#define _UNICODE #define UNICODE #include #include #include #include #include #pragma warning(disable: 4201) // error C4201: nonstandard extension used : nameless struct/union #include #include #include #define REG_TRACE_REGKEY TEXT("SOFTWARE\\Microsoft\\Windows NT\\CurrentVersion\\Tracing") #define REG_TRACE_ENABLED TEXT("EnableTracing") #define REG_TRACE_LOG_FILE_NAME TEXT("LogFileName") #define REG_TRACE_LOG_SESSION_NAME TEXT("LogSessionName") #define REG_TRACE_LOG_BUFFER_SIZE TEXT("BufferSize") #define REG_TRACE_LOG_MIN_BUFFERS TEXT("MinBuffers") #define REG_TRACE_LOG_MAX_BUFFERS TEXT("MaxBuffers") #define REG_TRACE_LOG_MAX_FILESIZE TEXT("MaxFileSize") #define REG_TRACE_LOG_MAX_HISTORY TEXT("MaxHistorySize") #define REG_TRACE_LOG_MAX_BACKUPS TEXT("MaxBackups") #define REG_TRACE_ACTIVE TEXT("Active") #define REG_TRACE_CONTROL TEXT("ControlFlags") #define REG_TRACE_LEVEL TEXT("Level") #define REG_TRACE_GUID TEXT("Guid") #include "wmlum.h" #ifndef ARRAYSIZE #define ARRAYSIZE(x) (sizeof(x)/sizeof(*(x))) #endif VOID RegisterIfNecessary(LPWSTR KeyName, LPCGUID Guid); WMILIBPRINTFUNC WmiLibPrint = 0; #define NT_LOGGER L"NT Kernel Logger" VOID MyDbgPrint( UINT Level, PCHAR FormatString, ... ) /*++ Routine Description: Prints a message to the debugger or console, as appropriate. Arguments: String - The initial message string to print. Any FormatMessage-compatible arguments to be inserted in the ErrorMessage before it is logged. Return Value: None. --*/ { CHAR Buffer[256]; DWORD Bytes; va_list ArgList; if (WmiLibPrint == NULL) { return; } va_start(ArgList, FormatString); Bytes = FormatMessageA(FORMAT_MESSAGE_FROM_STRING, FormatString, 0, 0, Buffer, sizeof(Buffer) / sizeof(CHAR), &ArgList); va_end(ArgList); if (Bytes != 0) { (*WmiLibPrint)(Level, Buffer); } } UINT HexVal(int ch) { return isdigit(ch) ? ch - '0' : ch - 'a' + 10; } UINT Hex(LPWSTR s, int n) { UINT res = 0; while(n--) { res = res * 16 + HexVal(*s++); } return res; } VOID GuidFromStr( IN LPWSTR str, OUT LPGUID guid) { int i = wcslen(str); if(i == 36) { guid->Data1 = Hex(str + 0, 8); guid->Data2 = (USHORT)Hex(str + 9, 4); guid->Data3 = (USHORT)Hex(str + 14, 4); guid->Data4[0] = (UCHAR) Hex(str + 19, 2); guid->Data4[1] = (UCHAR) Hex(str + 21, 2); guid->Data4[2] = (UCHAR) Hex(str + 24, 2); guid->Data4[3] = (UCHAR) Hex(str + 26, 2); guid->Data4[4] = (UCHAR) Hex(str + 28, 2); guid->Data4[5] = (UCHAR) Hex(str + 30, 2); guid->Data4[6] = (UCHAR) Hex(str + 32, 2); guid->Data4[7] = (UCHAR) Hex(str + 34, 2); } else { DbgPrint("[WMLUM} GuidFromStr - Bad guid string: %S, length %d\n", str, i); } } typedef struct _INHERITED_DATA { BOOL Active; ULONG ControlFlags; ULONG LogLevel; ULONG Reserved; TRACEHANDLE Logger; GUID Guid; BOOL GuidDefined; } INHERITED_DATA, *PINHERITED_DATA; VOID ReadCommonData( IN HKEY hk, IN OUT PINHERITED_DATA data ) { ULONG ulTemp; ULONG dwSize; WCHAR szGuid[16 * 3 + 1]; ULONG Temp; dwSize = sizeof(ulTemp); if (ERROR_SUCCESS == RegQueryValueEx(hk, REG_TRACE_ACTIVE, NULL, NULL,(BYTE *) &ulTemp, &dwSize)) { data->Active = ulTemp; } else { dwSize = sizeof(Temp); data->Active = Temp = 0; RegSetValueEx(hk, REG_TRACE_ACTIVE, 0, REG_DWORD, (BYTE *) &Temp, dwSize); } dwSize = sizeof(ulTemp); if (ERROR_SUCCESS == RegQueryValueEx(hk, REG_TRACE_CONTROL, NULL, NULL, (BYTE *) &ulTemp, &dwSize)) { data->ControlFlags = ulTemp; } else { dwSize = sizeof(Temp); data->ControlFlags = Temp = 0; RegSetValueEx(hk, REG_TRACE_CONTROL, 0, REG_DWORD, (BYTE *)&Temp, dwSize); } dwSize = sizeof(ulTemp); if (ERROR_SUCCESS == RegQueryValueEx(hk, REG_TRACE_LEVEL, NULL, NULL, (BYTE *) &ulTemp, &dwSize)) { data->LogLevel = ulTemp; } else { dwSize = sizeof(Temp); data->LogLevel = Temp = 0; RegSetValueEx(hk, REG_TRACE_LEVEL, 0, REG_DWORD, (BYTE *)&Temp, dwSize); } dwSize = sizeof(szGuid); if (ERROR_SUCCESS == RegQueryValueEx(hk, REG_TRACE_GUID, NULL, NULL, (BYTE *) szGuid, &dwSize)) { GuidFromStr(szGuid, &data->Guid); data->GuidDefined = TRUE; } else { wcscpy(szGuid, L"d3ecd8e1-d3fb-4f26-8091-978eecb468b1"); GuidFromStr(szGuid, &data->Guid); dwSize = wcslen(szGuid) * sizeof(wchar_t); RegSetValueEx(hk, REG_TRACE_GUID, 0, REG_SZ, (BYTE*)szGuid, dwSize); } return; } typedef struct _FULL_LOGGER_INFO { EVENT_TRACE_PROPERTIES LoggerInfo; WCHAR logFileName[MAX_PATH + 512]; WCHAR logSessionName[MAX_PATH + 512]; ULONG MaxHistorySize; ULONG MaxBackups; } FULL_LOGGER_INFO, *PFULL_LOGGER_INFO; GUID MySystemTraceControlGuid = { /* 9e814aad-3204-11d2-9a82-006008a86939 */ 0x9e814aad, 0x3204, 0x11d2, {0x9a, 0x82, 0x00, 0x60, 0x08, 0xa8, 0x69, 0x39} }; VOID ReadLoggerInfo( IN HKEY hk, OUT PTRACEHANDLE Logger) { FULL_LOGGER_INFO x; WCHAR tmpName[MAX_PATH + 512]; WCHAR tmpName2[MAX_PATH + 512]; ULONG ulTemp; ULONG Temp; ULONG dwReadSize = sizeof(ulTemp); ULONG status; SYSTEMTIME localTime; BOOL success; RtlZeroMemory(&x, sizeof(x)); x.LoggerInfo.Wnode.BufferSize = sizeof(x); x.LoggerInfo.Wnode.Flags = WNODE_FLAG_TRACED_GUID; x.LoggerInfo.LogFileNameOffset = (ULONG)((ULONG_PTR)x.logFileName - (ULONG_PTR)&x); x.LoggerInfo.LoggerNameOffset = (ULONG)((ULONG_PTR)x.logSessionName - (ULONG_PTR)&x); x.LoggerInfo.LogFileMode = EVENT_TRACE_FILE_MODE_CIRCULAR; // // If the key describes a logger, // it should have at least LOG_SESSION_NAME value // dwReadSize = sizeof(x.logSessionName); status = RegQueryValueEx(hk, REG_TRACE_LOG_SESSION_NAME, NULL, NULL, (BYTE *) &x.logSessionName, &dwReadSize); if (status != ERROR_SUCCESS) { wcscpy(x.logSessionName, L"DfsSvcLog"); // dwReadSize = wcslen(x.logSessionName) * sizeof(wchar_t); // RegSetValueEx(hk, REG_TRACE_LOG_SESSION_NAME, 0, REG_SZ,(BYTE*) &x.logSessionName, dwReadSize); } if ( wcscmp(x.logSessionName, NT_LOGGER) == 0) { MyDbgPrint(3,"[WMILIB] Enabling system tracing\n", x.logSessionName, x.LoggerInfo.Wnode.HistoricalContext); x.LoggerInfo.Wnode.Guid = MySystemTraceControlGuid; x.LoggerInfo.EnableFlags |= EVENT_TRACE_FLAG_PROCESS | EVENT_TRACE_FLAG_THREAD | EVENT_TRACE_FLAG_DISK_IO | EVENT_TRACE_FLAG_NETWORK_TCPIP | EVENT_TRACE_FLAG_REGISTRY; } // Let's query, whether there is a logger with this name status = QueryTrace(0, x.logSessionName, &x.LoggerInfo); if (ERROR_SUCCESS == status) { MyDbgPrint(1,"[WMILIB] Query successful Logger %1!ws! %2!08X!:%3!08X!\n", x.logSessionName, x.LoggerInfo.Wnode.HistoricalContext); *Logger = x.LoggerInfo.Wnode.HistoricalContext; return; } if (ERROR_WMI_INSTANCE_NOT_FOUND != status) { MyDbgPrint(1,"[WMILIB] Query of %1!ws! failed %2!d!\n", x.logSessionName, status); } // There is no logger runing // First, We will query logFileName value into tmpName variable // and then expand it into logFileName dwReadSize = sizeof(tmpName); status = RegQueryValueEx(hk, REG_TRACE_LOG_FILE_NAME, NULL, NULL, (BYTE *) tmpName, &dwReadSize); if (status != ERROR_SUCCESS) { // If there is no logFileName, then this node doesn't describe // a logger. Bail out. // MyDbgPrint(1,"[WMILIB] Cannot read log file name, status %1!d!\n", status); wcscpy(tmpName, L"%SystemRoot%\\DfsSvcLogFile"); //dwReadSize = wcslen(tmpName) * sizeof(wchar_t);; //RegSetValueEx(hk, REG_TRACE_LOG_FILE_NAME, 0, REG_SZ,(BYTE*) &tmpName, dwReadSize); } dwReadSize = ExpandEnvironmentStrings(tmpName, x.logFileName, ARRAYSIZE(x.logFileName) ); if (dwReadSize == 0 || dwReadSize > ARRAYSIZE(x.logFileName)) { MyDbgPrint(1,"[WMILIB] Expansion of %1!ws! failed, return value %2!d!\n", tmpName, dwReadSize); CopyMemory(x.logFileName, tmpName, sizeof(x.logFileName)); } MyDbgPrint(3,"[WMILIB] FileName %1!S!\n", x.logFileName); MyDbgPrint(3,"[WMILIB] Session %1!S!\n", x.logSessionName); dwReadSize = sizeof(ulTemp); if (ERROR_SUCCESS == RegQueryValueEx(hk, REG_TRACE_LOG_BUFFER_SIZE, NULL, NULL, (BYTE *) &ulTemp, &dwReadSize)) { x.LoggerInfo.BufferSize = ulTemp; } else { x.LoggerInfo.BufferSize = Temp = 0; // RegSetValueEx(hk, REG_TRACE_LOG_BUFFER_SIZE, 0, REG_DWORD,(BYTE*) &Temp, dwReadSize); } dwReadSize = sizeof(ulTemp); if (ERROR_SUCCESS == RegQueryValueEx(hk, REG_TRACE_LOG_MIN_BUFFERS, NULL, NULL, (BYTE *) &ulTemp, &dwReadSize)){ x.LoggerInfo.MinimumBuffers = ulTemp; } else { x.LoggerInfo.MinimumBuffers = Temp = 0; // RegSetValueEx(hk, REG_TRACE_LOG_MIN_BUFFERS, 0, REG_DWORD, (BYTE*)&Temp, dwReadSize); } dwReadSize = sizeof(ulTemp); if (ERROR_SUCCESS == RegQueryValueEx(hk, REG_TRACE_LOG_MAX_BUFFERS, NULL, NULL, (BYTE *) &ulTemp, &dwReadSize)){ x.LoggerInfo.MaximumBuffers = ulTemp; } else { x.LoggerInfo.MaximumBuffers = Temp = 0; // RegSetValueEx(hk, REG_TRACE_LOG_MAX_BUFFERS, 0, REG_DWORD, (BYTE*)&Temp, dwReadSize); } dwReadSize = sizeof(ulTemp); if (ERROR_SUCCESS == RegQueryValueEx(hk, REG_TRACE_LOG_MAX_FILESIZE, NULL, NULL, (BYTE *) &ulTemp, &dwReadSize)){ x.LoggerInfo.MaximumFileSize = ulTemp; } else{ x.LoggerInfo.MaximumFileSize = Temp = 2; // RegSetValueEx(hk, REG_TRACE_LOG_MAX_FILESIZE, 0, REG_DWORD, (BYTE*)&Temp, dwReadSize); } x.MaxHistorySize = 4 * x.LoggerInfo.MaximumFileSize; dwReadSize = sizeof(ulTemp); if (ERROR_SUCCESS == RegQueryValueEx(hk, REG_TRACE_LOG_MAX_HISTORY, NULL, NULL, (BYTE *) &ulTemp, &dwReadSize)){ x.MaxHistorySize = ulTemp; } else { x.MaxHistorySize = Temp = 0; // RegSetValueEx(hk, REG_TRACE_LOG_MAX_HISTORY, 0, REG_DWORD, (BYTE*)&Temp, dwReadSize); } dwReadSize = sizeof(ulTemp); if (ERROR_SUCCESS == RegQueryValueEx(hk, REG_TRACE_LOG_MAX_BACKUPS, NULL, NULL, (BYTE *) &ulTemp, &dwReadSize)) { x.MaxBackups = ulTemp; } else { x.MaxBackups = Temp = 1; // RegSetValueEx(hk, REG_TRACE_LOG_MAX_BACKUPS, 0, REG_DWORD, (BYTE*)&Temp, dwReadSize); } if (x.MaxBackups == 0) { // We need to check whether the file already exist and rename it // GetLocalTime(&localTime); _snwprintf(tmpName, ARRAYSIZE(tmpName), L"%1ws.%04d%02d%02d%02d%02d%02d", x.logFileName, localTime.wYear,localTime.wMonth,localTime.wDay, localTime.wHour,localTime.wMinute,localTime.wSecond); success = MoveFile(x.logFileName, tmpName); if (!success) { status = GetLastError(); } else { status = ERROR_SUCCESS; } MyDbgPrint(3,"[WMILIB] Rename %1!ws! => %2!ws!, status %3!d!\n", x.logFileName, tmpName, status); } else { int i; for (i = x.MaxBackups; i >= 1; --i) { _snwprintf(tmpName2, ARRAYSIZE(tmpName), L"%1ws.%03d", x.logFileName, i); if (i == 1) { wcscpy(tmpName, x.logFileName); } else { _snwprintf(tmpName, ARRAYSIZE(tmpName), L"%1ws.%03d", x.logFileName, i-1); } success = MoveFile(tmpName, tmpName2); if (!success) { status = GetLastError(); } else { status = ERROR_SUCCESS; } MyDbgPrint(3,"[WMILIB] Rename %1!ws! => %2!ws!, status %3!d!\n", tmpName, tmpName2, status); } } status = StartTrace(Logger, x.logSessionName, &x.LoggerInfo); *Logger = x.LoggerInfo.Wnode.HistoricalContext; MyDbgPrint(1,"[WMILIB] Logger %1!ws! started %3!08X!:%4!08X! %2!d!\n", x.logSessionName, status, *Logger); } WCHAR szModuleName[MAX_PATH+500]; ULONG InitWmiInternal( IN HKEY Dir OPTIONAL, // if 0, then current ... IN LPWSTR ProductName, IN PINHERITED_DATA InheritedData OPTIONAL ) { ULONG status; INHERITED_DATA data; HKEY CloseMe = 0; HKEY hk = 0; //ULONG ulTemp; //ULONG dwReadSize = sizeof(ulTemp); DWORD dwSizeOfModuleName; DWORD dwIndex; MyDbgPrint(2, "[WMILIB] Init %1!ws!\n", ProductName); if (InheritedData) { data = *InheritedData; } else { ZeroMemory(&data, sizeof(data)); } data.GuidDefined = FALSE; if (!Dir) { status = RegCreateKeyEx(HKEY_LOCAL_MACHINE, REG_TRACE_REGKEY, 0, NULL, REG_OPTION_NON_VOLATILE, KEY_READ | KEY_WRITE, NULL, &CloseMe, NULL); if (status != ERROR_SUCCESS) { MyDbgPrint(1,"[WMILIB] Failed to open Trace Key, %1!d!\n", status); goto exit_gracefully; } Dir = CloseMe; } status = RegCreateKeyEx(Dir, ProductName, 0, NULL, REG_OPTION_NON_VOLATILE, KEY_READ | KEY_WRITE, NULL, &hk, NULL); if (status != ERROR_SUCCESS) { MyDbgPrint(1,"[WMILIB] Failed to open %1!ws! subkey, %2!d!\n", ProductName, status); goto exit_gracefully; } ReadLoggerInfo(hk, &data.Logger); ReadCommonData(hk, &data); if (!data.Active) { MyDbgPrint(1,"[WMILIB] Tracing is not active for %1!ws!\n", ProductName); goto exit_gracefully; } if (data.GuidDefined) { // First, try to find its in the map. // // If it is there, we need to register this Guid // RegisterIfNecessary(ProductName, &data.Guid); // We can try to start tracing // if (data.Logger) { status = EnableTrace(data.Active, data.ControlFlags, data.LogLevel, &data.Guid, data.Logger); MyDbgPrint(1,"[WMILIB] Enable=%1!d! %2!ws!, status %3!d!\n", data. Active, ProductName, status); } } dwSizeOfModuleName = sizeof(szModuleName); dwIndex = 0; while (ERROR_SUCCESS == (status = RegEnumKeyEx(hk, dwIndex, szModuleName, &dwSizeOfModuleName, NULL, NULL, NULL, NULL))) { InitWmiInternal(hk, szModuleName, &data); dwSizeOfModuleName = sizeof(szModuleName); ++dwIndex; } if (ERROR_NO_MORE_ITEMS == status) { status = ERROR_SUCCESS; } exit_gracefully: if (CloseMe) { RegCloseKey(CloseMe); } if (hk) { RegCloseKey(hk); } return status; } ULONG InitWmi( IN LPWSTR ProductName ) { MyDbgPrint(1, "[WMILIB] Initialize %1!ws!\n", ProductName); return InitWmiInternal(0, ProductName, 0); } #pragma warning(disable: 4512) // error C4512: 'blah-blah-blah' : assignment operator could not be generated #pragma warning(disable: 4100) // '_P' : unreferenced formal parameter #include #pragma warning(default: 4100) #include //#include struct wless { bool operator() (LPCWSTR a, LPCWSTR b) const { return lstrcmpW(a,b) < 0; } }; typedef std::map WIDE_STRING_MAP; WIDE_STRING_MAP* map; PWMILIB_REG_STRUCT head; ULONG WmilibControlCallback( IN WMIDPREQUESTCODE RequestCode, IN PVOID Context, IN OUT ULONG *InOutBufferSize, IN OUT PVOID Buffer ) { PWMILIB_REG_STRUCT Ctx = (PWMILIB_REG_STRUCT)Context; ULONG Status = ERROR_SUCCESS; switch (RequestCode) { case WMI_ENABLE_EVENTS: { Ctx->LoggerHandle = GetTraceLoggerHandle( Buffer ); Ctx->EnableLevel = GetTraceEnableLevel(Ctx->LoggerHandle); Ctx->EnableFlags = GetTraceEnableFlags(Ctx->LoggerHandle); MyDbgPrint(3, "[WMILIB] WMI_ENABLE_EVENTS Ctx 0x%1!08X! Flags %2!X! Lev %3!d! Logger %4!08X!:%5!08X!\n", Ctx, Ctx->EnableFlags, Ctx->EnableLevel, Ctx->LoggerHandle); break; } case WMI_DISABLE_EVENTS: { Ctx->LoggerHandle = 0; Ctx->EnableFlags = 0; Ctx->EnableLevel = 0; MyDbgPrint(3, "[WMILIB] WMI_DISABLE_EVENTS Ctx 0x%1!08X!\n", Ctx); break; } default: { Status = ERROR_INVALID_PARAMETER; break; } } *InOutBufferSize = 0; return(Status); } VOID RegisterIfNecessary( LPWSTR KeyName, LPCGUID Guid) { WIDE_STRING_MAP::iterator i = map->find(KeyName); if ( i == map->end() ) { MyDbgPrint(2, "[WMILIB] map: %1!ws!, not found\n", KeyName); return; // Not found // } MyDbgPrint(3, "[WMILIB] map[%1!ws!]=0x%2!08X!\n", i->first, i->second); TRACE_GUID_REGISTRATION Reg; Reg.Guid = Guid; Reg.RegHandle = 0; ULONG status = RegisterTraceGuids( WmilibControlCallback, i->second, // Context for the callback Guid, // Control Guid 1, // # of dummies &Reg, // dummy trace guid 0, //ImagePath, 0, //ResourceName, &i->second->RegistrationHandle ); if (status == ERROR_SUCCESS) { i->second->Next = head; head = i->second; } else { MyDbgPrint(1, "[WMILIB] Failed to register %1!ws!, status %2!d!\n", KeyName, status); } } ULONG WmlInitialize( IN LPWSTR ProductName, IN WMILIBPRINTFUNC PrintFunc, OUT WMILIB_REG_HANDLE* Head, ... // Pairs: LPWSTR CtrlGuidName, Corresponding WMILIB_REG_STRUCT ) { WIDE_STRING_MAP map; LPWSTR str; va_list ap; WmiLibPrint = PrintFunc; *Head = 0; ::head = 0; ::map = ↦ va_start(ap, Head); while(0 != (str = va_arg(ap, LPWSTR)) ) { map[ str ] = va_arg(ap, PWMILIB_REG_STRUCT); } va_end(ap); ULONG status = InitWmiInternal(0, ProductName, 0); *Head = ::head; return status; } VOID WmlUninitialize( IN PWMILIB_REG_STRUCT head ) { while (head) { MyDbgPrint(3,"[WMILIB] Unregister 0x%1!08X!\n", head); UnregisterTraceGuids(head->RegistrationHandle); head = head->Next; } } #define WMILIB_USER_MODE typedef struct _TRACE_BUFFER { union { EVENT_TRACE_HEADER Trace; WNODE_HEADER Wnode; }; MOF_FIELD MofFields[MAX_MOF_FIELDS + 1]; } TRACE_BUFFER, *PTRACE_BUFFER; ////////////////////////////////////////////////////////////////////// // 0 | Size | ProviderId | 0 |Size.HT.Mk | Typ.Lev.Version| // 2 | L o g g e r H a n d l e | 2 | T h r e a d I d | // 4 | T i m e S t a m p | 4 | T i m e S t a m p | // 6 | G U I D L o w | 6 | GUID Ptr / Guid L o w | // 8 | G U I D H I g h | 8 | G U I D H i g h | // 10 | ClientCtx | Flags | 10 |KernelTime | UserTime | ////////////////////////////////////////////////////////////////////// ULONG WmlTrace( IN UINT Type, IN LPCGUID TraceGuid, IN TRACEHANDLE LoggerHandle, ... // Pairs: Address, Length ) { TRACE_BUFFER TraceBuffer; ((PULONG)&TraceBuffer)[1] = Type; #ifndef WMILIB_USER_MODE TraceBuffer.Wnode.HistoricalContext = LoggerHandle; #endif TraceBuffer.Trace.Guid = *TraceGuid; TraceBuffer.Wnode.Flags = WNODE_FLAG_USE_MOF_PTR | // MOF data are dereferenced WNODE_FLAG_TRACED_GUID; // Trace Event, not a WMI event { PMOF_FIELD ptr = TraceBuffer.MofFields; va_list ap; va_start(ap, LoggerHandle); do { if ( 0 == (ptr->Length = (ULONG)va_arg (ap, size_t)) ) { break; } ptr->DataPtr = (ULONGLONG)va_arg(ap, PVOID); } while ( ++ptr < &TraceBuffer.MofFields[MAX_MOF_FIELDS] ); va_end(ap); TraceBuffer.Wnode.BufferSize = (ULONG) ((ULONG_PTR)ptr - (ULONG_PTR)&TraceBuffer); } #ifdef WMILIB_USER_MODE ULONG status = TraceEvent( LoggerHandle, &TraceBuffer.Trace); if (status != ERROR_SUCCESS) { // Need to count failures and report them during unintialize or ...// } #else IoWMIWriteEvent(&TraceBuffer); #endif return ERROR_SUCCESS; }