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274 lines
10 KiB
ReStructuredText
===
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NFS
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===
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CephFS namespaces can be exported over NFS protocol using the
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`NFS-Ganesha NFS server <https://github.com/nfs-ganesha/nfs-ganesha/wiki>`_.
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Requirements
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============
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- Ceph file system (preferably latest stable luminous or higher versions)
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- In the NFS server host machine, 'libcephfs2' (preferably latest stable
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luminous or higher), 'nfs-ganesha' and 'nfs-ganesha-ceph' packages (latest
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ganesha v2.5 stable or higher versions)
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- NFS-Ganesha server host connected to the Ceph public network
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Configuring NFS-Ganesha to export CephFS
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========================================
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NFS-Ganesha provides a File System Abstraction Layer (FSAL) to plug in different
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storage backends. `FSAL_CEPH <https://github.com/nfs-ganesha/nfs-ganesha/tree/next/src/FSAL/FSAL_CEPH>`_
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is the plugin FSAL for CephFS. For each NFS-Ganesha export, FSAL_CEPH uses a
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libcephfs client, user-space CephFS client, to mount the CephFS path that
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NFS-Ganesha exports.
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Setting up NFS-Ganesha with CephFS, involves setting up NFS-Ganesha's
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configuration file, and also setting up a Ceph configuration file and cephx
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access credentials for the Ceph clients created by NFS-Ganesha to access
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CephFS.
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NFS-Ganesha configuration
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-------------------------
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A sample ganesha.conf configured with FSAL_CEPH can be found here,
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`<https://github.com/nfs-ganesha/nfs-ganesha/blob/next/src/config_samples/ceph.conf>`_.
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It is suitable for a standalone NFS-Ganesha server, or an active/passive
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configuration of NFS-Ganesha servers managed by some sort of clustering
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software (e.g., Pacemaker). Important details about the options are
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added as comments in the sample conf. There are options to do the following:
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- minimize Ganesha caching wherever possible since the libcephfs clients
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(of FSAL_CEPH) also cache aggressively
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- read from Ganesha config files stored in RADOS objects
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- store client recovery data in RADOS OMAP key-value interface
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- mandate NFSv4.1+ access
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- enable read delegations (need at least v13.0.1 'libcephfs2' package
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and v2.6.0 stable 'nfs-ganesha' and 'nfs-ganesha-ceph' packages)
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Configuration for libcephfs clients
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-----------------------------------
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Required ceph.conf for libcephfs clients includes:
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* a [client] section with ``mon_host`` option set to let the clients connect
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to the Ceph cluster's monitors, usually generated via ``ceph config generate-minimal-conf``, e.g., ::
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[global]
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mon host = [v2:192.168.1.7:3300,v1:192.168.1.7:6789], [v2:192.168.1.8:3300,v1:192.168.1.8:6789], [v2:192.168.1.9:3300,v1:192.168.1.9:6789]
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Mount using NFSv4 clients
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=========================
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It is preferred to mount the NFS-Ganesha exports using NFSv4.1+ protocols
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to get the benefit of sessions.
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Conventions for mounting NFS resources are platform-specific. The
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following conventions work on Linux and some Unix platforms:
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From the command line::
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mount -t nfs -o nfsvers=4.1,proto=tcp <ganesha-host-name>:<ganesha-pseudo-path> <mount-point>
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Current limitations
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===================
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- Per running ganesha daemon, FSAL_CEPH can only export one Ceph file system
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although multiple directories in a Ceph file system may be exported.
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Exporting over NFS clusters deployed using rook
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===============================================
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This tutorial assumes you have a kubernetes cluster deployed. If not `minikube
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<https://kubernetes.io/docs/setup/learning-environment/minikube/>`_ can be used
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to setup a single node cluster. In this tutorial minikube is used.
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.. note:: Configuration of this tutorial should not be used in a a real
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production cluster. For the purpose of simplification, the security
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aspects of Ceph are overlooked in this setup.
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`Rook <https://rook.io/docs/rook/master/ceph-quickstart.html>`_ Setup And Cluster Deployment
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--------------------------------------------------------------------------------------------
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Clone the rook repository::
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git clone https://github.com/rook/rook.git
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Deploy the rook operator::
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cd cluster/examples/kubernetes/ceph
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kubectl create -f common.yaml
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kubectl create -f operator.yaml
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.. note:: Nautilus release or latest Ceph image should be used.
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Before proceding check if the pods are running::
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kubectl -n rook-ceph get pod
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.. note::
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For troubleshooting on any pod use::
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kubectl describe -n rook-ceph pod <pod-name>
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If using minikube cluster change the **dataDirHostPath** to **/data/rook** in
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cluster-test.yaml file. This is to make sure data persists across reboots.
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Deploy the ceph cluster::
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kubectl create -f cluster-test.yaml
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To interact with Ceph Daemons, let's deploy toolbox::
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kubectl create -f ./toolbox.yaml
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Exec into the rook-ceph-tools pod::
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kubectl -n rook-ceph exec -it $(kubectl -n rook-ceph get pod -l "app=rook-ceph-tools" -o jsonpath='{.items[0].metadata.name}') bash
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Check if you have one Ceph monitor, manager, OSD running and cluster is healthy::
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[root@minikube /]# ceph -s
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cluster:
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id: 3a30f44c-a9ce-4c26-9f25-cc6fd23128d0
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health: HEALTH_OK
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services:
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mon: 1 daemons, quorum a (age 14m)
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mgr: a(active, since 13m)
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osd: 1 osds: 1 up (since 13m), 1 in (since 13m)
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data:
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pools: 0 pools, 0 pgs
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objects: 0 objects, 0 B
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usage: 5.0 GiB used, 11 GiB / 16 GiB avail
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pgs:
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.. note:: Single monitor should never be used in real production deployment. As
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it can cause single point of failure.
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Create a Ceph File System
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-------------------------
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Using ceph-mgr volumes module, we will create a ceph file system::
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[root@minikube /]# ceph fs volume create myfs
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By default replicated size for OSD is 3. Since we are using only one OSD. It can cause error. Let's fix this up by setting replicated size to 1.::
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[root@minikube /]# ceph osd pool set cephfs.myfs.meta size 1
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[root@minikube /]# ceph osd pool set cephfs.myfs.data size 1
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.. note:: The replicated size should never be less than 3 in real production deployment.
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Check Cluster status again::
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[root@minikube /]# ceph -s
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cluster:
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id: 3a30f44c-a9ce-4c26-9f25-cc6fd23128d0
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health: HEALTH_OK
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services:
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mon: 1 daemons, quorum a (age 27m)
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mgr: a(active, since 27m)
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mds: myfs:1 {0=myfs-a=up:active} 1 up:standby-replay
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osd: 1 osds: 1 up (since 56m), 1 in (since 56m)
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data:
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pools: 2 pools, 24 pgs
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objects: 22 objects, 2.2 KiB
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usage: 5.1 GiB used, 11 GiB / 16 GiB avail
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pgs: 24 active+clean
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io:
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client: 639 B/s rd, 1 op/s rd, 0 op/s wr
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Create a NFS-Ganesha Server Cluster
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-----------------------------------
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Add Storage for NFS-Ganesha Servers to prevent recovery conflicts::
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[root@minikube /]# ceph osd pool create nfs-ganesha 64
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pool 'nfs-ganesha' created
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[root@minikube /]# ceph osd pool set nfs-ganesha size 1
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[root@minikube /]# ceph orch nfs add mynfs nfs-ganesha ganesha
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Here we have created a NFS-Ganesha cluster called "mynfs" in "ganesha"
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namespace with "nfs-ganesha" OSD pool.
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Scale out NFS-Ganesha cluster::
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[root@minikube /]# ceph orch nfs update mynfs 2
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Configure NFS-Ganesha Exports
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-----------------------------
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Initially rook creates ClusterIP service for the dashboard. With this service
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type, only the pods in same kubernetes cluster can access it.
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Expose Ceph Dashboard port::
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kubectl patch service -n rook-ceph -p '{"spec":{"type": "NodePort"}}' rook-ceph-mgr-dashboard
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kubectl get service -n rook-ceph rook-ceph-mgr-dashboard
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NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE
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rook-ceph-mgr-dashboard NodePort 10.108.183.148 <none> 8443:31727/TCP 117m
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This makes the dashboard reachable outside kubernetes cluster and the service
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type is changed to NodePort service.
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Create JSON file for dashboard::
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$ cat ~/export.json
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{
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"cluster_id": "mynfs",
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"path": "/",
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"fsal": {"name": "CEPH", "user_id":"admin", "fs_name": "myfs", "sec_label_xattr": null},
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"pseudo": "/cephfs",
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"tag": null,
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"access_type": "RW",
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"squash": "no_root_squash",
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"protocols": [4],
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"transports": ["TCP"],
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"security_label": true,
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"daemons": ["mynfs.a", "mynfs.b"],
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"clients": []
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}
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.. note:: Don't use this JSON file for real production deployment. As here the
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ganesha servers are given client-admin access rights.
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We need to download and run this `script
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<https://raw.githubusercontent.com/ceph/ceph/master/src/pybind/mgr/dashboard/run-backend-rook-api-request.sh>`_
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to pass the JSON file contents. Dashboard creates NFS-Ganesha export file
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based on this JSON file.::
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./run-backend-rook-api-request.sh POST /api/nfs-ganesha/export "$(cat <json-file-path>)"
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Expose the NFS Servers::
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kubectl patch service -n rook-ceph -p '{"spec":{"type": "NodePort"}}' rook-ceph-nfs-mynfs-a
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kubectl patch service -n rook-ceph -p '{"spec":{"type": "NodePort"}}' rook-ceph-nfs-mynfs-b
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kubectl get services -n rook-ceph rook-ceph-nfs-mynfs-a rook-ceph-nfs-mynfs-b
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NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE
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rook-ceph-nfs-mynfs-a NodePort 10.101.186.111 <none> 2049:31013/TCP 72m
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rook-ceph-nfs-mynfs-b NodePort 10.99.216.92 <none> 2049:31587/TCP 63m
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.. note:: Ports are chosen at random by Kubernetes from a certain range.
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Specific port number can be added to nodePort field in spec.
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Testing access to NFS Servers
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-----------------------------
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Open a root shell on the host and mount one of the NFS servers::
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mkdir -p /mnt/rook
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mount -t nfs -o port=31013 $(minikube ip):/cephfs /mnt/rook
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Normal file operations can be performed on /mnt/rook if the mount is successful.
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.. note:: If minikube is used then VM host is the only client for the servers.
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In a real kubernetes cluster, multiple hosts can be used as clients,
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only when kubernetes cluster node IP addresses are accessible to
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them.
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