/* * Win32 process and thread synchronisation * * Copyright 1997 Alexandre Julliard */ #include #include #include #include #include #include #include #include "file.h" /* for DOSFS_UnixTimeToFileTime */ #include "thread.h" #include "winerror.h" #include "wine/server.h" /*********************************************************************** * get_timeout */ inline static void get_timeout( struct timeval *when, int timeout ) { gettimeofday( when, 0 ); if (timeout) { long sec = timeout / 1000; if ((when->tv_usec += (timeout - 1000*sec) * 1000) >= 1000000) { when->tv_usec -= 1000000; when->tv_sec++; } when->tv_sec += sec; } } static void CALLBACK call_completion_routine(ULONG_PTR data) { async_private* ovp = (async_private*)data; ovp->completion_func(ovp->lpOverlapped->Internal, ovp->lpOverlapped->InternalHigh, ovp->lpOverlapped); ovp->completion_func=NULL; HeapFree(GetProcessHeap(), 0, ovp); } static void finish_async(async_private *ovp, DWORD status) { ovp->lpOverlapped->Internal=status; /* call ReadFileEx/WriteFileEx's overlapped completion function */ if(ovp->completion_func) { QueueUserAPC(call_completion_routine,GetCurrentThread(),(ULONG_PTR)ovp); } /* remove it from the active list */ if(ovp->prev) ovp->prev->next = ovp->next; else NtCurrentTeb()->pending_list = ovp->next; if(ovp->next) ovp->next->prev = ovp->prev; ovp->next=NULL; ovp->prev=NULL; close(ovp->fd); if(!ovp->completion_func) HeapFree(GetProcessHeap(), 0, ovp); } /*********************************************************************** * check_async_list * * Process a status event from the server. */ void WINAPI check_async_list(LPOVERLAPPED overlapped, DWORD status) { async_private *ovp; /* fprintf(stderr,"overlapped %p status %x\n",overlapped,status); */ for(ovp = NtCurrentTeb()->pending_list; ovp; ovp = ovp->next) if(ovp->lpOverlapped == overlapped) break; if(!ovp) return; if(status != STATUS_ALERTED) ovp->lpOverlapped->Internal = status; if(ovp->lpOverlapped->Internal==STATUS_PENDING) { ovp->func(ovp); FILE_StartAsync(ovp->handle, ovp->lpOverlapped, ovp->type, 0, ovp->lpOverlapped->Internal); } if(ovp->lpOverlapped->Internal!=STATUS_PENDING) finish_async(ovp,ovp->lpOverlapped->Internal); } /*********************************************************************** * wait_reply * * Wait for a reply on the waiting pipe of the current thread. */ static int wait_reply( void *cookie ) { int signaled; struct wake_up_reply reply; for (;;) { int ret; ret = read( NtCurrentTeb()->wait_fd[0], &reply, sizeof(reply) ); if (ret == sizeof(reply)) { if (!reply.cookie) break; /* thread got killed */ if (reply.cookie == cookie) return reply.signaled; /* we stole another reply, wait for the real one */ signaled = wait_reply( cookie ); /* and now put the wrong one back in the pipe */ for (;;) { ret = write( NtCurrentTeb()->wait_fd[1], &reply, sizeof(reply) ); if (ret == sizeof(reply)) break; if (ret >= 0) server_protocol_error( "partial wakeup write %d\n", ret ); if (errno == EINTR) continue; server_protocol_perror("wakeup write"); } return signaled; } if (ret >= 0) server_protocol_error( "partial wakeup read %d\n", ret ); if (errno == EINTR) continue; server_protocol_perror("wakeup read"); } /* the server closed the connection; time to die... */ SYSDEPS_ExitThread(0); } /*********************************************************************** * call_apcs * * Call outstanding APCs. */ static void call_apcs( BOOL alertable ) { FARPROC proc = NULL; FILETIME ft; void *args[4]; for (;;) { int type = APC_NONE; SERVER_START_REQ( get_apc ) { req->alertable = alertable; wine_server_set_reply( req, args, sizeof(args) ); if (!wine_server_call( req )) { type = reply->type; proc = reply->func; } } SERVER_END_REQ; switch(type) { case APC_NONE: return; /* no more APCs */ case APC_ASYNC: proc( args[0], args[1]); break; case APC_USER: proc( args[0] ); break; case APC_TIMER: /* convert sec/usec to NT time */ DOSFS_UnixTimeToFileTime( (time_t)args[0], &ft, (DWORD)args[1] * 10 ); proc( args[2], ft.dwLowDateTime, ft.dwHighDateTime ); break; default: server_protocol_error( "get_apc_request: bad type %d\n", type ); break; } } } /*********************************************************************** * Sleep (KERNEL32.@) */ VOID WINAPI Sleep( DWORD timeout ) { WaitForMultipleObjectsEx( 0, NULL, FALSE, timeout, FALSE ); } /****************************************************************************** * SleepEx (KERNEL32.@) */ DWORD WINAPI SleepEx( DWORD timeout, BOOL alertable ) { DWORD ret = WaitForMultipleObjectsEx( 0, NULL, FALSE, timeout, alertable ); if (ret != WAIT_IO_COMPLETION) ret = 0; return ret; } /*********************************************************************** * WaitForSingleObject (KERNEL32.@) */ DWORD WINAPI WaitForSingleObject( HANDLE handle, DWORD timeout ) { return WaitForMultipleObjectsEx( 1, &handle, FALSE, timeout, FALSE ); } /*********************************************************************** * WaitForSingleObjectEx (KERNEL32.@) */ DWORD WINAPI WaitForSingleObjectEx( HANDLE handle, DWORD timeout, BOOL alertable ) { return WaitForMultipleObjectsEx( 1, &handle, FALSE, timeout, alertable ); } /*********************************************************************** * WaitForMultipleObjects (KERNEL32.@) */ DWORD WINAPI WaitForMultipleObjects( DWORD count, const HANDLE *handles, BOOL wait_all, DWORD timeout ) { return WaitForMultipleObjectsEx( count, handles, wait_all, timeout, FALSE ); } /*********************************************************************** * WaitForMultipleObjectsEx (KERNEL32.@) */ DWORD WINAPI WaitForMultipleObjectsEx( DWORD count, const HANDLE *handles, BOOL wait_all, DWORD timeout, BOOL alertable ) { int ret, cookie; struct timeval tv; if (count > MAXIMUM_WAIT_OBJECTS) { SetLastError( ERROR_INVALID_PARAMETER ); return WAIT_FAILED; } if (timeout == INFINITE) tv.tv_sec = tv.tv_usec = 0; else get_timeout( &tv, timeout ); for (;;) { SERVER_START_REQ( select ) { req->flags = SELECT_INTERRUPTIBLE; req->cookie = &cookie; req->sec = tv.tv_sec; req->usec = tv.tv_usec; wine_server_add_data( req, handles, count * sizeof(HANDLE) ); if (wait_all) req->flags |= SELECT_ALL; if (alertable) req->flags |= SELECT_ALERTABLE; if (timeout != INFINITE) req->flags |= SELECT_TIMEOUT; ret = wine_server_call( req ); } SERVER_END_REQ; if (ret == STATUS_PENDING) ret = wait_reply( &cookie ); if (ret != STATUS_USER_APC) break; call_apcs( alertable ); if (alertable) break; } if (HIWORD(ret)) /* is it an error code? */ { SetLastError( RtlNtStatusToDosError(ret) ); ret = WAIT_FAILED; } return ret; } /*********************************************************************** * WaitForSingleObject (KERNEL.460) */ DWORD WINAPI WaitForSingleObject16( HANDLE handle, DWORD timeout ) { DWORD retval, mutex_count; ReleaseThunkLock( &mutex_count ); retval = WaitForSingleObject( handle, timeout ); RestoreThunkLock( mutex_count ); return retval; } /*********************************************************************** * WaitForMultipleObjects (KERNEL.461) */ DWORD WINAPI WaitForMultipleObjects16( DWORD count, const HANDLE *handles, BOOL wait_all, DWORD timeout ) { DWORD retval, mutex_count; ReleaseThunkLock( &mutex_count ); retval = WaitForMultipleObjectsEx( count, handles, wait_all, timeout, FALSE ); RestoreThunkLock( mutex_count ); return retval; } /*********************************************************************** * WaitForMultipleObjectsEx (KERNEL.495) */ DWORD WINAPI WaitForMultipleObjectsEx16( DWORD count, const HANDLE *handles, BOOL wait_all, DWORD timeout, BOOL alertable ) { DWORD retval, mutex_count; ReleaseThunkLock( &mutex_count ); retval = WaitForMultipleObjectsEx( count, handles, wait_all, timeout, alertable ); RestoreThunkLock( mutex_count ); return retval; }