Redis cluster集群:原理及搭建

文章目录

      • 1.为什么使用redis?
      • 2.为什么使用redis-cluster?
      • 3.顺带一提总结一波今天的redis原理之数据持久化
      • 4.redis集群实现方案:
    • Redis集群
      • 基本介绍
      • 集群原理
        • redis-cluster架构图
        • redis-cluster投票:容错
      • Redis集群搭建
        • Ruby环境
        • redis配置文件修改
        • 编写集群启动脚本和停止脚本
          • 启动脚本start-all.sh
          • 停止脚本stop-all.sh
          • 修改权限
        • 启动节点
        • 执行创建集群命令
          • 成功启动信息
          • 异常
      • Redis集群节点的操作
        • 查询集群信息
        • 添加主节点
          • hash槽重新分配
        • 添加从节点
        • 删除结点
      • 客户端对Redis集群的使用方法
        • 使用redis命令行客户端连接
        • 使用jedis连接

1.为什么使用redis?

redis是一种典型的no-sql 即非关系数据库 像python的字典一样 存储key-value键值对 工作在memory中

所以很适合用来充当整个互联网架构中各级之间的cache 比如lvs的4层转发层 nginx的7层代理层

尤其是lnmp架构应用层如php-fpm或者是Tomcat到mysql之间 做一个cache 以减轻db的压力

因为有相当一部分的数据 只是简单的key-value对应关系,而且在实际的业务中常常在短时间内迅速变动

如果用关系数据库mysql之类存储 会大大增加对db的访问 导致db的负担很重 因为所有的require中的大部分最后都要汇聚到db

所以如果想要业务稳定 那么解决db的压力 就是关键 所以现在大部分的解决方案就是在db层之上的各级使用多级的no-sql

像memcache redis 等 来为db提供缓冲

2.为什么使用redis-cluster?

为了在大流量访问下提供稳定的业务,集群化是存储的必然形态

未来的发展趋势肯定是云计算和大数据的紧密结合 只有分布式架构能满足要求

如果没有集群化 何来的分布式?

3.顺带一提总结一波今天的redis原理之数据持久化

虽然redis这种no-sql一般都是作为cache来服务 但是如果完全没有数据可持久化的方法 那么显得有些单薄

就像memcache 由于这种no-sql是工作在memory的 那么由于memory的实体是ram

所以如果重启或者宕机 memory中的数据就全没了 数据的一致性的不到保障

但是 redis不同 redis有相对的数据持久化的方案 由两种方式构成 aof & rdb

aof就像关系数据库中的binlog一样 把每一次写操作以追加的形式记录在其中以文件的形式刷到磁盘里

并且可以使用不同的fsync策略 无fsync,每秒fsync,每次写的时候fsync.

使用默认的每秒fsync策略,Redis的性能依然很好(fsync是由后台线程进行处理的,主线程会尽力处理客户端请求)

一旦出现故障,最多丢失1秒的数据.

但是缺点也随之而来 那就是aof文件的大小会随着时间线性增长 一段时间之后 就会变得很大

如果要在一端以AOF的形式来恢复数据 那么由于AOF文件的巨大体积 可能会让进程如同假死一样 十分的慢

rdb则是一种快照机制

redis工作在内存中 rdb就是每隔一段时间 对内存中的数据做一次快照 保存在rdb文件中

而且redis的主从同步可以实现异步 也是由于rdb的机制 他在做快照时会fork出一个子进程 由子进程来做快照

父进程完全处理请求 毫不影响 很适合数据的备份

但是问题是 如果数据量很大的话 rdb它要保存一个完整的数据集 是一个大的工作 如果时间间隔设置的太短

那么严重影响redis的性能 但是按照常规设置的话 如5分钟一次 那么如果宕机或者重启 就会基于上次做rdb的时间

从而丢失分钟级的数据

point:在redis4.0的新特性中 采用了aof-rdb的混合方案来保障数据的持久性 但是官方的说法是还不成熟

是一个长期的工作 所以有待观察吧

4.redis集群实现方案:

关于redis的集群化方案 目前有三种

(1)Twitter开发的twemproxy

(2)豌豆荚开发的codis

(3)redis官方的redis-cluster

简介:twemproxy架构简单 就是用proxy对后端redis server进行代理 但是由于代理层的消耗性能很低 而且通常涉及多个key的操作都是不支持的 而且本身不支持动态扩容和透明的数据迁移 而且也失去维护 Twitter内部已经不使用了

​ redis-cluster是三个里性能最强大的 因为他使用去中心化的思想 使用hash slot方式 将16348个hash slot 覆盖到所有节点上 对于存储的每个key值 使用CRC16(KEY)&16348=slot 得到他对应的hash slot 并在访问key时就去找他的hash slot在哪一个节点上 然后由当前访问节点从实际被分配了这个hash slot的节点去取数据 节点之间使用轻量协议通信 减少带宽占用 性能很高 自动实现负载均衡与高可用 自动实现failover 并且支持动态扩展 官方已经玩到可以1000个节点 实现的复杂度低 总之个人比较喜欢这个架构 因为他的去中心化思想免去了proxy的消耗 是全新的思路

​ 但是它也有一些不足 例如官方没有提供图形化管理工具 运维体验差 全手工数据迁移 并且自己对自己本身的redis命令支持也不完全等 但是这些问题 我觉得不能掩盖他关键的新思想所带来的的优势 随着官方的推进 这些问题应该都能在一定时间内得到解决 那么这时候去中心化思想带来的高性能就会表现出他巨大的优势

​ codis使用的也是proxy思路 但是做的比较好 是这两种之间的一个中间级 而且支持redis命令是最多的 有图形化GUI管理和监控工具 运维友好 这个过段时间会详细另外写出来原理 工作机制和搭建实现

Redis集群

基本介绍

Redis 集群是一个可以在多个 Redis 节点之间进行数据共享的设施installation

Redis 集群不支持那些需要同时处理多个键的 Redis 命令, 因为执行这些命令需要在多个 Redis 节点之间移动数据, 并且在高负载的情况下, 这些命令将降低Redis集群的性能, 并导致不可预测的行为。

Redis 集群通过分区partition来提供一定程度的可用性availability: 即使集群中有一部分节点失效或者无法进行通讯, 集群也可以继续处理命令请求。

Redis集群提供了以下两个好处:

  • 将数据自动切分split到多个节点的能力。
  • 当集群中的一部分节点失效或者无法进行通讯时, 仍然可以继续处理命令请求的能力。

集群原理

redis-cluster架构图

Redis cluster集群:原理及搭建_第1张图片

  1. 所有的redis节点彼此互联(PING-PONG机制),内部使用二进制协议优化传输速度和带宽。
  2. 节点的fail是通过集群中超过半数的节点检测失效时才生效。
  3. 客户端与redis节点直连,不需要中间proxy层.客户端不需要连接集群所有节点,连接集群中任何一个可用节点即可。
  4. redis-cluster把所有的物理节点映射到[0-16383]slot上,cluster 负责维护node<->slot<->value

Redis集群中内置了 16384 个哈希槽,当需要在 Redis 集群中放置一个 key-value 时,redis 先对key 使用 crc16 算法算出一个结果,然后把结果对 16384 求余数,这样每个 key 都会对应一个编号在 0-16383 之间的哈希槽,redis 会根据节点数量大致均等的将哈希槽映射到不同的节点

redis-cluster投票:容错

Redis cluster集群:原理及搭建_第2张图片

  1. 投票过程是集群中所有master参与,如果半数以上master节点与master节点通信超时(cluster-node-timeout),认为当前master节点挂掉.

  2. 什么时候整个集群不可用(cluster_state:fail)?

    • 如果集群任意 master 挂掉,且当前master没有slave集群进入fail状态,也可以理解成集群的slot
      映射[0-16383 ]不完整时进入fail状态.

    • redis-3.0.0.rc1加入cluster-require-full-coverage参数,默认关闭,打开集群兼容部分失败.

    • 如果集群超过半数以上master挂掉,无论是否有slave,集群进入fail状态.

Redis集群搭建

Redis单机版的安装见博客《redis入门——安装篇》,安装好之后,将redis复制成6份,注意要将.rdb.aof后缀的文件删除,如果有的话。

Ruby环境

使用

yum -y install ruby
yum -y install rubygems

安装ruby环境。
网上下载redis-3.0.0.gem,执行gem install redis-3.0.0.gem安装。

redis配置文件修改

现在已经准备好了,6份干净的redis,如下所示

[root@localhost redis-cluster]# pwd

/usr/local/redis/redis-cluster

[root@localhost redis-cluster]# ll

total 72

drwxr-xr-x 2 root root  4096 Nov  2 00:17 redis1

drwxr-xr-x 2 root root  4096 Nov  2 00:25 redis2

drwxr-xr-x 2 root root  4096 Nov  2 00:25 redis3

drwxr-xr-x 2 root root  4096 Nov  2 00:25 redis4

drwxr-xr-x 2 root root  4096 Nov  2 00:25 redis5

drwxr-xr-x 2 root root  4096 Nov  2 00:25 redis6

-rwxr-xr-x 1 root root 48141 Nov  2 00:16 redis-trib.rb

[root@localhost redis-cluster]# 

PS:注意,这里已经将redis源文件src目录下的redis-trib.rb文件拷贝过来了。
redis-trib.rb这个文件是redis集群的管理文件,ruby脚本。

将六个节点的redis.conf配置文件按照如下进行修改

################################ GENERAL  #####################################
# By default Redis does not run as a daemon. Use 'yes' if you need it.

# Note that Redis will write a pid file in /var/run/redis.pid when daemonized.

daemonize yes

# Accept connections on the specified port, default is 6379.

# If port 0 is specified Redis will not listen on a TCP socket.

port *

################################ REDIS CLUSTER  ###############################

# ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++

# WARNING EXPERIMENTAL: Redis Cluster is considered to be stable code, however

# in order to mark it as "mature" we need to wait for a non trivial percentage

# of users to deploy it in production.

# ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++

# Normal Redis instances can't be part of a Redis Cluster; only nodes that are

# started as cluster nodes can. In order to start a Redis instance as a

# cluster node enable the cluster support uncommenting the following:

cluster-enabled yes

PS:端口号如果是同一台主机的话,必须不同。不同主机可以相同。

PS:我这里是使用一台主机,所以我将六个节点的端口号修改为7001-7006

编写集群启动脚本和停止脚本

启动脚本start-all.sh
cd redis1

./redis-server redis.conf

cd ..

cd redis2

./redis-server redis.conf

cd ..

cd redis3

./redis-server redis.conf

cd ..

cd redis4

./redis-server redis.conf

cd ..

cd redis5

./redis-server redis.conf

cd ..

cd redis6

./redis-server redis.conf

cd ..
停止脚本stop-all.sh
./redis1/redis-cli -p 7001 shutdown

./redis1/redis-cli -p 7002 shutdown

./redis1/redis-cli -p 7003 shutdown

./redis1/redis-cli -p 7004 shutdown

./redis1/redis-cli -p 7005 shutdown

./redis1/redis-cli -p 7006 shutdown

PS:两个脚本都放在如下所属目录

[root@localhost redis-cluster]# pwd

/usr/local/redis/redis-cluster

[root@localhost redis-cluster]# ll

total 80

drwxr-xr-x 2 root root  4096 Nov  2 00:52 redis1

drwxr-xr-x 2 root root  4096 Nov  2 00:51 redis2

drwxr-xr-x 2 root root  4096 Nov  2 00:53 redis3

drwxr-xr-x 2 root root  4096 Nov  2 00:53 redis4

drwxr-xr-x 2 root root  4096 Nov  2 00:53 redis5

drwxr-xr-x 2 root root  4096 Nov  2 00:53 redis6

-rwxr-xr-x 1 root root 48141 Nov  2 00:16 redis-trib.rb

-rw-r--r-- 1 root root   252 Nov  2 00:55 start-all.sh

-rw-r--r-- 1 root root   216 Nov  2 00:57 stop-all.sh

[root@localhost redis-cluster]# 
修改权限
[root@localhost redis-cluster]# chmod -u+x start-all.sh stop-all.sh 

启动节点

[root@localhost redis-cluster]# ./start-all.sh 

[root@localhost redis-cluster]# ps aux | grep redis

root      2924  0.8  0.1  33932  2048 ?        Ssl  Nov01   3:53 ./redis-server *:6379 [cluster]

root     11924  0.0  0.1  33936  1948 ?        Ssl  01:01   0:00 ./redis-server *:7001 [cluster]

root     11928  0.0  0.1  33936  1952 ?        Ssl  01:01   0:00 ./redis-server *:7002 [cluster]

root     11932  0.0  0.1  33936  1948 ?        Ssl  01:01   0:00 ./redis-server *:7003 [cluster]

root     11936  0.0  0.1  33936  1952 ?        Ssl  01:01   0:00 ./redis-server *:7004 [cluster]

root     11940  0.0  0.1  33936  1952 ?        Ssl  01:01   0:00 ./redis-server *:7005 [cluster]

root     11944  0.0  0.1  33936  1948 ?        Ssl  01:01   0:00 ./redis-server *:7006 [cluster]

root     11948  0.0  0.0   4360   748 pts/2    S+   01:01   0:00 grep redis

[root@localhost redis-cluster]# 

执行创建集群命令

[root@localhost redis-cluster]# pwd

/usr/local/redis/redis-cluster

[root@localhost redis-cluster]# ./redis-trib.rb create --replicas 1 192.168.37.131:7001 192.168.37.131:7002 192.168.37.131:7003 192.168.37.131:7004 192.168.37.131:7005  192.168.37.131:7006
成功启动信息
>>> Creating cluster

Connecting to node 192.168.37.131:7001: OK

Connecting to node 192.168.37.131:7002: OK

Connecting to node 192.168.37.131:7003: OK

Connecting to node 192.168.37.131:7004: OK

Connecting to node 192.168.37.131:7005: OK

Connecting to node 192.168.37.131:7006: OK

>>> Performing hash slots allocation on 6 nodes...

Using 3 masters:

192.168.37.131:7001

192.168.37.131:7002

192.168.37.131:7003

Adding replica 192.168.37.131:7004 to 192.168.37.131:7001

Adding replica 192.168.37.131:7005 to 192.168.37.131:7002

Adding replica 192.168.37.131:7006 to 192.168.37.131:7003

M: 8b153503b52f83634e04b0077f32ef629ad91ee6 192.168.37.131:7001

   slots:0-5460 (5461 slots) master

M: f89799066dd8ecaaa1430559be4ce9c8c87055d8 192.168.37.131:7002

   slots:5461-10922 (5462 slots) master

M: 53d698ad56b09f89cfef34850213e2d0a44154dd 192.168.37.131:7003

   slots:10923-16383 (5461 slots) master

S: e73204399d08c14def1f71d0c5377cbc757dc4b8 192.168.37.131:7004

   replicates 8b153503b52f83634e04b0077f32ef629ad91ee6

S: 1d5dcc8d1ccb6bce55efc3e3aadc690dc77808d8 192.168.37.131:7005

   replicates f89799066dd8ecaaa1430559be4ce9c8c87055d8

S: e9458233cb85bd897ff694003e6d8a834eba2b44 192.168.37.131:7006

   replicates 53d698ad56b09f89cfef34850213e2d0a44154dd

Can I set the above configuration? (type 'yes' to accept): y

*** Aborting...

[root@localhost redis-cluster]# ./redis-trib.rb create --replicas 1 192.168.37.131:7001 192.168.37.131:7002 192.168.37.131:7003 192.168.37.131:7004 192.168.37.131:7005  192.168.37.131:7006

>>> Creating cluster

Connecting to node 192.168.37.131:7001: OK

Connecting to node 192.168.37.131:7002: OK

Connecting to node 192.168.37.131:7003: OK

Connecting to node 192.168.37.131:7004: OK

Connecting to node 192.168.37.131:7005: OK

Connecting to node 192.168.37.131:7006: OK

>>> Performing hash slots allocation on 6 nodes...

Using 3 masters:

192.168.37.131:7001

192.168.37.131:7002

192.168.37.131:7003

Adding replica 192.168.37.131:7004 to 192.168.37.131:7001

Adding replica 192.168.37.131:7005 to 192.168.37.131:7002

Adding replica 192.168.37.131:7006 to 192.168.37.131:7003

M: 8b153503b52f83634e04b0077f32ef629ad91ee6 192.168.37.131:7001

   slots:0-5460 (5461 slots) master

M: f89799066dd8ecaaa1430559be4ce9c8c87055d8 192.168.37.131:7002

   slots:5461-10922 (5462 slots) master

M: 53d698ad56b09f89cfef34850213e2d0a44154dd 192.168.37.131:7003

   slots:10923-16383 (5461 slots) master

S: e73204399d08c14def1f71d0c5377cbc757dc4b8 192.168.37.131:7004

   replicates 8b153503b52f83634e04b0077f32ef629ad91ee6

S: 1d5dcc8d1ccb6bce55efc3e3aadc690dc77808d8 192.168.37.131:7005

   replicates f89799066dd8ecaaa1430559be4ce9c8c87055d8

S: e9458233cb85bd897ff694003e6d8a834eba2b44 192.168.37.131:7006

   replicates 53d698ad56b09f89cfef34850213e2d0a44154dd

Can I set the above configuration? (type 'yes' to accept): yes

>>> Nodes configuration updated

>>> Assign a different config epoch to each node

>>> Sending CLUSTER MEET messages to join the cluster

Waiting for the cluster to join.....

>>> Performing Cluster Check (using node 192.168.37.131:7001)

M: 8b153503b52f83634e04b0077f32ef629ad91ee6 192.168.37.131:7001

   slots:0-5460 (5461 slots) master

M: f89799066dd8ecaaa1430559be4ce9c8c87055d8 192.168.37.131:7002

   slots:5461-10922 (5462 slots) master

M: 53d698ad56b09f89cfef34850213e2d0a44154dd 192.168.37.131:7003

   slots:10923-16383 (5461 slots) master

M: e73204399d08c14def1f71d0c5377cbc757dc4b8 192.168.37.131:7004

   slots: (0 slots) master

   replicates 8b153503b52f83634e04b0077f32ef629ad91ee6

M: 1d5dcc8d1ccb6bce55efc3e3aadc690dc77808d8 192.168.37.131:7005

   slots: (0 slots) master

   replicates f89799066dd8ecaaa1430559be4ce9c8c87055d8

M: e9458233cb85bd897ff694003e6d8a834eba2b44 192.168.37.131:7006

   slots: (0 slots) master

   replicates 53d698ad56b09f89cfef34850213e2d0a44154dd

[OK] All nodes agree about slots configuration.

>>> Check for open slots...

>>> Check slots coverage...

[OK] All 16384 slots covered.

[root@localhost redis-cluster]# 
异常
>>> Creating cluster

Connecting to node 192.168.37.131:7001: OK

[ERR] Node 192.168.37.131:7001 is not empty. Either the node already knows other nodes (check with CLUSTER NODES) or contains some key in database 0.

解决方法是删除生成的配置文件nodes.conf,如果不行则说明现在创建的结点包括了旧集群的结点信息,需要删除redis的持久化文件后再重启redis,比如:appendonly.aofdump.rdb

首先,使用stop-all.sh停止服务

[root@localhost redis-cluster]# ./stop-all.sh

[root@localhost redis-cluster]# ps aux | grep redis

root      2924  0.8  0.1  33932  2048 ?        Ssl  Nov01   3:54 ./redis-server *:6379 [cluster]

root     11969  0.0  0.0   4360   744 pts/2    S+   01:10   0:00 grep redis

[root@localhost redis-cluster]# 

然后每个节点中的appendonly.aofdump.rdbnodes.conf

[root@localhost redis-cluster]# rm -f redis*/dump.rdb

[root@localhost redis-cluster]# rm -f redis*/appendonly.aof

[root@localhost redis-cluster]# rm -f redis*/nodes.conf

然后使用脚本start-all.sh启动,再启动集群管理服务。

[root@localhost redis-cluster]# ./start-all.sh 

[root@localhost redis-cluster]# ps aux | grep redis

root      2924  0.8  0.1  33932  2048 ?        Ssl  Nov01   3:54 ./redis-server *:6379 [cluster]

root     11980  0.0  0.1  33936  1952 ?        Ssl  01:12   0:00 ./redis-server *:7001 [cluster]

root     11982  0.0  0.1  33936  1952 ?        Ssl  01:12   0:00 ./redis-server *:7002 [cluster]

root     11984  0.0  0.1  33936  1952 ?        Ssl  01:12   0:00 ./redis-server *:7003 [cluster]

root     11986  0.0  0.1  33936  1952 ?        Ssl  01:12   0:00 ./redis-server *:7004 [cluster]

root     11988  0.0  0.1  33936  1948 ?        Ssl  01:12   0:00 ./redis-server *:7005 [cluster]

root     11990  0.0  0.1  33936  1948 ?        Ssl  01:12   0:00 ./redis-server *:7006 [cluster]

root     12004  0.0  0.0   4360   748 pts/2    S+   01:12   0:00 grep redis

[root@localhost redis-cluster]# ./redis-trib.rb create --replicas 1 192.168.37.131:7001 192.168.37.131:7002 192.168.37.131:7003 192.168.37.131:7004 192.168.37.131:7005  192.168.37.131:7006

[root@localhost redis-cluster]# 

Redis集群节点的操作

查询集群信息

集群创建成功登陆任意redis结点查询集群中的节点情况。

客户端以集群方式登陆:

[root@localhost redis-cluster]# ./redis1/redis-cli -c -h 192.168.37.131 -p 7001

192.168.37.131:7001> 

说明:
./redis1/redis-cli -c -h 192.168.37.131 -p 7001 ,其中-c表示以集群方式连接redis-h指定ip地址,-p指定端口号

cluster nodes 查询集群结点信息

192.168.37.131:7001> cluster nodes

8e1186475f87c928e8a146d3804d9a2697246ad0 192.168.37.131:7003 master - 0 1478085160899 3 connected 10923-16383

80de7003738f74134a3403fc939fed253b7774f2 192.168.37.131:7004 master - 0 1478085156858 8 connected 0-5460

652caf5daf7971135679951324eba7b50e99251a 192.168.37.131:7005 slave 3adba62fdcc331ce231ca580cd2c8701e047bc6d 0 1478085158876 9 connected

1cd6482fd7038d78ad556b52b0cb9e2590ad5598 192.168.37.131:7001 myself,slave 80de7003738f74134a3403fc939fed253b7774f2 0 0 1 connected

3adba62fdcc331ce231ca580cd2c8701e047bc6d 192.168.37.131:7002 master - 0 1478085159889 9 connected 5461-10922

cf23ca6d78cba3d3924065e1f7a394f6c51d4b28 192.168.37.131:7006 slave 8e1186475f87c928e8a146d3804d9a2697246ad0 0 1478085157867 6 connected

192.168.37.131:7001> 

cluster info 查询集群状态信息

192.168.37.131:7001> cluster info

cluster_state:ok

cluster_slots_assigned:16384

cluster_slots_ok:16384

cluster_slots_pfail:0

cluster_slots_fail:0

cluster_known_nodes:6

cluster_size:3

cluster_current_epoch:9

cluster_my_epoch:8

cluster_stats_messages_sent:12727

cluster_stats_messages_received:10820

192.168.37.131:7001> 

添加主节点

集群创建成功后可以向集群中添加节点,下面是添加一个master主节点。

首先,准备一个干净的redis节点。按上面集群版修改redis配置文件。开启该redis节点。

查看redis进程

[root@localhost redis-cluster]# !ps

ps aux | grep redis

root      2924  0.6  0.1  33932  1800 ?        Ssl  Nov01   4:08 ./redis-server *:6379 [cluster]

root     11980  0.0  0.2  33936  2216 ?        Ssl  01:12   0:09 ./redis-server *:7001 [cluster]

root     11982  0.0  0.2  33936  2244 ?        Ssl  01:12   0:09 ./redis-server *:7002 [cluster]

root     11984  0.0  0.2  33936  2220 ?        Ssl  01:12   0:09 ./redis-server *:7003 [cluster]

root     11986  0.0  0.2  33936  2216 ?        Ssl  01:12   0:09 ./redis-server *:7004 [cluster]

root     11988  0.0  0.2  33936  2228 ?        Ssl  01:12   0:09 ./redis-server *:7005 [cluster]

root     11990  0.0  0.2  33936  2212 ?        Ssl  01:12   0:09 ./redis-server *:7006 [cluster]

root     13913  0.0  0.1  33936  1952 ?        Ssl  04:21   0:00 ./redis7/redis-server *:7007 [cluster]   

root     13917  0.0  0.0   4360   728 pts/3    S+   04:21   0:00 grep redis

[root@localhost redis-cluster]# 

执行下边命令:

[root@localhost redis-cluster]# ./redis-trib.rb add-node 192.168.37.131:7007 192.168.37.131:7001

>>> Adding node 192.168.37.131:7007 to cluster 192.168.37.131:7001

Connecting to node 192.168.37.131:7001: OK

Connecting to node 192.168.37.131:7003: OK

Connecting to node 192.168.37.131:7004: OK

Connecting to node 192.168.37.131:7005: OK

Connecting to node 192.168.37.131:7002: OK

Connecting to node 192.168.37.131:7006: OK

>>> Performing Cluster Check (using node 192.168.37.131:7001)

S: 1cd6482fd7038d78ad556b52b0cb9e2590ad5598 192.168.37.131:7001

   slots: (0 slots) slave

   replicates 80de7003738f74134a3403fc939fed253b7774f2

M: 8e1186475f87c928e8a146d3804d9a2697246ad0 192.168.37.131:7003

   slots:10923-16383 (5461 slots) master

   1 additional replica(s)

M: 80de7003738f74134a3403fc939fed253b7774f2 192.168.37.131:7004

   slots:0-5460 (5461 slots) master

   1 additional replica(s)

S: 652caf5daf7971135679951324eba7b50e99251a 192.168.37.131:7005

   slots: (0 slots) slave

   replicates 3adba62fdcc331ce231ca580cd2c8701e047bc6d

M: 3adba62fdcc331ce231ca580cd2c8701e047bc6d 192.168.37.131:7002

   slots:5461-10922 (5462 slots) master

   1 additional replica(s)

S: cf23ca6d78cba3d3924065e1f7a394f6c51d4b28 192.168.37.131:7006

   slots: (0 slots) slave

   replicates 8e1186475f87c928e8a146d3804d9a2697246ad0

[OK] All nodes agree about slots configuration.

>>> Check for open slots...

>>> Check slots coverage...

[OK] All 16384 slots covered.

Connecting to node 192.168.37.131:7007: OK

>>> Send CLUSTER MEET to node 192.168.37.131:7007 to make it join the cluster.

[OK] New node added correctly.

[root@localhost redis-cluster]# 

查看集群结点发现7007已添加到集群中:

[root@localhost redis-cluster]# ./redis1/redis-cli -c -h 192.168.37.131 -p 7001

192.168.37.131:7001> cluster nodes

8e1186475f87c928e8a146d3804d9a2697246ad0 192.168.37.131:7003 master - 0 1478085870038 3 connected 10923-16383

80de7003738f74134a3403fc939fed253b7774f2 192.168.37.131:7004 master - 0 1478085868020 8 connected 0-5460

652caf5daf7971135679951324eba7b50e99251a 192.168.37.131:7005 slave 3adba62fdcc331ce231ca580cd2c8701e047bc6d 0 1478085874075 9 connected

1cd6482fd7038d78ad556b52b0cb9e2590ad5598 192.168.37.131:7001 myself,slave 80de7003738f74134a3403fc939fed253b7774f2 0 0 1 connected

3adba62fdcc331ce231ca580cd2c8701e047bc6d 192.168.37.131:7002 master - 0 1478085873064 9 connected 5461-10922

cf23ca6d78cba3d3924065e1f7a394f6c51d4b28 192.168.37.131:7006 slave 8e1186475f87c928e8a146d3804d9a2697246ad0 0 1478085875086 6 connected

5d6c61ecff23bff3b0fb01a86c66d882f2d402a0 192.168.37.131:7007 master - 0 1478085872056 0 connected

192.168.37.131:7001> 
hash槽重新分配

添加完主节点需要对主节点进行hash槽分配这样该主节才可以存储数据。
redis集群有16384个槽,集群中的每个master结点分配一些槽,通过查看集群结点可以看到槽占用情况。

给刚添加的7007结点分配槽:

第一步:连接上集群
./redis-trib.rb reshard 192.168.37.131:7001(连接集群中任意一个可用结点都行)

[root@localhost redis-cluster]# ./redis-trib.rb reshard 192.168.37.131:7001

Connecting to node 192.168.37.131:7001: OK

Connecting to node 192.168.37.131:7003: OK

Connecting to node 192.168.37.131:7004: OK

Connecting to node 192.168.37.131:7005: OK

Connecting to node 192.168.37.131:7002: OK

Connecting to node 192.168.37.131:7006: OK

Connecting to node 192.168.37.131:7007: OK

>>> Performing Cluster Check (using node 192.168.37.131:7001)

S: 1cd6482fd7038d78ad556b52b0cb9e2590ad5598 192.168.37.131:7001

   slots: (0 slots) slave

   replicates 80de7003738f74134a3403fc939fed253b7774f2

M: 8e1186475f87c928e8a146d3804d9a2697246ad0 192.168.37.131:7003

   slots:10923-16383 (5461 slots) master

   1 additional replica(s)

M: 80de7003738f74134a3403fc939fed253b7774f2 192.168.37.131:7004

   slots:0-5460 (5461 slots) master

   1 additional replica(s)

S: 652caf5daf7971135679951324eba7b50e99251a 192.168.37.131:7005

   slots: (0 slots) slave

   replicates 3adba62fdcc331ce231ca580cd2c8701e047bc6d

M: 3adba62fdcc331ce231ca580cd2c8701e047bc6d 192.168.37.131:7002

   slots:5461-10922 (5462 slots) master

   1 additional replica(s)

S: cf23ca6d78cba3d3924065e1f7a394f6c51d4b28 192.168.37.131:7006

   slots: (0 slots) slave

   replicates 8e1186475f87c928e8a146d3804d9a2697246ad0

M: 5d6c61ecff23bff3b0fb01a86c66d882f2d402a0 192.168.37.131:7007

   slots: (0 slots) master

   0 additional replica(s)

[OK] All nodes agree about slots configuration.

>>> Check for open slots...

>>> Check slots coverage...

[OK] All 16384 slots covered.

How many slots do you want to move (from 1 to 16384)? 

第二步:输入要分配的槽数量

How many slots do you want to move (from 1 to 16384)? 1000

What is the receiving node ID? 

输入1000表示要分配1000个槽

第三步:输入接收槽的结点id

这里准备给7007分配槽,通过cluster nodes查看7007结点id5d6c61ecff23bff3b0fb01a86c66d882f2d402a0

输入:5d6c61ecff23bff3b0fb01a86c66d882f2d402a0

What is the receiving node ID? 5d6c61ecff23bff3b0fb01a86c66d882f2d402a0

Please enter all the source node IDs.

  Type 'all' to use all the nodes as source nodes for the hash slots.

  Type 'done' once you entered all the source nodes IDs.

Source node #1:

第四步:输入源结点id
输入源结点id,槽将从源结点中拿,分配后的槽在源结点中就不存在了。
输入all表示从所有源结点中获取槽。
输入done取消分配。

这里输入all

Source node #1:all

省略了很多

    Moving slot 11253 from 8e1186475f87c928e8a146d3804d9a2697246ad0

    Moving slot 11254 from 8e1186475f87c928e8a146d3804d9a2697246ad0

    Moving slot 11255 from 8e1186475f87c928e8a146d3804d9a2697246ad0

Do you want to proceed with the proposed reshard plan (yes/no)? 

第五步:输入yes开始移动槽到目标结点id

省略了很多

Moving slot 11253 from 192.168.37.131:7003 to 192.168.37.131:7007: 

Moving slot 11254 from 192.168.37.131:7003 to 192.168.37.131:7007: 

Moving slot 11255 from 192.168.37.131:7003 to 192.168.37.131:7007: 

[root@localhost redis-cluster]# 

第六步:查看结点信息

[root@localhost redis-cluster]# ./redis1/redis-cli -c -h 192.168.37.131 -p 7001

192.168.37.131:7001> cluster nodes

8e1186475f87c928e8a146d3804d9a2697246ad0 192.168.37.131:7003 master - 0 1478086754466 3 connected 11256-16383

80de7003738f74134a3403fc939fed253b7774f2 192.168.37.131:7004 master - 0 1478086758509 8 connected 333-5460

652caf5daf7971135679951324eba7b50e99251a 192.168.37.131:7005 slave 3adba62fdcc331ce231ca580cd2c8701e047bc6d 0 1478086756490 9 connected

1cd6482fd7038d78ad556b52b0cb9e2590ad5598 192.168.37.131:7001 myself,slave 80de7003738f74134a3403fc939fed253b7774f2 0 0 1 connected

3adba62fdcc331ce231ca580cd2c8701e047bc6d 192.168.37.131:7002 master - 0 1478086757500 9 connected 5795-10922

cf23ca6d78cba3d3924065e1f7a394f6c51d4b28 192.168.37.131:7006 slave 8e1186475f87c928e8a146d3804d9a2697246ad0 0 1478086755477 6 connected

5d6c61ecff23bff3b0fb01a86c66d882f2d402a0 192.168.37.131:7007 master - 0 1478086759518 10 connected 0-332 5461-5794 10923-11255

192.168.37.131:7001> 

查看结点信息,可以发现7007结点已经从三个主节点中获取了slot

添加从节点

集群创建成功后可以向集群中添加节点,下面是添加一个slave从节点。
添加7008从结点,将7008作为7007的从结点。

首先,准备一个干净的redis节点。按上面集群版修改redis配置文件。开启该redis节点。

查看redis进程

[root@localhost redis-cluster]# ps aux | grep redis

root      2924  0.5  0.1  33932  1800 ?        Ssl  Nov01   4:12 ./redis-server *:6379 [cluster]

root     11980  0.0  0.2  33936  2308 ?        Ssl  01:12   0:13 ./redis-server *:7001 [cluster]

root     11982  0.0  0.2  33936  2288 ?        Ssl  01:12   0:13 ./redis-server *:7002 [cluster]

root     11984  0.0  0.2  33936  2236 ?        Ssl  01:12   0:13 ./redis-server *:7003 [cluster]

root     11986  0.0  0.2  33936  2288 ?        Ssl  01:12   0:13 ./redis-server *:7004 [cluster]

root     11988  0.0  0.2  33936  2248 ?        Ssl  01:12   0:13 ./redis-server *:7005 [cluster]

root     11990  0.0  0.2  33936  2244 ?        Ssl  01:12   0:13 ./redis-server *:7006 [cluster]

root     13913  0.1  0.2  33936  2092 ?        Ssl  04:21   0:04 ./redis7/redis-server *:7007 [cluster]   

root     14000  0.1  0.1  33936  1948 ?        Ssl  05:24   0:00 ./redis-server *:7008 [cluster]

root     14006  0.0  0.0   4360   732 pts/3    S+   05:24   0:00 grep redis

[root@localhost redis-cluster]# 

命令格式为:

./redis-trib.rb add-node --slave --master-id 主节点id 添加节点的ip和端口 集群中已存在节点ip和端口

执行如下命令:

[root@localhost redis-cluster]# ./redis-trib.rb add-node --slave --master-id 5d6c61ecff23bff3b0fb01a86c66d882f2d402a0 192.168.37.131:7008 192.168.37.131:7001

>>> Adding node 192.168.37.131:7008 to cluster 192.168.37.131:7001

Connecting to node 192.168.37.131:7001: OK

Connecting to node 192.168.37.131:7003: OK

Connecting to node 192.168.37.131:7004: OK

Connecting to node 192.168.37.131:7005: OK

Connecting to node 192.168.37.131:7002: OK

Connecting to node 192.168.37.131:7006: OK

Connecting to node 192.168.37.131:7007: OK

>>> Performing Cluster Check (using node 192.168.37.131:7001)

S: 1cd6482fd7038d78ad556b52b0cb9e2590ad5598 192.168.37.131:7001

   slots: (0 slots) slave

   replicates 80de7003738f74134a3403fc939fed253b7774f2

M: 8e1186475f87c928e8a146d3804d9a2697246ad0 192.168.37.131:7003

   slots:11256-16383 (5128 slots) master

   1 additional replica(s)

M: 80de7003738f74134a3403fc939fed253b7774f2 192.168.37.131:7004

   slots:333-5460 (5128 slots) master

   1 additional replica(s)

S: 652caf5daf7971135679951324eba7b50e99251a 192.168.37.131:7005

   slots: (0 slots) slave

   replicates 3adba62fdcc331ce231ca580cd2c8701e047bc6d

M: 3adba62fdcc331ce231ca580cd2c8701e047bc6d 192.168.37.131:7002

   slots:5795-10922 (5128 slots) master

   1 additional replica(s)

S: cf23ca6d78cba3d3924065e1f7a394f6c51d4b28 192.168.37.131:7006

   slots: (0 slots) slave

   replicates 8e1186475f87c928e8a146d3804d9a2697246ad0

M: 5d6c61ecff23bff3b0fb01a86c66d882f2d402a0 192.168.37.131:7007

   slots:0-332,5461-5794,10923-11255 (1000 slots) master

   0 additional replica(s)

[OK] All nodes agree about slots configuration.

>>> Check for open slots...

>>> Check slots coverage...

[OK] All 16384 slots covered.

Connecting to node 192.168.37.131:7008: OK

>>> Send CLUSTER MEET to node 192.168.37.131:7008 to make it join the cluster.

Waiting for the cluster to join.

>>> Configure node as replica of 192.168.37.131:7007.

[OK] New node added correctly.

[root@localhost redis-cluster]# 

5d6c61ecff23bff3b0fb01a86c66d882f2d402a07007结点的id,可以通过cluster nodes查看。

查看集群中的结点,刚添加的70087007的从节点:

[root@localhost redis-cluster]# ./redis1/redis-cli -p 7001 -c                               127.0.0.1:7001> cluster nodes

8e1186475f87c928e8a146d3804d9a2697246ad0 192.168.37.131:7003 master - 0 1478089964769 3 connected 11256-16383

80de7003738f74134a3403fc939fed253b7774f2 192.168.37.131:7004 master - 0 1478089966584 8 connected 333-5460

652caf5daf7971135679951324eba7b50e99251a 192.168.37.131:7005 slave 3adba62fdcc331ce231ca580cd2c8701e047bc6d 0 1478089963748 9 connected

1cd6482fd7038d78ad556b52b0cb9e2590ad5598 192.168.37.131:7001 myself,slave 80de7003738f74134a3403fc939fed253b7774f2 0 0 1 connected

3adba62fdcc331ce231ca580cd2c8701e047bc6d 192.168.37.131:7002 master - 0 1478089966787 9 connected 5795-10922

cf23ca6d78cba3d3924065e1f7a394f6c51d4b28 192.168.37.131:7006 slave 8e1186475f87c928e8a146d3804d9a2697246ad0 0 1478089962729 6 connected

5c97e8eab019c40ea3df4925c7400fe7df1846bb 192.168.37.131:7008 slave 5d6c61ecff23bff3b0fb01a86c66d882f2d402a0 0 1478089961713 10 connected

5d6c61ecff23bff3b0fb01a86c66d882f2d402a0 192.168.37.131:7007 master - 0 1478089965777 10 connected 0-332 5461-5794 10923-11255

127.0.0.1:7001> 

删除结点

./redis-trib.rb del-node 192.168.37.131:7007 5d6c61ecff23bff3b0fb01a86c66d882f2d402a0

删除已经占有hash槽的结点会失败,报错如下:

[ERR] Node 192.168.37.131:7007 is not empty! Reshard data away and try again.

需要将该结点占用的hash槽分配出去,请参考《hash槽重新分配》这段内容。

客户端对Redis集群的使用方法

使用redis命令行客户端连接

[root@localhost redis-cluster]# ./redis1/redis-cli -p 7001 -c

127.0.0.1:7001> get a

-> Redirected to slot [15495] located at 192.168.37.131:7003

(nil)

192.168.37.131:7003> 

一定要加-c参数,节点之间就可以互相跳转

使用jedis连接

package com.pc.jedis.test;

import java.util.HashSet;

import java.util.Set;

import redis.clients.jedis.HostAndPort;

import redis.clients.jedis.JedisCluster;
/**

 * Jedis集群测试

 * 

 * @author Switch

 * @data 2017年2月11日

 * @version V1.0

 */

public class JedisClusterTest {

    public static void main(String[] args) {

        // 创建并填充节点信息

        Set<HostAndPort> nodes = new HashSet<>();

        nodes.add(new HostAndPort("192.168.37.131", 7001));

        nodes.add(new HostAndPort("192.168.37.131", 7002));

        nodes.add(new HostAndPort("192.168.37.131", 7003));

        nodes.add(new HostAndPort("192.168.37.131", 7004));

        nodes.add(new HostAndPort("192.168.37.131", 7005));

        nodes.add(new HostAndPort("192.168.37.131", 7006));

        // 创建JedisCluster对象

        JedisCluster jedisCluster = new JedisCluster(nodes);

        // 使用jedisCluster操作redis

        String key = "jedisCluster";

        String setResult = jedisCluster.set(key, "hello redis!");

        System.out.println(setResult);

        String getResult = jedisCluster.get(key);

        System.out.println(getResult);

        // 关闭jedisCluster(程序执行完后才能关闭,内部封装了连接池)

        jedisCluster.close();

    }

}

——参考《Redis官方文档》

转自:https://blog.csdn.net/truelove12358/article/details/79612954

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