/** * WinPR: Windows Portable Runtime * Synchronization Functions * * Copyright 2012 Marc-Andre Moreau * Copyright 2016 Norbert Federa * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #include "synch.h" #include #ifdef WINPR_SYNCHRONIZATION_BARRIER #include #include #include #include #include /** * WinPR uses the internal RTL_BARRIER struct members exactly like Windows: * * DWORD Reserved1: number of threads that have not yet entered the barrier * DWORD Reserved2: number of threads required to enter the barrier * ULONG_PTR Reserved3[2]; two synchronization events (manual reset events) * DWORD Reserved4; number of processors * DWORD Reserved5; spincount */ #ifdef _WIN32 static HMODULE g_Kernel32 = NULL; static BOOL g_NativeBarrier = FALSE; static INIT_ONCE g_InitOnce = INIT_ONCE_STATIC_INIT; typedef BOOL (WINAPI * fnInitializeSynchronizationBarrier)(LPSYNCHRONIZATION_BARRIER lpBarrier, LONG lTotalThreads, LONG lSpinCount); typedef BOOL (WINAPI * fnEnterSynchronizationBarrier)(LPSYNCHRONIZATION_BARRIER lpBarrier, DWORD dwFlags); typedef BOOL (WINAPI * fnDeleteSynchronizationBarrier)(LPSYNCHRONIZATION_BARRIER lpBarrier); static fnInitializeSynchronizationBarrier pfnInitializeSynchronizationBarrier = NULL; static fnEnterSynchronizationBarrier pfnEnterSynchronizationBarrier = NULL; static fnDeleteSynchronizationBarrier pfnDeleteSynchronizationBarrier = NULL; static BOOL CALLBACK InitOnce_Barrier(PINIT_ONCE once, PVOID param, PVOID *context) { g_Kernel32 = LoadLibraryA("kernel32.dll"); if (!g_Kernel32) return TRUE; pfnInitializeSynchronizationBarrier = (fnInitializeSynchronizationBarrier) GetProcAddress(g_Kernel32, "InitializeSynchronizationBarrier"); pfnEnterSynchronizationBarrier = (fnEnterSynchronizationBarrier) GetProcAddress(g_Kernel32, "EnterSynchronizationBarrier"); pfnDeleteSynchronizationBarrier = (fnDeleteSynchronizationBarrier) GetProcAddress(g_Kernel32, "DeleteSynchronizationBarrier"); if (pfnInitializeSynchronizationBarrier && pfnEnterSynchronizationBarrier && pfnDeleteSynchronizationBarrier) { g_NativeBarrier = TRUE; } return TRUE; } #endif BOOL WINAPI winpr_InitializeSynchronizationBarrier(LPSYNCHRONIZATION_BARRIER lpBarrier, LONG lTotalThreads, LONG lSpinCount) { SYSTEM_INFO sysinfo; HANDLE hEvent0; HANDLE hEvent1; #ifdef _WIN32 InitOnceExecuteOnce(&g_InitOnce, InitOnce_Barrier, NULL, NULL); if (g_NativeBarrier) return pfnInitializeSynchronizationBarrier(lpBarrier, lTotalThreads, lSpinCount); #endif if (!lpBarrier || lTotalThreads < 1 || lSpinCount < -1) { SetLastError(ERROR_INVALID_PARAMETER); return FALSE; } ZeroMemory(lpBarrier, sizeof(SYNCHRONIZATION_BARRIER)); if (lSpinCount == -1) lSpinCount = 2000; if (!(hEvent0 = CreateEvent(NULL, TRUE, FALSE, NULL))) return FALSE; if (!(hEvent1 = CreateEvent(NULL, TRUE, FALSE, NULL))) { CloseHandle(hEvent0); return FALSE; } GetNativeSystemInfo(&sysinfo); lpBarrier->Reserved1 = lTotalThreads; lpBarrier->Reserved2 = lTotalThreads; lpBarrier->Reserved3[0] = (ULONG_PTR)hEvent0; lpBarrier->Reserved3[1] = (ULONG_PTR)hEvent1; lpBarrier->Reserved4 = sysinfo.dwNumberOfProcessors; lpBarrier->Reserved5 = lSpinCount; return TRUE; } BOOL WINAPI winpr_EnterSynchronizationBarrier(LPSYNCHRONIZATION_BARRIER lpBarrier, DWORD dwFlags) { LONG remainingThreads; HANDLE hCurrentEvent; HANDLE hDormantEvent; #ifdef _WIN32 if (g_NativeBarrier) return pfnEnterSynchronizationBarrier(lpBarrier, dwFlags); #endif if (!lpBarrier) return FALSE; /** * dwFlags according to https://msdn.microsoft.com/en-us/library/windows/desktop/hh706889(v=vs.85).aspx * * SYNCHRONIZATION_BARRIER_FLAGS_BLOCK_ONLY (0x01) * Specifies that the thread entering the barrier should block * immediately until the last thread enters the barrier. * * SYNCHRONIZATION_BARRIER_FLAGS_SPIN_ONLY (0x02) * Specifies that the thread entering the barrier should spin until the * last thread enters the barrier, even if the spinning thread exceeds * the barrier's maximum spin count. * * SYNCHRONIZATION_BARRIER_FLAGS_NO_DELETE (0x04) * Specifies that the function can skip the work required to ensure * that it is safe to delete the barrier, which can improve * performance. All threads that enter this barrier must specify the * flag; otherwise, the flag is ignored. This flag should be used only * if the barrier will never be deleted. */ hCurrentEvent = (HANDLE)lpBarrier->Reserved3[0]; hDormantEvent = (HANDLE)lpBarrier->Reserved3[1]; remainingThreads = InterlockedDecrement((LONG*)&lpBarrier->Reserved1); assert(remainingThreads >= 0); if (remainingThreads > 0) { DWORD dwProcessors = lpBarrier->Reserved4; BOOL spinOnly = dwFlags & SYNCHRONIZATION_BARRIER_FLAGS_SPIN_ONLY; BOOL blockOnly = dwFlags & SYNCHRONIZATION_BARRIER_FLAGS_BLOCK_ONLY; BOOL block = TRUE; /** * If SYNCHRONIZATION_BARRIER_FLAGS_SPIN_ONLY is set we will * always spin and trust that the user knows what he/she/it * is doing. Otherwise we'll only spin if the flag * SYNCHRONIZATION_BARRIER_FLAGS_BLOCK_ONLY is not set and * the number of remaining threads is less than the number * of processors. */ if (spinOnly || (((ULONG)remainingThreads < dwProcessors) && !blockOnly)) { DWORD dwSpinCount = lpBarrier->Reserved5; DWORD sp = 0; /** * nb: we must let the compiler know that our comparand * can change between the iterations in the loop below */ volatile ULONG_PTR* cmp = &lpBarrier->Reserved3[0]; /* we spin until the last thread _completed_ the event switch */ while ((block = (*cmp == (ULONG_PTR)hCurrentEvent))) if (!spinOnly && ++sp > dwSpinCount) break; } if (block) WaitForSingleObject(hCurrentEvent, INFINITE); return FALSE; } /* reset the dormant event first */ ResetEvent(hDormantEvent); /* reset the remaining counter */ lpBarrier->Reserved1 = lpBarrier->Reserved2; /* switch events - this will also unblock the spinning threads */ lpBarrier->Reserved3[1] = (ULONG_PTR)hCurrentEvent; lpBarrier->Reserved3[0] = (ULONG_PTR)hDormantEvent; /* signal the blocked threads */ SetEvent(hCurrentEvent); return TRUE; } BOOL WINAPI winpr_DeleteSynchronizationBarrier(LPSYNCHRONIZATION_BARRIER lpBarrier) { #ifdef _WIN32 if (g_NativeBarrier) return pfnDeleteSynchronizationBarrier(lpBarrier); #endif /** * According to https://msdn.microsoft.com/en-us/library/windows/desktop/hh706887(v=vs.85).aspx * Return value: * The DeleteSynchronizationBarrier function always returns TRUE. */ if (!lpBarrier) return TRUE; while (lpBarrier->Reserved1 != lpBarrier->Reserved2) SwitchToThread(); if (lpBarrier->Reserved3[0]) CloseHandle((HANDLE)lpBarrier->Reserved3[0]); if (lpBarrier->Reserved3[1]) CloseHandle((HANDLE)lpBarrier->Reserved3[1]); ZeroMemory(lpBarrier, sizeof(SYNCHRONIZATION_BARRIER)); return TRUE; } #endif