/*++ Copyright (c) 1996 Microsoft Corporation Module Name: reslock.hxx Abstract: Contains RESOURCE_LOCK class Author: Richard L Firth (rfirth) 18-Jun-1996 Revision History: 18-Jun-1996 rfirth Created --*/ // // manifests // #if INET_DEBUG #define DEFAULT_RESOURCE_LOCK_TIMEOUT 30000 // 30 seconds #else #define DEFAULT_RESOURCE_LOCK_TIMEOUT INFINITE #endif // // class definition // class RESOURCE_LOCK { private: // // _Initialized - TRUE when the critical section & event have been created // BOOL _Initialized; // // _WriteCount - number of times writer has re-entered // LONG _WriteCount; // // _ThreadId - ID of the owning writer thread // DWORD _ThreadId; // // _Readers - number of reader threads. Used as a switch in concert with // InterlockedIncrement/InterlockedDecrement: -1 => 0 means this is the // first reader, and we reset the writer wait event; 0 => -1 means this is // the last reader and we set the writer wait event // LONG _Readers; // // _Timeout - number of milliseconds to wait for one of the event handles // DWORD _Timeout; // // _hWriteEvent - signalled when the last reader thread exits. At this time // the writer thread has exclusive access // HANDLE _hWriteEvent; // // _CritSect - used to serialize access. Writer keeps this until Releas()ed. // Readers just keep it long enough to update _Readers variable // CRITICAL_SECTION _CritSect; // // Wait - wait for an event to become signalled // BOOL Wait(HANDLE hEvent) { DWORD error = WaitForSingleObject(hEvent, _Timeout); if (error == WAIT_OBJECT_0) { return TRUE; } else { DEBUG_PRINT(UTIL, ERROR, ("RESOURCE_LOCK::Wait(): WaitForSingleObject() returns %d\n", error )); if (error == WAIT_TIMEOUT) { error = ERROR_INTERNET_TIMEOUT; } else { error = ERROR_INTERNET_INTERNAL_ERROR; } SetLastError(error); return FALSE; } } VOID SetTimeout(DWORD Timeout) { _Timeout = Timeout; } DWORD GetTimeout(VOID) const { return _Timeout; } public: RESOURCE_LOCK() { _WriteCount = 0; _ThreadId = 0; _Readers = -1; _Timeout = DEFAULT_RESOURCE_LOCK_TIMEOUT; _hWriteEvent = NULL; _Initialized = FALSE; } ~RESOURCE_LOCK() { INET_ASSERT(_WriteCount == 0); INET_ASSERT(_ThreadId == 0); INET_ASSERT(_Readers == -1); if (_Initialized) { DeleteCriticalSection(&_CritSect); if (_hWriteEvent != NULL) { CloseHandle(_hWriteEvent); } } } VOID Initialize(VOID) { _WriteCount = 0; _ThreadId = 0; _Readers = -1; _Timeout = DEFAULT_RESOURCE_LOCK_TIMEOUT; InitializeCriticalSection(&_CritSect); // // _hWriteEvent is an auto-reset, initially-signalled event // _hWriteEvent = CreateEvent(NULL, FALSE, TRUE, NULL); _Initialized = TRUE; } BOOL IsInitialized(VOID) const { return _Initialized; } BOOL IsValid(VOID) const { return (_hWriteEvent != NULL) ? TRUE : FALSE; } BOOL Acquire( IN BOOL bExclusiveMode = FALSE ); BOOL AcquireExclusive(VOID) { return Acquire(TRUE); } VOID Release( VOID ); };