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Storage Autoscaling of a MariaDB Cluster
This guide will show you how to use KubeDB to autoscale the storage of a MariaDB Replicaset database.
Before You Begin
At first, you need to have a Kubernetes cluster, and the
kubectlcommand-line tool must be configured to communicate with your cluster.Install
KubeDBCommunity, Enterprise and Autoscaler operator in your cluster following the steps here.Install
Metrics Serverfrom hereInstall Prometheus from here
You must have a
StorageClassthat supports volume expansion.You should be familiar with the following
KubeDBconcepts:
To keep everything isolated, we are going to use a separate namespace called demo throughout this tutorial.
$ kubectl create ns demo
namespace/demo created
Storage Autoscaling of Cluster Database
At first verify that your cluster has a storage class, that supports volume expansion. Let’s check,
$ kubectl get storageclass
NAME PROVISIONER RECLAIMPOLICY VOLUMEBINDINGMODE ALLOWVOLUMEEXPANSION AGE
standard (default) rancher.io/local-path Delete WaitForFirstConsumer false 79m
topolvm-provisioner topolvm.cybozu.com Delete WaitForFirstConsumer true 78m
We can see from the output the topolvm-provisioner storage class has ALLOWVOLUMEEXPANSION field as true. So, this storage class supports volume expansion. We can use it. You can install topolvm from here
Now, we are going to deploy a MariaDB replicaset using a supported version by KubeDB operator. Then we are going to apply MariaDBAutoscaler to set up autoscaling.
Deploy MariaDB Cluster
In this section, we are going to deploy a MariaDB replicaset database with version 10.5.8. Then, in the next section we will set up autoscaling for this database using MariaDBAutoscaler CRD. Below is the YAML of the MariaDB CR that we are going to create,
If you want to autoscale MariaDB
Standalone, Just remove thespec.Replicasfrom the below yaml and rest of the steps are same.
apiVersion: kubedb.com/v1alpha2
kind: MariaDB
metadata:
name: sample-mariadb
namespace: demo
spec:
version: "10.5.8"
replicas: 3
storageType: Durable
storage:
storageClassName: "topolvm-provisioner"
accessModes:
- ReadWriteOnce
resources:
requests:
storage: 1Gi
terminationPolicy: WipeOut
Let’s create the MariaDB CRO we have shown above,
$ kubectl create -f https://github.com/kubedb/docs/raw/v2022.12.24-rc.1/docs/guides/mariadb/autoscaler/storage/cluster/examples/sample-mariadb.yaml
mariadb.kubedb.com/sample-mariadb created
Now, wait until sample-mariadb has status Ready. i.e,
$ kubectl get mariadb -n demo
NAME VERSION STATUS AGE
sample-mariadb 10.5.8 Ready 3m46s
Let’s check volume size from statefulset, and from the persistent volume,
$ kubectl get sts -n demo sample-mariadb -o json | jq '.spec.volumeClaimTemplates[].spec.resources.requests.storage'
"1Gi"
$ kubectl get pv -n demo
NAME CAPACITY ACCESS MODES RECLAIM POLICY STATUS CLAIM STORAGECLASS REASON AGE
pvc-43266d76-f280-4cca-bd78-d13660a84db9 1Gi RWO Delete Bound demo/data-sample-mariadb-2 topolvm-provisioner 57s
pvc-4a509b05-774b-42d9-b36d-599c9056af37 1Gi RWO Delete Bound demo/data-sample-mariadb-0 topolvm-provisioner 58s
pvc-c27eee12-cd86-4410-b39e-b1dd735fc14d 1Gi RWO Delete Bound demo/data-sample-mariadb-1 topolvm-provisioner 57s
You can see the statefulset has 1GB storage, and the capacity of all the persistent volume is also 1GB.
We are now ready to apply the MariaDBAutoscaler CRO to set up storage autoscaling for this database.
Storage Autoscaling
Here, we are going to set up storage autoscaling using a MariaDBAutoscaler Object.
Create MariaDBAutoscaler Object
In order to set up vertical autoscaling for this replicaset database, we have to create a MariaDBAutoscaler CRO with our desired configuration. Below is the YAML of the MariaDBAutoscaler object that we are going to create,
apiVersion: autoscaling.kubedb.com/v1alpha1
kind: MariaDBAutoscaler
metadata:
name: md-as-st
namespace: demo
spec:
databaseRef:
name: sample-mariadb
storage:
mariadb:
trigger: "On"
usageThreshold: 20
scalingThreshold: 20
expansionMode: "Online"
Here,
spec.databaseRef.namespecifies that we are performing vertical scaling operation onsample-mariadbdatabase.spec.storage.mariadb.triggerspecifies that storage autoscaling is enabled for this database.spec.storage.mariadb.usageThresholdspecifies storage usage threshold, if storage usage exceeds20%then storage autoscaling will be triggered.spec.storage.mariadb.scalingThresholdspecifies the scaling threshold. Storage will be scaled to20%of the current amount.spec.storage.mariadb.expansionModespecifies the expansion mode of volume expansionMariaDBOpsRequestcreated byMariaDBAutoscaler. topolvm-provisioner supports online volume expansion so hereexpansionModeis set as “Online”.
Let’s create the MariaDBAutoscaler CR we have shown above,
$ kubectl apply -f https://github.com/kubedb/docs/raw/v2022.12.24-rc.1/docs/guides/mariadb/autoscaler/storage/cluster/examples/mdas-storage.yaml
mariadbautoscaler.autoscaling.kubedb.com/md-as-st created
Storage Autoscaling is set up successfully
Let’s check that the mariadbautoscaler resource is created successfully,
$ kubectl get mariadbautoscaler -n demo
NAME AGE
md-as-st 33s
$ kubectl describe mariadbautoscaler md-as-st -n demo
Name: md-as-st
Namespace: demo
Labels: <none>
Annotations: API Version: autoscaling.kubedb.com/v1alpha1
Kind: MariaDBAutoscaler
Metadata:
Creation Timestamp: 2022-01-14T06:08:02Z
Generation: 1
Managed Fields:
...
Resource Version: 24009
UID: 4f45a3b3-fc72-4d04-b52c-a770944311f6
Spec:
Database Ref:
Name: sample-mariadb
Storage:
Mariadb:
Scaling Threshold: 20
Trigger: On
Usage Threshold: 20
Events: <none>
So, the mariadbautoscaler resource is created successfully.
Now, for this demo, we are going to manually fill up the persistent volume to exceed the usageThreshold using dd command to see if storage autoscaling is working or not.
Let’s exec into the database pod and fill the database volume(var/lib/mysql) using the following commands:
$ kubectl exec -it -n demo sample-mariadb-0 -- bash
root@sample-mariadb-0:/ df -h /var/lib/mysql
Filesystem Size Used Avail Use% Mounted on
/dev/topolvm/57cd4330-784f-42c1-bf8e-e743241df164 1014M 357M 658M 36% /var/lib/mysql
root@sample-mariadb-0:/ dd if=/dev/zero of=/var/lib/mysql/file.img bs=500M count=1
1+0 records in
1+0 records out
524288000 bytes (524 MB, 500 MiB) copied, 0.340877 s, 1.5 GB/s
root@sample-mariadb-0:/ df -h /var/lib/mysql
Filesystem Size Used Avail Use% Mounted on
/dev/topolvm/57cd4330-784f-42c1-bf8e-e743241df164 1014M 857M 158M 85% /var/lib/mysql
So, from the above output we can see that the storage usage is 83%, which exceeded the usageThreshold 20%.
Let’s watch the mariadbopsrequest in the demo namespace to see if any mariadbopsrequest object is created. After some time you’ll see that a mariadbopsrequest of type VolumeExpansion will be created based on the scalingThreshold.
$ kubectl get mariadbopsrequest -n demo
NAME TYPE STATUS AGE
mops-sample-mariadb-xojkua VolumeExpansion Progressing 15s
Let’s wait for the ops request to become successful.
$ kubectl get mariadbopsrequest -n demo
NAME TYPE STATUS AGE
mops-sample-mariadb-xojkua VolumeExpansion Successful 97s
We can see from the above output that the MariaDBOpsRequest has succeeded. If we describe the MariaDBOpsRequest we will get an overview of the steps that were followed to expand the volume of the database.
$ kubectl describe mariadbopsrequest -n demo mops-sample-mariadb-xojkua
Name: mops-sample-mariadb-xojkua
Namespace: demo
Labels: app.kubernetes.io/component=database
app.kubernetes.io/instance=sample-mariadb
app.kubernetes.io/managed-by=kubedb.com
app.kubernetes.io/name=mariadbs.kubedb.com
Annotations: <none>
API Version: ops.kubedb.com/v1alpha1
Kind: MariaDBOpsRequest
Metadata:
Creation Timestamp: 2022-01-14T06:13:10Z
Generation: 1
Managed Fields: ...
Owner References:
API Version: autoscaling.kubedb.com/v1alpha1
Block Owner Deletion: true
Controller: true
Kind: MariaDBAutoscaler
Name: md-as-st
UID: 4f45a3b3-fc72-4d04-b52c-a770944311f6
Resource Version: 25557
UID: 90763a49-a03f-407c-a233-fb20c4ab57d7
Spec:
Database Ref:
Name: sample-mariadb
Type: VolumeExpansion
Volume Expansion:
Mariadb: 1594884096
Status:
Conditions:
Last Transition Time: 2022-01-14T06:13:10Z
Message: Controller has started to Progress the MariaDBOpsRequest: demo/mops-sample-mariadb-xojkua
Observed Generation: 1
Reason: OpsRequestProgressingStarted
Status: True
Type: Progressing
Last Transition Time: 2022-01-14T06:14:25Z
Message: Volume Expansion performed successfully in MariaDB pod for MariaDBOpsRequest: demo/mops-sample-mariadb-xojkua
Observed Generation: 1
Reason: SuccessfullyVolumeExpanded
Status: True
Type: VolumeExpansion
Last Transition Time: 2022-01-14T06:14:25Z
Message: Controller has successfully expand the volume of MariaDB demo/mops-sample-mariadb-xojkua
Observed Generation: 1
Reason: OpsRequestProcessedSuccessfully
Status: True
Type: Successful
Observed Generation: 3
Phase: Successful
Events:
Type Reason Age From Message
---- ------ ---- ---- -------
Normal Starting 2m58s KubeDB Enterprise Operator Start processing for MariaDBOpsRequest: demo/mops-sample-mariadb-xojkua
Normal Starting 2m58s KubeDB Enterprise Operator Pausing MariaDB databse: demo/sample-mariadb
Normal Successful 2m58s KubeDB Enterprise Operator Successfully paused MariaDB database: demo/sample-mariadb for MariaDBOpsRequest: mops-sample-mariadb-xojkua
Normal Successful 103s KubeDB Enterprise Operator Volume Expansion performed successfully in MariaDB pod for MariaDBOpsRequest: demo/mops-sample-mariadb-xojkua
Normal Starting 103s KubeDB Enterprise Operator Updating MariaDB storage
Normal Successful 103s KubeDB Enterprise Operator Successfully Updated MariaDB storage
Normal Starting 103s KubeDB Enterprise Operator Resuming MariaDB database: demo/sample-mariadb
Normal Successful 103s KubeDB Enterprise Operator Successfully resumed MariaDB database: demo/sample-mariadb
Normal Successful 103s KubeDB Enterprise Operator Controller has Successfully expand the volume of MariaDB: demo/sample-mariadb
Now, we are going to verify from the Statefulset, and the Persistent Volume whether the volume of the replicaset database has expanded to meet the desired state, Let’s check,
$ kubectl get sts -n demo sample-mariadb -o json | jq '.spec.volumeClaimTemplates[].spec.resources.requests.storage'
"1594884096"
$ kubectl get pv -n demo
NAME CAPACITY ACCESS MODES RECLAIM POLICY STATUS CLAIM STORAGECLASS REASON AGE
pvc-43266d76-f280-4cca-bd78-d13660a84db9 2Gi RWO Delete Bound demo/data-sample-mariadb-2 topolvm-provisioner 23m
pvc-4a509b05-774b-42d9-b36d-599c9056af37 2Gi RWO Delete Bound demo/data-sample-mariadb-0 topolvm-provisioner 24m
pvc-c27eee12-cd86-4410-b39e-b1dd735fc14d 2Gi RWO Delete Bound demo/data-sample-mariadb-1 topolvm-provisioner 23m
The above output verifies that we have successfully autoscaled the volume of the MariaDB replicaset database.
Cleaning Up
To clean up the Kubernetes resources created by this tutorial, run:
kubectl delete mariadb -n demo sample-mariadb
kubectl delete mariadbautoscaler -n demo md-as-st
kubectl delete ns demo