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Chapter 8. High availability for hosted control planes
8.1. Recovering an unhealthy etcd cluster
In a highly available control plane, three etcd pods run as a part of a stateful set in an etcd cluster. To recover an etcd cluster, identify unhealthy etcd pods by checking the etcd cluster health.
8.1.1. Checking the status of an etcd cluster
You can check the status of the etcd cluster health by logging into any etcd pod.
Procedure
Log in to an etcd pod by entering the following command:
$ oc rsh -n <hosted_control_plane_namespace> -c etcd <etcd_pod_name>
Print the health status of an etcd cluster by entering the following command:
sh-4.4$ etcdctl endpoint health --cluster -w table
Example output
ENDPOINT HEALTH TOOK ERROR https://etcd-0.etcd-discovery.clusters-hosted.svc:2379 true 9.117698ms
8.1.2. Recovering a failing etcd pod
Each etcd pod of a 3-node cluster has its own persistent volume claim (PVC) to store its data. An etcd pod might fail because of corrupted or missing data. You can recover a failing etcd pod and its PVC.
Procedure
To confirm that the etcd pod is failing, enter the following command:
$ oc get pods -l app=etcd -n <hosted_control_plane_namespace>
Example output
NAME READY STATUS RESTARTS AGE etcd-0 2/2 Running 0 64m etcd-1 2/2 Running 0 45m etcd-2 1/2 CrashLoopBackOff 1 (5s ago) 64m
The failing etcd pod might have the
CrashLoopBackOff
orError
status.Delete the failing pod and its PVC by entering the following command:
$ oc delete pvc/<etcd_pvc_name> pod/<etcd_pod_name> --wait=false
Verification
Verify that a new etcd pod is up and running by entering the following command:
$ oc get pods -l app=etcd -n <hosted_control_plane_namespace>
Example output
NAME READY STATUS RESTARTS AGE etcd-0 2/2 Running 0 67m etcd-1 2/2 Running 0 48m etcd-2 2/2 Running 0 2m2s
8.2. Backing up and restoring etcd in an on-premise environment
You can back up and restore etcd on a hosted cluster in an on-premise environment to fix failures.
8.2.1. Backing up and restoring etcd on a hosted cluster in an on-premise environment
By backing up and restoring etcd on a hosted cluster, you can fix failures, such as corrupted or missing data in an etcd member of a three node cluster. If multiple members of the etcd cluster encounter data loss or have a CrashLoopBackOff
status, this approach helps prevent an etcd quorum loss.
This procedure requires API downtime.
Prerequisites
-
The
oc
andjq
binaries have been installed.
Procedure
First, set up your environment variables and scale down the API servers:
Set up environment variables for your hosted cluster by entering the following commands, replacing values as necessary:
$ CLUSTER_NAME=my-cluster
$ HOSTED_CLUSTER_NAMESPACE=clusters
$ CONTROL_PLANE_NAMESPACE="${HOSTED_CLUSTER_NAMESPACE}-${CLUSTER_NAME}"
Pause reconciliation of the hosted cluster by entering the following command, replacing values as necessary:
$ oc patch -n ${HOSTED_CLUSTER_NAMESPACE} hostedclusters/${CLUSTER_NAME} -p '{"spec":{"pausedUntil":"true"}}' --type=merge
Scale down the API servers by entering the following commands:
Scale down the
kube-apiserver
:$ oc scale -n ${CONTROL_PLANE_NAMESPACE} deployment/kube-apiserver --replicas=0
Scale down the
openshift-apiserver
:$ oc scale -n ${CONTROL_PLANE_NAMESPACE} deployment/openshift-apiserver --replicas=0
Scale down the
openshift-oauth-apiserver
:$ oc scale -n ${CONTROL_PLANE_NAMESPACE} deployment/openshift-oauth-apiserver --replicas=0
Next, take a snapshot of etcd by using one of the following methods:
- Use a previously backed-up snapshot of etcd.
If you have an available etcd pod, take a snapshot from the active etcd pod by completing the following steps:
List etcd pods by entering the following command:
$ oc get -n ${CONTROL_PLANE_NAMESPACE} pods -l app=etcd
Take a snapshot of the pod database and save it locally to your machine by entering the following commands:
$ ETCD_POD=etcd-0
$ oc exec -n ${CONTROL_PLANE_NAMESPACE} -c etcd -t ${ETCD_POD} -- env ETCDCTL_API=3 /usr/bin/etcdctl \ --cacert /etc/etcd/tls/etcd-ca/ca.crt \ --cert /etc/etcd/tls/client/etcd-client.crt \ --key /etc/etcd/tls/client/etcd-client.key \ --endpoints=https://localhost:2379 \ snapshot save /var/lib/snapshot.db
Verify that the snapshot is successful by entering the following command:
$ oc exec -n ${CONTROL_PLANE_NAMESPACE} -c etcd -t ${ETCD_POD} -- env ETCDCTL_API=3 /usr/bin/etcdctl -w table snapshot status /var/lib/snapshot.db
Make a local copy of the snapshot by entering the following command:
$ oc cp -c etcd ${CONTROL_PLANE_NAMESPACE}/${ETCD_POD}:/var/lib/snapshot.db /tmp/etcd.snapshot.db
Make a copy of the snapshot database from etcd persistent storage:
List etcd pods by entering the following command:
$ oc get -n ${CONTROL_PLANE_NAMESPACE} pods -l app=etcd
Find a pod that is running and set its name as the value of
ETCD_POD: ETCD_POD=etcd-0
, and then copy its snapshot database by entering the following command:$ oc cp -c etcd ${CONTROL_PLANE_NAMESPACE}/${ETCD_POD}:/var/lib/data/member/snap/db /tmp/etcd.snapshot.db
Next, scale down the etcd statefulset by entering the following command:
$ oc scale -n ${CONTROL_PLANE_NAMESPACE} statefulset/etcd --replicas=0
Delete volumes for second and third members by entering the following command:
$ oc delete -n ${CONTROL_PLANE_NAMESPACE} pvc/data-etcd-1 pvc/data-etcd-2
Create a pod to access the first etcd member’s data:
Get the etcd image by entering the following command:
$ ETCD_IMAGE=$(oc get -n ${CONTROL_PLANE_NAMESPACE} statefulset/etcd -o jsonpath='{ .spec.template.spec.containers[0].image }')
Create a pod that allows access to etcd data:
$ cat << EOF | oc apply -n ${CONTROL_PLANE_NAMESPACE} -f - apiVersion: apps/v1 kind: Deployment metadata: name: etcd-data spec: replicas: 1 selector: matchLabels: app: etcd-data template: metadata: labels: app: etcd-data spec: containers: - name: access image: $ETCD_IMAGE volumeMounts: - name: data mountPath: /var/lib command: - /usr/bin/bash args: - -c - |- while true; do sleep 1000 done volumes: - name: data persistentVolumeClaim: claimName: data-etcd-0 EOF
Check the status of the
etcd-data
pod and wait for it to be running by entering the following command:$ oc get -n ${CONTROL_PLANE_NAMESPACE} pods -l app=etcd-data
Get the name of the
etcd-data
pod by entering the following command:$ DATA_POD=$(oc get -n ${CONTROL_PLANE_NAMESPACE} pods --no-headers -l app=etcd-data -o name | cut -d/ -f2)
Copy an etcd snapshot into the pod by entering the following command:
$ oc cp /tmp/etcd.snapshot.db ${CONTROL_PLANE_NAMESPACE}/${DATA_POD}:/var/lib/restored.snap.db
Remove old data from the
etcd-data
pod by entering the following commands:$ oc exec -n ${CONTROL_PLANE_NAMESPACE} ${DATA_POD} -- rm -rf /var/lib/data
$ oc exec -n ${CONTROL_PLANE_NAMESPACE} ${DATA_POD} -- mkdir -p /var/lib/data
Restore the etcd snapshot by entering the following command:
$ oc exec -n ${CONTROL_PLANE_NAMESPACE} ${DATA_POD} -- etcdutl snapshot restore /var/lib/restored.snap.db \ --data-dir=/var/lib/data --skip-hash-check \ --name etcd-0 \ --initial-cluster-token=etcd-cluster \ --initial-cluster etcd-0=https://etcd-0.etcd-discovery.${CONTROL_PLANE_NAMESPACE}.svc:2380,etcd-1=https://etcd-1.etcd-discovery.${CONTROL_PLANE_NAMESPACE}.svc:2380,etcd-2=https://etcd-2.etcd-discovery.${CONTROL_PLANE_NAMESPACE}.svc:2380 \ --initial-advertise-peer-urls https://etcd-0.etcd-discovery.${CONTROL_PLANE_NAMESPACE}.svc:2380
Remove the temporary etcd snapshot from the pod by entering the following command:
$ oc exec -n ${CONTROL_PLANE_NAMESPACE} ${DATA_POD} -- rm /var/lib/restored.snap.db
Delete data access deployment by entering the following command:
$ oc delete -n ${CONTROL_PLANE_NAMESPACE} deployment/etcd-data
Scale up the etcd cluster by entering the following command:
$ oc scale -n ${CONTROL_PLANE_NAMESPACE} statefulset/etcd --replicas=3
Wait for the etcd member pods to return and report as available by entering the following command:
$ oc get -n ${CONTROL_PLANE_NAMESPACE} pods -l app=etcd -w
Scale up all etcd-writer deployments by entering the following command:
$ oc scale deployment -n ${CONTROL_PLANE_NAMESPACE} --replicas=3 kube-apiserver openshift-apiserver openshift-oauth-apiserver
Restore reconciliation of the hosted cluster by entering the following command:
$ oc patch -n ${CLUSTER_NAMESPACE} hostedclusters/${CLUSTER_NAME} -p '{"spec":{"pausedUntil":""}}' --type=merge
8.3. Backing up and restoring etcd on AWS
You can back up and restore etcd on a hosted cluster on Amazon Web Services (AWS) to fix failures.
Hosted control planes on the AWS platform is a Technology Preview feature only. Technology Preview features are not supported with Red Hat production service level agreements (SLAs) and might not be functionally complete. Red Hat does not recommend using them in production. These features provide early access to upcoming product features, enabling customers to test functionality and provide feedback during the development process.
For more information about the support scope of Red Hat Technology Preview features, see Technology Preview Features Support Scope.
8.3.1. Taking a snapshot of etcd for a hosted cluster
To back up etcd for a hosted cluster, you must take a snapshot of etcd. Later, you can restore etcd by using the snapshot.
This procedure requires API downtime.
Procedure
Pause reconciliation of the hosted cluster by entering the following command:
$ oc patch -n clusters hostedclusters/<hosted_cluster_name> -p '{"spec":{"pausedUntil":"true"}}' --type=merge
Stop all etcd-writer deployments by entering the following command:
$ oc scale deployment -n <hosted_cluster_namespace> --replicas=0 kube-apiserver openshift-apiserver openshift-oauth-apiserver
To take an etcd snapshot, use the
exec
command in each etcd container by entering the following command:$ oc exec -it <etcd_pod_name> -n <hosted_cluster_namespace> -- env ETCDCTL_API=3 /usr/bin/etcdctl --cacert /etc/etcd/tls/etcd-ca/ca.crt --cert /etc/etcd/tls/client/etcd-client.crt --key /etc/etcd/tls/client/etcd-client.key --endpoints=localhost:2379 snapshot save /var/lib/data/snapshot.db
To check the snapshot status, use the
exec
command in each etcd container by running the following command:$ oc exec -it <etcd_pod_name> -n <hosted_cluster_namespace> -- env ETCDCTL_API=3 /usr/bin/etcdctl -w table snapshot status /var/lib/data/snapshot.db
Copy the snapshot data to a location where you can retrieve it later, such as an S3 bucket. See the following example.
NoteThe following example uses signature version 2. If you are in a region that supports signature version 4, such as the
us-east-2
region, use signature version 4. Otherwise, when copying the snapshot to an S3 bucket, the upload fails.Example
BUCKET_NAME=somebucket FILEPATH="/${BUCKET_NAME}/${CLUSTER_NAME}-snapshot.db" CONTENT_TYPE="application/x-compressed-tar" DATE_VALUE=`date -R` SIGNATURE_STRING="PUT\n\n${CONTENT_TYPE}\n${DATE_VALUE}\n${FILEPATH}" ACCESS_KEY=accesskey SECRET_KEY=secret SIGNATURE_HASH=`echo -en ${SIGNATURE_STRING} | openssl sha1 -hmac ${SECRET_KEY} -binary | base64` oc exec -it etcd-0 -n ${HOSTED_CLUSTER_NAMESPACE} -- curl -X PUT -T "/var/lib/data/snapshot.db" \ -H "Host: ${BUCKET_NAME}.s3.amazonaws.com" \ -H "Date: ${DATE_VALUE}" \ -H "Content-Type: ${CONTENT_TYPE}" \ -H "Authorization: AWS ${ACCESS_KEY}:${SIGNATURE_HASH}" \ https://${BUCKET_NAME}.s3.amazonaws.com/${CLUSTER_NAME}-snapshot.db
To restore the snapshot on a new cluster later, save the encryption secret that the hosted cluster references.
Get the secret encryption key by entering the following command:
$ oc get hostedcluster <hosted_cluster_name> -o=jsonpath='{.spec.secretEncryption.aescbc}' {"activeKey":{"name":"<hosted_cluster_name>-etcd-encryption-key"}}
Save the secret encryption key by entering the following command:
$ oc get secret <hosted_cluster_name>-etcd-encryption-key -o=jsonpath='{.data.key}'
You can decrypt this key when restoring a snapshot on a new cluster.
Next steps
Restore the etcd snapshot.
8.3.2. Restoring an etcd snapshot on a hosted cluster
If you have a snapshot of etcd from your hosted cluster, you can restore it. Currently, you can restore an etcd snapshot only during cluster creation.
To restore an etcd snapshot, you modify the output from the create cluster --render
command and define a restoreSnapshotURL
value in the etcd section of the HostedCluster
specification.
The --render
flag in the hcp create
command does not render the secrets. To render the secrets, you must use both the --render
and the --render-sensitive
flags in the hcp create
command.
Prerequisites
You took an etcd snapshot on a hosted cluster.
Procedure
On the
aws
command-line interface (CLI), create a pre-signed URL so that you can download your etcd snapshot from S3 without passing credentials to the etcd deployment:ETCD_SNAPSHOT=${ETCD_SNAPSHOT:-"s3://${BUCKET_NAME}/${CLUSTER_NAME}-snapshot.db"} ETCD_SNAPSHOT_URL=$(aws s3 presign ${ETCD_SNAPSHOT})
Modify the
HostedCluster
specification to refer to the URL:spec: etcd: managed: storage: persistentVolume: size: 4Gi type: PersistentVolume restoreSnapshotURL: - "${ETCD_SNAPSHOT_URL}" managementType: Managed
-
Ensure that the secret that you referenced from the
spec.secretEncryption.aescbc
value contains the same AES key that you saved in the previous steps.
8.4. Disaster recovery for a hosted cluster in AWS
You can recover a hosted cluster to the same region within Amazon Web Services (AWS). For example, you need disaster recovery when the upgrade of a management cluster fails and the hosted cluster is in a read-only state.
Hosted control planes is a Technology Preview feature only. Technology Preview features are not supported with Red Hat production service level agreements (SLAs) and might not be functionally complete. Red Hat does not recommend using them in production. These features provide early access to upcoming product features, enabling customers to test functionality and provide feedback during the development process.
For more information about the support scope of Red Hat Technology Preview features, see Technology Preview Features Support Scope.
The disaster recovery process involves the following steps:
- Backing up the hosted cluster on the source management cluster
- Restoring the hosted cluster on a destination management cluster
- Deleting the hosted cluster from the source management cluster
Your workloads remain running during the process. The Cluster API might be unavailable for a period, but that does not affect the services that are running on the worker nodes.
Both the source management cluster and the destination management cluster must have the --external-dns
flags to maintain the API server URL. That way, the server URL ends with https://api-sample-hosted.sample-hosted.aws.openshift.com
. See the following example:
Example: External DNS flags
--external-dns-provider=aws \ --external-dns-credentials=<path_to_aws_credentials_file> \ --external-dns-domain-filter=<basedomain>
If you do not include the --external-dns
flags to maintain the API server URL, you cannot migrate the hosted cluster.
8.4.1. Overview of the backup and restore process
The backup and restore process works as follows:
On management cluster 1, which you can think of as the source management cluster, the control plane and workers interact by using the external DNS API. The external DNS API is accessible, and a load balancer sits between the management clusters.
You take a snapshot of the hosted cluster, which includes etcd, the control plane, and the worker nodes. During this process, the worker nodes continue to try to access the external DNS API even if it is not accessible, the workloads are running, the control plane is saved in a local manifest file, and etcd is backed up to an S3 bucket. The data plane is active and the control plane is paused.
On management cluster 2, which you can think of as the destination management cluster, you restore etcd from the S3 bucket and restore the control plane from the local manifest file. During this process, the external DNS API is stopped, the hosted cluster API becomes inaccessible, and any workers that use the API are unable to update their manifest files, but the workloads are still running.
The external DNS API is accessible again, and the worker nodes use it to move to management cluster 2. The external DNS API can access the load balancer that points to the control plane.
On management cluster 2, the control plane and worker nodes interact by using the external DNS API. The resources are deleted from management cluster 1, except for the S3 backup of etcd. If you try to set up the hosted cluster again on mangagement cluster 1, it will not work.
8.4.2. Backing up a hosted cluster
To recover your hosted cluster in your target management cluster, you first need to back up all of the relevant data.
Procedure
Create a configmap file to declare the source management cluster by entering this command:
$ oc create configmap mgmt-parent-cluster -n default --from-literal=from=${MGMT_CLUSTER_NAME}
Shut down the reconciliation in the hosted cluster and in the node pools by entering these commands:
$ PAUSED_UNTIL="true" $ oc patch -n ${HC_CLUSTER_NS} hostedclusters/${HC_CLUSTER_NAME} -p '{"spec":{"pausedUntil":"'${PAUSED_UNTIL}'"}}' --type=merge $ oc scale deployment -n ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} --replicas=0 kube-apiserver openshift-apiserver openshift-oauth-apiserver control-plane-operator
$ PAUSED_UNTIL="true" $ oc patch -n ${HC_CLUSTER_NS} hostedclusters/${HC_CLUSTER_NAME} -p '{"spec":{"pausedUntil":"'${PAUSED_UNTIL}'"}}' --type=merge $ oc patch -n ${HC_CLUSTER_NS} nodepools/${NODEPOOLS} -p '{"spec":{"pausedUntil":"'${PAUSED_UNTIL}'"}}' --type=merge $ oc scale deployment -n ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} --replicas=0 kube-apiserver openshift-apiserver openshift-oauth-apiserver control-plane-operator
Back up etcd and upload the data to an S3 bucket by running this bash script:
TipWrap this script in a function and call it from the main function.
# ETCD Backup ETCD_PODS="etcd-0" if [ "${CONTROL_PLANE_AVAILABILITY_POLICY}" = "HighlyAvailable" ]; then ETCD_PODS="etcd-0 etcd-1 etcd-2" fi for POD in ${ETCD_PODS}; do # Create an etcd snapshot oc exec -it ${POD} -n ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} -- env ETCDCTL_API=3 /usr/bin/etcdctl --cacert /etc/etcd/tls/client/etcd-client-ca.crt --cert /etc/etcd/tls/client/etcd-client.crt --key /etc/etcd/tls/client/etcd-client.key --endpoints=localhost:2379 snapshot save /var/lib/data/snapshot.db oc exec -it ${POD} -n ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} -- env ETCDCTL_API=3 /usr/bin/etcdctl -w table snapshot status /var/lib/data/snapshot.db FILEPATH="/${BUCKET_NAME}/${HC_CLUSTER_NAME}-${POD}-snapshot.db" CONTENT_TYPE="application/x-compressed-tar" DATE_VALUE=`date -R` SIGNATURE_STRING="PUT\n\n${CONTENT_TYPE}\n${DATE_VALUE}\n${FILEPATH}" set +x ACCESS_KEY=$(grep aws_access_key_id ${AWS_CREDS} | head -n1 | cut -d= -f2 | sed "s/ //g") SECRET_KEY=$(grep aws_secret_access_key ${AWS_CREDS} | head -n1 | cut -d= -f2 | sed "s/ //g") SIGNATURE_HASH=$(echo -en ${SIGNATURE_STRING} | openssl sha1 -hmac "${SECRET_KEY}" -binary | base64) set -x # FIXME: this is pushing to the OIDC bucket oc exec -it etcd-0 -n ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} -- curl -X PUT -T "/var/lib/data/snapshot.db" \ -H "Host: ${BUCKET_NAME}.s3.amazonaws.com" \ -H "Date: ${DATE_VALUE}" \ -H "Content-Type: ${CONTENT_TYPE}" \ -H "Authorization: AWS ${ACCESS_KEY}:${SIGNATURE_HASH}" \ https://${BUCKET_NAME}.s3.amazonaws.com/${HC_CLUSTER_NAME}-${POD}-snapshot.db done
For more information about backing up etcd, see "Backing up and restoring etcd on a hosted cluster".
Back up Kubernetes and OpenShift Container Platform objects by entering the following commands. You need to back up the following objects:
-
HostedCluster
andNodePool
objects from the HostedCluster namespace -
HostedCluster
secrets from the HostedCluster namespace -
HostedControlPlane
from the Hosted Control Plane namespace -
Cluster
from the Hosted Control Plane namespace -
AWSCluster
,AWSMachineTemplate
, andAWSMachine
from the Hosted Control Plane namespace -
MachineDeployments
,MachineSets
, andMachines
from the Hosted Control Plane namespace ControlPlane
secrets from the Hosted Control Plane namespace$ mkdir -p ${BACKUP_DIR}/namespaces/${HC_CLUSTER_NS} ${BACKUP_DIR}/namespaces/${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} $ chmod 700 ${BACKUP_DIR}/namespaces/ # HostedCluster $ echo "Backing Up HostedCluster Objects:" $ oc get hc ${HC_CLUSTER_NAME} -n ${HC_CLUSTER_NS} -o yaml > ${BACKUP_DIR}/namespaces/${HC_CLUSTER_NS}/hc-${HC_CLUSTER_NAME}.yaml $ echo "--> HostedCluster" $ sed -i '' -e '/^status:$/,$d' ${BACKUP_DIR}/namespaces/${HC_CLUSTER_NS}/hc-${HC_CLUSTER_NAME}.yaml # NodePool $ oc get np ${NODEPOOLS} -n ${HC_CLUSTER_NS} -o yaml > ${BACKUP_DIR}/namespaces/${HC_CLUSTER_NS}/np-${NODEPOOLS}.yaml $ echo "--> NodePool" $ sed -i '' -e '/^status:$/,$ d' ${BACKUP_DIR}/namespaces/${HC_CLUSTER_NS}/np-${NODEPOOLS}.yaml # Secrets in the HC Namespace $ echo "--> HostedCluster Secrets:" for s in $(oc get secret -n ${HC_CLUSTER_NS} | grep "^${HC_CLUSTER_NAME}" | awk '{print $1}'); do oc get secret -n ${HC_CLUSTER_NS} $s -o yaml > ${BACKUP_DIR}/namespaces/${HC_CLUSTER_NS}/secret-${s}.yaml done # Secrets in the HC Control Plane Namespace $ echo "--> HostedCluster ControlPlane Secrets:" for s in $(oc get secret -n ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} | egrep -v "docker|service-account-token|oauth-openshift|NAME|token-${HC_CLUSTER_NAME}" | awk '{print $1}'); do oc get secret -n ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} $s -o yaml > ${BACKUP_DIR}/namespaces/${HC_CLUSTER_NS}-${HC_CLUSTER_NAME}/secret-${s}.yaml done # Hosted Control Plane $ echo "--> HostedControlPlane:" $ oc get hcp ${HC_CLUSTER_NAME} -n ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} -o yaml > ${BACKUP_DIR}/namespaces/${HC_CLUSTER_NS}-${HC_CLUSTER_NAME}/hcp-${HC_CLUSTER_NAME}.yaml # Cluster $ echo "--> Cluster:" $ CL_NAME=$(oc get hcp ${HC_CLUSTER_NAME} -n ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} -o jsonpath={.metadata.labels.\*} | grep ${HC_CLUSTER_NAME}) $ oc get cluster ${CL_NAME} -n ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} -o yaml > ${BACKUP_DIR}/namespaces/${HC_CLUSTER_NS}-${HC_CLUSTER_NAME}/cl-${HC_CLUSTER_NAME}.yaml # AWS Cluster $ echo "--> AWS Cluster:" $ oc get awscluster ${HC_CLUSTER_NAME} -n ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} -o yaml > ${BACKUP_DIR}/namespaces/${HC_CLUSTER_NS}-${HC_CLUSTER_NAME}/awscl-${HC_CLUSTER_NAME}.yaml # AWS MachineTemplate $ echo "--> AWS Machine Template:" $ oc get awsmachinetemplate ${NODEPOOLS} -n ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} -o yaml > ${BACKUP_DIR}/namespaces/${HC_CLUSTER_NS}-${HC_CLUSTER_NAME}/awsmt-${HC_CLUSTER_NAME}.yaml # AWS Machines $ echo "--> AWS Machine:" $ CL_NAME=$(oc get hcp ${HC_CLUSTER_NAME} -n ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} -o jsonpath={.metadata.labels.\*} | grep ${HC_CLUSTER_NAME}) for s in $(oc get awsmachines -n ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} --no-headers | grep ${CL_NAME} | cut -f1 -d\ ); do oc get -n ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} awsmachines $s -o yaml > ${BACKUP_DIR}/namespaces/${HC_CLUSTER_NS}-${HC_CLUSTER_NAME}/awsm-${s}.yaml done # MachineDeployments $ echo "--> HostedCluster MachineDeployments:" for s in $(oc get machinedeployment -n ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} -o name); do mdp_name=$(echo ${s} | cut -f 2 -d /) oc get -n ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} $s -o yaml > ${BACKUP_DIR}/namespaces/${HC_CLUSTER_NS}-${HC_CLUSTER_NAME}/machinedeployment-${mdp_name}.yaml done # MachineSets $ echo "--> HostedCluster MachineSets:" for s in $(oc get machineset -n ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} -o name); do ms_name=$(echo ${s} | cut -f 2 -d /) oc get -n ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} $s -o yaml > ${BACKUP_DIR}/namespaces/${HC_CLUSTER_NS}-${HC_CLUSTER_NAME}/machineset-${ms_name}.yaml done # Machines $ echo "--> HostedCluster Machine:" for s in $(oc get machine -n ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} -o name); do m_name=$(echo ${s} | cut -f 2 -d /) oc get -n ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} $s -o yaml > ${BACKUP_DIR}/namespaces/${HC_CLUSTER_NS}-${HC_CLUSTER_NAME}/machine-${m_name}.yaml done
-
Clean up the
ControlPlane
routes by entering this command:$ oc delete routes -n ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} --all
By entering that command, you enable the ExternalDNS Operator to delete the Route53 entries.
Verify that the Route53 entries are clean by running this script:
function clean_routes() { if [[ -z "${1}" ]];then echo "Give me the NS where to clean the routes" exit 1 fi # Constants if [[ -z "${2}" ]];then echo "Give me the Route53 zone ID" exit 1 fi ZONE_ID=${2} ROUTES=10 timeout=40 count=0 # This allows us to remove the ownership in the AWS for the API route oc delete route -n ${1} --all while [ ${ROUTES} -gt 2 ] do echo "Waiting for ExternalDNS Operator to clean the DNS Records in AWS Route53 where the zone id is: ${ZONE_ID}..." echo "Try: (${count}/${timeout})" sleep 10 if [[ $count -eq timeout ]];then echo "Timeout waiting for cleaning the Route53 DNS records" exit 1 fi count=$((count+1)) ROUTES=$(aws route53 list-resource-record-sets --hosted-zone-id ${ZONE_ID} --max-items 10000 --output json | grep -c ${EXTERNAL_DNS_DOMAIN}) done } # SAMPLE: clean_routes "<HC ControlPlane Namespace>" "<AWS_ZONE_ID>" clean_routes "${HC_CLUSTER_NS}-${HC_CLUSTER_NAME}" "${AWS_ZONE_ID}"
Verification
Check all of the OpenShift Container Platform objects and the S3 bucket to verify that everything looks as expected.
Next steps
Restore your hosted cluster.
8.4.3. Restoring a hosted cluster
Gather all of the objects that you backed up and restore them in your destination management cluster.
Prerequisites
You backed up the data from your source management cluster.
Ensure that the kubeconfig
file of the destination management cluster is placed as it is set in the KUBECONFIG
variable or, if you use the script, in the MGMT2_KUBECONFIG
variable. Use export KUBECONFIG=<Kubeconfig FilePath>
or, if you use the script, use export KUBECONFIG=${MGMT2_KUBECONFIG}
.
Procedure
Verify that the new management cluster does not contain any namespaces from the cluster that you are restoring by entering these commands:
# Just in case $ export KUBECONFIG=${MGMT2_KUBECONFIG} $ BACKUP_DIR=${HC_CLUSTER_DIR}/backup # Namespace deletion in the destination Management cluster $ oc delete ns ${HC_CLUSTER_NS} || true $ oc delete ns ${HC_CLUSTER_NS}-{HC_CLUSTER_NAME} || true
Re-create the deleted namespaces by entering these commands:
# Namespace creation $ oc new-project ${HC_CLUSTER_NS} $ oc new-project ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME}
Restore the secrets in the HC namespace by entering this command:
$ oc apply -f ${BACKUP_DIR}/namespaces/${HC_CLUSTER_NS}/secret-*
Restore the objects in the
HostedCluster
control plane namespace by entering these commands:# Secrets $ oc apply -f ${BACKUP_DIR}/namespaces/${HC_CLUSTER_NS}-${HC_CLUSTER_NAME}/secret-* # Cluster $ oc apply -f ${BACKUP_DIR}/namespaces/${HC_CLUSTER_NS}-${HC_CLUSTER_NAME}/hcp-* $ oc apply -f ${BACKUP_DIR}/namespaces/${HC_CLUSTER_NS}-${HC_CLUSTER_NAME}/cl-*
If you are recovering the nodes and the node pool to reuse AWS instances, restore the objects in the HC control plane namespace by entering these commands:
# AWS $ oc apply -f ${BACKUP_DIR}/namespaces/${HC_CLUSTER_NS}-${HC_CLUSTER_NAME}/awscl-* $ oc apply -f ${BACKUP_DIR}/namespaces/${HC_CLUSTER_NS}-${HC_CLUSTER_NAME}/awsmt-* $ oc apply -f ${BACKUP_DIR}/namespaces/${HC_CLUSTER_NS}-${HC_CLUSTER_NAME}/awsm-* # Machines $ oc apply -f ${BACKUP_DIR}/namespaces/${HC_CLUSTER_NS}-${HC_CLUSTER_NAME}/machinedeployment-* $ oc apply -f ${BACKUP_DIR}/namespaces/${HC_CLUSTER_NS}-${HC_CLUSTER_NAME}/machineset-* $ oc apply -f ${BACKUP_DIR}/namespaces/${HC_CLUSTER_NS}-${HC_CLUSTER_NAME}/machine-*
Restore the etcd data and the hosted cluster by running this bash script:
ETCD_PODS="etcd-0" if [ "${CONTROL_PLANE_AVAILABILITY_POLICY}" = "HighlyAvailable" ]; then ETCD_PODS="etcd-0 etcd-1 etcd-2" fi HC_RESTORE_FILE=${BACKUP_DIR}/namespaces/${HC_CLUSTER_NS}/hc-${HC_CLUSTER_NAME}-restore.yaml HC_BACKUP_FILE=${BACKUP_DIR}/namespaces/${HC_CLUSTER_NS}/hc-${HC_CLUSTER_NAME}.yaml HC_NEW_FILE=${BACKUP_DIR}/namespaces/${HC_CLUSTER_NS}/hc-${HC_CLUSTER_NAME}-new.yaml cat ${HC_BACKUP_FILE} > ${HC_NEW_FILE} cat > ${HC_RESTORE_FILE} <<EOF restoreSnapshotURL: EOF for POD in ${ETCD_PODS}; do # Create a pre-signed URL for the etcd snapshot ETCD_SNAPSHOT="s3://${BUCKET_NAME}/${HC_CLUSTER_NAME}-${POD}-snapshot.db" ETCD_SNAPSHOT_URL=$(AWS_DEFAULT_REGION=${MGMT2_REGION} aws s3 presign ${ETCD_SNAPSHOT}) # FIXME no CLI support for restoreSnapshotURL yet cat >> ${HC_RESTORE_FILE} <<EOF - "${ETCD_SNAPSHOT_URL}" EOF done cat ${HC_RESTORE_FILE} if ! grep ${HC_CLUSTER_NAME}-snapshot.db ${HC_NEW_FILE}; then sed -i '' -e "/type: PersistentVolume/r ${HC_RESTORE_FILE}" ${HC_NEW_FILE} sed -i '' -e '/pausedUntil:/d' ${HC_NEW_FILE} fi HC=$(oc get hc -n ${HC_CLUSTER_NS} ${HC_CLUSTER_NAME} -o name || true) if [[ ${HC} == "" ]];then echo "Deploying HC Cluster: ${HC_CLUSTER_NAME} in ${HC_CLUSTER_NS} namespace" oc apply -f ${HC_NEW_FILE} else echo "HC Cluster ${HC_CLUSTER_NAME} already exists, avoiding step" fi
If you are recovering the nodes and the node pool to reuse AWS instances, restore the node pool by entering this command:
$ oc apply -f ${BACKUP_DIR}/namespaces/${HC_CLUSTER_NS}/np-*
Verification
To verify that the nodes are fully restored, use this function:
timeout=40 count=0 NODE_STATUS=$(oc get nodes --kubeconfig=${HC_KUBECONFIG} | grep -v NotReady | grep -c "worker") || NODE_STATUS=0 while [ ${NODE_POOL_REPLICAS} != ${NODE_STATUS} ] do echo "Waiting for Nodes to be Ready in the destination MGMT Cluster: ${MGMT2_CLUSTER_NAME}" echo "Try: (${count}/${timeout})" sleep 30 if [[ $count -eq timeout ]];then echo "Timeout waiting for Nodes in the destination MGMT Cluster" exit 1 fi count=$((count+1)) NODE_STATUS=$(oc get nodes --kubeconfig=${HC_KUBECONFIG} | grep -v NotReady | grep -c "worker") || NODE_STATUS=0 done
Next steps
Shut down and delete your cluster.
8.4.4. Deleting a hosted cluster from your source management cluster
After you back up your hosted cluster and restore it to your destination management cluster, you shut down and delete the hosted cluster on your source management cluster.
Prerequisites
You backed up your data and restored it to your source management cluster.
Ensure that the kubeconfig
file of the destination management cluster is placed as it is set in the KUBECONFIG
variable or, if you use the script, in the MGMT_KUBECONFIG
variable. Use export KUBECONFIG=<Kubeconfig FilePath>
or, if you use the script, use export KUBECONFIG=${MGMT_KUBECONFIG}
.
Procedure
Scale the
deployment
andstatefulset
objects by entering these commands:ImportantDo not scale the stateful set if the value of its
spec.persistentVolumeClaimRetentionPolicy.whenScaled
field is set toDelete
, because this could lead to a loss of data.As a workaround, update the value of the
spec.persistentVolumeClaimRetentionPolicy.whenScaled
field toRetain
. Ensure that no controllers exist that reconcile the stateful set and would return the value back toDelete
, which could lead to a loss of data.# Just in case $ export KUBECONFIG=${MGMT_KUBECONFIG} # Scale down deployments $ oc scale deployment -n ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} --replicas=0 --all $ oc scale statefulset.apps -n ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} --replicas=0 --all $ sleep 15
Delete the
NodePool
objects by entering these commands:NODEPOOLS=$(oc get nodepools -n ${HC_CLUSTER_NS} -o=jsonpath='{.items[?(@.spec.clusterName=="'${HC_CLUSTER_NAME}'")].metadata.name}') if [[ ! -z "${NODEPOOLS}" ]];then oc patch -n "${HC_CLUSTER_NS}" nodepool ${NODEPOOLS} --type=json --patch='[ { "op":"remove", "path": "/metadata/finalizers" }]' oc delete np -n ${HC_CLUSTER_NS} ${NODEPOOLS} fi
Delete the
machine
andmachineset
objects by entering these commands:# Machines for m in $(oc get machines -n ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} -o name); do oc patch -n ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} ${m} --type=json --patch='[ { "op":"remove", "path": "/metadata/finalizers" }]' || true oc delete -n ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} ${m} || true done $ oc delete machineset -n ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} --all || true
Delete the cluster object by entering these commands:
# Cluster $ C_NAME=$(oc get cluster -n ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} -o name) $ oc patch -n ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} ${C_NAME} --type=json --patch='[ { "op":"remove", "path": "/metadata/finalizers" }]' $ oc delete cluster.cluster.x-k8s.io -n ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} --all
Delete the AWS machines (Kubernetes objects) by entering these commands. Do not worry about deleting the real AWS machines. The cloud instances will not be affected.
# AWS Machines for m in $(oc get awsmachine.infrastructure.cluster.x-k8s.io -n ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} -o name) do oc patch -n ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} ${m} --type=json --patch='[ { "op":"remove", "path": "/metadata/finalizers" }]' || true oc delete -n ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} ${m} || true done
Delete the
HostedControlPlane
andControlPlane
HC namespace objects by entering these commands:# Delete HCP and ControlPlane HC NS $ oc patch -n ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} hostedcontrolplane.hypershift.openshift.io ${HC_CLUSTER_NAME} --type=json --patch='[ { "op":"remove", "path": "/metadata/finalizers" }]' $ oc delete hostedcontrolplane.hypershift.openshift.io -n ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} --all $ oc delete ns ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} || true
Delete the
HostedCluster
and HC namespace objects by entering these commands:# Delete HC and HC Namespace $ oc -n ${HC_CLUSTER_NS} patch hostedclusters ${HC_CLUSTER_NAME} -p '{"metadata":{"finalizers":null}}' --type merge || true $ oc delete hc -n ${HC_CLUSTER_NS} ${HC_CLUSTER_NAME} || true $ oc delete ns ${HC_CLUSTER_NS} || true
Verification
To verify that everything works, enter these commands:
# Validations $ export KUBECONFIG=${MGMT2_KUBECONFIG} $ oc get hc -n ${HC_CLUSTER_NS} $ oc get np -n ${HC_CLUSTER_NS} $ oc get pod -n ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} $ oc get machines -n ${HC_CLUSTER_NS}-${HC_CLUSTER_NAME} # Inside the HostedCluster $ export KUBECONFIG=${HC_KUBECONFIG} $ oc get clusterversion $ oc get nodes
Next steps
Delete the OVN pods in the hosted cluster so that you can connect to the new OVN control plane that runs in the new management cluster:
-
Load the
KUBECONFIG
environment variable with the hosted cluster’s kubeconfig path. Enter this command:
$ oc delete pod -n openshift-ovn-kubernetes --all