/* Copyright 2020 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. */ package cluster import ( "context" "errors" "time" "github.com/go-logr/logr" "k8s.io/apimachinery/pkg/api/meta" "k8s.io/apimachinery/pkg/runtime" "k8s.io/client-go/kubernetes/scheme" "k8s.io/client-go/rest" "k8s.io/client-go/tools/record" "sigs.k8s.io/controller-runtime/pkg/client/apiutil" logf "sigs.k8s.io/controller-runtime/pkg/internal/log" "sigs.k8s.io/controller-runtime/pkg/cache" "sigs.k8s.io/controller-runtime/pkg/client" intrec "sigs.k8s.io/controller-runtime/pkg/internal/recorder" ) // Cluster provides various methods to interact with a cluster. type Cluster interface { // SetFields will set any dependencies on an object for which the object has implemented the inject // interface - e.g. inject.Client. // Deprecated: use the equivalent Options field to set a field. This method will be removed in v0.10. SetFields(interface{}) error // GetConfig returns an initialized Config GetConfig() *rest.Config // GetScheme returns an initialized Scheme GetScheme() *runtime.Scheme // GetClient returns a client configured with the Config. This client may // not be a fully "direct" client -- it may read from a cache, for // instance. See Options.NewClient for more information on how the default // implementation works. GetClient() client.Client // GetFieldIndexer returns a client.FieldIndexer configured with the client GetFieldIndexer() client.FieldIndexer // GetCache returns a cache.Cache GetCache() cache.Cache // GetEventRecorderFor returns a new EventRecorder for the provided name GetEventRecorderFor(name string) record.EventRecorder // GetRESTMapper returns a RESTMapper GetRESTMapper() meta.RESTMapper // GetAPIReader returns a reader that will be configured to use the API server. // This should be used sparingly and only when the client does not fit your // use case. GetAPIReader() client.Reader // Start starts the cluster Start(ctx context.Context) error } // Options are the possible options that can be configured for a Cluster. type Options struct { // Scheme is the scheme used to resolve runtime.Objects to GroupVersionKinds / Resources // Defaults to the kubernetes/client-go scheme.Scheme, but it's almost always better // idea to pass your own scheme in. See the documentation in pkg/scheme for more information. Scheme *runtime.Scheme // MapperProvider provides the rest mapper used to map go types to Kubernetes APIs MapperProvider func(c *rest.Config) (meta.RESTMapper, error) // Logger is the logger that should be used by this Cluster. // If none is set, it defaults to log.Log global logger. Logger logr.Logger // SyncPeriod determines the minimum frequency at which watched resources are // reconciled. A lower period will correct entropy more quickly, but reduce // responsiveness to change if there are many watched resources. Change this // value only if you know what you are doing. Defaults to 10 hours if unset. // there will a 10 percent jitter between the SyncPeriod of all controllers // so that all controllers will not send list requests simultaneously. SyncPeriod *time.Duration // Namespace if specified restricts the manager's cache to watch objects in // the desired namespace Defaults to all namespaces // // Note: If a namespace is specified, controllers can still Watch for a // cluster-scoped resource (e.g Node). For namespaced resources the cache // will only hold objects from the desired namespace. Namespace string // NewCache is the function that will create the cache to be used // by the manager. If not set this will use the default new cache function. NewCache cache.NewCacheFunc // NewClient is the func that creates the client to be used by the manager. // If not set this will create the default DelegatingClient that will // use the cache for reads and the client for writes. // NOTE: The default client will not cache Unstructured. NewClient NewClientFunc // ClientDisableCacheFor tells the client that, if any cache is used, to bypass it // for the given objects. ClientDisableCacheFor []client.Object // DryRunClient specifies whether the client should be configured to enforce // dryRun mode. DryRunClient bool // EventBroadcaster records Events emitted by the manager and sends them to the Kubernetes API // Use this to customize the event correlator and spam filter // // Deprecated: using this may cause goroutine leaks if the lifetime of your manager or controllers // is shorter than the lifetime of your process. EventBroadcaster record.EventBroadcaster // makeBroadcaster allows deferring the creation of the broadcaster to // avoid leaking goroutines if we never call Start on this manager. It also // returns whether or not this is a "owned" broadcaster, and as such should be // stopped with the manager. makeBroadcaster intrec.EventBroadcasterProducer // Dependency injection for testing newRecorderProvider func(config *rest.Config, scheme *runtime.Scheme, logger logr.Logger, makeBroadcaster intrec.EventBroadcasterProducer) (*intrec.Provider, error) } // Option can be used to manipulate Options. type Option func(*Options) // New constructs a brand new cluster. func New(config *rest.Config, opts ...Option) (Cluster, error) { if config == nil { return nil, errors.New("must specify Config") } options := Options{} for _, opt := range opts { opt(&options) } options = setOptionsDefaults(options) // Create the mapper provider mapper, err := options.MapperProvider(config) if err != nil { options.Logger.Error(err, "Failed to get API Group-Resources") return nil, err } // Create the cache for the cached read client and registering informers cache, err := options.NewCache(config, cache.Options{Scheme: options.Scheme, Mapper: mapper, Resync: options.SyncPeriod, Namespace: options.Namespace}) if err != nil { return nil, err } clientOptions := client.Options{Scheme: options.Scheme, Mapper: mapper} apiReader, err := client.New(config, clientOptions) if err != nil { return nil, err } writeObj, err := options.NewClient(cache, config, clientOptions, options.ClientDisableCacheFor...) if err != nil { return nil, err } if options.DryRunClient { writeObj = client.NewDryRunClient(writeObj) } // Create the recorder provider to inject event recorders for the components. // TODO(directxman12): the log for the event provider should have a context (name, tags, etc) specific // to the particular controller that it's being injected into, rather than a generic one like is here. recorderProvider, err := options.newRecorderProvider(config, options.Scheme, options.Logger.WithName("events"), options.makeBroadcaster) if err != nil { return nil, err } return &cluster{ config: config, scheme: options.Scheme, cache: cache, fieldIndexes: cache, client: writeObj, apiReader: apiReader, recorderProvider: recorderProvider, mapper: mapper, logger: options.Logger, }, nil } // setOptionsDefaults set default values for Options fields. func setOptionsDefaults(options Options) Options { // Use the Kubernetes client-go scheme if none is specified if options.Scheme == nil { options.Scheme = scheme.Scheme } if options.MapperProvider == nil { options.MapperProvider = func(c *rest.Config) (meta.RESTMapper, error) { return apiutil.NewDynamicRESTMapper(c) } } // Allow users to define how to create a new client if options.NewClient == nil { options.NewClient = DefaultNewClient } // Allow newCache to be mocked if options.NewCache == nil { options.NewCache = cache.New } // Allow newRecorderProvider to be mocked if options.newRecorderProvider == nil { options.newRecorderProvider = intrec.NewProvider } // This is duplicated with pkg/manager, we need it here to provide // the user with an EventBroadcaster and there for the Leader election if options.EventBroadcaster == nil { // defer initialization to avoid leaking by default options.makeBroadcaster = func() (record.EventBroadcaster, bool) { return record.NewBroadcaster(), true } } else { options.makeBroadcaster = func() (record.EventBroadcaster, bool) { return options.EventBroadcaster, false } } if options.Logger.GetSink() == nil { options.Logger = logf.RuntimeLog.WithName("cluster") } return options } // NewClientFunc allows a user to define how to create a client. type NewClientFunc func(cache cache.Cache, config *rest.Config, options client.Options, uncachedObjects ...client.Object) (client.Client, error) // ClientOptions are the optional arguments for tuning the caching client. type ClientOptions struct { UncachedObjects []client.Object CacheUnstructured bool } // DefaultNewClient creates the default caching client, that will never cache Unstructured. func DefaultNewClient(cache cache.Cache, config *rest.Config, options client.Options, uncachedObjects ...client.Object) (client.Client, error) { return ClientBuilderWithOptions(ClientOptions{})(cache, config, options, uncachedObjects...) } // ClientBuilderWithOptions returns a Client constructor that will build a client // honoring the options argument func ClientBuilderWithOptions(options ClientOptions) NewClientFunc { return func(cache cache.Cache, config *rest.Config, clientOpts client.Options, uncachedObjects ...client.Object) (client.Client, error) { options.UncachedObjects = append(options.UncachedObjects, uncachedObjects...) c, err := client.New(config, clientOpts) if err != nil { return nil, err } return client.NewDelegatingClient(client.NewDelegatingClientInput{ CacheReader: cache, Client: c, UncachedObjects: options.UncachedObjects, CacheUnstructured: options.CacheUnstructured, }) } }