传统部署方式
1、纯手工scp
2、纯手工登录git pull 、svn update
3、纯手工xftp往上拉
4、开发给打一个压缩包,rz上去。解压
传统部署缺点:
1、全程运维参与,占用大量时间
2、上线速度慢。
3、认为失误多。管理混乱
4、回滚慢,不及时
新项目上线,规划排在第一位
一般银行都不提供测试接口。比如一些电商公司测试的话,经常把商品调节成1分,只能特定账号能看到。
环境的规划
1、开发环境-开发者本地有自己的环境,然后运维需要设置的开发环境,放的是大家共用的服务。如开发数据库mysql,其它:redis、Memcached。
2、测试环境:功能测试环境和性能测试环境
3、预生产环境:一般可以用生产环境中的某个节点担任
4、生产环境:直接对用户提供服务的环境
预生产环境产生的原因:
1、数据库不一致:测试环境和生产环境数据库肯定不一样的。
2、使用生产环境的联调接口。例如,支付接口
部署:
1、代码放在哪里:svn,git
2、获取什么版本代码?
svn+git直接拉去某个分支
svn:指定版本号
git:指定tag
3、差异解决:
(1)、各个节点直接差异:
(2)、代码仓库和实际的差异。配置文件是否在代码仓库中
(3)、配置文件未必一样:crontab.xml预生产节点
4、如何更新。java tomcat。需要重启。
5、测试。
6、串行和并行 分组部署
7如何执行。(1)shell执行。(2)web界面
关于差异文件:
环境准备
系统版本
[root@linux-node1 ~]# cat /etc/redhat-release
CentOS Linux release 7.1.1503 (Core)
[root@linux-node1 ~]# uname -rm
3.10.0-229.el7.x86_64 x86_64
[root@linux-node1 ~]#
主机名和IP
node1
[root@linux-node1 ~]# hostname
linux-node1.nmap.com
[root@linux-node1 ~]# cat /etc/hosts
127.0.0.1 localhost localhost.localdomain localhost4 localhost4.localdomain4
::1 localhost localhost.localdomain localhost6 localhost6.localdomain6
192.168.56.11 linux-node1 linux-node1.nmap.com
192.168.56.12 linux-node2 linux-node2.nmap.com
[root@linux-node1 ~]# node2
[root@linux-node2 ~]# hostname
linux-node2.nmap.com
[root@linux-node2 ~]# cat /etc/hosts
127.0.0.1 localhost localhost.localdomain localhost4 localhost4.localdomain4
::1 localhost localhost.localdomain localhost6 localhost6.localdomain6
192.168.56.11 linux-node1 linux-node1.nmap.com
192.168.56.12 linux-node2 linux-node2.nmap.com
[root@linux-node2 ~]#
两台web服务器,node1和node2作为两个web服务器,同时node1也作为部署分发服务器,去管理2个node节点上的web包
两个节点添加普通用户www,作为web服务器管理用户。
[root@linux-node1 scripts]# useradd -u 1001 www
[root@linux-node1 scripts]# id www
uid=1001(www) gid=1001(www) groups=1001(www)
[root@linux-node1 scripts]# [root@linux-node2 ~]# useradd -u 1001 www
[root@linux-node2 ~]# id www
uid=1001(www) gid=1001(www) groups=1001(www)
[root@linux-node2 ~]#
配置www用户登录其他机器不用密码。密钥认证。以后www用户作为管理其它机器的用户
[root@linux-node1 .ssh]# su - www
[www@linux-node1 ~]$ ssh-keygen -t rsa
Generating public/private rsa key pair.
Enter file in which to save the key (/home/www/.ssh/id_rsa):
Created directory '/home/www/.ssh'.
Enter passphrase (empty for no passphrase):
Enter same passphrase again:
Your identification has been saved in /home/www/.ssh/id_rsa.
Your public key has been saved in /home/www/.ssh/id_rsa.pub.
The key fingerprint is:
70:37:ff:d0:17:e0:74:1d:c9:04:28:bb:de:ec:1f:7f www@linux-node1.nmap.com
The key's randomart image is:
+--[ RSA 2048]----+
| .++++|
| . .o oo.|
| . . = . . |
| o o o . .|
| S . o . .|
| . o . |
| . o .. |
| . o o E|
| .... ..|
+-----------------+
[www@linux-node1 ~]$
查看公钥
[www@linux-node1 ~]$ cd .ssh/
[www@linux-node1 .ssh]$ ll
total 8
-rw------- 1 www www 1679 Apr 5 03:41 id_rsa
-rw-r--r-- 1 www www 406 Apr 5 03:41 id_rsa.pub
[www@linux-node1 .ssh]$ cat id_rsa.pub
ssh-rsa
AAAAB3NzaC1yc2EAAAADAQABAAABAQDcZh8EEk2/rS6B/tLHnRpZGrGIJYFHg7zRFvuT3N9jvOFhYJdWv+8WSQuT0pvxNM4eR0N5Ma9wVvKPo/lVjCaFK+M0dENJVhi6m9OKMtoo2u
jvvuyinNPP4pyoK6ggG5jOlEkHoLcbWCRG/j3pN1rZYV+1twET9xi2IA4UQkgPvKKYWjq7NUR0v5BWsgEQt7VvjcLWTlltTVeGb3FDVKIjDnioIBmLmVwJS64N+GGgAj5YQ+bKHTwY
anEMD39JGKxo0RXTZB5sa734yfNjc3hTZXB4RCcGdzgcMJs/Rt5VeZ277zF86xr4Hd5cioAbV6Y1RvELjmpvrqUUz3tcaKId www@linux-node1.nmap.com
[www@linux-node1 .ssh]$
node2也添加node1的公钥
改成600权限才能正常登录
[www@linux-node2 ~]$ cd .ssh/
[www@linux-node2 .ssh]$ vim authorized_keys
[www@linux-node2 .ssh]$ cat authorized_keys
ssh-rsa
AAAAB3NzaC1yc2EAAAADAQABAAABAQDcZh8EEk2/rS6B/tLHnRpZGrGIJYFHg7zRFvuT3N9jvOFhYJdWv+8WSQuT0pvxNM4eR0N5Ma9wVvKPo/lVjCaFK+M0dENJVhi6m9OKMtoo2u
jvvuyinNPP4pyoK6ggG5jOlEkHoLcbWCRG/j3pN1rZYV+1twET9xi2IA4UQkgPvKKYWjq7NUR0v5BWsgEQt7VvjcLWTlltTVeGb3FDVKIjDnioIBmLmVwJS64N+GGgAj5YQ+bKHTwY
anEMD39JGKxo0RXTZB5sa734yfNjc3hTZXB4RCcGdzgcMJs/Rt5VeZ277zF86xr4Hd5cioAbV6Y1RvELjmpvrqUUz3tcaKId www@linux-node1.nmap.com
[www@linux-node2 .ssh]$ chmod 600 authorized_keys
[www@linux-node2 .ssh]$
登录测试--成功
[www@linux-node1 .ssh]$ ssh 192.168.58.12
Last login: Mon Apr 10 00:31:23 2017 from 192.168.58.11
[www@linux-node2 ~]$
让node1的www用户ssh自己也不需要输入密码。
node1添加公钥
[www@linux-node1 .ssh]$ ll
total 12
-rw------- 1 www www 1679 Apr 5 03:41 id_rsa
-rw-r--r-- 1 www www 406 Apr 5 03:41 id_rsa.pub
-rw-r--r-- 1 www www 175 Apr 5 03:43 known_hosts
[www@linux-node1 .ssh]$ vim authorized_keys
[www@linux-node1 .ssh]$ chmod 600 authorized_keys
[www@linux-node1 .ssh]$ ssh 192.168.58.11
The authenticity of host '192.168.58.11 (192.168.58.11)' can't be established.
ECDSA key fingerprint is 8b:4e:2f:cd:37:89:02:60:3c:99:9f:c6:7a:5a:29:14.
Are you sure you want to continue connecting (yes/no)? yes
Warning: Permanently added '192.168.58.11' (ECDSA) to the list of known hosts.
Last login: Wed Apr 5 03:40:47 2017
[www@linux-node1 ~]$ exit
logout
Connection to 192.168.58.11 closed.
[www@linux-node1 .ssh]$ ssh 192.168.58.11
Last login: Wed Apr 5 03:46:21 2017 from 192.168.58.11
[www@linux-node1 ~]$
根据上面的流程图,先把大体框架写出来
[root@linux-node1 ~]# mkdir /scripts -p
[root@linux-node1 ~]# cd /scripts/
[root@linux-node1 scripts]# vim deploy.sh
[root@linux-node1 scripts]# chmod +x deploy.sh
[root@linux-node1 scripts]# ./deploy.sh
Usage: ./deploy.sh [ deploy | rollback ]
[root@linux-node1 scripts]# cat deploy.sh
#!/bin/bash #Shell Env
SHELL_NAME="deploy.sh"
SHELL_DIR="/home/www"
SHELL_LOG="${SHELL_DIR}/${SHELL_NAME}.log" #Code Env
CODE_DIR="/deploy/code/deploy"
CONFIG_DIR="/deploy/config"
TMP_DIR="/deploy/tmp"
TAR_DIR="/deploy/tar" usage(){
echo $"Usage: $0 [ deploy | rollback ]"
} code_get(){
echo code_get
} code_build(){
echo code_build
} code_config(){
echo code_config
} code_tar(){
echo code_tar
} code_scp(){
echo code_scp
} cluster_node_remove(){
echo cluster_node_remove
} code_deploy(){
echo code_deploy
} config_diff(){
echo config_diff
} code_test(){
echo code_test
} cluster_node_in(){
echo cluster_node_in
} rollback(){
echo rollback
} main(){
case $1 in
deploy)
code_get;
code_build;
code_config;
code_tar;
code_scp;
cluster_node_remove;
code_deploy;
config_diff;
code_test;
cluster_node_in;
;;
rollback)
rollback;
;;
*)
usage;
esac }
main $1
[root@linux-node1 scripts]#
main(){
DEPLOY_METHOD=$1
case $DEPLOY_METHOD in
deploy)
code_get;
code_build;
code_config;
code_tar;
code_scp;
cluster_node_remove;
code_deploy;
config_diff;
code_test;
cluster_node_in;
;;
继续完善脚本--添加日志和锁
1、凡是不记录日志的脚本就是刷流氓,执行到哪一步失败的啊?
2、脚本是否可以多个人一起执行?(最好不要多个人一起执行)不允许多人执行的话可以上锁
一般锁文件放下面目录下
[root@linux-node1 ~]# cd /var/run/lock/
[root@linux-node1 lock]# ls
iscsi lockdev lvm ppp subsys
[root@linux-node1 lock]#
我们可以单独添加个目录,给它用,因为权限问题,需要授权改变属组,我们使用tmp目录
主函数执行之前,应该先判断锁文件是否存在,执行的时候也应该生成这个lock文件
既然2个地方用到了它,是否可以把它制作成变量
新的脚本如下,主要添加了锁的功能
[root@linux-node1 scripts]# cat deploy.sh
#!/bin/bash #Shell Env
SHELL_NAME="deploy.sh"
SHELL_DIR="/home/www"
SHELL_LOG="${SHELL_DIR}/${SHELL_NAME}.log" #Code Env
CODE_DIR="/deploy/code/deploy"
CONFIG_DIR="/deploy/config"
TMP_DIR="/deploy/tmp"
TAR_DIR="/deploy/tar"
LOCK_FILE="/tmp/deploy.lock" usage(){
echo $"Usage: $0 [ deploy | rollback ]"
} shell_lock(){
touch ${LOCK_FILE}
}
shell_unlock(){
rm -f ${LOCK_FILE}
} code_get(){
echo code_get
sleep 60;
} code_build(){
echo code_build
} code_config(){
echo code_config
} code_tar(){
echo code_tar
} code_scp(){
echo code_scp
} cluster_node_remove(){
echo cluster_node_remove
} code_deploy(){
echo code_deploy
} config_diff(){
echo config_diff
} code_test(){
echo code_test
} cluster_node_in(){
echo cluster_node_in
} rollback(){
echo rollback
} main(){
if [ -f ${LOCK_FILE} ];then
echo "Deploy is running" && exit;
fi
DEPLOY_METHOD=$1
case $DEPLOY_METHOD in
deploy)
shell_lock;
code_get;
code_build;
code_config;
code_tar;
code_scp;
cluster_node_remove;
code_deploy;
config_diff;
code_test;
cluster_node_in;
shell_unlock;
;;
rollback)
shell_lock;
rollback;
shell_unlock;
;;
*)
usage;
esac }
main $1
[root@linux-node1 scripts]#
先执行下检查语法错误
[root@linux-node1 scripts]# ./deploy.sh deploy
code_get
code_build
code_config
code_tar
code_scp
cluster_node_remove
code_deploy
config_diff
code_test
cluster_node_in
[root@linux-node1 scripts]# ./deploy.sh rollback
rollback
加个sleep测试下锁的功能
给一个函数加下sleep 测试下执行中,另外的人是否可以执行这个脚本
code_get(){
echo code_get
sleep 60;
}
运行脚本
[root@linux-node1 scripts]# ./deploy.sh deploy
code_get
[root@linux-node1 scripts]# ./deploy.sh deploy
Deploy is running
[root@linux-node1 scripts]# ./deploy.sh deploy
Deploy is running
[root@linux-node1 scripts]# ./deploy.sh rollback
Deploy is running
[root@linux-node1 scripts]#
增加日志功能
其实就是echo一行到日志文件中,每个函数写加echo 写到日志里,这样比较low
能不能写个日志函数,加时间戳。以后日志函数可以复制到其它脚本里
[www@linux-node1 scripts]$ date "+%Y-%m-%d"
2017-04-23
[www@linux-node1 scripts]$ date "+%H-%M-%S"
22-10-34
[www@linux-node1 scripts]$
#!/bin/bash # Date/Time Veriables
CDATE=$(date "+%Y-%m-%d")
CTIME=$(date "+%H-%M-%S") #Shell Env
SHELL_NAME="deploy.sh"
SHELL_DIR="/home/www"
SHELL_LOG="${SHELL_DIR}/${SHELL_NAME}.log" #Code Env
CODE_DIR="/deploy/code/deploy"
CONFIG_DIR="/deploy/config"
TMP_DIR="/deploy/tmp"
TAR_DIR="/deploy/tar"
LOCK_FILE="/tmp/deploy.lock"
还不能这么写,不然以后的时间都是一样的
可以改成这样,它不会执行
#!/bin/bash # Date/Time Veriables
CDATE='date "+%Y-%m-%d"'
CTIME='date "+%H-%M-%S"' #Shell Env
SHELL_NAME="deploy.sh"
SHELL_DIR="/home/www"
SHELL_LOG="${SHELL_DIR}/${SHELL_NAME}.log" #Code Env
CODE_DIR="/deploy/code/deploy"
CONFIG_DIR="/deploy/config"
TMP_DIR="/deploy/tmp"
TAR_DIR="/deploy/tar"
LOCK_FILE="/tmp/deploy.lock"
打包的时候,也用到时间戳命名了。还得用一个固定不变的时间用于打包
因为解压的时候,scp的时候用必须知道确定的包名字。
这里用到了2个时间,log-date是让它不执行的,cdate是让它执行的
#!/bin/bash # Date/Time Veriables
LOG_DATE='date "+%Y-%m-%d"'
LOG_TIME='date "+%H-%M-%S"' CDATE=$(date "+%Y-%m-%d")
CTIME=$(date "+%H-%M-%S") #Shell Env
SHELL_NAME="deploy.sh"
SHELL_DIR="/home/www"
SHELL_LOG="${SHELL_DIR}/${SHELL_NAME}.log" #Code Env
CODE_DIR="/deploy/code/deploy"
CONFIG_DIR="/deploy/config"
TMP_DIR="/deploy/tmp"
TAR_DIR="/deploy/tar"
[root@linux-node1 ~]# LOG_DATE='date "+%Y-%m-%d"'
[root@linux-node1 ~]# LOG_TIME='date "+%H-%M-%S"'
[root@linux-node1 ~]# echo $LOG_DATE
date "+%Y-%m-%d"
[root@linux-node1 ~]# echo $LOG_TIME
date "+%H-%M-%S"
[root@linux-node1 ~]#
[root@linux-node1 ~]# eval $LOG_TIME
22-21-05
[root@linux-node1 ~]# eval $LOG_DATE
2017-04-23
[root@linux-node1 ~]#
[root@linux-node1 ~]# eval $LOG_DATE && eval $LOG_TIME
2017-04-23
22-22-48
[root@linux-node1 ~]#
单独定义一个时间变量(这里用不到,但是可以实现)
[root@linux-node1 ~]# D_T='date "+%Y-%m-%d-%H-%M-%S"'
[root@linux-node1 ~]# echo $D_T
date "+%Y-%m-%d-%H-%M-%S"
[root@linux-node1 ~]# eval $D_T
2017-04-26-19-33-01
[root@linux-node1 ~]#
usage(){
echo $"Usage: $0 [ deploy | rollback ]"
} writelog(){
LOGINFO=$1
echo "${CDATE} ${CTIME}: ${SHELL_NAME} : ${LOGINFO}" >> ${SHELL_LOG}
} shell_lock(){
touch ${LOCK_FILE}
} shell_unlock(){
rm -f ${LOCK_FILE}
}
shell_lock(){
touch ${LOCK_FILE}
} shell_unlock(){
rm -f ${LOCK_FILE}
} code_get(){
writelog code_get;
} code_build(){
echo code_build
}
shell_unlock(){
rm -f ${LOCK_FILE}
} code_get(){
writelog "code_get";
} code_build(){
echo code_build
}
[root@linux-node1 scripts]# mkdir /deploy/config -p
[root@linux-node1 scripts]# mkdir /deploy/tmp -p
[root@linux-node1 scripts]# mkdir /deploy/tar -p
[root@linux-node1 scripts]# mkdir /deploy/code -p
[root@linux-node1 scripts]# cd /deploy/
[root@linux-node1 deploy]# ll
total 0
drwxr-xr-x 2 root root 6 Apr 23 22:37 code
drwxr-xr-x 2 root root 6 Apr 23 22:37 config
drwxr-xr-x 2 root root 6 Apr 23 22:37 tar
drwxr-xr-x 2 root root 6 Apr 23 22:37 tmp
[root@linux-node1 deploy]#
[root@linux-node1 deploy]# cd code/
[root@linux-node1 code]# mkdir web-demo -p
[root@linux-node1 code]# cd ..
[root@linux-node1 deploy]# tree
.
├── code
│ └── web-demo
├── config
├── tar
└── tmp 5 directories, 0 files
[root@linux-node1 deploy]#
修改脚本
#Shell Env
SHELL_NAME="deploy.sh"
SHELL_DIR="/home/www"
SHELL_LOG="${SHELL_DIR}/${SHELL_NAME}.log" #Code Env
CODE_DIR="/deploy/code/web-demo"
CONFIG_DIR="/deploy/config"
TMP_DIR="/deploy/tmp"
TAR_DIR="/deploy/tar"
LOCK_FILE="/tmp/deploy.lock" usage(){
echo $"Usage: $0 [ deploy | rollback ]"
}
code_get(){
writelog "code_get";
cd $CODE_DIR && git pull
}
配置文件不要放这个目录下,这个目录只用来更新---git pull.你不好判断配置文件是仓库里面的,还是你专门下载下来的(最佳实践)
规划的时候,只让这里目录执行git pull
TMP_DIR="/deploy/tmp"
继续优化获取代码的函数
code_get(){
writelog "code_get";
cd $CODE_DIR && git pull
cp -r ${CODE_DIR} ${TMP_DIR}/
}
配置操作的函数时候,觉得不合适,应该区分项目,标准化。比如web-demo可以理解为一个项目包名字
#Code Env
CODE_DIR="/deploy/code/web-demo"
CONFIG_DIR="/deploy/config/web-demo"
TMP_DIR="/deploy/tmp"
TAR_DIR="/deploy/tar"
LOCK_FILE="/tmp/deploy.lock"
目录新建
[root@linux-node1 scripts]# cd /deploy/
[root@linux-node1 deploy]# cd config/
[root@linux-node1 config]# mkdir web-demo
[root@linux-node1 config]# cd ..
[root@linux-node1 deploy]# tree
.
├── code
│ └── web-demo
├── config
│ └── web-demo
├── tar
└── tmp 6 directories, 0 files
[root@linux-node1 deploy]#
[root@linux-node1 deploy]# cd config/
[root@linux-node1 config]# cd web-demo/
[root@linux-node1 web-demo]# vim config.ini
[root@linux-node1 web-demo]# cat config.ini
hehe
[root@linux-node1 web-demo]#
#Code Env
PRO_NAME="web-demo"
CODE_DIR="/deploy/code/web-demo"
CONFIG_DIR="/deploy/config/web-demo"
TMP_DIR="/deploy/tmp"
TAR_DIR="/deploy/tar"
LOCK_FILE="/tmp/deploy.lock"
调整下脚本,优化code_config函数
code_get(){
writelog "code_get";
cd $CODE_DIR && git pull
cp -r ${CODE_DIR} ${TMP_DIR}/
} code_build(){
echo code_build
} code_config(){
echo code_config
/bin/cp -r $CONFIG_DIR/* $TMP_DIR/$PRO_NAME
}
code_get(){
writelog "code_get";
cd $CODE_DIR && git pull
cp -r ${CODE_DIR} ${TMP_DIR}/
} code_build(){
echo code_build
} code_config(){
echo code_config
/bin/cp -r ${CONFIG_DIR}/* ${TMP_DIR}/"${PRO_NAME}"
}
注意是/bin/cp ,这样原先有配置文件,这里可以直接替换了
如果开发把配置文件打包进去了。连接的是测试的库,假如你部署生产环境了,连接测试的库。出了问题,谁背黑锅
运维是最后一道防线。开发和测试没遇到。你背黑锅
code_config(){
echo code_config
/bin/cp -r ${CONFIG_DIR}/* ${TMP_DIR}/"${PRO_NAME}"
PKG_NAME="${PRO_NAME}"_"${API_VER}"-"${CDATE}-${CTIME}"
}
继续优化
code_config(){
echo code_config
/bin/cp -r ${CONFIG_DIR}/* ${TMP_DIR}/"${PRO_NAME}"
PKG_NAME="${PRO_NAME}"_"${API_VER}"-"${CDATE}-${CTIME}"
cd ${TMP_DIR} && mv ${PRO_NAME} ${PKG_NAME}
}
添加版本号,先随便定义个版本
code_get(){
writelog "code_get";
cd $CODE_DIR && git pull
cp -r ${CODE_DIR} ${TMP_DIR}/
API_VER="123"
}
code_get(){
writelog "code_get";
cd $CODE_DIR && echo "git pull"
cp -r ${CODE_DIR} ${TMP_DIR}/
API_VER="123"
}
[root@linux-node1 scripts]# chown -R www:www /deploy/
[root@linux-node1 scripts]#
[root@linux-node1 scripts]# cd /deploy/code/web-demo/
[root@linux-node1 web-demo]# echo hehe>>index.html
[root@linux-node1 web-demo]# cat index.html
hehe
[root@linux-node1 web-demo]#
文件和目录结构如下
[root@linux-node1 deploy]# tree
.
├── code
│ └── web-demo
│ └── index.html
├── config
│ └── web-demo
│ └── config.ini
├── tar
└── tmp 6 directories, 2 files
[root@linux-node1 deploy]#
[root@linux-node1 deploy]# cd /scripts/
[root@linux-node1 scripts]# chown -R www:www /scripts/deploy.sh
[root@linux-node1 scripts]# ll
total 12
-rw-r--r-- 1 root root 234 Apr 3 23:51 cobbler_list.py
-rw-r--r-- 1 root root 1533 Apr 4 00:01 cobbler_system_api.py
-rwxr-xr-x 1 www www 1929 Apr 23 23:04 deploy.sh
[root@linux-node1 scripts]# su - www
Last login: Sun Apr 23 22:06:44 CST 2017 on pts/0
[www@linux-node1 scripts]$ ./deploy.sh deploy
git pull
code_build
code_config
code_tar
code_scp
cluster_node_remove
code_deploy
config_diff
code_test
cluster_node_in
[www@linux-node1 scripts]$
[www@linux-node1 scripts]$ tree /deploy/
/deploy/
├── code
│ └── web-demo
│ └── index.html
├── config
│ └── web-demo
│ └── config.ini
├── tar
└── tmp
├── web-demo_123-2017-04-23-23-12-15
│ ├── config.ini
│ └── index.html
└── web-demo_123-2017-04-23-23-13-20
├── config.ini
└── index.html 8 directories, 6 files
[www@linux-node1 scripts]$
code_config(){
echo code_config
/bin/cp -r ${CONFIG_DIR}/* ${TMP_DIR}/"${PRO_NAME}"
PKG_NAME="${PRO_NAME}"_"${API_VER}"_"${CDATE}-${CTIME}"
cd ${TMP_DIR} && mv ${PRO_NAME} ${PKG_NAME}
}
[www@linux-node1 scripts]$ ./deploy.sh deploy
git pull
code_build
code_config
code_tar
code_scp
cluster_node_remove
code_deploy
config_diff
code_test
cluster_node_in
[www@linux-node1 scripts]$ tree /deploy/
/deploy/
├── code
│ └── web-demo
│ └── index.html
├── config
│ └── web-demo
│ └── config.ini
├── tar
└── tmp
├── web-demo_123-2017-04-23-23-12-15
│ ├── config.ini
│ └── index.html
├── web-demo_123-2017-04-23-23-13-20
│ ├── config.ini
│ └── index.html
└── web-demo_123_2017-04-23-23-17-20
├── config.ini
└── index.html 9 directories, 8 files
[www@linux-node1 scripts]$
code_config(){
writelog "code_config"
/bin/cp -r ${CONFIG_DIR}/* ${TMP_DIR}/"${PRO_NAME}"
PKG_NAME="${PRO_NAME}"_"${API_VER}"_"${CDATE}-${CTIME}"
cd ${TMP_DIR} && mv ${PRO_NAME} ${PKG_NAME}
} code_tar(){
writelog "code_tar"
}
code_tar(){
writelog "code_tar"
cd ${TMP_DIR} && tar cfz ${PKG_NAME}.tar.gz ${PKG_NAME}
writelog "${PKG_NAME}.tar.gz"
}
再次测试脚本
[www@linux-node1 scripts]$ ./deploy.sh deploy
git pull
code_build
code_scp
cluster_node_remove
code_deploy
config_diff
code_test
cluster_node_in
[www@linux-node1 scripts]$ tree /deploy/
/deploy/
├── code
│ └── web-demo
│ └── index.html
├── config
│ └── web-demo
│ └── config.ini
├── tar
└── tmp
├── web-demo_123-2017-04-23-23-12-15
│ ├── config.ini
│ └── index.html
├── web-demo_123-2017-04-23-23-13-20
│ ├── config.ini
│ └── index.html
├── web-demo_123_2017-04-23-23-17-20
│ ├── config.ini
│ └── index.html
├── web-demo_123_2017-04-23-23-22-09
│ ├── config.ini
│ └── index.html
└── web-demo_123_2017-04-23-23-22-09.tar.gz 10 directories, 11 files
[www@linux-node1 scripts]$
前4步都完毕,开始第五步--拷贝到目标服务器
遍历节点
[www@linux-node1 scripts]$ node_list="192.168.58.11 192.168.58.12"
[www@linux-node1 scripts]$ for node in $node_list;do echo $node;done
192.168.58.11
192.168.58.12
[www@linux-node1 scripts]$
脚本里添加node_list
#!/bin/bash #Node List
NODE_LIST="192.168.58.11 192.168.58.12" # Date/Time Veriables
LOG_DATE='date "+%Y-%m-%d"'
LOG_TIME='date "+%H-%M-%S"' CDATE=$(date "+%Y-%m-%d")
CTIME=$(date "+%H-%M-%S")
分发到目标节点
code_scp(){
echo code_scp
for node in $NODE_LIST;do
scp ${TMP_DIR}/${PKG_NAME}.tar.gz $node:/opt/webroot/
done
}
[root@linux-node1 scripts]# mkdir /opt/webroot -p
[root@linux-node1 scripts]# chown -R www:www /opt/webroot
[root@linux-node1 scripts]#
[root@linux-node2 ~]# mkdir /opt/webroot -p
[root@linux-node2 ~]# chown -R www:www /opt/webroot
[root@linux-node2 ~]#
完善拷贝函数
code_scp(){
echo code_scp
for node in $NODE_LIST;do
scp ${TMP_DIR}/${PKG_NAME}.tar.gz $node:/opt/webroot/
done
}
[www@linux-node1 scripts]$ ./deploy.sh deploy
git pull
code_build
code_scp
web-demo_123_2017-04-23-23-33-50.tar.gz 100% 204 0.2KB/s 00:00
web-demo_123_2017-04-23-23-33-50.tar.gz 100% 204 0.2KB/s 00:00
cluster_node_remove
code_deploy
config_diff
code_test
cluster_node_in
[www@linux-node1 scripts]$
[www@linux-node1 scripts]$ tree /opt/webroot/
/opt/webroot/
└── web-demo_123_2017-04-23-23-33-50.tar.gz 0 directories, 1 file
[www@linux-node1 scripts]$
[root@linux-node2 ~]# tree /opt/webroot/
/opt/webroot/
└── web-demo_123_2017-04-23-23-33-50.tar.gz 0 directories, 1 file
[root@linux-node2 ~]#
该第6步了,写个日志代替
cluster_node_remove(){
writelog "cluster_node_remove"
}
code_config(){
writelog "code_config"
/bin/cp -r ${CONFIG_DIR}/* ${TMP_DIR}/"${PRO_NAME}"
PKG_NAME="${PRO_NAME}"_"${API_VER}"_"${CDATE}-${CTIME}"
cd ${TMP_DIR} && mv ${PRO_NAME} ${PKG_NAME}
}
code_config(){
writelog "code_config"
/bin/cp -r ${CONFIG_DIR}/base/* ${TMP_DIR}/"${PRO_NAME}"
PKG_NAME="${PRO_NAME}"_"${API_VER}"_"${CDATE}-${CTIME}"
cd ${TMP_DIR} && mv ${PRO_NAME} ${PKG_NAME}
}
创建配置文件目录,base存放相同的配置,other存放差异配置
[www@linux-node1 scripts]$ cd /deploy/config/web-demo/
[www@linux-node1 web-demo]$ mkdir base
[www@linux-node1 web-demo]$ mkdir other
[www@linux-node1 web-demo]$ ll
total 4
drwxrwxr-x 2 www www 6 Apr 23 23:38 base
-rw-r--r-- 1 www www 5 Apr 23 22:46 config.ini
drwxrwxr-x 2 www www 6 Apr 23 23:38 other
[www@linux-node1 web-demo]$
调整下配置文件所在目录
[www@linux-node1 web-demo]$ mv config.ini base/
[www@linux-node1 web-demo]$ cd other/
[www@linux-node1 other]$ echo 192.168.58.12-config >>192.168.58.12.crontab.xml
[www@linux-node1 other]$ ll
total 4
-rw-rw-r-- 1 www www 21 Apr 23 23:39 192.168.58.12.crontab.xml
[www@linux-node1 other]$
code_deploy(){
echo code_deploy
cd /opt/webroot/ && tar xfz ${PKG_NAME}.tar.gz
} config_diff(){
echo config_diff
scp ${CONFIG_DIR}/other/192.168.58.12.crontab.xml 192.168.58.12:/opt/webroot/${PKG_NAME}
}
[www@linux-node1 scripts]$ ./deploy.sh deploy
git pull
code_build
code_scp
web-demo_123_2017-04-23-23-43-48.tar.gz 100% 204 0.2KB/s 00:00
web-demo_123_2017-04-23-23-43-48.tar.gz 100% 204 0.2KB/s 00:00
code_deploy
config_diff
192.168.58.12.crontab.xml 100% 21 0.0KB/s 00:00
code_test
cluster_node_in
[www@linux-node1 scripts]$
上面还有不足的地方,scp到目标服务器并解压,应该使用ssh远程执行、。上面脚本远程node2上解压是失败的
脚本再次改造下,把部署的函数和差异配置合并到一起
cluster_node_remove(){
writelog "cluster_node_remove"
} code_deploy(){
echo code_deploy
for node in $NODE_LIST;do
ssh $node "cd /opt/webroot/ && tar xfz ${PKG_NAME}.tar.gz"
done
scp ${CONFIG_DIR}/other/192.168.58.12.crontab.xml 192.168.58.12:/opt/webroot/${PKG_NAME}/crontab.xml
} code_test(){
echo code_test
}
创建webroot
[root@linux-node1 ~]# mkdir /webroot
[root@linux-node1 ~]# chown -R www:www /webroot
[root@linux-node1 ~]# [root@linux-node2 ~]# mkdir /webroot
[root@linux-node2 ~]# chown -R www:www /webroot
[root@linux-node2 ~]#
cluster_node_remove(){
writelog "cluster_node_remove"
} code_deploy(){
echo code_deploy
for node in $NODE_LIST;do
ssh $node "cd /opt/webroot/ && tar xfz ${PKG_NAME}.tar.gz"
done
scp ${CONFIG_DIR}/other/192.168.58.12.crontab.xml 192.168.58.12:/opt/webroot/${PKG_NAME}/crontab.xml
ln -s /opt/webroot/${PKG_NAME} /webroot/web-demo
} code_test(){
echo code_test
}
cluster_node_remove(){
writelog "cluster_node_remove"
} code_deploy(){
echo code_deploy
for node in $NODE_LIST;do
ssh $node "cd /opt/webroot/ && tar xfz ${PKG_NAME}.tar.gz"
done
scp ${CONFIG_DIR}/other/192.168.58.12.crontab.xml 192.168.58.12:/opt/webroot/${PKG_NAME}/crontab.xml
rm -f /webroot/web-demo && ln -s /opt/webroot/${PKG_NAME} /webroot/web-demo
} code_test(){
echo code_test
}
cluster_node_remove(){
writelog "cluster_node_remove"
} code_deploy(){
echo code_deploy
for node in $NODE_LIST;do
ssh $node "cd /opt/webroot/ && tar xfz ${PKG_NAME}.tar.gz"
rm -f /webroot/web-demo && ln -s /opt/webroot/${PKG_NAME} /webroot/web-demo
done
scp ${CONFIG_DIR}/other/192.168.58.12.crontab.xml 192.168.58.12:/opt/webroot/${PKG_NAME}/crontab.xml
} code_test(){
echo code_test
}
cluster_node_remove(){
writelog "cluster_node_remove"
} code_deploy(){
echo code_deploy
for node in $NODE_LIST;do
ssh $node "cd /opt/webroot/ && tar xfz ${PKG_NAME}.tar.gz"
rm -f /webroot/web-demo && ln -s /opt/webroot/${PKG_NAME} /webroot/web-demo
done
scp ${CONFIG_DIR}/other/192.168.58.12.crontab.xml 192.168.58.12:/webroot/web-demo/crontab.xml
} code_test(){
echo code_test
}
[www@linux-node1 scripts]$ cd /webroot/
[www@linux-node1 webroot]$ mkdir web-demo -p
[www@linux-node1 webroot]$
[root@linux-node2 webroot]# mkdir web-demo -p
[root@linux-node2 webroot]#
cluster_node_remove(){
writelog "cluster_node_remove"
} code_deploy(){
echo code_deploy
for node in $NODE_LIST;do
ssh $node "cd /opt/webroot/ && tar xfz ${PKG_NAME}.tar.gz"
ssh $node "rm -rf /webroot/web-demo && ln -s /opt/webroot/${PKG_NAME} /webroot/web-demo"
done
scp ${CONFIG_DIR}/other/192.168.58.12.crontab.xml 192.168.58.12:/webroot/web-demo/crontab.xml
} code_test(){
echo code_test
}
测试脚本
[www@linux-node1 scripts]$ ./deploy.sh deploy
git pull
code_build
code_scp
web-demo_123_2017-04-24-00-01-24.tar.gz 100% 204 0.2KB/s 00:00
web-demo_123_2017-04-24-00-01-24.tar.gz 100% 204 0.2KB/s 00:00
code_deploy
192.168.58.12.crontab.xml 100% 21 0.0KB/s 00:00
./deploy.sh: line 113: config_diff: command not found
code_test
cluster_node_in
[www@linux-node1 scripts]$
测试
[www@linux-node1 scripts]$ ./deploy.sh deploy
git pull
code_build
code_scp
web-demo_123_2017-04-24-00-02-44.tar.gz 100% 205 0.2KB/s 00:00
web-demo_123_2017-04-24-00-02-44.tar.gz 100% 205 0.2KB/s 00:00
code_deploy
192.168.58.12.crontab.xml 100% 21 0.0KB/s 00:00
code_test
cluster_node_in
[www@linux-node1 scripts]$
检查
[www@linux-node1 scripts]$ ll /webroot/
total 0
lrwxrwxrwx 1 www www 45 Apr 24 00:02 web-demo -> /opt/webroot/web-demo_123_2017-04-24-00-02-44
[www@linux-node1 scripts]$ [root@linux-node2 webroot]# ll /webroot/
total 0
lrwxrwxrwx 1 www www 45 Apr 24 00:02 web-demo -> /opt/webroot/web-demo_123_2017-04-24-00-02-44
[root@linux-node2 webroot]#
code_get(){
writelog "code_get";
cd $CODE_DIR && echo "git pull"
cp -r ${CODE_DIR} ${TMP_DIR}/
API_VER="456"
}
继续测试
[www@linux-node1 scripts]$ ./deploy.sh deploy
git pull
code_build
code_scp
web-demo_456_2017-04-24-00-04-05.tar.gz 100% 204 0.2KB/s 00:00
web-demo_456_2017-04-24-00-04-05.tar.gz 100% 204 0.2KB/s 00:00
code_deploy
192.168.58.12.crontab.xml 100% 21 0.0KB/s 00:00
code_test
cluster_node_in
[www@linux-node1 scripts]$ ll /webroot/
total 0
lrwxrwxrwx 1 www www 45 Apr 24 00:04 web-demo -> /opt/webroot/web-demo_456_2017-04-24-00-04-05
[www@linux-node1 scripts]$
检查