We have two pods in Kubernetes that for sake of conversation we'll call pod1 and pod2. I created pv1 and pvc1 on pod 1 and it's working fine. In my opinion, the documentation is not clear enough about this scenario or I couldn't find the right wiki. How can I access pv1 and pvc1 from pod2?

2 Answers 2


From the k8s documentation:

A PersistentVolume (PV) is a piece of storage in the cluster that has been provisioned by an administrator. It is a resource in the cluster just like a node is a cluster resource. PVs are volume plugins like Volumes, but have a lifecycle independent of any individual pod that uses the PV. This API object captures the details of the implementation of the storage, be that NFS, iSCSI, or a cloud-provider-specific storage system.

A PersistentVolumeClaim (PVC) is a request for storage by a user. It is similar to a pod. Pods consume node resources and PVCs consume PV resources. Pods can request specific levels of resources (CPU and Memory). Claims can request specific size and access modes (e.g., can be mounted once read/write or many times read-only).

Meaning that in the scenario pictured in the question, if PodA_deployment.yaml creates a volume claim:

- name: myapp-data-pv-1
  mountPath: /home/myappdata/mystuff

then PodB will be able to mount the pv making a claim like the following:

   - name: myapp-data-pv-1
       claimName: myapp-data-pvc-1

in PodB_deployment.yaml. While it's clear once and it makes sense once you get to understand it, the documentation could explain it better.


Accessing the same PV on multiple node is not that easy as it looks. First of all, based on your your use case, you need a supporting filesystem underneath for creating this shared storage. An EFS/NFS/GlusterFS should be ideal and kubernetes volume plugin support most of these. Additionally you need to have PVC with the right access mode Eg : ReadWriteMany, in case you are looking for a multi-write architecture. Again, in a micro service world, you should try to avoid such use cases or find better alternatives to make your design scalable, stateless to a possible extend. https://12factor.net/ emphasize most of these principles.

  • 1
    A good use case for this is if you have a pod representing a "consumer" that has an expensive long running piece of work to accomplish. You might want to use disk storage for persisting results while processing with the final aim of then streaming the results from that file somewhere else. In this case, for resilience, if your pod restarts it would be good to resume the work being done at the last saved point and since a pod can run on any node, using a shared volume here is very useful. Sep 22, 2021 at 8:41

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