Custom Storage Classes
Background
When using storage resources in CCE, the most common method is to specify storageClassName to define the type of storage resources to be created when creating a PVC. The following configuration shows how to use a PVC to apply for an SAS (high I/O) EVS disk (block storage).
apiVersion: v1 kind: PersistentVolumeClaim metadata: name: pvc-evs-example namespace: default annotations: everest.io/disk-volume-type: SAS spec: accessModes: - ReadWriteOnce resources: requests: storage: 10Gi storageClassName: csi-disk
To specify the EVS disk type, you can configure the everest.io/disk-volume-type field. The value SAS is used as an example here, indicating the high I/O EVS disk type. Or you can choose SSD (ultra-high I/O).
This configuration method may not work if you want to:
- Set storageClassName only, which is simpler than specifying the EVS disk type by using everest.io/disk-volume-type.
- Avoid modifying YAML files or Helm charts. Some users switch from self-built or other Kubernetes services to CCE and have written YAML files of many applications. In these YAML files, different types of storage resources are specified by different StorageClassNames. When using CCE, they need to modify a large number of YAML files or Helm charts to use storage resources, which is labor-consuming and error-prone.
- Set the default storageClassName for all applications to use the default storage class. In this way, you can create storage resources of the default type without needing to specify storageClassName in the YAML file.
Solution
This section describes how to set a custom storage class in CCE and how to set the default storage class. You can specify different types of storage resources by setting storageClassName.
- For the first scenario, you can define custom storageClassNames for SAS and SSD EVS disks. For example, define a storage class named csi-disk-sas for creating SAS disks. The following figure shows the differences before and after you use a custom storage class.
- For the second scenario, you can define a storage class with the same name as that in the existing YAML file without needing to modify storageClassName in the YAML file.
- For the third scenario, you can set the default storage class as described below to create storage resources without specifying storageClassName in YAML files.
apiVersion: v1 kind: PersistentVolumeClaim metadata: name: pvc-evs-example namespace: default spec: accessModes: - ReadWriteOnce resources: requests: storage: 10Gi
CCE Default Storage Classes
As of now, CCE provides StorageClasses such as csi-disk and csi-obs by default. When defining a PVC, you can use a StorageClassName to automatically create a PV of the corresponding type and automatically create underlying storage resources.
Run the following kubectl command to obtain the storage classes that CCE supports. Use the CSI add-on provided by CCE to create a storage class.
# kubectl get sc NAME PROVISIONER AGE csi-disk everest-csi-provisioner 17d # EVS disk csi-disk-topology everest-csi-provisioner 17d # EVS disks created with delayed csi-obs everest-csi-provisioner 17d # OBS
kind: StorageClass apiVersion: storage.k8s.io/v1 metadata: name: csi-disk provisioner: everest-csi-provisioner parameters: csi.storage.k8s.io/csi-driver-name: disk.csi.everest.io csi.storage.k8s.io/fstype: ext4 everest.io/disk-volume-type: SAS everest.io/passthrough: 'true' reclaimPolicy: Delete allowVolumeExpansion: true volumeBindingMode: Immediate
Parameter |
Description |
---|---|
provisioner |
Specifies the storage resource provider, which is the Everest add-on for CCE. Set this parameter to everest-csi-provisioner. |
parameters |
Specifies the storage parameters, which vary with storage types. For details, see Table 2. |
reclaimPolicy |
Specifies the value of persistentVolumeReclaimPolicy for creating a PV. The value can be Delete or Retain. If reclaimPolicy is not specified when a StorageClass object is created, the value defaults to Delete.
|
allowVolumeExpansion |
Specifies whether the PV of this storage class supports dynamic capacity expansion. The default value is false. Dynamic capacity expansion is implemented by the underlying storage add-on. This is only a switch. |
volumeBindingMode |
Specifies the volume binding mode, that is, the time when a PV is dynamically created. The value can be Immediate or WaitForFirstConsumer.
|
mountOptions |
This field must be supported by the underlying storage. If this field is not supported but is specified, the PV creation will fail. |
Volume Type |
Parameter |
Mandatory |
Description |
---|---|---|---|
EVS |
csi.storage.k8s.io/csi-driver-name |
Yes |
Driver type. If an EVS disk is used, the parameter value is fixed at disk.csi.everest.io. |
csi.storage.k8s.io/fstype |
Yes |
If an EVS disk is used, the parameter value can be ext4. |
|
everest.io/disk-volume-type |
Yes |
EVS disk type. All letters are in uppercase.
|
|
everest.io/passthrough |
Yes |
The parameter value is fixed at true, which indicates that the EVS device type is SCSI. Other parameter values are not allowed. |
|
OBS |
csi.storage.k8s.io/csi-driver-name |
Yes |
Driver type. If OBS is used, the parameter value is fixed at obs.csi.everest.io. |
csi.storage.k8s.io/fstype |
Yes |
Instance type, which can be obsfs or s3fs.
|
|
everest.io/obs-volume-type |
Yes |
OBS storage class.
|
Custom Storage Classes
You can customize a high I/O storage class in a YAML file. For example, the name csi-disk-sas indicates that the disk type is SAS (high I/O).
apiVersion: storage.k8s.io/v1 kind: StorageClass metadata: name: csi-disk-sas # Name of the high I/O storage class, which can be customized. parameters: csi.storage.k8s.io/csi-driver-name: disk.csi.everest.io csi.storage.k8s.io/fstype: ext4 everest.io/disk-volume-type: SAS # High I/O EVS disk type, which cannot be customized. everest.io/passthrough: "true" provisioner: everest-csi-provisioner reclaimPolicy: Delete volumeBindingMode: Immediate allowVolumeExpansion: true # true indicates that capacity expansion is allowed.
For an ultra-high I/O storage class, you can set the class name to csi-disk-ssd to create SSD EVS disk (ultra-high I/O).
apiVersion: storage.k8s.io/v1 kind: StorageClass metadata: name: csi-disk-ssd # Name of the ultra-high I/O storage class, which can be customized. parameters: csi.storage.k8s.io/csi-driver-name: disk.csi.everest.io csi.storage.k8s.io/fstype: ext4 everest.io/disk-volume-type: SSD # Ultra-high I/O EVS disk type, which cannot be customized. everest.io/passthrough: "true" provisioner: everest-csi-provisioner reclaimPolicy: Delete volumeBindingMode: Immediate allowVolumeExpansion: true
reclaimPolicy: indicates the recycling policies of the underlying cloud storage. The value can be Delete or Retain.
- Delete: When a PVC is deleted, both the PV and the EVS disk are deleted.
- Retain: When a PVC is deleted, the PV and underlying storage resources are not deleted. Instead, you must manually delete these resources. After that, the PV resource is in the Released state and cannot be bound to the PVC again.
If high data security is required, you are advised to select Retain to prevent data from being deleted by mistake.
After the definition is complete, run the kubectl create commands to create storage resources.
# kubectl create -f sas.yaml storageclass.storage.k8s.io/csi-disk-sas created # kubectl create -f ssd.yaml storageclass.storage.k8s.io/csi-disk-ssd created
Query the storage class again. Two more types of storage classes are displayed in the command output, as shown below.
# kubectl get sc NAME PROVISIONER AGE csi-disk everest-csi-provisioner 17d csi-disk-sas everest-csi-provisioner 2m28s csi-disk-ssd everest-csi-provisioner 16s csi-disk-topology everest-csi-provisioner 17d csi-obs everest-csi-provisioner 17d csi-sfsturbo everest-csi-provisioner 17d
Other types of storage resources can be defined in the similar way. You can use kubectl to obtain the YAML file and modify it as required.
- Object storage
# kubectl get sc csi-obs -oyaml kind: StorageClass apiVersion: storage.k8s.io/v1 metadata: name: csi-obs provisioner: everest-csi-provisioner parameters: csi.storage.k8s.io/csi-driver-name: obs.csi.everest.io csi.storage.k8s.io/fstype: s3fs # Object storage type. s3fs indicates an object bucket, and obsfs indicates a parallel file system. everest.io/obs-volume-type: STANDARD # Storage class of the OBS bucket reclaimPolicy: Delete volumeBindingMode: Immediate
Specifying a Default Storage Class
You can specify a storage class as the default class. In this way, if you do not specify storageClassName when creating a PVC, the PVC is created using the default storage class.
For example, to specify csi-disk-ssd as the default storage class, edit your YAML file as follows:
apiVersion: storage.k8s.io/v1 kind: StorageClass metadata: name: csi-disk-ssd annotations: storageclass.kubernetes.io/is-default-class: "true" # Specifies the default storage class in a cluster. A cluster can have only one default storage class. parameters: csi.storage.k8s.io/csi-driver-name: disk.csi.everest.io csi.storage.k8s.io/fstype: ext4 everest.io/disk-volume-type: SSD everest.io/passthrough: "true" provisioner: everest-csi-provisioner reclaimPolicy: Delete volumeBindingMode: Immediate allowVolumeExpansion: true
Delete the created csi-disk-ssd disk, run the kubectl create command to create a csi-disk-ssd disk again, and then query the storage class. The following information is displayed.
# kubectl delete sc csi-disk-ssd storageclass.storage.k8s.io "csi-disk-ssd" deleted # kubectl create -f ssd.yaml storageclass.storage.k8s.io/csi-disk-ssd created # kubectl get sc NAME PROVISIONER AGE csi-disk everest-csi-provisioner 17d csi-disk-sas everest-csi-provisioner 114m csi-disk-ssd (default) everest-csi-provisioner 9s csi-disk-topology everest-csi-provisioner 17d csi-nas everest-csi-provisioner 17d csi-obs everest-csi-provisioner 17d
Verification
- Use csi-disk-sas to create a PVC.
apiVersion: v1 kind: PersistentVolumeClaim metadata: name: sas-disk spec: accessModes: - ReadWriteOnce resources: requests: storage: 10Gi storageClassName: csi-disk-sas
Create a storage class and view its details. As shown below, the object can be created and the value of STORAGECLASS is csi-disk-sas.
# kubectl create -f sas-disk.yaml persistentvolumeclaim/sas-disk created # kubectl get pvc NAME STATUS VOLUME CAPACITY ACCESS MODES STORAGECLASS AGE sas-disk Bound pvc-6e2f37f9-7346-4419-82f7-b42e79f7964c 10Gi RWO csi-disk-sas 24s # kubectl get pv NAME CAPACITY ACCESS MODES RECLAIM POLICY STATUS CLAIM STORAGECLASS REASON AGE pvc-6e2f37f9-7346-4419-82f7-b42e79f7964c 10Gi RWO Delete Bound default/sas-disk csi-disk-sas 30s
View the PVC details on the CCE console. On the PV details page, you can see that the disk type is high I/O.
- If storageClassName is not specified, the default configuration is used, as shown below.
apiVersion: v1 kind: PersistentVolumeClaim metadata: name: ssd-disk spec: accessModes: - ReadWriteOnce resources: requests: storage: 10Gi
Create and view the storage resource. You can see that the storage class of PVC ssd-disk is csi-disk-ssd, indicating that csi-disk-ssd is used by default.
# kubectl create -f ssd-disk.yaml persistentvolumeclaim/ssd-disk created # kubectl get pvc NAME STATUS VOLUME CAPACITY ACCESS MODES STORAGECLASS AGE sas-disk Bound pvc-6e2f37f9-7346-4419-82f7-b42e79f7964c 10Gi RWO csi-disk-sas 16m ssd-disk Bound pvc-4d2b059c-0d6c-44af-9994-f74d01c78731 10Gi RWO csi-disk-ssd 10s # kubectl get pv NAME CAPACITY ACCESS MODES RECLAIM POLICY STATUS CLAIM STORAGECLASS REASON AGE pvc-4d2b059c-0d6c-44af-9994-f74d01c78731 10Gi RWO Delete Bound default/ssd-disk csi-disk-ssd 15s pvc-6e2f37f9-7346-4419-82f7-b42e79f7964c 10Gi RWO Delete Bound default/sas-disk csi-disk-sas 17m
View the PVC details on the CCE console. On the PV details page, you can see that the disk type is ultra-high I/O.
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