/* * Use of this source code is governed by the ACE copyright license which * can be found in the LICENSE file in the third_party_mods/ace directory of * the source tree or at http://www1.cse.wustl.edu/~schmidt/ACE-copying.html. */ /* * This source code contain modifications to the original source code * which can be found here: * http://www.cs.wustl.edu/~schmidt/win32-cv-1.html (section 3.2). * Modifications: * 1) Dynamic detection of native support for condition variables. * 2) Use of WebRTC defined types and classes. Renaming of some functions. * 3) Introduction of a second event for wake all functionality. This prevents * a thread from spinning on the same condition variable, preventing other * threads from waking up. */ // TODO (hellner): probably nicer to split up native and generic // implementation into two different files #include "condition_variable_win.h" #include "critical_section_win.h" #include "trace.h" namespace webrtc { bool ConditionVariableWindows::win_support_condition_variables_primitive_ = false; static HMODULE library = NULL; PInitializeConditionVariable PInitializeConditionVariable_; PSleepConditionVariableCS PSleepConditionVariableCS_; PWakeConditionVariable PWakeConditionVariable_; PWakeAllConditionVariable PWakeAllConditionVariable_; typedef void (WINAPI *PInitializeConditionVariable)(PCONDITION_VARIABLE); typedef BOOL (WINAPI *PSleepConditionVariableCS)(PCONDITION_VARIABLE, PCRITICAL_SECTION, DWORD); typedef void (WINAPI *PWakeConditionVariable)(PCONDITION_VARIABLE); typedef void (WINAPI *PWakeAllConditionVariable)(PCONDITION_VARIABLE); ConditionVariableWindows::ConditionVariableWindows() : eventID_(WAKEALL_0) { if (!library) { // Use native implementation if supported (i.e Vista+) library = LoadLibrary(TEXT("Kernel32.dll")); if (library) { WEBRTC_TRACE(kTraceStateInfo, kTraceUtility, -1, "Loaded Kernel.dll"); PInitializeConditionVariable_ = (PInitializeConditionVariable) GetProcAddress( library, "InitializeConditionVariable"); PSleepConditionVariableCS_ = (PSleepConditionVariableCS) GetProcAddress( library, "SleepConditionVariableCS"); PWakeConditionVariable_ = (PWakeConditionVariable) GetProcAddress( library, "WakeConditionVariable"); PWakeAllConditionVariable_ = (PWakeAllConditionVariable) GetProcAddress( library, "WakeAllConditionVariable"); if (PInitializeConditionVariable_ && PSleepConditionVariableCS_ && PWakeConditionVariable_ && PWakeAllConditionVariable_) { WEBRTC_TRACE( kTraceStateInfo, kTraceUtility, -1, "Loaded native condition variables"); win_support_condition_variables_primitive_ = true; } } } if (win_support_condition_variables_primitive_) { PInitializeConditionVariable_(&condition_variable_); events_[WAKEALL_0] = NULL; events_[WAKEALL_1] = NULL; events_[WAKE] = NULL; } else { memset(&num_waiters_[0], 0, sizeof(num_waiters_)); InitializeCriticalSection(&num_waiters_crit_sect_); events_[WAKEALL_0] = CreateEvent(NULL, // no security attributes TRUE, // manual-reset, sticky event FALSE, // initial state non-signaled NULL); // no name for event events_[WAKEALL_1] = CreateEvent(NULL, // no security attributes TRUE, // manual-reset, sticky event FALSE, // initial state non-signaled NULL); // no name for event events_[WAKE] = CreateEvent(NULL, // no security attributes FALSE, // auto-reset, sticky event FALSE, // initial state non-signaled NULL); // no name for event } } ConditionVariableWindows::~ConditionVariableWindows() { if (!win_support_condition_variables_primitive_) { CloseHandle(events_[WAKE]); CloseHandle(events_[WAKEALL_1]); CloseHandle(events_[WAKEALL_0]); DeleteCriticalSection(&num_waiters_crit_sect_); } } void ConditionVariableWindows::SleepCS(CriticalSectionWrapper& crit_sect) { SleepCS(crit_sect, INFINITE); } bool ConditionVariableWindows::SleepCS(CriticalSectionWrapper& crit_sect, unsigned long max_time_in_ms) { CriticalSectionWindows* cs = reinterpret_cast(&crit_sect); if (win_support_condition_variables_primitive_) { BOOL ret_val = PSleepConditionVariableCS_( &condition_variable_, &(cs->crit), max_time_in_ms); return (ret_val == 0) ? false : true; } else { EnterCriticalSection(&num_waiters_crit_sect_); // Get the eventID for the event that will be triggered by next // WakeAll() call and start waiting for it. const EventWakeUpType eventID = (WAKEALL_0 == eventID_) ? WAKEALL_1 : WAKEALL_0; ++(num_waiters_[eventID]); LeaveCriticalSection(&num_waiters_crit_sect_); LeaveCriticalSection(&cs->crit); HANDLE events[2]; events[0] = events_[WAKE]; events[1] = events_[eventID]; const DWORD result = WaitForMultipleObjects(2, // Wait on 2 events. events, FALSE, // Wait for either. max_time_in_ms); const bool ret_val = (result != WAIT_TIMEOUT); EnterCriticalSection(&num_waiters_crit_sect_); --(num_waiters_[eventID]); // Last waiter should only be true for WakeAll(). WakeAll() correspond // to position 1 in events[] -> (result == WAIT_OBJECT_0 + 1) const bool last_waiter = (result == WAIT_OBJECT_0 + 1) && (num_waiters_[eventID] == 0); LeaveCriticalSection(&num_waiters_crit_sect_); if (last_waiter) { // Reset/unset the WakeAll() event since all threads have been // released. ResetEvent(events_[eventID]); } EnterCriticalSection(&cs->crit); return ret_val; } } void ConditionVariableWindows::Wake() { if (win_support_condition_variables_primitive_) { PWakeConditionVariable_(&condition_variable_); } else { EnterCriticalSection(&num_waiters_crit_sect_); const bool have_waiters = (num_waiters_[WAKEALL_0] > 0) || (num_waiters_[WAKEALL_1] > 0); LeaveCriticalSection(&num_waiters_crit_sect_); if (have_waiters) { SetEvent(events_[WAKE]); } } } void ConditionVariableWindows::WakeAll() { if (win_support_condition_variables_primitive_) { PWakeAllConditionVariable_(&condition_variable_); } else { EnterCriticalSection(&num_waiters_crit_sect_); // Update current WakeAll() event eventID_ = (WAKEALL_0 == eventID_) ? WAKEALL_1 : WAKEALL_0; // Trigger current event const EventWakeUpType eventID = eventID_; const bool have_waiters = num_waiters_[eventID] > 0; LeaveCriticalSection(&num_waiters_crit_sect_); if (have_waiters) { SetEvent(events_[eventID]); } } } } // namespace webrtc