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There are two CSI drivers integrated with Rook that will enable different scenarios:
- RBD: This driver is optimized for RWO pod access where only one pod may access the storage
- CephFS: This driver allows for RWX with one or more pods accessing the same storage
The drivers are enabled automatically with the Rook operator. They will be started in the same namespace as the operator when the first CephCluster CR is created.
For documentation on consuming the storage:
- RBD: See the Block Storage topic
- CephFS: See the Shared File System topic
The remainder of this topic is on the snapshotting feature of the RBD driver.
RBD Snapshots
Since this feature is still in alpha stage (k8s 1.12+), make sure to enable the VolumeSnapshotDataSource feature gate on your Kubernetes cluster API server.
--feature-gates=VolumeSnapshotDataSource=true
SnapshotClass
You need to create the SnapshotClass. The purpose of a SnapshotClass is defined in the kubernetes documentation. In short, as the documentation describes it:
Just like StorageClass provides a way for administrators to describe the “classes” of storage they offer when provisioning a volume, VolumeSnapshotClass provides a way to describe the “classes” of storage when provisioning a volume snapshot.
In snapshotClass, the csi.storage.k8s.io/snapshotter-secret-name parameter should reference the name of the secret created for the rbdplugin and pool to reflect the Ceph pool name.
Update the value of the clusterID field to match the namespace that rook is running in. When Ceph CSI is deployed by Rook, the operator will automatically maintain a config map whose contents will match this key. By default this is “rook-ceph”.
kubectl create -f cluster/examples/kubernetes/ceph/csi/rbd/snapshotclass.yaml
Volumesnapshot
In snapshot, snapshotClassName should be the name of the VolumeSnapshotClass previously created. The source name should be the name of the PVC you created earlier.
kubectl create -f cluster/examples/kubernetes/ceph/csi/rbd/snapshot.yaml
Verify RBD Snapshot Creation
# kubectl get volumesnapshotclassNAME AGEcsi-rbdplugin-snapclass 4s# kubectl get volumesnapshotNAME AGErbd-pvc-snapshot 6s
In the toolbox pod, run rbd snap ls [name-of-your-pvc]. The output should be similar to this:
# rbd snap ls pvc-c20495c0d5de11e8SNAPID NAME SIZE TIMESTAMP4 csi-rbd-pvc-c20495c0d5de11e8-snap-4c0b455b-d5fe-11e8-bebb-525400123456 1024 MB Mon Oct 22 13:28:03 2018
Restore the snapshot to a new PVC
In pvc-restore, dataSource should be the name of the VolumeSnapshot previously created. The kind should be the VolumeSnapshot.
Create a new PVC from the snapshot
kubectl create -f cluster/examples/kubernetes/ceph/csi/rbd/pvc-restore.yaml
Verify RBD Clone PVC Creation
# kubectl get pvcNAME STATUS VOLUME CAPACITY ACCESS MODES STORAGECLASS AGErbd-pvc Bound pvc-84294e34-577a-11e9-b34f-525400581048 1Gi RWO csi-rbd 34mrbd-pvc-restore Bound pvc-575537bf-577f-11e9-b34f-525400581048 1Gi RWO csi-rbd 8s
RBD resource Cleanup
To clean your cluster of the resources created by this example, run the following:
if you have tested snapshot, delete snapshotclass, snapshot and pvc-restore created to test snapshot feature
kubectl delete -f cluster/examples/kubernetes/ceph/csi/rbd/pvc-restore.yamlkubectl delete -f cluster/examples/kubernetes/ceph/csi/rbd/snapshot.yamlkubectl delete -f cluster/examples/kubernetes/ceph/csi/rbd/snapshotclass.yaml
Liveness Sidecar
All CSI pods are deployed with a sidecar container that provides a prometheus metric for tracking if the CSI plugin is alive and runnning. These metrics are meant to be collected by prometheus but can be acceses through a GET request to a specific node ip. for example curl -X get http://[pod ip]:[liveness-port][liveness-path] 2>/dev/null | grep csi the expected output should be
curl -X GET http://10.109.65.142:9080/metrics 2>/dev/null | grep csi# HELP csi_liveness Liveness Probe# TYPE csi_liveness gaugecsi_liveness 1
Check the monitoring doc to see how to integrate CSI liveness and grpc metrics into ceph monitoring.
