/*++ Copyright (c) 1999 Microsoft Corporation Module Name: regconv.c Abstract: Implements registry special conversion. Author: Calin Negreanu (calinn) 5-May-2000 Revision History: --*/ // // Includes // #include "pch.h" #include "v1p.h" #include #include #include // // Strings // #define DBG_CONVERSION "SpecialConversion" // // Constants // #define COLOR_MENU 4 #define COLOR_HIGHLIGHT 13 #define COLOR_BTNFACE 15 #define COLOR_BUTTONALTFACE 25 #define COLOR_HOTLIGHT 26 #define COLOR_GRADIENTACTIVECAPTION 27 #define COLOR_GRADIENTINACTIVECAPTION 28 #define COLOR_MENUHILIGHT 29 #define COLOR_MENUBAR 30 #define DISPLAY_BITMASK 0x00161E2F #define MOUSE_BITMASK 0x0001E000 // // Macros // #define pGetDestDwordValue(Key,Value) pGetDwordValue(Key, Value, PLATFORM_DESTINATION) #define pGetSrcDwordValue(Key,Value) pGetDwordValue(Key, Value, PLATFORM_SOURCE) // // Types // typedef struct { SHORT lfHeight; SHORT lfWidth; SHORT lfEscapement; SHORT lfOrientation; SHORT lfWeight; BYTE lfItalic; BYTE lfUnderline; BYTE lfStrikeOut; BYTE lfCharSet; BYTE lfOutPrecision; BYTE lfClipPrecision; BYTE lfQuality; BYTE lfPitchAndFamily; char lfFaceName[LF_FACESIZE]; } SHORT_LOGFONT, *PSHORT_LOGFONT; // // NT uses only UNICODE structures, and pads the members // to 32-bit boundaries. // #define COLOR_MAX_V1 25 #define COLOR_MAX_V2 25 #define COLOR_MAX_V3 25 #define COLOR_MAX_V4 29 #define COLOR_MAX_NT 29 // this is a modified version 2 format, similar to 4 typedef struct { SHORT version; // 2 for NT UNICODE WORD wDummy; // for alignment NONCLIENTMETRICSW ncm; LOGFONTW lfIconTitle; COLORREF rgb[COLOR_MAX_NT]; } SCHEMEDATA_NT, *PSCHEMEDATA_NT; // // Win95 uses NONCLIENTMETRICSA which has LOGFONTA members, // but it uses a 16-bit LOGFONT as well. // #pragma pack(push) #pragma pack(1) typedef struct { SHORT version; // 1 for Win95 ANSI NONCLIENTMETRICSA ncm; SHORT_LOGFONT lfIconTitle; COLORREF rgb[COLOR_MAX_V1]; } SCHEMEDATA_V1, *PSCHEMEDATA_V1; typedef struct { SHORT version; // 1 for Win95 ANSI NONCLIENTMETRICSA ncm; SHORT_LOGFONT lfIconTitle; COLORREF rgb[COLOR_MAX_V4]; } SCHEMEDATA_V1A, *PSCHEMEDATA_V1A; typedef struct { SHORT version; // 2 for WinNT UNICODE with reduced color table WORD Dummy; NONCLIENTMETRICSW ncm; LOGFONTW lfIconTitle; COLORREF rgb[COLOR_MAX_V2]; } SCHEMEDATA_V2, *PSCHEMEDATA_V2; typedef struct { SHORT version; // 3 for Win98 ANSI, 4 for portable format WORD Dummy; NONCLIENTMETRICSA ncm; LOGFONTA lfIconTitle; COLORREF rgb[COLOR_MAX_V3]; } SCHEMEDATA_V3, *PSCHEMEDATA_V3; typedef struct { SHORT version; // 4 for Win32 format (whatever that means) WORD Dummy; NONCLIENTMETRICSA ncm; LOGFONTA lfIconTitle; COLORREF rgb[COLOR_MAX_V4]; } SCHEMEDATA_V4, *PSCHEMEDATA_V4; #pragma pack(pop) typedef struct { UINT cbSize; SHELLSTATE ss; } REGSHELLSTATE, *PREGSHELLSTATE; // // Globals // MIG_OPERATIONID g_ConvertToDwordOp; MIG_OPERATIONID g_ConvertToStringOp; DWORD g_IdentityCount = 0; HASHTABLE g_IdentityDestTable; // // Macro expansion list // #define CONVERSION_FUNCTIONS \ DEFMAC(CONVERTTODWORD, NULL, EDIT.ConvertToDword, pConvertToDwordCallback ) \ DEFMAC(CONVERTTOSTRING, NULL, EDIT.ConvertToString, pConvertToStringCallback ) \ DEFMAC(CONVERTLOGFONT, NULL, EDIT.ConvertLogFont, pConvertLogFontCallback ) \ DEFMAC(FONTDPICHANGE, NULL, EDIT.FontDPIChange, pFontDPIChange ) \ DEFMAC(FRAMEDPICHANGE, NULL, EDIT.FrameDPIChange, pFrameDPIChange ) \ DEFMAC(ANTIALIAS, NULL, EDIT.AntiAlias, pAntiAliasCallback ) \ DEFMAC(FIXACTIVEDESKTOP, NULL, EDIT.FixActiveDesktop, pFixActiveDesktopCallback ) \ DEFMAC(CONVERTRECENTDOCSMRU, NULL, EDIT.ConvertRecentDocsMRU, pConvertRecentDocsMRUCallback ) \ DEFMAC(CONVERTAPPEARANCESCHEME, NULL, EDIT.ConvertAppearanceScheme, pConvertAppearanceSchemeCallback) \ DEFMAC(CONVERTSCNSAVER, NULL, EDIT.ConvertScnSaver, pConvertScnSaver ) \ DEFMAC(CONVERTOE4IAMACCTNAME, NULL, EDIT.ConvertOE4IAMAcctName, pConvertOE4IAMAcctName ) \ DEFMAC(CONVERTOE5IAMACCTNAME, NULL, EDIT.ConvertOE5IAMAcctName, pConvertOE5IAMAcctName ) \ DEFMAC(CONVERTIAMACCTNAME, NULL, EDIT.ConvertIAMAcctName, pConvertIAMAcctName ) \ DEFMAC(CONVERTOMIACCOUNTNAME, NULL, EDIT.ConvertOMIAccountName, pConvertOMIAccountName ) \ DEFMAC(CONVERTIDENTITYCOUNT, NULL, EDIT.ConvertIdentityCount, pConvertIdentityCount ) \ DEFMAC(CONVERTIDENTITYINDEX, NULL, EDIT.ConvertIdentityIndex, pConvertIdentityIndex ) \ DEFMAC(CONVERTIDENTITYUSERNAME, NULL, EDIT.ConvertIdentityUsername, pConvertIdentityUsername ) \ DEFMAC(CONVERTIDENTITYGUID, NULL, EDIT.ConvertIdentityGuid, pConvertIdentityGuid ) \ DEFMAC(CONVERTOE5STATIONERY, NULL, Edit.ConvertOE5Stationery, pConvertOE5Stationery ) \ DEFMAC(CONVERTSETDWORDTRUE, NULL, EDIT.ConvertSetDwordTrue, pConvertSetDwordTrue ) \ DEFMAC(CONVERTSETDWORDFALSE, NULL, EDIT.ConvertSetDwordFalse, pConvertSetDwordFalse ) \ DEFMAC(CONVERTPSTBLOB, NULL, EDIT.ConvertPSTBlob, pConvertPSTBlob ) \ DEFMAC(CONVERTOFFICELANGID, NULL, EDIT.ConvertOfficeLangId, pConvertOfficeLangId ) \ DEFMAC(CONVERTOUTLOOKLANGID, NULL, EDIT.ConvertOutlookLangId, pConvertOutlookLangId ) \ DEFMAC(CONVERTACCESSLANGID, NULL, EDIT.ConvertAccessLangId, pConvertAccessLangId ) \ DEFMAC(CONVERTEXCELLANGID, NULL, EDIT.ConvertExcelLangId, pConvertExcelLangId ) \ DEFMAC(CONVERTFRONTPAGELANGID, NULL, EDIT.ConvertFrontPageLangId, pConvertFrontPageLangId ) \ DEFMAC(CONVERTPOWERPOINTLANGID, NULL, EDIT.ConvertPowerPointLangId, pConvertPowerPointLangId ) \ DEFMAC(CONVERTPUBLISHERLANGID, NULL, EDIT.ConvertPublisherLangId, pConvertPublisherLangId ) \ DEFMAC(CONVERTWORDLANGID, NULL, EDIT.ConvertWordLangId, pConvertWordLangId ) \ DEFMAC(CONVERTOFFICE2000LANGID, NULL, EDIT.ConvertOffice2000LangId, pConvertOffice2000LangId ) \ DEFMAC(MIGRATESOUNDSYSTRAY, NULL, EDIT.MigrateSoundSysTray, pMigrateSoundSysTray ) \ DEFMAC(MIGRATEAPPEARANCEUPM, NULL, EDIT.MigrateAppearanceUPM, pMigrateAppearanceUPM ) \ DEFMAC(MIGRATEMOUSEUPM, NULL, EDIT.MigrateMouseUPM, pMigrateMouseUPM ) \ DEFMAC(MIGRATEOFFLINESYSTRAY, NULL, EDIT.MigrateOfflineSysTray, pMigrateOfflineSysTray ) \ DEFMAC(MIGRATEDISPLAYSS, NULL, EDIT.MigrateDisplaySS, pMigrateDisplaySS ) \ DEFMAC(MIGRATEDISPLAYCS, NULL, EDIT.MigrateDisplayCS, pMigrateDisplayCS ) \ DEFMAC(MIGRATETASKBARSSPRESERVE,NULL, EDIT.MigrateTaskBarSSPreserve, pMigrateTaskBarSSPreserve ) \ DEFMAC(MIGRATETASKBARSSFORCE, NULL, EDIT.MigrateTaskBarSSForce, pMigrateTaskBarSSForce ) \ DEFMAC(CONVERTSHOWIEONDESKTOP, NULL, EDIT.ConvertShowIEOnDesktop, pConvertShowIEOnDesktop ) \ DEFMAC(MIGRATEACTIVEDESKTOP, NULL, EDIT.MigrateActiveDesktop, pMigrateActiveDesktop ) \ // // Private function prototypes // // None // // Macro expansion definition // // // Declare special conversion operation apply callback functions // #define DEFMAC(ifn,ec,opn,opc) OPMAPPLYCALLBACK opc; CONVERSION_FUNCTIONS #undef DEFMAC // // This is the structure used for handling action functions // typedef struct { PCTSTR InfFunctionName; PSGMENUMERATIONCALLBACK EnumerationCallback; PCTSTR OperationName; MIG_OPERATIONID OperationId; POPMAPPLYCALLBACK OperationCallback; } CONVERSION_STRUCT, *PCONVERSION_STRUCT; // // Declare a global array of conversion functions // #define DEFMAC(ifn,ec,opn,opc) {TEXT("\\")TEXT(#ifn),ec,TEXT(#opn),0,opc}, static CONVERSION_STRUCT g_ConversionFunctions[] = { CONVERSION_FUNCTIONS {NULL, NULL, NULL, 0, NULL} }; #undef DEFMAC // // Code // BOOL IsValidRegSz( IN PCMIG_CONTENT ObjectContent ) { return ((!ObjectContent->ContentInFile) && (ObjectContent->MemoryContent.ContentSize) && (ObjectContent->MemoryContent.ContentBytes) && (ObjectContent->Details.DetailsSize == sizeof (DWORD)) && (ObjectContent->Details.DetailsData) && ((*((PDWORD)ObjectContent->Details.DetailsData) == REG_SZ) || (*((PDWORD)ObjectContent->Details.DetailsData) == REG_EXPAND_SZ))); } BOOL IsValidRegType ( IN PCMIG_CONTENT CurrentContent, IN DWORD RegType ) { return ((!CurrentContent->ContentInFile) && (CurrentContent->Details.DetailsSize == sizeof (DWORD)) && (CurrentContent->Details.DetailsData) && (*((PDWORD)CurrentContent->Details.DetailsData) == RegType) && (CurrentContent->MemoryContent.ContentSize) && (CurrentContent->MemoryContent.ContentBytes)); } DWORD pGetDwordValue ( IN PTSTR Key, IN PTSTR Value, IN MIG_PLATFORMTYPEID Platform ) { DWORD value = 0; MIG_OBJECTSTRINGHANDLE objectName; MIG_CONTENT objectContent; objectName = IsmCreateObjectHandle (Key, Value); if (IsmAcquireObject (g_RegType | Platform, objectName, &objectContent)) { if (IsValidRegType(&objectContent, REG_DWORD)) { value = *(DWORD *)objectContent.MemoryContent.ContentBytes; } IsmReleaseObject (&objectContent); } IsmDestroyObjectHandle (objectName); return value; } VOID pSetDwordValue ( OUT PMIG_CONTENT NewContent, IN DWORD Value ) { NewContent->Details.DetailsSize = sizeof(DWORD); NewContent->Details.DetailsData = IsmGetMemory (sizeof (DWORD)); *((PDWORD)NewContent->Details.DetailsData) = REG_DWORD; NewContent->MemoryContent.ContentSize = sizeof (DWORD); NewContent->MemoryContent.ContentBytes = IsmGetMemory (sizeof(DWORD)); *((PDWORD)NewContent->MemoryContent.ContentBytes) = Value; } UINT pDefaultEnumerationCallback ( IN PCMIG_OBJECTENUMDATA Data, IN ULONG_PTR CallerArg ) { PCONVERSION_STRUCT p = (PCONVERSION_STRUCT)CallerArg; if (Data->IsLeaf) { IsmSetOperationOnObject (Data->ObjectTypeId, Data->ObjectName, p->OperationId, NULL, NULL); } return CALLBACK_ENUM_CONTINUE; } PCONVERSION_STRUCT pGetConversionStruct ( IN PCTSTR FunctionName ) { PCONVERSION_STRUCT p = g_ConversionFunctions; INT i = 0; while (p->InfFunctionName != NULL) { if (StringIMatch (p->InfFunctionName, FunctionName)) { return p; } p++; i++; } return NULL; } VOID InitSpecialConversion ( IN MIG_PLATFORMTYPEID Platform ) { PCONVERSION_STRUCT p = g_ConversionFunctions; while (p->InfFunctionName) { p->OperationId = IsmRegisterOperation (p->OperationName, FALSE); if (Platform == PLATFORM_DESTINATION) { IsmRegisterOperationApplyCallback (p->OperationId, p->OperationCallback, TRUE); } p++; } g_IdentityDestTable = HtAllocWithData (sizeof (PTSTR)); if (Platform == PLATFORM_DESTINATION) { // Read the starting Identity count g_IdentityCount = pGetDestDwordValue (TEXT("HKCU\\Identities"), TEXT("Identity Ordinal")); } } VOID TerminateSpecialConversion ( VOID ) { HtFree (g_IdentityDestTable); g_IdentityDestTable = NULL; OETerminate(); } BOOL pProcessDataConversionSection ( IN PINFSTRUCT InfStruct, IN HINF InfHandle, IN PCTSTR Section ) { PCTSTR pattern; ENCODEDSTRHANDLE encodedPattern = NULL; PCTSTR functionName; PCONVERSION_STRUCT functionStruct = NULL; BOOL result = FALSE; __try { if (InfFindFirstLine (InfHandle, Section, NULL, InfStruct)) { do { if (IsmCheckCancel()) { __leave; } pattern = InfGetStringField (InfStruct, 0); if (!pattern) { continue; } encodedPattern = TurnRegStringIntoHandle (pattern, TRUE, NULL); functionName = InfGetStringField (InfStruct, 1); if (functionName) { functionStruct = pGetConversionStruct (functionName); if (functionStruct) { IsmHookEnumeration ( MIG_REGISTRY_TYPE, encodedPattern, functionStruct->EnumerationCallback? functionStruct->EnumerationCallback: pDefaultEnumerationCallback, (ULONG_PTR)functionStruct, functionStruct->InfFunctionName ); } else { LOG (( LOG_ERROR, (PCSTR) MSG_DATA_CONVERSION_BAD_FN, functionName, pattern )); } } else { LOG ((LOG_ERROR, (PCSTR) MSG_DATA_CONVERSION_NO_FN, pattern)); } IsmDestroyObjectHandle (encodedPattern); encodedPattern = NULL; } while (InfFindNextLine (InfStruct)); } result = TRUE; } __finally { InfCleanUpInfStruct (InfStruct); } return result; } BOOL DoRegistrySpecialConversion ( IN HINF InfHandle, IN PCTSTR Section ) { PCTSTR osSpecificSection; BOOL b; INFSTRUCT is = INITINFSTRUCT_PMHANDLE; b = pProcessDataConversionSection (&is, InfHandle, Section); if (b) { osSpecificSection = GetMostSpecificSection (PLATFORM_SOURCE, &is, InfHandle, Section); if (osSpecificSection) { b = pProcessDataConversionSection (&is, InfHandle, osSpecificSection); FreeText (osSpecificSection); } } InfCleanUpInfStruct (&is); return b; } BOOL DoesDestRegExist ( IN MIG_OBJECTSTRINGHANDLE DestName, IN DWORD RegType ) { BOOL result = FALSE; MIG_CONTENT content; if (IsmAcquireObject (g_RegType | PLATFORM_DESTINATION, DestName, &content)) { if (IsValidRegType(&content, RegType)) { result = TRUE; } IsmReleaseObject (&content); } return result; } BOOL WINAPI pConvertToDwordCallback ( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { DWORD value = 0; BOOL converted = FALSE; PDWORD valueType; // // Filter the data for any references to %windir% // if (!CurrentContent->ContentInFile) { MYASSERT (CurrentContent->Details.DetailsSize == sizeof (DWORD)); valueType = (PDWORD)(CurrentContent->Details.DetailsData); if (*valueType == REG_SZ) { converted = TRUE; if (CurrentContent->MemoryContent.ContentSize > 0) { value = _tcstoul ((PCTSTR)CurrentContent->MemoryContent.ContentBytes, NULL, 10); } } else if (*valueType == REG_BINARY || *valueType == REG_NONE || *valueType == REG_DWORD ) { if (CurrentContent->MemoryContent.ContentSize == sizeof (DWORD)) { converted = TRUE; value = *((PDWORD)CurrentContent->MemoryContent.ContentBytes); } } if (converted) { pSetDwordValue (NewContent, value); } } return TRUE; } BOOL WINAPI pConvertToStringCallback ( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { PTSTR result = NULL; PTSTR resultPtr; UINT i; BOOL converted = FALSE; UINT convertedSize = 0; PDWORD valueType; // // Filter the data for any references to %windir% // if (!CurrentContent->ContentInFile) { MYASSERT (CurrentContent->Details.DetailsSize == sizeof (DWORD)); valueType = (PDWORD)(CurrentContent->Details.DetailsData); if (*valueType == REG_DWORD) { MYASSERT (CurrentContent->MemoryContent.ContentSize == sizeof (DWORD)); if (CurrentContent->MemoryContent.ContentSize == sizeof (DWORD)) { converted = TRUE; convertedSize = 11 * sizeof (TCHAR); // DWORD takes no more than 11 characters result = IsmGetMemory (convertedSize); if (result) { wsprintf (result, TEXT("%lu"), *((PDWORD)CurrentContent->MemoryContent.ContentBytes)); convertedSize = SizeOfString (result); } } } else if (*valueType == REG_BINARY) { converted = TRUE; convertedSize = (CurrentContent->MemoryContent.ContentSize?(CurrentContent->MemoryContent.ContentSize * 3):1) * sizeof (TCHAR); result = IsmGetMemory (convertedSize); if (result) { resultPtr = result; *resultPtr = 0; for (i = 0; i < CurrentContent->MemoryContent.ContentSize; i++) { wsprintf (resultPtr, TEXT("%02X"), CurrentContent->MemoryContent.ContentBytes[i]); resultPtr = GetEndOfString (resultPtr); if (i < CurrentContent->MemoryContent.ContentSize - 1) { _tcscat (resultPtr, TEXT(" ")); resultPtr = GetEndOfString (resultPtr); } } convertedSize = SizeOfString (result); } } if (converted && convertedSize && result) { NewContent->Details.DetailsSize = sizeof (DWORD); NewContent->Details.DetailsData = IsmGetMemory (NewContent->Details.DetailsSize); *((PDWORD)NewContent->Details.DetailsData) = REG_SZ; NewContent->MemoryContent.ContentSize = convertedSize; NewContent->MemoryContent.ContentBytes = (PCBYTE) result; } } return TRUE; } VOID pConvertShortLogFontWorker ( PLOGFONTW plfDest, PSHORT_LOGFONT plfSrc ) { PCWSTR faceName; plfDest->lfHeight = plfSrc->lfHeight; plfDest->lfWidth = plfSrc->lfWidth; plfDest->lfEscapement = plfSrc->lfEscapement; plfDest->lfOrientation = plfSrc->lfOrientation; plfDest->lfWeight = plfSrc->lfWeight; plfDest->lfItalic = plfSrc->lfItalic; plfDest->lfUnderline = plfSrc->lfUnderline; plfDest->lfStrikeOut = plfSrc->lfStrikeOut; plfDest->lfCharSet = plfSrc->lfCharSet; plfDest->lfOutPrecision = plfSrc->lfOutPrecision; plfDest->lfClipPrecision = plfSrc->lfClipPrecision; plfDest->lfQuality = plfSrc->lfQuality; plfDest->lfPitchAndFamily = plfSrc->lfPitchAndFamily;\ faceName = ConvertAtoW (plfSrc->lfFaceName); StringCopyByteCountW (plfDest->lfFaceName, faceName, sizeof (plfDest->lfFaceName)); FreeConvertedStr (faceName); } VOID pConvertLogFontWorker ( PLOGFONTW plfDest, PLOGFONTA plfSrc ) { PCWSTR faceName; plfDest->lfHeight = plfSrc->lfHeight; plfDest->lfWidth = plfSrc->lfWidth; plfDest->lfEscapement = plfSrc->lfEscapement; plfDest->lfOrientation = plfSrc->lfOrientation; plfDest->lfWeight = plfSrc->lfWeight; plfDest->lfItalic = plfSrc->lfItalic; plfDest->lfUnderline = plfSrc->lfUnderline; plfDest->lfStrikeOut = plfSrc->lfStrikeOut; plfDest->lfCharSet = plfSrc->lfCharSet; plfDest->lfOutPrecision = plfSrc->lfOutPrecision; plfDest->lfClipPrecision = plfSrc->lfClipPrecision; plfDest->lfQuality = plfSrc->lfQuality; plfDest->lfPitchAndFamily = plfSrc->lfPitchAndFamily;\ faceName = ConvertAtoW (plfSrc->lfFaceName); StringCopyByteCountW (plfDest->lfFaceName, faceName, sizeof (plfDest->lfFaceName)); FreeConvertedStr (faceName); } VOID pCopyLogFontWorker ( PLOGFONTW plfDest, PLOGFONTW plfSrc ) { PCWSTR faceName; plfDest->lfHeight = plfSrc->lfHeight; plfDest->lfWidth = plfSrc->lfWidth; plfDest->lfEscapement = plfSrc->lfEscapement; plfDest->lfOrientation = plfSrc->lfOrientation; plfDest->lfWeight = plfSrc->lfWeight; plfDest->lfItalic = plfSrc->lfItalic; plfDest->lfUnderline = plfSrc->lfUnderline; plfDest->lfStrikeOut = plfSrc->lfStrikeOut; plfDest->lfCharSet = plfSrc->lfCharSet; plfDest->lfOutPrecision = plfSrc->lfOutPrecision; plfDest->lfClipPrecision = plfSrc->lfClipPrecision; plfDest->lfQuality = plfSrc->lfQuality; plfDest->lfPitchAndFamily = plfSrc->lfPitchAndFamily;\ StringCopyByteCountW (plfDest->lfFaceName, plfSrc->lfFaceName, sizeof (plfDest->lfFaceName)); } BOOL WINAPI pConvertLogFontCallback ( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { BOOL converted = FALSE; UINT convertedSize = 0; PLOGFONTW logFont = NULL; PDWORD valueType; // // Filter the data for any references to %windir% // if (!CurrentContent->ContentInFile) { MYASSERT (CurrentContent->Details.DetailsSize == sizeof (DWORD)); valueType = (PDWORD)(CurrentContent->Details.DetailsData); if (*valueType == REG_BINARY) { if (CurrentContent->MemoryContent.ContentSize == sizeof (SHORT_LOGFONT)) { converted = TRUE; convertedSize = sizeof (LOGFONTW); logFont = (PLOGFONTW) IsmGetMemory (convertedSize); ZeroMemory (logFont, sizeof (LOGFONTW)); pConvertShortLogFontWorker (logFont, (PSHORT_LOGFONT)CurrentContent->MemoryContent.ContentBytes); } if (CurrentContent->MemoryContent.ContentSize == sizeof (LOGFONTA)) { converted = TRUE; convertedSize = sizeof (LOGFONTW); logFont = (PLOGFONTW) IsmGetMemory (convertedSize); ZeroMemory (logFont, sizeof (LOGFONTW)); pConvertLogFontWorker (logFont, (PLOGFONTA)CurrentContent->MemoryContent.ContentBytes); } } if (converted && convertedSize && logFont) { NewContent->MemoryContent.ContentSize = convertedSize; NewContent->MemoryContent.ContentBytes = (PBYTE)logFont; } } return TRUE; } BOOL pGetDPISettings ( OUT PDWORD SrcDPI, OUT PDWORD DestDPI ) { PTSTR dpiStr = NULL; DWORD srcDPI = 96; DWORD destDPI = 96; DWORD sizeNeeded; if (IsmGetEnvironmentString ( PLATFORM_SOURCE, S_SYSENVVAR_GROUP, S_ENV_APPLIED_DPI, NULL, 0, &sizeNeeded )) { dpiStr = AllocPathString (sizeNeeded); if (dpiStr) { if (IsmGetEnvironmentString ( PLATFORM_SOURCE, S_SYSENVVAR_GROUP, S_ENV_APPLIED_DPI, dpiStr, sizeNeeded, NULL )) { _stscanf (dpiStr, TEXT("%lx"), &(srcDPI)); } FreePathString (dpiStr); dpiStr = NULL; } } if (IsmGetEnvironmentString ( PLATFORM_DESTINATION, S_SYSENVVAR_GROUP, S_ENV_APPLIED_DPI, NULL, 0, &sizeNeeded )) { dpiStr = AllocPathString (sizeNeeded); if (dpiStr) { if (IsmGetEnvironmentString ( PLATFORM_DESTINATION, S_SYSENVVAR_GROUP, S_ENV_APPLIED_DPI, dpiStr, sizeNeeded, NULL )) { _stscanf (dpiStr, TEXT("%lx"), &(destDPI)); } FreePathString (dpiStr); dpiStr = NULL; } } if (SrcDPI) { *SrcDPI = srcDPI; } if (DestDPI) { *DestDPI = destDPI; } return TRUE; } BOOL WINAPI pFontDPIChange ( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { BOOL converted = FALSE; UINT convertedSize = 0; PDWORD valueType; DWORD srcDPI = 0; DWORD destDPI = 0; // // Filter the data for any references to %windir% // if (!CurrentContent->ContentInFile) { MYASSERT (CurrentContent->Details.DetailsSize == sizeof (DWORD)); valueType = (PDWORD)(CurrentContent->Details.DetailsData); if (*valueType == REG_BINARY) { pGetDPISettings (&srcDPI, &destDPI); if (srcDPI && destDPI && (srcDPI != destDPI)) { if (CurrentContent->MemoryContent.ContentSize == sizeof (SHORT_LOGFONT)) { PSHORT_LOGFONT result = IsmGetMemory (sizeof (SHORT_LOGFONT)); if (result) { CopyMemory (result, (PSHORT_LOGFONT)CurrentContent->MemoryContent.ContentBytes, sizeof (SHORT_LOGFONT)); // now modify the size of the font if negative (device units) if (result->lfHeight < 0) { result->lfHeight = (SHORT)MulDiv (result->lfHeight, srcDPI, destDPI); NewContent->MemoryContent.ContentSize = sizeof (SHORT_LOGFONT); NewContent->MemoryContent.ContentBytes = (PBYTE)result; } else { IsmReleaseMemory (result); result = NULL; } } } if (CurrentContent->MemoryContent.ContentSize == sizeof (LOGFONTA)) { PLOGFONTA result = IsmGetMemory (sizeof (LOGFONTA)); if (result) { CopyMemory (result, (PLOGFONTA)CurrentContent->MemoryContent.ContentBytes, sizeof (LOGFONTA)); // now modify the size of the font if negative (device units) if (result->lfHeight < 0) { result->lfHeight = MulDiv (result->lfHeight, srcDPI, destDPI); NewContent->MemoryContent.ContentSize = sizeof (LOGFONTA); NewContent->MemoryContent.ContentBytes = (PBYTE)result; } else { IsmReleaseMemory (result); result = NULL; } } } if (CurrentContent->MemoryContent.ContentSize == sizeof (LOGFONTW)) { PLOGFONTW result = IsmGetMemory (sizeof (LOGFONTW)); if (result) { CopyMemory (result, (PLOGFONTW)CurrentContent->MemoryContent.ContentBytes, sizeof (LOGFONTW)); // now modify the size of the font if negative (device units) if (result->lfHeight < 0) { result->lfHeight = MulDiv (result->lfHeight, srcDPI, destDPI); NewContent->MemoryContent.ContentSize = sizeof (LOGFONTW); NewContent->MemoryContent.ContentBytes = (PBYTE)result; } else { IsmReleaseMemory (result); result = NULL; } } } } } } return TRUE; } BOOL WINAPI pFrameDPIChange ( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { BOOL converted = FALSE; UINT convertedSize = 0; PDWORD valueType; DWORD srcDPI = 0; DWORD destDPI = 0; LONG value; PTSTR result = NULL; // // Filter the data for any references to %windir% // if (!CurrentContent->ContentInFile) { MYASSERT (CurrentContent->Details.DetailsSize == sizeof (DWORD)); valueType = (PDWORD)(CurrentContent->Details.DetailsData); if (*valueType == REG_SZ) { pGetDPISettings (&srcDPI, &destDPI); if (srcDPI && destDPI && (srcDPI != destDPI)) { // let's get the actual number store here (positive or negative) _stscanf ((PCTSTR)(CurrentContent->MemoryContent.ContentBytes), TEXT("%ld"), &(value)); if (value < 0) { // only adjust if negative (device units) value = MulDiv (value, srcDPI, destDPI); result = IsmGetMemory (sizeof (value) * 2 + 2); wsprintf (result, TEXT("%ld"), value); NewContent->MemoryContent.ContentSize = SizeOfString (result); NewContent->MemoryContent.ContentBytes = (PBYTE)result; } } } } return TRUE; } VOID pConvertNonClientMetrics ( OUT NONCLIENTMETRICSW *Dest, IN NONCLIENTMETRICSA *Src ) { Dest->cbSize = sizeof (NONCLIENTMETRICSW); Dest->iBorderWidth = Src->iBorderWidth; Dest->iScrollWidth = Src->iScrollWidth; Dest->iScrollHeight = Src->iScrollHeight; Dest->iCaptionWidth = Src->iCaptionWidth; Dest->iCaptionHeight = Src->iCaptionHeight; Dest->iSmCaptionWidth = Src->iSmCaptionWidth; Dest->iSmCaptionHeight = Src->iSmCaptionHeight; Dest->iMenuWidth = Src->iMenuWidth; Dest->iMenuHeight = Src->iMenuHeight; pConvertLogFontWorker (&Dest->lfCaptionFont, &Src->lfCaptionFont); pConvertLogFontWorker (&Dest->lfSmCaptionFont, &Src->lfSmCaptionFont); pConvertLogFontWorker (&Dest->lfMenuFont, &Src->lfMenuFont); pConvertLogFontWorker (&Dest->lfStatusFont, &Src->lfStatusFont); pConvertLogFontWorker (&Dest->lfMessageFont, &Src->lfMessageFont); } VOID pCopyNonClientMetrics ( OUT NONCLIENTMETRICSW *Dest, IN NONCLIENTMETRICSW *Src ) { Dest->cbSize = sizeof (NONCLIENTMETRICSW); Dest->iBorderWidth = Src->iBorderWidth; Dest->iScrollWidth = Src->iScrollWidth; Dest->iScrollHeight = Src->iScrollHeight; Dest->iCaptionWidth = Src->iCaptionWidth; Dest->iCaptionHeight = Src->iCaptionHeight; Dest->iSmCaptionWidth = Src->iSmCaptionWidth; Dest->iSmCaptionHeight = Src->iSmCaptionHeight; Dest->iMenuWidth = Src->iMenuWidth; Dest->iMenuHeight = Src->iMenuHeight; pCopyLogFontWorker (&Dest->lfCaptionFont, &Src->lfCaptionFont); pCopyLogFontWorker (&Dest->lfSmCaptionFont, &Src->lfSmCaptionFont); pCopyLogFontWorker (&Dest->lfMenuFont, &Src->lfMenuFont); pCopyLogFontWorker (&Dest->lfStatusFont, &Src->lfStatusFont); pCopyLogFontWorker (&Dest->lfMessageFont, &Src->lfMessageFont); } #define S_SCHEMELOCATION TEXT("HKCU\\Control Panel\\Appearance\\New Schemes") #define S_SCHEMECURRENT TEXT("HKCU\\Control Panel\\Appearance") #define S_SCHEMELOCATIONT1 TEXT("HKCU\\Control Panel\\Appearance\\New Schemes\\Current Settings SaveAll\\Sizes\\0") #define S_SCHEMELOCATIONT2 TEXT("HKCU\\Control Panel\\Appearance\\New Schemes\\Current Settings SaveNoVisualStyle\\Sizes\\0") #define S_SCHEMECOLORS TEXT("HKCU\\Control Panel\\Colors") #define S_SCHEMEMETRICS TEXT("HKCU\\Control Panel\\Desktop\\WindowMetrics") BOOL pFindWhistlerScheme ( IN PCTSTR SchemeName, OUT PUINT SchemeNr, OUT PUINT SchemeSize ) { BOOL result = FALSE; HKEY rootKey = NULL; HKEY schemeKey = NULL; HKEY sizeKey = NULL; HKEY currSizeKey = NULL; TCHAR schemeNrStr [MAX_PATH + 1]; TCHAR schemeSizeStr [MAX_PATH + 1]; PCTSTR subKeyStr = NULL; DWORD index = 0, index1 = 0; INT maxScheme = -1; INT currScheme = 0; LONG err, err1, err2; DWORD valueType = 0; DWORD valueDataSize = 0; PTSTR valueData = NULL; *SchemeNr = 0; *SchemeSize = 0; rootKey = OpenRegKeyStr (S_SCHEMELOCATION); if (rootKey) { index = 0; err = ERROR_SUCCESS; while (err == ERROR_SUCCESS) { err = RegEnumKey (rootKey, index, schemeNrStr, MAX_PATH + 1); if (err == ERROR_SUCCESS) { currScheme = _ttoi (schemeNrStr); if (currScheme > maxScheme) { maxScheme = currScheme; } subKeyStr = JoinPaths (schemeNrStr, TEXT("Sizes")); if (subKeyStr) { sizeKey = OpenRegKey (rootKey, subKeyStr); if (sizeKey) { index1 = 0; err1 = ERROR_SUCCESS; while (err1 == ERROR_SUCCESS) { err1 = RegEnumKey (sizeKey, index1, schemeSizeStr, MAX_PATH + 1); if (err1 == ERROR_SUCCESS) { currSizeKey = OpenRegKey (sizeKey, schemeSizeStr); if (currSizeKey) { err2 = RegQueryValueEx ( currSizeKey, TEXT("LegacyName"), NULL, &valueType, NULL, &valueDataSize ); if (((err2 == ERROR_SUCCESS) || (err2 == ERROR_MORE_DATA)) && ((valueType == REG_SZ) || (valueType == REG_EXPAND_SZ)) && valueDataSize ) { valueData = (PTSTR) IsmGetMemory (valueDataSize); err2 = RegQueryValueEx ( currSizeKey, TEXT("LegacyName"), NULL, &valueType, (PBYTE) valueData, &valueDataSize ); if ((err2 == ERROR_SUCCESS) && (StringIMatch (valueData, SchemeName)) ) { *SchemeNr = _ttoi (schemeNrStr); *SchemeSize = _ttoi (schemeSizeStr); IsmReleaseMemory (valueData); valueData = NULL; CloseRegKey (currSizeKey); currSizeKey = NULL; CloseRegKey (sizeKey); sizeKey = NULL; FreePathString (subKeyStr); subKeyStr = NULL; result = TRUE; break; } IsmReleaseMemory (valueData); valueData = NULL; } CloseRegKey (currSizeKey); currSizeKey = NULL; } } index1 ++; } if (result) { break; } CloseRegKey (sizeKey); sizeKey = NULL; } FreePathString (subKeyStr); subKeyStr = NULL; } index ++; } } CloseRegKey (rootKey); rootKey = NULL; } if (!result) { *SchemeNr = maxScheme + 1; } return result; } DWORD pConvertColor ( IN PCTSTR ColorStr ) { DWORD color = 0; PBYTE colorPtr; UINT index = 0; colorPtr = (PBYTE)&color; while (ColorStr && *ColorStr) { if (index >= 3) { return FALSE; } *colorPtr = (BYTE) _tcstoul ((PTSTR)ColorStr, &((PTSTR)ColorStr), 10); if (*ColorStr) { if (_tcsnextc (ColorStr) != ' ') { return FALSE; } ColorStr = _tcsinc (ColorStr); } colorPtr++; index++; } return color; } BOOL pBuildSchemeColor ( IN PCTSTR SchemeDest, IN PCTSTR SrcColorName, IN PCTSTR AltSrcColorName, IN PCTSTR AltSrcColorStr, IN PCTSTR DestColorName ) { MIG_OBJECTTYPEID srcTypeId; MIG_OBJECTSTRINGHANDLE srcName; MIG_CONTENT srcContent; MIG_OBJECTTYPEID destTypeId; MIG_OBJECTSTRINGHANDLE destName; MIG_CONTENT destContent; DWORD color; DWORD valueType; BOOL needExtraColor = FALSE; PCTSTR extraColorStr = NULL; srcTypeId = MIG_REGISTRY_TYPE | PLATFORM_SOURCE; destTypeId = MIG_REGISTRY_TYPE | PLATFORM_DESTINATION; ZeroMemory (&destContent, sizeof (MIG_CONTENT)); destContent.ObjectTypeId = destTypeId; destContent.ContentInFile = FALSE; destContent.Details.DetailsSize = sizeof (DWORD); destContent.Details.DetailsData = &valueType; valueType = REG_DWORD; destContent.MemoryContent.ContentSize = sizeof (DWORD); destContent.MemoryContent.ContentBytes = (PBYTE) (&color); srcName = IsmCreateObjectHandle (S_SCHEMECOLORS, SrcColorName); if (IsmAcquireObject (srcTypeId, srcName, &srcContent)) { if (IsValidRegSz(&srcContent)) { color = pConvertColor ((PCTSTR) srcContent.MemoryContent.ContentBytes); destName = IsmCreateObjectHandle (SchemeDest, DestColorName); IsmReplacePhysicalObject (destTypeId, destName, &destContent); IsmDestroyObjectHandle (destName); destName = NULL; } IsmReleaseObject (&srcContent); } else if (AltSrcColorName) { IsmDestroyObjectHandle (srcName); srcName = NULL; srcName = IsmCreateObjectHandle (S_SCHEMECOLORS, AltSrcColorName); if (IsmAcquireObject (srcTypeId, srcName, &srcContent)) { if (IsValidRegSz(&srcContent)) { color = pConvertColor ((PCTSTR) srcContent.MemoryContent.ContentBytes); destName = IsmCreateObjectHandle (SchemeDest, DestColorName); IsmReplacePhysicalObject (destTypeId, destName, &destContent); IsmDestroyObjectHandle (destName); destName = NULL; needExtraColor = TRUE; extraColorStr = DuplicatePathString ((PCTSTR) srcContent.MemoryContent.ContentBytes, 0); } IsmReleaseObject (&srcContent); } } else if (AltSrcColorStr) { color = pConvertColor (AltSrcColorStr); destName = IsmCreateObjectHandle (SchemeDest, DestColorName); IsmReplacePhysicalObject (destTypeId, destName, &destContent); IsmDestroyObjectHandle (destName); destName = NULL; needExtraColor = TRUE; extraColorStr = DuplicatePathString (AltSrcColorStr, 0); } IsmDestroyObjectHandle (srcName); srcName = NULL; if (needExtraColor) { if (extraColorStr) { valueType = REG_SZ; destContent.MemoryContent.ContentSize = SizeOfString (extraColorStr); destContent.MemoryContent.ContentBytes = (PBYTE) extraColorStr; destName = IsmCreateObjectHandle (S_SCHEMECOLORS, SrcColorName); IsmReplacePhysicalObject (destTypeId, destName, &destContent); IsmDestroyObjectHandle (destName); destName = NULL; FreePathString (extraColorStr); extraColorStr = NULL; } } return TRUE; } LONGLONG pConvertSize ( IN PCTSTR SizeStr ) { INT size = 0; size = _tcstoul ((PTSTR)SizeStr, &((PTSTR)SizeStr), 10); size = -(size); size /= 15; return size; } BOOL pBuildSchemeSize ( IN PCTSTR SchemeDest, IN PCTSTR SrcSizeName, IN PCTSTR DestSizeName ) { MIG_OBJECTTYPEID srcTypeId; MIG_OBJECTSTRINGHANDLE srcName; MIG_CONTENT srcContent; MIG_OBJECTTYPEID destTypeId; MIG_OBJECTSTRINGHANDLE destName; MIG_CONTENT destContent; LONGLONG size; DWORD valueType; srcTypeId = MIG_REGISTRY_TYPE | PLATFORM_SOURCE; destTypeId = MIG_REGISTRY_TYPE | PLATFORM_DESTINATION; ZeroMemory (&destContent, sizeof (MIG_CONTENT)); destContent.ObjectTypeId = destTypeId; destContent.ContentInFile = FALSE; destContent.Details.DetailsSize = sizeof (DWORD); destContent.Details.DetailsData = &valueType; valueType = REG_QWORD; destContent.MemoryContent.ContentSize = sizeof (LONGLONG); destContent.MemoryContent.ContentBytes = (PBYTE) (&size); srcName = IsmCreateObjectHandle (S_SCHEMEMETRICS, SrcSizeName); if (IsmAcquireObject (srcTypeId, srcName, &srcContent)) { if (IsValidRegSz(&srcContent)) { size = pConvertSize ((PCTSTR) srcContent.MemoryContent.ContentBytes); destName = IsmCreateObjectHandle (SchemeDest, DestSizeName); IsmReplacePhysicalObject (destTypeId, destName, &destContent); IsmDestroyObjectHandle (destName); destName = NULL; } IsmReleaseObject (&srcContent); } IsmDestroyObjectHandle (srcName); srcName = NULL; return TRUE; } BOOL pBuildSchemeFont ( IN PCTSTR SchemeDest, IN PCTSTR SrcSizeName, IN PCTSTR DestSizeName ) { MIG_OBJECTTYPEID srcTypeId; MIG_OBJECTSTRINGHANDLE srcName; MIG_CONTENT srcContent; MIG_OBJECTTYPEID destTypeId; MIG_OBJECTSTRINGHANDLE destName; MIG_CONTENT destContent; LOGFONTW destFont; DWORD valueType; srcTypeId = MIG_REGISTRY_TYPE | PLATFORM_SOURCE; destTypeId = MIG_REGISTRY_TYPE | PLATFORM_DESTINATION; ZeroMemory (&destContent, sizeof (MIG_CONTENT)); destContent.ObjectTypeId = destTypeId; destContent.ContentInFile = FALSE; destContent.Details.DetailsSize = sizeof (DWORD); destContent.Details.DetailsData = &valueType; ZeroMemory (&destFont, sizeof (LOGFONTW)); valueType = REG_BINARY; destContent.MemoryContent.ContentSize = sizeof (LOGFONTW); destContent.MemoryContent.ContentBytes = (PBYTE) (&destFont); srcName = IsmCreateObjectHandle (S_SCHEMEMETRICS, SrcSizeName); if (IsmAcquireObject (srcTypeId, srcName, &srcContent)) { if (IsValidRegType (&srcContent, REG_BINARY)) { if (srcContent.MemoryContent.ContentSize == sizeof (SHORT_LOGFONT)) { pConvertShortLogFontWorker (&destFont, (PSHORT_LOGFONT) srcContent.MemoryContent.ContentBytes); } else if (srcContent.MemoryContent.ContentSize == sizeof (LOGFONTA)) { pConvertLogFontWorker (&destFont, (PLOGFONTA) srcContent.MemoryContent.ContentBytes); } else { CopyMemory (&destFont, srcContent.MemoryContent.ContentBytes, sizeof (LOGFONTW)); } destName = IsmCreateObjectHandle (SchemeDest, DestSizeName); IsmReplacePhysicalObject (destTypeId, destName, &destContent); IsmDestroyObjectHandle (destName); destName = NULL; } IsmReleaseObject (&srcContent); } IsmDestroyObjectHandle (srcName); srcName = NULL; return TRUE; } BOOL pBuildTempScheme ( IN PCTSTR SchemeDest ) { MIG_OBJECTTYPEID srcTypeId; MIG_OBJECTSTRINGHANDLE srcName; MIG_CONTENT srcContent; MIG_OBJECTTYPEID destTypeId; MIG_OBJECTSTRINGHANDLE destName; MIG_CONTENT destContent; DWORD value; DWORD valueType; srcTypeId = MIG_REGISTRY_TYPE | PLATFORM_SOURCE; destTypeId = MIG_REGISTRY_TYPE | PLATFORM_DESTINATION; ZeroMemory (&destContent, sizeof (MIG_CONTENT)); destContent.ObjectTypeId = destTypeId; destContent.ContentInFile = FALSE; destContent.Details.DetailsSize = sizeof (DWORD); destContent.Details.DetailsData = &valueType; // first we build the Color # values pBuildSchemeColor (SchemeDest, TEXT("Scrollbar"), NULL, NULL, TEXT("Color #0")); pBuildSchemeColor (SchemeDest, TEXT("Background"), NULL, NULL, TEXT("Color #1")); pBuildSchemeColor (SchemeDest, TEXT("ActiveTitle"), NULL, NULL, TEXT("Color #2")); pBuildSchemeColor (SchemeDest, TEXT("InactiveTitle"), NULL, NULL, TEXT("Color #3")); pBuildSchemeColor (SchemeDest, TEXT("Menu"), NULL, NULL, TEXT("Color #4")); pBuildSchemeColor (SchemeDest, TEXT("Window"), NULL, NULL, TEXT("Color #5")); pBuildSchemeColor (SchemeDest, TEXT("WindowFrame"), NULL, NULL, TEXT("Color #6")); pBuildSchemeColor (SchemeDest, TEXT("MenuText"), NULL, NULL, TEXT("Color #7")); pBuildSchemeColor (SchemeDest, TEXT("WindowText"), NULL, NULL, TEXT("Color #8")); pBuildSchemeColor (SchemeDest, TEXT("TitleText"), NULL, NULL, TEXT("Color #9")); pBuildSchemeColor (SchemeDest, TEXT("ActiveBorder"), NULL, NULL, TEXT("Color #10")); pBuildSchemeColor (SchemeDest, TEXT("InactiveBorder"), NULL, NULL, TEXT("Color #11")); pBuildSchemeColor (SchemeDest, TEXT("AppWorkSpace"), NULL, NULL, TEXT("Color #12")); pBuildSchemeColor (SchemeDest, TEXT("Hilight"), NULL, NULL, TEXT("Color #13")); pBuildSchemeColor (SchemeDest, TEXT("HilightText"), NULL, NULL, TEXT("Color #14")); pBuildSchemeColor (SchemeDest, TEXT("ButtonFace"), NULL, NULL, TEXT("Color #15")); pBuildSchemeColor (SchemeDest, TEXT("ButtonShadow"), NULL, NULL, TEXT("Color #16")); pBuildSchemeColor (SchemeDest, TEXT("GrayText"), NULL, NULL, TEXT("Color #17")); pBuildSchemeColor (SchemeDest, TEXT("ButtonText"), NULL, NULL, TEXT("Color #18")); pBuildSchemeColor (SchemeDest, TEXT("InactiveTitleText"), NULL, NULL, TEXT("Color #19")); pBuildSchemeColor (SchemeDest, TEXT("ButtonHilight"), NULL, NULL, TEXT("Color #20")); pBuildSchemeColor (SchemeDest, TEXT("ButtonDkShadow"), NULL, NULL, TEXT("Color #21")); pBuildSchemeColor (SchemeDest, TEXT("ButtonLight"), NULL, NULL, TEXT("Color #22")); pBuildSchemeColor (SchemeDest, TEXT("InfoText"), NULL, NULL, TEXT("Color #23")); pBuildSchemeColor (SchemeDest, TEXT("InfoWindow"), NULL, NULL, TEXT("Color #24")); pBuildSchemeColor (SchemeDest, TEXT("ButtonAlternateFace"), NULL, TEXT("180 180 180"), TEXT("Color #25")); pBuildSchemeColor (SchemeDest, TEXT("HotTrackingColor"), NULL, TEXT("0 0 255"), TEXT("Color #26")); pBuildSchemeColor (SchemeDest, TEXT("GradientActiveTitle"), NULL, TEXT("16 132 208"), TEXT("Color #27")); pBuildSchemeColor (SchemeDest, TEXT("GradientInactiveTitle"), NULL, TEXT("181 181 181"), TEXT("Color #28")); pBuildSchemeColor (SchemeDest, TEXT("MenuHilight"), TEXT("Hilight"), NULL, TEXT("Color #29")); pBuildSchemeColor (SchemeDest, TEXT("MenuBar"), TEXT("Menu"), NULL, TEXT("Color #30")); // now we build the Size # values pBuildSchemeSize (SchemeDest, TEXT("BorderWidth"), TEXT("Size #0")); pBuildSchemeSize (SchemeDest, TEXT("ScrollWidth"), TEXT("Size #1")); pBuildSchemeSize (SchemeDest, TEXT("ScrollHeight"), TEXT("Size #2")); pBuildSchemeSize (SchemeDest, TEXT("CaptionWidth"), TEXT("Size #3")); pBuildSchemeSize (SchemeDest, TEXT("CaptionHeight"), TEXT("Size #4")); pBuildSchemeSize (SchemeDest, TEXT("SmCaptionWidth"), TEXT("Size #5")); pBuildSchemeSize (SchemeDest, TEXT("SmCaptionHeight"), TEXT("Size #6")); pBuildSchemeSize (SchemeDest, TEXT("MenuWidth"), TEXT("Size #7")); pBuildSchemeSize (SchemeDest, TEXT("MenuHeight"), TEXT("Size #8")); // finally build the Font # values pBuildSchemeFont (SchemeDest, TEXT("CaptionFont"), TEXT("Font #0")); pBuildSchemeFont (SchemeDest, TEXT("SmCaptionFont"), TEXT("Font #1")); pBuildSchemeFont (SchemeDest, TEXT("MenuFont"), TEXT("Font #2")); pBuildSchemeFont (SchemeDest, TEXT("IconFont"), TEXT("Font #3")); pBuildSchemeFont (SchemeDest, TEXT("StatusFont"), TEXT("Font #4")); pBuildSchemeFont (SchemeDest, TEXT("MessageFont"), TEXT("Font #5")); value = 0; valueType = REG_DWORD; destContent.MemoryContent.ContentSize = sizeof (DWORD); destContent.MemoryContent.ContentBytes = (PBYTE) (&value); destName = IsmCreateObjectHandle (SchemeDest, TEXT("Contrast")); IsmReplacePhysicalObject (destTypeId, destName, &destContent); IsmDestroyObjectHandle (destName); destName = NULL; destName = IsmCreateObjectHandle (SchemeDest, TEXT("Flat Menus")); IsmReplacePhysicalObject (destTypeId, destName, &destContent); IsmDestroyObjectHandle (destName); destName = NULL; return TRUE; } BOOL pUpdateSchemeData ( IN PCTSTR SchemeName, IN UINT SchemeNr, IN UINT SchemeSize ) { static BOOL firstTime = TRUE; BOOL current = FALSE; MIG_OBJECTTYPEID objectTypeId; MIG_OBJECTSTRINGHANDLE objectName; MIG_CONTENT objectContent; TCHAR schemeNrStr [20]; TCHAR schemeSizeStr [20]; PCTSTR keyStr = NULL; DWORD valueType = REG_SZ; BOOL noCurrent = FALSE; // first let's see if this is the current scheme objectTypeId = MIG_REGISTRY_TYPE | PLATFORM_SOURCE; objectName = IsmCreateObjectHandle (S_SCHEMECURRENT, TEXT("Current")); if (IsmAcquireObject (objectTypeId, objectName, &objectContent)) { current = ((IsValidRegSz(&objectContent)) && (StringIMatch (SchemeName, (PCTSTR) objectContent.MemoryContent.ContentBytes)) ); noCurrent = ((IsValidRegSz(&objectContent)) && (StringIMatch (TEXT(""), (PCTSTR) objectContent.MemoryContent.ContentBytes)) ); IsmReleaseObject (&objectContent); } else { noCurrent = TRUE; } IsmDestroyObjectHandle (objectName); objectName = NULL; if (noCurrent) { // we did not have a current scheme, so we had only a temporary scheme // First time when we encounter this we will attempt to fix it. if (firstTime) { // we will build HKR\Control Panel\Appearance\New Schemes\Current Settings SaveAll and // HKR\Control Panel\Appearance\New Schemes\Current Settings SaveNoVisualStyle from // HKR\Control Panel\Colors and HKR\Control Panel\Desktop\WindowMetrics // We need to be carefull since we are reading source machine information and we need to // convert it (especially font blobs). pBuildTempScheme (S_SCHEMELOCATIONT1); pBuildTempScheme (S_SCHEMELOCATIONT2); firstTime = FALSE; } } if (!current) { return TRUE; } objectTypeId = MIG_REGISTRY_TYPE | PLATFORM_DESTINATION; ZeroMemory (&objectContent, sizeof (MIG_CONTENT)); objectContent.ObjectTypeId = objectTypeId; objectContent.ContentInFile = FALSE; objectContent.MemoryContent.ContentSize = SizeOfString (SchemeName); objectContent.MemoryContent.ContentBytes = (PBYTE) SchemeName; objectContent.Details.DetailsSize = sizeof (DWORD); objectContent.Details.DetailsData = &valueType; objectName = IsmCreateObjectHandle (S_SCHEMECURRENT, TEXT("Current")); IsmReplacePhysicalObject (objectTypeId, objectName, &objectContent); IsmDestroyObjectHandle (objectName); objectName = NULL; objectName = IsmCreateObjectHandle (S_SCHEMECURRENT, TEXT("NewCurrent")); IsmReplacePhysicalObject (objectTypeId, objectName, &objectContent); IsmDestroyObjectHandle (objectName); objectName = NULL; _ultot (SchemeNr, schemeNrStr, 10); objectContent.MemoryContent.ContentSize = SizeOfString (schemeNrStr); objectContent.MemoryContent.ContentBytes = (PBYTE) schemeNrStr; objectName = IsmCreateObjectHandle (S_SCHEMELOCATION, TEXT("SelectedStyle")); IsmReplacePhysicalObject (objectTypeId, objectName, &objectContent); IsmDestroyObjectHandle (objectName); objectName = NULL; keyStr = JoinPaths (S_SCHEMELOCATION, schemeNrStr); _ultot (SchemeSize, schemeSizeStr, 10); objectContent.MemoryContent.ContentSize = SizeOfString (schemeSizeStr); objectContent.MemoryContent.ContentBytes = (PBYTE) schemeSizeStr; objectName = IsmCreateObjectHandle (keyStr, TEXT("SelectedSize")); IsmReplacePhysicalObject (objectTypeId, objectName, &objectContent); IsmDestroyObjectHandle (objectName); objectName = NULL; FreePathString (keyStr); keyStr = NULL; // finally we need to copy the current scheme into // HKR\Control Panel\Appearance\New Schemes\Current Settings SaveAll and // HKR\Control Panel\Appearance\New Schemes\Current Settings SaveNoVisualStyle pBuildTempScheme (S_SCHEMELOCATIONT1); pBuildTempScheme (S_SCHEMELOCATIONT2); return TRUE; } BOOL pCreateWhistlerScheme ( IN PCTSTR SchemeName, IN PSCHEMEDATA_NT SchemeData, IN UINT SchemeNr ) { MIG_OBJECTTYPEID objectTypeId; MIG_OBJECTSTRINGHANDLE objectName; MIG_CONTENT objectContent; DWORD valueType = 0; TCHAR schemeNrStr [20]; TCHAR valueName [20]; TCHAR normalStr [] = TEXT("Normal"); PCTSTR keyStr = NULL; DWORD value = 0; DWORD index = 0; ULONGLONG qvalue = 0; objectTypeId = MIG_REGISTRY_TYPE | PLATFORM_DESTINATION; ZeroMemory (&objectContent, sizeof (MIG_CONTENT)); objectContent.ObjectTypeId = objectTypeId; objectContent.ContentInFile = FALSE; objectContent.Details.DetailsSize = sizeof (DWORD); objectContent.Details.DetailsData = &valueType; _ultot (SchemeNr, schemeNrStr, 10); keyStr = JoinPathsInPoolEx ((NULL, S_SCHEMELOCATION, schemeNrStr, NULL)); valueType = REG_SZ; objectContent.MemoryContent.ContentSize = SizeOfString (SchemeName); objectContent.MemoryContent.ContentBytes = (PBYTE) SchemeName; objectName = IsmCreateObjectHandle (keyStr, TEXT("DisplayName")); IsmReplacePhysicalObject (objectTypeId, objectName, &objectContent); IsmDestroyObjectHandle (objectName); FreePathString (keyStr); keyStr = NULL; keyStr = JoinPathsInPoolEx ((NULL, S_SCHEMELOCATION, schemeNrStr, TEXT("Sizes\\0"), NULL)); valueType = REG_SZ; objectContent.MemoryContent.ContentSize = SizeOfString (normalStr); objectContent.MemoryContent.ContentBytes = (PBYTE) normalStr; objectName = IsmCreateObjectHandle (keyStr, TEXT("DisplayName")); IsmReplacePhysicalObject (objectTypeId, objectName, &objectContent); IsmDestroyObjectHandle (objectName); objectName = NULL; objectContent.MemoryContent.ContentSize = SizeOfString (SchemeName); objectContent.MemoryContent.ContentBytes = (PBYTE) SchemeName; objectName = IsmCreateObjectHandle (keyStr, TEXT("LegacyName")); IsmReplacePhysicalObject (objectTypeId, objectName, &objectContent); IsmDestroyObjectHandle (objectName); objectName = NULL; value = 0; valueType = REG_DWORD; objectContent.MemoryContent.ContentSize = sizeof (DWORD); objectContent.MemoryContent.ContentBytes = (PBYTE) (&value); objectName = IsmCreateObjectHandle (keyStr, TEXT("Contrast")); IsmReplacePhysicalObject (objectTypeId, objectName, &objectContent); IsmDestroyObjectHandle (objectName); objectName = NULL; objectName = IsmCreateObjectHandle (keyStr, TEXT("Flat Menus")); IsmReplacePhysicalObject (objectTypeId, objectName, &objectContent); IsmDestroyObjectHandle (objectName); objectName = NULL; // write Color # values objectContent.MemoryContent.ContentSize = sizeof (DWORD); objectContent.MemoryContent.ContentBytes = (PBYTE) (&value); for (index = 0; index < COLOR_MAX_NT; index ++) { value = SchemeData->rgb [index]; wsprintf (valueName, TEXT("Color #%u"), index); objectName = IsmCreateObjectHandle (keyStr, valueName); IsmReplacePhysicalObject (objectTypeId, objectName, &objectContent); IsmDestroyObjectHandle (objectName); objectName = NULL; } value = SchemeData->rgb [COLOR_HIGHLIGHT]; wsprintf (valueName, TEXT("Color #%u"), COLOR_MENUHILIGHT); objectName = IsmCreateObjectHandle (keyStr, valueName); IsmReplacePhysicalObject (objectTypeId, objectName, &objectContent); IsmDestroyObjectHandle (objectName); objectName = NULL; value = SchemeData->rgb [COLOR_MENU]; wsprintf (valueName, TEXT("Color #%u"), COLOR_MAX_NT + 1); objectName = IsmCreateObjectHandle (keyStr, valueName); IsmReplacePhysicalObject (objectTypeId, objectName, &objectContent); IsmDestroyObjectHandle (objectName); objectName = NULL; // now, let's write the sizes valueType = REG_QWORD; objectContent.MemoryContent.ContentSize = sizeof (ULONGLONG); objectContent.MemoryContent.ContentBytes = (PBYTE) (&qvalue); qvalue = SchemeData->ncm.iBorderWidth; objectName = IsmCreateObjectHandle (keyStr, TEXT("Size #0")); IsmReplacePhysicalObject (objectTypeId, objectName, &objectContent); IsmDestroyObjectHandle (objectName); objectName = NULL; qvalue = SchemeData->ncm.iScrollWidth; objectName = IsmCreateObjectHandle (keyStr, TEXT("Size #1")); IsmReplacePhysicalObject (objectTypeId, objectName, &objectContent); IsmDestroyObjectHandle (objectName); objectName = NULL; qvalue = SchemeData->ncm.iScrollHeight; objectName = IsmCreateObjectHandle (keyStr, TEXT("Size #2")); IsmReplacePhysicalObject (objectTypeId, objectName, &objectContent); IsmDestroyObjectHandle (objectName); objectName = NULL; qvalue = SchemeData->ncm.iCaptionWidth; objectName = IsmCreateObjectHandle (keyStr, TEXT("Size #3")); IsmReplacePhysicalObject (objectTypeId, objectName, &objectContent); IsmDestroyObjectHandle (objectName); objectName = NULL; qvalue = SchemeData->ncm.iCaptionHeight; objectName = IsmCreateObjectHandle (keyStr, TEXT("Size #4")); IsmReplacePhysicalObject (objectTypeId, objectName, &objectContent); IsmDestroyObjectHandle (objectName); objectName = NULL; qvalue = SchemeData->ncm.iSmCaptionWidth; objectName = IsmCreateObjectHandle (keyStr, TEXT("Size #5")); IsmReplacePhysicalObject (objectTypeId, objectName, &objectContent); IsmDestroyObjectHandle (objectName); objectName = NULL; qvalue = SchemeData->ncm.iSmCaptionHeight; objectName = IsmCreateObjectHandle (keyStr, TEXT("Size #6")); IsmReplacePhysicalObject (objectTypeId, objectName, &objectContent); IsmDestroyObjectHandle (objectName); objectName = NULL; qvalue = SchemeData->ncm.iMenuWidth; objectName = IsmCreateObjectHandle (keyStr, TEXT("Size #7")); IsmReplacePhysicalObject (objectTypeId, objectName, &objectContent); IsmDestroyObjectHandle (objectName); objectName = NULL; qvalue = SchemeData->ncm.iMenuHeight; objectName = IsmCreateObjectHandle (keyStr, TEXT("Size #8")); IsmReplacePhysicalObject (objectTypeId, objectName, &objectContent); IsmDestroyObjectHandle (objectName); objectName = NULL; // finally, let's write the fonts valueType = REG_BINARY; objectContent.MemoryContent.ContentSize = sizeof (LOGFONTW); objectContent.MemoryContent.ContentBytes = (PBYTE) (&SchemeData->ncm.lfCaptionFont); objectName = IsmCreateObjectHandle (keyStr, TEXT("Font #0")); IsmReplacePhysicalObject (objectTypeId, objectName, &objectContent); IsmDestroyObjectHandle (objectName); objectName = NULL; objectContent.MemoryContent.ContentBytes = (PBYTE) (&SchemeData->ncm.lfSmCaptionFont); objectName = IsmCreateObjectHandle (keyStr, TEXT("Font #1")); IsmReplacePhysicalObject (objectTypeId, objectName, &objectContent); IsmDestroyObjectHandle (objectName); objectName = NULL; objectContent.MemoryContent.ContentBytes = (PBYTE) (&SchemeData->ncm.lfMenuFont); objectName = IsmCreateObjectHandle (keyStr, TEXT("Font #2")); IsmReplacePhysicalObject (objectTypeId, objectName, &objectContent); IsmDestroyObjectHandle (objectName); objectName = NULL; objectContent.MemoryContent.ContentBytes = (PBYTE) (&SchemeData->lfIconTitle); objectName = IsmCreateObjectHandle (keyStr, TEXT("Font #3")); IsmReplacePhysicalObject (objectTypeId, objectName, &objectContent); IsmDestroyObjectHandle (objectName); objectName = NULL; objectContent.MemoryContent.ContentBytes = (PBYTE) (&SchemeData->ncm.lfStatusFont); objectName = IsmCreateObjectHandle (keyStr, TEXT("Font #4")); IsmReplacePhysicalObject (objectTypeId, objectName, &objectContent); IsmDestroyObjectHandle (objectName); objectName = NULL; objectContent.MemoryContent.ContentBytes = (PBYTE) (&SchemeData->ncm.lfMessageFont); objectName = IsmCreateObjectHandle (keyStr, TEXT("Font #5")); IsmReplacePhysicalObject (objectTypeId, objectName, &objectContent); IsmDestroyObjectHandle (objectName); objectName = NULL; FreePathString (keyStr); keyStr = NULL; return TRUE; } BOOL pDoesNewSchemeKeyExist ( VOID ) { BOOL result = FALSE; HKEY rootKey = NULL; rootKey = OpenRegKeyStr (S_SCHEMELOCATION); result = rootKey != NULL; if (rootKey) { CloseRegKey (rootKey); } return result; } BOOL WINAPI pConvertAppearanceSchemeCallback ( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { BOOL converted = FALSE; UINT convertedSize = 0; PBYTE result = NULL; PDWORD valueType; SCHEMEDATA_NT sd_nt; PSCHEMEDATA_V1 psd_v1; PSCHEMEDATA_V2 psd_v2; PSCHEMEDATA_V3 psd_v3; PSCHEMEDATA_V4 psd_v4; PSCHEMEDATA_V1A psd_v1a; BOOL Copy3dValues = FALSE; PCTSTR node = NULL, leaf = NULL; UINT schemeNr = 0; UINT schemeSize = 0; // // Filter the data for any references to %windir% // ZeroMemory (&sd_nt, sizeof (SCHEMEDATA_NT)); if (!CurrentContent->ContentInFile) { MYASSERT (CurrentContent->Details.DetailsSize == sizeof (DWORD)); valueType = (PDWORD)(CurrentContent->Details.DetailsData); if (*valueType == REG_BINARY) { if (CurrentContent->MemoryContent.ContentSize == sizeof (SCHEMEDATA_V1) || CurrentContent->MemoryContent.ContentSize == sizeof (SCHEMEDATA_V2) || CurrentContent->MemoryContent.ContentSize == sizeof (SCHEMEDATA_V3) || CurrentContent->MemoryContent.ContentSize == sizeof (SCHEMEDATA_V4) || CurrentContent->MemoryContent.ContentSize == sizeof (SCHEMEDATA_V1A) ) { psd_v1 = (PSCHEMEDATA_V1)CurrentContent->MemoryContent.ContentBytes; if (psd_v1->version == 1 || psd_v1->version == 2 || psd_v1->version == 3 || psd_v1->version == 4 ) { // // this is a valid scheme and it has a supported version // // // Convert the structure // if (psd_v1->version == 1) { sd_nt.version = 2; pConvertNonClientMetrics (&sd_nt.ncm, &psd_v1->ncm); pConvertShortLogFontWorker (&sd_nt.lfIconTitle, &psd_v1->lfIconTitle); ZeroMemory (sd_nt.rgb, sizeof (sd_nt.rgb)); CopyMemory ( &sd_nt.rgb, &psd_v1->rgb, min (sizeof (psd_v1->rgb), sizeof (sd_nt.rgb)) ); Copy3dValues = TRUE; } else if (psd_v1->version == 3 && CurrentContent->MemoryContent.ContentSize == sizeof (SCHEMEDATA_V1A)) { psd_v1a = (PSCHEMEDATA_V1A) psd_v1; sd_nt.version = 2; pConvertNonClientMetrics (&sd_nt.ncm, &psd_v1a->ncm); pConvertShortLogFontWorker (&sd_nt.lfIconTitle, &psd_v1a->lfIconTitle); ZeroMemory (sd_nt.rgb, sizeof (sd_nt.rgb)); CopyMemory ( &sd_nt.rgb, &psd_v1a->rgb, min (sizeof (psd_v1a->rgb), sizeof (sd_nt.rgb)) ); Copy3dValues = TRUE; } else if (psd_v1->version == 2 && CurrentContent->MemoryContent.ContentSize == sizeof (SCHEMEDATA_V2)) { psd_v2 = (PSCHEMEDATA_V2) psd_v1; sd_nt.version = 2; pCopyNonClientMetrics (&sd_nt.ncm, &psd_v2->ncm); pCopyLogFontWorker (&sd_nt.lfIconTitle, &psd_v2->lfIconTitle); ZeroMemory (sd_nt.rgb, sizeof (sd_nt.rgb)); CopyMemory ( &sd_nt.rgb, &psd_v2->rgb, min (sizeof (psd_v2->rgb), sizeof (sd_nt.rgb)) ); Copy3dValues = TRUE; } else if (psd_v1->version == 3 && CurrentContent->MemoryContent.ContentSize == sizeof (SCHEMEDATA_V3)) { psd_v3 = (PSCHEMEDATA_V3) psd_v1; sd_nt.version = 2; pConvertNonClientMetrics (&sd_nt.ncm, &psd_v3->ncm); pConvertLogFontWorker (&sd_nt.lfIconTitle, &psd_v3->lfIconTitle); ZeroMemory (sd_nt.rgb, sizeof (sd_nt.rgb)); CopyMemory ( &sd_nt.rgb, &psd_v3->rgb, min (sizeof (psd_v3->rgb), sizeof (sd_nt.rgb)) ); Copy3dValues = TRUE; } else if (psd_v1->version == 4) { psd_v4 = (PSCHEMEDATA_V4) psd_v1; sd_nt.version = 2; pConvertNonClientMetrics (&sd_nt.ncm, &psd_v4->ncm); pConvertLogFontWorker (&sd_nt.lfIconTitle, &psd_v4->lfIconTitle); ZeroMemory (sd_nt.rgb, sizeof (sd_nt.rgb)); CopyMemory ( &sd_nt.rgb, &psd_v4->rgb, min (sizeof (psd_v4->rgb), sizeof (sd_nt.rgb)) ); } if (Copy3dValues) { // // Make sure the NT structure has values for 3D colors // sd_nt.rgb[COLOR_BUTTONALTFACE] = sd_nt.rgb[COLOR_BTNFACE]; sd_nt.rgb[COLOR_HOTLIGHT] = sd_nt.rgb[COLOR_ACTIVECAPTION]; sd_nt.rgb[COLOR_GRADIENTACTIVECAPTION] = sd_nt.rgb[COLOR_ACTIVECAPTION]; sd_nt.rgb[COLOR_GRADIENTINACTIVECAPTION] = sd_nt.rgb[COLOR_INACTIVECAPTION]; } converted = TRUE; convertedSize = sizeof (sd_nt); result = IsmGetMemory (convertedSize); CopyMemory (result, &sd_nt, convertedSize); } } } if (converted && convertedSize && result) { NewContent->MemoryContent.ContentSize = convertedSize; NewContent->MemoryContent.ContentBytes = result; } if ((*valueType == REG_BINARY) && (converted || (CurrentContent->MemoryContent.ContentSize == sizeof (SCHEMEDATA_NT))) && (pDoesNewSchemeKeyExist ()) ) { // now we need to do some extra work // Each scheme must be converted to the new Whistler format // First we look to see if the scheme that we just processed exists in new Whistler format // For this we enumerate the HKR\Control Panel\Appearance\New Schemes // and try to find the valuename "Legacy Name" that matches the value name of this scheme // If we find it, we only update HKR\Control Panel\Appearance [Current], // HKR\Control Panel\Appearance [NewCurrent], HKR\Control Panel\Appearance\New Schemes [SelectedStyle] // and HKR\Control Panel\Appearance\New Schemes\ [SelectedSize]. // If not, we create a new Whistler scheme and update the above 4 value names. if (IsmCreateObjectStringsFromHandle (SrcObjectName, &node, &leaf)) { if (leaf) { if (pFindWhistlerScheme (leaf, &schemeNr, &schemeSize)) { pUpdateSchemeData (leaf, schemeNr, schemeSize); } else { if (pCreateWhistlerScheme ( leaf, converted? (PSCHEMEDATA_NT)NewContent->MemoryContent.ContentBytes: (PSCHEMEDATA_NT)CurrentContent->MemoryContent.ContentBytes, schemeNr )) { pUpdateSchemeData (leaf, schemeNr, 0); } } } IsmDestroyObjectString (node); IsmDestroyObjectString (leaf); } } } return TRUE; } BOOL WINAPI pAntiAliasCallback ( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { DWORD value = 0; BOOL converted = FALSE; PTSTR result = NULL; UINT convertedSize = 0; PDWORD valueType; // // Filter the data for any references to %windir% // if (!CurrentContent->ContentInFile) { MYASSERT (CurrentContent->Details.DetailsSize == sizeof (DWORD)); valueType = (PDWORD)(CurrentContent->Details.DetailsData); if (*valueType == REG_SZ) { if (CurrentContent->MemoryContent.ContentSize > 0) { value = _tcstoul ((PCTSTR)CurrentContent->MemoryContent.ContentBytes, NULL, 10); } if (value > 0) { converted = TRUE; convertedSize = 11 * sizeof (TCHAR); // DWORD takes no more than 11 characters result = IsmGetMemory (convertedSize); wsprintf (result, TEXT("%d"), FE_AA_ON); } } if (converted && convertedSize && result) { NewContent->MemoryContent.ContentSize = convertedSize; NewContent->MemoryContent.ContentBytes = (PCBYTE) result; } } return TRUE; } BOOL WINAPI pFixActiveDesktopCallback ( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { #define badBufferSize 16 #define goodBufferSize 28 const BYTE badBuffer[badBufferSize] = {0x10, 0x00, 0x00, 0x00, 0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00}; const BYTE goodBuffer[goodBufferSize] = {0x1C, 0x00, 0x00, 0x00, 0x20, 0x08, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x0A, 0x00, 0x00, 0x00}; BOOL converted = FALSE; PBYTE result = NULL; UINT convertedSize = 0; PDWORD valueType; // // Filter the data for any references to %windir% // if (!CurrentContent->ContentInFile) { MYASSERT (CurrentContent->Details.DetailsSize == sizeof (DWORD)); valueType = (PDWORD)(CurrentContent->Details.DetailsData); if (*valueType == REG_BINARY) { if (CurrentContent->MemoryContent.ContentSize == badBufferSize) { if (TestBuffer (CurrentContent->MemoryContent.ContentBytes, badBuffer, badBufferSize)) { converted = TRUE; convertedSize = goodBufferSize; result = IsmGetMemory (convertedSize); CopyMemory (result, goodBuffer, convertedSize); } } } if (converted && convertedSize && result) { NewContent->MemoryContent.ContentSize = convertedSize; NewContent->MemoryContent.ContentBytes = result; } } return TRUE; } BOOL WINAPI pConvertRecentDocsMRUCallback ( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { BOOL converted = FALSE; PBYTE result = NULL; UINT convertedSize = 0; PDWORD valueType; PCSTR str, structPtr; PCWSTR strW; UINT size, sizeW; // // Filter the data for any references to %windir% // if (!CurrentContent->ContentInFile) { MYASSERT (CurrentContent->Details.DetailsSize == sizeof (DWORD)); valueType = (PDWORD)(CurrentContent->Details.DetailsData); if ((*valueType == REG_BINARY) && (CurrentContent->MemoryContent.ContentSize)) { // The content of this is a NULL terminated string followed by some binary data. // We need to convert the string to unicode and add the existent // binary data str = (PCSTR)CurrentContent->MemoryContent.ContentBytes; __try { structPtr = GetEndOfStringA (str); structPtr = _mbsinc (structPtr); if (structPtr && (structPtr > str)) { size = CurrentContent->MemoryContent.ContentSize - (UINT)(structPtr - str); if (size == sizeof (WORD) + *((PWORD)structPtr)) { converted = TRUE; strW = ConvertAtoW (str); sizeW = SizeOfStringW (strW); convertedSize = sizeW + size; result = IsmGetMemory (convertedSize); CopyMemory (result, strW, sizeW); CopyMemory (result + sizeW, structPtr, size); FreeConvertedStr (strW); } } } __except (EXCEPTION_EXECUTE_HANDLER) { // the structure was not well formed converted = FALSE; if (result) { IsmReleaseMemory (result); } } } if (converted && convertedSize && result) { NewContent->MemoryContent.ContentSize = convertedSize; NewContent->MemoryContent.ContentBytes = result; } } return TRUE; } PCTSTR pFindNewScreenSaver ( IN PCTSTR OldScreenSaver ) { PTSTR multiSz = NULL; MULTISZ_ENUM e; UINT sizeNeeded; HINF infHandle = INVALID_HANDLE_VALUE; ENVENTRY_TYPE dataType; INFSTRUCT is = INITINFSTRUCT_PMHANDLE; PCTSTR newScrName; PCTSTR result = NULL; if (IsmGetEnvironmentValue ( IsmGetRealPlatform (), NULL, S_GLOBAL_INF_HANDLE, (PBYTE)(&infHandle), sizeof (HINF), &sizeNeeded, &dataType ) && (sizeNeeded == sizeof (HINF)) && (dataType == ENVENTRY_BINARY) ) { if (InfFindFirstLine (infHandle, TEXT("SCR Rename"), OldScreenSaver, &is)) { newScrName = InfGetStringField (&is, 1); if (newScrName) { result = DuplicatePathString (newScrName, 0); } } InfNameHandle (infHandle, NULL, FALSE); } else { if (!IsmGetEnvironmentValue (IsmGetRealPlatform (), NULL, S_INF_FILE_MULTISZ, NULL, 0, &sizeNeeded, NULL)) { result = DuplicatePathString (OldScreenSaver, 0); return result; } __try { multiSz = AllocText (sizeNeeded); if (!IsmGetEnvironmentValue (IsmGetRealPlatform (), NULL, S_INF_FILE_MULTISZ, (PBYTE) multiSz, sizeNeeded, NULL, NULL)) { __leave; } if (EnumFirstMultiSz (&e, multiSz)) { do { infHandle = InfOpenInfFile (e.CurrentString); if (infHandle != INVALID_HANDLE_VALUE) { if (InfFindFirstLine (infHandle, TEXT("SCR Rename"), OldScreenSaver, &is)) { newScrName = InfGetStringField (&is, 1); if (newScrName) { result = DuplicatePathString (newScrName, 0); InfCloseInfFile (infHandle); infHandle = INVALID_HANDLE_VALUE; __leave; } } } else { LOG ((LOG_ERROR, (PCSTR) MSG_CANT_OPEN_INF, e.CurrentString)); } InfCloseInfFile (infHandle); infHandle = INVALID_HANDLE_VALUE; } while (EnumNextMultiSz (&e)); } } __finally { FreeText (multiSz); } } InfResetInfStruct (&is); if (!result) { result = DuplicatePathString (OldScreenSaver, 0); } return result; } BOOL WINAPI pConvertScnSaver ( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { PDWORD valueType; PCTSTR exePath = NULL; PTSTR exeName = NULL; PCTSTR exeNativeName = NULL; PCTSTR newExeName = NULL; PCTSTR expExePath = NULL; MIG_OBJECTSTRINGHANDLE sourceObjectName = NULL; MIG_OBJECTSTRINGHANDLE destObjectName = NULL; MIG_CONTENT destContent; MIG_OBJECTTYPEID destObjectTypeId; BOOL deleted; BOOL replaced; BOOL migrateSrcReg = FALSE; if (!CurrentContent->ContentInFile) { MYASSERT (CurrentContent->Details.DetailsSize == sizeof (DWORD)); valueType = (PDWORD)(CurrentContent->Details.DetailsData); if (*valueType == REG_SZ) { // // Extract the source screen saver path from the reg value data // if (IsEmptyStr ((PCTSTR) CurrentContent->MemoryContent.ContentBytes)) { migrateSrcReg = TRUE; } else { // first we try to see if the source SCR exists on the destination // we have two steps : // 1. Filter the source and see if the destination exists // 2. Filter the source path, append the source file and see if the destination exists exePath = (PCTSTR) (CurrentContent->MemoryContent.ContentBytes); if (exePath) { expExePath = IsmExpandEnvironmentString (PLATFORM_SOURCE, S_SYSENVVAR_GROUP, exePath, NULL); exeName = (PTSTR) FindLastWack (expExePath?expExePath:exePath); } if (exeName) { *exeName++ = 0; sourceObjectName = IsmCreateObjectHandle (expExePath?expExePath:exePath, exeName); destObjectName = IsmFilterObject( MIG_FILE_TYPE | PLATFORM_SOURCE, sourceObjectName, &destObjectTypeId, &deleted, &replaced ); migrateSrcReg = !deleted || replaced; if (migrateSrcReg) { migrateSrcReg = FALSE; exeNativeName = IsmGetNativeObjectName (MIG_FILE_TYPE, destObjectName?destObjectName:sourceObjectName); if (exeNativeName) { NewContent->MemoryContent.ContentSize = SizeOfString (exeNativeName); NewContent->MemoryContent.ContentBytes = IsmGetMemory (NewContent->MemoryContent.ContentSize); StringCopy ((PTSTR)NewContent->MemoryContent.ContentBytes, exeNativeName); migrateSrcReg = TRUE; IsmReleaseMemory (exeNativeName); } if (sourceObjectName) { IsmDestroyObjectHandle (sourceObjectName); sourceObjectName = NULL; } if (destObjectName) { IsmDestroyObjectHandle (destObjectName); destObjectName = NULL; } } else { if (sourceObjectName) { IsmDestroyObjectHandle (sourceObjectName); sourceObjectName = NULL; } if (destObjectName) { IsmDestroyObjectHandle (destObjectName); destObjectName = NULL; } sourceObjectName = IsmCreateObjectHandle (expExePath?expExePath:exePath, NULL); destObjectName = IsmFilterObject( MIG_FILE_TYPE | PLATFORM_SOURCE, sourceObjectName, &destObjectTypeId, &deleted, &replaced ); migrateSrcReg = !deleted || replaced; if (migrateSrcReg) { migrateSrcReg = FALSE; // // get the equivalent SCR file from the INF // newExeName = pFindNewScreenSaver (exeName); if (newExeName) { exeNativeName = IsmGetNativeObjectName (MIG_FILE_TYPE, destObjectName?destObjectName:sourceObjectName); if (destObjectName) { IsmDestroyObjectHandle (destObjectName); destObjectName = NULL; } if (exeNativeName) { destObjectName = IsmCreateObjectHandle (exeNativeName, newExeName); IsmReleaseMemory (exeNativeName); if (IsmAcquireObject (MIG_FILE_TYPE | PLATFORM_DESTINATION, destObjectName, &destContent)) { IsmReleaseObject (&destContent); exeNativeName = IsmGetNativeObjectName (MIG_FILE_TYPE, destObjectName); if (exeNativeName) { NewContent->MemoryContent.ContentSize = SizeOfString (exeNativeName); NewContent->MemoryContent.ContentBytes = IsmGetMemory (NewContent->MemoryContent.ContentSize); StringCopy ((PTSTR)NewContent->MemoryContent.ContentBytes, exeNativeName); migrateSrcReg = TRUE; IsmReleaseMemory (exeNativeName); } } } FreePathString (newExeName); } } if (sourceObjectName) { IsmDestroyObjectHandle (sourceObjectName); sourceObjectName = NULL; } if (destObjectName) { IsmDestroyObjectHandle (destObjectName); destObjectName = NULL; } } } if (expExePath) { IsmReleaseMemory (expExePath); expExePath = NULL; } } // // If we should migrate the entry, then just leave everything // alone. If not, then we need to put the destination value in the // outbound content. // if (!migrateSrcReg) { MYASSERT (!(SrcObjectTypeId & PLATFORM_DESTINATION)); destObjectName = IsmFilterObject( SrcObjectTypeId | PLATFORM_SOURCE, SrcObjectName, &destObjectTypeId, &deleted, NULL ); if (!deleted) { destObjectTypeId = SrcObjectTypeId & ~(PLATFORM_MASK); destObjectTypeId |= PLATFORM_DESTINATION; if (IsmAcquireObject (destObjectTypeId, destObjectName?destObjectName:SrcObjectName, &destContent)) { NewContent->MemoryContent.ContentSize = destContent.MemoryContent.ContentSize; NewContent->MemoryContent.ContentBytes = IsmGetMemory (NewContent->MemoryContent.ContentSize); CopyMemory ((PBYTE)NewContent->MemoryContent.ContentBytes, destContent.MemoryContent.ContentBytes, NewContent->MemoryContent.ContentSize); IsmReleaseObject (&destContent); } } IsmDestroyObjectHandle (destObjectName); INVALID_POINTER (destObjectName); } } } return TRUE; } BOOL WINAPI pConvertIdentityCount( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { MIG_CONTENT objectContent; MIG_OBJECT_ENUM objectEnum; MIG_OBJECTSTRINGHANDLE enumPattern; MIG_OBJECTSTRINGHANDLE filteredName; DWORD value = 0; PTSTR node; PTSTR leaf; MIG_OBJECTTYPEID destObjectTypeId; BOOL deleted; BOOL replaced; if (IsValidRegType (CurrentContent, REG_DWORD)) { // Read the current Identity count value = pGetDestDwordValue (TEXT("HKCU\\Identities"), TEXT("Identity Ordinal")); // Add the number of new source identities enumPattern = IsmCreateSimpleObjectPattern ( TEXT("HKCU\\Identities"), TRUE, TEXT("Username"), FALSE); if (IsmEnumFirstSourceObject (&objectEnum, g_RegType, enumPattern)) { do { if (IsmIsApplyObjectId (objectEnum.ObjectId)) { IsmCreateObjectStringsFromHandle (objectEnum.ObjectName, &node, &leaf); if (leaf && *leaf) { // Check if we created this identity on the dest filteredName = IsmFilterObject (g_RegType | PLATFORM_SOURCE, objectEnum.ObjectName, &destObjectTypeId, &deleted, &replaced); if (filteredName) { if (DoesDestRegExist(filteredName, REG_SZ) == FALSE) { value++; } IsmDestroyObjectHandle(filteredName); } else if (DoesDestRegExist(objectEnum.ObjectName, REG_SZ) == FALSE) { value++; } } IsmDestroyObjectString (node); IsmDestroyObjectString (leaf); } } while (IsmEnumNextObject (&objectEnum)); } IsmDestroyObjectHandle (enumPattern); // Update the value with the new Identity count pSetDwordValue (NewContent, value); } return TRUE; } BOOL WINAPI pConvertIdentityIndex( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { PTSTR node = NULL; PTSTR leaf = NULL; if (IsValidRegType (CurrentContent, REG_DWORD)) { IsmCreateObjectStringsFromHandle (SrcObjectName, &node, &leaf); if (node && !StringMatch(node, TEXT("HKCU\\Identities"))) { // Only set this identity's index if this is new on the dest if (DoesDestRegExist(SrcObjectName, REG_DWORD)) { IsmClearApplyOnObject((g_RegType & (~PLATFORM_MASK)) | PLATFORM_SOURCE, SrcObjectName); } else { pSetDwordValue (NewContent, g_IdentityCount); g_IdentityCount++; } } IsmDestroyObjectString(node); IsmDestroyObjectString(leaf); } return TRUE; } BOOL pIsIdentityCollision ( IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCTSTR OriginalUsername ) { MIG_CONTENT objectContent; MIG_OBJECT_ENUM objectEnum; MIG_OBJECTSTRINGHANDLE enumPattern; BOOL retval = FALSE; // This function detects identity name collisions (i.e. 2 different "Main Identity"s) // Check if this already exists if (HtFindString (g_IdentityDestTable, OriginalUsername)) { return TRUE; } // Check for collisions on Destination enumPattern = IsmCreateSimpleObjectPattern (TEXT("HKCU\\Identities"), TRUE, TEXT("Username"), FALSE); if (IsmEnumFirstDestinationObject (&objectEnum, g_RegType, enumPattern)) { do { // don't collide with same identity on destination if (!StringIMatch (SrcObjectName, objectEnum.ObjectName)) { if (IsmAcquireObject (g_RegType | PLATFORM_DESTINATION, objectEnum.ObjectName, &objectContent)) { if (IsValidRegSz(&objectContent)) { if (StringIMatch (OriginalUsername, (PCTSTR) objectContent.MemoryContent.ContentBytes)) { retval = TRUE; IsmReleaseObject (&objectContent); IsmAbortObjectEnum (&objectEnum); break; } } IsmReleaseObject (&objectContent); } } } while (IsmEnumNextObject (&objectEnum)); } IsmDestroyObjectHandle (enumPattern); return retval; } PTSTR pCollideIdentityUsername ( IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCTSTR OriginalUsername ) { PTSTR username = NULL; PTSTR tmpName; PTSTR testName = NULL; PTSTR openParen = NULL; PTSTR closeParen = NULL; PTSTR chr; TCHAR buff[20]; UINT index = 1; BOOL replaceOk = TRUE; // This function handles identity name collisions. // For example, "Main Identity" becomes "Main Identity(2)" if (pIsIdentityCollision (SrcObjectName, OriginalUsername)) { tmpName = DuplicateText (OriginalUsername); // Check if name already has a (number) tacked on openParen = _tcsrchr (tmpName, TEXT('(')); closeParen = _tcsrchr (tmpName, TEXT(')')); if (closeParen && openParen && closeParen > openParen && closeParen - openParen > 1) { // Make sure it's purely numerical for (chr = openParen+1; chr < closeParen; chr++) { if (!_istdigit (*chr)) { replaceOk = FALSE; break; } } if (replaceOk == TRUE) { if (_stscanf (openParen, TEXT("(%d)"), &index)) { *openParen = 0; } } } // Loop until we find a non-colliding name do { IsmReleaseMemory (username); index++; wsprintf (buff, TEXT("(%d)"), index); username = IsmGetMemory (ByteCount (OriginalUsername) + ByteCount (buff) + 1); StringCopy (username, tmpName); StringCat (username, buff); } while (pIsIdentityCollision (SrcObjectName, username)); FreeText (tmpName); // Put the new name in the hash tables HtAddStringEx (g_IdentityDestTable, username, &username, FALSE); } else { username = IsmGetMemory (ByteCount (OriginalUsername) + 1); StringCopy (username, OriginalUsername); } return username; } BOOL WINAPI pConvertIdentityGuid ( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { PTSTR newId; if (IsValidRegSz (CurrentContent)) { newId = OEGetRemappedId ((PCTSTR)CurrentContent->MemoryContent.ContentBytes); if (newId) { NewContent->Details.DetailsSize = sizeof(DWORD); NewContent->Details.DetailsData = IsmGetMemory (sizeof (DWORD)); *((PDWORD)NewContent->Details.DetailsData) = REG_SZ; NewContent->MemoryContent.ContentSize = ByteCount (newId) + 1; NewContent->MemoryContent.ContentBytes = IsmGetMemory (NewContent->MemoryContent.ContentSize); StringCopy ((PTSTR)NewContent->MemoryContent.ContentBytes, newId); FreeText(newId); } } return TRUE; } BOOL pConvertOE5Stationery ( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { // Delete the destination's [Wide Stationery Name] value. PTSTR node = NULL; PTSTR leaf = NULL; MIG_OBJECTSTRINGHANDLE filteredName; MIG_OBJECTSTRINGHANDLE destName; MIG_OBJECTTYPEID destObjectTypeId; BOOL deleted; BOOL replaced; filteredName = IsmFilterObject (g_RegType | PLATFORM_SOURCE, SrcObjectName, &destObjectTypeId, &deleted, &replaced); if (filteredName) { IsmCreateObjectStringsFromHandle (filteredName, &node, &leaf); if (node) { destName = IsmCreateObjectHandle (node, TEXT("Wide Stationery Name")); IsmRemovePhysicalObject (g_RegType, destName); IsmDestroyObjectHandle(destName); destName = IsmCreateObjectHandle (node, TEXT("Stationery Name Converted")); IsmRemovePhysicalObject (g_RegType, destName); IsmDestroyObjectHandle(destName); IsmDestroyObjectString(node); } IsmDestroyObjectString(leaf); IsmDestroyObjectHandle(filteredName); } return TRUE; } BOOL WINAPI pConvertIdentityUsername ( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { if (IsValidRegSz (OriginalContent)) { // Update the value with a potentially new username NewContent->Details.DetailsSize = sizeof(DWORD); NewContent->Details.DetailsData = IsmGetMemory (sizeof (DWORD)); *((PDWORD)NewContent->Details.DetailsData) = REG_SZ; NewContent->MemoryContent.ContentBytes = (PBYTE) pCollideIdentityUsername (SrcObjectName, (PCTSTR) OriginalContent->MemoryContent.ContentBytes); NewContent->MemoryContent.ContentSize = ByteCount ((PCTSTR) NewContent->MemoryContent.ContentBytes) + 1; } return TRUE; } BOOL WINAPI pConvertSetDwordTrue ( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { if (IsValidRegType (OriginalContent, REG_DWORD)) { pSetDwordValue (NewContent, 1); } return TRUE; } BOOL WINAPI pConvertSetDwordFalse ( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { if (IsValidRegType (OriginalContent, REG_DWORD)) { pSetDwordValue (NewContent, 0); } return TRUE; } BOOL WINAPI pConvertPSTBlob ( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { PCTSTR originalStr = NULL; PCSTR finalStr = NULL; PTSTR joinedStr = NULL; PTSTR node = NULL; PTSTR leaf = NULL; MIG_OBJECTSTRINGHANDLE filteredName = NULL; MIG_OBJECTSTRINGHANDLE srcName = NULL; MIG_OBJECTTYPEID destObjectTypeId; BOOL deleted; BOOL replaced; TCHAR *p = NULL; char *ptr; HALF_PTR oldSize; PCBYTE blob; if (IsValidRegType(OriginalContent, REG_BINARY)) { // Find the NULL before the PST filename blob = OriginalContent->MemoryContent.ContentBytes; ptr = (char *)(ULONG_PTR)((PBYTE)blob + OriginalContent->MemoryContent.ContentSize - 2); while ((ptr > blob) && (*ptr != 0)) { ptr--; } if (ptr <= blob) { // couldn't find it.. this isn't a PSTBlob return TRUE; } ptr++; oldSize = (HALF_PTR)(ptr - blob); #ifdef UNICODE originalStr = ConvertAtoW(ptr); #else originalStr = DuplicateText(ptr); #endif if (originalStr) { p = (PTSTR)FindLastWack(originalStr); if (p) { *p = 0; srcName = IsmCreateObjectHandle (originalStr, p+1); if (srcName) { filteredName = IsmFilterObject(MIG_FILE_TYPE | PLATFORM_SOURCE, srcName, &destObjectTypeId, &deleted, &replaced); if (filteredName) { IsmCreateObjectStringsFromHandle (filteredName, &node, &leaf); IsmDestroyObjectHandle (filteredName); joinedStr = JoinPaths (node, leaf); if (joinedStr) { #ifdef UNICODE finalStr = ConvertWtoA(joinedStr); #else finalStr = DuplicateText(joinedStr); #endif FreePathString (joinedStr); } IsmDestroyObjectString (node); IsmDestroyObjectString (leaf); } IsmDestroyObjectHandle (srcName); } } #ifdef UNICODE FreeConvertedStr (originalStr); #else FreeText(originalStr); #endif } if (finalStr) { NewContent->Details.DetailsSize = sizeof(DWORD); NewContent->Details.DetailsData = IsmGetMemory (sizeof (DWORD)); *((PDWORD)NewContent->Details.DetailsData) = REG_BINARY; NewContent->MemoryContent.ContentSize = oldSize + ByteCountA(finalStr) + 1; NewContent->MemoryContent.ContentBytes = IsmGetMemory (NewContent->MemoryContent.ContentSize); CopyMemory ((PVOID)NewContent->MemoryContent.ContentBytes, OriginalContent->MemoryContent.ContentBytes, oldSize); CopyMemory ((PVOID)(NewContent->MemoryContent.ContentBytes + oldSize), finalStr, NewContent->MemoryContent.ContentSize); #ifdef UNICODE FreeConvertedStr (finalStr); #else FreeText(finalStr); #endif } } return TRUE; } DWORD pCountSourceSubKeys ( IN PTSTR RootKey ) { MIG_OBJECT_ENUM objectEnum; MIG_OBJECTSTRINGHANDLE enumPattern; DWORD value = 0; enumPattern = IsmCreateSimpleObjectPattern (RootKey, TRUE, NULL, FALSE); if (IsmEnumFirstSourceObject (&objectEnum, g_RegType, enumPattern)) { do { if (IsmIsApplyObjectId (objectEnum.ObjectId)) { value++; } } while (IsmEnumNextObject (&objectEnum)); } IsmDestroyObjectHandle (enumPattern); // We enumerated the root key too, which we don't want to count value--; return value; } BOOL WINAPI pConvertIAMAcctName ( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { MIG_OBJECTSTRINGHANDLE filteredName = NULL; MIG_CONTENT objectContent; PTSTR subKey; DWORD value = 1; PTSTR node; PTSTR leaf; MIG_OBJECTTYPEID destObjectTypeId; BOOL deleted; BOOL replaced; // Only increment the base account count if (StrStrI(SrcObjectName, TEXT("\\Accounts\\"))) { return TRUE; } // Get the destination value where we are writing to filteredName = IsmFilterObject(g_RegType | PLATFORM_SOURCE, SrcObjectName, &destObjectTypeId, &deleted, &replaced); if (IsmAcquireObject (g_RegType | PLATFORM_DESTINATION, filteredName ? filteredName : SrcObjectName, &objectContent)) { if (IsValidRegType(&objectContent, REG_DWORD)) { value = *objectContent.MemoryContent.ContentBytes; if (value == 0) { value = 1; } } IsmReleaseObject (&objectContent); } if (filteredName) { IsmDestroyObjectHandle (filteredName); } // Now increment the value by the number of accounts we are writing from the source IsmCreateObjectStringsFromHandle (SrcObjectName, &node, &leaf); if (node) { subKey = JoinText(node, TEXT("\\Accounts")); if (subKey) { value += pCountSourceSubKeys (subKey); pSetDwordValue (NewContent, value); FreeText(subKey); } IsmDestroyObjectString(node); } if (leaf) { IsmDestroyObjectString(leaf); } return TRUE; } BOOL WINAPI pConvertOE5IAMAcctName ( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { DWORD value = 1; PTSTR srcIdentity; PTSTR tmpText; PTSTR tmpNode; PTSTR newIdentity = NULL; if (IsValidRegType (CurrentContent, REG_DWORD)) { // Starting value is always in this location // Extract the source's associated ID. srcIdentity = OEGetAssociatedId (PLATFORM_SOURCE); if (srcIdentity) { newIdentity = OEGetRemappedId(srcIdentity); if (newIdentity) { if (OEIsIdentityAssociated(newIdentity)) { // Migrating IAM to IAM value = pGetDestDwordValue (TEXT("HKCU\\Software\\Microsoft\\Internet Account Manager"), TEXT("Account Name")); if (value == 0) { value = 1; } } else { // Migrating IAM to ID tmpText = JoinText(TEXT("HKCU\\Identities\\"), newIdentity); if (tmpText) { tmpNode = JoinText(tmpText, TEXT("\\Software\\Microsoft\\Internet Account Manager")); if (tmpNode) { value = pGetDestDwordValue (tmpNode, TEXT("Account Name")); if (value == 0) { value = 1; } FreeText(tmpNode); } FreeText(tmpText); } } FreeText(newIdentity); } FreeText(srcIdentity); } value += pCountSourceSubKeys (TEXT("HKCU\\Software\\Microsoft\\Internet Account Manager\\Accounts")); pSetDwordValue (NewContent, value); } return TRUE; } BOOL WINAPI pConvertOE4IAMAcctName ( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { PTSTR tmpName = NULL; PTSTR defaultId = NULL; DWORD value = 0; if (IsValidRegType (CurrentContent, REG_DWORD)) { // Check if destination has Default ID. If so, we're going to merge into that Identity. defaultId = OEGetDefaultId(PLATFORM_DESTINATION); if (defaultId) { tmpName = JoinPathsInPoolEx (( NULL, TEXT("HKCU\\Identities"), defaultId, TEXT("Software\\Microsoft\\Internet Account Manager"), NULL )); FreeText(defaultId); } // First try to get the AccountName from the identity key if (tmpName != NULL) { value = pGetDestDwordValue (tmpName, TEXT("Account Name")); } // If not there, look in the common key // NOTE: This might be a bad assumption. Shouldn't we check if the dest id is associated? // It doesn't matter too much.. the worst case is the value is supposed to be 0, but // we set this number higher, which doesn't really affect anything. if (tmpName == NULL || value == 0) { value = pGetDestDwordValue (TEXT("HKCU\\Software\\Microsoft\\Internet Account Manager"), TEXT("Account Name")); } if (value == 0) { value = 1; } value += pCountSourceSubKeys (TEXT("HKCU\\Software\\Microsoft\\Internet Account Manager\\Accounts")); pSetDwordValue (NewContent, value); } if (tmpName != NULL) { FreePathString (tmpName); } return TRUE; } BOOL WINAPI pConvertOMIAccountName ( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { MIG_CONTENT objectContent; DWORD value; if (IsValidRegType (CurrentContent, REG_DWORD)) { value = pGetDestDwordValue (TEXT("HKCU\\Software\\Microsoft\\Office\\Outlook\\OMI Account Manager"), TEXT("Account Name")); value += pCountSourceSubKeys (TEXT("HKCU\\Software\\Microsoft\\Office\\Outlook\\OMI Account Manager\\Accounts")); pSetDwordValue (NewContent, value); } return TRUE; } BOOL pConvertLangId ( IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCTSTR OfficeApp ) { MIG_CONTENT objectContent; MIG_OBJECT_ENUM objectEnum; MIG_OBJECTSTRINGHANDLE enumPattern; PTSTR node; PTSTR leaf; DWORD value; DWORD result = 0; if (IsValidRegType (CurrentContent, REG_DWORD)) { enumPattern = IsmCreateSimpleObjectPattern ( TEXT("HKLM\\Software\\Microsoft\\MS Setup (ACME)\\Table Files"), TRUE, NULL, TRUE); if (IsmEnumFirstSourceObject (&objectEnum, g_RegType, enumPattern)) { do { IsmCreateObjectStringsFromHandle (objectEnum.ObjectName, &node, &leaf); if (leaf && *leaf) { if (StringIPrefix (leaf, TEXT("MS Office")) || StringIPrefix (leaf, OfficeApp) ) { result = _stscanf(leaf, TEXT("%*[^\\(](%d)"), &value); // In Office installs, the Outlook entry may not have the (1033) piece, // so we MUST check the result } } IsmDestroyObjectString (node); IsmDestroyObjectString (leaf); if (result) { IsmAbortObjectEnum (&objectEnum); break; } } while (IsmEnumNextObject (&objectEnum)); } IsmDestroyObjectHandle (enumPattern); if (result) { pSetDwordValue (NewContent, value); } } return TRUE; } BOOL WINAPI pConvertOfficeLangId ( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { pConvertLangId(CurrentContent, NewContent, TEXT("MS Office")); return TRUE; } BOOL WINAPI pConvertOutlookLangId ( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { pConvertLangId(CurrentContent, NewContent, TEXT("Microsoft Outlook")); return TRUE; } BOOL WINAPI pConvertAccessLangId ( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { pConvertLangId(CurrentContent, NewContent, TEXT("Microsoft Access")); return TRUE; } BOOL WINAPI pConvertExcelLangId ( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { pConvertLangId(CurrentContent, NewContent, TEXT("Microsoft Excel")); return TRUE; } BOOL WINAPI pConvertFrontPageLangId ( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { pConvertLangId(CurrentContent, NewContent, TEXT("Microsoft FrontPage")); return TRUE; } BOOL WINAPI pConvertPowerPointLangId ( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { pConvertLangId(CurrentContent, NewContent, TEXT("Microsoft PowerPoint")); return TRUE; } BOOL WINAPI pConvertPublisherLangId ( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { pConvertLangId(CurrentContent, NewContent, TEXT("Microsoft Publisher")); return TRUE; } BOOL WINAPI pConvertWordLangId ( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { pConvertLangId(CurrentContent, NewContent, TEXT("Microsoft Word")); return TRUE; } BOOL WINAPI pConvertOffice2000LangId ( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { DWORD value; if (IsValidRegType (CurrentContent, REG_DWORD)) { value = pGetSrcDwordValue (TEXT("HKCU\\Software\\Microsoft\\Office\\9.0\\Common\\LanguageResources"), TEXT("EXEMode")); pSetDwordValue (NewContent, value); } return TRUE; } BOOL WINAPI pMigrateSoundSysTray ( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { MIG_OBJECTTYPEID newObjectTypeId; MIG_OBJECTSTRINGHANDLE newObjectName; PDWORD valueType1, valueType2, valueType; BOOL deleted = TRUE, replaced = FALSE; MIG_CONTENT destContent; DWORD tempValue; if (!CurrentContent->ContentInFile) { MYASSERT (OriginalContent->Details.DetailsSize == sizeof (DWORD)); MYASSERT (CurrentContent->Details.DetailsSize == sizeof (DWORD)); valueType1 = (PDWORD)(OriginalContent->Details.DetailsData); valueType2 = (PDWORD)(CurrentContent->Details.DetailsData); if ((*valueType1 == REG_DWORD) && (*valueType2 == REG_DWORD) ) { // if the object was not changed yet we need to read the destination object and then // just move the "Show volume control" bit. if ((!CurrentContent->MemoryContent.ContentBytes) || (CurrentContent->MemoryContent.ContentBytes == OriginalContent->MemoryContent.ContentBytes) ) { // find out the destination object and read it newObjectName = IsmFilterObject ( SrcObjectTypeId, SrcObjectName, &newObjectTypeId, &deleted, &replaced ); if ((!deleted || replaced) && ((newObjectTypeId & ~PLATFORM_MASK) == MIG_REGISTRY_TYPE) ) { if (IsmAcquireObject ( (newObjectTypeId & ~PLATFORM_MASK) | PLATFORM_DESTINATION, newObjectName?newObjectName:SrcObjectName, &destContent )) { if (IsValidRegType(&destContent, REG_DWORD)) { NewContent->MemoryContent.ContentSize = sizeof (DWORD); NewContent->MemoryContent.ContentBytes = IsmGetMemory (sizeof (DWORD)); *((PDWORD)NewContent->MemoryContent.ContentBytes) = (*((PDWORD)destContent.MemoryContent.ContentBytes)) &~ 0x00000004; tempValue = ((*((PDWORD)OriginalContent->MemoryContent.ContentBytes)) & 0x00000004); *((PDWORD)NewContent->MemoryContent.ContentBytes) |= tempValue; } IsmReleaseObject (&destContent); } if (newObjectName) { IsmDestroyObjectHandle (newObjectName); newObjectName = NULL; } } } else { NewContent->MemoryContent.ContentSize = sizeof (DWORD); NewContent->MemoryContent.ContentBytes = IsmGetMemory (sizeof (DWORD)); *((PDWORD)NewContent->MemoryContent.ContentBytes) = *((PDWORD)CurrentContent->MemoryContent.ContentBytes) &~ 0x00000004; tempValue = ((*((PDWORD)OriginalContent->MemoryContent.ContentBytes)) & 0x00000004); *((PDWORD)NewContent->MemoryContent.ContentBytes) |= tempValue; } } } return TRUE; } BOOL WINAPI pMigrateAppearanceUPM ( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { MIG_OBJECTTYPEID newObjectTypeId; MIG_OBJECTSTRINGHANDLE newObjectName; BOOL deleted = TRUE, replaced = FALSE; MIG_CONTENT destContent; DWORD tempValue; if (IsValidRegType (OriginalContent, REG_BINARY) && IsValidRegType (CurrentContent, REG_BINARY)) { // if the object was not changed yet we need to read the destination object and then // just move the appropriate bits. if ((!CurrentContent->MemoryContent.ContentBytes) || (CurrentContent->MemoryContent.ContentBytes == OriginalContent->MemoryContent.ContentBytes) ) { // find out the destination object and read it newObjectName = IsmFilterObject ( SrcObjectTypeId, SrcObjectName, &newObjectTypeId, &deleted, &replaced ); if ((!deleted || replaced) && ((newObjectTypeId & ~PLATFORM_MASK) == MIG_REGISTRY_TYPE) ) { if (IsmAcquireObject ( (newObjectTypeId & ~PLATFORM_MASK) | PLATFORM_DESTINATION, newObjectName?newObjectName:SrcObjectName, &destContent )) { if (IsValidRegType(&destContent, REG_BINARY)) { NewContent->MemoryContent.ContentSize = sizeof (DWORD); NewContent->MemoryContent.ContentBytes = IsmGetMemory (sizeof (DWORD)); *((PDWORD)NewContent->MemoryContent.ContentBytes) = (*((PDWORD)destContent.MemoryContent.ContentBytes)) &~ DISPLAY_BITMASK; tempValue = ((*((PDWORD)OriginalContent->MemoryContent.ContentBytes)) & DISPLAY_BITMASK); *((PDWORD)NewContent->MemoryContent.ContentBytes) |= tempValue; } IsmReleaseObject (&destContent); } if (newObjectName) { IsmDestroyObjectHandle (newObjectName); newObjectName = NULL; } } } else { // just transfer the appropriate bits. NewContent->MemoryContent.ContentSize = sizeof (DWORD); NewContent->MemoryContent.ContentBytes = IsmGetMemory (sizeof (DWORD)); *((PDWORD)NewContent->MemoryContent.ContentBytes) = *((PDWORD)CurrentContent->MemoryContent.ContentBytes) &~ DISPLAY_BITMASK; tempValue = ((*((PDWORD)OriginalContent->MemoryContent.ContentBytes)) & DISPLAY_BITMASK); *((PDWORD)NewContent->MemoryContent.ContentBytes) |= tempValue; } } return TRUE; } BOOL WINAPI pMigrateMouseUPM ( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { MIG_OBJECTTYPEID newObjectTypeId; MIG_OBJECTSTRINGHANDLE newObjectName; BOOL deleted = TRUE, replaced = FALSE; MIG_CONTENT destContent; DWORD tempValue; if (IsValidRegType (OriginalContent, REG_BINARY) && IsValidRegType (CurrentContent, REG_BINARY)) { // if the object was not changed yet we need to read the destination object and then // just move the appropriate bits. if ((!CurrentContent->MemoryContent.ContentBytes) || (CurrentContent->MemoryContent.ContentBytes == OriginalContent->MemoryContent.ContentBytes) ) { // find out the destination object and read it newObjectName = IsmFilterObject ( SrcObjectTypeId, SrcObjectName, &newObjectTypeId, &deleted, &replaced ); if ((!deleted || replaced) && ((newObjectTypeId & ~PLATFORM_MASK) == MIG_REGISTRY_TYPE) ) { if (IsmAcquireObject ( (newObjectTypeId & ~PLATFORM_MASK) | PLATFORM_DESTINATION, newObjectName?newObjectName:SrcObjectName, &destContent )) { if (IsValidRegType (&destContent, REG_BINARY)) { NewContent->MemoryContent.ContentSize = sizeof (DWORD); NewContent->MemoryContent.ContentBytes = IsmGetMemory (sizeof (DWORD)); *((PDWORD)NewContent->MemoryContent.ContentBytes) = (*((PDWORD)destContent.MemoryContent.ContentBytes)) &~ MOUSE_BITMASK; tempValue = ((*((PDWORD)OriginalContent->MemoryContent.ContentBytes)) & MOUSE_BITMASK); *((PDWORD)NewContent->MemoryContent.ContentBytes) |= tempValue; } IsmReleaseObject (&destContent); } if (newObjectName) { IsmDestroyObjectHandle (newObjectName); newObjectName = NULL; } } } else { // just transfer the appropriate bits. NewContent->MemoryContent.ContentSize = sizeof (DWORD); NewContent->MemoryContent.ContentBytes = IsmGetMemory (sizeof (DWORD)); *((PDWORD)NewContent->MemoryContent.ContentBytes) = *((PDWORD)CurrentContent->MemoryContent.ContentBytes) &~ MOUSE_BITMASK; tempValue = ((*((PDWORD)OriginalContent->MemoryContent.ContentBytes)) & MOUSE_BITMASK); *((PDWORD)NewContent->MemoryContent.ContentBytes) |= tempValue; } } return TRUE; } BOOL WINAPI pMigrateOfflineSysTray ( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { MIG_OBJECTTYPEID newObjectTypeId; MIG_OBJECTSTRINGHANDLE newObjectName; PDWORD valueType1, valueType2, valueType; BOOL deleted = TRUE, replaced = FALSE; MIG_CONTENT destContent; if (!CurrentContent->ContentInFile) { MYASSERT (OriginalContent->Details.DetailsSize == sizeof (DWORD)); MYASSERT (CurrentContent->Details.DetailsSize == sizeof (DWORD)); valueType1 = (PDWORD)(OriginalContent->Details.DetailsData); valueType2 = (PDWORD)(CurrentContent->Details.DetailsData); if ((*valueType1 == REG_DWORD) && (*valueType2 == REG_DWORD) ) { // if the object was not changed yet we need to read the destination object and then // just move the "Enable offline folders" bit. if ((!CurrentContent->MemoryContent.ContentBytes) || (CurrentContent->MemoryContent.ContentBytes == OriginalContent->MemoryContent.ContentBytes) ) { // find out the destination object and read it newObjectName = IsmFilterObject ( SrcObjectTypeId, SrcObjectName, &newObjectTypeId, &deleted, &replaced ); if ((!deleted || replaced) && ((newObjectTypeId & ~PLATFORM_MASK) == MIG_REGISTRY_TYPE) ) { if (IsmAcquireObject ( (newObjectTypeId & ~PLATFORM_MASK) | PLATFORM_DESTINATION, newObjectName?newObjectName:SrcObjectName, &destContent )) { if (IsValidRegType (&destContent, REG_DWORD)) { NewContent->MemoryContent.ContentSize = sizeof (DWORD); NewContent->MemoryContent.ContentBytes = IsmGetMemory (sizeof (DWORD)); *((PDWORD)NewContent->MemoryContent.ContentBytes) = *((PDWORD)destContent.MemoryContent.ContentBytes); if (*((PDWORD)OriginalContent->MemoryContent.ContentBytes) & 0x00000008) { *((PDWORD)NewContent->MemoryContent.ContentBytes) |= 0x00000008; } else { *((PDWORD)NewContent->MemoryContent.ContentBytes) &= (~0x00000008); } } IsmReleaseObject (&destContent); } if (newObjectName) { IsmDestroyObjectHandle (newObjectName); newObjectName = NULL; } } } else { // just transfer the "Enable offline folders" bit. NewContent->MemoryContent.ContentSize = sizeof (DWORD); NewContent->MemoryContent.ContentBytes = IsmGetMemory (sizeof (DWORD)); if (*((PDWORD)OriginalContent->MemoryContent.ContentBytes) & 0x00000008) { *((PDWORD)NewContent->MemoryContent.ContentBytes) = *((PDWORD)CurrentContent->MemoryContent.ContentBytes) | 0x00000008; } else { *((PDWORD)NewContent->MemoryContent.ContentBytes) = *((PDWORD)CurrentContent->MemoryContent.ContentBytes) & (~0x00000008); } } } } return TRUE; } BOOL WINAPI pMigrateTaskBarSS ( IN BOOL Force, IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { MIG_OBJECTTYPEID newObjectTypeId; MIG_OBJECTSTRINGHANDLE newObjectName; PDWORD valueType1, valueType2, valueType; BOOL deleted = TRUE, replaced = FALSE; MIG_CONTENT destContent; BYTE defShellState [sizeof (REGSHELLSTATE)] = {0x24, 0x00, 0x00, 0x00, 0x20, 0x28, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x01, 0x00, 0x00, 0x00, 0x0D, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02, 0x00, 0x00, 0x00}; PREGSHELLSTATE shellState1 = NULL, shellState2 = NULL; if (!CurrentContent->ContentInFile) { MYASSERT (OriginalContent->Details.DetailsSize == sizeof (DWORD)); MYASSERT (CurrentContent->Details.DetailsSize == sizeof (DWORD)); valueType1 = (PDWORD)(OriginalContent->Details.DetailsData); valueType2 = (PDWORD)(CurrentContent->Details.DetailsData); if ((*valueType1 == REG_BINARY) && (*valueType2 == REG_BINARY) ) { // if the object was not changed yet we need to read the destination object and then // just transfer the "fStartPanelOn" setting if present. if ((!CurrentContent->MemoryContent.ContentBytes) || (CurrentContent->MemoryContent.ContentBytes == OriginalContent->MemoryContent.ContentBytes) ) { // find out the destination object and read it newObjectName = IsmFilterObject ( SrcObjectTypeId, SrcObjectName, &newObjectTypeId, &deleted, &replaced ); if ((!deleted || replaced) && ((newObjectTypeId & ~PLATFORM_MASK) == MIG_REGISTRY_TYPE) ) { if (IsmAcquireObject ( (newObjectTypeId & ~PLATFORM_MASK) | PLATFORM_DESTINATION, newObjectName?newObjectName:SrcObjectName, &destContent )) { if ((IsValidRegType (&destContent, REG_BINARY)) && (destContent.MemoryContent.ContentSize == sizeof (REGSHELLSTATE)) ) { NewContent->MemoryContent.ContentSize = sizeof (REGSHELLSTATE); NewContent->MemoryContent.ContentBytes = IsmGetMemory (NewContent->MemoryContent.ContentSize); CopyMemory ( (PBYTE)NewContent->MemoryContent.ContentBytes, destContent.MemoryContent.ContentBytes, NewContent->MemoryContent.ContentSize ); if (Force) { shellState2 = (REGSHELLSTATE *)NewContent->MemoryContent.ContentBytes; shellState2->ss.fStartPanelOn = FALSE; } else { if (OriginalContent->MemoryContent.ContentSize == sizeof (REGSHELLSTATE)) { shellState1 = (PREGSHELLSTATE)OriginalContent->MemoryContent.ContentBytes; if (shellState1->ss.version == SHELLSTATEVERSION) { shellState2 = (PREGSHELLSTATE)NewContent->MemoryContent.ContentBytes; shellState2->ss.fStartPanelOn = shellState1->ss.fStartPanelOn; } } } } IsmReleaseObject (&destContent); } else { if (Force) { NewContent->MemoryContent.ContentSize = sizeof (REGSHELLSTATE); NewContent->MemoryContent.ContentBytes = IsmGetMemory (NewContent->MemoryContent.ContentSize); CopyMemory ( (PBYTE)NewContent->MemoryContent.ContentBytes, defShellState, NewContent->MemoryContent.ContentSize ); shellState2 = (REGSHELLSTATE *)NewContent->MemoryContent.ContentBytes; shellState2->ss.fStartPanelOn = FALSE; } } if (newObjectName) { IsmDestroyObjectHandle (newObjectName); newObjectName = NULL; } } } else { if (Force) { NewContent->MemoryContent.ContentSize = sizeof (REGSHELLSTATE); NewContent->MemoryContent.ContentBytes = IsmGetMemory (NewContent->MemoryContent.ContentSize); CopyMemory ( (PBYTE)NewContent->MemoryContent.ContentBytes, CurrentContent->MemoryContent.ContentBytes, NewContent->MemoryContent.ContentSize ); shellState2 = (REGSHELLSTATE *)NewContent->MemoryContent.ContentBytes; shellState2->ss.fStartPanelOn = FALSE; } else { // just transfer the "fStartPanelOn" setting if present. if ((OriginalContent->MemoryContent.ContentSize == sizeof (REGSHELLSTATE)) && (CurrentContent->MemoryContent.ContentSize == sizeof (REGSHELLSTATE)) ) { shellState1 = (PREGSHELLSTATE)OriginalContent->MemoryContent.ContentBytes; if (shellState1->ss.version == SHELLSTATEVERSION) { NewContent->MemoryContent.ContentSize = sizeof (REGSHELLSTATE); NewContent->MemoryContent.ContentBytes = IsmGetMemory (NewContent->MemoryContent.ContentSize); CopyMemory ( (PBYTE)NewContent->MemoryContent.ContentBytes, CurrentContent->MemoryContent.ContentBytes, NewContent->MemoryContent.ContentSize ); shellState2 = (PREGSHELLSTATE)NewContent->MemoryContent.ContentBytes; shellState2->ss.fStartPanelOn = shellState1->ss.fStartPanelOn; } } } } } } return TRUE; } BOOL WINAPI pMigrateTaskBarSSPreserve ( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { return pMigrateTaskBarSS ( FALSE, SrcObjectTypeId, SrcObjectName, OriginalContent, CurrentContent, NewContent, SourceOperationData, DestinationOperationData ); } BOOL WINAPI pMigrateTaskBarSSForce ( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { return pMigrateTaskBarSS ( TRUE, SrcObjectTypeId, SrcObjectName, OriginalContent, CurrentContent, NewContent, SourceOperationData, DestinationOperationData ); } BOOL WINAPI pConvertShowIEOnDesktop ( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { BOOL dontShowIE = FALSE; MIG_OBJECTTYPEID newObjectTypeId; MIG_OBJECTSTRINGHANDLE newObjectName; MIG_CONTENT destContent; BOOL deleted = TRUE, replaced = FALSE; if (IsValidRegType(CurrentContent, REG_DWORD)) { dontShowIE = *((PDWORD)CurrentContent->MemoryContent.ContentBytes) & 0x00100000; // find out the destination object and read it newObjectName = IsmFilterObject ( SrcObjectTypeId, SrcObjectName, &newObjectTypeId, &deleted, &replaced ); if ((!deleted || replaced) && ((newObjectTypeId & ~PLATFORM_MASK) == MIG_REGISTRY_TYPE) ) { if (IsmAcquireObject ( (newObjectTypeId & ~PLATFORM_MASK) | PLATFORM_DESTINATION, newObjectName?newObjectName:SrcObjectName, &destContent )) { if (IsValidRegType(&destContent, REG_DWORD)) { NewContent->MemoryContent.ContentSize = sizeof (DWORD); NewContent->MemoryContent.ContentBytes = IsmGetMemory (NewContent->MemoryContent.ContentSize); CopyMemory ( (PBYTE)NewContent->MemoryContent.ContentBytes, destContent.MemoryContent.ContentBytes, NewContent->MemoryContent.ContentSize ); if (dontShowIE) { *((PDWORD)NewContent->MemoryContent.ContentBytes) |= 0x00100000; } else { *((PDWORD)NewContent->MemoryContent.ContentBytes) &= 0xFFEFFFFF; } } IsmReleaseObject (&destContent); } if (newObjectName) { IsmDestroyObjectHandle (newObjectName); newObjectName = NULL; } } } return TRUE; } BOOL WINAPI pMigrateActiveDesktop ( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { MIG_OBJECTTYPEID newObjectTypeId; MIG_OBJECTSTRINGHANDLE newObjectName; PDWORD valueType1, valueType2, valueType; BOOL deleted = TRUE, replaced = FALSE; MIG_CONTENT destContent; PREGSHELLSTATE shellState1 = NULL, shellState2 = NULL; if (!CurrentContent->ContentInFile) { MYASSERT (OriginalContent->Details.DetailsSize == sizeof (DWORD)); MYASSERT (CurrentContent->Details.DetailsSize == sizeof (DWORD)); valueType1 = (PDWORD)(OriginalContent->Details.DetailsData); valueType2 = (PDWORD)(CurrentContent->Details.DetailsData); if ((*valueType1 == REG_BINARY) && (*valueType2 == REG_BINARY) ) { // if the object was not changed yet we need to read the destination object and then // just transfer the meaningfull settings. if ((!CurrentContent->MemoryContent.ContentBytes) || (CurrentContent->MemoryContent.ContentBytes == OriginalContent->MemoryContent.ContentBytes) ) { // find out the destination object and read it newObjectName = IsmFilterObject ( SrcObjectTypeId, SrcObjectName, &newObjectTypeId, &deleted, &replaced ); if ((!deleted || replaced) && ((newObjectTypeId & ~PLATFORM_MASK) == MIG_REGISTRY_TYPE) ) { if (IsmAcquireObject ( (newObjectTypeId & ~PLATFORM_MASK) | PLATFORM_DESTINATION, newObjectName?newObjectName:SrcObjectName, &destContent )) { if ((IsValidRegType(&destContent, REG_BINARY)) && (destContent.MemoryContent.ContentSize == sizeof (REGSHELLSTATE)) ) { NewContent->MemoryContent.ContentSize = sizeof (REGSHELLSTATE); NewContent->MemoryContent.ContentBytes = IsmGetMemory (NewContent->MemoryContent.ContentSize); CopyMemory ( (PBYTE)NewContent->MemoryContent.ContentBytes, destContent.MemoryContent.ContentBytes, NewContent->MemoryContent.ContentSize ); if (OriginalContent->MemoryContent.ContentSize >= sizeof(UINT)+sizeof(SHELLSTATE_SIZE_WIN95)) { shellState1 = (PREGSHELLSTATE)OriginalContent->MemoryContent.ContentBytes; shellState2 = (PREGSHELLSTATE)NewContent->MemoryContent.ContentBytes; shellState2->ss.fDesktopHTML= shellState1->ss.fDesktopHTML; } } IsmReleaseObject (&destContent); } if (newObjectName) { IsmDestroyObjectHandle (newObjectName); newObjectName = NULL; } } } else { // just transfer the meaningfull settings. if (OriginalContent->MemoryContent.ContentSize >= sizeof(UINT)+sizeof(SHELLSTATE_SIZE_WIN95)) { shellState1 = (PREGSHELLSTATE)OriginalContent->MemoryContent.ContentBytes; shellState2 = (PREGSHELLSTATE)NewContent->MemoryContent.ContentBytes; shellState2->ss.fDesktopHTML = shellState1->ss.fDesktopHTML; } } } } return TRUE; } BOOL CreateDwordRegObject ( IN PCTSTR KeyStr, IN PCTSTR ValueName, IN DWORD Value ) { MIG_OBJECTTYPEID objectTypeId; MIG_OBJECTSTRINGHANDLE objectName; MIG_CONTENT objectContent; DWORD regType = REG_DWORD; BOOL result = FALSE; objectTypeId = MIG_REGISTRY_TYPE | PLATFORM_DESTINATION; objectName = IsmCreateObjectHandle (KeyStr, ValueName); ZeroMemory (&objectContent, sizeof (MIG_CONTENT)); objectContent.ContentInFile = FALSE; objectContent.MemoryContent.ContentSize = sizeof (DWORD); objectContent.MemoryContent.ContentBytes = (PBYTE)&Value; objectContent.Details.DetailsSize = sizeof (DWORD); objectContent.Details.DetailsData = ®Type; result = IsmReplacePhysicalObject (objectTypeId, objectName, &objectContent); IsmDestroyObjectHandle (objectName); return result; } BOOL WINAPI pMigrateDisplaySS ( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { MIG_OBJECTTYPEID newObjectTypeId; MIG_OBJECTSTRINGHANDLE newObjectName; PDWORD valueType1, valueType2, valueType; BOOL deleted = TRUE, replaced = FALSE; MIG_CONTENT destContent; PREGSHELLSTATE shellState1 = NULL, shellState2 = NULL; if (!CurrentContent->ContentInFile) { MYASSERT (OriginalContent->Details.DetailsSize == sizeof (DWORD)); MYASSERT (CurrentContent->Details.DetailsSize == sizeof (DWORD)); valueType1 = (PDWORD)(OriginalContent->Details.DetailsData); valueType2 = (PDWORD)(CurrentContent->Details.DetailsData); if ((*valueType1 == REG_BINARY) && (*valueType2 == REG_BINARY) ) { // if the object was not changed yet we need to read the destination object and then // just transfer the meaningfull settings. if ((!CurrentContent->MemoryContent.ContentBytes) || (CurrentContent->MemoryContent.ContentBytes == OriginalContent->MemoryContent.ContentBytes) ) { // find out the destination object and read it newObjectName = IsmFilterObject ( SrcObjectTypeId, SrcObjectName, &newObjectTypeId, &deleted, &replaced ); if ((!deleted || replaced) && ((newObjectTypeId & ~PLATFORM_MASK) == MIG_REGISTRY_TYPE) ) { if (IsmAcquireObject ( (newObjectTypeId & ~PLATFORM_MASK) | PLATFORM_DESTINATION, newObjectName?newObjectName:SrcObjectName, &destContent )) { if ((IsValidRegType(&destContent, REG_BINARY)) && (destContent.MemoryContent.ContentSize == sizeof (REGSHELLSTATE)) ) { NewContent->MemoryContent.ContentSize = sizeof (REGSHELLSTATE); NewContent->MemoryContent.ContentBytes = IsmGetMemory (NewContent->MemoryContent.ContentSize); CopyMemory ( (PBYTE)NewContent->MemoryContent.ContentBytes, destContent.MemoryContent.ContentBytes, NewContent->MemoryContent.ContentSize ); if (OriginalContent->MemoryContent.ContentSize == sizeof(UINT)+SHELLSTATE_SIZE_WIN95) { shellState1 = (PREGSHELLSTATE)OriginalContent->MemoryContent.ContentBytes; CreateDwordRegObject ( TEXT("HKCU\\Software\\Microsoft\\Windows\\CurrentVersion\\Explorer\\Advanced"), TEXT("Hidden"), shellState1->ss.fShowAllObjects?0x00000001:0x00000002 ); CreateDwordRegObject ( TEXT("HKCU\\Software\\Microsoft\\Windows\\CurrentVersion\\Explorer\\Advanced"), TEXT("HideFileExt"), shellState1->ss.fShowExtensions?0x00000000:0x00000001 ); // on really old SHELLSTATE the "Show compressed folders" flag is in the place of fShowSysFiles CreateDwordRegObject ( TEXT("HKCU\\Software\\Microsoft\\Windows\\CurrentVersion\\Explorer\\Advanced"), TEXT("ShowCompColor"), shellState1->ss.fShowSysFiles?0x00000001:0x00000000 ); } if (OriginalContent->MemoryContent.ContentSize >= sizeof(UINT)+sizeof(SHELLSTATE_SIZE_WIN95)) { shellState1 = (PREGSHELLSTATE)OriginalContent->MemoryContent.ContentBytes; shellState2 = (PREGSHELLSTATE)NewContent->MemoryContent.ContentBytes; // If fWebView is not ON on the source system, fDoubleClickInWebView can have random // values. if (shellState1->ss.fWebView) { shellState2->ss.fDoubleClickInWebView = shellState1->ss.fDoubleClickInWebView; } else { shellState2->ss.fDoubleClickInWebView = TRUE; } } } IsmReleaseObject (&destContent); } if (newObjectName) { IsmDestroyObjectHandle (newObjectName); newObjectName = NULL; } } } else { // just transfer the meaningfull settings. if (OriginalContent->MemoryContent.ContentSize == sizeof(UINT)+SHELLSTATE_SIZE_WIN95) { shellState1 = (PREGSHELLSTATE)OriginalContent->MemoryContent.ContentBytes; CreateDwordRegObject ( TEXT("HKCU\\Software\\Microsoft\\Windows\\CurrentVersion\\Explorer\\Advanced"), TEXT("Hidden"), shellState1->ss.fShowAllObjects?0x00000001:0x00000002 ); CreateDwordRegObject ( TEXT("HKCU\\Software\\Microsoft\\Windows\\CurrentVersion\\Explorer\\Advanced"), TEXT("HideFileExt"), shellState1->ss.fShowExtensions?0x00000000:0x00000001 ); // on really old SHELLSTATE the "Show compressed folders" flag is in the place of fShowSysFiles CreateDwordRegObject ( TEXT("HKCU\\Software\\Microsoft\\Windows\\CurrentVersion\\Explorer\\Advanced"), TEXT("ShowCompColor"), shellState1->ss.fShowSysFiles?0x00000001:0x00000000 ); } if (OriginalContent->MemoryContent.ContentSize == sizeof(UINT)+sizeof(SHELLSTATE)) { shellState1 = (PREGSHELLSTATE)OriginalContent->MemoryContent.ContentBytes; shellState2 = (PREGSHELLSTATE)NewContent->MemoryContent.ContentBytes; // If fWebView is not ON on the source system, fDoubleClickInWebView can have random // values. if (shellState1->ss.fWebView) { shellState2->ss.fDoubleClickInWebView = shellState1->ss.fDoubleClickInWebView; } else { shellState2->ss.fDoubleClickInWebView = TRUE; } } } } } return TRUE; } BOOL WINAPI pMigrateDisplayCS ( IN MIG_OBJECTTYPEID SrcObjectTypeId, IN MIG_OBJECTSTRINGHANDLE SrcObjectName, IN PCMIG_CONTENT OriginalContent, IN PCMIG_CONTENT CurrentContent, OUT PMIG_CONTENT NewContent, IN PCMIG_BLOB SourceOperationData, OPTIONAL IN PCMIG_BLOB DestinationOperationData OPTIONAL ) { MIG_OBJECTTYPEID newObjectTypeId; MIG_OBJECTSTRINGHANDLE newObjectName; PDWORD valueType1, valueType2, valueType; BOOL deleted = TRUE, replaced = FALSE; MIG_CONTENT destContent; LPCABINETSTATE cabState1 = NULL, cabState2 = NULL; if (!CurrentContent->ContentInFile) { MYASSERT (OriginalContent->Details.DetailsSize == sizeof (DWORD)); MYASSERT (CurrentContent->Details.DetailsSize == sizeof (DWORD)); valueType1 = (PDWORD)(OriginalContent->Details.DetailsData); valueType2 = (PDWORD)(CurrentContent->Details.DetailsData); if ((*valueType1 == REG_BINARY) && (*valueType2 == REG_BINARY) ) { // if the object was not changed yet we need to read the destination object and then // just transfer the meaningfull settings. if ((!CurrentContent->MemoryContent.ContentBytes) || (CurrentContent->MemoryContent.ContentBytes == OriginalContent->MemoryContent.ContentBytes) ) { // find out the destination object and read it newObjectName = IsmFilterObject ( SrcObjectTypeId, SrcObjectName, &newObjectTypeId, &deleted, &replaced ); if ((!deleted || replaced) && ((newObjectTypeId & ~PLATFORM_MASK) == MIG_REGISTRY_TYPE) ) { if (IsmAcquireObject ( (newObjectTypeId & ~PLATFORM_MASK) | PLATFORM_DESTINATION, newObjectName?newObjectName:SrcObjectName, &destContent )) { if ((IsValidRegType (&destContent, REG_BINARY)) && (destContent.MemoryContent.ContentSize == sizeof (CABINETSTATE)) ) { NewContent->MemoryContent.ContentSize = sizeof (CABINETSTATE); NewContent->MemoryContent.ContentBytes = IsmGetMemory (NewContent->MemoryContent.ContentSize); CopyMemory ( (PBYTE)NewContent->MemoryContent.ContentBytes, destContent.MemoryContent.ContentBytes, NewContent->MemoryContent.ContentSize ); if (OriginalContent->MemoryContent.ContentSize == sizeof(CABINETSTATE)) { cabState1 = (LPCABINETSTATE)OriginalContent->MemoryContent.ContentBytes; cabState2 = (LPCABINETSTATE)NewContent->MemoryContent.ContentBytes; if (cabState1->nVersion >= 2) { CopyMemory ( (PBYTE)NewContent->MemoryContent.ContentBytes, OriginalContent->MemoryContent.ContentBytes, NewContent->MemoryContent.ContentSize ); } else { CreateDwordRegObject ( TEXT("HKCU\\Software\\Microsoft\\Windows\\CurrentVersion\\Explorer\\CabinetState"), TEXT("FullPath"), cabState1->fFullPathTitle?0x00000001:0x00000000 ); cabState2->fNewWindowMode = cabState1->fNewWindowMode; } } } IsmReleaseObject (&destContent); } if (newObjectName) { IsmDestroyObjectHandle (newObjectName); newObjectName = NULL; } } } else { // just transfer the meaningfull settings. if (OriginalContent->MemoryContent.ContentSize == sizeof(CABINETSTATE)) { cabState1 = (LPCABINETSTATE)OriginalContent->MemoryContent.ContentBytes; cabState2 = (LPCABINETSTATE)NewContent->MemoryContent.ContentBytes; if (cabState1->nVersion < 2) { CreateDwordRegObject ( TEXT("HKCU\\Software\\Microsoft\\Windows\\CurrentVersion\\Explorer\\CabinetState"), TEXT("FullPath"), cabState1->fFullPathTitle?0x00000001:0x00000000 ); cabState2->fNewWindowMode = cabState1->fNewWindowMode; } } } } } return TRUE; }