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  • kubespray-2.14.2安装kubernetes-1.18.10(ubuntu-20.04.1)

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关于kubespray

Kubespray是开源的kubernetes部署工具,整合了ansible,可以方便的部署高可用集群环境,官网地址:https://github.com/kubernetes-sigs/kubespray,本文是用kubespray-2.14.2版本部署kuberneteskubernetes-1.18.10版本的实战;

重要前提

本次实战采用官方推荐的在线安装,因此会去谷歌镜像仓库下载镜像,需要您的网络可以访问谷歌服务

机器信息

  • 因为作者太穷,本次实战筹集到共计两台机器,它们的主机名、IP地址和作用描述如下:
主机名 IP地址 作用 操作系统
ansible 192.168.50.134 ansible主机 CentOS7
node1 192.168.50.27 k8s服务器 ubuntu-20.04.1
  • 可见kubernetes是被部署在ubuntu电脑上;

标准化设置

ubuntu电脑要做以下设置:

  1. 修改/etc/hostname,设置好主机名
  2. 修改/etc/hosts,将自己的主机名和IP地址添加进去
  3. 关闭防火墙
ufw disable
  1. 再次查看应该是关闭状态
root@ideapad:~# ufw status
状态:不活动
  1. 关闭selinux,如果提示安装selinux-utils,表示selinux没有安装,就不用关系了
setenforce 0
  1. ipv4网络设置
modprobe br_netfilter
echo '1' > /proc/sys/net/bridge/bridge-nf-call-iptables
sysctl -w net.ipv4.ip_forward=1
  1. 立即禁用交换分区
swapoff -a
  1. 我的电脑上,禁用前的内存情况
root@ideapad:~# free -m
              总计         已用        空闲      共享    缓冲/缓存    可用
内存:       31913         551       30288         137        1073       30839
交换:        2047           0        2047
  1. 执行了swapoff -a后再看,可见全部为0了
root@ideapad:~# free -m
              总计         已用        空闲      共享    缓冲/缓存    可用
内存:       31913         557       30281         137        1073       30833
交换:           0           0           0
  1. 以上禁用交换分区的方法,虽然立即生效了,但是重启电脑后依旧恢复了交换分区的使用,要彻底禁用,请打开文件/etc/fstab,在下图红框这一行最前面添加#
    在这里插入图片描述

ansible主机免密码ssh登录

  1. ssh登录ansible主机;
  2. 生成ssh公私钥,输入命令ssh-keygen,然后连续四次回车:
  3. 输入命令ssh-copy-id root@192.168.50.27,将ansible的ssh分发给ubuntu主机,会要求输入yes和ubuntu主机的root账号的密码,完成输入后,以后ansible就可以免密码ssh登录ubuntu主机了:

ansible主机操作

  1. ssh登录ansible主机;
  2. 安装ansible应用:
yum install -y epel-release ansible
  1. 安装pip:
easy_install pip
  1. 通过pip安装jinja2:
pip2 install jinja2 --upgrade
  1. 安装python36:
yum install python36 -y
  1. 创建工作目录,进入工作目录:
mkdir /usr/local/kubespray && cd /usr/local/kubespray/
  1. 下载kubespray,我这里下载的是v2.14.2版本:
wget https://github.com/kubernetes-sigs/kubespray/archive/v2.14.2.tar.gz
  1. 解压:
tar -zxvf v2.14.2.tar.gz
  1. 进入解压后的目录:
cd kubespray-2.14.2/
  1. 安装kubespray所需的应用(注意是pip3):
pip3 install -r requirements.txt
  1. 复制一份demo配置信息到目录inventory/mycluster
cp -rfp inventory/sample inventory/mycluster
  1. 进去看一下,可见mycluster目录下复制了很多文件:
[root@kubespray kubespray-2.14.2]# tree inventory/
inventory/
├── local
│   ├── group_vars -> ../sample/group_vars
│   └── hosts.ini
├── mycluster
│   ├── group_vars
│   │   ├── all
│   │   │   ├── all.yml
│   │   │   ├── aws.yml
│   │   │   ├── azure.yml
│   │   │   ├── containerd.yml
│   │   │   ├── coreos.yml
│   │   │   ├── docker.yml
│   │   │   ├── gcp.yml
│   │   │   ├── oci.yml
│   │   │   ├── openstack.yml
│   │   │   └── vsphere.yml
│   │   ├── etcd.yml
│   │   └── k8s-cluster
│   │       ├── addons.yml
│   │       ├── k8s-cluster.yml
│   │       ├── k8s-net-calico.yml
│   │       ├── k8s-net-canal.yml
│   │       ├── k8s-net-cilium.yml
│   │       ├── k8s-net-contiv.yml
│   │       ├── k8s-net-flannel.yml
│   │       ├── k8s-net-kube-router.yml
│   │       ├── k8s-net-macvlan.yml
│   │       └── k8s-net-weave.yml
│   └── inventory.ini
└── sample
    ├── group_vars
    │   ├── all
    │   │   ├── all.yml
    │   │   ├── aws.yml
    │   │   ├── azure.yml
    │   │   ├── containerd.yml
    │   │   ├── coreos.yml
    │   │   ├── docker.yml
    │   │   ├── gcp.yml
    │   │   ├── oci.yml
    │   │   ├── openstack.yml
    │   │   └── vsphere.yml
    │   ├── etcd.yml
    │   └── k8s-cluster
    │       ├── addons.yml
    │       ├── k8s-cluster.yml
    │       ├── k8s-net-calico.yml
    │       ├── k8s-net-canal.yml
    │       ├── k8s-net-cilium.yml
    │       ├── k8s-net-contiv.yml
    │       ├── k8s-net-flannel.yml
    │       ├── k8s-net-kube-router.yml
    │       ├── k8s-net-macvlan.yml
    │       └── k8s-net-weave.yml
    └── inventory.ini

10 directories, 45 files
  1. 设置集群信息(当前目录仍旧是kubespray-2.14.2):
declare -a IPS=(192.168.50.27)
  1. 配置ansible:
CONFIG_FILE=inventory/mycluster/hosts.yml python3 contrib/inventory_builder/inventory.py ${IPS[@]}
  1. 此时kubespray的脚本根据输入的IP信息做好了集群规划,具体信息可见inventory/mycluster/hosts.yml,如下所示,您也可以自行修改此文件:
[root@kubespray kubespray-2.14.2]# cat inventory/mycluster/hosts.yml
all:
  hosts:
    node1:
      ansible_host: 192.168.50.27
      ip: 192.168.50.27
      access_ip: 192.168.50.27
  children:
    kube-master:
      hosts:
        node1:
    kube-node:
      hosts:
        node1:
    etcd:
      hosts:
        node1:
    k8s-cluster:
      children:
        kube-master:
        kube-node:
    calico-rr:
      hosts: {}
  1. 执行以下命令即可开始安装,在线安装比较耗时请耐心等待:
ansible-playbook -i inventory/mycluster/hosts.yml --become --become-user=root cluster.yml
  1. 遇到网络问题失败退出时很常见的事情,此时将上述命令重复执行即可,ansible对于已经执行过的命令会跳过的;
  2. 安装完成时控制台输出类似如下的信息(太多了,省略了一些):
Saturday 21 November 2020  17:47:18 +0800 (0:00:00.025)       0:30:03.154 ***** 
Saturday 21 November 2020  17:47:18 +0800 (0:00:00.024)       0:30:03.179 ***** 

PLAY RECAP **********************************************************************************************************************************************************
localhost                  : ok=1    changed=0    unreachable=0    failed=0    skipped=0    rescued=0    ignored=0   
node1                      : ok=591  changed=95   unreachable=0    failed=0    skipped=1131 rescued=0    ignored=0   

Saturday 21 November 2020  17:47:18 +0800 (0:00:00.021)       0:30:03.200 ***** 
=============================================================================== 
download : download_file | Download item ------------------------------------------------------------------------------------------------------------------ 1008.61s
kubernetes/preinstall : Update package management cache (APT) ---------------------------------------------------------------------------------------------- 119.25s
download : download_container | Download image if required -------------------------------------------------------------------------------------------------- 42.36s
download : download_container | Download image if required -------------------------------------------------------------------------------------------------- 38.26s
download : download_container | Download image if required -------------------------------------------------------------------------------------------------- 37.31s
download : download_container | Download image if required -------------------------------------------------------------------------------------------------- 36.60s
download : download_container | Download image if required -------------------------------------------------------------------------------------------------- 35.01s
download : download_container | Download image if required -------------------------------------------------------------------------------------------------- 34.00s
download : download_container | Download image if required -------------------------------------------------------------------------------------------------- 30.55s
download : download_container | Download image if required -------------------------------------------------------------------------------------------------- 27.47s
download : download_container | Download image if required -------------------------------------------------------------------------------------------------- 26.78s
kubernetes/master : kubeadm | Initialize first master ------------------------------------------------------------------------------------------------------- 25.98s
download : download_container | Download image if required -------------------------------------------------------------------------------------------------- 23.42s
download : download_container | Download image if required -------------------------------------------------------------------------------------------------- 22.14s
download : download_container | Download image if required -------------------------------------------------------------------------------------------------- 21.50s
download : download_container | Download image if required -------------------------------------------------------------------------------------------------- 20.17s
download : download_container | Download image if required -------------------------------------------------------------------------------------------------- 17.55s
container-engine/docker : ensure docker packages are installed ----------------------------------------------------------------------------------------------- 9.73s
kubernetes/master : Master | wait for kube-scheduler --------------------------------------------------------------------------------------------------------- 7.83s
kubernetes-apps/ansible : Kubernetes Apps | Lay Down CoreDNS Template ---------------------------------------------------------------------------------------- 6.93s
  1. 至此,kubernetes集群环境部署完成,接下来简单验证一下环境是否可用;

检查环境

  1. ssh登录ubuntu机器;
  2. 查看节点、service、pod:
root@node1:~# kubectl get node -o wide
NAME    STATUS   ROLES    AGE    VERSION    INTERNAL-IP     EXTERNAL-IP   OS-IMAGE             KERNEL-VERSION     CONTAINER-RUNTIME
node1   Ready    master   104m   v1.18.10   192.168.50.27   <none>        Ubuntu 20.04.1 LTS   5.4.0-54-generic   docker://19.3.12
root@node1:~# kubectl get node -o wide
NAME    STATUS   ROLES    AGE    VERSION    INTERNAL-IP     EXTERNAL-IP   OS-IMAGE             KERNEL-VERSION     CONTAINER-RUNTIME
node1   Ready    master   105m   v1.18.10   192.168.50.27   <none>        Ubuntu 20.04.1 LTS   5.4.0-54-generic   docker://19.3.12
root@node1:~# kubectl get services --all-namespaces
NAMESPACE     NAME                        TYPE        CLUSTER-IP      EXTERNAL-IP   PORT(S)                  AGE
default       kubernetes                  ClusterIP   10.233.0.1      <none>        443/TCP                  105m
kube-system   coredns                     ClusterIP   10.233.0.3      <none>        53/UDP,53/TCP,9153/TCP   104m
kube-system   dashboard-metrics-scraper   ClusterIP   10.233.12.230   <none>        8000/TCP                 104m
kube-system   kubernetes-dashboard        ClusterIP   10.233.61.24    <none>        443/TCP                  104m
root@node1:~# kubectl get pods --all-namespaces
NAMESPACE     NAME                                          READY   STATUS    RESTARTS   AGE
kube-system   calico-kube-controllers-6ccb68f9b5-kwqck      1/1     Running   0          104m
kube-system   calico-node-4lmpf                             1/1     Running   0          104m
kube-system   coredns-dff8fc7d-2gnl8                        1/1     Running   0          104m
kube-system   coredns-dff8fc7d-4vthn                        0/1     Pending   0          104m
kube-system   dns-autoscaler-66498f5c5f-qh4vb               1/1     Running   0          104m
kube-system   kube-apiserver-node1                          1/1     Running   0          105m
kube-system   kube-controller-manager-node1                 1/1     Running   0          105m
kube-system   kube-proxy-kk84b                              1/1     Running   0          105m
kube-system   kube-scheduler-node1                          1/1     Running   0          105m
kube-system   kubernetes-dashboard-667c4c65f8-8ckf5         1/1     Running   0          104m
kube-system   kubernetes-metrics-scraper-54fbb4d595-dk42t   1/1     Running   0          104m
kube-system   nodelocaldns-d69h9                            1/1     Running   0          104m
  • 可见一些必须的pod和服务都已经启动了,接下来试试dashboard能否正常访问;

访问dashboard

dashboard可以查看kubernetes系统的整体情况,为了访问dashboard页面,需要增加RBAC:

  1. ssh登录ubuntu机器;
  2. 执行以下命令,创建文件admin-user.yaml
tee admin-user.yaml <<-'EOF'
apiVersion: v1
kind: ServiceAccount
metadata:
  name: admin-user
  namespace: kube-system
EOF
  1. 执行以下命令,创建文件admin-user-role.yaml
tee admin-user-role.yaml <<-'EOF'
apiVersion: rbac.authorization.k8s.io/v1
kind: ClusterRoleBinding
metadata:
  name: admin-user
roleRef:
  apiGroup: rbac.authorization.k8s.io
  kind: ClusterRole
  name: cluster-admin
subjects:
- kind: ServiceAccount
  name: admin-user
  namespace: kube-system
EOF
  1. 创建ServiceAccount和ClusterRoleBinding:
kubectl create -f admin-user.yaml && kubectl create -f admin-user-role.yaml
  1. kubernetes-dashboard这个服务的类型从ClusterIP改为NodePort,这样我们就能从浏览器访问dashboard了:
kubectl  patch svc kubernetes-dashboard -n kube-system \
> -p '{"spec":{"type":"NodePort","ports":[{"port":443,"targetPort":8443,"nodePort":30443}]}}'
  1. 再看服务,已经成功改为NodePort 
root@node1:~# kubectl get service --all-namespaces
NAMESPACE     NAME                        TYPE        CLUSTER-IP      EXTERNAL-IP   PORT(S)                  AGE
default       kubernetes                  ClusterIP   10.233.0.1      <none>        443/TCP                  132m
kube-system   coredns                     ClusterIP   10.233.0.3      <none>        53/UDP,53/TCP,9153/TCP   131m
kube-system   dashboard-metrics-scraper   ClusterIP   10.233.12.230   <none>        8000/TCP                 131m
kube-system   kubernetes-dashboard        NodePort    10.233.61.24    <none>        443:30443/TCP            131m
  1. 获取token看,用于登录dashboard页面:
kubectl -n kube-system describe secret $(kubectl -n kube-system get secret | grep admin-user | awk '{print $1}')
  1. 下图红框中就是token的内容:

在这里插入图片描述
9. 现在通过浏览器访问dashboard页面了,地址是:https://192.168.50.27:30443 ,其中192.168.50.27是ubuntu机器的IP地址;
10. 由于不是https协议,因此浏览器可能弹出安全提示,如下图,选择继续前往

在这里插入图片描述
11. 此时页面会让您选择登录方式,选择令牌并输入前面得到的token,即可登录:

在这里插入图片描述

  1. 登录成功后可以见到系统信息,如下图:

在这里插入图片描述
至此,kubespray-2.14.2安装kubernetes-1.18.10完成,希望本文能给您一些参考。

 

出处:https://www.cnblogs.com/bolingcavalry/p/15047205.html

 


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