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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-1.1/examples/flocker/README.md).

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

Using Flocker volumes

Flocker is an open-source clustered container data volume manager. It provides management and orchestration of data volumes backed by a variety of storage backends.

This example provides information about how to set-up a Flocker installation and configure it in Kubernetes, as well as how to use the plugin to use Flocker datasets as volumes in Kubernetes.

Prerequisites

A Flocker cluster is required to use Flocker with Kubernetes. A Flocker cluster comprises:

  • Flocker Control Service: provides a REST over HTTP API to modify the desired configuration of the cluster;
  • Flocker Dataset Agent(s): a convergence agent that modifies the cluster state to match the desired configuration;
  • Flocker Container Agent(s): a convergence agent that modifies the cluster state to match the desired configuration (unused in this configuration but still required in the cluster).

The Flocker cluster can be installed on the same nodes you are using for Kubernetes. For instance, you can install the Flocker Control Service on the same node as Kubernetes Master and Flocker Dataset/Container Agents on every Kubernetes Slave node.

It is recommended to follow Installing Flocker and the instructions below to set-up the Flocker cluster to be used with Kubernetes.

Flocker Control Service

The Flocker Control Service should be installed manually on a host, . In the future, this may be deployed in pod(s) and exposed as a Kubernetes service.

Flocker Agent(s)

The Flocker Agents should be manually installed on all Kubernetes nodes. These agents are responsible for (de)attachment and (un)mounting and are therefore services that should be run with appropriate privileges on these hosts.

In order for the plugin to connect to Flocker (via REST API), several environment variables must be specified on all Kubernetes nodes. This may be specified in an init script for the node's Kubelet service, for example, you could store the below environment variables in a file called /etc/flocker/env and place EnvironmentFile=/etc/flocker/env into /etc/systemd/system/kubelet.service or wherever the kubelet.service file lives.

The environment variables that need to be set are:

  • FLOCKER_CONTROL_SERVICE_HOST should refer to the hostname of the Control Service
  • FLOCKER_CONTROL_SERVICE_PORT should refer to the port of the Control Service (the API service defaults to 4523 but this must still be specified)

The following environment variables should refer to keys and certificates on the host that are specific to that host.

  • FLOCKER_CONTROL_SERVICE_CA_FILE should refer to the full path to the cluster certificate file
  • FLOCKER_CONTROL_SERVICE_CLIENT_KEY_FILE should refer to the full path to the api key file for the API user
  • FLOCKER_CONTROL_SERVICE_CLIENT_CERT_FILE should refer to the full path to the api certificate file for the API user

More details regarding cluster authentication can be found at the documentation: Flocker Cluster Security & Authentication and Configuring Cluster Authentication.

Create a pod with a Flocker volume

Note: A new dataset must first be provisioned using the Flocker tools or Docker CLI (To use the Docker CLI, you need the Flocker plugin for Docker installed along with Docker 1.9+). For example, using the Volumes CLI, create a new dataset called 'my-flocker-vol' of size 10GB:

flocker-volumes create -m name=my-flocker-vol -s 10G -n <node-uuid>

# -n or --node= Is the initial primary node for dataset (any unique 
# prefix of node uuid, see flocker-volumes list-nodes)

The following volume spec from the example pod illustrates how to use this Flocker dataset as a volume.

Note, the example pod used here does not include a replication controller, therefore the POD will not be rescheduled upon failure. If your looking for an example that does include a replication controller and service spec you can use this example pod including a replication controller

  volumes:
    - name: www-root
      flocker:
        datasetName: my-flocker-vol
  • datasetName is the unique name for the Flocker dataset and should match the name in the metadata.

Use kubetctl to create the pod.

$ kubectl create -f examples/flocker/flocker-pod.yml

You should now verify that the pod is running and determine it's IP address:

$ kubectl get pods
NAME             READY     STATUS    RESTARTS   AGE
flocker          1/1       Running   0          3m
$ kubectl get pods flocker -t '{{.status.hostIP}}{{"\n"}}'
172.31.25.62

An ls of the /flocker directory on the host (identified by the IP as above) will show the mount point for the volume.

$ ls /flocker
0cf8789f-00da-4da0-976a-b6b1dc831159

You can also see the mountpoint by inspecting the docker container on that host.

$ docker inspect -f "{{.Mounts}}" <container-id> | grep flocker
...{ /flocker/0cf8789f-00da-4da0-976a-b6b1dc831159 /usr/share/nginx/html true}

Add an index.html inside this directory and use curl to see this HTML file served up by nginx.

$ echo "<h1>Hello, World</h1>" | tee /flocker/0cf8789f-00da-4da0-976a-b6b1dc831159/index.html
$ curl ip

More Info

Read more about the Flocker Cluster Architecture and learn more about Flocker by visiting the Flocker Documentation.

Video Demo

To see a demo example of using Kubernetes and Flocker, visit Flocker's blog post on High Availability with Kubernetes and Flocker

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