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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-1.2/docs/design/persistent-storage.md).

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

Persistent Storage

This document proposes a model for managing persistent, cluster-scoped storage for applications requiring long lived data.

Abstract

Two new API kinds:

A PersistentVolume (PV) is a storage resource provisioned by an administrator. It is analogous to a node. See Persistent Volume Guide for how to use it.

A PersistentVolumeClaim (PVC) is a user's request for a persistent volume to use in a pod. It is analogous to a pod.

One new system component:

PersistentVolumeClaimBinder is a singleton running in master that watches all PersistentVolumeClaims in the system and binds them to the closest matching available PersistentVolume. The volume manager watches the API for newly created volumes to manage.

One new volume:

PersistentVolumeClaimVolumeSource references the user's PVC in the same namespace. This volume finds the bound PV and mounts that volume for the pod. A PersistentVolumeClaimVolumeSource is, essentially, a wrapper around another type of volume that is owned by someone else (the system).

Kubernetes makes no guarantees at runtime that the underlying storage exists or is available. High availability is left to the storage provider.

Goals

  • Allow administrators to describe available storage
  • Allow pod authors to discover and request persistent volumes to use with pods
  • Enforce security through access control lists and securing storage to the same namespace as the pod volume
  • Enforce quotas through admission control
  • Enforce scheduler rules by resource counting
  • Ensure developers can rely on storage being available without being closely bound to a particular disk, server, network, or storage device.

Describe available storage

Cluster administrators use the API to manage PersistentVolumes. A custom store NewPersistentVolumeOrderedIndex will index volumes by access modes and sort by storage capacity. The PersistentVolumeClaimBinder watches for new claims for storage and binds them to an available volume by matching the volume's characteristics (AccessModes and storage size) to the user's request.

PVs are system objects and, thus, have no namespace.

Many means of dynamic provisioning will be eventually be implemented for various storage types.

PersistentVolume API
Action HTTP Verb Path Description
CREATE POST /api/{version}/persistentvolumes/ Create instance of PersistentVolume
GET GET /api/{version}persistentvolumes/{name} Get instance of PersistentVolume with {name}
UPDATE PUT /api/{version}/persistentvolumes/{name} Update instance of PersistentVolume with {name}
DELETE DELETE /api/{version}/persistentvolumes/{name} Delete instance of PersistentVolume with {name}
LIST GET /api/{version}/persistentvolumes List instances of PersistentVolume
WATCH GET /api/{version}/watch/persistentvolumes Watch for changes to a PersistentVolume

Request Storage

Kubernetes users request persistent storage for their pod by creating a PersistentVolumeClaim. Their request for storage is described by their requirements for resources and mount capabilities.

Requests for volumes are bound to available volumes by the volume manager, if a suitable match is found. Requests for resources can go unfulfilled.

Users attach their claim to their pod using a new PersistentVolumeClaimVolumeSource volume source.

PersistentVolumeClaim API
Action HTTP Verb Path Description
CREATE POST /api/{version}/namespaces/{ns}/persistentvolumeclaims/ Create instance of PersistentVolumeClaim in namespace {ns}
GET GET /api/{version}/namespaces/{ns}/persistentvolumeclaims/{name} Get instance of PersistentVolumeClaim in namespace {ns} with {name}
UPDATE PUT /api/{version}/namespaces/{ns}/persistentvolumeclaims/{name} Update instance of PersistentVolumeClaim in namespace {ns} with {name}
DELETE DELETE /api/{version}/namespaces/{ns}/persistentvolumeclaims/{name} Delete instance of PersistentVolumeClaim in namespace {ns} with {name}
LIST GET /api/{version}/namespaces/{ns}/persistentvolumeclaims List instances of PersistentVolumeClaim in namespace {ns}
WATCH GET /api/{version}/watch/namespaces/{ns}/persistentvolumeclaims Watch for changes to PersistentVolumeClaim in namespace {ns}

Scheduling constraints

Scheduling constraints are to be handled similar to pod resource constraints. Pods will need to be annotated or decorated with the number of resources it requires on a node. Similarly, a node will need to list how many it has used or available.

TBD

Events

The implementation of persistent storage will not require events to communicate to the user the state of their claim. The CLI for bound claims contains a reference to the backing persistent volume. This is always present in the API and CLI, making an event to communicate the same unnecessary.

Events that communicate the state of a mounted volume are left to the volume plugins.

Example

Admin provisions storage

An administrator provisions storage by posting PVs to the API. Various way to automate this task can be scripted. Dynamic provisioning is a future feature that can maintain levels of PVs.

POST:

kind: PersistentVolume
apiVersion: v1
metadata:
  name: pv0001
spec:
  capacity:
    storage: 10
  persistentDisk:
    pdName: "abc123"
    fsType: "ext4"
$ kubectl get pv

NAME                LABELS              CAPACITY            ACCESSMODES         STATUS              CLAIM              REASON
pv0001              map[]               10737418240         RWO                 Pending    

Users request storage

A user requests storage by posting a PVC to the API. Their request contains the AccessModes they wish their volume to have and the minimum size needed.

The user must be within a namespace to create PVCs.

POST: 

kind: PersistentVolumeClaim
apiVersion: v1
metadata:
  name: myclaim-1
spec:
  accessModes:
    - ReadWriteOnce
  resources:
    requests:
      storage: 3
$ kubectl get pvc

NAME                LABELS              STATUS              VOLUME
myclaim-1           map[]               pending                         

Matching and binding

The PersistentVolumeClaimBinder attempts to find an available volume that most closely matches the user's request. If one exists, they are bound by putting a reference on the PV to the PVC. Requests can go unfulfilled if a suitable match is not found.

$ kubectl get pv

NAME                LABELS              CAPACITY            ACCESSMODES         STATUS              CLAIM                                                        REASON
pv0001              map[]               10737418240         RWO                 Bound               myclaim-1 / f4b3d283-c0ef-11e4-8be4-80e6500a981e


kubectl get pvc

NAME                LABELS              STATUS              VOLUME
myclaim-1           map[]               Bound               b16e91d6-c0ef-11e4-8be4-80e6500a981e

Claim usage

The claim holder can use their claim as a volume. The PersistentVolumeClaimVolumeSource knows to fetch the PV backing the claim and mount its volume for a pod.

The claim holder owns the claim and its data for as long as the claim exists. The pod using the claim can be deleted, but the claim remains in the user's namespace. It can be used again and again by many pods.

POST: 

kind: Pod
apiVersion: v1
metadata:
  name: mypod
spec:
  containers:
    - image: nginx
      name: myfrontend
      volumeMounts:
      - mountPath: "/var/www/html"
        name: mypd
  volumes:
    - name: mypd
      source:
        persistentVolumeClaim:
         accessMode: ReadWriteOnce
         claimRef:
           name: myclaim-1

Releasing a claim and Recycling a volume

When a claim holder is finished with their data, they can delete their claim.

$ kubectl delete pvc myclaim-1

The PersistentVolumeClaimBinder will reconcile this by removing the claim reference from the PV and change the PVs status to 'Released'.

Admins can script the recycling of released volumes. Future dynamic provisioners will understand how a volume should be recycled.

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