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Chapter 4. Configuring persistent storage


4.1. Persistent storage using AWS Elastic Block Store

OpenShift Dedicated clusters are prebuilt with four storage classes that use Amazon Elastic Block Store (Amazon EBS) volumes. These storage classes are ready to use and some familiarity with Kubernetes and AWS is assumed.

Following are the four prebuilt storage classes:

NameProvisioner

gp2

kubernetes.io/aws-ebs

gp2-csi

ebs.csi.aws.com

gp3 (default)

kubernetes.io/aws-ebs

gp3-csi

ebs.csi.aws.com

The gp3 storage class is set as default; however, you can select any of the storage classes as the default storage class.

The Kubernetes persistent volume framework allows administrators to provision a cluster with persistent storage and gives users a way to request those resources without having any knowledge of the underlying infrastructure. You can dynamically provision Amazon EBS volumes. Persistent volumes are not bound to a single project or namespace; they can be shared across the OpenShift Dedicated cluster. Persistent volume claims are specific to a project or namespace and can be requested by users. You can define a KMS key to encrypt container-persistent volumes on AWS. By default, newly created clusters using OpenShift Dedicated version 4.10 and later use gp3 storage and the AWS EBS CSI driver.

Important

High-availability of storage in the infrastructure is left to the underlying storage provider.

4.1.1. Creating the EBS storage class

Storage classes are used to differentiate and delineate storage levels and usages. By defining a storage class, users can obtain dynamically provisioned persistent volumes.

4.1.2. Creating the persistent volume claim

Prerequisites

Storage must exist in the underlying infrastructure before it can be mounted as a volume in OpenShift Dedicated.

Procedure

  1. In the OpenShift Dedicated console, click Storage Persistent Volume Claims.
  2. In the persistent volume claims overview, click Create Persistent Volume Claim.
  3. Define the desired options on the page that appears.

    1. Select the previously-created storage class from the drop-down menu.
    2. Enter a unique name for the storage claim.
    3. Select the access mode. This selection determines the read and write access for the storage claim.
    4. Define the size of the storage claim.
  4. Click Create to create the persistent volume claim and generate a persistent volume.

4.1.3. Volume format

Before OpenShift Dedicated mounts the volume and passes it to a container, it checks that the volume contains a file system as specified by the fsType parameter in the persistent volume definition. If the device is not formatted with the file system, all data from the device is erased and the device is automatically formatted with the given file system.

This verification enables you to use unformatted AWS volumes as persistent volumes, because OpenShift Dedicated formats them before the first use.

4.1.4. Maximum number of EBS volumes on a node

By default, OpenShift Dedicated supports a maximum of 39 EBS volumes attached to one node. This limit is consistent with the AWS volume limits. The volume limit depends on the instance type.

Important

As a cluster administrator, you must use either in-tree or Container Storage Interface (CSI) volumes and their respective storage classes, but never both volume types at the same time. The maximum attached EBS volume number is counted separately for in-tree and CSI volumes, which means you could have up to 39 EBS volumes of each type.

For information about accessing additional storage options, such as volume snapshots, that are not possible with in-tree volume plug-ins, see AWS Elastic Block Store CSI Driver Operator.

4.1.5. Encrypting container persistent volumes on AWS with a KMS key

Defining a KMS key to encrypt container-persistent volumes on AWS is useful when you have explicit compliance and security guidelines when deploying to AWS.

Prerequisites

  • Underlying infrastructure must contain storage.
  • You must create a customer KMS key on AWS.

Procedure

  1. Create a storage class:

    $ cat << EOF | oc create -f -
    apiVersion: storage.k8s.io/v1
    kind: StorageClass
    metadata:
      name: <storage-class-name> 1
    parameters:
      fsType: ext4 2
      encrypted: "true"
      kmsKeyId: keyvalue 3
    provisioner: ebs.csi.aws.com
    reclaimPolicy: Delete
    volumeBindingMode: WaitForFirstConsumer
    EOF
    1
    Specifies the name of the storage class.
    2
    File system that is created on provisioned volumes.
    3
    Specifies the full Amazon Resource Name (ARN) of the key to use when encrypting the container-persistent volume. If you do not provide any key, but the encrypted field is set to true, then the default KMS key is used. See Finding the key ID and key ARN on AWS in the AWS documentation.
  2. Create a persistent volume claim (PVC) with the storage class specifying the KMS key:

    $ cat << EOF | oc create -f -
    apiVersion: v1
    kind: PersistentVolumeClaim
    metadata:
      name: mypvc
    spec:
      accessModes:
        - ReadWriteOnce
      volumeMode: Filesystem
      storageClassName: <storage-class-name>
      resources:
        requests:
          storage: 1Gi
    EOF
  3. Create workload containers to consume the PVC:

    $ cat << EOF | oc create -f -
    kind: Pod
    metadata:
      name: mypod
    spec:
      containers:
        - name: httpd
          image: quay.io/centos7/httpd-24-centos7
          ports:
            - containerPort: 80
          volumeMounts:
            - mountPath: /mnt/storage
              name: data
      volumes:
        - name: data
          persistentVolumeClaim:
            claimName: mypvc
    EOF

4.1.6. Additional resources

4.2. Persistent storage using GCE Persistent Disk

OpenShift Dedicated supports GCE Persistent Disk volumes (gcePD). You can provision your OpenShift Dedicated cluster with persistent storage using GCE. Some familiarity with Kubernetes and GCE is assumed.

The Kubernetes persistent volume framework allows administrators to provision a cluster with persistent storage and gives users a way to request those resources without having any knowledge of the underlying infrastructure.

GCE Persistent Disk volumes can be provisioned dynamically.

Persistent volumes are not bound to a single project or namespace; they can be shared across the OpenShift Dedicated cluster. Persistent volume claims are specific to a project or namespace and can be requested by users.

Important

High availability of storage in the infrastructure is left to the underlying storage provider.

Additional resources

4.2.1. Creating the GCE storage class

Storage classes are used to differentiate and delineate storage levels and usages. By defining a storage class, users can obtain dynamically provisioned persistent volumes.

4.2.2. Creating the persistent volume claim

Prerequisites

Storage must exist in the underlying infrastructure before it can be mounted as a volume in OpenShift Dedicated.

Procedure

  1. In the OpenShift Dedicated console, click Storage Persistent Volume Claims.
  2. In the persistent volume claims overview, click Create Persistent Volume Claim.
  3. Define the desired options on the page that appears.

    1. Select the previously-created storage class from the drop-down menu.
    2. Enter a unique name for the storage claim.
    3. Select the access mode. This selection determines the read and write access for the storage claim.
    4. Define the size of the storage claim.
  4. Click Create to create the persistent volume claim and generate a persistent volume.

4.2.3. Volume format

Before OpenShift Dedicated mounts the volume and passes it to a container, it checks that the volume contains a file system as specified by the fsType parameter in the persistent volume definition. If the device is not formatted with the file system, all data from the device is erased and the device is automatically formatted with the given file system.

This verification enables you to use unformatted GCE volumes as persistent volumes, because OpenShift Dedicated formats them before the first use.

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