Air-gapped Installation On Linux
The air-gapped installation is almost the same as the online installation except that you must create a local registry to host Docker images. This tutorial demonstrates how to install KubeSphere and Kubernetes in an air-gapped environment.
Step 1: Prepare Linux Hosts
Please see the requirements for hardware and operating system shown below. To get started with multi-node installation, you need to prepare at least three hosts according to the following requirements.
System requirements
Systems | Minimum Requirements (Each node) |
---|---|
Ubuntu 16.04, 18.04 | CPU: 2 Cores, Memory: 4 G, Disk Space: 100 G |
Debian Buster, Stretch | CPU: 2 Cores, Memory: 4 G, Disk Space: 100 G |
CentOS 7.x | CPU: 2 Cores, Memory: 4 G, Disk Space: 100 G |
Red Hat Enterprise Linux 7 | CPU: 2 Cores, Memory: 4 G, Disk Space: 100 G |
SUSE Linux Enterprise Server 15/openSUSE Leap 15.2 | CPU: 2 Cores, Memory: 4 G, Disk Space: 100 G |
Note
KubeKey uses /var/lib/docker
as the default directory where all Docker related files, including images, are stored. It is recommended you add additional storage volumes with at least 100G mounted to /var/lib/docker
and /mnt/registry
respectively. See fdisk command for reference.
Node requirements
- It’s recommended that your OS be clean (without any other software installed). Otherwise, there may be conflicts.
- Ensure your disk of each node is at least 100G.
- All nodes must be accessible through
SSH
. - Time synchronization for all nodes.
sudo
/curl
/openssl
should be used in all nodes.docker
must be installed by yourself in an offline environment.
KubeKey can install Kubernetes and KubeSphere together. The dependency that needs to be installed may be different based on the Kubernetes version to be installed. You can refer to the list below to see if you need to install relevant dependencies on your node in advance.
Dependency | Kubernetes Version ≥ 1.18 | Kubernetes Version < 1.18 |
---|---|---|
socat | Required | Optional but recommended |
conntrack | Required | Optional but recommended |
ebtables | Optional but recommended | Optional but recommended |
ipset | Optional but recommended | Optional but recommended |
Note
- In an air-gapped environment, you can install these dependencies using a private package, a RPM package (for CentOS) or a Deb package (for Debian).
- It is recommended you create an OS image file with all relevant dependencies installed in advance. In this way, you can use the image file directly for the installation of OS on each machine, improving deployment efficiency while not worrying about any dependency issues.
Network and DNS requirements
- Make sure the DNS address in
/etc/resolv.conf
is available. Otherwise, it may cause some issues of DNS in clusters. - If your network configuration uses Firewall or Security Group, you must ensure infrastructure components can communicate with each other through specific ports. It’s recommended that you turn off the firewall. For more information, refer to Port Requirements.
Example machines
This example includes three hosts as below with the master node serving as the taskbox.
Host IP | Host Name | Role |
---|---|---|
192.168.0.2 | master | master, etcd |
192.168.0.3 | node1 | worker |
192.168.0.4 | node2 | worker |
Step 2: Prepare a Private Image Registry
You can use Harbor or any other private image registries. This tutorial uses Docker registry as an example with self-signed certificates (If you have your own private image registry, you can skip this step).
Use self-signed certificates
Generate your own certificate by executing the following commands:
mkdir -p certs
openssl req \
-newkey rsa:4096 -nodes -sha256 -keyout certs/domain.key \
-x509 -days 36500 -out certs/domain.crt
Make sure you specify a domain name in the field
Common Name
when you are generating your own certificate. For instance, the field is set todockerhub.kubekey.local
in this example.
Start the Docker registry
Run the following commands to start the Docker registry:
docker run -d \
--restart=always \
--name registry \
-v "$(pwd)"/certs:/certs \
-v /mnt/registry:/var/lib/registry \
-e REGISTRY_HTTP_ADDR=0.0.0.0:443 \
-e REGISTRY_HTTP_TLS_CERTIFICATE=/certs/domain.crt \
-e REGISTRY_HTTP_TLS_KEY=/certs/domain.key \
-p 443:443 \
registry:2
Configure the registry
Add an entry to
/etc/hosts
to map the hostname (i.e. the registry domain name; in this case, it isdockerhub.kubekey.local
) to the private IP address of your machine as below.# docker registry
192.168.0.2 dockerhub.kubekey.local
Execute the following commands to copy the certificate to a specified directory and make Docker trust it.
mkdir -p /etc/docker/certs.d/dockerhub.kubekey.local
cp certs/domain.crt /etc/docker/certs.d/dockerhub.kubekey.local/ca.crt
Note
The path of the certificate is related to the domain name. When you copy the path, use your actual domain name if it is different from the one set above.
To verify whether the private registry is effective, you can copy an image to your local machine first, and use
docker push
anddocker pull
to test it.
Step 3: Download KubeKey
Similar to installing KubeSphere on Linux in an online environment, you also need to download KubeKey v1.1.0 first. Download the tar.gz
file, and transfer it to your local machine which serves as the taskbox for installation. After you uncompress the file, execute the following command to make kk
executable:
chmod +x kk
Step 4: Prepare Installation Images
As you install KubeSphere and Kubernetes on Linux, you need to prepare an image package containing all the necessary images and download the Kubernetes binary file in advance.
Download the image list file
images-list.txt
from a machine that has access to the Internet through the following command:curl -L -O https://github.com/kubesphere/ks-installer/releases/download/v3.1.0/images-list.txt
Note
This file lists images under
##+modulename
based on different modules. You can add your own images to this file following the same rule. To view the complete file, see Appendix.Download
offline-installation-tool.sh
.curl -L -O https://github.com/kubesphere/ks-installer/releases/download/v3.1.0/offline-installation-tool.sh
Make the
.sh
file executable.chmod +x offline-installation-tool.sh
You can execute the command
./offline-installation-tool.sh -h
to see how to use the script:[email protected]:/home/ubuntu# ./offline-installation-tool.sh -h
Usage:
./offline-installation-tool.sh [-l IMAGES-LIST] [-d IMAGES-DIR] [-r PRIVATE-REGISTRY] [-v KUBERNETES-VERSION ]
Description:
-b : save kubernetes' binaries.
-d IMAGES-DIR : the dir of files (tar.gz) which generated by `docker save`. default: ./kubesphere-images
-l IMAGES-LIST : text file with list of images.
-r PRIVATE-REGISTRY : target private registry:port.
-s : save model will be applied. Pull the images in the IMAGES-LIST and save images as a tar.gz file.
-v KUBERNETES-VERSION : download kubernetes' binaries. default: v1.17.9
-h : usage message
Download the Kubernetes binary file.
./offline-installation-tool.sh -b -v v1.17.9
If you cannot access the object storage service of Google, run the following command instead to add the environment variable to change the source.
export KKZONE=cn;./offline-installation-tool.sh -b -v v1.17.9
Note
You can change the Kubernetes version downloaded based on your needs. Recommended Kubernetes versions for KubeSphere v3.1.0: v1.17.9, v1.18.8, v1.19.8 and v1.20.4. If you do not specify a Kubernetes version, KubeKey will install Kubernetes v1.19.8 by default. For more information about supported Kubernetes versions, see Support Matrix.
After you run the script, a folder
kubekey
is automatically created. Note that this file andkk
must be placed in the same directory when you create the cluster later.
Pull images in
offline-installation-tool.sh
../offline-installation-tool.sh -s -l images-list.txt -d ./kubesphere-images
Note
You can choose to pull images as needed. For example, you can delete
##k8s-images
and related images under it inimages-list.text
if you already have a Kubernetes cluster.
Step 5: Push Images to Your Private Registry
Transfer your packaged image file to your local machine and execute the following command to push it to the registry.
./offline-installation-tool.sh -l images-list.txt -d ./kubesphere-images -r dockerhub.kubekey.local
Note
The domain name is dockerhub.kubekey.local
in the command. Make sure you use your own registry address.
Step 6: Create a Cluster
In this tutorial, KubeSphere is installed on multiple nodes, so you need to specify a configuration file to add host information. Besides, for air-gapped installation, pay special attention to .spec.registry.privateRegistry
, which must be set to your own registry address. See the complete YAML file below for more information.
Create an example configuration file
Execute the following command to generate an example configuration file for installation:
./kk create config [--with-kubernetes version] [--with-kubesphere version] [(-f | --file) path]
For example:
./kk create config --with-kubernetes v1.17.9 --with-kubesphere v3.1.0 -f config-sample.yaml
Note
Make sure the Kubernetes version is the one you downloaded.
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.
Edit the configuration file
Edit the generated configuration file config-sample.yaml
. Here is an example for your reference:
Warning
For air-gapped installation, you must specify privateRegistry
, which is dockerhub.kubekey.local
in this example.
apiVersion: kubekey.kubesphere.io/v1alpha1
kind: Cluster
metadata:
name: sample
spec:
hosts:
- {name: master, address: 192.168.0.2, internalAddress: 192.168.0.2, password: [email protected]}
- {name: node1, address: 192.168.0.3, internalAddress: 192.168.0.3, password: [email protected]}
- {name: node2, address: 192.168.0.4, internalAddress: 192.168.0.4, password: [email protected]}
roleGroups:
etcd:
- master
master:
- master
worker:
- master
- node1
- node2
controlPlaneEndpoint:
domain: lb.kubesphere.local
address: ""
port: 6443
kubernetes:
version: v1.17.9
imageRepo: kubesphere
clusterName: cluster.local
network:
plugin: calico
kubePodsCIDR: 10.233.64.0/18
kubeServiceCIDR: 10.233.0.0/18
registry:
registryMirrors: []
insecureRegistries: []
privateRegistry: dockerhub.kubekey.local # Add the private image registry address here.
addons: []
---
apiVersion: installer.kubesphere.io/v1alpha1
kind: ClusterConfiguration
metadata:
name: ks-installer
namespace: kubesphere-system
labels:
version: v3.1.0
spec:
persistence:
storageClass: ""
authentication:
jwtSecret: ""
zone: ""
local_registry: ""
etcd:
monitoring: false
endpointIps: localhost
port: 2379
tlsEnable: true
common:
redis:
enabled: false
redisVolumSize: 2Gi
openldap:
enabled: false
openldapVolumeSize: 2Gi
minioVolumeSize: 20Gi
monitoring:
endpoint: http://prometheus-operated.kubesphere-monitoring-system.svc:9090
es:
elasticsearchMasterVolumeSize: 4Gi
elasticsearchDataVolumeSize: 20Gi
logMaxAge: 7
elkPrefix: logstash
basicAuth:
enabled: false
username: ""
password: ""
externalElasticsearchUrl: ""
externalElasticsearchPort: ""
console:
enableMultiLogin: true
port: 30880
alerting:
enabled: false
# thanosruler:
# replicas: 1
# resources: {}
auditing:
enabled: false
devops:
enabled: false
jenkinsMemoryLim: 2Gi
jenkinsMemoryReq: 1500Mi
jenkinsVolumeSize: 8Gi
jenkinsJavaOpts_Xms: 512m
jenkinsJavaOpts_Xmx: 512m
jenkinsJavaOpts_MaxRAM: 2g
events:
enabled: false
ruler:
enabled: true
replicas: 2
logging:
enabled: false
logsidecar:
enabled: true
replicas: 2
metrics_server:
enabled: false
monitoring:
storageClass: ""
prometheusMemoryRequest: 400Mi
prometheusVolumeSize: 20Gi
multicluster:
clusterRole: none
network:
networkpolicy:
enabled: false
ippool:
type: none
topology:
type: none
notification:
enabled: false
openpitrix:
store:
enabled: false
servicemesh:
enabled: false
kubeedge:
enabled: false
cloudCore:
nodeSelector: {"node-role.kubernetes.io/worker": ""}
tolerations: []
cloudhubPort: "10000"
cloudhubQuicPort: "10001"
cloudhubHttpsPort: "10002"
cloudstreamPort: "10003"
tunnelPort: "10004"
cloudHub:
advertiseAddress:
- ""
nodeLimit: "100"
service:
cloudhubNodePort: "30000"
cloudhubQuicNodePort: "30001"
cloudhubHttpsNodePort: "30002"
cloudstreamNodePort: "30003"
tunnelNodePort: "30004"
edgeWatcher:
nodeSelector: {"node-role.kubernetes.io/worker": ""}
tolerations: []
edgeWatcherAgent:
nodeSelector: {"node-role.kubernetes.io/worker": ""}
tolerations: []
Info
For more information about these parameters, see Multi-node Installation and Kubernetes Cluster Configuration. To enable pluggable components in config-sample.yaml
, refer to Enable Pluggle Components for more details.
Step 7: Start Installation
You can execute the following command after you make sure that all steps above are completed.
./kk create cluster -f config-sample.yaml
Warning
After you transfer the executable file kk
and the folder kubekey
that contains the Kubernetes binary file to the taskbox machine for installation, they must be placed in the same directory before you execute the command above.
Step 8: Verify Installation
When the installation finishes, you can see the content as follows:
#####################################################
### Welcome to KubeSphere! ###
#####################################################
Console: http://192.168.0.2:30880
Account: admin
Password: [email protected]
NOTES:
1. After logging into the console, please check the
monitoring status of service components in
the "Cluster Management". If any service is not
ready, please wait patiently until all components
are ready.
2. Please modify the default password after login.
#####################################################
https://kubesphere.io 20xx-xx-xx xx:xx:xx
#####################################################
Now, you will be able to access the web console of KubeSphere through http://{IP}:30880
with the default account and password admin/[[email protected]](https://kubesphere.io/cdn-cgi/l/email-protection)
.
Note
To access the console, make sure port 30880 is opened in your security group.
Appendix
Image list of KubeSphere v3.1.0
##k8s-images
kubesphere/kube-apiserver:v1.20.4
kubesphere/kube-scheduler:v1.20.4
kubesphere/kube-proxy:v1.20.4
kubesphere/kube-controller-manager:v1.20.4
kubesphere/kube-apiserver:v1.19.8
kubesphere/kube-scheduler:v1.19.8
kubesphere/kube-proxy:v1.19.8
kubesphere/kube-controller-manager:v1.19.8
kubesphere/kube-apiserver:v1.18.6
kubesphere/kube-scheduler:v1.18.6
kubesphere/kube-proxy:v1.18.6
kubesphere/kube-controller-manager:v1.18.6
kubesphere/kube-apiserver:v1.17.9
kubesphere/kube-scheduler:v1.17.9
kubesphere/kube-proxy:v1.17.9
kubesphere/kube-controller-manager:v1.17.9
kubesphere/pause:3.1
kubesphere/pause:3.2
kubesphere/etcd:v3.4.13
calico/cni:v3.16.3
calico/kube-controllers:v3.16.3
calico/node:v3.16.3
calico/pod2daemon-flexvol:v3.16.3
coredns/coredns:1.6.9
kubesphere/k8s-dns-node-cache:1.15.12
openebs/provisioner-localpv:2.3.0
openebs/linux-utils:2.3.0
kubesphere/nfs-client-provisioner:v3.1.0-k8s1.11
##csi-images
csiplugin/csi-neonsan:v1.2.0
csiplugin/csi-neonsan-ubuntu:v1.2.0
csiplugin/csi-neonsan-centos:v1.2.0
csiplugin/csi-provisioner:v1.5.0
csiplugin/csi-attacher:v2.1.1
csiplugin/csi-resizer:v0.4.0
csiplugin/csi-snapshotter:v2.0.1
csiplugin/csi-node-driver-registrar:v1.2.0
csiplugin/csi-qingcloud:v1.2.0
##kubesphere-images
kubesphere/ks-apiserver:v3.1.0
kubesphere/ks-console:v3.1.0
kubesphere/ks-controller-manager:v3.1.0
kubesphere/ks-installer:v3.1.0
kubesphere/kubectl:v1.17.0
kubesphere/kubectl:v1.18.0
kubesphere/kubectl:v1.19.0
kubesphere/kubectl:v1.20.0
redis:5.0.5-alpine
alpine:3.10.4
haproxy:2.0.4
nginx:1.14-alpine
minio/minio:RELEASE.2019-08-07T01-59-21Z
minio/mc:RELEASE.2019-08-07T23-14-43Z
mirrorgooglecontainers/defaultbackend-amd64:1.4
kubesphere/nginx-ingress-controller:v0.35.0
osixia/openldap:1.3.0
csiplugin/snapshot-controller:v2.0.1
kubesphere/kubefed:v0.7.0
kubesphere/tower:v0.2.0
kubesphere/prometheus-config-reloader:v0.42.1
kubesphere/prometheus-operator:v0.42.1
prom/alertmanager:v0.21.0
prom/prometheus:v2.26.0
prom/node-exporter:v0.18.1
kubesphere/ks-alerting-migration:v3.1.0
jimmidyson/configmap-reload:v0.3.0
kubesphere/notification-manager-operator:v1.0.0
kubesphere/notification-manager:v1.0.0
kubesphere/metrics-server:v0.4.2
kubesphere/kube-rbac-proxy:v0.8.0
kubesphere/kube-state-metrics:v1.9.7
openebs/provisioner-localpv:2.3.0
thanosio/thanos:v0.18.0
grafana/grafana:7.4.3
##kubesphere-logging-images
kubesphere/elasticsearch-oss:6.7.0-1
kubesphere/elasticsearch-curator:v5.7.6
kubesphere/fluentbit-operator:v0.5.0
kubesphere/fluentbit-operator:migrator
kubesphere/fluent-bit:v1.6.9
elastic/filebeat:6.7.0
kubesphere/kube-auditing-operator:v0.1.2
kubesphere/kube-auditing-webhook:v0.1.2
kubesphere/kube-events-exporter:v0.1.0
kubesphere/kube-events-operator:v0.1.0
kubesphere/kube-events-ruler:v0.2.0
kubesphere/log-sidecar-injector:1.1
docker:19.03
##istio-images
istio/pilot:1.6.10
istio/proxyv2:1.6.10
jaegertracing/jaeger-agent:1.17
jaegertracing/jaeger-collector:1.17
jaegertracing/jaeger-es-index-cleaner:1.17
jaegertracing/jaeger-operator:1.17.1
jaegertracing/jaeger-query:1.17
kubesphere/kiali:v1.26.1
kubesphere/kiali-operator:v1.26.1
##kubesphere-devops-images
kubesphere/ks-jenkins:2.249.1
jenkins/jnlp-slave:3.27-1
kubesphere/s2ioperator:v3.1.0
kubesphere/s2irun:v2.1.1
kubesphere/builder-base:v2.1.0
kubesphere/builder-nodejs:v2.1.0
kubesphere/builder-maven:v2.1.0
kubesphere/builder-go:v2.1.0
kubesphere/s2i-binary:v2.1.0
kubesphere/tomcat85-java11-centos7:v2.1.0
kubesphere/tomcat85-java11-runtime:v2.1.0
kubesphere/tomcat85-java8-centos7:v2.1.0
kubesphere/tomcat85-java8-runtime:v2.1.0
kubesphere/java-11-centos7:v2.1.0
kubesphere/java-8-centos7:v2.1.0
kubesphere/java-8-runtime:v2.1.0
kubesphere/java-11-runtime:v2.1.0
kubesphere/nodejs-8-centos7:v2.1.0
kubesphere/nodejs-6-centos7:v2.1.0
kubesphere/nodejs-4-centos7:v2.1.0
kubesphere/python-36-centos7:v2.1.0
kubesphere/python-35-centos7:v2.1.0
kubesphere/python-34-centos7:v2.1.0
kubesphere/python-27-centos7:v2.1.0
kubesphere/notification:flyway_v2.1.2
kubesphere/notification:v2.1.2
##openpitrix-images
kubesphere/openpitrix-jobs:v3.1.0
##weave-scope-images
weaveworks/scope:1.13.0
##kubeedge-images
kubeedge/cloudcore:v1.6.1
kubesphere/edge-watcher:v0.1.0
kubesphere/kube-rbac-proxy:v0.5.0
kubesphere/edge-watcher-agent:v0.1.0
##example-images-images
kubesphere/examples-bookinfo-productpage-v1:1.16.2
kubesphere/examples-bookinfo-reviews-v1:1.16.2
kubesphere/examples-bookinfo-reviews-v2:1.16.2
kubesphere/examples-bookinfo-reviews-v3:1.16.2
kubesphere/examples-bookinfo-details-v1:1.16.2
kubesphere/examples-bookinfo-ratings-v1:1.16.3
busybox:1.31.1
joosthofman/wget:1.0
kubesphere/netshoot:v1.0
nginxdemos/hello:plain-text
wordpress:4.8-apache
mirrorgooglecontainers/hpa-example:latest
java:openjdk-8-jre-alpine
fluent/fluentd:v1.4.2-2.0
perl:latest