// Code generated by private/model/cli/gen-api/main.go. DO NOT EDIT. package robomaker import ( "context" "fmt" "time" "github.com/aws/aws-sdk-go-v2/aws" "github.com/aws/aws-sdk-go-v2/internal/awsutil" "github.com/aws/aws-sdk-go-v2/private/protocol" ) type CreateSimulationJobInput struct { _ struct{} `type:"structure"` // Unique, case-sensitive identifier that you provide to ensure the idempotency // of the request. ClientRequestToken *string `locationName:"clientRequestToken" min:"1" type:"string" idempotencyToken:"true"` // Compute information for the simulation job. Compute *Compute `locationName:"compute" type:"structure"` // Specify data sources to mount read-only files from S3 into your simulation. // These files are available under /opt/robomaker/datasources/data_source_name. // // There is a limit of 100 files and a combined size of 25GB for all DataSourceConfig // objects. DataSources []DataSourceConfig `locationName:"dataSources" min:"1" type:"list"` // The failure behavior the simulation job. // // Continue // // Restart the simulation job in the same host instance. // // Fail // // Stop the simulation job and terminate the instance. FailureBehavior FailureBehavior `locationName:"failureBehavior" type:"string" enum:"true"` // The IAM role name that allows the simulation instance to call the AWS APIs // that are specified in its associated policies on your behalf. This is how // credentials are passed in to your simulation job. // // IamRole is a required field IamRole *string `locationName:"iamRole" min:"1" type:"string" required:"true"` // The logging configuration. LoggingConfig *LoggingConfig `locationName:"loggingConfig" type:"structure"` // The maximum simulation job duration in seconds (up to 14 days or 1,209,600 // seconds. When maxJobDurationInSeconds is reached, the simulation job will // status will transition to Completed. // // MaxJobDurationInSeconds is a required field MaxJobDurationInSeconds *int64 `locationName:"maxJobDurationInSeconds" type:"long" required:"true"` // Location for output files generated by the simulation job. OutputLocation *OutputLocation `locationName:"outputLocation" type:"structure"` // The robot application to use in the simulation job. RobotApplications []RobotApplicationConfig `locationName:"robotApplications" min:"1" type:"list"` // The simulation application to use in the simulation job. SimulationApplications []SimulationApplicationConfig `locationName:"simulationApplications" min:"1" type:"list"` // A map that contains tag keys and tag values that are attached to the simulation // job. Tags map[string]string `locationName:"tags" type:"map"` // If your simulation job accesses resources in a VPC, you provide this parameter // identifying the list of security group IDs and subnet IDs. These must belong // to the same VPC. You must provide at least one security group and one subnet // ID. VpcConfig *VPCConfig `locationName:"vpcConfig" type:"structure"` } // String returns the string representation func (s CreateSimulationJobInput) String() string { return awsutil.Prettify(s) } // Validate inspects the fields of the type to determine if they are valid. func (s *CreateSimulationJobInput) Validate() error { invalidParams := aws.ErrInvalidParams{Context: "CreateSimulationJobInput"} if s.ClientRequestToken != nil && len(*s.ClientRequestToken) < 1 { invalidParams.Add(aws.NewErrParamMinLen("ClientRequestToken", 1)) } if s.DataSources != nil && len(s.DataSources) < 1 { invalidParams.Add(aws.NewErrParamMinLen("DataSources", 1)) } if s.IamRole == nil { invalidParams.Add(aws.NewErrParamRequired("IamRole")) } if s.IamRole != nil && len(*s.IamRole) < 1 { invalidParams.Add(aws.NewErrParamMinLen("IamRole", 1)) } if s.MaxJobDurationInSeconds == nil { invalidParams.Add(aws.NewErrParamRequired("MaxJobDurationInSeconds")) } if s.RobotApplications != nil && len(s.RobotApplications) < 1 { invalidParams.Add(aws.NewErrParamMinLen("RobotApplications", 1)) } if s.SimulationApplications != nil && len(s.SimulationApplications) < 1 { invalidParams.Add(aws.NewErrParamMinLen("SimulationApplications", 1)) } if s.Compute != nil { if err := s.Compute.Validate(); err != nil { invalidParams.AddNested("Compute", err.(aws.ErrInvalidParams)) } } if s.DataSources != nil { for i, v := range s.DataSources { if err := v.Validate(); err != nil { invalidParams.AddNested(fmt.Sprintf("%s[%v]", "DataSources", i), err.(aws.ErrInvalidParams)) } } } if s.LoggingConfig != nil { if err := s.LoggingConfig.Validate(); err != nil { invalidParams.AddNested("LoggingConfig", err.(aws.ErrInvalidParams)) } } if s.OutputLocation != nil { if err := s.OutputLocation.Validate(); err != nil { invalidParams.AddNested("OutputLocation", err.(aws.ErrInvalidParams)) } } if s.RobotApplications != nil { for i, v := range s.RobotApplications { if err := v.Validate(); err != nil { invalidParams.AddNested(fmt.Sprintf("%s[%v]", "RobotApplications", i), err.(aws.ErrInvalidParams)) } } } if s.SimulationApplications != nil { for i, v := range s.SimulationApplications { if err := v.Validate(); err != nil { invalidParams.AddNested(fmt.Sprintf("%s[%v]", "SimulationApplications", i), err.(aws.ErrInvalidParams)) } } } if s.VpcConfig != nil { if err := s.VpcConfig.Validate(); err != nil { invalidParams.AddNested("VpcConfig", err.(aws.ErrInvalidParams)) } } if invalidParams.Len() > 0 { return invalidParams } return nil } // MarshalFields encodes the AWS API shape using the passed in protocol encoder. func (s CreateSimulationJobInput) MarshalFields(e protocol.FieldEncoder) error { e.SetValue(protocol.HeaderTarget, "Content-Type", protocol.StringValue("application/json"), protocol.Metadata{}) var ClientRequestToken string if s.ClientRequestToken != nil { ClientRequestToken = *s.ClientRequestToken } else { ClientRequestToken = protocol.GetIdempotencyToken() } { v := ClientRequestToken metadata := protocol.Metadata{} e.SetValue(protocol.BodyTarget, "clientRequestToken", protocol.QuotedValue{ValueMarshaler: protocol.StringValue(v)}, metadata) } if s.Compute != nil { v := s.Compute metadata := protocol.Metadata{} e.SetFields(protocol.BodyTarget, "compute", v, metadata) } if s.DataSources != nil { v := s.DataSources metadata := protocol.Metadata{} ls0 := e.List(protocol.BodyTarget, "dataSources", metadata) ls0.Start() for _, v1 := range v { ls0.ListAddFields(v1) } ls0.End() } if len(s.FailureBehavior) > 0 { v := s.FailureBehavior metadata := protocol.Metadata{} e.SetValue(protocol.BodyTarget, "failureBehavior", protocol.QuotedValue{ValueMarshaler: v}, metadata) } if s.IamRole != nil { v := *s.IamRole metadata := protocol.Metadata{} e.SetValue(protocol.BodyTarget, "iamRole", protocol.QuotedValue{ValueMarshaler: protocol.StringValue(v)}, metadata) } if s.LoggingConfig != nil { v := s.LoggingConfig metadata := protocol.Metadata{} e.SetFields(protocol.BodyTarget, "loggingConfig", v, metadata) } if s.MaxJobDurationInSeconds != nil { v := *s.MaxJobDurationInSeconds metadata := protocol.Metadata{} e.SetValue(protocol.BodyTarget, "maxJobDurationInSeconds", protocol.Int64Value(v), metadata) } if s.OutputLocation != nil { v := s.OutputLocation metadata := protocol.Metadata{} e.SetFields(protocol.BodyTarget, "outputLocation", v, metadata) } if s.RobotApplications != nil { v := s.RobotApplications metadata := protocol.Metadata{} ls0 := e.List(protocol.BodyTarget, "robotApplications", metadata) ls0.Start() for _, v1 := range v { ls0.ListAddFields(v1) } ls0.End() } if s.SimulationApplications != nil { v := s.SimulationApplications metadata := protocol.Metadata{} ls0 := e.List(protocol.BodyTarget, "simulationApplications", metadata) ls0.Start() for _, v1 := range v { ls0.ListAddFields(v1) } ls0.End() } if s.Tags != nil { v := s.Tags metadata := protocol.Metadata{} ms0 := e.Map(protocol.BodyTarget, "tags", metadata) ms0.Start() for k1, v1 := range v { ms0.MapSetValue(k1, protocol.QuotedValue{ValueMarshaler: protocol.StringValue(v1)}) } ms0.End() } if s.VpcConfig != nil { v := s.VpcConfig metadata := protocol.Metadata{} e.SetFields(protocol.BodyTarget, "vpcConfig", v, metadata) } return nil } type CreateSimulationJobOutput struct { _ struct{} `type:"structure"` // The Amazon Resource Name (ARN) of the simulation job. Arn *string `locationName:"arn" min:"1" type:"string"` // Unique, case-sensitive identifier that you provide to ensure the idempotency // of the request. ClientRequestToken *string `locationName:"clientRequestToken" min:"1" type:"string"` // Compute information for the simulation job. Compute *ComputeResponse `locationName:"compute" type:"structure"` // The data sources for the simulation job. DataSources []DataSource `locationName:"dataSources" type:"list"` // the failure behavior for the simulation job. FailureBehavior FailureBehavior `locationName:"failureBehavior" type:"string" enum:"true"` // The failure code of the simulation job if it failed: // // InternalServiceError // // Internal service error. // // RobotApplicationCrash // // Robot application exited abnormally. // // SimulationApplicationCrash // // Simulation application exited abnormally. // // BadPermissionsRobotApplication // // Robot application bundle could not be downloaded. // // BadPermissionsSimulationApplication // // Simulation application bundle could not be downloaded. // // BadPermissionsS3Output // // Unable to publish outputs to customer-provided S3 bucket. // // BadPermissionsCloudwatchLogs // // Unable to publish logs to customer-provided CloudWatch Logs resource. // // SubnetIpLimitExceeded // // Subnet IP limit exceeded. // // ENILimitExceeded // // ENI limit exceeded. // // BadPermissionsUserCredentials // // Unable to use the Role provided. // // InvalidBundleRobotApplication // // Robot bundle cannot be extracted (invalid format, bundling error, or other // issue). // // InvalidBundleSimulationApplication // // Simulation bundle cannot be extracted (invalid format, bundling error, or // other issue). // // RobotApplicationVersionMismatchedEtag // // Etag for RobotApplication does not match value during version creation. // // SimulationApplicationVersionMismatchedEtag // // Etag for SimulationApplication does not match value during version creation. FailureCode SimulationJobErrorCode `locationName:"failureCode" type:"string" enum:"true"` // The IAM role that allows the simulation job to call the AWS APIs that are // specified in its associated policies on your behalf. IamRole *string `locationName:"iamRole" min:"1" type:"string"` // The time, in milliseconds since the epoch, when the simulation job was last // started. LastStartedAt *time.Time `locationName:"lastStartedAt" type:"timestamp"` // The time, in milliseconds since the epoch, when the simulation job was last // updated. LastUpdatedAt *time.Time `locationName:"lastUpdatedAt" type:"timestamp"` // The logging configuration. LoggingConfig *LoggingConfig `locationName:"loggingConfig" type:"structure"` // The maximum simulation job duration in seconds. MaxJobDurationInSeconds *int64 `locationName:"maxJobDurationInSeconds" type:"long"` // Simulation job output files location. OutputLocation *OutputLocation `locationName:"outputLocation" type:"structure"` // The robot application used by the simulation job. RobotApplications []RobotApplicationConfig `locationName:"robotApplications" min:"1" type:"list"` // The simulation application used by the simulation job. SimulationApplications []SimulationApplicationConfig `locationName:"simulationApplications" min:"1" type:"list"` // The simulation job execution duration in milliseconds. SimulationTimeMillis *int64 `locationName:"simulationTimeMillis" type:"long"` // The status of the simulation job. Status SimulationJobStatus `locationName:"status" type:"string" enum:"true"` // The list of all tags added to the simulation job. Tags map[string]string `locationName:"tags" type:"map"` // Information about the vpc configuration. VpcConfig *VPCConfigResponse `locationName:"vpcConfig" type:"structure"` } // String returns the string representation func (s CreateSimulationJobOutput) String() string { return awsutil.Prettify(s) } // MarshalFields encodes the AWS API shape using the passed in protocol encoder. func (s CreateSimulationJobOutput) MarshalFields(e protocol.FieldEncoder) error { if s.Arn != nil { v := *s.Arn metadata := protocol.Metadata{} e.SetValue(protocol.BodyTarget, "arn", protocol.QuotedValue{ValueMarshaler: protocol.StringValue(v)}, metadata) } if s.ClientRequestToken != nil { v := *s.ClientRequestToken metadata := protocol.Metadata{} e.SetValue(protocol.BodyTarget, "clientRequestToken", protocol.QuotedValue{ValueMarshaler: protocol.StringValue(v)}, metadata) } if s.Compute != nil { v := s.Compute metadata := protocol.Metadata{} e.SetFields(protocol.BodyTarget, "compute", v, metadata) } if s.DataSources != nil { v := s.DataSources metadata := protocol.Metadata{} ls0 := e.List(protocol.BodyTarget, "dataSources", metadata) ls0.Start() for _, v1 := range v { ls0.ListAddFields(v1) } ls0.End() } if len(s.FailureBehavior) > 0 { v := s.FailureBehavior metadata := protocol.Metadata{} e.SetValue(protocol.BodyTarget, "failureBehavior", protocol.QuotedValue{ValueMarshaler: v}, metadata) } if len(s.FailureCode) > 0 { v := s.FailureCode metadata := protocol.Metadata{} e.SetValue(protocol.BodyTarget, "failureCode", protocol.QuotedValue{ValueMarshaler: v}, metadata) } if s.IamRole != nil { v := *s.IamRole metadata := protocol.Metadata{} e.SetValue(protocol.BodyTarget, "iamRole", protocol.QuotedValue{ValueMarshaler: protocol.StringValue(v)}, metadata) } if s.LastStartedAt != nil { v := *s.LastStartedAt metadata := protocol.Metadata{} e.SetValue(protocol.BodyTarget, "lastStartedAt", protocol.TimeValue{V: v, Format: protocol.UnixTimeFormatName, QuotedFormatTime: true}, metadata) } if s.LastUpdatedAt != nil { v := *s.LastUpdatedAt metadata := protocol.Metadata{} e.SetValue(protocol.BodyTarget, "lastUpdatedAt", protocol.TimeValue{V: v, Format: protocol.UnixTimeFormatName, QuotedFormatTime: true}, metadata) } if s.LoggingConfig != nil { v := s.LoggingConfig metadata := protocol.Metadata{} e.SetFields(protocol.BodyTarget, "loggingConfig", v, metadata) } if s.MaxJobDurationInSeconds != nil { v := *s.MaxJobDurationInSeconds metadata := protocol.Metadata{} e.SetValue(protocol.BodyTarget, "maxJobDurationInSeconds", protocol.Int64Value(v), metadata) } if s.OutputLocation != nil { v := s.OutputLocation metadata := protocol.Metadata{} e.SetFields(protocol.BodyTarget, "outputLocation", v, metadata) } if s.RobotApplications != nil { v := s.RobotApplications metadata := protocol.Metadata{} ls0 := e.List(protocol.BodyTarget, "robotApplications", metadata) ls0.Start() for _, v1 := range v { ls0.ListAddFields(v1) } ls0.End() } if s.SimulationApplications != nil { v := s.SimulationApplications metadata := protocol.Metadata{} ls0 := e.List(protocol.BodyTarget, "simulationApplications", metadata) ls0.Start() for _, v1 := range v { ls0.ListAddFields(v1) } ls0.End() } if s.SimulationTimeMillis != nil { v := *s.SimulationTimeMillis metadata := protocol.Metadata{} e.SetValue(protocol.BodyTarget, "simulationTimeMillis", protocol.Int64Value(v), metadata) } if len(s.Status) > 0 { v := s.Status metadata := protocol.Metadata{} e.SetValue(protocol.BodyTarget, "status", protocol.QuotedValue{ValueMarshaler: v}, metadata) } if s.Tags != nil { v := s.Tags metadata := protocol.Metadata{} ms0 := e.Map(protocol.BodyTarget, "tags", metadata) ms0.Start() for k1, v1 := range v { ms0.MapSetValue(k1, protocol.QuotedValue{ValueMarshaler: protocol.StringValue(v1)}) } ms0.End() } if s.VpcConfig != nil { v := s.VpcConfig metadata := protocol.Metadata{} e.SetFields(protocol.BodyTarget, "vpcConfig", v, metadata) } return nil } const opCreateSimulationJob = "CreateSimulationJob" // CreateSimulationJobRequest returns a request value for making API operation for // AWS RoboMaker. // // Creates a simulation job. // // After 90 days, simulation jobs expire and will be deleted. They will no longer // be accessible. // // // Example sending a request using CreateSimulationJobRequest. // req := client.CreateSimulationJobRequest(params) // resp, err := req.Send(context.TODO()) // if err == nil { // fmt.Println(resp) // } // // Please also see https://docs.aws.amazon.com/goto/WebAPI/robomaker-2018-06-29/CreateSimulationJob func (c *Client) CreateSimulationJobRequest(input *CreateSimulationJobInput) CreateSimulationJobRequest { op := &aws.Operation{ Name: opCreateSimulationJob, HTTPMethod: "POST", HTTPPath: "/createSimulationJob", } if input == nil { input = &CreateSimulationJobInput{} } req := c.newRequest(op, input, &CreateSimulationJobOutput{}) return CreateSimulationJobRequest{Request: req, Input: input, Copy: c.CreateSimulationJobRequest} } // CreateSimulationJobRequest is the request type for the // CreateSimulationJob API operation. type CreateSimulationJobRequest struct { *aws.Request Input *CreateSimulationJobInput Copy func(*CreateSimulationJobInput) CreateSimulationJobRequest } // Send marshals and sends the CreateSimulationJob API request. func (r CreateSimulationJobRequest) Send(ctx context.Context) (*CreateSimulationJobResponse, error) { r.Request.SetContext(ctx) err := r.Request.Send() if err != nil { return nil, err } resp := &CreateSimulationJobResponse{ CreateSimulationJobOutput: r.Request.Data.(*CreateSimulationJobOutput), response: &aws.Response{Request: r.Request}, } return resp, nil } // CreateSimulationJobResponse is the response type for the // CreateSimulationJob API operation. type CreateSimulationJobResponse struct { *CreateSimulationJobOutput response *aws.Response } // SDKResponseMetdata returns the response metadata for the // CreateSimulationJob request. func (r *CreateSimulationJobResponse) SDKResponseMetdata() *aws.Response { return r.response }