wlliqipeng commented on a change in pull request #655: [RIP-9] Add the simple
example description
URL: https://github.com/apache/rocketmq/pull/655#discussion_r248921464
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File path: docs/cn/RocketMQ_Example.md
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@@ -0,0 +1,957 @@
+样例(sample)
+============
+
+基本样例
+--------
+
+在基本样例中我们提供如下的功能场景:
+
+* 使用RocketMQ发送三种类型的消息:同步消息,异步消息和单向消息。其中前两种消息是可靠的,因为会有发送是否成功的应答。
+* 使用RocketMQ来消费接收到的消息。
+
+### 1、加入依赖:
+
+`maven:`
+```
+<dependency>
+ <groupId>org.apache.rocketmq</groupId>
+ <artifactId>rocketmq-client</artifactId>
+ <version>4.3.0</version>
+</dependency>
+```
+`gradle`
+```
+compile 'org.apache.rocketmq:rocketmq-client:4.3.0'
+```
+### 2、消息发送
+
+#### 1. Producer端发送同步消息
+
+这种可靠性同步地发送方式使用的比较广泛,比如:重要的消息通知,短信通知。
+```java
+public class SyncProducer {
+ public static void main(String[] args) throws Exception {
+ // 实例化消息生产者Producer
+ DefaultMQProducer producer = new
DefaultMQProducer("please_rename_unique_group_name");
+ // 设置NameServer的地址
+ producer.setNamesrvAddr("localhost:9876");
+ // 启动Producer实例
+ producer.start();
+ for (int i = 0; i < 100; i++) {
+ // 创建消息,并指定Topic,Tag和消息体
+ Message msg = new Message("TopicTest" /* Topic */,
+ "TagA" /* Tag */,
+ ("Hello RocketMQ " +
i).getBytes(RemotingHelper.DEFAULT_CHARSET) /* Message body */
+ );
+ // 发送消息到一个Broker
+ SendResult sendResult = producer.send(msg);
+ // 通过sendResult返回消息是否成功送达
+ System.out.printf("%s%n", sendResult);
+ }
+ // 如果不再发送消息,关闭Producer实例。
+ producer.shutdown();
+ }
+}
+```
+#### 2. 发送异步消息
+
+异步消息通常用在对响应时间敏感的业务场景,即发送端不能容忍长时间地等待Broker的响应。
+
+```java
+public class AsyncProducer {
+ public static void main(String[] args) throws Exception {
+ // 实例化消息生产者Producer
+ DefaultMQProducer producer = new
DefaultMQProducer("please_rename_unique_group_name");
+ // 设置NameServer的地址
+ producer.setNamesrvAddr("localhost:9876");
+ // 启动Producer实例
+ producer.start();
+ producer.setRetryTimesWhenSendAsyncFailed(0);
+ for (int i = 0; i < 100; i++) {
+ final int index = i;
+ // 创建消息,并指定Topic,Tag和消息体
+ Message msg = new Message("TopicTest",
+ "TagA",
+ "OrderID188",
+ "Hello world".getBytes(RemotingHelper.DEFAULT_CHARSET));
+ // SendCallback接收异步返回结果的回调
+ producer.send(msg, new SendCallback() {
+ @Override
+ public void onSuccess(SendResult sendResult) {
+ System.out.printf("%-10d OK %s %n", index,
+ sendResult.getMsgId());
+ }
+ @Override
+ public void onException(Throwable e) {
+ System.out.printf("%-10d Exception %s %n", index, e);
+ e.printStackTrace();
+ }
+ });
+ }
+ // 如果不再发送消息,关闭Producer实例。
+ producer.shutdown();
+ }
+}
+```
+
+#### 3. 单向发送消息
+
+这种方式主要用在不特别关心发送结果的场景,例如日志发送。
+
+```java
+
+public class OnewayProducer {
+ public static void main(String[] args) throws Exception{
+ // 实例化消息生产者Producer
+ DefaultMQProducer producer = new
DefaultMQProducer("please_rename_unique_group_name");
+ // 设置NameServer的地址
+ producer.setNamesrvAddr("localhost:9876");
+ // 启动Producer实例
+ producer.start();
+ for (int i = 0; i < 100; i++) {
+ // 创建消息,并指定Topic,Tag和消息体
+ Message msg = new Message("TopicTest" /* Topic */,
+ "TagA" /* Tag */,
+ ("Hello RocketMQ " +
i).getBytes(RemotingHelper.DEFAULT_CHARSET) /* Message body */
+ );
+ // 发送单向消息,没有任何返回结果
+ producer.sendOneway(msg);
+
+ }
+ // 如果不再发送消息,关闭Producer实例。
+ producer.shutdown();
+ }
+```
+
+### 3、消费消息
+
+```java
+
+public class Consumer {
+
+ public static void main(String[] args) throws InterruptedException,
MQClientException {
+
+ // 实例化消费者
+ DefaultMQPushConsumer consumer = new
DefaultMQPushConsumer("please_rename_unique_group_name");
+
+ // 设置NameServer的地址
+ consumer.setNamesrvAddr("localhost:9876");
+
+ // 订阅一个或者多个Topic,以及Tag来过滤需要消费的消息
+ consumer.subscribe("TopicTest", "*");
+ // 注册回调实现类来处理从broker拉取回来的消息
+ consumer.registerMessageListener(new MessageListenerConcurrently() {
+
+ @Override
+ public ConsumeConcurrentlyStatus
consumeMessage(List<MessageExt> msgs, ConsumeConcurrentlyContext context) {
+ System.out.printf("%s Receive New Messages: %s %n",
Thread.currentThread().getName(), msgs);
+ // 标记该消息已经被成功消费
+ return ConsumeConcurrentlyStatus.CONSUME_SUCCESS;
+ }
+ });
+
+ // 启动消费者实例
+ consumer.start();
+
+ System.out.printf("Consumer Started.%n");
+ }
+}
+
+```
+
+
+顺序消息样例
+----------
+
+消息有序指的是可以按照消息的发送顺序来消费(FIFO)。RocketMQ可以严格的保证消息有序,可以分为分区有序或者全局有序。
+
+顺序消费的原理解析,在默认的情况下消息发送会采取Round
Robin轮询方式把消息发送到不同的queue(分区队列);而消费消息的时候从多个queue上拉取消息,这种情况发送和消费是不能保证顺序。但是如果控制发送的顺序消息只依次发送到同一个queue中,消费的时候只从这个queue上依次拉取,则就保证了顺序。当发送和消费参与的queue只有一个,则是全局有序;如果多个queue参与,则为分区有序,即相对每个queue,消息都是有序的。
+
+下面用订单进行示例。一个订单的顺序流程是:创建、付款、推送、完成。订单号相同的消息会被先后发送到同一个队列中,消费时,同一个OrderId获取到的肯定是同一个队列。
+
+### 1、顺序消息生产
+
+```java
+
+package org.apache.rocketmq.example.order2;
+
+import org.apache.rocketmq.client.producer.DefaultMQProducer;
+import org.apache.rocketmq.client.producer.MessageQueueSelector;
+import org.apache.rocketmq.client.producer.SendResult;
+import org.apache.rocketmq.common.message.Message;
+import org.apache.rocketmq.common.message.MessageQueue;
+
+import java.text.SimpleDateFormat;
+import java.util.ArrayList;
+import java.util.Date;
+import java.util.List;
+
+/**
+* Producer,发送顺序消息
+*/
+public class Producer {
+
+ public static void main(String[] args) throws Exception {
+ DefaultMQProducer producer = new
DefaultMQProducer("please_rename_unique_group_name");
+
+ producer.setNamesrvAddr("127.0.0.1:9876");
+
+ producer.start();
+
+ String[] tags = new String[]{"TagA", "TagC", "TagD"};
+
+ // 订单列表
+ List<OrderStep> orderList = new Producer().buildOrders();
+
+ Date date = new Date();
+ SimpleDateFormat sdf = new SimpleDateFormat("yyyy-MM-dd HH:mm:ss");
+ String dateStr = sdf.format(date);
+ for (int i = 0; i < 10; i++) {
+ // 加个时间前缀
+ String body = dateStr + " Hello RocketMQ " + orderList.get(i);
+ Message msg = new Message("TopicTest", tags[i % tags.length], "KEY"
+ i, body.getBytes());
+
+ SendResult sendResult = producer.send(msg, new
MessageQueueSelector() {
+ @Override
+ public MessageQueue select(List<MessageQueue> mqs, Message msg,
Object arg) {
+ Long id = (Long) arg; //根据订单id选择发送queue
+ long index = id % mqs.size();
+ return mqs.get((int) index);
+ }
+ }, orderList.get(i).getOrderId());//订单id
+
+ System.out.println(String.format("SendResult status:%s, queueId:%d,
body:%s",
+ sendResult.getSendStatus(),
+ sendResult.getMessageQueue().getQueueId(),
+ body));
+ }
+
+ producer.shutdown();
+ }
+
+ /**
+ * 订单的步骤
+ */
+ private static class OrderStep {
+ private long orderId;
+ private String desc;
+
+ public long getOrderId() {
+ return orderId;
+ }
+
+ public void setOrderId(long orderId) {
+ this.orderId = orderId;
+ }
+
+ public String getDesc() {
+ return desc;
+ }
+
+ public void setDesc(String desc) {
+ this.desc = desc;
+ }
+
+ @Override
+ public String toString() {
+ return "OrderStep{" +
+ "orderId=" + orderId +
+ ", desc='" + desc + '\'' +
+ '}';
+ }
+ }
+
+ /**
+ * 生成模拟订单数据
+ */
+ private List<OrderStep> buildOrders() {
+ List<OrderStep> orderList = new ArrayList<OrderStep>();
+
+ OrderStep orderDemo = new OrderStep();
+ orderDemo.setOrderId(15103111039L);
+ orderDemo.setDesc("创建");
+ orderList.add(orderDemo);
+
+ orderDemo = new OrderStep();
+ orderDemo.setOrderId(15103111065L);
+ orderDemo.setDesc("创建");
+ orderList.add(orderDemo);
+
+ orderDemo = new OrderStep();
+ orderDemo.setOrderId(15103111039L);
+ orderDemo.setDesc("付款");
+ orderList.add(orderDemo);
+
+ orderDemo = new OrderStep();
+ orderDemo.setOrderId(15103117235L);
+ orderDemo.setDesc("创建");
+ orderList.add(orderDemo);
+
+ orderDemo = new OrderStep();
+ orderDemo.setOrderId(15103111065L);
+ orderDemo.setDesc("付款");
+ orderList.add(orderDemo);
+
+ orderDemo = new OrderStep();
+ orderDemo.setOrderId(15103117235L);
+ orderDemo.setDesc("付款");
+ orderList.add(orderDemo);
+
+ orderDemo = new OrderStep();
+ orderDemo.setOrderId(15103111065L);
+ orderDemo.setDesc("完成");
+ orderList.add(orderDemo);
+
+ orderDemo = new OrderStep();
+ orderDemo.setOrderId(15103111039L);
+ orderDemo.setDesc("推送");
+ orderList.add(orderDemo);
+
+ orderDemo = new OrderStep();
+ orderDemo.setOrderId(15103117235L);
+ orderDemo.setDesc("完成");
+ orderList.add(orderDemo);
+
+ orderDemo = new OrderStep();
+ orderDemo.setOrderId(15103111039L);
+ orderDemo.setDesc("完成");
+ orderList.add(orderDemo);
+
+ return orderList;
+ }
+}
+
+```
+
+### 2、顺序消费消息
+
+```java
+
+import org.apache.rocketmq.client.consumer.DefaultMQPushConsumer;
+import org.apache.rocketmq.client.consumer.listener.ConsumeConcurrentlyContext;
+import org.apache.rocketmq.client.consumer.listener.ConsumeConcurrentlyStatus;
+import
org.apache.rocketmq.client.consumer.listener.MessageListenerConcurrently;
+import org.apache.rocketmq.common.message.MessageExt;
+import java.util.List;
+
+package org.apache.rocketmq.example.order2;
+
+import org.apache.rocketmq.client.consumer.DefaultMQPushConsumer;
+import org.apache.rocketmq.client.consumer.listener.ConsumeOrderlyContext;
+import org.apache.rocketmq.client.consumer.listener.ConsumeOrderlyStatus;
+import org.apache.rocketmq.client.consumer.listener.MessageListenerOrderly;
+import org.apache.rocketmq.common.consumer.ConsumeFromWhere;
+import org.apache.rocketmq.common.message.MessageExt;
+
+import java.util.List;
+import java.util.Random;
+import java.util.concurrent.TimeUnit;
+
+/**
+* 顺序消息消费,带事务方式(应用可控制Offset什么时候提交)
+*/
+public class ConsumerInOrder {
+
+ public static void main(String[] args) throws Exception {
+ DefaultMQPushConsumer consumer = new
DefaultMQPushConsumer("please_rename_unique_group_name_3");
+ consumer.setNamesrvAddr("127.0.0.1:9876");
+ /**
+ * 设置Consumer第一次启动是从队列头部开始消费还是队列尾部开始消费<br>
+ * 如果非第一次启动,那么按照上次消费的位置继续消费
+ */
+
consumer.setConsumeFromWhere(ConsumeFromWhere.CONSUME_FROM_FIRST_OFFSET);
+
+ consumer.subscribe("TopicTest", "TagA || TagC || TagD");
+
+ consumer.registerMessageListener(new MessageListenerOrderly() {
+
+ Random random = new Random();
+
+ @Override
+ public ConsumeOrderlyStatus consumeMessage(List<MessageExt> msgs,
ConsumeOrderlyContext context) {
+ context.setAutoCommit(true);
+ for (MessageExt msg : msgs) {
+ // 可以看到每个queue有唯一的consume线程来消费, 订单对每个queue(分区)有序
+ System.out.println("consumeThread=" +
Thread.currentThread().getName() + "queueId=" + msg.getQueueId() + ", content:"
+ new String(msg.getBody()));
+ }
+
+ try {
+ //模拟业务逻辑处理中...
+ TimeUnit.SECONDS.sleep(random.nextInt(10));
+ } catch (Exception e) {
+ e.printStackTrace();
+ }
+ return ConsumeOrderlyStatus.SUCCESS;
+ }
+ });
+
+ consumer.start();
+
+ System.out.println("Consumer Started.");
+ }
+}
+
+```
+
+延时消息样例
+----------
+
+### 1、启动消费者等待传入订阅消息
+
+```java
+
+import org.apache.rocketmq.client.consumer.DefaultMQPushConsumer;
+import org.apache.rocketmq.client.consumer.listener.ConsumeConcurrentlyContext;
+import org.apache.rocketmq.client.consumer.listener.ConsumeConcurrentlyStatus;
+import
org.apache.rocketmq.client.consumer.listener.MessageListenerConcurrently;
+import org.apache.rocketmq.common.message.MessageExt;
+import java.util.List;
+
+public class ScheduledMessageConsumer {
+ public static void main(String[] args) throws Exception {
+ // 实例化消费者
+ DefaultMQPushConsumer consumer = new
DefaultMQPushConsumer("ExampleConsumer");
+ // 订阅Topics
+ consumer.subscribe("TestTopic", "*");
+ // 注册消息监听者
+ consumer.registerMessageListener(new MessageListenerConcurrently() {
+ @Override
+ public ConsumeConcurrentlyStatus consumeMessage(List<MessageExt>
messages, ConsumeConcurrentlyContext context) {
+ for (MessageExt message : messages) {
+ // Print approximate delay time period
+ System.out.println("Receive message[msgId=" +
message.getMsgId() + "] " + (System.currentTimeMillis() -
message.getStoreTimestamp()) + "ms later");
+ }
+ return ConsumeConcurrentlyStatus.CONSUME_SUCCESS;
+ }
+ });
+ // 启动消费者
+ consumer.start();
+ }
+}
+
+```
+
+### 2、发送延时消息
+
+```java
+
+import org.apache.rocketmq.client.producer.DefaultMQProducer;
+import org.apache.rocketmq.common.message.Message;
+
+public class ScheduledMessageProducer {
+ public static void main(String[] args) throws Exception {
+ // 实例化一个生产者来产生延时消息
+ DefaultMQProducer producer = new
DefaultMQProducer("ExampleProducerGroup");
+ // 启动生产者
+ producer.start();
+ int totalMessagesToSend = 100;
+ for (int i = 0; i < totalMessagesToSend; i++) {
+ Message message = new Message("TestTopic", ("Hello scheduled message
" + i).getBytes());
+ // 设置延时等级3,这个消息将在10s之后发送(现在只支持固定的几个时间,详看delayTimeLevel)
+ message.setDelayTimeLevel(3);
+ // 发送消息
+ producer.send(message);
+ }
+ // 关闭生产者
+ producer.shutdown();
+ }
+}
+```
+
+### 3、验证
+
+您将会看到消息的消费比存储时间晚10秒。
+
+批量消息样例
+----------
+
+批量发送消息能显著提高传递小消息的性能。限制是这些批量消息应该有相同的topic,相同的waitStoreMsgOK,而且不能是延时消息。此外,这一批消息的总大小不应超过4MB。
+
+### 1、发送批量消息
+
+如果您每次只发送不超过4MB的消息,则很容易使用批处理,样例如下:
+
+```java
+String topic = "BatchTest";
+List<Message> messages = new ArrayList<>();
+messages.add(new Message(topic, "TagA", "OrderID001", "Hello world
0".getBytes()));
+messages.add(new Message(topic, "TagA", "OrderID002", "Hello world
1".getBytes()));
+messages.add(new Message(topic, "TagA", "OrderID003", "Hello world
2".getBytes()));
+try {
+ producer.send(messages);
+} catch (Exception e) {
+ e.printStackTrace();
+ //处理error
+}
+
+```
+
+### 2、消息列表分割
+
+复杂度只有当你发送大批量时才会增长,你可能不确定它是否超过了大小限制(4MB)。这时候你最好把你的消息列表分割一下:
+
+```java
+
+public class ListSplitter implements Iterator<List<Message>> {
+ private final int SIZE_LIMIT = 1024 * 1024 * 4;
+ private final List<Message> messages;
+ private int currIndex;
+ public ListSplitter(List<Message> messages) {
+ this.messages = messages;
+ }
+ @Override public boolean hasNext() {
+ return currIndex < messages.size();
+ }
+ @Override public List<Message> next() {
+ int nextIndex = currIndex;
+ int totalSize = 0;
+ for (; nextIndex < messages.size(); nextIndex++) {
+ Message message = messages.get(nextIndex);
+ int tmpSize = message.getTopic().length() +
message.getBody().length;
+ Map<String, String> properties = message.getProperties();
+ for (Map.Entry<String, String> entry : properties.entrySet()) {
+ tmpSize += entry.getKey().length() + entry.getValue().length();
+ }
+ tmpSize = tmpSize + 20; // 增加日志的开销20字节
+ if (tmpSize > SIZE_LIMIT) {
+ //单个消息超过了最大的限制
+ //忽略,否则会阻塞分裂的进程
+ if (nextIndex - currIndex == 0) {
+ //假如下一个子列表没有元素,则添加这个子列表然后退出循环,否则只是退出循环
+ nextIndex++;
+ }
+ break;
+ }
+ if (tmpSize + totalSize > SIZE_LIMIT) {
+ break;
+ } else {
+ totalSize += tmpSize;
+ }
+
+ }
+ List<Message> subList = messages.subList(currIndex, nextIndex);
+ currIndex = nextIndex;
+ return subList;
+ }
+}
+//把大的消息分裂成若干个小的消息
+ListSplitter splitter = new ListSplitter(messages);
+while (splitter.hasNext()) {
+ try {
+ List<Message> listItem = splitter.next();
+ producer.send(listItem);
+ } catch (Exception e) {
+ e.printStackTrace();
+ //处理error
+ }
+}
+```
+
+过滤消息样例
+----------
+
+在大多数情况下,TAG是一个简单而有用的设计,其可以来选择您想要的消息。例如:
+
+```java
+DefaultMQPushConsumer consumer = new DefaultMQPushConsumer("CID_EXAMPLE");
+consumer.subscribe("TOPIC", "TAGA || TAGB || TAGC");
+```
+
+消费者将接收包含TAGA或TAGB或TAGC的消息。但是限制是一个消息只能有一个标签,这对于复杂的场景可能不起作用。在这种情况下,可以使用SQL表达式筛选消息。SQL特性可以通过发送消息时的属性来进行计算。在RocketMQ定义的语法下,可以实现一些简单的逻辑。下面是一个例子:
+
+\-\-\-\-\-\-\-\-\-\-\-\-
+| message |
+|-------- | a > 5 AND b = 'abc'
+| a = 10 | --------------------> Gotten
+| b = 'abc'|
+| c = true|
+\-\-\-\-\-\-\-\-\-\-\-\-
+\-\-\-\-\-\-\-\-\-\-\-\-
+| message |
+|-------- | a > 5 AND b = 'abc'
+| a = 1 | --------------------> Missed
+| b = 'abc'|
+| c = true |
+\-\-\-\-\-\-\-\-\-\-\-\-
+
+### 1、基本语法
+
+RocketMQ只定义了一些基本语法来支持这个特性。你也可以很容易地扩展它。
+
+1. 数值比较,比如:**>,>=,<,<=,BETWEEN,=;**
+2. 字符比较,比如:**=,<>,IN;**
+3. **IS NULL** 或者 **IS NOT NULL;**
+4. 逻辑符号 **AND,OR,NOT;**
+
+常量支持类型为:
+
+1. 数值,比如:**123,3.1415;**
+2. 字符,比如:**'abc',必须用单引号包裹起来;**
+3. **NULL**,特殊的常量
+4. 布尔值,**TRUE** 或 **FALSE**
+
+只有使用push模式的消费者才能用使用SQL92标准的sql语句,接口如下:
+```
+publicvoidsubscribe(finalString topic, final MessageSelector messageSelector)
+```
+
+### 2、使用样例
+
+#### 1. 生产者样例
+
+发送消息时,你能通过`putUserProperty`来设置消息的属性
+
+```java
+DefaultMQProducer producer = new
DefaultMQProducer("please_rename_unique_group_name");
+producer.start();
+Message msg = new Message("TopicTest",
+ tag,
+ ("Hello RocketMQ " + i).getBytes(RemotingHelper.DEFAULT_CHARSET)
+);
+// 设置一些属性
+msg.putUserProperty("a", String.valueOf(i));
+SendResult sendResult = producer.send(msg);
+
+producer.shutdown();
+```
+
+#### 2. 消费者样例
+
+用MessageSelector.bySql来使用sql筛选消息
+
+```java
+DefaultMQPushConsumer consumer = new
DefaultMQPushConsumer("please_rename_unique_group_name_4");
+// 只有订阅的消息有这个属性a, a >=0 and a <= 3
+consumer.subscribe("TopicTest", MessageSelector.bySql("a between 0 and 3");
+consumer.registerMessageListener(new MessageListenerConcurrently() {
+ @Override
+ public ConsumeConcurrentlyStatus consumeMessage(List<MessageExt> msgs,
ConsumeConcurrentlyContext context) {
+ return ConsumeConcurrentlyStatus.CONSUME_SUCCESS;
+ }
+});
+consumer.start();
+
+```
+
+消息事务样例
+----------
+
+事务消息共有三种状态,提交状态、回滚状态、中间状态:
+
+1. TransactionStatus.CommitTransaction: 提交事务,它允许消费者消费此消息。
+2. TransactionStatus.RollbackTransaction: 回滚事务,它代表该消息将被删除,不允许被消费。
+3. TransactionStatus.Unknown: 中间状态,它代表需要检查消息队列来确定状态。
+
+### 1、发送事务消息样例
+
+#### 1. 创建事务性生产者
+
+使用 `TransactionMQProducer`类创建生产者客户,并指定唯一的
`ProducerGroup`,就可以设置自定义线程池来处理这些检查请求。执行本地事务后、需要根据执行结果对消息队列进行回复。回传的事务状态在请参考前一节。
+
+```java
+
+import org.apache.rocketmq.client.consumer.DefaultMQPushConsumer;
+import org.apache.rocketmq.client.consumer.listener.ConsumeConcurrentlyContext;
+import org.apache.rocketmq.client.consumer.listener.ConsumeConcurrentlyStatus;
+import
org.apache.rocketmq.client.consumer.listener.MessageListenerConcurrently;
+import org.apache.rocketmq.common.message.MessageExt;
+import java.util.List;
+public class TransactionProducer {
+ public static void main(String[] args) throws MQClientException,
InterruptedException {
+ TransactionListener transactionListener = new TransactionListenerImpl();
+ TransactionMQProducer producer = new
TransactionMQProducer("please_rename_unique_group_name");
+ ExecutorService executorService = new ThreadPoolExecutor(2, 5, 100,
TimeUnit.SECONDS, new ArrayBlockingQueue<Runnable>(2000), new ThreadFactory() {
+ @Override
+ public Thread newThread(Runnable r) {
+ Thread thread = new Thread(r);
+ thread.setName("client-transaction-msg-check-thread");
+ return thread;
+ }
+ });
+ producer.setExecutorService(executorService);
+ producer.setTransactionListener(transactionListener);
+ producer.start();
+ String[] tags = new String[] {"TagA", "TagB", "TagC", "TagD", "TagE"};
+ for (int i = 0; i < 10; i++) {
+ try {
+ Message msg =
+ new Message("TopicTest1234", tags[i % tags.length], "KEY" +
i,
+ ("Hello RocketMQ " +
i).getBytes(RemotingHelper.DEFAULT_CHARSET));
+ SendResult sendResult = producer.sendMessageInTransaction(msg,
null);
+ System.out.printf("%s%n", sendResult);
+ Thread.sleep(10);
+ } catch (MQClientException | UnsupportedEncodingException e) {
+ e.printStackTrace();
+ }
+ }
+ for (int i = 0; i < 100000; i++) {
+ Thread.sleep(1000);
+ }
+ producer.shutdown();
+ }
+}
+
+```
+#### 2. 实现事务的监听接口
+
+当发送半消息成功时,我们使用 `executeLocalTransaction`
方法来执行本地事务。它返回前一节中提到的三个事务状态之一。`checkLocalTranscation`
方法用于检查本地事务状态,并回应消息队列的检查请求。它也是返回前一节中提到的三个事务状态之一。
+
+```java
+public class TransactionListenerImpl implements TransactionListener {
+ private AtomicInteger transactionIndex = new AtomicInteger(0);
+ private ConcurrentHashMap<String, Integer> localTrans = new
ConcurrentHashMap<>();
+ @Override
+ public LocalTransactionState executeLocalTransaction(Message msg, Object
arg) {
+ int value = transactionIndex.getAndIncrement();
+ int status = value % 3;
+ localTrans.put(msg.getTransactionId(), status);
+ return LocalTransactionState.UNKNOW;
+ }
+ @Override
+ public LocalTransactionState checkLocalTransaction(MessageExt msg) {
+ Integer status = localTrans.get(msg.getTransactionId());
+ if (null != status) {
+ switch (status) {
+ case 0:
+ return LocalTransactionState.UNKNOW;
+ case 1:
+ return LocalTransactionState.COMMIT_MESSAGE;
+ case 2:
+ return LocalTransactionState.ROLLBACK_MESSAGE;
+ }
+ }
+ return LocalTransactionState.COMMIT_MESSAGE;
+ }
+}
+
+```
+
+### 1、事务消息使用上的限制
+
+1. 事务消息不支持延时消息和批量消息。
+2. 为了避免单个消息被检查太多次而导致半队列消息累积,我们默认将单个消息的检查次数限制为 15 次,但是用户可以通过 Broker 配置文件的
`transactionCheckMax`参数来修改此限制。如果已经检查某条消息超过 N 次的话( N = `transactionCheckMax` ) 则
Broker 将丢弃此消息,并在默认情况下同时打印错误日志。用户可以通过重写 `AbstractTransactionCheckListener`
类来修改这个行为。
+3. 事务消息将在 Broker 配置文件中的参数 transactionMsgTimeout
这样的特定时间长度之后被检查。当发送事务消息时,用户还可以通过设置用户属性 CHECK_IMMUNITY_TIME_IN_SECONDS
来改变这个限制,该参数优先于 `transactionMsgTimeout` 参数。
+4. 事务性消息可能不止一次被检查或消费。
+5. 提交给用户的目标主题消息可能会失败,目前这依日志的记录而定。它的高可用性通过 RocketMQ
本身的高可用性机制来保证,如果希望确保事务消息不丢失、并且事务完整性得到保证,建议使用同步的双重写入机制。
+6. 事务消息的生产者 ID 不能与其他类型消息的生产者 ID 共享。与其他类型的消息不同,事务消息允许反向查询、MQ服务器能通过它们的生产者 ID
查询客户。
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