("engine x") 是一个高性能的 HTTP 和反向代理服务器,也是一个 IMAP/POP3/SMTP 代理服务器。 Nginx 是由
Igor Sysoev 为俄罗斯访问量第二的 Rambler.ru 站点开发的,它已经在该站点运行超过两年半了。Igor
将源代码以类BSD许可证的形式发布。
Nginx 超越 Apache 的高性能和稳定性,使得国内使用 Nginx 作为 Web 服务器的网站也越来越多,其中包括
新浪博客、、等门户网站频道,、等视频分享网站,
Discuz!官方论坛、等知名论坛,、、、等新兴Web 2.0网站。
Nginx 的官方中文维基:
在高并发连接的情况下,Nginx是Apache服务器不错的替代品。Nginx同时也可以作为7层负载均衡服务器来使用。根据我的测试结果,
Nginx 0.8.15 + PHP 5.2.10 (FastCGI) 可以承受3万以上的并发连接数,相当于同等环境下Apache的10倍。
根据我的经验,4GB内存的服务器+Apache(prefork模式)一般只能处理3000个并发连接,因为它们将占用3GB以上的内存,还得为系统
预留1GB的内存。我曾经就有两台Apache服务器,因为在配置文件中设置的MaxClients为4000,当Apache并发连接数达到3800
时,导致服务器内存和Swap空间用满而崩溃。
而这台 Nginx 0.8.15 + PHP 5.2.10 (FastCGI)
服务器在3万并发连接下,开启的10个Nginx进程消耗150M内存(15M*10=150M),开启的64个php-cgi进程消耗1280M内存
(20M*64=1280M),加上系统自身消耗的内存,总共消耗不到2GB内存。如果服务器内存较小,完全可以只开启25个php-cgi进程,这样
php-cgi消耗的总内存数才500M。
在3万并发连接下,访问Nginx 0.8.15 + PHP 5.2.10
(FastCGI)
服务器的PHP程序,仍然速度飞快。下图为Nginx的状态监控页面,显示的活动连接数为28457(关于Nginx的监控页配置,会在本文接下来所给出
的Nginx配置文件中写明):
我生产环境下的两台Nginx + PHP5(FastCGI)服务器,跑多个一般复杂的纯PHP动态程序,单台Nginx + PHP5(FastCGI)服务器跑PHP动态程序的处理能力已经超过“
700次请求/秒”,相当于每天可以承受6000万(700*60*60*24=60480000)的访问量(
更多信息见此),而服务器的系统负载也不高:
2009年9月3日下午2:30,金山游戏《剑侠情缘网络版叁》临时维护1小时(),大量玩家上官网,论坛、评论、客服等动态应用Nginx服务器集群,每台服务器的Nginx活动连接数达到2.8万,这是笔者遇到的Nginx生产环境最高并发值。
下面是用100个并发连接分别去压生产环境中同一负载均衡器VIP下、提供相同服务的两台服务器,一台为Nginx,另一台为Apache,Nginx每秒处理的请求数是Apache的两倍多,Nginx服务器的系统负载、CPU使用率远低于Apache:
你可以将连接数开到10000~30000,去压Nginx和Apache上的phpinfo.php,这是用浏览器访问Nginx上的
phpinfo.php一切正常,而访问Apache服务器的phpinfo.php,则是该页无法显示。4G内存的服务器,即使再优化,Apache也
很难在“webbench -c 30000 -t 60 ”的压力情况下正常访问,而调整参数优化后的Nginx可以。
webbench 下载地址:
http://blog.s135.com/post/288/ 注意:webbench 做压力测试时,该软件自身也会消耗CPU和内存资源,为了测试准确,请将 webbench 安装在别的服务器上。
测试结果:##### Nginx + PHP #####
引用
[root@localhost webbench-1.5]# webbench -c 100 -t 30
Webbench - Simple Web Benchmark 1.5
Copyright (c) Radim Kolar 1997-2004, GPL Open Source Software.
Benchmarking: GET
100 clients, running 30 sec.
Speed=102450 pages/min, 16490596 bytes/sec.
Requests: 51225 susceed, 0 failed.
top - 14:06:13 up 27 days, 2:25, 2 users, load average: 14.57, 9.89, 6.51
Tasks: 287 total, 4 running, 283 sleeping, 0 stopped, 0 zombie
Cpu(s): 49.9% us, 6.7% sy, 0.0% ni, 41.4% id, 1.1% wa, 0.1% hi, 0.8% si
Mem: 6230016k total, 2959468k used, 3270548k free, 635992k buffers
Swap: 2031608k total, 3696k used, 2027912k free, 1231444k cached
测试结果:##### Apache + PHP #####
引用
[root@localhost webbench-1.5]# webbench -c 100 -t 30
Webbench - Simple Web Benchmark 1.5
Copyright (c) Radim Kolar 1997-2004, GPL Open Source Software.
Benchmarking: GET
100 clients, running 30 sec.
Speed=42184 pages/min, 31512914 bytes/sec.
Requests: 21092 susceed, 0 failed.
top - 14:06:20 up 27 days, 2:13, 2 users, load average: 62.15, 26.36, 13.42
Tasks: 318 total, 7 running, 310 sleeping, 0 stopped, 1 zombie
Cpu(s): 80.4% us, 10.6% sy, 0.0% ni, 7.9% id, 0.1% wa, 0.1% hi, 0.9% si
Mem: 6230016k total, 3075948k used, 3154068k free, 379896k buffers
Swap: 2031608k total, 12592k used, 2019016k free, 1117868k cached
为什么Nginx的性能要比Apache高得多?这得益于Nginx使用了最新的epoll(Linux
2.6内核)和kqueue(freebsd)网络I/O模型,而Apache则使用的是传统的select模型。目前Linux下能够承受高并发访问的
Squid、Memcached都采用的是epoll网络I/O模型。
处理大量的连接的读写,Apache所采用的select网络I/O模型非常低效。下面用一个比喻来解析Apache采用的select模型和Nginx采用的epoll模型进行之间的区别:
假设你在大学读书,住的宿舍楼有很多间房间,你的朋友要来找你。select版宿管大妈就会带着你的朋友挨个房间去找,直到找到你为止。而epoll版
宿管大妈会先记下每位同学的房间号,你的朋友来时,只需告诉你的朋友你住在哪个房间即可,不用亲自带着你的朋友满大楼找人。如果来了10000个人,都要
找自己住这栋楼的同学时,select版和epoll版宿管大妈,谁的效率更高,不言自明。同理,在高并发服务器中,轮询I/O是最耗时间的操作之
一,select和epoll的性能谁的性能更高,同样十分明了。
安装步骤:
(系统要求:Linux 2.6+ 内核,本文中的Linux操作系统为CentOS 5.3,另在RedHat AS4上也安装成功)
一、获取相关开源程序: 1、【适用CentOS操作系统】利用CentOS Linux系统自带的yum命令安装、升级所需的程序库(RedHat等其他Linux发行版可从安装光盘中找到这些程序库的RPM包,进行安装):
sudo -s
LANG=C
yum
-y install gcc gcc-c++ autoconf libjpeg libjpeg-devel libpng
libpng-devel freetype freetype-devel libxml2 libxml2-devel zlib
zlib-devel glibc glibc-devel glib2 glib2-devel bzip2 bzip2-devel
ncurses ncurses-devel curl curl-devel e2fsprogs e2fsprogs-devel krb5
krb5-devel libidn libidn-devel openssl openssl-devel openldap
openldap-devel nss_ldap openldap-clients openldap-servers
2、【适用RedHat操作系统】RedHat等其他Linux发行版可从安装光盘中找到这些程序库的RPM包(事先可通过类似“rpm -qa |
grep
libjpeg”的命令查看所需的RPM包是否存在,通常是“xxx-devel”不存在,需要安装)。RedHat可以直接利用CentOS的RPM包
安装,以下是RPM包下载网址:
①、RedHat AS4 & CentOS 4
②、RedHat AS5 & CentOS 5
③、RPM包搜索网站
④、RedHat AS4 系统环境,通常情况下缺少的支持包安装:
Ⅰ、i386 系统
Ⅱ、x86_64 系统
3、【适用CentOS、RedHat及其它Linux操作系统】下载程序源码包:
本文中提到的所有开源软件为截止到
2009年09月18日的最新稳定版。
①、从软件的官方网站下载:
②、从
blog.s135.com下载(比较稳定,只允许在本站,或者在Linux/Unix下通过Wget、Curl等命令下载以下软件):
二、安装PHP 5.2.10(FastCGI模式) 1、编译安装PHP 5.2.10所需的支持库:
tar zxvf libiconv-1.13.tar.gz
cd libiconv-1.13/
./configure --prefix=/usr/local
make
make install
cd ../
tar zxvf libmcrypt-2.5.8.tar.gz
cd libmcrypt-2.5.8/
./configure
make
make install
/sbin/ldconfig
cd libltdl/
./configure --enable-ltdl-install
make
make install
cd ../../
tar zxvf mhash-0.9.9.9.tar.gz
cd mhash-0.9.9.9/
./configure
make
make install
cd ../
ln -s /usr/local/lib/libmcrypt.la /usr/lib/libmcrypt.la
ln -s /usr/local/lib/libmcrypt.so /usr/lib/libmcrypt.so
ln -s /usr/local/lib/libmcrypt.so.4 /usr/lib/libmcrypt.so.4
ln -s /usr/local/lib/libmcrypt.so.4.4.8 /usr/lib/libmcrypt.so.4.4.8
ln -s /usr/local/lib/libmhash.a /usr/lib/libmhash.a
ln -s /usr/local/lib/libmhash.la /usr/lib/libmhash.la
ln -s /usr/local/lib/libmhash.so /usr/lib/libmhash.so
ln -s /usr/local/lib/libmhash.so.2 /usr/lib/libmhash.so.2
ln -s /usr/local/lib/libmhash.so.2.0.1 /usr/lib/libmhash.so.2.0.1
tar zxvf mcrypt-2.6.8.tar.gz
cd mcrypt-2.6.8/
/sbin/ldconfig
./configure
make
make install
cd ../
2、编译安装MySQL 5.1.38
/usr/sbin/groupadd mysql
/usr/sbin/useradd -g mysql mysql
tar zxvf mysql-5.1.38.tar.gz
cd mysql-5.1.38/
./configure
--prefix=/usr/local/webserver/mysql/ --enable-assembler
--with-extra-charsets=complex --enable-thread-safe-client
--with-big-tables --with-readline --with-ssl --with-embedded-server
--enable-local-infile --with-plugins=innobase
make && make install
chmod +w /usr/local/webserver/mysql
chown -R mysql:mysql /usr/local/webserver/mysql
cd ../
附:以下为附加步骤,如果你想在这台服务器上运行MySQL数据库,则执行以下两步。如果你只是希望让PHP支持MySQL扩展库,能够连接其他服务器上的MySQL数据库,那么,以下两步无需执行。
①、创建MySQL数据库存放目录
mkdir -p /data0/mysql/3306/data/
chown -R mysql:mysql /data0/mysql/
②、以mysql用户帐号的身份建立数据表:
/usr/local/webserver/mysql/bin/mysql_install_db
--basedir=/usr/local/webserver/mysql --datadir=/data0/mysql/3306/data
--user=mysql
③、创建my.cnf配置文件:
vi /data0/mysql/3306/my.cnf
输入以下内容:
引用
[client]
default-character-set = utf8
port = 3306
socket = /tmp/mysql.sock
[mysql]
prompt="(\u:blog.s135.com:)[\d]> "
no-auto-rehash
[mysqld]
#default-character-set = utf8
user = mysql
port = 3306
socket = /tmp/mysql.sock
basedir = /usr/local/webserver/mysql
datadir = /data0/mysql/3306/data
open_files_limit = 10240
back_log = 600
max_connections = 3000
max_connect_errors = 6000
table_cache = 614
external-locking = FALSE
max_allowed_packet = 32M
sort_buffer_size = 2M
join_buffer_size = 2M
thread_cache_size = 300
thread_concurrency = 8
query_cache_size = 32M
query_cache_limit = 2M
query_cache_min_res_unit = 2k
default-storage-engine = MyISAM
default_table_type = MyISAM
thread_stack = 192K
transaction_isolation = READ-COMMITTED
tmp_table_size = 246M
max_heap_table_size = 246M
long_query_time = 1
log_long_format
log-bin = /data0/mysql/3306/binlog
binlog_cache_size = 4M
binlog_format = MIXED
max_binlog_cache_size = 8M
max_binlog_size = 512M
expire_logs_days = 7
key_buffer_size = 256M
read_buffer_size = 1M
read_rnd_buffer_size = 16M
bulk_insert_buffer_size = 64M
myisam_sort_buffer_size = 128M
myisam_max_sort_file_size = 10G
myisam_max_extra_sort_file_size = 10G
myisam_repair_threads = 1
myisam_recover
skip-name-resolve
master-connect-retry = 10
slave-skip-errors = 1032,1062,126,1114,1146,1048,1396
server-id = 1
innodb_additional_mem_pool_size = 16M
innodb_buffer_pool_size = 2048M
innodb_data_file_path = ibdata1:1024M:autoextend
innodb_file_io_threads = 4
innodb_thread_concurrency = 8
innodb_flush_log_at_trx_commit = 2
innodb_log_buffer_size = 16M
innodb_log_file_size = 128M
innodb_log_files_in_group = 3
innodb_max_dirty_pages_pct = 90
innodb_lock_wait_timeout = 120
innodb_file_per_table = 0
[mysqldump]
quick
max_allowed_packet = 32M
④、创建管理MySQL数据库的shell脚本:
vi /data0/mysql/3306/mysql
输入以下内容(这里的用户名admin和密码12345678接下来的步骤会创建):
- #!/bin/sh
-
- mysql_port=3306
- mysql_username="admin"
- mysql_password="12345678"
-
- function_start_mysql()
- {
- printf "Starting MySQL...\n"
- /bin/sh /usr/local/webserver/mysql/bin/mysqld_safe --defaults-file=/data0/mysql/${mysql_port}/my.cnf 2>&1 > /dev/null &
- }
-
- function_stop_mysql()
- {
- printf "Stoping MySQL...\n"
- /usr/local/webserver/mysql/bin/mysqladmin -u ${mysql_username} -p${mysql_password} -S /tmp/mysql.sock shutdown
- }
-
- function_restart_mysql()
- {
- printf "Restarting MySQL...\n"
- function_stop_mysql
- sleep 5
- function_start_mysql
- }
-
- function_kill_mysql()
- {
- kill -9 $(ps -ef | grep 'bin/mysqld_safe' | grep ${mysql_port} | awk '{printf $2}')
- kill -9 $(ps -ef | grep 'libexec/mysqld' | grep ${mysql_port} | awk '{printf $2}')
- }
-
- if [ "$1" = "start" ]; then
- function_start_mysql
- elif [ "$1" = "stop" ]; then
- function_stop_mysql
- elif [ "$1" = "restart" ]; then
- function_restart_mysql
- elif [ "$1" = "kill" ]; then
- function_kill_mysql
- else
- printf "Usage: /data0/mysql/${mysql_port}/mysql {start|stop|restart|kill}\n"
- fi
⑤、赋予shell脚本可执行权限:
chmod +x /data0/mysql/3306/mysql
⑥、启动MySQL:
/data0/mysql/3306/mysql start
⑦、通过命令行登录管理MySQL服务器(提示输入密码时直接回车):
/usr/local/webserver/mysql/bin/mysql -u root -p -S /tmp/mysql.sock
⑧、输入以下SQL语句,创建一个具有root权限的用户(admin)和密码(12345678):
GRANT ALL PRIVILEGES ON *.* TO 'admin'@'localhost' IDENTIFIED BY '12345678';
GRANT ALL PRIVILEGES ON *.* TO 'admin'@'127.0.0.1' IDENTIFIED BY '12345678';
⑨、(可选)停止MySQL:
/data0/mysql/3306/mysql stop
3、编译安装PHP(FastCGI模式)
tar zxvf php-5.2.10.tar.gz
gzip -cd php-5.2.10-fpm-0.5.11.diff.gz | patch -d php-5.2.10 -p1
cd php-5.2.10/
./configure
--prefix=/usr/local/webserver/php
--with-config-file-path=/usr/local/webserver/php/etc
--with-mysql=/usr/local/webserver/mysql
--with-mysqli=/usr/local/webserver/mysql/bin/mysql_config
--with-iconv-dir=/usr/local --with-freetype-dir --with-jpeg-dir
--with-png-dir --with-zlib --with-libxml-dir=/usr --enable-xml
--disable-rpath --enable-discard-path --enable-safe-mode
--enable-bcmath --enable-shmop --enable-sysvsem
--enable-inline-optimization --with-curl --with-curlwrappers
--enable-mbregex --enable-fastcgi --enable-fpm
--enable-force-cgi-redirect --enable-mbstring --with-mcrypt --with-gd
--enable-gd-native-ttf --with-openssl --with-mhash --enable-pcntl
--enable-sockets --with-ldap --with-ldap-sasl --with-xmlrpc
--enable-zip --enable-soap --without-pear
make ZEND_EXTRA_LIBS='-liconv'
make install
cp php.ini-dist /usr/local/webserver/php/etc/php.ini
cd ../
curl | /usr/local/webserver/php/bin/php
4、编译安装PHP5扩展模块
tar zxvf memcache-2.2.5.tgz
cd memcache-2.2.5/
/usr/local/webserver/php/bin/phpize
./configure --with-php-config=/usr/local/webserver/php/bin/php-config
make
make install
cd ../
tar jxvf eaccelerator-0.9.5.3.tar.bz2
cd eaccelerator-0.9.5.3/
/usr/local/webserver/php/bin/phpize
./configure --enable-eaccelerator=shared --with-php-config=/usr/local/webserver/php/bin/php-config
make
make install
cd ../
tar zxvf PDO_MYSQL-1.0.2.tgz
cd PDO_MYSQL-1.0.2/
/usr/local/webserver/php/bin/phpize
./configure --with-php-config=/usr/local/webserver/php/bin/php-config --with-pdo-mysql=/usr/local/webserver/mysql
make
make install
cd ../
tar zxvf ImageMagick.tar.gz
cd ImageMagick-6.5.1-2/
./configure
make
make install
cd ../
tar zxvf imagick-2.2.2.tgz
cd imagick-2.2.2/
/usr/local/webserver/php/bin/phpize
./configure --with-php-config=/usr/local/webserver/php/bin/php-config
make
make install
cd ../
5、修改php.ini文件
手工修改:查找/usr/local/webserver/php/etc/php.ini中的extension_dir = "./"
修改为extension_dir = "/usr/local/webserver/php/lib/php/extensions/no-debug-non-zts-20060613/"
并在此行后增加以下几行,然后保存:
extension = "memcache.so"
extension = "pdo_mysql.so"
extension = "imagick.so"
再查找output_buffering = Off
修改为output_buffering = On
自动修改:若嫌手工修改麻烦,可执行以下shell命令,自动完成对php.ini文件的修改:
sed
-i 's#extension_dir = "./"#extension_dir =
"/usr/local/webserver/php/lib/php/extensions/no-debug-non-zts-20060613/"\nextension
= "memcache.so"\nextension = "pdo_mysql.so"\nextension =
"imagick.so"\n#' /usr/local/webserver/php/etc/php.ini
sed -i 's#output_buffering = Off#output_buffering = On#' /usr/local/webserver/php/etc/php.ini
sed -i "s#; always_populate_raw_post_data = On#always_populate_raw_post_data = On#g" /usr/local/webserver/php/etc/php.ini
6、配置eAccelerator加速PHP:
mkdir -p /usr/local/webserver/eaccelerator_cache
vi /usr/local/webserver/php/etc/php.ini
按shift+g键跳到配置文件的最末尾,加上以下配置信息:
引用
[eaccelerator]
zend_extension="/usr/local/webserver/php/lib/php/extensions/no-debug-non-zts-20060613/eaccelerator.so"
eaccelerator.shm_size="64"
eaccelerator.cache_dir="/usr/local/webserver/eaccelerator_cache"
eaccelerator.enable="1"
eaccelerator.optimizer="1"
eaccelerator.check_mtime="1"
eaccelerator.debug="0"
eaccelerator.filter=""
eaccelerator.shm_max="0"
eaccelerator.shm_ttl="3600"
eaccelerator.shm_prune_period="3600"
eaccelerator.shm_only="0"
eaccelerator.compress="1"
eaccelerator.compress_level="9"
7、创建www用户和组,以及供blog.s135.com和两个虚拟主机使用的目录:
/usr/sbin/groupadd www
/usr/sbin/useradd -g www www
mkdir -p /data0/htdocs/blog
chmod +w /data0/htdocs/blog
chown -R www:www /data0/htdocs/blog
mkdir -p /data0/htdocs/www
chmod +w /data0/htdocs/www
chown -R www:www /data0/htdocs/www
8、创建php-fpm配置文件(php-fpm是为PHP打的一个FastCGI管理补丁,可以平滑变更php.ini配置而无需重启php-cgi):
在/usr/local/webserver/php/etc/目录中创建php-fpm.conf文件:
rm -f /usr/local/webserver/php/etc/php-fpm.conf
vi /usr/local/webserver/php/etc/php-fpm.conf
输入以下内容(如果您安装 Nginx + PHP 用于程序调试,请将以下的
0改为
1,以便显示PHP错误信息,否则,Nginx
会报状态为500的空白错误页):
9、启动php-cgi进程,监听127.0.0.1的9000端口,进程数为200(如果服务器内存小于3GB,可以只开启64个进程),用户为www:
ulimit -SHn 65535
/usr/local/webserver/php/sbin/php-fpm start
注:/usr/local/webserver/php/sbin/php-fpm还有其他参数,包
括:start|stop|quit|restart|reload|logrotate,修改php.ini后不重启php-cgi,重新加载配置文件
使用reload。
三、安装Nginx 0.8.15 1、安装Nginx所需的pcre库:
tar zxvf pcre-7.9.tar.gz
cd pcre-7.9/
./configure
make && make install
cd ../
2、安装Nginx
tar zxvf nginx-0.8.15.tar.gz
cd nginx-0.8.15/
./configure --user=www --group=www --prefix=/usr/local/webserver/nginx --with-http_stub_status_module --with-http_ssl_module
make && make install
cd ../
3、创建Nginx日志目录
mkdir -p /data1/logs
chmod +w /data1/logs
chown -R www:www /data1/logs
4、创建Nginx配置文件
①、在/usr/local/webserver/nginx/conf/目录中创建nginx.conf文件:
rm -f /usr/local/webserver/nginx/conf/nginx.conf
vi /usr/local/webserver/nginx/conf/nginx.conf
输入以下内容:
引用
user www www;
worker_processes 8;
error_log /data1/logs/nginx_error.log crit;
pid /usr/local/webserver/nginx/nginx.pid;
#Specifies the value for maximum file descriptors that can be opened by this process.
worker_rlimit_nofile 65535;
events
{
use epoll;
worker_connections 65535;
}
http
{
include mime.types;
default_type application/octet-stream;
#charset gb2312;
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;
#limit_zone crawler $binary_remote_addr 10m;
server
{
listen 80;
server_name blog.s135.com;
index index.html index.htm index.php;
root /data0/htdocs/blog;
#limit_conn crawler 20;
location ~ .*\.(php|php5)?$
{
#fastcgi_pass unix:/tmp/php-cgi.sock;
fastcgi_pass 127.0.0.1:9000;
fastcgi_index index.php;
include fcgi.conf;
}
location ~ .*\.(gif|jpg|jpeg|png|bmp|swf)$
{
expires 30d;
}
location ~ .*\.(js|css)?$
{
expires 1h;
}
log_format access '$remote_addr - $remote_user [$time_local] "$request" '
'$status $body_bytes_sent "$http_referer" '
'"$http_user_agent" $http_x_forwarded_for';
access_log /data1/logs/access.log access;
}
server
{
listen 80;
server_name
index index.html index.htm index.php;
root /data0/htdocs/www;
location ~ .*\.(php|php5)?$
{
#fastcgi_pass unix:/tmp/php-cgi.sock;
fastcgi_pass 127.0.0.1:9000;
fastcgi_index index.php;
include fcgi.conf;
}
log_format wwwlogs '$remote_addr - $remote_user [$time_local] "$request" '
'$status $body_bytes_sent "$http_referer" '
'"$http_user_agent" $http_x_forwarded_for';
access_log /data1/logs/wwwlogs.log wwwlogs;
}
server
{
listen 80;
server_name status.blog.s135.com;
location / {
stub_status on;
access_log off;
}
}
}
②、在/usr/local/webserver/nginx/conf/目录中创建fcgi.conf文件:
vi /usr/local/webserver/nginx/conf/fcgi.conf
输入以下内容:
引用
fastcgi_param GATEWAY_INTERFACE CGI/1.1;
fastcgi_param SERVER_SOFTWARE nginx;
fastcgi_param QUERY_STRING $query_string;
fastcgi_param REQUEST_METHOD $request_method;
fastcgi_param CONTENT_TYPE $content_type;
fastcgi_param CONTENT_LENGTH $content_length;
fastcgi_param SCRIPT_FILENAME $document_root$fastcgi_script_name;
fastcgi_param SCRIPT_NAME $fastcgi_script_name;
fastcgi_param REQUEST_URI $request_uri;
fastcgi_param DOCUMENT_URI $document_uri;
fastcgi_param DOCUMENT_ROOT $document_root;
fastcgi_param SERVER_PROTOCOL $server_protocol;
fastcgi_param REMOTE_ADDR $remote_addr;
fastcgi_param REMOTE_PORT $remote_port;
fastcgi_param SERVER_ADDR $server_addr;
fastcgi_param SERVER_PORT $server_port;
fastcgi_param SERVER_NAME $server_name;
# PHP only, required if PHP was built with --enable-force-cgi-redirect
fastcgi_param REDIRECT_STATUS 200;
5、启动Nginx
ulimit -SHn 65535
/usr/local/webserver/nginx/sbin/nginx
四、配置开机自动启动Nginx + PHPvi /etc/rc.local
在末尾增加以下内容:
引用
ulimit -SHn 65535
/usr/local/webserver/php/sbin/php-fpm start
/usr/local/webserver/nginx/sbin/nginx
五、优化Linux内核参数vi /etc/sysctl.conf
在末尾增加以下内容:
引用
# Add
net.ipv4.tcp_max_syn_backlog = 65536
net.core.netdev_max_backlog = 32768
net.core.somaxconn = 32768
net.core.wmem_default = 8388608
net.core.rmem_default = 8388608
net.core.rmem_max = 16777216
net.core.wmem_max = 16777216
net.ipv4.tcp_timestamps = 0
net.ipv4.tcp_synack_retries = 2
net.ipv4.tcp_syn_retries = 2
net.ipv4.tcp_tw_recycle = 1
#net.ipv4.tcp_tw_len = 1
net.ipv4.tcp_tw_reuse = 1
net.ipv4.tcp_mem = 94500000 915000000 927000000
net.ipv4.tcp_max_orphans = 3276800
#net.ipv4.tcp_fin_timeout = 30
#net.ipv4.tcp_keepalive_time = 120
net.ipv4.ip_local_port_range = 1024 65535
使配置立即生效:
/sbin/sysctl -p
六、在不停止Nginx服务的情况下平滑变更Nginx配置 1、修改/usr/local/webserver/nginx/conf/nginx.conf配置文件后,请执行以下命令检查配置文件是否正确:
/usr/local/webserver/nginx/sbin/nginx -t
如果屏幕显示以下两行信息,说明配置文件正确:
the configuration file /usr/local/webserver/nginx/conf/nginx.conf syntax is ok
the configuration file /usr/local/webserver/nginx/conf/nginx.conf was tested successfully 2、这时,输入以下命令查看Nginx主进程号:
ps -ef | grep "nginx: master process" | grep -v "grep" | awk -F ' ' '{print $2}'
屏幕显示的即为Nginx主进程号,例如:
6302 这时,执行以下命令即可使修改过的Nginx配置文件生效:
kill -HUP 6302
或者无需这么麻烦,找到Nginx的Pid文件:
kill -HUP `cat /usr/local/webserver/nginx/nginx.pid`
七、编写每天定时切割Nginx日志的脚本 1、创建脚本/usr/local/webserver/nginx/sbin/cut_nginx_log.sh
vi /usr/local/webserver/nginx/sbin/cut_nginx_log.sh
输入以下内容:
引用
#!/bin/bash
# This script run at 00:00
# The Nginx logs path
logs_path="/usr/local/webserver/nginx/logs/"
mkdir -p ${logs_path}$(date -d "yesterday" +"%Y")/$(date -d "yesterday" +"%m")/
mv
${logs_path}access.log ${logs_path}$(date -d "yesterday" +"%Y")/$(date
-d "yesterday" +"%m")/access_$(date -d "yesterday" +"%Y%m%d").log
kill -USR1 `cat /usr/local/webserver/nginx/nginx.pid`
2、设置crontab,每天凌晨00:00切割nginx访问日志
crontab -e
输入以下内容:
引用
00 00 * * * /bin/bash /usr/local/webserver/nginx/sbin/cut_nginx_log.sh
本文若有小的修改,会第一时间在以下网址发布:
http://blog.s135.com/nginx_php_v5/
附:文章修改历史 ● [2009年05月06日] [Version 5.0] 在4.14版本的基础上重新撰写本文,支持PHP 5.2.9,增加MySQL配置过程
● [2009年05月10日] [Version 5.1] 增加压力测试方法。
● [2009年05月20日] [Version 5.2] Nginx升级到0.7.58版本;PHP编译选项增加:--with-xmlrpc --enable-zip。
● [2009年06月10日] [Version 5.3] Nginx升级到0.7.59版本;MySQL升级到5.1.35版本。
● [2009年06月26日] [Version 5.4] Nginx升级到0.7.61版本;PHP升级到5.2.10版本;PCRE升级到7.9版本;PHP增加soap扩展;关闭了PHP的PEAR;优化sysctl配置。
● [2009年09月18日] [Version 5.5] Nginx升级到0.8.15版本;PCRE升级到7.9版本;解决PHP 5.2.10 的PEAR问题。
(全文完)