//+------------------------------------------------------------------------- // // Microsoft Windows // // Copyright (C) Microsoft Corporation, 1997 - 1999 // // File: debug.cpp // // Provides printf style debug output // //-------------------------------------------------------------------------- #include "pch.h" #include #include #pragma hdrstop #ifdef DEBUG DWORD g_dwTraceMask = 0; DWORD g_tlsDebug = 0xffffffffL; #define MAX_CALL_DEPTH 64 #define BUFFER_SIZE 2048 class CDebugStack { private: DWORD m_dwThreadID; LONG m_cDepth; struct { BOOL fTracedYet; LPCTSTR pszFunctionName; DWORD dwMask; } m_CallStack[MAX_CALL_DEPTH]; TCHAR m_szStringBuffer[BUFFER_SIZE]; public: CDebugStack() : m_dwThreadID(GetCurrentThreadId()), m_cDepth(-1) { ZeroMemory(&m_CallStack, SIZEOF(m_CallStack)); } public: void _Indent(LONG iDepth, LPCTSTR pszFormat, ...); void _vIndent(LONG iDepth, LPCTSTR pszFormat, va_list va); BOOL _TraceProlog(LONG iDepth, BOOL fForce); void _TraceEnter(DWORD dwMask, LPCTSTR pName); void _TraceLeave(void); void _Trace(BOOL bForce, LPCTSTR pszFormat, ...); void _vTrace(BOOL bForce, LPCTSTR pszFormat, va_list va); void _TraceGUID(LPCTSTR pPrefix, REFGUID rGUID); void _TraceAssert(int iLine, LPTSTR pFilename); }; typedef CDebugStack *PDEBUGSTACK; class CDebugStackHolder { private: HDPA m_hDebugStackList; CRITICAL_SECTION m_csStackList; public: CDebugStackHolder() : m_hDebugStackList(NULL) { ExceptionPropagatingInitializeCriticalSection(&m_csStackList); } ~CDebugStackHolder(); public: void Add(PDEBUGSTACK pDebugStack); void Remove(PDEBUGSTACK pDebugStack); }; typedef CDebugStackHolder *PDEBUGSTACKHOLDER; PDEBUGSTACKHOLDER g_pStackHolder = NULL; /*----------------------------------------------------------------------------- / _Indent / ------- / Output to the debug stream indented by n columns. / / In: / i = column to indent to. / pszFormat -> string to be indented / / Out: / - /----------------------------------------------------------------------------*/ void CDebugStack::_Indent(LONG iDepth, LPCTSTR pszFormat, ...) { va_list va; va_start(va, pszFormat); _vIndent(iDepth, pszFormat, va); va_end(va); } void CDebugStack::_vIndent(LONG iDepth, LPCTSTR pszFormat, va_list va) { m_szStringBuffer[0] = TEXT('\0'); wsprintf(m_szStringBuffer, TEXT("%08x "), m_dwThreadID); iDepth = min(iDepth, MAX_CALL_DEPTH - 1); for ( ; iDepth > 0 ; iDepth-- ) lstrcat(m_szStringBuffer, TEXT(" ")); wvsprintf(m_szStringBuffer + lstrlen(m_szStringBuffer), pszFormat, va); lstrcat(m_szStringBuffer, TEXT("\n")); OutputDebugString(m_szStringBuffer); } /*----------------------------------------------------------------------------- / _TraceProlog / ------------- / Handle the prolog to a prefix string, including outputting the / function name if we haven't already. / / In: / iDepth = depth in the call stack / fForce = ignore flags / / Out: / BOOL if trace output should be made /----------------------------------------------------------------------------*/ BOOL CDebugStack::_TraceProlog(LONG iDepth, BOOL fForce) { if ( iDepth < 0 || iDepth >= MAX_CALL_DEPTH ) return FALSE; if ( (g_dwTraceMask & m_CallStack[iDepth].dwMask) || fForce ) { if ( !m_CallStack[iDepth].fTracedYet ) { if ( iDepth > 0 ) _TraceProlog(iDepth-1, TRUE); _Indent(iDepth, m_CallStack[iDepth].pszFunctionName); m_CallStack[iDepth].fTracedYet = TRUE; } return TRUE; } return FALSE; } /*----------------------------------------------------------------------------- / _TraceEnter / ------------ / Set the debugging call stack up to indicate which function we are in. / / In: / pName -> function name to be displayed in subsequent trace output. / / Out: / - /----------------------------------------------------------------------------*/ void CDebugStack::_TraceEnter(DWORD dwMask, LPCTSTR pName) { m_cDepth++; if ( m_cDepth < MAX_CALL_DEPTH ) { if ( !pName ) pName = TEXT(""); // no function name given m_CallStack[m_cDepth].fTracedYet = FALSE; m_CallStack[m_cDepth].pszFunctionName = pName; m_CallStack[m_cDepth].dwMask = dwMask; //if ( m_cDepth > 0 ) // _TraceProlog(m_cDepth-1, FALSE); } } /*----------------------------------------------------------------------------- / _TraceLeave / ------------ / On exit from a function this will adjust the function stack pointer to / point to our previous function. If no trace output has been made then / we will output the function name on a single line (to indicate we went somewhere). / / In: / - / Out: / - /----------------------------------------------------------------------------*/ void CDebugStack::_TraceLeave(void) { //_TraceProlog(m_cDepth, FALSE); //if ( !m_cDepth && m_CallStack[0].fTracedYet ) // OutputDebugString(TEXT("\n")); m_cDepth = max(m_cDepth-1, -1); // account for underflow } /*----------------------------------------------------------------------------- / _Trace / ------- / Perform printf formatting to the debugging stream. We indent the output / and stream the function name as required to give some indication of / call stack depth. / / In: / pszFormat -> printf style formatting string / ... = arguments as required for the formatting / / Out: / - /----------------------------------------------------------------------------*/ void CDebugStack::_Trace(BOOL bForce, LPCTSTR pszFormat, ...) { va_list va; va_start(va, pszFormat); _vTrace(bForce, pszFormat, va); va_end(va); } void CDebugStack::_vTrace(BOOL bForce, LPCTSTR pszFormat, va_list va) { if ( _TraceProlog(m_cDepth, bForce) || bForce ) _vIndent(m_cDepth+1, pszFormat, va); } /*----------------------------------------------------------------------------- / _TraceGUID / ----------- / Given a GUID output it into the debug string, first we try and map it / to a name (ie. IShellFolder), if that didn't work then we convert it / to its human readable form. / / In: / pszPrefix -> prefix string / lpGuid -> guid to be streamed / / Out: / - /----------------------------------------------------------------------------*/ #ifdef UNICODE #define MAP_GUID(x) &x, TEXT(""L#x) #else #define MAP_GUID(x) &x, TEXT(""#x) #endif #define MAP_GUID2(x,y) MAP_GUID(x), MAP_GUID(y) const struct { const GUID* m_pGUID; LPCTSTR m_pName; } _guid_map[] = { MAP_GUID(IID_IUnknown), MAP_GUID(IID_IClassFactory), MAP_GUID(IID_IDropTarget), MAP_GUID(IID_IDataObject), MAP_GUID(IID_IPersist), MAP_GUID(IID_IOleWindow), MAP_GUID2(IID_INewShortcutHookA, IID_INewShortcutHookW), MAP_GUID(IID_IShellBrowser), MAP_GUID(IID_IShellView), MAP_GUID(IID_IContextMenu), MAP_GUID(IID_IShellIcon), MAP_GUID(IID_IShellFolder), MAP_GUID(IID_IShellExtInit), MAP_GUID(IID_IShellPropSheetExt), MAP_GUID(IID_IPersistFolder), MAP_GUID2(IID_IExtractIconA, IID_IExtractIconW), MAP_GUID2(IID_IShellLinkA, IID_IShellLinkW), MAP_GUID2(IID_IShellCopyHookA, IID_IShellCopyHookW), MAP_GUID2(IID_IFileViewerA, IID_IFileViewerW), MAP_GUID(IID_ICommDlgBrowser), MAP_GUID(IID_IEnumIDList), MAP_GUID(IID_IFileViewerSite), MAP_GUID(IID_IContextMenu2), MAP_GUID2(IID_IShellExecuteHookA, IID_IShellExecuteHookW), MAP_GUID(IID_IPropSheetPage), MAP_GUID(IID_IShellView2), MAP_GUID(IID_IUniformResourceLocator), }; void CDebugStack::_TraceGUID(LPCTSTR pPrefix, REFGUID rGUID) { TCHAR szGUID[40]; LPCTSTR pName = NULL; int i; for ( i = 0 ; i < ARRAYSIZE(_guid_map); i++ ) { if ( IsEqualGUID(rGUID, *_guid_map[i].m_pGUID) ) { pName = _guid_map[i].m_pName; break; } } if ( !pName ) { // StringFromGUID2 only does UNICODE. SHStringFromGUID goes both ways, // but requires shlwapip.h and shlwapi.lib. #ifndef UNICODE #error "_TraceGUID needs fixing" #endif StringFromGUID2(rGUID, szGUID, ARRAYSIZE(szGUID)); //SHStringFromGUID(rGUID, szGUID, ARRAYSIZE(szGUID)); pName = szGUID; } _Trace(FALSE, TEXT("%s %s"), pPrefix, pName); } /*----------------------------------------------------------------------------- / _TraceAssert / ------------- / Our assert handler, out faults it the trace mask as enabled assert / faulting. / / In: / iLine = line / pFilename -> filename of the file we asserted in / / Out: / - /----------------------------------------------------------------------------*/ void CDebugStack::_TraceAssert(int iLine, LPTSTR pFilename) { // nb: TRUE --> asserts always displayed _Trace(TRUE, TEXT("Assert failed in %s, line %d"), pFilename, iLine); if ( g_dwTraceMask & TRACE_COMMON_ASSERT ) DebugBreak(); } /*----------------------------------------------------------------------------- / ~CDebugStackHolder / ------------------ / Free any DebugStack objects that exist / / In: / - / / Out: / - /----------------------------------------------------------------------------*/ int CALLBACK _DeleteCB(LPVOID pVoid, LPVOID /*pData*/) { PDEBUGSTACK pDebugStack = (PDEBUGSTACK)pVoid; if (pDebugStack) { //pDebugStack->_Trace(TRUE, TEXT("~CDebugStackHolder destroying DebugStack")); delete pDebugStack; } return 1; } CDebugStackHolder::~CDebugStackHolder() { EnterCriticalSection(&m_csStackList); if (NULL != m_hDebugStackList) { DPA_DestroyCallback(m_hDebugStackList, _DeleteCB, NULL); m_hDebugStackList = NULL; } LeaveCriticalSection(&m_csStackList); DeleteCriticalSection(&m_csStackList); } /*----------------------------------------------------------------------------- / CDebugStackHolder::Add / ---------------------- / Saves the DebugStack object in a list / / In: / PDEBUGSTACK pointer to the thread's debug stack object / / Out: / - /----------------------------------------------------------------------------*/ void CDebugStackHolder::Add(PDEBUGSTACK pDebugStack) { EnterCriticalSection(&m_csStackList); if (NULL == m_hDebugStackList) m_hDebugStackList = DPA_Create(4); if (NULL != m_hDebugStackList) DPA_AppendPtr(m_hDebugStackList, pDebugStack); LeaveCriticalSection(&m_csStackList); } /*----------------------------------------------------------------------------- / CDebugStackHolder::Remove / ------------------------- / Removes the DebugStack object from the list / / In: / PDEBUGSTACK pointer to the thread's debug stack object / / Out: / - /----------------------------------------------------------------------------*/ void CDebugStackHolder::Remove(PDEBUGSTACK pDebugStack) { EnterCriticalSection(&m_csStackList); if (NULL != m_hDebugStackList) { int iStack = DPA_GetPtrIndex(m_hDebugStackList, pDebugStack); if (-1 != iStack) DPA_DeletePtr(m_hDebugStackList, iStack); } LeaveCriticalSection(&m_csStackList); } /*----------------------------------------------------------------------------- / GetThreadStack / -------------- / Create (if necessary) and return the per-thread debug stack object. / / In: / - / / Out: / PDEBUGSTACK pointer to the thread's debug stack object /----------------------------------------------------------------------------*/ PDEBUGSTACK GetThreadStack() { PDEBUGSTACK pDebugStack; if (0xffffffffL == g_tlsDebug) return NULL; pDebugStack = (PDEBUGSTACK)TlsGetValue(g_tlsDebug); if (!pDebugStack) { pDebugStack = new CDebugStack; TlsSetValue(g_tlsDebug, pDebugStack); if (!g_pStackHolder) g_pStackHolder = new CDebugStackHolder; if (g_pStackHolder) g_pStackHolder->Add(pDebugStack); } return pDebugStack; } /*----------------------------------------------------------------------------- / DoTraceSetMask / -------------- / Adjust the trace mask to reflect the state given. / / In: / dwMask = mask for enabling / disable trace output / / Out: / - /----------------------------------------------------------------------------*/ void DoTraceSetMask(DWORD dwMask) { g_dwTraceMask = dwMask; } /*----------------------------------------------------------------------------- / DoTraceSetMaskFromRegKey / ------------------------ / Pick up the TraceMask value from the given registry key and / set the trace mask using that. / / In: / hkRoot = handle of open key / pszSubKey = name of subkey to open / / Out: / - /----------------------------------------------------------------------------*/ void DoTraceSetMaskFromRegKey(HKEY hkRoot, LPCTSTR pszSubKey) { HKEY hKey; if (ERROR_SUCCESS == RegOpenKey(hkRoot, pszSubKey, &hKey)) { DWORD dwTraceMask = 0; DWORD cbTraceMask = SIZEOF(dwTraceMask); RegQueryValueEx(hKey, TEXT("TraceMask"), NULL, NULL, (LPBYTE)&dwTraceMask, &cbTraceMask); DoTraceSetMask(dwTraceMask); RegCloseKey(hKey); } } /*----------------------------------------------------------------------------- / DoTraceSetMaskFromCLSID / ----------------------- / Pick up the TraceMask value from the given CLSID value and / set the trace mask using that. / / In: / rCLSID = CLSID to query the value from / / Out: / - /----------------------------------------------------------------------------*/ void DoTraceSetMaskFromCLSID(REFCLSID rCLSID) { TCHAR szClsidKey[48] = TEXT("CLSID\\"); int nLength = lstrlen(szClsidKey); // StringFromGUID2 only does UNICODE. SHStringFromGUID goes both ways, // but requires shlwapip.h and shlwapi.lib. #ifdef UNICODE if (0 == StringFromGUID2(rCLSID, szClsidKey + nLength, ARRAYSIZE(szClsidKey) - nLength)) #else #error "DoTraceSetMaskFromCLSID needs fixing" if (0 == SHStringFromGUID(rCLSID, szClsidKey + nLength, ARRAYSIZE(szClsidKey) - nLength)) #endif return; DoTraceSetMaskFromRegKey(HKEY_CLASSES_ROOT, szClsidKey); } /*----------------------------------------------------------------------------- / DoTraceEnter / ------------ / Set the debugging call stack up to indicate which function we are in. / / In: / pName -> function name to be displayed in subsequent trace output. / / Out: / - /----------------------------------------------------------------------------*/ void DoTraceEnter(DWORD dwMask, LPCTSTR pName) { PDEBUGSTACK pDebugStack = GetThreadStack(); if (pDebugStack) pDebugStack->_TraceEnter(dwMask, pName); } /*----------------------------------------------------------------------------- / DoTraceLeave / ------------ / On exit from a function this will adjust the function stack pointer to / point to our previous function. If no trace output has been made then / we will output the function name on a single line (to indicate we went somewhere). / / In: / - / Out: / - /----------------------------------------------------------------------------*/ void DoTraceLeave(void) { PDEBUGSTACK pDebugStack = GetThreadStack(); if (pDebugStack) pDebugStack->_TraceLeave(); } /*----------------------------------------------------------------------------- / DoTrace / ------- / Perform printf formatting to the debugging stream. We indent the output / and stream the function name as required to give some indication of / call stack depth. / / In: / pszFormat -> printf style formatting string / ... = arguments as required for the formatting / / Out: / - /----------------------------------------------------------------------------*/ void DoTrace(LPCTSTR pszFormat, ...) { PDEBUGSTACK pDebugStack = GetThreadStack(); va_list va; if (pDebugStack) { va_start(va, pszFormat); pDebugStack->_vTrace(FALSE, pszFormat, va); va_end(va); } } /*----------------------------------------------------------------------------- / DoTraceGuid / ----------- / Given a GUID output it into the debug string, first we try and map it / to a name (ie. IShellFolder), if that didn't work then we convert it / to its human readable form. / / In: / pszPrefix -> prefix string / lpGuid -> guid to be streamed / / Out: / - /----------------------------------------------------------------------------*/ void DoTraceGUID(LPCTSTR pPrefix, REFGUID rGUID) { PDEBUGSTACK pDebugStack = GetThreadStack(); if (pDebugStack) pDebugStack->_TraceGUID(pPrefix, rGUID); } /*----------------------------------------------------------------------------- / DoTraceAssert / ------------- / Our assert handler, out faults it the trace mask as enabled assert / faulting. / / In: / iLine = line / pFilename -> filename of the file we asserted in / / Out: / - /----------------------------------------------------------------------------*/ void DoTraceAssert(int iLine, LPTSTR pFilename) { PDEBUGSTACK pDebugStack = GetThreadStack(); if (pDebugStack) pDebugStack->_TraceAssert(iLine, pFilename); } /*----------------------------------------------------------------------------- / DebugThreadDetach / DebugProcessAttach / DebugProcessDetach / ------------- / These must be called from DllMain / / In: / - / / Out: / - /----------------------------------------------------------------------------*/ void DebugThreadDetach(void) { PDEBUGSTACK pDebugStack; if (0xffffffffL == g_tlsDebug) return; pDebugStack = (PDEBUGSTACK)TlsGetValue(g_tlsDebug); if (pDebugStack) { if (g_pStackHolder) g_pStackHolder->Remove(pDebugStack); delete pDebugStack; TlsSetValue(g_tlsDebug, NULL); } } void DebugProcessAttach(void) { g_tlsDebug = TlsAlloc(); } void DebugProcessDetach(void) { DebugThreadDetach(); if (NULL != g_pStackHolder) { delete g_pStackHolder; g_pStackHolder = NULL; } if (0xffffffffL != g_tlsDebug) { TlsFree(g_tlsDebug); g_tlsDebug = 0xffffffffL; } } #endif // DEBUG