使用playbook部署k8s集群
#1.配置yum源# 2.安装必要工具# 3.禁止防火墙和selinux# 4.chrony时间同步# 5.禁用swap分区,修改linux的内核参数,配置ipvs功能# 6.安装Docker# 7.安装k8s组件# 8.准备集群镜像,如果拉取镜像卡住了,重启主机# 9.集群初始化# 在 node 节点,将node节点加入集群# 9.安装网络插件
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1.部署ansible集群
使用python脚本一个简单的搭建ansible集群-CSDN博客
2.ansible命令搭建k8s:
1.主机规划:
节点 | IP地址 | 操作系统 | 配置 |
---|---|---|---|
server | 192.168.174.150 | centos7.9 | 2G2核 |
client1 | 192.168.174.151 | centos7.9 | 2G2核 |
client2 | 192.168.174.152 | centos7.9 | 2G2 |
ansible清单文件内容如下
[clients_all]
server
client1
client2
[clients_master]
server
[clients_client]
client1
client2
2.配置yum源
---
- hosts: clients_all
gather_facts: no
vars:
tasks:
- name: 配置本地yum源
block:
- name: 挂载/dev/cdrom
mount:
src: /dev/cdrom
path: /mnt/cdrom
fstype: iso9660
opts: defaults
state: mounted
- name: 删除\/dev\/cdrom行
lineinfile:
path: /etc/fstab
regexp: '^\/dev\/cdrom'
state: absent
- name: 修改/etc/fstab配置文件
lineinfile:
path: /etc/fstab
line: '/dev/cdrom /mnt/cdrom iso9660 defaults 0 0'
insertafter: EOF
- name: 创建文件并且清空文件
shell: 'echo "" > /etc/yum.repos.d/centos-local.repo'
- name: 修改配置文件centos-local.repo
blockinfile:
path: /etc/yum.repos.d/centos-local.repo
# block: |表示将文本块的内容作为纯文本进行处理,不进行任何额外的格式化或处理
block: |
[centos7.9]
name=centos7.9
baseurl=file:///mnt/cdrom
enabled=1
gpgcheck=0
create: yes
marker: '#{mark} centos7.9'
- name: 清理yum缓存,列出yum源列表
shell: yum clean all && yum repolist
- name: 配置远程阿里源
block:
- name: yum安装wget
yum:
name: wget
- name: 下载centosyum文件
get_url:
dest: /etc/yum.repos.d/CentOS-Base.repo
url: http://mirrors.aliyun.com/repo/Centos-7.repo
- name: 配置yum扩展源
block:
- name: yum安装epel-release
yum:
name: epel-release
- name: 清理yum缓存,列出yum源列表
shell: yum clean all && yum repolist
3.安装必要工具:
- hosts: clients_all
gather_facts: no
vars:
tasks:
- name: 安装必要工具
yum:
name: bash-completion,vim,net-tools,tree,psmisc,lrzsz,dos2unix
4.禁止防火墙和selinux:
- hosts: clients_all
gather_facts: no
vars:
tasks:
- name: 禁止使用selinux
selinux:
state: disabled
- name: 禁用firewalld服务
service:
name: firewalld
state: stopped
enabled: false
- name: 禁用iptables服务
service:
name: iptables
state: stopped
enabled: false
register: service_status
ignore_errors: True
- name: 处理服务不存在的情况
fail:
msg: "服务不存在"
when: service_status is failed
5.chrony时间同步
- hosts: clients_all
gather_facts: no
vars:
tasks:
- name: 在所有节点使用yum安装chrony
yum:
name: chrony
- name: 开机自启动,并重启chrony服务
service:
name: chronyd
state: restarted
enabled: true
- hosts: clients_master
gather_facts: no
vars:
tasks:
- name: 修改master节点chrony.conf
block:
- name: 修改同步IP地址范围
lineinfile:
path: /etc/chrony.conf
regexp: '^#allow 192.168.0.0\/16'
line: 'allow 192.168.174.0/24'
backrefs: yes
- name: 修改同步层数
lineinfile:
path: /etc/chrony.conf
regexp: '^#local stratum 10'
line: 'local stratum 10'
backrefs: yes
- name: 开机自启动,并重启chrony服务
service:
name: chronyd
state: restarted
enabled: true
- name: 开启主节点时间同步
shell: timedatectl set-ntp true
- hosts: clients_client
gather_facts: no
vars:
tasks:
- name: 修改master节点chrony.conf
block:
- name: 删除旧的时间同步服务器地址
lineinfile:
path: /etc/chrony.conf
regexp: '^server'
state: absent
- name: 添加新的时间同步服务器地址
lineinfile:
path: /etc/chrony.conf
line: 'server 192.168.174.150 iburst'
insertbefore: '^.*\bline2\b.*$'
- name: 开机自启动,并重启chrony服务
service:
name: chronyd
state: restarted
enabled: true
- name: 开启主节点时间同步
shell: timedatectl set-ntp true
- name: 等待5秒
shell: sleep 5
- name: 查看同步状况
shell: chronyc sources -v | sed -n '/^\^\*/p'
register: command_output
# 将打印的结果重定向到command_output,并输出到控制台
- name: chronyc sources -v输出
debug:
var: command_output.stdout_lines
6.禁用swap分区,修改linux的内核参数,配置ipvs功能
- hosts: clients_all
gather_facts: no
vars:
tasks:
- name: 禁用swap分区
lineinfile:
path: /etc/fstab
regexp: '^\/dev\/mapper\/centos-swap'
line: '#/dev/mapper/centos-swap swap swap defaults 0 0'
backrefs: yes
- name: 修改linux的内核参数
block:
- name: 编辑/etc/sysctl.d/kubernetes.conf,添加网桥过滤和地址转发功能
blockinfile:
path: /etc/sysctl.d/kubernetes.conf
block: |
net.bridge.bridge-nf-call-ip6tables = 1
net.bridge.bridge-nf-call-iptables = 1
net.ipv4.ip_forward = 1
create: yes
marker: '#{mark} kubernetes'
- name: 重新加载配置
shell: sysctl -p
- name: 加载网桥过滤模块
shell: modprobe br_netfilter
- name: 查看网桥过滤模块是否加载成功
shell: lsmod | grep br_netfilter
register: lsmod_output
# 将打印的结果重定向到lsmod_output,并输出到控制台
- name: lsmod | grep br_netfilter输出
debug:
var: lsmod_output.stdout_lines
- name: 配置ipvs功能
block:
- name: 安装ipset和ipvsadm
yum:
name: ipset,ipvsadm
- name: 添加需要加载的模块写入脚本文件
blockinfile:
path: /etc/sysconfig/modules/ipvs.modules
block: |
#! /bin/bash
modprobe -- ip_vs
modprobe -- ip_vs_rr
modprobe -- ip_vs_wrr
modprobe -- ip_vs_sh
modprobe -- nf_conntrack_ipv4
create: yes
marker: '#{mark} ipvs'
- name: 为脚本文件添加执行权限
file:
path: /etc/sysconfig/modules/ipvs.modules
mode: '0755'
- name: 执行脚本文件
script: /bin/bash /etc/sysconfig/modules/ipvs.modules
- name: 查看对应的模块是否加载成功
shell: lsmod | grep -e ip_vs -e nf_conntrack_ipv4
register: lsmod_ipv4_output
# 将打印的结果重定向到lsmod_output,并输出到控制台
- name: lsmod | grep -e ip_vs -e nf_conntrack_ipv4输出
debug:
var: lsmod_ipv4_output.stdout_lines
- name: 重启linux服务
reboot:
7.安装Docker
- hosts: clients_all
gather_facts: no
vars:
tasks:
- name: 修改linux的内核参数
block:
- name: 添加docker镜像到本地
get_url:
dest: /etc/yum.repos.d/docker-ce.repo
url: http://mirrors.aliyun.com/docker-ce/linux/centos/docker-ce.repo
- name: 然后输入命令
shell: yum install -y --setopt=obsoletes=0 docker-ce-18.06.3.ce-3.el7
- name: 修改配置文件
file:
path: /etc/docker
state: directory
- name: 修改/etc/docker/daemon.json
blockinfile:
path: /etc/sysconfig/modules/ipvs.modules
block: |
{
"storage-driver": "devicemapper",
"exec-opts": ["native.cgroupdriver=systemd"],
"registry-mirrors": ["https://ja9e22yz.mirror.aliyuncs.com"]
}
create: yes
marker: '#{mark} daemon'
- name: 修改/etc/sysconfig/docker
blockinfile:
path: /etc/sysconfig/docker
block:
OPTIONS='--selinux-enabled --log-driver=journald --signature-verification=false'
create: yes
marker: '#{mark} docker'
- name: 重启docker服务,并设置开机自启
service:
name: docker
state: restarted
enabled: true
8.安装k8s组件
- hosts: clients_all
gather_facts: no
vars:
tasks:
- name: 安装k8s组件
block:
- name: 配置k8syum仓库
blockinfile:
path: /etc/yum.repos.d/kubernetes.repo
block: |
[kubernetes]
name=Kubernetes
baseurl=http://mirrors.aliyun.com/kubernetes/yum/repos/kubernetes-el7-x86_64
enabled=1
gpgcheck=0
repo_gpgcheck=0
gpgkey=http://mirrors.aliyun.com/kubernetes/yum/doc/yum-key.gpg
http://mirrors.aliyun.com/kubernetes/yum/doc/rpm-package-key.gpg
create: yes
marker: '#{mark} kubernetes'
- name: 安装kubeadm、kubelet和kubectl
shell: yum install --setopt=obsoletes=0 kubeadm-1.17.4-0 kubelet-1.17.4-0 kubectl-1.17.4-0 -y
- name: 编辑/etc/sysconfig/kubelet,配置kubelet的cgroup
blockinfile:
path: /etc/yum.repos.d/kubernetes.repo
block:
KUBELET_CGROUP_ARGS="--cgroup-driver=systemd"
KUBE_PROXY_MODE="ipvs"
create: yes
marker: '#{mark} kubernetes'
- name: 设置kubelet开机自启
service:
name: kubelet
state: started
enabled: true
9.准备集群镜像
- hosts: clients_all
gather_facts: no
vars:
images: # 定义了一个镜像列表
- kube-apiserver:v1.17.4
- kube-controller-manager:v1.17.4
- kube-scheduler:v1.17.4
- kube-proxy:v1.17.4
- pause:3.1
- etcd:3.4.3-0
- coredns:1.6.5
tasks:
- name: 拉取镜像
shell: docker pull registry.cn-hangzhou.aliyuncs.com/google_containers/{{ item }}
with_items: "{{ images }}" # 循环定义的列表
- name: 给镜像打标签
shell: docker tag registry.cn-hangzhou.aliyuncs.com/google_containers/{{ item }} k8s.gcr.io/{{ item }}
with_items: "{{ images }}"
- name: 删除镜像
shell: docker rmi registry.cn-hangzhou.aliyuncs.com/google_containers/{{ item }}
with_items: "{{ images }}"
10.集群初始化
- hosts: clients_master
gather_facts: no
vars:
- apiserver_address: 192.168.174.150
tasks:
- name: 在 master 节点,集群初始化
block:
- name: kubeadm init
shell:
kubeadm init \
--kubernetes-version=v1.17.4 \
--pod-network-cidr=10.244.0.0/16 \
--service-cidr=10.96.0.0/12 \
--apiserver-advertise-address={{ apiserver_address }} | \
grep -Eo '(--token.*|--discovery-token-ca-cert-hash.*)' | awk -F ' ' '{print \$2}'
# 将打印的结果重定向到lsmod_output
register: kubeadm_init_output
- name: 提取token和discovery-token-ca-cert-hash值
set_fact:
token: "{{ kubeadm_init_output.stdout_lines[0] }}"
discovery_token_ca_cert_hash: "{{ kubeadm_init_output.stdout_lines[1] }}"
- name: 将token和discovery_token_ca_cert_hash写入到文件中
blockinfile:
path: $HOME/kubeadm_init.yaml
block: |
token: {{ token }}
discovery_token_ca_cert_hash: {{ discovery_token_ca_cert_hash }}
create: yes
marker: '#{mark} file'
- name: 将token和discovery_token_ca_cert_hash的文件给ansible主机
fetch:
src: $HOME/kubeadm_init.yaml
dest: $HOME
- name: kubeadm init输出
debug:
var: token,discovery_token_ca_cert_hash
- name: 创建必要目录$HOME/.kube
file:
path: $HOME/.kube
state: directory
- name: 复制/etc/kubernetes/admin.conf
shell: cp -i /etc/kubernetes/admin.conf $HOME/.kube/config
- name: 获取当前用户的id值
shell: id -un
register: current_user
- name: 获取当前用户组的id值
shell: id -gn
register: current_group
- name: 修改文件$HOME/.kube/config的所属主和组
file:
path: $HOME/.kube/config
state: touch
# 这里register的值需要stdout方法,不然输出会加上[]
owner: "{{ current_user.stdout }}"
group: "{{ current_group.stdout }}"
# 在 node 节点,将node节点加入集群
- hosts: clients_client
vars:
apiserver_address: 192.168.174.150
vars_files: $HOME/server/root/kubeadm_init.yaml
tasks:
- name: 在 node 节点,将node节点加入集群
# 如果想获取到上一个项目中定义的fact变量需要开启gather_facts收集
shell:
kubeadm join {{ apiserver_address }}:6443 --token {{ token }} \
--discovery-token-ca-cert-hash {{ discovery_token_ca_cert_hash }}
# 在 master 节点,在查看集群状态
- hosts: clients_master
gather_facts: no
vars:
tasks:
- name: 在 master 节点,在查看集群状态
shell: kubectl get nodes
register: kubectl_nodes_output
# 将打印的结果重定向到lsmod_output,并输出到控制台
- name: kubectl get nodes输出
debug:
var: kubectl_nodes_output.stdout_lines
11.安装网络插件
- hosts: clients_master
gather_facts: no
vars:
tasks:
- name: 安装网络插件
block:
- name: 获取fannel的配置文件
get_url:
dest: $HOME
url: https://raw.githubusercontent.com/coreos/flannel/master/Documentation/kube-flannel.yml
- name: 部署flannel网络
shell: kubectl apply -f $HOME/kube-flannel.yml && sleep 60
- name: 过一分钟左右查看各节点状态,变为Ready说明网络打通了
shell: kubectl get nodes
register: kubectl_nodes_output
# 将打印的结果重定向到lsmod_output,并输出到控制台
- name: kubectl get nodes输出
debug:
var: kubectl_nodes_output.stdout_lines
- name: 查看所有pod是否变为Running
shell: kubectl get pod --all-namespaces
register: kubectl_pod_output
# 将打印的结果重定向到lsmod_output,并输出到控制台
- name: kubectl get pod --all-namespaces输出
debug:
var: kubectl_pod_output.stdout_lines
12.完整yaml文件:
# 1.配置yum源
---
- hosts: clients_all
gather_facts: no
vars:
tasks:
- name: 配置本地yum源
block:
- name: 挂载/dev/cdrom
mount:
src: /dev/cdrom
path: /mnt/cdrom
fstype: iso9660
opts: defaults
state: mounted
- name: 删除\/dev\/cdrom行
lineinfile:
path: /etc/fstab
regexp: '^\/dev\/cdrom'
state: absent
- name: 修改/etc/fstab配置文件
lineinfile:
path: /etc/fstab
line: '/dev/cdrom /mnt/cdrom iso9660 defaults 0 0'
insertafter: EOF
- name: 创建文件并且清空文件
shell: 'echo "" > /etc/yum.repos.d/centos-local.repo'
- name: 修改配置文件centos-local.repo
blockinfile:
path: /etc/yum.repos.d/centos-local.repo
# block: |表示将文本块的内容作为纯文本进行处理,不进行任何额外的格式化或处理
block: |
[centos7.9]
name=centos7.9
baseurl=file:///mnt/cdrom
enabled=1
gpgcheck=0
create: yes
marker: '#{mark} centos7.9'
- name: 清理yum缓存,列出yum源列表
shell: yum clean all && yum repolist
- name: 配置远程阿里源
block:
- name: yum安装wget
yum:
name: wget
- name: 下载centosyum文件
get_url:
dest: /etc/yum.repos.d/CentOS-Base.repo
url: http://mirrors.aliyun.com/repo/Centos-7.repo
- name: 配置yum扩展源
block:
- name: yum安装epel-release
yum:
name: epel-release
- name: 清理yum缓存,列出yum源列表
shell: yum clean all && yum repolist
# 2.安装必要工具:
- hosts: clients_all
gather_facts: no
vars:
tasks:
- name: 安装必要工具
yum:
name: bash-completion,vim,net-tools,tree,psmisc,lrzsz,dos2unix
# 3.禁止防火墙和selinux:
- hosts: clients_all
gather_facts: no
vars:
tasks:
- name: 禁止使用selinux
selinux:
state: disabled
- name: 禁用firewalld服务
service:
name: firewalld
state: stopped
enabled: false
- name: 禁用iptables服务
service:
name: iptables
state: stopped
enabled: false
register: service_status
ignore_errors: True
- name: 处理服务不存在的情况
fail:
msg: "服务不存在"
when: service_status is failed
# 4.chrony时间同步
- hosts: clients_all
gather_facts: no
vars:
tasks:
- name: 在所有节点使用yum安装chrony
yum:
name: chrony
- name: 开机自启动,并重启chrony服务
service:
name: chronyd
state: restarted
enabled: true
- hosts: clients_master
gather_facts: no
vars:
tasks:
- name: 修改master节点chrony.conf
block:
- name: 修改同步IP地址范围
lineinfile:
path: /etc/chrony.conf
regexp: '^#allow 192.168.0.0\/16'
line: 'allow 192.168.174.0/24'
backrefs: yes
- name: 修改同步层数
lineinfile:
path: /etc/chrony.conf
regexp: '^#local stratum 10'
line: 'local stratum 10'
backrefs: yes
- name: 开机自启动,并重启chrony服务
service:
name: chronyd
state: restarted
enabled: true
- name: 开启主节点时间同步
shell: timedatectl set-ntp true
- hosts: clients_client
gather_facts: no
vars:
tasks:
- name: 修改master节点chrony.conf
block:
- name: 删除旧的时间同步服务器地址
lineinfile:
path: /etc/chrony.conf
regexp: '^server'
state: absent
- name: 添加新的时间同步服务器地址
lineinfile:
path: /etc/chrony.conf
line: 'server 192.168.174.150 iburst'
insertbefore: '^.*\bline2\b.*$'
- name: 开机自启动,并重启chrony服务
service:
name: chronyd
state: restarted
enabled: true
- name: 开启主节点时间同步
shell: timedatectl set-ntp true
- name: 等待5秒
shell: sleep 5
- name: 查看同步状况
shell: chronyc sources -v | sed -n '/^\^\*/p'
register: command_output
# 将打印的结果重定向到command_output,并输出到控制台
- name: chronyc sources -v输出
debug:
var: command_output.stdout_lines
# 5.禁用swap分区,修改linux的内核参数,配置ipvs功能
- hosts: clients_all
gather_facts: no
vars:
tasks:
- name: 禁用swap分区
lineinfile:
path: /etc/fstab
regexp: '^\/dev\/mapper\/centos-swap'
line: '#/dev/mapper/centos-swap swap swap defaults 0 0'
backrefs: yes
- name: 修改linux的内核参数
block:
- name: 编辑/etc/sysctl.d/kubernetes.conf,添加网桥过滤和地址转发功能
blockinfile:
path: /etc/sysctl.d/kubernetes.conf
block: |
net.bridge.bridge-nf-call-ip6tables = 1
net.bridge.bridge-nf-call-iptables = 1
net.ipv4.ip_forward = 1
create: yes
marker: '#{mark} kubernetes'
- name: 重新加载配置
shell: sysctl -p
- name: 加载网桥过滤模块
shell: modprobe br_netfilter
- name: 查看网桥过滤模块是否加载成功
shell: lsmod | grep br_netfilter
register: lsmod_output
# 将打印的结果重定向到lsmod_output,并输出到控制台
- name: lsmod | grep br_netfilter输出
debug:
var: lsmod_output.stdout_lines
- name: 配置ipvs功能
block:
- name: 安装ipset和ipvsadm
yum:
name: ipset,ipvsadm
- name: 添加需要加载的模块写入脚本文件
blockinfile:
path: /etc/sysconfig/modules/ipvs.modules
block: |
#! /bin/bash
modprobe -- ip_vs
modprobe -- ip_vs_rr
modprobe -- ip_vs_wrr
modprobe -- ip_vs_sh
modprobe -- nf_conntrack_ipv4
create: yes
marker: '#{mark} ipvs'
- name: 为脚本文件添加执行权限
file:
path: /etc/sysconfig/modules/ipvs.modules
mode: '0755'
- name: 执行脚本文件
script: /bin/bash /etc/sysconfig/modules/ipvs.modules
- name: 查看对应的模块是否加载成功
shell: lsmod | grep -e ip_vs -e nf_conntrack_ipv4
register: lsmod_ipv4_output
# 将打印的结果重定向到lsmod_output,并输出到控制台
- name: lsmod | grep -e ip_vs -e nf_conntrack_ipv4输出
debug:
var: lsmod_ipv4_output.stdout_lines
# - name: 重启linux服务
# reboot:
# 6.安装Docker
- hosts: clients_all
gather_facts: no
vars:
tasks:
- name: 修改linux的内核参数
block:
- name: 添加docker镜像到本地
get_url:
dest: /etc/yum.repos.d/docker-ce.repo
url: http://mirrors.aliyun.com/docker-ce/linux/centos/docker-ce.repo
- name: 然后输入命令
shell: yum install -y --setopt=obsoletes=0 docker-ce-18.06.3.ce-3.el7
- name: 修改配置文件
file:
path: /etc/docker
state: directory
- name: 修改/etc/docker/daemon.json
blockinfile:
path: /etc/sysconfig/modules/ipvs.modules
block: |
{
"storage-driver": "devicemapper",
"exec-opts": ["native.cgroupdriver=systemd"],
"registry-mirrors": ["https://ja9e22yz.mirror.aliyuncs.com"]
}
create: yes
marker: '#{mark} daemon'
- name: 修改/etc/sysconfig/docker
blockinfile:
path: /etc/sysconfig/docker
block:
OPTIONS='--selinux-enabled --log-driver=journald --signature-verification=false'
create: yes
marker: '#{mark} docker'
- name: 重启docker服务,并设置开机自启
service:
name: docker
state: restarted
enabled: true
# 7.安装k8s组件
- hosts: clients_all
gather_facts: no
vars:
tasks:
- name: 安装k8s组件
block:
- name: 配置k8syum仓库
blockinfile:
path: /etc/yum.repos.d/kubernetes.repo
block: |
[kubernetes]
name=Kubernetes
baseurl=http://mirrors.aliyun.com/kubernetes/yum/repos/kubernetes-el7-x86_64
enabled=1
gpgcheck=0
repo_gpgcheck=0
gpgkey=http://mirrors.aliyun.com/kubernetes/yum/doc/yum-key.gpg
http://mirrors.aliyun.com/kubernetes/yum/doc/rpm-package-key.gpg
create: yes
marker: '#{mark} kubernetes'
- name: 安装kubeadm、kubelet和kubectl
shell: yum install --setopt=obsoletes=0 kubeadm-1.17.4-0 kubelet-1.17.4-0 kubectl-1.17.4-0 -y
- name: 编辑/etc/sysconfig/kubelet,配置kubelet的cgroup
blockinfile:
path: /etc/yum.repos.d/kubernetes.repo
block:
KUBELET_CGROUP_ARGS="--cgroup-driver=systemd"
KUBE_PROXY_MODE="ipvs"
create: yes
marker: '#{mark} kubernetes'
- name: 设置kubelet开机自启
service:
name: kubelet
state: started
enabled: true
# 8.准备集群镜像
- hosts: clients_all
gather_facts: no
vars:
images: # 定义了一个镜像列表
- kube-apiserver:v1.17.4
- kube-controller-manager:v1.17.4
- kube-scheduler:v1.17.4
- kube-proxy:v1.17.4
- pause:3.1
- etcd:3.4.3-0
- coredns:1.6.5
tasks:
- name: 拉取镜像
shell: docker pull registry.cn-hangzhou.aliyuncs.com/google_containers/{{ item }}
with_items: "{{ images }}" # 循环定义的列表
- name: 给镜像打标签
shell: docker tag registry.cn-hangzhou.aliyuncs.com/google_containers/{{ item }} k8s.gcr.io/{{ item }}
with_items: "{{ images }}"
- name: 删除镜像
shell: docker rmi registry.cn-hangzhou.aliyuncs.com/google_containers/{{ item }}
with_items: "{{ images }}"
# 9.集群初始化
- hosts: clients_master
gather_facts: no
vars:
- apiserver_address: 192.168.174.150
tasks:
- name: 在 master 节点,集群初始化
block:
- name: kubeadm init
shell:
kubeadm init \
--kubernetes-version=v1.17.4 \
--pod-network-cidr=10.244.0.0/16 \
--service-cidr=10.96.0.0/12 \
--apiserver-advertise-address={{ apiserver_address }} | \
grep -Eo '(--token.*|--discovery-token-ca-cert-hash.*)' | awk -F ' ' '{print \$2}'
# 将打印的结果重定向到lsmod_output
register: kubeadm_init_output
- name: 提取token和discovery-token-ca-cert-hash值
set_fact:
token: "{{ kubeadm_init_output.stdout_lines[0] }}"
discovery_token_ca_cert_hash: "{{ kubeadm_init_output.stdout_lines[1] }}"
- name: 将token和discovery_token_ca_cert_hash写入到文件中
blockinfile:
path: $HOME/kubeadm_init.yaml
block: |
token: {{ token }}
discovery_token_ca_cert_hash: {{ discovery_token_ca_cert_hash }}
create: yes
marker: '#{mark} file'
- name: 将token和discovery_token_ca_cert_hash的文件给ansible主机
fetch:
src: $HOME/kubeadm_init.yaml
dest: $HOME
- name: kubeadm init输出
debug:
var: token,discovery_token_ca_cert_hash
- name: 创建必要目录$HOME/.kube
file:
path: $HOME/.kube
state: directory
- name: 复制/etc/kubernetes/admin.conf
shell: cp -i /etc/kubernetes/admin.conf $HOME/.kube/config
- name: 获取当前用户的id值
shell: id -un
register: current_user
- name: 获取当前用户组的id值
shell: id -gn
register: current_group
- name: 修改文件$HOME/.kube/config的所属主和组
file:
path: $HOME/.kube/config
state: touch
# 这里register的值需要stdout方法,不然输出会加上[]
owner: "{{ current_user.stdout }}"
group: "{{ current_group.stdout }}"
# 在 node 节点,将node节点加入集群
- hosts: clients_client
vars:
apiserver_address: 192.168.174.150
vars_files: $HOME/server/root/kubeadm_init.yaml
tasks:
- name: 在 node 节点,将node节点加入集群
# 如果想获取到上一个项目中定义的fact变量需要开启gather_facts收集
shell:
kubeadm join {{ apiserver_address }}:6443 --token {{ token }} \
--discovery-token-ca-cert-hash {{ discovery_token_ca_cert_hash }}
# 在 master 节点,在查看集群状态
- hosts: clients_master
gather_facts: no
vars:
tasks:
- name: 在 master 节点,在查看集群状态
shell: kubectl get nodes
register: kubectl_nodes_output
# 将打印的结果重定向到lsmod_output,并输出到控制台
- name: kubectl get nodes输出
debug:
var: kubectl_nodes_output.stdout_lines
# 9.安装网络插件
- hosts: clients_master
gather_facts: no
vars:
tasks:
- name: 安装网络插件
block:
- name: 获取fannel的配置文件
get_url:
dest: $HOME
url: https://raw.githubusercontent.com/coreos/flannel/master/Documentation/kube-flannel.yml
- name: 部署flannel网络
shell: kubectl apply -f $HOME/kube-flannel.yml && sleep 60
- name: 过一分钟左右查看各节点状态,变为Ready说明网络打通了
shell: kubectl get nodes
register: kubectl_nodes_output
# 将打印的结果重定向到lsmod_output,并输出到控制台
- name: kubectl get nodes输出
debug:
var: kubectl_nodes_output.stdout_lines
- name: 查看所有pod是否变为Running
shell: kubectl get pod --all-namespaces
register: kubectl_pod_output
# 将打印的结果重定向到lsmod_output,并输出到控制台
- name: kubectl get pod --all-namespaces输出
debug:
var: kubectl_pod_output.stdout_lines
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