参考:https://www.cnblogs.com/pyyu/p/9843950.html  redis博客地址

编译安装redis

开始部署

[root@mcw01 ~]$ ls
anaconda-ks.cfg mongodb-linux-x86_64-3.2.8.tgz
[root@mcw01 ~]$ wget http://download.redis.io/releases/redis-4.0.10.tar.gz
--2022-03-05 18:27:02-- http://download.redis.io/releases/redis-4.0.10.tar.gz
Resolving download.redis.io (download.redis.io)... 45.60.125.1
Connecting to download.redis.io (download.redis.io)|45.60.125.1|:80... connected.
HTTP request sent, awaiting response... 200 OK
Length: 1738465 (1.7M) [application/octet-stream] Saving to: ‘redis-4.0.10.tar.gz’ 100%[====================>] 1,738,465 63.4KB/s in 25s 2022-03-05 18:27:27 (68.2 KB/s) - ‘redis-4.0.10.tar.gz’ saved [1738465/1738465] [root@mcw01 ~]$ ls
anaconda-ks.cfg mongodb-linux-x86_64-3.2.8.tgz redis-4.0.10.tar.gz
[root@mcw01 ~]$ tar xf redis-4.0.10.tar.gz
[root@mcw01 ~]$ ls
anaconda-ks.cfg mongodb-linux-x86_64-3.2.8.tgz redis-4.0.10 redis-4.0.10.tar.gz
[root@mcw01 ~]$ cd redis-4.0.10/
[root@mcw01 ~/redis-4.0.10]$ ls #有makefile文件,就不需要./configure配置
00-RELEASENOTES COPYING Makefile redis.conf runtest-sentinel tests
BUGS deps MANIFESTO runtest sentinel.conf utils
CONTRIBUTING INSTALL README.md runtest-cluster src
[root@mcw01 ~/redis-4.0.10]$ make

报错 gcc命令没有找到:

cd hiredis && make static
make[3]: Entering directory `/root/redis-4.0.10/deps/hiredis'
gcc -std=c99 -pedantic -c -O3 -fPIC -Wall -W -Wstrict-prototypes -Wwrite-strings -g -ggdb net.c
make[3]: gcc: Command not found
make[3]: *** [net.o] Error 127
make[3]: Leaving directory `/root/redis-4.0.10/deps/hiredis'
make[2]: *** [hiredis] Error 2
make[2]: Leaving directory `/root/redis-4.0.10/deps'
make[1]: [persist-settings] Error 2 (ignored)
CC adlist.o
/bin/sh: cc: command not found
make[1]: *** [adlist.o] Error 127
make[1]: Leaving directory `/root/redis-4.0.10/src'
make: *** [all] Error 2

#解决编译安装所需的依赖环境继续部署

um install gcc patch libffi-devel python-devel  zlib-devel bzip2-devel openssl-devel ncurses-devel sqlite-devel readline-devel tk-devel gdbm-devel db4-devel libpcap-devel xz-devel openssl openssl-devel -y

然后重新执行:
[root@mcw01 ~/redis-4.0.10]$ make #发现报错没有某个目录或文件。在这之前编译失败了,目录被改变了部分,所以直接删除重新解压,然后make编译
......
Hint: It's a good idea to run 'make test' ;) make[1]: Leaving directory `/root/redis-4.0.10/src'
[root@mcw01 ~/redis-4.0.10]$ ls
00-RELEASENOTES COPYING Makefile redis.conf runtest-sentinel tests
BUGS deps MANIFESTO runtest sentinel.conf utils
CONTRIBUTING INSTALL README.md runtest-cluster src
[root@mcw01 ~/redis-4.0.10]$ make install
cd src && make install
make[1]: Entering directory `/root/redis-4.0.10/src'
CC Makefile.dep
make[1]: Leaving directory `/root/redis-4.0.10/src'
make[1]: Entering directory `/root/redis-4.0.10/src' Hint: It's a good idea to run 'make test' ;) INSTALL install
INSTALL install
INSTALL install
INSTALL install
INSTALL install
make[1]: Leaving directory `/root/redis-4.0.10/src'
[root@mcw01 ~/redis-4.0.10]$
[root@mcw01 ~/redis-4.0.10]$ redis-c #当编译好之后,就可以命令补全,也就是已经配置好环境变量了
redis-check-aof redis-check-rdb redis-cli
[root@mcw01 ~/redis-4.0.10]$
[root@mcw01 ~/redis-4.0.10]$ which redis-server #默认编译安装到/usr/local下去了
/usr/local/bin/redis-server
[root@mcw01 ~/redis-4.0.10]$

redis服务端运行和客户端连接

[root@mcw01 ~]$ redis-server  #安装好之后,直接运行这个命令
24270:C 05 Mar 18:43:08.857 # oO0OoO0OoO0Oo Redis is starting oO0OoO0OoO0Oo
24270:C 05 Mar 18:43:08.857 # Redis version=4.0.10, bits=64, commit=00000000, modified=0, pid=24270, just started
24270:C 05 Mar 18:43:08.857 # Warning: no config file specified, using the default config. In order to specify a config file use redis-server /path/to/redis.conf
_._
_.-``__ ''-._
_.-`` `. `_. ''-._ Redis 4.0.10 (00000000/0) 64 bit
.-`` .-```. ```\/ _.,_ ''-._
( ' , .-` | `, ) Running in standalone mode
|`-._`-...-` __...-.``-._|'` _.-'| Port: 6379
| `-._ `._ / _.-' | PID: 24270
`-._ `-._ `-./ _.-' _.-'
|`-._`-._ `-.__.-' _.-'_.-'|
| `-._`-._ _.-'_.-' | http://redis.io
`-._ `-._`-.__.-'_.-' _.-'
|`-._`-._ `-.__.-' _.-'_.-'|
| `-._`-._ _.-'_.-' |
`-._ `-._`-.__.-'_.-' _.-'
`-._ `-.__.-' _.-'
`-._ _.-'
`-.__.-' 24270:M 05 Mar 18:43:08.880 # Server initialized
24270:M 05 Mar 18:43:08.880 # WARNING overcommit_memory is set to 0! Background save may fail under low memory condition. To fix this issue add 'vm.overcommit_memory = 1' to /etc/sysctl.conf and then reboot or run the command 'sysctl vm.overcommit_memory=1' for this to take effect.
24270:M 05 Mar 18:43:08.880 # WARNING you have Transparent Huge Pages (THP) support enabled in your kernel. This will create latency and memory usage issues with Redis. To fix this issue run the command 'echo never > /sys/kernel/mm/transparent_hugepage/enabled' as root, and add it to your /etc/rc.local in order to retain the setting after a reboot. Redis must be restarted after THP is disabled.
24270:M 05 Mar 18:43:08.880 * Ready to accept connections 客户端连接:
[root@mcw01 ~]$ redis-cli 127.0.0.1 6379 ^C #我再开一个窗口,默认连接的ip 端口
[root@mcw01 ~]$ redis-cli #连上之后,ping命令,返回pong,说明连接成功的
127.0.0.1:6379> ping
PONG
127.0.0.1:6379>

redis配置

[root@mcw01 ~]$ ln -s redis-4.0.10  redis
[root@mcw01 ~]$ ls
anaconda-ks.cfg dump.rdb mongodb-linux-x86_64-3.2.8.tgz redis redis-4.0.10 redis-4.0.10.tar.gz
[root@mcw01 ~]$ ls redis
00-RELEASENOTES COPYING Makefile redis.conf runtest-sentinel tests
BUGS deps MANIFESTO runtest sentinel.conf utils
CONTRIBUTING INSTALL README.md runtest-cluster src
[root@mcw01 ~]$ cd redis
[root@mcw01 ~/redis]$ egrep -v "^#|^$" redis.conf >mcwRedis.conf
[root@mcw01 ~/redis]$ cat mcwRedis.conf
bind 127.0.0.1
protected-mode yes #保护模式开启,并且绑定ip是本机,应该是不支持远程访问,只支持本机访问。
port 6379
tcp-backlog 511
timeout 0
tcp-keepalive 300
daemonize no
supervised no
pidfile /var/run/redis_6379.pid
loglevel notice
logfile ""
databases 16
always-show-logo yes
save 900 1
save 300 10
save 60 10000
stop-writes-on-bgsave-error yes
rdbcompression yes
rdbchecksum yes
dbfilename dump.rdb
dir ./
slave-serve-stale-data yes
slave-read-only yes
repl-diskless-sync no
repl-diskless-sync-delay 5
repl-disable-tcp-nodelay no
slave-priority 100
lazyfree-lazy-eviction no
lazyfree-lazy-expire no
lazyfree-lazy-server-del no
slave-lazy-flush no
appendonly no
appendfilename "appendonly.aof"
appendfsync everysec
no-appendfsync-on-rewrite no
auto-aof-rewrite-percentage 100
auto-aof-rewrite-min-size 64mb
aof-load-truncated yes
aof-use-rdb-preamble no
lua-time-limit 5000
slowlog-log-slower-than 10000
slowlog-max-len 128
latency-monitor-threshold 0
notify-keyspace-events ""
hash-max-ziplist-entries 512
hash-max-ziplist-value 64
list-max-ziplist-size -2
list-compress-depth 0
set-max-intset-entries 512
zset-max-ziplist-entries 128
zset-max-ziplist-value 64
hll-sparse-max-bytes 3000
activerehashing yes
client-output-buffer-limit normal 0 0 0
client-output-buffer-limit slave 256mb 64mb 60
client-output-buffer-limit pubsub 32mb 8mb 60
hz 10
aof-rewrite-incremental-fsync yes
[root@mcw01 ~/redis]$

redis简单配置并启动

[root@mcw01 ~/redis]$ cat mcwRedis.conf
bind 10.0.0.11
protected-mode yes
port 6379
requirepass mcw123 #配置认证密码
daemonize yes #后台守护进程的方式开启
pidfile /var/run/redis_6379.pid
loglevel notice
logfile ""
[root@mcw01 ~/redis]$
[root@mcw01 ~/redis]$ ls
00-RELEASENOTES COPYING Makefile README.md runtest-cluster src
BUGS deps MANIFESTO redis.conf runtest-sentinel tests
CONTRIBUTING INSTALL mcwRedis.conf runtest sentinel.conf utils
[root@mcw01 ~/redis]$ redis-server mcwRedis.conf #指定配置文件启动。这应该是后面有注释导致的吧,去掉注释 *** FATAL CONFIG FILE ERROR ***
Reading the configuration file, at line 4
>>> 'requirepass mcw123 #配置认证密码'
Bad directive or wrong number of arguments 去掉注释,然后成功启动,这里不能在配置后面加注释,容易出错
[root@mcw01 ~/redis]$ vim mcwRedis.conf
[root@mcw01 ~/redis]$ cat mcwRedis.conf
bind 10.0.0.11
protected-mode yes
port 6379
requirepass mcw123
daemonize yes
pidfile /var/run/redis_6379.pid
loglevel notice
logfile ""
[root@mcw01 ~/redis]$ redis-server mcwRedis.conf
24391:C 05 Mar 19:10:38.749 # oO0OoO0OoO0Oo Redis is starting oO0OoO0OoO0Oo
24391:C 05 Mar 19:10:38.749 # Redis version=4.0.10, bits=64, commit=00000000, modified=0, pid=24391, just started
24391:C 05 Mar 19:10:38.749 # Configuration loaded
[root@mcw01 ~/redis]$
[root@mcw01 ~/redis]$ netstat -lntup|grep redis #成功启动了
tcp 0 0 10.0.0.11:6379 0.0.0.0:* LISTEN 24392/redis-server
[root@mcw01 ~/redis]$
[root@mcw01 ~/redis]$ redis-cli #现在直接这么连接就不行了
Could not connect to Redis at 127.0.0.1:6379: Connection refused
Could not connect to Redis at 127.0.0.1:6379: Connection refused
not connected>
[root@mcw01 ~/redis]$ redis-cli -h 10.0.0.11 -p 6379 #指定ip端口连接
10.0.0.11:6379> ping
(error) NOAUTH Authentication required.
10.0.0.11:6379> auth mcw123
OK
10.0.0.11:6379> ping #认证之后就可以正常执行命令了
PONG
10.0.0.11:6379>

set、get命令

10.0.0.11:6379> set name mcw
OK
10.0.0.11:6379> get name
"mcw"
10.0.0.11:6379> set age 18
OK
10.0.0.11:6379> get age #它将值改为字符串类型的了
"18"
10.0.0.11:6379>

简单配置文件介绍

bind 192.168.182.130  #绑定服务端地址
protected-mode yes #安全模式
port 6800 #端口
requirepass haohaio #密码
daemonize yes #后台运行
pidfile /var/run/redis_6379.pid #进程id文件
loglevel notice #日志等级
logfile ""

redis基础数据类型

redis是一种高级的key:value存储系统,其中value支持五种数据类型
字符串(strings)
散列(hashes)
列表(lists)
集合(sets)
有序集合(sorted sets)

redis命令

redis简单命令

keys * 查看所有key
type key 查看key类型
expire key seconds 过期时间
ttl key 查看key过期剩余时间 -2表示key已经不存在了
persist 取消key的过期时间 -1表示key存在,没有过期时间

exists key 判断key存在 存在返回1 否则0
del keys 删除key 可以删除多个
dbsize 计算key的数量
flushdb #清除redis所有key,慎用
flushdb #清除redis所有key,慎用
flushdb #清除redis所有key,慎用

keys * 

10.0.0.11:6379> keys *
1) "age"
2) "name"
10.0.0.11:6379> set gender man
OK
10.0.0.11:6379> keys *
1) "gender"
2) "age"
3) "name"
10.0.0.11:6379> keys * 查看所有key
10.0.0.11:6379> keys *
1) "age"
2) "name"
10.0.0.11:6379> set gender man
OK
10.0.0.11:6379> keys *
1) "gender"
2) "age"
3) "name"
10.0.0.11:6379> type key 查看key类型
添加一个列表,查看key类型,是列表类型
10.0.0.11:6379> keys *
1) "gender"
2) "age"
3) "name"
10.0.0.11:6379> type name
string
10.0.0.11:6379> LPUSH paidui1 xiaoma mcw
(integer) 2
10.0.0.11:6379>
10.0.0.11:6379> keys *
1) "paidui1"
2) "gender"
3) "age"
4) "name"
10.0.0.11:6379> type paidui1
list
10.0.0.11:6379> expire key seconds 过期时间
ttl key 查看key过期剩余时间 -2表示key已经不存在了 给已有的paidui1设置一个过期时间多少秒,然后ttl key可以查看过期时间,当-2时就已经过期了,过期了就已经被移除了
10.0.0.11:6379> keys *
1) "paidui1"
2) "gender"
3) "age"
4) "name"
10.0.0.11:6379> EXPIRE paidui1 10
(integer) 1
10.0.0.11:6379> ttl paidui1
(integer) 2
10.0.0.11:6379> ttl paidui1
(integer) 1
10.0.0.11:6379> ttl paidui1
(integer) -2
10.0.0.11:6379> keys *
1) "gender"
2) "age"
3) "name"
10.0.0.11:6379> persist 取消key的过期时间 -1表示key存在,没有过期时间 比如下面,将name设置50秒过期,当要取消name的过期时间,执行命令后,ttl值变成-1,就不会出现过期删除的情况了
10.0.0.11:6379> keys *
1) "gender"
2) "age"
3) "name"
10.0.0.11:6379> EXPIRE name 50
(integer) 1
10.0.0.11:6379> ttl name
(integer) 22
10.0.0.11:6379> ttl name
(integer) 19
10.0.0.11:6379> PERSIST name
(integer) 1
10.0.0.11:6379> ttl name
(integer) -1
10.0.0.11:6379> keys *
1) "gender"
2) "age"
3) "name"
10.0.0.11:6379> exists key 判断key存在 存在返回1 否则0
10.0.0.11:6379> keys *
1) "gender"
2) "age"
3) "name"
10.0.0.11:6379> exists name
(integer) 1
10.0.0.11:6379> exists mcw
(integer) 0
10.0.0.11:6379> del keys 删除key 可以删除多个
10.0.0.11:6379> keys *
1) "gender"
2) "age"
3) "name"
4) "myname"
10.0.0.11:6379> del myname
(integer) 1
10.0.0.11:6379> keys *
1) "gender"
2) "age"
3) "name"
10.0.0.11:6379> dbsize 计算key的数量
10.0.0.11:6379> keys *
1) "gender"
2) "age"
3) "name"
10.0.0.11:6379> dbsize
(integer) 3
10.0.0.11:6379> flushdb #清除redis所有key,慎用
flushdb #清除redis所有key,慎用
flushdb #清除redis所有key,慎用
10.0.0.11:6379> keys *
1) "gender"
2) "age"
3) "name"
10.0.0.11:6379> flushdb
OK
10.0.0.11:6379> keys *
(empty list or set)
10.0.0.11:6379>

字符串类型命令

redis数据类型1,字符串类型,通过set命令,设置字符串类型的key
strings类型
set   设置key
get 获取key
append 追加string
mset 设置多个键值对
mget 获取多个键值对
del 删除key
incr 递增+1
decr 递减-1
set   设置key
get 获取key
append 追加string 10.0.0.11:6379> set "name" "mcw"
OK
10.0.0.11:6379> get name
"mcw"
10.0.0.11:6379> append "name" "Haoren"
(integer) 9
10.0.0.11:6379> get name
"mcwHaoren"
10.0.0.11:6379> mset 设置多个键值对
mget 获取多个键值对
10.0.0.11:6379> mset name2 "xiaoma" "name3" xiaohong
OK
10.0.0.11:6379> keys *
1) "name2"
2) "name"
3) "name3"
10.0.0.11:6379> get name2
"xiaoma"
10.0.0.11:6379> get name3
"xiaohong"
10.0.0.11:6379>
10.0.0.11:6379> mget name name2 name3
1) "mcwHaoren"
2) "xiaoma"
3) "xiaohong"
10.0.0.11:6379> del 删除key
10.0.0.11:6379> keys *
1) "name2"
2) "name"
3) "name3"
10.0.0.11:6379> del name
(integer) 1
10.0.0.11:6379> del name2 name3
(integer) 2
10.0.0.11:6379> keys *
(empty list or set)
10.0.0.11:6379> incr 递增+1
decr 递减-1
相当于把字符串转换为数字,计算后结果再改成字符串。
还可以减为负值
10.0.0.11:6379> keys *
(empty list or set)
10.0.0.11:6379> set "dian zan" 0
OK
10.0.0.11:6379> get "dian zan"
"0"
10.0.0.11:6379> incr "dian zan"
(integer) 1
10.0.0.11:6379> incr "dian zan"
(integer) 2
10.0.0.11:6379> get "dian zan"
"2"
10.0.0.11:6379> incr "dian zan"
(integer) 3
10.0.0.11:6379> get "dian zan"
"3"
10.0.0.11:6379> decr "dian zan"
(integer) 2
10.0.0.11:6379> get "dian zan"
"2"
10.0.0.11:6379>
10.0.0.11:6379> keys *
1) "dian zan"
10.0.0.11:6379>
10.0.0.11:6379> get "dian zan"
"2"
10.0.0.11:6379> decr "dian zan"
(integer) 1
10.0.0.11:6379> decr "dian zan"
(integer) 0
10.0.0.11:6379> decr "dian zan"
(integer) -1
10.0.0.11:6379> decr "dian zan"
(integer) -2
10.0.0.11:6379> decr "dian zan"
(integer) -3

list类型,双向队列

lpush 从列表左边插
rpush 从列表右边插
lrange 获取一定长度的元素 lrange key start stop
ltrim 截取一定长度列表
lpop 删除最左边一个元素
rpop 删除最右边一个元素
lpushx/rpushx key存在则添加值,不存在不处理

lpush         从列表左边插
从左边插入,再从左边获取,先插入的在里面后取出,后插入的在左边先取出
10.0.0.11:6379> keys *
(empty list or set)
10.0.0.11:6379> lpush paidui mcw1 mcw2 mcw3 mcw4
(integer) 4
10.0.0.11:6379> lrange paidui 0 -1
1) "mcw4"
2) "mcw3"
3) "mcw2"
4) "mcw1"
10.0.0.11:6379> lpush paidui mcw5
(integer) 5
10.0.0.11:6379> lrange paidui 0 -1
1) "mcw5"
2) "mcw4"
3) "mcw3"
4) "mcw2"
5) "mcw1"
10.0.0.11:6379> rpush 从列表右边插
从列表左边取,第一个取出来的是最后推入的,最后一个取出的是第一个推入的。
可以想象成如下排队顺序, mcw5 mcw4 mcw3 mcw2 mcw1
当从右边推入mcw6的时候就是 :mcw5 mcw4 mcw3 mcw2 mcw1 mcw6
当从左边取数据的时候就是:
第一次取:mcw5
第二次取: mcw4
....
第六次取:mcw6
10.0.0.11:6379> lrange paidui 0 -1
1) "mcw5"
2) "mcw4"
3) "mcw3"
4) "mcw2"
5) "mcw1"
10.0.0.11:6379> rpush paidui mcw6
(integer) 6
10.0.0.11:6379> lrange paidui 0 -1
1) "mcw5"
2) "mcw4"
3) "mcw3"
4) "mcw2"
5) "mcw1"
6) "mcw6" lrange 获取一定长度的元素 lrange key start stop
取列表类型的数据,指定开始数据和结束数据,比如开始0,结束-1,这是取列表所有的值
10.0.0.11:6379> lrange paidui 0 -1
1) "mcw5"
2) "mcw4"
3) "mcw3"
4) "mcw2"
5) "mcw1"
10.0.0.11:6379>
10.0.0.11:6379> keys *
1) "paidui"
10.0.0.11:6379> type paidui
list
10.0.0.11:6379> get paidui #列表类型不能用get取值
(error) WRONGTYPE Operation against a key holding the wrong kind of value
10.0.0.11:6379> lrange paid 0 -1 #不存在的键
(empty list or set)
10.0.0.11:6379>
10.0.0.11:6379> lrange paidui 0 -1
1) "mcw5"
2) "mcw4"
3) "mcw3"
4) "mcw2"
5) "mcw1"
10.0.0.11:6379> ltrim 截取一定长度列表
根据查询可知列表数据顺序如下:mcw5 mcw4 mcw3 mcw2 mcw1
索引分别是: 0 1 2 3 4
这里是从paidui左边截取,从索引1开始,从索引2结束,其中包含索引2的数据,截取之后,这个key的值就变成截取的值了mcw4 mcw3
然后从左边查询,第一个查出来的数据就是mcw4,第二个就是mcw3
10.0.0.11:6379> lrange paidui 0 -1
1) "mcw5"
2) "mcw4"
3) "mcw3"
4) "mcw2"
5) "mcw1"
10.0.0.11:6379> ltrim paidui 1 2
OK
10.0.0.11:6379> lrange paidui 0 -1
1) "mcw4"
2) "mcw3"
10.0.0.11:6379> lpop 删除最左边一个元素
rpop 删除最右边一个元素
根据lrange可以列表数据的顺序是:mcw5 mcw4 mcw3 mcw2 mcw1 mcw6
所以从左边删除,删的是mcw5,从右边删除,删的是mcw6
10.0.0.11:6379> lrange paidui 0 -1
1) "mcw5"
2) "mcw4"
3) "mcw3"
4) "mcw2"
5) "mcw1"
6) "mcw6"
10.0.0.11:6379> lpop paidui
"mcw5"
10.0.0.11:6379> rpop paidui
"mcw6"
10.0.0.11:6379> lrange paidui 0 -1
1) "mcw4"
2) "mcw3"
3) "mcw2"
4) "mcw1"
10.0.0.11:6379> lpushx/rpushx key存在则添加值,不存在不处理
不存在返回个0。默认key不存在会创建key的
10.0.0.11:6379> keys *
1) "paidui"
10.0.0.11:6379> lpushx paid mcw0
(integer) 0
10.0.0.11:6379> keys *
1) "paidui"
10.0.0.11:6379> lpushx paidui mcw0
(integer) 5
10.0.0.11:6379> keys *
1) "paidui"
10.0.0.11:6379> lrange paidui 0 -1
1) "mcw0"
2) "mcw4"
3) "mcw3"
4) "mcw2"
5) "mcw1"
10.0.0.11:6379>

redis的集合,是一种无序的集合,集合中的元素没有先后顺序。

集合相关的操作也很丰富,如添加新元素、删除已有元素、取交集、取并集、取差集等。我们来看例子:

sadd/srem 添加/删除 元素
sismember 判断是否为set的一个元素
smembers 返回集合所有的成员
sdiff 返回一个集合和其他集合的差异
sinter 返回几个集合的交集
sunion 返回几个集合的并集

sadd/srem   添加/删除 元素
smembers 返回集合所有的成员
10.0.0.11:6379> keys *
(empty list or set)
10.0.0.11:6379> sadd zoo gou mao zhu #添加
(integer) 3
10.0.0.11:6379> keys *
1) "zoo"
10.0.0.11:6379> type zoo
set
10.0.0.11:6379> smembers zoo #查询
1) "mao"
2) "zhu"
3) "gou"
10.0.0.11:6379>
10.0.0.11:6379> srem zoo zhu #删除
(integer) 1
10.0.0.11:6379> smembers zoo
1) "mao"
2) "gou"
10.0.0.11:6379>
新增成员
10.0.0.11:6379> keys *
1) "zoo"
10.0.0.11:6379> smembers zoo
1) "mao"
2) "gou"
10.0.0.11:6379> sadd zoo zhu #新增
(integer) 1
10.0.0.11:6379> smembers zoo
1) "mao"
2) "zhu"
3) "gou"
10.0.0.11:6379> sismember 判断是否为set的一个元素
mao是集合zoo里的成员吗,是,返回的是1;
zhu是集合zoo里的成员吗,不是,返回的是0
10.0.0.11:6379> smembers zoo
1) "mao"
2) "gou"
10.0.0.11:6379> sismember zoo mao
(integer) 1
10.0.0.11:6379> sismember zoo zhu
(integer) 0
10.0.0.11:6379> sdiff 返回一个集合和其他集合的差异
如下,sdiff 集合1 集合2
返回集合1中有的,而集合2中没有的。就是取差集
10.0.0.11:6379> keys *
1) "zoo2"
2) "zoo"
10.0.0.11:6379> smembers zoo
1) "mao"
2) "zhu"
3) "gou"
10.0.0.11:6379> smembers zoo2
1) "she"
2) "zhu"
3) "shu"
10.0.0.11:6379> sdiff zoo zoo2
1) "mao"
2) "gou"
10.0.0.11:6379> sdiff zoo2 zoo
1) "she"
2) "shu"
10.0.0.11:6379> sinter 返回几个集合的交集
如下,几个集合应该不只是包含两个集合
10.0.0.11:6379> smembers zoo
1) "mao"
2) "zhu"
3) "gou"
10.0.0.11:6379> smembers zoo2
1) "she"
2) "zhu"
3) "shu"
10.0.0.11:6379> sinter zoo zoo2
1) "zhu"
10.0.0.11:6379> sinter zoo2 zoo
1) "zhu"
10.0.0.11:6379> sunion 返回几个集合的并集
集合取并集,几个集合应该不只是能用两个集合
10.0.0.11:6379> smembers zoo
1) "mao"
2) "zhu"
3) "gou"
10.0.0.11:6379> smembers zoo2
1) "she"
2) "zhu"
3) "shu"
10.0.0.11:6379> sunion zoo zoo2
1) "she"
2) "zhu"
3) "gou"
4) "mao"
5) "shu"
10.0.0.11:6379>

.哈希数据结构

hashes即哈希。哈希是从redis-2.0.0版本之后才有的数据结构。

hashes存的是字符串和字符串值之间的映射,比如一个用户要存储其全名、姓氏、年龄等等,就很适合使用哈希。

hset 设置散列值
hget 获取散列值
hmset 设置多对散列值
hmget 获取多对散列值
hsetnx 如果散列已经存在,则不设置(防止覆盖key)
hkeys 返回所有fileds
hvals 返回所有values
hlen 返回散列包含域(field)的数量
hdel 删除散列指定的域(field)
hexists 判断是否存在

hset 设置散列值
hget 获取散列值
10.0.0.11:6379> hset stu1 name "mcw" age 18 height "170"
(integer) 3
10.0.0.11:6379> keys *
1) "stu1"
10.0.0.11:6379> type stu1
hash
10.0.0.11:6379> hget stu1 name
"mcw"
10.0.0.11:6379> hget stu1 age
"18"
10.0.0.11:6379> hget stu1 height
"170"
10.0.0.11:6379>
10.0.0.11:6379> hset new1 title "happy new year" content "ni hao"
(integer) 2
10.0.0.11:6379> hmset 设置多对散列值
hmget 获取多对散列值
10.0.0.11:6379>
10.0.0.11:6379> keys *
1) "stu1"
2) "new1"
10.0.0.11:6379> hmget stu1 name age height
1) "mcw"
2) "18"
3) "170"
10.0.0.11:6379> hsetnx 如果散列已经存在,则不设置(防止覆盖key)
10.0.0.11:6379> hsetnx stu2 name "mcw2" age 18 height "168"
(error) ERR wrong number of arguments for 'hsetnx' command
10.0.0.11:6379>
10.0.0.11:6379> hsetnx stu2 name "mcw2"
(integer) 1
10.0.0.11:6379> hsetnx stu2 name "mcw2"
(integer) 0
10.0.0.11:6379> keys *
1) "stu2"
2) "stu1"
3) "new1"
10.0.0.11:6379> hsetnx stu2 name "mcw1"
(integer) 0
10.0.0.11:6379> hget stu2 name #存在stu2,使用hsetnx没被修改
"mcw2"
10.0.0.11:6379> hset stu2 name "mcw1"
(integer) 0
10.0.0.11:6379> hget stu2 name #存在stu2,使用hset被修改了
"mcw1"
10.0.0.11:6379> hkeys 返回所有fileds
10.0.0.11:6379> keys *
1) "stu2"
2) "stu1"
3) "new1"
10.0.0.11:6379> hkeys stu1
1) "name"
2) "age"
3) "height"
10.0.0.11:6379> hvals 返回所有values
10.0.0.11:6379> keys *
1) "stu2"
2) "stu1"
3) "new1"
10.0.0.11:6379> hvals stu1
1) "mcw"
2) "18"
3) "170"
10.0.0.11:6379> hlen 返回散列包含域(field)的数量
10.0.0.11:6379> keys *
1) "stu2"
2) "stu1"
3) "new1"
10.0.0.11:6379> hkeys stu1
1) "name"
2) "age"
3) "height"
10.0.0.11:6379> hlen stu1
(integer) 3
10.0.0.11:6379> hkeys new1
1) "title"
2) "content"
10.0.0.11:6379> hlen new1
(integer) 2
10.0.0.11:6379> hdel 删除散列指定的域(field)
10.0.0.11:6379> keys *
1) "stu2"
2) "stu1"
3) "new1"
10.0.0.11:6379> type stu1
hash
10.0.0.11:6379>
10.0.0.11:6379> hkeys stu1
1) "name"
2) "age"
3) "height"
10.0.0.11:6379> hdel stu1 height #删除指定字段
(integer) 1
10.0.0.11:6379> hkeys stu1
1) "name"
2) "age"
10.0.0.11:6379> hexists 判断是否存在
10.0.0.11:6379> keys *
1) "stu2"
2) "stu1"
3) "new1"
10.0.0.11:6379> type stu1
hash
10.0.0.11:6379> hkeys stu1
1) "name"
2) "age"
10.0.0.11:6379> hexists stu1 name #存在字段返回1
(integer) 1
10.0.0.11:6379> hexists stu1 height #不存在字段返回0
(integer) 0
10.0.0.11:6379>

发布订阅

主要应用:通知,公告
可以作为消息队列或者消息管道

一个发布,多个订阅
发布:广播电台频道能发送给所有接收这个频道的人声音信息
订阅:很多人都能接收到这个广播电台的消息

比如qq群公告:一个发布,多个订阅(接收到)

如下,一个发布者,两个订阅者,订阅者1订阅跟python和linux频道有关的消息;订阅者2订阅和golang和Linux有感的消息

当发布者发布消息的时候,订阅者1接收到了订阅频道python发来的消息

当发布者发布给linux频道的时候,两个订阅人都接收到了消息。发布者这里还返回了几个订阅人接收到了消息。上面那条写错了发布到一个没有人订阅的频道上,返回0个订阅者

发布人发布的频道和接收的频道,这样写是需要精准判断,不能模糊匹配接收消息的

当订阅者这里使用psubscribe的时候,后面变成了模式

当订阅者使用psubscribe命令,且订阅的频道使用通配符的时候,那么发布者发布的能跟订阅者模糊匹配到的频道,就被订阅者接收到了

redis部署以及各种数据类型使用命令等详解的更多相关文章

  1. nosql Redis命令操作详解

    Redis命令操作详解 一.key pattern 查询相应的key (1)redis允许模糊查询key 有3个通配符 *.?.[] (2)randomkey:返回随机key (3)type key: ...

  2. 通过Cloudera Manager部署CDH5.15.1的webUI界面详解

    通过Cloudera Manager部署CDH5.15.1的webUI界面详解 作者:尹正杰 版权声明:原创作品,谢绝转载!否则将追究法律责任. 本篇博客CDH的部署完全通过Cloudera Mana ...

  3. MySQL数据类型以及基本使用详解

    MySQL数据类型以及基本使用详解 作者:尹正杰 版权声明:原创作品,谢绝转载!否则将追究法律责任. 一.MySQL服务器的主要组件 我们知道MySQL的主要组件主要是由服务端(mysqld)和客户端 ...

  4. [转帖]强大的strace命令用法详解

    强大的strace命令用法详解 文章转自: https://www.linuxidc.com/Linux/2018-01/150654.htm strace是什么? 按照strace官网的描述, st ...

  5. Linux 执行文件查找命令 which 详解

    某个文件不知道放在哪里了,通常可以使用下面的一些命令来查找: which  查看可执行文件的位置 whereis 查看文件的位置 locate   配合数据库查看文件位置 find   实际搜寻硬盘查 ...

  6. systemctl命令用法详解

    systemctl命令用法详解系统环境:Fedora 16binpath:/bin/systemctlpackage:systemd-units systemctl enable httpd.serv ...

  7. 批处理中的echo命令图文详解

    批处理中的echo命令图文详解 1. Echo 显示当前ECHO的状态:ECHO ON 或者ECHO OFF 2. ECHO ON 将ECHO状态设置为ON,将显示命令行,也就是前面的C:\>类 ...

  8. Ubuntu kill命令用法详解

    转自:Ubuntu kill命令用法详解 1. kill   作用:根据进程号杀死进程   用法: kill [信号代码] 进程ID   root@fcola:/# ps -ef | grep sen ...

  9. install 命令用法详解

    install 命令用法详解 http://man.linuxde.net/install install命令的作用是安装或升级软件或备份数据,它的使用权限是所有用户.install命令和cp命令类似 ...

随机推荐

  1. linux判断物理CPU,逻辑CPU和CPU核数

    ① 物理CPU 实际Server中插槽上的CPU个数 物理cpu数量,可以数不重复的 physical id 有几个 ② 逻辑CPU Linux用户对 /proc/cpuinfo 这个文件肯定不陌生. ...

  2. vue 快速入门 系列 —— Vue 实例的初始化过程

    其他章节请看: vue 快速入门 系列 Vue 实例的初始化过程 书接上文,每次调用 new Vue() 都会执行 Vue.prototype._init() 方法.倘若你看过 jQuery 的源码, ...

  3. docker daemon

    docker启动最先加载Docker Daemon. Docker Daemon的启动文件放在/etc/systemd/system/docker.service.d目录中,如果没有则手工创建该目录并 ...

  4. jsp 4-15

  5. 关于mysql,需要掌握的基础(二):JDBC和DAO层

    ​ 目录 关于mysql,需要掌握的基础(二):JDBC和DAO层 1.了解jdbc是什么? 2.加载注册驱动:为什么Class.forName("com.mysql.jdbc.Driver ...

  6. echarts图表的封装

    其实echarts官网有个快速上手的教程,一般人看一遍也知道是怎么回事,先给个传送门吧--五分钟上手 引入方式多种多样就自己去官网看了--这里简单介绍echarts怎么用,下方的封装函数比较重要 1. ...

  7. openstack horizon 学习(3) DataTable

    上一篇中粗略的讲了下openstack中horizon的dashboard和panel的添加,本打算在这章中对有关于pluggable settings中的配置做详细的总结,然放弃了这念头.原因是搞懂 ...

  8. java中args是什么意思?

    1. 字符串变量名(args)属于引用变量,名字代号而已,可以自己取的. 2.总的来说就是个存放字符串数组用的, 去掉就不知道 "args" 声明的变量是什么类型了. 3.如果有 public sta ...

  9. 有手就行——Jenkins介绍 及 Gitlab代码托管服务器安装

    Jenkins 介绍 及 Gitlab代码托管服务器安装 Gitlab安装 源码上传到Gitlab仓库 Jenkins介绍 Jenkins 是一款流行的开源持续集成(Continuous Integr ...

  10. Docker的资源控制管理

    Docker的资源控制管理 1.CPU控制 2.对内存使用进行限制 3.对磁盘I/O配额控制的限制 1.CPU控制: cgroups,是一个非常强大的linux内核工具,他不仅可以限制被namespa ...