/** * DeferredConsumer.h * * Deferred callback for consumers * * @copyright 2014 - 2017 Copernica BV */ /** * Include guard */ #pragma once /** * Dependencies */ #include "deferredconsumerbase.h" /** * Set up namespace */ namespace AMQP { /** * We extend from the default deferred and add extra functionality */ class DeferredConsumer : public DeferredConsumerBase { private: /** * Callback to execute when consumption has started * @var ConsumeCallback */ ConsumeCallback _consumeCallback; /** * Report success for frames that report start consumer operations * @param name Consumer tag that is started * @return Deferred */ virtual const std::shared_ptr &reportSuccess(const std::string &name) override; /** * Announce that a message has been received * @param message The message to announce * @param deliveryTag The delivery tag (for ack()ing) * @param redelivered Is this a redelivered message */ virtual void announce(const Message &message, uint64_t deliveryTag, bool redelivered) const override; /** * The channel implementation may call our * private members and construct us */ friend class ChannelImpl; friend class ConsumedMessage; public: /** * Protected constructor that can only be called * from within the channel implementation * * Note: this constructor _should_ be protected, but because make_shared * will then not work, we have decided to make it public after all, * because the work-around would result in not-so-easy-to-read code. * * @param channel the channel implementation * @param failed are we already failed? */ DeferredConsumer(ChannelImpl *channel, bool failed = false) : DeferredConsumerBase(failed, channel) {} public: /** * Register a callback function that gets called when the consumer is * started. In the callback you will for receive the consumer-tag * that you need to later stop the consumer * @param callback */ DeferredConsumer &onSuccess(const ConsumeCallback &callback) { // store the callback _consumeCallback = callback; // allow chaining return *this; } /** * Register the function that is called when the consumer starts. * It is recommended to use the onSuccess() method mentioned above * since that will also pass the consumer-tag as parameter. * @param callback */ DeferredConsumer &onSuccess(const SuccessCallback &callback) { // call base Deferred::onSuccess(callback); // allow chaining return *this; } /** * Register a function to be called when a full message is received * @param callback the callback to execute */ DeferredConsumer &onReceived(const MessageCallback &callback) { // store callback _messageCallback = callback; // allow chaining return *this; } /** * Alias for onReceived() (see above) * @param callback the callback to execute */ DeferredConsumer &onMessage(const MessageCallback &callback) { // store callback _messageCallback = callback; // allow chaining return *this; } /** * RabbitMQ sends a message in multiple frames to its consumers. * The AMQP-CPP library collects these frames and merges them into a * single AMQP::Message object that is passed to the callback that * you can set with the onReceived() or onMessage() methods (see above). * * However, you can also write your own algorithm to merge the frames. * In that case you can install callbacks to handle the frames. Every * message is sent in a number of frames: * * - a begin frame that marks the start of the message * - an optional header if the message was sent with an envelope * - zero or more data frames (usually 1, but more for large messages) * - an end frame to mark the end of the message. * * To install handlers for these frames, you can use the onBegin(), * onHeaders(), onData() and onComplete() methods. * * If you just rely on the onReceived() or onMessage() callbacks, you * do not need any of the methods below this line. */ /** * Register the function that is called when the start frame of a new * consumed message is received * * @param callback The callback to invoke * @return Same object for chaining */ DeferredConsumer &onBegin(const BeginCallback &callback) { // store callback _beginCallback = callback; // allow chaining return *this; } /** * Register the function that is called when message headers come in * * @param callback The callback to invoke for message headers * @return Same object for chaining */ DeferredConsumer &onHeaders(const HeaderCallback &callback) { // store callback _headerCallback = callback; // allow chaining return *this; } /** * Register the function to be called when a chunk of data comes in * * Note that this function may be called zero, one or multiple times * for each incoming message depending on the size of the message data. * * If you install this callback you very likely also want to install * the onComplete callback so you know when the last data part was * received. * * @param callback The callback to invoke for chunks of message data * @return Same object for chaining */ DeferredConsumer &onData(const DataCallback &callback) { // store callback _dataCallback = callback; // allow chaining return *this; } /** * Register a funtion to be called when a message was completely received * * @param callback The callback to invoke * @return Same object for chaining */ DeferredConsumer &onComplete(const CompleteCallback &callback) { // store callback _completeCallback = callback; // allow chaining return *this; } }; /** * End namespace */ }