ansible概述和运行机制
ansible概述
Ansible是一款为类Unix系统开发的*开源的配置和自动化工具, 它用Python写成,类似于saltstack和Puppet,但是有一个不同和优点是我们不需要在节点中安装任何客户端 , 它使用SSH来和节点进行通信 Ansible基于 Python paramiko 开发,分布式,无需客户端,轻量级,配置语法使用 YMAL 及 Jinja2模板语言,更强的远程命令执行操作
官方网站 :https://www.ansible.com/
2015年10月,红帽(Red Hat)宣布收购软件开发公司 Ansible,消息称此次收购耗资逾 1亿美元,也有消息称接近 1.5亿美元
Ansible 成立于 2013年,总部设在北卡罗来纳州达勒姆,联合创始人 aïd Ziouani 和高级副总裁 Todd Barr 都是红帽的老员工 Ansible 旗下的开源软件 Ansible 十分流行 ,这家公司还提供 Tower 软件和咨询服务,这个款软件能使开发者轻松地建立和管理规模化应用程序的 IT 基础架构
ansiblle具有如下特点:
1、部署简单,只需在主控端部署Ansible环境,被控端无需做任何操作;
2、默认使用SSH协议对设备进行管理;
3、主从集中化管理;
4、配置简单、功能强大、扩展性强;
5、支持API及自定义模块,可通过Python轻松扩展;
6、通过Playbooks来定制强大的配置、状态管理
7、对云计算平台、大数据都有很好的支持;
Ansible 的组成由 5 个部分组成:
Ansible : ansible核心
Modules : 包括 Ansible 自带的核心模块及自定义模块
Plugins : 完成模块功能的补充,包括连接插件、邮件插件等
Playbooks : 剧本;定义 Ansible 多任务配置文件,由Ansible 自动执行
Inventory : 定义 Ansible 管理主机的清单
安装ansible服务
# 需要epel源
[root@Ansibel ~]# yum -y install ansible
[root@Ansibel ~]# ansible --version
ansible 2.6.
config file = /etc/ansible/ansible.cfg
configured module search path = [u'/root/.ansible/plugins/modules', u'/usr/share/ansible/plugins/modules']
ansible python module location = /usr/lib/python2./site-packages/ansible
executable location = /usr/bin/ansible
python version = 2.7. (default, Jul , ::) [GCC 4.8. (Red Hat 4.8.-)]
ansible命令参数
anisble命令语法: ansible [-i 主机文件] [-f 批次] [组名] [-m 模块名称] [-a 模块参数]
ansible详细参数:
-v,–verbose # 详细模式,如果命令执行成功,输出详细的结果 (-vv -vvv -vvvv)
-i PATH, -inventory=PATH # 指定 host 文件的路径,默认是在 /etc/ansible/hosts
-f NUM,-forks=NUM # NUM 是指定一个整数,默认是 5 ,指定 fork 开启同步进程的个数。
-m NAME,-module-name=NAME # 指定使用的 module 名称,默认使用 command模块
-a,MODULE_ARGS # 指定 module 模块的参数
-k,-ask-pass # 提示输入 ssh 的密码,而不是使用基于 ssh 的密钥认证
-s, sudo # 指定使用 sudo 获得 root 权限
-K,-ask-sudo-pass # 提示输入 sudo 密码,与 -sudo 一起使用
-u USERNAME,-user=USERNAME # 指定移动端的执行用户
-C,–check # 测试此命令执行会改变什么内容,不会真正的去执行
ansible-doc详细参数:
ansible-doc -l # 列出所有的模块列表
ansible-doc -s 模块名 # 查看指定模块的参数
定义主机清单
基于端口,用户,密码定义主机清单
ansible基于ssh连接-i (inventory)参数后指定的远程主机时,也可以写端口,用户,密码。
格式:ansible_ssh_port:指定ssh端口 ansible_ssh_user:指定 ssh 用户 ansible_ssh_pass:指定 ssh 用户登录是认证密码(明文密码不安全) ansible_sudo_pass:指明 sudo 时候的密码
/etc/ansible/hosts 文件维护着Ansible中服务器的清单
[root@Ansibel ~]# vim /etc/ansible/hosts
[web-servers] # 主机组名
192.168.94.22 ansible_ssh_port= ansible_ssh_user=damowang ansible_ssh_pass= ansible_ssh_pass=
192.168.94.33 ansible_ssh_port= ansible_ssh_user=root ansible_ssh_pass=
# 测试连通性
[root@Ansibel ~]# ansible -i /etc/ansible/hosts web-servers -m ping
192.168.94.33 | SUCCESS => {
"changed": false,
"ping": "pong"
}
192.168.94.22 | SUCCESS => {
"changed": false,
"ping": "pong"
}
-i # 指定 host 文件的路径,默认是在 /etc/ansible/hosts 定义的主机清单写在该文件下 , 那么可以不加 -i
-m # 指定使用的ping模块
# 如果报错 那么可以手动ssh到报错主机 , 原因是需要建立一个fingerprint(指纹) 需要交互 手动输入yes即可
因为明文密码并不安全 , 所以可以生成秘钥对在对下面管理的节点批量分发公钥
生成和批量分发 这里就不再重述了 在 <轻量级集群管理软件-ClusterShell> 中有讲
这里直接修改主机清单文件 把配置项里的密码部分删除
[root@Ansibel ~]# vim /etc/ansible/hosts
[web-servers]
192.168.94.22 ansible_ssh_port= ansible_ssh_user=damowang
192.168.94.33 ansible_ssh_port= ansible_ssh_user=root [root@Ansibel ~]# ansible -m command -a whoami web-servers
192.168.94.22 | SUCCESS | rc= >>
damowang 192.168.94.33 | SUCCESS | rc= >>
root
为节点创建用户
[root@Ansibel ~]# ansible -m user -s -a 'name=mingming shell=/bin/bash home=/home/mingming state=present' web-servers
192.168.94.33 | SUCCESS => {
"changed": true,
"comment": "",
"create_home": true,
"group": ,
"home": "/home/mingming",
"name": "mingming",
"shell": "/bin/bash",
"state": "present",
"system": false,
"uid":
}
192.168.94.22 | SUCCESS => {
"changed": true,
"comment": "",
"create_home": true,
"group": ,
"home": "/home/mingming",
"name": "mingming",
"shell": "/bin/bash",
"state": "present",
"system": false,
"uid":
}
为用户设置密码
安装 passlib 要求系统 python 版本在2.7以上
[root@Ansibel ~]# pip install passlib
-bash: pip: 未找到命令
[root@Ansibel ~]# yum -y install python-pip
[root@Ansibel ~]# pip install passlib
安装完 passlib 后,生成加密的密码
python .x 版本(sha512 加密算法):
[root@Ansibel ~]# python -c 'from passlib.hash import sha512_crypt; import getpass; print (sha512_crypt.encrypt(getpass.getpass()))'
Password:
$$rounds=$G5MXmLZ0J0e1ppzM$V4MGqttDX9LFB5FJPbhV4vqIz0KIzTbrUkx05QLG1mdbDH0e.rVQveAGCVNXiulrkWO/42Z68DVaeNRN3q4oH.
# 在Password 后输入我们的密码然后再按enter 键,就会生成经过加密的密码了
python .x 版本(普通加密算法):
[root@Ansibel ~]# python -c 'import crypt; print (crypt.crypt("475541270","apple"))'
apAM.814qQtJg
python .x 版本(sha512 加密算法):
[root@Ansibel ~]# python -c 'from passlib.hash import sha512_crypt; import getpass; print (sha512_crypt.encrypt(getpass.getpass()))'
Password:
$$rounds=$G5MXmLZ0J0e1ppzM$V4MGqttDX9LFB5FJPbhV4vqIz0KIzTbrUkx05QLG1mdbDH0e.rVQveAGCVNXiulrkWO/42Z68DVaeNRN3q4oH.
python .x 版本(普通加密算法):
[root@Ansibel ~]# python -c 'import crypt; print (crypt.crypt("475541270","apple"))'
apAM.814qQtJg
# 其实python3.x 和 python2.x 版本的区别不大,只是加密算法是用 sha512 还是用普通算法的区别而已
为新创建的用户设置密码
[root@Ansibel ~]# ansible -m user -s -a 'name=mingming password=apAM.814qQtJg update_password=always' web-servers
192.168.94.33 | SUCCESS => {
"append": false,
"changed": true,
"comment": "",
"group": ,
"home": "/home/mingming",
"move_home": false,
"name": "mingming",
"password": "NOT_LOGGING_PASSWORD",
"shell": "/bin/bash",
"state": "present",
"uid":
}
192.168.94.22 | SUCCESS => {
"append": false,
"changed": true,
"comment": "",
"group": ,
"home": "/home/mingming",
"move_home": false,
"name": "mingming",
"password": "NOT_LOGGING_PASSWORD",
"shell": "/bin/bash",
"state": "present",
"uid":
}
将df命令在所有节点执行后,重定向输出到本机的/tmp/command-output.txt文件中
[root@Ansibel ~]# ansible -m command -a 'df -Th' web-servers > /tmp/command-output.txt
[root@Ansibel ~]# cat /tmp/command-output.txt
192.168.94.33 | SUCCESS | rc= >>
文件系统 类型 容量 已用 可用 已用% 挂载点
/dev/mapper/centos-root xfs 17G .4G 15G % /
devtmpfs devtmpfs 476M 476M % /dev
tmpfs tmpfs 488M 488M % /dev/shm
tmpfs tmpfs 488M 7.7M 480M % /run
tmpfs tmpfs 488M 488M % /sys/fs/cgroup
/dev/sda1 xfs 1014M 130M 885M % /boot
tmpfs tmpfs 98M 98M % /run/user/
192.168.94.22 | SUCCESS | rc= >>
文件系统 类型 容量 已用 可用 已用% 挂载点
/dev/mapper/centos-root xfs 17G .4G 15G % /
devtmpfs devtmpfs 476M 476M % /dev
tmpfs tmpfs 488M 488M % /dev/shm
tmpfs tmpfs 488M 7.8M 480M % /run
tmpfs tmpfs 488M 488M % /sys/fs/cgroup
/dev/sda1 xfs 1014M 130M 885M % /boot
tmpfs tmpfs 98M 98M % /run/user/
tmpfs tmpfs 98M 98M % /run/user/
ansible常见模块高级使用方法
3个远程命令模块的区别
(1)、command模块为ansible默认模块,不指定-m参数时,使用的就是command模块; comand模块比较简单,常见的命令都可以使用,但其命令的执行不是通过shell执行的,所以,像这些 "<", ">", "|", and "&"操作都不可以,当然,也就不支持管道; 缺点:不支持管道,没法批量执行命令;
(2)、shell模块:使用shell模块,在远程命令通过/bin/sh来执行;所以,我们在终端输入的各种命令方式,都可以使用
(3)、scripts模块 :如果在远程待执行的语句比较多,可写成一个脚本,通过copy模块传到远端,然后再执行;但这样就又涉及到两次ansible调用;对于这种需求,ansible已经为我们考虑到了,script模块就是干这事的;
使用scripts模块可以在本地写一个脚本,在远程服务器上执行:
[root@Ansibel ~]# vim /etc/ansible/test.sh
#!/bin/bash
date
hostname
[root@Ansibel ~]# ansible -m script -a '/etc/ansible/test.sh' web-servers
192.168.94.33 | SUCCESS => {
"changed": true,
"rc": ,
"stderr": "Shared connection to 192.168.94.33 closed.\r\n",
"stderr_lines": [
"Shared connection to 192.168.94.33 closed."
],
"stdout": "2018年 09月 09日 星期日 00:15:44 CST\r\nhost2\r\n",
"stdout_lines": [
"2018年 09月 09日 星期日 00:15:44 CST",
"host2"
]
}
192.168.94.22 | SUCCESS => {
"changed": true,
"rc": ,
"stderr": "Shared connection to 192.168.94.22 closed.\r\n",
"stderr_lines": [
"Shared connection to 192.168.94.22 closed."
],
"stdout": "2018年 09月 09日 星期日 00:15:44 CST\r\nhost1\r\n",
"stdout_lines": [
"2018年 09月 09日 星期日 00:15:44 CST",
"host1"
]
}
copy模块:实现主控端向目标主机拷贝文件,类似scp功能
[root@Ansibel ~]# ansible -m copy -s -a 'src=/etc/hosts dest=/tmp owner=root group=root mode=755' web-servers
192.168.94.33 | SUCCESS => {
"changed": true,
"checksum": "bf651d9270aa5d2f73e1987c1bba58b3a7732e30",
"dest": "/tmp/hosts",
"gid": ,
"group": "root",
"md5sum": "da3395b279a7cd7a1187ae82acb24b2d",
"mode": "",
"owner": "root",
"size": ,
"src": "/root/.ansible/tmp/ansible-tmp-1536423509.88-40213567242184/source",
"state": "file",
"uid":
}
192.168.94.22 | SUCCESS => {
"changed": true,
"checksum": "bf651d9270aa5d2f73e1987c1bba58b3a7732e30",
"dest": "/tmp/hosts",
"gid": ,
"group": "root",
"md5sum": "da3395b279a7cd7a1187ae82acb24b2d",
"mode": "",
"owner": "root",
"size": ,
"src": "/home/damowang/.ansible/tmp/ansible-tmp-1536423509.88-138418725080513/source",
"state": "file",
"uid":
}
[root@Ansibel ~]# ansible -a 'ls -l /tmp/hosts' web-servers
192.168.94.33 | SUCCESS | rc= >>
-rwxr-xr-x root root 9月 : /tmp/hosts 192.168.94.22 | SUCCESS | rc= >>
-rwxr-xr-x root root 9月 : /tmp/hosts
file模块设置文件属性
[root@Ansibel ~]# ansible -m file -s -a 'path=/tmp/hosts mode=777' web-servers
192.168.94.33 | SUCCESS => {
"changed": true,
"gid": ,
"group": "root",
"mode": "",
"owner": "root",
"path": "/tmp/hosts",
"size": ,
"state": "file",
"uid":
}
192.168.94.22 | SUCCESS => {
"changed": true,
"gid": ,
"group": "root",
"mode": "",
"owner": "root",
"path": "/tmp/hosts",
"size": ,
"state": "file",
"uid":
}
[root@Ansibel ~]# ansible -a 'ls -l /tmp/hosts' web-servers
192.168.94.33 | SUCCESS | rc= >>
-rwxrwxrwx root root 9月 : /tmp/hosts 192.168.94.22 | SUCCESS | rc= >>
-rwxrwxrwx root root 9月 : /tmp/hosts
stat模块获取远程文件信息
[root@Ansibel ~]# ansible -m stat -a 'path=/tmp/hosts' web-servers
192.168.94.33 | SUCCESS => {
"changed": false,
"stat": {
"atime": 1536423510.9210756,
"attr_flags": "",
"attributes": [],
"block_size": ,
"blocks": ,
"charset": "us-ascii",
"checksum": "bf651d9270aa5d2f73e1987c1bba58b3a7732e30",
"ctime": 1536423695.9194686,
"dev": ,
"device_type": ,
"executable": true,
"exists": true,
"gid": ,
"gr_name": "root",
"inode": ,
"isblk": false,
"ischr": false,
"isdir": false,
"isfifo": false,
"isgid": false,
"islnk": false,
"isreg": true,
"issock": false,
"isuid": false,
"mimetype": "text/plain",
"mode": "",
"mtime": 1536423510.5610728,
"nlink": ,
"path": "/tmp/hosts",
"pw_name": "root",
"readable": true,
"rgrp": true,
"roth": true,
"rusr": true,
"size": ,
"uid": ,
"version": "",
"wgrp": true,
"woth": true,
"writeable": true,
"wusr": true,
"xgrp": true,
"xoth": true,
"xusr": true
}
}
192.168.94.22 | SUCCESS => {
"changed": false,
"stat": {
"atime": 1536423510.943854,
"attr_flags": "",
"attributes": [],
"block_size": ,
"blocks": ,
"charset": "us-ascii",
"checksum": "bf651d9270aa5d2f73e1987c1bba58b3a7732e30",
"ctime": 1536423695.9422553,
"dev": ,
"device_type": ,
"executable": true,
"exists": true,
"gid": ,
"gr_name": "root",
"inode": ,
"isblk": false,
"ischr": false,
"isdir": false,
"isfifo": false,
"isgid": false,
"islnk": false,
"isreg": true,
"issock": false,
"isuid": false,
"mimetype": "text/plain",
"mode": "",
"mtime": 1536423510.5838513,
"nlink": ,
"path": "/tmp/hosts",
"pw_name": "root",
"readable": true,
"rgrp": true,
"roth": true,
"rusr": true,
"size": ,
"uid": ,
"version": "",
"wgrp": true,
"woth": true,
"writeable": true,
"wusr": true,
"xgrp": true,
"xoth": true,
"xusr": true
}
}
get_url模块实现远程主机下载指定url到本地,支持sha256sum文件校验
[root@Ansibel ~]# ansible -m get_url -a 'url=https://mirrors.aliyun.com/epel/epel-release-latest-7.noarch.rpm dest=/tmp mode=0440 force=yes' web-servers
192.168.94.33 | SUCCESS => {
"changed": true,
"checksum_dest": null,
"checksum_src": "5512b80e5b71f2370d8419fa16a0bc14c5edf854",
"dest": "/tmp/epel-release-latest-7.noarch.rpm",
"gid": ,
"group": "root",
"md5sum": "d512508b8629428e7c3f535cc8012680",
"mode": "",
"msg": "OK (15080 bytes)",
"owner": "root",
"size": ,
"src": "/root/.ansible/tmp/ansible-tmp-1536424011.27-144130983589743/tmpJs0QN9",
"state": "file",
"status_code": ,
"uid": ,
"url": "https://mirrors.aliyun.com/epel/epel-release-latest-7.noarch.rpm"
}
192.168.94.22 | SUCCESS => {
"changed": true,
"checksum_dest": null,
"checksum_src": "5512b80e5b71f2370d8419fa16a0bc14c5edf854",
"dest": "/tmp/epel-release-latest-7.noarch.rpm",
"gid": ,
"group": "damowang",
"md5sum": "d512508b8629428e7c3f535cc8012680",
"mode": "",
"msg": "OK (15080 bytes)",
"owner": "damowang",
"size": ,
"src": "/home/damowang/.ansible/tmp/ansible-tmp-1536424011.25-163292980253597/tmpvx9BOK",
"state": "file",
"status_code": ,
"uid": ,
"url": "https://mirrors.aliyun.com/epel/epel-release-latest-7.noarch.rpm"
}
# force=yes,当下载文件时,如果所下的内容和原目录下的文件内容不一样,则替换原文件,如果一样,就不下载了
如果为“否”,则仅在目标不存在时才下载文件
一般来说,只有小型本地文件才应该为“是” 在0.6之前,该模块默认为“是”
url=https://xxx 的等号=前后不能有空格
yum模块linux平台软件包管理
yum模块可以提供的status状态: latest ,present,installed 都是表示安装
removed, absent 表示卸载
为下面节点安装apache
ansible -m yum -s -a 'name=httpd state=latest' web-servers
192.168.94.33 | SUCCESS => {
"changed": true,
"msg": "",
"rc": ,
"results": [
"Loaded plugins: fastestmirror\nLoading mirror speeds from cached hostfile\n * base: mirrors.aliyun.com\n * extras: mirrors.aliyun.com\n * updates: mirrors.aliyun.com\nResolving Dependencies\n--> Running transaction check\n---> Package httpd.x86_64 0:2.4.6-80.el7.centos.1 will be installed\n--> Finished Dependency Resolution\n\nDependencies Resolved\n\n================================================================================\n Package Arch Version Repository Size\n================================================================================\nInstalling:\n httpd x86_64 2.4.6-80.el7.centos.1 updates 2.7 M\n\nTransaction Summary\n================================================================================\nInstall 1 Package\n\nTotal download size: 2.7 M\nInstalled size: 9.4 M\nDownloading packages:\nRunning transaction check\nRunning transaction test\nTransaction test succeeded\nRunning transaction\n Installing : httpd-2.4.6-80.el7.centos.1.x86_64 1/1 \n Verifying : httpd-2.4.6-80.el7.centos.1.x86_64 1/1 \n\nInstalled:\n httpd.x86_64 0:2.4.6-80.el7.centos.1 \n\nComplete!\n"
]
}
192.168.94.22 | SUCCESS => {
"changed": true,
"msg": "",
"rc": ,
"results": [
"Loaded plugins: fastestmirror\nLoading mirror speeds from cached hostfile\n * base: mirrors.aliyun.com\n * extras: mirrors.aliyun.com\n * updates: mirrors.aliyun.com\nResolving Dependencies\n--> Running transaction check\n---> Package httpd.x86_64 0:2.4.6-80.el7.centos will be updated\n---> Package httpd.x86_64 0:2.4.6-80.el7.centos.1 will be an update\n--> Processing Dependency: httpd-tools = 2.4.6-80.el7.centos.1 for package: httpd-2.4.6-80.el7.centos.1.x86_64\n--> Running transaction check\n---> Package httpd-tools.x86_64 0:2.4.6-80.el7.centos will be updated\n---> Package httpd-tools.x86_64 0:2.4.6-80.el7.centos.1 will be an update\n--> Finished Dependency Resolution\n\nDependencies Resolved\n\n================================================================================\n Package Arch Version Repository Size\n================================================================================\nUpdating:\n httpd x86_64 2.4.6-80.el7.centos.1 updates 2.7 M\nUpdating for dependencies:\n httpd-tools x86_64 2.4.6-80.el7.centos.1 updates 90 k\n\nTransaction Summary\n================================================================================\nUpgrade 1 Package (+1 Dependent package)\n\nTotal download size: 2.8 M\nDownloading packages:\nDelta RPMs disabled because /usr/bin/applydeltarpm not installed.\n--------------------------------------------------------------------------------\nTotal 5.6 MB/s | 2.8 MB 00:00 \nRunning transaction check\nRunning transaction test\nTransaction test succeeded\nRunning transaction\n Updating : httpd-tools-2.4.6-80.el7.centos.1.x86_64 1/4 \n Updating : httpd-2.4.6-80.el7.centos.1.x86_64 2/4 \n Cleanup : httpd-2.4.6-80.el7.centos.x86_64 3/4 \n Cleanup : httpd-tools-2.4.6-80.el7.centos.x86_64 4/4 \n Verifying : httpd-tools-2.4.6-80.el7.centos.1.x86_64 1/4 \n Verifying : httpd-2.4.6-80.el7.centos.1.x86_64 2/4 \n Verifying : httpd-tools-2.4.6-80.el7.centos.x86_64 3/4 \n Verifying : httpd-2.4.6-80.el7.centos.x86_64 4/4 \n\nUpdated:\n httpd.x86_64 0:2.4.6-80.el7.centos.1 \n\nDependency Updated:\n httpd-tools.x86_64 0:2.4.6-80.el7.centos.1 \n\nComplete!\n"
]
}
cron模块远程主机crontab配置
[root@Ansible ~]# ansible -m cron -s -a "name='My Wifi' minute='*/1' job='cat /root/mingming>/var/www/html/index.html'" web-servers
192.168.94.33 | SUCCESS => {
"changed": true,
"envs": [],
"jobs": [
"My Wifi"
]
}
192.168.94.22 | SUCCESS => {
"changed": true,
"envs": [],
"jobs": [
"My Wifi"
]
}
[root@Ansible ~]# ansible -m shell -s -a 'crontab -l' web-servers
192.168.94.33 | SUCCESS | rc= >>
#Ansible: My Wifi
*/ * * * * cat /root/mingming>/var/www/html/index.html 192.168.94.22 | SUCCESS | rc= >>
#Ansible: My Wifi
*/ * * * * cat /root/mingming>/var/www/html/index.html
service模块远程主机系统服务管理(CentOS7 中为systemd模块 用法基本一样)
service模块常用参数:
(1)name参数:此参数用于指定需要操作的服务名称,比如 nginx,httpd
(2)state参数:此参数用于指定服务的状态,比如,我们想要启动远程主机中的httpd,则可以将 state 的值设置为 started;如果想要停止远程主机中的服务,则可以将 state 的值设置为 stopped
此参数的可用值有 started、stopped、restarted(重启)、reloaded
enabled参数:此参数用于指定是否将服务设置为开机 启动项,设置为 yes 表示将对应服务设置为开机启动,设置为 no 表示不会开机启动
想使用service模块启动服务,被启动的服务,必须可以使用service 命令启动或关闭
[root@Ansible ~]# ansible -m systemd -s -a 'name=httpd state=started' web-servers
192.168.94.33 | SUCCESS => {
"changed": true,
"name": "httpd",
"state": "started",
"status": {
"ActiveEnterTimestampMonotonic": "",
"ActiveExitTimestampMonotonic": "",
"ActiveState": "inactive",
"After": "-.mount basic.target network.target tmp.mount remote-fs.target system.slice systemd-journald.socket nss-lookup.target",
"AllowIsolate": "no",
"AmbientCapabilities": "",
"AssertResult": "no",
"AssertTimestampMonotonic": "",
"Before": "shutdown.target",
"BlockIOAccounting": "no",
"BlockIOWeight": "",
"CPUAccounting": "no",
"CPUQuotaPerSecUSec": "infinity",
"CPUSchedulingPolicy": "",
"CPUSchedulingPriority": "",
"CPUSchedulingResetOnFork": "no",
"CPUShares": "",
"CanIsolate": "no",
"CanReload": "yes",
"CanStart": "yes",
"CanStop": "yes",
"CapabilityBoundingSet": "",
"ConditionResult": "no",
"ConditionTimestampMonotonic": "",
"Conflicts": "shutdown.target",
"ControlPID": "",
"DefaultDependencies": "yes",
"Delegate": "no",
"Description": "The Apache HTTP Server",
"DevicePolicy": "auto",
"Documentation": "man:httpd(8) man:apachectl(8)",
"EnvironmentFile": "/etc/sysconfig/httpd (ignore_errors=no)",
"ExecMainCode": "",
"ExecMainExitTimestampMonotonic": "",
"ExecMainPID": "",
"ExecMainStartTimestampMonotonic": "",
"ExecMainStatus": "",
"ExecReload": "{ path=/usr/sbin/httpd ; argv[]=/usr/sbin/httpd $OPTIONS -k graceful ; ignore_errors=no ; start_time=[n/a] ; stop_time=[n/a] ; pid=0 ; code=(null) ; status=0/0 }",
"ExecStart": "{ path=/usr/sbin/httpd ; argv[]=/usr/sbin/httpd $OPTIONS -DFOREGROUND ; ignore_errors=no ; start_time=[n/a] ; stop_time=[n/a] ; pid=0 ; code=(null) ; status=0/0 }",
"ExecStop": "{ path=/bin/kill ; argv[]=/bin/kill -WINCH ${MAINPID} ; ignore_errors=no ; start_time=[n/a] ; stop_time=[n/a] ; pid=0 ; code=(null) ; status=0/0 }",
"FailureAction": "none",
"FileDescriptorStoreMax": "",
"FragmentPath": "/usr/lib/systemd/system/httpd.service",
"GuessMainPID": "yes",
"IOScheduling": "",
"Id": "httpd.service",
"IgnoreOnIsolate": "no",
"IgnoreOnSnapshot": "no",
"IgnoreSIGPIPE": "yes",
"InactiveEnterTimestampMonotonic": "",
"InactiveExitTimestampMonotonic": "",
"JobTimeoutAction": "none",
"JobTimeoutUSec": "",
"KillMode": "control-group",
"KillSignal": "",
"LimitAS": "",
"LimitCORE": "",
"LimitCPU": "",
"LimitDATA": "",
"LimitFSIZE": "",
"LimitLOCKS": "",
"LimitMEMLOCK": "",
"LimitMSGQUEUE": "",
"LimitNICE": "",
"LimitNOFILE": "",
"LimitNPROC": "",
"LimitRSS": "",
"LimitRTPRIO": "",
"LimitRTTIME": "",
"LimitSIGPENDING": "",
"LimitSTACK": "",
"LoadState": "loaded",
"MainPID": "",
"MemoryAccounting": "no",
"MemoryCurrent": "",
"MemoryLimit": "",
"MountFlags": "",
"Names": "httpd.service",
"NeedDaemonReload": "no",
"Nice": "",
"NoNewPrivileges": "no",
"NonBlocking": "no",
"NotifyAccess": "main",
"OOMScoreAdjust": "",
"OnFailureJobMode": "replace",
"PermissionsStartOnly": "no",
"PrivateDevices": "no",
"PrivateNetwork": "no",
"PrivateTmp": "yes",
"ProtectHome": "no",
"ProtectSystem": "no",
"RefuseManualStart": "no",
"RefuseManualStop": "no",
"RemainAfterExit": "no",
"Requires": "-.mount basic.target",
"RequiresMountsFor": "/var/tmp",
"Restart": "no",
"RestartUSec": "100ms",
"Result": "success",
"RootDirectoryStartOnly": "no",
"RuntimeDirectoryMode": "",
"SameProcessGroup": "no",
"SecureBits": "",
"SendSIGHUP": "no",
"SendSIGKILL": "yes",
"Slice": "system.slice",
"StandardError": "inherit",
"StandardInput": "null",
"StandardOutput": "journal",
"StartLimitAction": "none",
"StartLimitBurst": "",
"StartLimitInterval": "",
"StartupBlockIOWeight": "",
"StartupCPUShares": "",
"StatusErrno": "",
"StopWhenUnneeded": "no",
"SubState": "dead",
"SyslogLevelPrefix": "yes",
"SyslogPriority": "",
"SystemCallErrorNumber": "",
"TTYReset": "no",
"TTYVHangup": "no",
"TTYVTDisallocate": "no",
"TasksAccounting": "no",
"TasksCurrent": "",
"TasksMax": "",
"TimeoutStartUSec": "1min 30s",
"TimeoutStopUSec": "1min 30s",
"TimerSlackNSec": "",
"Transient": "no",
"Type": "notify",
"UMask": "",
"UnitFilePreset": "disabled",
"UnitFileState": "disabled",
"Wants": "system.slice",
"WatchdogTimestampMonotonic": "",
"WatchdogUSec": ""
}
}
192.168.94.22 | SUCCESS => {
"changed": true,
"name": "httpd",
"state": "started",
"status": {
"ActiveEnterTimestampMonotonic": "",
"ActiveExitTimestampMonotonic": "",
"ActiveState": "inactive",
"After": "systemd-journald.socket nss-lookup.target network.target basic.target tmp.mount remote-fs.target system.slice -.mount",
"AllowIsolate": "no",
"AmbientCapabilities": "",
"AssertResult": "no",
"AssertTimestampMonotonic": "",
"Before": "shutdown.target",
"BlockIOAccounting": "no",
"BlockIOWeight": "",
"CPUAccounting": "no",
"CPUQuotaPerSecUSec": "infinity",
"CPUSchedulingPolicy": "",
"CPUSchedulingPriority": "",
"CPUSchedulingResetOnFork": "no",
"CPUShares": "",
"CanIsolate": "no",
"CanReload": "yes",
"CanStart": "yes",
"CanStop": "yes",
"CapabilityBoundingSet": "",
"ConditionResult": "no",
"ConditionTimestampMonotonic": "",
"Conflicts": "shutdown.target",
"ControlPID": "",
"DefaultDependencies": "yes",
"Delegate": "no",
"Description": "The Apache HTTP Server",
"DevicePolicy": "auto",
"Documentation": "man:httpd(8) man:apachectl(8)",
"EnvironmentFile": "/etc/sysconfig/httpd (ignore_errors=no)",
"ExecMainCode": "",
"ExecMainExitTimestampMonotonic": "",
"ExecMainPID": "",
"ExecMainStartTimestampMonotonic": "",
"ExecMainStatus": "",
"ExecReload": "{ path=/usr/sbin/httpd ; argv[]=/usr/sbin/httpd $OPTIONS -k graceful ; ignore_errors=no ; start_time=[n/a] ; stop_time=[n/a] ; pid=0 ; code=(null) ; status=0/0 }",
"ExecStart": "{ path=/usr/sbin/httpd ; argv[]=/usr/sbin/httpd $OPTIONS -DFOREGROUND ; ignore_errors=no ; start_time=[n/a] ; stop_time=[n/a] ; pid=0 ; code=(null) ; status=0/0 }",
"ExecStop": "{ path=/bin/kill ; argv[]=/bin/kill -WINCH ${MAINPID} ; ignore_errors=no ; start_time=[n/a] ; stop_time=[n/a] ; pid=0 ; code=(null) ; status=0/0 }",
"FailureAction": "none",
"FileDescriptorStoreMax": "",
"FragmentPath": "/usr/lib/systemd/system/httpd.service",
"GuessMainPID": "yes",
"IOScheduling": "",
"Id": "httpd.service",
"IgnoreOnIsolate": "no",
"IgnoreOnSnapshot": "no",
"IgnoreSIGPIPE": "yes",
"InactiveEnterTimestampMonotonic": "",
"InactiveExitTimestampMonotonic": "",
"JobTimeoutAction": "none",
"JobTimeoutUSec": "",
"KillMode": "control-group",
"KillSignal": "",
"LimitAS": "",
"LimitCORE": "",
"LimitCPU": "",
"LimitDATA": "",
"LimitFSIZE": "",
"LimitLOCKS": "",
"LimitMEMLOCK": "",
"LimitMSGQUEUE": "",
"LimitNICE": "",
"LimitNOFILE": "",
"LimitNPROC": "",
"LimitRSS": "",
"LimitRTPRIO": "",
"LimitRTTIME": "",
"LimitSIGPENDING": "",
"LimitSTACK": "",
"LoadState": "loaded",
"MainPID": "",
"MemoryAccounting": "no",
"MemoryCurrent": "",
"MemoryLimit": "",
"MountFlags": "",
"Names": "httpd.service",
"NeedDaemonReload": "no",
"Nice": "",
"NoNewPrivileges": "no",
"NonBlocking": "no",
"NotifyAccess": "main",
"OOMScoreAdjust": "",
"OnFailureJobMode": "replace",
"PermissionsStartOnly": "no",
"PrivateDevices": "no",
"PrivateNetwork": "no",
"PrivateTmp": "yes",
"ProtectHome": "no",
"ProtectSystem": "no",
"RefuseManualStart": "no",
"RefuseManualStop": "no",
"RemainAfterExit": "no",
"Requires": "-.mount basic.target",
"RequiresMountsFor": "/var/tmp",
"Restart": "no",
"RestartUSec": "100ms",
"Result": "success",
"RootDirectoryStartOnly": "no",
"RuntimeDirectoryMode": "",
"SameProcessGroup": "no",
"SecureBits": "",
"SendSIGHUP": "no",
"SendSIGKILL": "yes",
"Slice": "system.slice",
"StandardError": "inherit",
"StandardInput": "null",
"StandardOutput": "journal",
"StartLimitAction": "none",
"StartLimitBurst": "",
"StartLimitInterval": "",
"StartupBlockIOWeight": "",
"StartupCPUShares": "",
"StatusErrno": "",
"StopWhenUnneeded": "no",
"SubState": "dead",
"SyslogLevelPrefix": "yes",
"SyslogPriority": "",
"SystemCallErrorNumber": "",
"TTYReset": "no",
"TTYVHangup": "no",
"TTYVTDisallocate": "no",
"TasksAccounting": "no",
"TasksCurrent": "",
"TasksMax": "",
"TimeoutStartUSec": "1min 30s",
"TimeoutStopUSec": "1min 30s",
"TimerSlackNSec": "",
"Transient": "no",
"Type": "notify",
"UMask": "",
"UnitFilePreset": "disabled",
"UnitFileState": "disabled",
"Wants": "system.slice",
"WatchdogTimestampMonotonic": "",
"WatchdogUSec": ""
}
}
访问节点web页面
sysctl模块远程主机sysctl配置
# 开启路由转发功能
[root@Ansible ~]# ansible -m sysctl -s -a 'name=net.ipv4.ip_forward value=1 reload=yes' web-servers
192.168.94.33 | SUCCESS => {
"changed": true
}
192.168.94.22 | SUCCESS => {
"changed": true
}
[root@Ansible ~]# ansible -m shell -a "cat /proc/sys/net/ipv4/ip_forward" web-servers
192.168.94.33 | SUCCESS | rc= >> 192.168.94.22 | SUCCESS | rc= >>
Playbook是一个不同于使用ansible命令行执行方式的模式,功能更强大更灵活
playbooks使用步骤:
1、在playbooks 中定义任务:
- name: task description #任务描述信息
module_name: module_args #需要使用的模块名字: 模块参数
2、ansible-playbook 执行 命令:
[root@Ansible ~]# ansible-playbook LAMP.yml
playbook是由一个或多个"play"组成的列表
play的主要功能在于将事先归为一组的主机装扮成事先通过ansible中的task定义好的角色
github上提供了大量的实例供大家参考 https://github.com/ansible/ansible-examples
使用Playbook批量部署多台LAMP环境
Playbook常用文件夹作用:
files:存放需要同步到异地服务器的源码文件及配置文件;
handlers:当服务的配置文件发生变化时需要进行的操作,比如:重启服务,重新加载配置文件;
meta:角色定义,可留空;
tasks:需要进行的执行的任务;
templates:用于执行lamp安装的模板文件,一般为脚本;
vars:本次安装定义的变量
我们可以在ansible服务器上安装LAMP环境,然后,再将配置文件通过ansible拷贝到远程主机上
[root@Ansible ~]# yum -y install httpd mariadb mariadb-server php php-mysql
[root@Ansible ~]# mkdir -p /mydata/data
[root@Ansible ~]# chown -R mysql:mysql /mydata/
[root@Ansible ~]# vim /etc/my.cnf
# 修改为 datadir=/mydata/data
[root@Ansible ~]# systemctl start mariadb
[root@Ansible ~]# echo "<?php phpinfo(); ?>" > /var/www/html/index.php
[root@Ansible ~]# systemctl start httpd
访问测试页面 确认MySQL已经被整合进来再进行下一步
使用playbook创建一个LAMP构建的任务
创建相关文件
[root@Ansible ~]# mkdir -pv /etc/ansible/lamp/roles/{prepare,httpd,mysql,php}/{tasks,files,templates,vars,meta,default,handlers}
mkdir: 已创建目录 "/etc/ansible/lamp"
mkdir: 已创建目录 "/etc/ansible/lamp/roles"
mkdir: 已创建目录 "/etc/ansible/lamp/roles/prepare"
mkdir: 已创建目录 "/etc/ansible/lamp/roles/prepare/tasks"
mkdir: 已创建目录 "/etc/ansible/lamp/roles/prepare/files"
mkdir: 已创建目录 "/etc/ansible/lamp/roles/prepare/templates"
mkdir: 已创建目录 "/etc/ansible/lamp/roles/prepare/vars"
mkdir: 已创建目录 "/etc/ansible/lamp/roles/prepare/meta"
mkdir: 已创建目录 "/etc/ansible/lamp/roles/prepare/default"
mkdir: 已创建目录 "/etc/ansible/lamp/roles/prepare/handlers"
mkdir: 已创建目录 "/etc/ansible/lamp/roles/httpd"
mkdir: 已创建目录 "/etc/ansible/lamp/roles/httpd/tasks"
mkdir: 已创建目录 "/etc/ansible/lamp/roles/httpd/files"
mkdir: 已创建目录 "/etc/ansible/lamp/roles/httpd/templates"
mkdir: 已创建目录 "/etc/ansible/lamp/roles/httpd/vars"
mkdir: 已创建目录 "/etc/ansible/lamp/roles/httpd/meta"
mkdir: 已创建目录 "/etc/ansible/lamp/roles/httpd/default"
mkdir: 已创建目录 "/etc/ansible/lamp/roles/httpd/handlers"
mkdir: 已创建目录 "/etc/ansible/lamp/roles/mysql"
mkdir: 已创建目录 "/etc/ansible/lamp/roles/mysql/tasks"
mkdir: 已创建目录 "/etc/ansible/lamp/roles/mysql/files"
mkdir: 已创建目录 "/etc/ansible/lamp/roles/mysql/templates"
mkdir: 已创建目录 "/etc/ansible/lamp/roles/mysql/vars"
mkdir: 已创建目录 "/etc/ansible/lamp/roles/mysql/meta"
mkdir: 已创建目录 "/etc/ansible/lamp/roles/mysql/default"
mkdir: 已创建目录 "/etc/ansible/lamp/roles/mysql/handlers"
mkdir: 已创建目录 "/etc/ansible/lamp/roles/php"
mkdir: 已创建目录 "/etc/ansible/lamp/roles/php/tasks"
mkdir: 已创建目录 "/etc/ansible/lamp/roles/php/files"
mkdir: 已创建目录 "/etc/ansible/lamp/roles/php/templates"
mkdir: 已创建目录 "/etc/ansible/lamp/roles/php/vars"
mkdir: 已创建目录 "/etc/ansible/lamp/roles/php/meta"
mkdir: 已创建目录 "/etc/ansible/lamp/roles/php/default"
mkdir: 已创建目录 "/etc/ansible/lamp/roles/php/handlers"
我们将上面搭建成功的LAMP环境的httpd和MySQL的配置文件拷贝到对应目录下
[root@Ansible ~]# cd /etc/ansible/
[root@Ansible ansible]# cp /etc/httpd/conf/httpd.conf lamp/roles/httpd/files/
[root@Ansible ansible]# cp /etc/my.cnf lamp/roles/mysql/files/
写prepare(前期准备)角色的playbooks
[root@Ansible ansible]# vim lamp/roles/prepare/tasks/main.yml
- name: delete yum config
shell: rm -rf /etc/yum.repos.d/* #删除原有的yum配置文件
- name: provide yumrepo file
shell: wget -O /etc/yum.repos.d/CentOS-Base.repo http://mirrors.aliyun.com/repo/Centos-7.repo #下载新的yum配置文件
- name: clean the yum repo
shell: yum clean all #清除原有的yum缓存信息
- name: clean the iptables
shell: iptables -F #清除原有防火墙规则,不然后可能上不了网
构建httpd的任务
[root@Ansible ansible]# cd /etc/ansible/lamp/roles
[root@Ansible roles]# mv /var/www/html/index.php httpd/files/
[root@Ansible roles]# vim httpd/tasks/main.yml
- name: web server install
yum: name=httpd state=present #安装httpd服务
- name: provide test page
copy: src=index.php dest=/var/www/html #提供测试页
- name: delete apache config
shell: rm -rf /etc/httpd/conf/httpd.conf #删除原有的apache配置文件,如果不删除,下面的copy任务是不会执行的,因为当源文件httpd.conf和目标文件一样时,copy命令是不执行的。如果copy命令不执行,那么notify将不调用handler
- name: provide configuration file
copy: src=httpd.conf dest=/etc/httpd/conf/httpd.conf #提供httpd的配置文件
notify: restart httpd #当前面的copy复制成功后,通过notify通知名字为restart httpd的handlers运行。
notify: 这个action可用于在每个play的最后被触发,这样可以避免多次有改变发生时,每次都执行指定的操作,取而代之,仅在所有的变化发生完成后一次性地执行指定操作
在notify中列出的操作称为handler,也即notify中调用handler中定义的操作
---- name: test.yml just for test
hosts: testserver
vars:
region: ap-southeast-1
tasks:
- name: template configuration
file template: src=template.j2 dest=/etc/foo.conf
notify:
- restart memcached
- restart apache
handlers:
- name: restart memcached
service: name=memcached state=restarted
- name: restart apache
service: name=apache state=restarted
handlers概述:
Handlers 也是一些 task 的列表,通过名字来引用,它们和一般的 task 并没有什么区别
Handlers 是由通知者进行notify, 如果没有被 notify,handlers 不会执行
不管有多少个通知者进行了notify,等到 play 中的所有 task 执行完成之后,handlers 也只会被执行一次
Handlers 最佳的应用场景是用来重启服务,或者触发系统重启操作.除此以外很少用到了
构建httpd的handlers
[root@Ansible roles]# vim httpd/handlers/main.yml
- name: restart httpd
service: name=httpd enabled=yes state=restarted
部署mariadb数据库
创建MySQL服务的任务,需要安装MySQL服务,改变属主信息,启动MySQL
[root@Ansible roles]# cd /etc/ansible/lamp/roles
[root@Ansible roles]# vim mysql/tasks/main.yml
- name: install the mysql
yum: name=mariadb-server state=present #安装mysql服务
- name: mkdir date directory
shell: mkdir -p /mydata/data #创建挂载点目录
- name: provide configration file
copy: src=my.cnf dest=/etc/my.cnf #提供mysql的配置文件
- name: chage the owner
shell: chown -R mysql:mysql /mydata/* #更改属主和属组
- name: start mariadb
service: name=mariadb enabled=yes state=started #启动mysql服务
构建PHP的任务
[root@Ansible roles]# vim php/tasks/main.yml
- name: install php
yum: name=php state=present #安装php
- name: install php-mysql
yum: name=php-mysql state=present #安装php与mysql交互的插件
定义整个的任务
[root@Ansible roles]# cd /etc/ansible/lamp/roles
[root@Ansible roles]# vim site.yml
- name: LAMP build
remote_user: root
hosts: web-servers
roles:
- prepare
- mysql
- php
- httpd
所有yml的配置文件中,空格必须严格对齐
开始部署
[root@Ansible roles]# ansible-playbook -s /etc/ansible/lamp/roles/site.yml
在浏览器中访问这两台节点主机 IP/index.php
特别注意 : 默认情况下,首次登陆一台服务器,系统会提示是否要记住对端的指纹,用ansible也会这样,这样会导致需要手工输入yes或no,ansible 才可以往下执行。如需避免这种情况,需要在 /etc/ansible/ansible.cfg 文件中设置 host_key_checking = False