Helm Based Operator Quickstart

This guide walks through an example of building a simple nginx-operator powered by Helm using tools and libraries provided by the Operator SDK.

Create a new project

Use the CLI to create a new Helm-based nginx-operator project:

  1. operator-sdk new nginx-operator --api-version=example.com/v1alpha1 --kind=Nginx --type=helm
  2. cd nginx-operator

This creates the nginx-operator project specifically for watching the Nginx resource with APIVersion example.com/v1alpha1 and Kind Nginx.

For Helm-based projects, operator-sdk new also generates the RBAC rules in deploy/role.yaml based on the resources that would be deployed by the chart’s default manifest. Be sure to double check that the rules generated in deploy/role.yaml meet the operator’s permission requirements.

To learn more about the project directory structure, see the project layout doc.

Use an existing chart

Instead of creating your project with a boilerplate Helm chart, you can also use --helm-chart, --helm-chart-repo, and --helm-chart-version to use an existing chart, either from your local filesystem or a remote chart repository.

If --helm-chart is specified, --api-version and --kind become optional. If left unset, the SDK will default --api-version to charts.helm.k8s.io/v1alpha1 and will deduce --kind from the specified chart.

If --helm-chart is a local chart archive or directory, it will be validated and unpacked or copied into the project.

Otherwise, the SDK will attempt to fetch the specified helm chart from a remote repository.

If a custom repository URL is not specified by --helm-chart-repo, the following chart reference formats are supported:

  • <repoName>/<chartName>: Fetch the helm chart named chartName from the helm chart repository named repoName, as specified in the $HELM_HOME/repositories/repositories.yaml file.

  • <url>: Fetch the helm chart archive at the specified URL.

If a custom repository URL is specified by --helm-chart-repo, the only supported format for --helm-chart is:

  • <chartName>: Fetch the helm chart named chartName in the helm chart repository specified by the --helm-chart-repo URL.

If --helm-chart-version is not set, the SDK will fetch the latest available version of the helm chart. Otherwise, it will fetch the specified version. The option --helm-chart-version is not used when --helm-chart itself refers to a specific version, for example when it is a local path or a URL.

Note: For more details and examples run operator-sdk new --help.

Operator scope

Read the operator scope documentation on how to run your operator as namespace-scoped vs cluster-scoped.

Customize the operator logic

For this example the nginx-operator will execute the following reconciliation logic for each Nginx Custom Resource (CR):

  • Create a nginx Deployment if it doesn’t exist
  • Create a nginx Service if it doesn’t exist
  • Create a nginx Ingress if it is enabled and doesn’t exist
  • Ensure that the Deployment, Service, and optional Ingress match the desired configuration (e.g. replica count, image, service type, etc) as specified by the Nginx CR

Watch the Nginx CR

By default, the nginx-operator watches Nginx resource events as shown in watches.yaml and executes Helm releases using the specified chart:

  1. ---
  2. - version: v1alpha1
  3. group: example.com
  4. kind: Nginx
  5. chart: helm-charts/nginx

Reviewing the Nginx Helm Chart

When a Helm operator project is created, the SDK creates an example Helm chart that contains a set of templates for a simple Nginx release.

For this example, we have templates for deployment, service, and ingress resources, along with a NOTES.txt template, which Helm chart developers use to convey helpful information about a release.

If you aren’t already familiar with Helm Charts, take a moment to review the Helm Chart developer documentation.

Understanding the Nginx CR spec

Helm uses a concept called values to provide customizations to a Helm chart’s defaults, which are defined in the Helm chart’s values.yaml file.

Overriding these defaults is as simple as setting the desired values in the CR spec. Let’s use the number of replicas as an example.

First, inspecting helm-charts/nginx/values.yaml, we see that the chart has a value called replicaCount and it is set to 1 by default. If we want to have 2 nginx instances in our deployment, we would need to make sure our CR spec contained replicaCount: 2.

Update deploy/crds/example.com_v1alpha1_nginx_cr.yaml to look like the following:

  1. apiVersion: example.com/v1alpha1
  2. kind: Nginx
  3. metadata:
  4. name: example-nginx
  5. spec:
  6. replicaCount: 2

Similarly, we see that the default service port is set to 80, but we would like to use 8080, so we’ll again update deploy/crds/example.com_v1alpha1_nginx_cr.yaml by adding the service port override:

  1. apiVersion: example.com/v1alpha1
  2. kind: Nginx
  3. metadata:
  4. name: example-nginx
  5. spec:
  6. replicaCount: 2
  7. service:
  8. port: 8080

As you may have noticed, the Helm operator simply applies the entire spec as if it was the contents of a values file, just like helm install -f ./overrides.yaml works.

Build and run the operator

Before running the operator, Kubernetes needs to know about the new custom resource definition the operator will be watching.

Deploy the CRD:

  1. kubectl create -f deploy/crds/example.com_nginxes_crd.yaml

Once this is done, there are two ways to run the operator:

  • As a pod inside a Kubernetes cluster
  • As a go program outside the cluster using operator-sdk

1. Run as a pod inside a Kubernetes cluster

Running as a pod inside a Kubernetes cluster is preferred for production use.

Build the nginx-operator image and push it to a registry:

  1. operator-sdk build quay.io/example/nginx-operator:v0.0.1
  2. docker push quay.io/example/nginx-operator:v0.0.1

Kubernetes deployment manifests are generated in deploy/operator.yaml. The deployment image in this file needs to be modified from the placeholder REPLACE_IMAGE to the previous built image. To do this run:

  1. sed -i 's|REPLACE_IMAGE|quay.io/example/nginx-operator:v0.0.1|g' deploy/operator.yaml

Note If you are performing these steps on OSX, use the following sed command instead:

  1. sed -i "" 's|REPLACE_IMAGE|quay.io/example/nginx-operator:v0.0.1|g' deploy/operator.yaml

Deploy the nginx-operator:

  1. kubectl create -f deploy/service_account.yaml
  2. kubectl create -f deploy/role.yaml
  3. kubectl create -f deploy/role_binding.yaml
  4. kubectl create -f deploy/operator.yaml

Verify that the nginx-operator is up and running:

  1. $ kubectl get deployment
  2. NAME DESIRED CURRENT UP-TO-DATE AVAILABLE AGE
  3. nginx-operator 1 1 1 1 1m

2. Run outside the cluster

This method is preferred during the development cycle to speed up deployment and testing.

Run the operator locally with the default Kubernetes config file present at $HOME/.kube/config:

  1. $ operator-sdk run local
  2. INFO[0000] Go Version: go1.10.3
  3. INFO[0000] Go OS/Arch: linux/amd64
  4. INFO[0000] operator-sdk Version: v0.1.1+git

Run the operator locally with a provided Kubernetes config file:

  1. $ operator-sdk run local --kubeconfig=<path_to_config>
  2. INFO[0000] Go Version: go1.10.3
  3. INFO[0000] Go OS/Arch: linux/amd64
  4. INFO[0000] operator-sdk Version: v0.2.0+git

3. Deploy your Operator with the Operator Lifecycle Manager (OLM)

OLM will manage creation of most if not all resources required to run your operator, using a bit of setup from other operator-sdk commands. Check out the OLM integration user guide for more information.

Deploy the Nginx custom resource

Apply the nginx CR that we modified earlier:

  1. kubectl apply -f deploy/crds/example.com_v1alpha1_nginx_cr.yaml

Ensure that the nginx-operator creates the deployment for the CR:

  1. $ kubectl get deployment
  2. NAME DESIRED CURRENT UP-TO-DATE AVAILABLE AGE
  3. example-nginx-b9phnoz9spckcrua7ihrbkrt1 2 2 2 2 1m

Check the pods to confirm 2 replicas were created:

  1. $ kubectl get pods
  2. NAME READY STATUS RESTARTS AGE
  3. example-nginx-b9phnoz9spckcrua7ihrbkrt1-f8f9c875d-fjcr9 1/1 Running 0 1m
  4. example-nginx-b9phnoz9spckcrua7ihrbkrt1-f8f9c875d-ljbzl 1/1 Running 0 1m

Check that the service port is set to 8080:

  1. $ kubectl get service
  2. NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE
  3. example-nginx-b9phnoz9spckcrua7ihrbkrt1 ClusterIP 10.96.26.3 <none> 8080/TCP 1m

Update the replicaCount and remove the port

Change the spec.replicaCount field from 2 to 3, remove the spec.service field, and apply the change:

  1. $ cat deploy/crds/example.com_v1alpha1_nginx_cr.yaml
  2. apiVersion: "example.com/v1alpha1"
  3. kind: "Nginx"
  4. metadata:
  5. name: "example-nginx"
  6. spec:
  7. replicaCount: 3
  8. $ kubectl apply -f deploy/crds/example.com_v1alpha1_nginx_cr.yaml

Confirm that the operator changes the deployment size:

  1. $ kubectl get deployment
  2. NAME DESIRED CURRENT UP-TO-DATE AVAILABLE AGE
  3. example-nginx-b9phnoz9spckcrua7ihrbkrt1 3 3 3 3 1m

Check that the service port is set to the default (80):

  1. $ kubectl get service
  2. NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE
  3. example-nginx-b9phnoz9spckcrua7ihrbkrt1 ClusterIP 10.96.26.3 <none> 80/TCP 1m

Cleanup

Clean up the resources:

  1. kubectl delete -f deploy/crds/example.com_v1alpha1_nginx_cr.yaml
  2. kubectl delete -f deploy/operator.yaml
  3. kubectl delete -f deploy/role_binding.yaml
  4. kubectl delete -f deploy/role.yaml
  5. kubectl delete -f deploy/service_account.yaml
  6. kubectl delete -f deploy/crds/example.com_nginxes_crd.yaml

NOTE Additional CR/CRD’s can be added to the project by running, for example, the command :operator-sdk add api --api-version=cache.example.com/v1alpha1 --kind=AppService For more information, refer cli doc.

Last modified July 8, 2020: docs: OLM integration docs reference new commands (new and legacy CLI) (#3320) (ec03835e)