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AMQP-CPP/include/channel.h

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/**
* Class describing a (mid-level) AMQP channel implementation
*
* @copyright 2014 Copernica BV
*/
/**
* Set up namespace
*/
namespace AMQP {
/**
* Class definition
*/
class Channel
{
private:
/**
* The implementation for the channel
* @var ChannelImpl
*/
ChannelImpl _implementation;
public:
/**
* Construct a channel object
* @param connection
* @param handler
*/
Channel(Connection *connection, ChannelHandler *handler) : _implementation(this, connection, handler) {}
/**
* Destructor
*/
virtual ~Channel() {}
/**
* Pause deliveries on a channel
*
* This will stop all incoming messages
*
* This method returns true if the request to pause has been sent to the
* broker. This does not necessarily mean that the channel is already
* paused.
*
* @return bool
*/
bool pause()
{
return _implementation.pause();
}
/**
* Resume a paused channel
*
* @return bool
*/
bool resume()
{
return _implementation.resume();
}
/**
* Is the channel connected?
* @return bool
*/
bool connected()
{
return _implementation.connected();
}
/**
* Start a transaction
* @return bool
*/
bool startTransaction()
{
return _implementation.startTransaction();
}
/**
* Commit the current transaction
* @return bool
*/
bool commitTransaction()
{
return _implementation.commitTransaction();
}
/**
* Rollback the current transaction
* @return bool
*/
bool rollbackTransaction()
{
return _implementation.rollbackTransaction();
}
/**
* Declare an exchange
*
* If an empty name is supplied, a name will be assigned by the server.
*
* The following flags can be used for the exchange:
*
* - durable exchange survives a broker restart
* - autodelete exchange is automatically removed when all connected queues are removed
* - passive only check if the exchange exist
*
* @param name name of the exchange
* @param type exchange type
* @param flags exchange flags
* @param arguments additional arguments
* @return bool
*/
bool declareExchange(const std::string &name, ExchangeType type, int flags, const Table &arguments) { return _implementation.declareExchange(name, type, flags, arguments); }
bool declareExchange(const std::string &name, ExchangeType type, const Table &arguments) { return _implementation.declareExchange(name, type, 0, arguments); }
bool declareExchange(const std::string &name, ExchangeType type = fanout, int flags = 0) { return _implementation.declareExchange(name, type, flags, Table()); }
bool declareExchange(ExchangeType type, int flags, const Table &arguments) { return _implementation.declareExchange(std::string(), type, flags, arguments); }
bool declareExchange(ExchangeType type, const Table &arguments) { return _implementation.declareExchange(std::string(), type, 0, arguments); }
bool declareExchange(ExchangeType type = fanout, int flags = 0) { return _implementation.declareExchange(std::string(), type, flags, Table()); }
/**
* Remove an exchange
*
* The following flags can be used for the exchange:
*
* - ifunused only delete if no queues are connected
* @param name name of the exchange to remove
* @param flags optional flags
* @return bool
*/
bool removeExchange(const std::string &name, int flags = 0) { return _implementation.removeExchange(name, flags); }
/**
* Bind two exchanges to each other
*
* The following flags can be used for the exchange
*
* - nowait do not wait on response
*
* @param source the source exchange
* @param target the target exchange
* @param routingkey the routing key
* @param flags optional flags
* @param arguments additional bind arguments
* @return bool
*/
bool bindExchange(const std::string &source, const std::string &target, const std::string &routingkey, int flags, const Table &arguments) { return _implementation.bindExchange(source, target, routingkey, flags, arguments); }
bool bindExchange(const std::string &source, const std::string &target, const std::string &routingkey, const Table &arguments) { return _implementation.bindExchange(source, target, routingkey, 0, arguments); }
bool bindExchange(const std::string &source, const std::string &target, const std::string &routingkey, int flags = 0) { return _implementation.bindExchange(source, target, routingkey, flags, Table()); }
/**
* Unbind two exchanges from one another
*
* The following flags can be used for the exchange
*
* - nowait do not wait on response
*
* @param target the target exchange
* @param source the source exchange
* @param routingkey the routing key
* @param flags optional flags
* @param arguments additional unbind arguments
* @return bool
*/
bool unbindExchange(const std::string &target, const std::string &source, const std::string &routingkey, int flags, const Table &arguments) { return _implementation.unbindExchange(target, source, routingkey, flags, arguments); }
bool unbindExchange(const std::string &target, const std::string &source, const std::string &routingkey, const Table &arguments) { return _implementation.unbindExchange(target, source, routingkey, 0, arguments); }
bool unbindExchange(const std::string &target, const std::string &source, const std::string &routingkey, int flags = 0) { return _implementation.unbindExchange(target, source, routingkey, flags, Table()); }
/**
* Declare a queue
*
* If you do not supply a name, a name will be assigned by the server.
*
* The flags can be a combination of the following values:
*
* - durable queue survives a broker restart
* - autodelete queue is automatically removed when all connected consumers are gone
* - passive only check if the queue exist
* - exclusive the queue only exists for this connection, and is automatically removed when connection is gone
*
* @param name name of the queue
* @param flags combination of flags
* @param arguments optional arguments
*/
bool declareQueue(const std::string &name, int flags, const Table &arguments) { return _implementation.declareQueue(name, flags, arguments); }
bool declareQueue(const std::string &name, const Table &arguments) { return _implementation.declareQueue(name, 0, arguments); }
bool declareQueue(const std::string &name, int flags = 0) { return _implementation.declareQueue(name, flags, Table()); }
bool declareQueue(int flags, const Table &arguments) { return _implementation.declareQueue(std::string(), flags, arguments); }
bool declareQueue(const Table &arguments) { return _implementation.declareQueue(std::string(), 0, arguments); }
bool declareQueue(int flags = 0) { return _implementation.declareQueue(std::string(), flags, Table()); }
/**
* Bind a queue to an exchange
*
* The following flags can be used for the exchange
*
* - nowait do not wait on response
*
* @param exchange the source exchange
* @param queue the target queue
* @param routingkey the routing key
* @param flags additional flags
* @param arguments additional bind arguments
* @return bool
*/
bool bindQueue(const std::string &exchange, const std::string &queue, const std::string &routingkey, int flags, const Table &arguments) { return _implementation.bindQueue(exchange, queue, routingkey, flags, arguments); }
bool bindQueue(const std::string &exchange, const std::string &queue, const std::string &routingkey, const Table &arguments) { return _implementation.bindQueue(exchange, queue, routingkey, 0, arguments); }
bool bindQueue(const std::string &exchange, const std::string &queue, const std::string &routingkey, int flags = 0) { return _implementation.bindQueue(exchange, queue, routingkey, flags, Table()); }
/**
* Unbind a queue from an exchange
* @param exchange the source exchange
* @param queue the target queue
* @param routingkey the routing key
* @param arguments additional bind arguments
* @return bool
*/
bool unbindQueue(const std::string &exchange, const std::string &queue, const std::string &routingkey, const Table &arguments) { return _implementation.unbindQueue(exchange, queue, routingkey, arguments); }
bool unbindQueue(const std::string &exchange, const std::string &queue, const std::string &routingkey) { return _implementation.unbindQueue(exchange, queue, routingkey, Table()); }
/**
* Purge a queue
*
* The following flags can be used for the exchange
*
* - nowait do not wait on response
*
* @param name name of the queue
* @param flags additional flags
* @return bool
*/
bool purgeQueue(const std::string &name, int flags = 0){ return _implementation.purgeQueue(name, flags); }
/**
* Remove a queue
*
* The following flags can be used for the exchange:
*
* - ifunused only delete if no consumers are connected
* - ifempty only delete if the queue is empty
*
* @param name name of the queue to remove
* @param flags optional flags
* @return bool
*/
bool removeQueue(const std::string &name, int flags = 0) { return _implementation.removeQueue(name, flags); }
/**
* Publish a message to an exchange
*
* The following flags can be used
*
* - mandatory if set, an unroutable message will be reported to the channel handler with the onReturned method
* - immediate if set, a message that could not immediately be consumed is returned to the onReturned method
*
* @todo implement to onReturned() method
*
* @param exchange the exchange to publish to
* @param routingkey the routing key
* @param flags optional flags (see above)
* @param envelope the full envelope to send
* @param message the message to send
* @param size size of the message
*/
bool publish(const std::string &exchange, const std::string &routingKey, int flags, const Envelope &envelope) { return _implementation.publish(exchange, routingKey, flags, envelope); }
bool publish(const std::string &exchange, const std::string &routingKey, const Envelope &envelope) { return _implementation.publish(exchange, routingKey, 0, envelope); }
bool publish(const std::string &exchange, const std::string &routingKey, int flags, const std::string &message) { return _implementation.publish(exchange, routingKey, flags, Envelope(message)); }
bool publish(const std::string &exchange, const std::string &routingKey, const std::string &message) { return _implementation.publish(exchange, routingKey, 0, Envelope(message)); }
bool publish(const std::string &exchange, const std::string &routingKey, int flags, const char *message, size_t size) { return _implementation.publish(exchange, routingKey, flags, Envelope(message, size)); }
bool publish(const std::string &exchange, const std::string &routingKey, const char *message, size_t size) { return _implementation.publish(exchange, routingKey, 0, Envelope(message, size)); }
/**
* Set the Quality of Service (QOS) for this channel
*
* When you consume messages, every single messages needs to be ack'ed to inform
* the RabbitMQ server that is has been received. The Qos setting specifies the
* number of unacked messages that may exist in the client application. The server
* stops delivering more messages if the number of unack'ed messages has reached
* the prefetchCount
*
* @param prefetchCount maximum number of messages to prefetch
* @return bool whether the Qos frame is sent.
*/
bool setQos(uint16_t prefetchCount)
{
return _implementation.setQos(prefetchCount);
}
/**
* Tell the RabbitMQ server that we're ready to consume messages
*
* After this method is called, RabbitMQ starts delivering messages to the client
* application. The consume tag is a string identifier that will be passed to
* each received message, so that you can associate incoming messages with a
* consumer. If you do not specify a consumer tag, the server will assign one
* for you.
*
* The following flags are supported:
*
* - nolocal if set, messages published on this channel are not also consumed
* - noack if set, consumed messages do not have to be acked, this happens automatically
* - exclusive request exclusive access, only this consumer can access the queue
* - nowait the server does not have to send a response back that consuming is active
*
* The method ChannelHandler::onConsumerStarted() will be called when the
* consumer has started (unless the nowait option was set, in which case
* no confirmation method is called)
*
* @param queue the queue from which you want to consume
* @param tag a consumer tag that will be associated with this consume operation
* @param flags additional flags
* @param arguments additional arguments
* @return bool
*/
bool consume(const std::string &queue, const std::string &tag, int flags, const Table &arguments) { return _implementation.consume(queue, tag, flags, arguments); }
bool consume(const std::string &queue, const std::string &tag, int flags = 0) { return _implementation.consume(queue, tag, flags, Table()); }
bool consume(const std::string &queue, const std::string &tag, const Table &arguments) { return _implementation.consume(queue, tag, 0, arguments); }
bool consume(const std::string &queue, int flags, const Table &arguments) { return _implementation.consume(queue, std::string(), flags, arguments); }
bool consume(const std::string &queue, int flags = 0) { return _implementation.consume(queue, std::string(), flags, Table()); }
bool consume(const std::string &queue, const Table &arguments) { return _implementation.consume(queue, std::string(), 0, arguments); }
/**
* Cancel a running consume call
*
* If you want to stop a running consumer, you can use this method with the consumer tag
*
* The following flags are supported:
*
* - nowait the server does not have to send a response back that the consumer has been cancelled
*
* The method ChannelHandler::onConsumerStopped() will be called when the consumer
* was succesfully stopped (unless the nowait option was used, in which case no
* confirmation method is called)
*
* @param tag the consumer tag
* @param flags optional additional flags
* @return bool
*/
bool cancel(const std::string &tag, int flags = 0) { return _implementation.cancel(tag, flags); }
/**
* Acknoldge a received message
*
* When a message is received in the ChannelHandler::onReceived() method,
* you must acknoledge it so that RabbitMQ removes it from the queue (unless
* you are consuming with the noack option). This method can be used for
* this acknoledging.
*
* The following flags are supported:
*
* - multiple acknoledge multiple messages: all un-acked messages that were earlier delivered are acknowledged too
*
* @param deliveryTag the unique delivery tag of the message
* @param message the message
* @param flags optional flags
* @return bool
*/
bool ack(uint64_t deliveryTag, int flags=0) { return _implementation.ack(deliveryTag, flags); }
bool ack(const Message &message, int flags=0) { return _implementation.ack(message.deliveryTag(), flags); }
/**
* Reject or nack a message
*
* When a message was received in the ChannelHandler::onReceived() method,
* and you don't want to acknoledge it, you can also choose to reject it by
* calling this reject method.
*
* The following flags are supported:
*
* - multiple reject multiple messages: all un-acked messages that were earlier delivered are unacked too
* - requeue if set, the message is put back in the queue, otherwise it is dead-lettered/removed
*
* @param deliveryTag the unique delivery tag of the message
* @param message the original message
* @param flags optional flags
* @return bool
*/
bool reject(uint64_t deliveryTag, int flags=0) { return _implementation.reject(deliveryTag, flags); }
bool reject(const Message &message, int flags=0) { return _implementation.reject(message.deliveryTag(), flags); }
/**
* Close the current channel
* @return bool
*/
bool close()
{
return _implementation.close();
}
/**
* Get the channel we're working on
* @return uint16_t
*/
const uint16_t id() const
{
return _implementation.id();
}
};
/**
* end namespace
*/
}
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