zookeeper-operator

Zookeeper operator

Project status: alpha

Overview

The Zookeeper operator manages Zookeeper clusters deployed to Kubernetes and automates tasks related to operating a Zookeeper cluster.

• Create and destroy
• Resize
• Recover a member
• Rolling upgrade

Requirements

• Kubernetes 1.7+
• Zookeeper 3.5.3-beta+

Install Zookeeper operator

Create a deployment for Zookeeper operator:

$ kubectl create -f example/deployment.yaml

Zookeeper operator will automatically create a Kubernetes Custom Resource Definition (CRD):

$ kubectl get customresourcedefinitions
NAME                                              AGE
zookeeperclusters.zookeeper.database.apache.com   1m

Uninstall Zookeeper operator

Note that the Zookeeper clusters managed by Zookeeper operator will NOT be deleted even if the operator is uninstalled.

This is an intentional design to prevent accidental operator failure from killing all the Zookeeper clusters.

To delete all clusters, delete all cluster CR objects before uninstalling the operator.

Clean up Zookeeper operator:

kubectl delete -f example/deployment.yaml

Create and destroy a Zookeeper cluster

$ kubectl create -f example/example-zookeeper-cluster.yaml

A 3 member Zookeeper cluster will be created.

$ kubectl get pods
NAME                            READY     STATUS    RESTARTS   AGE
example-zookeeper-cluster-1       1/1       Running   0          1m
example-zookeeper-cluster-2       1/1       Running   0          1m
example-zookeeper-cluster-3       1/1       Running   0          1m

Destroy Zookeeper cluster:

$ kubectl delete -f example/example-zookeeper-cluster.yaml

Resize a Zookeeper cluster

Create a Zookeeper cluster:

$ kubectl apply -f example/example-zookeeper-cluster.yaml

In example/example-zookeeper-cluster.yaml the initial cluster size is 3. Modify the file and change size from 3 to 5.

$ cat example/example-zookeeper-cluster.yaml
apiVersion: "zookeeper.database.apache.com/v1alpha1"
kind: "ZookeeperCluster"
metadata:
  name: "example-zookeeper-cluster"
spec:
  size: 5
  version: "3.5.3-beta"

Apply the size change to the cluster CR:

$ kubectl apply -f example/example-zookeeper-cluster.yaml

The Zookeeper cluster will scale to 5 members (5 pods):

$ kubectl get pods
NAME                            READY     STATUS    RESTARTS   AGE
example-zookeeper-cluster-1       1/1       Running   0          1m
example-zookeeper-cluster-2       1/1       Running   0          1m
example-zookeeper-cluster-3       1/1       Running   0          1m
example-zookeeper-cluster-4       1/1       Running   0          1m
example-zookeeper-cluster-5       1/1       Running   0          1m

Similarly we can decrease the size of cluster from 5 back to 3 by changing the size field again and reapplying the change.

$ cat example/example-zookeeper-cluster.yaml
apiVersion: "zookeeper.database.apache.com/v1alpha1"
kind: "ZookeeperCluster"
metadata:
  name: "example-zookeeper-cluster"
spec:
  size: 3
  version: "3.5.3-beta"

$ kubectl apply -f example/example-zookeeper-cluster.yaml

We should see that Zookeeper cluster will eventually reduce to 3 pods:

$ kubectl get pods
NAME                            READY     STATUS    RESTARTS   AGE
example-zookeeper-cluster-2       1/1       Running   0          1m
example-zookeeper-cluster-3       1/1       Running   0          1m
example-zookeeper-cluster-5       1/1       Running   0          1m

Member recovery

If the minority of Zookeeper members crash, the Zookeeper operator will automatically recover the failure. Let's walk through in the following steps.

Create a Zookeeper cluster:

$ kubectl create -f example/example-zookeeper-cluster.yaml

Wait until all three members are up. Simulate a member failure by deleting a pod:

$ kubectl delete pod example-zookeeper-cluster-1 --now

The Zookeeper operator will recover the failure by creating a new pod example-zookeeper-cluster-4:

$ kubectl get pods
NAME                            READY     STATUS    RESTARTS   AGE
example-zookeeper-cluster-2       1/1       Running   0          1m
example-zookeeper-cluster-3       1/1       Running   0          1m
example-zookeeper-cluster-4       1/1       Running   0          1m

Destroy Zookeeper cluster:

$ kubectl delete -f example/example-zookeeper-cluster.yaml

Zookeeper operator recovery

If the Zookeeper operator restarts, it can recover its previous state. Let's walk through in the following steps.

$ kubectl create -f example/example-zookeeper-cluster.yaml

Wait until all three members are up. Then

$ kubectl delete -f example/deployment.yaml
deployment "zookeeper-operator" deleted

$ kubectl delete pod example-zookeeper-cluster-1 --now
pod "example-zookeeper-cluster-1" deleted

Then restart the Zookeeper operator. It should recover itself and the Zookeeper clusters it manages.

$ kubectl create -f example/deployment.yaml
deployment "zookeeper-operator" created

$ kubectl get pods
NAME                            READY     STATUS    RESTARTS   AGE
example-zookeeper-cluster-2       1/1       Running   0          1m
example-zookeeper-cluster-3       1/1       Running   0          1m
example-zookeeper-cluster-4       1/1       Running   0          1m

Limitations

• The Zookeeper operator only manages the Zookeeper cluster created in the same namespace. Users need to create multiple operators in different namespaces to manage Zookeeper clusters in different namespaces.
• Persistent volumes not currently supported.
• If quorum is lost in the cluster reconfiguration breaks.
• Cluster downsizing is naive, can kill the quorum leader causing re-election.
• Cluster upgrade is naive, may prematurely upgrade the quorum leader causing re-election