// // Copyright 2001 - Microsoft Corporation // // Created By: // Geoff Pease (GPease) 23-JAN-2001 // // Maintained By: // Geoff Pease (GPease) 23-JAN-2001 // #include "pch.h" #include #include #if defined( DEBUG ) // // Include the WINERROR, HRESULT and NTSTATUS codes // #include // // Constants // static const int cchDEBUG_OUTPUT_BUFFER_SIZE = 512; static const int cchFILEPATHLINESIZE = 70; static const int TRACE_OUTPUT_BUFFER_SIZE = 512; // // Globals // DWORD g_TraceMemoryIndex = -1; DWORD g_TraceFlagsIndex = -1; DWORD g_ThreadCounter = 0; DWORD g_dwCounter = 0; TRACEFLAG g_tfModule = mtfNEVER; LONG g_lDebugSpinLock = FALSE; static CRITICAL_SECTION * g_pcsTraceLog = NULL; static HANDLE g_hTraceLogFile = INVALID_HANDLE_VALUE; // // Strings // static const TCHAR g_szNULL[] = TEXT(""); static const TCHAR g_szTrue[] = TEXT("True"); static const TCHAR g_szFalse[] = TEXT("False"); static const TCHAR g_szFileLine[] = TEXT("%s(%u):"); static const TCHAR g_szFormat[] = TEXT("%-60s %-10.10s "); static const TCHAR g_szUnknown[] = TEXT(""); // // ImageHlp Stuff - not ready for prime time yet. // #if defined(IMAGEHLP_ENABLED) // // ImageHelp // typedef VOID (*PFNRTLGETCALLERSADDRESS)(PVOID*,PVOID*); HINSTANCE g_hImageHlp = NULL; PFNSYMGETSYMFROMADDR g_pfnSymGetSymFromAddr = NULL; PFNSYMGETLINEFROMADDR g_pfnSymGetLineFromAddr = NULL; PFNSYMGETMODULEINFO g_pfnSymGetModuleInfo = NULL; PFNRTLGETCALLERSADDRESS g_pfnRtlGetCallersAddress = NULL; #endif // IMAGEHLP_ENABLED // // Per thread structure. // typedef struct _SPERTHREADDEBUG { DWORD dwFlags; DWORD dwStackCounter; LPCTSTR pcszName; } SPerThreadDebug; //**************************************************************************** // // Debugging and Tracing Routines // //**************************************************************************** ////////////////////////////////////////////////////////////////////////////// // // void // DebugIncrementStackDepthCounter( void ) // // Description: // Increases the stack scope depth counter. If "per thread" tracking is // on it will increment the "per thread" counter. Otherwise, it will // increment the "global" counter. // // Arguments: // None. // // Return Values: // None. // ////////////////////////////////////////////////////////////////////////////// void DebugIncrementStackDepthCounter( void ) { if ( g_tfModule & mtfPERTHREADTRACE ) { SPerThreadDebug * ptd = (SPerThreadDebug *) TlsGetValue( g_TraceFlagsIndex ); if ( ptd != NULL ) { ptd->dwStackCounter++; } // if: ptd } // if: per thread else { InterlockedIncrement( (LONG*) &g_dwCounter ); } // else: global } // DebugIncrementStackDepthCounter() ////////////////////////////////////////////////////////////////////////////// //++ // // void // DebugDecrementStackDepthCounter( void ) // // Description: // Decreases the stack scope depth counter. If "per thread" tracking is // on it will decrement the "per thread" counter. Otherwise, it will // decrement the "global" counter. // // Arguments: // None. // // Return Values: // None. // //-- ////////////////////////////////////////////////////////////////////////////// void DebugDecrementStackDepthCounter( void ) { if ( g_tfModule & mtfPERTHREADTRACE ) { SPerThreadDebug * ptd = (SPerThreadDebug *) TlsGetValue( g_TraceFlagsIndex ); if ( ptd != NULL ) { ptd->dwStackCounter--; } // if: ptd } // if: per thread else { InterlockedDecrement( (LONG*) &g_dwCounter ); } // else: global } // DebugDecrementStackDepthCounter() ////////////////////////////////////////////////////////////////////////////// //++ // // void // DebugAcquireSpinLock( // LONG * pLock // ) // // Description: // Acquires the spin lock pointed to by pLock. // // Arguments: // pLock - Pointer to the spin lock. // // Return Values: // None. // //-- ////////////////////////////////////////////////////////////////////////////// void DebugAcquireSpinLock( LONG * pLock ) { for(;;) { LONG lInitialValue; lInitialValue = InterlockedCompareExchange( pLock, TRUE, FALSE ); if ( lInitialValue == FALSE ) { // // Lock acquired. // break; } // if: got lock else { // // Sleep to give other thread a chance to give up the lock. // Sleep( 1 ); } // if: lock not acquired } // for: forever } // DebugAcquireSpinLock() ////////////////////////////////////////////////////////////////////////////// //++ // // void // DebugReleaseSpinLock( // LONG * pLock // ) // // Description: // Releases the spin lock pointer to by pLock. // // Arguments: // pLock - Pointer to the spin lock. // // Return Values: // None. // //-- ////////////////////////////////////////////////////////////////////////////// void DebugReleaseSpinLock( LONG * pLock ) { *pLock = FALSE; } // DebugReleaseSpinLock() ////////////////////////////////////////////////////////////////////////////// //++ // // BOOL // IsDebugFlagSet( // TRACEFLAG tfIn // ) // // Description: // Checks the global g_tfModule and the "per thread" Trace Flags to // determine if the flag (any of the flags) are turned on. // // Arguments: // tfIn - Trace flags to compare. // // Return Values: // TRUE At least of one of the flags are present. // FALSE None of the flags match. // //-- ////////////////////////////////////////////////////////////////////////////// BOOL IsDebugFlagSet( TRACEFLAG tfIn ) { if ( g_tfModule & tfIn ) { return TRUE; } // if: global flag set if ( g_tfModule & mtfPERTHREADTRACE ) { SPerThreadDebug * ptd = (SPerThreadDebug *) TlsGetValue( g_TraceFlagsIndex ); if ( ptd != NULL && ptd->dwFlags & tfIn ) { return TRUE; } // if: per thread flag set } // if: per thread settings return FALSE; } //*** IsDebugFlagSet() ////////////////////////////////////////////////////////////////////////////// //++ // // void // DebugOutputString( // LPCTSTR pszIn // ) // // Description: // Dumps the spew to the appropriate orafice. // // Arguments: // pszIn Message to dump. // // Return Values: // None. // //-- ////////////////////////////////////////////////////////////////////////////// void DebugOutputString( LPCTSTR pszIn ) { if ( IsTraceFlagSet( mtfOUTPUTTODISK ) ) { TraceLogMsgNoNewline( pszIn ); } // if: trace to file else { DebugAcquireSpinLock( &g_lDebugSpinLock ); OutputDebugString( pszIn ); DebugReleaseSpinLock( &g_lDebugSpinLock ); } // else: debugger } //*** DebugOutputString() #if 0 /* ////////////////////////////////////////////////////////////////////////////// //++ // void // DebugFindNTStatusSymbolicName( // DWORD dwStatusIn, // LPTSTR pszNameOut, // LPDWORD pcchNameInout // ) // // Description: // Uses the NTBUILD generated ntstatusSymbolicNames table to lookup // the symbolic name for the status code. The name will be returned in // pszNameOut. pcchNameInout should indicate the size of the buffer that // pszNameOut points too. pcchNameInout will return the number of // characters copied out. // // Arguments: // dwStatusIn - Status code to lookup. // pszNameOut - Buffer to store the string name // pcchNameInout - The length of the buffer in and the size out. // // Return Values: // None. // //-- ////////////////////////////////////////////////////////////////////////////// void DebugFindNTStatusSymbolicName( NTSTATUS dwStatusIn, LPTSTR pszNameOut, LPDWORD pcchNameInout ) { Assert( pszNameOut != NULL ); Assert( pcchNameInout != NULL ); int idx = 0; while ( ntstatusSymbolicNames[ idx ].SymbolicName ) { if ( ntstatusSymbolicNames[ idx ].MessageId == dwStatusIn ) { #if defined ( UNICODE ) *pcchNameInout = mbstowcs( pszNameOut, ntstatusSymbolicNames[ idx ].SymbolicName, *pcchNameInout ); Assert( *pcchNameInout != -1 ); #else // ASCII _tcsncpy( pszNameOut, ntstatusSymbolicNames[ idx ].SymbolicName, *pcchNameInout ); *pcchNameInout = _tcslen( pszNameOut ); #endif // UNICODE return; } // if: matched idx++; } // while: entries in list // // If we made it here, we did not find an entry. // _tcsncpy( pszNameOut, TEXT(""), *pcchNameInout ); *pcchNameInout = StrLen( pszNameOut ); return; } //*** DebugFindNTStatusSymbolicName() */ #endif ////////////////////////////////////////////////////////////////////////////// //++ // void // DebugFindWinerrorSymbolicName( // DWORD dwErrIn, // LPTSTR pszNameOut, // LPDWORD pcchNameInout // ) // // Description: // Uses the NTBUILD generated winerrorSymbolicNames table to lookup // the symbolic name for the error code. The name will be returned in // pszNameOut. pcchNameInout should indicate the size of the buffer that // pszNameOut points too. pcchNameInout will return the number of // characters copied out. // // Arguments: // dwErrIn - Error code to lookup. // pszNameOut - Buffer to store the string name // pcchNameInout - The length of the buffer in and the size out. // // Return Values: // None. // //-- ////////////////////////////////////////////////////////////////////////////// void DebugFindWinerrorSymbolicName( DWORD dwErrIn, LPTSTR pszNameOut, LPDWORD pcchNameInout ) { Assert( pszNameOut != NULL ); Assert( pcchNameInout != NULL ); int idx = 0; DWORD scode; static LPCTSTR s_pszS_FALSE = TEXT("S_FALSE / ERROR_INVALID_FUNCTION"); // // If this is a Win32 wrapped in HRESULT stuff, remove the // HRESULT stuff so that the code will be found in the table. // if ( SCODE_FACILITY( dwErrIn ) == FACILITY_WIN32 ) { scode = SCODE_CODE( dwErrIn ); } // if: Win32 error code else { scode = dwErrIn; } // else: not Win32 error code if ( scode == S_FALSE ) { _tcsncpy( pszNameOut, s_pszS_FALSE, *pcchNameInout ); *pcchNameInout = _tcslen( pszNameOut ); return; } while ( winerrorSymbolicNames[ idx ].SymbolicName ) { if ( winerrorSymbolicNames[ idx ].MessageId == scode ) { #if defined ( UNICODE ) *pcchNameInout = mbstowcs( pszNameOut, winerrorSymbolicNames[ idx ].SymbolicName, *pcchNameInout ); Assert( *pcchNameInout != -1 ); #else // ASCII _tcsncpy( pszNameOut, winerrorSymbolicNames[ idx ].SymbolicName, *pcchNameInout ); *pcchNameInout = _tcslen( pszNameOut ); #endif // UNICODE return; } // if: matched idx++; } // while: entries in list // // If we made it here, we did not find an entry. // _tcsncpy( pszNameOut, TEXT(""), *pcchNameInout ); *pcchNameInout = _tcslen( pszNameOut ); return; } //*** DebugFindWinerrorSymbolicName() ////////////////////////////////////////////////////////////////////////////// //++ // // void // DebugReturnMessage( // LPCTSTR pszFileIn, // const int nLineIn, // LPCTSTR pszModuleIn, // LPTSTR pszBufIn, // INT * pcchInout, // LPTSTR * ppszBufOut // ) // // Description: // Prints the spew for a function return with error code. // // The primary reason for doing this is to isolate the stack from adding // the extra size of szSymbolicName to every function. // // Argument: // pszFileIn - File path to insert // nLineIn - Line number to insert // pszModuleIn - Module name to insert // pszBufIn - The buffer to initialize // pcchInout - IN: Size of the buffer in pszBufIn // - OUT: Remaining characters in buffer not used. // ppszBufOut - Next location to write to append more text // // Return Values: // None. // //-- ////////////////////////////////////////////////////////////////////////////// void DebugReturnMessage( LPCTSTR pszFileIn, const int nLineIn, LPCTSTR pszModuleIn, LPCTSTR pszMessageIn, DWORD dwErrIn ) { TCHAR szSymbolicName[ 64 ]; // random DWORD cchSymbolicName; cchSymbolicName = sizeof( szSymbolicName ) / sizeof( szSymbolicName[ 0 ] ); DebugFindWinerrorSymbolicName( dwErrIn, szSymbolicName, &cchSymbolicName ); Assert( cchSymbolicName != sizeof( szSymbolicName ) / sizeof( szSymbolicName[ 0 ] ) ); TraceMessage( pszFileIn, nLineIn, pszModuleIn, mtfFUNC, pszMessageIn, dwErrIn, szSymbolicName ); } //*** DebugReturnMessage() ////////////////////////////////////////////////////////////////////////////// //++ // // void // DebugInitializeBuffer( // LPCTSTR pszFileIn, // const int nLineIn, // LPCTSTR pszModuleIn, // LPTSTR pszBufIn, // INT * pcchInout, // LPTSTR * ppszBufOut // ) // // Description: // Intializes the output buffer with "File(Line) Module ". // // Argument: // pszFileIn - File path to insert // nLineIn - Line number to insert // pszModuleIn - Module name to insert // pszBufIn - The buffer to initialize // pcchInout - IN: Size of the buffer in pszBufIn // - OUT: Remaining characters in buffer not used. // ppszBufOut - Next location to write to append more text // // Return Values: // None. // //-- ////////////////////////////////////////////////////////////////////////////// void DebugInitializeBuffer( LPCTSTR pszFileIn, const int nLineIn, LPCTSTR pszModuleIn, LPTSTR pszBufIn, INT * pcchInout, LPTSTR * ppszBufOut ) { INT cch = 0; static TCHAR szBarSpace[] = TEXT("| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | "); // 1 2 3 4 5 // 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 // // Add date/time stamp // if ( IsTraceFlagSet( mtfADDTIMEDATE ) ) { static TCHAR szBuffer[ 25 ]; static SYSTEMTIME OldSystemTime = { 0 }; SYSTEMTIME SystemTime; int iCmp; GetLocalTime( &SystemTime ); // // Avoid expensive printf by comparing times // iCmp = memcmp( (PVOID)&SystemTime, (PVOID)&OldSystemTime, sizeof( SYSTEMTIME ) ); if ( iCmp != 0 ) { cch = _sntprintf( szBuffer, 25, TEXT("%02u/%02u/%04u %02u:%02u:%02u.%03u "), SystemTime.wMonth, SystemTime.wDay, SystemTime.wYear, SystemTime.wHour, SystemTime.wMinute, SystemTime.wSecond, SystemTime.wMilliseconds ); if ( cch != 24 ) { DEBUG_BREAK; // can't assert! } // if: cch != 24 } // if: didn't match _tcscpy( pszBufIn, szBuffer ); cch = 24; } // if: time/date else { // // Add the filepath and line number // if ( pszFileIn != NULL ) { cch = _sntprintf( pszBufIn, *pcchInout, g_szFileLine, pszFileIn, nLineIn ); if ( cch < 0 ) { cch = _tcslen( pszBufIn ); } // if: error } if ( ( IsDebugFlagSet( mtfSTACKSCOPE ) && IsDebugFlagSet( mtfFUNC ) ) || pszFileIn != NULL ) { LPTSTR psz; for ( psz = pszBufIn + cch; cch < cchFILEPATHLINESIZE; cch++ ) { *psz = 32; psz++; } // for: cch *psz = 0; if ( cch != cchFILEPATHLINESIZE ) { DEBUG_BREAK; // can't assert! } // if: cch != cchFILEPATHLINESIZE } // if: have a filepath or ( scoping and func is on ) } // else: normal (no time/date) // // Add module name // if ( IsTraceFlagSet( mtfBYMODULENAME ) ) { if ( pszModuleIn == NULL ) { _tcscpy( pszBufIn + cch, g_szUnknown ); cch += sizeof( g_szUnknown ) / sizeof( g_szUnknown[ 0 ] ) - 1; } // if: else { static LPCTSTR pszLastTime = NULL; static DWORD cchLastTime = 0; _tcscpy( pszBufIn + cch, pszModuleIn ); if ( pszLastTime != pszModuleIn ) { pszLastTime = pszModuleIn; cchLastTime = _tcslen( pszModuleIn ); } // if: not the same as last time cch += cchLastTime; } // else: _tcscat( pszBufIn + cch, TEXT(": ") ); cch += 2; } // if: add module name // // Add the thread id if "per thread" tracing is on. // if ( g_tfModule & mtfPERTHREADTRACE ) { // // And check the "per thread" to see if this particular thread // is supposed to be displaying its ID. // SPerThreadDebug * ptd = (SPerThreadDebug *) TlsGetValue( g_TraceFlagsIndex ); if ( ptd != NULL && ptd->dwFlags & mtfPERTHREADTRACE ) { int cchPlus; cchPlus = _sntprintf( pszBufIn + cch, *pcchInout - cch, TEXT("~%08x~ "), GetCurrentThreadId() ); if ( cchPlus < 0 ) { cch = _tcslen( pszBufIn ); } // if: failure else { cch += cchPlus; } // else: success } // if: turned on in the thread } // if: tracing by thread *ppszBufOut = pszBufIn + cch; *pcchInout -= cch; // // Add the "Bar Space" for stack scoping // // Both flags must be set if ( IsDebugFlagSet( mtfSTACKSCOPE ) && IsDebugFlagSet( mtfFUNC ) ) { DWORD dwCounter; // // Choose "per thread" or "global" counter. // if ( g_tfModule & mtfPERTHREADTRACE ) { SPerThreadDebug * ptd = (SPerThreadDebug *) TlsGetValue( g_TraceFlagsIndex ); if ( ptd != NULL ) { dwCounter = ptd->dwStackCounter; } // if: ptd else { dwCounter = 0; } // else: assume its not initialized yet } // if: per thread else { dwCounter = g_dwCounter; } // else: global counter if ( dwCounter >= 50 ) { DEBUG_BREAK; // can't assert! } // if: dwCounter not vaild if ( dwCounter > 1 && dwCounter < 50 ) { INT nCount = ( dwCounter - 1 ) * 2; _tcsncpy( *ppszBufOut, szBarSpace, nCount + 1 ); // extra character for bug in StrNCpyNXW() *ppszBufOut += nCount; *pcchInout -= nCount; } // if: within range } // if: stack scoping on } //*** DebugInitializeBuffer() #if defined(IMAGEHLP_ENABLED) /* ////////////////////////////////////////////////////////////////////////////// //++ // // FALSE // DebugNoOp( void ) // // Description: // Returns FALSE. Used to replace ImageHlp routines it they weren't // loaded or not found. // // Arguments: // None. // // Return Values: // FALSE, always. // //-- ////////////////////////////////////////////////////////////////////////////// BOOL DebugNoOp( void ) { return FALSE; } //*** DebugNoOp() */ #endif // IMAGEHLP_ENABLED ////////////////////////////////////////////////////////////////////////////// //++ // // void // DebugInitializeTraceFlags( void ) // // Description: // Retrieves the default tracing flags for this module from an INI file // that is named the same as the EXE file (e.g. MMC.EXE -> MMC.INI). // Typically, this is called from the TraceInitializeProcess() macro. // // Arguments: // None. // // Return Values: // None. // //-- ////////////////////////////////////////////////////////////////////////////// void DebugInitializeTraceFlags( void ) { TCHAR szSection[ 64 ]; TCHAR szFiles[ cchDEBUG_OUTPUT_BUFFER_SIZE ]; TCHAR szPath[ MAX_PATH ]; LPTSTR psz; DWORD dwLen; // // Allocate TLS for memory tracking // Assert( g_TraceMemoryIndex == -1 ); g_TraceMemoryIndex = TlsAlloc(); TlsSetValue( g_TraceMemoryIndex, NULL); // // Initialize module trace flags // // // Get the EXEs filename and change the extension to INI. // dwLen = GetModuleFileName( NULL, szPath, MAX_PATH ); Assert( dwLen != 0 ); // error in GetModuleFileName _tcscpy( &szPath[ dwLen - 3 ], TEXT("ini") ); g_tfModule = (TRACEFLAG) GetPrivateProfileInt( __MODULE__, TEXT("TraceFlags"), 0, szPath ); DebugMsg( TEXT("DEBUG: Reading %s") SZ_NEWLINE TEXT("%s: DEBUG: g_tfModule = 0x%08x"), szPath, __MODULE__, g_tfModule ); // // Initialize thread trace flags // if ( g_tfModule & mtfPERTHREADTRACE ) { Assert( g_TraceFlagsIndex == -1 ); g_TraceFlagsIndex = TlsAlloc(); DebugInitializeThreadTraceFlags( NULL ); } // if: per thread tracing // // Force the loading of certain modules // GetPrivateProfileString( __MODULE__, TEXT("ForcedDLLsSection"), g_szNULL, szSection, 64, szPath ); ZeroMemory( szFiles, sizeof( szFiles ) ); GetPrivateProfileSection( szSection, szFiles, sizeof( szFiles ), szPath ); psz = szFiles; while ( *psz ) { TCHAR szExpandedPath[ MAX_PATH ]; ExpandEnvironmentStrings( psz, szExpandedPath, MAX_PATH ); DebugMsg( TEXT("DEBUG: Forcing %s to be loaded."), szExpandedPath ); LoadLibrary( szExpandedPath ); psz += _tcslen( psz ) + 1; } // while: entry found #if defined(IMAGEHLP_ENABLED) /* // // Load symbols for our module // g_hImageHlp = LoadLibraryEx( TEXT("imagehlp.dll"), NULL, 0 ); if ( g_hImageHlp != NULL ) { // Typedef this locally since it is only needed once. typedef BOOL (*PFNSYMINITIALIZE)(HANDLE, PSTR, BOOL); PFNSYMINITIALIZE pfnSymInitialize; pfnSymInitialize = (PFNSYMINITIALIZE) GetProcAddress( g_hImageHlp, "SymInitialize" ); if ( pfnSymInitialize != NULL ) { pfnSymInitialize( GetCurrentProcess(), NULL, TRUE ); } // if: got address // // Grab the other addresses we need. Replace them with a "no op" if they are not found // g_pfnSymGetSymFromAddr = (PFNSYMGETSYMFROMADDR) GetProcAddress( g_hImageHlp, "SymGetSymFromAddr" ); g_pfnSymGetLineFromAddr = (PFNSYMGETLINEFROMADDR) GetProcAddress( g_hImageHlp, "SymGetLineFromAddr" ); g_pfnSymGetModuleInfo = (PFNSYMGETMODULEINFO) GetProcAddress( g_hImageHlp, "SymGetModuleInfo" ); } // if: imagehlp loaded // // If loading IMAGEHLP failed, we need to point these to the "no op" routine. // if ( g_pfnSymGetSymFromAddr == NULL ) { g_pfnSymGetSymFromAddr = (PFNSYMGETSYMFROMADDR) &DebugNoOp; } // if: failed if ( g_pfnSymGetLineFromAddr == NULL ) { g_pfnSymGetLineFromAddr = (PFNSYMGETLINEFROMADDR) &DebugNoOp; } // if: failed if ( g_pfnSymGetModuleInfo == NULL ) { g_pfnSymGetModuleInfo = (PFNSYMGETMODULEINFO) &DebugNoOp; } // if: failed HINSTANCE hMod = LoadLibrary( TEXT("NTDLL.DLL") ); g_pfnRtlGetCallersAddress = (PFNRTLGETCALLERSADDRESS) GetProcAddress( hMod, "RtlGetCallersAddress" ); if ( g_pfnRtlGetCallersAddress == NULL ) { g_pfnRtlGetCallersAddress = (PFNRTLGETCALLERSADDRESS) &DebugNoOp; } // if: failed */ #endif // IMAGEHLP_ENABLED } //*** DebugInitializeTraceFlags() ////////////////////////////////////////////////////////////////////////////// //++ // // void // DebugTerminateProcess( void ) // // Description: // Cleans up anything that the debugging routines allocated or // initialized. Typically, you should call the TraceTerminateProcess() // macro just before your process exits. // // Arguments: // None. // // Return Values: // None. // //-- ////////////////////////////////////////////////////////////////////////////// void DebugTerminateProcess( void ) { #if defined(IMAGEHLP_ENABLED) /* // // ImageHlp Cleanup // if ( g_hImageHlp != NULL ) { // Typedef this locally since it is only needed once. typedef BOOL (*PFNSYMCLEANUP)(HANDLE); PFNSYMCLEANUP pfnSymCleanup; pfnSymCleanup = (PFNSYMCLEANUP) GetProcAddress( g_hImageHlp, "SymCleanup" ); if ( pfnSymCleanup != NULL ) { pfnSymCleanup( GetCurrentProcess() ); } // if: found proc FreeLibrary( g_hImageHlp ); } // if: imagehlp loaded */ #endif // IMAGEHLP_ENABLED // // Free the TLS storage // if ( g_tfModule & mtfPERTHREADTRACE ) { TlsFree( g_TraceFlagsIndex ); } // if: per thread tracing TlsFree( g_TraceMemoryIndex ); } //*** DebugTerminateProcess() #if defined(IMAGEHLP_ENABLED) /* ////////////////////////////////////////////////////////////////////////////// //++ // // void // DebugGetFunctionName( // LPSTR pszNameOut, // DWORD cchNameIn // ) // // Description: // Retrieves the calling functions name. // // Arguments: // pszNameOut - The buffer that will contain the functions name. // cchNameIn - The size of the the out buffer. // // Return Values: // None. // //-- ////////////////////////////////////////////////////////////////////////////// void DebugGetFunctionName( LPSTR pszNameOut, DWORD cchNameIn ) { PVOID CallersAddress; PVOID CallersCaller; BOOL fSuccess; union { IMAGEHLP_SYMBOL sym; BYTE buf[ 255 ]; } SymBuf; SymBuf.sym.SizeOfStruct = sizeof( SymBuf ); g_pfnRtlGetCallersAddress( &CallersAddress, &CallersCaller ); fSuccess = g_pfnSymGetSymFromAddr( GetCurrentProcess(), (LONG) CallersAddress, 0, (PIMAGEHLP_SYMBOL) &SymBuf ); if ( fSuccess ) { StrCpyNA( pszNameOut, SymBuf.sym.Name, cchNameIn ); } // if: success else { DWORD dwErr = GetLastError(); StrCpyNA( pszNameOut, "", cchNameIn ); } // if: failed } //*** DebugGetFunctionName() */ #endif // IMAGEHLP_ENABLED ////////////////////////////////////////////////////////////////////////////// //++ // // void // DebugInitializeThreadTraceFlags( // LPCTSTR pszThreadNameIn // ) // // Description: // If enabled (g_tfModule & mtfPERTHREADTRACE), retrieves the default // tracing flags for this thread from an INI file that is named the // same as the EXE file (e.g. MMC.EXE -> MMC.INI). The particular // TraceFlag level is determined by either the thread name (handed in // as a parameter) or by the thread counter ID which is incremented // every time a new thread is created and calls this routine. The // incremental name is "ThreadTraceFlags%u". // // This routine is called from the TraceInitliazeThread() macro. // // Arguments: // pszThreadNameIn // - If the thread has an assoc. name with it, use it instead of the // incremented version. NULL indicate no naming. // // // Return Values: // None. // //-- ////////////////////////////////////////////////////////////////////////////// void DebugInitializeThreadTraceFlags( LPCTSTR pszThreadNameIn ) { // // Read per thread flags // if ( g_tfModule & mtfPERTHREADTRACE ) { TCHAR szPath[ MAX_PATH ]; DWORD dwTraceFlags; DWORD dwLen; SPerThreadDebug * ptd; LPCTSTR pszThreadTraceFlags; // // Get the EXEs filename and change the extension to INI. // dwLen = GetModuleFileName( NULL, szPath, sizeof( szPath ) ); Assert( dwLen != 0 ); // error in GetModuleFileName _tcscpy( &szPath[ dwLen - 3 ], TEXT("ini") ); if ( pszThreadNameIn == NULL ) { TCHAR szThreadTraceFlags[ 50 ]; // // No name thread - use generic name // _sntprintf( szThreadTraceFlags, sizeof( szThreadTraceFlags ), TEXT("ThreadTraceFlags%u"), g_ThreadCounter ); dwTraceFlags = GetPrivateProfileInt( __MODULE__, szThreadTraceFlags, 0, szPath ); InterlockedIncrement( (LONG *) &g_ThreadCounter ); pszThreadTraceFlags = szThreadTraceFlags; } // if: no thread name else { // // Named thread // dwTraceFlags = GetPrivateProfileInt( __MODULE__, pszThreadNameIn, 0, szPath ); pszThreadTraceFlags = pszThreadNameIn; } // else: named thread Assert( g_TraceFlagsIndex != 0 ); ptd = (SPerThreadDebug *) TlsGetValue( g_TraceFlagsIndex ); if ( ptd == NULL ) { // don't track this. ptd = (SPerThreadDebug *) HeapAlloc( GetProcessHeap(), 0, sizeof( SPerThreadDebug ) ); ptd->dwStackCounter = 0; TlsSetValue( g_TraceFlagsIndex, ptd ); } // if: ptd if ( ptd != NULL ) { ptd->dwFlags = dwTraceFlags; if ( pszThreadNameIn == NULL ) { ptd->pcszName = g_szUnknown; } // if: no name else { ptd->pcszName = pszThreadNameIn; } // else: give it a name } // if: ptd DebugMsg( TEXT("DEBUG: Starting ThreadId = 0x%08x - %s = 0x%08x"), GetCurrentThreadId(), pszThreadTraceFlags, dwTraceFlags ); } // if: per thread tracing turned on } //*** DebugInitializeThreadTraceFlags() ////////////////////////////////////////////////////////////////////////////// //++ // // void // DebugTerminiateThreadTraceFlags( void ) // // Description: // Cleans up the mess create by DebugInitializeThreadTraceFlags(). One // should use the TraceTerminateThread() macro instead of calling this // directly. // // Arguments: // None. // // Return Values: // None. // //-- ////////////////////////////////////////////////////////////////////////////// void DebugTerminiateThreadTraceFlags( void ) { // // If "per thread" is on, clean up the memory allocation. // if ( g_tfModule & mtfPERTHREADTRACE ) { Assert( g_TraceFlagsIndex != -1 ); SPerThreadDebug * ptd = (SPerThreadDebug *) TlsGetValue( g_TraceFlagsIndex ); if ( ptd != NULL ) { HeapFree( GetProcessHeap(), 0, ptd ); TlsSetValue( g_TraceFlagsIndex, NULL ); } // if: ptd } // if: per thread } // DebugTerminiateThreadTraceFlags() ////////////////////////////////////////////////////////////////////////////// //++ // // ASCII version // // void // TraceMsg( // TRACEFLAG tfIn, // LPCSTR pszFormatIn, // ... // ) // // Description: // If any of the flags in trace flags match any of the flags set in // tfIn, the formatted string will be printed to the debugger. // // Arguments: // tfIn - Flags to be checked. // pszFormatIn - Formatted string to spewed to the debugger. // ... - message arguments // // Return Values: // None. // //-- ////////////////////////////////////////////////////////////////////////////// void __cdecl TraceMsg( TRACEFLAG tfIn, LPCSTR pszFormatIn, ... ) { va_list valist; if ( IsDebugFlagSet( tfIn ) ) { TCHAR szBuf[ cchDEBUG_OUTPUT_BUFFER_SIZE ]; LPTSTR pszBuf; int cchSize = sizeof( szBuf ); DebugInitializeBuffer( NULL, 0, __MODULE__, szBuf, &cchSize, &pszBuf ); #ifdef UNICODE // // Convert the format buffer to wide chars // WCHAR szFormat[ cchDEBUG_OUTPUT_BUFFER_SIZE ]; mbstowcs( szFormat, pszFormatIn, strlen( pszFormatIn ) + 1 ); va_start( valist, pszFormatIn ); _vsntprintf( pszBuf, cchSize, szFormat, valist ); va_end( valist ); wcscat( pszBuf, SZ_NEWLINE ); #else va_start( valist, pszFormatIn ); _vsntprintf( pszBuf, cchSize, pszFormatIn, valist ); va_end( valist ); strcat( pszBuf, ASZ_NEWLINE ); #endif // UNICODE DebugOutputString( szBuf ); } // if: flags set } //*** TraceMsg() - ASCII ////////////////////////////////////////////////////////////////////////////// //++ // // UNICODE version // // void // TraceMsg( // TRACEFLAG tfIn, // LPCWSTR pszFormatIn, // ... // ) // // Description: // If any of the flags in trace flags match any of the flags set in // tfIn, the formatted string will be printed to the debugger. // // Arguments: // tfIn - Flags to be checked. // pszFormatIn - Formatted string to spewed to the debugger. // ... - message arguments // // Return Values: // None. // //-- ////////////////////////////////////////////////////////////////////////////// void __cdecl TraceMsg( TRACEFLAG tfIn, LPCWSTR pszFormatIn, ... ) { va_list valist; if ( IsDebugFlagSet( tfIn ) ) { TCHAR szBuf[ cchDEBUG_OUTPUT_BUFFER_SIZE ]; LPTSTR pszBuf; int cchSize = sizeof( szBuf ); DebugInitializeBuffer( NULL, 0, __MODULE__, szBuf, &cchSize, &pszBuf ); #ifndef UNICODE // // Convert the format buffer to ascii chars // CHAR szFormat[ cchDEBUG_OUTPUT_BUFFER_SIZE ]; wcstombs( szFormat, pszFormatIn, StrLenW( pszFormatIn ) + 1 ); va_start( valist, pszFormatIn ); _vsntprintf( pszBuf, cchSize, szFormat, valist ); va_end( valist ); strcat( pszBuf, ASZ_NEWLINE ); #else va_start( valist, pszFormatIn ); _vsntprintf( pszBuf, cchSize, pszFormatIn, valist ); va_end( valist ); wcscat( pszBuf, SZ_NEWLINE ); #endif // UNICODE DebugOutputString( szBuf ); } // if: flags set } //*** TraceMsg() - UNICODE ////////////////////////////////////////////////////////////////////////////// //++ // // void // TraceMessage( // LPCTSTR pszFileIn, // const int nLineIn, // LPCTSTR pszModuleIn, // TRACEFLAG tfIn, // LPCTSTR pszFormatIn, // ... // ) // // Description: // If any of the flags in trace flags match any of the flags set in // tfIn, the formatted string will be printed to the debugger // along with the filename, line number and module name supplied. This is // used by many of the debugging macros. // // Arguments: // pszFileIn - Source filename. // nLineIn - Source line number. // pszModuleIn - Source module. // tfIn - Flags to be checked. // pszFormatIn - Formatted message to be printed. // ... - message arguments // // Return Values: // None. // //-- ////////////////////////////////////////////////////////////////////////////// void __cdecl TraceMessage( LPCTSTR pszFileIn, const int nLineIn, LPCTSTR pszModuleIn, TRACEFLAG tfIn, LPCTSTR pszFormatIn, ... ) { va_list valist; if ( IsDebugFlagSet( tfIn ) ) { TCHAR szBuf[ cchDEBUG_OUTPUT_BUFFER_SIZE ]; INT cchSize = sizeof( szBuf ); LPTSTR psz; DebugInitializeBuffer( pszFileIn, nLineIn, pszModuleIn, szBuf, &cchSize, &psz ); va_start( valist, pszFormatIn ); _vsntprintf( psz, cchSize, pszFormatIn, valist ); va_end( valist ); _tcscat( psz, SZ_NEWLINE ); DebugOutputString( szBuf ); } // if: flags set } //*** TraceMessage() ////////////////////////////////////////////////////////////////////////////// //++ // // void // TraceMessageDo( // LPCTSTR pszFileIn, // const int nLineIn, // LPCTSTR pszModuleIn, // TRACEFLAG tfIn, // LPCTSTR pszFormatIn, // LPCTSTR pszFuncIn, // ... // ) // // Description: // Works like TraceMessage() but takes has a function argument that is // broken into call/result in the debug spew. This is called from the // TraceMsgDo macro. // // Arguments: // pszFileIn - Source filename. // nLineIn - Source line number. // pszModuleIn - Source module. // tfIn - Flags to be checked // pszFormatIn - Formatted return value string // pszFuncIn - The string version of the function call. // ... - Return value from call. // // Return Values: // None. // //-- ////////////////////////////////////////////////////////////////////////////// void __cdecl TraceMessageDo( LPCTSTR pszFileIn, const int nLineIn, LPCTSTR pszModuleIn, TRACEFLAG tfIn, LPCTSTR pszFormatIn, LPCTSTR pszFuncIn, ... ) { va_list valist; if ( IsDebugFlagSet( tfIn ) ) { TCHAR szBuf[ cchDEBUG_OUTPUT_BUFFER_SIZE ]; INT cchSize = sizeof( szBuf ); LPTSTR pszBuf; int nLen; LPCTSTR psz = pszFuncIn; DebugInitializeBuffer( pszFileIn, nLineIn, pszModuleIn, szBuf, &cchSize, &pszBuf ); // // Prime the buffer // _tcscpy( pszBuf, TEXT("V ") ); pszBuf += 2; // // Copy the l-var part of the expression // while ( *psz && *psz != TEXT('=') ) { *pszBuf = *psz; psz++; pszBuf++; } // while: // // Add the " = " // _tcscpy( pszBuf, TEXT(" = ") ); pszBuf += 3; // // Add the formatted result // va_start( valist, pszFuncIn ); nLen = _vsntprintf( pszBuf, sizeof( szBuf ) - 2 - (pszBuf - &szBuf[0]), pszFormatIn, valist ); va_end( valist ); _tcscat( pszBuf, SZ_NEWLINE ); DebugOutputString( szBuf ); } // if: flags set } //*** TraceMessageDo() ////////////////////////////////////////////////////////////////////////////// //++ // // void // DebugMessage( // LPCTSTR pszFileIn, // const int nLineIn, // LPCTSTR pszModuleIn, // LPCTSTR pszFormatIn, // ... // ) // // Description: // Displays a message only in CHKed/DEBUG builds. Also appends the source // filename, linenumber and module name to the ouput. // // Arguments: // pszFileIn - Source filename. // nLineIn - Source line number. // pszModuleIn - Source module name. // pszFormatIn - Formatted message to be printed. // ... - message arguments // // Return Values: // None. // //-- ////////////////////////////////////////////////////////////////////////////// void __cdecl DebugMessage( LPCTSTR pszFileIn, const int nLineIn, LPCTSTR pszModuleIn, LPCTSTR pszFormatIn, ... ) { va_list valist; TCHAR szBuf[ cchDEBUG_OUTPUT_BUFFER_SIZE ]; INT cchSize = sizeof( szBuf ); LPTSTR pszBuf; DebugInitializeBuffer( pszFileIn, nLineIn, pszModuleIn, szBuf, &cchSize, &pszBuf ); va_start( valist, pszFormatIn ); _vsntprintf( pszBuf, cchSize, pszFormatIn, valist ); va_end( valist ); _tcscat( pszBuf, SZ_NEWLINE ); DebugOutputString( szBuf ); } //*** DebugMessage() ////////////////////////////////////////////////////////////////////////////// //++ // // void // DebugMessageDo( // LPCTSTR pszFileIn, // const int nLineIn, // LPCTSTR pszModuleIn, // LPCTSTR pszFormatIn, // LPCTSTR pszFuncIn, // ... // ) // // Description: // Just like TraceMessageDo() except in CHKed/DEBUG version it will // always spew. The DebugMsgDo macros uses this function. // // Arguments: // pszFileIn - Source filename. // nLineIn - Source line number. // pszModuleIn - Source module name. // pszFormatIn - Formatted result message. // pszFuncIn - The string version of the function call. // ... - The return value of the function call. // // Return Values: // None. // //-- ////////////////////////////////////////////////////////////////////////////// void __cdecl DebugMessageDo( LPCTSTR pszFileIn, const int nLineIn, LPCTSTR pszModuleIn, LPCTSTR pszFormatIn, LPCTSTR pszFuncIn, ... ) { va_list valist; TCHAR szBuf[ cchDEBUG_OUTPUT_BUFFER_SIZE ]; INT cchSize = sizeof( szBuf ); LPTSTR pszBuf; int nLen; LPCTSTR psz = pszFuncIn; DebugInitializeBuffer( pszFileIn, nLineIn, pszModuleIn, szBuf, &cchSize, &pszBuf ); // // Prime the buffer // _tcscpy( pszBuf, TEXT("V ") ); pszBuf += 2; // // Copy the l-var part of the expression // while ( *psz && *psz != TEXT('=') ) { *pszBuf = *psz; psz++; pszBuf++; } // while: // // Add the " = " // _tcscpy( pszBuf, TEXT(" = ") ); pszBuf += 3; // // Add the formatted result // va_start( valist, pszFuncIn ); nLen = _vsntprintf( pszBuf, sizeof( szBuf ) - 2 - (pszBuf - &szBuf[ 0 ]), pszFormatIn, valist ); va_end( valist ); _tcscat( pszBuf, SZ_NEWLINE ); DebugOutputString( szBuf ); } //*** DebugMessageDo() ////////////////////////////////////////////////////////////////////////////// //++ // // ASCII version // // void // DebugMsg( // LPCSTR pszFormatIn, // ... // ) // // Description: // In CHKed/DEBUG version, prints a formatted message to the debugger. This // is a NOP in REAIL version. Helpful for putting in quick debugging // comments. Adds a newline. // // Arguments: // pszFormatIn - Formatted message to be printed. // ... - Arguments for the message. // // Return Values: // None. // //-- ////////////////////////////////////////////////////////////////////////////// void __cdecl DebugMsg( LPCSTR pszFormatIn, ... ) { va_list valist; TCHAR szBuf[ cchDEBUG_OUTPUT_BUFFER_SIZE ]; int cchSize = sizeof( szBuf ); LPTSTR pszBuf; DebugInitializeBuffer( NULL, 0, __MODULE__, szBuf, &cchSize, &pszBuf ); // CScutaru 25-APR-2000: // Added this assert. Maybe Geoff will figure out better what to do with this case. Assert( pszFormatIn != NULL ); #ifdef UNICODE // // Convert the format buffer to wide chars // WCHAR szFormat[ cchDEBUG_OUTPUT_BUFFER_SIZE ]; mbstowcs( szFormat, pszFormatIn, strlen( pszFormatIn ) + 1 ); va_start( valist, pszFormatIn ); _vsntprintf( pszBuf, cchSize, szFormat, valist ); va_end( valist ); wcscat( pszBuf, SZ_NEWLINE ); #else va_start( valist, pszFormatIn ); _vsntprintf( pszBuf, cchSize, pszFormatIn, valist ); va_end( valist ); strcat( pszBuf, ASZ_NEWLINE ); #endif // UNICODE DebugOutputString( szBuf ); } //*** DebugMsg() - ASCII version ////////////////////////////////////////////////////////////////////////////// //++ // // UNICODE version // // void // DebugMsg( // LPCWSTR pszFormatIn, // ... // ) // // Description: // In CHKed/DEBUG version, prints a formatted message to the debugger. This // is a NOP in REAIL version. Helpful for putting in quick debugging // comments. Adds a newline. // // Arguments: // pszFormatIn - Formatted message to be printed. // ... - Arguments for the message. // // Return Values: // None. // //-- ////////////////////////////////////////////////////////////////////////////// void __cdecl DebugMsg( LPCWSTR pszFormatIn, ... ) { va_list valist; TCHAR szBuf[ cchDEBUG_OUTPUT_BUFFER_SIZE ]; int cchSize = sizeof( szBuf ); LPTSTR pszBuf; DebugInitializeBuffer( NULL, 0, __MODULE__, szBuf, &cchSize, &pszBuf ); // CScutaru 25-APR-2000: // Added this assert. Maybe Geoff will figure out better what to do with this case. Assert( pszFormatIn != NULL ); #ifndef UNICODE // // Convert the format buffer to ascii chars // CHAR szFormat[ cchDEBUG_OUTPUT_BUFFER_SIZE ]; wcstombs( szFormat, pszFormatIn, StrLenW( pszFormatIn ) + 1 ); va_start( valist, pszFormatIn ); _vsntprintf( pszBuf, cchSize, szFormat, valist ); va_end( valist ); strcat( pszBuf, ASZ_NEWLINE ); #else va_start( valist, pszFormatIn ); _vsntprintf( pszBuf, cchSize, pszFormatIn, valist ); va_end( valist ); wcscat( pszBuf, SZ_NEWLINE ); #endif // UNICODE DebugOutputString( szBuf ); } //*** DebugMsg() - UNICODE version ////////////////////////////////////////////////////////////////////////////// //++ // // ASCII version // // void // DebugMsgNoNewline( // LPCSTR pszFormatIn, // ... // ) // // Description: // In CHKed/DEBUG version, prints a formatted message to the debugger. This // is a NOP in REAIL version. Helpful for putting in quick debugging // comments. Does not add a newline. // // Arguments: // pszFormatIn - Formatted message to be printed. // ... - Arguments for the message. // // Return Values: // None. // //-- ////////////////////////////////////////////////////////////////////////////// void __cdecl DebugMsgNoNewline( LPCSTR pszFormatIn, ... ) { va_list valist; TCHAR szBuf[ cchDEBUG_OUTPUT_BUFFER_SIZE ]; int cchSize = sizeof( szBuf ); LPTSTR pszBuf; DebugInitializeBuffer( NULL, 0, __MODULE__, szBuf, &cchSize, &pszBuf ); // CScutaru 25-APR-2000: // Added this assert. Maybe Geoff will figure out better what to do with this case. Assert( pszFormatIn != NULL ); #ifdef UNICODE // // Convert the format buffer to wide chars // WCHAR szFormat[ cchDEBUG_OUTPUT_BUFFER_SIZE ]; mbstowcs( szFormat, pszFormatIn, strlen( pszFormatIn ) + 1 ); va_start( valist, pszFormatIn ); _vsntprintf( pszBuf, cchSize, szFormat, valist); va_end( valist ); #else va_start( valist, pszFormatIn ); _vsntprintf( pszBuf, cchSize, pszFormatIn, valist); va_end( valist ); #endif // UNICODE DebugOutputString( szBuf ); } //*** DebugMsgNoNewline() - ASCII version ////////////////////////////////////////////////////////////////////////////// //++ // // UNICODE version // // void // DebugMsgNoNewline( // LPCWSTR pszFormatIn, // ... // ) // // Description: // In CHKed/DEBUG version, prints a formatted message to the debugger. This // is a NOP in REAIL version. Helpful for putting in quick debugging // comments. Does not add a newline. // // Arguments: // pszFormatIn - Formatted message to be printed. // ... - Arguments for the message. // // Return Values: // None. // //-- ////////////////////////////////////////////////////////////////////////////// void __cdecl DebugMsgNoNewline( LPCWSTR pszFormatIn, ... ) { va_list valist; TCHAR szBuf[ cchDEBUG_OUTPUT_BUFFER_SIZE ]; int cchSize = sizeof( szBuf ); LPTSTR pszBuf; DebugInitializeBuffer( NULL, 0, __MODULE__, szBuf, &cchSize, &pszBuf ); // CScutaru 25-APR-2000: // Added this assert. Maybe Geoff will figure out better what to do with this case. Assert( pszFormatIn != NULL ); #ifndef UNICODE // // Convert the format buffer to ascii chars // CHAR szFormat[ cchDEBUG_OUTPUT_BUFFER_SIZE ]; wcstombs( szFormat, pszFormatIn, StrLenW( pszFormatIn ) + 1 ); va_start( valist, pszFormatIn ); _vsntprintf( pszBuf, cchSize, szFormat, valist); va_end( valist ); #else va_start( valist, pszFormatIn ); _vsntprintf( pszBuf, cchSize, pszFormatIn, valist); va_end( valist ); #endif // UNICODE DebugOutputString( szBuf ); } //*** DebugMsgNoNewline() - UNICODE version ////////////////////////////////////////////////////////////////////////////// //++ // // BOOL // AssertMessage( // LPCTSTR pszFileIn, // const int nLineIn, // LPCTSTR pszModuleIn, // LPCTSTR pszfnIn, // BOOL fTrueIn // ) // // Description: // Displays a dialog box with the failed assertion. User has the option of // breaking. The Assert macro calls this to display assertion failures. // // Arguments: // pszFileIn - Source filename. // nLineIn - Source line number. // pszModuleIn - Source module name. // pszfnIn - String version of the expression to assert. // fTrueIn - Result of the evaluation of the expression. // // Return Values: // TRUE - Caller should call DEBUG_BREAK. // FALSE - Caller should not call DEBUG_BREAK. // //-- ////////////////////////////////////////////////////////////////////////////// BOOL AssertMessage( LPCTSTR pszFileIn, const int nLineIn, LPCTSTR pszModuleIn, LPCTSTR pszfnIn, BOOL fTrueIn ) { BOOL fTrue = fTrueIn; if ( ! fTrueIn ) { LRESULT lResult; TCHAR szBuf[ cchDEBUG_OUTPUT_BUFFER_SIZE ]; int cchSize = sizeof( szBuf ); LPTSTR pszBuf; LPCTSTR pszfn = pszfnIn; // // Output a debug message. // DebugInitializeBuffer( pszFileIn, nLineIn, pszModuleIn, szBuf, &cchSize, &pszBuf ); _sntprintf( pszBuf, cchSize, TEXT("ASSERT: %s") SZ_NEWLINE, pszfn ); DebugOutputString( szBuf ); // // Display an assert message. // _sntprintf( szBuf, sizeof( szBuf ), TEXT("Module:\t%s\t\n") TEXT("Line:\t%u\t\n") TEXT("File:\t%s\t\n\n") TEXT("Assertion:\t%s\t\n\n") TEXT("Do you want to break here?"), pszModuleIn, nLineIn, pszFileIn, pszfn ); lResult = MessageBox( NULL, szBuf, TEXT("Assertion Failed!"), MB_YESNO | MB_ICONWARNING | MB_SETFOREGROUND ); if ( lResult == IDNO ) { fTrue = TRUE; // don't break } // if: } // if: assert false return ! fTrue; } //*** AssertMessage() ////////////////////////////////////////////////////////////////////////////// //++ // // HRESULT // TraceBOOL( // LPCTSTR pszFileIn, // const int nLineIn, // LPCTSTR pszModuleIn, // LPCTSTR pszfnIn, // BOOL bIn, // ) // // Description: // Traces BOOLs. A dialog will appear if the bIn is equal to FALSE (0). // The dialog will ask if the user wants to break-in or continue // execution. This is called from the TBOOL macro. // // Arguments: // pszFileIn - Source filename. // nLineIn - Source line number. // pszModuleIn - Source module name. // pszfnIn - String version of the function call. // bIn - BOOL result of the function call. // // Return Values: // Whatever bIn is. // //-- ////////////////////////////////////////////////////////////////////////////// BOOL TraceBOOL( LPCTSTR pszFileIn, const int nLineIn, LPCTSTR pszModuleIn, LPCTSTR pszfnIn, BOOL bIn ) { if ( !bIn ) { LPTSTR pszBuf; TCHAR szBuf[ cchDEBUG_OUTPUT_BUFFER_SIZE ]; int cchSize = sizeof( szBuf ); Assert( pszFileIn != NULL ); Assert( pszModuleIn != NULL ); Assert( pszfnIn != NULL ); // // Spew it to the debugger. // DebugInitializeBuffer( pszFileIn, nLineIn, pszModuleIn, szBuf, &cchSize, &pszBuf ); _sntprintf( pszBuf, cchSize, TEXT("*BOOL* b = %s (%#x)") SZ_NEWLINE, BOOLTOSTRING( bIn ), bIn ); DebugOutputString( szBuf ); // // If trace flag set, generate a pop-up. // if ( IsTraceFlagSet( mtfASSERT_HR ) ) { LRESULT lResult; _sntprintf( szBuf, sizeof( szBuf ), TEXT("Module:\t%s\t\n") TEXT("Line:\t%u\t\n") TEXT("File:\t%s\t\n\n") TEXT("Function:\t%s\t\n") TEXT("b =\t%s (%#x)\t\n") TEXT("Do you want to break here?"), pszModuleIn, nLineIn, pszFileIn, pszfnIn, BOOLTOSTRING( bIn ), bIn ); lResult = MessageBox( NULL, szBuf, TEXT("Trace BOOL"), MB_YESNO | MB_ICONWARNING | MB_SETFOREGROUND ); if ( lResult == IDYES ) { DEBUG_BREAK; } // if: break } // if: asserting on non-success } // if: !bIn return bIn; } //*** TraceBOOL() ////////////////////////////////////////////////////////////////////////////// //++ // // HRESULT // TraceHR( // LPCTSTR pszFileIn, // const int nLineIn, // LPCTSTR pszModuleIn, // LPCTSTR pszfnIn, // HRESULT hrIn, // BOOL fSuccessIn // HRESULT hrIgnoreIn // ) // // Description: // Traces HRESULT errors. A dialog will appear if the hrIn is not equal // to S_OK. The dialog will ask if the user wants to break-in or continue // execution. This is called from the THR macro. // // Arguments: // pszFileIn - Source filename. // nLineIn - Source line number. // pszModuleIn - Source module name. // pszfnIn - String version of the function call. // hrIn - HRESULT of the function call. // fSuccessIn - If TRUE, only if FAILED( hr ) is TRUE will it report. // hrIgnoreIn - HRESULT to ignore. // // Return Values: // Whatever hrIn is. // //-- ////////////////////////////////////////////////////////////////////////////// HRESULT TraceHR( LPCTSTR pszFileIn, const int nLineIn, LPCTSTR pszModuleIn, LPCTSTR pszfnIn, HRESULT hrIn, BOOL fSuccessIn, HRESULT hrIgnoreIn ) { HRESULT hr; static LPCTSTR s_szS_FALSE = TEXT("S_FALSE"); // If ignoring success statuses and no failure occurred, set hrIn to // something we always ignore (S_OK). This simplifies the if condition // below. if ( fSuccessIn && ! FAILED( hrIn ) ) { hr = S_OK; } else { hr = hrIn; } if ( ( hr != S_OK ) && ( hr != hrIgnoreIn ) ) { TCHAR szSymbolicName[ 64 ]; // random DWORD cchSymbolicName; TCHAR szBuf[ cchDEBUG_OUTPUT_BUFFER_SIZE ]; int cchSize = sizeof( szBuf ); LPTSTR pszBuf; LPTSTR pszMsgBuf; LRESULT lResult; bool fAllocatedMsg = false; switch ( hr ) { case S_FALSE: pszMsgBuf = (LPTSTR) s_szS_FALSE; // // Find the symbolic name for this error. // cchSymbolicName = sizeof( s_szS_FALSE ) / sizeof( s_szS_FALSE[ 0 ] ); Assert( cchSymbolicName <= sizeof( szSymbolicName ) / sizeof( szSymbolicName[ 0 ] ) ); _tcscpy( szSymbolicName, s_szS_FALSE ); break; default: FormatMessage( FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_SYSTEM, NULL, hr, MAKELANGID( LANG_NEUTRAL, SUBLANG_DEFAULT ), // Default language (LPTSTR) &pszMsgBuf, 0, NULL ); // // Make sure everything is cool before we blow up somewhere else. // if ( pszMsgBuf == NULL ) { pszMsgBuf = TEXT(""); } // if: status code not found else { fAllocatedMsg = true; } // else: found the status code // // Find the symbolic name for this error. // cchSymbolicName = sizeof( szSymbolicName ) / sizeof( szSymbolicName[ 0 ] ); DebugFindWinerrorSymbolicName( hr, szSymbolicName, &cchSymbolicName ); Assert( cchSymbolicName != sizeof( szSymbolicName ) / sizeof( szSymbolicName[ 0 ] ) ); break; } // switch: hr Assert( pszFileIn != NULL ); Assert( pszModuleIn != NULL ); Assert( pszfnIn != NULL ); // // Spew it to the debugger. // DebugInitializeBuffer( pszFileIn, nLineIn, pszModuleIn, szBuf, &cchSize, &pszBuf ); _sntprintf( pszBuf, cchSize, TEXT("*HRESULT* hr = 0x%08x (%s) - %s") SZ_NEWLINE, hr, szSymbolicName, pszMsgBuf ); DebugOutputString( szBuf ); // // If trace flag set, generate a pop-up. // if ( IsTraceFlagSet( mtfASSERT_HR ) ) { _sntprintf( szBuf, sizeof( szBuf ), TEXT("Module:\t%s\t\n") TEXT("Line:\t%u\t\n") TEXT("File:\t%s\t\n\n") TEXT("Function:\t%s\t\n") TEXT("hr =\t0x%08x (%s) - %s\t\n") TEXT("Do you want to break here?"), pszModuleIn, nLineIn, pszFileIn, pszfnIn, hr, szSymbolicName, pszMsgBuf ); lResult = MessageBox( NULL, szBuf, TEXT("Trace HRESULT"), MB_YESNO | MB_ICONWARNING | MB_SETFOREGROUND ); if ( lResult == IDYES ) { DEBUG_BREAK; } // if: break } // if: asserting on non-success HRESULTs if ( fAllocatedMsg ) { HeapFree( GetProcessHeap(), 0, pszMsgBuf ); } // if: message buffer was allocated by FormateMessage() } // if: hr != S_OK return hrIn; } //*** TraceHR() ////////////////////////////////////////////////////////////////////////////// //++ // // ULONG // TraceWin32( // LPCTSTR pszFileIn, // const int nLineIn, // LPCTSTR pszModuleIn, // LPCTSTR pszfnIn, // ULONG ulErrIn // ) // // Description: // Traces WIN32 errors. A dialog will appear is the ulErrIn is not equal // to ERROR_SUCCESS. The dialog will ask if the user wants to break-in or // continue execution. // // Arguments: // pszFileIn - Source filename. // nLineIn - Source line number. // pszModuleIn - Source module name. // pszfnIn - String version of the function call. // ulErrIn - Error code to check. // ulErrIgnoreIn - Error code to ignore. // // Return Values: // Whatever ulErrIn is. // //-- ////////////////////////////////////////////////////////////////////////////// ULONG TraceWin32( LPCTSTR pszFileIn, const int nLineIn, LPCTSTR pszModuleIn, LPCTSTR pszfnIn, ULONG ulErrIn, ULONG ulErrIgnoreIn ) { if ( ( ulErrIn != ERROR_SUCCESS ) && ( ulErrIn != ulErrIgnoreIn ) ) { TCHAR szSymbolicName[ 64 ]; // random DWORD cchSymbolicName; TCHAR szBuf[ cchDEBUG_OUTPUT_BUFFER_SIZE ]; int cchSize = sizeof( szBuf ); LPTSTR pszBuf; LPTSTR pszMsgBuf; LRESULT lResult; bool fAllocatedMsg = false; FormatMessage( FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_SYSTEM, NULL, ulErrIn, MAKELANGID( LANG_NEUTRAL, SUBLANG_DEFAULT ), // Default language (LPTSTR) &pszMsgBuf, 0, NULL ); // // Make sure everything is cool before we blow up somewhere else. // if ( pszMsgBuf == NULL ) { pszMsgBuf = TEXT(""); } // if: status code not found else { fAllocatedMsg = true; } // else: found the status code Assert( pszFileIn != NULL ); Assert( pszModuleIn != NULL ); Assert( pszfnIn != NULL ); // // Find the symbolic name for this error. // cchSymbolicName = sizeof( szSymbolicName ) / sizeof( szSymbolicName[ 0 ] ); DebugFindWinerrorSymbolicName( ulErrIn, szSymbolicName, &cchSymbolicName ); Assert( cchSymbolicName != sizeof( szSymbolicName ) / sizeof( szSymbolicName[ 0 ] ) ); // // Spew it to the debugger. // DebugInitializeBuffer( pszFileIn, nLineIn, pszModuleIn, szBuf, &cchSize, &pszBuf ); _sntprintf( pszBuf, cchSize, TEXT("*WIN32Err* ulErr = %u (%s) - %s") SZ_NEWLINE, ulErrIn, szSymbolicName, pszMsgBuf ); DebugOutputString( szBuf ); // // If trace flag set, invoke a pop-up. // if ( IsTraceFlagSet( mtfASSERT_HR ) ) { _sntprintf( szBuf, sizeof( szBuf ), TEXT("Module:\t%s\t\n") TEXT("Line:\t%u\t\n") TEXT("File:\t%s\t\n\n") TEXT("Function:\t%s\t\n") TEXT("ulErr =\t%u (%s) - %s\t\n") TEXT("Do you want to break here?"), pszModuleIn, nLineIn, pszFileIn, pszfnIn, ulErrIn, szSymbolicName, pszMsgBuf ); lResult = MessageBox( NULL, szBuf, TEXT("Trace Win32"), MB_YESNO | MB_ICONWARNING | MB_SETFOREGROUND ); if ( lResult == IDYES ) { DEBUG_BREAK; } // if: break } // if: asserting on non-success status codes if ( fAllocatedMsg ) { HeapFree( GetProcessHeap(), 0, pszMsgBuf ); } // if: message buffer was allocated by FormateMessage() } // if: ulErrIn != ERROR_SUCCESS && != ulErrIgnoreIn return ulErrIn; } //*** TraceWin32() ////////////////////////////////////////////////////////////////////////////// //++ // // HRESULT // HrTraceLogOpen( void ) // // Description: // This function: // - initializes the trace log critical section // - enters the trace log critical section assuring only one thread is // writing to the trace log at a time // - creates the directory tree to the trace log file (if needed) // - initializes the trace log file by: // - creating a new trace log file if one doesn't exist. // - opens an existing trace log file (for append) // - appends a time/date stamp that the trace log was (re)opened. // // Use HrTraceLogClose() to exit the log critical section. // // If there is a failure inside this function, the trace log critical // section will be released before returning. // // Arguments: // None. // // Return Values: // S_OK - log critical section held and trace log open successfully // Otherwize HRESULT error code. // //-- ////////////////////////////////////////////////////////////////////////////// HRESULT HrTraceLogOpen( void ) { TCHAR szFilePath[ MAX_PATH ]; TCHAR szModulePath[ MAX_PATH ]; CHAR szBuffer[ TRACE_OUTPUT_BUFFER_SIZE ]; DWORD dwWritten; BOOL fReturn; HRESULT hr; SYSTEMTIME SystemTime; // // Create a critical section to prevent lines from being fragmented. // if ( g_pcsTraceLog == NULL ) { PCRITICAL_SECTION pNewCritSect = (PCRITICAL_SECTION) HeapAlloc( GetProcessHeap(), 0, sizeof( CRITICAL_SECTION ) ); if ( pNewCritSect == NULL ) { DebugMsg( "DEBUG: Out of Memory. Tracing disabled." ); hr = E_OUTOFMEMORY; goto Cleanup; } // if: creation failed InitializeCriticalSection( pNewCritSect ); // Make sure we only have one trace log critical section InterlockedCompareExchangePointer( (PVOID *) &g_pcsTraceLog, pNewCritSect, 0 ); if ( g_pcsTraceLog != pNewCritSect ) { DebugMsg( "DEBUG: Another thread already created the CS. Deleting this one." ); DeleteCriticalSection( pNewCritSect ); HeapFree( GetProcessHeap(), 0, pNewCritSect ); } // if: already have another critical section } // if: no critical section created yet Assert( g_pcsTraceLog != NULL ); EnterCriticalSection( g_pcsTraceLog ); // // Make sure the trace log file is open // if ( g_hTraceLogFile == INVALID_HANDLE_VALUE ) { DWORD dwLen; LPTSTR psz; // // Create the directory tree // ExpandEnvironmentStrings( TEXT("%windir%\\debug"), szFilePath, MAX_PATH ); // // Add filename // dwLen = GetModuleFileName( g_hInstance, szModulePath, sizeof( szModulePath ) / sizeof( szModulePath[ 0 ] ) ); Assert( dwLen != 0 ); _tcscpy( &szModulePath[ dwLen - 3 ], TEXT("log") ); psz = _tcsrchr( szModulePath, TEXT('\\') ); Assert( psz != NULL ); if ( psz == NULL ) { hr = E_POINTER; goto Error; } _tcscat( szFilePath, psz ); // // Create it // g_hTraceLogFile = CreateFile( szFilePath, GENERIC_WRITE, FILE_SHARE_READ | FILE_SHARE_WRITE, NULL, OPEN_ALWAYS, FILE_FLAG_WRITE_THROUGH, NULL ); if ( g_hTraceLogFile == INVALID_HANDLE_VALUE ) { if ( !( g_tfModule & mtfOUTPUTTODISK ) ) { DebugMsg( "*ERROR* Failed to create trace log at %s", szFilePath ); } // if: not tracing to disk DWORD dwErr = TW32( GetLastError( ) ); hr = HRESULT_FROM_WIN32( dwErr ); goto Error; } // if: failed // Seek to the end SetFilePointer( g_hTraceLogFile, 0, NULL, FILE_END ); // // Write the time/date the trace log was (re)openned. // GetLocalTime( &SystemTime ); _snprintf( szBuffer, sizeof( szBuffer ), "*" ASZ_NEWLINE "* %02u/%02u/%04u %02u:%02u:%02u.%03u" ASZ_NEWLINE "*" ASZ_NEWLINE, SystemTime.wMonth, SystemTime.wDay, SystemTime.wYear, SystemTime.wHour, SystemTime.wMinute, SystemTime.wSecond, SystemTime.wMilliseconds ); fReturn = WriteFile( g_hTraceLogFile, szBuffer, strlen(szBuffer), &dwWritten, NULL ); if ( ! fReturn ) { DWORD dwErr = TW32( GetLastError( ) ); hr = HRESULT_FROM_WIN32( dwErr ); goto Error; } // if: failed DebugMsg( "DEBUG: Created trace log at %s", szFilePath ); } // if: file not already openned hr = S_OK; Cleanup: return hr; Error: DebugMsg( "HrTaceLogOpen: Failed hr = 0x%08x", hr ); if ( g_hTraceLogFile != INVALID_HANDLE_VALUE ) { CloseHandle( g_hTraceLogFile ); g_hTraceLogFile = INVALID_HANDLE_VALUE; } // if: handle was open LeaveCriticalSection( g_pcsTraceLog ); goto Cleanup; } //*** HrTraceLogOpen() ////////////////////////////////////////////////////////////////////////////// //++ // // HRESULT // HrTraceLogClose( void ) // // Description: // This actually just leaves the log critical section. // // Arguments: // None. // // Return Values: // S_OK always. // //-- ////////////////////////////////////////////////////////////////////////////// HRESULT HrTraceLogClose( void ) { Assert( g_pcsTraceLog != NULL ); LeaveCriticalSection( g_pcsTraceLog ); return S_OK; } //*** HrTraceLogClose() ////////////////////////////////////////////////////////////////////////////// //++ // // ASCII // // void // TraceLogMsgNoNewline( // LPCSTR pszFormat, // ... // ) // // Description: // Writes a message to the trace log file without adding a newline. // // Arguments: // pszFormat - A printf format string to be printed. // ,,, - Arguments for the printf string. // // Return Values: // None. // //-- ////////////////////////////////////////////////////////////////////////////// void __cdecl TraceLogMsgNoNewline( LPCSTR pszFormat, ... ) { va_list valist; CHAR szBuf[ TRACE_OUTPUT_BUFFER_SIZE ]; DWORD dwWritten; HRESULT hr; #ifdef UNICODE WCHAR szFormat[ TRACE_OUTPUT_BUFFER_SIZE ]; WCHAR szTmpBuf[ TRACE_OUTPUT_BUFFER_SIZE ]; mbstowcs( szFormat, pszFormat, strlen( pszFormat ) + 1 ); va_start( valist, pszFormat ); wvsprintf( szTmpBuf, szFormat, valist); va_end( valist ); dwWritten = wcstombs( szBuf, szTmpBuf, wcslen( szTmpBuf ) + 1 ); if ( dwWritten == - 1 ) { dwWritten = strlen( szBuf ); } // if: bad character found #else va_start( valist, pszFormat ); dwWritten = wvsprintf( szBuf, pszFormat, valist); va_end( valist ); #endif // UNICODE hr = HrTraceLogOpen(); if ( hr != S_OK ) { return; } // if: failed WriteFile( g_hTraceLogFile, szBuf, dwWritten, &dwWritten, NULL ); HrTraceLogClose(); } //*** TraceLogMsgNoNewline() ASCII ////////////////////////////////////////////////////////////////////////////// //++ // // UNICODE // // void // TraceLogMsgNoNewline( // LPCWSTR pszFormat, // ... // ) // // Description: // Writes a message to the trace log file without adding a newline. // // Arguments: // pszFormat - A printf format string to be printed. // ,,, - Arguments for the printf string. // // Return Values: // None. // //-- ////////////////////////////////////////////////////////////////////////////// void __cdecl TraceLogMsgNoNewline( LPCWSTR pszFormat, ... ) { va_list valist; CHAR szBuf[ TRACE_OUTPUT_BUFFER_SIZE ]; DWORD dwWritten; HRESULT hr; #ifdef UNICODE WCHAR szTmpBuf[ TRACE_OUTPUT_BUFFER_SIZE ]; va_start( valist, pszFormat ); wvsprintf( szTmpBuf, pszFormat, valist); va_end( valist ); dwWritten = wcstombs( szBuf, szTmpBuf, wcslen( szTmpBuf ) + 1 ); if ( dwWritten == -1 ) { dwWritten = strlen( szBuf ); } // if: bad character found #else CHAR szFormat[ TRACE_OUTPUT_BUFFER_SIZE ]; wcstombs( szFormat, pszFormat, wcslen( pszFormat ) + 1 ); va_start( valist, pszFormat ); dwWritten = wvsprintf( szBuf, szFormat, valist); va_end( valist ); #endif // UNICODE hr = HrTraceLogOpen(); if ( hr != S_OK ) { return; } // if: failed WriteFile( g_hTraceLogFile, szBuf, dwWritten, &dwWritten, NULL ); HrTraceLogClose(); } //*** TraceLogMsgNoNewline() UNICODE //**************************************************************************** //**************************************************************************** // // Memory allocation and tracking // //**************************************************************************** //**************************************************************************** // // This is a private structure and should not be known to the application. // typedef struct MEMORYBLOCK { EMEMORYBLOCKTYPE mbtType; // What type of memory this is tracking union { void * pvMem; // pointer/object to allocated memory to track BSTR bstr; // BSTR to allocated memory }; DWORD dwBytes; // size of the memory LPCTSTR pszFile; // source filename where memory was allocated int nLine; // source line number where memory was allocated LPCTSTR pszModule; // source module name where memory was allocated LPCTSTR pszComment; // optional comments about the memory MEMORYBLOCK * pNext; // pointer to next MEMORYBLOCK structure } MEMORYBLOCK; typedef struct MEMORYBLOCKLIST { LONG lSpinLock; // Spin lock protecting the list MEMORYBLOCK * pmbList; // List of MEMORYBLOCKs. BOOL fDeadList; // The list is dead. } MEMORYBLOCKLIST; ////////////////////////////////////////////////////////////////////////////// //++ // // void // DebugMemorySpew( // MEMORYBLOCK * pmb, // LPTSTR pszMessage // ) // // Description: // Displays a message about the memory block. // // Arugments: // pmb - pointer to MEMORYBLOCK desciptor. // pszMessage - message to display // // Return Values: // None. // //-- ////////////////////////////////////////////////////////////////////////////// void DebugMemorySpew( MEMORYBLOCK * pmb, LPTSTR pszMessage ) { switch ( pmb->mbtType ) { case mmbtMEMORYALLOCATION: DebugMessage( pmb->pszFile, pmb->nLine, pmb->pszModule, TEXT("%s 0x%08x (%u bytes) - %s"), pszMessage, pmb->pvMem, pmb->dwBytes, pmb->pszComment ); break; default: DebugMessage( pmb->pszFile, pmb->nLine, pmb->pszModule, TEXT("%s 0x%08x - %s"), pszMessage, pmb->pvMem, pmb->pszComment ); break; } // switch: pmb->mbtType } //*** DebugMemorySpew() ////////////////////////////////////////////////////////////////////////////// //++ // // void * // DebugMemoryAdd( // EMEMORYBLOCKTYPE mbtType, // void * hMemIn, // LPCTSTR pszFileIn, // const int nLineIn, // LPCTSTR pszModuleIn, // DWORD dwBytesIn, // LPCTSTR pszCommentIn // ) // // Description: // Adds memory to be tracked to the memory tracking list. // // Arguments: // mbtType - Type of memory block of the memory to track. // hMemIn - Pointer to memory to track. // pszFileIn - Source filename where memory was allocated. // nLineIn - Source line number where memory was allocated. // pszModuleIn - Source module where memory was allocated. // dwBytesIn - Size of the allocation. // pszCommentIn - Optional comments about the memory. // // Return Values: // Whatever was in pvMemIn. // //-- ////////////////////////////////////////////////////////////////////////////// void * DebugMemoryAdd( EMEMORYBLOCKTYPE mbtType, void * pvMemIn, LPCTSTR pszFileIn, const int nLineIn, LPCTSTR pszModuleIn, DWORD dwBytesIn, LPCTSTR pszCommentIn ) { if ( pvMemIn != NULL ) { MEMORYBLOCK * pmbHead = (MEMORYBLOCK *) TlsGetValue( g_TraceMemoryIndex ); MEMORYBLOCK * pmb = (MEMORYBLOCK *) HeapAlloc( GetProcessHeap(), 0, sizeof( MEMORYBLOCK ) ); if ( pmb == NULL ) { HeapFree( GetProcessHeap(), 0, pvMemIn ); return NULL; } // if: memory block allocation failed pmb->mbtType = mbtType; pmb->pvMem = pvMemIn; pmb->dwBytes = dwBytesIn; pmb->pszFile = pszFileIn; pmb->nLine = nLineIn; pmb->pszModule = pszModuleIn; pmb->pszComment = pszCommentIn; pmb->pNext = pmbHead; TlsSetValue( g_TraceMemoryIndex, pmb ); // // Spew if needed // if ( IsTraceFlagSet( mtfMEMORYALLOCS ) ) { DebugMemorySpew( pmb, TEXT("Alloced") ); } // if: tracing } // if: something to trace return pvMemIn; } //*** DebugMemoryAdd() ////////////////////////////////////////////////////////////////////////////// //++ // // void // DebugMemoryDelete( // EMEMORYBLOCKTYPE mbtTypeIn, // void * pvMemIn // LPCTSTR pszFileIn, // const int nLineIn, // LPCTSTR pszModuleIn, // BOOL fClobberIn // ) // // Description: // Removes a MEMORYBLOCK to the memory tracking list. // // Arguments: // mbtTypeIn - Memory block type. // pvMemIn - Pointer to memory block to stop tracking. // pszFileIn - Source file that is deleteing. // nLineIn - Source line number that is deleteing. // pszModuleIn - Source module name that is deleteing. // fClobberIn - True is memory should be scrambled. // // Return Values: // None. // //-- ////////////////////////////////////////////////////////////////////////////// void DebugMemoryDelete( EMEMORYBLOCKTYPE mbtTypeIn, void * pvMemIn, LPCTSTR pszFileIn, const int nLineIn, LPCTSTR pszModuleIn, BOOL fClobberIn ) { if ( pvMemIn != NULL ) { MEMORYBLOCK * pmbHead = (MEMORYBLOCK *) TlsGetValue( g_TraceMemoryIndex ); MEMORYBLOCK * pmbLast = NULL; // // Find the memory in the memory block list // if ( mbtTypeIn == mmbtMEMORYALLOCATION ) { while ( pmbHead != NULL && !( pmbHead->pvMem == pvMemIn && pmbHead->mbtType == mbtTypeIn ) ) { AssertMsg( !( pmbHead->pvMem == pvMemIn && pmbHead->mbtType == mmbtSYSALLOCSTRING ), "Should be freed by SysAllocFreeString()." ); pmbLast = pmbHead; pmbHead = pmbLast->pNext; } // while: finding the entry in the list } // if: memory allocation type else if ( mbtTypeIn == mmbtSYSALLOCSTRING ) { while ( pmbHead != NULL && !( pmbHead->pvMem == pvMemIn && pmbHead->mbtType == mbtTypeIn ) ) { AssertMsg( !( pmbHead->pvMem == pvMemIn && pmbHead->mbtType == mmbtMEMORYALLOCATION ), "Should be freed by TraceFree()." ); pmbLast = pmbHead; pmbHead = pmbLast->pNext; } // while: finding the entry in the list } // if: SysAllocString type else if ( mbtTypeIn == mmbtUNKNOWN ) { while ( pmbHead != NULL && pmbHead->pvMem != pvMemIn ) { pmbLast = pmbHead; pmbHead = pmbLast->pNext; } // while: finding the entry in the list } // if: don't care what type else { while ( pmbHead != NULL && !( pmbHead->pvMem == pvMemIn && pmbHead->mbtType == mbtTypeIn ) ) { pmbLast = pmbHead; pmbHead = pmbLast->pNext; } // while: finding the entry in the list } // else: other types, but they must match if ( pmbHead != NULL ) { // // Remove the memory block from the tracking list // if ( pmbLast != NULL ) { pmbLast->pNext = pmbHead->pNext; } // if: not first entry else { TlsSetValue( g_TraceMemoryIndex, pmbHead->pNext ); } // else: first entry // // Spew if needed // if ( IsTraceFlagSet( mtfMEMORYALLOCS ) ) { DebugMemorySpew( pmbHead, TEXT("Freeing") ); } // if: tracing // // Nuke the memory // if ( fClobberIn && pmbHead->mbtType == mmbtMEMORYALLOCATION ) { memset( pmbHead->pvMem, 0xFA, pmbHead->dwBytes ); } // if: fixed memory // // Nuke the memory tracking block // memset( pmbHead, 0xFB, sizeof( MEMORYBLOCK ) ); HeapFree( GetProcessHeap(), 0, pmbHead ); } // if: found entry else { DebugMessage( pszFileIn, nLineIn, pszModuleIn, TEXT("***** Attempted to free 0x%08x not owned by thread (ThreadID = 0x%08x) *****"), pvMemIn, GetCurrentThreadId() ); } // else: entry not found } // if: something to delete } //*** DebugMemoryDelete() ////////////////////////////////////////////////////////////////////////////// //++ // // void * // DebugAlloc( // LPCTSTR pszFileIn, // const int nLineIn, // LPCTSTR pszModuleIn, // UINT uFlagsIn, // DWORD dwBytesIn, // LPCTSTR pszCommentIn // ) // // Description: // Replacement for LocalAlloc, GlobalAlloc, and malloc for CHKed/DEBUG // builds. Memoryallocations be tracked. Use the TraceAlloc macro to make // memoryallocations switch in RETAIL. // // Arguments: // pszFileIn - Source filename where memory was allocated. // nLineIn - Source line number where memory was allocated. // pszModuleIn - Source module where memory was allocated. // uFlagsIn - Flags used to allocate the memory. // dwBytesIn - Size of the allocation. // pszCommentIn - Optional comments about the memory. // // Return Values: // Pointer to the new allocation. NULL if allocation failed. // //-- ////////////////////////////////////////////////////////////////////////////// void * DebugAlloc( LPCTSTR pszFileIn, const int nLineIn, LPCTSTR pszModuleIn, UINT uFlagsIn, DWORD dwBytesIn, LPCTSTR pszCommentIn ) { Assert( ( uFlagsIn & LMEM_MOVEABLE ) == 0 ); void * pv = HeapAlloc( GetProcessHeap(), uFlagsIn, dwBytesIn ); // // Initialize the memory if needed // if ( IsTraceFlagSet( mtfMEMORYINIT ) && !( uFlagsIn & HEAP_ZERO_MEMORY ) ) { // // KB: gpease 8-NOV-1999 // Initialize to anything but ZERO. We will use 0xAA to // indicate "Available Address". Initializing to zero // is bad because it usually has meaning. // memset( pv, 0xAA, dwBytesIn ); } // if: zero memory requested return DebugMemoryAdd( mmbtMEMORYALLOCATION, pv, pszFileIn, nLineIn, pszModuleIn, dwBytesIn, pszCommentIn ); } //*** DebugAlloc() ////////////////////////////////////////////////////////////////////////////// //++ // // void * // DebugReAlloc( // LPCTSTR pszFileIn, // const int nLineIn, // LPCTSTR pszModuleIn, // void * pvMemIn, // UINT uFlagsIn, // DWORD dwBytesIn, // LPCTSTR pszCommentIn // ) // // Description: // Replacement for LocalReAlloc, GlobalReAlloc, and realloc for CHKed/DEBUG // builds. Memoryallocations be tracked. Use the TraceAlloc macro to make // memoryallocations switch in RETAIL. // // Arguments: // pszFileIn - Source filename where memory was allocated. // nLineIn - Source line number where memory was allocated. // pszModuleIn - Source module where memory was allocated. // pvMemIn - Pointer to the source memory. // uFlagsIn - Flags used to allocate the memory. // dwBytesIn - Size of the allocation. // pszCommentIn - Optional comments about the memory. // // Return Values: // Pointer to the new allocation. // NULL if allocation failed. // //-- ////////////////////////////////////////////////////////////////////////////// void * DebugReAlloc( LPCTSTR pszFileIn, const int nLineIn, LPCTSTR pszModuleIn, void * pvMemIn, UINT uFlagsIn, DWORD dwBytesIn, LPCTSTR pszCommentIn ) { MEMORYBLOCK * pmbHead = NULL; void * pvOld = pvMemIn; MEMORYBLOCK * pmbLast = NULL; void * pv; AssertMsg( !( uFlagsIn & GMEM_MODIFY ), "This doesn't handle modified memory blocks, yet." ); if ( pvMemIn == NULL ) { // // To duplicate the behavior of realloc we need to do an alloc when // pvMemIn is NULL. // pv = DebugAlloc( pszFileIn, nLineIn, pszModuleIn, uFlagsIn, dwBytesIn, pszCommentIn ); goto Exit; } // if: pmbHead = (MEMORYBLOCK *) TlsGetValue( g_TraceMemoryIndex ); // // Find the memory in the memory block list // while ( pmbHead != NULL && pmbHead->pvMem != pvMemIn ) { pmbLast = pmbHead; pmbHead = pmbLast->pNext; } // while: finding the entry in the list if ( pmbHead != NULL ) { AssertMsg( pmbHead->mbtType == mmbtMEMORYALLOCATION, "You can only realloc memory allocations!" ); // // Remove the memory from the tracking list // if ( pmbLast != NULL ) { pmbLast->pNext = pmbHead->pNext; } // if: not first entry else { TlsSetValue( g_TraceMemoryIndex, pmbHead->pNext ); } // else: first entry // // Spew if needed // if ( IsTraceFlagSet( mtfMEMORYALLOCS ) ) { DebugMemorySpew( pmbHead, TEXT("Freeing") ); } // if: tracing // // Force the programmer to handle a real realloc by moving the // memory first. // pvOld = HeapAlloc( GetProcessHeap(), uFlagsIn, pmbHead->dwBytes ); if ( pvOld != NULL ) { CopyMemory( pvOld, pvMemIn, pmbHead->dwBytes ); // // Nuke the old memory if the allocation is to be smaller. // if ( dwBytesIn < pmbHead->dwBytes ) { LPBYTE pb = (LPBYTE) pvOld + dwBytesIn; memset( pb, 0xFA, pmbHead->dwBytes - dwBytesIn ); } // if: smaller memory pmbHead->pvMem = pvOld; } // if: got new memory else { pvOld = pvMemIn; } // else: allocation failed } // if: found entry else { DebugMessage( pszFileIn, nLineIn, pszModuleIn, TEXT("***** Attempted to realloc 0x%08x not owned by thread (ThreadID = 0x%08x) *****"), pvMemIn, GetCurrentThreadId() ); } // else: entry not found // // We do this any way because the flags and input still need to be // verified by HeapReAlloc(). // pv = HeapReAlloc( GetProcessHeap(), uFlagsIn, pvOld, dwBytesIn ); if ( pv == NULL ) { DWORD dwErr = TW32( GetLastError() ); AssertMsg( dwErr == 0, "HeapReAlloc() failed!" ); if ( pvMemIn != pvOld ) { HeapFree( GetProcessHeap(), 0, pvOld ); } // if: forced a move SetLastError( dwErr ); if ( pmbHead != NULL ) { // // Continue tracking the memory by re-adding it to the tracking list. // pmbHead->pvMem = pvMemIn; pmbHead->pNext = (MEMORYBLOCK *) TlsGetValue( g_TraceMemoryIndex ); TlsSetValue( g_TraceMemoryIndex, (LPVOID) pmbHead ); } // if: reuse the old entry else { // // Create a new block // DebugMemoryAdd( mmbtMEMORYALLOCATION, pvOld, pszFileIn, nLineIn, pszModuleIn, dwBytesIn, pszCommentIn ); } // else: make new entry } // if: allocation failed else { if ( pv != pvMemIn ) { if ( pmbHead != NULL ) { // // Nuke the old memory // memset( pvMemIn, 0xFA, pmbHead->dwBytes ); } // if: entry found // // Free the old memory // HeapFree( GetProcessHeap(), 0, pvMemIn ); } // if: new memory location // // Add the allocation to the tracking table. // if ( pmbHead != NULL ) { // // If the block is bigger, initialize the "new" memory // if ( IsTraceFlagSet( mtfMEMORYINIT ) && dwBytesIn > pmbHead->dwBytes ) { // // Initialize the expaned memory block // LPBYTE pb = (LPBYTE) pv + pmbHead->dwBytes; memset( pb, 0xAA, dwBytesIn - pmbHead->dwBytes ); } // if: initialize memory // // Re-add the tracking block by reusing the old tracking block // pmbHead->pvMem = pv; pmbHead->dwBytes = dwBytesIn; pmbHead->pszFile = pszFileIn; pmbHead->nLine = nLineIn; pmbHead->pszModule = pszModuleIn; pmbHead->pszComment = pszCommentIn; pmbHead->pNext = (MEMORYBLOCK *) TlsGetValue( g_TraceMemoryIndex ); TlsSetValue( g_TraceMemoryIndex, (LPVOID) pmbHead ); // // Spew if needed // if ( IsTraceFlagSet( mtfMEMORYALLOCS ) ) { DebugMemorySpew( pmbHead, TEXT("ReAlloced") ); } // if: tracing } // if: entry found else { // // Create a new block // DebugMemoryAdd( mmbtMEMORYALLOCATION, pvOld, pszFileIn, nLineIn, pszModuleIn, dwBytesIn, pszCommentIn ); } // else: make new entry } // else: allocation succeeded Exit: return pv; } //*** DebugRealloc() ////////////////////////////////////////////////////////////////////////////// //++ // // void * // DebugFree( // void * pvMemIn // LPCTSTR pszFileIn, // const int nLineIn, // LPCTSTR pszModuleIn, // ) // // Description: // Replacement for LocalFree for CHKed/DEBUG builds. Removes the // memory allocation for the memory tracking list. Use the TraceFree // macro to make memory allocation switch in RETAIL. The memory of the // freed block will be set to 0xFE. // // Arguments: // pvMemIn - Pointer to memory block to free. // pszFileIn - Source file path to the caller // nLineIn - Line number of the caller in the source file // pszModuleIn - Source module name of the caller // // Return Values: (see HeapFree()) // TRUE // Memory was freed. // // FALSE // An Error occured. Use GetLastError() to determine the failure. // //-- ////////////////////////////////////////////////////////////////////////////// BOOL DebugFree( void * pvMemIn, LPCTSTR pszFileIn, const int nLineIn, LPCTSTR pszModuleIn ) { DebugMemoryDelete( mmbtMEMORYALLOCATION, pvMemIn, pszFileIn, nLineIn, pszModuleIn, TRUE ); return HeapFree( GetProcessHeap(), 0, pvMemIn ); } //*** DebugFree() ////////////////////////////////////////////////////////////////////////////// //++ // // void // DebugMemoryCheck( // LPVOID pvListIn, // LPCTSTR pszListNameIn // ) // // Description: // Called just before a thread/process dies to verify that all the memory // allocated by the thread/process was properly freed. Anything that was // not freed will be listed in the debugger. // // If pmbListIn is NULL, it will check the current threads tracking list. // The list is destroyed as it is checked. // // Arguments: // pvListIn - The list to check. // pszListNameIn - The name of the list. // // Return Values: // None. // //-- ////////////////////////////////////////////////////////////////////////////// void DebugMemoryCheck( LPVOID pvListIn, LPCTSTR pszListNameIn ) { BOOL fFoundLeak = FALSE; MEMORYBLOCK * pmb; SPerThreadDebug * ptd = NULL; if ( IsTraceFlagSet( mtfPERTHREADTRACE ) ) { Assert( g_TraceFlagsIndex != -1 ); ptd = (SPerThreadDebug *) TlsGetValue( g_TraceFlagsIndex ); } // if: per thread tracing // // Determine which list to use. // if ( pvListIn == NULL ) { Assert( g_TraceMemoryIndex != -1 ); pmb = (MEMORYBLOCK *) TlsGetValue( g_TraceMemoryIndex ); } // if: use the thread list else { MEMORYBLOCKLIST * pmbl = (MEMORYBLOCKLIST *) pvListIn; Assert( pszListNameIn != NULL ); // // Make sure nobody tries to use the list again. // DebugAcquireSpinLock( &pmbl->lSpinLock ); pmbl->fDeadList = TRUE; DebugReleaseSpinLock( &pmbl->lSpinLock ); pmb = pmbl->pmbList; } // else: use the given list // // Print banner if needed. // if ( pmb != NULL ) { if ( pvListIn == NULL ) { if ( ptd != NULL && ptd->pcszName != NULL ) { DebugMsg( TEXT("DEBUG: ******** Memory leak detected ***** %s, ThreadID = %#x ********"), ptd->pcszName, GetCurrentThreadId() ); } // if: named thread else { DebugMsg( "DEBUG: ******** Memory leak detected ******************* ThreadID = 0x%08x ********", GetCurrentThreadId() ); } // else: unnamed thread DebugMsg( "DEBUG: M = Moveable, A = Address, O = Object(new), P = Punk, H = Handle, B = BSTR" ); DebugMsg( "Module Addr/Hndl/Obj Size Comment" ); //" 1 2 3 4 5 6 7 8 " //"12345678901234567890123456789012345678901234567890123456789012345678901234567890 1234567890 X 0x12345678 12345 1....." } // if: thread leak else { DebugMsg( TEXT("DEBUG: ******** Memory leak detected ******************* %s ********"), pszListNameIn ); DebugMsg( "DEBUG: M = Moveable, A = Address, O = Object(new), P = Punk, H = Handle, B = BSTR" ); DebugMsg( "Module Addr/Hndl/Obj Size Comment" ); //" 1 2 3 4 5 6 7 8 " //"12345678901234567890123456789012345678901234567890123456789012345678901234567890 1234567890 X 0x12345678 12345 1....." } // else: list leak fFoundLeak = TRUE; } // if: leak found // // Dump the entries. // while ( pmb != NULL ) { LPCTSTR pszFormat; switch ( pmb->mbtType ) { case mmbtMEMORYALLOCATION: { pszFormat = TEXT("%10s A 0x%08x %-5u \"%s\""); } break; case mmbtOBJECT: pszFormat = TEXT("%10s O 0x%08x %-5u \"%s\""); break; case mmbtPUNK: pszFormat = TEXT("%10s P 0x%08x %-5u \"%s\""); break; case mmbtHANDLE: pszFormat = TEXT("%10s H 0x%08x %-5u \"%s\""); break; case mmbtSYSALLOCSTRING: pszFormat = TEXT("%10s B 0x%08x %-5u \"%s\""); break; default: AssertMsg( 0, "Unknown memory block type!" ); break; } // switch: pmb->mbtType DebugMessage( pmb->pszFile, pmb->nLine, pmb->pszModule, pszFormat, pmb->pszModule, pmb->pvMem, pmb->dwBytes, pmb->pszComment ); pmb = pmb->pNext; } // while: something in the list // // Print trailer if needed. // if ( fFoundLeak == TRUE ) { // Add an extra newline to the end of this message. DebugMsg( TEXT("DEBUG: ***************************** Memory leak detected *****************************") SZ_NEWLINE ); } // if: leaking // // Assert if needed. // if ( IsDebugFlagSet( mtfMEMORYLEAKS ) ) { Assert( !fFoundLeak ); } // if: yell at leaks } //*** DebugMemoryCheck() ////////////////////////////////////////////////////////////////////////////// //++ // // void // DebugCreateMemoryList( // LPCTSTR pszFileIn, // const int nLineIn, // LPCTSTR pszModuleIn, // LPVOID * ppvListOut, // LPCTSTR pszListNameIn // ) // // Description: // Creates a memory block list for tracking possible "global" scope // memory allocations. // // Arguments: // pszFileIn - Source file of caller. // nLineIn - Source line number of caller. // pszModuleIn - Source module name of caller. // ppvListOut - Location to the store address of the list head. // pszListNameIn - Name of the list. // // Return Values: // None. // //-- ////////////////////////////////////////////////////////////////////////////// void DebugCreateMemoryList( LPCTSTR pszFileIn, const int nLineIn, LPCTSTR pszModuleIn, LPVOID * ppvListOut, LPCTSTR pszListNameIn ) { MEMORYBLOCKLIST * pmbl; Assert( ppvListOut != NULL ); Assert( *ppvListOut == NULL ); *ppvListOut = DebugAlloc( pszFileIn, nLineIn, pszModuleIn, HEAP_ZERO_MEMORY, sizeof(MEMORYBLOCKLIST), TEXT("Memory Tracking List") ); if ( NULL != *ppvListOut ) { pmbl = (MEMORYBLOCKLIST*) *ppvListOut; Assert( pmbl->lSpinLock == FALSE ); Assert( pmbl->pmbList == NULL ); Assert( pmbl->fDeadList == FALSE ); if ( IsTraceFlagSet( mtfMEMORYALLOCS ) ) { DebugMessage( pszFileIn, nLineIn, pszModuleIn, TEXT("Created new memory list %s"), pszListNameIn ); } // if: tracing } } // DebugCreateMemoryList() ////////////////////////////////////////////////////////////////////////////// //++ // // void // DebugMemoryListDelete( // LPCTSTR pszFileIn, // const int nLineIn, // LPCTSTR pszModuleIn, // void * pvMemIn, // LPVOID pvListIn, // LPCTSTR pszListNameIn, // BOOL fClobberIn // ) // // Description: // Removes the memory from the tracking list and adds it back to the // "per thread" tracking list in order to called DebugMemoryDelete() // to do the proper destruction of the memory. Not highly efficent, but // reduces code maintenance by having "destroy" code in one (the most // used) location. // // Arguments: // pszFileIn - Source file of caller. // nLineIn - Source line number of caller. // pszModuleIn - Source module name of caller. // pvMemIn - Memory to be freed. // pvListIn - List from which the memory is to be freed. // pvListNameIn - Name of the list. // fClobberIn - TRUE - destroys memory; FALSE just removes from list. // // Return Values: // None. // //-- ////////////////////////////////////////////////////////////////////////////// void DebugMemoryListDelete( LPCTSTR pszFileIn, const int nLineIn, LPCTSTR pszModuleIn, void * pvMemIn, LPVOID pvListIn, LPCTSTR pszListNameIn, BOOL fClobberIn ) { if ( pvMemIn != NULL && pvListIn != NULL ) { MEMORYBLOCK * pmbHead; MEMORYBLOCKLIST * pmbl = (MEMORYBLOCKLIST *) pvListIn; MEMORYBLOCK * pmbLast = NULL; Assert( pszListNameIn != NULL ); DebugAcquireSpinLock( &pmbl->lSpinLock ); AssertMsg( pmbl->fDeadList == FALSE, "List was terminated." ); AssertMsg( pmbl->pmbList != NULL, "Memory tracking problem detecting. Nothing in list to delete." ); pmbHead = pmbl->pmbList; // // Find the memory in the memory block list // while ( pmbHead != NULL && pmbHead->pvMem != pvMemIn ) { pmbLast = pmbHead; pmbHead = pmbLast->pNext; } // while: finding the entry in the list // // Remove the memory block from the tracking list. // if ( pmbHead != NULL ) { if ( pmbLast != NULL ) { pmbLast->pNext = pmbHead->pNext; } // if: not first entry else { pmbl->pmbList = pmbHead->pNext; } // else: first entry } // if: got entry DebugReleaseSpinLock( &pmbl->lSpinLock ); if ( pmbHead != NULL ) { // // Add it back to the per thread list. // pmbLast = (MEMORYBLOCK *) TlsGetValue( g_TraceMemoryIndex ); pmbHead->pNext = pmbLast; TlsSetValue( g_TraceMemoryIndex, pmbHead ); // // Finally delete it. // DebugMemoryDelete( pmbHead->mbtType, pmbHead->pvMem, pszFileIn, nLineIn, pszModuleIn, fClobberIn ); } else { // // Not from the provided list. Try a thread delete any way. // DebugMemoryDelete( mmbtUNKNOWN, pvMemIn, pszFileIn, nLineIn, pszModuleIn, fClobberIn ); } } // if: pvIn != NULL } // DebugMemoryListDelete() ////////////////////////////////////////////////////////////////////////////// //++ // // void // DebugMoveToMemoryList( // LPCTSTR pszFileIn, // const int nLineIn, // LPCTSTR pszModuleIn, // void * pvMemIn, // LPVOID pvListIn, // LPCTSTR pszListNameIn // ) // // Description: // Moves the memory pvIn from the per thread tracking list to the thread // independent list "pmbListIn". Useful when memory is being handed from // one thread to another. Also useful for objects that live past the // lifetime of the thread that created them. // // Arguments: // LPCTSTR pszFileIn - Source file of the caller. // const int nLineIn - Source line number of the caller. // LPCTSTR pszModuleIn - Source module name of the caller. // pvMemIn - Memory to move to list. // pvListIn - The list to move to. // pszListNameIn - The name of the list. // // Return Values: // None. // //-- ////////////////////////////////////////////////////////////////////////////// void DebugMoveToMemoryList( LPCTSTR pszFileIn, const int nLineIn, LPCTSTR pszModuleIn, void * pvMemIn, LPVOID pvListIn, LPCTSTR pszListNameIn ) { if ( pvMemIn != NULL && pvListIn != NULL ) { MEMORYBLOCKLIST * pmbl = (MEMORYBLOCKLIST *) pvListIn; MEMORYBLOCK * pmbHead = (MEMORYBLOCK *) TlsGetValue( g_TraceMemoryIndex ); MEMORYBLOCK * pmbLast = NULL; Assert( pszListNameIn != NULL ); // // Find the memory in the memory block list // while ( pmbHead != NULL && pmbHead->pvMem != pvMemIn ) { pmbLast = pmbHead; pmbHead = pmbLast->pNext; } // while: finding the entry in the list AssertMsg( pmbHead != NULL, "Memory not in list. Check your code." ); // // Remove the memory block from the "per thread" tracking list. // if ( pmbLast != NULL ) { pmbLast->pNext = pmbHead->pNext; } // if: not first entry else { TlsSetValue( g_TraceMemoryIndex, pmbHead->pNext ); } // else: first entry // // Update the "source" data. // pmbHead->pszFile = pszFileIn; pmbHead->nLine = nLineIn; pmbHead->pszModule = pszModuleIn; // // Spew if needed. // if ( IsTraceFlagSet( mtfMEMORYALLOCS ) ) { TCHAR szMessage[ 128 ]; // random _tcscpy( szMessage, TEXT("Transferring to ") ); _tcscat( szMessage, pszListNameIn ); DebugMemorySpew( pmbHead, szMessage ); } // if: tracing // // Add to list. // AssertMsg( pmbl->fDeadList == FALSE, "List was terminated." ); DebugAcquireSpinLock( &pmbl->lSpinLock ); pmbHead->pNext = pmbl->pmbList; pmbl->pmbList = pmbHead; DebugReleaseSpinLock( &pmbl->lSpinLock ); } // if: pvIn != NULL } // DebugMoveToMemoryList() ////////////////////////////////////////////////////////////////////////////// //++ // // void // DebugMoveFromMemoryList( // LPCTSTR pszFileIn, // const int nLineIn, // LPCTSTR pszModuleIn, // LPVOID pvMemIn, // LPVOID pvListIn, // LPCTSTR pszListNameIn // ) // // Description: // Moves the memory pvIn from the per thread tracking list to the thread // independent list "pmbListIn". Useful when memory is being handed from // one thread to another. Also useful for objects that live past the // lifetime of the thread that created them. // // Arguments: // LPCTSTR pszFileIn - Source file of the caller. // const int nLineIn - Source line number of the caller. // LPCTSTR pszModuleIn - Source module name of the caller. // pvMemIn - Memory to move to list. // pvListIn - The list to move to. // pszListNameIn - The name of the list. // // Return Values: // None. // //-- ////////////////////////////////////////////////////////////////////////////// void DebugMoveFromMemoryList( LPCTSTR pszFileIn, const int nLineIn, LPCTSTR pszModuleIn, LPVOID pvMemIn, LPVOID pvListIn, LPCTSTR pszListNameIn ) { if ( pvMemIn != NULL && pvListIn != NULL ) { MEMORYBLOCK * pmbHead; MEMORYBLOCKLIST * pmbl = (MEMORYBLOCKLIST *) pvListIn; MEMORYBLOCK * pmbLast = NULL; Assert( pszListNameIn != NULL ); DebugAcquireSpinLock( &pmbl->lSpinLock ); AssertMsg( pmbl->fDeadList == FALSE, "List was terminated." ); AssertMsg( pmbl->pmbList != NULL, "Memory tracking problem detecting. Nothing in list to delete." ); pmbHead = pmbl->pmbList; // // Find the memory in the memory block list // while ( pmbHead != NULL && pmbHead->pvMem != pvMemIn ) { pmbLast = pmbHead; pmbHead = pmbLast->pNext; } // while: finding the entry in the list AssertMsg( pmbHead != NULL, "Memory not in tracking list. Use TraceMemoryAddxxxx() or add it to the memory list." ); // // Remove the memory block from the tracking list. // if ( pmbLast != NULL ) { pmbLast->pNext = pmbHead->pNext; } // if: not first entry else { pmbl->pmbList = pmbHead->pNext; } // else: first entry DebugReleaseSpinLock( &pmbl->lSpinLock ); // // Add it back to the per thread list. // pmbLast = (MEMORYBLOCK *) TlsGetValue( g_TraceMemoryIndex ); pmbHead->pNext = pmbLast; TlsSetValue( g_TraceMemoryIndex, pmbHead ); } // if: pvIn != NULL } // DebugMoveFromMemoryList() #if defined( USES_SYSALLOCSTRING ) ////////////////////////////////////////////////////////////////////////////// //++ // // INT // DebugSysReAllocString( // LPCTSTR pszFileIn, // const int nLineIn, // LPCTSTR pszModuleIn, // BSTR * pbstrIn, // const OLECHAR * pszIn, // LPCTSTR pszCommentIn // ) // // Description: // Adds memory tracing to SysReAllocString(). // // Arguments: // pszFileIn - Source file path // nLineIn - Source line number // pszModuleIn - Source module name // pbstrIn - Pointer to the BSTR to realloc // pszIn - String to be copied (see SysReAllocString) // pszCommentIn - Comment about alloction // // Return Values: // None. // //-- ////////////////////////////////////////////////////////////////////////////// INT DebugSysReAllocString( LPCTSTR pszFileIn, const int nLineIn, LPCTSTR pszModuleIn, BSTR * pbstrIn, const OLECHAR * pszIn, LPCTSTR pszCommentIn ) { BSTR bstrOld; MEMORYBLOCK * pmbHead = NULL; BOOL fReturn = FALSE; // // Some assertions that SysReAllocString() makes. These would be fatal // in retail. // Assert( pbstrIn != NULL ); Assert( pszIn != NULL ); Assert( *pbstrIn == NULL || ( pszIn < *pbstrIn || pszIn > *pbstrIn + wcslen( *pbstrIn ) + 1 ) ); bstrOld = *pbstrIn; if ( bstrOld != NULL ) { MEMORYBLOCK * pmbLast = NULL; pmbHead = (MEMORYBLOCK *) TlsGetValue( g_TraceMemoryIndex ); // // Find the memory in the memory block list // while ( pmbHead != NULL && pmbHead->bstr != bstrOld ) { pmbLast = pmbHead; pmbHead = pmbLast->pNext; } // while: finding the entry in the list if ( pmbHead != NULL ) { AssertMsg( pmbHead->mbtType == mmbtSYSALLOCSTRING, "You can only SysReAlloc sysstring allocations!" ); // // Remove the memory from the tracking list // if ( pmbLast != NULL ) { pmbLast->pNext = pmbHead->pNext; } // if: not first entry else { TlsSetValue( g_TraceMemoryIndex, pmbHead->pNext ); } // else: first entry // // Spew if needed // if ( IsTraceFlagSet( mtfMEMORYALLOCS ) ) { DebugMemorySpew( pmbHead, TEXT("Freeing") ); } // if: tracing // // Force the programmer to handle a real realloc by moving the // memory first. // bstrOld = SysAllocString( *pbstrIn ); if ( bstrOld != NULL ) { _tcscpy( bstrOld, *pbstrIn ); pmbHead->bstr = bstrOld; } // if: success else { bstrOld = *pbstrIn; } // else: failed } // if: found entry else { DebugMessage( pszFileIn, nLineIn, pszModuleIn, TEXT("***** Attempted to SysReAlloc 0x%08x not owned by thread (ThreadID = 0x%08x) *****"), bstrOld, GetCurrentThreadId() ); } // else: entry not found } // if: something to delete // // We do this any way because the flags and input still need to be // verified by SysReAllocString(). // fReturn = SysReAllocString( &bstrOld, pszIn ); if ( ! fReturn ) { DWORD dwErr = GetLastError(); AssertMsg( dwErr == 0, "SysReAllocString() failed!" ); if ( *pbstrIn != bstrOld ) { SysFreeString( bstrOld ); } // if: forced a move SetLastError( dwErr ); } // if: allocation failed else { if ( bstrOld != *pbstrIn ) { if ( pmbHead != NULL ) { // // Nuke the old memory // Assert( pmbHead->dwBytes != 0 ); // invalid string memset( *pbstrIn, 0xFA, pmbHead->dwBytes ); } // if: entry found // // Free the old memory // SysFreeString( *pbstrIn ); } // if: new memory location if ( pmbHead != NULL ) { // // Re-add the tracking block by reusing the old tracking block // pmbHead->bstr = bstrOld; pmbHead->dwBytes = wcslen( pszIn ) + 1; pmbHead->pszFile = pszFileIn; pmbHead->nLine = nLineIn; pmbHead->pszModule = pszModuleIn; pmbHead->pszComment = pszCommentIn; pmbHead->pNext = (MEMORYBLOCK *) TlsGetValue( g_TraceMemoryIndex ); TlsSetValue( g_TraceMemoryIndex, (LPVOID) pmbHead ); // // Spew if needed // if ( IsTraceFlagSet( mtfMEMORYALLOCS ) ) { DebugMemorySpew( pmbHead, TEXT("SysReAlloced") ); } // if: tracing } // if: entry found else { // // Create a new block // DebugMemoryAdd( mmbtSYSALLOCSTRING, bstrOld, pszFileIn, nLineIn, pszModuleIn, wcslen( pszIn ) + 1, pszCommentIn ); } // else: make new entry } // else: allocation succeeded *pbstrIn = bstrOld; return fReturn; } //*** DebugSysReAllocString() ////////////////////////////////////////////////////////////////////////////// //++ // // INT // DebugSysReAllocStringLen( // LPCTSTR pszFileIn, // const int nLineIn, // LPCTSTR pszModuleIn, // BSTR * pbstrIn, // const OLECHAR * pszIn, // LPCTSTR pszCommentIn // ) // // Description: // Adds memory tracing to SysReAllocString(). // // Arguments: // pszFileIn - Source file path // nLineIn - Source line number // pszModuleIn - Source module name // pbstrIn - Pointer to the BSTR to realloc // pszIn - String to be copied (see SysReAllocString) // pszCommentIn - Comment about alloction // // Return Values: // None. // //-- ////////////////////////////////////////////////////////////////////////////// INT DebugSysReAllocStringLen( LPCTSTR pszFileIn, const int nLineIn, LPCTSTR pszModuleIn, BSTR * pbstrIn, const OLECHAR * pszIn, unsigned int ucchIn, LPCTSTR pszCommentIn ) { BSTR bstrOld; MEMORYBLOCK * pmbHead = NULL; BOOL fReturn = FALSE; // // Some assertions that SysReAllocStringLen() makes. These would be fatal // in retail. // Assert( pbstrIn != NULL ); Assert( pszIn != NULL ); Assert( *pbstrIn == NULL || ( pszIn < *pbstrIn || pszIn > *pbstrIn + wcslen( *pbstrIn ) + 1 ) ); bstrOld = *pbstrIn; if ( bstrOld != NULL ) { MEMORYBLOCK * pmbLast = NULL; pmbHead = (MEMORYBLOCK *) TlsGetValue( g_TraceMemoryIndex ); // // Find the memory in the memory block list // while ( pmbHead != NULL && pmbHead->bstr != bstrOld ) { pmbLast = pmbHead; pmbHead = pmbLast->pNext; } // while: finding the entry in the list if ( pmbHead != NULL ) { AssertMsg( pmbHead->mbtType == mmbtSYSALLOCSTRING, "You can only SysReAlloc sysstring allocations!" ); // // Remove the memory from the tracking list // if ( pmbLast != NULL ) { pmbLast->pNext = pmbHead->pNext; } // if: not first entry else { TlsSetValue( g_TraceMemoryIndex, pmbHead->pNext ); } // else: first entry // // Spew if needed // if ( IsTraceFlagSet( mtfMEMORYALLOCS ) ) { DebugMemorySpew( pmbHead, TEXT("Freeing") ); } // if: tracing // // Force the programmer to handle a real realloc by moving the // memory first. // bstrOld = SysAllocString( *pbstrIn ); if ( bstrOld != NULL ) { _tcscpy( bstrOld, *pbstrIn ); pmbHead->bstr = bstrOld; } // if: success else { bstrOld = *pbstrIn; } // else: failed } // if: found entry else { DebugMessage( pszFileIn, nLineIn, pszModuleIn, TEXT("***** Attempted to SysReAlloc 0x%08x not owned by thread (ThreadID = 0x%08x) *****"), bstrOld, GetCurrentThreadId() ); } // else: entry not found } // if: something to delete // // We do this any way because the flags and input still need to be // verified by SysReAllocString(). // fReturn = SysReAllocStringLen( &bstrOld, pszIn, ucchIn ); if ( ! fReturn ) { DWORD dwErr = GetLastError(); AssertMsg( dwErr == 0, "SysReAllocStringLen() failed!" ); if ( *pbstrIn != bstrOld ) { SysFreeString( bstrOld ); } // if: forced a move SetLastError( dwErr ); } // if: allocation failed else { if ( bstrOld != *pbstrIn ) { if ( pmbHead != NULL ) { // // Nuke the old memory // Assert( pmbHead->dwBytes != 0 ); // invalid string memset( *pbstrIn, 0xFA, pmbHead->dwBytes ); } // if: entry found // // Free the old memory // SysFreeString( *pbstrIn ); } // if: new memory location if ( pmbHead != NULL ) { // // Re-add the tracking block by reusing the old tracking block // pmbHead->bstr = bstrOld; pmbHead->dwBytes = ucchIn; pmbHead->pszFile = pszFileIn; pmbHead->nLine = nLineIn; pmbHead->pszModule = pszModuleIn; pmbHead->pszComment = pszCommentIn; pmbHead->pNext = (MEMORYBLOCK *) TlsGetValue( g_TraceMemoryIndex ); TlsSetValue( g_TraceMemoryIndex, (LPVOID) pmbHead ); // // Spew if needed // if ( IsTraceFlagSet( mtfMEMORYALLOCS ) ) { DebugMemorySpew( pmbHead, TEXT("SysReAlloced") ); } // if: tracing } // if: entry found else { // // Create a new block // DebugMemoryAdd( mmbtSYSALLOCSTRING, bstrOld, pszFileIn, nLineIn, pszModuleIn, ucchIn + 1, pszCommentIn ); } // else: make new entry } // else: allocation succeeded *pbstrIn = bstrOld; return fReturn; } //*** DebugSysReAllocStringLen() #endif // USES_SYSALLOCSTRING //**************************************************************************** // // Global Management Functions - // // These are in debug and retail but internally they change // depending on the build. // //**************************************************************************** ////////////////////////////////////////////////////////////////////////////// //++ // // DEBUG version // // void * // _cdecl // operator new( // size_t stSizeIn, // LPCTSTR pszFileIn, // const int nLineIn, // LPCTSTR pszModuleIn // ) // // Description: // Replacment for the operator new() in the CRTs. This should be used // in conjunction with the "new" macro. It will track the allocations. // // Arguments: // stSizeIn - Size of the object to create. // pszFileIn - Source filename where the call was made. // nLineIn - Source line number where the call was made. // pszModuleIn - Source module name where the call was made. // // Return Values: // Void pointer to the new object. // //-- ////////////////////////////////////////////////////////////////////////////// #undef new void * __cdecl operator new( size_t stSizeIn, LPCTSTR pszFileIn, const int nLineIn, LPCTSTR pszModuleIn ) { void * pv = HeapAlloc( GetProcessHeap(), HEAP_ZERO_MEMORY, stSizeIn ); return DebugMemoryAdd( mmbtOBJECT, pv, pszFileIn, nLineIn, pszModuleIn, stSizeIn, TEXT(" new() ") ); } //*** operator new( pszFileIn, etc. ) - DEBUG ////////////////////////////////////////////////////////////////////////////// //++ // // DEBUG version // // void * // __cdecl // operator new( // size_t stSizeIn // ) // // Description: // Stub to prevent someone from not using the "new" macro or if somehow // the new macro was undefined. It routine will always Assert if called. // // Arguments: // stSizeIn - Not used. // // Return Values: // NULL always. // //-- ////////////////////////////////////////////////////////////////////////////// void * __cdecl operator new( size_t stSizeIn ) { #if 1 void * pv = HeapAlloc( GetProcessHeap(), HEAP_ZERO_MEMORY, stSizeIn ); AssertMsg( 0, "New Macro failure" ); return DebugMemoryAdd( mmbtOBJECT, pv, g_szUnknown, 0, g_szUnknown, stSizeIn, TEXT(" new() ") ); #else AssertMsg( 0, "New Macro failure" ); return NULL; #endif } //*** operator new() - DEBUG /* ////////////////////////////////////////////////////////////////////////////// //++ // // DEBUG version // // void * // _cdecl // operator new []( // size_t stSizeIn, // LPCTSTR pszFileIn, // const int nLineIn, // LPCTSTR pszModuleIn // ) // // Description: // Replacment for the operator new() in the CRTs. This should be used // in conjunction with the "new" macro. It will track the allocations. // // Arguments: // stSizeIn - Size of the object to create. // pszFileIn - Source filename where the call was made. // nLineIn - Source line number where the call was made. // pszModuleIn - Source module name where the call was made. // // Return Values: // Void pointer to the new object. // //-- ////////////////////////////////////////////////////////////////////////////// void * __cdecl operator new []( size_t stSizeIn, LPCTSTR pszFileIn, const int nLineIn, LPCTSTR pszModuleIn ) { void * pv = HeapAlloc( GetProcessHeap(), HEAP_ZERO_MEMORY, stSizeIn ); return DebugMemoryAdd( mmbtOBJECT, pv, pszFileIn, nLineIn, pszModuleIn, stSizeIn, TEXT(" new []() ") ); } //*** operator new []( pszFileIn, etc. ) - DEBUG ////////////////////////////////////////////////////////////////////////////// //++ // // DEBUG version // // void * // __cdecl // operator new []( // size_t stSizeIn // ) // // Description: // Stub to prevent someone from not using the "new" macro or if somehow // the new macro was undefined. It routine will always Assert if called. // // Arguments: // stSizeIn - Not used. // // Return Values: // NULL always. // //-- ////////////////////////////////////////////////////////////////////////////// void * __cdecl operator new []( size_t stSizeIn ) { #if 1 void * pv = HeapAlloc( GetProcessHeap(), HEAP_ZERO_MEMORY, stSizeIn ); AssertMsg( 0, "New Macro failure" ); return DebugMemoryAdd( mmbtOBJECT, pv, g_szUnknown, 0, g_szUnknown, stSizeIn, TEXT(" new() ") ); #else AssertMsg( 0, "New Macro failure" ); return NULL; #endif } //*** operator new []() - DEBUG */ ////////////////////////////////////////////////////////////////////////////// //++ // // DEBUG version // // void // _cdecl // operator delete( // void * pvIn, // LPCTSTR pszFileIn, // const int nLineIn, // LPCTSTR pszModuleIn // ) // // Description: // Replacment for the operator delete() in the CRTs. It will remove the // object from the memory allocation tracking table. // // Arguments: // pvIn - Pointer to object being destroyed. // pszFileIn - Source filename where the call was made. // nLineIn - Source line number where the call was made. // pszModuleIn - Source module name where the call was made. // // Return Value: // None. // //-- ////////////////////////////////////////////////////////////////////////////// void __cdecl operator delete( void * pvIn, LPCTSTR pszFileIn, const int nLineIn, LPCTSTR pszModuleIn ) { DebugMemoryDelete( mmbtOBJECT, pvIn, pszFileIn, nLineIn, pszModuleIn, TRUE ); HeapFree( GetProcessHeap(), 0, pvIn ); } //*** operator delete( pszFileIn, etc. ) - DEBUG ////////////////////////////////////////////////////////////////////////////// //++ // // DEBUG version // // void // __cdecl // operator delete( // void * pvIn // ) // // Description: // Replacment for the operator delete() in the CRTs. It will remove the // object from the memory allocation tracking table. // // Arguments: // pvIn - Pointer to object being destroyed. // // Return Value: // None. // //-- ////////////////////////////////////////////////////////////////////////////// void __cdecl operator delete( void * pvIn ) { DebugMemoryDelete( mmbtOBJECT, pvIn, g_szUnknown, 0, g_szUnknown, TRUE ); HeapFree( GetProcessHeap(), 0, pvIn ); } //*** operator delete() - DEBUG /* ////////////////////////////////////////////////////////////////////////////// //++ // // DEBUG version // // void // _cdecl // operator delete []( // void * pvIn, // LPCTSTR pszFileIn, // const int nLineIn, // LPCTSTR pszModuleIn // ) // // Description: // Replacment for the operator delete() in the CRTs. It will remove the // object from the memory allocation tracking table. // // Arguments: // pvIn - Pointer to object being destroyed. // pszFileIn - Source filename where the call was made. // nLineIn - Source line number where the call was made. // pszModuleIn - Source module name where the call was made. // // Return Value: // None. // //-- ////////////////////////////////////////////////////////////////////////////// void __cdecl operator delete []( void * pvIn, size_t stSizeIn, LPCTSTR pszFileIn, const int nLineIn, LPCTSTR pszModuleIn ) { DebugMemoryDelete( mmbtOBJECT, pvIn, pszFileIn, nLineIn, pszModuleIn, TRUE ); HeapFree( GetProcessHeap(), 0, pvIn ); } //*** operator delete( pszFileIn, etc. ) - DEBUG */ ////////////////////////////////////////////////////////////////////////////// //++ // // DEBUG version // // void // __cdecl // operator delete []( // void * pvIn // ) // // Description: // Replacment for the operator delete() in the CRTs. It will remove the // object from the memory allocation tracking table. // // Arguments: // pvIn - Pointer to object being destroyed. // // Return Value: // None. // //-- ////////////////////////////////////////////////////////////////////////////// void __cdecl operator delete []( void * pvIn ) { DebugMemoryDelete( mmbtOBJECT, pvIn, g_szUnknown, 0, g_szUnknown, TRUE ); HeapFree( GetProcessHeap(), 0, pvIn ); } //*** operator delete []() - DEBUG #if !defined(ENTRY_PREFIX) ////////////////////////////////////////////////////////////////////////////// //++ // // DEBUG version // // int // __cdecl // _purecall( void ) // // Description: // Stub for purecall functions. It will always Assert. // // Arguments: // None. // // Return Values: // E_UNEXPECTED always. // ////////////////////////////////////////////////////////////////////////////// int __cdecl _purecall( void ) { AssertMsg( 0, "Purecall" ); return E_UNEXPECTED; } //*** _purecall() - DEBUG #endif // !defined(ENTRY_PREFIX) #else // ! DEBUG -- It's retail //**************************************************************************** // // Global Management Functions - // // These are the retail version. // //**************************************************************************** ////////////////////////////////////////////////////////////////////////////// //++ // // RETAIL version // // void * // _cdecl // operator new( // size_t stSizeIn, // ) // // Description: // Replacment for the operator new() in the CRTs. Simply allocates a // block of memory for the object to use. // // Arguments: // stSizeIn - Size of the object to create. // // Return Values: // Void pointer to the new object. // //-- ////////////////////////////////////////////////////////////////////////////// void * __cdecl operator new( size_t stSizeIn ) { return HeapAlloc( GetProcessHeap(), HEAP_ZERO_MEMORY, stSizeIn ); } //*** operator new() - RETAIL ////////////////////////////////////////////////////////////////////////////// //++ // // RETAIL version // // void // __cdecl // operator delete( // void * pvIn // ) // // Description: // Replacment for the operator delete() in the CRTs. Simply frees the // memory. // // Arguments: // pvIn - Pointer to object being destroyed. // // Return Values: // None. // //-- ////////////////////////////////////////////////////////////////////////////// void __cdecl operator delete( void * pv ) { HeapFree( GetProcessHeap(), 0, pv ); } //*** operator delete() - RETAIL #if !defined(ENTRY_PREFIX) ////////////////////////////////////////////////////////////////////////////// //++ // // RETAIL version // // int // __cdecl // _purecall( void ) // // Description: // Stub for purecall functions. // // Arguments: // None. // // Return Values: // E_UNEXPECTED always. // //-- ////////////////////////////////////////////////////////////////////////////// int __cdecl _purecall( void ) { // BUGBUG: DavidP 08-DEC-1999 Shouldn't we assert? return E_UNEXPECTED; } //*** _purecall() - RETAIL #endif // !defined(ENTRY_PREFIX) #define __MODULE__ NULL #endif // DEBUG