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Chapter 2. Scaling up storage capacity

Depending on the type of your deployment, you can choose one of the following procedures to scale up storage capacity.

If you want to scale using a storage class other than the one provisioned during deployment, you must also define an additional storage class before you scale. See Creating a storage class for details.

Note

OpenShift Container Storage does not support heterogeneous OSD sizes.

2.1. Creating a Storage Class

You can define a new storage class to dynamically provision storage from an existing provider.

Prerequisites

  • Administrator access to OpenShift web console.

Procedure

  1. Log in to OpenShift Web Console.
  2. Click StorageStorage Classes.
  3. Click Create Storage Class.
  4. Enter the storage class Name and Description.
  5. Select the required Reclaim Policy and Provisioner.
  6. Click Create to create the Storage Class.

Verification steps

  • Click StorageStorage Classes and verify that you can see the new storage class.

2.2. Scaling up storage by adding capacity to your OpenShift Container Storage nodes

Use this procedure to add storage capacity and performance to your configured Red Hat OpenShift Container Storage worker nodes on the following infrastructures:

  • AWS
  • VMware vSphere
  • Red Hat Virtualization
  • Microsoft Azure

Prerequisites

  • A running OpenShift Container Storage Platform.
  • Administrative privileges on the OpenShift Web Console.
  • To scale using a storage class other than the one provisioned during deployment, first define an additional storage class. See Creating a storage class for details.

Procedure

  1. Log in to the OpenShift Web Console.
  2. Click on Operators → Installed Operators.
  3. Click OpenShift Container Storage Operator.
  4. Click Storage Cluster tab.
  5. The visible list should have only one item. Click (⋮) on the far right to extend the options menu.
  6. Select Add Capacity from the options menu.
  7. Select the Storage Class.

    Set the storage class to gp2 on AWS, thin on VMware, or ovirt-csi-sc on Red Hat Virtualization, or managed_premium on Microsoft Azure if you are using the default storage class generated during deployment. If you have created other storage classes, select whichever is appropriate.

    Important

    Using storage classes other than the default for your provider is a Technology Preview feature.

    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, see Technology Preview Features Support Scope.

    The Raw Capacity field shows the size set during storage class creation. The total amount of storage consumed is three times this amount, because OpenShift Container Storage uses a replica count of 3.

  8. Click Add and wait for the cluster state to change to Ready.

Verification steps

  • Navigate to OverviewPersistent Storage tab, then check the Raw Capacity breakdown card.

    Note that the capacity increases based on your selections.

    Note

    The raw capacity does not take replication into account and shows the full capacity.

  • Verify that the new OSDs and their corresponding new PVCs are created.

    • To view the state of the newly created OSDs:

      1. Click WorkloadsPods from the OpenShift Web Console.
      2. Select openshift-storage from the Project drop-down list.
    • To view the state of the PVCs:

      1. Click StoragePersistent Volume Claims from the OpenShift Web Console.
      2. Select openshift-storage from the Project drop-down list.
  • (Optional) If cluster-wide encryption is enabled on the cluster, verify that the new OSD devices are encrypted.

    1. Identify the node(s) where the new OSD pod(s) are running.

      $ oc get -o=custom-columns=NODE:.spec.nodeName pod/<OSD pod name>

      For example:

      oc get -o=custom-columns=NODE:.spec.nodeName pod/rook-ceph-osd-0-544db49d7f-qrgqm
    2. For each of the nodes identified in previous step, do the following:

      1. Create a debug pod and open a chroot environment for the selected host(s).

        $ oc debug node/<node name>
        $ chroot /host
      2. Run “lsblk” and check for the “crypt” keyword beside the ocs-deviceset name(s)

        $ lsblk
Important

Cluster reduction is not currently supported, regardless of whether reduction would be done by removing nodes or OSDs.

2.3. Scaling up storage by adding capacity to your OpenShift Container Storage nodes using local storage devices

Use this procedure to add storage capacity (additional storage devices) to your configured local storage based OpenShift Container Storage worker nodes on the following infrastructures:

  • Bare metal
  • VMware
  • Red Hat Virtualization
Important

Scaling up storage on Amazon EC2 I3 is a Technology Preview feature. 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.

Note

For Amazon EC2 I3 infrastructure, adding nodes is the only option for adding capacity, as deployment is done using both the available NVMe devices.

Prerequisites

Procedure

To add capacity, you can either use a storage class that you provisioned during the deployment or any other storage class that matches the filter.

  1. On the OpenShift web console, click on OperatorsInstalled Operators.
  2. Click OpenShift Container Storage Operator.
  3. Click Storage Cluster tab.
  4. The visible list should have only one item. Click (⋮) on the far right to extend the options menu.
  5. Select Add Capacity from the options menu.
  6. Select the Storage Class for which you added disks or the new storage class depending on your requirement. Available Capacity displayed is based on the local disks available in storage class.
  7. Click Add.

    You might need to wait a couple of minutes for the storage cluster to reach Ready state.

Verification steps

  • Navigate to OverviewPersistent Storage tab, then check the Raw Capacity breakdown card.

    Note that the capacity increases based on your selections.

    Note

    The raw capacity does not take replication into account and shows the full capacity.

  • Verify that the new OSDs and their corresponding new PVCs are created.

    • To view the state of the newly created OSDs:

      1. Click WorkloadsPods from the OpenShift Web Console.
      2. Select openshift-storage from the Project drop-down list.
    • To view the state of the PVCs:

      1. Click StoragePersistent Volume Claims from the OpenShift Web Console.
      2. Select openshift-storage from the Project drop-down list.
  • (Optional) If cluster-wide encryption is enabled on the cluster, verify that the new OSD devices are encrypted.

    1. Identify the node(s) where the new OSD pod(s) are running.

      $ oc get -o=custom-columns=NODE:.spec.nodeName pod/<OSD pod name>

      For example:

      oc get -o=custom-columns=NODE:.spec.nodeName pod/rook-ceph-osd-0-544db49d7f-qrgqm
    2. For each of the nodes identified in previous step, do the following:

      1. Create a debug pod and open a chroot environment for the selected host(s).

        $ oc debug node/<node name>
        $ chroot /host
      2. Run “lsblk” and check for the “crypt” keyword beside the ocs-deviceset name(s)

        $ lsblk
Important

OpenShift Container Storage does not support cluster reduction either by reducing OSDs or reducing nodes.

2.4. Scaling up storage by adding capacity to your OpenShift Container Storage nodes on IBM Z or LinuxONE infrastructure

Use this procedure to add storage capacity and performance to your configured Red Hat OpenShift Container Storage worker nodes.

Prerequisites

  • A running OpenShift Container Storage Platform.
  • Administrative privileges on the OpenShift Web Console.
  • To scale using a storage class other than the one provisioned during deployment, first define an additional storage class. See Creating a storage class for details.

Procedure

  1. Add additional hardware resources with zFCP disks

    1. List all the disks with the following command.

      $ lszdev

      Example output:

      TYPE         ID                                              ON   PERS  NAMES
      zfcp-host    0.0.8204                                        yes  yes
      zfcp-lun     0.0.8204:0x102107630b1b5060:0x4001402900000000  yes  no    sda sg0
      zfcp-lun     0.0.8204:0x500407630c0b50a4:0x3002b03000000000  yes  yes   sdb sg1
      qeth         0.0.bdd0:0.0.bdd1:0.0.bdd2                      yes  no    encbdd0
      generic-ccw  0.0.0009                                        yes  no

      A SCSI disk is represented as a zfcp-lun with the structure <device-id>:<wwpn>:<lun-id> in the ID section. The first disk is used for the operating system. The device id for the new disk can be the same.

    2. Append a new SCSI disk with the following command.

      $ chzdev -e 0.0.8204:0x400506630b1b50a4:0x3001301a00000000
      Note

      The device ID for the new disk must be the same as the disk to be replaced. The new disk is identified with its WWPN and LUN ID.

    3. List all the FCP devices to verify the new disk is configured.

      $ lszdev zfcp-lun
      TYPE         ID                                              ON   PERS  NAMES
      zfcp-lun     0.0.8204:0x102107630b1b5060:0x4001402900000000 yes  no    sda sg0
      zfcp-lun     0.0.8204:0x500507630b1b50a4:0x4001302a00000000  yes  yes   sdb sg1
      zfcp-lun     0.0.8204:0x400506630b1b50a4:0x3001301a00000000  yes  yes   sdc sg2
  2. Navigate to the OpenShift Web Console.
  3. Click Operators on the left navigation bar.
  4. Select Installed Operators.
  5. In the window, click OpenShift Container Storage Operator:
  6. In the top navigation bar, scroll right and click Storage Cluster tab.
  7. Click (⋮) next to the visible list to extend the options menu.
  8. Select Add Capacity from the options menu.

    The Raw Capacity field shows the size set during storage class creation. The total amount of storage consumed is three times this amount, because OpenShift Container Storage uses a replica count of 3.

  9. Click Add and wait for the cluster state to change to Ready.

Verification steps

  1. Navigate to OverviewPersistent Storage tab, then check the Capacity breakdown card.

    Note that the capacity increases based on your selections.

    Note

    The raw capacity does not take replication into account and shows the full capacity.

Important

Cluster reduction is not currently supported, regardless of whether reduction would be done by removing nodes or OSDs.

2.5. Scaling up storage by adding capacity to your OpenShift Container Storage nodes on IBM Power Systems infrastructure using local storage devices

Use this procedure to add storage capacity (additional storage devices) to your configured local storage based OpenShift Container Storage worker nodes on IBM Power Systems infrastructures.

Prerequisites

  • You must be logged into OpenShift Container Platform (RHOCP) cluster.
  • You must have installed local storage operator. Use the following procedures, see

  • You must have three OpenShift Container Platform worker nodes with the same storage type and size attached to each node (for example, 0.5TB SSD) as the original OpenShift Container Storage StorageCluster was created with.

Procedure

  1. To add storage capacity to OpenShift Container Platform nodes with OpenShift Container Storage installed, you need to

    1. Add a new disk that is, minimum of one device per worker node in your Openshift Container Platform (RHOCP) cluster.
    2. Check if the new disk is added to the node by running lsblk inside node.

      $ oc debug node/worker-0
      $lsblk

      Example output:

      Creating debug namespace/openshift-debug-node-ggrqr ...
      Starting pod/worker-2-debug ...
      To use host binaries, run `chroot /host`
      Pod IP: 192.168.88.23
      If you don't see a command prompt, try pressing enter.
      sh-4.4# chroot /host
      sh-4.4# lsblk
      NAME                         MAJ:MIN RM  SIZE RO TYPE MOUNTPOINT
      loop0                          7:0    0  256G  0 loop
      vda                          252:0    0   40G  0 disk
      |-vda1                       252:1    0    4M  0 part
      |-vda2                       252:2    0  384M  0 part /boot
      `-vda4                       252:4    0 39.6G  0 part
        `-coreos-luks-root-nocrypt 253:0    0 39.6G  0 dm   /sysroot
      vdb                          252:16   0  512B  1 disk
      vdc                          252:32   0  256G  0 disk
      vdd                          252:48   0  256G  0 disk
      sh-4.4#
      sh-4.4#
      Removing debug pod ...
      Removing debug namespace/openshift-debug-node-ggrqr ...
    3. Newly added disk will automatically gets discovered by LocalVolumeSet.
  2. Display the newly created PVs with storageclass name used in localVolumeSet CR.

    $ oc get pv | grep localblock | grep Available

    Example output:

    local-pv-290020c2   256Gi   RWO     Delete  Available   localblock      2m35s
    local-pv-7702952c   256Gi   RWO     Delete  Available   localblock      2m27s
    local-pv-a7a567d    256Gi   RWO     Delete  Available   localblock      2m22s
    ...

    There are three more available PVs of same size which will be used for new OSDs.

  3. Navigate to the OpenShift Web Console.
  4. Click on Operators on the left navigation bar.
  5. Select Installed Operators.
  6. In the window, click OpenShift Container Storage Operator:
  7. In the top navigation bar, scroll right and click Storage Cluster tab.
  8. The visible list should have only one item. Click (⋮) on the far right to extend the options menu.
  9. Select Add Capacity from the options menu.

    From this dialog box, set the Storage Class name to the name used in the localVolumeset CR. Available Capacity displayed is based on the local disks available in storage class.

  10. Once you are done with your setting, click Add. You might need to wait a couple of minutes for the storage cluster to reach Ready state.
  11. Verify that the new OSDs and their corresponding new PVCs are created.

    $ oc get -n openshift-storage pods -l app=rook-ceph-osd

    Example output:

    NAME                               READY   STATUS    RESTARTS   AGE
    rook-ceph-osd-0-6f8655ff7b-gj226   1/1     Running   0          1h
    rook-ceph-osd-1-6c66d77f65-cfgfq   1/1     Running   0          1h
    rook-ceph-osd-2-69f6b4c597-mtsdv   1/1     Running   0          1h
    rook-ceph-osd-3-c784bdbd4-w4cmj    1/1     Running   0          5m
    rook-ceph-osd-4-6d99845f5b-k7f8n   1/1     Running   0          5m
    rook-ceph-osd-5-fdd9897c9-r9mgb    1/1     Running   0          5m

    In the above example, osd-3, osd-4, and osd-5 are the newly added pods to the OpenShift Container Storage cluster.

    $ oc get pvc -n openshift-storage |grep localblock

    Example output:

    ocs-deviceset-localblock-0-data-0-sfsgf   Bound    local-pv-8137c873      256Gi     RWO    localblock  1h
    ocs-deviceset-localblock-0-data-1-qhs9m   Bound    local-pv-290020c2      256Gi     RWO    localblock  10m
    ocs-deviceset-localblock-1-data-0-499r2   Bound    local-pv-ec7f2b80      256Gi     RWO    localblock  1h
    ocs-deviceset-localblock-1-data-1-p9rth   Bound    local-pv-a7a567d       256Gi     RWO    localblock  10m
    ocs-deviceset-localblock-2-data-0-8pzjr   Bound    local-pv-1e31f771      256Gi     RWO    localblock  1h
    ocs-deviceset-localblock-2-data-1-7zwwn   Bound    local-pv-7702952c      256Gi     RWO    localblock  10m

    In the above example, we see three new PVCs are created.

Verification steps

  1. Navigate to OverviewPersistent Storage tab, then check the Capacity breakdown card.

    Note that the capacity increases based on your selections.

    Note

    The raw capacity does not take replication into account and shows the full capacity.

Important

OpenShift Container Storage does not support cluster reduction either by reducing OSDs or reducing nodes.