// $Id$ #if !defined (ACE_MESSAGE_QUEUE_C) #define ACE_MESSAGE_QUEUE_C #include "ace/Message_Queue.h" #include "ace/Log_Msg.h" #if !defined (__ACE_INLINE__) #include "ace/Message_Queue.i" #endif /* __ACE_INLINE__ */ ACE_RCSID(ace, Message_Queue, "$Id$") #if defined (VXWORKS) //////////////////////////////// // class ACE_Message_Queue_Vx // //////////////////////////////// void ACE_Message_Queue_Vx::dump (void) const { #if defined (ACE_HAS_DUMP) ACE_TRACE ("ACE_Message_Queue_Vx::dump"); ACE_DEBUG ((LM_DEBUG, ACE_BEGIN_DUMP, this)); switch (this->state_) { case ACE_Message_Queue_Base::ACTIVATED: ACE_DEBUG ((LM_DEBUG, ACE_LIB_TEXT ("state = ACTIVATED\n"))); break; case ACE_Message_Queue_Base::DEACTIVATED: ACE_DEBUG ((LM_DEBUG, ACE_LIB_TEXT ("state = DEACTIVATED\n"))); break; case ACE_Message_Queue_Base::PULSED: ACE_DEBUG ((LM_DEBUG, ACE_LIB_TEXT ("state = PULSED\n"))); break; } ACE_DEBUG ((LM_DEBUG, ACE_LIB_TEXT ("low_water_mark = %d\n") ACE_LIB_TEXT ("high_water_mark = %d\n") ACE_LIB_TEXT ("cur_bytes = %d\n") ACE_LIB_TEXT ("cur_length = %d\n") ACE_LIB_TEXT ("cur_count = %d\n") ACE_LIB_TEXT ("head_ = %u\n") ACE_LIB_TEXT ("MSG_Q_ID = %u\n"), this->low_water_mark_, this->high_water_mark_, this->cur_bytes_, this->cur_length_, this->cur_count_, this->head_, this->tail_)); ACE_DEBUG ((LM_DEBUG, ACE_END_DUMP)); #endif /* ACE_HAS_DUMP */ } ACE_Message_Queue_Vx::ACE_Message_Queue_Vx (size_t max_messages, size_t max_message_length, ACE_Notification_Strategy *ns) : ACE_Message_Queue (0, 0, ns), max_messages_ (ACE_static_cast (int, max_messages)), max_message_length_ (ACE_static_cast (int, max_message_length)) { ACE_TRACE ("ACE_Message_Queue_Vx::ACE_Message_Queue_Vx"); if (this->open (max_messages_, max_message_length_, ns) == -1) ACE_ERROR ((LM_ERROR, ACE_LIB_TEXT ("open"))); } ACE_Message_Queue_Vx::~ACE_Message_Queue_Vx (void) { ACE_TRACE ("ACE_Message_Queue_Vx::~ACE_Message_Queue_Vx"); if (this->tail_ != 0 && this->close () == -1) ACE_ERROR ((LM_ERROR, ACE_LIB_TEXT ("close"))); } // Don't bother locking since if someone calls this function more than // once for the same queue, we're in bigger trouble than just // concurrency control! int ACE_Message_Queue_Vx::open (size_t max_messages, size_t max_message_length, ACE_Notification_Strategy *ns) { ACE_TRACE ("ACE_Message_Queue_Vx::open"); this->high_water_mark_ = 0; this->low_water_mark_ = 0; this->cur_bytes_ = 0; this->cur_length_ = 0; this->cur_count_ = 0; this->head_ = 0; this->notification_strategy_ = ns; this->max_messages_ = ACE_static_cast (int, max_messages); this->max_message_length_ = ACE_static_cast (int, max_message_length); if (tail_) { // Had already created a msgQ, so delete it. close (); activate_i (); } return (this->tail_ = ACE_reinterpret_cast (ACE_Message_Block *, ::msgQCreate (max_messages_, max_message_length_, MSG_Q_FIFO))) == 0 ? -1 : 0; } // Clean up the queue if we have not already done so! int ACE_Message_Queue_Vx::close (void) { ACE_TRACE ("ACE_Message_Queue_Vx::close"); // Don't lock, because we don't have a lock. It shouldn't be // necessary, anyways. this->deactivate_i (); // Don't bother to free up the remaining message on the list, // because we don't have any way to iterate over what's in the // queue. return ::msgQDelete (msgq ()); } int ACE_Message_Queue_Vx::signal_enqueue_waiters (void) { // No-op. return 0; } int ACE_Message_Queue_Vx::signal_dequeue_waiters (void) { // No-op. return 0; } int ACE_Message_Queue_Vx::enqueue_tail_i (ACE_Message_Block *new_item) { ACE_TRACE ("ACE_Message_Queue_Vx::enqueue_tail_i"); if (new_item == 0) return -1; // Don't try to send a composite message!!!! Only the first // block will be sent. this->cur_count_++; // Always use this method to actually send a message on the queue. if (::msgQSend (msgq (), new_item->rd_ptr (), new_item->size (), WAIT_FOREVER, MSG_PRI_NORMAL) == OK) return ::msgQNumMsgs (msgq ()); else return -1; } int ACE_Message_Queue_Vx::enqueue_head_i (ACE_Message_Block *new_item) { ACE_TRACE ("ACE_Message_Queue_Vx::enqueue_head_i"); // Just delegate to enqueue_tail_i. return enqueue_tail_i (new_item); } int ACE_Message_Queue_Vx::enqueue_i (ACE_Message_Block *new_item) { ACE_TRACE ("ACE_Message_Queue_Vx::enqueue_i"); if (new_item == 0) return -1; if (this->head_ == 0) // Should always take this branch. return this->enqueue_head_i (new_item); else ACE_NOTSUP_RETURN (-1); } int ACE_Message_Queue_Vx::enqueue_deadline_i (ACE_Message_Block *new_item) { ACE_TRACE ("ACE_Message_Queue_Vx::enqueue_deadline_i"); // Just delegate to enqueue_tail_i. return enqueue_tail_i (new_item); } // Actually get the first ACE_Message_Block (no locking, so must be // called with locks held). This method assumes that the queue has at // least one item in it when it is called. int ACE_Message_Queue_Vx::dequeue_head_i (ACE_Message_Block *&first_item) { ACE_TRACE ("ACE_Message_Queue_Vx::dequeue_head_i"); // We don't allocate a new Message_Block: the caller must provide // it, and must ensure that it is big enough (without chaining). if (first_item == 0 || first_item->wr_ptr () == 0) return -1; if (::msgQReceive (msgq (), first_item->wr_ptr (), first_item->size (), WAIT_FOREVER) == ERROR) return -1; else return ::msgQNumMsgs (msgq ()); } int ACE_Message_Queue_Vx::dequeue_prio_i (ACE_Message_Block *& /*dequeued*/) { ACE_TRACE ("ACE_Message_Queue_Vx::dequeue_prio_i"); ACE_NOTSUP_RETURN (-1); } int ACE_Message_Queue_Vx::dequeue_tail_i (ACE_Message_Block *& /*dequeued*/) { ACE_TRACE ("ACE_Message_Queue_Vx::dequeue_tail_i"); ACE_NOTSUP_RETURN (-1); } int ACE_Message_Queue_Vx::dequeue_deadline_i (ACE_Message_Block *& /*dequeued*/) { ACE_TRACE ("ACE_Message_Queue_Vx::dequeue_deadline_i"); ACE_NOTSUP_RETURN (-1); } // Take a look at the first item without removing it. int ACE_Message_Queue_Vx::wait_not_full_cond (ACE_Guard &mon, ACE_Time_Value *tv) { // Always return here, and let the VxWorks message queue handle blocking. ACE_UNUSED_ARG (mon); ACE_UNUSED_ARG (tv); return 0; } int ACE_Message_Queue_Vx::wait_not_empty_cond (ACE_Guard &mon, ACE_Time_Value *tv) { // Always return here, and let the VxWorks message queue handle blocking. ACE_UNUSED_ARG (mon); ACE_UNUSED_ARG (tv); return 0; } #if ! defined (ACE_NEEDS_FUNC_DEFINITIONS) int ACE_Message_Queue_Vx::peek_dequeue_head (ACE_Message_Block *&, ACE_Time_Value *tv) { ACE_UNUSED_ARG (tv); ACE_NOTSUP_RETURN (-1); } #endif /* ! ACE_NEEDS_FUNC_DEFINITIONS */ #endif /* VXWORKS */ #if defined (ACE_WIN32) && (ACE_HAS_WINNT4 != 0) ACE_Message_Queue_NT::ACE_Message_Queue_NT (DWORD max_threads) : max_cthrs_ (max_threads), cur_thrs_ (0), cur_bytes_ (0), cur_length_ (0), cur_count_ (0), completion_port_ (ACE_INVALID_HANDLE) { ACE_TRACE ("ACE_Message_Queue_NT::ACE_Message_Queue_NT"); this->open (max_threads); } int ACE_Message_Queue_NT::open (DWORD max_threads) { ACE_TRACE ("ACE_Message_Queue_NT::open"); this->max_cthrs_ = max_threads; this->completion_port_ = ::CreateIoCompletionPort (ACE_INVALID_HANDLE, 0, ACE_Message_Queue_Base::WAS_ACTIVE, max_threads); return (this->completion_port_ == 0 ? -1 : 0); } int ACE_Message_Queue_NT::close (void) { ACE_TRACE ("ACE_Message_Queue_NT::close"); ACE_GUARD_RETURN (ACE_Thread_Mutex, ace_mon, this->lock_, -1); this->deactivate (); return (::CloseHandle (this->completion_port_) ? 0 : -1 ); } ACE_Message_Queue_NT::~ACE_Message_Queue_NT (void) { ACE_TRACE ("ACE_Message_Queue_NT::~ACE_Message_Queue_NT"); this->close (); } int ACE_Message_Queue_NT::enqueue (ACE_Message_Block *new_item, ACE_Time_Value *) { ACE_TRACE ("ACE_Message_Queue_NT::enqueue"); ACE_GUARD_RETURN (ACE_Thread_Mutex, ace_mon, this->lock_, -1); if (this->state_ != ACE_Message_Queue_Base::DEACTIVATED) { size_t msize = new_item->total_size (); size_t mlength = new_item->total_length (); // Note - we send ACTIVATED in the 3rd arg to tell the completion // routine it's _NOT_ being woken up because of deactivate(). #if defined (ACE_WIN64) ULONG_PTR state_to_post; #else DWORD state_to_post; #endif /* ACE_WIN64 */ state_to_post = ACE_Message_Queue_Base::ACTIVATED; if (::PostQueuedCompletionStatus (this->completion_port_, ACE_static_cast (DWORD, msize), state_to_post, ACE_reinterpret_cast (LPOVERLAPPED, new_item))) { // Update the states once I succeed. this->cur_bytes_ += msize; this->cur_length_ += mlength; return ++this->cur_count_; } } else errno = ESHUTDOWN; // Fail to enqueue the message. return -1; } int ACE_Message_Queue_NT::dequeue (ACE_Message_Block *&first_item, ACE_Time_Value *timeout) { ACE_TRACE ("ACE_Message_Queue_NT::dequeue_head"); { ACE_GUARD_RETURN (ACE_Thread_Mutex, ace_mon, this->lock_, -1); // Make sure the MQ is not deactivated before proceeding. if (this->state_ == ACE_Message_Queue_Base::DEACTIVATED) { errno = ESHUTDOWN; // Operation on deactivated MQ not allowed. return -1; } else ++this->cur_thrs_; // Increase the waiting thread count. } #if defined (ACE_WIN64) ULONG_PTR queue_state; #else DWORD queue_state; #endif /* ACE_WIN64 */ DWORD msize; // Get a message from the completion port. int retv = ::GetQueuedCompletionStatus (this->completion_port_, &msize, &queue_state, ACE_reinterpret_cast (LPOVERLAPPED *, &first_item), (timeout == 0 ? INFINITE : timeout->msec ())); { ACE_GUARD_RETURN (ACE_Thread_Mutex, ace_mon, this->lock_, -1); --this->cur_thrs_; // Decrease waiting thread count. if (retv) { if (queue_state == ACE_Message_Queue_Base::ACTIVATED) { // Really get a valid MB from the queue. --this->cur_count_; this->cur_bytes_ -= msize; this->cur_length_ -= first_item->total_length (); return this->cur_count_; } else // Woken up by deactivate () or pulse (). errno = ESHUTDOWN; } } return -1; } int ACE_Message_Queue_NT::deactivate (void) { ACE_TRACE ("ACE_Message_Queue_NT::deactivate"); ACE_GUARD_RETURN (ACE_Thread_Mutex, ace_mon, this->lock_, -1); int previous_state = this->state_; if (previous_state != ACE_Message_Queue_Base::DEACTIVATED) { this->state_ = ACE_Message_Queue_Base::DEACTIVATED; // Get the number of shutdown messages necessary to wake up all // waiting threads. DWORD cntr = this->cur_thrs_ - ACE_static_cast (DWORD, this->cur_count_); while (cntr-- > 0) ::PostQueuedCompletionStatus (this->completion_port_, 0, this->state_, 0); } return previous_state; } int ACE_Message_Queue_NT::activate (void) { ACE_TRACE ("ACE_Message_Queue_NT::activate"); ACE_GUARD_RETURN (ACE_Thread_Mutex, ace_mon, this->lock_, -1); int previous_status = this->state_; this->state_ = ACE_Message_Queue_Base::ACTIVATED; return previous_status; } int ACE_Message_Queue_NT::pulse (void) { ACE_TRACE ("ACE_Message_Queue_NT::pulse"); ACE_GUARD_RETURN (ACE_Thread_Mutex, ace_mon, this->lock_, -1); int previous_state = this->state_; if (previous_state != ACE_Message_Queue_Base::DEACTIVATED) { this->state_ = ACE_Message_Queue_Base::PULSED; // Get the number of shutdown messages necessary to wake up all // waiting threads. DWORD cntr = this->cur_thrs_ - ACE_static_cast (DWORD, this->cur_count_); while (cntr-- > 0) ::PostQueuedCompletionStatus (this->completion_port_, 0, this->state_, 0); } return previous_state; } void ACE_Message_Queue_NT::dump (void) const { #if defined (ACE_HAS_DUMP) ACE_TRACE ("ACE_Message_Queue_NT::dump"); ACE_DEBUG ((LM_DEBUG, ACE_BEGIN_DUMP, this)); switch (this->state_) { case ACE_Message_Queue_Base::ACTIVATED: ACE_DEBUG ((LM_DEBUG, ACE_LIB_TEXT ("state = ACTIVATED\n"))); break; case ACE_Message_Queue_Base::DEACTIVATED: ACE_DEBUG ((LM_DEBUG, ACE_LIB_TEXT ("state = DEACTIVATED\n"))); break; case ACE_Message_Queue_Base::PULSED: ACE_DEBUG ((LM_DEBUG, ACE_LIB_TEXT ("state = PULSED\n"))); break; } ACE_DEBUG ((LM_DEBUG, ACE_LIB_TEXT ("max_cthrs_ = %d\n") ACE_LIB_TEXT ("cur_thrs_ = %d\n") ACE_LIB_TEXT ("cur_bytes = %d\n") ACE_LIB_TEXT ("cur_length = %d\n") ACE_LIB_TEXT ("cur_count = %d\n") ACE_LIB_TEXT ("completion_port_ = %x\n"), this->max_cthrs_, this->cur_thrs_, this->cur_bytes_, this->cur_length_, this->cur_count_, this->completion_port_)); ACE_DEBUG ((LM_DEBUG, ACE_END_DUMP)); #endif /* ACE_HAS_DUMP */ } #endif /* ACE_WIN32 && ACE_HAS_WINNT4 != 0 */ #endif /* ACE_MESSAGE_QUEUE_C */