package agent import ( "fmt" "net/http" "strconv" "strings" "github.com/golang/snappy" "github.com/hashicorp/nomad/api" "github.com/hashicorp/nomad/helper" "github.com/hashicorp/nomad/jobspec" "github.com/hashicorp/nomad/nomad/structs" ) func (s *HTTPServer) JobsRequest(resp http.ResponseWriter, req *http.Request) (interface{}, error) { switch req.Method { case "GET": return s.jobListRequest(resp, req) case "PUT", "POST": return s.jobUpdate(resp, req, "") default: return nil, CodedError(405, ErrInvalidMethod) } } func (s *HTTPServer) jobListRequest(resp http.ResponseWriter, req *http.Request) (interface{}, error) { args := structs.JobListRequest{} if s.parse(resp, req, &args.Region, &args.QueryOptions) { return nil, nil } var out structs.JobListResponse if err := s.agent.RPC("Job.List", &args, &out); err != nil { return nil, err } setMeta(resp, &out.QueryMeta) if out.Jobs == nil { out.Jobs = make([]*structs.JobListStub, 0) } return out.Jobs, nil } func (s *HTTPServer) JobSpecificRequest(resp http.ResponseWriter, req *http.Request) (interface{}, error) { path := strings.TrimPrefix(req.URL.Path, "/v1/job/") switch { case strings.HasSuffix(path, "/evaluate"): jobName := strings.TrimSuffix(path, "/evaluate") return s.jobForceEvaluate(resp, req, jobName) case strings.HasSuffix(path, "/allocations"): jobName := strings.TrimSuffix(path, "/allocations") return s.jobAllocations(resp, req, jobName) case strings.HasSuffix(path, "/evaluations"): jobName := strings.TrimSuffix(path, "/evaluations") return s.jobEvaluations(resp, req, jobName) case strings.HasSuffix(path, "/periodic/force"): jobName := strings.TrimSuffix(path, "/periodic/force") return s.periodicForceRequest(resp, req, jobName) case strings.HasSuffix(path, "/plan"): jobName := strings.TrimSuffix(path, "/plan") return s.jobPlan(resp, req, jobName) case strings.HasSuffix(path, "/summary"): jobName := strings.TrimSuffix(path, "/summary") return s.jobSummaryRequest(resp, req, jobName) case strings.HasSuffix(path, "/dispatch"): jobName := strings.TrimSuffix(path, "/dispatch") return s.jobDispatchRequest(resp, req, jobName) case strings.HasSuffix(path, "/versions"): jobName := strings.TrimSuffix(path, "/versions") return s.jobVersions(resp, req, jobName) case strings.HasSuffix(path, "/revert"): jobName := strings.TrimSuffix(path, "/revert") return s.jobRevert(resp, req, jobName) case strings.HasSuffix(path, "/deployments"): jobName := strings.TrimSuffix(path, "/deployments") return s.jobDeployments(resp, req, jobName) case strings.HasSuffix(path, "/deployment"): jobName := strings.TrimSuffix(path, "/deployment") return s.jobLatestDeployment(resp, req, jobName) case strings.HasSuffix(path, "/stable"): jobName := strings.TrimSuffix(path, "/stable") return s.jobStable(resp, req, jobName) case strings.HasSuffix(path, "/scale"): jobName := strings.TrimSuffix(path, "/scale") return s.jobScale(resp, req, jobName) default: return s.jobCRUD(resp, req, path) } } func (s *HTTPServer) jobForceEvaluate(resp http.ResponseWriter, req *http.Request, jobName string) (interface{}, error) { if req.Method != "PUT" && req.Method != "POST" { return nil, CodedError(405, ErrInvalidMethod) } var args structs.JobEvaluateRequest // TODO(preetha): remove in 0.9 // COMPAT: For backwards compatibility allow using this endpoint without a payload if req.ContentLength == 0 { args = structs.JobEvaluateRequest{ JobID: jobName, } } else { if err := decodeBody(req, &args); err != nil { return nil, CodedError(400, err.Error()) } if args.JobID == "" { return nil, CodedError(400, "Job ID must be specified") } if jobName != "" && args.JobID != jobName { return nil, CodedError(400, "JobID not same as job name") } } s.parseWriteRequest(req, &args.WriteRequest) var out structs.JobRegisterResponse if err := s.agent.RPC("Job.Evaluate", &args, &out); err != nil { return nil, err } setIndex(resp, out.Index) return out, nil } func (s *HTTPServer) jobPlan(resp http.ResponseWriter, req *http.Request, jobName string) (interface{}, error) { if req.Method != "PUT" && req.Method != "POST" { return nil, CodedError(405, ErrInvalidMethod) } var args api.JobPlanRequest if err := decodeBody(req, &args); err != nil { return nil, CodedError(400, err.Error()) } if args.Job == nil { return nil, CodedError(400, "Job must be specified") } if args.Job.ID == nil { return nil, CodedError(400, "Job must have a valid ID") } if jobName != "" && *args.Job.ID != jobName { return nil, CodedError(400, "Job ID does not match") } if args.Job.Multiregion != nil && args.Job.Region != nil { region := *args.Job.Region if !(region == "global" || region == "") { return nil, CodedError(400, "Job can't have both multiregion and region blocks") } } sJob, writeReq := s.apiJobAndRequestToStructs(args.Job, req, args.WriteRequest) planReq := structs.JobPlanRequest{ Job: sJob, Diff: args.Diff, PolicyOverride: args.PolicyOverride, WriteRequest: *writeReq, } var out structs.JobPlanResponse if err := s.agent.RPC("Job.Plan", &planReq, &out); err != nil { return nil, err } setIndex(resp, out.Index) return out, nil } func (s *HTTPServer) ValidateJobRequest(resp http.ResponseWriter, req *http.Request) (interface{}, error) { // Ensure request method is POST or PUT if !(req.Method == "POST" || req.Method == "PUT") { return nil, CodedError(405, ErrInvalidMethod) } var validateRequest api.JobValidateRequest if err := decodeBody(req, &validateRequest); err != nil { return nil, CodedError(400, err.Error()) } if validateRequest.Job == nil { return nil, CodedError(400, "Job must be specified") } job := ApiJobToStructJob(validateRequest.Job) args := structs.JobValidateRequest{ Job: job, WriteRequest: structs.WriteRequest{ Region: validateRequest.Region, }, } s.parseWriteRequest(req, &args.WriteRequest) args.Namespace = job.Namespace var out structs.JobValidateResponse if err := s.agent.RPC("Job.Validate", &args, &out); err != nil { return nil, err } return out, nil } func (s *HTTPServer) periodicForceRequest(resp http.ResponseWriter, req *http.Request, jobName string) (interface{}, error) { if req.Method != "PUT" && req.Method != "POST" { return nil, CodedError(405, ErrInvalidMethod) } args := structs.PeriodicForceRequest{ JobID: jobName, } s.parseWriteRequest(req, &args.WriteRequest) var out structs.PeriodicForceResponse if err := s.agent.RPC("Periodic.Force", &args, &out); err != nil { return nil, err } setIndex(resp, out.Index) return out, nil } func (s *HTTPServer) jobAllocations(resp http.ResponseWriter, req *http.Request, jobName string) (interface{}, error) { if req.Method != "GET" { return nil, CodedError(405, ErrInvalidMethod) } allAllocs, _ := strconv.ParseBool(req.URL.Query().Get("all")) args := structs.JobSpecificRequest{ JobID: jobName, All: allAllocs, } if s.parse(resp, req, &args.Region, &args.QueryOptions) { return nil, nil } var out structs.JobAllocationsResponse if err := s.agent.RPC("Job.Allocations", &args, &out); err != nil { return nil, err } setMeta(resp, &out.QueryMeta) if out.Allocations == nil { out.Allocations = make([]*structs.AllocListStub, 0) } for _, alloc := range out.Allocations { alloc.SetEventDisplayMessages() } return out.Allocations, nil } func (s *HTTPServer) jobEvaluations(resp http.ResponseWriter, req *http.Request, jobName string) (interface{}, error) { if req.Method != "GET" { return nil, CodedError(405, ErrInvalidMethod) } args := structs.JobSpecificRequest{ JobID: jobName, } if s.parse(resp, req, &args.Region, &args.QueryOptions) { return nil, nil } var out structs.JobEvaluationsResponse if err := s.agent.RPC("Job.Evaluations", &args, &out); err != nil { return nil, err } setMeta(resp, &out.QueryMeta) if out.Evaluations == nil { out.Evaluations = make([]*structs.Evaluation, 0) } return out.Evaluations, nil } func (s *HTTPServer) jobDeployments(resp http.ResponseWriter, req *http.Request, jobName string) (interface{}, error) { if req.Method != "GET" { return nil, CodedError(405, ErrInvalidMethod) } all, _ := strconv.ParseBool(req.URL.Query().Get("all")) args := structs.JobSpecificRequest{ JobID: jobName, All: all, } if s.parse(resp, req, &args.Region, &args.QueryOptions) { return nil, nil } var out structs.DeploymentListResponse if err := s.agent.RPC("Job.Deployments", &args, &out); err != nil { return nil, err } setMeta(resp, &out.QueryMeta) if out.Deployments == nil { out.Deployments = make([]*structs.Deployment, 0) } return out.Deployments, nil } func (s *HTTPServer) jobLatestDeployment(resp http.ResponseWriter, req *http.Request, jobName string) (interface{}, error) { if req.Method != "GET" { return nil, CodedError(405, ErrInvalidMethod) } args := structs.JobSpecificRequest{ JobID: jobName, } if s.parse(resp, req, &args.Region, &args.QueryOptions) { return nil, nil } var out structs.SingleDeploymentResponse if err := s.agent.RPC("Job.LatestDeployment", &args, &out); err != nil { return nil, err } setMeta(resp, &out.QueryMeta) return out.Deployment, nil } func (s *HTTPServer) jobCRUD(resp http.ResponseWriter, req *http.Request, jobName string) (interface{}, error) { switch req.Method { case "GET": return s.jobQuery(resp, req, jobName) case "PUT", "POST": return s.jobUpdate(resp, req, jobName) case "DELETE": return s.jobDelete(resp, req, jobName) default: return nil, CodedError(405, ErrInvalidMethod) } } func (s *HTTPServer) jobQuery(resp http.ResponseWriter, req *http.Request, jobName string) (interface{}, error) { args := structs.JobSpecificRequest{ JobID: jobName, } if s.parse(resp, req, &args.Region, &args.QueryOptions) { return nil, nil } var out structs.SingleJobResponse if err := s.agent.RPC("Job.GetJob", &args, &out); err != nil { return nil, err } setMeta(resp, &out.QueryMeta) if out.Job == nil { return nil, CodedError(404, "job not found") } // Decode the payload if there is any job := out.Job if len(job.Payload) != 0 { decoded, err := snappy.Decode(nil, out.Job.Payload) if err != nil { return nil, err } job = job.Copy() job.Payload = decoded } return job, nil } func (s *HTTPServer) jobUpdate(resp http.ResponseWriter, req *http.Request, jobName string) (interface{}, error) { var args api.JobRegisterRequest if err := decodeBody(req, &args); err != nil { return nil, CodedError(400, err.Error()) } if args.Job == nil { return nil, CodedError(400, "Job must be specified") } if args.Job.ID == nil { return nil, CodedError(400, "Job ID hasn't been provided") } if jobName != "" && *args.Job.ID != jobName { return nil, CodedError(400, "Job ID does not match name") } if args.Job.Multiregion != nil && args.Job.Region != nil { region := *args.Job.Region if !(region == "global" || region == "") { return nil, CodedError(400, "Job can't have both multiregion and region blocks") } } // GH-8481. Jobs of type system can only have a count of 1 and therefore do // not support scaling. Even though this returns an error on the first // occurrence, the error is generic but detailed enough that an operator // can fix the problem across multiple task groups. if args.Job.Type != nil && *args.Job.Type == api.JobTypeSystem { for _, tg := range args.Job.TaskGroups { if tg.Scaling != nil { return nil, CodedError(400, "Task groups with job type system do not support scaling stanzas") } } } sJob, writeReq := s.apiJobAndRequestToStructs(args.Job, req, args.WriteRequest) regReq := structs.JobRegisterRequest{ Job: sJob, EnforceIndex: args.EnforceIndex, JobModifyIndex: args.JobModifyIndex, PolicyOverride: args.PolicyOverride, PreserveCounts: args.PreserveCounts, WriteRequest: *writeReq, } var out structs.JobRegisterResponse if err := s.agent.RPC("Job.Register", ®Req, &out); err != nil { return nil, err } setIndex(resp, out.Index) return out, nil } func (s *HTTPServer) jobDelete(resp http.ResponseWriter, req *http.Request, jobName string) (interface{}, error) { purgeStr := req.URL.Query().Get("purge") var purgeBool bool if purgeStr != "" { var err error purgeBool, err = strconv.ParseBool(purgeStr) if err != nil { return nil, fmt.Errorf("Failed to parse value of %q (%v) as a bool: %v", "purge", purgeStr, err) } } args := structs.JobDeregisterRequest{ JobID: jobName, Purge: purgeBool, } s.parseWriteRequest(req, &args.WriteRequest) var out structs.JobDeregisterResponse if err := s.agent.RPC("Job.Deregister", &args, &out); err != nil { return nil, err } setIndex(resp, out.Index) return out, nil } func (s *HTTPServer) jobScale(resp http.ResponseWriter, req *http.Request, jobName string) (interface{}, error) { switch req.Method { case "GET": return s.jobScaleStatus(resp, req, jobName) case "PUT", "POST": return s.jobScaleAction(resp, req, jobName) default: return nil, CodedError(405, ErrInvalidMethod) } } func (s *HTTPServer) jobScaleStatus(resp http.ResponseWriter, req *http.Request, jobName string) (interface{}, error) { args := structs.JobScaleStatusRequest{ JobID: jobName, } if s.parse(resp, req, &args.Region, &args.QueryOptions) { return nil, nil } var out structs.JobScaleStatusResponse if err := s.agent.RPC("Job.ScaleStatus", &args, &out); err != nil { return nil, err } setMeta(resp, &out.QueryMeta) if out.JobScaleStatus == nil { return nil, CodedError(404, "job not found") } return out.JobScaleStatus, nil } func (s *HTTPServer) jobScaleAction(resp http.ResponseWriter, req *http.Request, jobName string) (interface{}, error) { if req.Method != "PUT" && req.Method != "POST" { return nil, CodedError(405, ErrInvalidMethod) } var args api.ScalingRequest if err := decodeBody(req, &args); err != nil { return nil, CodedError(400, err.Error()) } namespace := args.Target[structs.ScalingTargetNamespace] targetJob := args.Target[structs.ScalingTargetJob] if targetJob != "" && targetJob != jobName { return nil, CodedError(400, "job ID in payload did not match URL") } scaleReq := structs.JobScaleRequest{ JobID: jobName, Namespace: namespace, Target: args.Target, Count: args.Count, PolicyOverride: args.PolicyOverride, Message: args.Message, Error: args.Error, Meta: args.Meta, } // parseWriteRequest overrides Namespace, Region and AuthToken // based on values from the original http request s.parseWriteRequest(req, &scaleReq.WriteRequest) var out structs.JobRegisterResponse if err := s.agent.RPC("Job.Scale", &scaleReq, &out); err != nil { return nil, err } setIndex(resp, out.Index) return out, nil } func (s *HTTPServer) jobVersions(resp http.ResponseWriter, req *http.Request, jobName string) (interface{}, error) { diffsStr := req.URL.Query().Get("diffs") var diffsBool bool if diffsStr != "" { var err error diffsBool, err = strconv.ParseBool(diffsStr) if err != nil { return nil, fmt.Errorf("Failed to parse value of %q (%v) as a bool: %v", "diffs", diffsStr, err) } } args := structs.JobVersionsRequest{ JobID: jobName, Diffs: diffsBool, } if s.parse(resp, req, &args.Region, &args.QueryOptions) { return nil, nil } var out structs.JobVersionsResponse if err := s.agent.RPC("Job.GetJobVersions", &args, &out); err != nil { return nil, err } setMeta(resp, &out.QueryMeta) if len(out.Versions) == 0 { return nil, CodedError(404, "job versions not found") } return out, nil } func (s *HTTPServer) jobRevert(resp http.ResponseWriter, req *http.Request, jobName string) (interface{}, error) { if req.Method != "PUT" && req.Method != "POST" { return nil, CodedError(405, ErrInvalidMethod) } var revertRequest structs.JobRevertRequest if err := decodeBody(req, &revertRequest); err != nil { return nil, CodedError(400, err.Error()) } if revertRequest.JobID == "" { return nil, CodedError(400, "JobID must be specified") } if revertRequest.JobID != jobName { return nil, CodedError(400, "Job ID does not match") } s.parseWriteRequest(req, &revertRequest.WriteRequest) var out structs.JobRegisterResponse if err := s.agent.RPC("Job.Revert", &revertRequest, &out); err != nil { return nil, err } setMeta(resp, &out.QueryMeta) return out, nil } func (s *HTTPServer) jobStable(resp http.ResponseWriter, req *http.Request, jobName string) (interface{}, error) { if req.Method != "PUT" && req.Method != "POST" { return nil, CodedError(405, ErrInvalidMethod) } var stableRequest structs.JobStabilityRequest if err := decodeBody(req, &stableRequest); err != nil { return nil, CodedError(400, err.Error()) } if stableRequest.JobID == "" { return nil, CodedError(400, "JobID must be specified") } if stableRequest.JobID != jobName { return nil, CodedError(400, "Job ID does not match") } s.parseWriteRequest(req, &stableRequest.WriteRequest) var out structs.JobStabilityResponse if err := s.agent.RPC("Job.Stable", &stableRequest, &out); err != nil { return nil, err } setIndex(resp, out.Index) return out, nil } func (s *HTTPServer) jobSummaryRequest(resp http.ResponseWriter, req *http.Request, name string) (interface{}, error) { args := structs.JobSummaryRequest{ JobID: name, } if s.parse(resp, req, &args.Region, &args.QueryOptions) { return nil, nil } var out structs.JobSummaryResponse if err := s.agent.RPC("Job.Summary", &args, &out); err != nil { return nil, err } setMeta(resp, &out.QueryMeta) if out.JobSummary == nil { return nil, CodedError(404, "job not found") } setIndex(resp, out.Index) return out.JobSummary, nil } func (s *HTTPServer) jobDispatchRequest(resp http.ResponseWriter, req *http.Request, name string) (interface{}, error) { if req.Method != "PUT" && req.Method != "POST" { return nil, CodedError(405, ErrInvalidMethod) } args := structs.JobDispatchRequest{} if err := decodeBody(req, &args); err != nil { return nil, CodedError(400, err.Error()) } if args.JobID != "" && args.JobID != name { return nil, CodedError(400, "Job ID does not match") } if args.JobID == "" { args.JobID = name } s.parseWriteRequest(req, &args.WriteRequest) var out structs.JobDispatchResponse if err := s.agent.RPC("Job.Dispatch", &args, &out); err != nil { return nil, err } setIndex(resp, out.Index) return out, nil } // JobsParseRequest parses a hcl jobspec and returns a api.Job func (s *HTTPServer) JobsParseRequest(resp http.ResponseWriter, req *http.Request) (interface{}, error) { if req.Method != http.MethodPut && req.Method != http.MethodPost { return nil, CodedError(405, ErrInvalidMethod) } args := &api.JobsParseRequest{} if err := decodeBody(req, &args); err != nil { return nil, CodedError(400, err.Error()) } if args.JobHCL == "" { return nil, CodedError(400, "Job spec is empty") } jobfile := strings.NewReader(args.JobHCL) jobStruct, err := jobspec.Parse(jobfile) if err != nil { return nil, CodedError(400, err.Error()) } if args.Canonicalize { jobStruct.Canonicalize() } return jobStruct, nil } // apiJobAndRequestToStructs parses the query params from the incoming // request and converts to a structs.Job and WriteRequest with the func (s *HTTPServer) apiJobAndRequestToStructs(job *api.Job, req *http.Request, apiReq api.WriteRequest) (*structs.Job, *structs.WriteRequest) { // parseWriteRequest gets the Namespace, Region, and AuthToken from // the original HTTP request's query params and headers and overrides // those values set in the request body writeReq := &structs.WriteRequest{ Namespace: apiReq.Namespace, Region: apiReq.Region, AuthToken: apiReq.SecretID, } queryRegion := req.URL.Query().Get("region") s.parseToken(req, &writeReq.AuthToken) parseNamespace(req, &writeReq.Namespace) requestRegion, jobRegion := regionForJob( job, queryRegion, writeReq.Region, s.agent.config.Region, ) sJob := ApiJobToStructJob(job) sJob.Region = jobRegion writeReq.Region = requestRegion writeReq.Namespace = sJob.Namespace return sJob, writeReq } func regionForJob(job *api.Job, queryRegion, apiRegion, agentRegion string) (string, string) { var requestRegion string var jobRegion string // Region in query param (-region flag) takes precedence. if queryRegion != "" { requestRegion = queryRegion jobRegion = queryRegion } // Next the request body... if apiRegion != "" { requestRegion = apiRegion jobRegion = apiRegion } // If no query param was passed, we forward to the job's region // if one is available if requestRegion == "" && job.Region != nil { requestRegion = *job.Region jobRegion = *job.Region } // otherwise we default to the region of this node if requestRegion == "" || requestRegion == api.GlobalRegion { requestRegion = agentRegion jobRegion = agentRegion } // Multiregion jobs have their job region set to the global region, // and enforce that we forward to a region where they will be deployed if job.Multiregion != nil { jobRegion = api.GlobalRegion // multiregion jobs with 0 regions won't pass validation, // but this protects us from NPE if len(job.Multiregion.Regions) > 0 { found := false for _, region := range job.Multiregion.Regions { if region.Name == requestRegion { found = true } } if !found { requestRegion = job.Multiregion.Regions[0].Name } } } return requestRegion, jobRegion } func ApiJobToStructJob(job *api.Job) *structs.Job { job.Canonicalize() j := &structs.Job{ Stop: *job.Stop, Region: *job.Region, Namespace: *job.Namespace, ID: *job.ID, ParentID: *job.ParentID, Name: *job.Name, Type: *job.Type, Priority: *job.Priority, AllAtOnce: *job.AllAtOnce, Datacenters: job.Datacenters, Payload: job.Payload, Meta: job.Meta, ConsulToken: *job.ConsulToken, VaultToken: *job.VaultToken, VaultNamespace: *job.VaultNamespace, Constraints: ApiConstraintsToStructs(job.Constraints), Affinities: ApiAffinitiesToStructs(job.Affinities), } // Update has been pushed into the task groups. stagger and max_parallel are // preserved at the job level, but all other values are discarded. The job.Update // api value is merged into TaskGroups already in api.Canonicalize if job.Update != nil && job.Update.MaxParallel != nil && *job.Update.MaxParallel > 0 { j.Update = structs.UpdateStrategy{} if job.Update.Stagger != nil { j.Update.Stagger = *job.Update.Stagger } if job.Update.MaxParallel != nil { j.Update.MaxParallel = *job.Update.MaxParallel } } if l := len(job.Spreads); l != 0 { j.Spreads = make([]*structs.Spread, l) for i, apiSpread := range job.Spreads { j.Spreads[i] = ApiSpreadToStructs(apiSpread) } } if job.Periodic != nil { j.Periodic = &structs.PeriodicConfig{ Enabled: *job.Periodic.Enabled, SpecType: *job.Periodic.SpecType, ProhibitOverlap: *job.Periodic.ProhibitOverlap, TimeZone: *job.Periodic.TimeZone, } if job.Periodic.Spec != nil { j.Periodic.Spec = *job.Periodic.Spec } } if job.ParameterizedJob != nil { j.ParameterizedJob = &structs.ParameterizedJobConfig{ Payload: job.ParameterizedJob.Payload, MetaRequired: job.ParameterizedJob.MetaRequired, MetaOptional: job.ParameterizedJob.MetaOptional, } } if job.Multiregion != nil { j.Multiregion = &structs.Multiregion{} j.Multiregion.Strategy = &structs.MultiregionStrategy{ MaxParallel: *job.Multiregion.Strategy.MaxParallel, OnFailure: *job.Multiregion.Strategy.OnFailure, } j.Multiregion.Regions = []*structs.MultiregionRegion{} for _, region := range job.Multiregion.Regions { r := &structs.MultiregionRegion{} r.Name = region.Name r.Count = *region.Count r.Datacenters = region.Datacenters r.Meta = region.Meta j.Multiregion.Regions = append(j.Multiregion.Regions, r) } } if l := len(job.TaskGroups); l != 0 { j.TaskGroups = make([]*structs.TaskGroup, l) for i, taskGroup := range job.TaskGroups { tg := &structs.TaskGroup{} ApiTgToStructsTG(j, taskGroup, tg) j.TaskGroups[i] = tg } } return j } func ApiTgToStructsTG(job *structs.Job, taskGroup *api.TaskGroup, tg *structs.TaskGroup) { tg.Name = *taskGroup.Name tg.Count = *taskGroup.Count tg.Meta = taskGroup.Meta tg.Constraints = ApiConstraintsToStructs(taskGroup.Constraints) tg.Affinities = ApiAffinitiesToStructs(taskGroup.Affinities) tg.Networks = ApiNetworkResourceToStructs(taskGroup.Networks) tg.Services = ApiServicesToStructs(taskGroup.Services) tg.RestartPolicy = &structs.RestartPolicy{ Attempts: *taskGroup.RestartPolicy.Attempts, Interval: *taskGroup.RestartPolicy.Interval, Delay: *taskGroup.RestartPolicy.Delay, Mode: *taskGroup.RestartPolicy.Mode, } if taskGroup.ShutdownDelay != nil { tg.ShutdownDelay = taskGroup.ShutdownDelay } if taskGroup.StopAfterClientDisconnect != nil { tg.StopAfterClientDisconnect = taskGroup.StopAfterClientDisconnect } if taskGroup.ReschedulePolicy != nil { tg.ReschedulePolicy = &structs.ReschedulePolicy{ Attempts: *taskGroup.ReschedulePolicy.Attempts, Interval: *taskGroup.ReschedulePolicy.Interval, Delay: *taskGroup.ReschedulePolicy.Delay, DelayFunction: *taskGroup.ReschedulePolicy.DelayFunction, MaxDelay: *taskGroup.ReschedulePolicy.MaxDelay, Unlimited: *taskGroup.ReschedulePolicy.Unlimited, } } if taskGroup.Migrate != nil { tg.Migrate = &structs.MigrateStrategy{ MaxParallel: *taskGroup.Migrate.MaxParallel, HealthCheck: *taskGroup.Migrate.HealthCheck, MinHealthyTime: *taskGroup.Migrate.MinHealthyTime, HealthyDeadline: *taskGroup.Migrate.HealthyDeadline, } } if taskGroup.Scaling != nil { tg.Scaling = ApiScalingPolicyToStructs(tg.Count, taskGroup.Scaling).TargetTaskGroup(job, tg) } tg.EphemeralDisk = &structs.EphemeralDisk{ Sticky: *taskGroup.EphemeralDisk.Sticky, SizeMB: *taskGroup.EphemeralDisk.SizeMB, Migrate: *taskGroup.EphemeralDisk.Migrate, } if l := len(taskGroup.Spreads); l != 0 { tg.Spreads = make([]*structs.Spread, l) for k, spread := range taskGroup.Spreads { tg.Spreads[k] = ApiSpreadToStructs(spread) } } if l := len(taskGroup.Volumes); l != 0 { tg.Volumes = make(map[string]*structs.VolumeRequest, l) for k, v := range taskGroup.Volumes { if v.Type != structs.VolumeTypeHost && v.Type != structs.VolumeTypeCSI { // Ignore volumes we don't understand in this iteration currently. // - This is because we don't currently have a way to return errors here. continue } vol := &structs.VolumeRequest{ Name: v.Name, Type: v.Type, ReadOnly: v.ReadOnly, Source: v.Source, } if v.MountOptions != nil { vol.MountOptions = &structs.CSIMountOptions{ FSType: v.MountOptions.FSType, MountFlags: v.MountOptions.MountFlags, } } tg.Volumes[k] = vol } } if taskGroup.Update != nil { tg.Update = &structs.UpdateStrategy{ Stagger: *taskGroup.Update.Stagger, MaxParallel: *taskGroup.Update.MaxParallel, HealthCheck: *taskGroup.Update.HealthCheck, MinHealthyTime: *taskGroup.Update.MinHealthyTime, HealthyDeadline: *taskGroup.Update.HealthyDeadline, ProgressDeadline: *taskGroup.Update.ProgressDeadline, Canary: *taskGroup.Update.Canary, } // boolPtr fields may be nil, others will have pointers to default values via Canonicalize if taskGroup.Update.AutoRevert != nil { tg.Update.AutoRevert = *taskGroup.Update.AutoRevert } if taskGroup.Update.AutoPromote != nil { tg.Update.AutoPromote = *taskGroup.Update.AutoPromote } } if l := len(taskGroup.Tasks); l != 0 { tg.Tasks = make([]*structs.Task, l) for l, task := range taskGroup.Tasks { t := &structs.Task{} ApiTaskToStructsTask(task, t) // Set the tasks vault namespace from Job if it was not // specified by the task or group if t.Vault != nil && t.Vault.Namespace == "" && job.VaultNamespace != "" { t.Vault.Namespace = job.VaultNamespace } tg.Tasks[l] = t } } } // ApiTaskToStructsTask is a copy and type conversion between the API // representation of a task from a struct representation of a task. func ApiTaskToStructsTask(apiTask *api.Task, structsTask *structs.Task) { structsTask.Name = apiTask.Name structsTask.Driver = apiTask.Driver structsTask.User = apiTask.User structsTask.Leader = apiTask.Leader structsTask.Config = apiTask.Config structsTask.Env = apiTask.Env structsTask.Meta = apiTask.Meta structsTask.KillTimeout = *apiTask.KillTimeout structsTask.ShutdownDelay = apiTask.ShutdownDelay structsTask.KillSignal = apiTask.KillSignal structsTask.Kind = structs.TaskKind(apiTask.Kind) structsTask.Constraints = ApiConstraintsToStructs(apiTask.Constraints) structsTask.Affinities = ApiAffinitiesToStructs(apiTask.Affinities) structsTask.CSIPluginConfig = ApiCSIPluginConfigToStructsCSIPluginConfig(apiTask.CSIPluginConfig) if apiTask.RestartPolicy != nil { structsTask.RestartPolicy = &structs.RestartPolicy{ Attempts: *apiTask.RestartPolicy.Attempts, Interval: *apiTask.RestartPolicy.Interval, Delay: *apiTask.RestartPolicy.Delay, Mode: *apiTask.RestartPolicy.Mode, } } if l := len(apiTask.VolumeMounts); l != 0 { structsTask.VolumeMounts = make([]*structs.VolumeMount, l) for i, mount := range apiTask.VolumeMounts { structsTask.VolumeMounts[i] = &structs.VolumeMount{ Volume: *mount.Volume, Destination: *mount.Destination, ReadOnly: *mount.ReadOnly, PropagationMode: *mount.PropagationMode, } } } if l := len(apiTask.Services); l != 0 { structsTask.Services = make([]*structs.Service, l) for i, service := range apiTask.Services { structsTask.Services[i] = &structs.Service{ Name: service.Name, PortLabel: service.PortLabel, Tags: service.Tags, CanaryTags: service.CanaryTags, EnableTagOverride: service.EnableTagOverride, AddressMode: service.AddressMode, Meta: helper.CopyMapStringString(service.Meta), CanaryMeta: helper.CopyMapStringString(service.CanaryMeta), } if l := len(service.Checks); l != 0 { structsTask.Services[i].Checks = make([]*structs.ServiceCheck, l) for j, check := range service.Checks { structsTask.Services[i].Checks[j] = &structs.ServiceCheck{ Name: check.Name, Type: check.Type, Command: check.Command, Args: check.Args, Path: check.Path, Protocol: check.Protocol, PortLabel: check.PortLabel, AddressMode: check.AddressMode, Interval: check.Interval, Timeout: check.Timeout, InitialStatus: check.InitialStatus, TLSSkipVerify: check.TLSSkipVerify, Header: check.Header, Method: check.Method, GRPCService: check.GRPCService, GRPCUseTLS: check.GRPCUseTLS, SuccessBeforePassing: check.SuccessBeforePassing, FailuresBeforeCritical: check.FailuresBeforeCritical, } if check.CheckRestart != nil { structsTask.Services[i].Checks[j].CheckRestart = &structs.CheckRestart{ Limit: check.CheckRestart.Limit, Grace: *check.CheckRestart.Grace, IgnoreWarnings: check.CheckRestart.IgnoreWarnings, } } } } } } structsTask.Resources = ApiResourcesToStructs(apiTask.Resources) structsTask.LogConfig = &structs.LogConfig{ MaxFiles: *apiTask.LogConfig.MaxFiles, MaxFileSizeMB: *apiTask.LogConfig.MaxFileSizeMB, } if l := len(apiTask.Artifacts); l != 0 { structsTask.Artifacts = make([]*structs.TaskArtifact, l) for k, ta := range apiTask.Artifacts { structsTask.Artifacts[k] = &structs.TaskArtifact{ GetterSource: *ta.GetterSource, GetterOptions: ta.GetterOptions, GetterMode: *ta.GetterMode, RelativeDest: *ta.RelativeDest, } } } if apiTask.Vault != nil { structsTask.Vault = &structs.Vault{ Policies: apiTask.Vault.Policies, Namespace: *apiTask.Vault.Namespace, Env: *apiTask.Vault.Env, ChangeMode: *apiTask.Vault.ChangeMode, ChangeSignal: *apiTask.Vault.ChangeSignal, } } if l := len(apiTask.Templates); l != 0 { structsTask.Templates = make([]*structs.Template, l) for i, template := range apiTask.Templates { structsTask.Templates[i] = &structs.Template{ SourcePath: *template.SourcePath, DestPath: *template.DestPath, EmbeddedTmpl: *template.EmbeddedTmpl, ChangeMode: *template.ChangeMode, ChangeSignal: *template.ChangeSignal, Splay: *template.Splay, Perms: *template.Perms, LeftDelim: *template.LeftDelim, RightDelim: *template.RightDelim, Envvars: *template.Envvars, VaultGrace: *template.VaultGrace, } } } if apiTask.DispatchPayload != nil { structsTask.DispatchPayload = &structs.DispatchPayloadConfig{ File: apiTask.DispatchPayload.File, } } if apiTask.Lifecycle != nil { structsTask.Lifecycle = &structs.TaskLifecycleConfig{ Hook: apiTask.Lifecycle.Hook, Sidecar: apiTask.Lifecycle.Sidecar, } } } func ApiCSIPluginConfigToStructsCSIPluginConfig(apiConfig *api.TaskCSIPluginConfig) *structs.TaskCSIPluginConfig { if apiConfig == nil { return nil } sc := &structs.TaskCSIPluginConfig{} sc.ID = apiConfig.ID sc.Type = structs.CSIPluginType(apiConfig.Type) sc.MountDir = apiConfig.MountDir return sc } func ApiResourcesToStructs(in *api.Resources) *structs.Resources { if in == nil { return nil } out := &structs.Resources{ CPU: *in.CPU, MemoryMB: *in.MemoryMB, } // COMPAT(0.10): Only being used to issue warnings if in.IOPS != nil { out.IOPS = *in.IOPS } if len(in.Networks) != 0 { out.Networks = ApiNetworkResourceToStructs(in.Networks) } if l := len(in.Devices); l != 0 { out.Devices = make([]*structs.RequestedDevice, l) for i, d := range in.Devices { out.Devices[i] = &structs.RequestedDevice{ Name: d.Name, Count: *d.Count, Constraints: ApiConstraintsToStructs(d.Constraints), Affinities: ApiAffinitiesToStructs(d.Affinities), } } } return out } func ApiNetworkResourceToStructs(in []*api.NetworkResource) []*structs.NetworkResource { var out []*structs.NetworkResource if len(in) == 0 { return out } out = make([]*structs.NetworkResource, len(in)) for i, nw := range in { out[i] = &structs.NetworkResource{ Mode: nw.Mode, CIDR: nw.CIDR, IP: nw.IP, MBits: *nw.MBits, } if nw.DNS != nil { out[i].DNS = &structs.DNSConfig{ Servers: nw.DNS.Servers, Searches: nw.DNS.Searches, Options: nw.DNS.Options, } } if l := len(nw.DynamicPorts); l != 0 { out[i].DynamicPorts = make([]structs.Port, l) for j, dp := range nw.DynamicPorts { out[i].DynamicPorts[j] = ApiPortToStructs(dp) } } if l := len(nw.ReservedPorts); l != 0 { out[i].ReservedPorts = make([]structs.Port, l) for j, rp := range nw.ReservedPorts { out[i].ReservedPorts[j] = ApiPortToStructs(rp) } } } return out } func ApiPortToStructs(in api.Port) structs.Port { return structs.Port{ Label: in.Label, Value: in.Value, To: in.To, HostNetwork: in.HostNetwork, } } //TODO(schmichael) refactor and reuse in service parsing above func ApiServicesToStructs(in []*api.Service) []*structs.Service { if len(in) == 0 { return nil } out := make([]*structs.Service, len(in)) for i, s := range in { out[i] = &structs.Service{ Name: s.Name, PortLabel: s.PortLabel, TaskName: s.TaskName, Tags: s.Tags, CanaryTags: s.CanaryTags, EnableTagOverride: s.EnableTagOverride, AddressMode: s.AddressMode, Meta: helper.CopyMapStringString(s.Meta), CanaryMeta: helper.CopyMapStringString(s.CanaryMeta), } if l := len(s.Checks); l != 0 { out[i].Checks = make([]*structs.ServiceCheck, l) for j, check := range s.Checks { out[i].Checks[j] = &structs.ServiceCheck{ Name: check.Name, Type: check.Type, Command: check.Command, Args: check.Args, Path: check.Path, Protocol: check.Protocol, PortLabel: check.PortLabel, Expose: check.Expose, AddressMode: check.AddressMode, Interval: check.Interval, Timeout: check.Timeout, InitialStatus: check.InitialStatus, TLSSkipVerify: check.TLSSkipVerify, Header: check.Header, Method: check.Method, GRPCService: check.GRPCService, GRPCUseTLS: check.GRPCUseTLS, TaskName: check.TaskName, } if check.CheckRestart != nil { out[i].Checks[j].CheckRestart = &structs.CheckRestart{ Limit: check.CheckRestart.Limit, Grace: *check.CheckRestart.Grace, IgnoreWarnings: check.CheckRestart.IgnoreWarnings, } } } } if s.Connect != nil { out[i].Connect = ApiConsulConnectToStructs(s.Connect) } } return out } func ApiConsulConnectToStructs(in *api.ConsulConnect) *structs.ConsulConnect { if in == nil { return nil } return &structs.ConsulConnect{ Native: in.Native, SidecarService: apiConnectSidecarServiceToStructs(in.SidecarService), SidecarTask: apiConnectSidecarTaskToStructs(in.SidecarTask), } } func apiConnectSidecarServiceToStructs(in *api.ConsulSidecarService) *structs.ConsulSidecarService { if in == nil { return nil } return &structs.ConsulSidecarService{ Port: in.Port, Tags: helper.CopySliceString(in.Tags), Proxy: apiConnectSidecarServiceProxyToStructs(in.Proxy), } } func apiConnectSidecarServiceProxyToStructs(in *api.ConsulProxy) *structs.ConsulProxy { if in == nil { return nil } return &structs.ConsulProxy{ LocalServiceAddress: in.LocalServiceAddress, LocalServicePort: in.LocalServicePort, Upstreams: apiUpstreamsToStructs(in.Upstreams), Expose: apiConsulExposeConfigToStructs(in.ExposeConfig), Config: in.Config, } } func apiUpstreamsToStructs(in []*api.ConsulUpstream) []structs.ConsulUpstream { if len(in) == 0 { return nil } upstreams := make([]structs.ConsulUpstream, len(in)) for i, upstream := range in { upstreams[i] = structs.ConsulUpstream{ DestinationName: upstream.DestinationName, LocalBindPort: upstream.LocalBindPort, } } return upstreams } func apiConsulExposeConfigToStructs(in *api.ConsulExposeConfig) *structs.ConsulExposeConfig { if in == nil { return nil } return &structs.ConsulExposeConfig{ Paths: apiConsulExposePathsToStructs(in.Path), } } func apiConsulExposePathsToStructs(in []*api.ConsulExposePath) []structs.ConsulExposePath { if len(in) == 0 { return nil } paths := make([]structs.ConsulExposePath, len(in)) for i, path := range in { paths[i] = structs.ConsulExposePath{ Path: path.Path, Protocol: path.Protocol, LocalPathPort: path.LocalPathPort, ListenerPort: path.ListenerPort, } } return paths } func apiConnectSidecarTaskToStructs(in *api.SidecarTask) *structs.SidecarTask { if in == nil { return nil } return &structs.SidecarTask{ Name: in.Name, Driver: in.Driver, User: in.User, Config: in.Config, Env: in.Env, Resources: ApiResourcesToStructs(in.Resources), Meta: in.Meta, ShutdownDelay: in.ShutdownDelay, KillSignal: in.KillSignal, KillTimeout: in.KillTimeout, LogConfig: apiLogConfigToStructs(in.LogConfig), } } func apiLogConfigToStructs(in *api.LogConfig) *structs.LogConfig { if in == nil { return nil } return &structs.LogConfig{ MaxFiles: dereferenceInt(in.MaxFiles), MaxFileSizeMB: dereferenceInt(in.MaxFileSizeMB), } } func dereferenceInt(in *int) int { if in == nil { return 0 } return *in } func ApiConstraintsToStructs(in []*api.Constraint) []*structs.Constraint { if in == nil { return nil } out := make([]*structs.Constraint, len(in)) for i, ac := range in { out[i] = ApiConstraintToStructs(ac) } return out } func ApiConstraintToStructs(in *api.Constraint) *structs.Constraint { if in == nil { return nil } return &structs.Constraint{ LTarget: in.LTarget, RTarget: in.RTarget, Operand: in.Operand, } } func ApiAffinitiesToStructs(in []*api.Affinity) []*structs.Affinity { if in == nil { return nil } out := make([]*structs.Affinity, len(in)) for i, ac := range in { out[i] = ApiAffinityToStructs(ac) } return out } func ApiAffinityToStructs(a1 *api.Affinity) *structs.Affinity { return &structs.Affinity{ LTarget: a1.LTarget, Operand: a1.Operand, RTarget: a1.RTarget, Weight: *a1.Weight, } } func ApiSpreadToStructs(a1 *api.Spread) *structs.Spread { ret := &structs.Spread{} ret.Attribute = a1.Attribute ret.Weight = *a1.Weight if a1.SpreadTarget != nil { ret.SpreadTarget = make([]*structs.SpreadTarget, len(a1.SpreadTarget)) for i, st := range a1.SpreadTarget { ret.SpreadTarget[i] = &structs.SpreadTarget{ Value: st.Value, Percent: st.Percent, } } } return ret }