docker run -it -d -p 6650:6650 -p 8080:8080 -v data -v conf --name=mypulsar apachepulsar/pulsar:2.6.1 bin/pulsar standalone

docker exec -it mypulsar /bin/bash

## 1 租户
#查看有哪些租户(public 是系统默认的租户)
pulsar-admin tenants list
##创建租户
pulsar-admin tenants create my-tenant
#删除租户
pulsar-admin tenants delete my-tenant
## 2 命名空间
#查看指定租户下边的命名空间
pulsar-admin namespaces list my-tenant
#创建指定租户命名空间
pulsar-admin namespaces create my-tenant/my-namespace
#删除指定租户命名空间
pulsar-admin namespaces delete my-tenant/my-namespace

winfun@localhost ~ % docker network create redis-net --subnet 172.26.0.0/16
5001355940f43474d59f5cb2d78e4e9eeb0a9827e53d8f9e5b55e7d3c5285a09
winfun@localhost ~ % docker network list
NETWORK ID NAME DRIVER SCOPE
4d88d473e947 bridge bridge local
79a915fafbb5 host host local
f56e362d3c68 none null local
5001355940f4 redis-net bridge local
winfun@localhost ~ % 

winfun@localhost mydata % docker network inspect redis-net
[
 {
 "Name": "redis-net",
 "Id": "aed8340bbf8ab86cedc1d990eb7612854ba2b0bd4eae0f978ff95eadc3dbcf65",
 "Created": "2020-10-22T08:46:55.695434Z",
 "Scope": "local",
 "Driver": "bridge",
 "EnableIPv6": false,
 "IPAM": {
 "Driver": "default",
 "Options": {},
 "Config": [
 {
  "Subnet": "172.26.0.0/16"
 }
 ]
 },
 "Internal": false,
 "Attachable": false,
 "Ingress": false,
 "ConfigFrom": {
 "Network": ""
 },
 "ConfigOnly": false,
 "Containers": {},
 "Options": {},
 "Labels": {}
 }
]

for port in $(seq 1 6); do mkdir -p /Users/winfun/mydata/redis/node-${port}/conf
touch /Users/winfun/mydata/redis/node-${port}/conf/redis.conf
cat << EOF >/Users/winfun/mydata/redis/node-${port}/conf/redis.conf
port 6379
bind 0.0.0.0
cluster-enabled yes
cluster-config-file nodes.conf
cluster-node-timeout 5000
cluster-announce-ip 172.26.0.1${port}
cluster-announce-port 6379
cluster-announce-bus-port 16379
appendonly yes
EOF
done

for port in $(seq 1 6); do docker run -p 637${port}:6379 -p 1637${port}:16379 --name redis-${port} -v /Users/winfun/mydata/redis/node-${port}/data:/data -v /Users/winfun/mydata/redis/node-${port}/conf/redis.conf:/etc/redis/redis.conf -d --net redis-net --ip 172.26.0.1${port} redis:5.0.9-alpine3.11 redis-server /etc/redis/redis.conf
done

winfun@localhost mydata % docker ps | grep redis
ed5972e988e8 redis:5.0.9-alpine3.11 "docker-entrypoint.s…" 11 seconds ago Up 10 seconds 0.0.0.0:6376->6379/tcp, 0.0.0.0:16376->16379/tcp redis-6
61cd467bc803 redis:5.0.9-alpine3.11 "docker-entrypoint.s…" 12 seconds ago Up 11 seconds 0.0.0.0:6375->6379/tcp, 0.0.0.0:16375->16379/tcp redis-5
113943ba6586 redis:5.0.9-alpine3.11 "docker-entrypoint.s…" 12 seconds ago Up 11 seconds 0.0.0.0:6374->6379/tcp, 0.0.0.0:16374->16379/tcp redis-4
5fc3c838851c redis:5.0.9-alpine3.11 "docker-entrypoint.s…" 13 seconds ago Up 12 seconds 0.0.0.0:6373->6379/tcp, 0.0.0.0:16373->16379/tcp redis-3
f7d4430f752b redis:5.0.9-alpine3.11 "docker-entrypoint.s…" 13 seconds ago Up 12 seconds 0.0.0.0:6372->6379/tcp, 0.0.0.0:16372->16379/tcp redis-2
bd3e4a593427 redis:5.0.9-alpine3.11 "docker-entrypoint.s…" 14 seconds ago Up 13 seconds 0.0.0.0:6371->6379/tcp, 0.0.0.0:16371->16379/tcp redis-1

winfun@localhost mydata % docker network inspect redis-net
[
 {
 "Name": "redis-net",
 "Id": "aed8340bbf8ab86cedc1d990eb7612854ba2b0bd4eae0f978ff95eadc3dbcf65",
 "Created": "2020-10-22T08:46:55.695434Z",
 "Scope": "local",
 "Driver": "bridge",
 "EnableIPv6": false,
 "IPAM": {
 "Driver": "default",
 "Options": {},
 "Config": [
 {
  "Subnet": "172.26.0.0/16"
 }
 ]
 },
 "Internal": false,
 "Attachable": false,
 "Ingress": false,
 "ConfigFrom": {
 "Network": ""
 },
 "ConfigOnly": false,
 "Containers": {
 "113943ba6586a4ac21d1c068b0535d5b4ef37da50141d648d30dab47eb47d3af": {
 "Name": "redis-4",
 "EndpointID": "3fe3b4655f39f90ee4daf384254d3f7548cddd19c384e0a26edb6a32545e5b30",
 "MacAddress": "02:42:ac:1a:00:0e",
 "IPv4Address": "172.26.0.14/16",
 "IPv6Address": ""
 },
 "5fc3c838851c0ca2f629457bc3551135567b4e9fb155943711e07a91ebe9827f": {
 "Name": "redis-3",
 "EndpointID": "edd826ca267714bea6bfddd8c5d6a5f3c71c50bd50381751ec40e9f8e8160dce",
 "MacAddress": "02:42:ac:1a:00:0d",
 "IPv4Address": "172.26.0.13/16",
 "IPv6Address": ""
 },
 "61cd467bc8030c4db9a4404b718c5c927869bed71609bec91e17ff0da705ae26": {
 "Name": "redis-5",
 "EndpointID": "7612c44ab2479ab62341eba2e30ab26f4c523ccbe1aa357fc8b7c17a368dba61",
 "MacAddress": "02:42:ac:1a:00:0f",
 "IPv4Address": "172.26.0.15/16",
 "IPv6Address": ""
 },
 "bd3e4a593427aab4750358330014422500755552c8b470f0fd7c1e88221db984": {
 "Name": "redis-1",
 "EndpointID": "400153b712859c5c17d99708586f30013bb28236ba0dead516cf3d01ea071909",
 "MacAddress": "02:42:ac:1a:00:0b",
 "IPv4Address": "172.26.0.11/16",
 "IPv6Address": ""
 },
 "ed5972e988e8301179249f6f9e82c8f9bb4ed801213fe49af9d3f31cbbe00db7": {
 "Name": "redis-6",
 "EndpointID": "b525b7bbdd0b0150f66b87d55e0a8f1208e113e7d1d421d1a0cca73dbb0c1e47",
 "MacAddress": "02:42:ac:1a:00:10",
 "IPv4Address": "172.26.0.16/16",
 "IPv6Address": ""
 },
 "f7d4430f752b5485c5a90f0dc6d1d9a826d782284b1badbd203c12353191bc57": {
 "Name": "redis-2",
 "EndpointID": "cbdc77cecda1c8d80f566bcc3113f37c1a7983190dbd7ac2e9a56f6b7e4fb21f",
 "MacAddress": "02:42:ac:1a:00:0c",
 "IPv4Address": "172.26.0.12/16",
 "IPv6Address": ""
 }
 },
 "Options": {},
 "Labels": {}
 }
]

winfun@localhost mydata % docker exec -it redis-1 ping redis-2
PING redis-2 (172.26.0.12): 56 data bytes
64 bytes from 172.26.0.12: seq=0 ttl=64 time=0.136 ms
64 bytes from 172.26.0.12: seq=1 ttl=64 time=0.190 ms
64 bytes from 172.26.0.12: seq=2 ttl=64 time=0.483 ms
^C
--- redis-2 ping statistics ---
3 packets transmitted, 3 packets received, 0% packet loss
round-trip min/avg/max = 0.136/0.269/0.483 ms

winfun@localhost conf % docker exec -it redis-1 /bin/bash
OCI runtime exec failed: exec failed: container_linux.go:349: starting container process caused "exec: \"/bin/bash\": stat /bin/bash: no such file or directory": unknown
# 只能使用sh，redis 的镜像没有 bash
winfun@localhost mydata % docker exec -it redis-1 /bin/sh
/data # cd /usr/local/bin/
/usr/local/bin # redis-cli --cluster create 172.26.0.11:6379 172.26.0.12:6379 17
2.26.0.13:6379 172.26.0.14:6379 172.26.0.15:6379 172.26.0.16:6379 --cluster-repl
icas 1 
> Performing hash slots allocation on 6 nodes...
Master[0] -> Slots 0 - 5460
Master[1] -> Slots 5461 - 10922
Master[2] -> Slots 10923 - 16383
Adding replica 172.26.0.15:6379 to 172.26.0.11:6379
Adding replica 172.26.0.16:6379 to 172.26.0.12:6379
Adding replica 172.26.0.14:6379 to 172.26.0.13:6379
M: 6de9e9eef91dbae773d8ee1d629c87e1e7e19b82 172.26.0.11:6379
 slots:[0-5460] (5461 slots) master
M: 43e173849bed74f5bd389f9b272ecf0399ae448f 172.26.0.12:6379
 slots:[5461-10922] (5462 slots) master
M: 1e504dc62b7ccc426d513983ca061d1657532fb6 172.26.0.13:6379
 slots:[10923-16383] (5461 slots) master
S: 92b95f18226903349fb860262d2fe6932d5a8dc2 172.26.0.14:6379
 replicates 1e504dc62b7ccc426d513983ca061d1657532fb6
S: 7e5116ba9ee7bb70a68f4277efcbbbb3dcfd18af 172.26.0.15:6379
 replicates 6de9e9eef91dbae773d8ee1d629c87e1e7e19b82
S: 203e3e33b9f4233b58028289d0ad2dd56e7dfe45 172.26.0.16:6379
 replicates 43e173849bed74f5bd389f9b272ecf0399ae448f
Can I set the above configuration"htmlcode">

/usr/local/bin # redis-cli -c
127.0.0.1:6379> 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
cluster_size:3
cluster_current_epoch:6
cluster_my_epoch:1
cluster_stats_messages_ping_sent:91
cluster_stats_messages_pong_sent:95
cluster_stats_messages_sent:186
cluster_stats_messages_ping_received:90
cluster_stats_messages_pong_received:91
cluster_stats_messages_meet_received:5
cluster_stats_messages_received:186


4.3 尝试增加一个key


# 设置一个key，返回提示这个key分配到槽[12539],对应的是节点 redis-3[192.168.0.13]
127.0.0.1:6379> set key hello
-> Redirected to slot [12539] located at 172.26.0.13:6379
OK
# 并且会将 redis-cli 切换到节点 redis-3[172.26.0.13]
172.26.0.13:6379>


5 测试
至此，应该可以说，我们已经成功利用 Docker 在本地部署了一套 Redis 集群。

那么接下来，我们会直接在代码中测试这Redis 是否可以使用。


/**
 * 测试Redis集群
 * @author winfun
 * @date 2020/10/21 5:48 下午
 **/
public class TestCluster {

 public static void main(String[] args) throws Exception{

 Set<HostAndPort> nodes = new HashSet<>(3);
 nodes.add(new HostAndPort("127.0.0.1",6371));
 nodes.add(new HostAndPort("127.0.0.1",6372));
 nodes.add(new HostAndPort("127.0.0.1",6373));

 JedisCluster cluster = new JedisCluster(nodes);
 String value = cluster.get("key");
 System.out.println("get: key is key,value is "+value);
 String result = cluster.set("key2","hello world");
 System.out.println("set: key is key2,result is "+result);
 cluster.close();
 }
}


但是结果是不如意的，返回的是一个异常：

从这里可以猜测到，估计是没法连接到我们在 Docker 中部署的 Redis 集群。

所以在下次调试的时候，我就看看 JedisCluster 拿到的集群节点的信息是怎么样的。

如下图：

我们可以看到，即使我们给 JedisCluster 配置的写的是本地 IP 和映射好的 Port。
但是没想到，JedisCluster 自己又拿里一遍集群的元数据，此时候的节点的IP都是自定义网络 redis-net 分配的子网了，宿主机可能就走不通了（关于这个问题，我们可以考虑使用 host 类型的自定义网络）。
6 应用也部署到自定义网络中
那么怎么测试呢？
我下面将自己编写一个简单的 SpringBoot 项目，然后利用 Dockerfile 根据项目生成的 jar 包构建成一个镜像，然后利用 Docker 部署起来，并且将部署后的容器加入到自定义网络 redis-net 中，最后进行测试。
6.1 创建 SpringBoot 项目
配置如下：
6.1.1 pom.xml：
主要引入了 web 和 redis 的 starter。


<dependency>
 <groupId>org.springframework.boot</groupId>
 <artifactId>spring-boot-starter-data-redis</artifactId>
</dependency>
<dependency>
 <groupId>org.springframework.boot</groupId>
 <artifactId>spring-boot-starter-web</artifactId>
</dependency>


6.1.2 项目的 application.properties :


server.port=8080
# 这里我们也可以直接写容器名，因为应用会部署到 Redis 集群的同一个网络中。
#spring.redis.cluster.nodes=redis-1:6379,redis-2:6379,redis-3:6379
spring.redis.cluster.nodes=172.26.0.11:6379,172.26.0.12:6379,172.26.0.13:6379


6.1.3 Controller如下：


/**
 * RedisCluster 测试
 * @author winfun
 * @date 2020/10/22 3:19 下午
 **/
@RequestMapping("/redisCluster")
@RestController
public class RedisClusterController {

 @Autowired
 private StringRedisTemplate redisTemplate;

 /***
 * String：根据 key 获取 value
 * @author winfun
 * @param key key
 * @return {@link String }
 **/
 @GetMapping("/get/{key}")
 public String get(@PathVariable("key") String key){
 return redisTemplate.opsForValue().get(key);
 }

 /***
 * String：设置 key/value 对
 * @author winfun
 * @param key key
 	 * @param value value
 * @return {@link String }
 **/
 @GetMapping("/set/{key}/{value}")
 public String set(@PathVariable("key") String key,@PathVariable("value") String value){
 redisTemplate.opsForValue().set(key,value);
 return "success";
 }
}


6.2 将项目打包并生成镜像
6.2.1 将项目打包成 Jar 包


mvn clean package


6.2.2 生成镜像
编写 Dockerfile 文件：


FROM java:8
MAINTAINER winfun

# jar 名称为项目打包后的 jar
ADD redis-cluster-test-0.0.1-SNAPSHOT.jar app.jar
EXPOSE 8080
ENTRYPOINT ["java","-jar","app.jar"]


接着去到 Dockerfile 当前目录，执行下面命令：


winfun@localhost redis-cluster-test % docker build -t winfun/rediscluster . 
Sending build context to Docker daemon 25.84MB
Step 1/5 : FROM java:8
8: Pulling from library/java
5040bd298390: Pull complete 
fce5728aad85: Pull complete 
76610ec20bf5: Pull complete 
60170fec2151: Pull complete 
e98f73de8f0d: Pull complete 
11f7af24ed9c: Pull complete 
49e2d6393f32: Pull complete 
bb9cdec9c7f3: Pull complete 
Digest: sha256:c1ff613e8ba25833d2e1940da0940c3824f03f802c449f3d1815a66b7f8c0e9d
Status: Downloaded newer image for java:8
 ---> d23bdf5b1b1b
Step 2/5 : MAINTAINER winfun
 ---> Running in a99086ed7e68
Removing intermediate container a99086ed7e68
 ---> f713578122fc
Step 3/5 : ADD redis-cluster-test-0.0.1-SNAPSHOT.jar app.jar
 ---> 12ca98d789b8
Step 4/5 : EXPOSE 8080
 ---> Running in 833a06f2dd32
Removing intermediate container 833a06f2dd32
 ---> 82f4e078510d
Step 5/5 : ENTRYPOINT ["java","-jar","app.jar"]
 ---> Running in 517a1ea7f138
Removing intermediate container 517a1ea7f138
 ---> ed8a66ef4eb9
Successfully built ed8a66ef4eb9
Successfully tagged winfun/rediscluster:latest


6.3 启动容器，进行测试
6.3.1 启动容器，并将容器加入上面创建的自定义网络 redis-net
构建后，我们可以利用 docker ps 命令看看我们的镜像:


winfun@localhost ~ % docker images | grep rediscluster
winfun/rediscluster latest ed8a66ef4eb9 52 minutes ago 669MB


利用 docker run 命令运行此镜像启动一个容器：


winfun@localhost ~ % docker run -it -d -p 8787:8080 --name myrediscluster winfun/rediscluster
705998330f7e6941f5f96d187050d29c4a59f1b16348ebeb5ab0dbc6a1cd63e1


利用 docker network connect 将这个容器加入到上面的自定义网络 redis-net 中：


winfun@localhost ~ % docker network connect redis-net myrediscluster


当我们再查看自定义网络 redis-net 的详情，我们可以在 Containers 中找到 myrediscluster 这个容器，并且还给这个容器分配了自定义网络 redis-net 的一个 IP 地址。

如下图：

6.3.2 我们此时可以直接到浏览器调用 RedisClusterController的接口：
设置一个 key/value：

根据key获取value：

从上面可以看到，已经完全没问题了。
但是呢，这样我们每次测接口，都需要重新构建镜像然后部署。
6.4 bridge 和 host 模式
我们都知道，上面我们创建的自定义网络 redis-net 的模式是桥接模式，也就是 bridge。
他的最大特点是将 Docker 中容器的网络和宿主机隔离开来，容器的IP和宿主机的IP是不通的，所以在上面利用 JedisCluster 来操作 Redis 集群时，当 JedisCluster 获取到集群的节点信息是 Docker 中容器的 IP 时，是访问不通的。
所以解决这个问题，其实我们可以利用 host 模式，它的原理其实就是容器共享宿主机的网络环境。这样的话，JedisCluster 访问 Redis 集群应该就没问题了。
对，就是应该，因为我自己尝试了很多遍 host 模式下的 Redis 集群部署，部署和利用 redis-cli 命令操作都是没问题的。但是，当利用 JedisCluster 访问集群时，连集群节点的信息都没拿到！！
所以需要大家自己去尝试一下，具体可参考下面的文章：

docker redis5.0 cluster集群搭建的实现
7 最后
到此，我相信大家都体验了一波 Docker 的强大。在开发时利用好，简直就是开发的神器。可以在本地利用最少的系统资源，轻松地去搭建一套完整的开发环境，包括各种中间件。