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You can use OpenShift API for Data Protection (OADP) with Red Hat OpenShift Service on AWS (ROSA) clusters to back up and restore application data.

ROSA is a fully-managed, turnkey application platform that allows you to deliver value to your customers by building and deploying applications.

ROSA provides seamless integration with a wide range of Amazon Web Services (AWS) compute, database, analytics, machine learning, networking, mobile, and other services to speed up the building and delivery of differentiating experiences to your customers.

You can subscribe to the service directly from your AWS account.

After you create your clusters, you can operate your clusters with the OpenShift Container Platform web console or through Red Hat OpenShift Cluster Manager. You can also use ROSA with OpenShift APIs and command-line interface (CLI) tools.

For additional information about ROSA installation, see Installing Red Hat OpenShift Service on AWS (ROSA) interactive walkthrough.

Before installing OpenShift API for Data Protection (OADP), you must set up role and policy credentials for OADP so that it can use the Amazon Web Services API.

This process is performed in the following two stages:

  1. Prepare AWS credentials

  2. Install the OADP Operator and give it an IAM role

Preparing AWS credentials for OADP

An Amazon Web Services account must be prepared and configured to accept an OpenShift API for Data Protection (OADP) installation.

Procedure
  1. Create the following environment variables by running the following commands:

    Change the cluster name to match your ROSA cluster, and ensure you are logged into the cluster as an administrator. Ensure that all fields are outputted correctly before continuing.

    $ export CLUSTER_NAME=my-cluster (1)
      export ROSA_CLUSTER_ID=$(rosa describe cluster -c ${CLUSTER_NAME} --output json | jq -r .id)
      export REGION=$(rosa describe cluster -c ${CLUSTER_NAME} --output json | jq -r .region.id)
      export OIDC_ENDPOINT=$(oc get authentication.config.openshift.io cluster -o jsonpath='{.spec.serviceAccountIssuer}' | sed 's|^https://||')
      export AWS_ACCOUNT_ID=$(aws sts get-caller-identity --query Account --output text)
      export CLUSTER_VERSION=$(rosa describe cluster -c ${CLUSTER_NAME} -o json | jq -r .version.raw_id | cut -f -2 -d '.')
      export ROLE_NAME="${CLUSTER_NAME}-openshift-oadp-aws-cloud-credentials"
      export SCRATCH="/tmp/${CLUSTER_NAME}/oadp"
      mkdir -p ${SCRATCH}
      echo "Cluster ID: ${ROSA_CLUSTER_ID}, Region: ${REGION}, OIDC Endpoint:
      ${OIDC_ENDPOINT}, AWS Account ID: ${AWS_ACCOUNT_ID}"
    1 Replace my-cluster with your ROSA cluster name.
  2. On the AWS account, create an IAM policy to allow access to AWS S3:

    1. Check to see if the policy exists by running the following command:

      $ POLICY_ARN=$(aws iam list-policies --query "Policies[?PolicyName=='RosaOadpVer1'].{ARN:Arn}" --output text) (1)
      1 Replace RosaOadp with your policy name.
    2. Enter the following command to create the policy JSON file and then create the policy in ROSA:

      If the policy ARN is not found, the command creates the policy. If the policy ARN already exists, the if statement intentionally skips the policy creation.

      $ if [[ -z "${POLICY_ARN}" ]]; then
        cat << EOF > ${SCRATCH}/policy.json (1)
        {
        "Version": "2012-10-17",
        "Statement": [
          {
            "Effect": "Allow",
            "Action": [
              "s3:CreateBucket",
              "s3:DeleteBucket",
              "s3:PutBucketTagging",
              "s3:GetBucketTagging",
              "s3:PutEncryptionConfiguration",
              "s3:GetEncryptionConfiguration",
              "s3:PutLifecycleConfiguration",
              "s3:GetLifecycleConfiguration",
              "s3:GetBucketLocation",
              "s3:ListBucket",
              "s3:GetObject",
              "s3:PutObject",
              "s3:DeleteObject",
              "s3:ListBucketMultipartUploads",
              "s3:AbortMultipartUploads",
              "s3:ListMultipartUploadParts",
              "s3:DescribeSnapshots",
              "ec2:DescribeVolumes",
              "ec2:DescribeVolumeAttribute",
              "ec2:DescribeVolumesModifications",
              "ec2:DescribeVolumeStatus",
              "ec2:CreateTags",
              "ec2:CreateVolume",
              "ec2:CreateSnapshot",
              "ec2:DeleteSnapshot"
            ],
            "Resource": "*"
          }
         ]}
      EOF
      
        POLICY_ARN=$(aws iam create-policy --policy-name "RosaOadpVer1" \
        --policy-document file:///${SCRATCH}/policy.json --query Policy.Arn \
        --tags Key=rosa_openshift_version,Value=${CLUSTER_VERSION} Key=rosa_role_prefix,Value=ManagedOpenShift Key=operator_namespace,Value=openshift-oadp Key=operator_name,Value=openshift-oadp \
        --output text)
        fi
      1 SCRATCH is a name for a temporary directory created for the environment variables.
    3. View the policy ARN by running the following command:

      $ echo ${POLICY_ARN}
  3. Create an IAM role trust policy for the cluster:

    1. Create the trust policy file by running the following command:

      $ cat <<EOF > ${SCRATCH}/trust-policy.json
        {
            "Version":2012-10-17",
            "Statement": [{
              "Effect": "Allow",
              "Principal": {
                "Federated": "arn:aws:iam::${AWS_ACCOUNT_ID}:oidc-provider/${OIDC_ENDPOINT}"
              },
              "Action": "sts:AssumeRoleWithWebIdentity",
              "Condition": {
                "StringEquals": {
                  "${OIDC_ENDPOINT}:sub": [
                    "system:serviceaccount:openshift-adp:openshift-adp-controller-manager",
                    "system:serviceaccount:openshift-adp:velero"]
                }
              }
            }]
        }
      EOF
    2. Create the role by running the following command:

      $ ROLE_ARN=$(aws iam create-role --role-name \
        "${ROLE_NAME}" \
        --assume-role-policy-document file://${SCRATCH}/trust-policy.json \
      --tags Key=rosa_cluster_id,Value=${ROSA_CLUSTER_ID} Key=rosa_openshift_version,Value=${CLUSTER_VERSION} Key=rosa_role_prefix,Value=ManagedOpenShift Key=operator_namespace,Value=openshift-adp Key=operator_name,Value=openshift-oadp \
         --query Role.Arn --output text)
    3. View the role ARN by running the following command:

      $ echo ${ROLE_ARN}
  4. Attach the IAM policy to the IAM role by running the following command:

    $ aws iam attach-role-policy --role-name "${ROLE_NAME}" \
      --policy-arn ${POLICY_ARN}

Installing the OADP Operator and providing the IAM role

AWS Security Token Service (AWS STS) is a global web service that provides short-term credentials for IAM or federated users. OpenShift Container Platform (ROSA) with STS is the recommended credential mode for ROSA clusters. This document describes how to install OpenShift API for Data Protection (OADP) on ROSA with AWS STS.

Restic is unsupported.

Kopia file system backup (FSB) is supported when backing up file systems that do not have Container Storage Interface (CSI) snapshotting support.

Example file systems include the following:

  • Amazon Elastic File System (EFS)

  • Network File System (NFS)

  • emptyDir volumes

  • Local volumes

For backing up volumes, OADP on ROSA with AWS STS supports only native snapshots and Container Storage Interface (CSI) snapshots.

In an Amazon ROSA cluster that uses STS authentication, restoring backed-up data in a different AWS region is not supported.

The Data Mover feature is not currently supported in ROSA clusters. You can use native AWS S3 tools for moving data.

Prerequisites
  • An OpenShift Container Platform ROSA cluster with the required access and tokens. For instructions, see the previous procedure Preparing AWS credentials for OADP. If you plan to use two different clusters for backing up and restoring, you must prepare AWS credentials, including ROLE_ARN, for each cluster.

Procedure
  1. Create an OpenShift Container Platform secret from your AWS token file by entering the following commands:

    1. Create the credentials file:

      $ cat <<EOF > ${SCRATCH}/credentials
        [default]
        role_arn = ${ROLE_ARN}
        web_identity_token_file = /var/run/secrets/openshift/serviceaccount/token
      EOF
    2. Create a namespace for OADP:

      $ oc create namespace openshift-adp
    3. Create the OpenShift Container Platform secret:

      $ oc -n openshift-adp create secret generic cloud-credentials \
        --from-file=${SCRATCH}/credentials

      In OpenShift Container Platform versions 4.15 and later, the OADP Operator supports a new standardized STS workflow through the Operator Lifecycle Manager (OLM) and Cloud Credentials Operator (CCO). In this workflow, you do not need to create the above secret, you only need to supply the role ARN during the installation of OLM-managed operators using the OpenShift Container Platform web console, for more information see Installing from OperatorHub using the web console.

      The preceding secret is created automatically by CCO.

  2. Install the OADP Operator:

    1. In the OpenShift Container Platform web console, browse to OperatorsOperatorHub.

    2. Search for the OADP Operator.

    3. In the role_ARN field, paste the role_arn that you created previously and click Install.

  3. Create AWS cloud storage using your AWS credentials by entering the following command:

    $ cat << EOF | oc create -f -
      apiVersion: oadp.openshift.io/v1alpha1
      kind: CloudStorage
      metadata:
        name: ${CLUSTER_NAME}-oadp
        namespace: openshift-adp
      spec:
        creationSecret:
          key: credentials
          name: cloud-credentials
        enableSharedConfig: true
        name: ${CLUSTER_NAME}-oadp
        provider: aws
        region: $REGION
    EOF
  4. Check your application’s storage default storage class by entering the following command:

    $ oc get pvc -n <namespace>
    Example output
    NAME     STATUS   VOLUME                                     CAPACITY   ACCESS MODES   STORAGECLASS   AGE
    applog   Bound    pvc-351791ae-b6ab-4e8b-88a4-30f73caf5ef8   1Gi        RWO            gp3-csi        4d19h
    mysql    Bound    pvc-16b8e009-a20a-4379-accc-bc81fedd0621   1Gi        RWO            gp3-csi        4d19h
  5. Get the storage class by running the following command:

    $ oc get storageclass
    Example output
    NAME                PROVISIONER             RECLAIMPOLICY   VOLUMEBINDINGMODE      ALLOWVOLUMEEXPANSION   AGE
    gp2                 kubernetes.io/aws-ebs   Delete          WaitForFirstConsumer   true                   4d21h
    gp2-csi             ebs.csi.aws.com         Delete          WaitForFirstConsumer   true                   4d21h
    gp3                 ebs.csi.aws.com         Delete          WaitForFirstConsumer   true                   4d21h
    gp3-csi (default)   ebs.csi.aws.com         Delete          WaitForFirstConsumer   true                   4d21h

    The following storage classes will work:

    • gp3-csi

    • gp2-csi

    • gp3

    • gp2

    If the application or applications that are being backed up are all using persistent volumes (PVs) with Container Storage Interface (CSI), it is advisable to include the CSI plugin in the OADP DPA configuration.

  6. Create the DataProtectionApplication resource to configure the connection to the storage where the backups and volume snapshots are stored:

    1. If you are using only CSI volumes, deploy a Data Protection Application by entering the following command:

      $ cat << EOF | oc create -f -
        apiVersion: oadp.openshift.io/v1alpha1
        kind: DataProtectionApplication
        metadata:
          name: ${CLUSTER_NAME}-dpa
          namespace: openshift-adp
        spec:
          backupImages: true (1)
          features:
            dataMover:
              enable: false
          backupLocations:
          - bucket:
              cloudStorageRef:
                name: ${CLUSTER_NAME}-oadp
              credential:
                key: credentials
                name: cloud-credentials
              prefix: velero
              default: true
              config:
                region: ${REGION}
          configuration:
            velero:
              defaultPlugins:
              - openshift
              - aws
              - csi
            restic:
              enable: false
      EOF
      1 ROSA supports internal image backup. Set this field to false if you do not want to use image backup.
  1. If you are using CSI or non-CSI volumes, deploy a Data Protection Application by entering the following command:

    $ cat << EOF | oc create -f -
      apiVersion: oadp.openshift.io/v1alpha1
      kind: DataProtectionApplication
      metadata:
        name: ${CLUSTER_NAME}-dpa
        namespace: openshift-adp
      spec:
        backupImages: true (1)
        features:
          dataMover:
             enable: false
        backupLocations:
        - bucket:
            cloudStorageRef:
              name: ${CLUSTER_NAME}-oadp
            credential:
              key: credentials
              name: cloud-credentials
            prefix: velero
            default: true
            config:
              region: ${REGION}
        configuration:
          velero:
            defaultPlugins:
            - openshift
            - aws
          nodeAgent: (2)
            enable: false
            uploaderType: restic
        snapshotLocations:
          - velero:
              config:
                credentialsFile: /tmp/credentials/openshift-adp/cloud-credentials-credentials (3)
                enableSharedConfig: "true" (4)
                profile: default (5)
                region: ${REGION} (6)
              provider: aws
    EOF
    1 ROSA supports internal image backup. Set this field to false if you do not want to use image backup.
    2 See the important note regarding the nodeAgent attribute.
    3 The credentialsFile field is the mounted location of the bucket credential on the pod.
    4 The enableSharedConfig field allows the snapshotLocations to share or reuse the credential defined for the bucket.
    5 Use the profile name set in the AWS credentials file.
    6 Specify region as your AWS region. This must be the same as the cluster region.

    You are now ready to back up and restore OpenShift Container Platform applications, as described in Backing up applications.

The enable parameter of restic is set to false in this configuration, because OADP does not support Restic in ROSA environments.

If you use OADP 1.2, replace this configuration:

nodeAgent:
  enable: false
  uploaderType: restic

with the following configuration:

restic:
  enable: false

If you want to use two different clusters for backing up and restoring, the two clusters must have the same AWS S3 storage names in both the cloud storage CR and the OADP DataProtectionApplication configuration.

Example: Backing up workload on OADP ROSA STS, with an optional cleanup

Performing a backup with OADP and ROSA STS

The following example hello-world application has no persistent volumes (PVs) attached. Perform a backup with OpenShift API for Data Protection (OADP) with Red Hat OpenShift Service on AWS (ROSA) STS.

Either Data Protection Application (DPA) configuration will work.

  1. Create a workload to back up by running the following commands:

    $ oc create namespace hello-world
    $ oc new-app -n hello-world --image=docker.io/openshift/hello-openshift
  2. Expose the route by running the following command:

    $ oc expose service/hello-openshift -n hello-world
  3. Check that the application is working by running the following command:

    $ curl `oc get route/hello-openshift -n hello-world -o jsonpath='{.spec.host}'`
    Example output
    Hello OpenShift!
  4. Back up the workload by running the following command:

    $ cat << EOF | oc create -f -
      apiVersion: velero.io/v1
      kind: Backup
      metadata:
        name: hello-world
        namespace: openshift-adp
      spec:
        includedNamespaces:
        - hello-world
        storageLocation: ${CLUSTER_NAME}-dpa-1
        ttl: 720h0m0s
    EOF
  5. Wait until the backup is completed and then run the following command:

    $ watch "oc -n openshift-adp get backup hello-world -o json | jq .status"
    Example output
    {
      "completionTimestamp": "2022-09-07T22:20:44Z",
      "expiration": "2022-10-07T22:20:22Z",
      "formatVersion": "1.1.0",
      "phase": "Completed",
      "progress": {
        "itemsBackedUp": 58,
        "totalItems": 58
      },
      "startTimestamp": "2022-09-07T22:20:22Z",
      "version": 1
    }
  6. Delete the demo workload by running the following command:

    $ oc delete ns hello-world
  7. Restore the workload from the backup by running the following command:

    $ cat << EOF | oc create -f -
      apiVersion: velero.io/v1
      kind: Restore
      metadata:
        name: hello-world
        namespace: openshift-adp
      spec:
        backupName: hello-world
    EOF
  8. Wait for the Restore to finish by running the following command:

    $ watch "oc -n openshift-adp get restore hello-world -o json | jq .status"
    Example output
    {
      "completionTimestamp": "2022-09-07T22:25:47Z",
      "phase": "Completed",
      "progress": {
        "itemsRestored": 38,
        "totalItems": 38
      },
      "startTimestamp": "2022-09-07T22:25:28Z",
      "warnings": 9
    }
  9. Check that the workload is restored by running the following command:

    $ oc -n hello-world get pods
    Example output
    NAME                              READY   STATUS    RESTARTS   AGE
    hello-openshift-9f885f7c6-kdjpj   1/1     Running   0          90s
  10. Check the JSONPath by running the following command:

    $ curl `oc get route/hello-openshift -n hello-world -o jsonpath='{.spec.host}'`
    Example output
    Hello OpenShift!

For troubleshooting tips, see the OADP team’s troubleshooting documentation.

Cleaning up a cluster after a backup with OADP and ROSA STS

If you need to uninstall the OpenShift API for Data Protection (OADP) Operator together with the backups and the S3 bucket from this example, follow these instructions.

Procedure
  1. Delete the workload by running the following command:

    $ oc delete ns hello-world
  2. Delete the Data Protection Application (DPA) by running the following command:

    $ oc -n openshift-adp delete dpa ${CLUSTER_NAME}-dpa
  3. Delete the cloud storage by running the following command:

    $ oc -n openshift-adp delete cloudstorage ${CLUSTER_NAME}-oadp

    If this command hangs, you might need to delete the finalizer by running the following command:

    $ oc -n openshift-adp patch cloudstorage ${CLUSTER_NAME}-oadp -p '{"metadata":{"finalizers":null}}' --type=merge
  4. If the Operator is no longer required, remove it by running the following command:

    $ oc -n openshift-adp delete subscription oadp-operator
  5. Remove the namespace from the Operator:

    $ oc delete ns openshift-adp
  6. If the backup and restore resources are no longer required, remove them from the cluster by running the following command:

    $ oc delete backups.velero.io hello-world
  7. To delete backup, restore and remote objects in AWS S3 run the following command:

    $ velero backup delete hello-world
  8. If you no longer need the Custom Resource Definitions (CRD), remove them from the cluster by running the following command:

    $ for CRD in `oc get crds | grep velero | awk '{print $1}'`; do oc delete crd $CRD; done
  9. Delete the AWS S3 bucket by running the following commands:

    $ aws s3 rm s3://${CLUSTER_NAME}-oadp --recursive
    $ aws s3api delete-bucket --bucket ${CLUSTER_NAME}-oadp
  10. Detach the policy from the role by running the following command:

    $ aws iam detach-role-policy --role-name "${ROLE_NAME}"  --policy-arn "${POLICY_ARN}"
  11. Delete the role by running the following command:

    $ aws iam delete-role --role-name "${ROLE_NAME}"