Custom Resource Definitions
This feature requires consul-helm >= 0.28.0, consul-k8s >= 0.22.0 and consul >= 1.8.4.
We support managing Consul configuration entries via Kubernetes Custom Resources. Configuration entries are used to provide cluster-wide defaults for the service mesh.
We currently support the follow configuration entry kinds:
- ProxyDefaults
- ServiceDefaults
- ServiceSplitter
- ServiceRouter
- ServiceResolver
- ServiceIntentions (requires Consul >= 1.9.0)
- IngressGateway
- TerminatingGateway
Installation
Ensure you have at least version 0.28.0
of the helm chart:
$ helm search repo hashicorp/consul
NAME CHART VERSION APP VERSION DESCRIPTION
hashicorp/consul 0.28.0 1.9.1 Official HashiCorp Consul Chart
If you don’t have 0.28.0
, you will need to update your helm repository cache:
$ helm repo update
Hang tight while we grab the latest from your chart repositories...
...Successfully got an update from the "hashicorp" chart repository
Update Complete. ⎈Happy Helming!⎈
Next, you must configure consul-helm via your values.yaml
to install the custom resource definitions and enable the controller that acts on them:
global:
name: consul
controller:
enabled: true
connectInject:
enabled: true
Note that:
- controller.enabled: true installs the CRDs and enables the controller.
- Configuration entries are used to configure Consul service mesh so it’s also expected that
connectInject
will be enabled.
See Install with Helm Chart for further installation instructions.
Upgrading An Existing Cluster to CRDs
If you have an existing Consul cluster running on Kubernetes you may need to perform extra steps to migrate to CRDs. See Upgrade An Existing Cluster to CRDs for full instructions.
Usage
Once installed, you can use kubectl
to create and manage Consul’s configuration entries.
Create
You can create configuration entries via kubectl apply
.
$ cat <<EOF | kubectl apply -f -
apiVersion: consul.hashicorp.com/v1alpha1
kind: ServiceDefaults
metadata:
name: foo
spec:
protocol: "http"
EOF
servicedefaults.consul.hashicorp.com/foo created
See Configuration Entries for detailed schema documentation.
Get
You can use kubectl get [kind] [name]
to get the status of the configuration entry:
$ kubectl get servicedefaults foo
NAME SYNCED
foo True
The SYNCED
status shows whether the configuration entry was successfully created in Consul.
Describe
You can use kubectl describe [kind] [name]
to investigate the status of the configuration entry. If SYNCED
is false, the status will contain the reason why.
$ kubectl describe servicedefaults foo
Status:
Conditions:
Last Transition Time: 2020-10-09T21:15:50Z
Status: True
Type: Synced
Edit
You can use kubectl edit [kind] [name]
to edit the configuration entry:
$ kubectl edit servicedefaults foo
# change protocol: http => protocol: tcp
servicedefaults.consul.hashicorp.com/foo edited
You can then use kubectl get
to ensure the change was synced to Consul:
$ kubectl get servicedefaults foo
NAME SYNCED
foo True
Delete
You can use kubectl delete [kind] [name]
to delete the configuration entry:
$ kubectl delete servicedefaults foo
servicedefaults.consul.hashicorp.com "foo" deleted
You can then use kubectl get
to ensure the configuration entry was deleted:
$ kubectl get servicedefaults foo
Error from server (NotFound): servicedefaults.consul.hashicorp.com "foo" not found
Delete Hanging
If running kubectl delete
hangs without exiting, there may be a dependent configuration entry registered with Consul that prevents the target configuration entry from being deleted. For example, if you set the protocol of your service to http
via ServiceDefaults
and then create a ServiceSplitter
, you won’t be able to delete the ServiceDefaults
.
This is because by deleting the ServiceDefaults
config, you are setting the protocol back to the default which is tcp
. Since ServiceSplitter
requires that the service has an http
protocol, Consul will not allow the ServiceDefaults
to be deleted since that would put Consul into a broken state.
In order to delete the ServiceDefaults
config, you would need to first delete the ServiceSplitter
.
Kubernetes Namespaces
Consul OSS
Consul Open Source (Consul OSS) ignores Kubernetes namespaces and registers all services into the same global Consul registry based on their names. For example, service web
in Kubernetes namespace web-ns
and service admin
in Kubernetes namespace admin-ns
will be registered into Consul as web
and admin
with the Kubernetes source namespace ignored.
When creating custom resources to configure these services, the namespace of the custom resource is also ignored. For example, you can create a ServiceDefaults
custom resource for service web
in the Kubernetes namespace admin-ns
even though the web
service is actually running in the web-ns
namespace (although this is not recommended):
apiVersion: consul.hashicorp.com/v1alpha1
kind: ServiceDefaults
metadata:
name: web
namespace: admin-ns
spec:
protocol: http
---
apiVersion: apps/v1
kind: Deployment
metadata:
name: web
namespace: web-ns
spec: ...
NOTE: If two custom resources of the same kind and the same name are attempted to be created in different Kubernetes namespaces, the last one created will not be synced.
ServiceIntentions Special Case
ServiceIntentions
are different from the other custom resources because the name of the resource doesn’t matter. For other resources, the name of the resource determines which service it configures. For example, this resource configures the service web
:
apiVersion: consul.hashicorp.com/v1alpha1
kind: ServiceDefaults
metadata:
name: web
spec:
protocol: http
For ServiceIntentions
, because we need to support the ability to create wildcard intentions (e.g. foo => * (allow)
meaning that foo
can talk to any service), and because *
is not a valid Kubernetes resource name, we instead use the field spec.destination.name
to configure the destination service for the intention:
# foo => * (allow)
apiVersion: consul.hashicorp.com/v1alpha1
kind: ServiceIntentions
metadata:
name: name-does-not-matter
spec:
destination:
name: '*'
sources:
- name: foo
action: allow
---
# foo => web (allow)
apiVersion: consul.hashicorp.com/v1alpha1
kind: ServiceIntentions
metadata:
name: name-does-not-matter
spec:
destination:
name: web
sources:
- name: foo
action: allow
NOTE: If two ServiceIntentions
resources set the same spec.destination.name
, the last one created will not be synced.
Consul Enterprise
Enterprise
Consul Enterprise supports multiple configurations for how Kubernetes namespaces are mapped to Consul namespaces. The Consul namespace that the custom resource is registered into depends on the configuration being used but in general, you should create your custom resources in the same Kubernetes namespace as the service they’re configuring and everything will work as expected.
The details on each configuration are:
Mirroring - The Kubernetes namespace will be “mirrored” into Consul, i.e. service
web
in Kubernetes namespaceweb-ns
will be registered as serviceweb
in the Consul namespaceweb-ns
. In the same vein, aServiceDefaults
custom resource with nameweb
in Kubernetes namespaceweb-ns
will configure that same service.This is configured via connectInject.consulNamespaces:
global:
name: consul
enableConsulNamespaces: true
image: hashicorp/consul-enterprise:<tag>-ent
connectInject:
consulNamespaces:
mirroringK8S: true
Mirroring with prefix - The Kubernetes namespace will be “mirrored” into Consul with a prefix added to the Consul namespace, i.e. if the prefix is
k8s-
then serviceweb
in Kubernetes namespaceweb-ns
will be registered as serviceweb
in the Consul namespacek8s-web-ns
. In the same vein, aServiceDefaults
custom resource with nameweb
in Kubernetes namespaceweb-ns
will configure that same service.This is configured via connectInject.consulNamespaces:
global:
name: consul
enableConsulNamespaces: true
image: hashicorp/consul-enterprise:<tag>-ent
connectInject:
consulNamespaces:
mirroringK8S: true
mirroringK8SPrefix: k8s-
Single destination namespace - The Kubernetes namespace is ignored and all services will be registered into the same Consul namespace, i.e. if the destination Consul namespace is
my-ns
then serviceweb
in Kubernetes namespaceweb-ns
will be registered as serviceweb
in Consul namespacemy-ns
.In this configuration, the Kubernetes namespace of the custom resource is ignored. For example, a
ServiceDefaults
custom resource with the nameweb
in Kubernetes namespaceadmin-ns
will configure the service with nameweb
even though that service is running in Kubernetes namespaceweb-ns
because theServiceDefaults
resource ends up registered into the same Consul namespacemy-ns
.This is configured via connectInject.consulNamespaces:
global:
name: consul
enableConsulNamespaces: true
image: hashicorp/consul-enterprise:<tag>-ent
connectInject:
consulNamespaces:
consulDestinationNamespace: 'my-ns'
NOTE: In this configuration, if two custom resources of the same kind and the same name are attempted to be created in two Kubernetes namespaces, the last one created will not be synced.
ServiceIntentions Special Case (Enterprise)
ServiceIntentions
are different from the other custom resources because the name of the resource doesn’t matter. For other resources, the name of the resource determines which service it configures. For example, this resource configures the service web
:
apiVersion: consul.hashicorp.com/v1alpha1
kind: ServiceDefaults
metadata:
name: web
spec:
protocol: http
For ServiceIntentions
, because we need to support the ability to create wildcard intentions (e.g. foo => * (allow)
meaning that foo
can talk to any service), and because *
is not a valid Kubernetes resource name, we instead use the field spec.destination.name
to configure the destination service for the intention:
# foo => * (allow)
apiVersion: consul.hashicorp.com/v1alpha1
kind: ServiceIntentions
metadata:
name: name-does-not-matter
spec:
destination:
name: '*'
sources:
- name: foo
action: allow
---
# foo => web (allow)
apiVersion: consul.hashicorp.com/v1alpha1
kind: ServiceIntentions
metadata:
name: name-does-not-matter
spec:
destination:
name: web
sources:
- name: foo
action: allow
In addition, we support the field spec.destination.namespace
to configure the destination service’s Consul namespace. If spec.destination.namespace
is empty, then the Consul namespace used will be the same as the other config entries as outlined above.