Help Center/ Cloud Container Engine/ User Guide/ Storage/ SFS Turbo/ Using an Existing SFS Turbo File System Through a Static PV
Updated on 2024-11-11 GMT+08:00

Using an Existing SFS Turbo File System Through a Static PV

SFS Turbo is a shared file system with high availability and durability. It is suitable for applications that contain massive small files and require low latency, and high IOPS. This section describes how to use an existing SFS Turbo file system to statically create PVs and PVCs for data persistence and sharing in workloads.

Prerequisites

Notes and Constraints

  • Multiple PVs can use the same SFS or SFS Turbo file system with the following restrictions:
    • Do not mount the PVCs/PVs that use the same underlying SFS or SFS Turbo volume to one pod. This will lead to a pod startup failure because not all PVCs can be mounted to the pod due to the same volumeHandle value.
    • The persistentVolumeReclaimPolicy parameter in the PVs must be set to Retain. Otherwise, when a PV is deleted, the associated underlying volume may be deleted. In this case, other PVs associated with the underlying volume malfunction.
    • When the underlying volume is repeatedly used, enable isolation and protection for ReadWriteMany at the application layer to prevent data overwriting and loss.
  • For SFS Turbo storage, the yearly/monthly SFS Turbo resources will not be reclaimed when the cluster or PVC is deleted. Reclaim the resources on the SFS Turbo console.

Using an Existing SFS Turbo File System on the Console

  1. Log in to the CCE console and click the cluster name to access the cluster console.
  2. Statically 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 SFS Turbo.

      PVC Name

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

      Creation Method

      You can create a storage volume or use an existing storage volume to statically create a PVC based on whether a PV has been created.

      In this example, select Create new to create both a PV and PVC on the console.

      PVa

      Select an existing PV in the cluster. For details about how to create a PV, see "Creating a storage volume" in Related Operations.

      You do not need to specify this parameter in this example.

      SFS Turbob

      Click Select SFS Turbo. On the displayed page, select the SFS Turbo file system that meets your requirements and click OK.

      PV Nameb

      Enter the PV name, which must be unique in the same cluster.

      Access Modeb

      SFS Turbo volumes support only ReadWriteMany, indicating that a storage volume can be mounted to multiple nodes in read/write mode. For details, see Volume Access Modes.

      Reclaim Policyb

      Only Retain is available. This indicates that the PV is not deleted when the PVC is deleted. For details, see PV Reclaim Policy.

      Mount Optionsb

      Enter the mounting parameter key-value pairs. For details, see Configuring SFS Turbo Mount Options.

      a: The parameter is available when Creation Method is set to Use existing.

      b: The parameter is available when Creation Method is set to Create new.

    2. Click Create to create a PVC and a PV.

      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 Deployments 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 SFS Turbo volume.

      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. This may lead to container errors. 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 will be 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 SFS Turbo file system.

    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 and Sharing.

Using an Existing SFS Turbo File System Through kubectl

You can select a mode that meets the requirements of your service.

  1. Use kubectl to access the cluster.
  2. Create a PV.

    1. Create the pv-sfsturbo.yaml file.

      Example:

      apiVersion: v1
      kind: PersistentVolume
      metadata:
        annotations:
          pv.kubernetes.io/provisioned-by: everest-csi-provisioner
        name: pv-sfsturbo    # PV name
      spec:
        accessModes:
        - ReadWriteMany      # Access mode. The value must be ReadWriteMany for SFS Turbo.
        capacity:
          storage: 500Gi       # SFS Turbo volume capacity
        csi:
          driver: sfsturbo.csi.everest.io    # Dependent storage driver for the mounting
          fsType: nfs
          volumeHandle: <your_volume_id>   # SFS Turbo volume ID
          volumeAttributes:
            everest.io/share-export-location: <your_location>   # Shared path of the SFS Turbo volume
            everest.io/enterprise-project-id: <your_project_id>  # Project ID of the SFS Turbo volume
            storage.kubernetes.io/csiProvisionerIdentity: everest-csi-provisioner
        persistentVolumeReclaimPolicy: Retain    # Reclaim policy
        storageClassName: csi-sfsturbo          # StorageClass name of the SFS Turbo file system
        mountOptions: []                         # Mount options
      Table 2 Key parameters

      Parameter

      Mandatory

      Description

      volumeHandle

      Yes

      ID of an SFS Turbo file system for creating a PV.

      How to obtain: Log in to the CCE console, choose Service List > Storage > Scalable File Service, and select SFS Turbo. In the list, click the name of the target SFS Turbo file system. On the details page, copy the content following ID.

      everest.io/share-export-location

      Yes

      Shared path of the SFS Turbo volume.

      Log in to the CCE console, choose Service List > Storage > Scalable File Service, and select SFS Turbo. You can obtain the shared path of the file system.

      everest.io/enterprise-project-id

      No

      Project ID of the SFS Turbo volume.

      How to obtain: On the SFS console, click SFS Turbo in the left navigation pane. Click the name of the SFS Turbo file system to interconnect. On the Basic Info tab, find and click the enterprise project to go to the console, and copy the ID.

      mountOptions

      No

      Mount options.

      If not specified, the following configurations are used by default. For details, see Configuring SFS Turbo Mount Options.

      mountOptions:
      - vers=3
      - timeo=600
      - nolock
      - hard

      persistentVolumeReclaimPolicy

      Yes

      A reclaim policy is supported when the cluster version is or later than 1.19.10 and the Everest version is or later than 1.2.9. For details, see PV Reclaim Policy.

      Retain: When a PVC is deleted, both the PV and underlying storage resources will be retained. You need to manually delete these resources. After the PVC is deleted, the PV is in the Released state and cannot be bound to a PVC again.

      storage

      Yes

      Requested capacity in the PVC, in Gi.

      storageClassName

      Yes

      The StorageClass name of SFS Turbo volumes is csi-sfsturbo.

    2. Run the following command to create a PV:
      kubectl apply -f pv-sfsturbo.yaml

  3. Create a PVC.

    1. Create the pvc-sfsturbo.yaml file.
      apiVersion: v1
      kind: PersistentVolumeClaim
      metadata:
        name: pvc-sfsturbo
        namespace: default
        annotations:
          volume.beta.kubernetes.io/storage-provisioner: everest-csi-provisioner
          everest.io/enterprise-project-id: <your_project_id>  # Project ID of the SFS Turbo volume
      spec:
        accessModes:
        - ReadWriteMany                  # The value must be ReadWriteMany for SFS Turbo.
        resources:
          requests:
            storage: 500Gi               # SFS Turbo volume capacity.
        storageClassName: csi-sfsturbo       # StorageClass name of the SFS Turbo file system, which must be the same as that of the PV
        volumeName: pv-sfsturbo    # PV name
      Table 3 Key parameters

      Parameter

      Mandatory

      Description

      everest.io/enterprise-project-id

      No

      Project ID of the SFS Turbo volume.

      How to obtain: On the SFS console, click SFS Turbo in the left navigation pane. Click the name of the SFS Turbo file system to interconnect. On the Basic Info tab, find and click the enterprise project to go to the console, and copy the ID.

      storage

      Yes

      Requested capacity in the PVC, in Gi.

      The value must be the same as the storage size of the existing PV.

      storageClassName

      Yes

      StorageClass name, which must be the same as the StorageClass of the PV in 1.

      The StorageClass name of SFS Turbo volumes is csi-sfsturbo.

      volumeName

      Yes

      PV name, which must be the same as the PV name in 1.

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

  4. Create an application.

    1. Create a file named web-demo.yaml. In this example, the SFS Turbo volume is mounted to the /data path.
      apiVersion: apps/v1
      kind: Deployment
      metadata:
        name: web-demo
        namespace: default
      spec:
        replicas: 2
        selector:
          matchLabels:
            app: web-demo
        template:
          metadata:
            labels:
              app: web-demo
          spec:
            containers:
            - name: container-1
              image: nginx:latest
              volumeMounts:
              - name: pvc-sfsturbo-volume    # 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-sfsturbo-volume    # Volume name, which can be customized
                persistentVolumeClaim:
                  claimName: pvc-sfsturbo    # Name of the created PVC
    2. Run the following command to create a workload to which the SFS Turbo volume is mounted:
      kubectl apply -f web-demo.yaml

      After the workload is created, you can try Verifying Data Persistence and Sharing.

  1. Use kubectl to access the cluster.
  2. Create a PV.

    1. Create the pv-sfsturbo.yaml file.
      Example:
      apiVersion: v1
      kind: PersistentVolume
      metadata:
        annotations:
          pv.kubernetes.io/provisioned-by: everest-csi-provisioner
          everest.io/reclaim-policy: retain-volume-only    # When a PVC is deleted, the PV will be deleted but the subdirectories associated with the PV will be retained. This parameter is available only when subdirectories are used and the reclaim policy is Delete.
        name: pv-sfsturbo    # PV name
      spec:
        accessModes:
        - ReadWriteMany      # Access mode. The value must be ReadWriteMany for SFS Turbo.
        capacity:
          storage: 500Gi       # SFS Turbo volume capacity
        csi:
          driver: sfsturbo.csi.everest.io    # Dependent storage driver for the mounting
          fsType: nfs
          volumeHandle: pv-sfsturbo   # PV name when subdirectories are used
          volumeAttributes:
            everest.io/share-export-location: <sfsturbo_path>:/<absolute_path>   # Shared path and subdirectory of the SFS Turbo file system
            everest.io/enterprise-project-id: <your_project_id>  # Project ID of the SFS Turbo volume
            storage.kubernetes.io/csiProvisionerIdentity: everest-csi-provisioner
            everest.io/volume-as: absolute-path   # (Optional) An SFS Turbo subdirectory is used.
        persistentVolumeReclaimPolicy: Retain    # Reclaim policy, which can be set to Delete when subdirectories are automatically created
        storageClassName: csi-sfsturbo          # StorageClass name of the SFS Turbo file system
        mountOptions: []                         # Mount options
      Table 4 Key parameters

      Parameter

      Mandatory

      Description

      volumeHandle

      Yes

      PV name when an SFS Turbo subdirectory is used to create the PV.

      everest.io/share-export-location

      Yes

      Shared path of the SFS Turbo subdirectory.

      Format:

      {sfsturbo_path}:/{absolute_path}

      How to obtain:

      Log in to the CCE console, choose Service List > Storage > Scalable File Service, and select SFS Turbo. You can obtain the shared path of the file system.

      everest.io/enterprise-project-id

      No

      Project ID of the SFS Turbo volume.

      How to obtain: On the SFS console, click SFS Turbo in the left navigation pane. Click the name of the SFS Turbo file system to interconnect. On the Basic Info tab, find and click the enterprise project to go to the console, and copy the ID.

      mountOptions

      No

      Mount options.

      If not specified, the following configurations are used by default. For details, see Configuring SFS Turbo Mount Options.

      mountOptions:
      - vers=3
      - timeo=600
      - nolock
      - hard

      persistentVolumeReclaimPolicy

      Yes

      A reclaim policy is supported when the cluster version is or later than 1.19.10 and the Everest version is or later than 1.2.9. For details, see PV Reclaim Policy.

      Retain: When a PVC is deleted, both the PV and underlying storage resources will be retained. You need to manually delete these resources. After the PVC is deleted, the PV is in the Released state and cannot be bound to a PVC again.

      Delete: This parameter can be configured when subdirectories are automatically created, indicating that the PV is deleted when a PVC is deleted.

      everest.io/reclaim-policy

      No

      Whether to retain subdirectories when deleting a PVC. This parameter must be used with PV Reclaim Policy. This parameter is available only when the PV reclaim policy is Delete. Options:

      • retain-volume-only: If a PVC is deleted, the PV will be deleted, but the subdirectories associated with the PV will be retained.
      • delete: After a PVC is deleted, the PV and its associated subdirectories will also be deleted.
        NOTE:

        When a subdirectory is deleted, only the absolute path of the subdirectory configured in the PVC will be deleted. The upper-layer directory will not be deleted.

      everest.io/volume-as

      No

      The value is fixed at absolute-path, indicating that a dynamically created SFS Turbo subdirectory is used.

      Ensure Everest of v2.3.23 or later has been installed in the cluster.

      storage

      Yes

      Requested capacity in the PVC, in Gi. If a subdirectory is used, this parameter serves no purpose other than for verification and must have a non-empty, non-zero value.

      storageClassName

      Yes

      The StorageClass name of SFS Turbo volumes is csi-sfsturbo.

    2. Run the following command to create a PV:
      kubectl apply -f pv-sfsturbo.yaml

  3. Create a PVC.

    1. Create the pvc-sfsturbo.yaml file.
      apiVersion: v1
      kind: PersistentVolumeClaim
      metadata:
        name: pvc-sfsturbo
        namespace: default
        annotations:
          volume.beta.kubernetes.io/storage-provisioner: everest-csi-provisioner
          everest.io/enterprise-project-id: <your_project_id>  # Project ID of the SFS Turbo volume
      spec:
        accessModes:
        - ReadWriteMany                  # The value must be ReadWriteMany for SFS Turbo.
        resources:
          requests:
            storage: 500Gi               # SFS Turbo volume capacity.
        storageClassName: csi-sfsturbo       # StorageClass name of the SFS Turbo file system, which must be the same as that of the PV
        volumeName: pv-sfsturbo    # PV name
      Table 5 Key parameters

      Parameter

      Mandatory

      Description

      everest.io/enterprise-project-id

      No

      Project ID of the SFS Turbo volume.

      How to obtain: On the SFS console, click SFS Turbo in the left navigation pane. Click the name of the SFS Turbo file system to interconnect. On the Basic Info tab, find and click the enterprise project to go to the console, and copy the ID.

      storage

      Yes

      Requested capacity in the PVC, in Gi.

      The value must be the same as the storage size of the existing PV.

      storageClassName

      Yes

      StorageClass name, which must be the same as the StorageClass of the PV in 1.

      The StorageClass name of SFS Turbo volumes is csi-sfsturbo.

      volumeName

      Yes

      PV name, which must be the same as the PV name in 1.

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

  4. Create an application.

    1. Create a file named web-demo.yaml. In this example, the SFS Turbo volume is mounted to the /data path.
      apiVersion: apps/v1
      kind: Deployment
      metadata:
        name: web-demo
        namespace: default
      spec:
        replicas: 2
        selector:
          matchLabels:
            app: web-demo
        template:
          metadata:
            labels:
              app: web-demo
          spec:
            containers:
            - name: container-1
              image: nginx:latest
              volumeMounts:
              - name: pvc-sfsturbo-volume    # 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-sfsturbo-volume    # Volume name, which can be customized
                persistentVolumeClaim:
                  claimName: pvc-sfsturbo    # Name of the created PVC
    2. Run the following command to create a workload to which the SFS Turbo volume is mounted:
      kubectl apply -f web-demo.yaml

      After the workload is created, you can try Verifying Data Persistence and Sharing.

Verifying Data Persistence and Sharing

  1. View the deployed application and files.

    1. Run the following command to view the created pod:
      kubectl get pod | grep web-demo
      Expected output:
      web-demo-846b489584-mjhm9   1/1     Running   0             46s
      web-demo-846b489584-wvv5s   1/1     Running   0             46s
    2. Run the following commands in sequence to view the files in the /data path of the pods:
      kubectl exec web-demo-846b489584-mjhm9 -- ls /data
      kubectl exec web-demo-846b489584-wvv5s -- ls /data

      If no result is returned for both pods, no file exists in the /data path.

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

    kubectl exec web-demo-846b489584-mjhm9 --  touch /data/static

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

    kubectl exec web-demo-846b489584-mjhm9 -- ls /data

    Expected output:

    static

  4. Verify data persistence.

    1. Run the following command to delete the pod named web-demo-846b489584-mjhm9:
      kubectl delete pod web-demo-846b489584-mjhm9

      Expected output:

      pod "web-demo-846b489584-mjhm9" deleted

      After the deletion, the Deployment controller automatically creates a replica.

    2. Run the following command to view the created pod:
      kubectl get pod | grep web-demo
      The expected output is as follows, in which web-demo-846b489584-d4d4j is the newly created pod:
      web-demo-846b489584-d4d4j   1/1     Running   0             110s
      web-demo-846b489584-wvv5s    1/1     Running   0             7m50s
    3. Run the following command to check whether the files in the /data path of the new pod have been modified:
      kubectl exec web-demo-846b489584-d4d4j -- ls /data

      Expected output:

      static

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

  5. Verify data sharing.

    1. Run the following command to view the created pod:
      kubectl get pod | grep web-demo
      Expected output:
      web-demo-846b489584-d4d4j   1/1     Running   0             7m
      web-demo-846b489584-wvv5s   1/1     Running   0             13m
    2. Run the following command to create a file named share in the /data path of either pod: In this example, select the pod named web-demo-846b489584-d4d4j.
      kubectl exec web-demo-846b489584-d4d4j --  touch /data/share
      Check the files in the /data path of the pod.
      kubectl exec web-demo-846b489584-d4d4j -- ls /data

      Expected output:

      share
      static
    3. Check whether the share file exists in the /data path of another pod (web-demo-846b489584-wvv5s) as well to verify data sharing.
      kubectl exec web-demo-846b489584-wvv5s -- ls /data

      Expected output:

      share
      static

      After you create a file in the /data path of a pod, if the file is also created in the /data path of the other pod, the two pods share the same volume.

Related Operations

You can also perform the operations listed in Table 6.
Table 6 Related operations

Operation

Description

Procedure

Creating a storage volume (PV)

Create a PV on the CCE console.

  1. Choose Storage in the navigation pane. In the right pane, click the PVs tab. Click Create PersistentVolume in the upper right corner. In the dialog box displayed, configure parameters.
    • Volume Type: Select SFS Turbo.
    • SFS Turbo: Click Select SFS Turbo. On the page displayed, select the SFS Turbo file system that meets your requirements and click OK.
    • PV Name: Enter the PV name, which must be unique in a cluster.
    • Access Mode: SFS volumes support only ReadWriteMany, indicating that a storage volume can be mounted to multiple nodes in read/write mode. For details, see Volume Access Modes.
    • Reclaim Policy: Only Retain is supported. For details, see PV Reclaim Policy.
    • Mount Options: Enter the mounting parameter key-value pairs. For details, see Configuring SFS Turbo Mount Options.
  2. Click Create.

Expanding the capacity of an SFS Turbo volume

Quickly expand the capacity of a mounted SFS Turbo volume 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.