PLEASE NOTE: This document applies to v1.8 version and not to the latest stable release v1.9

    Disaster Recovery

    Under extenuating circumstances, steps may be necessary to recover the cluster health. There are several types of recovery addressed in this document:

    Restoring Mon Quorum

    Under extenuating circumstances, the mons may lose quorum. If the mons cannot form quorum again, there is a manual procedure to get the quorum going again. The only requirement is that at least one mon is still healthy. The following steps will remove the unhealthy mons from quorum and allow you to form a quorum again with a single mon, then grow the quorum back to the original size.

    For example, if you have three mons and lose quorum, you will need to remove the two bad mons from quorum, notify the good mon that it is the only mon in quorum, and then restart the good mon.

    Stop the operator

    First, stop the operator so it will not try to failover the mons while we are modifying the monmap

    kubectl -n rook-ceph scale deployment rook-ceph-operator --replicas=0

    Inject a new monmap

    WARNING: Injecting a monmap must be done very carefully. If run incorrectly, your cluster could be permanently destroyed.

    The Ceph monmap keeps track of the mon quorum. We will update the monmap to only contain the healthy mon. In this example, the healthy mon is rook-ceph-mon-b, while the unhealthy mons are rook-ceph-mon-a and rook-ceph-mon-c.

    Take a backup of the current rook-ceph-mon-b Deployment:

    kubectl -n rook-ceph get deployment rook-ceph-mon-b -o yaml > rook-ceph-mon-b-deployment.yaml

    Open the file and copy the command and args from the mon container (see containers list). This is needed for the monmap changes. Cleanup the copied command and args fields to form a pastable command. Example:

    The following parts of the mon container:

      - args:
        - --fsid=41a537f2-f282-428e-989f-a9e07be32e47
        - --keyring=/etc/ceph/keyring-store/keyring
        - --log-to-stderr=true
        - --err-to-stderr=true
        - --mon-cluster-log-to-stderr=true
        - '--log-stderr-prefix=debug '
        - --default-log-to-file=false
        - --default-mon-cluster-log-to-file=false
        - --mon-host=$(ROOK_CEPH_MON_HOST)
        - --mon-initial-members=$(ROOK_CEPH_MON_INITIAL_MEMBERS)
        - --id=b
        - --setuser=ceph
        - --setgroup=ceph
        - --foreground
        - --public-addr=
        - --setuser-match-path=/var/lib/ceph/mon/ceph-b/store.db
        - --public-bind-addr=$(ROOK_POD_IP)
        - ceph-mon

    Should be made into a command like this: (do not copy the example command!)

    ceph-mon \
        --fsid=41a537f2-f282-428e-989f-a9e07be32e47 \
        --keyring=/etc/ceph/keyring-store/keyring \
        --log-to-stderr=true \
        --err-to-stderr=true \
        --mon-cluster-log-to-stderr=true \
        --log-stderr-prefix=debug \
        --default-log-to-file=false \
        --default-mon-cluster-log-to-file=false \
        --mon-host=$ROOK_CEPH_MON_HOST \
        --mon-initial-members=$ROOK_CEPH_MON_INITIAL_MEMBERS \
        --id=b \
        --setuser=ceph \
        --setgroup=ceph \
        --foreground \
        --public-addr= \
        --setuser-match-path=/var/lib/ceph/mon/ceph-b/store.db \

    (be sure to remove the single quotes around the --log-stderr-prefix flag and the parenthesis around the variables being passed ROOK_CEPH_MON_HOST, ROOK_CEPH_MON_INITIAL_MEMBERS and ROOK_POD_IP )

    Patch the rook-ceph-mon-b Deployment to stop this mon working without deleting the mon pod:

    kubectl -n rook-ceph patch deployment rook-ceph-mon-b  --type='json' -p '[{"op":"remove", "path":"/spec/template/spec/containers/0/livenessProbe"}]'
    kubectl -n rook-ceph patch deployment rook-ceph-mon-b -p '{"spec": {"template": {"spec": {"containers": [{"name": "mon", "command": ["sleep", "infinity"], "args": []}]}}}}'

    Connect to the pod of a healthy mon and run the following commands.

    kubectl -n rook-ceph exec -it <mon-pod> bash
    # set a few simple variables
    # extract the monmap to a file, by pasting the ceph mon command
    # from the good mon deployment and adding the
    # `--extract-monmap=${monmap_path}` flag
    ceph-mon \
       --fsid=41a537f2-f282-428e-989f-a9e07be32e47 \
       --keyring=/etc/ceph/keyring-store/keyring \
       --log-to-stderr=true \
       --err-to-stderr=true \
       --mon-cluster-log-to-stderr=true \
       --log-stderr-prefix=debug \
       --default-log-to-file=false \
       --default-mon-cluster-log-to-file=false \
       --mon-host=$ROOK_CEPH_MON_HOST \
       --mon-initial-members=$ROOK_CEPH_MON_INITIAL_MEMBERS \
       --id=b \
       --setuser=ceph \
       --setgroup=ceph \
       --foreground \
       --public-addr= \
       --setuser-match-path=/var/lib/ceph/mon/ceph-b/store.db \
       --public-bind-addr=$ROOK_POD_IP \
    # review the contents of the monmap
    monmaptool --print /tmp/monmap
    # remove the bad mon(s) from the monmap
    monmaptool ${monmap_path} --rm <bad_mon>
    # in this example we remove mon0 and mon2:
    monmaptool ${monmap_path} --rm a
    monmaptool ${monmap_path} --rm c
    # inject the modified monmap into the good mon, by pasting
    # the ceph mon command and adding the
    # `--inject-monmap=${monmap_path}` flag, like this
    ceph-mon \
       --fsid=41a537f2-f282-428e-989f-a9e07be32e47 \
       --keyring=/etc/ceph/keyring-store/keyring \
       --log-to-stderr=true \
       --err-to-stderr=true \
       --mon-cluster-log-to-stderr=true \
       --log-stderr-prefix=debug \
       --default-log-to-file=false \
       --default-mon-cluster-log-to-file=false \
       --mon-host=$ROOK_CEPH_MON_HOST \
       --mon-initial-members=$ROOK_CEPH_MON_INITIAL_MEMBERS \
       --id=b \
       --setuser=ceph \
       --setgroup=ceph \
       --foreground \
       --public-addr= \
       --setuser-match-path=/var/lib/ceph/mon/ceph-b/store.db \
       --public-bind-addr=$ROOK_POD_IP \

    Exit the shell to continue.

    Edit the Rook configmaps

    Edit the configmap that the operator uses to track the mons.

    kubectl -n rook-ceph edit configmap rook-ceph-mon-endpoints

    In the data element you will see three mons such as the following (or more depending on your moncount):

    data: a=;b=;c=

    Delete the bad mons from the list, for example to end up with a single good mon:

    data: b=

    Save the file and exit.

    Now we need to adapt a Secret which is used for the mons and other components. The following kubectl patch command is an easy way to do that. In the end it patches the rook-ceph-config secret and updates the two key/value pairs mon_host and mon_initial_members.

    mon_host=$(kubectl -n rook-ceph get svc rook-ceph-mon-b -o jsonpath='{.spec.clusterIP}')
    kubectl -n rook-ceph patch secret rook-ceph-config -p '{"stringData": {"mon_host": "[v2:'"${mon_host}"':3300,v1:'"${mon_host}"':6789]", "mon_initial_members": "'"${good_mon_id}"'"}}'

    NOTE: If you are using hostNetwork: true, you need to replace the mon_host var with the node IP the mon is pinned to (nodeSelector). This is because there is no rook-ceph-mon-* service created in that “mode”.

    Restart the mon

    You will need to “restart” the good mon pod with the original ceph-mon command to pick up the changes. For this run kubectl replace on the backup of the mon deployment yaml:

    kubectl replace --force -f rook-ceph-mon-b-deployment.yaml

    NOTE: Option --force will delete the deployment and create a new one

    Start the rook toolbox and verify the status of the cluster.

    ceph -s

    The status should show one mon in quorum. If the status looks good, your cluster should be healthy again.

    Restart the operator

    Start the rook operator again to resume monitoring the health of the cluster.

    # create the operator. it is safe to ignore the errors that a number of resources already exist.
    kubectl -n rook-ceph scale deployment rook-ceph-operator --replicas=1

    The operator will automatically add more mons to increase the quorum size again, depending on the mon.count.

    Restoring CRDs After Deletion

    When the Rook CRDs are deleted, the Rook operator will respond to the deletion event to attempt to clean up the cluster resources. If any data appears present in the cluster, Rook will refuse to allow the resources to be deleted since the operator will refuse to remove the finalizer on the CRs until the underlying data is deleted. For more details, see the dependency design doc.

    While it is good that the CRs will not be deleted and the underlying Ceph data and daemons continue to be available, the CRs will be stuck indefinitely in a Deleting state in which the operator will not continue to ensure cluster health. Upgrades will be blocked, further updates to the CRs are prevented, and so on. Since Kubernetes does not allow undeleting resources, the following procedure will allow you to restore the CRs to their prior state without even necessarily suffering cluster downtime.

    1. Scale down the operator
    kubectl -n rook-ceph scale --replicas=0 deploy/rook-ceph-operator
    1. Backup all Rook CRs and critical metadata
    # Store the CephCluster CR settings. Also, save other Rook CRs that are in terminating state.
    kubectl -n rook-ceph get cephcluster rook-ceph -o yaml > cluster.yaml
    # Backup critical secrets and configmaps in case something goes wrong later in the procedure
    kubectl -n rook-ceph get secret -o yaml > secrets.yaml
    kubectl -n rook-ceph get configmap -o yaml > configmaps.yaml
    1. Remove the owner references from all critical Rook resources that were referencing the CephCluster CR. The critical resources include:
      • Secrets: rook-ceph-admin-keyring, rook-ceph-config, rook-ceph-mon, rook-ceph-mons-keyring
      • ConfigMap: rook-ceph-mon-endpoints
      • Services: rook-ceph-mon-*, rook-ceph-mgr-*
      • Deployments: rook-ceph-mon-*, rook-ceph-osd-*, rook-ceph-mgr-*
      • PVCs (if applicable): rook-ceph-mon-* and the OSD PVCs (named <deviceset>-*, for example set1-data-*)

    For example, remove this entire block from each resource:

    - apiVersion: ceph.rook.io/v1
        blockOwnerDeletion: true
        controller: true
        kind: CephCluster
        name: rook-ceph
        uid: <uid>
    1. After confirming all critical resources have had the owner reference to the CephCluster CR removed, now we allow the cluster CR to be deleted. Remove the finalizer by editing the CephCluster CR.
    kubectl -n rook-ceph edit cephcluster

    For example, remove the following from the CR metadata:

        - cephcluster.ceph.rook.io

    After the finalizer is removed, the CR will be immediately deleted. If all owner references were properly removed, all ceph daemons will continue running and there will be no downtime.

    1. Create the CephCluster CR with the same settings as previously
    # Use the same cluster settings as exported above in step 2.
    kubectl create -f cluster.yaml
    1. If there are other CRs in terminating state such as CephBlockPools, CephObjectStores, or CephFilesystems, follow the above steps as well for those CRs:
      • Backup the CR
      • Remove the finalizer and confirm the CR is deleted (the underlying Ceph resources will be preserved)
      • Create the CR again
    2. Scale up the operator
    kubectl -n rook-ceph scale --replicas=1 deploy/rook-ceph-operator

    Watch the operator log to confirm that the reconcile completes successfully.

    Adopt an existing Rook Ceph cluster into a new Kubernetes cluster

    Situations this section can help resolve:

    1. The Kubernetes environment underlying a running Rook Ceph cluster failed catastrophically, requiring a new Kubernetes environment in which the user wishes to recover the previous Rook Ceph cluster.
    2. The user wishes to migrate their existing Rook Ceph cluster to a new Kubernetes environment, and downtime can be tolerated.


    1. A working Kubernetes cluster to which we will migrate the previous Rook Ceph cluster.
    2. At least one Ceph mon db is in quorum, and sufficient number of Ceph OSD is up and in before disaster.
    3. The previous Rook Ceph cluster is not running.

    Overview for Steps below

    1. Start a new and clean Rook Ceph cluster, with old CephCluster CephBlockPool CephFilesystem CephNFS CephObjectStore.
    2. Shut the new cluster down when it has been created successfully.
    3. Replace ceph-mon data with that of the old cluster.
    4. Replace fsid in secrets/rook-ceph-mon with that of the old one.
    5. Fix monmap in ceph-mon db.
    6. Fix ceph mon auth key.
    7. Disable auth.
    8. Start the new cluster, watch it resurrect.
    9. Fix admin auth key, and enable auth.
    10. Restart cluster for the final time.


    Assuming dataHostPathData is /var/lib/rook, and the CephCluster trying to adopt is named rook-ceph.

    1. Make sure the old Kubernetes cluster is completely torn down and the new Kubernetes cluster is up and running without Rook Ceph.
    2. Backup /var/lib/rook in all the Rook Ceph nodes to a different directory. Backups will be used later.
    3. Pick a /var/lib/rook/rook-ceph/rook-ceph.config from any previous Rook Ceph node and save the old cluster fsid from its content.
    4. Remove /var/lib/rook from all the Rook Ceph nodes.
    5. Add identical CephCluster descriptor to the new Kubernetes cluster, especially identical spec.storage.config and spec.storage.nodes, except mon.count, which should be set to 1.
    6. Add identical CephFilesystem CephBlockPool CephNFS CephObjectStore descriptors (if any) to the new Kubernetes cluster.
    7. Install Rook Ceph in the new Kubernetes cluster.
    8. Watch the operator logs with kubectl -n rook-ceph logs -f rook-ceph-operator-xxxxxxx, and wait until the orchestration has settled.
    9. STATE: Now the cluster will have rook-ceph-mon-a, rook-ceph-mgr-a, and all the auxiliary pods up and running, and zero (hopefully) rook-ceph-osd-ID-xxxxxx running. ceph -s output should report 1 mon, 1 mgr running, and all of the OSDs down, all PGs are in unknown state. Rook should not start any OSD daemon since all devices belongs to the old cluster (which have a different fsid).
    10. Run kubectl -n rook-ceph exec -it rook-ceph-mon-a-xxxxxxxx bash to enter the rook-ceph-mon-a pod,

       mon-a# cat /etc/ceph/keyring-store/keyring  # save this keyring content for later use
       mon-a# exit
    11. Stop the Rook operator by running kubectl -n rook-ceph edit deploy/rook-ceph-operator and set replicas to 0.
    12. Stop cluster daemons by running kubectl -n rook-ceph delete deploy/X where X is every deployment in namespace rook-ceph, except rook-ceph-operator and rook-ceph-tools.
    13. Save the rook-ceph-mon-a address with kubectl -n rook-ceph get cm/rook-ceph-mon-endpoints -o yaml in the new Kubernetes cluster for later use.

    14. SSH to the host where rook-ceph-mon-a in the new Kubernetes cluster resides.
      1. Remove /var/lib/rook/mon-a
      2. Pick a healthy rook-ceph-mon-ID directory (/var/lib/rook/mon-ID) in the previous backup, copy to /var/lib/rook/mon-a. ID is any healthy mon node ID of the old cluster.
      3. Replace /var/lib/rook/mon-a/keyring with the saved keyring, preserving only the [mon.] section, remove [client.admin] section.
      4. Run docker run -it --rm -v /var/lib/rook:/var/lib/rook ceph/ceph:v14.2.1-20190430 bash. The Docker image tag should match the Ceph version used in the Rook cluster. The /etc/ceph/ceph.conf file needs to exist for ceph-mon to work.

         touch /etc/ceph/ceph.conf
         cd /var/lib/rook
         ceph-mon --extract-monmap monmap --mon-data ./mon-a/data  # Extract monmap from old ceph-mon db and save as monmap
         monmaptool --print monmap  # Print the monmap content, which reflects the old cluster ceph-mon configuration.
         monmaptool --rm a monmap  # Delete `a` from monmap.
         monmaptool --rm b monmap  # Repeat, and delete `b` from monmap.
         monmaptool --rm c monmap  # Repeat this pattern until all the old ceph-mons are removed
         monmaptool --rm d monmap
         monmaptool --rm e monmap
         monmaptool --addv a [v2:,v1:] monmap   # Replace it with the rook-ceph-mon-a address you got from previous command.
         ceph-mon --inject-monmap monmap --mon-data ./mon-a/data  # Replace monmap in ceph-mon db with our modified version.
         rm monmap
    15. Tell Rook to run as old cluster by running kubectl -n rook-ceph edit secret/rook-ceph-mon and changing fsid to the original fsid. Note that the fsid is base64 encoded and must not contain a trailing carriage return. For example:

       $ echo -n a811f99a-d865-46b7-8f2c-f94c064e4356 | base64  # Replace with the fsid from your old cluster.
    16. Disable authentication by running kubectl -n rook-ceph edit cm/rook-config-override and adding content below:

       config: |
           auth cluster required = none
           auth service required = none
           auth client required = none
           auth supported = none
    17. Bring the Rook Ceph operator back online by running kubectl -n rook-ceph edit deploy/rook-ceph-operator and set replicas to 1.
    18. Watch the operator logs with kubectl -n rook-ceph logs -f rook-ceph-operator-xxxxxxx, and wait until the orchestration has settled.
    19. STATE: Now the new cluster should be up and running with authentication disabled. ceph -s should report 1 mon & 1 mgr & all of the OSDs up and running, and all PGs in either active or degraded state.
    20. Run kubectl -n rook-ceph exec -it rook-ceph-tools-XXXXXXX bash to enter tools pod:

       vi key
       # [paste keyring content saved before, preserving only `[client admin]` section]
       ceph auth import -i key
       rm key
    21. Re-enable authentication by running kubectl -n rook-ceph edit cm/rook-config-override and removing auth configuration added in previous steps.
    22. Stop the Rook operator by running kubectl -n rook-ceph edit deploy/rook-ceph-operator and set replicas to 0.
    23. Shut down entire new cluster by running kubectl -n rook-ceph delete deploy/X where X is every deployment in namespace rook-ceph, except rook-ceph-operator and rook-ceph-tools, again. This time OSD daemons are present and should be removed too.
    24. Bring the Rook Ceph operator back online by running kubectl -n rook-ceph edit deploy/rook-ceph-operator and set replicas to 1.
    25. Watch the operator logs with kubectl -n rook-ceph logs -f rook-ceph-operator-xxxxxxx, and wait until the orchestration has settled.
    26. STATE: Now the new cluster should be up and running with authentication enabled. ceph -s output should not change much comparing to previous steps.

    Backing up and restoring a cluster based on PVCs into a new Kubernetes cluster

    It is possible to migrate/restore an rook/ceph cluster from an existing Kubernetes cluster to a new one without resorting to SSH access or ceph tooling. This allows doing the migration using standard kubernetes resources only. This guide assumes the following

    1. You have a CephCluster that uses PVCs to persist mon and osd data. Let’s call it the “old cluster”
    2. You can restore the PVCs as-is in the new cluster. Usually this is done by taking regular snapshots of the PVC volumes and using a tool that can re-create PVCs from these snapshots in the underlying cloud provider. Velero is one such tool. (https://github.com/vmware-tanzu/velero)
    3. You have regular backups of the secrets and configmaps in the rook-ceph namespace. Velero provides this functionality too.

    Do the following in the new cluster:

    1. Stop the rook operator by scaling the deployment rook-ceph-operator down to zero: kubectl -n rook-ceph scale deployment rook-ceph-operator --replicas 0 and deleting the other deployments. An example command to do this is k -n rook-ceph delete deployment -l operator!=rook
    2. Restore the rook PVCs to the new cluster.
    3. Copy the keyring and fsid secrets from the old cluster: rook-ceph-mgr-a-keyring, rook-ceph-mon, rook-ceph-mons-keyring, rook-ceph-osd-0-keyring, …
    4. Delete mon services and copy them from the old cluster: rook-ceph-mon-a, rook-ceph-mon-b, … Note that simply re-applying won’t work because the goal here is to restore the clusterIP in each service and this field is immutable in Service resources.
    5. Copy the endpoints configmap from the old cluster: rook-ceph-mon-endpoints
    6. Scale the rook operator up again : kubectl -n rook-ceph scale deployment rook-ceph-operator --replicas 1
    7. Wait until the reconciliation is over.