Nginx+keepalived双主负载均衡架构
Nginx+keepalived双主负载均衡架构抚琴煮酒
在和一些朋友交流Nginx+Keepalived技术时,我虽然已成功多次实Nginx+Keepaived项目方案,但这些都是用的单主Nginx在工作,从Nginx长期只是处于备份状态,所以我们想将二台Nginx负载均衡器都处于工作状态,其实用Nginx+Keepalived也很容易实现。此方法适用场景:适合中小型网站应用场景。
一般为了维护方便,企业网站的服务器都在自己的内部机房里,只开放了Keepalived的VIP地址的两个端口80、443,通过Juniper SSG550防火墙映射出去,外网DNS对应映射后的公网IP。此架构的防火墙及网络安全说明如下:
此系统架构仅映射内网VIP的80及443端口于外网的Juniper SSG550防火墙下,其他端口均关闭,内网所有机器均关闭iptables防火墙;外网DNS指向即通过Juniper SSG550映射出来的外网地址。
Nginx负载均衡作服务器遇到的故障一般有:1.服务器网线松动等网络故障;2.服务器硬件故障发生损坏现象而crash;3.Nginx服务进程死掉(这种情况理论上会遇到,但事实上生产环境下的Linux服务器没有出现过这种情况,足以证明了Nginx作为负载均衡器/反向代理服务器的稳定性,我们可以通过技术手段来解决这一问题)。
测试实验环境:主Nginx之一:192.168.1.5主Nginx之二:192.168.1.6Web服务器一:192.168.1.17Web服务器二:192.168.1.18VIP地址一:192.168.1.8VIP地址二:192.168.1.9
一、Nginx和Keepalived的安装比较简单,我这里就不重复了,大家可以参考我的专题系列的文章,如下地址http://network.iyunv.com/art/201007/209823.htm,我这里附上Nginx.conf配置文件,如下所示:
[*]user www www;
[*] worker_processes 8;
[*] pid /usr/local/nginx/logs/nginx.pid;
[*] worker_rlimit_nofile 51200;
[*] events
[*] {
[*] use epoll;
[*] worker_connections 51200;
[*] }
[*] http{
[*] include mime.types;
[*] default_type application/octet-stream;
[*] server_names_hash_bucket_size 128;
[*] client_header_buffer_size 32k;
[*] large_client_header_buffers 4 32k;
[*] client_max_body_size 8m;
[*] sendfile on;
[*] tcp_nopush on;
[*] keepalive_timeout 60;
[*] tcp_nodelay on;
[*] fastcgi_connect_timeout 300;
[*] fastcgi_send_timeout 300;
[*] fastcgi_read_timeout 300;
[*] fastcgi_buffer_size 64k;
[*] fastcgi_buffers 4 64k;
[*] fastcgi_busy_buffers_size 128k;
[*] fastcgi_temp_file_write_size 128k;
[*] gzip on;
[*] gzip_min_length 1k;
[*] gzip_buffers 4 16k;
[*] gzip_http_version 1.0;
[*] gzip_comp_level 2;
[*] gzip_types text/plain application/x-javascript text/css application/xml;
[*] gzip_vary on;
[*]
[*] upstream backend
[*] {
[*] ip_hash;
[*] server 192.168.1.17:80;
[*] server 192.168.1.18:80;
[*] }
[*] server {
[*] listen 80;
[*] server_name www.1paituan.com;
[*] location / {
[*] root /var/www/html ;
[*] index index.php index.htm index.html;
[*] proxy_redirect off;
[*] proxy_set_header Host $host;
[*] proxy_set_header X-Real-IP $remote_addr;
[*] proxy_set_header X-Forwarded-For $proxy_add_x_forwarded_for;
[*] proxy_pass http://backend;
[*] }
[*]
[*] location /nginx {
[*] access_log off;
[*] auth_basic "NginxStatus";
[*] #auth_basic_user_file /usr/local/nginx/htpasswd;
[*] }
[*]
[*] log_format access '$remote_addr - $remote_user [$time_local] "$request" '
[*] '$status $body_bytes_sent "$http_referer" '
[*] '"$http_user_agent" $http_x_forwarded_for';
[*] access_log /data/logs/access.log access;
[*] }
复制代码二、配置Keepalived文件,我这里简单说下原理,其实也就是通过Keepalived生成二个实例,二台Nginx互为备份,即第一台是第二台机器的备机,而第二台机器也是第一台的备机,而生成的二个VIP地址分别对应我们网站http://www.1paituan.com,这样大家在公网上可以通过DNS轮询来访问得到我们的网站,任何一台Nginx机器如果发生硬件损坏,Keepalived会自动将它的VIP地址切换到另一台机器,不影响客户端的访问,这个跟我们以前的LVS+Keepalived多实例的原理是一样的,相信大家也能明白。
主Nginx机器之一的Keepalived.conf配置文件如下:
[*]! Configuration File for keepalived
[*]global_defs {
[*] notification_email {
[*] yuhongchun027@163.com
[*] }
[*] notification_email_from keepalived@chtopnet.com
[*] smtp_server 127.0.0.1
[*] smtp_connect_timeout 30
[*] router_id LVS_DEVEL
[*]}
[*]vrrp_instance VI_1 {
[*] state MASTER
[*] interface eth0
[*] virtual_router_id 51
[*] priority 100
[*] advert_int 1
[*] authentication {
[*] auth_type PASS
[*] auth_pass 1paituan.com
[*] }
[*] virtual_ipaddress {
[*] 192.168.1.8
[*] }
[*]}
[*]vrrp_instance VI_2 {
[*] state BACKUP
[*] interface eth0
[*] virtual_router_id 52
[*] priority 99
[*] advert_int 1
[*] authentication {
[*] auth_type PASS
[*] auth_pass 1paituan.com
[*] }
[*] virtual_ipaddress {
[*] 192.168.1.9
[*] }
[*]}
复制代码主Nginx之二的keepalivd.conf配置文件如下:
[*]! Configuration File for keepalived
[*]global_defs {
[*] notification_email {
[*] yuhongchun027@163.com
[*] }
[*] notification_email_from keepalived@chtopnet.com
[*] smtp_server 127.0.0.1
[*] smtp_connect_timeout 30
[*] router_id LVS_DEVEL
[*]}
[*]vrrp_instance VI_1 {
[*] state BACKUP
[*] interface eth0
[*] virtual_router_id 51
[*] priority 99
[*] advert_int 1
[*] authentication {
[*] auth_type PASS
[*] auth_pass 1paituan
[*] }
[*] virtual_ipaddress {
[*] 192.168.1.8
[*] }
[*]}
[*]vrrp_instance VI_2 {
[*] state MASTER
[*] interface eth0
[*] virtual_router_id 52
[*] priority 100
[*] advert_int 1
[*] authentication {
[*] auth_type PASS
[*] auth_pass 1paituan
[*] }
[*] virtual_ipaddress {
[*] 192.168.1.9
[*] }
[*]}
复制代码我们分别在二台主Nginx上执行,命令如下所示:
[*]nohup sh /root/nginxpid.sh &
复制代码脚本内容如下:vi /root/nginxpid.sh
[*]#!/bin/bash
[*]while:
[*]do
[*]nginxpid=`ps -C nginx --no-header | wc -l`
[*]if [ $nginxpid -eq 0 ];then
[*]/usr/local/nginx/sbin/nginx
[*]sleep 5
[*] if [ $nginxpid -eq 0 ];then
[*] /etc/init.d/keepalived stop
[*] fi
[*]fi
[*]sleep 5
[*]done
复制代码
此脚本我是直接从生产服务器上下载的,大家不要怀疑它会引起死循环和有效性的问题,我稍为解释一下,这是一个无限循环的脚本,放在主Nginx机器上(因为目前主要是由它提供服务),每隔5秒执行一次,用ps -C 命令来收集nginx的PID值到底是否为0,如果是0的话(即Nginx进程死掉了),尝试启动nginx进程;如果继续为0,即nginx启动失改, 则关闭本机的Keeplaived进程,VIP地址则会由备机接管,当然了,整个网站就会由备机的Nginx来提供服务了,这样保证Nginx进程的高可用。四、正常启动二台主Nginx的Nginx和Keealived程序后,二台机器的正常IP显示应该如下所示:
这台是IP为192.168.1.5的机器的ip addr命令显示结果:
[*]1: lo: <LOOPBACK,UP,LOWER_UP> mtu 16436 qdisc noqueue
[*]link/loopback 00:00:00:00:00:00 brd 00:00:00:00:00:00
[*]inet 127.0.0.1/8 scope host lo
[*]2: eth0: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc pfifo_fast qlen 1000
[*]link/ether 00:0c:29:99:fb:32 brd ff:ff:ff:ff:ff:ff
[*]inet 192.168.1.5/24 brd 192.168.1.255 scope global eth0
[*]inet 192.168.1.8/32 scope global eth0
复制代码这台是IP为192.168.1.6的机器的ip addr命令显示结果:
[*]1: lo: <LOOPBACK,UP,LOWER_UP> mtu 16436 qdisc noqueue
[*]link/loopback 00:00:00:00:00:00 brd 00:00:00:00:00:00
[*]inet 127.0.0.1/8 scope host lo
[*]inet6 ::1/128 scope host
[*]valid_lft forever preferred_lft forever
[*]2: eth0: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc pfifo_fast qlen 1000
[*]link/ether 00:0c:29:7d:58:5e brd ff:ff:ff:ff:ff:ff
[*]inet 192.168.1.6/24 brd 192.168.1.255 scope global eth0
[*]inet 192.168.1.9/32 scope global eth0
[*]inet6 fe80::20c:29ff:fe7d:585e/64 scope link
[*]valid_lft forever preferred_lft forever
[*]3: sit0: <NOARP> mtu 1480 qdisc noop
[*]link/sit 0.0.0.0 brd 0.0.0.0
复制代码五、测试过程如下:
一、我们要分别在二台主Nginx上用killall杀掉Nginx进程,然后在客户端分别访问192.168.1.8和192.168.1.9这二个IP(模拟DNS轮询)看能否正常访问Web服务器。
二、尝试重启192.168.1.5的主Nginx负载均衡器,测试过程如上;
三、尝试重启192.168.1.6的主Nginx负载均衡器,测试过程如下;
四、尝试分别关闭192.168.1.5和192.168.1.6的机器,测试过程如上,看影响网站的正常访问不?六、目前投入生产要解决的问题:
一、Cacti和Nagios等监控服务要重新部署,因为现在客户机是分别访问二台负载均衡器;
二、日志收集要重新部署,现在访问日志是分布在二台负载均衡器上;
三、要考虑google收录的问题;
四、证书的问题,二台机器都需要;
五、其它问题暂时没有想到,待补充。本文出自 “抚琴煮酒” 博客,请务必保留此出处http://andrewyu.blog.iyunv.com/1604432/655646
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