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/*
* Copyright (C) 1999 Lars Knoll (knoll@kde.org)
* (C) 2004-2005 Allan Sandfeld Jensen (kde@carewolf.com)
* Copyright (C) 2006, 2007 Nicholas Shanks (webkit@nickshanks.com)
* Copyright (C) 2005, 2006, 2007, 2008, 2009, 2010, 2011, 2012, 2013, 2014 Apple Inc. All rights reserved.
* Copyright (C) 2007 Alexey Proskuryakov <ap@webkit.org>
* Copyright (C) 2007, 2008 Eric Seidel <eric@webkit.org>
* Copyright (C) 2008, 2009 Torch Mobile Inc. All rights reserved. (http://www.torchmobile.com/)
* Copyright (c) 2011, Code Aurora Forum. All rights reserved.
* Copyright (C) Research In Motion Limited 2011. All rights reserved.
* Copyright (C) 2012 Google Inc. All rights reserved.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public License
* along with this library; see the file COPYING.LIB. If not, write to
* the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
* Boston, MA 02110-1301, USA.
*/
#include "config.h"
#include "ElementRuleCollector.h"
#include "CSSDefaultStyleSheets.h"
#include "CSSRule.h"
#include "CSSRuleList.h"
#include "CSSSelector.h"
#include "CSSSelectorList.h"
#include "CSSValueKeywords.h"
#include "HTMLElement.h"
#include "InspectorInstrumentation.h"
#include "RenderRegion.h"
#include "SVGElement.h"
#include "SelectorCompiler.h"
#include "StyleProperties.h"
#include "StyledElement.h"
#include <wtf/TemporaryChange.h>
namespace WebCore {
static const StyleProperties& leftToRightDeclaration()
{
static NeverDestroyed<Ref<MutableStyleProperties>> leftToRightDecl(MutableStyleProperties::create());
if (leftToRightDecl.get()->isEmpty())
leftToRightDecl.get()->setProperty(CSSPropertyDirection, CSSValueLtr);
return leftToRightDecl.get().get();
}
static const StyleProperties& rightToLeftDeclaration()
{
static NeverDestroyed<Ref<MutableStyleProperties>> rightToLeftDecl(MutableStyleProperties::create());
if (rightToLeftDecl.get()->isEmpty())
rightToLeftDecl.get()->setProperty(CSSPropertyDirection, CSSValueRtl);
return rightToLeftDecl.get().get();
}
class MatchRequest {
public:
MatchRequest(RuleSet* ruleSet, bool includeEmptyRules = false)
: ruleSet(ruleSet)
, includeEmptyRules(includeEmptyRules)
{
}
const RuleSet* ruleSet;
const bool includeEmptyRules;
};
StyleResolver::MatchResult& ElementRuleCollector::matchedResult()
{
ASSERT(m_mode == SelectorChecker::Mode::ResolvingStyle);
return m_result;
}
const Vector<RefPtr<StyleRule>>& ElementRuleCollector::matchedRuleList() const
{
ASSERT(m_mode == SelectorChecker::Mode::CollectingRules);
return m_matchedRuleList;
}
inline void ElementRuleCollector::addMatchedRule(const RuleData* rule)
{
if (!m_matchedRules)
m_matchedRules = std::make_unique<Vector<const RuleData*, 32>>();
m_matchedRules->append(rule);
}
void ElementRuleCollector::clearMatchedRules()
{
if (!m_matchedRules)
return;
m_matchedRules->clear();
}
inline void ElementRuleCollector::addElementStyleProperties(const StyleProperties* propertySet, bool isCacheable)
{
if (!propertySet)
return;
m_result.ranges.lastAuthorRule = m_result.matchedProperties.size();
if (m_result.ranges.firstAuthorRule == -1)
m_result.ranges.firstAuthorRule = m_result.ranges.lastAuthorRule;
m_result.addMatchedProperties(*propertySet);
if (!isCacheable)
m_result.isCacheable = false;
}
class MatchingUARulesScope {
public:
MatchingUARulesScope();
~MatchingUARulesScope();
static bool isMatchingUARules();
private:
static bool m_matchingUARules;
};
MatchingUARulesScope::MatchingUARulesScope()
{
ASSERT(!m_matchingUARules);
m_matchingUARules = true;
}
MatchingUARulesScope::~MatchingUARulesScope()
{
m_matchingUARules = false;
}
inline bool MatchingUARulesScope::isMatchingUARules()
{
return m_matchingUARules;
}
bool MatchingUARulesScope::m_matchingUARules = false;
void ElementRuleCollector::collectMatchingRules(const MatchRequest& matchRequest, StyleResolver::RuleRange& ruleRange)
{
ASSERT(matchRequest.ruleSet);
ASSERT_WITH_MESSAGE(!(m_mode == SelectorChecker::Mode::ResolvingStyle && !m_style), "When resolving style, the SelectorChecker must have a style to set the pseudo elements and/or to do marking. The SelectorCompiler also rely on that behavior.");
ASSERT_WITH_MESSAGE(!(m_mode == SelectorChecker::Mode::CollectingRulesIgnoringVirtualPseudoElements && m_pseudoStyleRequest.pseudoId != NOPSEUDO), "When in StyleInvalidation or SharingRules, SelectorChecker does not try to match the pseudo ID. While ElementRuleCollector supports matching a particular pseudoId in this case, this would indicate a error at the call site since matching a particular element should be unnecessary.");
#if ENABLE(VIDEO_TRACK)
if (m_element.isWebVTTElement())
collectMatchingRulesForList(matchRequest.ruleSet->cuePseudoRules(), matchRequest, ruleRange);
#endif
if (m_element.isInShadowTree()) {
const AtomicString& pseudoId = m_element.shadowPseudoId();
if (!pseudoId.isEmpty())
collectMatchingRulesForList(matchRequest.ruleSet->shadowPseudoElementRules(pseudoId.impl()), matchRequest, ruleRange);
// Only match UA rules in shadow tree.
if (!MatchingUARulesScope::isMatchingUARules())
return;
}
// We need to collect the rules for id, class, tag, and everything else into a buffer and
// then sort the buffer.
if (m_element.hasID())
collectMatchingRulesForList(matchRequest.ruleSet->idRules(m_element.idForStyleResolution().impl()), matchRequest, ruleRange);
if (m_element.hasClass()) {
for (size_t i = 0; i < m_element.classNames().size(); ++i)
collectMatchingRulesForList(matchRequest.ruleSet->classRules(m_element.classNames()[i].impl()), matchRequest, ruleRange);
}
if (m_element.isLink())
collectMatchingRulesForList(matchRequest.ruleSet->linkPseudoClassRules(), matchRequest, ruleRange);
if (SelectorChecker::matchesFocusPseudoClass(&m_element))
collectMatchingRulesForList(matchRequest.ruleSet->focusPseudoClassRules(), matchRequest, ruleRange);
collectMatchingRulesForList(matchRequest.ruleSet->tagRules(m_element.localName().impl()), matchRequest, ruleRange);
collectMatchingRulesForList(matchRequest.ruleSet->universalRules(), matchRequest, ruleRange);
}
void ElementRuleCollector::collectMatchingRulesForRegion(const MatchRequest& matchRequest, StyleResolver::RuleRange& ruleRange)
{
if (!m_regionForStyling)
return;
unsigned size = matchRequest.ruleSet->regionSelectorsAndRuleSets().size();
for (unsigned i = 0; i < size; ++i) {
const CSSSelector* regionSelector = matchRequest.ruleSet->regionSelectorsAndRuleSets().at(i).selector;
if (checkRegionSelector(regionSelector, m_regionForStyling->generatingElement())) {
RuleSet* regionRules = matchRequest.ruleSet->regionSelectorsAndRuleSets().at(i).ruleSet.get();
ASSERT(regionRules);
collectMatchingRules(MatchRequest(regionRules, matchRequest.includeEmptyRules), ruleRange);
}
}
}
void ElementRuleCollector::sortAndTransferMatchedRules()
{
if (!m_matchedRules || m_matchedRules->isEmpty())
return;
sortMatchedRules();
Vector<const RuleData*, 32>& matchedRules = *m_matchedRules;
if (m_mode == SelectorChecker::Mode::CollectingRules) {
for (unsigned i = 0; i < matchedRules.size(); ++i)
m_matchedRuleList.append(matchedRules[i]->rule());
return;
}
// Now transfer the set of matched rules over to our list of declarations.
for (unsigned i = 0; i < matchedRules.size(); i++) {
if (m_style && matchedRules[i]->containsUncommonAttributeSelector())
m_style->setUnique();
m_result.addMatchedProperties(matchedRules[i]->rule()->properties(), matchedRules[i]->rule(), matchedRules[i]->linkMatchType(), matchedRules[i]->propertyWhitelistType(MatchingUARulesScope::isMatchingUARules()));
}
}
void ElementRuleCollector::matchAuthorRules(bool includeEmptyRules)
{
clearMatchedRules();
m_result.ranges.lastAuthorRule = m_result.matchedProperties.size() - 1;
// Match global author rules.
MatchRequest matchRequest(m_ruleSets.authorStyle(), includeEmptyRules);
StyleResolver::RuleRange ruleRange = m_result.ranges.authorRuleRange();
collectMatchingRules(matchRequest, ruleRange);
collectMatchingRulesForRegion(matchRequest, ruleRange);
sortAndTransferMatchedRules();
}
void ElementRuleCollector::matchUserRules(bool includeEmptyRules)
{
if (!m_ruleSets.userStyle())
return;
clearMatchedRules();
m_result.ranges.lastUserRule = m_result.matchedProperties.size() - 1;
MatchRequest matchRequest(m_ruleSets.userStyle(), includeEmptyRules);
StyleResolver::RuleRange ruleRange = m_result.ranges.userRuleRange();
collectMatchingRules(matchRequest, ruleRange);
collectMatchingRulesForRegion(matchRequest, ruleRange);
sortAndTransferMatchedRules();
}
void ElementRuleCollector::matchUARules()
{
MatchingUARulesScope scope;
// First we match rules from the user agent sheet.
if (CSSDefaultStyleSheets::simpleDefaultStyleSheet)
m_result.isCacheable = false;
RuleSet* userAgentStyleSheet = m_isPrintStyle
? CSSDefaultStyleSheets::defaultPrintStyle : CSSDefaultStyleSheets::defaultStyle;
matchUARules(userAgentStyleSheet);
// In quirks mode, we match rules from the quirks user agent sheet.
if (m_element.document().inQuirksMode())
matchUARules(CSSDefaultStyleSheets::defaultQuirksStyle);
}
void ElementRuleCollector::matchUARules(RuleSet* rules)
{
clearMatchedRules();
m_result.ranges.lastUARule = m_result.matchedProperties.size() - 1;
StyleResolver::RuleRange ruleRange = m_result.ranges.UARuleRange();
collectMatchingRules(MatchRequest(rules), ruleRange);
sortAndTransferMatchedRules();
}
inline bool ElementRuleCollector::ruleMatches(const RuleData& ruleData)
{
// We know a sufficiently simple single part selector matches simply because we found it from the rule hash when filtering the RuleSet.
// This is limited to HTML only so we don't need to check the namespace (because of tag name match).
if (ruleData.hasRightmostSelectorMatchingHTMLBasedOnRuleHash() && m_element.isHTMLElement()) {
ASSERT_WITH_MESSAGE(m_pseudoStyleRequest.pseudoId == NOPSEUDO, "If we match based on the rule hash while collecting for a particular pseudo element ID, we would add incorrect rules for that pseudo element ID. We should never end in ruleMatches() with a pseudo element if the ruleData cannot match any pseudo element.");
return true;
}
#if ENABLE(CSS_SELECTOR_JIT)
void* compiledSelectorChecker = ruleData.compiledSelectorCodeRef().code().executableAddress();
if (!compiledSelectorChecker && ruleData.compilationStatus() == SelectorCompilationStatus::NotCompiled) {
JSC::VM& vm = m_element.document().scriptExecutionContext()->vm();
SelectorCompilationStatus compilationStatus;
JSC::MacroAssemblerCodeRef compiledSelectorCodeRef;
compilationStatus = SelectorCompiler::compileSelector(ruleData.selector(), &vm, SelectorCompiler::SelectorContext::RuleCollector, compiledSelectorCodeRef);
ruleData.setCompiledSelector(compilationStatus, compiledSelectorCodeRef);
compiledSelectorChecker = ruleData.compiledSelectorCodeRef().code().executableAddress();
}
if (compiledSelectorChecker && ruleData.compilationStatus() == SelectorCompilationStatus::SimpleSelectorChecker) {
SelectorCompiler::SimpleSelectorChecker selectorChecker = SelectorCompiler::simpleSelectorCheckerFunction(compiledSelectorChecker, ruleData.compilationStatus());
ASSERT_WITH_MESSAGE(!selectorChecker(&m_element) || m_pseudoStyleRequest.pseudoId == NOPSEUDO, "When matching pseudo elements, we should never compile a selector checker without context unless it cannot match anything.");
#if CSS_SELECTOR_JIT_PROFILING
ruleData.compiledSelectorUsed();
#endif
return selectorChecker(&m_element);
}
#endif // ENABLE(CSS_SELECTOR_JIT)
SelectorChecker::CheckingContext context(m_mode);
context.elementStyle = m_style;
context.pseudoId = m_pseudoStyleRequest.pseudoId;
context.scrollbar = m_pseudoStyleRequest.scrollbar;
context.scrollbarPart = m_pseudoStyleRequest.scrollbarPart;
#if ENABLE(CSS_SELECTOR_JIT)
if (compiledSelectorChecker) {
ASSERT(ruleData.compilationStatus() == SelectorCompilationStatus::SelectorCheckerWithCheckingContext);
SelectorCompiler::SelectorCheckerWithCheckingContext selectorChecker = SelectorCompiler::selectorCheckerFunctionWithCheckingContext(compiledSelectorChecker, ruleData.compilationStatus());
#if CSS_SELECTOR_JIT_PROFILING
ruleData.compiledSelectorUsed();
#endif
return selectorChecker(&m_element, &context);
}
#endif // ENABLE(CSS_SELECTOR_JIT)
// Slow path.
SelectorChecker selectorChecker(m_element.document());
return selectorChecker.match(ruleData.selector(), &m_element, context);
}
void ElementRuleCollector::collectMatchingRulesForList(const Vector<RuleData>* rules, const MatchRequest& matchRequest, StyleResolver::RuleRange& ruleRange)
{
if (!rules)
return;
for (unsigned i = 0, size = rules->size(); i < size; ++i) {
const RuleData& ruleData = rules->data()[i];
if (!ruleData.canMatchPseudoElement() && m_pseudoStyleRequest.pseudoId != NOPSEUDO)
continue;
if (m_canUseFastReject && m_selectorFilter.fastRejectSelector<RuleData::maximumIdentifierCount>(ruleData.descendantSelectorIdentifierHashes()))
continue;
StyleRule* rule = ruleData.rule();
// If the rule has no properties to apply, then ignore it in the non-debug mode.
const StyleProperties& properties = rule->properties();
if (properties.isEmpty() && !matchRequest.includeEmptyRules)
continue;
// FIXME: Exposing the non-standard getMatchedCSSRules API to web is the only reason this is needed.
if (m_sameOriginOnly && !ruleData.hasDocumentSecurityOrigin())
continue;
if (ruleMatches(ruleData)) {
// Update our first/last rule indices in the matched rules array.
++ruleRange.lastRuleIndex;
if (ruleRange.firstRuleIndex == -1)
ruleRange.firstRuleIndex = ruleRange.lastRuleIndex;
// Add this rule to our list of matched rules.
addMatchedRule(&ruleData);
}
}
}
static inline bool compareRules(const RuleData* r1, const RuleData* r2)
{
unsigned specificity1 = r1->specificity();
unsigned specificity2 = r2->specificity();
return (specificity1 == specificity2) ? r1->position() < r2->position() : specificity1 < specificity2;
}
void ElementRuleCollector::sortMatchedRules()
{
ASSERT(m_matchedRules);
std::sort(m_matchedRules->begin(), m_matchedRules->end(), compareRules);
}
void ElementRuleCollector::matchAllRules(bool matchAuthorAndUserStyles, bool includeSMILProperties)
{
matchUARules();
// Now we check user sheet rules.
if (matchAuthorAndUserStyles)
matchUserRules(false);
// Now check author rules, beginning first with presentational attributes mapped from HTML.
if (m_element.isStyledElement()) {
StyledElement& styledElement = toStyledElement(m_element);
addElementStyleProperties(styledElement.presentationAttributeStyle());
// Now we check additional mapped declarations.
// Tables and table cells share an additional mapped rule that must be applied
// after all attributes, since their mapped style depends on the values of multiple attributes.
addElementStyleProperties(styledElement.additionalPresentationAttributeStyle());
if (styledElement.isHTMLElement()) {
bool isAuto;
TextDirection textDirection = toHTMLElement(styledElement).directionalityIfhasDirAutoAttribute(isAuto);
if (isAuto)
m_result.addMatchedProperties(textDirection == LTR ? leftToRightDeclaration() : rightToLeftDeclaration());
}
}
// Check the rules in author sheets next.
if (matchAuthorAndUserStyles)
matchAuthorRules(false);
if (matchAuthorAndUserStyles && m_element.isStyledElement()) {
StyledElement& styledElement = toStyledElement(m_element);
// Now check our inline style attribute.
if (styledElement.inlineStyle()) {
// Inline style is immutable as long as there is no CSSOM wrapper.
// FIXME: Media control shadow trees seem to have problems with caching.
bool isInlineStyleCacheable = !styledElement.inlineStyle()->isMutable() && !styledElement.isInShadowTree();
// FIXME: Constify.
addElementStyleProperties(styledElement.inlineStyle(), isInlineStyleCacheable);
}
// Now check SMIL animation override style.
if (includeSMILProperties && styledElement.isSVGElement())
addElementStyleProperties(toSVGElement(styledElement).animatedSMILStyleProperties(), false /* isCacheable */);
}
}
bool ElementRuleCollector::hasAnyMatchingRules(RuleSet* ruleSet)
{
clearMatchedRules();
m_mode = SelectorChecker::Mode::CollectingRulesIgnoringVirtualPseudoElements;
int firstRuleIndex = -1, lastRuleIndex = -1;
StyleResolver::RuleRange ruleRange(firstRuleIndex, lastRuleIndex);
collectMatchingRules(MatchRequest(ruleSet), ruleRange);
return m_matchedRules && !m_matchedRules->isEmpty();
}
} // namespace WebCore
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