#ifndef _WIN32THREAD_H #define _WIN32THREAD_H typedef struct win32_cond { LONG waiters; HANDLE sem; } perl_cond; typedef DWORD perl_key; typedef HANDLE perl_os_thread; #ifndef DONT_USE_CRITICAL_SECTION /* Critical Sections used instead of mutexes: lightweight, * but can't be communicated to child processes, and can't get * HANDLE to it for use elsewhere. */ typedef CRITICAL_SECTION perl_mutex; #define MUTEX_INIT(m) InitializeCriticalSection(m) #define MUTEX_LOCK(m) EnterCriticalSection(m) #define MUTEX_UNLOCK(m) LeaveCriticalSection(m) #define MUTEX_DESTROY(m) DeleteCriticalSection(m) #else typedef HANDLE perl_mutex; #define MUTEX_INIT(m) \ STMT_START { \ if ((*(m) = CreateMutex(NULL,FALSE,NULL)) == NULL) \ croak("panic: MUTEX_INIT"); \ } STMT_END #define MUTEX_LOCK(m) \ STMT_START { \ if (WaitForSingleObject(*(m),INFINITE) == WAIT_FAILED) \ croak("panic: MUTEX_LOCK"); \ } STMT_END #define MUTEX_UNLOCK(m) \ STMT_START { \ if (ReleaseMutex(*(m)) == 0) \ croak("panic: MUTEX_UNLOCK"); \ } STMT_END #define MUTEX_DESTROY(m) \ STMT_START { \ if (CloseHandle(*(m)) == 0) \ croak("panic: MUTEX_DESTROY"); \ } STMT_END #endif /* These macros assume that the mutex associated with the condition * will always be held before COND_{SIGNAL,BROADCAST,WAIT,DESTROY}, * so there's no separate mutex protecting access to (c)->waiters */ #define COND_INIT(c) \ STMT_START { \ (c)->waiters = 0; \ (c)->sem = CreateSemaphore(NULL,0,LONG_MAX,NULL); \ if ((c)->sem == NULL) \ croak("panic: COND_INIT (%ld)",GetLastError()); \ } STMT_END #define COND_SIGNAL(c) \ STMT_START { \ if ((c)->waiters > 0 && \ ReleaseSemaphore((c)->sem,1,NULL) == 0) \ croak("panic: COND_SIGNAL (%ld)",GetLastError()); \ } STMT_END #define COND_BROADCAST(c) \ STMT_START { \ if ((c)->waiters > 0 && \ ReleaseSemaphore((c)->sem,(c)->waiters,NULL) == 0) \ croak("panic: COND_BROADCAST (%ld)",GetLastError());\ } STMT_END #define COND_WAIT(c, m) \ STMT_START { \ (c)->waiters++; \ MUTEX_UNLOCK(m); \ /* Note that there's no race here, since a \ * COND_BROADCAST() on another thread will have seen the\ * right number of waiters (i.e. including this one) */ \ if (WaitForSingleObject((c)->sem,INFINITE)==WAIT_FAILED)\ croak("panic: COND_WAIT (%ld)",GetLastError()); \ /* XXX there may be an inconsequential race here */ \ MUTEX_LOCK(m); \ (c)->waiters--; \ } STMT_END #define COND_DESTROY(c) \ STMT_START { \ (c)->waiters = 0; \ if (CloseHandle((c)->sem) == 0) \ croak("panic: COND_DESTROY (%ld)",GetLastError()); \ } STMT_END #define DETACH(t) \ STMT_START { \ if (CloseHandle((t)->self) == 0) { \ MUTEX_UNLOCK(&(t)->mutex); \ croak("panic: DETACH"); \ } \ } STMT_END #define THREAD_CREATE(t, f) Perl_thread_create(t, f) #define THREAD_POST_CREATE(t) NOOP /* XXX Docs mention that the RTL versions of thread creation routines * should be used, but that advice only seems applicable when the RTL * is not in a DLL. RTL DLLs in both Borland and VC seem to do all of * the init/deinit required upon DLL_THREAD_ATTACH/DETACH. So we seem * to be completely safe using straight Win32 API calls, rather than * the much braindamaged RTL calls. * * _beginthread() in the RTLs call CloseHandle() just after the thread * function returns, which means: 1) we have a race on our hands * 2) it is impossible to implement join() semantics. * * IOW, do *NOT* turn on USE_RTL_THREAD_API! It is here * for experimental purposes only. GSAR 98-01-02 */ #ifdef USE_RTL_THREAD_API # include # if defined(__BORLANDC__) /* Borland RTL doesn't allow a return value from thread function! */ # define THREAD_RET_TYPE void _USERENTRY # define THREAD_RET_CAST(p) ((void)(thr->i.retv = (void *)(p))) # elif defined (_MSC_VER) # define THREAD_RET_TYPE unsigned __stdcall # define THREAD_RET_CAST(p) ((unsigned)(p)) # else /* CRTDLL.DLL doesn't allow a return value from thread function! */ # define THREAD_RET_TYPE void __cdecl # define THREAD_RET_CAST(p) ((void)(thr->i.retv = (void *)(p))) # endif #else /* !USE_RTL_THREAD_API */ # define THREAD_RET_TYPE DWORD WINAPI # define THREAD_RET_CAST(p) ((DWORD)(p)) #endif /* !USE_RTL_THREAD_API */ typedef THREAD_RET_TYPE thread_func_t(void *); START_EXTERN_C #if defined(PERLDLL) && defined(USE_DECLSPEC_THREAD) && (!defined(__BORLANDC__) || defined(_DLL)) extern __declspec(thread) struct perl_thread *Perl_current_thread; #define SET_THR(t) (Perl_current_thread = t) #define THR Perl_current_thread #else #define THR Perl_getTHR() #define SET_THR(t) Perl_setTHR(t) #endif struct perl_thread; void Perl_alloc_thread_key (void); int Perl_thread_create (struct perl_thread *thr, thread_func_t *fn); void Perl_set_thread_self (struct perl_thread *thr); struct perl_thread *Perl_getTHR (void); void Perl_setTHR (struct perl_thread *t); void Perl_init_thread_intern (struct perl_thread *t); END_EXTERN_C #define INIT_THREADS NOOP #define ALLOC_THREAD_KEY Perl_alloc_thread_key() #define SET_THREAD_SELF(thr) Perl_set_thread_self(thr) #if defined(USE_RTL_THREAD_API) && !defined(_MSC_VER) #define JOIN(t, avp) \ STMT_START { \ if ((WaitForSingleObject((t)->self,INFINITE) == WAIT_FAILED) \ || (GetExitCodeThread((t)->self,(LPDWORD)(avp)) == 0) \ || (CloseHandle((t)->self) == 0)) \ croak("panic: JOIN"); \ *avp = (AV *)((t)->i.retv); \ } STMT_END #else /* !USE_RTL_THREAD_API || _MSC_VER */ #define JOIN(t, avp) \ STMT_START { \ if ((WaitForSingleObject((t)->self,INFINITE) == WAIT_FAILED) \ || (GetExitCodeThread((t)->self,(LPDWORD)(avp)) == 0) \ || (CloseHandle((t)->self) == 0)) \ croak("panic: JOIN"); \ } STMT_END #endif /* !USE_RTL_THREAD_API || _MSC_VER */ #define YIELD Sleep(0) #endif /* _WIN32THREAD_H */