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WARNING WARNING WARNING WARNING WARNING

PLEASE NOTE: This document applies to the HEAD of the source tree

If you are using a released version of Kubernetes, you should refer to the docs that go with that version.

The latest release of this document can be found [here](http://releases.k8s.io/release-1.4/examples/mysql-wordpress-pd/README.md).

Documentation for other releases can be found at releases.k8s.io.

Persistent Installation of MySQL and WordPress on Kubernetes

This example describes how to run a persistent installation of WordPress and MySQL on Kubernetes. We'll use the mysql and wordpress official Docker images for this installation. (The WordPress image includes an Apache server).

Demonstrated Kubernetes Concepts:

tl;dr Quickstart

Put your desired mysql password in a file called password.txt with no trailing newline. The first tr command will remove the newline if your editor added one.

tr --delete '\n' <password.txt >.strippedpassword.txt && mv .strippedpassword.txt password.txt
kubectl create -f https://raw.githubusercontent.com/kubernetes/kubernetes/master/examples/mysql-wordpress-pd/local-volumes.yaml
kubectl create secret generic mysql-pass --from-file=password.txt
kubectl create -f https://raw.githubusercontent.com/kubernetes/kubernetes/master/examples/mysql-wordpress-pd/mysql-deployment.yaml
kubectl create -f https://raw.githubusercontent.com/kubernetes/kubernetes/master/examples/mysql-wordpress-pd/wordpress-deployment.yaml

Table of Contents

Cluster Requirements

Kubernetes runs in a variety of environments and is inherently modular. Not all clusters are the same. These are the requirements for this example.

  • Kubernetes version 1.2 is required due to using newer features, such at PV Claims and Deployments. Run kubectl version to see your cluster version.
  • Cluster DNS will be used for service discovery.
  • An external load balancer will be used to access WordPress.
  • Persistent Volume Claims are used. You must create Persistent Volumes in your cluster to be claimed. This example demonstrates how to create two types of volumes, but any volume is sufficient.

Consult a Getting Started Guide to set up a cluster and the kubectl command-line client.

Decide where you will store your data

MySQL and WordPress will each use a Persistent Volume to store their data. We will use a Persistent Volume Claim to claim an available persistent volume. This example covers HostPath and GCEPersistentDisk volumes. Choose one of the two, or see Types of Persistent Volumes for more options.

Host Path

Host paths are volumes mapped to directories on the host. These should be used for testing or single-node clusters only. The data will not be moved between nodes if the pod is recreated on a new node. If the pod is deleted and recreated on a new node, data will be lost.

Create the persistent volume objects in Kubernetes using local-volumes.yaml:

export KUBE_REPO=https://raw.githubusercontent.com/kubernetes/kubernetes/master
kubectl create -f $KUBE_REPO/examples/mysql-wordpress-pd/local-volumes.yaml

GCE Persistent Disk

This storage option is applicable if you are running on Google Compute Engine.

Create two persistent disks. You will need to create the disks in the same GCE zone as the Kubernetes cluster. The default setup script will create the cluster in the us-central1-b zone, as seen in the config-default.sh file. Replace <zone> below with the appropriate zone. The names wordpress-1 and wordpress-2 must match the pdName fields we have specified in gce-volumes.yaml.

gcloud compute disks create --size=20GB --zone=<zone> wordpress-1
gcloud compute disks create --size=20GB --zone=<zone> wordpress-2

Create the persistent volume objects in Kubernetes for those disks:

export KUBE_REPO=https://raw.githubusercontent.com/kubernetes/kubernetes/master
kubectl create -f $KUBE_REPO/examples/mysql-wordpress-pd/gce-volumes.yaml

Create the MySQL Password Secret

Use a Secret object to store the MySQL password. First create a temporary file called password.txt and save your password in it. Make sure to not have a trailing newline at the end of the password. The first tr command will remove the newline if your editor added one. Then, create the Secret object.

tr --delete '\n' <password.txt >.strippedpassword.txt && mv .strippedpassword.txt password.txt
kubectl create secret generic mysql-pass --from-file=password.txt

This secret is referenced by the MySQL and WordPress pod configuration so that those pods will have access to it. The MySQL pod will set the database password, and the WordPress pod will use the password to access the database.

Deploy MySQL

Now that the persistent disks and secrets are defined, the Kubernetes pods can be launched. Start MySQL using mysql-deployment.yaml.

kubectl create -f $KUBE_REPO/examples/mysql-wordpress-pd/mysql-deployment.yaml

Take a look at mysql-deployment.yaml, and note that we've defined a volume mount for /var/lib/mysql, and then created a Persistent Volume Claim that looks for a 20G volume. This claim is satisfied by any volume that meets the requirements, in our case one of the volumes we created above.

Also look at the env section and see that we specified the password by referencing the secret mysql-pass that we created above. Secrets can have multiple key:value pairs. Ours has only one key password.txt which was the name of the file we used to create the secret. The MySQL image sets the database password using the MYSQL_ROOT_PASSWORD environment variable.

It may take a short period before the new pod reaches the Running state. List all pods to see the status of this new pod.

kubectl get pods
NAME                          READY     STATUS    RESTARTS   AGE
wordpress-mysql-cqcf4-9q8lo   1/1       Running   0          1m

Kubernetes logs the stderr and stdout for each pod. Take a look at the logs for a pod by using kubectl log. Copy the pod name from the get pods command, and then:

kubectl logs <pod-name>
...
2016-02-19 16:58:05 1 [Note] InnoDB: 128 rollback segment(s) are active.
2016-02-19 16:58:05 1 [Note] InnoDB: Waiting for purge to start
2016-02-19 16:58:05 1 [Note] InnoDB: 5.6.29 started; log sequence number 1626007
2016-02-19 16:58:05 1 [Note] Server hostname (bind-address): '*'; port: 3306
2016-02-19 16:58:05 1 [Note] IPv6 is available.
2016-02-19 16:58:05 1 [Note]   - '::' resolves to '::';
2016-02-19 16:58:05 1 [Note] Server socket created on IP: '::'.
2016-02-19 16:58:05 1 [Warning] 'proxies_priv' entry '@ root@wordpress-mysql-cqcf4-9q8lo' ignored in --skip-name-resolve mode.
2016-02-19 16:58:05 1 [Note] Event Scheduler: Loaded 0 events
2016-02-19 16:58:05 1 [Note] mysqld: ready for connections.
Version: '5.6.29'  socket: '/var/run/mysqld/mysqld.sock'  port: 3306  MySQL Community Server (GPL)

Also in mysql-deployment.yaml we created a service to allow other pods to reach this mysql instance. The name is wordpress-mysql which resolves to the pod IP.

Deploy WordPress

Next deploy WordPress using wordpress-deployment.yaml:

kubectl create -f $KUBE_REPO/examples/mysql-wordpress-pd/wordpress-deployment.yaml

Here we are using many of the same features, such as a volume claim for persistent storage and a secret for the password.

The WordPress image accepts the database hostname through the environment variable WORDPRESS_DB_HOST. We set the env value to the name of the MySQL service we created: wordpress-mysql.

The WordPress service has the setting type: LoadBalancer. This will set up the wordpress service behind an external IP.

Find the external IP for your WordPress service. It may take a minute to have an external IP assigned to the service, depending on your cluster environment.

kubectl get services wordpress
NAME        CLUSTER-IP     EXTERNAL-IP     PORT(S)   AGE
wordpress   10.0.0.5       1.2.3.4         80/TCP    19h

Visit your new WordPress blog

Now, we can visit the running WordPress app. Use the external IP of the service that you obtained above.

http://<external-ip>

You should see the familiar WordPress init page.

WordPress init page

Warning: Do not leave your WordPress installation on this page. If it is found by another user, they can set up a website on your instance and use it to serve potentially malicious content. You should either continue with the installation past the point at which you create your username and password, delete your instance, or set up a firewall to restrict access.

Take down and restart your blog

Set up your WordPress blog and play around with it a bit. Then, take down its pods and bring them back up again. Because you used persistent disks, your blog state will be preserved.

All of the resources are labeled with app=wordpress, so you can easily bring them down using a label selector:

kubectl delete deployment,service -l app=wordpress
kubectl delete secret mysql-pass

Later, re-creating the resources with the original commands will pick up the original disks with all your data intact. Because we did not delete the PV Claims, no other pods in the cluster could claim them after we deleted our pods. Keeping the PV Claims also ensured recreating the Pods did not cause the PD to switch Pods.

If you are ready to release your persistent volumes and the data on them, run:

kubectl delete pvc -l app=wordpress

And then delete the volume objects themselves:

kubectl delete pv local-pv-1 local-pv-2

or

kubectl delete pv wordpress-pv-1 wordpress-pv-2

Next Steps

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