首先了解我的这篇博客:https://www.cnblogs.com/yanxiaoge/p/11379715.html(下面的基于这篇博客中的配置)
1、创建项目
<dependency>
<groupId>org.springframework.boot</groupId>
<artifactId>spring‐boot‐starter‐amqp</artifactId>
</dependency>
自动配置
1、RabbitAutoConfiguration
2、有自动配置了连接工厂ConnectionFactory;
3、RabbitProperties 封装了RabbitMQ的配置
4、RabbitTemplate:给RabbitMQ发送和接受消息;
5、AmqpAdmin:RabbitMQ系统管理功能组件
2、使用
2.1 application.properties
#host、port、virtual-host默认值都是下面配置的(可以不写) spring.rabbitmq.host=localhost spring.rabbitmq.username=guest spring.rabbitmq.password=guest spring.rabbitmq.port=5672 //服务间通讯端口默认是5672 spring.rabbitmq.virtual-host=/
2.2 测试消息的发送和接受
@Autowired
public RabbitTemplate rabbitTemplate;
@Test
public void contextLoads() {
//Message需要自己构造一个;定义消息体内容和消息头
//rabbitTemplate.send(exchange,routingKey,message);
//object默认当做消息体,只需要传入要发送的object,自动序列化发送给rabbitmq
//rabbitTemplate.convertAndSend(exchange,routingKey,Object);
HashMap<String, String> hashMap = new HashMap<>();
hashMap.put("1","1");
hashMap.put("2","2");
rabbitTemplate.convertAndSend("exchange.direct","queue1",hashMap); //指定的exchange.direct是配置的点对点的,如果其他的可以自己测试
}
@Test
public void test2() {
HashMap<String,String> queue1 = (HashMap<String, String>) rabbitTemplate.receiveAndConvert("queue1"); //注意如果取出来的数据不是HashMap,不能强转
System.out.println(queue1.get("1"));
}
2.3 自定义序列化转换器,将数据以json数据存入到队列中,测试方法按照上面的测试(如果报错某个class找不到,可以自己导入 jackson-databind这个jar包)
@Configuration
public class MyAMQPConfig {
@Bean
public MessageConverter messageConverter(){
return new Jackson2JsonMessageConverter();
}
}
2.4 监听消息队列
2.4.1 @EnableRabbit
@EnableRabbit //开启注解的 RabbitMQ 模式
@SpringBootApplication
public class Springboot11Application {
public static void main(String[] args) {
SpringApplication.run(Springboot11Application.class, args);
}
}
2.4.2 @RabbitListener
package com.zy.springboot11.service;
import org.springframework.amqp.core.Message;
import org.springframework.amqp.rabbit.annotation.RabbitListener;
import org.springframework.stereotype.Service;
import java.util.HashMap;
@Service
public class HashMapService {
@RabbitListener(queues = "queue1")
public void receive(HashMap<String,String> hashMap){
System.out.println("收到消息"+hashMap.toString());
}
@RabbitListener(queues = "queue2")
public void receive2(Message message){
System.out.println(message.getMessageProperties());
System.out.println(message.getBody());
}
}
2.4.3 测试
方式1、开启服务器,通过http://localhost:15672/#/queues 给消息队列发送消息
方式2:、直接通过springboot的测试方法,不用开启服务器,(测试方法中的监听器就会将数据读取出来)
2.5 代码创建Exchange、queue、绑定规则
@Autowired
public AmqpAdmin amqpAdmin;
@Test
public void create(){
//创建Exchange
//Exchage可以设置durable、autoDelete等
//amqpAdmin.declareExchange(new DirectExchange("testExchage.direct"));
//创建queue
//amqpAdmin.declareQueue(new Queue("test.queue"));
//绑定
//amqpAdmin.declareBinding(new Binding("test.queue",Binding.DestinationType.QUEUE,"testExchage.direct","test.queue",null));
//删除绑定
//amqpAdmin.removeBinding(new Binding("test.queue",Binding.DestinationType.QUEUE,"testExchage.direct","test.queue",null));
//删除queue(绑定关系就解除了)
//amqpAdmin.deleteQueue("test.queue");
//删除exchange
//amqpAdmin.deleteExchange("testExchage.direct");
}
生产者
aplication.yml
server:
port: 44000
spring:
application:
name: test-rabbitmq-producer
rabbitmq:
host: 127.0.0.1
port: 5672
username: guest
password: guest
virtualHost: /
config(为了让生产者程序启动的时候,像RabbitMQ中声明队列和交换机,以及他们之间的绑定关系,如果RabbitMQ中手动已经配置好了,这个config也可以不需要了)
import org.springframework.amqp.core.*;
import org.springframework.beans.factory.annotation.Qualifier;
import org.springframework.context.annotation.Bean;
import org.springframework.context.annotation.Configuration;
@Configuration
public class RabbitmqConfig {
public static final String QUEUE_INFORM_EMAIL = "queue_inform_email";
public static final String QUEUE_INFORM_SMS = "queue_inform_sms";
public static final String EXCHANGE_TOPICS_INFORM="exchange_topics_inform";
public static final String ROUTINGKEY_EMAIL="inform.#.email.#";
public static final String ROUTINGKEY_SMS="inform.#.sms.#";
//声明交换机
@Bean(EXCHANGE_TOPICS_INFORM)
public Exchange EXCHANGE_TOPICS_INFORM(){
//durable(true) 持久化,mq重启之后交换机还在
return ExchangeBuilder.topicExchange(EXCHANGE_TOPICS_INFORM).durable(true).build();
}
//声明QUEUE_INFORM_EMAIL队列
@Bean(QUEUE_INFORM_EMAIL)
public Queue QUEUE_INFORM_EMAIL(){
return new Queue(QUEUE_INFORM_EMAIL);
}
//声明QUEUE_INFORM_SMS队列
@Bean(QUEUE_INFORM_SMS)
public Queue QUEUE_INFORM_SMS(){
return new Queue(QUEUE_INFORM_SMS);
}
//ROUTINGKEY_EMAIL队列绑定交换机,指定routingKey
@Bean
public Binding BINDING_QUEUE_INFORM_EMAIL(@Qualifier(QUEUE_INFORM_EMAIL) Queue queue,
@Qualifier(EXCHANGE_TOPICS_INFORM) Exchange exchange){
return BindingBuilder.bind(queue).to(exchange).with(ROUTINGKEY_EMAIL).noargs();
}
//ROUTINGKEY_SMS队列绑定交换机,指定routingKey
@Bean
public Binding BINDING_ROUTINGKEY_SMS(@Qualifier(QUEUE_INFORM_SMS) Queue queue,
@Qualifier(EXCHANGE_TOPICS_INFORM) Exchange exchange){
return BindingBuilder.bind(queue).to(exchange).with(ROUTINGKEY_SMS).noargs();
}
}
测试
@SpringBootTest
@RunWith(SpringRunner.class)
public class Producer05_topics_springboot {
@Autowired
RabbitTemplate rabbitTemplate;
//使用rabbitTemplate发送消息
@Test
public void testSendEmail(){
String message = "send email message to user";
/**
* 参数:
* 1、交换机名称
* 2、routingKey
* 3、消息内容
*/
rabbitTemplate.convertAndSend(RabbitmqConfig.EXCHANGE_TOPICS_INFORM,"inform.email",message);
}
//使用rabbitTemplate发送消息
@Test
public void testSendPostPage(){
Map message = new HashMap<>();
message.put("pageId","5a795ac7dd573c04508f3a56");
//将消息对象转成json串
String messageString = JSON.toJSONString(message);
//路由key,就是站点ID
String routingKey = "5a751fab6abb5044e0d19ea1";
/**
* 参数:
* 1、交换机名称
* 2、routingKey
* 3、消息内容
*/
rabbitTemplate.convertAndSend("ex_routing_cms_postpage",routingKey,messageString);
}
}
消费者
让方法来监听队列
aplication.yml
server:
port: 44001
spring:
application:
name: test-rabbitmq-producer
rabbitmq:
host: 127.0.0.1
port: 5672
username: guest
password: guest
virtualHost: /
config(为了让消费者程序启动的时候,像RabbitMQ中声明队列和交换机,以及他们之间的绑定关系,如果RabbitMQ中手动已经配置好了,这个config也可以不需要了)
略(使用生产者中config配置)
@Component
public class Consumer {
//监听队列
@RabbitListener(queues = {RabbitmqConfig.QUEUE_INFORM_EMAIL})
public void sendenail(String msg, Message nessage, Channel channel) {
System.out.println("receive nessage is:" + msg);
}
}
使用@RabbitListener(queues = "queue2")监听队列,默认是单线程监听队列
在config配置中添加SimpleRabbitListenerContainerFactory(Bean) ,设置多线程
@Configuration
public class RabbitMQConfig {
public static final String EX_MEDIA_PROCESSTASK = "ex_media_processor";
//视频处理队列
@Value("${xc-service-manage-media.mq.queue-media-video-processor}")
public String queue_media_video_processtask;
//视频处理路由
@Value("${xc-service-manage-media.mq.routingkey-media-video}")
public String routingkey_media_video;
//消费者并发数量
public static final int DEFAULT_CONCURRENT = 10;
@Bean("customContainerFactory")
public SimpleRabbitListenerContainerFactory containerFactory(SimpleRabbitListenerContainerFactoryConfigurer configurer, ConnectionFactory connectionFactory) {
SimpleRabbitListenerContainerFactory factory = new SimpleRabbitListenerContainerFactory();
factory.setConcurrentConsumers(DEFAULT_CONCURRENT);
factory.setMaxConcurrentConsumers(DEFAULT_CONCURRENT);
configurer.configure(factory, connectionFactory);
return factory;
}
/**
* 交换机配置
* @return the exchange
*/
@Bean(EX_MEDIA_PROCESSTASK)
public Exchange EX_MEDIA_VIDEOTASK() {
return ExchangeBuilder.directExchange(EX_MEDIA_PROCESSTASK).durable(true).build();
}
//声明队列
@Bean("queue_media_video_processtask")
public Queue QUEUE_PROCESSTASK() {
Queue queue = new Queue(queue_media_video_processtask,true,false,true);
return queue;
}
/**
* 绑定队列到交换机 .
* @param queue the queue
* @param exchange the exchange
* @return the binding
*/
@Bean
public Binding binding_queue_media_processtask(@Qualifier("queue_media_video_processtask") Queue queue, @Qualifier(EX_MEDIA_PROCESSTASK) Exchange exchange) {
return BindingBuilder.bind(queue).to(exchange).with(routingkey_media_video).noargs();
}
}
@RabbitListener配置
@RabbitListener(queues = "${xc-service-manage-media.mq.queue-media-video-processor}", containerFactory = "customContainerFactory")
public void receiveMediaProcessTask(String msg) {}