CentOS6.5下redis安装部署配置指南、常用命令、主从同步集群、redis-php学习资料整合详解。1、Redis的介绍、安装、配置、启动流程
1.1、Redis 特征简介
Redis是Remote Dictionary Server的缩写。他本质上一个Key/Value数据库,与Memcached类似的NoSQL型数据库,但是他的数据可以持久化的保存在磁盘上,解决了服务重启后数据不丢失的问题,他的值可以是string(字符串)、list(列表)、sets(集合)或者是ordered sets(被排序的集合),所有的数据类型都具有push/pop、add/remove、执行服务端的并集、交集、两个sets集中的差别等等操作,这些操作都是具有原子性的,Redis还支持各种不同的排序能力。Redis 支持绝大部分主流的开发语言, 如: PHP、 Java、 C#、 Perl、 Python、 Ruby 等等
通常,Redis将数据存储于内存中,或被配置为使用虚拟内存。通过两种方式可以实现数据持久化:使用截图的方式,将内存中的数据不断写入磁盘;或使用类似 MySQL 的日志方式,记录每次更新的日志。前者性能较高,但是可能会引起一定程度的数据丢失;后者相反。Redis 支持将数据同步到多台从库上,这种特性对提高读取性能非常有(在物理机真实环境中每秒高并发读取速度能达到十万多次)。1.2、redis下载
[root@mysqldb1 ~]# wget http://download.redis.io/releases/redis-3.0.5.tar.gz1.3、解压
[root@mysqldb1 ~]# tar xf redis-3.0.5.tar.gz这样就在当前目录下新建了一个包含发行版源代码的目录,必须cd进入这个目录以继续服务器的编译。1.4、编译及安装进入redis解压目录,执行如下命令编译Redis:
[root@mysqldb1 ~]# cd redis-3.0.5
[root@mysqldb1 redis-3.0.5]# make && make install也可以指定目录安装:
make prefix=/path/to/installdir install
安装tcmalloc包需指定参数,如make USE_TCMALLOC=yes FORCE_LIBC_MALLOC=yes
因为对一个基本的配置的编译,一般需要1分钟左右的时间,实际需要的时间因你的硬件和选择的模块数量会有很大不同。1.5、配置接着,复制redis.conf到/etc/下,修改配置文件,来配置Redis服务器。
1 [root@mysqldb1 redis-3.0.5]# cp redis.conf /etc/1.6、参数参看
1234567891011121314 [root@mysqldb1 redis-3.0.5]# redis-server --help
Usage: ./redis-server [/path/to/redis.conf] [options]
./redis-server - (read config from stdin)
./redis-server -v or --version
./redis-server -h or --help
./redis-server --test-memory <megabytes>
Examples:
./redis-server (run the server with default conf)
./redis-server /etc/redis/6379.conf
./redis-server --port 7777
./redis-server --port 7777 --slaveof 127.0.0.1 8888
./redis-server /etc/myredis.conf --loglevel verbose
Sentinel mode:
./redis-server /etc/sentinel.conf --sentinel1.7、版本参看
[root@mysqldb1 redis-3.0.5]# redis-server -v
Redis server v=3.0.5 sha=00000000:0 malloc=jemalloc-3.6.0 bits=64 build=ee8d4e51452e58791.8、启动Redis服务器
[root@mysqldb1 redis-3.0.5]# redis-server /etc/redis.conf注:此命令仅有一个启动参数,指定/path/to/redis.conf目录下的配置文件,不加参数执行默认配置。
[root@mysqldb1 ~]# redis-cli ping
PONG测试启动 redis-cli ping 返回PONG,启动成功。
[root@mysqldb1 ~]# netstat -tulnp | grep 6379
tcp 0 0 0.0.0.0:6379 0.0.0.0:* LISTEN 11731/redis-server
tcp 0 0 :::6379 :::* LISTEN 11731/redis-server 1.9、停止Redis关闭服务[root@mysqldb1 ~]# redis-cli shutdown
[root@mysqldb1 ~]# netstat -tulnp | grep 6379
[root@mysqldb1 ~]# redis-cli ping
Could not connect to Redis at 127.0.0.1:6379: Connection refused注:可指定端口:redis-cli -p <port> shutdown1.10、连接Redis
两种链接redis的方法:
方法一、
[root@mysqldb1 ~]# redis-cli #也可以指定ip,端口号启动redis(redis-cli -h 192.168.1.2 -p 6379)
127.0.0.1:6379>
127.0.0.1:6379> quit方法二、
[root@mysqldb1 ~]# telnet 192.168.1.2 6379
Trying 192.168.1.2...
Connected to 192.168.1.2.
Escape character is "^]".
quit
+OK
Connection closed by foreign host.2、redis常用命令详解
2.1、redis编译安装命令查看
[root@mysqldb1 redis-3.0.5]#cd /usr/local/bin
[root@mysqldb1 bin]# ll | grep redis
-rwxr-xr-x. 1 root root 4587299 Nov 2 01:26 redis-benchmark
-rwxr-xr-x. 1 root root 22177 Nov 2 01:26 redis-check-aof
-rwxr-xr-x. 1 root root 45387 Nov 2 01:26 redis-check-dump
-rwxr-xr-x. 1 root root 4691450 Nov 2 01:26 redis-cli
lrwxrwxrwx. 1 root root 12 Nov 2 01:26 redis-sentinel -> redis-server
-rwxr-xr-x. 1 root root 6464789 Nov 2 01:26 redis-server2.2、redis-benchmark是Redis性能测试工具,测试Redis在你的系统及你的配置下的读写性能,redis的基准信息和性能检测。
redis-benchmark参数:
[root@mysqldb1 ~]# redis-benchmark --help
Usage: redis-benchmark [-h <host>] [-p <port>] [-c <clients>] [-n <requests]> [-k <boolean>]
-h <hostname> Server hostname (default 127.0.0.1)
设置检测主机IP地址,默认为127.0.0.1
-p <port> Server port (default 6379)
设置检测主机的端口号,默认为6379
-s <socket> Server socket (overrides host and port)
<socket> 服务器套接字(压到主机和端口)
-a <password> Password for Redis Auth
-c <clients> Number of parallel connections (default 50)
客户端并发连接数
-n <requests> Total number of requests (default 100000)
客户端总共发出的请求数
-d <size> Data size of SET/GET value in bytes (default 2)
测试使用的数据集的大小/字节的值(默认2字节)
-dbnum <db> SELECT the specified db number (default 0)
-k <boolean> 1=keep alive 0=reconnect (default 1)
1:表示保持连接(默认值)0:重新连接
-r <keyspacelen> Use random keys for SET/GET/INCR, random values for SADD
Using this option the benchmark will expand the string __rand_int__
inside an argument with a 12 digits number in the specified range
from 0 to keyspacelen-1. The substitution changes every time a command
is executed. Default tests use this to hit random keys in the
specified range.
SET/GET/INCR方法使用随机数插入数值,如果设置为100则插入值为rand:000000000000 - rand:000000000099
-P <numreq> Pipeline <numreq> requests. Default 1 (no pipeline).
默认为1(无管道),当网络延迟过长时,使用管道方式通信(请求和响应打包发送接收)
-q Quiet. Just show query/sec values
简约信息模式,只显示查询和秒值等基本信息。
--csv Output in CSV format
以CSV格式输出信息
-l Loop. Run the tests forever
无线循环插入测试数据,ctrl+c停止
-t <tests> Only run the comma separated list of tests. The test
names are the same as the ones produced as output.
只运行<tests>测试逗号分隔的列表命令,如:-t ping,set,get
-I Idle mode. Just open N idle connections and wait.
空闲模式。立即打开50个空闲连接和等待。
Examples:
Run the benchmark with the default configuration against 127.0.0.1:6379:
$ redis-benchmark
Use 20 parallel clients, for a total of 100k requests, against 192.168.1.1:
$ redis-benchmark -h 192.168.1.1 -p 6379 -n 100000 -c 20
Fill 127.0.0.1:6379 with about 1 million keys only using the SET test:
$ redis-benchmark -t set -n 1000000 -r 100000000
Benchmark 127.0.0.1:6379 for a few commands producing CSV output:
$ redis-benchmark -t ping,set,get -n 100000 --csv
Benchmark a specific command line:
$ redis-benchmark -r 10000 -n 10000 eval "return redis.call("ping")" 0
Fill a list with 10000 random elements:
$ redis-benchmark -r 10000 -n 10000 lpush mylist __rand_int__
On user specified command lines __rand_int__ is replaced with a random integer
with a range of values selected by the -r option.2.3、redis-cli 的使用说明
12345678910111213141516171819202122232425262728293031323334353637383940414243444546474849 root@mysqldb1 ~]# redis-cli --help
redis-cli 3.0.5
Usage: redis-cli [OPTIONS] [cmd [arg [arg ...]]]
-h <hostname> Server hostname (default: 127.0.0.1).
-p <port> Server port (default: 6379).
-s <socket> Server socket (overrides hostname and port).
-a <password> Password to use when connecting to the server.
-r <repeat> Execute specified command N times.
-i <interval> When -r is used, waits <interval> seconds per command.
It is possible to specify sub-second times like -i 0.1.
-n <db> Database number.
-x Read last argument from STDIN.
-d <delimiter> Multi-bulk delimiter in for raw formatting (default:
).
-c Enable cluster mode (follow -ASK and -MOVED redirections).
--raw Use raw formatting for replies (default when STDOUT is
not a tty).
--no-raw Force formatted output even when STDOUT is not a tty.
--csv Output in CSV format.
--stat Print rolling stats about server: mem, clients, ...
--latency Enter a special mode continuously sampling latency.
--latency-history Like --latency but tracking latency changes over time.
Default time interval is 15 sec. Change it using -i.
--latency-dist Shows latency as a spectrum, requires xterm 256 colors.
Default time interval is 1 sec. Change it using -i.
--lru-test <keys> Simulate a cache workload with an 80-20 distribution.
--slave Simulate a slave showing commands received from the master.
--rdb <filename> Transfer an RDB dump from remote server to local file.
--pipe Transfer raw Redis protocol from stdin to server.
--pipe-timeout <n> In --pipe mode, abort with error if after sending all data.
no reply is received within <n> seconds.
Default timeout: 30. Use 0 to wait forever.
--bigkeys Sample Redis keys looking for big keys.
--scan List all keys using the SCAN command.
--pattern <pat> Useful with --scan to specify a SCAN pattern.
--intrinsic-latency <sec> Run a test to measure intrinsic system latency.
The test will run for the specified amount of seconds.
--eval <file> Send an EVAL command using the Lua script at <file>.
--help Output this help and exit.
--version Output version and exit.
Examples:
cat /etc/passwd | redis-cli -x set mypasswd
redis-cli get mypasswd
redis-cli -r 100 lpush mylist x
redis-cli -r 100 -i 1 info | grep used_memory_human:
redis-cli --eval myscript.lua key1 key2 , arg1 arg2 arg3
redis-cli --scan --pattern "*:12345*"
(Note: when using --eval the comma separates KEYS[] from ARGV[] items)
When no command is given, redis-cli starts in interactive mode.
Type "help" in interactive mode for information on available commands.2.4、redis-check-aof更新日志检查 ,加--fix参数为修复log文件
redis-check-aof appendonly.aof2.5、 redis-check-dump检查本地数据库文件
redis-check-dump dump.rdb2.6、获取服务器的信息和统计
[root@mysqldb1 bin]# redis-cli -p 6379 info
# Server
redis_version:3.0.5
redis_git_sha1:00000000
redis_git_dirty:0
redis_build_id:ee8d4e51452e5879
redis_mode:standalone
os:Linux 2.6.32-431.el6.x86_64 x86_64
arch_bits:64
multiplexing_api:epoll
gcc_version:4.4.7
process_id:11760
run_id:51f2b7336fae3bf3e1e4a21d76aa71b02f1e9608
tcp_port:6379
uptime_in_seconds:10033
uptime_in_days:0
hz:10
lru_clock:3570034
config_file:/etc/redis.conf
# Clients
connected_clients:1
client_longest_output_list:0
client_biggest_input_buf:0
blocked_clients:0
# Memory
used_memory:188575024
used_memory_human:179.84M
used_memory_rss:241483776
used_memory_peak:228770552
used_memory_peak_human:218.17M
used_memory_lua:36864
mem_fragmentation_ratio:1.28
mem_allocator:jemalloc-3.6.0
# Persistence
loading:0
rdb_changes_since_last_save:0
rdb_bgsave_in_progress:0
rdb_last_save_time:1446405599
rdb_last_bgsave_status:ok
rdb_last_bgsave_time_sec:2
rdb_current_bgsave_time_sec:-1
aof_enabled:0
aof_rewrite_in_progress:0
aof_rewrite_scheduled:0
aof_last_rewrite_time_sec:-1
aof_current_rewrite_time_sec:-1
aof_last_bgrewrite_status:ok
aof_last_write_status:ok
# Stats
total_connections_received:71398
total_commands_processed:22036268
instantaneous_ops_per_sec:0
total_net_input_bytes:820805789
total_net_output_bytes:15461673777
instantaneous_input_kbps:0.00
instantaneous_output_kbps:0.00
rejected_connections:0
sync_full:0
sync_partial_ok:0
sync_partial_err:0
expired_keys:0
evicted_keys:0
keyspace_hits:6295156
keyspace_misses:0
pubsub_channels:0
pubsub_patterns:0
latest_fork_usec:3258
migrate_cached_sockets:0
# Replication
role:master
connected_slaves:0
master_repl_offset:0
repl_backlog_active:0
repl_backlog_size:1048576
repl_backlog_first_byte_offset:0
repl_backlog_histlen:0
# CPU
used_cpu_sys:388.55
used_cpu_user:250.86
used_cpu_sys_children:1.06
used_cpu_user_children:3.15
# Cluster
cluster_enabled:0
# Keyspace
db0:keys=994967,expires=0,avg_ttl=03、redis主从模式实战3.1、Redis的主从配置简介:
在Redis中配置Master-Slave模式其实非常的简单。相信在阅读完下面的文章您可以轻松愉快做到完成redis的Master-Slave同步。这里我先给大家列出一些理论性的知识,后面给出实际操作的案例。
下面的列表清楚的解释了Redis Replication的特点和优势。
1、同一个Master可以同步多个Slaves。 2、Slave同样可以接受其它Slaves的连接和同步请求,这样可以有效的分载Master的同步压力。因此我们可以将Redis的Replication架构视为图结构。
3、Master Server是以非阻塞的方式为Slaves提供服务。所以在Master-Slave同步期间,客户端仍然可以提交查询或修改请求。
4、Slave Server同样是以非阻塞的方式完成数据同步。在同步期间,如果有客户端提交查询请求,Redis则返回同步之前的数据。5、为了分担Master的读操作压力,Slave服务器可以为客户端提供只读操作的服务,写服务仍然必须由Master来完成。即便如此,系统的伸缩性还是得到了很大的提高。
6、Master可以将数据保存操作交给Slaves完成,从而避免了在Master中要有独立的进程来完成此操作。3.2、redis主从的工作原理:
在Slave启动并连接到Master之后,它将主动发送一个SYNC命令。此后Master将启动后台存盘进程,同时收集所有接收到的用于修改数据集的命令,在后台进程执行完毕后,Master将传送整个数据库文件到Slave,以完成一次完全同步。而Slave服务器在接收到数据库文件数据之后将其存盘并加载到内存中。此后,Master继续将所有已经收集到的修改命令,和新的修改命令依次传送给Slaves,Slave将在本次执行这些数据修改命令,从而达到最终的数据同步。
如果Master和Slave之间的链接出现断连现象,Slave可以自动重连Master,但是在连接成功之后,一次完全同步将被自动执行。
3.3、配置步骤说明:
Redis 的 master/slave 数据复制方式可以是一主一从或者是一主多从的方式,Redis 在master 是非阻塞模式,也就是说在 slave 执行数据同步的时候,master 是可以接受客户端的请求的,并不影响同步数据的一致性,然而在 slave 端是阻塞模式的,slave 在同步 master数据时,并不能够响应客户端的查询Redis 的 master/slave 模式下,master 提供数据读写服务,而 slave 只提供读服务Redis的 master/slave 的配置方式是在 slave 主机的 Redis目录下的 redis.conf 配置文件中
配置方式可以有2种:
1234567 1、一主一从
master -> slave
2、一主多从
master -> slave -> slave -> slave
├--> slave -> slave
├─-> slave -> slave
└─-> slave -> slave一个集群可以包含最多4096个节点(主节点master和从节点slave),建议最多设置几百个节点,其配置特简单,就是把从服务器的redis.conf配置文件中的slaveof参数指向主服务器的ip 及 端口。3.4、创建主从实现案例(本案例是通过一主机多端口的方式实现的):3.4.1、创建redis主从目录
[root@mysqldb1 redis]# mkdir /redis/{master_6379,slave_6380}/{conf,log,data} -p
[root@mysqldb1 redis]# ls
master_6379 slave_63803.4.2、分别修改redis主从服务器的配置文件
[root@mysqldb1 redis-3.0.5]# cp /root/redis-3.0.5/redis.conf master_6379/conf/master.conf
[root@mysqldb1 redis-3.0.5]# cp /root/redis-3.0.5/redis.conf slave_6380/conf/slave.conf
[root@mysqldb1 redis]# vim master_6379/conf/master.conf#修改主服务器的配置文件
47 pidfile /redis/master_6379/redis_master.pid
51 port
110 logfile "/redis/master_6379/log/master.log"
193 dir /redis/master_6379/data/
515 appendfilename "appendonly.aof"
[root@mysqldb1 redis]# vim /redis/slave_6380/conf/slave.conf #修改从服务器的配置文件
46 pidfile /redis/slave_6380/redis_slave.pid
50 port 6380
109 logfile "/redis/slave_6380/log/slave.log"
192 dir /redis/slave_6380/data/
212 slaveof 127.0.0.1 6379
514 appendfilename "appendonly.aof"3.4.3、分别启动主、从服务器
[root@mysqldb1 master_6379]# redis-server /redis/master_6379/conf/master.conf
[root@mysqldb1 slave_6380]# redis-server /redis/slave_6380/conf/slave.conf3.4.4、分别查看主、从服务器的日志文件
[root@mysqldb1 redis]# cat /redis/master_6379/log/master.log #主服务器的日志文件
... ...
14363:M 02 Nov 12:42:57.805 * DB loaded from disk: 0.000 seconds
14363:M 02 Nov 12:42:57.805 * The server is now ready to accept connections on port 6379#主服务器的启动端口
14363:M 02 Nov 12:43:36.361 * Slave 127.0.0.1:6380 asks for synchronization#要求同步的从服务器信息
14363:M 02 Nov 12:43:36.361 * Full resync requested by slave 127.0.0.1:6380
14363:M 02 Nov 12:43:36.361 * Starting BGSAVE for SYNC with target: disk
14363:M 02 Nov 12:43:36.496 * Background saving started by pid 14371
14371:C 02 Nov 12:43:36.528 * DB saved on disk
14371:C 02 Nov 12:43:36.528 * RDB: 4 MB of memory used by copy-on-write
14363:M 02 Nov 12:43:36.597 * Background saving terminated with success
14363:M 02 Nov 12:43:36.597 * Synchronization with slave 127.0.0.1:6380 succeeded
[root@mysqldb1 redis]# cat /redis/slave_6380/log/slave.log #从服务器的日志文件
... ...
14368:S 02 Nov 12:43:35.424 * DB loaded from disk: 0.000 seconds
14368:S 02 Nov 12:43:35.424 * The server is now ready to accept connections on port 6380#从服务器的启动端口
14368:S 02 Nov 12:43:36.360 * Connecting to MASTER 127.0.0.1:6379#正在连接主服务器
14368:S 02 Nov 12:43:36.361 * MASTER <-> SLAVE sync started#主从同步已经开始
14368:S 02 Nov 12:43:36.361 * Non blocking connect for SYNC fired the event.
14368:S 02 Nov 12:43:36.361 * Master replied to PING, replication can continue...
14368:S 02 Nov 12:43:36.361 * Partial resynchronization not possible (no cached master)
14368:S 02 Nov 12:43:36.497 * Full resync from master: dd7a9d178eb3434494fecd4c97cc05e8d6bc1a69:1
14368:S 02 Nov 12:43:36.598 * MASTER <-> SLAVE sync: receiving 55 bytes from master
14368:S 02 Nov 12:43:36.598 * MASTER <-> SLAVE sync: Flushing old data
14368:S 02 Nov 12:43:36.598 * MASTER <-> SLAVE sync: Loading DB in memory
14368:S 02 Nov 12:43:36.598 * MASTER <-> SLAVE sync: Finished with success3.4.5、查看redis主、从数据文件md5指纹信息
[root@mysqldb1 redis]# find /redis/ -name *.rdb | xargs md5sum
81646a7364950775039f694b1ddd6c8a /redis/slave_6380/data/slave_dump.rdb
81646a7364950775039f694b1ddd6c8a /redis/master_6379/data/master_dump.rdb通过指纹信息可以得到redis主、从服务器的数据是一致的3.4.6、向主服务器添加数据
[root@mysqldb1 ~]# redis-cli -p 6379
127.0.0.1:6379> set key1 hello
OK
127.0.0.1:6379> set key2 liangge
OK
127.0.0.1:6379> set key3 OK
OK
127.0.0.1:6379> keys *
1) "key2"
2) "key1"
3) "key3"
127.0.0.1:6379> quit3.4.7、在从服务器上查看数据信息是否已同步
[root@mysqldb1 ~]# redis-cli -p 6380
127.0.0.1:6380> get key1
"hello"
127.0.0.1:6380> get key2
"liangge"
127.0.0.1:6380> get key3
"OK"
127.0.0.1:6380> keys *
1) "key1"
2) "key2"
3) "key3"
127.0.0.1:6380> quit3.4.8、再次查看主、从服务器的md5数据指纹
[root@mysqldb1 ~]# find /redis/ -name *.rdb |xargs md5sum
81646a7364950775039f694b1ddd6c8a /redis/slave_6380/data/slave_dump.rdb
81646a7364950775039f694b1ddd6c8a /redis/master_6379/data/master_dump.rdb3.4.9、查看redis主从服务器工作目录
[root@mysqldb1 redis]# tree /redis
/redis
├── master_6379
│ ├── conf
│ │ └── master.conf
│ ├── data
│ │ └── master_dump.rdb
│ └── log
│ └── master.log
└── slave_6380
├── conf
│ └── slave.conf
├── data
│ └── slave_dump.rdb
└── log
└── slave.log
8 directories, 6 files4、PHP中安装redis插件4.1、下载php_redis扩展模块
phpredis下载地址: https://codeload.github.com/owlient/phpredis/zip/master4.2、安装php_redis扩展模块
[root@LNMP ~]# unzip phpredis-master.zip
[root@LNMP ~]# cd phpredis-master
[root@LNMP phpredis-master]# /usr/local/php5.5.30/bin/phpize
[root@LNMP phpredis-master]# ./configure --with-php-config=/usr/local/php5.5.30/bin/php-config
[root@LNMP phpredis-master]# make && make install
[root@LNMP phpredis-master]# ll /usr/local/php5.5.30/lib/php/extensions/no-debug-non-zts-20121212/
total 1668
-rwxr-xr-x. 1 root root 465457 Nov 2 06:21 memcache.so
-rwxr-xr-x. 1 root root 303946 Oct 14 04:24 opcache.a
-rwxr-xr-x. 1 root root 210011 Oct 14 04:24 opcache.so
-rwxr-xr-x. 1 root root 717996 Nov 2 18:35 redis.so
#说明php_redis模块已经安装成功4.3、在php.php文件中配置php_redis模块
12345 [root@LNMP phpredis-master]# vim /usr/local/php5.5.30/lib/php.ini
extension_dir="/usr/local/php5.5.30/lib/php/extensions/no-debug-non-zts-20121212/"
extension="memcache.so"
extension="redis.so"
#如果以前配置过php扩展模块现在只需要加上这行即可。4.4、查看php是否启动,如果启动则重启,如若没有启动则直接启动。
[root@LNMP phpredis-master]# netstat -tulnp | egrep "php|nginx"
tcp 0 0 0.0.0.0:80 0.0.0.0:* LISTEN 9922/nginx
tcp 0 0 127.0.0.1:9000 0.0.0.0:* LISTEN 13361/php-fpm
[root@LNMP phpredis-master]# pkill php
[root@LNMP phpredis-master]# netstat -tulnp | egrep "php|nginx"
tcp 0 0 0.0.0.0:80 0.0.0.0:* LISTEN 9922/nginx
[root@LNMP phpredis-master]# /usr/local/php5.5.30/sbin/php-fpm -t
[02-Nov-2015 18:53:33] NOTICE: configuration file /usr/local/php5.5.30/etc/php-fpm.conf test is successful
[root@LNMP phpredis-master]# /usr/local/php5.5.30/sbin/php-fpm -c /usr/local/php5.5.30/lib/php.ini
[root@LNMP phpredis-master]# netstat -tulnp | egrep "php|nginx"
tcp 0 0 0.0.0.0:80 0.0.0.0:* LISTEN 9922/nginx
tcp 0 0 127.0.0.1:9000 0.0.0.0:* LISTEN 13400/php-fpm4.5、在浏览器查看php_redis模块是否成功加载,本机是用linux命令行工具查看
[root@LNMP phpredis-master]# curl localhost/phpinfo.php|grep redis
% Total % Received % Xferd Average Speed Time Time Time Current
Dload Upload Total Spent Left Speed
0 0 0 0 0 0 0 0 --:--:-- --:--:-- --:--:-- 0<h2><a name="module_redis">redis</a></h2>
<tr><td class="e">Registered save handlers </td><td class="v">files user memcache redis </td></tr>
100 67295 0 67295 0 0 4433k 0 --:--:-- --:--:-- --:--:-- 6571k
This program is free software; you can redistribute it and/or modify it under the terms of the PHP License as published by the PHP Group and included in the distribution in the file: LICENSE5、编写php程序测试php_redis模块
5.1、php连接redis的程序代码
<?php
$redis = new Redis();
$redis->connect("192.168.1.2",6379) or die("Could not connect redis");
$redis->set("mykey1","liangge");
echo "after insert get mykey1: ".$redis->get("mykey1");
$redis->delete("mykey1");
echo "<br>after delete get mykey1: ".$redis->get("mykey1");
?>5.2、调试输出结果
after insert get mykey1: liangge
after delete get mykey1:
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Redis 的详细介绍:请点这里
Redis 的下载地址:请点这里
本文永久更新链接地址 
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