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257 lines
7.5 KiB
Markdown
257 lines
7.5 KiB
Markdown
# How to test RBD and CephFS plugins with Kubernetes 1.14+
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## Deploying Ceph-CSI services
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Both `rbd` and `cephfs` directories contain `plugin-deploy.sh` and
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`plugin-teardown.sh` helper scripts. You can use those to help you
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deploy/teardown RBACs, sidecar containers and the plugin in one go.
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By default, they look for the YAML manifests in
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`../../deploy/{rbd,cephfs}/kubernetes`.
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You can override this path by running
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```bash
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./plugin-deploy.sh /path/to/my/manifests
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```
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## Creating CSI configuration
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The CSI plugin requires configuration information regarding the Ceph cluster(s),
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that would host the dynamically or statically provisioned volumes. This
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is provided by adding a per-cluster identifier (referred to as clusterID), and
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the required monitor details for the same, as in the provided [sample config
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map](./csi-config-map-sample.yaml).
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Gather the following information from the Ceph cluster(s) of choice,
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* Ceph monitor list
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* Typically in the output of `ceph mon dump`
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* Used to prepare a list of `monitors` in the CSI configuration file
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* Ceph Cluster fsid
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* If choosing to use the Ceph cluster fsid as the unique value of clusterID,
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* Output of `ceph fsid`
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* Alternatively, choose a `<cluster-id>` value that is distinct per Ceph
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cluster in use by this kubernetes cluster
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Update the [sample configmap](./csi-config-map-sample.yaml) with values
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from a Ceph cluster and replace `<cluster-id>` with the chosen clusterID, to
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create the manifest for the configmap which can be updated in the cluster
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using the following command,
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```bash
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kubectl replace -f ./csi-config-map-sample.yaml
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```
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Storage class and snapshot class, using `<cluster-id>` as the value for the
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option `clusterID`, can now be created on the cluster.
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## Deploying the storage class
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Once the plugin is successfully deployed, you'll need to customize
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`storageclass.yaml` and `secret.yaml` manifests to reflect your Ceph cluster
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setup.
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Please consult the documentation for info about available parameters.
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After configuring the secrets, monitors, etc. you can deploy a
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testing Pod mounting a RBD image / CephFS volume:
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```bash
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kubectl create -f secret.yaml
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kubectl create -f storageclass.yaml
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kubectl create -f pvc.yaml
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kubectl create -f pod.yaml
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```
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Other helper scripts:
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* `logs.sh` output of the plugin
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* `exec-bash.sh` logs into the plugin's container and runs bash
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### How to test RBD Snapshot feature
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Before continuing, make sure you enabled the required
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feature gate `VolumeSnapshotDataSource=true` in your Kubernetes cluster.
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In the `examples/rbd` directory you will find two files related to snapshots:
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[snapshotclass.yaml](./rbd/snapshotclass.yaml) and
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[snapshot.yaml](./rbd/snapshot.yaml).
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Once you created your RBD volume, you'll need to customize at least
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`snapshotclass.yaml` and make sure the `clusterid` parameter matches
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your Ceph cluster setup.
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If you followed the documentation to create the rbdplugin, you shouldn't
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have to edit any other file.
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Note that it is recommended to create a volume snapshot or a PVC clone
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only when the PVC is not in use.
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After configuring everything you needed, deploy the snapshot class:
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```bash
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kubectl create -f snapshotclass.yaml
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```
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Verify that the snapshot class was created:
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```console
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$ kubectl get volumesnapshotclass
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NAME AGE
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csi-rbdplugin-snapclass 4s
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```
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Create a snapshot from the existing PVC:
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```bash
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kubectl create -f snapshot.yaml
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```
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To verify if your volume snapshot has successfully been created, run the following:
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```console
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$ kubectl get volumesnapshot
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NAME AGE
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rbd-pvc-snapshot 6s
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```
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To check the status of the snapshot, run the following:
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```bash
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$ kubectl describe volumesnapshot rbd-pvc-snapshot
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Name: rbd-pvc-snapshot
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Namespace: default
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Labels: <none>
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Annotations: <none>
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API Version: snapshot.storage.k8s.io/v1alpha1
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Kind: VolumeSnapshot
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Metadata:
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Creation Timestamp: 2019-02-06T08:52:34Z
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Finalizers:
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snapshot.storage.kubernetes.io/volumesnapshot-protection
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Generation: 5
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Resource Version: 84239
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Self Link: /apis/snapshot.storage.k8s.io/v1alpha1/namespaces/default/volumesnapshots/rbd-pvc-snapshot
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UID: 8b9b5740-29ec-11e9-8e0f-b8ca3aad030b
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Spec:
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Snapshot Class Name: csi-rbdplugin-snapclass
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Snapshot Content Name: snapcontent-8b9b5740-29ec-11e9-8e0f-b8ca3aad030b
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Source:
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API Group: <nil>
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Kind: PersistentVolumeClaim
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Name: rbd-pvc
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Status:
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Creation Time: 2019-02-06T08:52:34Z
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Ready To Use: true
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Restore Size: 1Gi
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Events: <none>
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```
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To be sure everything is OK you can run `rbd snap ls [your-pvc-name]` inside
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one of your Ceph pod.
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To restore the snapshot to a new PVC, deploy
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[pvc-restore.yaml](./rbd/pvc-restore.yaml) and a testing pod
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[pod-restore.yaml](./rbd/pod-restore.yaml):
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```bash
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kubectl create -f pvc-restore.yaml
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kubectl create -f pod-restore.yaml
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```
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### How to test RBD MULTI_NODE_MULTI_WRITER BLOCK feature
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Requires feature-gates: `BlockVolume=true` `CSIBlockVolume=true`
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*NOTE* The MULTI_NODE_MULTI_WRITER capability is only available for
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Volumes that are of access_type `block`
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*WARNING* This feature is strictly for workloads that know how to deal
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with concurrent access to the Volume (eg Active/Passive applications).
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Using RWX modes on non clustered file systems with applications trying
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to simultaneously access the Volume will likely result in data corruption!
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Following are examples for issuing a request for a `Block`
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`ReadWriteMany` Claim, and using the resultant Claim for a POD
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```yaml
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apiVersion: v1
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kind: PersistentVolumeClaim
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metadata:
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name: block-pvc
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spec:
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accessModes:
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- ReadWriteMany
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volumeMode: Block
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resources:
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requests:
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storage: 1Gi
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storageClassName: csi-rbd-sc
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```
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Create a POD that uses this PVC:
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```yaml
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apiVersion: v1
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kind: Pod
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metadata:
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name: my-pod
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spec:
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containers:
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- name: my-container
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image: docker.io/library/debian:latest
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command: ["/bin/bash", "-c"]
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args: [ "tail -f /dev/null" ]
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volumeDevices:
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- devicePath: /dev/rbdblock
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name: my-volume
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imagePullPolicy: IfNotPresent
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volumes:
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- name: my-volume
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persistentVolumeClaim:
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claimName: block-pvc
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```
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Now, we can create a second POD (ensure the POD is scheduled on a different
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node; multiwriter single node works without this feature) that also uses this
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PVC at the same time, again wait for the pod to enter running state, and verify
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the block device is available.
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```yaml
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apiVersion: v1
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kind: Pod
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metadata:
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name: another-pod
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spec:
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containers:
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- name: my-container
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image: docker.io/library/debian:latest
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command: ["/bin/bash", "-c"]
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args: [ "tail -f /dev/null" ]
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volumeDevices:
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- devicePath: /dev/rbdblock
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name: my-volume
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imagePullPolicy: IfNotPresent
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volumes:
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- name: my-volume
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persistentVolumeClaim:
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claimName: block-pvc
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```
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Wait for the PODs to enter Running state, check that our block device
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is available in the container at `/dev/rdbblock` in both containers:
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```bash
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$ kubectl exec -it my-pod -- fdisk -l /dev/rbdblock
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Disk /dev/rbdblock: 1 GiB, 1073741824 bytes, 2097152 sectors
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Units: sectors of 1 * 512 = 512 bytes
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Sector size (logical/physical): 512 bytes / 512 bytes
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I/O size (minimum/optimal): 4194304 bytes / 4194304 bytes
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```
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```bash
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$ kubectl exec -it another-pod -- fdisk -l /dev/rbdblock
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Disk /dev/rbdblock: 1 GiB, 1073741824 bytes, 2097152 sectors
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Units: sectors of 1 * 512 = 512 bytes
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Sector size (logical/physical): 512 bytes / 512 bytes
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I/O size (minimum/optimal): 4194304 bytes / 4194304 bytes
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```
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