blob: 14a069c5e07608d309182293656eb2187fd97fd6 [file] [log] [blame]
/*
* Copyright (C) 2012-2018 Apple Inc. All Rights Reserved.
*
* 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 "UnlinkedFunctionExecutable.h"
#include "BuiltinExecutables.h"
#include "BytecodeGenerator.h"
#include "CachedTypes.h"
#include "ClassInfo.h"
#include "CodeCache.h"
#include "Debugger.h"
#include "ExecutableInfo.h"
#include "FunctionOverrides.h"
#include "IsoCellSetInlines.h"
#include "JSCInlines.h"
#include "Parser.h"
#include "SourceProvider.h"
#include "Structure.h"
#include "UnlinkedFunctionCodeBlock.h"
#include <wtf/Optional.h>
namespace JSC {
static_assert(sizeof(UnlinkedFunctionExecutable) <= 128, "UnlinkedFunctionExecutable should fit in a 128-byte cell to keep allocated blocks count to only one after initializing JSGlobalObject.");
const ClassInfo UnlinkedFunctionExecutable::s_info = { "UnlinkedFunctionExecutable", nullptr, nullptr, nullptr, CREATE_METHOD_TABLE(UnlinkedFunctionExecutable) };
static UnlinkedFunctionCodeBlock* generateUnlinkedFunctionCodeBlock(
VM& vm, UnlinkedFunctionExecutable* executable, const SourceCode& source,
CodeSpecializationKind kind, OptionSet<CodeGenerationMode> codeGenerationMode,
UnlinkedFunctionKind functionKind, ParserError& error, SourceParseMode parseMode)
{
JSParserBuiltinMode builtinMode = executable->isBuiltinFunction() ? JSParserBuiltinMode::Builtin : JSParserBuiltinMode::NotBuiltin;
JSParserStrictMode strictMode = executable->isInStrictContext() ? JSParserStrictMode::Strict : JSParserStrictMode::NotStrict;
JSParserScriptMode scriptMode = executable->scriptMode();
ASSERT(isFunctionParseMode(executable->parseMode()));
std::unique_ptr<FunctionNode> function = parse<FunctionNode>(
&vm, source, executable->name(), builtinMode, strictMode, scriptMode, executable->parseMode(), executable->superBinding(), error, nullptr);
if (!function) {
ASSERT(error.isValid());
return nullptr;
}
function->finishParsing(executable->name(), executable->functionMode());
executable->recordParse(function->features(), function->hasCapturedVariables());
bool isClassContext = executable->superBinding() == SuperBinding::Needed;
UnlinkedFunctionCodeBlock* result = UnlinkedFunctionCodeBlock::create(&vm, FunctionCode, ExecutableInfo(function->usesEval(), function->isStrictMode(), kind == CodeForConstruct, functionKind == UnlinkedBuiltinFunction, executable->constructorKind(), scriptMode, executable->superBinding(), parseMode, executable->derivedContextType(), false, isClassContext, EvalContextType::FunctionEvalContext), codeGenerationMode);
VariableEnvironment parentScopeTDZVariables = executable->parentScopeTDZVariables();
error = BytecodeGenerator::generate(vm, function.get(), source, result, codeGenerationMode, &parentScopeTDZVariables);
if (error.isValid())
return nullptr;
vm.codeCache()->updateCache(executable, source, kind, result);
return result;
}
UnlinkedFunctionExecutable::UnlinkedFunctionExecutable(VM* vm, Structure* structure, const SourceCode& parentSource, FunctionMetadataNode* node, UnlinkedFunctionKind kind, ConstructAbility constructAbility, JSParserScriptMode scriptMode, Optional<CompactVariableMap::Handle> parentScopeTDZVariables, DerivedContextType derivedContextType, bool isBuiltinDefaultClassConstructor)
: Base(*vm, structure)
, m_firstLineOffset(node->firstLine() - parentSource.firstLine().oneBasedInt())
, m_isInStrictContext(node->isInStrictContext())
, m_lineCount(node->lastLine() - node->firstLine())
, m_hasCapturedVariables(false)
, m_unlinkedFunctionNameStart(node->functionNameStart() - parentSource.startOffset())
, m_isBuiltinFunction(kind == UnlinkedBuiltinFunction)
, m_unlinkedBodyStartColumn(node->startColumn())
, m_isBuiltinDefaultClassConstructor(isBuiltinDefaultClassConstructor)
, m_unlinkedBodyEndColumn(m_lineCount ? node->endColumn() : node->endColumn() - node->startColumn())
, m_constructAbility(static_cast<unsigned>(constructAbility))
, m_startOffset(node->source().startOffset() - parentSource.startOffset())
, m_scriptMode(static_cast<unsigned>(scriptMode))
, m_sourceLength(node->source().length())
, m_superBinding(static_cast<unsigned>(node->superBinding()))
, m_parametersStartOffset(node->parametersStart())
, m_isCached(false)
, m_typeProfilingStartOffset(node->functionKeywordStart())
, m_typeProfilingEndOffset(node->startStartOffset() + node->source().length() - 1)
, m_parameterCount(node->parameterCount())
, m_features(0)
, m_sourceParseMode(node->parseMode())
, m_constructorKind(static_cast<unsigned>(node->constructorKind()))
, m_functionMode(static_cast<unsigned>(node->functionMode()))
, m_derivedContextType(static_cast<unsigned>(derivedContextType))
, m_unlinkedCodeBlockForCall()
, m_unlinkedCodeBlockForConstruct()
, m_name(node->ident())
, m_ecmaName(node->ecmaName())
{
// Make sure these bitfields are adequately wide.
ASSERT(m_constructAbility == static_cast<unsigned>(constructAbility));
ASSERT(m_constructorKind == static_cast<unsigned>(node->constructorKind()));
ASSERT(m_functionMode == static_cast<unsigned>(node->functionMode()));
ASSERT(m_scriptMode == static_cast<unsigned>(scriptMode));
ASSERT(m_superBinding == static_cast<unsigned>(node->superBinding()));
ASSERT(m_derivedContextType == static_cast<unsigned>(derivedContextType));
ASSERT(!(m_isBuiltinDefaultClassConstructor && constructorKind() == ConstructorKind::None));
if (!node->classSource().isNull())
setClassSource(node->classSource());
if (parentScopeTDZVariables)
ensureRareData().m_parentScopeTDZVariables = WTFMove(*parentScopeTDZVariables);
}
UnlinkedFunctionExecutable::~UnlinkedFunctionExecutable()
{
if (m_isCached)
m_decoder.~RefPtr();
}
void UnlinkedFunctionExecutable::destroy(JSCell* cell)
{
static_cast<UnlinkedFunctionExecutable*>(cell)->~UnlinkedFunctionExecutable();
}
void UnlinkedFunctionExecutable::visitChildren(JSCell* cell, SlotVisitor& visitor)
{
UnlinkedFunctionExecutable* thisObject = jsCast<UnlinkedFunctionExecutable*>(cell);
ASSERT_GC_OBJECT_INHERITS(thisObject, info());
Base::visitChildren(thisObject, visitor);
if (!thisObject->m_isCached) {
visitor.append(thisObject->m_unlinkedCodeBlockForCall);
visitor.append(thisObject->m_unlinkedCodeBlockForConstruct);
}
}
SourceCode UnlinkedFunctionExecutable::linkedSourceCode(const SourceCode& passedParentSource) const
{
const SourceCode& parentSource = !m_isBuiltinDefaultClassConstructor ? passedParentSource : BuiltinExecutables::defaultConstructorSourceCode(constructorKind());
unsigned startColumn = linkedStartColumn(parentSource.startColumn().oneBasedInt());
unsigned startOffset = parentSource.startOffset() + m_startOffset;
unsigned firstLine = parentSource.firstLine().oneBasedInt() + m_firstLineOffset;
return SourceCode(parentSource.provider(), startOffset, startOffset + m_sourceLength, firstLine, startColumn);
}
FunctionExecutable* UnlinkedFunctionExecutable::link(VM& vm, ScriptExecutable* topLevelExecutable, const SourceCode& passedParentSource, Optional<int> overrideLineNumber, Intrinsic intrinsic)
{
SourceCode source = linkedSourceCode(passedParentSource);
FunctionOverrides::OverrideInfo overrideInfo;
bool hasFunctionOverride = false;
if (UNLIKELY(Options::functionOverrides()))
hasFunctionOverride = FunctionOverrides::initializeOverrideFor(source, overrideInfo);
FunctionExecutable* result = FunctionExecutable::create(vm, topLevelExecutable, source, this, intrinsic);
if (overrideLineNumber)
result->setOverrideLineNumber(*overrideLineNumber);
if (UNLIKELY(hasFunctionOverride))
result->overrideInfo(overrideInfo);
return result;
}
UnlinkedFunctionExecutable* UnlinkedFunctionExecutable::fromGlobalCode(
const Identifier& name, ExecState& exec, const SourceCode& source,
JSObject*& exception, int overrideLineNumber, Optional<int> functionConstructorParametersEndPosition)
{
ParserError error;
VM& vm = exec.vm();
auto& globalObject = *exec.lexicalGlobalObject();
CodeCache* codeCache = vm.codeCache();
OptionSet<CodeGenerationMode> codeGenerationMode = globalObject.defaultCodeGenerationMode();
UnlinkedFunctionExecutable* executable = codeCache->getUnlinkedGlobalFunctionExecutable(vm, name, source, codeGenerationMode, functionConstructorParametersEndPosition, error);
if (globalObject.hasDebugger())
globalObject.debugger()->sourceParsed(&exec, source.provider(), error.line(), error.message());
if (error.isValid()) {
exception = error.toErrorObject(&globalObject, source, overrideLineNumber);
return nullptr;
}
return executable;
}
UnlinkedFunctionCodeBlock* UnlinkedFunctionExecutable::unlinkedCodeBlockFor(CodeSpecializationKind specializationKind)
{
switch (specializationKind) {
case CodeForCall:
return m_unlinkedCodeBlockForCall.get();
case CodeForConstruct:
return m_unlinkedCodeBlockForConstruct.get();
}
ASSERT_NOT_REACHED();
return nullptr;
}
UnlinkedFunctionCodeBlock* UnlinkedFunctionExecutable::unlinkedCodeBlockFor(
VM& vm, const SourceCode& source, CodeSpecializationKind specializationKind,
OptionSet<CodeGenerationMode> codeGenerationMode, ParserError& error, SourceParseMode parseMode)
{
if (m_isCached)
decodeCachedCodeBlocks();
switch (specializationKind) {
case CodeForCall:
if (UnlinkedFunctionCodeBlock* codeBlock = m_unlinkedCodeBlockForCall.get())
return codeBlock;
break;
case CodeForConstruct:
if (UnlinkedFunctionCodeBlock* codeBlock = m_unlinkedCodeBlockForConstruct.get())
return codeBlock;
break;
}
UnlinkedFunctionCodeBlock* result = generateUnlinkedFunctionCodeBlock(
vm, this, source, specializationKind, codeGenerationMode,
isBuiltinFunction() ? UnlinkedBuiltinFunction : UnlinkedNormalFunction,
error, parseMode);
if (error.isValid())
return nullptr;
switch (specializationKind) {
case CodeForCall:
m_unlinkedCodeBlockForCall.set(vm, this, result);
break;
case CodeForConstruct:
m_unlinkedCodeBlockForConstruct.set(vm, this, result);
break;
}
vm.unlinkedFunctionExecutableSpace.set.add(this);
return result;
}
void UnlinkedFunctionExecutable::decodeCachedCodeBlocks()
{
ASSERT(m_isCached);
ASSERT(m_decoder);
ASSERT(m_cachedCodeBlockForCallOffset || m_cachedCodeBlockForConstructOffset);
RefPtr<Decoder> decoder = WTFMove(m_decoder);
int32_t cachedCodeBlockForCallOffset = m_cachedCodeBlockForCallOffset;
int32_t cachedCodeBlockForConstructOffset = m_cachedCodeBlockForConstructOffset;
DeferGC deferGC(decoder->vm().heap);
// No need to clear m_unlinkedCodeBlockForCall here, since we moved the decoder out of the same slot
if (cachedCodeBlockForCallOffset)
decodeFunctionCodeBlock(*decoder, cachedCodeBlockForCallOffset, m_unlinkedCodeBlockForCall, this);
if (cachedCodeBlockForConstructOffset)
decodeFunctionCodeBlock(*decoder, cachedCodeBlockForConstructOffset, m_unlinkedCodeBlockForConstruct, this);
else
m_unlinkedCodeBlockForConstruct.clear();
WTF::storeStoreFence();
m_isCached = false;
decoder->vm().heap.writeBarrier(this);
}
UnlinkedFunctionExecutable::RareData& UnlinkedFunctionExecutable::ensureRareDataSlow()
{
ASSERT(!m_rareData);
m_rareData = std::make_unique<RareData>();
return *m_rareData;
}
void UnlinkedFunctionExecutable::setInvalidTypeProfilingOffsets()
{
m_typeProfilingStartOffset = std::numeric_limits<unsigned>::max();
m_typeProfilingEndOffset = std::numeric_limits<unsigned>::max();
}
} // namespace JSC