This guide walks through an example of building a simple memcached-operator using the operator-sdk CLI tool and controller-runtime library API. To learn how to use Ansible or Helm to create an operator, see the Ansible Operator User Guide or the Helm Operator User Guide. The rest of this document will show how to program an operator in Go.
- dep version v0.5.0+.
- git
- go version v1.10+.
- docker version 17.03+.
- kubectl version v1.11.0+.
- Access to a kubernetes v.1.11.0+ cluster.
Note: This guide uses minikube version v0.25.0+ as the local kubernetes cluster and quay.io for the public registry.
The Operator SDK has a CLI tool that helps the developer to create, build, and deploy a new operator project.
Checkout the desired release tag and install the SDK CLI tool:
$ mkdir -p $GOPATH/src/github.com/operator-framework
$ cd $GOPATH/src/github.com/operator-framework
$ git clone https://github.com/operator-framework/operator-sdk
$ cd operator-sdk
$ git checkout master
$ make dep
$ make install
This installs the CLI binary operator-sdk
at $GOPATH/bin
.
Use the CLI to create a new memcached-operator project:
$ mkdir -p $GOPATH/src/github.com/example-inc/
$ cd $GOPATH/src/github.com/example-inc/
$ operator-sdk new memcached-operator
$ cd memcached-operator
To learn about the project directory structure, see project layout doc.
A namespace-scoped operator (the default) watches and manages resources in a single namespace, whereas a cluster-scoped operator watches and manages resources cluster-wide. Namespace-scoped operators are preferred because of their flexibility. They enable decoupled upgrades, namespace isolation for failures and monitoring, and differing API definitions. However, there are use cases where a cluster-scoped operator may make sense. For example, the cert-manager operator is often deployed with cluster-scoped permissions and watches so that it can manage issuing certificates for an entire cluster.
If you'd like to create your memcached-operator project to be cluster-scoped use the following operator-sdk new
command instead:
$ operator-sdk new memcached-operator --cluster-scoped
Using --cluster-scoped
will scaffold the new operator with the following modifications:
deploy/operator.yaml
- SetWATCH_NAMESPACE=""
instead of setting it to the pod's namespacedeploy/role.yaml
- UseClusterRole
instead ofRole
deploy/role_binding.yaml
:- Use
ClusterRoleBinding
instead ofRoleBinding
- Set the subject namespace to
REPLACE_NAMESPACE
. This must be changed to the namespace in which the operator is deployed.
- Use
The main program for the operator cmd/manager/main.go
initializes and runs the Manager.
The Manager will automatically register the scheme for all custom resources defined under pkg/apis/...
and run all controllers under pkg/controller/...
.
The Manager can restrict the namespace that all controllers will watch for resources:
mgr, err := manager.New(cfg, manager.Options{Namespace: namespace})
By default this will be the namespace that the operator is running in. To watch all namespaces leave the namespace option empty:
mgr, err := manager.New(cfg, manager.Options{Namespace: ""})
Add a new Custom Resource Definition(CRD) API called Memcached, with APIVersion cache.example.com/v1apha1
and Kind Memcached
.
$ operator-sdk add api --api-version=cache.example.com/v1alpha1 --kind=Memcached
This will scaffold the Memcached resource API under pkg/apis/cache/v1alpha1/...
.
Modify the spec and status of the Memcached
Custom Resource(CR) at pkg/apis/cache/v1alpha1/memcached_types.go
:
type MemcachedSpec struct {
// Size is the size of the memcached deployment
Size int32 `json:"size"`
}
type MemcachedStatus struct {
// Nodes are the names of the memcached pods
Nodes []string `json:"nodes"`
}
After modifying the *_types.go
file always run the following command to update the generated code for that resource type:
$ operator-sdk generate k8s
Add a new Controller to the project that will watch and reconcile the Memcached resource:
$ operator-sdk add controller --api-version=cache.example.com/v1alpha1 --kind=Memcached
This will scaffold a new Controller implementation under pkg/controller/memcached/...
.
For this example replace the generated Controller file pkg/controller/memcached/memcached_controller.go
with the example memcached_controller.go
implementation.
The example Controller executes the following reconciliation logic for each Memcached
CR:
- Create a memcached Deployment if it doesn't exist
- Ensure that the Deployment size is the same as specified by the
Memcached
CR spec - Update the
Memcached
CR status using the status writer with the names of the memcached pods
The next two subsections explain how the Controller watches resources and how the reconcile loop is triggered. Skip to the Build section to see how to build and run the operator.
Inspect the Controller implementation at pkg/controller/memcached/memcached_controller.go
to see how the Controller watches resources.
The first watch is for the Memcached type as the primary resource. For each Add/Update/Delete event the reconcile loop will be sent a reconcile Request
(a namespace/name key) for that Memcached object:
err := c.Watch(
&source.Kind{Type: &cachev1alpha1.Memcached{}}, &handler.EnqueueRequestForObject{})
The next watch is for Deployments but the event handler will map each event to a reconcile Request
for the owner of the Deployment. Which in this case is the Memcached object for which the Deployment was created. This allows the controller to watch Deployments as a secondary resource.
err := c.Watch(&source.Kind{Type: &appsv1.Deployment{}}, &handler.EnqueueRequestForOwner{
IsController: true,
OwnerType: &cachev1alpha1.Memcached{},
})
// TODO: Doc on eventhandler, arbitrary mapping between watched and reconciled resource.
// TODO: Doc on configuring a Controller: number of workers, predicates, watching channels,
Every Controller has a Reconciler object with a Reconcile()
method that implements the reconcile loop. The reconcile loop is passed the Request
argument which is a Namespace/Name key used to lookup the primary resource object, Memcached, from the cache:
func (r *ReconcileMemcached) Reconcile(request reconcile.Request) (reconcile.Result, error) {
// Lookup the Memcached instance for this reconcile request
memcached := &cachev1alpha1.Memcached{}
err := r.client.Get(context.TODO(), request.NamespacedName, memcached)
...
}
Based on the return values, Result
and error, the Request
may be requeued and the reconcile loop may be triggered again:
// Reconcile successful - don't requeue
return reconcile.Result{}, nil
// Reconcile failed due to error - requeue
return reconcile.Result{}, err
// Requeue for any reason other than error
return reconcile.Result{Requeue: true}, nil
You can set the Result.RequeueAfter
to requeue the Request
after a grace period as well:
import "time"
// Reconcile for any reason than error after 5 seconds
return reconcile.Result{RequeueAfter: time.Second*5}, nil
Note: Returning Result
with RequeueAfter
set is how you can periodically reconcile a CR.
For a guide on Reconcilers, Clients, and interacting with resource Events, see the Client API doc.
Before running the operator, the CRD must be registered with the Kubernetes apiserver:
$ kubectl create -f deploy/crds/cache_v1alpha1_memcached_crd.yaml
Once this is done, there are two ways to run the operator:
- As a Deployment inside a Kubernetes cluster
- As Go program outside a cluster
Build the memcached-operator image and push it to a registry:
$ operator-sdk build quay.io/example/memcached-operator:v0.0.1
$ sed -i 's|REPLACE_IMAGE|quay.io/example/memcached-operator:v0.0.1|g' deploy/operator.yaml
$ docker push quay.io/example/memcached-operator:v0.0.1
If you created your operator using --cluster-scoped=true
, update the service account namespace in the generated ClusterRoleBinding
to match where you are deploying your operator.
$ export OPERATOR_NAMESPACE=$(kubectl config view --minify -o jsonpath='{.contexts[0].context.namespace}')
$ sed -i "s|REPLACE_NAMESPACE|$OPERATOR_NAMESPACE|g" deploy/role_binding.yaml
Note If you are performing these steps on OSX, use the following commands instead:
$ sed -i "" 's|REPLACE_IMAGE|quay.io/example/memcached-operator:v0.0.1|g' deploy/operator.yaml
$ sed -i "" "s|REPLACE_NAMESPACE|$OPERATOR_NAMESPACE|g" deploy/role_binding.yaml
The Deployment manifest is generated at deploy/operator.yaml
. Be sure to update the deployment image as shown above since the default is just a placeholder.
Setup RBAC and deploy the memcached-operator:
$ kubectl create -f deploy/service_account.yaml
$ kubectl create -f deploy/role.yaml
$ kubectl create -f deploy/role_binding.yaml
$ kubectl create -f deploy/operator.yaml
Verify that the memcached-operator is up and running:
$ kubectl get deployment
NAME DESIRED CURRENT UP-TO-DATE AVAILABLE AGE
memcached-operator 1 1 1 1 1m
This method is preferred during development cycle to deploy and test faster.
Set the name of the operator in an environment variable:
export OPERATOR_NAME=memcached-operator
Run the operator locally with the default kubernetes config file present at $HOME/.kube/config
:
$ operator-sdk up local --namespace=default
2018/09/30 23:10:11 Go Version: go1.10.2
2018/09/30 23:10:11 Go OS/Arch: darwin/amd64
2018/09/30 23:10:11 operator-sdk Version: 0.0.6+git
2018/09/30 23:10:12 Registering Components.
2018/09/30 23:10:12 Starting the Cmd.
You can use a specific kubeconfig via the flag --kubeconfig=<path/to/kubeconfig>
.
Create the example Memcached
CR that was generated at deploy/crds/cache_v1alpha1_memcached_cr.yaml
:
$ cat deploy/crds/cache_v1alpha1_memcached_cr.yaml
apiVersion: "cache.example.com/v1alpha1"
kind: "Memcached"
metadata:
name: "example-memcached"
spec:
size: 3
$ kubectl apply -f deploy/crds/cache_v1alpha1_memcached_cr.yaml
Ensure that the memcached-operator creates the deployment for the CR:
$ kubectl get deployment
NAME DESIRED CURRENT UP-TO-DATE AVAILABLE AGE
memcached-operator 1 1 1 1 2m
example-memcached 3 3 3 3 1m
Check the pods and CR status to confirm the status is updated with the memcached pod names:
$ kubectl get pods
NAME READY STATUS RESTARTS AGE
example-memcached-6fd7c98d8-7dqdr 1/1 Running 0 1m
example-memcached-6fd7c98d8-g5k7v 1/1 Running 0 1m
example-memcached-6fd7c98d8-m7vn7 1/1 Running 0 1m
memcached-operator-7cc7cfdf86-vvjqk 1/1 Running 0 2m
$ kubectl get memcached/example-memcached -o yaml
apiVersion: cache.example.com/v1alpha1
kind: Memcached
metadata:
clusterName: ""
creationTimestamp: 2018-03-31T22:51:08Z
generation: 0
name: example-memcached
namespace: default
resourceVersion: "245453"
selfLink: /apis/cache.example.com/v1alpha1/namespaces/default/memcacheds/example-memcached
uid: 0026cc97-3536-11e8-bd83-0800274106a1
spec:
size: 3
status:
nodes:
- example-memcached-6fd7c98d8-7dqdr
- example-memcached-6fd7c98d8-g5k7v
- example-memcached-6fd7c98d8-m7vn7
Change the spec.size
field in the memcached CR from 3 to 4 and apply the change:
$ cat deploy/crds/cache_v1alpha1_memcached_cr.yaml
apiVersion: "cache.example.com/v1alpha1"
kind: "Memcached"
metadata:
name: "example-memcached"
spec:
size: 4
$ kubectl apply -f deploy/crds/cache_v1alpha1_memcached_cr.yaml
Confirm that the operator changes the deployment size:
$ kubectl get deployment
NAME DESIRED CURRENT UP-TO-DATE AVAILABLE AGE
example-memcached 4 4 4 4 5m
Clean up the resources:
$ kubectl delete -f deploy/crds/cache_v1alpha1_memcached_cr.yaml
$ kubectl delete -f deploy/operator.yaml
$ kubectl delete -f deploy/role_binding.yaml
$ kubectl delete -f deploy/role.yaml
$ kubectl delete -f deploy/service_account.yaml
The operator's Manager supports the Core Kubernetes resource types as found in the client-go scheme package and will also register the schemes of all custom resource types defined in your project under pkg/apis
.
import (
"github.com/example-inc/memcached-operator/pkg/apis"
...
)
// Setup Scheme for all resources
if err := apis.AddToScheme(mgr.GetScheme()); err != nil {
log.Error(err, "")
os.Exit(1)
}
To add a 3rd party resource to an operator, you must add it to the Manager's scheme. By creating an AddToScheme
method or reusing one you can easily add a resource to your scheme. An example shows that you define a function and then use the runtime package to create a SchemeBuilder
.
Call the AddToScheme()
function for your 3rd party resource and pass it the Manager's scheme via mgr.GetScheme()
.
Example:
import (
....
routev1 "github.com/openshift/api/route/v1"
)
func main() {
....
if err := routev1.AddToScheme(mgr.GetScheme()); err != nil {
log.Error(err, "")
os.Exit(1)
}
....
}
After adding new import paths to your operator project, run dep ensure
in the root of your project directory to fulfill these dependencies.