Before you can deploy universes to OpenShift using YugabyteDB Anywhere (YBA), you must create a provider configuration.

Prerequisites

To create a YugabyteDB universe using the deployed YBA, you start by creating the required role-based access control (RBAC) and adding the provider.

Create RBAC

Set the YBA_NAMESPACE environment variable to the project where your YBA is installed, as follows:

export YBA_NAMESPACE="yb-platform"

Note that the YBA_NAMESPACE variable is used in the commands throughout this document.

To create a service account in the yb-platform project, execute the following command:

export YBA_NAMESPACE="yb-platform"

oc apply \
  -n ${YBA_NAMESPACE} \
  -f https://raw.githubusercontent.com/yugabyte/charts/master/rbac/yugabyte-platform-universe-management-sa.yaml

Expect the following output:

serviceaccount/yugabyte-platform-universe-management created

The next step is to grant access to this service account using Roles and RoleBindings, thus allowing it to manage the YugabyteDB universe's resources for you. If you are creating clusters across multiple namespaces, you need to create Roles and RoleBindings in each namespace where you intend to create and deploy the universe. Alternatively, you can create ClusterRoles and ClusterRoleBindings which will allow you to create universes in all the namespaces. For more information, see Platform Global and Platform Namespaced sections from the RBAC resources documentation.

To create the required RBAC objects, execute the following command:

export YBA_NAMESPACE="yb-platform"

curl -s https://raw.githubusercontent.com/yugabyte/charts/master/rbac/platform-namespaced.yaml \
 | sed "s/namespace: <SA_NAMESPACE>/namespace: ${YBA_NAMESPACE}/g" \
 | oc apply -n ${YBA_NAMESPACE} -f -

Expect the following output:

role.rbac.authorization.k8s.io/yugabyte-helm-operations created
role.rbac.authorization.k8s.io/yugabyte-management created
rolebinding.rbac.authorization.k8s.io/yugabyte-helm-operations created
rolebinding.rbac.authorization.k8s.io/yugabyte-management created

Create kubeconfig file

The next step is to create a kubeconfig file for this service account. The kubeconfig file is used by YBA to create universes in the OpenShift Container Platform (OCP) cluster.

You download a helper script for generating a kubeconfig file by executing the following command:

wget https://raw.githubusercontent.com/YugaByte/charts/master/stable/yugabyte/generate_kubeconfig.py

To generate the kubeconfig file, execute the following:

export YBA_NAMESPACE="yb-platform"

python generate_kubeconfig.py \
 --service_account yugabyte-platform-universe-management \
 --namespace ${YBA_NAMESPACE}

Expect the following output:

Generated the kubeconfig file: /tmp/yugabyte-platform-universe-management.conf

The kubeconfig file needs to be generated for each OpenShift cluster if you are doing a multi-cluster setup.

Configure OpenShift

Navigate to Integrations > Infrastructure > Red Hat OpenShift to see a list of all currently configured Kubernetes providers.

This lists all currently configured OpenShift providers.

To create an OpenShift provider, click Create Kubernetes Config. For more information, refer to Create a provider.

Provider settings

Set the Kubernetes Provider Type to Red Hat OpenShift.

For information on the Kubernetes Provider settings, refer to Provider settings.

Create the configuration

Click Create Provider Configuration to save the configuration. If your configuration is successful, you should see the newly-added provider under Red Hat OpenShift Configs.

Create a universe using the provider

You can create a universe using the provider as follows:

  • Use YBA UI to navigate to Universes, and then click Create Universe.

  • Complete the Create Universe page shown in the following illustration by entering the following information:

    • In the Name field, enter universe-1.
    • In the Provider field, enter ocp-test.
    • In the Regions field, enter US East.
    • In the Instance Type field, enter xsmall (2 cores, 4GB RAM).

    Create Universe

  • Click Create.

The following illustration shows the universe creation progress:

Universes

If you click universe-1 and then navigate to Tasks, you should see a page similar to the one shown in the following illustration:

Task Progress

Upon successful creation of the universe, the Overview tab of universe-1 should look similar to the following:

Universe 1

Troubleshoot the universe creation

If the universe creation remains in Pending state for more than 2-3 minutes, open the OCP web console, navigate to Workloads > Pods and check if any of the pods are in pending state, as shown in the following illustration:

Pods

Alternatively, you can execute the following command to check status of the pods:

export YBA_NAMESPACE="yb-platform"

oc get pods -n ${YBA_NAMESPACE} -l chart=yugabyte

Expect an output similar to the following:

# output
NAME          READY STATUS  RESTARTS AGE
yb-master-0   2/2   Running  0     5m58s
yb-master-1   2/2   Running  0     5m58s
yb-master-2   0/2   Pending  0     5m58s
yb-tserver-0  2/2   Running  0     5m58s
yb-tserver-1  2/2   Running  0     5m58s
yb-tserver-2  2/2   Running  0     5m58s

If any of the pods are in pending state, perform the following:

  • Log in with an admin account and navigate to Compute > Machine Sets.
  • Open the Machine Set corresponding to your zone label (us-east4-a).
  • Click Desired Count and increase the count by 1 or 2, as shown in the following illustration.
  • Click Save.

Edit Machine Count

Alternatively, you can scale the Machine Sets by executing the following command as admin user:

oc scale machineset ocp-dev4-l5ffp-worker-a --replicas=2 -n openshift-machine-api

Expect the following output:

# output
machineset.machine.openshift.io/ocp-dev4-l5ffp-worker-a scaled

As soon as the new machine is added, the pending pods become ready.