/* --------------------------------------------------------------------------- * * (c) The GHC Team, 2001-2005 * * Accessing OS threads functionality in a (mostly) OS-independent * manner. * * --------------------------------------------------------------------------*/ #define _WIN32_WINNT 0x0500 #include "Rts.h" #if defined(THREADED_RTS) #include "RtsUtils.h" #include /* For reasons not yet clear, the entire contents of process.h is protected * by __STRICT_ANSI__ not being defined. */ #undef __STRICT_ANSI__ #include /* Win32 threads and synchronisation objects */ /* A Condition is represented by a Win32 Event object; * a Mutex by a Mutex kernel object. * * ToDo: go through the defn and usage of these to * make sure the semantics match up with that of * the (assumed) pthreads behaviour. This is really * just a first pass at getting something compilable. */ void initCondition( Condition* pCond ) { HANDLE h = CreateEvent(NULL, FALSE, /* auto reset */ FALSE, /* initially not signalled */ NULL); /* unnamed => process-local. */ if ( h == NULL ) { sysErrorBelch("initCondition: unable to create"); stg_exit(EXIT_FAILURE); } *pCond = h; return; } void closeCondition( Condition* pCond ) { if ( CloseHandle(*pCond) == 0 ) { sysErrorBelch("closeCondition: failed to close"); } return; } rtsBool broadcastCondition ( Condition* pCond ) { PulseEvent(*pCond); return rtsTrue; } rtsBool signalCondition ( Condition* pCond ) { if (SetEvent(*pCond) == 0) { sysErrorBelch("SetEvent"); stg_exit(EXIT_FAILURE); } return rtsTrue; } rtsBool waitCondition ( Condition* pCond, Mutex* pMut ) { RELEASE_LOCK(pMut); WaitForSingleObject(*pCond, INFINITE); /* Hmm..use WaitForMultipleObjects() ? */ ACQUIRE_LOCK(pMut); return rtsTrue; } void yieldThread() { SwitchToThread(); return; } void shutdownThread() { _endthreadex(0); barf("_endthreadex returned"); // avoid gcc warning } int createOSThread (OSThreadId* pId, OSThreadProc *startProc, void *param) { return (_beginthreadex ( NULL, /* default security attributes */ 0, (unsigned (__stdcall *)(void *)) startProc, param, 0, (unsigned*)pId) == 0); } OSThreadId osThreadId() { return GetCurrentThreadId(); } rtsBool osThreadIsAlive(OSThreadId id) { DWORD exit_code; HANDLE hdl; if (!(hdl = OpenThread(THREAD_QUERY_INFORMATION,FALSE,id))) { sysErrorBelch("osThreadIsAlive: OpenThread"); stg_exit(EXIT_FAILURE); } if (!GetExitCodeThread(hdl, &exit_code)) { sysErrorBelch("osThreadIsAlive: GetExitCodeThread"); stg_exit(EXIT_FAILURE); } return (exit_code == STILL_ACTIVE); } #ifdef USE_CRITICAL_SECTIONS void initMutex (Mutex* pMut) { InitializeCriticalSectionAndSpinCount(pMut,4000); } void closeMutex (Mutex* pMut) { DeleteCriticalSection(pMut); } #else void initMutex (Mutex* pMut) { HANDLE h = CreateMutex ( NULL, /* default sec. attributes */ FALSE, /* not owned => initially signalled */ NULL ); *pMut = h; return; } void closeMutex (Mutex* pMut) { CloseHandle(*pMut); } #endif void newThreadLocalKey (ThreadLocalKey *key) { DWORD r; r = TlsAlloc(); if (r == TLS_OUT_OF_INDEXES) { barf("newThreadLocalKey: out of keys"); } *key = r; } void * getThreadLocalVar (ThreadLocalKey *key) { void *r; r = TlsGetValue(*key); #ifdef DEBUG // r is allowed to be NULL - it can mean that either there was an // error or the stored value is in fact NULL. if (GetLastError() != NO_ERROR) { sysErrorBelch("getThreadLocalVar"); stg_exit(EXIT_FAILURE); } #endif return r; } void setThreadLocalVar (ThreadLocalKey *key, void *value) { BOOL b; b = TlsSetValue(*key, value); if (!b) { sysErrorBelch("setThreadLocalVar"); stg_exit(EXIT_FAILURE); } } void freeThreadLocalKey (ThreadLocalKey *key) { BOOL r; r = TlsFree(*key); if (r == 0) { DWORD dw = GetLastError(); barf("freeThreadLocalKey failed: %lu", dw); } } static unsigned __stdcall forkOS_createThreadWrapper ( void * entry ) { Capability *cap; cap = rts_lock(); cap = rts_evalStableIO(cap, (HsStablePtr) entry, NULL); rts_unlock(cap); return 0; } int forkOS_createThread ( HsStablePtr entry ) { unsigned long pId; return (_beginthreadex ( NULL, /* default security attributes */ 0, forkOS_createThreadWrapper, (void*)entry, 0, (unsigned*)&pId) == 0); } nat getNumberOfProcessors (void) { static nat nproc = 0; if (nproc == 0) { SYSTEM_INFO si; GetSystemInfo(&si); nproc = si.dwNumberOfProcessors; } return nproc; } void setThreadAffinity (nat n, nat m) // cap N of M { HANDLE hThread; DWORD_PTR mask, r; // 64-bit win is required to handle more than 32 procs nat nproc, i; hThread = GetCurrentThread(); nproc = getNumberOfProcessors(); mask = 0; for (i = n; i < nproc; i+=m) { mask |= 1 << i; } r = SetThreadAffinityMask(hThread, mask); if (r == 0) { sysErrorBelch("SetThreadAffinity"); stg_exit(EXIT_FAILURE); } } typedef BOOL (WINAPI *PCSIO)(HANDLE); void interruptOSThread (OSThreadId id) { HANDLE hdl; PCSIO pCSIO; if (!(hdl = OpenThread(THREAD_TERMINATE,FALSE,id))) { sysErrorBelch("interruptOSThread: OpenThread"); stg_exit(EXIT_FAILURE); } pCSIO = (PCSIO) GetProcAddress(GetModuleHandle(TEXT("Kernel32.dll")), "CancelSynchronousIo"); if ( NULL != pCSIO ) { pCSIO(hdl); } else { // Nothing to do, unfortunately } } #else /* !defined(THREADED_RTS) */ int forkOS_createThread ( HsStablePtr entry STG_UNUSED ) { return -1; } #endif /* !defined(THREADED_RTS) */