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// $Id$
// ACE_RCSID(ace, Proactor, "$Id$")
#include "ace/WIN32_Proactor.h"
#if (defined (ACE_WIN32) && !defined (ACE_HAS_WINCE))
// WIN implemenatation of the Proactor.
#include "ace/Log_Msg.h"
#include "ace/Object_Manager.h"
#if !defined (__ACE_INLINE__)
#include "ace/WIN32_Proactor.i"
#endif /* __ACE_INLINE__ */
class ACE_Export ACE_WIN32_Wakeup_Completion : public ACE_WIN32_Asynch_Result
{
// = TITLE
// This is result object is used by the <end_event_loop> of the
// ACE_Proactor interface to wake up all the threads blocking
// for completions.
public:
ACE_WIN32_Wakeup_Completion (ACE_Handler &handler,
const void *act = 0,
ACE_HANDLE event = ACE_INVALID_HANDLE,
int priority = 0,
int signal_number = ACE_SIGRTMIN);
// Constructor.
virtual ~ACE_WIN32_Wakeup_Completion (void);
// Destructor.
virtual void complete (u_long bytes_transferred = 0,
int success = 1,
const void *completion_key = 0,
u_long error = 0);
// This method calls the <handler>'s <handle_wakeup> method.
};
ACE_WIN32_Proactor::ACE_WIN32_Proactor (size_t number_of_threads,
int used_with_reactor_event_loop)
: completion_port_ (0),
// This *MUST* be 0, *NOT* ACE_INVALID_HANDLE !!!
number_of_threads_ (number_of_threads),
used_with_reactor_event_loop_ (used_with_reactor_event_loop)
{
// Create the completion port.
this->completion_port_ = ::CreateIoCompletionPort (INVALID_HANDLE_VALUE,
0,
0,
this->number_of_threads_);
if (this->completion_port_ == 0)
ACE_ERROR ((LM_ERROR,
ASYS_TEXT ("%p\n"),
ASYS_TEXT ("CreateIoCompletionPort")));
}
ACE_WIN32_Proactor::~ACE_WIN32_Proactor (void)
{
this->close ();
}
int
ACE_WIN32_Proactor::close (void)
{
// Close the completion port
if (this->completion_port_ != 0)
{
int result = ACE_OS::close (this->completion_port_);
this->completion_port_ = 0;
return result;
}
return 0;
}
int
ACE_WIN32_Proactor::register_handle (ACE_HANDLE handle,
const void *completion_key)
{
// No locking is needed here as no state changes.
ACE_HANDLE cp = ::CreateIoCompletionPort (handle,
this->completion_port_,
(u_long) completion_key,
this->number_of_threads_);
if (cp == 0)
{
ACE_OS::set_errno_to_last_error ();
// If errno == ERROR_INVALID_PARAMETER, then this handle was
// already registered.
if (errno != ERROR_INVALID_PARAMETER)
{
if (ACE::debug ())
{
ACE_DEBUG ((LM_ERROR,
ASYS_TEXT ("%p\n"),
ASYS_TEXT ("CreateIoCompletionPort")));
}
return -1;
}
}
return 0;
}
ACE_Asynch_Read_Stream_Impl *
ACE_WIN32_Proactor::create_asynch_read_stream (void)
{
ACE_Asynch_Read_Stream_Impl *implementation = 0;
ACE_NEW_RETURN (implementation,
ACE_WIN32_Asynch_Read_Stream (this),
0);
return implementation;
}
ACE_Asynch_Write_Stream_Impl *
ACE_WIN32_Proactor::create_asynch_write_stream (void)
{
ACE_Asynch_Write_Stream_Impl *implementation = 0;
ACE_NEW_RETURN (implementation,
ACE_WIN32_Asynch_Write_Stream (this),
0);
return implementation;
}
ACE_Asynch_Read_File_Impl *
ACE_WIN32_Proactor::create_asynch_read_file (void)
{
ACE_Asynch_Read_File_Impl *implementation = 0;
ACE_NEW_RETURN (implementation,
ACE_WIN32_Asynch_Read_File (this),
0);
return implementation;
}
ACE_Asynch_Write_File_Impl *
ACE_WIN32_Proactor::create_asynch_write_file (void)
{
ACE_Asynch_Write_File_Impl *implementation = 0;
ACE_NEW_RETURN (implementation,
ACE_WIN32_Asynch_Write_File (this),
0);
return implementation;
}
ACE_Asynch_Accept_Impl *
ACE_WIN32_Proactor::create_asynch_accept (void)
{
ACE_Asynch_Accept_Impl *implementation = 0;
ACE_NEW_RETURN (implementation,
ACE_WIN32_Asynch_Accept (this),
0);
return implementation;
}
ACE_Asynch_Transmit_File_Impl *
ACE_WIN32_Proactor::create_asynch_transmit_file (void)
{
ACE_Asynch_Transmit_File_Impl *implementation = 0;
ACE_NEW_RETURN (implementation,
ACE_WIN32_Asynch_Transmit_File (this),
0);
return implementation;
}
ACE_Asynch_Read_Stream_Result_Impl *
ACE_WIN32_Proactor::create_asynch_read_stream_result (ACE_Handler &handler,
ACE_HANDLE handle,
ACE_Message_Block &message_block,
u_long bytes_to_read,
const void* act,
ACE_HANDLE event,
int priority,
int signal_number)
{
ACE_Asynch_Read_Stream_Result_Impl *implementation = 0;
ACE_NEW_RETURN (implementation,
ACE_WIN32_Asynch_Read_Stream_Result (handler,
handle,
message_block,
bytes_to_read,
act,
event,
priority,
signal_number),
0);
return implementation;
}
ACE_Asynch_Write_Stream_Result_Impl *
ACE_WIN32_Proactor::create_asynch_write_stream_result (ACE_Handler &handler,
ACE_HANDLE handle,
ACE_Message_Block &message_block,
u_long bytes_to_write,
const void* act,
ACE_HANDLE event,
int priority,
int signal_number)
{
ACE_Asynch_Write_Stream_Result_Impl *implementation = 0;
ACE_NEW_RETURN (implementation,
ACE_WIN32_Asynch_Write_Stream_Result (handler,
handle,
message_block,
bytes_to_write,
act,
event,
priority,
signal_number),
0);
return implementation;
}
ACE_Asynch_Read_File_Result_Impl *
ACE_WIN32_Proactor::create_asynch_read_file_result (ACE_Handler &handler,
ACE_HANDLE handle,
ACE_Message_Block &message_block,
u_long bytes_to_read,
const void* act,
u_long offset,
u_long offset_high,
ACE_HANDLE event,
int priority,
int signal_number)
{
ACE_Asynch_Read_File_Result_Impl *implementation = 0;
ACE_NEW_RETURN (implementation,
ACE_WIN32_Asynch_Read_File_Result (handler,
handle,
message_block,
bytes_to_read,
act,
offset,
offset_high,
event,
priority,
signal_number),
0);
return implementation;
}
ACE_Asynch_Write_File_Result_Impl *
ACE_WIN32_Proactor::create_asynch_write_file_result (ACE_Handler &handler,
ACE_HANDLE handle,
ACE_Message_Block &message_block,
u_long bytes_to_write,
const void* act,
u_long offset,
u_long offset_high,
ACE_HANDLE event,
int priority,
int signal_number)
{
ACE_Asynch_Write_File_Result_Impl *implementation = 0;
ACE_NEW_RETURN (implementation,
ACE_WIN32_Asynch_Write_File_Result (handler,
handle,
message_block,
bytes_to_write,
act,
offset,
offset_high,
event,
priority,
signal_number),
0);
return implementation;
}
ACE_Asynch_Accept_Result_Impl *
ACE_WIN32_Proactor::create_asynch_accept_result (ACE_Handler &handler,
ACE_HANDLE listen_handle,
ACE_HANDLE accept_handle,
ACE_Message_Block &message_block,
u_long bytes_to_read,
const void* act,
ACE_HANDLE event,
int priority,
int signal_number)
{
ACE_Asynch_Accept_Result_Impl *implementation = 0;
ACE_NEW_RETURN (implementation,
ACE_WIN32_Asynch_Accept_Result (handler,
listen_handle,
accept_handle,
message_block,
bytes_to_read,
act,
event,
priority,
signal_number),
0);
return implementation;
}
ACE_Asynch_Transmit_File_Result_Impl *
ACE_WIN32_Proactor::create_asynch_transmit_file_result (ACE_Handler &handler,
ACE_HANDLE socket,
ACE_HANDLE file,
ACE_Asynch_Transmit_File::Header_And_Trailer *header_and_trailer,
u_long bytes_to_write,
u_long offset,
u_long offset_high,
u_long bytes_per_send,
u_long flags,
const void *act,
ACE_HANDLE event,
int priority,
int signal_number)
{
ACE_Asynch_Transmit_File_Result_Impl *implementation = 0;
ACE_NEW_RETURN (implementation,
ACE_WIN32_Asynch_Transmit_File_Result (handler,
socket,
file,
header_and_trailer,
bytes_to_write,
offset,
offset_high,
bytes_per_send,
flags,
act,
event,
priority,
signal_number),
0);
return implementation;
}
ACE_Asynch_Result_Impl *
ACE_WIN32_Proactor::create_asynch_timer (ACE_Handler &handler,
const void *act,
const ACE_Time_Value &tv,
ACE_HANDLE event,
int priority,
int signal_number)
{
ACE_Asynch_Result_Impl *implementation = 0;
ACE_NEW_RETURN (implementation,
ACE_WIN32_Asynch_Timer (handler,
act,
tv,
event,
priority,
signal_number),
0);
return implementation;
}
int
ACE_WIN32_Proactor::handle_signal (int, siginfo_t *, ucontext_t *)
{
// Perform a non-blocking "poll" for all the I/O events that have
// completed in the I/O completion queue.
int result = 0;
for (ACE_Time_Value timeout (0, 0);
;
)
{
result = this->handle_events (timeout);
if (result != 0 || errno == ETIME)
break;
}
// If our handle_events failed, we'll report a failure to the
// Reactor.
return result == -1 ? -1 : 0;
}
int
ACE_WIN32_Proactor::handle_close (ACE_HANDLE handle,
ACE_Reactor_Mask close_mask)
{
ACE_UNUSED_ARG (close_mask);
ACE_UNUSED_ARG (handle);
return this->close ();
}
ACE_HANDLE
ACE_WIN32_Proactor::get_handle (void) const
{
if (this->used_with_reactor_event_loop_)
return this->event_.handle ();
else
return 0;
}
int
ACE_WIN32_Proactor::handle_events (ACE_Time_Value &wait_time)
{
// Decrement <wait_time> with the amount of time spent in the method
ACE_Countdown_Time countdown (&wait_time);
return this->handle_events (wait_time.msec ());
}
int
ACE_WIN32_Proactor::handle_events (void)
{
return this->handle_events (ACE_INFINITE);
}
int
ACE_WIN32_Proactor::handle_events (unsigned long milli_seconds)
{
ACE_OVERLAPPED *overlapped = 0;
u_long bytes_transferred = 0;
u_long completion_key = 0;
// Get the next asynchronous operation that completes
BOOL result = ::GetQueuedCompletionStatus (this->completion_port_,
&bytes_transferred,
&completion_key,
&overlapped,
milli_seconds);
if (result == FALSE && overlapped == 0)
{
ACE_OS::set_errno_to_last_error ();
if (errno == WAIT_TIMEOUT)
{
errno = ETIME;
return 0;
}
else
{
if (ACE::debug ())
{
ACE_DEBUG ((LM_ERROR,
ASYS_TEXT ("%p\n"),
ASYS_TEXT ("GetQueuedCompletionStatus")));
}
return -1;
}
}
else
{
// Narrow the result.
ACE_WIN32_Asynch_Result *asynch_result = (ACE_WIN32_Asynch_Result *) overlapped;
// If errors happen, grab the error.
if (result == FALSE)
ACE_OS::set_errno_to_last_error ();
else
errno = 0;
this->application_specific_code (asynch_result,
bytes_transferred,
result,
(void *) completion_key,
errno);
}
return 1;
}
void
ACE_WIN32_Proactor::application_specific_code (ACE_WIN32_Asynch_Result *asynch_result,
u_long bytes_transferred,
int success,
const void *completion_key,
u_long error)
{
ACE_SEH_TRY
{
// Call completion hook
asynch_result->complete (bytes_transferred,
success,
(void *) completion_key,
error);
}
ACE_SEH_FINALLY
{
// This is crucial to prevent memory leaks
delete asynch_result;
}
}
int
ACE_WIN32_Proactor::post_completion (ACE_WIN32_Asynch_Result *result)
{
// Grab the event associated with the Proactor
HANDLE handle = this->get_handle ();
// If Proactor event is valid, signal it
if (handle != ACE_INVALID_HANDLE &&
handle != 0)
ACE_OS::event_signal (&handle);
// Post a completion
if (::PostQueuedCompletionStatus (this->completion_port_, // completion port
0, // number of bytes tranferred
0, // completion key
result // overlapped
) == FALSE)
{
delete result;
if (ACE::debug ())
{
ACE_DEBUG ((LM_ERROR,
ASYS_TEXT ("%p\n"),
ASYS_TEXT ("PostQueuedCompletionStatus failed")));
}
return -1;
}
return 0;
}
int
ACE_WIN32_Proactor::post_wakeup_completions (int how_many)
{
ACE_WIN32_Wakeup_Completion *wakeup_completion = 0;
for (ssize_t ci = 0; ci < how_many; ci++)
{
ACE_NEW_RETURN (wakeup_completion,
ACE_WIN32_Wakeup_Completion (this->wakeup_handler_),
-1);
if (wakeup_completion->post_completion (this) == -1)
return -1;
}
return 0;
}
int
ACE_WIN32_Proactor::wake_up_dispatch_threads (void)
{
return 0;
}
int
ACE_WIN32_Proactor::close_dispatch_threads (int)
{
return 0;
}
size_t
ACE_WIN32_Proactor::number_of_threads (void) const
{
return this->number_of_threads_;
}
void
ACE_WIN32_Proactor::number_of_threads (size_t threads)
{
this->number_of_threads_ = threads;
}
ACE_WIN32_Asynch_Timer::ACE_WIN32_Asynch_Timer (ACE_Handler &handler,
const void *act,
const ACE_Time_Value &tv,
ACE_HANDLE event,
int priority,
int signal_number)
: ACE_Asynch_Result_Impl (),
ACE_WIN32_Asynch_Result (handler, act, event, 0, 0, priority,
signal_number),
time_ (tv)
{
}
void
ACE_WIN32_Asynch_Timer::complete (u_long bytes_transferred,
int success,
const void *completion_key,
u_long error)
{
ACE_UNUSED_ARG (error);
ACE_UNUSED_ARG (completion_key);
ACE_UNUSED_ARG (success);
ACE_UNUSED_ARG (bytes_transferred);
this->handler_.handle_time_out (this->time_, this->act ());
}
ACE_WIN32_Wakeup_Completion::ACE_WIN32_Wakeup_Completion (ACE_Handler &handler,
const void *act,
ACE_HANDLE event,
int priority,
int signal_number)
: ACE_Asynch_Result_Impl (),
ACE_WIN32_Asynch_Result (handler, act, event, 0, 0, priority, signal_number)
{
}
ACE_WIN32_Wakeup_Completion::~ACE_WIN32_Wakeup_Completion (void)
{
}
void
ACE_WIN32_Wakeup_Completion::complete (u_long /* bytes_transferred */,
int /* success */,
const void * /* completion_key */,
u_long /* error */)
{
this->handler_.handle_wakeup ();
}
#endif /* ACE_WIN32 */
|