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// $Id$
// ============================================================================
//
// = LIBRARY
// tests
//
// = FILENAME
// Message_Block_Test.cpp
//
// = DESCRIPTION
// This test program is a torture test that illustrates how
// ACE_Message_Block reference counting works in multi-threaded
// code.
//
// = AUTHOR
// Doug Schmidt and Nanbor Wang
//
// ============================================================================
#include "test_config.h"
#include "ace/Task.h"
#include "ace/Malloc.h"
#include "ace/Profile_Timer.h"
#include "ace/Free_List.h"
ACE_RCSID(tests, Message_Block_Test, "$Id$")
#if defined(__BORLANDC__) && __BORLANDC__ >= 0x0530
USELIB("..\ace\aced.lib");
//---------------------------------------------------------------------------
#endif /* defined(__BORLANDC__) && __BORLANDC__ >= 0x0530 */
// Number of memory allocation strategies used in this test.
static const int ACE_ALLOC_STRATEGY_NO = 2;
// Size of a memory block (multiple of ACE_MALLOC_ALIGN).
static const int ACE_ALLOC_SIZE = 5;
// Amount of memory block preallocated.
static const size_t ACE_ALLOC_AMOUNT = 48;
#if defined (ACE_HAS_THREADS)
// Number of iterations to run the test.
static size_t n_iterations = ACE_MAX_ITERATIONS;
static ACE_Lock_Adapter<ACE_SYNCH_MUTEX> lock_adapter_;
// Serialize access to <ACE_Message_Block> reference count, which will
// be decremented from multiple threads.
class Worker_Task : public ACE_Task<ACE_MT_SYNCH>
{
public:
Worker_Task (void);
// Activate the task.
virtual int svc (void);
// Iterate <n_iterations> time printing off a message and "waiting"
// for all other threads to complete this iteration.
virtual int put (ACE_Message_Block *mb, ACE_Time_Value *tv = 0);
// Allows the producer to pass messages to the <Message_Block>.
private:
virtual int close (u_long);
// Close hook.
};
int
Worker_Task::close (u_long)
{
ACE_DEBUG ((LM_DEBUG, ASYS_TEXT ("(%t) close of worker\n")));
return 0;
}
// Simply enqueue the Worker_Task into the end of the queue.
int
Worker_Task::put (ACE_Message_Block *mb, ACE_Time_Value *tv)
{
return this->msg_queue ()->enqueue_prio (mb, tv);
}
// Iterate <n_iterations> printing off a message and "waiting" for all
// other threads to complete this iteration.
int
Worker_Task::svc (void)
{
// The <ACE_Task::svc_run()> method automatically adds us to the
// process-wide <ACE_Thread_Manager> when the thread begins.
ACE_DEBUG ((LM_DEBUG,
ASYS_TEXT ("(%t) starting svc() method\n")));
// Keep looping, reading a message out of the queue, until we get a
// message with a length == 0, which signals us to quit.
for (int count = 0; ; count++)
{
ACE_Message_Block *mb;
ACE_ASSERT (this->msg_queue ()->dequeue_head (mb) != -1);
int length = mb->length ();
// If there's a next() Task then "logically" copy the message by
// calling <duplicate> and send it on down the pipeline. Note
// that this doesn't actually make a copy of the message
// contents (i.e., the Data_Block portion), it just makes a copy
// of the header and reference counts the data.
if (this->next () != 0)
ACE_ASSERT (this->put_next (mb->duplicate ()) != -1);
// If there's no next() Task to send to, then we'll consume the
// message here.
else if (length > 0)
{
int current_count = ACE_OS::atoi (mb->rd_ptr ());
int i;
ACE_ASSERT (count == current_count);
ACE_DEBUG ((LM_DEBUG,
ASYS_TEXT ("(%t) enqueueing %d duplicates\n"),
current_count));
ACE_Message_Block *dup;
// Enqueue <current_count> duplicates with msg_priority == 1.
for (i = current_count; i > 0; i--)
{
ACE_ALLOCATOR_RETURN (dup,
mb->duplicate (),
-1);
// Set the priority to be greater than "normal"
// messages. Therefore, all of these messages should go
// to the "front" of the queue, i.e., ahead of all the
// other messages that are being enqueued by other
// threads.
dup->msg_priority (1);
ACE_ASSERT (this->msg_queue ()->enqueue_prio
(dup,
// Don't block indefinitely if we flow control...
(ACE_Time_Value *) &ACE_Time_Value::zero) != -1);
}
ACE_DEBUG ((LM_DEBUG,
ASYS_TEXT ("(%t) dequeueing %d duplicates\n"),
current_count));
// Dequeue the same <current_count> duplicates.
for (i = current_count; i > 0; i--)
{
ACE_ASSERT (this->msg_queue ()->dequeue_head (dup) != -1);
ACE_ASSERT (count == ACE_OS::atoi (dup->rd_ptr ()));
ACE_ASSERT (ACE_OS::strcmp (mb->rd_ptr (), dup->rd_ptr ()) == 0);
ACE_ASSERT (dup->msg_priority () == 1);
dup->release ();
}
ACE_DEBUG ((LM_DEBUG,
ASYS_TEXT ("(%t) in iteration %d, length = %d, prio = %d, text = \"%*s\"\n"),
count,
length,
mb->msg_priority (),
length - 2, // remove the trailing "\n\0"
mb->rd_ptr ()));
}
// We're responsible for deallocating this.
mb->release ();
if (length == 0)
{
ACE_DEBUG ((LM_DEBUG,
ASYS_TEXT ("(%t) in iteration %d, queue len = %d, got NULL message, exiting\n"),
count, this->msg_queue ()->message_count ()));
break;
}
}
// Note that the ACE_Task::svc_run () method automatically removes
// us from the Thread_Manager when the thread exits.
return 0;
}
Worker_Task::Worker_Task (void)
{
// Make us an Active Object.
if (this->activate (THR_NEW_LWP) == -1)
ACE_ERROR ((LM_ERROR,
ASYS_TEXT ("%p\n"),
ASYS_TEXT ("activate failed")));
}
static int
produce (Worker_Task &worker_task,
ACE_Allocator *alloc_strategy)
{
ACE_Message_Block *mb;
// Send <n_iteration> messages through the pipeline.
for (size_t count = 0; count < n_iterations; count++)
{
ASYS_TCHAR buf[BUFSIZ];
ACE_OS::sprintf (buf, ASYS_TEXT ("%d\n"), count);
int n = (ACE_OS::strlen (buf) + 1) * sizeof (ASYS_TCHAR);
// Allocate a new message.
ACE_NEW_RETURN (mb,
ACE_Message_Block (n, // size
ACE_Message_Block::MB_DATA, // type
0, // cont
0, // data
alloc_strategy, // allocator
&lock_adapter_, // locking strategy
0), // priority
-1);
// Copy buf into the Message_Block and update the wr_ptr ().
mb->copy ((char *) buf, n);
// Pass the message to the Worker_Task.
if (worker_task.put (mb,
// Don't block indefinitely if we flow control...
(ACE_Time_Value *) &ACE_Time_Value::zero) == -1)
ACE_ERROR ((LM_ERROR,
ASYS_TEXT (" (%t) %p\n"),
ASYS_TEXT ("put")));
}
// Send a shutdown message to the waiting threads and exit.
ACE_DEBUG ((LM_DEBUG,
ASYS_TEXT ("\n(%t) sending shutdown message\n")));
ACE_NEW_RETURN (mb,
ACE_Message_Block (0,
ACE_Message_Block::MB_DATA,
0,
0,
alloc_strategy,
&lock_adapter_),
-1);
if (worker_task.put (mb) == -1)
ACE_ERROR ((LM_ERROR,
ASYS_TEXT (" (%t) %p\n"),
ASYS_TEXT ("put")));
ACE_DEBUG ((LM_DEBUG,
ASYS_TEXT ("\n(%t) end producer\n")));
return 0;
}
typedef ASYS_TCHAR MEMORY_CHUNK[ACE_MALLOC_ALIGN * ACE_ALLOC_SIZE];
ACE_Cached_Allocator<MEMORY_CHUNK,
ACE_SYNCH_MUTEX>
mem_allocator (ACE_ALLOC_AMOUNT);
struct
{
ACE_Allocator *strategy_;
const ASYS_TCHAR *name_;
ACE_Profile_Timer::ACE_Elapsed_Time et_;
} alloc_struct[ACE_ALLOC_STRATEGY_NO] =
{
{ NULL, ASYS_TEXT ("Default"), {0,0,0} },
{ &mem_allocator, ASYS_TEXT ("Cached Memory"), {0,0,0} }
};
#if defined (ACE_HAS_EXPLICIT_TEMPLATE_INSTANTIATION)
template class ACE_Cached_Allocator<MEMORY_CHUNK, ACE_SYNCH_MUTEX>;
template class ACE_Cached_Mem_Pool_Node<MEMORY_CHUNK>;
template class ACE_Locked_Free_List<ACE_Cached_Mem_Pool_Node<MEMORY_CHUNK>, ACE_SYNCH_MUTEX>;
template class ACE_Free_List<ACE_Cached_Mem_Pool_Node<MEMORY_CHUNK> >;
template class ACE_Lock_Adapter<ACE_SYNCH_MUTEX>;
#elif defined (ACE_HAS_TEMPLATE_INSTANTIATION_PRAGMA)
#pragma instantiate ACE_Cached_Allocator<MEMORY_CHUNK, ACE_SYNCH_MUTEX>
#pragma instantiate ACE_Cached_Mem_Pool_Node<MEMORY_CHUNK>
#pragma instantiate ACE_Locked_Free_List<ACE_Cached_Mem_Pool_Node<MEMORY_CHUNK>, ACE_SYNCH_MUTEX>
#pragma instantiate ACE_Free_List<ACE_Cached_Mem_Pool_Node<MEMORY_CHUNK> >
#pragma instantiate ACE_Lock_Adapter<ACE_SYNCH_MUTEX>
#endif /* ACE_HAS_EXPLICIT_TEMPLATE_INSTANTIATION */
#endif /* ACE_HAS_THREADS */
int
main (int, ASYS_TCHAR *[])
{
ACE_START_TEST (ASYS_TEXT ("Message_Block_Test"));
#if defined (ACE_HAS_THREADS)
int n_threads = ACE_MAX_THREADS;
ACE_DEBUG ((LM_DEBUG, ASYS_TEXT ("(%t) threads = %d\n"), n_threads));
ACE_Profile_Timer ptime;
int i;
for (i = 0; i < ACE_ALLOC_STRATEGY_NO; i++)
{
ACE_DEBUG ((LM_DEBUG,
ASYS_TEXT ("(%t) Start Message_Block_Test using %s allocation strategy\n"),
alloc_struct[i].name_));
// Create the worker tasks.
Worker_Task worker_task[ACE_MAX_THREADS] ;
// Link all the tasks together into a simple pipeline.
for (size_t j = 1; j < ACE_MAX_THREADS; j++)
worker_task[j - 1].next (&worker_task[j]);
ptime.start ();
// Generate messages and pass them through the pipeline.
produce (worker_task[0], alloc_struct[i].strategy_);
// Wait for all the threads to reach their exit point.
ACE_DEBUG ((LM_DEBUG,
ASYS_TEXT ("(%t) waiting for worker tasks to finish...\n")));
ACE_Thread_Manager::instance ()->wait ();
ptime.stop ();
ptime.elapsed_time (alloc_struct[i].et_);
ACE_DEBUG ((LM_DEBUG,
ASYS_TEXT ("(%t) destroying worker tasks\n")));
}
for (i = 0; i < ACE_ALLOC_STRATEGY_NO; i++)
ACE_DEBUG ((LM_DEBUG,
ASYS_TEXT ("Elapsed time using %s allocation strategy: %f sec\n"),
alloc_struct[i].name_,
alloc_struct[i].et_.real_time));
ACE_DEBUG ((LM_DEBUG,
ASYS_TEXT ("(%t) Exiting...\n")));
#else
ACE_ERROR ((LM_INFO,
ASYS_TEXT ("threads not supported on this platform\n")));
#endif /* ACE_HAS_THREADS */
ACE_END_TEST;
return 0;
}
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