/* --------------------------------------------------------------------------- * * (c) The GHC Team, 2001-2005 * * Accessing OS threads functionality in a (mostly) OS-independent * manner. * * --------------------------------------------------------------------------*/ #ifndef __OSTHREADS_H__ #define __OSTHREADS_H__ #if defined(THREADED_RTS) /* to the end */ # if defined(HAVE_PTHREAD_H) && !defined(WANT_NATIVE_WIN32_THREADS) #if CMINUSMINUS #define ACQUIRE_LOCK(mutex) foreign "C" pthread_mutex_lock(mutex) #define RELEASE_LOCK(mutex) foreign "C" pthread_mutex_unlock(mutex) #define ASSERT_LOCK_HELD(mutex) /* nothing */ #else #include #include typedef pthread_cond_t Condition; typedef pthread_mutex_t Mutex; typedef pthread_t OSThreadId; typedef pthread_key_t ThreadLocalKey; #define OSThreadProcAttr /* nothing */ #define INIT_COND_VAR PTHREAD_COND_INITIALIZER #ifdef LOCK_DEBUG #define LOCK_DEBUG_BELCH(what, mutex) \ debugBelch("%s(0x%p) %s %d\n", what, mutex, __FILE__, __LINE__) #else #define LOCK_DEBUG_BELCH(what, mutex) /* nothing */ #endif /* Always check the result of lock and unlock. */ #define ACQUIRE_LOCK(mutex) \ LOCK_DEBUG_BELCH("ACQUIRE_LOCK", mutex); \ if (pthread_mutex_lock(mutex) == EDEADLK) { \ barf("multiple ACQUIRE_LOCK: %s %d", __FILE__,__LINE__); \ } #define RELEASE_LOCK(mutex) \ LOCK_DEBUG_BELCH("RELEASE_LOCK", mutex); \ if (pthread_mutex_unlock(mutex) != 0) { \ barf("RELEASE_LOCK: I do not own this lock: %s %d", __FILE__,__LINE__); \ } // Note: this assertion calls pthread_mutex_lock() on a mutex that // is already held by the calling thread. The mutex should therefore // have been created with PTHREAD_MUTEX_ERRORCHECK, otherwise this // assertion will hang. We always initialise mutexes with // PTHREAD_MUTEX_ERRORCHECK when DEBUG is on (see rts/posix/OSThreads.h). #define ASSERT_LOCK_HELD(mutex) ASSERT(pthread_mutex_lock(mutex) == EDEADLK) #endif // CMINUSMINUS # elif defined(HAVE_WINDOWS_H) #if CMINUSMINUS /* We jump through a hoop here to get a CCall EnterCriticalSection and LeaveCriticalSection, as that's what C-- wants. */ #define ACQUIRE_LOCK(mutex) foreign "stdcall" EnterCriticalSection(mutex) #define RELEASE_LOCK(mutex) foreign "stdcall" LeaveCriticalSection(mutex) #define ASSERT_LOCK_HELD(mutex) /* nothing */ #else #include typedef HANDLE Condition; typedef DWORD OSThreadId; // don't be tempted to use HANDLE as the OSThreadId: there can be // many HANDLES to a given thread, so comparison would not work. typedef DWORD ThreadLocalKey; #define OSThreadProcAttr __stdcall #define INIT_COND_VAR 0 // We have a choice for implementing Mutexes on Windows. Standard // Mutexes are kernel objects that require kernel calls to // acquire/release, whereas CriticalSections are spin-locks that block // in the kernel after spinning for a configurable number of times. // CriticalSections are *much* faster, so we use those. The Mutex // implementation is left here for posterity. #define USE_CRITICAL_SECTIONS 1 #if USE_CRITICAL_SECTIONS typedef CRITICAL_SECTION Mutex; #ifdef LOCK_DEBUG #define ACQUIRE_LOCK(mutex) \ debugBelch("ACQUIRE_LOCK(0x%p) %s %d\n", mutex,__FILE__,__LINE__); \ EnterCriticalSection(mutex) #define RELEASE_LOCK(mutex) \ debugBelch("RELEASE_LOCK(0x%p) %s %d\n", mutex,__FILE__,__LINE__); \ LeaveCriticalSection(mutex) #define ASSERT_LOCK_HELD(mutex) /* nothing */ #else #define ACQUIRE_LOCK(mutex) EnterCriticalSection(mutex) #define RELEASE_LOCK(mutex) LeaveCriticalSection(mutex) // I don't know how to do this. TryEnterCriticalSection() doesn't do // the right thing. #define ASSERT_LOCK_HELD(mutex) /* nothing */ #endif #else typedef HANDLE Mutex; // casting to (Mutex *) here required due to use in .cmm files where // the argument has (void *) type. #define ACQUIRE_LOCK(mutex) \ if (WaitForSingleObject(*((Mutex *)mutex),INFINITE) == WAIT_FAILED) { \ barf("WaitForSingleObject: %d", GetLastError()); \ } #define RELEASE_LOCK(mutex) \ if (ReleaseMutex(*((Mutex *)mutex)) == 0) { \ barf("ReleaseMutex: %d", GetLastError()); \ } #define ASSERT_LOCK_HELD(mutex) /* nothing */ #endif #endif // CMINUSMINUS # else # error "Threads not supported" # endif #ifndef CMINUSMINUS // // General thread operations // extern OSThreadId osThreadId ( void ); extern void shutdownThread ( void ); extern void yieldThread ( void ); typedef void OSThreadProcAttr OSThreadProc(void *); extern int createOSThread ( OSThreadId* tid, OSThreadProc *startProc, void *param); extern rtsBool osThreadIsAlive ( OSThreadId id ); // // Condition Variables // extern void initCondition ( Condition* pCond ); extern void closeCondition ( Condition* pCond ); extern rtsBool broadcastCondition ( Condition* pCond ); extern rtsBool signalCondition ( Condition* pCond ); extern rtsBool waitCondition ( Condition* pCond, Mutex* pMut ); // // Mutexes // extern void initMutex ( Mutex* pMut ); extern void closeMutex ( Mutex* pMut ); // // Thread-local storage // void newThreadLocalKey (ThreadLocalKey *key); void *getThreadLocalVar (ThreadLocalKey *key); void setThreadLocalVar (ThreadLocalKey *key, void *value); void freeThreadLocalKey (ThreadLocalKey *key); // Processors and affinity nat getNumberOfProcessors (void); void setThreadAffinity (nat n, nat m); #endif // !CMINUSMINUS #else #define ACQUIRE_LOCK(l) #define RELEASE_LOCK(l) #define ASSERT_LOCK_HELD(l) #endif /* defined(THREADED_RTS) */ #endif /* __OSTHREADS_H__ */