3.11. Persistent storage using NFS
OpenShift Container Platform clusters can be provisioned with persistent storage using NFS. Persistent volumes (PVs) and persistent volume claims (PVCs) provide a convenient method for sharing a volume across a project. While the NFS-specific information contained in a PV definition could also be defined directly in a Pod
definition, doing so does not create the volume as a distinct cluster resource, making the volume more susceptible to conflicts.
Additional resources
3.11.1. Provisioning
Storage must exist in the underlying infrastructure before it can be mounted as a volume in OpenShift Container Platform. To provision NFS volumes, a list of NFS servers and export paths are all that is required.
Procedure
Create an object definition for the PV:
apiVersion: v1 kind: PersistentVolume metadata: name: pv0001 1 spec: capacity: storage: 5Gi 2 accessModes: - ReadWriteOnce 3 nfs: 4 path: /tmp 5 server: 172.17.0.2 6 persistentVolumeReclaimPolicy: Retain 7
- 1
- The name of the volume. This is the PV identity in various
oc <command> pod
commands. - 2
- The amount of storage allocated to this volume.
- 3
- Though this appears to be related to controlling access to the volume, it is actually used similarly to labels and used to match a PVC to a PV. Currently, no access rules are enforced based on the
accessModes
. - 4
- The volume type being used, in this case the
nfs
plug-in. - 5
- The path that is exported by the NFS server.
- 6
- The host name or IP address of the NFS server.
- 7
- The reclaim policy for the PV. This defines what happens to a volume when released.
注意Each NFS volume must be mountable by all schedulable nodes in the cluster.
Verify that the PV was created:
$ oc get pv
Example output
NAME LABELS CAPACITY ACCESSMODES STATUS CLAIM REASON AGE pv0001 <none> 5Gi RWO Available 31s
Create a persistent volume claim that binds to the new PV:
apiVersion: v1 kind: PersistentVolumeClaim metadata: name: nfs-claim1 spec: accessModes: - ReadWriteOnce 1 resources: requests: storage: 5Gi 2
Verify that the persistent volume claim was created:
$ oc get pvc NAME STATUS VOLUME CAPACITY ACCESS MODES STORAGECLASS AGE nfs-claim1 Bound pv0001 5Gi RWO gp2 2m
3.11.2. Enforcing disk quotas
You can use disk partitions to enforce disk quotas and size constraints. Each partition can be its own export. Each export is one PV. OpenShift Container Platform enforces unique names for PVs, but the uniqueness of the NFS volume’s server and path is up to the administrator.
Enforcing quotas in this way allows the developer to request persistent storage by a specific amount, such as 10Gi, and be matched with a corresponding volume of equal or greater capacity.
3.11.3. NFS volume security
This section covers NFS volume security, including matching permissions and SELinux considerations. The user is expected to understand the basics of POSIX permissions, process UIDs, supplemental groups, and SELinux.
Developers request NFS storage by referencing either a PVC by name or the NFS volume plug-in directly in the volumes
section of their Pod
definition.
The /etc/exports
file on the NFS server contains the accessible NFS directories. The target NFS directory has POSIX owner and group IDs. The OpenShift Container Platform NFS plug-in mounts the container’s NFS directory with the same POSIX ownership and permissions found on the exported NFS directory. However, the container is not run with its effective UID equal to the owner of the NFS mount, which is the desired behavior.
As an example, if the target NFS directory appears on the NFS server as:
$ ls -lZ /opt/nfs -d
Example output
drwxrws---. nfsnobody 5555 unconfined_u:object_r:usr_t:s0 /opt/nfs
$ id nfsnobody
Example output
uid=65534(nfsnobody) gid=65534(nfsnobody) groups=65534(nfsnobody)
Then the container must match SELinux labels, and either run with a UID of 65534
, the nfsnobody
owner, or with 5555
in its supplemental groups to access the directory.
The owner ID of 65534
is used as an example. Even though NFS’s root_squash
maps root
, uid 0
, to nfsnobody
, uid 65534
, NFS exports can have arbitrary owner IDs. Owner 65534
is not required for NFS exports.
3.11.3.1. Group IDs
The recommended way to handle NFS access, assuming it is not an option to change permissions on the NFS export, is to use supplemental groups. Supplemental groups in OpenShift Container Platform are used for shared storage, of which NFS is an example. In contrast, block storage such as iSCSI uses the fsGroup
SCC strategy and the fsGroup
value in the securityContext
of the pod.
To gain access to persistent storage, it is generally preferable to use supplemental group IDs versus user IDs.
Because the group ID on the example target NFS directory is 5555
, the Pod can define that group ID using supplementalGroups
under the securityContext
definition of the pod. For example:
spec: containers: - name: ... securityContext: 1 supplementalGroups: [5555] 2
Assuming there are no custom SCCs that might satisfy the pod requirements, the pod likely matches the restricted
SCC. This SCC has the supplementalGroups
strategy set to RunAsAny
, meaning that any supplied group ID is accepted without range checking.
As a result, the above pod passes admissions and is launched. However, if group ID range checking is desired, a custom SCC is the preferred solution. A custom SCC can be created such that minimum and maximum group IDs are defined, group ID range checking is enforced, and a group ID of 5555
is allowed.
To use a custom SCC, you must first add it to the appropriate service account. For example, use the default
service account in the given project unless another has been specified on the Pod
specification.
3.11.3.2. User IDs
User IDs can be defined in the container image or in the Pod
definition.
It is generally preferable to use supplemental group IDs to gain access to persistent storage versus using user IDs.
In the example target NFS directory shown above, the container needs its UID set to 65534
, ignoring group IDs for the moment, so the following can be added to the Pod
definition:
spec: containers: 1 - name: ... securityContext: runAsUser: 65534 2
Assuming that the project is default
and the SCC is restricted
, the user ID of 65534
as requested by the pod is not allowed. Therefore, the pod fails for the following reasons:
-
It requests
65534
as its user ID. -
All SCCs available to the Pod are examined to see which SCC allows a user ID of
65534
. While all policies of the SCCs are checked, the focus here is on user ID. -
Because all available SCCs use
MustRunAsRange
for theirrunAsUser
strategy, UID range checking is required. -
65534
is not included in the SCC or project’s user ID range.
It is generally considered a good practice not to modify the predefined SCCs. The preferred way to fix this situation is to create a custom SCC A custom SCC can be created such that minimum and maximum user IDs are defined, UID range checking is still enforced, and the UID of 65534
is allowed.
To use a custom SCC, you must first add it to the appropriate service account. For example, use the default
service account in the given project unless another has been specified on the Pod
specification.
3.11.3.3. SELinux
Red Hat Enterprise Linux (RHEL) and Red Hat Enterprise Linux CoreOS (RHCOS) systems are configured to use SELinux on remote NFS servers by default.
For non-RHEL and non-RHCOS systems, SELinux does not allow writing from a pod to a remote NFS server. The NFS volume mounts correctly but it is read-only. You will need to enable the correct SELinux permissions by using the following procedure.
Prerequisites
-
The
container-selinux
package must be installed. This package provides thevirt_use_nfs
SELinux boolean.
Procedure
Enable the
virt_use_nfs
boolean using the following command. The-P
option makes this boolean persistent across reboots.# setsebool -P virt_use_nfs 1
3.11.3.4. Export settings
To enable arbitrary container users to read and write the volume, each exported volume on the NFS server should conform to the following conditions:
Every export must be exported using the following format:
/<example_fs> *(rw,root_squash)
The firewall must be configured to allow traffic to the mount point.
For NFSv4, configure the default port
2049
(nfs).NFSv4
# iptables -I INPUT 1 -p tcp --dport 2049 -j ACCEPT
For NFSv3, there are three ports to configure:
2049
(nfs),20048
(mountd), and111
(portmapper).NFSv3
# iptables -I INPUT 1 -p tcp --dport 2049 -j ACCEPT
# iptables -I INPUT 1 -p tcp --dport 20048 -j ACCEPT
# iptables -I INPUT 1 -p tcp --dport 111 -j ACCEPT
-
The NFS export and directory must be set up so that they are accessible by the target pods. Either set the export to be owned by the container’s primary UID, or supply the pod group access using
supplementalGroups
, as shown in the group IDs above.
3.11.4. Reclaiming resources
NFS implements the OpenShift Container Platform Recyclable
plug-in interface. Automatic processes handle reclamation tasks based on policies set on each persistent volume.
By default, PVs are set to Retain
.
Once claim to a PVC is deleted, and the PV is released, the PV object should not be reused. Instead, a new PV should be created with the same basic volume details as the original.
For example, the administrator creates a PV named nfs1
:
apiVersion: v1 kind: PersistentVolume metadata: name: nfs1 spec: capacity: storage: 1Mi accessModes: - ReadWriteMany nfs: server: 192.168.1.1 path: "/"
The user creates PVC1
, which binds to nfs1
. The user then deletes PVC1
, releasing claim to nfs1
. This results in nfs1
being Released
. If the administrator wants to make the same NFS share available, they should create a new PV with the same NFS server details, but a different PV name:
apiVersion: v1 kind: PersistentVolume metadata: name: nfs2 spec: capacity: storage: 1Mi accessModes: - ReadWriteMany nfs: server: 192.168.1.1 path: "/"
Deleting the original PV and re-creating it with the same name is discouraged. Attempting to manually change the status of a PV from Released
to Available
causes errors and potential data loss.
3.11.5. Additional configuration and troubleshooting
Depending on what version of NFS is being used and how it is configured, there may be additional configuration steps needed for proper export and security mapping. The following are some that may apply:
NFSv4 mount incorrectly shows all files with ownership of |
|
Disabling ID mapping on NFSv4 |
|