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# Nginx动静分离+负载均衡
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x86
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windows linux 部分unix
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小型机
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IBM HP 安装不了普通的操作系统(windows linux)
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只能安装厂商自身提供的UNIX系统
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常见的Unix系统:IBM的AIX HP的HP-UX 这些系统只能安装在他们自身厂商的小型机上
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大型机
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国企 还不是一般的国企 搞科研 真正的高科技 航天 军工 导弹
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集群的分类:cluster
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高可用集群 HA high availability
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避免单节点故障
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软件:keepalived
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负载均衡集群 **LB** **load balance**
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提高负载,提高并发量
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软件:nginx反向代理(7层) lvs(4层) haproxy(7层)
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硬件:硬件负载均衡器 F5(BigIP)和redware
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HPC高性能运算集群
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分布式存储集群
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极大的提升存储容量,提供数据高可用,保证数据安全
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软件:ceph glusterfs hdfs
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存储分类:NAS SAN DAS
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Nginx proxy 是 Nginx 的王牌功能,利用 proxy 基本可以实现一个完整的 7 层负载均衡。
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1. 功能强大,性能卓越,运行稳定。
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2. 配置简单灵活。
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3. 能够自动剔除工作不正常的后端服务器。
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4. 上传文件使用异步模式。
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5. 支持多种分配策略,可以分配权重,分配方式灵活。
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lvs和nginx组合代理负载均衡 面试题(lvs和nginx的区别)
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nginx用来做http的反向代理,能够upsteam实现http请求的多种方式的均衡转发。由于采用的是**异步转发可以做到如果一个服务器请求失败,立即切换到其他服务器,直到请求成功或者最后一台服务器失败为止**。这可以最大程度的提高系统的请求成功率。
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lvs采用的是**同步请求转发**的策略。这里说一下同步转发和异步转发的区别。同步转发是在lvs服务器接收到请求之后,立即redirect到一个后端服务器,由客户端直接和后端服务器建立连接。**异步转发**是nginx在保持客户端连接的同时,发起一个相同内容的新请求到后端,等后端返回结果后,由nginx返回给客户端。
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进一步来说:当做为负载均衡服务器的nginx和lvs处理相同的请求时,所有的请求和响应流量都会经过nginx;但是使用lvs时,仅请求流量经过lvs的网络,响应流量由后端服务器的网络返回。
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也就是,当作为后端的服务器规模庞大时,nginx的网络带宽就成了一个巨大的瓶颈。
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但是仅仅使用lvs作为负载均衡的话,一旦后端接受到请求的服务器出了问题,那么这次请求就失败了。但是如果在lvs的后端在添加一层nginx(多个),每个nginx后端再有几台应用服务器,那么结合两者的优势,既能避免单nginx的流量集中瓶颈,又能避免单lvs时一锤子买卖的问题。
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lvs/dr 同步传输
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nginx 异步传输
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![image-20220629162706237](assets/image-20220629162706237.png)
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**拓扑**
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[![file://C:/Users/86186/AppData/Local/Temp/.LRX4N1/1.png](file://C:/Users/86186/AppData/Local/Temp/.LRX4N1/1.png)]()
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**环境**
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1. 修改主机名称
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2. 名称解析
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3. ip互通 所有机器全部在同一个网段
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4. 关闭防火墙和selinux
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5 . HTML A & HTML B
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```bash
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[root@localhost ~]# yum install httpd -y
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分别创建测试页面 index.html 开启服务
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```
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6. PHP A & PHP B
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```bash
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[root@localhost ~]# yum install httpd php -y
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分别创建测试页面 index.php 开启服务
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<?php
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print "hello A";
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phpinfo();
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?>
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```
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7. 测试4台真实服务器的页面是否能正常访问
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8. 安装配置负载均衡器上的Nginx(负载均衡器、分发器、反向代理)
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```bash
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# yum install nginx -y
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# vim /etc/nginx/nginx.conf
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location / {
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root /usr/share/nginx/html;
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index index.html index.htm;
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if ($request_uri ~* \.html$) {
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proxy_pass http://htmlserver;
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}
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if ($request_uri ~* \.php$) {
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proxy_pass http://phpserver;
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}
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}
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# vim /etc/nginx/conf.d/test.conf
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upstream htmlserver {
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server 192.168.122.10;
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server 192.168.122.20;
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}
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upstream phpserver {
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server 192.168.122.30;
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server 192.168.122.40;
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}
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# systemctl restart nginx
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```
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在客户端访问 Nginx 测试
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```bash
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# elinks --dump http:// 192.168.122.254
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# elinks --dump http:// 192.168.122.254/index.html
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# elinks --dump http:// 192.168.122.254/index.php
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```
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**upstream支持的负载均衡算法**(面试题)
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**轮询(默认)**: 可以通过weight指定轮询的权重,权重越大,被调度的次数越多 **rr round robin**
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权重:用数字 谁数字大谁权重就高 按比例 1 3
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rr
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wrr
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**ip_hash**: 根据每个请求IP进行调度,可以解决session的问题,不能使用weight
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client_ip 192.168.1.8 nginx反向 webserver1
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fair: 可以根据请求页面的大小和加载时间长短进行调度,使用第三方的upstream_fair模块
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url_hash: 按请求的url的hash进行调度,从而使每个url定向到同一服务器,使用第三方的hash模块
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**upstream支持的状态参数**
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```
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down: 暂停对该服务器的调度
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backup: 类似于LVS Sorry Server,当所有的非backup的服务器故障
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max_fails: 请求失败的次数,默认为1
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fail_timeout: 在经历max_fails次失败后,暂停服务的时间
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```
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upstream htmlservers {
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```bash
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# ip_hash;
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server 192.168.10.137 weight=1 max_fails=2 fail_timeout=2;
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server 192.168.10.20 weight=2 max_fails=2 fail_timeout=2;
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server 192.168.10.251 max_fails=2 fail_timeout=5 **down**;
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server 192.168.10.253 backup;
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}
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```
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注:当使用ip_hash时,服务器状态不可使用weight和backup
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**Nginx实现七层的负载均衡**
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调度到同一组上游服务器
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**拓扑结构**
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[**LB Nginx**]
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192.168.1.2
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[**httpd**] [**httpd**] [**httpd**]
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192.168.1.3 192.168.1.4 192.168.1.5
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**实施过程**
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\1. nginx
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http {
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**upstream httpservers {
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server 192.168.1.3**:80 weight=1 max_fails=2 fail_timeout=2;
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**server 192.168.1.4**:80 weight=2 max_fails=2 fail_timeout=2;
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server 192.168.1.5:80 weight=2 max_fails=2 fail_timeout=2;
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server 192.168.1.100:80 backup;
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**}**
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**location / {
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proxy_pass** http://httpservers;
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proxy_next_upstream error timeout invalid_header http_500 http_502 http_503 http_504;
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**}**
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}
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proxy_next_upstream:这个指令属于 http_proxy 模块的,指定后端返回什么样的异常响应时,使用另一个realserver
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\2. Apache LogFormat 可选
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LogFormat "%{X-Real-IP}i %l %u %t \"%r\" %>s %b \"%{Referer}i\" \"%{User-Agent}i\"" combined
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LogFormat "%h %l %u %t \"%r\" %>s %b" common
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LogFormat "%{Referer}i -> %U" referer
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LogFormat "%{User-agent}i" agent
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=================================================================================
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**Nginx实现七层的负载均衡**
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调度到不同组上游服务器
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\1. 动静分离
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\2. 网站进行分区
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=================================================================================
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**拓扑结构**
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[**vip: 192.168.1.80**]
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[**LB1 Nginx**] [**LB2 Nginx**]
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192.168.1.2 192.168.1.3
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[**news**] [**milis**] [**videos**] [**images**] [**others**]
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1.11 1.21 1.31 1.41 1.51
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1.12 1.22 1.32 1.42 1.52
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1.13 1.23 1.33 1.43 1.53
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... ... ... ... ...
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**一、实施过程**
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\1. 根据站点分区进行调度
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http {
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upstream news {
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server 192.168.1.11:80 weight=1 max_fails=2 fail_timeout=2;
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server 192.168.1.12:80 weight=2 max_fails=2 fail_timeout=2;
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server 192.168.1.13:80 weight=2 max_fails=2 fail_timeout=2;
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}
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upstream milis {
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server 192.168.1.21:80 weight=1 max_fails=2 fail_timeout=2;
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server 192.168.1.22:80 weight=2 max_fails=2 fail_timeout=2;
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server 192.168.1.23:80 weight=2 max_fails=2 fail_timeout=2;
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}
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upstream videos {
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server 192.168.1.31:80 weight=1 max_fails=2 fail_timeout=2;
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server 192.168.1.32:80 weight=2 max_fails=2 fail_timeout=2;
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server 192.168.1.33:80 weight=2 max_fails=2 fail_timeout=2;
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}
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upstream images {
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server 192.168.1.41:80 weight=1 max_fails=2 fail_timeout=2;
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server 192.168.1.42:80 weight=2 max_fails=2 fail_timeout=2;
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server 192.168.1.43:80 weight=2 max_fails=2 fail_timeout=2;
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}
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upstream others {
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server 192.168.1.51:80 weight=1 max_fails=2 fail_timeout=2;
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server 192.168.1.52:80 weight=2 max_fails=2 fail_timeout=2;
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server 192.168.1.53:80 weight=2 max_fails=2 fail_timeout=2;
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}
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server {
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location / {
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proxy_pass http://others;
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}
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location /news {
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proxy_pass http://news;
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}
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location /mili {
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proxy_pass http://milis;
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}
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location ~* \.(wmv|mp4|rmvb)$ {
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proxy_pass http://videos;
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}
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||||
|
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location ~* \.(png|gif|jpg)$ {
|
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proxy_pass http://images;
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}
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}
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\2. 根据动静分离进行调度
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http {
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upstream htmlservers {
|
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server 192.168.1.3:80 weight=1 max_fails=2 fail_timeout=2;
|
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server 192.168.1.4:80 weight=2 max_fails=2 fail_timeout=2;
|
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}
|
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|
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upstream phpservers {
|
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server 192.168.1.3:80 weight=1 max_fails=2 fail_timeout=2;
|
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server 192.168.1.4:80 weight=2 max_fails=2 fail_timeout=2;
|
||||
}
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server {
|
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location ~* \.html$ {
|
||||
proxy_pass http://htmlservers;
|
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}
|
||||
|
||||
location ~* \.php$ {
|
||||
proxy_pass http://phpservers;
|
||||
}
|
||||
}
|
||||
}
|
||||
|
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二、Keepalived实现调度器HA
|
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注:主/备调度器均能够实现正常调度
|
||||
\1. 主/备调度器安装软件
|
||||
[root@master ~]# yum -y install ipvsadm keepalived
|
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[root@backup ~]# yum -y install ipvsadm keepalived
|
||||
|
||||
\2. Keepalived
|
||||
**Master**
|
||||
\# vim /etc/keepalived/keepalived.conf
|
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! Configuration File for keepalived
|
||||
|
||||
global_defs {
|
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router_id director1 //辅助改为director2
|
||||
}
|
||||
|
||||
vrrp_instance VI_1 {
|
||||
state BACKUP
|
||||
nopreempt
|
||||
interface eth0 //心跳接口,尽量单独连接心跳
|
||||
virtual_router_id 80 //MASTER,BACKUP一致
|
||||
priority 100 //辅助改为50
|
||||
advert_int 1
|
||||
authentication {
|
||||
auth_type PASS
|
||||
auth_pass 1111
|
||||
}
|
||||
virtual_ipaddress {
|
||||
192.168.1.80
|
||||
}
|
||||
}
|
||||
|
||||
**BACKUP**
|
||||
\3. 启动KeepAlived(主备均启动)
|
||||
\# chkconfig keepalived on
|
||||
\# service keepalived start
|
||||
\# ip addr
|
||||
|
||||
\4. 扩展对调度器Nginx健康检查(可选)
|
||||
思路:
|
||||
让Keepalived以一定时间间隔执行一个外部脚本,脚本的功能是当Nginx失败,则关闭本机的Keepalived
|
||||
a. script
|
||||
[root@master ~]# cat /etc/keepalived/check_nginx_status.sh
|
||||
\#!/bin/bash
|
||||
/usr/bin/curl -I http://localhost &>/dev/null
|
||||
if [ $? -ne 0 ];then
|
||||
/etc/init.d/keepalived stop
|
||||
fi
|
||||
[root@master ~]# chmod a+x /etc/keepalived/check_nginx_status.sh
|
||||
|
||||
b. keepalived使用script
|
||||
! Configuration File for keepalived
|
||||
|
||||
global_defs {
|
||||
router_id director1
|
||||
}
|
||||
|
||||
vrrp_script check_nginx {
|
||||
script "/etc/keepalived/check_nginx_status.sh"
|
||||
interval 5
|
||||
}
|
||||
|
||||
vrrp_instance VI_1 {
|
||||
state BACKUP
|
||||
interface eth0
|
||||
nopreempt
|
||||
virtual_router_id 90
|
||||
priority 100
|
||||
advert_int 1
|
||||
authentication {
|
||||
auth_type PASS
|
||||
auth_pass tianyun
|
||||
}
|
||||
virtual_ipaddress {
|
||||
192.168.1.80
|
||||
}
|
||||
|
||||
track_script {
|
||||
check_nginx
|
||||
}
|
||||
}
|
||||
|
||||
\--------------------
|
||||
proxy_pass
|
||||
后端服务器用的非php独立进程
|
||||
apache+php模块
|
||||
fastcgi_pass
|
||||
后端服务器用的是php-fpm
|
||||
php-fpm(fastcgi形式的php)
|
||||
|
||||
后端服务器部署详细过程:
|
||||
安装软件:
|
||||
\# yum install nginx php php-fpm -y
|
||||
\# vim /etc/nginx/nginx.conf //添加php配置
|
||||
在server里面添加如下配置:
|
||||
location ~ \.php$ {
|
||||
root html;
|
||||
fastcgi_pass 127.0.0.1:9000;
|
||||
fastcgi_index index.php;
|
||||
fastcgi_param SCRIPT_FILENAME **$document_root**$fastcgi_script_name;
|
||||
include fastcgi_params;
|
||||
}
|
||||
|
||||
修改php-fpm进程账户并开启php-fpm的进程: 端口是9000
|
||||
\#vim /etc/php-fpm.d/www.conf //修改如下参数,默认值是apache
|
||||
user = nginx
|
||||
group = nginx
|
||||
|
||||
为什么设置成nginx:
|
||||
因为nginx.conf配置的账户为nginx
|
||||
|
||||
\# systemctl start php-fpm
|
||||
|
||||
|
||||
前端nginx反向代理服务器:
|
||||
upstream web {
|
||||
server 10.0.0.21;
|
||||
server 10.0.0.22;
|
||||
}
|
||||
upstream phpserver {
|
||||
server 10.0.0.23;
|
||||
server 10.0.0.24;
|
||||
} #上面的配置写到http里面server外面
|
||||
server {
|
||||
listen 80;
|
||||
server_name www.baidu.com;
|
||||
location / { #html的配置
|
||||
proxy_pass http://web;
|
||||
}
|
||||
|
||||
location ~* \.php$ { #php的配置
|
||||
proxy_pass http://phpserver;
|
||||
}
|
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Reference in New Issue