Source/WebCore/css/CSSFontSelector.cpp - WebKit - Git at Google

 /*
  * Copyright (C) 2007-2021 Apple Inc. All rights reserved.
  *           (C) 2007, 2008 Nikolas Zimmermann <zimmermann@kde.org>
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions
  * are met:
  * 1. Redistributions of source code must retain the above copyright
  *    notice, this list of conditions and the following disclaimer.
  * 2. Redistributions in binary form must reproduce the above copyright
  *    notice, this list of conditions and the following disclaimer in the
  *    documentation and/or other materials provided with the distribution.
  *
  * THIS SOFTWARE IS PROVIDED BY APPLE INC. ``AS IS'' AND ANY
  * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL APPLE INC. OR
  * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
  * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
  * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
  * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
  * OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
  * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
  */

 #include "config.h"
 #include "CSSFontSelector.h"

 #include "CachedFont.h"
 #include "CSSFontFace.h"
 #include "CSSFontFaceSource.h"
 #include "CSSFontFamily.h"
 #include "CSSPrimitiveValue.h"
 #include "CSSPropertyNames.h"
 #include "CSSSegmentedFontFace.h"
 #include "CSSValueKeywords.h"
 #include "CSSValueList.h"
 #include "CachedResourceLoader.h"
 #include "Document.h"
 #include "Font.h"
 #include "FontCache.h"
 #include "FontFace.h"
 #include "FontFaceSet.h"
 #include "FontSelectorClient.h"
 #include "Frame.h"
 #include "FrameLoader.h"
 #include "Logging.h"
 #include "ResourceLoadObserver.h"
 #include "RuntimeEnabledFeatures.h"
 #include "Settings.h"
 #include "StyleProperties.h"
 #include "StyleResolver.h"
 #include "StyleRule.h"
 #include <wtf/Ref.h>
 #include <wtf/SetForScope.h>
 #include <wtf/text/AtomString.h>

 namespace WebCore {

 using namespace WebKitFontFamilyNames;

 static unsigned fontSelectorId;

 CSSFontSelector::CSSFontSelector(ScriptExecutionContext& context)
     : ActiveDOMObject(&context)
     , m_context(context)
     , m_fontCache(context.fontCache())
     , m_cssFontFaceSet(CSSFontFaceSet::create(this))
     , m_fontModifiedObserver([this] { fontModified(); })
     , m_uniqueId(++fontSelectorId)
     , m_version(0)
 {
     if (is<Document>(context)) {
         m_fontFamilyNames.reserveInitialCapacity(familyNames->size());
         for (auto& familyName : familyNames.get())
             m_fontFamilyNames.uncheckedConstructAndAppend(familyName);
     } else {
         m_fontFamilyNames.reserveInitialCapacity(familyNamesData->size());
         for (auto& familyName : familyNamesData.get())
             m_fontFamilyNames.uncheckedAppend(familyName);
     }

     m_fontCache->addClient(*this);
     m_cssFontFaceSet->addFontModifiedObserver(m_fontModifiedObserver);
     LOG(Fonts, "CSSFontSelector %p ctor", this);

     suspendIfNeeded();
 }

 CSSFontSelector::~CSSFontSelector()
 {
     LOG(Fonts, "CSSFontSelector %p dtor", this);

     clearFonts();
     m_fontCache->removeClient(*this);
 }

 FontFaceSet* CSSFontSelector::fontFaceSetIfExists()
 {
     return m_fontFaceSet.get();
 }

 FontFaceSet& CSSFontSelector::fontFaceSet()
 {
     if (!m_fontFaceSet) {
         ASSERT(m_context);
         m_fontFaceSet = FontFaceSet::create(*m_context, m_cssFontFaceSet.get());
     }

     return *m_fontFaceSet;
 }

 bool CSSFontSelector::isEmpty() const
 {
     return !m_cssFontFaceSet->faceCount();
 }

 void CSSFontSelector::emptyCaches()
 {
     m_cssFontFaceSet->emptyCaches();
 }

 void CSSFontSelector::buildStarted()
 {
     m_buildIsUnderway = true;
     m_cssFontFaceSet->purge();
     ++m_version;

     ASSERT(m_cssConnectionsPossiblyToRemove.isEmpty());
     ASSERT(m_cssConnectionsEncounteredDuringBuild.isEmpty());
     ASSERT(m_stagingArea.isEmpty());
     for (size_t i = 0; i < m_cssFontFaceSet->faceCount(); ++i) {
         CSSFontFace& face = m_cssFontFaceSet.get()[i];
         if (face.cssConnection())
             m_cssConnectionsPossiblyToRemove.add(&face);
     }

     m_paletteMap.clear();
 }

 void CSSFontSelector::buildCompleted()
 {
     if (!m_buildIsUnderway)
         return;

     m_buildIsUnderway = false;

     // Some font faces weren't re-added during the build process.
     for (auto& face : m_cssConnectionsPossiblyToRemove) {
         auto* connection = face->cssConnection();
         ASSERT(connection);
         if (!m_cssConnectionsEncounteredDuringBuild.contains(connection))
             m_cssFontFaceSet->remove(*face);
     }

     for (auto& item : m_stagingArea)
         addFontFaceRule(item.styleRuleFontFace, item.isInitiatingElementInUserAgentShadowTree);
     m_cssConnectionsEncounteredDuringBuild.clear();
     m_stagingArea.clear();
     m_cssConnectionsPossiblyToRemove.clear();
 }

 void CSSFontSelector::addFontFaceRule(StyleRuleFontFace& fontFaceRule, bool isInitiatingElementInUserAgentShadowTree)
 {
     if (m_buildIsUnderway) {
         m_cssConnectionsEncounteredDuringBuild.add(&fontFaceRule);
         m_stagingArea.append({fontFaceRule, isInitiatingElementInUserAgentShadowTree});
         return;
     }

     const StyleProperties& style = fontFaceRule.properties();
     RefPtr<CSSValue> fontFamily = style.getPropertyCSSValue(CSSPropertyFontFamily);
     RefPtr<CSSValue> fontStyle = style.getPropertyCSSValue(CSSPropertyFontStyle);
     RefPtr<CSSValue> fontWeight = style.getPropertyCSSValue(CSSPropertyFontWeight);
     RefPtr<CSSValue> fontStretch = style.getPropertyCSSValue(CSSPropertyFontStretch);
     RefPtr<CSSValue> src = style.getPropertyCSSValue(CSSPropertySrc);
     RefPtr<CSSValue> unicodeRange = style.getPropertyCSSValue(CSSPropertyUnicodeRange);
     RefPtr<CSSValue> featureSettings = style.getPropertyCSSValue(CSSPropertyFontFeatureSettings);
     RefPtr<CSSValue> loadingBehavior = style.getPropertyCSSValue(CSSPropertyFontDisplay);
     if (!is<CSSValueList>(fontFamily) || !is<CSSValueList>(src) || (unicodeRange && !is<CSSValueList>(*unicodeRange)))
         return;

     CSSValueList& familyList = downcast<CSSValueList>(*fontFamily);
     if (!familyList.length())
         return;

     CSSValueList* rangeList = downcast<CSSValueList>(unicodeRange.get());

     CSSValueList& srcList = downcast<CSSValueList>(*src);
     if (!srcList.length())
         return;

     SetForScope<bool> creatingFont(m_creatingFont, true);
     auto fontFace = CSSFontFace::create(*this, &fontFaceRule);

     if (!fontFace->setFamilies(*fontFamily))
         return;
     if (fontStyle)
         fontFace->setStyle(*fontStyle);
     if (fontWeight)
         fontFace->setWeight(*fontWeight);
     if (fontStretch)
         fontFace->setStretch(*fontStretch);
     if (rangeList && !fontFace->setUnicodeRange(*rangeList))
         return;
     if (featureSettings)
         fontFace->setFeatureSettings(*featureSettings);
     if (loadingBehavior)
         fontFace->setLoadingBehavior(*loadingBehavior);

     CSSFontFace::appendSources(fontFace, srcList, m_context.get(), isInitiatingElementInUserAgentShadowTree);

     if (RefPtr<CSSFontFace> existingFace = m_cssFontFaceSet->lookUpByCSSConnection(fontFaceRule)) {
         // This adoption is fairly subtle. Script can trigger a purge of m_cssFontFaceSet at any time,
         // which will cause us to just rely on the memory cache to retain the bytes of the file the next
         // time we build up the CSSFontFaceSet. However, when the CSS Font Loading API is involved,
         // the FontFace and FontFaceSet objects need to retain state. We create the new CSSFontFace object
         // while the old one is still in scope so that the memory cache will be forced to retain the bytes
         // of the resource. This means that the CachedFont will temporarily have two clients (until the
         // old CSSFontFace goes out of scope, which should happen at the end of this "if" block). Because
         // the CSSFontFaceSource objects will inspect their CachedFonts, the new CSSFontFace is smart enough
         // to enter the correct state() during the next pump(). This approach of making a new CSSFontFace is
         // simpler than computing and applying a diff of the StyleProperties.
         m_cssFontFaceSet->remove(*existingFace);
         if (auto* existingWrapper = existingFace->existingWrapper())
             existingWrapper->adopt(fontFace.get());
     }

     m_cssFontFaceSet->add(fontFace.get());
     ++m_version;
 }

 void CSSFontSelector::addFontPaletteValuesRule(StyleRuleFontPaletteValues& fontPaletteValuesRule)
 {
     AtomString fontFamily = fontPaletteValuesRule.fontFamily().isNull() ? emptyAtom() : fontPaletteValuesRule.fontFamily();
     AtomString name = fontPaletteValuesRule.name().isNull() ? emptyAtom() : fontPaletteValuesRule.name();
     m_paletteMap.set(std::make_pair(fontFamily, name), fontPaletteValuesRule.fontPaletteValues());

     ++m_version;
 }

 void CSSFontSelector::registerForInvalidationCallbacks(FontSelectorClient& client)
 {
     m_clients.add(&client);
 }

 void CSSFontSelector::unregisterForInvalidationCallbacks(FontSelectorClient& client)
 {
     m_clients.remove(&client);
 }

 void CSSFontSelector::dispatchInvalidationCallbacks()
 {
     ++m_version;

     for (auto& client : copyToVector(m_clients))
         client->fontsNeedUpdate(*this);
 }

 void CSSFontSelector::opportunisticallyStartFontDataURLLoading(const FontCascadeDescription& description, const AtomString& familyName)
 {
     const auto& segmentedFontFace = m_cssFontFaceSet->fontFace(description.fontSelectionRequest(), familyName);
     if (!segmentedFontFace)
         return;
     for (auto& face : segmentedFontFace->constituentFaces())
         face->opportunisticallyStartFontDataURLLoading();
 }

 void CSSFontSelector::fontLoaded(CSSFontFace&)
 {
     dispatchInvalidationCallbacks();
 }

 void CSSFontSelector::fontModified()
 {
     if (!m_creatingFont && !m_buildIsUnderway)
         dispatchInvalidationCallbacks();
 }

 void CSSFontSelector::updateStyleIfNeeded()
 {
     if (is<Document>(m_context))
         downcast<Document>(*m_context).updateStyleIfNeeded();
 }

 void CSSFontSelector::updateStyleIfNeeded(CSSFontFace&)
 {
     updateStyleIfNeeded();
 }

 void CSSFontSelector::fontCacheInvalidated()
 {
     dispatchInvalidationCallbacks();
 }

 std::optional<AtomString> CSSFontSelector::resolveGenericFamily(const FontDescription& fontDescription, const AtomString& familyName)
 {
     auto platformResult = FontDescription::platformResolveGenericFamily(fontDescription.script(), fontDescription.computedLocale(), familyName);
     if (!platformResult.isNull())
         return platformResult;

     if (!m_context)
         return std::nullopt;

     const auto& settings = m_context->settingsValues();

     UScriptCode script = fontDescription.script();
     auto familyNameIndex = m_fontFamilyNames.find(familyName);
     if (familyNameIndex != notFound) {
         if (auto familyString = settings.fontGenericFamilies.fontFamily(static_cast<FamilyNamesIndex>(familyNameIndex), script))
             return AtomString(*familyString);
     }

     return std::nullopt;
 }

 const FontPaletteValues& CSSFontSelector::lookupFontPaletteValues(const AtomString& familyName, const FontDescription& fontDescription)
 {
     static NeverDestroyed<FontPaletteValues> emptyFontPaletteValues;
     if (fontDescription.fontPalette().type != FontPalette::Type::Custom)
         return emptyFontPaletteValues.get();

     const AtomString paletteName = fontDescription.fontPalette().identifier;

     auto iterator = m_paletteMap.find(std::make_pair(familyName, paletteName));
     if (iterator == m_paletteMap.end())
         return emptyFontPaletteValues.get();
     return iterator->value;
 }

 FontRanges CSSFontSelector::fontRangesForFamily(const FontDescription& fontDescription, const AtomString& familyName)
 {
     // If this ASSERT() fires, it usually means you forgot a document.updateStyleIfNeeded() somewhere.
     ASSERT(!m_buildIsUnderway || m_computingRootStyleFontCount);

     // FIXME: The spec (and Firefox) says user specified generic families (sans-serif etc.) should be resolved before the @font-face lookup too.
     bool resolveGenericFamilyFirst = familyName == m_fontFamilyNames.at(FamilyNamesIndex::StandardFamily);

     AtomString familyForLookup = familyName;
     std::optional<FontDescription> overrideFontDescription;
     const FontDescription* fontDescriptionForLookup = &fontDescription;
     auto resolveAndAssignGenericFamily = [&]() {
         if (auto genericFamilyOptional = resolveGenericFamily(fontDescription, familyName))
             familyForLookup = *genericFamilyOptional;
     };

     const auto& fontPaletteValues = lookupFontPaletteValues(familyName, fontDescription);

     if (resolveGenericFamilyFirst)
         resolveAndAssignGenericFamily();
     Document* document = is<Document>(m_context) ? &downcast<Document>(*m_context) : nullptr;
     auto* face = m_cssFontFaceSet->fontFace(fontDescriptionForLookup->fontSelectionRequest(), familyForLookup);
     if (face) {
         if (document && RuntimeEnabledFeatures::sharedFeatures().webAPIStatisticsEnabled())
             ResourceLoadObserver::shared().logFontLoad(*document, familyForLookup.string(), true);
         return face->fontRanges(*fontDescriptionForLookup, fontPaletteValues);
     }

     if (!resolveGenericFamilyFirst)
         resolveAndAssignGenericFamily();
     auto font = m_fontCache->fontForFamily(*fontDescriptionForLookup, familyForLookup, { { }, { }, fontPaletteValues });
     if (document && RuntimeEnabledFeatures::sharedFeatures().webAPIStatisticsEnabled())
         ResourceLoadObserver::shared().logFontLoad(*document, familyForLookup.string(), !!font);
     return FontRanges { WTFMove(font) };
 }

 void CSSFontSelector::clearFonts()
 {
     m_isStopped = true;
     m_cssFontFaceSet->clear();
     m_clients.clear();
 }

 size_t CSSFontSelector::fallbackFontCount()
 {
     if (m_isStopped)
         return 0;

     return m_context->settingsValues().fontFallbackPrefersPictographs ? 1 : 0;
 }

 RefPtr<Font> CSSFontSelector::fallbackFontAt(const FontDescription& fontDescription, size_t index)
 {
     ASSERT_UNUSED(index, !index);

     if (m_isStopped)
         return nullptr;

     if (!m_context->settingsValues().fontFallbackPrefersPictographs)
         return nullptr;
     auto& pictographFontFamily = m_context->settingsValues().fontGenericFamilies.pictographFontFamily();
     auto font = m_fontCache->fontForFamily(fontDescription, pictographFontFamily);
     if (RuntimeEnabledFeatures::sharedFeatures().webAPIStatisticsEnabled() && is<Document>(m_context))
         ResourceLoadObserver::shared().logFontLoad(downcast<Document>(*m_context), pictographFontFamily, !!font);

     return font;
 }

 }
	/*
	* Copyright (C) 2007-2021 Apple Inc. All rights reserved.
	* (C) 2007, 2008 Nikolas Zimmermann <zimmermann@kde.org>
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions
	* are met:
	* 1. Redistributions of source code must retain the above copyright
	* notice, this list of conditions and the following disclaimer.
	* 2. Redistributions in binary form must reproduce the above copyright
	* notice, this list of conditions and the following disclaimer in the
	* documentation and/or other materials provided with the distribution.
	*
	* THIS SOFTWARE IS PROVIDED BY APPLE INC. ``AS IS'' AND ANY
	* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
	* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
	* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR
	* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
	* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
	* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
	* PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
	* OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
	* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
	*/

	#include "config.h"
	#include "CSSFontSelector.h"

	#include "CachedFont.h"
	#include "CSSFontFace.h"
	#include "CSSFontFaceSource.h"
	#include "CSSFontFamily.h"
	#include "CSSPrimitiveValue.h"
	#include "CSSPropertyNames.h"
	#include "CSSSegmentedFontFace.h"
	#include "CSSValueKeywords.h"
	#include "CSSValueList.h"
	#include "CachedResourceLoader.h"
	#include "Document.h"
	#include "Font.h"
	#include "FontCache.h"
	#include "FontFace.h"
	#include "FontFaceSet.h"
	#include "FontSelectorClient.h"
	#include "Frame.h"
	#include "FrameLoader.h"
	#include "Logging.h"
	#include "ResourceLoadObserver.h"
	#include "RuntimeEnabledFeatures.h"
	#include "Settings.h"
	#include "StyleProperties.h"
	#include "StyleResolver.h"
	#include "StyleRule.h"
	#include <wtf/Ref.h>
	#include <wtf/SetForScope.h>
	#include <wtf/text/AtomString.h>

	namespace WebCore {

	using namespace WebKitFontFamilyNames;

	static unsigned fontSelectorId;

	CSSFontSelector::CSSFontSelector(ScriptExecutionContext& context)
	: ActiveDOMObject(&context)
	, m_context(context)
	, m_fontCache(context.fontCache())
	, m_cssFontFaceSet(CSSFontFaceSet::create(this))
	, m_fontModifiedObserver([this] { fontModified(); })
	, m_uniqueId(++fontSelectorId)
	, m_version(0)
	{
	if (is<Document>(context)) {
	m_fontFamilyNames.reserveInitialCapacity(familyNames->size());
	for (auto& familyName : familyNames.get())
	m_fontFamilyNames.uncheckedConstructAndAppend(familyName);
	} else {
	m_fontFamilyNames.reserveInitialCapacity(familyNamesData->size());
	for (auto& familyName : familyNamesData.get())
	m_fontFamilyNames.uncheckedAppend(familyName);
	}

	m_fontCache->addClient(*this);
	m_cssFontFaceSet->addFontModifiedObserver(m_fontModifiedObserver);
	LOG(Fonts, "CSSFontSelector %p ctor", this);

	suspendIfNeeded();
	}

	CSSFontSelector::~CSSFontSelector()
	{
	LOG(Fonts, "CSSFontSelector %p dtor", this);

	clearFonts();
	m_fontCache->removeClient(*this);
	}

	FontFaceSet* CSSFontSelector::fontFaceSetIfExists()
	{
	return m_fontFaceSet.get();
	}

	FontFaceSet& CSSFontSelector::fontFaceSet()
	{
	if (!m_fontFaceSet) {
	ASSERT(m_context);
	m_fontFaceSet = FontFaceSet::create(*m_context, m_cssFontFaceSet.get());
	}

	return *m_fontFaceSet;
	}

	bool CSSFontSelector::isEmpty() const
	{
	return !m_cssFontFaceSet->faceCount();
	}

	void CSSFontSelector::emptyCaches()
	{
	m_cssFontFaceSet->emptyCaches();
	}

	void CSSFontSelector::buildStarted()
	{
	m_buildIsUnderway = true;
	m_cssFontFaceSet->purge();
	++m_version;

	ASSERT(m_cssConnectionsPossiblyToRemove.isEmpty());
	ASSERT(m_cssConnectionsEncounteredDuringBuild.isEmpty());
	ASSERT(m_stagingArea.isEmpty());
	for (size_t i = 0; i < m_cssFontFaceSet->faceCount(); ++i) {
	CSSFontFace& face = m_cssFontFaceSet.get()[i];
	if (face.cssConnection())
	m_cssConnectionsPossiblyToRemove.add(&face);
	}

	m_paletteMap.clear();
	}

	void CSSFontSelector::buildCompleted()
	{
	if (!m_buildIsUnderway)
	return;

	m_buildIsUnderway = false;

	// Some font faces weren't re-added during the build process.
	for (auto& face : m_cssConnectionsPossiblyToRemove) {
	auto* connection = face->cssConnection();
	ASSERT(connection);
	if (!m_cssConnectionsEncounteredDuringBuild.contains(connection))
	m_cssFontFaceSet->remove(*face);
	}

	for (auto& item : m_stagingArea)
	addFontFaceRule(item.styleRuleFontFace, item.isInitiatingElementInUserAgentShadowTree);
	m_cssConnectionsEncounteredDuringBuild.clear();
	m_stagingArea.clear();
	m_cssConnectionsPossiblyToRemove.clear();
	}

	void CSSFontSelector::addFontFaceRule(StyleRuleFontFace& fontFaceRule, bool isInitiatingElementInUserAgentShadowTree)
	{
	if (m_buildIsUnderway) {
	m_cssConnectionsEncounteredDuringBuild.add(&fontFaceRule);
	m_stagingArea.append({fontFaceRule, isInitiatingElementInUserAgentShadowTree});
	return;
	}

	const StyleProperties& style = fontFaceRule.properties();
	RefPtr<CSSValue> fontFamily = style.getPropertyCSSValue(CSSPropertyFontFamily);
	RefPtr<CSSValue> fontStyle = style.getPropertyCSSValue(CSSPropertyFontStyle);
	RefPtr<CSSValue> fontWeight = style.getPropertyCSSValue(CSSPropertyFontWeight);
	RefPtr<CSSValue> fontStretch = style.getPropertyCSSValue(CSSPropertyFontStretch);
	RefPtr<CSSValue> src = style.getPropertyCSSValue(CSSPropertySrc);
	RefPtr<CSSValue> unicodeRange = style.getPropertyCSSValue(CSSPropertyUnicodeRange);
	RefPtr<CSSValue> featureSettings = style.getPropertyCSSValue(CSSPropertyFontFeatureSettings);
	RefPtr<CSSValue> loadingBehavior = style.getPropertyCSSValue(CSSPropertyFontDisplay);
	if (!is<CSSValueList>(fontFamily) \|\| !is<CSSValueList>(src) \|\| (unicodeRange && !is<CSSValueList>(*unicodeRange)))
	return;

	CSSValueList& familyList = downcast<CSSValueList>(*fontFamily);
	if (!familyList.length())
	return;

	CSSValueList* rangeList = downcast<CSSValueList>(unicodeRange.get());

	CSSValueList& srcList = downcast<CSSValueList>(*src);
	if (!srcList.length())
	return;

	SetForScope<bool> creatingFont(m_creatingFont, true);
	auto fontFace = CSSFontFace::create(*this, &fontFaceRule);

	if (!fontFace->setFamilies(*fontFamily))
	return;
	if (fontStyle)
	fontFace->setStyle(*fontStyle);
	if (fontWeight)
	fontFace->setWeight(*fontWeight);
	if (fontStretch)
	fontFace->setStretch(*fontStretch);
	if (rangeList && !fontFace->setUnicodeRange(*rangeList))
	return;
	if (featureSettings)
	fontFace->setFeatureSettings(*featureSettings);
	if (loadingBehavior)
	fontFace->setLoadingBehavior(*loadingBehavior);

	CSSFontFace::appendSources(fontFace, srcList, m_context.get(), isInitiatingElementInUserAgentShadowTree);

	if (RefPtr<CSSFontFace> existingFace = m_cssFontFaceSet->lookUpByCSSConnection(fontFaceRule)) {
	// This adoption is fairly subtle. Script can trigger a purge of m_cssFontFaceSet at any time,
	// which will cause us to just rely on the memory cache to retain the bytes of the file the next
	// time we build up the CSSFontFaceSet. However, when the CSS Font Loading API is involved,
	// the FontFace and FontFaceSet objects need to retain state. We create the new CSSFontFace object
	// while the old one is still in scope so that the memory cache will be forced to retain the bytes
	// of the resource. This means that the CachedFont will temporarily have two clients (until the
	// old CSSFontFace goes out of scope, which should happen at the end of this "if" block). Because
	// the CSSFontFaceSource objects will inspect their CachedFonts, the new CSSFontFace is smart enough
	// to enter the correct state() during the next pump(). This approach of making a new CSSFontFace is
	// simpler than computing and applying a diff of the StyleProperties.
	m_cssFontFaceSet->remove(*existingFace);
	if (auto* existingWrapper = existingFace->existingWrapper())
	existingWrapper->adopt(fontFace.get());
	}

	m_cssFontFaceSet->add(fontFace.get());
	++m_version;
	}

	void CSSFontSelector::addFontPaletteValuesRule(StyleRuleFontPaletteValues& fontPaletteValuesRule)
	{
	AtomString fontFamily = fontPaletteValuesRule.fontFamily().isNull() ? emptyAtom() : fontPaletteValuesRule.fontFamily();
	AtomString name = fontPaletteValuesRule.name().isNull() ? emptyAtom() : fontPaletteValuesRule.name();
	m_paletteMap.set(std::make_pair(fontFamily, name), fontPaletteValuesRule.fontPaletteValues());

	++m_version;
	}

	void CSSFontSelector::registerForInvalidationCallbacks(FontSelectorClient& client)
	{
	m_clients.add(&client);
	}

	void CSSFontSelector::unregisterForInvalidationCallbacks(FontSelectorClient& client)
	{
	m_clients.remove(&client);
	}

	void CSSFontSelector::dispatchInvalidationCallbacks()
	{
	++m_version;

	for (auto& client : copyToVector(m_clients))
	client->fontsNeedUpdate(*this);
	}

	void CSSFontSelector::opportunisticallyStartFontDataURLLoading(const FontCascadeDescription& description, const AtomString& familyName)
	{
	const auto& segmentedFontFace = m_cssFontFaceSet->fontFace(description.fontSelectionRequest(), familyName);
	if (!segmentedFontFace)
	return;
	for (auto& face : segmentedFontFace->constituentFaces())
	face->opportunisticallyStartFontDataURLLoading();
	}

	void CSSFontSelector::fontLoaded(CSSFontFace&)
	{
	dispatchInvalidationCallbacks();
	}

	void CSSFontSelector::fontModified()
	{
	if (!m_creatingFont && !m_buildIsUnderway)
	dispatchInvalidationCallbacks();
	}

	void CSSFontSelector::updateStyleIfNeeded()
	{
	if (is<Document>(m_context))
	downcast<Document>(*m_context).updateStyleIfNeeded();
	}

	void CSSFontSelector::updateStyleIfNeeded(CSSFontFace&)
	{
	updateStyleIfNeeded();
	}

	void CSSFontSelector::fontCacheInvalidated()
	{
	dispatchInvalidationCallbacks();
	}

	std::optional<AtomString> CSSFontSelector::resolveGenericFamily(const FontDescription& fontDescription, const AtomString& familyName)
	{
	auto platformResult = FontDescription::platformResolveGenericFamily(fontDescription.script(), fontDescription.computedLocale(), familyName);
	if (!platformResult.isNull())
	return platformResult;

	if (!m_context)
	return std::nullopt;

	const auto& settings = m_context->settingsValues();

	UScriptCode script = fontDescription.script();
	auto familyNameIndex = m_fontFamilyNames.find(familyName);
	if (familyNameIndex != notFound) {
	if (auto familyString = settings.fontGenericFamilies.fontFamily(static_cast<FamilyNamesIndex>(familyNameIndex), script))
	return AtomString(*familyString);
	}

	return std::nullopt;
	}

	const FontPaletteValues& CSSFontSelector::lookupFontPaletteValues(const AtomString& familyName, const FontDescription& fontDescription)
	{
	static NeverDestroyed<FontPaletteValues> emptyFontPaletteValues;
	if (fontDescription.fontPalette().type != FontPalette::Type::Custom)
	return emptyFontPaletteValues.get();

	const AtomString paletteName = fontDescription.fontPalette().identifier;

	auto iterator = m_paletteMap.find(std::make_pair(familyName, paletteName));
	if (iterator == m_paletteMap.end())
	return emptyFontPaletteValues.get();
	return iterator->value;
	}

	FontRanges CSSFontSelector::fontRangesForFamily(const FontDescription& fontDescription, const AtomString& familyName)
	{
	// If this ASSERT() fires, it usually means you forgot a document.updateStyleIfNeeded() somewhere.
	ASSERT(!m_buildIsUnderway \|\| m_computingRootStyleFontCount);

	// FIXME: The spec (and Firefox) says user specified generic families (sans-serif etc.) should be resolved before the @font-face lookup too.
	bool resolveGenericFamilyFirst = familyName == m_fontFamilyNames.at(FamilyNamesIndex::StandardFamily);

	AtomString familyForLookup = familyName;
	std::optional<FontDescription> overrideFontDescription;
	const FontDescription* fontDescriptionForLookup = &fontDescription;
	auto resolveAndAssignGenericFamily = [&]() {
	if (auto genericFamilyOptional = resolveGenericFamily(fontDescription, familyName))
	familyForLookup = *genericFamilyOptional;
	};

	const auto& fontPaletteValues = lookupFontPaletteValues(familyName, fontDescription);

	if (resolveGenericFamilyFirst)
	resolveAndAssignGenericFamily();
	Document* document = is<Document>(m_context) ? &downcast<Document>(*m_context) : nullptr;
	auto* face = m_cssFontFaceSet->fontFace(fontDescriptionForLookup->fontSelectionRequest(), familyForLookup);
	if (face) {
	if (document && RuntimeEnabledFeatures::sharedFeatures().webAPIStatisticsEnabled())
	ResourceLoadObserver::shared().logFontLoad(*document, familyForLookup.string(), true);
	return face->fontRanges(*fontDescriptionForLookup, fontPaletteValues);
	}

	if (!resolveGenericFamilyFirst)
	resolveAndAssignGenericFamily();
	auto font = m_fontCache->fontForFamily(*fontDescriptionForLookup, familyForLookup, { { }, { }, fontPaletteValues });
	if (document && RuntimeEnabledFeatures::sharedFeatures().webAPIStatisticsEnabled())
	ResourceLoadObserver::shared().logFontLoad(*document, familyForLookup.string(), !!font);
	return FontRanges { WTFMove(font) };
	}

	void CSSFontSelector::clearFonts()
	{
	m_isStopped = true;
	m_cssFontFaceSet->clear();
	m_clients.clear();
	}

	size_t CSSFontSelector::fallbackFontCount()
	{
	if (m_isStopped)
	return 0;

	return m_context->settingsValues().fontFallbackPrefersPictographs ? 1 : 0;
	}

	RefPtr<Font> CSSFontSelector::fallbackFontAt(const FontDescription& fontDescription, size_t index)
	{
	ASSERT_UNUSED(index, !index);

	if (m_isStopped)
	return nullptr;

	if (!m_context->settingsValues().fontFallbackPrefersPictographs)
	return nullptr;
	auto& pictographFontFamily = m_context->settingsValues().fontGenericFamilies.pictographFontFamily();
	auto font = m_fontCache->fontForFamily(fontDescription, pictographFontFamily);
	if (RuntimeEnabledFeatures::sharedFeatures().webAPIStatisticsEnabled() && is<Document>(m_context))
	ResourceLoadObserver::shared().logFontLoad(downcast<Document>(*m_context), pictographFontFamily, !!font);

	return font;
	}

	}