zoukankan      html  css  js  c++  java
  • docker 实现redis集群搭建

    摘要:接触docker以来,似乎养成了一种习惯,安装什么应用软件都想往docker方向做,今天就想来尝试下使用docker搭建redis集群。

    首先,我们需要理论知识:Redis ClusterRedis的分布式解决方案,它解决了redis单机中心化的问题,分布式数据库——首要解决把整个数据集按照分区规则映射到多个节点的问题。

    这边就需要知道分区规则——哈希分区规则。Redis Cluster 采用哈希分区规则中的虚拟槽分区。所有的键根据哈希函数映射到0 ~ 16383,计算公式:slot = CRC16(key)&16383。每一个节点负责维护一部分槽以及槽所映射的键值数据。

    一、创建redis docker基础镜像

    1. 下载redis安装包,使用版本为:4.0.1
      [root@etcd1 tmp]# mkdir docker_redis_cluster
      [root@etcd1 tmp]# cd docker_redis_cluster/
      [root@etcd2 docker_redis_cluster]# wget http://download.redis.io/releases/redis-4.0.1.tar.gz
    2. 解压编译redis
      [root@etcd1 docker_redis_cluster]# tar zxvf redis-4.0.1.tar.gz
      [root@etcd1 docker_redis_cluster]# cd redis-4.0.1/
      [root@etcd1 redis-4.0.1]# make
    3. 修改redis配置
      [root@etcd3 redis-4.0.1]# vi /tmp/docker_redis_cluster/redis-4.0.1/redis.conf
      

        
      修改bind ip地址

      # ~~~ WARNING ~~~ If the computer running Redis is directly exposed to the
      # internet, binding to all the interfaces is dangerous and will expose the
      # instance to everybody on the internet. So by default we uncomment the
      # following bind directive, that will force Redis to listen only into
      # the IPv4 lookback interface address (this means Redis will be able to
      # accept connections only from clients running into the same computer it
      # is running).
      #
      # IF YOU ARE SURE YOU WANT YOUR INSTANCE TO LISTEN TO ALL THE INTERFACES
      # JUST COMMENT THE FOLLOWING LINE.
      # ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
      #bind 127.0.0.1
      bind 0.0.0.0
      

        

      将守护进程yes改成no

      # 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 no
      

        
      将密码项注释去掉,添加新密码

      # Warning: since Redis is pretty fast an outside user can try up to
      # 150k passwords per second against a good box. This means that you should
      # use a very strong password otherwise it will be very easy to break.
      #
      # requirepass foobared
      

        修改为

      # Warning: since Redis is pretty fast an outside user can try up to
      # 150k passwords per second against a good box. This means that you should
      # use a very strong password otherwise it will be very easy to break.
      #
      requirepass 123456
      


      因为配置了密码,所以,配置中另外一处主从连接也需要配置密码

      # If the master is password protected (using the "requirepass" configuration
      # directive below) it is possible to tell the slave to authenticate before
      # starting the replication synchronization process, otherwise the master will
      # refuse the slave request.
      #
      # masterauth <master-password>
      

        修改为

      # If the master is password protected (using the "requirepass" configuration
      # directive below) it is possible to tell the slave to authenticate before
      # starting the replication synchronization process, otherwise the master will
      # refuse the slave request.
      #
      # masterauth <master-password>
      masterauth 123456
      

        

        

      设置日志路径

      # Specify the log file name. Also the empty string can be used to force
      # Redis to log on the standard output. Note that if you use standard
      # output for logging but daemonize, logs will be sent to /dev/null
      logfile "/var/log/redis/redis-server.log"
      

        
      配置集群相关信息,去掉配置项前面的注释

      # 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
      
      # Every cluster node has a cluster configuration file. This file is not
      # intended to be edited by hand. It is created and updated by Redis nodes.
      # Every Redis Cluster node requires a different cluster configuration file.
      # Make sure that instances running in the same system do not have
      # overlapping cluster configuration file names.
      #
      cluster-config-file nodes-6379.conf
      
      # Cluster node timeout is the amount of milliseconds a node must be unreachable
      # for it to be considered in failure state.
      # Most other internal time limits are multiple of the node timeout.
      #
      cluster-node-timeout 15000
    4. 镜像制作
      [root@etcd3 docker_redis_cluster]# cd /tmp/docker_redis_cluster
      [root@etcd3 docker_redis_cluster]# vi Dockerfile 
      # Redis
      # Version 4.0.1
      
      FROM Centos:7
      ENV REDIS_HOME /usr/local
      ADD redis-4.0.1.tar.gz / # 本地的redis源码包复制到镜像的根路径下,ADD命令会在复制过后自动解包。被复制的对象必须处于Dockerfile同一路径,且ADD后面必须使用相对路径 RUN mkdir -p $REDIS_HOME/redis # 创建安装目录 ADD redis-4.0.1/redis.conf $REDIS_HOME/redis/ # 将一开始编译产生并修改后的配置复制到安装目录 RUN yum -y update # 更新yum源 RUN yum install -y gcc make # 安装编译需要的工具 WORKDIR /redis-4.0.1 RUN make RUN mv /redis-4.0.1/src/redis-server $REDIS_HOME/redis/ # 编译后,容器中只需要可执行文件redis-server WORKDIR / RUN rm -rf /redis-4.0.1 # 删除解压文件 RUN yum remove -y gcc make # 安装编译完成之后,可以删除多余的gcc跟make VOLUME ["/var/log/redis"] # 添加数据卷 EXPOSE 6379 # 暴露6379端口,也可以暴露多个端口,这里不需要如此

        
      PS.当前镜像非可执行镜像,所以没有包含ENTRYPOINT和CMD指令

    5. 构建镜像
      # 切换中国源
      [root@etcd3 docker_redis_cluster]# vi /etc/docker/daemon.json
      {
        "registry-mirrors": ["https://registry.docker-cn.com"]
      }
      
      # 编译
      [root@etcd3 docker_redis_cluster]# docker build -t hakimdstx/cluster-redis .
      ...
      
      Complete!
       ---> 546cb1d34f35
      Removing intermediate container 6b6556c5f28d
      Step 14/15 : VOLUME /var/log/redis
       ---> Running in 05a6642e4046
       ---> e7e2fb8676b2
      Removing intermediate container 05a6642e4046
      Step 15/15 : EXPOSE 6379
       ---> Running in 5d7abe1709e2
       ---> 2d1322475f79
      Removing intermediate container 5d7abe1709e2
      Successfully built 2d1322475f79
      

        
      镜像制作完成,制作中间可能会报: Public key for glibc-headers-2.17-222.el7.x86_64.rpm is not installed 错误,这时候需要在镜像配置中添加一句命令:

      ...
      RUN rpm --import /etc/pki/rpm-gpg/RPM-GPG-KEY-CentOS-7
      RUN yum -y update  # 更新yum源
      RUN yum install -y gcc make # 安装编译需要的工具

      查看镜像:
      [root@etcd3 docker_redis_cluster]# docker images
      REPOSITORY                                  TAG                 IMAGE ID            CREATED             SIZE
      hakimdstx/cluster-redis                     4.0.1               1fca5a08a4c7        14 seconds ago      435 MB
      centos                                      7                   49f7960eb7e4        2 days ago          200 MB
      

       

      以上,redis 基础镜像就制作完成了

    二、制作redis节点镜像

    1. 基于此前制作的redis基础镜像创建一个redis节点镜像
      [root@etcd3 tmp]# mkdir docker_redis_nodes
      [root@etcd3 tmp]# cd docker_redis_nodes
      [root@etcd3 docker_redis_nodes]# vi Dockerfile
      # Redis Node
      # Version 4.0.1
      FROM hakimdstx/cluster-redis:4.0.1 # MAINTAINER_INFO MAINTAINER hakim 1194842583@qq.com ENTRYPOINT ["/usr/local/redis/redis-server", "/usr/local/redis/redis.conf"]

        

    2. 构建redis节点镜像
      [root@etcd3 docker_redis_nodes]# docker build -t hakimdstx/nodes-redis:4.0.1 .       
      Sending build context to Docker daemon 2.048 kB
      Step 1/3 : FROM hakimdstx/cluster-redis:4.0.1
       ---> 1fca5a08a4c7
      Step 2/3 : MAINTAINER hakim 1194842583@qq.com
       ---> Running in cc6e07eb2c36
       ---> 55769d3bfacb
      Removing intermediate container cc6e07eb2c36
      Step 3/3 : ENTRYPOINT /usr/local/redis/redis-server /usr/local/redis/redis.conf
       ---> Running in f5dedf88f6f6
       ---> da64da483559
      Removing intermediate container f5dedf88f6f6
      Successfully built da64da483559
      

        

    3. 查看镜像
      [root@etcd3 docker_redis_nodes]# docker images
      REPOSITORY                                  TAG                 IMAGE ID            CREATED             SIZE
      hakimdstx/nodes-redis                       4.0.1               da64da483559        51 seconds ago      435 MB
      hakimdstx/cluster-redis                     4.0.1               1fca5a08a4c7        9 minutes ago       435 MB
      centos                                      7                   49f7960eb7e4        2 days ago          200 MB
      

        

    三、运行redis集群

    1. 运行redis容器
      [root@etcd3 docker_redis_nodes]# docker run -d --name redis-6379 -p 6379:6379 hakimdstx/nodes-redis:4.0.1   
      1673a7d859ea83257d5bf14d82ebf717fb31405c185ce96a05f597d8f855aa7d
      [root@etcd3 docker_redis_nodes]# docker run -d --name redis-6380 -p 6380:6379 hakimdstx/nodes-redis:4.0.1    
      df6ebce6f12a6f3620d5a29adcfbfa7024e906c3af48f21fa7e1fa524a361362
      [root@etcd3 docker_redis_nodes]# docker run -d --name redis-6381 -p 6381:6379 hakimdstx/nodes-redis:4.0.1   
      396e174a1d9235228b3c5f0266785a12fb1ea49efc7ac755c9e7590e17aa1a79
      [root@etcd3 docker_redis_nodes]# docker run -d --name redis-6382 -p 6382:6379 hakimdstx/nodes-redis:4.0.1 
      d9a71dd3f969094205ffa7596c4a04255575cdd3acca2d47fe8ef7171a3be528
      [root@etcd3 docker_redis_nodes]# docker run -d --name redis-6383 -p 6383:6379 hakimdstx/nodes-redis:4.0.1 
      73e4f843d8cb28595456e21b04f97d18ce1cdf8dc56d1150844ba258a3781933
      [root@etcd3 docker_redis_nodes]# docker run -d --name redis-6384 -p 6384:6379 hakimdstx/nodes-redis:4.0.1 
      10c62aafa4dac47220daf5bf3cec84406f086d5261599b54ec6c56bb7da97d6d
    2. 查看容器信息
      [root@etcd3 redis]# docker ps
      CONTAINER ID        IMAGE                         COMMAND                  CREATED             STATUS              PORTS                    NAMES
      10c62aafa4da        hakimdstx/nodes-redis:4.0.1   "/usr/local/redis/..."   3 seconds ago       Up 2 seconds        0.0.0.0:6384->6379/tcp   redis-6384
      73e4f843d8cb        hakimdstx/nodes-redis:4.0.1   "/usr/local/redis/..."   12 seconds ago      Up 10 seconds       0.0.0.0:6383->6379/tcp   redis-6383
      d9a71dd3f969        hakimdstx/nodes-redis:4.0.1   "/usr/local/redis/..."   20 seconds ago      Up 18 seconds       0.0.0.0:6382->6379/tcp   redis-6382
      396e174a1d92        hakimdstx/nodes-redis:4.0.1   "/usr/local/redis/..."   3 days ago          Up 3 days           0.0.0.0:6381->6379/tcp   redis-6381
      df6ebce6f12a        hakimdstx/nodes-redis:4.0.1   "/usr/local/redis/..."   3 days ago          Up 3 days           0.0.0.0:6380->6379/tcp   redis-6380
      1673a7d859ea        hakimdstx/nodes-redis:4.0.1   "/usr/local/redis/..."   3 days ago          Up 3 days           0.0.0.0:6379->6379/tcp   redis-6379
      

        

    3. 运行 redis 集群容器
      1. 通过远程连接,查看redis  info replication 信息
        [root@etcd2 ~]#  redis-cli -h 192.168.10.52 -p 6379
        192.168.10.52:6379> info replication
        NOAUTH Authentication required.
        192.168.10.52:6379> auth 123456
        OK
        192.168.10.52:6379> info replication
        # Replication
        role:master
        connected_slaves:0
        master_replid:2f0a7b50aed699fa50a79f3f7f9751a070c50ee9
        master_replid2:0000000000000000000000000000000000000000
        master_repl_offset:0
        second_repl_offset:-1
        repl_backlog_active:0
        repl_backlog_size:1048576
        repl_backlog_first_byte_offset:0
        repl_backlog_histlen:0
        192.168.10.52:6379>
        # 其余基本信息同上 
        

          可以看到,客户连接之后,因为之前设置了密码,所以需要先输入密码认证,否则就无法通过。以上信息,我们知道所有的redis都是master角色 role:master ,这显然不是我们所希望的。

      2. 在配置之前我们需要查看所有容器当前的IP地址
        [root@etcd3 redis]# docker ps
        CONTAINER ID        IMAGE                         COMMAND                  CREATED             STATUS              PORTS                    NAMES
        10c62aafa4da        hakimdstx/nodes-redis:4.0.1   "/usr/local/redis/..."   3 seconds ago       Up 2 seconds        0.0.0.0:6384->6379/tcp   redis-6384
        73e4f843d8cb        hakimdstx/nodes-redis:4.0.1   "/usr/local/redis/..."   12 seconds ago      Up 10 seconds       0.0.0.0:6383->6379/tcp   redis-6383
        d9a71dd3f969        hakimdstx/nodes-redis:4.0.1   "/usr/local/redis/..."   20 seconds ago      Up 18 seconds       0.0.0.0:6382->6379/tcp   redis-6382
        396e174a1d92        hakimdstx/nodes-redis:4.0.1   "/usr/local/redis/..."   3 days ago          Up 3 days           0.0.0.0:6381->6379/tcp   redis-6381
        df6ebce6f12a        hakimdstx/nodes-redis:4.0.1   "/usr/local/redis/..."   3 days ago          Up 3 days           0.0.0.0:6380->6379/tcp   redis-6380
        1673a7d859ea        hakimdstx/nodes-redis:4.0.1   "/usr/local/redis/..."   3 days ago          Up 3 days           0.0.0.0:6379->6379/tcp   redis-6379
        [root@etcd3 redis]# 
        [root@etcd3 redis]# docker inspect 10c62aafa4da 73e4f843d8cb d9a71dd3f969 396e174a1d92 df6ebce6f12a 1673a7d859ea | grep IPA
                    "SecondaryIPAddresses": null,
                    "IPAddress": "172.17.0.7",
                            "IPAMConfig": null,
                            "IPAddress": "172.17.0.7",
                    "SecondaryIPAddresses": null,
                    "IPAddress": "172.17.0.6",
                            "IPAMConfig": null,
                            "IPAddress": "172.17.0.6",
                    "SecondaryIPAddresses": null,
                    "IPAddress": "172.17.0.5",
                            "IPAMConfig": null,
                            "IPAddress": "172.17.0.5",
                    "SecondaryIPAddresses": null,
                    "IPAddress": "172.17.0.4",
                            "IPAMConfig": null,
                            "IPAddress": "172.17.0.4",
                    "SecondaryIPAddresses": null,
                    "IPAddress": "172.17.0.3",
                            "IPAMConfig": null,
                            "IPAddress": "172.17.0.3",
                    "SecondaryIPAddresses": null,
                    "IPAddress": "172.17.0.2",
                            "IPAMConfig": null,
                            "IPAddress": "172.17.0.2",

        可以知道:  redis-6379:172.17.0.2,redis-6380:172.17.0.3,redis-6381:172.17.0.4,redis-6382:172.17.0.5,redis-6383:172.17.0.6,redis-6384:172.17.0.7  

      3. 配置redis
      4. ert
    4. Redis Cluster 的集群感知操作
      //集群(cluster)  
      CLUSTER INFO 打印集群的信息  
      CLUSTER NODES 列出集群当前已知的所有节点(node),以及这些节点的相关信息。   
        
      //节点(node)  
      CLUSTER MEET <ip> <port> 将 ip 和 port 所指定的节点添加到集群当中,让它成为集群的一份子。  
      CLUSTER FORGET <node_id> 从集群中移除 node_id 指定的节点。  
      CLUSTER REPLICATE <node_id> 将当前节点设置为 node_id 指定的节点的从节点。  
      CLUSTER SAVECONFIG 将节点的配置文件保存到硬盘里面。   
        
      //槽(slot)  
      CLUSTER ADDSLOTS <slot> [slot ...] 将一个或多个槽(slot)指派(assign)给当前节点。  
      CLUSTER DELSLOTS <slot> [slot ...] 移除一个或多个槽对当前节点的指派。  
      CLUSTER FLUSHSLOTS 移除指派给当前节点的所有槽,让当前节点变成一个没有指派任何槽的节点。  
      CLUSTER SETSLOT <slot> NODE <node_id> 将槽 slot 指派给 node_id 指定的节点,如果槽已经指派给另一个节点,那么先让另一个节点删除该槽>,然后再进行指派。  
      CLUSTER SETSLOT <slot> MIGRATING <node_id> 将本节点的槽 slot 迁移到 node_id 指定的节点中。  
      CLUSTER SETSLOT <slot> IMPORTING <node_id> 从 node_id 指定的节点中导入槽 slot 到本节点。  
      CLUSTER SETSLOT <slot> STABLE 取消对槽 slot 的导入(import)或者迁移(migrate)。   
        
      //键 (key)  
      CLUSTER KEYSLOT <key> 计算键 key 应该被放置在哪个槽上。  
      CLUSTER COUNTKEYSINSLOT <slot> 返回槽 slot 目前包含的键值对数量。  
      CLUSTER GETKEYSINSLOT <slot> <count> 返回 count 个 slot 槽中的键。  
      

        
      redis 集群感知:节点握手——是指一批运行在集群模式的节点通过Gossip协议彼此通信,达到感知对方的过程。
       

      192.168.10.52:6379> CLUSTER MEET 172.17.0.3 6379
      OK
      192.168.10.52:6379> CLUSTER MEET 172.17.0.4 6379
      OK
      192.168.10.52:6379> CLUSTER MEET 172.17.0.5 6379
      OK
      192.168.10.52:6379> CLUSTER MEET 172.17.0.6 6379
      OK
      192.168.10.52:6379> CLUSTER MEET 172.17.0.7 6379
      OK
      192.168.10.52:6379>  CLUSTER NODES
      54cb5c2eb8e5f5aed2d2f7843f75a9284ef6785c 172.17.0.3:6379@16379 master - 0 1528697195600 1 connected
      f45f9109f2297a83b1ac36f9e1db5e70bbc174ab 172.17.0.4:6379@16379 master - 0 1528697195600 0 connected
      ae86224a3bc29c4854719c83979cb7506f37787a 172.17.0.7:6379@16379 master - 0 1528697195600 5 connected
      98aebcfe42d8aaa8a3375e4a16707107dc9da683 172.17.0.6:6379@16379 master - 0 1528697194000 4 connected
      0bbdc4176884ef0e3bb9b2e7d03d91b0e7e11f44 172.17.0.5:6379@16379 master - 0 1528697194995 3 connected
      760e4d0039c5ac13d04aa4791c9e6dc28544d7c7 172.17.0.2:6379@16379 myself,master - 0 1528697195000 2 connected
      

        
      当前已经使这六个节点组成集群,但是现在还无法工作,因为集群节点还没有分配槽(slot)。

      1. 分配槽信息
        查看172.17.0.2:6379 的槽个数
        192.168.10.52:6379> CLUSTER INFO
        cluster_state:fail
        cluster_slots_assigned:0    # 被分配槽的个数为0
        cluster_slots_ok:0
        cluster_slots_pfail:0
        cluster_slots_fail:0
        cluster_known_nodes:6
        cluster_size:0
        cluster_current_epoch:5
        cluster_my_epoch:2
        cluster_stats_messages_ping_sent:260418
        cluster_stats_messages_pong_sent:260087
        cluster_stats_messages_meet_sent:10
        cluster_stats_messages_sent:520515
        cluster_stats_messages_ping_received:260086
        cluster_stats_messages_pong_received:260328
        cluster_stats_messages_meet_received:1
        cluster_stats_messages_received:520415
        

          
        上面看到集群状态是失败的,原因是槽位没有分配,而且需要一次性把16384个槽位完全分配了,集群才可用。

      2. 分配槽位

        分配槽位: CLUSTER ADDSLOTS  槽位,一个槽位只能分配一个节点,16384个槽位必须分配完,不同节点不能冲突
        所以通过脚本进行分配 addslots.sh:
        #!/bin/bash
        # node1 192.168.10.52   172.17.0.2
        n=0
        for ((i=n;i<=5461;i++))
        do
           /usr/local/bin/redis-cli -h 192.168.10.52 -p 6379 -a 123456  CLUSTER ADDSLOTS $i
        done
        
        
        # node2 192.168.10.52    172.17.0.3
        n=5462
        for ((i=n;i<=10922;i++))
        do
           /usr/local/bin/redis-cli -h 192.168.10.52 -p 6380 -a 123456 CLUSTER ADDSLOTS $i
        done
        
        
        # node3 192.168.10.52    172.17.0.4
        n=10923
        for ((i=n;i<=16383;i++))
        do
           /usr/local/bin/redis-cli -h 192.168.10.52 -p 6381 -a 123456 CLUSTER ADDSLOTS $i
        done
        

          
        其中, -a 123456  表示需要输入的密码。

        192.168.10.52:6379> CLUSTER INFO
        cluster_state:fail           # 集群状态为失败
        cluster_slots_assigned:16101    # 没有完全分配结束
        cluster_slots_ok:16101
        cluster_slots_pfail:0
        cluster_slots_fail:0
        cluster_known_nodes:6
        cluster_size:3
        cluster_current_epoch:5
        cluster_my_epoch:2
        cluster_stats_messages_ping_sent:266756
        cluster_stats_messages_pong_sent:266528
        cluster_stats_messages_meet_sent:10
        cluster_stats_messages_sent:533294
        cluster_stats_messages_ping_received:266527
        cluster_stats_messages_pong_received:266666
        cluster_stats_messages_meet_received:1
        cluster_stats_messages_received:533194
        192.168.10.52:6379> CLUSTER INFO cluster_state:ok # 集群状态为成功 cluster_slots_assigned:16384 # 已经全部分配完成 cluster_slots_ok:16384 cluster_slots_pfail:0 cluster_slots_fail:0 cluster_known_nodes:6 cluster_size:3 cluster_current_epoch:5 cluster_my_epoch:2 cluster_stats_messages_ping_sent:266757 cluster_stats_messages_pong_sent:266531 cluster_stats_messages_meet_sent:10 cluster_stats_messages_sent:533298 cluster_stats_messages_ping_received:266530 cluster_stats_messages_pong_received:266667 cluster_stats_messages_meet_received:1 cluster_stats_messages_received:533198

          

        综上可知,当全部槽位分配完成之后,集群还是可行的,如果我们手欠,移除一个槽位,那么集群就立马那不行了,自己去试试吧 ——CLUSTER DELSLOTS 0 。

    5. 如何变成高可用性
      以上我们已经搭建了一套完整的可运行的redis cluster,但是每个节点都是单点,这样子可能出现,一个节点挂掉,整个集群因为槽位分配不完全而崩溃,因此,我们需要为每个节点配置副本备用节点。
      前面我们已经提前创建了6个备用节点,搭建集群花了三个,因此还有剩下三个直接可以用来做备用副本。
      192.168.10.52:6379> 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   # 总共6个节点
      cluster_size:3          # 集群为 3 个节点
      cluster_current_epoch:5
      cluster_my_epoch:2
      cluster_stats_messages_ping_sent:270127
      cluster_stats_messages_pong_sent:269893
      cluster_stats_messages_meet_sent:10
      cluster_stats_messages_sent:540030
      cluster_stats_messages_ping_received:269892
      cluster_stats_messages_pong_received:270037
      cluster_stats_messages_meet_received:1
      cluster_stats_messages_received:539930
      

        
      查看所有节点的id

      192.168.10.52:6379> CLUSTER NODES
      54cb5c2eb8e5f5aed2d2f7843f75a9284ef6785c 172.17.0.3:6379@16379 master - 0 1528704114535 1 connected 5462-10922
      f45f9109f2297a83b1ac36f9e1db5e70bbc174ab 172.17.0.4:6379@16379 master - 0 1528704114000 0 connected 10923-16383
      ae86224a3bc29c4854719c83979cb7506f37787a 172.17.0.7:6379@16379 master - 0 1528704114023 5 connected
      98aebcfe42d8aaa8a3375e4a16707107dc9da683 172.17.0.6:6379@16379 master - 0 1528704115544 4 connected
      0bbdc4176884ef0e3bb9b2e7d03d91b0e7e11f44 172.17.0.5:6379@16379 master - 0 1528704114836 3 connected
      760e4d0039c5ac13d04aa4791c9e6dc28544d7c7 172.17.0.2:6379@16379 myself,master - 0 1528704115000 2 connected 0-5461
      

        
      编写脚本,添加副本节点

      [root@etcd2 tmp]# vi addSlaveNodes.sh 
      #!/bin/bash
      
      /usr/local/bin/redis-cli -h 192.168.10.52 -p 6382 -a 123456 CLUSTER REPLICATE 760e4d0039c5ac13d04aa4791c9e6dc28544d7c7
      
      /usr/local/bin/redis-cli -h 192.168.10.52 -p 6383 -a 123456 CLUSTER REPLICATE 54cb5c2eb8e5f5aed2d2f7843f75a9284ef6785c
      
      /usr/local/bin/redis-cli -h 192.168.10.52 -p 6384 -a 123456 CLUSTER REPLICATE f45f9109f2297a83b1ac36f9e1db5e70bbc174ab
      

        
      注意:1、作为备用的节点,必须是未分配槽位的,否者会操作失败 (error) ERR To set a master the node must be empty and without assigned slots 。
                 2、需要从需要添加的节点上面执行操作,CLUSTER REPLICATE [node_id]  ,使当前节点成为 node_id 的副本节点。
                 3、添加从节点(集群复制): 复制的原理和单机的Redis复制原理一样,区别是:集群下的从节点也需要运行在cluster模式下,要先添加到集群里面,再做复制。
      查看所有节点信息:

      192.168.10.52:6379> CLUSTER NODES
      54cb5c2eb8e5f5aed2d2f7843f75a9284ef6785c 172.17.0.3:6379@16379 master - 0 1528705604149 1 connected 5462-10922
      f45f9109f2297a83b1ac36f9e1db5e70bbc174ab 172.17.0.4:6379@16379 master - 0 1528705603545 0 connected 10923-16383
      ae86224a3bc29c4854719c83979cb7506f37787a 172.17.0.7:6379@16379 slave f45f9109f2297a83b1ac36f9e1db5e70bbc174ab 0 1528705603144 5 connected
      98aebcfe42d8aaa8a3375e4a16707107dc9da683 172.17.0.6:6379@16379 slave 54cb5c2eb8e5f5aed2d2f7843f75a9284ef6785c 0 1528705603000 4 connected
      0bbdc4176884ef0e3bb9b2e7d03d91b0e7e11f44 172.17.0.5:6379@16379 slave 760e4d0039c5ac13d04aa4791c9e6dc28544d7c7 0 1528705603000 3 connected
      760e4d0039c5ac13d04aa4791c9e6dc28544d7c7 172.17.0.2:6379@16379 myself,master - 0 1528705602000 2 connected 0-5461
      

        
      可以看到我们现在实现了三主三从的一个高可用集群。

    6. 高可用测试——故障转移
      查看当前运行状态:
      192.168.10.52:6379> CLUSTER NODES
      54cb5c2eb8e5f5aed2d2f7843f75a9284ef6785c 172.17.0.3:6379@16379 master - 0 1528705604149 1 connected 5462-10922
      f45f9109f2297a83b1ac36f9e1db5e70bbc174ab 172.17.0.4:6379@16379 master - 0 1528705603545 0 connected 10923-16383
      ae86224a3bc29c4854719c83979cb7506f37787a 172.17.0.7:6379@16379 slave f45f9109f2297a83b1ac36f9e1db5e70bbc174ab 0 1528705603144 5 connected
      98aebcfe42d8aaa8a3375e4a16707107dc9da683 172.17.0.6:6379@16379 slave 54cb5c2eb8e5f5aed2d2f7843f75a9284ef6785c 0 1528705603000 4 connected
      0bbdc4176884ef0e3bb9b2e7d03d91b0e7e11f44 172.17.0.5:6379@16379 slave 760e4d0039c5ac13d04aa4791c9e6dc28544d7c7 0 1528705603000 3 connected
      760e4d0039c5ac13d04aa4791c9e6dc28544d7c7 172.17.0.2:6379@16379 myself,master - 0 1528705602000 2 connected 0-5461
      

        以上,运行正常

      尝试关闭一个master,选择端口为6380的容器,停掉之后:

      192.168.10.52:6379> CLUSTER NODES
      54cb5c2eb8e5f5aed2d2f7843f75a9284ef6785c 172.17.0.3:6379@16379 master,fail - 1528706408935 1528706408000 1 connected 5462-10922
      f45f9109f2297a83b1ac36f9e1db5e70bbc174ab 172.17.0.4:6379@16379 master - 0 1528706463000 0 connected 10923-16383
      ae86224a3bc29c4854719c83979cb7506f37787a 172.17.0.7:6379@16379 slave f45f9109f2297a83b1ac36f9e1db5e70bbc174ab 0 1528706462980 5 connected
      98aebcfe42d8aaa8a3375e4a16707107dc9da683 172.17.0.6:6379@16379 slave 54cb5c2eb8e5f5aed2d2f7843f75a9284ef6785c 0 1528706463000 4 connected
      0bbdc4176884ef0e3bb9b2e7d03d91b0e7e11f44 172.17.0.5:6379@16379 slave 760e4d0039c5ac13d04aa4791c9e6dc28544d7c7 0 1528706463985 3 connected
      760e4d0039c5ac13d04aa4791c9e6dc28544d7c7 172.17.0.2:6379@16379 myself,master - 0 1528706462000 2 connected 0-5461
      192.168.10.52:6379> 
      192.168.10.52:6379> CLUSTER INFO
      cluster_state:fail
      cluster_slots_assigned:16384
      cluster_slots_ok:10923
      cluster_slots_pfail:0
      cluster_slots_fail:5461
      cluster_known_nodes:6
      cluster_size:3
      cluster_current_epoch:5
      cluster_my_epoch:2
      cluster_stats_messages_ping_sent:275112
      cluster_stats_messages_pong_sent:274819
      cluster_stats_messages_meet_sent:10
      cluster_stats_messages_fail_sent:5
      cluster_stats_messages_sent:549946
      cluster_stats_messages_ping_received:274818
      cluster_stats_messages_pong_received:275004
      cluster_stats_messages_meet_received:1
      cluster_stats_messages_fail_received:1
      cluster_stats_messages_received:549824
      

        以上,发现整个集群都失败了,从节点没有自动升级为主节点,怎么回事??
      重启停掉的容器,经排查日志信息 [root@df6ebce6f12a /]# tail -f /var/log/redis/redis-server.log  :

      1:S 11 Jun 09:57:46.712 # Cluster state changed: ok
      1:S 11 Jun 09:57:46.718 * (Non critical) Master does not understand REPLCONF listening-port: -NOAUTH Authentication required.
      1:S 11 Jun 09:57:46.718 * (Non critical) Master does not understand REPLCONF capa: -NOAUTH Authentication required.
      1:S 11 Jun 09:57:46.719 * Partial resynchronization not possible (no cached master)
      1:S 11 Jun 09:57:46.719 # Unexpected reply to PSYNC from master: -NOAUTH Authentication required.
      1:S 11 Jun 09:57:46.719 * Retrying with SYNC...
      1:S 11 Jun 09:57:46.719 # MASTER aborted replication with an error: NOAUTH Authentication required.
      1:S 11 Jun 09:57:46.782 * Connecting to MASTER 172.17.0.6:6379
      1:S 11 Jun 09:57:46.782 * MASTER <-> SLAVE sync started
      1:S 11 Jun 09:57:46.782 * Non blocking connect for SYNC fired the event.


      可以看到,主从之间访问需要auth,之前忘记了配置 redis.conf  中的 # masterauth <master-password> ,所以导致主从之间无法通讯。修改配置之后,自动故障转移正常。


      有时候需要实施人工故障转移:

      登录6380端口的从节点:6383,执行 CLUSTER FAILOVER 命令:
      192.168.10.52:6383> CLUSTER  FAILOVER
      (error) ERR Master is down or failed, please use CLUSTER FAILOVER FORCE
      

        
      发现因为master已经down了,所以我们需要执行强制转移

      192.168.10.52:6383> CLUSTER FAILOVER FORCE
      OK
      

        
      查看当前 cluster node 情况:

      192.168.10.52:6383>  CLUSTER NODES
      0bbdc4176884ef0e3bb9b2e7d03d91b0e7e11f44 172.17.0.5:6379@16379 slave 760e4d0039c5ac13d04aa4791c9e6dc28544d7c7 0 1528707535332 3 connected
      ae86224a3bc29c4854719c83979cb7506f37787a 172.17.0.7:6379@16379 slave f45f9109f2297a83b1ac36f9e1db5e70bbc174ab 0 1528707534829 5 connected
      f45f9109f2297a83b1ac36f9e1db5e70bbc174ab 172.17.0.4:6379@16379 master - 0 1528707534527 0 connected 10923-16383
      98aebcfe42d8aaa8a3375e4a16707107dc9da683 172.17.0.6:6379@16379 myself,master - 0 1528707535000 6 connected 5462-10922
      760e4d0039c5ac13d04aa4791c9e6dc28544d7c7 172.17.0.2:6379@16379 master - 0 1528707535834 2 connected 0-5461
      54cb5c2eb8e5f5aed2d2f7843f75a9284ef6785c 172.17.0.3:6379@16379 master,fail - 1528707472833 1528707472000 1 connected
      

        
      从节点已经升级为master节点。这时候,我们尝试重启了,6380节点的redis(其实是重新启动停掉的容器):

      192.168.10.52:6383>  CLUSTER NODES
      0bbdc4176884ef0e3bb9b2e7d03d91b0e7e11f44 172.17.0.5:6379@16379 slave 760e4d0039c5ac13d04aa4791c9e6dc28544d7c7 0 1528707556044 3 connected
      ae86224a3bc29c4854719c83979cb7506f37787a 172.17.0.7:6379@16379 slave f45f9109f2297a83b1ac36f9e1db5e70bbc174ab 0 1528707555000 5 connected
      f45f9109f2297a83b1ac36f9e1db5e70bbc174ab 172.17.0.4:6379@16379 master - 0 1528707556000 0 connected 10923-16383
      98aebcfe42d8aaa8a3375e4a16707107dc9da683 172.17.0.6:6379@16379 myself,master - 0 1528707556000 6 connected 5462-10922
      760e4d0039c5ac13d04aa4791c9e6dc28544d7c7 172.17.0.2:6379@16379 master - 0 1528707556000 2 connected 0-5461
      54cb5c2eb8e5f5aed2d2f7843f75a9284ef6785c 172.17.0.3:6379@16379 slave 98aebcfe42d8aaa8a3375e4a16707107dc9da683 0 1528707556547 6 connected
      

        

      我们发现,6380节点反而变成了 6383节点的从节点。

      现在集群应该是完整的了,所以,集群状态应该已经恢复了,我们查看下:
      192.168.10.52:6383> 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:6
      cluster_my_epoch:6
      cluster_stats_messages_ping_sent:19419
      cluster_stats_messages_pong_sent:19443
      cluster_stats_messages_meet_sent:1
      cluster_stats_messages_auth-req_sent:5
      cluster_stats_messages_update_sent:1
      cluster_stats_messages_sent:38869
      cluster_stats_messages_ping_received:19433
      cluster_stats_messages_pong_received:19187
      cluster_stats_messages_meet_received:5
      cluster_stats_messages_fail_received:4
      cluster_stats_messages_auth-ack_received:2
      cluster_stats_messages_received:38631
      

        

      OK,没有问题。

    7. 集群访问
      客户端在初始化的时候只需要知道一个节点的地址即可,客户端会先尝试向这个节点执行命令,比如  get key ,如果key所在的slot刚好在该节点上,则能够直接执行成功。如果slot不在该节点,则节点会返回MOVED错误,同时把该slot对应的节点告诉客户端,客户端可以去该节点执行命令
      192.168.10.52:6383> get hello
      (error) MOVED 866 172.17.0.2:6379
      
      192.168.10.52:6379> set number 20004
      (error) MOVED 7743 172.17.0.3:6379
      

        另外,redis集群版只使用db0,select命令虽然能够支持select 0。其他的db都会返回错误

      192.168.10.52:6383> select 0
      OK
      192.168.10.52:6383> select 1
      (error) ERR SELECT is not allowed in cluster mode
      
    1. 近期,有网友询问docker redis集群连接报错的问题,具体报错如下:

        初步认为是,node节点没有全部添加进去,添加之后,依然有上述问题。想到是跨主机访问,应该是路由寻址不了导致的。当初写上述教程的时候,docker是以默认的网络模式bridge模式运行的,毕竟当初是以学习整理文档为主,主要是单机访问。但是,实际应用化场景中,多是公网跨主机访问,问题明朗了,想着集群这东西最好还是设置成共享主机公网ip比较好,于是解决如下:
      1. 在docker运行时,执行网络模式为:host。
      2. 端口冲突解决,毕竟host模式下,容器会占用宿主机的端口,于是,我们就从配置下手,在宿主机上生成配置redis-60001.conf,redis-60002.conf,redis-60003.conf...,有多少端口建多少个文件,最终运行一个容器,挂载一个配置到容器中用于覆盖主机中的配置。
        最终的运行方式如下:
         docker run -d --name redis-6380 --net host -v /tmp/redis.conf:/usr/local/redis/redis.conf  hakimdstx/nodes-redis:4.0.1
        


        至此,网络问题得到解决。
        PS.生产环境需要注意防火墙问题,不然也是会报错的。  

    以上

    引用

         1、Redis Cluster部署、管理和测试

         2、Docker下redis的主从、持久化配置

  • 相关阅读:
    centos7 启动mongodb时报错ERROR: child process failed, exited with error number 1
    liunxcentos7下 跟目录空间不足docker load镜像报错空间不足
    centos7下初始化硬盘挂载目录
    Jenkins打包出错
    CentOS 7 安装 Percona XtraDB Cluster 5.7
    Etcd集群搭建(证书通信)
    centos7下prometheus+grafana监控
    nginx代理
    装Centos7系统
    Dockerfile常用指令使用案例
  • 原文地址:https://www.cnblogs.com/cxbhakim/p/9151720.html
Copyright © 2011-2022 走看看