docker swarm快速部署redis分布式集群的详细过程
目录
- 环境准备
- docker
- 搭建Swarm集群
- 打开防火墙(Swarm需要)
- 创建Swarm
- 加入Swarm
- 服务约束
- 单机集群
- 创建容器
- 启动容器
- 进入容器启动集群
- 分布式集群
- 部署
- docker compose.yml
- wait-for-it.sh
- Redis-start.sh
- 启动
- 目录结构
- 撤销部署
- 测试
- 问题
- 脚本下载+快速启动
之前尝试用swarm部署redis集群时网上看了很多帖子,发现大多数都是单机集群,也就是在一个服务器上启多个redis容器,然后进入其中一个容器执行redis搭建,经过研究,我实现了只需要通过docker-compose.yml文件和一个启动命令就完成redis分布式部署的方式,让其分别部署在不同机器上,并实现集群搭建。
环境准备
四台虚拟机
- 192.168.2.38(管理节点)
- 192.168.2.81(工作节点)
- 192.168.2.100(工作节点)
- 192.168.2.102(工作节点)
时间同步
每台机器都执行
yum install -y ntp cat <<EOF>>/var/spool/cron/root 00 12 * * * /usr/sbin/ntpdate -u ntp1.aliyun.com && /usr/sbin/hwclock -w EOF ##查看计划任务 crontab -l ##手动执行 /usr/sbin/ntpdate -u ntp1.aliyun.com && /usr/sbin/hwclock -w
Docker
安装Docker
curl -sSL https://get.daocloud.io/docker | sh
启动docker
sudo systemctl start docker
搭建Swarm集群
打开防火墙(Swarm需要)
管理节点打开2377
# manager firewall-cmd --zone=public --add-port=2377/tcp开发者_SQLite --permanent
所有节点打开以下端口
# 所有node firewall-cmd --zone=public --add-port=7946/tcp --permanent firewall-cmd --zone=public --add-port=7946/udp --permanent firewall-cmd --zone=public --add-port=4789/tcp --permanent firewall-cmd --zone=public --add-port=4789/udp --permanent
所有节点重启防火墙
# 所有node firewall-cmd --reload systemctl restart docker
图个方便可以直接关闭防火墙
创建Swarm
docker swarm init --advertise-addr your_manager_ip
查看join-token
[root@manager ~]# docker swarm join-token worker To add a worker to this swarm, run the following command: docker swarm join --token SWMTKN-1-51b7t8whxn8j6mdjt5perjmec9u8qguxq8tern9nill737pra2-ejc5nw5f90oz6xldcbmrl2ztu 192.168.2.61:2377 [root@manager ~]#
加入Swarm
docker swarm join --token SWMTKN-1- 51b7t8whxn8j6mdjt5perjmec9u8qguxq8tern9nill737pra2-ejc5nw5f90oz6xldcbmrl2ztu 192.168.2.38:2377 #查看节点 docker node ls
服务约束
添加label
sudo docker node update --label-add redis1=true 管理节点名称 sudo docker node update --label-add redis2=true 工作节点名称 sudo docker node update --label-add redis3=true 工作节点名称 sudo docker node update --label-add redis4=true 工作节点名称
单机集群
弊端:容器都部署在一个机器上,机器挂了,就全挂了。
创建容器
Tips:这里可以写个脚本启动,因为这种方式不常用,这里就不写那个脚本了
docker create --name redis-node1 --net host -v /data/redis-data/node1:/data redis --cluster-enabled yes --cluster-config-file nodes-node-1.conf --port 6379 docker create --name redis-node2 --net host -v /data/redis-data/node2:/data redis --cluster-enabled yes --cluster-config-file nodes-node-2.conf --port 6380 docker create --name redis-node3 --net host -v /data/redis-data/node3:/data redis --cluster-enabled yes --cluster-config-file nodes-node-3.conf --port 6381 docker create --name randroidedis-node4 --net host -v /data/redis-data/node4:/data redis --cluster-enabled yes --cluster-config-file nodes-node-4.conf --port 6382 docker create --name redis-node5 --net host -v /data/redis-data/node5:/data redis --cluster-enabled yes --cluster-config-file nodes-node-5.conf --port 6383 docker create --name redis-node6 --net host -v /data/redis-data/node6:/data redis --cluster-enabled yes --cluster-config-file nodes-node-6.conf --port 6384
启动容器
docker start redis-node1 redis-node2 redis-node3 redis-node4 redis-node5 redis-node6
进入容器启动集群
# 进入其中一个节点 docker exec -it redis-node1 /bin/bash # 创建集群 redis-cli --cluster create 192.168.2.38:6379 192.168.2.38:6380 192.168.2.38:6381 192.168.2.38:6382 192.168.2.38:6383 192.168.2.38:6384 --cluster-replicas 1 # --cluster-replicas 1 一比一,一主一从
分布式集群
redis集群至少需要3个主节点,所以这里搭建三主三从的集群,由于只有4台机器,所以在脚本中把前三个节点放到一台机器上了。
部署
在swarm集群的Manager节点中创建
mkdir /root/redis-swarm cd /root/redis-swarm vi docker-compose.yml
docker compose.yml
说明:
- 前6个服务为redis节点,最后一个redis-start是用于创建集群,利用redis-cli客户端搭建集群,该服务搭建完redis集群后会自动停止运行。
- redis-start需要等待前6个redis节点的执行完毕才能创建集群,因此需要用到脚本wait-for-it.sh
- 由于redis-cli --cluster create不支持网络别名,所以另写脚本redis-start.sh
使用这套脚本同样可以单机部署集群,只需要在启动时不使用swarm启动就可以了,然后把docker-compose.yml中的网络模式driver: overlay
给注释掉即可
version: '3.7' services: redis-node1: image: redis hostname: redis-node1 ports: - 6379:6379 networks: - redis-swarm volumes: - "node1:/data" command: redis-server --cluster-enabled yes --cluster-config-file nodes-node-1.conf deploy: mode: replicated replicas: 1 resources: limits: # cpus: '0.001' memory: 5120M reservaandroidtions: # cpus: '0.001' memory: 512M placement: constraints: - node.role==manager redis-node2: image: redis hostname: redis-node2 ports: - 6380:6379 networks: - redis-swarm volumes: - "node2:/data" command: redis-server --cluster-enabled yes --cluster-config-file nodes-node-2.conf deploy: mode: replicated replicas: 1 resources: limits: # cpus: '0.001' memory: 5120M reservations: # cpus: '0.001' memory: 512M placement: constraints: - node.role==manager redis-node3: image: redis hostname: redis-node3 ports: - 6381:6379 networks: - redis-swarm volumes: - "node3:/data" command: redis-server --cluster-enabled yes --cluster-config-file nodes-node-3.conf deploy: mode: replicated resources: limits: # cpus: '0.001' memory: 5120M reservations: # cpus: '0.001' memory: 512M replicas: 1 placement: constraints: - node.role==manager redis-node4: image: redis hostname: redis-node4 ports: - 6382:6379 networks: - redis-swarm volumes: - "node4:/data" command: redis-server --cluster-enabled yes --cluster-config-file nodes-node-4.conf deploy: mode: replicated replicas: 1 resources: limits: # cpus: '0.001' memory: 5120M reservations: # cpus: '0.001' memory: 512M placement: constraints: - node.labels.redis2==true redis-node5: image: redis hostname: redis-node5 ports: - 6383:6379 networks: - redis-swarm volumes: - "node5:/data" command: redis-server --cluster-enabled yes --cluster-config-file nodes-node-5.conf deploy: mode: replicated replicas: 1 resources: limits: # cpus: '0.001' memory: 5120M reservations: # cpus: '0.001' memory: 512M placement: constraints: - node.labels.redis3==true redis-node6: image: redis hostname: redis-node6 ports: - 6384:6379 networks: - redis-swarm volumes: - "node6:/data" command: redis-server --cluster-enabled yes --cluster-config-file nodes-node-6.conf deploy: mode: replicated replicas: 1 resources: limits: # cpus: '0.001' memory: 5120M reservations: # cpus: '0.001' memory: 512javascriptM placement: constraints: - node.labels.redis4==true redis-start: image: redis hostname: redis-start networks: - redis-swarm volumes: - "$PWD/start:/redis-start" depends_on: - redis-node1 - redis-node2 - redis-node3 - redis-node4 - redis-node5 - redis-node6 command: /bin/bash -c "chmod 777 /redis-start/redis-start.sh && chmod 777 /redis-start/wait-for-it.sh && /redis-start/redis-start.sh" deploy: restart_policy: condition: on-failure delay: 5s max_attempts: 5 placement: constraints: - node.role==manager networks: redis-swarm: driver: overlay volumes: node1: node2: node3: node4: node5: node6:
wait-for-it.sh
mkdir /root/redis-swarm/start vi wait-for-it.sh vi redis-start.sh
#!/usr/bin/env bash # Use this script to test if a given TCP host/port are available cmdname=$(basename $0) echoerr() { if [[ $QUIET -ne 1 ]]; then echo "$@" 1>&2; fi } usage() { cat << USAGE >&2 Usage: $cmdname host:port [-s] [-t timeout] [-- command args] -h HOST | --host=HOST Host or IP under test -p PORT | --port=PORT TCP port under test Alternatively, you specify the host and port as host:port -s | --strict Only execute subcommand if the test succeeds -q | --quiet Don't output any status messages -t TIMEOUT | --timeout=TIMEOUT Timeout in seconds, zero for no timeout -- COMMAND ARGS Execute command with args after the test finishes USAGE exit 1 } wait_for() { if [[ $TIMEOUT -gt 0 ]]; then echoerr "$cmdname: waiting $TIMEOUT seconds for $HOST:$PORT" else echoerr "$cmdname: waiting for $HOST:$PORT without a timeout" fi start_ts=$(date +%s) while : do (echo > /dev/tcp/$HOST/$PORT) >/dev/null 2>&1 result=$? if [[ $result -eq 0 ]]; then end_ts=$(date +%s) echoerr "$cmdname: $HOST:$PORT is available after $((end_ts - start_ts)) seconds" break fi sleep 1 done return $result } wait_for_wrapper() { # In order to support SIGINT during timeout: http://Unix.stackexchange.com/a/57692 if [[ $QUIET -eq 1 ]]; then timeout $TIMEOUT $0 --quiet --child --host=$HOST --port=$PORT --timeout=$TIMEOUT & else timeout $TIMEOUT $0 --child --host=$HOST --port=$PORT --timeout=$TIMEOUT & fi PID=$! trap "kill -INT -$PID" INT wait $PID RESULT=$? if [[ $RESULT -ne 0 ]]; then echoerr "$cmdname: timeout occurred after waiting $TIMEOUT seconds for $HOST:$PORT" fi return $RESULT } # process arguments while [[ $# -gt 0 ]] do case "$1" in *:* ) hostport=(${1//:/ }) HOST=${hostport[0]} PORT=${hostport[1]} shift 1 ;; --child) CHILD=1 shift 1 ;; -q | --quiet) QUIET=1 shift 1 ;; -s | --strict) STRICT=1 shift 1 ;; -h) HOST="$2" if [[ $HOST == "" ]]; then break; fi shift 2 ;; --host=*) HOST="${1#*=}" shift 1 ;; -p) PORT="$2" if [[ $PORT == "" ]]; then break; fi shift 2 ;; --port=*) PORT="${1#*=}" shift 1 ;; -t) TIMEOUT="$2" if [[ $TIMEOUT == "" ]]; then break; fi shift 2 ;; --timeout=*) TIMEOUT="${1#*=}" shift 1 ;; --) shift CLI="$@" break ;; --help) usage ;; *) echoerr "Unknown argument: $1" usage ;; esac done if [[ "$HOST" == "" || "$PORT" == "" ]]; then echoerr "Error: you need to provide a host and port to test." usage fi TIMEOUT=${TIMEOUT:-15} STRICT=${STRICT:-0} CHILD=${CHILD:-0} QUIET=${QUIET:-0} if [[ $CHILD -gt 0 ]]; then wait_for RESULT=$? exit $RESULT else if [[ $TIMEOUT -gt 0 ]]; then wait_for_wrapper RESULT=$? else wait_for RESULT=$? fi fi if [[ $CLI != "" ]]; then if [[ $RESULT -ne 0 && $STRICT -eq 1 ]]; then echoerr "$cmdname: strict mode, refusing to execute subprocess" exit $RESULT fi exec $CLI else exit $RESULT fi
redis-start.sh
getent hosts xxx
查看主机中/etc/hosts
域名映射的IP
cd /redis-start/ bash wait-for-it.sh redis-node1:6379 --timeout=0 bash wait-for-it.sh redis-node2:6379 --timeout=0 bash wait-for-it.sh redis-node3:6379 --timeout=0 bash wait-for-it.sh redis-node4:6379 --timeout=0 bash wait-for-it.sh redis-node5:6379 --timeout=0 bash wait-for-it.sh redis-node6:6379 --timeout=0 echo 'redis-cluster begin' echo 'yes' | redis-cli --cluster create --cluster-replicas 1 \ `getent hosts redis-node1 | awk '{ print $1 ":6379" }'` \ `getent hosts redis-node2 | awk '{ print $1 ":6379" }'` \ `getent hosts redis-node3 | awk '{ print $1 ":6379" }'` \ `getent hosts redis-node4 | awk '{ print $1 ":6379" }'` \ `getent hosts redis-node5 | awk '{ print $1 ":6379" }'` \ `getent hosts redis-node6 | awk '{ print $1 ":6379" }'` echo 'redis-cluster end'
启动
目录结构
├── docker-compose.yml └── start ├── redis-start.sh └── wait-for-it.sh
swarm管理节点执行
cd /root/redis-swarm docker stack deploy -c docker-compose.yml redis_cluster
查看redis-start服务日志,如下即为启动成功
redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | wait-for-it.sh: waiting for redis-node1:6379 without a timeout redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | wait-for-it.sh: redis-node1:6379 is available after 18 seconds redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | wait-for-it.sh: waiting for redis-node2:6379 without a timeout redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | wait-for-it.sh: redis-node2:6379 is available after 13 seconds redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | wait-for-it.sh: waiting for redis-node3:6379 without a timeout redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | wait-for-it.sh: redis-node3:6379 is available after 0 seconds redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | wait-for-it.sh: waiting for redis-node4:6379 without a timeout redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | wait-for-it.sh: redis-node4:6379 is available after 0 seconds redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | wait-for-it.sh: waiting for redis-node5:6379 without a timeout redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | wait-for-it.sh: redis-node5:6379 is available after 0 seconds redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | wait-for-it.sh: waiting for redis-node6:6379 without a timeout redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | wait-for-it.sh: redis-node6:6379 is available after 0 seconds redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | redis-cluster begin redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | >>> Performing hash slots allocation on 12 nodes... redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | Master[0] -> Slots 0 - 2730 redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | Master[1] -> Slots 2731 - 5460 redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | Master[2] -> Slots 5461 - 8191 redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | Master[3] -> Slots 8192 - 10922 redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | Master[4] -> Slots 10923 - 13652 redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | Master[5] -> Slots 13653 - 16383 redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | Adding replica 10.0.5.6:6379 to 10.0.5.17:6379 redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | Adding replica 10.0.5.9:6379 to 10.0.5.16:6379 redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | Adding replica 10.0.5.8:6379 to 10.0.5.18:6379 redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | Adding replica 10.0.5.12:6379 to 10.0.5.19:6379 redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | Adding replica 10.0.5.11:6379 to 10.0.5.3:6379 redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | Adding replica 10.0.5.5:6379 to 10.0.5.2:6379 redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | M: 6ce90be6daabc0c700471d03deb3c6bd88c9f0e1 10.0.5.17:6379 redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | slots:[0-2730] (2731 slots) master redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | M: 6ce90be6daabc0c700471d03deb3c6bd88c9f0e1 10.0.5.16:6379 redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | slots:[2731-5460] (2730 slots) master redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | M: ea9b45ec64c08c17283239f8b8e5405b2d182428 10.0.5.18:6379 redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | slots:[5461-8191] (2731 slots) master redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | M: ea9b45ec64c08c17283239f8b8e5405b2d182428 10.0.5.19:6379 redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | slots:[8192-10922] (27js31 slots) master redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | M: 935c177308232de05b5483776478020de51bc578 10.0.5.3:6379 redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | slots:[10923-13652] (2730 slots) master redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | M: 935c177308232de05b5483776478020de51bc578 10.0.5.2:6379 redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | slots:[13653-16383] (2731 slots) master redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | S: 1c99e42bcfb28a9fe72952d4e4cc5cd88aded0f9 10.0.5.5:6379 redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | replicates 935c177308232de05b5483776478020de51bc578 redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | S: 1c99e42bcfb28a9fe72952d4e4cc5cd88aded0f9 10.0.5.6:6379 redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | replicates 6ce90be6daabc0c700471d03deb3c6bd88c9f0e1 redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | S: 73cf232f232e83126f058cc01458df11146d8537 10.0.5.9:6379 redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | repliandroidcates 6ce90be6daabc0c700471d03deb3c6bd88c9f0e1 redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | S: 73cf232f232e83126f058cc01458df11146d8537 10.0.5.8:6379 redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | replicates ea9b45ec64c08c17283239f8b8e5405b2d182428 redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | S: ca3c50899d6deb04e296c542cd485791fb3e8922 10.0.5.12:6379 redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | replicates ea9b45ec64c08c17283239f8b8e5405b2d182428 redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | S: ca3c50899d6deb04e296c542cd485791fb3e8922 10.0.5.11:6379 redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | replicates 935c177308232de05b5483776478020de51bc578 redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | Can I set the above configuration? (type 'yes' to accept): >>> Nodes configuration updated redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | >>> Assign a different config epoch to each node redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | >>> Sending CLUSTER MEET messages to join the cluster redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | Waiting for the cluster to join redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | . redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | >>> Performing Cluster Check (using node 10.0.5.17:6379) redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | M: 6ce90be6daabc0c700471d03deb3c6bd88c9f0e1 10.0.5.17:6379 redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | slots:[0-5460] (5461 slots) master redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | 1 additional replica(s) redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | S: ca3c50899d6deb04e296c542cd485791fb3e8922 10.0.5.12:6379 redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | slots: (0 slots) slave redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | replicates 935c177308232de05b5483776478020de51bc578 redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | M: ea9b45ec64c08c17283239f8b8e5405b2d182428 10.0.5.19:6379 redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | slots:[5461-10922] (5462 slots) master redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | 1 additional replica(s) redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | M: 935c177308232de05b5483776478020de51bc578 10.0.5.3:6379 redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | slots:[10923-16383] (5461 slots) master redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | 1 additional replica(s) redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | S: 1c99e42bcfb28a9fe72952d4e4cc5cd88aded0f9 10.0.5.6:6379 redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | slots: (0 slots) slave redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | replicates 6ce90be6daabc0c700471d03deb3c6bd88c9f0e1 redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | S: 73cf232f232e83126f058cc01458df11146d8537 10.0.5.9:6379 redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | slots: (0 slots) slave redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | replicates ea9b45ec64c08c17283239f8b8e5405b2d182428 redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | [OK] All nodes agree about slots configuration. redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | >>> Check for open slots... redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | >>> Check slots coverage... redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | [OK] All 16384 slots covered. redis-swarm_redis-start.1.6xawjqf5shfw@hyx-test3 | redis-cluster end
撤销部署
docker stack rm redis_cluster
如果需要重新部署集群,redis集群为了保证数据统一,需要清除数据卷。
# 每个节点都需要执行 docker volume prune
测试
进入其中一个节点容器,依次查看集群信息
docker exec -it xxx bash redis-cli -c -h redis-node1 info
测试读写数据
测试其中一个主节点宕机,这里删除了主节点1,节点1对应的从节点是节点4,节点1宕机后节点4成为主节点
docker service rm redis-swarm_redis-node1 # 查看 root@redis-node2:/data# redis-cli -c -h redis-node1 Could not connect to Redis at redis-node1:6379: Name or service not known not connected> root@redis-node2:/data# redis-cli -c -h redis-node4 redis-node4:6379> info
问题
redis-cli --cluster create redis-node1:6379 ...省略
在容器中使用redis-cli创建集群时,无法使用容器名创建,只能使用容器的ip,因为redis-cli对别名不支持
脚本下载+快速启动
链接: https://pan.baidu.com/s/18_YS9ng29e31Az_HBzBC1w?pwd=sp8w
提取码: sp8w
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