Configuring a heterogeneous cluster

A heterogeneous cluster is a cluster that supports worker machines with different architectures. You can deploy a heterogeneous cluster by creating an Azure installer-provisioned cluster using the heterogeneous installer binary. For Azure installation, see Installing on Azure with customizations.

The following procedures explain how to generate an arm64 boot image and create an Azure machine set with the arm64 boot image. This will add arm64 worker nodes to your heterogeneous cluster and deploy the desired amount of ARM64 virtual machines (VM). This section also shows how to upgrade your existing cluster to a heterogeneous cluster. Heterogeneous clusters are only available on Azure installer-provisioned infrastructures with x86_64 control planes.

Creating an arm64 boot image using the Azure image gallery

To configure your heterogeneous cluster, you must create an arm64 boot image and add it to your Azure machine set. The following procedure describes how to manually generate an arm64 boot image.

Prerequisites

• You installed the Azure CLI (az).

• You created a single-architecture Azure installer-provisioned cluster with the heterogeneous installer binary.

Procedure

1. Log in to your Azure account:

   $ az login

2. Create a storage account and upload the arm64 virtual hard disk (VHD) to your storage account. The OKD installation program creates a resource group, however, the boot image can also be uploaded to a custom named resource group:

   $ az storage account create -n ${STORAGE_ACCOUNT_NAME} -g ${RESOURCE_GROUP} -l westus --sku Standard_LRS (1)

   1	The westus object is an example region.

3. Create a storage container using the storage account you generated:

   $ az storage container create -n ${CONTAINER_NAME} --account-name ${STORAGE_ACCOUNT_NAME}

4. You must use the OKD installation program JSON file to extract the URL and arch64 VHD name:

   1. Extract the URL field and set it to RHCOS_VHD_ORIGIN_URL as the file name by running the following command:

      $ RHCOS_VHD_ORIGIN_URL=$(./openshift-install coreos print-stream-json | jq -r '.architectures.aarch64."rhel-coreos-extensions"."azure-disk".url')

   2. Extract the aarch64 VHD name and set it to BLOB_NAME as the file name by running the following command:

      $ BLOB_NAME=rhcos-$(./openshift-install coreos print-stream-json | jq -r '.architectures.aarch64."rhel-coreos-extensions"."azure-disk".release')-azure.aarch64.vhd

5. Generate a shared access signature (SAS) token. Use this token to upload the FCOS VHD to your storage container with the following commands:

   $ end=`date -u -d "30 minutes" '+%Y-%m-%dT%H:%MZ'`

   $ sas=`az storage container generate-sas -n ${CONTAINER_NAME} --account-name ${STORAGE_ACCOUNT_NAME} --https-only --permissions dlrw --expiry $end -o tsv`

6. Copy the FCOS VHD into the storage container:

   $ az storage blob copy start --account-name ${STORAGE_ACCOUNT_NAME} --sas-token "$sas" \
    --source-uri "${RHCOS_VHD_ORIGIN_URL}" \
    --destination-blob "${BLOB_NAME}" --destination-container ${CONTAINER_NAME}

   You can check the status of the copying process with the following command:

   $ az storage blob show -c ${CONTAINER_NAME} -n ${BLOB_NAME} --account-name ${STORAGE_ACCOUNT_NAME} | jq .properties.copy

   Example output

   {
    "completionTime": null,
    "destinationSnapshot": null,
    "id": "1fd97630-03ca-489a-8c4e-cfe839c9627d",
    "incrementalCopy": null,
    "progress": "17179869696/17179869696",
    "source": "https://rhcos.blob.core.windows.net/imagebucket/rhcos-411.86.202207130959-0-azure.aarch64.vhd",
    "status": "success", (1)
    "statusDescription": null
   }

   1	If the status parameter displays the success object, the copying process is complete.

7. Create an image gallery using the following command:

   $ az sig create --resource-group ${RESOURCE_GROUP} --gallery-name ${GALLERY_NAME}

   Use the image gallery to create an image definition. In the following example command, rhcos-arm64 is the name of the image definition.

   $ az sig image-definition create --resource-group ${RESOURCE_GROUP} --gallery-name ${GALLERY_NAME} --gallery-image-definition rhcos-arm64 --publisher RedHat --offer arm --sku arm64 --os-type linux --architecture Arm64 --hyper-v-generation V2

8. To get the URL of the VHD and set it to RHCOS_VHD_URL as the file name, run the following command:

   $ RHCOS_VHD_URL=$(az storage blob url --account-name ${STORAGE_ACCOUNT_NAME} -c ${CONTAINER_NAME} -n "${BLOB_NAME}" -o tsv)

9. Use the RHCOS_VHD_URL file, your storage account, resource group, and image gallery to create an image version. In the following example, 1.0.0 is the image version.

   $ az sig image-version create --resource-group ${RESOURCE_GROUP} --gallery-name ${GALLERY_NAME} --gallery-image-definition rhcos-arm64 --gallery-image-version 1.0.0 --os-vhd-storage-account ${STORAGE_ACCOUNT_NAME} --os-vhd-uri ${RHCOS_VHD_URL}

10. Your arm64 boot image is now generated. You can access the ID of your image with the following command:

    $ az sig image-version show -r $GALLERY_NAME -g $RESOURCE_GROUP -i rhcos-arm64 -e 1.0.0

    The following example image ID is used in the recourseID parameter of the machine set:

    Example resourceID

    /resourceGroups/${RESOURCE_GROUP}/providers/Microsoft.Compute/galleries/${GALLERY_NAME}/images/rhcos-arm64/versions/1.0.0

Adding a machine set to your cluster using the arm64 boot image

To add arm64 worker nodes to your heterogeneous cluster, you must create an Azure machine set that uses the arm64 boot image. To create your own custom machine set on Azure, see “Creating a machine set on Azure”.

Prerequisites

• You installed the OpenShift CLI (oc).

Procedure

• Create a machine set and modify the resourceID and vmSize parameters with the following command. This machine set will control the arm64 worker nodes in your cluster:

  $ oc create -f arm64-machine-set-0.yaml

  Sample YAML machine set with arm64 boot image

  apiVersion: machine.openshift.io/v1beta1
  kind: MachineSet
  metadata:
    labels:
      machine.openshift.io/cluster-api-cluster: <infrastructure_id>
      machine.openshift.io/cluster-api-machine-role: worker
      machine.openshift.io/cluster-api-machine-type: worker
    name: <infrastructure_id>-arm64-machine-set-0
    namespace: openshift-machine-api
  spec:
    replicas: 2
    selector:
      matchLabels:
        machine.openshift.io/cluster-api-cluster: <infrastructure_id>
        machine.openshift.io/cluster-api-machineset: <infrastructure_id>-arm64-machine-set-0
    template:
      metadata:
        labels:
          machine.openshift.io/cluster-api-cluster: <infrastructure_id>
          machine.openshift.io/cluster-api-machine-role: worker
          machine.openshift.io/cluster-api-machine-type: worker
          machine.openshift.io/cluster-api-machineset: <infrastructure_id>-arm64-machine-set-0
      spec:
        lifecycleHooks: {}
        metadata: {}
        providerSpec:
          value:
            acceleratedNetworking: true
            apiVersion: machine.openshift.io/v1beta1
            credentialsSecret:
              name: azure-cloud-credentials
              namespace: openshift-machine-api
            image:
              offer: ""
              publisher: ""
              resourceID: /resourceGroups/${RESOURCE_GROUP}/providers/Microsoft.Compute/galleries/${GALLERY_NAME}/images/rhcos-arm64/versions/1.0.0 (1)
              sku: ""
              version: ""
            kind: AzureMachineProviderSpec
            location: <region>
            managedIdentity: <infrastructure_id>-identity
            networkResourceGroup: <infrastructure_id>-rg
            osDisk:
              diskSettings: {}
              diskSizeGB: 128
              managedDisk:
                storageAccountType: Premium_LRS
              osType: Linux
            publicIP: false
            publicLoadBalancer: <infrastructure_id>
            resourceGroup: <infrastructure_id>-rg
            subnet: <infrastructure_id>-worker-subnet
            userDataSecret:
              name: worker-user-data
            vmSize: Standard_D4ps_v5 (2)
            vnet: <infrastructure_id>-vnet
            zone: "<zone>"

  1	Set the resourceID parameter to the arm64 boot image.
  2	Set the vmSize parameter to the instance type used in your installation. Some example instance types are Standard_D4ps_v5 or D8ps.

Verification

1. Verify that the new ARM64 machines are running by entering the following command:

   $ oc get machineset -n openshift-machine-api

   Example output

   NAME                                                DESIRED  CURRENT  READY  AVAILABLE  AGE
   <infrastructure_id>-arm64-machine-set-0                   2        2      2          2  10m

2. You can check that the nodes are ready and scheduable with the following command:

   $ oc get nodes

Additional resources

• Creating a machine set on Azure

Upgrading your heterogeneous cluster

You must perform an explicit upgrade command to upgrade your existing cluster to a heterogeneous cluster.

Prerequisites

• You installed the OpenShift CLI (oc).

Procedure

• To manually upgrade your cluster, use the following command:

$ oc adm upgrade --allow-explicit-upgrade --to-image <image-pullspec> (1)