/* -*- C++ -*- */ //============================================================================= /** * @file Sender_QoS_Event_Handler.cpp * * @author Vishal Kachroo */ //============================================================================= #include "Sender_QoS_Event_Handler.h" #include "ace/Log_Msg.h" #include "Fill_ACE_QoS.h" // Constructor. Sender_QoS_Event_Handler::Sender_QoS_Event_Handler (void) { } // Constructor. Sender_QoS_Event_Handler::Sender_QoS_Event_Handler (const ACE_SOCK_Dgram_Mcast_QoS &dgram_mcast_qos, ACE_QoS_Session *qos_session) : dgram_mcast_qos_ (dgram_mcast_qos), qos_session_ (qos_session) { } // Destructor. Sender_QoS_Event_Handler::~Sender_QoS_Event_Handler (void) { } // Return the handle of the Dgram_Mcast. This method is called // internally by the reactor. ACE_HANDLE Sender_QoS_Event_Handler::get_handle () const { return this->dgram_mcast_qos_.get_handle (); } // Handle the QoS Event. In this case send data to the receiver // using WSASendTo() that uses overlapped I/O. int Sender_QoS_Event_Handler::handle_qos (ACE_HANDLE) { ACE_DEBUG ((LM_DEBUG, "\nReceived a QOS event. Inside handle_qos ()\n")); // We have received an RSVP event. The following update_qos () call // calls rapi_dispatch () in case of RAPI and WSAIoctl (GET_QOS) in // case of W2K. It then does the QoS parameter translation and updates // the QoS session object with the latest QoS. This call replaces the // direct call that was being made to WSAIoctl (GET_QOS) here for the // Win2K example. if (this->qos_session_->update_qos () == -1) ACE_ERROR_RETURN ((LM_ERROR, "Error in updating QoS\n"), -1); else ACE_DEBUG ((LM_DEBUG, " Updating QOS succeeds.\n")); // Now proactively query the QoS object for QoS. ACE_QoS ace_get_qos = this->qos_session_->qos (); ACE_DEBUG ((LM_DEBUG, "\nReceiving Flowspec :\t\t\tSending Flowspec :\n\n" "\tToken Rate = %d\t\t\tToken Rate = %d\n" "\tToken Bucket Size = %d\t\t\tToken Bucket Size = %d\n" "\tPeak Bandwidth = %d\t\t\tPeak Bandwidth = %d\n" "\tLatency = %d\t\t\t\tLatency = %d\n" "\tDelay Variation = %d\t\t\tDelay Variation = %d\n" "\tService Type = %d\t\t\tService Type = %d\n" "\tMax SDU Size = %d\t\t\tMax SDU Size = %d\n" "\tMinimum Policed Size = %d\t\tMinimum Policed Size = %d\n\n", ace_get_qos.receiving_flowspec ()->token_rate (), ace_get_qos.sending_flowspec ()->token_rate (), ace_get_qos.receiving_flowspec ()->token_bucket_size (), ace_get_qos.sending_flowspec ()->token_bucket_size (), ace_get_qos.receiving_flowspec ()->peak_bandwidth (), ace_get_qos.sending_flowspec ()->peak_bandwidth (), ace_get_qos.receiving_flowspec ()->latency (), ace_get_qos.sending_flowspec ()->latency (), ace_get_qos.receiving_flowspec ()->delay_variation (), ace_get_qos.sending_flowspec ()->delay_variation (), ace_get_qos.receiving_flowspec ()->service_type (), ace_get_qos.sending_flowspec ()->service_type (), ace_get_qos.receiving_flowspec ()->max_sdu_size (), ace_get_qos.sending_flowspec ()->max_sdu_size (), ace_get_qos.receiving_flowspec ()->minimum_policed_size (), ace_get_qos.sending_flowspec ()->minimum_policed_size ())); // This is SPECIFIC TO WIN2K and should be done in the qos_update function. // ACE_QoS ace_get_qos; // u_long dwBytes; // if (ACE_OS::ioctl (this->dgram_mcast_qos_.get_handle (), // ACE_SIO_GET_QOS, // ace_get_qos, // &dwBytes) == -1) // ACE_ERROR ((LM_ERROR, // "Error in Qos get ACE_OS::ioctl ()\n" // "Bytes Returned = %d\n", // dwBytes)); // else // ACE_DEBUG ((LM_DEBUG, // "Getting QOS using ACE_OS::ioctl () succeeds.\n")); const char* msg = "Hello sent on a QoS enabled session !!\n"; iovec iov[1]; iov[0].iov_base = const_cast(msg); iov[0].iov_len = ACE_OS::strlen(msg); size_t bytes_sent = 0; // Send "Hello" to the QoS session address to which the receiver has // subscribed. if (this->dgram_mcast_qos_.send (iov, 1, bytes_sent, 0, this->qos_session_->dest_addr (), 0, 0) == -1) ACE_ERROR_RETURN ((LM_ERROR, "Error in dgram_mcast.send ()\n"), -1); else ACE_DEBUG ((LM_DEBUG, "Using ACE_OS::sendto () : Bytes sent : %d", bytes_sent)); return 0; }