OpenShift Volume Concepts: Difference between revisions

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* status.podIP
* status.podIP


'resourceFieldRef'/'resource', which refers to the [[#Resources|resource]] entries.
'resourceFieldRef'/'resource', which refers to the [[OpenShift Concepts#Resources|resource]] entries.


The information can be exposed to pods via [[OpenShift_Downward_API_Operations#Expose_OpenShift_Information_to_Pod_via_Environment_Variables|environment variables]] and [[OpenShift_Downward_API_Operations#Expose_OpenShift_Information_to_Pod_via_Volumes|volumes]].
The information can be exposed to pods via [[OpenShift_Downward_API_Operations#Expose_OpenShift_Information_to_Pod_via_Environment_Variables|environment variables]] and [[OpenShift_Downward_API_Operations#Expose_OpenShift_Information_to_Pod_via_Volumes|volumes]].

Revision as of 01:35, 6 February 2018

Internal

The Volume Mechanism

Volumes are mounted filesystems available to pods and their containers. Volumes may be backed by a number of host-local or network attached storage endpoints. The simplest volume type is EmptyDir, which is a temporary directory on a single machine. Administrators may also allow to request and attach Persistent Volumes.

Various contexts list the following objects as "volumes":

Volume Types

Persistent Volume Claim

A persistent volume claim is a request for a persistence resource with specific attributes, such as storage size. Persistent volume claims are matched to available volumes and binds the pod to the volume. This process allows a claim to be used as a volume in a pod: OpenShift finds the volume backing the claim and mounts it into the pod. Persistent volume claims are project-specific objects.

The pod can be disassociated from the persistent volume by deleting the persistent volume claim. The persistent volume transitions from a "Bound" to "Released" state. To make the persistent volume "Available" again, edit it and remove the persistent volume claim reference, as shown here. Transitioning the persistent volume from "Released" to "Available" state does not clear the storage content - this will have to be done manually.

Persistent Volume Claim Definition

All persistent volume claims for the current project can be listed with:

oc get pvc
Persistent Volume Claim Operations

EmptyDir

https://docs.openshift.com/container-platform/latest/dev_guide/volumes.html#dev-guide-volumes
https://kubernetes.io/docs/concepts/storage/volumes/#emptydir

An "emptyDir", also known as a "temporary pod volume", is created when the pod is assigned to a node, and exists as long as the pod is running on the node. It is initially empty. Containers in a pod can all read and write the same files in the "emptyDir" volume, though the volume can be mounted at the same or different paths in each container.

When the pod is removed from the node, the data is deleted. If the container crashes, that does not remove the pod from a node, so data in an empty dir is safe across container crashes.

The "emptyDir" volumes are stored on whatever medium is backing the node (disk, network storage). The mapping on the local file system backing the node can be discovered by identifying the container and then executing a docker inspect:

"Mounts": [
    {
        "Source": "/var/lib/origin/openshift.local.volumes/pods/1806c74f-0ad4-11e8-85a1-525400360e56/volumes/kubernetes.io~empty-dir/emptydirvol1",
        "Destination": "/something",
        "Mode": "Z",
        "RW": true,
        "Propagation": "rprivate"
    }
    ...

EmptyDir Operations

Adding an EmptyDir Volume

ConfigMap

https://docs.openshift.com/container-platform/latest/dev_guide/configmaps.html

A ConfigMap is a component that holds key/value pairs of configuration data, and that can be consumed by pods, or can be used to store configuration for OpenShift system components such as controllers. It is a mechanism to inject containers with configuration while keeping the containers agnostic of the OpenShift platform. Aside from fine-grained information like individual properties, ConfigMaps can also store coarse-grained information such as entire configuration files or JSON blobs. The ConfigMaps can populate environment variables, set command-line arguments in a container and populate configuration files in a volume.

A ConfigMap is similar to a secret, but designed to be more convenient when working with strings that do not contain sensitive information.

ConfigMap can be created from directories, files, literal values.

The ConfigMaps must be created before they are consumed in pods. They cannot be shared between projects. If the ConfigMap is updated, it must be redeployed in then pod for the pod to see the changes.

ConfigMap Definition
ConfigMap Operations

Downward API

https://docs.openshift.com/container-platform/latest/dev_guide/downward_api.html
https://kubernetes-v1-4.github.io/docs/user-guide/downward-api/

The downward API allows containers to consume information about OpenShift objects. The field within a pod are selected using 'fieldRef' API type, which has two types: 'fieldPath', the path of field to select relative to the pod and 'apiVersion'. The downward API exposes the following selectors:

  • metadata.name: the pod name.
  • metadata.namespace: pod namespace.
  • metadata.labels
  • metadata.annotations
  • status.podIP

'resourceFieldRef'/'resource', which refers to the resource entries.

The information can be exposed to pods via environment variables and volumes.

Host Path

Secret

NFS

Persistent Volume

https://docs.openshift.com/container-platform/latest/dev_guide/persistent_volumes.html
https://docs.openshift.com/container-platform/latest/architecture/additional_concepts/storage.html#persistent-volumes
https://docs.openshift.com/container-platform/latest/install_config/persistent_storage/index.html
Kubernetes Persistent Volume

Persistent volumes can be listed with oc get pv.

Persistent Volume Operations

Persistent Volume Definition

Persistent Volume Definition