Run a Single-Instance Stateful Application

This page shows you how to run a single-instance stateful application in Kubernetes using a PersistentVolume and a Deployment. The application is MySQL.

Objectives

  • Create a PersistentVolume referencing a disk in your environment.
  • Create a MySQL Deployment.
  • Expose MySQL to other pods in the cluster at a known DNS name.

Before you begin

  • You need to have a Kubernetes cluster, and the kubectl command-line tool must be configured to communicate with your cluster. It is recommended to run this tutorial on a cluster with at least two nodes that are not acting as control plane hosts. If you do not already have a cluster, you can create one by using minikube or you can use one of these Kubernetes playgrounds:

    To check the version, enter kubectl version.

  • You need to either have a dynamic PersistentVolume provisioner with a default StorageClass, or statically provision PersistentVolumes yourself to satisfy the PersistentVolumeClaims used here.

Deploy MySQL

You can run a stateful application by creating a Kubernetes Deployment and connecting it to an existing PersistentVolume using a PersistentVolumeClaim. For example, this YAML file describes a Deployment that runs MySQL and references the PersistentVolumeClaim. The file defines a volume mount for /var/lib/mysql, and then creates a PersistentVolumeClaim that looks for a 20G volume. This claim is satisfied by any existing volume that meets the requirements, or by a dynamic provisioner.

Note: The password is defined in the config yaml, and this is insecure. See Kubernetes Secrets for a secure solution.

application/mysql/mysql-deployment.yaml Run a Single-Instance Stateful Application - 图1

  1. apiVersion: v1
  2. kind: Service
  3. metadata:
  4. name: mysql
  5. spec:
  6. ports:
  7. - port: 3306
  8. selector:
  9. app: mysql
  10. clusterIP: None
  11. ---
  12. apiVersion: apps/v1
  13. kind: Deployment
  14. metadata:
  15. name: mysql
  16. spec:
  17. selector:
  18. matchLabels:
  19. app: mysql
  20. strategy:
  21. type: Recreate
  22. template:
  23. metadata:
  24. labels:
  25. app: mysql
  26. spec:
  27. containers:
  28. - image: mysql:5.6
  29. name: mysql
  30. env:
  31. # Use secret in real usage
  32. - name: MYSQL_ROOT_PASSWORD
  33. value: password
  34. ports:
  35. - containerPort: 3306
  36. name: mysql
  37. volumeMounts:
  38. - name: mysql-persistent-storage
  39. mountPath: /var/lib/mysql
  40. volumes:
  41. - name: mysql-persistent-storage
  42. persistentVolumeClaim:
  43. claimName: mysql-pv-claim

application/mysql/mysql-pv.yaml Run a Single-Instance Stateful Application - 图2

  1. apiVersion: v1
  2. kind: PersistentVolume
  3. metadata:
  4. name: mysql-pv-volume
  5. labels:
  6. type: local
  7. spec:
  8. storageClassName: manual
  9. capacity:
  10. storage: 20Gi
  11. accessModes:
  12. - ReadWriteOnce
  13. hostPath:
  14. path: "/mnt/data"
  15. ---
  16. apiVersion: v1
  17. kind: PersistentVolumeClaim
  18. metadata:
  19. name: mysql-pv-claim
  20. spec:
  21. storageClassName: manual
  22. accessModes:
  23. - ReadWriteOnce
  24. resources:
  25. requests:
  26. storage: 20Gi
  1. Deploy the PV and PVC of the YAML file:

    1. kubectl apply -f https://k8s.io/examples/application/mysql/mysql-pv.yaml
  2. Deploy the contents of the YAML file:

    1. kubectl apply -f https://k8s.io/examples/application/mysql/mysql-deployment.yaml
  3. Display information about the Deployment:

    1. kubectl describe deployment mysql

    The output is similar to this:

    1. Name: mysql
    2. Namespace: default
    3. CreationTimestamp: Tue, 01 Nov 2016 11:18:45 -0700
    4. Labels: app=mysql
    5. Annotations: deployment.kubernetes.io/revision=1
    6. Selector: app=mysql
    7. Replicas: 1 desired | 1 updated | 1 total | 0 available | 1 unavailable
    8. StrategyType: Recreate
    9. MinReadySeconds: 0
    10. Pod Template:
    11. Labels: app=mysql
    12. Containers:
    13. mysql:
    14. Image: mysql:5.6
    15. Port: 3306/TCP
    16. Environment:
    17. MYSQL_ROOT_PASSWORD: password
    18. Mounts:
    19. /var/lib/mysql from mysql-persistent-storage (rw)
    20. Volumes:
    21. mysql-persistent-storage:
    22. Type: PersistentVolumeClaim (a reference to a PersistentVolumeClaim in the same namespace)
    23. ClaimName: mysql-pv-claim
    24. ReadOnly: false
    25. Conditions:
    26. Type Status Reason
    27. ---- ------ ------
    28. Available False MinimumReplicasUnavailable
    29. Progressing True ReplicaSetUpdated
    30. OldReplicaSets: <none>
    31. NewReplicaSet: mysql-63082529 (1/1 replicas created)
    32. Events:
    33. FirstSeen LastSeen Count From SubobjectPath Type Reason Message
    34. --------- -------- ----- ---- ------------- -------- ------ -------
    35. 33s 33s 1 {deployment-controller } Normal ScalingReplicaSet Scaled up replica set mysql-63082529 to 1
  4. List the pods created by the Deployment:

    1. kubectl get pods -l app=mysql

    The output is similar to this:

    1. NAME READY STATUS RESTARTS AGE
    2. mysql-63082529-2z3ki 1/1 Running 0 3m
  5. Inspect the PersistentVolumeClaim:

    1. kubectl describe pvc mysql-pv-claim

    The output is similar to this:

    1. Name: mysql-pv-claim
    2. Namespace: default
    3. StorageClass:
    4. Status: Bound
    5. Volume: mysql-pv-volume
    6. Labels: <none>
    7. Annotations: pv.kubernetes.io/bind-completed=yes
    8. pv.kubernetes.io/bound-by-controller=yes
    9. Capacity: 20Gi
    10. Access Modes: RWO
    11. Events: <none>

Accessing the MySQL instance

The preceding YAML file creates a service that allows other Pods in the cluster to access the database. The Service option clusterIP: None lets the Service DNS name resolve directly to the Pod’s IP address. This is optimal when you have only one Pod behind a Service and you don’t intend to increase the number of Pods.

Run a MySQL client to connect to the server:

  1. kubectl run -it --rm --image=mysql:5.6 --restart=Never mysql-client -- mysql -h mysql -ppassword

This command creates a new Pod in the cluster running a MySQL client and connects it to the server through the Service. If it connects, you know your stateful MySQL database is up and running.

  1. Waiting for pod default/mysql-client-274442439-zyp6i to be running, status is Pending, pod ready: false
  2. If you don't see a command prompt, try pressing enter.
  3. mysql>

Updating

The image or any other part of the Deployment can be updated as usual with the kubectl apply command. Here are some precautions that are specific to stateful apps:

  • Don’t scale the app. This setup is for single-instance apps only. The underlying PersistentVolume can only be mounted to one Pod. For clustered stateful apps, see the StatefulSet documentation.
  • Use strategy: type: Recreate in the Deployment configuration YAML file. This instructs Kubernetes to not use rolling updates. Rolling updates will not work, as you cannot have more than one Pod running at a time. The Recreate strategy will stop the first pod before creating a new one with the updated configuration.

Deleting a deployment

Delete the deployed objects by name:

  1. kubectl delete deployment,svc mysql
  2. kubectl delete pvc mysql-pv-claim
  3. kubectl delete pv mysql-pv-volume

If you manually provisioned a PersistentVolume, you also need to manually delete it, as well as release the underlying resource. If you used a dynamic provisioner, it automatically deletes the PersistentVolume when it sees that you deleted the PersistentVolumeClaim. Some dynamic provisioners (such as those for EBS and PD) also release the underlying resource upon deleting the PersistentVolume.

What’s next