「实战篇」开源项目docker化运维部署-前端java部署(八)

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原文链接地址:「实战篇」开源项目docker化运维部署-前端java部署(八)

本节主要说说前端的部署需要注意的点,本身renren-fast这个项目就是通过nodejs来进行开发的,nodejs编译后生成html,css,img所以,咱们不用在容器直接用nginx就可以访问静态文件。源码:https://github.com/limingios/netFuture/blob/master/前端/
https://github.com/daxiongYang/renren-fast-vue

「实战篇」开源项目docker化运维部署-前端java部署(八)_第1张图片

修改连接地址

应该修改成http://192.168.66.151:6201/renren-fast;

「实战篇」开源项目docker化运维部署-前端java部署(八)_第2张图片

打包

  • 修改镜像,国内打包比较快点

http://npm.taobao.org/

「实战篇」开源项目docker化运维部署-前端java部署(八)_第3张图片
  • 安装

你可以使用我们定制的 cnpm (gzip 压缩支持) 命令行工具代替默认的 npm:

$ npm install -g cnpm --registry=https://registry.npm.taobao.org

这个目录上传到nginx上。

「实战篇」开源项目docker化运维部署-前端java部署(八)_第4张图片

renren-nginx<1>

这里的nginx并不是做负载均衡的,而是做静态的html的静态运行环境的。

  • 创建容器

用宿主机的网段

docker run -it -d --name fn1 \
-v /root/fn1/nginx.conf:/etc/nginx/nginxc.conf \
-v /root/fn1/renren-vue:/home/fn1/renren-vue \
--privileged --net=host nginx
  • 编写nginx的配置文件

user  nginx;
worker_processes  1;

error_log  /var/log/nginx/error.log warn;
pid        /var/run/nginx.pid;


events {
    worker_connections  1024;
}


http {
    include       /etc/nginx/mime.types;
    default_type  application/octet-stream;

    log_format  main  '$remote_addr - $remote_user [$time_local] "$request" '
                      '$status $body_bytes_sent "$http_referer" '
                      '"$http_user_agent" "$http_x_forwarded_for"';

    access_log  /var/log/nginx/access.log  main;

    sendfile        on;
    #tcp_nopush     on;

    keepalive_timeout  65;

    #gzip  on;
    
    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;
    client_max_body_size    10m;
    client_body_buffer_size   128k;
    proxy_connect_timeout   5s;
    proxy_send_timeout      5s;
    proxy_read_timeout      5s;
    proxy_buffer_size        4k;
    proxy_buffers           4 32k;
    proxy_busy_buffers_size  64k;
    proxy_temp_file_write_size 64k;
    
    server {
        listen 6501;
        server_name  192.168.66.100;
        location  /  {
            root  /home/fn1/renren-vue;
            index  index.html;
        }
    }
}

renren-nginx<2>

这里的nginx并不是做负载均衡的,而是做静态的html的静态运行环境的。

  • 创建容器

用宿主机的网段

docker run -it -d --name fn2 \
-v /root/fn2/nginx.conf:/etc/nginx/nginxc.conf \
-v /root/fn2/renren-vue:/home/fn1/renren-vue \
--privileged --net=host nginx
  • 编写nginx的配置文件

user  nginx;
worker_processes  1;

error_log  /var/log/nginx/error.log warn;
pid        /var/run/nginx.pid;


events {
    worker_connections  1024;
}


http {
    include       /etc/nginx/mime.types;
    default_type  application/octet-stream;

    log_format  main  '$remote_addr - $remote_user [$time_local] "$request" '
                      '$status $body_bytes_sent "$http_referer" '
                      '"$http_user_agent" "$http_x_forwarded_for"';

    access_log  /var/log/nginx/access.log  main;

    sendfile        on;
    #tcp_nopush     on;

    keepalive_timeout  65;

    #gzip  on;
    
    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;
    client_max_body_size    10m;
    client_body_buffer_size   128k;
    proxy_connect_timeout   5s;
    proxy_send_timeout      5s;
    proxy_read_timeout      5s;
    proxy_buffer_size        4k;
    proxy_buffers           4 32k;
    proxy_busy_buffers_size  64k;
    proxy_temp_file_write_size 64k;
    
    server {
        listen 6502;
        server_name  192.168.66.100;
        location  /  {
            root  /home/fn2/renren-vue;
            index  index.html;
        }
    }
}

renren-nginx<3>

这里的nginx并不是做负载均衡的,而是做静态的html的静态运行环境的。

  • 创建容器

用宿主机的网段

docker run -it -d --name fn3 \
-v /root/fn3/nginx.conf:/etc/nginx/nginxc.conf \
-v /root/fn3/renren-vue:/home/fn1/renren-vue \
--privileged --net=host nginx
  • 编写nginx的配置文件

user  nginx;
worker_processes  1;

error_log  /var/log/nginx/error.log warn;
pid        /var/run/nginx.pid;


events {
    worker_connections  1024;
}


http {
    include       /etc/nginx/mime.types;
    default_type  application/octet-stream;

    log_format  main  '$remote_addr - $remote_user [$time_local] "$request" '
                      '$status $body_bytes_sent "$http_referer" '
                      '"$http_user_agent" "$http_x_forwarded_for"';

    access_log  /var/log/nginx/access.log  main;

    sendfile        on;
    #tcp_nopush     on;

    keepalive_timeout  65;

    #gzip  on;
    
    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;
    client_max_body_size    10m;
    client_body_buffer_size   128k;
    proxy_connect_timeout   5s;
    proxy_send_timeout      5s;
    proxy_read_timeout      5s;
    proxy_buffer_size        4k;
    proxy_buffers           4 32k;
    proxy_busy_buffers_size  64k;
    proxy_temp_file_write_size 64k;
    
    server {
        listen 6503;
        server_name  192.168.66.100;
        location  /  {
            root  /home/fn3/renren-vue;
            index  index.html;
        }
    }
}

qia负载均衡

「实战篇」开源项目docker化运维部署-前端java部署(八)_第5张图片
nginx-ff1
  • ff1 容器的创建
docker run -it -d --name ff1 \
-v /root/ff1/nginx.conf:/etc/nginx/nginx.conf \
--net=host \
--privileged --net=host nginx
  • 负载均衡ff1 - nginx的配置

user  nginx;
worker_processes  1;

error_log  /var/log/nginx/error.log warn;
pid        /var/run/nginx.pid;


events {
    worker_connections  1024;
}


http {
    include       /etc/nginx/mime.types;
    default_type  application/octet-stream;

    log_format  main  '$remote_addr - $remote_user [$time_local] "$request" '
                      '$status $body_bytes_sent "$http_referer" '
                      '"$http_user_agent" "$http_x_forwarded_for"';

    access_log  /var/log/nginx/access.log  main;

    sendfile        on;
    #tcp_nopush     on;

    keepalive_timeout  65;

    #gzip  on;
    
    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;
    client_max_body_size    10m;
    client_body_buffer_size   128k;
    proxy_connect_timeout   5s;
    proxy_send_timeout      5s;
    proxy_read_timeout      5s;
    proxy_buffer_size        4k;
    proxy_buffers           4 32k;
    proxy_busy_buffers_size  64k;
    proxy_temp_file_write_size 64k;
    
    upstream fn {
        server 192.168.66.100:6501;
        server 192.168.66.100:6502;
        server 192.168.66.100:6503;
    }
    server {
        listen       6601;
        server_name  192.168.66.100; 
        location / {  
            proxy_pass   http://fn;
            index  index.html index.htm;  
        }  

    }
}

nginx-ff2
  • ff2 容器的创建
docker run -it -d --name ff2 \
-v /root/ff2/nginx.conf:/etc/nginx/nginx.conf \
--net=host \
--privileged --net=host nginx
  • 负载均衡ff2 - nginx的配置

user  nginx;
worker_processes  1;

error_log  /var/log/nginx/error.log warn;
pid        /var/run/nginx.pid;


events {
    worker_connections  1024;
}


http {
    include       /etc/nginx/mime.types;
    default_type  application/octet-stream;

    log_format  main  '$remote_addr - $remote_user [$time_local] "$request" '
                      '$status $body_bytes_sent "$http_referer" '
                      '"$http_user_agent" "$http_x_forwarded_for"';

    access_log  /var/log/nginx/access.log  main;

    sendfile        on;
    #tcp_nopush     on;

    keepalive_timeout  65;

    #gzip  on;
    
    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;
    client_max_body_size    10m;
    client_body_buffer_size   128k;
    proxy_connect_timeout   5s;
    proxy_send_timeout      5s;
    proxy_read_timeout      5s;
    proxy_buffer_size        4k;
    proxy_buffers           4 32k;
    proxy_busy_buffers_size  64k;
    proxy_temp_file_write_size 64k;
    
    upstream fn {
        server 192.168.66.100:6501;
        server 192.168.66.100:6502;
        server 192.168.66.100:6503;
    }
    server {
        listen       6602;
        server_name  192.168.66.100; 
        location / {  
            proxy_pass   http://fn;
            index  index.html index.htm;  
        }  

    }
}

前端项目的双机热备负载均衡方案

之前已经设置了ff1 和ff2,都可以正常的访问后端,但是没有设置keepalived,他们之前无法争抢ip,无法做到双机热备。这次说说双机热备。

「实战篇」开源项目docker化运维部署-前端java部署(八)_第6张图片

进入容器ff1然后安装keepalived

keepalived必须在ff1所在的容器之内,也可以在docker仓库里面下载一个nginx-keepalived的镜像。这里直接在容器内安装keepalived。

docker exec -it ff1 /bin/bash
#写入dns,防止apt-get update找不到服务器
echo "nameserver 8.8.8.8" | tee /etc/resolv.conf > /dev/null 
apt-get clean
apt-get update
apt-get install vim
vi /etc/apt/sources.list 

sources.list 添加下面的内容

deb http://mirrors.163.com/ubuntu/ precise main universe restricted multiverse 
deb-src http://mirrors.163.com/ubuntu/ precise main universe restricted multiverse 
deb http://mirrors.163.com/ubuntu/ precise-security universe main multiverse restricted 
deb-src http://mirrors.163.com/ubuntu/ precise-security universe main multiverse restricted 
deb http://mirrors.163.com/ubuntu/ precise-updates universe main multiverse restricted 
deb http://mirrors.163.com/ubuntu/ precise-proposed universe main multiverse restricted 
deb-src http://mirrors.163.com/ubuntu/ precise-proposed universe main multiverse restricted 
deb http://mirrors.163.com/ubuntu/ precise-backports universe main multiverse restricted 
deb-src http://mirrors.163.com/ubuntu/ precise-backports universe main multiverse restricted 
deb-src http://mirrors.163.com/ubuntu/ precise-updates universe main multiverse restricted

  • 更新apt源
apt-get clean
apt-get update
apt-get install keepalived
apt-get install vim

「实战篇」开源项目docker化运维部署-前端java部署(八)_第7张图片
  • keepalived配置文件

容器内的路径:/etc/keepalived/keepalived.conf

vi /etc/keepalived/keepalived.conf

keepalived.conf

vrrp_instance VI_1 {
    state MASTER
    interface ens33
    virtual_router_id 51
    priority 100
    advert_int 1
    authentication {
        auth_type PASS
        auth_pass 123456
    }
    virtual_ipaddress {
        192.168.66.152
    }
}
virtual_server 192.168.66.152 6701{
    delay_loop 3
    lb_algo rr
    lb_kind NAT
    persistence_timeout 50
    protocol TCP
    real_server 192.168.66.100 6601{
        weight 1
    }
}

  1. VI_1 名称可以自定义
  2. state MASTER | keepalived的身份(MASTER主服务器,BACKUP备份服务器,不会抢占虚拟机ip)。如果都是主MASTER的话,就会进行互相争抢IP,如果抢到了就是MASTER,另一个就是SLAVE。
  3. interface网卡,定义一个虚拟IP定义到那个网卡上边。网卡设备的名称。eth33是宿主机是网卡。
  4. virtual_router_id 51 | 虚拟路由标识,MASTER和BACKUP的虚拟路由标识必须一致。标识可以是0-255。
  5. priority 100 | 权重。MASTER权重要高于BACKUP 数字越大优选级越高。可以根据硬件的配置来完成,权重最大的获取抢到的级别越高。
  6. advert_int 1 | 心跳检测。MASTER与BACKUP节点间同步检查的时间间隔,单位为秒。主备之间必须一致。
  7. authentication | 主从服务器验证方式。主备必须使用相同的密码才能正常通信。进行心跳检测需要登录到某个主机上边所有有账号密码。
  8. virtual_ipaddress | 虚拟ip地址,可以设置多个虚拟ip地址,每行一个。根据上边配置的eth33上配置的ip。192.168.66.151 是自己定义的虚拟ip
  • 启动keeplived

容器内启动

service keepalived start

进入容器ff2然后安装keepalived

keepalived必须在ff2所在的容器之内,也可以在docker仓库里面下载一个nginx-keepalived的镜像。这里直接在容器内安装keepalived。

docker exec -it ff2 /bin/bash
#写入dns,防止apt-get update找不到服务器
echo "nameserver 8.8.8.8" | tee /etc/resolv.conf > /dev/null 
apt-get clean
apt-get update
apt-get install vim
vi /etc/apt/sources.list 

sources.list 添加下面的内容

deb http://mirrors.163.com/ubuntu/ precise main universe restricted multiverse 
deb-src http://mirrors.163.com/ubuntu/ precise main universe restricted multiverse 
deb http://mirrors.163.com/ubuntu/ precise-security universe main multiverse restricted 
deb-src http://mirrors.163.com/ubuntu/ precise-security universe main multiverse restricted 
deb http://mirrors.163.com/ubuntu/ precise-updates universe main multiverse restricted 
deb http://mirrors.163.com/ubuntu/ precise-proposed universe main multiverse restricted 
deb-src http://mirrors.163.com/ubuntu/ precise-proposed universe main multiverse restricted 
deb http://mirrors.163.com/ubuntu/ precise-backports universe main multiverse restricted 
deb-src http://mirrors.163.com/ubuntu/ precise-backports universe main multiverse restricted 
deb-src http://mirrors.163.com/ubuntu/ precise-updates universe main multiverse restricted

「实战篇」开源项目docker化运维部署-前端java部署(八)_第8张图片
  • 更新apt源
apt-get clean
apt-get update
apt-get install keepalived
apt-get install vim

  • keepalived配置文件

容器内的路径:/etc/keepalived/keepalived.conf

vi /etc/keepalived/keepalived.conf

keepalived.conf

vrrp_instance VI_1 {
    state MASTER
    interface ens33
    virtual_router_id 51
    priority 100
    advert_int 1
    authentication {
        auth_type PASS
        auth_pass 123456
    }
    virtual_ipaddress {
        192.168.66.152
    }
}
virtual_server 192.168.66.152 6701{
    delay_loop 3
    lb_algo rr
    lb_kind NAT
    persistence_timeout 50
    protocol TCP
    real_server 192.168.66.100 6602{
        weight 1
    }
}

  1. VI_1 名称可以自定义
  2. state MASTER | keepalived的身份(MASTER主服务器,BACKUP备份服务器,不会抢占虚拟机ip)。如果都是主MASTER的话,就会进行互相争抢IP,如果抢到了就是MASTER,另一个就是SLAVE。
  3. interface网卡,定义一个虚拟IP定义到那个网卡上边。网卡设备的名称。eth33是宿主机是网卡。
  4. virtual_router_id 51 | 虚拟路由标识,MASTER和BACKUP的虚拟路由标识必须一致。标识可以是0-255。
  5. priority 100 | 权重。MASTER权重要高于BACKUP 数字越大优选级越高。可以根据硬件的配置来完成,权重最大的获取抢到的级别越高。
  6. advert_int 1 | 心跳检测。MASTER与BACKUP节点间同步检查的时间间隔,单位为秒。主备之间必须一致。
  7. authentication | 主从服务器验证方式。主备必须使用相同的密码才能正常通信。进行心跳检测需要登录到某个主机上边所有有账号密码。
  8. virtual_ipaddress | 虚拟ip地址,可以设置多个虚拟ip地址,每行一个。根据上边配置的eth33上配置的ip。192.168.66.151 是自己定义的虚拟ip
  • 启动keeplived

容器内启动

service keepalived start

PS:前后端部署基本是一样的都是按照思路,先启动多个容器,然后建立2个负载,负载内安装keepalived做热备。重点是想好端口。但是说实话,这是平常练习和个人项目,如果是多台机器,就不能这么搞了,下次一起通过docker swarm的网络方式让多台机器。

「实战篇」开源项目docker化运维部署-前端java部署(八)_第9张图片

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