Updated on 2024-10-14 GMT+08:00

Using an EVS Disk Through a Dynamic PV

CCE allows you to specify a StorageClass to automatically create an EVS disk and the corresponding PV. This function is applicable when no underlying storage volume is available.

Prerequisites

Notes and Constraints

  • EVS disks cannot be attached across AZs and cannot be used by multiple workloads, multiple pods of the same workload, or multiple tasks. Data sharing of a shared disk is not supported between nodes in a CCE cluster. If an EVS disk is attached to multiple nodes, I/O conflicts and data cache conflicts may occur. Therefore, select only one pod when creating a Deployment that uses EVS disks.
  • For clusters earlier than v1.19.10, if an HPA policy is used to scale out a workload with EVS volumes mounted, the existing pods cannot be read or written when a new pod is scheduled to another node.

    For clusters of v1.19.10 and later, if an HPA policy is used to scale out a workload with EVS volumes mounted, a new pod cannot be started because EVS disks cannot be attached.

  • Resource tags can be added to dynamically created EVS disks. After the EVS disks are created, the resource tags cannot be updated on CCE. To update them, go to the EVS console. If you use an existing EVS disk to create a PV, you also need to add or update resource tags on the EVS console.

(Console) Automatically Creating an EVS Disk

  1. Log in to the CCE console and click the cluster name to access the cluster console.
  2. Dynamically create a PVC and PV.

    1. Choose Storage in the navigation pane. In the right pane, click the PVCs tab. Click Create PVC in the upper right corner. In the dialog box displayed, configure PVC parameters.

      Parameter

      Description

      PVC Type

      In this example, select EVS.

      PVC Name

      Enter the PVC name, which must be unique in a namespace.

      Creation Method

      • If no underlying storage is available, select Dynamically provision to create a PVC, PV, and underlying storage on the console in cascading mode.
      • If underlying storage is available, create a PV or use an existing PV to statically create a PVC. For details, see Using an Existing EVS Disk Through a Static PV.

      In this example, select Dynamically provision.

      Storage Classes

      The storage class for EVS disks is csi-disk.

      (Optional) Storage Volume Name Prefix

      Available only when the cluster version is v1.23.14-r0, v1.25.9-r0, v1.27.6-r0, v1.28.4-r0, or later, and Everest of v2.4.15 or later is installed in the cluster.

      This parameter specifies the name of the underlying storage that is automatically created. The actual underlying storage name is in the format of "PV name prefix + PVC UID". If this parameter is left blank, the default prefix pvc will be used.

      For example, if the PV name prefix is set to test, the actual underlying storage name is test-{UID}.

      AZ

      Select the AZ of the EVS disk. The AZ must be the same as that of the cluster node.

      NOTE:

      An EVS disk can only be mounted to a node in the same AZ. After an EVS disk is created, its AZ cannot be changed.

      Disk Type

      Select an EVS disk type. EVS disk types vary depending on regions. Obtain the available EVS types on the console.

      Capacity (GiB)

      Capacity of the requested storage volume.

      Access Mode

      EVS volumes support only ReadWriteOnce, indicating that a storage volume can be mounted to one node in read/write mode. For details, see Volume Access Modes.

      Encryption

      Configure whether to encrypt underlying storage. If you select Enabled (key), an encryption key must be configured. Before using encryption, check whether the region where the EVS disk is located supports disk encryption.

      Enterprise Project

      The default enterprise project, the enterprise project to which the cluster belongs, or the enterprise project specified by StorageClass is available.

      Resource Tag

      You can add resource tags to classify resources, which is supported only when the Everest version in the cluster is 2.1.39 or later.

      You can create predefined tags on the TMS console. The predefined tags are available to all resources that support tags. You can use predefined tags to improve the tag creation and resource migration efficiency.

      CCE automatically creates system tags CCE-Cluster-ID={Cluster ID}, CCE-Cluster-Name={Cluster name}, and CCE-Namespace={Namespace name}. These tags cannot be modified.

      NOTE:

      After a dynamic PV of the EVS type is created, the resource tags cannot be updated on the CCE console. To update these resource tags, go to the EVS console.

    2. Click Create.

      You can choose Storage in the navigation pane and view the created PVC and PV on the PVCs and PVs tab pages, respectively.

  3. Create an application.

    1. Choose Workloads in the navigation pane. In the right pane, click the StatefulSets tab.
    2. Click Create Workload in the upper right corner. On the displayed page, click Data Storage in the Container Settings area and click Add Volume to select PVC.
      Mount and use storage volumes, as shown in Table 1. For details about other parameters, see Workloads.
      Table 1 Mounting a storage volume

      Parameter

      Description

      PVC

      Select an existing EVS volume.

      An EVS volume can be mounted to only one workload.

      Mount Path

      Enter a mount path, for example, /tmp.

      This parameter specifies a container path to which a data volume will be mounted. Do not mount the volume to a system directory such as / or /var/run. Otherwise, containers will be malfunctional. Mount the volume to an empty directory. If the directory is not empty, ensure that there are no files that affect container startup. Otherwise, the files will be replaced, leading to container startup failures or workload creation failures.
      NOTICE:

      If a volume is mounted to a high-risk directory, use an account with minimum permissions to start the container. Otherwise, high-risk files on the host may be damaged.

      Subpath

      Enter the subpath of the storage volume and mount a path in the storage volume to the container. In this way, different folders of the same storage volume can be used in a single pod. tmp, for example, indicates that data in the mount path of the container is stored in the tmp folder of the storage volume. If this parameter is left blank, the root path is used by default.

      Permission

      • Read-only: You can only read the data in the mounted volumes.
      • Read-write: You can modify the data volumes mounted to the path. Newly written data will not be migrated if the container is migrated, which may cause data loss.

      In this example, the disk is mounted to the /data path of the container. The container data generated in this path is stored in the EVS disk.

      A non-shared EVS disk can be attached to only one workload pod. If there are multiple pods, extra pods cannot start properly. Ensure that the number of workload pods is 1 if an EVS disk is attached.

    3. After the configuration, click Create Workload.

      After the workload is created, the data in the container mount directory will be persistently stored. Verify the storage by referring to Verifying Data Persistence.

Automatically Creating an EVS Volume Through kubectl

  1. Use kubectl to access the cluster.
  2. Use StorageClass to dynamically create a PVC and PV.

    1. Create the pvc-evs-auto.yaml file.
      apiVersion: v1
      kind: PersistentVolumeClaim
      metadata:
        name: pvc-evs-auto
        namespace: default
        annotations:
            everest.io/disk-volume-type: SAS    # EVS disk type
          everest.io/crypt-key-id: <your_key_id>    # (Optional) Encryption key ID. Mandatory for an encrypted disk.
          everest.io/enterprise-project-id: <your_project_id>  # (Optional) Enterprise project ID. If an enterprise project is specified, use the same enterprise project when creating a PVC. Otherwise, the PVC cannot be bound to a PV.
          everest.io/disk-volume-tags: '{"key1":"value1","key2":"value2"}' # (Optional) Custom resource tags
      
          everest.io/csi.volume-name-prefix: test  # (Optional) PV name prefix of the automatically created underlying storage
        labels:
          failure-domain.beta.kubernetes.io/region: <your_region>   # Region of the node where the application is to be deployed
          failure-domain.beta.kubernetes.io/zone: <your_zone>       # AZ of the node where the application is to be deployed
      spec:
        accessModes:
        - ReadWriteOnce               # The value must be ReadWriteOnce for EVS disks.
        resources:
          requests:
            storage: 10Gi             # EVS disk capacity, ranging from 1 to 32768.
        storageClassName: csi-disk    # StorageClass is EVS.
      Table 2 Key parameters

      Parameter

      Mandatory

      Description

      failure-domain.beta.kubernetes.io/region

      Yes

      Region where the cluster is located.

      failure-domain.beta.kubernetes.io/zone

      Yes

      AZ where the EVS volume is created. It must be the same as the AZ planned for the workload.

      everest.io/disk-volume-type

      Yes

      EVS disk type. All letters are in uppercase.
      • SAS: high I/O
      • SSD: ultra-high I/O

      everest.io/crypt-key-id

      No

      This parameter is mandatory when an EVS disk is encrypted. Enter the encryption key ID selected during EVS disk creation. You can use a custom key or the default key named evs/default.

      To obtain a key ID, log in to the DEW console, locate the key to be encrypted, and copy the key ID.

      everest.io/enterprise-project-id

      No

      Optional.

      Enterprise project ID of the EVS disk. If an enterprise project is specified, use the same enterprise project when creating a PVC. Otherwise, the PVC cannot be bound to a PV.

      To obtain an enterprise project ID, log in to the EPS console, click the name of the target enterprise project, and copy the enterprise project ID.

      everest.io/disk-volume-tags

      No

      This field is optional. It is supported when the Everest version in the cluster is 2.1.39 or later.

      You can add resource tags to classify resources.

      You can create predefined tags on the TMS console. The predefined tags are available to all resources that support tags. You can use predefined tags to improve the tag creation and resource migration efficiency.

      CCE automatically creates system tags CCE-Cluster-ID={Cluster ID}, CCE-Cluster-Name={Cluster name}, and CCE-Namespace={Namespace name}. These tags cannot be modified.

      everest.io/csi.volume-name-prefix

      No

      (Optional) This parameter is available only when the cluster version is v1.23.14-r0, v1.25.9-r0, v1.27.6-r0, v1.28.4-r0, or later, and Everest of v2.4.15 or later is installed in the cluster.

      This parameter specifies the name of the underlying storage that is automatically created. The actual underlying storage name is in the format of "PV name prefix + PVC UID". If this parameter is left blank, the default prefix pvc will be used.

      Enter 1 to 26 characters that cannot start or end with a hyphen (-). Only lowercase letters, digits, and hyphens (-) are allowed.

      For example, if the PV name prefix is set to test, the actual underlying storage name is test-{UID}.

      storage

      Yes

      Requested PVC capacity, in Gi. The value ranges from 1 to 32768.

      storageClassName

      Yes

      The storage class for EVS disks is csi-disk.

    2. Run the following command to create a PVC:
      kubectl apply -f pvc-evs-auto.yaml

  3. Create an application.

    1. Create a file named web-evs-auto.yaml. In this example, the EVS volume is mounted to the /data path.
      apiVersion: apps/v1
      kind: StatefulSet
      metadata:
        name: web-evs-auto
        namespace: default
      spec:
        replicas: 1
        selector:
          matchLabels:
            app: web-evs-auto
        serviceName: web-evs-auto   # Headless Service name
        template:
          metadata:
            labels:
              app: web-evs-auto
          spec:
            containers:
            - name: container-1
              image: nginx:latest
              volumeMounts:
              - name: pvc-disk    # Volume name, which must be the same as the volume name in the volumes field.
                mountPath: /data  # Location where the storage volume is mounted
            imagePullSecrets:
              - name: default-secret
            volumes:
              - name: pvc-disk    # Volume name, which can be customized
                persistentVolumeClaim:
                  claimName: pvc-evs-auto    # Name of the created PVC
      ---
      apiVersion: v1
      kind: Service
      metadata:
        name: web-evs-auto   # Headless Service name
        namespace: default
        labels:
          app: web-evs-auto
      spec:
        selector:
          app: web-evs-auto
        clusterIP: None
        ports:
          - name: web-evs-auto
            targetPort: 80
            nodePort: 0
            port: 80
            protocol: TCP
        type: ClusterIP
    2. Run the following command to create a workload to which the EVS volume is mounted:
      kubectl apply -f web-evs-auto.yaml

      After the workload is created, the data in the container mount directory will be persistently stored. Verify the storage by referring to Verifying Data Persistence.

Verifying Data Persistence

  1. View the deployed application and EVS volume files.

    1. Run the following command to view the created pod:
      kubectl get pod | grep web-evs-auto
      Expected output:
      web-evs-auto-0                  1/1     Running   0               38s
    2. Run the following command to check whether the EVS volume has been mounted to the /data path:
      kubectl exec web-evs-auto-0 -- df | grep data

      Expected output:

      /dev/sdc              10255636     36888  10202364   0% /data
    3. Run the following command to check the files in the /data path:
      kubectl exec web-evs-auto-0 -- ls /data

      Expected output:

      lost+found

  2. Run the following command to create a file named static in the /data path:

    kubectl exec web-evs-auto-0 --  touch /data/static

  3. Run the following command to check the files in the /data path:

    kubectl exec web-evs-auto-0 -- ls /data

    Expected output:

    lost+found
    static

  4. Run the following command to delete the pod named web-evs-auto-0:

    kubectl delete pod web-evs-auto-0

    Expected output:

    pod "web-evs-auto-0" deleted

  5. After the deletion, the StatefulSet controller automatically creates a replica with the same name. Run the following command to check whether the files in the /data path have been modified:

    kubectl exec web-evs-auto-0 -- ls /data

    Expected output:

    lost+found
    static

    The static file is retained, indicating that the data in the EVS volume can be stored persistently.

Related Operations

You can also perform the operations listed in Table 3.
Table 3 Related operations

Operation

Description

Procedure

Expanding the capacity of an EVS disk

Quickly expand the capacity of an attached EVS disk on the CCE console.

  1. Choose Storage in the navigation pane. In the right pane, click the PVCs tab. Click More in the Operation column of the target PVC and select Scale-out.
  2. Enter the capacity to be added and click OK.

Viewing events

View event names, event types, number of occurrences, Kubernetes events, first occurrence time, and last occurrence time of the PVC or PV.

  1. Choose Storage in the navigation pane. In the right pane, click the PVCs or PVs tab.
  2. Click View Events in the Operation column of the target PVC or PV to view events generated within one hour (events are retained for one hour).

Viewing a YAML file

View, copy, or download the YAML file of a PVC or PV.

  1. Choose Storage in the navigation pane. In the right pane, click the PVCs or PVs tab.
  2. Click View YAML in the Operation column of the target PVC or PV to view or download the YAML.