Separation of dynamic and static state by Nginx+Tomcat

  1. Add group groupadd www
  2. Add user WWW: useradd - G www under www group
  3. Modify configuration file nginx.conf :
user www www;
worker_processes 2;
events{
         worker_connections 1024; 
}
http{
    #Set the default type to binary stream
    default_type    application/octet-stream;
    server_names_hash_bucket_size   128;
    #Specify the headerbuffer size from the client request header, set to 32KB
    client_header_buffer_size   32k;
    #Specify the maximum number and size of the cache for the larger header in the client request. Here are 4 32KB
    large_client_header_buffers 4 32k;
    #Upload file size
    client_max_body_size 356m;
    #The HttpLog module of nginx specifies that the output format of nginx log is access
    log_format access '$remote_addr - $remote_user [$time_local] "$request" '
        '$status $body_bytes_sent "$http_referer" '
        '"$http_user_agent" "$http_x_forwarded_for"';
        #Unknown access log
    access_log  /var/log/nginx/access.log   access;
    #Turn on the file transfer mode in high efficiency mode and set tcp_nopush and tcp_nodelay is also set to on to prevent network blocking.
    sendfile    on;
    tcp_nopush  on;
    tcp_nodelay on;
    #Set the timeout for client connections to remain active
    keepalive_timeout   65;
    server_tokens   off;
    #Client requests principal read cache
    client_body_buffer_size 512k;
    proxy_connect_timeout   5;
    proxy_send_timeout      60;
    proxy_read_timeout      5;
    proxy_buffer_size       16k;
    proxy_buffers           4 64k;
    proxy_busy_buffers_size 128k;
    proxy_temp_file_write_size 128k;
    #Open gzip
    gzip    on;
    #Minimum number of bytes allowed to be compressed
    gzip_min_length 1k;
    #Four units of 16k memory are used as the compressed result stream cache
    gzip_buffers 4 16k;
    #Set to identify the HTTP protocol version. The default is 1.1
    gzip_http_version 1.1;
    #gzip compression ratio, can be set in 1 ~ 9, 1 compression ratio is the smallest, the speed is the fastest, 9 compression ratio is the largest, the speed is the slowest, CPU consumption
    gzip_comp_level 2;
    #Types of compression
    gzip_types text/plain application/x-javascript text/css application/xml;
    #Let the front-end cache server mix the gzip compressed pages
     gzip_vary   on;

     upstream mycluster{
              server 192.168.25.128:8080 weight=1;
              server 192.168.25.128:8081 weight=1;
     }
    server{
              listen 8088;
              server_name 192.168.25.128;
              charset    utf-8; #Set the encoding to utf-8;

            #location / {
            #    root   html;
            #    index  index.html index.htm;
            #}

            #location ~ .*\.(jsp|do|action)$
           location / {
                 proxy_next_upstream http_502 http_504 error timeout invalid_header;
                 proxy_pass http://mycluster;
                 # Real client IP
                 proxy_set_header   X-Real-IP        $remote_addr; 
                 # Host information in request header
                 proxy_set_header   Host             $host; 
                 # Proxy routing information, taking IP here has security risks
                 proxy_set_header   X-Forwarded-For  $proxy_add_x_forwarded_for;
                  # Real user access protocol
                 proxy_set_header   X-Forwarded-Proto $scheme;
            }
       #Static files are handed over to nginx for processing
       location ~ .*\.(htm|html|gif|jpg|jpeg|png|bmp|swf|ioc|rar|zip|txt|flv|mid|doc|ppt|pdf|xls|mp3|wma)$
        {
              root  /usr/local/webapps;
             expires 30d;
         }
         #Static files are handed over to nginx for processing
        location ~ .*\.(js|css)?$
        {
               root /usr/local/webapps;
               expires 1h;
        }
        error_page   500 502 503 504  /50x.html;  
        location = /50x.html {
             root   html;
         }

      }}

test

  1. Create test project and write test code
  2. modify index.jsp
<%@ page language="java" import="java.util.*" pageEncoding="UTF-8"%>  
<%@ page import="java.text.SimpleDateFormat"%>  
<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN">  
<html>  
  <head>  
    <title>Tomcat colony/Static and dynamic separation test</title>  
  </head>  
  <body>  
    <%  
        out.println("["+request.getLocalAddr()+":" +request.getLocalPort()+"]" + "<br/>session id:" + session.getId());   
    %>  
    <h1>images:</h1>  
    <img src="img/nginx.png" />  
  </body>  
</html>  

3. Type the written code into war package and put it under the webapps of two tomcat. The ports are 8080, 8005, 8009 and 8081, 8006, 8010. And start tomcat.

4. Visit http://192.168.25.128:8088/test At this time, the page image cannot be displayed.


You need to create the webapps/test/img directory in / usr/local /, and set the static image nginx.png Copy it to this directory and access it.

(since the weights of configuration 8080 and 8081 are 1, two tomcat accesses are basically once respectively)

Tags: Nginx Tomcat Java JSP

Posted on Wed, 01 Jul 2020 11:01:33 -0400 by dinno2