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// $Id$
#include "sender.h"
#include "tao/debug.h"
#include "ace/Get_Opt.h"
#include "ace/Argv_Type_Converter.h"
#include "ace/High_Res_Timer.h"
// Create a singleton instance of the Sender.
// An Unmanaged_Singleton is used to avoid static object destruction
// order related problems since the underlying singleton object
// contains references to static TypeCodes.
typedef ACE_Unmanaged_Singleton<Sender, ACE_Null_Mutex> SENDER;
int
Sender_StreamEndPoint::get_callback (const char *,
TAO_AV_Callback *&callback)
{
// Create and return the sender application callback to AVStreams
// for further upcalls.
callback = &this->callback_;
return 0;
}
int
Sender_StreamEndPoint::set_protocol_object (const char *,
TAO_AV_Protocol_Object *object)
{
// Set the sender protocol object corresponding to the transport
// protocol selected.
SENDER::instance ()->protocol_object (object);
return 0;
}
Sender::Sender (void)
: sender_mmdevice_ (0),
streamctrl_ (0),
frame_count_ (0),
filename_ ("input"),
input_file_ (0),
protocol_ ("UDP"),
frame_rate_ (30),
mb_ (BUFSIZ)
{
}
void
Sender::protocol_object (TAO_AV_Protocol_Object *object)
{
// Set the sender protocol object corresponding to the transport
// protocol selected.
this->protocol_object_.insert (object);
}
void
Sender::shutdown (ACE_ENV_SINGLE_ARG_DECL)
{
// File reading is complete, destroy the stream.
AVStreams::flowSpec stop_spec;
this->streamctrl_->destroy (stop_spec
ACE_ENV_ARG_PARAMETER);
ACE_CHECK;
// Shut the orb down.
TAO_AV_CORE::instance ()->orb ()->shutdown (0
ACE_ENV_ARG_PARAMETER);
ACE_CHECK;
}
int
Sender::parse_args (int argc, char **argv)
{
// Parse command line arguments
ACE_Get_Arg_Opt<char> opts (argc, argv, "f:p:r:d");
int c;
while ((c= opts ()) != -1)
{
switch (c)
{
case 'f':
this->filename_ = opts.opt_arg ();
break;
case 'p':
this->protocol_ = opts.opt_arg ();
break;
case 'r':
this->frame_rate_ = ACE_OS::atoi (opts.opt_arg ());
break;
case 'd':
TAO_debug_level++;
break;
default:
ACE_DEBUG ((LM_DEBUG, "Unknown Option\n"));
return -1;
}
}
return 0;
}
// Method to get the object reference of the receiver
int
Sender::bind_to_receiver (ACE_ENV_SINGLE_ARG_DECL)
{
CosNaming::Name name (1);
name.length (1);
name [0].id =
CORBA::string_dup ("Receiver");
// Resolve the receiver object reference from the Naming Service
CORBA::Object_var receiver_mmdevice_obj =
this->naming_client_->resolve (name
ACE_ENV_ARG_PARAMETER);
ACE_CHECK_RETURN (-1);
this->receiver_mmdevice_ =
AVStreams::MMDevice::_narrow (receiver_mmdevice_obj.in ()
ACE_ENV_ARG_PARAMETER);
ACE_CHECK_RETURN (-1);
if (CORBA::is_nil (this->receiver_mmdevice_.in ()))
ACE_ERROR_RETURN ((LM_ERROR,
"Could not resolve Receiver_MMdevice in Naming service <%s>\n"),
-1);
return 0;
}
int
Sender::init (int argc,
char **argv
ACE_ENV_ARG_DECL)
{
// Initialize the endpoint strategy with the orb and poa.
int result =
this->endpoint_strategy_.init (TAO_AV_CORE::instance ()->orb (),
TAO_AV_CORE::instance ()->poa ());
if (result != 0)
return result;
// Initialize the naming services
result =
this->naming_client_.init (TAO_AV_CORE::instance ()->orb ());
if (result != 0)
return result;
// Parse the command line arguments
result =
this->parse_args (argc,
argv);
if (result != 0)
return result;
// Open file to read.
this->input_file_ =
ACE_OS::fopen (this->filename_.c_str (),
ACE_TEXT("r"));
if (this->input_file_ == 0)
ACE_ERROR_RETURN ((LM_DEBUG,
"Cannot open input file %s\n",
this->filename_.c_str ()),
-1);
else
ACE_DEBUG ((LM_DEBUG,
"File opened successfully\n"));
// Resolve the object reference of the receiver from the Naming Service.
result = this->bind_to_receiver (ACE_ENV_SINGLE_ARG_PARAMETER);
ACE_CHECK_RETURN (-1);
if (result != 0)
ACE_ERROR_RETURN ((LM_ERROR,
"(%P|%t) Error binding to the naming service\n"),
-1);
// Initialize the QoS
AVStreams::streamQoS_var the_qos (new AVStreams::streamQoS);
// Create the forward flow specification to describe the flow.
TAO_Forward_FlowSpec_Entry entry ("Data_Receiver_One",
"IN",
"USER_DEFINED",
"",
this->protocol_.c_str (),
0);
AVStreams::flowSpec flow_spec (1);
flow_spec.length (2);
flow_spec [0] = CORBA::string_dup (entry.entry_to_string ());
// Create the forward flow specification to describe the flow.
TAO_Forward_FlowSpec_Entry entry1 ("Data_Receiver_Two",
"IN",
"USER_DEFINED",
"",
this->protocol_.c_str (),
0);
flow_spec [1] = CORBA::string_dup (entry1.entry_to_string ());
// Register the sender mmdevice object with the ORB
ACE_NEW_RETURN (this->sender_mmdevice_,
TAO_MMDevice (&this->endpoint_strategy_),
-1);
// Servant Reference Counting to manage lifetime
PortableServer::ServantBase_var safe_mmdevice =
this->sender_mmdevice_;
AVStreams::MMDevice_var mmdevice =
this->sender_mmdevice_->_this (ACE_ENV_SINGLE_ARG_PARAMETER);
ACE_CHECK_RETURN (-1);
ACE_NEW_RETURN (this->streamctrl_,
TAO_StreamCtrl,
-1);
PortableServer::ServantBase_var safe_streamctrl =
this->streamctrl_;
// Bind/Connect the sender and receiver MMDevices.
CORBA::Boolean bind_result =
this->streamctrl_->bind_devs (mmdevice.in (),
this->receiver_mmdevice_.in (),
the_qos.inout (),
flow_spec
ACE_ENV_ARG_PARAMETER);
ACE_CHECK_RETURN (-1);
if (bind_result == 0)
ACE_ERROR_RETURN ((LM_ERROR,
"streamctrl::bind_devs failed\n"),
-1);
return 0;
}
// Method to send data at the specified rate
int
Sender::pace_data (ACE_ENV_SINGLE_ARG_DECL)
{
// The time that should lapse between two consecutive frames sent.
ACE_Time_Value inter_frame_time;
// The time between two consecutive frames.
inter_frame_time.set (1 / (double) this->frame_rate_);
if (TAO_debug_level > 0)
ACE_DEBUG ((LM_DEBUG,
"Frame Rate = %d / second\n"
"Inter Frame Time = %d (msec)\n",
this->frame_rate_,
inter_frame_time.msec ()));
ACE_TRY
{
// The time taken for sending a frame and preparing for the next frame
ACE_High_Res_Timer elapsed_timer;
// Continue to send data till the file is read to the end.
while (1)
{
// Read from the file into a message block.
int n = ACE_OS::fread (this->mb_.wr_ptr (),
1,
this->mb_.size (),
this->input_file_);
if (n < 0)
ACE_ERROR_RETURN ((LM_ERROR,
"Sender::pace_data fread failed\n"),
-1);
if (n == 0)
{
// At end of file break the loop and end the sender.
if (TAO_debug_level > 0)
ACE_DEBUG ((LM_DEBUG,"Handle_Start:End of file\n"));
break;
}
this->mb_.wr_ptr (n);
if (this->frame_count_ > 1)
{
//
// Second frame and beyond
//
// Stop the timer that was started just before the previous frame was sent.
elapsed_timer.stop ();
// Get the time elapsed after sending the previous frame.
ACE_Time_Value elapsed_time;
elapsed_timer.elapsed_time (elapsed_time);
if (TAO_debug_level > 0)
ACE_DEBUG ((LM_DEBUG,
"Elapsed Time = %d\n",
elapsed_time.msec ()));
// Check to see if the inter frame time has elapsed.
if (elapsed_time < inter_frame_time)
{
// Inter frame time has not elapsed.
// Calculate the time to wait before the next frame needs to be sent.
ACE_Time_Value wait_time (inter_frame_time - elapsed_time);
if (TAO_debug_level > 0)
ACE_DEBUG ((LM_DEBUG,
"Wait Time = %d\n",
wait_time.msec ()));
// Run the orb for the wait time so the sender can
// continue other orb requests.
TAO_AV_CORE::instance ()->orb ()->run (wait_time
ACE_ENV_ARG_PARAMETER);
ACE_TRY_CHECK;
}
}
// Start timer before sending the frame.
elapsed_timer.start ();
ProtocolObject_SetItor end = this->protocol_object_.end ();
for (ProtocolObject_SetItor begin = this->protocol_object_.begin ();
begin != end; ++begin)
{
// Send frame.
int result =
(*begin)->send_frame (&this->mb_);
if (result < 0)
ACE_ERROR_RETURN ((LM_ERROR,
"send failed:%p",
"Sender::pace_data send\n"),
-1);
}
ACE_DEBUG ((LM_DEBUG,
"Sender::pace_data frame %d was sent succesfully\n",
++this->frame_count_));
// Reset the message block.
this->mb_.reset ();
} // end while
this->shutdown (ACE_ENV_SINGLE_ARG_PARAMETER);
ACE_TRY_CHECK;
}
ACE_CATCHANY
{
ACE_PRINT_EXCEPTION (ACE_ANY_EXCEPTION,
"Sender::pace_data Failed\n");
return -1;
}
ACE_ENDTRY;
return 0;
}
int
ACE_TMAIN (int argc,
ACE_TCHAR **argv)
{
ACE_Argv_Type_Converter convert (argc, argv);
ACE_DECLARE_NEW_CORBA_ENV;
ACE_TRY
{
CORBA::ORB_var orb =
CORBA::ORB_init (convert.get_argc(), convert.get_ASCII_argv(),
0
ACE_ENV_ARG_PARAMETER);
ACE_TRY_CHECK;
CORBA::Object_var obj
= orb->resolve_initial_references ("RootPOA"
ACE_ENV_ARG_PARAMETER);
ACE_TRY_CHECK;
// Get the POA_var object from Object_var
PortableServer::POA_var root_poa
= PortableServer::POA::_narrow (obj.in ()
ACE_ENV_ARG_PARAMETER);
ACE_TRY_CHECK;
PortableServer::POAManager_var mgr
= root_poa->the_POAManager (ACE_ENV_SINGLE_ARG_PARAMETER);
ACE_TRY_CHECK;
mgr->activate (ACE_ENV_SINGLE_ARG_PARAMETER);
ACE_TRY_CHECK;
// Initialize the AV Stream components.
TAO_AV_CORE::instance ()->init (orb.in (),
root_poa.in ()
ACE_ENV_ARG_PARAMETER);
ACE_TRY_CHECK;
// Initialize the Sender.
int result = 0;
result = SENDER::instance ()->init (convert.get_argc(), convert.get_ASCII_argv()
ACE_ENV_ARG_PARAMETER);
ACE_TRY_CHECK;
if (result < 0)
ACE_ERROR_RETURN ((LM_ERROR,
"Sender::init failed\n"),
-1);
// Start sending data.
result = SENDER::instance ()->pace_data (ACE_ENV_SINGLE_ARG_PARAMETER);
ACE_TRY_CHECK;
}
ACE_CATCHANY
{
ACE_PRINT_EXCEPTION (ACE_ANY_EXCEPTION,
"Sender Failed\n");
return -1;
}
ACE_ENDTRY;
ACE_CHECK_RETURN (-1);
SENDER::close (); // Explicitly finalize the Unmanaged_Singleton.
return 0;
}
#if defined (ACE_HAS_EXPLICIT_STATIC_TEMPLATE_MEMBER_INSTANTIATION)
template ACE_Unmanaged_Singleton<Sender, ACE_Null_Mutex> *ACE_Unmanaged_Singleton<Sender, ACE_Null_Mutex>::singleton_;
#endif /* ACE_HAS_EXPLICIT_STATIC_TEMPLATE_MEMBER_INSTANTIATION */
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