/* dbx_tree: tree database driver for Miranda IM Copyright 2007-2010 Michael "Protogenes" Kunz, This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #include "Interface.h" #include "MREWSync.h" #include #include "intrinsics.h" #if defined(MREW_DO_DEBUG_LOGGING) && (defined(DEBUG) || defined(_DEBUG)) #include #endif /////////////////////////////////////////////////////////////////////////////////////////////////// // +------------+---------------+---------------+------------+---------------+ // | ReaderBusy | ReaderWaiting | WriterWaiting | WriterBusy | UseOddReader? | // +------------+---------------+---------------+------------+---------------+ // 63..44 43..24 23..4 3 0 /////////////////////////////////////////////////////////////////////////////////////////////////// #define isWriterBusy(Sentinel) ((Sentinel) & 0x0000000000000008ui64) #define isWriterWaiting(Sentinel) ((Sentinel) & 0x0000000000fffff0ui64) #define isReaderWaiting(Sentinel) ((Sentinel) & 0x00000fffff000000ui64) #define isReaderBusy(Sentinel) ((Sentinel) & 0xfffff00000000000ui64) #define countWriterWaiting(Sentinel) (((Sentinel) & 0x0000000000fffff0ui64) >> 4) #define countReaderWaiting(Sentinel) (((Sentinel) & 0x00000fffff000000ui64) >> 24) #define countReaderBusy(Sentinel) (((Sentinel) & 0xfffff00000000000ui64) >> 44) #define WriterBusy (1ui64 << 3) #define WriterWaiting (1ui64 << 4) #define ReaderWaiting (1ui64 << 24) #define ReaderBusy (1ui64 << 44) #define isUseOddReader(Sentinel) ((Sentinel) & 1) #define useOddReader (1ui64) CMultiReadExclusiveWriteSynchronizer::CMultiReadExclusiveWriteSynchronizer(void) : tls(), m_Sentinel(0) { m_ReadSignal[0] = CreateEvent(NULL, TRUE, FALSE, NULL); m_ReadSignal[1] = CreateEvent(NULL, TRUE, FALSE, NULL); m_WriteSignal = CreateEvent(NULL, FALSE, FALSE, NULL); m_WriterID = 0; m_WriteRecursion = 0; m_Revision = 0; } CMultiReadExclusiveWriteSynchronizer::~CMultiReadExclusiveWriteSynchronizer(void) { BeginWrite(); CloseHandle(m_WriteSignal); CloseHandle(m_ReadSignal[0]); CloseHandle(m_ReadSignal[1]); } void CMultiReadExclusiveWriteSynchronizer::BeginRead() { unsigned long id = GetCurrentThreadId(); unsigned & reccount(tls.Open(this, 0)); reccount++; if ((m_WriterID != id) && (reccount == 1)) { int64_t old; int64_t newvalue; do { old = m_Sentinel; if (isWriterBusy(old)) newvalue = old + ReaderBusy; // writer has lock -> we are going to enter after he leaves -> we are busy but have to wait else if (isWriterWaiting(old)) newvalue = old + ReaderWaiting; // writer is waiting for lock -> don't set myself busy as he waits for all readers to leave lock else newvalue = old + ReaderBusy; // no writer in sight, just take lock } while (CMPXCHG_64(m_Sentinel, newvalue, old) != old); if (isWriterBusy(old) || isWriterWaiting(old)) { if (isUseOddReader(old)) WaitForSingleObject(m_ReadSignal[1], INFINITE); else WaitForSingleObject(m_ReadSignal[0], INFINITE); } } } void CMultiReadExclusiveWriteSynchronizer::EndRead() { unsigned long id = GetCurrentThreadId(); unsigned & reccount(tls.Open(this, 1)); reccount--; if ((reccount == 0) && (m_WriterID != id)) { int64_t old; int64_t newvalue; do { old = m_Sentinel; if ((countReaderBusy(old) == 1) && isWriterWaiting(old)) { // give control to the writer... move waiting readers to busy (but blocked) newvalue = old - WriterWaiting + WriterBusy - ReaderBusy + countReaderWaiting(old) * (ReaderBusy - ReaderWaiting); } else { newvalue = old - ReaderBusy; } } while (CMPXCHG_64(m_Sentinel, newvalue, old) != old); if ((countReaderBusy(old) == 1) && isWriterWaiting(old)) { SetEvent(m_WriteSignal); } } if (reccount == 0) tls.Remove(this); } bool CMultiReadExclusiveWriteSynchronizer::BeginWrite() { unsigned long id = GetCurrentThreadId(); unsigned * reccount = tls.Find(this); bool res = true; if (m_WriterID != id) { int64_t old; int64_t newvalue; unsigned int oldrevision = m_Revision; if (reccount) // upgrade our readlock { do { old = m_Sentinel; // isWriterBusy cannot happen because we have a readlock, so we ignore it if (countReaderBusy(old) > 1) // there is another reader.. we have to wait for him. set arriving readers to waiting state { newvalue = old + WriterWaiting - ReaderBusy; } else if (isWriterWaiting(old)) // there is another writer waiting, who arrived earlier. we will sign him in and wait. we are the last reader, so we have to update the sentinel { newvalue = old + WriterBusy - ReaderBusy + countReaderWaiting(old) * (ReaderBusy - ReaderWaiting); } else { // nobody is busy, we want the lock newvalue = old + WriterBusy - ReaderBusy; } } while (CMPXCHG_64(m_Sentinel, newvalue, old) != old); if (countReaderBusy(old) > 1) { WaitForSingleObject(m_WriteSignal, INFINITE); // someone woke me up... he had to take care of all state changes of the sentinel } else if (isWriterWaiting(old)) // we will wait for the other writer, as we are the last reader, we have to wake him up { SetEvent(m_WriteSignal); Sleep(0); // yield thread trying to keep FIFO order WaitForSingleObject(m_WriteSignal, INFINITE); // someone woke me up... he had to take care of all state changes of the sentinel } } else { // gain write lock do { old = m_Sentinel; if (isWriterBusy(old)) // there is a writer.. we have to wait for him { newvalue = old + WriterWaiting; } else if (isReaderBusy(old)) // there is a reader.. we have to wait for him. set arriving readers to waiting state { newvalue = old + WriterWaiting; } else if (isWriterWaiting(old)) // there is another writer waiting, who arrived earlier. we will wait { newvalue = old + WriterWaiting; } else { // nobody is busy, we want the lock newvalue = old + WriterBusy; } } while (CMPXCHG_64(m_Sentinel, newvalue, old) != old); if (isWriterBusy(old) || isReaderBusy(old) || isWriterWaiting(old)) { WaitForSingleObject(m_WriteSignal, INFINITE); // someone woke me up... he had to take care of all state changes of the sentinel } } res = (oldrevision == (INC_32(m_Revision) - 1)); m_WriterID = id; } m_WriteRecursion++; return res; } bool CMultiReadExclusiveWriteSynchronizer::EndWrite() { unsigned long id = GetCurrentThreadId(); unsigned * reccount = tls.Find(this); m_WriteRecursion--; if (m_WriteRecursion == 0) { int64_t old; int64_t newvalue; m_WriterID = 0; if (isUseOddReader(m_Sentinel)) // reset upcoming signal ResetEvent(m_ReadSignal[0]); else ResetEvent(m_ReadSignal[1]); if (reccount) // downgrade to reader lock { do { old = m_Sentinel; newvalue = (old ^ useOddReader) - WriterBusy + ReaderBusy; // single case... we are a waiting reader and we will keep control of the lock } while (CMPXCHG_64(m_Sentinel, newvalue, old) != old); if (isUseOddReader(old)) // allow additional readers to pass SetEvent(m_ReadSignal[1]); else SetEvent(m_ReadSignal[0]); } else { do { old = m_Sentinel; if (isReaderBusy(old)) // give control to waiting readers { newvalue = (old ^ useOddReader) - WriterBusy; } else if (isWriterWaiting(old)) // no reader arrived while i was working... give control to next writer { newvalue = (old ^ useOddReader) - WriterWaiting; } else { // nobody else is there... just close lock newvalue = (old ^ useOddReader) - WriterBusy; } } while (CMPXCHG_64(m_Sentinel, newvalue, old) != old); if (isReaderBusy(old)) // release waiting readers { if (isUseOddReader(old)) SetEvent(m_ReadSignal[1]); else SetEvent(m_ReadSignal[0]); } else if (isWriterWaiting(old)) { SetEvent(m_WriteSignal); } } return true; } return false; } bool CMultiReadExclusiveWriteSynchronizer::TryBeginWrite() { unsigned long id = GetCurrentThreadId(); unsigned * reccount = tls.Find(this); if (m_WriterID != id) { int64_t old; int64_t newvalue; unsigned int oldrevision = m_Revision; if (reccount) // upgrade our readlock { do { old = m_Sentinel; // isWriterBusy cannot happen because we have a readlock, so we ignore it if (countReaderBusy(old) > 1) // there is another reader.. we have to wait for him. set arriving readers to waiting state { return false; } else if (isWriterWaiting(old)) // there is another writer waiting, who arrived earlier. we will sign him in and wait. we are the last reader, so we have to update the sentinel { return false; } else { // nobody is busy, we want the lock newvalue = old + WriterBusy - ReaderBusy; } } while (CMPXCHG_64(m_Sentinel, newvalue, old) != old); } else { // gain write lock do { old = m_Sentinel; if (isWriterBusy(old)) // there is a writer.. we have to wait for him { return false; } else if (isReaderBusy(old)) // there is a reader.. we have to wait for him. set arriving readers to waiting state { return false; } else if (isWriterWaiting(old)) // there is another writer waiting, who arrived earlier. we will wait { return false; } else { // nobody is busy, we want the lock newvalue = old + WriterBusy; } } while (CMPXCHG_64(m_Sentinel, newvalue, old) != old); } INC_32(m_Revision); m_WriterID = id; } m_WriteRecursion++; return true; } unsigned int CMultiReadExclusiveWriteSynchronizer::Waiting() { int64_t old = m_Sentinel; if (isWriterBusy(old)) { // cast is safe, we don't loose data because these fields are max 20 bits return static_cast(countReaderBusy(old) + countReaderWaiting(old) + countWriterWaiting(old)); } else { return static_cast(countReaderWaiting(old) + countWriterWaiting(old)); } };