亲宝软件园·资讯

展开

RabbitMQ 延迟队列实现订单支付

星朝 人气:6

在第三方支付中,例如支付宝、或者微信,对于订单请求,第三方支付系统采用的是消息同步返回、异步通知+主动补偿查询的补偿机制。

由于互联网通信的不可靠性,例如双方网络、服务器、应用等因素的影响,不管是同步返回、异步通知、主动查询报文都可能出现超时无响应、报文丢失等情况,所以像支付业务,对结果的通知一般采用几种方案结合的补偿机制,不能完全依赖某一种机制。
例如一个支付结果的通知,一方面会在支付页面跳转时候返回支付结果(一般只用作前端展示使用,非最终状态),同时会采用后台异步通知机制(有前台、后台通知的,以后台异步通知结果为准),但由于前台跳转、后台结果通知都可能失效,因此还以定时补单+请求方主动查询接口作为辅助手段。

常见的补单操作,任务调度策略一般设定30秒、60秒、3分钟、6分钟、10分钟调度多次(以自己业务需要),如果调度接收到响应确认报文,补单成功,则中止对应订单的调度任务;如果超过补单上限次数,则停止补单,避免无谓的资源浪费。请求端随时可以发起请求报文查询对应订单的状态。在日常开发中,对于网站前端来说,支付计费中心对于订单请求信息的处理也是通过消息同步返回、异步通知+主动补偿查询相结合的机制,其中对于订单的异步通知,目前的通知策略为3s、30s、60s、120s、180、300s的阶梯性通知。返回成功情况下就不继续通知了,本来打算使用将失败的消息写到数据库等待发送,然后每秒查询数据库获取消息通知前端。但觉得这样的处理方式太粗暴。

存在以下缺点:

1 、每秒请求有点儿浪费资源;

2 、通知方式不稳定;

3 、无法承受大数据量等等

所以最终打算使用rabbitmq的消息延迟+死信队列来实现。消息模型如下:

producer发布消息,通过exchangeA的消息会被分发到QueueA,Consumer监听queueA,一旦有消息到来就被消费,这边的消费业务就是通知前端,如果通知失败,就创建一个延迟队列declareQueue,设置每个消息的ttl然后通过declare_exchange将消息分发到declare_queue,因为declare_queue没有consumer并且declare_queue中的消息设置了ttl,当ttl到期后,将通过DEX路由到queueA,被重新消费。代码如下:DeclareQueue.java

package org.delayQueue;
	
import com.rabbitmq.client.BuiltinExchangeType;
import com.rabbitmq.client.Channel;
import com.rabbitmq.client.Connection;
import com.rabbitmq.client.ConnectionFactory;
 
public class DeclareQueue {
	public static String EXCHANGE_NAME = "notifyExchange";
	public static void init() {
		ConnectionFactory factory = new ConnectionFactory();
		factory.setHost("localhost");
		factory.setPort(5672);
		Connection connection = null;
		try {
			connection = factory.newConnection();
			Channel channel = connection.createChannel();
			channel.exchangeDeclare(EXCHANGE_NAME, BuiltinExchangeType.TOPIC);
			String routingKey = "AliPaynotify";
			String message = "http://localhost:8080/BossCenter/payGateway/notifyRecv.jsp?is_success=T¬ify_id=4ab9bed148d043d0bf75460706f7774a¬ify_time=2014-08-29+16%3A22%3A02¬ify_type=trade_status_sync&out_trade_no=1421712120109862&total_fee=424.42&trade_no=14217121201098611&trade_status=TRADE_SUCCESS";
			channel.basicPublish(EXCHANGE_NAME, routingKey, null, message.getBytes());
			System.out.println(" [x] Sent :" + message);
		} catch (Exception e) {
			// TODO Auto-generated catch block
			e.printStackTrace();
		} finally {
			if (connection != null) {
				try {
					connection.close();
				} catch (Exception ignore) {
				}
			}
		}
	}
	public static void main(String args[]) {
		init();
}

DeclareConsumer.java

package org.delayQueue;
 
import java.io.BufferedReader;
import java.io.IOException;
import java.io.InputStreamReader;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.Map.Entry;
import org.apache.http.HttpResponse;
import org.apache.http.client.ClientProtocolException;
import org.apache.http.client.HttpClient;
import org.apache.http.client.methods.HttpPost;
import org.apache.http.impl.client.DefaultHttpClient;
import com.rabbitmq.client.AMQP;
import com.rabbitmq.client.Channel;
import com.rabbitmq.client.Connection;
import com.rabbitmq.client.ConnectionFactory;
import com.rabbitmq.client.Consumer;
import com.rabbitmq.client.DefaultConsumer;
import com.rabbitmq.client.Envelope;
public class DeclareConsumer {
	public static String EXCHANGE_NAME = "notifyExchange";
	public static String QU_declare_15S = "Qu_declare_15s";
	public static String EX_declare_15S = "EX_declare_15s";
	public static String ROUTINGKEY = "AliPaynotify";
	public static Connection connection = null;
	public static Channel channel = null;
	public static Channel DECLARE_15S_CHANNEL = null;
	public static String declare_queue = "init";
	public static String originalExpiration = "0";
	public static void init() throws Exception {
		ConnectionFactory factory = new ConnectionFactory();
		factory.setHost("localhost");
		factory.setPort(5672);
		connection = factory.newConnection();
		channel = connection.createChannel();
		DECLARE_15S_CHANNEL = connection.createChannel();
	}
	public static void consume() {
		try {
			channel.exchangeDeclare(EXCHANGE_NAME, "topic");
			final String queueName = channel.queueDeclare().getQueue();
			channel.queueBind(queueName, EXCHANGE_NAME, ROUTINGKEY);
			System.out.println(" [*] Waiting for messages. To exit press CTRL+C");
			final Consumer consumer = new DefaultConsumer(channel) {
				@Override
				public void handleDelivery(String consumerTag, Envelope envelope, AMQP.BasicProperties properties, byte[] body) throws IOException {
					String message = new String(body, "UTF-8");
					Map<String, Object> headers = properties.getHeaders();
					if (headers != null) {
						List<Map<String, Object>> xDeath = (List<Map<String, Object>>) headers.get("x-death");
						System.out.println("xDeath--- > " + xDeath);
						if (xDeath != null && !xDeath.isEmpty()) {
							Map<String, Object> entrys = xDeath.get(0);
							// for(Entry<String, Object>
							// entry:entrys.entrySet()){
							// System.out.println(entry.getKey()+":"+entry.getValue());
							// }
							originalExpiration = entrys.get("original-expiration").toString();
						}
					}
					System.out.println(" [x] Received '" + envelope.getRoutingKey() + "':'" + message + "'" + "time" + System.currentTimeMillis());
					HttpClient httpClient = new DefaultHttpClient();
					HttpPost post = new HttpPost(message);
					HttpResponse response = httpClient.execute(post);
					BufferedReader inreader = null;
					if (response.getStatusLine().getStatusCode() == 200) {
						inreader = new BufferedReader(new InputStreamReader(response.getEntity().getContent(), "UTF-8"));
						StringBuffer responseBody = new StringBuffer();
						String line = null;
						while ((line = inreader.readLine()) != null) {
							responseBody.append(line);
						if (!responseBody.equals("success")) {
							// putDeclre15s(message);
							if (originalExpiration.equals("0")) {
								putDeclreQueue(message, 3000, QU_declare_15S);
							}
							if (originalExpiration.equals("3000")) {
								putDeclreQueue(message, 30000, QU_declare_15S);
							if (originalExpiration.equals("30000")) {
								putDeclreQueue(message, 60000, QU_declare_15S);
							if (originalExpiration.equals("60000")) {
								putDeclreQueue(message, 120000, QU_declare_15S);
							if (originalExpiration.equals("120000")) {
								putDeclreQueue(message, 180000, QU_declare_15S);
							if (originalExpiration.equals("180000")) {
								putDeclreQueue(message, 300000, QU_declare_15S);
							if (originalExpiration.equals("300000")) {
//								channel.basicConsume(QU_declare_300S,true, this);
								System.out.println("finish notify");
					} else {
						System.out.println(response.getStatusLine().getStatusCode());
				}
			};
			channel.basicConsume(queueName, true, consumer);
		} catch (Exception e) {
			e.printStackTrace();
		} finally {
		}
	static Map<String, Object> xdeathMap = new HashMap<String, Object>();
	static List<Map<String, Object>> xDeath = new ArrayList<Map<String, Object>>();
	static Map<String, Object> xdeathParam = new HashMap<String, Object>();
	public static void putDeclre15s(String message) throws IOException {
		channel.exchangeDeclare(EX_declare_15S, "topic");
		Map<String, Object> args = new HashMap<String, Object>();
		args.put("x-dead-letter-exchange", EXCHANGE_NAME);// 死信exchange
		AMQP.BasicProperties.Builder builder = new AMQP.BasicProperties.Builder();
		builder.expiration("3000").deliveryMode(2);// 设置消息TTL
		AMQP.BasicProperties properties = builder.build();
		channel.queueDeclare(QU_declare_15S, false, false, false, args);
		channel.queueBind(QU_declare_15S, EX_declare_15S, ROUTINGKEY);
		channel.basicPublish(EX_declare_15S, ROUTINGKEY, properties, message.getBytes());
		System.out.println("send message in QA_DEFERRED_15S" + message + "time" + System.currentTimeMillis());
	public static void putDeclreQueue(String message, int mis, String queue) throws IOException {
		builder.expiration(String.valueOf(mis)).deliveryMode(2);// 设置消息TTL
		channel.queueDeclare(queue, false, false, false, args);
		channel.queueBind(queue, EX_declare_15S, ROUTINGKEY);
		System.out.println("send message in " + queue + message + "time============" + System.currentTimeMillis());
	public static void main(String args[]) throws Exception {
		init();
		consume();
}

消息通过dlx转发的情况下,header头部会带有x-death的一个数组,里面包含消息的各项属性,比如说消息成为死信的原因reason,original-expiration这个字段表示消息在原来队列中的过期时间,根据这个值来确定下一次通知的延迟时间应该是多少秒。运行结果如下:

加载全部内容

相关教程
猜你喜欢
用户评论