Redis数据库(二)
2024-10-20 13:38:06
1. Redis数据库持久化
redis提供了两种数据备份方式,一种是RDB,另外一种是AOF,以下将详细介绍这两种备份策略。
面试:
1.1 配置文件详解备份方式
[root@localhost ~]# vim /usr/local/reids/redis.conf
# save ""
save #900秒内发生1次数据更改就写入Redis当中
save #300秒内发生10次数据更改就写入Redis当中
save #60秒内发生10000次数据更改就写入Redis当中
#save值可以自定义更改,一般设置为5分钟执行一次,三者只要触发一个就写入Redis文件当中,若想关闭掉RBD备份,只需注释掉 此处的save即可。 #储存文件的绝对路径=dir+dbfilename
# The filename where to dump the DB
dbfilename dump.rdb
……
# Note that you must specify a directory here, not a file name.
dir ./ #查看dump.rdb文件
[root@localhost ~]# vim /usr/local/reids/dump.rdb
REDIS0009ú redis-ver^E5..0ú #表示压缩
redis-bitsÀ@ú^EctimeÂ#èã\ú^Hused-mem°^R^L^@ú^Laof-preambleÀ^@þ^@û^B^@^@ friendone^Czxj^@ #存储具体的值 friendtwo^CwrlÿY^Z^Zz<9b>ÇjÞ #RDB备份为全库备份,即每备份一次均备份数据库所有数据。 #开启AOF备份
[root@localhost ~]# vim /usr/local/reids/redis.conf
# Please check http://redis.io/topics/persistence for more information.
appendonly no #appendonly默认为no,若要开启AOF备份,此处改为yes #同步机制
# appendfsync always #只要更改就同步到Redis当中
appendfsync everysec #默认为每秒同步
# appendfsync no 按操作系统备份,一般为半小时 #AOF存储的是具体的操作命令
#开启AOF后启动进入Redis
[root@localhost ~]# redis-server redis.conf
[root@localhost ~]# ss -tnl
LISTEN 192.168.16.4: *:*
[root@localhost ~]# ll
-rw-r--r--. root root May : appendonly.aof #已生成aof文件
[root@localhost ~]# vim appendonly.aof #由于数据库未进行操作,文件是空的
~
192.168.16.4:> set username zxj #插入数据
OK #退出后再查看备份文件
192.168.16.4:> exit
[root@localhost ~]# vim appendonly.aof
*
$
SELECT #存储的是具体的命令
$ *
$
set
$
username
$
zxj
~
#存储文件的绝对路径=dir+appendfieldname
2.Redis主从架构的搭建
Redis架构也是读写分离,与mariadb不同的是,mariadb的从数据库可以写但不能同步到主数据库(readonly),Redis从数据库只能读不能写。
Redis架构搭建:
为节省空间,此处仅有一台主机进行搭建,在不同的窗口进行查看
#复制一份Redis配置文件slave.conf作为从数据库
[root@localhost ~]# cd /usr/local/redis/
[root@localhost redis]# cp redis.conf slave.conf
[root@localhost redis]# vim slave.conf
# JUST COMMENT THE FOLLOWING LINE.
#~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
bind 192.168.16.4
slaveof 192.168.16.4 #从属于192.168.16.4 63279
# If port is specified Redis will not listen on a TCP socket.
port #便于区分,将从节点端口改为6380 #启动从节点文件
[root@localhost redis]# redis-server slave.conf
[root@localhost redis]# ss -tnl #两实例
LISTEN 192.168.16.4: *:* #主
LISTEN 192.168.16.4: *:* #从 #打开两个窗口,进入数据库。窗口1:6379;窗口2:6380
#窗口1:
[root@localhost ~]# redis-cli -h 192.168.16.4 -p
192.168.16.4:>
#窗口2:
[root@localhost ~]# redis-cli -h 192.168.16.4 -p
192.168.16.4:>
192.168.16.4:> keys * #已同步
) "username1"
) "username"
192.168.16.4:> set username3 lvmy
(error) READONLY You can't write against a read only replica. #从节点无法写
3.Redis集群
Redis集群一个主对应一个从,而且至少需要3个主(避免脑裂),因此需要6个集群。
Redis集群搭建实例详解
为精简实验,在一台主机上搭建6个实例
#方便起见,端口设置为7001~7006
#按照习惯,将配置文件写在 conf下
[root@localhost conf]# vim .conf
port #绑定端口
bind 192.168.16.4 #绑定对外连接提供的ip
daemonize yes #开启守护进程
pidfile .pid #进程文件名
cluster-enabled yes #是否是集群
cluster-config-file 7001_node.conf #集群配置文件
cluster-node-timeout #集群连接超时时间
appendonly yes #数据持久化(备份)类型
~
#在7001.conf的基础上修改7002~7006.conf,只修该端口、进程、和配置。 #关闭原先实验的redis
[root@localhost conf]# ps aux | grep redis
root 0.1 1.3 ? Ssl : : redis-server 192.168.16.4:
root 0.1 1.4 ? Ssl : : redis-server 192.168.16.4:
root 0.0 0.7 pts/ S+ : : redis-cli -h 192.168.16.4 -p
root 0.0 0.0 pts/ S+ : : grep --color=auto redis
[root@localhost conf]# kill -
[root@localhost conf ]# ps aux | grep redis
root 0.0 0.0 pts/ S+ : : grep --color=auto redis #启动集群
[root@localhost conf]# vim start_conf.sh
#!/bin/bash
for i in {..}
do
redis-server $i.conf
done
~
[root@localhost conf]# bash start_conf.sh
[root@localhost conf]# ps aux | grep redis
root 0.1 0.7 ? Ssl : : redis-server 192.168.16.4: [cluster]
root 0.1 0.7 ? Ssl : : redis-server 192.168.16.4: [cluster]
root 0.1 0.7 ? Ssl : : redis-server 192.168.16.4: [cluster]
root 0.1 0.7 ? Ssl : : redis-server 192.168.16.4: [cluster]
root 0.1 0.7 ? Rsl : : redis-server 192.168.16.4: [cluster]
root 0.1 0.7 ? Ssl : : redis-server 192.168.16.4: [cluster] #建立主从联系
[root@localhost conf]# redis-cli --cluster create 192.168.16.4: 192.168.16.4: 192.168.16.4: 192.168.16.4: 192.168.16.4: 192.168.16.4: --cluster-replicas #每个主节点有一个从节点
………
M: 7140c88b7bd0778bbe71250dbe7597cc3df8ac95 192.168.16.4:
slots:[-] ( slots) master #M 主;S 从
M: c60cd50870fc97320bb4cf19557f6c5daced6745 192.168.16.4:
slots:[-] ( slots) master
M: 03783aeedfd9553e8b1bbe9a2054fba46f9f7e00 192.168.16.4:
slots:[-] ( slots) master #一共16384个槽,每个数据分配到槽里
S: 96396dbeeb6a94e632f9a9f585694a21d7235766 192.168.16.4:
replicates 03783aeedfd9553e8b1bbe9a2054fba46f9f7e00
S: d035beb18deb48a027b6c3fce0e123bebc3584c2 192.168.16.4:
replicates 7140c88b7bd0778bbe71250dbe7597cc3df8ac95
S: 67d8400b228762ad14841114775a3ee210fff5cd 192.168.16.4:
replicates c60cd50870fc97320bb4cf19557f6c5daced6745
Can I set the above configuration? (type 'yes' to accept):yes #是否要配置
…….
waiting …….
[OK] All nodes agree about slots configuration.
>>> Check for open slots...
>>> Check slots coverage...
[OK] All slots covered. #以集群的方式连接登录(-c),若以单个节点登录写入数据会报错
[root@localhost conf]# redis-cli -h 192.168.16.4 -p
192.168.16.4:> set username zcv
(error) MOVED 192.168.16.4:
[root@localhost conf]# redis-cli -c -h 192.168.16.4 -p
192.168.16.4:> #集群数据库是不存在以数字形式表示的数据库
192.168.16.4:> select
(error) ERR SELECT is not allowed in cluster mode 192.168.16.4:> set username zxj #每次输入数据会跳转数据库
-> Redirected to slot [] located at 192.168.16.4:7003 #值插入到槽14315当中,归7003管
OK
192.168.16.4:> set username2 aSD
-> Redirected to slot [] located at 192.168.16.4:
OK
192.168.16.4:> set username3 gfhn
-> Redirected to slot [] located at 192.168.16.4:
OK
192.168.16.4:> #主节点均正常,在主节点间跳转 #输入数据时的跳转并不影响取值
192.168.16.4:> get username
-> Redirected to slot [] located at 192.168.16.4:
"zxj"
192.168.16.4:> get username2
-> Redirected to slot [] located at 192.168.16.4:
"aSD"
192.168.16.4:> get username4
192.168.16.4:> get username3
-> Redirected to slot [] located at 192.168.16.4:
"gfhn"
192.168.16.4:> #模拟7002宕掉,自动从从节点补位
[root@localhost conf]# ps aux | grep redis
[root@localhost conf]# kill -
[root@localhost conf]# redis-cli -c -h 192.168.16.4 -p
192.168.16.4:> set bu dfgj
-> Redirected to slot [] located at 192.168.16.4:
OK
192.168.16.4:> set bu1 sdflj;
-> Redirected to slot [] located at 192.168.16.4:
OK
192.168.16.4:> set bu3 josd
-> Redirected to slot [] located at 192.168.16.4:
OK
192.168.16.4:>
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