RabbitMQ(集群干系部署)
RabbitMQ集群部署
环境预备:阿里云centos8 服务器,3台服务器,分别举行安装;
下载Erlang
Erlang和RabbitMQ版本对照:https://www.rabbitmq.com/which-erlang.html
[*]创建yum库配置文件
vim /etc/yum.repos.d/rabbitmq.repo
[*]内容
# 内容 - 来自官方文档:https://www.rabbitmq.com/docs/install-rpm
# In /etc/yum.repos.d/rabbitmq.repo
##
## Zero dependency Erlang RPM
##
name=modern-erlang-el8
# uses a Cloudsmith mirror @ yum.novemberain.com in addition to its Cloudsmith upstream.
# Unlike Cloudsmith, the mirror does not have any traffic quotas
baseurl=https://yum1.novemberain.com/erlang/el/8/$basearch
https://yum2.novemberain.com/erlang/el/8/$basearch
https://dl.cloudsmith.io/public/rabbitmq/rabbitmq-erlang/rpm/el/8/$basearch
repo_gpgcheck=1
enabled=1
gpgkey=https://github.com/rabbitmq/signing-keys/releases/download/3.0/cloudsmith.rabbitmq-erlang.E495BB49CC4BBE5B.key
gpgcheck=1
sslverify=1
sslcacert=/etc/pki/tls/certs/ca-bundle.crt
metadata_expire=300
pkg_gpgcheck=1
autorefresh=1
type=rpm-md
name=modern-erlang-el8-noarch
# uses a Cloudsmith mirror @ yum.novemberain.com.
# Unlike Cloudsmith, it does not have any traffic quotas
baseurl=https://yum1.novemberain.com/erlang/el/8/noarch
https://yum2.novemberain.com/erlang/el/8/noarch
https://dl.cloudsmith.io/public/rabbitmq/rabbitmq-erlang/rpm/el/8/noarch
repo_gpgcheck=1
enabled=1
gpgkey=https://github.com/rabbitmq/signing-keys/releases/download/3.0/cloudsmith.rabbitmq-erlang.E495BB49CC4BBE5B.key
https://github.com/rabbitmq/signing-keys/releases/download/3.0/rabbitmq-release-signing-key.asc
gpgcheck=1
sslverify=1
sslcacert=/etc/pki/tls/certs/ca-bundle.crt
metadata_expire=300
pkg_gpgcheck=1
autorefresh=1
type=rpm-md
name=modern-erlang-el8-source
# uses a Cloudsmith mirror @ yum.novemberain.com.
# Unlike Cloudsmith, it does not have any traffic quotas
baseurl=https://yum1.novemberain.com/erlang/el/8/SRPMS
https://yum2.novemberain.com/erlang/el/8/SRPMS
https://dl.cloudsmith.io/public/rabbitmq/rabbitmq-erlang/rpm/el/8/SRPMS
repo_gpgcheck=1
enabled=1
gpgkey=https://github.com/rabbitmq/signing-keys/releases/download/3.0/cloudsmith.rabbitmq-erlang.E495BB49CC4BBE5B.key
https://github.com/rabbitmq/signing-keys/releases/download/3.0/rabbitmq-release-signing-key.asc
gpgcheck=1
sslverify=1
sslcacert=/etc/pki/tls/certs/ca-bundle.crt
metadata_expire=300
pkg_gpgcheck=1
autorefresh=1
##
## RabbitMQ Server
##
name=rabbitmq-el8
baseurl=https://yum2.novemberain.com/rabbitmq/el/8/$basearch
https://yum1.novemberain.com/rabbitmq/el/8/$basearch
https://dl.cloudsmith.io/public/rabbitmq/rabbitmq-server/rpm/el/8/$basearch
repo_gpgcheck=1
enabled=1
# Cloudsmith's repository key and RabbitMQ package signing key
gpgkey=https://github.com/rabbitmq/signing-keys/releases/download/3.0/cloudsmith.rabbitmq-server.9F4587F226208342.key
https://github.com/rabbitmq/signing-keys/releases/download/3.0/rabbitmq-release-signing-key.asc
gpgcheck=1
sslverify=1
sslcacert=/etc/pki/tls/certs/ca-bundle.crt
metadata_expire=300
pkg_gpgcheck=1
autorefresh=1
type=rpm-md
name=rabbitmq-el8-noarch
baseurl=https://yum2.novemberain.com/rabbitmq/el/8/noarch
https://yum1.novemberain.com/rabbitmq/el/8/noarch
https://dl.cloudsmith.io/public/rabbitmq/rabbitmq-server/rpm/el/8/noarch
repo_gpgcheck=1
enabled=1
# Cloudsmith's repository key and RabbitMQ package signing key
gpgkey=https://github.com/rabbitmq/signing-keys/releases/download/3.0/cloudsmith.rabbitmq-server.9F4587F226208342.key
https://github.com/rabbitmq/signing-keys/releases/download/3.0/rabbitmq-release-signing-key.asc
gpgcheck=1
sslverify=1
sslcacert=/etc/pki/tls/certs/ca-bundle.crt
metadata_expire=300
pkg_gpgcheck=1
autorefresh=1
type=rpm-md
name=rabbitmq-el8-source
baseurl=https://yum2.novemberain.com/rabbitmq/el/8/SRPMS
https://yum1.novemberain.com/rabbitmq/el/8/SRPMS
https://dl.cloudsmith.io/public/rabbitmq/rabbitmq-server/rpm/el/8/SRPMS
repo_gpgcheck=1
enabled=1
gpgkey=https://github.com/rabbitmq/signing-keys/releases/download/3.0/cloudsmith.rabbitmq-server.9F4587F226208342.key
gpgcheck=0
sslverify=1
sslcacert=/etc/pki/tls/certs/ca-bundle.crt
metadata_expire=300
pkg_gpgcheck=1
autorefresh=1
type=rpm-md
[*]更新yum库
# --nobest表示所需安装包即使不是最佳选择也接受
yum update -y --nobest
# 还需关闭防火墙
systemctl stop firewalld
# 开机关闭防火墙:
systemctl disable firewalld
# 查看防火墙状态:
systemctl status firewalld
[*]举行安装
yum install -y erlang
安装RabbitMQ
Erlang和RabbitMQ版本对照:https://www.rabbitmq.com/which-erlang.html
# 导入GPG密钥,如失败多重试几次
rpm --import 'https://github.com/rabbitmq/signing-keys/releases/download/3.0/rabbitmq-release-signing-key.asc'
rpm --import 'https://github.com/rabbitmq/signing-keys/releases/download/3.0/cloudsmith.rabbitmq-erlang.E495BB49CC4BBE5B.key'
rpm --import 'https://github.com/rabbitmq/signing-keys/releases/download/3.0/cloudsmith.rabbitmq-server.9F4587F226208342.key'
# 下载 RPM 包
wget https://github.com/rabbitmq/rabbitmq-server/releases/download/v3.13.0/rabbitmq-server-3.13.0-1.el8.noarch.rpm
# 安装
rpm -ivh rabbitmq-server-3.13.0-1.el8.noarch.rpm
举行配置
# 启用管理界面插件
rabbitmq-plugins enable rabbitmq_management
# 启动 RabbitMQ 服务:
systemctl start rabbitmq-server
# 将 RabbitMQ 服务设置为开机自动启动
systemctl enable rabbitmq-server
# 新增登录账号密码 - 用户名 密码
rabbitmqctl add_user yan 123456
# 设置登录账号权限,该用户设置角色是administrator管理员。再设置权限
rabbitmqctl set_user_tags yan administrator
rabbitmqctl set_permissions -p / yan ".*" ".*" ".*"
# 查询当前用户和角色
rabbitmqctl list_users
# 配置所有稳定功能 flag 启用
rabbitmqctl enable_feature_flag all
# 重启RabbitMQ服务生效
systemctl restart rabbitmq-server
# 启动rabbitmq服务器
systemctl start rabbitmq-server
# 查看rabbitmq服务器状态
systemctl status rabbitmq-server
# 停止rabbitmq服务器
systemctl stop rabbitmq-server
# 重启rabbitmq服务器
systemctl restart rabbitmq-server
首尾配置
# 删除yum库配置文件,避免下次yum安装在执行一遍
rm -rf /etc/yum.repos.d/rabbitmq.repo
# 分别在不同服务器修改主机名称
vim /etc/hostname
# 分别起名 node01、node02、node03
# 例子:机器1,该文件/etc/hostname 下 填写node1
# 机器2,该文件/etc/hostname 下 填写node2
# 机器3,该文件/etc/hostname 下 填写node3
集群配置
机器1配置:
[*] 分别在3台机器设置IP 所在到对应主机名称的映射
修改文件/etc/hosts,追加如下内容:
ip1 node01
ip2 node02
ip3 node03
[*] 检察该MQ的Cookie值并记录
cat /var/lib/rabbitmq/.erlang.cookie
# 并记录该值,后续机器2,机器3上的cookie值保持一致
# 在node01节点运行,把该文件复制到其他机器上
scp /var/lib/rabbitmq/.erlang.cookie root@node02:/var/lib/rabbitmq/.erlang.cookie
scp /var/lib/rabbitmq/.erlang.cookie root@node03:/var/lib/rabbitmq/.erlang.cookie
# 需要将rabbitmq分别重启
systemctl stop rabbitmq-server
systemctl start rabbitmq-server
[*] 重置节点应用
rabbitmqctl stop_app
rabbitmqctl reset
rabbitmqctl start_app
机器2配置:
[*] 分别在3台机器设置IP 所在到对应主机名称的映射
修改文件/etc/hosts,追加如下内容:
ip1 node01
ip2 node02
ip3 node03
[*] 检察该MQ的Cookie值并记录
cat /var/lib/rabbitmq/.erlang.cookie
# 把机器1上的cookie值复制到这里,与机器1保持一致
[*] 重置节点应用,并加入集群
rabbitmqctl stop_app
rabbitmqctl reset
# 加入集群,去node01机器上找rabbit的程序,进行加入
rabbitmqctl join_cluster rabbit@node01
rabbitmqctl start_app
机器3配置:
[*] 分别在3台机器设置IP 所在到对应主机名称的映射
修改文件/etc/hosts,追加如下内容:
ip1 node01
ip2 node02
ip3 node03
[*] 检察该MQ的Cookie值并记录
cat /var/lib/rabbitmq/.erlang.cookie
# 把机器1上的cookie值复制到这里,与机器1保持一致
[*] 重置节点应用,并加入集群
rabbitmqctl stop_app
rabbitmqctl reset
# 加入集群,去node01机器上找rabbit的程序,进行加入
rabbitmqctl join_cluster rabbit@node01
rabbitmqctl start_app
[*] 检察集群状态
rabbitmqctl cluster_status
# 也可以在图形化界面上,查看集群节点,在Nodes这里查看集群节点
负载均衡
一般MQ的服务端口5672、UI管理界面端口15672
浏览器访问,某个端口,通过HAProxy工具,举行分流每个节点的15672端口上,举行管理UI上的负载均衡;
服务端访问,某个端口,通过HAProxy工具,举行分流每个节点的5672端口上,举行服务端的负载均衡;
安装HAProxy
yum install -y haproxy
# 查看安装的版本
haproxy -v
# 启动该程序
systemctl start haproxy
# 设置该服务开机自动启动
systemctl enable haproxy
# 查看状态
systemctl status haproxy
# 停止启动
systemctl stop haproxy
# 重启
systemctl restart haproxy
# 查看当前的线程
ps -ef|grep haproxy
修改配置文件
[*] 修改配置文件
vim /etc/haproxy/haproxy.cfg
文件内容:
# 在最后一行添加该内容,该部分配置UI管理器上的负载均衡
# 起MQ的UI的名字(rabbitmq_ui_frontend),前端部分配置
frontend rabbitmq_ui_frontend
# 绑定一个地址,端口号,外部浏览器访问该IP地址和端口后,然后通过HAProxy进行转发
bind 192.168.xxx.xxx:22222
# http协议
mode http
# 默认的后端服务名,使用下面的名字
default_backend rabbitmq_ui_backend
# 起MQ的服务端的名字(rabbitmq_ui_backend)
backend rabbitmq_ui_backend
# http协议
mode http
# 启用轮询的负载均衡
balance roundrobin
option httpchk GET /
# 分别设置,不同的MQ服务节点的IP地址
server rabbitmq_ui1 192.168.xxx.1:15672 check
server rabbitmq_ui2 192.168.xxx.2:15672 check
server rabbitmq_ui3 192.168.xxx.3:15672 check
# 配置服务端(生产者、消费者)的负载均衡
# 服务端(生产者、消费者)的名字
frontend rabbitmq_frontend
# 绑定一个地址,端口号,服务端(生产者、消费者)访问该IP地址和端口后,然后通过HAProxy进行转发
bind 192.168.xxx.xxx:11111
# tcp协议
mode tcp
default_backend rabbitmq_backend
# 与上面的名字保持一致
backend rabbitmq_backend
# tcp协议
mode tcp
# 启用轮询的负载均衡
balance roundrobin
# 分别设置,不同的MQ服务节点的IP地址
server rabbitmq1 192.168.xxx.1:5672 check
server rabbitmq2 192.168.xxx.2:5672 check
server rabbitmq3 192.168.xxx.3:5672 check
[*] 设置SELinux策略,答应HAProxy拥有权限连接任意端口:
# 保存上面的配置文件,执行下面
setsebool -P haproxy_connect_any=1
# 绑定非本机的IP需要在sysctl.conf文件中配置:
vi /etc/sysctl.conf
# 添加
net.ipv4.ip_nonlocal_bind=1
# 保存退出,执行
sysctl -p
SELinux是Linux系统中的安全模块,它可以限定进程的权限以进步系统的安全性。在某些环境下,SELinux可能会阻止HAProxy绑定指定的端口,这就必要通过设置域(domain)的安全策略来解决此问题。通过执行setsebool -P haproxy_connect_any=1命令,您已经为HAProxy设置了一个布尔值,答应HAProxy连接到任意端口。如许,HAProxy就可以成功绑定指定的socket,并正常工作。
[*] 重启HAProxy
# 测试配置文件的正确性
haproxy -c -f /etc/haproxy/haproxy.cfg
# 进行重启
systemctl restart haproxy
配置成功
# 访问MQ管理UI页面:
http://192.168.xxx.xxx:22222
# 生产者、消费者服务连接MQ
rabbitmq:
host: 192.168.xxx.xxx
port: 11111
username: guest
password: 123456
# 可通过生产者发送消息,监听消费者是否接受到消息
仲裁队列
仲裁队列是3.8版本以后才有的新功能,是主从模式,支持主从数据同步,在添加队列,队列类型为Quorum就是仲裁队列。
创建交换机
与之前创建平凡交换机同等
创建仲裁队列
https://i-blog.csdnimg.cn/direct/45477eb39b994fda80ffd8463bf1df0d.png#pic_center
绑定交换机
与之前的同等
验证,停止某个节点
# 停止rabbit应用
rabbitmqctl stop_app
# 我们在某个节点进行停止MQ,然后生产者发送消息,查看消费者是否可以接受到,判断集群的数据一致性
# 默认,主节点挂掉,默认重新选举新的主节点
流式队列
流式队列是3.9版本以后才有的新功能,每个消息都分配一个偏移量,该消息被消耗掉也不会被删除,可以重复消耗;类似Kafka,但没有到达Kafka的效果。
前提预备 - 安装干系插件
# 启用Stream插件
rabbitmq-plugins enable rabbitmq_stream
# 重启rabbit应用
rabbitmqctl stop_app
rabbitmqctl start_app
# 查看插件状态
rabbitmq-plugins list
负载均衡配置
frontend rabbitmq_stream_frontend
bind 192.168.xxx.100:33333
mode tcp
default_backend rabbitmq_stream_backend
backend rabbitmq_stream_backend
mode tcp
balance roundrobin
# 它的端口是5552
server rabbitmq1 192.168.xxx.1:5552 check
server rabbitmq2 192.168.xxx.1:5552 check
server rabbitmq3 192.168.xxx.2:5552 check
JAVA干系代码
// 引包
<dependencies>
<dependency>
<groupId>com.rabbitmq</groupId>
<artifactId>stream-client</artifactId>
<version>0.15.0</version>
</dependency>
<dependency>
<groupId>org.slf4j</groupId>
<artifactId>slf4j-api</artifactId>
<version>1.7.30</version>
</dependency>
<dependency>
<groupId>ch.qos.logback</groupId>
<artifactId>logback-classic</artifactId>
<version>1.2.3</version>
</dependency>
</dependencies>
创建Stream,不必要创建交换机
// 代码创建
Environment environment = Environment.builder()
.host("192.168.xxx.1")
.port(33333)
.username("用户名")
.password("密码")
.build();
environment.streamCreator().stream("stream.atguigu.test2").create();
environment.close();
通过管理UI页面创建的话,队列类型选择:Stream
生产者
Environment environment = Environment.builder()
.host("192.168.xxx.1")
.port(33333)
.username("用户名")
.password("密码")
.build();
Producer producer = environment.producerBuilder()
// 队列名称
.stream("stream.test")
.build();
// 消息内容
byte[] messagePayload = "hello rabbit stream".getBytes(StandardCharsets.UTF_8);
CountDownLatch countDownLatch = new CountDownLatch(1);
producer.send(
producer.messageBuilder().addData(messagePayload).build(),
confirmationStatus -> {
if (confirmationStatus.isConfirmed()) {
System.out.println("[生产者端]the message made it to the broker");
} else {
System.out.println("[生产者端]the message did not make it to the broker");
}
countDownLatch.countDown();
});
countDownLatch.await();
producer.close();
environment.close();
消耗者
Environment environment = Environment.builder()
.host("192.168.xxx.1")
.port(33333)
.username("用户名")
.password("密码")
.build();
environment.consumerBuilder()
// 队列名称
.stream("stream.test")
// 这个是消费端起名字
.name("stream.test.consumer")
.autoTrackingStrategy()
.builder()
.messageHandler((offset, message) -> {
// 接受消息
byte[] bodyAsBinary = message.getBodyAsBinary();
String messageContent = new String(bodyAsBinary);
System.out.println("[消费者端]messageContent = " + messageContent + " Offset=" + offset.offset());
})
.build();
指定偏移量消耗
// 指定Offset消费
Environment environment = Environment.builder()
.host("192.168.xxx.1")
.port(33333)
.username("用户名")
.password("密码")
.build();
CountDownLatch countDownLatch = new CountDownLatch(1);
Consumer consumer = environment.consumerBuilder()
.stream("stream.test")
.offset(OffsetSpecification.first())
.messageHandler((offset, message) -> {
byte[] bodyAsBinary = message.getBodyAsBinary();
String messageContent = new String(bodyAsBinary);
System.out.println("[消费者端]messageContent = " + messageContent);
countDownLatch.countDown();
})
.build();
countDownLatch.await();
consumer.close();
Federation插件
它是MQ在差别的Broker节点之间举行消息通报而无须建立集群,可以实现跨集群的数据同步。
Federation交换机
[*] 前提预备:启用该插件、分为上游和下游,创建2个独立的MQ服务;
# 使用docker进行安装MQ1服务
docker run -d \
--name rabbitmq-shenzhen \
-p 51000:5672 \
-p 52000:15672 \
-v rabbitmq-plugin:/plugins \
-e RABBITMQ_DEFAULT_USER=guest \
-e RABBITMQ_DEFAULT_PASS=123456 \
rabbitmq:3.13-management
# 使用docker进行安装MQ2服务
docker run -d \
--name rabbitmq-shanghai \
-p 61000:5672 \
-p 62000:15672 \
-v rabbitmq-plugin:/plugins \
-e RABBITMQ_DEFAULT_USER=guest \
-e RABBITMQ_DEFAULT_PASS=123456 \
rabbitmq:3.13-management
[*] 启用插件
# 分别在2台MQ服务,进行安装该插件
rabbitmq-plugins enable rabbitmq_federation
rabbitmq-plugins enable rabbitmq_federation_management
安装完插件,在右侧菜单栏可看到
[*] 添加上游连接端点
在下游的MQ服务,举行操纵,点击右侧Federation Upstreams,举行添加,必要起一个上游的连接点名字,(federation-upstreams),URL填写:amqp://用户名:暗码@访问ip:端口 (是上游的可访问的所在)
https://i-blog.csdnimg.cn/direct/ddcf603d2902454aa4191cd0a6079466.png#pic_center
[*] 创建控制策略
举行配置,在下游的MQ服务,举行操纵
https://i-blog.csdnimg.cn/direct/c77e592292ff4b458c4f5b5fd04919fa.png#pic_center
[*] 验证
# 需要满足:
# 普通交换机和联邦交换机名称要一致
# 交换机名称要能够和策略正则表达式匹配上
# 发送消息时,两边使用的路由键也要一致
# 队列名称不要求一致
https://i-blog.csdnimg.cn/direct/367a4c8bc23b43e6b573686a2a8523a3.png#pic_center
生产者(上游)发送消息、消息会被上游(MQ)的队列接收到,然后下游(MQ)的队列也会担当到消息;
满足差别集群举行数据同步;
Federation队列
Federation队列和Federation交换机的最焦点区别就是:
[*]Federation Police作用在交换机上,就是Federation交换机
[*]Federation Police作用在队列上,就是Federation队列
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