/* -*- Mode: C++; tab-width: 20; indent-tabs-mode: nil; c-basic-offset: 2 -*-
* 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/Logging.h"
#include "gfxFcPlatformFontList.h"
#include "gfxFont.h"
#include "gfxFontConstants.h"
#include "gfxFT2Utils.h"
#include "gfxPlatform.h"
#include "nsPresContext.h"
#include "mozilla/ArrayUtils.h"
#include "mozilla/dom/ContentChild.h"
#include "mozilla/dom/ContentParent.h"
#include "mozilla/Preferences.h"
#include "mozilla/Sprintf.h"
#include "mozilla/StaticPrefs_gfx.h"
#include "mozilla/glean/GfxMetrics.h"
#include "mozilla/TimeStamp.h"
#include "nsGkAtoms.h"
#include "nsIConsoleService.h"
#include "nsIGfxInfo.h"
#include "mozilla/Components.h"
#include "nsString.h"
#include "nsStringFwd.h"
#include "nsUnicodeProperties.h"
#include "nsDirectoryServiceUtils.h"
#include "nsDirectoryServiceDefs.h"
#include "nsAppDirectoryServiceDefs.h"
#include "nsCharSeparatedTokenizer.h"
#include "nsXULAppAPI.h"
#include "SharedFontList-impl.h"
#include "StandardFonts-linux.inc"
#include "mozilla/intl/Locale.h"
#include "mozilla/gfx/HelpersCairo.h"
#include <cairo-ft.h>
#include <fontconfig/fcfreetype.h>
#include <fontconfig/fontconfig.h>
#include <harfbuzz/hb.h>
#include <dlfcn.h>
#include <unistd.h>
#ifdef MOZ_WIDGET_GTK
# include <gdk/gdk.h>
# include <gtk/gtk.h>
# include
"gfxPlatformGtk.h"
# include
"mozilla/WidgetUtilsGtk.h"
#endif
#ifdef MOZ_X11
# include
"mozilla/X11Util.h"
#endif
#if defined(MOZ_SANDBOX) &&
defined(XP_LINUX)
# include
"mozilla/SandboxBrokerPolicyFactory.h"
# include
"mozilla/SandboxSettings.h"
#endif
#include FT_MULTIPLE_MASTERS_H
using namespace mozilla;
using namespace mozilla::gfx;
using namespace mozilla::unicode;
using namespace mozilla::intl;
#ifndef FC_POSTSCRIPT_NAME
# define FC_POSTSCRIPT_NAME
"postscriptname" /* String */
#endif
#ifndef FC_VARIABLE
# define FC_VARIABLE
"variable" /* Bool */
#endif
#ifndef FC_NAMED_INSTANCE
# define FC_NAMED_INSTANCE
"namedinstance" /* Bool */
#endif
#define PRINTING_FC_PROPERTY
"gfx.printing"
#define LOG_FONTLIST(args) \
MOZ_LOG(gfxPlatform::GetLog(eGfxLog_fontlist), LogLevel::Debug, args)
#define LOG_FONTLIST_ENABLED() \
MOZ_LOG_TEST(gfxPlatform::GetLog(eGfxLog_fontlist), LogLevel::Debug)
#define LOG_CMAPDATA_ENABLED() \
MOZ_LOG_TEST(gfxPlatform::GetLog(eGfxLog_cmapdata), LogLevel::Debug)
static const FcChar8* ToFcChar8Ptr(
const char* aStr) {
return reinterpret_cast<
const FcChar8*>(aStr);
}
static const char* ToCharPtr(
const FcChar8* aStr) {
return reinterpret_cast<
const char*>(aStr);
}
// canonical name ==> first en name or first name if no en name
// This is the required logic for fullname lookups as per CSS3 Fonts spec.
static uint32_t FindCanonicalNameIndex(FcPattern* aFont,
const char* aLangField) {
uint32_t n = 0, en = 0;
FcChar8* lang;
while (FcPatternGetString(aFont, aLangField, n, &lang) == FcResultMatch) {
// look for 'en' or variants, en-US, en-JP etc.
uint32_t len = strlen(ToCharPtr(lang));
bool enPrefix = (strncmp(ToCharPtr(lang),
"en", 2) == 0);
if (enPrefix && (len == 2 || (len > 2 && aLangField[2] ==
'-'))) {
en = n;
break;
}
n++;
}
return en;
}
static void GetFaceNames(FcPattern* aFont,
const nsACString& aFamilyName,
nsACString& aPostscriptName, nsACString& aFullname) {
// get the Postscript name
FcChar8* psname;
if (FcPatternGetString(aFont, FC_POSTSCRIPT_NAME, 0, &psname) ==
FcResultMatch) {
aPostscriptName = ToCharPtr(psname);
}
// get the canonical fullname (i.e. en name or first name)
uint32_t en = FindCanonicalNameIndex(aFont, FC_FULLNAMELANG);
FcChar8* fullname;
if (FcPatternGetString(aFont, FC_FULLNAME, en, &fullname) == FcResultMatch) {
aFullname = ToCharPtr(fullname);
}
// if have fullname, done
if (!aFullname.IsEmpty()) {
return;
}
// otherwise, set the fullname to family + style name [en] and use that
aFullname = aFamilyName;
// figure out the en style name
en = FindCanonicalNameIndex(aFont, FC_STYLELANG);
nsAutoCString style;
FcChar8* stylename = nullptr;
FcPatternGetString(aFont, FC_STYLE, en, &stylename);
if (stylename) {
style = ToCharPtr(stylename);
}
if (!style.IsEmpty() && !style.EqualsLiteral(
"Regular")) {
aFullname.Append(
' ');
aFullname.Append(style);
}
}
static FontWeight MapFcWeight(
int aFcWeight) {
if (aFcWeight <= (FC_WEIGHT_THIN + FC_WEIGHT_EXTRALIGHT) / 2) {
return FontWeight::FromInt(100);
}
if (aFcWeight <= (FC_WEIGHT_EXTRALIGHT + FC_WEIGHT_LIGHT) / 2) {
return FontWeight::FromInt(200);
}
if (aFcWeight <= (FC_WEIGHT_LIGHT + FC_WEIGHT_BOOK) / 2) {
return FontWeight::FromInt(300);
}
if (aFcWeight <= (FC_WEIGHT_REGULAR + FC_WEIGHT_MEDIUM) / 2) {
// This includes FC_WEIGHT_BOOK
return FontWeight::FromInt(400);
}
if (aFcWeight <= (FC_WEIGHT_MEDIUM + FC_WEIGHT_DEMIBOLD) / 2) {
return FontWeight::FromInt(500);
}
if (aFcWeight <= (FC_WEIGHT_DEMIBOLD + FC_WEIGHT_BOLD) / 2) {
return FontWeight::FromInt(600);
}
if (aFcWeight <= (FC_WEIGHT_BOLD + FC_WEIGHT_EXTRABOLD) / 2) {
return FontWeight::FromInt(700);
}
if (aFcWeight <= (FC_WEIGHT_EXTRABOLD + FC_WEIGHT_BLACK) / 2) {
return FontWeight::FromInt(800);
}
if (aFcWeight <= FC_WEIGHT_BLACK) {
return FontWeight::FromInt(900);
}
// including FC_WEIGHT_EXTRABLACK
return FontWeight::FromInt(901);
}
// TODO(emilio, jfkthame): I think this can now be more fine-grained.
static FontStretch MapFcWidth(
int aFcWidth) {
if (aFcWidth <= (FC_WIDTH_ULTRACONDENSED + FC_WIDTH_EXTRACONDENSED) / 2) {
return FontStretch::ULTRA_CONDENSED;
}
if (aFcWidth <= (FC_WIDTH_EXTRACONDENSED + FC_WIDTH_CONDENSED) / 2) {
return FontStretch::EXTRA_CONDENSED;
}
if (aFcWidth <= (FC_WIDTH_CONDENSED + FC_WIDTH_SEMICONDENSED) / 2) {
return FontStretch::CONDENSED;
}
if (aFcWidth <= (FC_WIDTH_SEMICONDENSED + FC_WIDTH_NORMAL) / 2) {
return FontStretch::SEMI_CONDENSED;
}
if (aFcWidth <= (FC_WIDTH_NORMAL + FC_WIDTH_SEMIEXPANDED) / 2) {
return FontStretch::NORMAL;
}
if (aFcWidth <= (FC_WIDTH_SEMIEXPANDED + FC_WIDTH_EXPANDED) / 2) {
return FontStretch::SEMI_EXPANDED;
}
if (aFcWidth <= (FC_WIDTH_EXPANDED + FC_WIDTH_EXTRAEXPANDED) / 2) {
return FontStretch::EXPANDED;
}
if (aFcWidth <= (FC_WIDTH_EXTRAEXPANDED + FC_WIDTH_ULTRAEXPANDED) / 2) {
return FontStretch::EXTRA_EXPANDED;
}
return FontStretch::ULTRA_EXPANDED;
}
static void GetFontProperties(FcPattern* aFontPattern, WeightRange* aWeight,
StretchRange* aStretch,
SlantStyleRange* aSlantStyle,
uint16_t* aSize = nullptr) {
// weight
int weight;
if (FcPatternGetInteger(aFontPattern, FC_WEIGHT, 0, &weight) !=
FcResultMatch) {
weight = FC_WEIGHT_REGULAR;
}
*aWeight = WeightRange(MapFcWeight(weight));
// width
int width;
if (FcPatternGetInteger(aFontPattern, FC_WIDTH, 0, &width) != FcResultMatch) {
width = FC_WIDTH_NORMAL;
}
*aStretch = StretchRange(MapFcWidth(width));
// italic
int slant;
if (FcPatternGetInteger(aFontPattern, FC_SLANT, 0, &slant) != FcResultMatch) {
slant = FC_SLANT_ROMAN;
}
if (slant == FC_SLANT_OBLIQUE) {
*aSlantStyle = SlantStyleRange(FontSlantStyle::OBLIQUE);
}
else if (slant > 0) {
*aSlantStyle = SlantStyleRange(FontSlantStyle::ITALIC);
}
if (aSize) {
// pixel size, or zero if scalable
FcBool scalable;
if (FcPatternGetBool(aFontPattern, FC_SCALABLE, 0, &scalable) ==
FcResultMatch &&
scalable) {
*aSize = 0;
}
else {
double size;
if (FcPatternGetDouble(aFontPattern, FC_PIXEL_SIZE, 0, &size) ==
FcResultMatch) {
*aSize = uint16_t(NS_round(size));
}
else {
*aSize = 0;
}
}
}
}
void gfxFontconfigFontEntry::GetUserFontFeatures(FcPattern* aPattern) {
int fontFeaturesNum = 0;
char* s;
hb_feature_t tmpFeature;
while (FcResultMatch == FcPatternGetString(aPattern,
"fontfeatures",
fontFeaturesNum, (FcChar8**)&s)) {
bool ret = hb_feature_from_string(s, -1, &tmpFeature);
if (ret) {
mFeatureSettings.AppendElement(
(gfxFontFeature){tmpFeature.tag, tmpFeature.value});
}
fontFeaturesNum++;
}
}
gfxFontconfigFontEntry::gfxFontconfigFontEntry(
const nsACString& aFaceName,
FcPattern* aFontPattern,
bool aIgnoreFcCharmap)
: gfxFT2FontEntryBase(aFaceName),
mFontPattern(aFontPattern),
mFTFaceInitialized(
false),
mIgnoreFcCharmap(aIgnoreFcCharmap) {
GetFontProperties(aFontPattern, &mWeightRange, &mStretchRange, &mStyleRange);
GetUserFontFeatures(mFontPattern);
}
gfxFontEntry* gfxFontconfigFontEntry::Clone()
const {
MOZ_ASSERT(!IsUserFont(),
"we can only clone installed fonts!");
return new gfxFontconfigFontEntry(Name(), mFontPattern, mIgnoreFcCharmap);
}
static already_AddRefed<FcPattern> CreatePatternForFace(FT_Face aFace) {
// Use fontconfig to fill out the pattern from the FTFace.
// The "file" argument cannot be nullptr (in fontconfig-2.6.0 at
// least). The dummy file passed here is removed below.
//
// When fontconfig scans the system fonts, FcConfigGetBlanks(nullptr)
// is passed as the "blanks" argument, which provides that unexpectedly
// blank glyphs are elided. Here, however, we pass nullptr for
// "blanks", effectively assuming that, if the font has a blank glyph,
// then the author intends any associated character to be rendered
// blank.
RefPtr<FcPattern> pattern =
dont_AddRef(FcFreeTypeQueryFace(aFace, ToFcChar8Ptr(
""), 0, nullptr));
// given that we have a FT_Face, not really sure this is possible...
if (!pattern) {
pattern = dont_AddRef(FcPatternCreate());
}
FcPatternDel(pattern, FC_FILE);
FcPatternDel(pattern, FC_INDEX);
// Make a new pattern and store the face in it so that cairo uses
// that when creating a cairo font face.
FcPatternAddFTFace(pattern, FC_FT_FACE, aFace);
return pattern.forget();
}
static already_AddRefed<SharedFTFace> CreateFaceForPattern(
FcPattern* aPattern) {
FcChar8* filename;
if (FcPatternGetString(aPattern, FC_FILE, 0, &filename) != FcResultMatch) {
return nullptr;
}
int index;
if (FcPatternGetInteger(aPattern, FC_INDEX, 0, &index) != FcResultMatch) {
index = 0;
// default to 0 if not found in pattern
}
return Factory::NewSharedFTFace(nullptr, ToCharPtr(filename), index);
}
gfxFontconfigFontEntry::gfxFontconfigFontEntry(
const nsACString& aFaceName,
WeightRange aWeight,
StretchRange aStretch,
SlantStyleRange aStyle,
RefPtr<SharedFTFace>&& aFace)
: gfxFT2FontEntryBase(aFaceName),
mFontPattern(CreatePatternForFace(aFace->GetFace())),
mFTFace(aFace.forget().take()),
mFTFaceInitialized(
true),
mIgnoreFcCharmap(
true) {
mWeightRange = aWeight;
mStyleRange = aStyle;
mStretchRange = aStretch;
mIsDataUserFont =
true;
}
gfxFontconfigFontEntry::gfxFontconfigFontEntry(
const nsACString& aFaceName,
FcPattern* aFontPattern,
WeightRange aWeight,
StretchRange aStretch,
SlantStyleRange aStyle)
: gfxFT2FontEntryBase(aFaceName),
mFontPattern(aFontPattern),
mFTFaceInitialized(
false) {
mWeightRange = aWeight;
mStyleRange = aStyle;
mStretchRange = aStretch;
mIsLocalUserFont =
true;
// The proper setting of mIgnoreFcCharmap is tricky for fonts loaded
// via src:local()...
// If the local font happens to come from the application fontset,
// we want to set it to true so that color/svg fonts will work even
// if the default glyphs are blank; but if the local font is a non-
// sfnt face (e.g. legacy type 1) then we need to set it to false
// because our cmap-reading code will fail and we depend on FT+Fc to
// determine the coverage.
// We set the flag here, but may flip it the first time TestCharacterMap
// is called, at which point we'll look to see whether a 'cmap' is
// actually present in the font.
mIgnoreFcCharmap =
true;
GetUserFontFeatures(mFontPattern);
}
typedef FT_Error (*GetVarFunc)(FT_Face, FT_MM_Var**);
typedef FT_Error (*DoneVarFunc)(FT_Library, FT_MM_Var*);
static GetVarFunc sGetVar;
static DoneVarFunc sDoneVar;
static bool sInitializedVarFuncs =
false;
static void InitializeVarFuncs() {
if (sInitializedVarFuncs) {
return;
}
sInitializedVarFuncs =
true;
#if MOZ_TREE_FREETYPE
sGetVar = &FT_Get_MM_Var;
sDoneVar = &FT_Done_MM_Var;
#else
sGetVar = (GetVarFunc)dlsym(RTLD_DEFAULT,
"FT_Get_MM_Var");
sDoneVar = (DoneVarFunc)dlsym(RTLD_DEFAULT,
"FT_Done_MM_Var");
#endif
}
gfxFontconfigFontEntry::~gfxFontconfigFontEntry() {
if (mMMVar) {
// Prior to freetype 2.9, there was no specific function to free the
// FT_MM_Var record, and the docs just said to use free().
// InitializeVarFuncs must have been called in order for mMMVar to be
// non-null here, so we don't need to do it again.
if (sDoneVar) {
auto ftFace = GetFTFace();
MOZ_ASSERT(ftFace,
"How did mMMVar get set without a face?");
(*sDoneVar)(ftFace->GetFace()->glyph->library, mMMVar);
}
else {
free(mMMVar);
}
}
if (mFTFaceInitialized) {
auto face = mFTFace.exchange(nullptr);
NS_IF_RELEASE(face);
}
}
nsresult gfxFontconfigFontEntry::ReadCMAP(FontInfoData* aFontInfoData) {
// attempt this once, if errors occur leave a blank cmap
if (mCharacterMap) {
return NS_OK;
}
RefPtr<gfxCharacterMap> charmap;
nsresult rv;
uint32_t uvsOffset = 0;
if (aFontInfoData &&
(charmap = GetCMAPFromFontInfo(aFontInfoData, uvsOffset))) {
rv = NS_OK;
}
else {
uint32_t kCMAP = TRUETYPE_TAG(
'c',
'm',
'a',
'p');
charmap =
new gfxCharacterMap();
AutoTable cmapTable(
this, kCMAP);
if (cmapTable) {
uint32_t cmapLen;
const uint8_t* cmapData =
reinterpret_cast<
const uint8_t*>(
hb_blob_get_data(cmapTable, &cmapLen));
rv = gfxFontUtils::ReadCMAP(cmapData, cmapLen, *charmap, uvsOffset);
}
else {
rv = NS_ERROR_NOT_AVAILABLE;
}
}
mUVSOffset.exchange(uvsOffset);
bool setCharMap =
true;
if (NS_SUCCEEDED(rv)) {
gfxPlatformFontList* pfl = gfxPlatformFontList::PlatformFontList();
fontlist::FontList* sharedFontList = pfl->SharedFontList();
if (!IsUserFont() && mShmemFace) {
mShmemFace->SetCharacterMap(sharedFontList, charmap, mShmemFamily);
if (TrySetShmemCharacterMap()) {
setCharMap =
false;
}
}
else {
charmap = pfl->FindCharMap(charmap);
}
mHasCmapTable =
true;
}
else {
// if error occurred, initialize to null cmap
charmap =
new gfxCharacterMap();
mHasCmapTable =
false;
}
if (setCharMap) {
if (mCharacterMap.compareExchange(nullptr, charmap.get())) {
charmap.get()->AddRef();
}
}
LOG_FONTLIST((
"(fontlist-cmap) name: %s, size: %zu hash: %8.8x%s\n",
mName.get(), charmap->SizeOfIncludingThis(moz_malloc_size_of),
charmap->mHash, mCharacterMap == charmap ?
" new" :
""));
if (LOG_CMAPDATA_ENABLED()) {
char prefix[256];
SprintfLiteral(prefix,
"(cmapdata) name: %.220s", mName.get());
charmap->Dump(prefix, eGfxLog_cmapdata);
}
return rv;
}
static bool HasChar(FcPattern* aFont, FcChar32 aCh) {
FcCharSet* charset = nullptr;
FcPatternGetCharSet(aFont, FC_CHARSET, 0, &charset);
return charset && FcCharSetHasChar(charset, aCh);
}
bool gfxFontconfigFontEntry::TestCharacterMap(uint32_t aCh) {
// For user fonts, or for fonts bundled with the app (which might include
// color/svg glyphs where the default glyphs may be blank, and thus confuse
// fontconfig/freetype's char map checking), we instead check the cmap
// directly for character coverage.
if (mIgnoreFcCharmap) {
// If it does not actually have a cmap, switch our strategy to use
// fontconfig's charmap after all (except for data fonts, which must
// always have a cmap to have passed OTS validation).
if (!mIsDataUserFont && !HasFontTable(TRUETYPE_TAG(
'c',
'm',
'a',
'p'))) {
mIgnoreFcCharmap =
false;
// ...and continue with HasChar() below.
}
else {
return gfxFontEntry::TestCharacterMap(aCh);
}
}
// otherwise (for system fonts), use the charmap in the pattern
return HasChar(mFontPattern, aCh);
}
bool gfxFontconfigFontEntry::HasFontTable(uint32_t aTableTag) {
if (FTUserFontData* ufd = GetUserFontData()) {
if (ufd->FontData()) {
return !!gfxFontUtils::FindTableDirEntry(ufd->FontData(), aTableTag);
}
}
return gfxFT2FontEntryBase::FaceHasTable(GetFTFace(), aTableTag);
}
hb_blob_t* gfxFontconfigFontEntry::GetFontTable(uint32_t aTableTag) {
// for data fonts, read directly from the font data
if (FTUserFontData* ufd = GetUserFontData()) {
if (ufd->FontData()) {
return gfxFontUtils::GetTableFromFontData(ufd->FontData(), aTableTag);
}
}
return gfxFontEntry::GetFontTable(aTableTag);
}
double gfxFontconfigFontEntry::GetAspect(uint8_t aSizeAdjustBasis) {
using FontSizeAdjust = gfxFont::FontSizeAdjust;
if (FontSizeAdjust::Tag(aSizeAdjustBasis) == FontSizeAdjust::Tag::ExHeight ||
FontSizeAdjust::Tag(aSizeAdjustBasis) == FontSizeAdjust::Tag::CapHeight) {
// try to compute aspect from OS/2 metrics if available
AutoTable os2Table(
this, TRUETYPE_TAG(
'O',
'S',
'/',
'2'));
if (os2Table) {
uint16_t upem = UnitsPerEm();
if (upem != kInvalidUPEM) {
uint32_t len;
const auto* os2 =
reinterpret_cast<
const OS2Table*>(hb_blob_get_data(os2Table, &len));
if (uint16_t(os2->version) >= 2) {
// XXX(jfkthame) Other implementations don't have the check for
// values <= 0.1em; should we drop that here? Just require it to be
// a positive number?
if (FontSizeAdjust::Tag(aSizeAdjustBasis) ==
FontSizeAdjust::Tag::ExHeight) {
if (len >= offsetof(OS2Table, sxHeight) +
sizeof(int16_t) &&
int16_t(os2->sxHeight) > 0.1 * upem) {
return double(int16_t(os2->sxHeight)) / upem;
}
}
if (FontSizeAdjust::Tag(aSizeAdjustBasis) ==
FontSizeAdjust::Tag::CapHeight) {
if (len >= offsetof(OS2Table, sCapHeight) +
sizeof(int16_t) &&
int16_t(os2->sCapHeight) > 0.1 * upem) {
return double(int16_t(os2->sCapHeight)) / upem;
}
}
}
}
}
}
// create a font to calculate the requested aspect
gfxFontStyle s;
s.size = 256.0;
// pick large size to reduce hinting artifacts
RefPtr<gfxFont> font = FindOrMakeFont(&s);
if (font) {
const gfxFont::Metrics& metrics =
font->GetMetrics(nsFontMetrics::eHorizontal);
if (metrics.emHeight == 0) {
return 0;
}
switch (FontSizeAdjust::Tag(aSizeAdjustBasis)) {
case FontSizeAdjust::Tag::ExHeight:
return metrics.xHeight / metrics.emHeight;
case FontSizeAdjust::Tag::CapHeight:
return metrics.capHeight / metrics.emHeight;
case FontSizeAdjust::Tag::ChWidth:
return metrics.zeroWidth > 0 ? metrics.zeroWidth / metrics.emHeight
: 0.5;
case FontSizeAdjust::Tag::IcWidth:
case FontSizeAdjust::Tag::IcHeight: {
bool vertical = FontSizeAdjust::Tag(aSizeAdjustBasis) ==
FontSizeAdjust::Tag::IcHeight;
gfxFloat advance =
font->GetCharAdvance(gfxFont::kWaterIdeograph, vertical);
return advance > 0 ? advance / metrics.emHeight : 1.0;
}
default:
break;
}
}
MOZ_ASSERT_UNREACHABLE(
"failed to compute size-adjust aspect");
return 0.5;
}
static void PrepareFontOptions(FcPattern* aPattern,
int* aOutLoadFlags,
unsigned int* aOutSynthFlags) {
int loadFlags = FT_LOAD_DEFAULT;
unsigned int synthFlags = 0;
// xxx - taken from the gfxFontconfigFonts code, needs to be reviewed
FcBool printing;
if (FcPatternGetBool(aPattern, PRINTING_FC_PROPERTY, 0, &printing) !=
FcResultMatch) {
printing = FcFalse;
}
// Font options are set explicitly here to improve cairo's caching
// behavior and to record the relevant parts of the pattern so that
// the pattern can be released.
//
// Most font_options have already been set as defaults on the FcPattern
// with cairo_ft_font_options_substitute(), then user and system
// fontconfig configurations were applied. The resulting font_options
// have been recorded on the face during
// cairo_ft_font_face_create_for_pattern().
//
// None of the settings here cause this scaled_font to behave any
// differently from how it would behave if it were created from the same
// face with default font_options.
//
// We set options explicitly so that the same scaled_font will be found in
// the cairo_scaled_font_map when cairo loads glyphs from a context with
// the same font_face, font_matrix, ctm, and surface font_options.
//
// Unfortunately, _cairo_scaled_font_keys_equal doesn't know about the
// font_options on the cairo_ft_font_face, and doesn't consider default
// option values to not match any explicit values.
//
// Even after cairo_set_scaled_font is used to set font_options for the
// cairo context, when cairo looks for a scaled_font for the context, it
// will look for a font with some option values from the target surface if
// any values are left default on the context font_options. If this
// scaled_font is created with default font_options, cairo will not find
// it.
//
// The one option not recorded in the pattern is hint_metrics, which will
// affect glyph metrics. The default behaves as CAIRO_HINT_METRICS_ON.
// We should be considering the font_options of the surface on which this
// font will be used, but currently we don't have different gfxFonts for
// different surface font_options, so we'll create a font suitable for the
// Screen. Image and xlib surfaces default to CAIRO_HINT_METRICS_ON.
// The remaining options have been recorded on the pattern and the face.
// _cairo_ft_options_merge has some logic to decide which options from the
// scaled_font or from the cairo_ft_font_face take priority in the way the
// font behaves.
//
// In the majority of cases, _cairo_ft_options_merge uses the options from
// the cairo_ft_font_face, so sometimes it is not so important which
// values are set here so long as they are not defaults, but we'll set
// them to the exact values that we expect from the font, to be consistent
// and to protect against changes in cairo.
//
// In some cases, _cairo_ft_options_merge uses some options from the
// scaled_font's font_options rather than options on the
// cairo_ft_font_face (from fontconfig).
// https://bugs.freedesktop.org/show_bug.cgi?id=11838
//
// Surface font options were set on the pattern in
// cairo_ft_font_options_substitute. If fontconfig has changed the
// hint_style then that is what the user (or distribution) wants, so we
// use the setting from the FcPattern.
//
// Fallback values here mirror treatment of defaults in cairo-ft-font.c.
FcBool hinting = FcFalse;
if (FcPatternGetBool(aPattern, FC_HINTING, 0, &hinting) != FcResultMatch) {
hinting = FcTrue;
}
int fc_hintstyle = FC_HINT_NONE;
if (!printing && hinting &&
FcPatternGetInteger(aPattern, FC_HINT_STYLE, 0, &fc_hintstyle) !=
FcResultMatch) {
fc_hintstyle = FC_HINT_FULL;
}
switch (fc_hintstyle) {
case FC_HINT_NONE:
loadFlags = FT_LOAD_NO_HINTING;
break;
case FC_HINT_SLIGHT:
loadFlags = FT_LOAD_TARGET_LIGHT;
break;
}
FcBool fc_antialias;
if (FcPatternGetBool(aPattern, FC_ANTIALIAS, 0, &fc_antialias) !=
FcResultMatch) {
fc_antialias = FcTrue;
}
if (!fc_antialias) {
if (fc_hintstyle != FC_HINT_NONE) {
loadFlags = FT_LOAD_TARGET_MONO;
}
loadFlags |= FT_LOAD_MONOCHROME;
}
else if (fc_hintstyle == FC_HINT_FULL) {
int fc_rgba;
if (FcPatternGetInteger(aPattern, FC_RGBA, 0, &fc_rgba) != FcResultMatch) {
fc_rgba = FC_RGBA_UNKNOWN;
}
switch (fc_rgba) {
case FC_RGBA_RGB:
case FC_RGBA_BGR:
loadFlags = FT_LOAD_TARGET_LCD;
break;
case FC_RGBA_VRGB:
case FC_RGBA_VBGR:
loadFlags = FT_LOAD_TARGET_LCD_V;
break;
}
}
if (!FcPatternAllowsBitmaps(aPattern, fc_antialias != FcFalse,
fc_hintstyle != FC_HINT_NONE)) {
loadFlags |= FT_LOAD_NO_BITMAP;
}
FcBool autohint;
if (FcPatternGetBool(aPattern, FC_AUTOHINT, 0, &autohint) == FcResultMatch &&
autohint) {
loadFlags |= FT_LOAD_FORCE_AUTOHINT;
}
FcBool embolden;
if (FcPatternGetBool(aPattern, FC_EMBOLDEN, 0, &embolden) == FcResultMatch &&
embolden) {
synthFlags |= CAIRO_FT_SYNTHESIZE_BOLD;
}
*aOutLoadFlags = loadFlags;
*aOutSynthFlags = synthFlags;
}
#ifdef MOZ_X11
static bool GetXftInt(Display* aDisplay,
const char* aName,
int* aResult) {
if (!aDisplay) {
return false;
}
char* value = XGetDefault(aDisplay,
"Xft", aName);
if (!value) {
return false;
}
if (FcNameConstant(
const_cast<FcChar8*>(ToFcChar8Ptr(value)), aResult)) {
return true;
}
char* end;
*aResult = strtol(value, &end, 0);
if (end != value) {
return true;
}
return false;
}
#endif
static void PreparePattern(FcPattern* aPattern,
bool aIsPrinterFont) {
FcConfigSubstitute(nullptr, aPattern, FcMatchPattern);
// This gets cairo_font_options_t for the Screen. We should have
// different font options for printing (no hinting) but we are not told
// what we are measuring for.
//
// If cairo adds support for lcd_filter, gdk will not provide the default
// setting for that option. We could get the default setting by creating
// an xlib surface once, recording its font_options, and then merging the
// gdk options.
//
// Using an xlib surface would also be an option to get Screen font
// options for non-GTK X11 toolkits, but less efficient than using GDK to
// pick up dynamic changes.
if (aIsPrinterFont) {
cairo_font_options_t* options = cairo_font_options_create();
cairo_font_options_set_hint_style(options, CAIRO_HINT_STYLE_NONE);
cairo_font_options_set_antialias(options, CAIRO_ANTIALIAS_GRAY);
cairo_ft_font_options_substitute(options, aPattern);
cairo_font_options_destroy(options);
FcPatternAddBool(aPattern, PRINTING_FC_PROPERTY, FcTrue);
#ifdef MOZ_WIDGET_GTK
}
else {
gfxFcPlatformFontList::PlatformFontList()->SubstituteSystemFontOptions(
aPattern);
#endif // MOZ_WIDGET_GTK
}
FcDefaultSubstitute(aPattern);
}
void gfxFontconfigFontEntry::UnscaledFontCache::MoveToFront(size_t aIndex) {
if (aIndex > 0) {
ThreadSafeWeakPtr<UnscaledFontFontconfig> front =
std::move(mUnscaledFonts[aIndex]);
for (size_t i = aIndex; i > 0; i--) {
mUnscaledFonts[i] = std::move(mUnscaledFonts[i - 1]);
}
mUnscaledFonts[0] = std::move(front);
}
}
already_AddRefed<UnscaledFontFontconfig>
gfxFontconfigFontEntry::UnscaledFontCache::Lookup(
const std::string& aFile,
uint32_t aIndex) {
for (size_t i = 0; i < kNumEntries; i++) {
RefPtr<UnscaledFontFontconfig> entry(mUnscaledFonts[i]);
if (entry && entry->GetFile() == aFile && entry->GetIndex() == aIndex) {
MoveToFront(i);
return entry.forget();
}
}
return nullptr;
}
static inline gfxFloat SizeForStyle(gfxFontconfigFontEntry* aEntry,
const gfxFontStyle& aStyle) {
return StyleFontSizeAdjust::Tag(aStyle.sizeAdjustBasis) !=
StyleFontSizeAdjust::Tag::None
? aStyle.GetAdjustedSize(aEntry->GetAspect(aStyle.sizeAdjustBasis))
: aStyle.size * aEntry->mSizeAdjust;
}
static double ChooseFontSize(gfxFontconfigFontEntry* aEntry,
const gfxFontStyle& aStyle) {
double requestedSize = SizeForStyle(aEntry, aStyle);
double bestDist = -1.0;
double bestSize = requestedSize;
double size;
int v = 0;
while (FcPatternGetDouble(aEntry->GetPattern(), FC_PIXEL_SIZE, v, &size) ==
FcResultMatch) {
++v;
double dist = fabs(size - requestedSize);
if (bestDist < 0.0 || dist < bestDist) {
bestDist = dist;
bestSize = size;
}
}
// If the font has bitmaps but wants to be scaled, then let it scale.
if (bestSize >= 0.0) {
FcBool scalable;
if (FcPatternGetBool(aEntry->GetPattern(), FC_SCALABLE, 0, &scalable) ==
FcResultMatch &&
scalable) {
return requestedSize;
}
}
return bestSize;
}
gfxFont* gfxFontconfigFontEntry::CreateFontInstance(
const gfxFontStyle* aFontStyle) {
RefPtr<FcPattern> pattern = dont_AddRef(FcPatternCreate());
if (!pattern) {
NS_WARNING(
"Failed to create Fontconfig pattern for font instance");
return nullptr;
}
double size = ChooseFontSize(
this, *aFontStyle);
FcPatternAddDouble(pattern, FC_PIXEL_SIZE, size);
RefPtr<SharedFTFace> face = GetFTFace();
if (!face) {
NS_WARNING(
"Failed to get FreeType face for pattern");
return nullptr;
}
if (HasVariations()) {
// For variation fonts, we create a new FT_Face here so that
// variation coordinates from the style can be applied without
// affecting other font instances created from the same entry
// (font resource).
// For user fonts: create a new FT_Face from the font data, and then make
// a pattern from that.
// For system fonts: create a new FT_Face and store it in a copy of the
// original mFontPattern.
RefPtr<SharedFTFace> varFace = face->GetData()
? face->GetData()->CloneFace()
: CreateFaceForPattern(mFontPattern);
if (varFace) {
AutoTArray<gfxFontVariation, 8> settings;
GetVariationsForStyle(settings, *aFontStyle);
gfxFT2FontBase::SetupVarCoords(GetMMVar(), settings, varFace->GetFace());
face = std::move(varFace);
}
}
PreparePattern(pattern, aFontStyle->printerFont);
RefPtr<FcPattern> renderPattern =
dont_AddRef(FcFontRenderPrepare(nullptr, pattern, mFontPattern));
if (!renderPattern) {
NS_WARNING(
"Failed to prepare Fontconfig pattern for font instance");
return nullptr;
}
if (aFontStyle->NeedsSyntheticBold(
this)) {
FcPatternAddBool(renderPattern, FC_EMBOLDEN, FcTrue);
}
// will synthetic oblique be applied using a transform?
if (IsUpright() && !aFontStyle->style.IsNormal() &&
aFontStyle->allowSyntheticStyle) {
// disable embedded bitmaps (mimics behavior in 90-synthetic.conf)
FcPatternDel(renderPattern, FC_EMBEDDED_BITMAP);
FcPatternAddBool(renderPattern, FC_EMBEDDED_BITMAP, FcFalse);
}
int loadFlags;
unsigned int synthFlags;
PrepareFontOptions(renderPattern, &loadFlags, &synthFlags);
std::string file;
int index = 0;
if (!face->GetData()) {
const FcChar8* fcFile;
if (FcPatternGetString(renderPattern, FC_FILE, 0,
const_cast<FcChar8**>(&fcFile)) != FcResultMatch ||
FcPatternGetInteger(renderPattern, FC_INDEX, 0, &index) !=
FcResultMatch) {
NS_WARNING(
"No file in Fontconfig pattern for font instance");
return nullptr;
}
file = ToCharPtr(fcFile);
}
RefPtr<UnscaledFontFontconfig> unscaledFont;
{
AutoReadLock lock(mLock);
unscaledFont = mUnscaledFontCache.Lookup(file, index);
}
if (!unscaledFont) {
AutoWriteLock lock(mLock);
// Here, we use the original mFTFace, not a potential clone with variation
// settings applied.
auto ftFace = GetFTFace();
unscaledFont = ftFace->GetData() ?
new UnscaledFontFontconfig(ftFace)
:
new UnscaledFontFontconfig(
std::move(file), index, ftFace);
mUnscaledFontCache.Add(unscaledFont);
}
gfxFont* newFont =
new gfxFontconfigFont(
unscaledFont, std::move(face), renderPattern, size,
this, aFontStyle,
loadFlags, (synthFlags & CAIRO_FT_SYNTHESIZE_BOLD) != 0);
return newFont;
}
SharedFTFace* gfxFontconfigFontEntry::GetFTFace() {
if (!mFTFaceInitialized) {
RefPtr<SharedFTFace> face = CreateFaceForPattern(mFontPattern);
if (face) {
if (mFTFace.compareExchange(nullptr, face.get())) {
Unused << face.forget();
// The reference is now owned by mFTFace.
mFTFaceInitialized =
true;
}
else {
// We lost a race to set mFTFace! Just discard our new face.
}
}
}
return mFTFace;
}
FTUserFontData* gfxFontconfigFontEntry::GetUserFontData() {
auto face = GetFTFace();
if (face && face->GetData()) {
return static_cast<FTUserFontData*>(face->GetData());
}
return nullptr;
}
bool gfxFontconfigFontEntry::HasVariations() {
// If the answer is already cached, just return it.
switch (mHasVariations) {
case HasVariationsState::No:
return false;
case HasVariationsState::Yes:
return true;
case HasVariationsState::Uninitialized:
break;
}
// Figure out whether we have variations, and record in mHasVariations.
// (It doesn't matter if we race with another thread to set this; the result
// will be the same.)
if (!gfxPlatform::HasVariationFontSupport()) {
mHasVariations = HasVariationsState::No;
return false;
}
// For installed fonts, query the fontconfig pattern rather than paying
// the cost of loading a FT_Face that we otherwise might never need.
if (!IsUserFont() || IsLocalUserFont()) {
FcBool variable;
if ((FcPatternGetBool(mFontPattern, FC_VARIABLE, 0, &variable) ==
FcResultMatch) &&
variable) {
mHasVariations = HasVariationsState::Yes;
return true;
}
}
else {
if (
auto ftFace = GetFTFace()) {
if (ftFace->GetFace()->face_flags & FT_FACE_FLAG_MULTIPLE_MASTERS) {
mHasVariations = HasVariationsState::Yes;
return true;
}
}
}
mHasVariations = HasVariationsState::No;
return false;
}
FT_MM_Var* gfxFontconfigFontEntry::GetMMVar() {
{
AutoReadLock lock(mLock);
if (mMMVarInitialized) {
return mMMVar;
}
}
AutoWriteLock lock(mLock);
mMMVarInitialized =
true;
InitializeVarFuncs();
if (!sGetVar) {
return nullptr;
}
auto ftFace = GetFTFace();
if (!ftFace) {
return nullptr;
}
if (FT_Err_Ok != (*sGetVar)(ftFace->GetFace(), &mMMVar)) {
mMMVar = nullptr;
}
return mMMVar;
}
void gfxFontconfigFontEntry::GetVariationAxes(
nsTArray<gfxFontVariationAxis>& aAxes) {
if (!HasVariations()) {
return;
}
gfxFT2Utils::GetVariationAxes(GetMMVar(), aAxes);
}
void gfxFontconfigFontEntry::GetVariationInstances(
nsTArray<gfxFontVariationInstance>& aInstances) {
if (!HasVariations()) {
return;
}
gfxFT2Utils::GetVariationInstances(
this, GetMMVar(), aInstances);
}
nsresult gfxFontconfigFontEntry::CopyFontTable(uint32_t aTableTag,
nsTArray<uint8_t>& aBuffer) {
NS_ASSERTION(!mIsDataUserFont,
"data fonts should be reading tables directly from memory");
return gfxFT2FontEntryBase::CopyFaceTable(GetFTFace(), aTableTag, aBuffer);
}
void gfxFontconfigFontFamily::FindStyleVariationsLocked(
FontInfoData* aFontInfoData) {
if (mHasStyles) {
return;
}
// add font entries for each of the faces
uint32_t numFonts = mFontPatterns.Length();
NS_ASSERTION(numFonts,
"font family containing no faces!!");
uint32_t numRegularFaces = 0;
for (uint32_t i = 0; i < numFonts; i++) {
FcPattern* face = mFontPatterns[i];
// figure out the psname/fullname and choose which to use as the facename
nsAutoCString psname, fullname;
GetFaceNames(face, mName, psname, fullname);
const nsAutoCString& faceName = !psname.IsEmpty() ? psname : fullname;
gfxFontconfigFontEntry* fontEntry =
new gfxFontconfigFontEntry(faceName, face, mContainsAppFonts);
if (gfxPlatform::HasVariationFontSupport()) {
fontEntry->SetupVariationRanges();
}
AddFontEntryLocked(fontEntry);
if (fontEntry->IsNormalStyle()) {
numRegularFaces++;
}
if (LOG_FONTLIST_ENABLED()) {
nsAutoCString weightString;
fontEntry->Weight().ToString(weightString);
nsAutoCString stretchString;
fontEntry->Stretch().ToString(stretchString);
nsAutoCString styleString;
fontEntry->SlantStyle().ToString(styleString);
LOG_FONTLIST(
(
"(fontlist) added (%s) to family (%s)"
" with style: %s weight: %s stretch: %s"
" psname: %s fullname: %s",
fontEntry->Name().get(), Name().get(), styleString.get(),
weightString.get(), stretchString.get(), psname.get(),
fullname.get()));
}
}
// somewhat arbitrary, but define a family with two or more regular
// faces as a family for which intra-family fallback should be used
if (numRegularFaces > 1) {
mCheckForFallbackFaces =
true;
}
mFaceNamesInitialized =
true;
mFontPatterns.Clear();
SetHasStyles(
true);
CheckForSimpleFamily();
}
void gfxFontconfigFontFamily::AddFontPattern(FcPattern* aFontPattern,
bool aSingleName) {
NS_ASSERTION(
!mHasStyles,
"font patterns must not be added to already enumerated families");
FcBool outline;
if (FcPatternGetBool(aFontPattern, FC_OUTLINE, 0, &outline) !=
FcResultMatch ||
!outline) {
mHasNonScalableFaces =
true;
FcBool scalable;
if (FcPatternGetBool(aFontPattern, FC_SCALABLE, 0, &scalable) ==
FcResultMatch &&
scalable) {
mForceScalable =
true;
}
}
if (aSingleName) {
mFontPatterns.InsertElementAt(mUniqueNameFaceCount++, aFontPattern);
}
else {
mFontPatterns.AppendElement(aFontPattern);
}
}
static const double kRejectDistance = 10000.0;
// Calculate a distance score representing the size disparity between the
// requested style's size and the font entry's size.
static double SizeDistance(gfxFontconfigFontEntry* aEntry,
const gfxFontStyle& aStyle,
bool aForceScalable) {
double requestedSize = SizeForStyle(aEntry, aStyle);
double bestDist = -1.0;
double size;
int v = 0;
while (FcPatternGetDouble(aEntry->GetPattern(), FC_PIXEL_SIZE, v, &size) ==
FcResultMatch) {
++v;
double dist = fabs(size - requestedSize);
if (bestDist < 0.0 || dist < bestDist) {
bestDist = dist;
}
}
if (bestDist < 0.0) {
// No size means scalable
return -1.0;
}
else if (aForceScalable || 5.0 * bestDist < requestedSize) {
// fontconfig prefers a matching family or lang to pixelsize of bitmap
// fonts. CSS suggests a tolerance of 20% on pixelsize.
return bestDist;
}
else {
// Reject any non-scalable fonts that are not within tolerance.
return kRejectDistance;
}
}
void gfxFontconfigFontFamily::FindAllFontsForStyle(
const gfxFontStyle& aFontStyle, nsTArray<gfxFontEntry*>& aFontEntryList,
bool aIgnoreSizeTolerance) {
gfxFontFamily::FindAllFontsForStyle(aFontStyle, aFontEntryList,
aIgnoreSizeTolerance);
if (!mHasNonScalableFaces) {
return;
}
// Iterate over the the available fonts while compacting any groups
// of unscalable fonts with matching styles into a single entry
// corresponding to the closest available size. If the closest
// available size is rejected for being outside tolerance, then the
// entire group will be skipped.
size_t skipped = 0;
gfxFontconfigFontEntry* bestEntry = nullptr;
double bestDist = -1.0;
for (size_t i = 0; i < aFontEntryList.Length(); i++) {
gfxFontconfigFontEntry* entry =
static_cast<gfxFontconfigFontEntry*>(aFontEntryList[i]);
double dist =
SizeDistance(entry, aFontStyle, mForceScalable || aIgnoreSizeTolerance);
// If the entry is scalable or has a style that does not match
// the group of unscalable fonts, then start a new group.
if (dist < 0.0 || !bestEntry || bestEntry->Stretch() != entry->Stretch() ||
bestEntry->Weight() != entry->Weight() ||
bestEntry->SlantStyle() != entry->SlantStyle()) {
// If the best entry in this group is still outside the tolerance,
// then skip the entire group.
if (bestDist >= kRejectDistance) {
skipped++;
}
// Remove any compacted entries from the previous group.
if (skipped) {
i -= skipped;
aFontEntryList.RemoveElementsAt(i, skipped);
skipped = 0;
}
// Mark the start of the new group.
bestEntry = entry;
bestDist = dist;
}
else {
// If this entry more closely matches the requested size than the
// current best in the group, then take this entry instead.
if (dist < bestDist) {
aFontEntryList[i - 1 - skipped] = entry;
bestEntry = entry;
bestDist = dist;
}
skipped++;
}
}
// If the best entry in this group is still outside the tolerance,
// then skip the entire group.
if (bestDist >= kRejectDistance) {
skipped++;
}
// Remove any compacted entries from the current group.
if (skipped) {
aFontEntryList.TruncateLength(aFontEntryList.Length() - skipped);
}
}
static bool PatternHasLang(
const FcPattern* aPattern,
const FcChar8* aLang) {
FcLangSet* langset;
if (FcPatternGetLangSet(aPattern, FC_LANG, 0, &langset) != FcResultMatch) {
return false;
}
if (FcLangSetHasLang(langset, aLang) != FcLangDifferentLang) {
return true;
}
return false;
}
bool gfxFontconfigFontFamily::SupportsLangGroup(nsAtom* aLangGroup)
const {
if (!aLangGroup || aLangGroup == nsGkAtoms::Unicode) {
return true;
}
nsAutoCString fcLang;
gfxFcPlatformFontList* pfl = gfxFcPlatformFontList::PlatformFontList();
pfl->GetSampleLangForGroup(aLangGroup, fcLang);
if (fcLang.IsEmpty()) {
return true;
}
// Before FindStyleVariations has been called, mFontPatterns will contain
// the font patterns. Afterward, it'll be empty, but mAvailableFonts
// will contain the font entries, each of which holds a reference to its
// pattern. We only check the first pattern in each list, because support
// for langs is considered to be consistent across all faces in a family.
AutoReadLock lock(mLock);
FcPattern* fontPattern;
if (mFontPatterns.Length()) {
fontPattern = mFontPatterns[0];
}
else if (mAvailableFonts.Length()) {
fontPattern =
static_cast<gfxFontconfigFontEntry*>(mAvailableFonts[0].get())
->GetPattern();
}
else {
return true;
}
// is lang included in the underlying pattern?
return PatternHasLang(fontPattern, ToFcChar8Ptr(fcLang.get()));
}
/* virtual */
gfxFontconfigFontFamily::~gfxFontconfigFontFamily() {
// Should not be dropped by stylo
MOZ_ASSERT(NS_IsMainThread());
}
template <
typename Func>
void gfxFontconfigFontFamily::AddFacesToFontList(Func aAddPatternFunc) {
AutoReadLock lock(mLock);
if (HasStyles()) {
for (
auto& fe : mAvailableFonts) {
if (!fe) {
continue;
}
auto fce =
static_cast<gfxFontconfigFontEntry*>(fe.get());
aAddPatternFunc(fce->GetPattern(), mContainsAppFonts);
}
}
else {
for (
auto& pat : mFontPatterns) {
aAddPatternFunc(pat, mContainsAppFonts);
}
}
}
gfxFontconfigFont::gfxFontconfigFont(
const RefPtr<UnscaledFontFontconfig>& aUnscaledFont,
RefPtr<SharedFTFace>&& aFTFace, FcPattern* aPattern, gfxFloat aAdjustedSize,
gfxFontEntry* aFontEntry,
const gfxFontStyle* aFontStyle,
int aLoadFlags,
bool aEmbolden)
: gfxFT2FontBase(aUnscaledFont, std::move(aFTFace), aFontEntry, aFontStyle,
aLoadFlags, aEmbolden),
mPattern(aPattern) {
mAdjustedSize = aAdjustedSize;
InitMetrics();
}
gfxFontconfigFont::~gfxFontconfigFont() =
default;
already_AddRefed<ScaledFont> gfxFontconfigFont::GetScaledFont(
const TextRunDrawParams& aRunParams) {
if (ScaledFont* scaledFont = mAzureScaledFont) {
return do_AddRef(scaledFont);
}
RefPtr<ScaledFont> newScaledFont = Factory::CreateScaledFontForFontconfigFont(
GetUnscaledFont(), GetAdjustedSize(), mFTFace, GetPattern());
if (!newScaledFont) {
return nullptr;
}
InitializeScaledFont(newScaledFont);
if (mAzureScaledFont.compareExchange(nullptr, newScaledFont.get())) {
Unused << newScaledFont.forget();
}
ScaledFont* scaledFont = mAzureScaledFont;
return do_AddRef(scaledFont);
}
bool gfxFontconfigFont::ShouldHintMetrics()
const {
return !GetStyle()->printerFont;
}
gfxFcPlatformFontList::gfxFcPlatformFontList()
: mLocalNames(64),
mGenericMappings(32),
mFcSubstituteCache(64),
mLastConfig(nullptr),
mAlwaysUseFontconfigGenerics(
true) {
CheckFamilyList(kBaseFonts_Ubuntu_22_04);
CheckFamilyList(kLangFonts_Ubuntu_22_04);
CheckFamilyList(kBaseFonts_Ubuntu_20_04);
CheckFamilyList(kLangFonts_Ubuntu_20_04);
CheckFamilyList(kBaseFonts_Fedora_39);
CheckFamilyList(kBaseFonts_Fedora_38);
mLastConfig = FcConfigGetCurrent();
if (XRE_IsParentProcess()) {
// if the rescan interval is set, start the timer
int rescanInterval = FcConfigGetRescanInterval(nullptr);
if (rescanInterval) {
NS_NewTimerWithFuncCallback(
getter_AddRefs(mCheckFontUpdatesTimer), CheckFontUpdates,
this,
(rescanInterval + 1) * 1000, nsITimer::TYPE_REPEATING_SLACK,
"gfxFcPlatformFontList::gfxFcPlatformFontList");
if (!mCheckFontUpdatesTimer) {
NS_WARNING(
"Failure to create font updates timer");
}
}
}
#ifdef MOZ_BUNDLED_FONTS
mBundledFontsInitialized =
false;
#endif
}
gfxFcPlatformFontList::~gfxFcPlatformFontList() {
AutoLock lock(mLock);
if (mCheckFontUpdatesTimer) {
mCheckFontUpdatesTimer->Cancel();
mCheckFontUpdatesTimer = nullptr;
}
#ifdef MOZ_WIDGET_GTK
ClearSystemFontOptions();
#endif
}
void gfxFcPlatformFontList::AddFontSetFamilies(FcFontSet* aFontSet,
const SandboxPolicy* aPolicy,
bool aAppFonts) {
// This iterates over the fonts in a font set and adds in gfxFontFamily
// objects for each family. Individual gfxFontEntry objects for each face
// are not created here; the patterns are just stored in the family. When
// a family is actually used, it will be populated with gfxFontEntry
// records and the patterns moved to those.
if (NS_WARN_IF(!aFontSet)) {
return;
}
FcChar8* lastFamilyName = (FcChar8*)
"";
RefPtr<gfxFontconfigFontFamily> fontFamily;
nsAutoCString familyName;
for (
int f = 0; f < aFontSet->nfont; f++) {
FcPattern* pattern = aFontSet->fonts[f];
// Skip any fonts that aren't readable for us (e.g. due to restrictive
// file ownership/permissions).
FcChar8* path;
if (FcPatternGetString(pattern, FC_FILE, 0, &path) != FcResultMatch) {
continue;
}
if (access(
reinterpret_cast<
const char*>(path), F_OK | R_OK) != 0) {
continue;
}
#if defined(MOZ_SANDBOX) &&
defined(XP_LINUX)
// Skip any fonts that will be blocked by the content-process sandbox
// policy.
if (aPolicy && !(aPolicy->Lookup(
reinterpret_cast<
const char*>(path)) &
SandboxBroker::Perms::MAY_READ)) {
continue;
}
#endif
AddPatternToFontList(pattern, lastFamilyName, familyName, fontFamily,
aAppFonts);
}
}
// Check whether a pattern refers to a non-variable font, or a specific named
// instance of a variable font. Only such patterns are eligible for src:local()
// name lookups, as local() is defined to reference a specific face.
static bool IsNonVariableOrNamedInstance(FcPattern* aPattern) {
FcBool value;
if (FcPatternGetBool(aPattern, FC_VARIABLE, 0, &value) == FcResultMatch &&
value) {
// It's a variable font resource; check if this is a named instance.
if (FcPatternGetBool(aPattern, FC_NAMED_INSTANCE, 0, &value) ==
FcResultMatch &&
value) {
// Yes, named instance: ok to use.
return true;
}
// It's a variable font; we don't want it.
return false;
}
// Non-variable: no problem.
return true;
}
void gfxFcPlatformFontList::AddPatternToFontList(
FcPattern* aFont, FcChar8*& aLastFamilyName, nsACString& aFamilyName,
RefPtr<gfxFontconfigFontFamily>& aFontFamily,
bool aAppFonts) {
// get canonical name
uint32_t cIndex = FindCanonicalNameIndex(aFont, FC_FAMILYLANG);
FcChar8* canonical = nullptr;
FcPatternGetString(aFont, FC_FAMILY, cIndex, &canonical);
if (!canonical) {
return;
}
// same as the last one? no need to add a new family, skip
if (FcStrCmp(canonical, aLastFamilyName) != 0) {
aLastFamilyName = canonical;
// add new family if one doesn't already exist
aFamilyName.Truncate();
aFamilyName = ToCharPtr(canonical);
nsAutoCString keyName(aFamilyName);
ToLowerCase(keyName);
aFontFamily =
static_cast<gfxFontconfigFontFamily*>(
mFontFamilies
.LookupOrInsertWith(keyName,
[&] {
FontVisibility visibility =
aAppFonts
? FontVisibility::Base
: GetVisibilityForFamily(keyName);
return MakeRefPtr<gfxFontconfigFontFamily>(
aFamilyName, visibility);
})
.get());
// Record if the family contains fonts from the app font set
// (in which case we won't rely on fontconfig's charmap, due to
// bug 1276594).
if (aAppFonts) {
aFontFamily->SetFamilyContainsAppFonts(
true);
}
}
// Add pointers to other localized family names. Most fonts
// only have a single name, so the first call to GetString
// will usually not match
FcChar8* otherName;
int n = (cIndex == 0 ? 1 : 0);
AutoTArray<nsCString, 4> otherFamilyNames;
while (FcPatternGetString(aFont, FC_FAMILY, n, &otherName) == FcResultMatch) {
otherFamilyNames.AppendElement(nsCString(ToCharPtr(otherName)));
n++;
if (n ==
int(cIndex)) {
n++;
// skip over canonical name
}
}
if (!otherFamilyNames.IsEmpty()) {
AddOtherFamilyNames(aFontFamily, otherFamilyNames);
}
const bool singleName = n == 1;
MOZ_ASSERT(aFontFamily,
"font must belong to a font family");
aFontFamily->AddFontPattern(aFont, singleName);
if (IsNonVariableOrNamedInstance(aFont)) {
// map the psname, fullname ==> font family for local font lookups
nsAutoCString psname, fullname;
GetFaceNames(aFont, aFamilyName, psname, fullname);
if (!psname.IsEmpty()) {
ToLowerCase(psname);
mLocalNames.InsertOrUpdate(psname, RefPtr{aFont});
}
if (!fullname.IsEmpty()) {
ToLowerCase(fullname);
mLocalNames.WithEntryHandle(fullname, [&](
auto&& entry) {
if (entry && !singleName) {
return;
}
entry.InsertOrUpdate(RefPtr{aFont});
});
}
}
}
nsresult gfxFcPlatformFontList::InitFontListForPlatform() {
#ifdef MOZ_BUNDLED_FONTS
if (StaticPrefs::gfx_bundled_fonts_activate_AtStartup() != 0) {
ActivateBundledFonts();
}
#endif
mLocalNames.Clear();
mFcSubstituteCache.Clear();
ClearSystemFontOptions();
mAlwaysUseFontconfigGenerics = PrefFontListsUseOnlyGenerics();
mOtherFamilyNamesInitialized =
true;
mLastConfig = FcConfigGetCurrent();
if (XRE_IsContentProcess()) {
// Content process: use the font list passed from the chrome process,
// because we can't rely on fontconfig in the presence of sandboxing;
// it may report fonts that we can't actually access.
FcChar8* lastFamilyName = (FcChar8*)
"";
RefPtr<gfxFontconfigFontFamily> fontFamily;
nsAutoCString familyName;
// Get font list that was passed during XPCOM startup
// or in an UpdateFontList message.
auto& fontList = dom::ContentChild::GetSingleton()->SystemFontList();
#ifdef MOZ_WIDGET_GTK
UpdateSystemFontOptionsFromIpc(fontList.options());
#endif
// For fontconfig versions between 2.10.94 and 2.11.1 inclusive,
// we need to escape any leading space in the charset element,
// otherwise FcNameParse will fail. :(
//
// The bug was introduced on 2013-05-24 by
// https://cgit.freedesktop.org/fontconfig/commit/?id=cd9b1033a68816a7acfbba1718ba0aa5888f6ec7
// "Bug 64906 - FcNameParse() should ignore leading whitespace in
// parameters"
// because ignoring a leading space in the encoded value of charset
// causes erroneous decoding of the whole element.
// This first shipped in version 2.10.94, and was eventually fixed as
// a side-effect of switching to the "human-readable" representation of
// charsets on 2014-07-03 in
// https://cgit.freedesktop.org/fontconfig/commit/?id=e708e97c351d3bc9f7030ef22ac2f007d5114730
// "Change charset parse/unparse format to be human readable"
// (with a followup fix next day) which means a leading space is no
// longer significant. This fix landed after 2.11.1 had been shipped,
// so the first version tag without the bug is 2.11.91.
int fcVersion = FcGetVersion();
bool fcCharsetParseBug = fcVersion >= 21094 && fcVersion <= 21101;
for (FontPatternListEntry& fpe : fontList.entries()) {
nsCString& patternStr = fpe.pattern();
if (fcCharsetParseBug) {
int32_t index = patternStr.Find(
":charset= ");
if (index != kNotFound) {
// insert backslash after the =, before the space
patternStr.Insert(
'\\', index + 9);
}
}
FcPattern* pattern = FcNameParse((
const FcChar8*)patternStr.get());
AddPatternToFontList(pattern, lastFamilyName, familyName, fontFamily,
fpe.appFontFamily());
FcPatternDestroy(pattern);
}
LOG_FONTLIST(
(
"got font list from chrome process: "
"%u faces in %u families",
(
unsigned)fontList.entries().Length(), mFontFamilies.Count()));
fontList.entries().Clear();
return NS_OK;
}
UpdateSystemFontOptions();
UniquePtr<SandboxPolicy> policy;
#if defined(MOZ_SANDBOX) &&
defined(XP_LINUX)
// If read sandboxing is enabled, create a temporary SandboxPolicy to
// check font paths; use a fake PID to avoid picking up any PID-specific
// rules by accident.
SandboxBrokerPolicyFactory policyFactory;
if (GetEffectiveContentSandboxLevel() > 2 &&
!PR_GetEnv(
"MOZ_DISABLE_CONTENT_SANDBOX")) {
policy = policyFactory.GetContentPolicy(-1,
false);
}
#endif
#ifdef MOZ_BUNDLED_FONTS
// https://bugzilla.mozilla.org/show_bug.cgi?id=1745715:
// It's important to do this *before* processing the standard system fonts,
// so that if a family is present in both font sets, we'll treat it as app-
// bundled and therefore always visible.
if (StaticPrefs::gfx_bundled_fonts_activate_AtStartup() != 0) {
FcFontSet* appFonts = FcConfigGetFonts(nullptr, FcSetApplication);
AddFontSetFamilies(appFonts, policy.get(),
/* aAppFonts = */ true);
}
#endif
// iterate over available fonts
FcFontSet* systemFonts = FcConfigGetFonts(nullptr, FcSetSystem);
AddFontSetFamilies(systemFonts, policy.get(),
/* aAppFonts = */ false);
return NS_OK;
}
void gfxFcPlatformFontList::ReadSystemFontList(dom::SystemFontList* retValue) {
AutoLock lock(mLock);
// Fontconfig versions below 2.9 drop the FC_FILE element in FcNameUnparse
// (see https://bugs.freedesktop.org/show_bug.cgi?id=26718), so when using
// an older version, we manually append it to the unparsed pattern.
#ifdef MOZ_WIDGET_GTK
SystemFontOptionsToIpc(retValue->options());
#endif
if (FcGetVersion() < 20900) {
for (
const auto& entry : mFontFamilies) {
auto* family =
static_cast<gfxFontconfigFontFamily*>(entry.GetWeak());
family->AddFacesToFontList([&](FcPattern* aPat,
bool aAppFonts) {
char* s = (
char*)FcNameUnparse(aPat);
nsDependentCString patternStr(s);
char* file = nullptr;
if (FcResultMatch ==
FcPatternGetString(aPat, FC_FILE, 0, (FcChar8**)&file)) {
patternStr.Append(
":file=");
patternStr.Append(file);
}
retValue->entries().AppendElement(
FontPatternListEntry(patternStr, aAppFonts));
free(s);
});
}
}
else {
for (
const auto& entry : mFontFamilies) {
auto* family =
static_cast<gfxFontconfigFontFamily*>(entry.GetWeak());
family->AddFacesToFontList([&](FcPattern* aPat,
bool aAppFonts) {
char* s = (
char*)FcNameUnparse(aPat);
nsDependentCString patternStr(s);
retValue->entries().AppendElement(
FontPatternListEntry(patternStr, aAppFonts));
free(s);
});
}
}
}
using Device = nsIGfxInfo::FontVisibilityDeviceDetermination;
static Device sFontVisibilityDevice = Device::Unassigned;
void AssignFontVisibilityDevice() {
if (sFontVisibilityDevice == Device::Unassigned) {
nsCOMPtr<nsIGfxInfo> gfxInfo = components::GfxInfo::Service();
NS_ENSURE_SUCCESS_VOID(
gfxInfo->GetFontVisibilityDetermination(&sFontVisibilityDevice));
}
}
// Per family array of faces.
class FacesData {
using FaceInitArray = AutoTArray<fontlist::Face::InitData, 8>;
FaceInitArray mFaces;
// Number of faces that have a single name. Faces that have multiple names are
// sorted last.
uint32_t mUniqueNameFaceCount = 0;
public:
void Add(fontlist::Face::InitData&& aData,
bool aSingleName) {
if (aSingleName) {
mFaces.InsertElementAt(mUniqueNameFaceCount++, std::move(aData));
}
else {
mFaces.AppendElement(std::move(aData));
}
}
const FaceInitArray& Get()
const {
return mFaces; }
};
void gfxFcPlatformFontList::InitSharedFontListForPlatform() {
mLocalNames.Clear();
mFcSubstituteCache.Clear();
mAlwaysUseFontconfigGenerics = PrefFontListsUseOnlyGenerics();
mOtherFamilyNamesInitialized =
true;
mLastConfig = FcConfigGetCurrent();
if (!XRE_IsParentProcess()) {
#ifdef MOZ_WIDGET_GTK
auto& fontList = dom::ContentChild::GetSingleton()->SystemFontList();
UpdateSystemFontOptionsFromIpc(fontList.options());
#endif
// Content processes will access the shared-memory data created by the
// parent, so they do not need to query fontconfig for the available
// fonts themselves.
return;
}
#ifdef MOZ_WIDGET_GTK
UpdateSystemFontOptions();
#endif
#ifdef MOZ_BUNDLED_FONTS
if (StaticPrefs::gfx_bundled_fonts_activate_AtStartup() != 0) {
auto timerId = glean::fontlist::bundledfonts_activate.Start();
ActivateBundledFonts();
glean::fontlist::bundledfonts_activate.StopAndAccumulate(
std::move(timerId));
}
#endif
UniquePtr<SandboxPolicy> policy;
#if defined(MOZ_CONTENT_SANDBOX) &&
defined(XP_LINUX)
// If read sandboxing is enabled, create a temporary SandboxPolicy to
// check font paths; use a fake PID to avoid picking up any PID-specific
// rules by accident.
SandboxBrokerPolicyFactory policyFactory;
if (GetEffectiveContentSandboxLevel() > 2 &&
!PR_GetEnv(
"MOZ_DISABLE_CONTENT_SANDBOX")) {
policy = policyFactory.GetContentPolicy(-1,
false);
}
#endif
nsTArray<fontlist::Family::InitData> families;
nsClassHashtable<nsCStringHashKey, FacesData> faces;
// Do we need to work around the fontconfig FcNameParse/FcNameUnparse bug
// (present in versions between 2.10.94 and 2.11.1 inclusive)? See comment
// in InitFontListForPlatform for details.
int fcVersion = FcGetVersion();
bool fcCharsetParseBug = fcVersion >= 21094 && fcVersion <= 21101;
// Returns true if the font was added with FontVisibility::Base.
// This enables us to count how many known Base fonts are present.
auto addPattern = [
this, fcCharsetParseBug, &families, &faces](
FcPattern* aPattern, FcChar8*& aLastFamilyName,
nsCString& aFamilyName,
bool aAppFont) ->
bool {
// get canonical name
uint32_t cIndex = FindCanonicalNameIndex(aPattern, FC_FAMILYLANG);
FcChar8* canonical = nullptr;
FcPatternGetString(aPattern, FC_FAMILY, cIndex, &canonical);
if (!canonical) {
return false;
}
nsAutoCString keyName;
keyName = ToCharPtr(canonical);
ToLowerCase(keyName);
aLastFamilyName = canonical;
aFamilyName = ToCharPtr(canonical);
const FontVisibility visibility =
aAppFont ? FontVisibility::Base : GetVisibilityForFamily(keyName);
// Same canonical family name as the last one? Definitely no need to add a
// new family record.
auto* faceList =
faces
.LookupOrInsertWith(
keyName,
[&] {
families.AppendElement(fontlist::Family::InitData(
keyName, aFamilyName, fontlist::Family::kNoIndex,
visibility,
/*bundled*/ aAppFont, /*badUnderline*/ false));
return MakeUnique<FacesData>();
})
.get();
char* s = (
char*)FcNameUnparse(aPattern);
nsAutoCString descriptor(s);
free(s);
if (fcCharsetParseBug) {
// Escape any leading space in charset to work around FcNameParse bug.
int32_t index = descriptor.Find(
":charset= ");
if (index != kNotFound) {
// insert backslash after the =, before the space
descriptor.Insert(
'\\', index + 9);
}
}
WeightRange weight(FontWeight::NORMAL);
StretchRange stretch(FontStretch::NORMAL);
SlantStyleRange style(FontSlantStyle::NORMAL);
uint16_t size;
GetFontProperties(aPattern, &weight, &stretch, &style, &size);
auto initData = fontlist::Face::InitData{descriptor, 0, size,
false,
weight, stretch, style};
// Add entries for any other localized family names. (Most fonts only have
// a single family name, so the first call to GetString will usually fail).
// These get the same visibility level as we looked up for the first name.
FcChar8* otherName;
int n = (cIndex == 0 ? 1 : 0);
while (FcPatternGetString(aPattern, FC_FAMILY, n, &otherName) ==
FcResultMatch) {
nsAutoCString otherFamilyName(ToCharPtr(otherName));
keyName = otherFamilyName;
ToLowerCase(keyName);
faces
.LookupOrInsertWith(
keyName,
[&] {
families.AppendElement(fontlist::Family::InitData(
keyName, otherFamilyName, fontlist::Family::kNoIndex,
visibility,
/*bundled*/ aAppFont, /*badUnderline*/ false));
return MakeUnique<FacesData>();
})
.get()
->Add(fontlist::Face::InitData(initData),
/* singleName = */ false);
n++;
if (n ==
int(cIndex)) {
n++;
// skip over canonical name
}
}
const bool singleName = n == 1;
faceList->Add(std::move(initData), singleName);
if (IsNonVariableOrNamedInstance(aPattern)) {
// map the psname, fullname ==> font family for local font lookups
nsAutoCString psname, fullname;
GetFaceNames(aPattern, aFamilyName, psname, fullname);
MOZ_PUSH_IGNORE_THREAD_SAFETY
if (!psname.IsEmpty()) {
ToLowerCase(psname);
MaybeAddToLocalNameTable(
psname, fontlist::LocalFaceRec::InitData(keyName, descriptor));
}
if (!fullname.IsEmpty()) {
ToLowerCase(fullname);
if (fullname != psname) {
// We only consider overriding an existing entry if this is the only
// way to name this family. This prevents dubious aliases from
// clobbering the local name table.
if (singleName || !mLocalNameTable.Contains(fullname)) {
MaybeAddToLocalNameTable(fullname, fontlist::LocalFaceRec::InitData(
keyName, descriptor));
}
}
}
MOZ_POP_THREAD_SAFETY
}
return visibility == FontVisibility::Base;
};
// Returns the number of families with FontVisibility::Base that were found.
auto addFontSetFamilies = [&addPattern](FcFontSet* aFontSet,
SandboxPolicy* aPolicy,
bool aAppFonts) -> size_t {
--> --------------------
--> maximum size reached
--> --------------------
