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本篇内容介绍了“SpringBoot整合RabbitMq的方法是什么”的有关知识,在实际案例的操作过程中,不少人都会遇到这样的困境,接下来就让小编带领大家学习一下如何处理这些情况吧!希望大家仔细阅读,能够学有所成!
高级消息队列协议(AMQP)是面向消息中间件的平台中立的有线协议。Spring AMQP项目将核心Spring概念应用于基于AMQP的消息传递解决方案的开发。Spring Boot为通过RabbitMQ与AMQP一起工作提供了一些便利,包括spring-boot-starter-amqp “Starter”。
springboot集成RabbitMQ非常简单,如果只是简单的使用配置非常少,springboot提供了spring-boot-starter-amqp项目对消息各种支持。
<dependency> <groupId>org.springframework.boot</groupId> <artifactId>spring-boot-starter-amqp</artifactId> </dependency>
RabbitMQ是基于AMQP协议的轻量级,可靠,可扩展,可移植的消息代理。Spring使用RabbitMQ通过AMQP协议进行通信。
RabbitMQ配置由外部配置属性控制 spring.rabbitmq.*。例如,您可以在以下部分声明以下部分 application.properties:
spring.rabbitmq.host = localhost spring.rabbitmq.port = 5672 spring.rabbitmq.username = guest spring.rabbitmq.password
package com.example.rabbitmqdemo.config; import org.springframework.amqp.core.Queue; import org.springframework.context.annotation.Bean; import org.springframework.context.annotation.Configuration; /** * RabbitMQ 配置类 * * @author itguang * @create @Configuration public class RabbitConfig @Bean public Queue queue(){ return new Queue("hello"); } }
rabbitTemplate是springboot 提供的默认实现.
package com.example.rabbitmqdemo.rabbitmq; import org.springframework.amqp.core.AmqpTemplate; import org.springframework.beans.factory.annotation.Autowired; import org.springframework.stereotype.Component; import java.time.LocalDate; import java.time.LocalDateTime; import java.time.LocalTime; import java.util.Date; /** * 消息发送者 * * @author itguang * @create @Component public class HelloSender @Autowired private AmqpTemplate amqpTemplate; public void send(){ String context = "hello----"+LocalDateTime.now(); System.out.println("send:"+context); //往名称为 hello 的queue中发送消息 this.amqpTemplate.convertAndSend("hello",context); } }
package com.example.rabbitmqdemo.rabbitmq; import org.springframework.amqp.rabbit.annotation.RabbitHandler; import org.springframework.amqp.rabbit.annotation.RabbitListener; import org.springframework.stereotype.Component; /** * 消息接受者 * * @author itguang * @create @Component @RabbitListener(queues = "hello") //监听 名称为 hello 的queue public class HelloReceiver //消息处理器 @RabbitHandler public void process(String message){ System.out.println("Receiver:"+message); } }
package com.example.rabbitmqdemo; import com.example.rabbitmqdemo.rabbitmq.HelloSender; import org.junit.Test; import org.junit.runner.RunWith; import org.springframework.beans.factory.annotation.Autowired; import org.springframework.boot.test.context.SpringBootTest; import org.springframework.test.context.junit4.SpringRunner; @RunWith(SpringRunner.class) @SpringBootTest public class RabbitmqdemoApplicationTests @Autowired HelloSender helloSender; @Test public void contextLoads() { helloSender.send(); } }
查看控制台输出结果
send:hello----2018-04-21T11:29:47.739 Receiver:hello----2018-04-21T11:29:47.739
对上面的代码进行了小改造,接收端注册了两个Receiver,Receiver1和Receiver2,发送端加入参数计数,接收端打印接收到的参数,下面是测试代码,发送一百条消息,来观察两个接收端的执行效果
添加一个队列叫 hello2
package com.example.rabbitmqdemo.config; import org.springframework.amqp.core.Queue; import org.springframework.context.annotation.Bean; import org.springframework.context.annotation.Configuration; /** * RabbitMQ 配置类 * * @author itguang * @create @Configuration public class RabbitConfig @Bean public Queue queue(){ return new Queue("hello"); } @Bean public Queue queue2(){ return new Queue("hello2"); } }
给队列 hello2 发送消息,接受一个计数参数
package com.example.rabbitmqdemo.rabbitmq; import org.springframework.amqp.core.AmqpTemplate; import org.springframework.beans.factory.annotation.Autowired; import org.springframework.stereotype.Component; import java.time.LocalDate; import java.time.LocalDateTime; import java.time.LocalTime; import java.util.Date; /** * 消息发送者 * * @author itguang * @create @Component public class HelloSender @Autowired private AmqpTemplate amqpTemplate; public void send(){ String context = "hello----"+LocalDateTime.now(); System.out.println("send:"+context); this.amqpTemplate.convertAndSend("hello",context); } //给hello2发送消息,并接受一个计数参数 public void send2(int i){ String context = i+""; System.out.println(context+"--send:"); this.amqpTemplate.convertAndSend("hello2",context); } }
两个hello2 的接受者
@Component @RabbitListener(queues = "hello2") public class HelloReceiver1 @RabbitHandler public void process(String message){ System.out.println("Receiver1:"+message); } }
@Component @RabbitListener(queues = "hello2") public class HelloReceiver2 @RabbitHandler public void process(String message){ System.out.println("Receiver2:"+message); } }
@Test public void manyReceiver(){ for (int i=0;i<100;i++){ helloSender.send2(i); } }
查看控制台输出结果:
0--send: 1--send: 2--send: 3--send: 4--send: ...(省略) 58--send: 59--send: 60--send: 61--send: 62--send: 63--send: Receiver2:1 Receiver1:0 64--send: 65--send: Receiver1:2 Receiver2:3 66--send: Receiver1:4 Receiver2:5 ...(省略)
可以看到:在消息发送到63时,接受者Receiver已经收到了消息,
结论:
一个发送者,N个接受者,经过测试会均匀的将消息发送到N个接收者中
我们可以注入两个发送者,放在循环中,如下:
@Test public void many2many(){ for (int i=0;i<100;i++){ helloSender.send2(i); helloSender2.send2(i); } }
运行单元测试,查看控制台输出:
0--send: 0--send: 1--send: 1--send: 2--send: 2--send: 3--send: 3--send: ...(省略) 22--send: 22--send: 23--send: 23--send: 24--send: 24--send: Receiver2:0 25--send: 25--send: Receiver2:1 26--send: Receiver2:2 26--send: Receiver2:3 27--send: Receiver1:0 27--send: Receiver2:4 Receiver1:1 28--send: Receiver2:5 Receiver1:2 28--send: Receiver2:6 Receiver1:3 29--send: Receiver2:7 Receiver1:4 29--send: Receiver2:8 Receiver1:5 30--send: Receiver2:9 Receiver1:6 30--send: 31--send: 31--send: 32--send: 32--send:
结论:和一对多一样,接收端仍然会均匀接收到消息
首先我们创建一个实体类对象 User,注意必须实现 Serializable 接口.
package com.example.rabbitmqdemo.pojo; import java.io.Serializable; /** * @author itguang * @create public class User implements Serializable private String username; private String password; public User(String username, String password) { this.username = username; this.password = password; } public String getUsername() { return username; } public void setUsername(String username) { this.username = username; } public String getPassword() { return password; } public void setPassword(String password) { this.password = password; } @Override public String toString() { return "User{" + "username='" + username + '\'' + ", password='" + password + '\'' + '}'; } }
然后在配置文件中再创建一个队列,叫 object_queue
@Bean public Queue queue3(){ return new Queue("object_queue"); }
接下里就是User对象的两个发送者ObjectSender和接受者ObjectReceiver:
@Component public class ObjectSender @Autowired AmqpTemplate amqpTemplate; public void sendUser(User user){ System.out.println("Send object:"+user.toString()); this.amqpTemplate.convertAndSend("object_queue",user); } }
@Component @RabbitListener(queues = "object_queue") public class ObjectReceiver @RabbitHandler public void objectReceiver(User user){ System.out.println("Receiver object:"+user.toString()); } }
运行单元测试,查看控制台输出结果:
Send object:User{username='李增光', password='666666'} Receiver object:User{username='李增光', password='666666'}
topic 是RabbitMQ中最灵活的一种方式,可以根据routing_key自由的绑定不同的队列
首先对topic规则配置,这里使用两个队列来测试
package com.example.rabbitmqdemo.config; import org.springframework.amqp.core.Binding; import org.springframework.amqp.core.BindingBuilder; import org.springframework.amqp.core.Queue; import org.springframework.amqp.core.TopicExchange; import org.springframework.context.annotation.Bean; import org.springframework.context.annotation.Configuration; /** * @author itguang * @create @Configuration public class TopicRabbitConfig final static String message = "topic.message"; final static String messages = "topic.messages"; //创建两个 Queue @Bean public Queue queueMessage(){ return new Queue(TopicRabbitConfig.message); } @Bean public Queue queueMessages(){ return new Queue(TopicRabbitConfig.messages); } //配置 TopicExchange,指定名称为 topicExchange @Bean public TopicExchange exchange(){ return new TopicExchange("topicExchange"); } //给队列绑定 exchange 和 routing_key @Bean public Binding bindingExchangeMessage(Queue queueMessage, TopicExchange exchange){ return BindingBuilder.bind(queueMessage).to(exchange).with("topic.message"); } @Bean public Binding bingingExchangeMessages(Queue queueMessages,TopicExchange exchange){ return BindingBuilder.bind(queueMessages).to(exchange).with("topic.#"); } }
消息发送者:都是用topicExchange,并且绑定到不同的 routing_key
package com.example.rabbitmqdemo.topic; import org.springframework.amqp.core.AmqpTemplate; import org.springframework.beans.factory.annotation.Autowired; import org.springframework.stereotype.Component; /** * @author itguang * @create @Component public class TopicSender @Autowired AmqpTemplate amqpTemplate; public void send1(){ String context = "hi, i am message 1"; System.out.println("Sender : " + context); amqpTemplate.convertAndSend("topicExchange","topic.message",context); } public void send2() { String context = "hi, i am messages 2"; System.out.println("Sender : " + context); amqpTemplate.convertAndSend("topicExchange", "topic.messages", context); } }
两个消息接受者,分别指定不同的 queue
package com.example.rabbitmqdemo.topic; import org.springframework.amqp.rabbit.annotation.RabbitHandler; import org.springframework.amqp.rabbit.annotation.RabbitListener; import org.springframework.stereotype.Component; /** * @author itguang * @create @Component @RabbitListener(queues = "topic.message") public class TopicReceiver1 @RabbitHandler public void process(String message){ System.out.println("Receiver topic.message :"+ message); } }
package com.example.rabbitmqdemo.topic; import org.springframework.amqp.rabbit.annotation.RabbitHandler; import org.springframework.amqp.rabbit.annotation.RabbitListener; import org.springframework.stereotype.Component; /** * @author itguang * @create @Component @RabbitListener(queues = "topic.messages") public class TopicReceiver2 @RabbitHandler public void process(String message){ System.out.println("Receiver topic.messages: "+ message); } }
测试:
发送send1会匹配到topic.#和topic.message 两个Receiver都可以收到消息,发送send2只有topic.#可以匹配所有只有Receiver2监听到消息
Fanout 就是我们熟悉的广播模式或者订阅模式,给Fanout交换机发送消息,绑定了这个交换机的所有队列都收到这个消息。
Fanout 相关配置:
package com.example.rabbitmqdemo.config; import org.springframework.amqp.core.Binding; import org.springframework.amqp.core.BindingBuilder; import org.springframework.amqp.core.FanoutExchange; import org.springframework.amqp.core.Queue; import org.springframework.context.annotation.Bean; import org.springframework.context.annotation.Configuration; import java.security.PublicKey; /** * @author itguang * @create @Configuration public class FanOutRabbitMq //创建三个队列 @Bean public Queue AMessage() { return new Queue("fanout.A"); } @Bean public Queue BMessage() { return new Queue("fanout.B"); } @Bean public Queue CMessage() { return new Queue("fanout.C"); } //创建exchange,指定交换策略 @Bean public FanoutExchange fanoutExchange() { return new FanoutExchange("fanoutExchange"); } //分别给三个队列指定exchange,这里使用了A、B、C三个队列绑定到Fanout交换机上面,发送端的routing_key写任何字符都会被忽略: @Bean public Binding bindingExchangeA(Queue AMessage,FanoutExchange fanoutExchange){ return BindingBuilder.bind(AMessage).to(fanoutExchange); } @Bean public Binding bindingExchangeB(Queue BMessage,FanoutExchange fanoutExchange){ return BindingBuilder.bind(BMessage).to(fanoutExchange); } @Bean Binding bindingExchangeC(Queue CMessage, FanoutExchange fanoutExchange) { return
消息发送者:
这里使用了A、B、C三个队列绑定到Fanout交换机上面,发送端的routing_key写任何字符都会被忽略
package com.example.rabbitmqdemo.fanout; import org.springframework.amqp.core.AmqpTemplate; import org.springframework.beans.factory.annotation.Autowired; import org.springframework.stereotype.Component; /** * @author itguang * @create @Component public class FanoutSender @Autowired AmqpTemplate amqpTemplate; public void send(){ String context = "hi, fanout msg "; System.out.println("Sender : " + context); //这里使用了A、B、C三个队列绑定到Fanout交换机上面,发送端的routing_key写任何字符都会被忽略: amqpTemplate.convertAndSend("fanoutExchange","", context); } }
三个消息接受者:
@Component @RabbitListener(queues = "fanout.A") public class FanoutReceiverA @RabbitHandler public void process(String message){ System.out.println("Receiver form fanout.A: "+message); } } @Component @RabbitListener(queues = "fanout.B") public class FanoutReceiverB @RabbitHandler public void process(String message){ System.out.println("Receiver form fanout.B: "+message); } } @Component @RabbitListener(queues = "fanout.C") public class FanoutReceiverC @RabbitHandler public void process(String message){ System.out.println("Receiver form fanout.C: "+message); } }
运行单元测试,查看结果:
Sender : hi, fanout msg Receiver form fanout.C: hi, fanout msg Receiver form fanout.A: hi, fanout msg Receiver form fanout.B: hi, fanout msg
结果说明,绑定到fanout交换机上面的队列都收到了消息.
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