Install NFS Client
This tutorial demonstrates how to set up a KubeSphere cluster and configure NFS storage.
Note
- Ubuntu 16.04 is used as an example in this tutorial.
- NFS is incompatible with some applications, for example, Prometheus, which may result in pod creation failures. If you need to use NFS in the production environment, ensure that you have understood the risks. For more information, contact support@kubesphere.cloud.
Prerequisites
You must have an NFS server ready providing external storage services. Make sure you have created and exported a directory on the NFS server which your permitted client machines can access. For more information, see Set up an NFS Server.
Step 1: Configure the Client Machine
Install nfs-common
on all of the clients. It provides necessary NFS functions while you do not need to install any server components.
Execute the following command to make sure you are using the latest package.
sudo apt-get update
Install
nfs-common
on all the clients.sudo apt-get install nfs-common
Go to one of the client machines (taskbox) where you want to download KubeKey later. Create a configuration file that contains all the necessary parameters of your NFS server which will be referenced by KubeKey during installation.
vi nfs-client.yaml
An example configuration file:
nfs:
server: "192.168.0.2" # This is the server IP address. Replace it with your own.
path: "/mnt/demo" # Replace the exported directory with your own.
storageClass:
defaultClass: false
Note
- If you want to configure more values, see chart configurations for NFS-client.
- The
storageClass.defaultClass
field controls whether you want to set the storage class of NFS-client Provisioner as the default one. If you enterfalse
for it, KubeKey will install OpenEBS to provide local volumes, while they are not provisioned dynamically as you create workloads on your cluster. After you install KubeSphere, you can change the default storage class on the console directly.
Save the file.
Step 2: Download KubeKey
Follow the steps below to download KubeKey on the taskbox.
Download KubeKey from its GitHub Release Page or use the following command directly.
curl -sfL https://get-kk.kubesphere.io | VERSION=v3.0.7 sh -
Run the following command first to make sure you download KubeKey from the correct zone.
export KKZONE=cn
Run the following command to download KubeKey:
curl -sfL https://get-kk.kubesphere.io | VERSION=v3.0.7 sh -
Note
After you download KubeKey, if you transfer it to a new machine also with poor network connections to Googleapis, you must run export KKZONE=cn
again before you proceed with the steps below.
Note
The commands above download the latest release of KubeKey. You can change the version number in the command to download a specific version.
Make kk
executable:
chmod +x kk
Step 3: Create a Cluster
Specify a Kubernetes version and a KubeSphere version that you want to install. For example:
./kk create config --with-kubernetes v1.22.12 --with-kubesphere v3.4.0
Note
Recommended Kubernetes versions for KubeSphere 3.4: v1.20.x, v1.21.x, * v1.22.x, * v1.23.x, * v1.24.x, * v1.25.x, and * v1.26.x. For Kubernetes versions with an asterisk, some features of edge nodes may be unavailable due to incompatability. Therefore, if you want to use edge nodes, you are advised to install Kubernetes v1.21.x. If you do not specify a Kubernetes version, KubeKey will install Kubernetes v1.23.10 by default. For more information about supported Kubernetes versions, see Support Matrix.
If you do not add the flag
--with-kubesphere
in the command in this step, KubeSphere will not be deployed unless you install it using theaddons
field in the configuration file or add this flag again when you use./kk create cluster
later.If you add the flag
--with-kubesphere
without specifying a KubeSphere version, the latest version of KubeSphere will be installed.
A default file
config-sample.yaml
will be created if you do not customize the name. Edit the file.vi config-sample.yaml
...
metadata:
name: sample
spec:
hosts:
- {name: client1, address: 192.168.0.3, internalAddress: 192.168.0.3, user: ubuntu, password: Testing123}
- {name: client2, address: 192.168.0.4, internalAddress: 192.168.0.4, user: ubuntu, password: Testing123}
- {name: client3, address: 192.168.0.5, internalAddress: 192.168.0.5, user: ubuntu, password: Testing123}
roleGroups:
etcd:
- client1
control-plane:
- client1
worker:
- client2
- client3
controlPlaneEndpoint:
domain: lb.kubesphere.local
address: ""
port: 6443
kubernetes:
version: v1.22.12
imageRepo: kubesphere
clusterName: cluster.local
network:
plugin: calico
kubePodsCIDR: 10.233.64.0/18
kubeServiceCIDR: 10.233.0.0/18
registry:
registryMirrors: []
insecureRegistries: []
addons:
- name: nfs-client
namespace: kube-system
sources:
chart:
name: nfs-client-provisioner
repo: https://charts.kubesphere.io/main
valuesFile: /home/ubuntu/nfs-client.yaml # Use the path of your own NFS-client configuration file.
...
Pay special attention to the field of
addons
, under which you must provide the information of NFS-client. For more information about each parameter in this file, see Multi-node Installation.Save the file and execute the following command to install Kubernetes and KubeSphere:
./kk create cluster -f config-sample.yaml
When the installation finishes, you can inspect installation logs with the following command:
kubectl logs -n kubesphere-system $(kubectl get pod -n kubesphere-system -l 'app in (ks-install, ks-installer)' -o jsonpath='{.items[0].metadata.name}') -f
Expected output:
#####################################################
### Welcome to KubeSphere! ###
#####################################################
Console: http://192.168.0.3:30880
Account: admin
Password: P@88w0rd
NOTES:
1. After you log into the console, please check the
monitoring status of service components in
"Cluster Management". If any service is not
ready, please wait patiently until all components
are up and running.
2. Please change the default password after login.
#####################################################
https://kubesphere.io 20xx-xx-xx xx:xx:xx
#####################################################
Step 4: Verify Installation
You can verify that NFS-client has been successfully installed either from the command line or from the KubeSphere web console.
Command line
Run the following command to check your storage class.
kubectl get sc
Expected output:
NAME PROVISIONER RECLAIMPOLICY VOLUMEBINDINGMODE ALLOWVOLUMEEXPANSION AGE
local (default) openebs.io/local Delete WaitForFirstConsumer false 16m
nfs-client cluster.local/nfs-client-nfs-client-provisioner Delete Immediate true 16m
Note
If you set
nfs-client
as the default storage class, OpenEBS will not be installed by KubeKey.Run the following command to check the statuses of Pods.
kubectl get pod -n kube-system
Note that
nfs-client
is installed in the namespacekube-system
. Expected output (exclude irrelevant Pods):NAME READY STATUS RESTARTS AGE
nfs-client-nfs-client-provisioner-6fc95f4f79-92lsh 1/1 Running 0 16m
KubeSphere console
Log in to the web console as
admin
with the default account and password at<NodeIP>:30880
. Click Platform in the upper-left corner and select Cluster Management.Go to Pods in Application Workloads and select
kube-system
from the project drop-down list. You can see that the Pod ofnfs-client
is up and running.Go to Storage Classes under Storage, and you can see available storage classes in your cluster.
Note
For more information about how to create volumes on the KubeSphere console, see Volumes.
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