/* * PROJECT: ReactOS win32 kernel mode subsystem * LICENSE: GPL - See COPYING in the top level directory * FILE: subsystems/win32/win32k/objects/font.c * PURPOSE: Font * PROGRAMMER: */ /** Includes ******************************************************************/ #include #define NDEBUG #include DWORD FASTCALL GreGetGlyphIndicesW(HDC,LPWSTR,INT,LPWORD,DWORD,DWORD); /** Internal ******************************************************************/ DWORD FASTCALL GreGetKerningPairs( HDC hDC, ULONG NumPairs, LPKERNINGPAIR krnpair) { PDC dc; PDC_ATTR pdcattr; PTEXTOBJ TextObj; PFONTGDI FontGDI; DWORD Count; KERNINGPAIR *pKP; dc = DC_LockDc(hDC); if (!dc) { SetLastWin32Error(ERROR_INVALID_HANDLE); return 0; } pdcattr = dc->pdcattr; TextObj = RealizeFontInit(pdcattr->hlfntNew); DC_UnlockDc(dc); if (!TextObj) { SetLastWin32Error(ERROR_INVALID_HANDLE); return 0; } FontGDI = ObjToGDI(TextObj->Font, FONT); TEXTOBJ_UnlockText(TextObj); Count = ftGdiGetKerningPairs(FontGDI,0,NULL); if ( Count && krnpair ) { if (Count > NumPairs) { SetLastWin32Error(ERROR_INSUFFICIENT_BUFFER); return 0; } pKP = ExAllocatePoolWithTag(PagedPool, Count * sizeof(KERNINGPAIR), TAG_GDITEXT); if (!pKP) { SetLastWin32Error(ERROR_NOT_ENOUGH_MEMORY); return 0; } ftGdiGetKerningPairs(FontGDI,Count,pKP); RtlCopyMemory(krnpair, pKP, Count * sizeof(KERNINGPAIR)); ExFreePoolWithTag(pKP,TAG_GDITEXT); } return Count; } #if 0 DWORD FASTCALL GreGetCharacterPlacementW( HDC hdc, LPWSTR pwsz, INT nCount, INT nMaxExtent, LPGCP_RESULTSW pgcpw, DWORD dwFlags) { SIZE Size = {0,0}; if (!pgcpw) { if (GreGetTextExtentW( hdc, pwsz, nCount, &Size, 0)) return MAKELONG(Size.cx, Size.cy); return 0; } UNIMPLEMENTED; return 0; } #endif INT FASTCALL FontGetObject(PTEXTOBJ TFont, INT Count, PVOID Buffer) { if( Buffer == NULL ) return sizeof(LOGFONTW); switch (Count) { case sizeof(ENUMLOGFONTEXDVW): RtlCopyMemory( (LPENUMLOGFONTEXDVW) Buffer, &TFont->logfont, sizeof(ENUMLOGFONTEXDVW)); break; case sizeof(ENUMLOGFONTEXW): RtlCopyMemory( (LPENUMLOGFONTEXW) Buffer, &TFont->logfont.elfEnumLogfontEx, sizeof(ENUMLOGFONTEXW)); break; case sizeof(EXTLOGFONTW): case sizeof(ENUMLOGFONTW): RtlCopyMemory((LPENUMLOGFONTW) Buffer, &TFont->logfont.elfEnumLogfontEx.elfLogFont, sizeof(ENUMLOGFONTW)); break; case sizeof(LOGFONTW): RtlCopyMemory((LPLOGFONTW) Buffer, &TFont->logfont.elfEnumLogfontEx.elfLogFont, sizeof(LOGFONTW)); break; default: SetLastWin32Error(ERROR_BUFFER_OVERFLOW); return 0; } return Count; } DWORD FASTCALL IntGetCharDimensions(HDC hdc, PTEXTMETRICW ptm, PDWORD height) { PDC pdc; PDC_ATTR pdcattr; PTEXTOBJ TextObj; SIZE sz; TMW_INTERNAL tmwi; BOOL Good; static const WCHAR alphabet[] = { 'a','b','c','d','e','f','g','h','i','j','k','l','m','n','o','p','q', 'r','s','t','u','v','w','x','y','z','A','B','C','D','E','F','G','H', 'I','J','K','L','M','N','O','P','Q','R','S','T','U','V','W','X','Y','Z',0}; if(!ftGdiGetTextMetricsW(hdc, &tmwi)) return 0; pdc = DC_LockDc(hdc); if (!pdc) return 0; pdcattr = pdc->pdcattr; TextObj = RealizeFontInit(pdcattr->hlfntNew); if ( !TextObj ) { DC_UnlockDc(pdc); return 0; } Good = TextIntGetTextExtentPoint(pdc, TextObj, alphabet, 52, 0, NULL, 0, &sz, 0); TEXTOBJ_UnlockText(TextObj); DC_UnlockDc(pdc); if (!Good) return 0; if (ptm) *ptm = tmwi.TextMetric; if (height) *height = tmwi.TextMetric.tmHeight; return (sz.cx / 26 + 1) / 2; } DWORD FASTCALL IntGetFontLanguageInfo(PDC Dc) { PDC_ATTR pdcattr; FONTSIGNATURE fontsig; static const DWORD GCP_DBCS_MASK=0x003F0000, GCP_DIACRITIC_MASK=0x00000000, FLI_GLYPHS_MASK=0x00000000, GCP_GLYPHSHAPE_MASK=0x00000040, GCP_KASHIDA_MASK=0x00000000, GCP_LIGATE_MASK=0x00000000, GCP_USEKERNING_MASK=0x00000000, GCP_REORDER_MASK=0x00000060; DWORD result=0; ftGdiGetTextCharsetInfo( Dc, &fontsig, 0 ); /* We detect each flag we return using a bitmask on the Codepage Bitfields */ if( (fontsig.fsCsb[0]&GCP_DBCS_MASK)!=0 ) result|=GCP_DBCS; if( (fontsig.fsCsb[0]&GCP_DIACRITIC_MASK)!=0 ) result|=GCP_DIACRITIC; if( (fontsig.fsCsb[0]&FLI_GLYPHS_MASK)!=0 ) result|=FLI_GLYPHS; if( (fontsig.fsCsb[0]&GCP_GLYPHSHAPE_MASK)!=0 ) result|=GCP_GLYPHSHAPE; if( (fontsig.fsCsb[0]&GCP_KASHIDA_MASK)!=0 ) result|=GCP_KASHIDA; if( (fontsig.fsCsb[0]&GCP_LIGATE_MASK)!=0 ) result|=GCP_LIGATE; if( (fontsig.fsCsb[0]&GCP_USEKERNING_MASK)!=0 ) result|=GCP_USEKERNING; pdcattr = Dc->pdcattr; /* this might need a test for a HEBREW- or ARABIC_CHARSET as well */ if ( pdcattr->lTextAlign & TA_RTLREADING ) if( (fontsig.fsCsb[0]&GCP_REORDER_MASK)!=0 ) result|=GCP_REORDER; return result; } PTEXTOBJ FASTCALL RealizeFontInit(HFONT hFont) { NTSTATUS Status = STATUS_SUCCESS; PTEXTOBJ pTextObj; pTextObj = TEXTOBJ_LockText(hFont); if ( pTextObj && !(pTextObj->fl & TEXTOBJECT_INIT)) { Status = TextIntRealizeFont(hFont, pTextObj); if (!NT_SUCCESS(Status)) { TEXTOBJ_UnlockText(pTextObj); return NULL; } } return pTextObj; } HFONT FASTCALL GreSelectFont( HDC hDC, HFONT hFont) { PDC pdc; PDC_ATTR pdcattr; PTEXTOBJ pOrgFnt, pNewFnt = NULL; HFONT hOrgFont = NULL; if (!hDC || !hFont) return NULL; pdc = DC_LockDc(hDC); if (!pdc) { return NULL; } if (NT_SUCCESS(TextIntRealizeFont((HFONT)hFont,NULL))) { /* LFONTOBJ use share and locking. */ pNewFnt = TEXTOBJ_LockText(hFont); pdcattr = pdc->pdcattr; pOrgFnt = pdc->dclevel.plfnt; if (pOrgFnt) { hOrgFont = pOrgFnt->BaseObject.hHmgr; } else { hOrgFont = pdcattr->hlfntNew; } pdc->dclevel.plfnt = pNewFnt; pdc->hlfntCur = hFont; pdcattr->hlfntNew = hFont; pdcattr->ulDirty_ |= DIRTY_CHARSET; pdcattr->ulDirty_ &= ~SLOW_WIDTHS; } if (pNewFnt) TEXTOBJ_UnlockText(pNewFnt); DC_UnlockDc(pdc); return hOrgFont; } /** Functions ******************************************************************/ INT APIENTRY NtGdiAddFontResourceW( IN WCHAR *pwszFiles, IN ULONG cwc, IN ULONG cFiles, IN FLONG fl, IN DWORD dwPidTid, IN OPTIONAL DESIGNVECTOR *pdv) { UNICODE_STRING SafeFileName; PWSTR src; NTSTATUS Status; int Ret; /* FIXME - Protect with SEH? */ RtlInitUnicodeString(&SafeFileName, pwszFiles); /* Reserve for prepending '\??\' */ SafeFileName.Length += 4 * sizeof(WCHAR); SafeFileName.MaximumLength += 4 * sizeof(WCHAR); src = SafeFileName.Buffer; SafeFileName.Buffer = (PWSTR)ExAllocatePoolWithTag(PagedPool, SafeFileName.MaximumLength, TAG_STRING); if(!SafeFileName.Buffer) { SetLastWin32Error(ERROR_NOT_ENOUGH_MEMORY); return 0; } /* Prepend '\??\' */ RtlCopyMemory(SafeFileName.Buffer, L"\\??\\", 4 * sizeof(WCHAR)); Status = MmCopyFromCaller(SafeFileName.Buffer + 4, src, SafeFileName.MaximumLength - (4 * sizeof(WCHAR))); if(!NT_SUCCESS(Status)) { ExFreePoolWithTag(SafeFileName.Buffer, TAG_STRING); SetLastNtError(Status); return 0; } Ret = IntGdiAddFontResource(&SafeFileName, (DWORD)fl); ExFreePoolWithTag(SafeFileName.Buffer, TAG_STRING); return Ret; } /* * @unimplemented */ DWORD APIENTRY NtGdiGetCharacterPlacementW( IN HDC hdc, IN LPWSTR pwsz, IN INT nCount, IN INT nMaxExtent, IN OUT LPGCP_RESULTSW pgcpw, IN DWORD dwFlags) { UNIMPLEMENTED; return 0; } DWORD APIENTRY NtGdiGetFontData( HDC hDC, DWORD Table, DWORD Offset, LPVOID Buffer, DWORD Size) { PDC Dc; PDC_ATTR pdcattr; HFONT hFont; PTEXTOBJ TextObj; PFONTGDI FontGdi; DWORD Result = GDI_ERROR; NTSTATUS Status = STATUS_SUCCESS; if (Buffer && Size) { _SEH2_TRY { ProbeForRead(Buffer, Size, 1); } _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER) { Status = _SEH2_GetExceptionCode(); } _SEH2_END } if (!NT_SUCCESS(Status)) return Result; Dc = DC_LockDc(hDC); if (Dc == NULL) { SetLastWin32Error(ERROR_INVALID_HANDLE); return GDI_ERROR; } pdcattr = Dc->pdcattr; hFont = pdcattr->hlfntNew; TextObj = RealizeFontInit(hFont); DC_UnlockDc(Dc); if (TextObj == NULL) { SetLastWin32Error(ERROR_INVALID_HANDLE); return GDI_ERROR; } FontGdi = ObjToGDI(TextObj->Font, FONT); Result = ftGdiGetFontData(FontGdi, Table, Offset, Buffer, Size); TEXTOBJ_UnlockText(TextObj); return Result; } /* * @implemented */ DWORD APIENTRY NtGdiGetFontUnicodeRanges( IN HDC hdc, OUT OPTIONAL LPGLYPHSET pgs) { PDC pDc; PDC_ATTR pdcattr; HFONT hFont; PTEXTOBJ TextObj; PFONTGDI FontGdi; DWORD Size = 0; PGLYPHSET pgsSafe; NTSTATUS Status = STATUS_SUCCESS; pDc = DC_LockDc(hdc); if (!pDc) { SetLastWin32Error(ERROR_INVALID_HANDLE); return 0; } pdcattr = pDc->pdcattr; hFont = pdcattr->hlfntNew; TextObj = RealizeFontInit(hFont); if ( TextObj == NULL) { SetLastWin32Error(ERROR_INVALID_HANDLE); goto Exit; } FontGdi = ObjToGDI(TextObj->Font, FONT); Size = ftGetFontUnicodeRanges( FontGdi, NULL); if (Size && pgs) { pgsSafe = ExAllocatePoolWithTag(PagedPool, Size, TAG_GDITEXT); if (!pgsSafe) { SetLastWin32Error(ERROR_NOT_ENOUGH_MEMORY); Size = 0; goto Exit; } Size = ftGetFontUnicodeRanges( FontGdi, pgsSafe); if (Size) { _SEH2_TRY { ProbeForWrite(pgs, Size, 1); RtlCopyMemory(pgs, pgsSafe, Size); } _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER) { Status = _SEH2_GetExceptionCode(); } _SEH2_END if (!NT_SUCCESS(Status)) Size = 0; } ExFreePoolWithTag(pgsSafe, TAG_GDITEXT); } Exit: TEXTOBJ_UnlockText(TextObj); DC_UnlockDc(pDc); return Size; } ULONG APIENTRY NtGdiGetGlyphOutline( IN HDC hdc, IN WCHAR wch, IN UINT iFormat, OUT LPGLYPHMETRICS pgm, IN ULONG cjBuf, OUT OPTIONAL PVOID UnsafeBuf, IN LPMAT2 pmat2, IN BOOL bIgnoreRotation) { ULONG Ret = GDI_ERROR; PDC dc; PVOID pvBuf = NULL; GLYPHMETRICS gm; NTSTATUS Status = STATUS_SUCCESS; dc = DC_LockDc(hdc); if (!dc) { SetLastWin32Error(ERROR_INVALID_HANDLE); return GDI_ERROR; } if (UnsafeBuf && cjBuf) { pvBuf = ExAllocatePoolWithTag(PagedPool, cjBuf, TAG_GDITEXT); if (!pvBuf) { SetLastWin32Error(ERROR_NOT_ENOUGH_MEMORY); goto Exit; } } Ret = ftGdiGetGlyphOutline( dc, wch, iFormat, pgm ? &gm : NULL, cjBuf, pvBuf, pmat2, bIgnoreRotation); if (pvBuf) { _SEH2_TRY { ProbeForWrite(UnsafeBuf, cjBuf, 1); RtlCopyMemory(UnsafeBuf, pvBuf, cjBuf); } _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER) { Status = _SEH2_GetExceptionCode(); } _SEH2_END ExFreePoolWithTag(pvBuf, TAG_GDITEXT); } if (pgm) { _SEH2_TRY { ProbeForWrite(pgm, sizeof(GLYPHMETRICS), 1); RtlCopyMemory(pgm, &gm, sizeof(GLYPHMETRICS)); } _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER) { Status = _SEH2_GetExceptionCode(); } _SEH2_END } if (! NT_SUCCESS(Status)) { SetLastWin32Error(ERROR_INVALID_PARAMETER); Ret = GDI_ERROR; } Exit: DC_UnlockDc(dc); return Ret; } DWORD APIENTRY NtGdiGetKerningPairs(HDC hDC, ULONG NumPairs, LPKERNINGPAIR krnpair) { PDC dc; PDC_ATTR pdcattr; PTEXTOBJ TextObj; PFONTGDI FontGDI; DWORD Count; KERNINGPAIR *pKP; NTSTATUS Status = STATUS_SUCCESS; dc = DC_LockDc(hDC); if (!dc) { SetLastWin32Error(ERROR_INVALID_HANDLE); return 0; } pdcattr = dc->pdcattr; TextObj = RealizeFontInit(pdcattr->hlfntNew); DC_UnlockDc(dc); if (!TextObj) { SetLastWin32Error(ERROR_INVALID_HANDLE); return 0; } FontGDI = ObjToGDI(TextObj->Font, FONT); TEXTOBJ_UnlockText(TextObj); Count = ftGdiGetKerningPairs(FontGDI,0,NULL); if ( Count && krnpair ) { if (Count > NumPairs) { SetLastWin32Error(ERROR_INSUFFICIENT_BUFFER); return 0; } pKP = ExAllocatePoolWithTag(PagedPool, Count * sizeof(KERNINGPAIR), TAG_GDITEXT); if (!pKP) { SetLastWin32Error(ERROR_NOT_ENOUGH_MEMORY); return 0; } ftGdiGetKerningPairs(FontGDI,Count,pKP); _SEH2_TRY { ProbeForWrite(krnpair, Count * sizeof(KERNINGPAIR), 1); RtlCopyMemory(krnpair, pKP, Count * sizeof(KERNINGPAIR)); } _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER) { Status = _SEH2_GetExceptionCode(); } _SEH2_END if (!NT_SUCCESS(Status)) { SetLastWin32Error(ERROR_INVALID_PARAMETER); Count = 0; } ExFreePoolWithTag(pKP,TAG_GDITEXT); } return Count; } /* From "Undocumented Windows 2000 Secrets" Appendix B, Table B-2, page 472, this is NtGdiGetOutlineTextMetricsInternalW. */ ULONG APIENTRY NtGdiGetOutlineTextMetricsInternalW (HDC hDC, ULONG Data, OUTLINETEXTMETRICW *otm, TMDIFF *Tmd) { PDC dc; PDC_ATTR pdcattr; PTEXTOBJ TextObj; PFONTGDI FontGDI; HFONT hFont = 0; ULONG Size; OUTLINETEXTMETRICW *potm; NTSTATUS Status = STATUS_SUCCESS; dc = DC_LockDc(hDC); if (!dc) { SetLastWin32Error(ERROR_INVALID_HANDLE); return 0; } pdcattr = dc->pdcattr; hFont = pdcattr->hlfntNew; TextObj = RealizeFontInit(hFont); DC_UnlockDc(dc); if (!TextObj) { SetLastWin32Error(ERROR_INVALID_HANDLE); return 0; } FontGDI = ObjToGDI(TextObj->Font, FONT); TEXTOBJ_UnlockText(TextObj); Size = IntGetOutlineTextMetrics(FontGDI, 0, NULL); if (!otm) return Size; if (Size > Data) { SetLastWin32Error(ERROR_INSUFFICIENT_BUFFER); return 0; } potm = ExAllocatePoolWithTag(PagedPool, Size, TAG_GDITEXT); if (!potm) { SetLastWin32Error(ERROR_NOT_ENOUGH_MEMORY); return 0; } IntGetOutlineTextMetrics(FontGDI, Size, potm); if (otm) { _SEH2_TRY { ProbeForWrite(otm, Size, 1); RtlCopyMemory(otm, potm, Size); } _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER) { Status = _SEH2_GetExceptionCode(); } _SEH2_END if (!NT_SUCCESS(Status)) { SetLastWin32Error(ERROR_INVALID_PARAMETER); Size = 0; } } ExFreePoolWithTag(potm,TAG_GDITEXT); return Size; } W32KAPI BOOL APIENTRY NtGdiGetFontResourceInfoInternalW( IN LPWSTR pwszFiles, IN ULONG cwc, IN ULONG cFiles, IN UINT cjIn, OUT LPDWORD pdwBytes, OUT LPVOID pvBuf, IN DWORD dwType) { NTSTATUS Status = STATUS_SUCCESS; DWORD dwBytes; UNICODE_STRING SafeFileNames; BOOL bRet = FALSE; ULONG cbStringSize; union { LOGFONTW logfontw; WCHAR FullName[LF_FULLFACESIZE]; } Buffer; /* FIXME: handle cFiles > 0 */ /* Check for valid dwType values dwType == 4 seems to be handled by gdi32 only */ if (dwType == 4 || dwType > 5) { SetLastWin32Error(ERROR_INVALID_PARAMETER); return FALSE; } /* Allocate a safe unicode string buffer */ cbStringSize = cwc * sizeof(WCHAR); SafeFileNames.MaximumLength = SafeFileNames.Length = cbStringSize - sizeof(WCHAR); SafeFileNames.Buffer = ExAllocatePoolWithTag(PagedPool, cbStringSize, 'RTSU'); if (!SafeFileNames.Buffer) { SetLastWin32Error(ERROR_NOT_ENOUGH_MEMORY); return FALSE; } /* Check buffers and copy pwszFiles to safe unicode string */ _SEH2_TRY { ProbeForRead(pwszFiles, cbStringSize, 1); ProbeForWrite(pdwBytes, sizeof(DWORD), 1); ProbeForWrite(pvBuf, cjIn, 1); RtlCopyMemory(SafeFileNames.Buffer, pwszFiles, cbStringSize); } _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER) { Status = _SEH2_GetExceptionCode(); } _SEH2_END if(!NT_SUCCESS(Status)) { SetLastNtError(Status); /* Free the string buffer for the safe filename */ ExFreePoolWithTag(SafeFileNames.Buffer,'RTSU'); return FALSE; } /* Do the actual call */ bRet = IntGdiGetFontResourceInfo(&SafeFileNames, &Buffer, &dwBytes, dwType); /* Check if succeeded and the buffer is big enough */ if (bRet && cjIn >= dwBytes) { /* Copy the data back to caller */ _SEH2_TRY { /* Buffers are already probed */ RtlCopyMemory(pvBuf, &Buffer, dwBytes); *pdwBytes = dwBytes; } _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER) { Status = _SEH2_GetExceptionCode(); } _SEH2_END if(!NT_SUCCESS(Status)) { SetLastNtError(Status); bRet = FALSE; } } /* Free the string for the safe filenames */ ExFreePoolWithTag(SafeFileNames.Buffer,'RTSU'); return bRet; } /* * @unimplemented */ BOOL APIENTRY NtGdiGetRealizationInfo( IN HDC hdc, OUT PREALIZATION_INFO pri, IN HFONT hf) { PDC pDc; PTEXTOBJ pTextObj; PFONTGDI pFontGdi; PDC_ATTR pdcattr; BOOL Ret = FALSE; INT i = 0; REALIZATION_INFO ri; pDc = DC_LockDc(hdc); if (!pDc) { SetLastWin32Error(ERROR_INVALID_HANDLE); return 0; } pdcattr = pDc->pdcattr; pTextObj = RealizeFontInit(pdcattr->hlfntNew); pFontGdi = ObjToGDI(pTextObj->Font, FONT); TEXTOBJ_UnlockText(pTextObj); DC_UnlockDc(pDc); Ret = ftGdiRealizationInfo(pFontGdi, &ri); if (Ret) { if (pri) { NTSTATUS Status = STATUS_SUCCESS; _SEH2_TRY { ProbeForWrite(pri, sizeof(REALIZATION_INFO), 1); RtlCopyMemory(pri, &ri, sizeof(REALIZATION_INFO)); } _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER) { Status = _SEH2_GetExceptionCode(); } _SEH2_END if(!NT_SUCCESS(Status)) { SetLastNtError(Status); return FALSE; } } do { if (GdiHandleTable->cfPublic[i].hf == hf) { GdiHandleTable->cfPublic[i].iTechnology = ri.iTechnology; GdiHandleTable->cfPublic[i].iUniq = ri.iUniq; GdiHandleTable->cfPublic[i].dwUnknown = ri.dwUnknown; GdiHandleTable->cfPublic[i].dwCFCount = GdiHandleTable->dwCFCount; GdiHandleTable->cfPublic[i].fl |= CFONT_REALIZATION; } i++; } while ( i < GDI_CFONT_MAX ); } return Ret; } HFONT APIENTRY NtGdiHfontCreate( IN PENUMLOGFONTEXDVW pelfw, IN ULONG cjElfw, IN LFTYPE lft, IN FLONG fl, IN PVOID pvCliData ) { ENUMLOGFONTEXDVW SafeLogfont; HFONT hNewFont; PTEXTOBJ TextObj; NTSTATUS Status = STATUS_SUCCESS; /* Silence GCC warnings */ SafeLogfont.elfEnumLogfontEx.elfLogFont.lfEscapement = 0; SafeLogfont.elfEnumLogfontEx.elfLogFont.lfOrientation = 0; if (!pelfw) { return NULL; } _SEH2_TRY { ProbeForRead(pelfw, sizeof(ENUMLOGFONTEXDVW), 1); RtlCopyMemory(&SafeLogfont, pelfw, sizeof(ENUMLOGFONTEXDVW)); } _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER) { Status = _SEH2_GetExceptionCode(); } _SEH2_END if (!NT_SUCCESS(Status)) { return NULL; } TextObj = TEXTOBJ_AllocTextWithHandle(); if (!TextObj) { return NULL; } hNewFont = TextObj->BaseObject.hHmgr; TextObj->lft = lft; TextObj->fl = fl; RtlCopyMemory (&TextObj->logfont, &SafeLogfont, sizeof(ENUMLOGFONTEXDVW)); if (SafeLogfont.elfEnumLogfontEx.elfLogFont.lfEscapement != SafeLogfont.elfEnumLogfontEx.elfLogFont.lfOrientation) { /* this should really depend on whether GM_ADVANCED is set */ TextObj->logfont.elfEnumLogfontEx.elfLogFont.lfOrientation = TextObj->logfont.elfEnumLogfontEx.elfLogFont.lfEscapement; } TEXTOBJ_UnlockText(TextObj); if (pvCliData && hNewFont) { // FIXME: use GDIOBJ_InsertUserData KeEnterCriticalRegion(); { INT Index = GDI_HANDLE_GET_INDEX((HGDIOBJ)hNewFont); PGDI_TABLE_ENTRY Entry = &GdiHandleTable->Entries[Index]; Entry->UserData = pvCliData; } KeLeaveCriticalRegion(); } return hNewFont; } /* * @implemented */ HFONT APIENTRY NtGdiSelectFont( IN HDC hDC, IN HFONT hFont) { return GreSelectFont(hDC, hFont); } /* EOF */