一、死信队列
描述:Q1队列绑定了x-dead-letter-exchange(死信交换机)为X2,x-dead-letter-routing-key(死信路由key)指向Q2(队列2)
P(生产者)发送消息经X1(交换机1)路由到Q1(队列1),Q1的消息触发特定情况,自动把消息经X2(交换机2)路由到Q2(队列2),C(消费者)直接消息Q2的消息。
特定情况有哪些呢:
- 消息被拒(basic.reject or basic.nack)并且没有重新入队(requeue=false);
- 当前队列中的消息数量已经超过最大长度(创建队列时指定" x-max-length参数设置队列最大消息数量)。
- 消息在队列中过期,即当前消息在队列中的存活时间已经超过了预先设置的TTL(Time To Live)时间;
这里演示情况1:
假如场景:Q1中队列数据不完整,就算从新处理也会报错,那就可以不ack,把这个消息转到死信队列另外处理。
生产者:
public static void SendMessage() { //死信交换机 string dlxexChange = "dlx.exchange"; //死信队列 string dlxQueueName = "dlx.queue"; //消息交换机 string exchange = "direct-exchange"; //消息队列 string queueName = "queue_a"; using (var connection = RabbitMQHelper.GetConnection()) { using (var channel = connection.CreateModel()) { //创建死信交换机 channel.ExchangeDeclare(dlxexChange, type: ExchangeType.Direct, durable: true, autoDelete: false); //创建死信队列 channel.QueueDeclare(dlxQueueName, durable: true, exclusive: false, autoDelete: false); //死信队列绑定死信交换机 channel.QueueBind(dlxQueueName, dlxexChange, routingKey: dlxQueueName); // 创建消息交换机 channel.ExchangeDeclare(exchange, type: ExchangeType.Direct, durable: true, autoDelete: false); //创建消息队列,并指定死信队列 channel.QueueDeclare(queueName, durable: true, exclusive: false, autoDelete: false, arguments: new Dictionary<string, object> { { "x-dead-letter-exchange",dlxexChange}, //设置当前队列的DLX(死信交换机) { "x-dead-letter-routing-key",dlxQueueName}, //设置DLX的路由key,DLX会根据该值去找到死信消息存放的队列 }); //消息队列绑定消息交换机 channel.QueueBind(queueName, exchange, routingKey: queueName); string message = "hello rabbitmq message"; var properties = channel.CreateBasicProperties(); properties.Persistent = true; //发布消息 channel.BasicPublish(exchange: exchange, routingKey: queueName, basicProperties: properties, body: Encoding.UTF8.GetBytes(message)); Console.WriteLine($"向队列:{queueName}发送消息:{message}"); } } }
消费者:
public static void Consumer() { //死信交换机 string dlxexChange = "dlx.exchange"; //死信队列 string dlxQueueName = "dlx.queue"; //消息交换机 string exchange = "direct-exchange"; //消息队列 string queueName = "queue_a"; var connection = RabbitMQHelper.GetConnection(); { //创建信道 var channel = connection.CreateModel(); { //创建死信交换机 channel.ExchangeDeclare(dlxexChange, type: ExchangeType.Direct, durable: true, autoDelete: false); //创建死信队列 channel.QueueDeclare(dlxQueueName, durable: true, exclusive: false, autoDelete: false); //死信队列绑定死信交换机 channel.QueueBind(dlxQueueName, dlxexChange, routingKey: dlxQueueName); // 创建消息交换机 channel.ExchangeDeclare(exchange, type: ExchangeType.Direct, durable: true, autoDelete: false); //创建消息队列,并指定死信队列 channel.QueueDeclare(queueName, durable: true, exclusive: false, autoDelete: false, arguments: new Dictionary<string, object> { { "x-dead-letter-exchange",dlxexChange}, //设置当前队列的DLX { "x-dead-letter-routing-key",dlxQueueName}, //设置DLX的路由key,DLX会根据该值去找到死信消息存放的队列 }); //消息队列绑定消息交换机 channel.QueueBind(queueName, exchange, routingKey: queueName); var consumer = new EventingBasicConsumer(channel); channel.BasicQos(prefetchSize: 0, prefetchCount: 1, global: true); consumer.Received += (model, ea) => { //处理业务 var message = Encoding.UTF8.GetString(ea.Body.ToArray()); Console.WriteLine($"队列{queueName}消费消息:{message},不做ack确认"); //channel.BasicAck(ea.DeliveryTag, false); //不ack(BasicNack),且不把消息放回队列(requeue:false) channel.BasicNack(ea.DeliveryTag, false, requeue: false); }; channel.BasicConsume(queueName, autoAck: false, consumer); } } }
消费者加上channel.BasickNack()模拟消息处理不了,不ack确认。
执行结果:
RabbitMQ管理界面:
看到消息队列为queue_a,特性有DLX(死信交换机),DLK(死信路由)。因为消费端不nack,触发了死信,被转发到了死信队列dlx.queue。
二、延时队列
延时队列其实也是配合死信队列一起用,其实就是上面死信队列的第二中情况。给队列添加消息过时时间(TTL),变成延时队列。
简单的描述就是:P(生产者)发送消息到Q1(延时队列),Q1的消息有过期时间,比如10s,那10s后消息过期就会触发死信,从而把消息转发到Q2(死信队列)。
解决问题场景:像商城下单,未支付时取消订单场景。下单时写一条记录入Q1,延时30分钟后转到Q2,消费Q2,检查订单,支付则不做操作,没支付则取消订单,恢复库存。
生产者代码:
public static void SendMessage() { //死信交换机 string dlxexChange = "dlx.exchange"; //死信队列 string dlxQueueName = "dlx.queue"; //消息交换机 string exchange = "direct-exchange"; //消息队列 string queueName = "delay_queue"; using (var connection = RabbitMQHelper.GetConnection()) { using (var channel = connection.CreateModel()) { //创建死信交换机 channel.ExchangeDeclare(dlxexChange, type: ExchangeType.Direct, durable: true, autoDelete: false); //创建死信队列 channel.QueueDeclare(dlxQueueName, durable: true, exclusive: false, autoDelete: false); //死信队列绑定死信交换机 channel.QueueBind(dlxQueueName, dlxexChange, routingKey: dlxQueueName); // 创建消息交换机 channel.ExchangeDeclare(exchange, type: ExchangeType.Direct, durable: true, autoDelete: false); //创建消息队列,并指定死信队列,和设置这个队列的消息过期时间为10s channel.QueueDeclare(queueName, durable: true, exclusive: false, autoDelete: false, arguments: new Dictionary<string, object> { { "x-dead-letter-exchange",dlxexChange}, //设置当前队列的DLX(死信交换机) { "x-dead-letter-routing-key",dlxQueueName}, //设置DLX的路由key,DLX会根据该值去找到死信消息存放的队列 { "x-message-ttl",10000} //设置队列的消息过期时间 }); //消息队列绑定消息交换机 channel.QueueBind(queueName, exchange, routingKey: queueName); string message = "hello rabbitmq message"; var properties = channel.CreateBasicProperties(); properties.Persistent = true; //发布消息 channel.BasicPublish(exchange: exchange, routingKey: queueName, basicProperties: properties, body: Encoding.UTF8.GetBytes(message)); Console.WriteLine($"{DateTime.Now},向队列:{queueName}发送消息:{message}"); } } }
消费者代码:
public static void Consumer() { //死信交换机 string dlxexChange = "dlx.exchange"; //死信队列 string dlxQueueName = "dlx.queue"; var connection = RabbitMQHelper.GetConnection(); { //创建信道 var channel = connection.CreateModel(); { //创建死信交换机 channel.ExchangeDeclare(dlxexChange, type: ExchangeType.Direct, durable: true, autoDelete: false); //创建死信队列 channel.QueueDeclare(dlxQueueName, durable: true, exclusive: false, autoDelete: false); //死信队列绑定死信交换机 channel.QueueBind(dlxQueueName, dlxexChange, routingKey: dlxQueueName); var consumer = new EventingBasicConsumer(channel); channel.BasicQos(prefetchSize: 0, prefetchCount: 1, global: true); consumer.Received += (model, ea) => { //处理业务 var message = Encoding.UTF8.GetString(ea.Body.ToArray()); Console.WriteLine($"{DateTime.Now},队列{dlxQueueName}消费消息:{message}"); channel.BasicAck(ea.DeliveryTag, false); }; channel.BasicConsume(dlxQueueName, autoAck: false, consumer); } } }
执行代码:
向延时队列发送消息,监听死信队列,发送和收到消息时间刚好是设置的10s。
RabbitMQ管理界面:
三、延时消息设置不同过期时间
上面的延时队列能解决消息过期时间都是相同的场景,能不能解决消息的过期时间是不一样的呢?
例如场景:机器人客服,为了更像人为操作,收到消息后要随机3-10秒回复客户。
1)队列不设置TTL(消息过期时间),把过期时间设置在消息上。
生产者代码:
public static void SendMessage() { //死信交换机 string dlxexChange = "dlx.exchange"; //死信队列 string dlxQueueName = "dlx.queue"; //消息交换机 string exchange = "direct-exchange"; //消息队列 string queueName = "delay_queue"; using (var connection = RabbitMQHelper.GetConnection()) { using (var channel = connection.CreateModel()) { //创建死信交换机 channel.ExchangeDeclare(dlxexChange, type: ExchangeType.Direct, durable: true, autoDelete: false); //创建死信队列 channel.QueueDeclare(dlxQueueName, durable: true, exclusive: false, autoDelete: false); //死信队列绑定死信交换机 channel.QueueBind(dlxQueueName, dlxexChange, routingKey: dlxQueueName); // 创建消息交换机 channel.ExchangeDeclare(exchange, type: ExchangeType.Direct, durable: true, autoDelete: false); //创建消息队列,并指定死信队列,和设置这个队列的消息过期时间为10s channel.QueueDeclare(queueName, durable: true, exclusive: false, autoDelete: false, arguments: new Dictionary<string, object> { { "x-dead-letter-exchange",dlxexChange}, //设置当前队列的DLX(死信交换机) { "x-dead-letter-routing-key",dlxQueueName}, //设置DLX的路由key,DLX会根据该值去找到死信消息存放的队列 //{ "x-message-ttl",10000} //设置队列的消息过期时间 }); //消息队列绑定消息交换机 channel.QueueBind(queueName, exchange, routingKey: queueName); string message = "hello rabbitmq message 10s后处理"; var properties = channel.CreateBasicProperties(); properties.Persistent = true; properties.Expiration = "10000";//消息的有效期10s //发布消息,延时10s channel.BasicPublish(exchange: exchange, routingKey: queueName, basicProperties: properties, body: Encoding.UTF8.GetBytes(message)); Console.WriteLine($"{DateTime.Now},向队列:{queueName}发送消息:{message},延时:10s"); string message2 = "hello rabbitmq message 5s后处理"; var properties2 = channel.CreateBasicProperties(); properties2.Persistent = true; properties2.Expiration = "5000";//消息有效期5s //发布消息,延时5s channel.BasicPublish(exchange: exchange, routingKey: queueName, basicProperties: properties2, body: Encoding.UTF8.GetBytes(message2)); Console.WriteLine($"{DateTime.Now},向队列:{queueName}发送消息:{message2},延时:5s"); } } }
消费者代码还是上面延时队列的不变,先试下效果。
生产者向队列中发送一条延时10s的消息再发一条延时5秒的消息,但消费者却先拿到延时10s的,再拿到延时5秒的,我想要的结果是先拿到延时5s的再拿到延时10s的,是什么原因呢。
原因是:队列是先进先出的,而RabbitMQ只会对首位第一条消息做检测,第一条没过期,那么后面的消息就会阻塞住等待前面的过期。
解决办法:增加一个消费者对延时队列消费,不ack,把第一条消息放到队列尾部。一直让消息在流动,这样就能检测到了。
2)新增消费者代码:
public static void DelayConsumer() { //延时队列 string queueName = "delay_queue"; var connection = RabbitMQHelper.GetConnection(); { //创建信道 var channel = connection.CreateModel(); { var consumer = new EventingBasicConsumer(channel); channel.BasicQos(prefetchSize: 0, prefetchCount: 1, global: true); consumer.Received += (model, ea) => { //处理业务 var message = Encoding.UTF8.GetString(ea.Body.ToArray()); Thread.Sleep(20);//消息少的时候可以加个睡眠时间减少IO channel.BasicNack(ea.DeliveryTag, false, requeue: true); }; channel.BasicConsume(queueName, autoAck: false, consumer); } } }
执行效果:
这会得到了想要的效果。
RabbitMQ管理界面:
四、延时消息用延时插件的方式实现
相比上面第三的延时消息,这里的插件方式会显的更加简单,也推荐用这种。
因为这里只需要一个交换机和一个对队列,生产者向队列发送消息,会直接是延时才会到队列。
安装插件:
地址:https://www.rabbitmq.com/community-plugins.html
找到和自己RabbitMQ一样的版本,下载下来上传到Linux,或F12查看这个文件的地址,直接Linux上下载(这里用这种)
Linux下载插件:
#下载插件 wget https://github.com/rabbitmq/rabbitmq-delayed-message-exchange/releases/download/3.9.0/rabbitmq_delayed_message_exchange-3.9.0.ez
已经下载到Linux上
#把文件复制到rabbitmq docker容器下的plugins文件夹 docker cp rabbitmq_delayed_message_exchange-3.9.0.ez rabbitmq:/plugins
#进入rabbitmq docker容器 docker exec -it rabbitmq bash
#开启插件: rabbitmq-plugins enable rabbitmq_delayed_message_exchange
做完上面这些在RabbitMQ管理界面可以看到多了一个延时消息的交换机。
插件装好了,生产者代码:
public static void SendMessage() { //延时消息交换机 string delayExchange = "delay.exchange"; //延时消息队列 string delayQueueName = "delay_queue"; using (var connection = RabbitMQHelper.GetConnection()) { using (var channel = connection.CreateModel()) { Dictionary<string, object> args = new Dictionary<string, object>(); args.Add("x-delayed-type", "direct"); //x-delayed-type必须加 //创建延时交换机,type类型为x-delayed-message channel.ExchangeDeclare(delayExchange, type: "x-delayed-message", durable: true, autoDelete: false,arguments: args); //创建延时消息队列 channel.QueueDeclare(delayQueueName, durable: true, exclusive: false, autoDelete: false); //交换机绑定队列 channel.QueueBind(delayQueueName, delayExchange, routingKey: delayQueueName); string message = "hello rabbitmq message 10s后处理"; var properties = channel.CreateBasicProperties(); properties.Persistent = true; //延时时间从header赋值 Dictionary<string, object> headers = new Dictionary<string, object>(); headers.Add("x-delay", 10000); properties.Headers = headers; //发布消息,按时10s channel.BasicPublish(exchange: delayExchange, routingKey: delayQueueName, basicProperties: properties, body: Encoding.UTF8.GetBytes(message)); Console.WriteLine($"{DateTime.Now},向队列:{delayQueueName}发送消息:{message},延时:10s"); string message2 = "hello rabbitmq message 5s后处理"; var properties2 = channel.CreateBasicProperties(); properties2.Persistent = true; //延时时间从header赋值 Dictionary<string, object> headers2 = new Dictionary<string, object>(); headers2.Add("x-delay", 5000); properties2.Headers = headers2; //发布消息,延时5s channel.BasicPublish(exchange: delayExchange, routingKey: delayQueueName, basicProperties: properties2, body: Encoding.UTF8.GetBytes(message2)); Console.WriteLine($"{DateTime.Now},向队列:{delayQueueName}发送消息:{message2},延时:5s"); } } }
消费者代码:
public static void DelayMessageConsumer() { //延时队列 string queueName = "delay_queue"; var connection = RabbitMQHelper.GetConnection(); { //创建信道 var channel = connection.CreateModel(); { var consumer = new EventingBasicConsumer(channel); channel.BasicQos(prefetchSize: 0, prefetchCount: 1, global: true); consumer.Received += (model, ea) => { //处理业务 var message = Encoding.UTF8.GetString(ea.Body.ToArray()); Console.WriteLine($"{DateTime.Now},接收到消息:{message}"); channel.BasicAck(ea.DeliveryTag, false); }; channel.BasicConsume(queueName, autoAck: false, consumer); } } }
执行代码:
RabbitMQ管理界面,只有一个队列:
原文链接 https://www.cnblogs.com/wei325/p/15204179.html