$ oc login
You must configure an object storage to use as a replication repository. The Cluster Application Migration tool copies data from the source cluster to the replication repository, and then from the replication repository to the target cluster.
The CAM tool supports the file system and snapshot data copy methods for migrating data from the source cluster to the target cluster. You can select a method that is suited for your environment and is supported by your storage provider.
The following storage providers are supported:
Generic S3 object storage, for example, Minio or Ceph S3
The source and target clusters must have network access to the replication repository during migration.
In a restricted environment, you can create an internally hosted replication repository. If you use a proxy server, you must ensure that your replication repository is whitelisted.
Configuring Multi-Cloud Object Gateway as a replication repository for migration is a Technology Preview feature only. Technology Preview features are not supported with Red Hat production service level agreements (SLAs) and might not be functionally complete. Red Hat does not recommend using them in production. These features provide early access to upcoming product features, enabling customers to test functionality and provide feedback during the development process. For more information about the support scope of Red Hat Technology Preview features, see https://access.redhat.com/support/offerings/techpreview/. |
You can install the OpenShift Container Storage Operator and configure a Multi-Cloud Object Gateway (MCG) storage bucket as a replication repository.
You can install the OpenShift Container Storage Operator from OperatorHub.
In the OpenShift Container Platform web console, click Operators → OperatorHub.
Use Filter by keyword (in this case, OCS) to find the OpenShift Container Storage Operator.
Select the OpenShift Container Storage Operator and click Install.
Select an Update Channel, Installation Mode, and Approval Strategy.
Click Subscribe.
On the Installed Operators page, the OpenShift Container Storage Operator appears in the openshift-storage project with the status Succeeded.
You can create the Multi-Cloud Object Gateway (MCG) storage bucket’s Custom Resources (CRs).
Log in to the OpenShift Container Platform cluster:
$ oc login
Create the NooBaa
CR configuration file, noobaa.yml
, with the following content:
apiVersion: noobaa.io/v1alpha1
kind: NooBaa
metadata:
name: noobaa
namespace: openshift-storage
spec:
dbResources:
requests:
cpu: 0.5 (1)
memory: 1Gi
coreResources:
requests:
cpu: 0.5 (1)
memory: 1Gi
1 | For a very small cluster, you can change the cpu value to 0.1 . |
Create the NooBaa
object:
$ oc create -f noobaa.yml
Create the BackingStore
CR configuration file, bs.yml
, with the following content:
apiVersion: noobaa.io/v1alpha1
kind: BackingStore
metadata:
finalizers:
- noobaa.io/finalizer
labels:
app: noobaa
name: mcg-pv-pool-bs
namespace: openshift-storage
spec:
pvPool:
numVolumes: 3 (1)
resources:
requests:
storage: 50Gi (2)
storageClass: gp2 (3)
type: pv-pool
1 | Specify the number of volumes in the PV pool. |
2 | Specify the size of the volumes. |
3 | Specify the storage class. |
Create the BackingStore
object:
$ oc create -f bs.yml
Create the BucketClass
CR configuration file, bc.yml
, with the following content:
apiVersion: noobaa.io/v1alpha1
kind: BucketClass
metadata:
labels:
app: noobaa
name: mcg-pv-pool-bc
namespace: openshift-storage
spec:
placementPolicy:
tiers:
- backingStores:
- mcg-pv-pool-bs
placement: Spread
Create the BucketClass
object:
$ oc create -f bc.yml
Create the ObjectBucketClaim
CR configuration file, obc.yml
, with the following content:
apiVersion: objectbucket.io/v1alpha1
kind: ObjectBucketClaim
metadata:
name: migstorage
namespace: openshift-storage
spec:
bucketName: migstorage (1)
storageClassName: openshift-storage.noobaa.io
additionalConfig:
bucketclass: mcg-pv-pool-bc
1 | Record the bucket name for adding the replication repository to the CAM web console. |
Create the ObjectBucketClaim
object:
$ oc create -f obc.yml
Watch the resource creation process to verify that the ObjectBucketClaim
status is Bound
:
$ watch -n 30 'oc get -n openshift-storage objectbucketclaim migstorage -o yaml'
This process can take five to ten minutes.
Obtain and record the following values, which are required when you add the replication repository to the CAM web console:
S3 endpoint:
$ oc get route -n openshift-storage s3
S3 provider access key:
$ oc get secret -n openshift-storage migstorage -o go-template='{{ .data.AWS_ACCESS_KEY_ID }}' | base64 -d
S3 provider secret access key:
$ oc get secret -n openshift-storage migstorage -o go-template='{{ .data.AWS_secret_ACCESS_KEY }}' | base64 -d
You can configure an AWS S3 storage bucket as a replication repository.
The AWS S3 storage bucket must be accessible to the source and target clusters.
You must have the AWS CLI installed.
If you are using the snapshot copy method:
You must have access to EC2 Elastic Block Storage (EBS).
The source and target clusters must be in the same region.
The source and target clusters must have the same storage class.
The storage class must be compatible with snapshots.
Create an AWS S3 bucket:
$ aws s3api create-bucket \ --bucket <bucket_name> \ (1) --region <bucket_region> (2)
1 | Specify your S3 bucket name. |
2 | Specify your S3 bucket region, for example, us-east-1 . |
Create the IAM user velero
:
$ aws iam create-user --user-name velero
Create an EC2 EBS snapshot policy:
$ cat > velero-ec2-snapshot-policy.json <<EOF { "Version": "2012-10-17", "Statement": [ { "Effect": "Allow", "Action": [ "ec2:DescribeVolumes", "ec2:DescribeSnapshots", "ec2:CreateTags", "ec2:CreateVolume", "ec2:CreateSnapshot", "ec2:DeleteSnapshot" ], "Resource": "*" } ] } EOF
Create an AWS S3 access policy for one or for all S3 buckets:
$ cat > velero-s3-policy.json <<EOF { "Version": "2012-10-17", "Statement": [ { "Effect": "Allow", "Action": [ "s3:GetObject", "s3:DeleteObject", "s3:PutObject", "s3:AbortMultipartUpload", "s3:ListMultipartUploadParts" ], "Resource": [ "arn:aws:s3:::<bucket_name>/*" (1) ] }, { "Effect": "Allow", "Action": [ "s3:ListBucket", "s3:GetBucketLocation", "s3:ListBucketMultipartUploads" ], "Resource": [ "arn:aws:s3:::<bucket_name>" (1) ] } ] } EOF
1 | To grant access to a single S3 bucket, specify the bucket name. To grant access to all AWS S3 buckets, specify * instead of a bucket name: |
"Resource": [ "arn:aws:s3:::*"
Attach the EC2 EBS policy to velero
:
$ aws iam put-user-policy \ --user-name velero \ --policy-name velero-ebs \ --policy-document file://velero-ec2-snapshot-policy.json
Attach the AWS S3 policy to velero
:
$ aws iam put-user-policy \ --user-name velero \ --policy-name velero-s3 \ --policy-document file://velero-s3-policy.json
Create an access key for velero
:
$ aws iam create-access-key --user-name velero { "AccessKey": { "UserName": "velero", "Status": "Active", "CreateDate": "2017-07-31T22:24:41.576Z", "secretAccessKey": <AWS_secret_ACCESS_KEY>, (1) "AccessKeyId": <AWS_ACCESS_KEY_ID> (1) } }
1 | Record the AWS_secret_ACCESS_KEY and the AWS_ACCESS_KEY_ID for adding the AWS repository to the CAM web console. |
You can configure a Google Cloud Provider (GCP) storage bucket as a replication repository.
The GCP storage bucket must be accessible to the source and target clusters.
You must have gsutil
installed.
If you are using the snapshot copy method:
The source and target clusters must be in the same region.
The source and target clusters must have the same storage class.
The storage class must be compatible with snapshots.
Run gsutil init
to log in:
$ gsutil init Welcome! This command will take you through the configuration of gcloud. Your current configuration has been set to: [default] To continue, you must login. Would you like to login (Y/n)?
Set the BUCKET
variable:
$ BUCKET=<bucket_name> (1)
1 | Specify your bucket name. |
Create a storage bucket:
$ gsutil mb gs://$BUCKET/
Set the PROJECT_ID
variable to your active project:
$ PROJECT_ID=$(gcloud config get-value project)
Create a velero
service account:
$ gcloud iam service-accounts create velero \ --display-name "Velero Storage"
Set the SERVICE_ACCOUNT_EMAIL
variable to the service account’s email address:
$ SERVICE_ACCOUNT_EMAIL=$(gcloud iam service-accounts list \ --filter="displayName:Velero Storage" \ --format 'value(email)')
Grant permissions to the service account:
$ ROLE_PERMISSIONS=( compute.disks.get compute.disks.create compute.disks.createSnapshot compute.snapshots.get compute.snapshots.create compute.snapshots.useReadOnly compute.snapshots.delete compute.zones.get ) gcloud iam roles create velero.server \ --project $PROJECT_ID \ --title "Velero Server" \ --permissions "$(IFS=","; echo "${ROLE_PERMISSIONS[*]}")" gcloud projects add-iam-policy-binding $PROJECT_ID \ --member serviceAccount:$SERVICE_ACCOUNT_EMAIL \ --role projects/$PROJECT_ID/roles/velero.server gsutil iam ch serviceAccount:$SERVICE_ACCOUNT_EMAIL:objectAdmin gs://${BUCKET}
Save the service account’s keys to the credentials-velero
file in the current directory:
$ gcloud iam service-accounts keys create credentials-velero \ --iam-account $SERVICE_ACCOUNT_EMAIL
You can configure a Microsoft Azure Blob storage container as a replication repository.
You must have an Azure storage account.
You must have the Azure CLI installed.
The Azure Blob storage container must be accessible to the source and target clusters.
If you are using the snapshot copy method:
The source and target clusters must be in the same region.
The source and target clusters must have the same storage class.
The storage class must be compatible with snapshots.
Set the AZURE_RESOURCE_GROUP
variable:
$ AZURE_RESOURCE_GROUP=Velero_Backups
Create an Azure resource group:
$ az group create -n $AZURE_RESOURCE_GROUP --location <CentralUS> (1)
1 | Specify your location. |
Set the AZURE_STORAGE_ACCOUNT_ID
variable:
$ AZURE_STORAGE_ACCOUNT_ID=velerobackups
Create an Azure storage account:
$ az storage account create \ --name $AZURE_STORAGE_ACCOUNT_ID \ --resource-group $AZURE_RESOURCE_GROUP \ --sku Standard_GRS \ --encryption-services blob \ --https-only true \ --kind BlobStorage \ --access-tier Hot
Set the BLOB_CONTAINER
variable:
$ BLOB_CONTAINER=velero
Create an Azure Blob storage container:
$ az storage container create \ -n $BLOB_CONTAINER \ --public-access off \ --account-name $AZURE_STORAGE_ACCOUNT_ID
Create a service principal and credentials for velero
:
$ AZURE_SUBSCRIPTION_ID=`az account list --query '[?isDefault].id' -o tsv` $ AZURE_TENANT_ID=`az account list --query '[?isDefault].tenantId' -o tsv` $ AZURE_CLIENT_secret=`az ad sp create-for-rbac --name "velero" --role "Contributor" --query 'password' -o tsv` $ AZURE_CLIENT_ID=`az ad sp list --display-name "velero" --query '[0].appId' -o tsv`
Save the service principal’s credentials in the credentials-velero
file:
$ cat << EOF > ./credentials-velero AZURE_SUBSCRIPTION_ID=${AZURE_SUBSCRIPTION_ID} AZURE_TENANT_ID=${AZURE_TENANT_ID} AZURE_CLIENT_ID=${AZURE_CLIENT_ID} AZURE_CLIENT_secret=${AZURE_CLIENT_secret} AZURE_RESOURCE_GROUP=${AZURE_RESOURCE_GROUP} AZURE_CLOUD_NAME=AzurePublicCloud EOF