95

I'm running a Kubernetes cluster on AWS using kops. I've mounted an EBS volume onto a container and it is visible from my application but it's read only because my application does not run as root. How can I mount a PersistentVolumeClaim as a user other than root? The VolumeMount does not seem to have any options to control the user, group or file permissions of the mounted path.

Here is my Deployment yaml file:

apiVersion: extensions/v1beta1
kind: Deployment
metadata:
  name: notebook-1
spec:
  replicas: 1
  template:
    metadata:
      labels:
        app: notebook-1
    spec:
      volumes:
      - name: notebook-1
        persistentVolumeClaim:
          claimName: notebook-1
      containers:
      - name: notebook-1
        image: jupyter/base-notebook
        ports:
        - containerPort: 8888
        volumeMounts:
        - mountPath: "/home/jovyan/work"
          name: notebook-1
73

The Pod Security Context supports setting an fsGroup, which allows you to set the group ID that owns the volume, and thus who can write to it. The example in the docs:

apiVersion: v1
kind: Pod
metadata:
  name: hello-world
spec:
  containers:
  # specification of the pod's containers
  # ...
  securityContext:
    fsGroup: 1234

More info on this is here

4
  • 2
    also note the volumes.*.defaultMode field to set security bits - v1-7.docs.kubernetes.io/docs/concepts/configuration/secret/… Dec 10 '17 at 17:11
  • Hi, doesn't solve the use cas where you need to set readOnly permission on some file when you software requires it. I'm struggling with that issue, trying to avoid creating a permissive PSP, willing to keep RunAsUser: MustRunAsNonRoot, since this will apply to all the containers in the pod. I'm thinking about creating a custom image with sudoers specific rule to perform chmod/chown with sudo for a non-root user, that I'll call as initContainer image . Any bettter/working idea welcome.
    – tisc0
    Apr 2 '20 at 13:35
  • Awesome answer! TY! Aug 6 '20 at 22:30
  • 1
    securityContext is a valid way to do this, but you have it in spec.container when it needs to be spec. Note: there is a securityContext in spec.container, but that's different than the one at the spec level. fsGroup is not available at the container level securityContext.
    – damick
    Feb 23 at 1:03
62

I ended up with an initContainer with the same volumeMount as the main container to set proper permissions, in my case, for a custom Grafana image.

This is necessary when a container in a pod is running as a user other than root and needs write permissions on a mounted volume.

initContainers:
- name: take-data-dir-ownership
  image: alpine:3
  # Give `grafana` user (id 472) permissions a mounted volume
  # https://github.com/grafana/grafana-docker/blob/master/Dockerfile
  command:
  - chown
  - -R
  - 472:472
  - /var/lib/grafana
  volumeMounts:
  - name: data
    mountPath: /var/lib/grafana
5
  • Didn't you have to run the initContainer as root user? Otherwise how would it have permission to chown to a non-root user?
    – Oliver
    Nov 21 '19 at 0:32
  • 1
    @Oliver: In this example, the initContainer is run as root implicitly. The main container will be run with a user specified in the image itself, unless container.securityContext.runAsUser or container.securityContext.runAsNonRoot (or others) have been explicitly set to something else. ref
    – sshow
    Nov 21 '19 at 9:53
  • 2
    you saved my day Aug 13 '20 at 6:45
  • When I am deploying grafana (as you did) securityContext and fsGroup: 472 is enough. Nov 22 '20 at 13:16
  • Who would have thought of this? Worked like a charm!
    – irperez
    Apr 26 at 3:04
24

This came as one of the challenges for the Kubernetes Deployments/StatefulSets, when you have to run process inside a container as non-root user. But, when you mount a volume to a pod, it always gets mounted with the permission of root:root.

So, the non-root user must have access to the folder where it wants to read and write data.

Please follow the below steps for the same.

  1. Create user group and assign group ID in Dockerfile.
  2. Create user with user ID and add to the group in Dockerfile.
  3. change ownership recursively for the folders the user process wants to read/write.
  4. Add the below lines in Deployment/StatefulSet in pod spec context.

    spec:
      securityContext:
        runAsUser: 1099
        runAsGroup: 1099
        fsGroup: 1099
    

runAsUser

Specifies that for any Containers in the Pod, all processes run with user ID 1099.

runAsGroup

Specifies the primary group ID of 1099 for all processes within any containers of the Pod.

If this field is omitted, the primary group ID of the containers will be root(0).

Any files created will also be owned by user 1099 and group 1099 when runAsGroup is specified.

fsGroup

Specifies the owner of any volume attached will be owner by group ID 1099.

Any files created under it will be having permission of nonrootgroup:nonrootgroup.

2
  • 2
    Doing God's work! Thanks you! fsGroup is EXACLY what I needed! Thank you kind sir!
    – David Roth
    Sep 3 '20 at 21:37
  • What about when your image is FROM scratch, can't really add a user or a group.
    – ZombieDev
    Sep 8 at 15:48
9

For k8s version 1.10+, runAsGroup has been added, it's similar to fsGroup but works differently.

Implementation can be tracked here: https://github.com/kubernetes/features/issues/213

2
  • 11
    When you specify runAsGroup the container is started as that group but the ownership for volume does not change. So they are different, I used both to make my volumes writable.
    – sekrett
    Oct 24 '18 at 10:20
  • 1
    Add fsgroup as well. Once you add fsgroup context then only it will also see runasgroup context to set the ownership of the folder. You can add the same user to fsgroup as runasgroup or add supplementary user group to fsgroup. Sep 18 '19 at 17:24
2

Please refer to this issue: https://github.com/kubernetes/kubernetes/issues/2630

If it is an emptydir, the securityContext in the spec can be used:

spec:
  securityContext:
    runAsUser: 1000
    fsGroup: 1000
containers: ...

If the volume is a hostpath, an initContainer can be used to chown paths in the volume:

initContainers:
    - name: example-c
      image: busybox:latest
      command: ["sh","-c","mkdir -p /vol-path && chown -R 1000:1000 /vol-path"]
      resources:
        limits:
          cpu: "1"
          memory: 1Gi
      volumeMounts:
        - name: vol-example
          mountPath: /vol-path
0

To change the file system permission run the initcontainer before actual container start

here example for elastic search pod

initContainers:
      - command:
        - sh
        - -c
        - chown -R 1000:1000 /usr/share/elasticsearch/data
        - sysctl -w vm.max_map_count=262144
        - chgrp 1000 /usr/share/elasticsearch/data
        image: busybox:1.29.2
        imagePullPolicy: IfNotPresent
        name: set-dir-owner
        resources: {}
        terminationMessagePath: /dev/termination-log
        terminationMessagePolicy: File
        volumeMounts:                         #Volume mount path
        - mountPath: /usr/share/elasticsearch/data
          name: elasticsearch-data

To change user group in container

spec:
      containers:
      securityContext:
          privileged: true
          runAsUser: 1000
4
  • Hi Harsh, you use twice the 'privileged' directive, which is here useless, and absolutely bad [security] practice.
    – tisc0
    Apr 2 '20 at 13:27
  • @tisc0 sorry for that however updated answer no need to use in init container. Apr 2 '20 at 14:25
  • 1
    @tisc0 thankyou so much for pointing it out and correcting me hope it will helpful to others also. Apr 2 '20 at 14:26
  • 1
    You're welcome. Though, I thing in your second part of code, 'To change user group in container', you're still using privileged, and I'm not seeing anything like runAsGroup or fsGroup. (Don't want to bother, just thorought).
    – tisc0
    Apr 2 '20 at 16:46
0

Over a few iterations later, I ended up using

{{- $root := . }}
...
      initContainers:
      - name: volume-mount-hack
        image: busybox
        command: ["sh", "-c", "find /data -user root -exec chown 33:33 {} \\;"]
        volumeMounts:
{{- range $key,$val := .Values.persistence.mounts }}
        - name: data
          mountPath: /data/{{ $key }}
          subPath: {{ $root.Values.projectKey }}/{{ $key }}
{{- end }}

It's much cleaner and configurable as opposed to other solutions. Moreover, it is way faster - the find command only changes permissions on files/directories that actually belong to the root user.

When you are mounting volumes with a large number of files, this can have a significant impact on your container boot/load times (seconds or even minutes!).

Try comparing the execution time of

chown www-data:www-data ./ -R

and

find /data -user root -exec chown 33:33 {} \\;

you may be surprised!

0
  • In minikube, it worked after running initContainers as a root user , by setting runAsUser: 0
    initContainers:
      - name: change-ownership-container
        image: busybox
        command: ["/bin/chown","-R","1000:1000", "/home/jovyan/work"]
        securityContext:
          runAsUser: 0
          privileged: true
        volumeMounts:
        - name: notebook-data
          mountPath: /home/jovyan/work 

So the whole Yaml file looks like this

apiVersion: apps/v1
kind: StatefulSet
metadata:
  name: jupyter
  labels:
    release: jupyter
spec:
  replicas:
  updateStrategy:
    type: RollingUpdate
  serviceName: jupyter-headless
  podManagementPolicy: Parallel
  selector:
    matchLabels:
      release: jupyter
  template:
    metadata:
      labels:
        release: jupyter
      annotations:
    spec:
      restartPolicy: Always
      terminationGracePeriodSeconds: 30
      securityContext:
        runAsUser: 1000
        fsGroup: 1000
      containers:
      - name: jupyter
        image: "jupyter/base-notebook:ubuntu-20.04"
        imagePullPolicy: IfNotPresent
        ports:
        - name: http
          containerPort: 8888
          protocol: TCP
        - name: blockmanager
          containerPort: 7777
          protocol: TCP
        - name: driver
          containerPort: 2222
          protocol: TCP
        volumeMounts:
        - name: notebook-data
          mountPath: /home/jovyan/work
        resources:
          limits:
            cpu: 200m
            memory: 300Mi
          requests:
            cpu: 100m
            memory: 200Mi
      initContainers:
      - name: change-ownership-container
        image: busybox
        command: ["/bin/chown","-R","1000:1000", "/home/jovyan/work"]
        securityContext:
          runAsUser: 0
          privileged: true
        volumeMounts:
        - name: notebook-data
          mountPath: /home/jovyan/work
      volumes:
      - name: notebook-data
        persistentVolumeClaim:
          claimName: jupyter-pvc  

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