/* -*- Mode: C++; tab-width: 20; indent-tabs-mode: nil; c-basic-offset: 4 -*- * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "mozilla/DebugOnly.h" #include #ifdef MOZ_LOGGING #define FORCE_PR_LOG /* Allow logging in the release build */ #endif #include "prlog.h" #include "gfxGDIFontList.h" #include "gfxWindowsPlatform.h" #include "gfxUserFontSet.h" #include "gfxFontUtils.h" #include "gfxGDIFont.h" #include "nsServiceManagerUtils.h" #include "nsTArray.h" #include "nsUnicharUtils.h" #include "nsDirectoryServiceUtils.h" #include "nsDirectoryServiceDefs.h" #include "nsAppDirectoryServiceDefs.h" #include "nsISimpleEnumerator.h" #include "nsIWindowsRegKey.h" #include "mozilla/Telemetry.h" #include #include using namespace mozilla; #define ROUND(x) floor((x) + 0.5) #ifndef CLEARTYPE_QUALITY #define CLEARTYPE_QUALITY 5 #endif #ifdef PR_LOGGING #define LOG_FONTLIST(args) PR_LOG(gfxPlatform::GetLog(eGfxLog_fontlist), \ PR_LOG_DEBUG, args) #define LOG_FONTLIST_ENABLED() PR_LOG_TEST( \ gfxPlatform::GetLog(eGfxLog_fontlist), \ PR_LOG_DEBUG) #define LOG_CMAPDATA_ENABLED() PR_LOG_TEST( \ gfxPlatform::GetLog(eGfxLog_cmapdata), \ PR_LOG_DEBUG) #endif // PR_LOGGING static __inline void BuildKeyNameFromFontName(nsAString &aName) { if (aName.Length() >= LF_FACESIZE) aName.Truncate(LF_FACESIZE - 1); ToLowerCase(aName); } // Implementation of gfxPlatformFontList for Win32 GDI, // using GDI font enumeration APIs to get the list of fonts typedef LONG (WINAPI *TTLoadEmbeddedFontProc)(HANDLE* phFontReference, ULONG ulFlags, ULONG* pulPrivStatus, ULONG ulPrivs, ULONG* pulStatus, READEMBEDPROC lpfnReadFromStream, LPVOID lpvReadStream, LPWSTR szWinFamilyName, LPSTR szMacFamilyName, TTLOADINFO* pTTLoadInfo); typedef LONG (WINAPI *TTDeleteEmbeddedFontProc)(HANDLE hFontReference, ULONG ulFlags, ULONG* pulStatus); static TTLoadEmbeddedFontProc TTLoadEmbeddedFontPtr = nullptr; static TTDeleteEmbeddedFontProc TTDeleteEmbeddedFontPtr = nullptr; class WinUserFontData : public gfxUserFontData { public: WinUserFontData(HANDLE aFontRef, bool aIsEmbedded) : mFontRef(aFontRef), mIsEmbedded(aIsEmbedded) { } virtual ~WinUserFontData() { if (mIsEmbedded) { ULONG pulStatus; LONG err; err = TTDeleteEmbeddedFontPtr(mFontRef, 0, &pulStatus); #if DEBUG if (err != E_NONE) { char buf[256]; sprintf(buf, "error deleting embedded font handle (%p) - TTDeleteEmbeddedFont returned %8.8x", mFontRef, err); NS_ASSERTION(err == E_NONE, buf); } #endif } else { DebugOnly success; success = RemoveFontMemResourceEx(mFontRef); #if DEBUG if (!success) { char buf[256]; sprintf(buf, "error deleting font handle (%p) - RemoveFontMemResourceEx failed", mFontRef); NS_ASSERTION(success, buf); } #endif } } HANDLE mFontRef; bool mIsEmbedded; }; BYTE FontTypeToOutPrecision(uint8_t fontType) { BYTE ret; switch (fontType) { case GFX_FONT_TYPE_TT_OPENTYPE: case GFX_FONT_TYPE_TRUETYPE: ret = OUT_TT_ONLY_PRECIS; break; case GFX_FONT_TYPE_PS_OPENTYPE: ret = OUT_PS_ONLY_PRECIS; break; case GFX_FONT_TYPE_TYPE1: ret = OUT_OUTLINE_PRECIS; break; case GFX_FONT_TYPE_RASTER: ret = OUT_RASTER_PRECIS; break; case GFX_FONT_TYPE_DEVICE: ret = OUT_DEVICE_PRECIS; break; default: ret = OUT_DEFAULT_PRECIS; } return ret; } /*************************************************************** * * GDIFontEntry * */ GDIFontEntry::GDIFontEntry(const nsAString& aFaceName, gfxWindowsFontType aFontType, bool aItalic, uint16_t aWeight, int16_t aStretch, gfxUserFontData *aUserFontData, bool aFamilyHasItalicFace) : gfxFontEntry(aFaceName), mWindowsFamily(0), mWindowsPitch(0), mFontType(aFontType), mForceGDI(false), mFamilyHasItalicFace(aFamilyHasItalicFace), mCharset(), mUnicodeRanges() { mUserFontData = aUserFontData; mItalic = aItalic; mWeight = aWeight; mStretch = aStretch; if (IsType1()) mForceGDI = true; mIsUserFont = aUserFontData != nullptr; InitLogFont(aFaceName, aFontType); } nsresult GDIFontEntry::ReadCMAP() { // attempt this once, if errors occur leave a blank cmap if (mCharacterMap) { return NS_OK; } // skip non-SFNT fonts completely if (mFontType != GFX_FONT_TYPE_PS_OPENTYPE && mFontType != GFX_FONT_TYPE_TT_OPENTYPE && mFontType != GFX_FONT_TYPE_TRUETYPE) { mCharacterMap = new gfxCharacterMap(); mCharacterMap->mBuildOnTheFly = true; return NS_ERROR_FAILURE; } nsRefPtr charmap = new gfxCharacterMap(); uint32_t kCMAP = TRUETYPE_TAG('c','m','a','p'); nsresult rv; AutoFallibleTArray cmap; rv = CopyFontTable(kCMAP, cmap); bool unicodeFont = false, symbolFont = false; // currently ignored if (NS_SUCCEEDED(rv)) { rv = gfxFontUtils::ReadCMAP(cmap.Elements(), cmap.Length(), *charmap, mUVSOffset, unicodeFont, symbolFont); } mSymbolFont = symbolFont; mHasCmapTable = NS_SUCCEEDED(rv); if (mHasCmapTable) { gfxPlatformFontList *pfl = gfxPlatformFontList::PlatformFontList(); mCharacterMap = pfl->FindCharMap(charmap); } else { // if error occurred, initialize to null cmap mCharacterMap = new gfxCharacterMap(); // For fonts where we failed to read the character map, // we can take a slow path to look up glyphs character by character mCharacterMap->mBuildOnTheFly = true; } #ifdef PR_LOGGING LOG_FONTLIST(("(fontlist-cmap) name: %s, size: %d hash: %8.8x%s\n", NS_ConvertUTF16toUTF8(mName).get(), charmap->SizeOfIncludingThis(moz_malloc_size_of), charmap->mHash, mCharacterMap == charmap ? " new" : "")); if (LOG_CMAPDATA_ENABLED()) { char prefix[256]; sprintf(prefix, "(cmapdata) name: %.220s", NS_ConvertUTF16toUTF8(mName).get()); charmap->Dump(prefix, eGfxLog_cmapdata); } #endif return rv; } bool GDIFontEntry::IsSymbolFont() { // initialize cmap first HasCmapTable(); return mSymbolFont; } gfxFont * GDIFontEntry::CreateFontInstance(const gfxFontStyle* aFontStyle, bool aNeedsBold) { bool isXP = (gfxWindowsPlatform::WindowsOSVersion() < gfxWindowsPlatform::kWindowsVista); bool useClearType = isXP && !aFontStyle->systemFont && (gfxWindowsPlatform::GetPlatform()->UseClearTypeAlways() || (mIsUserFont && !mIsLocalUserFont && gfxWindowsPlatform::GetPlatform()->UseClearTypeForDownloadableFonts())); return new gfxGDIFont(this, aFontStyle, aNeedsBold, (useClearType ? gfxFont::kAntialiasSubpixel : gfxFont::kAntialiasDefault)); } nsresult GDIFontEntry::CopyFontTable(uint32_t aTableTag, FallibleTArray& aBuffer) { if (!IsTrueType()) { return NS_ERROR_FAILURE; } AutoDC dc; AutoSelectFont font(dc.GetDC(), &mLogFont); if (font.IsValid()) { uint32_t tableSize = ::GetFontData(dc.GetDC(), NativeEndian::swapToBigEndian(aTableTag), 0, NULL, 0); if (tableSize != GDI_ERROR) { if (aBuffer.SetLength(tableSize)) { ::GetFontData(dc.GetDC(), NativeEndian::swapToBigEndian(aTableTag), 0, aBuffer.Elements(), tableSize); return NS_OK; } return NS_ERROR_OUT_OF_MEMORY; } } return NS_ERROR_FAILURE; } void GDIFontEntry::FillLogFont(LOGFONTW *aLogFont, uint16_t aWeight, gfxFloat aSize, bool aUseCleartype) { memcpy(aLogFont, &mLogFont, sizeof(LOGFONTW)); aLogFont->lfHeight = (LONG)-ROUND(aSize); if (aLogFont->lfHeight == 0) { aLogFont->lfHeight = -1; } // If a non-zero weight is passed in, use this to override the original // weight in the entry's logfont. This is used to control synthetic bolding // for installed families with no bold face, and for downloaded fonts // (but NOT for local user fonts, because it could cause a different, // glyph-incompatible face to be used) if (aWeight) { aLogFont->lfWeight = aWeight; } // for non-local() user fonts, we never want to apply italics here; // if the face is described as italic, we should use it as-is, // and if it's not, but then the element is styled italic, we'll use // a cairo transform to create fake italic (oblique) if (IsUserFont() && !IsLocalUserFont()) { aLogFont->lfItalic = 0; } aLogFont->lfQuality = (aUseCleartype ? CLEARTYPE_QUALITY : DEFAULT_QUALITY); } #define MISSING_GLYPH 0x1F // glyph index returned for missing characters // on WinXP with .fon fonts, but not Type1 (.pfb) bool GDIFontEntry::TestCharacterMap(uint32_t aCh) { if (!mCharacterMap) { ReadCMAP(); NS_ASSERTION(mCharacterMap, "failed to initialize a character map"); } if (mCharacterMap->mBuildOnTheFly) { if (aCh > 0xFFFF) return false; // previous code was using the group style gfxFontStyle fakeStyle; if (mItalic) fakeStyle.style = NS_FONT_STYLE_ITALIC; fakeStyle.weight = mWeight * 100; nsRefPtr tempFont = FindOrMakeFont(&fakeStyle, false); if (!tempFont || !tempFont->Valid()) return false; gfxGDIFont *font = static_cast(tempFont.get()); HDC dc = GetDC((HWND)nullptr); SetGraphicsMode(dc, GM_ADVANCED); HFONT hfont = font->GetHFONT(); HFONT oldFont = (HFONT)SelectObject(dc, hfont); PRUnichar str[1] = { (PRUnichar)aCh }; WORD glyph[1]; bool hasGlyph = false; // Bug 573038 - in some cases GetGlyphIndicesW returns 0xFFFF for a // missing glyph or 0x1F in other cases to indicate the "invalid" // glyph. Map both cases to "not found" if (IsType1() || mForceGDI) { // Type1 fonts and uniscribe APIs don't get along. // ScriptGetCMap will return E_HANDLE DWORD ret = GetGlyphIndicesW(dc, str, 1, glyph, GGI_MARK_NONEXISTING_GLYPHS); if (ret != GDI_ERROR && glyph[0] != 0xFFFF && (IsType1() || glyph[0] != MISSING_GLYPH)) { hasGlyph = true; } } else { // ScriptGetCMap works better than GetGlyphIndicesW // for things like bitmap/vector fonts SCRIPT_CACHE sc = NULL; HRESULT rv = ScriptGetCMap(dc, &sc, str, 1, 0, glyph); if (rv == S_OK) hasGlyph = true; } SelectObject(dc, oldFont); ReleaseDC(NULL, dc); if (hasGlyph) { mCharacterMap->set(aCh); return true; } } else { // font had a cmap so simply check that return mCharacterMap->test(aCh); } return false; } void GDIFontEntry::InitLogFont(const nsAString& aName, gfxWindowsFontType aFontType) { #define CLIP_TURNOFF_FONTASSOCIATION 0x40 mLogFont.lfHeight = -1; // Fill in logFont structure mLogFont.lfWidth = 0; mLogFont.lfEscapement = 0; mLogFont.lfOrientation = 0; mLogFont.lfUnderline = FALSE; mLogFont.lfStrikeOut = FALSE; mLogFont.lfCharSet = DEFAULT_CHARSET; mLogFont.lfOutPrecision = FontTypeToOutPrecision(aFontType); mLogFont.lfClipPrecision = CLIP_TURNOFF_FONTASSOCIATION; mLogFont.lfQuality = DEFAULT_QUALITY; mLogFont.lfPitchAndFamily = DEFAULT_PITCH | FF_DONTCARE; // always force lfItalic if we want it. Font selection code will // do its best to give us an italic font entry, but if no face exists // it may give us a regular one based on weight. Windows should // do fake italic for us in that case. mLogFont.lfItalic = mItalic; mLogFont.lfWeight = mWeight; int len = std::min(aName.Length(), LF_FACESIZE - 1); memcpy(&mLogFont.lfFaceName, aName.BeginReading(), len * sizeof(PRUnichar)); mLogFont.lfFaceName[len] = '\0'; } GDIFontEntry* GDIFontEntry::CreateFontEntry(const nsAString& aName, gfxWindowsFontType aFontType, bool aItalic, uint16_t aWeight, int16_t aStretch, gfxUserFontData* aUserFontData, bool aFamilyHasItalicFace) { // jtdfix - need to set charset, unicode ranges, pitch/family GDIFontEntry *fe = new GDIFontEntry(aName, aFontType, aItalic, aWeight, aStretch, aUserFontData, aFamilyHasItalicFace); return fe; } void GDIFontEntry::SizeOfIncludingThis(nsMallocSizeOfFun aMallocSizeOf, FontListSizes* aSizes) const { aSizes->mFontListSize += aMallocSizeOf(this); SizeOfExcludingThis(aMallocSizeOf, aSizes); } /*************************************************************** * * GDIFontFamily * */ int CALLBACK GDIFontFamily::FamilyAddStylesProc(const ENUMLOGFONTEXW *lpelfe, const NEWTEXTMETRICEXW *nmetrics, DWORD fontType, LPARAM data) { const NEWTEXTMETRICW& metrics = nmetrics->ntmTm; LOGFONTW logFont = lpelfe->elfLogFont; GDIFontFamily *ff = reinterpret_cast(data); // Some fonts claim to support things > 900, but we don't so clamp the sizes logFont.lfWeight = clamped(logFont.lfWeight, LONG(100), LONG(900)); gfxWindowsFontType feType = GDIFontEntry::DetermineFontType(metrics, fontType); GDIFontEntry *fe = nullptr; for (uint32_t i = 0; i < ff->mAvailableFonts.Length(); ++i) { fe = static_cast(ff->mAvailableFonts[i].get()); if (feType > fe->mFontType) { // if the new type is better than the old one, remove the old entries ff->mAvailableFonts.RemoveElementAt(i); --i; } else if (feType < fe->mFontType) { // otherwise if the new type is worse, skip it return 1; } } for (uint32_t i = 0; i < ff->mAvailableFonts.Length(); ++i) { fe = static_cast(ff->mAvailableFonts[i].get()); // check if we already know about this face if (fe->mWeight == logFont.lfWeight && fe->mItalic == (logFont.lfItalic == 0xFF)) { // update the charset bit here since this could be different fe->mCharset.set(metrics.tmCharSet); return 1; } } // We can't set the hasItalicFace flag correctly here, // because we might not have seen the family's italic face(s) yet. // So we'll set that flag for all members after loading all the faces. fe = GDIFontEntry::CreateFontEntry(nsDependentString(lpelfe->elfFullName), feType, (logFont.lfItalic == 0xFF), (uint16_t) (logFont.lfWeight), 0, nullptr, false); if (!fe) return 1; ff->AddFontEntry(fe); // mark the charset bit fe->mCharset.set(metrics.tmCharSet); fe->mWindowsFamily = logFont.lfPitchAndFamily & 0xF0; fe->mWindowsPitch = logFont.lfPitchAndFamily & 0x0F; if (nmetrics->ntmFontSig.fsUsb[0] != 0x00000000 && nmetrics->ntmFontSig.fsUsb[1] != 0x00000000 && nmetrics->ntmFontSig.fsUsb[2] != 0x00000000 && nmetrics->ntmFontSig.fsUsb[3] != 0x00000000) { // set the unicode ranges uint32_t x = 0; for (uint32_t i = 0; i < 4; ++i) { DWORD range = nmetrics->ntmFontSig.fsUsb[i]; for (uint32_t k = 0; k < 32; ++k) { fe->mUnicodeRanges.set(x++, (range & (1 << k)) != 0); } } } #ifdef PR_LOGGING if (LOG_FONTLIST_ENABLED()) { LOG_FONTLIST(("(fontlist) added (%s) to family (%s)" " with style: %s weight: %d stretch: %d", NS_ConvertUTF16toUTF8(fe->Name()).get(), NS_ConvertUTF16toUTF8(ff->Name()).get(), (logFont.lfItalic == 0xff) ? "italic" : "normal", logFont.lfWeight, fe->Stretch())); } #endif return 1; } void GDIFontFamily::FindStyleVariations() { if (mHasStyles) return; mHasStyles = true; HDC hdc = GetDC(nullptr); SetGraphicsMode(hdc, GM_ADVANCED); LOGFONTW logFont; memset(&logFont, 0, sizeof(LOGFONTW)); logFont.lfCharSet = DEFAULT_CHARSET; logFont.lfPitchAndFamily = 0; uint32_t l = std::min(mName.Length(), LF_FACESIZE - 1); memcpy(logFont.lfFaceName, mName.get(), l * sizeof(PRUnichar)); EnumFontFamiliesExW(hdc, &logFont, (FONTENUMPROCW)GDIFontFamily::FamilyAddStylesProc, (LPARAM)this, 0); #ifdef PR_LOGGING if (LOG_FONTLIST_ENABLED() && mAvailableFonts.Length() == 0) { LOG_FONTLIST(("(fontlist) no styles available in family \"%s\"", NS_ConvertUTF16toUTF8(mName).get())); } #endif ReleaseDC(nullptr, hdc); if (mIsBadUnderlineFamily) { SetBadUnderlineFonts(); } // check for existence of italic face(s); if present, set the // FamilyHasItalic flag on all faces so that we'll know *not* // to use GDI's fake-italic effect with them size_t count = mAvailableFonts.Length(); for (size_t i = 0; i < count; ++i) { if (mAvailableFonts[i]->IsItalic()) { for (uint32_t j = 0; j < count; ++j) { static_cast(mAvailableFonts[j].get())-> mFamilyHasItalicFace = true; } break; } } } /*************************************************************** * * gfxGDIFontList * */ gfxGDIFontList::gfxGDIFontList() { mFontSubstitutes.Init(50); InitializeFontEmbeddingProcs(); } static void RemoveCharsetFromFontSubstitute(nsAString &aName) { int32_t comma = aName.FindChar(PRUnichar(',')); if (comma >= 0) aName.Truncate(comma); } #define MAX_VALUE_NAME 512 #define MAX_VALUE_DATA 512 nsresult gfxGDIFontList::GetFontSubstitutes() { HKEY hKey; DWORD i, rv, lenAlias, lenActual, valueType; WCHAR aliasName[MAX_VALUE_NAME]; WCHAR actualName[MAX_VALUE_DATA]; if (RegOpenKeyExW(HKEY_LOCAL_MACHINE, L"SOFTWARE\\Microsoft\\Windows NT\\CurrentVersion\\FontSubstitutes", 0, KEY_READ, &hKey) != ERROR_SUCCESS) { return NS_ERROR_FAILURE; } for (i = 0, rv = ERROR_SUCCESS; rv != ERROR_NO_MORE_ITEMS; i++) { aliasName[0] = 0; lenAlias = ArrayLength(aliasName); actualName[0] = 0; lenActual = sizeof(actualName); rv = RegEnumValueW(hKey, i, aliasName, &lenAlias, NULL, &valueType, (LPBYTE)actualName, &lenActual); if (rv != ERROR_SUCCESS || valueType != REG_SZ || lenAlias == 0) { continue; } if (aliasName[0] == WCHAR('@')) { continue; } nsAutoString substituteName((PRUnichar*) aliasName); nsAutoString actualFontName((PRUnichar*) actualName); RemoveCharsetFromFontSubstitute(substituteName); BuildKeyNameFromFontName(substituteName); RemoveCharsetFromFontSubstitute(actualFontName); BuildKeyNameFromFontName(actualFontName); gfxFontFamily *ff; if (!actualFontName.IsEmpty() && (ff = mFontFamilies.GetWeak(actualFontName))) { mFontSubstitutes.Put(substituteName, ff); } else { mNonExistingFonts.AppendElement(substituteName); } } // "Courier" on a default Windows install is an ugly bitmap font. // If there is no substitution for Courier in the registry // substitute "Courier" with "Courier New". nsAutoString substituteName; substituteName.AssignLiteral("Courier"); BuildKeyNameFromFontName(substituteName); if (!mFontSubstitutes.GetWeak(substituteName)) { gfxFontFamily *ff; nsAutoString actualFontName; actualFontName.AssignLiteral("Courier New"); BuildKeyNameFromFontName(actualFontName); ff = mFontFamilies.GetWeak(actualFontName); if (ff) { mFontSubstitutes.Put(substituteName, ff); } } return NS_OK; } nsresult gfxGDIFontList::InitFontList() { Telemetry::AutoTimer timer; gfxFontCache *fc = gfxFontCache::GetCache(); if (fc) fc->AgeAllGenerations(); // reset font lists gfxPlatformFontList::InitFontList(); mFontSubstitutes.Clear(); mNonExistingFonts.Clear(); // iterate over available families LOGFONTW logfont; memset(&logfont, 0, sizeof(logfont)); logfont.lfCharSet = DEFAULT_CHARSET; AutoDC hdc; int result = EnumFontFamiliesExW(hdc.GetDC(), &logfont, (FONTENUMPROCW)&EnumFontFamExProc, 0, 0); GetFontSubstitutes(); GetPrefsAndStartLoader(); return NS_OK; } int CALLBACK gfxGDIFontList::EnumFontFamExProc(ENUMLOGFONTEXW *lpelfe, NEWTEXTMETRICEXW *lpntme, DWORD fontType, LPARAM lParam) { const LOGFONTW& lf = lpelfe->elfLogFont; if (lf.lfFaceName[0] == '@') { return 1; } nsAutoString name(lf.lfFaceName); BuildKeyNameFromFontName(name); gfxGDIFontList *fontList = PlatformFontList(); if (!fontList->mFontFamilies.GetWeak(name)) { nsDependentString faceName(lf.lfFaceName); nsRefPtr family = new GDIFontFamily(faceName); fontList->mFontFamilies.Put(name, family); // if locale is such that CJK font names are the default coming from // GDI, then if a family name is non-ASCII immediately read in other // family names. This assures that MS Gothic, MS Mincho are all found // before lookups begin. if (!IsASCII(faceName)) { family->ReadOtherFamilyNames(gfxPlatformFontList::PlatformFontList()); } if (fontList->mBadUnderlineFamilyNames.Contains(name)) family->SetBadUnderlineFamily(); } return 1; } gfxFontEntry* gfxGDIFontList::LookupLocalFont(const gfxProxyFontEntry *aProxyEntry, const nsAString& aFullname) { gfxFontEntry *lookup; // initialize name lookup tables if needed if (!mFaceNamesInitialized) { InitFaceNameLists(); } // lookup in name lookup tables, return null if not found if (!(lookup = mPostscriptNames.GetWeak(aFullname)) && !(lookup = mFullnames.GetWeak(aFullname))) { return nullptr; } bool isCFF = false; // jtdfix -- need to determine this // use the face name from the lookup font entry, which will be the localized // face name which GDI mapping tables use (e.g. with the system locale set to // Dutch, a fullname of 'Arial Bold' will find a font entry with the face name // 'Arial Vet' which can be used as a key in GDI font lookups). GDIFontEntry *fe = GDIFontEntry::CreateFontEntry(lookup->Name(), gfxWindowsFontType(isCFF ? GFX_FONT_TYPE_PS_OPENTYPE : GFX_FONT_TYPE_TRUETYPE) /*type*/, lookup->mItalic ? NS_FONT_STYLE_ITALIC : NS_FONT_STYLE_NORMAL, lookup->mWeight, aProxyEntry->mStretch, nullptr, static_cast(lookup)->mFamilyHasItalicFace); if (!fe) return nullptr; fe->mIsUserFont = true; fe->mIsLocalUserFont = true; // make the new font entry match the proxy entry style characteristics fe->mWeight = (aProxyEntry->mWeight == 0 ? 400 : aProxyEntry->mWeight); fe->mItalic = aProxyEntry->mItalic; return fe; } void gfxGDIFontList::InitializeFontEmbeddingProcs() { static HMODULE fontlib = LoadLibraryW(L"t2embed.dll"); if (!fontlib) return; TTLoadEmbeddedFontPtr = (TTLoadEmbeddedFontProc) GetProcAddress(fontlib, "TTLoadEmbeddedFont"); TTDeleteEmbeddedFontPtr = (TTDeleteEmbeddedFontProc) GetProcAddress(fontlib, "TTDeleteEmbeddedFont"); } // used to control stream read by Windows TTLoadEmbeddedFont API class EOTFontStreamReader { public: EOTFontStreamReader(const uint8_t *aFontData, uint32_t aLength, uint8_t *aEOTHeader, uint32_t aEOTHeaderLen, FontDataOverlay *aNameOverlay) : mCurrentChunk(0), mChunkOffset(0) { NS_ASSERTION(aFontData, "null font data ptr passed in"); NS_ASSERTION(aEOTHeader, "null EOT header ptr passed in"); NS_ASSERTION(aNameOverlay, "null name overlay struct passed in"); if (aNameOverlay->overlaySrc) { mNumChunks = 4; // 0 : EOT header mDataChunks[0].mData = aEOTHeader; mDataChunks[0].mLength = aEOTHeaderLen; // 1 : start of font data to overlayDest mDataChunks[1].mData = aFontData; mDataChunks[1].mLength = aNameOverlay->overlayDest; // 2 : overlay data mDataChunks[2].mData = aFontData + aNameOverlay->overlaySrc; mDataChunks[2].mLength = aNameOverlay->overlaySrcLen; // 3 : rest of font data mDataChunks[3].mData = aFontData + aNameOverlay->overlayDest + aNameOverlay->overlaySrcLen; mDataChunks[3].mLength = aLength - aNameOverlay->overlayDest - aNameOverlay->overlaySrcLen; } else { mNumChunks = 2; // 0 : EOT header mDataChunks[0].mData = aEOTHeader; mDataChunks[0].mLength = aEOTHeaderLen; // 1 : font data mDataChunks[1].mData = aFontData; mDataChunks[1].mLength = aLength; } } ~EOTFontStreamReader() { } struct FontDataChunk { const uint8_t *mData; uint32_t mLength; }; uint32_t mNumChunks; FontDataChunk mDataChunks[4]; uint32_t mCurrentChunk; uint32_t mChunkOffset; unsigned long Read(void *outBuffer, const unsigned long aBytesToRead) { uint32_t bytesLeft = aBytesToRead; // bytes left in the out buffer uint8_t *out = static_cast (outBuffer); while (mCurrentChunk < mNumChunks && bytesLeft) { FontDataChunk& currentChunk = mDataChunks[mCurrentChunk]; uint32_t bytesToCopy = std::min(bytesLeft, currentChunk.mLength - mChunkOffset); memcpy(out, currentChunk.mData + mChunkOffset, bytesToCopy); bytesLeft -= bytesToCopy; mChunkOffset += bytesToCopy; out += bytesToCopy; NS_ASSERTION(mChunkOffset <= currentChunk.mLength, "oops, buffer overrun"); if (mChunkOffset == currentChunk.mLength) { mCurrentChunk++; mChunkOffset = 0; } } return aBytesToRead - bytesLeft; } static unsigned long ReadEOTStream(void *aReadStream, void *outBuffer, const unsigned long aBytesToRead) { EOTFontStreamReader *eotReader = static_cast (aReadStream); return eotReader->Read(outBuffer, aBytesToRead); } }; gfxFontEntry* gfxGDIFontList::MakePlatformFont(const gfxProxyFontEntry *aProxyEntry, const uint8_t *aFontData, uint32_t aLength) { // MakePlatformFont is responsible for deleting the font data with NS_Free // so we set up a stack object to ensure it is freed even if we take an // early exit struct FontDataDeleter { FontDataDeleter(const uint8_t *aFontData) : mFontData(aFontData) { } ~FontDataDeleter() { NS_Free((void*)mFontData); } const uint8_t *mFontData; }; FontDataDeleter autoDelete(aFontData); bool hasVertical; bool isCFF = gfxFontUtils::IsCffFont(aFontData, hasVertical); nsresult rv; HANDLE fontRef = nullptr; bool isEmbedded = false; nsAutoString uniqueName; rv = gfxFontUtils::MakeUniqueUserFontName(uniqueName); if (NS_FAILED(rv)) return nullptr; // for TTF fonts, first try using the t2embed library if available if (!isCFF && TTLoadEmbeddedFontPtr && TTDeleteEmbeddedFontPtr) { // TrueType-style glyphs, use EOT library AutoFallibleTArray eotHeader; uint8_t *buffer; uint32_t eotlen; isEmbedded = true; uint32_t nameLen = std::min(uniqueName.Length(), LF_FACESIZE - 1); nsAutoString fontName(Substring(uniqueName, 0, nameLen)); FontDataOverlay overlayNameData = {0, 0, 0}; rv = gfxFontUtils::MakeEOTHeader(aFontData, aLength, &eotHeader, &overlayNameData); if (NS_SUCCEEDED(rv)) { // load in embedded font data eotlen = eotHeader.Length(); buffer = reinterpret_cast (eotHeader.Elements()); int32_t ret; ULONG privStatus, pulStatus; EOTFontStreamReader eotReader(aFontData, aLength, buffer, eotlen, &overlayNameData); ret = TTLoadEmbeddedFontPtr(&fontRef, TTLOAD_PRIVATE, &privStatus, LICENSE_PREVIEWPRINT, &pulStatus, EOTFontStreamReader::ReadEOTStream, &eotReader, (PRUnichar*)(fontName.get()), 0, 0); if (ret != E_NONE) { fontRef = nullptr; char buf[256]; sprintf(buf, "font (%s) not loaded using TTLoadEmbeddedFont - error %8.8x", NS_ConvertUTF16toUTF8(aProxyEntry->Name()).get(), ret); NS_WARNING(buf); } } } // load CFF fonts or fonts that failed with t2embed loader if (fontRef == nullptr) { // Postscript-style glyphs, swizzle name table, load directly FallibleTArray newFontData; isEmbedded = false; rv = gfxFontUtils::RenameFont(uniqueName, aFontData, aLength, &newFontData); if (NS_FAILED(rv)) return nullptr; DWORD numFonts = 0; uint8_t *fontData = reinterpret_cast (newFontData.Elements()); uint32_t fontLength = newFontData.Length(); NS_ASSERTION(fontData, "null font data after renaming"); // http://msdn.microsoft.com/en-us/library/ms533942(VS.85).aspx // "A font that is added by AddFontMemResourceEx is always private // to the process that made the call and is not enumerable." fontRef = AddFontMemResourceEx(fontData, fontLength, 0 /* reserved */, &numFonts); if (!fontRef) return nullptr; // only load fonts with a single face contained in the data // AddFontMemResourceEx generates an additional face name for // vertical text if the font supports vertical writing if (fontRef && numFonts != 1 + !!hasVertical) { RemoveFontMemResourceEx(fontRef); return nullptr; } } // make a new font entry using the unique name WinUserFontData *winUserFontData = new WinUserFontData(fontRef, isEmbedded); uint16_t w = (aProxyEntry->mWeight == 0 ? 400 : aProxyEntry->mWeight); GDIFontEntry *fe = GDIFontEntry::CreateFontEntry(uniqueName, gfxWindowsFontType(isCFF ? GFX_FONT_TYPE_PS_OPENTYPE : GFX_FONT_TYPE_TRUETYPE) /*type*/, uint32_t(aProxyEntry->mItalic ? NS_FONT_STYLE_ITALIC : NS_FONT_STYLE_NORMAL), w, aProxyEntry->mStretch, winUserFontData, false); if (!fe) return fe; fe->mIsUserFont = true; // Uniscribe doesn't place CFF fonts loaded privately // via AddFontMemResourceEx on XP/Vista if (isCFF && gfxWindowsPlatform::WindowsOSVersion() < gfxWindowsPlatform::kWindows7) { fe->mForceGDI = true; } return fe; } gfxFontFamily* gfxGDIFontList::GetDefaultFont(const gfxFontStyle* aStyle) { // this really shouldn't fail to find a font.... HGDIOBJ hGDI = ::GetStockObject(DEFAULT_GUI_FONT); LOGFONTW logFont; if (hGDI && ::GetObjectW(hGDI, sizeof(logFont), &logFont)) { nsAutoString resolvedName; if (ResolveFontName(nsDependentString(logFont.lfFaceName), resolvedName)) { return FindFamily(resolvedName); } } // ...but just in case, try another approach as well NONCLIENTMETRICSW ncm; ncm.cbSize = sizeof(ncm); BOOL status = ::SystemParametersInfoW(SPI_GETNONCLIENTMETRICS, sizeof(ncm), &ncm, 0); if (status) { nsAutoString resolvedName; if (ResolveFontName(nsDependentString(ncm.lfMessageFont.lfFaceName), resolvedName)) { return FindFamily(resolvedName); } } return nullptr; } bool gfxGDIFontList::ResolveFontName(const nsAString& aFontName, nsAString& aResolvedFontName) { nsAutoString keyName(aFontName); BuildKeyNameFromFontName(keyName); gfxFontFamily *ff = mFontSubstitutes.GetWeak(keyName); if (ff) { aResolvedFontName = ff->Name(); return true; } if (mNonExistingFonts.Contains(keyName)) return false; if (gfxPlatformFontList::ResolveFontName(aFontName, aResolvedFontName)) return true; return false; } void gfxGDIFontList::SizeOfExcludingThis(nsMallocSizeOfFun aMallocSizeOf, FontListSizes* aSizes) const { gfxPlatformFontList::SizeOfExcludingThis(aMallocSizeOf, aSizes); aSizes->mFontListSize += mFontSubstitutes.SizeOfExcludingThis(SizeOfFamilyNameEntryExcludingThis, aMallocSizeOf); aSizes->mFontListSize += mNonExistingFonts.SizeOfExcludingThis(aMallocSizeOf); for (uint32_t i = 0; i < mNonExistingFonts.Length(); ++i) { aSizes->mFontListSize += mNonExistingFonts[i].SizeOfExcludingThisIfUnshared(aMallocSizeOf); } } void gfxGDIFontList::SizeOfIncludingThis(nsMallocSizeOfFun aMallocSizeOf, FontListSizes* aSizes) const { aSizes->mFontListSize += aMallocSizeOf(this); SizeOfExcludingThis(aMallocSizeOf, aSizes); }