RocketMQ源码阅读-Producer消息发送

发布时间:2024年01月14日


Producer是消息的生产者。

Producer和Consummer对Rocket来说都是Client,Server是Broker。

客户端在源码中是一个单独的Model,目录为rocketmq/client。

类DefaultMQProducer是Producer的默认入口实现类。
image.png
继承了类ClientConfig,客户端配置类,存储上下文配置信息。
实现接口MQProducer:
image.png
定义了Producer对外提供的接口,也就是所有的发送消息的方法,同时MQProducer接口继承了MQAdmin接口。
如上图中MQAdmin是元数据管理接口,定义了对Message操作的一些方法。

DefaultMQProducer中有一个重要的成员变量:
protected final transient DefaultMQProducerImpl defaultMQProducerImpl;

DefaultMQProducer的所有操作,基本没什么业务逻辑,都是调用DefaultMQProducerImpl类中的方法。

DefaultMQProducerImpl类是Producer操作的具体实现类。

1. 从单元测试入手

看源码的流程都是从单元测试入手

Producer的单元测试在类org.apache.rocketmq.client.producer.DefaultMQProducerTest中。
单元测试的所有方法,就对应着这个类的全部功能。
DefaultMQProducerTest的方法列表如下:

其中 init 和 terminate 是测试开始初始化和测试结束销毁时需要执行的代码。
其他的方法是测试不同功能的测试用例,也就是测试不同的发消息的方式。

2. 启动过程

从单元测试中的init方法入手:

@Before
public void init() throws Exception {
    String producerGroupTemp = producerGroupPrefix + System.currentTimeMillis();
    // 创建一个Producer,并赋予名字
    producer = new DefaultMQProducer(producerGroupTemp);
	// 设置NameServer的地址
    producer.setNamesrvAddr("127.0.0.1:9876");
	// 消息长度大于16开启压缩
    producer.setCompressMsgBodyOverHowmuch(16);
	// 创建不同的Message
    message = new Message(topic, new byte[] {'a'});
    zeroMsg = new Message(topic, new byte[] {});
    bigMessage = new Message(topic, "This is a very huge message!".getBytes());

	// 启动Producer
    producer.start();

	// 设置mQClientFactory和mQClientAPIImpl,后面再讲
    Field field = DefaultMQProducerImpl.class.getDeclaredField("mQClientFactory");
    field.setAccessible(true);
    field.set(producer.getDefaultMQProducerImpl(), mQClientFactory);

    field = MQClientInstance.class.getDeclaredField("mQClientAPIImpl");
    field.setAccessible(true);
    field.set(mQClientFactory, mQClientAPIImpl);

	// 注册Producer
    producer.getDefaultMQProducerImpl().getmQClientFactory().registerProducer(producerGroupTemp, producer.getDefaultMQProducerImpl());

    when(mQClientAPIImpl.sendMessage(anyString(), anyString(), any(Message.class), any(SendMessageRequestHeader.class), anyLong(), any(CommunicationMode.class),
        nullable(SendMessageContext.class), any(DefaultMQProducerImpl.class))).thenCallRealMethod();
    when(mQClientAPIImpl.sendMessage(anyString(), anyString(), any(Message.class), any(SendMessageRequestHeader.class), anyLong(), any(CommunicationMode.class),
        nullable(SendCallback.class), nullable(TopicPublishInfo.class), nullable(MQClientInstance.class), anyInt(), nullable(SendMessageContext.class), any(DefaultMQProducerImpl.class)))
        .thenReturn(createSendResult(SendStatus.SEND_OK));
}

这段代码就是创建了一个DefaultMQProducer,设置参数,并调用start()方法启动,之后注册到NameServer中。

首先,看下DefaultMQProducer#start()方法:

@Override
public void start() throws MQClientException {
    this.setProducerGroup(withNamespace(this.producerGroup));
	// 直接调用defaultMQProducerImpl的start方法
    this.defaultMQProducerImpl.start();
    if (null != traceDispatcher) {
        try {
            traceDispatcher.start(this.getNamesrvAddr(), this.getAccessChannel());
        } catch (MQClientException e) {
            log.warn("trace dispatcher start failed ", e);
        }
    }
}

其中直接调用了DefaultMQProducerImpl的start方法:

public void start() throws MQClientException {
    this.start(true);
}
public void start(final boolean startFactory) throws MQClientException {
    switch (this.serviceState) {
        case CREATE_JUST:
            this.serviceState = ServiceState.START_FAILED;

            this.checkConfig();

            if (!this.defaultMQProducer.getProducerGroup().equals(MixAll.CLIENT_INNER_PRODUCER_GROUP)) {
                this.defaultMQProducer.changeInstanceNameToPID();
            }

            // 获取MQClientInstance实例
            this.mQClientFactory = MQClientManager.getInstance().getAndCreateMQClientInstance(this.defaultMQProducer, rpcHook);
        	// 注册
            boolean registerOK = mQClientFactory.registerProducer(this.defaultMQProducer.getProducerGroup(), this);
            if (!registerOK) {
                this.serviceState = ServiceState.CREATE_JUST;
                throw new MQClientException("The producer group[" + this.defaultMQProducer.getProducerGroup()
                                            + "] has been created before, specify another name please." + FAQUrl.suggestTodo(FAQUrl.GROUP_NAME_DUPLICATE_URL),
                                            null);
            }

            this.topicPublishInfoTable.put(this.defaultMQProducer.getCreateTopicKey(), new TopicPublishInfo());

            if (startFactory) {
                // 启动mQClientFactory
                mQClientFactory.start();
            }

            log.info("the producer [{}] start OK. sendMessageWithVIPChannel={}", this.defaultMQProducer.getProducerGroup(),
                     this.defaultMQProducer.isSendMessageWithVIPChannel());
            this.serviceState = ServiceState.RUNNING;
            break;
        case RUNNING:
        case START_FAILED:
        case SHUTDOWN_ALREADY:
            throw new MQClientException("The producer service state not OK, maybe started once, "
                                        + this.serviceState
                                        + FAQUrl.suggestTodo(FAQUrl.CLIENT_SERVICE_NOT_OK),
                                        null);
        default:
            break;
    }
	// 给所有的broker发心跳
    this.mQClientFactory.sendHeartbeatToAllBrokerWithLock();
}

RocketMQ 使用一个成员变量 serviceState 来记录和管理自身的服务状态,这实际上是状态模式 (State Pattern) 这种设计模式的变种实现。

对于启动过程,状态serviceState为CREATE_JUST。
CREATE_JUST分支中,会获取一个MQClientManager(单例模式),通过方法getAndCreateMQClientInstance()获取一个MQClientInstance实例,赋值给成员变量:

private MQClientInstance mQClientFactory;

然后调用MQClientInstance的registerProducer()方法,将自己注册到MQClientInstance中。
随后,调用MQClientInstance的start(),启动mQClientFactory。
最后,给所有的broker发心跳。

进一步看MQClientInstance的start()方法:

public void start() throws MQClientException {
    synchronized (this) {
        switch (this.serviceState) {
            case CREATE_JUST:
                this.serviceState = ServiceState.START_FAILED;
                // If not specified,looking address from name server
                if (null == this.clientConfig.getNamesrvAddr()) {
                    this.mQClientAPIImpl.fetchNameServerAddr();
                }
                // Start request-response channel
                this.mQClientAPIImpl.start();
                // Start various schedule tasks
                this.startScheduledTask();
                // Start pull service
                this.pullMessageService.start();
                // Start rebalance service
                this.rebalanceService.start();
                // Start push service
                this.defaultMQProducer.getDefaultMQProducerImpl().start(false);
                log.info("the client factory [{}] start OK", this.clientId);
                this.serviceState = ServiceState.RUNNING;
                break;
            case RUNNING:
                break;
            case SHUTDOWN_ALREADY:
                break;
            case START_FAILED:
                throw new MQClientException("The Factory object[" + this.getClientId() + "] has been created before, and failed.", null);
            default:
                break;
        }
    }
}

这一部分代码的注释比较清楚,流程是这样的:

  1. 启动实例 mQClientAPIImpl,其中 mQClientAPIImpl 是类 MQClientAPIImpl 的实例,封装了客户端与 Broker 通信的方法;
  2. 启动各种定时任务,包括与 Broker 之间的定时心跳,定时与 NameServer 同步数据等任务;
  3. 启动拉取消息服务;
  4. 启动 Rebalance 服务;
  5. 启动默认的 Producer 服务。

以上就是 Producer 的启动流程。

3. 同步消息发送过程

分析 Producer 发送消息的流程。
接口 MQProducer 中,定义了 19 个不同参数的发消息的方法。
这19个接口可以分为3类:

  • 单向发送(Oneway):发送消息后立即返回,不处理响应,不关心是否发送成功;
  • 同步发送(Sync):发送消息后等待响应;
  • 异步发送(Async):发送消息后立即返回,在提供的回调方法中处理响应。

先看下同步发送消息的方法(异步发送消息,只是将同步发送方法提交给线程池)。
DefaultMQProducer中对同步发送方法的实现为:

@Override
public SendResult send(
    Message msg) throws MQClientException, RemotingException, MQBrokerException, InterruptedException {
    Validators.checkMessage(msg, this);
    msg.setTopic(withNamespace(msg.getTopic()));
    return this.defaultMQProducerImpl.send(msg);
}

实际调用的为DefaultMQProducerImpl的send()方法:

public SendResult send(
    Message msg) throws MQClientException, RemotingException, MQBrokerException, InterruptedException {
    return send(msg, this.defaultMQProducer.getSendMsgTimeout());
}
public SendResult send(Message msg,long timeout) throws MQClientException, RemotingException, MQBrokerException, InterruptedException {
    return this.sendDefaultImpl(msg, CommunicationMode.SYNC, null, timeout);
}

最终调用的方法为DefaultMQProducerImpl的sendDefaultImpl()方法,源码位置为517行:
(源码偏长,在下方进行解读)

private SendResult sendDefaultImpl(
    Message msg,
    final CommunicationMode communicationMode,
    final SendCallback sendCallback,
    final long timeout
) throws MQClientException, RemotingException, MQBrokerException, InterruptedException {
    this.makeSureStateOK();
    Validators.checkMessage(msg, this.defaultMQProducer);

    final long invokeID = random.nextLong();
    long beginTimestampFirst = System.currentTimeMillis();
    long beginTimestampPrev = beginTimestampFirst;
    long endTimestamp = beginTimestampFirst;
    // 获取Topic路由信息
    TopicPublishInfo topicPublishInfo = this.tryToFindTopicPublishInfo(msg.getTopic());
    if (topicPublishInfo != null && topicPublishInfo.ok()) {
        boolean callTimeout = false;
        MessageQueue mq = null;
        Exception exception = null;
        SendResult sendResult = null;
        int timesTotal = communicationMode == CommunicationMode.SYNC ? 1 + this.defaultMQProducer.getRetryTimesWhenSendFailed() : 1;
        int times = 0;
        String[] brokersSent = new String[timesTotal];
        for (; times < timesTotal; times++) {
            String lastBrokerName = null == mq ? null : mq.getBrokerName();
            // 选择一个消息要发送的队列
            MessageQueue mqSelected = this.selectOneMessageQueue(topicPublishInfo, lastBrokerName);
            if (mqSelected != null) {
                mq = mqSelected;
                brokersSent[times] = mq.getBrokerName();
                try {
                    beginTimestampPrev = System.currentTimeMillis();
                    if (times > 0) {
                        //Reset topic with namespace during resend.
                        msg.setTopic(this.defaultMQProducer.withNamespace(msg.getTopic()));
                    }
                    long costTime = beginTimestampPrev - beginTimestampFirst;
                    if (timeout < costTime) {
                        callTimeout = true;
                        break;
                    }
                	// 发消息
                    sendResult = this.sendKernelImpl(msg, mq, communicationMode, sendCallback, topicPublishInfo, timeout - costTime);
                    endTimestamp = System.currentTimeMillis();
                    this.updateFaultItem(mq.getBrokerName(), endTimestamp - beginTimestampPrev, false);
                    switch (communicationMode) {
                        case ASYNC:
                            return null;
                        case ONEWAY:
                            return null;
                        case SYNC:
                            if (sendResult.getSendStatus() != SendStatus.SEND_OK) {
                                if (this.defaultMQProducer.isRetryAnotherBrokerWhenNotStoreOK()) {
                                    continue;
                                }
                            }

                            return sendResult;
                        default:
                            break;
                    }
                } catch (RemotingException e) {
                    endTimestamp = System.currentTimeMillis();
                    this.updateFaultItem(mq.getBrokerName(), endTimestamp - beginTimestampPrev, true);
                    log.warn(String.format("sendKernelImpl exception, resend at once, InvokeID: %s, RT: %sms, Broker: %s", invokeID, endTimestamp - beginTimestampPrev, mq), e);
                    log.warn(msg.toString());
                    exception = e;
                    continue;
                } catch (MQClientException e) {
                    endTimestamp = System.currentTimeMillis();
                    this.updateFaultItem(mq.getBrokerName(), endTimestamp - beginTimestampPrev, true);
                    log.warn(String.format("sendKernelImpl exception, resend at once, InvokeID: %s, RT: %sms, Broker: %s", invokeID, endTimestamp - beginTimestampPrev, mq), e);
                    log.warn(msg.toString());
                    exception = e;
                    continue;
                } catch (MQBrokerException e) {
                    endTimestamp = System.currentTimeMillis();
                    this.updateFaultItem(mq.getBrokerName(), endTimestamp - beginTimestampPrev, true);
                    log.warn(String.format("sendKernelImpl exception, resend at once, InvokeID: %s, RT: %sms, Broker: %s", invokeID, endTimestamp - beginTimestampPrev, mq), e);
                    log.warn(msg.toString());
                    exception = e;
                    switch (e.getResponseCode()) {
                        case ResponseCode.TOPIC_NOT_EXIST:
                        case ResponseCode.SERVICE_NOT_AVAILABLE:
                        case ResponseCode.SYSTEM_ERROR:
                        case ResponseCode.NO_PERMISSION:
                        case ResponseCode.NO_BUYER_ID:
                        case ResponseCode.NOT_IN_CURRENT_UNIT:
                            continue;
                        default:
                            if (sendResult != null) {
                                return sendResult;
                            }

                            throw e;
                    }
                } catch (InterruptedException e) {
                    endTimestamp = System.currentTimeMillis();
                    this.updateFaultItem(mq.getBrokerName(), endTimestamp - beginTimestampPrev, false);
                    log.warn(String.format("sendKernelImpl exception, throw exception, InvokeID: %s, RT: %sms, Broker: %s", invokeID, endTimestamp - beginTimestampPrev, mq), e);
                    log.warn(msg.toString());

                    log.warn("sendKernelImpl exception", e);
                    log.warn(msg.toString());
                    throw e;
                }
            } else {
                break;
            }
        }

        if (sendResult != null) {
            return sendResult;
        }

        String info = String.format("Send [%d] times, still failed, cost [%d]ms, Topic: %s, BrokersSent: %s",
            times,
            System.currentTimeMillis() - beginTimestampFirst,
            msg.getTopic(),
            Arrays.toString(brokersSent));

        info += FAQUrl.suggestTodo(FAQUrl.SEND_MSG_FAILED);

        MQClientException mqClientException = new MQClientException(info, exception);
        if (callTimeout) {
            throw new RemotingTooMuchRequestException("sendDefaultImpl call timeout");
        }

        if (exception instanceof MQBrokerException) {
            mqClientException.setResponseCode(((MQBrokerException) exception).getResponseCode());
        } else if (exception instanceof RemotingConnectException) {
            mqClientException.setResponseCode(ClientErrorCode.CONNECT_BROKER_EXCEPTION);
        } else if (exception instanceof RemotingTimeoutException) {
            mqClientException.setResponseCode(ClientErrorCode.ACCESS_BROKER_TIMEOUT);
        } else if (exception instanceof MQClientException) {
            mqClientException.setResponseCode(ClientErrorCode.BROKER_NOT_EXIST_EXCEPTION);
        }

        throw mqClientException;
    }

    List<String> nsList = this.getmQClientFactory().getMQClientAPIImpl().getNameServerAddressList();
    if (null == nsList || nsList.isEmpty()) {
        throw new MQClientException(
            "No name server address, please set it." + FAQUrl.suggestTodo(FAQUrl.NAME_SERVER_ADDR_NOT_EXIST_URL), null).setResponseCode(ClientErrorCode.NO_NAME_SERVER_EXCEPTION);
    }

    throw new MQClientException("No route info of this topic, " + msg.getTopic() + FAQUrl.suggestTodo(FAQUrl.NO_TOPIC_ROUTE_INFO),
        null).setResponseCode(ClientErrorCode.NOT_FOUND_TOPIC_EXCEPTION);
}

首先是获取Topic信息,DefaultMQProducerImpl#tryToFindTopicPublishInfo():

private TopicPublishInfo tryToFindTopicPublishInfo(final String topic) {
    // 缓存中获取 Topic发布信息
    TopicPublishInfo topicPublishInfo = this.topicPublishInfoTable.get(topic);
    // 当无可用的 Topic发布信息时,从Namesrv获取一次
    if (null == topicPublishInfo || !topicPublishInfo.ok()) {
        this.topicPublishInfoTable.putIfAbsent(topic, new TopicPublishInfo());
        this.mQClientFactory.updateTopicRouteInfoFromNameServer(topic);
        topicPublishInfo = this.topicPublishInfoTable.get(topic);
    }
	// 若获取的 Topic发布信息时候可用,则返回
    if (topicPublishInfo.isHaveTopicRouterInfo() || topicPublishInfo.ok()) {
        return topicPublishInfo;
    } else {
        // 使用 {@link DefaultMQProducer#createTopicKey} 对应的 Topic发布信息。用于 Topic发布信息不存在 && Broker支持自动创建Topic
        this.mQClientFactory.updateTopicRouteInfoFromNameServer(topic, true, this.defaultMQProducer);
        topicPublishInfo = this.topicPublishInfoTable.get(topic);
        return topicPublishInfo;
    }
}

优先从缓存中获取Topic路由信息,如果缓存没有,就从NameServer中获取。

然后选择消息要发送的队列,DefaultMQProducerImpl#selectOneMessageQueue():

public MessageQueue selectOneMessageQueue(final TopicPublishInfo tpInfo, final String lastBrokerName) {
    return this.mqFaultStrategy.selectOneMessageQueue(tpInfo, lastBrokerName);
}

实际调用MQFaultStrategy的selectOneMessageQueue方法:
根据 Topic发布信息 选择一个消息队列

public MessageQueue selectOneMessageQueue(final TopicPublishInfo tpInfo, final String lastBrokerName) {
    if (this.sendLatencyFaultEnable) {
        try {
            // 获取 brokerName=lastBrokerName && 可用的一个消息队列
            int index = tpInfo.getSendWhichQueue().getAndIncrement();
            for (int i = 0; i < tpInfo.getMessageQueueList().size(); i++) {
                int pos = Math.abs(index++) % tpInfo.getMessageQueueList().size();
                if (pos < 0)
                    pos = 0;
                MessageQueue mq = tpInfo.getMessageQueueList().get(pos);
                if (latencyFaultTolerance.isAvailable(mq.getBrokerName())) {
                    if (null == lastBrokerName || mq.getBrokerName().equals(lastBrokerName))
                        return mq;
                }
            }
			// 选择一个相对好的broker,并获得其对应的一个消息队列,不考虑该队列的可用性
            final String notBestBroker = latencyFaultTolerance.pickOneAtLeast();
            int writeQueueNums = tpInfo.getQueueIdByBroker(notBestBroker);
            if (writeQueueNums > 0) {
                final MessageQueue mq = tpInfo.selectOneMessageQueue();
                if (notBestBroker != null) {
                    mq.setBrokerName(notBestBroker);
                    mq.setQueueId(tpInfo.getSendWhichQueue().getAndIncrement() % writeQueueNums);
                }
                return mq;
            } else {
                latencyFaultTolerance.remove(notBestBroker);
            }
        } catch (Exception e) {
            log.error("Error occurred when selecting message queue", e);
        }
    	// 选择一个消息队列,不考虑队列的可用性
        return tpInfo.selectOneMessageQueue();
    }
	// 获得 lastBrokerName 对应的一个消息队列,不考虑该队列的可用性
    return tpInfo.selectOneMessageQueue(lastBrokerName);
}

选好队列后返回到DefaultMQProducerImpl#sendDefaultImpl()方法中。

然后DefaultMQProducerImpl#sendDefaultImpl()方法中继续调用sendKernelImpl()方法发送消息,sendKernelImpl()源码如下:

private SendResult sendKernelImpl(final Message msg,
                                  final MessageQueue mq,
                                  final CommunicationMode communicationMode,
                                  final SendCallback sendCallback,
                                  final TopicPublishInfo topicPublishInfo,
                                  final long timeout) throws MQClientException, RemotingException, MQBrokerException, InterruptedException {
    long beginStartTime = System.currentTimeMillis();
    // 获取 broker地址
    String brokerAddr = this.mQClientFactory.findBrokerAddressInPublish(mq.getBrokerName());
    if (null == brokerAddr) {
        tryToFindTopicPublishInfo(mq.getTopic());
        brokerAddr = this.mQClientFactory.findBrokerAddressInPublish(mq.getBrokerName());
    }

    SendMessageContext context = null;
    if (brokerAddr != null) {
        // 是否使用broker vip通道。broker会开启两个端口对外服务。
        brokerAddr = MixAll.brokerVIPChannel(this.defaultMQProducer.isSendMessageWithVIPChannel(), brokerAddr);

        byte[] prevBody = msg.getBody();// 记录消息内容。下面逻辑可能改变消息内容,例如消息压缩。
        try {
            //for MessageBatch,ID has been set in the generating process
            if (!(msg instanceof MessageBatch)) {
                // 设置唯一编号
                MessageClientIDSetter.setUniqID(msg);
            }

            boolean topicWithNamespace = false;
            if (null != this.mQClientFactory.getClientConfig().getNamespace()) {
                msg.setInstanceId(this.mQClientFactory.getClientConfig().getNamespace());
                topicWithNamespace = true;
            }

            // 消息压缩
            int sysFlag = 0;
            boolean msgBodyCompressed = false;
            if (this.tryToCompressMessage(msg)) {
                sysFlag |= MessageSysFlag.COMPRESSED_FLAG;
                msgBodyCompressed = true;
            }
            // 事务
            final String tranMsg = msg.getProperty(MessageConst.PROPERTY_TRANSACTION_PREPARED);
            if (tranMsg != null && Boolean.parseBoolean(tranMsg)) {
                sysFlag |= MessageSysFlag.TRANSACTION_PREPARED_TYPE;
            }
        	// hook:发送消息校验
            if (hasCheckForbiddenHook()) {
                CheckForbiddenContext checkForbiddenContext = new CheckForbiddenContext();
                checkForbiddenContext.setNameSrvAddr(this.defaultMQProducer.getNamesrvAddr());
                checkForbiddenContext.setGroup(this.defaultMQProducer.getProducerGroup());
                checkForbiddenContext.setCommunicationMode(communicationMode);
                checkForbiddenContext.setBrokerAddr(brokerAddr);
                checkForbiddenContext.setMessage(msg);
                checkForbiddenContext.setMq(mq);
                checkForbiddenContext.setUnitMode(this.isUnitMode());
                this.executeCheckForbiddenHook(checkForbiddenContext);
            }
        	// hook:发送消息前逻辑
            if (this.hasSendMessageHook()) {
                context = new SendMessageContext();
                context.setProducer(this);
                context.setProducerGroup(this.defaultMQProducer.getProducerGroup());
                context.setCommunicationMode(communicationMode);
                context.setBornHost(this.defaultMQProducer.getClientIP());
                context.setBrokerAddr(brokerAddr);
                context.setMessage(msg);
                context.setMq(mq);
                context.setNamespace(this.defaultMQProducer.getNamespace());
                String isTrans = msg.getProperty(MessageConst.PROPERTY_TRANSACTION_PREPARED);
                if (isTrans != null && isTrans.equals("true")) {
                    context.setMsgType(MessageType.Trans_Msg_Half);
                }

                if (msg.getProperty("__STARTDELIVERTIME") != null || msg.getProperty(MessageConst.PROPERTY_DELAY_TIME_LEVEL) != null) {
                    context.setMsgType(MessageType.Delay_Msg);
                }
                this.executeSendMessageHookBefore(context);
            }
			// 构建发送消息请求
            SendMessageRequestHeader requestHeader = new SendMessageRequestHeader();
            requestHeader.setProducerGroup(this.defaultMQProducer.getProducerGroup());
            requestHeader.setTopic(msg.getTopic());
            requestHeader.setDefaultTopic(this.defaultMQProducer.getCreateTopicKey());
            requestHeader.setDefaultTopicQueueNums(this.defaultMQProducer.getDefaultTopicQueueNums());
            requestHeader.setQueueId(mq.getQueueId());
            requestHeader.setSysFlag(sysFlag);
            requestHeader.setBornTimestamp(System.currentTimeMillis());
            requestHeader.setFlag(msg.getFlag());
            requestHeader.setProperties(MessageDecoder.messageProperties2String(msg.getProperties()));
            requestHeader.setReconsumeTimes(0);
            requestHeader.setUnitMode(this.isUnitMode());
            requestHeader.setBatch(msg instanceof MessageBatch);
            if (requestHeader.getTopic().startsWith(MixAll.RETRY_GROUP_TOPIC_PREFIX)) {
                String reconsumeTimes = MessageAccessor.getReconsumeTime(msg);
                if (reconsumeTimes != null) {
                    requestHeader.setReconsumeTimes(Integer.valueOf(reconsumeTimes));
                    MessageAccessor.clearProperty(msg, MessageConst.PROPERTY_RECONSUME_TIME);
                }

                String maxReconsumeTimes = MessageAccessor.getMaxReconsumeTimes(msg);
                if (maxReconsumeTimes != null) {
                    requestHeader.setMaxReconsumeTimes(Integer.valueOf(maxReconsumeTimes));
                    MessageAccessor.clearProperty(msg, MessageConst.PROPERTY_MAX_RECONSUME_TIMES);
                }
            }
        	// 发送消息
            SendResult sendResult = null;
            switch (communicationMode) {
                case ASYNC:
                    Message tmpMessage = msg;
                    boolean messageCloned = false;
                    if (msgBodyCompressed) {
                        //If msg body was compressed, msgbody should be reset using prevBody.
                        //Clone new message using commpressed message body and recover origin massage.
                        //Fix bug:https://github.com/apache/rocketmq-externals/issues/66
                        tmpMessage = MessageAccessor.cloneMessage(msg);
                        messageCloned = true;
                        msg.setBody(prevBody);
                    }

                    if (topicWithNamespace) {
                        if (!messageCloned) {
                            tmpMessage = MessageAccessor.cloneMessage(msg);
                            messageCloned = true;
                        }
                        msg.setTopic(NamespaceUtil.withoutNamespace(msg.getTopic(), this.defaultMQProducer.getNamespace()));
                    }

                    long costTimeAsync = System.currentTimeMillis() - beginStartTime;
                    if (timeout < costTimeAsync) {
                        throw new RemotingTooMuchRequestException("sendKernelImpl call timeout");
                    }
                    sendResult = this.mQClientFactory.getMQClientAPIImpl().sendMessage(
                        brokerAddr,
                        mq.getBrokerName(),
                        tmpMessage,
                        requestHeader,
                        timeout - costTimeAsync,
                        communicationMode,
                        sendCallback,
                        topicPublishInfo,
                        this.mQClientFactory,
                        this.defaultMQProducer.getRetryTimesWhenSendAsyncFailed(),
                        context,
                        this);
                    break;
                case ONEWAY:
                case SYNC:
                    long costTimeSync = System.currentTimeMillis() - beginStartTime;
                    if (timeout < costTimeSync) {
                        throw new RemotingTooMuchRequestException("sendKernelImpl call timeout");
                    }
                    // 同步发送消息
                    sendResult = this.mQClientFactory.getMQClientAPIImpl().sendMessage(
                        brokerAddr,
                        mq.getBrokerName(),
                        msg,
                        requestHeader,
                        timeout - costTimeSync,
                        communicationMode,
                        context,
                        this);
                    break;
                default:
                    assert false;
                    break;
            }
        	// hook:发送消息后逻辑
            if (this.hasSendMessageHook()) {
                context.setSendResult(sendResult);
                this.executeSendMessageHookAfter(context);
            }
        	// 返回发送结果
            return sendResult;
        } catch (RemotingException e) {
            if (this.hasSendMessageHook()) {
                context.setException(e);
                this.executeSendMessageHookAfter(context);
            }
            throw e;
        } catch (MQBrokerException e) {
            if (this.hasSendMessageHook()) {
                context.setException(e);
                this.executeSendMessageHookAfter(context);
            }
            throw e;
        } catch (InterruptedException e) {
            if (this.hasSendMessageHook()) {
                context.setException(e);
                this.executeSendMessageHookAfter(context);
            }
            throw e;
        } finally {
            msg.setBody(prevBody);
            msg.setTopic(NamespaceUtil.withoutNamespace(msg.getTopic(), this.defaultMQProducer.getNamespace()));
        }
    }
    // broker为空抛出异常
    throw new MQClientException("The broker[" + mq.getBrokerName() + "] not exist", null);
}

也很长,但是逻辑简单,主要功能就是构建发送消息的头 RequestHeader 和上下文 SendMessageContext,然后调用方法 MQClientAPIImpl#sendMessage()(上述代码第150行),将消息发送给队列所在的 Broker。

至此,消息被发送给远程调用的封装类 MQClientAPIImpl,完成后续序列化和网络传输等步骤。

这一篇主要看发送代码,后续序列化和网络传输等步骤的代码后面再去探究。

ps:推荐IEDA插件SequenceDiagram,能一键生成时序图

整体的时序图为:
同步发送消息时序图.png

4. 异步消息发送过程

上一节讲到异步发送消息,只是将同步发送方法提交给线程池。对于MQProducer接口中方法为:

void send(final Message msg, final SendCallback sendCallback, final long timeout)
	throws MQClientException, RemotingException, InterruptedException;

也就是带有回调方法,DefaultMQProducer中的实现为:

@Override
public void send(Message msg, SendCallback sendCallback, long timeout)
throws MQClientException, RemotingException, InterruptedException {
    msg.setTopic(withNamespace(msg.getTopic()));
    this.defaultMQProducerImpl.send(msg, sendCallback, timeout);
}

调用了DefaultMQProducerImpl的send方法:

@Deprecated
public void send(final Message msg, final SendCallback sendCallback, final long timeout)
throws MQClientException, RemotingException, InterruptedException {
    final long beginStartTime = System.currentTimeMillis();
    ExecutorService executor = this.getAsyncSenderExecutor();
    try {
        executor.submit(new Runnable() {
            @Override
            public void run() {
                long costTime = System.currentTimeMillis() - beginStartTime;
                if (timeout > costTime) {
                    try {
                        sendDefaultImpl(msg, CommunicationMode.ASYNC, sendCallback, timeout - costTime);
                    } catch (Exception e) {
                        sendCallback.onException(e);
                    }
                } else {
                    sendCallback.onException(
                        new RemotingTooMuchRequestException("DEFAULT ASYNC send call timeout"));
                }
            }

        });
    } catch (RejectedExecutionException e) {
        throw new MQClientException("executor rejected ", e);
    }

}

可以看到,实际上是将DefaultMQProducerImpl的sendDefaultImpl()方法(对应源码517行)提交到线程池执行,后面的流程都和同步发送一致,参看上一节分析。

异步发送消息时序图为:
异步发消息时序图.png
至此,异步消息发送也完成了。

5. 小结

MQProducer定义了19种发送消息的方法,其默认实现为DefaultMQProducer。DefaultMQProducer中的方法没有业务逻辑,最终会调用DefaultMQProducerImpl类中的具体逻辑。

DefaultMQProducerImpl中发消息的方法最终都会调用其sendKernelImpl()方法,其主要功能就是构建发送消息的头 RequestHeader 和上下文 SendMessageContext,然后调用方法 MQClientAPIImpl#sendMessage(),将消息发送给队列所在的 Broker。

最终消息被发送给远程调用的封装类 MQClientAPIImpl,完成后续序列化和网络传输等步骤。

类之间的关系为:
发消息类图.png

文章来源:https://blog.csdn.net/weixin_43155866/article/details/135584688
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