Run Redis in Azure Kubernetes Service (AKS) Using KubeDB


KubeDB is the Kubernetes Native Database Management Solution which simplifies and automates routine database tasks such as Provisioning, Monitoring, Upgrading, Patching, Scaling, Volume Expansion, Backup, Recovery, Failure detection, and Repair for various popular databases on private and public clouds. The databases that KubeDB supports are PostgreSQL, MySQL, MongoDB, MariaDB, Elasticsearch, Redis, ProxySQL, Percona XtraDB, Memcached and PgBouncer. You can find the guides to all the supported databases here . In this tutorial we will deploy Redis database in Azure Kubernetes Service (AKS). We will cover the following steps:

  1. Install KubeDB
  2. Deploy Redis Standalone Database
  3. Install Stash
  4. Backup Redis Database Using Stash
  5. Recover Redis Database Using Stash

Install KubeDB

We will follow the steps to install KubeDB.

Step 1: Get Cluster ID

We need the cluster ID to get the KubeDB License. To get cluster ID we can run the following command:

$ kubectl get ns kube-system -o jsonpath='{.metadata.uid}'

Step 2: Get License

Go to Appscode License Server to get the license.txt file. For this tutorial we will use KubeDB Enterprise Edition.

License Server

Step 3: Install KubeDB

We will use helm to install KubeDB. Please install helm here if it is not already installed. Now, let’s install KubeDB.

$ helm repo add appscode
$ helm repo update

$ helm search repo appscode/kubedb
NAME                              	CHART VERSION	APP VERSION	DESCRIPTION                                       
appscode/kubedb                   	v2022.05.24  	v2022.05.24	KubeDB by AppsCode - Production ready databases...
appscode/kubedb-autoscaler        	v0.12.0      	v0.12.0    	KubeDB Autoscaler by AppsCode - Autoscale KubeD...
appscode/kubedb-catalog           	v2022.05.24  	v2022.05.24	KubeDB Catalog by AppsCode - Catalog for databa...
appscode/kubedb-community         	v0.24.2      	v0.24.2    	KubeDB Community by AppsCode - Community featur...
appscode/kubedb-crds              	v2022.05.24  	v2022.05.24	KubeDB Custom Resource Definitions                
appscode/kubedb-dashboard         	v0.3.0       	v0.3.0     	KubeDB Dashboard by AppsCode                      
appscode/kubedb-enterprise        	v0.11.2      	v0.11.2    	KubeDB Enterprise by AppsCode - Enterprise feat...
appscode/kubedb-grafana-dashboards	v2022.05.24  	v2022.05.24	A Helm chart for kubedb-grafana-dashboards by A...
appscode/kubedb-metrics           	v2022.05.24  	v2022.05.24	KubeDB State Metrics                              
appscode/kubedb-ops-manager       	v0.14.0      	v0.14.0    	KubeDB Ops Manager by AppsCode - Enterprise fea...
appscode/kubedb-opscenter         	v2022.05.24  	v2022.05.24	KubeDB Opscenter by AppsCode                      
appscode/kubedb-provisioner       	v0.27.0      	v0.27.0    	KubeDB Provisioner by AppsCode - Community feat...
appscode/kubedb-schema-manager    	v0.3.0       	v0.3.0     	KubeDB Schema Manager by AppsCode                 
appscode/kubedb-ui                	v2022.06.14  	0.3.9      	A Helm chart for Kubernetes                       
appscode/kubedb-ui-server         	v2021.12.21  	v2021.12.21	A Helm chart for kubedb-ui-server by AppsCode     
appscode/kubedb-webhook-server    	v0.3.0       	v0.3.0     	KubeDB Webhook Server by AppsCode   

# Install KubeDB Enterprise operator chart
$ helm install kubedb appscode/kubedb \
  --version v2022.05.24 \
  --namespace kubedb --create-namespace \
  --set kubedb-provisioner.enabled=true \
  --set kubedb-ops-manager.enabled=true \
  --set kubedb-autoscaler.enabled=true \
  --set kubedb-dashboard.enabled=true \
  --set kubedb-schema-manager.enabled=true \
  --set-file global.license=/path/to/the/license.txt

Let’s verify the installation:

$ watch kubectl get pods --all-namespaces -l ""

NAMESPACE   NAME                                            READY   STATUS    RESTARTS   AGE
kubedb      kubedb-kubedb-autoscaler-57d5855f5f-zbqwl       1/1     Running   0          4m27s
kubedb      kubedb-kubedb-dashboard-85b89769-xbhf9          1/1     Running   0          4m27s
kubedb      kubedb-kubedb-ops-manager-9459b5dc4-5jvd4       1/1     Running   0          4m27s
kubedb      kubedb-kubedb-provisioner-f6cc7b44-c2vw2        1/1     Running   0          4m27s
kubedb      kubedb-kubedb-schema-manager-8584985c68-rrd8c   1/1     Running   0          4m27s
kubedb      kubedb-kubedb-webhook-server-6d86b94687-tvkwh   1/1     Running   0          4m27s

We can list the CRD Groups that have been registered by the operator by running the following command:

$ kubectl get crd -l
NAME                                              CREATED AT   2022-07-22T12:33:30Z      2022-07-22T12:33:18Z                        2022-07-22T12:33:12Z           2022-07-22T12:33:15Z          2022-07-22T12:30:28Z                                  2022-07-22T12:33:12Z                   2022-07-22T12:30:28Z         2022-07-22T12:33:33Z                2022-07-22T12:33:19Z                 2022-07-22T12:33:30Z                               2022-07-22T12:33:12Z                2022-07-22T12:30:28Z                             2022-07-22T12:33:12Z              2022-07-22T12:30:29Z         2022-07-22T12:33:27Z                2022-07-22T12:33:17Z                 2022-07-22T12:33:19Z                               2022-07-22T12:33:13Z                2022-07-22T12:30:29Z                  2022-07-22T12:33:17Z                   2022-07-22T12:33:27Z                                 2022-07-22T12:33:13Z                  2022-07-22T12:30:29Z                         2022-07-22T12:33:13Z          2022-07-22T12:30:29Z                             2022-07-22T12:33:13Z              2022-07-22T12:30:30Z               2022-07-22T12:33:18Z                             2022-07-22T12:33:13Z                2022-07-22T12:33:37Z               2022-07-22T12:30:30Z                2022-07-22T12:33:40Z                              2022-07-22T12:33:13Z               2022-07-22T12:30:30Z                                2022-07-22T12:33:13Z                   2022-07-22T12:33:33Z                         2022-07-22T12:33:14Z                  2022-07-22T12:30:31Z

Deploy Standalone Redis Database

Now we are going to Install Redis with the help of KubeDB. At first, let’s create a Namespace in which we will deploy the database.

$ kubectl create ns demo
namespace/demo created

Here is the yaml of the Redis CRD we are going to use:

kind: Redis
  name: sample-redis
  namespace: demo
  version: "6.2.5"
  storageType: Durable
    storageClassName: "default"
    - ReadWriteOnce
        storage: 1Gi

Let’s save this yaml configuration into sample-redis.yaml Then create the above Redis CRD

$ kubectl create -f sample-redis.yaml created
  • In this yaml we can see in the spec.version field specifies the version of Redis. You can list the KubeDB supported versions of Redis by running $ kubectl get redisversions command.
  • Another field to notice is the spec.storageType field. This can be Durable or Ephemeral depending on the requirements of the database to be persistent or not.
  • Lastly, the spec.terminationPolicy field is Wipeout means that the database will be deleted without restrictions. It can also be “Halt”, “Delete” and “DoNotTerminate”. Learn More about these HERE .

Once these are handled correctly and the Redis object is deployed, you will see that the following are created:

$ kubectl get all -n demo
NAME                 READY   STATUS    RESTARTS   AGE
pod/sample-redis-0   1/1     Running   0          26s

NAME                        TYPE        CLUSTER-IP    EXTERNAL-IP   PORT(S)    AGE
service/sample-redis        ClusterIP   <none>        6379/TCP   27s
service/sample-redis-pods   ClusterIP   None          <none>        6379/TCP   27s

NAME                            READY   AGE
statefulset.apps/sample-redis   1/1     28s

NAME                                              TYPE               VERSION   AGE   6.2.5     28s

NAME                            VERSION   STATUS   AGE   6.2.5     Ready    34s

Let’s check if the database is ready to use,

$ kubectl get redis -n demo
sample-redis   6.2.5     Ready    79s

We have successfully deployed Redis in AKS. Now we can exec into the container to use the database.

Accessing Database Through CLI

To access the database through CLI, we have to get the credentials to access. Let’s export the credentials as environment variable to our current shell :

Export the Credentials

KubeDB will create Secret and Service for the database sample-redis that we have deployed. Let’s check them by following command,

$ kubectl get secret -n demo
NAME                  TYPE                       DATA   AGE
sample-redis-auth   2      2m10s
sample-redis-config   Opaque                     1      2m10s

$ kubectl get service -n demo
NAME                TYPE        CLUSTER-IP    EXTERNAL-IP   PORT(S)    AGE
sample-redis        ClusterIP   <none>        6379/TCP   2m36s
sample-redis-pods   ClusterIP   None          <none>        6379/TCP   2m36s

Now, we are going to use PASSWORD to authenticate and insert some sample data. At first, let’s export the PASSWORD as environment variables to make further commands re-usable.

$ export PASSWORD=$(kubectl get secrets -n demo sample-redis-auth -o jsonpath='{.data.\password}' | base64 -d)

Insert Sample Data

In this section, we are going to login into our Redis database pod and insert some sample data.

$ kubectl exec -it -n demo sample-redis-0 -- redis-cli -a $PASSWORD> set Product1 KubeDB
OK> set Product2 Stash
OK> get Product1
"KubeDB"> get Product2
"Stash"> exit

We’ve successfully inserted some sample data to our database. And this was just an example of our Redis Clustered database deployment. More information about Run & Manage Production-Grade Redis Database on Kubernetes can be found HERE

Backup Redis Using Stash

Here, we are going to use Stash to backup the database we deployed before.

Step 1: Install Stash

Kubedb Enterprise License works for Stash too. So, we will use the Enterprise license that we have already obtained.

$ helm install stash appscode/stash             \
  --version v2022.07.09                  \
  --namespace kube-system                       \
  --set features.enterprise=true                \
  --set-file global.license=/path/to/the/license.txt

Let’s verify the installation:

$ kubectl get pods --all-namespaces -l --watch
NAMESPACE     NAME                                      READY   STATUS    RESTARTS   AGE
kube-system   stash-stash-enterprise-7f7d44ff7c-gftc8   2/2     Running   0          25s

Now, to confirm CRD groups have been registered by the operator, run the following command:

$ kubectl get crd -l
NAME                                      CREATED AT          2022-07-22T13:08:32Z       2022-07-22T13:08:32Z   2022-07-22T13:08:31Z         2022-07-22T13:08:31Z              2022-07-22T13:06:48Z           2022-07-22T12:33:19Z         2022-07-22T13:08:33Z        2022-07-22T12:33:20Z                  2022-07-22T13:06:49Z

Step 2: Prepare Backend

Stash supports various backends for storing data snapshots. It can be a cloud storage like GCS bucket, AWS S3, Azure Blob Storage etc. or a Kubernetes persistent volume like HostPath, PersistentVolumeClaim, NFS etc.

For this tutorial we are going to use Azure storage. You can find other setups here .

My Empty azure storage

At first we need to create a secret so that we can access the Azure storage container. We can do that by the following code:

$ echo -n 'changeit' > RESTIC_PASSWORD
$ echo -n '<your-azure-storage-account-name>' > AZURE_ACCOUNT_NAME
$ echo -n '<your-azure-storage-account-key>' > AZURE_ACCOUNT_KEY
$ kubectl create secret generic -n demo azure-secret \
    --from-file=./RESTIC_PASSWORD \
    --from-file=./AZURE_ACCOUNT_NAME \
secret/azure-secret created

Create Repository

kind: Repository
  name: azure-repo
  namespace: demo
      container: stash-backup
      prefix: /sample-redis
    storageSecretName: azure-secret

This repository CRO specifies the azure-secret we created before and stores the name and path to the azure storage container. It also specifies the location to the container where we want to backup our database.

Here, My container name is stash-backup. Don’t forget to change to your container name.

Lets create this repository,

$ kubectl apply -f azure-repo.yaml created

Create BackupConfiguration

Now, we need to create a BackupConfiguration file that specifies what to backup, where to backup and when to backup.

kind: BackupConfiguration
  name: sample-redis-backup
  namespace: demo
  schedule: "*/5 * * * *"
    name: azure-repo
      kind: AppBinding
      name: sample-redis
    name: keep-last-5
    keepLast: 5
    prune: true

Create this BackupConfiguration by following command,

$ kubectl apply -f sample-redis-backup.yaml created
  • BackupConfiguration creates a cronjob that backs up the specified database ( every 5 minutes.
  • spec.repository contains the secret we created before called azure-secret.
  • contains the reference to the appbinding that we want to backup.
  • spec.schedule specifies that we want to backup the database at 5 minutes interval.
  • spec.retentionPolicy specifies the policy to follow for cleaning old snapshots.
  • To learn more about AppBinding, click here AppBinding . So, after 5 minutes we can see the following status:
$ kubectl get backupsession -n demo
NAME                             INVOKER-TYPE          INVOKER-NAME          PHASE       DURATION   AGE
sample-redis-backup-1658496001   BackupConfiguration   sample-redis-backup   Succeeded   10s        26s

$ kubectl get repository -n demo
azure-repo   true        3.740 KiB   2                52s                      7m46s

Now if we check our azure storage container, we can see that the backup has been successful.


If you have reached here, CONGRATULATIONS!! 🎊 🎊 🎊 You have successfully backed up Redis Database using Stash. If you had any problem during the backup process, you can reach out to us via EMAIL .

Recover Redis Using Stash

Let’s think of a scenario in which the database has been accidentally deleted or there was an error in the database causing it to crash.

Temporarily pause backup

At first, let’s stop taking any further backup of the database so that no backup runs after we delete the sample data. We are going to pause the BackupConfiguration object. Stash will stop taking any further backup when the BackupConfiguration is paused.

$ kubectl patch backupconfiguration -n demo sample-redis-backup --type="merge" --patch='{"spec": {"paused": true}}' patched

Now, we are going to delete those data to simulate accidental database deletion.

$ kubectl exec -it -n demo sample-redis-0 -- redis-cli -a $PASSWORD> get Product1
"KubeDB"> get Product2
"Stash"> del Product1
(integer) 1> del Product2
(integer) 1> get Product1
(nil)> get Product2
(nil)> exit

Step 1: Create a RestoreSession

Below, is the contents of YAML file of the RestoreSession object that we are going to create.

kind: RestoreSession
  name: sample-redis-restore
  namespace: demo
    name: azure-repo
      kind: AppBinding
      name: sample-redis
    - snapshots: [latest]

Now, let’s create RestoreSession that will initiate restoring from the cloud.

$ kubectl create -f sample-redis-restore.yaml created

This RestoreSession specifies where the data will be restored. Once this is applied, a RestoreSession will be created. Once it has succeeded, the database has been successfully recovered as you can see below:

$ kubectl get restoresession -n demo
NAME                   REPOSITORY   PHASE       DURATION   AGE
sample-redis-restore   azure-repo   Succeeded   4s         13s

Now, let’s check whether the data has been correctly restored:

$ kubectl exec -it -n demo sample-redis-0 -- redis-cli -a $PASSWORD> get Product1
"KubeDB"> get Product2
"Stash"> exit

You can see the data has been restored. The recovery of Redis Database has been successful. If you faced any difficulties in the recovery process, you can reach out to us through EMAIL .

We have made an in depth video on How to Deploy Sharded Redis Cluster in Kubernetes Using KubeDB. You can have a look into the video below:


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More about PostgreSQL in Kubernetes

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