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In addition to supporting deploy on VM and BM, KubeSphere also supports installing on cloud-hosted and on-premises Kubernetes clusters,
- Kubernetes Version: >= 1.13.0
- Helm Version: >= 2.10.0
- Make sure your Kubernetes version is greater than 1.13.0, run
kubectl version
in your cluster node. The output looks like the following:
root@kubernetes:~# kubectl version
Client Version: version.Info{Major:"1", Minor:"15", GitVersion:"v1.15.1", GitCommit:"4485c6f18cee9a5d3c3b4e523bd27972b1b53892", GitTreeState:"clean", BuildDate:"2019-07-18T09:09:21Z", GoVersion:"go1.12.5", Compiler:"gc", Platform:"linux/amd64"}
Server Version: version.Info{Major:"1", Minor:"15", GitVersion:"v1.15.1", GitCommit:"4485c6f18cee9a5d3c3b4e523bd27972b1b53892", GitTreeState:"clean", BuildDate:"2019-07-18T09:09:21Z", GoVersion:"go1.12.5", Compiler:"gc", Platform:"linux/amd64"}
Pay attention to Server Version
line, if GitVersion
is greater than v1.13.0
, it's good. Otherwise you need to upgrade your kubernetes first. You can refer to Upgrading kubeadm clusters from v1.12 to v1.13.
- Make sure you've already installed
Helm
, and it's version is greater than2.10.0
. You can runhelm version
to check, the output looks like below:
root@kubernetes:~# helm version
Client: &version.Version{SemVer:"v2.13.1", GitCommit:"618447cbf203d147601b4b9bd7f8c37a5d39fbb4", GitTreeState:"clean"}
Server: &version.Version{SemVer:"v2.13.1", GitCommit:"618447cbf203d147601b4b9bd7f8c37a5d39fbb4", GitTreeState:"clean"}
If you get helm: command not found
, it means Helm
is not installed yet. You can check this doc Install Helm to find out how to install Helm
, and don't forget to run helm init
first after installation.
If you use an older version (<2.10.0), you need to upgrade your helm first. Upgrading Tiller
- Check the available resources in your cluster is meets the requirement. For
allinone
installation, means there is just one node in your cluster, you must have at least10Gi
memory left to finish installation. You can runfree -g
to get a roughly estimate.
root@kubernetes:~# free -g
total used free shared buff/cache available
Mem: 16 4 10 0 3 2
Swap: 0 0 0
- (Optional) Check if there is default storage class in your class. This is not required, but it's highly recommended use a Persistent Volume (not local volume).
root@kubernetes:~$ kubectl get sc
NAME PROVISIONER AGE
ceph kubernetes.io/rbd 3d4h
csi-qingcloud (default) disk.csi.qingcloud.com 54d
glusterfs kubernetes.io/glusterfs 3d4h
If your Kubernetes cluster environment meets all above requirements, you are good to go.
Note:
- Make sure the remaining available memory in the cluster is
10G at least
.- It's recommended that the K8s cluster use persistent storage and has created default storage class.
- First, you need to create 2 namespaces in Kubernetes cluster, named
kubesphere-system
andkubesphere-monitoring-system
.
$ cat <<EOF | kubectl create -f -
---
apiVersion: v1
kind: Namespace
metadata:
name: kubesphere-system
---
apiVersion: v1
kind: Namespace
metadata:
name: kubesphere-monitoring-system
EOF
- Create the Secret of CA certificate of your current Kubernetes cluster.
Note: Follow the certificate paths of
ca.crt
andca.key
of your current cluster to create this secret.
kubectl -n kubesphere-system create secret generic kubesphere-ca \
--from-file=ca.crt=/etc/kubernetes/pki/ca.crt \
--from-file=ca.key=/etc/kubernetes/pki/ca.key
- Create the Secret of certificate for ETCD in your Kubernetes cluster.
Note: Create with the actual ETCD certificate location of the cluster; If the ETCD does not have a configured certificate, an empty secret is created(The following command applies to the cluster created by Kubeadm)
Note: Create the secret according to the your actual path of ETCD for the k8s cluster;
- If the ETCD has been configured with certificates, refer to the following step:
$ kubectl -n kubesphere-monitoring-system create secret generic kube-etcd-client-certs \
--from-file=etcd-client-ca.crt=/etc/kubernetes/pki/etcd/ca.crt \
--from-file=etcd-client.crt=/etc/kubernetes/pki/etcd/healthcheck-client.crt \
--from-file=etcd-client.key=/etc/kubernetes/pki/etcd/healthcheck-client.key
- If the ETCD has been not configured with certificates.
$ kubectl -n kubesphere-monitoring-system create secret generic kube-etcd-client-certs
- Then we can start to install KubeSphere.
$ cd deploy
$ vim kubesphere.yaml
# According to the parameter table at the bottom, replace the value of "kubesphere-config" in "kubesphere.yaml" file with your current Kubernetes cluster parameters (If the ETCD has no certificate, set etcd_tls_enable: False).
$ kubectl apply -f kubesphere.yaml
- Inspect the logs of installation.
kubectl logs -n kubesphere-system $(kubectl get pod -n kubesphere-system -l job-name=kubesphere-installer -o jsonpath='{.items[0].metadata.name}') -f
- Finally, you can access the Web UI via
IP:NodePort
, the default account isadmin/P@88w0rd
.
$ kubectl get svc -n kubesphere-system
# Inspect the NodePort of ks-console, it's 30880 by default.
Parameter | Description | Default | |
kube_apiserver_host | The address of kube-apiserver of your current Kubernetes cluster(i.e. IP:NodePort) | ||
etcd_tls_enable | Whether to enable etcd TLS certificate authentication(True / False) | True | |
etcd_endpoint_ips | Etcd addresses, such as ETCD clusters, you need to separate IPs by commas(e.g.192.168.0.7,192.168.0.8,192.168.0.9) | ||
etcd_port | ETCD Port (2379 by default, you can configure this parameter if you are using another port) | 2379 | |
disableMultiLogin | Whether to turn off multipoint login for accounts (True / False) | True | |
elk_prefix | Logging index | logstash | |
keep_log_days | Log retention time (days) | 7 | |
metrics_server_enable | whether to install metrics_server (True / False) | True | |
sonarqube_enable | whether to install Sonarqube (True / False) | True | |
istio_enable | whether to install Istio (True / False) | True | |
persistence | enable | Whether the persistent storage server is enabled (True / False)(It is recommended tp enable persistent storage in a formal environment) | |
storageClass | Enabling persistent storage requires that the storageClass has been created already in the cluster (The default value is empty, which means it'll use default StorageClass) | “” | |
containersLogMountedPath(Optional) | Mount path of container logs | "/var/lib/docker/containers" | |
external_es_url(Optional) | External Elasticsearch address, it supports integrate your external ES or install internal ES directly. If you have ES, you can directly integrate it into KubeSphere | ||
external_es_port(Optional) | External ES port, supports integrate external ES | ||
local_registry (Offline installation only) | Integrate with the local repository when deploy on offline environment(To use this parameter, import the installation image into the local repository using "scripts/downloader-docker-images.sh") | ||
10 Quick Start guides of KubeSphere
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- Support multiple public cloud and private cloud, network plug-ins and storage plug-ins.
- All components are designed to be loosely-coupled, and all features are pluggable. Installation will become very light and fast.