b9cd0e18ad
This is a part of the stateless set of commits for CephCSI. This commit removes the dependency on config maps to store cephFS provisioned volumes, and instead relies on RADOS based objects and keys, and required CSI VolumeID encoding to detect the provisioned volumes. Changes: - Provide backward compatibility to provisioned volumes by older plugin versions (1.0.0 or older) - Remove Create/Delete support for statically provisioned volumes (fixes #382) - Added namespace support to RADOS OMaps and used the same to store RADOS CSI objects and keys in the CephFS metadata pool - Added support to mention fsname for CephFS provisioning (fixes #359) - Changed field name in CSI Identifier to 'location', to denote a pool or fscid - Updated mounter cache to use new scheme - Required Helm manifests are updated - Required documentation and other manifests are updated - Made driver option 'metadatastorage' as optional, as fresh installs do not need to specify the same Testing done: - Create/Mount/Delete PVC - Create/Delete 5 PVCs - Mount version 1.0.0 PVC - Delete version 1.0.0 PV - Mount Statically defined PV/PVC/Pod - Mount Statically defined version 1.0.0 PV/PVC/Pod - Delete Statically defined version 1.0.0 PV/PVC/Pod - Node restart when mounted to test mountcache - Use InstanceID other than 'default' - RBD basic round of tests, as namespace is added to OMaps - csitest against ceph-fs plugin - NOTE: CephFS plugin still does not detect and address already created volumes but of a different size - Test not providing any value to the metadata storage parameter Signed-off-by: ShyamsundarR <srangana@redhat.com>
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CSI CephFS plugin
The CSI CephFS plugin is able to both provision new CephFS volumes and attach and mount existing ones to workloads.
Building
CSI plugin can be compiled in the form of a binary file or in the form
of a Docker image.
When compiled as a binary file, the result is stored in _output/
directory with the name cephcsi.
When compiled as an image, it's stored in the local Docker image store
with name cephcsi.
Building binary:
make cephcsi
Building Docker image:
make image-cephcsi
Configuration
Available command line arguments:
| Option | Default value | Description |
|---|---|---|
--endpoint |
unix://tmp/csi.sock |
CSI endpoint, must be a UNIX socket |
--drivername |
cephfs.csi.ceph.com |
Name of the driver (Kubernetes: provisioner field in StorageClass must correspond to this value) |
--nodeid |
empty | This node's ID |
--type |
empty | Driver type `[rbd |
--volumemounter |
empty | Default volume mounter. Available options are kernel and fuse. This is the mount method used if volume parameters don't specify otherwise. If left unspecified, the driver will first probe for ceph-fuse in system's path and will choose Ceph kernel client if probing failed. |
--mountcachedir |
empty | Volume mount cache info save dir. If left unspecified, the dirver will not record mount info, or it will save mount info and when driver restart it will remount volume it cached. |
--instanceid |
"default" | Unique ID distinguishing this instance of Ceph CSI among other instances, when sharing Ceph clusters across CSI instances for provisioning |
--metadatastorage |
empty | Points to where older (1.0.0 or older plugin versions) metadata about provisioned volumes are kept, as file or in as k8s configmap (node or k8s_configmap respectively) |
Available environmental variables:
KUBERNETES_CONFIG_PATH: if you use k8s_configmap as metadata store, specify
the path of your k8s config file (if not specified, the plugin will assume
you're running it inside a k8s cluster and find the config itself).
POD_NAMESPACE: if you use k8s_configmap as metadata store, POD_NAMESPACE
is used to define in which namespace you want the configmaps to be stored
Available volume parameters:
| Parameter | Required | Description |
|---|---|---|
clusterID |
yes | String representing a Ceph cluster, must be unique across all Ceph clusters in use for provisioning, cannot be greater than 36 bytes in length, and should remain immutable for the lifetime of the Ceph cluster in use |
fsName |
yes | CephFS filesystem name into which the volume shall be created |
mounter |
no | Mount method to be used for this volume. Available options are kernel for Ceph kernel client and fuse for Ceph FUSE driver. Defaults to "default mounter", see command line arguments. |
pool |
yes | Ceph pool into which the volume shall be created |
csi.storage.k8s.io/provisioner-secret-name, csi.storage.k8s.io/node-stage-secret-name |
for Kubernetes | Name of the Kubernetes Secret object containing Ceph client credentials. Both parameters should have the same value |
csi.storage.k8s.io/provisioner-secret-namespace, csi.storage.k8s.io/node-stage-secret-namespace |
for Kubernetes | Namespaces of the above Secret objects |
NOTE: An accompanying CSI configuration file, needs to be provided to the running pods. Refer to Creating CSI configuration for more information.
NOTE: A suggested way to populate and retain uniqueness of the clusterID is
to use the output of ceph fsid of the Ceph cluster to be used for
provisioning.
Required secrets for provisioning: Admin credentials are required for provisioning new volumes
adminID: ID of an admin clientadminKey: key of the admin client
Required secrets for statically provisioned volumes: User credentials with access to an existing volume
userID: ID of a user clientuserKey: key of a user client
Notes on volume size: when provisioning a new volume, max_bytes quota
attribute for this volume will be set to the requested volume size (see Ceph
quota documentation). A request
for a zero-sized volume means no quota attribute will be set.
Deployment with Kubernetes
Requires Kubernetes 1.13
Your Kubernetes cluster must allow privileged pods (i.e. --allow-privileged
flag must be set to true for both the API server and the kubelet). Moreover, as
stated in the mount propagation
docs,
the Docker daemon of the cluster nodes must allow shared mounts.
YAML manifests are located in deploy/cephfs/kubernetes.
Deploy RBACs for sidecar containers and node plugins:
kubectl create -f csi-provisioner-rbac.yaml
kubectl create -f csi-nodeplugin-rbac.yaml
Those manifests deploy service accounts, cluster roles and cluster role bindings. These are shared for both RBD and CephFS CSI plugins, as they require the same permissions.
Deploy CSI sidecar containers:
kubectl create -f csi-cephfsplugin-provisioner.yaml
Deploys stateful set of provision which includes external-provisioner ,external-attacher for CSI CephFS.
Deploy CSI CephFS driver:
kubectl create -f csi-cephfsplugin.yaml
Deploys a daemon set with two containers: CSI node-driver-registrar and the CSI CephFS driver.
Verifying the deployment in Kubernetes
After successfully completing the steps above, you should see output similar to this:
$ kubectl get all
NAME READY STATUS RESTARTS AGE
pod/csi-cephfsplugin-provisioner-0 3/3 Running 0 25s
pod/csi-cephfsplugin-rljcv 2/2 Running 0 24s
NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE
service/csi-cephfsplugin-provisioner ClusterIP 10.101.78.75 <none> 12345/TCP 26s
...
Once the CSI plugin configuration is updated with details from a Ceph cluster of choice, you can try deploying a demo pod from examples/cephfs using the instructions provided to test the deployment further.
Notes on volume deletion
Dynamically povisioned volumes are deleted by the driver, when requested to do so. Statically provisioned volumes, from plugin versions less than or equal to 1.0.0, are a no-op when a delete operation is performed against the same, and are expected to be deleted on the Ceph cluster by the user.