RabbitMQ死信队列

RabbitMQ死信队列

目录

一、概念

二、出现死信的原因

三、实战

(一)代码架构图

(二)消息被拒

(三)消息TTL过期

(四)队列达到最大长度


一、概念

先从概念解释上搞清楚这个定义,死信,顾名思义就是无法被消费的消息,字面意思可以这样理解,一般来说,producer 将消息投递到 broker 或者直接到 queue 里了, consumer queue 取出消息进行消费,但某些时候由于特定的原因导致 queue 中的某些消息无法被消费 ,这样的消息如果没有后续的处理,就变成了死信,有死信自然就有了死信队列。
应用场景 : 为了保证订单业务的消息数据不丢失,需要使用到 RabbitMQ 的死信队列机制,当消息消费发生异常时,将消息投入死信队列中. 还有比如说 : 用户在商城下单成功并点击去支付后在指定时间未支付时自动失效

二、出现死信的原因

  • 消息 TTL 过期
  • 队列达到最大长度(队列满了,无法再添加数据到 mq )
  • 消息被拒绝(basic.reject basic.nack)并且 requeue=false.

三、实战

(一)代码架构图

(二)消息被拒

生产者

java">public class Producer {

    public static final String NORMAL_EXCHANGE = "normal_exchange";

    public static void main(String[] args) throws IOException {
        Channel channel = RabbitMqUtils.getChannel();


        for (int i = 0; i < 10; i++) {
            String message = "info" + i;
            channel.basicPublish(NORMAL_EXCHANGE, "zhangsan", null, message.getBytes());
        }

    }
}
C1 消费者代码( 启动之后关闭该消费者 模拟其接收不到消息 )
public class Consumer01 {

    public static final String NORMAL_QUEUE = "normal_queue";
    public static final String NORMAL_EXCHANGE = "normal_exchange";
    public static final String DEAD_QUEUE = "dead_queue";
    public static final String DEAD_EXCHANGE = "dead_exchange";

    public static void main(String[] args) throws IOException {
        Channel channel = RabbitMqUtils.getChannel();
        // 声明普通和死信交换机
        channel.exchangeDeclare(NORMAL_EXCHANGE, BuiltinExchangeType.DIRECT);
        channel.exchangeDeclare(DEAD_EXCHANGE, BuiltinExchangeType.DIRECT);


        // 声明死信队列
        channel.queueDeclare(DEAD_QUEUE, false, false, false, null);
        // 死信的绑定
        channel.queueBind(DEAD_QUEUE, DEAD_EXCHANGE, "lisi");


        Map<String, Object> arguments = new HashMap<>();
        // 普通队列设置对应的交换机
        arguments.put("x-dead-letter-exchange", DEAD_EXCHANGE);
        // 设置死信队列的RouteKey
        arguments.put("x-dead-letter-routing-key", "lisi");
        // 设置队列最大长度
        arguments.put("x-max-length", 6);
        // 声明普通队列
        channel.queueDeclare(NORMAL_QUEUE, false, false, false, arguments);
        // 普通的绑定
        channel.queueBind(NORMAL_QUEUE, NORMAL_EXCHANGE, "zhangsan");

        DeliverCallback deliverCallback = (consumerTag, message) -> {
            String msg = new String(message.getBody());

            if (msg.equals("info5")) {
                System.out.println("Consumer01接收到消息" + message + "并拒绝签收该消息");
                channel.basicReject(message.getEnvelope().getDeliveryTag(), false);
            } else {
                System.out.println("consumer01接收到消息:" + msg);
                channel.basicAck(message.getEnvelope().getDeliveryTag(), false);
            }
        };
        channel.basi***onsume(NORMAL_QUEUE, false, deliverCallback, consumerTag -> {
        });
    }
}
C2 消费者代码不变
启动消费者 1 然后再启动消费者 2

 

(三)消息TTL过期

生产者代码
public class Producer {

    public static final String NORMAL_EXCHANGE = "normal_exchange";

    public static void main(String[] args) throws IOException {
        Channel channel = RabbitMqUtils.getChannel();

        AMQP.BasicProperties properties = new AMQP.BasicProperties()
                .builder().expiration("10000").build();
        for (int i = 0; i < 10; i++) {
            String message = "info" + i;
            channel.basicPublish(NORMAL_EXCHANGE, "zhangsan", properties, message.getBytes());
        }

    }
}
消费者 C1 代码 ( 启动之后关闭该消费者 模拟其接收不到消息 )
public class Consumer01 {

    public static final String NORMAL_QUEUE = "normal_queue";
    public static final String NORMAL_EXCHANGE = "normal_exchange";
    public static final String DEAD_QUEUE = "dead_queue";
    public static final String DEAD_EXCHANGE = "dead_exchange";

    public static void main(String[] args) throws IOException {
        Channel channel = RabbitMqUtils.getChannel();
        // 声明普通和死信交换机
        channel.exchangeDeclare(NORMAL_EXCHANGE, BuiltinExchangeType.DIRECT);
        channel.exchangeDeclare(DEAD_EXCHANGE, BuiltinExchangeType.DIRECT);


        // 声明死信队列
        channel.queueDeclare(DEAD_QUEUE, false, false, false, null);
        // 死信的绑定
        channel.queueBind(DEAD_QUEUE, DEAD_EXCHANGE, "lisi");


        Map<String, Object> arguments = new HashMap<>();
        // 普通队列设置对应的交换机
        arguments.put("x-dead-letter-exchange", DEAD_EXCHANGE);
        // 设置死信队列的RouteKey
        arguments.put("x-dead-letter-routing-key", "lisi");
        // 声明普通队列
        channel.queueDeclare(NORMAL_QUEUE, false, false, false, arguments);
        // 普通的绑定
        channel.queueBind(NORMAL_QUEUE, NORMAL_EXCHANGE, "zhangsan");

        DeliverCallback deliverCallback = (consumerTag, message) -> {
            String msg = new String(message.getBody());

            System.out.println("consumer01接收到消息:" + msg);
        };
        channel.basi***onsume(NORMAL_QUEUE, false, deliverCallback, consumerTag -> {
        });
    }
}

消费者 C2 代码(以上步骤完成后 启动 C2 消费者 它消费死信队列里面的消息)

public class Consumer02 {

    public static final String DEAD_QUEUE = "dead_queue";

    public static void main(String[] args) throws IOException {
        Channel channel = RabbitMqUtils.getChannel();

        System.out.println("等待接收死信队列消息.....");
        DeliverCallback deliverCallback = (consumerTag, message) -> {
            System.out.println("Consumer02 接收死信队列的消息:" + new String(message.getBody()));
        };
        channel.basi***onsume(DEAD_QUEUE, true, deliverCallback, consumerTag -> {
        });

    }
}

(四)队列达到最大长度

我们在声明普通队列时添加一个参数x-max-length即可

生产者

public class Producer {

    public static final String NORMAL_EXCHANGE = "normal_exchange";

    public static void main(String[] args) throws IOException {
        Channel channel = RabbitMqUtils.getChannel();

        for (int i = 0; i < 10; i++) {
            String message = "info" + i;
            channel.basicPublish(NORMAL_EXCHANGE, "zhangsan", null, message.getBytes());
        }

    }
}
C1 消费者修改以下代码 ( 启动之后关闭该消费者 模拟其接收不到消息 ),这里设置了队列最多容纳6条消息,此时由于生产者发送了10条消息,所以有4条会进入死信队列。
public class Consumer01 {

    public static final String NORMAL_QUEUE = "normal_queue";
    public static final String NORMAL_EXCHANGE = "normal_exchange";
    public static final String DEAD_QUEUE = "dead_queue";
    public static final String DEAD_EXCHANGE = "dead_exchange";

    public static void main(String[] args) throws IOException {
        Channel channel = RabbitMqUtils.getChannel();
        // 声明普通和死信交换机
        channel.exchangeDeclare(NORMAL_EXCHANGE, BuiltinExchangeType.DIRECT);
        channel.exchangeDeclare(DEAD_EXCHANGE, BuiltinExchangeType.DIRECT);


        // 声明死信队列
        channel.queueDeclare(DEAD_QUEUE, false, false, false, null);
        // 死信的绑定
        channel.queueBind(DEAD_QUEUE, DEAD_EXCHANGE, "lisi");


        Map<String, Object> arguments = new HashMap<>();
        // 普通队列设置对应的交换机
        arguments.put("x-dead-letter-exchange", DEAD_EXCHANGE);
        // 设置死信队列的RouteKey
        arguments.put("x-dead-letter-routing-key", "lisi");
        // 设置队列最大长度
        arguments.put("x-max-length", 6);
        // 声明普通队列
        channel.queueDeclare(NORMAL_QUEUE, false, false, false, arguments);
        // 普通的绑定
        channel.queueBind(NORMAL_QUEUE, NORMAL_EXCHANGE, "zhangsan");

        DeliverCallback deliverCallback = (consumerTag, message) -> {
            String msg = new String(message.getBody());
            System.out.println("consumer01接收到消息:" + msg);

        };
        channel.basi***onsume(NORMAL_QUEUE, false, deliverCallback, consumerTag -> {
        });
    }
}
注意此时需要把原先队列删除 因为参数改变了
C2 消费者代码不变 ( 启动 C2 消费者)

 

总结

死信队列可能出现的三种情况为:

①消息被拒(消费者方拒绝签收该消息)

②消息设置的TTL过期(生产者方设置的过期时间)

③消息投放的队列内消息已经满了,放不进入时消息会进入死信队列

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