open-nomad/nomad/job_endpoint_hook_connect.go

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package nomad
import (
"fmt"
"time"
"github.com/hashicorp/nomad/helper/uuid"
"github.com/hashicorp/nomad/nomad/structs"
)
var (
// connectSidecarResources returns the set of resources used by default for
// the Consul Connect sidecar task
connectSidecarResources = func() *structs.Resources {
return &structs.Resources{
CPU: 250,
MemoryMB: 128,
}
}
// connectDriverConfig is the driver configuration used by the injected
// connect proxy sidecar task
connectDriverConfig = map[string]interface{}{
"image": "${meta.connect.sidecar_image}",
"args": []interface{}{
"-c", structs.EnvoyBootstrapPath,
"-l", "${meta.connect.log_level}",
"--disable-hot-restart",
},
}
// connectVersionConstraint is used when building the sidecar task to ensure
connect: enable proxy.passthrough configuration Enable configuration of HTTP and gRPC endpoints which should be exposed by the Connect sidecar proxy. This changeset is the first "non-magical" pass that lays the groundwork for enabling Consul service checks for tasks running in a network namespace because they are Connect-enabled. The changes here provide for full configuration of the connect { sidecar_service { proxy { expose { paths = [{ path = <exposed endpoint> protocol = <http or grpc> local_path_port = <local endpoint port> listener_port = <inbound mesh port> }, ... ] } } } stanza. Everything from `expose` and below is new, and partially implements the precedent set by Consul: https://www.consul.io/docs/connect/registration/service-registration.html#expose-paths-configuration-reference Combined with a task-group level network port-mapping in the form: port "exposeExample" { to = -1 } it is now possible to "punch a hole" through the network namespace to a specific HTTP or gRPC path, with the anticipated use case of creating Consul checks on Connect enabled services. A future PR may introduce more automagic behavior, where we can do things like 1) auto-fill the 'expose.path.local_path_port' with the default value of the 'service.port' value for task-group level connect-enabled services. 2) automatically generate a port-mapping 3) enable an 'expose.checks' flag which automatically creates exposed endpoints for every compatible consul service check (http/grpc checks on connect enabled services).
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// the proper Consul version is used that supports the necessary Connect
// features. This includes bootstrapping envoy with a unix socket for Consul's
// gRPC xDS API.
connectVersionConstraint = func() *structs.Constraint {
return &structs.Constraint{
LTarget: "${attr.consul.version}",
RTarget: ">= 1.6.0-beta1",
Operand: structs.ConstraintSemver,
}
}
)
// jobConnectHook implements a job Mutating and Validating admission controller
type jobConnectHook struct{}
func (jobConnectHook) Name() string {
return "connect"
}
func (jobConnectHook) Mutate(job *structs.Job) (_ *structs.Job, warnings []error, err error) {
for _, g := range job.TaskGroups {
// TG isn't validated yet, but validation
// may depend on mutation results.
// Do basic validation here and skip mutation,
// so Validate can return a meaningful error
// messages
if len(g.Networks) == 0 {
continue
}
if err := groupConnectHook(job, g); err != nil {
return nil, nil, err
}
}
return job, nil, nil
}
func (jobConnectHook) Validate(job *structs.Job) (warnings []error, err error) {
for _, g := range job.TaskGroups {
w, err := groupConnectValidate(g)
if err != nil {
return nil, err
}
if w != nil {
warnings = append(warnings, w...)
}
}
return warnings, nil
}
// getSidecarTaskForService looks for the sidecar task for a given service within
// a task group. If no sidecar task is found nil is returned
func getSidecarTaskForService(tg *structs.TaskGroup, svc string) *structs.Task {
for _, t := range tg.Tasks {
if isSidecarForService(t, svc) {
return t
}
}
return nil
}
func isSidecarForService(t *structs.Task, svc string) bool {
return t.Kind == structs.TaskKind(fmt.Sprintf("%s:%s", structs.ConnectProxyPrefix, svc))
}
connect: enable proxy.passthrough configuration Enable configuration of HTTP and gRPC endpoints which should be exposed by the Connect sidecar proxy. This changeset is the first "non-magical" pass that lays the groundwork for enabling Consul service checks for tasks running in a network namespace because they are Connect-enabled. The changes here provide for full configuration of the connect { sidecar_service { proxy { expose { paths = [{ path = <exposed endpoint> protocol = <http or grpc> local_path_port = <local endpoint port> listener_port = <inbound mesh port> }, ... ] } } } stanza. Everything from `expose` and below is new, and partially implements the precedent set by Consul: https://www.consul.io/docs/connect/registration/service-registration.html#expose-paths-configuration-reference Combined with a task-group level network port-mapping in the form: port "exposeExample" { to = -1 } it is now possible to "punch a hole" through the network namespace to a specific HTTP or gRPC path, with the anticipated use case of creating Consul checks on Connect enabled services. A future PR may introduce more automagic behavior, where we can do things like 1) auto-fill the 'expose.path.local_path_port' with the default value of the 'service.port' value for task-group level connect-enabled services. 2) automatically generate a port-mapping 3) enable an 'expose.checks' flag which automatically creates exposed endpoints for every compatible consul service check (http/grpc checks on connect enabled services).
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// probably need to hack this up to look for checks on the service, and if they
// qualify, configure a port for envoy to use to expose their paths.
func groupConnectHook(job *structs.Job, g *structs.TaskGroup) error {
for _, service := range g.Services {
if service.Connect.HasSidecar() {
// Check to see if the sidecar task already exists
task := getSidecarTaskForService(g, service.Name)
// If the task doesn't already exist, create a new one and add it to the job
if task == nil {
task = newConnectTask(service.Name)
// If there happens to be a task defined with the same name
// append an UUID fragment to the task name
for _, t := range g.Tasks {
if t.Name == task.Name {
task.Name = task.Name + "-" + uuid.Generate()[:6]
break
}
}
g.Tasks = append(g.Tasks, task)
}
if service.Connect.SidecarTask != nil {
service.Connect.SidecarTask.MergeIntoTask(task)
}
// Canonicalize task since this mutator runs after job canonicalization
task.Canonicalize(job, g)
connect: enable proxy.passthrough configuration Enable configuration of HTTP and gRPC endpoints which should be exposed by the Connect sidecar proxy. This changeset is the first "non-magical" pass that lays the groundwork for enabling Consul service checks for tasks running in a network namespace because they are Connect-enabled. The changes here provide for full configuration of the connect { sidecar_service { proxy { expose { paths = [{ path = <exposed endpoint> protocol = <http or grpc> local_path_port = <local endpoint port> listener_port = <inbound mesh port> }, ... ] } } } stanza. Everything from `expose` and below is new, and partially implements the precedent set by Consul: https://www.consul.io/docs/connect/registration/service-registration.html#expose-paths-configuration-reference Combined with a task-group level network port-mapping in the form: port "exposeExample" { to = -1 } it is now possible to "punch a hole" through the network namespace to a specific HTTP or gRPC path, with the anticipated use case of creating Consul checks on Connect enabled services. A future PR may introduce more automagic behavior, where we can do things like 1) auto-fill the 'expose.path.local_path_port' with the default value of the 'service.port' value for task-group level connect-enabled services. 2) automatically generate a port-mapping 3) enable an 'expose.checks' flag which automatically creates exposed endpoints for every compatible consul service check (http/grpc checks on connect enabled services).
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makePort := func(label string) {
// check that port hasn't already been defined before adding it to tg
for _, p := range g.Networks[0].DynamicPorts {
if p.Label == label {
return
}
}
connect: enable proxy.passthrough configuration Enable configuration of HTTP and gRPC endpoints which should be exposed by the Connect sidecar proxy. This changeset is the first "non-magical" pass that lays the groundwork for enabling Consul service checks for tasks running in a network namespace because they are Connect-enabled. The changes here provide for full configuration of the connect { sidecar_service { proxy { expose { paths = [{ path = <exposed endpoint> protocol = <http or grpc> local_path_port = <local endpoint port> listener_port = <inbound mesh port> }, ... ] } } } stanza. Everything from `expose` and below is new, and partially implements the precedent set by Consul: https://www.consul.io/docs/connect/registration/service-registration.html#expose-paths-configuration-reference Combined with a task-group level network port-mapping in the form: port "exposeExample" { to = -1 } it is now possible to "punch a hole" through the network namespace to a specific HTTP or gRPC path, with the anticipated use case of creating Consul checks on Connect enabled services. A future PR may introduce more automagic behavior, where we can do things like 1) auto-fill the 'expose.path.local_path_port' with the default value of the 'service.port' value for task-group level connect-enabled services. 2) automatically generate a port-mapping 3) enable an 'expose.checks' flag which automatically creates exposed endpoints for every compatible consul service check (http/grpc checks on connect enabled services).
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g.Networks[0].DynamicPorts = append(g.Networks[0].DynamicPorts, structs.Port{
Label: label,
// -1 is a sentinel value to instruct the
// scheduler to map the host's dynamic port to
// the same port in the netns.
To: -1,
})
}
connect: enable proxy.passthrough configuration Enable configuration of HTTP and gRPC endpoints which should be exposed by the Connect sidecar proxy. This changeset is the first "non-magical" pass that lays the groundwork for enabling Consul service checks for tasks running in a network namespace because they are Connect-enabled. The changes here provide for full configuration of the connect { sidecar_service { proxy { expose { paths = [{ path = <exposed endpoint> protocol = <http or grpc> local_path_port = <local endpoint port> listener_port = <inbound mesh port> }, ... ] } } } stanza. Everything from `expose` and below is new, and partially implements the precedent set by Consul: https://www.consul.io/docs/connect/registration/service-registration.html#expose-paths-configuration-reference Combined with a task-group level network port-mapping in the form: port "exposeExample" { to = -1 } it is now possible to "punch a hole" through the network namespace to a specific HTTP or gRPC path, with the anticipated use case of creating Consul checks on Connect enabled services. A future PR may introduce more automagic behavior, where we can do things like 1) auto-fill the 'expose.path.local_path_port' with the default value of the 'service.port' value for task-group level connect-enabled services. 2) automatically generate a port-mapping 3) enable an 'expose.checks' flag which automatically creates exposed endpoints for every compatible consul service check (http/grpc checks on connect enabled services).
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// create a port for the sidecar task's proxy port
makePort(fmt.Sprintf("%s-%s", structs.ConnectProxyPrefix, service.Name))
// todo(shoenig) magic port for 'expose.checks'
}
}
connect: enable proxy.passthrough configuration Enable configuration of HTTP and gRPC endpoints which should be exposed by the Connect sidecar proxy. This changeset is the first "non-magical" pass that lays the groundwork for enabling Consul service checks for tasks running in a network namespace because they are Connect-enabled. The changes here provide for full configuration of the connect { sidecar_service { proxy { expose { paths = [{ path = <exposed endpoint> protocol = <http or grpc> local_path_port = <local endpoint port> listener_port = <inbound mesh port> }, ... ] } } } stanza. Everything from `expose` and below is new, and partially implements the precedent set by Consul: https://www.consul.io/docs/connect/registration/service-registration.html#expose-paths-configuration-reference Combined with a task-group level network port-mapping in the form: port "exposeExample" { to = -1 } it is now possible to "punch a hole" through the network namespace to a specific HTTP or gRPC path, with the anticipated use case of creating Consul checks on Connect enabled services. A future PR may introduce more automagic behavior, where we can do things like 1) auto-fill the 'expose.path.local_path_port' with the default value of the 'service.port' value for task-group level connect-enabled services. 2) automatically generate a port-mapping 3) enable an 'expose.checks' flag which automatically creates exposed endpoints for every compatible consul service check (http/grpc checks on connect enabled services).
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return nil
}
func newConnectTask(serviceName string) *structs.Task {
task := &structs.Task{
// Name is used in container name so must start with '[A-Za-z0-9]'
Name: fmt.Sprintf("%s-%s", structs.ConnectProxyPrefix, serviceName),
Kind: structs.TaskKind(fmt.Sprintf("%s:%s", structs.ConnectProxyPrefix, serviceName)),
Driver: "docker",
Config: connectDriverConfig,
ShutdownDelay: 5 * time.Second,
LogConfig: &structs.LogConfig{
MaxFiles: 2,
MaxFileSizeMB: 2,
},
Resources: connectSidecarResources(),
Constraints: structs.Constraints{
connectVersionConstraint(),
},
}
return task
}
func groupConnectValidate(g *structs.TaskGroup) (warnings []error, err error) {
for _, s := range g.Services {
if s.Connect.HasSidecar() {
if n := len(g.Networks); n != 1 {
return nil, fmt.Errorf("Consul Connect sidecars require exactly 1 network, found %d in group %q", n, g.Name)
}
if g.Networks[0].Mode != "bridge" {
return nil, fmt.Errorf("Consul Connect sidecar requires bridge network, found %q in group %q", g.Networks[0].Mode, g.Name)
}
// Stopping loop, only need to do the validation once
break
}
}
return nil, nil
}