 'tar' is not present, 'kubectl cp' will fail.\n" "\n" "\t # Copy /tmp/foo_dir local directory to /tmp/bar_dir in a remote pod in " "the default namespace\n" "\t\tkubectl cp /tmp/foo_dir :/tmp/bar_dir\n" "\n" " # Copy /tmp/foo local file to /tmp/bar in a remote pod in a specific " "container\n" "\t\tkubectl cp /tmp/foo :/tmp/bar -c \n" "\n" "\t\t# Copy /tmp/foo local file to /tmp/bar in a remote pod in namespace " "\n" "\t\tkubectl cp /tmp/foo /:/tmp/bar\n" "\n" "\t\t# Copy /tmp/foo from a remote pod to /tmp/bar locally\n" "\t\tkubectl cp /:/tmp/foo /tmp/bar" #: pkg/kubectl/cmd/create_secret.go:205 msgid "" "\n" "\t # Create a new TLS secret named tls-secret with the given key pair:\n" "\t kubectl create secret tls tls-secret --cert=path/to/tls.cert --key=path/" "to/tls.key" msgstr "" "\n" "\t # Create a new TLS secret named tls-secret with the given key pair:\n" "\t kubectl create secret tls tls-secret --cert=path/to/tls.cert --key=path/" "to/tls.key" #: pkg/kubectl/cmd/create_namespace.go:35 msgid "" "\n" "\t # Create a new namespace named my-namespace\n" "\t kubectl create namespace my-namespace" msgstr "" "\n" "\t # Create a new namespace named my-namespace\n" "\t kubectl create namespace my-namespace" #: pkg/kubectl/cmd/create_secret.go:59 msgid "" "\n" "\t # Create a new secret named my-secret with keys for each file in folder " "bar\n" "\t kubectl create secret generic my-secret --from-file=path/to/bar\n" "\n" "\t # Create a new secret named my-secret with specified keys instead of " "names on disk\n" "\t kubectl create secret generic my-secret --from-file=ssh-privatekey=~/." "ssh/id_rsa --from-file=ssh-publickey=~/.ssh/id_rsa.pub\n" "\n" "\t # Create a new secret named my-secret with key1=supersecret and " "key2=topsecret\n" "\t kubectl create secret generic my-secret --from-literal=key1=supersecret " "--from-literal=key2=topsecret" msgstr "" "\n" "\t # Create a new secret named my-secret with keys for each file in folder " "bar\n" "\t kubectl create secret generic my-secret --from-file=path/to/bar\n" "\n" "\t # Create a new secret named my-secret with specified keys instead of " "names on disk\n" "\t kubectl create secret generic my-secret --from-file=ssh-privatekey=~/." "ssh/id_rsa --from-file=ssh-publickey=~/.ssh/id_rsa.pub\n" "\n" "\t # Create a new secret named my-secret with key1=supersecret and " "key2=topsecret\n" "\t kubectl create secret generic my-secret --from-literal=key1=supersecret " "--from-literal=key2=topsecret" #: pkg/kubectl/cmd/create_serviceaccount.go:35 msgid "" "\n" "\t # Create a new service account named my-service-account\n" "\t kubectl create serviceaccount my-service-account" msgstr "" "\n" "\t # Create a new service account named my-service-account\n" "\t kubectl create serviceaccount my-service-account" #: pkg/kubectl/cmd/create_service.go:232 msgid "" "\n" "\t# Create a new ExternalName service named my-ns \n" "\tkubectl create service externalname my-ns --external-name bar.com" msgstr "" "\n" "\t# Create a new ExternalName service named my-ns \n" "\tkubectl create service externalname my-ns --external-name bar.com" #: pkg/kubectl/cmd/create_service.go:225 msgid "" "\n" "\tCreate an ExternalName service with the specified name.\n" "\n" "\tExternalName service references to an external DNS address instead of\n" "\tonly pods, which will allow application authors to reference services\n" "\tthat exist off platform, on other clusters, or locally." msgstr "" "\n" "\tCreate an ExternalName service with the specified name.\n" "\n" "\tExternalName service references to an external DNS address instead of\n" "\tonly pods, which will allow application authors to reference services\n" "\tthat exist off platform, on other clusters, or locally." #: pkg/kubectl/cmd/help.go:30 msgid "" "\n" "\tHelp provides help for any command in the application.\n" "\tSimply type kubectl help [path to command] for full details." msgstr "" "\n" "\tHelp provides help for any command in the application.\n" "\tSimply type kubectl help [path to command] for full details." #: pkg/kubectl/cmd/create_service.go:173 msgid "" "\n" " # Create a new LoadBalancer service named my-lbs\n" " kubectl create service loadbalancer my-lbs --tcp=5678:8080" msgstr "" "\n" " # Create a new LoadBalancer service named my-lbs\n" " kubectl create service loadbalancer my-lbs --tcp=5678:8080" #: pkg/kubectl/cmd/create_service.go:53 msgid "" "\n" " # Create a new clusterIP service named my-cs\n" " kubectl create service clusterip my-cs --tcp=5678:8080\n" "\n" " # Create a new clusterIP service named my-cs (in headless mode)\n" " kubectl create service clusterip my-cs --clusterip=\"None\"" msgstr "" "\n" " # Create a new clusterIP service named my-cs\n" " kubectl create service clusterip my-cs --tcp=5678:8080\n" "\n" " # Create a new clusterIP service named my-cs (in headless mode)\n" " kubectl create service clusterip my-cs --clusterip=\"None\"" #: pkg/kubectl/cmd/create_deployment.go:36 msgid "" "\n" " # Create a new deployment named my-dep that runs the busybox image.\n" " kubectl create deployment my-dep --image=busybox" msgstr "" "\n" " # Create a new deployment named my-dep that runs the busybox image.\n" " kubectl create deployment my-dep --image=busybox" #: pkg/kubectl/cmd/create_service.go:116 msgid "" "\n" " # Create a new nodeport service named my-ns\n" " kubectl create service nodeport my-ns --tcp=5678:8080" msgstr "" "\n" " # Create a new nodeport service named my-ns\n" " kubectl create service nodeport my-ns --tcp=5678:8080" #: pkg/kubectl/cmd/clusterinfo_dump.go:62 msgid "" "\n" " # Dump current cluster state to stdout\n" " kubectl cluster-info dump\n" "\n" " # Dump current cluster state to /path/to/cluster-state\n" " kubectl cluster-info dump --output-directory=/path/to/cluster-state\n" "\n" " # Dump all namespaces to stdout\n" " kubectl cluster-info dump --all-namespaces\n" "\n" " # Dump a set of namespaces to /path/to/cluster-state\n" " kubectl cluster-info dump --namespaces default,kube-system --output-" "directory=/path/to/cluster-state" msgstr "" "\n" " # Dump current cluster state to stdout\n" " kubectl cluster-info dump\n" "\n" " # Dump current cluster state to /path/to/cluster-state\n" " kubectl cluster-info dump --output-directory=/path/to/cluster-state\n" "\n" " # Dump all namespaces to stdout\n" " kubectl cluster-info dump --all-namespaces\n" "\n" " # Dump a set of namespaces to /path/to/cluster-state\n" " kubectl cluster-info dump --namespaces default,kube-system --output-" "directory=/path/to/cluster-state" #: pkg/kubectl/cmd/annotate.go:78 msgid "" "\n" " # Update pod 'foo' with the annotation 'description' and the value 'my " "frontend'.\n" " # If the same annotation is set multiple times, only the last value will " "be applied\n" " kubectl annotate pods foo description='my frontend'\n" "\n" " # Update a pod identified by type and name in \"pod.json\"\n" " kubectl annotate -f pod.json description='my frontend'\n" "\n" " # Update pod 'foo' with the annotation 'description' and the value 'my " "frontend running nginx', overwriting any existing value.\n" " kubectl annotate --overwrite pods foo description='my frontend running " "nginx'\n" "\n" " # Update all pods in the namespace\n" " kubectl annotate pods --all description='my frontend running nginx'\n" "\n" " # Update pod 'foo' only if the resource is unchanged from version 1.\n" " kubectl annotate pods foo description='my frontend running nginx' --" "resource-version=1\n" "\n" " # Update pod 'foo' by removing an annotation named 'description' if it " "exists.\n" " # Does not require the --overwrite flag.\n" " kubectl annotate pods foo description-" msgstr "" "\n" " # Update pod 'foo' with the annotation 'description' and the value 'my " "frontend'.\n" " # If the same annotation is set multiple times, only the last value will " "be applied\n" " kubectl annotate pods foo description='my frontend'\n" "\n" " # Update a pod identified by type and name in \"pod.json\"\n" " kubectl annotate -f pod.json description='my frontend'\n" "\n" " # Update pod 'foo' with the annotation 'description' and the value 'my " "frontend running nginx', overwriting any existing value.\n" " kubectl annotate --overwrite pods foo description='my frontend running " "nginx'\n" "\n" " # Update all pods in the namespace\n" " kubectl annotate pods --all description='my frontend running nginx'\n" "\n" " # Update pod 'foo' only if the resource is unchanged from version 1.\n" " kubectl annotate pods foo description='my frontend running nginx' --" "resource-version=1\n" "\n" " # Update pod 'foo' by removing an annotation named 'description' if it " "exists.\n" " # Does not require the --overwrite flag.\n" " kubectl annotate pods foo description-" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_namespace.go#L44 #: pkg/kubectl/cmd/create_service.go:170 msgid "" "\n" " Create a LoadBalancer service with the specified name." msgstr "" "\n" " Create a LoadBalancer service with the specified name." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_serviceaccount.go#L44 #: pkg/kubectl/cmd/create_service.go:50 msgid "" "\n" " Create a clusterIP service with the specified name." msgstr "" "\n" " Create a clusterIP service with the specified name." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_deployment.go#L44 #: pkg/kubectl/cmd/create_deployment.go:33 msgid "" "\n" " Create a deployment with the specified name." msgstr "" "\n" " Create a deployment with the specified name." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_deployment.go#L44 #: pkg/kubectl/cmd/create_service.go:113 msgid "" "\n" " Create a nodeport service with the specified name." msgstr "" "\n" " Create a nodeport service with the specified name." #: pkg/kubectl/cmd/clusterinfo_dump.go:53 msgid "" "\n" " Dumps cluster info out suitable for debugging and diagnosing cluster " "problems. By default, dumps everything to\n" " stdout. You can optionally specify a directory with --output-directory. " "If you specify a directory, kubernetes will\n" " build a set of files in that directory. By default only dumps things in " "the 'kube-system' namespace, but you can\n" " switch to a different namespace with the --namespaces flag, or specify --" "all-namespaces to dump all namespaces.\n" "\n" " The command also dumps the logs of all of the pods in the cluster, these " "logs are dumped into different directories\n" " based on namespace and pod name." msgstr "" "\n" " Dumps cluster info out suitable for debugging and diagnosing cluster " "problems. By default, dumps everything to\n" " stdout. You can optionally specify a directory with --output-directory. " "If you specify a directory, kubernetes will\n" " build a set of files in that directory. By default only dumps things in " "the 'kube-system' namespace, but you can\n" " switch to a different namespace with the --namespaces flag, or specify --" "all-namespaces to dump all namespaces.\n" "\n" " The command also dumps the logs of all of the pods in the cluster, these " "logs are dumped into different directories\n" " based on namespace and pod name." #: pkg/kubectl/cmd/clusterinfo.go:37 msgid "" "\n" " Display addresses of the master and services with label kubernetes.io/" "cluster-service=true\n" " To further debug and diagnose cluster problems, use 'kubectl cluster-info " "dump'." msgstr "" "\n" " Display addresses of the master and services with label kubernetes.io/" "cluster-service=true\n" " To further debug and diagnose cluster problems, use 'kubectl cluster-info " "dump'." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_quota.go#L61 #: pkg/kubectl/cmd/create_quota.go:62 msgid "" "A comma-delimited set of quota scopes that must all match each object " "tracked by the quota." msgstr "" "A comma-delimited set of quota scopes that must all match each object " "tracked by the quota." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_quota.go#L60 #: pkg/kubectl/cmd/create_quota.go:61 msgid "" "A comma-delimited set of resource=quantity pairs that define a hard limit." msgstr "" "A comma-delimited set of resource=quantity pairs that define a hard limit." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_pdb.go#L63 #: pkg/kubectl/cmd/create_pdb.go:64 msgid "" "A label selector to use for this budget. Only equality-based selector " "requirements are supported." msgstr "" "A label selector to use for this budget. Only equality-based selector " "requirements are supported." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L106 #: pkg/kubectl/cmd/expose.go:104 msgid "" "A label selector to use for this service. Only equality-based selector " "requirements are supported. If empty (the default) infer the selector from " "the replication controller or replica set.)" msgstr "" "A label selector to use for this service. Only equality-based selector " "requirements are supported. If empty (the default) infer the selector from " "the replication controller or replica set.)" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L136 #: pkg/kubectl/cmd/run.go:139 msgid "A schedule in the Cron format the job should be run with." msgstr "A schedule in the Cron format the job should be run with." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L111 #: pkg/kubectl/cmd/expose.go:109 msgid "" "Additional external IP address (not managed by Kubernetes) to accept for the " "service. If this IP is routed to a node, the service can be accessed by this " "IP in addition to its generated service IP." msgstr "" "Additional external IP address (not managed by Kubernetes) to accept for the " "service. If this IP is routed to a node, the service can be accessed by this " "IP in addition to its generated service IP." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L119 #: pkg/kubectl/cmd/expose.go:110 pkg/kubectl/cmd/run.go:122 msgid "" "An inline JSON override for the generated object. If this is non-empty, it " "is used to override the generated object. Requires that the object supply a " "valid apiVersion field." msgstr "" "An inline JSON override for the generated object. If this is non-empty, it " "is used to override the generated object. Requires that the object supply a " "valid apiVersion field." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L134 #: pkg/kubectl/cmd/run.go:137 msgid "" "An inline JSON override for the generated service object. If this is non-" "empty, it is used to override the generated object. Requires that the object " "supply a valid apiVersion field. Only used if --expose is true." msgstr "" "An inline JSON override for the generated service object. If this is non-" "empty, it is used to override the generated object. Requires that the object " "supply a valid apiVersion field. Only used if --expose is true." #: pkg/kubectl/cmd/apply.go:104 msgid "Apply a configuration to a resource by filename or stdin" msgstr "Apply a configuration to a resource by filename or stdin" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/certificates.go#L71 #: pkg/kubectl/cmd/certificates.go:72 msgid "Approve a certificate signing request" msgstr "Approve a certificate signing request" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_service.go#L81 #: pkg/kubectl/cmd/create_service.go:82 msgid "" "Assign your own ClusterIP or set to 'None' for a 'headless' service (no " "loadbalancing)." msgstr "" "Assign your own ClusterIP or set to 'None' for a 'headless' service (no " "loadbalancing)." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/attach.go#L64 #: pkg/kubectl/cmd/attach.go:70 msgid "Attach to a running container" msgstr "Attach to a running container" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/autoscale.go#L55 #: pkg/kubectl/cmd/autoscale.go:56 msgid "Auto-scale a Deployment, ReplicaSet, or ReplicationController" msgstr "Auto-scale a Deployment, ReplicaSet, or ReplicationController" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L115 #: pkg/kubectl/cmd/expose.go:113 msgid "" "ClusterIP to be assigned to the service. Leave empty to auto-allocate, or " "set to 'None' to create a headless service." msgstr "" "ClusterIP to be assigned to the service. Leave empty to auto-allocate, or " "set to 'None' to create a headless service." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_clusterrolebinding.go#L55 #: pkg/kubectl/cmd/create_clusterrolebinding.go:56 msgid "ClusterRole this ClusterRoleBinding should reference" msgstr "ClusterRole this ClusterRoleBinding should reference" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_rolebinding.go#L55 #: pkg/kubectl/cmd/create_rolebinding.go:56 msgid "ClusterRole this RoleBinding should reference" msgstr "ClusterRole this RoleBinding should reference" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollingupdate.go#L101 #: pkg/kubectl/cmd/rollingupdate.go:102 msgid "" "Container name which will have its image upgraded. Only relevant when --" "image is specified, ignored otherwise. Required when using --image on a " "multi-container pod" msgstr "" "Container name which will have its image upgraded. Only relevant when --" "image is specified, ignored otherwise. Required when using --image on a " "multi-container pod" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/convert.go#L67 #: pkg/kubectl/cmd/convert.go:68 msgid "Convert config files between different API versions" msgstr "Convert config files between different API versions" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/cp.go#L64 #: pkg/kubectl/cmd/cp.go:65 msgid "Copy files and directories to and from containers." msgstr "Copy files and directories to and from containers." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_clusterrolebinding.go#L43 #: pkg/kubectl/cmd/create_clusterrolebinding.go:44 msgid "Create a ClusterRoleBinding for a particular ClusterRole" msgstr "Create a ClusterRoleBinding for a particular ClusterRole" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_service.go#L181 #: pkg/kubectl/cmd/create_service.go:182 msgid "Create a LoadBalancer service." msgstr "Create a LoadBalancer service." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_service.go#L124 #: pkg/kubectl/cmd/create_service.go:125 msgid "Create a NodePort service." msgstr "Create a NodePort service." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_rolebinding.go#L43 #: pkg/kubectl/cmd/create_rolebinding.go:44 msgid "Create a RoleBinding for a particular Role or ClusterRole" msgstr "Create a RoleBinding for a particular Role or ClusterRole" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L214 #: pkg/kubectl/cmd/create_secret.go:214 msgid "Create a TLS secret" msgstr "Create a TLS secret" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_service.go#L68 #: pkg/kubectl/cmd/create_service.go:69 msgid "Create a clusterIP service." msgstr "Create a clusterIP service." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_configmap.go#L59 #: pkg/kubectl/cmd/create_configmap.go:60 msgid "Create a configmap from a local file, directory or literal value" msgstr "Create a configmap from a local file, directory or literal value" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_deployment.go#L44 #: pkg/kubectl/cmd/create_deployment.go:46 msgid "Create a deployment with the specified name." msgstr "Create a deployment with the specified name." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_namespace.go#L44 #: pkg/kubectl/cmd/create_namespace.go:45 msgid "Create a namespace with the specified name" msgstr "Create a namespace with the specified name" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_pdb.go#L49 #: pkg/kubectl/cmd/create_pdb.go:50 msgid "Create a pod disruption budget with the specified name." msgstr "Create a pod disruption budget with the specified name." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_quota.go#L47 #: pkg/kubectl/cmd/create_quota.go:48 msgid "Create a quota with the specified name." msgstr "Create a quota with the specified name." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create.go#L56 #: pkg/kubectl/cmd/create.go:63 msgid "Create a resource by filename or stdin" msgstr "Create a resource by filename or stdin" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L143 #: pkg/kubectl/cmd/create_secret.go:144 msgid "Create a secret for use with a Docker registry" msgstr "Create a secret for use with a Docker registry" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L73 #: pkg/kubectl/cmd/create_secret.go:74 msgid "Create a secret from a local file, directory or literal value" msgstr "Create a secret from a local file, directory or literal value" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L34 #: pkg/kubectl/cmd/create_secret.go:35 msgid "Create a secret using specified subcommand" msgstr "Create a secret using specified subcommand" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_serviceaccount.go#L44 #: pkg/kubectl/cmd/create_serviceaccount.go:45 msgid "Create a service account with the specified name" msgstr "Create a service account with the specified name" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_service.go#L36 #: pkg/kubectl/cmd/create_service.go:37 msgid "Create a service using specified subcommand." msgstr "Create a service using specified subcommand." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_service.go#L240 #: pkg/kubectl/cmd/create_service.go:241 msgid "Create an ExternalName service." msgstr "Create an ExternalName service." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/delete.go#L130 #: pkg/kubectl/cmd/delete.go:132 msgid "" "Delete resources by filenames, stdin, resources and names, or by resources " "and label selector" msgstr "" "Delete resources by filenames, stdin, resources and names, or by resources " "and label selector" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/delete_cluster.go#L38 #: pkg/kubectl/cmd/config/delete_cluster.go:39 msgid "Delete the specified cluster from the kubeconfig" msgstr "Delete the specified cluster from the kubeconfig" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/delete_context.go#L38 #: pkg/kubectl/cmd/config/delete_context.go:39 msgid "Delete the specified context from the kubeconfig" msgstr "Delete the specified context from the kubeconfig" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/certificates.go#L121 #: pkg/kubectl/cmd/certificates.go:122 msgid "Deny a certificate signing request" msgstr "Deny a certificate signing request" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/stop.go#L58 #: pkg/kubectl/cmd/stop.go:59 msgid "Deprecated: Gracefully shut down a resource by name or filename" msgstr "Deprecated: Gracefully shut down a resource by name or filename" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/get_contexts.go#L62 #: pkg/kubectl/cmd/config/get_contexts.go:64 msgid "Describe one or many contexts" msgstr "Describe one or many contexts" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/top_node.go#L77 #: pkg/kubectl/cmd/top_node.go:78 msgid "Display Resource (CPU/Memory) usage of nodes" msgstr "Display Resource (CPU/Memory) usage of nodes" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/top_pod.go#L79 #: pkg/kubectl/cmd/top_pod.go:80 msgid "Display Resource (CPU/Memory) usage of pods" msgstr "Display Resource (CPU/Memory) usage of pods" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/top.go#L43 #: pkg/kubectl/cmd/top.go:44 msgid "Display Resource (CPU/Memory) usage." msgstr "Display Resource (CPU/Memory) usage." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/clusterinfo.go#L49 #: pkg/kubectl/cmd/clusterinfo.go:51 msgid "Display cluster info" msgstr "Display cluster info" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/get_clusters.go#L40 #: pkg/kubectl/cmd/config/get_clusters.go:41 msgid "Display clusters defined in the kubeconfig" msgstr "Display clusters defined in the kubeconfig" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/view.go#L64 #: pkg/kubectl/cmd/config/view.go:67 msgid "Display merged kubeconfig settings or a specified kubeconfig file" msgstr "Display merged kubeconfig settings or a specified kubeconfig file" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/get.go#L107 #: pkg/kubectl/cmd/get.go:111 msgid "Display one or many resources" msgstr "Display one or many resources" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/current_context.go#L48 #: pkg/kubectl/cmd/config/current_context.go:49 msgid "Displays the current-context" msgstr "Displays the current-context" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/explain.go#L50 #: pkg/kubectl/cmd/explain.go:51 msgid "Documentation of resources" msgstr "Documentation of resources" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/drain.go#L176 #: pkg/kubectl/cmd/drain.go:178 msgid "Drain node in preparation for maintenance" msgstr "Drain node in preparation for maintenance" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/clusterinfo_dump.go#L37 #: pkg/kubectl/cmd/clusterinfo_dump.go:39 msgid "Dump lots of relevant info for debugging and diagnosis" msgstr "Dump lots of relevant info for debugging and diagnosis" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/edit.go#L100 #: pkg/kubectl/cmd/edit.go:110 msgid "Edit a resource on the server" msgstr "Edit a resource on the server" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L159 #: pkg/kubectl/cmd/create_secret.go:160 msgid "Email for Docker registry" msgstr "Email for Docker registry" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/exec.go#L68 #: pkg/kubectl/cmd/exec.go:69 msgid "Execute a command in a container" msgstr "Execute a command in a container" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollingupdate.go#L102 #: pkg/kubectl/cmd/rollingupdate.go:103 msgid "" "Explicit policy for when to pull container images. Required when --image is " "same as existing image, ignored otherwise." msgstr "" "Explicit policy for when to pull container images. Required when --image is " "same as existing image, ignored otherwise." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/portforward.go#L75 #: pkg/kubectl/cmd/portforward.go:76 msgid "Forward one or more local ports to a pod" msgstr "Forward one or more local ports to a pod" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/help.go#L36 #: pkg/kubectl/cmd/help.go:37 msgid "Help about any command" msgstr "Help about any command" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L105 #: pkg/kubectl/cmd/expose.go:103 msgid "" "IP to assign to the Load Balancer. If empty, an ephemeral IP will be created " "and used (cloud-provider specific)." msgstr "" "IP to assign to the Load Balancer. If empty, an ephemeral IP will be created " "and used (cloud-provider specific)." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L114 #: pkg/kubectl/cmd/expose.go:112 msgid "" "If non-empty, set the session affinity for the service to this; legal " "values: 'None', 'ClientIP'" msgstr "" "If non-empty, set the session affinity for the service to this; legal " "values: 'None', 'ClientIP'" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/annotate.go#L135 #: pkg/kubectl/cmd/annotate.go:136 msgid "" "If non-empty, the annotation update will only succeed if this is the current " "resource-version for the object. Only valid when specifying a single " "resource." msgstr "" "If non-empty, the annotation update will only succeed if this is the current " "resource-version for the object. Only valid when specifying a single " "resource." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/label.go#L132 #: pkg/kubectl/cmd/label.go:134 msgid "" "If non-empty, the labels update will only succeed if this is the current " "resource-version for the object. Only valid when specifying a single " "resource." msgstr "" "If non-empty, the labels update will only succeed if this is the current " "resource-version for the object. Only valid when specifying a single " "resource." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollingupdate.go#L98 #: pkg/kubectl/cmd/rollingupdate.go:99 msgid "" "Image to use for upgrading the replication controller. Must be distinct from " "the existing image (either new image or new image tag). Can not be used " "with --filename/-f" msgstr "" "Image to use for upgrading the replication controller. Must be distinct from " "the existing image (either new image or new image tag). Can not be used " "with --filename/-f" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollout/rollout.go#L46 #: pkg/kubectl/cmd/rollout/rollout.go:47 msgid "Manage a deployment rollout" msgstr "Manage a deployment rollout" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/drain.go#L127 #: pkg/kubectl/cmd/drain.go:128 msgid "Mark node as schedulable" msgstr "Mark node as schedulable" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/drain.go#L102 #: pkg/kubectl/cmd/drain.go:103 msgid "Mark node as unschedulable" msgstr "Mark node as unschedulable" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollout/rollout_pause.go#L73 #: pkg/kubectl/cmd/rollout/rollout_pause.go:74 msgid "Mark the provided resource as paused" msgstr "Mark the provided resource as paused" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/certificates.go#L35 #: pkg/kubectl/cmd/certificates.go:36 msgid "Modify certificate resources." msgstr "Modify certificate resources." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/config.go#L39 #: pkg/kubectl/cmd/config/config.go:40 msgid "Modify kubeconfig files" msgstr "Modify kubeconfig files" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L110 #: pkg/kubectl/cmd/expose.go:108 msgid "" "Name or number for the port on the container that the service should direct " "traffic to. Optional." msgstr "" "Name or number for the port on the container that the service should direct " "traffic to. Optional." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/logs.go#L108 #: pkg/kubectl/cmd/logs.go:113 msgid "" "Only return logs after a specific date (RFC3339). Defaults to all logs. Only " "one of since-time / since may be used." msgstr "" "Only return logs after a specific date (RFC3339). Defaults to all logs. Only " "one of since-time / since may be used." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/completion.go#L97 #: pkg/kubectl/cmd/completion.go:104 msgid "Output shell completion code for the specified shell (bash or zsh)" msgstr "Output shell completion code for the specified shell (bash or zsh)" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/edit.go#L115 #: pkg/kubectl/cmd/convert.go:85 msgid "" "Output the formatted object with the given group version (for ex: " "'extensions/v1beta1').)" msgstr "" "Output the formatted object with the given group version (for ex: " "'extensions/v1beta1').)" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L157 #: pkg/kubectl/cmd/create_secret.go:158 msgid "Password for Docker registry authentication" msgstr "Password for Docker registry authentication" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L226 #: pkg/kubectl/cmd/create_secret.go:226 msgid "Path to PEM encoded public key certificate." msgstr "Path to PEM encoded public key certificate." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L227 #: pkg/kubectl/cmd/create_secret.go:227 msgid "Path to private key associated with given certificate." msgstr "Path to private key associated with given certificate." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollingupdate.go#L84 #: pkg/kubectl/cmd/rollingupdate.go:85 msgid "Perform a rolling update of the given ReplicationController" msgstr "Perform a rolling update of the given ReplicationController" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/scale.go#L82 #: pkg/kubectl/cmd/scale.go:83 msgid "" "Precondition for resource version. Requires that the current resource " "version match this value in order to scale." msgstr "" "Precondition for resource version. Requires that the current resource " "version match this value in order to scale." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/version.go#L39 #: pkg/kubectl/cmd/version.go:40 msgid "Print the client and server version information" msgstr "Print the client and server version information" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/options.go#L37 #: pkg/kubectl/cmd/options.go:38 msgid "Print the list of flags inherited by all commands" msgstr "Print the list of flags inherited by all commands" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/logs.go#L86 #: pkg/kubectl/cmd/logs.go:93 msgid "Print the logs for a container in a pod" msgstr "Print the logs for a container in a pod" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/replace.go#L70 #: pkg/kubectl/cmd/replace.go:71 msgid "Replace a resource by filename or stdin" msgstr "Replace a resource by filename or stdin" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollout/rollout_resume.go#L71 #: pkg/kubectl/cmd/rollout/rollout_resume.go:72 msgid "Resume a paused resource" msgstr "Resume a paused resource" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_rolebinding.go#L56 #: pkg/kubectl/cmd/create_rolebinding.go:57 msgid "Role this RoleBinding should reference" msgstr "Role this RoleBinding should reference" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L94 #: pkg/kubectl/cmd/run.go:97 msgid "Run a particular image on the cluster" msgstr "Run a particular image on the cluster" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/proxy.go#L68 #: pkg/kubectl/cmd/proxy.go:69 msgid "Run a proxy to the Kubernetes API server" msgstr "Run a proxy to the Kubernetes API server" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L161 #: pkg/kubectl/cmd/create_secret.go:161 msgid "Server location for Docker registry" msgstr "Server location for Docker registry" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/scale.go#L71 #: pkg/kubectl/cmd/scale.go:71 msgid "" "Set a new size for a Deployment, ReplicaSet, Replication Controller, or Job" msgstr "" "Set a new size for a Deployment, ReplicaSet, Replication Controller, or Job" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/set/set.go#L37 #: pkg/kubectl/cmd/set/set.go:38 msgid "Set specific features on objects" msgstr "Set specific features on objects" #: pkg/kubectl/cmd/apply_set_last_applied.go:83 msgid "" "Set the last-applied-configuration annotation on a live object to match the " "contents of a file." msgstr "" "Set the last-applied-configuration annotation on a live object to match the " "contents of a file." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/set/set_selector.go#L81 #: pkg/kubectl/cmd/set/set_selector.go:82 msgid "Set the selector on a resource" msgstr "Set the selector on a resource" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/create_cluster.go#L67 #: pkg/kubectl/cmd/config/create_cluster.go:68 msgid "Sets a cluster entry in kubeconfig" msgstr "Sets a cluster entry in kubeconfig" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/create_context.go#L57 #: pkg/kubectl/cmd/config/create_context.go:58 msgid "Sets a context entry in kubeconfig" msgstr "Sets a context entry in kubeconfig" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/create_authinfo.go#L103 #: pkg/kubectl/cmd/config/create_authinfo.go:104 msgid "Sets a user entry in kubeconfig" msgstr "Sets a user entry in kubeconfig" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/set.go#L59 #: pkg/kubectl/cmd/config/set.go:60 msgid "Sets an individual value in a kubeconfig file" msgstr "Sets an individual value in a kubeconfig file" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/use_context.go#L48 #: pkg/kubectl/cmd/config/use_context.go:49 msgid "Sets the current-context in a kubeconfig file" msgstr "Sets the current-context in a kubeconfig file" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/describe.go#L80 #: pkg/kubectl/cmd/describe.go:86 msgid "Show details of a specific resource or group of resources" msgstr "Show details of a specific resource or group of resources" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollout/rollout_status.go#L57 #: pkg/kubectl/cmd/rollout/rollout_status.go:58 msgid "Show the status of the rollout" msgstr "Show the status of the rollout" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L108 #: pkg/kubectl/cmd/expose.go:106 msgid "Synonym for --target-port" msgstr "Synonym for --target-port" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L87 #: pkg/kubectl/cmd/expose.go:88 msgid "" "Take a replication controller, service, deployment or pod and expose it as a " "new Kubernetes Service" msgstr "" "Take a replication controller, service, deployment or pod and expose it as a " "new Kubernetes Service" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L114 #: pkg/kubectl/cmd/run.go:117 msgid "The image for the container to run." msgstr "The image for the container to run." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L116 #: pkg/kubectl/cmd/run.go:119 msgid "" "The image pull policy for the container. If left empty, this value will not " "be specified by the client and defaulted by the server" msgstr "" "The image pull policy for the container. If left empty, this value will not " "be specified by the client and defaulted by the server" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollingupdate.go#L100 #: pkg/kubectl/cmd/rollingupdate.go:101 msgid "" "The key to use to differentiate between two different controllers, default " "'deployment'. Only relevant when --image is specified, ignored otherwise" msgstr "" "The key to use to differentiate between two different controllers, default " "'deployment'. Only relevant when --image is specified, ignored otherwise" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_pdb.go#L62 #: pkg/kubectl/cmd/create_pdb.go:63 msgid "" "The minimum number or percentage of available pods this budget requires." msgstr "" "The minimum number or percentage of available pods this budget requires." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L113 #: pkg/kubectl/cmd/expose.go:111 msgid "The name for the newly created object." msgstr "The name for the newly created object." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/autoscale.go#L71 #: pkg/kubectl/cmd/autoscale.go:72 msgid "" "The name for the newly created object. If not specified, the name of the " "input resource will be used." msgstr "" "The name for the newly created object. If not specified, the name of the " "input resource will be used." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L113 #: pkg/kubectl/cmd/run.go:116 msgid "" "The name of the API generator to use, see http://kubernetes.io/docs/user-" "guide/kubectl-conventions/#generators for a list." msgstr "" "The name of the API generator to use, see http://kubernetes.io/docs/user-" "guide/kubectl-conventions/#generators for a list." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/autoscale.go#L66 #: pkg/kubectl/cmd/autoscale.go:67 msgid "" "The name of the API generator to use. Currently there is only 1 generator." msgstr "" "The name of the API generator to use. Currently there is only 1 generator." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L98 #: pkg/kubectl/cmd/expose.go:99 msgid "" "The name of the API generator to use. There are 2 generators: 'service/v1' " "and 'service/v2'. The only difference between them is that service port in " "v1 is named 'default', while it is left unnamed in v2. Default is 'service/" "v2'." msgstr "" "The name of the API generator to use. There are 2 generators: 'service/v1' " "and 'service/v2'. The only difference between them is that service port in " "v1 is named 'default', while it is left unnamed in v2. Default is 'service/" "v2'." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L133 #: pkg/kubectl/cmd/run.go:136 msgid "" "The name of the generator to use for creating a service. Only used if --" "expose is true" msgstr "" "The name of the generator to use for creating a service. Only used if --" "expose is true" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L99 #: pkg/kubectl/cmd/expose.go:100 msgid "The network protocol for the service to be created. Default is 'TCP'." msgstr "The network protocol for the service to be created. Default is 'TCP'." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L100 #: pkg/kubectl/cmd/expose.go:101 msgid "" "The port that the service should serve on. Copied from the resource being " "exposed, if unspecified" msgstr "" "The port that the service should serve on. Copied from the resource being " "exposed, if unspecified" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L121 #: pkg/kubectl/cmd/run.go:124 msgid "" "The port that this container exposes. If --expose is true, this is also the " "port used by the service that is created." msgstr "" "The port that this container exposes. If --expose is true, this is also the " "port used by the service that is created." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L131 #: pkg/kubectl/cmd/run.go:134 msgid "" "The resource requirement limits for this container. For example, 'cpu=200m," "memory=512Mi'. Note that server side components may assign limits depending " "on the server configuration, such as limit ranges." msgstr "" "The resource requirement limits for this container. For example, 'cpu=200m," "memory=512Mi'. Note that server side components may assign limits depending " "on the server configuration, such as limit ranges." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L130 #: pkg/kubectl/cmd/run.go:133 msgid "" "The resource requirement requests for this container. For example, " "'cpu=100m,memory=256Mi'. Note that server side components may assign " "requests depending on the server configuration, such as limit ranges." msgstr "" "The resource requirement requests for this container. For example, " "'cpu=100m,memory=256Mi'. Note that server side components may assign " "requests depending on the server configuration, such as limit ranges." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L128 #: pkg/kubectl/cmd/run.go:131 msgid "" "The restart policy for this Pod. Legal values [Always, OnFailure, Never]. " "If set to 'Always' a deployment is created, if set to 'OnFailure' a job is " "created, if set to 'Never', a regular pod is created. For the latter two --" "replicas must be 1. Default 'Always', for CronJobs ` + "`" + `Never` + "`" + `." msgstr "" "The restart policy for this Pod. Legal values [Always, OnFailure, Never]. " "If set to 'Always' a deployment is created, if set to 'OnFailure' a job is " "created, if set to 'Never', a regular pod is created. For the latter two --" "replicas must be 1. Default 'Always', for CronJobs ` + "`" + `Never` + "`" + `." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L87 #: pkg/kubectl/cmd/create_secret.go:88 msgid "The type of secret to create" msgstr "The type of secret to create" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L101 #: pkg/kubectl/cmd/expose.go:102 msgid "" "Type for this service: ClusterIP, NodePort, or LoadBalancer. Default is " "'ClusterIP'." msgstr "" "Type for this service: ClusterIP, NodePort, or LoadBalancer. Default is " "'ClusterIP'." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollout/rollout_undo.go#L71 #: pkg/kubectl/cmd/rollout/rollout_undo.go:72 msgid "Undo a previous rollout" msgstr "Undo a previous rollout" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/unset.go#L47 #: pkg/kubectl/cmd/config/unset.go:48 msgid "Unsets an individual value in a kubeconfig file" msgstr "Unsets an individual value in a kubeconfig file" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/patch.go#L91 #: pkg/kubectl/cmd/patch.go:96 msgid "Update field(s) of a resource using strategic merge patch" msgstr "Update field(s) of a resource using strategic merge patch" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/set/set_image.go#L94 #: pkg/kubectl/cmd/set/set_image.go:95 msgid "Update image of a pod template" msgstr "Update image of a pod template" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/set/set_resources.go#L101 #: pkg/kubectl/cmd/set/set_resources.go:102 msgid "Update resource requests/limits on objects with pod templates" msgstr "Update resource requests/limits on objects with pod templates" #: pkg/kubectl/cmd/annotate.go:116 msgid "Update the annotations on a resource" msgstr "Update the annotations on a resource" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/label.go#L109 #: pkg/kubectl/cmd/label.go:114 msgid "Update the labels on a resource" msgstr "Update the labels on a resource" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/taint.go#L88 #: pkg/kubectl/cmd/taint.go:87 msgid "Update the taints on one or more nodes" msgstr "Update the taints on one or more nodes" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L155 #: pkg/kubectl/cmd/create_secret.go:156 msgid "Username for Docker registry authentication" msgstr "Username for Docker registry authentication" #: pkg/kubectl/cmd/apply_view_last_applied.go:64 msgid "View latest last-applied-configuration annotations of a resource/object" msgstr "" "View latest last-applied-configuration annotations of a resource/object" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollout/rollout_history.go#L51 #: pkg/kubectl/cmd/rollout/rollout_history.go:52 msgid "View rollout history" msgstr "View rollout history" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/clusterinfo_dump.go#L45 #: pkg/kubectl/cmd/clusterinfo_dump.go:46 msgid "" "Where to output the files. If empty or '-' uses stdout, otherwise creates a " "directory hierarchy in that directory" msgstr "" "Where to output the files. If empty or '-' uses stdout, otherwise creates a " "directory hierarchy in that directory" #: pkg/kubectl/cmd/run_test.go:85 msgid "dummy restart flag)" msgstr "dummy restart flag)" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_service.go#L253 #: pkg/kubectl/cmd/create_service.go:254 msgid "external name of service" msgstr "external name of service" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/cmd.go#L217 #: pkg/kubectl/cmd/cmd.go:227 msgid "kubectl controls the Kubernetes cluster manager" msgstr "kubectl controls the Kubernetes cluster manager" #~ msgid "" #~ "watch is only supported on individual resources and resource collections " #~ "- %d resources were found" #~ msgid_plural "" #~ "watch is only supported on individual resources and resource collections " #~ "- %d resources were found" #~ msgstr[0] "" #~ "watch is only supported on individual resources and resource collections " #~ "- %d resource was found" #~ msgstr[1] "" #~ "watch is only supported on individual resources and resource collections " #~ "- %d resources were found" `) func translationsKubectlEn_usLc_messagesK8sPoBytes() ([]byte, error) { return _translationsKubectlEn_usLc_messagesK8sPo, nil } func translationsKubectlEn_usLc_messagesK8sPo() (*asset, error) { bytes, err := translationsKubectlEn_usLc_messagesK8sPoBytes() if err != nil { return nil, err } info := bindataFileInfo{name: "translations/kubectl/en_US/LC_MESSAGES/k8s.po", size: 0, mode: os.FileMode(0), modTime: time.Unix(0, 0)} a := &asset{bytes: bytes, info: info} return a, nil } var _translationsKubectlFr_frLc_messagesK8sMo = []byte("\xde\x12\x04\x95\x00\x00\x00\x00\x11\x00\x00\x00\x1c\x00\x00\x00\xa4\x00\x00\x00\x17\x00\x00\x00,\x01\x00\x00\x00\x00\x00\x00\x88\x01\x00\x008\x00\x00\x00\x89\x01\x00\x000\x00\x00\x00\xc2\x01\x00\x000\x00\x00\x00\xf3\x01\x00\x00\x1d\x00\x00\x00$\x02\x00\x00*\x00\x00\x00B\x02\x00\x00A\x00\x00\x00m\x02\x00\x00\x1c\x00\x00\x00\xaf\x02\x00\x00\x17\x00\x00\x00\xcc\x02\x00\x00\"\x00\x00\x00\xe4\x02\x00\x00\"\x00\x00\x00\a\x03\x00\x00\x1f\x00\x00\x00*\x03\x00\x00-\x00\x00\x00J\x03\x00\x00-\x00\x00\x00x\x03\x00\x00/\x00\x00\x00\xa6\x03\x00\x00$\x00\x00\x00\xd6\x03\x00\x00\xc5\x00\x00\x00\xfb\x03\x00\x00\xab\x01\x00\x00\xc1\x04\x00\x00O\x00\x00\x00m\x06\x00\x00-\x00\x00\x00\xbd\x06\x00\x00.\x00\x00\x00\xeb\x06\x00\x00\"\x00\x00\x00\x1a\a\x00\x00-\x00\x00\x00=\a\x00\x00W\x00\x00\x00k\a\x00\x00\x1a\x00\x00\x00\xc3\a\x00\x00 \x00\x00\x00\xde\a\x00\x00#\x00\x00\x00\xff\a\x00\x00$\x00\x00\x00#\b\x00\x00'\x00\x00\x00H\b\x00\x00;\x00\x00\x00p\b\x00\x007\x00\x00\x00\xac\b\x00\x00;\x00\x00\x00\xe4\b\x00\x00.\x00\x00\x00 \t\x00\x00\x05\x01\x00\x00O\t\x00\x00\x01\x00\x00\x00\n\x00\x00\x00\v\x00\x00\x00\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x11\x00\x00\x00\t\x00\x00\x00\x02\x00\x00\x00\x00\x00\x00\x00\a\x00\x00\x00\x04\x00\x00\x00\x00\x00\x00\x00\b\x00\x00\x00\x0e\x00\x00\x00\x00\x00\x00\x00\x0f\x00\x00\x00\f\x00\x00\x00\x05\x00\x00\x00\r\x00\x00\x00\x06\x00\x00\x00\x00\x00\x00\x00\x10\x00\x00\x00\x00Apply a configuration to a resource by filename or stdin\x00Delete the specified cluster from the kubeconfig\x00Delete the specified context from the kubeconfig\x00Describe one or many contexts\x00Display clusters defined in the kubeconfig\x00Display merged kubeconfig settings or a specified kubeconfig file\x00Displays the current-context\x00Modify kubeconfig files\x00Sets a cluster entry in kubeconfig\x00Sets a context entry in kubeconfig\x00Sets a user entry in kubeconfig\x00Sets an individual value in a kubeconfig file\x00Sets the current-context in a kubeconfig file\x00Unsets an individual value in a kubeconfig file\x00Update the annotations on a resource\x00watch is only supported on individual resources and resource collections - %d resources were found\x00watch is only supported on individual resources and resource collections - %d resources were found\x00Project-Id-Version: gettext-go-examples-hello\nReport-Msgid-Bugs-To: \nPOT-Creation-Date: 2013-12-12 20:03+0000\nPO-Revision-Date: 2017-01-29 22:54-0800\nLast-Translator: Brendan Burns \nMIME-Version: 1.0\nContent-Type: text/plain; charset=UTF-8\nContent-Transfer-Encoding: 8bit\nX-Generator: Poedit 1.6.10\nX-Poedit-SourceCharset: UTF-8\nLanguage-Team: \nPlural-Forms: nplurals=2; plural=(n > 1);\nLanguage: fr\n\x00Appliquer une configuration \u00e0 une ressource par nom de fichier ou depuis stdin\x00Supprimer le cluster sp\u00e9cifi\u00e9 du kubeconfig\x00Supprimer le contexte sp\u00e9cifi\u00e9 du kubeconfig\x00D\u00e9crire un ou plusieurs contextes\x00Afficher les cluster d\u00e9finis dans kubeconfig\x00Afficher les param\u00e8tres fusionn\u00e9s de kubeconfig ou d'un fichier kubeconfig sp\u00e9cifi\u00e9\x00Affiche le contexte actuel\x00Modifier des fichiers kubeconfig\x00D\u00e9finit un cluster dans kubeconfig\x00D\u00e9finit un contexte dans kubeconfig\x00D\u00e9finit un utilisateur dans kubeconfig\x00D\u00e9finit une valeur individuelle dans un fichier kubeconfig\x00D\u00e9finit le contexte courant dans un fichier kubeconfig\x00Supprime une valeur individuelle dans un fichier kubeconfig\x00Mettre \u00e0 jour les annotations d'une ressource\x00watch n'est compatible qu'avec les ressources individuelles et les collections de ressources. - %d ressource a \u00e9t\u00e9 trouv\u00e9e. \x00watch n'est compatible qu'avec les ressources individuelles et les collections de ressources. - %d ressources ont \u00e9t\u00e9 trouv\u00e9es. \x00") func translationsKubectlFr_frLc_messagesK8sMoBytes() ([]byte, error) { return _translationsKubectlFr_frLc_messagesK8sMo, nil } func translationsKubectlFr_frLc_messagesK8sMo() (*asset, error) { bytes, err := translationsKubectlFr_frLc_messagesK8sMoBytes() if err != nil { return nil, err } info := bindataFileInfo{name: "translations/kubectl/fr_FR/LC_MESSAGES/k8s.mo", size: 0, mode: os.FileMode(0), modTime: time.Unix(0, 0)} a := &asset{bytes: bytes, info: info} return a, nil } var _translationsKubectlFr_frLc_messagesK8sPo = []byte(`# Test translations for unit tests. # Copyright (C) 2016 # This file is distributed under the same license as the Kubernetes package. # FIRST AUTHOR brendan.d.burns@gmail.com, 2016. # msgid "" msgstr "" "Project-Id-Version: gettext-go-examples-hello\n" "Report-Msgid-Bugs-To: \n" "POT-Creation-Date: 2013-12-12 20:03+0000\n" "PO-Revision-Date: 2017-01-29 22:54-0800\n" "Last-Translator: Brendan Burns \n" "MIME-Version: 1.0\n" "Content-Type: text/plain; charset=UTF-8\n" "Content-Transfer-Encoding: 8bit\n" "X-Generator: Poedit 1.6.10\n" "X-Poedit-SourceCharset: UTF-8\n" "Language-Team: \n" "Plural-Forms: nplurals=2; plural=(n > 1);\n" "Language: fr\n" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/apply.go#L98 msgid "Apply a configuration to a resource by filename or stdin" msgstr "" "Appliquer une configuration à une ressource par nom de fichier ou depuis " "stdin" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/delete_cluster.go#L38 msgid "Delete the specified cluster from the kubeconfig" msgstr "Supprimer le cluster spécifié du kubeconfig" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/delete_context.go#L38 msgid "Delete the specified context from the kubeconfig" msgstr "Supprimer le contexte spécifié du kubeconfig" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/get_contexts.go#L62 msgid "Describe one or many contexts" msgstr "Décrire un ou plusieurs contextes" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/get_clusters.go#L40 msgid "Display clusters defined in the kubeconfig" msgstr "Afficher les cluster définis dans kubeconfig" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/view.go#L64 msgid "Display merged kubeconfig settings or a specified kubeconfig file" msgstr "" "Afficher les paramètres fusionnés de kubeconfig ou d'un fichier kubeconfig " "spécifié" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/current_context.go#L48 msgid "Displays the current-context" msgstr "Affiche le contexte actuel" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/config.go#L39 msgid "Modify kubeconfig files" msgstr "Modifier des fichiers kubeconfig" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/create_cluster.go#L67 msgid "Sets a cluster entry in kubeconfig" msgstr "Définit un cluster dans kubeconfig" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/create_context.go#L57 msgid "Sets a context entry in kubeconfig" msgstr "Définit un contexte dans kubeconfig" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/create_authinfo.go#L103 msgid "Sets a user entry in kubeconfig" msgstr "Définit un utilisateur dans kubeconfig" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/set.go#L59 msgid "Sets an individual value in a kubeconfig file" msgstr "Définit une valeur individuelle dans un fichier kubeconfig" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/use_context.go#L48 msgid "Sets the current-context in a kubeconfig file" msgstr "Définit le contexte courant dans un fichier kubeconfig" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/unset.go#L47 msgid "Unsets an individual value in a kubeconfig file" msgstr "Supprime une valeur individuelle dans un fichier kubeconfig" msgid "Update the annotations on a resource" msgstr "Mettre à jour les annotations d'une ressource" msgid "" "watch is only supported on individual resources and resource collections - " "%d resources were found" msgid_plural "" "watch is only supported on individual resources and resource collections - " "%d resources were found" msgstr[0] "" "watch n'est compatible qu'avec les ressources individuelles et les " "collections de ressources. - %d ressource a été trouvée. " msgstr[1] "" "watch n'est compatible qu'avec les ressources individuelles et les " "collections de ressources. - %d ressources ont été trouvées. " `) func translationsKubectlFr_frLc_messagesK8sPoBytes() ([]byte, error) { return _translationsKubectlFr_frLc_messagesK8sPo, nil } func translationsKubectlFr_frLc_messagesK8sPo() (*asset, error) { bytes, err := translationsKubectlFr_frLc_messagesK8sPoBytes() if err != nil { return nil, err } info := bindataFileInfo{name: "translations/kubectl/fr_FR/LC_MESSAGES/k8s.po", size: 0, mode: os.FileMode(0), modTime: time.Unix(0, 0)} a := &asset{bytes: bytes, info: info} return a, nil } var _translationsKubectlIt_itLc_messagesK8sMo = 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# Create a ClusterRoleBinding for user1, user2, and group1 using the cluster-admin ClusterRole\n\t\t kubectl create clusterrolebinding cluster-admin --clusterrole=cluster-admin --user=user1 --user=user2 --group=group1\x00\n\t\t # Create a RoleBinding for user1, user2, and group1 using the admin ClusterRole\n\t\t kubectl create rolebinding admin --clusterrole=admin --user=user1 --user=user2 --group=group1\x00\n\t\t # Create a new configmap named my-config based on folder bar\n\t\t kubectl create configmap my-config --from-file=path/to/bar\n\n\t\t # Create a new configmap named my-config with specified keys instead of file basenames on disk\n\t\t kubectl create configmap my-config --from-file=key1=/path/to/bar/file1.txt --from-file=key2=/path/to/bar/file2.txt\n\n\t\t # Create a new configmap named my-config with key1=config1 and key2=config2\n\t\t kubectl create configmap my-config --from-literal=key1=config1 --from-literal=key2=config2\x00\n\t\t # If you don't already have a .dockercfg file, you can create a dockercfg secret directly by using:\n\t\t kubectl create secret docker-registry my-secret --docker-server=DOCKER_REGISTRY_SERVER --docker-username=DOCKER_USER --docker-password=DOCKER_PASSWORD --docker-email=DOCKER_EMAIL\x00\n\t\t # Show metrics for all nodes\n\t\t kubectl top node\n\n\t\t # Show metrics for a given node\n\t\t kubectl top node NODE_NAME\x00\n\t\t# Apply the configuration in pod.json to a pod.\n\t\tkubectl apply -f ./pod.json\n\n\t\t# Apply the JSON passed into stdin to a pod.\n\t\tcat pod.json | kubectl apply -f -\n\n\t\t# Note: --prune is still in Alpha\n\t\t# Apply the configuration in manifest.yaml that matches label app=nginx and delete all the other resources that are not in the file and match label app=nginx.\n\t\tkubectl apply --prune -f manifest.yaml -l app=nginx\n\n\t\t# Apply the configuration in manifest.yaml and delete all the other configmaps that are not in the file.\n\t\tkubectl apply --prune -f manifest.yaml --all --prune-whitelist=core/v1/ConfigMap\x00\n\t\t# Auto scale a deployment \"foo\", with the number of pods between 2 and 10, no target CPU utilization specified so a default autoscaling policy will be used:\n\t\tkubectl autoscale deployment foo --min=2 --max=10\n\n\t\t# Auto scale a replication controller \"foo\", with the number of pods between 1 and 5, target CPU utilization at 80%:\n\t\tkubectl autoscale rc foo --max=5 --cpu-percent=80\x00\n\t\t# Convert 'pod.yaml' to latest version and print to stdout.\n\t\tkubectl convert -f pod.yaml\n\n\t\t# Convert the live state of the resource specified by 'pod.yaml' to the latest version\n\t\t# and print to stdout in json format.\n\t\tkubectl convert -f pod.yaml --local -o json\n\n\t\t# Convert all files under current directory to latest version and create them all.\n\t\tkubectl convert -f . | kubectl create -f -\x00\n\t\t# Create a ClusterRole named \"pod-reader\" that allows user to perform \"get\", \"watch\" and \"list\" on pods\n\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --resource=pods\n\n\t\t# Create a ClusterRole named \"pod-reader\" with ResourceName specified\n\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --resource=pods --resource-name=readablepod\x00\n\t\t# Create a Role named \"pod-reader\" that allows user to perform \"get\", \"watch\" and \"list\" on pods\n\t\tkubectl create role pod-reader --verb=get --verb=list --verb=watch --resource=pods\n\n\t\t# Create a Role named \"pod-reader\" with ResourceName specified\n\t\tkubectl create role pod-reader --verb=get --verg=list --verb=watch --resource=pods --resource-name=readablepod\x00\n\t\t# Create a new resourcequota named my-quota\n\t\tkubectl create quota my-quota --hard=cpu=1,memory=1G,pods=2,services=3,replicationcontrollers=2,resourcequotas=1,secrets=5,persistentvolumeclaims=10\n\n\t\t# Create a new resourcequota named best-effort\n\t\tkubectl create quota best-effort --hard=pods=100 --scopes=BestEffort\x00\n\t\t# Create a pod disruption budget named my-pdb that will select all pods with the app=rails label\n\t\t# and require at least one of them being available at any point in time.\n\t\tkubectl create poddisruptionbudget my-pdb --selector=app=rails --min-available=1\n\n\t\t# Create a pod disruption budget named my-pdb that will select all pods with the app=nginx label\n\t\t# and require at least half of the pods selected to be available at any point in time.\n\t\tkubectl create pdb my-pdb --selector=app=nginx --min-available=50%\x00\n\t\t# Create a pod using the data in pod.json.\n\t\tkubectl create -f ./pod.json\n\n\t\t# Create a pod based on the JSON passed into stdin.\n\t\tcat pod.json | kubectl create -f -\n\n\t\t# Edit the data in docker-registry.yaml in JSON using the v1 API format then create the resource using the edited data.\n\t\tkubectl create -f docker-registry.yaml --edit --output-version=v1 -o json\x00\n\t\t# Create a service for a replicated nginx, which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose rc nginx --port=80 --target-port=8000\n\n\t\t# Create a service for a replication controller identified by type and name specified in \"nginx-controller.yaml\", which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose -f nginx-controller.yaml --port=80 --target-port=8000\n\n\t\t# Create a service for a pod valid-pod, which serves on port 444 with the name \"frontend\"\n\t\tkubectl expose pod valid-pod --port=444 --name=frontend\n\n\t\t# Create a second service based on the above service, exposing the container port 8443 as port 443 with the name \"nginx-https\"\n\t\tkubectl expose service nginx --port=443 --target-port=8443 --name=nginx-https\n\n\t\t# Create a service for a replicated streaming application on port 4100 balancing UDP traffic and named 'video-stream'.\n\t\tkubectl expose rc streamer --port=4100 --protocol=udp --name=video-stream\n\n\t\t# Create a service for a replicated nginx using replica set, which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose rs nginx --port=80 --target-port=8000\n\n\t\t# Create a service for an nginx deployment, which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose deployment nginx --port=80 --target-port=8000\x00\n\t\t# Delete a pod using the type and name specified in pod.json.\n\t\tkubectl delete -f ./pod.json\n\n\t\t# Delete a pod based on the type and name in the JSON passed into stdin.\n\t\tcat pod.json | kubectl delete -f -\n\n\t\t# Delete pods and services with same names \"baz\" and \"foo\"\n\t\tkubectl delete pod,service baz foo\n\n\t\t# Delete pods and services with label name=myLabel.\n\t\tkubectl delete pods,services -l name=myLabel\n\n\t\t# Delete a pod with minimal delay\n\t\tkubectl delete pod foo --now\n\n\t\t# Force delete a pod on a dead node\n\t\tkubectl delete pod foo --grace-period=0 --force\n\n\t\t# Delete all pods\n\t\tkubectl delete pods --all\x00\n\t\t# Describe a node\n\t\tkubectl describe nodes kubernetes-node-emt8.c.myproject.internal\n\n\t\t# Describe a pod\n\t\tkubectl describe pods/nginx\n\n\t\t# Describe a pod identified by type and name in \"pod.json\"\n\t\tkubectl describe -f pod.json\n\n\t\t# Describe all pods\n\t\tkubectl describe pods\n\n\t\t# Describe pods by label name=myLabel\n\t\tkubectl describe po -l name=myLabel\n\n\t\t# Describe all pods managed by the 'frontend' replication controller (rc-created pods\n\t\t# get the name of the rc as a prefix in the pod the name).\n\t\tkubectl describe pods frontend\x00\n\t\t# Drain node \"foo\", even if there are pods not managed by a ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet on it.\n\t\t$ kubectl drain foo --force\n\n\t\t# As above, but abort if there are pods not managed by a ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet, and use a grace period of 15 minutes.\n\t\t$ kubectl drain foo --grace-period=900\x00\n\t\t# Edit the service named 'docker-registry':\n\t\tkubectl edit svc/docker-registry\n\n\t\t# Use an alternative editor\n\t\tKUBE_EDITOR=\"nano\" kubectl edit svc/docker-registry\n\n\t\t# Edit the job 'myjob' in JSON using the v1 API format:\n\t\tkubectl edit job.v1.batch/myjob -o json\n\n\t\t# Edit the deployment 'mydeployment' in YAML and save the modified config in its annotation:\n\t\tkubectl edit deployment/mydeployment -o yaml --save-config\x00\n\t\t# Get output from running 'date' from pod 123456-7890, using the first container by default\n\t\tkubectl exec 123456-7890 date\n\n\t\t# Get output from running 'date' in ruby-container from pod 123456-7890\n\t\tkubectl exec 123456-7890 -c ruby-container date\n\n\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container from pod 123456-7890\n\t\t# and sends stdout/stderr from 'bash' back to the client\n\t\tkubectl exec 123456-7890 -c ruby-container -i -t -- bash -il\x00\n\t\t# Get output from running pod 123456-7890, using the first container by default\n\t\tkubectl attach 123456-7890\n\n\t\t# Get output from ruby-container from pod 123456-7890\n\t\tkubectl attach 123456-7890 -c ruby-container\n\n\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container from pod 123456-7890\n\t\t# and sends stdout/stderr from 'bash' back to the client\n\t\tkubectl attach 123456-7890 -c ruby-container -i -t\n\n\t\t# Get output from the first pod of a ReplicaSet named nginx\n\t\tkubectl attach rs/nginx\n\t\t\x00\n\t\t# Get the documentation of the resource and its fields\n\t\tkubectl explain pods\n\n\t\t# Get the documentation of a specific field of a resource\n\t\tkubectl explain pods.spec.containers\x00\n\t\t# Install bash completion on a Mac using homebrew\n\t\tbrew install bash-completion\n\t\tprintf \"\n# Bash completion support\nsource $(brew --prefix)/etc/bash_completion\n\" >> $HOME/.bash_profile\n\t\tsource $HOME/.bash_profile\n\n\t\t# Load the kubectl completion code for bash into the current shell\n\t\tsource <(kubectl completion bash)\n\n\t\t# Write bash completion code to a file and source if from .bash_profile\n\t\tkubectl completion bash > ~/.kube/completion.bash.inc\n\t\tprintf \"\n# Kubectl shell completion\nsource '$HOME/.kube/completion.bash.inc'\n\" >> $HOME/.bash_profile\n\t\tsource $HOME/.bash_profile\n\n\t\t# Load the kubectl completion code for zsh[1] into the current shell\n\t\tsource <(kubectl completion zsh)\x00\n\t\t# List all pods in ps output format.\n\t\tkubectl get pods\n\n\t\t# List all pods in ps output format with more information (such as node name).\n\t\tkubectl get pods -o wide\n\n\t\t# List a single replication controller with specified NAME in ps output format.\n\t\tkubectl get replicationcontroller web\n\n\t\t# List a single pod in JSON output format.\n\t\tkubectl get -o json pod web-pod-13je7\n\n\t\t# List a pod identified by type and name specified in \"pod.yaml\" in JSON output format.\n\t\tkubectl get -f pod.yaml -o json\n\n\t\t# Return only the phase value of the specified pod.\n\t\tkubectl get -o template pod/web-pod-13je7 --template={{.status.phase}}\n\n\t\t# List all replication controllers and services together in ps output format.\n\t\tkubectl get rc,services\n\n\t\t# List one or more resources by their type and names.\n\t\tkubectl get rc/web service/frontend pods/web-pod-13je7\n\n\t\t# List all resources with different types.\n\t\tkubectl get all\x00\n\t\t# Listen on ports 5000 and 6000 locally, forwarding data to/from ports 5000 and 6000 in the pod\n\t\tkubectl port-forward mypod 5000 6000\n\n\t\t# Listen on port 8888 locally, forwarding to 5000 in the pod\n\t\tkubectl port-forward mypod 8888:5000\n\n\t\t# Listen on a random port locally, forwarding to 5000 in the pod\n\t\tkubectl port-forward mypod :5000\n\n\t\t# Listen on a random port locally, forwarding to 5000 in the pod\n\t\tkubectl port-forward mypod 0:5000\x00\n\t\t# Mark node \"foo\" as schedulable.\n\t\t$ kubectl uncordon foo\x00\n\t\t# Mark node \"foo\" as unschedulable.\n\t\tkubectl cordon foo\x00\n\t\t# Partially update a node using strategic merge patch\n\t\tkubectl patch node k8s-node-1 -p '{\"spec\":{\"unschedulable\":true}}'\n\n\t\t# Partially update a node identified by the type and name specified in \"node.json\" using strategic merge patch\n\t\tkubectl patch -f node.json -p '{\"spec\":{\"unschedulable\":true}}'\n\n\t\t# Update a container's image; spec.containers[*].name is required because it's a merge key\n\t\tkubectl patch pod valid-pod -p '{\"spec\":{\"containers\":[{\"name\":\"kubernetes-serve-hostname\",\"image\":\"new image\"}]}}'\n\n\t\t# Update a container's image using a json patch with positional arrays\n\t\tkubectl patch pod valid-pod --type='json' -p='[{\"op\": \"replace\", \"path\": \"/spec/containers/0/image\", \"value\":\"new image\"}]'\x00\n\t\t# Print flags inherited by all commands\n\t\tkubectl options\x00\n\t\t# Print the address of the master and cluster services\n\t\tkubectl cluster-info\x00\n\t\t# Print the client and server versions for the current context\n\t\tkubectl version\x00\n\t\t# Print the supported API versions\n\t\tkubectl api-versions\x00\n\t\t# Replace a pod using the data in pod.json.\n\t\tkubectl replace -f ./pod.json\n\n\t\t# Replace a pod based on the JSON passed into stdin.\n\t\tcat pod.json | kubectl replace -f -\n\n\t\t# Update a single-container pod's image version (tag) to v4\n\t\tkubectl get pod mypod -o yaml | sed 's/\\(image: myimage\\):.*$/\x01:v4/' | kubectl replace -f -\n\n\t\t# Force replace, delete and then re-create the resource\n\t\tkubectl replace --force -f ./pod.json\x00\n\t\t# Return snapshot logs from pod nginx with only one container\n\t\tkubectl logs nginx\n\n\t\t# Return snapshot logs for the pods defined by label app=nginx\n\t\tkubectl logs -lapp=nginx\n\n\t\t# Return snapshot of previous terminated ruby container logs from pod web-1\n\t\tkubectl logs -p -c ruby web-1\n\n\t\t# Begin streaming the logs of the ruby container in pod web-1\n\t\tkubectl logs -f -c ruby web-1\n\n\t\t# Display only the most recent 20 lines of output in pod nginx\n\t\tkubectl logs --tail=20 nginx\n\n\t\t# Show all logs from pod nginx written in the last hour\n\t\tkubectl logs --since=1h nginx\n\n\t\t# Return snapshot logs from first container of a job named hello\n\t\tkubectl logs job/hello\n\n\t\t# Return snapshot logs from container nginx-1 of a deployment named nginx\n\t\tkubectl logs deployment/nginx -c nginx-1\x00\n\t\t# Run a proxy to kubernetes apiserver on port 8011, serving static content from ./local/www/\n\t\tkubectl proxy --port=8011 --www=./local/www/\n\n\t\t# Run a proxy to kubernetes apiserver on an arbitrary local port.\n\t\t# The chosen port for the server will be output to stdout.\n\t\tkubectl proxy --port=0\n\n\t\t# Run a proxy to kubernetes apiserver, changing the api prefix to k8s-api\n\t\t# This makes e.g. the pods api available at localhost:8001/k8s-api/v1/pods/\n\t\tkubectl proxy --api-prefix=/k8s-api\x00\n\t\t# Scale a replicaset named 'foo' to 3.\n\t\tkubectl scale --replicas=3 rs/foo\n\n\t\t# Scale a resource identified by type and name specified in \"foo.yaml\" to 3.\n\t\tkubectl scale --replicas=3 -f foo.yaml\n\n\t\t# If the deployment named mysql's current size is 2, scale mysql to 3.\n\t\tkubectl scale --current-replicas=2 --replicas=3 deployment/mysql\n\n\t\t# Scale multiple replication controllers.\n\t\tkubectl scale --replicas=5 rc/foo rc/bar rc/baz\n\n\t\t# Scale job named 'cron' to 3.\n\t\tkubectl scale --replicas=3 job/cron\x00\n\t\t# Set the last-applied-configuration of a resource to match the contents of a file.\n\t\tkubectl apply set-last-applied -f deploy.yaml\n\n\t\t# Execute set-last-applied against each configuration file in a directory.\n\t\tkubectl apply set-last-applied -f path/\n\n\t\t# Set the last-applied-configuration of a resource to match the contents of a file, will create the annotation if it does not already exist.\n\t\tkubectl apply set-last-applied -f deploy.yaml --create-annotation=true\n\t\t\x00\n\t\t# Show metrics for all pods in the default namespace\n\t\tkubectl top pod\n\n\t\t# Show metrics for all pods in the given namespace\n\t\tkubectl top pod --namespace=NAMESPACE\n\n\t\t# Show metrics for a given pod and its containers\n\t\tkubectl top pod POD_NAME --containers\n\n\t\t# Show metrics for the pods defined by label name=myLabel\n\t\tkubectl top pod -l name=myLabel\x00\n\t\t# Shut down foo.\n\t\tkubectl stop replicationcontroller foo\n\n\t\t# Stop pods and services with label name=myLabel.\n\t\tkubectl stop pods,services -l name=myLabel\n\n\t\t# Shut down the service defined in service.json\n\t\tkubectl stop -f service.json\n\n\t\t# Shut down all resources in the path/to/resources directory\n\t\tkubectl stop -f path/to/resources\x00\n\t\t# Start a single instance of nginx.\n\t\tkubectl run nginx --image=nginx\n\n\t\t# Start a single instance of hazelcast and let the container expose port 5701 .\n\t\tkubectl run hazelcast --image=hazelcast --port=5701\n\n\t\t# Start a single instance of hazelcast and set environment variables \"DNS_DOMAIN=cluster\" and \"POD_NAMESPACE=default\" in the container.\n\t\tkubectl run hazelcast --image=hazelcast --env=\"DNS_DOMAIN=cluster\" --env=\"POD_NAMESPACE=default\"\n\n\t\t# Start a replicated instance of nginx.\n\t\tkubectl run nginx --image=nginx --replicas=5\n\n\t\t# Dry run. Print the corresponding API objects without creating them.\n\t\tkubectl run nginx --image=nginx --dry-run\n\n\t\t# Start a single instance of nginx, but overload the spec of the deployment with a partial set of values parsed from JSON.\n\t\tkubectl run nginx --image=nginx --overrides='{ \"apiVersion\": \"v1\", \"spec\": { ... } }'\n\n\t\t# Start a pod of busybox and keep it in the foreground, don't restart it if it exits.\n\t\tkubectl run -i -t busybox --image=busybox --restart=Never\n\n\t\t# Start the nginx container using the default command, but use custom arguments (arg1 .. argN) for that command.\n\t\tkubectl run nginx --image=nginx -- ... \n\n\t\t# Start the nginx container using a different command and custom arguments.\n\t\tkubectl run nginx --image=nginx --command -- ... \n\n\t\t# Start the perl container to compute \u03c0 to 2000 places and print it out.\n\t\tkubectl run pi --image=perl --restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'\n\n\t\t# Start the cron job to compute \u03c0 to 2000 places and print it out every 5 minutes.\n\t\tkubectl run pi --schedule=\"0/5 * * * ?\" --image=perl --restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'\x00\n\t\t# Update node 'foo' with a taint with key 'dedicated' and value 'special-user' and effect 'NoSchedule'.\n\t\t# If a taint with that key and effect already exists, its value is replaced as specified.\n\t\tkubectl taint nodes foo dedicated=special-user:NoSchedule\n\n\t\t# Remove from node 'foo' the taint with key 'dedicated' and effect 'NoSchedule' if one exists.\n\t\tkubectl taint nodes foo dedicated:NoSchedule-\n\n\t\t# Remove from node 'foo' all the taints with key 'dedicated'\n\t\tkubectl taint nodes foo dedicated-\x00\n\t\t# Update pod 'foo' with the label 'unhealthy' and the value 'true'.\n\t\tkubectl label pods foo unhealthy=true\n\n\t\t# Update pod 'foo' with the label 'status' and the value 'unhealthy', overwriting any existing value.\n\t\tkubectl label --overwrite pods foo status=unhealthy\n\n\t\t# Update all pods in the namespace\n\t\tkubectl label pods --all status=unhealthy\n\n\t\t# Update a pod identified by the type and name in \"pod.json\"\n\t\tkubectl label -f pod.json status=unhealthy\n\n\t\t# Update pod 'foo' only if the resource is unchanged from version 1.\n\t\tkubectl label pods foo status=unhealthy --resource-version=1\n\n\t\t# Update pod 'foo' by removing a label named 'bar' if it exists.\n\t\t# Does not require the --overwrite flag.\n\t\tkubectl label pods foo bar-\x00\n\t\t# Update pods of frontend-v1 using new replication controller data in frontend-v2.json.\n\t\tkubectl rolling-update frontend-v1 -f frontend-v2.json\n\n\t\t# Update pods of frontend-v1 using JSON data passed into stdin.\n\t\tcat frontend-v2.json | kubectl rolling-update frontend-v1 -f -\n\n\t\t# Update the pods of frontend-v1 to frontend-v2 by just changing the image, and switching the\n\t\t# name of the replication controller.\n\t\tkubectl rolling-update frontend-v1 frontend-v2 --image=image:v2\n\n\t\t# Update the pods of frontend by just changing the image, and keeping the old name.\n\t\tkubectl rolling-update frontend --image=image:v2\n\n\t\t# Abort and reverse an existing rollout in progress (from frontend-v1 to frontend-v2).\n\t\tkubectl rolling-update frontend-v1 frontend-v2 --rollback\x00\n\t\t# View the last-applied-configuration annotations by type/name in YAML.\n\t\tkubectl apply view-last-applied deployment/nginx\n\n\t\t# View the last-applied-configuration annotations by file in JSON\n\t\tkubectl apply view-last-applied -f deploy.yaml -o json\x00\n\t\tApply a configuration to a resource by filename or stdin.\n\t\tThis resource will be created if it doesn't exist yet.\n\t\tTo use 'apply', always create the resource initially with either 'apply' or 'create --save-config'.\n\n\t\tJSON and YAML formats are accepted.\n\n\t\tAlpha Disclaimer: the --prune functionality is not yet complete. Do not use unless you are aware of what the current state is. See https://issues.k8s.io/34274.\x00\n\t\tConvert config files between different API versions. Both YAML\n\t\tand JSON formats are accepted.\n\n\t\tThe command takes filename, directory, or URL as input, and convert it into format\n\t\tof version specified by --output-version flag. If target version is not specified or\n\t\tnot supported, convert to latest version.\n\n\t\tThe default output will be printed to stdout in YAML format. One can use -o option\n\t\tto change to output destination.\x00\n\t\tCreate a ClusterRole.\x00\n\t\tCreate a ClusterRoleBinding for a particular ClusterRole.\x00\n\t\tCreate a RoleBinding for a particular Role or ClusterRole.\x00\n\t\tCreate a TLS secret from the given public/private key pair.\n\n\t\tThe public/private key pair must exist before hand. The public key certificate must be .PEM encoded and match the given private key.\x00\n\t\tCreate a configmap based on a file, directory, or specified literal value.\n\n\t\tA single configmap may package one or more key/value pairs.\n\n\t\tWhen creating a configmap based on a file, the key will default to the basename of the file, and the value will\n\t\tdefault to the file content. If the basename is an invalid key, you may specify an alternate key.\n\n\t\tWhen creating a configmap based on a directory, each file whose basename is a valid key in the directory will be\n\t\tpackaged into the configmap. Any directory entries except regular files are ignored (e.g. subdirectories,\n\t\tsymlinks, devices, pipes, etc).\x00\n\t\tCreate a namespace with the specified name.\x00\n\t\tCreate a new secret for use with Docker registries.\n\n\t\tDockercfg secrets are used to authenticate against Docker registries.\n\n\t\tWhen using the Docker command line to push images, you can authenticate to a given registry by running\n\n\t\t $ docker login DOCKER_REGISTRY_SERVER --username=DOCKER_USER --password=DOCKER_PASSWORD --email=DOCKER_EMAIL'.\n\n That produces a ~/.dockercfg file that is used by subsequent 'docker push' and 'docker pull' commands to\n\t\tauthenticate to the registry. The email address is optional.\n\n\t\tWhen creating applications, you may have a Docker registry that requires authentication. In order for the\n\t\tnodes to pull images on your behalf, they have to have the credentials. You can provide this information\n\t\tby creating a dockercfg secret and attaching it to your service account.\x00\n\t\tCreate a pod disruption budget with the specified name, selector, and desired minimum available pods\x00\n\t\tCreate a resource by filename or stdin.\n\n\t\tJSON and YAML formats are accepted.\x00\n\t\tCreate a resourcequota with the specified name, hard limits and optional scopes\x00\n\t\tCreate a role with single rule.\x00\n\t\tCreate a secret based on a file, directory, or specified literal value.\n\n\t\tA single secret may package one or more key/value pairs.\n\n\t\tWhen creating a secret based on a file, the key will default to the basename of the file, and the value will\n\t\tdefault to the file content. If the basename is an invalid key, you may specify an alternate key.\n\n\t\tWhen creating a secret based on a directory, each file whose basename is a valid key in the directory will be\n\t\tpackaged into the secret. Any directory entries except regular files are ignored (e.g. subdirectories,\n\t\tsymlinks, devices, pipes, etc).\x00\n\t\tCreate a service account with the specified name.\x00\n\t\tCreate and run a particular image, possibly replicated.\n\n\t\tCreates a deployment or job to manage the created container(s).\x00\n\t\tCreates an autoscaler that automatically chooses and sets the number of pods that run in a kubernetes cluster.\n\n\t\tLooks up a Deployment, ReplicaSet, or ReplicationController by name and creates an autoscaler that uses the given resource as a reference.\n\t\tAn autoscaler can automatically increase or decrease number of pods deployed within the system as needed.\x00\n\t\tDelete resources by filenames, stdin, resources and names, or by resources and label selector.\n\n\t\tJSON and YAML formats are accepted. Only one type of the arguments may be specified: filenames,\n\t\tresources and names, or resources and label selector.\n\n\t\tSome resources, such as pods, support graceful deletion. These resources define a default period\n\t\tbefore they are forcibly terminated (the grace period) but you may override that value with\n\t\tthe --grace-period flag, or pass --now to set a grace-period of 1. Because these resources often\n\t\trepresent entities in the cluster, deletion may not be acknowledged immediately. If the node\n\t\thosting a pod is down or cannot reach the API server, termination may take significantly longer\n\t\tthan the grace period. To force delete a resource,\tyou must pass a grace\tperiod of 0 and specify\n\t\tthe --force flag.\n\n\t\tIMPORTANT: Force deleting pods does not wait for confirmation that the pod's processes have been\n\t\tterminated, which can leave those processes running until the node detects the deletion and\n\t\tcompletes graceful deletion. If your processes use shared storage or talk to a remote API and\n\t\tdepend on the name of the pod to identify themselves, force deleting those pods may result in\n\t\tmultiple processes running on different machines using the same identification which may lead\n\t\tto data corruption or inconsistency. Only force delete pods when you are sure the pod is\n\t\tterminated, or if your application can tolerate multiple copies of the same pod running at once.\n\t\tAlso, if you force delete pods the scheduler may place new pods on those nodes before the node\n\t\thas released those resources and causing those pods to be evicted immediately.\n\n\t\tNote that the delete command does NOT do resource version checks, so if someone\n\t\tsubmits an update to a resource right when you submit a delete, their update\n\t\twill be lost along with the rest of the resource.\x00\n\t\tDeprecated: Gracefully shut down a resource by name or filename.\n\n\t\tThe stop command is deprecated, all its functionalities are covered by delete command.\n\t\tSee 'kubectl delete --help' for more details.\n\n\t\tAttempts to shut down and delete a resource that supports graceful termination.\n\t\tIf the resource is scalable it will be scaled to 0 before deletion.\x00\n\t\tDisplay Resource (CPU/Memory/Storage) usage of nodes.\n\n\t\tThe top-node command allows you to see the resource consumption of nodes.\x00\n\t\tDisplay Resource (CPU/Memory/Storage) usage of pods.\n\n\t\tThe 'top pod' command allows you to see the resource consumption of pods.\n\n\t\tDue to the metrics pipeline delay, they may be unavailable for a few minutes\n\t\tsince pod creation.\x00\n\t\tDisplay Resource (CPU/Memory/Storage) usage.\n\n\t\tThe top command allows you to see the resource consumption for nodes or pods.\n\n\t\tThis command requires Heapster to be correctly configured and working on the server. \x00\n\t\tDrain node in preparation for maintenance.\n\n\t\tThe given node will be marked unschedulable to prevent new pods from arriving.\n\t\t'drain' evicts the pods if the APIServer supports eviction\n\t\t(http://kubernetes.io/docs/admin/disruptions/). Otherwise, it will use normal DELETE\n\t\tto delete the pods.\n\t\tThe 'drain' evicts or deletes all pods except mirror pods (which cannot be deleted through\n\t\tthe API server). If there are DaemonSet-managed pods, drain will not proceed\n\t\twithout --ignore-daemonsets, and regardless it will not delete any\n\t\tDaemonSet-managed pods, because those pods would be immediately replaced by the\n\t\tDaemonSet controller, which ignores unschedulable markings. If there are any\n\t\tpods that are neither mirror pods nor managed by ReplicationController,\n\t\tReplicaSet, DaemonSet, StatefulSet or Job, then drain will not delete any pods unless you\n\t\tuse --force. --force will also allow deletion to proceed if the managing resource of one\n\t\tor more pods is missing.\n\n\t\t'drain' waits for graceful termination. You should not operate on the machine until\n\t\tthe command completes.\n\n\t\tWhen you are ready to put the node back into service, use kubectl uncordon, which\n\t\twill make the node schedulable again.\n\n\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_drain.svg)\x00\n\t\tEdit a resource from the default editor.\n\n\t\tThe edit command allows you to directly edit any API resource you can retrieve via the\n\t\tcommand line tools. It will open the editor defined by your KUBE_EDITOR, or EDITOR\n\t\tenvironment variables, or fall back to 'vi' for Linux or 'notepad' for Windows.\n\t\tYou can edit multiple objects, although changes are applied one at a time. The command\n\t\taccepts filenames as well as command line arguments, although the files you point to must\n\t\tbe previously saved versions of resources.\n\n\t\tEditing is done with the API version used to fetch the resource.\n\t\tTo edit using a specific API version, fully-qualify the resource, version, and group.\n\n\t\tThe default format is YAML. To edit in JSON, specify \"-o json\".\n\n\t\tThe flag --windows-line-endings can be used to force Windows line endings,\n\t\totherwise the default for your operating system will be used.\n\n\t\tIn the event an error occurs while updating, a temporary file will be created on disk\n\t\tthat contains your unapplied changes. The most common error when updating a resource\n\t\tis another editor changing the resource on the server. When this occurs, you will have\n\t\tto apply your changes to the newer version of the resource, or update your temporary\n\t\tsaved copy to include the latest resource version.\x00\n\t\tMark node as schedulable.\x00\n\t\tMark node as unschedulable.\x00\n\t\tOutput shell completion code for the specified shell (bash or zsh).\n\t\tThe shell code must be evaluated to provide interactive\n\t\tcompletion of kubectl commands. This can be done by sourcing it from\n\t\tthe .bash_profile.\n\n\t\tNote: this requires the bash-completion framework, which is not installed\n\t\tby default on Mac. This can be installed by using homebrew:\n\n\t\t $ brew install bash-completion\n\n\t\tOnce installed, bash_completion must be evaluated. This can be done by adding the\n\t\tfollowing line to the .bash_profile\n\n\t\t $ source $(brew --prefix)/etc/bash_completion\n\n\t\tNote for zsh users: [1] zsh completions are only supported in versions of zsh >= 5.2\x00\n\t\tPerform a rolling update of the given ReplicationController.\n\n\t\tReplaces the specified replication controller with a new replication controller by updating one pod at a time to use the\n\t\tnew PodTemplate. The new-controller.json must specify the same namespace as the\n\t\texisting replication controller and overwrite at least one (common) label in its replicaSelector.\n\n\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_rollingupdate.svg)\x00\n\t\tReplace a resource by filename or stdin.\n\n\t\tJSON and YAML formats are accepted. If replacing an existing resource, the\n\t\tcomplete resource spec must be provided. This can be obtained by\n\n\t\t $ kubectl get TYPE NAME -o yaml\n\n\t\tPlease refer to the models in https://htmlpreview.github.io/?https://github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions.html to find if a field is mutable.\x00\n\t\tSet a new size for a Deployment, ReplicaSet, Replication Controller, or Job.\n\n\t\tScale also allows users to specify one or more preconditions for the scale action.\n\n\t\tIf --current-replicas or --resource-version is specified, it is validated before the\n\t\tscale is attempted, and it is guaranteed that the precondition holds true when the\n\t\tscale is sent to the server.\x00\n\t\tSet the latest last-applied-configuration annotations by setting it to match the contents of a file.\n\t\tThis results in the last-applied-configuration being updated as though 'kubectl apply -f ' was run,\n\t\twithout updating any other parts of the object.\x00\n\t\tTo proxy all of the kubernetes api and nothing else, use:\n\n\t\t $ kubectl proxy --api-prefix=/\n\n\t\tTo proxy only part of the kubernetes api and also some static files:\n\n\t\t $ kubectl proxy --www=/my/files --www-prefix=/static/ --api-prefix=/api/\n\n\t\tThe above lets you 'curl localhost:8001/api/v1/pods'.\n\n\t\tTo proxy the entire kubernetes api at a different root, use:\n\n\t\t $ kubectl proxy --api-prefix=/custom/\n\n\t\tThe above lets you 'curl localhost:8001/custom/api/v1/pods'\x00\n\t\tUpdate field(s) of a resource using strategic merge patch\n\n\t\tJSON and YAML formats are accepted.\n\n\t\tPlease refer to the models in https://htmlpreview.github.io/?https://github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions.html to find if a field is mutable.\x00\n\t\tUpdate the labels on a resource.\n\n\t\t* A label must begin with a letter or number, and may contain letters, numbers, hyphens, dots, and underscores, up to %[1]d characters.\n\t\t* If --overwrite is true, then existing labels can be overwritten, otherwise attempting to overwrite a label will result in an error.\n\t\t* If --resource-version is specified, then updates will use this resource version, otherwise the existing resource-version will be used.\x00\n\t\tUpdate the taints on one or more nodes.\n\n\t\t* A taint consists of a key, value, and effect. As an argument here, it is expressed as key=value:effect.\n\t\t* The key must begin with a letter or number, and may contain letters, numbers, hyphens, dots, and underscores, up to %[1]d characters.\n\t\t* The value must begin with a letter or number, and may contain letters, numbers, hyphens, dots, and underscores, up to %[2]d characters.\n\t\t* The effect must be NoSchedule, PreferNoSchedule or NoExecute.\n\t\t* Currently taint can only apply to node.\x00\n\t\tView the latest last-applied-configuration annotations by type/name or file.\n\n\t\tThe default output will be printed to stdout in YAML format. One can use -o option\n\t\tto change output format.\x00\n\t # !!!Important Note!!!\n\t # Requires that the 'tar' binary is present in your container\n\t # image. If 'tar' is not present, 'kubectl cp' will fail.\n\n\t # Copy /tmp/foo_dir local directory to /tmp/bar_dir in a remote pod in the default namespace\n\t\tkubectl cp /tmp/foo_dir :/tmp/bar_dir\n\n # Copy /tmp/foo local file to /tmp/bar in a remote pod in a specific container\n\t\tkubectl cp /tmp/foo :/tmp/bar -c \n\n\t\t# Copy /tmp/foo local file to /tmp/bar in a remote pod in namespace \n\t\tkubectl cp /tmp/foo /:/tmp/bar\n\n\t\t# Copy /tmp/foo from a remote pod to /tmp/bar locally\n\t\tkubectl cp /:/tmp/foo /tmp/bar\x00\n\t # Create a new TLS secret named tls-secret with the given key pair:\n\t kubectl create secret tls tls-secret --cert=path/to/tls.cert --key=path/to/tls.key\x00\n\t # Create a new namespace named my-namespace\n\t kubectl create namespace my-namespace\x00\n\t # Create a new secret named my-secret with keys for each file in folder bar\n\t kubectl create secret generic my-secret --from-file=path/to/bar\n\n\t # Create a new secret named my-secret with specified keys instead of names on disk\n\t kubectl create secret generic my-secret --from-file=ssh-privatekey=~/.ssh/id_rsa --from-file=ssh-publickey=~/.ssh/id_rsa.pub\n\n\t # Create a new secret named my-secret with key1=supersecret and key2=topsecret\n\t kubectl create secret generic my-secret --from-literal=key1=supersecret --from-literal=key2=topsecret\x00\n\t # Create a new service account named my-service-account\n\t kubectl create serviceaccount my-service-account\x00\n\t# Create a new ExternalName service named my-ns \n\tkubectl create service externalname my-ns --external-name bar.com\x00\n\tCreate an ExternalName service with the specified name.\n\n\tExternalName service references to an external DNS address instead of\n\tonly pods, which will allow application authors to reference services\n\tthat exist off platform, on other clusters, or locally.\x00\n\tHelp provides help for any command in the application.\n\tSimply type kubectl help [path to command] for full details.\x00\n # Create a new LoadBalancer service named my-lbs\n kubectl create service loadbalancer my-lbs --tcp=5678:8080\x00\n # Create a new clusterIP service named my-cs\n kubectl create service clusterip my-cs --tcp=5678:8080\n\n # Create a new clusterIP service named my-cs (in headless mode)\n kubectl create service clusterip my-cs --clusterip=\"None\"\x00\n # Create a new deployment named my-dep that runs the busybox image.\n kubectl create deployment my-dep --image=busybox\x00\n # Create a new nodeport service named my-ns\n kubectl create service nodeport my-ns --tcp=5678:8080\x00\n # Dump current cluster state to stdout\n kubectl cluster-info dump\n\n # Dump current cluster state to /path/to/cluster-state\n kubectl cluster-info dump --output-directory=/path/to/cluster-state\n\n # Dump all namespaces to stdout\n kubectl cluster-info dump --all-namespaces\n\n # Dump a set of namespaces to /path/to/cluster-state\n kubectl cluster-info dump --namespaces default,kube-system --output-directory=/path/to/cluster-state\x00\n # Update pod 'foo' with the annotation 'description' and the value 'my frontend'.\n # If the same annotation is set multiple times, only the last value will be applied\n kubectl annotate pods foo description='my frontend'\n\n # Update a pod identified by type and name in \"pod.json\"\n kubectl annotate -f pod.json description='my frontend'\n\n # Update pod 'foo' with the annotation 'description' and the value 'my frontend running nginx', overwriting any existing value.\n kubectl annotate --overwrite pods foo description='my frontend running nginx'\n\n # Update all pods in the namespace\n kubectl annotate pods --all description='my frontend running nginx'\n\n # Update pod 'foo' only if the resource is unchanged from version 1.\n kubectl annotate pods foo description='my frontend running nginx' --resource-version=1\n\n # Update pod 'foo' by removing an annotation named 'description' if it exists.\n # Does not require the --overwrite flag.\n kubectl annotate pods foo description-\x00\n Create a LoadBalancer service with the specified name.\x00\n Create a clusterIP service with the specified name.\x00\n Create a deployment with the specified name.\x00\n Create a nodeport service with the specified name.\x00\n Dumps cluster info out suitable for debugging and diagnosing cluster problems. By default, dumps everything to\n stdout. You can optionally specify a directory with --output-directory. If you specify a directory, kubernetes will\n build a set of files in that directory. By default only dumps things in the 'kube-system' namespace, but you can\n switch to a different namespace with the --namespaces flag, or specify --all-namespaces to dump all namespaces.\n\n The command also dumps the logs of all of the pods in the cluster, these logs are dumped into different directories\n based on namespace and pod name.\x00\n Display addresses of the master and services with label kubernetes.io/cluster-service=true\n To further debug and diagnose cluster problems, use 'kubectl cluster-info dump'.\x00A comma-delimited set of quota scopes that must all match each object tracked by the quota.\x00A comma-delimited set of resource=quantity pairs that define a hard limit.\x00A label selector to use for this budget. Only equality-based selector requirements are supported.\x00A label selector to use for this service. Only equality-based selector requirements are supported. If empty (the default) infer the selector from the replication controller or replica set.)\x00A schedule in the Cron format the job should be run with.\x00Additional external IP address (not managed by Kubernetes) to accept for the service. If this IP is routed to a node, the service can be accessed by this IP in addition to its generated service IP.\x00An inline JSON override for the generated object. If this is non-empty, it is used to override the generated object. Requires that the object supply a valid apiVersion field.\x00An inline JSON override for the generated service object. If this is non-empty, it is used to override the generated object. Requires that the object supply a valid apiVersion field. Only used if --expose is true.\x00Apply a configuration to a resource by filename or stdin\x00Approve a certificate signing request\x00Assign your own ClusterIP or set to 'None' for a 'headless' service (no loadbalancing).\x00Attach to a running container\x00Auto-scale a Deployment, ReplicaSet, or ReplicationController\x00ClusterIP to be assigned to the service. Leave empty to auto-allocate, or set to 'None' to create a headless service.\x00ClusterRole this ClusterRoleBinding should reference\x00ClusterRole this RoleBinding should reference\x00Container name which will have its image upgraded. Only relevant when --image is specified, ignored otherwise. Required when using --image on a multi-container pod\x00Convert config files between different API versions\x00Copy files and directories to and from containers.\x00Create a ClusterRoleBinding for a particular ClusterRole\x00Create a LoadBalancer service.\x00Create a NodePort service.\x00Create a RoleBinding for a particular Role or ClusterRole\x00Create a TLS secret\x00Create a clusterIP service.\x00Create a configmap from a local file, directory or literal value\x00Create a deployment with the specified name.\x00Create a namespace with the specified name\x00Create a pod disruption budget with the specified name.\x00Create a quota with the specified name.\x00Create a resource by filename or stdin\x00Create a secret for use with a Docker registry\x00Create a secret from a local file, directory or literal value\x00Create a secret using specified subcommand\x00Create a service account with the specified name\x00Create a service using specified subcommand.\x00Create an ExternalName service.\x00Delete resources by filenames, stdin, resources and names, or by resources and label selector\x00Delete the specified cluster from the kubeconfig\x00Delete the specified context from the kubeconfig\x00Deny a certificate signing request\x00Deprecated: Gracefully shut down a resource by name or filename\x00Describe one or many contexts\x00Display Resource (CPU/Memory) usage of nodes\x00Display Resource (CPU/Memory) usage of pods\x00Display Resource (CPU/Memory) usage.\x00Display cluster info\x00Display clusters defined in the kubeconfig\x00Display merged kubeconfig settings or a specified kubeconfig file\x00Display one or many resources\x00Displays the current-context\x00Documentation of resources\x00Drain node in preparation for maintenance\x00Dump lots of relevant info for debugging and diagnosis\x00Edit a resource on the server\x00Email for Docker registry\x00Execute a command in a container\x00Explicit policy for when to pull container images. Required when --image is same as existing image, ignored otherwise.\x00Forward one or more local ports to a pod\x00Help about any command\x00IP to assign to the Load Balancer. If empty, an ephemeral IP will be created and used (cloud-provider specific).\x00If non-empty, set the session affinity for the service to this; legal values: 'None', 'ClientIP'\x00If non-empty, the annotation update will only succeed if this is the current resource-version for the object. Only valid when specifying a single resource.\x00If non-empty, the labels update will only succeed if this is the current resource-version for the object. Only valid when specifying a single resource.\x00Image to use for upgrading the replication controller. Must be distinct from the existing image (either new image or new image tag). Can not be used with --filename/-f\x00Manage a deployment rollout\x00Mark node as schedulable\x00Mark node as unschedulable\x00Mark the provided resource as paused\x00Modify certificate resources.\x00Modify kubeconfig files\x00Name or number for the port on the container that the service should direct traffic to. Optional.\x00Only return logs after a specific date (RFC3339). Defaults to all logs. Only one of since-time / since may be used.\x00Output shell completion code for the specified shell (bash or zsh)\x00Output the formatted object with the given group version (for ex: 'extensions/v1beta1').)\x00Password for Docker registry authentication\x00Path to PEM encoded public key certificate.\x00Path to private key associated with given certificate.\x00Perform a rolling update of the given ReplicationController\x00Precondition for resource version. Requires that the current resource version match this value in order to scale.\x00Print the client and server version information\x00Print the list of flags inherited by all commands\x00Print the logs for a container in a pod\x00Replace a resource by filename or stdin\x00Resume a paused resource\x00Role this RoleBinding should reference\x00Run a particular image on the cluster\x00Run a proxy to the Kubernetes API server\x00Server location for Docker registry\x00Set a new size for a Deployment, ReplicaSet, Replication Controller, or Job\x00Set specific features on objects\x00Set the last-applied-configuration annotation on a live object to match the contents of a file.\x00Set the selector on a resource\x00Sets a cluster entry in kubeconfig\x00Sets a context entry in kubeconfig\x00Sets a user entry in kubeconfig\x00Sets an individual value in a kubeconfig file\x00Sets the current-context in a kubeconfig file\x00Show details of a specific resource or group of resources\x00Show the status of the rollout\x00Synonym for --target-port\x00Take a replication controller, service, deployment or pod and expose it as a new Kubernetes Service\x00The image for the container to run.\x00The image pull policy for the container. If left empty, this value will not be specified by the client and defaulted by the server\x00The key to use to differentiate between two different controllers, default 'deployment'. Only relevant when --image is specified, ignored otherwise\x00The minimum number or percentage of available pods this budget requires.\x00The name for the newly created object.\x00The name for the newly created object. If not specified, the name of the input resource will be used.\x00The name of the API generator to use, see http://kubernetes.io/docs/user-guide/kubectl-conventions/#generators for a list.\x00The name of the API generator to use. Currently there is only 1 generator.\x00The name of the API generator to use. There are 2 generators: 'service/v1' and 'service/v2'. The only difference between them is that service port in v1 is named 'default', while it is left unnamed in v2. Default is 'service/v2'.\x00The name of the generator to use for creating a service. Only used if --expose is true\x00The network protocol for the service to be created. Default is 'TCP'.\x00The port that the service should serve on. Copied from the resource being exposed, if unspecified\x00The port that this container exposes. If --expose is true, this is also the port used by the service that is created.\x00The resource requirement limits for this container. For example, 'cpu=200m,memory=512Mi'. Note that server side components may assign limits depending on the server configuration, such as limit ranges.\x00The resource requirement requests for this container. For example, 'cpu=100m,memory=256Mi'. Note that server side components may assign requests depending on the server configuration, such as limit ranges.\x00The restart policy for this Pod. Legal values [Always, OnFailure, Never]. If set to 'Always' a deployment is created, if set to 'OnFailure' a job is created, if set to 'Never', a regular pod is created. For the latter two --replicas must be 1. Default 'Always', for CronJobs `Never`.\x00The type of secret to create\x00Type for this service: ClusterIP, NodePort, or LoadBalancer. Default is 'ClusterIP'.\x00Undo a previous rollout\x00Unsets an individual value in a kubeconfig file\x00Update field(s) of a resource using strategic merge patch\x00Update image of a pod template\x00Update resource requests/limits on objects with pod templates\x00Update the annotations on a resource\x00Update the labels on a resource\x00Update the taints on one or more nodes\x00Username for Docker registry authentication\x00View latest last-applied-configuration annotations of a resource/object\x00View rollout history\x00Where to output the files. If empty or '-' uses stdout, otherwise creates a directory hierarchy in that directory\x00dummy restart flag)\x00external name of service\x00kubectl controls the Kubernetes cluster manager\x00Project-Id-Version: kubernetes\nReport-Msgid-Bugs-To: EMAIL\nPOT-Creation-Date: 2017-03-14 21:32-0700\nPO-Revision-Date: 2017-08-28 15:20+0200\nLanguage: it_IT\nMIME-Version: 1.0\nContent-Type: text/plain; charset=UTF-8\nContent-Transfer-Encoding: 8bit\nPlural-Forms: nplurals=2; plural=(n != 1);\nLast-Translator: Luca Berton \nLanguage-Team: Luca Berton \nX-Generator: Poedit 1.8.7.1\nX-Poedit-SourceCharset: UTF-8\n\x00\n\t\t # Creare un ClusterRoleBinding per user1, user2 e group1 utilizzando il cluster-admin ClusterRole\n\t\t kubectl create clusterrolebinding cluster-admin --clusterrole=cluster-admin --user=user1 --user=user2 --group=group1\x00\n\t\t # Crea un RoleBinding per user1, user2, and group1 utilizzando l'admin ClusterRole\n\t\t kubectl create rolebinding admin --clusterrole=admin --user=user1 --user=user2 --group=group1\x00\n\t\t # Crea un nuovo configmap denominato my-config in base alla cartella bar\n\t\t kubectl create configmap my-config --from-file=path/to/bar\n\n\t\t # Crea un nuovo configmap denominato my-config con le chiavi specificate anzich\u00e9 i nomi dei file su disco\n\t\t kubectl create configmap my-config --from-file=key1=/path/to/bar/file1.txt --from-file=key2=/path/to/bar/file2.txt\n\n\t\t # Crea un nuovo configmap denominato my-config con key1 = config1 e key2 = config2\n\t\t kubectl create configmap my-config --from-literal=key1=config1 --from-literal=key2=config2\x00\n\t\t # Se non si dispone ancora di un file .dockercfg, \u00e8 possibile creare un secret dockercfg direttamente utilizzando:\n\t\t kubectl create secret docker-registry my-secret --docker-server=DOCKER_REGISTRY_SERVER --docker-username=DOCKER_USER --docker-password=DOCKER_PASSWORD --docker-email=DOCKER_EMAIL\x00\n\t\t # Mostra metriche per tutti i nodi\n\t\t kubectl top node\n\n\t\t # Mostra metriche per un determinato nodo\n\t\t kubectl top node NODE_NAME\x00\n\t\t# Applica la configurazione pod.json a un pod.\n\t\tkubectl apply -f ./pod.json\n\n\t\t# Applicare il JSON passato in stdin a un pod.\n\t\tcat pod.json | kubectl apply -f -\n\n\t\t# Nota: --prune \u00e8 ancora in in Alpha\n\t\t# Applica la configurazione manifest.yaml che corrisponde alla label app = nginx ed elimina tutte le altre risorse che non sono nel file e nella label corrispondente app = nginx.\n\t\tkubectl apply --prune -f manifest.yaml -l app=nginx\n\n\t\t# Applica la configurazione manifest.yaml ed elimina tutti gli altri configmaps non presenti nel file.\n\t\tkubectl apply --prune -f manifest.yaml --all --prune-whitelist=core/v1/ConfigMap\x00\n\t\t# Auto scale un deployment \"foo\", con il numero di pod compresi tra 2 e 10, utilizzo della CPU target specificato in modo da utilizzare una politica di autoscaling predefinita:\n\t\tkubectl autoscale deployment foo --min=2 --max=10\n\n\t\t# Auto scale un controller di replica \"foo\", con il numero di pod compresi tra 1 e 5, utilizzo dell'utilizzo della CPU a 80%:\n\t\tkubectl autoscale rc foo --max=5 --cpu-percent=80\x00\n\t\t# Converte 'pod.yaml' alla versione pi\u00f9 recente e stampa in stdout.\n\t\tkubectl convert -f pod.yaml\n\n\t\t# Converte lo stato live della risorsa specificata da 'pod.yaml' nella versione pi\u00f9 recente.\n\t\t# e stampa in stdout nel formato json.\n\t\tkubectl convert -f pod.yaml --local -o json\n\n\t\t# Converte tutti i file nella directory corrente alla versione pi\u00f9 recente e li crea tutti.\n\t\tkubectl convert -f . | kubectl create -f -\x00\n\t\t# Crea un ClusterRole denominato \"pod-reader\" che consente all'utente di eseguire \"get\", \"watch\" e \"list\" sui pod\n\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --resource=pods\n\n\t\t# Crea un ClusterRole denominato \"pod-reader\" con ResourceName specificato\n\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --resource=pods --resource-name=readablepod\x00\n\t\t# Crea un ruolo denominato \"pod-reader\" che consente all'utente di eseguire \"get\", \"watch\" e \"list\" sui pod\n\t\tkubectl create role pod-reader --verb=get --verb=list --verb=watch --resource=pods\n\n\t\t# Crea un ruolo denominato \"pod-reader\" con ResourceName specificato\n\t\tkubectl create role pod-reader --verb=get --verg=list --verb=watch --resource=pods --resource-name=readablepod\x00\n\t\t# Crea una nuova resourcequota chiamata my-quota\n\t\tkubectl create quota my-quota --hard=cpu=1,memory=1G,pods=2,services=3,replicationcontrollers=2,resourcequotas=1,secrets=5,persistentvolumeclaims=10\n\n\t\t# Creare una nuova resourcequota denominata best-effort\n\t\tkubectl create quota best-effort --hard=pods=100 --scopes=BestEffort\x00\n\t\t# Crea un pod disruption budget chiamato my-pdb che seleziona tutti i pod con label app = rail\n\t\t# e richiede che almeno uno di essi sia disponibile in qualsiasi momento.\n\t\tkubectl create poddisruptionbudget my-pdb --selector=app=rails --min-available=1\n\n\t\t# Crea un pod disruption budget con nome my-pdb che seleziona tutti i pod con label app = nginx \n\t\t# e richiede che almeno la met\u00e0 dei pod selezionati sia disponibile in qualsiasi momento.\n\t\tkubectl create pdb my-pdb --selector=app=nginx --min-available=50%\x00\n\t\t# Crea un pod utilizzando i dati in pod.json.\n\t\tkubectl create -f ./pod.json\n\n\t\t# Crea un pod basato sul JSON passato in stdin.\n\t\tcat pod.json | kubectl create -f -\n\n\t\t# Modifica i dati in docker-registry.yaml in JSON utilizzando il formato API v1 quindi creare la risorsa utilizzando i dati modificati.\n\t\tkubectl create -f docker-registry.yaml --edit --output-version=v1 -o json\x00\n\t\t# Crea un servizio per un nginx replicato, che serve nella porta 80 e si collega ai container sulla porta 8000.\n\t\tkubectl expose rc nginx --port=80 --target-port=8000\n\n\t\t# Crea un servizio per un controller di replica identificato per tipo e nome specificato in \"nginx-controller.yaml\", che serve nella porta 80 e si collega ai container sulla porta 8000.\n\t\tkubectl expose -f nginx-controller.yaml --port=80 --target-port=8000\n\n\t\t# Crea un servizio per un pod valid-pod, che serve nella porta 444 con il nome \"frontend\"\n\t\tkubectl expose pod valid-pod --port=444 --name=frontend\n\n\t\t# Crea un secondo servizio basato sul servizio sopra, esponendo la porta container 8443 come porta 443 con il nome \"nginx-https\"\n\t\tkubectl expose service nginx --port=443 --target-port=8443 --name=nginx-https\n\n\t\t# Crea un servizio per un'applicazione di replica in porta 4100 che bilanci il traffico UDP e denominato \"video stream\".\n\t\tkubectl expose rc streamer --port=4100 --protocol=udp --name=video-stream\n\n\t\t# Crea un servizio per un nginx replicato utilizzando l'insieme di replica, che serve nella porta 80 e si collega ai contenitori sulla porta 8000.\n\t\tkubectl expose rs nginx --port=80 --target-port=8000\n\n\t\t# Crea un servizio per una distribuzione di nginx, che serve nella porta 80 e si collega ai contenitori della porta 8000.\n\t\tkubectl expose deployment nginx --port=80 --target-port=8000\x00\n\t\t# Elimina un pod utilizzando il tipo e il nome specificati in pod.json.\n\t\tkubectl delete -f ./pod.json\n\n\t\t# Elimina un pod in base al tipo e al nome del JSON passato in stdin.\n\t\tcat pod.json | kubectl delete -f -\n\n\t\t# Elimina i baccelli ei servizi con gli stessi nomi \"baz\" e \"foo\"\n\t\tkubectl delete pod,service baz foo\n\n\t\t# Elimina i baccelli ei servizi con il nome dell'etichetta = myLabel.\n\t\tkubectl delete pods,services -l name=myLabel\n\n\t\t# Eliminare un pod con un ritardo minimo\n\t\tkubectl delete pod foo --now\n\n\t\t# Forza elimina un pod in un nodo morto\n\t\tkubectl delete pod foo --grace-period=0 --force\n\n\t\t# Elimina tutti i pod\n\t\tkubectl delete pods --all\x00\n\t\t# Descrive un nodo\n\t\tkubectl describe nodes kubernetes-node-emt8.c.myproject.internal\n\n\t\t# Descrive un pod\n\t\tkubectl describe pods/nginx\n\n\t\t# Descrive un pod identificato da tipo e nome in \"pod.json\"\n\t\tkubectl describe -f pod.json\n\n\t\t# Descrive tutti i pod\n\t\tkubectl describe pods\n\n\t\t# Descrive i pod con label name=myLabel\n\t\tkubectl describe po -l name=myLabel\n\n\t\t# Descrivere tutti i pod gestiti dal controller di replica \"frontend\" (rc-created pods\n\t\t# ottiene il nome del rc come un prefisso del nome pod).\n\t\tkubectl describe pods frontend\x00\n\t\t# Drain node \"foo\", anche se ci sono i baccelli non gestiti da ReplicationController, ReplicaSet, Job, DaemonSet o StatefulSet su di esso.\n\t\t$ kubectl drain foo --force\n\n\t\t# Come sopra, ma interrompere se ci sono i baccelli non gestiti da ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet, e utilizzare un periodo di grazia di 15 minuti.\n\t\t$ kubectl drain foo --grace-period=900\x00\n\t\t# Modifica il servizio denominato 'docker-registry':\n\t\tkubectl edit svc/docker-registry\n\n\t\t# Usa un editor alternativo\n\t\tKUBE_EDITOR=\"nano\" kubectl edit svc/docker-registry\n\n\t\t# Modifica il lavoro 'myjob' in JSON utilizzando il formato API v1:\n\t\tkubectl edit job.v1.batch/myjob -o json\n\n\t\t# Modifica la distribuzione 'mydeployment' in YAML e salvare la configurazione modificata nella sua annotazione:\n\t\tkubectl edit deployment/mydeployment -o yaml --save-config\x00\n\t\t# Ottieni l'output dalla 'data' di esecuzione del pod 123456-7890, utilizzando il primo contenitore per impostazione predefinita\n\t\tkubectl exec 123456-7890 date\n\n\t\t# Ottieni l'output dalla data di esecuzione in ruby-container del pod 123456-7890\n\t\tkubectl exec 123456-7890 -c ruby-container date\n\n\t\t# Passare alla modalit\u00e0 raw terminal, invia stdin a 'bash' in ruby-container del pod 123456-7890\n\t\t# and sends stdout/stderr from 'bash' back to the client\n\t\tkubectl exec 123456-7890 -c ruby-container -i -t -- bash -il\x00\n\t\t# Ottieni l'output dal pod 123456-7890 in esecuzione, utilizzando il primo contenitore per impostazione predefinita\n\t\tkubectl attach 123456-7890\n\n\t\t# Ottieni l'output dal ruby-container del pod 123456-7890\n\t\tkubectl attach 123456-7890 -c ruby-container\n\n\t\t# Passa alla modalit\u00e0 raw terminal, invia stdin a 'bash' in ruby-container del pod 123456-7890\n\t\t# e invia stdout/stderr da 'bash' al client\n\t\tkubectl attach 123456-7890 -c ruby-container -i -t\n\n\t\t# Ottieni l'output dal primo pod di una ReplicaSet denominata nginx\n\t\tkubectl attach rs/nginx\n\t\t\x00\n\t\t# Ottieni la documentazione della risorsa e i relativi campi\n\t\tkubectl explain pods\n\n\t\t# Ottieni la documentazione di un campo specifico di una risorsa\n\t\tkubectl explain pods.spec.containers\x00\n\t\t# Installa il completamento di bash su un Mac utilizzando homebrew\n\t\tbrew install bash-completion\n\t\tprintf \"\n# Bash completion support\nsource $(brew --prefix)/etc/bash_completion\n\" >> $HOME/.bash_profile\n\t\tsource $HOME/.bash_profile\n\n\t\t# Carica il codice di completamento kubectl per bash nella shell corrente\n\t\tsource <(kubectl completion bash)\n\n\t\t# Scrive il codice di completamento bash in un file e lo carica da .bash_profile\n\t\tkubectl completion bash > ~/.kube/completion.bash.inc\n\t\tprintf \"\n# Kubectl shell completion\nsource '$HOME/.kube/completion.bash.inc'\n\" >> $HOME/.bash_profile\n\t\tsource $HOME/.bash_profile\n\n\t\t# Carica il codice di completamento kubectl per zsh [1] nella shell corrente\n\t\tsource <(kubectl completion zsh)\x00\n\t\t# Elenca tutti i pod in formato output ps.\n\t\tkubectl get pods\n\n\t\t# Elenca tutti i pod in formato output ps con maggiori informazioni (ad esempio il nome del nodo).\n\t\tkubectl get pods -o wide\n\n\t\t# Elenca un controller di replica singolo con NAME specificato nel formato di output ps.\n\t\tkubectl get replicationcontroller web\n\n\t\t# Elenca un singolo pod nel formato di uscita JSON.\n\t\tkubectl get -o json pod web-pod-13je7\n\n\t\t# Elenca un pod identificato per tipo e nome specificato in \"pod.yaml\" nel formato di uscita JSON.\n\t\tkubectl get -f pod.yaml -o json\n\n\t\t# Restituisce solo il valore di fase del pod specificato.\n\t\tkubectl get -o template pod/web-pod-13je7 --template={{.status.phase}}\n\n\t\t# Elenca tutti i controller e servizi di replica insieme in formato output ps.\n\t\tkubectl get rc,services\n\n\t\t# Elenca una o pi\u00f9 risorse per il tipo e per i nomi.\n\t\tkubectl get rc/web service/frontend pods/web-pod-13je7\n\n\t\t# Elenca tutte le risorse con tipi diversi.\n\t\tkubectl get all\x00\n\t\t# Ascolta localmente le porte 5000 e 6000, inoltrando i dati da/verso le porte 5000 e 6000 nel pod\n\t\tkubectl port-forward mypod 5000 6000\n\n\t\t# Ascolta localmente la porta 8888, inoltra a 5000 nel pod\n\t\tkubectl port-forward mypod 8888:5000\n\n\t\t# Ascolta localmente una porta casuale, inoltra a 5000 nel pod\n\t\tkubectl port-forward mypod :5000\n\n\t\t# Ascolta localmente una porta casuale, inoltra a 5000 nel pod\n\t\tkubectl port-forward mypod 0:5000\x00\n\t\t# Segna il nodo \"foo\" come programmabile.\n\t\t$ Kubectl uncordon foo\x00\n\t\t# Segna il nodo \"foo\" come non programmabile.\n\t\tkubectl cordon foo\x00\n\t\t# Aggiorna parzialmente un nodo utilizzando merge patch strategica\n\t\tkubectl patch node k8s-node-1 -p '{\"spec\":{\"unschedulable\":true}}'\n\n\t\t# Aggiorna parzialmente un nodo identificato dal tipo e dal nome specificato in \"node.json\" utilizzando merge patch strategica\n\t\tkubectl patch -f node.json -p '{\"spec\":{\"unschedulable\":true}}'\n\n\t\t# Aggiorna l'immagine di un contenitore; spec.containers [*]. name \u00e8 richiesto perch\u00e9 \u00e8 una chiave di fusione\n\t\tkubectl patch pod valid-pod -p '{\"spec\":{\"containers\":[{\"name\":\"kubernetes-serve-hostname\",\"image\":\"new image\"}]}}'\n\n\t\t# Aggiorna l'immagine di un contenitore utilizzando una patch json con array posizionali\n\t\tkubectl patch pod valid-pod --type='json' -p='[{\"op\": \"replace\", \"path\": \"/spec/containers/0/image\", \"value\":\"new image\"}]'\x00\n\t\t# Stampa i flag ereditati da tutti i comandi\n\t\tkubectl options\x00\n\t\t# Stampa l'indirizzo dei servizi master e cluster\n\t\tkubectl cluster-info\x00\n\t\t# Stampa le versioni client e server per il current context\n\t\tkubectl version\x00\n\t\t# Stampa le versioni API supportate\n\t\tkubectl api-versions\x00\n\t\t# Sostituire un pod utilizzando i dati in pod.json.\n\t\tkubectl replace -f ./pod.json\n\n\t\t# Sostituire un pod usando il JSON passato da stdin.\n\t\tcat pod.json | kubectl replace -f -\n\n\t\t# Aggiorna la versione dell'immagine (tag) di un singolo container di pod a v4\n\t\tkubectl get pod mypod -o yaml | sed 's/\\(image: myimage\\):.*$/\x01:v4/' | kubectl replace -f -\n\n\t\t# Forza la sostituzione, cancellazione e quindi ricreare la risorsa\n\t\tkubectl replace --force -f ./pod.json\x00\n\t\t# Restituisce snapshot log dal pod nginx con un solo container\n\t\tkubectl logs nginx\n\n\t\t# Restituisce snapshot log dei pod definiti dalla label app=nginx\n\t\tkubectl logs -lapp=nginx\n\n\t\t# Restituisce snapshot log del container ruby terminato nel pod web-1\n\t\tkubectl logs -p -c ruby web-1\n\n\t\t# Iniziare a trasmettere i log del contenitore ruby nel pod web-1\n\t\tkubectl logs -f -c ruby web-1\n\n\t\t# Visualizza solo le ultime 20 righe di output del pod nginx\n\t\tkubectl logs --tail=20 nginx\n\n\t\t# Mostra tutti i log del pod nginx scritti nell'ultima ora\n\t\tkubectl logs --since=1h nginx\n\n\t\t# Restituisce snapshot log dal primo contenitore di un lavoro chiamato hello\n\t\tkubectl logs job/hello\n\n\t\t# Restituisce snapshot logs del container nginx-1 del deployment chiamato nginx\n\t\tkubectl logs deployment/nginx -c nginx-1\x00\n\t\t# Esegui un proxy verso kubernetes apiserver sulla porta 8011, che fornisce contenuti statici da ./local/www/\n\t\tkubectl proxy --port=8011 --www=./local/www/\n\n\t\t# Esegui un proxy verso kubernetes apiserver su una porta locale arbitraria.\n\t\t# La porta selezionata per il server verr\u00e0 inviata a stdout.\n\t\tkubectl proxy --port=0\n\n\t\t# Esegui un proxy verso kubernetes apiserver, cambiando il prefisso api in k8s-api\n\t\t# Questo comporta, ad es., pod api disponibili presso localhost:8001/k8s-api/v1/pods/\n\t\tkubectl proxy --api-prefix=/k8s-api\x00\n\t\t# Scala un replicaset denominato 'foo' a 3.\n\t\tkubectl scale --replicas=3 rs/foo\n\n\t\t# Scala una risorsa identificata per tipo e nome specificato in \"foo.yaml\" a 3.\n\t\tkubectl scale --replicas=3 -f foo.yaml\n\n\t\t# Se la distribuzione corrente di mysql \u00e8 2, scala mysql a 3.\n\t\tkubectl scale --current-replicas=2 --replicas=3 deployment/mysql\n\n\t\t# Scalare pi\u00f9 controllori di replica.\n\t\tkubectl scale --replicas=5 rc/foo rc/bar rc/baz\n\n\t\t# Scala il lavoro denominato 'cron' a 3.\n\t\tkubectl scale --replicas=3 job/cron\x00\n\t\t# Imposta l'ultima-configurazione-applicata di una risorsa che corrisponda al contenuto di un file.\n\t\tkubectl apply set-last-applied -f deploy.yaml\n\n\t\t# Esegue set-last-applied per ogni file di configurazione in una directory.\n\t\tkubectl apply set-last-applied -f path/\n\n\t\t# Imposta la configurazione dell'ultima applicazione di una risorsa che corrisponda al contenuto di un file, creer\u00e0 l'annotazione se non esiste gi\u00e0.\n\t\tkubectl apply set-last-applied -f deploy.yaml --create-annotation=true\n\t\t\x00\n\t\t# Mostra metriche di tutti i pod nello spazio dei nomi predefinito\n\t\tkubectl top pod\n\n\t\t# Mostra metriche di tutti i pod nello spazio dei nomi specificato\n\t\tkubectl top pod --namespace=NAMESPACE\n\n\t\t# Mostra metriche per un pod e i suoi relativi container\n\t\tkubectl top pod POD_NAME --containers\n\n\t\t# Mostra metriche per i pod definiti da label name = myLabel\n\t\tkubectl top pod -l name=myLabel\x00\n\t\t# Spegni foo.\n\t\tkubectl stop replicationcontroller foo\n\n\t\t# Stop di tutti i pod e servizi con label name=myLabel.\n\t\tkubectl stop pods,services -l name=myLabel\n\n\t\t# Spegnere il servizio definito in service.json\n\t\tkubectl stop -f service.json\n\n\t\t# Spegnere tutte le resources in path/to/resources directory\n\t\tkubectl stop -f path/to/resources\x00\n\t\t# Avviare un'unica istanza di nginx.\n\t\tkubectl run nginx --image=nginx\n\n\t\t# Avviare un'unica istanza di hazelcast e lasciare che il container esponga la porta 5701.\n\t\tkubectl run hazelcast --image=hazelcast --port=5701\n\n\t\t# Avviare una singola istanza di hazelcast ed imposta le variabili ambiente \"DNS_DOMAIN=cluster\" e \"POD_NAMESPACE=default\" nel container.\n\t\tkubectl run hazelcast --image=hazelcast --env=\"DNS_DOMAIN=cluster\" --env=\"POD_NAMESPACE=default\"\n\n\t\t# Avviare un'istanza replicata di nginx.\n\t\tkubectl run nginx --image=nginx --replicas=5\n\n\t\t# Dry run. Stampare gli oggetti API corrispondenti senza crearli.\n\t\tkubectl run nginx --image=nginx --dry-run\n\n\t\t# Avviare un'unica istanza di nginx, ma overload le spec del deployment con un insieme parziale di valori analizzati da JSON.\n\t\tkubectl run nginx --image=nginx --overrides='{ \"apiVersion\": \"v1\", \"spec\": { ... } }'\n\n\t\t# Avviare un pod di busybox e tenerlo in primo piano, non riavviarlo se esce.\n\t\tkubectl run -i -t busybox --image=busybox --restart=Never\n\n\t\t# Avviare il container nginx utilizzando il comando predefinito, ma utilizzare argomenti personalizzati (arg1 .. argN) per quel comando.\n\t\tkubectl run nginx --image=nginx -- ... \n\n\t\t# Avviare il container nginx utilizzando un diverso comando e argomenti personalizzati.\n\t\tkubectl run nginx --image=nginx --command -- ... \n\n\t\t# Avviare il contenitore perl per calcolare \u03c0 a 2000 posti e stamparlo.\n\t\tkubectl run pi --image=perl --restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'\n\n\t\t# Avviare il cron job per calcolare \u03c0 a 2000 posti e stampare ogni 5 minuti.\n\t\tkubectl run pi --schedule=\"0/5 * * * ?\" --image=perl --restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'\x00\n\t\t# Aggiorna il nodo \"foo\" con un marcatore con il tasto 'dedicated' e il valore 'special-user' ed effettua 'NoSchedule'.\n\t\t# Se un marcatore con quel tasto e l'effetto gi\u00e0 esiste, il suo valore viene sostituito come specificato.\n\t\tkubectl taint nodes foo dedicated=special-user:NoSchedule\n\n\t\t# Rimuove dal nodo 'foo' il marcatore con il tasto 'dedicated' ed effettua 'NoSchedule' se esiste.\n\t\tkubectl taint nodes foo dedicated:NoSchedule-\n\n\t\t# Rimuovi dal nodo 'foo' tutti i marcatori con chiave 'dedicated'\n\t\tkubectl taint nodes foo dedicated-\x00\n\t\t# Aggiorna il pod 'foo' con l'etichetta 'unhealthy' e il valore 'true'.\n\t\tkubectl label pods foo unhealthy=true\n\n\t\t# Aggiorna il pod 'foo' con l'etichetta 'status' e il valore 'unhealthy', sovrascrivendo qualsiasi valore esistente.\n\t\tkubectl label --overwrite pods foo status=unhealthy\n\n\t\t# Aggiorna tutti i pod nello spazio dei nomi\n\t\tkubectl label pods --all status=unhealthy\n\n\t\t# Aggiorna un pod identificato dal tipo e dal nome in \"pod.json\"\n\t\tkubectl label -f pod.json status=unhealthy\n\n\t\t# Aggiorna il pod 'foo' solo se la risorsa \u00e8 invariata dalla versione 1.\n\t\tkubectl label pods foo status=unhealthy --resource-version=1\n\n\t\t# Aggiorna il pod 'foo' rimuovendo un'etichetta denominata 'bar' se esiste.\n\t\t# Non richiede la flag -overwrite.\n\t\tkubectl label pods foo bar-\x00\n\t\t# Aggiorna i pod di frontend-v1 usando i dati del replication controller in frontend-v2.json.\n\t\tkubectl rolling-update frontend-v1 -f frontend-v2.json\n\n\t\t# Aggiorna i pod di frontend-v1 usando i dati JSON passati da stdin.\n\t\tcat frontend-v2.json | kubectl rolling-update frontend-v1 -f -\n\n\t\t# Aggiorna i pod di frontend-v1 in frontend-v2 solo cambiando l'immagine e modificando\n\t\t# il nome del replication controller.\n\t\tkubectl rolling-update frontend-v1 frontend-v2 --image=image:v2\n\n\t\t# Aggiorna i pod di frontend solo cambiando l'immaginee mantenendo il vecchio none.\n\t\tkubectl rolling-update frontend --image=image:v2\n\n\t\t# Interrompee ed invertire un rollout esistente in corso (da frontend-v1 a frontend-v2).\n\t\tkubectl rolling-update frontend-v1 frontend-v2 --rollback\x00\n\t\t# Visualizza le annotazioni dell'ultima-configurazione-applicata per tipo/nome in YAML.\n\t\tkubectl apply view-last-applied deployment/nginx\n\n\t\t# # Visualizza le annotazioni dell'ultima-configurazione-applicata per file in JSON.\n\t\tkubectl apply view-last-applied -f deploy.yaml -o json\x00\n\t\tApplicare una configurazione a una risorsa per nomefile o stdin.\n\t\tQuesta risorsa verr\u00e0 creata se non esiste ancora.\n\t\tPer utilizzare 'apply', creare sempre la risorsa inizialmente con 'apply' o 'create --save-config'.\n\n\t\tSono accettati i formati JSON e YAML.\n\n\t\tDisclaimer Alpha: la funzionalit\u00e0 --prune non \u00e8 ancora completa. Non utilizzare a meno che non si sia a conoscenza di quale sia lo stato attuale. Vedi https://issues.k8s.io/34274.\x00\n\t\tConvertire i file di configurazione tra diverse versioni API. Sono\n\t\taccettati i formati YAML e JSON.\n\n\t\tIl comando prende il nome di file, la directory o l'URL come input e lo converte nel formato\n\t\tdi versione specificata dal flag -output-version. Se la versione di destinazione non \u00e8 specificata o\n\t\tnon supportata, viene convertita nella versione pi\u00f9 recente.\n\n\t\tL'output predefinito verr\u00e0 stampato su stdout nel formato YAML. Si pu\u00f2 usare l'opzione -o\n\t\tper cambiare la destinazione di output.\x00\n\t\nCrea un ClusterRole.\x00\n\t\tCrea un ClusterRoleBinding per un ClusterRole particolare.\x00\n\t\tCrea un RoleBinding per un particolare Ruolo o ClusterRole.\x00\n\t\tCrea un TLS secret dalla coppia di chiavi pubblica/privata.\n\n\t\tLa coppia di chiavi pubblica/privata deve esistere prima. Il certificato chiave pubblica deve essere .PEM codificato e corrispondere alla chiave privata data.\x00\n\t\tCreare un configmap basato su un file, una directory o un valore literal specificato.\n\n\t\tUn singolo configmap pu\u00f2 includere una o pi\u00f9 coppie chiave/valore.\n\n\t\tQuando si crea una configmap basata su un file, il valore predefinito sar\u00e0 il nome di base del file e il valore sar\u00e0\n\t\tpredefinito per il contenuto del file. Se il nome di base \u00e8 una chiave non valida, \u00e8 possibile specificare un tasto alternativo.\n\n\t\tQuando si crea un configmap basato su una directory, ogni file il cui nome di base \u00e8 una chiave valida nella directory verr\u00e0\n\t\tpacchettizzata nel configmap. Le voci di directory tranne i file regolari vengono ignorati (ad esempio sottodirectory,\n\t\tsymlinks, devices, pipes, ecc).\x00\n\t\tCreare un namespace con il nome specificato.\x00\n\t\tCreare un nuovo secret per l'utilizzo con i registri Docker.\n\n\t\tDockercfg secrets vengono utilizzati per autenticare i registri Docker.\n\n\t\tQuando utilizzi la riga di comando Docker per il push delle immagini, \u00e8 possibile eseguire l'autenticazione eseguendo correttamente un determinato registry\n\n\t\t $ docker login DOCKER_REGISTRY_SERVER --username=DOCKER_USER --password=DOCKER_PASSWORD --email=DOCKER_EMAIL'.\n\n Questo produce un file ~ / .dockercfg che viene utilizzato dai successivi comandi \"docker push\" e \"docker pull\"\n\t\tper autenticarsi nel registry. L'indirizzo email \u00e8 facoltativo.\n\n\t\tDurante la creazione di applicazioni, \u00e8 possibile avere un Docker registry che richiede l'autenticazione. Affinch\u00e9 i \n\t\tnodi eseguano pull di immagini per vostro conto, devono avere le credenziali. \u00c8 possibile fornire queste informazioni \n\t\tcreando un dockercfg secret e collegandolo al tuo account di servizio.\x00\n\t\tCrea un pod disruption budget con il nome specificato, selector e il numero minimo di pod disponibili\x00\n\t\tCrea una risorsa per nome file o stdin.\n\n\t\tSono accettati i formati JSON e YAML.\x00\n\t\tCrea una resourcequota con il nome specificato, hard limits e gli scope opzionali\x00\n\t\tCrea un ruolo con una singola regola.\x00\n\t\tCrea un secret basato su un file, una directory o un valore specifico literal.\n\n\t\tUn singolo secret pu\u00f2 includere una o pi\u00f9 coppie chiave/valore.\n\n\t\tQuando si crea un secret basato su un file, la chiave per impostazione predefinita sar\u00e0 il nome di base del file e il valore sar\u00e0\n\t\tpredefinito al contenuto del file. Se il nome di base \u00e8 una chiave non valida, \u00e8 possibile specificare un tasto alternativo.\n\n\n\t\tQuando si crea un segreto basato su una directory, ogni file il cui nome di base \u00e8 una chiave valida nella directory verr\u00e0 \n\t\\paccehttizzataw in un secret. Le voci di directory tranne i file regolari vengono ignorati (ad esempio sottodirectory,\n\t\tsymlinks, devices, pipes, ecc).\x00\n\t\tCreare un service account con il nome specificato.\x00\n\t\tCrea ed esegue un'immagine particolare, eventualmente replicata.\n\n\t\tCrea un deployment o un job per gestire i container creati.\x00\n\t\tCrea un autoscaler che automaticamente sceglie e imposta il numero di pod che vengono eseguiti in un cluster di kubernets.\n\n\t\tEsegue una ricerca di un Deployment, ReplicaSet o ReplicationController per nome e crea un autoscaler che utilizza la risorsa indicata come riferimento.\n\t\tUn autoscaler pu\u00f2 aumentare o diminuire automaticamente il numero di pod distribuiti all'interno del sistema se necessario.\x00\n\t\tCancella risorse secondo nomi di file, stdin, risorse e nomi, o per selettori di risorse e etichette.\n\n\t\tSono accettati i formati JSON e YAML. \u00c8 possibile specificare un solo tipo di argomenti: nome file,\n\t\trisorse e nomi, o risorse e selettore di etichette.\n\n\t\tAlcune risorse, come i pod, supportano cacellazione corretta. Queste risorse definiscono un periodo di default\n\t\tprima che siano forzatamente terminate (il grace period) ma si pu\u00f2 sostituire quel valore con\n\t\til falg --grace-period, o passare --now per impostare il grace-period a 1. Poich\u00e9 queste risorse spesso\n\t\trappresentano entit\u00e0 del cluster, la cancellazione non pu\u00f2 essere presa in carico immediatamente. Se il nodo\n\t\tche ospita un pod \u00e8 spento o non raggiungibile da API server, termination pu\u00f2 richiedere molto pi\u00f9 tempo\n\t\tdel grace period. Per forzare la cancellazione di una resource,\tdevi obbligatoriamente indicare un grace\tperiod di 0 e specificare\n\t\til flag --force.\n\n\t\tIMPORTANTE: Fozare la cancellazione dei pod non attende conferma che i processi del pod siano\n\t\tterminati, che pu\u00f2 lasciare questi processi in esecuzione fino a quando il nodo rileva la cancellazione\n\t\tcompletata correttamente. Se i tuoi processi utilizzano l'archiviazione condivisa o parlano con un'API remota e\n\t\tdipendono dal nome del pod per identificarsi, la forzata eliminazione di questi pod pu\u00f2 comportare\n\t\tpi\u00f9 processi in esecuzione su macchine diverse che utilizzando la stessa identificazione che pu\u00f2 portare\n\t\tcorruzione o inconsistenza dei dati. Forza i pod solo quando si \u00e8 sicuri che il pod sia\n\t\tterminato, o se la tua applicazione pu\u00f2 can tollerare pi\u00f9 copie dello stesso pod in esecuzione contemporaneamente.\n\t\tInoltre, se forzate l'eliminazione dei i nodi, lo scheduler pu\u00f2 pu\u00f2 creare nuovi nodi su questi nodi prima che il nodo\n\t\tabbia liberato quelle risorse e provocando immediatamente evict di tali pod.\n\n\n\t\tNotare che il comando di eliminazione NON fa verificare la versione delle risorse, quindi se qualcuno\n\t\tinvia un aggiornamento ad una risorsa quando invii un eliminazione, il loro aggiornamento\n\t\tsaranno persi insieme al resto della risorsa.\x00\n\t\tDeprecated: chiudere correttamente una risorsa per nome o nome file.\n\n\t\tIl comando stop \u00e8 deprecato, tutte le sue funzionalit\u00e0 sono coperte dal comando delete.\n\t\tVedere 'kubectl delete --help' per ulteriori dettagli.\n\n\t\tTenta di arrestare ed eliminare una risorsa che supporta la corretta terminazione.\n\t\tSe la risorsa \u00e8 scalabile, verr\u00e0 scalata a 0 prima dell'eliminazione.\x00\n\t\tVisualizza l'utilizzo di risorse (CPU/Memoria/Storage) dei nodi.\n\n\t\tIl comando top-node consente di visualizzare il consumo di risorse dei nodi.\x00\n\t\tVisualizza l'utilizzo di risorse (CPU/Memoria/Storage) dei pod.\n\n\t\tIl comando \"top pod\" consente di visualizzare il consumo delle risorse dei pod.\n\n\t\tA causa del ritardo della pipeline metrica, potrebbero non essere disponibili per alcuni minuti\n\t\teal momento della creazione dei pod.\x00\n\t\tVisualizza l'utilizzo di risorse (CPU/Memoria/Storage).\n\n\t\tIl comando top consente di visualizzare il consumo di risorse per nodi o pod.\n\n\t\tQuesto comando richiede che Heapster sia configurato correttamente e che funzioni sul server.\x00\n\t\tDrain node in preparazione alla manutenzione.\n\n\t\tIl nodo indicato verr\u00e0 contrassegnato unschedulable per impedire che nuovi pod arrivino.\n\t\t'drain' evict i pod se l'APIServer supporta eviction\n\t\t(http://kubernetes.io/docs/admin/disruptions/). Altrimenti, usa il normale DELETE\n\t\tper eliminare i pod.\n\t\tIl 'drain' evicts o la cancellazione di tutti all pod tranne mirror pods (che non possono essere eliminati\n\t\tattraverso API server). Se ci sono i pod gestiti da DaemonSet, drain non proceder\u00e0\n\t\tsenza --ignore-daemonsets e, a prescindere da ci\u00f2, non canceller\u00e0 alcun\n\t\tpod gestitto da DaemonSet,poich\u00e9 questi pods verrebbero immediatamente sostituiti dal\n\t\tDaemonSet controller, che ignora le marcature unschedulable. Se ci sono\n\t\tpod che non sono n\u00e9 mirror pod n\u00e9 gestiti dal ReplicationController,\n\t\tReplicaSet, DaemonSet, StatefulSet o Job, allora drain non canceller\u00e0 alcun pod finch\u00e9 non\n\t\tuserai --force. --force permetter\u00e0 alla cancellazione di procedere se la risorsa gestita da uno\n\t\to pi\u00f9 pod \u00e8 mancante.\n\n\t\t'drain' attende il termine corretto. Non devi operare sulla macchina finch\u00e9\n\t\til comando non viene completato.\n\n\t\tQuando sei pronto per riportare il nodo al servizio, utilizza kubectl uncordon, per\n\t\trimettere il nodo schedulable nuovamente.\n\n\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_drain.svg)\x00\n\t\tModificare una risorsa dall'editor predefinito.\n\n\t\tIl comando di modifica consente di modificare direttamente qualsiasi risorsa API che \u00e8 possibile recuperare tramite gli\n\t\tstrumenti di riga di comando. Apre l'editor definito dalle variabili d'ambiente\n\t\tKUBE_EDITOR o EDITOR, o ritornare a 'vi' per Linux o 'notepad' per Windows.\n\t\t\u00c8 possibile modificare pi\u00f9 oggetti, anche se le modifiche vengono applicate una alla volta. Il comando\n\t\taccetta sia nomi di file che argomenti da riga di comando, anche se i file a cui fa riferimento devono\n\t\tessere state salvate precedentemente le versioni delle risorse.\n\n\t\tLa modifica viene eseguita con la versione API utilizzata per recuperare la risorsa.\n\t\tPer modificare utilizzando una specifica versione API, fully-qualify la risorsa, versione e il gruppo.\n\n\t\tIl formato predefinito \u00e8 YAML. Per modificare in JSON, specificare \"-o json\".\n\n\t\tIl flag --windows-line-endings pu\u00f2 essere utilizzato per forzare i fine linea Windows,\n\t\taltrimenti verr\u00e0 utilizzato il default per il sistema operativo.\n\n\t\tNel caso in cui si verifica un errore durante l'aggiornamento, verr\u00e0 creato un file temporaneo sul disco\n\t\tche contiene le modifiche non apportate. L'errore pi\u00f9 comune durante l'aggiornamento di una risorsa\n\t\t\u00e8 una modifica da pare di un altro editor della risorsa sul server. Quando questo si verifica, dovrai\n\t\tapplicare le modifiche alla versione pi\u00f9 recente della risorsa o aggiornare il tua copia\n\t\ttemporanea salvata per includere l'ultima versione delle risorse.\x00\n\t\tContrassegna il nodo come programmabile.\x00\n\t\tContrassegnare il nodo come non programmabile.\x00\n\t\tIn output codice di completamento shell output per la shell specificata (bash o zsh).\n\t\tIl codice di shell deve essere valorizzato per fornire completamento\n\t\tinterattivo dei comandi kubectl. Questo pu\u00f2 essere eseguito richiamandolo\n\t\tda .bash_profile.\n\n\t\tNota: questo richiede il framework di completamento bash, che non \u00e8 installato\n\t\tper impostazione predefinita su Mac. Questo pu\u00f2 essere installato utilizzando homebrew:\n\n\t\t $ brew install bash-completion\n\n\t\tUna volta installato, bash_completion deve essere valutato. Ci\u00f2 pu\u00f2 essere fatto aggiungendo la\n\t\tseguente riga al file .bash_profile\n\n\t\t $ source $(brew --prefix)/etc/bash_completion\n\n\t\tNota per gli utenti zsh: [1] i completamenti zsh sono supportati solo nelle versioni zsh> = 5.2\x00\n\t\tEseguire un rolling update del ReplicationController specificato.\n\n\t\tSostituisce il replication controller specificato con un nuovo replication controller aggiornando un pod alla volta per usare il\n\t\tnuovo PodTemplate. Il new-controller.json deve specificare lo stesso namespace del\n\t\tcontroller di replica esistente e sovrascrivere almeno una etichetta (comune) nella sua replicaSelector.\n\n\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_rollingupdate.svg)\x00\n\t\tSostituire una risorsa per nomefile o stdin.\n\n\t\tSono accettati i formati JSON e YAML. Se si sostituisce una risorsa esistente, \n\t\t\u00e8 necessario fornire la specifica completa delle risorse. Questo pu\u00f2 essere ottenuta da\n\n\t\t $ kubectl get TYPE NAME -o yaml\n\n\t\tFare riferimento ai modelli https://htmlpreview.github.io/?https://github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions.html per trovare se un campo \u00e8 mutevole.\x00\n\t\tImposta una nuova dimensione per Deployment, ReplicaSet, Replication Controller, o Job.\n\n\t\tScala consente anche agli utenti di specificare una o pi\u00f9 condizioni preliminari per l'azione della scala.\n\n\t\tSe --current-replicas o --resource-version sono specificate, viene convalidata prima di\n\t\ttentare scale, ed \u00e8 garantito che la precondizione vale quando\n\t\tscale viene inviata al server..\x00\n\t\tImposta le annotazioni dell'ultima-configurazione-applicata impostandola in modo che corrisponda al contenuto di un file.\n\t\tCi\u00f2 determina l'aggiornamento dell'ultima-configurazione-applicata come se 'kubectl apply -f ' fosse stato eseguito,\n\t\tsenza aggiornare altre parti dell'oggetto.\x00\n\t\tPer proxy tutti i kubernetes api e nient'altro, utilizzare:\n\n\t\t $ kubectl proxy --api-prefix=/\n\n\t\tPer proxy solo una parte dei kubernetes api e anche alcuni file static\n\n\t\t $ kubectl proxy --www=/my/files --www-prefix=/static/ --api-prefix=/api/\n\n\t\tQuanto sopra consente 'curl localhost:8001/api/v1/pods'.\n\n\t\tPer eseguire il proxy tutti i kubernetes api in una radice diversa, utilizzare:\n\n\t\t $ kubectl proxy --api-prefix=/custom/\n\n\t\tQuanto sopra ti permette 'curl localhost:8001/custom/api/v1/pods'\x00\n\t\tAggiorna i campi di una risorsa utilizzando la merge patch strategica\n\n\t\tSono accettati i formati JSON e YAML.\n\n\t\tSi prega di fare riferimento ai modelli in https://htmlpreview.github.io/?https://github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions.html per trovare se un campo \u00e8 mutevole.\x00\n\t\tAggiorna le label di una risorsa.\n\n\t\t* A label must begin with a letter or number, and may contain letters, numbers, hyphens, dots, and underscores, up to %[1]d characters.\n\t\t* If --overwrite is true, then existing labels can be overwritten, otherwise attempting to overwrite a label will result in an error.\n\t\t* If --resource-version is specified, then updates will use this resource version, otherwise the existing resource-version will be used.\x00\n\t\tAggiorna i marcatori su uno o pi\u00f9 nodi.\n\n\t\t* Un marcatore \u00e8 costituita da una chiave, un valore e un effetto. Come argomento qui, viene espresso come chiave = valore: effetto.\n\t\t* La chiave deve iniziare con una lettera o un numero e pu\u00f2 contenere lettere, numeri, trattini, punti e sottolineature, fino a% [1] d caratteri.\n\t\t* Il valore deve iniziare con una lettera o un numero e pu\u00f2 contenere lettere, numeri, trattini, punti e sottolineature, fino a% [2] d caratteri.\n\t\t* L'effetto deve essere NoSchedule, PreferNoSchedule o NoExecute.\n\t\t* Attualmente il marcatore pu\u00f2 essere applicato solo al nodo.\x00\n\t\tVisualizza le annotazioni dell'ultima-configurazione-applicata per tipo/nome o file.\n\n\t\tL'output predefinito verr\u00e0 stampato su stdout nel formato YAML. Si pu\u00f2 usare l'opzione -o\n\t\tPer cambiare il formato di output.\x00\n\t # !!!Nota importante!!!\n\t # Richiede che il binario 'tar' sia presente nel tuo contenitore\n\t # immagine. Se 'tar' non \u00e8 presente, 'kubectl cp' non riesce.\n\n\t # Copia /tmp/foo_dir directory locale in /tmp/bar_dir in un pod remoto nello spazio dei nomi predefinito\n\t\tkubectl cp /tmp/foo_dir :/tmp/bar_dir\n\n # Copia /tmp/foo file locale in /tmp/bar in un pod remoto in un contenitore specifico\n\t\tkubectl cp /tmp/foo :/tmp/bar -c \n\n\t\t# Copia /tmp/foo file locale in /tmp/bar in un pod remoto nello spazio dei nomi \n\t\tkubectl cp /tmp/foo /:/tmp/bar\n\n\t\t# Copia /tmp/foo da un pod remoto in /tmp/bar localmente\n\t\tkubectl cp /:/tmp/foo /tmp/bar\x00\n\t # Crea un nuovo secret TLS denominato tls-secret con la coppia di dati fornita:\n\t kubectl create secret tls tls-secret --cert=path/to/tls.cert --key=path/to/tls.key\x00\n\t # Crea un nuovo namespace denominato my-namespace\n\t kubectl create namespace my-namespace\x00\n\t # Crea un nuovo secret denominato my-secret con i tasti per ogni file nella barra delle cartelle\n\t kubectl create secret generic my-secret --from-file=path/to/bar\n\n\t # Crea un nuovo secret denominato my-secret con le chiavi specificate anzich\u00e9 i nomi sul disco\n\t kubectl create secret generic my-secret --from-file=ssh-privatekey=~/.ssh/id_rsa --from-file=ssh-publickey=~/.ssh/id_rsa.pub\n\n\t # Crea un nuovo secret denominato my-secret con key1 = supersecret e key2 = topsecret\n\t kubectl create secret generic my-secret --from-literal=key1=supersecret --from-literal=key2=topsecret\x00\n\t # Crea un nuovo service account denominato my-service-account\n\t kubectl create serviceaccount my-service-account\x00\n\t# Crea un nuovo servizio ExternalName denominato my-ns \n\tkubectl create service externalname my-ns --external-name bar.com\x00\n\tCrea un servizio ExternalName con il nome specificato.\n\n\tIl servizio ExternalName fa riferimento a un indirizzo DNS esterno \n\tsolo pod, che permetteranno agli autori delle applicazioni di utilizzare i servizi di riferimento\n\tche esistono fuori dalla piattaforma, su altri cluster, o localmente..\x00\n\tHelp fornisce assistenza per qualsiasi comando nell'applicazione.\n\tBasta digitare kubectl help [path to command] per i dettagli completi.\x00\n # Creare un nuovo servizio LoadBalancer denominato my-lbs\n kubectl create service loadbalancer my-lbs --tcp=5678:8080\x00\n # Creare un nuovo servizio clusterIP denominato my-cs\n kubectl create service clusterip my-cs --tcp=5678:8080\n\n # Creare un nuovo servizio clusterIP denominato my-cs (in modalit\u00e0 headless)\n kubectl create service clusterip my-cs --clusterip=\"None\"\x00\n # Crea una nuovo deployment chiamato my-dep che esegue l'immagine busybox.\n kubectl create deployment my-dep --image=busybox\x00\n # Creare un nuovo servizio nodeport denominato my-ns\n kubectl create service nodeport my-ns --tcp=5678:8080\x00\n # Dump dello stato corrente del cluster verso stdout\n kubectl cluster-info dump\n\n # Dump dello stato corrente del cluster verso /path/to/cluster-state\n kubectl cluster-info dump --output-directory=/path/to/cluster-state\n\n # Dump di tutti i namespaces verso stdout\n kubectl cluster-info dump --all-namespaces\n\n # Dump di un set di namespace verso /path/to/cluster-state\n kubectl cluster-info dump --namespaces default,kube-system --output-directory=/path/to/cluster-state\x00\n # Aggiorna il pod 'foo' con annotazione 'description'e il valore 'my frontend'.\n # Se la stessa annotazione \u00e8 impostata pi\u00f9 volte, verr\u00e0 applicato solo l'ultimo valore\n kubectl annotate pods foo description='my frontend'\n\n # Aggiorna un pod identificato per tipo e nome in \"pod.json\"\n kubectl annotate -f pod.json description='my frontend'\n\n # Aggiorna pod 'foo' con la annotazione 'description' e il valore 'my frontend running nginx', sovrascrivendo qualsiasi valore esistente.\n kubectl annotate --overwrite pods foo description='my frontend running nginx'\n\n # Aggiorna tutti i baccelli nel namespace\n kubectl annotate pods --all description='my frontend running nginx'\n\n # Aggiorna il pod 'foo' solo se la risorsa \u00e8 invariata dalla versione 1.\n kubectl annotate pods foo description='my frontend running nginx' --resource-version=1\n\n # Aggiorna il pod 'foo' rimuovendo un'annotazione denominata 'descrizione' se esiste.\n # Non richiede flag -overwrite.\n kubectl annotate pods foo description-\x00\n Crea un servizio LoadBalancer con il nome specificato.\x00\n Crea un servizio clusterIP con il nome specificato.\x00\n Creare un deployment con il nome specificato.\x00\n Creare un servizio nodeport con il nome specificato.\x00\n Dump delle informazioni di cluster idonee per il debug e la diagnostica di problemi di cluster. Per impostazione predefinita, tutto\n\u00a0\u00a0\u00a0\u00a0verso stdout. \u00c8 possibile specificare opzionalmente una directory con --output-directory. Se si specifica una directory, kubernetes \n creear\u00e0 un insieme di file in quella directory. Per impostazione predefinita, dumps solo i dati del namespace \"kube-system\", ma \u00e8\n possibile passare ad namespace diverso con il flag --namespaces o specificare --all-namespaces per il dump di tutti i namespace.\n\n\u00a0\u00a0\u00a0\u00a0 Il comando esegue dump anche dei log di tutti i pod del cluster, questi log vengono scaricati in directory differenti\n\u00a0\u00a0\u00a0\u00a0 basati sul namespace e sul nome del pod.\x00\n Visualizza gli indirizzi del master e dei servizi con label kubernetes.io/cluster-service=true\n\u00a0\u00a0Per ulteriore debug e diagnosticare i problemi di cluster, utilizzare 'kubectl cluster-info dump'.\x00Un insieme delimitato-da-virgole di quota scopes che devono corrispondere a ciascun oggetto gestito dalla quota.\x00Un insieme delimitato-da-virgola di coppie risorsa = quantit\u00e0 che definiscono un hard limit.\x00Un label selector da utilizzare per questo budget. Sono supportati solo i selettori equality-based selector.\x00Un selettore di label da utilizzare per questo servizio. Sono supportati solo equality-based selector. Se vuota (default) dedurre il selettore dal replication controller o replica set.)\x00Un calendario in formato Cron del lavoro che deve essere eseguito.\x00Indirizzo IP esterno aggiuntivo (non gestito da Kubernetes) da accettare per il servizio. Se questo IP viene indirizzato a un nodo, \u00e8 possibile accedere da questo IP in aggiunta al service IP generato.\x00Un override JSON inline per l'oggetto generato. Se questo non \u00e8 vuoto, viene utilizzato per ignorare l'oggetto generato. Richiede che l'oggetto fornisca un campo valido apiVersion.\x00Un override JSON inline per l'oggetto di servizio generato. Se questo non \u00e8 vuoto, viene utilizzato per ignorare l'oggetto generato. Richiede che l'oggetto fornisca un campo valido apiVersion. Utilizzato solo se --expose \u00e8 true.\x00Applica una configurazione risorsa per nomefile o stdin\x00Approva una richiesta di firma del certificato\x00Assegnare il proprio ClusterIP o impostare su 'None' per un servizio 'headless' (nessun bilanciamento del carico).\x00Collega a un container in esecuzione\x00Auto-scale a Deployment, ReplicaSet, o ReplicationController\x00ClusterIP da assegnare al servizio. Lasciare vuoto per allocare automaticamente o impostare su 'None' per creare un servizio headless.\x00ClusterRole a cui questo ClusterRoleBinding fa riferimento\x00ClusterRole a cui questo RoleBinding fa riferimento\x00Nome container che avr\u00e0 la sua immagine aggiornata. Soltanto rilevante quando --image \u00e8 specificato, altrimenti ignorato. Necessario quando si utilizza --image su un contenitore a pi\u00f9 contenitori\x00Convertire i file di configurazione tra diverse versioni APIs\x00Copiare file e directory da e verso i container.\x00Crea un ClusterRoleBinding per un ClusterRole particolare\x00Creare un servizio LoadBalancer.\x00Crea un servizio NodePort.\x00Crea un RoleBinding per un particolare Role o ClusterRole\x00Crea un secret TLS\x00Crea un servizio clusterIP.\x00Crea un configmap da un file locale, una directory o un valore letterale\x00Creare un deployment con il nome specificato.\x00Crea un namespace con il nome specificato\x00Crea un pod disruption budget con il nome specificato.\x00Crea una quota con il nome specificato.\x00Crea una risorsa per nome file o stdin\x00Crea un secret da utilizzare con un registro Docker\x00Crea un secret da un file locale, una directory o un valore letterale\x00Crea un secret utilizzando un subcommand specificato\x00Creare un account di servizio con il nome specificato\x00Crea un servizio utilizzando il subcommand specificato.\x00Crea un servizio ExternalName.\x00Elimina risorse selezionate per nomi di file, stdin, risorse e nomi, o per risorsa e selettore di label\x00Elimina il cluster specificato dal kubeconfig\x00Elimina il context specificato dal kubeconfig\x00Nega una richiesta di firma del certificato\x00Deprecated: spegne correttamente una risorsa per nome o nome file\x00Descrive uno o pi\u00f9 context\x00Visualizza l'utilizzo di risorse (CPU/Memoria) per nodo\x00Visualizza l'utilizzo di risorse (CPU/Memoria) per pod.\x00Visualizza l'utilizzo di risorse (CPU/Memoria).\x00Visualizza informazioni sul cluster\x00Mostra i cluster definiti nel kubeconfig\x00Visualizza le impostazioni merged di kubeconfig o un file kubeconfig specificato\x00Visualizza una o pi\u00f9 risorse\x00Visualizza il current-context\x00Documentazione delle risorse\x00Drain node in preparazione alla manutenzione\x00Dump di un sacco di informazioni pertinenti per il debug e la diagnosi\x00Modificare una risorsa sul server\x00Email per il registro Docker\x00Esegui un comando in un contenitore\x00Politica esplicita per il pull delle immagini container. Richiesto quando --image \u00e8 uguale all'immagine esistente, altrimenti ignorata.\x00Inoltra una o pi\u00f9 porte locali a un pod\x00Aiuto per qualsiasi comando\x00IP da assegnare al Load Balancer. Se vuota, un IP effimero verr\u00e0 creato e utilizzato (specifico per provider cloud).\x00Se non \u00e8 vuoto, impostare l'affinit\u00e0 di sessione per il servizio; Valori validi: 'None', 'ClientIP'\x00Se non \u00e8 vuoto, l'aggiornamento delle annotazioni avr\u00e0 successo solo se questa \u00e8 la resource-version corrente per l'oggetto. Valido solo quando si specifica una singola risorsa.\x00Se non vuoto, l'aggiornamento delle label avr\u00e0 successo solo se questa \u00e8 la resource-version corrente per l'oggetto. Valido solo quando si specifica una singola risorsa.\x00Immagine da utilizzare per aggiornare il replication controller. Deve essere diversa dall'immagine esistente (nuova immagine o nuovo tag immagine). Non pu\u00f2 essere utilizzata con --filename/-f\x00Gestisci un deployment rollout\x00Contrassegnare il nodo come programmabile\x00Contrassegnare il nodo come non programmabile\x00Imposta la risorsa indicata in pausa\x00Modificare le risorse del certificato.\x00Modifica i file kubeconfig\x00Nome o numero di porta nel container verso il quale il servizio deve dirigere il traffico. Opzionale.\x00Restituisce solo i log dopo una data specificata (RFC3339). Predefinito tutti i log. \u00c8 possibile utilizzare solo uno tra data-inizio/a-partire-da.\x00Codice di completamento shell di output per la shell specificata (bash o zsh)\x00Output dell'oggetto formattato con la versione del gruppo fornito (per esempio: 'extensions/v1beta1').)\x00Password per l'autenticazione al registro di Docker\x00Percorso certificato di chiave pubblica codificato PEM.\x00Percorso alla chiave privata associata a un certificato specificato.\x00Eseguire un rolling update del ReplicationController specificato\x00Prerequisito per la versione delle risorse. Richiede che la versione corrente delle risorse corrisponda a questo valore per scalare.\x00Stampa per client e server le informazioni sulla versione\x00Stampa l'elenco flag ereditati da tutti i comandi\x00Stampa i log per container in un pod\x00Sostituire una risorsa per nomefile o stdin\x00Riprendere una risorsa in pausa\x00Ruolo di riferimento per RoleBinding\x00Esegui una particolare immagine nel cluster\x00Eseguire un proxy al server Kubernetes API\x00Posizione del server per il Registro Docker\x00Imposta una nuova dimensione per Deployment, ReplicaSet, Replication Controller, o Job\x00Imposta caratteristiche specifiche sugli oggetti\x00Imposta l'annotazione dell'ultima-configurazione-applicata ad un oggetto live per abbinare il contenuto di un file.\x00Impostare il selettore di una risorsa\x00Imposta una voce cluster in kubeconfig\x00Imposta una voce context in kubeconfig\x00Imposta una voce utente in kubeconfig\x00Imposta un singolo valore in un file kubeconfig\x00Imposta il current-context in un file kubeconfig\x00Mostra i dettagli di una specifiche risorsa o un gruppo di risorse\x00Mostra lo stato del rollout\x00Sinonimo di --target-port\x00Prende un replication controller, service, deployment o un pod e lo espone come nuovo servizio Kubernetes\x00L'immagine per il container da eseguire.\x00La politica di pull dell'immagine per il container. Se lasciato vuoto, questo valore non verr\u00e0 specificato dal client e predefinito dal server\x00La chiave da utilizzare per distinguere tra due controller diversi, predefinito \"deployment\". Rilevante soltanto quando --image \u00e8 specificato, altrimenti ignorato\x00Il numero minimo o la percentuale di pod disponibili che questo budget richiede.\x00Il nome dell'oggetto appena creato.\x00Il nome dell'oggetto appena creato. Se non specificato, verr\u00e0 utilizzato il nome della risorsa di input.\x00Il nome del generatore API da utilizzare, si veda http://kubernetes.io/docs/user-guide/kubectl-conventions/#generators per un elenco.\x00Il nome del generatore API da utilizzare. Attualmente c'\u00e8 solo 1 generatore.\x00Il nome del generatore API da utilizzare. Ci sono 2 generatori: 'service/v1' e 'service/v2'. L'unica differenza tra loro \u00e8 che la porta di servizio in v1 \u00e8 denominata \"predefinita\", mentre viene lasciata unnamed in v2. Il valore predefinito \u00e8 'service/v2'.\x00Il nome del generatore da utilizzare per la creazione di un servizio. Utilizzato solo se --expose \u00e8 true\x00Il protocollo di rete per il servizio da creare. Il valore predefinito \u00e8 'TCP'.\x00La porta che il servizio deve servire. Copiato dalla risorsa esposta, se non specificata\x00La porta che questo contenitore espone. Se --expose \u00e8 true, questa \u00e8 anche la porta utilizzata dal servizio creato.\x00I limiti delle richieste di risorse per questo contenitore. Ad esempio, 'cpu=200m,memory=512Mi'. Si noti che i componenti lato server possono assegnare i limiti a seconda della configurazione del server, ad esempio intervalli di limiti.\x00La risorsa necessita di richieste di requisiti per questo pod. Ad esempio, 'cpu = 100m, memoria = 256Mi'. Si noti che i componenti lato server possono assegnare i requisiti a seconda della configurazione del server, ad esempio intervalli di limiti.\x00La politica di riavvio per questo Pod. Valori accettati [Always, OnFailure, Never]. Se impostato su 'Always' viene creato un deployment, se impostato su 'OnFailure' viene creato un job, se impostato su 'Never', viene creato un pod. Per questi ultimi due le - repliche devono essere 1. Predefinito 'Always', per CronJobs `Never`.\x00Tipo di segreto da creare\x00Digitare per questo servizio: ClusterIP, NodePort o LoadBalancer. Ppredefinito \u00e8 'ClusterIP'.\x00Annulla un precedente rollout\x00Annulla singolo valore in un file kubeconfig\x00Aggiornare campo/i risorsa utilizzando merge patch strategici\x00Aggiorna immagine di un pod template\x00Aggiorna richieste di risorse/limiti sugli oggetti con pod template\x00Aggiorna annotazioni di risorsa\x00Aggiorna label di una risorsa\x00Aggiorna i taints su uno o pi\u00f9 nodi\x00Nome utente per l'autenticazione nel registro Docker\x00Visualizza ultime annotazioni dell'ultima configurazione applicata per risorsa/oggetto\x00Visualizza la storia del rollout\x00Dove eseguire l'output dei file. Se vuota o '-' utilizza lo stdout, altrimenti crea una gerarchia di directory in quella directory\x00flag di riavvio finto)\x00nome esterno del servizio\x00Kubectl controlla il gestore cluster di Kubernetes\x00") func translationsKubectlIt_itLc_messagesK8sMoBytes() ([]byte, error) { return _translationsKubectlIt_itLc_messagesK8sMo, nil } func translationsKubectlIt_itLc_messagesK8sMo() (*asset, error) { bytes, err := translationsKubectlIt_itLc_messagesK8sMoBytes() if err != nil { return nil, err } info := bindataFileInfo{name: "translations/kubectl/it_IT/LC_MESSAGES/k8s.mo", size: 0, mode: os.FileMode(0), modTime: time.Unix(0, 0)} a := &asset{bytes: bytes, info: info} return a, nil } var _translationsKubectlIt_itLc_messagesK8sPo = []byte(`# Italian translation. # Copyright (C) 2017 # This file is distributed under the same license as the Kubernetes package. # FIRST AUTHOR evolution85@gmail.com, 2017. # msgid "" msgstr "" "Project-Id-Version: kubernetes\n" "Report-Msgid-Bugs-To: EMAIL\n" "POT-Creation-Date: 2017-03-14 21:32-0700\n" "PO-Revision-Date: 2017-08-28 15:20+0200\n" "Language: it_IT\n" "MIME-Version: 1.0\n" "Content-Type: text/plain; charset=UTF-8\n" "Content-Transfer-Encoding: 8bit\n" "Plural-Forms: nplurals=2; plural=(n != 1);\n" "Last-Translator: Luca Berton \n" "Language-Team: Luca Berton \n" "X-Generator: Poedit 1.8.7.1\n" "X-Poedit-SourceCharset: UTF-8\n" #: pkg/kubectl/cmd/create_clusterrolebinding.go:35 msgid "" "\n" "\t\t # Create a ClusterRoleBinding for user1, user2, and group1 using the " "cluster-admin ClusterRole\n" "\t\t kubectl create clusterrolebinding cluster-admin --clusterrole=cluster-" "admin --user=user1 --user=user2 --group=group1" msgstr "" "\n" "\t\t # Creare un ClusterRoleBinding per user1, user2 e group1 utilizzando il " "cluster-admin ClusterRole\n" "\t\t kubectl create clusterrolebinding cluster-admin --clusterrole=cluster-" "admin --user=user1 --user=user2 --group=group1" #: pkg/kubectl/cmd/create_rolebinding.go:35 msgid "" "\n" "\t\t # Create a RoleBinding for user1, user2, and group1 using the admin " "ClusterRole\n" "\t\t kubectl create rolebinding admin --clusterrole=admin --user=user1 --" "user=user2 --group=group1" msgstr "" "\n" "\t\t # Crea un RoleBinding per user1, user2, and group1 utilizzando l'admin " "ClusterRole\n" "\t\t kubectl create rolebinding admin --clusterrole=admin --user=user1 --" "user=user2 --group=group1" #: pkg/kubectl/cmd/create_configmap.go:44 msgid "" "\n" "\t\t # Create a new configmap named my-config based on folder bar\n" "\t\t kubectl create configmap my-config --from-file=path/to/bar\n" "\n" "\t\t # Create a new configmap named my-config with specified keys instead of " "file basenames on disk\n" "\t\t kubectl create configmap my-config --from-file=key1=/path/to/bar/file1." "txt --from-file=key2=/path/to/bar/file2.txt\n" "\n" "\t\t # Create a new configmap named my-config with key1=config1 and " "key2=config2\n" "\t\t kubectl create configmap my-config --from-literal=key1=config1 --from-" "literal=key2=config2" msgstr "" "\n" "\t\t # Crea un nuovo configmap denominato my-config in base alla cartella " "bar\n" "\t\t kubectl create configmap my-config --from-file=path/to/bar\n" "\n" "\t\t # Crea un nuovo configmap denominato my-config con le chiavi " "specificate anziché i nomi dei file su disco\n" "\t\t kubectl create configmap my-config --from-file=key1=/path/to/bar/file1." "txt --from-file=key2=/path/to/bar/file2.txt\n" "\n" "\t\t # Crea un nuovo configmap denominato my-config con key1 = config1 e " "key2 = config2\n" "\t\t kubectl create configmap my-config --from-literal=key1=config1 --from-" "literal=key2=config2" #: pkg/kubectl/cmd/create_secret.go:135 msgid "" "\n" "\t\t # If you don't already have a .dockercfg file, you can create a " "dockercfg secret directly by using:\n" "\t\t kubectl create secret docker-registry my-secret --docker-" "server=DOCKER_REGISTRY_SERVER --docker-username=DOCKER_USER --docker-" "password=DOCKER_PASSWORD --docker-email=DOCKER_EMAIL" msgstr "" "\n" "\t\t # Se non si dispone ancora di un file .dockercfg, è possibile creare un " "secret dockercfg direttamente utilizzando:\n" "\t\t kubectl create secret docker-registry my-secret --docker-" "server=DOCKER_REGISTRY_SERVER --docker-username=DOCKER_USER --docker-" "password=DOCKER_PASSWORD --docker-email=DOCKER_EMAIL" #: pkg/kubectl/cmd/top_node.go:65 msgid "" "\n" "\t\t # Show metrics for all nodes\n" "\t\t kubectl top node\n" "\n" "\t\t # Show metrics for a given node\n" "\t\t kubectl top node NODE_NAME" msgstr "" "\n" "\t\t # Mostra metriche per tutti i nodi\n" "\t\t kubectl top node\n" "\n" "\t\t # Mostra metriche per un determinato nodo\n" "\t\t kubectl top node NODE_NAME" #: pkg/kubectl/cmd/apply.go:84 msgid "" "\n" "\t\t# Apply the configuration in pod.json to a pod.\n" "\t\tkubectl apply -f ./pod.json\n" "\n" "\t\t# Apply the JSON passed into stdin to a pod.\n" "\t\tcat pod.json | kubectl apply -f -\n" "\n" "\t\t# Note: --prune is still in Alpha\n" "\t\t# Apply the configuration in manifest.yaml that matches label app=nginx " "and delete all the other resources that are not in the file and match label " "app=nginx.\n" "\t\tkubectl apply --prune -f manifest.yaml -l app=nginx\n" "\n" "\t\t# Apply the configuration in manifest.yaml and delete all the other " "configmaps that are not in the file.\n" "\t\tkubectl apply --prune -f manifest.yaml --all --prune-whitelist=core/v1/" "ConfigMap" msgstr "" "\n" "\t\t# Applica la configurazione pod.json a un pod.\n" "\t\tkubectl apply -f ./pod.json\n" "\n" "\t\t# Applicare il JSON passato in stdin a un pod.\n" "\t\tcat pod.json | kubectl apply -f -\n" "\n" "\t\t# Nota: --prune è ancora in in Alpha\n" "\t\t# Applica la configurazione manifest.yaml che corrisponde alla label app " "= nginx ed elimina tutte le altre risorse che non sono nel file e nella label " "corrispondente app = nginx.\n" "\t\tkubectl apply --prune -f manifest.yaml -l app=nginx\n" "\n" "\t\t# Applica la configurazione manifest.yaml ed elimina tutti gli altri " "configmaps non presenti nel file.\n" "\t\tkubectl apply --prune -f manifest.yaml --all --prune-whitelist=core/v1/" "ConfigMap" #: pkg/kubectl/cmd/autoscale.go:40 #, c-format msgid "" "\n" "\t\t# Auto scale a deployment \"foo\", with the number of pods between 2 and " "10, no target CPU utilization specified so a default autoscaling policy will " "be used:\n" "\t\tkubectl autoscale deployment foo --min=2 --max=10\n" "\n" "\t\t# Auto scale a replication controller \"foo\", with the number of pods " "between 1 and 5, target CPU utilization at 80%:\n" "\t\tkubectl autoscale rc foo --max=5 --cpu-percent=80" msgstr "" "\n" "\t\t# Auto scale un deployment \"foo\", con il numero di pod compresi tra 2 " "e 10, utilizzo della CPU target specificato in modo da utilizzare una " "politica di autoscaling predefinita:\n" "\t\tkubectl autoscale deployment foo --min=2 --max=10\n" "\n" "\t\t# Auto scale un controller di replica \"foo\", con il numero di pod " "compresi tra 1 e 5, utilizzo dell'utilizzo della CPU a 80%:\n" "\t\tkubectl autoscale rc foo --max=5 --cpu-percent=80" #: pkg/kubectl/cmd/convert.go:49 msgid "" "\n" "\t\t# Convert 'pod.yaml' to latest version and print to stdout.\n" "\t\tkubectl convert -f pod.yaml\n" "\n" "\t\t# Convert the live state of the resource specified by 'pod.yaml' to the " "latest version\n" "\t\t# and print to stdout in json format.\n" "\t\tkubectl convert -f pod.yaml --local -o json\n" "\n" "\t\t# Convert all files under current directory to latest version and create " "them all.\n" "\t\tkubectl convert -f . | kubectl create -f -" msgstr "" "\n" "\t\t# Converte 'pod.yaml' alla versione più recente e stampa in stdout.\n" "\t\tkubectl convert -f pod.yaml\n" "\n" "\t\t# Converte lo stato live della risorsa specificata da 'pod.yaml' nella " "versione più recente.\n" "\t\t# e stampa in stdout nel formato json.\n" "\t\tkubectl convert -f pod.yaml --local -o json\n" "\n" "\t\t# Converte tutti i file nella directory corrente alla versione più " "recente e li crea tutti.\n" "\t\tkubectl convert -f . | kubectl create -f -" #: pkg/kubectl/cmd/create_clusterrole.go:34 msgid "" "\n" "\t\t# Create a ClusterRole named \"pod-reader\" that allows user to perform " "\"get\", \"watch\" and \"list\" on pods\n" "\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --" "resource=pods\n" "\n" "\t\t# Create a ClusterRole named \"pod-reader\" with ResourceName specified\n" "\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --" "resource=pods --resource-name=readablepod" msgstr "" "\n" "\t\t# Crea un ClusterRole denominato \"pod-reader\" che consente all'utente " "di eseguire \"get\", \"watch\" e \"list\" sui pod\n" "\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --" "resource=pods\n" "\n" "\t\t# Crea un ClusterRole denominato \"pod-reader\" con ResourceName " "specificato\n" "\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --" "resource=pods --resource-name=readablepod" #: pkg/kubectl/cmd/create_role.go:41 msgid "" "\n" "\t\t# Create a Role named \"pod-reader\" that allows user to perform \"get\", " "\"watch\" and \"list\" on pods\n" "\t\tkubectl create role pod-reader --verb=get --verb=list --verb=watch --" "resource=pods\n" "\n" "\t\t# Create a Role named \"pod-reader\" with ResourceName specified\n" "\t\tkubectl create role pod-reader --verb=get --verg=list --verb=watch --" "resource=pods --resource-name=readablepod" msgstr "" "\n" "\t\t# Crea un ruolo denominato \"pod-reader\" che consente all'utente di " "eseguire \"get\", \"watch\" e \"list\" sui pod\n" "\t\tkubectl create role pod-reader --verb=get --verb=list --verb=watch --" "resource=pods\n" "\n" "\t\t# Crea un ruolo denominato \"pod-reader\" con ResourceName specificato\n" "\t\tkubectl create role pod-reader --verb=get --verg=list --verb=watch --" "resource=pods --resource-name=readablepod" #: pkg/kubectl/cmd/create_quota.go:35 msgid "" "\n" "\t\t# Create a new resourcequota named my-quota\n" "\t\tkubectl create quota my-quota --hard=cpu=1,memory=1G,pods=2,services=3," "replicationcontrollers=2,resourcequotas=1,secrets=5," "persistentvolumeclaims=10\n" "\n" "\t\t# Create a new resourcequota named best-effort\n" "\t\tkubectl create quota best-effort --hard=pods=100 --scopes=BestEffort" msgstr "" "\n" "\t\t# Crea una nuova resourcequota chiamata my-quota\n" "\t\tkubectl create quota my-quota --hard=cpu=1,memory=1G,pods=2,services=3," "replicationcontrollers=2,resourcequotas=1,secrets=5," "persistentvolumeclaims=10\n" "\n" "\t\t# Creare una nuova resourcequota denominata best-effort\n" "\t\tkubectl create quota best-effort --hard=pods=100 --scopes=BestEffort" #: pkg/kubectl/cmd/create_pdb.go:35 #, c-format msgid "" "\n" "\t\t# Create a pod disruption budget named my-pdb that will select all pods " "with the app=rails label\n" "\t\t# and require at least one of them being available at any point in time.\n" "\t\tkubectl create poddisruptionbudget my-pdb --selector=app=rails --min-" "available=1\n" "\n" "\t\t# Create a pod disruption budget named my-pdb that will select all pods " "with the app=nginx label\n" "\t\t# and require at least half of the pods selected to be available at any " "point in time.\n" "\t\tkubectl create pdb my-pdb --selector=app=nginx --min-available=50%" msgstr "" "\n" "\t\t# Crea un pod disruption budget chiamato my-pdb che seleziona tutti i pod " "con label app = rail\n" "\t\t# e richiede che almeno uno di essi sia disponibile in qualsiasi " "momento.\n" "\t\tkubectl create poddisruptionbudget my-pdb --selector=app=rails --min-" "available=1\n" "\n" "\t\t# Crea un pod disruption budget con nome my-pdb che seleziona tutti i pod " "con label app = nginx \n" "\t\t# e richiede che almeno la metà dei pod selezionati sia disponibile in " "qualsiasi momento.\n" "\t\tkubectl create pdb my-pdb --selector=app=nginx --min-available=50%" #: pkg/kubectl/cmd/create.go:47 msgid "" "\n" "\t\t# Create a pod using the data in pod.json.\n" "\t\tkubectl create -f ./pod.json\n" "\n" "\t\t# Create a pod based on the JSON passed into stdin.\n" "\t\tcat pod.json | kubectl create -f -\n" "\n" "\t\t# Edit the data in docker-registry.yaml in JSON using the v1 API format " "then create the resource using the edited data.\n" "\t\tkubectl create -f docker-registry.yaml --edit --output-version=v1 -o json" msgstr "" "\n" "\t\t# Crea un pod utilizzando i dati in pod.json.\n" "\t\tkubectl create -f ./pod.json\n" "\n" "\t\t# Crea un pod basato sul JSON passato in stdin.\n" "\t\tcat pod.json | kubectl create -f -\n" "\n" "\t\t# Modifica i dati in docker-registry.yaml in JSON utilizzando il formato " "API v1 quindi creare la risorsa utilizzando i dati modificati.\n" "\t\tkubectl create -f docker-registry.yaml --edit --output-version=v1 -o json" #: pkg/kubectl/cmd/expose.go:53 msgid "" "\n" "\t\t# Create a service for a replicated nginx, which serves on port 80 and " "connects to the containers on port 8000.\n" "\t\tkubectl expose rc nginx --port=80 --target-port=8000\n" "\n" "\t\t# Create a service for a replication controller identified by type and " "name specified in \"nginx-controller.yaml\", which serves on port 80 and " "connects to the containers on port 8000.\n" "\t\tkubectl expose -f nginx-controller.yaml --port=80 --target-port=8000\n" "\n" "\t\t# Create a service for a pod valid-pod, which serves on port 444 with the " "name \"frontend\"\n" "\t\tkubectl expose pod valid-pod --port=444 --name=frontend\n" "\n" "\t\t# Create a second service based on the above service, exposing the " "container port 8443 as port 443 with the name \"nginx-https\"\n" "\t\tkubectl expose service nginx --port=443 --target-port=8443 --name=nginx-" "https\n" "\n" "\t\t# Create a service for a replicated streaming application on port 4100 " "balancing UDP traffic and named 'video-stream'.\n" "\t\tkubectl expose rc streamer --port=4100 --protocol=udp --name=video-" "stream\n" "\n" "\t\t# Create a service for a replicated nginx using replica set, which serves " "on port 80 and connects to the containers on port 8000.\n" "\t\tkubectl expose rs nginx --port=80 --target-port=8000\n" "\n" "\t\t# Create a service for an nginx deployment, which serves on port 80 and " "connects to the containers on port 8000.\n" "\t\tkubectl expose deployment nginx --port=80 --target-port=8000" msgstr "" "\n" "\t\t# Crea un servizio per un nginx replicato, che serve nella porta 80 e si " "collega ai container sulla porta 8000.\n" "\t\tkubectl expose rc nginx --port=80 --target-port=8000\n" "\n" "\t\t# Crea un servizio per un controller di replica identificato per tipo e " "nome specificato in \"nginx-controller.yaml\", che serve nella porta 80 e si " "collega ai container sulla porta 8000.\n" "\t\tkubectl expose -f nginx-controller.yaml --port=80 --target-port=8000\n" "\n" "\t\t# Crea un servizio per un pod valid-pod, che serve nella porta 444 con il " "nome \"frontend\"\n" "\t\tkubectl expose pod valid-pod --port=444 --name=frontend\n" "\n" "\t\t# Crea un secondo servizio basato sul servizio sopra, esponendo la porta " "container 8443 come porta 443 con il nome \"nginx-https\"\n" "\t\tkubectl expose service nginx --port=443 --target-port=8443 --name=nginx-" "https\n" "\n" "\t\t# Crea un servizio per un'applicazione di replica in porta 4100 che " "bilanci il traffico UDP e denominato \"video stream\".\n" "\t\tkubectl expose rc streamer --port=4100 --protocol=udp --name=video-" "stream\n" "\n" "\t\t# Crea un servizio per un nginx replicato utilizzando l'insieme di " "replica, che serve nella porta 80 e si collega ai contenitori sulla porta " "8000.\n" "\t\tkubectl expose rs nginx --port=80 --target-port=8000\n" "\n" "\t\t# Crea un servizio per una distribuzione di nginx, che serve nella porta " "80 e si collega ai contenitori della porta 8000.\n" "\t\tkubectl expose deployment nginx --port=80 --target-port=8000" #: pkg/kubectl/cmd/delete.go:68 msgid "" "\n" "\t\t# Delete a pod using the type and name specified in pod.json.\n" "\t\tkubectl delete -f ./pod.json\n" "\n" "\t\t# Delete a pod based on the type and name in the JSON passed into stdin.\n" "\t\tcat pod.json | kubectl delete -f -\n" "\n" "\t\t# Delete pods and services with same names \"baz\" and \"foo\"\n" "\t\tkubectl delete pod,service baz foo\n" "\n" "\t\t# Delete pods and services with label name=myLabel.\n" "\t\tkubectl delete pods,services -l name=myLabel\n" "\n" "\t\t# Delete a pod with minimal delay\n" "\t\tkubectl delete pod foo --now\n" "\n" "\t\t# Force delete a pod on a dead node\n" "\t\tkubectl delete pod foo --grace-period=0 --force\n" "\n" "\t\t# Delete all pods\n" "\t\tkubectl delete pods --all" msgstr "" "\n" "\t\t# Elimina un pod utilizzando il tipo e il nome specificati in pod.json.\n" "\t\tkubectl delete -f ./pod.json\n" "\n" "\t\t# Elimina un pod in base al tipo e al nome del JSON passato in stdin.\n" "\t\tcat pod.json | kubectl delete -f -\n" "\n" "\t\t# Elimina i baccelli ei servizi con gli stessi nomi \"baz\" e \"foo\"\n" "\t\tkubectl delete pod,service baz foo\n" "\n" "\t\t# Elimina i baccelli ei servizi con il nome dell'etichetta = myLabel.\n" "\t\tkubectl delete pods,services -l name=myLabel\n" "\n" "\t\t# Eliminare un pod con un ritardo minimo\n" "\t\tkubectl delete pod foo --now\n" "\n" "\t\t# Forza elimina un pod in un nodo morto\n" "\t\tkubectl delete pod foo --grace-period=0 --force\n" "\n" "\t\t# Elimina tutti i pod\n" "\t\tkubectl delete pods --all" #: pkg/kubectl/cmd/describe.go:54 msgid "" "\n" "\t\t# Describe a node\n" "\t\tkubectl describe nodes kubernetes-node-emt8.c.myproject.internal\n" "\n" "\t\t# Describe a pod\n" "\t\tkubectl describe pods/nginx\n" "\n" "\t\t# Describe a pod identified by type and name in \"pod.json\"\n" "\t\tkubectl describe -f pod.json\n" "\n" "\t\t# Describe all pods\n" "\t\tkubectl describe pods\n" "\n" "\t\t# Describe pods by label name=myLabel\n" "\t\tkubectl describe po -l name=myLabel\n" "\n" "\t\t# Describe all pods managed by the 'frontend' replication controller (rc-" "created pods\n" "\t\t# get the name of the rc as a prefix in the pod the name).\n" "\t\tkubectl describe pods frontend" msgstr "" "\n" "\t\t# Descrive un nodo\n" "\t\tkubectl describe nodes kubernetes-node-emt8.c.myproject.internal\n" "\n" "\t\t# Descrive un pod\n" "\t\tkubectl describe pods/nginx\n" "\n" "\t\t# Descrive un pod identificato da tipo e nome in \"pod.json\"\n" "\t\tkubectl describe -f pod.json\n" "\n" "\t\t# Descrive tutti i pod\n" "\t\tkubectl describe pods\n" "\n" "\t\t# Descrive i pod con label name=myLabel\n" "\t\tkubectl describe po -l name=myLabel\n" "\n" "\t\t# Descrivere tutti i pod gestiti dal controller di replica \"frontend" "\" (rc-created pods\n" "\t\t# ottiene il nome del rc come un prefisso del nome pod).\n" "\t\tkubectl describe pods frontend" #: pkg/kubectl/cmd/drain.go:165 msgid "" "\n" "\t\t# Drain node \"foo\", even if there are pods not managed by a " "ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet on it.\n" "\t\t$ kubectl drain foo --force\n" "\n" "\t\t# As above, but abort if there are pods not managed by a " "ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet, and use a " "grace period of 15 minutes.\n" "\t\t$ kubectl drain foo --grace-period=900" msgstr "" "\n" "\t\t# Drain node \"foo\", anche se ci sono i baccelli non gestiti da " "ReplicationController, ReplicaSet, Job, DaemonSet o StatefulSet su di esso.\n" "\t\t$ kubectl drain foo --force\n" "\n" "\t\t# Come sopra, ma interrompere se ci sono i baccelli non gestiti da " "ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet, e " "utilizzare un periodo di grazia di 15 minuti.\n" "\t\t$ kubectl drain foo --grace-period=900" #: pkg/kubectl/cmd/edit.go:80 msgid "" "\n" "\t\t# Edit the service named 'docker-registry':\n" "\t\tkubectl edit svc/docker-registry\n" "\n" "\t\t# Use an alternative editor\n" "\t\tKUBE_EDITOR=\"nano\" kubectl edit svc/docker-registry\n" "\n" "\t\t# Edit the job 'myjob' in JSON using the v1 API format:\n" "\t\tkubectl edit job.v1.batch/myjob -o json\n" "\n" "\t\t# Edit the deployment 'mydeployment' in YAML and save the modified config " "in its annotation:\n" "\t\tkubectl edit deployment/mydeployment -o yaml --save-config" msgstr "" "\n" "\t\t# Modifica il servizio denominato 'docker-registry':\n" "\t\tkubectl edit svc/docker-registry\n" "\n" "\t\t# Usa un editor alternativo\n" "\t\tKUBE_EDITOR=\"nano\" kubectl edit svc/docker-registry\n" "\n" "\t\t# Modifica il lavoro 'myjob' in JSON utilizzando il formato API v1:\n" "\t\tkubectl edit job.v1.batch/myjob -o json\n" "\n" "\t\t# Modifica la distribuzione 'mydeployment' in YAML e salvare la " "configurazione modificata nella sua annotazione:\n" "\t\tkubectl edit deployment/mydeployment -o yaml --save-config" #: pkg/kubectl/cmd/exec.go:41 msgid "" "\n" "\t\t# Get output from running 'date' from pod 123456-7890, using the first " "container by default\n" "\t\tkubectl exec 123456-7890 date\n" "\n" "\t\t# Get output from running 'date' in ruby-container from pod 123456-7890\n" "\t\tkubectl exec 123456-7890 -c ruby-container date\n" "\n" "\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container " "from pod 123456-7890\n" "\t\t# and sends stdout/stderr from 'bash' back to the client\n" "\t\tkubectl exec 123456-7890 -c ruby-container -i -t -- bash -il" msgstr "" "\n" "\t\t# Ottieni l'output dalla 'data' di esecuzione del pod 123456-7890, " "utilizzando il primo contenitore per impostazione predefinita\n" "\t\tkubectl exec 123456-7890 date\n" "\n" "\t\t# Ottieni l'output dalla data di esecuzione in ruby-container del pod " "123456-7890\n" "\t\tkubectl exec 123456-7890 -c ruby-container date\n" "\n" "\t\t# Passare alla modalità raw terminal, invia stdin a 'bash' in ruby-" "container del pod 123456-7890\n" "\t\t# and sends stdout/stderr from 'bash' back to the client\n" "\t\tkubectl exec 123456-7890 -c ruby-container -i -t -- bash -il" #: pkg/kubectl/cmd/attach.go:42 msgid "" "\n" "\t\t# Get output from running pod 123456-7890, using the first container by " "default\n" "\t\tkubectl attach 123456-7890\n" "\n" "\t\t# Get output from ruby-container from pod 123456-7890\n" "\t\tkubectl attach 123456-7890 -c ruby-container\n" "\n" "\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container " "from pod 123456-7890\n" "\t\t# and sends stdout/stderr from 'bash' back to the client\n" "\t\tkubectl attach 123456-7890 -c ruby-container -i -t\n" "\n" "\t\t# Get output from the first pod of a ReplicaSet named nginx\n" "\t\tkubectl attach rs/nginx\n" "\t\t" msgstr "" "\n" "\t\t# Ottieni l'output dal pod 123456-7890 in esecuzione, utilizzando il " "primo contenitore per impostazione predefinita\n" "\t\tkubectl attach 123456-7890\n" "\n" "\t\t# Ottieni l'output dal ruby-container del pod 123456-7890\n" "\t\tkubectl attach 123456-7890 -c ruby-container\n" "\n" "\t\t# Passa alla modalità raw terminal, invia stdin a 'bash' in ruby-" "container del pod 123456-7890\n" "\t\t# e invia stdout/stderr da 'bash' al client\n" "\t\tkubectl attach 123456-7890 -c ruby-container -i -t\n" "\n" "\t\t# Ottieni l'output dal primo pod di una ReplicaSet denominata nginx\n" "\t\tkubectl attach rs/nginx\n" "\t\t" #: pkg/kubectl/cmd/explain.go:39 msgid "" "\n" "\t\t# Get the documentation of the resource and its fields\n" "\t\tkubectl explain pods\n" "\n" "\t\t# Get the documentation of a specific field of a resource\n" "\t\tkubectl explain pods.spec.containers" msgstr "" "\n" "\t\t# Ottieni la documentazione della risorsa e i relativi campi\n" "\t\tkubectl explain pods\n" "\n" "\t\t# Ottieni la documentazione di un campo specifico di una risorsa\n" "\t\tkubectl explain pods.spec.containers" #: pkg/kubectl/cmd/completion.go:65 msgid "" "\n" "\t\t# Install bash completion on a Mac using homebrew\n" "\t\tbrew install bash-completion\n" "\t\tprintf \"\n" "# Bash completion support\n" "source $(brew --prefix)/etc/bash_completion\n" "\" >> $HOME/.bash_profile\n" "\t\tsource $HOME/.bash_profile\n" "\n" "\t\t# Load the kubectl completion code for bash into the current shell\n" "\t\tsource <(kubectl completion bash)\n" "\n" "\t\t# Write bash completion code to a file and source if from .bash_profile\n" "\t\tkubectl completion bash > ~/.kube/completion.bash.inc\n" "\t\tprintf \"\n" "# Kubectl shell completion\n" "source '$HOME/.kube/completion.bash.inc'\n" "\" >> $HOME/.bash_profile\n" "\t\tsource $HOME/.bash_profile\n" "\n" "\t\t# Load the kubectl completion code for zsh[1] into the current shell\n" "\t\tsource <(kubectl completion zsh)" msgstr "" "\n" "\t\t# Installa il completamento di bash su un Mac utilizzando homebrew\n" "\t\tbrew install bash-completion\n" "\t\tprintf \"\n" "# Bash completion support\n" "source $(brew --prefix)/etc/bash_completion\n" "\" >> $HOME/.bash_profile\n" "\t\tsource $HOME/.bash_profile\n" "\n" "\t\t# Carica il codice di completamento kubectl per bash nella shell " "corrente\n" "\t\tsource <(kubectl completion bash)\n" "\n" "\t\t# Scrive il codice di completamento bash in un file e lo carica da ." "bash_profile\n" "\t\tkubectl completion bash > ~/.kube/completion.bash.inc\n" "\t\tprintf \"\n" "# Kubectl shell completion\n" "source '$HOME/.kube/completion.bash.inc'\n" "\" >> $HOME/.bash_profile\n" "\t\tsource $HOME/.bash_profile\n" "\n" "\t\t# Carica il codice di completamento kubectl per zsh [1] nella shell " "corrente\n" "\t\tsource <(kubectl completion zsh)" #: pkg/kubectl/cmd/get.go:64 msgid "" "\n" "\t\t# List all pods in ps output format.\n" "\t\tkubectl get pods\n" "\n" "\t\t# List all pods in ps output format with more information (such as node " "name).\n" "\t\tkubectl get pods -o wide\n" "\n" "\t\t# List a single replication controller with specified NAME in ps output " "format.\n" "\t\tkubectl get replicationcontroller web\n" "\n" "\t\t# List a single pod in JSON output format.\n" "\t\tkubectl get -o json pod web-pod-13je7\n" "\n" "\t\t# List a pod identified by type and name specified in \"pod.yaml\" in " "JSON output format.\n" "\t\tkubectl get -f pod.yaml -o json\n" "\n" "\t\t# Return only the phase value of the specified pod.\n" "\t\tkubectl get -o template pod/web-pod-13je7 --template={{.status.phase}}\n" "\n" "\t\t# List all replication controllers and services together in ps output " "format.\n" "\t\tkubectl get rc,services\n" "\n" "\t\t# List one or more resources by their type and names.\n" "\t\tkubectl get rc/web service/frontend pods/web-pod-13je7\n" "\n" "\t\t# List all resources with different types.\n" "\t\tkubectl get all" msgstr "" "\n" "\t\t# Elenca tutti i pod in formato output ps.\n" "\t\tkubectl get pods\n" "\n" "\t\t# Elenca tutti i pod in formato output ps con maggiori informazioni (ad " "esempio il nome del nodo).\n" "\t\tkubectl get pods -o wide\n" "\n" "\t\t# Elenca un controller di replica singolo con NAME specificato nel " "formato di output ps.\n" "\t\tkubectl get replicationcontroller web\n" "\n" "\t\t# Elenca un singolo pod nel formato di uscita JSON.\n" "\t\tkubectl get -o json pod web-pod-13je7\n" "\n" "\t\t# Elenca un pod identificato per tipo e nome specificato in \"pod.yaml\" " "nel formato di uscita JSON.\n" "\t\tkubectl get -f pod.yaml -o json\n" "\n" "\t\t# Restituisce solo il valore di fase del pod specificato.\n" "\t\tkubectl get -o template pod/web-pod-13je7 --template={{.status.phase}}\n" "\n" "\t\t# Elenca tutti i controller e servizi di replica insieme in formato " "output ps.\n" "\t\tkubectl get rc,services\n" "\n" "\t\t# Elenca una o più risorse per il tipo e per i nomi.\n" "\t\tkubectl get rc/web service/frontend pods/web-pod-13je7\n" "\n" "\t\t# Elenca tutte le risorse con tipi diversi.\n" "\t\tkubectl get all" #: pkg/kubectl/cmd/portforward.go:53 msgid "" "\n" "\t\t# Listen on ports 5000 and 6000 locally, forwarding data to/from ports " "5000 and 6000 in the pod\n" "\t\tkubectl port-forward mypod 5000 6000\n" "\n" "\t\t# Listen on port 8888 locally, forwarding to 5000 in the pod\n" "\t\tkubectl port-forward mypod 8888:5000\n" "\n" "\t\t# Listen on a random port locally, forwarding to 5000 in the pod\n" "\t\tkubectl port-forward mypod :5000\n" "\n" "\t\t# Listen on a random port locally, forwarding to 5000 in the pod\n" "\t\tkubectl port-forward mypod 0:5000" msgstr "" "\n" "\t\t# Ascolta localmente le porte 5000 e 6000, inoltrando i dati da/verso le " "porte 5000 e 6000 nel pod\n" "\t\tkubectl port-forward mypod 5000 6000\n" "\n" "\t\t# Ascolta localmente la porta 8888, inoltra a 5000 nel pod\n" "\t\tkubectl port-forward mypod 8888:5000\n" "\n" "\t\t# Ascolta localmente una porta casuale, inoltra a 5000 nel pod\n" "\t\tkubectl port-forward mypod :5000\n" "\n" "\t\t# Ascolta localmente una porta casuale, inoltra a 5000 nel pod\n" "\t\tkubectl port-forward mypod 0:5000" #: pkg/kubectl/cmd/drain.go:118 msgid "" "\n" "\t\t# Mark node \"foo\" as schedulable.\n" "\t\t$ kubectl uncordon foo" msgstr "" "\n" "\t\t# Segna il nodo \"foo\" come programmabile.\n" "\t\t$ Kubectl uncordon foo" #: pkg/kubectl/cmd/drain.go:93 msgid "" "\n" "\t\t# Mark node \"foo\" as unschedulable.\n" "\t\tkubectl cordon foo" msgstr "" "\n" "\t\t# Segna il nodo \"foo\" come non programmabile.\n" "\t\tkubectl cordon foo" #: pkg/kubectl/cmd/patch.go:66 msgid "" "\n" "\t\t# Partially update a node using strategic merge patch\n" "\t\tkubectl patch node k8s-node-1 -p '{\"spec\":{\"unschedulable\":true}}'\n" "\n" "\t\t# Partially update a node identified by the type and name specified in " "\"node.json\" using strategic merge patch\n" "\t\tkubectl patch -f node.json -p '{\"spec\":{\"unschedulable\":true}}'\n" "\n" "\t\t# Update a container's image; spec.containers[*].name is required because " "it's a merge key\n" "\t\tkubectl patch pod valid-pod -p '{\"spec\":{\"containers\":[{\"name\":" "\"kubernetes-serve-hostname\",\"image\":\"new image\"}]}}'\n" "\n" "\t\t# Update a container's image using a json patch with positional arrays\n" "\t\tkubectl patch pod valid-pod --type='json' -p='[{\"op\": \"replace\", " "\"path\": \"/spec/containers/0/image\", \"value\":\"new image\"}]'" msgstr "" "\n" "\t\t# Aggiorna parzialmente un nodo utilizzando merge patch strategica\n" "\t\tkubectl patch node k8s-node-1 -p '{\"spec\":{\"unschedulable\":true}}'\n" "\n" "\t\t# Aggiorna parzialmente un nodo identificato dal tipo e dal nome " "specificato in \"node.json\" utilizzando merge patch strategica\n" "\t\tkubectl patch -f node.json -p '{\"spec\":{\"unschedulable\":true}}'\n" "\n" "\t\t# Aggiorna l'immagine di un contenitore; spec.containers [*]. name è " "richiesto perché è una chiave di fusione\n" "\t\tkubectl patch pod valid-pod -p '{\"spec\":{\"containers\":[{\"name\":" "\"kubernetes-serve-hostname\",\"image\":\"new image\"}]}}'\n" "\n" "\t\t# Aggiorna l'immagine di un contenitore utilizzando una patch json con " "array posizionali\n" "\t\tkubectl patch pod valid-pod --type='json' -p='[{\"op\": \"replace\", " "\"path\": \"/spec/containers/0/image\", \"value\":\"new image\"}]'" #: pkg/kubectl/cmd/options.go:29 msgid "" "\n" "\t\t# Print flags inherited by all commands\n" "\t\tkubectl options" msgstr "" "\n" "\t\t# Stampa i flag ereditati da tutti i comandi\n" "\t\tkubectl options" #: pkg/kubectl/cmd/clusterinfo.go:41 msgid "" "\n" "\t\t# Print the address of the master and cluster services\n" "\t\tkubectl cluster-info" msgstr "" "\n" "\t\t# Stampa l'indirizzo dei servizi master e cluster\n" "\t\tkubectl cluster-info" #: pkg/kubectl/cmd/version.go:32 msgid "" "\n" "\t\t# Print the client and server versions for the current context\n" "\t\tkubectl version" msgstr "" "\n" "\t\t# Stampa le versioni client e server per il current context\n" "\t\tkubectl version" #: pkg/kubectl/cmd/apiversions.go:34 msgid "" "\n" "\t\t# Print the supported API versions\n" "\t\tkubectl api-versions" msgstr "" "\n" "\t\t# Stampa le versioni API supportate\n" "\t\tkubectl api-versions" #: pkg/kubectl/cmd/replace.go:50 msgid "" "\n" "\t\t# Replace a pod using the data in pod.json.\n" "\t\tkubectl replace -f ./pod.json\n" "\n" "\t\t# Replace a pod based on the JSON passed into stdin.\n" "\t\tcat pod.json | kubectl replace -f -\n" "\n" "\t\t# Update a single-container pod's image version (tag) to v4\n" "\t\tkubectl get pod mypod -o yaml | sed 's/\\(image: myimage\\):.*$/:v4/' | " "kubectl replace -f -\n" "\n" "\t\t# Force replace, delete and then re-create the resource\n" "\t\tkubectl replace --force -f ./pod.json" msgstr "" "\n" "\t\t# Sostituire un pod utilizzando i dati in pod.json.\n" "\t\tkubectl replace -f ./pod.json\n" "\n" "\t\t# Sostituire un pod usando il JSON passato da stdin.\n" "\t\tcat pod.json | kubectl replace -f -\n" "\n" "\t\t# Aggiorna la versione dell'immagine (tag) di un singolo container di pod " "a v4\n" "\t\tkubectl get pod mypod -o yaml | sed 's/\\(image: myimage\\):.*$/:v4/' | " "kubectl replace -f -\n" "\n" "\t\t# Forza la sostituzione, cancellazione e quindi ricreare la risorsa\n" "\t\tkubectl replace --force -f ./pod.json" #: pkg/kubectl/cmd/logs.go:40 msgid "" "\n" "\t\t# Return snapshot logs from pod nginx with only one container\n" "\t\tkubectl logs nginx\n" "\n" "\t\t# Return snapshot logs for the pods defined by label app=nginx\n" "\t\tkubectl logs -lapp=nginx\n" "\n" "\t\t# Return snapshot of previous terminated ruby container logs from pod " "web-1\n" "\t\tkubectl logs -p -c ruby web-1\n" "\n" "\t\t# Begin streaming the logs of the ruby container in pod web-1\n" "\t\tkubectl logs -f -c ruby web-1\n" "\n" "\t\t# Display only the most recent 20 lines of output in pod nginx\n" "\t\tkubectl logs --tail=20 nginx\n" "\n" "\t\t# Show all logs from pod nginx written in the last hour\n" "\t\tkubectl logs --since=1h nginx\n" "\n" "\t\t# Return snapshot logs from first container of a job named hello\n" "\t\tkubectl logs job/hello\n" "\n" "\t\t# Return snapshot logs from container nginx-1 of a deployment named " "nginx\n" "\t\tkubectl logs deployment/nginx -c nginx-1" msgstr "" "\n" "\t\t# Restituisce snapshot log dal pod nginx con un solo container\n" "\t\tkubectl logs nginx\n" "\n" "\t\t# Restituisce snapshot log dei pod definiti dalla label app=nginx\n" "\t\tkubectl logs -lapp=nginx\n" "\n" "\t\t# Restituisce snapshot log del container ruby terminato nel pod web-1\n" "\t\tkubectl logs -p -c ruby web-1\n" "\n" "\t\t# Iniziare a trasmettere i log del contenitore ruby nel pod web-1\n" "\t\tkubectl logs -f -c ruby web-1\n" "\n" "\t\t# Visualizza solo le ultime 20 righe di output del pod nginx\n" "\t\tkubectl logs --tail=20 nginx\n" "\n" "\t\t# Mostra tutti i log del pod nginx scritti nell'ultima ora\n" "\t\tkubectl logs --since=1h nginx\n" "\n" "\t\t# Restituisce snapshot log dal primo contenitore di un lavoro chiamato " "hello\n" "\t\tkubectl logs job/hello\n" "\n" "\t\t# Restituisce snapshot logs del container nginx-1 del deployment chiamato " "nginx\n" "\t\tkubectl logs deployment/nginx -c nginx-1" #: pkg/kubectl/cmd/proxy.go:53 msgid "" "\n" "\t\t# Run a proxy to kubernetes apiserver on port 8011, serving static " "content from ./local/www/\n" "\t\tkubectl proxy --port=8011 --www=./local/www/\n" "\n" "\t\t# Run a proxy to kubernetes apiserver on an arbitrary local port.\n" "\t\t# The chosen port for the server will be output to stdout.\n" "\t\tkubectl proxy --port=0\n" "\n" "\t\t# Run a proxy to kubernetes apiserver, changing the api prefix to k8s-" "api\n" "\t\t# This makes e.g. the pods api available at localhost:8001/k8s-api/v1/" "pods/\n" "\t\tkubectl proxy --api-prefix=/k8s-api" msgstr "" "\n" "\t\t# Esegui un proxy verso kubernetes apiserver sulla porta 8011, che " "fornisce contenuti statici da ./local/www/\n" "\t\tkubectl proxy --port=8011 --www=./local/www/\n" "\n" "\t\t# Esegui un proxy verso kubernetes apiserver su una porta locale " "arbitraria.\n" "\t\t# La porta selezionata per il server verrà inviata a stdout.\n" "\t\tkubectl proxy --port=0\n" "\n" "\t\t# Esegui un proxy verso kubernetes apiserver, cambiando il prefisso api " "in k8s-api\n" "\t\t# Questo comporta, ad es., pod api disponibili presso localhost:8001/k8s-" "api/v1/pods/\n" "\t\tkubectl proxy --api-prefix=/k8s-api" #: pkg/kubectl/cmd/scale.go:43 msgid "" "\n" "\t\t# Scale a replicaset named 'foo' to 3.\n" "\t\tkubectl scale --replicas=3 rs/foo\n" "\n" "\t\t# Scale a resource identified by type and name specified in \"foo.yaml\" " "to 3.\n" "\t\tkubectl scale --replicas=3 -f foo.yaml\n" "\n" "\t\t# If the deployment named mysql's current size is 2, scale mysql to 3.\n" "\t\tkubectl scale --current-replicas=2 --replicas=3 deployment/mysql\n" "\n" "\t\t# Scale multiple replication controllers.\n" "\t\tkubectl scale --replicas=5 rc/foo rc/bar rc/baz\n" "\n" "\t\t# Scale job named 'cron' to 3.\n" "\t\tkubectl scale --replicas=3 job/cron" msgstr "" "\n" "\t\t# Scala un replicaset denominato 'foo' a 3.\n" "\t\tkubectl scale --replicas=3 rs/foo\n" "\n" "\t\t# Scala una risorsa identificata per tipo e nome specificato in \"foo.yaml" "\" a 3.\n" "\t\tkubectl scale --replicas=3 -f foo.yaml\n" "\n" "\t\t# Se la distribuzione corrente di mysql è 2, scala mysql a 3.\n" "\t\tkubectl scale --current-replicas=2 --replicas=3 deployment/mysql\n" "\n" "\t\t# Scalare più controllori di replica.\n" "\t\tkubectl scale --replicas=5 rc/foo rc/bar rc/baz\n" "\n" "\t\t# Scala il lavoro denominato 'cron' a 3.\n" "\t\tkubectl scale --replicas=3 job/cron" #: pkg/kubectl/cmd/apply_set_last_applied.go:67 msgid "" "\n" "\t\t# Set the last-applied-configuration of a resource to match the contents " "of a file.\n" "\t\tkubectl apply set-last-applied -f deploy.yaml\n" "\n" "\t\t# Execute set-last-applied against each configuration file in a " "directory.\n" "\t\tkubectl apply set-last-applied -f path/\n" "\n" "\t\t# Set the last-applied-configuration of a resource to match the contents " "of a file, will create the annotation if it does not already exist.\n" "\t\tkubectl apply set-last-applied -f deploy.yaml --create-annotation=true\n" "\t\t" msgstr "" "\n" "\t\t# Imposta l'ultima-configurazione-applicata di una risorsa che " "corrisponda al contenuto di un file.\n" "\t\tkubectl apply set-last-applied -f deploy.yaml\n" "\n" "\t\t# Esegue set-last-applied per ogni file di configurazione in una " "directory.\n" "\t\tkubectl apply set-last-applied -f path/\n" "\n" "\t\t# Imposta la configurazione dell'ultima applicazione di una risorsa che " "corrisponda al contenuto di un file, creerà l'annotazione se non esiste già.\n" "\t\tkubectl apply set-last-applied -f deploy.yaml --create-annotation=true\n" "\t\t" #: pkg/kubectl/cmd/top_pod.go:61 msgid "" "\n" "\t\t# Show metrics for all pods in the default namespace\n" "\t\tkubectl top pod\n" "\n" "\t\t# Show metrics for all pods in the given namespace\n" "\t\tkubectl top pod --namespace=NAMESPACE\n" "\n" "\t\t# Show metrics for a given pod and its containers\n" "\t\tkubectl top pod POD_NAME --containers\n" "\n" "\t\t# Show metrics for the pods defined by label name=myLabel\n" "\t\tkubectl top pod -l name=myLabel" msgstr "" "\n" "\t\t# Mostra metriche di tutti i pod nello spazio dei nomi predefinito\n" "\t\tkubectl top pod\n" "\n" "\t\t# Mostra metriche di tutti i pod nello spazio dei nomi specificato\n" "\t\tkubectl top pod --namespace=NAMESPACE\n" "\n" "\t\t# Mostra metriche per un pod e i suoi relativi container\n" "\t\tkubectl top pod POD_NAME --containers\n" "\n" "\t\t# Mostra metriche per i pod definiti da label name = myLabel\n" "\t\tkubectl top pod -l name=myLabel" #: pkg/kubectl/cmd/stop.go:40 msgid "" "\n" "\t\t# Shut down foo.\n" "\t\tkubectl stop replicationcontroller foo\n" "\n" "\t\t# Stop pods and services with label name=myLabel.\n" "\t\tkubectl stop pods,services -l name=myLabel\n" "\n" "\t\t# Shut down the service defined in service.json\n" "\t\tkubectl stop -f service.json\n" "\n" "\t\t# Shut down all resources in the path/to/resources directory\n" "\t\tkubectl stop -f path/to/resources" msgstr "" "\n" "\t\t# Spegni foo.\n" "\t\tkubectl stop replicationcontroller foo\n" "\n" "\t\t# Stop di tutti i pod e servizi con label name=myLabel.\n" "\t\tkubectl stop pods,services -l name=myLabel\n" "\n" "\t\t# Spegnere il servizio definito in service.json\n" "\t\tkubectl stop -f service.json\n" "\n" "\t\t# Spegnere tutte le resources in path/to/resources directory\n" "\t\tkubectl stop -f path/to/resources" #: pkg/kubectl/cmd/run.go:57 msgid "" "\n" "\t\t# Start a single instance of nginx.\n" "\t\tkubectl run nginx --image=nginx\n" "\n" "\t\t# Start a single instance of hazelcast and let the container expose port " "5701 .\n" "\t\tkubectl run hazelcast --image=hazelcast --port=5701\n" "\n" "\t\t# Start a single instance of hazelcast and set environment variables " "\"DNS_DOMAIN=cluster\" and \"POD_NAMESPACE=default\" in the container.\n" "\t\tkubectl run hazelcast --image=hazelcast --env=\"DNS_DOMAIN=cluster\" --" "env=\"POD_NAMESPACE=default\"\n" "\n" "\t\t# Start a replicated instance of nginx.\n" "\t\tkubectl run nginx --image=nginx --replicas=5\n" "\n" "\t\t# Dry run. Print the corresponding API objects without creating them.\n" "\t\tkubectl run nginx --image=nginx --dry-run\n" "\n" "\t\t# Start a single instance of nginx, but overload the spec of the " "deployment with a partial set of values parsed from JSON.\n" "\t\tkubectl run nginx --image=nginx --overrides='{ \"apiVersion\": \"v1\", " "\"spec\": { ... } }'\n" "\n" "\t\t# Start a pod of busybox and keep it in the foreground, don't restart it " "if it exits.\n" "\t\tkubectl run -i -t busybox --image=busybox --restart=Never\n" "\n" "\t\t# Start the nginx container using the default command, but use custom " "arguments (arg1 .. argN) for that command.\n" "\t\tkubectl run nginx --image=nginx -- ... \n" "\n" "\t\t# Start the nginx container using a different command and custom " "arguments.\n" "\t\tkubectl run nginx --image=nginx --command -- ... \n" "\n" "\t\t# Start the perl container to compute π to 2000 places and print it out.\n" "\t\tkubectl run pi --image=perl --restart=OnFailure -- perl -Mbignum=bpi -wle " "'print bpi(2000)'\n" "\n" "\t\t# Start the cron job to compute π to 2000 places and print it out every 5 " "minutes.\n" "\t\tkubectl run pi --schedule=\"0/5 * * * ?\" --image=perl --" "restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'" msgstr "" "\n" "\t\t# Avviare un'unica istanza di nginx.\n" "\t\tkubectl run nginx --image=nginx\n" "\n" "\t\t# Avviare un'unica istanza di hazelcast e lasciare che il container " "esponga la porta 5701.\n" "\t\tkubectl run hazelcast --image=hazelcast --port=5701\n" "\n" "\t\t# Avviare una singola istanza di hazelcast ed imposta le variabili " "ambiente \"DNS_DOMAIN=cluster\" e \"POD_NAMESPACE=default\" nel container.\n" "\t\tkubectl run hazelcast --image=hazelcast --env=\"DNS_DOMAIN=cluster\" --" "env=\"POD_NAMESPACE=default\"\n" "\n" "\t\t# Avviare un'istanza replicata di nginx.\n" "\t\tkubectl run nginx --image=nginx --replicas=5\n" "\n" "\t\t# Dry run. Stampare gli oggetti API corrispondenti senza crearli.\n" "\t\tkubectl run nginx --image=nginx --dry-run\n" "\n" "\t\t# Avviare un'unica istanza di nginx, ma overload le spec del " "deployment con un insieme parziale di valori analizzati da JSON.\n" "\t\tkubectl run nginx --image=nginx --overrides='{ \"apiVersion\": \"v1\", " "\"spec\": { ... } }'\n" "\n" "\t\t# Avviare un pod di busybox e tenerlo in primo piano, non riavviarlo se " "esce.\n" "\t\tkubectl run -i -t busybox --image=busybox --restart=Never\n" "\n" "\t\t# Avviare il container nginx utilizzando il comando predefinito, ma " "utilizzare argomenti personalizzati (arg1 .. argN) per quel comando.\n" "\t\tkubectl run nginx --image=nginx -- ... \n" "\n" "\t\t# Avviare il container nginx utilizzando un diverso comando e argomenti " "personalizzati.\n" "\t\tkubectl run nginx --image=nginx --command -- ... \n" "\n" "\t\t# Avviare il contenitore perl per calcolare π a 2000 posti e stamparlo.\n" "\t\tkubectl run pi --image=perl --restart=OnFailure -- perl -Mbignum=bpi -wle " "'print bpi(2000)'\n" "\n" "\t\t# Avviare il cron job per calcolare π a 2000 posti e stampare ogni 5 " "minuti.\n" "\t\tkubectl run pi --schedule=\"0/5 * * * ?\" --image=perl --" "restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'" #: pkg/kubectl/cmd/taint.go:67 msgid "" "\n" "\t\t# Update node 'foo' with a taint with key 'dedicated' and value 'special-" "user' and effect 'NoSchedule'.\n" "\t\t# If a taint with that key and effect already exists, its value is " "replaced as specified.\n" "\t\tkubectl taint nodes foo dedicated=special-user:NoSchedule\n" "\n" "\t\t# Remove from node 'foo' the taint with key 'dedicated' and effect " "'NoSchedule' if one exists.\n" "\t\tkubectl taint nodes foo dedicated:NoSchedule-\n" "\n" "\t\t# Remove from node 'foo' all the taints with key 'dedicated'\n" "\t\tkubectl taint nodes foo dedicated-" msgstr "" "\n" "\t\t# Aggiorna il nodo \"foo\" con un marcatore con il tasto 'dedicated' e il " "valore 'special-user' ed effettua 'NoSchedule'.\n" "\t\t# Se un marcatore con quel tasto e l'effetto già esiste, il suo valore " "viene sostituito come specificato.\n" "\t\tkubectl taint nodes foo dedicated=special-user:NoSchedule\n" "\n" "\t\t# Rimuove dal nodo 'foo' il marcatore con il tasto 'dedicated' ed " "effettua 'NoSchedule' se esiste.\n" "\t\tkubectl taint nodes foo dedicated:NoSchedule-\n" "\n" "\t\t# Rimuovi dal nodo 'foo' tutti i marcatori con chiave 'dedicated'\n" "\t\tkubectl taint nodes foo dedicated-" #: pkg/kubectl/cmd/label.go:77 msgid "" "\n" "\t\t# Update pod 'foo' with the label 'unhealthy' and the value 'true'.\n" "\t\tkubectl label pods foo unhealthy=true\n" "\n" "\t\t# Update pod 'foo' with the label 'status' and the value 'unhealthy', " "overwriting any existing value.\n" "\t\tkubectl label --overwrite pods foo status=unhealthy\n" "\n" "\t\t# Update all pods in the namespace\n" "\t\tkubectl label pods --all status=unhealthy\n" "\n" "\t\t# Update a pod identified by the type and name in \"pod.json\"\n" "\t\tkubectl label -f pod.json status=unhealthy\n" "\n" "\t\t# Update pod 'foo' only if the resource is unchanged from version 1.\n" "\t\tkubectl label pods foo status=unhealthy --resource-version=1\n" "\n" "\t\t# Update pod 'foo' by removing a label named 'bar' if it exists.\n" "\t\t# Does not require the --overwrite flag.\n" "\t\tkubectl label pods foo bar-" msgstr "" "\n" "\t\t# Aggiorna il pod 'foo' con l'etichetta 'unhealthy' e il valore 'true'.\n" "\t\tkubectl label pods foo unhealthy=true\n" "\n" "\t\t# Aggiorna il pod 'foo' con l'etichetta 'status' e il valore 'unhealthy', " "sovrascrivendo qualsiasi valore esistente.\n" "\t\tkubectl label --overwrite pods foo status=unhealthy\n" "\n" "\t\t# Aggiorna tutti i pod nello spazio dei nomi\n" "\t\tkubectl label pods --all status=unhealthy\n" "\n" "\t\t# Aggiorna un pod identificato dal tipo e dal nome in \"pod.json\"\n" "\t\tkubectl label -f pod.json status=unhealthy\n" "\n" "\t\t# Aggiorna il pod 'foo' solo se la risorsa è invariata dalla versione 1.\n" "\t\tkubectl label pods foo status=unhealthy --resource-version=1\n" "\n" "\t\t# Aggiorna il pod 'foo' rimuovendo un'etichetta denominata 'bar' se " "esiste.\n" "\t\t# Non richiede la flag -overwrite.\n" "\t\tkubectl label pods foo bar-" #: pkg/kubectl/cmd/rollingupdate.go:54 msgid "" "\n" "\t\t# Update pods of frontend-v1 using new replication controller data in " "frontend-v2.json.\n" "\t\tkubectl rolling-update frontend-v1 -f frontend-v2.json\n" "\n" "\t\t# Update pods of frontend-v1 using JSON data passed into stdin.\n" "\t\tcat frontend-v2.json | kubectl rolling-update frontend-v1 -f -\n" "\n" "\t\t# Update the pods of frontend-v1 to frontend-v2 by just changing the " "image, and switching the\n" "\t\t# name of the replication controller.\n" "\t\tkubectl rolling-update frontend-v1 frontend-v2 --image=image:v2\n" "\n" "\t\t# Update the pods of frontend by just changing the image, and keeping the " "old name.\n" "\t\tkubectl rolling-update frontend --image=image:v2\n" "\n" "\t\t# Abort and reverse an existing rollout in progress (from frontend-v1 to " "frontend-v2).\n" "\t\tkubectl rolling-update frontend-v1 frontend-v2 --rollback" msgstr "" "\n" "\t\t# Aggiorna i pod di frontend-v1 usando i dati del replication controller " "in frontend-v2.json.\n" "\t\tkubectl rolling-update frontend-v1 -f frontend-v2.json\n" "\n" "\t\t# Aggiorna i pod di frontend-v1 usando i dati JSON passati da stdin.\n" "\t\tcat frontend-v2.json | kubectl rolling-update frontend-v1 -f -\n" "\n" "\t\t# Aggiorna i pod di frontend-v1 in frontend-v2 solo cambiando l'immagine " "e modificando\n" "\t\t# il nome del replication controller.\n" "\t\tkubectl rolling-update frontend-v1 frontend-v2 --image=image:v2\n" "\n" "\t\t# Aggiorna i pod di frontend solo cambiando l'immaginee mantenendo il " "vecchio none.\n" "\t\tkubectl rolling-update frontend --image=image:v2\n" "\n" "\t\t# Interrompee ed invertire un rollout esistente in corso (da frontend-v1 " "a frontend-v2).\n" "\t\tkubectl rolling-update frontend-v1 frontend-v2 --rollback" #: pkg/kubectl/cmd/apply_view_last_applied.go:52 msgid "" "\n" "\t\t# View the last-applied-configuration annotations by type/name in YAML.\n" "\t\tkubectl apply view-last-applied deployment/nginx\n" "\n" "\t\t# View the last-applied-configuration annotations by file in JSON\n" "\t\tkubectl apply view-last-applied -f deploy.yaml -o json" msgstr "" "\n" "\t\t# Visualizza le annotazioni dell'ultima-configurazione-applicata per tipo/" "nome in YAML.\n" "\t\tkubectl apply view-last-applied deployment/nginx\n" "\n" "\t\t# # Visualizza le annotazioni dell'ultima-configurazione-applicata per " "file in JSON.\n" "\t\tkubectl apply view-last-applied -f deploy.yaml -o json" #: pkg/kubectl/cmd/apply.go:75 msgid "" "\n" "\t\tApply a configuration to a resource by filename or stdin.\n" "\t\tThis resource will be created if it doesn't exist yet.\n" "\t\tTo use 'apply', always create the resource initially with either 'apply' " "or 'create --save-config'.\n" "\n" "\t\tJSON and YAML formats are accepted.\n" "\n" "\t\tAlpha Disclaimer: the --prune functionality is not yet complete. Do not " "use unless you are aware of what the current state is. See https://issues.k8s." "io/34274." msgstr "" "\n" "\t\tApplicare una configurazione a una risorsa per nomefile o stdin.\n" "\t\tQuesta risorsa verrà creata se non esiste ancora.\n" "\t\tPer utilizzare 'apply', creare sempre la risorsa inizialmente con 'apply' " "o 'create --save-config'.\n" "\n" "\t\tSono accettati i formati JSON e YAML.\n" "\n" "\t\tDisclaimer Alpha: la funzionalità --prune non è ancora completa. Non " "utilizzare a meno che non si sia a conoscenza di quale sia lo stato attuale. " "Vedi https://issues.k8s.io/34274." #: pkg/kubectl/cmd/convert.go:38 msgid "" "\n" "\t\tConvert config files between different API versions. Both YAML\n" "\t\tand JSON formats are accepted.\n" "\n" "\t\tThe command takes filename, directory, or URL as input, and convert it " "into format\n" "\t\tof version specified by --output-version flag. If target version is not " "specified or\n" "\t\tnot supported, convert to latest version.\n" "\n" "\t\tThe default output will be printed to stdout in YAML format. One can use -" "o option\n" "\t\tto change to output destination." msgstr "" "\n" "\t\tConvertire i file di configurazione tra diverse versioni API. Sono\n" "\t\taccettati i formati YAML e JSON.\n" "\n" "\t\tIl comando prende il nome di file, la directory o l'URL come input e lo " "converte nel formato\n" "\t\tdi versione specificata dal flag -output-version. Se la versione di " "destinazione non è specificata o\n" "\t\tnon supportata, viene convertita nella versione più recente.\n" "\n" "\t\tL'output predefinito verrà stampato su stdout nel formato YAML. Si può " "usare l'opzione -o\n" "\t\tper cambiare la destinazione di output." #: pkg/kubectl/cmd/create_clusterrole.go:31 msgid "" "\n" "\t\tCreate a ClusterRole." msgstr "" "\n" "\t\n" "Crea un ClusterRole." #: pkg/kubectl/cmd/create_clusterrolebinding.go:32 msgid "" "\n" "\t\tCreate a ClusterRoleBinding for a particular ClusterRole." msgstr "" "\n" "\t\tCrea un ClusterRoleBinding per un ClusterRole particolare." #: pkg/kubectl/cmd/create_rolebinding.go:32 msgid "" "\n" "\t\tCreate a RoleBinding for a particular Role or ClusterRole." msgstr "" "\n" "\t\tCrea un RoleBinding per un particolare Ruolo o ClusterRole." #: pkg/kubectl/cmd/create_secret.go:200 msgid "" "\n" "\t\tCreate a TLS secret from the given public/private key pair.\n" "\n" "\t\tThe public/private key pair must exist before hand. The public key " "certificate must be .PEM encoded and match the given private key." msgstr "" "\n" "\t\tCrea un TLS secret dalla coppia di chiavi pubblica/privata.\n" "\n" "\t\tLa coppia di chiavi pubblica/privata deve esistere prima. Il certificato " "chiave pubblica deve essere .PEM codificato e corrispondere alla chiave " "privata data." #: pkg/kubectl/cmd/create_configmap.go:32 msgid "" "\n" "\t\tCreate a configmap based on a file, directory, or specified literal " "value.\n" "\n" "\t\tA single configmap may package one or more key/value pairs.\n" "\n" "\t\tWhen creating a configmap based on a file, the key will default to the " "basename of the file, and the value will\n" "\t\tdefault to the file content. If the basename is an invalid key, you may " "specify an alternate key.\n" "\n" "\t\tWhen creating a configmap based on a directory, each file whose basename " "is a valid key in the directory will be\n" "\t\tpackaged into the configmap. Any directory entries except regular files " "are ignored (e.g. subdirectories,\n" "\t\tsymlinks, devices, pipes, etc)." msgstr "" "\n" "\t\tCreare un configmap basato su un file, una directory o un valore literal " "specificato.\n" "\n" "\t\tUn singolo configmap può includere una o più coppie chiave/valore.\n" "\n" "\t\tQuando si crea una configmap basata su un file, il valore predefinito " "sarà il nome di base del file e il valore sarà\n" "\t\tpredefinito per il contenuto del file. Se il nome di base è una chiave " "non valida, è possibile specificare un tasto alternativo.\n" "\n" "\t\tQuando si crea un configmap basato su una directory, ogni file il cui " "nome di base è una chiave valida nella directory verrà\n" "\t\tpacchettizzata nel configmap. Le voci di directory tranne i file regolari " "vengono ignorati (ad esempio sottodirectory,\n" "\t\tsymlinks, devices, pipes, ecc)." #: pkg/kubectl/cmd/create_namespace.go:32 msgid "" "\n" "\t\tCreate a namespace with the specified name." msgstr "" "\n" "\t\tCreare un namespace con il nome specificato." #: pkg/kubectl/cmd/create_secret.go:119 msgid "" "\n" "\t\tCreate a new secret for use with Docker registries.\n" "\n" "\t\tDockercfg secrets are used to authenticate against Docker registries.\n" "\n" "\t\tWhen using the Docker command line to push images, you can authenticate " "to a given registry by running\n" "\n" "\t\t $ docker login DOCKER_REGISTRY_SERVER --username=DOCKER_USER --" "password=DOCKER_PASSWORD --email=DOCKER_EMAIL'.\n" "\n" " That produces a ~/.dockercfg file that is used by subsequent 'docker " "push' and 'docker pull' commands to\n" "\t\tauthenticate to the registry. The email address is optional.\n" "\n" "\t\tWhen creating applications, you may have a Docker registry that requires " "authentication. In order for the\n" "\t\tnodes to pull images on your behalf, they have to have the credentials. " "You can provide this information\n" "\t\tby creating a dockercfg secret and attaching it to your service account." msgstr "" "\n" "\t\tCreare un nuovo secret per l'utilizzo con i registri Docker.\n" "\n" "\t\tDockercfg secrets vengono utilizzati per autenticare i registri Docker.\n" "\n" "\t\tQuando utilizzi la riga di comando Docker per il push delle immagini, è " "possibile eseguire l'autenticazione eseguendo correttamente un determinato " "registry\n" "\n" "\t\t $ docker login DOCKER_REGISTRY_SERVER --username=DOCKER_USER --" "password=DOCKER_PASSWORD --email=DOCKER_EMAIL'.\n" "\n" " Questo produce un file ~ / .dockercfg che viene utilizzato dai successivi " "comandi \"docker push\" e \"docker pull\"\n" "\t\tper autenticarsi nel registry. L'indirizzo email è facoltativo.\n" "\n" "\t\tDurante la creazione di applicazioni, è possibile avere un Docker " "registry che richiede l'autenticazione. Affinché i \n" "\t\tnodi eseguano pull di immagini per vostro conto, devono avere le " "credenziali. È possibile fornire queste informazioni \n" "\t\tcreando un dockercfg secret e collegandolo al tuo account di servizio." #: pkg/kubectl/cmd/create_pdb.go:32 msgid "" "\n" "\t\tCreate a pod disruption budget with the specified name, selector, and " "desired minimum available pods" msgstr "" "\n" "\t\tCrea un pod disruption budget con il nome specificato, selector e il " "numero minimo di pod disponibili" #: pkg/kubectl/cmd/create.go:42 msgid "" "\n" "\t\tCreate a resource by filename or stdin.\n" "\n" "\t\tJSON and YAML formats are accepted." msgstr "" "\n" "\t\tCrea una risorsa per nome file o stdin.\n" "\n" "\t\tSono accettati i formati JSON e YAML." #: pkg/kubectl/cmd/create_quota.go:32 msgid "" "\n" "\t\tCreate a resourcequota with the specified name, hard limits and optional " "scopes" msgstr "" "\n" "\t\tCrea una resourcequota con il nome specificato, hard limits e gli scope " "opzionali" #: pkg/kubectl/cmd/create_role.go:38 msgid "" "\n" "\t\tCreate a role with single rule." msgstr "" "\n" "\t\tCrea un ruolo con una singola regola." #: pkg/kubectl/cmd/create_secret.go:47 msgid "" "\n" "\t\tCreate a secret based on a file, directory, or specified literal value.\n" "\n" "\t\tA single secret may package one or more key/value pairs.\n" "\n" "\t\tWhen creating a secret based on a file, the key will default to the " "basename of the file, and the value will\n" "\t\tdefault to the file content. If the basename is an invalid key, you may " "specify an alternate key.\n" "\n" "\t\tWhen creating a secret based on a directory, each file whose basename is " "a valid key in the directory will be\n" "\t\tpackaged into the secret. Any directory entries except regular files are " "ignored (e.g. subdirectories,\n" "\t\tsymlinks, devices, pipes, etc)." msgstr "" "\n" "\t\tCrea un secret basato su un file, una directory o un valore specifico " "literal.\n" "\n" "\t\tUn singolo secret può includere una o più coppie chiave/valore.\n" "\n" "\t\tQuando si crea un secret basato su un file, la chiave per impostazione " "predefinita sarà il nome di base del file e il valore sarà\n" "\t\tpredefinito al contenuto del file. Se il nome di base è una chiave non " "valida, è possibile specificare un tasto alternativo.\n" "\n" "\n" "\t\tQuando si crea un segreto basato su una directory, ogni file il cui nome " "di base è una chiave valida nella directory verrà \n" "\t\\paccehttizzataw in un secret. Le voci di directory tranne i file " "regolari vengono ignorati (ad esempio sottodirectory,\n" "\t\tsymlinks, devices, pipes, ecc)." #: pkg/kubectl/cmd/create_serviceaccount.go:32 msgid "" "\n" "\t\tCreate a service account with the specified name." msgstr "" "\n" "\t\tCreare un service account con il nome specificato." #: pkg/kubectl/cmd/run.go:52 msgid "" "\n" "\t\tCreate and run a particular image, possibly replicated.\n" "\n" "\t\tCreates a deployment or job to manage the created container(s)." msgstr "" "\n" "\t\tCrea ed esegue un'immagine particolare, eventualmente replicata.\n" "\n" "\t\tCrea un deployment o un job per gestire i container creati." #: pkg/kubectl/cmd/autoscale.go:34 msgid "" "\n" "\t\tCreates an autoscaler that automatically chooses and sets the number of " "pods that run in a kubernetes cluster.\n" "\n" "\t\tLooks up a Deployment, ReplicaSet, or ReplicationController by name and " "creates an autoscaler that uses the given resource as a reference.\n" "\t\tAn autoscaler can automatically increase or decrease number of pods " "deployed within the system as needed." msgstr "" "\n" "\t\tCrea un autoscaler che automaticamente sceglie e imposta il numero di pod " "che vengono eseguiti in un cluster di kubernets.\n" "\n" "\t\tEsegue una ricerca di un Deployment, ReplicaSet o ReplicationController " "per nome e crea un autoscaler che utilizza la risorsa indicata come " "riferimento.\n" "\t\tUn autoscaler può aumentare o diminuire automaticamente il numero di pod " "distribuiti all'interno del sistema se necessario." #: pkg/kubectl/cmd/delete.go:40 msgid "" "\n" "\t\tDelete resources by filenames, stdin, resources and names, or by " "resources and label selector.\n" "\n" "\t\tJSON and YAML formats are accepted. Only one type of the arguments may be " "specified: filenames,\n" "\t\tresources and names, or resources and label selector.\n" "\n" "\t\tSome resources, such as pods, support graceful deletion. These resources " "define a default period\n" "\t\tbefore they are forcibly terminated (the grace period) but you may " "override that value with\n" "\t\tthe --grace-period flag, or pass --now to set a grace-period of 1. " "Because these resources often\n" "\t\trepresent entities in the cluster, deletion may not be acknowledged " "immediately. If the node\n" "\t\thosting a pod is down or cannot reach the API server, termination may " "take significantly longer\n" "\t\tthan the grace period. To force delete a resource,\tyou must pass a grace" "\tperiod of 0 and specify\n" "\t\tthe --force flag.\n" "\n" "\t\tIMPORTANT: Force deleting pods does not wait for confirmation that the " "pod's processes have been\n" "\t\tterminated, which can leave those processes running until the node " "detects the deletion and\n" "\t\tcompletes graceful deletion. If your processes use shared storage or talk " "to a remote API and\n" "\t\tdepend on the name of the pod to identify themselves, force deleting " "those pods may result in\n" "\t\tmultiple processes running on different machines using the same " "identification which may lead\n" "\t\tto data corruption or inconsistency. Only force delete pods when you are " "sure the pod is\n" "\t\tterminated, or if your application can tolerate multiple copies of the " "same pod running at once.\n" "\t\tAlso, if you force delete pods the scheduler may place new pods on those " "nodes before the node\n" "\t\thas released those resources and causing those pods to be evicted " "immediately.\n" "\n" "\t\tNote that the delete command does NOT do resource version checks, so if " "someone\n" "\t\tsubmits an update to a resource right when you submit a delete, their " "update\n" "\t\twill be lost along with the rest of the resource." msgstr "" "\n" "\t\tCancella risorse secondo nomi di file, stdin, risorse e nomi, o per " "selettori di risorse e etichette.\n" "\n" "\t\tSono accettati i formati JSON e YAML. È possibile specificare un solo " "tipo di argomenti: nome file,\n" "\t\trisorse e nomi, o risorse e selettore di etichette.\n" "\n" "\t\tAlcune risorse, come i pod, supportano cacellazione corretta. Queste " "risorse definiscono un periodo di default\n" "\t\tprima che siano forzatamente terminate (il grace period) ma si può " "sostituire quel valore con\n" "\t\til falg --grace-period, o passare --now per impostare il grace-period a " "1. Poiché queste risorse spesso\n" "\t\trappresentano entità del cluster, la cancellazione non può essere presa " "in carico immediatamente. Se il nodo\n" "\t\tche ospita un pod è spento o non raggiungibile da API server, termination " "può richiedere molto più tempo\n" "\t\tdel grace period. Per forzare la cancellazione di una resource,\tdevi " "obbligatoriamente indicare un grace\tperiod di 0 e specificare\n" "\t\til flag --force.\n" "\n" "\t\tIMPORTANTE: Fozare la cancellazione dei pod non attende conferma che i " "processi del pod siano\n" "\t\tterminati, che può lasciare questi processi in esecuzione fino a quando " "il nodo rileva la cancellazione\n" "\t\tcompletata correttamente. Se i tuoi processi utilizzano l'archiviazione " "condivisa o parlano con un'API remota e\n" "\t\tdipendono dal nome del pod per identificarsi, la forzata eliminazione di " "questi pod può comportare\n" "\t\tpiù processi in esecuzione su macchine diverse che utilizzando la stessa " "identificazione che può portare\n" "\t\tcorruzione o inconsistenza dei dati. Forza i pod solo quando si è sicuri " "che il pod sia\n" "\t\tterminato, o se la tua applicazione può can tollerare più copie dello " "stesso pod in esecuzione contemporaneamente.\n" "\t\tInoltre, se forzate l'eliminazione dei i nodi, lo scheduler può può " "creare nuovi nodi su questi nodi prima che il nodo\n" "\t\tabbia liberato quelle risorse e provocando immediatamente evict di tali " "pod.\n" "\n" "\n" "\t\tNotare che il comando di eliminazione NON fa verificare la versione delle " "risorse, quindi se qualcuno\n" "\t\tinvia un aggiornamento ad una risorsa quando invii un eliminazione, il " "loro aggiornamento\n" "\t\tsaranno persi insieme al resto della risorsa." #: pkg/kubectl/cmd/stop.go:31 msgid "" "\n" "\t\tDeprecated: Gracefully shut down a resource by name or filename.\n" "\n" "\t\tThe stop command is deprecated, all its functionalities are covered by " "delete command.\n" "\t\tSee 'kubectl delete --help' for more details.\n" "\n" "\t\tAttempts to shut down and delete a resource that supports graceful " "termination.\n" "\t\tIf the resource is scalable it will be scaled to 0 before deletion." msgstr "" "\n" "\t\tDeprecated: chiudere correttamente una risorsa per nome o nome file.\n" "\n" "\t\tIl comando stop è deprecato, tutte le sue funzionalità sono coperte dal " "comando delete.\n" "\t\tVedere 'kubectl delete --help' per ulteriori dettagli.\n" "\n" "\t\tTenta di arrestare ed eliminare una risorsa che supporta la corretta " "terminazione.\n" "\t\tSe la risorsa è scalabile, verrà scalata a 0 prima dell'eliminazione." #: pkg/kubectl/cmd/top_node.go:60 msgid "" "\n" "\t\tDisplay Resource (CPU/Memory/Storage) usage of nodes.\n" "\n" "\t\tThe top-node command allows you to see the resource consumption of nodes." msgstr "" "\n" "\t\tVisualizza l'utilizzo di risorse (CPU/Memoria/Storage) dei nodi.\n" "\n" "\t\tIl comando top-node consente di visualizzare il consumo di risorse dei " "nodi." #: pkg/kubectl/cmd/top_pod.go:53 msgid "" "\n" "\t\tDisplay Resource (CPU/Memory/Storage) usage of pods.\n" "\n" "\t\tThe 'top pod' command allows you to see the resource consumption of " "pods.\n" "\n" "\t\tDue to the metrics pipeline delay, they may be unavailable for a few " "minutes\n" "\t\tsince pod creation." msgstr "" "\n" "\t\tVisualizza l'utilizzo di risorse (CPU/Memoria/Storage) dei pod.\n" "\n" "\t\tIl comando \"top pod\" consente di visualizzare il consumo delle risorse " "dei pod.\n" "\n" "\t\tA causa del ritardo della pipeline metrica, potrebbero non essere " "disponibili per alcuni minuti\n" "\t\teal momento della creazione dei pod." #: pkg/kubectl/cmd/top.go:33 msgid "" "\n" "\t\tDisplay Resource (CPU/Memory/Storage) usage.\n" "\n" "\t\tThe top command allows you to see the resource consumption for nodes or " "pods.\n" "\n" "\t\tThis command requires Heapster to be correctly configured and working on " "the server. " msgstr "" "\n" "\t\tVisualizza l'utilizzo di risorse (CPU/Memoria/Storage).\n" "\n" "\t\tIl comando top consente di visualizzare il consumo di risorse per nodi o " "pod.\n" "\n" "\t\tQuesto comando richiede che Heapster sia configurato correttamente e che " "funzioni sul server." #: pkg/kubectl/cmd/drain.go:140 msgid "" "\n" "\t\tDrain node in preparation for maintenance.\n" "\n" "\t\tThe given node will be marked unschedulable to prevent new pods from " "arriving.\n" "\t\t'drain' evicts the pods if the APIServer supports eviction\n" "\t\t(http://kubernetes.io/docs/admin/disruptions/). Otherwise, it will use " "normal DELETE\n" "\t\tto delete the pods.\n" "\t\tThe 'drain' evicts or deletes all pods except mirror pods (which cannot " "be deleted through\n" "\t\tthe API server). If there are DaemonSet-managed pods, drain will not " "proceed\n" "\t\twithout --ignore-daemonsets, and regardless it will not delete any\n" "\t\tDaemonSet-managed pods, because those pods would be immediately replaced " "by the\n" "\t\tDaemonSet controller, which ignores unschedulable markings. If there are " "any\n" "\t\tpods that are neither mirror pods nor managed by ReplicationController,\n" "\t\tReplicaSet, DaemonSet, StatefulSet or Job, then drain will not delete any " "pods unless you\n" "\t\tuse --force. --force will also allow deletion to proceed if the managing " "resource of one\n" "\t\tor more pods is missing.\n" "\n" "\t\t'drain' waits for graceful termination. You should not operate on the " "machine until\n" "\t\tthe command completes.\n" "\n" "\t\tWhen you are ready to put the node back into service, use kubectl " "uncordon, which\n" "\t\twill make the node schedulable again.\n" "\n" "\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_drain.svg)" msgstr "" "\n" "\t\tDrain node in preparazione alla manutenzione.\n" "\n" "\t\tIl nodo indicato verrà contrassegnato unschedulable per impedire che " "nuovi pod arrivino.\n" "\t\t'drain' evict i pod se l'APIServer supporta eviction\n" "\t\t(http://kubernetes.io/docs/admin/disruptions/). Altrimenti, usa il " "normale DELETE\n" "\t\tper eliminare i pod.\n" "\t\tIl 'drain' evicts o la cancellazione di tutti all pod tranne mirror pods " "(che non possono essere eliminati\n" "\t\tattraverso API server). Se ci sono i pod gestiti da DaemonSet, drain " "non procederà\n" "\t\tsenza --ignore-daemonsets e, a prescindere da ciò, non cancellerà alcun\n" "\t\tpod gestitto da DaemonSet,poiché questi pods verrebbero immediatamente " "sostituiti dal\n" "\t\tDaemonSet controller, che ignora le marcature unschedulable. Se ci " "sono\n" "\t\tpod che non sono né mirror pod né gestiti dal ReplicationController,\n" "\t\tReplicaSet, DaemonSet, StatefulSet o Job, allora drain non cancellerà " "alcun pod finché non\n" "\t\tuserai --force. --force permetterà alla cancellazione di procedere se la " "risorsa gestita da uno\n" "\t\to più pod è mancante.\n" "\n" "\t\t'drain' attende il termine corretto. Non devi operare sulla macchina " "finché\n" "\t\til comando non viene completato.\n" "\n" "\t\tQuando sei pronto per riportare il nodo al servizio, utilizza kubectl " "uncordon, per\n" "\t\trimettere il nodo schedulable nuovamente.\n" "\n" "\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_drain.svg)" #: pkg/kubectl/cmd/edit.go:56 msgid "" "\n" "\t\tEdit a resource from the default editor.\n" "\n" "\t\tThe edit command allows you to directly edit any API resource you can " "retrieve via the\n" "\t\tcommand line tools. It will open the editor defined by your KUBE_EDITOR, " "or EDITOR\n" "\t\tenvironment variables, or fall back to 'vi' for Linux or 'notepad' for " "Windows.\n" "\t\tYou can edit multiple objects, although changes are applied one at a " "time. The command\n" "\t\taccepts filenames as well as command line arguments, although the files " "you point to must\n" "\t\tbe previously saved versions of resources.\n" "\n" "\t\tEditing is done with the API version used to fetch the resource.\n" "\t\tTo edit using a specific API version, fully-qualify the resource, " "version, and group.\n" "\n" "\t\tThe default format is YAML. To edit in JSON, specify \"-o json\".\n" "\n" "\t\tThe flag --windows-line-endings can be used to force Windows line " "endings,\n" "\t\totherwise the default for your operating system will be used.\n" "\n" "\t\tIn the event an error occurs while updating, a temporary file will be " "created on disk\n" "\t\tthat contains your unapplied changes. The most common error when updating " "a resource\n" "\t\tis another editor changing the resource on the server. When this occurs, " "you will have\n" "\t\tto apply your changes to the newer version of the resource, or update " "your temporary\n" "\t\tsaved copy to include the latest resource version." msgstr "" "\n" "\t\tModificare una risorsa dall'editor predefinito.\n" "\n" "\t\tIl comando di modifica consente di modificare direttamente qualsiasi " "risorsa API che è possibile recuperare tramite gli\n" "\t\tstrumenti di riga di comando. Apre l'editor definito dalle variabili " "d'ambiente\n" "\t\tKUBE_EDITOR o EDITOR, o ritornare a 'vi' per Linux o 'notepad' per " "Windows.\n" "\t\tÈ possibile modificare più oggetti, anche se le modifiche vengono " "applicate una alla volta. Il comando\n" "\t\taccetta sia nomi di file che argomenti da riga di comando, anche se i " "file a cui fa riferimento devono\n" "\t\tessere state salvate precedentemente le versioni delle risorse.\n" "\n" "\t\tLa modifica viene eseguita con la versione API utilizzata per recuperare " "la risorsa.\n" "\t\tPer modificare utilizzando una specifica versione API, fully-qualify la " "risorsa, versione e il gruppo.\n" "\n" "\t\tIl formato predefinito è YAML. Per modificare in JSON, specificare \"-o " "json\".\n" "\n" "\t\tIl flag --windows-line-endings può essere utilizzato per forzare i fine " "linea Windows,\n" "\t\taltrimenti verrà utilizzato il default per il sistema operativo.\n" "\n" "\t\tNel caso in cui si verifica un errore durante l'aggiornamento, verrà " "creato un file temporaneo sul disco\n" "\t\tche contiene le modifiche non apportate. L'errore più comune durante " "l'aggiornamento di una risorsa\n" "\t\tè una modifica da pare di un altro editor della risorsa sul server. " "Quando questo si verifica, dovrai\n" "\t\tapplicare le modifiche alla versione più recente della risorsa o " "aggiornare il tua copia\n" "\t\ttemporanea salvata per includere l'ultima versione delle risorse." #: pkg/kubectl/cmd/drain.go:115 msgid "" "\n" "\t\tMark node as schedulable." msgstr "" "\n" "\t\tContrassegna il nodo come programmabile." #: pkg/kubectl/cmd/drain.go:90 msgid "" "\n" "\t\tMark node as unschedulable." msgstr "" "\n" "\t\tContrassegnare il nodo come non programmabile." #: pkg/kubectl/cmd/completion.go:47 msgid "" "\n" "\t\tOutput shell completion code for the specified shell (bash or zsh).\n" "\t\tThe shell code must be evaluated to provide interactive\n" "\t\tcompletion of kubectl commands. This can be done by sourcing it from\n" "\t\tthe .bash_profile.\n" "\n" "\t\tNote: this requires the bash-completion framework, which is not " "installed\n" "\t\tby default on Mac. This can be installed by using homebrew:\n" "\n" "\t\t $ brew install bash-completion\n" "\n" "\t\tOnce installed, bash_completion must be evaluated. This can be done by " "adding the\n" "\t\tfollowing line to the .bash_profile\n" "\n" "\t\t $ source $(brew --prefix)/etc/bash_completion\n" "\n" "\t\tNote for zsh users: [1] zsh completions are only supported in versions of " "zsh >= 5.2" msgstr "" "\n" "\t\tIn output codice di completamento shell output per la shell specificata " "(bash o zsh).\n" "\t\tIl codice di shell deve essere valorizzato per fornire completamento\n" "\t\tinterattivo dei comandi kubectl. Questo può essere eseguito " "richiamandolo\n" "\t\tda .bash_profile.\n" "\n" "\t\tNota: questo richiede il framework di completamento bash, che non è " "installato\n" "\t\tper impostazione predefinita su Mac. Questo può essere installato " "utilizzando homebrew:\n" "\n" "\t\t $ brew install bash-completion\n" "\n" "\t\tUna volta installato, bash_completion deve essere valutato. Ciò può " "essere fatto aggiungendo la\n" "\t\tseguente riga al file .bash_profile\n" "\n" "\t\t $ source $(brew --prefix)/etc/bash_completion\n" "\n" "\t\tNota per gli utenti zsh: [1] i completamenti zsh sono supportati solo " "nelle versioni zsh> = 5.2" #: pkg/kubectl/cmd/rollingupdate.go:45 msgid "" "\n" "\t\tPerform a rolling update of the given ReplicationController.\n" "\n" "\t\tReplaces the specified replication controller with a new replication " "controller by updating one pod at a time to use the\n" "\t\tnew PodTemplate. The new-controller.json must specify the same namespace " "as the\n" "\t\texisting replication controller and overwrite at least one (common) label " "in its replicaSelector.\n" "\n" "\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_rollingupdate.svg)" msgstr "" "\n" "\t\tEseguire un rolling update del ReplicationController specificato.\n" "\n" "\t\tSostituisce il replication controller specificato con un nuovo " "replication controller aggiornando un pod alla volta per usare il\n" "\t\tnuovo PodTemplate. Il new-controller.json deve specificare lo stesso " "namespace del\n" "\t\tcontroller di replica esistente e sovrascrivere almeno una etichetta " "(comune) nella sua replicaSelector.\n" "\n" "\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_rollingupdate.svg)" #: pkg/kubectl/cmd/replace.go:40 msgid "" "\n" "\t\tReplace a resource by filename or stdin.\n" "\n" "\t\tJSON and YAML formats are accepted. If replacing an existing resource, " "the\n" "\t\tcomplete resource spec must be provided. This can be obtained by\n" "\n" "\t\t $ kubectl get TYPE NAME -o yaml\n" "\n" "\t\tPlease refer to the models in https://htmlpreview.github.io/?https://" "github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions." "html to find if a field is mutable." msgstr "" "\n" "\t\tSostituire una risorsa per nomefile o stdin.\n" "\n" "\t\tSono accettati i formati JSON e YAML. Se si sostituisce una risorsa " "esistente, \n" "\t\tè necessario fornire la specifica completa delle risorse. Questo può " "essere ottenuta da\n" "\n" "\t\t $ kubectl get TYPE NAME -o yaml\n" "\n" "\t\tFare riferimento ai modelli https://htmlpreview.github.io/?https://github." "com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions.html " "per trovare se un campo è mutevole." #: pkg/kubectl/cmd/scale.go:34 msgid "" "\n" "\t\tSet a new size for a Deployment, ReplicaSet, Replication Controller, or " "Job.\n" "\n" "\t\tScale also allows users to specify one or more preconditions for the " "scale action.\n" "\n" "\t\tIf --current-replicas or --resource-version is specified, it is validated " "before the\n" "\t\tscale is attempted, and it is guaranteed that the precondition holds true " "when the\n" "\t\tscale is sent to the server." msgstr "" "\n" "\t\tImposta una nuova dimensione per Deployment, ReplicaSet, Replication " "Controller, o Job.\n" "\n" "\t\tScala consente anche agli utenti di specificare una o più condizioni " "preliminari per l'azione della scala.\n" "\n" "\t\tSe --current-replicas o --resource-version sono specificate, viene " "convalidata prima di\n" "\t\ttentare scale, ed è garantito che la precondizione vale quando\n" "\t\tscale viene inviata al server.." #: pkg/kubectl/cmd/apply_set_last_applied.go:62 msgid "" "\n" "\t\tSet the latest last-applied-configuration annotations by setting it to " "match the contents of a file.\n" "\t\tThis results in the last-applied-configuration being updated as though " "'kubectl apply -f ' was run,\n" "\t\twithout updating any other parts of the object." msgstr "" "\n" "\t\tImposta le annotazioni dell'ultima-configurazione-applicata impostandola " "in modo che corrisponda al contenuto di un file.\n" "\t\tCiò determina l'aggiornamento dell'ultima-configurazione-applicata come " "se 'kubectl apply -f ' fosse stato eseguito,\n" "\t\tsenza aggiornare altre parti dell'oggetto." #: pkg/kubectl/cmd/proxy.go:36 msgid "" "\n" "\t\tTo proxy all of the kubernetes api and nothing else, use:\n" "\n" "\t\t $ kubectl proxy --api-prefix=/\n" "\n" "\t\tTo proxy only part of the kubernetes api and also some static files:\n" "\n" "\t\t $ kubectl proxy --www=/my/files --www-prefix=/static/ --api-prefix=/" "api/\n" "\n" "\t\tThe above lets you 'curl localhost:8001/api/v1/pods'.\n" "\n" "\t\tTo proxy the entire kubernetes api at a different root, use:\n" "\n" "\t\t $ kubectl proxy --api-prefix=/custom/\n" "\n" "\t\tThe above lets you 'curl localhost:8001/custom/api/v1/pods'" msgstr "" "\n" "\t\tPer proxy tutti i kubernetes api e nient'altro, utilizzare:\n" "\n" "\t\t $ kubectl proxy --api-prefix=/\n" "\n" "\t\tPer proxy solo una parte dei kubernetes api e anche alcuni file static\n" "\n" "\t\t $ kubectl proxy --www=/my/files --www-prefix=/static/ --api-prefix=/" "api/\n" "\n" "\t\tQuanto sopra consente 'curl localhost:8001/api/v1/pods'.\n" "\n" "\t\tPer eseguire il proxy tutti i kubernetes api in una radice diversa, " "utilizzare:\n" "\n" "\t\t $ kubectl proxy --api-prefix=/custom/\n" "\n" "\t\tQuanto sopra ti permette 'curl localhost:8001/custom/api/v1/pods'" #: pkg/kubectl/cmd/patch.go:59 msgid "" "\n" "\t\tUpdate field(s) of a resource using strategic merge patch\n" "\n" "\t\tJSON and YAML formats are accepted.\n" "\n" "\t\tPlease refer to the models in https://htmlpreview.github.io/?https://" "github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions." "html to find if a field is mutable." msgstr "" "\n" "\t\tAggiorna i campi di una risorsa utilizzando la merge patch strategica\n" "\n" "\t\tSono accettati i formati JSON e YAML.\n" "\n" "\t\tSi prega di fare riferimento ai modelli in https://htmlpreview.github.io/?" "https://github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/" "definitions.html per trovare se un campo è mutevole." #: pkg/kubectl/cmd/label.go:70 #, c-format msgid "" "\n" "\t\tUpdate the labels on a resource.\n" "\n" "\t\t* A label must begin with a letter or number, and may contain letters, " "numbers, hyphens, dots, and underscores, up to %[1]d characters.\n" "\t\t* If --overwrite is true, then existing labels can be overwritten, " "otherwise attempting to overwrite a label will result in an error.\n" "\t\t* If --resource-version is specified, then updates will use this resource " "version, otherwise the existing resource-version will be used." msgstr "" "\n" "\t\tAggiorna le label di una risorsa.\n" "\n" "\t\t* A label must begin with a letter or number, and may contain letters, " "numbers, hyphens, dots, and underscores, up to %[1]d characters.\n" "\t\t* If --overwrite is true, then existing labels can be overwritten, " "otherwise attempting to overwrite a label will result in an error.\n" "\t\t* If --resource-version is specified, then updates will use this resource " "version, otherwise the existing resource-version will be used." #: pkg/kubectl/cmd/taint.go:58 #, c-format msgid "" "\n" "\t\tUpdate the taints on one or more nodes.\n" "\n" "\t\t* A taint consists of a key, value, and effect. As an argument here, it " "is expressed as key=value:effect.\n" "\t\t* The key must begin with a letter or number, and may contain letters, " "numbers, hyphens, dots, and underscores, up to %[1]d characters.\n" "\t\t* The value must begin with a letter or number, and may contain letters, " "numbers, hyphens, dots, and underscores, up to %[2]d characters.\n" "\t\t* The effect must be NoSchedule, PreferNoSchedule or NoExecute.\n" "\t\t* Currently taint can only apply to node." msgstr "" "\n" "\t\tAggiorna i marcatori su uno o più nodi.\n" "\n" "\t\t* Un marcatore è costituita da una chiave, un valore e un effetto. Come " "argomento qui, viene espresso come chiave = valore: effetto.\n" "\t\t* La chiave deve iniziare con una lettera o un numero e può contenere " "lettere, numeri, trattini, punti e sottolineature, fino a% [1] d caratteri.\n" "\t\t* Il valore deve iniziare con una lettera o un numero e può contenere " "lettere, numeri, trattini, punti e sottolineature, fino a% [2] d caratteri.\n" "\t\t* L'effetto deve essere NoSchedule, PreferNoSchedule o NoExecute.\n" "\t\t* Attualmente il marcatore può essere applicato solo al nodo." #: pkg/kubectl/cmd/apply_view_last_applied.go:46 msgid "" "\n" "\t\tView the latest last-applied-configuration annotations by type/name or " "file.\n" "\n" "\t\tThe default output will be printed to stdout in YAML format. One can use -" "o option\n" "\t\tto change output format." msgstr "" "\n" "\t\tVisualizza le annotazioni dell'ultima-configurazione-applicata per tipo/" "nome o file.\n" "\n" "\t\tL'output predefinito verrà stampato su stdout nel formato YAML. Si può " "usare l'opzione -o\n" "\t\tPer cambiare il formato di output." #: pkg/kubectl/cmd/cp.go:37 msgid "" "\n" "\t # !!!Important Note!!!\n" "\t # Requires that the 'tar' binary is present in your container\n" "\t # image. If 'tar' is not present, 'kubectl cp' will fail.\n" "\n" "\t # Copy /tmp/foo_dir local directory to /tmp/bar_dir in a remote pod in " "the default namespace\n" "\t\tkubectl cp /tmp/foo_dir :/tmp/bar_dir\n" "\n" " # Copy /tmp/foo local file to /tmp/bar in a remote pod in a specific " "container\n" "\t\tkubectl cp /tmp/foo :/tmp/bar -c \n" "\n" "\t\t# Copy /tmp/foo local file to /tmp/bar in a remote pod in namespace \n" "\t\tkubectl cp /tmp/foo /:/tmp/bar\n" "\n" "\t\t# Copy /tmp/foo from a remote pod to /tmp/bar locally\n" "\t\tkubectl cp /:/tmp/foo /tmp/bar" msgstr "" "\n" "\t # !!!Nota importante!!!\n" "\t # Richiede che il binario 'tar' sia presente nel tuo contenitore\n" "\t # immagine. Se 'tar' non è presente, 'kubectl cp' non riesce.\n" "\n" "\t # Copia /tmp/foo_dir directory locale in /tmp/bar_dir in un pod remoto " "nello spazio dei nomi predefinito\n" "\t\tkubectl cp /tmp/foo_dir :/tmp/bar_dir\n" "\n" " # Copia /tmp/foo file locale in /tmp/bar in un pod remoto in un " "contenitore specifico\n" "\t\tkubectl cp /tmp/foo :/tmp/bar -c \n" "\n" "\t\t# Copia /tmp/foo file locale in /tmp/bar in un pod remoto nello spazio " "dei nomi \n" "\t\tkubectl cp /tmp/foo /:/tmp/bar\n" "\n" "\t\t# Copia /tmp/foo da un pod remoto in /tmp/bar localmente\n" "\t\tkubectl cp /:/tmp/foo /tmp/bar" #: pkg/kubectl/cmd/create_secret.go:205 msgid "" "\n" "\t # Create a new TLS secret named tls-secret with the given key pair:\n" "\t kubectl create secret tls tls-secret --cert=path/to/tls.cert --key=path/" "to/tls.key" msgstr "" "\n" "\t # Crea un nuovo secret TLS denominato tls-secret con la coppia di dati " "fornita:\n" "\t kubectl create secret tls tls-secret --cert=path/to/tls.cert --key=path/" "to/tls.key" #: pkg/kubectl/cmd/create_namespace.go:35 msgid "" "\n" "\t # Create a new namespace named my-namespace\n" "\t kubectl create namespace my-namespace" msgstr "" "\n" "\t # Crea un nuovo namespace denominato my-namespace\n" "\t kubectl create namespace my-namespace" #: pkg/kubectl/cmd/create_secret.go:59 msgid "" "\n" "\t # Create a new secret named my-secret with keys for each file in folder " "bar\n" "\t kubectl create secret generic my-secret --from-file=path/to/bar\n" "\n" "\t # Create a new secret named my-secret with specified keys instead of " "names on disk\n" "\t kubectl create secret generic my-secret --from-file=ssh-privatekey=~/.ssh/" "id_rsa --from-file=ssh-publickey=~/.ssh/id_rsa.pub\n" "\n" "\t # Create a new secret named my-secret with key1=supersecret and " "key2=topsecret\n" "\t kubectl create secret generic my-secret --from-literal=key1=supersecret --" "from-literal=key2=topsecret" msgstr "" "\n" "\t # Crea un nuovo secret denominato my-secret con i tasti per ogni file " "nella barra delle cartelle\n" "\t kubectl create secret generic my-secret --from-file=path/to/bar\n" "\n" "\t # Crea un nuovo secret denominato my-secret con le chiavi specificate " "anziché i nomi sul disco\n" "\t kubectl create secret generic my-secret --from-file=ssh-privatekey=~/.ssh/" "id_rsa --from-file=ssh-publickey=~/.ssh/id_rsa.pub\n" "\n" "\t # Crea un nuovo secret denominato my-secret con key1 = supersecret e key2 " "= topsecret\n" "\t kubectl create secret generic my-secret --from-literal=key1=supersecret --" "from-literal=key2=topsecret" #: pkg/kubectl/cmd/create_serviceaccount.go:35 msgid "" "\n" "\t # Create a new service account named my-service-account\n" "\t kubectl create serviceaccount my-service-account" msgstr "" "\n" "\t # Crea un nuovo service account denominato my-service-account\n" "\t kubectl create serviceaccount my-service-account" #: pkg/kubectl/cmd/create_service.go:232 msgid "" "\n" "\t# Create a new ExternalName service named my-ns \n" "\tkubectl create service externalname my-ns --external-name bar.com" msgstr "" "\n" "\t# Crea un nuovo servizio ExternalName denominato my-ns \n" "\tkubectl create service externalname my-ns --external-name bar.com" #: pkg/kubectl/cmd/create_service.go:225 msgid "" "\n" "\tCreate an ExternalName service with the specified name.\n" "\n" "\tExternalName service references to an external DNS address instead of\n" "\tonly pods, which will allow application authors to reference services\n" "\tthat exist off platform, on other clusters, or locally." msgstr "" "\n" "\tCrea un servizio ExternalName con il nome specificato.\n" "\n" "\tIl servizio ExternalName fa riferimento a un indirizzo DNS esterno \n" "\tsolo pod, che permetteranno agli autori delle applicazioni di utilizzare i " "servizi di riferimento\n" "\tche esistono fuori dalla piattaforma, su altri cluster, o localmente.." #: pkg/kubectl/cmd/help.go:30 msgid "" "\n" "\tHelp provides help for any command in the application.\n" "\tSimply type kubectl help [path to command] for full details." msgstr "" "\n" "\tHelp fornisce assistenza per qualsiasi comando nell'applicazione.\n" "\tBasta digitare kubectl help [path to command] per i dettagli completi." #: pkg/kubectl/cmd/create_service.go:173 msgid "" "\n" " # Create a new LoadBalancer service named my-lbs\n" " kubectl create service loadbalancer my-lbs --tcp=5678:8080" msgstr "" "\n" " # Creare un nuovo servizio LoadBalancer denominato my-lbs\n" " kubectl create service loadbalancer my-lbs --tcp=5678:8080" #: pkg/kubectl/cmd/create_service.go:53 msgid "" "\n" " # Create a new clusterIP service named my-cs\n" " kubectl create service clusterip my-cs --tcp=5678:8080\n" "\n" " # Create a new clusterIP service named my-cs (in headless mode)\n" " kubectl create service clusterip my-cs --clusterip=\"None\"" msgstr "" "\n" " # Creare un nuovo servizio clusterIP denominato my-cs\n" " kubectl create service clusterip my-cs --tcp=5678:8080\n" "\n" " # Creare un nuovo servizio clusterIP denominato my-cs (in modalità " "headless)\n" " kubectl create service clusterip my-cs --clusterip=\"None\"" #: pkg/kubectl/cmd/create_deployment.go:36 msgid "" "\n" " # Create a new deployment named my-dep that runs the busybox image.\n" " kubectl create deployment my-dep --image=busybox" msgstr "" "\n" " # Crea una nuovo deployment chiamato my-dep che esegue l'immagine " "busybox.\n" " kubectl create deployment my-dep --image=busybox" #: pkg/kubectl/cmd/create_service.go:116 msgid "" "\n" " # Create a new nodeport service named my-ns\n" " kubectl create service nodeport my-ns --tcp=5678:8080" msgstr "" "\n" " # Creare un nuovo servizio nodeport denominato my-ns\n" " kubectl create service nodeport my-ns --tcp=5678:8080" #: pkg/kubectl/cmd/clusterinfo_dump.go:62 msgid "" "\n" " # Dump current cluster state to stdout\n" " kubectl cluster-info dump\n" "\n" " # Dump current cluster state to /path/to/cluster-state\n" " kubectl cluster-info dump --output-directory=/path/to/cluster-state\n" "\n" " # Dump all namespaces to stdout\n" " kubectl cluster-info dump --all-namespaces\n" "\n" " # Dump a set of namespaces to /path/to/cluster-state\n" " kubectl cluster-info dump --namespaces default,kube-system --output-" "directory=/path/to/cluster-state" msgstr "" "\n" " # Dump dello stato corrente del cluster verso stdout\n" " kubectl cluster-info dump\n" "\n" " # Dump dello stato corrente del cluster verso /path/to/cluster-state\n" " kubectl cluster-info dump --output-directory=/path/to/cluster-state\n" "\n" " # Dump di tutti i namespaces verso stdout\n" " kubectl cluster-info dump --all-namespaces\n" "\n" " # Dump di un set di namespace verso /path/to/cluster-state\n" " kubectl cluster-info dump --namespaces default,kube-system --output-" "directory=/path/to/cluster-state" #: pkg/kubectl/cmd/annotate.go:78 msgid "" "\n" " # Update pod 'foo' with the annotation 'description' and the value 'my " "frontend'.\n" " # If the same annotation is set multiple times, only the last value will " "be applied\n" " kubectl annotate pods foo description='my frontend'\n" "\n" " # Update a pod identified by type and name in \"pod.json\"\n" " kubectl annotate -f pod.json description='my frontend'\n" "\n" " # Update pod 'foo' with the annotation 'description' and the value 'my " "frontend running nginx', overwriting any existing value.\n" " kubectl annotate --overwrite pods foo description='my frontend running " "nginx'\n" "\n" " # Update all pods in the namespace\n" " kubectl annotate pods --all description='my frontend running nginx'\n" "\n" " # Update pod 'foo' only if the resource is unchanged from version 1.\n" " kubectl annotate pods foo description='my frontend running nginx' --" "resource-version=1\n" "\n" " # Update pod 'foo' by removing an annotation named 'description' if it " "exists.\n" " # Does not require the --overwrite flag.\n" " kubectl annotate pods foo description-" msgstr "" "\n" " # Aggiorna il pod 'foo' con annotazione 'description'e il valore 'my " "frontend'.\n" " # Se la stessa annotazione è impostata più volte, verrà applicato solo " "l'ultimo valore\n" " kubectl annotate pods foo description='my frontend'\n" "\n" " # Aggiorna un pod identificato per tipo e nome in \"pod.json\"\n" " kubectl annotate -f pod.json description='my frontend'\n" "\n" " # Aggiorna pod 'foo' con la annotazione 'description' e il valore 'my " "frontend running nginx', sovrascrivendo qualsiasi valore esistente.\n" " kubectl annotate --overwrite pods foo description='my frontend running " "nginx'\n" "\n" " # Aggiorna tutti i baccelli nel namespace\n" " kubectl annotate pods --all description='my frontend running nginx'\n" "\n" " # Aggiorna il pod 'foo' solo se la risorsa è invariata dalla versione 1.\n" " kubectl annotate pods foo description='my frontend running nginx' --" "resource-version=1\n" "\n" " # Aggiorna il pod 'foo' rimuovendo un'annotazione denominata " "'descrizione' se esiste.\n" " # Non richiede flag -overwrite.\n" " kubectl annotate pods foo description-" #: pkg/kubectl/cmd/create_service.go:170 msgid "" "\n" " Create a LoadBalancer service with the specified name." msgstr "" "\n" " Crea un servizio LoadBalancer con il nome specificato." #: pkg/kubectl/cmd/create_service.go:50 msgid "" "\n" " Create a clusterIP service with the specified name." msgstr "" "\n" " Crea un servizio clusterIP con il nome specificato." #: pkg/kubectl/cmd/create_deployment.go:33 msgid "" "\n" " Create a deployment with the specified name." msgstr "" "\n" " Creare un deployment con il nome specificato." #: pkg/kubectl/cmd/create_service.go:113 msgid "" "\n" " Create a nodeport service with the specified name." msgstr "" "\n" " Creare un servizio nodeport con il nome specificato." #: pkg/kubectl/cmd/clusterinfo_dump.go:53 msgid "" "\n" " Dumps cluster info out suitable for debugging and diagnosing cluster " "problems. By default, dumps everything to\n" " stdout. You can optionally specify a directory with --output-directory. " "If you specify a directory, kubernetes will\n" " build a set of files in that directory. By default only dumps things in " "the 'kube-system' namespace, but you can\n" " switch to a different namespace with the --namespaces flag, or specify --" "all-namespaces to dump all namespaces.\n" "\n" " The command also dumps the logs of all of the pods in the cluster, these " "logs are dumped into different directories\n" " based on namespace and pod name." msgstr "" "\n" " Dump delle informazioni di cluster idonee per il debug e la diagnostica " "di problemi di cluster. Per impostazione predefinita, tutto\n" "    verso stdout. È possibile specificare opzionalmente una directory con --" "output-directory. Se si specifica una directory, kubernetes \n" " creearà un insieme di file in quella directory. Per impostazione " "predefinita, dumps solo i dati del namespace \"kube-system\", ma è\n" " possibile passare ad namespace diverso con il flag --namespaces o " "specificare --all-namespaces per il dump di tutti i namespace.\n" "\n" "     Il comando esegue dump anche dei log di tutti i pod del cluster, questi " "log vengono scaricati in directory differenti\n" "     basati sul namespace e sul nome del pod." #: pkg/kubectl/cmd/clusterinfo.go:37 msgid "" "\n" " Display addresses of the master and services with label kubernetes.io/" "cluster-service=true\n" " To further debug and diagnose cluster problems, use 'kubectl cluster-info " "dump'." msgstr "" "\n" " Visualizza gli indirizzi del master e dei servizi con label kubernetes.io/" "cluster-service=true\n" "  Per ulteriore debug e diagnosticare i problemi di cluster, utilizzare " "'kubectl cluster-info dump'." #: pkg/kubectl/cmd/create_quota.go:62 msgid "" "A comma-delimited set of quota scopes that must all match each object tracked " "by the quota." msgstr "" "Un insieme delimitato-da-virgole di quota scopes che devono corrispondere a " "ciascun oggetto gestito dalla quota." #: pkg/kubectl/cmd/create_quota.go:61 msgid "" "A comma-delimited set of resource=quantity pairs that define a hard limit." msgstr "" "Un insieme delimitato-da-virgola di coppie risorsa = quantità che definiscono " "un hard limit." #: pkg/kubectl/cmd/create_pdb.go:64 msgid "" "A label selector to use for this budget. Only equality-based selector " "requirements are supported." msgstr "" "Un label selector da utilizzare per questo budget. Sono supportati solo i " "selettori equality-based selector." #: pkg/kubectl/cmd/expose.go:104 msgid "" "A label selector to use for this service. Only equality-based selector " "requirements are supported. If empty (the default) infer the selector from " "the replication controller or replica set.)" msgstr "" "Un selettore di label da utilizzare per questo servizio. Sono supportati solo " "equality-based selector. Se vuota (default) dedurre il selettore dal " "replication controller o replica set.)" #: pkg/kubectl/cmd/run.go:139 msgid "A schedule in the Cron format the job should be run with." msgstr "Un calendario in formato Cron del lavoro che deve essere eseguito." #: pkg/kubectl/cmd/expose.go:109 msgid "" "Additional external IP address (not managed by Kubernetes) to accept for the " "service. If this IP is routed to a node, the service can be accessed by this " "IP in addition to its generated service IP." msgstr "" "Indirizzo IP esterno aggiuntivo (non gestito da Kubernetes) da accettare per " "il servizio. Se questo IP viene indirizzato a un nodo, è possibile accedere " "da questo IP in aggiunta al service IP generato." #: pkg/kubectl/cmd/expose.go:110 pkg/kubectl/cmd/run.go:122 msgid "" "An inline JSON override for the generated object. If this is non-empty, it is " "used to override the generated object. Requires that the object supply a " "valid apiVersion field." msgstr "" "Un override JSON inline per l'oggetto generato. Se questo non è vuoto, viene " "utilizzato per ignorare l'oggetto generato. Richiede che l'oggetto fornisca " "un campo valido apiVersion." #: pkg/kubectl/cmd/run.go:137 msgid "" "An inline JSON override for the generated service object. If this is non-" "empty, it is used to override the generated object. Requires that the object " "supply a valid apiVersion field. Only used if --expose is true." msgstr "" "Un override JSON inline per l'oggetto di servizio generato. Se questo non è " "vuoto, viene utilizzato per ignorare l'oggetto generato. Richiede che " "l'oggetto fornisca un campo valido apiVersion. Utilizzato solo se --expose è " "true." #: pkg/kubectl/cmd/apply.go:104 msgid "Apply a configuration to a resource by filename or stdin" msgstr "Applica una configurazione risorsa per nomefile o stdin" #: pkg/kubectl/cmd/certificates.go:72 msgid "Approve a certificate signing request" msgstr "Approva una richiesta di firma del certificato" #: pkg/kubectl/cmd/create_service.go:82 msgid "" "Assign your own ClusterIP or set to 'None' for a 'headless' service (no " "loadbalancing)." msgstr "" "Assegnare il proprio ClusterIP o impostare su 'None' per un servizio " "'headless' (nessun bilanciamento del carico)." #: pkg/kubectl/cmd/attach.go:70 msgid "Attach to a running container" msgstr "Collega a un container in esecuzione" #: pkg/kubectl/cmd/autoscale.go:56 msgid "Auto-scale a Deployment, ReplicaSet, or ReplicationController" msgstr "Auto-scale a Deployment, ReplicaSet, o ReplicationController" #: pkg/kubectl/cmd/expose.go:113 msgid "" "ClusterIP to be assigned to the service. Leave empty to auto-allocate, or set " "to 'None' to create a headless service." msgstr "" "ClusterIP da assegnare al servizio. Lasciare vuoto per allocare " "automaticamente o impostare su 'None' per creare un servizio headless." #: pkg/kubectl/cmd/create_clusterrolebinding.go:56 msgid "ClusterRole this ClusterRoleBinding should reference" msgstr "ClusterRole a cui questo ClusterRoleBinding fa riferimento" #: pkg/kubectl/cmd/create_rolebinding.go:56 msgid "ClusterRole this RoleBinding should reference" msgstr "ClusterRole a cui questo RoleBinding fa riferimento" #: pkg/kubectl/cmd/rollingupdate.go:102 msgid "" "Container name which will have its image upgraded. Only relevant when --image " "is specified, ignored otherwise. Required when using --image on a multi-" "container pod" msgstr "" "Nome container che avrà la sua immagine aggiornata. Soltanto rilevante quando " "--image è specificato, altrimenti ignorato. Necessario quando si utilizza --" "image su un contenitore a più contenitori" #: pkg/kubectl/cmd/convert.go:68 msgid "Convert config files between different API versions" msgstr "Convertire i file di configurazione tra diverse versioni APIs" #: pkg/kubectl/cmd/cp.go:65 msgid "Copy files and directories to and from containers." msgstr "Copiare file e directory da e verso i container." #: pkg/kubectl/cmd/create_clusterrolebinding.go:44 msgid "Create a ClusterRoleBinding for a particular ClusterRole" msgstr "Crea un ClusterRoleBinding per un ClusterRole particolare" #: pkg/kubectl/cmd/create_service.go:182 msgid "Create a LoadBalancer service." msgstr "Creare un servizio LoadBalancer." #: pkg/kubectl/cmd/create_service.go:125 msgid "Create a NodePort service." msgstr "Crea un servizio NodePort." #: pkg/kubectl/cmd/create_rolebinding.go:44 msgid "Create a RoleBinding for a particular Role or ClusterRole" msgstr "Crea un RoleBinding per un particolare Role o ClusterRole" #: pkg/kubectl/cmd/create_secret.go:214 msgid "Create a TLS secret" msgstr "Crea un secret TLS" #: pkg/kubectl/cmd/create_service.go:69 msgid "Create a clusterIP service." msgstr "Crea un servizio clusterIP." #: pkg/kubectl/cmd/create_configmap.go:60 msgid "Create a configmap from a local file, directory or literal value" msgstr "" "Crea un configmap da un file locale, una directory o un valore letterale" #: pkg/kubectl/cmd/create_deployment.go:46 msgid "Create a deployment with the specified name." msgstr "Creare un deployment con il nome specificato." #: pkg/kubectl/cmd/create_namespace.go:45 msgid "Create a namespace with the specified name" msgstr "Crea un namespace con il nome specificato" #: pkg/kubectl/cmd/create_pdb.go:50 msgid "Create a pod disruption budget with the specified name." msgstr "Crea un pod disruption budget con il nome specificato." #: pkg/kubectl/cmd/create_quota.go:48 msgid "Create a quota with the specified name." msgstr "Crea una quota con il nome specificato." #: pkg/kubectl/cmd/create.go:63 msgid "Create a resource by filename or stdin" msgstr "Crea una risorsa per nome file o stdin" #: pkg/kubectl/cmd/create_secret.go:144 msgid "Create a secret for use with a Docker registry" msgstr "Crea un secret da utilizzare con un registro Docker" #: pkg/kubectl/cmd/create_secret.go:74 msgid "Create a secret from a local file, directory or literal value" msgstr "Crea un secret da un file locale, una directory o un valore letterale" #: pkg/kubectl/cmd/create_secret.go:35 msgid "Create a secret using specified subcommand" msgstr "Crea un secret utilizzando un subcommand specificato" #: pkg/kubectl/cmd/create_serviceaccount.go:45 msgid "Create a service account with the specified name" msgstr "Creare un account di servizio con il nome specificato" #: pkg/kubectl/cmd/create_service.go:37 msgid "Create a service using specified subcommand." msgstr "Crea un servizio utilizzando il subcommand specificato." #: pkg/kubectl/cmd/create_service.go:241 msgid "Create an ExternalName service." msgstr "Crea un servizio ExternalName." #: pkg/kubectl/cmd/delete.go:132 msgid "" "Delete resources by filenames, stdin, resources and names, or by resources " "and label selector" msgstr "" "Elimina risorse selezionate per nomi di file, stdin, risorse e nomi, o per " "risorsa e selettore di label" #: pkg/kubectl/cmd/config/delete_cluster.go:39 msgid "Delete the specified cluster from the kubeconfig" msgstr "Elimina il cluster specificato dal kubeconfig" #: pkg/kubectl/cmd/config/delete_context.go:39 msgid "Delete the specified context from the kubeconfig" msgstr "Elimina il context specificato dal kubeconfig" #: pkg/kubectl/cmd/certificates.go:122 msgid "Deny a certificate signing request" msgstr "Nega una richiesta di firma del certificato" #: pkg/kubectl/cmd/stop.go:59 msgid "Deprecated: Gracefully shut down a resource by name or filename" msgstr "Deprecated: spegne correttamente una risorsa per nome o nome file" #: pkg/kubectl/cmd/config/get_contexts.go:64 msgid "Describe one or many contexts" msgstr "Descrive uno o più context" #: pkg/kubectl/cmd/top_node.go:78 msgid "Display Resource (CPU/Memory) usage of nodes" msgstr "Visualizza l'utilizzo di risorse (CPU/Memoria) per nodo" #: pkg/kubectl/cmd/top_pod.go:80 msgid "Display Resource (CPU/Memory) usage of pods" msgstr "Visualizza l'utilizzo di risorse (CPU/Memoria) per pod." #: pkg/kubectl/cmd/top.go:44 msgid "Display Resource (CPU/Memory) usage." msgstr "Visualizza l'utilizzo di risorse (CPU/Memoria)." #: pkg/kubectl/cmd/clusterinfo.go:51 msgid "Display cluster info" msgstr "Visualizza informazioni sul cluster" #: pkg/kubectl/cmd/config/get_clusters.go:41 msgid "Display clusters defined in the kubeconfig" msgstr "Mostra i cluster definiti nel kubeconfig" #: pkg/kubectl/cmd/config/view.go:67 msgid "Display merged kubeconfig settings or a specified kubeconfig file" msgstr "" "Visualizza le impostazioni merged di kubeconfig o un file kubeconfig " "specificato" #: pkg/kubectl/cmd/get.go:111 msgid "Display one or many resources" msgstr "Visualizza una o più risorse" #: pkg/kubectl/cmd/config/current_context.go:49 msgid "Displays the current-context" msgstr "Visualizza il current-context" #: pkg/kubectl/cmd/explain.go:51 msgid "Documentation of resources" msgstr "Documentazione delle risorse" #: pkg/kubectl/cmd/drain.go:178 msgid "Drain node in preparation for maintenance" msgstr "Drain node in preparazione alla manutenzione" #: pkg/kubectl/cmd/clusterinfo_dump.go:39 msgid "Dump lots of relevant info for debugging and diagnosis" msgstr "Dump di un sacco di informazioni pertinenti per il debug e la diagnosi" #: pkg/kubectl/cmd/edit.go:110 msgid "Edit a resource on the server" msgstr "Modificare una risorsa sul server" #: pkg/kubectl/cmd/create_secret.go:160 msgid "Email for Docker registry" msgstr "Email per il registro Docker" #: pkg/kubectl/cmd/exec.go:69 msgid "Execute a command in a container" msgstr "Esegui un comando in un contenitore" #: pkg/kubectl/cmd/rollingupdate.go:103 msgid "" "Explicit policy for when to pull container images. Required when --image is " "same as existing image, ignored otherwise." msgstr "" "Politica esplicita per il pull delle immagini container. Richiesto quando --" "image è uguale all'immagine esistente, altrimenti ignorata." #: pkg/kubectl/cmd/portforward.go:76 msgid "Forward one or more local ports to a pod" msgstr "Inoltra una o più porte locali a un pod" #: pkg/kubectl/cmd/help.go:37 msgid "Help about any command" msgstr "Aiuto per qualsiasi comando" #: pkg/kubectl/cmd/expose.go:103 msgid "" "IP to assign to the Load Balancer. If empty, an ephemeral IP will be created " "and used (cloud-provider specific)." msgstr "" "IP da assegnare al Load Balancer. Se vuota, un IP effimero verrà creato e " "utilizzato (specifico per provider cloud)." #: pkg/kubectl/cmd/expose.go:112 msgid "" "If non-empty, set the session affinity for the service to this; legal values: " "'None', 'ClientIP'" msgstr "" "Se non è vuoto, impostare l'affinità di sessione per il servizio; Valori " "validi: 'None', 'ClientIP'" #: pkg/kubectl/cmd/annotate.go:136 msgid "" "If non-empty, the annotation update will only succeed if this is the current " "resource-version for the object. Only valid when specifying a single resource." msgstr "" "Se non è vuoto, l'aggiornamento delle annotazioni avrà successo solo se " "questa è la resource-version corrente per l'oggetto. Valido solo quando si " "specifica una singola risorsa." #: pkg/kubectl/cmd/label.go:134 msgid "" "If non-empty, the labels update will only succeed if this is the current " "resource-version for the object. Only valid when specifying a single resource." msgstr "" "Se non vuoto, l'aggiornamento delle label avrà successo solo se questa è la " "resource-version corrente per l'oggetto. Valido solo quando si specifica una " "singola risorsa." #: pkg/kubectl/cmd/rollingupdate.go:99 msgid "" "Image to use for upgrading the replication controller. Must be distinct from " "the existing image (either new image or new image tag). Can not be used with " "--filename/-f" msgstr "" "Immagine da utilizzare per aggiornare il replication controller. Deve essere " "diversa dall'immagine esistente (nuova immagine o nuovo tag immagine). Non " "può essere utilizzata con --filename/-f" #: pkg/kubectl/cmd/rollout/rollout.go:47 msgid "Manage a deployment rollout" msgstr "Gestisci un deployment rollout" #: pkg/kubectl/cmd/drain.go:128 msgid "Mark node as schedulable" msgstr "Contrassegnare il nodo come programmabile" #: pkg/kubectl/cmd/drain.go:103 msgid "Mark node as unschedulable" msgstr "Contrassegnare il nodo come non programmabile" #: pkg/kubectl/cmd/rollout/rollout_pause.go:74 msgid "Mark the provided resource as paused" msgstr "Imposta la risorsa indicata in pausa" #: pkg/kubectl/cmd/certificates.go:36 msgid "Modify certificate resources." msgstr "Modificare le risorse del certificato." #: pkg/kubectl/cmd/config/config.go:40 msgid "Modify kubeconfig files" msgstr "Modifica i file kubeconfig" #: pkg/kubectl/cmd/expose.go:108 msgid "" "Name or number for the port on the container that the service should direct " "traffic to. Optional." msgstr "" "Nome o numero di porta nel container verso il quale il servizio deve dirigere " "il traffico. Opzionale." #: pkg/kubectl/cmd/logs.go:113 msgid "" "Only return logs after a specific date (RFC3339). Defaults to all logs. Only " "one of since-time / since may be used." msgstr "" "Restituisce solo i log dopo una data specificata (RFC3339). Predefinito tutti " "i log. È possibile utilizzare solo uno tra data-inizio/a-partire-da." #: pkg/kubectl/cmd/completion.go:104 msgid "Output shell completion code for the specified shell (bash or zsh)" msgstr "" "Codice di completamento shell di output per la shell specificata (bash o zsh)" #: pkg/kubectl/cmd/convert.go:85 msgid "" "Output the formatted object with the given group version (for ex: 'extensions/" "v1beta1').)" msgstr "" "Output dell'oggetto formattato con la versione del gruppo fornito (per " "esempio: 'extensions/v1beta1').)" #: pkg/kubectl/cmd/create_secret.go:158 msgid "Password for Docker registry authentication" msgstr "Password per l'autenticazione al registro di Docker" #: pkg/kubectl/cmd/create_secret.go:226 msgid "Path to PEM encoded public key certificate." msgstr "Percorso certificato di chiave pubblica codificato PEM." #: pkg/kubectl/cmd/create_secret.go:227 msgid "Path to private key associated with given certificate." msgstr "Percorso alla chiave privata associata a un certificato specificato." #: pkg/kubectl/cmd/rollingupdate.go:85 msgid "Perform a rolling update of the given ReplicationController" msgstr "Eseguire un rolling update del ReplicationController specificato" #: pkg/kubectl/cmd/scale.go:83 msgid "" "Precondition for resource version. Requires that the current resource version " "match this value in order to scale." msgstr "" "Prerequisito per la versione delle risorse. Richiede che la versione corrente " "delle risorse corrisponda a questo valore per scalare." #: pkg/kubectl/cmd/version.go:40 msgid "Print the client and server version information" msgstr "Stampa per client e server le informazioni sulla versione" #: pkg/kubectl/cmd/options.go:38 msgid "Print the list of flags inherited by all commands" msgstr "Stampa l'elenco flag ereditati da tutti i comandi" #: pkg/kubectl/cmd/logs.go:93 msgid "Print the logs for a container in a pod" msgstr "Stampa i log per container in un pod" #: pkg/kubectl/cmd/replace.go:71 msgid "Replace a resource by filename or stdin" msgstr "Sostituire una risorsa per nomefile o stdin" #: pkg/kubectl/cmd/rollout/rollout_resume.go:72 msgid "Resume a paused resource" msgstr "Riprendere una risorsa in pausa" #: pkg/kubectl/cmd/create_rolebinding.go:57 msgid "Role this RoleBinding should reference" msgstr "Ruolo di riferimento per RoleBinding" #: pkg/kubectl/cmd/run.go:97 msgid "Run a particular image on the cluster" msgstr "Esegui una particolare immagine nel cluster" #: pkg/kubectl/cmd/proxy.go:69 msgid "Run a proxy to the Kubernetes API server" msgstr "Eseguire un proxy al server Kubernetes API" #: pkg/kubectl/cmd/create_secret.go:161 msgid "Server location for Docker registry" msgstr "Posizione del server per il Registro Docker" #: pkg/kubectl/cmd/scale.go:71 msgid "" "Set a new size for a Deployment, ReplicaSet, Replication Controller, or Job" msgstr "" "Imposta una nuova dimensione per Deployment, ReplicaSet, Replication " "Controller, o Job" #: pkg/kubectl/cmd/set/set.go:38 msgid "Set specific features on objects" msgstr "Imposta caratteristiche specifiche sugli oggetti" #: pkg/kubectl/cmd/apply_set_last_applied.go:83 msgid "" "Set the last-applied-configuration annotation on a live object to match the " "contents of a file." msgstr "" "Imposta l'annotazione dell'ultima-configurazione-applicata ad un oggetto live " "per abbinare il contenuto di un file." #: pkg/kubectl/cmd/set/set_selector.go:82 msgid "Set the selector on a resource" msgstr "Impostare il selettore di una risorsa" #: pkg/kubectl/cmd/config/create_cluster.go:68 msgid "Sets a cluster entry in kubeconfig" msgstr "Imposta una voce cluster in kubeconfig" #: pkg/kubectl/cmd/config/create_context.go:58 msgid "Sets a context entry in kubeconfig" msgstr "Imposta una voce context in kubeconfig" #: pkg/kubectl/cmd/config/create_authinfo.go:104 msgid "Sets a user entry in kubeconfig" msgstr "Imposta una voce utente in kubeconfig" #: pkg/kubectl/cmd/config/set.go:60 msgid "Sets an individual value in a kubeconfig file" msgstr "Imposta un singolo valore in un file kubeconfig" #: pkg/kubectl/cmd/config/use_context.go:49 msgid "Sets the current-context in a kubeconfig file" msgstr "Imposta il current-context in un file kubeconfig" #: pkg/kubectl/cmd/describe.go:86 msgid "Show details of a specific resource or group of resources" msgstr "Mostra i dettagli di una specifica risorsa o un gruppo di risorse" #: pkg/kubectl/cmd/rollout/rollout_status.go:58 msgid "Show the status of the rollout" msgstr "Mostra lo stato del rollout" #: pkg/kubectl/cmd/expose.go:106 msgid "Synonym for --target-port" msgstr "Sinonimo di --target-port" #: pkg/kubectl/cmd/expose.go:88 msgid "" "Take a replication controller, service, deployment or pod and expose it as a " "new Kubernetes Service" msgstr "" "Prende un replication controller, service, deployment o un pod e lo espone " "come nuovo servizio Kubernetes" #: pkg/kubectl/cmd/run.go:117 msgid "The image for the container to run." msgstr "L'immagine per il container da eseguire." #: pkg/kubectl/cmd/run.go:119 msgid "" "The image pull policy for the container. If left empty, this value will not " "be specified by the client and defaulted by the server" msgstr "" "La politica di pull dell'immagine per il container. Se lasciato vuoto, questo " "valore non verrà specificato dal client e predefinito dal server" #: pkg/kubectl/cmd/rollingupdate.go:101 msgid "" "The key to use to differentiate between two different controllers, default " "'deployment'. Only relevant when --image is specified, ignored otherwise" msgstr "" "La chiave da utilizzare per distinguere tra due controller diversi, " "predefinito \"deployment\". Rilevante soltanto quando --image è specificato, " "altrimenti ignorato" #: pkg/kubectl/cmd/create_pdb.go:63 msgid "The minimum number or percentage of available pods this budget requires." msgstr "" "Il numero minimo o la percentuale di pod disponibili che questo budget " "richiede." #: pkg/kubectl/cmd/expose.go:111 msgid "The name for the newly created object." msgstr "Il nome dell'oggetto appena creato." #: pkg/kubectl/cmd/autoscale.go:72 msgid "" "The name for the newly created object. If not specified, the name of the " "input resource will be used." msgstr "" "Il nome dell'oggetto appena creato. Se non specificato, verrà utilizzato il " "nome della risorsa di input." #: pkg/kubectl/cmd/run.go:116 msgid "" "The name of the API generator to use, see http://kubernetes.io/docs/user-" "guide/kubectl-conventions/#generators for a list." msgstr "" "Il nome del generatore API da utilizzare, si veda http://kubernetes.io/docs/" "user-guide/kubectl-conventions/#generators per un elenco." #: pkg/kubectl/cmd/autoscale.go:67 msgid "" "The name of the API generator to use. Currently there is only 1 generator." msgstr "" "Il nome del generatore API da utilizzare. Attualmente c'è solo 1 generatore." #: pkg/kubectl/cmd/expose.go:99 msgid "" "The name of the API generator to use. There are 2 generators: 'service/v1' " "and 'service/v2'. The only difference between them is that service port in v1 " "is named 'default', while it is left unnamed in v2. Default is 'service/v2'." msgstr "" "Il nome del generatore API da utilizzare. Ci sono 2 generatori: 'service/v1' " "e 'service/v2'. L'unica differenza tra loro è che la porta di servizio in v1 " "è denominata \"predefinita\", mentre viene lasciata unnamed in v2. Il valore " "predefinito è 'service/v2'." #: pkg/kubectl/cmd/run.go:136 msgid "" "The name of the generator to use for creating a service. Only used if --" "expose is true" msgstr "" "Il nome del generatore da utilizzare per la creazione di un servizio. " "Utilizzato solo se --expose è true" #: pkg/kubectl/cmd/expose.go:100 msgid "The network protocol for the service to be created. Default is 'TCP'." msgstr "" "Il protocollo di rete per il servizio da creare. Il valore predefinito è " "'TCP'." #: pkg/kubectl/cmd/expose.go:101 msgid "" "The port that the service should serve on. Copied from the resource being " "exposed, if unspecified" msgstr "" "La porta che il servizio deve servire. Copiato dalla risorsa esposta, se non " "specificata" #: pkg/kubectl/cmd/run.go:124 msgid "" "The port that this container exposes. If --expose is true, this is also the " "port used by the service that is created." msgstr "" "La porta che questo contenitore espone. Se --expose è true, questa è anche la " "porta utilizzata dal servizio creato." #: pkg/kubectl/cmd/run.go:134 msgid "" "The resource requirement limits for this container. For example, 'cpu=200m," "memory=512Mi'. Note that server side components may assign limits depending " "on the server configuration, such as limit ranges." msgstr "" "I limiti delle richieste di risorse per questo contenitore. Ad esempio, " "'cpu=200m,memory=512Mi'. Si noti che i componenti lato server possono " "assegnare i limiti a seconda della configurazione del server, ad esempio " "intervalli di limiti." #: pkg/kubectl/cmd/run.go:133 msgid "" "The resource requirement requests for this container. For example, 'cpu=100m," "memory=256Mi'. Note that server side components may assign requests " "depending on the server configuration, such as limit ranges." msgstr "" "La risorsa necessita di richieste di requisiti per questo pod. Ad esempio, " "'cpu = 100m, memoria = 256Mi'. Si noti che i componenti lato server possono " "assegnare i requisiti a seconda della configurazione del server, ad esempio " "intervalli di limiti." #: pkg/kubectl/cmd/run.go:131 msgid "" "The restart policy for this Pod. Legal values [Always, OnFailure, Never]. " "If set to 'Always' a deployment is created, if set to 'OnFailure' a job is " "created, if set to 'Never', a regular pod is created. For the latter two --" "replicas must be 1. Default 'Always', for CronJobs ` + "`" + `Never` + "`" + `." msgstr "" "La politica di riavvio per questo Pod. Valori accettati [Always, OnFailure, " "Never]. Se impostato su 'Always' viene creato un deployment, se impostato su " "'OnFailure' viene creato un job, se impostato su 'Never', viene creato un " "pod. Per questi ultimi due le - repliche devono essere 1. Predefinito " "'Always', per CronJobs ` + "`" + `Never` + "`" + `." #: pkg/kubectl/cmd/create_secret.go:88 msgid "The type of secret to create" msgstr "Tipo di segreto da creare" #: pkg/kubectl/cmd/expose.go:102 msgid "" "Type for this service: ClusterIP, NodePort, or LoadBalancer. Default is " "'ClusterIP'." msgstr "" "Digitare per questo servizio: ClusterIP, NodePort o LoadBalancer. " "Ppredefinito è 'ClusterIP'." #: pkg/kubectl/cmd/rollout/rollout_undo.go:72 msgid "Undo a previous rollout" msgstr "Annulla un precedente rollout" #: pkg/kubectl/cmd/config/unset.go:48 msgid "Unsets an individual value in a kubeconfig file" msgstr "Annulla singolo valore in un file kubeconfig" #: pkg/kubectl/cmd/patch.go:96 msgid "Update field(s) of a resource using strategic merge patch" msgstr "Aggiornare campo/i risorsa utilizzando merge patch strategici" #: pkg/kubectl/cmd/set/set_image.go:95 msgid "Update image of a pod template" msgstr "Aggiorna immagine di un pod template" #: pkg/kubectl/cmd/set/set_resources.go:102 msgid "Update resource requests/limits on objects with pod templates" msgstr "Aggiorna richieste di risorse/limiti sugli oggetti con pod template" #: pkg/kubectl/cmd/annotate.go:116 msgid "Update the annotations on a resource" msgstr "Aggiorna annotazioni di risorsa" #: pkg/kubectl/cmd/label.go:114 msgid "Update the labels on a resource" msgstr "Aggiorna label di una risorsa" #: pkg/kubectl/cmd/taint.go:87 msgid "Update the taints on one or more nodes" msgstr "Aggiorna i taints su uno o più nodi" #: pkg/kubectl/cmd/create_secret.go:156 msgid "Username for Docker registry authentication" msgstr "Nome utente per l'autenticazione nel registro Docker" #: pkg/kubectl/cmd/apply_view_last_applied.go:64 msgid "View latest last-applied-configuration annotations of a resource/object" msgstr "" "Visualizza ultime annotazioni dell'ultima configurazione applicata per " "risorsa/oggetto" #: pkg/kubectl/cmd/rollout/rollout_history.go:52 msgid "View rollout history" msgstr "Visualizza la storia del rollout" #: pkg/kubectl/cmd/clusterinfo_dump.go:46 msgid "" "Where to output the files. If empty or '-' uses stdout, otherwise creates a " "directory hierarchy in that directory" msgstr "" "Dove eseguire l'output dei file. Se vuota o '-' utilizza lo stdout, " "altrimenti crea una gerarchia di directory in quella directory" #: pkg/kubectl/cmd/run_test.go:85 msgid "dummy restart flag)" msgstr "flag di riavvio finto)" #: pkg/kubectl/cmd/create_service.go:254 msgid "external name of service" msgstr "nome esterno del servizio" #: pkg/kubectl/cmd/cmd.go:227 msgid "kubectl controls the Kubernetes cluster manager" msgstr "Kubectl controlla il gestore cluster di Kubernetes" `) func translationsKubectlIt_itLc_messagesK8sPoBytes() ([]byte, error) { return _translationsKubectlIt_itLc_messagesK8sPo, nil } func translationsKubectlIt_itLc_messagesK8sPo() (*asset, error) { bytes, err := translationsKubectlIt_itLc_messagesK8sPoBytes() if err != nil { return nil, err } info := bindataFileInfo{name: "translations/kubectl/it_IT/LC_MESSAGES/k8s.po", size: 0, mode: os.FileMode(0), modTime: time.Unix(0, 0)} a := &asset{bytes: bytes, info: info} return a, nil } var _translationsKubectlJa_jpLc_messagesK8sMo = 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# Create a ClusterRoleBinding for user1, user2, and group1 using the cluster-admin ClusterRole\n\t\t kubectl create clusterrolebinding cluster-admin --clusterrole=cluster-admin --user=user1 --user=user2 --group=group1\x00\n\t\t # Create a RoleBinding for user1, user2, and group1 using the admin ClusterRole\n\t\t kubectl create rolebinding admin --clusterrole=admin --user=user1 --user=user2 --group=group1\x00\n\t\t # Create a new configmap named my-config based on folder bar\n\t\t kubectl create configmap my-config --from-file=path/to/bar\n\n\t\t # Create a new configmap named my-config with specified keys instead of file basenames on disk\n\t\t kubectl create configmap my-config --from-file=key1=/path/to/bar/file1.txt --from-file=key2=/path/to/bar/file2.txt\n\n\t\t # Create a new configmap named my-config with key1=config1 and key2=config2\n\t\t kubectl create configmap my-config --from-literal=key1=config1 --from-literal=key2=config2\x00\n\t\t # If you don't already have a .dockercfg file, you can create a dockercfg secret directly by using:\n\t\t kubectl create secret docker-registry my-secret --docker-server=DOCKER_REGISTRY_SERVER --docker-username=DOCKER_USER --docker-password=DOCKER_PASSWORD --docker-email=DOCKER_EMAIL\x00\n\t\t # Show metrics for all nodes\n\t\t kubectl top node\n\n\t\t # Show metrics for a given node\n\t\t kubectl top node NODE_NAME\x00\n\t\t# Apply the configuration in pod.json to a pod.\n\t\tkubectl apply -f ./pod.json\n\n\t\t# Apply the JSON passed into stdin to a pod.\n\t\tcat pod.json | kubectl apply -f -\n\n\t\t# Note: --prune is still in Alpha\n\t\t# Apply the configuration in manifest.yaml that matches label app=nginx and delete all the other resources that are not in the file and match label app=nginx.\n\t\tkubectl apply --prune -f manifest.yaml -l app=nginx\n\n\t\t# Apply the configuration in manifest.yaml and delete all the other configmaps that are not in the file.\n\t\tkubectl apply --prune -f manifest.yaml --all --prune-whitelist=core/v1/ConfigMap\x00\n\t\t# Auto scale a deployment \"foo\", with the number of pods between 2 and 10, no target CPU utilization specified so a default autoscaling policy will be used:\n\t\tkubectl autoscale deployment foo --min=2 --max=10\n\n\t\t# Auto scale a replication controller \"foo\", with the number of pods between 1 and 5, target CPU utilization at 80%:\n\t\tkubectl autoscale rc foo --max=5 --cpu-percent=80\x00\n\t\t# Convert 'pod.yaml' to latest version and print to stdout.\n\t\tkubectl convert -f pod.yaml\n\n\t\t# Convert the live state of the resource specified by 'pod.yaml' to the latest version\n\t\t# and print to stdout in json format.\n\t\tkubectl convert -f pod.yaml --local -o json\n\n\t\t# Convert all files under current directory to latest version and create them all.\n\t\tkubectl convert -f . | kubectl create -f -\x00\n\t\t# Create a ClusterRole named \"pod-reader\" that allows user to perform \"get\", \"watch\" and \"list\" on pods\n\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --resource=pods\n\n\t\t# Create a ClusterRole named \"pod-reader\" with ResourceName specified\n\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --resource=pods --resource-name=readablepod\x00\n\t\t# Create a Role named \"pod-reader\" that allows user to perform \"get\", \"watch\" and \"list\" on pods\n\t\tkubectl create role pod-reader --verb=get --verb=list --verb=watch --resource=pods\n\n\t\t# Create a Role named \"pod-reader\" with ResourceName specified\n\t\tkubectl create role pod-reader --verb=get --verg=list --verb=watch --resource=pods --resource-name=readablepod\x00\n\t\t# Create a new resourcequota named my-quota\n\t\tkubectl create quota my-quota --hard=cpu=1,memory=1G,pods=2,services=3,replicationcontrollers=2,resourcequotas=1,secrets=5,persistentvolumeclaims=10\n\n\t\t# Create a new resourcequota named best-effort\n\t\tkubectl create quota best-effort --hard=pods=100 --scopes=BestEffort\x00\n\t\t# Create a pod disruption budget named my-pdb that will select all pods with the app=rails label\n\t\t# and require at least one of them being available at any point in time.\n\t\tkubectl create poddisruptionbudget my-pdb --selector=app=rails --min-available=1\n\n\t\t# Create a pod disruption budget named my-pdb that will select all pods with the app=nginx label\n\t\t# and require at least half of the pods selected to be available at any point in time.\n\t\tkubectl create pdb my-pdb --selector=app=nginx --min-available=50%\x00\n\t\t# Create a pod using the data in pod.json.\n\t\tkubectl create -f ./pod.json\n\n\t\t# Create a pod based on the JSON passed into stdin.\n\t\tcat pod.json | kubectl create -f -\n\n\t\t# Edit the data in docker-registry.yaml in JSON using the v1 API format then create the resource using the edited data.\n\t\tkubectl create -f docker-registry.yaml --edit --output-version=v1 -o json\x00\n\t\t# Create a service for a replicated nginx, which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose rc nginx --port=80 --target-port=8000\n\n\t\t# Create a service for a replication controller identified by type and name specified in \"nginx-controller.yaml\", which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose -f nginx-controller.yaml --port=80 --target-port=8000\n\n\t\t# Create a service for a pod valid-pod, which serves on port 444 with the name \"frontend\"\n\t\tkubectl expose pod valid-pod --port=444 --name=frontend\n\n\t\t# Create a second service based on the above service, exposing the container port 8443 as port 443 with the name \"nginx-https\"\n\t\tkubectl expose service nginx --port=443 --target-port=8443 --name=nginx-https\n\n\t\t# Create a service for a replicated streaming application on port 4100 balancing UDP traffic and named 'video-stream'.\n\t\tkubectl expose rc streamer --port=4100 --protocol=udp --name=video-stream\n\n\t\t# Create a service for a replicated nginx using replica set, which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose rs nginx --port=80 --target-port=8000\n\n\t\t# Create a service for an nginx deployment, which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose deployment nginx --port=80 --target-port=8000\x00\n\t\t# Delete a pod using the type and name specified in pod.json.\n\t\tkubectl delete -f ./pod.json\n\n\t\t# Delete a pod based on the type and name in the JSON passed into stdin.\n\t\tcat pod.json | kubectl delete -f -\n\n\t\t# Delete pods and services with same names \"baz\" and \"foo\"\n\t\tkubectl delete pod,service baz foo\n\n\t\t# Delete pods and services with label name=myLabel.\n\t\tkubectl delete pods,services -l name=myLabel\n\n\t\t# Delete a pod with minimal delay\n\t\tkubectl delete pod foo --now\n\n\t\t# Force delete a pod on a dead node\n\t\tkubectl delete pod foo --grace-period=0 --force\n\n\t\t# Delete all pods\n\t\tkubectl delete pods --all\x00\n\t\t# Describe a node\n\t\tkubectl describe nodes kubernetes-node-emt8.c.myproject.internal\n\n\t\t# Describe a pod\n\t\tkubectl describe pods/nginx\n\n\t\t# Describe a pod identified by type and name in \"pod.json\"\n\t\tkubectl describe -f pod.json\n\n\t\t# Describe all pods\n\t\tkubectl describe pods\n\n\t\t# Describe pods by label name=myLabel\n\t\tkubectl describe po -l name=myLabel\n\n\t\t# Describe all pods managed by the 'frontend' replication controller (rc-created pods\n\t\t# get the name of the rc as a prefix in the pod the name).\n\t\tkubectl describe pods frontend\x00\n\t\t# Drain node \"foo\", even if there are pods not managed by a ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet on it.\n\t\t$ kubectl drain foo --force\n\n\t\t# As above, but abort if there are pods not managed by a ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet, and use a grace period of 15 minutes.\n\t\t$ kubectl drain foo --grace-period=900\x00\n\t\t# Edit the service named 'docker-registry':\n\t\tkubectl edit svc/docker-registry\n\n\t\t# Use an alternative editor\n\t\tKUBE_EDITOR=\"nano\" kubectl edit svc/docker-registry\n\n\t\t# Edit the job 'myjob' in JSON using the v1 API format:\n\t\tkubectl edit job.v1.batch/myjob -o json\n\n\t\t# Edit the deployment 'mydeployment' in YAML and save the modified config in its annotation:\n\t\tkubectl edit deployment/mydeployment -o yaml --save-config\x00\n\t\t# Get output from running 'date' from pod 123456-7890, using the first container by default\n\t\tkubectl exec 123456-7890 date\n\n\t\t# Get output from running 'date' in ruby-container from pod 123456-7890\n\t\tkubectl exec 123456-7890 -c ruby-container date\n\n\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container from pod 123456-7890\n\t\t# and sends stdout/stderr from 'bash' back to the client\n\t\tkubectl exec 123456-7890 -c ruby-container -i -t -- bash -il\x00\n\t\t# Get output from running pod 123456-7890, using the first container by default\n\t\tkubectl attach 123456-7890\n\n\t\t# Get output from ruby-container from pod 123456-7890\n\t\tkubectl attach 123456-7890 -c ruby-container\n\n\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container from pod 123456-7890\n\t\t# and sends stdout/stderr from 'bash' back to the client\n\t\tkubectl attach 123456-7890 -c ruby-container -i -t\n\n\t\t# Get output from the first pod of a ReplicaSet named nginx\n\t\tkubectl attach rs/nginx\n\t\t\x00\n\t\t# Get the documentation of the resource and its fields\n\t\tkubectl explain pods\n\n\t\t# Get the documentation of a specific field of a resource\n\t\tkubectl explain pods.spec.containers\x00\n\t\t# Install bash completion on a Mac using homebrew\n\t\tbrew install bash-completion\n\t\tprintf \"\n# Bash completion support\nsource $(brew --prefix)/etc/bash_completion\n\" >> $HOME/.bash_profile\n\t\tsource $HOME/.bash_profile\n\n\t\t# Load the kubectl completion code for bash into the current shell\n\t\tsource <(kubectl completion bash)\n\n\t\t# Write bash completion code to a file and source if from .bash_profile\n\t\tkubectl completion bash > ~/.kube/completion.bash.inc\n\t\tprintf \"\n# Kubectl shell completion\nsource '$HOME/.kube/completion.bash.inc'\n\" >> $HOME/.bash_profile\n\t\tsource $HOME/.bash_profile\n\n\t\t# Load the kubectl completion code for zsh[1] into the current shell\n\t\tsource <(kubectl completion zsh)\x00\n\t\t# List all pods in ps output format.\n\t\tkubectl get pods\n\n\t\t# List all pods in ps output format with more information (such as node name).\n\t\tkubectl get pods -o wide\n\n\t\t# List a single replication controller with specified NAME in ps output format.\n\t\tkubectl get replicationcontroller web\n\n\t\t# List a single pod in JSON output format.\n\t\tkubectl get -o json pod web-pod-13je7\n\n\t\t# List a pod identified by type and name specified in \"pod.yaml\" in JSON output format.\n\t\tkubectl get -f pod.yaml -o json\n\n\t\t# Return only the phase value of the specified pod.\n\t\tkubectl get -o template pod/web-pod-13je7 --template={{.status.phase}}\n\n\t\t# List all replication controllers and services together in ps output format.\n\t\tkubectl get rc,services\n\n\t\t# List one or more resources by their type and names.\n\t\tkubectl get rc/web service/frontend pods/web-pod-13je7\n\n\t\t# List all resources with different types.\n\t\tkubectl get all\x00\n\t\t# Listen on ports 5000 and 6000 locally, forwarding data to/from ports 5000 and 6000 in the pod\t\tkubectl port-forward pod/mypod 5000 6000\n\t\t# Listen on ports 5000 and 6000 locally, forwarding data to/from ports 5000 and 6000 in a pod selected by the deployment\t\tkubectl port-forward deployment/mydeployment 5000 6000\n\t\t# Listen on ports 5000 and 6000 locally, forwarding data to/from ports 5000 and 6000 in a pod selected by the service\t\tkubectl port-forward service/myservice 5000 6000\n\t\t# Listen on port 8888 locally, forwarding to 5000 in the pod\t\tkubectl port-forward pod/mypod 8888:5000\n\t\t# Listen on a random port locally, forwarding to 5000 in the pod\t\tkubectl port-forward pod/mypod :5000\x00\n\t\t# Mark node \"foo\" as schedulable.\n\t\t$ kubectl uncordon foo\x00\n\t\t# Mark node \"foo\" as unschedulable.\n\t\tkubectl cordon foo\x00\n\t\t# Partially update a node using strategic merge patch\n\t\tkubectl patch node k8s-node-1 -p '{\"spec\":{\"unschedulable\":true}}'\n\n\t\t# Partially update a node identified by the type and name specified in \"node.json\" using strategic merge patch\n\t\tkubectl patch -f node.json -p '{\"spec\":{\"unschedulable\":true}}'\n\n\t\t# Update a container's image; spec.containers[*].name is required because it's a merge key\n\t\tkubectl patch pod valid-pod -p '{\"spec\":{\"containers\":[{\"name\":\"kubernetes-serve-hostname\",\"image\":\"new image\"}]}}'\n\n\t\t# Update a container's image using a json patch with positional arrays\n\t\tkubectl patch pod valid-pod --type='json' -p='[{\"op\": \"replace\", \"path\": \"/spec/containers/0/image\", \"value\":\"new image\"}]'\x00\n\t\t# Print flags inherited by all commands\n\t\tkubectl options\x00\n\t\t# Print the address of the master and cluster services\n\t\tkubectl cluster-info\x00\n\t\t# Print the client and server versions for the current context\n\t\tkubectl version\x00\n\t\t# Print the supported API versions\n\t\tkubectl api-versions\x00\n\t\t# Replace a pod using the data in pod.json.\n\t\tkubectl replace -f ./pod.json\n\n\t\t# Replace a pod based on the JSON passed into stdin.\n\t\tcat pod.json | kubectl replace -f -\n\n\t\t# Update a single-container pod's image version (tag) to v4\n\t\tkubectl get pod mypod -o yaml | sed 's/\\(image: myimage\\):.*$/\x01:v4/' | kubectl replace -f -\n\n\t\t# Force replace, delete and then re-create the resource\n\t\tkubectl replace --force -f ./pod.json\x00\n\t\t# Return snapshot logs from pod nginx with only one container\n\t\tkubectl logs nginx\n\n\t\t# Return snapshot logs for the pods defined by label app=nginx\n\t\tkubectl logs -lapp=nginx\n\n\t\t# Return snapshot of previous terminated ruby container logs from pod web-1\n\t\tkubectl logs -p -c ruby web-1\n\n\t\t# Begin streaming the logs of the ruby container in pod web-1\n\t\tkubectl logs -f -c ruby web-1\n\n\t\t# Display only the most recent 20 lines of output in pod nginx\n\t\tkubectl logs --tail=20 nginx\n\n\t\t# Show all logs from pod nginx written in the last hour\n\t\tkubectl logs --since=1h nginx\n\n\t\t# Return snapshot logs from first container of a job named hello\n\t\tkubectl logs job/hello\n\n\t\t# Return snapshot logs from container nginx-1 of a deployment named nginx\n\t\tkubectl logs deployment/nginx -c nginx-1\x00\n\t\t# Run a proxy to kubernetes apiserver on port 8011, serving static content from ./local/www/\n\t\tkubectl proxy --port=8011 --www=./local/www/\n\n\t\t# Run a proxy to kubernetes apiserver on an arbitrary local port.\n\t\t# The chosen port for the server will be output to stdout.\n\t\tkubectl proxy --port=0\n\n\t\t# Run a proxy to kubernetes apiserver, changing the api prefix to k8s-api\n\t\t# This makes e.g. the pods api available at localhost:8001/k8s-api/v1/pods/\n\t\tkubectl proxy --api-prefix=/k8s-api\x00\n\t\t# Scale a replicaset named 'foo' to 3.\n\t\tkubectl scale --replicas=3 rs/foo\n\n\t\t# Scale a resource identified by type and name specified in \"foo.yaml\" to 3.\n\t\tkubectl scale --replicas=3 -f foo.yaml\n\n\t\t# If the deployment named mysql's current size is 2, scale mysql to 3.\n\t\tkubectl scale --current-replicas=2 --replicas=3 deployment/mysql\n\n\t\t# Scale multiple replication controllers.\n\t\tkubectl scale --replicas=5 rc/foo rc/bar rc/baz\n\n\t\t# Scale job named 'cron' to 3.\n\t\tkubectl scale --replicas=3 job/cron\x00\n\t\t# Set the last-applied-configuration of a resource to match the contents of a file.\n\t\tkubectl apply set-last-applied -f deploy.yaml\n\n\t\t# Execute set-last-applied against each configuration file in a directory.\n\t\tkubectl apply set-last-applied -f path/\n\n\t\t# Set the last-applied-configuration of a resource to match the contents of a file, will create the annotation if it does not already exist.\n\t\tkubectl apply set-last-applied -f deploy.yaml --create-annotation=true\n\t\t\x00\n\t\t# Show metrics for all pods in the default namespace\n\t\tkubectl top pod\n\n\t\t# Show metrics for all pods in the given namespace\n\t\tkubectl top pod --namespace=NAMESPACE\n\n\t\t# Show metrics for a given pod and its containers\n\t\tkubectl top pod POD_NAME --containers\n\n\t\t# Show metrics for the pods defined by label name=myLabel\n\t\tkubectl top pod -l name=myLabel\x00\n\t\t# Shut down foo.\n\t\tkubectl stop replicationcontroller foo\n\n\t\t# Stop pods and services with label name=myLabel.\n\t\tkubectl stop pods,services -l name=myLabel\n\n\t\t# Shut down the service defined in service.json\n\t\tkubectl stop -f service.json\n\n\t\t# Shut down all resources in the path/to/resources directory\n\t\tkubectl stop -f path/to/resources\x00\n\t\t# Start a single instance of nginx.\n\t\tkubectl run nginx --image=nginx\n\n\t\t# Start a single instance of hazelcast and let the container expose port 5701 .\n\t\tkubectl run hazelcast --image=hazelcast --port=5701\n\n\t\t# Start a single instance of hazelcast and set environment variables \"DNS_DOMAIN=cluster\" and \"POD_NAMESPACE=default\" in the container.\n\t\tkubectl run hazelcast --image=hazelcast --env=\"DNS_DOMAIN=cluster\" --env=\"POD_NAMESPACE=default\"\n\n\t\t# Start a replicated instance of nginx.\n\t\tkubectl run nginx --image=nginx --replicas=5\n\n\t\t# Dry run. Print the corresponding API objects without creating them.\n\t\tkubectl run nginx --image=nginx --dry-run\n\n\t\t# Start a single instance of nginx, but overload the spec of the deployment with a partial set of values parsed from JSON.\n\t\tkubectl run nginx --image=nginx --overrides='{ \"apiVersion\": \"v1\", \"spec\": { ... } }'\n\n\t\t# Start a pod of busybox and keep it in the foreground, don't restart it if it exits.\n\t\tkubectl run -i -t busybox --image=busybox --restart=Never\n\n\t\t# Start the nginx container using the default command, but use custom arguments (arg1 .. argN) for that command.\n\t\tkubectl run nginx --image=nginx -- ... \n\n\t\t# Start the nginx container using a different command and custom arguments.\n\t\tkubectl run nginx --image=nginx --command -- ... \n\n\t\t# Start the perl container to compute \u03c0 to 2000 places and print it out.\n\t\tkubectl run pi --image=perl --restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'\n\n\t\t# Start the cron job to compute \u03c0 to 2000 places and print it out every 5 minutes.\n\t\tkubectl run pi --schedule=\"0/5 * * * ?\" --image=perl --restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'\x00\n\t\t# Update node 'foo' with a taint with key 'dedicated' and value 'special-user' and effect 'NoSchedule'.\n\t\t# If a taint with that key and effect already exists, its value is replaced as specified.\n\t\tkubectl taint nodes foo dedicated=special-user:NoSchedule\n\n\t\t# Remove from node 'foo' the taint with key 'dedicated' and effect 'NoSchedule' if one exists.\n\t\tkubectl taint nodes foo dedicated:NoSchedule-\n\n\t\t# Remove from node 'foo' all the taints with key 'dedicated'\n\t\tkubectl taint nodes foo dedicated-\x00\n\t\t# Update pod 'foo' with the label 'unhealthy' and the value 'true'.\n\t\tkubectl label pods foo unhealthy=true\n\n\t\t# Update pod 'foo' with the label 'status' and the value 'unhealthy', overwriting any existing value.\n\t\tkubectl label --overwrite pods foo status=unhealthy\n\n\t\t# Update all pods in the namespace\n\t\tkubectl label pods --all status=unhealthy\n\n\t\t# Update a pod identified by the type and name in \"pod.json\"\n\t\tkubectl label -f pod.json status=unhealthy\n\n\t\t# Update pod 'foo' only if the resource is unchanged from version 1.\n\t\tkubectl label pods foo status=unhealthy --resource-version=1\n\n\t\t# Update pod 'foo' by removing a label named 'bar' if it exists.\n\t\t# Does not require the --overwrite flag.\n\t\tkubectl label pods foo bar-\x00\n\t\t# Update pods of frontend-v1 using new replication controller data in frontend-v2.json.\n\t\tkubectl rolling-update frontend-v1 -f frontend-v2.json\n\n\t\t# Update pods of frontend-v1 using JSON data passed into stdin.\n\t\tcat frontend-v2.json | kubectl rolling-update frontend-v1 -f -\n\n\t\t# Update the pods of frontend-v1 to frontend-v2 by just changing the image, and switching the\n\t\t# name of the replication controller.\n\t\tkubectl rolling-update frontend-v1 frontend-v2 --image=image:v2\n\n\t\t# Update the pods of frontend by just changing the image, and keeping the old name.\n\t\tkubectl rolling-update frontend --image=image:v2\n\n\t\t# Abort and reverse an existing rollout in progress (from frontend-v1 to frontend-v2).\n\t\tkubectl rolling-update frontend-v1 frontend-v2 --rollback\x00\n\t\t# View the last-applied-configuration annotations by type/name in YAML.\n\t\tkubectl apply view-last-applied deployment/nginx\n\n\t\t# View the last-applied-configuration annotations by file in JSON\n\t\tkubectl apply view-last-applied -f deploy.yaml -o json\x00\n\t\tApply a configuration to a resource by filename or stdin.\n\t\tThis resource will be created if it doesn't exist yet.\n\t\tTo use 'apply', always create the resource initially with either 'apply' or 'create --save-config'.\n\n\t\tJSON and YAML formats are accepted.\n\n\t\tAlpha Disclaimer: the --prune functionality is not yet complete. Do not use unless you are aware of what the current state is. See https://issues.k8s.io/34274.\x00\n\t\tConvert config files between different API versions. Both YAML\n\t\tand JSON formats are accepted.\n\n\t\tThe command takes filename, directory, or URL as input, and convert it into format\n\t\tof version specified by --output-version flag. If target version is not specified or\n\t\tnot supported, convert to latest version.\n\n\t\tThe default output will be printed to stdout in YAML format. One can use -o option\n\t\tto change to output destination.\x00\n\t\tCreate a ClusterRole.\x00\n\t\tCreate a ClusterRoleBinding for a particular ClusterRole.\x00\n\t\tCreate a RoleBinding for a particular Role or ClusterRole.\x00\n\t\tCreate a TLS secret from the given public/private key pair.\n\n\t\tThe public/private key pair must exist before hand. The public key certificate must be .PEM encoded and match the given private key.\x00\n\t\tCreate a configmap based on a file, directory, or specified literal value.\n\n\t\tA single configmap may package one or more key/value pairs.\n\n\t\tWhen creating a configmap based on a file, the key will default to the basename of the file, and the value will\n\t\tdefault to the file content. If the basename is an invalid key, you may specify an alternate key.\n\n\t\tWhen creating a configmap based on a directory, each file whose basename is a valid key in the directory will be\n\t\tpackaged into the configmap. Any directory entries except regular files are ignored (e.g. subdirectories,\n\t\tsymlinks, devices, pipes, etc).\x00\n\t\tCreate a namespace with the specified name.\x00\n\t\tCreate a new secret for use with Docker registries.\n\n\t\tDockercfg secrets are used to authenticate against Docker registries.\n\n\t\tWhen using the Docker command line to push images, you can authenticate to a given registry by running\n\n\t\t $ docker login DOCKER_REGISTRY_SERVER --username=DOCKER_USER --password=DOCKER_PASSWORD --email=DOCKER_EMAIL'.\n\n That produces a ~/.dockercfg file that is used by subsequent 'docker push' and 'docker pull' commands to\n\t\tauthenticate to the registry. The email address is optional.\n\n\t\tWhen creating applications, you may have a Docker registry that requires authentication. In order for the\n\t\tnodes to pull images on your behalf, they have to have the credentials. You can provide this information\n\t\tby creating a dockercfg secret and attaching it to your service account.\x00\n\t\tCreate a pod disruption budget with the specified name, selector, and desired minimum available pods\x00\n\t\tCreate a resource by filename or stdin.\n\n\t\tJSON and YAML formats are accepted.\x00\n\t\tCreate a resourcequota with the specified name, hard limits and optional scopes\x00\n\t\tCreate a role with single rule.\x00\n\t\tCreate a secret based on a file, directory, or specified literal value.\n\n\t\tA single secret may package one or more key/value pairs.\n\n\t\tWhen creating a secret based on a file, the key will default to the basename of the file, and the value will\n\t\tdefault to the file content. If the basename is an invalid key, you may specify an alternate key.\n\n\t\tWhen creating a secret based on a directory, each file whose basename is a valid key in the directory will be\n\t\tpackaged into the secret. Any directory entries except regular files are ignored (e.g. subdirectories,\n\t\tsymlinks, devices, pipes, etc).\x00\n\t\tCreate a service account with the specified name.\x00\n\t\tCreate and run a particular image, possibly replicated.\n\n\t\tCreates a deployment or job to manage the created container(s).\x00\n\t\tCreates an autoscaler that automatically chooses and sets the number of pods that run in a kubernetes cluster.\n\n\t\tLooks up a Deployment, ReplicaSet, or ReplicationController by name and creates an autoscaler that uses the given resource as a reference.\n\t\tAn autoscaler can automatically increase or decrease number of pods deployed within the system as needed.\x00\n\t\tDelete resources by filenames, stdin, resources and names, or by resources and label selector.\n\n\t\tJSON and YAML formats are accepted. Only one type of the arguments may be specified: filenames,\n\t\tresources and names, or resources and label selector.\n\n\t\tSome resources, such as pods, support graceful deletion. These resources define a default period\n\t\tbefore they are forcibly terminated (the grace period) but you may override that value with\n\t\tthe --grace-period flag, or pass --now to set a grace-period of 1. Because these resources often\n\t\trepresent entities in the cluster, deletion may not be acknowledged immediately. If the node\n\t\thosting a pod is down or cannot reach the API server, termination may take significantly longer\n\t\tthan the grace period. To force delete a resource,\tyou must pass a grace\tperiod of 0 and specify\n\t\tthe --force flag.\n\n\t\tIMPORTANT: Force deleting pods does not wait for confirmation that the pod's processes have been\n\t\tterminated, which can leave those processes running until the node detects the deletion and\n\t\tcompletes graceful deletion. If your processes use shared storage or talk to a remote API and\n\t\tdepend on the name of the pod to identify themselves, force deleting those pods may result in\n\t\tmultiple processes running on different machines using the same identification which may lead\n\t\tto data corruption or inconsistency. Only force delete pods when you are sure the pod is\n\t\tterminated, or if your application can tolerate multiple copies of the same pod running at once.\n\t\tAlso, if you force delete pods the scheduler may place new pods on those nodes before the node\n\t\thas released those resources and causing those pods to be evicted immediately.\n\n\t\tNote that the delete command does NOT do resource version checks, so if someone\n\t\tsubmits an update to a resource right when you submit a delete, their update\n\t\twill be lost along with the rest of the resource.\x00\n\t\tDeprecated: Gracefully shut down a resource by name or filename.\n\n\t\tThe stop command is deprecated, all its functionalities are covered by delete command.\n\t\tSee 'kubectl delete --help' for more details.\n\n\t\tAttempts to shut down and delete a resource that supports graceful termination.\n\t\tIf the resource is scalable it will be scaled to 0 before deletion.\x00\n\t\tDisplay Resource (CPU/Memory/Storage) usage of nodes.\n\n\t\tThe top-node command allows you to see the resource consumption of nodes.\x00\n\t\tDisplay Resource (CPU/Memory/Storage) usage of pods.\n\n\t\tThe 'top pod' command allows you to see the resource consumption of pods.\n\n\t\tDue to the metrics pipeline delay, they may be unavailable for a few minutes\n\t\tsince pod creation.\x00\n\t\tDisplay Resource (CPU/Memory/Storage) usage.\n\n\t\tThe top command allows you to see the resource consumption for nodes or pods.\n\n\t\tThis command requires Heapster to be correctly configured and working on the server. \x00\n\t\tDrain node in preparation for maintenance.\n\n\t\tThe given node will be marked unschedulable to prevent new pods from arriving.\n\t\t'drain' evicts the pods if the APIServer supports eviction\n\t\t(http://kubernetes.io/docs/admin/disruptions/). Otherwise, it will use normal DELETE\n\t\tto delete the pods.\n\t\tThe 'drain' evicts or deletes all pods except mirror pods (which cannot be deleted through\n\t\tthe API server). If there are DaemonSet-managed pods, drain will not proceed\n\t\twithout --ignore-daemonsets, and regardless it will not delete any\n\t\tDaemonSet-managed pods, because those pods would be immediately replaced by the\n\t\tDaemonSet controller, which ignores unschedulable markings. If there are any\n\t\tpods that are neither mirror pods nor managed by ReplicationController,\n\t\tReplicaSet, DaemonSet, StatefulSet or Job, then drain will not delete any pods unless you\n\t\tuse --force. --force will also allow deletion to proceed if the managing resource of one\n\t\tor more pods is missing.\n\n\t\t'drain' waits for graceful termination. You should not operate on the machine until\n\t\tthe command completes.\n\n\t\tWhen you are ready to put the node back into service, use kubectl uncordon, which\n\t\twill make the node schedulable again.\n\n\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_drain.svg)\x00\n\t\tEdit a resource from the default editor.\n\n\t\tThe edit command allows you to directly edit any API resource you can retrieve via the\n\t\tcommand line tools. It will open the editor defined by your KUBE_EDITOR, or EDITOR\n\t\tenvironment variables, or fall back to 'vi' for Linux or 'notepad' for Windows.\n\t\tYou can edit multiple objects, although changes are applied one at a time. The command\n\t\taccepts filenames as well as command line arguments, although the files you point to must\n\t\tbe previously saved versions of resources.\n\n\t\tEditing is done with the API version used to fetch the resource.\n\t\tTo edit using a specific API version, fully-qualify the resource, version, and group.\n\n\t\tThe default format is YAML. To edit in JSON, specify \"-o json\".\n\n\t\tThe flag --windows-line-endings can be used to force Windows line endings,\n\t\totherwise the default for your operating system will be used.\n\n\t\tIn the event an error occurs while updating, a temporary file will be created on disk\n\t\tthat contains your unapplied changes. The most common error when updating a resource\n\t\tis another editor changing the resource on the server. When this occurs, you will have\n\t\tto apply your changes to the newer version of the resource, or update your temporary\n\t\tsaved copy to include the latest resource version.\x00\n\t\tMark node as schedulable.\x00\n\t\tMark node as unschedulable.\x00\n\t\tOutput shell completion code for the specified shell (bash or zsh).\n\t\tThe shell code must be evaluated to provide interactive\n\t\tcompletion of kubectl commands. This can be done by sourcing it from\n\t\tthe .bash_profile.\n\n\t\tNote: this requires the bash-completion framework, which is not installed\n\t\tby default on Mac. This can be installed by using homebrew:\n\n\t\t $ brew install bash-completion\n\n\t\tOnce installed, bash_completion must be evaluated. This can be done by adding the\n\t\tfollowing line to the .bash_profile\n\n\t\t $ source $(brew --prefix)/etc/bash_completion\n\n\t\tNote for zsh users: [1] zsh completions are only supported in versions of zsh >= 5.2\x00\n\t\tPerform a rolling update of the given ReplicationController.\n\n\t\tReplaces the specified replication controller with a new replication controller by updating one pod at a time to use the\n\t\tnew PodTemplate. The new-controller.json must specify the same namespace as the\n\t\texisting replication controller and overwrite at least one (common) label in its replicaSelector.\n\n\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_rollingupdate.svg)\x00\n\t\tReplace a resource by filename or stdin.\n\n\t\tJSON and YAML formats are accepted. If replacing an existing resource, the\n\t\tcomplete resource spec must be provided. This can be obtained by\n\n\t\t $ kubectl get TYPE NAME -o yaml\n\n\t\tPlease refer to the models in https://htmlpreview.github.io/?https://github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions.html to find if a field is mutable.\x00\n\t\tSet a new size for a Deployment, ReplicaSet, Replication Controller, or Job.\n\n\t\tScale also allows users to specify one or more preconditions for the scale action.\n\n\t\tIf --current-replicas or --resource-version is specified, it is validated before the\n\t\tscale is attempted, and it is guaranteed that the precondition holds true when the\n\t\tscale is sent to the server.\x00\n\t\tSet the latest last-applied-configuration annotations by setting it to match the contents of a file.\n\t\tThis results in the last-applied-configuration being updated as though 'kubectl apply -f ' was run,\n\t\twithout updating any other parts of the object.\x00\n\t\tTo proxy all of the kubernetes api and nothing else, use:\n\n\t\t $ kubectl proxy --api-prefix=/\n\n\t\tTo proxy only part of the kubernetes api and also some static files:\n\n\t\t $ kubectl proxy --www=/my/files --www-prefix=/static/ --api-prefix=/api/\n\n\t\tThe above lets you 'curl localhost:8001/api/v1/pods'.\n\n\t\tTo proxy the entire kubernetes api at a different root, use:\n\n\t\t $ kubectl proxy --api-prefix=/custom/\n\n\t\tThe above lets you 'curl localhost:8001/custom/api/v1/pods'\x00\n\t\tUpdate field(s) of a resource using strategic merge patch\n\n\t\tJSON and YAML formats are accepted.\n\n\t\tPlease refer to the models in https://htmlpreview.github.io/?https://github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions.html to find if a field is mutable.\x00\n\t\tUpdate the labels on a resource.\n\n\t\t* A label must begin with a letter or number, and may contain letters, numbers, hyphens, dots, and underscores, up to %[1]d characters.\n\t\t* If --overwrite is true, then existing labels can be overwritten, otherwise attempting to overwrite a label will result in an error.\n\t\t* If --resource-version is specified, then updates will use this resource version, otherwise the existing resource-version will be used.\x00\n\t\tUpdate the taints on one or more nodes.\n\n\t\t* A taint consists of a key, value, and effect. As an argument here, it is expressed as key=value:effect.\n\t\t* The key must begin with a letter or number, and may contain letters, numbers, hyphens, dots, and underscores, up to %[1]d characters.\n\t\t* The value must begin with a letter or number, and may contain letters, numbers, hyphens, dots, and underscores, up to %[2]d characters.\n\t\t* The effect must be NoSchedule, PreferNoSchedule or NoExecute.\n\t\t* Currently taint can only apply to node.\x00\n\t\tView the latest last-applied-configuration annotations by type/name or file.\n\n\t\tThe default output will be printed to stdout in YAML format. One can use -o option\n\t\tto change output format.\x00\n\t # !!!Important Note!!!\n\t # Requires that the 'tar' binary is present in your container\n\t # image. If 'tar' is not present, 'kubectl cp' will fail.\n\n\t # Copy /tmp/foo_dir local directory to /tmp/bar_dir in a remote pod in the default namespace\n\t\tkubectl cp /tmp/foo_dir :/tmp/bar_dir\n\n # Copy /tmp/foo local file to /tmp/bar in a remote pod in a specific container\n\t\tkubectl cp /tmp/foo :/tmp/bar -c \n\n\t\t# Copy /tmp/foo local file to /tmp/bar in a remote pod in namespace \n\t\tkubectl cp /tmp/foo /:/tmp/bar\n\n\t\t# Copy /tmp/foo from a remote pod to /tmp/bar locally\n\t\tkubectl cp /:/tmp/foo /tmp/bar\x00\n\t # Create a new TLS secret named tls-secret with the given key pair:\n\t kubectl create secret tls tls-secret --cert=path/to/tls.cert --key=path/to/tls.key\x00\n\t # Create a new namespace named my-namespace\n\t kubectl create namespace my-namespace\x00\n\t # Create a new secret named my-secret with keys for each file in folder bar\n\t kubectl create secret generic my-secret --from-file=path/to/bar\n\n\t # Create a new secret named my-secret with specified keys instead of names on disk\n\t kubectl create secret generic my-secret --from-file=ssh-privatekey=~/.ssh/id_rsa --from-file=ssh-publickey=~/.ssh/id_rsa.pub\n\n\t # Create a new secret named my-secret with key1=supersecret and key2=topsecret\n\t kubectl create secret generic my-secret --from-literal=key1=supersecret --from-literal=key2=topsecret\x00\n\t # Create a new service account named my-service-account\n\t kubectl create serviceaccount my-service-account\x00\n\t# Create a new ExternalName service named my-ns \n\tkubectl create service externalname my-ns --external-name bar.com\x00\n\tCreate an ExternalName service with the specified name.\n\n\tExternalName service references to an external DNS address instead of\n\tonly pods, which will allow application authors to reference services\n\tthat exist off platform, on other clusters, or locally.\x00\n\tHelp provides help for any command in the application.\n\tSimply type kubectl help [path to command] for full details.\x00\n # Create a new LoadBalancer service named my-lbs\n kubectl create service loadbalancer my-lbs --tcp=5678:8080\x00\n # Create a new clusterIP service named my-cs\n kubectl create service clusterip my-cs --tcp=5678:8080\n\n # Create a new clusterIP service named my-cs (in headless mode)\n kubectl create service clusterip my-cs --clusterip=\"None\"\x00\n # Create a new deployment named my-dep that runs the busybox image.\n kubectl create deployment my-dep --image=busybox\x00\n # Create a new nodeport service named my-ns\n kubectl create service nodeport my-ns --tcp=5678:8080\x00\n # Dump current cluster state to stdout\n kubectl cluster-info dump\n\n # Dump current cluster state to /path/to/cluster-state\n kubectl cluster-info dump --output-directory=/path/to/cluster-state\n\n # Dump all namespaces to stdout\n kubectl cluster-info dump --all-namespaces\n\n # Dump a set of namespaces to /path/to/cluster-state\n kubectl cluster-info dump --namespaces default,kube-system --output-directory=/path/to/cluster-state\x00\n # Update pod 'foo' with the annotation 'description' and the value 'my frontend'.\n # If the same annotation is set multiple times, only the last value will be applied\n kubectl annotate pods foo description='my frontend'\n\n # Update a pod identified by type and name in \"pod.json\"\n kubectl annotate -f pod.json description='my frontend'\n\n # Update pod 'foo' with the annotation 'description' and the value 'my frontend running nginx', overwriting any existing value.\n kubectl annotate --overwrite pods foo description='my frontend running nginx'\n\n # Update all pods in the namespace\n kubectl annotate pods --all description='my frontend running nginx'\n\n # Update pod 'foo' only if the resource is unchanged from version 1.\n kubectl annotate pods foo description='my frontend running nginx' --resource-version=1\n\n # Update pod 'foo' by removing an annotation named 'description' if it exists.\n # Does not require the --overwrite flag.\n kubectl annotate pods foo description-\x00\n Create a LoadBalancer service with the specified name.\x00\n Create a clusterIP service with the specified name.\x00\n Create a deployment with the specified name.\x00\n Create a nodeport service with the specified name.\x00\n Dumps cluster info out suitable for debugging and diagnosing cluster problems. By default, dumps everything to\n stdout. You can optionally specify a directory with --output-directory. If you specify a directory, kubernetes will\n build a set of files in that directory. By default only dumps things in the 'kube-system' namespace, but you can\n switch to a different namespace with the --namespaces flag, or specify --all-namespaces to dump all namespaces.\n\n The command also dumps the logs of all of the pods in the cluster, these logs are dumped into different directories\n based on namespace and pod name.\x00\n Display addresses of the master and services with label kubernetes.io/cluster-service=true\n To further debug and diagnose cluster problems, use 'kubectl cluster-info dump'.\x00A comma-delimited set of quota scopes that must all match each object tracked by the quota.\x00A comma-delimited set of resource=quantity pairs that define a hard limit.\x00A label selector to use for this budget. Only equality-based selector requirements are supported.\x00A label selector to use for this service. Only equality-based selector requirements are supported. If empty (the default) infer the selector from the replication controller or replica set.)\x00A schedule in the Cron format the job should be run with.\x00Additional external IP address (not managed by Kubernetes) to accept for the service. If this IP is routed to a node, the service can be accessed by this IP in addition to its generated service IP.\x00An inline JSON override for the generated object. If this is non-empty, it is used to override the generated object. Requires that the object supply a valid apiVersion field.\x00An inline JSON override for the generated service object. If this is non-empty, it is used to override the generated object. Requires that the object supply a valid apiVersion field. Only used if --expose is true.\x00Apply a configuration to a resource by filename or stdin\x00Approve a certificate signing request\x00Assign your own ClusterIP or set to 'None' for a 'headless' service (no loadbalancing).\x00Attach to a running container\x00Auto-scale a Deployment, ReplicaSet, or ReplicationController\x00ClusterIP to be assigned to the service. Leave empty to auto-allocate, or set to 'None' to create a headless service.\x00ClusterRole this ClusterRoleBinding should reference\x00ClusterRole this RoleBinding should reference\x00Container name which will have its image upgraded. Only relevant when --image is specified, ignored otherwise. Required when using --image on a multi-container pod\x00Convert config files between different API versions\x00Copy files and directories to and from containers.\x00Create a ClusterRoleBinding for a particular ClusterRole\x00Create a LoadBalancer service.\x00Create a NodePort service.\x00Create a RoleBinding for a particular Role or ClusterRole\x00Create a TLS secret\x00Create a clusterIP service.\x00Create a configmap from a local file, directory or literal value\x00Create a deployment with the specified name.\x00Create a namespace with the specified name\x00Create a pod disruption budget with the specified name.\x00Create a quota with the specified name.\x00Create a resource by filename or stdin\x00Create a secret for use with a Docker registry\x00Create a secret from a local file, directory or literal value\x00Create a secret using specified subcommand\x00Create a service account with the specified name\x00Create a service using specified subcommand.\x00Create an ExternalName service.\x00Delete resources by filenames, stdin, resources and names, or by resources and label selector\x00Delete the specified cluster from the kubeconfig\x00Delete the specified context from the kubeconfig\x00Deny a certificate signing request\x00Deprecated: Gracefully shut down a resource by name or filename\x00Describe one or many contexts\x00Display Resource (CPU/Memory) usage of nodes\x00Display Resource (CPU/Memory) usage of pods\x00Display Resource (CPU/Memory) usage.\x00Display cluster info\x00Display clusters defined in the kubeconfig\x00Display merged kubeconfig settings or a specified kubeconfig file\x00Display one or many resources\x00Displays the current-context\x00Documentation of resources\x00Drain node in preparation for maintenance\x00Dump lots of relevant info for debugging and diagnosis\x00Edit a resource on the server\x00Email for Docker registry\x00Execute a command in a container\x00Explicit policy for when to pull container images. Required when --image is same as existing image, ignored otherwise.\x00Forward one or more local ports to a pod\x00Help about any command\x00IP to assign to the Load Balancer. If empty, an ephemeral IP will be created and used (cloud-provider specific).\x00If non-empty, set the session affinity for the service to this; legal values: 'None', 'ClientIP'\x00If non-empty, the annotation update will only succeed if this is the current resource-version for the object. Only valid when specifying a single resource.\x00If non-empty, the labels update will only succeed if this is the current resource-version for the object. Only valid when specifying a single resource.\x00Image to use for upgrading the replication controller. Must be distinct from the existing image (either new image or new image tag). Can not be used with --filename/-f\x00Manage a deployment rollout\x00Mark node as schedulable\x00Mark node as unschedulable\x00Mark the provided resource as paused\x00Modify certificate resources.\x00Modify kubeconfig files\x00Name or number for the port on the container that the service should direct traffic to. Optional.\x00Only return logs after a specific date (RFC3339). Defaults to all logs. Only one of since-time / since may be used.\x00Output shell completion code for the specified shell (bash or zsh)\x00Output the formatted object with the given group version (for ex: 'extensions/v1beta1').)\x00Password for Docker registry authentication\x00Path to PEM encoded public key certificate.\x00Path to private key associated with given certificate.\x00Perform a rolling update of the given ReplicationController\x00Precondition for resource version. Requires that the current resource version match this value in order to scale.\x00Print the client and server version information\x00Print the list of flags inherited by all commands\x00Print the logs for a container in a pod\x00Replace a resource by filename or stdin\x00Resume a paused resource\x00Role this RoleBinding should reference\x00Run a particular image on the cluster\x00Run a proxy to the Kubernetes API server\x00Server location for Docker registry\x00Set a new size for a Deployment, ReplicaSet, Replication Controller, or Job\x00Set specific features on objects\x00Set the last-applied-configuration annotation on a live object to match the contents of a file.\x00Set the selector on a resource\x00Sets a cluster entry in kubeconfig\x00Sets a context entry in kubeconfig\x00Sets a user entry in kubeconfig\x00Sets an individual value in a kubeconfig file\x00Sets the current-context in a kubeconfig file\x00Show details of a specific resource or group of resources\x00Show the status of the rollout\x00Synonym for --target-port\x00Take a replication controller, service, deployment or pod and expose it as a new Kubernetes Service\x00The image for the container to run.\x00The image pull policy for the container. If left empty, this value will not be specified by the client and defaulted by the server\x00The key to use to differentiate between two different controllers, default 'deployment'. Only relevant when --image is specified, ignored otherwise\x00The minimum number or percentage of available pods this budget requires.\x00The name for the newly created object.\x00The name for the newly created object. If not specified, the name of the input resource will be used.\x00The name of the API generator to use, see http://kubernetes.io/docs/user-guide/kubectl-conventions/#generators for a list.\x00The name of the API generator to use. Currently there is only 1 generator.\x00The name of the API generator to use. There are 2 generators: 'service/v1' and 'service/v2'. The only difference between them is that service port in v1 is named 'default', while it is left unnamed in v2. Default is 'service/v2'.\x00The name of the generator to use for creating a service. Only used if --expose is true\x00The network protocol for the service to be created. Default is 'TCP'.\x00The port that the service should serve on. Copied from the resource being exposed, if unspecified\x00The port that this container exposes. If --expose is true, this is also the port used by the service that is created.\x00The resource requirement limits for this container. For example, 'cpu=200m,memory=512Mi'. Note that server side components may assign limits depending on the server configuration, such as limit ranges.\x00The resource requirement requests for this container. For example, 'cpu=100m,memory=256Mi'. Note that server side components may assign requests depending on the server configuration, such as limit ranges.\x00The restart policy for this Pod. Legal values [Always, OnFailure, Never]. If set to 'Always' a deployment is created, if set to 'OnFailure' a job is created, if set to 'Never', a regular pod is created. For the latter two --replicas must be 1. Default 'Always', for CronJobs `Never`.\x00The type of secret to create\x00Type for this service: ClusterIP, NodePort, or LoadBalancer. Default is 'ClusterIP'.\x00Undo a previous rollout\x00Unsets an individual value in a kubeconfig file\x00Update field(s) of a resource using strategic merge patch\x00Update image of a pod template\x00Update resource requests/limits on objects with pod templates\x00Update the annotations on a resource\x00Update the labels on a resource\x00Update the taints on one or more nodes\x00Username for Docker registry authentication\x00View latest last-applied-configuration annotations of a resource/object\x00View rollout history\x00Where to output the files. If empty or '-' uses stdout, otherwise creates a directory hierarchy in that directory\x00dummy restart flag)\x00external name of service\x00kubectl controls the Kubernetes cluster manager\x00Project-Id-Version: gettext-go-examples-hello\nReport-Msgid-Bugs-To: EMAIL\nPO-Revision-Date: 2020-01-05 09:55+0900\nLast-Translator: Kohei Ota \nLanguage-Team: \nLanguage: ja\nMIME-Version: 1.0\nContent-Type: text/plain; charset=UTF-8\nContent-Transfer-Encoding: 8bit\nX-Generator: Poedit 2.3\nX-Poedit-SourceCharset: UTF-8\nPlural-Forms: nplurals=2; plural=(n != 1);\n\x00\n\t\t # Create a ClusterRoleBinding for user1, user2, and group1 using the cluster-admin ClusterRole\n\t\t kubectl create clusterrolebinding cluster-admin --clusterrole=cluster-admin --user=user1 --user=user2 --group=group1\x00\n\t\t # Create a RoleBinding for user1, user2, and group1 using the admin ClusterRole\n\t\t kubectl create rolebinding admin --clusterrole=admin --user=user1 --user=user2 --group=group1\x00\n\t\t # Create a new configmap named my-config based on folder bar\n\t\t kubectl create configmap my-config --from-file=path/to/bar\n\n\t\t # Create a new configmap named my-config with specified keys instead of file basenames on disk\n\t\t kubectl create configmap my-config --from-file=key1=/path/to/bar/file1.txt --from-file=key2=/path/to/bar/file2.txt\n\n\t\t # Create a new configmap named my-config with key1=config1 and key2=config2\n\t\t kubectl create configmap my-config --from-literal=key1=config1 --from-literal=key2=config2\x00\n\t\t # If you don't already have a .dockercfg file, you can create a dockercfg secret directly by using:\n\t\t kubectl create secret docker-registry my-secret --docker-server=DOCKER_REGISTRY_SERVER --docker-username=DOCKER_USER --docker-password=DOCKER_PASSWORD --docker-email=DOCKER_EMAIL\x00\n\t\t # Show metrics for all nodes\n\t\t kubectl top node\n\n\t\t # Show metrics for a given node\n\t\t kubectl top node NODE_NAME\x00\n\t\t# Apply the configuration in pod.json to a pod.\n\t\tkubectl apply -f ./pod.json\n\n\t\t# Apply the JSON passed into stdin to a pod.\n\t\tcat pod.json | kubectl apply -f -\n\n\t\t# Note: --prune is still in Alpha\n\t\t# Apply the configuration in manifest.yaml that matches label app=nginx and delete all the other resources that are not in the file and match label app=nginx.\n\t\tkubectl apply --prune -f manifest.yaml -l app=nginx\n\n\t\t# Apply the configuration in manifest.yaml and delete all the other configmaps that are not in the file.\n\t\tkubectl apply --prune -f manifest.yaml --all --prune-whitelist=core/v1/ConfigMap\x00\n\t\t# Auto scale a deployment \"foo\", with the number of pods between 2 and 10, no target CPU utilization specified so a default autoscaling policy will be used:\n\t\tkubectl autoscale deployment foo --min=2 --max=10\n\n\t\t# Auto scale a replication controller \"foo\", with the number of pods between 1 and 5, target CPU utilization at 80%:\n\t\tkubectl autoscale rc foo --max=5 --cpu-percent=80\x00\n\t\t# Convert 'pod.yaml' to latest version and print to stdout.\n\t\tkubectl convert -f pod.yaml\n\n\t\t# Convert the live state of the resource specified by 'pod.yaml' to the latest version\n\t\t# and print to stdout in json format.\n\t\tkubectl convert -f pod.yaml --local -o json\n\n\t\t# Convert all files under current directory to latest version and create them all.\n\t\tkubectl convert -f . | kubectl create -f -\x00\n\t\t# Create a ClusterRole named \"pod-reader\" that allows user to perform \"get\", \"watch\" and \"list\" on pods\n\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --resource=pods\n\n\t\t# Create a ClusterRole named \"pod-reader\" with ResourceName specified\n\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --resource=pods --resource-name=readablepod\x00\n\t\t# Create a Role named \"pod-reader\" that allows user to perform \"get\", \"watch\" and \"list\" on pods\n\t\tkubectl create role pod-reader --verb=get --verb=list --verb=watch --resource=pods\n\n\t\t# Create a Role named \"pod-reader\" with ResourceName specified\n\t\tkubectl create role pod-reader --verb=get --verg=list --verb=watch --resource=pods --resource-name=readablepod\x00\n\t\t# Create a new resourcequota named my-quota\n\t\tkubectl create quota my-quota --hard=cpu=1,memory=1G,pods=2,services=3,replicationcontrollers=2,resourcequotas=1,secrets=5,persistentvolumeclaims=10\n\n\t\t# Create a new resourcequota named best-effort\n\t\tkubectl create quota best-effort --hard=pods=100 --scopes=BestEffort\x00\n\t\t# Create a pod disruption budget named my-pdb that will select all pods with the app=rails label\n\t\t# and require at least one of them being available at any point in time.\n\t\tkubectl create poddisruptionbudget my-pdb --selector=app=rails --min-available=1\n\n\t\t# Create a pod disruption budget named my-pdb that will select all pods with the app=nginx label\n\t\t# and require at least half of the pods selected to be available at any point in time.\n\t\tkubectl create pdb my-pdb --selector=app=nginx --min-available=50%\x00\n\t\t# Create a pod using the data in pod.json.\n\t\tkubectl create -f ./pod.json\n\n\t\t# Create a pod based on the JSON passed into stdin.\n\t\tcat pod.json | kubectl create -f -\n\n\t\t# Edit the data in docker-registry.yaml in JSON using the v1 API format then create the resource using the edited data.\n\t\tkubectl create -f docker-registry.yaml --edit --output-version=v1 -o json\x00\n\t\t# Create a service for a replicated nginx, which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose rc nginx --port=80 --target-port=8000\n\n\t\t# Create a service for a replication controller identified by type and name specified in \"nginx-controller.yaml\", which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose -f nginx-controller.yaml --port=80 --target-port=8000\n\n\t\t# Create a service for a pod valid-pod, which serves on port 444 with the name \"frontend\"\n\t\tkubectl expose pod valid-pod --port=444 --name=frontend\n\n\t\t# Create a second service based on the above service, exposing the container port 8443 as port 443 with the name \"nginx-https\"\n\t\tkubectl expose service nginx --port=443 --target-port=8443 --name=nginx-https\n\n\t\t# Create a service for a replicated streaming application on port 4100 balancing UDP traffic and named 'video-stream'.\n\t\tkubectl expose rc streamer --port=4100 --protocol=udp --name=video-stream\n\n\t\t# Create a service for a replicated nginx using replica set, which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose rs nginx --port=80 --target-port=8000\n\n\t\t# Create a service for an nginx deployment, which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose deployment nginx --port=80 --target-port=8000\x00\n\t\t# Delete a pod using the type and name specified in pod.json.\n\t\tkubectl delete -f ./pod.json\n\n\t\t# Delete a pod based on the type and name in the JSON passed into stdin.\n\t\tcat pod.json | kubectl delete -f -\n\n\t\t# Delete pods and services with same names \"baz\" and \"foo\"\n\t\tkubectl delete pod,service baz foo\n\n\t\t# Delete pods and services with label name=myLabel.\n\t\tkubectl delete pods,services -l name=myLabel\n\n\t\t# Delete a pod with minimal delay\n\t\tkubectl delete pod foo --now\n\n\t\t# Force delete a pod on a dead node\n\t\tkubectl delete pod foo --grace-period=0 --force\n\n\t\t# Delete all pods\n\t\tkubectl delete pods --all\x00\n\t\t# Describe a node\n\t\tkubectl describe nodes kubernetes-node-emt8.c.myproject.internal\n\n\t\t# Describe a pod\n\t\tkubectl describe pods/nginx\n\n\t\t# Describe a pod identified by type and name in \"pod.json\"\n\t\tkubectl describe -f pod.json\n\n\t\t# Describe all pods\n\t\tkubectl describe pods\n\n\t\t# Describe pods by label name=myLabel\n\t\tkubectl describe po -l name=myLabel\n\n\t\t# Describe all pods managed by the 'frontend' replication controller (rc-created pods\n\t\t# get the name of the rc as a prefix in the pod the name).\n\t\tkubectl describe pods frontend\x00\n\t\t# Drain node \"foo\", even if there are pods not managed by a ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet on it.\n\t\t$ kubectl drain foo --force\n\n\t\t# As above, but abort if there are pods not managed by a ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet, and use a grace period of 15 minutes.\n\t\t$ kubectl drain foo --grace-period=900\x00\n\t\t# Edit the service named 'docker-registry':\n\t\tkubectl edit svc/docker-registry\n\n\t\t# Use an alternative editor\n\t\tKUBE_EDITOR=\"nano\" kubectl edit svc/docker-registry\n\n\t\t# Edit the job 'myjob' in JSON using the v1 API format:\n\t\tkubectl edit job.v1.batch/myjob -o json\n\n\t\t# Edit the deployment 'mydeployment' in YAML and save the modified config in its annotation:\n\t\tkubectl edit deployment/mydeployment -o yaml --save-config\x00\n\t\t# Get output from running 'date' from pod 123456-7890, using the first container by default\n\t\tkubectl exec 123456-7890 date\n\n\t\t# Get output from running 'date' in ruby-container from pod 123456-7890\n\t\tkubectl exec 123456-7890 -c ruby-container date\n\n\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container from pod 123456-7890\n\t\t# and sends stdout/stderr from 'bash' back to the client\n\t\tkubectl exec 123456-7890 -c ruby-container -i -t -- bash -il\x00\n\t\t# Get output from running pod 123456-7890, using the first container by default\n\t\tkubectl attach 123456-7890\n\n\t\t# Get output from ruby-container from pod 123456-7890\n\t\tkubectl attach 123456-7890 -c ruby-container\n\n\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container from pod 123456-7890\n\t\t# and sends stdout/stderr from 'bash' back to the client\n\t\tkubectl attach 123456-7890 -c ruby-container -i -t\n\n\t\t# Get output from the first pod of a ReplicaSet named nginx\n\t\tkubectl attach rs/nginx\n\t\t\x00\n\t\t# Get the documentation of the resource and its fields\n\t\tkubectl explain pods\n\n\t\t# Get the documentation of a specific field of a resource\n\t\tkubectl explain pods.spec.containers\x00\n\t\t# Install bash completion on a Mac using homebrew\n\t\tbrew install bash-completion\n\t\tprintf \"\n# Bash completion support\nsource $(brew --prefix)/etc/bash_completion\n\" >> $HOME/.bash_profile\n\t\tsource $HOME/.bash_profile\n\n\t\t# Load the kubectl completion code for bash into the current shell\n\t\tsource <(kubectl completion bash)\n\n\t\t# Write bash completion code to a file and source if from .bash_profile\n\t\tkubectl completion bash > ~/.kube/completion.bash.inc\n\t\tprintf \"\n# Kubectl shell completion\nsource '$HOME/.kube/completion.bash.inc'\n\" >> $HOME/.bash_profile\n\t\tsource $HOME/.bash_profile\n\n\t\t# Load the kubectl completion code for zsh[1] into the current shell\n\t\tsource <(kubectl completion zsh)\x00\n\t\t# List all pods in ps output format.\n\t\tkubectl get pods\n\n\t\t# List all pods in ps output format with more information (such as node name).\n\t\tkubectl get pods -o wide\n\n\t\t# List a single replication controller with specified NAME in ps output format.\n\t\tkubectl get replicationcontroller web\n\n\t\t# List a single pod in JSON output format.\n\t\tkubectl get -o json pod web-pod-13je7\n\n\t\t# List a pod identified by type and name specified in \"pod.yaml\" in JSON output format.\n\t\tkubectl get -f pod.yaml -o json\n\n\t\t# Return only the phase value of the specified pod.\n\t\tkubectl get -o template pod/web-pod-13je7 --template={{.status.phase}}\n\n\t\t# List all replication controllers and services together in ps output format.\n\t\tkubectl get rc,services\n\n\t\t# List one or more resources by their type and names.\n\t\tkubectl get rc/web service/frontend pods/web-pod-13je7\n\n\t\t# List all resources with different types.\n\t\tkubectl get all\x00\n\t\t# Listen on ports 5000 and 6000 locally, forwarding data to/from ports 5000 and 6000 in the pod\t\tkubectl port-forward pod/mypod 5000 6000\n\t\t# Listen on ports 5000 and 6000 locally, forwarding data to/from ports 5000 and 6000 in a pod selected by the deployment\t\tkubectl port-forward deployment/mydeployment 5000 6000\n\t\t# Listen on ports 5000 and 6000 locally, forwarding data to/from ports 5000 and 6000 in a pod selected by the service\t\tkubectl port-forward service/myservice 5000 6000\n\t\t# Listen on port 8888 locally, forwarding to 5000 in the pod\t\tkubectl port-forward pod/mypod 8888:5000\n\t\t# Listen on a random port locally, forwarding to 5000 in the pod\t\tkubectl port-forward pod/mypod :5000\x00\n\t\t# Mark node \"foo\" as schedulable.\n\t\t$ kubectl uncordon foo\x00\n\t\t# Mark node \"foo\" as unschedulable.\n\t\tkubectl cordon foo\x00\n\t\t# Partially update a node using strategic merge patch\n\t\tkubectl patch node k8s-node-1 -p '{\"spec\":{\"unschedulable\":true}}'\n\n\t\t# Partially update a node identified by the type and name specified in \"node.json\" using strategic merge patch\n\t\tkubectl patch -f node.json -p '{\"spec\":{\"unschedulable\":true}}'\n\n\t\t# Update a container's image; spec.containers[*].name is required because it's a merge key\n\t\tkubectl patch pod valid-pod -p '{\"spec\":{\"containers\":[{\"name\":\"kubernetes-serve-hostname\",\"image\":\"new image\"}]}}'\n\n\t\t# Update a container's image using a json patch with positional arrays\n\t\tkubectl patch pod valid-pod --type='json' -p='[{\"op\": \"replace\", \"path\": \"/spec/containers/0/image\", \"value\":\"new image\"}]'\x00\n\t\t# Print flags inherited by all commands\n\t\tkubectl options\x00\n\t\t# Print the address of the master and cluster services\n\t\tkubectl cluster-info\x00\n\t\t# Print the client and server versions for the current context\n\t\tkubectl version\x00\n\t\t# Print the supported API versions\n\t\tkubectl api-versions\x00\n\t\t# Replace a pod using the data in pod.json.\n\t\tkubectl replace -f ./pod.json\n\n\t\t# Replace a pod based on the JSON passed into stdin.\n\t\tcat pod.json | kubectl replace -f -\n\n\t\t# Update a single-container pod's image version (tag) to v4\n\t\tkubectl get pod mypod -o yaml | sed 's/\\(image: myimage\\):.*$/\x01:v4/' | kubectl replace -f -\n\n\t\t# Force replace, delete and then re-create the resource\n\t\tkubectl replace --force -f ./pod.json\x00\n\t\t# Return snapshot logs from pod nginx with only one container\n\t\tkubectl logs nginx\n\n\t\t# Return snapshot logs for the pods defined by label app=nginx\n\t\tkubectl logs -lapp=nginx\n\n\t\t# Return snapshot of previous terminated ruby container logs from pod web-1\n\t\tkubectl logs -p -c ruby web-1\n\n\t\t# Begin streaming the logs of the ruby container in pod web-1\n\t\tkubectl logs -f -c ruby web-1\n\n\t\t# Display only the most recent 20 lines of output in pod nginx\n\t\tkubectl logs --tail=20 nginx\n\n\t\t# Show all logs from pod nginx written in the last hour\n\t\tkubectl logs --since=1h nginx\n\n\t\t# Return snapshot logs from first container of a job named hello\n\t\tkubectl logs job/hello\n\n\t\t# Return snapshot logs from container nginx-1 of a deployment named nginx\n\t\tkubectl logs deployment/nginx -c nginx-1\x00\n\t\t# Run a proxy to kubernetes apiserver on port 8011, serving static content from ./local/www/\n\t\tkubectl proxy --port=8011 --www=./local/www/\n\n\t\t# Run a proxy to kubernetes apiserver on an arbitrary local port.\n\t\t# The chosen port for the server will be output to stdout.\n\t\tkubectl proxy --port=0\n\n\t\t# Run a proxy to kubernetes apiserver, changing the api prefix to k8s-api\n\t\t# This makes e.g. the pods api available at localhost:8001/k8s-api/v1/pods/\n\t\tkubectl proxy --api-prefix=/k8s-api\x00\n\t\t# Scale a replicaset named 'foo' to 3.\n\t\tkubectl scale --replicas=3 rs/foo\n\n\t\t# Scale a resource identified by type and name specified in \"foo.yaml\" to 3.\n\t\tkubectl scale --replicas=3 -f foo.yaml\n\n\t\t# If the deployment named mysql's current size is 2, scale mysql to 3.\n\t\tkubectl scale --current-replicas=2 --replicas=3 deployment/mysql\n\n\t\t# Scale multiple replication controllers.\n\t\tkubectl scale --replicas=5 rc/foo rc/bar rc/baz\n\n\t\t# Scale job named 'cron' to 3.\n\t\tkubectl scale --replicas=3 job/cron\x00\n\t\t# Set the last-applied-configuration of a resource to match the contents of a file.\n\t\tkubectl apply set-last-applied -f deploy.yaml\n\n\t\t# Execute set-last-applied against each configuration file in a directory.\n\t\tkubectl apply set-last-applied -f path/\n\n\t\t# Set the last-applied-configuration of a resource to match the contents of a file, will create the annotation if it does not already exist.\n\t\tkubectl apply set-last-applied -f deploy.yaml --create-annotation=true\n\t\t\x00\n\t\t# Show metrics for all pods in the default namespace\n\t\tkubectl top pod\n\n\t\t# Show metrics for all pods in the given namespace\n\t\tkubectl top pod --namespace=NAMESPACE\n\n\t\t# Show metrics for a given pod and its containers\n\t\tkubectl top pod POD_NAME --containers\n\n\t\t# Show metrics for the pods defined by label name=myLabel\n\t\tkubectl top pod -l name=myLabel\x00\n\t\t# Shut down foo.\n\t\tkubectl stop replicationcontroller foo\n\n\t\t# Stop pods and services with label name=myLabel.\n\t\tkubectl stop pods,services -l name=myLabel\n\n\t\t# Shut down the service defined in service.json\n\t\tkubectl stop -f service.json\n\n\t\t# Shut down all resources in the path/to/resources directory\n\t\tkubectl stop -f path/to/resources\x00\n\t\t# Start a single instance of nginx.\n\t\tkubectl run nginx --image=nginx\n\n\t\t# Start a single instance of hazelcast and let the container expose port 5701 .\n\t\tkubectl run hazelcast --image=hazelcast --port=5701\n\n\t\t# Start a single instance of hazelcast and set environment variables \"DNS_DOMAIN=cluster\" and \"POD_NAMESPACE=default\" in the container.\n\t\tkubectl run hazelcast --image=hazelcast --env=\"DNS_DOMAIN=cluster\" --env=\"POD_NAMESPACE=default\"\n\n\t\t# Start a replicated instance of nginx.\n\t\tkubectl run nginx --image=nginx --replicas=5\n\n\t\t# Dry run. Print the corresponding API objects without creating them.\n\t\tkubectl run nginx --image=nginx --dry-run\n\n\t\t# Start a single instance of nginx, but overload the spec of the deployment with a partial set of values parsed from JSON.\n\t\tkubectl run nginx --image=nginx --overrides='{ \"apiVersion\": \"v1\", \"spec\": { ... } }'\n\n\t\t# Start a pod of busybox and keep it in the foreground, don't restart it if it exits.\n\t\tkubectl run -i -t busybox --image=busybox --restart=Never\n\n\t\t# Start the nginx container using the default command, but use custom arguments (arg1 .. argN) for that command.\n\t\tkubectl run nginx --image=nginx -- ... \n\n\t\t# Start the nginx container using a different command and custom arguments.\n\t\tkubectl run nginx --image=nginx --command -- ... \n\n\t\t# Start the perl container to compute \u03c0 to 2000 places and print it out.\n\t\tkubectl run pi --image=perl --restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'\n\n\t\t# Start the cron job to compute \u03c0 to 2000 places and print it out every 5 minutes.\n\t\tkubectl run pi --schedule=\"0/5 * * * ?\" --image=perl --restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'\x00\n\t\t# Update node 'foo' with a taint with key 'dedicated' and value 'special-user' and effect 'NoSchedule'.\n\t\t# If a taint with that key and effect already exists, its value is replaced as specified.\n\t\tkubectl taint nodes foo dedicated=special-user:NoSchedule\n\n\t\t# Remove from node 'foo' the taint with key 'dedicated' and effect 'NoSchedule' if one exists.\n\t\tkubectl taint nodes foo dedicated:NoSchedule-\n\n\t\t# Remove from node 'foo' all the taints with key 'dedicated'\n\t\tkubectl taint nodes foo dedicated-\x00\n\t\t# Update pod 'foo' with the label 'unhealthy' and the value 'true'.\n\t\tkubectl label pods foo unhealthy=true\n\n\t\t# Update pod 'foo' with the label 'status' and the value 'unhealthy', overwriting any existing value.\n\t\tkubectl label --overwrite pods foo status=unhealthy\n\n\t\t# Update all pods in the namespace\n\t\tkubectl label pods --all status=unhealthy\n\n\t\t# Update a pod identified by the type and name in \"pod.json\"\n\t\tkubectl label -f pod.json status=unhealthy\n\n\t\t# Update pod 'foo' only if the resource is unchanged from version 1.\n\t\tkubectl label pods foo status=unhealthy --resource-version=1\n\n\t\t# Update pod 'foo' by removing a label named 'bar' if it exists.\n\t\t# Does not require the --overwrite flag.\n\t\tkubectl label pods foo bar-\x00\n\t\t# Update pods of frontend-v1 using new replication controller data in frontend-v2.json.\n\t\tkubectl rolling-update frontend-v1 -f frontend-v2.json\n\n\t\t# Update pods of frontend-v1 using JSON data passed into stdin.\n\t\tcat frontend-v2.json | kubectl rolling-update frontend-v1 -f -\n\n\t\t# Update the pods of frontend-v1 to frontend-v2 by just changing the image, and switching the\n\t\t# name of the replication controller.\n\t\tkubectl rolling-update frontend-v1 frontend-v2 --image=image:v2\n\n\t\t# Update the pods of frontend by just changing the image, and keeping the old name.\n\t\tkubectl rolling-update frontend --image=image:v2\n\n\t\t# Abort and reverse an existing rollout in progress (from frontend-v1 to frontend-v2).\n\t\tkubectl rolling-update frontend-v1 frontend-v2 --rollback\x00\n\t\t# View the last-applied-configuration annotations by type/name in YAML.\n\t\tkubectl apply view-last-applied deployment/nginx\n\n\t\t# View the last-applied-configuration annotations by file in JSON\n\t\tkubectl apply view-last-applied -f deploy.yaml -o json\x00\n\t\tApply a configuration to a resource by filename or stdin.\n\t\tThis resource will be created if it doesn't exist yet.\n\t\tTo use 'apply', always create the resource initially with either 'apply' or 'create --save-config'.\n\n\t\tJSON and YAML formats are accepted.\n\n\t\tAlpha Disclaimer: the --prune functionality is not yet complete. Do not use unless you are aware of what the current state is. See https://issues.k8s.io/34274.\x00\n\t\tConvert config files between different API versions. Both YAML\n\t\tand JSON formats are accepted.\n\n\t\tThe command takes filename, directory, or URL as input, and convert it into format\n\t\tof version specified by --output-version flag. If target version is not specified or\n\t\tnot supported, convert to latest version.\n\n\t\tThe default output will be printed to stdout in YAML format. One can use -o option\n\t\tto change to output destination.\x00\n\t\tCreate a ClusterRole.\x00\n\t\tCreate a ClusterRoleBinding for a particular ClusterRole.\x00\n\t\tCreate a RoleBinding for a particular Role or ClusterRole.\x00\n\t\tCreate a TLS secret from the given public/private key pair.\n\n\t\tThe public/private key pair must exist before hand. The public key certificate must be .PEM encoded and match the given private key.\x00\n\t\tCreate a configmap based on a file, directory, or specified literal value.\n\n\t\tA single configmap may package one or more key/value pairs.\n\n\t\tWhen creating a configmap based on a file, the key will default to the basename of the file, and the value will\n\t\tdefault to the file content. If the basename is an invalid key, you may specify an alternate key.\n\n\t\tWhen creating a configmap based on a directory, each file whose basename is a valid key in the directory will be\n\t\tpackaged into the configmap. Any directory entries except regular files are ignored (e.g. subdirectories,\n\t\tsymlinks, devices, pipes, etc).\x00\n\t\tCreate a namespace with the specified name.\x00\n\t\tCreate a new secret for use with Docker registries.\n\n\t\tDockercfg secrets are used to authenticate against Docker registries.\n\n\t\tWhen using the Docker command line to push images, you can authenticate to a given registry by running\n\n\t\t $ docker login DOCKER_REGISTRY_SERVER --username=DOCKER_USER --password=DOCKER_PASSWORD --email=DOCKER_EMAIL'.\n\n That produces a ~/.dockercfg file that is used by subsequent 'docker push' and 'docker pull' commands to\n\t\tauthenticate to the registry. The email address is optional.\n\n\t\tWhen creating applications, you may have a Docker registry that requires authentication. In order for the\n\t\tnodes to pull images on your behalf, they have to have the credentials. You can provide this information\n\t\tby creating a dockercfg secret and attaching it to your service account.\x00\n\t\tCreate a pod disruption budget with the specified name, selector, and desired minimum available pods\x00\n\t\tCreate a resource by filename or stdin.\n\n\t\tJSON and YAML formats are accepted.\x00\n\t\tCreate a resourcequota with the specified name, hard limits and optional scopes\x00\n\t\tCreate a role with single rule.\x00\n\t\tCreate a secret based on a file, directory, or specified literal value.\n\n\t\tA single secret may package one or more key/value pairs.\n\n\t\tWhen creating a secret based on a file, the key will default to the basename of the file, and the value will\n\t\tdefault to the file content. If the basename is an invalid key, you may specify an alternate key.\n\n\t\tWhen creating a secret based on a directory, each file whose basename is a valid key in the directory will be\n\t\tpackaged into the secret. Any directory entries except regular files are ignored (e.g. subdirectories,\n\t\tsymlinks, devices, pipes, etc).\x00\n\t\tCreate a service account with the specified name.\x00\n\t\tCreate and run a particular image, possibly replicated.\n\n\t\tCreates a deployment or job to manage the created container(s).\x00\n\t\tCreates an autoscaler that automatically chooses and sets the number of pods that run in a kubernetes cluster.\n\n\t\tLooks up a Deployment, ReplicaSet, or ReplicationController by name and creates an autoscaler that uses the given resource as a reference.\n\t\tAn autoscaler can automatically increase or decrease number of pods deployed within the system as needed.\x00\n\t\tDelete resources by filenames, stdin, resources and names, or by resources and label selector.\n\n\t\tJSON and YAML formats are accepted. Only one type of the arguments may be specified: filenames,\n\t\tresources and names, or resources and label selector.\n\n\t\tSome resources, such as pods, support graceful deletion. These resources define a default period\n\t\tbefore they are forcibly terminated (the grace period) but you may override that value with\n\t\tthe --grace-period flag, or pass --now to set a grace-period of 1. Because these resources often\n\t\trepresent entities in the cluster, deletion may not be acknowledged immediately. If the node\n\t\thosting a pod is down or cannot reach the API server, termination may take significantly longer\n\t\tthan the grace period. To force delete a resource,\tyou must pass a grace\tperiod of 0 and specify\n\t\tthe --force flag.\n\n\t\tIMPORTANT: Force deleting pods does not wait for confirmation that the pod's processes have been\n\t\tterminated, which can leave those processes running until the node detects the deletion and\n\t\tcompletes graceful deletion. If your processes use shared storage or talk to a remote API and\n\t\tdepend on the name of the pod to identify themselves, force deleting those pods may result in\n\t\tmultiple processes running on different machines using the same identification which may lead\n\t\tto data corruption or inconsistency. Only force delete pods when you are sure the pod is\n\t\tterminated, or if your application can tolerate multiple copies of the same pod running at once.\n\t\tAlso, if you force delete pods the scheduler may place new pods on those nodes before the node\n\t\thas released those resources and causing those pods to be evicted immediately.\n\n\t\tNote that the delete command does NOT do resource version checks, so if someone\n\t\tsubmits an update to a resource right when you submit a delete, their update\n\t\twill be lost along with the rest of the resource.\x00\n\t\tDeprecated: Gracefully shut down a resource by name or filename.\n\n\t\tThe stop command is deprecated, all its functionalities are covered by delete command.\n\t\tSee 'kubectl delete --help' for more details.\n\n\t\tAttempts to shut down and delete a resource that supports graceful termination.\n\t\tIf the resource is scalable it will be scaled to 0 before deletion.\x00\n\t\tDisplay Resource (CPU/Memory/Storage) usage of nodes.\n\n\t\tThe top-node command allows you to see the resource consumption of nodes.\x00\n\t\tDisplay Resource (CPU/Memory/Storage) usage of pods.\n\n\t\tThe 'top pod' command allows you to see the resource consumption of pods.\n\n\t\tDue to the metrics pipeline delay, they may be unavailable for a few minutes\n\t\tsince pod creation.\x00\n\t\tDisplay Resource (CPU/Memory/Storage) usage.\n\n\t\tThe top command allows you to see the resource consumption for nodes or pods.\n\n\t\tThis command requires Heapster to be correctly configured and working on the server. \x00\n\t\tDrain node in preparation for maintenance.\n\n\t\tThe given node will be marked unschedulable to prevent new pods from arriving.\n\t\t'drain' evicts the pods if the APIServer supports eviction\n\t\t(http://kubernetes.io/docs/admin/disruptions/). Otherwise, it will use normal DELETE\n\t\tto delete the pods.\n\t\tThe 'drain' evicts or deletes all pods except mirror pods (which cannot be deleted through\n\t\tthe API server). If there are DaemonSet-managed pods, drain will not proceed\n\t\twithout --ignore-daemonsets, and regardless it will not delete any\n\t\tDaemonSet-managed pods, because those pods would be immediately replaced by the\n\t\tDaemonSet controller, which ignores unschedulable markings. If there are any\n\t\tpods that are neither mirror pods nor managed by ReplicationController,\n\t\tReplicaSet, DaemonSet, StatefulSet or Job, then drain will not delete any pods unless you\n\t\tuse --force. --force will also allow deletion to proceed if the managing resource of one\n\t\tor more pods is missing.\n\n\t\t'drain' waits for graceful termination. You should not operate on the machine until\n\t\tthe command completes.\n\n\t\tWhen you are ready to put the node back into service, use kubectl uncordon, which\n\t\twill make the node schedulable again.\n\n\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_drain.svg)\x00\n\t\tEdit a resource from the default editor.\n\n\t\tThe edit command allows you to directly edit any API resource you can retrieve via the\n\t\tcommand line tools. It will open the editor defined by your KUBE_EDITOR, or EDITOR\n\t\tenvironment variables, or fall back to 'vi' for Linux or 'notepad' for Windows.\n\t\tYou can edit multiple objects, although changes are applied one at a time. The command\n\t\taccepts filenames as well as command line arguments, although the files you point to must\n\t\tbe previously saved versions of resources.\n\n\t\tEditing is done with the API version used to fetch the resource.\n\t\tTo edit using a specific API version, fully-qualify the resource, version, and group.\n\n\t\tThe default format is YAML. To edit in JSON, specify \"-o json\".\n\n\t\tThe flag --windows-line-endings can be used to force Windows line endings,\n\t\totherwise the default for your operating system will be used.\n\n\t\tIn the event an error occurs while updating, a temporary file will be created on disk\n\t\tthat contains your unapplied changes. The most common error when updating a resource\n\t\tis another editor changing the resource on the server. When this occurs, you will have\n\t\tto apply your changes to the newer version of the resource, or update your temporary\n\t\tsaved copy to include the latest resource version.\x00\n\t\tMark node as schedulable.\x00\n\t\tMark node as unschedulable.\x00\n\t\tOutput shell completion code for the specified shell (bash or zsh).\n\t\tThe shell code must be evaluated to provide interactive\n\t\tcompletion of kubectl commands. This can be done by sourcing it from\n\t\tthe .bash_profile.\n\n\t\tNote: this requires the bash-completion framework, which is not installed\n\t\tby default on Mac. This can be installed by using homebrew:\n\n\t\t $ brew install bash-completion\n\n\t\tOnce installed, bash_completion must be evaluated. This can be done by adding the\n\t\tfollowing line to the .bash_profile\n\n\t\t $ source $(brew --prefix)/etc/bash_completion\n\n\t\tNote for zsh users: [1] zsh completions are only supported in versions of zsh >= 5.2\x00\n\t\tPerform a rolling update of the given ReplicationController.\n\n\t\tReplaces the specified replication controller with a new replication controller by updating one pod at a time to use the\n\t\tnew PodTemplate. The new-controller.json must specify the same namespace as the\n\t\texisting replication controller and overwrite at least one (common) label in its replicaSelector.\n\n\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_rollingupdate.svg)\x00\n\t\tReplace a resource by filename or stdin.\n\n\t\tJSON and YAML formats are accepted. If replacing an existing resource, the\n\t\tcomplete resource spec must be provided. This can be obtained by\n\n\t\t $ kubectl get TYPE NAME -o yaml\n\n\t\tPlease refer to the models in https://htmlpreview.github.io/?https://github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions.html to find if a field is mutable.\x00\n\t\tSet a new size for a Deployment, ReplicaSet, Replication Controller, or Job.\n\n\t\tScale also allows users to specify one or more preconditions for the scale action.\n\n\t\tIf --current-replicas or --resource-version is specified, it is validated before the\n\t\tscale is attempted, and it is guaranteed that the precondition holds true when the\n\t\tscale is sent to the server.\x00\n\t\tSet the latest last-applied-configuration annotations by setting it to match the contents of a file.\n\t\tThis results in the last-applied-configuration being updated as though 'kubectl apply -f ' was run,\n\t\twithout updating any other parts of the object.\x00\n\t\tTo proxy all of the kubernetes api and nothing else, use:\n\n\t\t $ kubectl proxy --api-prefix=/\n\n\t\tTo proxy only part of the kubernetes api and also some static files:\n\n\t\t $ kubectl proxy --www=/my/files --www-prefix=/static/ --api-prefix=/api/\n\n\t\tThe above lets you 'curl localhost:8001/api/v1/pods'.\n\n\t\tTo proxy the entire kubernetes api at a different root, use:\n\n\t\t $ kubectl proxy --api-prefix=/custom/\n\n\t\tThe above lets you 'curl localhost:8001/custom/api/v1/pods'\x00\n\t\tUpdate field(s) of a resource using strategic merge patch\n\n\t\tJSON and YAML formats are accepted.\n\n\t\tPlease refer to the models in https://htmlpreview.github.io/?https://github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions.html to find if a field is mutable.\x00\n\t\tUpdate the labels on a resource.\n\n\t\t* A label must begin with a letter or number, and may contain letters, numbers, hyphens, dots, and underscores, up to %[1]d characters.\n\t\t* If --overwrite is true, then existing labels can be overwritten, otherwise attempting to overwrite a label will result in an error.\n\t\t* If --resource-version is specified, then updates will use this resource version, otherwise the existing resource-version will be used.\x00\n\t\tUpdate the taints on one or more nodes.\n\n\t\t* A taint consists of a key, value, and effect. As an argument here, it is expressed as key=value:effect.\n\t\t* The key must begin with a letter or number, and may contain letters, numbers, hyphens, dots, and underscores, up to %[1]d characters.\n\t\t* The value must begin with a letter or number, and may contain letters, numbers, hyphens, dots, and underscores, up to %[2]d characters.\n\t\t* The effect must be NoSchedule, PreferNoSchedule or NoExecute.\n\t\t* Currently taint can only apply to node.\x00\n\t\tView the latest last-applied-configuration annotations by type/name or file.\n\n\t\tThe default output will be printed to stdout in YAML format. One can use -o option\n\t\tto change output format.\x00\n\t # !!!Important Note!!!\n\t # Requires that the 'tar' binary is present in your container\n\t # image. If 'tar' is not present, 'kubectl cp' will fail.\n\n\t # Copy /tmp/foo_dir local directory to /tmp/bar_dir in a remote pod in the default namespace\n\t\tkubectl cp /tmp/foo_dir :/tmp/bar_dir\n\n # Copy /tmp/foo local file to /tmp/bar in a remote pod in a specific container\n\t\tkubectl cp /tmp/foo :/tmp/bar -c \n\n\t\t# Copy /tmp/foo local file to /tmp/bar in a remote pod in namespace \n\t\tkubectl cp /tmp/foo /:/tmp/bar\n\n\t\t# Copy /tmp/foo from a remote pod to /tmp/bar locally\n\t\tkubectl cp /:/tmp/foo /tmp/bar\x00\n\t # Create a new TLS secret named tls-secret with the given key pair:\n\t kubectl create secret tls tls-secret --cert=path/to/tls.cert --key=path/to/tls.key\x00\n\t # Create a new namespace named my-namespace\n\t kubectl create namespace my-namespace\x00\n\t # Create a new secret named my-secret with keys for each file in folder bar\n\t kubectl create secret generic my-secret --from-file=path/to/bar\n\n\t # Create a new secret named my-secret with specified keys instead of names on disk\n\t kubectl create secret generic my-secret --from-file=ssh-privatekey=~/.ssh/id_rsa --from-file=ssh-publickey=~/.ssh/id_rsa.pub\n\n\t # Create a new secret named my-secret with key1=supersecret and key2=topsecret\n\t kubectl create secret generic my-secret --from-literal=key1=supersecret --from-literal=key2=topsecret\x00\n\t # Create a new service account named my-service-account\n\t kubectl create serviceaccount my-service-account\x00\n\t# Create a new ExternalName service named my-ns \n\tkubectl create service externalname my-ns --external-name bar.com\x00\n\tCreate an ExternalName service with the specified name.\n\n\tExternalName service references to an external DNS address instead of\n\tonly pods, which will allow application authors to reference services\n\tthat exist off platform, on other clusters, or locally.\x00\n\tHelp provides help for any command in the application.\n\tSimply type kubectl help [path to command] for full details.\x00\n # Create a new LoadBalancer service named my-lbs\n kubectl create service loadbalancer my-lbs --tcp=5678:8080\x00\n # Create a new clusterIP service named my-cs\n kubectl create service clusterip my-cs --tcp=5678:8080\n\n # Create a new clusterIP service named my-cs (in headless mode)\n kubectl create service clusterip my-cs --clusterip=\"None\"\x00\n # Create a new deployment named my-dep that runs the busybox image.\n kubectl create deployment my-dep --image=busybox\x00\n # Create a new nodeport service named my-ns\n kubectl create service nodeport my-ns --tcp=5678:8080\x00\n # Dump current cluster state to stdout\n kubectl cluster-info dump\n\n # Dump current cluster state to /path/to/cluster-state\n kubectl cluster-info dump --output-directory=/path/to/cluster-state\n\n # Dump all namespaces to stdout\n kubectl cluster-info dump --all-namespaces\n\n # Dump a set of namespaces to /path/to/cluster-state\n kubectl cluster-info dump --namespaces default,kube-system --output-directory=/path/to/cluster-state\x00\n # Update pod 'foo' with the annotation 'description' and the value 'my frontend'.\n # If the same annotation is set multiple times, only the last value will be applied\n kubectl annotate pods foo description='my frontend'\n\n # Update a pod identified by type and name in \"pod.json\"\n kubectl annotate -f pod.json description='my frontend'\n\n # Update pod 'foo' with the annotation 'description' and the value 'my frontend running nginx', overwriting any existing value.\n kubectl annotate --overwrite pods foo description='my frontend running nginx'\n\n # Update all pods in the namespace\n kubectl annotate pods --all description='my frontend running nginx'\n\n # Update pod 'foo' only if the resource is unchanged from version 1.\n kubectl annotate pods foo description='my frontend running nginx' --resource-version=1\n\n # Update pod 'foo' by removing an annotation named 'description' if it exists.\n # Does not require the --overwrite flag.\n kubectl annotate pods foo description-\x00\n Create a LoadBalancer service with the specified name.\x00\n Create a clusterIP service with the specified name.\x00\n Create a deployment with the specified name.\x00\n Create a nodeport service with the specified name.\x00\n Dumps cluster info out suitable for debugging and diagnosing cluster problems. By default, dumps everything to\n stdout. You can optionally specify a directory with --output-directory. If you specify a directory, kubernetes will\n build a set of files in that directory. By default only dumps things in the 'kube-system' namespace, but you can\n switch to a different namespace with the --namespaces flag, or specify --all-namespaces to dump all namespaces.\n\n The command also dumps the logs of all of the pods in the cluster, these logs are dumped into different directories\n based on namespace and pod name.\x00\n Display addresses of the master and services with label kubernetes.io/cluster-service=true\n To further debug and diagnose cluster problems, use 'kubectl cluster-info dump'.\x00A comma-delimited set of quota scopes that must all match each object tracked by the quota.\x00A comma-delimited set of resource=quantity pairs that define a hard limit.\x00A label selector to use for this budget. Only equality-based selector requirements are supported.\x00A label selector to use for this service. Only equality-based selector requirements are supported. If empty (the default) infer the selector from the replication controller or replica set.)\x00A schedule in the Cron format the job should be run with.\x00Additional external IP address (not managed by Kubernetes) to accept for the service. If this IP is routed to a node, the service can be accessed by this IP in addition to its generated service IP.\x00An inline JSON override for the generated object. If this is non-empty, it is used to override the generated object. Requires that the object supply a valid apiVersion field.\x00An inline JSON override for the generated service object. If this is non-empty, it is used to override the generated object. Requires that the object supply a valid apiVersion field. Only used if --expose is true.\x00\u30d5\u30a1\u30a4\u30eb\u540d\u307e\u305f\u306f\u6a19\u6e96\u5165\u529b\u3067\u30ea\u30bd\u30fc\u30b9\u306b\u30b3\u30f3\u30d5\u30a3\u30b0\u3092\u9069\u7528\u3059\u308b\x00Approve a certificate signing request\x00Assign your own ClusterIP or set to 'None' for a 'headless' service (no loadbalancing).\x00Attach to a running container\x00Auto-scale a Deployment, ReplicaSet, or ReplicationController\x00ClusterIP to be assigned to the service. Leave empty to auto-allocate, or set to 'None' to create a headless service.\x00ClusterRole this ClusterRoleBinding should reference\x00ClusterRole this RoleBinding should reference\x00Container name which will have its image upgraded. Only relevant when --image is specified, ignored otherwise. Required when using --image on a multi-container pod\x00Convert config files between different API versions\x00Copy files and directories to and from containers.\x00Create a ClusterRoleBinding for a particular ClusterRole\x00Create a LoadBalancer service.\x00Create a NodePort service.\x00Create a RoleBinding for a particular Role or ClusterRole\x00Create a TLS secret\x00Create a clusterIP service.\x00Create a configmap from a local file, directory or literal value\x00Create a deployment with the specified name.\x00Create a namespace with the specified name\x00Create a pod disruption budget with the specified name.\x00Create a quota with the specified name.\x00\u30d5\u30a1\u30a4\u30eb\u540d\u307e\u305f\u306f\u6a19\u6e96\u5165\u529b\u3067\u30ea\u30bd\u30fc\u30b9\u3092\u4f5c\u6210\u3059\u308b\x00Create a secret for use with a Docker registry\x00Create a secret from a local file, directory or literal value\x00Create a secret using specified subcommand\x00Create a service account with the specified name\x00Create a service using specified subcommand.\x00Create an ExternalName service.\x00Delete resources by filenames, stdin, resources and names, or by resources and label selector\x00\u6307\u5b9a\u3057\u305f\u30b3\u30f3\u30c6\u30ad\u30b9\u30c8\u3092kubeconfig\u304b\u3089\u524a\u9664\u3059\u308b\x00\u6307\u5b9a\u3057\u305f\u30b3\u30f3\u30c6\u30ad\u30b9\u30c8\u3092kubeconfig\u304b\u3089\u524a\u9664\u3059\u308b\x00Deny a certificate signing request\x00Deprecated: Gracefully shut down a resource by name or filename\x001\u3064\u307e\u305f\u306f\u8907\u6570\u306e\u30b3\u30f3\u30c6\u30ad\u30b9\u30c8\u3092\u8a18\u8ff0\u3059\u308b\x00Display Resource (CPU/Memory) usage of nodes\x00Display Resource (CPU/Memory) usage of pods\x00Display Resource (CPU/Memory) usage.\x00\u30af\u30e9\u30b9\u30bf\u30fc\u306e\u60c5\u5831\u3092\u8868\u793a\u3059\u308b\x00kubeconfig\u3067\u5b9a\u7fa9\u3055\u308c\u305f\u30af\u30e9\u30b9\u30bf\u30fc\u3092\u8868\u793a\u3059\u308b\x00\u30de\u30fc\u30b8\u3055\u308c\u305fkubeconfig\u306e\u8a2d\u5b9a\u307e\u305f\u306f\u6307\u5b9a\u3055\u308c\u305fkubeconfig\u3092\u8868\u793a\u3059\u308b\x001\u3064\u307e\u305f\u306f\u8907\u6570\u306e\u30ea\u30bd\u30fc\u30b9\u3092\u8868\u793a\u3059\u308b\x00current-context\u3092\u8868\u793a\u3059\u308b\x00\u30ea\u30bd\u30fc\u30b9\u306e\u8aac\u660e\u3092\u8868\u793a\u3059\u308b\x00Drain node in preparation for maintenance\x00Dump lots of relevant info for debugging and diagnosis\x00Edit a resource on the server\x00Email for Docker registry\x00Execute a command in a container\x00Explicit policy for when to pull container images. Required when --image is same as existing image, ignored otherwise.\x00Forward one or more local ports to a pod\x00Help about any command\x00IP to assign to the Load Balancer. If empty, an ephemeral IP will be created and used (cloud-provider specific).\x00If non-empty, set the session affinity for the service to this; legal values: 'None', 'ClientIP'\x00If non-empty, the annotation update will only succeed if this is the current resource-version for the object. Only valid when specifying a single resource.\x00If non-empty, the labels update will only succeed if this is the current resource-version for the object. Only valid when specifying a single resource.\x00Image to use for upgrading the replication controller. Must be distinct from the existing image (either new image or new image tag). Can not be used with --filename/-f\x00Manage a deployment rollout\x00Mark node as schedulable\x00Mark node as unschedulable\x00Mark the provided resource as paused\x00Modify certificate resources.\x00kubeconfig\u3092\u5909\u66f4\u3059\u308b\x00Name or number for the port on the container that the service should direct traffic to. Optional.\x00Only return logs after a specific date (RFC3339). Defaults to all logs. Only one of since-time / since may be used.\x00Output shell completion code for the specified shell (bash or zsh)\x00Output the formatted object with the given group version (for ex: 'extensions/v1beta1').)\x00Password for Docker registry authentication\x00Path to PEM encoded public key certificate.\x00Path to private key associated with given certificate.\x00Perform a rolling update of the given ReplicationController\x00Precondition for resource version. Requires that the current resource version match this value in order to scale.\x00Print the client and server version information\x00Print the list of flags inherited by all commands\x00Print the logs for a container in a pod\x00Replace a resource by filename or stdin\x00Resume a paused resource\x00Role this RoleBinding should reference\x00Run a particular image on the cluster\x00Run a proxy to the Kubernetes API server\x00Server location for Docker registry\x00Set a new size for a Deployment, ReplicaSet, Replication Controller, or Job\x00Set specific features on objects\x00Set the last-applied-configuration annotation on a live object to match the contents of a file.\x00\u30ea\u30bd\u30fc\u30b9\u306e\u30bb\u30ec\u30af\u30bf\u30fc\u3092\u8a2d\u5b9a\u3059\u308b\x00kubeconfig\u306b\u30af\u30e9\u30b9\u30bf\u30fc\u30a8\u30f3\u30c8\u30ea\u3092\u8a2d\u5b9a\u3059\u308b\x00kubeconfig\u306b\u30b3\u30f3\u30c6\u30ad\u30b9\u30c8\u30a8\u30f3\u30c8\u30ea\u3092\u8a2d\u5b9a\u3059\u308b\x00kubeconfig\u306b\u30e6\u30fc\u30b6\u30fc\u30a8\u30f3\u30c8\u30ea\u3092\u8a2d\u5b9a\u3059\u308b\x00kubeconfig\u306b\u500b\u5225\u306e\u5909\u6570\u3092\u8a2d\u5b9a\u3059\u308b\x00kubeconfig\u306bcurrent-context\u3092\u8a2d\u5b9a\u3059\u308b\x00Show details of a specific resource or group of resources\x00Show the status of the rollout\x00Synonym for --target-port\x00Take a replication controller, service, deployment or pod and expose it as a new Kubernetes Service\x00The image for the container to run.\x00The image pull policy for the container. If left empty, this value will not be specified by the client and defaulted by the server\x00The key to use to differentiate between two different controllers, default 'deployment'. Only relevant when --image is specified, ignored otherwise\x00The minimum number or percentage of available pods this budget requires.\x00The name for the newly created object.\x00The name for the newly created object. If not specified, the name of the input resource will be used.\x00The name of the API generator to use, see http://kubernetes.io/docs/user-guide/kubectl-conventions/#generators for a list.\x00The name of the API generator to use. Currently there is only 1 generator.\x00The name of the API generator to use. There are 2 generators: 'service/v1' and 'service/v2'. The only difference between them is that service port in v1 is named 'default', while it is left unnamed in v2. Default is 'service/v2'.\x00The name of the generator to use for creating a service. Only used if --expose is true\x00The network protocol for the service to be created. Default is 'TCP'.\x00The port that the service should serve on. Copied from the resource being exposed, if unspecified\x00The port that this container exposes. If --expose is true, this is also the port used by the service that is created.\x00The resource requirement limits for this container. For example, 'cpu=200m,memory=512Mi'. Note that server side components may assign limits depending on the server configuration, such as limit ranges.\x00The resource requirement requests for this container. For example, 'cpu=100m,memory=256Mi'. Note that server side components may assign requests depending on the server configuration, such as limit ranges.\x00The restart policy for this Pod. Legal values [Always, OnFailure, Never]. If set to 'Always' a deployment is created, if set to 'OnFailure' a job is created, if set to 'Never', a regular pod is created. For the latter two --replicas must be 1. Default 'Always', for CronJobs `Never`.\x00The type of secret to create\x00Type for this service: ClusterIP, NodePort, or LoadBalancer. Default is 'ClusterIP'.\x00\u73fe\u5728\u306e\u30ed\u30fc\u30eb\u30a2\u30a6\u30c8\u3092\u53d6\u308a\u6d88\u3059\x00kubeconfig\u304b\u3089\u5909\u6570\u3092\u500b\u5225\u306b\u524a\u9664\u3059\u308b\x00Update field(s) of a resource using strategic merge patch\x00Update image of a pod template\x00Update resource requests/limits on objects with pod templates\x00\u30ea\u30bd\u30fc\u30b9\u306e\u30a2\u30ce\u30c6\u30fc\u30b7\u30e7\u30f3\u3092\u66f4\u65b0\u3059\u308b\x00\u30ea\u30bd\u30fc\u30b9\u306e\u30e9\u30d9\u30eb\u3092\u66f4\u65b0\u3059\u308b\x00Update the taints on one or more nodes\x00Username for Docker registry authentication\x00View latest last-applied-configuration annotations of a resource/object\x00\u30ed\u30fc\u30eb\u30a2\u30a6\u30c8\u306e\u5c65\u6b74\u3092\u8868\u793a\u3059\u308b\x00Where to output the files. If empty or '-' uses stdout, otherwise creates a directory hierarchy in that directory\x00dummy restart flag)\x00external name of service\x00kubectl controls the Kubernetes cluster manager\x00") func translationsKubectlJa_jpLc_messagesK8sMoBytes() ([]byte, error) { return _translationsKubectlJa_jpLc_messagesK8sMo, nil } func translationsKubectlJa_jpLc_messagesK8sMo() (*asset, error) { bytes, err := translationsKubectlJa_jpLc_messagesK8sMoBytes() if err != nil { return nil, err } info := bindataFileInfo{name: "translations/kubectl/ja_JP/LC_MESSAGES/k8s.mo", size: 0, mode: os.FileMode(0), modTime: time.Unix(0, 0)} a := &asset{bytes: bytes, info: info} return a, nil } var _translationsKubectlJa_jpLc_messagesK8sPo = []byte(`# Test translations for unit tests. # Copyright (C) 2017 # This file is distributed under the same license as the Kubernetes package. # FIRST AUTHOR girikuncoro@gmail.com, 2017. # msgid "" msgstr "" "Project-Id-Version: gettext-go-examples-hello\n" "Report-Msgid-Bugs-To: EMAIL\n" "POT-Creation-Date: 2017-03-14 21:32-0700\n" "PO-Revision-Date: 2020-01-05 09:55+0900\n" "Last-Translator: Kohei Ota \n" "Language-Team: \n" "Language: ja\n" "MIME-Version: 1.0\n" "Content-Type: text/plain; charset=UTF-8\n" "Content-Transfer-Encoding: 8bit\n" "X-Generator: Poedit 2.2.4\n" "X-Poedit-SourceCharset: UTF-8\n" "Plural-Forms: nplurals=2; plural=(n != 1);\n" #: pkg/kubectl/cmd/create_clusterrolebinding.go:35 msgid "" "\n" "\t\t # Create a ClusterRoleBinding for user1, user2, and group1 using the " "cluster-admin ClusterRole\n" "\t\t kubectl create clusterrolebinding cluster-admin --clusterrole=cluster-" "admin --user=user1 --user=user2 --group=group1" msgstr "" "\n" "\t\t # Create a ClusterRoleBinding for user1, user2, and group1 using the " "cluster-admin ClusterRole\n" "\t\t kubectl create clusterrolebinding cluster-admin --clusterrole=cluster-" "admin --user=user1 --user=user2 --group=group1" #: pkg/kubectl/cmd/create_rolebinding.go:35 msgid "" "\n" "\t\t # Create a RoleBinding for user1, user2, and group1 using the admin " "ClusterRole\n" "\t\t kubectl create rolebinding admin --clusterrole=admin --user=user1 --" "user=user2 --group=group1" msgstr "" "\n" "\t\t # Create a RoleBinding for user1, user2, and group1 using the admin " "ClusterRole\n" "\t\t kubectl create rolebinding admin --clusterrole=admin --user=user1 --" "user=user2 --group=group1" #: pkg/kubectl/cmd/create_configmap.go:44 msgid "" "\n" "\t\t # Create a new configmap named my-config based on folder bar\n" "\t\t kubectl create configmap my-config --from-file=path/to/bar\n" "\n" "\t\t # Create a new configmap named my-config with specified keys instead " "of file basenames on disk\n" "\t\t kubectl create configmap my-config --from-file=key1=/path/to/bar/file1." "txt --from-file=key2=/path/to/bar/file2.txt\n" "\n" "\t\t # Create a new configmap named my-config with key1=config1 and " "key2=config2\n" "\t\t kubectl create configmap my-config --from-literal=key1=config1 --from-" "literal=key2=config2" msgstr "" "\n" "\t\t # Create a new configmap named my-config based on folder bar\n" "\t\t kubectl create configmap my-config --from-file=path/to/bar\n" "\n" "\t\t # Create a new configmap named my-config with specified keys instead " "of file basenames on disk\n" "\t\t kubectl create configmap my-config --from-file=key1=/path/to/bar/file1." "txt --from-file=key2=/path/to/bar/file2.txt\n" "\n" "\t\t # Create a new configmap named my-config with key1=config1 and " "key2=config2\n" "\t\t kubectl create configmap my-config --from-literal=key1=config1 --from-" "literal=key2=config2" #: pkg/kubectl/cmd/create_secret.go:135 msgid "" "\n" "\t\t # If you don't already have a .dockercfg file, you can create a " "dockercfg secret directly by using:\n" "\t\t kubectl create secret docker-registry my-secret --docker-" "server=DOCKER_REGISTRY_SERVER --docker-username=DOCKER_USER --docker-" "password=DOCKER_PASSWORD --docker-email=DOCKER_EMAIL" msgstr "" "\n" "\t\t # If you don't already have a .dockercfg file, you can create a " "dockercfg secret directly by using:\n" "\t\t kubectl create secret docker-registry my-secret --docker-" "server=DOCKER_REGISTRY_SERVER --docker-username=DOCKER_USER --docker-" "password=DOCKER_PASSWORD --docker-email=DOCKER_EMAIL" #: pkg/kubectl/cmd/top_node.go:65 msgid "" "\n" "\t\t # Show metrics for all nodes\n" "\t\t kubectl top node\n" "\n" "\t\t # Show metrics for a given node\n" "\t\t kubectl top node NODE_NAME" msgstr "" "\n" "\t\t # Show metrics for all nodes\n" "\t\t kubectl top node\n" "\n" "\t\t # Show metrics for a given node\n" "\t\t kubectl top node NODE_NAME" #: pkg/kubectl/cmd/apply.go:84 msgid "" "\n" "\t\t# Apply the configuration in pod.json to a pod.\n" "\t\tkubectl apply -f ./pod.json\n" "\n" "\t\t# Apply the JSON passed into stdin to a pod.\n" "\t\tcat pod.json | kubectl apply -f -\n" "\n" "\t\t# Note: --prune is still in Alpha\n" "\t\t# Apply the configuration in manifest.yaml that matches label app=nginx " "and delete all the other resources that are not in the file and match label " "app=nginx.\n" "\t\tkubectl apply --prune -f manifest.yaml -l app=nginx\n" "\n" "\t\t# Apply the configuration in manifest.yaml and delete all the other " "configmaps that are not in the file.\n" "\t\tkubectl apply --prune -f manifest.yaml --all --prune-whitelist=core/v1/" "ConfigMap" msgstr "" "\n" "\t\t# Apply the configuration in pod.json to a pod.\n" "\t\tkubectl apply -f ./pod.json\n" "\n" "\t\t# Apply the JSON passed into stdin to a pod.\n" "\t\tcat pod.json | kubectl apply -f -\n" "\n" "\t\t# Note: --prune is still in Alpha\n" "\t\t# Apply the configuration in manifest.yaml that matches label app=nginx " "and delete all the other resources that are not in the file and match label " "app=nginx.\n" "\t\tkubectl apply --prune -f manifest.yaml -l app=nginx\n" "\n" "\t\t# Apply the configuration in manifest.yaml and delete all the other " "configmaps that are not in the file.\n" "\t\tkubectl apply --prune -f manifest.yaml --all --prune-whitelist=core/v1/" "ConfigMap" #: pkg/kubectl/cmd/autoscale.go:40 #, c-format msgid "" "\n" "\t\t# Auto scale a deployment \"foo\", with the number of pods between 2 and " "10, no target CPU utilization specified so a default autoscaling policy will " "be used:\n" "\t\tkubectl autoscale deployment foo --min=2 --max=10\n" "\n" "\t\t# Auto scale a replication controller \"foo\", with the number of pods " "between 1 and 5, target CPU utilization at 80%:\n" "\t\tkubectl autoscale rc foo --max=5 --cpu-percent=80" msgstr "" "\n" "\t\t# Auto scale a deployment \"foo\", with the number of pods between 2 and " "10, no target CPU utilization specified so a default autoscaling policy will " "be used:\n" "\t\tkubectl autoscale deployment foo --min=2 --max=10\n" "\n" "\t\t# Auto scale a replication controller \"foo\", with the number of pods " "between 1 and 5, target CPU utilization at 80%:\n" "\t\tkubectl autoscale rc foo --max=5 --cpu-percent=80" #: pkg/kubectl/cmd/convert.go:49 msgid "" "\n" "\t\t# Convert 'pod.yaml' to latest version and print to stdout.\n" "\t\tkubectl convert -f pod.yaml\n" "\n" "\t\t# Convert the live state of the resource specified by 'pod.yaml' to the " "latest version\n" "\t\t# and print to stdout in json format.\n" "\t\tkubectl convert -f pod.yaml --local -o json\n" "\n" "\t\t# Convert all files under current directory to latest version and create " "them all.\n" "\t\tkubectl convert -f . | kubectl create -f -" msgstr "" "\n" "\t\t# Convert 'pod.yaml' to latest version and print to stdout.\n" "\t\tkubectl convert -f pod.yaml\n" "\n" "\t\t# Convert the live state of the resource specified by 'pod.yaml' to the " "latest version\n" "\t\t# and print to stdout in json format.\n" "\t\tkubectl convert -f pod.yaml --local -o json\n" "\n" "\t\t# Convert all files under current directory to latest version and create " "them all.\n" "\t\tkubectl convert -f . | kubectl create -f -" #: pkg/kubectl/cmd/create_clusterrole.go:34 msgid "" "\n" "\t\t# Create a ClusterRole named \"pod-reader\" that allows user to perform " "\"get\", \"watch\" and \"list\" on pods\n" "\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --" "resource=pods\n" "\n" "\t\t# Create a ClusterRole named \"pod-reader\" with ResourceName specified\n" "\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --" "resource=pods --resource-name=readablepod" msgstr "" "\n" "\t\t# Create a ClusterRole named \"pod-reader\" that allows user to perform " "\"get\", \"watch\" and \"list\" on pods\n" "\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --" "resource=pods\n" "\n" "\t\t# Create a ClusterRole named \"pod-reader\" with ResourceName specified\n" "\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --" "resource=pods --resource-name=readablepod" #: pkg/kubectl/cmd/create_role.go:41 msgid "" "\n" "\t\t# Create a Role named \"pod-reader\" that allows user to perform \"get" "\", \"watch\" and \"list\" on pods\n" "\t\tkubectl create role pod-reader --verb=get --verb=list --verb=watch --" "resource=pods\n" "\n" "\t\t# Create a Role named \"pod-reader\" with ResourceName specified\n" "\t\tkubectl create role pod-reader --verb=get --verg=list --verb=watch --" "resource=pods --resource-name=readablepod" msgstr "" "\n" "\t\t# Create a Role named \"pod-reader\" that allows user to perform \"get" "\", \"watch\" and \"list\" on pods\n" "\t\tkubectl create role pod-reader --verb=get --verb=list --verb=watch --" "resource=pods\n" "\n" "\t\t# Create a Role named \"pod-reader\" with ResourceName specified\n" "\t\tkubectl create role pod-reader --verb=get --verg=list --verb=watch --" "resource=pods --resource-name=readablepod" #: pkg/kubectl/cmd/create_quota.go:35 msgid "" "\n" "\t\t# Create a new resourcequota named my-quota\n" "\t\tkubectl create quota my-quota --hard=cpu=1,memory=1G,pods=2,services=3," "replicationcontrollers=2,resourcequotas=1,secrets=5," "persistentvolumeclaims=10\n" "\n" "\t\t# Create a new resourcequota named best-effort\n" "\t\tkubectl create quota best-effort --hard=pods=100 --scopes=BestEffort" msgstr "" "\n" "\t\t# Create a new resourcequota named my-quota\n" "\t\tkubectl create quota my-quota --hard=cpu=1,memory=1G,pods=2,services=3," "replicationcontrollers=2,resourcequotas=1,secrets=5," "persistentvolumeclaims=10\n" "\n" "\t\t# Create a new resourcequota named best-effort\n" "\t\tkubectl create quota best-effort --hard=pods=100 --scopes=BestEffort" #: pkg/kubectl/cmd/create_pdb.go:35 #, c-format msgid "" "\n" "\t\t# Create a pod disruption budget named my-pdb that will select all pods " "with the app=rails label\n" "\t\t# and require at least one of them being available at any point in " "time.\n" "\t\tkubectl create poddisruptionbudget my-pdb --selector=app=rails --min-" "available=1\n" "\n" "\t\t# Create a pod disruption budget named my-pdb that will select all pods " "with the app=nginx label\n" "\t\t# and require at least half of the pods selected to be available at any " "point in time.\n" "\t\tkubectl create pdb my-pdb --selector=app=nginx --min-available=50%" msgstr "" "\n" "\t\t# Create a pod disruption budget named my-pdb that will select all pods " "with the app=rails label\n" "\t\t# and require at least one of them being available at any point in " "time.\n" "\t\tkubectl create poddisruptionbudget my-pdb --selector=app=rails --min-" "available=1\n" "\n" "\t\t# Create a pod disruption budget named my-pdb that will select all pods " "with the app=nginx label\n" "\t\t# and require at least half of the pods selected to be available at any " "point in time.\n" "\t\tkubectl create pdb my-pdb --selector=app=nginx --min-available=50%" #: pkg/kubectl/cmd/create.go:47 msgid "" "\n" "\t\t# Create a pod using the data in pod.json.\n" "\t\tkubectl create -f ./pod.json\n" "\n" "\t\t# Create a pod based on the JSON passed into stdin.\n" "\t\tcat pod.json | kubectl create -f -\n" "\n" "\t\t# Edit the data in docker-registry.yaml in JSON using the v1 API format " "then create the resource using the edited data.\n" "\t\tkubectl create -f docker-registry.yaml --edit --output-version=v1 -o json" msgstr "" "\n" "\t\t# Create a pod using the data in pod.json.\n" "\t\tkubectl create -f ./pod.json\n" "\n" "\t\t# Create a pod based on the JSON passed into stdin.\n" "\t\tcat pod.json | kubectl create -f -\n" "\n" "\t\t# Edit the data in docker-registry.yaml in JSON using the v1 API format " "then create the resource using the edited data.\n" "\t\tkubectl create -f docker-registry.yaml --edit --output-version=v1 -o json" #: pkg/kubectl/cmd/expose.go:53 msgid "" "\n" "\t\t# Create a service for a replicated nginx, which serves on port 80 and " "connects to the containers on port 8000.\n" "\t\tkubectl expose rc nginx --port=80 --target-port=8000\n" "\n" "\t\t# Create a service for a replication controller identified by type and " "name specified in \"nginx-controller.yaml\", which serves on port 80 and " "connects to the containers on port 8000.\n" "\t\tkubectl expose -f nginx-controller.yaml --port=80 --target-port=8000\n" "\n" "\t\t# Create a service for a pod valid-pod, which serves on port 444 with " "the name \"frontend\"\n" "\t\tkubectl expose pod valid-pod --port=444 --name=frontend\n" "\n" "\t\t# Create a second service based on the above service, exposing the " "container port 8443 as port 443 with the name \"nginx-https\"\n" "\t\tkubectl expose service nginx --port=443 --target-port=8443 --name=nginx-" "https\n" "\n" "\t\t# Create a service for a replicated streaming application on port 4100 " "balancing UDP traffic and named 'video-stream'.\n" "\t\tkubectl expose rc streamer --port=4100 --protocol=udp --name=video-" "stream\n" "\n" "\t\t# Create a service for a replicated nginx using replica set, which " "serves on port 80 and connects to the containers on port 8000.\n" "\t\tkubectl expose rs nginx --port=80 --target-port=8000\n" "\n" "\t\t# Create a service for an nginx deployment, which serves on port 80 and " "connects to the containers on port 8000.\n" "\t\tkubectl expose deployment nginx --port=80 --target-port=8000" msgstr "" "\n" "\t\t# Create a service for a replicated nginx, which serves on port 80 and " "connects to the containers on port 8000.\n" "\t\tkubectl expose rc nginx --port=80 --target-port=8000\n" "\n" "\t\t# Create a service for a replication controller identified by type and " "name specified in \"nginx-controller.yaml\", which serves on port 80 and " "connects to the containers on port 8000.\n" "\t\tkubectl expose -f nginx-controller.yaml --port=80 --target-port=8000\n" "\n" "\t\t# Create a service for a pod valid-pod, which serves on port 444 with " "the name \"frontend\"\n" "\t\tkubectl expose pod valid-pod --port=444 --name=frontend\n" "\n" "\t\t# Create a second service based on the above service, exposing the " "container port 8443 as port 443 with the name \"nginx-https\"\n" "\t\tkubectl expose service nginx --port=443 --target-port=8443 --name=nginx-" "https\n" "\n" "\t\t# Create a service for a replicated streaming application on port 4100 " "balancing UDP traffic and named 'video-stream'.\n" "\t\tkubectl expose rc streamer --port=4100 --protocol=udp --name=video-" "stream\n" "\n" "\t\t# Create a service for a replicated nginx using replica set, which " "serves on port 80 and connects to the containers on port 8000.\n" "\t\tkubectl expose rs nginx --port=80 --target-port=8000\n" "\n" "\t\t# Create a service for an nginx deployment, which serves on port 80 and " "connects to the containers on port 8000.\n" "\t\tkubectl expose deployment nginx --port=80 --target-port=8000" #: pkg/kubectl/cmd/delete.go:68 msgid "" "\n" "\t\t# Delete a pod using the type and name specified in pod.json.\n" "\t\tkubectl delete -f ./pod.json\n" "\n" "\t\t# Delete a pod based on the type and name in the JSON passed into " "stdin.\n" "\t\tcat pod.json | kubectl delete -f -\n" "\n" "\t\t# Delete pods and services with same names \"baz\" and \"foo\"\n" "\t\tkubectl delete pod,service baz foo\n" "\n" "\t\t# Delete pods and services with label name=myLabel.\n" "\t\tkubectl delete pods,services -l name=myLabel\n" "\n" "\t\t# Delete a pod with minimal delay\n" "\t\tkubectl delete pod foo --now\n" "\n" "\t\t# Force delete a pod on a dead node\n" "\t\tkubectl delete pod foo --grace-period=0 --force\n" "\n" "\t\t# Delete all pods\n" "\t\tkubectl delete pods --all" msgstr "" "\n" "\t\t# Delete a pod using the type and name specified in pod.json.\n" "\t\tkubectl delete -f ./pod.json\n" "\n" "\t\t# Delete a pod based on the type and name in the JSON passed into " "stdin.\n" "\t\tcat pod.json | kubectl delete -f -\n" "\n" "\t\t# Delete pods and services with same names \"baz\" and \"foo\"\n" "\t\tkubectl delete pod,service baz foo\n" "\n" "\t\t# Delete pods and services with label name=myLabel.\n" "\t\tkubectl delete pods,services -l name=myLabel\n" "\n" "\t\t# Delete a pod with minimal delay\n" "\t\tkubectl delete pod foo --now\n" "\n" "\t\t# Force delete a pod on a dead node\n" "\t\tkubectl delete pod foo --grace-period=0 --force\n" "\n" "\t\t# Delete all pods\n" "\t\tkubectl delete pods --all" #: pkg/kubectl/cmd/describe.go:54 msgid "" "\n" "\t\t# Describe a node\n" "\t\tkubectl describe nodes kubernetes-node-emt8.c.myproject.internal\n" "\n" "\t\t# Describe a pod\n" "\t\tkubectl describe pods/nginx\n" "\n" "\t\t# Describe a pod identified by type and name in \"pod.json\"\n" "\t\tkubectl describe -f pod.json\n" "\n" "\t\t# Describe all pods\n" "\t\tkubectl describe pods\n" "\n" "\t\t# Describe pods by label name=myLabel\n" "\t\tkubectl describe po -l name=myLabel\n" "\n" "\t\t# Describe all pods managed by the 'frontend' replication controller (rc-" "created pods\n" "\t\t# get the name of the rc as a prefix in the pod the name).\n" "\t\tkubectl describe pods frontend" msgstr "" "\n" "\t\t# Describe a node\n" "\t\tkubectl describe nodes kubernetes-node-emt8.c.myproject.internal\n" "\n" "\t\t# Describe a pod\n" "\t\tkubectl describe pods/nginx\n" "\n" "\t\t# Describe a pod identified by type and name in \"pod.json\"\n" "\t\tkubectl describe -f pod.json\n" "\n" "\t\t# Describe all pods\n" "\t\tkubectl describe pods\n" "\n" "\t\t# Describe pods by label name=myLabel\n" "\t\tkubectl describe po -l name=myLabel\n" "\n" "\t\t# Describe all pods managed by the 'frontend' replication controller (rc-" "created pods\n" "\t\t# get the name of the rc as a prefix in the pod the name).\n" "\t\tkubectl describe pods frontend" #: pkg/kubectl/cmd/drain.go:165 msgid "" "\n" "\t\t# Drain node \"foo\", even if there are pods not managed by a " "ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet on it.\n" "\t\t$ kubectl drain foo --force\n" "\n" "\t\t# As above, but abort if there are pods not managed by a " "ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet, and use a " "grace period of 15 minutes.\n" "\t\t$ kubectl drain foo --grace-period=900" msgstr "" "\n" "\t\t# Drain node \"foo\", even if there are pods not managed by a " "ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet on it.\n" "\t\t$ kubectl drain foo --force\n" "\n" "\t\t# As above, but abort if there are pods not managed by a " "ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet, and use a " "grace period of 15 minutes.\n" "\t\t$ kubectl drain foo --grace-period=900" #: pkg/kubectl/cmd/edit.go:80 msgid "" "\n" "\t\t# Edit the service named 'docker-registry':\n" "\t\tkubectl edit svc/docker-registry\n" "\n" "\t\t# Use an alternative editor\n" "\t\tKUBE_EDITOR=\"nano\" kubectl edit svc/docker-registry\n" "\n" "\t\t# Edit the job 'myjob' in JSON using the v1 API format:\n" "\t\tkubectl edit job.v1.batch/myjob -o json\n" "\n" "\t\t# Edit the deployment 'mydeployment' in YAML and save the modified " "config in its annotation:\n" "\t\tkubectl edit deployment/mydeployment -o yaml --save-config" msgstr "" "\n" "\t\t# Edit the service named 'docker-registry':\n" "\t\tkubectl edit svc/docker-registry\n" "\n" "\t\t# Use an alternative editor\n" "\t\tKUBE_EDITOR=\"nano\" kubectl edit svc/docker-registry\n" "\n" "\t\t# Edit the job 'myjob' in JSON using the v1 API format:\n" "\t\tkubectl edit job.v1.batch/myjob -o json\n" "\n" "\t\t# Edit the deployment 'mydeployment' in YAML and save the modified " "config in its annotation:\n" "\t\tkubectl edit deployment/mydeployment -o yaml --save-config" #: pkg/kubectl/cmd/exec.go:41 msgid "" "\n" "\t\t# Get output from running 'date' from pod 123456-7890, using the first " "container by default\n" "\t\tkubectl exec 123456-7890 date\n" "\n" "\t\t# Get output from running 'date' in ruby-container from pod 123456-7890\n" "\t\tkubectl exec 123456-7890 -c ruby-container date\n" "\n" "\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container " "from pod 123456-7890\n" "\t\t# and sends stdout/stderr from 'bash' back to the client\n" "\t\tkubectl exec 123456-7890 -c ruby-container -i -t -- bash -il" msgstr "" "\n" "\t\t# Get output from running 'date' from pod 123456-7890, using the first " "container by default\n" "\t\tkubectl exec 123456-7890 date\n" "\n" "\t\t# Get output from running 'date' in ruby-container from pod 123456-7890\n" "\t\tkubectl exec 123456-7890 -c ruby-container date\n" "\n" "\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container " "from pod 123456-7890\n" "\t\t# and sends stdout/stderr from 'bash' back to the client\n" "\t\tkubectl exec 123456-7890 -c ruby-container -i -t -- bash -il" #: pkg/kubectl/cmd/attach.go:42 msgid "" "\n" "\t\t# Get output from running pod 123456-7890, using the first container by " "default\n" "\t\tkubectl attach 123456-7890\n" "\n" "\t\t# Get output from ruby-container from pod 123456-7890\n" "\t\tkubectl attach 123456-7890 -c ruby-container\n" "\n" "\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container " "from pod 123456-7890\n" "\t\t# and sends stdout/stderr from 'bash' back to the client\n" "\t\tkubectl attach 123456-7890 -c ruby-container -i -t\n" "\n" "\t\t# Get output from the first pod of a ReplicaSet named nginx\n" "\t\tkubectl attach rs/nginx\n" "\t\t" msgstr "" "\n" "\t\t# Get output from running pod 123456-7890, using the first container by " "default\n" "\t\tkubectl attach 123456-7890\n" "\n" "\t\t# Get output from ruby-container from pod 123456-7890\n" "\t\tkubectl attach 123456-7890 -c ruby-container\n" "\n" "\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container " "from pod 123456-7890\n" "\t\t# and sends stdout/stderr from 'bash' back to the client\n" "\t\tkubectl attach 123456-7890 -c ruby-container -i -t\n" "\n" "\t\t# Get output from the first pod of a ReplicaSet named nginx\n" "\t\tkubectl attach rs/nginx\n" "\t\t" #: pkg/kubectl/cmd/explain.go:39 msgid "" "\n" "\t\t# Get the documentation of the resource and its fields\n" "\t\tkubectl explain pods\n" "\n" "\t\t# Get the documentation of a specific field of a resource\n" "\t\tkubectl explain pods.spec.containers" msgstr "" "\n" "\t\t# Get the documentation of the resource and its fields\n" "\t\tkubectl explain pods\n" "\n" "\t\t# Get the documentation of a specific field of a resource\n" "\t\tkubectl explain pods.spec.containers" #: pkg/kubectl/cmd/completion.go:65 msgid "" "\n" "\t\t# Install bash completion on a Mac using homebrew\n" "\t\tbrew install bash-completion\n" "\t\tprintf \"\n" "# Bash completion support\n" "source $(brew --prefix)/etc/bash_completion\n" "\" >> $HOME/.bash_profile\n" "\t\tsource $HOME/.bash_profile\n" "\n" "\t\t# Load the kubectl completion code for bash into the current shell\n" "\t\tsource <(kubectl completion bash)\n" "\n" "\t\t# Write bash completion code to a file and source if from .bash_profile\n" "\t\tkubectl completion bash > ~/.kube/completion.bash.inc\n" "\t\tprintf \"\n" "# Kubectl shell completion\n" "source '$HOME/.kube/completion.bash.inc'\n" "\" >> $HOME/.bash_profile\n" "\t\tsource $HOME/.bash_profile\n" "\n" "\t\t# Load the kubectl completion code for zsh[1] into the current shell\n" "\t\tsource <(kubectl completion zsh)" msgstr "" "\n" "\t\t# Install bash completion on a Mac using homebrew\n" "\t\tbrew install bash-completion\n" "\t\tprintf \"\n" "# Bash completion support\n" "source $(brew --prefix)/etc/bash_completion\n" "\" >> $HOME/.bash_profile\n" "\t\tsource $HOME/.bash_profile\n" "\n" "\t\t# Load the kubectl completion code for bash into the current shell\n" "\t\tsource <(kubectl completion bash)\n" "\n" "\t\t# Write bash completion code to a file and source if from .bash_profile\n" "\t\tkubectl completion bash > ~/.kube/completion.bash.inc\n" "\t\tprintf \"\n" "# Kubectl shell completion\n" "source '$HOME/.kube/completion.bash.inc'\n" "\" >> $HOME/.bash_profile\n" "\t\tsource $HOME/.bash_profile\n" "\n" "\t\t# Load the kubectl completion code for zsh[1] into the current shell\n" "\t\tsource <(kubectl completion zsh)" #: pkg/kubectl/cmd/get.go:64 msgid "" "\n" "\t\t# List all pods in ps output format.\n" "\t\tkubectl get pods\n" "\n" "\t\t# List all pods in ps output format with more information (such as node " "name).\n" "\t\tkubectl get pods -o wide\n" "\n" "\t\t# List a single replication controller with specified NAME in ps output " "format.\n" "\t\tkubectl get replicationcontroller web\n" "\n" "\t\t# List a single pod in JSON output format.\n" "\t\tkubectl get -o json pod web-pod-13je7\n" "\n" "\t\t# List a pod identified by type and name specified in \"pod.yaml\" in " "JSON output format.\n" "\t\tkubectl get -f pod.yaml -o json\n" "\n" "\t\t# Return only the phase value of the specified pod.\n" "\t\tkubectl get -o template pod/web-pod-13je7 --template={{.status.phase}}\n" "\n" "\t\t# List all replication controllers and services together in ps output " "format.\n" "\t\tkubectl get rc,services\n" "\n" "\t\t# List one or more resources by their type and names.\n" "\t\tkubectl get rc/web service/frontend pods/web-pod-13je7\n" "\n" "\t\t# List all resources with different types.\n" "\t\tkubectl get all" msgstr "" "\n" "\t\t# List all pods in ps output format.\n" "\t\tkubectl get pods\n" "\n" "\t\t# List all pods in ps output format with more information (such as node " "name).\n" "\t\tkubectl get pods -o wide\n" "\n" "\t\t# List a single replication controller with specified NAME in ps output " "format.\n" "\t\tkubectl get replicationcontroller web\n" "\n" "\t\t# List a single pod in JSON output format.\n" "\t\tkubectl get -o json pod web-pod-13je7\n" "\n" "\t\t# List a pod identified by type and name specified in \"pod.yaml\" in " "JSON output format.\n" "\t\tkubectl get -f pod.yaml -o json\n" "\n" "\t\t# Return only the phase value of the specified pod.\n" "\t\tkubectl get -o template pod/web-pod-13je7 --template={{.status.phase}}\n" "\n" "\t\t# List all replication controllers and services together in ps output " "format.\n" "\t\tkubectl get rc,services\n" "\n" "\t\t# List one or more resources by their type and names.\n" "\t\tkubectl get rc/web service/frontend pods/web-pod-13je7\n" "\n" "\t\t# List all resources with different types.\n" "\t\tkubectl get all" #: pkg/kubectl/cmd/portforward.go:53 msgid "" "\n" "\t\t# Listen on ports 5000 and 6000 locally, forwarding data to/from ports 5000 and 6000 in the pod" "\t\tkubectl port-forward pod/mypod 5000 6000" "\n" "\t\t# Listen on ports 5000 and 6000 locally, forwarding data to/from ports 5000 and 6000 in a pod selected by the deployment" "\t\tkubectl port-forward deployment/mydeployment 5000 6000" "\n" "\t\t# Listen on ports 5000 and 6000 locally, forwarding data to/from ports 5000 and 6000 in a pod selected by the service" "\t\tkubectl port-forward service/myservice 5000 6000" "\n" "\t\t# Listen on port 8888 locally, forwarding to 5000 in the pod" "\t\tkubectl port-forward pod/mypod 8888:5000" "\n" "\t\t# Listen on a random port locally, forwarding to 5000 in the pod" "\t\tkubectl port-forward pod/mypod :5000" msgstr "" "\n" "\t\t# Listen on ports 5000 and 6000 locally, forwarding data to/from ports 5000 and 6000 in the pod" "\t\tkubectl port-forward pod/mypod 5000 6000" "\n" "\t\t# Listen on ports 5000 and 6000 locally, forwarding data to/from ports 5000 and 6000 in a pod selected by the deployment" "\t\tkubectl port-forward deployment/mydeployment 5000 6000" "\n" "\t\t# Listen on ports 5000 and 6000 locally, forwarding data to/from ports 5000 and 6000 in a pod selected by the service" "\t\tkubectl port-forward service/myservice 5000 6000" "\n" "\t\t# Listen on port 8888 locally, forwarding to 5000 in the pod" "\t\tkubectl port-forward pod/mypod 8888:5000" "\n" "\t\t# Listen on a random port locally, forwarding to 5000 in the pod" "\t\tkubectl port-forward pod/mypod :5000" #: pkg/kubectl/cmd/drain.go:118 msgid "" "\n" "\t\t# Mark node \"foo\" as schedulable.\n" "\t\t$ kubectl uncordon foo" msgstr "" "\n" "\t\t# Mark node \"foo\" as schedulable.\n" "\t\t$ kubectl uncordon foo" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/drain.go#L102 #: pkg/kubectl/cmd/drain.go:93 msgid "" "\n" "\t\t# Mark node \"foo\" as unschedulable.\n" "\t\tkubectl cordon foo" msgstr "" "\n" "\t\t# Mark node \"foo\" as unschedulable.\n" "\t\tkubectl cordon foo" #: pkg/kubectl/cmd/patch.go:66 msgid "" "\n" "\t\t# Partially update a node using strategic merge patch\n" "\t\tkubectl patch node k8s-node-1 -p '{\"spec\":{\"unschedulable\":true}}'\n" "\n" "\t\t# Partially update a node identified by the type and name specified in " "\"node.json\" using strategic merge patch\n" "\t\tkubectl patch -f node.json -p '{\"spec\":{\"unschedulable\":true}}'\n" "\n" "\t\t# Update a container's image; spec.containers[*].name is required " "because it's a merge key\n" "\t\tkubectl patch pod valid-pod -p '{\"spec\":{\"containers\":[{\"name\":" "\"kubernetes-serve-hostname\",\"image\":\"new image\"}]}}'\n" "\n" "\t\t# Update a container's image using a json patch with positional arrays\n" "\t\tkubectl patch pod valid-pod --type='json' -p='[{\"op\": \"replace\", " "\"path\": \"/spec/containers/0/image\", \"value\":\"new image\"}]'" msgstr "" "\n" "\t\t# Partially update a node using strategic merge patch\n" "\t\tkubectl patch node k8s-node-1 -p '{\"spec\":{\"unschedulable\":true}}'\n" "\n" "\t\t# Partially update a node identified by the type and name specified in " "\"node.json\" using strategic merge patch\n" "\t\tkubectl patch -f node.json -p '{\"spec\":{\"unschedulable\":true}}'\n" "\n" "\t\t# Update a container's image; spec.containers[*].name is required " "because it's a merge key\n" "\t\tkubectl patch pod valid-pod -p '{\"spec\":{\"containers\":[{\"name\":" "\"kubernetes-serve-hostname\",\"image\":\"new image\"}]}}'\n" "\n" "\t\t# Update a container's image using a json patch with positional arrays\n" "\t\tkubectl patch pod valid-pod --type='json' -p='[{\"op\": \"replace\", " "\"path\": \"/spec/containers/0/image\", \"value\":\"new image\"}]'" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/options.go#L37 #: pkg/kubectl/cmd/options.go:29 msgid "" "\n" "\t\t# Print flags inherited by all commands\n" "\t\tkubectl options" msgstr "" "\n" "\t\t# Print flags inherited by all commands\n" "\t\tkubectl options" #: pkg/kubectl/cmd/clusterinfo.go:41 msgid "" "\n" "\t\t# Print the address of the master and cluster services\n" "\t\tkubectl cluster-info" msgstr "" "\n" "\t\t# Print the address of the master and cluster services\n" "\t\tkubectl cluster-info" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/version.go#L39 #: pkg/kubectl/cmd/version.go:32 msgid "" "\n" "\t\t# Print the client and server versions for the current context\n" "\t\tkubectl version" msgstr "" "\n" "\t\t# Print the client and server versions for the current context\n" "\t\tkubectl version" #: pkg/kubectl/cmd/apiversions.go:34 msgid "" "\n" "\t\t# Print the supported API versions\n" "\t\tkubectl api-versions" msgstr "" "\n" "\t\t# Print the supported API versions\n" "\t\tkubectl api-versions" #: pkg/kubectl/cmd/replace.go:50 msgid "" "\n" "\t\t# Replace a pod using the data in pod.json.\n" "\t\tkubectl replace -f ./pod.json\n" "\n" "\t\t# Replace a pod based on the JSON passed into stdin.\n" "\t\tcat pod.json | kubectl replace -f -\n" "\n" "\t\t# Update a single-container pod's image version (tag) to v4\n" "\t\tkubectl get pod mypod -o yaml | sed 's/\\(image: myimage\\):.*$/:v4/' | " "kubectl replace -f -\n" "\n" "\t\t# Force replace, delete and then re-create the resource\n" "\t\tkubectl replace --force -f ./pod.json" msgstr "" "\n" "\t\t# Replace a pod using the data in pod.json.\n" "\t\tkubectl replace -f ./pod.json\n" "\n" "\t\t# Replace a pod based on the JSON passed into stdin.\n" "\t\tcat pod.json | kubectl replace -f -\n" "\n" "\t\t# Update a single-container pod's image version (tag) to v4\n" "\t\tkubectl get pod mypod -o yaml | sed 's/\\(image: myimage\\):.*$/:v4/' | " "kubectl replace -f -\n" "\n" "\t\t# Force replace, delete and then re-create the resource\n" "\t\tkubectl replace --force -f ./pod.json" #: pkg/kubectl/cmd/logs.go:40 msgid "" "\n" "\t\t# Return snapshot logs from pod nginx with only one container\n" "\t\tkubectl logs nginx\n" "\n" "\t\t# Return snapshot logs for the pods defined by label app=nginx\n" "\t\tkubectl logs -lapp=nginx\n" "\n" "\t\t# Return snapshot of previous terminated ruby container logs from pod " "web-1\n" "\t\tkubectl logs -p -c ruby web-1\n" "\n" "\t\t# Begin streaming the logs of the ruby container in pod web-1\n" "\t\tkubectl logs -f -c ruby web-1\n" "\n" "\t\t# Display only the most recent 20 lines of output in pod nginx\n" "\t\tkubectl logs --tail=20 nginx\n" "\n" "\t\t# Show all logs from pod nginx written in the last hour\n" "\t\tkubectl logs --since=1h nginx\n" "\n" "\t\t# Return snapshot logs from first container of a job named hello\n" "\t\tkubectl logs job/hello\n" "\n" "\t\t# Return snapshot logs from container nginx-1 of a deployment named " "nginx\n" "\t\tkubectl logs deployment/nginx -c nginx-1" msgstr "" "\n" "\t\t# Return snapshot logs from pod nginx with only one container\n" "\t\tkubectl logs nginx\n" "\n" "\t\t# Return snapshot logs for the pods defined by label app=nginx\n" "\t\tkubectl logs -lapp=nginx\n" "\n" "\t\t# Return snapshot of previous terminated ruby container logs from pod " "web-1\n" "\t\tkubectl logs -p -c ruby web-1\n" "\n" "\t\t# Begin streaming the logs of the ruby container in pod web-1\n" "\t\tkubectl logs -f -c ruby web-1\n" "\n" "\t\t# Display only the most recent 20 lines of output in pod nginx\n" "\t\tkubectl logs --tail=20 nginx\n" "\n" "\t\t# Show all logs from pod nginx written in the last hour\n" "\t\tkubectl logs --since=1h nginx\n" "\n" "\t\t# Return snapshot logs from first container of a job named hello\n" "\t\tkubectl logs job/hello\n" "\n" "\t\t# Return snapshot logs from container nginx-1 of a deployment named " "nginx\n" "\t\tkubectl logs deployment/nginx -c nginx-1" #: pkg/kubectl/cmd/proxy.go:53 msgid "" "\n" "\t\t# Run a proxy to kubernetes apiserver on port 8011, serving static " "content from ./local/www/\n" "\t\tkubectl proxy --port=8011 --www=./local/www/\n" "\n" "\t\t# Run a proxy to kubernetes apiserver on an arbitrary local port.\n" "\t\t# The chosen port for the server will be output to stdout.\n" "\t\tkubectl proxy --port=0\n" "\n" "\t\t# Run a proxy to kubernetes apiserver, changing the api prefix to k8s-" "api\n" "\t\t# This makes e.g. the pods api available at localhost:8001/k8s-api/v1/" "pods/\n" "\t\tkubectl proxy --api-prefix=/k8s-api" msgstr "" "\n" "\t\t# Run a proxy to kubernetes apiserver on port 8011, serving static " "content from ./local/www/\n" "\t\tkubectl proxy --port=8011 --www=./local/www/\n" "\n" "\t\t# Run a proxy to kubernetes apiserver on an arbitrary local port.\n" "\t\t# The chosen port for the server will be output to stdout.\n" "\t\tkubectl proxy --port=0\n" "\n" "\t\t# Run a proxy to kubernetes apiserver, changing the api prefix to k8s-" "api\n" "\t\t# This makes e.g. the pods api available at localhost:8001/k8s-api/v1/" "pods/\n" "\t\tkubectl proxy --api-prefix=/k8s-api" #: pkg/kubectl/cmd/scale.go:43 msgid "" "\n" "\t\t# Scale a replicaset named 'foo' to 3.\n" "\t\tkubectl scale --replicas=3 rs/foo\n" "\n" "\t\t# Scale a resource identified by type and name specified in \"foo.yaml\" " "to 3.\n" "\t\tkubectl scale --replicas=3 -f foo.yaml\n" "\n" "\t\t# If the deployment named mysql's current size is 2, scale mysql to 3.\n" "\t\tkubectl scale --current-replicas=2 --replicas=3 deployment/mysql\n" "\n" "\t\t# Scale multiple replication controllers.\n" "\t\tkubectl scale --replicas=5 rc/foo rc/bar rc/baz\n" "\n" "\t\t# Scale job named 'cron' to 3.\n" "\t\tkubectl scale --replicas=3 job/cron" msgstr "" "\n" "\t\t# Scale a replicaset named 'foo' to 3.\n" "\t\tkubectl scale --replicas=3 rs/foo\n" "\n" "\t\t# Scale a resource identified by type and name specified in \"foo.yaml\" " "to 3.\n" "\t\tkubectl scale --replicas=3 -f foo.yaml\n" "\n" "\t\t# If the deployment named mysql's current size is 2, scale mysql to 3.\n" "\t\tkubectl scale --current-replicas=2 --replicas=3 deployment/mysql\n" "\n" "\t\t# Scale multiple replication controllers.\n" "\t\tkubectl scale --replicas=5 rc/foo rc/bar rc/baz\n" "\n" "\t\t# Scale job named 'cron' to 3.\n" "\t\tkubectl scale --replicas=3 job/cron" #: pkg/kubectl/cmd/apply_set_last_applied.go:67 msgid "" "\n" "\t\t# Set the last-applied-configuration of a resource to match the contents " "of a file.\n" "\t\tkubectl apply set-last-applied -f deploy.yaml\n" "\n" "\t\t# Execute set-last-applied against each configuration file in a " "directory.\n" "\t\tkubectl apply set-last-applied -f path/\n" "\n" "\t\t# Set the last-applied-configuration of a resource to match the contents " "of a file, will create the annotation if it does not already exist.\n" "\t\tkubectl apply set-last-applied -f deploy.yaml --create-annotation=true\n" "\t\t" msgstr "" "\n" "\t\t# Set the last-applied-configuration of a resource to match the contents " "of a file.\n" "\t\tkubectl apply set-last-applied -f deploy.yaml\n" "\n" "\t\t# Execute set-last-applied against each configuration file in a " "directory.\n" "\t\tkubectl apply set-last-applied -f path/\n" "\n" "\t\t# Set the last-applied-configuration of a resource to match the contents " "of a file, will create the annotation if it does not already exist.\n" "\t\tkubectl apply set-last-applied -f deploy.yaml --create-annotation=true\n" "\t\t" #: pkg/kubectl/cmd/top_pod.go:61 msgid "" "\n" "\t\t# Show metrics for all pods in the default namespace\n" "\t\tkubectl top pod\n" "\n" "\t\t# Show metrics for all pods in the given namespace\n" "\t\tkubectl top pod --namespace=NAMESPACE\n" "\n" "\t\t# Show metrics for a given pod and its containers\n" "\t\tkubectl top pod POD_NAME --containers\n" "\n" "\t\t# Show metrics for the pods defined by label name=myLabel\n" "\t\tkubectl top pod -l name=myLabel" msgstr "" "\n" "\t\t# Show metrics for all pods in the default namespace\n" "\t\tkubectl top pod\n" "\n" "\t\t# Show metrics for all pods in the given namespace\n" "\t\tkubectl top pod --namespace=NAMESPACE\n" "\n" "\t\t# Show metrics for a given pod and its containers\n" "\t\tkubectl top pod POD_NAME --containers\n" "\n" "\t\t# Show metrics for the pods defined by label name=myLabel\n" "\t\tkubectl top pod -l name=myLabel" #: pkg/kubectl/cmd/stop.go:40 msgid "" "\n" "\t\t# Shut down foo.\n" "\t\tkubectl stop replicationcontroller foo\n" "\n" "\t\t# Stop pods and services with label name=myLabel.\n" "\t\tkubectl stop pods,services -l name=myLabel\n" "\n" "\t\t# Shut down the service defined in service.json\n" "\t\tkubectl stop -f service.json\n" "\n" "\t\t# Shut down all resources in the path/to/resources directory\n" "\t\tkubectl stop -f path/to/resources" msgstr "" "\n" "\t\t# Shut down foo.\n" "\t\tkubectl stop replicationcontroller foo\n" "\n" "\t\t# Stop pods and services with label name=myLabel.\n" "\t\tkubectl stop pods,services -l name=myLabel\n" "\n" "\t\t# Shut down the service defined in service.json\n" "\t\tkubectl stop -f service.json\n" "\n" "\t\t# Shut down all resources in the path/to/resources directory\n" "\t\tkubectl stop -f path/to/resources" #: pkg/kubectl/cmd/run.go:57 msgid "" "\n" "\t\t# Start a single instance of nginx.\n" "\t\tkubectl run nginx --image=nginx\n" "\n" "\t\t# Start a single instance of hazelcast and let the container expose port " "5701 .\n" "\t\tkubectl run hazelcast --image=hazelcast --port=5701\n" "\n" "\t\t# Start a single instance of hazelcast and set environment variables " "\"DNS_DOMAIN=cluster\" and \"POD_NAMESPACE=default\" in the container.\n" "\t\tkubectl run hazelcast --image=hazelcast --env=\"DNS_DOMAIN=cluster\" --" "env=\"POD_NAMESPACE=default\"\n" "\n" "\t\t# Start a replicated instance of nginx.\n" "\t\tkubectl run nginx --image=nginx --replicas=5\n" "\n" "\t\t# Dry run. Print the corresponding API objects without creating them.\n" "\t\tkubectl run nginx --image=nginx --dry-run\n" "\n" "\t\t# Start a single instance of nginx, but overload the spec of the " "deployment with a partial set of values parsed from JSON.\n" "\t\tkubectl run nginx --image=nginx --overrides='{ \"apiVersion\": \"v1\", " "\"spec\": { ... } }'\n" "\n" "\t\t# Start a pod of busybox and keep it in the foreground, don't restart it " "if it exits.\n" "\t\tkubectl run -i -t busybox --image=busybox --restart=Never\n" "\n" "\t\t# Start the nginx container using the default command, but use custom " "arguments (arg1 .. argN) for that command.\n" "\t\tkubectl run nginx --image=nginx -- ... \n" "\n" "\t\t# Start the nginx container using a different command and custom " "arguments.\n" "\t\tkubectl run nginx --image=nginx --command -- ... \n" "\n" "\t\t# Start the perl container to compute π to 2000 places and print it " "out.\n" "\t\tkubectl run pi --image=perl --restart=OnFailure -- perl -Mbignum=bpi -" "wle 'print bpi(2000)'\n" "\n" "\t\t# Start the cron job to compute π to 2000 places and print it out every " "5 minutes.\n" "\t\tkubectl run pi --schedule=\"0/5 * * * ?\" --image=perl --" "restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'" msgstr "" "\n" "\t\t# Start a single instance of nginx.\n" "\t\tkubectl run nginx --image=nginx\n" "\n" "\t\t# Start a single instance of hazelcast and let the container expose port " "5701 .\n" "\t\tkubectl run hazelcast --image=hazelcast --port=5701\n" "\n" "\t\t# Start a single instance of hazelcast and set environment variables " "\"DNS_DOMAIN=cluster\" and \"POD_NAMESPACE=default\" in the container.\n" "\t\tkubectl run hazelcast --image=hazelcast --env=\"DNS_DOMAIN=cluster\" --" "env=\"POD_NAMESPACE=default\"\n" "\n" "\t\t# Start a replicated instance of nginx.\n" "\t\tkubectl run nginx --image=nginx --replicas=5\n" "\n" "\t\t# Dry run. Print the corresponding API objects without creating them.\n" "\t\tkubectl run nginx --image=nginx --dry-run\n" "\n" "\t\t# Start a single instance of nginx, but overload the spec of the " "deployment with a partial set of values parsed from JSON.\n" "\t\tkubectl run nginx --image=nginx --overrides='{ \"apiVersion\": \"v1\", " "\"spec\": { ... } }'\n" "\n" "\t\t# Start a pod of busybox and keep it in the foreground, don't restart it " "if it exits.\n" "\t\tkubectl run -i -t busybox --image=busybox --restart=Never\n" "\n" "\t\t# Start the nginx container using the default command, but use custom " "arguments (arg1 .. argN) for that command.\n" "\t\tkubectl run nginx --image=nginx -- ... \n" "\n" "\t\t# Start the nginx container using a different command and custom " "arguments.\n" "\t\tkubectl run nginx --image=nginx --command -- ... \n" "\n" "\t\t# Start the perl container to compute π to 2000 places and print it " "out.\n" "\t\tkubectl run pi --image=perl --restart=OnFailure -- perl -Mbignum=bpi -" "wle 'print bpi(2000)'\n" "\n" "\t\t# Start the cron job to compute π to 2000 places and print it out every " "5 minutes.\n" "\t\tkubectl run pi --schedule=\"0/5 * * * ?\" --image=perl --" "restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'" #: pkg/kubectl/cmd/taint.go:67 msgid "" "\n" "\t\t# Update node 'foo' with a taint with key 'dedicated' and value 'special-" "user' and effect 'NoSchedule'.\n" "\t\t# If a taint with that key and effect already exists, its value is " "replaced as specified.\n" "\t\tkubectl taint nodes foo dedicated=special-user:NoSchedule\n" "\n" "\t\t# Remove from node 'foo' the taint with key 'dedicated' and effect " "'NoSchedule' if one exists.\n" "\t\tkubectl taint nodes foo dedicated:NoSchedule-\n" "\n" "\t\t# Remove from node 'foo' all the taints with key 'dedicated'\n" "\t\tkubectl taint nodes foo dedicated-" msgstr "" "\n" "\t\t# Update node 'foo' with a taint with key 'dedicated' and value 'special-" "user' and effect 'NoSchedule'.\n" "\t\t# If a taint with that key and effect already exists, its value is " "replaced as specified.\n" "\t\tkubectl taint nodes foo dedicated=special-user:NoSchedule\n" "\n" "\t\t# Remove from node 'foo' the taint with key 'dedicated' and effect " "'NoSchedule' if one exists.\n" "\t\tkubectl taint nodes foo dedicated:NoSchedule-\n" "\n" "\t\t# Remove from node 'foo' all the taints with key 'dedicated'\n" "\t\tkubectl taint nodes foo dedicated-" #: pkg/kubectl/cmd/label.go:77 msgid "" "\n" "\t\t# Update pod 'foo' with the label 'unhealthy' and the value 'true'.\n" "\t\tkubectl label pods foo unhealthy=true\n" "\n" "\t\t# Update pod 'foo' with the label 'status' and the value 'unhealthy', " "overwriting any existing value.\n" "\t\tkubectl label --overwrite pods foo status=unhealthy\n" "\n" "\t\t# Update all pods in the namespace\n" "\t\tkubectl label pods --all status=unhealthy\n" "\n" "\t\t# Update a pod identified by the type and name in \"pod.json\"\n" "\t\tkubectl label -f pod.json status=unhealthy\n" "\n" "\t\t# Update pod 'foo' only if the resource is unchanged from version 1.\n" "\t\tkubectl label pods foo status=unhealthy --resource-version=1\n" "\n" "\t\t# Update pod 'foo' by removing a label named 'bar' if it exists.\n" "\t\t# Does not require the --overwrite flag.\n" "\t\tkubectl label pods foo bar-" msgstr "" "\n" "\t\t# Update pod 'foo' with the label 'unhealthy' and the value 'true'.\n" "\t\tkubectl label pods foo unhealthy=true\n" "\n" "\t\t# Update pod 'foo' with the label 'status' and the value 'unhealthy', " "overwriting any existing value.\n" "\t\tkubectl label --overwrite pods foo status=unhealthy\n" "\n" "\t\t# Update all pods in the namespace\n" "\t\tkubectl label pods --all status=unhealthy\n" "\n" "\t\t# Update a pod identified by the type and name in \"pod.json\"\n" "\t\tkubectl label -f pod.json status=unhealthy\n" "\n" "\t\t# Update pod 'foo' only if the resource is unchanged from version 1.\n" "\t\tkubectl label pods foo status=unhealthy --resource-version=1\n" "\n" "\t\t# Update pod 'foo' by removing a label named 'bar' if it exists.\n" "\t\t# Does not require the --overwrite flag.\n" "\t\tkubectl label pods foo bar-" #: pkg/kubectl/cmd/rollingupdate.go:54 msgid "" "\n" "\t\t# Update pods of frontend-v1 using new replication controller data in " "frontend-v2.json.\n" "\t\tkubectl rolling-update frontend-v1 -f frontend-v2.json\n" "\n" "\t\t# Update pods of frontend-v1 using JSON data passed into stdin.\n" "\t\tcat frontend-v2.json | kubectl rolling-update frontend-v1 -f -\n" "\n" "\t\t# Update the pods of frontend-v1 to frontend-v2 by just changing the " "image, and switching the\n" "\t\t# name of the replication controller.\n" "\t\tkubectl rolling-update frontend-v1 frontend-v2 --image=image:v2\n" "\n" "\t\t# Update the pods of frontend by just changing the image, and keeping " "the old name.\n" "\t\tkubectl rolling-update frontend --image=image:v2\n" "\n" "\t\t# Abort and reverse an existing rollout in progress (from frontend-v1 to " "frontend-v2).\n" "\t\tkubectl rolling-update frontend-v1 frontend-v2 --rollback" msgstr "" "\n" "\t\t# Update pods of frontend-v1 using new replication controller data in " "frontend-v2.json.\n" "\t\tkubectl rolling-update frontend-v1 -f frontend-v2.json\n" "\n" "\t\t# Update pods of frontend-v1 using JSON data passed into stdin.\n" "\t\tcat frontend-v2.json | kubectl rolling-update frontend-v1 -f -\n" "\n" "\t\t# Update the pods of frontend-v1 to frontend-v2 by just changing the " "image, and switching the\n" "\t\t# name of the replication controller.\n" "\t\tkubectl rolling-update frontend-v1 frontend-v2 --image=image:v2\n" "\n" "\t\t# Update the pods of frontend by just changing the image, and keeping " "the old name.\n" "\t\tkubectl rolling-update frontend --image=image:v2\n" "\n" "\t\t# Abort and reverse an existing rollout in progress (from frontend-v1 to " "frontend-v2).\n" "\t\tkubectl rolling-update frontend-v1 frontend-v2 --rollback" #: pkg/kubectl/cmd/apply_view_last_applied.go:52 msgid "" "\n" "\t\t# View the last-applied-configuration annotations by type/name in YAML.\n" "\t\tkubectl apply view-last-applied deployment/nginx\n" "\n" "\t\t# View the last-applied-configuration annotations by file in JSON\n" "\t\tkubectl apply view-last-applied -f deploy.yaml -o json" msgstr "" "\n" "\t\t# View the last-applied-configuration annotations by type/name in YAML.\n" "\t\tkubectl apply view-last-applied deployment/nginx\n" "\n" "\t\t# View the last-applied-configuration annotations by file in JSON\n" "\t\tkubectl apply view-last-applied -f deploy.yaml -o json" #: pkg/kubectl/cmd/apply.go:75 msgid "" "\n" "\t\tApply a configuration to a resource by filename or stdin.\n" "\t\tThis resource will be created if it doesn't exist yet.\n" "\t\tTo use 'apply', always create the resource initially with either 'apply' " "or 'create --save-config'.\n" "\n" "\t\tJSON and YAML formats are accepted.\n" "\n" "\t\tAlpha Disclaimer: the --prune functionality is not yet complete. Do not " "use unless you are aware of what the current state is. See https://issues." "k8s.io/34274." msgstr "" "\n" "\t\tApply a configuration to a resource by filename or stdin.\n" "\t\tThis resource will be created if it doesn't exist yet.\n" "\t\tTo use 'apply', always create the resource initially with either 'apply' " "or 'create --save-config'.\n" "\n" "\t\tJSON and YAML formats are accepted.\n" "\n" "\t\tAlpha Disclaimer: the --prune functionality is not yet complete. Do not " "use unless you are aware of what the current state is. See https://issues." "k8s.io/34274." #: pkg/kubectl/cmd/convert.go:38 msgid "" "\n" "\t\tConvert config files between different API versions. Both YAML\n" "\t\tand JSON formats are accepted.\n" "\n" "\t\tThe command takes filename, directory, or URL as input, and convert it " "into format\n" "\t\tof version specified by --output-version flag. If target version is not " "specified or\n" "\t\tnot supported, convert to latest version.\n" "\n" "\t\tThe default output will be printed to stdout in YAML format. One can use " "-o option\n" "\t\tto change to output destination." msgstr "" "\n" "\t\tConvert config files between different API versions. Both YAML\n" "\t\tand JSON formats are accepted.\n" "\n" "\t\tThe command takes filename, directory, or URL as input, and convert it " "into format\n" "\t\tof version specified by --output-version flag. If target version is not " "specified or\n" "\t\tnot supported, convert to latest version.\n" "\n" "\t\tThe default output will be printed to stdout in YAML format. One can use " "-o option\n" "\t\tto change to output destination." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_service.go#L68 #: pkg/kubectl/cmd/create_clusterrole.go:31 msgid "" "\n" "\t\tCreate a ClusterRole." msgstr "" "\n" "\t\tCreate a ClusterRole." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_clusterrolebinding.go#L43 #: pkg/kubectl/cmd/create_clusterrolebinding.go:32 msgid "" "\n" "\t\tCreate a ClusterRoleBinding for a particular ClusterRole." msgstr "" "\n" "\t\tCreate a ClusterRoleBinding for a particular ClusterRole." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_rolebinding.go#L43 #: pkg/kubectl/cmd/create_rolebinding.go:32 msgid "" "\n" "\t\tCreate a RoleBinding for a particular Role or ClusterRole." msgstr "" "\n" "\t\tCreate a RoleBinding for a particular Role or ClusterRole." #: pkg/kubectl/cmd/create_secret.go:200 msgid "" "\n" "\t\tCreate a TLS secret from the given public/private key pair.\n" "\n" "\t\tThe public/private key pair must exist before hand. The public key " "certificate must be .PEM encoded and match the given private key." msgstr "" "\n" "\t\tCreate a TLS secret from the given public/private key pair.\n" "\n" "\t\tThe public/private key pair must exist before hand. The public key " "certificate must be .PEM encoded and match the given private key." #: pkg/kubectl/cmd/create_configmap.go:32 msgid "" "\n" "\t\tCreate a configmap based on a file, directory, or specified literal " "value.\n" "\n" "\t\tA single configmap may package one or more key/value pairs.\n" "\n" "\t\tWhen creating a configmap based on a file, the key will default to the " "basename of the file, and the value will\n" "\t\tdefault to the file content. If the basename is an invalid key, you may " "specify an alternate key.\n" "\n" "\t\tWhen creating a configmap based on a directory, each file whose basename " "is a valid key in the directory will be\n" "\t\tpackaged into the configmap. Any directory entries except regular files " "are ignored (e.g. subdirectories,\n" "\t\tsymlinks, devices, pipes, etc)." msgstr "" "\n" "\t\tCreate a configmap based on a file, directory, or specified literal " "value.\n" "\n" "\t\tA single configmap may package one or more key/value pairs.\n" "\n" "\t\tWhen creating a configmap based on a file, the key will default to the " "basename of the file, and the value will\n" "\t\tdefault to the file content. If the basename is an invalid key, you may " "specify an alternate key.\n" "\n" "\t\tWhen creating a configmap based on a directory, each file whose basename " "is a valid key in the directory will be\n" "\t\tpackaged into the configmap. Any directory entries except regular files " "are ignored (e.g. subdirectories,\n" "\t\tsymlinks, devices, pipes, etc)." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_namespace.go#L44 #: pkg/kubectl/cmd/create_namespace.go:32 msgid "" "\n" "\t\tCreate a namespace with the specified name." msgstr "" "\n" "\t\tCreate a namespace with the specified name." #: pkg/kubectl/cmd/create_secret.go:119 msgid "" "\n" "\t\tCreate a new secret for use with Docker registries.\n" "\n" "\t\tDockercfg secrets are used to authenticate against Docker registries.\n" "\n" "\t\tWhen using the Docker command line to push images, you can authenticate " "to a given registry by running\n" "\n" "\t\t $ docker login DOCKER_REGISTRY_SERVER --username=DOCKER_USER --" "password=DOCKER_PASSWORD --email=DOCKER_EMAIL'.\n" "\n" " That produces a ~/.dockercfg file that is used by subsequent 'docker " "push' and 'docker pull' commands to\n" "\t\tauthenticate to the registry. The email address is optional.\n" "\n" "\t\tWhen creating applications, you may have a Docker registry that requires " "authentication. In order for the\n" "\t\tnodes to pull images on your behalf, they have to have the credentials. " "You can provide this information\n" "\t\tby creating a dockercfg secret and attaching it to your service account." msgstr "" "\n" "\t\tCreate a new secret for use with Docker registries.\n" "\n" "\t\tDockercfg secrets are used to authenticate against Docker registries.\n" "\n" "\t\tWhen using the Docker command line to push images, you can authenticate " "to a given registry by running\n" "\n" "\t\t $ docker login DOCKER_REGISTRY_SERVER --username=DOCKER_USER --" "password=DOCKER_PASSWORD --email=DOCKER_EMAIL'.\n" "\n" " That produces a ~/.dockercfg file that is used by subsequent 'docker " "push' and 'docker pull' commands to\n" "\t\tauthenticate to the registry. The email address is optional.\n" "\n" "\t\tWhen creating applications, you may have a Docker registry that requires " "authentication. In order for the\n" "\t\tnodes to pull images on your behalf, they have to have the credentials. " "You can provide this information\n" "\t\tby creating a dockercfg secret and attaching it to your service account." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_pdb.go#L49 #: pkg/kubectl/cmd/create_pdb.go:32 msgid "" "\n" "\t\tCreate a pod disruption budget with the specified name, selector, and " "desired minimum available pods" msgstr "" "\n" "\t\tCreate a pod disruption budget with the specified name, selector, and " "desired minimum available pods" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create.go#L56 #: pkg/kubectl/cmd/create.go:42 msgid "" "\n" "\t\tCreate a resource by filename or stdin.\n" "\n" "\t\tJSON and YAML formats are accepted." msgstr "" "\n" "\t\tCreate a resource by filename or stdin.\n" "\n" "\t\tJSON and YAML formats are accepted." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_quota.go#L47 #: pkg/kubectl/cmd/create_quota.go:32 msgid "" "\n" "\t\tCreate a resourcequota with the specified name, hard limits and optional " "scopes" msgstr "" "\n" "\t\tCreate a resourcequota with the specified name, hard limits and optional " "scopes" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_quota.go#L47 #: pkg/kubectl/cmd/create_role.go:38 msgid "" "\n" "\t\tCreate a role with single rule." msgstr "" "\n" "\t\tCreate a role with single rule." #: pkg/kubectl/cmd/create_secret.go:47 msgid "" "\n" "\t\tCreate a secret based on a file, directory, or specified literal value.\n" "\n" "\t\tA single secret may package one or more key/value pairs.\n" "\n" "\t\tWhen creating a secret based on a file, the key will default to the " "basename of the file, and the value will\n" "\t\tdefault to the file content. If the basename is an invalid key, you may " "specify an alternate key.\n" "\n" "\t\tWhen creating a secret based on a directory, each file whose basename is " "a valid key in the directory will be\n" "\t\tpackaged into the secret. Any directory entries except regular files " "are ignored (e.g. subdirectories,\n" "\t\tsymlinks, devices, pipes, etc)." msgstr "" "\n" "\t\tCreate a secret based on a file, directory, or specified literal value.\n" "\n" "\t\tA single secret may package one or more key/value pairs.\n" "\n" "\t\tWhen creating a secret based on a file, the key will default to the " "basename of the file, and the value will\n" "\t\tdefault to the file content. If the basename is an invalid key, you may " "specify an alternate key.\n" "\n" "\t\tWhen creating a secret based on a directory, each file whose basename is " "a valid key in the directory will be\n" "\t\tpackaged into the secret. Any directory entries except regular files " "are ignored (e.g. subdirectories,\n" "\t\tsymlinks, devices, pipes, etc)." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_serviceaccount.go#L44 #: pkg/kubectl/cmd/create_serviceaccount.go:32 msgid "" "\n" "\t\tCreate a service account with the specified name." msgstr "" "\n" "\t\tCreate a service account with the specified name." #: pkg/kubectl/cmd/run.go:52 msgid "" "\n" "\t\tCreate and run a particular image, possibly replicated.\n" "\n" "\t\tCreates a deployment or job to manage the created container(s)." msgstr "" "\n" "\t\tCreate and run a particular image, possibly replicated.\n" "\n" "\t\tCreates a deployment or job to manage the created container(s)." #: pkg/kubectl/cmd/autoscale.go:34 msgid "" "\n" "\t\tCreates an autoscaler that automatically chooses and sets the number of " "pods that run in a kubernetes cluster.\n" "\n" "\t\tLooks up a Deployment, ReplicaSet, or ReplicationController by name and " "creates an autoscaler that uses the given resource as a reference.\n" "\t\tAn autoscaler can automatically increase or decrease number of pods " "deployed within the system as needed." msgstr "" "\n" "\t\tCreates an autoscaler that automatically chooses and sets the number of " "pods that run in a kubernetes cluster.\n" "\n" "\t\tLooks up a Deployment, ReplicaSet, or ReplicationController by name and " "creates an autoscaler that uses the given resource as a reference.\n" "\t\tAn autoscaler can automatically increase or decrease number of pods " "deployed within the system as needed." #: pkg/kubectl/cmd/delete.go:40 msgid "" "\n" "\t\tDelete resources by filenames, stdin, resources and names, or by " "resources and label selector.\n" "\n" "\t\tJSON and YAML formats are accepted. Only one type of the arguments may " "be specified: filenames,\n" "\t\tresources and names, or resources and label selector.\n" "\n" "\t\tSome resources, such as pods, support graceful deletion. These resources " "define a default period\n" "\t\tbefore they are forcibly terminated (the grace period) but you may " "override that value with\n" "\t\tthe --grace-period flag, or pass --now to set a grace-period of 1. " "Because these resources often\n" "\t\trepresent entities in the cluster, deletion may not be acknowledged " "immediately. If the node\n" "\t\thosting a pod is down or cannot reach the API server, termination may " "take significantly longer\n" "\t\tthan the grace period. To force delete a resource,\tyou must pass a grace" "\tperiod of 0 and specify\n" "\t\tthe --force flag.\n" "\n" "\t\tIMPORTANT: Force deleting pods does not wait for confirmation that the " "pod's processes have been\n" "\t\tterminated, which can leave those processes running until the node " "detects the deletion and\n" "\t\tcompletes graceful deletion. If your processes use shared storage or " "talk to a remote API and\n" "\t\tdepend on the name of the pod to identify themselves, force deleting " "those pods may result in\n" "\t\tmultiple processes running on different machines using the same " "identification which may lead\n" "\t\tto data corruption or inconsistency. Only force delete pods when you are " "sure the pod is\n" "\t\tterminated, or if your application can tolerate multiple copies of the " "same pod running at once.\n" "\t\tAlso, if you force delete pods the scheduler may place new pods on those " "nodes before the node\n" "\t\thas released those resources and causing those pods to be evicted " "immediately.\n" "\n" "\t\tNote that the delete command does NOT do resource version checks, so if " "someone\n" "\t\tsubmits an update to a resource right when you submit a delete, their " "update\n" "\t\twill be lost along with the rest of the resource." msgstr "" "\n" "\t\tDelete resources by filenames, stdin, resources and names, or by " "resources and label selector.\n" "\n" "\t\tJSON and YAML formats are accepted. Only one type of the arguments may " "be specified: filenames,\n" "\t\tresources and names, or resources and label selector.\n" "\n" "\t\tSome resources, such as pods, support graceful deletion. These resources " "define a default period\n" "\t\tbefore they are forcibly terminated (the grace period) but you may " "override that value with\n" "\t\tthe --grace-period flag, or pass --now to set a grace-period of 1. " "Because these resources often\n" "\t\trepresent entities in the cluster, deletion may not be acknowledged " "immediately. If the node\n" "\t\thosting a pod is down or cannot reach the API server, termination may " "take significantly longer\n" "\t\tthan the grace period. To force delete a resource,\tyou must pass a grace" "\tperiod of 0 and specify\n" "\t\tthe --force flag.\n" "\n" "\t\tIMPORTANT: Force deleting pods does not wait for confirmation that the " "pod's processes have been\n" "\t\tterminated, which can leave those processes running until the node " "detects the deletion and\n" "\t\tcompletes graceful deletion. If your processes use shared storage or " "talk to a remote API and\n" "\t\tdepend on the name of the pod to identify themselves, force deleting " "those pods may result in\n" "\t\tmultiple processes running on different machines using the same " "identification which may lead\n" "\t\tto data corruption or inconsistency. Only force delete pods when you are " "sure the pod is\n" "\t\tterminated, or if your application can tolerate multiple copies of the " "same pod running at once.\n" "\t\tAlso, if you force delete pods the scheduler may place new pods on those " "nodes before the node\n" "\t\thas released those resources and causing those pods to be evicted " "immediately.\n" "\n" "\t\tNote that the delete command does NOT do resource version checks, so if " "someone\n" "\t\tsubmits an update to a resource right when you submit a delete, their " "update\n" "\t\twill be lost along with the rest of the resource." #: pkg/kubectl/cmd/stop.go:31 msgid "" "\n" "\t\tDeprecated: Gracefully shut down a resource by name or filename.\n" "\n" "\t\tThe stop command is deprecated, all its functionalities are covered by " "delete command.\n" "\t\tSee 'kubectl delete --help' for more details.\n" "\n" "\t\tAttempts to shut down and delete a resource that supports graceful " "termination.\n" "\t\tIf the resource is scalable it will be scaled to 0 before deletion." msgstr "" "\n" "\t\tDeprecated: Gracefully shut down a resource by name or filename.\n" "\n" "\t\tThe stop command is deprecated, all its functionalities are covered by " "delete command.\n" "\t\tSee 'kubectl delete --help' for more details.\n" "\n" "\t\tAttempts to shut down and delete a resource that supports graceful " "termination.\n" "\t\tIf the resource is scalable it will be scaled to 0 before deletion." #: pkg/kubectl/cmd/top_node.go:60 msgid "" "\n" "\t\tDisplay Resource (CPU/Memory/Storage) usage of nodes.\n" "\n" "\t\tThe top-node command allows you to see the resource consumption of nodes." msgstr "" "\n" "\t\tDisplay Resource (CPU/Memory/Storage) usage of nodes.\n" "\n" "\t\tThe top-node command allows you to see the resource consumption of nodes." #: pkg/kubectl/cmd/top_pod.go:53 msgid "" "\n" "\t\tDisplay Resource (CPU/Memory/Storage) usage of pods.\n" "\n" "\t\tThe 'top pod' command allows you to see the resource consumption of " "pods.\n" "\n" "\t\tDue to the metrics pipeline delay, they may be unavailable for a few " "minutes\n" "\t\tsince pod creation." msgstr "" "\n" "\t\tDisplay Resource (CPU/Memory/Storage) usage of pods.\n" "\n" "\t\tThe 'top pod' command allows you to see the resource consumption of " "pods.\n" "\n" "\t\tDue to the metrics pipeline delay, they may be unavailable for a few " "minutes\n" "\t\tsince pod creation." #: pkg/kubectl/cmd/top.go:33 msgid "" "\n" "\t\tDisplay Resource (CPU/Memory/Storage) usage.\n" "\n" "\t\tThe top command allows you to see the resource consumption for nodes or " "pods.\n" "\n" "\t\tThis command requires Heapster to be correctly configured and working on " "the server. " msgstr "" "\n" "\t\tDisplay Resource (CPU/Memory/Storage) usage.\n" "\n" "\t\tThe top command allows you to see the resource consumption for nodes or " "pods.\n" "\n" "\t\tThis command requires Heapster to be correctly configured and working on " "the server. " #: pkg/kubectl/cmd/drain.go:140 msgid "" "\n" "\t\tDrain node in preparation for maintenance.\n" "\n" "\t\tThe given node will be marked unschedulable to prevent new pods from " "arriving.\n" "\t\t'drain' evicts the pods if the APIServer supports eviction\n" "\t\t(http://kubernetes.io/docs/admin/disruptions/). Otherwise, it will use " "normal DELETE\n" "\t\tto delete the pods.\n" "\t\tThe 'drain' evicts or deletes all pods except mirror pods (which cannot " "be deleted through\n" "\t\tthe API server). If there are DaemonSet-managed pods, drain will not " "proceed\n" "\t\twithout --ignore-daemonsets, and regardless it will not delete any\n" "\t\tDaemonSet-managed pods, because those pods would be immediately replaced " "by the\n" "\t\tDaemonSet controller, which ignores unschedulable markings. If there " "are any\n" "\t\tpods that are neither mirror pods nor managed by ReplicationController,\n" "\t\tReplicaSet, DaemonSet, StatefulSet or Job, then drain will not delete " "any pods unless you\n" "\t\tuse --force. --force will also allow deletion to proceed if the " "managing resource of one\n" "\t\tor more pods is missing.\n" "\n" "\t\t'drain' waits for graceful termination. You should not operate on the " "machine until\n" "\t\tthe command completes.\n" "\n" "\t\tWhen you are ready to put the node back into service, use kubectl " "uncordon, which\n" "\t\twill make the node schedulable again.\n" "\n" "\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_drain.svg)" msgstr "" "\n" "\t\tDrain node in preparation for maintenance.\n" "\n" "\t\tThe given node will be marked unschedulable to prevent new pods from " "arriving.\n" "\t\t'drain' evicts the pods if the APIServer supports eviction\n" "\t\t(http://kubernetes.io/docs/admin/disruptions/). Otherwise, it will use " "normal DELETE\n" "\t\tto delete the pods.\n" "\t\tThe 'drain' evicts or deletes all pods except mirror pods (which cannot " "be deleted through\n" "\t\tthe API server). If there are DaemonSet-managed pods, drain will not " "proceed\n" "\t\twithout --ignore-daemonsets, and regardless it will not delete any\n" "\t\tDaemonSet-managed pods, because those pods would be immediately replaced " "by the\n" "\t\tDaemonSet controller, which ignores unschedulable markings. If there " "are any\n" "\t\tpods that are neither mirror pods nor managed by ReplicationController,\n" "\t\tReplicaSet, DaemonSet, StatefulSet or Job, then drain will not delete " "any pods unless you\n" "\t\tuse --force. --force will also allow deletion to proceed if the " "managing resource of one\n" "\t\tor more pods is missing.\n" "\n" "\t\t'drain' waits for graceful termination. You should not operate on the " "machine until\n" "\t\tthe command completes.\n" "\n" "\t\tWhen you are ready to put the node back into service, use kubectl " "uncordon, which\n" "\t\twill make the node schedulable again.\n" "\n" "\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_drain.svg)" #: pkg/kubectl/cmd/edit.go:56 msgid "" "\n" "\t\tEdit a resource from the default editor.\n" "\n" "\t\tThe edit command allows you to directly edit any API resource you can " "retrieve via the\n" "\t\tcommand line tools. It will open the editor defined by your KUBE_EDITOR, " "or EDITOR\n" "\t\tenvironment variables, or fall back to 'vi' for Linux or 'notepad' for " "Windows.\n" "\t\tYou can edit multiple objects, although changes are applied one at a " "time. The command\n" "\t\taccepts filenames as well as command line arguments, although the files " "you point to must\n" "\t\tbe previously saved versions of resources.\n" "\n" "\t\tEditing is done with the API version used to fetch the resource.\n" "\t\tTo edit using a specific API version, fully-qualify the resource, " "version, and group.\n" "\n" "\t\tThe default format is YAML. To edit in JSON, specify \"-o json\".\n" "\n" "\t\tThe flag --windows-line-endings can be used to force Windows line " "endings,\n" "\t\totherwise the default for your operating system will be used.\n" "\n" "\t\tIn the event an error occurs while updating, a temporary file will be " "created on disk\n" "\t\tthat contains your unapplied changes. The most common error when " "updating a resource\n" "\t\tis another editor changing the resource on the server. When this occurs, " "you will have\n" "\t\tto apply your changes to the newer version of the resource, or update " "your temporary\n" "\t\tsaved copy to include the latest resource version." msgstr "" "\n" "\t\tEdit a resource from the default editor.\n" "\n" "\t\tThe edit command allows you to directly edit any API resource you can " "retrieve via the\n" "\t\tcommand line tools. It will open the editor defined by your KUBE_EDITOR, " "or EDITOR\n" "\t\tenvironment variables, or fall back to 'vi' for Linux or 'notepad' for " "Windows.\n" "\t\tYou can edit multiple objects, although changes are applied one at a " "time. The command\n" "\t\taccepts filenames as well as command line arguments, although the files " "you point to must\n" "\t\tbe previously saved versions of resources.\n" "\n" "\t\tEditing is done with the API version used to fetch the resource.\n" "\t\tTo edit using a specific API version, fully-qualify the resource, " "version, and group.\n" "\n" "\t\tThe default format is YAML. To edit in JSON, specify \"-o json\".\n" "\n" "\t\tThe flag --windows-line-endings can be used to force Windows line " "endings,\n" "\t\totherwise the default for your operating system will be used.\n" "\n" "\t\tIn the event an error occurs while updating, a temporary file will be " "created on disk\n" "\t\tthat contains your unapplied changes. The most common error when " "updating a resource\n" "\t\tis another editor changing the resource on the server. When this occurs, " "you will have\n" "\t\tto apply your changes to the newer version of the resource, or update " "your temporary\n" "\t\tsaved copy to include the latest resource version." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/drain.go#L127 #: pkg/kubectl/cmd/drain.go:115 msgid "" "\n" "\t\tMark node as schedulable." msgstr "" "\n" "\t\tMark node as schedulable." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/drain.go#L102 #: pkg/kubectl/cmd/drain.go:90 msgid "" "\n" "\t\tMark node as unschedulable." msgstr "" "\n" "\t\tMark node as unschedulable." #: pkg/kubectl/cmd/completion.go:47 msgid "" "\n" "\t\tOutput shell completion code for the specified shell (bash or zsh).\n" "\t\tThe shell code must be evaluated to provide interactive\n" "\t\tcompletion of kubectl commands. This can be done by sourcing it from\n" "\t\tthe .bash_profile.\n" "\n" "\t\tNote: this requires the bash-completion framework, which is not " "installed\n" "\t\tby default on Mac. This can be installed by using homebrew:\n" "\n" "\t\t $ brew install bash-completion\n" "\n" "\t\tOnce installed, bash_completion must be evaluated. This can be done by " "adding the\n" "\t\tfollowing line to the .bash_profile\n" "\n" "\t\t $ source $(brew --prefix)/etc/bash_completion\n" "\n" "\t\tNote for zsh users: [1] zsh completions are only supported in versions " "of zsh >= 5.2" msgstr "" "\n" "\t\tOutput shell completion code for the specified shell (bash or zsh).\n" "\t\tThe shell code must be evaluated to provide interactive\n" "\t\tcompletion of kubectl commands. This can be done by sourcing it from\n" "\t\tthe .bash_profile.\n" "\n" "\t\tNote: this requires the bash-completion framework, which is not " "installed\n" "\t\tby default on Mac. This can be installed by using homebrew:\n" "\n" "\t\t $ brew install bash-completion\n" "\n" "\t\tOnce installed, bash_completion must be evaluated. This can be done by " "adding the\n" "\t\tfollowing line to the .bash_profile\n" "\n" "\t\t $ source $(brew --prefix)/etc/bash_completion\n" "\n" "\t\tNote for zsh users: [1] zsh completions are only supported in versions " "of zsh >= 5.2" #: pkg/kubectl/cmd/rollingupdate.go:45 msgid "" "\n" "\t\tPerform a rolling update of the given ReplicationController.\n" "\n" "\t\tReplaces the specified replication controller with a new replication " "controller by updating one pod at a time to use the\n" "\t\tnew PodTemplate. The new-controller.json must specify the same namespace " "as the\n" "\t\texisting replication controller and overwrite at least one (common) " "label in its replicaSelector.\n" "\n" "\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_rollingupdate.svg)" msgstr "" "\n" "\t\tPerform a rolling update of the given ReplicationController.\n" "\n" "\t\tReplaces the specified replication controller with a new replication " "controller by updating one pod at a time to use the\n" "\t\tnew PodTemplate. The new-controller.json must specify the same namespace " "as the\n" "\t\texisting replication controller and overwrite at least one (common) " "label in its replicaSelector.\n" "\n" "\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_rollingupdate.svg)" #: pkg/kubectl/cmd/replace.go:40 msgid "" "\n" "\t\tReplace a resource by filename or stdin.\n" "\n" "\t\tJSON and YAML formats are accepted. If replacing an existing resource, " "the\n" "\t\tcomplete resource spec must be provided. This can be obtained by\n" "\n" "\t\t $ kubectl get TYPE NAME -o yaml\n" "\n" "\t\tPlease refer to the models in https://htmlpreview.github.io/?https://" "github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions." "html to find if a field is mutable." msgstr "" "\n" "\t\tReplace a resource by filename or stdin.\n" "\n" "\t\tJSON and YAML formats are accepted. If replacing an existing resource, " "the\n" "\t\tcomplete resource spec must be provided. This can be obtained by\n" "\n" "\t\t $ kubectl get TYPE NAME -o yaml\n" "\n" "\t\tPlease refer to the models in https://htmlpreview.github.io/?https://" "github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions." "html to find if a field is mutable." #: pkg/kubectl/cmd/scale.go:34 msgid "" "\n" "\t\tSet a new size for a Deployment, ReplicaSet, Replication Controller, or " "Job.\n" "\n" "\t\tScale also allows users to specify one or more preconditions for the " "scale action.\n" "\n" "\t\tIf --current-replicas or --resource-version is specified, it is " "validated before the\n" "\t\tscale is attempted, and it is guaranteed that the precondition holds " "true when the\n" "\t\tscale is sent to the server." msgstr "" "\n" "\t\tSet a new size for a Deployment, ReplicaSet, Replication Controller, or " "Job.\n" "\n" "\t\tScale also allows users to specify one or more preconditions for the " "scale action.\n" "\n" "\t\tIf --current-replicas or --resource-version is specified, it is " "validated before the\n" "\t\tscale is attempted, and it is guaranteed that the precondition holds " "true when the\n" "\t\tscale is sent to the server." #: pkg/kubectl/cmd/apply_set_last_applied.go:62 msgid "" "\n" "\t\tSet the latest last-applied-configuration annotations by setting it to " "match the contents of a file.\n" "\t\tThis results in the last-applied-configuration being updated as though " "'kubectl apply -f ' was run,\n" "\t\twithout updating any other parts of the object." msgstr "" "\n" "\t\tSet the latest last-applied-configuration annotations by setting it to " "match the contents of a file.\n" "\t\tThis results in the last-applied-configuration being updated as though " "'kubectl apply -f ' was run,\n" "\t\twithout updating any other parts of the object." #: pkg/kubectl/cmd/proxy.go:36 msgid "" "\n" "\t\tTo proxy all of the kubernetes api and nothing else, use:\n" "\n" "\t\t $ kubectl proxy --api-prefix=/\n" "\n" "\t\tTo proxy only part of the kubernetes api and also some static files:\n" "\n" "\t\t $ kubectl proxy --www=/my/files --www-prefix=/static/ --api-prefix=/" "api/\n" "\n" "\t\tThe above lets you 'curl localhost:8001/api/v1/pods'.\n" "\n" "\t\tTo proxy the entire kubernetes api at a different root, use:\n" "\n" "\t\t $ kubectl proxy --api-prefix=/custom/\n" "\n" "\t\tThe above lets you 'curl localhost:8001/custom/api/v1/pods'" msgstr "" "\n" "\t\tTo proxy all of the kubernetes api and nothing else, use:\n" "\n" "\t\t $ kubectl proxy --api-prefix=/\n" "\n" "\t\tTo proxy only part of the kubernetes api and also some static files:\n" "\n" "\t\t $ kubectl proxy --www=/my/files --www-prefix=/static/ --api-prefix=/" "api/\n" "\n" "\t\tThe above lets you 'curl localhost:8001/api/v1/pods'.\n" "\n" "\t\tTo proxy the entire kubernetes api at a different root, use:\n" "\n" "\t\t $ kubectl proxy --api-prefix=/custom/\n" "\n" "\t\tThe above lets you 'curl localhost:8001/custom/api/v1/pods'" #: pkg/kubectl/cmd/patch.go:59 msgid "" "\n" "\t\tUpdate field(s) of a resource using strategic merge patch\n" "\n" "\t\tJSON and YAML formats are accepted.\n" "\n" "\t\tPlease refer to the models in https://htmlpreview.github.io/?https://" "github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions." "html to find if a field is mutable." msgstr "" "\n" "\t\tUpdate field(s) of a resource using strategic merge patch\n" "\n" "\t\tJSON and YAML formats are accepted.\n" "\n" "\t\tPlease refer to the models in https://htmlpreview.github.io/?https://" "github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions." "html to find if a field is mutable." #: pkg/kubectl/cmd/label.go:70 #, c-format msgid "" "\n" "\t\tUpdate the labels on a resource.\n" "\n" "\t\t* A label must begin with a letter or number, and may contain letters, " "numbers, hyphens, dots, and underscores, up to %[1]d characters.\n" "\t\t* If --overwrite is true, then existing labels can be overwritten, " "otherwise attempting to overwrite a label will result in an error.\n" "\t\t* If --resource-version is specified, then updates will use this " "resource version, otherwise the existing resource-version will be used." msgstr "" "\n" "\t\tUpdate the labels on a resource.\n" "\n" "\t\t* A label must begin with a letter or number, and may contain letters, " "numbers, hyphens, dots, and underscores, up to %[1]d characters.\n" "\t\t* If --overwrite is true, then existing labels can be overwritten, " "otherwise attempting to overwrite a label will result in an error.\n" "\t\t* If --resource-version is specified, then updates will use this " "resource version, otherwise the existing resource-version will be used." #: pkg/kubectl/cmd/taint.go:58 #, c-format msgid "" "\n" "\t\tUpdate the taints on one or more nodes.\n" "\n" "\t\t* A taint consists of a key, value, and effect. As an argument here, it " "is expressed as key=value:effect.\n" "\t\t* The key must begin with a letter or number, and may contain letters, " "numbers, hyphens, dots, and underscores, up to %[1]d characters.\n" "\t\t* The value must begin with a letter or number, and may contain letters, " "numbers, hyphens, dots, and underscores, up to %[2]d characters.\n" "\t\t* The effect must be NoSchedule, PreferNoSchedule or NoExecute.\n" "\t\t* Currently taint can only apply to node." msgstr "" "\n" "\t\tUpdate the taints on one or more nodes.\n" "\n" "\t\t* A taint consists of a key, value, and effect. As an argument here, it " "is expressed as key=value:effect.\n" "\t\t* The key must begin with a letter or number, and may contain letters, " "numbers, hyphens, dots, and underscores, up to %[1]d characters.\n" "\t\t* The value must begin with a letter or number, and may contain letters, " "numbers, hyphens, dots, and underscores, up to %[2]d characters.\n" "\t\t* The effect must be NoSchedule, PreferNoSchedule or NoExecute.\n" "\t\t* Currently taint can only apply to node." #: pkg/kubectl/cmd/apply_view_last_applied.go:46 msgid "" "\n" "\t\tView the latest last-applied-configuration annotations by type/name or " "file.\n" "\n" "\t\tThe default output will be printed to stdout in YAML format. One can use " "-o option\n" "\t\tto change output format." msgstr "" "\n" "\t\tView the latest last-applied-configuration annotations by type/name or " "file.\n" "\n" "\t\tThe default output will be printed to stdout in YAML format. One can use " "-o option\n" "\t\tto change output format." #: pkg/kubectl/cmd/cp.go:37 msgid "" "\n" "\t # !!!Important Note!!!\n" "\t # Requires that the 'tar' binary is present in your container\n" "\t # image. If 'tar' is not present, 'kubectl cp' will fail.\n" "\n" "\t # Copy /tmp/foo_dir local directory to /tmp/bar_dir in a remote pod in " "the default namespace\n" "\t\tkubectl cp /tmp/foo_dir :/tmp/bar_dir\n" "\n" " # Copy /tmp/foo local file to /tmp/bar in a remote pod in a specific " "container\n" "\t\tkubectl cp /tmp/foo :/tmp/bar -c \n" "\n" "\t\t# Copy /tmp/foo local file to /tmp/bar in a remote pod in namespace " "\n" "\t\tkubectl cp /tmp/foo /:/tmp/bar\n" "\n" "\t\t# Copy /tmp/foo from a remote pod to /tmp/bar locally\n" "\t\tkubectl cp /:/tmp/foo /tmp/bar" msgstr "" "\n" "\t # !!!Important Note!!!\n" "\t # Requires that the 'tar' binary is present in your container\n" "\t # image. If 'tar' is not present, 'kubectl cp' will fail.\n" "\n" "\t # Copy /tmp/foo_dir local directory to /tmp/bar_dir in a remote pod in " "the default namespace\n" "\t\tkubectl cp /tmp/foo_dir :/tmp/bar_dir\n" "\n" " # Copy /tmp/foo local file to /tmp/bar in a remote pod in a specific " "container\n" "\t\tkubectl cp /tmp/foo :/tmp/bar -c \n" "\n" "\t\t# Copy /tmp/foo local file to /tmp/bar in a remote pod in namespace " "\n" "\t\tkubectl cp /tmp/foo /:/tmp/bar\n" "\n" "\t\t# Copy /tmp/foo from a remote pod to /tmp/bar locally\n" "\t\tkubectl cp /:/tmp/foo /tmp/bar" #: pkg/kubectl/cmd/create_secret.go:205 msgid "" "\n" "\t # Create a new TLS secret named tls-secret with the given key pair:\n" "\t kubectl create secret tls tls-secret --cert=path/to/tls.cert --key=path/" "to/tls.key" msgstr "" "\n" "\t # Create a new TLS secret named tls-secret with the given key pair:\n" "\t kubectl create secret tls tls-secret --cert=path/to/tls.cert --key=path/" "to/tls.key" #: pkg/kubectl/cmd/create_namespace.go:35 msgid "" "\n" "\t # Create a new namespace named my-namespace\n" "\t kubectl create namespace my-namespace" msgstr "" "\n" "\t # Create a new namespace named my-namespace\n" "\t kubectl create namespace my-namespace" #: pkg/kubectl/cmd/create_secret.go:59 msgid "" "\n" "\t # Create a new secret named my-secret with keys for each file in folder " "bar\n" "\t kubectl create secret generic my-secret --from-file=path/to/bar\n" "\n" "\t # Create a new secret named my-secret with specified keys instead of " "names on disk\n" "\t kubectl create secret generic my-secret --from-file=ssh-privatekey=~/." "ssh/id_rsa --from-file=ssh-publickey=~/.ssh/id_rsa.pub\n" "\n" "\t # Create a new secret named my-secret with key1=supersecret and " "key2=topsecret\n" "\t kubectl create secret generic my-secret --from-literal=key1=supersecret " "--from-literal=key2=topsecret" msgstr "" "\n" "\t # Create a new secret named my-secret with keys for each file in folder " "bar\n" "\t kubectl create secret generic my-secret --from-file=path/to/bar\n" "\n" "\t # Create a new secret named my-secret with specified keys instead of " "names on disk\n" "\t kubectl create secret generic my-secret --from-file=ssh-privatekey=~/." "ssh/id_rsa --from-file=ssh-publickey=~/.ssh/id_rsa.pub\n" "\n" "\t # Create a new secret named my-secret with key1=supersecret and " "key2=topsecret\n" "\t kubectl create secret generic my-secret --from-literal=key1=supersecret " "--from-literal=key2=topsecret" #: pkg/kubectl/cmd/create_serviceaccount.go:35 msgid "" "\n" "\t # Create a new service account named my-service-account\n" "\t kubectl create serviceaccount my-service-account" msgstr "" "\n" "\t # Create a new service account named my-service-account\n" "\t kubectl create serviceaccount my-service-account" #: pkg/kubectl/cmd/create_service.go:232 msgid "" "\n" "\t# Create a new ExternalName service named my-ns \n" "\tkubectl create service externalname my-ns --external-name bar.com" msgstr "" "\n" "\t# Create a new ExternalName service named my-ns \n" "\tkubectl create service externalname my-ns --external-name bar.com" #: pkg/kubectl/cmd/create_service.go:225 msgid "" "\n" "\tCreate an ExternalName service with the specified name.\n" "\n" "\tExternalName service references to an external DNS address instead of\n" "\tonly pods, which will allow application authors to reference services\n" "\tthat exist off platform, on other clusters, or locally." msgstr "" "\n" "\tCreate an ExternalName service with the specified name.\n" "\n" "\tExternalName service references to an external DNS address instead of\n" "\tonly pods, which will allow application authors to reference services\n" "\tthat exist off platform, on other clusters, or locally." #: pkg/kubectl/cmd/help.go:30 msgid "" "\n" "\tHelp provides help for any command in the application.\n" "\tSimply type kubectl help [path to command] for full details." msgstr "" "\n" "\tHelp provides help for any command in the application.\n" "\tSimply type kubectl help [path to command] for full details." #: pkg/kubectl/cmd/create_service.go:173 msgid "" "\n" " # Create a new LoadBalancer service named my-lbs\n" " kubectl create service loadbalancer my-lbs --tcp=5678:8080" msgstr "" "\n" " # Create a new LoadBalancer service named my-lbs\n" " kubectl create service loadbalancer my-lbs --tcp=5678:8080" #: pkg/kubectl/cmd/create_service.go:53 msgid "" "\n" " # Create a new clusterIP service named my-cs\n" " kubectl create service clusterip my-cs --tcp=5678:8080\n" "\n" " # Create a new clusterIP service named my-cs (in headless mode)\n" " kubectl create service clusterip my-cs --clusterip=\"None\"" msgstr "" "\n" " # Create a new clusterIP service named my-cs\n" " kubectl create service clusterip my-cs --tcp=5678:8080\n" "\n" " # Create a new clusterIP service named my-cs (in headless mode)\n" " kubectl create service clusterip my-cs --clusterip=\"None\"" #: pkg/kubectl/cmd/create_deployment.go:36 msgid "" "\n" " # Create a new deployment named my-dep that runs the busybox image.\n" " kubectl create deployment my-dep --image=busybox" msgstr "" "\n" " # Create a new deployment named my-dep that runs the busybox image.\n" " kubectl create deployment my-dep --image=busybox" #: pkg/kubectl/cmd/create_service.go:116 msgid "" "\n" " # Create a new nodeport service named my-ns\n" " kubectl create service nodeport my-ns --tcp=5678:8080" msgstr "" "\n" " # Create a new nodeport service named my-ns\n" " kubectl create service nodeport my-ns --tcp=5678:8080" #: pkg/kubectl/cmd/clusterinfo_dump.go:62 msgid "" "\n" " # Dump current cluster state to stdout\n" " kubectl cluster-info dump\n" "\n" " # Dump current cluster state to /path/to/cluster-state\n" " kubectl cluster-info dump --output-directory=/path/to/cluster-state\n" "\n" " # Dump all namespaces to stdout\n" " kubectl cluster-info dump --all-namespaces\n" "\n" " # Dump a set of namespaces to /path/to/cluster-state\n" " kubectl cluster-info dump --namespaces default,kube-system --output-" "directory=/path/to/cluster-state" msgstr "" "\n" " # Dump current cluster state to stdout\n" " kubectl cluster-info dump\n" "\n" " # Dump current cluster state to /path/to/cluster-state\n" " kubectl cluster-info dump --output-directory=/path/to/cluster-state\n" "\n" " # Dump all namespaces to stdout\n" " kubectl cluster-info dump --all-namespaces\n" "\n" " # Dump a set of namespaces to /path/to/cluster-state\n" " kubectl cluster-info dump --namespaces default,kube-system --output-" "directory=/path/to/cluster-state" #: pkg/kubectl/cmd/annotate.go:78 msgid "" "\n" " # Update pod 'foo' with the annotation 'description' and the value 'my " "frontend'.\n" " # If the same annotation is set multiple times, only the last value will " "be applied\n" " kubectl annotate pods foo description='my frontend'\n" "\n" " # Update a pod identified by type and name in \"pod.json\"\n" " kubectl annotate -f pod.json description='my frontend'\n" "\n" " # Update pod 'foo' with the annotation 'description' and the value 'my " "frontend running nginx', overwriting any existing value.\n" " kubectl annotate --overwrite pods foo description='my frontend running " "nginx'\n" "\n" " # Update all pods in the namespace\n" " kubectl annotate pods --all description='my frontend running nginx'\n" "\n" " # Update pod 'foo' only if the resource is unchanged from version 1.\n" " kubectl annotate pods foo description='my frontend running nginx' --" "resource-version=1\n" "\n" " # Update pod 'foo' by removing an annotation named 'description' if it " "exists.\n" " # Does not require the --overwrite flag.\n" " kubectl annotate pods foo description-" msgstr "" "\n" " # Update pod 'foo' with the annotation 'description' and the value 'my " "frontend'.\n" " # If the same annotation is set multiple times, only the last value will " "be applied\n" " kubectl annotate pods foo description='my frontend'\n" "\n" " # Update a pod identified by type and name in \"pod.json\"\n" " kubectl annotate -f pod.json description='my frontend'\n" "\n" " # Update pod 'foo' with the annotation 'description' and the value 'my " "frontend running nginx', overwriting any existing value.\n" " kubectl annotate --overwrite pods foo description='my frontend running " "nginx'\n" "\n" " # Update all pods in the namespace\n" " kubectl annotate pods --all description='my frontend running nginx'\n" "\n" " # Update pod 'foo' only if the resource is unchanged from version 1.\n" " kubectl annotate pods foo description='my frontend running nginx' --" "resource-version=1\n" "\n" " # Update pod 'foo' by removing an annotation named 'description' if it " "exists.\n" " # Does not require the --overwrite flag.\n" " kubectl annotate pods foo description-" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_namespace.go#L44 #: pkg/kubectl/cmd/create_service.go:170 msgid "" "\n" " Create a LoadBalancer service with the specified name." msgstr "" "\n" " Create a LoadBalancer service with the specified name." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_serviceaccount.go#L44 #: pkg/kubectl/cmd/create_service.go:50 msgid "" "\n" " Create a clusterIP service with the specified name." msgstr "" "\n" " Create a clusterIP service with the specified name." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_deployment.go#L44 #: pkg/kubectl/cmd/create_deployment.go:33 msgid "" "\n" " Create a deployment with the specified name." msgstr "" "\n" " Create a deployment with the specified name." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_deployment.go#L44 #: pkg/kubectl/cmd/create_service.go:113 msgid "" "\n" " Create a nodeport service with the specified name." msgstr "" "\n" " Create a nodeport service with the specified name." #: pkg/kubectl/cmd/clusterinfo_dump.go:53 msgid "" "\n" " Dumps cluster info out suitable for debugging and diagnosing cluster " "problems. By default, dumps everything to\n" " stdout. You can optionally specify a directory with --output-directory. " "If you specify a directory, kubernetes will\n" " build a set of files in that directory. By default only dumps things in " "the 'kube-system' namespace, but you can\n" " switch to a different namespace with the --namespaces flag, or specify --" "all-namespaces to dump all namespaces.\n" "\n" " The command also dumps the logs of all of the pods in the cluster, these " "logs are dumped into different directories\n" " based on namespace and pod name." msgstr "" "\n" " Dumps cluster info out suitable for debugging and diagnosing cluster " "problems. By default, dumps everything to\n" " stdout. You can optionally specify a directory with --output-directory. " "If you specify a directory, kubernetes will\n" " build a set of files in that directory. By default only dumps things in " "the 'kube-system' namespace, but you can\n" " switch to a different namespace with the --namespaces flag, or specify --" "all-namespaces to dump all namespaces.\n" "\n" " The command also dumps the logs of all of the pods in the cluster, these " "logs are dumped into different directories\n" " based on namespace and pod name." #: pkg/kubectl/cmd/clusterinfo.go:37 msgid "" "\n" " Display addresses of the master and services with label kubernetes.io/" "cluster-service=true\n" " To further debug and diagnose cluster problems, use 'kubectl cluster-info " "dump'." msgstr "" "\n" " Display addresses of the master and services with label kubernetes.io/" "cluster-service=true\n" " To further debug and diagnose cluster problems, use 'kubectl cluster-info " "dump'." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_quota.go#L61 #: pkg/kubectl/cmd/create_quota.go:62 msgid "" "A comma-delimited set of quota scopes that must all match each object " "tracked by the quota." msgstr "" "A comma-delimited set of quota scopes that must all match each object " "tracked by the quota." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_quota.go#L60 #: pkg/kubectl/cmd/create_quota.go:61 msgid "" "A comma-delimited set of resource=quantity pairs that define a hard limit." msgstr "" "A comma-delimited set of resource=quantity pairs that define a hard limit." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_pdb.go#L63 #: pkg/kubectl/cmd/create_pdb.go:64 msgid "" "A label selector to use for this budget. Only equality-based selector " "requirements are supported." msgstr "" "A label selector to use for this budget. Only equality-based selector " "requirements are supported." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L106 #: pkg/kubectl/cmd/expose.go:104 msgid "" "A label selector to use for this service. Only equality-based selector " "requirements are supported. If empty (the default) infer the selector from " "the replication controller or replica set.)" msgstr "" "A label selector to use for this service. Only equality-based selector " "requirements are supported. If empty (the default) infer the selector from " "the replication controller or replica set.)" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L136 #: pkg/kubectl/cmd/run.go:139 msgid "A schedule in the Cron format the job should be run with." msgstr "A schedule in the Cron format the job should be run with." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L111 #: pkg/kubectl/cmd/expose.go:109 msgid "" "Additional external IP address (not managed by Kubernetes) to accept for the " "service. If this IP is routed to a node, the service can be accessed by this " "IP in addition to its generated service IP." msgstr "" "Additional external IP address (not managed by Kubernetes) to accept for the " "service. If this IP is routed to a node, the service can be accessed by this " "IP in addition to its generated service IP." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L119 #: pkg/kubectl/cmd/expose.go:110 pkg/kubectl/cmd/run.go:122 msgid "" "An inline JSON override for the generated object. If this is non-empty, it " "is used to override the generated object. Requires that the object supply a " "valid apiVersion field." msgstr "" "An inline JSON override for the generated object. If this is non-empty, it " "is used to override the generated object. Requires that the object supply a " "valid apiVersion field." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L134 #: pkg/kubectl/cmd/run.go:137 msgid "" "An inline JSON override for the generated service object. If this is non-" "empty, it is used to override the generated object. Requires that the object " "supply a valid apiVersion field. Only used if --expose is true." msgstr "" "An inline JSON override for the generated service object. If this is non-" "empty, it is used to override the generated object. Requires that the object " "supply a valid apiVersion field. Only used if --expose is true." #: pkg/kubectl/cmd/apply.go:104 msgid "Apply a configuration to a resource by filename or stdin" msgstr "ファイル名または標準入力でリソースにコンフィグを適用する" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/certificates.go#L71 #: pkg/kubectl/cmd/certificates.go:72 msgid "Approve a certificate signing request" msgstr "Approve a certificate signing request" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_service.go#L81 #: pkg/kubectl/cmd/create_service.go:82 msgid "" "Assign your own ClusterIP or set to 'None' for a 'headless' service (no " "loadbalancing)." msgstr "" "Assign your own ClusterIP or set to 'None' for a 'headless' service (no " "loadbalancing)." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/attach.go#L64 #: pkg/kubectl/cmd/attach.go:70 msgid "Attach to a running container" msgstr "Attach to a running container" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/autoscale.go#L55 #: pkg/kubectl/cmd/autoscale.go:56 msgid "Auto-scale a Deployment, ReplicaSet, or ReplicationController" msgstr "Auto-scale a Deployment, ReplicaSet, or ReplicationController" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L115 #: pkg/kubectl/cmd/expose.go:113 msgid "" "ClusterIP to be assigned to the service. Leave empty to auto-allocate, or " "set to 'None' to create a headless service." msgstr "" "ClusterIP to be assigned to the service. Leave empty to auto-allocate, or " "set to 'None' to create a headless service." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_clusterrolebinding.go#L55 #: pkg/kubectl/cmd/create_clusterrolebinding.go:56 msgid "ClusterRole this ClusterRoleBinding should reference" msgstr "ClusterRole this ClusterRoleBinding should reference" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_rolebinding.go#L55 #: pkg/kubectl/cmd/create_rolebinding.go:56 msgid "ClusterRole this RoleBinding should reference" msgstr "ClusterRole this RoleBinding should reference" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollingupdate.go#L101 #: pkg/kubectl/cmd/rollingupdate.go:102 msgid "" "Container name which will have its image upgraded. Only relevant when --" "image is specified, ignored otherwise. Required when using --image on a " "multi-container pod" msgstr "" "Container name which will have its image upgraded. Only relevant when --" "image is specified, ignored otherwise. Required when using --image on a " "multi-container pod" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/convert.go#L67 #: pkg/kubectl/cmd/convert.go:68 msgid "Convert config files between different API versions" msgstr "Convert config files between different API versions" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/cp.go#L64 #: pkg/kubectl/cmd/cp.go:65 msgid "Copy files and directories to and from containers." msgstr "Copy files and directories to and from containers." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_clusterrolebinding.go#L43 #: pkg/kubectl/cmd/create_clusterrolebinding.go:44 msgid "Create a ClusterRoleBinding for a particular ClusterRole" msgstr "Create a ClusterRoleBinding for a particular ClusterRole" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_service.go#L181 #: pkg/kubectl/cmd/create_service.go:182 msgid "Create a LoadBalancer service." msgstr "Create a LoadBalancer service." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_service.go#L124 #: pkg/kubectl/cmd/create_service.go:125 msgid "Create a NodePort service." msgstr "Create a NodePort service." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_rolebinding.go#L43 #: pkg/kubectl/cmd/create_rolebinding.go:44 msgid "Create a RoleBinding for a particular Role or ClusterRole" msgstr "Create a RoleBinding for a particular Role or ClusterRole" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L214 #: pkg/kubectl/cmd/create_secret.go:214 msgid "Create a TLS secret" msgstr "Create a TLS secret" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_service.go#L68 #: pkg/kubectl/cmd/create_service.go:69 msgid "Create a clusterIP service." msgstr "Create a clusterIP service." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_configmap.go#L59 #: pkg/kubectl/cmd/create_configmap.go:60 msgid "Create a configmap from a local file, directory or literal value" msgstr "Create a configmap from a local file, directory or literal value" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_deployment.go#L44 #: pkg/kubectl/cmd/create_deployment.go:46 msgid "Create a deployment with the specified name." msgstr "Create a deployment with the specified name." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_namespace.go#L44 #: pkg/kubectl/cmd/create_namespace.go:45 msgid "Create a namespace with the specified name" msgstr "Create a namespace with the specified name" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_pdb.go#L49 #: pkg/kubectl/cmd/create_pdb.go:50 msgid "Create a pod disruption budget with the specified name." msgstr "Create a pod disruption budget with the specified name." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_quota.go#L47 #: pkg/kubectl/cmd/create_quota.go:48 msgid "Create a quota with the specified name." msgstr "Create a quota with the specified name." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create.go#L56 #: pkg/kubectl/cmd/create.go:63 msgid "Create a resource by filename or stdin" msgstr "ファイル名または標準入力でリソースを作成する" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L143 #: pkg/kubectl/cmd/create_secret.go:144 msgid "Create a secret for use with a Docker registry" msgstr "Create a secret for use with a Docker registry" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L73 #: pkg/kubectl/cmd/create_secret.go:74 msgid "Create a secret from a local file, directory or literal value" msgstr "Create a secret from a local file, directory or literal value" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L34 #: pkg/kubectl/cmd/create_secret.go:35 msgid "Create a secret using specified subcommand" msgstr "Create a secret using specified subcommand" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_serviceaccount.go#L44 #: pkg/kubectl/cmd/create_serviceaccount.go:45 msgid "Create a service account with the specified name" msgstr "Create a service account with the specified name" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_service.go#L36 #: pkg/kubectl/cmd/create_service.go:37 msgid "Create a service using specified subcommand." msgstr "Create a service using specified subcommand." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_service.go#L240 #: pkg/kubectl/cmd/create_service.go:241 msgid "Create an ExternalName service." msgstr "Create an ExternalName service." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/delete.go#L130 #: pkg/kubectl/cmd/delete.go:132 msgid "" "Delete resources by filenames, stdin, resources and names, or by resources " "and label selector" msgstr "" "Delete resources by filenames, stdin, resources and names, or by resources " "and label selector" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/delete_cluster.go#L38 #: pkg/kubectl/cmd/config/delete_cluster.go:39 msgid "Delete the specified cluster from the kubeconfig" msgstr "指定したコンテキストをkubeconfigから削除する" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/delete_context.go#L38 #: pkg/kubectl/cmd/config/delete_context.go:39 msgid "Delete the specified context from the kubeconfig" msgstr "指定したコンテキストをkubeconfigから削除する" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/certificates.go#L121 #: pkg/kubectl/cmd/certificates.go:122 msgid "Deny a certificate signing request" msgstr "Deny a certificate signing request" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/stop.go#L58 #: pkg/kubectl/cmd/stop.go:59 msgid "Deprecated: Gracefully shut down a resource by name or filename" msgstr "Deprecated: Gracefully shut down a resource by name or filename" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/get_contexts.go#L62 #: pkg/kubectl/cmd/config/get_contexts.go:64 msgid "Describe one or many contexts" msgstr "1つまたは複数のコンテキストを記述する" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/top_node.go#L77 #: pkg/kubectl/cmd/top_node.go:78 msgid "Display Resource (CPU/Memory) usage of nodes" msgstr "Display Resource (CPU/Memory) usage of nodes" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/top_pod.go#L79 #: pkg/kubectl/cmd/top_pod.go:80 msgid "Display Resource (CPU/Memory) usage of pods" msgstr "Display Resource (CPU/Memory) usage of pods" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/top.go#L43 #: pkg/kubectl/cmd/top.go:44 msgid "Display Resource (CPU/Memory) usage." msgstr "Display Resource (CPU/Memory) usage." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/clusterinfo.go#L49 #: pkg/kubectl/cmd/clusterinfo.go:51 msgid "Display cluster info" msgstr "クラスターの情報を表示する" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/get_clusters.go#L40 #: pkg/kubectl/cmd/config/get_clusters.go:41 msgid "Display clusters defined in the kubeconfig" msgstr "kubeconfigで定義されたクラスターを表示する" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/view.go#L64 #: pkg/kubectl/cmd/config/view.go:67 msgid "Display merged kubeconfig settings or a specified kubeconfig file" msgstr "マージされたkubeconfigの設定または指定されたkubeconfigを表示する" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/get.go#L107 #: pkg/kubectl/cmd/get.go:111 msgid "Display one or many resources" msgstr "1つまたは複数のリソースを表示する" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/current_context.go#L48 #: pkg/kubectl/cmd/config/current_context.go:49 msgid "Displays the current-context" msgstr "current-contextを表示する" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/explain.go#L50 #: pkg/kubectl/cmd/explain.go:51 msgid "Documentation of resources" msgstr "リソースの説明を表示する" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/drain.go#L176 #: pkg/kubectl/cmd/drain.go:178 msgid "Drain node in preparation for maintenance" msgstr "Drain node in preparation for maintenance" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/clusterinfo_dump.go#L37 #: pkg/kubectl/cmd/clusterinfo_dump.go:39 msgid "Dump lots of relevant info for debugging and diagnosis" msgstr "Dump lots of relevant info for debugging and diagnosis" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/edit.go#L100 #: pkg/kubectl/cmd/edit.go:110 msgid "Edit a resource on the server" msgstr "Edit a resource on the server" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L159 #: pkg/kubectl/cmd/create_secret.go:160 msgid "Email for Docker registry" msgstr "Email for Docker registry" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/exec.go#L68 #: pkg/kubectl/cmd/exec.go:69 msgid "Execute a command in a container" msgstr "Execute a command in a container" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollingupdate.go#L102 #: pkg/kubectl/cmd/rollingupdate.go:103 msgid "" "Explicit policy for when to pull container images. Required when --image is " "same as existing image, ignored otherwise." msgstr "" "Explicit policy for when to pull container images. Required when --image is " "same as existing image, ignored otherwise." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/portforward.go#L75 #: pkg/kubectl/cmd/portforward.go:76 msgid "Forward one or more local ports to a pod" msgstr "Forward one or more local ports to a pod" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/help.go#L36 #: pkg/kubectl/cmd/help.go:37 msgid "Help about any command" msgstr "Help about any command" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L105 #: pkg/kubectl/cmd/expose.go:103 msgid "" "IP to assign to the Load Balancer. If empty, an ephemeral IP will be created " "and used (cloud-provider specific)." msgstr "" "IP to assign to the Load Balancer. If empty, an ephemeral IP will be created " "and used (cloud-provider specific)." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L114 #: pkg/kubectl/cmd/expose.go:112 msgid "" "If non-empty, set the session affinity for the service to this; legal " "values: 'None', 'ClientIP'" msgstr "" "If non-empty, set the session affinity for the service to this; legal " "values: 'None', 'ClientIP'" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/annotate.go#L135 #: pkg/kubectl/cmd/annotate.go:136 msgid "" "If non-empty, the annotation update will only succeed if this is the current " "resource-version for the object. Only valid when specifying a single " "resource." msgstr "" "If non-empty, the annotation update will only succeed if this is the current " "resource-version for the object. Only valid when specifying a single " "resource." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/label.go#L132 #: pkg/kubectl/cmd/label.go:134 msgid "" "If non-empty, the labels update will only succeed if this is the current " "resource-version for the object. Only valid when specifying a single " "resource." msgstr "" "If non-empty, the labels update will only succeed if this is the current " "resource-version for the object. Only valid when specifying a single " "resource." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollingupdate.go#L98 #: pkg/kubectl/cmd/rollingupdate.go:99 msgid "" "Image to use for upgrading the replication controller. Must be distinct from " "the existing image (either new image or new image tag). Can not be used " "with --filename/-f" msgstr "" "Image to use for upgrading the replication controller. Must be distinct from " "the existing image (either new image or new image tag). Can not be used " "with --filename/-f" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollout/rollout.go#L46 #: pkg/kubectl/cmd/rollout/rollout.go:47 msgid "Manage a deployment rollout" msgstr "Manage a deployment rollout" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/drain.go#L127 #: pkg/kubectl/cmd/drain.go:128 msgid "Mark node as schedulable" msgstr "Mark node as schedulable" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/drain.go#L102 #: pkg/kubectl/cmd/drain.go:103 msgid "Mark node as unschedulable" msgstr "Mark node as unschedulable" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollout/rollout_pause.go#L73 #: pkg/kubectl/cmd/rollout/rollout_pause.go:74 msgid "Mark the provided resource as paused" msgstr "Mark the provided resource as paused" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/certificates.go#L35 #: pkg/kubectl/cmd/certificates.go:36 msgid "Modify certificate resources." msgstr "Modify certificate resources." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/config.go#L39 #: pkg/kubectl/cmd/config/config.go:40 msgid "Modify kubeconfig files" msgstr "kubeconfigを変更する" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L110 #: pkg/kubectl/cmd/expose.go:108 msgid "" "Name or number for the port on the container that the service should direct " "traffic to. Optional." msgstr "" "Name or number for the port on the container that the service should direct " "traffic to. Optional." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/logs.go#L108 #: pkg/kubectl/cmd/logs.go:113 msgid "" "Only return logs after a specific date (RFC3339). Defaults to all logs. Only " "one of since-time / since may be used." msgstr "" "Only return logs after a specific date (RFC3339). Defaults to all logs. Only " "one of since-time / since may be used." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/completion.go#L97 #: pkg/kubectl/cmd/completion.go:104 msgid "Output shell completion code for the specified shell (bash or zsh)" msgstr "Output shell completion code for the specified shell (bash or zsh)" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/edit.go#L115 #: pkg/kubectl/cmd/convert.go:85 msgid "" "Output the formatted object with the given group version (for ex: " "'extensions/v1beta1').)" msgstr "" "Output the formatted object with the given group version (for ex: " "'extensions/v1beta1').)" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L157 #: pkg/kubectl/cmd/create_secret.go:158 msgid "Password for Docker registry authentication" msgstr "Password for Docker registry authentication" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L226 #: pkg/kubectl/cmd/create_secret.go:226 msgid "Path to PEM encoded public key certificate." msgstr "Path to PEM encoded public key certificate." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L227 #: pkg/kubectl/cmd/create_secret.go:227 msgid "Path to private key associated with given certificate." msgstr "Path to private key associated with given certificate." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollingupdate.go#L84 #: pkg/kubectl/cmd/rollingupdate.go:85 msgid "Perform a rolling update of the given ReplicationController" msgstr "Perform a rolling update of the given ReplicationController" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/scale.go#L82 #: pkg/kubectl/cmd/scale.go:83 msgid "" "Precondition for resource version. Requires that the current resource " "version match this value in order to scale." msgstr "" "Precondition for resource version. Requires that the current resource " "version match this value in order to scale." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/version.go#L39 #: pkg/kubectl/cmd/version.go:40 msgid "Print the client and server version information" msgstr "Print the client and server version information" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/options.go#L37 #: pkg/kubectl/cmd/options.go:38 msgid "Print the list of flags inherited by all commands" msgstr "Print the list of flags inherited by all commands" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/logs.go#L86 #: pkg/kubectl/cmd/logs.go:93 msgid "Print the logs for a container in a pod" msgstr "Print the logs for a container in a pod" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/replace.go#L70 #: pkg/kubectl/cmd/replace.go:71 msgid "Replace a resource by filename or stdin" msgstr "Replace a resource by filename or stdin" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollout/rollout_resume.go#L71 #: pkg/kubectl/cmd/rollout/rollout_resume.go:72 msgid "Resume a paused resource" msgstr "Resume a paused resource" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_rolebinding.go#L56 #: pkg/kubectl/cmd/create_rolebinding.go:57 msgid "Role this RoleBinding should reference" msgstr "Role this RoleBinding should reference" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L94 #: pkg/kubectl/cmd/run.go:97 msgid "Run a particular image on the cluster" msgstr "Run a particular image on the cluster" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/proxy.go#L68 #: pkg/kubectl/cmd/proxy.go:69 msgid "Run a proxy to the Kubernetes API server" msgstr "Run a proxy to the Kubernetes API server" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L161 #: pkg/kubectl/cmd/create_secret.go:161 msgid "Server location for Docker registry" msgstr "Server location for Docker registry" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/scale.go#L71 #: pkg/kubectl/cmd/scale.go:71 msgid "" "Set a new size for a Deployment, ReplicaSet, Replication Controller, or Job" msgstr "" "Set a new size for a Deployment, ReplicaSet, Replication Controller, or Job" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/set/set.go#L37 #: pkg/kubectl/cmd/set/set.go:38 msgid "Set specific features on objects" msgstr "Set specific features on objects" #: pkg/kubectl/cmd/apply_set_last_applied.go:83 msgid "" "Set the last-applied-configuration annotation on a live object to match the " "contents of a file." msgstr "" "Set the last-applied-configuration annotation on a live object to match the " "contents of a file." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/set/set_selector.go#L81 #: pkg/kubectl/cmd/set/set_selector.go:82 msgid "Set the selector on a resource" msgstr "リソースのセレクターを設定する" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/create_cluster.go#L67 #: pkg/kubectl/cmd/config/create_cluster.go:68 msgid "Sets a cluster entry in kubeconfig" msgstr "kubeconfigにクラスターエントリを設定する" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/create_context.go#L57 #: pkg/kubectl/cmd/config/create_context.go:58 msgid "Sets a context entry in kubeconfig" msgstr "kubeconfigにコンテキストエントリを設定する" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/create_authinfo.go#L103 #: pkg/kubectl/cmd/config/create_authinfo.go:104 msgid "Sets a user entry in kubeconfig" msgstr "kubeconfigにユーザーエントリを設定する" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/set.go#L59 #: pkg/kubectl/cmd/config/set.go:60 msgid "Sets an individual value in a kubeconfig file" msgstr "kubeconfigに個別の変数を設定する" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/use_context.go#L48 #: pkg/kubectl/cmd/config/use_context.go:49 msgid "Sets the current-context in a kubeconfig file" msgstr "kubeconfigにcurrent-contextを設定する" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/describe.go#L80 #: pkg/kubectl/cmd/describe.go:86 msgid "Show details of a specific resource or group of resources" msgstr "Show details of a specific resource or group of resources" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollout/rollout_status.go#L57 #: pkg/kubectl/cmd/rollout/rollout_status.go:58 msgid "Show the status of the rollout" msgstr "Show the status of the rollout" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L108 #: pkg/kubectl/cmd/expose.go:106 msgid "Synonym for --target-port" msgstr "Synonym for --target-port" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L87 #: pkg/kubectl/cmd/expose.go:88 msgid "" "Take a replication controller, service, deployment or pod and expose it as a " "new Kubernetes Service" msgstr "" "Take a replication controller, service, deployment or pod and expose it as a " "new Kubernetes Service" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L114 #: pkg/kubectl/cmd/run.go:117 msgid "The image for the container to run." msgstr "The image for the container to run." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L116 #: pkg/kubectl/cmd/run.go:119 msgid "" "The image pull policy for the container. If left empty, this value will not " "be specified by the client and defaulted by the server" msgstr "" "The image pull policy for the container. If left empty, this value will not " "be specified by the client and defaulted by the server" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollingupdate.go#L100 #: pkg/kubectl/cmd/rollingupdate.go:101 msgid "" "The key to use to differentiate between two different controllers, default " "'deployment'. Only relevant when --image is specified, ignored otherwise" msgstr "" "The key to use to differentiate between two different controllers, default " "'deployment'. Only relevant when --image is specified, ignored otherwise" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_pdb.go#L62 #: pkg/kubectl/cmd/create_pdb.go:63 msgid "" "The minimum number or percentage of available pods this budget requires." msgstr "" "The minimum number or percentage of available pods this budget requires." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L113 #: pkg/kubectl/cmd/expose.go:111 msgid "The name for the newly created object." msgstr "The name for the newly created object." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/autoscale.go#L71 #: pkg/kubectl/cmd/autoscale.go:72 msgid "" "The name for the newly created object. If not specified, the name of the " "input resource will be used." msgstr "" "The name for the newly created object. If not specified, the name of the " "input resource will be used." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L113 #: pkg/kubectl/cmd/run.go:116 msgid "" "The name of the API generator to use, see http://kubernetes.io/docs/user-" "guide/kubectl-conventions/#generators for a list." msgstr "" "The name of the API generator to use, see http://kubernetes.io/docs/user-" "guide/kubectl-conventions/#generators for a list." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/autoscale.go#L66 #: pkg/kubectl/cmd/autoscale.go:67 msgid "" "The name of the API generator to use. Currently there is only 1 generator." msgstr "" "The name of the API generator to use. Currently there is only 1 generator." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L98 #: pkg/kubectl/cmd/expose.go:99 msgid "" "The name of the API generator to use. There are 2 generators: 'service/v1' " "and 'service/v2'. The only difference between them is that service port in " "v1 is named 'default', while it is left unnamed in v2. Default is 'service/" "v2'." msgstr "" "The name of the API generator to use. There are 2 generators: 'service/v1' " "and 'service/v2'. The only difference between them is that service port in " "v1 is named 'default', while it is left unnamed in v2. Default is 'service/" "v2'." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L133 #: pkg/kubectl/cmd/run.go:136 msgid "" "The name of the generator to use for creating a service. Only used if --" "expose is true" msgstr "" "The name of the generator to use for creating a service. Only used if --" "expose is true" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L99 #: pkg/kubectl/cmd/expose.go:100 msgid "The network protocol for the service to be created. Default is 'TCP'." msgstr "The network protocol for the service to be created. Default is 'TCP'." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L100 #: pkg/kubectl/cmd/expose.go:101 msgid "" "The port that the service should serve on. Copied from the resource being " "exposed, if unspecified" msgstr "" "The port that the service should serve on. Copied from the resource being " "exposed, if unspecified" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L121 #: pkg/kubectl/cmd/run.go:124 msgid "" "The port that this container exposes. If --expose is true, this is also the " "port used by the service that is created." msgstr "" "The port that this container exposes. If --expose is true, this is also the " "port used by the service that is created." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L131 #: pkg/kubectl/cmd/run.go:134 msgid "" "The resource requirement limits for this container. For example, 'cpu=200m," "memory=512Mi'. Note that server side components may assign limits depending " "on the server configuration, such as limit ranges." msgstr "" "The resource requirement limits for this container. For example, 'cpu=200m," "memory=512Mi'. Note that server side components may assign limits depending " "on the server configuration, such as limit ranges." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L130 #: pkg/kubectl/cmd/run.go:133 msgid "" "The resource requirement requests for this container. For example, " "'cpu=100m,memory=256Mi'. Note that server side components may assign " "requests depending on the server configuration, such as limit ranges." msgstr "" "The resource requirement requests for this container. For example, " "'cpu=100m,memory=256Mi'. Note that server side components may assign " "requests depending on the server configuration, such as limit ranges." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L128 #: pkg/kubectl/cmd/run.go:131 msgid "" "The restart policy for this Pod. Legal values [Always, OnFailure, Never]. " "If set to 'Always' a deployment is created, if set to 'OnFailure' a job is " "created, if set to 'Never', a regular pod is created. For the latter two --" "replicas must be 1. Default 'Always', for CronJobs ` + "`" + `Never` + "`" + `." msgstr "" "The restart policy for this Pod. Legal values [Always, OnFailure, Never]. " "If set to 'Always' a deployment is created, if set to 'OnFailure' a job is " "created, if set to 'Never', a regular pod is created. For the latter two --" "replicas must be 1. Default 'Always', for CronJobs ` + "`" + `Never` + "`" + `." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L87 #: pkg/kubectl/cmd/create_secret.go:88 msgid "The type of secret to create" msgstr "The type of secret to create" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L101 #: pkg/kubectl/cmd/expose.go:102 msgid "" "Type for this service: ClusterIP, NodePort, or LoadBalancer. Default is " "'ClusterIP'." msgstr "" "Type for this service: ClusterIP, NodePort, or LoadBalancer. Default is " "'ClusterIP'." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollout/rollout_undo.go#L71 #: pkg/kubectl/cmd/rollout/rollout_undo.go:72 msgid "Undo a previous rollout" msgstr "現在のロールアウトを取り消す" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/unset.go#L47 #: pkg/kubectl/cmd/config/unset.go:48 msgid "Unsets an individual value in a kubeconfig file" msgstr "kubeconfigから変数を個別に削除する" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/patch.go#L91 #: pkg/kubectl/cmd/patch.go:96 msgid "Update field(s) of a resource using strategic merge patch" msgstr "Update field(s) of a resource using strategic merge patch" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/set/set_image.go#L94 #: pkg/kubectl/cmd/set/set_image.go:95 msgid "Update image of a pod template" msgstr "Update image of a pod template" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/set/set_resources.go#L101 #: pkg/kubectl/cmd/set/set_resources.go:102 msgid "Update resource requests/limits on objects with pod templates" msgstr "Update resource requests/limits on objects with pod templates" #: pkg/kubectl/cmd/annotate.go:116 msgid "Update the annotations on a resource" msgstr "リソースのアノテーションを更新する" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/label.go#L109 #: pkg/kubectl/cmd/label.go:114 msgid "Update the labels on a resource" msgstr "リソースのラベルを更新する" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/taint.go#L88 #: pkg/kubectl/cmd/taint.go:87 msgid "Update the taints on one or more nodes" msgstr "Update the taints on one or more nodes" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L155 #: pkg/kubectl/cmd/create_secret.go:156 msgid "Username for Docker registry authentication" msgstr "Username for Docker registry authentication" #: pkg/kubectl/cmd/apply_view_last_applied.go:64 msgid "View latest last-applied-configuration annotations of a resource/object" msgstr "" "View latest last-applied-configuration annotations of a resource/object" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollout/rollout_history.go#L51 #: pkg/kubectl/cmd/rollout/rollout_history.go:52 msgid "View rollout history" msgstr "ロールアウトの履歴を表示する" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/clusterinfo_dump.go#L45 #: pkg/kubectl/cmd/clusterinfo_dump.go:46 msgid "" "Where to output the files. If empty or '-' uses stdout, otherwise creates a " "directory hierarchy in that directory" msgstr "" "Where to output the files. If empty or '-' uses stdout, otherwise creates a " "directory hierarchy in that directory" #: pkg/kubectl/cmd/run_test.go:85 msgid "dummy restart flag)" msgstr "dummy restart flag)" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_service.go#L253 #: pkg/kubectl/cmd/create_service.go:254 msgid "external name of service" msgstr "external name of service" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/cmd.go#L217 #: pkg/kubectl/cmd/cmd.go:227 msgid "kubectl controls the Kubernetes cluster manager" msgstr "kubectl controls the Kubernetes cluster manager" #~ msgid "" #~ "watch is only supported on individual resources and resource collections " #~ "- %d resources were found" #~ msgid_plural "" #~ "watch is only supported on individual resources and resource collections " #~ "- %d resources were found" #~ msgstr[0] "" #~ "watchは単一リソース及びリソースコレクションのみサポートしています" #~ "- %d個のリソースが見つかりました" #~ msgstr[1] "" #~ "watchは単一リソース及びリソースコレクションのみサポートしています" #~ "- %d個のリソースが見つかりました" `) func translationsKubectlJa_jpLc_messagesK8sPoBytes() ([]byte, error) { return _translationsKubectlJa_jpLc_messagesK8sPo, nil } func translationsKubectlJa_jpLc_messagesK8sPo() (*asset, error) { bytes, err := translationsKubectlJa_jpLc_messagesK8sPoBytes() if err != nil { return nil, err } info := bindataFileInfo{name: "translations/kubectl/ja_JP/LC_MESSAGES/k8s.po", size: 0, mode: os.FileMode(0), modTime: time.Unix(0, 0)} a := &asset{bytes: bytes, info: info} return a, nil } var _translationsKubectlKo_krLc_messagesK8sMo = []byte("\xde\x12\x04\x95\x00\x00\x00\x00\x11\x00\x00\x00\x1c\x00\x00\x00\xa4\x00\x00\x00\x17\x00\x00\x00,\x01\x00\x00\x00\x00\x00\x00\x88\x01\x00\x008\x00\x00\x00\x89\x01\x00\x000\x00\x00\x00\xc2\x01\x00\x000\x00\x00\x00\xf3\x01\x00\x00\x1d\x00\x00\x00$\x02\x00\x00*\x00\x00\x00B\x02\x00\x00A\x00\x00\x00m\x02\x00\x00\x1c\x00\x00\x00\xaf\x02\x00\x00\x17\x00\x00\x00\xcc\x02\x00\x00\"\x00\x00\x00\xe4\x02\x00\x00\"\x00\x00\x00\a\x03\x00\x00\x1f\x00\x00\x00*\x03\x00\x00-\x00\x00\x00J\x03\x00\x00-\x00\x00\x00x\x03\x00\x00/\x00\x00\x00\xa6\x03\x00\x00$\x00\x00\x00\xd6\x03\x00\x00\xc5\x00\x00\x00\xfb\x03\x00\x00\x9f\x01\x00\x00\xc1\x04\x00\x00H\x00\x00\x00a\x06\x00\x00:\x00\x00\x00\xaa\x06\x00\x00:\x00\x00\x00\xe5\x06\x00\x004\x00\x00\x00 \a\x00\x007\x00\x00\x00U\a\x00\x00Q\x00\x00\x00\x8d\a\x00\x00&\x00\x00\x00\xdf\a\x00\x00$\x00\x00\x00\x06\b\x00\x007\x00\x00\x00+\b\x00\x007\x00\x00\x00c\b\x00\x004\x00\x00\x00\x9b\b\x00\x004\x00\x00\x00\xd0\b\x00\x00>\x00\x00\x00\x05\t\x00\x00;\x00\x00\x00D\t\x00\x000\x00\x00\x00\x80\t\x00\x00l\x00\x00\x00\xb1\t\x00\x00\x01\x00\x00\x00\n\x00\x00\x00\v\x00\x00\x00\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x11\x00\x00\x00\t\x00\x00\x00\x02\x00\x00\x00\x00\x00\x00\x00\a\x00\x00\x00\x04\x00\x00\x00\x00\x00\x00\x00\b\x00\x00\x00\x0e\x00\x00\x00\x00\x00\x00\x00\x0f\x00\x00\x00\f\x00\x00\x00\x05\x00\x00\x00\r\x00\x00\x00\x06\x00\x00\x00\x00\x00\x00\x00\x10\x00\x00\x00\x00Apply a configuration to a resource by filename or stdin\x00Delete the specified cluster from the kubeconfig\x00Delete the specified context from the kubeconfig\x00Describe one or many contexts\x00Display clusters defined in the kubeconfig\x00Display merged kubeconfig settings or a specified kubeconfig file\x00Displays the current-context\x00Modify kubeconfig files\x00Sets a cluster entry in kubeconfig\x00Sets a context entry in kubeconfig\x00Sets a user entry in kubeconfig\x00Sets an individual value in a kubeconfig file\x00Sets the current-context in a kubeconfig file\x00Unsets an individual value in a kubeconfig file\x00Update the annotations on a resource\x00watch is only supported on individual resources and resource collections - %d resources were found\x00watch is only supported on individual resources and resource collections - %d resources were found\x00Project-Id-Version: gettext-go-examples-hello\nReport-Msgid-Bugs-To: \nPOT-Creation-Date: 2013-12-12 20:03+0000\nPO-Revision-Date: 2018-04-03 06:05+0900\nLast-Translator: Ian Y. Choi \nMIME-Version: 1.0\nContent-Type: text/plain; charset=UTF-8\nContent-Transfer-Encoding: 8bit\nX-Generator: Poedit 2.0.6\nX-Poedit-SourceCharset: UTF-8\nLanguage-Team: \nPlural-Forms: nplurals=1; plural=0;\nLanguage: ko_KR\n\x00\uad6c\uc131\uc744 \ud30c\uc77c \uc774\ub984 \ub610\ub294 stdin\uc5d0 \uc758\ud55c \uc790\uc6d0\uc5d0 \uc801\uc6a9\ud569\ub2c8\ub2e4\x00kubeconfig\uc5d0\uc11c \uc9c0\uc815\ub41c \ud074\ub7ec\uc2a4\ud130\ub97c \uc0ad\uc81c\ud569\ub2c8\ub2e4\x00kubeconfig\uc5d0\uc11c \uc9c0\uc815\ub41c \ucee8\ud14d\uc2a4\ud2b8\ub97c \uc0ad\uc81c\ud569\ub2c8\ub2e4\x00\ud558\ub098 \ub610\ub294 \uc5ec\ub7ec \ucee8\ud14d\uc2a4\ud2b8\ub97c \uc124\uba85\ud569\ub2c8\ub2e4\x00kubeconfig\uc5d0 \uc815\uc758\ub41c \ud074\ub7ec\uc2a4\ud130\ub97c \ud45c\uc2dc\ud569\ub2c8\ub2e4\x00\ubcd1\ud569\ub41c kubeconfig \uc124\uc815 \ub610\ub294 \uc9c0\uc815\ub41c kubeconfig \ud30c\uc77c\uc744 \ud45c\uc2dc\ud569\ub2c8\ub2e4\x00\ud604\uc7ac-\ucee8\ud14d\uc2a4\ud2b8\ub97c \ud45c\uc2dc\ud569\ub2c8\ub2e4\x00kubeconfig \ud30c\uc77c\uc744 \uc218\uc815\ud569\ub2c8\ub2e4\x00kubeconfig\uc5d0\uc11c \ud074\ub7ec\uc2a4\ud130 \ud56d\ubaa9\uc744 \uc124\uc815\ud569\ub2c8\ub2e4\x00kubeconfig\uc5d0\uc11c \ucee8\ud14d\uc2a4\ud2b8 \ud56d\ubaa9\uc744 \uc124\uc815\ud569\ub2c8\ub2e4\x00kubeconfig\uc5d0\uc11c \uc0ac\uc6a9\uc790 \ud56d\ubaa9\uc744 \uc124\uc815\ud569\ub2c8\ub2e4\x00kubeconfig \ud30c\uc77c\uc5d0\uc11c \ub2e8\uc77c\uac12\uc744 \uc124\uc815\ud569\ub2c8\ub2e4\x00kubeconfig \ud30c\uc77c\uc5d0\uc11c \ud604\uc7ac-\ucee8\ud14d\uc2a4\ud2b8\ub97c \uc124\uc815\ud569\ub2c8\ub2e4\x00kubeconfig \ud30c\uc77c\uc5d0\uc11c \ub2e8\uc77c\uac12 \uc124\uc815\uc744 \ud574\uc81c\ud569\ub2c8\ub2e4\x00\uc790\uc6d0\uc5d0 \ub300\ud55c \uc8fc\uc11d\uc744 \uc5c5\ub370\uc774\ud2b8\ud569\ub2c8\ub2e4\x00watch\ub294 \ub2e8\uc77c \ub9ac\uc18c\uc2a4\uc640 \ub9ac\uc18c\uc2a4 \ubaa8\uc74c\ub9cc\uc744 \uc9c0\uc6d0\ud569\ub2c8\ub2e4 - %d \uac1c \uc790\uc6d0\uc744 \ubc1c\uacac\ud558\uc600\uc2b5\ub2c8\ub2e4\x00") func translationsKubectlKo_krLc_messagesK8sMoBytes() ([]byte, error) { return _translationsKubectlKo_krLc_messagesK8sMo, nil } func translationsKubectlKo_krLc_messagesK8sMo() (*asset, error) { bytes, err := translationsKubectlKo_krLc_messagesK8sMoBytes() if err != nil { return nil, err } info := bindataFileInfo{name: "translations/kubectl/ko_KR/LC_MESSAGES/k8s.mo", size: 0, mode: os.FileMode(0), modTime: time.Unix(0, 0)} a := &asset{bytes: bytes, info: info} return a, nil } var _translationsKubectlKo_krLc_messagesK8sPo = []byte(`# Test translations for unit tests. # Copyright (C) 2017 # This file is distributed under the same license as the Kubernetes package. # FIRST AUTHOR ianyrchoi@gmail.com, 2018. # msgid "" msgstr "" "Project-Id-Version: gettext-go-examples-hello\n" "Report-Msgid-Bugs-To: \n" "POT-Creation-Date: 2013-12-12 20:03+0000\n" "PO-Revision-Date: 2018-04-03 06:05+0900\n" "Last-Translator: Ian Y. Choi \n" "MIME-Version: 1.0\n" "Content-Type: text/plain; charset=UTF-8\n" "Content-Transfer-Encoding: 8bit\n" "X-Generator: Poedit 2.0.6\n" "X-Poedit-SourceCharset: UTF-8\n" "Language-Team: \n" "Plural-Forms: nplurals=1; plural=0;\n" "Language: ko_KR\n" # https://github.com/kubernetes/kubernetes/blob/masterpkg/kubectl/cmd/apply.go#L98 msgid "Apply a configuration to a resource by filename or stdin" msgstr "구성을 파일 이름 또는 stdin에 의한 자원에 적용합니다" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/delete_cluster.go#L38 msgid "Delete the specified cluster from the kubeconfig" msgstr "kubeconfig에서 지정된 클러스터를 삭제합니다" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/delete_context.go#L38 msgid "Delete the specified context from the kubeconfig" msgstr "kubeconfig에서 지정된 컨텍스트를 삭제합니다" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/get_contexts.go#L62 msgid "Describe one or many contexts" msgstr "하나 또는 여러 컨텍스트를 설명합니다" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/get_clusters.go#L40 msgid "Display clusters defined in the kubeconfig" msgstr "kubeconfig에 정의된 클러스터를 표시합니다" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/view.go#L64 msgid "Display merged kubeconfig settings or a specified kubeconfig file" msgstr "병합된 kubeconfig 설정 또는 지정된 kubeconfig 파일을 표시합니다" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/current_context.go#L48 msgid "Displays the current-context" msgstr "현재-컨텍스트를 표시합니다" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/config.go#L39 msgid "Modify kubeconfig files" msgstr "kubeconfig 파일을 수정합니다" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/create_cluster.go#L67 msgid "Sets a cluster entry in kubeconfig" msgstr "kubeconfig에서 클러스터 항목을 설정합니다" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/create_context.go#L57 msgid "Sets a context entry in kubeconfig" msgstr "kubeconfig에서 컨텍스트 항목을 설정합니다" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/create_authinfo.go#L103 msgid "Sets a user entry in kubeconfig" msgstr "kubeconfig에서 사용자 항목을 설정합니다" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/set.go#L59 msgid "Sets an individual value in a kubeconfig file" msgstr "kubeconfig 파일에서 단일값을 설정합니다" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/use_context.go#L48 msgid "Sets the current-context in a kubeconfig file" msgstr "kubeconfig 파일에서 현재-컨텍스트를 설정합니다" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/unset.go#L47 msgid "Unsets an individual value in a kubeconfig file" msgstr "kubeconfig 파일에서 단일값 설정을 해제합니다" msgid "Update the annotations on a resource" msgstr "자원에 대한 주석을 업데이트합니다" msgid "" "watch is only supported on individual resources and resource collections - " "%d resources were found" msgid_plural "" "watch is only supported on individual resources and resource collections - " "%d resources were found" msgstr[0] "" "watch는 단일 리소스와 리소스 모음만을 지원합니다 - %d 개 자원을 발견하였습" "니다" `) func translationsKubectlKo_krLc_messagesK8sPoBytes() ([]byte, error) { return _translationsKubectlKo_krLc_messagesK8sPo, nil } func translationsKubectlKo_krLc_messagesK8sPo() (*asset, error) { bytes, err := translationsKubectlKo_krLc_messagesK8sPoBytes() if err != nil { return nil, err } info := bindataFileInfo{name: "translations/kubectl/ko_KR/LC_MESSAGES/k8s.po", size: 0, mode: os.FileMode(0), modTime: time.Unix(0, 0)} a := &asset{bytes: bytes, info: info} return a, nil } var _translationsKubectlPt_brLc_messagesK8sMo = 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# Create a ClusterRoleBinding for user1, user2, and group1 using the cluster-admin ClusterRole\n\t\t kubectl create clusterrolebinding cluster-admin --clusterrole=cluster-admin --user=user1 --user=user2 --group=group1\x00\n\t\t # Create a RoleBinding for user1, user2, and group1 using the admin ClusterRole\n\t\t kubectl create rolebinding admin --clusterrole=admin --user=user1 --user=user2 --group=group1\x00\n\t\t # Create a new configmap named my-config based on folder bar\n\t\t kubectl create configmap my-config --from-file=path/to/bar\n\n\t\t # Create a new configmap named my-config with specified keys instead of file basenames on disk\n\t\t kubectl create configmap my-config --from-file=key1=/path/to/bar/file1.txt --from-file=key2=/path/to/bar/file2.txt\n\n\t\t # Create a new configmap named my-config with key1=config1 and key2=config2\n\t\t kubectl create configmap my-config --from-literal=key1=config1 --from-literal=key2=config2\x00\n\t\t # If you don't already have a .dockercfg file, you can create a dockercfg secret directly by using:\n\t\t kubectl create secret docker-registry my-secret --docker-server=DOCKER_REGISTRY_SERVER --docker-username=DOCKER_USER --docker-password=DOCKER_PASSWORD --docker-email=DOCKER_EMAIL\x00\n\t\t # Show metrics for all nodes\n\t\t kubectl top node\n\n\t\t # Show metrics for a given node\n\t\t kubectl top node NODE_NAME\x00\n\t\t# Apply the configuration in pod.json to a pod.\n\t\tkubectl apply -f ./pod.json\n\n\t\t# Apply the JSON passed into stdin to a pod.\n\t\tcat pod.json | kubectl apply -f -\n\n\t\t# Note: --prune is still in Alpha\n\t\t# Apply the configuration in manifest.yaml that matches label app=nginx and delete all the other resources that are not in the file and match label app=nginx.\n\t\tkubectl apply --prune -f manifest.yaml -l app=nginx\n\n\t\t# Apply the configuration in manifest.yaml and delete all the other configmaps that are not in the file.\n\t\tkubectl apply --prune -f manifest.yaml --all --prune-whitelist=core/v1/ConfigMap\x00\n\t\t# Auto scale a deployment \"foo\", with the number of pods between 2 and 10, no target CPU utilization specified so a default autoscaling policy will be used:\n\t\tkubectl autoscale deployment foo --min=2 --max=10\n\n\t\t# Auto scale a replication controller \"foo\", with the number of pods between 1 and 5, target CPU utilization at 80%:\n\t\tkubectl autoscale rc foo --max=5 --cpu-percent=80\x00\n\t\t# Convert 'pod.yaml' to latest version and print to stdout.\n\t\tkubectl convert -f pod.yaml\n\n\t\t# Convert the live state of the resource specified by 'pod.yaml' to the latest version\n\t\t# and print to stdout in json format.\n\t\tkubectl convert -f pod.yaml --local -o json\n\n\t\t# Convert all files under current directory to latest version and create them all.\n\t\tkubectl convert -f . | kubectl create -f -\x00\n\t\t# Create a ClusterRole named \"pod-reader\" that allows user to perform \"get\", \"watch\" and \"list\" on pods\n\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --resource=pods\n\n\t\t# Create a ClusterRole named \"pod-reader\" with ResourceName specified\n\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --resource=pods --resource-name=readablepod\x00\n\t\t# Create a Role named \"pod-reader\" that allows user to perform \"get\", \"watch\" and \"list\" on pods\n\t\tkubectl create role pod-reader --verb=get --verb=list --verb=watch --resource=pods\n\n\t\t# Create a Role named \"pod-reader\" with ResourceName specified\n\t\tkubectl create role pod-reader --verb=get --verg=list --verb=watch --resource=pods --resource-name=readablepod\x00\n\t\t# Create a new resourcequota named my-quota\n\t\tkubectl create quota my-quota --hard=cpu=1,memory=1G,pods=2,services=3,replicationcontrollers=2,resourcequotas=1,secrets=5,persistentvolumeclaims=10\n\n\t\t# Create a new resourcequota named best-effort\n\t\tkubectl create quota best-effort --hard=pods=100 --scopes=BestEffort\x00\n\t\t# Create a pod disruption budget named my-pdb that will select all pods with the app=rails label\n\t\t# and require at least one of them being available at any point in time.\n\t\tkubectl create poddisruptionbudget my-pdb --selector=app=rails --min-available=1\n\n\t\t# Create a pod disruption budget named my-pdb that will select all pods with the app=nginx label\n\t\t# and require at least half of the pods selected to be available at any point in time.\n\t\tkubectl create pdb my-pdb --selector=app=nginx --min-available=50%\x00\n\t\t# Create a pod using the data in pod.json.\n\t\tkubectl create -f ./pod.json\n\n\t\t# Create a pod based on the JSON passed into stdin.\n\t\tcat pod.json | kubectl create -f -\n\n\t\t# Edit the data in docker-registry.yaml in JSON using the v1 API format then create the resource using the edited data.\n\t\tkubectl create -f docker-registry.yaml --edit --output-version=v1 -o json\x00\n\t\t# Create a service for a replicated nginx, which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose rc nginx --port=80 --target-port=8000\n\n\t\t# Create a service for a replication controller identified by type and name specified in \"nginx-controller.yaml\", which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose -f nginx-controller.yaml --port=80 --target-port=8000\n\n\t\t# Create a service for a pod valid-pod, which serves on port 444 with the name \"frontend\"\n\t\tkubectl expose pod valid-pod --port=444 --name=frontend\n\n\t\t# Create a second service based on the above service, exposing the container port 8443 as port 443 with the name \"nginx-https\"\n\t\tkubectl expose service nginx --port=443 --target-port=8443 --name=nginx-https\n\n\t\t# Create a service for a replicated streaming application on port 4100 balancing UDP traffic and named 'video-stream'.\n\t\tkubectl expose rc streamer --port=4100 --protocol=udp --name=video-stream\n\n\t\t# Create a service for a replicated nginx using replica set, which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose rs nginx --port=80 --target-port=8000\n\n\t\t# Create a service for an nginx deployment, which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose deployment nginx --port=80 --target-port=8000\x00\n\t\t# Delete a pod using the type and name specified in pod.json.\n\t\tkubectl delete -f ./pod.json\n\n\t\t# Delete a pod based on the type and name in the JSON passed into stdin.\n\t\tcat pod.json | kubectl delete -f -\n\n\t\t# Delete pods and services with same names \"baz\" and \"foo\"\n\t\tkubectl delete pod,service baz foo\n\n\t\t# Delete pods and services with label name=myLabel.\n\t\tkubectl delete pods,services -l name=myLabel\n\n\t\t# Delete a pod with minimal delay\n\t\tkubectl delete pod foo --now\n\n\t\t# Force delete a pod on a dead node\n\t\tkubectl delete pod foo --grace-period=0 --force\n\n\t\t# Delete all pods\n\t\tkubectl delete pods --all\x00\n\t\t# Describe a node\n\t\tkubectl describe nodes kubernetes-node-emt8.c.myproject.internal\n\n\t\t# Describe a pod\n\t\tkubectl describe pods/nginx\n\n\t\t# Describe a pod identified by type and name in \"pod.json\"\n\t\tkubectl describe -f pod.json\n\n\t\t# Describe all pods\n\t\tkubectl describe pods\n\n\t\t# Describe pods by label name=myLabel\n\t\tkubectl describe po -l name=myLabel\n\n\t\t# Describe all pods managed by the 'frontend' replication controller (rc-created pods\n\t\t# get the name of the rc as a prefix in the pod the name).\n\t\tkubectl describe pods frontend\x00\n\t\t# Drain node \"foo\", even if there are pods not managed by a ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet on it.\n\t\t$ kubectl drain foo --force\n\n\t\t# As above, but abort if there are pods not managed by a ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet, and use a grace period of 15 minutes.\n\t\t$ kubectl drain foo --grace-period=900\x00\n\t\t# Edit the service named 'docker-registry':\n\t\tkubectl edit svc/docker-registry\n\n\t\t# Use an alternative editor\n\t\tKUBE_EDITOR=\"nano\" kubectl edit svc/docker-registry\n\n\t\t# Edit the job 'myjob' in JSON using the v1 API format:\n\t\tkubectl edit job.v1.batch/myjob -o json\n\n\t\t# Edit the deployment 'mydeployment' in YAML and save the modified config in its annotation:\n\t\tkubectl edit deployment/mydeployment -o yaml --save-config\x00\n\t\t# Get output from running 'date' from pod 123456-7890, using the first container by default\n\t\tkubectl exec 123456-7890 date\n\n\t\t# Get output from running 'date' in ruby-container from pod 123456-7890\n\t\tkubectl exec 123456-7890 -c ruby-container date\n\n\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container from pod 123456-7890\n\t\t# and sends stdout/stderr from 'bash' back to the client\n\t\tkubectl exec 123456-7890 -c ruby-container -i -t -- bash -il\x00\n\t\t# Get output from running pod 123456-7890, using the first container by default\n\t\tkubectl attach 123456-7890\n\n\t\t# Get output from ruby-container from pod 123456-7890\n\t\tkubectl attach 123456-7890 -c ruby-container\n\n\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container from pod 123456-7890\n\t\t# and sends stdout/stderr from 'bash' back to the client\n\t\tkubectl attach 123456-7890 -c ruby-container -i -t\n\n\t\t# Get output from the first pod of a ReplicaSet named nginx\n\t\tkubectl attach rs/nginx\n\t\t\x00\n\t\t# Get the documentation of the resource and its fields\n\t\tkubectl explain pods\n\n\t\t# Get the documentation of a specific field of a resource\n\t\tkubectl explain pods.spec.containers\x00\n\t\t# Install bash completion on a Mac using homebrew\n\t\tbrew install bash-completion\n\t\tprintf \"\n# Bash completion support\nsource $(brew --prefix)/etc/bash_completion\n\" >> $HOME/.bash_profile\n\t\tsource $HOME/.bash_profile\n\n\t\t# Load the kubectl completion code for bash into the current shell\n\t\tsource <(kubectl completion bash)\n\n\t\t# Write bash completion code to a file and source if from .bash_profile\n\t\tkubectl completion bash > ~/.kube/completion.bash.inc\n\t\tprintf \"\n# Kubectl shell completion\nsource '$HOME/.kube/completion.bash.inc'\n\" >> $HOME/.bash_profile\n\t\tsource $HOME/.bash_profile\n\n\t\t# Load the kubectl completion code for zsh[1] into the current shell\n\t\tsource <(kubectl completion zsh)\x00\n\t\t# List all pods in ps output format.\n\t\tkubectl get pods\n\n\t\t# List all pods in ps output format with more information (such as node name).\n\t\tkubectl get pods -o wide\n\n\t\t# List a single replication controller with specified NAME in ps output format.\n\t\tkubectl get replicationcontroller web\n\n\t\t# List a single pod in JSON output format.\n\t\tkubectl get -o json pod web-pod-13je7\n\n\t\t# List a pod identified by type and name specified in \"pod.yaml\" in JSON output format.\n\t\tkubectl get -f pod.yaml -o json\n\n\t\t# Return only the phase value of the specified pod.\n\t\tkubectl get -o template pod/web-pod-13je7 --template={{.status.phase}}\n\n\t\t# List all replication controllers and services together in ps output format.\n\t\tkubectl get rc,services\n\n\t\t# List one or more resources by their type and names.\n\t\tkubectl get rc/web service/frontend pods/web-pod-13je7\n\n\t\t# List all resources with different types.\n\t\tkubectl get all\x00\n\t\t# Listen on ports 5000 and 6000 locally, forwarding data to/from ports 5000 and 6000 in the pod\n\t\tkubectl port-forward mypod 5000 6000\n\n\t\t# Listen on port 8888 locally, forwarding to 5000 in the pod\n\t\tkubectl port-forward mypod 8888:5000\n\n\t\t# Listen on a random port locally, forwarding to 5000 in the pod\n\t\tkubectl port-forward mypod :5000\n\n\t\t# Listen on a random port locally, forwarding to 5000 in the pod\n\t\tkubectl port-forward mypod 0:5000\x00\n\t\t# Mark node \"foo\" as schedulable.\n\t\t$ kubectl uncordon foo\x00\n\t\t# Mark node \"foo\" as unschedulable.\n\t\tkubectl cordon foo\x00\n\t\t# Partially update a node using strategic merge patch\n\t\tkubectl patch node k8s-node-1 -p '{\"spec\":{\"unschedulable\":true}}'\n\n\t\t# Partially update a node identified by the type and name specified in \"node.json\" using strategic merge patch\n\t\tkubectl patch -f node.json -p '{\"spec\":{\"unschedulable\":true}}'\n\n\t\t# Update a container's image; spec.containers[*].name is required because it's a merge key\n\t\tkubectl patch pod valid-pod -p '{\"spec\":{\"containers\":[{\"name\":\"kubernetes-serve-hostname\",\"image\":\"new image\"}]}}'\n\n\t\t# Update a container's image using a json patch with positional arrays\n\t\tkubectl patch pod valid-pod --type='json' -p='[{\"op\": \"replace\", \"path\": \"/spec/containers/0/image\", \"value\":\"new image\"}]'\x00\n\t\t# Print flags inherited by all commands\n\t\tkubectl options\x00\n\t\t# Print the address of the master and cluster services\n\t\tkubectl cluster-info\x00\n\t\t# Print the client and server versions for the current context\n\t\tkubectl version\x00\n\t\t# Print the supported API versions\n\t\tkubectl api-versions\x00\n\t\t# Replace a pod using the data in pod.json.\n\t\tkubectl replace -f ./pod.json\n\n\t\t# Replace a pod based on the JSON passed into stdin.\n\t\tcat pod.json | kubectl replace -f -\n\n\t\t# Update a single-container pod's image version (tag) to v4\n\t\tkubectl get pod mypod -o yaml | sed 's/\\(image: myimage\\):.*$/\x01:v4/' | kubectl replace -f -\n\n\t\t# Force replace, delete and then re-create the resource\n\t\tkubectl replace --force -f ./pod.json\x00\n\t\t# Return snapshot logs from pod nginx with only one container\n\t\tkubectl logs nginx\n\n\t\t# Return snapshot logs for the pods defined by label app=nginx\n\t\tkubectl logs -lapp=nginx\n\n\t\t# Return snapshot of previous terminated ruby container logs from pod web-1\n\t\tkubectl logs -p -c ruby web-1\n\n\t\t# Begin streaming the logs of the ruby container in pod web-1\n\t\tkubectl logs -f -c ruby web-1\n\n\t\t# Display only the most recent 20 lines of output in pod nginx\n\t\tkubectl logs --tail=20 nginx\n\n\t\t# Show all logs from pod nginx written in the last hour\n\t\tkubectl logs --since=1h nginx\n\n\t\t# Return snapshot logs from first container of a job named hello\n\t\tkubectl logs job/hello\n\n\t\t# Return snapshot logs from container nginx-1 of a deployment named nginx\n\t\tkubectl logs deployment/nginx -c nginx-1\x00\n\t\t# Run a proxy to kubernetes apiserver on port 8011, serving static content from ./local/www/\n\t\tkubectl proxy --port=8011 --www=./local/www/\n\n\t\t# Run a proxy to kubernetes apiserver on an arbitrary local port.\n\t\t# The chosen port for the server will be output to stdout.\n\t\tkubectl proxy --port=0\n\n\t\t# Run a proxy to kubernetes apiserver, changing the api prefix to k8s-api\n\t\t# This makes e.g. the pods api available at localhost:8001/k8s-api/v1/pods/\n\t\tkubectl proxy --api-prefix=/k8s-api\x00\n\t\t# Scale a replicaset named 'foo' to 3.\n\t\tkubectl scale --replicas=3 rs/foo\n\n\t\t# Scale a resource identified by type and name specified in \"foo.yaml\" to 3.\n\t\tkubectl scale --replicas=3 -f foo.yaml\n\n\t\t# If the deployment named mysql's current size is 2, scale mysql to 3.\n\t\tkubectl scale --current-replicas=2 --replicas=3 deployment/mysql\n\n\t\t# Scale multiple replication controllers.\n\t\tkubectl scale --replicas=5 rc/foo rc/bar rc/baz\n\n\t\t# Scale job named 'cron' to 3.\n\t\tkubectl scale --replicas=3 job/cron\x00\n\t\t# Set the last-applied-configuration of a resource to match the contents of a file.\n\t\tkubectl apply set-last-applied -f deploy.yaml\n\n\t\t# Execute set-last-applied against each configuration file in a directory.\n\t\tkubectl apply set-last-applied -f path/\n\n\t\t# Set the last-applied-configuration of a resource to match the contents of a file, will create the annotation if it does not already exist.\n\t\tkubectl apply set-last-applied -f deploy.yaml --create-annotation=true\n\t\t\x00\n\t\t# Show metrics for all pods in the default namespace\n\t\tkubectl top pod\n\n\t\t# Show metrics for all pods in the given namespace\n\t\tkubectl top pod --namespace=NAMESPACE\n\n\t\t# Show metrics for a given pod and its containers\n\t\tkubectl top pod POD_NAME --containers\n\n\t\t# Show metrics for the pods defined by label name=myLabel\n\t\tkubectl top pod -l name=myLabel\x00\n\t\t# Shut down foo.\n\t\tkubectl stop replicationcontroller foo\n\n\t\t# Stop pods and services with label name=myLabel.\n\t\tkubectl stop pods,services -l name=myLabel\n\n\t\t# Shut down the service defined in service.json\n\t\tkubectl stop -f service.json\n\n\t\t# Shut down all resources in the path/to/resources directory\n\t\tkubectl stop -f path/to/resources\x00\n\t\t# Start a single instance of nginx.\n\t\tkubectl run nginx --image=nginx\n\n\t\t# Start a single instance of hazelcast and let the container expose port 5701 .\n\t\tkubectl run hazelcast --image=hazelcast --port=5701\n\n\t\t# Start a single instance of hazelcast and set environment variables \"DNS_DOMAIN=cluster\" and \"POD_NAMESPACE=default\" in the container.\n\t\tkubectl run hazelcast --image=hazelcast --env=\"DNS_DOMAIN=cluster\" --env=\"POD_NAMESPACE=default\"\n\n\t\t# Start a replicated instance of nginx.\n\t\tkubectl run nginx --image=nginx --replicas=5\n\n\t\t# Dry run. Print the corresponding API objects without creating them.\n\t\tkubectl run nginx --image=nginx --dry-run\n\n\t\t# Start a single instance of nginx, but overload the spec of the deployment with a partial set of values parsed from JSON.\n\t\tkubectl run nginx --image=nginx --overrides='{ \"apiVersion\": \"v1\", \"spec\": { ... } }'\n\n\t\t# Start a pod of busybox and keep it in the foreground, don't restart it if it exits.\n\t\tkubectl run -i -t busybox --image=busybox --restart=Never\n\n\t\t# Start the nginx container using the default command, but use custom arguments (arg1 .. argN) for that command.\n\t\tkubectl run nginx --image=nginx -- ... \n\n\t\t# Start the nginx container using a different command and custom arguments.\n\t\tkubectl run nginx --image=nginx --command -- ... \n\n\t\t# Start the perl container to compute \u03c0 to 2000 places and print it out.\n\t\tkubectl run pi --image=perl --restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'\n\n\t\t# Start the cron job to compute \u03c0 to 2000 places and print it out every 5 minutes.\n\t\tkubectl run pi --schedule=\"0/5 * * * ?\" --image=perl --restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'\x00\n\t\t# Update node 'foo' with a taint with key 'dedicated' and value 'special-user' and effect 'NoSchedule'.\n\t\t# If a taint with that key and effect already exists, its value is replaced as specified.\n\t\tkubectl taint nodes foo dedicated=special-user:NoSchedule\n\n\t\t# Remove from node 'foo' the taint with key 'dedicated' and effect 'NoSchedule' if one exists.\n\t\tkubectl taint nodes foo dedicated:NoSchedule-\n\n\t\t# Remove from node 'foo' all the taints with key 'dedicated'\n\t\tkubectl taint nodes foo dedicated-\x00\n\t\t# Update pod 'foo' with the label 'unhealthy' and the value 'true'.\n\t\tkubectl label pods foo unhealthy=true\n\n\t\t# Update pod 'foo' with the label 'status' and the value 'unhealthy', overwriting any existing value.\n\t\tkubectl label --overwrite pods foo status=unhealthy\n\n\t\t# Update all pods in the namespace\n\t\tkubectl label pods --all status=unhealthy\n\n\t\t# Update a pod identified by the type and name in \"pod.json\"\n\t\tkubectl label -f pod.json status=unhealthy\n\n\t\t# Update pod 'foo' only if the resource is unchanged from version 1.\n\t\tkubectl label pods foo status=unhealthy --resource-version=1\n\n\t\t# Update pod 'foo' by removing a label named 'bar' if it exists.\n\t\t# Does not require the --overwrite flag.\n\t\tkubectl label pods foo bar-\x00\n\t\t# Update pods of frontend-v1 using new replication controller data in frontend-v2.json.\n\t\tkubectl rolling-update frontend-v1 -f frontend-v2.json\n\n\t\t# Update pods of frontend-v1 using JSON data passed into stdin.\n\t\tcat frontend-v2.json | kubectl rolling-update frontend-v1 -f -\n\n\t\t# Update the pods of frontend-v1 to frontend-v2 by just changing the image, and switching the\n\t\t# name of the replication controller.\n\t\tkubectl rolling-update frontend-v1 frontend-v2 --image=image:v2\n\n\t\t# Update the pods of frontend by just changing the image, and keeping the old name.\n\t\tkubectl rolling-update frontend --image=image:v2\n\n\t\t# Abort and reverse an existing rollout in progress (from frontend-v1 to frontend-v2).\n\t\tkubectl rolling-update frontend-v1 frontend-v2 --rollback\x00\n\t\t# View the last-applied-configuration annotations by type/name in YAML.\n\t\tkubectl apply view-last-applied deployment/nginx\n\n\t\t# View the last-applied-configuration annotations by file in JSON\n\t\tkubectl apply view-last-applied -f deploy.yaml -o json\x00\n\t\tApply a configuration to a resource by filename or stdin.\n\t\tThis resource will be created if it doesn't exist yet.\n\t\tTo use 'apply', always create the resource initially with either 'apply' or 'create --save-config'.\n\n\t\tJSON and YAML formats are accepted.\n\n\t\tAlpha Disclaimer: the --prune functionality is not yet complete. Do not use unless you are aware of what the current state is. See https://issues.k8s.io/34274.\x00\n\t\tConvert config files between different API versions. Both YAML\n\t\tand JSON formats are accepted.\n\n\t\tThe command takes filename, directory, or URL as input, and convert it into format\n\t\tof version specified by --output-version flag. If target version is not specified or\n\t\tnot supported, convert to latest version.\n\n\t\tThe default output will be printed to stdout in YAML format. One can use -o option\n\t\tto change to output destination.\x00\n\t\tCreate a ClusterRole.\x00\n\t\tCreate a ClusterRoleBinding for a particular ClusterRole.\x00\n\t\tCreate a RoleBinding for a particular Role or ClusterRole.\x00\n\t\tCreate a TLS secret from the given public/private key pair.\n\n\t\tThe public/private key pair must exist before hand. The public key certificate must be .PEM encoded and match the given private key.\x00\n\t\tCreate a configmap based on a file, directory, or specified literal value.\n\n\t\tA single configmap may package one or more key/value pairs.\n\n\t\tWhen creating a configmap based on a file, the key will default to the basename of the file, and the value will\n\t\tdefault to the file content. If the basename is an invalid key, you may specify an alternate key.\n\n\t\tWhen creating a configmap based on a directory, each file whose basename is a valid key in the directory will be\n\t\tpackaged into the configmap. Any directory entries except regular files are ignored (e.g. subdirectories,\n\t\tsymlinks, devices, pipes, etc).\x00\n\t\tCreate a namespace with the specified name.\x00\n\t\tCreate a new secret for use with Docker registries.\n\n\t\tDockercfg secrets are used to authenticate against Docker registries.\n\n\t\tWhen using the Docker command line to push images, you can authenticate to a given registry by running\n\n\t\t $ docker login DOCKER_REGISTRY_SERVER --username=DOCKER_USER --password=DOCKER_PASSWORD --email=DOCKER_EMAIL'.\n\n That produces a ~/.dockercfg file that is used by subsequent 'docker push' and 'docker pull' commands to\n\t\tauthenticate to the registry. The email address is optional.\n\n\t\tWhen creating applications, you may have a Docker registry that requires authentication. In order for the\n\t\tnodes to pull images on your behalf, they have to have the credentials. You can provide this information\n\t\tby creating a dockercfg secret and attaching it to your service account.\x00\n\t\tCreate a pod disruption budget with the specified name, selector, and desired minimum available pods\x00\n\t\tCreate a resource by filename or stdin.\n\n\t\tJSON and YAML formats are accepted.\x00\n\t\tCreate a resourcequota with the specified name, hard limits and optional scopes\x00\n\t\tCreate a role with single rule.\x00\n\t\tCreate a secret based on a file, directory, or specified literal value.\n\n\t\tA single secret may package one or more key/value pairs.\n\n\t\tWhen creating a secret based on a file, the key will default to the basename of the file, and the value will\n\t\tdefault to the file content. If the basename is an invalid key, you may specify an alternate key.\n\n\t\tWhen creating a secret based on a directory, each file whose basename is a valid key in the directory will be\n\t\tpackaged into the secret. Any directory entries except regular files are ignored (e.g. subdirectories,\n\t\tsymlinks, devices, pipes, etc).\x00\n\t\tCreate a service account with the specified name.\x00\n\t\tCreate and run a particular image, possibly replicated.\n\n\t\tCreates a deployment or job to manage the created container(s).\x00\n\t\tCreates an autoscaler that automatically chooses and sets the number of pods that run in a kubernetes cluster.\n\n\t\tLooks up a Deployment, ReplicaSet, or ReplicationController by name and creates an autoscaler that uses the given resource as a reference.\n\t\tAn autoscaler can automatically increase or decrease number of pods deployed within the system as needed.\x00\n\t\tDelete resources by filenames, stdin, resources and names, or by resources and label selector.\n\n\t\tJSON and YAML formats are accepted. Only one type of the arguments may be specified: filenames,\n\t\tresources and names, or resources and label selector.\n\n\t\tSome resources, such as pods, support graceful deletion. These resources define a default period\n\t\tbefore they are forcibly terminated (the grace period) but you may override that value with\n\t\tthe --grace-period flag, or pass --now to set a grace-period of 1. Because these resources often\n\t\trepresent entities in the cluster, deletion may not be acknowledged immediately. If the node\n\t\thosting a pod is down or cannot reach the API server, termination may take significantly longer\n\t\tthan the grace period. To force delete a resource,\tyou must pass a grace\tperiod of 0 and specify\n\t\tthe --force flag.\n\n\t\tIMPORTANT: Force deleting pods does not wait for confirmation that the pod's processes have been\n\t\tterminated, which can leave those processes running until the node detects the deletion and\n\t\tcompletes graceful deletion. If your processes use shared storage or talk to a remote API and\n\t\tdepend on the name of the pod to identify themselves, force deleting those pods may result in\n\t\tmultiple processes running on different machines using the same identification which may lead\n\t\tto data corruption or inconsistency. Only force delete pods when you are sure the pod is\n\t\tterminated, or if your application can tolerate multiple copies of the same pod running at once.\n\t\tAlso, if you force delete pods the scheduler may place new pods on those nodes before the node\n\t\thas released those resources and causing those pods to be evicted immediately.\n\n\t\tNote that the delete command does NOT do resource version checks, so if someone\n\t\tsubmits an update to a resource right when you submit a delete, their update\n\t\twill be lost along with the rest of the resource.\x00\n\t\tDeprecated: Gracefully shut down a resource by name or filename.\n\n\t\tThe stop command is deprecated, all its functionalities are covered by delete command.\n\t\tSee 'kubectl delete --help' for more details.\n\n\t\tAttempts to shut down and delete a resource that supports graceful termination.\n\t\tIf the resource is scalable it will be scaled to 0 before deletion.\x00\n\t\tDisplay Resource (CPU/Memory/Storage) usage of nodes.\n\n\t\tThe top-node command allows you to see the resource consumption of nodes.\x00\n\t\tDisplay Resource (CPU/Memory/Storage) usage of pods.\n\n\t\tThe 'top pod' command allows you to see the resource consumption of pods.\n\n\t\tDue to the metrics pipeline delay, they may be unavailable for a few minutes\n\t\tsince pod creation.\x00\n\t\tDisplay Resource (CPU/Memory/Storage) usage.\n\n\t\tThe top command allows you to see the resource consumption for nodes or pods.\n\n\t\tThis command requires Heapster to be correctly configured and working on the server. \x00\n\t\tDrain node in preparation for maintenance.\n\n\t\tThe given node will be marked unschedulable to prevent new pods from arriving.\n\t\t'drain' evicts the pods if the APIServer supports eviction\n\t\t(http://kubernetes.io/docs/admin/disruptions/). Otherwise, it will use normal DELETE\n\t\tto delete the pods.\n\t\tThe 'drain' evicts or deletes all pods except mirror pods (which cannot be deleted through\n\t\tthe API server). If there are DaemonSet-managed pods, drain will not proceed\n\t\twithout --ignore-daemonsets, and regardless it will not delete any\n\t\tDaemonSet-managed pods, because those pods would be immediately replaced by the\n\t\tDaemonSet controller, which ignores unschedulable markings. If there are any\n\t\tpods that are neither mirror pods nor managed by ReplicationController,\n\t\tReplicaSet, DaemonSet, StatefulSet or Job, then drain will not delete any pods unless you\n\t\tuse --force. --force will also allow deletion to proceed if the managing resource of one\n\t\tor more pods is missing.\n\n\t\t'drain' waits for graceful termination. You should not operate on the machine until\n\t\tthe command completes.\n\n\t\tWhen you are ready to put the node back into service, use kubectl uncordon, which\n\t\twill make the node schedulable again.\n\n\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_drain.svg)\x00\n\t\tEdit a resource from the default editor.\n\n\t\tThe edit command allows you to directly edit any API resource you can retrieve via the\n\t\tcommand line tools. It will open the editor defined by your KUBE_EDITOR, or EDITOR\n\t\tenvironment variables, or fall back to 'vi' for Linux or 'notepad' for Windows.\n\t\tYou can edit multiple objects, although changes are applied one at a time. The command\n\t\taccepts filenames as well as command line arguments, although the files you point to must\n\t\tbe previously saved versions of resources.\n\n\t\tEditing is done with the API version used to fetch the resource.\n\t\tTo edit using a specific API version, fully-qualify the resource, version, and group.\n\n\t\tThe default format is YAML. To edit in JSON, specify \"-o json\".\n\n\t\tThe flag --windows-line-endings can be used to force Windows line endings,\n\t\totherwise the default for your operating system will be used.\n\n\t\tIn the event an error occurs while updating, a temporary file will be created on disk\n\t\tthat contains your unapplied changes. The most common error when updating a resource\n\t\tis another editor changing the resource on the server. When this occurs, you will have\n\t\tto apply your changes to the newer version of the resource, or update your temporary\n\t\tsaved copy to include the latest resource version.\x00\n\t\tMark node as schedulable.\x00\n\t\tMark node as unschedulable.\x00\n\t\tOutput shell completion code for the specified shell (bash or zsh).\n\t\tThe shell code must be evaluated to provide interactive\n\t\tcompletion of kubectl commands. This can be done by sourcing it from\n\t\tthe .bash_profile.\n\n\t\tNote: this requires the bash-completion framework, which is not installed\n\t\tby default on Mac. This can be installed by using homebrew:\n\n\t\t $ brew install bash-completion\n\n\t\tOnce installed, bash_completion must be evaluated. This can be done by adding the\n\t\tfollowing line to the .bash_profile\n\n\t\t $ source $(brew --prefix)/etc/bash_completion\n\n\t\tNote for zsh users: [1] zsh completions are only supported in versions of zsh >= 5.2\x00\n\t\tPerform a rolling update of the given ReplicationController.\n\n\t\tReplaces the specified replication controller with a new replication controller by updating one pod at a time to use the\n\t\tnew PodTemplate. The new-controller.json must specify the same namespace as the\n\t\texisting replication controller and overwrite at least one (common) label in its replicaSelector.\n\n\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_rollingupdate.svg)\x00\n\t\tReplace a resource by filename or stdin.\n\n\t\tJSON and YAML formats are accepted. If replacing an existing resource, the\n\t\tcomplete resource spec must be provided. This can be obtained by\n\n\t\t $ kubectl get TYPE NAME -o yaml\n\n\t\tPlease refer to the models in https://htmlpreview.github.io/?https://github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions.html to find if a field is mutable.\x00\n\t\tSet a new size for a Deployment, ReplicaSet, Replication Controller, or Job.\n\n\t\tScale also allows users to specify one or more preconditions for the scale action.\n\n\t\tIf --current-replicas or --resource-version is specified, it is validated before the\n\t\tscale is attempted, and it is guaranteed that the precondition holds true when the\n\t\tscale is sent to the server.\x00\n\t\tSet the latest last-applied-configuration annotations by setting it to match the contents of a file.\n\t\tThis results in the last-applied-configuration being updated as though 'kubectl apply -f ' was run,\n\t\twithout updating any other parts of the object.\x00\n\t\tTo proxy all of the kubernetes api and nothing else, use:\n\n\t\t $ kubectl proxy --api-prefix=/\n\n\t\tTo proxy only part of the kubernetes api and also some static files:\n\n\t\t $ kubectl proxy --www=/my/files --www-prefix=/static/ --api-prefix=/api/\n\n\t\tThe above lets you 'curl localhost:8001/api/v1/pods'.\n\n\t\tTo proxy the entire kubernetes api at a different root, use:\n\n\t\t $ kubectl proxy --api-prefix=/custom/\n\n\t\tThe above lets you 'curl localhost:8001/custom/api/v1/pods'\x00\n\t\tUpdate field(s) of a resource using strategic merge patch\n\n\t\tJSON and YAML formats are accepted.\n\n\t\tPlease refer to the models in https://htmlpreview.github.io/?https://github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions.html to find if a field is mutable.\x00\n\t\tUpdate the labels on a resource.\n\n\t\t* A label must begin with a letter or number, and may contain letters, numbers, hyphens, dots, and underscores, up to %[1]d characters.\n\t\t* If --overwrite is true, then existing labels can be overwritten, otherwise attempting to overwrite a label will result in an error.\n\t\t* If --resource-version is specified, then updates will use this resource version, otherwise the existing resource-version will be used.\x00\n\t\tUpdate the taints on one or more nodes.\n\n\t\t* A taint consists of a key, value, and effect. As an argument here, it is expressed as key=value:effect.\n\t\t* The key must begin with a letter or number, and may contain letters, numbers, hyphens, dots, and underscores, up to %[1]d characters.\n\t\t* The value must begin with a letter or number, and may contain letters, numbers, hyphens, dots, and underscores, up to %[2]d characters.\n\t\t* The effect must be NoSchedule, PreferNoSchedule or NoExecute.\n\t\t* Currently taint can only apply to node.\x00\n\t\tView the latest last-applied-configuration annotations by type/name or file.\n\n\t\tThe default output will be printed to stdout in YAML format. One can use -o option\n\t\tto change output format.\x00\n\t # !!!Important Note!!!\n\t # Requires that the 'tar' binary is present in your container\n\t # image. If 'tar' is not present, 'kubectl cp' will fail.\n\n\t # Copy /tmp/foo_dir local directory to /tmp/bar_dir in a remote pod in the default namespace\n\t\tkubectl cp /tmp/foo_dir :/tmp/bar_dir\n\n # Copy /tmp/foo local file to /tmp/bar in a remote pod in a specific container\n\t\tkubectl cp /tmp/foo :/tmp/bar -c \n\n\t\t# Copy /tmp/foo local file to /tmp/bar in a remote pod in namespace \n\t\tkubectl cp /tmp/foo /:/tmp/bar\n\n\t\t# Copy /tmp/foo from a remote pod to /tmp/bar locally\n\t\tkubectl cp /:/tmp/foo /tmp/bar\x00\n\t # Create a new TLS secret named tls-secret with the given key pair:\n\t kubectl create secret tls tls-secret --cert=path/to/tls.cert --key=path/to/tls.key\x00\n\t # Create a new namespace named my-namespace\n\t kubectl create namespace my-namespace\x00\n\t # Create a new secret named my-secret with keys for each file in folder bar\n\t kubectl create secret generic my-secret --from-file=path/to/bar\n\n\t # Create a new secret named my-secret with specified keys instead of names on disk\n\t kubectl create secret generic my-secret --from-file=ssh-privatekey=~/.ssh/id_rsa --from-file=ssh-publickey=~/.ssh/id_rsa.pub\n\n\t # Create a new secret named my-secret with key1=supersecret and key2=topsecret\n\t kubectl create secret generic my-secret --from-literal=key1=supersecret --from-literal=key2=topsecret\x00\n\t # Create a new service account named my-service-account\n\t kubectl create serviceaccount my-service-account\x00\n\t# Create a new ExternalName service named my-ns \n\tkubectl create service externalname my-ns --external-name bar.com\x00\n\tCreate an ExternalName service with the specified name.\n\n\tExternalName service references to an external DNS address instead of\n\tonly pods, which will allow application authors to reference services\n\tthat exist off platform, on other clusters, or locally.\x00\n\tHelp provides help for any command in the application.\n\tSimply type kubectl help [path to command] for full details.\x00\n # Create a new LoadBalancer service named my-lbs\n kubectl create service loadbalancer my-lbs --tcp=5678:8080\x00\n # Create a new clusterIP service named my-cs\n kubectl create service clusterip my-cs --tcp=5678:8080\n\n # Create a new clusterIP service named my-cs (in headless mode)\n kubectl create service clusterip my-cs --clusterip=\"None\"\x00\n # Create a new deployment named my-dep that runs the busybox image.\n kubectl create deployment my-dep --image=busybox\x00\n # Create a new nodeport service named my-ns\n kubectl create service nodeport my-ns --tcp=5678:8080\x00\n # Dump current cluster state to stdout\n kubectl cluster-info dump\n\n # Dump current cluster state to /path/to/cluster-state\n kubectl cluster-info dump --output-directory=/path/to/cluster-state\n\n # Dump all namespaces to stdout\n kubectl cluster-info dump --all-namespaces\n\n # Dump a set of namespaces to /path/to/cluster-state\n kubectl cluster-info dump --namespaces default,kube-system --output-directory=/path/to/cluster-state\x00\n # Update pod 'foo' with the annotation 'description' and the value 'my frontend'.\n # If the same annotation is set multiple times, only the last value will be applied\n kubectl annotate pods foo description='my frontend'\n\n # Update a pod identified by type and name in \"pod.json\"\n kubectl annotate -f pod.json description='my frontend'\n\n # Update pod 'foo' with the annotation 'description' and the value 'my frontend running nginx', overwriting any existing value.\n kubectl annotate --overwrite pods foo description='my frontend running nginx'\n\n # Update all pods in the namespace\n kubectl annotate pods --all description='my frontend running nginx'\n\n # Update pod 'foo' only if the resource is unchanged from version 1.\n kubectl annotate pods foo description='my frontend running nginx' --resource-version=1\n\n # Update pod 'foo' by removing an annotation named 'description' if it exists.\n # Does not require the --overwrite flag.\n kubectl annotate pods foo description-\x00\n Create a LoadBalancer service with the specified name.\x00\n Create a clusterIP service with the specified name.\x00\n Create a deployment with the specified name.\x00\n Create a nodeport service with the specified name.\x00\n Dumps cluster info out suitable for debugging and diagnosing cluster problems. By default, dumps everything to\n stdout. You can optionally specify a directory with --output-directory. If you specify a directory, kubernetes will\n build a set of files in that directory. By default only dumps things in the 'kube-system' namespace, but you can\n switch to a different namespace with the --namespaces flag, or specify --all-namespaces to dump all namespaces.\n\n The command also dumps the logs of all of the pods in the cluster, these logs are dumped into different directories\n based on namespace and pod name.\x00\n Display addresses of the master and services with label kubernetes.io/cluster-service=true\n To further debug and diagnose cluster problems, use 'kubectl cluster-info dump'.\x00A comma-delimited set of quota scopes that must all match each object tracked by the quota.\x00A comma-delimited set of resource=quantity pairs that define a hard limit.\x00A label selector to use for this budget. Only equality-based selector requirements are supported.\x00A label selector to use for this service. Only equality-based selector requirements are supported. If empty (the default) infer the selector from the replication controller or replica set.)\x00A schedule in the Cron format the job should be run with.\x00Additional external IP address (not managed by Kubernetes) to accept for the service. If this IP is routed to a node, the service can be accessed by this IP in addition to its generated service IP.\x00An inline JSON override for the generated object. If this is non-empty, it is used to override the generated object. Requires that the object supply a valid apiVersion field.\x00An inline JSON override for the generated service object. If this is non-empty, it is used to override the generated object. Requires that the object supply a valid apiVersion field. Only used if --expose is true.\x00Apply a configuration to a resource by filename or stdin\x00Approve a certificate signing request\x00Assign your own ClusterIP or set to 'None' for a 'headless' service (no loadbalancing).\x00Attach to a running container\x00Auto-scale a Deployment, ReplicaSet, or ReplicationController\x00ClusterIP to be assigned to the service. Leave empty to auto-allocate, or set to 'None' to create a headless service.\x00ClusterRole this ClusterRoleBinding should reference\x00ClusterRole this RoleBinding should reference\x00Container name which will have its image upgraded. Only relevant when --image is specified, ignored otherwise. Required when using --image on a multi-container pod\x00Convert config files between different API versions\x00Copy files and directories to and from containers.\x00Create a ClusterRoleBinding for a particular ClusterRole\x00Create a LoadBalancer service.\x00Create a NodePort service.\x00Create a RoleBinding for a particular Role or ClusterRole\x00Create a TLS secret\x00Create a clusterIP service.\x00Create a configmap from a local file, directory or literal value\x00Create a deployment with the specified name.\x00Create a namespace with the specified name\x00Create a pod disruption budget with the specified name.\x00Create a quota with the specified name.\x00Create a resource by filename or stdin\x00Create a secret for use with a Docker registry\x00Create a secret from a local file, directory or literal value\x00Create a secret using specified subcommand\x00Create a service account with the specified name\x00Create a service using specified subcommand.\x00Create an ExternalName service.\x00Delete resources by filenames, stdin, resources and names, or by resources and label selector\x00Delete the specified cluster from the kubeconfig\x00Delete the specified context from the kubeconfig\x00Deny a certificate signing request\x00Deprecated: Gracefully shut down a resource by name or filename\x00Describe one or many contexts\x00Display Resource (CPU/Memory) usage of nodes\x00Display Resource (CPU/Memory) usage of pods\x00Display Resource (CPU/Memory) usage.\x00Display cluster info\x00Display clusters defined in the kubeconfig\x00Display merged kubeconfig settings or a specified kubeconfig file\x00Display one or many resources\x00Displays the current-context\x00Documentation of resources\x00Drain node in preparation for maintenance\x00Dump lots of relevant info for debugging and diagnosis\x00Edit a resource on the server\x00Email for Docker registry\x00Execute a command in a container\x00Explicit policy for when to pull container images. Required when --image is same as existing image, ignored otherwise.\x00Forward one or more local ports to a pod\x00Help about any command\x00IP to assign to the Load Balancer. If empty, an ephemeral IP will be created and used (cloud-provider specific).\x00If non-empty, set the session affinity for the service to this; legal values: 'None', 'ClientIP'\x00If non-empty, the annotation update will only succeed if this is the current resource-version for the object. Only valid when specifying a single resource.\x00If non-empty, the labels update will only succeed if this is the current resource-version for the object. Only valid when specifying a single resource.\x00Image to use for upgrading the replication controller. Must be distinct from the existing image (either new image or new image tag). Can not be used with --filename/-f\x00Manage a deployment rollout\x00Mark node as schedulable\x00Mark node as unschedulable\x00Mark the provided resource as paused\x00Modify certificate resources.\x00Modify kubeconfig files\x00Name or number for the port on the container that the service should direct traffic to. Optional.\x00Only return logs after a specific date (RFC3339). Defaults to all logs. Only one of since-time / since may be used.\x00Output shell completion code for the specified shell (bash or zsh)\x00Output the formatted object with the given group version (for ex: 'extensions/v1beta1').)\x00Password for Docker registry authentication\x00Path to PEM encoded public key certificate.\x00Path to private key associated with given certificate.\x00Perform a rolling update of the given ReplicationController\x00Precondition for resource version. Requires that the current resource version match this value in order to scale.\x00Print the client and server version information\x00Print the list of flags inherited by all commands\x00Print the logs for a container in a pod\x00Replace a resource by filename or stdin\x00Resume a paused resource\x00Role this RoleBinding should reference\x00Run a particular image on the cluster\x00Run a proxy to the Kubernetes API server\x00Server location for Docker registry\x00Set a new size for a Deployment, ReplicaSet, Replication Controller, or Job\x00Set specific features on objects\x00Set the last-applied-configuration annotation on a live object to match the contents of a file.\x00Set the selector on a resource\x00Sets a cluster entry in kubeconfig\x00Sets a context entry in kubeconfig\x00Sets a user entry in kubeconfig\x00Sets an individual value in a kubeconfig file\x00Sets the current-context in a kubeconfig file\x00Show details of a specific resource or group of resources\x00Show the status of the rollout\x00Synonym for --target-port\x00Take a replication controller, service, deployment or pod and expose it as a new Kubernetes Service\x00The image for the container to run.\x00The image pull policy for the container. If left empty, this value will not be specified by the client and defaulted by the server\x00The key to use to differentiate between two different controllers, default 'deployment'. Only relevant when --image is specified, ignored otherwise\x00The minimum number or percentage of available pods this budget requires.\x00The name for the newly created object.\x00The name for the newly created object. If not specified, the name of the input resource will be used.\x00The name of the API generator to use, see http://kubernetes.io/docs/user-guide/kubectl-conventions/#generators for a list.\x00The name of the API generator to use. Currently there is only 1 generator.\x00The name of the API generator to use. There are 2 generators: 'service/v1' and 'service/v2'. The only difference between them is that service port in v1 is named 'default', while it is left unnamed in v2. Default is 'service/v2'.\x00The name of the generator to use for creating a service. Only used if --expose is true\x00The network protocol for the service to be created. Default is 'TCP'.\x00The port that the service should serve on. Copied from the resource being exposed, if unspecified\x00The port that this container exposes. If --expose is true, this is also the port used by the service that is created.\x00The resource requirement limits for this container. For example, 'cpu=200m,memory=512Mi'. Note that server side components may assign limits depending on the server configuration, such as limit ranges.\x00The resource requirement requests for this container. For example, 'cpu=100m,memory=256Mi'. Note that server side components may assign requests depending on the server configuration, such as limit ranges.\x00The restart policy for this Pod. Legal values [Always, OnFailure, Never]. If set to 'Always' a deployment is created, if set to 'OnFailure' a job is created, if set to 'Never', a regular pod is created. For the latter two --replicas must be 1. Default 'Always', for CronJobs `Never`.\x00The type of secret to create\x00Type for this service: ClusterIP, NodePort, or LoadBalancer. Default is 'ClusterIP'.\x00Undo a previous rollout\x00Unsets an individual value in a kubeconfig file\x00Update field(s) of a resource using strategic merge patch\x00Update image of a pod template\x00Update resource requests/limits on objects with pod templates\x00Update the annotations on a resource\x00Update the labels on a resource\x00Update the taints on one or more nodes\x00Username for Docker registry authentication\x00View latest last-applied-configuration annotations of a resource/object\x00View rollout history\x00Where to output the files. If empty or '-' uses stdout, otherwise creates a directory hierarchy in that directory\x00dummy restart flag)\x00external name of service\x00kubectl controls the Kubernetes cluster manager\x00Project-Id-Version: \nReport-Msgid-Bugs-To: EMAIL\nPO-Revision-Date: 2020-12-11 17:03+0100\nLanguage-Team: \nMIME-Version: 1.0\nContent-Type: text/plain; charset=UTF-8\nContent-Transfer-Encoding: 8bit\nX-Generator: Poedit 2.4.2\nLast-Translator: Carlos Panato \nPlural-Forms: nplurals=2; plural=(n > 1);\nLanguage: pt_BR\nX-Poedit-KeywordsList: \n\x00\n\t\t # Criar o ClusterRoleBinding para user1, user2, e group1 utilizando o ClusterRole cluster-admin\n\t\t kubectl create clusterrolebinding cluster-admin --clusterrole=cluster-admin \u2014user=user1 \u2014user=user2 \u2014group=group1\x00\n\t\t # Criar uma RoleBinding para user1, user2, e group1 utilizando o admin ClusterRole\n\t\t kubectl create rolebinding admin --clusterrole=admin \u2014user=user1 \u2014user=user2 \u2014group=group1\x00\n\t\t # Criar um novo configmap com o nome de my-config baseado na pasta bar\n\t\t kubectl create configmap my-config \u2014from-file=path/to/bar\n\n\t\t # Cria um novo configmap com o nome my-config, onde cada chave possui o valor especificado em um arquivo distinto no disco\n\t\t kubectl create configmap my-config \u2014from-file=key1=/path/to/bar/file1.txt \u2014from-file=key2=/path/to/bar/file2.txt\n\n\t\t # Criar um novo configmap com o nome de my-config com key1=config1 e key2=config2\n\t\t kubectl create configmap my-config \u2014from-literal=key1=config1 \u2014from-literal=key2=config2\x00\n\t\t # Se voc\u00ea ainda n\u00e3o tem o arquivo .dockercfg, voc\u00ea pode gerar diretamente o dockercfg secret utilizando o comando:\n\t\t kubectl create secret docker-registry my-secret \u2014docker-server=DOCKER_REGISTRY_SERVER \u2014docker-username=DOCKER_USER \u2014docker-password=DOCKER_PASSWORD \u2014docker-email=DOCKER_EMAIL\x00\n\t\t # Mostra as m\u00e9tricas para todos os nodes\n\t\t kubectl top node\n\n\t\t # Mostra as m\u00e9tricas para um node espec\u00edfico\n\t\t kubectl top node NODE_NAME\x00\n\t\t# Aplica a configura\u00e7\u00e3o do arquivo pod.json a um pod.\n\t\tkubectl apply -f ./pod.json\n\n\t\t# Aplica o JSON recebido via stdin para um pod.\n\t\tcat pod.json | kubectl apply -f -\n\n\t\t# Nota: \u2014prune ainda est\u00e1 em Alpha\n\t\t# Aplica a configura\u00e7\u00e3o do manifest.yaml que conter o label app=nginx e remove todos os outros recursos que n\u00e3o estejam no arquivo e n\u00e3o contenham o label.\n\t\tkubectl apply \u2014prune -f manifest.yaml -l app=nginx\n\n\t\t# Aplica a configura\u00e7\u00e3o do manifest.yaml e remove todos os outros configmaps que n\u00e3o est\u00e3o no arquivo.\n\t\tkubectl apply \u2014prune -f manifest.yaml \u2014all \u2014prune-whitelist=core/v1/ConfigMap\x00\n\t\t# Escala automaticamente um deployment \"foo\", com o n\u00famero de pods entre 2 e 10, sem especificar a utiliza\u00e7\u00e3o da CPU o padr\u00e3o da pol\u00edtica de autoscaling ser\u00e1 utilizado:\n\t\tkubectl autoscale deployment foo \u2014min=2 \u2014max=10\n\n\t\t# Escala automaticamente um replication controller \"foo\", com o n\u00famero de pods entre 1 and 5, e definindo a utiliza\u00e7\u00e3o da CPU em 80%:\n\t\tkubectl autoscale rc foo \u2014max=5 \u2014cpu-percent=80\x00\n\t\t# converte o arquivo 'pod.yaml' para a vers\u00e3o mais atual e imprime a sa\u00edda para o stdout.\n\t\tkubectl convert -f pod.yaml\n\n\t\t# Converte o estado atual do recurso especificado pelo 'pod.yaml' para a vers\u00e3o mais atual\n\t\t# e imprime a sa\u00edda para o stdout no formato json.\n\t\tkubectl convert -f pod.yaml \u2014local -o json\n\n\t\t# Converte todos os arquivos dentro do diret\u00f3rio atual para a vers\u00e3o mais recente e cria todos.\n\t\tkubectl convert -f . | kubectl create -f -\x00\n\t\t# Cria um ClusterRole com o nome de \"pod-reader\" que permite o usu\u00e1rio realizar \"get\", \"watch\" e \"list\" em pods\n\t\tkubectl create clusterrole pod-reader \u2014verb=get,list,watch \u2014resource=pods\n\n\t\t# Cria a ClusterRole com o nome de \"pod-reader\" com um ResourceName especificado\n\t\tkubectl create clusterrole pod-reader \u2014verb=get,list,watch \u2014resource=pods \u2014resource-name=readablepod\x00\n\t\t# Cria uma Role com o nome de \"pod-reader\" que permite o usu\u00e1rio realizar \"get\", \"watch\" e \"list\" em pods\n\t\tkubectl create role pod-reader \u2014verb=get \u2014verb=list \u2014verb=watch \u2014resource=pods\n\n\t\t# Cria uma Role com o nome de \"pod-reader\" com um ResourceName especificado\n\t\tkubectl create role pod-reader \u2014verb=get \u2014verg=list \u2014verb=watch \u2014resource=pods \u2014resource-name=readablepod\x00\n\t\t# Cria um novo resourcequota com o nome de my-quota\n\t\tkubectl create quota my-quota \u2014hard=cpu=1,memory=1G,pods=2,services=3,replicationcontrollers=2,resourcequotas=1,secrets=5,persistentvolumeclaims=10\n\n\t\t# Cria um novo resourcequota com o nome de best-effort\n\t\tkubectl create quota best-effort \u2014hard=pods=100 \u2014scopes=BestEffort\x00\n\t\t# Cria um pod disruption budget com o nome de my-pdb que ir\u00e1 selecionar todos os pods com o label app=rails\n\t\t# e requer que pelo menos um deles esteja dispon\u00edvel a qualquer momento.\n\t\tkubectl create poddisruptionbudget my-pdb \u2014selector=app=rails \u2014min-available=1\n\n\t\t# Cria um pod disruption budget com o nome de my-pdb que ir\u00e1 selecionar todos os pods com o label app=nginx\n\t\t# e requer pelo menos que metade dos pods selecionados estejam dispon\u00edveis em qualquer momento.\n\t\tkubectl create pdb my-pdb \u2014selector=app=nginx \u2014min-available=50%\x00\n\t\t# Cria um pod utilizando o arquivo pod.json.\n\t\tkubectl create -f ./pod.json\n\n\t\t# Cria um pod utilizando o JSON recebido via stdin.\n\t\tcat pod.json | kubectl create -f -\n\n\t\t# Edita o conte\u00fado do arquivo docker-registry.yaml em JSON utilizando o formato da API v1, criando o recurso com o conte\u00fado editado.\n\t\tkubectl create -f docker-registry.yaml \u2014edit \u2014output-version=v1 -o json\x00\n\t\t# Cria um servi\u00e7o para um nginx replicado, que escuta na porta 80 e conecta na porta 8000 dos containers.\n\\t\tkubectl expose rc nginx \u2014port=80 \u2014target-port=8000\n\n\t\t# Cria um servi\u00e7o para um replication controller identificado por tipo e com o nome especificado em \"nginx-controller.yaml\", que escuta na porta 80 e conecta na porta 8000 dos containers.\n\t\tkubectl expose -f nginx-controller.yaml \u2014port=80 \u2014target-port=8000\n\n\t\t# Cria um servi\u00e7o para um pod valid-pod, que escuta na porta 444 com o nome \"frontend\"\n\t\tkubectl expose pod valid-pod \u2014port=444 \u2014name=frontend\n\n\t\t# Cria um segundo servi\u00e7o baseado no servi\u00e7o acima, expondo a porta 8443 do container como porta 443 e com nome \"nginx-https\"\n\t\tkubectl expose service nginx \u2014port=443 \u2014target-port=8443 \u2014name=nginx-https\n\n\t\t# Cria um servi\u00e7o para uma aplica\u00e7\u00e3o streaming replicada na porta 4100 com trafico balanceado UDP e nome 'video-stream'.\n\t\tkubectl expose rc streamer \u2014port=4100 \u2014protocol=udp \u2014name=video-stream\n\n\t\t# Cria um servi\u00e7o para um nginx replicado usando o replica set, que escuta na porta 80 e conecta na porta 8000 dos containers.\n\t\tkubectl expose rs nginx \u2014port=80 \u2014target-port=8000\n\n\t\t# Cria um servi\u00e7o para um deployment nginx, que escuta na porta 80 e conecta na porta 8000 dos containers.\n\t\tkubectl expose deployment nginx \u2014port=80 \u2014target-port=8000\x00\n\t\t# Remove um pod usando o tipo e nome especificado no arquivo pod.json.\n\t\tkubectl delete -f ./pod.json\n\n\t\t# Remove um pod baseado no tipo e nome no JSON passado na entrada de comando(stdin).\n\t\tcat pod.json | kubectl delete -f -\n\n\t\t# Remove pods e servi\u00e7os com os nomes \"baz\" e \"foo\"\n\t\tkubectl delete pod,service baz foo\n\n\t\t# Remove pods e servi\u00e7os com label name=myLabel.\n\t\tkubectl delete pods,services -l name=myLabel\n\n\t\t# Remove um pod com um m\u00ednimo de delay\n\t\tkubectl delete pod foo \u2014now\n\n\t\t# For\u00e7a a remo\u00e7\u00e3o de um pod em um node morto\n\t\tkubectl delete pod foo \u2014grace-period=0 \u2014force\n\n\t\t# Remove todos os pods\n\t\tkubectl delete pods \u2014all\x00\n\t\t# Descreve um node\n\t\tkubectl describe nodes kubernetes-node-emt8.c.myproject.internal\n\n\t\t# Descreve um pod\n\t\tkubectl describe pods/nginx\n\n\t\t# Descreve um pod identificado pelo tipo e nome no arquivo \"pod.json\"\n\t\tkubectl describe -f pod.json\n\n\t\t# Descreve todos os pods\n\t\tkubectl describe pods\n\n\t\t# Descreve os pods com label name=myLabel\n\t\tkubectl describe po -l name=myLabel\n\n\t\t# Descreve todos os pods gerenciados pelo replication controller 'frontend' (rc-created pods\n\t\t# tem o nome de rc como prefixo no nome do pod).\n\t\tkubectl describe pods frontend\x00\n\t\t# Drena o node \"foo\", mesmo se os pods n\u00e3o s\u00e3o gerenciados por um ReplicationController, ReplicaSet, Job, DaemonSet ou StatefulSet.\n\t\t$ kubectl drain foo \u2014force\n\n\t\t# Mesmo que acima, mas \u00e9 interrompido se os pods n\u00e3o s\u00e3o gerenciados por um ReplicationController, ReplicaSet, Job, DaemonSet ou StatefulSet, e tem espera por 15 minutos.\n\t\t$ kubectl drain foo \u2014grace-period=900\x00\n\t\t# Edita o servi\u00e7o chamado 'docker-registry':\n\t\tkubectl edit svc/docker-registry\n\n\t\t# Usa um editor alternativo\n\t\tKUBE_EDITOR=\"nano\" kubectl edit svc/docker-registry\n\n\t\t# Edita o Job 'myjob' em JSON utilizando o format da API v1:\n\t\tkubectl edit job.v1.batch/myjob -o json\n\n\t\t# Edita o deployment 'mydeployment' em YAML e salva a configura\u00e7\u00e3o modificada em sua annotation:\n\t\tkubectl edit deployment/mydeployment -o yaml \u2014save-config\x00\n\t\t# Pega a sa\u00edda de execu\u00e7\u00e3o do comando 'date' do pod 123456-7890, usando o primeiro container por padr\u00e3o\n\t\tkubectl exec 123456-7890 date\n\n\t\t# Pega a sa\u00edda de execu\u00e7\u00e3o do comando 'date' no ruby-container do pod 123456-7890\n\t\tkubectl exec 123456-7890 -c ruby-container date\n\n\t\t# Troca para raw terminal mode, envia stdin para o 'bash' no ruby-container do pod 123456-7890\n\t\t# e envia stdout/stderr do 'bash' de volta para o cliente\n\t\tkubectl exec 123456-7890 -c ruby-container -i -t \u2014 bash -il\x00\n\t\t# Pega a sa\u00edda do pod em execu\u00e7\u00e3o 123456-7890, utilizando o primeiro container por padr\u00e3o\n\t\tkubectl attach 123456-7890\n\n\t\t# Pega a sa\u00edda do ruby-container do pod 123456-7890\n\t\tkubectl attach 123456-7890 -c ruby-container\n\n\t\t# Troca para raw terminal mode, envia stdin para o 'bash' no ruby-container do pod 123456-7890\n\t\t# e envia stdout/stderr do 'bash' de volta para o cliente\n\t\tkubectl attach 123456-7890 -c ruby-container -i -t\n\n\t\t# Pega a sa\u00edda do primeiro pod de um ReplicaSet chamado nginx\n\t\tkubectl attach rs/nginx\n\t\t\x00\n\t\t# Mostra a documenta\u00e7\u00e3o do recurso e seus campos\n\t\tkubectl explain pods\n\n\t\t# Mostra a documenta\u00e7\u00e3o de um campo espec\u00edfico de um recurso\n\t\tkubectl explain pods.spec.containers\x00\n\t\t# Instala o auto completar do bash no Mac utilizando homebrew\n\t\tbrew install bash-completion\n\t\tprintf \"\n# Bash completion support\nsource $(brew \u2014prefix)/etc/bash_completion\n\" >> $HOME/.bash_profile\n\t\tsource $HOME/.bash_profile\n\n\t\t# Carrega o c\u00f3digo de auto complentar do kubectl para o bash no shell corrente\n\t\tsource <(kubectl completion bash)\n\n\t\t# Escreve o c\u00f3digo de autocompletar do bash no arquivo de perfil e faz o source se \u00e9 para o .bash_profile\n\t\tkubectl completion bash > ~/.kube/completion.bash.inc\n\t\tprintf \"\n# Kubectl shell completion\nsource '$HOME/.kube/completion.bash.inc'\n\" >> $HOME/.bash_profile\n\t\tsource $HOME/.bash_profile\n\n\t\t# Carrega o c\u00f3digo de auto complentar do kubectl para zsh[1] no shell em utiliza\u00e7\u00e3o\n\t\tsource <(kubectl completion zsh)\x00\n\t\t# Lista todos os pods no formato de sa\u00edda ps.\n\t\tkubectl get pods\n\n\t\t# Lista todos os pods no formato de sa\u00edda ps com mais informa\u00e7\u00f5es (como o nome do node).\n\t\tkubectl get pods -o wide\n\n\t\t# Lista um \u00fanico replication controller com o nome especificado no formato de sa\u00edda ps\n\t\tkubectl get replicationcontroller web\n\n\t\t# Lista um \u00fanico pod e usa o formato de sa\u00edda JSON.\n\t\tkubectl get -o json pod web-pod-13je7\n\n\t\t# Lista o pod identificado com o tipo e nome especificado no \"pod.yaml\" e usa o formato de sa\u00edda JSON.\n\t\tkubectl get -f pod.yaml -o json\n\n\t\t# Mostra apenas em que est\u00e1gio o pod especificado est\u00e1.\n\t\tkubectl get -o template pod/web-pod-13je7 \u2014template={{.status.phase}}\n\n\t\t# Lista todos os replication controllers e services juntos no formato de sa\u00edda ps.\n\t\tkubectl get rc,services\n\n\t\t# Lista um ou mais recursos pelo seu tipo e nomes.\n\t\tkubectl get rc/web service/frontend pods/web-pod-13je7\n\n\t\t# Lista todos os recursos e com tipos diferentes.\n\t\tkubectl get all\x00\n\t\t# Escuta nas portas locais 5000 e 6000, e redireciona os dados de/para as portas 5000 e 6000 no pod\n\t\tkubectl port-forward mypod 5000 6000\n\n\t\t# Escuta na porta local 8888 localmente, e redireciona para a porta 5000 no pod\n\t\tkubectl port-forward mypod 8888:5000\n\n\t\t# Escuta uma porta local aleat\u00f3ria, e redireciona para a porta 5000 no pod\n\t\tkubectl port-forward mypod :5000\n\n\t\t# Escuta uma porta local aleat\u00f3ria, e redireciona para a porta 5000 no pod\\n\n\t\tkubectl port-forward mypod 0:5000\x00\n\t\t# Remove a restri\u00e7\u00e3o de execu\u00e7\u00e3o de Pods no node \"foo\".\n\t\t$ kubectl uncordon foo\x00\n\t\t# Restringe a execu\u00e7\u00e3o de novos Pods no node \"foo\".\n\t\tkubectl cordon foo\x00\n\t\t# Atualiza parcialmente um node utilizando a estrat\u00e9gia merge patch\n\t\tkubectl patch node k8s-node-1 -p '{\"spec\":{\"unschedulable\":true}}'\n\n\t\t# Atualiza parcialmente um node identificado pelo tipo e nome no arquivo \"node.json\" utilizando a estrat\u00e9gia merge patch\n\t\tkubectl patch -f node.json -p '{\"spec\":{\"unschedulable\":true}}'\n\n\t\t# Atualiza uma imagem em um container; spec.containers[*].name \u00e9 requerido pois ser\u00e1 usado como \u00edndice para a mudan\u00e7a\n\t\tkubectl patch pod valid-pod -p '{\"spec\":{\"containers\":[{\"name\":\"kubernetes-serve-hostname\",\"image\":\"new image\"}]}}'\n\n\t\t# Atualiza uma imagem em um container utilizando o json patch com positional arrays\n\t\tkubectl patch pod valid-pod \u2014type='json' -p='[{\"op\": \"replace\", \"path\": \"/spec/containers/0/image\", \"value\":\"new image\"}]'\x00\n\t\t# Mostra as op\u00e7\u00f5es herdadas por todos os comandos\n\t\tkubectl options\x00\n\t\t# Mostra o endere\u00e7o do servidor de gerenciamento e dos servi\u00e7os do cluster\n\t\tkubectl cluster-info\x00\n\t\t# Imprime a vers\u00e3o do cliente e do servidor para o contexto atual\n\t\tkubectl version\x00\n\t\t# Mostra as vers\u00f5es de API suportadas\n\t\tkubectl api-versions\x00\n\t\t# Substitui um pod utlizando os dados contidos em pod.json.\n\t\tkubectl replace -f ./pod.json\n\n\t\t# Troca um pod com base no JSON fornecido no stdin.\n\t\tcat pod.json | kubectl replace -f -\n\n\t\t# Atualiza uma vers\u00e3o de imagem (tag) de um pod com um \u00fanico container para v4\n\t\tkubectl get pod mypod -o yaml | sed 's/\\(image: myimage\\):.*$/\x01:v4/' | kubectl replace -f -\n\n\t\t# For\u00e7a a troca, removendo e recriando o recurso\n\t\tkubectl replace \u2014force -f ./pod.json\x00\n\t\t# Retorna os logs do pod nginx com um \u00fanico container\n\t\tkubectl logs nginx\n\n\t\t# Retorna os logs dos pods definidos pelo label app=nginx\n\t\tkubectl logs -lapp=nginx\n\n\t\t# Retorna os logs do container ruby finalizado do pod web-1\n\t\tkubectl logs -p -c ruby web-1\n\n\t\t# Come\u00e7a o streaming de logs de um ruby container no pod web-1\n\t\tkubectl logs -f -c ruby web-1\n\n\t\t# Mostra apenas as 20 linhas mais recentes de sa\u00edda do pod nginx\n\t\tkubectl logs \u2014tail=20 nginx\n\n\t\t# Mostra todos os logs do pod nginx escrito na \u00faltima hora\n\t\tkubectl logs \u2014since=1h nginx\n\n\t\t# Retorna os logs do primeiro container com o Job chamado hello\n\t\tkubectl logs job/hello\n\n\t\t# Retorna os logs do container nginx-1 de um deployment chamado nginx\n\t\tkubectl logs deployment/nginx -c nginx-1\x00\n\t\t# Executa um proxy para o apiserver do kubernetes na porta 8011, servindo um conte\u00fado est\u00e1tico do caminho ./local/www/\n\t\tkubectl proxy \u2014port=8011 \u2014www=./local/www/\n\n\t\t# Executa um proxy para o apiserver do kubernetes em uma porta local arbitr\u00e1ria.\n\t\t# A porta escolhida para o servidor ser\u00e1 utilizada para o sa\u00edda de stdout.\n\t\tkubectl proxy \u2014port=0\n\n\t\t# Executa um proxy para o apiserver do kubernetes, mudando o prefixo do api para k8s-api\n\t\t# Com isso a api dos pods estar\u00e3o dispon\u00edvel em localhost:8001/k8s-api/v1/pods/\n\t\tkubectl proxy \u2014api-prefix=/k8s-api\x00\n\t\t# Escala um replicaset chamado 'foo' para 3.\n\t\tkubectl scale \u2014replicas=3 rs/foo\n\n\t\t# Escala um recurso identificado pelo tipo e nome especificado no arquivo \"foo.yaml\" para 3.\n\t\tkubectl scale \u2014replicas=3 -f foo.yaml\n\n\t\t# Se um deployment chamado mysql tem tamanho 2, escala o mysql para 3.\n\t\tkubectl scale \u2014current-replicas=2 \u2014replicas=3 deployment/mysql\n\n\t\t# Escala m\u00faltiplos replication controllers.\n\t\tkubectl scale \u2014replicas=5 rc/foo rc/bar rc/baz\n\n\t\t# Escala um Job chamado 'cron' para 3.\n\t\tkubectl scale \u2014replicas=3 job/cron\x00\n\t\t# Ajusta o last-applied-configuration de um recurso para corresponder ao conte\u00fado de um arquivo.\n\t\tkubectl apply set-last-applied -f deploy.yaml\n\n\t\t# Executa o set-last-applied em todos os arquivos de configura\u00e7\u00e3o no diret\u00f3rio.\n\t\tkubectl apply set-last-applied -f path/\n\n\t\t# Ajusta o last-applied-configuration de um recurso para corresponder ao conte\u00fado de um arquivo, ser\u00e1 criada uma annotation se esta ainda n\u00e3o existe.\n\t\tkubectl apply set-last-applied -f deploy.yaml \u2014create-annotation=true\n\t\t\x00\n\t\t# Mostra as m\u00e9tricas para todos os pods no namespace default\n\t\tkubectl top pod\n\n\t\t# Mostra as m\u00e9tricas para todos os pods em um dado namespace\n\t\tkubectl top pod \u2014namespace=NAMESPACE\n\n\t\t# Mostra as m\u00e9tricas para um dado pod e seus containers\n\t\tkubectl top pod POD_NAME \u2014containers\n\n\t\t# Mostra as m\u00e9tricas para os pods definidos pelo label name=myLabel\n\t\tkubectl top pod -l name=myLabel\x00\n\t\t# Termina o replicationcontroller foo.\n\t\tkubectl stop replicationcontroller foo\n\n\t\t# Para os pods e servi\u00e7os com o label name=myLabel.\n\t\tkubectl stop pods,services -l name=myLabel\n\n\t\t# Termina o servi\u00e7o definido no arquivo service.json\n\t\tkubectl stop -f service.json\n\n\t\t# Termina todos os recursos no caminho do diret\u00f3rio path/to/resources\n\t\tkubectl stop -f path/to/resources\x00\n\t\t# Inicia uma \u00fanica inst\u00e2ncia de nginx.\n\t\tkubectl run nginx \u2014image=nginx\n\n\t\t# Inicia uma \u00fanica inst\u00e2ncia do hazelcast e exp\u00f5e a porta 5701 do container.\n\t\tkubectl run hazelcast \u2014image=hazelcast \u2014port=5701\n\n\t\t# Inicia uma \u00fanica inst\u00e2ncia do hazelcast e seta as vari\u00e1veis de ambiente \"DNS_DOMAIN=cluster\" e \"POD_NAMESPACE=default\" no container.\n\t\tkubectl run hazelcast \u2014image=hazelcast \u2014env=\"DNS_DOMAIN=cluster\" \u2014env=\"POD_NAMESPACE=default\"\n\n\t\t# Inicia uma inst\u00e2ncia replicada de nginx.\n\t\tkubectl run nginx \u2014image=nginx \u2014replicas=5\n\n\t\t# Dry run. Mostra os objetos da API correspondente sem criar elas.\n\t\tkubectl run nginx \u2014image=nginx \u2014dry-run\n\n\t\t# Inicia uma \u00fanica inst\u00e2ncia de nginx, mas sobrescreve a spec do deployment com um conjunto parcial de valores passeados do JSON.\n\t\tkubectl run nginx \u2014image=nginx \u2014overrides='{ \"apiVersion\": \"v1\", \"spec\": { \u2026 } }'\n\n\t\t# Inicia um pod de busybox e mant\u00e9m ele em primeiro plano, n\u00e3o reinicia se ele j\u00e1 existe.\n\t\tkubectl run -i -t busybox \u2014image=busybox \u2014restart=Never\n\n\t\t# Inicia um container nginx usando o comando padr\u00e3o, mas utiliza argumentos customizados (arg1 .. argN) para o comando.\n\t\tkubectl run nginx \u2014image=nginx \u2014 \u2026 \n\n\t\t# Inicia um container nginx usando um comando diferente e argumentos customizados.\n\t\tkubectl run nginx \u2014image=nginx \u2014command \u2014 \u2026 \n\n\t\t# Inicia um container perl para processar \u03c0 to 2000 posi\u00e7\u00f5es e mostra a sa\u00edda.\n\t\tkubectl run pi \u2014image=perl \u2014restart=OnFailure \u2014 perl -Mbignum=bpi -wle 'print bpi(2000)'\n\n\t\t# Inicia um cron job para processar as 2000 posi\u00e7\u00f5es de \u03c0 e mostra a sa\u00edda a cada 5 minutos.\n\t\tkubectl run pi \u2014schedule=\"0/5 * * * ?\" \u2014image=perl \u2014restart=OnFailure \u2014 perl -Mbignum=bpi -wle 'print bpi(2000)'\x00\n\t\t# Atualiza a restri\u00e7\u00e3o para a chave 'dedicated' e o valor 'special-user' e o efeito 'NoSchedule' para o node 'foo'.\n\t\t# Se o taint com esta chave e efeito j\u00e1 existirem, o seu valor \u00e9 substitu\u00eddo pelo especificado.\n\t\tkubectl taint nodes foo dedicated=special-user:NoSchedule\n\n\t\t# Remove a restri\u00e7\u00e3o com a chave 'dedicated' e efeito 'NoSchedule' do nodo 'foo' se existir.\n\t\tkubectl taint nodes foo dedicated:NoSchedule-\n\n\t\t# Remove o node 'foo' todos os taints com a chave 'dedicated'\n\t\tkubectl taint nodes foo dedicated-\x00\n\t\t# Atualiza o pod 'foo' com o label 'unhealthy' e valor 'true'.\n\t\tkubectl label pods foo unhealthy=true\n\n\t\t# Atualiza o pod 'foo' com o label 'status' e valor 'unhealthy', sobrescrevendo qualquer valor existente.\n\t\tkubectl label \u2014overwrite pods foo status=unhealthy\n\n\t\t# Atualiza todos os pods no namespace corrente\n\t\tkubectl label pods \u2014all status=unhealthy\n\n\t\t# Atualiza o pod identificado pelo tipo e nome em \"pod.json\"\n\t\tkubectl label -f pod.json status=unhealthy\n\n\t\t# Atualiza o pod 'foo' apenas se o recurso n\u00e3o foi modificado na vers\u00e3o 1.\n\t\tkubectl label pods foo status=unhealthy \u2014resource-version=1\n\n\t\t# Atualiza o pod 'foo' removendo o label chamado 'bar', se ele existir.\n\t\t# N\u00e3o necessita a flag \u2014overwrite.\n\t\tkubectl label pods foo bar-\x00\n\t\t# Atualiza os pods de frontend-v1 utilizando os dados do novo replication controller definido em frontend-v2.json.\n\t\tkubectl rolling-update frontend-v1 -f frontend-v2.json\n\n\t\t# Atualiza os pods do frontend-v1 utilizando os dados em JSON passados pelo stdin.\n\t\tcat frontend-v2.json | kubectl rolling-update frontend-v1 -f -\n\n\t\t# Atualiza os pods do frontend-v1 para frontend-v2 trocando a imagem, e trocando o\n\t\t# nome do replication controller.\n\t\tkubectl rolling-update frontend-v1 frontend-v2 --image=image:v2\n\n\t\t# Atualiza os pods do frontend trocando a imagem, e mantendo o nome antigo.\n\t\tkubectl rolling-update frontend --image=image:v2\n\n\t\t# Cancela e reverte um rollout existente em progresso (de frontend-v1 para frontend-v2).\n\t\tkubectl rolling-update frontend-v1 frontend-v2 --rollback\x00\n\t\t# Visualiza a anota\u00e7\u00e3o last-applied-configuration pelo tipo/nome no YAML.\n\t\tkubectl apply view-last-applied deployment/nginx\n\n\t\t# Visualiza a anota\u00e7\u00e3o last-applied-configuration no arquivo JSON\n\t\tkubectl apply view-last-applied -f deploy.yaml -o json\x00\n\t\tAplica a configura\u00e7\u00e3o em um recurso usando um nome de arquivo ou stdin.\n\t\tEste recurso ser\u00e1 criado se ele n\u00e3o existir.\n\t\tPara utilizar o 'apply', sempre crie o recurso inicialmente com 'apply' ou 'create --save-config'.\n\n\t\tFormatos JSON e YAML s\u00e3o aceitos.\n\n\t\tNota Alpha: a funcionalidade --prune n\u00e3o est\u00e1 completa. N\u00e3o utilize a n\u00e3o ser que voc\u00ea saibe qual \u00e9 o estado corrente. Veja https://issues.k8s.io/34274.\x00\n\t\tConvert os arquivos de configura\u00e7\u00e3o para diferentes vers\u00f5es de API. Ambos formatos YAML\n\t\\e JSON s\u00e3o aceitos.\n\n\t\tO command recebe o nome do arquivo, diret\u00f3rio ou URL como entrada, e converteno formato\n\t\tpara a vers\u00e3o especificada pelo parametro \u2014output-version. Se a vers\u00e3o desejada n\u00e3o \u00e9 especificada ou \n\t\tn\u00e3o \u00e9 suportada, converte para a \u00faltima vers\u00e3 dispon\u00edvel.\n\n\t\tA sa\u00edda padr\u00e3o \u00e9 no formato YAML. Pode ser utilizadoa op\u00e7\u00e3o -o\n\t\tpara mudar o formato de sa\u00edda.\x00\n\t\tCria um ClusterRole.\x00\n\t\tCria um ClusterRoleBinding para um ClusterRole espec\u00edfico.\x00\n\t\tCria uma RoleBinding para uma Role espec\u00edfica ou ClusterRole.\x00\n\t\tCria um TLS secret de uma chave p\u00fablica/privada fornecida.\n\n\t\tA chave p\u00fablica/privada deve existir antes. O certificado da chave deve ser codificada como PEM, e ter sido gerada pela chave privada.\x00\n\t\tCria um configmap com base em um arquivo, diret\u00f3rio, ou um valor literal especificado.\n\n\t\tUm configmap \u00fanico pode conter um ou mais pares de chave/valor.\n\n\t\tQuando criar um configmap com base em um arquivo, a chave ser\u00e1 por padr\u00e3o o nome do arquivo, e o valor ser\u00e1\n\t\tpor padr\u00e3o o conte\u00fado do arquivo. Se o nome do arquivo for uma chave inv\u00e1lida, voc\u00ea deve especificar uma chave alternativa.\n\n\t\tQuando criar um configmap com base em um diret\u00f3rio, cada arquivo cujo o nome \u00e9 uma chave v\u00e1lida no diret\u00f3rio ser\u00e1\n\t\tcolocada no configmap. Qualquer entrada de diret\u00f3rio, exceto as com arquivos v\u00e1lidos ser\u00e3o ignorados (por exemplo: sub-diret\u00f3rios,\n\t\tsymlinks, devices, pipes, etc).\x00\n\t\tCria um namespace com um nome especificado.\x00\n\t\tCria um novo secret para utilizar com Docker registries.\n\n\t\tDockercfg secrets s\u00e3o utilizados para autenticar Docker registries.\n\n\t\tQuando utilizando a linha de comando do Docker para realizar envio das images, voc\u00ea pode se autenticar para um registro fornecido executando\n\n\t\t $ docker login DOCKER_REGISTRY_SERVER \u2014username=DOCKER_USER \u2014password=DOCKER_PASSWORD \u2014email=DOCKER_EMAIL'.\n\n Isso ir\u00e1 gerar um arquivo ~/.dockercfg que ser\u00e1 utilizado para os comandos 'docker push' e 'docker pull' \n\t\tse autenticarem no registro. O endere\u00e7o de email \u00e9 opcional.\n\n\t\tQuando criar aplica\u00e7\u00f5es, voc\u00ea pode ter um Docker registry que requer autentica\u00e7\u00e3o. Para que \n\t\tos nodes possam baixar as imagens em seu nome, eles devem ter as credenciais. Voc\u00ea pode prover esta informa\u00e7\u00e3o\n\t\tcriando um dockercfg secret e anexando-o \u00e0 sua conta de servi\u00e7o.\x00\n\t\tCria um pod disruption budget com o nome especificado, seletor, e o n\u00famero m\u00ednimo de pode dispon\u00edveis\x00\n\t\tCria um recurso por nome de arquivo ou stdin.\n\n\t\tOs formatos JSON e YAML s\u00e3o aceitos.\x00\n\t\tCria um resourcequota com o nome especificado, limits rig\u00eddos e escopo opcional\x00\n\t\tCria uma role com uma \u00fanica regra.\x00\n\t\tCria um secret com base em um arquivo, diret\u00f3rio, ou um valor literal especificado.\n\n\t\tUm secret \u00fanico pode conter um ou mais pares de chave/valor.\n\n\t\tQuando criar um secret com base em um arquivo, a chave ser\u00e1 por padr\u00e3o o nome do arquivo, e o valor ser\u00e1\n\t\tpor padr\u00e3o o conte\u00fado do arquivo. Se o nome do arquivo for uma chave inv\u00e1lida, voc\u00ea deve especificar uma chave alternativa.\n\n\t\tQuando criar um secret com base em um diret\u00f3rio, cada arquivo cujo o nome \u00e9 uma chave v\u00e1lida no diret\u00f3rio ser\u00e1\n\t\tcolocada no configmap. Qualquer entrada de diret\u00f3rio, exceto as com arquivos v\u00e1lidos ser\u00e3o ignorados (por exemplo: sub-diret\u00f3rios,\n\t\tsymlinks, devices, pipes, etc).\x00\n\t\tCria uma conta de servi\u00e7o com um nome especificado.\x00\n\t\tCria e executa uma imagem espec\u00edfica, possivelmente replicada.\n\n\t\tCria um deployment ou job para gerenciar o(s) container(s) criado(s).\x00\n\t\tCria um autoscaler que automaticamente escolhe e configura quantos pods ir\u00e3o executar em um cluster kubernetes.\n\n\t\tProcura por um Deployment, ReplicaSet, ou ReplicationController por nome e cria um autoscaler que utiliza o recurso fornecido como refer\u00eancia.\n\t\tUm autoscaler pode automaticamente aumentar ou reduzir o n\u00famero de pods quando necess\u00e1rio.\x00\n\t\tDelete resources by filenames, stdin, resources and names, or by resources and label selector.\n\n\t\tJSON and YAML formats are accepted. Only one type of the arguments may be specified: filenames,\n\t\tresources and names, or resources and label selector.\n\n\t\tSome resources, such as pods, support graceful deletion. These resources define a default period\n\t\tbefore they are forcibly terminated (the grace period) but you may override that value with\n\t\tthe \u2014grace-period flag, or pass \u2014now to set a grace-period of 1. Because these resources often\n\t\trepresent entities in the cluster, deletion may not be acknowledged immediately. If the node\n\t\thosting a pod is down or cannot reach the API server, termination may take significantly longer\n\t\tthan the grace period. To force delete a resource,\tyou must pass a grace\tperiod of 0 and specify\n\t\tthe \u2014force flag.\n\n\t\tIMPORTANT: Force deleting pods does not wait for confirmation that the pod's processes have been\n\t\tterminated, which can leave those processes running until the node detects the deletion and\n\t\tcompletes graceful deletion. If your processes use shared storage or talk to a remote API and\n\t\tdepend on the name of the pod to identify themselves, force deleting those pods may result in\n\t\tmultiple processes running on different machines using the same identification which may lead\n\t\tto data corruption or inconsistency. Only force delete pods when you are sure the pod is\n\t\tterminated, or if your application can tolerate multiple copies of the same pod running at once.\n\t\tAlso, if you force delete pods the scheduler may place new pods on those nodes before the node\n\t\thas released those resources and causing those pods to be evicted immediately.\n\n\t\tNote that the delete command does NOT do resource version checks, so if someone\n\t\tsubmits an update to a resource right when you submit a delete, their update\n\t\twill be lost along with the rest of the resource.\x00\n\t\tDeprecated: Gracefully shut down a resource by name or filename.\n\n\t\tThe stop command is deprecated, all its functionalities are covered by delete command.\n\t\tSee 'kubectl delete \u2014help' for more details.\n\n\t\tAttempts to shut down and delete a resource that supports graceful termination.\n\t\tIf the resource is scalable it will be scaled to 0 before deletion.\x00\n\t\tMostra os Recursos (CPU/Mem\u00f3ria/Armazenamento) utilizados nos nodes.\n\n\t\tO comando top-node permite que voc\u00ea veja o consumo de recursos dos nodes.\x00\n\t\tMostra a utiliza\u00e7\u00e3o de recursos dos pods (CPU/Mem\u00f3ria/Armazenamento).\n\n\t\tO comando 'top pod' deixa voc\u00ea ver a utiliza\u00e7\u00e3o dos recusrsos dos pods.\n\n\t\tDevido ao atraso da pipeline de m\u00e9tricas, o resultado pode estar indispon\u00edvel por alguns minutos\n\t\tdesde a cria\u00e7\u00e3o do pod.\x00\n\t\tMostra a utiliza\u00e7\u00e3o de recursos (CPU/Mem\u00f3ria/Armazenamento).\n\n\t\tO comando top deixa voc\u00ea ver a utiliza\u00e7\u00e3o de recursos de nodes e pods.\n\n\t\tEste comando necessita que o Heapster esteja corretamente configurado e rodando no servidor. \x00\n\t\tDrain node in preparation for maintenance.\n\n\t\tThe given node will be marked unschedulable to prevent new pods from arriving.\n\t\t'drain' evicts the pods if the APIServer supports eviction\n\t\t(http://kubernetes.io/docs/admin/disruptions/). Otherwise, it will use normal DELETE\n\t\tto delete the pods.\n\t\tThe 'drain' evicts or deletes all pods except mirror pods (which cannot be deleted through\n\t\tthe API server). If there are DaemonSet-managed pods, drain will not proceed\n\t\twithout \u2014ignore-daemonsets, and regardless it will not delete any\n\t\tDaemonSet-managed pods, because those pods would be immediately replaced by the\n\t\tDaemonSet controller, which ignores unschedulable markings. If there are any\n\t\tpods that are neither mirror pods nor managed by ReplicationController,\n\t\tReplicaSet, DaemonSet, StatefulSet or Job, then drain will not delete any pods unless you\n\t\tuse \u2014force. \u2014force will also allow deletion to proceed if the managing resource of one\n\t\tor more pods is missing.\n\n\t\t'drain' waits for graceful termination. You should not operate on the machine until\n\t\tthe command completes.\n\n\t\tWhen you are ready to put the node back into service, use kubectl uncordon, which\n\t\twill make the node schedulable again.\n\n\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_drain.svg)\x00\n\t\tEdit a resource from the default editor.\n\n\t\tThe edit command allows you to directly edit any API resource you can retrieve via the\n\t\tcommand line tools. It will open the editor defined by your KUBE_EDITOR, or EDITOR\n\t\tenvironment variables, or fall back to 'vi' for Linux or 'notepad' for Windows.\n\t\tYou can edit multiple objects, although changes are applied one at a time. The command\n\t\taccepts filenames as well as command line arguments, although the files you point to must\n\t\tbe previously saved versions of resources.\n\n\t\tEditing is done with the API version used to fetch the resource.\n\t\tTo edit using a specific API version, fully-qualify the resource, version, and group.\n\n\t\tThe default format is YAML. To edit in JSON, specify \"-o json\".\n\n\t\tThe flag \u2014windows-line-endings can be used to force Windows line endings,\n\t\totherwise the default for your operating system will be used.\n\n\t\tIn the event an error occurs while updating, a temporary file will be created on disk\n\t\tthat contains your unapplied changes. The most common error when updating a resource\n\t\tis another editor changing the resource on the server. When this occurs, you will have\n\t\tto apply your changes to the newer version of the resource, or update your temporary\n\t\tsaved copy to include the latest resource version.\x00\n\t\tRemove a restri\u00e7\u00e3o de execu\u00e7\u00e3o de workloads no node.\x00\n\t\tAplica a restri\u00e7\u00e3o de execu\u00e7\u00e3o de workloads no node.\x00\n\t\tOutput shell completion code for the specified shell (bash or zsh).\n\t\tThe shell code must be evaluated to provide interactive\n\t\tcompletion of kubectl commands. This can be done by sourcing it from\n\t\tthe .bash_profile.\n\n\t\tNote: this requires the bash-completion framework, which is not installed\n\t\tby default on Mac. This can be installed by using homebrew:\n\n\t\t $ brew install bash-completion\n\n\t\tOnce installed, bash_completion must be evaluated. This can be done by adding the\n\t\tfollowing line to the .bash_profile\n\n\t\t $ source $(brew \u2014prefix)/etc/bash_completion\n\n\t\tNote for zsh users: [1] zsh completions are only supported in versions of zsh >= 5.2\x00\n\t\tAplica uma atualiza\u00e7\u00e3o cont\u00ednua em um ReplicationController.\n\n\t\tTroca o replication controller especificado por um novo replication controller atualizando um pod por vez para utilizar o\n\t\tnovo PodTemplate. O new-controller.json deve ser especificado no mesmo namespace que o\n\t\treplication controller existente e sobrescrever pelo menos uma label comum no seu replicaSelector.\n\n\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_rollingupdate.svg)\x00\n\t\tSubstitui um recurso pelo especificado em um arquivo ou via stdin.\n\n\t\tOs formatos JSON and YAML s\u00e3o aceitos. Quando substituindo recursos existentes,\n\t\a especifica\u00e7\u00e3o completa do recurso deve ser fornecida. Isto pode ser obtido com\n\n\t\t $ kubectl get TYPE NAME -o yaml\n\n\t\tConsulte os modelos em https://htmlpreview.github.io/?https://github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions.html para descobrir se um campo \u00e9 mut\u00e1vel.\x00\n\t\tDefine um novo tamanho para um Deployment, ReplicaSet, Replication Controller, ou Job.\n\n\t\tScale deixa os usu\u00e1rios especificar uma ou mais pre-condi\u00e7\u00f5es para a a\u00e7\u00e3o de scale.\n\n\t\tSe --current-replicas ou --resource-version forem especificados, ser\u00e1 validado antes\n\t\tda tentativa de scale, e garante que a pre-condi\u00e7\u00e3o \u00e9 verdadeira quando\n\t\to scale \u00e9 enviado para o servidor.\x00\n\t\tDefine a annotation last-applied-configuration configurando para ser igual ao conte\u00fado do arquivo.\n\t\tIsto resulta no last-applied-configuration ser atualizado quando o 'kubectl apply -f ' executa,\n\t\tn\u00e3o atualizando as outras partes do objeto.\x00\n\t\tPara fazer o proxy the todas as apis do kubernetes, utilize:\n\n\t\t $ kubectl proxy \u2014api-prefix=/\n\n\t\tPara fazer o proxy de parte da api do kubernetes e alguns arquivos est\u00e1ticos:\n\n\t\t $ kubectl proxy \u2014www=/my/files \u2014www-prefix=/static/ \u2014api-prefix=/api/\n\n\t\tCom os comandos acima voc\u00ea pode fazer 'curl localhost:8001/api/v1/pods'.\n\n\t\tPara fazer o proxy the todas as apis do kubernetes em um caminho diferente, utilize:\n\n\t\t $ kubectl proxy \u2014api-prefix=/custom/\n\n\t\tCom o comando acima voc\u00ea pode fazer 'curl localhost:8001/custom/api/v1/pods'\x00\n\t\tAtualiza o(s) campo(s) de um recurso usando strategic merge patch\n\n\t\tFormatos JSON e YAML s\u00e3o aceitos.\n\n\t\tConsulte os modelos em https://htmlpreview.github.io/?https://github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions.html para descobrir se um campo \u00e9 mut\u00e1vel.\x00\n\t\tAtualiza labels em um recurso.\n\n\t\t* Um label deve come\u00e7ar com uma letra ou n\u00famero, e pode conter letra, n\u00fameros, h\u00edfens, pontos e sublinhados, com no m\u00e1ximo %[1]d caracteres.\n\t\t* Se --overwrite for verdadeiro, ent\u00e3o labels podem ser sobreescritos, caso contr\u00e1rio a sobreescrita ir\u00e1 falhar.\n\t\t* Se --resource-version for especificado, ent\u00e3o as atualiza\u00e7\u00f5es usar\u00e3o esta vers\u00e3o do recurso, caso contr\u00e1rio, a vers\u00e3o do recurso existente ser\u00e1 usada.\x00\n\t\tAtualiza os taints em um ou mais nodes.\n\n\t\t* Um taint consiste em uma chave, valor e efeito. Como arqgumento, \u00e9 expressado como chave=valor:efeito.\n\t\t* Uma chave deve come\u00e7ar com uma letra ou n\u00famero, e pode conter letras, n\u00fameros, h\u00edfens, pontos e sublinhados, com no m\u00e1ximo %[1]d caract\u00e9res.\n\t\t* Um valor deve come\u00e7ar com uma letra ou n\u00famero, e pode conter letras, n\u00fameros, h\u00edfens, pontos e sublinhados, com no m\u00e1ximo %[2]d caract\u00e9res.\n\t\t* O efeito deve ser NoSchedule, PreferNoSchedule ou NoExecute.\n\t\t* Atualmente taint pode ser aplicado apenas para nodes.\x00\n\t\tView the latest last-applied-configuration annotations by type/name or file.\n\n\t\tThe default output will be printed to stdout in YAML format. One can use -o option\n\t\tto change output format.\x00\n\t # !!!Nota Importante!!!\n\t # Necessita que o bin\u00e1rio 'tar' esteja presente na imagem do\n\t # container. Se 'tar' n\u00e3o estiver presente, o 'kubectl cp' ir\u00e1 falhar.\n\n\t # Copia o diret\u00f3rio local /tmp/foo_dir para /tmp/bar_dir no pod remoto no namespace default\n\t\tkubectl cp /tmp/foo_dir :/tmp/bar_dir\n\n # Copia o arquivo local /tmp/foo para /tmp/bar no pod remoto no container espec\u00edfico\n\t\tkubectl cp /tmp/foo :/tmp/bar -c \n\n\t\t# Copia o arquivo local /tmp/foo para /tmp/bar no pod remoto no namespace \n\t\tkubectl cp /tmp/foo /:/tmp/bar\n\n\t\t# Copia /tmp/foo do pod remoto para /tmp/bar localmente\n\t\tkubectl cp /:/tmp/foo /tmp/bar\x00\n\t # Cria um novo segredo TLS chamado tls-secret com o par the chaves fornecido:\n\t kubectl create secret tls tls-secret \u2014cert=path/to/tls.cert \u2014key=path/to/tls.key\x00\n\t # Cria um novo namespace chamado my-namespace\n\t kubectl create namespace my-namespace\x00\n\t # Cria um novo segredo chamado my-secret com as chaves para cada arquivo no diret\u00f3rio bar\n\t kubectl create secret generic my-secret --from-file=path/to/bar\n\n\t # Cria um novo segredo chamado my-secret com chaves especificadas em vez dos nomes dos arquivos\n\t kubectl create secret generic my-secret --from-file=ssh-privatekey=~/.ssh/id_rsa --from-file=ssh-publickey=~/.ssh/id_rsa.pub\n\n\t # Cria um novo segredo chamado my-secret com key1=supersecret e key2=topsecret\n\t kubectl create secret generic my-secret --from-literal=key1=supersecret --from-literal=key2=topsecret\x00\n\t # Cria um novo service account chamado my-service-account\n\t kubectl create serviceaccount my-service-account\x00\n\t# Cria um novo servi\u00e7o do tipo ExternalName chamado my-ns \n\tkubectl create service externalname my-ns \u2014external-name bar.com\x00\n\tCria um servi\u00e7o do tipo ExternalName com o nome especificado.\n\n\tServi\u00e7o ExternalName referencia um endere\u00e7o externo de DNS ao inv\u00e9s de\n\tapenas pods, o que permite aos desenvolvedores de aplica\u00e7\u00f5es referenciar servi\u00e7os\n\tque existem fora da plataforma, em outros clusters ou localmente.\x00\n\tHelp prov\u00ea ajuda para qualquer comando na aplica\u00e7\u00e3o.\n\tDigite simplesmente kubectl help [caminho do comando] para detalhes completos.\x00\n # Cria um novo servi\u00e7o do tipo LoadBalancer chamado my-lbs\n kubectl create service loadbalancer my-lbs \u2014tcp=5678:8080\x00\n # Cria um novo servi\u00e7o clusterIP chamado my-cs\n kubectl create service clusterip my-cs --tcp=5678:8080\n\n # Cria um novo servi\u00e7o clusterIP chamado my-cs (em modo headless)\n kubectl create service clusterip my-cs --clusterip=\"None\"\x00\n # Cria um novo deployment chamado my-dep que executa uma imagem busybox.\n kubectl create deployment my-dep \u2014image=busybox\x00\n # Cria um novo servi\u00e7o nodeport chamado my-ns\n kubectl create service nodeport my-ns \u2014tcp=5678:8080\x00\n # Coleta o estado corrente do cluster e exibe no stdout\n kubectl cluster-info dump\n\n # Coleta o estado corrente do custer para /path/to/cluster-state\n kubectl cluster-info dump --output-directory=/path/to/cluster-state\n\n # Coleta informa\u00e7\u00e3o de todos os namespaces para stdout\n kubectl cluster-info dump --all-namespaces\n\n # Coleta o conjunto especificado de namespaces para /path/to/cluster-state\n kubectl cluster-info dump --namespaces default,kube-system --output-directory=/path/to/cluster-state\x00\n # Atualiza o pod 'foo' com a annotation 'description' e o valor 'my frontend'.\n # Se a mesma annotation \u00e9 configurada v\u00e1rias vezes, apenas o \u00faltimo valor ser\u00e1 utilizado\n kubectl annotate pods foo description='my frontend'\n\n # Atualiza o pod identificado pelo tipo e nome definido no \"pod.json\"\n kubectl annotate -f pod.json description='my frontend'\n\n # Atualiza o pod 'foo' com a annotation 'description' e o valor 'my frontend running nginx', sobreescrevendo qualquer valor existente.\n kubectl annotate --overwrite pods foo description='my frontend running nginx'\n\n # Atualiza todos os pods no namespace\n kubectl annotate pods --all description='my frontend running nginx'\n\n # Atualiza o pod 'foo' apenas se o recurso n\u00e3o foi modificado na vers\u00e3o 1.\n kubectl annotate pods foo description='my frontend running nginx' --resource-version=1\n\n # Atualiza o pod 'foo' removendo a annotation chamada 'description' se ela existir.\n # N\u00e3o necessita da flag --overwrite.\n kubectl annotate pods foo description-\x00\n Cria um servi\u00e7o do tipo LoadBalancer com o nome especificado.\x00\n Cria um servi\u00e7o do tipo clusterIP com o nome especificado.\x00\n Cria um deployment com o nome especificado.\x00\n Cria um servi\u00e7o do tipo nodeport com o nome especificado.\x00\n Coleta informa\u00e7\u00f5es do cluster para debugar e diagnosticar problemas do dele. Por padr\u00e3o, exibe tudo para o\n stdout. Voc\u00ea pode, se quiser, especificar um diret\u00f3rio com --output-directory. Se especificar o diret\u00f3rio, kubernetes ir\u00e1\n montar um conjunto de arquivos no diret\u00f3rio. Por padr\u00e3o, apenas coleta informa\u00e7\u00f5es no namespace 'kube-system' , mas voc\u00ea pode\n trocar para um namespace diferente com a flag --namespaces, ou especificar --all-namespaces para todos os namespaces.\n\n O comando tamb\u00e9m coleta os logs de todos os pods no cluster, estes logs s\u00e3o salvos em outros diret\u00f3rios\n baseado no namespace e nome do pod.\x00\n Mostra os endere\u00e7os dos servidores de gerenciamento e servi\u00e7os com o label kubernetes.io/cluster-service=true\n Para debugar e diagnosticar outros problemas do cluster, utilize 'kubectl cluster-info dump'.\x00Lista de valores delimitados por v\u00edrgulas para um conjunto de escopos de quota que devem corresponder para cada objeto rastreado pela quota.\x00Lista de valores delimitados por v\u00edrgulas ajusta os pares resource=quantity que define um limite rig\u00eddo.\x00Um seletor de label a ser usado para o PDB. Apenas seletores baseado em igualdade s\u00e3o suportados.\x00Um seletor de label para ser utilizado neste servi\u00e7o. Apenas seletores baseado em igualdade s\u00e3o suportados. Se vazio (por padr\u00e3o) o seletor do replication controller ou replica set ser\u00e1 utilizado.\x00Agendamento no formato Cron em qual o job deve rodar.\x00Um IP externo adicional (n\u00e3o gerenciado pelo Kubernetes) para ser usado no servi\u00e7o. Se este IP for roteado para um n\u00f3, o servi\u00e7o pode ser acessado por este IP al\u00e9m de seu IP de servi\u00e7o gerado.\x00Uma substitui\u00e7\u00e3o inline JSON para o objeto gerado. Se n\u00e3o estiver vazio, ele ser\u00e1 usado para substituir o objeto gerado. Requer que o objeto forne\u00e7a um campo apiVersion v\u00e1lido.\x00Uma substitui\u00e7\u00e3o inline JSON para o objeto de servi\u00e7o gerado. Se n\u00e3o estiver vazio, ele ser\u00e1 usado para substituir o objeto gerado. Requer que o objeto forne\u00e7a o campo apiVersion v\u00e1lido. Usado apenas se --expose for true.\x00Aplica a configura\u00e7\u00e3o para um recurso utilizado um nome de arquivo ou stdin\x00Aprova uma solicita\u00e7\u00e3o de assinatura de certificado\x00Atribuir o seu pr\u00f3prio ClusterIP ou configura para 'None' para um servi\u00e7o 'headless' (sem loadbalancing).\x00Se conecta a um container em execu\u00e7\u00e3o\x00Auto-escala um Deployment, ReplicaSet ou ReplicationController\x00ClusterIP que ser\u00e1 atribu\u00eddo ao servi\u00e7o. Deixe vazio para auto atribui\u00e7\u00e3o, ou configure para 'None' para criar um servi\u00e7o headless.\x00ClusterRole que esse ClusterRoleBinding deve referenciar\x00ClusterRole que esse RoleBinding deve referenciar\x00Nome do cont\u00eainer que ter\u00e1 sua imagem atualizada. Relevante apenas quando --image for especificado, caso contr\u00e1rio, ignorado. Obrigat\u00f3rio ao usar --image em um pod com v\u00e1rios cont\u00eaineres\x00Converte arquivos de configura\u00e7\u00e3o entre vers\u00f5es de API diferentes\x00Copia arquivos e diret\u00f3rios de e para containers.\x00Cria um ClusterRoleBinding para um ClusterRole especifico\x00Cria um servi\u00e7o do tipo LoadBalancer.\x00Cria um servi\u00e7o do tipo NodePort.\x00Cria um RoleBinding para uma Role ou ClusterRole especifico\x00Cria uma secret do tipo TLS\x00Cria um servi\u00e7o do tipo clusterIP.\x00Cria um configmap com base em um arquivo, diret\u00f3rio, ou um valor literal\x00Cria um deployment com um nome especificado.\x00Cria a namespace com um nome especificado\x00Cria um pod disruption budget com um nome especificado.\x00Cria uma quota com um nome especificado.\x00Cria um recurso por nome de arquivo ou stdin\x00Cria um secret para ser utilizado com o Docker registry\x00Cria um secret com base em um arquivo, diret\u00f3rio ou um valor literal\x00Cria um secret utilizando um sub-comando especificado\x00Cria uma conta de servi\u00e7o com um nome especificado\x00Cria um service utilizando um sub-comando especificado.\x00Cria um servi\u00e7o do tipo ExternalName.\x00Apaga os recusros por nome de arquivos, stdin, recursos e nomes, ou por recursos e seletor de label\x00Apaga o cluster especificado do kubeconfig\x00Apaga o contexto especificado do kubeconfig\x00Rejeita o pedido de assinatura do certificado\x00Descontinuado: Termina um recurso por nome ou nome de arquivo\x00Mostra um ou mais contextos\x00Mostra a utiliza\u00e7\u00e3o de recursos (CPU/Mem\u00f3ria) nos nodes\x00Mostra a utiliza\u00e7\u00e3o de recursos (CPU/Mem\u00f3ria) nos pods\x00Mostra a utiliza\u00e7\u00e3o de recursos (CPU/Mem\u00f3ria).\x00Mostra as informa\u00e7\u00f5es do cluster\x00Mostra os clusters definidos no kubeconfig\x00Mostra a configura\u00e7\u00e3o do kubeconfig mescladas ou um arquivo kubeconfig especificado\x00Mostra um ou mais recursos\x00Mostra o contexto corrente\x00Documenta\u00e7\u00e3o dos recursos\x00Drenar o node para prepara\u00e7\u00e3o de manuten\u00e7\u00e3o\x00Realiza o dump de muitas informa\u00e7\u00f5es relevantes para debugging e diagn\u00f3sticos\x00Edita um recurso no servidor\x00Email para o Docker registry\x00Executa um comando em um container\x00Pol\u00edtica expl\u00edcita para quando extrair imagens de cont\u00eainer. Obrigat\u00f3rio quando --image for igual \u00e0 imagem existente, caso contr\u00e1rio, ser\u00e1 ignorado.\x00Encaminhar uma ou mais portas locais para um pod\x00Ajuda sobre qualquer comando\x00IP para ser alocado no Load Balancer. Se vazio, um IP ef\u00eamero ser\u00e1 criado e utilizado (espec\u00edfico para cada provedor cloud).\x00Se n\u00e3o vazio, configura a afinidade de sess\u00e3o para o servi\u00e7o; valores v\u00e1lidos: 'None', 'ClientIP'\x00Se n\u00e3o estiver vazio, a atualiza\u00e7\u00e3o dos annotation s\u00f3 ter\u00e1 \u00eaxito se esta for a vers\u00e3o do recurso atual para o objeto. V\u00e1lido apenas ao especificar um \u00fanico recurso.\x00Se n\u00e3o estiver vazio, a atualiza\u00e7\u00e3o dos labels s\u00f3 ter\u00e1 \u00eaxito se esta for a vers\u00e3o do recurso atual para o objeto. V\u00e1lido apenas ao especificar um \u00fanico recurso.\x00Imagem a ser utilizada para atualizar o replication controller. Deve ser diferente da imagem atual (pode ser uma nova imagem ou uma nova tag). N\u00e3o pode ser utilizada com \u2014filename/-f\x00Gerencia um deployment rollout\x00Marca o node como agend\u00e1vel\x00Marca o node como n\u00e3o agend\u00e1vel\x00Marca o recurso fornecido como pausado\x00Edita o certificado dos recursos.\x00Edita o arquivo kubeconfig\x00Nome ou o n\u00famero da porta em um container em que o servi\u00e7o deve direcionar o tr\u00e1fego. Opcional.\x00Apenas retorna os logs ap\u00f3s uma data espec\u00edfica (RFC3339). Padr\u00e3o para todos os logs. Apenas um since-time / since deve ser utilizado.\x00Sa\u00edda do autocomplete de shell para um Shell espec\u00edfico (bash ou zsh)\x00Imprime o objeto formatado com a dada vers\u00e3o de grupo (por exemplo: 'extensions/v1beta1').)\x00Senha para a autentica\u00e7\u00e3o do registro do Docker\x00Caminho para a chave p\u00fablica em formato PEM.\x00Caminho para a chave private associada a um certificado fornecido.\x00Executa uma atualiza\u00e7\u00e3o cont\u00ednua\x00Pr\u00e9-condi\u00e7\u00e3o para a vers\u00e3o do recurso. Requer que a vers\u00e3o do recurso atual corresponda a este valor para escalar.\x00Mostra a informa\u00e7\u00e3o de vers\u00e3o do cliente e do servidor\x00Mostra a lista de op\u00e7\u00f5es herdadas por todos os comandos\x00Mostra os logs de um container em um pod\x00Substitui um recurso por um nome de arquivo ou stdin\x00Retoma um recurso pausado\x00Role que a RoleBinding deve referenciar\x00Executa uma imagem espec\u00edfica no cluster\x00Executa um proxy para o servidor de API do Kubernetes\x00Localiza\u00e7\u00e3o do servidor para o registro do Docker\x00Define um novo tamanho para um Deployment, ReplicaSet, Replication Controller, ou Job\x00Define funcionalidades espec\u00edficas em objetos\x00Define a anota\u00e7\u00e3o last-applied-configuration em um objeto existente para corresponder ao conte\u00fado do arquivo.\x00Define um seletor em um recurso\x00Define um cluster no arquivo kubeconfig\x00Define um contexto no arquivo kubeconfig\x00Define um usu\u00e1rio no arquivo kubeconfig\x00Define um valor individual no arquivo kubeconfig\x00Define o current-context no arquivo kubeconfig\x00Mostra os detalhes de um recurso espec\u00edfico ou de um grupo de recursos\x00Mostra o status de uma atualiza\u00e7\u00e3o dinamica\x00Sin\u00f4nimo para \u2014target-port\x00Pega um replication controlar, service, deployment ou pod e exp\u00f5e como um novo Servi\u00e7o do Kubernetes\x00A imagem para o container executar.\x00A pol\u00edtica de obten\u00e7\u00e3o de imagens. Se deixado em branco, este valor n\u00e3o ser\u00e1 especificado pelo cliente e ser\u00e1 utilizado o padr\u00e3o do servidor\x00A chave utilizada para diferenciar entre dois controlares diferentes, padr\u00e3o 'deployment'. Apenas relevante quando --image \u00e9 especificado, \u00e9 ignorado caso contr\u00e1rio\x00Um n\u00famero m\u00ednimo ou porcentagem de pods dispon\u00edveis que este budget requer.\x00O nome para o objeto rec\u00e9m criado.\x00O nome para o objeto rec\u00e9m criado. Se n\u00e3o especificado, o nome do input resource ser\u00e1 utilizado.\x00O nome do gerador de API a ser usado, veja a lista em http://kubernetes.io/docs/user-guide/kubectl-conventions/#generators.\x00O nome do gerador de API a ser usado. Atualmente existe apenas 1 gerador.\x00O nome do gerador de API a ser usado. Existem 2 geradores: 'service/v1' e 'service/v2'. A \u00fanica diferen\u00e7a entre eles \u00e9 que a porta de servi\u00e7o na v1 \u00e9 chamada de 'default', enquanto ela \u00e9 deixada sem nome na v2. O padr\u00e3o \u00e9 'service/v2'.\x00O nome do recurso para ser utilizado quando criando um servi\u00e7o. Apenas utilizado se \u2014expose \u00e9 verdadeiro\x00O protocolo de rede para o servi\u00e7o ser criado. Padr\u00e3o \u00e9 'TCP'.\x00A porta para que o servi\u00e7o possa servir. Copiado do recurso sendo exposto, se n\u00e3o especificado\x00A porta que o container exp\u00f5e. Se \u2014expose \u00e9 verdadeiro, esta tamb\u00e9m \u00e9 a porta utilizada pelo servi\u00e7o quando for criado.\x00O recurso requerido para este container. Por exemplo, 'cpu=200m,memory=512Mi'. Observe que os componentes do lado do servidor podem atribuir limites, dependendo da configura\u00e7\u00e3o do servidor, como intervalos de limite.\x00O recurso requerido de requests para este container. Por exemplo, 'cpu=100m,memory=256Mi'. Observe que os componentes do lado do servidor podem atribuir requests, dependendo da configura\u00e7\u00e3o do servidor, como intervalos de limite.\x00A politica de restart para este Pod. Poss\u00edveis valores [Always, OnFailure, Never]. Se configurado para 'Always' um deployment \u00e9 criado, se configurado para 'OnFailure' um job \u00e9 criado, se configurado para 'Never', um pod \u00e9 criado. Para os dois \u00faltimos \u2014replicas deve ser 1. Valor padr\u00e3o 'Always', para CronJobs `Never`.\x00O tipo de segredo para criar\x00Tipo para este servi\u00e7o: ClusterIP, NodePort, ou LoadBalancer. Valor padr\u00e3o \u00e9 'ClusterIP'.\x00Desfazer o rollout anterior\x00Remover um valor individual do arquivo kubeconfig\x00Atualizar o(s) campo(s) de um recurso usando a estrat\u00e9gia de merge patch\x00Atualizar a imagem de um template de pod\x00Atualizar os recursos de request/limites em um objeto com template de pod\x00Atualizar as anota\u00e7\u00f5es de um recurso\x00Atualizar os labels de um recurso\x00Atualizar o taints de um ou mais nodes\x00Nome de usu\u00e1rio para a autentica\u00e7\u00e3o no Docker registry\x00Visualizar a \u00faltima anota\u00e7\u00e3o last-applied-configuration de um recurso/objeto\x00Visualizar o hist\u00f3rico de rollout\x00Onde colocar os arquivos de sa\u00edda. Se vazio ou '-' usa o stdout do terminal, caso contr\u00e1rio, cria uma hierarquia no diret\u00f3rio configurado\x00dummy restart flag)\x00nome externo do servi\u00e7o\x00kubectl controla o gerenciador de cluster do Kubernetes\x00") func translationsKubectlPt_brLc_messagesK8sMoBytes() ([]byte, error) { return _translationsKubectlPt_brLc_messagesK8sMo, nil } func translationsKubectlPt_brLc_messagesK8sMo() (*asset, error) { bytes, err := translationsKubectlPt_brLc_messagesK8sMoBytes() if err != nil { return nil, err } info := bindataFileInfo{name: "translations/kubectl/pt_BR/LC_MESSAGES/k8s.mo", size: 0, mode: os.FileMode(0), modTime: time.Unix(0, 0)} a := &asset{bytes: bytes, info: info} return a, nil } var _translationsKubectlPt_brLc_messagesK8sPo = []byte(`# Brazilian Portuguese translation. # Copyright (C) 2020 # This file is distributed under the same license as the PACKAGE package. # FIRST AUTHOR ctadeu@gmail.com, 2020. # msgid "" msgstr "" "Project-Id-Version: \n" "Report-Msgid-Bugs-To: EMAIL\n" "POT-Creation-Date: 2017-03-14 21:32-0700\n" "PO-Revision-Date: 2020-12-11 17:03+0100\n" "Language-Team: \n" "MIME-Version: 1.0\n" "Content-Type: text/plain; charset=UTF-8\n" "Content-Transfer-Encoding: 8bit\n" "X-Generator: Poedit 2.4.2\n" "Last-Translator: Carlos Panato \n" "Plural-Forms: nplurals=2; plural=(n > 1);\n" "Language: pt_BR\n" "X-Poedit-KeywordsList: \n" #: pkg/kubectl/cmd/create_clusterrolebinding.go:35 msgid "" "\n" "\t\t # Create a ClusterRoleBinding for user1, user2, and group1 using the cluster-admin " "ClusterRole\n" "\t\t kubectl create clusterrolebinding cluster-admin --clusterrole=cluster-admin --user=user1 --" "user=user2 --group=group1" msgstr "" "\n" "\t\t # Criar o ClusterRoleBinding para user1, user2, e group1 utilizando o ClusterRole cluster-" "admin\n" "\t\t kubectl create clusterrolebinding cluster-admin --clusterrole=cluster-admin —user=user1 —" "user=user2 —group=group1" #: pkg/kubectl/cmd/create_rolebinding.go:35 msgid "" "\n" "\t\t # Create a RoleBinding for user1, user2, and group1 using the admin ClusterRole\n" "\t\t kubectl create rolebinding admin --clusterrole=admin --user=user1 --user=user2 --" "group=group1" msgstr "" "\n" "\t\t # Criar uma RoleBinding para user1, user2, e group1 utilizando o admin ClusterRole\n" "\t\t kubectl create rolebinding admin --clusterrole=admin —user=user1 —user=user2 —group=group1" #: pkg/kubectl/cmd/create_configmap.go:44 msgid "" "\n" "\t\t # Create a new configmap named my-config based on folder bar\n" "\t\t kubectl create configmap my-config --from-file=path/to/bar\n" "\n" "\t\t # Create a new configmap named my-config with specified keys instead of file basenames on " "disk\n" "\t\t kubectl create configmap my-config --from-file=key1=/path/to/bar/file1.txt --from-" "file=key2=/path/to/bar/file2.txt\n" "\n" "\t\t # Create a new configmap named my-config with key1=config1 and key2=config2\n" "\t\t kubectl create configmap my-config --from-literal=key1=config1 --from-literal=key2=config2" msgstr "" "\n" "\t\t # Criar um novo configmap com o nome de my-config baseado na pasta bar\n" "\t\t kubectl create configmap my-config —from-file=path/to/bar\n" "\n" "\t\t # Cria um novo configmap com o nome my-config, onde cada chave possui o valor especificado " "em um arquivo distinto no disco\n" "\t\t kubectl create configmap my-config —from-file=key1=/path/to/bar/file1.txt —from-file=key2=/" "path/to/bar/file2.txt\n" "\n" "\t\t # Criar um novo configmap com o nome de my-config com key1=config1 e key2=config2\n" "\t\t kubectl create configmap my-config —from-literal=key1=config1 —from-literal=key2=config2" #: pkg/kubectl/cmd/create_secret.go:135 msgid "" "\n" "\t\t # If you don't already have a .dockercfg file, you can create a dockercfg secret directly " "by using:\n" "\t\t kubectl create secret docker-registry my-secret --docker-server=DOCKER_REGISTRY_SERVER --" "docker-username=DOCKER_USER --docker-password=DOCKER_PASSWORD --docker-email=DOCKER_EMAIL" msgstr "" "\n" "\t\t # Se você ainda não tem o arquivo .dockercfg, você pode gerar diretamente o dockercfg " "secret utilizando o comando:\n" "\t\t kubectl create secret docker-registry my-secret —docker-server=DOCKER_REGISTRY_SERVER —" "docker-username=DOCKER_USER —docker-password=DOCKER_PASSWORD —docker-email=DOCKER_EMAIL" #: pkg/kubectl/cmd/top_node.go:65 msgid "" "\n" "\t\t # Show metrics for all nodes\n" "\t\t kubectl top node\n" "\n" "\t\t # Show metrics for a given node\n" "\t\t kubectl top node NODE_NAME" msgstr "" "\n" "\t\t # Mostra as métricas para todos os nodes\n" "\t\t kubectl top node\n" "\n" "\t\t # Mostra as métricas para um node específico\n" "\t\t kubectl top node NODE_NAME" #: pkg/kubectl/cmd/apply.go:84 msgid "" "\n" "\t\t# Apply the configuration in pod.json to a pod.\n" "\t\tkubectl apply -f ./pod.json\n" "\n" "\t\t# Apply the JSON passed into stdin to a pod.\n" "\t\tcat pod.json | kubectl apply -f -\n" "\n" "\t\t# Note: --prune is still in Alpha\n" "\t\t# Apply the configuration in manifest.yaml that matches label app=nginx and delete all the " "other resources that are not in the file and match label app=nginx.\n" "\t\tkubectl apply --prune -f manifest.yaml -l app=nginx\n" "\n" "\t\t# Apply the configuration in manifest.yaml and delete all the other configmaps that are not " "in the file.\n" "\t\tkubectl apply --prune -f manifest.yaml --all --prune-whitelist=core/v1/ConfigMap" msgstr "" "\n" "\t\t# Aplica a configuração do arquivo pod.json a um pod.\n" "\t\tkubectl apply -f ./pod.json\n" "\n" "\t\t# Aplica o JSON recebido via stdin para um pod.\n" "\t\tcat pod.json | kubectl apply -f -\n" "\n" "\t\t# Nota: —prune ainda está em Alpha\n" "\t\t# Aplica a configuração do manifest.yaml que conter o label app=nginx e remove todos os " "outros recursos que não estejam no arquivo e não contenham o label.\n" "\t\tkubectl apply —prune -f manifest.yaml -l app=nginx\n" "\n" "\t\t# Aplica a configuração do manifest.yaml e remove todos os outros configmaps que não estão " "no arquivo.\n" "\t\tkubectl apply —prune -f manifest.yaml —all —prune-whitelist=core/v1/ConfigMap" #: pkg/kubectl/cmd/autoscale.go:40 #, c-format msgid "" "\n" "\t\t# Auto scale a deployment \"foo\", with the number of pods between 2 and 10, no target CPU " "utilization specified so a default autoscaling policy will be used:\n" "\t\tkubectl autoscale deployment foo --min=2 --max=10\n" "\n" "\t\t# Auto scale a replication controller \"foo\", with the number of pods between 1 and 5, " "target CPU utilization at 80%:\n" "\t\tkubectl autoscale rc foo --max=5 --cpu-percent=80" msgstr "" "\n" "\t\t# Escala automaticamente um deployment \"foo\", com o número de pods entre 2 e 10, sem " "especificar a utilização da CPU o padrão da política de autoscaling será utilizado:\n" "\t\tkubectl autoscale deployment foo —min=2 —max=10\n" "\n" "\t\t# Escala automaticamente um replication controller \"foo\", com o número de pods entre 1 and " "5, e definindo a utilização da CPU em 80%:\n" "\t\tkubectl autoscale rc foo —max=5 —cpu-percent=80" #: pkg/kubectl/cmd/convert.go:49 msgid "" "\n" "\t\t# Convert 'pod.yaml' to latest version and print to stdout.\n" "\t\tkubectl convert -f pod.yaml\n" "\n" "\t\t# Convert the live state of the resource specified by 'pod.yaml' to the latest version\n" "\t\t# and print to stdout in json format.\n" "\t\tkubectl convert -f pod.yaml --local -o json\n" "\n" "\t\t# Convert all files under current directory to latest version and create them all.\n" "\t\tkubectl convert -f . | kubectl create -f -" msgstr "" "\n" "\t\t# converte o arquivo 'pod.yaml' para a versão mais atual e imprime a saída para o stdout.\n" "\t\tkubectl convert -f pod.yaml\n" "\n" "\t\t# Converte o estado atual do recurso especificado pelo 'pod.yaml' para a versão mais atual\n" "\t\t# e imprime a saída para o stdout no formato json.\n" "\t\tkubectl convert -f pod.yaml —local -o json\n" "\n" "\t\t# Converte todos os arquivos dentro do diretório atual para a versão mais recente e cria " "todos.\n" "\t\tkubectl convert -f . | kubectl create -f -" #: pkg/kubectl/cmd/create_clusterrole.go:34 msgid "" "\n" "\t\t# Create a ClusterRole named \"pod-reader\" that allows user to perform \"get\", \"watch\" " "and \"list\" on pods\n" "\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --resource=pods\n" "\n" "\t\t# Create a ClusterRole named \"pod-reader\" with ResourceName specified\n" "\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --resource=pods --resource-" "name=readablepod" msgstr "" "\n" "\t\t# Cria um ClusterRole com o nome de \"pod-reader\" que permite o usuário realizar \"get\", " "\"watch\" e \"list\" em pods\n" "\t\tkubectl create clusterrole pod-reader —verb=get,list,watch —resource=pods\n" "\n" "\t\t# Cria a ClusterRole com o nome de \"pod-reader\" com um ResourceName especificado\n" "\t\tkubectl create clusterrole pod-reader —verb=get,list,watch —resource=pods —resource-" "name=readablepod" #: pkg/kubectl/cmd/create_role.go:41 msgid "" "\n" "\t\t# Create a Role named \"pod-reader\" that allows user to perform \"get\", \"watch\" and " "\"list\" on pods\n" "\t\tkubectl create role pod-reader --verb=get --verb=list --verb=watch --resource=pods\n" "\n" "\t\t# Create a Role named \"pod-reader\" with ResourceName specified\n" "\t\tkubectl create role pod-reader --verb=get --verg=list --verb=watch --resource=pods --" "resource-name=readablepod" msgstr "" "\n" "\t\t# Cria uma Role com o nome de \"pod-reader\" que permite o usuário realizar \"get\", \"watch" "\" e \"list\" em pods\n" "\t\tkubectl create role pod-reader —verb=get —verb=list —verb=watch —resource=pods\n" "\n" "\t\t# Cria uma Role com o nome de \"pod-reader\" com um ResourceName especificado\n" "\t\tkubectl create role pod-reader —verb=get —verg=list —verb=watch —resource=pods —resource-" "name=readablepod" #: pkg/kubectl/cmd/create_quota.go:35 msgid "" "\n" "\t\t# Create a new resourcequota named my-quota\n" "\t\tkubectl create quota my-quota --hard=cpu=1,memory=1G,pods=2,services=3," "replicationcontrollers=2,resourcequotas=1,secrets=5,persistentvolumeclaims=10\n" "\n" "\t\t# Create a new resourcequota named best-effort\n" "\t\tkubectl create quota best-effort --hard=pods=100 --scopes=BestEffort" msgstr "" "\n" "\t\t# Cria um novo resourcequota com o nome de my-quota\n" "\t\tkubectl create quota my-quota —hard=cpu=1,memory=1G,pods=2,services=3," "replicationcontrollers=2,resourcequotas=1,secrets=5,persistentvolumeclaims=10\n" "\n" "\t\t# Cria um novo resourcequota com o nome de best-effort\n" "\t\tkubectl create quota best-effort —hard=pods=100 —scopes=BestEffort" #: pkg/kubectl/cmd/create_pdb.go:35 #, c-format msgid "" "\n" "\t\t# Create a pod disruption budget named my-pdb that will select all pods with the app=rails " "label\n" "\t\t# and require at least one of them being available at any point in time.\n" "\t\tkubectl create poddisruptionbudget my-pdb --selector=app=rails --min-available=1\n" "\n" "\t\t# Create a pod disruption budget named my-pdb that will select all pods with the app=nginx " "label\n" "\t\t# and require at least half of the pods selected to be available at any point in time.\n" "\t\tkubectl create pdb my-pdb --selector=app=nginx --min-available=50%" msgstr "" "\n" "\t\t# Cria um pod disruption budget com o nome de my-pdb que irá selecionar todos os pods com o " "label app=rails\n" "\t\t# e requer que pelo menos um deles esteja disponível a qualquer momento.\n" "\t\tkubectl create poddisruptionbudget my-pdb —selector=app=rails —min-available=1\n" "\n" "\t\t# Cria um pod disruption budget com o nome de my-pdb que irá selecionar todos os pods com o " "label app=nginx\n" "\t\t# e requer pelo menos que metade dos pods selecionados estejam disponíveis em qualquer " "momento.\n" "\t\tkubectl create pdb my-pdb —selector=app=nginx —min-available=50%" #: pkg/kubectl/cmd/create.go:47 msgid "" "\n" "\t\t# Create a pod using the data in pod.json.\n" "\t\tkubectl create -f ./pod.json\n" "\n" "\t\t# Create a pod based on the JSON passed into stdin.\n" "\t\tcat pod.json | kubectl create -f -\n" "\n" "\t\t# Edit the data in docker-registry.yaml in JSON using the v1 API format then create the " "resource using the edited data.\n" "\t\tkubectl create -f docker-registry.yaml --edit --output-version=v1 -o json" msgstr "" "\n" "\t\t# Cria um pod utilizando o arquivo pod.json.\n" "\t\tkubectl create -f ./pod.json\n" "\n" "\t\t# Cria um pod utilizando o JSON recebido via stdin.\n" "\t\tcat pod.json | kubectl create -f -\n" "\n" "\t\t# Edita o conteúdo do arquivo docker-registry.yaml em JSON utilizando o formato da API v1, " "criando o recurso com o conteúdo editado.\n" "\t\tkubectl create -f docker-registry.yaml —edit —output-version=v1 -o json" #: pkg/kubectl/cmd/expose.go:53 msgid "" "\n" "\t\t# Create a service for a replicated nginx, which serves on port 80 and connects to the " "containers on port 8000.\n" "\t\tkubectl expose rc nginx --port=80 --target-port=8000\n" "\n" "\t\t# Create a service for a replication controller identified by type and name specified in " "\"nginx-controller.yaml\", which serves on port 80 and connects to the containers on port 8000.\n" "\t\tkubectl expose -f nginx-controller.yaml --port=80 --target-port=8000\n" "\n" "\t\t# Create a service for a pod valid-pod, which serves on port 444 with the name \"frontend\"\n" "\t\tkubectl expose pod valid-pod --port=444 --name=frontend\n" "\n" "\t\t# Create a second service based on the above service, exposing the container port 8443 as " "port 443 with the name \"nginx-https\"\n" "\t\tkubectl expose service nginx --port=443 --target-port=8443 --name=nginx-https\n" "\n" "\t\t# Create a service for a replicated streaming application on port 4100 balancing UDP traffic " "and named 'video-stream'.\n" "\t\tkubectl expose rc streamer --port=4100 --protocol=udp --name=video-stream\n" "\n" "\t\t# Create a service for a replicated nginx using replica set, which serves on port 80 and " "connects to the containers on port 8000.\n" "\t\tkubectl expose rs nginx --port=80 --target-port=8000\n" "\n" "\t\t# Create a service for an nginx deployment, which serves on port 80 and connects to the " "containers on port 8000.\n" "\t\tkubectl expose deployment nginx --port=80 --target-port=8000" msgstr "" "\n" "\t\t# Cria um serviço para um nginx replicado, que escuta na porta 80 e conecta na porta 8000 " "dos containers.\n" "\\t\tkubectl expose rc nginx —port=80 —target-port=8000\n" "\n" "\t\t# Cria um serviço para um replication controller identificado por tipo e com o nome " "especificado em \"nginx-controller.yaml\", que escuta na porta 80 e conecta na porta 8000 dos " "containers.\n" "\t\tkubectl expose -f nginx-controller.yaml —port=80 —target-port=8000\n" "\n" "\t\t# Cria um serviço para um pod valid-pod, que escuta na porta 444 com o nome \"frontend\"\n" "\t\tkubectl expose pod valid-pod —port=444 —name=frontend\n" "\n" "\t\t# Cria um segundo serviço baseado no serviço acima, expondo a porta 8443 do container como " "porta 443 e com nome \"nginx-https\"\n" "\t\tkubectl expose service nginx —port=443 —target-port=8443 —name=nginx-https\n" "\n" "\t\t# Cria um serviço para uma aplicação streaming replicada na porta 4100 com trafico " "balanceado UDP e nome 'video-stream'.\n" "\t\tkubectl expose rc streamer —port=4100 —protocol=udp —name=video-stream\n" "\n" "\t\t# Cria um serviço para um nginx replicado usando o replica set, que escuta na porta 80 e " "conecta na porta 8000 dos containers.\n" "\t\tkubectl expose rs nginx —port=80 —target-port=8000\n" "\n" "\t\t# Cria um serviço para um deployment nginx, que escuta na porta 80 e conecta na porta 8000 " "dos containers.\n" "\t\tkubectl expose deployment nginx —port=80 —target-port=8000" #: pkg/kubectl/cmd/delete.go:68 msgid "" "\n" "\t\t# Delete a pod using the type and name specified in pod.json.\n" "\t\tkubectl delete -f ./pod.json\n" "\n" "\t\t# Delete a pod based on the type and name in the JSON passed into stdin.\n" "\t\tcat pod.json | kubectl delete -f -\n" "\n" "\t\t# Delete pods and services with same names \"baz\" and \"foo\"\n" "\t\tkubectl delete pod,service baz foo\n" "\n" "\t\t# Delete pods and services with label name=myLabel.\n" "\t\tkubectl delete pods,services -l name=myLabel\n" "\n" "\t\t# Delete a pod with minimal delay\n" "\t\tkubectl delete pod foo --now\n" "\n" "\t\t# Force delete a pod on a dead node\n" "\t\tkubectl delete pod foo --grace-period=0 --force\n" "\n" "\t\t# Delete all pods\n" "\t\tkubectl delete pods --all" msgstr "" "\n" "\t\t# Remove um pod usando o tipo e nome especificado no arquivo pod.json.\n" "\t\tkubectl delete -f ./pod.json\n" "\n" "\t\t# Remove um pod baseado no tipo e nome no JSON passado na entrada de comando(stdin).\n" "\t\tcat pod.json | kubectl delete -f -\n" "\n" "\t\t# Remove pods e serviços com os nomes \"baz\" e \"foo\"\n" "\t\tkubectl delete pod,service baz foo\n" "\n" "\t\t# Remove pods e serviços com label name=myLabel.\n" "\t\tkubectl delete pods,services -l name=myLabel\n" "\n" "\t\t# Remove um pod com um mínimo de delay\n" "\t\tkubectl delete pod foo —now\n" "\n" "\t\t# Força a remoção de um pod em um node morto\n" "\t\tkubectl delete pod foo —grace-period=0 —force\n" "\n" "\t\t# Remove todos os pods\n" "\t\tkubectl delete pods —all" #: pkg/kubectl/cmd/describe.go:54 msgid "" "\n" "\t\t# Describe a node\n" "\t\tkubectl describe nodes kubernetes-node-emt8.c.myproject.internal\n" "\n" "\t\t# Describe a pod\n" "\t\tkubectl describe pods/nginx\n" "\n" "\t\t# Describe a pod identified by type and name in \"pod.json\"\n" "\t\tkubectl describe -f pod.json\n" "\n" "\t\t# Describe all pods\n" "\t\tkubectl describe pods\n" "\n" "\t\t# Describe pods by label name=myLabel\n" "\t\tkubectl describe po -l name=myLabel\n" "\n" "\t\t# Describe all pods managed by the 'frontend' replication controller (rc-created pods\n" "\t\t# get the name of the rc as a prefix in the pod the name).\n" "\t\tkubectl describe pods frontend" msgstr "" "\n" "\t\t# Descreve um node\n" "\t\tkubectl describe nodes kubernetes-node-emt8.c.myproject.internal\n" "\n" "\t\t# Descreve um pod\n" "\t\tkubectl describe pods/nginx\n" "\n" "\t\t# Descreve um pod identificado pelo tipo e nome no arquivo \"pod.json\"\n" "\t\tkubectl describe -f pod.json\n" "\n" "\t\t# Descreve todos os pods\n" "\t\tkubectl describe pods\n" "\n" "\t\t# Descreve os pods com label name=myLabel\n" "\t\tkubectl describe po -l name=myLabel\n" "\n" "\t\t# Descreve todos os pods gerenciados pelo replication controller 'frontend' (rc-created " "pods\n" "\t\t# tem o nome de rc como prefixo no nome do pod).\n" "\t\tkubectl describe pods frontend" #: pkg/kubectl/cmd/drain.go:165 msgid "" "\n" "\t\t# Drain node \"foo\", even if there are pods not managed by a ReplicationController, " "ReplicaSet, Job, DaemonSet or StatefulSet on it.\n" "\t\t$ kubectl drain foo --force\n" "\n" "\t\t# As above, but abort if there are pods not managed by a ReplicationController, ReplicaSet, " "Job, DaemonSet or StatefulSet, and use a grace period of 15 minutes.\n" "\t\t$ kubectl drain foo --grace-period=900" msgstr "" "\n" "\t\t# Drena o node \"foo\", mesmo se os pods não são gerenciados por um ReplicationController, " "ReplicaSet, Job, DaemonSet ou StatefulSet.\n" "\t\t$ kubectl drain foo —force\n" "\n" "\t\t# Mesmo que acima, mas é interrompido se os pods não são gerenciados por um " "ReplicationController, ReplicaSet, Job, DaemonSet ou StatefulSet, e tem espera por 15 minutos.\n" "\t\t$ kubectl drain foo —grace-period=900" #: pkg/kubectl/cmd/edit.go:80 msgid "" "\n" "\t\t# Edit the service named 'docker-registry':\n" "\t\tkubectl edit svc/docker-registry\n" "\n" "\t\t# Use an alternative editor\n" "\t\tKUBE_EDITOR=\"nano\" kubectl edit svc/docker-registry\n" "\n" "\t\t# Edit the job 'myjob' in JSON using the v1 API format:\n" "\t\tkubectl edit job.v1.batch/myjob -o json\n" "\n" "\t\t# Edit the deployment 'mydeployment' in YAML and save the modified config in its " "annotation:\n" "\t\tkubectl edit deployment/mydeployment -o yaml --save-config" msgstr "" "\n" "\t\t# Edita o serviço chamado 'docker-registry':\n" "\t\tkubectl edit svc/docker-registry\n" "\n" "\t\t# Usa um editor alternativo\n" "\t\tKUBE_EDITOR=\"nano\" kubectl edit svc/docker-registry\n" "\n" "\t\t# Edita o Job 'myjob' em JSON utilizando o format da API v1:\n" "\t\tkubectl edit job.v1.batch/myjob -o json\n" "\n" "\t\t# Edita o deployment 'mydeployment' em YAML e salva a configuração modificada em sua " "annotation:\n" "\t\tkubectl edit deployment/mydeployment -o yaml —save-config" #: pkg/kubectl/cmd/exec.go:41 msgid "" "\n" "\t\t# Get output from running 'date' from pod 123456-7890, using the first container by default\n" "\t\tkubectl exec 123456-7890 date\n" "\n" "\t\t# Get output from running 'date' in ruby-container from pod 123456-7890\n" "\t\tkubectl exec 123456-7890 -c ruby-container date\n" "\n" "\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container from pod 123456-7890\n" "\t\t# and sends stdout/stderr from 'bash' back to the client\n" "\t\tkubectl exec 123456-7890 -c ruby-container -i -t -- bash -il" msgstr "" "\n" "\t\t# Pega a saída de execução do comando 'date' do pod 123456-7890, usando o primeiro container " "por padrão\n" "\t\tkubectl exec 123456-7890 date\n" "\n" "\t\t# Pega a saída de execução do comando 'date' no ruby-container do pod 123456-7890\n" "\t\tkubectl exec 123456-7890 -c ruby-container date\n" "\n" "\t\t# Troca para raw terminal mode, envia stdin para o 'bash' no ruby-container do pod " "123456-7890\n" "\t\t# e envia stdout/stderr do 'bash' de volta para o cliente\n" "\t\tkubectl exec 123456-7890 -c ruby-container -i -t — bash -il" #: pkg/kubectl/cmd/attach.go:42 msgid "" "\n" "\t\t# Get output from running pod 123456-7890, using the first container by default\n" "\t\tkubectl attach 123456-7890\n" "\n" "\t\t# Get output from ruby-container from pod 123456-7890\n" "\t\tkubectl attach 123456-7890 -c ruby-container\n" "\n" "\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container from pod 123456-7890\n" "\t\t# and sends stdout/stderr from 'bash' back to the client\n" "\t\tkubectl attach 123456-7890 -c ruby-container -i -t\n" "\n" "\t\t# Get output from the first pod of a ReplicaSet named nginx\n" "\t\tkubectl attach rs/nginx\n" "\t\t" msgstr "" "\n" "\t\t# Pega a saída do pod em execução 123456-7890, utilizando o primeiro container por padrão\n" "\t\tkubectl attach 123456-7890\n" "\n" "\t\t# Pega a saída do ruby-container do pod 123456-7890\n" "\t\tkubectl attach 123456-7890 -c ruby-container\n" "\n" "\t\t# Troca para raw terminal mode, envia stdin para o 'bash' no ruby-container do pod " "123456-7890\n" "\t\t# e envia stdout/stderr do 'bash' de volta para o cliente\n" "\t\tkubectl attach 123456-7890 -c ruby-container -i -t\n" "\n" "\t\t# Pega a saída do primeiro pod de um ReplicaSet chamado nginx\n" "\t\tkubectl attach rs/nginx\n" "\t\t" #: pkg/kubectl/cmd/explain.go:39 msgid "" "\n" "\t\t# Get the documentation of the resource and its fields\n" "\t\tkubectl explain pods\n" "\n" "\t\t# Get the documentation of a specific field of a resource\n" "\t\tkubectl explain pods.spec.containers" msgstr "" "\n" "\t\t# Mostra a documentação do recurso e seus campos\n" "\t\tkubectl explain pods\n" "\n" "\t\t# Mostra a documentação de um campo específico de um recurso\n" "\t\tkubectl explain pods.spec.containers" #: pkg/kubectl/cmd/completion.go:65 msgid "" "\n" "\t\t# Install bash completion on a Mac using homebrew\n" "\t\tbrew install bash-completion\n" "\t\tprintf \"\n" "# Bash completion support\n" "source $(brew --prefix)/etc/bash_completion\n" "\" >> $HOME/.bash_profile\n" "\t\tsource $HOME/.bash_profile\n" "\n" "\t\t# Load the kubectl completion code for bash into the current shell\n" "\t\tsource <(kubectl completion bash)\n" "\n" "\t\t# Write bash completion code to a file and source if from .bash_profile\n" "\t\tkubectl completion bash > ~/.kube/completion.bash.inc\n" "\t\tprintf \"\n" "# Kubectl shell completion\n" "source '$HOME/.kube/completion.bash.inc'\n" "\" >> $HOME/.bash_profile\n" "\t\tsource $HOME/.bash_profile\n" "\n" "\t\t# Load the kubectl completion code for zsh[1] into the current shell\n" "\t\tsource <(kubectl completion zsh)" msgstr "" "\n" "\t\t# Instala o auto completar do bash no Mac utilizando homebrew\n" "\t\tbrew install bash-completion\n" "\t\tprintf \"\n" "# Bash completion support\n" "source $(brew —prefix)/etc/bash_completion\n" "\" >> $HOME/.bash_profile\n" "\t\tsource $HOME/.bash_profile\n" "\n" "\t\t# Carrega o código de auto complentar do kubectl para o bash no shell corrente\n" "\t\tsource <(kubectl completion bash)\n" "\n" "\t\t# Escreve o código de autocompletar do bash no arquivo de perfil e faz o source se é para o ." "bash_profile\n" "\t\tkubectl completion bash > ~/.kube/completion.bash.inc\n" "\t\tprintf \"\n" "# Kubectl shell completion\n" "source '$HOME/.kube/completion.bash.inc'\n" "\" >> $HOME/.bash_profile\n" "\t\tsource $HOME/.bash_profile\n" "\n" "\t\t# Carrega o código de auto complentar do kubectl para zsh[1] no shell em utilização\n" "\t\tsource <(kubectl completion zsh)" #: pkg/kubectl/cmd/get.go:64 msgid "" "\n" "\t\t# List all pods in ps output format.\n" "\t\tkubectl get pods\n" "\n" "\t\t# List all pods in ps output format with more information (such as node name).\n" "\t\tkubectl get pods -o wide\n" "\n" "\t\t# List a single replication controller with specified NAME in ps output format.\n" "\t\tkubectl get replicationcontroller web\n" "\n" "\t\t# List a single pod in JSON output format.\n" "\t\tkubectl get -o json pod web-pod-13je7\n" "\n" "\t\t# List a pod identified by type and name specified in \"pod.yaml\" in JSON output format.\n" "\t\tkubectl get -f pod.yaml -o json\n" "\n" "\t\t# Return only the phase value of the specified pod.\n" "\t\tkubectl get -o template pod/web-pod-13je7 --template={{.status.phase}}\n" "\n" "\t\t# List all replication controllers and services together in ps output format.\n" "\t\tkubectl get rc,services\n" "\n" "\t\t# List one or more resources by their type and names.\n" "\t\tkubectl get rc/web service/frontend pods/web-pod-13je7\n" "\n" "\t\t# List all resources with different types.\n" "\t\tkubectl get all" msgstr "" "\n" "\t\t# Lista todos os pods no formato de saída ps.\n" "\t\tkubectl get pods\n" "\n" "\t\t# Lista todos os pods no formato de saída ps com mais informações (como o nome do node).\n" "\t\tkubectl get pods -o wide\n" "\n" "\t\t# Lista um único replication controller com o nome especificado no formato de saída ps\n" "\t\tkubectl get replicationcontroller web\n" "\n" "\t\t# Lista um único pod e usa o formato de saída JSON.\n" "\t\tkubectl get -o json pod web-pod-13je7\n" "\n" "\t\t# Lista o pod identificado com o tipo e nome especificado no \"pod.yaml\" e usa o formato de " "saída JSON.\n" "\t\tkubectl get -f pod.yaml -o json\n" "\n" "\t\t# Mostra apenas em que estágio o pod especificado está.\n" "\t\tkubectl get -o template pod/web-pod-13je7 —template={{.status.phase}}\n" "\n" "\t\t# Lista todos os replication controllers e services juntos no formato de saída ps.\n" "\t\tkubectl get rc,services\n" "\n" "\t\t# Lista um ou mais recursos pelo seu tipo e nomes.\n" "\t\tkubectl get rc/web service/frontend pods/web-pod-13je7\n" "\n" "\t\t# Lista todos os recursos e com tipos diferentes.\n" "\t\tkubectl get all" #: pkg/kubectl/cmd/portforward.go:53 msgid "" "\n" "\t\t# Listen on ports 5000 and 6000 locally, forwarding data to/from ports 5000 and 6000 in the " "pod\n" "\t\tkubectl port-forward mypod 5000 6000\n" "\n" "\t\t# Listen on port 8888 locally, forwarding to 5000 in the pod\n" "\t\tkubectl port-forward mypod 8888:5000\n" "\n" "\t\t# Listen on a random port locally, forwarding to 5000 in the pod\n" "\t\tkubectl port-forward mypod :5000\n" "\n" "\t\t# Listen on a random port locally, forwarding to 5000 in the pod\n" "\t\tkubectl port-forward mypod 0:5000" msgstr "" "\n" "\t\t# Escuta nas portas locais 5000 e 6000, e redireciona os dados de/para as portas 5000 e 6000 " "no pod\n" "\t\tkubectl port-forward mypod 5000 6000\n" "\n" "\t\t# Escuta na porta local 8888 localmente, e redireciona para a porta 5000 no pod\n" "\t\tkubectl port-forward mypod 8888:5000\n" "\n" "\t\t# Escuta uma porta local aleatória, e redireciona para a porta 5000 no pod\n" "\t\tkubectl port-forward mypod :5000\n" "\n" "\t\t# Escuta uma porta local aleatória, e redireciona para a porta 5000 no pod\\n\n" "\t\tkubectl port-forward mypod 0:5000" #: pkg/kubectl/cmd/drain.go:118 msgid "" "\n" "\t\t# Mark node \"foo\" as schedulable.\n" "\t\t$ kubectl uncordon foo" msgstr "" "\n" "\t\t# Remove a restrição de execução de Pods no node \"foo\".\n" "\t\t$ kubectl uncordon foo" #: pkg/kubectl/cmd/drain.go:93 msgid "" "\n" "\t\t# Mark node \"foo\" as unschedulable.\n" "\t\tkubectl cordon foo" msgstr "" "\n" "\t\t# Restringe a execução de novos Pods no node \"foo\".\n" "\t\tkubectl cordon foo" #: pkg/kubectl/cmd/patch.go:66 msgid "" "\n" "\t\t# Partially update a node using strategic merge patch\n" "\t\tkubectl patch node k8s-node-1 -p '{\"spec\":{\"unschedulable\":true}}'\n" "\n" "\t\t# Partially update a node identified by the type and name specified in \"node.json\" using " "strategic merge patch\n" "\t\tkubectl patch -f node.json -p '{\"spec\":{\"unschedulable\":true}}'\n" "\n" "\t\t# Update a container's image; spec.containers[*].name is required because it's a merge key\n" "\t\tkubectl patch pod valid-pod -p '{\"spec\":{\"containers\":[{\"name\":\"kubernetes-serve-" "hostname\",\"image\":\"new image\"}]}}'\n" "\n" "\t\t# Update a container's image using a json patch with positional arrays\n" "\t\tkubectl patch pod valid-pod --type='json' -p='[{\"op\": \"replace\", \"path\": \"/spec/" "containers/0/image\", \"value\":\"new image\"}]'" msgstr "" "\n" "\t\t# Atualiza parcialmente um node utilizando a estratégia merge patch\n" "\t\tkubectl patch node k8s-node-1 -p '{\"spec\":{\"unschedulable\":true}}'\n" "\n" "\t\t# Atualiza parcialmente um node identificado pelo tipo e nome no arquivo \"node.json\" " "utilizando a estratégia merge patch\n" "\t\tkubectl patch -f node.json -p '{\"spec\":{\"unschedulable\":true}}'\n" "\n" "\t\t# Atualiza uma imagem em um container; spec.containers[*].name é requerido pois será usado " "como índice para a mudança\n" "\t\tkubectl patch pod valid-pod -p '{\"spec\":{\"containers\":[{\"name\":\"kubernetes-serve-" "hostname\",\"image\":\"new image\"}]}}'\n" "\n" "\t\t# Atualiza uma imagem em um container utilizando o json patch com positional arrays\n" "\t\tkubectl patch pod valid-pod —type='json' -p='[{\"op\": \"replace\", \"path\": \"/spec/" "containers/0/image\", \"value\":\"new image\"}]'" #: pkg/kubectl/cmd/options.go:29 msgid "" "\n" "\t\t# Print flags inherited by all commands\n" "\t\tkubectl options" msgstr "" "\n" "\t\t# Mostra as opções herdadas por todos os comandos\n" "\t\tkubectl options" #: pkg/kubectl/cmd/clusterinfo.go:41 msgid "" "\n" "\t\t# Print the address of the master and cluster services\n" "\t\tkubectl cluster-info" msgstr "" "\n" "\t\t# Mostra o endereço do servidor de gerenciamento e dos serviços do cluster\n" "\t\tkubectl cluster-info" #: pkg/kubectl/cmd/version.go:32 msgid "" "\n" "\t\t# Print the client and server versions for the current context\n" "\t\tkubectl version" msgstr "" "\n" "\t\t# Imprime a versão do cliente e do servidor para o contexto atual\n" "\t\tkubectl version" #: pkg/kubectl/cmd/apiversions.go:34 msgid "" "\n" "\t\t# Print the supported API versions\n" "\t\tkubectl api-versions" msgstr "" "\n" "\t\t# Mostra as versões de API suportadas\n" "\t\tkubectl api-versions" #: pkg/kubectl/cmd/replace.go:50 msgid "" "\n" "\t\t# Replace a pod using the data in pod.json.\n" "\t\tkubectl replace -f ./pod.json\n" "\n" "\t\t# Replace a pod based on the JSON passed into stdin.\n" "\t\tcat pod.json | kubectl replace -f -\n" "\n" "\t\t# Update a single-container pod's image version (tag) to v4\n" "\t\tkubectl get pod mypod -o yaml | sed 's/\\(image: myimage\\):.*$/:v4/' | kubectl replace -f " "-\n" "\n" "\t\t# Force replace, delete and then re-create the resource\n" "\t\tkubectl replace --force -f ./pod.json" msgstr "" "\n" "\t\t# Substitui um pod utlizando os dados contidos em pod.json.\n" "\t\tkubectl replace -f ./pod.json\n" "\n" "\t\t# Troca um pod com base no JSON fornecido no stdin.\n" "\t\tcat pod.json | kubectl replace -f -\n" "\n" "\t\t# Atualiza uma versão de imagem (tag) de um pod com um único container para v4\n" "\t\tkubectl get pod mypod -o yaml | sed 's/\\(image: myimage\\):.*$/:v4/' | kubectl replace -f " "-\n" "\n" "\t\t# Força a troca, removendo e recriando o recurso\n" "\t\tkubectl replace —force -f ./pod.json" #: pkg/kubectl/cmd/logs.go:40 msgid "" "\n" "\t\t# Return snapshot logs from pod nginx with only one container\n" "\t\tkubectl logs nginx\n" "\n" "\t\t# Return snapshot logs for the pods defined by label app=nginx\n" "\t\tkubectl logs -lapp=nginx\n" "\n" "\t\t# Return snapshot of previous terminated ruby container logs from pod web-1\n" "\t\tkubectl logs -p -c ruby web-1\n" "\n" "\t\t# Begin streaming the logs of the ruby container in pod web-1\n" "\t\tkubectl logs -f -c ruby web-1\n" "\n" "\t\t# Display only the most recent 20 lines of output in pod nginx\n" "\t\tkubectl logs --tail=20 nginx\n" "\n" "\t\t# Show all logs from pod nginx written in the last hour\n" "\t\tkubectl logs --since=1h nginx\n" "\n" "\t\t# Return snapshot logs from first container of a job named hello\n" "\t\tkubectl logs job/hello\n" "\n" "\t\t# Return snapshot logs from container nginx-1 of a deployment named nginx\n" "\t\tkubectl logs deployment/nginx -c nginx-1" msgstr "" "\n" "\t\t# Retorna os logs do pod nginx com um único container\n" "\t\tkubectl logs nginx\n" "\n" "\t\t# Retorna os logs dos pods definidos pelo label app=nginx\n" "\t\tkubectl logs -lapp=nginx\n" "\n" "\t\t# Retorna os logs do container ruby finalizado do pod web-1\n" "\t\tkubectl logs -p -c ruby web-1\n" "\n" "\t\t# Começa o streaming de logs de um ruby container no pod web-1\n" "\t\tkubectl logs -f -c ruby web-1\n" "\n" "\t\t# Mostra apenas as 20 linhas mais recentes de saída do pod nginx\n" "\t\tkubectl logs —tail=20 nginx\n" "\n" "\t\t# Mostra todos os logs do pod nginx escrito na última hora\n" "\t\tkubectl logs —since=1h nginx\n" "\n" "\t\t# Retorna os logs do primeiro container com o Job chamado hello\n" "\t\tkubectl logs job/hello\n" "\n" "\t\t# Retorna os logs do container nginx-1 de um deployment chamado nginx\n" "\t\tkubectl logs deployment/nginx -c nginx-1" #: pkg/kubectl/cmd/proxy.go:53 msgid "" "\n" "\t\t# Run a proxy to kubernetes apiserver on port 8011, serving static content from ./local/" "www/\n" "\t\tkubectl proxy --port=8011 --www=./local/www/\n" "\n" "\t\t# Run a proxy to kubernetes apiserver on an arbitrary local port.\n" "\t\t# The chosen port for the server will be output to stdout.\n" "\t\tkubectl proxy --port=0\n" "\n" "\t\t# Run a proxy to kubernetes apiserver, changing the api prefix to k8s-api\n" "\t\t# This makes e.g. the pods api available at localhost:8001/k8s-api/v1/pods/\n" "\t\tkubectl proxy --api-prefix=/k8s-api" msgstr "" "\n" "\t\t# Executa um proxy para o apiserver do kubernetes na porta 8011, servindo um conteúdo " "estático do caminho ./local/www/\n" "\t\tkubectl proxy —port=8011 —www=./local/www/\n" "\n" "\t\t# Executa um proxy para o apiserver do kubernetes em uma porta local arbitrária.\n" "\t\t# A porta escolhida para o servidor será utilizada para o saída de stdout.\n" "\t\tkubectl proxy —port=0\n" "\n" "\t\t# Executa um proxy para o apiserver do kubernetes, mudando o prefixo do api para k8s-api\n" "\t\t# Com isso a api dos pods estarão disponível em localhost:8001/k8s-api/v1/pods/\n" "\t\tkubectl proxy —api-prefix=/k8s-api" #: pkg/kubectl/cmd/scale.go:43 msgid "" "\n" "\t\t# Scale a replicaset named 'foo' to 3.\n" "\t\tkubectl scale --replicas=3 rs/foo\n" "\n" "\t\t# Scale a resource identified by type and name specified in \"foo.yaml\" to 3.\n" "\t\tkubectl scale --replicas=3 -f foo.yaml\n" "\n" "\t\t# If the deployment named mysql's current size is 2, scale mysql to 3.\n" "\t\tkubectl scale --current-replicas=2 --replicas=3 deployment/mysql\n" "\n" "\t\t# Scale multiple replication controllers.\n" "\t\tkubectl scale --replicas=5 rc/foo rc/bar rc/baz\n" "\n" "\t\t# Scale job named 'cron' to 3.\n" "\t\tkubectl scale --replicas=3 job/cron" msgstr "" "\n" "\t\t# Escala um replicaset chamado 'foo' para 3.\n" "\t\tkubectl scale —replicas=3 rs/foo\n" "\n" "\t\t# Escala um recurso identificado pelo tipo e nome especificado no arquivo \"foo.yaml\" para " "3.\n" "\t\tkubectl scale —replicas=3 -f foo.yaml\n" "\n" "\t\t# Se um deployment chamado mysql tem tamanho 2, escala o mysql para 3.\n" "\t\tkubectl scale —current-replicas=2 —replicas=3 deployment/mysql\n" "\n" "\t\t# Escala múltiplos replication controllers.\n" "\t\tkubectl scale —replicas=5 rc/foo rc/bar rc/baz\n" "\n" "\t\t# Escala um Job chamado 'cron' para 3.\n" "\t\tkubectl scale —replicas=3 job/cron" #: pkg/kubectl/cmd/apply_set_last_applied.go:67 msgid "" "\n" "\t\t# Set the last-applied-configuration of a resource to match the contents of a file.\n" "\t\tkubectl apply set-last-applied -f deploy.yaml\n" "\n" "\t\t# Execute set-last-applied against each configuration file in a directory.\n" "\t\tkubectl apply set-last-applied -f path/\n" "\n" "\t\t# Set the last-applied-configuration of a resource to match the contents of a file, will " "create the annotation if it does not already exist.\n" "\t\tkubectl apply set-last-applied -f deploy.yaml --create-annotation=true\n" "\t\t" msgstr "" "\n" "\t\t# Ajusta o last-applied-configuration de um recurso para corresponder ao conteúdo de um " "arquivo.\n" "\t\tkubectl apply set-last-applied -f deploy.yaml\n" "\n" "\t\t# Executa o set-last-applied em todos os arquivos de configuração no diretório.\n" "\t\tkubectl apply set-last-applied -f path/\n" "\n" "\t\t# Ajusta o last-applied-configuration de um recurso para corresponder ao conteúdo de um " "arquivo, será criada uma annotation se esta ainda não existe.\n" "\t\tkubectl apply set-last-applied -f deploy.yaml —create-annotation=true\n" "\t\t" #: pkg/kubectl/cmd/top_pod.go:61 msgid "" "\n" "\t\t# Show metrics for all pods in the default namespace\n" "\t\tkubectl top pod\n" "\n" "\t\t# Show metrics for all pods in the given namespace\n" "\t\tkubectl top pod --namespace=NAMESPACE\n" "\n" "\t\t# Show metrics for a given pod and its containers\n" "\t\tkubectl top pod POD_NAME --containers\n" "\n" "\t\t# Show metrics for the pods defined by label name=myLabel\n" "\t\tkubectl top pod -l name=myLabel" msgstr "" "\n" "\t\t# Mostra as métricas para todos os pods no namespace default\n" "\t\tkubectl top pod\n" "\n" "\t\t# Mostra as métricas para todos os pods em um dado namespace\n" "\t\tkubectl top pod —namespace=NAMESPACE\n" "\n" "\t\t# Mostra as métricas para um dado pod e seus containers\n" "\t\tkubectl top pod POD_NAME —containers\n" "\n" "\t\t# Mostra as métricas para os pods definidos pelo label name=myLabel\n" "\t\tkubectl top pod -l name=myLabel" #: pkg/kubectl/cmd/stop.go:40 msgid "" "\n" "\t\t# Shut down foo.\n" "\t\tkubectl stop replicationcontroller foo\n" "\n" "\t\t# Stop pods and services with label name=myLabel.\n" "\t\tkubectl stop pods,services -l name=myLabel\n" "\n" "\t\t# Shut down the service defined in service.json\n" "\t\tkubectl stop -f service.json\n" "\n" "\t\t# Shut down all resources in the path/to/resources directory\n" "\t\tkubectl stop -f path/to/resources" msgstr "" "\n" "\t\t# Termina o replicationcontroller foo.\n" "\t\tkubectl stop replicationcontroller foo\n" "\n" "\t\t# Para os pods e serviços com o label name=myLabel.\n" "\t\tkubectl stop pods,services -l name=myLabel\n" "\n" "\t\t# Termina o serviço definido no arquivo service.json\n" "\t\tkubectl stop -f service.json\n" "\n" "\t\t# Termina todos os recursos no caminho do diretório path/to/resources\n" "\t\tkubectl stop -f path/to/resources" #: pkg/kubectl/cmd/run.go:57 msgid "" "\n" "\t\t# Start a single instance of nginx.\n" "\t\tkubectl run nginx --image=nginx\n" "\n" "\t\t# Start a single instance of hazelcast and let the container expose port 5701 .\n" "\t\tkubectl run hazelcast --image=hazelcast --port=5701\n" "\n" "\t\t# Start a single instance of hazelcast and set environment variables \"DNS_DOMAIN=cluster\" " "and \"POD_NAMESPACE=default\" in the container.\n" "\t\tkubectl run hazelcast --image=hazelcast --env=\"DNS_DOMAIN=cluster\" --env=" "\"POD_NAMESPACE=default\"\n" "\n" "\t\t# Start a replicated instance of nginx.\n" "\t\tkubectl run nginx --image=nginx --replicas=5\n" "\n" "\t\t# Dry run. Print the corresponding API objects without creating them.\n" "\t\tkubectl run nginx --image=nginx --dry-run\n" "\n" "\t\t# Start a single instance of nginx, but overload the spec of the deployment with a partial " "set of values parsed from JSON.\n" "\t\tkubectl run nginx --image=nginx --overrides='{ \"apiVersion\": \"v1\", \"spec\": { ... } }'\n" "\n" "\t\t# Start a pod of busybox and keep it in the foreground, don't restart it if it exits.\n" "\t\tkubectl run -i -t busybox --image=busybox --restart=Never\n" "\n" "\t\t# Start the nginx container using the default command, but use custom arguments (arg1 .. " "argN) for that command.\n" "\t\tkubectl run nginx --image=nginx -- ... \n" "\n" "\t\t# Start the nginx container using a different command and custom arguments.\n" "\t\tkubectl run nginx --image=nginx --command -- ... \n" "\n" "\t\t# Start the perl container to compute π to 2000 places and print it out.\n" "\t\tkubectl run pi --image=perl --restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'\n" "\n" "\t\t# Start the cron job to compute π to 2000 places and print it out every 5 minutes.\n" "\t\tkubectl run pi --schedule=\"0/5 * * * ?\" --image=perl --restart=OnFailure -- perl -" "Mbignum=bpi -wle 'print bpi(2000)'" msgstr "" "\n" "\t\t# Inicia uma única instância de nginx.\n" "\t\tkubectl run nginx —image=nginx\n" "\n" "\t\t# Inicia uma única instância do hazelcast e expõe a porta 5701 do container.\n" "\t\tkubectl run hazelcast —image=hazelcast —port=5701\n" "\n" "\t\t# Inicia uma única instância do hazelcast e seta as variáveis de ambiente " "\"DNS_DOMAIN=cluster\" e \"POD_NAMESPACE=default\" no container.\n" "\t\tkubectl run hazelcast —image=hazelcast —env=\"DNS_DOMAIN=cluster\" —env=" "\"POD_NAMESPACE=default\"\n" "\n" "\t\t# Inicia uma instância replicada de nginx.\n" "\t\tkubectl run nginx —image=nginx —replicas=5\n" "\n" "\t\t# Dry run. Mostra os objetos da API correspondente sem criar elas.\n" "\t\tkubectl run nginx —image=nginx —dry-run\n" "\n" "\t\t# Inicia uma única instância de nginx, mas sobrescreve a spec do deployment com um conjunto " "parcial de valores passeados do JSON.\n" "\t\tkubectl run nginx —image=nginx —overrides='{ \"apiVersion\": \"v1\", \"spec\": { … } }'\n" "\n" "\t\t# Inicia um pod de busybox e mantém ele em primeiro plano, não reinicia se ele já existe.\n" "\t\tkubectl run -i -t busybox —image=busybox —restart=Never\n" "\n" "\t\t# Inicia um container nginx usando o comando padrão, mas utiliza argumentos customizados " "(arg1 .. argN) para o comando.\n" "\t\tkubectl run nginx —image=nginx — \n" "\n" "\t\t# Inicia um container nginx usando um comando diferente e argumentos customizados.\n" "\t\tkubectl run nginx —image=nginx —command — \n" "\n" "\t\t# Inicia um container perl para processar π to 2000 posições e mostra a saída.\n" "\t\tkubectl run pi —image=perl —restart=OnFailure — perl -Mbignum=bpi -wle 'print bpi(2000)'\n" "\n" "\t\t# Inicia um cron job para processar as 2000 posições de π e mostra a saída a cada 5 " "minutos.\n" "\t\tkubectl run pi —schedule=\"0/5 * * * ?\" —image=perl —restart=OnFailure — perl -Mbignum=bpi -" "wle 'print bpi(2000)'" #: pkg/kubectl/cmd/taint.go:67 msgid "" "\n" "\t\t# Update node 'foo' with a taint with key 'dedicated' and value 'special-user' and effect " "'NoSchedule'.\n" "\t\t# If a taint with that key and effect already exists, its value is replaced as specified.\n" "\t\tkubectl taint nodes foo dedicated=special-user:NoSchedule\n" "\n" "\t\t# Remove from node 'foo' the taint with key 'dedicated' and effect 'NoSchedule' if one " "exists.\n" "\t\tkubectl taint nodes foo dedicated:NoSchedule-\n" "\n" "\t\t# Remove from node 'foo' all the taints with key 'dedicated'\n" "\t\tkubectl taint nodes foo dedicated-" msgstr "" "\n" "\t\t# Atualiza a restrição para a chave 'dedicated' e o valor 'special-user' e o efeito " "'NoSchedule' para o node 'foo'.\n" "\t\t# Se o taint com esta chave e efeito já existirem, o seu valor é substituído pelo " "especificado.\n" "\t\tkubectl taint nodes foo dedicated=special-user:NoSchedule\n" "\n" "\t\t# Remove a restrição com a chave 'dedicated' e efeito 'NoSchedule' do nodo 'foo' se " "existir.\n" "\t\tkubectl taint nodes foo dedicated:NoSchedule-\n" "\n" "\t\t# Remove o node 'foo' todos os taints com a chave 'dedicated'\n" "\t\tkubectl taint nodes foo dedicated-" #: pkg/kubectl/cmd/label.go:77 msgid "" "\n" "\t\t# Update pod 'foo' with the label 'unhealthy' and the value 'true'.\n" "\t\tkubectl label pods foo unhealthy=true\n" "\n" "\t\t# Update pod 'foo' with the label 'status' and the value 'unhealthy', overwriting any " "existing value.\n" "\t\tkubectl label --overwrite pods foo status=unhealthy\n" "\n" "\t\t# Update all pods in the namespace\n" "\t\tkubectl label pods --all status=unhealthy\n" "\n" "\t\t# Update a pod identified by the type and name in \"pod.json\"\n" "\t\tkubectl label -f pod.json status=unhealthy\n" "\n" "\t\t# Update pod 'foo' only if the resource is unchanged from version 1.\n" "\t\tkubectl label pods foo status=unhealthy --resource-version=1\n" "\n" "\t\t# Update pod 'foo' by removing a label named 'bar' if it exists.\n" "\t\t# Does not require the --overwrite flag.\n" "\t\tkubectl label pods foo bar-" msgstr "" "\n" "\t\t# Atualiza o pod 'foo' com o label 'unhealthy' e valor 'true'.\n" "\t\tkubectl label pods foo unhealthy=true\n" "\n" "\t\t# Atualiza o pod 'foo' com o label 'status' e valor 'unhealthy', sobrescrevendo qualquer " "valor existente.\n" "\t\tkubectl label —overwrite pods foo status=unhealthy\n" "\n" "\t\t# Atualiza todos os pods no namespace corrente\n" "\t\tkubectl label pods —all status=unhealthy\n" "\n" "\t\t# Atualiza o pod identificado pelo tipo e nome em \"pod.json\"\n" "\t\tkubectl label -f pod.json status=unhealthy\n" "\n" "\t\t# Atualiza o pod 'foo' apenas se o recurso não foi modificado na versão 1.\n" "\t\tkubectl label pods foo status=unhealthy —resource-version=1\n" "\n" "\t\t# Atualiza o pod 'foo' removendo o label chamado 'bar', se ele existir.\n" "\t\t# Não necessita a flag —overwrite.\n" "\t\tkubectl label pods foo bar-" #: pkg/kubectl/cmd/rollingupdate.go:54 msgid "" "\n" "\t\t# Update pods of frontend-v1 using new replication controller data in frontend-v2.json.\n" "\t\tkubectl rolling-update frontend-v1 -f frontend-v2.json\n" "\n" "\t\t# Update pods of frontend-v1 using JSON data passed into stdin.\n" "\t\tcat frontend-v2.json | kubectl rolling-update frontend-v1 -f -\n" "\n" "\t\t# Update the pods of frontend-v1 to frontend-v2 by just changing the image, and switching " "the\n" "\t\t# name of the replication controller.\n" "\t\tkubectl rolling-update frontend-v1 frontend-v2 --image=image:v2\n" "\n" "\t\t# Update the pods of frontend by just changing the image, and keeping the old name.\n" "\t\tkubectl rolling-update frontend --image=image:v2\n" "\n" "\t\t# Abort and reverse an existing rollout in progress (from frontend-v1 to frontend-v2).\n" "\t\tkubectl rolling-update frontend-v1 frontend-v2 --rollback" msgstr "" "\n" "\t\t# Atualiza os pods de frontend-v1 utilizando os dados do novo replication controller " "definido em frontend-v2.json.\n" "\t\tkubectl rolling-update frontend-v1 -f frontend-v2.json\n" "\n" "\t\t# Atualiza os pods do frontend-v1 utilizando os dados em JSON passados pelo stdin.\n" "\t\tcat frontend-v2.json | kubectl rolling-update frontend-v1 -f -\n" "\n" "\t\t# Atualiza os pods do frontend-v1 para frontend-v2 trocando a imagem, e trocando o\n" "\t\t# nome do replication controller.\n" "\t\tkubectl rolling-update frontend-v1 frontend-v2 --image=image:v2\n" "\n" "\t\t# Atualiza os pods do frontend trocando a imagem, e mantendo o nome antigo.\n" "\t\tkubectl rolling-update frontend --image=image:v2\n" "\n" "\t\t# Cancela e reverte um rollout existente em progresso (de frontend-v1 para frontend-v2).\n" "\t\tkubectl rolling-update frontend-v1 frontend-v2 --rollback" #: pkg/kubectl/cmd/apply_view_last_applied.go:52 msgid "" "\n" "\t\t# View the last-applied-configuration annotations by type/name in YAML.\n" "\t\tkubectl apply view-last-applied deployment/nginx\n" "\n" "\t\t# View the last-applied-configuration annotations by file in JSON\n" "\t\tkubectl apply view-last-applied -f deploy.yaml -o json" msgstr "" "\n" "\t\t# Visualiza a anotação last-applied-configuration pelo tipo/nome no YAML.\n" "\t\tkubectl apply view-last-applied deployment/nginx\n" "\n" "\t\t# Visualiza a anotação last-applied-configuration no arquivo JSON\n" "\t\tkubectl apply view-last-applied -f deploy.yaml -o json" #: pkg/kubectl/cmd/apply.go:75 msgid "" "\n" "\t\tApply a configuration to a resource by filename or stdin.\n" "\t\tThis resource will be created if it doesn't exist yet.\n" "\t\tTo use 'apply', always create the resource initially with either 'apply' or 'create --save-" "config'.\n" "\n" "\t\tJSON and YAML formats are accepted.\n" "\n" "\t\tAlpha Disclaimer: the --prune functionality is not yet complete. Do not use unless you are " "aware of what the current state is. See https://issues.k8s.io/34274." msgstr "" "\n" "\t\tAplica a configuração em um recurso usando um nome de arquivo ou stdin.\n" "\t\tEste recurso será criado se ele não existir.\n" "\t\tPara utilizar o 'apply', sempre crie o recurso inicialmente com 'apply' ou 'create --save-" "config'.\n" "\n" "\t\tFormatos JSON e YAML são aceitos.\n" "\n" "\t\tNota Alpha: a funcionalidade --prune não está completa. Não utilize a não ser que você saibe " "qual é o estado corrente. Veja https://issues.k8s.io/34274." #: pkg/kubectl/cmd/convert.go:38 msgid "" "\n" "\t\tConvert config files between different API versions. Both YAML\n" "\t\tand JSON formats are accepted.\n" "\n" "\t\tThe command takes filename, directory, or URL as input, and convert it into format\n" "\t\tof version specified by --output-version flag. If target version is not specified or\n" "\t\tnot supported, convert to latest version.\n" "\n" "\t\tThe default output will be printed to stdout in YAML format. One can use -o option\n" "\t\tto change to output destination." msgstr "" "\n" "\t\tConvert os arquivos de configuração para diferentes versões de API. Ambos formatos YAML\n" "\t\\e JSON são aceitos.\n" "\n" "\t\tO command recebe o nome do arquivo, diretório ou URL como entrada, e converteno formato\n" "\t\tpara a versão especificada pelo parametro —output-version. Se a versão desejada não é " "especificada ou \n" "\t\tnão é suportada, converte para a última versã disponível.\n" "\n" "\t\tA saída padrão é no formato YAML. Pode ser utilizadoa opção -o\n" "\t\tpara mudar o formato de saída." #: pkg/kubectl/cmd/create_clusterrole.go:31 msgid "" "\n" "\t\tCreate a ClusterRole." msgstr "" "\n" "\t\tCria um ClusterRole." #: pkg/kubectl/cmd/create_clusterrolebinding.go:32 msgid "" "\n" "\t\tCreate a ClusterRoleBinding for a particular ClusterRole." msgstr "" "\n" "\t\tCria um ClusterRoleBinding para um ClusterRole específico." #: pkg/kubectl/cmd/create_rolebinding.go:32 msgid "" "\n" "\t\tCreate a RoleBinding for a particular Role or ClusterRole." msgstr "" "\n" "\t\tCria uma RoleBinding para uma Role específica ou ClusterRole." #: pkg/kubectl/cmd/create_secret.go:200 msgid "" "\n" "\t\tCreate a TLS secret from the given public/private key pair.\n" "\n" "\t\tThe public/private key pair must exist before hand. The public key certificate must be .PEM " "encoded and match the given private key." msgstr "" "\n" "\t\tCria um TLS secret de uma chave pública/privada fornecida.\n" "\n" "\t\tA chave pública/privada deve existir antes. O certificado da chave deve ser codificada como " "PEM, e ter sido gerada pela chave privada." #: pkg/kubectl/cmd/create_configmap.go:32 msgid "" "\n" "\t\tCreate a configmap based on a file, directory, or specified literal value.\n" "\n" "\t\tA single configmap may package one or more key/value pairs.\n" "\n" "\t\tWhen creating a configmap based on a file, the key will default to the basename of the file, " "and the value will\n" "\t\tdefault to the file content. If the basename is an invalid key, you may specify an " "alternate key.\n" "\n" "\t\tWhen creating a configmap based on a directory, each file whose basename is a valid key in " "the directory will be\n" "\t\tpackaged into the configmap. Any directory entries except regular files are ignored (e.g. " "subdirectories,\n" "\t\tsymlinks, devices, pipes, etc)." msgstr "" "\n" "\t\tCria um configmap com base em um arquivo, diretório, ou um valor literal especificado.\n" "\n" "\t\tUm configmap único pode conter um ou mais pares de chave/valor.\n" "\n" "\t\tQuando criar um configmap com base em um arquivo, a chave será por padrão o nome do arquivo, " "e o valor será\n" "\t\tpor padrão o conteúdo do arquivo. Se o nome do arquivo for uma chave inválida, você deve " "especificar uma chave alternativa.\n" "\n" "\t\tQuando criar um configmap com base em um diretório, cada arquivo cujo o nome é uma chave " "válida no diretório será\n" "\t\tcolocada no configmap. Qualquer entrada de diretório, exceto as com arquivos válidos serão " "ignorados (por exemplo: sub-diretórios,\n" "\t\tsymlinks, devices, pipes, etc)." #: pkg/kubectl/cmd/create_namespace.go:32 msgid "" "\n" "\t\tCreate a namespace with the specified name." msgstr "" "\n" "\t\tCria um namespace com um nome especificado." #: pkg/kubectl/cmd/create_secret.go:119 msgid "" "\n" "\t\tCreate a new secret for use with Docker registries.\n" "\n" "\t\tDockercfg secrets are used to authenticate against Docker registries.\n" "\n" "\t\tWhen using the Docker command line to push images, you can authenticate to a given registry " "by running\n" "\n" "\t\t $ docker login DOCKER_REGISTRY_SERVER --username=DOCKER_USER --password=DOCKER_PASSWORD " "--email=DOCKER_EMAIL'.\n" "\n" " That produces a ~/.dockercfg file that is used by subsequent 'docker push' and 'docker pull' " "commands to\n" "\t\tauthenticate to the registry. The email address is optional.\n" "\n" "\t\tWhen creating applications, you may have a Docker registry that requires authentication. In " "order for the\n" "\t\tnodes to pull images on your behalf, they have to have the credentials. You can provide " "this information\n" "\t\tby creating a dockercfg secret and attaching it to your service account." msgstr "" "\n" "\t\tCria um novo secret para utilizar com Docker registries.\n" "\n" "\t\tDockercfg secrets são utilizados para autenticar Docker registries.\n" "\n" "\t\tQuando utilizando a linha de comando do Docker para realizar envio das images, você pode se " "autenticar para um registro fornecido executando\n" "\n" "\t\t $ docker login DOCKER_REGISTRY_SERVER —username=DOCKER_USER —password=DOCKER_PASSWORD —" "email=DOCKER_EMAIL'.\n" "\n" " Isso irá gerar um arquivo ~/.dockercfg que será utilizado para os comandos 'docker push' e " "'docker pull' \n" "\t\tse autenticarem no registro. O endereço de email é opcional.\n" "\n" "\t\tQuando criar aplicações, você pode ter um Docker registry que requer autenticação. Para " "que \n" "\t\tos nodes possam baixar as imagens em seu nome, eles devem ter as credenciais. Você pode " "prover esta informação\n" "\t\tcriando um dockercfg secret e anexando-o à sua conta de serviço." #: pkg/kubectl/cmd/create_pdb.go:32 msgid "" "\n" "\t\tCreate a pod disruption budget with the specified name, selector, and desired minimum " "available pods" msgstr "" "\n" "\t\tCria um pod disruption budget com o nome especificado, seletor, e o número mínimo de pode " "disponíveis" #: pkg/kubectl/cmd/create.go:42 msgid "" "\n" "\t\tCreate a resource by filename or stdin.\n" "\n" "\t\tJSON and YAML formats are accepted." msgstr "" "\n" "\t\tCria um recurso por nome de arquivo ou stdin.\n" "\n" "\t\tOs formatos JSON e YAML são aceitos." #: pkg/kubectl/cmd/create_quota.go:32 msgid "" "\n" "\t\tCreate a resourcequota with the specified name, hard limits and optional scopes" msgstr "" "\n" "\t\tCria um resourcequota com o nome especificado, limits rigídos e escopo opcional" #: pkg/kubectl/cmd/create_role.go:38 msgid "" "\n" "\t\tCreate a role with single rule." msgstr "" "\n" "\t\tCria uma role com uma única regra." #: pkg/kubectl/cmd/create_secret.go:47 msgid "" "\n" "\t\tCreate a secret based on a file, directory, or specified literal value.\n" "\n" "\t\tA single secret may package one or more key/value pairs.\n" "\n" "\t\tWhen creating a secret based on a file, the key will default to the basename of the file, " "and the value will\n" "\t\tdefault to the file content. If the basename is an invalid key, you may specify an " "alternate key.\n" "\n" "\t\tWhen creating a secret based on a directory, each file whose basename is a valid key in the " "directory will be\n" "\t\tpackaged into the secret. Any directory entries except regular files are ignored (e.g. " "subdirectories,\n" "\t\tsymlinks, devices, pipes, etc)." msgstr "" "\n" "\t\tCria um secret com base em um arquivo, diretório, ou um valor literal especificado.\n" "\n" "\t\tUm secret único pode conter um ou mais pares de chave/valor.\n" "\n" "\t\tQuando criar um secret com base em um arquivo, a chave será por padrão o nome do arquivo, e " "o valor será\n" "\t\tpor padrão o conteúdo do arquivo. Se o nome do arquivo for uma chave inválida, você deve " "especificar uma chave alternativa.\n" "\n" "\t\tQuando criar um secret com base em um diretório, cada arquivo cujo o nome é uma chave válida " "no diretório será\n" "\t\tcolocada no configmap. Qualquer entrada de diretório, exceto as com arquivos válidos serão " "ignorados (por exemplo: sub-diretórios,\n" "\t\tsymlinks, devices, pipes, etc)." #: pkg/kubectl/cmd/create_serviceaccount.go:32 msgid "" "\n" "\t\tCreate a service account with the specified name." msgstr "" "\n" "\t\tCria uma conta de serviço com um nome especificado." #: pkg/kubectl/cmd/run.go:52 msgid "" "\n" "\t\tCreate and run a particular image, possibly replicated.\n" "\n" "\t\tCreates a deployment or job to manage the created container(s)." msgstr "" "\n" "\t\tCria e executa uma imagem específica, possivelmente replicada.\n" "\n" "\t\tCria um deployment ou job para gerenciar o(s) container(s) criado(s)." #: pkg/kubectl/cmd/autoscale.go:34 msgid "" "\n" "\t\tCreates an autoscaler that automatically chooses and sets the number of pods that run in a " "kubernetes cluster.\n" "\n" "\t\tLooks up a Deployment, ReplicaSet, or ReplicationController by name and creates an " "autoscaler that uses the given resource as a reference.\n" "\t\tAn autoscaler can automatically increase or decrease number of pods deployed within the " "system as needed." msgstr "" "\n" "\t\tCria um autoscaler que automaticamente escolhe e configura quantos pods irão executar em um " "cluster kubernetes.\n" "\n" "\t\tProcura por um Deployment, ReplicaSet, ou ReplicationController por nome e cria um " "autoscaler que utiliza o recurso fornecido como referência.\n" "\t\tUm autoscaler pode automaticamente aumentar ou reduzir o número de pods quando necessário." #: pkg/kubectl/cmd/delete.go:40 msgid "" "\n" "\t\tDelete resources by filenames, stdin, resources and names, or by resources and label " "selector.\n" "\n" "\t\tJSON and YAML formats are accepted. Only one type of the arguments may be specified: " "filenames,\n" "\t\tresources and names, or resources and label selector.\n" "\n" "\t\tSome resources, such as pods, support graceful deletion. These resources define a default " "period\n" "\t\tbefore they are forcibly terminated (the grace period) but you may override that value with\n" "\t\tthe --grace-period flag, or pass --now to set a grace-period of 1. Because these resources " "often\n" "\t\trepresent entities in the cluster, deletion may not be acknowledged immediately. If the " "node\n" "\t\thosting a pod is down or cannot reach the API server, termination may take significantly " "longer\n" "\t\tthan the grace period. To force delete a resource,\tyou must pass a grace\tperiod of 0 and " "specify\n" "\t\tthe --force flag.\n" "\n" "\t\tIMPORTANT: Force deleting pods does not wait for confirmation that the pod's processes have " "been\n" "\t\tterminated, which can leave those processes running until the node detects the deletion and\n" "\t\tcompletes graceful deletion. If your processes use shared storage or talk to a remote API " "and\n" "\t\tdepend on the name of the pod to identify themselves, force deleting those pods may result " "in\n" "\t\tmultiple processes running on different machines using the same identification which may " "lead\n" "\t\tto data corruption or inconsistency. Only force delete pods when you are sure the pod is\n" "\t\tterminated, or if your application can tolerate multiple copies of the same pod running at " "once.\n" "\t\tAlso, if you force delete pods the scheduler may place new pods on those nodes before the " "node\n" "\t\thas released those resources and causing those pods to be evicted immediately.\n" "\n" "\t\tNote that the delete command does NOT do resource version checks, so if someone\n" "\t\tsubmits an update to a resource right when you submit a delete, their update\n" "\t\twill be lost along with the rest of the resource." msgstr "" "\n" "\t\tDelete resources by filenames, stdin, resources and names, or by resources and label " "selector.\n" "\n" "\t\tJSON and YAML formats are accepted. Only one type of the arguments may be specified: " "filenames,\n" "\t\tresources and names, or resources and label selector.\n" "\n" "\t\tSome resources, such as pods, support graceful deletion. These resources define a default " "period\n" "\t\tbefore they are forcibly terminated (the grace period) but you may override that value with\n" "\t\tthe —grace-period flag, or pass —now to set a grace-period of 1. Because these resources " "often\n" "\t\trepresent entities in the cluster, deletion may not be acknowledged immediately. If the " "node\n" "\t\thosting a pod is down or cannot reach the API server, termination may take significantly " "longer\n" "\t\tthan the grace period. To force delete a resource,\tyou must pass a grace\tperiod of 0 and " "specify\n" "\t\tthe —force flag.\n" "\n" "\t\tIMPORTANT: Force deleting pods does not wait for confirmation that the pod's processes have " "been\n" "\t\tterminated, which can leave those processes running until the node detects the deletion and\n" "\t\tcompletes graceful deletion. If your processes use shared storage or talk to a remote API " "and\n" "\t\tdepend on the name of the pod to identify themselves, force deleting those pods may result " "in\n" "\t\tmultiple processes running on different machines using the same identification which may " "lead\n" "\t\tto data corruption or inconsistency. Only force delete pods when you are sure the pod is\n" "\t\tterminated, or if your application can tolerate multiple copies of the same pod running at " "once.\n" "\t\tAlso, if you force delete pods the scheduler may place new pods on those nodes before the " "node\n" "\t\thas released those resources and causing those pods to be evicted immediately.\n" "\n" "\t\tNote that the delete command does NOT do resource version checks, so if someone\n" "\t\tsubmits an update to a resource right when you submit a delete, their update\n" "\t\twill be lost along with the rest of the resource." #: pkg/kubectl/cmd/stop.go:31 msgid "" "\n" "\t\tDeprecated: Gracefully shut down a resource by name or filename.\n" "\n" "\t\tThe stop command is deprecated, all its functionalities are covered by delete command.\n" "\t\tSee 'kubectl delete --help' for more details.\n" "\n" "\t\tAttempts to shut down and delete a resource that supports graceful termination.\n" "\t\tIf the resource is scalable it will be scaled to 0 before deletion." msgstr "" "\n" "\t\tDeprecated: Gracefully shut down a resource by name or filename.\n" "\n" "\t\tThe stop command is deprecated, all its functionalities are covered by delete command.\n" "\t\tSee 'kubectl delete —help' for more details.\n" "\n" "\t\tAttempts to shut down and delete a resource that supports graceful termination.\n" "\t\tIf the resource is scalable it will be scaled to 0 before deletion." #: pkg/kubectl/cmd/top_node.go:60 msgid "" "\n" "\t\tDisplay Resource (CPU/Memory/Storage) usage of nodes.\n" "\n" "\t\tThe top-node command allows you to see the resource consumption of nodes." msgstr "" "\n" "\t\tMostra os Recursos (CPU/Memória/Armazenamento) utilizados nos nodes.\n" "\n" "\t\tO comando top-node permite que você veja o consumo de recursos dos nodes." #: pkg/kubectl/cmd/top_pod.go:53 msgid "" "\n" "\t\tDisplay Resource (CPU/Memory/Storage) usage of pods.\n" "\n" "\t\tThe 'top pod' command allows you to see the resource consumption of pods.\n" "\n" "\t\tDue to the metrics pipeline delay, they may be unavailable for a few minutes\n" "\t\tsince pod creation." msgstr "" "\n" "\t\tMostra a utilização de recursos dos pods (CPU/Memória/Armazenamento).\n" "\n" "\t\tO comando 'top pod' deixa você ver a utilização dos recusrsos dos pods.\n" "\n" "\t\tDevido ao atraso da pipeline de métricas, o resultado pode estar indisponível por alguns " "minutos\n" "\t\tdesde a criação do pod." #: pkg/kubectl/cmd/top.go:33 msgid "" "\n" "\t\tDisplay Resource (CPU/Memory/Storage) usage.\n" "\n" "\t\tThe top command allows you to see the resource consumption for nodes or pods.\n" "\n" "\t\tThis command requires Heapster to be correctly configured and working on the server. " msgstr "" "\n" "\t\tMostra a utilização de recursos (CPU/Memória/Armazenamento).\n" "\n" "\t\tO comando top deixa você ver a utilização de recursos de nodes e pods.\n" "\n" "\t\tEste comando necessita que o Heapster esteja corretamente configurado e rodando no servidor. " #: pkg/kubectl/cmd/drain.go:140 msgid "" "\n" "\t\tDrain node in preparation for maintenance.\n" "\n" "\t\tThe given node will be marked unschedulable to prevent new pods from arriving.\n" "\t\t'drain' evicts the pods if the APIServer supports eviction\n" "\t\t(http://kubernetes.io/docs/admin/disruptions/). Otherwise, it will use normal DELETE\n" "\t\tto delete the pods.\n" "\t\tThe 'drain' evicts or deletes all pods except mirror pods (which cannot be deleted through\n" "\t\tthe API server). If there are DaemonSet-managed pods, drain will not proceed\n" "\t\twithout --ignore-daemonsets, and regardless it will not delete any\n" "\t\tDaemonSet-managed pods, because those pods would be immediately replaced by the\n" "\t\tDaemonSet controller, which ignores unschedulable markings. If there are any\n" "\t\tpods that are neither mirror pods nor managed by ReplicationController,\n" "\t\tReplicaSet, DaemonSet, StatefulSet or Job, then drain will not delete any pods unless you\n" "\t\tuse --force. --force will also allow deletion to proceed if the managing resource of one\n" "\t\tor more pods is missing.\n" "\n" "\t\t'drain' waits for graceful termination. You should not operate on the machine until\n" "\t\tthe command completes.\n" "\n" "\t\tWhen you are ready to put the node back into service, use kubectl uncordon, which\n" "\t\twill make the node schedulable again.\n" "\n" "\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_drain.svg)" msgstr "" "\n" "\t\tDrain node in preparation for maintenance.\n" "\n" "\t\tThe given node will be marked unschedulable to prevent new pods from arriving.\n" "\t\t'drain' evicts the pods if the APIServer supports eviction\n" "\t\t(http://kubernetes.io/docs/admin/disruptions/). Otherwise, it will use normal DELETE\n" "\t\tto delete the pods.\n" "\t\tThe 'drain' evicts or deletes all pods except mirror pods (which cannot be deleted through\n" "\t\tthe API server). If there are DaemonSet-managed pods, drain will not proceed\n" "\t\twithout —ignore-daemonsets, and regardless it will not delete any\n" "\t\tDaemonSet-managed pods, because those pods would be immediately replaced by the\n" "\t\tDaemonSet controller, which ignores unschedulable markings. If there are any\n" "\t\tpods that are neither mirror pods nor managed by ReplicationController,\n" "\t\tReplicaSet, DaemonSet, StatefulSet or Job, then drain will not delete any pods unless you\n" "\t\tuse —force. —force will also allow deletion to proceed if the managing resource of one\n" "\t\tor more pods is missing.\n" "\n" "\t\t'drain' waits for graceful termination. You should not operate on the machine until\n" "\t\tthe command completes.\n" "\n" "\t\tWhen you are ready to put the node back into service, use kubectl uncordon, which\n" "\t\twill make the node schedulable again.\n" "\n" "\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_drain.svg)" #: pkg/kubectl/cmd/edit.go:56 msgid "" "\n" "\t\tEdit a resource from the default editor.\n" "\n" "\t\tThe edit command allows you to directly edit any API resource you can retrieve via the\n" "\t\tcommand line tools. It will open the editor defined by your KUBE_EDITOR, or EDITOR\n" "\t\tenvironment variables, or fall back to 'vi' for Linux or 'notepad' for Windows.\n" "\t\tYou can edit multiple objects, although changes are applied one at a time. The command\n" "\t\taccepts filenames as well as command line arguments, although the files you point to must\n" "\t\tbe previously saved versions of resources.\n" "\n" "\t\tEditing is done with the API version used to fetch the resource.\n" "\t\tTo edit using a specific API version, fully-qualify the resource, version, and group.\n" "\n" "\t\tThe default format is YAML. To edit in JSON, specify \"-o json\".\n" "\n" "\t\tThe flag --windows-line-endings can be used to force Windows line endings,\n" "\t\totherwise the default for your operating system will be used.\n" "\n" "\t\tIn the event an error occurs while updating, a temporary file will be created on disk\n" "\t\tthat contains your unapplied changes. The most common error when updating a resource\n" "\t\tis another editor changing the resource on the server. When this occurs, you will have\n" "\t\tto apply your changes to the newer version of the resource, or update your temporary\n" "\t\tsaved copy to include the latest resource version." msgstr "" "\n" "\t\tEdit a resource from the default editor.\n" "\n" "\t\tThe edit command allows you to directly edit any API resource you can retrieve via the\n" "\t\tcommand line tools. It will open the editor defined by your KUBE_EDITOR, or EDITOR\n" "\t\tenvironment variables, or fall back to 'vi' for Linux or 'notepad' for Windows.\n" "\t\tYou can edit multiple objects, although changes are applied one at a time. The command\n" "\t\taccepts filenames as well as command line arguments, although the files you point to must\n" "\t\tbe previously saved versions of resources.\n" "\n" "\t\tEditing is done with the API version used to fetch the resource.\n" "\t\tTo edit using a specific API version, fully-qualify the resource, version, and group.\n" "\n" "\t\tThe default format is YAML. To edit in JSON, specify \"-o json\".\n" "\n" "\t\tThe flag —windows-line-endings can be used to force Windows line endings,\n" "\t\totherwise the default for your operating system will be used.\n" "\n" "\t\tIn the event an error occurs while updating, a temporary file will be created on disk\n" "\t\tthat contains your unapplied changes. The most common error when updating a resource\n" "\t\tis another editor changing the resource on the server. When this occurs, you will have\n" "\t\tto apply your changes to the newer version of the resource, or update your temporary\n" "\t\tsaved copy to include the latest resource version." #: pkg/kubectl/cmd/drain.go:115 msgid "" "\n" "\t\tMark node as schedulable." msgstr "" "\n" "\t\tRemove a restrição de execução de workloads no node." #: pkg/kubectl/cmd/drain.go:90 msgid "" "\n" "\t\tMark node as unschedulable." msgstr "" "\n" "\t\tAplica a restrição de execução de workloads no node." #: pkg/kubectl/cmd/completion.go:47 msgid "" "\n" "\t\tOutput shell completion code for the specified shell (bash or zsh).\n" "\t\tThe shell code must be evaluated to provide interactive\n" "\t\tcompletion of kubectl commands. This can be done by sourcing it from\n" "\t\tthe .bash_profile.\n" "\n" "\t\tNote: this requires the bash-completion framework, which is not installed\n" "\t\tby default on Mac. This can be installed by using homebrew:\n" "\n" "\t\t $ brew install bash-completion\n" "\n" "\t\tOnce installed, bash_completion must be evaluated. This can be done by adding the\n" "\t\tfollowing line to the .bash_profile\n" "\n" "\t\t $ source $(brew --prefix)/etc/bash_completion\n" "\n" "\t\tNote for zsh users: [1] zsh completions are only supported in versions of zsh >= 5.2" msgstr "" "\n" "\t\tOutput shell completion code for the specified shell (bash or zsh).\n" "\t\tThe shell code must be evaluated to provide interactive\n" "\t\tcompletion of kubectl commands. This can be done by sourcing it from\n" "\t\tthe .bash_profile.\n" "\n" "\t\tNote: this requires the bash-completion framework, which is not installed\n" "\t\tby default on Mac. This can be installed by using homebrew:\n" "\n" "\t\t $ brew install bash-completion\n" "\n" "\t\tOnce installed, bash_completion must be evaluated. This can be done by adding the\n" "\t\tfollowing line to the .bash_profile\n" "\n" "\t\t $ source $(brew —prefix)/etc/bash_completion\n" "\n" "\t\tNote for zsh users: [1] zsh completions are only supported in versions of zsh >= 5.2" #: pkg/kubectl/cmd/rollingupdate.go:45 msgid "" "\n" "\t\tPerform a rolling update of the given ReplicationController.\n" "\n" "\t\tReplaces the specified replication controller with a new replication controller by updating " "one pod at a time to use the\n" "\t\tnew PodTemplate. The new-controller.json must specify the same namespace as the\n" "\t\texisting replication controller and overwrite at least one (common) label in its " "replicaSelector.\n" "\n" "\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_rollingupdate.svg)" msgstr "" "\n" "\t\tAplica uma atualização contínua em um ReplicationController.\n" "\n" "\t\tTroca o replication controller especificado por um novo replication controller atualizando " "um pod por vez para utilizar o\n" "\t\tnovo PodTemplate. O new-controller.json deve ser especificado no mesmo namespace que o\n" "\t\treplication controller existente e sobrescrever pelo menos uma label comum no seu " "replicaSelector.\n" "\n" "\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_rollingupdate.svg)" #: pkg/kubectl/cmd/replace.go:40 msgid "" "\n" "\t\tReplace a resource by filename or stdin.\n" "\n" "\t\tJSON and YAML formats are accepted. If replacing an existing resource, the\n" "\t\tcomplete resource spec must be provided. This can be obtained by\n" "\n" "\t\t $ kubectl get TYPE NAME -o yaml\n" "\n" "\t\tPlease refer to the models in https://htmlpreview.github.io/?https://github.com/kubernetes/" "kubernetes/blob/HEAD/docs/api-reference/v1/definitions.html to find if a field is mutable." msgstr "" "\n" "\t\tSubstitui um recurso pelo especificado em um arquivo ou via stdin.\n" "\n" "\t\tOs formatos JSON and YAML são aceitos. Quando substituindo recursos existentes,\n" "\t\a especificação completa do recurso deve ser fornecida. Isto pode ser obtido com\n" "\n" "\t\t $ kubectl get TYPE NAME -o yaml\n" "\n" "\t\tConsulte os modelos em https://htmlpreview.github.io/?https://github.com/kubernetes/" "kubernetes/blob/HEAD/docs/api-reference/v1/definitions.html para descobrir se um campo é mutável." #: pkg/kubectl/cmd/scale.go:34 msgid "" "\n" "\t\tSet a new size for a Deployment, ReplicaSet, Replication Controller, or Job.\n" "\n" "\t\tScale also allows users to specify one or more preconditions for the scale action.\n" "\n" "\t\tIf --current-replicas or --resource-version is specified, it is validated before the\n" "\t\tscale is attempted, and it is guaranteed that the precondition holds true when the\n" "\t\tscale is sent to the server." msgstr "" "\n" "\t\tDefine um novo tamanho para um Deployment, ReplicaSet, Replication Controller, ou Job.\n" "\n" "\t\tScale deixa os usuários especificar uma ou mais pre-condições para a ação de scale.\n" "\n" "\t\tSe --current-replicas ou --resource-version forem especificados, será validado antes\n" "\t\tda tentativa de scale, e garante que a pre-condição é verdadeira quando\n" "\t\to scale é enviado para o servidor." #: pkg/kubectl/cmd/apply_set_last_applied.go:62 msgid "" "\n" "\t\tSet the latest last-applied-configuration annotations by setting it to match the contents of " "a file.\n" "\t\tThis results in the last-applied-configuration being updated as though 'kubectl apply -f " "' was run,\n" "\t\twithout updating any other parts of the object." msgstr "" "\n" "\t\tDefine a annotation last-applied-configuration configurando para ser igual ao conteúdo do " "arquivo.\n" "\t\tIsto resulta no last-applied-configuration ser atualizado quando o 'kubectl apply -f ' " "executa,\n" "\t\tnão atualizando as outras partes do objeto." #: pkg/kubectl/cmd/proxy.go:36 msgid "" "\n" "\t\tTo proxy all of the kubernetes api and nothing else, use:\n" "\n" "\t\t $ kubectl proxy --api-prefix=/\n" "\n" "\t\tTo proxy only part of the kubernetes api and also some static files:\n" "\n" "\t\t $ kubectl proxy --www=/my/files --www-prefix=/static/ --api-prefix=/api/\n" "\n" "\t\tThe above lets you 'curl localhost:8001/api/v1/pods'.\n" "\n" "\t\tTo proxy the entire kubernetes api at a different root, use:\n" "\n" "\t\t $ kubectl proxy --api-prefix=/custom/\n" "\n" "\t\tThe above lets you 'curl localhost:8001/custom/api/v1/pods'" msgstr "" "\n" "\t\tPara fazer o proxy the todas as apis do kubernetes, utilize:\n" "\n" "\t\t $ kubectl proxy —api-prefix=/\n" "\n" "\t\tPara fazer o proxy de parte da api do kubernetes e alguns arquivos estáticos:\n" "\n" "\t\t $ kubectl proxy —www=/my/files —www-prefix=/static/ —api-prefix=/api/\n" "\n" "\t\tCom os comandos acima você pode fazer 'curl localhost:8001/api/v1/pods'.\n" "\n" "\t\tPara fazer o proxy the todas as apis do kubernetes em um caminho diferente, utilize:\n" "\n" "\t\t $ kubectl proxy —api-prefix=/custom/\n" "\n" "\t\tCom o comando acima você pode fazer 'curl localhost:8001/custom/api/v1/pods'" #: pkg/kubectl/cmd/patch.go:59 msgid "" "\n" "\t\tUpdate field(s) of a resource using strategic merge patch\n" "\n" "\t\tJSON and YAML formats are accepted.\n" "\n" "\t\tPlease refer to the models in https://htmlpreview.github.io/?https://github.com/kubernetes/" "kubernetes/blob/HEAD/docs/api-reference/v1/definitions.html to find if a field is mutable." msgstr "" "\n" "\t\tAtualiza o(s) campo(s) de um recurso usando strategic merge patch\n" "\n" "\t\tFormatos JSON e YAML são aceitos.\n" "\n" "\t\tConsulte os modelos em https://htmlpreview.github.io/?https://github.com/kubernetes/" "kubernetes/blob/HEAD/docs/api-reference/v1/definitions.html para descobrir se um campo é mutável." #: pkg/kubectl/cmd/label.go:70 #, c-format msgid "" "\n" "\t\tUpdate the labels on a resource.\n" "\n" "\t\t* A label must begin with a letter or number, and may contain letters, numbers, hyphens, " "dots, and underscores, up to %[1]d characters.\n" "\t\t* If --overwrite is true, then existing labels can be overwritten, otherwise attempting to " "overwrite a label will result in an error.\n" "\t\t* If --resource-version is specified, then updates will use this resource version, otherwise " "the existing resource-version will be used." msgstr "" "\n" "\t\tAtualiza labels em um recurso.\n" "\n" "\t\t* Um label deve começar com uma letra ou número, e pode conter letra, números, hífens, " "pontos e sublinhados, com no máximo %[1]d caracteres.\n" "\t\t* Se --overwrite for verdadeiro, então labels podem ser sobreescritos, caso contrário a " "sobreescrita irá falhar.\n" "\t\t* Se --resource-version for especificado, então as atualizações usarão esta versão do " "recurso, caso contrário, a versão do recurso existente será usada." #: pkg/kubectl/cmd/taint.go:58 #, c-format msgid "" "\n" "\t\tUpdate the taints on one or more nodes.\n" "\n" "\t\t* A taint consists of a key, value, and effect. As an argument here, it is expressed as " "key=value:effect.\n" "\t\t* The key must begin with a letter or number, and may contain letters, numbers, hyphens, " "dots, and underscores, up to %[1]d characters.\n" "\t\t* The value must begin with a letter or number, and may contain letters, numbers, hyphens, " "dots, and underscores, up to %[2]d characters.\n" "\t\t* The effect must be NoSchedule, PreferNoSchedule or NoExecute.\n" "\t\t* Currently taint can only apply to node." msgstr "" "\n" "\t\tAtualiza os taints em um ou mais nodes.\n" "\n" "\t\t* Um taint consiste em uma chave, valor e efeito. Como arqgumento, é expressado como " "chave=valor:efeito.\n" "\t\t* Uma chave deve começar com uma letra ou número, e pode conter letras, números, hífens, " "pontos e sublinhados, com no máximo %[1]d caractéres.\n" "\t\t* Um valor deve começar com uma letra ou número, e pode conter letras, números, hífens, " "pontos e sublinhados, com no máximo %[2]d caractéres.\n" "\t\t* O efeito deve ser NoSchedule, PreferNoSchedule ou NoExecute.\n" "\t\t* Atualmente taint pode ser aplicado apenas para nodes." #: pkg/kubectl/cmd/apply_view_last_applied.go:46 msgid "" "\n" "\t\tView the latest last-applied-configuration annotations by type/name or file.\n" "\n" "\t\tThe default output will be printed to stdout in YAML format. One can use -o option\n" "\t\tto change output format." msgstr "" "\n" "\t\tView the latest last-applied-configuration annotations by type/name or file.\n" "\n" "\t\tThe default output will be printed to stdout in YAML format. One can use -o option\n" "\t\tto change output format." #: pkg/kubectl/cmd/cp.go:37 msgid "" "\n" "\t # !!!Important Note!!!\n" "\t # Requires that the 'tar' binary is present in your container\n" "\t # image. If 'tar' is not present, 'kubectl cp' will fail.\n" "\n" "\t # Copy /tmp/foo_dir local directory to /tmp/bar_dir in a remote pod in the default " "namespace\n" "\t\tkubectl cp /tmp/foo_dir :/tmp/bar_dir\n" "\n" " # Copy /tmp/foo local file to /tmp/bar in a remote pod in a specific container\n" "\t\tkubectl cp /tmp/foo :/tmp/bar -c \n" "\n" "\t\t# Copy /tmp/foo local file to /tmp/bar in a remote pod in namespace \n" "\t\tkubectl cp /tmp/foo /:/tmp/bar\n" "\n" "\t\t# Copy /tmp/foo from a remote pod to /tmp/bar locally\n" "\t\tkubectl cp /:/tmp/foo /tmp/bar" msgstr "" "\n" "\t # !!!Nota Importante!!!\n" "\t # Necessita que o binário 'tar' esteja presente na imagem do\n" "\t # container. Se 'tar' não estiver presente, o 'kubectl cp' irá falhar.\n" "\n" "\t # Copia o diretório local /tmp/foo_dir para /tmp/bar_dir no pod remoto no namespace " "default\n" "\t\tkubectl cp /tmp/foo_dir :/tmp/bar_dir\n" "\n" " # Copia o arquivo local /tmp/foo para /tmp/bar no pod remoto no container específico\n" "\t\tkubectl cp /tmp/foo :/tmp/bar -c \n" "\n" "\t\t# Copia o arquivo local /tmp/foo para /tmp/bar no pod remoto no namespace \n" "\t\tkubectl cp /tmp/foo /:/tmp/bar\n" "\n" "\t\t# Copia /tmp/foo do pod remoto para /tmp/bar localmente\n" "\t\tkubectl cp /:/tmp/foo /tmp/bar" #: pkg/kubectl/cmd/create_secret.go:205 msgid "" "\n" "\t # Create a new TLS secret named tls-secret with the given key pair:\n" "\t kubectl create secret tls tls-secret --cert=path/to/tls.cert --key=path/to/tls.key" msgstr "" "\n" "\t # Cria um novo segredo TLS chamado tls-secret com o par the chaves fornecido:\n" "\t kubectl create secret tls tls-secret —cert=path/to/tls.cert —key=path/to/tls.key" #: pkg/kubectl/cmd/create_namespace.go:35 msgid "" "\n" "\t # Create a new namespace named my-namespace\n" "\t kubectl create namespace my-namespace" msgstr "" "\n" "\t # Cria um novo namespace chamado my-namespace\n" "\t kubectl create namespace my-namespace" #: pkg/kubectl/cmd/create_secret.go:59 msgid "" "\n" "\t # Create a new secret named my-secret with keys for each file in folder bar\n" "\t kubectl create secret generic my-secret --from-file=path/to/bar\n" "\n" "\t # Create a new secret named my-secret with specified keys instead of names on disk\n" "\t kubectl create secret generic my-secret --from-file=ssh-privatekey=~/.ssh/id_rsa --from-" "file=ssh-publickey=~/.ssh/id_rsa.pub\n" "\n" "\t # Create a new secret named my-secret with key1=supersecret and key2=topsecret\n" "\t kubectl create secret generic my-secret --from-literal=key1=supersecret --from-" "literal=key2=topsecret" msgstr "" "\n" "\t # Cria um novo segredo chamado my-secret com as chaves para cada arquivo no diretório bar\n" "\t kubectl create secret generic my-secret --from-file=path/to/bar\n" "\n" "\t # Cria um novo segredo chamado my-secret com chaves especificadas em vez dos nomes dos " "arquivos\n" "\t kubectl create secret generic my-secret --from-file=ssh-privatekey=~/.ssh/id_rsa --from-" "file=ssh-publickey=~/.ssh/id_rsa.pub\n" "\n" "\t # Cria um novo segredo chamado my-secret com key1=supersecret e key2=topsecret\n" "\t kubectl create secret generic my-secret --from-literal=key1=supersecret --from-" "literal=key2=topsecret" #: pkg/kubectl/cmd/create_serviceaccount.go:35 msgid "" "\n" "\t # Create a new service account named my-service-account\n" "\t kubectl create serviceaccount my-service-account" msgstr "" "\n" "\t # Cria um novo service account chamado my-service-account\n" "\t kubectl create serviceaccount my-service-account" #: pkg/kubectl/cmd/create_service.go:232 msgid "" "\n" "\t# Create a new ExternalName service named my-ns \n" "\tkubectl create service externalname my-ns --external-name bar.com" msgstr "" "\n" "\t# Cria um novo serviço do tipo ExternalName chamado my-ns \n" "\tkubectl create service externalname my-ns —external-name bar.com" #: pkg/kubectl/cmd/create_service.go:225 msgid "" "\n" "\tCreate an ExternalName service with the specified name.\n" "\n" "\tExternalName service references to an external DNS address instead of\n" "\tonly pods, which will allow application authors to reference services\n" "\tthat exist off platform, on other clusters, or locally." msgstr "" "\n" "\tCria um serviço do tipo ExternalName com o nome especificado.\n" "\n" "\tServiço ExternalName referencia um endereço externo de DNS ao invés de\n" "\tapenas pods, o que permite aos desenvolvedores de aplicações referenciar serviços\n" "\tque existem fora da plataforma, em outros clusters ou localmente." #: pkg/kubectl/cmd/help.go:30 msgid "" "\n" "\tHelp provides help for any command in the application.\n" "\tSimply type kubectl help [path to command] for full details." msgstr "" "\n" "\tHelp provê ajuda para qualquer comando na aplicação.\n" "\tDigite simplesmente kubectl help [caminho do comando] para detalhes completos." #: pkg/kubectl/cmd/create_service.go:173 msgid "" "\n" " # Create a new LoadBalancer service named my-lbs\n" " kubectl create service loadbalancer my-lbs --tcp=5678:8080" msgstr "" "\n" " # Cria um novo serviço do tipo LoadBalancer chamado my-lbs\n" " kubectl create service loadbalancer my-lbs —tcp=5678:8080" #: pkg/kubectl/cmd/create_service.go:53 msgid "" "\n" " # Create a new clusterIP service named my-cs\n" " kubectl create service clusterip my-cs --tcp=5678:8080\n" "\n" " # Create a new clusterIP service named my-cs (in headless mode)\n" " kubectl create service clusterip my-cs --clusterip=\"None\"" msgstr "" "\n" " # Cria um novo serviço clusterIP chamado my-cs\n" " kubectl create service clusterip my-cs --tcp=5678:8080\n" "\n" " # Cria um novo serviço clusterIP chamado my-cs (em modo headless)\n" " kubectl create service clusterip my-cs --clusterip=\"None\"" #: pkg/kubectl/cmd/create_deployment.go:36 msgid "" "\n" " # Create a new deployment named my-dep that runs the busybox image.\n" " kubectl create deployment my-dep --image=busybox" msgstr "" "\n" " # Cria um novo deployment chamado my-dep que executa uma imagem busybox.\n" " kubectl create deployment my-dep —image=busybox" #: pkg/kubectl/cmd/create_service.go:116 msgid "" "\n" " # Create a new nodeport service named my-ns\n" " kubectl create service nodeport my-ns --tcp=5678:8080" msgstr "" "\n" " # Cria um novo serviço nodeport chamado my-ns\n" " kubectl create service nodeport my-ns —tcp=5678:8080" #: pkg/kubectl/cmd/clusterinfo_dump.go:62 msgid "" "\n" " # Dump current cluster state to stdout\n" " kubectl cluster-info dump\n" "\n" " # Dump current cluster state to /path/to/cluster-state\n" " kubectl cluster-info dump --output-directory=/path/to/cluster-state\n" "\n" " # Dump all namespaces to stdout\n" " kubectl cluster-info dump --all-namespaces\n" "\n" " # Dump a set of namespaces to /path/to/cluster-state\n" " kubectl cluster-info dump --namespaces default,kube-system --output-directory=/path/to/" "cluster-state" msgstr "" "\n" " # Coleta o estado corrente do cluster e exibe no stdout\n" " kubectl cluster-info dump\n" "\n" " # Coleta o estado corrente do custer para /path/to/cluster-state\n" " kubectl cluster-info dump --output-directory=/path/to/cluster-state\n" "\n" " # Coleta informação de todos os namespaces para stdout\n" " kubectl cluster-info dump --all-namespaces\n" "\n" " # Coleta o conjunto especificado de namespaces para /path/to/cluster-state\n" " kubectl cluster-info dump --namespaces default,kube-system --output-directory=/path/to/" "cluster-state" #: pkg/kubectl/cmd/annotate.go:78 msgid "" "\n" " # Update pod 'foo' with the annotation 'description' and the value 'my frontend'.\n" " # If the same annotation is set multiple times, only the last value will be applied\n" " kubectl annotate pods foo description='my frontend'\n" "\n" " # Update a pod identified by type and name in \"pod.json\"\n" " kubectl annotate -f pod.json description='my frontend'\n" "\n" " # Update pod 'foo' with the annotation 'description' and the value 'my frontend running " "nginx', overwriting any existing value.\n" " kubectl annotate --overwrite pods foo description='my frontend running nginx'\n" "\n" " # Update all pods in the namespace\n" " kubectl annotate pods --all description='my frontend running nginx'\n" "\n" " # Update pod 'foo' only if the resource is unchanged from version 1.\n" " kubectl annotate pods foo description='my frontend running nginx' --resource-version=1\n" "\n" " # Update pod 'foo' by removing an annotation named 'description' if it exists.\n" " # Does not require the --overwrite flag.\n" " kubectl annotate pods foo description-" msgstr "" "\n" " # Atualiza o pod 'foo' com a annotation 'description' e o valor 'my frontend'.\n" " # Se a mesma annotation é configurada várias vezes, apenas o último valor será utilizado\n" " kubectl annotate pods foo description='my frontend'\n" "\n" " # Atualiza o pod identificado pelo tipo e nome definido no \"pod.json\"\n" " kubectl annotate -f pod.json description='my frontend'\n" "\n" " # Atualiza o pod 'foo' com a annotation 'description' e o valor 'my frontend running nginx', " "sobreescrevendo qualquer valor existente.\n" " kubectl annotate --overwrite pods foo description='my frontend running nginx'\n" "\n" " # Atualiza todos os pods no namespace\n" " kubectl annotate pods --all description='my frontend running nginx'\n" "\n" " # Atualiza o pod 'foo' apenas se o recurso não foi modificado na versão 1.\n" " kubectl annotate pods foo description='my frontend running nginx' --resource-version=1\n" "\n" " # Atualiza o pod 'foo' removendo a annotation chamada 'description' se ela existir.\n" " # Não necessita da flag --overwrite.\n" " kubectl annotate pods foo description-" #: pkg/kubectl/cmd/create_service.go:170 msgid "" "\n" " Create a LoadBalancer service with the specified name." msgstr "" "\n" " Cria um serviço do tipo LoadBalancer com o nome especificado." #: pkg/kubectl/cmd/create_service.go:50 msgid "" "\n" " Create a clusterIP service with the specified name." msgstr "" "\n" " Cria um serviço do tipo clusterIP com o nome especificado." #: pkg/kubectl/cmd/create_deployment.go:33 msgid "" "\n" " Create a deployment with the specified name." msgstr "" "\n" " Cria um deployment com o nome especificado." #: pkg/kubectl/cmd/create_service.go:113 msgid "" "\n" " Create a nodeport service with the specified name." msgstr "" "\n" " Cria um serviço do tipo nodeport com o nome especificado." #: pkg/kubectl/cmd/clusterinfo_dump.go:53 msgid "" "\n" " Dumps cluster info out suitable for debugging and diagnosing cluster problems. By default, " "dumps everything to\n" " stdout. You can optionally specify a directory with --output-directory. If you specify a " "directory, kubernetes will\n" " build a set of files in that directory. By default only dumps things in the 'kube-system' " "namespace, but you can\n" " switch to a different namespace with the --namespaces flag, or specify --all-namespaces to " "dump all namespaces.\n" "\n" " The command also dumps the logs of all of the pods in the cluster, these logs are dumped " "into different directories\n" " based on namespace and pod name." msgstr "" "\n" " Coleta informações do cluster para debugar e diagnosticar problemas do dele. Por padrão, " "exibe tudo para o\n" " stdout. Você pode, se quiser, especificar um diretório com --output-directory. Se " "especificar o diretório, kubernetes irá\n" " montar um conjunto de arquivos no diretório. Por padrão, apenas coleta informações no " "namespace 'kube-system' , mas você pode\n" " trocar para um namespace diferente com a flag --namespaces, ou especificar --all-namespaces " "para todos os namespaces.\n" "\n" " O comando também coleta os logs de todos os pods no cluster, estes logs são salvos em outros " "diretórios\n" " baseado no namespace e nome do pod." #: pkg/kubectl/cmd/clusterinfo.go:37 msgid "" "\n" " Display addresses of the master and services with label kubernetes.io/cluster-service=true\n" " To further debug and diagnose cluster problems, use 'kubectl cluster-info dump'." msgstr "" "\n" " Mostra os endereços dos servidores de gerenciamento e serviços com o label kubernetes.io/" "cluster-service=true\n" " Para debugar e diagnosticar outros problemas do cluster, utilize 'kubectl cluster-info dump'." #: pkg/kubectl/cmd/create_quota.go:62 msgid "A comma-delimited set of quota scopes that must all match each object tracked by the quota." msgstr "" "Lista de valores delimitados por vírgulas para um conjunto de escopos de quota que devem " "corresponder para cada objeto rastreado pela quota." #: pkg/kubectl/cmd/create_quota.go:61 msgid "A comma-delimited set of resource=quantity pairs that define a hard limit." msgstr "" "Lista de valores delimitados por vírgulas ajusta os pares resource=quantity que define um limite " "rigído." #: pkg/kubectl/cmd/create_pdb.go:64 msgid "" "A label selector to use for this budget. Only equality-based selector requirements are supported." msgstr "" "Um seletor de label a ser usado para o PDB. Apenas seletores baseado em igualdade são suportados." #: pkg/kubectl/cmd/expose.go:104 msgid "" "A label selector to use for this service. Only equality-based selector requirements are " "supported. If empty (the default) infer the selector from the replication controller or replica " "set.)" msgstr "" "Um seletor de label para ser utilizado neste serviço. Apenas seletores baseado em igualdade são " "suportados. Se vazio (por padrão) o seletor do replication controller ou replica set será " "utilizado." #: pkg/kubectl/cmd/run.go:139 msgid "A schedule in the Cron format the job should be run with." msgstr "Agendamento no formato Cron em qual o job deve rodar." #: pkg/kubectl/cmd/expose.go:109 msgid "" "Additional external IP address (not managed by Kubernetes) to accept for the service. If this IP " "is routed to a node, the service can be accessed by this IP in addition to its generated service " "IP." msgstr "" "Um IP externo adicional (não gerenciado pelo Kubernetes) para ser usado no serviço. Se este IP " "for roteado para um nó, o serviço pode ser acessado por este IP além de seu IP de serviço gerado." #: pkg/kubectl/cmd/expose.go:110 pkg/kubectl/cmd/run.go:122 msgid "" "An inline JSON override for the generated object. If this is non-empty, it is used to override " "the generated object. Requires that the object supply a valid apiVersion field." msgstr "" "Uma substituição inline JSON para o objeto gerado. Se não estiver vazio, ele será usado para " "substituir o objeto gerado. Requer que o objeto forneça um campo apiVersion válido." #: pkg/kubectl/cmd/run.go:137 msgid "" "An inline JSON override for the generated service object. If this is non-empty, it is used to " "override the generated object. Requires that the object supply a valid apiVersion field. Only " "used if --expose is true." msgstr "" "Uma substituição inline JSON para o objeto de serviço gerado. Se não estiver vazio, ele será " "usado para substituir o objeto gerado. Requer que o objeto forneça o campo apiVersion válido. " "Usado apenas se --expose for true." #: pkg/kubectl/cmd/apply.go:104 msgid "Apply a configuration to a resource by filename or stdin" msgstr "Aplica a configuração para um recurso utilizado um nome de arquivo ou stdin" #: pkg/kubectl/cmd/certificates.go:72 msgid "Approve a certificate signing request" msgstr "Aprova uma solicitação de assinatura de certificado" #: pkg/kubectl/cmd/create_service.go:82 msgid "Assign your own ClusterIP or set to 'None' for a 'headless' service (no loadbalancing)." msgstr "" "Atribuir o seu próprio ClusterIP ou configura para 'None' para um serviço 'headless' (sem " "loadbalancing)." #: pkg/kubectl/cmd/attach.go:70 msgid "Attach to a running container" msgstr "Se conecta a um container em execução" #: pkg/kubectl/cmd/autoscale.go:56 msgid "Auto-scale a Deployment, ReplicaSet, or ReplicationController" msgstr "Auto-escala um Deployment, ReplicaSet ou ReplicationController" #: pkg/kubectl/cmd/expose.go:113 msgid "" "ClusterIP to be assigned to the service. Leave empty to auto-allocate, or set to 'None' to " "create a headless service." msgstr "" "ClusterIP que será atribuído ao serviço. Deixe vazio para auto atribuição, ou configure para " "'None' para criar um serviço headless." #: pkg/kubectl/cmd/create_clusterrolebinding.go:56 msgid "ClusterRole this ClusterRoleBinding should reference" msgstr "ClusterRole que esse ClusterRoleBinding deve referenciar" #: pkg/kubectl/cmd/create_rolebinding.go:56 msgid "ClusterRole this RoleBinding should reference" msgstr "ClusterRole que esse RoleBinding deve referenciar" #: pkg/kubectl/cmd/rollingupdate.go:102 msgid "" "Container name which will have its image upgraded. Only relevant when --image is specified, " "ignored otherwise. Required when using --image on a multi-container pod" msgstr "" "Nome do contêiner que terá sua imagem atualizada. Relevante apenas quando --image for " "especificado, caso contrário, ignorado. Obrigatório ao usar --image em um pod com vários " "contêineres" #: pkg/kubectl/cmd/convert.go:68 msgid "Convert config files between different API versions" msgstr "Converte arquivos de configuração entre versões de API diferentes" #: pkg/kubectl/cmd/cp.go:65 msgid "Copy files and directories to and from containers." msgstr "Copia arquivos e diretórios de e para containers." #: pkg/kubectl/cmd/create_clusterrolebinding.go:44 msgid "Create a ClusterRoleBinding for a particular ClusterRole" msgstr "Cria um ClusterRoleBinding para um ClusterRole especifico" #: pkg/kubectl/cmd/create_service.go:182 msgid "Create a LoadBalancer service." msgstr "Cria um serviço do tipo LoadBalancer." #: pkg/kubectl/cmd/create_service.go:125 msgid "Create a NodePort service." msgstr "Cria um serviço do tipo NodePort." #: pkg/kubectl/cmd/create_rolebinding.go:44 msgid "Create a RoleBinding for a particular Role or ClusterRole" msgstr "Cria um RoleBinding para uma Role ou ClusterRole especifico" #: pkg/kubectl/cmd/create_secret.go:214 msgid "Create a TLS secret" msgstr "Cria uma secret do tipo TLS" #: pkg/kubectl/cmd/create_service.go:69 msgid "Create a clusterIP service." msgstr "Cria um serviço do tipo clusterIP." #: pkg/kubectl/cmd/create_configmap.go:60 msgid "Create a configmap from a local file, directory or literal value" msgstr "Cria um configmap com base em um arquivo, diretório, ou um valor literal" #: pkg/kubectl/cmd/create_deployment.go:46 msgid "Create a deployment with the specified name." msgstr "Cria um deployment com um nome especificado." #: pkg/kubectl/cmd/create_namespace.go:45 msgid "Create a namespace with the specified name" msgstr "Cria a namespace com um nome especificado" #: pkg/kubectl/cmd/create_pdb.go:50 msgid "Create a pod disruption budget with the specified name." msgstr "Cria um pod disruption budget com um nome especificado." #: pkg/kubectl/cmd/create_quota.go:48 msgid "Create a quota with the specified name." msgstr "Cria uma quota com um nome especificado." #: pkg/kubectl/cmd/create.go:63 msgid "Create a resource by filename or stdin" msgstr "Cria um recurso por nome de arquivo ou stdin" #: pkg/kubectl/cmd/create_secret.go:144 msgid "Create a secret for use with a Docker registry" msgstr "Cria um secret para ser utilizado com o Docker registry" #: pkg/kubectl/cmd/create_secret.go:74 msgid "Create a secret from a local file, directory or literal value" msgstr "Cria um secret com base em um arquivo, diretório ou um valor literal" #: pkg/kubectl/cmd/create_secret.go:35 msgid "Create a secret using specified subcommand" msgstr "Cria um secret utilizando um sub-comando especificado" #: pkg/kubectl/cmd/create_serviceaccount.go:45 msgid "Create a service account with the specified name" msgstr "Cria uma conta de serviço com um nome especificado" #: pkg/kubectl/cmd/create_service.go:37 msgid "Create a service using specified subcommand." msgstr "Cria um service utilizando um sub-comando especificado." #: pkg/kubectl/cmd/create_service.go:241 msgid "Create an ExternalName service." msgstr "Cria um serviço do tipo ExternalName." #: pkg/kubectl/cmd/delete.go:132 msgid "" "Delete resources by filenames, stdin, resources and names, or by resources and label selector" msgstr "" "Apaga os recusros por nome de arquivos, stdin, recursos e nomes, ou por recursos e seletor de " "label" #: pkg/kubectl/cmd/config/delete_cluster.go:39 msgid "Delete the specified cluster from the kubeconfig" msgstr "Apaga o cluster especificado do kubeconfig" #: pkg/kubectl/cmd/config/delete_context.go:39 msgid "Delete the specified context from the kubeconfig" msgstr "Apaga o contexto especificado do kubeconfig" #: pkg/kubectl/cmd/certificates.go:122 msgid "Deny a certificate signing request" msgstr "Rejeita o pedido de assinatura do certificado" #: pkg/kubectl/cmd/stop.go:59 msgid "Deprecated: Gracefully shut down a resource by name or filename" msgstr "Descontinuado: Termina um recurso por nome ou nome de arquivo" #: pkg/kubectl/cmd/config/get_contexts.go:64 msgid "Describe one or many contexts" msgstr "Mostra um ou mais contextos" #: pkg/kubectl/cmd/top_node.go:78 msgid "Display Resource (CPU/Memory) usage of nodes" msgstr "Mostra a utilização de recursos (CPU/Memória) nos nodes" #: pkg/kubectl/cmd/top_pod.go:80 msgid "Display Resource (CPU/Memory) usage of pods" msgstr "Mostra a utilização de recursos (CPU/Memória) nos pods" #: pkg/kubectl/cmd/top.go:44 msgid "Display Resource (CPU/Memory) usage." msgstr "Mostra a utilização de recursos (CPU/Memória)." #: pkg/kubectl/cmd/clusterinfo.go:51 msgid "Display cluster info" msgstr "Mostra as informações do cluster" #: pkg/kubectl/cmd/config/get_clusters.go:41 msgid "Display clusters defined in the kubeconfig" msgstr "Mostra os clusters definidos no kubeconfig" #: pkg/kubectl/cmd/config/view.go:67 msgid "Display merged kubeconfig settings or a specified kubeconfig file" msgstr "Mostra a configuração do kubeconfig mescladas ou um arquivo kubeconfig especificado" #: pkg/kubectl/cmd/get.go:111 msgid "Display one or many resources" msgstr "Mostra um ou mais recursos" #: pkg/kubectl/cmd/config/current_context.go:49 msgid "Displays the current-context" msgstr "Mostra o contexto corrente" #: pkg/kubectl/cmd/explain.go:51 msgid "Documentation of resources" msgstr "Documentação dos recursos" #: pkg/kubectl/cmd/drain.go:178 msgid "Drain node in preparation for maintenance" msgstr "Drenar o node para preparação de manutenção" #: pkg/kubectl/cmd/clusterinfo_dump.go:39 msgid "Dump lots of relevant info for debugging and diagnosis" msgstr "Realiza o dump de muitas informações relevantes para debugging e diagnósticos" #: pkg/kubectl/cmd/edit.go:110 msgid "Edit a resource on the server" msgstr "Edita um recurso no servidor" #: pkg/kubectl/cmd/create_secret.go:160 msgid "Email for Docker registry" msgstr "Email para o Docker registry" #: pkg/kubectl/cmd/exec.go:69 msgid "Execute a command in a container" msgstr "Executa um comando em um container" #: pkg/kubectl/cmd/rollingupdate.go:103 msgid "" "Explicit policy for when to pull container images. Required when --image is same as existing " "image, ignored otherwise." msgstr "" "Política explícita para quando extrair imagens de contêiner. Obrigatório quando --image for " "igual à imagem existente, caso contrário, será ignorado." #: pkg/kubectl/cmd/portforward.go:76 msgid "Forward one or more local ports to a pod" msgstr "Encaminhar uma ou mais portas locais para um pod" #: pkg/kubectl/cmd/help.go:37 msgid "Help about any command" msgstr "Ajuda sobre qualquer comando" #: pkg/kubectl/cmd/expose.go:103 msgid "" "IP to assign to the Load Balancer. If empty, an ephemeral IP will be created and used (cloud-" "provider specific)." msgstr "" "IP para ser alocado no Load Balancer. Se vazio, um IP efêmero será criado e utilizado " "(específico para cada provedor cloud)." #: pkg/kubectl/cmd/expose.go:112 msgid "" "If non-empty, set the session affinity for the service to this; legal values: 'None', 'ClientIP'" msgstr "" "Se não vazio, configura a afinidade de sessão para o serviço; valores válidos: 'None', 'ClientIP'" #: pkg/kubectl/cmd/annotate.go:136 msgid "" "If non-empty, the annotation update will only succeed if this is the current resource-version " "for the object. Only valid when specifying a single resource." msgstr "" "Se não estiver vazio, a atualização dos annotation só terá êxito se esta for a versão do recurso " "atual para o objeto. Válido apenas ao especificar um único recurso." #: pkg/kubectl/cmd/label.go:134 msgid "" "If non-empty, the labels update will only succeed if this is the current resource-version for " "the object. Only valid when specifying a single resource." msgstr "" "Se não estiver vazio, a atualização dos labels só terá êxito se esta for a versão do recurso " "atual para o objeto. Válido apenas ao especificar um único recurso." #: pkg/kubectl/cmd/rollingupdate.go:99 msgid "" "Image to use for upgrading the replication controller. Must be distinct from the existing image " "(either new image or new image tag). Can not be used with --filename/-f" msgstr "" "Imagem a ser utilizada para atualizar o replication controller. Deve ser diferente da imagem " "atual (pode ser uma nova imagem ou uma nova tag). Não pode ser utilizada com —filename/-f" #: pkg/kubectl/cmd/rollout/rollout.go:47 msgid "Manage a deployment rollout" msgstr "Gerencia um deployment rollout" #: pkg/kubectl/cmd/drain.go:128 msgid "Mark node as schedulable" msgstr "Marca o node como agendável" #: pkg/kubectl/cmd/drain.go:103 msgid "Mark node as unschedulable" msgstr "Marca o node como não agendável" #: pkg/kubectl/cmd/rollout/rollout_pause.go:74 msgid "Mark the provided resource as paused" msgstr "Marca o recurso fornecido como pausado" #: pkg/kubectl/cmd/certificates.go:36 msgid "Modify certificate resources." msgstr "Edita o certificado dos recursos." #: pkg/kubectl/cmd/config/config.go:40 msgid "Modify kubeconfig files" msgstr "Edita o arquivo kubeconfig" #: pkg/kubectl/cmd/expose.go:108 msgid "" "Name or number for the port on the container that the service should direct traffic to. Optional." msgstr "" "Nome ou o número da porta em um container em que o serviço deve direcionar o tráfego. Opcional." #: pkg/kubectl/cmd/logs.go:113 msgid "" "Only return logs after a specific date (RFC3339). Defaults to all logs. Only one of since-time / " "since may be used." msgstr "" "Apenas retorna os logs após uma data específica (RFC3339). Padrão para todos os logs. Apenas um " "since-time / since deve ser utilizado." #: pkg/kubectl/cmd/completion.go:104 msgid "Output shell completion code for the specified shell (bash or zsh)" msgstr "Saída do autocomplete de shell para um Shell específico (bash ou zsh)" #: pkg/kubectl/cmd/convert.go:85 msgid "Output the formatted object with the given group version (for ex: 'extensions/v1beta1').)" msgstr "" "Imprime o objeto formatado com a dada versão de grupo (por exemplo: 'extensions/v1beta1').)" #: pkg/kubectl/cmd/create_secret.go:158 msgid "Password for Docker registry authentication" msgstr "Senha para a autenticação do registro do Docker" #: pkg/kubectl/cmd/create_secret.go:226 msgid "Path to PEM encoded public key certificate." msgstr "Caminho para a chave pública em formato PEM." #: pkg/kubectl/cmd/create_secret.go:227 msgid "Path to private key associated with given certificate." msgstr "Caminho para a chave private associada a um certificado fornecido." #: pkg/kubectl/cmd/rollingupdate.go:85 msgid "Perform a rolling update of the given ReplicationController" msgstr "Executa uma atualização contínua" #: pkg/kubectl/cmd/scale.go:83 msgid "" "Precondition for resource version. Requires that the current resource version match this value " "in order to scale." msgstr "" "Pré-condição para a versão do recurso. Requer que a versão do recurso atual corresponda a este " "valor para escalar." #: pkg/kubectl/cmd/version.go:40 msgid "Print the client and server version information" msgstr "Mostra a informação de versão do cliente e do servidor" #: pkg/kubectl/cmd/options.go:38 msgid "Print the list of flags inherited by all commands" msgstr "Mostra a lista de opções herdadas por todos os comandos" #: pkg/kubectl/cmd/logs.go:93 msgid "Print the logs for a container in a pod" msgstr "Mostra os logs de um container em um pod" #: pkg/kubectl/cmd/replace.go:71 msgid "Replace a resource by filename or stdin" msgstr "Substitui um recurso por um nome de arquivo ou stdin" #: pkg/kubectl/cmd/rollout/rollout_resume.go:72 msgid "Resume a paused resource" msgstr "Retoma um recurso pausado" #: pkg/kubectl/cmd/create_rolebinding.go:57 msgid "Role this RoleBinding should reference" msgstr "Role que a RoleBinding deve referenciar" #: pkg/kubectl/cmd/run.go:97 msgid "Run a particular image on the cluster" msgstr "Executa uma imagem específica no cluster" #: pkg/kubectl/cmd/proxy.go:69 msgid "Run a proxy to the Kubernetes API server" msgstr "Executa um proxy para o servidor de API do Kubernetes" #: pkg/kubectl/cmd/create_secret.go:161 msgid "Server location for Docker registry" msgstr "Localização do servidor para o registro do Docker" #: pkg/kubectl/cmd/scale.go:71 msgid "Set a new size for a Deployment, ReplicaSet, Replication Controller, or Job" msgstr "Define um novo tamanho para um Deployment, ReplicaSet, Replication Controller, ou Job" #: pkg/kubectl/cmd/set/set.go:38 msgid "Set specific features on objects" msgstr "Define funcionalidades específicas em objetos" #: pkg/kubectl/cmd/apply_set_last_applied.go:83 msgid "" "Set the last-applied-configuration annotation on a live object to match the contents of a file." msgstr "" "Define a anotação last-applied-configuration em um objeto existente para corresponder ao " "conteúdo do arquivo." #: pkg/kubectl/cmd/set/set_selector.go:82 msgid "Set the selector on a resource" msgstr "Define um seletor em um recurso" #: pkg/kubectl/cmd/config/create_cluster.go:68 msgid "Sets a cluster entry in kubeconfig" msgstr "Define um cluster no arquivo kubeconfig" #: pkg/kubectl/cmd/config/create_context.go:58 msgid "Sets a context entry in kubeconfig" msgstr "Define um contexto no arquivo kubeconfig" #: pkg/kubectl/cmd/config/create_authinfo.go:104 msgid "Sets a user entry in kubeconfig" msgstr "Define um usuário no arquivo kubeconfig" #: pkg/kubectl/cmd/config/set.go:60 msgid "Sets an individual value in a kubeconfig file" msgstr "Define um valor individual no arquivo kubeconfig" #: pkg/kubectl/cmd/config/use_context.go:49 msgid "Sets the current-context in a kubeconfig file" msgstr "Define o current-context no arquivo kubeconfig" #: pkg/kubectl/cmd/describe.go:86 msgid "Show details of a specific resource or group of resources" msgstr "Mostra os detalhes de um recurso específico ou de um grupo de recursos" #: pkg/kubectl/cmd/rollout/rollout_status.go:58 msgid "Show the status of the rollout" msgstr "Mostra o status de uma atualização dinamica" #: pkg/kubectl/cmd/expose.go:106 msgid "Synonym for --target-port" msgstr "Sinônimo para —target-port" #: pkg/kubectl/cmd/expose.go:88 msgid "" "Take a replication controller, service, deployment or pod and expose it as a new Kubernetes " "Service" msgstr "" "Pega um replication controlar, service, deployment ou pod e expõe como um novo Serviço do " "Kubernetes" #: pkg/kubectl/cmd/run.go:117 msgid "The image for the container to run." msgstr "A imagem para o container executar." #: pkg/kubectl/cmd/run.go:119 msgid "" "The image pull policy for the container. If left empty, this value will not be specified by the " "client and defaulted by the server" msgstr "" "A política de obtenção de imagens. Se deixado em branco, este valor não será especificado pelo " "cliente e será utilizado o padrão do servidor" #: pkg/kubectl/cmd/rollingupdate.go:101 msgid "" "The key to use to differentiate between two different controllers, default 'deployment'. Only " "relevant when --image is specified, ignored otherwise" msgstr "" "A chave utilizada para diferenciar entre dois controlares diferentes, padrão 'deployment'. " "Apenas relevante quando --image é especificado, é ignorado caso contrário" #: pkg/kubectl/cmd/create_pdb.go:63 msgid "The minimum number or percentage of available pods this budget requires." msgstr "Um número mínimo ou porcentagem de pods disponíveis que este budget requer." #: pkg/kubectl/cmd/expose.go:111 msgid "The name for the newly created object." msgstr "O nome para o objeto recém criado." #: pkg/kubectl/cmd/autoscale.go:72 msgid "" "The name for the newly created object. If not specified, the name of the input resource will be " "used." msgstr "" "O nome para o objeto recém criado. Se não especificado, o nome do input resource será utilizado." #: pkg/kubectl/cmd/run.go:116 msgid "" "The name of the API generator to use, see http://kubernetes.io/docs/user-guide/kubectl-" "conventions/#generators for a list." msgstr "" "O nome do gerador de API a ser usado, veja a lista em http://kubernetes.io/docs/user-guide/" "kubectl-conventions/#generators." #: pkg/kubectl/cmd/autoscale.go:67 msgid "The name of the API generator to use. Currently there is only 1 generator." msgstr "O nome do gerador de API a ser usado. Atualmente existe apenas 1 gerador." #: pkg/kubectl/cmd/expose.go:99 msgid "" "The name of the API generator to use. There are 2 generators: 'service/v1' and 'service/v2'. The " "only difference between them is that service port in v1 is named 'default', while it is left " "unnamed in v2. Default is 'service/v2'." msgstr "" "O nome do gerador de API a ser usado. Existem 2 geradores: 'service/v1' e 'service/v2'. A única " "diferença entre eles é que a porta de serviço na v1 é chamada de 'default', enquanto ela é " "deixada sem nome na v2. O padrão é 'service/v2'." #: pkg/kubectl/cmd/run.go:136 msgid "The name of the generator to use for creating a service. Only used if --expose is true" msgstr "" "O nome do recurso para ser utilizado quando criando um serviço. Apenas utilizado se —expose é " "verdadeiro" #: pkg/kubectl/cmd/expose.go:100 msgid "The network protocol for the service to be created. Default is 'TCP'." msgstr "O protocolo de rede para o serviço ser criado. Padrão é 'TCP'." #: pkg/kubectl/cmd/expose.go:101 msgid "" "The port that the service should serve on. Copied from the resource being exposed, if unspecified" msgstr "" "A porta para que o serviço possa servir. Copiado do recurso sendo exposto, se não especificado" #: pkg/kubectl/cmd/run.go:124 msgid "" "The port that this container exposes. If --expose is true, this is also the port used by the " "service that is created." msgstr "" "A porta que o container expõe. Se —expose é verdadeiro, esta também é a porta utilizada pelo " "serviço quando for criado." #: pkg/kubectl/cmd/run.go:134 msgid "" "The resource requirement limits for this container. For example, 'cpu=200m,memory=512Mi'. Note " "that server side components may assign limits depending on the server configuration, such as " "limit ranges." msgstr "" "O recurso requerido para este container. Por exemplo, 'cpu=200m,memory=512Mi'. Observe que os " "componentes do lado do servidor podem atribuir limites, dependendo da configuração do servidor, " "como intervalos de limite." #: pkg/kubectl/cmd/run.go:133 msgid "" "The resource requirement requests for this container. For example, 'cpu=100m,memory=256Mi'. " "Note that server side components may assign requests depending on the server configuration, such " "as limit ranges." msgstr "" "O recurso requerido de requests para este container. Por exemplo, 'cpu=100m,memory=256Mi'. " "Observe que os componentes do lado do servidor podem atribuir requests, dependendo da " "configuração do servidor, como intervalos de limite." #: pkg/kubectl/cmd/run.go:131 msgid "" "The restart policy for this Pod. Legal values [Always, OnFailure, Never]. If set to 'Always' a " "deployment is created, if set to 'OnFailure' a job is created, if set to 'Never', a regular pod " "is created. For the latter two --replicas must be 1. Default 'Always', for CronJobs ` + "`" + `Never` + "`" + `." msgstr "" "A politica de restart para este Pod. Possíveis valores [Always, OnFailure, Never]. Se " "configurado para 'Always' um deployment é criado, se configurado para 'OnFailure' um job é " "criado, se configurado para 'Never', um pod é criado. Para os dois últimos —replicas deve ser " "1. Valor padrão 'Always', para CronJobs ` + "`" + `Never` + "`" + `." #: pkg/kubectl/cmd/create_secret.go:88 msgid "The type of secret to create" msgstr "O tipo de segredo para criar" #: pkg/kubectl/cmd/expose.go:102 msgid "Type for this service: ClusterIP, NodePort, or LoadBalancer. Default is 'ClusterIP'." msgstr "Tipo para este serviço: ClusterIP, NodePort, ou LoadBalancer. Valor padrão é 'ClusterIP'." #: pkg/kubectl/cmd/rollout/rollout_undo.go:72 msgid "Undo a previous rollout" msgstr "Desfazer o rollout anterior" #: pkg/kubectl/cmd/config/unset.go:48 msgid "Unsets an individual value in a kubeconfig file" msgstr "Remover um valor individual do arquivo kubeconfig" #: pkg/kubectl/cmd/patch.go:96 msgid "Update field(s) of a resource using strategic merge patch" msgstr "Atualizar o(s) campo(s) de um recurso usando a estratégia de merge patch" #: pkg/kubectl/cmd/set/set_image.go:95 msgid "Update image of a pod template" msgstr "Atualizar a imagem de um template de pod" #: pkg/kubectl/cmd/set/set_resources.go:102 msgid "Update resource requests/limits on objects with pod templates" msgstr "Atualizar os recursos de request/limites em um objeto com template de pod" #: pkg/kubectl/cmd/annotate.go:116 msgid "Update the annotations on a resource" msgstr "Atualizar as anotações de um recurso" #: pkg/kubectl/cmd/label.go:114 msgid "Update the labels on a resource" msgstr "Atualizar os labels de um recurso" #: pkg/kubectl/cmd/taint.go:87 msgid "Update the taints on one or more nodes" msgstr "Atualizar o taints de um ou mais nodes" #: pkg/kubectl/cmd/create_secret.go:156 msgid "Username for Docker registry authentication" msgstr "Nome de usuário para a autenticação no Docker registry" #: pkg/kubectl/cmd/apply_view_last_applied.go:64 msgid "View latest last-applied-configuration annotations of a resource/object" msgstr "Visualizar a última anotação last-applied-configuration de um recurso/objeto" #: pkg/kubectl/cmd/rollout/rollout_history.go:52 msgid "View rollout history" msgstr "Visualizar o histórico de rollout" #: pkg/kubectl/cmd/clusterinfo_dump.go:46 msgid "" "Where to output the files. If empty or '-' uses stdout, otherwise creates a directory hierarchy " "in that directory" msgstr "" "Onde colocar os arquivos de saída. Se vazio ou '-' usa o stdout do terminal, caso contrário, " "cria uma hierarquia no diretório configurado" #: pkg/kubectl/cmd/run_test.go:85 msgid "dummy restart flag)" msgstr "dummy restart flag)" #: pkg/kubectl/cmd/create_service.go:254 msgid "external name of service" msgstr "nome externo do serviço" #: pkg/kubectl/cmd/cmd.go:227 msgid "kubectl controls the Kubernetes cluster manager" msgstr "kubectl controla o gerenciador de cluster do Kubernetes" `) func translationsKubectlPt_brLc_messagesK8sPoBytes() ([]byte, error) { return _translationsKubectlPt_brLc_messagesK8sPo, nil } func translationsKubectlPt_brLc_messagesK8sPo() (*asset, error) { bytes, err := translationsKubectlPt_brLc_messagesK8sPoBytes() if err != nil { return nil, err } info := bindataFileInfo{name: "translations/kubectl/pt_BR/LC_MESSAGES/k8s.po", size: 0, mode: os.FileMode(0), modTime: time.Unix(0, 0)} a := &asset{bytes: bytes, info: info} return a, nil } var _translationsKubectlTemplatePot = []byte(`# SOME DESCRIPTIVE TITLE. # Copyright (C) YEAR THE PACKAGE'S COPYRIGHT HOLDER # This file is distributed under the same license as the Kubernetes package. # FIRST AUTHOR , YEAR. # #, fuzzy msgid "" msgstr "" "Project-Id-Version: \n" "Report-Msgid-Bugs-To: EMAIL\n" "POT-Creation-Date: 2017-03-14 21:32-0700\n" "PO-Revision-Date: YEAR-MO-DA HO:MI+ZONE\n" "Last-Translator: FULL NAME \n" "Language-Team: LANGUAGE \n" "Language: \n" "MIME-Version: 1.0\n" "Content-Type: text/plain; charset=UTF-8\n" "Content-Transfer-Encoding: 8bit\n" #: pkg/kubectl/cmd/create_clusterrolebinding.go:35 msgid "" "\n" "\t\t # Create a ClusterRoleBinding for user1, user2, and group1 using the " "cluster-admin ClusterRole\n" "\t\t kubectl create clusterrolebinding cluster-admin --clusterrole=cluster-" "admin --user=user1 --user=user2 --group=group1" msgstr "" #: pkg/kubectl/cmd/create_rolebinding.go:35 msgid "" "\n" "\t\t # Create a RoleBinding for user1, user2, and group1 using the admin " "ClusterRole\n" "\t\t kubectl create rolebinding admin --clusterrole=admin --user=user1 --" "user=user2 --group=group1" msgstr "" #: pkg/kubectl/cmd/create_configmap.go:44 msgid "" "\n" "\t\t # Create a new configmap named my-config based on folder bar\n" "\t\t kubectl create configmap my-config --from-file=path/to/bar\n" "\n" "\t\t # Create a new configmap named my-config with specified keys instead " "of file basenames on disk\n" "\t\t kubectl create configmap my-config --from-file=key1=/path/to/bar/file1." "txt --from-file=key2=/path/to/bar/file2.txt\n" "\n" "\t\t # Create a new configmap named my-config with key1=config1 and " "key2=config2\n" "\t\t kubectl create configmap my-config --from-literal=key1=config1 --from-" "literal=key2=config2" msgstr "" #: pkg/kubectl/cmd/create_secret.go:135 msgid "" "\n" "\t\t # If you don't already have a .dockercfg file, you can create a " "dockercfg secret directly by using:\n" "\t\t kubectl create secret docker-registry my-secret --docker-" "server=DOCKER_REGISTRY_SERVER --docker-username=DOCKER_USER --docker-" "password=DOCKER_PASSWORD --docker-email=DOCKER_EMAIL" msgstr "" #: pkg/kubectl/cmd/top_node.go:65 msgid "" "\n" "\t\t # Show metrics for all nodes\n" "\t\t kubectl top node\n" "\n" "\t\t # Show metrics for a given node\n" "\t\t kubectl top node NODE_NAME" msgstr "" #: pkg/kubectl/cmd/apply.go:84 msgid "" "\n" "\t\t# Apply the configuration in pod.json to a pod.\n" "\t\tkubectl apply -f ./pod.json\n" "\n" "\t\t# Apply the JSON passed into stdin to a pod.\n" "\t\tcat pod.json | kubectl apply -f -\n" "\n" "\t\t# Note: --prune is still in Alpha\n" "\t\t# Apply the configuration in manifest.yaml that matches label app=nginx " "and delete all the other resources that are not in the file and match label " "app=nginx.\n" "\t\tkubectl apply --prune -f manifest.yaml -l app=nginx\n" "\n" "\t\t# Apply the configuration in manifest.yaml and delete all the other " "configmaps that are not in the file.\n" "\t\tkubectl apply --prune -f manifest.yaml --all --prune-whitelist=core/v1/" "ConfigMap" msgstr "" #: pkg/kubectl/cmd/autoscale.go:40 #, c-format msgid "" "\n" "\t\t# Auto scale a deployment \"foo\", with the number of pods between 2 and " "10, no target CPU utilization specified so a default autoscaling policy will " "be used:\n" "\t\tkubectl autoscale deployment foo --min=2 --max=10\n" "\n" "\t\t# Auto scale a replication controller \"foo\", with the number of pods " "between 1 and 5, target CPU utilization at 80%:\n" "\t\tkubectl autoscale rc foo --max=5 --cpu-percent=80" msgstr "" #: pkg/kubectl/cmd/convert.go:49 msgid "" "\n" "\t\t# Convert 'pod.yaml' to latest version and print to stdout.\n" "\t\tkubectl convert -f pod.yaml\n" "\n" "\t\t# Convert the live state of the resource specified by 'pod.yaml' to the " "latest version\n" "\t\t# and print to stdout in json format.\n" "\t\tkubectl convert -f pod.yaml --local -o json\n" "\n" "\t\t# Convert all files under current directory to latest version and create " "them all.\n" "\t\tkubectl convert -f . | kubectl create -f -" msgstr "" #: pkg/kubectl/cmd/create_clusterrole.go:34 msgid "" "\n" "\t\t# Create a ClusterRole named \"pod-reader\" that allows user to perform " "\"get\", \"watch\" and \"list\" on pods\n" "\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --" "resource=pods\n" "\n" "\t\t# Create a ClusterRole named \"pod-reader\" with ResourceName specified\n" "\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --" "resource=pods --resource-name=readablepod" msgstr "" #: pkg/kubectl/cmd/create_role.go:41 msgid "" "\n" "\t\t# Create a Role named \"pod-reader\" that allows user to perform \"get" "\", \"watch\" and \"list\" on pods\n" "\t\tkubectl create role pod-reader --verb=get --verb=list --verb=watch --" "resource=pods\n" "\n" "\t\t# Create a Role named \"pod-reader\" with ResourceName specified\n" "\t\tkubectl create role pod-reader --verb=get --verg=list --verb=watch --" "resource=pods --resource-name=readablepod" msgstr "" #: pkg/kubectl/cmd/create_quota.go:35 msgid "" "\n" "\t\t# Create a new resourcequota named my-quota\n" "\t\tkubectl create quota my-quota --hard=cpu=1,memory=1G,pods=2,services=3," "replicationcontrollers=2,resourcequotas=1,secrets=5," "persistentvolumeclaims=10\n" "\n" "\t\t# Create a new resourcequota named best-effort\n" "\t\tkubectl create quota best-effort --hard=pods=100 --scopes=BestEffort" msgstr "" #: pkg/kubectl/cmd/create_pdb.go:35 #, c-format msgid "" "\n" "\t\t# Create a pod disruption budget named my-pdb that will select all pods " "with the app=rails label\n" "\t\t# and require at least one of them being available at any point in " "time.\n" "\t\tkubectl create poddisruptionbudget my-pdb --selector=app=rails --min-" "available=1\n" "\n" "\t\t# Create a pod disruption budget named my-pdb that will select all pods " "with the app=nginx label\n" "\t\t# and require at least half of the pods selected to be available at any " "point in time.\n" "\t\tkubectl create pdb my-pdb --selector=app=nginx --min-available=50%" msgstr "" #: pkg/kubectl/cmd/create.go:47 msgid "" "\n" "\t\t# Create a pod using the data in pod.json.\n" "\t\tkubectl create -f ./pod.json\n" "\n" "\t\t# Create a pod based on the JSON passed into stdin.\n" "\t\tcat pod.json | kubectl create -f -\n" "\n" "\t\t# Edit the data in docker-registry.yaml in JSON using the v1 API format " "then create the resource using the edited data.\n" "\t\tkubectl create -f docker-registry.yaml --edit --output-version=v1 -o json" msgstr "" #: pkg/kubectl/cmd/expose.go:53 msgid "" "\n" "\t\t# Create a service for a replicated nginx, which serves on port 80 and " "connects to the containers on port 8000.\n" "\t\tkubectl expose rc nginx --port=80 --target-port=8000\n" "\n" "\t\t# Create a service for a replication controller identified by type and " "name specified in \"nginx-controller.yaml\", which serves on port 80 and " "connects to the containers on port 8000.\n" "\t\tkubectl expose -f nginx-controller.yaml --port=80 --target-port=8000\n" "\n" "\t\t# Create a service for a pod valid-pod, which serves on port 444 with " "the name \"frontend\"\n" "\t\tkubectl expose pod valid-pod --port=444 --name=frontend\n" "\n" "\t\t# Create a second service based on the above service, exposing the " "container port 8443 as port 443 with the name \"nginx-https\"\n" "\t\tkubectl expose service nginx --port=443 --target-port=8443 --name=nginx-" "https\n" "\n" "\t\t# Create a service for a replicated streaming application on port 4100 " "balancing UDP traffic and named 'video-stream'.\n" "\t\tkubectl expose rc streamer --port=4100 --protocol=udp --name=video-" "stream\n" "\n" "\t\t# Create a service for a replicated nginx using replica set, which " "serves on port 80 and connects to the containers on port 8000.\n" "\t\tkubectl expose rs nginx --port=80 --target-port=8000\n" "\n" "\t\t# Create a service for an nginx deployment, which serves on port 80 and " "connects to the containers on port 8000.\n" "\t\tkubectl expose deployment nginx --port=80 --target-port=8000" msgstr "" #: pkg/kubectl/cmd/delete.go:68 msgid "" "\n" "\t\t# Delete a pod using the type and name specified in pod.json.\n" "\t\tkubectl delete -f ./pod.json\n" "\n" "\t\t# Delete a pod based on the type and name in the JSON passed into " "stdin.\n" "\t\tcat pod.json | kubectl delete -f -\n" "\n" "\t\t# Delete pods and services with same names \"baz\" and \"foo\"\n" "\t\tkubectl delete pod,service baz foo\n" "\n" "\t\t# Delete pods and services with label name=myLabel.\n" "\t\tkubectl delete pods,services -l name=myLabel\n" "\n" "\t\t# Delete a pod with minimal delay\n" "\t\tkubectl delete pod foo --now\n" "\n" "\t\t# Force delete a pod on a dead node\n" "\t\tkubectl delete pod foo --grace-period=0 --force\n" "\n" "\t\t# Delete all pods\n" "\t\tkubectl delete pods --all" msgstr "" #: pkg/kubectl/cmd/describe.go:54 msgid "" "\n" "\t\t# Describe a node\n" "\t\tkubectl describe nodes kubernetes-node-emt8.c.myproject.internal\n" "\n" "\t\t# Describe a pod\n" "\t\tkubectl describe pods/nginx\n" "\n" "\t\t# Describe a pod identified by type and name in \"pod.json\"\n" "\t\tkubectl describe -f pod.json\n" "\n" "\t\t# Describe all pods\n" "\t\tkubectl describe pods\n" "\n" "\t\t# Describe pods by label name=myLabel\n" "\t\tkubectl describe po -l name=myLabel\n" "\n" "\t\t# Describe all pods managed by the 'frontend' replication controller (rc-" "created pods\n" "\t\t# get the name of the rc as a prefix in the pod the name).\n" "\t\tkubectl describe pods frontend" msgstr "" #: pkg/kubectl/cmd/drain.go:165 msgid "" "\n" "\t\t# Drain node \"foo\", even if there are pods not managed by a " "ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet on it.\n" "\t\t$ kubectl drain foo --force\n" "\n" "\t\t# As above, but abort if there are pods not managed by a " "ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet, and use a " "grace period of 15 minutes.\n" "\t\t$ kubectl drain foo --grace-period=900" msgstr "" #: pkg/kubectl/cmd/edit.go:80 msgid "" "\n" "\t\t# Edit the service named 'docker-registry':\n" "\t\tkubectl edit svc/docker-registry\n" "\n" "\t\t# Use an alternative editor\n" "\t\tKUBE_EDITOR=\"nano\" kubectl edit svc/docker-registry\n" "\n" "\t\t# Edit the job 'myjob' in JSON using the v1 API format:\n" "\t\tkubectl edit job.v1.batch/myjob -o json\n" "\n" "\t\t# Edit the deployment 'mydeployment' in YAML and save the modified " "config in its annotation:\n" "\t\tkubectl edit deployment/mydeployment -o yaml --save-config" msgstr "" #: pkg/kubectl/cmd/exec.go:41 msgid "" "\n" "\t\t# Get output from running 'date' from pod 123456-7890, using the first " "container by default\n" "\t\tkubectl exec 123456-7890 date\n" "\n" "\t\t# Get output from running 'date' in ruby-container from pod 123456-7890\n" "\t\tkubectl exec 123456-7890 -c ruby-container date\n" "\n" "\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container " "from pod 123456-7890\n" "\t\t# and sends stdout/stderr from 'bash' back to the client\n" "\t\tkubectl exec 123456-7890 -c ruby-container -i -t -- bash -il" msgstr "" #: pkg/kubectl/cmd/attach.go:42 msgid "" "\n" "\t\t# Get output from running pod 123456-7890, using the first container by " "default\n" "\t\tkubectl attach 123456-7890\n" "\n" "\t\t# Get output from ruby-container from pod 123456-7890\n" "\t\tkubectl attach 123456-7890 -c ruby-container\n" "\n" "\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container " "from pod 123456-7890\n" "\t\t# and sends stdout/stderr from 'bash' back to the client\n" "\t\tkubectl attach 123456-7890 -c ruby-container -i -t\n" "\n" "\t\t# Get output from the first pod of a ReplicaSet named nginx\n" "\t\tkubectl attach rs/nginx\n" "\t\t" msgstr "" #: pkg/kubectl/cmd/explain.go:39 msgid "" "\n" "\t\t# Get the documentation of the resource and its fields\n" "\t\tkubectl explain pods\n" "\n" "\t\t# Get the documentation of a specific field of a resource\n" "\t\tkubectl explain pods.spec.containers" msgstr "" #: pkg/kubectl/cmd/completion.go:65 msgid "" "\n" "\t\t# Install bash completion on a Mac using homebrew\n" "\t\tbrew install bash-completion\n" "\t\tprintf \"\n" "# Bash completion support\n" "source $(brew --prefix)/etc/bash_completion\n" "\" >> $HOME/.bash_profile\n" "\t\tsource $HOME/.bash_profile\n" "\n" "\t\t# Load the kubectl completion code for bash into the current shell\n" "\t\tsource <(kubectl completion bash)\n" "\n" "\t\t# Write bash completion code to a file and source if from .bash_profile\n" "\t\tkubectl completion bash > ~/.kube/completion.bash.inc\n" "\t\tprintf \"\n" "# Kubectl shell completion\n" "source '$HOME/.kube/completion.bash.inc'\n" "\" >> $HOME/.bash_profile\n" "\t\tsource $HOME/.bash_profile\n" "\n" "\t\t# Load the kubectl completion code for zsh[1] into the current shell\n" "\t\tsource <(kubectl completion zsh)" msgstr "" #: pkg/kubectl/cmd/get.go:64 msgid "" "\n" "\t\t# List all pods in ps output format.\n" "\t\tkubectl get pods\n" "\n" "\t\t# List all pods in ps output format with more information (such as node " "name).\n" "\t\tkubectl get pods -o wide\n" "\n" "\t\t# List a single replication controller with specified NAME in ps output " "format.\n" "\t\tkubectl get replicationcontroller web\n" "\n" "\t\t# List a single pod in JSON output format.\n" "\t\tkubectl get -o json pod web-pod-13je7\n" "\n" "\t\t# List a pod identified by type and name specified in \"pod.yaml\" in " "JSON output format.\n" "\t\tkubectl get -f pod.yaml -o json\n" "\n" "\t\t# Return only the phase value of the specified pod.\n" "\t\tkubectl get -o template pod/web-pod-13je7 --template={{.status.phase}}\n" "\n" "\t\t# List all replication controllers and services together in ps output " "format.\n" "\t\tkubectl get rc,services\n" "\n" "\t\t# List one or more resources by their type and names.\n" "\t\tkubectl get rc/web service/frontend pods/web-pod-13je7\n" "\n" "\t\t# List all resources with different types.\n" "\t\tkubectl get all" msgstr "" #: pkg/kubectl/cmd/portforward.go:53 msgid "" "\n" "\t\t# Listen on ports 5000 and 6000 locally, forwarding data to/from ports " "5000 and 6000 in the pod\n" "\t\tkubectl port-forward mypod 5000 6000\n" "\n" "\t\t# Listen on port 8888 locally, forwarding to 5000 in the pod\n" "\t\tkubectl port-forward mypod 8888:5000\n" "\n" "\t\t# Listen on a random port locally, forwarding to 5000 in the pod\n" "\t\tkubectl port-forward mypod :5000\n" "\n" "\t\t# Listen on a random port locally, forwarding to 5000 in the pod\n" "\t\tkubectl port-forward mypod 0:5000" msgstr "" #: pkg/kubectl/cmd/drain.go:118 msgid "" "\n" "\t\t# Mark node \"foo\" as schedulable.\n" "\t\t$ kubectl uncordon foo" msgstr "" #: pkg/kubectl/cmd/drain.go:93 msgid "" "\n" "\t\t# Mark node \"foo\" as unschedulable.\n" "\t\tkubectl cordon foo" msgstr "" #: pkg/kubectl/cmd/patch.go:66 msgid "" "\n" "\t\t# Partially update a node using strategic merge patch\n" "\t\tkubectl patch node k8s-node-1 -p '{\"spec\":{\"unschedulable\":true}}'\n" "\n" "\t\t# Partially update a node identified by the type and name specified in " "\"node.json\" using strategic merge patch\n" "\t\tkubectl patch -f node.json -p '{\"spec\":{\"unschedulable\":true}}'\n" "\n" "\t\t# Update a container's image; spec.containers[*].name is required " "because it's a merge key\n" "\t\tkubectl patch pod valid-pod -p '{\"spec\":{\"containers\":[{\"name\":" "\"kubernetes-serve-hostname\",\"image\":\"new image\"}]}}'\n" "\n" "\t\t# Update a container's image using a json patch with positional arrays\n" "\t\tkubectl patch pod valid-pod --type='json' -p='[{\"op\": \"replace\", " "\"path\": \"/spec/containers/0/image\", \"value\":\"new image\"}]'" msgstr "" #: pkg/kubectl/cmd/options.go:29 msgid "" "\n" "\t\t# Print flags inherited by all commands\n" "\t\tkubectl options" msgstr "" #: pkg/kubectl/cmd/clusterinfo.go:41 msgid "" "\n" "\t\t# Print the address of the master and cluster services\n" "\t\tkubectl cluster-info" msgstr "" #: pkg/kubectl/cmd/version.go:32 msgid "" "\n" "\t\t# Print the client and server versions for the current context\n" "\t\tkubectl version" msgstr "" #: pkg/kubectl/cmd/apiversions.go:34 msgid "" "\n" "\t\t# Print the supported API versions\n" "\t\tkubectl api-versions" msgstr "" #: pkg/kubectl/cmd/replace.go:50 msgid "" "\n" "\t\t# Replace a pod using the data in pod.json.\n" "\t\tkubectl replace -f ./pod.json\n" "\n" "\t\t# Replace a pod based on the JSON passed into stdin.\n" "\t\tcat pod.json | kubectl replace -f -\n" "\n" "\t\t# Update a single-container pod's image version (tag) to v4\n" "\t\tkubectl get pod mypod -o yaml | sed 's/\\(image: myimage\\):.*$/:v4/' | " "kubectl replace -f -\n" "\n" "\t\t# Force replace, delete and then re-create the resource\n" "\t\tkubectl replace --force -f ./pod.json" msgstr "" #: pkg/kubectl/cmd/logs.go:40 msgid "" "\n" "\t\t# Return snapshot logs from pod nginx with only one container\n" "\t\tkubectl logs nginx\n" "\n" "\t\t# Return snapshot logs for the pods defined by label app=nginx\n" "\t\tkubectl logs -lapp=nginx\n" "\n" "\t\t# Return snapshot of previous terminated ruby container logs from pod " "web-1\n" "\t\tkubectl logs -p -c ruby web-1\n" "\n" "\t\t# Begin streaming the logs of the ruby container in pod web-1\n" "\t\tkubectl logs -f -c ruby web-1\n" "\n" "\t\t# Display only the most recent 20 lines of output in pod nginx\n" "\t\tkubectl logs --tail=20 nginx\n" "\n" "\t\t# Show all logs from pod nginx written in the last hour\n" "\t\tkubectl logs --since=1h nginx\n" "\n" "\t\t# Return snapshot logs from first container of a job named hello\n" "\t\tkubectl logs job/hello\n" "\n" "\t\t# Return snapshot logs from container nginx-1 of a deployment named " "nginx\n" "\t\tkubectl logs deployment/nginx -c nginx-1" msgstr "" #: pkg/kubectl/cmd/proxy.go:53 msgid "" "\n" "\t\t# Run a proxy to kubernetes apiserver on port 8011, serving static " "content from ./local/www/\n" "\t\tkubectl proxy --port=8011 --www=./local/www/\n" "\n" "\t\t# Run a proxy to kubernetes apiserver on an arbitrary local port.\n" "\t\t# The chosen port for the server will be output to stdout.\n" "\t\tkubectl proxy --port=0\n" "\n" "\t\t# Run a proxy to kubernetes apiserver, changing the api prefix to k8s-" "api\n" "\t\t# This makes e.g. the pods api available at localhost:8001/k8s-api/v1/" "pods/\n" "\t\tkubectl proxy --api-prefix=/k8s-api" msgstr "" #: pkg/kubectl/cmd/scale.go:43 msgid "" "\n" "\t\t# Scale a replicaset named 'foo' to 3.\n" "\t\tkubectl scale --replicas=3 rs/foo\n" "\n" "\t\t# Scale a resource identified by type and name specified in \"foo.yaml\" " "to 3.\n" "\t\tkubectl scale --replicas=3 -f foo.yaml\n" "\n" "\t\t# If the deployment named mysql's current size is 2, scale mysql to 3.\n" "\t\tkubectl scale --current-replicas=2 --replicas=3 deployment/mysql\n" "\n" "\t\t# Scale multiple replication controllers.\n" "\t\tkubectl scale --replicas=5 rc/foo rc/bar rc/baz\n" "\n" "\t\t# Scale job named 'cron' to 3.\n" "\t\tkubectl scale --replicas=3 job/cron" msgstr "" #: pkg/kubectl/cmd/apply_set_last_applied.go:67 msgid "" "\n" "\t\t# Set the last-applied-configuration of a resource to match the contents " "of a file.\n" "\t\tkubectl apply set-last-applied -f deploy.yaml\n" "\n" "\t\t# Execute set-last-applied against each configuration file in a " "directory.\n" "\t\tkubectl apply set-last-applied -f path/\n" "\n" "\t\t# Set the last-applied-configuration of a resource to match the contents " "of a file, will create the annotation if it does not already exist.\n" "\t\tkubectl apply set-last-applied -f deploy.yaml --create-annotation=true\n" "\t\t" msgstr "" #: pkg/kubectl/cmd/top_pod.go:61 msgid "" "\n" "\t\t# Show metrics for all pods in the default namespace\n" "\t\tkubectl top pod\n" "\n" "\t\t# Show metrics for all pods in the given namespace\n" "\t\tkubectl top pod --namespace=NAMESPACE\n" "\n" "\t\t# Show metrics for a given pod and its containers\n" "\t\tkubectl top pod POD_NAME --containers\n" "\n" "\t\t# Show metrics for the pods defined by label name=myLabel\n" "\t\tkubectl top pod -l name=myLabel" msgstr "" #: pkg/kubectl/cmd/stop.go:40 msgid "" "\n" "\t\t# Shut down foo.\n" "\t\tkubectl stop replicationcontroller foo\n" "\n" "\t\t# Stop pods and services with label name=myLabel.\n" "\t\tkubectl stop pods,services -l name=myLabel\n" "\n" "\t\t# Shut down the service defined in service.json\n" "\t\tkubectl stop -f service.json\n" "\n" "\t\t# Shut down all resources in the path/to/resources directory\n" "\t\tkubectl stop -f path/to/resources" msgstr "" #: pkg/kubectl/cmd/run.go:57 msgid "" "\n" "\t\t# Start a single instance of nginx.\n" "\t\tkubectl run nginx --image=nginx\n" "\n" "\t\t# Start a single instance of hazelcast and let the container expose port " "5701 .\n" "\t\tkubectl run hazelcast --image=hazelcast --port=5701\n" "\n" "\t\t# Start a single instance of hazelcast and set environment variables " "\"DNS_DOMAIN=cluster\" and \"POD_NAMESPACE=default\" in the container.\n" "\t\tkubectl run hazelcast --image=hazelcast --env=\"DNS_DOMAIN=cluster\" --" "env=\"POD_NAMESPACE=default\"\n" "\n" "\t\t# Start a replicated instance of nginx.\n" "\t\tkubectl run nginx --image=nginx --replicas=5\n" "\n" "\t\t# Dry run. Print the corresponding API objects without creating them.\n" "\t\tkubectl run nginx --image=nginx --dry-run\n" "\n" "\t\t# Start a single instance of nginx, but overload the spec of the " "deployment with a partial set of values parsed from JSON.\n" "\t\tkubectl run nginx --image=nginx --overrides='{ \"apiVersion\": \"v1\", " "\"spec\": { ... } }'\n" "\n" "\t\t# Start a pod of busybox and keep it in the foreground, don't restart it " "if it exits.\n" "\t\tkubectl run -i -t busybox --image=busybox --restart=Never\n" "\n" "\t\t# Start the nginx container using the default command, but use custom " "arguments (arg1 .. argN) for that command.\n" "\t\tkubectl run nginx --image=nginx -- ... \n" "\n" "\t\t# Start the nginx container using a different command and custom " "arguments.\n" "\t\tkubectl run nginx --image=nginx --command -- ... \n" "\n" "\t\t# Start the perl container to compute π to 2000 places and print it " "out.\n" "\t\tkubectl run pi --image=perl --restart=OnFailure -- perl -Mbignum=bpi -" "wle 'print bpi(2000)'\n" "\n" "\t\t# Start the cron job to compute π to 2000 places and print it out every " "5 minutes.\n" "\t\tkubectl run pi --schedule=\"0/5 * * * ?\" --image=perl --" "restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'" msgstr "" #: pkg/kubectl/cmd/taint.go:67 msgid "" "\n" "\t\t# Update node 'foo' with a taint with key 'dedicated' and value 'special-" "user' and effect 'NoSchedule'.\n" "\t\t# If a taint with that key and effect already exists, its value is " "replaced as specified.\n" "\t\tkubectl taint nodes foo dedicated=special-user:NoSchedule\n" "\n" "\t\t# Remove from node 'foo' the taint with key 'dedicated' and effect " "'NoSchedule' if one exists.\n" "\t\tkubectl taint nodes foo dedicated:NoSchedule-\n" "\n" "\t\t# Remove from node 'foo' all the taints with key 'dedicated'\n" "\t\tkubectl taint nodes foo dedicated-" msgstr "" #: pkg/kubectl/cmd/label.go:77 msgid "" "\n" "\t\t# Update pod 'foo' with the label 'unhealthy' and the value 'true'.\n" "\t\tkubectl label pods foo unhealthy=true\n" "\n" "\t\t# Update pod 'foo' with the label 'status' and the value 'unhealthy', " "overwriting any existing value.\n" "\t\tkubectl label --overwrite pods foo status=unhealthy\n" "\n" "\t\t# Update all pods in the namespace\n" "\t\tkubectl label pods --all status=unhealthy\n" "\n" "\t\t# Update a pod identified by the type and name in \"pod.json\"\n" "\t\tkubectl label -f pod.json status=unhealthy\n" "\n" "\t\t# Update pod 'foo' only if the resource is unchanged from version 1.\n" "\t\tkubectl label pods foo status=unhealthy --resource-version=1\n" "\n" "\t\t# Update pod 'foo' by removing a label named 'bar' if it exists.\n" "\t\t# Does not require the --overwrite flag.\n" "\t\tkubectl label pods foo bar-" msgstr "" #: pkg/kubectl/cmd/rollingupdate.go:54 msgid "" "\n" "\t\t# Update pods of frontend-v1 using new replication controller data in " "frontend-v2.json.\n" "\t\tkubectl rolling-update frontend-v1 -f frontend-v2.json\n" "\n" "\t\t# Update pods of frontend-v1 using JSON data passed into stdin.\n" "\t\tcat frontend-v2.json | kubectl rolling-update frontend-v1 -f -\n" "\n" "\t\t# Update the pods of frontend-v1 to frontend-v2 by just changing the " "image, and switching the\n" "\t\t# name of the replication controller.\n" "\t\tkubectl rolling-update frontend-v1 frontend-v2 --image=image:v2\n" "\n" "\t\t# Update the pods of frontend by just changing the image, and keeping " "the old name.\n" "\t\tkubectl rolling-update frontend --image=image:v2\n" "\n" "\t\t# Abort and reverse an existing rollout in progress (from frontend-v1 to " "frontend-v2).\n" "\t\tkubectl rolling-update frontend-v1 frontend-v2 --rollback" msgstr "" #: pkg/kubectl/cmd/apply_view_last_applied.go:52 msgid "" "\n" "\t\t# View the last-applied-configuration annotations by type/name in YAML.\n" "\t\tkubectl apply view-last-applied deployment/nginx\n" "\n" "\t\t# View the last-applied-configuration annotations by file in JSON\n" "\t\tkubectl apply view-last-applied -f deploy.yaml -o json" msgstr "" #: pkg/kubectl/cmd/apply.go:75 msgid "" "\n" "\t\tApply a configuration to a resource by filename or stdin.\n" "\t\tThis resource will be created if it doesn't exist yet.\n" "\t\tTo use 'apply', always create the resource initially with either 'apply' " "or 'create --save-config'.\n" "\n" "\t\tJSON and YAML formats are accepted.\n" "\n" "\t\tAlpha Disclaimer: the --prune functionality is not yet complete. Do not " "use unless you are aware of what the current state is. See https://issues." "k8s.io/34274." msgstr "" #: pkg/kubectl/cmd/convert.go:38 msgid "" "\n" "\t\tConvert config files between different API versions. Both YAML\n" "\t\tand JSON formats are accepted.\n" "\n" "\t\tThe command takes filename, directory, or URL as input, and convert it " "into format\n" "\t\tof version specified by --output-version flag. If target version is not " "specified or\n" "\t\tnot supported, convert to latest version.\n" "\n" "\t\tThe default output will be printed to stdout in YAML format. One can use " "-o option\n" "\t\tto change to output destination." msgstr "" #: pkg/kubectl/cmd/create_clusterrole.go:31 msgid "" "\n" "\t\tCreate a ClusterRole." msgstr "" #: pkg/kubectl/cmd/create_clusterrolebinding.go:32 msgid "" "\n" "\t\tCreate a ClusterRoleBinding for a particular ClusterRole." msgstr "" #: pkg/kubectl/cmd/create_rolebinding.go:32 msgid "" "\n" "\t\tCreate a RoleBinding for a particular Role or ClusterRole." msgstr "" #: pkg/kubectl/cmd/create_secret.go:200 msgid "" "\n" "\t\tCreate a TLS secret from the given public/private key pair.\n" "\n" "\t\tThe public/private key pair must exist before hand. The public key " "certificate must be .PEM encoded and match the given private key." msgstr "" #: pkg/kubectl/cmd/create_configmap.go:32 msgid "" "\n" "\t\tCreate a configmap based on a file, directory, or specified literal " "value.\n" "\n" "\t\tA single configmap may package one or more key/value pairs.\n" "\n" "\t\tWhen creating a configmap based on a file, the key will default to the " "basename of the file, and the value will\n" "\t\tdefault to the file content. If the basename is an invalid key, you may " "specify an alternate key.\n" "\n" "\t\tWhen creating a configmap based on a directory, each file whose basename " "is a valid key in the directory will be\n" "\t\tpackaged into the configmap. Any directory entries except regular files " "are ignored (e.g. subdirectories,\n" "\t\tsymlinks, devices, pipes, etc)." msgstr "" #: pkg/kubectl/cmd/create_namespace.go:32 msgid "" "\n" "\t\tCreate a namespace with the specified name." msgstr "" #: pkg/kubectl/cmd/create_secret.go:119 msgid "" "\n" "\t\tCreate a new secret for use with Docker registries.\n" "\n" "\t\tDockercfg secrets are used to authenticate against Docker registries.\n" "\n" "\t\tWhen using the Docker command line to push images, you can authenticate " "to a given registry by running\n" "\n" "\t\t $ docker login DOCKER_REGISTRY_SERVER --username=DOCKER_USER --" "password=DOCKER_PASSWORD --email=DOCKER_EMAIL'.\n" "\n" " That produces a ~/.dockercfg file that is used by subsequent 'docker " "push' and 'docker pull' commands to\n" "\t\tauthenticate to the registry. The email address is optional.\n" "\n" "\t\tWhen creating applications, you may have a Docker registry that requires " "authentication. In order for the\n" "\t\tnodes to pull images on your behalf, they have to have the credentials. " "You can provide this information\n" "\t\tby creating a dockercfg secret and attaching it to your service account." msgstr "" #: pkg/kubectl/cmd/create_pdb.go:32 msgid "" "\n" "\t\tCreate a pod disruption budget with the specified name, selector, and " "desired minimum available pods" msgstr "" #: pkg/kubectl/cmd/create.go:42 msgid "" "\n" "\t\tCreate a resource by filename or stdin.\n" "\n" "\t\tJSON and YAML formats are accepted." msgstr "" #: pkg/kubectl/cmd/create_quota.go:32 msgid "" "\n" "\t\tCreate a resourcequota with the specified name, hard limits and optional " "scopes" msgstr "" #: pkg/kubectl/cmd/create_role.go:38 msgid "" "\n" "\t\tCreate a role with single rule." msgstr "" #: pkg/kubectl/cmd/create_secret.go:47 msgid "" "\n" "\t\tCreate a secret based on a file, directory, or specified literal value.\n" "\n" "\t\tA single secret may package one or more key/value pairs.\n" "\n" "\t\tWhen creating a secret based on a file, the key will default to the " "basename of the file, and the value will\n" "\t\tdefault to the file content. If the basename is an invalid key, you may " "specify an alternate key.\n" "\n" "\t\tWhen creating a secret based on a directory, each file whose basename is " "a valid key in the directory will be\n" "\t\tpackaged into the secret. Any directory entries except regular files " "are ignored (e.g. subdirectories,\n" "\t\tsymlinks, devices, pipes, etc)." msgstr "" #: pkg/kubectl/cmd/create_serviceaccount.go:32 msgid "" "\n" "\t\tCreate a service account with the specified name." msgstr "" #: pkg/kubectl/cmd/run.go:52 msgid "" "\n" "\t\tCreate and run a particular image, possibly replicated.\n" "\n" "\t\tCreates a deployment or job to manage the created container(s)." msgstr "" #: pkg/kubectl/cmd/autoscale.go:34 msgid "" "\n" "\t\tCreates an autoscaler that automatically chooses and sets the number of " "pods that run in a kubernetes cluster.\n" "\n" "\t\tLooks up a Deployment, ReplicaSet, or ReplicationController by name and " "creates an autoscaler that uses the given resource as a reference.\n" "\t\tAn autoscaler can automatically increase or decrease number of pods " "deployed within the system as needed." msgstr "" #: pkg/kubectl/cmd/delete.go:40 msgid "" "\n" "\t\tDelete resources by filenames, stdin, resources and names, or by " "resources and label selector.\n" "\n" "\t\tJSON and YAML formats are accepted. Only one type of the arguments may " "be specified: filenames,\n" "\t\tresources and names, or resources and label selector.\n" "\n" "\t\tSome resources, such as pods, support graceful deletion. These resources " "define a default period\n" "\t\tbefore they are forcibly terminated (the grace period) but you may " "override that value with\n" "\t\tthe --grace-period flag, or pass --now to set a grace-period of 1. " "Because these resources often\n" "\t\trepresent entities in the cluster, deletion may not be acknowledged " "immediately. If the node\n" "\t\thosting a pod is down or cannot reach the API server, termination may " "take significantly longer\n" "\t\tthan the grace period. To force delete a resource,\tyou must pass a grace" "\tperiod of 0 and specify\n" "\t\tthe --force flag.\n" "\n" "\t\tIMPORTANT: Force deleting pods does not wait for confirmation that the " "pod's processes have been\n" "\t\tterminated, which can leave those processes running until the node " "detects the deletion and\n" "\t\tcompletes graceful deletion. If your processes use shared storage or " "talk to a remote API and\n" "\t\tdepend on the name of the pod to identify themselves, force deleting " "those pods may result in\n" "\t\tmultiple processes running on different machines using the same " "identification which may lead\n" "\t\tto data corruption or inconsistency. Only force delete pods when you are " "sure the pod is\n" "\t\tterminated, or if your application can tolerate multiple copies of the " "same pod running at once.\n" "\t\tAlso, if you force delete pods the scheduler may place new pods on those " "nodes before the node\n" "\t\thas released those resources and causing those pods to be evicted " "immediately.\n" "\n" "\t\tNote that the delete command does NOT do resource version checks, so if " "someone\n" "\t\tsubmits an update to a resource right when you submit a delete, their " "update\n" "\t\twill be lost along with the rest of the resource." msgstr "" #: pkg/kubectl/cmd/stop.go:31 msgid "" "\n" "\t\tDeprecated: Gracefully shut down a resource by name or filename.\n" "\n" "\t\tThe stop command is deprecated, all its functionalities are covered by " "delete command.\n" "\t\tSee 'kubectl delete --help' for more details.\n" "\n" "\t\tAttempts to shut down and delete a resource that supports graceful " "termination.\n" "\t\tIf the resource is scalable it will be scaled to 0 before deletion." msgstr "" #: pkg/kubectl/cmd/top_node.go:60 msgid "" "\n" "\t\tDisplay Resource (CPU/Memory/Storage) usage of nodes.\n" "\n" "\t\tThe top-node command allows you to see the resource consumption of nodes." msgstr "" #: pkg/kubectl/cmd/top_pod.go:53 msgid "" "\n" "\t\tDisplay Resource (CPU/Memory/Storage) usage of pods.\n" "\n" "\t\tThe 'top pod' command allows you to see the resource consumption of " "pods.\n" "\n" "\t\tDue to the metrics pipeline delay, they may be unavailable for a few " "minutes\n" "\t\tsince pod creation." msgstr "" #: pkg/kubectl/cmd/top.go:33 msgid "" "\n" "\t\tDisplay Resource (CPU/Memory/Storage) usage.\n" "\n" "\t\tThe top command allows you to see the resource consumption for nodes or " "pods.\n" "\n" "\t\tThis command requires Heapster to be correctly configured and working on " "the server. " msgstr "" #: pkg/kubectl/cmd/drain.go:140 msgid "" "\n" "\t\tDrain node in preparation for maintenance.\n" "\n" "\t\tThe given node will be marked unschedulable to prevent new pods from " "arriving.\n" "\t\t'drain' evicts the pods if the APIServer supports eviction\n" "\t\t(http://kubernetes.io/docs/admin/disruptions/). Otherwise, it will use " "normal DELETE\n" "\t\tto delete the pods.\n" "\t\tThe 'drain' evicts or deletes all pods except mirror pods (which cannot " "be deleted through\n" "\t\tthe API server). If there are DaemonSet-managed pods, drain will not " "proceed\n" "\t\twithout --ignore-daemonsets, and regardless it will not delete any\n" "\t\tDaemonSet-managed pods, because those pods would be immediately replaced " "by the\n" "\t\tDaemonSet controller, which ignores unschedulable markings. If there " "are any\n" "\t\tpods that are neither mirror pods nor managed by ReplicationController,\n" "\t\tReplicaSet, DaemonSet, StatefulSet or Job, then drain will not delete " "any pods unless you\n" "\t\tuse --force. --force will also allow deletion to proceed if the " "managing resource of one\n" "\t\tor more pods is missing.\n" "\n" "\t\t'drain' waits for graceful termination. You should not operate on the " "machine until\n" "\t\tthe command completes.\n" "\n" "\t\tWhen you are ready to put the node back into service, use kubectl " "uncordon, which\n" "\t\twill make the node schedulable again.\n" "\n" "\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_drain.svg)" msgstr "" #: pkg/kubectl/cmd/edit.go:56 msgid "" "\n" "\t\tEdit a resource from the default editor.\n" "\n" "\t\tThe edit command allows you to directly edit any API resource you can " "retrieve via the\n" "\t\tcommand line tools. It will open the editor defined by your KUBE_EDITOR, " "or EDITOR\n" "\t\tenvironment variables, or fall back to 'vi' for Linux or 'notepad' for " "Windows.\n" "\t\tYou can edit multiple objects, although changes are applied one at a " "time. The command\n" "\t\taccepts filenames as well as command line arguments, although the files " "you point to must\n" "\t\tbe previously saved versions of resources.\n" "\n" "\t\tEditing is done with the API version used to fetch the resource.\n" "\t\tTo edit using a specific API version, fully-qualify the resource, " "version, and group.\n" "\n" "\t\tThe default format is YAML. To edit in JSON, specify \"-o json\".\n" "\n" "\t\tThe flag --windows-line-endings can be used to force Windows line " "endings,\n" "\t\totherwise the default for your operating system will be used.\n" "\n" "\t\tIn the event an error occurs while updating, a temporary file will be " "created on disk\n" "\t\tthat contains your unapplied changes. The most common error when " "updating a resource\n" "\t\tis another editor changing the resource on the server. When this occurs, " "you will have\n" "\t\tto apply your changes to the newer version of the resource, or update " "your temporary\n" "\t\tsaved copy to include the latest resource version." msgstr "" #: pkg/kubectl/cmd/drain.go:115 msgid "" "\n" "\t\tMark node as schedulable." msgstr "" #: pkg/kubectl/cmd/drain.go:90 msgid "" "\n" "\t\tMark node as unschedulable." msgstr "" #: pkg/kubectl/cmd/completion.go:47 msgid "" "\n" "\t\tOutput shell completion code for the specified shell (bash or zsh).\n" "\t\tThe shell code must be evaluated to provide interactive\n" "\t\tcompletion of kubectl commands. This can be done by sourcing it from\n" "\t\tthe .bash_profile.\n" "\n" "\t\tNote: this requires the bash-completion framework, which is not " "installed\n" "\t\tby default on Mac. This can be installed by using homebrew:\n" "\n" "\t\t $ brew install bash-completion\n" "\n" "\t\tOnce installed, bash_completion must be evaluated. This can be done by " "adding the\n" "\t\tfollowing line to the .bash_profile\n" "\n" "\t\t $ source $(brew --prefix)/etc/bash_completion\n" "\n" "\t\tNote for zsh users: [1] zsh completions are only supported in versions " "of zsh >= 5.2" msgstr "" #: pkg/kubectl/cmd/rollingupdate.go:45 msgid "" "\n" "\t\tPerform a rolling update of the given ReplicationController.\n" "\n" "\t\tReplaces the specified replication controller with a new replication " "controller by updating one pod at a time to use the\n" "\t\tnew PodTemplate. The new-controller.json must specify the same namespace " "as the\n" "\t\texisting replication controller and overwrite at least one (common) " "label in its replicaSelector.\n" "\n" "\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_rollingupdate.svg)" msgstr "" #: pkg/kubectl/cmd/replace.go:40 msgid "" "\n" "\t\tReplace a resource by filename or stdin.\n" "\n" "\t\tJSON and YAML formats are accepted. If replacing an existing resource, " "the\n" "\t\tcomplete resource spec must be provided. This can be obtained by\n" "\n" "\t\t $ kubectl get TYPE NAME -o yaml\n" "\n" "\t\tPlease refer to the models in https://htmlpreview.github.io/?https://" "github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions." "html to find if a field is mutable." msgstr "" #: pkg/kubectl/cmd/scale.go:34 msgid "" "\n" "\t\tSet a new size for a Deployment, ReplicaSet, Replication Controller, or " "Job.\n" "\n" "\t\tScale also allows users to specify one or more preconditions for the " "scale action.\n" "\n" "\t\tIf --current-replicas or --resource-version is specified, it is " "validated before the\n" "\t\tscale is attempted, and it is guaranteed that the precondition holds " "true when the\n" "\t\tscale is sent to the server." msgstr "" #: pkg/kubectl/cmd/apply_set_last_applied.go:62 msgid "" "\n" "\t\tSet the latest last-applied-configuration annotations by setting it to " "match the contents of a file.\n" "\t\tThis results in the last-applied-configuration being updated as though " "'kubectl apply -f ' was run,\n" "\t\twithout updating any other parts of the object." msgstr "" #: pkg/kubectl/cmd/proxy.go:36 msgid "" "\n" "\t\tTo proxy all of the kubernetes api and nothing else, use:\n" "\n" "\t\t $ kubectl proxy --api-prefix=/\n" "\n" "\t\tTo proxy only part of the kubernetes api and also some static files:\n" "\n" "\t\t $ kubectl proxy --www=/my/files --www-prefix=/static/ --api-prefix=/" "api/\n" "\n" "\t\tThe above lets you 'curl localhost:8001/api/v1/pods'.\n" "\n" "\t\tTo proxy the entire kubernetes api at a different root, use:\n" "\n" "\t\t $ kubectl proxy --api-prefix=/custom/\n" "\n" "\t\tThe above lets you 'curl localhost:8001/custom/api/v1/pods'" msgstr "" #: pkg/kubectl/cmd/patch.go:59 msgid "" "\n" "\t\tUpdate field(s) of a resource using strategic merge patch\n" "\n" "\t\tJSON and YAML formats are accepted.\n" "\n" "\t\tPlease refer to the models in https://htmlpreview.github.io/?https://" "github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions." "html to find if a field is mutable." msgstr "" #: pkg/kubectl/cmd/label.go:70 #, c-format msgid "" "\n" "\t\tUpdate the labels on a resource.\n" "\n" "\t\t* A label must begin with a letter or number, and may contain letters, " "numbers, hyphens, dots, and underscores, up to %[1]d characters.\n" "\t\t* If --overwrite is true, then existing labels can be overwritten, " "otherwise attempting to overwrite a label will result in an error.\n" "\t\t* If --resource-version is specified, then updates will use this " "resource version, otherwise the existing resource-version will be used." msgstr "" #: pkg/kubectl/cmd/taint.go:58 #, c-format msgid "" "\n" "\t\tUpdate the taints on one or more nodes.\n" "\n" "\t\t* A taint consists of a key, value, and effect. As an argument here, it " "is expressed as key=value:effect.\n" "\t\t* The key must begin with a letter or number, and may contain letters, " "numbers, hyphens, dots, and underscores, up to %[1]d characters.\n" "\t\t* The value must begin with a letter or number, and may contain letters, " "numbers, hyphens, dots, and underscores, up to %[2]d characters.\n" "\t\t* The effect must be NoSchedule, PreferNoSchedule or NoExecute.\n" "\t\t* Currently taint can only apply to node." msgstr "" #: pkg/kubectl/cmd/apply_view_last_applied.go:46 msgid "" "\n" "\t\tView the latest last-applied-configuration annotations by type/name or " "file.\n" "\n" "\t\tThe default output will be printed to stdout in YAML format. One can use " "-o option\n" "\t\tto change output format." msgstr "" #: pkg/kubectl/cmd/cp.go:37 msgid "" "\n" "\t # !!!Important Note!!!\n" "\t # Requires that the 'tar' binary is present in your container\n" "\t # image. If 'tar' is not present, 'kubectl cp' will fail.\n" "\n" "\t # Copy /tmp/foo_dir local directory to /tmp/bar_dir in a remote pod in " "the default namespace\n" "\t\tkubectl cp /tmp/foo_dir :/tmp/bar_dir\n" "\n" " # Copy /tmp/foo local file to /tmp/bar in a remote pod in a specific " "container\n" "\t\tkubectl cp /tmp/foo :/tmp/bar -c \n" "\n" "\t\t# Copy /tmp/foo local file to /tmp/bar in a remote pod in namespace " "\n" "\t\tkubectl cp /tmp/foo /:/tmp/bar\n" "\n" "\t\t# Copy /tmp/foo from a remote pod to /tmp/bar locally\n" "\t\tkubectl cp /:/tmp/foo /tmp/bar" msgstr "" #: pkg/kubectl/cmd/create_secret.go:205 msgid "" "\n" "\t # Create a new TLS secret named tls-secret with the given key pair:\n" "\t kubectl create secret tls tls-secret --cert=path/to/tls.cert --key=path/" "to/tls.key" msgstr "" #: pkg/kubectl/cmd/create_namespace.go:35 msgid "" "\n" "\t # Create a new namespace named my-namespace\n" "\t kubectl create namespace my-namespace" msgstr "" #: pkg/kubectl/cmd/create_secret.go:59 msgid "" "\n" "\t # Create a new secret named my-secret with keys for each file in folder " "bar\n" "\t kubectl create secret generic my-secret --from-file=path/to/bar\n" "\n" "\t # Create a new secret named my-secret with specified keys instead of " "names on disk\n" "\t kubectl create secret generic my-secret --from-file=ssh-privatekey=~/." "ssh/id_rsa --from-file=ssh-publickey=~/.ssh/id_rsa.pub\n" "\n" "\t # Create a new secret named my-secret with key1=supersecret and " "key2=topsecret\n" "\t kubectl create secret generic my-secret --from-literal=key1=supersecret " "--from-literal=key2=topsecret" msgstr "" #: pkg/kubectl/cmd/create_serviceaccount.go:35 msgid "" "\n" "\t # Create a new service account named my-service-account\n" "\t kubectl create serviceaccount my-service-account" msgstr "" #: pkg/kubectl/cmd/create_service.go:232 msgid "" "\n" "\t# Create a new ExternalName service named my-ns \n" "\tkubectl create service externalname my-ns --external-name bar.com" msgstr "" #: pkg/kubectl/cmd/create_service.go:225 msgid "" "\n" "\tCreate an ExternalName service with the specified name.\n" "\n" "\tExternalName service references to an external DNS address instead of\n" "\tonly pods, which will allow application authors to reference services\n" "\tthat exist off platform, on other clusters, or locally." msgstr "" #: pkg/kubectl/cmd/help.go:30 msgid "" "\n" "\tHelp provides help for any command in the application.\n" "\tSimply type kubectl help [path to command] for full details." msgstr "" #: pkg/kubectl/cmd/create_service.go:173 msgid "" "\n" " # Create a new LoadBalancer service named my-lbs\n" " kubectl create service loadbalancer my-lbs --tcp=5678:8080" msgstr "" #: pkg/kubectl/cmd/create_service.go:53 msgid "" "\n" " # Create a new clusterIP service named my-cs\n" " kubectl create service clusterip my-cs --tcp=5678:8080\n" "\n" " # Create a new clusterIP service named my-cs (in headless mode)\n" " kubectl create service clusterip my-cs --clusterip=\"None\"" msgstr "" #: pkg/kubectl/cmd/create_deployment.go:36 msgid "" "\n" " # Create a new deployment named my-dep that runs the busybox image.\n" " kubectl create deployment my-dep --image=busybox" msgstr "" #: pkg/kubectl/cmd/create_service.go:116 msgid "" "\n" " # Create a new nodeport service named my-ns\n" " kubectl create service nodeport my-ns --tcp=5678:8080" msgstr "" #: pkg/kubectl/cmd/clusterinfo_dump.go:62 msgid "" "\n" " # Dump current cluster state to stdout\n" " kubectl cluster-info dump\n" "\n" " # Dump current cluster state to /path/to/cluster-state\n" " kubectl cluster-info dump --output-directory=/path/to/cluster-state\n" "\n" " # Dump all namespaces to stdout\n" " kubectl cluster-info dump --all-namespaces\n" "\n" " # Dump a set of namespaces to /path/to/cluster-state\n" " kubectl cluster-info dump --namespaces default,kube-system --output-" "directory=/path/to/cluster-state" msgstr "" #: pkg/kubectl/cmd/annotate.go:78 msgid "" "\n" " # Update pod 'foo' with the annotation 'description' and the value 'my " "frontend'.\n" " # If the same annotation is set multiple times, only the last value will " "be applied\n" " kubectl annotate pods foo description='my frontend'\n" "\n" " # Update a pod identified by type and name in \"pod.json\"\n" " kubectl annotate -f pod.json description='my frontend'\n" "\n" " # Update pod 'foo' with the annotation 'description' and the value 'my " "frontend running nginx', overwriting any existing value.\n" " kubectl annotate --overwrite pods foo description='my frontend running " "nginx'\n" "\n" " # Update all pods in the namespace\n" " kubectl annotate pods --all description='my frontend running nginx'\n" "\n" " # Update pod 'foo' only if the resource is unchanged from version 1.\n" " kubectl annotate pods foo description='my frontend running nginx' --" "resource-version=1\n" "\n" " # Update pod 'foo' by removing an annotation named 'description' if it " "exists.\n" " # Does not require the --overwrite flag.\n" " kubectl annotate pods foo description-" msgstr "" #: pkg/kubectl/cmd/create_service.go:170 msgid "" "\n" " Create a LoadBalancer service with the specified name." msgstr "" #: pkg/kubectl/cmd/create_service.go:50 msgid "" "\n" " Create a clusterIP service with the specified name." msgstr "" #: pkg/kubectl/cmd/create_deployment.go:33 msgid "" "\n" " Create a deployment with the specified name." msgstr "" #: pkg/kubectl/cmd/create_service.go:113 msgid "" "\n" " Create a nodeport service with the specified name." msgstr "" #: pkg/kubectl/cmd/clusterinfo_dump.go:53 msgid "" "\n" " Dumps cluster info out suitable for debugging and diagnosing cluster " "problems. By default, dumps everything to\n" " stdout. You can optionally specify a directory with --output-directory. " "If you specify a directory, kubernetes will\n" " build a set of files in that directory. By default only dumps things in " "the 'kube-system' namespace, but you can\n" " switch to a different namespace with the --namespaces flag, or specify --" "all-namespaces to dump all namespaces.\n" "\n" " The command also dumps the logs of all of the pods in the cluster, these " "logs are dumped into different directories\n" " based on namespace and pod name." msgstr "" #: pkg/kubectl/cmd/clusterinfo.go:37 msgid "" "\n" " Display addresses of the master and services with label kubernetes.io/" "cluster-service=true\n" " To further debug and diagnose cluster problems, use 'kubectl cluster-info " "dump'." msgstr "" #: pkg/kubectl/cmd/create_quota.go:62 msgid "" "A comma-delimited set of quota scopes that must all match each object " "tracked by the quota." msgstr "" #: pkg/kubectl/cmd/create_quota.go:61 msgid "" "A comma-delimited set of resource=quantity pairs that define a hard limit." msgstr "" #: pkg/kubectl/cmd/create_pdb.go:64 msgid "" "A label selector to use for this budget. Only equality-based selector " "requirements are supported." msgstr "" #: pkg/kubectl/cmd/expose.go:104 msgid "" "A label selector to use for this service. Only equality-based selector " "requirements are supported. If empty (the default) infer the selector from " "the replication controller or replica set.)" msgstr "" #: pkg/kubectl/cmd/run.go:139 msgid "A schedule in the Cron format the job should be run with." msgstr "" #: pkg/kubectl/cmd/expose.go:109 msgid "" "Additional external IP address (not managed by Kubernetes) to accept for the " "service. If this IP is routed to a node, the service can be accessed by this " "IP in addition to its generated service IP." msgstr "" #: pkg/kubectl/cmd/expose.go:110 pkg/kubectl/cmd/run.go:122 msgid "" "An inline JSON override for the generated object. If this is non-empty, it " "is used to override the generated object. Requires that the object supply a " "valid apiVersion field." msgstr "" #: pkg/kubectl/cmd/run.go:137 msgid "" "An inline JSON override for the generated service object. If this is non-" "empty, it is used to override the generated object. Requires that the object " "supply a valid apiVersion field. Only used if --expose is true." msgstr "" #: pkg/kubectl/cmd/apply.go:104 msgid "Apply a configuration to a resource by filename or stdin" msgstr "" #: pkg/kubectl/cmd/certificates.go:72 msgid "Approve a certificate signing request" msgstr "" #: pkg/kubectl/cmd/create_service.go:82 msgid "" "Assign your own ClusterIP or set to 'None' for a 'headless' service (no " "loadbalancing)." msgstr "" #: pkg/kubectl/cmd/attach.go:70 msgid "Attach to a running container" msgstr "" #: pkg/kubectl/cmd/autoscale.go:56 msgid "Auto-scale a Deployment, ReplicaSet, or ReplicationController" msgstr "" #: pkg/kubectl/cmd/expose.go:113 msgid "" "ClusterIP to be assigned to the service. Leave empty to auto-allocate, or " "set to 'None' to create a headless service." msgstr "" #: pkg/kubectl/cmd/create_clusterrolebinding.go:56 msgid "ClusterRole this ClusterRoleBinding should reference" msgstr "" #: pkg/kubectl/cmd/create_rolebinding.go:56 msgid "ClusterRole this RoleBinding should reference" msgstr "" #: pkg/kubectl/cmd/rollingupdate.go:102 msgid "" "Container name which will have its image upgraded. Only relevant when --" "image is specified, ignored otherwise. Required when using --image on a " "multi-container pod" msgstr "" #: pkg/kubectl/cmd/convert.go:68 msgid "Convert config files between different API versions" msgstr "" #: pkg/kubectl/cmd/cp.go:65 msgid "Copy files and directories to and from containers." msgstr "" #: pkg/kubectl/cmd/create_clusterrolebinding.go:44 msgid "Create a ClusterRoleBinding for a particular ClusterRole" msgstr "" #: pkg/kubectl/cmd/create_service.go:182 msgid "Create a LoadBalancer service." msgstr "" #: pkg/kubectl/cmd/create_service.go:125 msgid "Create a NodePort service." msgstr "" #: pkg/kubectl/cmd/create_rolebinding.go:44 msgid "Create a RoleBinding for a particular Role or ClusterRole" msgstr "" #: pkg/kubectl/cmd/create_secret.go:214 msgid "Create a TLS secret" msgstr "" #: pkg/kubectl/cmd/create_service.go:69 msgid "Create a clusterIP service." msgstr "" #: pkg/kubectl/cmd/create_configmap.go:60 msgid "Create a configmap from a local file, directory or literal value" msgstr "" #: pkg/kubectl/cmd/create_deployment.go:46 msgid "Create a deployment with the specified name." msgstr "" #: pkg/kubectl/cmd/create_namespace.go:45 msgid "Create a namespace with the specified name" msgstr "" #: pkg/kubectl/cmd/create_pdb.go:50 msgid "Create a pod disruption budget with the specified name." msgstr "" #: pkg/kubectl/cmd/create_quota.go:48 msgid "Create a quota with the specified name." msgstr "" #: pkg/kubectl/cmd/create.go:63 msgid "Create a resource by filename or stdin" msgstr "" #: pkg/kubectl/cmd/create_secret.go:144 msgid "Create a secret for use with a Docker registry" msgstr "" #: pkg/kubectl/cmd/create_secret.go:74 msgid "Create a secret from a local file, directory or literal value" msgstr "" #: pkg/kubectl/cmd/create_secret.go:35 msgid "Create a secret using specified subcommand" msgstr "" #: pkg/kubectl/cmd/create_serviceaccount.go:45 msgid "Create a service account with the specified name" msgstr "" #: pkg/kubectl/cmd/create_service.go:37 msgid "Create a service using specified subcommand." msgstr "" #: pkg/kubectl/cmd/create_service.go:241 msgid "Create an ExternalName service." msgstr "" #: pkg/kubectl/cmd/delete.go:132 msgid "" "Delete resources by filenames, stdin, resources and names, or by resources " "and label selector" msgstr "" #: pkg/kubectl/cmd/config/delete_cluster.go:39 msgid "Delete the specified cluster from the kubeconfig" msgstr "" #: pkg/kubectl/cmd/config/delete_context.go:39 msgid "Delete the specified context from the kubeconfig" msgstr "" #: pkg/kubectl/cmd/certificates.go:122 msgid "Deny a certificate signing request" msgstr "" #: pkg/kubectl/cmd/stop.go:59 msgid "Deprecated: Gracefully shut down a resource by name or filename" msgstr "" #: pkg/kubectl/cmd/config/get_contexts.go:64 msgid "Describe one or many contexts" msgstr "" #: pkg/kubectl/cmd/top_node.go:78 msgid "Display Resource (CPU/Memory) usage of nodes" msgstr "" #: pkg/kubectl/cmd/top_pod.go:80 msgid "Display Resource (CPU/Memory) usage of pods" msgstr "" #: pkg/kubectl/cmd/top.go:44 msgid "Display Resource (CPU/Memory) usage." msgstr "" #: pkg/kubectl/cmd/clusterinfo.go:51 msgid "Display cluster info" msgstr "" #: pkg/kubectl/cmd/config/get_clusters.go:41 msgid "Display clusters defined in the kubeconfig" msgstr "" #: pkg/kubectl/cmd/config/view.go:67 msgid "Display merged kubeconfig settings or a specified kubeconfig file" msgstr "" #: pkg/kubectl/cmd/get.go:111 msgid "Display one or many resources" msgstr "" #: pkg/kubectl/cmd/config/current_context.go:49 msgid "Displays the current-context" msgstr "" #: pkg/kubectl/cmd/explain.go:51 msgid "Documentation of resources" msgstr "" #: pkg/kubectl/cmd/drain.go:178 msgid "Drain node in preparation for maintenance" msgstr "" #: pkg/kubectl/cmd/clusterinfo_dump.go:39 msgid "Dump lots of relevant info for debugging and diagnosis" msgstr "" #: pkg/kubectl/cmd/edit.go:110 msgid "Edit a resource on the server" msgstr "" #: pkg/kubectl/cmd/create_secret.go:160 msgid "Email for Docker registry" msgstr "" #: pkg/kubectl/cmd/exec.go:69 msgid "Execute a command in a container" msgstr "" #: pkg/kubectl/cmd/rollingupdate.go:103 msgid "" "Explicit policy for when to pull container images. Required when --image is " "same as existing image, ignored otherwise." msgstr "" #: pkg/kubectl/cmd/portforward.go:76 msgid "Forward one or more local ports to a pod" msgstr "" #: pkg/kubectl/cmd/help.go:37 msgid "Help about any command" msgstr "" #: pkg/kubectl/cmd/expose.go:103 msgid "" "IP to assign to the Load Balancer. If empty, an ephemeral IP will be created " "and used (cloud-provider specific)." msgstr "" #: pkg/kubectl/cmd/expose.go:112 msgid "" "If non-empty, set the session affinity for the service to this; legal " "values: 'None', 'ClientIP'" msgstr "" #: pkg/kubectl/cmd/annotate.go:136 msgid "" "If non-empty, the annotation update will only succeed if this is the current " "resource-version for the object. Only valid when specifying a single " "resource." msgstr "" #: pkg/kubectl/cmd/label.go:134 msgid "" "If non-empty, the labels update will only succeed if this is the current " "resource-version for the object. Only valid when specifying a single " "resource." msgstr "" #: pkg/kubectl/cmd/rollingupdate.go:99 msgid "" "Image to use for upgrading the replication controller. Must be distinct from " "the existing image (either new image or new image tag). Can not be used " "with --filename/-f" msgstr "" #: pkg/kubectl/cmd/rollout/rollout.go:47 msgid "Manage a deployment rollout" msgstr "" #: pkg/kubectl/cmd/drain.go:128 msgid "Mark node as schedulable" msgstr "" #: pkg/kubectl/cmd/drain.go:103 msgid "Mark node as unschedulable" msgstr "" #: pkg/kubectl/cmd/rollout/rollout_pause.go:74 msgid "Mark the provided resource as paused" msgstr "" #: pkg/kubectl/cmd/certificates.go:36 msgid "Modify certificate resources." msgstr "" #: pkg/kubectl/cmd/config/config.go:40 msgid "Modify kubeconfig files" msgstr "" #: pkg/kubectl/cmd/expose.go:108 msgid "" "Name or number for the port on the container that the service should direct " "traffic to. Optional." msgstr "" #: pkg/kubectl/cmd/logs.go:113 msgid "" "Only return logs after a specific date (RFC3339). Defaults to all logs. Only " "one of since-time / since may be used." msgstr "" #: pkg/kubectl/cmd/completion.go:104 msgid "Output shell completion code for the specified shell (bash or zsh)" msgstr "" #: pkg/kubectl/cmd/convert.go:85 msgid "" "Output the formatted object with the given group version (for ex: " "'extensions/v1beta1').)" msgstr "" #: pkg/kubectl/cmd/create_secret.go:158 msgid "Password for Docker registry authentication" msgstr "" #: pkg/kubectl/cmd/create_secret.go:226 msgid "Path to PEM encoded public key certificate." msgstr "" #: pkg/kubectl/cmd/create_secret.go:227 msgid "Path to private key associated with given certificate." msgstr "" #: pkg/kubectl/cmd/rollingupdate.go:85 msgid "Perform a rolling update of the given ReplicationController" msgstr "" #: pkg/kubectl/cmd/scale.go:83 msgid "" "Precondition for resource version. Requires that the current resource " "version match this value in order to scale." msgstr "" #: pkg/kubectl/cmd/version.go:40 msgid "Print the client and server version information" msgstr "" #: pkg/kubectl/cmd/options.go:38 msgid "Print the list of flags inherited by all commands" msgstr "" #: pkg/kubectl/cmd/logs.go:93 msgid "Print the logs for a container in a pod" msgstr "" #: pkg/kubectl/cmd/replace.go:71 msgid "Replace a resource by filename or stdin" msgstr "" #: pkg/kubectl/cmd/rollout/rollout_resume.go:72 msgid "Resume a paused resource" msgstr "" #: pkg/kubectl/cmd/create_rolebinding.go:57 msgid "Role this RoleBinding should reference" msgstr "" #: pkg/kubectl/cmd/run.go:97 msgid "Run a particular image on the cluster" msgstr "" #: pkg/kubectl/cmd/proxy.go:69 msgid "Run a proxy to the Kubernetes API server" msgstr "" #: pkg/kubectl/cmd/create_secret.go:161 msgid "Server location for Docker registry" msgstr "" #: pkg/kubectl/cmd/scale.go:71 msgid "" "Set a new size for a Deployment, ReplicaSet, Replication Controller, or Job" msgstr "" #: pkg/kubectl/cmd/set/set.go:38 msgid "Set specific features on objects" msgstr "" #: pkg/kubectl/cmd/apply_set_last_applied.go:83 msgid "" "Set the last-applied-configuration annotation on a live object to match the " "contents of a file." msgstr "" #: pkg/kubectl/cmd/set/set_selector.go:82 msgid "Set the selector on a resource" msgstr "" #: pkg/kubectl/cmd/config/create_cluster.go:68 msgid "Sets a cluster entry in kubeconfig" msgstr "" #: pkg/kubectl/cmd/config/create_context.go:58 msgid "Sets a context entry in kubeconfig" msgstr "" #: pkg/kubectl/cmd/config/create_authinfo.go:104 msgid "Sets a user entry in kubeconfig" msgstr "" #: pkg/kubectl/cmd/config/set.go:60 msgid "Sets an individual value in a kubeconfig file" msgstr "" #: pkg/kubectl/cmd/config/use_context.go:49 msgid "Sets the current-context in a kubeconfig file" msgstr "" #: pkg/kubectl/cmd/describe.go:86 msgid "Show details of a specific resource or group of resources" msgstr "" #: pkg/kubectl/cmd/rollout/rollout_status.go:58 msgid "Show the status of the rollout" msgstr "" #: pkg/kubectl/cmd/expose.go:106 msgid "Synonym for --target-port" msgstr "" #: pkg/kubectl/cmd/expose.go:88 msgid "" "Take a replication controller, service, deployment or pod and expose it as a " "new Kubernetes Service" msgstr "" #: pkg/kubectl/cmd/run.go:117 msgid "The image for the container to run." msgstr "" #: pkg/kubectl/cmd/run.go:119 msgid "" "The image pull policy for the container. If left empty, this value will not " "be specified by the client and defaulted by the server" msgstr "" #: pkg/kubectl/cmd/rollingupdate.go:101 msgid "" "The key to use to differentiate between two different controllers, default " "'deployment'. Only relevant when --image is specified, ignored otherwise" msgstr "" #: pkg/kubectl/cmd/create_pdb.go:63 msgid "" "The minimum number or percentage of available pods this budget requires." msgstr "" #: pkg/kubectl/cmd/expose.go:111 msgid "The name for the newly created object." msgstr "" #: pkg/kubectl/cmd/autoscale.go:72 msgid "" "The name for the newly created object. If not specified, the name of the " "input resource will be used." msgstr "" #: pkg/kubectl/cmd/run.go:116 msgid "" "The name of the API generator to use, see http://kubernetes.io/docs/user-" "guide/kubectl-conventions/#generators for a list." msgstr "" #: pkg/kubectl/cmd/autoscale.go:67 msgid "" "The name of the API generator to use. Currently there is only 1 generator." msgstr "" #: pkg/kubectl/cmd/expose.go:99 msgid "" "The name of the API generator to use. There are 2 generators: 'service/v1' " "and 'service/v2'. The only difference between them is that service port in " "v1 is named 'default', while it is left unnamed in v2. Default is 'service/" "v2'." msgstr "" #: pkg/kubectl/cmd/run.go:136 msgid "" "The name of the generator to use for creating a service. Only used if --" "expose is true" msgstr "" #: pkg/kubectl/cmd/expose.go:100 msgid "The network protocol for the service to be created. Default is 'TCP'." msgstr "" #: pkg/kubectl/cmd/expose.go:101 msgid "" "The port that the service should serve on. Copied from the resource being " "exposed, if unspecified" msgstr "" #: pkg/kubectl/cmd/run.go:124 msgid "" "The port that this container exposes. If --expose is true, this is also the " "port used by the service that is created." msgstr "" #: pkg/kubectl/cmd/run.go:134 msgid "" "The resource requirement limits for this container. For example, 'cpu=200m," "memory=512Mi'. Note that server side components may assign limits depending " "on the server configuration, such as limit ranges." msgstr "" #: pkg/kubectl/cmd/run.go:133 msgid "" "The resource requirement requests for this container. For example, " "'cpu=100m,memory=256Mi'. Note that server side components may assign " "requests depending on the server configuration, such as limit ranges." msgstr "" #: pkg/kubectl/cmd/run.go:131 msgid "" "The restart policy for this Pod. Legal values [Always, OnFailure, Never]. " "If set to 'Always' a deployment is created, if set to 'OnFailure' a job is " "created, if set to 'Never', a regular pod is created. For the latter two --" "replicas must be 1. Default 'Always', for CronJobs ` + "`" + `Never` + "`" + `." msgstr "" #: pkg/kubectl/cmd/create_secret.go:88 msgid "The type of secret to create" msgstr "" #: pkg/kubectl/cmd/expose.go:102 msgid "" "Type for this service: ClusterIP, NodePort, or LoadBalancer. Default is " "'ClusterIP'." msgstr "" #: pkg/kubectl/cmd/rollout/rollout_undo.go:72 msgid "Undo a previous rollout" msgstr "" #: pkg/kubectl/cmd/config/unset.go:48 msgid "Unsets an individual value in a kubeconfig file" msgstr "" #: pkg/kubectl/cmd/patch.go:96 msgid "Update field(s) of a resource using strategic merge patch" msgstr "" #: pkg/kubectl/cmd/set/set_image.go:95 msgid "Update image of a pod template" msgstr "" #: pkg/kubectl/cmd/set/set_resources.go:102 msgid "Update resource requests/limits on objects with pod templates" msgstr "" #: pkg/kubectl/cmd/annotate.go:116 msgid "Update the annotations on a resource" msgstr "" #: pkg/kubectl/cmd/label.go:114 msgid "Update the labels on a resource" msgstr "" #: pkg/kubectl/cmd/taint.go:87 msgid "Update the taints on one or more nodes" msgstr "" #: pkg/kubectl/cmd/create_secret.go:156 msgid "Username for Docker registry authentication" msgstr "" #: pkg/kubectl/cmd/apply_view_last_applied.go:64 msgid "View latest last-applied-configuration annotations of a resource/object" msgstr "" #: pkg/kubectl/cmd/rollout/rollout_history.go:52 msgid "View rollout history" msgstr "" #: pkg/kubectl/cmd/clusterinfo_dump.go:46 msgid "" "Where to output the files. If empty or '-' uses stdout, otherwise creates a " "directory hierarchy in that directory" msgstr "" #: pkg/kubectl/cmd/run_test.go:85 msgid "dummy restart flag)" msgstr "" #: pkg/kubectl/cmd/create_service.go:254 msgid "external name of service" msgstr "" #: pkg/kubectl/cmd/cmd.go:227 msgid "kubectl controls the Kubernetes cluster manager" msgstr "" `) func translationsKubectlTemplatePotBytes() ([]byte, error) { return _translationsKubectlTemplatePot, nil } func translationsKubectlTemplatePot() (*asset, error) { bytes, err := translationsKubectlTemplatePotBytes() if err != nil { return nil, err } info := bindataFileInfo{name: "translations/kubectl/template.pot", size: 0, mode: os.FileMode(0), modTime: time.Unix(0, 0)} a := &asset{bytes: bytes, info: info} return a, nil } var _translationsKubectlZh_cnLc_messagesK8sMo = 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# Create a ClusterRoleBinding for user1, user2, and group1 using the cluster-admin ClusterRole\n\t\t kubectl create clusterrolebinding cluster-admin --clusterrole=cluster-admin --user=user1 --user=user2 --group=group1\x00\n\t\t # Create a RoleBinding for user1, user2, and group1 using the admin ClusterRole\n\t\t kubectl create rolebinding admin --clusterrole=admin --user=user1 --user=user2 --group=group1\x00\n\t\t # Create a new configmap named my-config based on folder bar\n\t\t kubectl create configmap my-config --from-file=path/to/bar\n\n\t\t # Create a new configmap named my-config with specified keys instead of file basenames on disk\n\t\t kubectl create configmap my-config --from-file=key1=/path/to/bar/file1.txt --from-file=key2=/path/to/bar/file2.txt\n\n\t\t # Create a new configmap named my-config with key1=config1 and key2=config2\n\t\t kubectl create configmap my-config --from-literal=key1=config1 --from-literal=key2=config2\x00\n\t\t # If you don't already have a .dockercfg file, you can create a dockercfg secret directly by using:\n\t\t kubectl create secret docker-registry my-secret --docker-server=DOCKER_REGISTRY_SERVER --docker-username=DOCKER_USER --docker-password=DOCKER_PASSWORD --docker-email=DOCKER_EMAIL\x00\n\t\t # Show metrics for all nodes\n\t\t kubectl top node\n\n\t\t # Show metrics for a given node\n\t\t kubectl top node NODE_NAME\x00\n\t\t# Apply the configuration in pod.json to a pod.\n\t\tkubectl apply -f ./pod.json\n\n\t\t# Apply the JSON passed into stdin to a pod.\n\t\tcat pod.json | kubectl apply -f -\n\n\t\t# Note: --prune is still in Alpha\n\t\t# Apply the configuration in manifest.yaml that matches label app=nginx and delete all the other resources that are not in the file and match label app=nginx.\n\t\tkubectl apply --prune -f manifest.yaml -l app=nginx\n\n\t\t# Apply the configuration in manifest.yaml and delete all the other configmaps that are not in the file.\n\t\tkubectl apply --prune -f manifest.yaml --all --prune-whitelist=core/v1/ConfigMap\x00\n\t\t# Auto scale a deployment \"foo\", with the number of pods between 2 and 10, target CPU utilization specified so a default autoscaling policy will be used:\n\t\tkubectl autoscale deployment foo --min=2 --max=10\n\n\t\t# Auto scale a replication controller \"foo\", with the number of pods between 1 and 5, target CPU utilization at 80%:\n\t\tkubectl autoscale rc foo --max=5 --cpu-percent=80\x00\n\t\t# Convert 'pod.yaml' to latest version and print to stdout.\n\t\tkubectl convert -f pod.yaml\n\n\t\t# Convert the live state of the resource specified by 'pod.yaml' to the latest version\n\t\t# and print to stdout in json format.\n\t\tkubectl convert -f pod.yaml --local -o json\n\n\t\t# Convert all files under current directory to latest version and create them all.\n\t\tkubectl convert -f . | kubectl create -f -\x00\n\t\t# Create a ClusterRole named \"pod-reader\" that allows user to perform \"get\", \"watch\" and \"list\" on pods\n\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --resource=pods\n\n\t\t# Create a ClusterRole named \"pod-reader\" with ResourceName specified\n\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --resource=pods --resource-name=readablepod\x00\n\t\t# Create a new resourcequota named my-quota\n\t\tkubectl create quota my-quota --hard=cpu=1,memory=1G,pods=2,services=3,replicationcontrollers=2,resourcequotas=1,secrets=5,persistentvolumeclaims=10\n\n\t\t# Create a new resourcequota named best-effort\n\t\tkubectl create quota best-effort --hard=pods=100 --scopes=BestEffort\x00\n\t\t# Create a pod disruption budget named my-pdb that will select all pods with the app=rails label\n\t\t# and require at least one of them being available at any point in time.\n\t\tkubectl create poddisruptionbudget my-pdb --selector=app=rails --min-available=1\n\n\t\t# Create a pod disruption budget named my-pdb that will select all pods with the app=nginx label\n\t\t# and require at least half of the pods selected to be available at any point in time.\n\t\tkubectl create pdb my-pdb --selector=app=nginx --min-available=50%\x00\n\t\t# Create a pod using the data in pod.json.\n\t\tkubectl create -f ./pod.json\n\n\t\t# Create a pod based on the JSON passed into stdin.\n\t\tcat pod.json | kubectl create -f -\n\n\t\t# Edit the data in docker-registry.yaml in JSON using the v1 API format then create the resource using the edited data.\n\t\tkubectl create -f docker-registry.yaml --edit --output-version=v1 -o json\x00\n\t\t# Create a service for a replicated nginx, which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose rc nginx --port=80 --target-port=8000\n\n\t\t# Create a service for a replication controller identified by type and name specified in \"nginx-controller.yaml\", which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose -f nginx-controller.yaml --port=80 --target-port=8000\n\n\t\t# Create a service for a pod valid-pod, which serves on port 444 with the name \"frontend\"\n\t\tkubectl expose pod valid-pod --port=444 --name=frontend\n\n\t\t# Create a second service based on the above service, exposing the container port 8443 as port 443 with the name \"nginx-https\"\n\t\tkubectl expose service nginx --port=443 --target-port=8443 --name=nginx-https\n\n\t\t# Create a service for a replicated streaming application on port 4100 balancing UDP traffic and named 'video-stream'.\n\t\tkubectl expose rc streamer --port=4100 --protocol=udp --name=video-stream\n\n\t\t# Create a service for a replicated nginx using replica set, which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose rs nginx --port=80 --target-port=8000\n\n\t\t# Create a service for an nginx deployment, which serves on port 80 and connects to the containers on port 8000.\n\t\tkubectl expose deployment nginx --port=80 --target-port=8000\x00\n\t\t# Delete a pod using the type and name specified in pod.json.\n\t\tkubectl delete -f ./pod.json\n\n\t\t# Delete a pod based on the type and name in the JSON passed into stdin.\n\t\tcat pod.json | kubectl delete -f -\n\n\t\t# Delete pods and services with same names \"baz\" and \"foo\"\n\t\tkubectl delete pod,service baz foo\n\n\t\t# Delete pods and services with label name=myLabel.\n\t\tkubectl delete pods,services -l name=myLabel\n\n\t\t# Delete a pod with minimal delay\n\t\tkubectl delete pod foo --now\n\n\t\t# Force delete a pod on a dead node\n\t\tkubectl delete pod foo --grace-period=0 --force\n\n\t\t# Delete all pods\n\t\tkubectl delete pods --all\x00\n\t\t# Describe a node\n\t\tkubectl describe nodes kubernetes-node-emt8.c.myproject.internal\n\n\t\t# Describe a pod\n\t\tkubectl describe pods/nginx\n\n\t\t# Describe a pod identified by type and name in \"pod.json\"\n\t\tkubectl describe -f pod.json\n\n\t\t# Describe all pods\n\t\tkubectl describe pods\n\n\t\t# Describe pods by label name=myLabel\n\t\tkubectl describe po -l name=myLabel\n\n\t\t# Describe all pods managed by the 'frontend' replication controller (rc-created pods\n\t\t# get the name of the rc as a prefix in the pod the name).\n\t\tkubectl describe pods frontend\x00\n\t\t# Drain node \"foo\", even if there are pods not managed by a ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet on it.\n\t\t$ kubectl drain foo --force\n\n\t\t# As above, but abort if there are pods not managed by a ReplicationController, ReplicaSet, Job, DaemonSet \u6216\u8005 StatefulSet, and use a grace period of 15 minutes.\n\t\t$ kubectl drain foo --grace-period=900\x00\n\t\t# Edit the service named 'docker-registry':\n\t\tkubectl edit svc/docker-registry\n\n\t\t# Use an alternative editor\n\t\tKUBE_EDITOR=\"nano\" kubectl edit svc/docker-registry\n\n\t\t# Edit the job 'myjob' in JSON using the v1 API format:\n\t\tkubectl edit job.v1.batch/myjob -o json\n\n\t\t# Edit the deployment 'mydeployment' in YAML and save the modified config in its annotation:\n\t\tkubectl edit deployment/mydeployment -o yaml --save-config\x00\n\t\t# Get output from running 'date' from pod 123456-7890, using the first container by default\n\t\tkubectl exec 123456-7890 date\n\n\t\t# Get output from running 'date' in ruby-container from pod 123456-7890\n\t\tkubectl exec 123456-7890 -c ruby-container date\n\n\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container from pod 123456-7890\n\t\t# and sends stdout/stderr from 'bash' back to the client\n\t\tkubectl exec 123456-7890 -c ruby-container -i -t -- bash -il\x00\n\t\t# Get output from running pod 123456-7890, using the first container by default\n\t\tkubectl attach 123456-7890\n\n\t\t# Get output from ruby-container from pod 123456-7890\n\t\tkubectl attach 123456-7890 -c ruby-container\n\n\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container from pod 123456-7890\n\t\t# and sends stdout/stderr from 'bash' back to the client\n\t\tkubectl attach 123456-7890 -c ruby-container -i -t\n\n\t\t# Get output from the first pod of a ReplicaSet named nginx\n\t\tkubectl attach rs/nginx\n\t\t\x00\n\t\t# Get the documentation of the resource and its fields\n\t\tkubectl explain pods\n\n\t\t# Get the documentation of a specific field of a resource\n\t\tkubectl explain pods.spec.containers\x00\n\t\t# Install bash completion on a Mac using homebrew\n\t\tbrew install bash-completion\n\t\tprintf \"\n# Bash completion support\nsource $(brew --prefix)/etc/bash_completion\n\" >> $HOME/.bash_profile\n\t\tsource $HOME/.bash_profile\n\n\t\t# Load the kubectl completion code for bash into the current shell\n\t\tsource <(kubectl completion bash)\n\n\t\t# Write bash completion code to a file and source if from .bash_profile\n\t\tkubectl completion bash > ~/.kube/completion.bash.inc\n\t\tprintf \"\n# Kubectl shell completion\nsource '$HOME/.kube/completion.bash.inc'\n\" >> $HOME/.bash_profile\n\t\tsource $HOME/.bash_profile\n\n\t\t# Load the kubectl completion code for zsh[1] into the current shell\n\t\tsource <(kubectl completion zsh)\x00\n\t\t# List all pods in ps output format.\n\t\tkubectl get pods\n\n\t\t# List all pods in ps output format with more information (such as node name).\n\t\tkubectl get pods -o wide\n\n\t\t# List a single replication controller with specified NAME in ps output format.\n\t\tkubectl get replicationcontroller web\n\n\t\t# List a single pod in JSON output format.\n\t\tkubectl get -o json pod web-pod-13je7\n\n\t\t# List a pod identified by type and name specified in \"pod.yaml\" in JSON output format.\n\t\tkubectl get -f pod.yaml -o json\n\n\t\t# Return only the phase value of the specified pod.\n\t\tkubectl get -o template pod/web-pod-13je7 --template={{.status.phase}}\n\n\t\t# List all replication controllers and services together in ps output format.\n\t\tkubectl get rc,services\n\n\t\t# List one or more resources by their type and names.\n\t\tkubectl get rc/web service/frontend pods/web-pod-13je7\n\n\t\t# List all resources with different types.\n\t\tkubectl get all\x00\n\t\t# Listen on ports 5000 and 6000 locally, forwarding data to/from ports 5000 and 6000 in the pod\n\t\tkubectl port-forward mypod 5000 6000\n\n\t\t# Listen on port 8888 locally, forwarding to 5000 in the pod\n\t\tkubectl port-forward mypod 8888:5000\n\n\t\t# Listen on a random port locally, forwarding to 5000 in the pod\n\t\tkubectl port-forward mypod :5000\n\n\t\t# Listen on a random port locally, forwarding to 5000 in the pod\n\t\tkubectl port-forward mypod 0:5000\x00\n\t\t# Mark node \"foo\" as schedulable.\n\t\t$ kubectl uncordon foo\x00\n\t\t# Mark node \"foo\" as unschedulable.\n\t\tkubectl cordon foo\x00\n\t\t# Partially update a node using strategic merge patch\n\t\tkubectl patch node k8s-node-1 -p '{\"spec\":{\"unschedulable\":true}}'\n\n\t\t# Partially update a node identified by the type and name specified in \"node.json\" using strategic merge patch\n\t\tkubectl patch -f node.json -p '{\"spec\":{\"unschedulable\":true}}'\n\n\t\t# Update a container's image; spec.containers[*].name is required because it's a merge key\n\t\tkubectl patch pod valid-pod -p '{\"spec\":{\"containers\":[{\"name\":\"kubernetes-serve-hostname\",\"image\":\"new image\"}]}}'\n\n\t\t# Update a container's image using a json patch with positional arrays\n\t\tkubectl patch pod valid-pod --type='json' -p='[{\"op\": \"replace\", \"path\": \"/spec/containers/0/image\", \"value\":\"new image\"}]'\x00\n\t\t# Print flags inherited by all commands\n\t\tkubectl options\x00\n\t\t# Print the address of the master and cluster services\n\t\tkubectl cluster-info\x00\n\t\t# Print the client and server versions for the current context\n\t\tkubectl version\x00\n\t\t# Print the supported API versions\n\t\tkubectl api-versions\x00\n\t\t# Replace a pod using the data in pod.json.\n\t\tkubectl replace -f ./pod.json\n\n\t\t# Replace a pod based on the JSON passed into stdin.\n\t\tcat pod.json | kubectl replace -f -\n\n\t\t# Update a single-container pod's image version (tag) to v4\n\t\tkubectl get pod mypod -o yaml | sed 's/\\(image: myimage\\):.*$/\x01:v4/' | kubectl replace -f -\n\n\t\t# Force replace, delete and then re-create the resource\n\t\tkubectl replace --force -f ./pod.json\x00\n\t\t# Return snapshot logs from pod nginx with only one container\n\t\tkubectl logs nginx\n\n\t\t# Return snapshot logs for the pods defined by label app=nginx\n\t\tkubectl logs -lapp=nginx\n\n\t\t# Return snapshot of previous terminated ruby container logs from pod web-1\n\t\tkubectl logs -p -c ruby web-1\n\n\t\t# Begin streaming the logs of the ruby container in pod web-1\n\t\tkubectl logs -f -c ruby web-1\n\n\t\t# Display only the most recent 20 lines of output in pod nginx\n\t\tkubectl logs --tail=20 nginx\n\n\t\t# Show all logs from pod nginx written in the last hour\n\t\tkubectl logs --since=1h nginx\n\n\t\t# Return snapshot logs from first container of a job named hello\n\t\tkubectl logs job/hello\n\n\t\t# Return snapshot logs from container nginx-1 of a deployment named nginx\n\t\tkubectl logs deployment/nginx -c nginx-1\x00\n\t\t# Run a proxy to kubernetes apiserver on port 8011, serving static content from ./local/www/\n\t\tkubectl proxy --port=8011 --www=./local/www/\n\n\t\t# Run a proxy to kubernetes apiserver on an arbitrary local port.\n\t\t# The chosen port for the server will be output to stdout.\n\t\tkubectl proxy --port=0\n\n\t\t# Run a proxy to kubernetes apiserver, changing the api prefix to k8s-api\n\t\t# This makes e.g. the pods api available at localhost:8001/k8s-api/v1/pods/\n\t\tkubectl proxy --api-prefix=/k8s-api\x00\n\t\t# Scale a replicaset named 'foo' to 3.\n\t\tkubectl scale --replicas=3 rs/foo\n\n\t\t# Scale a resource identified by type and name specified in \"foo.yaml\" to 3.\n\t\tkubectl scale --replicas=3 -f foo.yaml\n\n\t\t# If the deployment named mysql's current size is 2, scale mysql to 3.\n\t\tkubectl scale --current-replicas=2 --replicas=3 deployment/mysql\n\n\t\t# Scale multiple replication controllers.\n\t\tkubectl scale --replicas=5 rc/foo rc/bar rc/baz\n\n\t\t# Scale job named 'cron' to 3.\n\t\tkubectl scale --replicas=3 job/cron\x00\n\t\t# Set the last-applied-configuration of a resource to match the contents of a file.\n\t\tkubectl apply set-last-applied -f deploy.yaml\n\n\t\t# Execute set-last-applied against each configuration file in a directory.\n\t\tkubectl apply set-last-applied -f path/\n\n\t\t# Set the last-applied-configuration of a resource to match the contents of a file, will create the annotation if it does not already exist.\n\t\tkubectl apply set-last-applied -f deploy.yaml --create-annotation=true\n\t\t\x00\n\t\t# Show metrics for all pods in the default namespace\n\t\tkubectl top pod\n\n\t\t# Show metrics for all pods in the given namespace\n\t\tkubectl top pod --namespace=NAMESPACE\n\n\t\t# Show metrics for a given pod and its containers\n\t\tkubectl top pod POD_NAME --containers\n\n\t\t# Show metrics for the pods defined by label name=myLabel\n\t\tkubectl top pod -l name=myLabel\x00\n\t\t# Shut down foo.\n\t\tkubectl stop replicationcontroller foo\n\n\t\t# Stop pods and services with label name=myLabel.\n\t\tkubectl stop pods,services -l name=myLabel\n\n\t\t# Shut down the service defined in service.json\n\t\tkubectl stop -f service.json\n\n\t\t# Shut down all resources in the path/to/resources directory\n\t\tkubectl stop -f path/to/resources\x00\n\t\t# Start a single instance of nginx.\n\t\tkubectl run nginx --image=nginx\n\n\t\t# Start a single instance of hazelcast and let the container expose port 5701 .\n\t\tkubectl run hazelcast --image=hazelcast --port=5701\n\n\t\t# Start a single instance of hazelcast and set environment variables \"DNS_DOMAIN=cluster\" and \"POD_NAMESPACE=default\" in the container.\n\t\tkubectl run hazelcast --image=hazelcast --env=\"DNS_DOMAIN=cluster\" --env=\"POD_NAMESPACE=default\"\n\n\t\t# Start a replicated instance of nginx.\n\t\tkubectl run nginx --image=nginx --replicas=5\n\n\t\t# Dry run. Print the corresponding API objects without creating them.\n\t\tkubectl run nginx --image=nginx --dry-run\n\n\t\t# Start a single instance of nginx, but overload the spec of the deployment with a partial set of values parsed from JSON.\n\t\tkubectl run nginx --image=nginx --overrides='{ \"apiVersion\": \"v1\", \"spec\": { ... } }'\n\n\t\t# Start a pod of busybox and keep it in the foreground, don't restart it if it exits.\n\t\tkubectl run -i -t busybox --image=busybox --restart=Never\n\n\t\t# Start the nginx container using the default command, but use custom arguments (arg1 .. argN) for that command.\n\t\tkubectl run nginx --image=nginx -- ... \n\n\t\t# Start the nginx container using a different command and custom arguments.\n\t\tkubectl run nginx --image=nginx --command -- ... \n\n\t\t# Start the perl container to compute \u03c0 to 2000 places and print it out.\n\t\tkubectl run pi --image=perl --restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'\n\n\t\t# Start the cron job to compute \u03c0 to 2000 places and print it out every 5 minutes.\n\t\tkubectl run pi --schedule=\"0/5 * * * ?\" --image=perl --restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'\x00\n\t\t# Update node 'foo' with a taint with key 'dedicated' and value 'special-user' and effect 'NoSchedule'.\n\t\t# If a taint with that key and effect already exists, its value is replaced as specified.\n\t\tkubectl taint nodes foo dedicated=special-user:NoSchedule\n\n\t\t# Remove from node 'foo' the taint with key 'dedicated' and effect 'NoSchedule' if one exists.\n\t\tkubectl taint nodes foo dedicated:NoSchedule-\n\n\t\t# Remove from node 'foo' all the taints with key 'dedicated'\n\t\tkubectl taint nodes foo dedicated-\x00\n\t\t# Update pod 'foo' with the label 'unhealthy' and the value 'true'.\n\t\tkubectl label pods foo unhealthy=true\n\n\t\t# Update pod 'foo' with the label 'status' and the value 'unhealthy', overwriting any existing value.\n\t\tkubectl label --overwrite pods foo status=unhealthy\n\n\t\t# Update all pods in the namespace\n\t\tkubectl label pods --all status=unhealthy\n\n\t\t# Update a pod identified by the type and name in \"pod.json\"\n\t\tkubectl label -f pod.json status=unhealthy\n\n\t\t# Update pod 'foo' only if the resource is unchanged from version 1.\n\t\tkubectl label pods foo status=unhealthy --resource-version=1\n\n\t\t# Update pod 'foo' by removing a label named 'bar' if it exists.\n\t\t# Does not require the --overwrite flag.\n\t\tkubectl label pods foo bar-\x00\n\t\t# Update pods of frontend-v1 using new replication controller data in frontend-v2.json.\n\t\tkubectl rolling-update frontend-v1 -f frontend-v2.json\n\n\t\t# Update pods of frontend-v1 using JSON data passed into stdin.\n\t\tcat frontend-v2.json | kubectl rolling-update frontend-v1 -f -\n\n\t\t# Update the pods of frontend-v1 to frontend-v2 by just changing the image, and switching the\n\t\t# name of the replication controller.\n\t\tkubectl rolling-update frontend-v1 frontend-v2 --image=image:v2\n\n\t\t# Update the pods of frontend by just changing the image, and keeping the old name.\n\t\tkubectl rolling-update frontend --image=image:v2\n\n\t\t# Abort and reverse an existing rollout in progress (from frontend-v1 to frontend-v2).\n\t\tkubectl rolling-update frontend-v1 frontend-v2 --rollback\x00\n\t\t# View the last-applied-configuration annotations by type/name in YAML.\n\t\tkubectl apply view-last-applied deployment/nginx\n\n\t\t# View the last-applied-configuration annotations by file in JSON\n\t\tkubectl apply view-last-applied -f deploy.yaml -o json\x00\n\t\tApply a configuration to a resource by filename or stdin.\n\t\tThis resource will be created if it doesn't exist yet.\n\t\tTo use 'apply', always create the resource initially with either 'apply' or 'create --save-config'.\n\n\t\tJSON and YAML formats are accepted.\n\n\t\tAlpha Disclaimer: the --prune functionality is not yet complete. Do not use unless you are aware of what the current state is. See https://issues.k8s.io/34274.\x00\n\t\tConvert config files between different API versions. Both YAML\n\t\tand JSON formats are accepted.\n\n\t\tThe command takes filename, directory, or URL as input, and convert it into format\n\t\tof version specified by --output-version flag. If target version is not specified or\n\t\tnot supported, convert to latest version.\n\n\t\tThe default output will be printed to stdout in YAML format. One can use -o option\n\t\tto change to output destination.\x00\n\t\tCreate a ClusterRole.\x00\n\t\tCreate a ClusterRoleBinding for a particular ClusterRole.\x00\n\t\tCreate a RoleBinding for a particular Role or ClusterRole.\x00\n\t\tCreate a TLS secret from the given public/private key pair.\n\n\t\tThe public/private key pair must exist before hand. The public key certificate must be .PEM encoded and match the given private key.\x00\n\t\tCreate a configmap based on a file, directory, or specified literal value.\n\n\t\tA single configmap may package one or more key/value pairs.\n\n\t\tWhen creating a configmap based on a file, the key will default to the basename of the file, and the value will\n\t\tdefault to the file content. If the basename is an invalid key, you may specify an alternate key.\n\n\t\tWhen creating a configmap based on a directory, each file whose basename is a valid key in the directory will be\n\t\tpackaged into the configmap. Any directory entries except regular files are ignored (e.g. subdirectories,\n\t\tsymlinks, devices, pipes, etc).\x00\n\t\tCreate a namespace with the specified name.\x00\n\t\tCreate a new secret for use with Docker registries.\n\n\t\tDockercfg secrets are used to authenticate against Docker registries.\n\n\t\tWhen using the Docker command line to push images, you can authenticate to a given registry by running\n\n\t\t $ docker login DOCKER_REGISTRY_SERVER --username=DOCKER_USER --password=DOCKER_PASSWORD --email=DOCKER_EMAIL'.\n\n That produces a ~/.dockercfg file that is used by subsequent 'docker push' and 'docker pull' commands to\n\t\tauthenticate to the registry. The email address is optional.\n\n\t\tWhen creating applications, you may have a Docker registry that requires authentication. In order for the\n\t\tnodes to pull images on your behalf, they have to have the credentials. You can provide this information\n\t\tby creating a dockercfg secret and attaching it to your service account.\x00\n\t\tCreate a pod disruption budget with the specified name, selector, and desired minimum available pods\x00\n\t\tCreate a resource by filename or stdin.\n\n\t\tJSON and YAML formats are accepted.\x00\n\t\tCreate a resourcequota with the specified name, hard limits and optional scopes\x00\n\t\tCreate a role with single rule.\x00\n\t\tCreate a secret based on a file, directory, or specified literal value.\n\n\t\tA single secret may package one or more key/value pairs.\n\n\t\tWhen creating a secret based on a file, the key will default to the basename of the file, and the value will\n\t\tdefault to the file content. If the basename is an invalid key, you may specify an alternate key.\n\n\t\tWhen creating a secret based on a directory, each file whose basename is a valid key in the directory will be\n\t\tpackaged into the secret. Any directory entries except regular files are ignored (e.g. subdirectories,\n\t\tsymlinks, devices, pipes, etc).\x00\n\t\tCreate a service account with the specified name.\x00\n\t\tCreate and run a particular image, possibly replicated.\n\n\t\tCreates a deployment or job to manage the created container(s).\x00\n\t\tCreates an autoscaler that automatically chooses and sets the number of pods that run in a kubernetes cluster.\n\n\t\tLooks up a Deployment, ReplicaSet, or ReplicationController by name and creates an autoscaler that uses the given resource as a reference.\n\t\tAn autoscaler can automatically increase or decrease number of pods deployed within the system as needed.\x00\n\t\tDelete resources by filenames, stdin, resources and names, or by resources and label selector.\n\n\t\tJSON and YAML formats are accepted. Only one type of the arguments may be specified: filenames,\n\t\tresources and names, or resources and label selector.\n\n\t\tSome resources, such as pods, support graceful deletion. These resources define a default period\n\t\tbefore they are forcibly terminated (the grace period) but you may override that value with\n\t\tthe --grace-period flag, or pass --now to set a grace-period of 1. Because these resources often\n\t\trepresent entities in the cluster, deletion may not be acknowledged immediately. If the node\n\t\thosting a pod is down or cannot reach the API server, termination may take significantly longer\n\t\tthan the grace period. To force delete a resource,\tyou must pass a grace\tperiod of 0 and specify\n\t\tthe --force flag.\n\n\t\tIMPORTANT: Force deleting pods does not wait for confirmation that the pod's processes have been\n\t\tterminated, which can leave those processes running until the node detects the deletion and\n\t\tcompletes graceful deletion. If your processes use shared storage or talk to a remote API and\n\t\tdepend on the name of the pod to identify themselves, force deleting those pods may result in\n\t\tmultiple processes running on different machines using the same identification which may lead\n\t\tto data corruption or inconsistency. Only force delete pods when you are sure the pod is\n\t\tterminated, or if your application can tolerate multiple copies of the same pod running at once.\n\t\tAlso, if you force delete pods the scheduler may place new pods on those nodes before the node\n\t\thas released those resources and causing those pods to be evicted immediately.\n\n\t\tNote that the delete command does NOT do resource version checks, so if someone\n\t\tsubmits an update to a resource right when you submit a delete, their update\n\t\twill be lost along with the rest of the resource.\x00\n\t\tDeprecated: Gracefully shut down a resource by name or filename.\n\n\t\tThe stop command is deprecated, all its functionalities are covered by delete command.\n\t\tSee 'kubectl delete --help' for more details.\n\n\t\tAttempts to shut down and delete a resource that supports graceful termination.\n\t\tIf the resource is scalable it will be scaled to 0 before deletion.\x00\n\t\tDisplay Resource (CPU/Memory/Storage) usage of nodes.\n\n\t\tThe top-node command allows you to see the resource consumption of nodes.\x00\n\t\tDisplay Resource (CPU/Memory/Storage) usage of pods.\n\n\t\tThe 'top pod' command allows you to see the resource consumption of pods.\n\n\t\tDue to the metrics pipeline delay, they may be unavailable for a few minutes\n\t\tsince pod creation.\x00\n\t\tDisplay Resource (CPU/Memory/Storage) usage.\n\n\t\tThe top command allows you to see the resource consumption for nodes or pods.\n\n\t\tThis command requires Heapster to be correctly configured and working on the server. \x00\n\t\tDrain node in preparation for maintenance.\n\n\t\tThe given node will be marked unschedulable to prevent new pods from arriving.\n\t\t'drain' evicts the pods if the APIServer supports eviction\n\t\t(http://kubernetes.io/docs/admin/disruptions/). Otherwise, it will use normal DELETE\n\t\tto delete the pods.\n\t\tThe 'drain' evicts or deletes all pods except mirror pods (which cannot be deleted through\n\t\tthe API server). If there are DaemonSet-managed pods, drain will not proceed\n\t\twithout --ignore-daemonsets, and regardless it will not delete any\n\t\tDaemonSet-managed pods, because those pods would be immediately replaced by the\n\t\tDaemonSet controller, which ignores unschedulable markings. If there are any\n\t\tpods that are neither mirror pods nor managed by ReplicationController,\n\t\tReplicaSet, DaemonSet, StatefulSet or Job, then drain will not delete any pods unless you\n\t\tuse --force. --force will also allow deletion to proceed if the managing resource of one\n\t\tor more pods is missing.\n\n\t\t'drain' waits for graceful termination. You should not operate on the machine until\n\t\tthe command completes.\n\n\t\tWhen you are ready to put the node back into service, use kubectl uncordon, which\n\t\twill make the node schedulable again.\n\n\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_drain.svg)\x00\n\t\tEdit a resource from the default editor.\n\n\t\tThe edit command allows you to directly edit any API resource you can retrieve via the\n\t\tcommand line tools. It will open the editor defined by your KUBE_EDITOR, or EDITOR\n\t\tenvironment variables, or fall back to 'vi' for Linux or 'notepad' for Windows.\n\t\tYou can edit multiple objects, although changes are applied one at a time. The command\n\t\taccepts filenames as well as command line arguments, although the files you point to must\n\t\tbe previously saved versions of resources.\n\n\t\tEditing is done with the API version used to fetch the resource.\n\t\tTo edit using a specific API version, fully-qualify the resource, version, and group.\n\n\t\tThe default format is YAML. To edit in JSON, specify \"-o json\".\n\n\t\tThe flag --windows-line-endings can be used to force Windows line endings,\n\t\totherwise the default for your operating system will be used.\n\n\t\tIn the event an error occurs while updating, a temporary file will be created on disk\n\t\tthat contains your unapplied changes. The most common error when updating a resource\n\t\tis another editor changing the resource on the server. When this occurs, you will have\n\t\tto apply your changes to the newer version of the resource, or update your temporary\n\t\tsaved copy to include the latest resource version.\x00\n\t\tMark node as schedulable.\x00\n\t\tMark node as unschedulable.\x00\n\t\tOutput shell completion code for the specified shell (bash or zsh).\n\t\tThe shell code must be evaluated to provide interactive\n\t\tcompletion of kubectl commands. This can be done by sourcing it from\n\t\tthe .bash_profile.\n\n\t\tNote: this requires the bash-completion framework, which is not installed\n\t\tby default on Mac. This can be installed by using homebrew:\n\n\t\t $ brew install bash-completion\n\n\t\tOnce installed, bash_completion must be evaluated. This can be done by adding the\n\t\tfollowing line to the .bash_profile\n\n\t\t $ source $(brew --prefix)/etc/bash_completion\n\n\t\tNote for zsh users: [1] zsh completions are only supported in versions of zsh >= 5.2\x00\n\t\tPerform a rolling update of the given ReplicationController.\n\n\t\tReplaces the specified replication controller with a new replication controller by updating one pod at a time to use the\n\t\tnew PodTemplate. The new-controller.json must specify the same namespace as the\n\t\texisting replication controller and overwrite at least one (common) label in its replicaSelector.\n\n\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_rollingupdate.svg)\x00\n\t\tReplace a resource by filename or stdin.\n\n\t\tJSON and YAML formats are accepted. If replacing an existing resource, the\n\t\tcomplete resource spec must be provided. This can be obtained by\n\n\t\t $ kubectl get TYPE NAME -o yaml\n\n\t\tPlease refer to the models in https://htmlpreview.github.io/?https://github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions.html to find if a field is mutable.\x00\n\t\tSet a new size for a Deployment, ReplicaSet, Replication Controller, or Job.\n\n\t\tScale also allows users to specify one or more preconditions for the scale action.\n\n\t\tIf --current-replicas or --resource-version is specified, it is validated before the\n\t\tscale is attempted, and it is guaranteed that the precondition holds true when the\n\t\tscale is sent to the server.\x00\n\t\tSet the latest last-applied-configuration annotations by setting it to match the contents of a file.\n\t\tThis results in the last-applied-configuration being updated as though 'kubectl apply -f ' was run,\n\t\twithout updating any other parts of the object.\x00\n\t\tTo proxy all of the kubernetes api and nothing else, use:\n\n\t\t $ kubectl proxy --api-prefix=/\n\n\t\tTo proxy only part of the kubernetes api and also some static files:\n\n\t\t $ kubectl proxy --www=/my/files --www-prefix=/static/ --api-prefix=/api/\n\n\t\tThe above lets you 'curl localhost:8001/api/v1/pods'.\n\n\t\tTo proxy the entire kubernetes api at a different root, use:\n\n\t\t $ kubectl proxy --api-prefix=/custom/\n\n\t\tThe above lets you 'curl localhost:8001/custom/api/v1/pods'\x00\n\t\tUpdate field(s) of a resource using strategic merge patch\n\n\t\tJSON and YAML formats are accepted.\n\n\t\tPlease refer to the models in https://htmlpreview.github.io/?https://github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions.html to find if a field is mutable.\x00\n\t\tUpdate the labels on a resource.\n\n\t\t* A label must begin with a letter or number, and may contain letters, numbers, hyphens, dots, and underscores, up to %[1]d characters.\n\t\t* If --overwrite is true, then existing labels can be overwritten, otherwise attempting to overwrite a label will result in an error.\n\t\t* If --resource-version is specified, then updates will use this resource version, otherwise the existing resource-version will be used.\x00\n\t\tUpdate the taints on one or more nodes.\n\n\t\t* A taint consists of a key, value, and effect. As an argument here, it is expressed as key=value:effect.\n\t\t* The key must begin with a letter or number, and may contain letters, numbers, hyphens, dots, and underscores, up to %[1]d characters.\n\t\t* The value must begin with a letter or number, and may contain letters, numbers, hyphens, dots, and underscores, up to %[2]d characters.\n\t\t* The effect must be NoSchedule, PreferNoSchedule or NoExecute.\n\t\t* Currently taint can only apply to node.\x00\n\t\tView the latest last-applied-configuration annotations by type/name or file.\n\n\t\tThe default output will be printed to stdout in YAML format. One can use -o option\n\t\tto change output format.\x00\n\t # !!!Important Note!!!\n\t # Requires that the 'tar' binary is present in your container\n\t # image. If 'tar' is not present, 'kubectl cp' will fail.\n\n\t # Copy /tmp/foo_dir local directory to /tmp/bar_dir in a remote pod in the default namespace\n\t\tkubectl cp /tmp/foo_dir :/tmp/bar_dir\n\n # Copy /tmp/foo local file to /tmp/bar in a remote pod in a specific container\n\t\tkubectl cp /tmp/foo :/tmp/bar -c \n\n\t\t# Copy /tmp/foo local file to /tmp/bar in a remote pod in namespace \n\t\tkubectl cp /tmp/foo /:/tmp/bar\n\n\t\t# Copy /tmp/foo from a remote pod to /tmp/bar locally\n\t\tkubectl cp /:/tmp/foo /tmp/bar\x00\n\t # Create a new TLS secret named tls-secret with the given key pair:\n\t kubectl create secret tls tls-secret --cert=path/to/tls.cert --key=path/to/tls.key\x00\n\t # Create a new namespace named my-namespace\n\t kubectl create namespace my-namespace\x00\n\t # Create a new secret named my-secret with keys for each file in folder bar\n\t kubectl create secret generic my-secret --from-file=path/to/bar\n\n\t # Create a new secret named my-secret with specified keys instead of names on disk\n\t kubectl create secret generic my-secret --from-file=ssh-privatekey=~/.ssh/id_rsa --from-file=ssh-publickey=~/.ssh/id_rsa.pub\n\n\t # Create a new secret named my-secret with key1=supersecret and key2=topsecret\n\t kubectl create secret generic my-secret --from-literal=key1=supersecret --from-literal=key2=topsecret\x00\n\t # Create a new service account named my-service-account\n\t kubectl create serviceaccount my-service-account\x00\n\t# Create a new ExternalName service named my-ns \n\tkubectl create service externalname my-ns --external-name bar.com\x00\n\tCreate an ExternalName service with the specified name.\n\n\tExternalName service references to an external DNS address instead of\n\tonly pods, which will allow application authors to reference services\n\tthat exist off platform, on other clusters, or locally.\x00\n\tHelp provides help for any command in the application.\n\tSimply type kubectl help [path to command] for full details.\x00\n # Create a new LoadBalancer service named my-lbs\n kubectl create service loadbalancer my-lbs --tcp=5678:8080\x00\n # Create a new clusterIP service named my-cs\n kubectl create service clusterip my-cs --tcp=5678:8080\n\n # Create a new clusterIP service named my-cs (in headless mode)\n kubectl create service clusterip my-cs --clusterip=\"None\"\x00\n # Create a new deployment named my-dep that runs the busybox image.\n kubectl create deployment my-dep --image=busybox\x00\n # Create a new nodeport service named my-ns\n kubectl create service nodeport my-ns --tcp=5678:8080\x00\n # Dump current cluster state to stdout\n kubectl cluster-info dump\n\n # Dump current cluster state to /path/to/cluster-state\n kubectl cluster-info dump --output-directory=/path/to/cluster-state\n\n # Dump all namespaces to stdout\n kubectl cluster-info dump --all-namespaces\n\n # Dump a set of namespaces to /path/to/cluster-state\n kubectl cluster-info dump --namespaces default,kube-system --output-directory=/path/to/cluster-state\x00\n # Update pod 'foo' with the annotation 'description' and the value 'my frontend'.\n # If the same annotation is set multiple times, only the last value will be applied\n kubectl annotate pods foo description='my frontend'\n\n # Update a pod identified by type and name in \"pod.json\"\n kubectl annotate -f pod.json description='my frontend'\n\n # Update pod 'foo' with the annotation 'description' and the value 'my frontend running nginx', overwriting any existing value.\n kubectl annotate --overwrite pods foo description='my frontend running nginx'\n\n # Update all pods in the namespace\n kubectl annotate pods --all description='my frontend running nginx'\n\n # Update pod 'foo' only if the resource is unchanged from version 1.\n kubectl annotate pods foo description='my frontend running nginx' --resource-version=1\n\n # Update pod 'foo' by removing an annotation named 'description' if it exists.\n # Does not require the --overwrite flag.\n kubectl annotate pods foo description-\x00\n Create a LoadBalancer service with the specified name.\x00\n Create a clusterIP service with the specified name.\x00\n Create a deployment with the specified name.\x00\n Create a nodeport service with the specified name.\x00\n Dumps cluster info out suitable for debugging and diagnosing cluster problems. By default, dumps everything to\n stdout. You can optionally specify a directory with --output-directory. If you specify a directory, kubernetes will\n build a set of files in that directory. By default only dumps things in the 'kube-system' namespace, but you can\n switch to a different namespace with the --namespaces flag, or specify --all-namespaces to dump all namespaces.\n\n The command also dumps the logs of all of the pods in the cluster, these logs are dumped into different directories\n based on namespace and pod name.\x00\n Display addresses of the master and services with label kubernetes.io/cluster-service=true\n To further debug and diagnose cluster problems, use 'kubectl cluster-info dump'.\x00A comma-delimited set of quota scopes that must all match each object tracked by the quota.\x00A comma-delimited set of resource=quantity pairs that define a hard limit.\x00A label selector to use for this budget. Only equality-based selector requirements are supported.\x00A label selector to use for this service. Only equality-based selector requirements are supported. If empty (the default) infer the selector from the replication controller or replica set.)\x00A schedule in the Cron format the job should be run with.\x00Additional external IP address (not managed by Kubernetes) to accept for the service. If this IP is routed to a node, the service can be accessed by this IP in addition to its generated service IP.\x00An inline JSON override for the generated object. If this is non-empty, it is used to override the generated object. Requires that the object supply a valid apiVersion field.\x00An inline JSON override for the generated service object. If this is non-empty, it is used to override the generated object. Requires that the object supply a valid apiVersion field. Only used if --expose is true.\x00Apply a configuration to a resource by filename or stdin\x00Approve a certificate signing request\x00Assign your own ClusterIP or set to 'None' for a 'headless' service (no loadbalancing).\x00Attach to a running container\x00Auto-scale a Deployment, ReplicaSet, or ReplicationController\x00ClusterIP to be assigned to the service. Leave empty to auto-allocate, or set to 'None' to create a headless service.\x00ClusterRole this ClusterRoleBinding should reference\x00ClusterRole this RoleBinding should reference\x00Container name which will have its image upgraded. Only relevant when --image is specified, ignored otherwise. Required when using --image on a multi-container pod\x00Convert config files between different API versions\x00Copy files and directories to and from containers.\x00Create a ClusterRoleBinding for a particular ClusterRole\x00Create a LoadBalancer service.\x00Create a NodePort service.\x00Create a RoleBinding for a particular Role or ClusterRole\x00Create a TLS secret\x00Create a clusterIP service.\x00Create a configmap from a local file, directory or literal value\x00Create a deployment with the specified name.\x00Create a namespace with the specified name\x00Create a pod disruption budget with the specified name.\x00Create a quota with the specified name.\x00Create a resource by filename or stdin\x00Create a secret for use with a Docker registry\x00Create a secret from a local file, directory or literal value\x00Create a secret using specified subcommand\x00Create a service account with the specified name\x00Create a service using specified subcommand.\x00Create an ExternalName service.\x00Delete resources by filenames, stdin, resources and names, or by resources and label selector\x00Delete the specified cluster from the kubeconfig\x00Delete the specified context from the kubeconfig\x00Deny a certificate signing request\x00Deprecated: Gracefully shut down a resource by name or filename\x00Describe one or many contexts\x00Display Resource (CPU/Memory) usage of nodes\x00Display Resource (CPU/Memory) usage of pods\x00Display Resource (CPU/Memory) usage.\x00Display cluster info\x00Display clusters defined in the kubeconfig\x00Display merged kubeconfig settings or a specified kubeconfig file\x00Display one or many resources\x00Displays the current-context\x00Documentation of resources\x00Drain node in preparation for maintenance\x00Dump lots of relevant info for debugging and diagnosis\x00Edit a resource on the server\x00Email for Docker registry\x00Execute a command in a container\x00Explicit policy for when to pull container images. Required when --image is same as existing image, ignored otherwise.\x00Forward one or more local ports to a pod\x00Help about any command\x00IP to assign to the Load Balancer. If empty, an ephemeral IP will be created and used (cloud-provider specific).\x00If non-empty, set the session affinity for the service to this; legal values: 'None', 'ClientIP'\x00If non-empty, the annotation update will only succeed if this is the current resource-version for the object. Only valid when specifying a single resource.\x00If non-empty, the labels update will only succeed if this is the current resource-version for the object. Only valid when specifying a single resource.\x00Image to use for upgrading the replication controller. Must be distinct from the existing image (either new image or new image tag). Can not be used with --filename/-f\x00Manage a deployment rollout\x00Mark node as schedulable\x00Mark node as unschedulable\x00Mark the provided resource as paused\x00Modify certificate resources.\x00Modify kubeconfig files\x00Name or number for the port on the container that the service should direct traffic to. Optional.\x00Only return logs after a specific date (RFC3339). Defaults to all logs. Only one of since-time / since may be used.\x00Output shell completion code for the specified shell (bash or zsh)\x00Output the formatted object with the given group version (for ex: 'extensions/v1beta1').)\x00Password for Docker registry authentication\x00Path to PEM encoded public key certificate.\x00Path to private key associated with given certificate.\x00Perform a rolling update of the given ReplicationController\x00Precondition for resource version. Requires that the current resource version match this value in order to scale.\x00Print the client and server version information\x00Print the list of flags inherited by all commands\x00Print the logs for a container in a pod\x00Replace a resource by filename or stdin\x00Resume a paused resource\x00Role this RoleBinding should reference\x00Run a particular image on the cluster\x00Run a proxy to the Kubernetes API server\x00Server location for Docker registry\x00Set a new size for a Deployment, ReplicaSet, Replication Controller, or Job\x00Set specific features on objects\x00Set the last-applied-configuration annotation on a live object to match the contents of a file.\x00Set the selector on a resource\x00Sets a cluster entry in kubeconfig\x00Sets a context entry in kubeconfig\x00Sets a user entry in kubeconfig\x00Sets an individual value in a kubeconfig file\x00Sets the current-context in a kubeconfig file\x00Show details of a specific resource or group of resources\x00Show the status of the rollout\x00Synonym for --target-port\x00Take a replication controller, service, deployment or pod and expose it as a new Kubernetes Service\x00The image for the container to run.\x00The image pull policy for the container. If left empty, this value will not be specified by the client and defaulted by the server\x00The key to use to differentiate between two different controllers, default 'deployment'. Only relevant when --image is specified, ignored otherwise\x00The minimum number or percentage of available pods this budget requires.\x00The name for the newly created object.\x00The name for the newly created object. If not specified, the name of the input resource will be used.\x00The name of the API generator to use, see http://kubernetes.io/docs/user-guide/kubectl-conventions/#generators for a list.\x00The name of the API generator to use. Currently there is only 1 generator.\x00The name of the API generator to use. There are 2 generators: 'service/v1' and 'service/v2'. The only difference between them is that service port in v1 is named 'default', while it is left unnamed in v2. Default is 'service/v2'.\x00The name of the generator to use for creating a service. Only used if --expose is true\x00The network protocol for the service to be created. Default is 'TCP'.\x00The port that the service should serve on. Copied from the resource being exposed, if unspecified\x00The port that this container exposes. If --expose is true, this is also the port used by the service that is created.\x00The resource requirement limits for this container. For example, 'cpu=200m,memory=512Mi'. Note that server side components may assign limits depending on the server configuration, such as limit ranges.\x00The resource requirement requests for this container. For example, 'cpu=100m,memory=256Mi'. Note that server side components may assign requests depending on the server configuration, such as limit ranges.\x00The restart policy for this Pod. Legal values [Always, OnFailure, Never]. If set to 'Always' a deployment is created, if set to 'OnFailure' a job is created, if set to 'Never', a regular pod is created. For the latter two --replicas must be 1. Default 'Always', for CronJobs `Never`.\x00The type of secret to create\x00Type for this service: ClusterIP, NodePort, or LoadBalancer. Default is 'ClusterIP'.\x00Undo a previous rollout\x00Unsets an individual value in a kubeconfig file\x00Update field(s) of a resource using strategic merge patch\x00Update image of a pod template\x00Update resource requests/limits on objects with pod templates\x00Update the annotations on a resource\x00Update the labels on a resource\x00Update the taints on one or more nodes\x00Username for Docker registry authentication\x00View latest last-applied-configuration annotations of a resource/object\x00View rollout history\x00Where to output the files. If empty or '-' uses stdout, otherwise creates a directory hierarchy in that directory\x00dummy restart flag)\x00external name of service\x00kubectl controls the Kubernetes cluster manager\x00Project-Id-Version: gettext-go-examples-hello\nReport-Msgid-Bugs-To: \nPOT-Creation-Date: 2013-12-12 20:03+0000\nPO-Revision-Date: 2017-11-11 19:01+0800\nLast-Translator: zhengjiajin \nMIME-Version: 1.0\nContent-Type: text/plain; charset=UTF-8\nContent-Transfer-Encoding: 8bit\nX-Generator: Poedit 2.0.4\nX-Poedit-SourceCharset: UTF-8\nLanguage-Team: \nPlural-Forms: nplurals=2; plural=(n > 1);\nLanguage: zh\n\x00\n\t\t # \u4f7f\u7528 cluster-admin ClusterRole \u4e3a user1, user2, and group1 \u521b\u5efa\u4e00\u4e2a ClusterRoleBinding\n\t\t kubectl create clusterrolebinding cluster-admin --clusterrole=cluster-admin --user=user1 --user=user2 --group=group1\x00\n\t\t # \u4f7f\u7528 admin ClusterRole \u4e3a user1, user2, and group1 \u521b\u5efa\u4e00\u4e2a RoleBinding\n\t\t kubectl create rolebinding admin --clusterrole=admin --user=user1 --user=user2 --group=group1\x00\n\t\t # \u901a\u8fc7\u6587\u4ef6\u5939 bar \u521b\u5efa\u4e00\u4e2a\u540d\u79f0\u4e3a my-config \u7684 configmap\n\t\t kubectl create configmap my-config --from-file=path/to/bar\n\n\t\t # \u521b\u5efa\u4e00\u4e2a\u540d\u79f0\u4e3a my-config \u7684 configmap \u5e76\u6307\u5b9a keys \u800c\u4e0d\u662f\u4f7f\u7528\u78c1\u76d8\u4e0a\u6240\u5728\u7684\u6587\u4ef6\u540d\n\t\t kubectl create configmap my-config --from-file=key1=/path/to/bar/file1.txt --from-file=key2=/path/to/bar/file2.txt\n\n\t\t # \u521b\u5efa\u4e00\u4e2a\u540d\u79f0\u4e3a my-config \u7684 configmap \u4e14 key1=config1 \u548c key2=config2\n\t\t kubectl create configmap my-config --from-literal=key1=config1 --from-literal=key2=config2\x00\n\t\t # \u5982\u679c\u4f60\u8fd8\u6ca1\u6709\u4e00\u4e2a .dockercfg \u6587\u4ef6, \u4f60\u53ef\u4ee5\u521b\u5efa\u4e00\u4e2a dockercfg \u7684 secret \u76f4\u63a5\u4f7f\u7528:\n\t\t kubectl create secret docker-registry my-secret --docker-server=DOCKER_REGISTRY_SERVER --docker-username=DOCKER_USER --docker-password=DOCKER_PASSWORD --docker-email=DOCKER_EMAIL\x00\n\t\t # \u663e\u793a\u6240\u6709 nodes \u4e0a\u7684\u6307\u6807\n\t\t kubectl top node\n\n\t\t # \u663e\u793a\u6307\u5b9a node \u4e0a\u7684\u6307\u6807\n\t\t kubectl top node NODE_NAME\x00\n\t\t# \u5c06 pod.json \u4e0a\u7684\u914d\u7f6e\u5e94\u7528\u4e8e pod.\n\t\tkubectl apply -f ./pod.json\n\n\t\t# \u5c06\u4f20\u5165 stdin \u7684 JSON \u5e94\u7528\u5230\u4e00\u4e2a pod.\n\t\tcat pod.json | kubectl apply -f -\n\n\t\t# Note: --prune \u4ecd\u7136\u5728 Alpha\n\t\t# \u5e94\u7528\u5728 manifest.yaml \u4e2d\u5339\u914d\u6807\u7b7e app=nginx \u7684\u8d44\u6e90\u914d\u7f6e\u5e76\u5220\u9664\u6240\u6709\u4e0d\u5728\u8fd9\u4e2a\u6587\u4ef6\u4e2d\u5e76\u5339\u914d\u6807\u7b7eapp=nginx \u7684\u8d44\u6e90\n\t\tkubectl apply --prune -f manifest.yaml -l app=nginx\n\n\t\t# \u5e94\u7528 manifest.yaml \u7684\u914d\u7f6e\u5e76\u5220\u9664\u6240\u6709\u4e0d\u5728\u8fd9\u4e2a\u6587\u4ef6\u4e2d\u7684 configmaps.\n\t\tkubectl apply --prune -f manifest.yaml --all --prune-whitelist=core/v1/ConfigMap\x00\n\t\t# \u81ea\u52a8\u5f39\u6027\u4f38\u7f29 deployment \"foo\", pods \u7684\u6570\u91cf\u5728 2 \u548c 10 \u4e4b\u95f4, \u76ee\u6807 CPU \u6307\u5b9a\u4e3a\u9ed8\u8ba4\u7684\u5f39\u6027\u4f38\u7f29\u7b56\u7565:\n\t\tkubectl autoscale deployment foo --min=2 --max=10\n\n\t\t# \u81ea\u52a8\u5f39\u6027\u4f38\u7f29 replication controller \"foo\", pods \u7684\u6570\u91cf\u5728 1 \u548c 5 \u4e4b\u95f4, \u76ee\u6807 CPU \u5229\u7528\u7387\u4e3a 80%:\n\t\tkubectl autoscale rc foo --max=5 --cpu-percent=80\x00\n\t\t# \u5c06\u2019pod.yaml' \u8f6c\u6362\u4e3a\u6700\u65b0\u7248\u672c\u5e76\u6253\u5370\u5230 stdout.\n\t\tkubectl convert -f pod.yaml\n\n\t\t# \u5c06 \u2018pod.yaml' \u6307\u5b9a\u7684\u8d44\u6e90\u7684\u5b9e\u65f6\u72b6\u6001\u8f6c\u6362\u4e3a\u6700\u65b0\u7248\u672c\n\t\t# \u5e76\u4ee5 json \u683c\u5f0f\u6253\u5370\u5230 stdout.\n\t\tkubectl convert -f pod.yaml --local -o json\n\n\t\t# \u5c06\u5f53\u524d\u76ee\u5f55\u4e0b\u7684\u6240\u4ee5\u6587\u4ef6\u8f6c\u6362\u4e3a\u6700\u65b0\u7248\u672c\u5e76\u521b\u5efa\u5b83\u4eec.\n\t\tkubectl convert -f . | kubectl create -f -\x00\n\t\t# \u521b\u5efa\u4e00\u4e2a\u540d\u4e3a \"pod-reader\" \u7684 ClusterRole, \u5141\u8bb8\u7528\u6237\u5728 pods \u4e0a\u6267\u884c \u201cget\", \"watch\" \u548c \"list\"\n\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --resource=pods\n\n\t\t# \u521b\u5efa\u4e00\u4e2a\u540d\u4e3a \"pod-reader\" ClusterRole, \u5176\u4e2d\u6307\u5b9a\u4e86 ResourceName\n\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --resource=pods --resource-name=readablepod\x00\n\t\t# \u521b\u5efa\u4e00\u4e2a\u540d\u4e3a my-quota \u7684 resourcequota\n\t\tkubectl create quota my-quota --hard=cpu=1,memory=1G,pods=2,services=3,replicationcontrollers=2,resourcequotas=1,secrets=5,persistentvolumeclaims=10\n\n\t\t# \u521b\u5efa\u4e00\u4e2a\u540d\u4e3a best-effort \u7684 resourcequota\n\t\tkubectl create quota best-effort --hard=pods=100 --scopes=BestEffort\x00\n\t\t# \u521b\u5efa\u4e00\u4e2a\u540d\u79f0\u4e3a my-pdb \u7684 pod disruption budget \u5e76\u5c06\u4f1a\u9009\u62e9\u6240\u6709 app=rails \u6807\u7b7e\u7684 pods\n\t\t# \u5e76\u8981\u6c42\u4ed6\u4eec\u5728\u540c\u4e00\u65f6\u95f4\u4e2d\u6700\u5c11\u6709\u4e00\u4e2a\u53ef\u7528. \n\t\tkubectl create poddisruptionbudget my-pdb --selector=app=rails --min-available=1\n\n\t\t# \u521b\u5efa\u4e00\u4e2a\u540d\u79f0\u4e3a my-pdb \u7684 pod disruption budget \u5e76\u5c06\u4f1a\u9009\u62e9\u6240\u6709 app=rails \u6807\u7b7e\u7684 pods\n\t\t# \u5e76\u8981\u6c42\u4ed6\u4eec\u5728\u540c\u4e00\u65f6\u95f4\u4e2d\u6700\u5c11\u6709\u4e00\u534a\u53ef\u7528.\n\t\tkubectl create pdb my-pdb --selector=app=nginx --min-available=50%\x00\n\t\t# \u4f7f\u7528\u5728 pod.json \u7684 \u6570\u636e\u521b\u5efa\u4e00\u4e2a pod.\n\t\tkubectl create -f ./pod.json\n\n\t\t# \u6839\u636e\u4f20\u5165 stdin \u7684 JSON \u521b\u5efa\u4e00\u4e2a pod.\n\t\tcat pod.json | kubectl create -f -\n\n\t\t# \u4f7f\u7528 v1 API \u683c\u5f0f\u5728 JSON \u4e2d\u7f16\u8f91\u5728 docker-registry.yaml \u4e2d\u7684\u6570\u636e\u7136\u540e\u4f7f\u7528\u88ab\u7f16\u8f91\u540e\u7684\u6570\u636e\u521b\u5efa\u8d44\u6e90.\n\t\tkubectl create -f docker-registry.yaml --edit --output-version=v1 -o json\x00\n\t\t# \u4e3a\u4e00\u4e2a replicated nginx \u521b\u5efa\u4e00\u4e2a service, \u670d\u52a1\u5728\u7aef\u53e3 80 \u5e76\u8fde\u63a5\u5230 containers \u76848000\u7aef\u53e3.\n\t\tkubectl expose rc nginx --port=80 --target-port=8000\n\n\t\t# \u4f7f\u7528\u5728 \"nginx-controller.yaml\\ \u4e2d\u6307\u5b9a\u7684 type \u548c name \u4e3a\u4e00\u4e2areplication controller \u521b\u5efa\u4e00\u4e2a service, \u670d\u52a1\u5728\u7aef\u53e3 80 \u5e76\u8fde\u63a5\u5230 containers \u76848000\u7aef\u53e3.\n\t\tkubectl expose -f nginx-controller.yaml --port=80 --target-port=8000\n\n\t\t# \u4e3a\u540d\u4e3a valid-pod \u7684 pod \u521b\u5efa\u4e00\u4e2a service, \u670d\u52a1\u5728\u7aef\u53e3 444 \u5e76\u547d\u540d\u4e3a \"frontend\" \n\t\tkubectl expose pod valid-pod --port=444 --name=frontend\n\n\t\t# \u57fa\u4e8e\u4e0a\u9762\u7684 service \u521b\u5efa\u7b2c\u4e8c\u4e2a service, \u66b4\u9732\u5bb9\u5668\u7aef\u53e3 8443 \u5e76\u547d\u540d\u4e3a \"nginx-https\" \u7aef\u53e3\u4e3a 443 \n\t\tkubectl expose service nginx --port=443 --target-port=8443 --name=nginx-https\n\n\t\t# \u4e3a\u4e00\u4e2a\u540d\u79f0\u4e3a streaming \u7684\u5e94\u7528\u521b\u5efa\u4e00\u4e2a service \u66b4\u9732\u7aef\u53e3 4100, \u534f\u8bae\u4e3a UDP \u540d\u79f0\u4e3a 'video-stream'.\n\t\tkubectl expose rc streamer --port=4100 --protocol=udp --name=video-stream\n\n\t\t# \u4e3a\u4e00\u4e2a\u540d\u79f0\u4e3a nginx \u7684 replica set \u521b\u5efa\u4e00\u4e2a service, \u670d\u52a1\u5728 \u7aef\u53e3 80 \u4e14\u8fde\u63a5\u5230\u5bb9\u5668\u7aef\u53e3 8000.\n\t\tkubectl expose rs nginx --port=80 --target-port=8000\n\n\t\t# \u4e3a\u4e00\u4e2a\u540d\u79f0\u4e3a nginx \u7684 deployment \u521b\u5efa\u4e00\u4e2a service, \u670d\u52a1\u5728\u7aef\u53e3 80 \u4e14 \u8fde\u63a5\u5230 containers \u7684 8000 \u7aef\u53e3.\n\t\tkubectl expose deployment nginx --port=80 --target-port=8000\x00\n\t\t# \u4f7f\u7528 pod.json \u4e2d\u7684\u7c7b\u578b\u548c\u540d\u79f0\u5220\u9664\u4e00\u4e2a pod.\n\t\tkubectl delete -f ./pod.json\n\n\t\t# \u57fa\u4e8e\u91cd\u5b9a\u5411\u5230 stdin \u4e2d\u7684 JSON \u7684\u7c7b\u578b\u548c\u540d\u79f0\u5220\u9664\u4e00\u4e2a pod.\n\t\tcat pod.json | kubectl delete -f -\n\n\t\t# \u5220\u9664\u540d\u4e3a \"baz\" \u548c \"foo\" \u7684 pod \u548c service\n\t\tkubectl delete pod,service baz foo\n\n\t\t# \u5220\u9664\u6807\u7b7e\u4e3a name=myLabel \u7684 pods \u548c services.\n\t\tkubectl delete pods,services -l name=myLabel\n\n\t\t# \u5220\u9664\u6700\u5c0f\u5ef6\u8fdf\u7684 pod\n\t\tkubectl delete pod foo --now\n\n\t\t# \u5f3a\u5236\u5220\u9664\u540d\u4e3a foo \u7684 pod\n\t\tkubectl delete pod foo --grace-period=0 --force\n\n\t\t# \u5220\u9664\u6240\u6709 pods\n\t\tkubectl delete pods --all\x00\n\t\t# \u63cf\u8ff0\u4e00\u4e2a node\n\t\tkubectl describe nodes kubernetes-node-emt8.c.myproject.internal\n\n\t\t# \u63cf\u8ff0\u4e00\u4e2a pod\n\t\tkubectl describe pods/nginx\n\n\t\t# \u63cf\u8ff0\u4e00\u4e2a\u88ab \"pod.json\" \u4e2d\u7684\u7c7b\u578b\u548c\u540d\u79f0\u6807\u8bc6\u7684 pod\n\t\tkubectl describe -f pod.json\n\n\t\t# \u63cf\u8ff0\u6240\u6709 pods\n\t\tkubectl describe pods\n\n\t\t# \u63cf\u8ff0\u6807\u7b7e\u4e3a name=myLabel \u7684 pods\n\t\tkubectl describe po -l name=myLabel\n\n\t\t# \u63cf\u8ff0\u6240\u6709\u88ab\u540d\u79f0\u4e3a 'frontend' \u7684 replication controller \u7ba1\u7406\u7684 pods(rc-\u521b\u5efa pods\n\t\t# \u5e76\u4f7f\u7528 rc \u7684\u540d\u79f0\u4f5c\u4e3a pod \u7684\u524d\u7f00).\n\t\tkubectl describe pods frontend\x00\n\t\t# \u9a71\u9010\u8282\u70b9 \"foo\", \u5373\u4f7f\u5f88\u591a pods \u6ca1\u6709\u88ab\u4e00\u4e2a\u5728 node \u4e0a\u7684 ReplicationController, ReplicaSet, Job, DaemonSet \u6216\u8005 StatefulSet \u7ba1\u7406.\n\t\t$ kubectl drain foo --force\n\n\t\t# \u540c\u4e0a, \u5982\u679c\u5b58\u5728 pods \u6ca1\u6709\u88ab\u4e00\u4e2a ReplicationController, ReplicaSet, Job, DaemonSet \u6216\u8005 StatefulSet \u7ba1\u7406\u8d85\u8fc7 15 \u5206\u949f\u5219\u9000\u51fa.\n\t\t$ kubectl drain foo --grace-period=900\x00\n\t\t# \u7f16\u8f91\u540d\u4e3a 'docker-registry' \u7684 service:\n\t\tkubectl edit svc/docker-registry\n\n\t\t# \u4f7f\u7528\u4e00\u4e2a\u53ef\u9009\u62e9\u7684\u7f16\u8f91\u5668\n\t\tKUBE_EDITOR=\"nano\" kubectl edit svc/docker-registry\n\n\t\t# \u4f7f\u7528 v1 API \u683c\u5f0f\u7684 JSON \u7f16\u8f91\u540d\u4e3a 'myjob' \u7684 job:\n\t\tkubectl edit job.v1.batch/myjob -o json\n\n\t\t# \u5728 YAML \u4e2d\u7f16\u8f91\u540d\u4e3a 'mydeployment' \u7684 deployment \u5e76\u5728\u5b83\u7684\u6ce8\u89e3\u4e2d\u4fdd\u5b58\u4fee\u6539\u540e\u7684\u914d\u7f6e:\n\t\tkubectl edit deployment/mydeployment -o yaml --save-config\x00\n\t\t# \u4ece\u8fd0\u884c\u4e2dpod 123456-7890 \u83b7\u53d6\u6267\u884c 'date' \u7684\u8f93\u51fa, \u9ed8\u8ba4\u4f7f\u7528\u7b2c\u4e00\u4e2a\u5bb9\u5668\n\t\tkubectl exec 123456-7890 date\n\n\t\t# \u4ece pod 123456-7890 \u7684\u5bb9\u5668 ruby-container \u83b7\u53d6\u6267\u884c 'date' \u7684\u8f93\u51fa\n\t\tkubectl exec 123456-7890 -c ruby-container date\n\n\t\t# \u5207\u6362\u5230 terminal \u6a21\u5f0f, \u53d1\u9001 stdin \u5230\u8fd0\u884c\u5728 pod 123456-7890 \u7684\u5bb9\u5668 ruby-container 'bash' \n\t\t# \u5e76\u4ece 'bash' \u53d1\u9001 stdout/stderr \u8fd4\u56de\u5230 client\n\t\tkubectl exec 123456-7890 -c ruby-container -i -t -- bash -il\x00\n\t\t# \u4ece\u8fd0\u884c\u4e2dpod 123456-7890 \u83b7\u53d6\u6267\u884c 'date' \u7684\u8f93\u51fa, \u9ed8\u8ba4\u4f7f\u7528\u7b2c\u4e00\u4e2a\u5bb9\u5668\n\t\tkubectl attach 123456-7890\n\n\t\t# \u4ece pod 123456-7890 \u7684\u5bb9\u5668 ruby-container \u83b7\u53d6\u8f93\u51fa\n\t\tkubectl attach 123456-7890 -c ruby-container\n\n\t\t# \u5207\u6362\u5230 terminal \u6a21\u5f0f, \u53d1\u9001 stdin \u5230\u8fd0\u884c\u5728 pod 123456-7890 \u7684\u5bb9\u5668 ruby-container 'bash' \n\t\t# \u5e76\u4ece 'bash' \u53d1\u9001 stdout/stderr \u8fd4\u56de\u5230 client\n\t\tkubectl attach 123456-7890 -c ruby-container -i -t\n\n\t\t# \u4ece\u540d\u79f0\u4e3a nginx \u7684 ReplicaSet \u83b7\u53d6\u7b2c\u4e00\u4e2a pod \u7684\u8f93\u51fa\n\t\tkubectl attach rs/nginx\n\t\t\x00\n\t\t# \u83b7\u53d6\u8d44\u6e90\u53ca\u5176\u5b57\u6bb5\u7684\u6587\u6863\n\t\tkubectl explain pods\n\n\t\t# \u83b7\u53d6\u8d44\u6e90\u6307\u5b9a\u5b57\u6bb5\u7684\u6587\u6863\n\t\tkubectl explain pods.spec.containers\x00\n\t\t# \u5728\u4e00\u4e2a Mac \u4e2d\u4f7f\u7528 homebrew \u5b89\u88c5 bash \u8865\u5168\n\t\tbrew install bash-completion\n\t\tprintf \"\n# Bash \u8865\u5168\u652f\u6301\nsource $(brew --prefix)/etc/bash_completion\n\" >> $HOME/.bash_profile\n\t\tsource $HOME/.bash_profile\n\n\t\t# \u5bfc\u5165 kubectl \u8865\u5168\u4ee3\u7801\u5230\u5f53\u524d shell\n\t\tsource <(kubectl completion bash)\n\n\t\t# \u5199\u5165 bash \u8865\u5168\u4ee3\u7801\u5230\u4e00\u4e2a\u6587\u4ef6\u5e76 source \u5982\u679c\u5b83\u662f .bash_profile\n\t\tkubectl completion bash > ~/.kube/completion.bash.inc\n\t\tprintf \"\n# Kubectl shell \u8865\u5168\nsource '$HOME/.kube/completion.bash.inc'\n\" >> $HOME/.bash_profile\n\t\tsource $HOME/.bash_profile\n\n\t\t# \u4e3a zsh[1] \u5bfc\u5165 kubectl \u8865\u5168\u4ee3\u7801\u5230\u5f53\u524d shell\n\t\tsource <(kubectl completion zsh)\x00\n\t\t# \u4ee5 ps \u8f93\u51fa\u683c\u5f0f\u5217\u51fa\u6240\u6709 pod.\n\t\tkubectl get pods\n\n\t\t# \u4ee5 ps \u8f93\u51fa\u683c\u5f0f\u5217\u51fa\u6240\u6709 pod(\u5982\u8282\u70b9\u540d\u79f0).\n\t\tkubectl get pods -o wide\n\n\t\t# \u83b7\u53d6\u540d\u79f0\u4e3a web \u7684 replicationcontroller.\n\t\tkubectl get replicationcontroller web\n\n\t\t# \u4f7f\u7528 JSON \u683c\u5f0f\u5316\u8f93\u51fa\u663e\u793a\u4e00\u4e2a\u5355\u72ec\u7684 pod.\n\t\tkubectl get -o json pod web-pod-13je7\n\n\t\t# \u663e\u793a\u4e00\u4e2a\u88ab \"pod.yaml\" \u4e2d\u7684 type \u548c name \u6807\u8bc6\u7684 pod \u5e76\u4f7f\u7528 JSON \u683c\u5f0f\u5316\u8f93\u51fa.\n\t\tkubectl get -f pod.yaml -o json\n\n\t\t# \u53ea\u8fd4\u56de\u88ab\u6307\u5b9a pod \u4e2d phase \u7684\u503c.\n\t\tkubectl get -o template pod/web-pod-13je7 --template={{.status.phase}}\n\n\t\t# \u663e\u793a\u6240\u6709\u7684 replication controllers \u548c services \u5e76\u683c\u5f0f\u5316\u8f93\u51fa.\n\t\tkubectl get rc,services\n\n\t\t# \u663e\u793a\u4e00\u4e2a\u6216\u8005\u66f4\u591a resources \u901a\u8fc7\u5b83\u4eec\u7684 type \u548c names.\n\t\tkubectl get rc/web service/frontend pods/web-pod-13je7\n\n\t\t# \u4f7f\u7528\u4e0d\u540c\u7684 types \u663e\u793a\u6240\u6709 resources.\n\t\tkubectl get all\x00\n\t\t# \u5728\u672c\u5730\u76d1\u542c\u7aef\u53e3 5000 \u548c 6000 , forwarding \u6570\u636e to/from \u5728 pod 5000 \u548c 6000 \u7aef\u53e3\n\t\tkubectl port-forward mypod 5000 6000\n\n\t\t# \u5728\u672c\u5730\u76d1\u542c\u7aef\u53e3 8888 , forwarding \u5230 pod \u7684 5000\u7aef\u53e3\n\t\tkubectl port-forward mypod 8888:5000\n\n\t\t# \u5728\u672c\u5730\u968f\u673a\u76d1\u542c\u4e00\u4e2a\u7aef\u53e3 , forwarding \u5230 pod \u7684 5000\u7aef\u53e3\n\t\tkubectl port-forward mypod :5000\n\n\t\t# \u5728\u672c\u5730\u968f\u673a\u76d1\u542c\u4e00\u4e2a\u7aef\u53e3 , forwarding \u5230 pod \u7684 5000\u7aef\u53e3\n\t\tkubectl port-forward mypod 0:5000\x00\n\t\t# \u6807\u8bb0 node \"foo\" \u4e3a schedulable.\n\t\t$ kubectl uncordon foo\x00\n\t\t# \u6807\u8bb0 node \"foo\" \u4e3a unschedulable.\n\t\tkubectl cordon foo\x00\n\t\t# \u4f7f\u7528 strategic merge patch \u90e8\u5206\u66f4\u65b0\u4e00\u4e2a node\n\t\tkubectl patch node k8s-node-1 -p '{\"spec\":{\"unschedulable\":true}}'\n\n\t\t# \u4f7f\u7528 strategic merge patch \u90e8\u5206\u66f4\u65b0\u4e00\u4e2a\u88ab \"node.json\" \u7684 type \u548c name \u6807\u793a \u7684 node.\n\t\tkubectl patch -f node.json -p '{\"spec\":{\"unschedulable\":true}}'\n\n\t\t# \u66f4\u65b0\u4e00\u4e2a container \u7684 image; spec.containers[*].name \u662f\u5fc5\u987b\u7684 \u56e0\u4e3a\u5b83\u662f\u4e00\u4e2a merge key\n\t\tkubectl patch pod valid-pod -p '{\"spec\":{\"containers\":[{\"name\":\"kubernetes-serve-hostname\",\"image\":\"new image\"}]}}'\n\n\t\t# \u4f7f\u7528\u4e00\u4e2a json patch \u66f4\u65b0\u4e00\u4e2a\u6307\u5b9a\u5750\u6807\u7684 container \u7684 image \n\t\tkubectl patch pod valid-pod --type='json' -p='[{\"op\": \"replace\", \"path\": \"/spec/containers/0/image\", \"value\":\"new image\"}]'\x00\n\t\t# \u8f93\u51fa\u6240\u6709\u547d\u4ee4\u7ee7\u627f\u7684 flags\n\t\tkubectl options\x00\n\t\t# \u8f93\u51fa master \u548c cluster services \u7684\u5730\u5740\n\t\tkubectl cluster-info\x00\n\t\t# \u8f93\u51fa\u5f53\u524d client \u548c server \u7248\u672c\n\t\tkubectl version\x00\n\t\t# \u8f93\u51fa\u652f\u6301\u7684 API \u7248\u672c\n\t\tkubectl api-versions\x00\n\t\t# \u4f7f\u7528\u5728 pod.json \u4e2d\u7684\u6570\u636e\u66ff\u6362\u4e00\u4e2a pod.\n\t\tkubectl replace -f ./pod.json\n\n\t\t# \u57fa\u4e8e\u88ab\u91cd\u5b9a\u5411\u5230 stdin \u4e2d\u7684 JSON \u66ff\u6362\u4e00\u4e2a pod.\n\t\tcat pod.json | kubectl replace -f -\n\n\t\t# \u66f4\u65b0\u4e00\u4e2a\u5355\u72ec\u5bb9\u5668\u7684 pod \u7684 image \u7248\u672c (tag) \u5230 v4\n\t\tkubectl get pod mypod -o yaml | sed 's/\\(image: myimage\\):.*$/\x01:v4/' | kubectl replace -f -\n\n\t\t# \u5f3a\u5236\u66ff\u6362, \u5220\u9664\u7136\u540e\u91cd\u65b0\u521b\u5efa\u8fd9\u4e2a resource\n\t\tkubectl replace --force -f ./pod.json\x00\n\t\t# \u8fd4\u56de\u4ec5\u6709\u4e00\u4e2a\u5bb9\u5668 pod \u540d\u79f0\u4e3a nginx \u7684 snapshot \u65e5\u5fd7\n\t\tkubectl logs nginx\n\n\t\t# \u8fd4\u56de label \u4e3a app=nginx \u7684 pods \u7684 snapshot \u65e5\u5fd7\n\t\tkubectl logs -lapp=nginx\n\n\t\t# Return snapshot of previous terminated ruby container logs from pod web-1\n\t\tkubectl logs -p -c ruby web-1\n\n\t\t# Begin streaming the logs of the ruby container in pod web-1\n\t\tkubectl logs -f -c ruby web-1\n\n\t\t# Display only the most recent 20 lines of output in pod nginx\n\t\tkubectl logs --tail=20 nginx\n\n\t\t# Show all logs from pod nginx written in the last hour\n\t\tkubectl logs --since=1h nginx\n\n\t\t# Return snapshot logs from first container of a job named hello\n\t\tkubectl logs job/hello\n\n\t\t# Return snapshot logs from container nginx-1 of a deployment named nginx\n\t\tkubectl logs deployment/nginx -c nginx-1\x00\n\t\t# \u8fd0\u884c proxy \u5230 kubernetes apiserver \u7684 8011 \u7aef\u53e3\u4e0a, \u670d\u52a1\u9759\u6001\u5185\u5bb9\u8def\u5f84\u4e3a ./local/www/\n\t\tkubectl proxy --port=8011 --www=./local/www/\n\n\t\t# \u5728\u4efb\u610f\u7684\u672c\u5730\u7aef\u53e3\u4e0a\u8fd0\u884c\u4e00\u4e2a proxy \u5230 kubernetes apiserver.\n\t\t# \u4e3a\u8fd9\u4e2a server \u6311\u9009\u7684\u7aef\u53e3\u5c06\u4f1a\u88ab\u8f93\u51fa\u5230 stdout.\n\t\tkubectl proxy --port=0\n\n\t\t# \u8fd0\u884c\u4e00\u4e2a proxy \u5230 kubernetes apiserver, \u4fee\u6539 api prefix \u4e3a k8s-api\n\t\t# \u8fd9\u4f1a\u4f7f e.g. \u8fd9\u4e2a pods \u7684\u6709\u6548 api \u4e3a localhost:8001/k8s-api/v1/pods/\n\t\tkubectl proxy --api-prefix=/k8s-api\x00\n\t\t# Scale \u4e00\u4e2a\u540d\u79f0\u4e3a \u2018foo\u2019 \u7684 replicaset \u670d\u672c\u6570\u4e3a 3.\n\t\tkubectl scale --replicas=3 rs/foo\n\n\t\t# Scale \u6307\u5b9a\u7684 \"foo.yaml\" \u7684 type \u548c name \u6807\u8bc6\u7684 resource \u526f\u672c\u6570\u91cf\u4e3a 3.\n\t\tkubectl scale --replicas=3 -f foo.yaml\n\n\t\t# \u5982\u679c\u540d\u79f0\u4e3a mysql \u7684 deployment \u5f53\u524d\u526f\u672c\u6570\u91cf\u4e3a 2, scale mysql \u5230 3.\n\t\tkubectl scale --current-replicas=2 --replicas=3 deployment/mysql\n\n\t\t# Scale \u591a\u4e2a replication controllers.\n\t\tkubectl scale --replicas=5 rc/foo rc/bar rc/baz\n\n\t\t# Scale \u540d\u79f0\u4e3a \u2019cron\u2019 \u7684 job \u526f\u672c\u6570\u91cf\u4e3a 3.\n\t\tkubectl scale --replicas=3 job/cron\x00\n\t\t# \u8bbe\u7f6e\u4e00\u4e2a\u8d44\u6e90\u7684 last-applied-configuration \u53bb\u5339\u914d\u4e00\u4e2a\u6587\u4ef6\u7684\u5185\u5bb9.\n\t\tkubectl apply set-last-applied -f deploy.yaml\n\n\t\t# Execute set-last-applied against each configuration file in a directory.\n\t\tkubectl apply set-last-applied -f path/\n\n\t\t# \u8bbe\u7f6e\u4e00\u4e2a\u8d44\u6e90\u7684 last-applied-configuration \u53bb\u5339\u914d\u4e00\u4e2a\u6587\u4ef6\u7684\u5185\u5bb9, \u5982\u679c\u4e0d\u5b58\u5728\u5c06\u4f1a\u521b\u5efa\u4e00\u4e2a annotation.\n\t\tkubectl apply set-last-applied -f deploy.yaml --create-annotation=true\n\t\t\x00\n\t\t# \u663e\u793a default namespace \u4e0b\u6240\u6709 pods \u4e0b\u7684 metrics\n\t\tkubectl top pod\n\n\t\t# \u663e\u793a\u6307\u5b9a namespace \u4e0b\u6240\u6709 pods \u7684 metrics\n\t\tkubectl top pod --namespace=NAMESPACE\n\n\t\t# \u663e\u793a\u6307\u5b9a pod \u548c\u5b83\u7684\u5bb9\u5668\u7684 metrics\n\t\tkubectl top pod POD_NAME --containers\n\n\t\t# \u663e\u793a\u6307\u5b9a label \u4e3a name=myLabel \u7684 pods \u7684 metrics\n\t\tkubectl top pod -l name=myLabel\x00\n\t\t# Shut down foo.\n\t\tkubectl stop replicationcontroller foo\n\n\t\t# Stop pods and services with label name=myLabel.\n\t\tkubectl stop pods,services -l name=myLabel\n\n\t\t# Shut down the service defined in service.json\n\t\tkubectl stop -f service.json\n\n\t\t# Shut down all resources in the path/to/resources directory\n\t\tkubectl stop -f path/to/resources\x00\n\t\t# Start a single instance of nginx.\n\t\tkubectl run nginx --image=nginx\n\n\t\t# Start a single instance of hazelcast and let the container expose port 5701 .\n\t\tkubectl run hazelcast --image=hazelcast --port=5701\n\n\t\t# Start a single instance of hazelcast and set environment variables \"DNS_DOMAIN=cluster\" and \"POD_NAMESPACE=default\" in the container.\n\t\tkubectl run hazelcast --image=hazelcast --env=\"DNS_DOMAIN=cluster\" --env=\"POD_NAMESPACE=default\"\n\n\t\t# Start a replicated instance of nginx.\n\t\tkubectl run nginx --image=nginx --replicas=5\n\n\t\t# Dry run. Print the corresponding API objects without creating them.\n\t\tkubectl run nginx --image=nginx --dry-run\n\n\t\t# Start a single instance of nginx, but overload the spec of the deployment with a partial set of values parsed from JSON.\n\t\tkubectl run nginx --image=nginx --overrides='{ \"apiVersion\": \"v1\", \"spec\": { ... } }'\n\n\t\t# Start a pod of busybox and keep it in the foreground, don't restart it if it exits.\n\t\tkubectl run -i -t busybox --image=busybox --restart=Never\n\n\t\t# Start the nginx container using the default command, but use custom arguments (arg1 .. argN) for that command.\n\t\tkubectl run nginx --image=nginx -- ... \n\n\t\t# Start the nginx container using a different command and custom arguments.\n\t\tkubectl run nginx --image=nginx --command -- ... \n\n\t\t# Start the perl container to compute \u03c0 to 2000 places and print it out.\n\t\tkubectl run pi --image=perl --restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'\n\n\t\t# Start the cron job to compute \u03c0 to 2000 places and print it out every 5 minutes.\n\t\tkubectl run pi --schedule=\"0/5 * * * ?\" --image=perl --restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'\x00\n\t\t# Update node 'foo' with a taint with key 'dedicated' and value 'special-user' and effect 'NoSchedule'.\n\t\t# If a taint with that key and effect already exists, its value is replaced as specified.\n\t\tkubectl taint nodes foo dedicated=special-user:NoSchedule\n\n\t\t# Remove from node 'foo' the taint with key 'dedicated' and effect 'NoSchedule' if one exists.\n\t\tkubectl taint nodes foo dedicated:NoSchedule-\n\n\t\t# Remove from node 'foo' all the taints with key 'dedicated'\n\t\tkubectl taint nodes foo dedicated-\x00\n\t\t# Update pod 'foo' with the label 'unhealthy' and the value 'true'.\n\t\tkubectl label pods foo unhealthy=true\n\n\t\t# Update pod 'foo' with the label 'status' and the value 'unhealthy', overwriting any existing value.\n\t\tkubectl label --overwrite pods foo status=unhealthy\n\n\t\t# Update all pods in the namespace\n\t\tkubectl label pods --all status=unhealthy\n\n\t\t# Update a pod identified by the type and name in \"pod.json\"\n\t\tkubectl label -f pod.json status=unhealthy\n\n\t\t# Update pod 'foo' only if the resource is unchanged from version 1.\n\t\tkubectl label pods foo status=unhealthy --resource-version=1\n\n\t\t# Update pod 'foo' by removing a label named 'bar' if it exists.\n\t\t# Does not require the --overwrite flag.\n\t\tkubectl label pods foo bar-\x00\n\t\t# Update pods of frontend-v1 using new replication controller data in frontend-v2.json.\n\t\tkubectl rolling-update frontend-v1 -f frontend-v2.json\n\n\t\t# Update pods of frontend-v1 using JSON data passed into stdin.\n\t\tcat frontend-v2.json | kubectl rolling-update frontend-v1 -f -\n\n\t\t# Update the pods of frontend-v1 to frontend-v2 by just changing the image, and switching the\n\t\t# name of the replication controller.\n\t\tkubectl rolling-update frontend-v1 frontend-v2 --image=image:v2\n\n\t\t# Update the pods of frontend by just changing the image, and keeping the old name.\n\t\tkubectl rolling-update frontend --image=image:v2\n\n\t\t# Abort and reverse an existing rollout in progress (from frontend-v1 to frontend-v2).\n\t\tkubectl rolling-update frontend-v1 frontend-v2 --rollback\x00\n\t\t# View the last-applied-configuration annotations by type/name in YAML.\n\t\tkubectl apply view-last-applied deployment/nginx\n\n\t\t# View the last-applied-configuration annotations by file in JSON\n\t\tkubectl apply view-last-applied -f deploy.yaml -o json\x00\n\t\t\u901a\u8fc7\u6587\u4ef6\u540d\u6216\u6807\u51c6\u8f93\u5165\u6d41(stdin)\u5bf9\u8d44\u6e90\u8fdb\u884c\u914d\u7f6e.\n\t\tThis resource will be created if it doesn't exist yet.\n\t\tTo use 'apply', always create the resource initially with either 'apply' or 'create --save-config'.\n\n\t\tJSON and YAML formats are accepted.\n\n\t\tAlpha Disclaimer: the --prune functionality is not yet complete. Do not use unless you are aware of what the current state is. See https://issues.k8s.io/34274.\x00\n\t\t\u5728\u4e0d\u540c\u7684 API versions \u8f6c\u6362\u914d\u7f6e\u6587\u4ef6. \u63a5\u53d7 YAML\n\t\t\u548c JSON \u683c\u5f0f.\n\n\t\t\u8fd9\u4e2a\u547d\u4ee4\u4ee5 filename, directory, \u6216\u8005 URL \u4f5c\u4e3a\u8f93\u5165, \u5e76\u901a\u8fc7 \u2014output-version flag\n\t\t \u8f6c\u6362\u5230\u6307\u5b9a\u7248\u672c\u7684\u683c\u5f0f. \u5982\u679c\u76ee\u6807\u7248\u672c\u6ca1\u6709\u88ab\u6307\u5b9a\u6216\u8005\n\t\t\u4e0d\u652f\u6301, \u8f6c\u6362\u5230\u6700\u540e\u7684\u7248\u672c.\n\n\t\t\u9ed8\u8ba4\u4ee5 YAML \u683c\u5f0f\u8f93\u51fa\u5230 stdout. \u53ef\u4ee5\u4f7f\u7528 -o option\n\t\t\u4fee\u6539\u76ee\u6807\u8f93\u51fa\u7684\u683c\u5f0f.\x00\n\t\t\u521b\u5efa\u4e00\u4e2a ClusterRole.\x00\n\t\t \u4e3a\u6307\u5b9a\u7684 ClusterRole \u521b\u5efa\u4e00\u4e2a ClusterRoleBinding.\x00\n\t\t\u4e3a\u6307\u5b9a\u7684 Role \u6216\u8005 ClusterRole \u521b\u5efa\u4e00\u4e2a RoleBinding.\x00\n\t\t\u4e3a\u6307\u5b9a\u7684 public/private key pair \u521b\u5efa\u4e00\u4e2a TLS secret.\n\n\t\tpublic/private key pair \u5fc5\u987b\u5728\u4f20\u9012\u524d\u5b58\u5728. public key certificate \u5fc5\u987b\u4ee5 .PEM \u88ab\u7f16\u7801\u4e14\u5339\u914d\u6307\u5b9a\u7684 private key.\x00\n\t\tCreate a configmap based on a file, directory, or specified literal value.\n\n\t\tA single configmap may package one or more key/value pairs.\n\n\t\tWhen creating a configmap based on a file, the key will default to the basename of the file, and the value will\n\t\tdefault to the file content. If the basename is an invalid key, you may specify an alternate key.\n\n\t\tWhen creating a configmap based on a directory, each file whose basename is a valid key in the directory will be\n\t\tpackaged into the configmap. Any directory entries except regular files are ignored (e.g. subdirectories,\n\t\tsymlinks, devices, pipes, etc).\x00\n\t\t\u521b\u5efa\u4e00\u4e2a namespace \u5e76\u6307\u5b9a\u540d\u79f0.\x00\n\t\tCreate a new secret for use with Docker registries.\n\n\t\tDockercfg secrets are used to authenticate against Docker registries.\n\n\t\tWhen using the Docker command line to push images, you can authenticate to a given registry by running\n\n\t\t $ docker login DOCKER_REGISTRY_SERVER --username=DOCKER_USER --password=DOCKER_PASSWORD --email=DOCKER_EMAIL'.\n\n That produces a ~/.dockercfg file that is used by subsequent 'docker push' and 'docker pull' commands to\n\t\tauthenticate to the registry. The email address is optional.\n\n\t\tWhen creating applications, you may have a Docker registry that requires authentication. In order for the\n\t\tnodes to pull images on your behalf, they have to have the credentials. You can provide this information\n\t\tby creating a dockercfg secret and attaching it to your service account.\x00\n\t\tCreate a pod disruption budget with the specified name, selector, and desired minimum available pods\x00\n\t\t\u901a\u8fc7\u6587\u4ef6\u540d\u6216\u8005\u6807\u51c6\u8f93\u5165\u6d41(stdin)\u521b\u5efa\u4e00\u4e2a\u8d44\u6e90.\n\n\t\tJSON and YAML formats are accepted.\x00\n\t\tCreate a resourcequota with the specified name, hard limits and optional scopes\x00\n\t\t\u521b\u5efa\u5355\u4e00 rule \u7684 role.\x00\n\t\tCreate a secret based on a file, directory, or specified literal value.\n\n\t\tA single secret may package one or more key/value pairs.\n\n\t\tWhen creating a secret based on a file, the key will default to the basename of the file, and the value will\n\t\tdefault to the file content. If the basename is an invalid key, you may specify an alternate key.\n\n\t\tWhen creating a secret based on a directory, each file whose basename is a valid key in the directory will be\n\t\tpackaged into the secret. Any directory entries except regular files are ignored (e.g. subdirectories,\n\t\tsymlinks, devices, pipes, etc).\x00\n\t\t\u521b\u5efa\u4e00\u4e2a\u6307\u5b9a\u540d\u79f0\u7684 service account.\x00\n\t\tCreate and run a particular image, possibly replicated.\n\n\t\tCreates a deployment or job to manage the created container(s).\x00\n\t\tCreates an autoscaler that automatically chooses and sets the number of pods that run in a kubernetes cluster.\n\n\t\tLooks up a Deployment, ReplicaSet, or ReplicationController by name and creates an autoscaler that uses the given resource as a reference.\n\t\tAn autoscaler can automatically increase or decrease number of pods deployed within the system as needed.\x00\n\t\tDelete resources by filenames, stdin, resources and names, or by resources and label selector.\n\n\t\tJSON and YAML formats are accepted. Only one type of the arguments may be specified: filenames,\n\t\tresources and names, or resources and label selector.\n\n\t\tSome resources, such as pods, support graceful deletion. These resources define a default period\n\t\tbefore they are forcibly terminated (the grace period) but you may override that value with\n\t\tthe --grace-period flag, or pass --now to set a grace-period of 1. Because these resources often\n\t\trepresent entities in the cluster, deletion may not be acknowledged immediately. If the node\n\t\thosting a pod is down or cannot reach the API server, termination may take significantly longer\n\t\tthan the grace period. To force delete a resource,\tyou must pass a grace\tperiod of 0 and specify\n\t\tthe --force flag.\n\n\t\tIMPORTANT: Force deleting pods does not wait for confirmation that the pod's processes have been\n\t\tterminated, which can leave those processes running until the node detects the deletion and\n\t\tcompletes graceful deletion. If your processes use shared storage or talk to a remote API and\n\t\tdepend on the name of the pod to identify themselves, force deleting those pods may result in\n\t\tmultiple processes running on different machines using the same identification which may lead\n\t\tto data corruption or inconsistency. Only force delete pods when you are sure the pod is\n\t\tterminated, or if your application can tolerate multiple copies of the same pod running at once.\n\t\tAlso, if you force delete pods the scheduler may place new pods on those nodes before the node\n\t\thas released those resources and causing those pods to be evicted immediately.\n\n\t\tNote that the delete command does NOT do resource version checks, so if someone\n\t\tsubmits an update to a resource right when you submit a delete, their update\n\t\twill be lost along with the rest of the resource.\x00\n\t\tDeprecated: Gracefully shut down a resource by name or filename.\n\n\t\tThe stop command is deprecated, all its functionalities are covered by delete command.\n\t\tSee 'kubectl delete --help' for more details.\n\n\t\tAttempts to shut down and delete a resource that supports graceful termination.\n\t\tIf the resource is scalable it will be scaled to 0 before deletion.\x00\n\t\t\u663e\u793a node \u7684\u8d44\u6e90(CPU/Memory/Storage)\u4f7f\u7528.\n\n\t\tThe top-node command allows you to see the resource consumption of nodes.\x00\n\t\t\u663e\u793a pods \u8d44\u6e90(CPU/Memory/Storage)\u4f7f\u7528.\n\n\t\tThe 'top pod' command allows you to see the resource consumption of pods.\n\n\t\tDue to the metrics pipeline delay, they may be unavailable for a few minutes\n\t\tsince pod creation.\x00\n\t\t\u663e\u793a\u8d44\u6e90(CPU/Memory/Storage)\u4f7f\u7528.\n\n\t\tThe top command allows you to see the resource consumption for nodes or pods.\n\n\t\tThis command requires Heapster to be correctly configured and working on the server. \x00\n\t\t\u6e05\u7406\u8282\u70b9\u4e3a\u8282\u70b9\u7ef4\u62a4\u505a\u51c6\u5907.\n\n\t\tThe given node will be marked unschedulable to prevent new pods from arriving.\n\t\t'drain' evicts the pods if the APIServer supports eviction\n\t\t(http://kubernetes.io/docs/admin/disruptions/). Otherwise, it will use normal DELETE\n\t\tto delete the pods.\n\t\tThe 'drain' evicts or deletes all pods except mirror pods (which cannot be deleted through\n\t\tthe API server). If there are DaemonSet-managed pods, drain will not proceed\n\t\twithout --ignore-daemonsets, and regardless it will not delete any\n\t\tDaemonSet-managed pods, because those pods would be immediately replaced by the\n\t\tDaemonSet controller, which ignores unschedulable markings. If there are any\n\t\tpods that are neither mirror pods nor managed by ReplicationController,\n\t\tReplicaSet, DaemonSet, StatefulSet or Job, then drain will not delete any pods unless you\n\t\tuse --force. --force will also allow deletion to proceed if the managing resource of one\n\t\tor more pods is missing.\n\n\t\t'drain' waits for graceful termination. You should not operate on the machine until\n\t\tthe command completes.\n\n\t\tWhen you are ready to put the node back into service, use kubectl uncordon, which\n\t\twill make the node schedulable again.\n\n\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_drain.svg)\x00\n\t\t\u4f7f\u7528\u9ed8\u8ba4\u7684\u7f16\u8f91\u5668\u4fee\u6539\u8d44\u6e90.\n\n\t\tedit \u547d\u4ee4\u5141\u8bb8\u4f60\u901a\u8fc7\u547d\u4ee4\u884c\u76f4\u63a5\u4fee\u6539 API \u8d44\u6e90.\n\t\t\u5b83\u4f1a\u6253\u5f00\u4f60\u5728 KUBE_EDITOR \u6216\u8005EDITOR \u73af\u5883\u53d8\u91cf\u4e2d\u5b9a\u4e49\u7684\u7f16\u8f91\u5668\n\t\t\u6216\u8005\u56de\u6eda\u5230 Linux vi \u7f16\u8f91\u5668\u6216\u8005 Windows notepad.\n\t\t\u4f60\u53ef\u4ee5\u4fee\u6539\u591a\u4e2a\u5bf9\u8c61, \u867d\u7136\u6bcf\u6b21\u53ea\u80fd\u4fee\u6539\u4e00\u6b21. \u8fd9\u4e2a\u547d\u4ee4\n\t\t\u540c\u65f6\u4e5f\u63a5\u53d7\u6587\u4ef6\u540d\u4f5c\u4e3a\u547d\u4ee4\u884c\u53c2\u6570, \u5c3d\u7ba1\u8fd9\u4e9b\u6587\u4ef6\u4f60\u6307\u51fa\u5fc5\u987b\u662f\n\t\t\u4f60\u4e4b\u524d\u4fdd\u5b58\u7684\u8d44\u6e90\u7248\u672c.\n\n\t\tEditing \u662f\u901a\u8fc7\u7528\u4e8e\u83b7\u53d6\u8d44\u6e90\u7684API\u7248\u672c\u5b8c\u6210\u7684.\n\t\t\u4e3a\u4e86\u80fd\u901a\u8fc7\u6307\u5b9a\u7684 API \u7248\u672c\u4fee\u6539, \u8bf7\u5b8c\u5168\u9650\u5b9a resource, version \u548c group.\n\n\t\t\u9ed8\u8ba4\u662f YAML \u683c\u5f0f. \u60f3\u5728 JSON \u4e2d\u4fee\u6539, \u6307\u5b9a \"-o json\".\n\n\t\t--windows-line-endings \u547d\u4ee4\u884c\u53c2\u6570\u53ef\u4ee5\u7528\u6765\u5f3a\u5236\u4f7f\u7528 Windows line endings,\n\t\t\u5426\u5219\u4f1a\u4f7f\u7528\u4f60\u64cd\u4f5c\u7cfb\u7edf\u7684\u9ed8\u8ba4\u503c.\n\n\t\t\u5982\u679c\u66f4\u65b0\u65f6\u53d1\u751f\u9519\u8bef\uff0c\u5c06\u5728\u78c1\u76d8\u4e0a\u521b\u5efa\u4e00\u4e2a\u4e34\u65f6\u6587\u4ef6\n\t\t\u91cc\u9762\u5305\u542b\u60a8\u672a\u5e94\u7528\u7684\u66f4\u6539. \u66f4\u65b0\u8d44\u6e90\u65f6\u6700\u5e38\u89c1\u7684\u9519\u8bef\n\t\t\u662f\u53e6\u4e00\u4e2a\u7f16\u8f91\u5668\u4e5f\u5728\u670d\u52a1\u5668\u4e2d\u4fee\u6539\u8fd9\u4e2a\u8d44\u6e90. \u5f53\u53d1\u751f\u8fd9\u79cd\u60c5\u51b5\u65f6, \u4f60\u5c06\n\t\t\u9700\u8981\u5e94\u7528\u4f60\u7684\u4fee\u6539\u5230\u8d44\u6e90\u7684\u6700\u65b0\u7248\u672c, \u6216\u8005\u66f4\u65b0\u4f60\u88ab\u4fdd\u5b58\u7684\u4e34\u65f6\u6587\u4ef6\n\t\t\u590d\u5236\u5b83\u5e76\u4f7f\u7528\u6700\u65b0\u7684\u7248\u672c.\x00\n\t\t\u6807\u8bb0 node \u4e3a schedulable.\x00\n\t\t\u6807\u8bb0 node \u4e3a unschedulable.\x00\n\t\tOutput shell completion code for the specified shell (bash or zsh).\n\t\tThe shell code must be evaluated to provide interactive\n\t\tcompletion of kubectl commands. This can be done by sourcing it from\n\t\tthe .bash_profile.\n\n\t\tNote: this requires the bash-completion framework, which is not installed\n\t\tby default on Mac. This can be installed by using homebrew:\n\n\t\t $ brew install bash-completion\n\n\t\tOnce installed, bash_completion must be evaluated. This can be done by adding the\n\t\tfollowing line to the .bash_profile\n\n\t\t $ source $(brew --prefix)/etc/bash_completion\n\n\t\tNote for zsh users: [1] zsh completions are only supported in versions of zsh >= 5.2\x00\n\t\t\u5b8c\u6210\u6307\u5b9a\u7684 ReplicationController \u7684\u6eda\u52a8\u5347\u7ea7.\n\n\t\tReplaces the specified replication controller with a new replication controller by updating one pod at a time to use the\n\t\tnew PodTemplate. The new-controller.json must specify the same namespace as the\n\t\texisting replication controller and overwrite at least one (common) label in its replicaSelector.\n\n\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_rollingupdate.svg)\x00\n\t\tReplace a resource by filename or stdin.\n\n\t\tJSON and YAML formats are accepted. If replacing an existing resource, the\n\t\tcomplete resource spec must be provided. This can be obtained by\n\n\t\t $ kubectl get TYPE NAME -o yaml\n\n\t\tPlease refer to the models in https://htmlpreview.github.io/?https://github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions.html to find if a field is mutable.\x00\n\t\tSet a new size for a Deployment, ReplicaSet, Replication Controller, or Job.\n\n\t\tScale also allows users to specify one or more preconditions for the scale action.\n\n\t\tIf --current-replicas or --resource-version is specified, it is validated before the\n\t\tscale is attempted, and it is guaranteed that the precondition holds true when the\n\t\tscale is sent to the server.\x00\n\t\tSet the latest last-applied-configuration annotations by setting it to match the contents of a file.\n\t\tThis results in the last-applied-configuration being updated as though 'kubectl apply -f ' was run,\n\t\twithout updating any other parts of the object.\x00\n\t\tTo proxy all of the kubernetes api and nothing else, use:\n\n\t\t $ kubectl proxy --api-prefix=/\n\n\t\tTo proxy only part of the kubernetes api and also some static files:\n\n\t\t $ kubectl proxy --www=/my/files --www-prefix=/static/ --api-prefix=/api/\n\n\t\tThe above lets you 'curl localhost:8001/api/v1/pods'.\n\n\t\tTo proxy the entire kubernetes api at a different root, use:\n\n\t\t $ kubectl proxy --api-prefix=/custom/\n\n\t\tThe above lets you 'curl localhost:8001/custom/api/v1/pods'\x00\n\t\tUpdate field(s) of a resource using strategic merge patch\n\n\t\tJSON and YAML formats are accepted.\n\n\t\tPlease refer to the models in https://htmlpreview.github.io/?https://github.com/kubernetes/kubernetes/blob/HEAD/docs/api-reference/v1/definitions.html to find if a field is mutable.\x00\n\t\tUpdate the labels on a resource.\n\n\t\t* A label must begin with a letter or number, and may contain letters, numbers, hyphens, dots, and underscores, up to %[1]d characters.\n\t\t* If --overwrite is true, then existing labels can be overwritten, otherwise attempting to overwrite a label will result in an error.\n\t\t* If --resource-version is specified, then updates will use this resource version, otherwise the existing resource-version will be used.\x00\n\t\t\u66f4\u65b0\u4e00\u4e2a\u6216\u8005\u591a\u4e2a node \u4e0a\u7684 taints.\n\n\t\t* A taint consists of a key, value, and effect. As an argument here, it is expressed as key=value:effect.\n\t\t* The key must begin with a letter or number, and may contain letters, numbers, hyphens, dots, and underscores, up to %[1]d characters.\n\t\t* The value must begin with a letter or number, and may contain letters, numbers, hyphens, dots, and underscores, up to %[2]d characters.\n\t\t* The effect must be NoSchedule, PreferNoSchedule or NoExecute.\n\t\t* Currently taint can only apply to node.\x00\n\t\tView the latest last-applied-configuration annotations by type/name or file.\n\n\t\tThe default output will be printed to stdout in YAML format. One can use -o option\n\t\tto change output format.\x00\n\t # !!!\u6ce8\u610f!!!\n\t # \u8981\u6c42\u5bb9\u5668\u4e2d\u6709 'tar' \u547d\u4ee4\n\t # image. If 'tar' is not present, 'kubectl cp' will fail.\n\n\t # \u590d\u5236\u672c\u5730\u76ee\u5f55 /tmp/foo_dir \u5230 default namespace \u4e0b\u7684\u8fdc\u7a0b pod \u7684 /tmp/bar_dir \u8def\u5f84 \n\t\tkubectl cp /tmp/foo_dir :/tmp/bar_dir\n\n # \u590d\u5236 /tmp/foo local \u672c\u5730\u6587\u4ef6\u5230\u6307\u5b9a\u8fdc\u7a0b pod \u7684\u6307\u5b9a\u5bb9\u5668\u7684 /tmp/bar \u8def\u5f84\n\t\tkubectl cp /tmp/foo :/tmp/bar -c \n\n\t\t# \u590d\u5236 /tmp/foo \u672c\u5730\u6587\u4ef6\u5230\u5728 namespace \u4e0b\u7684\u67d0\u4e2a pod \u7684 /tmp/bar \u8def\u5f84\n\t\tkubectl cp /tmp/foo /:/tmp/bar\n\n\t\t# \u4ece\u4e00\u4e2a\u8fdc\u7a0b\u7684 pod \u7684 /tmp/foo \u8def\u5f84\u590d\u5236\u5230\u672c\u5730 /tmp/bar \u8def\u5f84\n\t\tkubectl cp /:/tmp/foo /tmp/bar\x00\n\t # \u4f7f\u7528\u63d0\u4f9b\u7684 key pair \u540d\u79f0\u4e3atls-secret \u7684 secret:\n\t kubectl create secret tls tls-secret --cert=path/to/tls.cert --key=path/to/tls.key\x00\n\t # \u521b\u5efa\u4e00\u4e2a\u540d\u79f0\u4e3a my-namespace \u7684 namespace\n\t kubectl create namespace my-namespace\x00\n\t # Create a new secret named my-secret with keys for each file in folder bar\n\t kubectl create secret generic my-secret --from-file=path/to/bar\n\n\t # Create a new secret named my-secret with specified keys instead of names on disk\n\t kubectl create secret generic my-secret --from-file=ssh-privatekey=~/.ssh/id_rsa --from-file=ssh-publickey=~/.ssh/id_rsa.pub\n\n\t # Create a new secret named my-secret with key1=supersecret and key2=topsecret\n\t kubectl create secret generic my-secret --from-literal=key1=supersecret --from-literal=key2=topsecret\x00\n\t # Create a new service account named my-service-account\n\t kubectl create serviceaccount my-service-account\x00\n\t# Create a new ExternalName service named my-ns \n\tkubectl create service externalname my-ns --external-name bar.com\x00\n\tCreate an ExternalName service with the specified name.\n\n\tExternalName service references to an external DNS address instead of\n\tonly pods, which will allow application authors to reference services\n\tthat exist off platform, on other clusters, or locally.\x00\n\tHelp provides help for any command in the application.\n\tSimply type kubectl help [path to command] for full details.\x00\n # \u521b\u5efa\u4e00\u4e2a\u540d\u79f0\u4e3a my-lbs \u7684 LoadBalancer service\n kubectl create service loadbalancer my-lbs --tcp=5678:8080\x00\n # \u521b\u5efa\u4e00\u4e2a\u540d\u79f0\u4e3a my-cs \u7684 clusterIP service\n kubectl create service clusterip my-cs --tcp=5678:8080\n\n # \u521b\u5efa\u4e00\u4e2a\u540d\u79f0\u4e3a my-cs \u7684 clusterIP service (\u5728 headless \u6a21\u5f0f)\n kubectl create service clusterip my-cs --clusterip=\"None\"\x00\n # \u521b\u5efa\u4e00\u4e2a\u540d\u79f0\u4e3a my-dep \u7684 deployment \u5e76\u8fd0\u884c busybox image.\n kubectl create deployment my-dep --image=busybox\x00\n # \u521b\u5efa\u4e00\u4e2a\u540d\u79f0\u4e3a my-ns \u7684 nodeport service\n kubectl create service nodeport my-ns --tcp=5678:8080\x00\n # \u5bfc\u51fa\u5f53\u524d\u7684\u96c6\u7fa4\u72b6\u6001\u4fe1\u606f\u5230 stdout\n kubectl cluster-info dump\n\n # \u5bfc\u51fa\u5f53\u524d\u7684\u96c6\u7fa4\u72b6\u6001 /path/to/cluster-state\n kubectl cluster-info dump --output-directory=/path/to/cluster-state\n\n # \u5bfc\u51fa\u6240\u6709\u5206\u533a\u5230 stdout\n kubectl cluster-info dump --all-namespaces\n\n # \u5bfc\u51fa\u4e00\u7ec4\u5206\u533a\u5230 /path/to/cluster-state\n kubectl cluster-info dump --namespaces default,kube-system --output-directory=/path/to/cluster-state\x00\n # Update pod 'foo' with the annotation 'description' and the value 'my frontend'.\n # If the same annotation is set multiple times, only the last value will be applied\n kubectl annotate pods foo description='my frontend'\n\n # Update a pod identified by type and name in \"pod.json\"\n kubectl annotate -f pod.json description='my frontend'\n\n # Update pod 'foo' with the annotation 'description' and the value 'my frontend running nginx', overwriting any existing value.\n kubectl annotate --overwrite pods foo description='my frontend running nginx'\n\n # Update all pods in the namespace\n kubectl annotate pods --all description='my frontend running nginx'\n\n # Update pod 'foo' only if the resource is unchanged from version 1.\n kubectl annotate pods foo description='my frontend running nginx' --resource-version=1\n\n # \u66f4\u65b0\u540d\u79f0\u4e3a 'foo' \u7684 pod, \u5220\u9664\u4e00\u4e2a\u540d\u79f0\u4e3a 'description' \u7684 annotation \u5982\u679c\u5b83\u5b58\u5728. \n # \u4e0d\u8981\u6c42\u4f7f\u7528 --overwrite flag.\n kubectl annotate pods foo description-\x00\n \u4f7f\u7528\u4e00\u4e2a\u6307\u5b9a\u7684\u540d\u79f0\u521b\u5efa\u4e00\u4e2a LoadBalancer service.\x00\n \u4f7f\u7528\u4e00\u4e2a\u6307\u5b9a\u7684\u540d\u79f0\u521b\u5efa\u4e00\u4e2a clusterIP service.\x00\n \u4f7f\u7528\u4e00\u4e2a\u6307\u5b9a\u7684\u540d\u79f0\u521b\u5efa\u4e00\u4e2a deployment.\x00\n \u4f7f\u7528\u4e00\u4e2a\u6307\u5b9a\u7684\u540d\u79f0\u521b\u5efa\u4e00\u4e2a nodeport service.\x00\n Dumps cluster info out suitable for debugging and diagnosing cluster problems. By default, dumps everything to\n stdout. You can optionally specify a directory with --output-directory. If you specify a directory, kubernetes will\n build a set of files in that directory. By default only dumps things in the 'kube-system' namespace, but you can\n switch to a different namespace with the --namespaces flag, or specify --all-namespaces to dump all namespaces.\n\n The command also dumps the logs of all of the pods in the cluster, these logs are dumped into different directories\n based on namespace and pod name.\x00\n Display addresses of the master and services with label kubernetes.io/cluster-service=true\n To further debug and diagnose cluster problems, use 'kubectl cluster-info dump'.\x00A comma-delimited set of quota scopes that must all match each object tracked by the quota.\x00A comma-delimited set of resource=quantity pairs that define a hard limit.\x00A label selector to use for this budget. Only equality-based selector requirements are supported.\x00A label selector to use for this service. Only equality-based selector requirements are supported. If empty (the default) infer the selector from the replication controller or replica set.)\x00A schedule in the Cron format the job should be run with.\x00Additional external IP address (not managed by Kubernetes) to accept for the service. If this IP is routed to a node, the service can be accessed by this IP in addition to its generated service IP.\x00An inline JSON override for the generated object. If this is non-empty, it is used to override the generated object. Requires that the object supply a valid apiVersion field.\x00An inline JSON override for the generated service object. If this is non-empty, it is used to override the generated object. Requires that the object supply a valid apiVersion field. Only used if --expose is true.\x00\u901a\u8fc7\u6587\u4ef6\u540d\u6216\u6807\u51c6\u8f93\u5165\u6d41(stdin)\u5bf9\u8d44\u6e90\u8fdb\u884c\u914d\u7f6e\x00\u540c\u610f\u4e00\u4e2a\u81ea\u7b7e\u8bc1\u4e66\u8bf7\u6c42\x00Assign your own ClusterIP or set to 'None' for a 'headless' service (no loadbalancing).\x00Attach \u5230\u4e00\u4e2a\u8fd0\u884c\u4e2d\u7684 container\x00\u81ea\u52a8\u8c03\u6574\u4e00\u4e2a Deployment, ReplicaSet, \u6216\u8005 ReplicationController \u7684\u526f\u672c\u6570\u91cf\x00ClusterIP to be assigned to the service. Leave empty to auto-allocate, or set to 'None' to create a headless service.\x00ClusterRoleBinding \u5e94\u8be5\u6307\u5b9a ClusterRole\x00RoleBinding \u5e94\u8be5\u6307\u5b9a ClusterRole\x00Container name which will have its image upgraded. Only relevant when --image is specified, ignored otherwise. Required when using --image on a multi-container pod\x00\u5728\u4e0d\u540c\u7684 API versions \u8f6c\u6362\u914d\u7f6e\u6587\u4ef6\x00\u590d\u5236 files \u548c directories \u5230 containers \u548c\u4ece\u5bb9\u5668\u4e2d\u590d\u5236 files \u548c directories.\x00\u4e3a\u4e00\u4e2a\u6307\u5b9a\u7684 ClusterRole \u521b\u5efa\u4e00\u4e2a ClusterRoleBinding\x00\u521b\u5efa\u4e00\u4e2a LoadBalancer service.\x00\u521b\u5efa\u4e00\u4e2a NodePort service.\x00\u4e3a\u4e00\u4e2a\u6307\u5b9a\u7684 Role \u6216\u8005 ClusterRole\u521b\u5efa\u4e00\u4e2a RoleBinding\x00\u521b\u5efa\u4e00\u4e2a TLS secret\x00\u521b\u5efa\u4e00\u4e2a clusterIP service.\x00\u4ece\u672c\u5730 file, directory \u6216\u8005 literal value \u521b\u5efa\u4e00\u4e2a configmap\x00\u521b\u5efa\u4e00\u4e2a\u6307\u5b9a\u540d\u79f0\u7684 deployment.\x00\u521b\u5efa\u4e00\u4e2a\u6307\u5b9a\u540d\u79f0\u7684 namespace\x00\u521b\u5efa\u4e00\u4e2a\u6307\u5b9a\u540d\u79f0\u7684 pod disruption budget.\x00\u521b\u5efa\u4e00\u4e2a\u6307\u5b9a\u540d\u79f0\u7684 quota.\x00\u901a\u8fc7\u6587\u4ef6\u540d\u6216\u8005\u6807\u51c6\u8f93\u5165\u6d41(stdin)\u521b\u5efa\u4e00\u4e2a\u8d44\u6e90\x00\u521b\u5efa\u4e00\u4e2a\u7ed9 Docker registry \u4f7f\u7528\u7684 secret\x00\u4ece\u672c\u5730 file, directory \u6216\u8005 literal value \u521b\u5efa\u4e00\u4e2a secret\x00\u4f7f\u7528\u6307\u5b9a\u7684 subcommand \u521b\u5efa\u4e00\u4e2a secret\x00\u521b\u5efa\u4e00\u4e2a\u6307\u5b9a\u540d\u79f0\u7684 service account\x00\u4f7f\u7528\u6307\u5b9a\u7684 subcommand \u521b\u5efa\u4e00\u4e2a service.\x00Create an ExternalName service.\x00Delete resources by filenames, stdin, resources and names, or by resources and label selector\x00\u5220\u9664 kubeconfig \u6587\u4ef6\u4e2d\u6307\u5b9a\u7684\u96c6\u7fa4\x00\u5220\u9664 kubeconfig \u6587\u4ef6\u4e2d\u6307\u5b9a\u7684 context\x00\u62d2\u7edd\u4e00\u4e2a\u81ea\u7b7e\u8bc1\u4e66\u8bf7\u6c42\x00Deprecated: Gracefully shut down a resource by name or filename\x00\u63cf\u8ff0\u4e00\u4e2a\u6216\u591a\u4e2a contexts\x00\u663e\u793a nodes \u7684 Resource (CPU/Memory) \u4f7f\u7528\x00\u663e\u793a pods \u7684 Resource (CPU/Memory) \u4f7f\u7528\x00\u663e\u793a Resource (CPU/Memory) \u4f7f\u7528.\x00\u663e\u793a\u96c6\u7fa4\u4fe1\u606f\x00\u663e\u793a kubeconfig \u6587\u4ef6\u4e2d\u5b9a\u4e49\u7684\u96c6\u7fa4\x00\u663e\u793a\u5408\u5e76\u7684 kubeconfig \u914d\u7f6e\u6216\u4e00\u4e2a\u6307\u5b9a\u7684 kubeconfig \u6587\u4ef6\x00\u663e\u793a\u4e00\u4e2a\u6216\u66f4\u591a resources\x00\u663e\u793a current_context\x00\u67e5\u770b\u8d44\u6e90\u7684\u6587\u6863\x00Drain node in preparation for maintenance\x00Dump lots of relevant info for debugging and diagnosis\x00\u5728\u670d\u52a1\u5668\u4e0a\u7f16\u8f91\u4e00\u4e2a\u8d44\u6e90\x00Email for Docker registry\x00\u5728\u4e00\u4e2a container \u4e2d\u6267\u884c\u4e00\u4e2a\u547d\u4ee4\x00Explicit policy for when to pull container images. Required when --image is same as existing image, ignored otherwise.\x00Forward one or more local ports to a pod\x00Help about any command\x00IP to assign to the Load Balancer. If empty, an ephemeral IP will be created and used (cloud-provider specific).\x00If non-empty, set the session affinity for the service to this; legal values: 'None', 'ClientIP'\x00If non-empty, the annotation update will only succeed if this is the current resource-version for the object. Only valid when specifying a single resource.\x00If non-empty, the labels update will only succeed if this is the current resource-version for the object. Only valid when specifying a single resource.\x00Image to use for upgrading the replication controller. Must be distinct from the existing image (either new image or new image tag). Can not be used with --filename/-f\x00\u7ba1\u7406\u4e00\u4e2a deployment \u7684 rollout\x00\u6807\u8bb0 node \u4e3a schedulable\x00\u6807\u8bb0 node \u4e3a unschedulable\x00\u6807\u8bb0\u63d0\u4f9b\u7684 resource \u4e3a\u4e2d\u6b62\u72b6\u6001\x00\u4fee\u6539 certificate \u8d44\u6e90.\x00\u4fee\u6539 kubeconfig \u6587\u4ef6\x00Name or number for the port on the container that the service should direct traffic to. Optional.\x00Only return logs after a specific date (RFC3339). Defaults to all logs. Only one of since-time / since may be used.\x00Output shell completion code for the specified shell (bash or zsh)\x00Output the formatted object with the given group version (for ex: 'extensions/v1beta1').)\x00Password for Docker registry authentication\x00Path to PEM encoded public key certificate.\x00Path to private key associated with given certificate.\x00\u5b8c\u6210\u6307\u5b9a\u7684 ReplicationController \u7684\u6eda\u52a8\u5347\u7ea7\x00Precondition for resource version. Requires that the current resource version match this value in order to scale.\x00\u8f93\u51fa client \u548c server \u7684\u7248\u672c\u4fe1\u606f\x00\u8f93\u51fa\u6240\u6709\u547d\u4ee4\u7684\u5c42\u7ea7\u5173\u7cfb\x00\u8f93\u51fa\u5bb9\u5668\u5728 pod \u4e2d\u7684\u65e5\u5fd7\x00\u901a\u8fc7 filename \u6216\u8005 stdin\u66ff\u6362\u4e00\u4e2a\u8d44\u6e90\x00\u7ee7\u7eed\u4e00\u4e2a\u505c\u6b62\u7684 resource\x00RoleBinding \u7684 Role \u5e94\u8be5\u88ab\u5f15\u7528\x00\u5728\u96c6\u7fa4\u4e2d\u8fd0\u884c\u4e00\u4e2a\u6307\u5b9a\u7684\u955c\u50cf\x00\u8fd0\u884c\u4e00\u4e2a proxy \u5230 Kubernetes API server\x00Server location for Docker registry\x00\u4e3a Deployment, ReplicaSet, Replication Controller \u6216\u8005 Job \u8bbe\u7f6e\u4e00\u4e2a\u65b0\u7684\u526f\u672c\u6570\u91cf\x00\u4e3a objects \u8bbe\u7f6e\u4e00\u4e2a\u6307\u5b9a\u7684\u7279\u5f81\x00Set the last-applied-configuration annotation on a live object to match the contents of a file.\x00\u8bbe\u7f6e resource \u7684 selector\x00\u8bbe\u7f6e kubeconfig \u6587\u4ef6\u4e2d\u7684\u4e00\u4e2a\u96c6\u7fa4\u6761\u76ee\x00\u8bbe\u7f6e kubeconfig \u6587\u4ef6\u4e2d\u7684\u4e00\u4e2a context \u6761\u76ee\x00\u8bbe\u7f6e kubeconfig \u6587\u4ef6\u4e2d\u7684\u4e00\u4e2a\u7528\u6237\u6761\u76ee\x00\u8bbe\u7f6e kubeconfig \u6587\u4ef6\u4e2d\u7684\u4e00\u4e2a\u5355\u4e2a\u503c\x00\u8bbe\u7f6e kubeconfig \u6587\u4ef6\u4e2d\u7684\u5f53\u524d\u4e0a\u4e0b\u6587\x00\u663e\u793a\u4e00\u4e2a\u6307\u5b9a resource \u6216\u8005 group \u7684 resources \u8be6\u60c5\x00\u663e\u793a rollout \u7684\u72b6\u6001\x00Synonym for --target-port\x00\u4f7f\u7528 replication controller, service, deployment \u6216\u8005 pod \u5e76\u66b4\u9732\u5b83\u4f5c\u4e3a\u4e00\u4e2a \u65b0\u7684 Kubernetes Service\x00\u6307\u5b9a\u5bb9\u5668\u8981\u8fd0\u884c\u7684\u955c\u50cf.\x00\u5bb9\u5668\u7684\u955c\u50cf\u62c9\u53d6\u7b56\u7565. \u5982\u679c\u4e3a\u7a7a, \u8fd9\u4e2a\u503c\u5c06\u4e0d\u4f1a \u88ab client \u6307\u5b9a\u4e14\u4f7f\u7528 server \u7aef\u7684\u9ed8\u8ba4\u503c\x00\u8fd9\u4e2a key \u4f7f\u7528\u6709\u533a\u522b\u5728\u4e24\u4e2a\u4e0d\u540c\u7684 controllers, \u9ed8\u8ba4 'deployment'. \u53ea\u6709\u5f53 --image \u6307\u5b9a\u503c, \u5426\u5219\u5ffd\u7565\x00\u6700\u5c0f\u6570\u91cf\u767e\u5206\u6bd4\u53ef\u7528\u7684 pods \u4f5c\u4e3a budget \u8981\u6c42.\x00\u540d\u79f0\u4e3a\u6700\u65b0\u521b\u5efa\u7684\u5bf9\u8c61.\x00\u540d\u79f0\u4e3a\u6700\u65b0\u521b\u5efa\u7684\u5bf9\u8c61. \u5982\u679c\u6ca1\u6709\u6307\u5b9a, \u8f93\u5165\u8d44\u6e90\u7684 \u540d\u79f0\u5373\u5c06\u88ab\u4f7f\u7528.\x00\u4f7f\u7528 API generator \u7684\u540d\u5b57, \u5728 http://kubernetes.io/docs/user-guide/kubectl-conventions/#generators \u67e5\u770b\u5217\u8868.\x00\u4f7f\u7528 API generator \u7684\u540d\u5b57. \u76ee\u524d\u53ea\u6709 1 \u4e2a generator.\x00\u4f7f\u7528 generator \u7684\u540d\u79f0. \u8fd9\u91cc\u6709 2 \u4e2a generators: 'service/v1' \u548c 'service/v2'. \u4e3a\u4e00\u4e2a\u4e0d\u540c\u5730\u65b9\u662f\u670d\u52a1\u7aef\u53e3\u5728 v1 \u7684\u60c5\u51b5\u4e0b\u53eb 'default', \u5982\u679c\u5728 v2 \u4e2d\u6ca1\u6709\u6307\u5b9a\u540d\u79f0. \u9ed8\u8ba4\u7684\u540d\u79f0\u662f 'service/v2'.\x00\u4f7f\u7528 gnerator \u7684\u540d\u79f0\u521b\u5efa\u4e00\u4e2a service. \u53ea\u6709\u5728 --expose \u4e3a true \u7684\u65f6\u5019\u4f7f\u7528\x00\u521b\u5efa service \u7684\u65f6\u5019\u4f34\u968f\u7740\u4e00\u4e2a\u7f51\u7edc\u534f\u8bae\u88ab\u521b\u5efa. \u9ed8\u8ba4\u662f 'TCP'.\x00\u670d\u52a1\u7684\u7aef\u53e3\u5e94\u8be5\u88ab\u6307\u5b9a. \u5982\u679c\u6ca1\u6709\u6307\u5b9a, \u4ece\u88ab\u521b\u5efa\u7684\u8d44\u6e90\u4e2d\u590d\u5236\x00The port that this container exposes. If --expose is true, this is also the port used by the service that is created.\x00The resource requirement limits for this container. For example, 'cpu=200m,memory=512Mi'. Note that server side components may assign limits depending on the server configuration, such as limit ranges.\x00\u8d44\u6e90\u4e3a container \u8bf7\u6c42 requests . \u4f8b\u5982, 'cpu=100m,memory=256Mi'. \u6ce8\u610f\u670d\u52a1\u7aef\u7ec4\u4ef6\u4e5f\u8bb8\u4f1a\u8d4b\u4e88 requests, \u8fd9\u51b3\u5b9a\u4e8e\u670d\u52a1\u5668\u7aef\u914d\u7f6e, \u6bd4\u5982 limit ranges.\x00\u8fd9\u4e2a Pod \u7684 restart policy. Legal values [Always, OnFailure, Never]. \u5982\u679c\u8bbe\u7f6e\u4e3a 'Always' \u4e00\u4e2a deployment \u88ab\u521b\u5efa, \u5982\u679c\u8bbe\u7f6e\u4e3a \u2019OnFailure' \u4e00\u4e2a job \u88ab\u521b\u5efa, \u5982\u679c\u8bbe\u7f6e\u4e3a 'Never', \u4e00\u4e2a\u666e\u901a\u7684 pod \u88ab\u521b\u5efa. \u5bf9\u4e8e\u540e\u9762\u4e24\u4e2a --replicas \u5fc5\u987b\u4e3a 1. \u9ed8\u8ba4 'Always', \u4e3a CronJobs \u8bbe\u7f6e\u4e3a `Never`.\x00\u521b\u5efa secret \u7c7b\u578b\u8d44\u6e90\x00\u5bf9\u4e8e\u670d\u52a1\u7684\u7c7b\u578b: ClusterIP, NodePort, \u6216\u8005 LoadBalancer. \u9ed8\u8ba4\u662f 'ClusterIP\u2019.\x00\u64a4\u9500\u4e0a\u4e00\u6b21\u7684 rollout\x00\u53d6\u6d88\u8bbe\u7f6e kubeconfig \u6587\u4ef6\u4e2d\u7684\u4e00\u4e2a\u5355\u4e2a\u503c\x00\u4f7f\u7528 strategic merge patch \u66f4\u65b0\u4e00\u4e2a\u8d44\u6e90\u7684 field(s)\x00\u66f4\u65b0\u4e00\u4e2a pod template \u7684\u955c\u50cf\x00\u5728\u5bf9\u8c61\u7684 pod templates \u4e0a\u66f4\u65b0\u8d44\u6e90\u7684 requests/limits\x00\u66f4\u65b0\u4e00\u4e2a\u8d44\u6e90\u7684\u6ce8\u89e3\x00\u66f4\u65b0\u5728\u8fd9\u4e2a\u8d44\u6e90\u4e0a\u7684 labels\x00\u66f4\u65b0\u4e00\u4e2a\u6216\u8005\u591a\u4e2a node \u4e0a\u7684 taints\x00Username \u4e3a Docker registry authentication\x00\u663e\u793a\u6700\u540e\u7684 resource/object \u7684 last-applied-configuration annotations\x00\u663e\u793a rollout \u5386\u53f2\x00\u8f93\u51fa\u5230 files. \u5982\u679c\u662f empty or '-' \u4f7f\u7528 stdout, \u5426\u5219\u521b\u5efa\u4e00\u4e2a \u76ee\u5f55\u5c42\u7ea7\u5728\u90a3\u4e2a\u76ee\u5f55\x00dummy restart flag)\x00\u670d\u52a1\u7684\u5916\u90e8\u540d\u79f0\x00kubectl \u63a7\u5236 Kubernetes cluster \u7ba1\u7406\x00") func translationsKubectlZh_cnLc_messagesK8sMoBytes() ([]byte, error) { return _translationsKubectlZh_cnLc_messagesK8sMo, nil } func translationsKubectlZh_cnLc_messagesK8sMo() (*asset, error) { bytes, err := translationsKubectlZh_cnLc_messagesK8sMoBytes() if err != nil { return nil, err } info := bindataFileInfo{name: "translations/kubectl/zh_CN/LC_MESSAGES/k8s.mo", size: 0, mode: os.FileMode(0), modTime: time.Unix(0, 0)} a := &asset{bytes: bytes, info: info} return a, nil } var _translationsKubectlZh_cnLc_messagesK8sPo = []byte(`# Test translations for unit tests. # Copyright (C) 2017 # This file is distributed under the same license as the Kubernetes package. # FIRST AUTHOR shiywang@redhat.com, 2017. # FIRST AUTHOR zhengjiajin@caicloud.io, 2017. # msgid "" msgstr "" "Project-Id-Version: gettext-go-examples-hello\n" "Report-Msgid-Bugs-To: \n" "POT-Creation-Date: 2013-12-12 20:03+0000\n" "PO-Revision-Date: 2017-11-11 19:01+0800\n" "Last-Translator: zhengjiajin \n" "MIME-Version: 1.0\n" "Content-Type: text/plain; charset=UTF-8\n" "Content-Transfer-Encoding: 8bit\n" "X-Generator: Poedit 2.0.4\n" "X-Poedit-SourceCharset: UTF-8\n" "Language-Team: \n" "Plural-Forms: nplurals=2; plural=(n > 1);\n" "Language: zh\n" #: pkg/kubectl/cmd/create_clusterrolebinding.go:35 msgid "" "\n" "\t\t # Create a ClusterRoleBinding for user1, user2, and group1 using the cluster-admin ClusterRole\n" "\t\t kubectl create clusterrolebinding cluster-admin --clusterrole=cluster-admin --user=user1 --user=user2 --group=group1" msgstr "" "\n" "\t\t # 使用 cluster-admin ClusterRole 为 user1, user2, and group1 创建一个 ClusterRoleBinding\n" "\t\t kubectl create clusterrolebinding cluster-admin --clusterrole=cluster-admin --user=user1 --user=user2 --group=group1" #: pkg/kubectl/cmd/create_rolebinding.go:35 msgid "" "\n" "\t\t # Create a RoleBinding for user1, user2, and group1 using the admin ClusterRole\n" "\t\t kubectl create rolebinding admin --clusterrole=admin --user=user1 --user=user2 --group=group1" msgstr "" "\n" "\t\t # 使用 admin ClusterRole 为 user1, user2, and group1 创建一个 RoleBinding\n" "\t\t kubectl create rolebinding admin --clusterrole=admin --user=user1 --user=user2 --group=group1" #: pkg/kubectl/cmd/create_configmap.go:44 msgid "" "\n" "\t\t # Create a new configmap named my-config based on folder bar\n" "\t\t kubectl create configmap my-config --from-file=path/to/bar\n" "\n" "\t\t # Create a new configmap named my-config with specified keys instead of file basenames on disk\n" "\t\t kubectl create configmap my-config --from-file=key1=/path/to/bar/file1.txt --from-file=key2=/path/to/bar/file2.txt\n" "\n" "\t\t # Create a new configmap named my-config with key1=config1 and key2=config2\n" "\t\t kubectl create configmap my-config --from-literal=key1=config1 --from-literal=key2=config2" msgstr "" "\n" "\t\t # 通过文件夹 bar 创建一个名称为 my-config 的 configmap\n" "\t\t kubectl create configmap my-config --from-file=path/to/bar\n" "\n" "\t\t # 创建一个名称为 my-config 的 configmap 并指定 keys 而不是使用磁盘上所在的文件名\n" "\t\t kubectl create configmap my-config --from-file=key1=/path/to/bar/file1.txt --from-file=key2=/path/to/bar/file2.txt\n" "\n" "\t\t # 创建一个名称为 my-config 的 configmap 且 key1=config1 和 key2=config2\n" "\t\t kubectl create configmap my-config --from-literal=key1=config1 --from-literal=key2=config2" #: pkg/kubectl/cmd/create_secret.go:135 msgid "" "\n" "\t\t # If you don't already have a .dockercfg file, you can create a dockercfg secret directly by using:\n" "\t\t kubectl create secret docker-registry my-secret --docker-server=DOCKER_REGISTRY_SERVER --docker-username=DOCKER_USER --docker-password=DOCKER_PASSWORD --docker-email=DOCKER_EMAIL" msgstr "" "\n" "\t\t # 如果你还没有一个 .dockercfg 文件, 你可以直接使用下面的命令创建一个 dockercfg 的 secret:\n" "\t\t kubectl create secret docker-registry my-secret --docker-server=DOCKER_REGISTRY_SERVER --docker-username=DOCKER_USER --docker-password=DOCKER_PASSWORD --docker-email=DOCKER_EMAIL" #: pkg/kubectl/cmd/top_node.go:65 msgid "" "\n" "\t\t # Show metrics for all nodes\n" "\t\t kubectl top node\n" "\n" "\t\t # Show metrics for a given node\n" "\t\t kubectl top node NODE_NAME" msgstr "" "\n" "\t\t # 显示所有 nodes 上的指标\n" "\t\t kubectl top node\n" "\n" "\t\t # 显示指定 node 上的指标\n" "\t\t kubectl top node NODE_NAME" #: pkg/kubectl/cmd/apply.go:84 msgid "" "\n" "\t\t# Apply the configuration in pod.json to a pod.\n" "\t\tkubectl apply -f ./pod.json\n" "\n" "\t\t# Apply the JSON passed into stdin to a pod.\n" "\t\tcat pod.json | kubectl apply -f -\n" "\n" "\t\t# Note: --prune is still in Alpha\n" "\t\t# Apply the configuration in manifest.yaml that matches label app=nginx and delete all the other resources that are not in the file and match label app=nginx.\n" "\t\tkubectl apply --prune -f manifest.yaml -l app=nginx\n" "\n" "\t\t# Apply the configuration in manifest.yaml and delete all the other configmaps that are not in the file.\n" "\t\tkubectl apply --prune -f manifest.yaml --all --prune-whitelist=core/v1/ConfigMap" msgstr "" "\n" "\t\t# 将 pod.json 上的配置应用于 pod.\n" "\t\tkubectl apply -f ./pod.json\n" "\n" "\t\t# 将传入 stdin 的 JSON 应用到一个 pod.\n" "\t\tcat pod.json | kubectl apply -f -\n" "\n" "\t\t# Note: --prune 仍然在 Alpha\n" "\t\t# 应用在 manifest.yaml 中匹配标签 app=nginx 的资源配置并删除所有不在这个文件中并匹配标签app=nginx 的资源\n" "\t\tkubectl apply --prune -f manifest.yaml -l app=nginx\n" "\n" "\t\t# 应用 manifest.yaml 的配置并删除所有不在这个文件中的 configmaps.\n" "\t\tkubectl apply --prune -f manifest.yaml --all --prune-whitelist=core/v1/ConfigMap" #: pkg/kubectl/cmd/autoscale.go:40 #, c-format msgid "" "\n" "\t\t# Auto scale a deployment \"foo\", with the number of pods between 2 and 10, target CPU utilization specified so a default autoscaling policy will be used:\n" "\t\tkubectl autoscale deployment foo --min=2 --max=10\n" "\n" "\t\t# Auto scale a replication controller \"foo\", with the number of pods between 1 and 5, target CPU utilization at 80%:\n" "\t\tkubectl autoscale rc foo --max=5 --cpu-percent=80" msgstr "" "\n" "\t\t# 自动弹性伸缩 deployment \"foo\", pods 的数量在 2 和 10 之间, 目标 CPU 指定为默认的弹性伸缩策略:\n" "\t\tkubectl autoscale deployment foo --min=2 --max=10\n" "\n" "\t\t# 自动弹性伸缩 replication controller \"foo\", pods 的数量在 1 和 5 之间, 目标 CPU 利用率为 80%:\n" "\t\tkubectl autoscale rc foo --max=5 --cpu-percent=80" #: pkg/kubectl/cmd/convert.go:49 msgid "" "\n" "\t\t# Convert 'pod.yaml' to latest version and print to stdout.\n" "\t\tkubectl convert -f pod.yaml\n" "\n" "\t\t# Convert the live state of the resource specified by 'pod.yaml' to the latest version\n" "\t\t# and print to stdout in json format.\n" "\t\tkubectl convert -f pod.yaml --local -o json\n" "\n" "\t\t# Convert all files under current directory to latest version and create them all.\n" "\t\tkubectl convert -f . | kubectl create -f -" msgstr "" "\n" "\t\t# 将’pod.yaml' 转换为最新版本并打印到 stdout.\n" "\t\tkubectl convert -f pod.yaml\n" "\n" "\t\t# 将 ‘pod.yaml' 指定的资源的实时状态转换为最新版本\n" "\t\t# 并以 json 格式打印到 stdout.\n" "\t\tkubectl convert -f pod.yaml --local -o json\n" "\n" "\t\t# 将当前目录下的所以文件转换为最新版本并创建它们.\n" "\t\tkubectl convert -f . | kubectl create -f -" #: pkg/kubectl/cmd/create_role.go:41 msgid "" "\n" "\t\t# Create a ClusterRole named \"pod-reader\" that allows user to perform \"get\", \"watch\" and \"list\" on pods\n" "\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --resource=pods\n" "\n" "\t\t# Create a ClusterRole named \"pod-reader\" with ResourceName specified\n" "\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --resource=pods --resource-name=readablepod" msgstr "" "\n" "\t\t# 创建一个名为 \"pod-reader\" 的 ClusterRole, 允许用户在 pods 上执行 “get\", \"watch\" 和 \"list\"\n" "\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --resource=pods\n" "\n" "\t\t# 创建一个名为 \"pod-reader\" ClusterRole, 其中指定了 ResourceName\n" "\t\tkubectl create clusterrole pod-reader --verb=get,list,watch --resource=pods --resource-name=readablepod" #: pkg/kubectl/cmd/create_quota.go:35 msgid "" "\n" "\t\t# Create a new resourcequota named my-quota\n" "\t\tkubectl create quota my-quota --hard=cpu=1,memory=1G,pods=2,services=3,replicationcontrollers=2,resourcequotas=1,secrets=5,persistentvolumeclaims=10\n" "\n" "\t\t# Create a new resourcequota named best-effort\n" "\t\tkubectl create quota best-effort --hard=pods=100 --scopes=BestEffort" msgstr "" "\n" "\t\t# 创建一个名为 my-quota 的 resourcequota\n" "\t\tkubectl create quota my-quota --hard=cpu=1,memory=1G,pods=2,services=3,replicationcontrollers=2,resourcequotas=1,secrets=5,persistentvolumeclaims=10\n" "\n" "\t\t# 创建一个名为 best-effort 的 resourcequota\n" "\t\tkubectl create quota best-effort --hard=pods=100 --scopes=BestEffort" #: pkg/kubectl/cmd/create_pdb.go:35 #, c-format msgid "" "\n" "\t\t# Create a pod disruption budget named my-pdb that will select all pods with the app=rails label\n" "\t\t# and require at least one of them being available at any point in time.\n" "\t\tkubectl create poddisruptionbudget my-pdb --selector=app=rails --min-available=1\n" "\n" "\t\t# Create a pod disruption budget named my-pdb that will select all pods with the app=nginx label\n" "\t\t# and require at least half of the pods selected to be available at any point in time.\n" "\t\tkubectl create pdb my-pdb --selector=app=nginx --min-available=50%" msgstr "" "\n" "\t\t# 创建一个名称为 my-pdb 的 pod disruption budget 并将会选择所有 app=rails 标签的 pods\n" "\t\t# 并要求他们在同一时间中最少有一个可用. \n" "\t\tkubectl create poddisruptionbudget my-pdb --selector=app=rails --min-available=1\n" "\n" "\t\t# 创建一个名称为 my-pdb 的 pod disruption budget 并将会选择所有 app=rails 标签的 pods\n" "\t\t# 并要求他们在同一时间中最少有一半可用.\n" "\t\tkubectl create pdb my-pdb --selector=app=nginx --min-available=50%" #: pkg/kubectl/cmd/create.go:47 msgid "" "\n" "\t\t# Create a pod using the data in pod.json.\n" "\t\tkubectl create -f ./pod.json\n" "\n" "\t\t# Create a pod based on the JSON passed into stdin.\n" "\t\tcat pod.json | kubectl create -f -\n" "\n" "\t\t# Edit the data in docker-registry.yaml in JSON using the v1 API format then create the resource using the edited data.\n" "\t\tkubectl create -f docker-registry.yaml --edit --output-version=v1 -o json" msgstr "" "\n" "\t\t# 使用在 pod.json 的 数据创建一个 pod.\n" "\t\tkubectl create -f ./pod.json\n" "\n" "\t\t# 根据传入 stdin 的 JSON 创建一个 pod.\n" "\t\tcat pod.json | kubectl create -f -\n" "\n" "\t\t# 使用 v1 API 格式在 JSON 中编辑在 docker-registry.yaml 中的数据然后使用被编辑后的数据创建资源.\n" "\t\tkubectl create -f docker-registry.yaml --edit --output-version=v1 -o json" #: pkg/kubectl/cmd/expose.go:53 msgid "" "\n" "\t\t# Create a service for a replicated nginx, which serves on port 80 and connects to the containers on port 8000.\n" "\t\tkubectl expose rc nginx --port=80 --target-port=8000\n" "\n" "\t\t# Create a service for a replication controller identified by type and name specified in \"nginx-controller.yaml\", which serves on port 80 and connects to the containers on port 8000.\n" "\t\tkubectl expose -f nginx-controller.yaml --port=80 --target-port=8000\n" "\n" "\t\t# Create a service for a pod valid-pod, which serves on port 444 with the name \"frontend\"\n" "\t\tkubectl expose pod valid-pod --port=444 --name=frontend\n" "\n" "\t\t# Create a second service based on the above service, exposing the container port 8443 as port 443 with the name \"nginx-https\"\n" "\t\tkubectl expose service nginx --port=443 --target-port=8443 --name=nginx-https\n" "\n" "\t\t# Create a service for a replicated streaming application on port 4100 balancing UDP traffic and named 'video-stream'.\n" "\t\tkubectl expose rc streamer --port=4100 --protocol=udp --name=video-stream\n" "\n" "\t\t# Create a service for a replicated nginx using replica set, which serves on port 80 and connects to the containers on port 8000.\n" "\t\tkubectl expose rs nginx --port=80 --target-port=8000\n" "\n" "\t\t# Create a service for an nginx deployment, which serves on port 80 and connects to the containers on port 8000.\n" "\t\tkubectl expose deployment nginx --port=80 --target-port=8000" msgstr "" "\n" "\t\t# 为一个 replicated nginx 创建一个 service, 服务在端口 80 并连接到 containers 的8000端口.\n" "\t\tkubectl expose rc nginx --port=80 --target-port=8000\n" "\n" "\t\t# 使用在 \"nginx-controller.yaml\\ 中指定的 type 和 name 为一个replication controller 创建一个 service, 服务在端口 80 并连接到 containers 的8000端口.\n" "\t\tkubectl expose -f nginx-controller.yaml --port=80 --target-port=8000\n" "\n" "\t\t# 为名为 valid-pod 的 pod 创建一个 service, 服务在端口 444 并命名为 \"frontend\" \n" "\t\tkubectl expose pod valid-pod --port=444 --name=frontend\n" "\n" "\t\t# 基于上面的 service 创建第二个 service, 暴露容器端口 8443 并命名为 \"nginx-https\" 端口为 443 \n" "\t\tkubectl expose service nginx --port=443 --target-port=8443 --name=nginx-https\n" "\n" "\t\t# 为一个名称为 streaming 的应用创建一个 service 暴露端口 4100, 协议为 UDP 名称为 'video-stream'.\n" "\t\tkubectl expose rc streamer --port=4100 --protocol=udp --name=video-stream\n" "\n" "\t\t# 为一个名称为 nginx 的 replica set 创建一个 service, 服务在 端口 80 且连接到容器端口 8000.\n" "\t\tkubectl expose rs nginx --port=80 --target-port=8000\n" "\n" "\t\t# 为一个名称为 nginx 的 deployment 创建一个 service, 服务在端口 80 且 连接到 containers 的 8000 端口.\n" "\t\tkubectl expose deployment nginx --port=80 --target-port=8000" #: pkg/kubectl/cmd/delete.go:68 msgid "" "\n" "\t\t# Delete a pod using the type and name specified in pod.json.\n" "\t\tkubectl delete -f ./pod.json\n" "\n" "\t\t# Delete a pod based on the type and name in the JSON passed into stdin.\n" "\t\tcat pod.json | kubectl delete -f -\n" "\n" "\t\t# Delete pods and services with same names \"baz\" and \"foo\"\n" "\t\tkubectl delete pod,service baz foo\n" "\n" "\t\t# Delete pods and services with label name=myLabel.\n" "\t\tkubectl delete pods,services -l name=myLabel\n" "\n" "\t\t# Delete a pod with minimal delay\n" "\t\tkubectl delete pod foo --now\n" "\n" "\t\t# Force delete a pod on a dead node\n" "\t\tkubectl delete pod foo --grace-period=0 --force\n" "\n" "\t\t# Delete all pods\n" "\t\tkubectl delete pods --all" msgstr "" "\n" "\t\t# 使用 pod.json 中的类型和名称删除一个 pod.\n" "\t\tkubectl delete -f ./pod.json\n" "\n" "\t\t# 基于重定向到 stdin 中的 JSON 的类型和名称删除一个 pod.\n" "\t\tcat pod.json | kubectl delete -f -\n" "\n" "\t\t# 删除名为 \"baz\" 和 \"foo\" 的 pod 和 service\n" "\t\tkubectl delete pod,service baz foo\n" "\n" "\t\t# 删除标签为 name=myLabel 的 pods 和 services.\n" "\t\tkubectl delete pods,services -l name=myLabel\n" "\n" "\t\t# 删除最小延迟的 pod\n" "\t\tkubectl delete pod foo --now\n" "\n" "\t\t# 强制删除名为 foo 的 pod\n" "\t\tkubectl delete pod foo --grace-period=0 --force\n" "\n" "\t\t# 删除所有 pods\n" "\t\tkubectl delete pods --all" #: pkg/kubectl/cmd/describe.go:54 msgid "" "\n" "\t\t# Describe a node\n" "\t\tkubectl describe nodes kubernetes-node-emt8.c.myproject.internal\n" "\n" "\t\t# Describe a pod\n" "\t\tkubectl describe pods/nginx\n" "\n" "\t\t# Describe a pod identified by type and name in \"pod.json\"\n" "\t\tkubectl describe -f pod.json\n" "\n" "\t\t# Describe all pods\n" "\t\tkubectl describe pods\n" "\n" "\t\t# Describe pods by label name=myLabel\n" "\t\tkubectl describe po -l name=myLabel\n" "\n" "\t\t# Describe all pods managed by the 'frontend' replication controller (rc-created pods\n" "\t\t# get the name of the rc as a prefix in the pod the name).\n" "\t\tkubectl describe pods frontend" msgstr "" "\n" "\t\t# 描述一个 node\n" "\t\tkubectl describe nodes kubernetes-node-emt8.c.myproject.internal\n" "\n" "\t\t# 描述一个 pod\n" "\t\tkubectl describe pods/nginx\n" "\n" "\t\t# 描述一个被 \"pod.json\" 中的类型和名称标识的 pod\n" "\t\tkubectl describe -f pod.json\n" "\n" "\t\t# 描述所有 pods\n" "\t\tkubectl describe pods\n" "\n" "\t\t# 描述标签为 name=myLabel 的 pods\n" "\t\tkubectl describe po -l name=myLabel\n" "\n" "\t\t# 描述所有被名称为 'frontend' 的 replication controller 管理的 pods(rc-创建 pods\n" "\t\t# 并使用 rc 的名称作为 pod 的前缀).\n" "\t\tkubectl describe pods frontend" #: pkg/kubectl/cmd/drain.go:165 msgid "" "\n" "\t\t# Drain node \"foo\", even if there are pods not managed by a ReplicationController, ReplicaSet, Job, DaemonSet or StatefulSet on it.\n" "\t\t$ kubectl drain foo --force\n" "\n" "\t\t# As above, but abort if there are pods not managed by a ReplicationController, ReplicaSet, Job, DaemonSet 或者 StatefulSet, and use a grace period of 15 minutes.\n" "\t\t$ kubectl drain foo --grace-period=900" msgstr "" "\n" "\t\t# 驱逐节点 \"foo\", 即使很多 pods 没有被一个在 node 上的 ReplicationController, ReplicaSet, Job, DaemonSet 或者 StatefulSet 管理.\n" "\t\t$ kubectl drain foo --force\n" "\n" "\t\t# 同上, 如果存在 pods 没有被一个 ReplicationController, ReplicaSet, Job, DaemonSet 或者 StatefulSet 管理超过 15 分钟则退出.\n" "\t\t$ kubectl drain foo --grace-period=900" #: pkg/kubectl/cmd/edit.go:80 msgid "" "\n" "\t\t# Edit the service named 'docker-registry':\n" "\t\tkubectl edit svc/docker-registry\n" "\n" "\t\t# Use an alternative editor\n" "\t\tKUBE_EDITOR=\"nano\" kubectl edit svc/docker-registry\n" "\n" "\t\t# Edit the job 'myjob' in JSON using the v1 API format:\n" "\t\tkubectl edit job.v1.batch/myjob -o json\n" "\n" "\t\t# Edit the deployment 'mydeployment' in YAML and save the modified config in its annotation:\n" "\t\tkubectl edit deployment/mydeployment -o yaml --save-config" msgstr "" "\n" "\t\t# 编辑名为 'docker-registry' 的 service:\n" "\t\tkubectl edit svc/docker-registry\n" "\n" "\t\t# 使用一个可选择的编辑器\n" "\t\tKUBE_EDITOR=\"nano\" kubectl edit svc/docker-registry\n" "\n" "\t\t# 使用 v1 API 格式的 JSON 编辑名为 'myjob' 的 job:\n" "\t\tkubectl edit job.v1.batch/myjob -o json\n" "\n" "\t\t# 在 YAML 中编辑名为 'mydeployment' 的 deployment 并在它的注解中保存修改后的配置:\n" "\t\tkubectl edit deployment/mydeployment -o yaml --save-config" #: pkg/kubectl/cmd/exec.go:41 msgid "" "\n" "\t\t# Get output from running 'date' from pod 123456-7890, using the first container by default\n" "\t\tkubectl exec 123456-7890 date\n" "\n" "\t\t# Get output from running 'date' in ruby-container from pod 123456-7890\n" "\t\tkubectl exec 123456-7890 -c ruby-container date\n" "\n" "\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container from pod 123456-7890\n" "\t\t# and sends stdout/stderr from 'bash' back to the client\n" "\t\tkubectl exec 123456-7890 -c ruby-container -i -t -- bash -il" msgstr "" "\n" "\t\t# 从运行中pod 123456-7890 获取执行 'date' 的输出, 默认使用第一个容器\n" "\t\tkubectl exec 123456-7890 date\n" "\n" "\t\t# 从 pod 123456-7890 的容器 ruby-container 获取执行 'date' 的输出\n" "\t\tkubectl exec 123456-7890 -c ruby-container date\n" "\n" "\t\t# 切换到 terminal 模式, 发送 stdin 到运行在 pod 123456-7890 的容器 ruby-container 'bash' \n" "\t\t# 并从 'bash' 发送 stdout/stderr 返回到 client\n" "\t\tkubectl exec 123456-7890 -c ruby-container -i -t -- bash -il" #: pkg/kubectl/cmd/attach.go:42 msgid "" "\n" "\t\t# Get output from running pod 123456-7890, using the first container by default\n" "\t\tkubectl attach 123456-7890\n" "\n" "\t\t# Get output from ruby-container from pod 123456-7890\n" "\t\tkubectl attach 123456-7890 -c ruby-container\n" "\n" "\t\t# Switch to raw terminal mode, sends stdin to 'bash' in ruby-container from pod 123456-7890\n" "\t\t# and sends stdout/stderr from 'bash' back to the client\n" "\t\tkubectl attach 123456-7890 -c ruby-container -i -t\n" "\n" "\t\t# Get output from the first pod of a ReplicaSet named nginx\n" "\t\tkubectl attach rs/nginx\n" "\t\t" msgstr "" "\n" "\t\t# 从运行中pod 123456-7890 获取执行 'date' 的输出, 默认使用第一个容器\n" "\t\tkubectl attach 123456-7890\n" "\n" "\t\t# 从 pod 123456-7890 的容器 ruby-container 获取输出\n" "\t\tkubectl attach 123456-7890 -c ruby-container\n" "\n" "\t\t# 切换到 terminal 模式, 发送 stdin 到运行在 pod 123456-7890 的容器 ruby-container 'bash' \n" "\t\t# 并从 'bash' 发送 stdout/stderr 返回到 client\n" "\t\tkubectl attach 123456-7890 -c ruby-container -i -t\n" "\n" "\t\t# 从名称为 nginx 的 ReplicaSet 获取第一个 pod 的输出\n" "\t\tkubectl attach rs/nginx\n" "\t\t" #: pkg/kubectl/cmd/explain.go:39 msgid "" "\n" "\t\t# Get the documentation of the resource and its fields\n" "\t\tkubectl explain pods\n" "\n" "\t\t# Get the documentation of a specific field of a resource\n" "\t\tkubectl explain pods.spec.containers" msgstr "" "\n" "\t\t# 获取资源及其字段的文档\n" "\t\tkubectl explain pods\n" "\n" "\t\t# 获取资源指定字段的文档\n" "\t\tkubectl explain pods.spec.containers" #: pkg/kubectl/cmd/completion.go:65 msgid "" "\n" "\t\t# Install bash completion on a Mac using homebrew\n" "\t\tbrew install bash-completion\n" "\t\tprintf \"\n" "# Bash completion support\n" "source $(brew --prefix)/etc/bash_completion\n" "\" >> $HOME/.bash_profile\n" "\t\tsource $HOME/.bash_profile\n" "\n" "\t\t# Load the kubectl completion code for bash into the current shell\n" "\t\tsource <(kubectl completion bash)\n" "\n" "\t\t# Write bash completion code to a file and source if from .bash_profile\n" "\t\tkubectl completion bash > ~/.kube/completion.bash.inc\n" "\t\tprintf \"\n" "# Kubectl shell completion\n" "source '$HOME/.kube/completion.bash.inc'\n" "\" >> $HOME/.bash_profile\n" "\t\tsource $HOME/.bash_profile\n" "\n" "\t\t# Load the kubectl completion code for zsh[1] into the current shell\n" "\t\tsource <(kubectl completion zsh)" msgstr "" "\n" "\t\t# 在一个 Mac 中使用 homebrew 安装 bash 补全\n" "\t\tbrew install bash-completion\n" "\t\tprintf \"\n" "# Bash 补全支持\n" "source $(brew --prefix)/etc/bash_completion\n" "\" >> $HOME/.bash_profile\n" "\t\tsource $HOME/.bash_profile\n" "\n" "\t\t# 导入 kubectl 补全代码到当前 shell\n" "\t\tsource <(kubectl completion bash)\n" "\n" "\t\t# 写入 bash 补全代码到一个文件并 source 如果它是 .bash_profile\n" "\t\tkubectl completion bash > ~/.kube/completion.bash.inc\n" "\t\tprintf \"\n" "# Kubectl shell 补全\n" "source '$HOME/.kube/completion.bash.inc'\n" "\" >> $HOME/.bash_profile\n" "\t\tsource $HOME/.bash_profile\n" "\n" "\t\t# 为 zsh[1] 导入 kubectl 补全代码到当前 shell\n" "\t\tsource <(kubectl completion zsh)" #: pkg/kubectl/cmd/get.go:64 msgid "" "\n" "\t\t# List all pods in ps output format.\n" "\t\tkubectl get pods\n" "\n" "\t\t# List all pods in ps output format with more information (such as node name).\n" "\t\tkubectl get pods -o wide\n" "\n" "\t\t# List a single replication controller with specified NAME in ps output format.\n" "\t\tkubectl get replicationcontroller web\n" "\n" "\t\t# List a single pod in JSON output format.\n" "\t\tkubectl get -o json pod web-pod-13je7\n" "\n" "\t\t# List a pod identified by type and name specified in \"pod.yaml\" in JSON output format.\n" "\t\tkubectl get -f pod.yaml -o json\n" "\n" "\t\t# Return only the phase value of the specified pod.\n" "\t\tkubectl get -o template pod/web-pod-13je7 --template={{.status.phase}}\n" "\n" "\t\t# List all replication controllers and services together in ps output format.\n" "\t\tkubectl get rc,services\n" "\n" "\t\t# List one or more resources by their type and names.\n" "\t\tkubectl get rc/web service/frontend pods/web-pod-13je7\n" "\n" "\t\t# List all resources with different types.\n" "\t\tkubectl get all" msgstr "" "\n" "\t\t# 以 ps 输出格式列出所有 pod.\n" "\t\tkubectl get pods\n" "\n" "\t\t# 以 ps 输出格式列出所有 pod(如节点名称).\n" "\t\tkubectl get pods -o wide\n" "\n" "\t\t# 获取名称为 web 的 replicationcontroller.\n" "\t\tkubectl get replicationcontroller web\n" "\n" "\t\t# 使用 JSON 格式化输出显示一个单独的 pod.\n" "\t\tkubectl get -o json pod web-pod-13je7\n" "\n" "\t\t# 显示一个被 \"pod.yaml\" 中的 type 和 name 标识的 pod 并使用 JSON 格式化输出.\n" "\t\tkubectl get -f pod.yaml -o json\n" "\n" "\t\t# 只返回被指定 pod 中 phase 的值.\n" "\t\tkubectl get -o template pod/web-pod-13je7 --template={{.status.phase}}\n" "\n" "\t\t# 显示所有的 replication controllers 和 services 并格式化输出.\n" "\t\tkubectl get rc,services\n" "\n" "\t\t# 显示一个或者更多 resources 通过它们的 type 和 names.\n" "\t\tkubectl get rc/web service/frontend pods/web-pod-13je7\n" "\n" "\t\t# 使用不同的 types 显示所有 resources.\n" "\t\tkubectl get all" #: pkg/kubectl/cmd/portforward.go:53 msgid "" "\n" "\t\t# Listen on ports 5000 and 6000 locally, forwarding data to/from ports 5000 and 6000 in the pod\n" "\t\tkubectl port-forward mypod 5000 6000\n" "\n" "\t\t# Listen on port 8888 locally, forwarding to 5000 in the pod\n" "\t\tkubectl port-forward mypod 8888:5000\n" "\n" "\t\t# Listen on a random port locally, forwarding to 5000 in the pod\n" "\t\tkubectl port-forward mypod :5000\n" "\n" "\t\t# Listen on a random port locally, forwarding to 5000 in the pod\n" "\t\tkubectl port-forward mypod 0:5000" msgstr "" "\n" "\t\t# 在本地监听端口 5000 和 6000 , forwarding 数据 to/from 在 pod 5000 和 6000 端口\n" "\t\tkubectl port-forward mypod 5000 6000\n" "\n" "\t\t# 在本地监听端口 8888 , forwarding 到 pod 的 5000端口\n" "\t\tkubectl port-forward mypod 8888:5000\n" "\n" "\t\t# 在本地随机监听一个端口 , forwarding 到 pod 的 5000端口\n" "\t\tkubectl port-forward mypod :5000\n" "\n" "\t\t# 在本地随机监听一个端口 , forwarding 到 pod 的 5000端口\n" "\t\tkubectl port-forward mypod 0:5000" #: pkg/kubectl/cmd/drain.go:118 msgid "" "\n" "\t\t# Mark node \"foo\" as schedulable.\n" "\t\t$ kubectl uncordon foo" msgstr "" "\n" "\t\t# 标记 node \"foo\" 为 schedulable.\n" "\t\t$ kubectl uncordon foo" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/drain.go#L102 #: pkg/kubectl/cmd/drain.go:93 msgid "" "\n" "\t\t# Mark node \"foo\" as unschedulable.\n" "\t\tkubectl cordon foo" msgstr "" "\n" "\t\t# 标记 node \"foo\" 为 unschedulable.\n" "\t\tkubectl cordon foo" #: pkg/kubectl/cmd/patch.go:66 msgid "" "\n" "\t\t# Partially update a node using strategic merge patch\n" "\t\tkubectl patch node k8s-node-1 -p '{\"spec\":{\"unschedulable\":true}}'\n" "\n" "\t\t# Partially update a node identified by the type and name specified in \"node.json\" using strategic merge patch\n" "\t\tkubectl patch -f node.json -p '{\"spec\":{\"unschedulable\":true}}'\n" "\n" "\t\t# Update a container's image; spec.containers[*].name is required because it's a merge key\n" "\t\tkubectl patch pod valid-pod -p '{\"spec\":{\"containers\":[{\"name\":\"kubernetes-serve-hostname\",\"image\":\"new image\"}]}}'\n" "\n" "\t\t# Update a container's image using a json patch with positional arrays\n" "\t\tkubectl patch pod valid-pod --type='json' -p='[{\"op\": \"replace\", \"path\": \"/spec/containers/0/image\", \"value\":\"new image\"}]'" msgstr "" "\n" "\t\t# 使用 strategic merge patch 部分更新一个 node\n" "\t\tkubectl patch node k8s-node-1 -p '{\"spec\":{\"unschedulable\":true}}'\n" "\n" "\t\t# 使用 strategic merge patch 部分更新一个被 \"node.json\" 的 type 和 name 标示 的 node.\n" "\t\tkubectl patch -f node.json -p '{\"spec\":{\"unschedulable\":true}}'\n" "\n" "\t\t# 更新一个 container 的 image; spec.containers[*].name 是必须的 因为它是一个 merge key\n" "\t\tkubectl patch pod valid-pod -p '{\"spec\":{\"containers\":[{\"name\":\"kubernetes-serve-hostname\",\"image\":\"new image\"}]}}'\n" "\n" "\t\t# 使用一个 json patch 更新一个指定坐标的 container 的 image \n" "\t\tkubectl patch pod valid-pod --type='json' -p='[{\"op\": \"replace\", \"path\": \"/spec/containers/0/image\", \"value\":\"new image\"}]'" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/options.go#L37 #: pkg/kubectl/cmd/options.go:29 msgid "" "\n" "\t\t# Print flags inherited by all commands\n" "\t\tkubectl options" msgstr "" "\n" "\t\t# 输出所有命令继承的 flags\n" "\t\tkubectl options" #: pkg/kubectl/cmd/clusterinfo.go:41 msgid "" "\n" "\t\t# Print the address of the master and cluster services\n" "\t\tkubectl cluster-info" msgstr "" "\n" "\t\t# 输出 master 和 cluster services 的地址\n" "\t\tkubectl cluster-info" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/version.go#L39 #: pkg/kubectl/cmd/version.go:32 msgid "" "\n" "\t\t# Print the client and server versions for the current context\n" "\t\tkubectl version" msgstr "" "\n" "\t\t# 输出当前 client 和 server 版本\n" "\t\tkubectl version" #: pkg/kubectl/cmd/apiversions.go:34 msgid "" "\n" "\t\t# Print the supported API versions\n" "\t\tkubectl api-versions" msgstr "" "\n" "\t\t# 输出支持的 API 版本\n" "\t\tkubectl api-versions" #: pkg/kubectl/cmd/replace.go:50 msgid "" "\n" "\t\t# Replace a pod using the data in pod.json.\n" "\t\tkubectl replace -f ./pod.json\n" "\n" "\t\t# Replace a pod based on the JSON passed into stdin.\n" "\t\tcat pod.json | kubectl replace -f -\n" "\n" "\t\t# Update a single-container pod's image version (tag) to v4\n" "\t\tkubectl get pod mypod -o yaml | sed 's/\\(image: myimage\\):.*$/:v4/' | kubectl replace -f -\n" "\n" "\t\t# Force replace, delete and then re-create the resource\n" "\t\tkubectl replace --force -f ./pod.json" msgstr "" "\n" "\t\t# 使用在 pod.json 中的数据替换一个 pod.\n" "\t\tkubectl replace -f ./pod.json\n" "\n" "\t\t# 基于被重定向到 stdin 中的 JSON 替换一个 pod.\n" "\t\tcat pod.json | kubectl replace -f -\n" "\n" "\t\t# 更新一个单独容器的 pod 的 image 版本 (tag) 到 v4\n" "\t\tkubectl get pod mypod -o yaml | sed 's/\\(image: myimage\\):.*$/:v4/' | kubectl replace -f -\n" "\n" "\t\t# 强制替换, 删除然后重新创建这个 resource\n" "\t\tkubectl replace --force -f ./pod.json" #: pkg/kubectl/cmd/logs.go:40 msgid "" "\n" "\t\t# Return snapshot logs from pod nginx with only one container\n" "\t\tkubectl logs nginx\n" "\n" "\t\t# Return snapshot logs for the pods defined by label app=nginx\n" "\t\tkubectl logs -lapp=nginx\n" "\n" "\t\t# Return snapshot of previous terminated ruby container logs from pod web-1\n" "\t\tkubectl logs -p -c ruby web-1\n" "\n" "\t\t# Begin streaming the logs of the ruby container in pod web-1\n" "\t\tkubectl logs -f -c ruby web-1\n" "\n" "\t\t# Display only the most recent 20 lines of output in pod nginx\n" "\t\tkubectl logs --tail=20 nginx\n" "\n" "\t\t# Show all logs from pod nginx written in the last hour\n" "\t\tkubectl logs --since=1h nginx\n" "\n" "\t\t# Return snapshot logs from first container of a job named hello\n" "\t\tkubectl logs job/hello\n" "\n" "\t\t# Return snapshot logs from container nginx-1 of a deployment named nginx\n" "\t\tkubectl logs deployment/nginx -c nginx-1" msgstr "" "\n" "\t\t# 返回仅有一个容器 pod 名称为 nginx 的 snapshot 日志\n" "\t\tkubectl logs nginx\n" "\n" "\t\t# 返回 label 为 app=nginx 的 pods 的 snapshot 日志\n" "\t\tkubectl logs -lapp=nginx\n" "\n" "\t\t# Return snapshot of previous terminated ruby container logs from pod web-1\n" "\t\tkubectl logs -p -c ruby web-1\n" "\n" "\t\t# Begin streaming the logs of the ruby container in pod web-1\n" "\t\tkubectl logs -f -c ruby web-1\n" "\n" "\t\t# Display only the most recent 20 lines of output in pod nginx\n" "\t\tkubectl logs --tail=20 nginx\n" "\n" "\t\t# Show all logs from pod nginx written in the last hour\n" "\t\tkubectl logs --since=1h nginx\n" "\n" "\t\t# Return snapshot logs from first container of a job named hello\n" "\t\tkubectl logs job/hello\n" "\n" "\t\t# Return snapshot logs from container nginx-1 of a deployment named nginx\n" "\t\tkubectl logs deployment/nginx -c nginx-1" #: pkg/kubectl/cmd/proxy.go:53 msgid "" "\n" "\t\t# Run a proxy to kubernetes apiserver on port 8011, serving static content from ./local/www/\n" "\t\tkubectl proxy --port=8011 --www=./local/www/\n" "\n" "\t\t# Run a proxy to kubernetes apiserver on an arbitrary local port.\n" "\t\t# The chosen port for the server will be output to stdout.\n" "\t\tkubectl proxy --port=0\n" "\n" "\t\t# Run a proxy to kubernetes apiserver, changing the api prefix to k8s-api\n" "\t\t# This makes e.g. the pods api available at localhost:8001/k8s-api/v1/pods/\n" "\t\tkubectl proxy --api-prefix=/k8s-api" msgstr "" "\n" "\t\t# 运行 proxy 到 kubernetes apiserver 的 8011 端口上, 服务静态内容路径为 ./local/www/\n" "\t\tkubectl proxy --port=8011 --www=./local/www/\n" "\n" "\t\t# 在任意的本地端口上运行一个 proxy 到 kubernetes apiserver.\n" "\t\t# 为这个 server 挑选的端口将会被输出到 stdout.\n" "\t\tkubectl proxy --port=0\n" "\n" "\t\t# 运行一个 proxy 到 kubernetes apiserver, 修改 api prefix 为 k8s-api\n" "\t\t# 这会使 e.g. 这个 pods 的有效 api 为 localhost:8001/k8s-api/v1/pods/\n" "\t\tkubectl proxy --api-prefix=/k8s-api" #: pkg/kubectl/cmd/scale.go:43 msgid "" "\n" "\t\t# Scale a replicaset named 'foo' to 3.\n" "\t\tkubectl scale --replicas=3 rs/foo\n" "\n" "\t\t# Scale a resource identified by type and name specified in \"foo.yaml\" to 3.\n" "\t\tkubectl scale --replicas=3 -f foo.yaml\n" "\n" "\t\t# If the deployment named mysql's current size is 2, scale mysql to 3.\n" "\t\tkubectl scale --current-replicas=2 --replicas=3 deployment/mysql\n" "\n" "\t\t# Scale multiple replication controllers.\n" "\t\tkubectl scale --replicas=5 rc/foo rc/bar rc/baz\n" "\n" "\t\t# Scale job named 'cron' to 3.\n" "\t\tkubectl scale --replicas=3 job/cron" msgstr "" "\n" "\t\t# Scale 一个名称为 ‘foo’ 的 replicaset 服本数为 3.\n" "\t\tkubectl scale --replicas=3 rs/foo\n" "\n" "\t\t# Scale 指定的 \"foo.yaml\" 的 type 和 name 标识的 resource 副本数量为 3.\n" "\t\tkubectl scale --replicas=3 -f foo.yaml\n" "\n" "\t\t# 如果名称为 mysql 的 deployment 当前副本数量为 2, scale mysql 到 3.\n" "\t\tkubectl scale --current-replicas=2 --replicas=3 deployment/mysql\n" "\n" "\t\t# Scale 多个 replication controllers.\n" "\t\tkubectl scale --replicas=5 rc/foo rc/bar rc/baz\n" "\n" "\t\t# Scale 名称为 ’cron’ 的 job 副本数量为 3.\n" "\t\tkubectl scale --replicas=3 job/cron" #: pkg/kubectl/cmd/apply_set_last_applied.go:67 msgid "" "\n" "\t\t# Set the last-applied-configuration of a resource to match the contents of a file.\n" "\t\tkubectl apply set-last-applied -f deploy.yaml\n" "\n" "\t\t# Execute set-last-applied against each configuration file in a directory.\n" "\t\tkubectl apply set-last-applied -f path/\n" "\n" "\t\t# Set the last-applied-configuration of a resource to match the contents of a file, will create the annotation if it does not already exist.\n" "\t\tkubectl apply set-last-applied -f deploy.yaml --create-annotation=true\n" "\t\t" msgstr "" "\n" "\t\t# 设置一个资源的 last-applied-configuration 去匹配一个文件的内容.\n" "\t\tkubectl apply set-last-applied -f deploy.yaml\n" "\n" "\t\t# Execute set-last-applied against each configuration file in a directory.\n" "\t\tkubectl apply set-last-applied -f path/\n" "\n" "\t\t# 设置一个资源的 last-applied-configuration 去匹配一个文件的内容, 如果不存在将会创建一个 annotation.\n" "\t\tkubectl apply set-last-applied -f deploy.yaml --create-annotation=true\n" "\t\t" #: pkg/kubectl/cmd/top_pod.go:61 msgid "" "\n" "\t\t# Show metrics for all pods in the default namespace\n" "\t\tkubectl top pod\n" "\n" "\t\t# Show metrics for all pods in the given namespace\n" "\t\tkubectl top pod --namespace=NAMESPACE\n" "\n" "\t\t# Show metrics for a given pod and its containers\n" "\t\tkubectl top pod POD_NAME --containers\n" "\n" "\t\t# Show metrics for the pods defined by label name=myLabel\n" "\t\tkubectl top pod -l name=myLabel" msgstr "" "\n" "\t\t# 显示 default namespace 下所有 pods 下的 metrics\n" "\t\tkubectl top pod\n" "\n" "\t\t# 显示指定 namespace 下所有 pods 的 metrics\n" "\t\tkubectl top pod --namespace=NAMESPACE\n" "\n" "\t\t# 显示指定 pod 和它的容器的 metrics\n" "\t\tkubectl top pod POD_NAME --containers\n" "\n" "\t\t# 显示指定 label 为 name=myLabel 的 pods 的 metrics\n" "\t\tkubectl top pod -l name=myLabel" #: pkg/kubectl/cmd/stop.go:40 msgid "" "\n" "\t\t# Shut down foo.\n" "\t\tkubectl stop replicationcontroller foo\n" "\n" "\t\t# Stop pods and services with label name=myLabel.\n" "\t\tkubectl stop pods,services -l name=myLabel\n" "\n" "\t\t# Shut down the service defined in service.json\n" "\t\tkubectl stop -f service.json\n" "\n" "\t\t# Shut down all resources in the path/to/resources directory\n" "\t\tkubectl stop -f path/to/resources" msgstr "" "\n" "\t\t# Shut down foo.\n" "\t\tkubectl stop replicationcontroller foo\n" "\n" "\t\t# Stop pods and services with label name=myLabel.\n" "\t\tkubectl stop pods,services -l name=myLabel\n" "\n" "\t\t# Shut down the service defined in service.json\n" "\t\tkubectl stop -f service.json\n" "\n" "\t\t# Shut down all resources in the path/to/resources directory\n" "\t\tkubectl stop -f path/to/resources" #: pkg/kubectl/cmd/run.go:57 msgid "" "\n" "\t\t# Start a single instance of nginx.\n" "\t\tkubectl run nginx --image=nginx\n" "\n" "\t\t# Start a single instance of hazelcast and let the container expose port 5701 .\n" "\t\tkubectl run hazelcast --image=hazelcast --port=5701\n" "\n" "\t\t# Start a single instance of hazelcast and set environment variables \"DNS_DOMAIN=cluster\" and \"POD_NAMESPACE=default\" in the container.\n" "\t\tkubectl run hazelcast --image=hazelcast --env=\"DNS_DOMAIN=cluster\" --env=\"POD_NAMESPACE=default\"\n" "\n" "\t\t# Start a replicated instance of nginx.\n" "\t\tkubectl run nginx --image=nginx --replicas=5\n" "\n" "\t\t# Dry run. Print the corresponding API objects without creating them.\n" "\t\tkubectl run nginx --image=nginx --dry-run\n" "\n" "\t\t# Start a single instance of nginx, but overload the spec of the deployment with a partial set of values parsed from JSON.\n" "\t\tkubectl run nginx --image=nginx --overrides='{ \"apiVersion\": \"v1\", \"spec\": { ... } }'\n" "\n" "\t\t# Start a pod of busybox and keep it in the foreground, don't restart it if it exits.\n" "\t\tkubectl run -i -t busybox --image=busybox --restart=Never\n" "\n" "\t\t# Start the nginx container using the default command, but use custom arguments (arg1 .. argN) for that command.\n" "\t\tkubectl run nginx --image=nginx -- ... \n" "\n" "\t\t# Start the nginx container using a different command and custom arguments.\n" "\t\tkubectl run nginx --image=nginx --command -- ... \n" "\n" "\t\t# Start the perl container to compute π to 2000 places and print it out.\n" "\t\tkubectl run pi --image=perl --restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'\n" "\n" "\t\t# Start the cron job to compute π to 2000 places and print it out every 5 minutes.\n" "\t\tkubectl run pi --schedule=\"0/5 * * * ?\" --image=perl --restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'" msgstr "" "\n" "\t\t# Start a single instance of nginx.\n" "\t\tkubectl run nginx --image=nginx\n" "\n" "\t\t# Start a single instance of hazelcast and let the container expose port 5701 .\n" "\t\tkubectl run hazelcast --image=hazelcast --port=5701\n" "\n" "\t\t# Start a single instance of hazelcast and set environment variables \"DNS_DOMAIN=cluster\" and \"POD_NAMESPACE=default\" in the container.\n" "\t\tkubectl run hazelcast --image=hazelcast --env=\"DNS_DOMAIN=cluster\" --env=\"POD_NAMESPACE=default\"\n" "\n" "\t\t# Start a replicated instance of nginx.\n" "\t\tkubectl run nginx --image=nginx --replicas=5\n" "\n" "\t\t# Dry run. Print the corresponding API objects without creating them.\n" "\t\tkubectl run nginx --image=nginx --dry-run\n" "\n" "\t\t# Start a single instance of nginx, but overload the spec of the deployment with a partial set of values parsed from JSON.\n" "\t\tkubectl run nginx --image=nginx --overrides='{ \"apiVersion\": \"v1\", \"spec\": { ... } }'\n" "\n" "\t\t# Start a pod of busybox and keep it in the foreground, don't restart it if it exits.\n" "\t\tkubectl run -i -t busybox --image=busybox --restart=Never\n" "\n" "\t\t# Start the nginx container using the default command, but use custom arguments (arg1 .. argN) for that command.\n" "\t\tkubectl run nginx --image=nginx -- ... \n" "\n" "\t\t# Start the nginx container using a different command and custom arguments.\n" "\t\tkubectl run nginx --image=nginx --command -- ... \n" "\n" "\t\t# Start the perl container to compute π to 2000 places and print it out.\n" "\t\tkubectl run pi --image=perl --restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'\n" "\n" "\t\t# Start the cron job to compute π to 2000 places and print it out every 5 minutes.\n" "\t\tkubectl run pi --schedule=\"0/5 * * * ?\" --image=perl --restart=OnFailure -- perl -Mbignum=bpi -wle 'print bpi(2000)'" #: pkg/kubectl/cmd/taint.go:67 msgid "" "\n" "\t\t# Update node 'foo' with a taint with key 'dedicated' and value 'special-user' and effect 'NoSchedule'.\n" "\t\t# If a taint with that key and effect already exists, its value is replaced as specified.\n" "\t\tkubectl taint nodes foo dedicated=special-user:NoSchedule\n" "\n" "\t\t# Remove from node 'foo' the taint with key 'dedicated' and effect 'NoSchedule' if one exists.\n" "\t\tkubectl taint nodes foo dedicated:NoSchedule-\n" "\n" "\t\t# Remove from node 'foo' all the taints with key 'dedicated'\n" "\t\tkubectl taint nodes foo dedicated-" msgstr "" "\n" "\t\t# Update node 'foo' with a taint with key 'dedicated' and value 'special-user' and effect 'NoSchedule'.\n" "\t\t# If a taint with that key and effect already exists, its value is replaced as specified.\n" "\t\tkubectl taint nodes foo dedicated=special-user:NoSchedule\n" "\n" "\t\t# Remove from node 'foo' the taint with key 'dedicated' and effect 'NoSchedule' if one exists.\n" "\t\tkubectl taint nodes foo dedicated:NoSchedule-\n" "\n" "\t\t# Remove from node 'foo' all the taints with key 'dedicated'\n" "\t\tkubectl taint nodes foo dedicated-" #: pkg/kubectl/cmd/label.go:77 msgid "" "\n" "\t\t# Update pod 'foo' with the label 'unhealthy' and the value 'true'.\n" "\t\tkubectl label pods foo unhealthy=true\n" "\n" "\t\t# Update pod 'foo' with the label 'status' and the value 'unhealthy', overwriting any existing value.\n" "\t\tkubectl label --overwrite pods foo status=unhealthy\n" "\n" "\t\t# Update all pods in the namespace\n" "\t\tkubectl label pods --all status=unhealthy\n" "\n" "\t\t# Update a pod identified by the type and name in \"pod.json\"\n" "\t\tkubectl label -f pod.json status=unhealthy\n" "\n" "\t\t# Update pod 'foo' only if the resource is unchanged from version 1.\n" "\t\tkubectl label pods foo status=unhealthy --resource-version=1\n" "\n" "\t\t# Update pod 'foo' by removing a label named 'bar' if it exists.\n" "\t\t# Does not require the --overwrite flag.\n" "\t\tkubectl label pods foo bar-" msgstr "" "\n" "\t\t# Update pod 'foo' with the label 'unhealthy' and the value 'true'.\n" "\t\tkubectl label pods foo unhealthy=true\n" "\n" "\t\t# Update pod 'foo' with the label 'status' and the value 'unhealthy', overwriting any existing value.\n" "\t\tkubectl label --overwrite pods foo status=unhealthy\n" "\n" "\t\t# Update all pods in the namespace\n" "\t\tkubectl label pods --all status=unhealthy\n" "\n" "\t\t# Update a pod identified by the type and name in \"pod.json\"\n" "\t\tkubectl label -f pod.json status=unhealthy\n" "\n" "\t\t# Update pod 'foo' only if the resource is unchanged from version 1.\n" "\t\tkubectl label pods foo status=unhealthy --resource-version=1\n" "\n" "\t\t# Update pod 'foo' by removing a label named 'bar' if it exists.\n" "\t\t# Does not require the --overwrite flag.\n" "\t\tkubectl label pods foo bar-" #: pkg/kubectl/cmd/rollingupdate.go:54 msgid "" "\n" "\t\t# Update pods of frontend-v1 using new replication controller data in frontend-v2.json.\n" "\t\tkubectl rolling-update frontend-v1 -f frontend-v2.json\n" "\n" "\t\t# Update pods of frontend-v1 using JSON data passed into stdin.\n" "\t\tcat frontend-v2.json | kubectl rolling-update frontend-v1 -f -\n" "\n" "\t\t# Update the pods of frontend-v1 to frontend-v2 by just changing the image, and switching the\n" "\t\t# name of the replication controller.\n" "\t\tkubectl rolling-update frontend-v1 frontend-v2 --image=image:v2\n" "\n" "\t\t# Update the pods of frontend by just changing the image, and keeping the old name.\n" "\t\tkubectl rolling-update frontend --image=image:v2\n" "\n" "\t\t# Abort and reverse an existing rollout in progress (from frontend-v1 to frontend-v2).\n" "\t\tkubectl rolling-update frontend-v1 frontend-v2 --rollback" msgstr "" "\n" "\t\t# Update pods of frontend-v1 using new replication controller data in frontend-v2.json.\n" "\t\tkubectl rolling-update frontend-v1 -f frontend-v2.json\n" "\n" "\t\t# Update pods of frontend-v1 using JSON data passed into stdin.\n" "\t\tcat frontend-v2.json | kubectl rolling-update frontend-v1 -f -\n" "\n" "\t\t# Update the pods of frontend-v1 to frontend-v2 by just changing the image, and switching the\n" "\t\t# name of the replication controller.\n" "\t\tkubectl rolling-update frontend-v1 frontend-v2 --image=image:v2\n" "\n" "\t\t# Update the pods of frontend by just changing the image, and keeping the old name.\n" "\t\tkubectl rolling-update frontend --image=image:v2\n" "\n" "\t\t# Abort and reverse an existing rollout in progress (from frontend-v1 to frontend-v2).\n" "\t\tkubectl rolling-update frontend-v1 frontend-v2 --rollback" #: pkg/kubectl/cmd/apply_view_last_applied.go:52 msgid "" "\n" "\t\t# View the last-applied-configuration annotations by type/name in YAML.\n" "\t\tkubectl apply view-last-applied deployment/nginx\n" "\n" "\t\t# View the last-applied-configuration annotations by file in JSON\n" "\t\tkubectl apply view-last-applied -f deploy.yaml -o json" msgstr "" "\n" "\t\t# View the last-applied-configuration annotations by type/name in YAML.\n" "\t\tkubectl apply view-last-applied deployment/nginx\n" "\n" "\t\t# View the last-applied-configuration annotations by file in JSON\n" "\t\tkubectl apply view-last-applied -f deploy.yaml -o json" #: pkg/kubectl/cmd/apply.go:75 msgid "" "\n" "\t\tApply a configuration to a resource by filename or stdin.\n" "\t\tThis resource will be created if it doesn't exist yet.\n" "\t\tTo use 'apply', always create the resource initially with either 'apply' or 'create --save-config'.\n" "\n" "\t\tJSON and YAML formats are accepted.\n" "\n" "\t\tAlpha Disclaimer: the --prune functionality is not yet complete. Do not use unless you are aware of what the current state is. See https://issues.k8s.io/34274." msgstr "" "\n" "\t\t通过文件名或标准输入流(stdin)对资源进行配置.\n" "\t\tThis resource will be created if it doesn't exist yet.\n" "\t\tTo use 'apply', always create the resource initially with either 'apply' or 'create --save-config'.\n" "\n" "\t\tJSON and YAML formats are accepted.\n" "\n" "\t\tAlpha Disclaimer: the --prune functionality is not yet complete. Do not use unless you are aware of what the current state is. See https://issues.k8s.io/34274." #: pkg/kubectl/cmd/convert.go:38 msgid "" "\n" "\t\tConvert config files between different API versions. Both YAML\n" "\t\tand JSON formats are accepted.\n" "\n" "\t\tThe command takes filename, directory, or URL as input, and convert it into format\n" "\t\tof version specified by --output-version flag. If target version is not specified or\n" "\t\tnot supported, convert to latest version.\n" "\n" "\t\tThe default output will be printed to stdout in YAML format. One can use -o option\n" "\t\tto change to output destination." msgstr "" "\n" "\t\t在不同的 API versions 转换配置文件. 接受 YAML\n" "\t\t和 JSON 格式.\n" "\n" "\t\t这个命令以 filename, directory, 或者 URL 作为输入, 并通过 —output-version flag\n" "\t\t 转换到指定版本的格式. 如果目标版本没有被指定或者\n" "\t\t不支持, 转换到最后的版本.\n" "\n" "\t\t默认以 YAML 格式输出到 stdout. 可以使用 -o option\n" "\t\t修改目标输出的格式." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_service.go#L68 #: pkg/kubectl/cmd/create_clusterrole.go:31 msgid "" "\n" "\t\tCreate a ClusterRole." msgstr "" "\n" "\t\t创建一个 ClusterRole." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_clusterrolebinding.go#L43 #: pkg/kubectl/cmd/create_clusterrolebinding.go:32 msgid "" "\n" "\t\tCreate a ClusterRoleBinding for a particular ClusterRole." msgstr "" "\n" "\t\t 为指定的 ClusterRole 创建一个 ClusterRoleBinding." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_rolebinding.go#L43 #: pkg/kubectl/cmd/create_rolebinding.go:32 msgid "" "\n" "\t\tCreate a RoleBinding for a particular Role or ClusterRole." msgstr "" "\n" "\t\t为指定的 Role 或者 ClusterRole 创建一个 RoleBinding." #: pkg/kubectl/cmd/create_secret.go:200 msgid "" "\n" "\t\tCreate a TLS secret from the given public/private key pair.\n" "\n" "\t\tThe public/private key pair must exist before hand. The public key certificate must be .PEM encoded and match the given private key." msgstr "" "\n" "\t\t为指定的 public/private key pair 创建一个 TLS secret.\n" "\n" "\t\tpublic/private key pair 必须在传递前存在. public key certificate 必须以 .PEM 被编码且匹配指定的 private key." #: pkg/kubectl/cmd/create_configmap.go:32 msgid "" "\n" "\t\tCreate a configmap based on a file, directory, or specified literal value.\n" "\n" "\t\tA single configmap may package one or more key/value pairs.\n" "\n" "\t\tWhen creating a configmap based on a file, the key will default to the basename of the file, and the value will\n" "\t\tdefault to the file content. If the basename is an invalid key, you may specify an alternate key.\n" "\n" "\t\tWhen creating a configmap based on a directory, each file whose basename is a valid key in the directory will be\n" "\t\tpackaged into the configmap. Any directory entries except regular files are ignored (e.g. subdirectories,\n" "\t\tsymlinks, devices, pipes, etc)." msgstr "" "\n" "\t\tCreate a configmap based on a file, directory, or specified literal value.\n" "\n" "\t\tA single configmap may package one or more key/value pairs.\n" "\n" "\t\tWhen creating a configmap based on a file, the key will default to the basename of the file, and the value will\n" "\t\tdefault to the file content. If the basename is an invalid key, you may specify an alternate key.\n" "\n" "\t\tWhen creating a configmap based on a directory, each file whose basename is a valid key in the directory will be\n" "\t\tpackaged into the configmap. Any directory entries except regular files are ignored (e.g. subdirectories,\n" "\t\tsymlinks, devices, pipes, etc)." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_namespace.go#L44 #: pkg/kubectl/cmd/create_namespace.go:32 msgid "" "\n" "\t\tCreate a namespace with the specified name." msgstr "" "\n" "\t\t创建一个 namespace 并指定名称." #: pkg/kubectl/cmd/create_secret.go:119 msgid "" "\n" "\t\tCreate a new secret for use with Docker registries.\n" "\n" "\t\tDockercfg secrets are used to authenticate against Docker registries.\n" "\n" "\t\tWhen using the Docker command line to push images, you can authenticate to a given registry by running\n" "\n" "\t\t $ docker login DOCKER_REGISTRY_SERVER --username=DOCKER_USER --password=DOCKER_PASSWORD --email=DOCKER_EMAIL'.\n" "\n" " That produces a ~/.dockercfg file that is used by subsequent 'docker push' and 'docker pull' commands to\n" "\t\tauthenticate to the registry. The email address is optional.\n" "\n" "\t\tWhen creating applications, you may have a Docker registry that requires authentication. In order for the\n" "\t\tnodes to pull images on your behalf, they have to have the credentials. You can provide this information\n" "\t\tby creating a dockercfg secret and attaching it to your service account." msgstr "" "\n" "\t\tCreate a new secret for use with Docker registries.\n" "\n" "\t\tDockercfg secrets are used to authenticate against Docker registries.\n" "\n" "\t\tWhen using the Docker command line to push images, you can authenticate to a given registry by running\n" "\n" "\t\t $ docker login DOCKER_REGISTRY_SERVER --username=DOCKER_USER --password=DOCKER_PASSWORD --email=DOCKER_EMAIL'.\n" "\n" " That produces a ~/.dockercfg file that is used by subsequent 'docker push' and 'docker pull' commands to\n" "\t\tauthenticate to the registry. The email address is optional.\n" "\n" "\t\tWhen creating applications, you may have a Docker registry that requires authentication. In order for the\n" "\t\tnodes to pull images on your behalf, they have to have the credentials. You can provide this information\n" "\t\tby creating a dockercfg secret and attaching it to your service account." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_pdb.go#L49 #: pkg/kubectl/cmd/create_pdb.go:32 msgid "" "\n" "\t\tCreate a pod disruption budget with the specified name, selector, and desired minimum available pods" msgstr "" "\n" "\t\tCreate a pod disruption budget with the specified name, selector, and desired minimum available pods" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create.go#L56 #: pkg/kubectl/cmd/create.go:42 msgid "" "\n" "\t\tCreate a resource by filename or stdin.\n" "\n" "\t\tJSON and YAML formats are accepted." msgstr "" "\n" "\t\t通过文件名或者标准输入流(stdin)创建一个资源.\n" "\n" "\t\tJSON and YAML formats are accepted." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_quota.go#L47 #: pkg/kubectl/cmd/create_quota.go:32 msgid "" "\n" "\t\tCreate a resourcequota with the specified name, hard limits and optional scopes" msgstr "" "\n" "\t\tCreate a resourcequota with the specified name, hard limits and optional scopes" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_quota.go#L47 #: pkg/kubectl/cmd/create_role.go:38 msgid "" "\n" "\t\tCreate a role with single rule." msgstr "" "\n" "\t\t创建单一 rule 的 role." #: pkg/kubectl/cmd/create_secret.go:47 msgid "" "\n" "\t\tCreate a secret based on a file, directory, or specified literal value.\n" "\n" "\t\tA single secret may package one or more key/value pairs.\n" "\n" "\t\tWhen creating a secret based on a file, the key will default to the basename of the file, and the value will\n" "\t\tdefault to the file content. If the basename is an invalid key, you may specify an alternate key.\n" "\n" "\t\tWhen creating a secret based on a directory, each file whose basename is a valid key in the directory will be\n" "\t\tpackaged into the secret. Any directory entries except regular files are ignored (e.g. subdirectories,\n" "\t\tsymlinks, devices, pipes, etc)." msgstr "" "\n" "\t\tCreate a secret based on a file, directory, or specified literal value.\n" "\n" "\t\tA single secret may package one or more key/value pairs.\n" "\n" "\t\tWhen creating a secret based on a file, the key will default to the basename of the file, and the value will\n" "\t\tdefault to the file content. If the basename is an invalid key, you may specify an alternate key.\n" "\n" "\t\tWhen creating a secret based on a directory, each file whose basename is a valid key in the directory will be\n" "\t\tpackaged into the secret. Any directory entries except regular files are ignored (e.g. subdirectories,\n" "\t\tsymlinks, devices, pipes, etc)." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_serviceaccount.go#L44 #: pkg/kubectl/cmd/create_serviceaccount.go:32 msgid "" "\n" "\t\tCreate a service account with the specified name." msgstr "" "\n" "\t\t创建一个指定名称的 service account." #: pkg/kubectl/cmd/run.go:52 msgid "" "\n" "\t\tCreate and run a particular image, possibly replicated.\n" "\n" "\t\tCreates a deployment or job to manage the created container(s)." msgstr "" "\n" "\t\tCreate and run a particular image, possibly replicated.\n" "\n" "\t\tCreates a deployment or job to manage the created container(s)." #: pkg/kubectl/cmd/autoscale.go:34 msgid "" "\n" "\t\tCreates an autoscaler that automatically chooses and sets the number of pods that run in a kubernetes cluster.\n" "\n" "\t\tLooks up a Deployment, ReplicaSet, or ReplicationController by name and creates an autoscaler that uses the given resource as a reference.\n" "\t\tAn autoscaler can automatically increase or decrease number of pods deployed within the system as needed." msgstr "" "\n" "\t\tCreates an autoscaler that automatically chooses and sets the number of pods that run in a kubernetes cluster.\n" "\n" "\t\tLooks up a Deployment, ReplicaSet, or ReplicationController by name and creates an autoscaler that uses the given resource as a reference.\n" "\t\tAn autoscaler can automatically increase or decrease number of pods deployed within the system as needed." #: pkg/kubectl/cmd/delete.go:40 msgid "" "\n" "\t\tDelete resources by filenames, stdin, resources and names, or by resources and label selector.\n" "\n" "\t\tJSON and YAML formats are accepted. Only one type of the arguments may be specified: filenames,\n" "\t\tresources and names, or resources and label selector.\n" "\n" "\t\tSome resources, such as pods, support graceful deletion. These resources define a default period\n" "\t\tbefore they are forcibly terminated (the grace period) but you may override that value with\n" "\t\tthe --grace-period flag, or pass --now to set a grace-period of 1. Because these resources often\n" "\t\trepresent entities in the cluster, deletion may not be acknowledged immediately. If the node\n" "\t\thosting a pod is down or cannot reach the API server, termination may take significantly longer\n" "\t\tthan the grace period. To force delete a resource,\tyou must pass a grace\tperiod of 0 and specify\n" "\t\tthe --force flag.\n" "\n" "\t\tIMPORTANT: Force deleting pods does not wait for confirmation that the pod's processes have been\n" "\t\tterminated, which can leave those processes running until the node detects the deletion and\n" "\t\tcompletes graceful deletion. If your processes use shared storage or talk to a remote API and\n" "\t\tdepend on the name of the pod to identify themselves, force deleting those pods may result in\n" "\t\tmultiple processes running on different machines using the same identification which may lead\n" "\t\tto data corruption or inconsistency. Only force delete pods when you are sure the pod is\n" "\t\tterminated, or if your application can tolerate multiple copies of the same pod running at once.\n" "\t\tAlso, if you force delete pods the scheduler may place new pods on those nodes before the node\n" "\t\thas released those resources and causing those pods to be evicted immediately.\n" "\n" "\t\tNote that the delete command does NOT do resource version checks, so if someone\n" "\t\tsubmits an update to a resource right when you submit a delete, their update\n" "\t\twill be lost along with the rest of the resource." msgstr "" "\n" "\t\tDelete resources by filenames, stdin, resources and names, or by resources and label selector.\n" "\n" "\t\tJSON and YAML formats are accepted. Only one type of the arguments may be specified: filenames,\n" "\t\tresources and names, or resources and label selector.\n" "\n" "\t\tSome resources, such as pods, support graceful deletion. These resources define a default period\n" "\t\tbefore they are forcibly terminated (the grace period) but you may override that value with\n" "\t\tthe --grace-period flag, or pass --now to set a grace-period of 1. Because these resources often\n" "\t\trepresent entities in the cluster, deletion may not be acknowledged immediately. If the node\n" "\t\thosting a pod is down or cannot reach the API server, termination may take significantly longer\n" "\t\tthan the grace period. To force delete a resource,\tyou must pass a grace\tperiod of 0 and specify\n" "\t\tthe --force flag.\n" "\n" "\t\tIMPORTANT: Force deleting pods does not wait for confirmation that the pod's processes have been\n" "\t\tterminated, which can leave those processes running until the node detects the deletion and\n" "\t\tcompletes graceful deletion. If your processes use shared storage or talk to a remote API and\n" "\t\tdepend on the name of the pod to identify themselves, force deleting those pods may result in\n" "\t\tmultiple processes running on different machines using the same identification which may lead\n" "\t\tto data corruption or inconsistency. Only force delete pods when you are sure the pod is\n" "\t\tterminated, or if your application can tolerate multiple copies of the same pod running at once.\n" "\t\tAlso, if you force delete pods the scheduler may place new pods on those nodes before the node\n" "\t\thas released those resources and causing those pods to be evicted immediately.\n" "\n" "\t\tNote that the delete command does NOT do resource version checks, so if someone\n" "\t\tsubmits an update to a resource right when you submit a delete, their update\n" "\t\twill be lost along with the rest of the resource." #: pkg/kubectl/cmd/stop.go:31 msgid "" "\n" "\t\tDeprecated: Gracefully shut down a resource by name or filename.\n" "\n" "\t\tThe stop command is deprecated, all its functionalities are covered by delete command.\n" "\t\tSee 'kubectl delete --help' for more details.\n" "\n" "\t\tAttempts to shut down and delete a resource that supports graceful termination.\n" "\t\tIf the resource is scalable it will be scaled to 0 before deletion." msgstr "" "\n" "\t\tDeprecated: Gracefully shut down a resource by name or filename.\n" "\n" "\t\tThe stop command is deprecated, all its functionalities are covered by delete command.\n" "\t\tSee 'kubectl delete --help' for more details.\n" "\n" "\t\tAttempts to shut down and delete a resource that supports graceful termination.\n" "\t\tIf the resource is scalable it will be scaled to 0 before deletion." #: pkg/kubectl/cmd/top_node.go:60 msgid "" "\n" "\t\tDisplay Resource (CPU/Memory/Storage) usage of nodes.\n" "\n" "\t\tThe top-node command allows you to see the resource consumption of nodes." msgstr "" "\n" "\t\t显示 node 的资源(CPU/Memory/Storage)使用.\n" "\n" "\t\tThe top-node command allows you to see the resource consumption of nodes." #: pkg/kubectl/cmd/top_pod.go:53 msgid "" "\n" "\t\tDisplay Resource (CPU/Memory/Storage) usage of pods.\n" "\n" "\t\tThe 'top pod' command allows you to see the resource consumption of pods.\n" "\n" "\t\tDue to the metrics pipeline delay, they may be unavailable for a few minutes\n" "\t\tsince pod creation." msgstr "" "\n" "\t\t显示 pods 资源(CPU/Memory/Storage)使用.\n" "\n" "\t\tThe 'top pod' command allows you to see the resource consumption of pods.\n" "\n" "\t\tDue to the metrics pipeline delay, they may be unavailable for a few minutes\n" "\t\tsince pod creation." #: pkg/kubectl/cmd/top.go:33 msgid "" "\n" "\t\tDisplay Resource (CPU/Memory/Storage) usage.\n" "\n" "\t\tThe top command allows you to see the resource consumption for nodes or pods.\n" "\n" "\t\tThis command requires Heapster to be correctly configured and working on the server. " msgstr "" "\n" "\t\t显示资源(CPU/Memory/Storage)使用.\n" "\n" "\t\tThe top command allows you to see the resource consumption for nodes or pods.\n" "\n" "\t\tThis command requires Heapster to be correctly configured and working on the server. " #: pkg/kubectl/cmd/drain.go:140 msgid "" "\n" "\t\tDrain node in preparation for maintenance.\n" "\n" "\t\tThe given node will be marked unschedulable to prevent new pods from arriving.\n" "\t\t'drain' evicts the pods if the APIServer supports eviction\n" "\t\t(http://kubernetes.io/docs/admin/disruptions/). Otherwise, it will use normal DELETE\n" "\t\tto delete the pods.\n" "\t\tThe 'drain' evicts or deletes all pods except mirror pods (which cannot be deleted through\n" "\t\tthe API server). If there are DaemonSet-managed pods, drain will not proceed\n" "\t\twithout --ignore-daemonsets, and regardless it will not delete any\n" "\t\tDaemonSet-managed pods, because those pods would be immediately replaced by the\n" "\t\tDaemonSet controller, which ignores unschedulable markings. If there are any\n" "\t\tpods that are neither mirror pods nor managed by ReplicationController,\n" "\t\tReplicaSet, DaemonSet, StatefulSet or Job, then drain will not delete any pods unless you\n" "\t\tuse --force. --force will also allow deletion to proceed if the managing resource of one\n" "\t\tor more pods is missing.\n" "\n" "\t\t'drain' waits for graceful termination. You should not operate on the machine until\n" "\t\tthe command completes.\n" "\n" "\t\tWhen you are ready to put the node back into service, use kubectl uncordon, which\n" "\t\twill make the node schedulable again.\n" "\n" "\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_drain.svg)" msgstr "" "\n" "\t\t清理节点为节点维护做准备.\n" "\n" "\t\tThe given node will be marked unschedulable to prevent new pods from arriving.\n" "\t\t'drain' evicts the pods if the APIServer supports eviction\n" "\t\t(http://kubernetes.io/docs/admin/disruptions/). Otherwise, it will use normal DELETE\n" "\t\tto delete the pods.\n" "\t\tThe 'drain' evicts or deletes all pods except mirror pods (which cannot be deleted through\n" "\t\tthe API server). If there are DaemonSet-managed pods, drain will not proceed\n" "\t\twithout --ignore-daemonsets, and regardless it will not delete any\n" "\t\tDaemonSet-managed pods, because those pods would be immediately replaced by the\n" "\t\tDaemonSet controller, which ignores unschedulable markings. If there are any\n" "\t\tpods that are neither mirror pods nor managed by ReplicationController,\n" "\t\tReplicaSet, DaemonSet, StatefulSet or Job, then drain will not delete any pods unless you\n" "\t\tuse --force. --force will also allow deletion to proceed if the managing resource of one\n" "\t\tor more pods is missing.\n" "\n" "\t\t'drain' waits for graceful termination. You should not operate on the machine until\n" "\t\tthe command completes.\n" "\n" "\t\tWhen you are ready to put the node back into service, use kubectl uncordon, which\n" "\t\twill make the node schedulable again.\n" "\n" "\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_drain.svg)" #: pkg/kubectl/cmd/edit.go:56 msgid "" "\n" "\t\tEdit a resource from the default editor.\n" "\n" "\t\tThe edit command allows you to directly edit any API resource you can retrieve via the\n" "\t\tcommand line tools. It will open the editor defined by your KUBE_EDITOR, or EDITOR\n" "\t\tenvironment variables, or fall back to 'vi' for Linux or 'notepad' for Windows.\n" "\t\tYou can edit multiple objects, although changes are applied one at a time. The command\n" "\t\taccepts filenames as well as command line arguments, although the files you point to must\n" "\t\tbe previously saved versions of resources.\n" "\n" "\t\tEditing is done with the API version used to fetch the resource.\n" "\t\tTo edit using a specific API version, fully-qualify the resource, version, and group.\n" "\n" "\t\tThe default format is YAML. To edit in JSON, specify \"-o json\".\n" "\n" "\t\tThe flag --windows-line-endings can be used to force Windows line endings,\n" "\t\totherwise the default for your operating system will be used.\n" "\n" "\t\tIn the event an error occurs while updating, a temporary file will be created on disk\n" "\t\tthat contains your unapplied changes. The most common error when updating a resource\n" "\t\tis another editor changing the resource on the server. When this occurs, you will have\n" "\t\tto apply your changes to the newer version of the resource, or update your temporary\n" "\t\tsaved copy to include the latest resource version." msgstr "" "\n" "\t\t使用默认的编辑器修改资源.\n" "\n" "\t\tedit 命令允许你通过命令行直接修改 API 资源.\n" "\t\t它会打开你在 KUBE_EDITOR 或者EDITOR 环境变量中定义的编辑器\n" "\t\t或者回滚到 Linux vi 编辑器或者 Windows notepad.\n" "\t\t你可以修改多个对象, 虽然每次只能修改一次. 这个命令\n" "\t\t同时也接受文件名作为命令行参数, 尽管这些文件你指出必须是\n" "\t\t你之前保存的资源版本.\n" "\n" "\t\tEditing 是通过用于获取资源的API版本完成的.\n" "\t\t为了能通过指定的 API 版本修改, 请完全限定 resource, version 和 group.\n" "\n" "\t\t默认是 YAML 格式. 想在 JSON 中修改, 指定 \"-o json\".\n" "\n" "\t\t--windows-line-endings 命令行参数可以用来强制使用 Windows line endings,\n" "\t\t否则会使用你操作系统的默认值.\n" "\n" "\t\t如果更新时发生错误,将在磁盘上创建一个临时文件\n" "\t\t里面包含您未应用的更改. 更新资源时最常见的错误\n" "\t\t是另一个编辑器也在服务器中修改这个资源. 当发生这种情况时, 你将\n" "\t\t需要应用你的修改到资源的最新版本, 或者更新你被保存的临时文件\n" "\t\t复制它并使用最新的版本." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/drain.go#L127 #: pkg/kubectl/cmd/drain.go:115 msgid "" "\n" "\t\tMark node as schedulable." msgstr "" "\n" "\t\t标记 node 为 schedulable." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/drain.go#L102 #: pkg/kubectl/cmd/drain.go:90 msgid "" "\n" "\t\tMark node as unschedulable." msgstr "" "\n" "\t\t标记 node 为 unschedulable." #: pkg/kubectl/cmd/completion.go:47 msgid "" "\n" "\t\tOutput shell completion code for the specified shell (bash or zsh).\n" "\t\tThe shell code must be evaluated to provide interactive\n" "\t\tcompletion of kubectl commands. This can be done by sourcing it from\n" "\t\tthe .bash_profile.\n" "\n" "\t\tNote: this requires the bash-completion framework, which is not installed\n" "\t\tby default on Mac. This can be installed by using homebrew:\n" "\n" "\t\t $ brew install bash-completion\n" "\n" "\t\tOnce installed, bash_completion must be evaluated. This can be done by adding the\n" "\t\tfollowing line to the .bash_profile\n" "\n" "\t\t $ source $(brew --prefix)/etc/bash_completion\n" "\n" "\t\tNote for zsh users: [1] zsh completions are only supported in versions of zsh >= 5.2" msgstr "" "\n" "\t\tOutput shell completion code for the specified shell (bash or zsh).\n" "\t\tThe shell code must be evaluated to provide interactive\n" "\t\tcompletion of kubectl commands. This can be done by sourcing it from\n" "\t\tthe .bash_profile.\n" "\n" "\t\tNote: this requires the bash-completion framework, which is not installed\n" "\t\tby default on Mac. This can be installed by using homebrew:\n" "\n" "\t\t $ brew install bash-completion\n" "\n" "\t\tOnce installed, bash_completion must be evaluated. This can be done by adding the\n" "\t\tfollowing line to the .bash_profile\n" "\n" "\t\t $ source $(brew --prefix)/etc/bash_completion\n" "\n" "\t\tNote for zsh users: [1] zsh completions are only supported in versions of zsh >= 5.2" #: pkg/kubectl/cmd/rollingupdate.go:45 msgid "" "\n" "\t\tPerform a rolling update of the given ReplicationController.\n" "\n" "\t\tReplaces the specified replication controller with a new replication controller by updating one pod at a time to use the\n" "\t\tnew PodTemplate. The new-controller.json must specify the same namespace as the\n" "\t\texisting replication controller and overwrite at least one (common) label in its replicaSelector.\n" "\n" "\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_rollingupdate.svg)" msgstr "" "\n" "\t\t完成指定的 ReplicationController 的滚动升级.\n" "\n" "\t\tReplaces the specified replication controller with a new replication controller by updating one pod at a time to use the\n" "\t\tnew PodTemplate. The new-controller.json must specify the same namespace as the\n" "\t\texisting replication controller and overwrite at least one (common) label in its replicaSelector.\n" "\n" "\t\t![Workflow](http://kubernetes.io/images/docs/kubectl_rollingupdate.svg)" #: pkg/kubectl/cmd/replace.go:40 msgid "" "\n" "\t\tReplace a resource by filename or stdin.\n" "\n" "\t\tJSON and YAML formats are accepted. If replacing an existing resource, the\n" "\t\tcomplete resource spec must be provided. This can be obtained by\n" "\n" "\t\t $ kubectl get TYPE NAME -o yaml\n" msgstr "" "\n" "\t\tReplace a resource by filename or stdin.\n" "\n" "\t\tJSON and YAML formats are accepted. If replacing an existing resource, the\n" "\t\tcomplete resource spec must be provided. This can be obtained by\n" "\n" "\t\t $ kubectl get TYPE NAME -o yaml\n" #: pkg/kubectl/cmd/scale.go:34 msgid "" "\n" "\t\tSet a new size for a Deployment, ReplicaSet, Replication Controller, or Job.\n" "\n" "\t\tScale also allows users to specify one or more preconditions for the scale action.\n" "\n" "\t\tIf --current-replicas or --resource-version is specified, it is validated before the\n" "\t\tscale is attempted, and it is guaranteed that the precondition holds true when the\n" "\t\tscale is sent to the server." msgstr "" "\n" "\t\tSet a new size for a Deployment, ReplicaSet, Replication Controller, or Job.\n" "\n" "\t\tScale also allows users to specify one or more preconditions for the scale action.\n" "\n" "\t\tIf --current-replicas or --resource-version is specified, it is validated before the\n" "\t\tscale is attempted, and it is guaranteed that the precondition holds true when the\n" "\t\tscale is sent to the server." #: pkg/kubectl/cmd/apply_set_last_applied.go:62 msgid "" "\n" "\t\tSet the latest last-applied-configuration annotations by setting it to match the contents of a file.\n" "\t\tThis results in the last-applied-configuration being updated as though 'kubectl apply -f ' was run,\n" "\t\twithout updating any other parts of the object." msgstr "" "\n" "\t\tSet the latest last-applied-configuration annotations by setting it to match the contents of a file.\n" "\t\tThis results in the last-applied-configuration being updated as though 'kubectl apply -f ' was run,\n" "\t\twithout updating any other parts of the object." #: pkg/kubectl/cmd/proxy.go:36 msgid "" "\n" "\t\tTo proxy all of the kubernetes api and nothing else, use:\n" "\n" "\t\t $ kubectl proxy --api-prefix=/\n" "\n" "\t\tTo proxy only part of the kubernetes api and also some static files:\n" "\n" "\t\t $ kubectl proxy --www=/my/files --www-prefix=/static/ --api-prefix=/api/\n" "\n" "\t\tThe above lets you 'curl localhost:8001/api/v1/pods'.\n" "\n" "\t\tTo proxy the entire kubernetes api at a different root, use:\n" "\n" "\t\t $ kubectl proxy --api-prefix=/custom/\n" "\n" "\t\tThe above lets you 'curl localhost:8001/custom/api/v1/pods'" msgstr "" "\n" "\t\tTo proxy all of the kubernetes api and nothing else, use:\n" "\n" "\t\t $ kubectl proxy --api-prefix=/\n" "\n" "\t\tTo proxy only part of the kubernetes api and also some static files:\n" "\n" "\t\t $ kubectl proxy --www=/my/files --www-prefix=/static/ --api-prefix=/api/\n" "\n" "\t\tThe above lets you 'curl localhost:8001/api/v1/pods'.\n" "\n" "\t\tTo proxy the entire kubernetes api at a different root, use:\n" "\n" "\t\t $ kubectl proxy --api-prefix=/custom/\n" "\n" "\t\tThe above lets you 'curl localhost:8001/custom/api/v1/pods'" #: pkg/kubectl/cmd/patch.go:59 msgid "" "\n" "\t\tUpdate field(s) of a resource using strategic merge patch\n" "\n" "\t\tJSON and YAML formats are accepted.\n" msgstr "" "\n" "\t\tUpdate field(s) of a resource using strategic merge patch\n" "\n" "\t\tJSON and YAML formats are accepted.\n" #: pkg/kubectl/cmd/label.go:70 #, c-format msgid "" "\n" "\t\tUpdate the labels on a resource.\n" "\n" "\t\t* A label must begin with a letter or number, and may contain letters, numbers, hyphens, dots, and underscores, up to %[1]d characters.\n" "\t\t* If --overwrite is true, then existing labels can be overwritten, otherwise attempting to overwrite a label will result in an error.\n" "\t\t* If --resource-version is specified, then updates will use this resource version, otherwise the existing resource-version will be used." msgstr "" "\n" "\t\tUpdate the labels on a resource.\n" "\n" "\t\t* A label must begin with a letter or number, and may contain letters, numbers, hyphens, dots, and underscores, up to %[1]d characters.\n" "\t\t* If --overwrite is true, then existing labels can be overwritten, otherwise attempting to overwrite a label will result in an error.\n" "\t\t* If --resource-version is specified, then updates will use this resource version, otherwise the existing resource-version will be used." #: pkg/kubectl/cmd/taint.go:58 #, c-format msgid "" "\n" "\t\tUpdate the taints on one or more nodes.\n" "\n" "\t\t* A taint consists of a key, value, and effect. As an argument here, it is expressed as key=value:effect.\n" "\t\t* The key must begin with a letter or number, and may contain letters, numbers, hyphens, dots, and underscores, up to %[1]d characters.\n" "\t\t* The value must begin with a letter or number, and may contain letters, numbers, hyphens, dots, and underscores, up to %[2]d characters.\n" "\t\t* The effect must be NoSchedule, PreferNoSchedule or NoExecute.\n" "\t\t* Currently taint can only apply to node." msgstr "" "\n" "\t\t更新一个或者多个 node 上的 taints.\n" "\n" "\t\t* A taint consists of a key, value, and effect. As an argument here, it is expressed as key=value:effect.\n" "\t\t* The key must begin with a letter or number, and may contain letters, numbers, hyphens, dots, and underscores, up to %[1]d characters.\n" "\t\t* The value must begin with a letter or number, and may contain letters, numbers, hyphens, dots, and underscores, up to %[2]d characters.\n" "\t\t* The effect must be NoSchedule, PreferNoSchedule or NoExecute.\n" "\t\t* Currently taint can only apply to node." #: pkg/kubectl/cmd/apply_view_last_applied.go:46 msgid "" "\n" "\t\tView the latest last-applied-configuration annotations by type/name or file.\n" "\n" "\t\tThe default output will be printed to stdout in YAML format. One can use -o option\n" "\t\tto change output format." msgstr "" "\n" "\t\tView the latest last-applied-configuration annotations by type/name or file.\n" "\n" "\t\tThe default output will be printed to stdout in YAML format. One can use -o option\n" "\t\tto change output format." #: pkg/kubectl/cmd/cp.go:37 msgid "" "\n" "\t # !!!Important Note!!!\n" "\t # Requires that the 'tar' binary is present in your container\n" "\t # image. If 'tar' is not present, 'kubectl cp' will fail.\n" "\n" "\t # Copy /tmp/foo_dir local directory to /tmp/bar_dir in a remote pod in the default namespace\n" "\t\tkubectl cp /tmp/foo_dir :/tmp/bar_dir\n" "\n" " # Copy /tmp/foo local file to /tmp/bar in a remote pod in a specific container\n" "\t\tkubectl cp /tmp/foo :/tmp/bar -c \n" "\n" "\t\t# Copy /tmp/foo local file to /tmp/bar in a remote pod in namespace \n" "\t\tkubectl cp /tmp/foo /:/tmp/bar\n" "\n" "\t\t# Copy /tmp/foo from a remote pod to /tmp/bar locally\n" "\t\tkubectl cp /:/tmp/foo /tmp/bar" msgstr "" "\n" "\t # !!!注意!!!\n" "\t # 要求容器中有 'tar' 命令\n" "\t # image. If 'tar' is not present, 'kubectl cp' will fail.\n" "\n" "\t # 复制本地目录 /tmp/foo_dir 到 default namespace 下的远程 pod 的 /tmp/bar_dir 路径 \n" "\t\tkubectl cp /tmp/foo_dir :/tmp/bar_dir\n" "\n" " # 复制 /tmp/foo local 本地文件到指定远程 pod 的指定容器的 /tmp/bar 路径\n" "\t\tkubectl cp /tmp/foo :/tmp/bar -c \n" "\n" "\t\t# 复制 /tmp/foo 本地文件到在 namespace 下的某个 pod 的 /tmp/bar 路径\n" "\t\tkubectl cp /tmp/foo /:/tmp/bar\n" "\n" "\t\t# 从一个远程的 pod 的 /tmp/foo 路径复制到本地 /tmp/bar 路径\n" "\t\tkubectl cp /:/tmp/foo /tmp/bar" #: pkg/kubectl/cmd/create_secret.go:205 msgid "" "\n" "\t # Create a new TLS secret named tls-secret with the given key pair:\n" "\t kubectl create secret tls tls-secret --cert=path/to/tls.cert --key=path/to/tls.key" msgstr "" "\n" "\t # 使用提供的 key pair 名称为tls-secret 的 secret:\n" "\t kubectl create secret tls tls-secret --cert=path/to/tls.cert --key=path/to/tls.key" #: pkg/kubectl/cmd/create_namespace.go:35 msgid "" "\n" "\t # Create a new namespace named my-namespace\n" "\t kubectl create namespace my-namespace" msgstr "" "\n" "\t # 创建一个名称为 my-namespace 的 namespace\n" "\t kubectl create namespace my-namespace" #: pkg/kubectl/cmd/create_secret.go:59 msgid "" "\n" "\t # Create a new secret named my-secret with keys for each file in folder bar\n" "\t kubectl create secret generic my-secret --from-file=path/to/bar\n" "\n" "\t # Create a new secret named my-secret with specified keys instead of names on disk\n" "\t kubectl create secret generic my-secret --from-file=ssh-privatekey=~/.ssh/id_rsa --from-file=ssh-publickey=~/.ssh/id_rsa.pub\n" "\n" "\t # Create a new secret named my-secret with key1=supersecret and key2=topsecret\n" "\t kubectl create secret generic my-secret --from-literal=key1=supersecret --from-literal=key2=topsecret" msgstr "" "\n" "\t # Create a new secret named my-secret with keys for each file in folder bar\n" "\t kubectl create secret generic my-secret --from-file=path/to/bar\n" "\n" "\t # Create a new secret named my-secret with specified keys instead of names on disk\n" "\t kubectl create secret generic my-secret --from-file=ssh-privatekey=~/.ssh/id_rsa --from-file=ssh-publickey=~/.ssh/id_rsa.pub\n" "\n" "\t # Create a new secret named my-secret with key1=supersecret and key2=topsecret\n" "\t kubectl create secret generic my-secret --from-literal=key1=supersecret --from-literal=key2=topsecret" #: pkg/kubectl/cmd/create_serviceaccount.go:35 msgid "" "\n" "\t # Create a new service account named my-service-account\n" "\t kubectl create serviceaccount my-service-account" msgstr "" "\n" "\t # Create a new service account named my-service-account\n" "\t kubectl create serviceaccount my-service-account" #: pkg/kubectl/cmd/create_service.go:232 msgid "" "\n" "\t# Create a new ExternalName service named my-ns \n" "\tkubectl create service externalname my-ns --external-name bar.com" msgstr "" "\n" "\t# Create a new ExternalName service named my-ns \n" "\tkubectl create service externalname my-ns --external-name bar.com" #: pkg/kubectl/cmd/create_service.go:225 msgid "" "\n" "\tCreate an ExternalName service with the specified name.\n" "\n" "\tExternalName service references to an external DNS address instead of\n" "\tonly pods, which will allow application authors to reference services\n" "\tthat exist off platform, on other clusters, or locally." msgstr "" "\n" "\tCreate an ExternalName service with the specified name.\n" "\n" "\tExternalName service references to an external DNS address instead of\n" "\tonly pods, which will allow application authors to reference services\n" "\tthat exist off platform, on other clusters, or locally." #: pkg/kubectl/cmd/help.go:30 msgid "" "\n" "\tHelp provides help for any command in the application.\n" "\tSimply type kubectl help [path to command] for full details." msgstr "" "\n" "\tHelp provides help for any command in the application.\n" "\tSimply type kubectl help [path to command] for full details." #: pkg/kubectl/cmd/create_service.go:173 msgid "" "\n" " # Create a new LoadBalancer service named my-lbs\n" " kubectl create service loadbalancer my-lbs --tcp=5678:8080" msgstr "" "\n" " # 创建一个名称为 my-lbs 的 LoadBalancer service\n" " kubectl create service loadbalancer my-lbs --tcp=5678:8080" #: pkg/kubectl/cmd/create_service.go:53 msgid "" "\n" " # Create a new clusterIP service named my-cs\n" " kubectl create service clusterip my-cs --tcp=5678:8080\n" "\n" " # Create a new clusterIP service named my-cs (in headless mode)\n" " kubectl create service clusterip my-cs --clusterip=\"None\"" msgstr "" "\n" " # 创建一个名称为 my-cs 的 clusterIP service\n" " kubectl create service clusterip my-cs --tcp=5678:8080\n" "\n" " # 创建一个名称为 my-cs 的 clusterIP service (在 headless 模式)\n" " kubectl create service clusterip my-cs --clusterip=\"None\"" #: pkg/kubectl/cmd/create_deployment.go:36 msgid "" "\n" " # Create a new deployment named my-dep that runs the busybox image.\n" " kubectl create deployment my-dep --image=busybox" msgstr "" "\n" " # 创建一个名称为 my-dep 的 deployment 并运行 busybox image.\n" " kubectl create deployment my-dep --image=busybox" #: pkg/kubectl/cmd/create_service.go:116 msgid "" "\n" " # Create a new nodeport service named my-ns\n" " kubectl create service nodeport my-ns --tcp=5678:8080" msgstr "" "\n" " # 创建一个名称为 my-ns 的 nodeport service\n" " kubectl create service nodeport my-ns --tcp=5678:8080" #: pkg/kubectl/cmd/clusterinfo_dump.go:62 msgid "" "\n" " # Dump current cluster state to stdout\n" " kubectl cluster-info dump\n" "\n" " # Dump current cluster state to /path/to/cluster-state\n" " kubectl cluster-info dump --output-directory=/path/to/cluster-state\n" "\n" " # Dump all namespaces to stdout\n" " kubectl cluster-info dump --all-namespaces\n" "\n" " # Dump a set of namespaces to /path/to/cluster-state\n" " kubectl cluster-info dump --namespaces default,kube-system --output-directory=/path/to/cluster-state" msgstr "" "\n" " # 导出当前的集群状态信息到 stdout\n" " kubectl cluster-info dump\n" "\n" " # 导出当前的集群状态 /path/to/cluster-state\n" " kubectl cluster-info dump --output-directory=/path/to/cluster-state\n" "\n" " # 导出所有分区到 stdout\n" " kubectl cluster-info dump --all-namespaces\n" "\n" " # 导出一组分区到 /path/to/cluster-state\n" " kubectl cluster-info dump --namespaces default,kube-system --output-directory=/path/to/cluster-state" #: pkg/kubectl/cmd/annotate.go:78 msgid "" "\n" " # Update pod 'foo' with the annotation 'description' and the value 'my frontend'.\n" " # If the same annotation is set multiple times, only the last value will be applied\n" " kubectl annotate pods foo description='my frontend'\n" "\n" " # Update a pod identified by type and name in \"pod.json\"\n" " kubectl annotate -f pod.json description='my frontend'\n" "\n" " # Update pod 'foo' with the annotation 'description' and the value 'my frontend running nginx', overwriting any existing value.\n" " kubectl annotate --overwrite pods foo description='my frontend running nginx'\n" "\n" " # Update all pods in the namespace\n" " kubectl annotate pods --all description='my frontend running nginx'\n" "\n" " # Update pod 'foo' only if the resource is unchanged from version 1.\n" " kubectl annotate pods foo description='my frontend running nginx' --resource-version=1\n" "\n" " # Update pod 'foo' by removing an annotation named 'description' if it exists.\n" " # Does not require the --overwrite flag.\n" " kubectl annotate pods foo description-" msgstr "" "\n" " # Update pod 'foo' with the annotation 'description' and the value 'my frontend'.\n" " # If the same annotation is set multiple times, only the last value will be applied\n" " kubectl annotate pods foo description='my frontend'\n" "\n" " # Update a pod identified by type and name in \"pod.json\"\n" " kubectl annotate -f pod.json description='my frontend'\n" "\n" " # Update pod 'foo' with the annotation 'description' and the value 'my frontend running nginx', overwriting any existing value.\n" " kubectl annotate --overwrite pods foo description='my frontend running nginx'\n" "\n" " # Update all pods in the namespace\n" " kubectl annotate pods --all description='my frontend running nginx'\n" "\n" " # Update pod 'foo' only if the resource is unchanged from version 1.\n" " kubectl annotate pods foo description='my frontend running nginx' --resource-version=1\n" "\n" " # 更新名称为 'foo' 的 pod, 删除一个名称为 'description' 的 annotation 如果它存在. \n" " # 不要求使用 --overwrite flag.\n" " kubectl annotate pods foo description-" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_namespace.go#L44 #: pkg/kubectl/cmd/create_service.go:170 msgid "" "\n" " Create a LoadBalancer service with the specified name." msgstr "" "\n" " 使用一个指定的名称创建一个 LoadBalancer service." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_serviceaccount.go#L44 #: pkg/kubectl/cmd/create_service.go:50 msgid "" "\n" " Create a clusterIP service with the specified name." msgstr "" "\n" " 使用一个指定的名称创建一个 clusterIP service." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_deployment.go#L44 #: pkg/kubectl/cmd/create_deployment.go:33 msgid "" "\n" " Create a deployment with the specified name." msgstr "" "\n" " 使用一个指定的名称创建一个 deployment." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_deployment.go#L44 #: pkg/kubectl/cmd/create_service.go:113 msgid "" "\n" " Create a nodeport service with the specified name." msgstr "" "\n" " 使用一个指定的名称创建一个 nodeport service." #: pkg/kubectl/cmd/clusterinfo_dump.go:53 msgid "" "\n" " Dumps cluster info out suitable for debugging and diagnosing cluster problems. By default, dumps everything to\n" " stdout. You can optionally specify a directory with --output-directory. If you specify a directory, kubernetes will\n" " build a set of files in that directory. By default only dumps things in the 'kube-system' namespace, but you can\n" " switch to a different namespace with the --namespaces flag, or specify --all-namespaces to dump all namespaces.\n" "\n" " The command also dumps the logs of all of the pods in the cluster, these logs are dumped into different directories\n" " based on namespace and pod name." msgstr "" "\n" " Dumps cluster info out suitable for debugging and diagnosing cluster problems. By default, dumps everything to\n" " stdout. You can optionally specify a directory with --output-directory. If you specify a directory, kubernetes will\n" " build a set of files in that directory. By default only dumps things in the 'kube-system' namespace, but you can\n" " switch to a different namespace with the --namespaces flag, or specify --all-namespaces to dump all namespaces.\n" "\n" " The command also dumps the logs of all of the pods in the cluster, these logs are dumped into different directories\n" " based on namespace and pod name." #: pkg/kubectl/cmd/clusterinfo.go:37 msgid "" "\n" " Display addresses of the master and services with label kubernetes.io/cluster-service=true\n" " To further debug and diagnose cluster problems, use 'kubectl cluster-info dump'." msgstr "" "\n" " Display addresses of the master and services with label kubernetes.io/cluster-service=true\n" " To further debug and diagnose cluster problems, use 'kubectl cluster-info dump'." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_quota.go#L61 #: pkg/kubectl/cmd/create_quota.go:62 msgid "A comma-delimited set of quota scopes that must all match each object tracked by the quota." msgstr "A comma-delimited set of quota scopes that must all match each object tracked by the quota." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_quota.go#L60 #: pkg/kubectl/cmd/create_quota.go:61 msgid "A comma-delimited set of resource=quantity pairs that define a hard limit." msgstr "A comma-delimited set of resource=quantity pairs that define a hard limit." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_pdb.go#L63 #: pkg/kubectl/cmd/create_pdb.go:64 msgid "A label selector to use for this budget. Only equality-based selector requirements are supported." msgstr "A label selector to use for this budget. Only equality-based selector requirements are supported." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L106 #: pkg/kubectl/cmd/expose.go:104 msgid "A label selector to use for this service. Only equality-based selector requirements are supported. If empty (the default) infer the selector from the replication controller or replica set.)" msgstr "A label selector to use for this service. Only equality-based selector requirements are supported. If empty (the default) infer the selector from the replication controller or replica set.)" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L136 #: pkg/kubectl/cmd/run.go:139 msgid "A schedule in the Cron format the job should be run with." msgstr "A schedule in the Cron format the job should be run with." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L111 #: pkg/kubectl/cmd/expose.go:109 msgid "Additional external IP address (not managed by Kubernetes) to accept for the service. If this IP is routed to a node, the service can be accessed by this IP in addition to its generated service IP." msgstr "Additional external IP address (not managed by Kubernetes) to accept for the service. If this IP is routed to a node, the service can be accessed by this IP in addition to its generated service IP." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L119 #: pkg/kubectl/cmd/expose.go:110 pkg/kubectl/cmd/run.go:122 msgid "An inline JSON override for the generated object. If this is non-empty, it is used to override the generated object. Requires that the object supply a valid apiVersion field." msgstr "An inline JSON override for the generated object. If this is non-empty, it is used to override the generated object. Requires that the object supply a valid apiVersion field." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L134 #: pkg/kubectl/cmd/run.go:137 msgid "An inline JSON override for the generated service object. If this is non-empty, it is used to override the generated object. Requires that the object supply a valid apiVersion field. Only used if --expose is true." msgstr "An inline JSON override for the generated service object. If this is non-empty, it is used to override the generated object. Requires that the object supply a valid apiVersion field. Only used if --expose is true." #: pkg/kubectl/cmd/apply.go:104 msgid "Apply a configuration to a resource by filename or stdin" msgstr "通过文件名或标准输入流(stdin)对资源进行配置" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/certificates.go#L71 #: pkg/kubectl/cmd/certificates.go:72 msgid "Approve a certificate signing request" msgstr "同意一个自签证书请求" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_service.go#L81 #: pkg/kubectl/cmd/create_service.go:82 msgid "Assign your own ClusterIP or set to 'None' for a 'headless' service (no loadbalancing)." msgstr "Assign your own ClusterIP or set to 'None' for a 'headless' service (no loadbalancing)." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/attach.go#L64 #: pkg/kubectl/cmd/attach.go:70 msgid "Attach to a running container" msgstr "Attach 到一个运行中的 container" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/autoscale.go#L55 #: pkg/kubectl/cmd/autoscale.go:56 msgid "Auto-scale a Deployment, ReplicaSet, or ReplicationController" msgstr "自动调整一个 Deployment, ReplicaSet, 或者 ReplicationController 的副本数量" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L115 #: pkg/kubectl/cmd/expose.go:113 msgid "ClusterIP to be assigned to the service. Leave empty to auto-allocate, or set to 'None' to create a headless service." msgstr "ClusterIP to be assigned to the service. Leave empty to auto-allocate, or set to 'None' to create a headless service." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_clusterrolebinding.go#L55 #: pkg/kubectl/cmd/create_clusterrolebinding.go:56 msgid "ClusterRole this ClusterRoleBinding should reference" msgstr "ClusterRoleBinding 应该指定 ClusterRole" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_rolebinding.go#L55 #: pkg/kubectl/cmd/create_rolebinding.go:56 msgid "ClusterRole this RoleBinding should reference" msgstr "RoleBinding 应该指定 ClusterRole" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollingupdate.go#L101 #: pkg/kubectl/cmd/rollingupdate.go:102 msgid "Container name which will have its image upgraded. Only relevant when --image is specified, ignored otherwise. Required when using --image on a multi-container pod" msgstr "Container name which will have its image upgraded. Only relevant when --image is specified, ignored otherwise. Required when using --image on a multi-container pod" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/convert.go#L67 #: pkg/kubectl/cmd/convert.go:68 msgid "Convert config files between different API versions" msgstr "在不同的 API versions 转换配置文件" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/cp.go#L64 #: pkg/kubectl/cmd/cp.go:65 msgid "Copy files and directories to and from containers." msgstr "复制 files 和 directories 到 containers 和从容器中复制 files 和 directories." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_clusterrolebinding.go#L43 #: pkg/kubectl/cmd/create_clusterrolebinding.go:44 msgid "Create a ClusterRoleBinding for a particular ClusterRole" msgstr "为一个指定的 ClusterRole 创建一个 ClusterRoleBinding" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_service.go#L181 #: pkg/kubectl/cmd/create_service.go:182 msgid "Create a LoadBalancer service." msgstr "创建一个 LoadBalancer service." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_service.go#L124 #: pkg/kubectl/cmd/create_service.go:125 msgid "Create a NodePort service." msgstr "创建一个 NodePort service." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_rolebinding.go#L43 #: pkg/kubectl/cmd/create_rolebinding.go:44 msgid "Create a RoleBinding for a particular Role or ClusterRole" msgstr "为一个指定的 Role 或者 ClusterRole创建一个 RoleBinding" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L214 #: pkg/kubectl/cmd/create_secret.go:214 msgid "Create a TLS secret" msgstr "创建一个 TLS secret" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_service.go#L68 #: pkg/kubectl/cmd/create_service.go:69 msgid "Create a clusterIP service." msgstr "创建一个 clusterIP service." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_configmap.go#L59 #: pkg/kubectl/cmd/create_configmap.go:60 msgid "Create a configmap from a local file, directory or literal value" msgstr "从本地 file, directory 或者 literal value 创建一个 configmap" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_deployment.go#L44 #: pkg/kubectl/cmd/create_deployment.go:46 msgid "Create a deployment with the specified name." msgstr "创建一个指定名称的 deployment." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_namespace.go#L44 #: pkg/kubectl/cmd/create_namespace.go:45 msgid "Create a namespace with the specified name" msgstr "创建一个指定名称的 namespace" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_pdb.go#L49 #: pkg/kubectl/cmd/create_pdb.go:50 msgid "Create a pod disruption budget with the specified name." msgstr "创建一个指定名称的 pod disruption budget." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_quota.go#L47 #: pkg/kubectl/cmd/create_quota.go:48 msgid "Create a quota with the specified name." msgstr "创建一个指定名称的 quota." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create.go#L56 #: pkg/kubectl/cmd/create.go:63 msgid "Create a resource by filename or stdin" msgstr "通过文件名或者标准输入流(stdin)创建一个资源" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L143 #: pkg/kubectl/cmd/create_secret.go:144 msgid "Create a secret for use with a Docker registry" msgstr "创建一个给 Docker registry 使用的 secret" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L73 #: pkg/kubectl/cmd/create_secret.go:74 msgid "Create a secret from a local file, directory or literal value" msgstr "从本地 file, directory 或者 literal value 创建一个 secret" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L34 #: pkg/kubectl/cmd/create_secret.go:35 msgid "Create a secret using specified subcommand" msgstr "使用指定的 subcommand 创建一个 secret" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_serviceaccount.go#L44 #: pkg/kubectl/cmd/create_serviceaccount.go:45 msgid "Create a service account with the specified name" msgstr "创建一个指定名称的 service account" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_service.go#L36 #: pkg/kubectl/cmd/create_service.go:37 msgid "Create a service using specified subcommand." msgstr "使用指定的 subcommand 创建一个 service." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_service.go#L240 #: pkg/kubectl/cmd/create_service.go:241 msgid "Create an ExternalName service." msgstr "Create an ExternalName service." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/delete.go#L130 #: pkg/kubectl/cmd/delete.go:132 msgid "Delete resources by filenames, stdin, resources and names, or by resources and label selector" msgstr "Delete resources by filenames, stdin, resources and names, or by resources and label selector" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/delete_cluster.go#L38 #: pkg/kubectl/cmd/config/delete_cluster.go:39 msgid "Delete the specified cluster from the kubeconfig" msgstr "删除 kubeconfig 文件中指定的集群" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/delete_context.go#L38 #: pkg/kubectl/cmd/config/delete_context.go:39 msgid "Delete the specified context from the kubeconfig" msgstr "删除 kubeconfig 文件中指定的 context" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/certificates.go#L121 #: pkg/kubectl/cmd/certificates.go:122 msgid "Deny a certificate signing request" msgstr "拒绝一个自签证书请求" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/stop.go#L58 #: pkg/kubectl/cmd/stop.go:59 msgid "Deprecated: Gracefully shut down a resource by name or filename" msgstr "Deprecated: Gracefully shut down a resource by name or filename" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/get_contexts.go#L62 #: pkg/kubectl/cmd/config/get_contexts.go:64 msgid "Describe one or many contexts" msgstr "描述一个或多个 contexts" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/top_node.go#L77 #: pkg/kubectl/cmd/top_node.go:78 msgid "Display Resource (CPU/Memory) usage of nodes" msgstr "显示 nodes 的 Resource (CPU/Memory) 使用" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/top_pod.go#L79 #: pkg/kubectl/cmd/top_pod.go:80 msgid "Display Resource (CPU/Memory) usage of pods" msgstr "显示 pods 的 Resource (CPU/Memory) 使用" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/top.go#L43 #: pkg/kubectl/cmd/top.go:44 msgid "Display Resource (CPU/Memory) usage." msgstr "显示 Resource (CPU/Memory) 使用." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/clusterinfo.go#L49 #: pkg/kubectl/cmd/clusterinfo.go:51 msgid "Display cluster info" msgstr "显示集群信息" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/get_clusters.go#L40 #: pkg/kubectl/cmd/config/get_clusters.go:41 msgid "Display clusters defined in the kubeconfig" msgstr "显示 kubeconfig 文件中定义的集群" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/view.go#L64 #: pkg/kubectl/cmd/config/view.go:67 msgid "Display merged kubeconfig settings or a specified kubeconfig file" msgstr "显示合并的 kubeconfig 配置或一个指定的 kubeconfig 文件" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/get.go#L107 #: pkg/kubectl/cmd/get.go:111 msgid "Display one or many resources" msgstr "显示一个或更多 resources" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/current_context.go#L48 #: pkg/kubectl/cmd/config/current_context.go:49 msgid "Displays the current-context" msgstr "显示当前的 context" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/explain.go#L50 #: pkg/kubectl/cmd/explain.go:51 msgid "Documentation of resources" msgstr "查看资源的文档" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/drain.go#L176 #: pkg/kubectl/cmd/drain.go:178 msgid "Drain node in preparation for maintenance" msgstr "Drain node in preparation for maintenance" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/clusterinfo_dump.go#L37 #: pkg/kubectl/cmd/clusterinfo_dump.go:39 msgid "Dump lots of relevant info for debugging and diagnosis" msgstr "Dump lots of relevant info for debugging and diagnosis" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/edit.go#L100 #: pkg/kubectl/cmd/edit.go:110 msgid "Edit a resource on the server" msgstr "在服务器上编辑一个资源" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L159 #: pkg/kubectl/cmd/create_secret.go:160 msgid "Email for Docker registry" msgstr "Email for Docker registry" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/exec.go#L68 #: pkg/kubectl/cmd/exec.go:69 msgid "Execute a command in a container" msgstr "在一个 container 中执行一个命令" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollingupdate.go#L102 #: pkg/kubectl/cmd/rollingupdate.go:103 msgid "Explicit policy for when to pull container images. Required when --image is same as existing image, ignored otherwise." msgstr "Explicit policy for when to pull container images. Required when --image is same as existing image, ignored otherwise." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/portforward.go#L75 #: pkg/kubectl/cmd/portforward.go:76 msgid "Forward one or more local ports to a pod" msgstr "Forward one or more local ports to a pod" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/help.go#L36 #: pkg/kubectl/cmd/help.go:37 msgid "Help about any command" msgstr "Help about any command" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L105 #: pkg/kubectl/cmd/expose.go:103 msgid "IP to assign to the Load Balancer. If empty, an ephemeral IP will be created and used (cloud-provider specific)." msgstr "IP to assign to the Load Balancer. If empty, an ephemeral IP will be created and used (cloud-provider specific)." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L114 #: pkg/kubectl/cmd/expose.go:112 msgid "If non-empty, set the session affinity for the service to this; legal values: 'None', 'ClientIP'" msgstr "If non-empty, set the session affinity for the service to this; legal values: 'None', 'ClientIP'" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/annotate.go#L135 #: pkg/kubectl/cmd/annotate.go:136 msgid "If non-empty, the annotation update will only succeed if this is the current resource-version for the object. Only valid when specifying a single resource." msgstr "If non-empty, the annotation update will only succeed if this is the current resource-version for the object. Only valid when specifying a single resource." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/label.go#L132 #: pkg/kubectl/cmd/label.go:134 msgid "If non-empty, the labels update will only succeed if this is the current resource-version for the object. Only valid when specifying a single resource." msgstr "If non-empty, the labels update will only succeed if this is the current resource-version for the object. Only valid when specifying a single resource." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollingupdate.go#L98 #: pkg/kubectl/cmd/rollingupdate.go:99 msgid "Image to use for upgrading the replication controller. Must be distinct from the existing image (either new image or new image tag). Can not be used with --filename/-f" msgstr "Image to use for upgrading the replication controller. Must be distinct from the existing image (either new image or new image tag). Can not be used with --filename/-f" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollout/rollout.go#L46 #: pkg/kubectl/cmd/rollout/rollout.go:47 msgid "Manage a deployment rollout" msgstr "管理一个 deployment 的 rollout" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/drain.go#L127 #: pkg/kubectl/cmd/drain.go:128 msgid "Mark node as schedulable" msgstr "标记 node 为 schedulable" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/drain.go#L102 #: pkg/kubectl/cmd/drain.go:103 msgid "Mark node as unschedulable" msgstr "标记 node 为 unschedulable" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollout/rollout_pause.go#L73 #: pkg/kubectl/cmd/rollout/rollout_pause.go:74 msgid "Mark the provided resource as paused" msgstr "标记提供的 resource 为中止状态" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/certificates.go#L35 #: pkg/kubectl/cmd/certificates.go:36 msgid "Modify certificate resources." msgstr "修改 certificate 资源." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/config.go#L39 #: pkg/kubectl/cmd/config/config.go:40 msgid "Modify kubeconfig files" msgstr "修改 kubeconfig 文件" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L110 #: pkg/kubectl/cmd/expose.go:108 msgid "Name or number for the port on the container that the service should direct traffic to. Optional." msgstr "Name or number for the port on the container that the service should direct traffic to. Optional." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/logs.go#L108 #: pkg/kubectl/cmd/logs.go:113 msgid "Only return logs after a specific date (RFC3339). Defaults to all logs. Only one of since-time / since may be used." msgstr "Only return logs after a specific date (RFC3339). Defaults to all logs. Only one of since-time / since may be used." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/completion.go#L97 #: pkg/kubectl/cmd/completion.go:104 msgid "Output shell completion code for the specified shell (bash or zsh)" msgstr "Output shell completion code for the specified shell (bash or zsh)" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/edit.go#L115 #: pkg/kubectl/cmd/convert.go:85 msgid "Output the formatted object with the given group version (for ex: 'extensions/v1beta1').)" msgstr "Output the formatted object with the given group version (for ex: 'extensions/v1beta1').)" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L157 #: pkg/kubectl/cmd/create_secret.go:158 msgid "Password for Docker registry authentication" msgstr "Password for Docker registry authentication" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L226 #: pkg/kubectl/cmd/create_secret.go:226 msgid "Path to PEM encoded public key certificate." msgstr "Path to PEM encoded public key certificate." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L227 #: pkg/kubectl/cmd/create_secret.go:227 msgid "Path to private key associated with given certificate." msgstr "Path to private key associated with given certificate." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollingupdate.go#L84 #: pkg/kubectl/cmd/rollingupdate.go:85 msgid "Perform a rolling update of the given ReplicationController" msgstr "完成指定的 ReplicationController 的滚动升级" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/scale.go#L82 #: pkg/kubectl/cmd/scale.go:83 msgid "Precondition for resource version. Requires that the current resource version match this value in order to scale." msgstr "Precondition for resource version. Requires that the current resource version match this value in order to scale." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/version.go#L39 #: pkg/kubectl/cmd/version.go:40 msgid "Print the client and server version information" msgstr "输出 client 和 server 的版本信息" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/options.go#L37 #: pkg/kubectl/cmd/options.go:38 msgid "Print the list of flags inherited by all commands" msgstr "输出所有命令的层级关系" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/logs.go#L86 #: pkg/kubectl/cmd/logs.go:93 msgid "Print the logs for a container in a pod" msgstr "输出容器在 pod 中的日志" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/replace.go#L70 #: pkg/kubectl/cmd/replace.go:71 msgid "Replace a resource by filename or stdin" msgstr "通过 filename 或者 stdin替换一个资源" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollout/rollout_resume.go#L71 #: pkg/kubectl/cmd/rollout/rollout_resume.go:72 msgid "Resume a paused resource" msgstr "继续一个停止的 resource" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_rolebinding.go#L56 #: pkg/kubectl/cmd/create_rolebinding.go:57 msgid "Role this RoleBinding should reference" msgstr "RoleBinding 的 Role 应该被引用" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L94 #: pkg/kubectl/cmd/run.go:97 msgid "Run a particular image on the cluster" msgstr "在集群中运行一个指定的镜像" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/proxy.go#L68 #: pkg/kubectl/cmd/proxy.go:69 msgid "Run a proxy to the Kubernetes API server" msgstr "运行一个 proxy 到 Kubernetes API server" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L161 #: pkg/kubectl/cmd/create_secret.go:161 msgid "Server location for Docker registry" msgstr "Server location for Docker registry" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/scale.go#L71 #: pkg/kubectl/cmd/scale.go:71 msgid "Set a new size for a Deployment, ReplicaSet, Replication Controller, or Job" msgstr "为 Deployment, ReplicaSet, Replication Controller 或者 Job 设置一个新的副本数量" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/set/set.go#L37 #: pkg/kubectl/cmd/set/set.go:38 msgid "Set specific features on objects" msgstr "为 objects 设置一个指定的特征" #: pkg/kubectl/cmd/apply_set_last_applied.go:83 msgid "Set the last-applied-configuration annotation on a live object to match the contents of a file." msgstr "Set the last-applied-configuration annotation on a live object to match the contents of a file." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/set/set_selector.go#L81 #: pkg/kubectl/cmd/set/set_selector.go:82 msgid "Set the selector on a resource" msgstr "设置 resource 的 selector" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/create_cluster.go#L67 #: pkg/kubectl/cmd/config/create_cluster.go:68 msgid "Sets a cluster entry in kubeconfig" msgstr "设置 kubeconfig 文件中的一个集群条目" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/create_context.go#L57 #: pkg/kubectl/cmd/config/create_context.go:58 msgid "Sets a context entry in kubeconfig" msgstr "设置 kubeconfig 文件中的一个 context 条目" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/create_authinfo.go#L103 #: pkg/kubectl/cmd/config/create_authinfo.go:104 msgid "Sets a user entry in kubeconfig" msgstr "设置 kubeconfig 文件中的一个用户条目" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/set.go#L59 #: pkg/kubectl/cmd/config/set.go:60 msgid "Sets an individual value in a kubeconfig file" msgstr "设置 kubeconfig 文件中的一个单个值" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/use_context.go#L48 #: pkg/kubectl/cmd/config/use_context.go:49 msgid "Sets the current-context in a kubeconfig file" msgstr "设置 kubeconfig 文件中的当前上下文" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/describe.go#L80 #: pkg/kubectl/cmd/describe.go:86 msgid "Show details of a specific resource or group of resources" msgstr "显示一个指定 resource 或者 group 的 resources 详情" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollout/rollout_status.go#L57 #: pkg/kubectl/cmd/rollout/rollout_status.go:58 msgid "Show the status of the rollout" msgstr "显示 rollout 的状态" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L108 #: pkg/kubectl/cmd/expose.go:106 msgid "Synonym for --target-port" msgstr "Synonym for --target-port" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L87 #: pkg/kubectl/cmd/expose.go:88 msgid "Take a replication controller, service, deployment or pod and expose it as a new Kubernetes Service" msgstr "使用 replication controller, service, deployment 或者 pod 并暴露它作为一个 新的 Kubernetes Service" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L114 #: pkg/kubectl/cmd/run.go:117 msgid "The image for the container to run." msgstr "指定容器要运行的镜像." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L116 #: pkg/kubectl/cmd/run.go:119 msgid "The image pull policy for the container. If left empty, this value will not be specified by the client and defaulted by the server" msgstr "容器的镜像拉取策略. 如果为空, 这个值将不会 被 client 指定且使用 server 端的默认值" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollingupdate.go#L100 #: pkg/kubectl/cmd/rollingupdate.go:101 msgid "The key to use to differentiate between two different controllers, default 'deployment'. Only relevant when --image is specified, ignored otherwise" msgstr "这个 key 使用有区别在两个不同的 controllers, 默认 'deployment'. 只有当 --image 指定值, 否则忽略" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_pdb.go#L62 #: pkg/kubectl/cmd/create_pdb.go:63 msgid "The minimum number or percentage of available pods this budget requires." msgstr "最小数量百分比可用的 pods 作为 budget 要求." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L113 #: pkg/kubectl/cmd/expose.go:111 msgid "The name for the newly created object." msgstr "名称为最新创建的对象." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/autoscale.go#L71 #: pkg/kubectl/cmd/autoscale.go:72 msgid "The name for the newly created object. If not specified, the name of the input resource will be used." msgstr "名称为最新创建的对象. 如果没有指定, 输入资源的 名称即将被使用." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L113 #: pkg/kubectl/cmd/run.go:116 msgid "The name of the API generator to use, see http://kubernetes.io/docs/user-guide/kubectl-conventions/#generators for a list." msgstr "使用 API generator 的名字, 在 http://kubernetes.io/docs/user-guide/kubectl-conventions/#generators 查看列表." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/autoscale.go#L66 #: pkg/kubectl/cmd/autoscale.go:67 msgid "The name of the API generator to use. Currently there is only 1 generator." msgstr "使用 API generator 的名字. 目前只有 1 个 generator." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L98 #: pkg/kubectl/cmd/expose.go:99 msgid "The name of the API generator to use. There are 2 generators: 'service/v1' and 'service/v2'. The only difference between them is that service port in v1 is named 'default', while it is left unnamed in v2. Default is 'service/v2'." msgstr "使用 generator 的名称. 这里有 2 个 generators: 'service/v1' 和 'service/v2'. 为一个不同地方是服务端口在 v1 的情况下叫 'default', 如果在 v2 中没有指定名称. 默认的名称是 'service/v2'." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L133 #: pkg/kubectl/cmd/run.go:136 msgid "The name of the generator to use for creating a service. Only used if --expose is true" msgstr "使用 gnerator 的名称创建一个 service. 只有在 --expose 为 true 的时候使用" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L99 #: pkg/kubectl/cmd/expose.go:100 msgid "The network protocol for the service to be created. Default is 'TCP'." msgstr "创建 service 的时候伴随着一个网络协议被创建. 默认是 'TCP'." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L100 #: pkg/kubectl/cmd/expose.go:101 msgid "The port that the service should serve on. Copied from the resource being exposed, if unspecified" msgstr "服务的端口应该被指定. 如果没有指定, 从被创建的资源中复制" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L121 #: pkg/kubectl/cmd/run.go:124 msgid "The port that this container exposes. If --expose is true, this is also the port used by the service that is created." msgstr "The port that this container exposes. If --expose is true, this is also the port used by the service that is created." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L131 #: pkg/kubectl/cmd/run.go:134 msgid "The resource requirement limits for this container. For example, 'cpu=200m,memory=512Mi'. Note that server side components may assign limits depending on the server configuration, such as limit ranges." msgstr "The resource requirement limits for this container. For example, 'cpu=200m,memory=512Mi'. Note that server side components may assign limits depending on the server configuration, such as limit ranges." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L130 #: pkg/kubectl/cmd/run.go:133 msgid "The resource requirement requests for this container. For example, 'cpu=100m,memory=256Mi'. Note that server side components may assign requests depending on the server configuration, such as limit ranges." msgstr "资源为 container 请求 requests . 例如, 'cpu=100m,memory=256Mi'. 注意服务端组件也许会赋予 requests, 这决定于服务器端配置, 比如 limit ranges." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/run.go#L128 #: pkg/kubectl/cmd/run.go:131 msgid "The restart policy for this Pod. Legal values [Always, OnFailure, Never]. If set to 'Always' a deployment is created, if set to 'OnFailure' a job is created, if set to 'Never', a regular pod is created. For the latter two --replicas must be 1. Default 'Always', for CronJobs ` + "`" + `Never` + "`" + `." msgstr "这个 Pod 的 restart policy. Legal values [Always, OnFailure, Never]. 如果设置为 'Always' 一个 deployment 被创建, 如果设置为 ’OnFailure' 一个 job 被创建, 如果设置为 'Never', 一个普通的 pod 被创建. 对于后面两个 --replicas 必须为 1. 默认 'Always', 为 CronJobs 设置为 ` + "`" + `Never` + "`" + `." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L87 #: pkg/kubectl/cmd/create_secret.go:88 msgid "The type of secret to create" msgstr "创建 secret 类型资源" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/expose.go#L101 #: pkg/kubectl/cmd/expose.go:102 msgid "Type for this service: ClusterIP, NodePort, or LoadBalancer. Default is 'ClusterIP'." msgstr "对于服务的类型: ClusterIP, NodePort, 或者 LoadBalancer. 默认是 'ClusterIP’." # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollout/rollout_undo.go#L71 #: pkg/kubectl/cmd/rollout/rollout_undo.go:72 msgid "Undo a previous rollout" msgstr "撤销上一次的 rollout" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/config/unset.go#L47 #: pkg/kubectl/cmd/config/unset.go:48 msgid "Unsets an individual value in a kubeconfig file" msgstr "取消设置 kubeconfig 文件中的一个单个值" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/patch.go#L91 #: pkg/kubectl/cmd/patch.go:96 msgid "Update field(s) of a resource using strategic merge patch" msgstr "使用 strategic merge patch 更新一个资源的 field(s)" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/set/set_image.go#L94 #: pkg/kubectl/cmd/set/set_image.go:95 msgid "Update image of a pod template" msgstr "更新一个 pod template 的镜像" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/set/set_resources.go#L101 #: pkg/kubectl/cmd/set/set_resources.go:102 msgid "Update resource requests/limits on objects with pod templates" msgstr "在对象的 pod templates 上更新资源的 requests/limits" #: pkg/kubectl/cmd/annotate.go:116 msgid "Update the annotations on a resource" msgstr "更新一个资源的注解" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/label.go#L109 #: pkg/kubectl/cmd/label.go:114 msgid "Update the labels on a resource" msgstr "更新在这个资源上的 labels" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/taint.go#L88 #: pkg/kubectl/cmd/taint.go:87 msgid "Update the taints on one or more nodes" msgstr "更新一个或者多个 node 上的 taints" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_secret.go#L155 #: pkg/kubectl/cmd/create_secret.go:156 msgid "Username for Docker registry authentication" msgstr "Username 为 Docker registry authentication" #: pkg/kubectl/cmd/apply_view_last_applied.go:64 msgid "View latest last-applied-configuration annotations of a resource/object" msgstr "显示最后的 resource/object 的 last-applied-configuration annotations" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/rollout/rollout_history.go#L51 #: pkg/kubectl/cmd/rollout/rollout_history.go:52 msgid "View rollout history" msgstr "显示 rollout 历史" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/clusterinfo_dump.go#L45 #: pkg/kubectl/cmd/clusterinfo_dump.go:46 msgid "Where to output the files. If empty or '-' uses stdout, otherwise creates a directory hierarchy in that directory" msgstr "输出到 files. 如果是 empty or '-' 使用 stdout, 否则创建一个 目录层级在那个目录" #: pkg/kubectl/cmd/run_test.go:85 msgid "dummy restart flag)" msgstr "dummy restart flag)" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/create_service.go#L253 #: pkg/kubectl/cmd/create_service.go:254 msgid "external name of service" msgstr "服务的外部名称" # https://github.com/kubernetes/kubernetes/blob/master/pkg/kubectl/cmd/cmd.go#L217 #: pkg/kubectl/cmd/cmd.go:227 msgid "kubectl controls the Kubernetes cluster manager" msgstr "kubectl 控制 Kubernetes cluster 管理" #~ msgid "watch is only supported on individual resources and resource collections - %d resources were found" #~ msgid_plural "watch is only supported on individual resources and resource collections - %d resources were found" #~ msgstr[0] "watch 仅支持单独的资源或者资源集合 - 找到了 %d 个资源watch is only supported on individual resources and resource collections - %d resource was found" #~ msgstr[1] "watch 仅支持单独的资源或者资源集合 - 找到了 %d 个资源watch is only supported on individual resources and resource collections - %d resources were found" `) func translationsKubectlZh_cnLc_messagesK8sPoBytes() ([]byte, error) { return _translationsKubectlZh_cnLc_messagesK8sPo, nil } func translationsKubectlZh_cnLc_messagesK8sPo() (*asset, error) { bytes, err := translationsKubectlZh_cnLc_messagesK8sPoBytes() if err != nil { return nil, err } info := bindataFileInfo{name: "translations/kubectl/zh_CN/LC_MESSAGES/k8s.po", size: 0, mode: os.FileMode(0), modTime: time.Unix(0, 0)} a := &asset{bytes: bytes, info: info} return a, nil } var _translationsKubectlZh_twLc_messagesK8sMo = []byte("\xde\x12\x04\x95\x00\x00\x00\x00\x11\x00\x00\x00\x1c\x00\x00\x00\xa4\x00\x00\x00\x17\x00\x00\x00,\x01\x00\x00\x00\x00\x00\x00\x88\x01\x00\x008\x00\x00\x00\x89\x01\x00\x000\x00\x00\x00\xc2\x01\x00\x000\x00\x00\x00\xf3\x01\x00\x00\x1d\x00\x00\x00$\x02\x00\x00*\x00\x00\x00B\x02\x00\x00A\x00\x00\x00m\x02\x00\x00\x1c\x00\x00\x00\xaf\x02\x00\x00\x17\x00\x00\x00\xcc\x02\x00\x00\"\x00\x00\x00\xe4\x02\x00\x00\"\x00\x00\x00\a\x03\x00\x00\x1f\x00\x00\x00*\x03\x00\x00-\x00\x00\x00J\x03\x00\x00-\x00\x00\x00x\x03\x00\x00/\x00\x00\x00\xa6\x03\x00\x00$\x00\x00\x00\xd6\x03\x00\x00\xc5\x00\x00\x00\xfb\x03\x00\x00\x98\x01\x00\x00\xc1\x04\x00\x00=\x00\x00\x00Z\x06\x00\x003\x00\x00\x00\x98\x06\x00\x00,\x00\x00\x00\xcc\x06\x00\x00\x1d\x00\x00\x00\xf9\x06\x00\x003\x00\x00\x00\x17\a\x00\x00E\x00\x00\x00K\a\x00\x00\x17\x00\x00\x00\x91\a\x00\x00\x18\x00\x00\x00\xa9\a\x00\x009\x00\x00\x00\xc2\a\x00\x003\x00\x00\x00\xfc\a\x00\x003\x00\x00\x000\b\x00\x00'\x00\x00\x00d\b\x00\x00,\x00\x00\x00\x8c\b\x00\x00-\x00\x00\x00\xb9\b\x00\x00(\x00\x00\x00\xe7\b\x00\x00\x8f\x00\x00\x00\x10\t\x00\x00\x01\x00\x00\x00\n\x00\x00\x00\v\x00\x00\x00\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x11\x00\x00\x00\t\x00\x00\x00\x02\x00\x00\x00\x00\x00\x00\x00\a\x00\x00\x00\x04\x00\x00\x00\x00\x00\x00\x00\b\x00\x00\x00\x0e\x00\x00\x00\x00\x00\x00\x00\x0f\x00\x00\x00\f\x00\x00\x00\x05\x00\x00\x00\r\x00\x00\x00\x06\x00\x00\x00\x00\x00\x00\x00\x10\x00\x00\x00\x00Apply a configuration to a resource by filename or stdin\x00Delete the specified cluster from the kubeconfig\x00Delete the specified context from the kubeconfig\x00Describe one or many contexts\x00Display clusters defined in the kubeconfig\x00Display merged kubeconfig settings or a specified kubeconfig file\x00Displays the current-context\x00Modify kubeconfig files\x00Sets a cluster entry in kubeconfig\x00Sets a context entry in kubeconfig\x00Sets a user entry in kubeconfig\x00Sets an individual value in a kubeconfig file\x00Sets the current-context in a kubeconfig file\x00Unsets an individual value in a kubeconfig file\x00Update the annotations on a resource\x00watch is only supported on individual resources and resource collections - %d resources were found\x00watch is only supported on individual resources and resource collections - %d resources were found\x00Project-Id-Version: hello-world\nReport-Msgid-Bugs-To: \nPOT-Creation-Date: 2017-05-26 08:28+0800\nPO-Revision-Date: 2017-06-02 09:13+0800\nLast-Translator: William Chang \nMIME-Version: 1.0\nContent-Type: text/plain; charset=UTF-8\nContent-Transfer-Encoding: 8bit\nX-Generator: Poedit 2.0.2\nX-Poedit-SourceCharset: UTF-8\nLanguage-Team: \nPlural-Forms: nplurals=2; plural=(n > 1);\nLanguage: zh\n\x00\u901a\u904e\u6a94\u6848\u540d\u6216\u6a19\u6e96\u8f38\u5165\u6d41(stdin)\u5c0d\u8cc7\u6e90\u9032\u884c\u914d\u7f6e\x00\u522a\u9664 kubeconfig \u6a94\u6848\u4e2d\u6307\u5b9a\u7684\u53e2\u96c6(cluster)\x00\u522a\u9664 kubeconfig \u6a94\u6848\u4e2d\u6307\u5b9a\u7684 context\x00\u63cf\u8ff0\u4e00\u500b\u6216\u591a\u500b context\x00\u986f\u793a kubeconfig \u6a94\u6848\u4e2d\u5b9a\u7fa9\u7684\u53e2\u96c6(cluster)\x00\u986f\u793a\u5408\u4f75\u7684 kubeconfig \u914d\u7f6e\u6216\u4e00\u500b\u6307\u5b9a\u7684 kubeconfig \u6a94\u6848\x00\u986f\u793a\u76ee\u524d\u7684 context\x00\u4fee\u6539 kubeconfig \u6a94\u6848\x00\u8a2d\u7f6e kubeconfig \u6a94\u6848\u4e2d\u7684\u4e00\u500b\u53e2\u96c6(cluster)\u689d\u76ee\x00\u8a2d\u7f6e kubeconfig \u6a94\u6848\u4e2d\u7684\u4e00\u500b context \u689d\u76ee\x00\u8a2d\u7f6e kubeconfig \u6a94\u6848\u4e2d\u7684\u4e00\u500b\u4f7f\u7528\u8005\u689d\u76ee\x00\u8a2d\u7f6e kubeconfig \u6a94\u6848\u4e2d\u7684\u4e00\u500b\u503c\x00\u8a2d\u7f6e kubeconfig \u6a94\u6848\u4e2d\u7684\u76ee\u524d context\x00\u53d6\u6d88\u8a2d\u7f6e kubeconfig \u6a94\u6848\u4e2d\u7684\u4e00\u500b\u503c\x00\u66f4\u65b0\u4e00\u500b\u8cc7\u6e90\u7684\u6ce8\u89e3(annotations)\x00\u4e00\u6b21\u53ea\u80fd watch \u4e00\u500b\u8cc7\u6e90\u6216\u8cc7\u6599\u96c6\u5408 - \u627e\u5230\u4e86 %d \u500b\u8cc7\u6e90\x00\u4e00\u6b21\u53ea\u80fd watch \u4e00\u500b\u8cc7\u6e90\u6216\u8cc7\u6599\u96c6\u5408 - \u627e\u5230\u4e86 %d \u500b\u8cc7\u6e90\x00") func translationsKubectlZh_twLc_messagesK8sMoBytes() ([]byte, error) { return _translationsKubectlZh_twLc_messagesK8sMo, nil } func translationsKubectlZh_twLc_messagesK8sMo() (*asset, error) { bytes, err := translationsKubectlZh_twLc_messagesK8sMoBytes() if err != nil { return nil, err } info := bindataFileInfo{name: "translations/kubectl/zh_TW/LC_MESSAGES/k8s.mo", size: 0, mode: os.FileMode(0), modTime: time.Unix(0, 0)} a := &asset{bytes: bytes, info: info} return a, nil } var _translationsKubectlZh_twLc_messagesK8sPo = []byte(`# Test translations for unit tests. # Copyright (C) 2017 # This file is distributed under the same license as the Kubernetes package. # FIRST AUTHOR warmchang@outlook.com, 2017. # msgid "" msgstr "" "Project-Id-Version: hello-world\n" "Report-Msgid-Bugs-To: \n" "POT-Creation-Date: 2017-05-26 08:28+0800\n" "PO-Revision-Date: 2017-06-02 09:13+0800\n" "Last-Translator: William Chang \n" "MIME-Version: 1.0\n" "Content-Type: text/plain; charset=UTF-8\n" "Content-Transfer-Encoding: 8bit\n" "X-Generator: Poedit 2.0.2\n" "X-Poedit-SourceCharset: UTF-8\n" "Language-Team: \n" "Plural-Forms: nplurals=2; plural=(n > 1);\n" "Language: zh\n" #: pkg/kubectl/cmd/apply.go:104 msgid "Apply a configuration to a resource by filename or stdin" msgstr "通過檔案名或標準輸入流(stdin)對資源進行配置" #: pkg/kubectl/cmd/config/delete_cluster.go:39 msgid "Delete the specified cluster from the kubeconfig" msgstr "刪除 kubeconfig 檔案中指定的叢集(cluster)" #: pkg/kubectl/cmd/config/delete_context.go:39 msgid "Delete the specified context from the kubeconfig" msgstr "刪除 kubeconfig 檔案中指定的 context" #: pkg/kubectl/cmd/config/get_contexts.go:64 msgid "Describe one or many contexts" msgstr "描述一個或多個 context" #: pkg/kubectl/cmd/config/get_clusters.go:41 msgid "Display clusters defined in the kubeconfig" msgstr "顯示 kubeconfig 檔案中定義的叢集(cluster)" #: pkg/kubectl/cmd/config/view.go:67 msgid "Display merged kubeconfig settings or a specified kubeconfig file" msgstr "顯示合併的 kubeconfig 配置或一個指定的 kubeconfig 檔案" #: pkg/kubectl/cmd/config/current_context.go:49 msgid "Displays the current-context" msgstr "顯示目前的 context" #: pkg/kubectl/cmd/config/config.go:40 msgid "Modify kubeconfig files" msgstr "修改 kubeconfig 檔案" #: pkg/kubectl/cmd/config/create_cluster.go:68 msgid "Sets a cluster entry in kubeconfig" msgstr "設置 kubeconfig 檔案中的一個叢集(cluster)條目" #: pkg/kubectl/cmd/config/create_context.go:58 msgid "Sets a context entry in kubeconfig" msgstr "設置 kubeconfig 檔案中的一個 context 條目" #: pkg/kubectl/cmd/config/create_authinfo.go:104 msgid "Sets a user entry in kubeconfig" msgstr "設置 kubeconfig 檔案中的一個使用者條目" #: pkg/kubectl/cmd/config/set.go:60 msgid "Sets an individual value in a kubeconfig file" msgstr "設置 kubeconfig 檔案中的一個值" #: pkg/kubectl/cmd/config/use_context.go:49 msgid "Sets the current-context in a kubeconfig file" msgstr "設置 kubeconfig 檔案中的目前 context" #: pkg/kubectl/cmd/config/unset.go:48 msgid "Unsets an individual value in a kubeconfig file" msgstr "取消設置 kubeconfig 檔案中的一個值" #: pkg/kubectl/cmd/annotate.go:116 msgid "Update the annotations on a resource" msgstr "更新一個資源的注解(annotations)" msgid "" "watch is only supported on individual resources and resource collections - " "%d resources were found" msgid_plural "" "watch is only supported on individual resources and resource collections - " "%d resources were found" msgstr[0] "一次只能 watch 一個資源或資料集合 - 找到了 %d 個資源" msgstr[1] "一次只能 watch 一個資源或資料集合 - 找到了 %d 個資源" `) func translationsKubectlZh_twLc_messagesK8sPoBytes() ([]byte, error) { return _translationsKubectlZh_twLc_messagesK8sPo, nil } func translationsKubectlZh_twLc_messagesK8sPo() (*asset, error) { bytes, err := translationsKubectlZh_twLc_messagesK8sPoBytes() if err != nil { return nil, err } info := bindataFileInfo{name: "translations/kubectl/zh_TW/LC_MESSAGES/k8s.po", size: 0, mode: os.FileMode(0), modTime: time.Unix(0, 0)} a := &asset{bytes: bytes, info: info} return a, nil } var _translationsTestDefaultLc_messagesK8sMo = []byte("\xde\x12\x04\x95\x00\x00\x00\x00\x03\x00\x00\x00\x1c\x00\x00\x004\x00\x00\x00\x05\x00\x00\x00L\x00\x00\x00\x00\x00\x00\x00`\x00\x00\x00\x17\x00\x00\x00a\x00\x00\x00\v\x00\x00\x00y\x00\x00\x00\xac\x01\x00\x00\x85\x00\x00\x00%\x00\x00\x002\x02\x00\x00\x03\x00\x00\x00X\x02\x00\x00\x01\x00\x00\x00\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x02\x00\x00\x00\x00test_plural\x00test_plural\x00test_string\x00Project-Id-Version: gettext-go-examples-hello\nReport-Msgid-Bugs-To: \nPOT-Creation-Date: 2013-12-12 20:03+0000\nPO-Revision-Date: 2016-12-13 21:35-0800\nLast-Translator: Brendan Burns \nMIME-Version: 1.0\nContent-Type: text/plain; charset=UTF-8\nContent-Transfer-Encoding: 8bit\nX-Generator: Poedit 1.6.10\nX-Poedit-SourceCharset: UTF-8\nLanguage-Team: \nPlural-Forms: nplurals=2; plural=(n != 1);\nLanguage: en\n\x00there was %d item\x00there were %d items\x00foo\x00") func translationsTestDefaultLc_messagesK8sMoBytes() ([]byte, error) { return _translationsTestDefaultLc_messagesK8sMo, nil } func translationsTestDefaultLc_messagesK8sMo() (*asset, error) { bytes, err := translationsTestDefaultLc_messagesK8sMoBytes() if err != nil { return nil, err } info := bindataFileInfo{name: "translations/test/default/LC_MESSAGES/k8s.mo", size: 0, mode: os.FileMode(0), modTime: time.Unix(0, 0)} a := &asset{bytes: bytes, info: info} return a, nil } var _translationsTestDefaultLc_messagesK8sPo = []byte(`# Test translations for unit tests. # Copyright (C) 2016 # This file is distributed under the same license as the Kubernetes package. # FIRST AUTHOR brendan.d.burns@gmail.com, 2016. # msgid "" msgstr "" "Project-Id-Version: gettext-go-examples-hello\n" "Report-Msgid-Bugs-To: \n" "POT-Creation-Date: 2013-12-12 20:03+0000\n" "PO-Revision-Date: 2016-12-13 21:35-0800\n" "Last-Translator: Brendan Burns \n" "MIME-Version: 1.0\n" "Content-Type: text/plain; charset=UTF-8\n" "Content-Transfer-Encoding: 8bit\n" "X-Generator: Poedit 1.6.10\n" "X-Poedit-SourceCharset: UTF-8\n" "Language-Team: \n" "Plural-Forms: nplurals=2; plural=(n != 1);\n" "Language: en\n" msgid "test_plural" msgid_plural "test_plural" msgstr[0] "there was %d item" msgstr[1] "there were %d items" msgid "test_string" msgstr "foo" `) func translationsTestDefaultLc_messagesK8sPoBytes() ([]byte, error) { return _translationsTestDefaultLc_messagesK8sPo, nil } func translationsTestDefaultLc_messagesK8sPo() (*asset, error) { bytes, err := translationsTestDefaultLc_messagesK8sPoBytes() if err != nil { return nil, err } info := bindataFileInfo{name: "translations/test/default/LC_MESSAGES/k8s.po", size: 0, mode: os.FileMode(0), modTime: time.Unix(0, 0)} a := &asset{bytes: bytes, info: info} return a, nil } var _translationsTestEn_usLc_messagesK8sMo = []byte("\xde\x12\x04\x95\x00\x00\x00\x00\x03\x00\x00\x00\x1c\x00\x00\x004\x00\x00\x00\x05\x00\x00\x00L\x00\x00\x00\x00\x00\x00\x00`\x00\x00\x00\x17\x00\x00\x00a\x00\x00\x00\v\x00\x00\x00y\x00\x00\x00\xac\x01\x00\x00\x85\x00\x00\x00%\x00\x00\x002\x02\x00\x00\x03\x00\x00\x00X\x02\x00\x00\x01\x00\x00\x00\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x02\x00\x00\x00\x00test_plural\x00test_plural\x00test_string\x00Project-Id-Version: gettext-go-examples-hello\nReport-Msgid-Bugs-To: \nPOT-Creation-Date: 2013-12-12 20:03+0000\nPO-Revision-Date: 2016-12-13 22:12-0800\nLast-Translator: Brendan Burns \nMIME-Version: 1.0\nContent-Type: text/plain; charset=UTF-8\nContent-Transfer-Encoding: 8bit\nX-Generator: Poedit 1.6.10\nX-Poedit-SourceCharset: UTF-8\nLanguage-Team: \nPlural-Forms: nplurals=2; plural=(n != 1);\nLanguage: en\n\x00there was %d item\x00there were %d items\x00baz\x00") func translationsTestEn_usLc_messagesK8sMoBytes() ([]byte, error) { return _translationsTestEn_usLc_messagesK8sMo, nil } func translationsTestEn_usLc_messagesK8sMo() (*asset, error) { bytes, err := translationsTestEn_usLc_messagesK8sMoBytes() if err != nil { return nil, err } info := bindataFileInfo{name: "translations/test/en_US/LC_MESSAGES/k8s.mo", size: 0, mode: os.FileMode(0), modTime: time.Unix(0, 0)} a := &asset{bytes: bytes, info: info} return a, nil } var _translationsTestEn_usLc_messagesK8sPo = []byte(`# Test translations for unit tests. # Copyright (C) 2016 # This file is distributed under the same license as the Kubernetes package. # FIRST AUTHOR brendan.d.burns@gmail.com, 2016. # msgid "" msgstr "" "Project-Id-Version: gettext-go-examples-hello\n" "Report-Msgid-Bugs-To: \n" "POT-Creation-Date: 2013-12-12 20:03+0000\n" "PO-Revision-Date: 2016-12-13 22:12-0800\n" "Last-Translator: Brendan Burns \n" "MIME-Version: 1.0\n" "Content-Type: text/plain; charset=UTF-8\n" "Content-Transfer-Encoding: 8bit\n" "X-Generator: Poedit 1.6.10\n" "X-Poedit-SourceCharset: UTF-8\n" "Language-Team: \n" "Plural-Forms: nplurals=2; plural=(n != 1);\n" "Language: en\n" msgid "test_plural" msgid_plural "test_plural" msgstr[0] "there was %d item" msgstr[1] "there were %d items" msgid "test_string" msgstr "baz" `) func translationsTestEn_usLc_messagesK8sPoBytes() ([]byte, error) { return _translationsTestEn_usLc_messagesK8sPo, nil } func translationsTestEn_usLc_messagesK8sPo() (*asset, error) { bytes, err := translationsTestEn_usLc_messagesK8sPoBytes() if err != nil { return nil, err } info := bindataFileInfo{name: "translations/test/en_US/LC_MESSAGES/k8s.po", size: 0, mode: os.FileMode(0), modTime: time.Unix(0, 0)} a := &asset{bytes: bytes, info: info} return a, nil } // Asset loads and returns the asset for the given name. // It returns an error if the asset could not be found or // could not be loaded. func Asset(name string) ([]byte, error) { cannonicalName := strings.Replace(name, "\\", "/", -1) if f, ok := _bindata[cannonicalName]; ok { a, err := f() if err != nil { return nil, fmt.Errorf("Asset %s can't read by error: %v", name, err) } return a.bytes, nil } return nil, fmt.Errorf("Asset %s not found", name) } // MustAsset is like Asset but panics when Asset would return an error. // It simplifies safe initialization of global variables. func MustAsset(name string) []byte { a, err := Asset(name) if err != nil { panic("asset: Asset(" + name + "): " + err.Error()) } return a } // AssetInfo loads and returns the asset info for the given name. // It returns an error if the asset could not be found or // could not be loaded. func AssetInfo(name string) (os.FileInfo, error) { cannonicalName := strings.Replace(name, "\\", "/", -1) if f, ok := _bindata[cannonicalName]; ok { a, err := f() if err != nil { return nil, fmt.Errorf("AssetInfo %s can't read by error: %v", name, err) } return a.info, nil } return nil, fmt.Errorf("AssetInfo %s not found", name) } // AssetNames returns the names of the assets. func AssetNames() []string { names := make([]string, 0, len(_bindata)) for name := range _bindata { names = append(names, name) } return names } // _bindata is a table, holding each asset generator, mapped to its name. var _bindata = map[string]func() (*asset, error){ "translations/OWNERS": translationsOwners, "translations/extract.py": translationsExtractPy, "translations/kubectl/OWNERS": translationsKubectlOwners, "translations/kubectl/de_DE/LC_MESSAGES/k8s.mo": translationsKubectlDe_deLc_messagesK8sMo, "translations/kubectl/de_DE/LC_MESSAGES/k8s.po": translationsKubectlDe_deLc_messagesK8sPo, "translations/kubectl/default/LC_MESSAGES/k8s.mo": translationsKubectlDefaultLc_messagesK8sMo, "translations/kubectl/default/LC_MESSAGES/k8s.po": translationsKubectlDefaultLc_messagesK8sPo, "translations/kubectl/en_US/LC_MESSAGES/k8s.mo": translationsKubectlEn_usLc_messagesK8sMo, "translations/kubectl/en_US/LC_MESSAGES/k8s.po": translationsKubectlEn_usLc_messagesK8sPo, "translations/kubectl/fr_FR/LC_MESSAGES/k8s.mo": translationsKubectlFr_frLc_messagesK8sMo, "translations/kubectl/fr_FR/LC_MESSAGES/k8s.po": translationsKubectlFr_frLc_messagesK8sPo, "translations/kubectl/it_IT/LC_MESSAGES/k8s.mo": translationsKubectlIt_itLc_messagesK8sMo, "translations/kubectl/it_IT/LC_MESSAGES/k8s.po": translationsKubectlIt_itLc_messagesK8sPo, "translations/kubectl/ja_JP/LC_MESSAGES/k8s.mo": translationsKubectlJa_jpLc_messagesK8sMo, "translations/kubectl/ja_JP/LC_MESSAGES/k8s.po": translationsKubectlJa_jpLc_messagesK8sPo, "translations/kubectl/ko_KR/LC_MESSAGES/k8s.mo": translationsKubectlKo_krLc_messagesK8sMo, "translations/kubectl/ko_KR/LC_MESSAGES/k8s.po": translationsKubectlKo_krLc_messagesK8sPo, "translations/kubectl/pt_BR/LC_MESSAGES/k8s.mo": translationsKubectlPt_brLc_messagesK8sMo, "translations/kubectl/pt_BR/LC_MESSAGES/k8s.po": translationsKubectlPt_brLc_messagesK8sPo, "translations/kubectl/template.pot": translationsKubectlTemplatePot, "translations/kubectl/zh_CN/LC_MESSAGES/k8s.mo": translationsKubectlZh_cnLc_messagesK8sMo, "translations/kubectl/zh_CN/LC_MESSAGES/k8s.po": translationsKubectlZh_cnLc_messagesK8sPo, "translations/kubectl/zh_TW/LC_MESSAGES/k8s.mo": translationsKubectlZh_twLc_messagesK8sMo, "translations/kubectl/zh_TW/LC_MESSAGES/k8s.po": translationsKubectlZh_twLc_messagesK8sPo, "translations/test/default/LC_MESSAGES/k8s.mo": translationsTestDefaultLc_messagesK8sMo, "translations/test/default/LC_MESSAGES/k8s.po": translationsTestDefaultLc_messagesK8sPo, "translations/test/en_US/LC_MESSAGES/k8s.mo": translationsTestEn_usLc_messagesK8sMo, "translations/test/en_US/LC_MESSAGES/k8s.po": translationsTestEn_usLc_messagesK8sPo, } // AssetDir returns the file names below a certain // directory embedded in the file by go-bindata. // For example if you run go-bindata on data/... and data contains the // following hierarchy: // data/ // foo.txt // img/ // a.png // b.png // then AssetDir("data") would return []string{"foo.txt", "img"} // AssetDir("data/img") would return []string{"a.png", "b.png"} // AssetDir("foo.txt") and AssetDir("notexist") would return an error // AssetDir("") will return []string{"data"}. func AssetDir(name string) ([]string, error) { node := _bintree if len(name) != 0 { cannonicalName := strings.Replace(name, "\\", "/", -1) pathList := strings.Split(cannonicalName, "/") for _, p := range pathList { node = node.Children[p] if node == nil { return nil, fmt.Errorf("Asset %s not found", name) } } } if node.Func != nil { return nil, fmt.Errorf("Asset %s not found", name) } rv := make([]string, 0, len(node.Children)) for childName := range node.Children { rv = append(rv, childName) } return rv, nil } type bintree struct { Func func() (*asset, error) Children map[string]*bintree } var _bintree = &bintree{nil, map[string]*bintree{ "translations": {nil, map[string]*bintree{ "OWNERS": {translationsOwners, map[string]*bintree{}}, "extract.py": {translationsExtractPy, map[string]*bintree{}}, "kubectl": {nil, map[string]*bintree{ "OWNERS": {translationsKubectlOwners, map[string]*bintree{}}, "de_DE": {nil, map[string]*bintree{ "LC_MESSAGES": {nil, map[string]*bintree{ "k8s.mo": {translationsKubectlDe_deLc_messagesK8sMo, map[string]*bintree{}}, "k8s.po": {translationsKubectlDe_deLc_messagesK8sPo, map[string]*bintree{}}, }}, }}, "default": {nil, map[string]*bintree{ "LC_MESSAGES": {nil, map[string]*bintree{ "k8s.mo": {translationsKubectlDefaultLc_messagesK8sMo, map[string]*bintree{}}, "k8s.po": {translationsKubectlDefaultLc_messagesK8sPo, map[string]*bintree{}}, }}, }}, "en_US": {nil, map[string]*bintree{ "LC_MESSAGES": {nil, map[string]*bintree{ "k8s.mo": {translationsKubectlEn_usLc_messagesK8sMo, map[string]*bintree{}}, "k8s.po": {translationsKubectlEn_usLc_messagesK8sPo, map[string]*bintree{}}, }}, }}, "fr_FR": {nil, map[string]*bintree{ "LC_MESSAGES": {nil, map[string]*bintree{ "k8s.mo": {translationsKubectlFr_frLc_messagesK8sMo, map[string]*bintree{}}, "k8s.po": {translationsKubectlFr_frLc_messagesK8sPo, map[string]*bintree{}}, }}, }}, "it_IT": {nil, map[string]*bintree{ "LC_MESSAGES": {nil, map[string]*bintree{ "k8s.mo": {translationsKubectlIt_itLc_messagesK8sMo, map[string]*bintree{}}, "k8s.po": {translationsKubectlIt_itLc_messagesK8sPo, map[string]*bintree{}}, }}, }}, "ja_JP": {nil, map[string]*bintree{ "LC_MESSAGES": {nil, map[string]*bintree{ "k8s.mo": {translationsKubectlJa_jpLc_messagesK8sMo, map[string]*bintree{}}, "k8s.po": {translationsKubectlJa_jpLc_messagesK8sPo, map[string]*bintree{}}, }}, }}, "ko_KR": {nil, map[string]*bintree{ "LC_MESSAGES": {nil, map[string]*bintree{ "k8s.mo": {translationsKubectlKo_krLc_messagesK8sMo, map[string]*bintree{}}, "k8s.po": {translationsKubectlKo_krLc_messagesK8sPo, map[string]*bintree{}}, }}, }}, "pt_BR": {nil, map[string]*bintree{ "LC_MESSAGES": {nil, map[string]*bintree{ "k8s.mo": {translationsKubectlPt_brLc_messagesK8sMo, map[string]*bintree{}}, "k8s.po": {translationsKubectlPt_brLc_messagesK8sPo, map[string]*bintree{}}, }}, }}, "template.pot": {translationsKubectlTemplatePot, map[string]*bintree{}}, "zh_CN": {nil, map[string]*bintree{ "LC_MESSAGES": {nil, map[string]*bintree{ "k8s.mo": {translationsKubectlZh_cnLc_messagesK8sMo, map[string]*bintree{}}, "k8s.po": {translationsKubectlZh_cnLc_messagesK8sPo, map[string]*bintree{}}, }}, }}, "zh_TW": {nil, map[string]*bintree{ "LC_MESSAGES": {nil, map[string]*bintree{ "k8s.mo": {translationsKubectlZh_twLc_messagesK8sMo, map[string]*bintree{}}, "k8s.po": {translationsKubectlZh_twLc_messagesK8sPo, map[string]*bintree{}}, }}, }}, }}, "test": {nil, map[string]*bintree{ "default": {nil, map[string]*bintree{ "LC_MESSAGES": {nil, map[string]*bintree{ "k8s.mo": {translationsTestDefaultLc_messagesK8sMo, map[string]*bintree{}}, "k8s.po": {translationsTestDefaultLc_messagesK8sPo, map[string]*bintree{}}, }}, }}, "en_US": {nil, map[string]*bintree{ "LC_MESSAGES": {nil, map[string]*bintree{ "k8s.mo": {translationsTestEn_usLc_messagesK8sMo, map[string]*bintree{}}, "k8s.po": {translationsTestEn_usLc_messagesK8sPo, map[string]*bintree{}}, }}, }}, }}, }}, }} // RestoreAsset restores an asset under the given directory func RestoreAsset(dir, name string) error { data, err := Asset(name) if err != nil { return err } info, err := AssetInfo(name) if err != nil { return err } err = os.MkdirAll(_filePath(dir, filepath.Dir(name)), os.FileMode(0755)) if err != nil { return err } err = ioutil.WriteFile(_filePath(dir, name), data, info.Mode()) if err != nil { return err } err = os.Chtimes(_filePath(dir, name), info.ModTime(), info.ModTime()) if err != nil { return err } return nil } // RestoreAssets restores an asset under the given directory recursively func RestoreAssets(dir, name string) error { children, err := AssetDir(name) // File if err != nil { return RestoreAsset(dir, name) } // Dir for _, child := range children { err = RestoreAssets(dir, filepath.Join(name, child)) if err != nil { return err } } return nil } func _filePath(dir, name string) string { cannonicalName := strings.Replace(name, "\\", "/", -1) return filepath.Join(append([]string{dir}, strings.Split(cannonicalName, "/")...)...) }