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Keepalived+Haproxy双主高可用负载均衡代理动静分离web服务器

实验目的:

1.Haproxy+Keepalived双主双机高可用模型,keepalived为Haproxy主从提供高可用保证haproxy-master若挂掉haproxy-backup能无缝接管,haproxy为后端Web提供负载均衡,缓解并发压力,实现WEB站点负载均衡+高可用性;

2. Haproxy反代web做动静分离;

3. Haproxy反代mysql 算法leastconn和roundrobin的不同效果;

系统环境:

OS:centos6.4 X64

apache: httpd-2.2.15-26.el6.centos.x86_64

haproxy: haproxy-1.4.22-3.el6.x86_64

keepalived:keepalived-1.2.7

基础配置:

实验步骤:因为都是双机配置,重复内容合并

1.1、配置后端web1,web2按IP修改

[root@web1 ~]# hostname web1

[root@web1 ~]# ifconfig eth0 172.16.100.13/24 up

[root@web1 ~]# route add default gw 172.16.100.254

[root@web1 ~]# route -n

[root@web1 ~]# yum -y install httpd

[root@web1 ~]# echo '<h1>web1.example.com</h1>' > /var/www/html/index.html

[root@web1 ~]# service httpd start

[root@web1 ~]# curl http://172.16.100.13

1.2、安装php

[root@web1 ~]# yum -y install php

[root@ web1 ~]# cd /var/www/html/

[root@ web1 html]# cp index.html index.php

[root@web1 html]# cat >> index.php <<EOF

<?php

phpinfo();

?>

EOF

[root@web1 html]# service httpd restart

2、配置Haproxy反向代理

[root@station11 ~]# hostname ha1

[root@ha1 ~]# ifconfig eth0 192.168.1.11/24 up

[root@ha1 ~]# ifconfig eth1 172.16.100.254/24 up

[root@ha1 ~]# route add default gw 192.168.1.1

[root@ha1 ~]# sed -i '/net.ipv4.ip_forward/ s/\(.*= \).*/\11/' /etc/sysctl.conf#打开转发功能

net.ipv4.ip_forward = 1

[root@ha1 ~]# yum -y install haproxy

[root@ha1 ~]# cd /etc/haproxy/

[root@ha1 haproxy]# cp haproxy.cfg haproxy.cfg.bak

用rsyslog的理由:

1.防止系统崩溃无法获取系统日志分享崩溃原因,用rsyslog可以把日志传输到远程的日志服务器上

2.使用rsyslog日志可以减轻系统压力,因为使用rsyslog可以有效减轻系统的磁盘IO

3.rsyslog使用tcp传输非常可靠,可以对日志进行过滤,提取出有效的日志,rsyslog是轻量级的日志软件,在大量日志写的情况下,系统负载基本上在0.1以下

[root@ha1 haproxy]# yum -y install rsyslog

[root@ ha1 haproxy ~]# vim /etc/rsyslog.conf

启用接受远程日志功能

去注释

# Provides UDP syslog reception

$ModLoad imudp

$UDPServerRun 514 基于UDP接收日志请求

rsyslog默认会把如下信息发往

*.info;mail.none;authpriv.none;cron.none; /var/log/messages

修改上行为下行,添加local2.none不记录到

*.info;mail.none;authpriv.none;cron.none;local2.none; /var/log/messages

添加一行,日志记录到

local2.* /var/log/haproxy.log

重启服务

[root@ha1 haproxy]# service rsyslog restart

3、双机公共设置ha1与ha2相同设置

[root@ha1 haproxy]# vim haproxy.cfg

global

log 127.0.0.1 local2 #以日志服务器形式发往本机地址,设施名local2

chroot /var/lib/haproxy #haproxy工作目录切换到假根目录,这里默认

pidfile /var/run/haproxy.pid

maxconn 4000 #每个haproxy单进程所接受的最大并发连接数

user haproxy

group haproxy

daemon #haproxy以守护进程的方式工作于后台

stats socket /var/lib/haproxy/stats #统计数据保存位置

defaults

mode http #指定frontend和backend工作模式{tcp|http|health},代理后端web站点用http模式

log global #日志使用全局中定义的日志参数

option httplog #启用http的log,启用对http请求会话计时捕获到cookie的日志,默认原格式简陋,后面还可跟参数[clf] clf格式

option dontlognull #不记录空信息,保证HAProxy不记录上级负载均衡发送过来的用于检测状态没有数据的心跳包。

option http-server-close #启用http连接在服务器端关闭功能,支持客户端一侧长连接

option forwardfor except 127.0.0.0/8 # forwardfor将用户请求转发后端服时,在HTTP请求报文中添加"X-Forwarded-For"特殊首部,以便后端服记录真实发起请求的客户端IP地址,而不是代理服务器内网卡地址。

option redispatch #当原分配用户请求的后端服故障时,允许把用户请求重新分发给其他后端服

option abortonclose #当Haproxy服务器负载很高的时候,自动结束掉当前队列处理比较久的连接

retries 3 #对后端服连接失败后的重连次数

timeout http-request 10s #http请求超时时间10秒

timeout queue 1m #后端有多个服务器,当每个后端服务器都达到最大连接上限,haproxy等待发送到对应后端服务器的队列已满或请求已入列但未处理的超时时间1分种

timeout connect 10s #haproxy向后端服务器请求建立连接的超时时间

timeout client 1m #发起连接请求的前端客户端连接处于非活动态的最大超时时间,过时断开,相当于Apache的timeout keepalive

timeout server 1m #服务器端连接处于非活动态的最大超时时间

timeout http-keep-alive 10s #长连接超时时间

timeout check 10s #做健康状态检测的超时时间

maxconn 3000 #最大连接数

listen stats

mode http

bind *:8080 #绑定在特殊端口8080

stats enable #启动status管理界面

stats hide-version #status隐藏haproxy版本信息

stats uri /haproxyadmin?stats #status访问路径

stats realm Haproxy\ Statistics #status登陆验证信息

stats auth admin:admin #status页面登陆用户名或密码

stats admin if TRUE #通过验证才能管理后端,必须加判断条件,否则语法错误

frontend webservers

bind *:80

mode http

log global

option httpclose #每次请求完毕后主动关闭http通道

option logasap #传输大文件时可以提前记录日志

option dontlognull #不记录空信息,保证HAProxy不记录上级负载均衡发送过来的用于检测状态没有数据的心跳包

#################HAProxy的日志记录内容设置###################

capture request header Host len 20 #只记录Host这首部值的前20字节

capture request header X-Forwarded-For len 15 #记录发起请求客户端的IP地址,IP地址一般就15个字节。

capture request header Referer len 60 #Referrer记录点击链接时所在页面的引用位置

################url_static配合if使用实现动静分离#########################

acl url_static path_beg -i /static /p_w_picpaths /javascript /stylesheets #path_begin路径以XX开头,-i忽略大小写

acl url_static path_end -i .html .jpg .jpeg .gif .png .css .js #path_end路径以XX结尾,同名acl逻辑或关系

use_backend static_servs if url_static #满足ACL url_static 使用backend static_servs

default_backend dynamic_servs

#调度算法动静区别在于调整配置文件haproxy.cfg,动态调整reload生效,静态调整restart生效

#轮调平均分配访问到后端服,访问动态页面需要保持会话因此source consistent源地址一致性hash算法把来自于同一客户端请求始终转发于同一台后端服

backend static_servs

balance roundrobin #动态轮调

server static1 172.16.100.13:80 check maxconn 6000 #此处server名static1是后端服别名,关键是IP地址

server static2 172.16.100.14:80 check maxconn 6000

backend dynamic_servs

balance source #对源IP地址进行哈希,hash-type决定动态静态

hash-type consistent #hash类型 map-based图位静态 consistent-hash一致性hash动态

server dynamic1 172.16.100.13:80 check maxconn 1000 #根据服务器内容自定义最大连接数

server dynamic2 172.16.100.14:80 check maxconn 1000

在web1,web2服务器配置中日志格式添加"X-Forwarded-For"特殊首部,以便后端服务器记录真实发起请求的客户端IP地址

[root@web1 ~]# vim /etc/httpd/conf/httpd.conf

搜LogFormat 第一个字节段插入%{X-Forwarded-For}i

LogFormat "%{X-Forwarded-For}i %h %l %u %t \"%r\" %>s %b \"%{Referer}i\" \"%{User-Agent}i\"" combined

[root@web1 ~]# sed -i '/^LogFormat.*combined/ s#"#"\%{X-Forwarded-For}\i#' /etc/httpd/conf/httpd.conf

[root@web1 html]# service httpd restart

[root@web2 html]# service httpd restart

3、验证静态页面的负载均衡,动态页面长连接保持于同一后端服务器,动静分离。

Haproxy反代日志会详细显示前端客户端IP,Haproxy反代IP,根据动静分离ACL选择不同后端服务器,GET到不同页面。后端upstream服务器别名

[root@ha1 haproxy]# tail /var/log/haproxy.log

May 4 01:15:25 localhost haproxy[1819]: 192.168.1.108:50854 [04/May/2014:01:15:25.571] webservers dynamic_servs/dynamic2 24/0/1/2/+27 200 +177 - - ---- 2/2/2/2/0 0/0 {192.168.1.11||http://192.168.1.11/} "GET /index.php?=PHPE9568F34-D428-11d2-A769-00AA001ACF42 HTTP/1.1"

May 4 01:15:25 localhost haproxy[1819]: 192.168.1.108:50855 [04/May/2014:01:15:25.572] webservers dynamic_servs/dynamic2 25/0/0/2/+27 200 +177 - - ---- 1/1/1/1/0 0/0 {192.168.1.11||http://192.168.1.11/} "GET /index.php?=PHPE9568F35-D428-11d2-A769-00AA001ACF42 HTTP/1.1"

May 4 01:15:28 localhost haproxy[1819]: 192.168.1.108:50856 [04/May/2014:01:15:28.552] webservers static_servs/static1 5/0/1/1/+7 304 +147 - - ---- 3/3/1/1/0 0/0 {192.168.1.11||} "GET /index.html HTTP/1.1"

May 4 01:15:29 localhost haproxy[1819]: 192.168.1.108:50857 [04/May/2014:01:15:28.556] webservers static_servs/static2 799/0/1/1/+801 200 +265 - - ---- 2/2/1/1/0 0/0 {192.168.1.11||} "GET /index.html HTTP/1.1"

[root@ha2 haproxy]# tail /var/log/haproxy.log

May 4 01:38:30 localhost haproxy[1733]: 192.168.1.108:51208 [04/May/2014:01:38:30.436] webservers dynamic_servs/dynamic2 24/0/0/4/+28 200 +177 - - ---- 2/2/2/2/0 0/0 {192.168.1.12||http://192.168.1.12/} "GET /index.php?=PHPE9568F34-D428-11d2-A769-00AA001ACF42 HTTP/1.1"

May 4 01:38:30 localhost haproxy[1733]: 192.168.1.108:51209 [04/May/2014:01:38:30.436] webservers dynamic_servs/dynamic2 24/0/0/4/+28 200 +177 - - ---- 2/2/2/1/0 0/0 {192.168.1.12||http://192.168.1.12/} "GET /index.php?=PHPE9568F35-D428-11d2-A769-00AA001ACF42 HTTP/1.1"

May 4 01:39:04 localhost haproxy[1733]: 192.168.1.108:51219 [04/May/2014:01:39:04.178] webservers static_servs/static1 88/0/1/1/+90 200 +265 - - ---- 3/3/1/1/0 0/0 {192.168.1.12||} "GET /index.html HTTP/1.1"

May 4 01:39:38 localhost haproxy[1733]: 192.168.1.108:51229 [04/May/2014:01:39:38.161] webservers static_servs/static2 8/0/2/0/+10 200 +265 - - ---- 3/3/1/1/0 0/0 {192.168.1.12||} "GET /index.html HTTP/1.1"

各个后端服务器日志记录前端客户端IP,Haproxy反代内网卡(内网关)IP,Get到不同页面,动态页面还有haproxy反代外网卡IP

[root@web1 ~]# tail /var/log/httpd/access_log

192.168.1.108172.16.100.254 - - [04/May/2014:01:14:01 +0800] "GET /index.html HTTP/1.1" 304 - "-"

[root@web2 ~]# tail /var/log/httpd/access_log

192.168.1.108172.16.100.253 - - [04/May/2014:01:38:29 +0800] "GET /index.php?=PHPE9568F34-D428-11d2-A769-00AA001ACF42 HTTP/1.1" 200 2524 "http://192.168.1.12/"

192.168.1.108172.16.100.253 - - [04/May/2014:01:38:29 +0800] "GET /index.php?=PHPE9568F35-D428-11d2-A769-00AA001ACF42 HTTP/1.1" 200 2146 "http://192.168.1.12/"

配置keepalived主从服务器,主从相同实例高低相反

[root@ha1 ~]# yum -y install keepalived

[root@ha1 ~]# cp /etc/keepalived/keepalived.conf /etc/keepalived/keepalived.conf.bak

192.168.1.11 keepalived主节点配置

[root@ha1 ~]# vim /etc/keepalived/keepalived.conf

global_defs {

notification_email { #keepalived切换时发送到对象,一行一个

root@localhost

notification_email_from keepadmin@localhost #发件人

smtp_connect_timeout 3 #指定smtp超时时间

smtp_server 127.0.0.1 #指定smtp服务器地址

router_id LVS_DEVEL #VRRP组名,同属一组的两节点必须设置一样

vrrp_script chk_haproxy {

script "killall -0 haproxy"

interval 2 #脚本执行间隔时间

weight 2 #脚本结果导致的优先级变更:2表示优先级+2;-2则表示优先级-2

vrrp_instance VI_1 {

interface eth0 #绑定VIP的网卡

state MASTER #设置主节点MASTER

priority 100 #主节点优先级(1-254),主一定要比备优先级高

virtual_router_id 173 #设置VRID,两节点必须一致

garp_master_delay 1 #主从切换时间秒

authentication {

auth_type PASS #验证类型

auth_pass 1111 #验证密码

track_interface { #设置额外的监控,里面那个网卡出现问题都会切换

eth0

virtual_ipaddress {

192.168.1.88/24 dev eth0 #设置VIP,两节点必须一致

track_script {

chk_haproxy #脚本跟踪监测

vrrp_instance VI_2 {

interface eth0 #绑定VIP的网卡

state BACKUP #设置备节点BACKUP

priority 99 #备节点优先级(1-254),主一定要比备优先级高

virtual_router_id 174 #设置VRID,两节点必须一致

garp_master_delay 1 #主从切换时间秒

authentication {

auth_type PASS #验证类型

auth_pass 11111 #验证密码

track_interface { #设置额外的监控,里面那个网卡出现问题都会切换

eth0

virtual_ipaddress {

192.168.1.188/24 dev eth0 #设置VIP,两节点必须一致

[root@ha1 keepalived]# service keepalived start

[root@ha2 keepalived]# vim keepalived.conf

global_defs {

notification_email {

root@localhost

notification_email_from keepadmin@localhost

smtp_connect_timeout 3

smtp_server 127.0.0.1

router_id LVS_DEVEL

vrrp_script chk_haproxy {

script "killall -0 haproxy"

interval 2

weight 2 #脚本结果导致的优先级变更:2表示优先级+2;-2则表示优先级-2

vrrp_instance VI_1 {

interface eth0 #绑定VIP的网卡

state BACKUP #设置备节点

priority 99 #备节点优先级(1-254),主一定要比备优先级高

virtual_router_id 173 #设置VRID,两节点必须一致

garp_master_delay 1 #主从切换时间秒

authentication {

auth_type PASS

auth_pass 1111

track_interface {

eth0

virtual_ipaddress {

192.168.1.88/24 dev eth0

track_script {

chk_haproxy

vrrp_instance VI_2 {

interface eth0

state MASTER

priority 100

virtual_router_id 174

garp_master_delay 1

authentication {

auth_type PASS

auth_pass 11111

track_interface {

eth0

virtual_ipaddress {

192.168.1.188/24 dev eth0

[root@ha2 keepalived]# service keepalived start

[root@ha1 ~]# ip addr | grep eth0

2: eth0: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc pfifo_fast state UP qlen 1000

inet 192.168.1.11/24 brd 192.168.1.255 scope global eth0

inet 192.168.1.88/24 scope global secondary eth0

[root@ha2 ~]# ip addr | grep eth0

2: eth0: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc pfifo_fast state UP qlen 1000

inet 192.168.1.12/24 brd 192.168.1.255 scope global eth0

inet 192.168.1.188/24 scope global secondary eth0

[root@ha1 ~]# tail /var/log/messages

May 4 04:49:26 station11 Keepalived_vrrp[3973]: VRRP_Instance(VI_1) Transition to MASTER STATE

May 4 04:49:27 station11 Keepalived_vrrp[3973]: VRRP_Instance(VI_1) Entering MASTER STATE

May 4 04:49:35 station11 Keepalived_vrrp[3973]: VRRP_Instance(VI_2) Entering BACKUP STATE

[root@ha2 ~]# tail /var/log/messages

May 4 04:49:35 station12 Keepalived_vrrp[3594]: VRRP_Instance(VI_1) Entering BACKUP STATE

May 4 04:49:35 station12 Keepalived_vrrp[3594]: VRRP_Instance(VI_2) Transition to MASTER STATE

May 4 04:49:36 station12 Keepalived_vrrp[3594]: VRRP_Instance(VI_2) Entering MASTER STATE

停止ha1服务器haproxy服务,keepalived进行重新选举,ha2提升VI_1从备到主,VIP切换到备用服务器

[root@ha1 ~]# service haproxy stop

[root@ha2 ~]# tail /var/log/messages

May 4 04:56:00 station12 Keepalived_vrrp[3594]: VRRP_Instance(VI_1) forcing a new MASTER election

May 4 04:56:01 station12 Keepalived_vrrp[3594]: VRRP_Instance(VI_1) Transition to MASTER STATE

May 4 04:56:02 station12 Keepalived_vrrp[3594]: VRRP_Instance(VI_1) Entering MASTER STATE

[root@ha1 ~]# ip addr | grep eth0

2: eth0: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc pfifo_fast state UP qlen 1000

inet 192.168.1.11/24 brd 192.168.1.255 scope global eth0

VIP偏移到Keepalived backup机上

[root@ha2 ~]# ip addr | grep eth0

2: eth0: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc pfifo_fast state UP qlen 1000

inet 192.168.1.12/24 brd 192.168.1.255 scope global eth0

inet 192.168.1.188/24 scope global secondary eth0

inet 192.168.1.88/24 scope global secondary eth0

启动ha1服务器haproxy服务,VIP重新切换回主服务器

[root@ha1 ~]# service haproxy start

[root@ha1 ~]# ip addr | grep eth0

2: eth0: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc pfifo_fast state UP qlen 1000

inet 192.168.1.11/24 brd 192.168.1.255 scope global eth0

inet 192.168.1.88/24 scope global secondary eth0

[root@ha2 ~]# ip addr | grep eth0

2: eth0: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc pfifo_fast state UP qlen 1000

inet 192.168.1.12/24 brd 192.168.1.255 scope global eth0

inet 192.168.1.188/24 scope global secondary eth0

[root@ha1 ~]# tail /var/log/messages

May 4 05:07:41 ha1 Keepalived_vrrp[3973]: VRRP_Instance(VI_1) forcing a new MASTER election

May 4 05:07:42 ha1 Keepalived_vrrp[3973]: VRRP_Instance(VI_1) Transition to MASTER STATE

May 4 05:07:43 ha1 Keepalived_vrrp[3973]: VRRP_Instance(VI_1) Entering MASTER STATE

[root@ha2 ~]# tail /var/log/messages

May 4 05:07:41 station12 Keepalived_vrrp[3594]: VRRP_Instance(VI_1) Entering BACKUP STATE

3、反代mysql 算法leastconn和roundrobin的不同效果?

[root@web1 ~]# yum -y install mysql mysql-server mysql-devel

[root@web1 ~]# service mysqld start

[root@web1 ~]# mysqladmin -u root password redhat

[root@web1 ~]# mysql -uroot -predhat

mysql> USE mysql;

mysql> INSERT INTO user (Host,User) values ('172.16.100.254','mysqlchecker');

##INSERT INTO user (Host,User) values ('<ip_of_haproxy>','<username>');

mysql> grant select on *.* to mysqlchecker@'172.16.100.254' identified by 'redhat';

mysql> flush privileges;

station14相同

[root@ha1 haproxy]# vim haproxy.cfg

defaults

#option httplog

#option http-server-close

#option forwardfor except 127.0.0.0/8

listen mysqlservers

mode tcp #模式 TCP

bind *:3306 #代理端口

balance roundrobin 轮调算法

option mysql-check user mysqlchecker #mysql健康检查 mysqlchecker为mysql登录用户名

server myserv1 172.16.100.13:3306 check inter 1500 rise 3 fall 3 weight 1

server myserv2 172.16.100.14:3306 check inter 1500 rise 3 fall 3 weight 1

#服务器定义:check inter 1500是检测心跳频率,rise 3是3次正确认为服务器可用,fall 3是3次失败认为服务器不可用,weight代表权重

[root@ha1 haproxy]# service haproxy reload

[root@ha2 ~]# mysql -umysqlchecker -h192.168.1.11

mysql> select @@hostname;

| station14.example.com |

[root@ha2 ~]# mysql -umysqlchecker -h192.168.1.11

mysql> select @@hostname;

| station13.example.com |

[root@ha1 haproxy]# vim haproxy.cfg

balance leastconn 修改算法为最少连接数,只考虑活动连接数,哪个后端服务器的连接最少就调度到哪台。

[root@ha1 haproxy]# service haproxy reload

用tcpdump捕捉来自不同源ip的tcp请求

[root@web1 ~]# tcpdump -i eth0 -s 0 -l -w out.log dst port 3306 | strings

[root@web2 ~]# tcpdump -i eth0 -s 0 -l -w out.log dst port 3306 | strings

使用不同客户端访问,

[root@station21 ~]# mysql -umysqlchecker -h192.168.1.11 -e "select @@hostname;"

| station13.example.com |

在每个客户端执行命令后立刻在对应mysql端运行如下命令

[root@web1 ~]# strings out.log | grep -i 'select @@hostmame'| wc -l

[root@station22 ~]# mysql -umysqlchecker -h192.168.1.11 -e "select @@hostname;"

| station14.example.com |

[root@web2 ~]# strings out.log | grep -i 'select @@hostmame'| wc -l

[root@station23 ~]# mysql -umysqlchecker -h192.168.1.11 -e "select @@hostname;"

| station13.example.com |

[root@web1 ~]# strings out.log | grep -i 'select @@hostmame'| wc -l

[root@station24 ~]# mysql -umysqlchecker -h192.168.1.11 -e "select @@hostname;"

| station13.example.com |

[root@web1 ~]# strings out.log | grep -i 'select @@hostmame'| wc -l

[root@station25 ~]# mysql -umysqlchecker -h192.168.1.11 -e "select @@hostname;"

| station14.example.com |

[root@web2 ~]# strings out.log | grep -i 'select @@hostmame'| wc -l

[root@station26 ~]# mysql -umysqlchecker -h192.168.1.11 -e "select @@hostname;"

| station14.example.com |

[root@web2 ~]# strings out.log | grep -i 'select @@hostmame'| wc -l

会得到执行语句当时的递增次数,最少连接算法会把连接请求调度到当时活动连接最少的那台服务器。

原文链接:https://blog.csdn.net/weixin_34315485/article/details/91822952

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