Disaster Recovery for FerretDB with Percona Postgres Operator
Prerequisites
- AWS Cli
- yq
- kubectl
- Nova Control Plane installed with 3 workload clusters connected
The paths to files will be defined relatively to try-nova root directory.
We will first export these environment variables so that subsequent steps in this tutorial can be easily followed.
export NOVA_NAMESPACE=elotl
export NOVA_CONTROLPLANE_CONTEXT=nova
export NOVA_WORKLOAD_CLUSTER_1=wlc-1
export NOVA_WORKLOAD_CLUSTER_2=wlc-2
Export these additional environment variables if you installed Nova using the tarball.
export K8S_HOSTING_CLUSTER_CONTEXT=k8s-cluster-hosting-cp
export NOVA_WORKLOAD_CLUSTER_1=wlc-1
export NOVA_WORKLOAD_CLUSTER_2=wlc-2
Alternatively export these environment variables if you installed Nova using setup scripts provided in the try-nova repository.
export K8S_HOSTING_CLUSTER_CONTEXT=kind-hosting-cluster
export K8S_CLUSTER_CONTEXT_1=kind-wlc-1
export K8S_CLUSTER_CONTEXT_2=kind-wlc-2
Setting Up S3 Access for Backups
Our first step involves setting up an S3 bucket for backups. Follow these commands to create a bucket and configure access:
- Create S3 bucket
REGION=eu-west-2
aws s3api create-bucket \
--bucket nova-ferretdb-backup \
--region $REGION \
--create-bucket-configuration LocationConstraint=$REGION
- Create IAM Policy:
aws iam create-policy \
--policy-name read-write-list-s3-nova-ferretdb-backup \
--policy-document file://examples/percona-disaster-recovery/s3-policy.json
- List Policies to Verify:
aws iam list-policies --query 'Policies[?PolicyName==`read-write-list-s3-nova-ferretdb-backup`].Arn' --output text
- Create User and Attach Policy:
aws iam create-user --no-cli-pager --user-name s3-backup-service-account
POLICYARN=$(aws iam list-policies --query 'Policies[?PolicyName==`read-write-list-s3-nova-ferretdb-backup`].Arn' --output text)
aws iam attach-user-policy \
--policy-arn $POLICYARN \
--user-name s3-backup-service-account
aws iam create-access-key --user-name s3-backup-service-account
NOTE Before rerunning this tutorial make sure that used bucket is empty.
{
"AccessKey": {
"UserName": "s3-backup-service-account",
"AccessKeyId": "AKIAXXXX",
"Status": "Active",
"SecretAccessKey": "VaC0xxxx",
"CreateDate": "2023-12-13T13:59:34+00:00"
}
}
Note down the AccessKeyId and SecretAccessKey values and substitute in examples/percona-disaster-recovery/template-s3-bucket-access-key-secret.txt
base64 -i examples/percona-disaster-recovery/template-s3-bucket-access-key-secret.txt
Place output in examples/percona-disaster-recovery/s3-access-secret.yaml
Installing Percona PostgreSQL Operator
Now let's install the Percona PostgreSQL Operator and set up the clusters:
- Create Schedule Policies: Below policies will schedule PostgreSQL Operator to cluster 1 and 2, primary PostgreSQL cluster to 1 and standby to 2. HaProxy will be also scheduled to cluster 2. FerretDB deployments will be scheduled to cluster 1 and 2.
envsubst < "examples/ferretdb-percona-disaster-recovery/schedule-policies.yaml" > "./schedule-policies.yaml"
kubectl --context=${NOVA_CONTROLPLANE_CONTEXT} create -f ./schedule-policies.yaml
envsubst < "examples/ferretdb-percona-disaster-recovery/policy-spread-ferretdb.yaml" > "./policy-spread-ferretdb.yaml"
kubectl --context=${NOVA_CONTROLPLANE_CONTEXT} create -f ./policy-spread-ferretdb.yaml
- Clone Percona PostgreSQL Repository:
REPO_DIR="percona-postgresql-operator"
REPO_URL="https://github.com/percona/percona-postgresql-operator"
REPO_BRANCH="v2.3.0"
if [ -d "$REPO_DIR" ]; then
rm -rf $REPO_DIR
fi
git clone -b $REPO_BRANCH $REPO_URL
- Proceed with installing Percona PostgreSQL Operator
echo "Creating operator namespace"
kubectl --context=${NOVA_CONTROLPLANE_CONTEXT} create ns psql-operator --dry-run=client -o yaml | yq e ".metadata.labels.psql-cluster = \"all\"" | kubectl --context=${NOVA_CONTROLPLANE_CONTEXT} apply -f -
echo "Installing operator to cluster all"
cat percona-postgresql-operator/deploy/bundle.yaml | python3 add_labels.py namespace psql-cluster all | python3 add_labels.py cluster psql-cluster all | kubectl --context=${NOVA_CONTROLPLANE_CONTEXT} --namespace psql-operator create -f -
When running on AWS use:
# echo "Settting up s3 access"
cat examples/percona-disaster-recovery/s3-access-secret.yaml | python3 add_labels.py namespace psql-cluster all | kubectl --context=${NOVA_CONTROLPLANE_CONTEXT} --namespace psql-operator create -f -
and when running locally with Minio:
# echo "Settting up s3 access"
cat examples/percona-disaster-recovery/s3-access-secret-minio.yaml | python3 add_labels.py namespace psql-cluster all | kubectl --context=${NOVA_CONTROLPLANE_CONTEXT} --namespace psql-operator create -f -
- Configure 2 PostgreSQL clusters
cat examples/ferretdb-percona-disaster-recovery/cluster_1_cr.yaml | python3 add_labels.py namespace psql-cluster cluster-1 | kubectl --context=${NOVA_CONTROLPLANE_CONTEXT} --namespace psql-operator create -f -
cat examples/ferretdb-percona-disaster-recovery/cluster_2_cr.yaml | python3 add_labels.py namespace psql-cluster cluster-2 | kubectl --context=${NOVA_CONTROLPLANE_CONTEXT} --namespace psql-operator create -f -
- Install FerretDB
kubectl --context=${NOVA_CONTROLPLANE_CONTEXT} create -f examples/ferretdb-percona-disaster-recovery/ferretdb.yaml
- Setup loadbalancer in front of our databases. LoadBalancer is needed to keep supporting client connection after the recovery switch is made. For our example we'll use HAProxy. We'll need address of our FerretDB service connected to active PostgreSQL cluster. To get it, you can run
If running the example in the cloud use:
DB_HOST=$(kubectl --context=${NOVA_CONTROLPLANE_CONTEXT} get service/ferretdb-service-1 -n default -o jsonpath='{.status.loadBalancer.ingress[0].hostname}')
else
kubectl wait service/ferretdb-service-1 -n default --context=${NOVA_CONTROLPLANE_CONTEXT} '--for=jsonpath={.status.loadBalancer.ingress[0].ip}' --timeout=300s
DB_HOST=$(kubectl --context=${NOVA_CONTROLPLANE_CONTEXT} get service/ferretdb-service-1 -n default -o jsonpath='{.status.loadBalancer.ingress[0].ip}')
envsubst < "examples/ferretdb-percona-disaster-recovery/haproxy.cfg" > "./haproxy.cfg"
kubectl --context=${NOVA_CONTROLPLANE_CONTEXT} create configmap haproxy-config --from-file=haproxy.cfg=./haproxy.cfg --dry-run=client -o yaml | python3 add_labels.py namespace cluster cluster-ha-proxy | kubectl --context=${NOVA_CONTROLPLANE_CONTEXT} apply -f -
And then apply actual HAProxy deployment and service
kubectl --context=${NOVA_CONTROLPLANE_CONTEXT} create -f examples/ferretdb-percona-disaster-recovery/haproxy.yaml
Once this is done we can start setting up our RecoveryPlan.
apiVersion: recovery.elotl.co/v1alpha1
kind: RecoveryPlan
metadata:
name: psql-primary-failover-plan
spec:
alertLabels:
app: example-app
steps:
- type: patch # set cluster 1 to standby
patch:
apiVersion: "pgv2.percona.com/v2"
resource: "perconapgclusters"
namespace: "psql-operator"
name: "cluster1"
override:
fieldPath: "spec.standby.enabled"
value:
raw: true
patchType: "application/merge-patch+json"
- type: patch # set cluster 2 as new primery
patch:
apiVersion: "pgv2.percona.com/v2"
resource: "perconapgclusters"
namespace: "psql-operator"
name: "cluster2"
override:
fieldPath: "spec.standby.enabled"
value:
raw: false
patchType: "application/merge-patch+json"
- type: readField # read FerretDB service hostanem from cluster 2
readField:
apiVersion: "v1"
resource: "services"
namespace: "default"
name: "ferretdb-service-2"
fieldPath: "status.loadBalancer.ingress[0].hostname"
outputKey: "Cluster2IP"
- type: patch # update HAProxy to point to FerretDB service in cluster 2
patch:
apiVersion: "v1"
resource: "configmaps"
namespace: "psql-operator"
name: "haproxy-config"
override:
fieldPath: "data"
value:
raw: {"haproxy.cfg": "defaults\n mode tcp\n timeout connect 5000ms\n timeout client 50000ms\n timeout server 50000ms\n\nfrontend fe_main\n bind *:27017\n default_backend be_db_2\n\nbackend be_db_2\n server db2 {{ .Values.Cluster2IP }}:27017 check"}
patchType: "application/merge-patch+json"
Let's run
Recovery plan will read the host of FerretDB service in cluster 2, so we need to make sure it was assigned, before proceeding
If running the example in the cloud use:
kubectl get service/ferretdb-service-2 -n default --context=${NOVA_CONTROLPLANE_CONTEXT} -o=jsonpath='{.status.loadBalancer.ingress[0].hostname}'
else:
kubectl get service/ferretdb-service-2 -n default --context=${NOVA_CONTROLPLANE_CONTEXT} -o=jsonpath='{.status.loadBalancer.ingress[0].ip}'
Add recovery plan. If running the example in the cloud use:
kubectl --context=${NOVA_CONTROLPLANE_CONTEXT} create -f examples/ferretdb-percona-disaster-recovery/recovery-plan-cloud.yaml
else:
kubectl --context=${NOVA_CONTROLPLANE_CONTEXT} create -f examples/ferretdb-percona-disaster-recovery/recovery-plan-kind.yaml
In production systems alerts will be sent to Nova through recovery webhook, by some metrics service like Prometheus with Alertmanager. For ease of this tutorial we will simulate receiving an alert by adding it to Nova. When the alert is added Nova looks for recovery plan by matching alert labels to recovery plan labels. Once it finds the recovery plan it executes it.
kubectl --context=${NOVA_CONTROLPLANE_CONTEXT} create -f examples/percona-disaster-recovery/received-alert.yaml
Let's verify if recovery succeeded:
Check if cluster 1 (in our tutorial we assume it fails) is set to standby.
kubectl wait perconapgclusters/cluster1 -n psql-operator --context=${NOVA_CONTROLPLANE_CONTEXT} '--for=jsonpath={.spec.standby.enabled}'=true --timeout=180s
Check if cluster 2 took over the role of primary - standby false.
kubectl wait perconapgclusters/cluster2 -n psql-operator --context=${NOVA_CONTROLPLANE_CONTEXT} '--for=jsonpath={.spec.standby.enabled}'=false --timeout=180s
Check if HAProxy is now connected to FerretDB service in cluster 2 which is connected to postgresql cluster 2 - new primary cluster.
kubectl get cm/haproxy-config --context=${NOVA_CONTROLPLANE_CONTEXT} -n default -o jsonpath='{.data.haproxy\.cfg}' | grep 'server db2'
server db2 172.18.255.200:27017 check
Cleanup
kubectl --context=${NOVA_CONTROLPLANE_CONTEXT} delete -f examples/percona-disaster-recovery/received-alert.yaml
kubectl --context=${NOVA_CONTROLPLANE_CONTEXT} delete -f examples/percona-disaster-recovery/recovery-plan.yaml
kubectl --context=${NOVA_CONTROLPLANE_CONTEXT} delete -f examples/percona-disaster-recovery/haproxy.yaml
kubectl --context=${NOVA_CONTROLPLANE_CONTEXT} create configmap haproxy-config --from-file=haproxy.cfg=examples/percona-disaster-recovery/haproxy.cfg --dry-run=client -o yaml | python3 add_labels.py namespace psql-cluster cluster-ha-proxy | kubectl --context=${NOVA_CONTROLPLANE_CONTEXT} delete -f -
kubectl --context=${NOVA_CONTROLPLANE_CONTEXT} delete -f examples/ferretdb-percona-disaster-recovery/ferretdb.yaml
cat examples/percona-disaster-recovery/cluster_1_cr.yaml | python3 add_labels.py namespace psql-cluster cluster-1 | kubectl --context=${NOVA_CONTROLPLANE_CONTEXT} --namespace psql-operator delete -f -
cat examples/percona-disaster-recovery/cluster_2_cr.yaml | python3 add_labels.py namespace psql-cluster cluster-2 | kubectl --context=${NOVA_CONTROLPLANE_CONTEXT} --namespace psql-operator delete -f -
cat percona-postgresql-operator/deploy/bundle.yaml | python3 add_labels.py namespace psql-cluster all | python3 add_labels.py cluster psql-cluster all | kubectl --context=${NOVA_CONTROLPLANE_CONTEXT} --namespace psql-operator delete -f -
cat examples/percona-disaster-recovery/s3-access-secret.yaml | python3 add_labels.py namespace psql-cluster all | kubectl --context=${NOVA_CONTROLPLANE_CONTEXT} --namespace psql-operator delete -f -
kubectl --context=${NOVA_CONTROLPLANE_CONTEXT} create ns psql-operator --dry-run=client -o yaml | yq e ".metadata.labels.psql-cluster = \"all\"" | kubectl --context=${NOVA_CONTROLPLANE_CONTEXT} delete -f -
kubectl --context=${NOVA_CONTROLPLANE_CONTEXT} delete -f ./schedule-policies.yaml
kubectl --context=${NOVA_CONTROLPLANE_CONTEXT} delete -f ./policy-spread-ferretdb.yaml
rm -f ./schedule-policies.yaml
rm -f ./policy-spread-ferretdb.yaml
rm -f ./haproxy.cfg