/*++ Copyright (C) 1996-2001 Microsoft Corporation Module Name: LOCK.CPP Abstract: Implements the generic class for obtaining read and write locks to some resource. See lock.h for all documentation. Classes defined: CLock History: a-levn 5-Sept-96 Created. 3/10/97 a-levn Fully documented --*/ #include #include #include #include #include "lock.h" // debugging. #define PRINTF #if 0 #define DBG_PRINTFA( a ) { char pBuff[128]; sprintf a ; OutputDebugStringA(pBuff); } #else #define DBG_PRINTFA( a ) #endif //****************************************************************************** // // See lock.h for documentation // //****************************************************************************** CLock::CLock() : m_nReading(0), m_nWriting(0), m_nWaitingToRead(0), m_nWaitingToWrite(0), m_csEntering(THROW_LOCK,0x80000000 | 500L), m_csAll(THROW_LOCK,0x80000000 | 500L) { m_dwArrayIndex = 0; for (DWORD i=0;i lgEnter(m_csEntering); if (!lgEnter.locked()) { DebugBreak(); return TimedOut; } // We are the only ones allowed to get any kind of lock now. Wait for the // event indicating that reading is enabled to become signaled // ====================================================================== PRINTF("%d next to enter\n", GetCurrentThreadId()); if(m_nWriting != 0) { int nRes = WaitFor(m_hCanRead, dwTimeout); if(nRes != NoError) { return nRes; } } // Enter inner critical section (unlockers use it too), increment the // number of readers and disable writing. // ================================================================== PRINTF("%d got event\n", GetCurrentThreadId()); LockGuard lgAll(m_csAll); if (!lgAll.locked()) { if(m_nReading == 0) { // this is for the read lock acquired on one thread and release on one other m_dwArrayIndex = 0; if(!SetEvent(m_hCanWrite)) { DebugBreak(); return Failed; } } DebugBreak(); return TimedOut; } m_nReading++; DBG_PRINTFA((pBuff,"+ (%08x) %d\n",GetCurrentThreadId(),m_nReading)); if (m_dwArrayIndex < MaxRegistredReaders) { m_adwReaders[m_dwArrayIndex].ThreadId = dwThreadId; ULONG Hash; //RtlCaptureStackBackTrace(1,MaxTraceSize,m_adwReaders[m_dwArrayIndex].Trace,&Hash); m_dwArrayIndex++; } //m_adwReaders.Add((void*)dwThreadId); PRINTF("Reset write\n"); ResetEvent(m_hCanWrite); PRINTF("Done\n"); if (m_nWriting) { //OutputDebugString(L"WinMgmt: Read lock aquired while write lock is aquired!\n"); DebugBreak(); } // Get out of all critical sections and return // =========================================== PRINTF("%d begins to read\n", GetCurrentThreadId()); return NoError; } //****************************************************************************** // // See lock.h for documentation // //****************************************************************************** int CLock::ReadUnlock() { PRINTF("%d wants to unlock reading\n", GetCurrentThreadId()); // Enter internal ciritcal section and decrement the number of readers // =================================================================== LockGuard gl(m_csAll); while (!gl.locked()) { Sleep(20); gl.acquire(); }; m_nReading--; DBG_PRINTFA((pBuff,"- (%08x) %d\n",GetCurrentThreadId(),m_nReading)); if(m_nReading < 0) { //OutputDebugString(L"WinMgmt: Repository detected more read unlocks than locks\n"); DebugBreak(); return Failed; } DWORD_PTR dwThreadId = GetCurrentThreadId(); for(int i = 0; i < MaxRegistredReaders; i++) { if(m_adwReaders[i].ThreadId == dwThreadId) { m_adwReaders[i].ThreadId = 0; break; } } // If all readers are gone, allow writers in // ========================================= if(m_nReading == 0) { // this is for the read lock acquired on one thread and release on one other m_dwArrayIndex = 0; PRINTF("%d is the last reader\n", GetCurrentThreadId()); PRINTF("Set write\n"); if(!SetEvent(m_hCanWrite)) { DebugBreak(); return Failed; } PRINTF("Done\n"); } else PRINTF("%d sees %d still reading\n", GetCurrentThreadId(), m_nReading); // Get out and return // ================== return NoError; } //****************************************************************************** // // See lock.h for documentation // //****************************************************************************** int CLock::WriteLock(DWORD dwTimeout) { PRINTF("%d wants to write\n", GetCurrentThreadId()); // Get in line for getting any kind of lock. Those unlocking don't use this // critical section. // ======================================================================== LockGuard lgEnter(m_csEntering); if (!lgEnter.locked()) { DebugBreak(); return TimedOut; } // We are the only ones allowed to get any kind of lock now // ======================================================== PRINTF("%d next to enter\n", GetCurrentThreadId()); // Wait for the event allowing writing to become signaled // ====================================================== int nRes = WaitFor(m_hCanWrite, dwTimeout); PRINTF("%d got event\n", GetCurrentThreadId()); if(nRes != NoError) { DebugBreak(); return nRes; } // Enter internal critical section (unlockers use it too), increment the // number of writers (from 0 to 1) and disable both reading and writing // from now on. // ====================================================================== LockGuard lgAll(m_csAll); if (!lgAll.locked()) { if(!SetEvent(m_hCanWrite)) DebugBreak(); DebugBreak(); return TimedOut; } m_WriterId = GetCurrentThreadId(); m_nWriting++; DBG_PRINTFA((pBuff,"+ (%08x) %d W %d\n",GetCurrentThreadId(),m_nReading,m_nWriting)); PRINTF("Reset both\n"); ResetEvent(m_hCanWrite); ResetEvent(m_hCanRead); PRINTF("Done\n"); if (m_nReading) { //OutputDebugString(L"WinMgmt: Write lock aquired while read lock is aquired!\n"); DebugBreak(); } // Get out and return // ================== PRINTF("%d begins to write\n", GetCurrentThreadId()); return NoError; } //****************************************************************************** // // See lock.h for documentation // //****************************************************************************** int CLock::WriteUnlock() { PRINTF("%d wants to release writing\n", GetCurrentThreadId()); // Enter lock determination critical section // ========================================= LockGuard gl(m_csAll); while (!gl.locked()) { Sleep(20); gl.acquire(); }; m_nWriting--; DBG_PRINTFA((pBuff,"- (%08x) %d W %d\n",GetCurrentThreadId(),m_nReading,m_nWriting)); m_WriterId = 0; if(m_nWriting < 0) { //OutputDebugString(L"WinMgmt: Repository detected too many write unlocks\n"); DebugBreak(); return Failed; } // Allow readers and writers in // ============================ PRINTF("%d released writing\n", GetCurrentThreadId()); PRINTF("Set both\n"); if(!SetEvent(m_hCanRead)) { DebugBreak(); return Failed; } else if(!SetEvent(m_hCanWrite)) { DebugBreak(); return Failed; } else { PRINTF("Done\n"); return NoError; } } //****************************************************************************** // // See lock.h for documentation // //****************************************************************************** int CLock::WaitFor(HANDLE hEvent, DWORD dwTimeout) { DWORD dwRes; dwRes = WaitForSingleObject(hEvent, dwTimeout); // Analyze the error code and convert to ours // ========================================== if(dwRes == WAIT_OBJECT_0) return NoError; else if(dwRes == WAIT_TIMEOUT) return TimedOut; else return Failed; } //****************************************************************************** // // See lock.h for documentation // //****************************************************************************** int CLock::DowngradeLock() { // Enter lock determination critical section // ========================================= LockGuard gl(m_csAll); while (!gl.locked()) { Sleep(20); gl.acquire(); }; m_nWriting--; m_WriterId = 0; if(!SetEvent(m_hCanRead)) { DebugBreak(); return Failed; } m_nReading++; if (1 != m_nReading) DebugBreak(); DBG_PRINTFA((pBuff,"+ (%08x) %d\n",GetCurrentThreadId(),m_nReading)); DWORD_PTR dwThreadId = GetCurrentThreadId(); if (m_dwArrayIndex < MaxRegistredReaders) { m_adwReaders[m_dwArrayIndex].ThreadId = dwThreadId; ULONG Hash; //RtlCaptureStackBackTrace(1,MaxTraceSize,m_adwReaders[m_dwArrayIndex].Trace,&Hash); m_dwArrayIndex++; } return NoError; }