docker高级应用之单机持久化固定容器IP@慕课网原创_慕课网

过完年了，快1个月没有写博客，现在给大家分享一下我是如何在单机环境，实现持久化固定容器IP。

我是去年6月份开始玩docker，到现在已经9个月了，docker的最新版本也到了1.5.目前我这里对docker已经放到测试环境给研发使用，目前感觉最大的问题就是容器手动重启或者异常关闭后在启动容器，那么容器的ip就回变化（这个是使用默认的docker0做桥接），如果使用pipework手动配置ip，也得重新在来一遍，很是麻烦，所以我写了一个程序来自动化的解决这个问题。

一、程序介绍

使用到的程序有2个：

1、创建容器程序，名字是create_docker_container_use_static_ip.sh,使用shell脚本编写。

2、监控容器状态并自动给重启没有ip的容器设置ip，名字是auto_check_modify_container.py，使用python编写。

创建容器程序的逻辑：

1、运行创建脚本来创建docker container；

2、创建的信息会写入到etcd里进行保存；

3、根据配置信息来创建具体的container。

其中我程序使用openvswitch来坐桥接，并对不同vlan做不同的网段设置。

监控容器并给自动重启设置ip程序逻辑：

1、从etcd里获取容器的信息；

2、根据第一步的信息，进行nmap扫描ssh服务是否启动，未启动的转给下一步；

3、收到上一步的ip，然后根据etcd的容器信息进行重新pipework配置之前的固定ip。

下面是创建容器程序脚本内容

#!/bin/bash

#author:Deng Lei

#email: dl528888@gmail.com

#this script is create new docker container and use pipework add static ip,when container is restart,it also use last static ip

container=$1

p_w_picpaths=$2

daemon_program=$3

vlan_tag=$4

#ip_pool='172.16.10.1/24'

bridge=ovs2

default_vlan=1

default_vlan_ip='172.16.0.1/24'

email='244979152@qq.com'

local_ip=`/sbin/ifconfig | grep 'inet'| grep -Ev '(127|117|211|172|::1|fe)' |awk '{print $2}'|head -n 1`

if [ -z $1 ] || [ -z $2 ]; then

echo "Usage: container_name container_p_w_picpath vlan_tag(default:1)"

echo "Example: I want create new docker container test1 centos6:latest supervisord vlan 100"

echo "The command is: bash `basename $0` test1 centos6:latest supervisord 100"

exit 1

[ `docker ps -a|grep -v "NAMES"|awk '{print $NF}'|grep "$container" &>>/dev/null && echo 0 || echo 1` -eq 0 ] && echo "The container $container is exist!" && exit 1

[ `which pipework &>/dev/null && echo 0|| echo 1` -eq 1 ] && echo "I can't find pipework,please install it!" && exit 1

if [ -z $3 ];then

vlan_tag=${default_vlan}

#create new docker container

docker run --restart always -d --net="none" --name="$container" $p_w_picpaths $daemon_program &>>/dev/null

#check openvswitch bridge exist

if [ `ovs-vsctl list-br |grep ${bridge} &>/dev/null && echo 0|| echo 1` -eq 1 ];then

ovs-vsctl add-br ${bridge}

#set up default vlan info

check_default_vlan_exist=`etcdctl get /app/docker/${local_ip}/vlan${default_vlan}/gateway 2>/dev/null || echo 1`

if [ ${check_default_vlan_exist} = "1" ];then

ovs-vsctl add-port $bridge vlan${default_vlan} tag=${default_vlan} -- set interface vlan${default_vlan} type=internal

#ifconfig vlan${default_vlan} ${default_vlan_ip}

ip link set vlan${default_vlan} up

ip addr add $default_vlan_ip dev vlan${default_vlan}

etcdctl set /app/docker/${local_ip}/vlan${default_vlan}/nowip $default_vlan_ip &>>/dev/null

etcdctl set /app/docker/${local_ip}/vlan${default_vlan}/gateway $default_vlan_ip &>>/dev/null

etcdctl set /app/docker/now_vlan_ip $default_vlan_ip &>>/dev/null

#set up new vlan info

new_vlan_gateway_ip=`etcdctl get /app/docker/${local_ip}/vlan${vlan_tag}/gateway 2>/dev/null || echo 1`

if [ ${new_vlan_gateway_ip} = "1" ];then

sleep 1

now_vlan_ip=`etcdctl get /app/docker/now_vlan_ip`

new_vlan_ip=$(awk -v new_ip=`echo $now_vlan_ip|cut -d/ -f 1|awk -F'.' '{print $1"."$2"."$3+1"."$4}'` -v new_ip_netmask=`echo $now_vlan_ip|cut -d/ -f2` 'BEGIN{print new_ip"/"new_ip_netmask}')

ovs-vsctl add-port $bridge vlan${vlan_tag} tag=${vlan_tag} -- set interface vlan${vlan_tag} type=internal

ip link set vlan${vlan_tag} up

ip addr add ${new_vlan_ip} dev vlan${vlan_tag}

# ifconfig vlan${vlan_tag} ${new_vlan_ip}

etcdctl set /app/docker/now_vlan_ip ${new_vlan_ip} &>>/dev/null

etcdctl set /app/docker/${local_ip}/vlan${vlan_tag}/gateway ${new_vlan_ip} &>>/dev/null

etcdctl set /app/docker/${local_ip}/vlan${vlan_tag}/nowip ${new_vlan_ip} &>>/dev/null

new_vlan_gateway_ip=${new_vlan_ip}

#calculate new ip

sleep 1

now_container_ip=`etcdctl get /app/docker/${local_ip}/vlan${vlan_tag}/nowip`

echo "now container ip is:$now_container_ip"

new_container_ip=$(awk -v new_ip=`echo $now_container_ip|cut -d/ -f 1|awk -F'.' '{print $1"."$2"."$3"."$4+1}'` -v new_ip_netmask=`echo $now_container_ip|cut -d/ -f2` 'BEGIN{print new_ip"/"new_ip_netmask}')

etcdctl set /app/docker/${local_ip}/vlan${vlan_tag}/nowip $new_container_ip &>/dev/null

echo "finish calculate new ip!"

create_time=`date +"%Y-%m-%d %T"`

`which pipework` $bridge $container ${new_container_ip}@`echo ${new_vlan_gateway_ip}|awk -F '/' '{print $1}'` @${vlan_tag}

etcdctl set /app/docker/${local_ip}/vlan${vlan_tag}/container/${container} "{'Physics_ip':'${local_ip}','Container_name':'${container}','Container_ip':'${new_container_ip}','Container_vlan':'${vlan_tag}','Container_vlan_gateway':'${new_vlan_gateway_ip}','Container_create':'${create_time}','Container_status':'running'}"

注意：如果想使用本程序，客户端必须安装openvswitch、etcd与etcdctl、pipework。

监控容器并给自动重启设置ip程序脚本内容：

#!/usr/bin/env python

#author:Deng Lei

#email: dl528888@gmail.com

import sys

import nmap

import multiprocessing

import time

import socket, struct, fcntl

import etcd

import re

from docker import Client

import subprocess

def get_local_ip(iface = 'em1'):

sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)

sockfd = sock.fileno()

SIOCGIFADDR = 0x8915

ifreq = struct.pack('16sH14s', iface, socket.AF_INET, '\x00'*14)

try:

res = fcntl.ioctl(sockfd, SIOCGIFADDR, ifreq)

except:

return None

ip = struct.unpack('16sH2x4s8x', res)[2]

return socket.inet_ntoa(ip)

def get_etcd_info(key):

etcd_result=[]

r = etcd_client.read('%s%s'%(docker_etcd_key,local_ip), recursive=True, sorted=True)

for child in r.children:

if child.dir is not True and "Container_name" in child.value:

etcd_result.append(child.value)

return etcd_result

def check_by_nmap(ip,port):

check_result=len(nm.scan('%s'%ip,'%s'%port)['scan'])

if check_result == 0:

msg='%s'%(ip)

return msg

def docker_container_stop():

docker_container=docker_client.containers(all=True)

container_name=[]

container_stop_name=[]

for i in docker_container:

if re.match('Exited',i['Status']):

container_name.append(i['Names'])

for b in container_name:

for c in b:

container_stop_name.append(c)

return container_stop_name

def docker_container_all():

docker_container=docker_client.containers(all=True)

container_name=[]

container_stop_name=[]

for i in docker_container:

container_name.append(i['Names'])

for b in container_name:

for c in b:

container_stop_name.append(c)

return container_stop_name

if __name__ == "__main__":

nm = nmap.PortScanner()

etcd_client=etcd.Client(host='127.0.0.1', port=4001)

docker_client = Client(base_url='unix://var/run/docker.sock', version='1.15', timeout=10)

local_ip=get_local_ip('ovs1')

bridge='ovs2'

docker_etcd_key='/app/docker/'

port='22'

ip_list=[]

now_etcd_result=get_etcd_info(docker_etcd_key)

docker_container_stop_name=docker_container_stop()

docker_container_all_name=docker_container_all()

for i in range(len(now_etcd_result)):

now_info=eval(now_etcd_result[i])

key='%s%s/vlan%s/container/%s'%(docker_etcd_key,local_ip,now_info['Container_vlan'],now_info['Container_name'])

if '/'+now_info['Container_name'] not in docker_container_stop_name and now_info['Container_status'] != 'delete':

ip_list.append(eval(now_etcd_result[i])['Container_ip'].split('/')[0])

if now_info['Container_status'] == 'stop':

now_info['Container_status']='running'

etcd_client.write(key,now_info)

else:

now_info['Container_status']='stop'

etcd_client.write(key,now_info)

if '/'+now_info['Container_name'] not in docker_container_all_name:

print '%s %s will delete,because docker client had deleted!'%(time.strftime('%Y-%m-%d %T'),key)

now_info['Container_status']='delete'

etcd_client.write(key,now_info)

ip_list=list(set(ip_list))

if len(ip_list) == 1:

num=1

elif len(ip_list)>=4 and len(ip_list)<=8:

num=4

elif len(ip_list) >8 and len(ip_list)<=20:

num=8

else:

num=15

pool = multiprocessing.Pool(processes=num)

scan_result=[]

for i in ip_list:

pool.apply_async(check_by_nmap, (i,port, ))

scan_result.append(pool.apply_async(check_by_nmap, (i,port, )))

pool.close()

pool.join()

result=[]

for res in scan_result:

if res.get() is not None:

result.append(res.get())

result=list(set(result))

if len(result) <= 0:

print '%s Everything is all right!'%time.strftime('%Y-%m-%d %T')

sys.exit(1)

else:

print '%s container need modify container static ip is:%s'%(time.strftime('%Y-%m-%d %T'),result)

for i in range(len(now_etcd_result)):

now_info=eval(now_etcd_result[i])

if (now_info['Container_ip']).split('/')[0] in result:

modify_container=subprocess.Popen("`which pipework` %s %s %s@%s @%s &>>/dev/null && echo 0 || echo 1"%(bridge,now_info['Container_name'],now_info['Container_ip'],now_info['Container_vlan_gateway'].split('/')[0],now_info['Container_vlan']),shell=True,stdout=subprocess.PIPE)

if (modify_container.stdout.readlines()[0]).strip('\n') == 0:

print 'container_name:%s container_ip:%s modify static ip is fail!'%(now_info['Container_name'],now_info['Container_ip'])

else:

print 'container_name:%s container_ip:%s modify static ip is success!'%(now_info['Container_name'],now_info['Container_ip'])

注意：使用本脚本必须安装nmap、etcd、docker模块。

其中python里nmap的安装方法是

easy_install python-nmap

其中python里etcd的安装方法是

安装基础库

yum install libffi libffi-devel python-devel

安装程序

git clone https://github.com/jplana/python-etcd.git

cd python-etcd

python setup.py install

其中python里docker的安装方法是

easy_install docker-py

二、效果展示

需求：

创建主机test1、test2、test3、test4，需要test1与test2属于vlan100，test3与test4属于vlan300，架构图如下

ovs2

-----------------

| |

vlan100(tag100) vlan300(tag300)

| |

----------- ----------------------

| | | |

test1 test2 test3 test4

(tag100) (tag100) (tag300) (tag300)

下面是操作

1、创建ovs1、ovs2网桥，其中em1绑定到ovs1走内网，ovs2是容器的网络

ovs-vsctl add-br ovs1

ovs-vsctl add-br ovs2

ovs-vsctl add-port ovs1 em1

ip link set ovs1 up

ifconfig em1 0

ifconfig ovs1 10.10.17.3

2、创建test1、test2、test3、test4的容器

[root@docker-test3 ~]# sh create_docker_container_use_static_ip.sh test1 docker.ops-chukong.com:5000/centos6-http:new /usr/bin/supervisord 100

{'Physics_ip':'10.10.17.3','Container_name':'test1','Container_ip':'172.16.1.2/24','Container_vlan':'100','Container_vlan_gateway':'172.16.1.1/24','Container_create':'2015-03-02 14:59:59','Container_status':'running'}

[root@docker-test3 ~]# sh create_docker_container_use_static_ip.sh test2 docker.ops-chukong.com:5000/centos6-http:new /usr/bin/supervisord 100

{'Physics_ip':'10.10.17.3','Container_name':'test2','Container_ip':'172.16.1.3/24','Container_vlan':'100','Container_vlan_gateway':'172.16.1.1/24','Container_create':'2015-03-02 15:00:09','Container_status':'running'}

[root@docker-test3 ~]# sh create_docker_container_use_static_ip.sh test3 docker.ops-chukong.com:5000/centos6-http:new /usr/bin/supervisord 300

{'Physics_ip':'10.10.17.3','Container_name':'test3','Container_ip':'172.16.2.2/24','Container_vlan':'300','Container_vlan_gateway':'172.16.2.1/24','Container_create':'2015-03-02 15:00:22','Container_status':'running'}

[root@docker-test3 ~]# sh create_docker_container_use_static_ip.sh test4 docker.ops-chukong.com:5000/centos6-http:new /usr/bin/supervisord 300

{'Physics_ip':'10.10.17.3','Container_name':'test4','Container_ip':'172.16.2.3/24','Container_vlan':'300','Container_vlan_gateway':'172.16.2.1/24','Container_create':'2015-03-02 15:00:31','Container_status':'running'}

这个脚本第一个参数是创建的容器名，第二个参数是docker p_w_picpaths，第三个参数是运行命令，第四个参数是vlan。

下面是当前docker信息

[root@docker-test3 ~]# docker ps -a

CONTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES

386b4180b3d0 docker.ops-chukong.com:5000/centos6-http:new "/usr/bin/supervisor About a minute ago Up About a minute test4

92fee54ec498 docker.ops-chukong.com:5000/centos6-http:new "/usr/bin/supervisor About a minute ago Up About a minute test3

4dc84301894a docker.ops-chukong.com:5000/centos6-http:new "/usr/bin/supervisor About a minute ago Up About a minute test2

45d4a73c6ed0 docker.ops-chukong.com:5000/centos6-http:new "/usr/bin/supervisor 2 minutes ago Up 2 minutes test1

下面是openvswitch的信息

[root@docker-test3 ~]# ovs-vsctl show

d895d78b-8c89-49bc-b429-da6a4a2dcb3a

Bridge "ovs2"

Port "vlan300"

tag: 300

Interface "vlan300"

type: internal

Port "ovs2"

Interface "ovs2"

type: internal

Port "veth1pl11491"

tag: 100

Interface "veth1pl11491"

Port "veth1pl12003"

tag: 300

Interface "veth1pl12003"

Port "vlan100"

tag: 100

Interface "vlan100"

type: internal

Port "veth1pl12251"

tag: 300

Interface "veth1pl12251"

Port "veth1pl11788"

tag: 100

Interface "veth1pl11788"

Port "vlan1"

tag: 1

Interface "vlan1"

type: internal

Bridge "ovs1"

Port "em1"

Interface "em1"

Port "ovs1"

Interface "ovs1"

type: internal

ovs_version: "2.3.1"

下面是etcd的信息

[root@docker-test3 ~]# etcdctl ls / --recursive|grep docker|grep "10.10.17.3/"

/app/docker/ip/vlan/10.10.17.3/gate_way

/app/docker/ip/vlan/10.10.17.3/now_ip

/app/docker/10.10.17.3/vlan300

/app/docker/10.10.17.3/vlan300/container

/app/docker/10.10.17.3/vlan300/container/test3

/app/docker/10.10.17.3/vlan300/container/test4

/app/docker/10.10.17.3/vlan300/gateway

/app/docker/10.10.17.3/vlan300/nowip

/app/docker/10.10.17.3/vlan1

/app/docker/10.10.17.3/vlan1/gateway

/app/docker/10.10.17.3/vlan1/nowip

/app/docker/10.10.17.3/vlan100

/app/docker/10.10.17.3/vlan100/gateway

/app/docker/10.10.17.3/vlan100/nowip

/app/docker/10.10.17.3/vlan100/container

/app/docker/10.10.17.3/vlan100/container/test1

/app/docker/10.10.17.3/vlan100/container/test2

查看test1的信息

[root@docker-test3 ~]# etcdctl get /app/docker/10.10.17.3/vlan100/container/test1

跟创建容器的信息一样

进入容器，然后查看设置ip情况

[root@docker-test3 ~]# docker exec test1 ifconfig eth1|grep "inet addr"

inet addr:172.16.1.2 Bcast:0.0.0.0 Mask:255.255.255.0

[root@docker-test3 ~]# docker exec test2 ifconfig eth1|grep "inet addr"

inet addr:172.16.1.3 Bcast:0.0.0.0 Mask:255.255.255.0

[root@docker-test3 ~]# docker exec test3 ifconfig eth1|grep "inet addr"

inet addr:172.16.2.2 Bcast:0.0.0.0 Mask:255.255.255.0

[root@docker-test3 ~]# docker exec test4 ifconfig eth1|grep "inet addr"

inet addr:172.16.2.3 Bcast:0.0.0.0 Mask:255.255.255.0

可以看到ip都是之前设置的

然后在test1里ping外网与test2

[root@docker-test3 ~]# docker exec test1 ping -c1 www.baidu.com

PING www.a.shifen.com (180.149.131.205) 56(84) bytes of data.

64 bytes from 180.149.131.205: icmp_seq=1 ttl=54 time=1.94 ms

--- www.a.shifen.com ping statistics ---

1 packets transmitted, 1 received, 0% packet loss, time 12ms

rtt min/avg/max/mdev = 1.948/1.948/1.948/0.000 ms

[root@docker-test3 ~]# docker exec test1 ping -c1 172.16.1.3

PING 172.16.1.3 (172.16.1.3) 56(84) bytes of data.

64 bytes from 172.16.1.3: icmp_seq=1 ttl=64 time=0.431 ms

--- 172.16.1.3 ping statistics ---

1 packets transmitted, 1 received, 0% packet loss, time 0ms

rtt min/avg/max/mdev = 0.431/0.431/0.431/0.000 ms

可以看到都是通的

在从test3里ping外网与test4

[root@docker-test3 ~]# docker exec test3 ping -c1 www.baidu.com

PING www.a.shifen.com (180.149.131.236) 56(84) bytes of data.

64 bytes from 180.149.131.236: icmp_seq=1 ttl=54 time=2.19 ms

--- www.a.shifen.com ping statistics ---

1 packets transmitted, 1 received, 0% packet loss, time 12ms

rtt min/avg/max/mdev = 2.197/2.197/2.197/0.000 ms

[root@docker-test3 ~]# docker exec test3 ping -c1 172.16.2.3

PING 172.16.2.3 (172.16.2.3) 56(84) bytes of data.

64 bytes from 172.16.2.3: icmp_seq=1 ttl=64 time=0.504 ms

--- 172.16.2.3 ping statistics ---

1 packets transmitted, 1 received, 0% packet loss, time 0ms

rtt min/avg/max/mdev = 0.504/0.504/0.504/0.000 ms

也是通的

3、关闭test1并测试

[root@docker-test3 ~]# docker stop test1

test1

[root@docker-test3 ~]# docker ps -a

CONTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES

386b4180b3d0 docker.ops-chukong.com:5000/centos6-http:new "/usr/bin/supervisor 12 minutes ago Up 12 minutes test4

92fee54ec498 docker.ops-chukong.com:5000/centos6-http:new "/usr/bin/supervisor 12 minutes ago Up 12 minutes test3

4dc84301894a docker.ops-chukong.com:5000/centos6-http:new "/usr/bin/supervisor 12 minutes ago Up 12 minutes test2

45d4a73c6ed0 docker.ops-chukong.com:5000/centos6-http:new "/usr/bin/supervisor 12 minutes ago Exited (0) 2 seconds ago test1

[root@docker-test3 ~]# ping -c2 172.16.1.2

PING 172.16.1.2 (172.16.1.2) 56(84) bytes of data.

--- 172.16.1.2 ping statistics ---

2 packets transmitted, 0 received, 100% packet loss, time 999ms

可以看到test1关闭了，给予的ip也不能通了，下面启动容器，然后使用我自动检测与重新设置容器ip

[root@docker-test3 ~]# docker start test1

test1

[root@docker-test3 ~]# docker ps -a

CONTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES

386b4180b3d0 docker.ops-chukong.com:5000/centos6-http:new "/usr/bin/supervisor 13 minutes ago Up 13 minutes test4

92fee54ec498 docker.ops-chukong.com:5000/centos6-http:new "/usr/bin/supervisor 13 minutes ago Up 13 minutes test3

4dc84301894a docker.ops-chukong.com:5000/centos6-http:new "/usr/bin/supervisor 13 minutes ago Up 13 minutes test2

45d4a73c6ed0 docker.ops-chukong.com:5000/centos6-http:new "/usr/bin/supervisor 13 minutes ago Up 2 seconds test1

[root@docker-test3 ~]# python auto_check_modify_container.py

2015-03-02 15:14:03 container need modify container static ip is:['172.16.1.2']

container_name:test1 container_ip:172.16.1.2/24 modify static ip is success!

可以看到启动容器后，程序自动搜集之前的ip信息，并重新配置了

在test1里测试

[root@docker-test3 ~]# docker exec test1 ifconfig eth1|grep "inet addr"

inet addr:172.16.1.2 Bcast:0.0.0.0 Mask:255.255.255.0

[root@docker-test3 ~]# docker exec test1 ping -c1 www.baidu.com

PING www.a.shifen.com (180.149.131.236) 56(84) bytes of data.

64 bytes from 180.149.131.236: icmp_seq=1 ttl=54 time=2.18 ms

--- www.a.shifen.com ping statistics ---

1 packets transmitted, 1 received, 0% packet loss, time 12ms

rtt min/avg/max/mdev = 2.183/2.183/2.183/0.000 ms

[root@docker-test3 ~]# docker exec test1 ping -c1 172.16.1.3

PING 172.16.1.3 (172.16.1.3) 56(84) bytes of data.

64 bytes from 172.16.1.3: icmp_seq=1 ttl=64 time=0.382 ms

--- 172.16.1.3 ping statistics ---

1 packets transmitted, 1 received, 0% packet loss, time 0ms

rtt min/avg/max/mdev = 0.382/0.382/0.382/0.000 ms

测试都没有问题

大家以后使用的时候，可以先使用我的程序创建容器，然后把检测程序放到crontab里，每分钟自动运行，这样就能实现持久化固定ip。

docker持久化固定ipdocker固定ipdocker配置ip运维自动化专题