5. Failback an application


Once your unhealthy Kubernetes cluster is back up and running, the Portworx nodes in that cluster will not immediately rejoin the cluster. They will stay in Out of Quorum state until you explicitly Activate this Cluster Domain.

After this domain is marked as Active you can failback the applications if you want.

For this section, we will refer to,

  • Source Cluster as the Kubernetes cluster which is back online and where your applications need to failback to. (In this example: cluster_domain: us-east-1a)
  • Destination Cluster as the Kubernetes cluster where the applications will be failed over. (In this example: cluster_domain: us-east-1b)

Reactivate inactive Cluster Domain

In order to initiate a failback, we need to first mark the source cluster as active.

Using storkctl

Run the following storkctl command to activate the source cluster

storkctl:

storkctl activate clusterdomain us-east-1a

You need to run the above command from the Kubernetes cluster which is Active. To validate that the command has succeeded you can do the following checks:

storkctl get clusterdomainsstatus
NAME            ACTIVE                    INACTIVE   CREATED
px-dr-cluster   [us-east-1a us-east-1b]   []         09 Apr 19 17:13 PDT

Using kubectl

If you wish to use kubectl instead of storkctl, you can create a ClusterDomainUpdate object as explained below. If you have already used storkctl you can skip this section.

Start by creating a new file named clusterdomainupdate.yaml. In this file, let’s specify an object called a ClusterDomainUpdate and designate the cluster domain of the source cluster as active:

 apiVersion: stork.libopenstorage.org/v1alpha1
kind: ClusterDomainUpdate
metadata:
 name: activate-us-east-1a
 namespace: kube-system
spec:
  # Name of the metro domain that needs to be activated/deactivated
  clusterdomain: us-east-1a
  # Set to true to activate cluster domain
  # Set to false to deactivate cluster domain
  active: true

In order to invoke from command-line, you will need to run the following:

kubectl create -f clusterdomainupdate.yaml
clusterdomainupdate "activate-us-east-1a" created

You can see that the cluster domain us-east-1a is now Active

Stop the application on the destination cluster

On the destination cluster, where the applications were failed over in Step 3, you need to stop them so that we can failback to the source cluster.

You can stop the applications from running by changing the replica count of your deployments and statefulsets to 0.

kubectl scale --replicas 0 deployment/mysql -n migrationnamespace

Start back the application on the source cluster

After you have stopped the applications on the destination cluster, let’s jump to the source cluster. Here, we would want to start back the applications by editing the replica count.

kubectl scale --replicas 1 deployment/mysql -n migrationnamespace

Lastly, let’s check that our application is running:

kubectl get pods -n migrationnamespace
NAME                     READY     STATUS    RESTARTS   AGE
mysql-5857989b5d-48mwf   1/1       Running   0          3m
kubectl scale --replicas 0 deployment/mysql -n migrationnamespace

If we had suspended the migration schedule in source cluster during step 4, we now have to unsuspend it.

Apply the below spec. Notice the suspend: false.

apiVersion: stork.libopenstorage.org/v1alpha1
kind: MigrationSchedule
metadata:
  name: mysqlmigrationschedule
  namespace: migrationnamespace
spec:
  template:
    spec:
      # This should be the name of the cluster pair created above
      clusterPair: remotecluster
      # If set to false this will migrate only the Portworx volumes. No PVCs, apps, etc will be migrated
      includeResources: true
      # If set to false, the deployments and stateful set replicas will be set to 0 on the destination.
      # If set to true, the deployments and stateful sets will start running once the migration is done
      # There will be an annotation with "stork.openstorage.org/migrationReplicas" on the destinationto store the replica count from the source.
      startApplications: false
       # If set to false, the volumes will not be migrated
      includeVolumes: false
      # List of namespaces to migrate
      namespaces:
      - migrationnamespace
  schedulePolicyName: testpolicy
  suspend: false

Using storkctl, verify the schedule is unsuspended.

storkctl get migrationschedule -n migrationnamespace
NAME                        POLICYNAME   CLUSTERPAIR      SUSPEND   LAST-SUCCESS-TIME     LAST-SUCCESS-DURATION
mysqlmigrationschedule      testpolcy    remotecluster    false      17 Apr 19 17:16 PDT   2m0s


Last edited: Wednesday, Jul 10, 2019