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// $Id$
// ============================================================================
//
// = LIBRARY
// tests
//
// = FILENAME
// MT_Reactor_Upcall_Test.cpp
//
// = DESCRIPTION
// This is a test that shows how to handle upcalls from the
// TP_Reactor and the WFMO_Reactor when the event loop is being run
// by multiple threads.
//
// = AUTHOR
// Irfan Pyarali <irfan@cs.wustl.edu>
//
// ============================================================================
#include "test_config.h"
#include "ace/OS_NS_string.h"
#include "ace/OS_NS_unistd.h"
#include "ace/Reactor.h"
#include "ace/TP_Reactor.h"
#include "ace/WFMO_Reactor.h"
#include "ace/Pipe.h"
#include "ace/Task.h"
#include "ace/Get_Opt.h"
#include "ace/ACE.h"
ACE_RCSID(tests, MT_Reactor_Upcall_Test, "$Id$")
int number_of_event_loop_threads = 3;
int number_of_messages = 10;
int sleep_time_in_msec = 100;
int lock_upcall = 1;
static const char *message = "Hello there!";
class Guard
{
public:
Guard (ACE_SYNCH_MUTEX &lock)
: lock_ (lock)
{
if (lock_upcall)
lock.acquire ();
}
~Guard (void)
{
if (lock_upcall)
this->lock_.release ();
}
ACE_SYNCH_MUTEX &lock_;
};
struct Message
{
enum Type
{
DATA,
SHUTDOWN
};
Type type_;
size_t size_;
char data_[BUFSIZ];
};
class Handler : public ACE_Event_Handler
{
public:
Handler (ACE_Reactor &reactor);
int handle_input (ACE_HANDLE fd);
ACE_Pipe pipe_;
int number_of_messages_read_;
ACE_SYNCH_MUTEX lock_;
int shutdown_;
};
Handler::Handler (ACE_Reactor &reactor)
: ACE_Event_Handler (&reactor),
number_of_messages_read_ (0),
shutdown_ (0)
{
// Create the pipe.
int result
= this->pipe_.open ();
ACE_ASSERT (result == 0);
// Register for input events.
result =
this->reactor ()->register_handler (this->pipe_.read_handle (),
this,
ACE_Event_Handler::READ_MASK);
ACE_ASSERT (result == 0);
}
int
Handler::handle_input (ACE_HANDLE fd)
{
Guard monitor (this->lock_);
// If we have been shutdown, return.
if (this->shutdown_)
return 0;
// Read fixed parts of message.
Message message;
ssize_t result =
ACE::recv_n (fd,
&message.type_,
sizeof (message.type_));
if (result != ACE_static_cast (ssize_t, sizeof (message.type_)))
ACE_ERROR ((LM_ERROR, ACE_TEXT ("(%t): read %d, %p\n"),
result,
ACE_TEXT ("recv 1")));
result =
ACE::recv_n (fd,
&message.size_,
sizeof (message.size_));
if (result != ACE_static_cast (ssize_t, sizeof (message.size_)))
ACE_ERROR ((LM_ERROR, ACE_TEXT ("(%t): read %d, %p\n"),
result,
ACE_TEXT ("recv 2")));
// On shutdown message, stop the event loop.
if (message.type_ == Message::SHUTDOWN)
{
ACE_DEBUG ((LM_DEBUG, ACE_TEXT ("(%t) Shutdown message\n")));
this->shutdown_ = 1;
this->reactor ()->end_reactor_event_loop ();
// Remove self from Reactor.
return -1;
}
// Else it is a data message: read the data.
result =
ACE::recv_n (fd,
&message.data_,
message.size_);
if (result != ACE_static_cast (ssize_t, message.size_))
ACE_ERROR ((LM_ERROR, ACE_TEXT ("(%t): read %d, %p\n"),
result,
ACE_TEXT ("recv 3")));
else
{
message.data_[result] = '\0';
ACE_DEBUG ((LM_DEBUG,
ACE_TEXT ("(%t) Starting to handle message %d: %s\n"),
this->number_of_messages_read_ + 1,
message.data_));
}
// Process message (sleep).
ACE_OS::sleep (ACE_Time_Value (0,
sleep_time_in_msec * 1000));
// Keep count.
this->number_of_messages_read_++;
ACE_DEBUG ((LM_DEBUG,
ACE_TEXT ("(%t) Completed handling message %d\n"),
this->number_of_messages_read_));
return 0;
}
class Event_Loop_Task : public ACE_Task_Base
{
public:
Event_Loop_Task (ACE_Reactor &reactor);
int svc (void);
private:
ACE_Reactor &reactor_;
};
Event_Loop_Task::Event_Loop_Task (ACE_Reactor &reactor)
: reactor_ (reactor)
{
}
int
Event_Loop_Task::svc (void)
{
return this->reactor_.run_reactor_event_loop ();
}
void
test_reactor_upcall (ACE_Reactor &reactor)
{
Handler handler (reactor);
Event_Loop_Task event_loop_task (reactor);
// Start up the event loop threads.
int result =
event_loop_task.activate (THR_NEW_LWP | THR_JOINABLE,
number_of_event_loop_threads);
ACE_ASSERT (result == 0);
// Data message.
Message data_message;
data_message.type_ =
Message::DATA;
data_message.size_ =
ACE_OS::strlen (message);
ACE_OS::strcpy (data_message.data_, message);
// Send in three pieces because the struct members may not be adjacent
// in memory.
for (int i = 0;
i < number_of_messages;
++i)
{
// This should trigger a call to <handle_input>.
ssize_t sent =
ACE::send_n (handler.pipe_.write_handle (),
&data_message.type_,
sizeof (data_message.type_));
if (sent == -1)
ACE_ERROR ((LM_ERROR, ACE_TEXT ("(%t): %p\n"), ACE_TEXT ("send 1")));
sent =
ACE::send_n (handler.pipe_.write_handle (),
&data_message.size_,
sizeof (data_message.size_));
if (sent == -1)
ACE_ERROR ((LM_ERROR, ACE_TEXT ("(%t): %p\n"), ACE_TEXT ("send 2")));
sent =
ACE::send_n (handler.pipe_.write_handle (),
&data_message.data_,
data_message.size_);
if (sent == -1)
ACE_ERROR ((LM_ERROR, ACE_TEXT ("(%t): %p\n"), ACE_TEXT ("send 3")));
}
// We are done: send shutdown message.
Message shutdown_message;
shutdown_message.type_ =
Message::SHUTDOWN;
shutdown_message.size_ = 0;
// This should trigger a call to <handle_input>.
ssize_t sent = ACE::send_n (handler.pipe_.write_handle (),
&shutdown_message.type_,
sizeof (shutdown_message.type_));
if (sent == -1)
ACE_ERROR ((LM_ERROR, ACE_TEXT ("(%t): %p\n"), ACE_TEXT ("send 4")));
sent = ACE::send_n (handler.pipe_.write_handle (),
&shutdown_message.size_,
sizeof (shutdown_message.size_));
if (sent == -1)
ACE_ERROR ((LM_ERROR, ACE_TEXT ("(%t): %p\n"), ACE_TEXT ("send 5")));
// Wait for the event loop tasks to exit.
event_loop_task.wait ();
}
int
parse_args (int argc, ACE_TCHAR *argv[])
{
ACE_Get_Opt get_opt (argc, argv, ACE_TEXT ("t:m:s:l:"));
int c;
while ((c = get_opt ()) != -1)
switch (c)
{
case 't':
number_of_event_loop_threads =
ACE_OS::atoi (get_opt.opt_arg ());
break;
case 'm':
number_of_messages =
ACE_OS::atoi (get_opt.opt_arg ());
break;
case 's':
sleep_time_in_msec =
ACE_OS::atoi (get_opt.opt_arg ());
break;
case 'l':
lock_upcall =
ACE_OS::atoi (get_opt.opt_arg ());
break;
default:
ACE_ERROR_RETURN
((LM_ERROR,
ACE_TEXT ("usage: %s\n")
ACE_TEXT ("\t-m <number of messages> (defaults to %d)\n")
ACE_TEXT ("\t-t <number of event loop threads> (defaults to %d)\n")
ACE_TEXT ("\t-s <sleep time in msec> (defaults to %d)\n")
ACE_TEXT ("\t-l <lock upcall> (defaults to %d)\n")
ACE_TEXT ("\n"),
argv [0],
number_of_messages,
number_of_event_loop_threads,
sleep_time_in_msec,
lock_upcall),
-1);
}
return 0;
}
int
run_main (int argc, ACE_TCHAR *argv[])
{
ACE_START_TEST (ACE_TEXT ("MT_Reactor_Upcall_Test"));
#if defined (ACE_HAS_THREADS)
// ACE_LOG_MSG->clr_flags (ACE_Log_Msg::VERBOSE_LITE);
int result =
parse_args (argc, argv);
if (result != 0)
return result;
ACE_DEBUG ((LM_DEBUG, ACE_TEXT ("Testing TP Reactor\n")));
ACE_TP_Reactor tp_reactor_impl;
ACE_Reactor tp_reactor (&tp_reactor_impl);
test_reactor_upcall (tp_reactor);
#if defined (ACE_WIN32) && !defined (ACE_HAS_WINCE)
ACE_DEBUG ((LM_DEBUG, ACE_TEXT ("Testing WFMO Reactor\n")));
ACE_WFMO_Reactor wfmo_reactor_impl;
ACE_Reactor wfmo_reactor (&wfmo_reactor_impl);
test_reactor_upcall (wfmo_reactor);
#endif /* ACE_WIN32 && !ACE_HAS_WINCE */
#else /* ACE_HAS_THREADS */
ACE_UNUSED_ARG(argc);
ACE_UNUSED_ARG(argv);
ACE_ERROR ((LM_INFO,
ACE_TEXT ("threads not supported on this platform\n")));
#endif /* ACE_HAS_THREADS */
ACE_END_TEST;
return 0;
}
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