open-nomad/command/agent/job_endpoint.go
Seth Hoenig d026ff1f66 consul/connect: add support for connect mesh gateways
This PR implements first-class support for Nomad running Consul
Connect Mesh Gateways. Mesh gateways enable services in the Connect
mesh to make cross-DC connections via gateways, where each datacenter
may not have full node interconnectivity.

Consul docs with more information:
https://www.consul.io/docs/connect/gateways/mesh-gateway

The following group level service block can be used to establish
a Connect mesh gateway.

service {
  connect {
    gateway {
      mesh {
        // no configuration
      }
    }
  }
}

Services can make use of a mesh gateway by configuring so in their
upstream blocks, e.g.

service {
  connect {
    sidecar_service {
      proxy {
        upstreams {
          destination_name = "<service>"
          local_bind_port  = <port>
          datacenter       = "<datacenter>"
          mesh_gateway {
            mode = "<mode>"
          }
        }
      }
    }
  }
}

Typical use of a mesh gateway is to create a bridge between datacenters.
A mesh gateway should then be configured with a service port that is
mapped from a host_network configured on a WAN interface in Nomad agent
config, e.g.

client {
  host_network "public" {
    interface = "eth1"
  }
}

Create a port mapping in the group.network block for use by the mesh
gateway service from the public host_network, e.g.

network {
  mode = "bridge"
  port "mesh_wan" {
    host_network = "public"
  }
}

Use this port label for the service.port of the mesh gateway, e.g.

service {
  name = "mesh-gateway"
  port = "mesh_wan"
  connect {
    gateway {
      mesh {}
    }
  }
}

Currently Envoy is the only supported gateway implementation in Consul.
By default Nomad client will run the latest official Envoy docker image
supported by the local Consul agent. The Envoy task can be customized
by setting `meta.connect.gateway_image` in agent config or by setting
the `connect.sidecar_task` block.

Gateways require Consul 1.8.0+, enforced by the Nomad scheduler.

Closes #9446
2021-06-04 08:24:49 -05:00

1688 lines
47 KiB
Go

package agent
import (
"fmt"
"net/http"
"strconv"
"strings"
"github.com/golang/snappy"
api "github.com/hashicorp/nomad/api"
"github.com/hashicorp/nomad/helper"
"github.com/hashicorp/nomad/jobspec"
"github.com/hashicorp/nomad/jobspec2"
"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")
}
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")
}
// 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", &regReq, &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)
}
}
globalStr := req.URL.Query().Get("global")
var globalBool bool
if globalStr != "" {
var err error
globalBool, err = strconv.ParseBool(globalStr)
if err != nil {
return nil, fmt.Errorf("Failed to parse value of %q (%v) as a bool: %v", "global", globalStr, err)
}
}
args := structs.JobDeregisterRequest{
JobID: jobName,
Purge: purgeBool,
Global: globalBool,
}
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())
}
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,
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")
}
var jobStruct *api.Job
var err error
if args.HCLv1 {
jobStruct, err = jobspec.Parse(strings.NewReader(args.JobHCL))
} else {
jobStruct, err = jobspec2.ParseWithConfig(&jobspec2.ParseConfig{
Path: "input.hcl",
Body: []byte(args.JobHCL),
AllowFS: false,
})
}
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,
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.Consul = apiConsulToStructs(taskGroup.Consul)
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,
AttachmentMode: structs.CSIVolumeAttachmentMode(v.AttachmentMode),
AccessMode: structs.CSIVolumeAccessMode(v.AccessMode),
PerAlloc: v.PerAlloc,
}
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(job, tg, 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(job *structs.Job, group *structs.TaskGroup,
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.ScalingPolicies); l != 0 {
structsTask.ScalingPolicies = make([]*structs.ScalingPolicy, l)
for i, policy := range apiTask.ScalingPolicies {
structsTask.ScalingPolicies[i] = ApiScalingPolicyToStructs(0, policy).TargetTask(job, group, structsTask)
}
}
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),
OnUpdate: service.OnUpdate,
}
if l := len(service.Checks); l != 0 {
structsTask.Services[i].Checks = make([]*structs.ServiceCheck, l)
for j, check := range service.Checks {
onUpdate := service.OnUpdate // Inherit from service as default
if check.OnUpdate != "" {
onUpdate = check.OnUpdate
}
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,
Body: check.Body,
GRPCService: check.GRPCService,
GRPCUseTLS: check.GRPCUseTLS,
SuccessBeforePassing: check.SuccessBeforePassing,
FailuresBeforeCritical: check.FailuresBeforeCritical,
OnUpdate: onUpdate,
}
if check.CheckRestart != nil {
structsTask.Services[i].Checks[j].CheckRestart = &structs.CheckRestart{
Limit: check.CheckRestart.Limit,
Grace: *check.CheckRestart.Grace,
IgnoreWarnings: check.CheckRestart.IgnoreWarnings,
}
}
}
}
// Task services can't have a connect block. We still convert it so that
// we can later return a validation error.
if service.Connect != nil {
structsTask.Services[i].Connect = ApiConsulConnectToStructs(service.Connect)
}
}
}
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: helper.CopyMapStringString(ta.GetterOptions),
GetterHeaders: helper.CopyMapStringString(ta.GetterHeaders),
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,
}
if in.Cores != nil {
out.Cores = *in.Cores
}
if in.MemoryMaxMB != nil {
out.MemoryMaxMB = *in.MemoryMaxMB
}
// 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.Megabits(),
}
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),
OnUpdate: s.OnUpdate,
}
if l := len(s.Checks); l != 0 {
out[i].Checks = make([]*structs.ServiceCheck, l)
for j, check := range s.Checks {
onUpdate := s.OnUpdate // Inherit from service as default
if check.OnUpdate != "" {
onUpdate = check.OnUpdate
}
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,
Body: check.Body,
GRPCService: check.GRPCService,
GRPCUseTLS: check.GRPCUseTLS,
TaskName: check.TaskName,
OnUpdate: onUpdate,
}
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),
Gateway: apiConnectGatewayToStructs(in.Gateway),
}
}
func apiConnectGatewayToStructs(in *api.ConsulGateway) *structs.ConsulGateway {
if in == nil {
return nil
}
return &structs.ConsulGateway{
Proxy: apiConnectGatewayProxyToStructs(in.Proxy),
Ingress: apiConnectIngressGatewayToStructs(in.Ingress),
Terminating: apiConnectTerminatingGatewayToStructs(in.Terminating),
Mesh: apiConnectMeshGatewayToStructs(in.Mesh),
}
}
func apiConnectGatewayProxyToStructs(in *api.ConsulGatewayProxy) *structs.ConsulGatewayProxy {
if in == nil {
return nil
}
bindAddresses := make(map[string]*structs.ConsulGatewayBindAddress)
if in.EnvoyGatewayBindAddresses != nil {
for k, v := range in.EnvoyGatewayBindAddresses {
bindAddresses[k] = &structs.ConsulGatewayBindAddress{
Address: v.Address,
Port: v.Port,
}
}
}
return &structs.ConsulGatewayProxy{
ConnectTimeout: in.ConnectTimeout,
EnvoyGatewayBindTaggedAddresses: in.EnvoyGatewayBindTaggedAddresses,
EnvoyGatewayBindAddresses: bindAddresses,
EnvoyGatewayNoDefaultBind: in.EnvoyGatewayNoDefaultBind,
EnvoyDNSDiscoveryType: in.EnvoyDNSDiscoveryType,
Config: helper.CopyMapStringInterface(in.Config),
}
}
func apiConnectIngressGatewayToStructs(in *api.ConsulIngressConfigEntry) *structs.ConsulIngressConfigEntry {
if in == nil {
return nil
}
return &structs.ConsulIngressConfigEntry{
TLS: apiConnectGatewayTLSConfig(in.TLS),
Listeners: apiConnectIngressListenersToStructs(in.Listeners),
}
}
func apiConnectGatewayTLSConfig(in *api.ConsulGatewayTLSConfig) *structs.ConsulGatewayTLSConfig {
if in == nil {
return nil
}
return &structs.ConsulGatewayTLSConfig{
Enabled: in.Enabled,
}
}
func apiConnectIngressListenersToStructs(in []*api.ConsulIngressListener) []*structs.ConsulIngressListener {
if len(in) == 0 {
return nil
}
listeners := make([]*structs.ConsulIngressListener, len(in))
for i, listener := range in {
listeners[i] = apiConnectIngressListenerToStructs(listener)
}
return listeners
}
func apiConnectIngressListenerToStructs(in *api.ConsulIngressListener) *structs.ConsulIngressListener {
if in == nil {
return nil
}
return &structs.ConsulIngressListener{
Port: in.Port,
Protocol: in.Protocol,
Services: apiConnectIngressServicesToStructs(in.Services),
}
}
func apiConnectIngressServicesToStructs(in []*api.ConsulIngressService) []*structs.ConsulIngressService {
if len(in) == 0 {
return nil
}
services := make([]*structs.ConsulIngressService, len(in))
for i, service := range in {
services[i] = apiConnectIngressServiceToStructs(service)
}
return services
}
func apiConnectIngressServiceToStructs(in *api.ConsulIngressService) *structs.ConsulIngressService {
if in == nil {
return nil
}
return &structs.ConsulIngressService{
Name: in.Name,
Hosts: helper.CopySliceString(in.Hosts),
}
}
func apiConnectTerminatingGatewayToStructs(in *api.ConsulTerminatingConfigEntry) *structs.ConsulTerminatingConfigEntry {
if in == nil {
return nil
}
return &structs.ConsulTerminatingConfigEntry{
Services: apiConnectTerminatingServicesToStructs(in.Services),
}
}
func apiConnectTerminatingServicesToStructs(in []*api.ConsulLinkedService) []*structs.ConsulLinkedService {
if len(in) == 0 {
return nil
}
services := make([]*structs.ConsulLinkedService, len(in))
for i, service := range in {
services[i] = apiConnectTerminatingServiceToStructs(service)
}
return services
}
func apiConnectTerminatingServiceToStructs(in *api.ConsulLinkedService) *structs.ConsulLinkedService {
if in == nil {
return nil
}
return &structs.ConsulLinkedService{
Name: in.Name,
CAFile: in.CAFile,
CertFile: in.CertFile,
KeyFile: in.KeyFile,
SNI: in.SNI,
}
}
func apiConnectMeshGatewayToStructs(in *api.ConsulMeshConfigEntry) *structs.ConsulMeshConfigEntry {
if in == nil {
return nil
}
return new(structs.ConsulMeshConfigEntry)
}
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),
DisableDefaultTCPCheck: in.DisableDefaultTCPCheck,
}
}
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: helper.CopyMapStringInterface(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,
Datacenter: upstream.Datacenter,
LocalBindAddress: upstream.LocalBindAddress,
MeshGateway: apiMeshGatewayToStructs(upstream.MeshGateway),
}
}
return upstreams
}
func apiMeshGatewayToStructs(in *api.ConsulMeshGateway) *structs.ConsulMeshGateway {
if in == nil {
return nil
}
return &structs.ConsulMeshGateway{
Mode: in.Mode,
}
}
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 apiConsulToStructs(in *api.Consul) *structs.Consul {
if in == nil {
return nil
}
return &structs.Consul{
Namespace: in.Namespace,
}
}
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
}