/* * Copyright (C) 2008-2020 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. * 3. Neither the name of Apple Inc. ("Apple") nor the names of * its contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY APPLE AND ITS CONTRIBUTORS "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 OR ITS 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 "VM.h" #include "AggregateError.h" #include "ArgList.h" #include "BigIntObject.h" #include "BooleanObject.h" #include "BuiltinExecutables.h" #include "BytecodeIntrinsicRegistry.h" #include "CheckpointOSRExitSideState.h" #include "ClonedArguments.h" #include "CodeBlock.h" #include "CodeCache.h" #include "CommonIdentifiers.h" #include "ControlFlowProfiler.h" #include "CustomGetterSetter.h" #include "DFGWorklist.h" #include "DOMAttributeGetterSetter.h" #include "DateInstance.h" #include "DebuggerScope.h" #include "DeferredWorkTimer.h" #include "Disassembler.h" #include "DoublePredictionFuzzerAgent.h" #include "ErrorInstance.h" #include "EvalCodeBlock.h" #include "Exception.h" #include "ExecutableToCodeBlockEdge.h" #include "FTLThunks.h" #include "FastMallocAlignedMemoryAllocator.h" #include "FileBasedFuzzerAgent.h" #include "FunctionCodeBlock.h" #include "FunctionExecutable.h" #include "GetterSetter.h" #include "GigacageAlignedMemoryAllocator.h" #include "HasOwnPropertyCache.h" #include "Heap.h" #include "HeapProfiler.h" #include "Interpreter.h" #include "IntlCache.h" #include "IntlCollator.h" #include "IntlDateTimeFormat.h" #include "IntlDisplayNames.h" #include "IntlListFormat.h" #include "IntlLocale.h" #include "IntlNumberFormat.h" #include "IntlPluralRules.h" #include "IntlRelativeTimeFormat.h" #include "IntlSegmentIterator.h" #include "IntlSegmenter.h" #include "IntlSegments.h" #include "IsoHeapCellType.h" #include "IsoInlinedHeapCellType.h" #include "JITCode.h" #include "JITOperationList.h" #include "JITThunks.h" #include "JITWorklist.h" #include "JSAPIGlobalObject.h" #include "JSAPIValueWrapper.h" #include "JSAPIWrapperObject.h" #include "JSArray.h" #include "JSArrayBuffer.h" #include "JSArrayIterator.h" #include "JSAsyncGenerator.h" #include "JSBigInt.h" #include "JSBoundFunction.h" #include "JSCallbackConstructor.h" #include "JSCallbackFunction.h" #include "JSCallbackObject.h" #include "JSCallee.h" #include "JSCustomGetterSetterFunction.h" #include "JSDestructibleObjectHeapCellType.h" #include "JSFinalizationRegistry.h" #include "JSFunction.h" #include "JSGlobalLexicalEnvironment.h" #include "JSGlobalObject.h" #include "JSImmutableButterfly.h" #include "JSInjectedScriptHost.h" #include "JSJavaScriptCallFrame.h" #include "JSLock.h" #include "JSMap.h" #include "JSMapIterator.h" #include "JSModuleNamespaceObject.h" #include "JSModuleRecord.h" #include "JSNativeStdFunction.h" #include "JSPromise.h" #include "JSPropertyNameEnumerator.h" #include "JSProxy.h" #include "JSScriptFetchParameters.h" #include "JSScriptFetcher.h" #include "JSSet.h" #include "JSSetIterator.h" #include "JSSourceCode.h" #include "JSStringIterator.h" #include "JSTemplateObjectDescriptor.h" #include "JSToWasmICCallee.h" #include "JSTypedArrays.h" #include "JSWeakMap.h" #include "JSWeakObjectRef.h" #include "JSWeakSet.h" #include "JSWebAssemblyCodeBlock.h" #include "JSWebAssemblyGlobal.h" #include "JSWebAssemblyInstance.h" #include "JSWebAssemblyMemory.h" #include "JSWebAssemblyModule.h" #include "JSWebAssemblyTable.h" #include "JSWithScope.h" #include "LLIntData.h" #include "MinimumReservedZoneSize.h" #include "ModuleProgramCodeBlock.h" #include "ModuleProgramExecutable.h" #include "NarrowingNumberPredictionFuzzerAgent.h" #include "NativeExecutable.h" #include "NumberObject.h" #include "PredictionFileCreatingFuzzerAgent.h" #include "ProfilerDatabase.h" #include "ProgramCodeBlock.h" #include "ProgramExecutable.h" #include "PropertyMapHashTable.h" #include "ProxyRevoke.h" #include "RandomizingFuzzerAgent.h" #include "RegExpCache.h" #include "RegExpObject.h" #include "SamplingProfiler.h" #include "ScopedArguments.h" #include "ShadowChicken.h" #include "SimpleTypedArrayController.h" #include "SourceProviderCache.h" #include "StrictEvalActivation.h" #include "StringObject.h" #include "StrongInlines.h" #include "StructureChain.h" #include "StructureInlines.h" #include "SymbolObject.h" #include "TestRunnerUtils.h" #include "ThunkGenerators.h" #include "TypeProfiler.h" #include "TypeProfilerLog.h" #include "VMEntryScope.h" #include "VMInlines.h" #include "VMInspector.h" #include "VariableEnvironment.h" #include "WasmWorklist.h" #include "Watchdog.h" #include "WeakGCMapInlines.h" #include "WebAssemblyFunction.h" #include "WebAssemblyModuleRecord.h" #include "WebAssemblyWrapperFunction.h" #include "WideningNumberPredictionFuzzerAgent.h" #include #include #include #include #include #include #if ENABLE(C_LOOP) #include "CLoopStack.h" #include "CLoopStackInlines.h" #endif #if ENABLE(DFG_JIT) #include "ConservativeRoots.h" #endif #if ENABLE(REGEXP_TRACING) #include "RegExp.h" #endif #if JSC_OBJC_API_ENABLED #include "ObjCCallbackFunction.h" #endif #ifdef JSC_GLIB_API_ENABLED #include "JSAPIWrapperGlobalObject.h" #include "JSCCallbackFunction.h" #endif namespace JSC { Atomic VM::s_numberOfIDs; DEFINE_ALLOCATOR_WITH_HEAP_IDENTIFIER(VM); // Note: Platform.h will enforce that ENABLE(ASSEMBLER) is true if either // ENABLE(JIT) or ENABLE(YARR_JIT) or both are enabled. The code below // just checks for ENABLE(JIT) or ENABLE(YARR_JIT) with this premise in mind. #if ENABLE(ASSEMBLER) static bool enableAssembler() { if (!Options::useJIT()) return false; char* canUseJITString = getenv("JavaScriptCoreUseJIT"); if (canUseJITString && !atoi(canUseJITString)) return false; ExecutableAllocator::initializeUnderlyingAllocator(); if (!ExecutableAllocator::singleton().isValid()) { if (Options::crashIfCantAllocateJITMemory()) CRASH(); return false; } return true; } #endif // ENABLE(!ASSEMBLER) bool VM::canUseAssembler() { #if ENABLE(ASSEMBLER) static std::once_flag onceKey; static bool enabled = false; std::call_once(onceKey, [] { enabled = enableAssembler(); }); return enabled; #else return false; // interpreter only #endif } void VM::computeCanUseJIT() { #if ENABLE(JIT) #if ASSERT_ENABLED RELEASE_ASSERT(!g_jscConfig.vm.canUseJITIsSet); g_jscConfig.vm.canUseJITIsSet = true; #endif g_jscConfig.vm.canUseJIT = VM::canUseAssembler() && Options::useJIT(); #endif } inline unsigned VM::nextID() { for (;;) { unsigned currentNumberOfIDs = s_numberOfIDs.load(); unsigned newID = currentNumberOfIDs + 1; if (s_numberOfIDs.compareExchangeWeak(currentNumberOfIDs, newID)) return newID; } } static bool vmCreationShouldCrash = false; VM::VM(VMType vmType, HeapType heapType, WTF::RunLoop* runLoop, bool* success) : m_id(nextID()) , m_apiLock(adoptRef(new JSLock(this))) , m_runLoop(runLoop ? *runLoop : WTF::RunLoop::current()) , m_random(Options::seedOfVMRandomForFuzzer() ? Options::seedOfVMRandomForFuzzer() : cryptographicallyRandomNumber()) , m_integrityRandom(*this) , heap(*this, heapType) , fastMallocAllocator(makeUnique()) , primitiveGigacageAllocator(makeUnique(Gigacage::Primitive)) , jsValueGigacageAllocator(makeUnique(Gigacage::JSValue)) , auxiliaryHeapCellType(makeUnique(CellAttributes(DoesNotNeedDestruction, HeapCell::Auxiliary))) , immutableButterflyHeapCellType(makeUnique(CellAttributes(DoesNotNeedDestruction, HeapCell::JSCellWithIndexingHeader))) , cellHeapCellType(makeUnique(CellAttributes(DoesNotNeedDestruction, HeapCell::JSCell))) , destructibleCellHeapCellType(makeUnique(CellAttributes(NeedsDestruction, HeapCell::JSCell))) , apiGlobalObjectHeapCellType(IsoHeapCellType::create()) , callbackConstructorHeapCellType(IsoHeapCellType::create()) , callbackGlobalObjectHeapCellType(IsoHeapCellType::create>()) , callbackObjectHeapCellType(IsoHeapCellType::create>()) , dateInstanceHeapCellType(IsoHeapCellType::create()) , errorInstanceHeapCellType(IsoHeapCellType::create()) , finalizationRegistryCellType(IsoHeapCellType::create()) , globalLexicalEnvironmentHeapCellType(IsoHeapCellType::create()) , globalObjectHeapCellType(IsoHeapCellType::create()) , injectedScriptHostSpaceHeapCellType(IsoHeapCellType::create()) , javaScriptCallFrameHeapCellType(IsoHeapCellType::create()) , jsModuleRecordHeapCellType(IsoHeapCellType::create()) , moduleNamespaceObjectHeapCellType(IsoHeapCellType::create()) , nativeStdFunctionHeapCellType(IsoHeapCellType::create()) , stringHeapCellType(makeUnique>()) , weakMapHeapCellType(IsoHeapCellType::create()) , weakSetHeapCellType(IsoHeapCellType::create()) , destructibleObjectHeapCellType(makeUnique()) #if JSC_OBJC_API_ENABLED , apiWrapperObjectHeapCellType(IsoHeapCellType::create>()) , objCCallbackFunctionHeapCellType(IsoHeapCellType::create()) #endif #ifdef JSC_GLIB_API_ENABLED , apiWrapperObjectHeapCellType(IsoHeapCellType::create>()) , callbackAPIWrapperGlobalObjectHeapCellType(IsoHeapCellType::create>()) , jscCallbackFunctionHeapCellType(IsoHeapCellType::create()) #endif , intlCollatorHeapCellType(IsoHeapCellType::create()) , intlDateTimeFormatHeapCellType(IsoHeapCellType::create()) , intlDisplayNamesHeapCellType(IsoHeapCellType::create()) , intlListFormatHeapCellType(IsoHeapCellType::create()) , intlLocaleHeapCellType(IsoHeapCellType::create()) , intlNumberFormatHeapCellType(IsoHeapCellType::create()) , intlPluralRulesHeapCellType(IsoHeapCellType::create()) , intlRelativeTimeFormatHeapCellType(IsoHeapCellType::create()) , intlSegmentIteratorHeapCellType(IsoHeapCellType::create()) , intlSegmenterHeapCellType(IsoHeapCellType::create()) , intlSegmentsHeapCellType(IsoHeapCellType::create()) #if ENABLE(WEBASSEMBLY) , webAssemblyCodeBlockHeapCellType(IsoHeapCellType::create()) , webAssemblyFunctionHeapCellType(IsoHeapCellType::create()) , webAssemblyGlobalHeapCellType(IsoHeapCellType::create()) , webAssemblyInstanceHeapCellType(IsoHeapCellType::create()) , webAssemblyMemoryHeapCellType(IsoHeapCellType::create()) , webAssemblyModuleHeapCellType(IsoHeapCellType::create()) , webAssemblyModuleRecordHeapCellType(IsoHeapCellType::create()) , webAssemblyTableHeapCellType(IsoHeapCellType::create()) #endif , primitiveGigacageAuxiliarySpace("Primitive Gigacage Auxiliary", heap, auxiliaryHeapCellType.get(), primitiveGigacageAllocator.get()) // Hash:0x3e7cd762 , jsValueGigacageAuxiliarySpace("JSValue Gigacage Auxiliary", heap, auxiliaryHeapCellType.get(), jsValueGigacageAllocator.get()) // Hash:0x241e946 , immutableButterflyJSValueGigacageAuxiliarySpace("ImmutableButterfly Gigacage JSCellWithIndexingHeader", heap, immutableButterflyHeapCellType.get(), jsValueGigacageAllocator.get()) // Hash:0x7a945300 , cellSpace("JSCell", heap, cellHeapCellType.get(), fastMallocAllocator.get()) // Hash:0xadfb5a79 , variableSizedCellSpace("Variable Sized JSCell", heap, cellHeapCellType.get(), fastMallocAllocator.get()) // Hash:0xbcd769cc , destructibleObjectSpace("JSDestructibleObject", heap, destructibleObjectHeapCellType.get(), fastMallocAllocator.get()) // Hash:0x4f5ed7a9 , arraySpace ISO_SUBSPACE_INIT(heap, cellHeapCellType.get(), JSArray) , bigIntSpace ISO_SUBSPACE_INIT(heap, cellHeapCellType.get(), JSBigInt) , calleeSpace ISO_SUBSPACE_INIT(heap, cellHeapCellType.get(), JSCallee) , clonedArgumentsSpace ISO_SUBSPACE_INIT(heap, cellHeapCellType.get(), ClonedArguments) , customGetterSetterSpace ISO_SUBSPACE_INIT(heap, cellHeapCellType.get(), CustomGetterSetter) , dateInstanceSpace ISO_SUBSPACE_INIT(heap, dateInstanceHeapCellType.get(), DateInstance) , domAttributeGetterSetterSpace ISO_SUBSPACE_INIT(heap, cellHeapCellType.get(), DOMAttributeGetterSetter) , exceptionSpace ISO_SUBSPACE_INIT(heap, destructibleCellHeapCellType.get(), Exception) , executableToCodeBlockEdgeSpace ISO_SUBSPACE_INIT(heap, cellHeapCellType.get(), ExecutableToCodeBlockEdge) // Hash:0x7b730b20 , functionSpace ISO_SUBSPACE_INIT(heap, cellHeapCellType.get(), JSFunction) // Hash:0x800fca72 , getterSetterSpace ISO_SUBSPACE_INIT(heap, cellHeapCellType.get(), GetterSetter) , globalLexicalEnvironmentSpace ISO_SUBSPACE_INIT(heap, globalLexicalEnvironmentHeapCellType.get(), JSGlobalLexicalEnvironment) , internalFunctionSpace ISO_SUBSPACE_INIT(heap, cellHeapCellType.get(), InternalFunction) // Hash:0xf845c464 , jsProxySpace ISO_SUBSPACE_INIT(heap, cellHeapCellType.get(), JSProxy) , nativeExecutableSpace ISO_SUBSPACE_INIT(heap, destructibleCellHeapCellType.get(), NativeExecutable) // Hash:0x67567f95 , numberObjectSpace ISO_SUBSPACE_INIT(heap, cellHeapCellType.get(), NumberObject) , plainObjectSpace ISO_SUBSPACE_INIT(heap, cellHeapCellType.get(), JSNonFinalObject) // Mainly used for prototypes. , promiseSpace ISO_SUBSPACE_INIT(heap, cellHeapCellType.get(), JSPromise) , propertyNameEnumeratorSpace ISO_SUBSPACE_INIT(heap, cellHeapCellType.get(), JSPropertyNameEnumerator) , propertyTableSpace ISO_SUBSPACE_INIT(heap, destructibleCellHeapCellType.get(), PropertyTable) // Hash:0xc6bc9f12 , regExpSpace ISO_SUBSPACE_INIT(heap, destructibleCellHeapCellType.get(), RegExp) , regExpObjectSpace ISO_SUBSPACE_INIT(heap, cellHeapCellType.get(), RegExpObject) , ropeStringSpace ISO_SUBSPACE_INIT(heap, stringHeapCellType.get(), JSRopeString) , scopedArgumentsSpace ISO_SUBSPACE_INIT(heap, cellHeapCellType.get(), ScopedArguments) , sparseArrayValueMapSpace ISO_SUBSPACE_INIT(heap, destructibleCellHeapCellType.get(), SparseArrayValueMap) , stringSpace ISO_SUBSPACE_INIT(heap, stringHeapCellType.get(), JSString) // Hash:0x90cf758f , stringObjectSpace ISO_SUBSPACE_INIT(heap, cellHeapCellType.get(), StringObject) , structureChainSpace ISO_SUBSPACE_INIT(heap, cellHeapCellType.get(), StructureChain) , structureRareDataSpace ISO_SUBSPACE_INIT(heap, destructibleCellHeapCellType.get(), StructureRareData) // Hash:0xaca4e62d , structureSpace ISO_SUBSPACE_INIT(heap, destructibleCellHeapCellType.get(), Structure) // Hash:0x1f1bcdca , symbolTableSpace ISO_SUBSPACE_INIT(heap, destructibleCellHeapCellType.get(), SymbolTable) // Hash:0xc5215afd , executableToCodeBlockEdgesWithConstraints(executableToCodeBlockEdgeSpace) , executableToCodeBlockEdgesWithFinalizers(executableToCodeBlockEdgeSpace) , codeBlockSpace ISO_SUBSPACE_INIT(heap, destructibleCellHeapCellType.get(), CodeBlock) // Hash:0x77e66ec9 , functionExecutableSpace ISO_SUBSPACE_INIT(heap, destructibleCellHeapCellType.get(), FunctionExecutable) // Hash:0x5d158f3 , programExecutableSpace ISO_SUBSPACE_INIT(heap, destructibleCellHeapCellType.get(), ProgramExecutable) // Hash:0x527c77e7 , unlinkedFunctionExecutableSpace ISO_SUBSPACE_INIT(heap, destructibleCellHeapCellType.get(), UnlinkedFunctionExecutable) // Hash:0xf6b828d9 , vmType(vmType) , clientData(nullptr) , topEntryFrame(nullptr) , topCallFrame(CallFrame::noCaller()) , deferredWorkTimer(DeferredWorkTimer::create(*this)) , m_atomStringTable(vmType == Default ? Thread::current().atomStringTable() : new AtomStringTable) , m_privateSymbolRegistry(WTF::SymbolRegistry::Type::PrivateSymbol) , propertyNames(nullptr) , emptyList(new ArgList) , machineCodeBytesPerBytecodeWordForBaselineJIT(makeUnique()) , customGetterSetterFunctionMap(*this) , stringCache(*this) , symbolImplToSymbolMap(*this) , structureCache(*this) , interpreter(nullptr) , entryScope(nullptr) , m_regExpCache(new RegExpCache(this)) , m_compactVariableMap(adoptRef(*(new CompactTDZEnvironmentMap))) #if ENABLE(REGEXP_TRACING) , m_rtTraceList(new RTTraceList()) #endif #if ENABLE(GC_VALIDATION) , m_initializingObjectClass(0) #endif , m_stackPointerAtVMEntry(nullptr) , m_codeCache(makeUnique()) , m_intlCache(makeUnique()) , m_builtinExecutables(makeUnique(*this)) , m_typeProfilerEnabledCount(0) , m_primitiveGigacageEnabled(IsWatched) , m_controlFlowProfilerEnabledCount(0) { if (UNLIKELY(vmCreationShouldCrash)) CRASH_WITH_INFO(0x4242424220202020, 0xbadbeef0badbeef, 0x1234123412341234, 0x1337133713371337); interpreter = new Interpreter(*this); StackBounds stack = Thread::current().stack(); updateSoftReservedZoneSize(Options::softReservedZoneSize()); setLastStackTop(stack.origin()); JSRunLoopTimer::Manager::shared().registerVM(*this); // Need to be careful to keep everything consistent here JSLockHolder lock(this); AtomStringTable* existingEntryAtomStringTable = Thread::current().setCurrentAtomStringTable(m_atomStringTable); structureStructure.set(*this, Structure::createStructure(*this)); structureRareDataStructure.set(*this, StructureRareData::createStructure(*this, nullptr, jsNull())); stringStructure.set(*this, JSString::createStructure(*this, nullptr, jsNull())); smallStrings.initializeCommonStrings(*this); propertyNames = new CommonIdentifiers(*this); terminatedExecutionErrorStructure.set(*this, TerminatedExecutionError::createStructure(*this, nullptr, jsNull())); propertyNameEnumeratorStructure.set(*this, JSPropertyNameEnumerator::createStructure(*this, nullptr, jsNull())); getterSetterStructure.set(*this, GetterSetter::createStructure(*this, nullptr, jsNull())); customGetterSetterStructure.set(*this, CustomGetterSetter::createStructure(*this, nullptr, jsNull())); domAttributeGetterSetterStructure.set(*this, DOMAttributeGetterSetter::createStructure(*this, nullptr, jsNull())); scopedArgumentsTableStructure.set(*this, ScopedArgumentsTable::createStructure(*this, nullptr, jsNull())); apiWrapperStructure.set(*this, JSAPIValueWrapper::createStructure(*this, nullptr, jsNull())); nativeExecutableStructure.set(*this, NativeExecutable::createStructure(*this, nullptr, jsNull())); evalExecutableStructure.set(*this, EvalExecutable::createStructure(*this, nullptr, jsNull())); programExecutableStructure.set(*this, ProgramExecutable::createStructure(*this, nullptr, jsNull())); functionExecutableStructure.set(*this, FunctionExecutable::createStructure(*this, nullptr, jsNull())); #if ENABLE(WEBASSEMBLY) webAssemblyCodeBlockStructure.set(*this, JSWebAssemblyCodeBlock::createStructure(*this, nullptr, jsNull())); #endif moduleProgramExecutableStructure.set(*this, ModuleProgramExecutable::createStructure(*this, nullptr, jsNull())); regExpStructure.set(*this, RegExp::createStructure(*this, nullptr, jsNull())); symbolStructure.set(*this, Symbol::createStructure(*this, nullptr, jsNull())); symbolTableStructure.set(*this, SymbolTable::createStructure(*this, nullptr, jsNull())); immutableButterflyStructures[arrayIndexFromIndexingType(CopyOnWriteArrayWithInt32) - NumberOfIndexingShapes].set(*this, JSImmutableButterfly::createStructure(*this, nullptr, jsNull(), CopyOnWriteArrayWithInt32)); immutableButterflyStructures[arrayIndexFromIndexingType(CopyOnWriteArrayWithDouble) - NumberOfIndexingShapes].set(*this, JSImmutableButterfly::createStructure(*this, nullptr, jsNull(), CopyOnWriteArrayWithDouble)); immutableButterflyStructures[arrayIndexFromIndexingType(CopyOnWriteArrayWithContiguous) - NumberOfIndexingShapes].set(*this, JSImmutableButterfly::createStructure(*this, nullptr, jsNull(), CopyOnWriteArrayWithContiguous)); sourceCodeStructure.set(*this, JSSourceCode::createStructure(*this, nullptr, jsNull())); scriptFetcherStructure.set(*this, JSScriptFetcher::createStructure(*this, nullptr, jsNull())); scriptFetchParametersStructure.set(*this, JSScriptFetchParameters::createStructure(*this, nullptr, jsNull())); structureChainStructure.set(*this, StructureChain::createStructure(*this, nullptr, jsNull())); sparseArrayValueMapStructure.set(*this, SparseArrayValueMap::createStructure(*this, nullptr, jsNull())); templateObjectDescriptorStructure.set(*this, JSTemplateObjectDescriptor::createStructure(*this, nullptr, jsNull())); unlinkedFunctionExecutableStructure.set(*this, UnlinkedFunctionExecutable::createStructure(*this, nullptr, jsNull())); unlinkedProgramCodeBlockStructure.set(*this, UnlinkedProgramCodeBlock::createStructure(*this, nullptr, jsNull())); unlinkedEvalCodeBlockStructure.set(*this, UnlinkedEvalCodeBlock::createStructure(*this, nullptr, jsNull())); unlinkedFunctionCodeBlockStructure.set(*this, UnlinkedFunctionCodeBlock::createStructure(*this, nullptr, jsNull())); unlinkedModuleProgramCodeBlockStructure.set(*this, UnlinkedModuleProgramCodeBlock::createStructure(*this, nullptr, jsNull())); propertyTableStructure.set(*this, PropertyTable::createStructure(*this, nullptr, jsNull())); functionRareDataStructure.set(*this, FunctionRareData::createStructure(*this, nullptr, jsNull())); exceptionStructure.set(*this, Exception::createStructure(*this, nullptr, jsNull())); programCodeBlockStructure.set(*this, ProgramCodeBlock::createStructure(*this, nullptr, jsNull())); moduleProgramCodeBlockStructure.set(*this, ModuleProgramCodeBlock::createStructure(*this, nullptr, jsNull())); evalCodeBlockStructure.set(*this, EvalCodeBlock::createStructure(*this, nullptr, jsNull())); functionCodeBlockStructure.set(*this, FunctionCodeBlock::createStructure(*this, nullptr, jsNull())); hashMapBucketSetStructure.set(*this, HashMapBucket::createStructure(*this, nullptr, jsNull())); hashMapBucketMapStructure.set(*this, HashMapBucket::createStructure(*this, nullptr, jsNull())); bigIntStructure.set(*this, JSBigInt::createStructure(*this, nullptr, jsNull())); executableToCodeBlockEdgeStructure.set(*this, ExecutableToCodeBlockEdge::createStructure(*this, nullptr, jsNull())); // Eagerly initialize constant cells since the concurrent compiler can access them. if (Options::useJIT()) { sentinelMapBucket(); sentinelSetBucket(); } { auto* bigInt = JSBigInt::tryCreateFrom(*this, 1); if (bigInt) heapBigIntConstantOne.set(*this, bigInt); else { if (success) *success = false; else RELEASE_ASSERT(bigInt); } } Thread::current().setCurrentAtomStringTable(existingEntryAtomStringTable); Gigacage::addPrimitiveDisableCallback(primitiveGigacageDisabledCallback, this); heap.notifyIsSafeToCollect(); LLInt::Data::performAssertions(*this); if (UNLIKELY(Options::useProfiler())) { m_perBytecodeProfiler = makeUnique(*this); StringPrintStream pathOut; const char* profilerPath = getenv("JSC_PROFILER_PATH"); if (profilerPath) pathOut.print(profilerPath, "/"); pathOut.print("JSCProfile-", getCurrentProcessID(), "-", m_perBytecodeProfiler->databaseID(), ".json"); m_perBytecodeProfiler->registerToSaveAtExit(pathOut.toCString().data()); } callFrameForCatch = nullptr; // Initialize this last, as a free way of asserting that VM initialization itself // won't use this. m_typedArrayController = adoptRef(new SimpleTypedArrayController()); m_bytecodeIntrinsicRegistry = makeUnique(*this); if (Options::useTypeProfiler()) enableTypeProfiler(); if (Options::useControlFlowProfiler()) enableControlFlowProfiler(); #if ENABLE(SAMPLING_PROFILER) if (Options::useSamplingProfiler()) { setShouldBuildPCToCodeOriginMapping(); Ref stopwatch = Stopwatch::create(); stopwatch->start(); m_samplingProfiler = adoptRef(new SamplingProfiler(*this, WTFMove(stopwatch))); if (Options::samplingProfilerPath()) m_samplingProfiler->registerForReportAtExit(); m_samplingProfiler->start(); } #endif // ENABLE(SAMPLING_PROFILER) if (Options::useRandomizingFuzzerAgent()) setFuzzerAgent(makeUnique(*this)); if (Options::useDoublePredictionFuzzerAgent()) setFuzzerAgent(makeUnique(*this)); if (Options::useFileBasedFuzzerAgent()) setFuzzerAgent(makeUnique(*this)); if (Options::usePredictionFileCreatingFuzzerAgent()) setFuzzerAgent(makeUnique(*this)); if (Options::useNarrowingNumberPredictionFuzzerAgent()) setFuzzerAgent(makeUnique(*this)); if (Options::useWideningNumberPredictionFuzzerAgent()) setFuzzerAgent(makeUnique(*this)); if (Options::alwaysGeneratePCToCodeOriginMap()) setShouldBuildPCToCodeOriginMapping(); if (Options::watchdog()) { Watchdog& watchdog = ensureWatchdog(); watchdog.setTimeLimit(Seconds::fromMilliseconds(Options::watchdog())); } #if ENABLE(JIT) // Make sure that any stubs that the JIT is going to use are initialized in non-compilation threads. if (Options::useJIT()) { jitStubs = makeUnique(); #if ENABLE(FTL_JIT) ftlThunks = makeUnique(); #endif // ENABLE(FTL_JIT) getCTIInternalFunctionTrampolineFor(CodeForCall); getCTIInternalFunctionTrampolineFor(CodeForConstruct); } #endif if (Options::forceDebuggerBytecodeGeneration() || Options::alwaysUseShadowChicken()) ensureShadowChicken(); VMInspector::instance().add(this); if (!g_jscConfig.disabledFreezingForTesting) Config::permanentlyFreeze(); } static ReadWriteLock s_destructionLock; void waitForVMDestruction() { auto locker = holdLock(s_destructionLock.write()); } VM::~VM() { auto destructionLocker = holdLock(s_destructionLock.read()); Gigacage::removePrimitiveDisableCallback(primitiveGigacageDisabledCallback, this); deferredWorkTimer->stopRunningTasks(); #if ENABLE(WEBASSEMBLY) if (Wasm::Worklist* worklist = Wasm::existingWorklistOrNull()) worklist->stopAllPlansForContext(wasmContext); #endif if (UNLIKELY(m_watchdog)) m_watchdog->willDestroyVM(this); m_traps.willDestroyVM(); VMInspector::instance().remove(this); // Never GC, ever again. heap.incrementDeferralDepth(); #if ENABLE(SAMPLING_PROFILER) if (m_samplingProfiler) { m_samplingProfiler->reportDataToOptionFile(); m_samplingProfiler->shutdown(); } #endif // ENABLE(SAMPLING_PROFILER) #if ENABLE(JIT) if (JITWorklist* worklist = JITWorklist::existingGlobalWorklistOrNull()) worklist->completeAllForVM(*this); #endif // ENABLE(JIT) #if ENABLE(DFG_JIT) // Make sure concurrent compilations are done, but don't install them, since there is // no point to doing so. for (unsigned i = DFG::numberOfWorklists(); i--;) { if (DFG::Worklist* worklist = DFG::existingWorklistForIndexOrNull(i)) { worklist->removeNonCompilingPlansForVM(*this); worklist->waitUntilAllPlansForVMAreReady(*this); worklist->removeAllReadyPlansForVM(*this); } } #endif // ENABLE(DFG_JIT) waitForAsynchronousDisassembly(); // Clear this first to ensure that nobody tries to remove themselves from it. m_perBytecodeProfiler = nullptr; ASSERT(currentThreadIsHoldingAPILock()); m_apiLock->willDestroyVM(this); smallStrings.setIsInitialized(false); heap.lastChanceToFinalize(); JSRunLoopTimer::Manager::shared().unregisterVM(*this); delete interpreter; #ifndef NDEBUG interpreter = reinterpret_cast(0xbbadbeef); #endif delete emptyList; delete propertyNames; if (vmType != Default) delete m_atomStringTable; delete clientData; delete m_regExpCache; #if ENABLE(REGEXP_TRACING) delete m_rtTraceList; #endif #if ENABLE(DFG_JIT) for (unsigned i = 0; i < m_scratchBuffers.size(); ++i) VMMalloc::free(m_scratchBuffers[i]); #endif } void VM::primitiveGigacageDisabledCallback(void* argument) { static_cast(argument)->primitiveGigacageDisabled(); } void VM::primitiveGigacageDisabled() { if (m_apiLock->currentThreadIsHoldingLock()) { m_primitiveGigacageEnabled.fireAll(*this, "Primitive gigacage disabled"); return; } // This is totally racy, and that's OK. The point is, it's up to the user to ensure that they pass the // uncaged buffer in a nicely synchronized manner. m_needToFirePrimitiveGigacageEnabled = true; } void VM::setLastStackTop(void* lastStackTop) { m_lastStackTop = lastStackTop; } Ref VM::createContextGroup(HeapType heapType) { return adoptRef(*new VM(APIContextGroup, heapType)); } Ref VM::create(HeapType heapType, WTF::RunLoop* runLoop) { return adoptRef(*new VM(Default, heapType, runLoop)); } RefPtr VM::tryCreate(HeapType heapType, WTF::RunLoop* runLoop) { bool success = true; RefPtr vm = adoptRef(new VM(Default, heapType, runLoop, &success)); if (!success) { // Here, we're destructing a partially constructed VM and we know that // no one else can be using it at the same time. So, acquiring the lock // is superflous. However, we don't want to change how VMs are destructed. // Just going through the motion of acquiring the lock here allows us to // use the standard destruction process. // VM expects us to be holding the VM lock when destructing it. Acquiring // the lock also puts the VM in a state (e.g. acquiring heap access) that // is needed for destruction. The lock will hold the last reference to // the VM after we nullify the refPtr below. The VM will actually be // destructed in JSLockHolder's destructor. JSLockHolder lock(vm.get()); vm = nullptr; } return vm; } bool VM::sharedInstanceExists() { return sharedInstanceInternal(); } VM& VM::sharedInstance() { GlobalJSLock globalLock; VM*& instance = sharedInstanceInternal(); if (!instance) instance = adoptRef(new VM(APIShared, SmallHeap)).leakRef(); return *instance; } VM*& VM::sharedInstanceInternal() { static VM* sharedInstance; return sharedInstance; } Watchdog& VM::ensureWatchdog() { if (!m_watchdog) m_watchdog = adoptRef(new Watchdog(this)); return *m_watchdog; } HeapProfiler& VM::ensureHeapProfiler() { if (!m_heapProfiler) m_heapProfiler = makeUnique(*this); return *m_heapProfiler; } #if ENABLE(SAMPLING_PROFILER) SamplingProfiler& VM::ensureSamplingProfiler(Ref&& stopwatch) { if (!m_samplingProfiler) m_samplingProfiler = adoptRef(new SamplingProfiler(*this, WTFMove(stopwatch))); return *m_samplingProfiler; } #endif // ENABLE(SAMPLING_PROFILER) #if ENABLE(JIT) static ThunkGenerator thunkGeneratorForIntrinsic(Intrinsic intrinsic) { switch (intrinsic) { case CharCodeAtIntrinsic: return charCodeAtThunkGenerator; case CharAtIntrinsic: return charAtThunkGenerator; case StringPrototypeCodePointAtIntrinsic: return stringPrototypeCodePointAtThunkGenerator; case Clz32Intrinsic: return clz32ThunkGenerator; case FromCharCodeIntrinsic: return fromCharCodeThunkGenerator; case SqrtIntrinsic: return sqrtThunkGenerator; case AbsIntrinsic: return absThunkGenerator; case FloorIntrinsic: return floorThunkGenerator; case CeilIntrinsic: return ceilThunkGenerator; case TruncIntrinsic: return truncThunkGenerator; case RoundIntrinsic: return roundThunkGenerator; case ExpIntrinsic: return expThunkGenerator; case LogIntrinsic: return logThunkGenerator; case IMulIntrinsic: return imulThunkGenerator; case RandomIntrinsic: return randomThunkGenerator; case BoundFunctionCallIntrinsic: return boundFunctionCallGenerator; default: return nullptr; } } MacroAssemblerCodeRef VM::getCTIStub(ThunkGenerator generator) { return jitStubs->ctiStub(*this, generator); } #endif // ENABLE(JIT) NativeExecutable* VM::getHostFunction(NativeFunction function, NativeFunction constructor, const String& name) { return getHostFunction(function, NoIntrinsic, constructor, nullptr, name); } static Ref jitCodeForCallTrampoline() { static NativeJITCode* result; static std::once_flag onceKey; std::call_once(onceKey, [&] { result = new NativeJITCode(LLInt::getCodeRef(llint_native_call_trampoline), JITType::HostCallThunk, NoIntrinsic); }); return makeRef(*result); } static Ref jitCodeForConstructTrampoline() { static NativeJITCode* result; static std::once_flag onceKey; std::call_once(onceKey, [&] { result = new NativeJITCode(LLInt::getCodeRef(llint_native_construct_trampoline), JITType::HostCallThunk, NoIntrinsic); }); return makeRef(*result); } NativeExecutable* VM::getHostFunction(NativeFunction function, Intrinsic intrinsic, NativeFunction constructor, const DOMJIT::Signature* signature, const String& name) { #if ENABLE(JIT) if (Options::useJIT()) { return jitStubs->hostFunctionStub( *this, function, constructor, intrinsic != NoIntrinsic ? thunkGeneratorForIntrinsic(intrinsic) : nullptr, intrinsic, signature, name); } #endif // ENABLE(JIT) UNUSED_PARAM(intrinsic); UNUSED_PARAM(signature); return NativeExecutable::create(*this, jitCodeForCallTrampoline(), function, jitCodeForConstructTrampoline(), constructor, name); } NativeExecutable* VM::getBoundFunction(bool isJSFunction, bool canConstruct) { bool slowCase = !isJSFunction; auto getOrCreate = [&] (Weak& slot) -> NativeExecutable* { if (auto* cached = slot.get()) return cached; NativeExecutable* result = getHostFunction( slowCase ? boundFunctionCall : boundThisNoArgsFunctionCall, slowCase ? NoIntrinsic : BoundFunctionCallIntrinsic, canConstruct ? (slowCase ? boundFunctionConstruct : boundThisNoArgsFunctionConstruct) : callHostFunctionAsConstructor, nullptr, String()); slot = Weak(result); return result; }; if (slowCase) { if (canConstruct) return getOrCreate(m_slowCanConstructBoundExecutable); return getOrCreate(m_slowBoundExecutable); } if (canConstruct) return getOrCreate(m_fastCanConstructBoundExecutable); return getOrCreate(m_fastBoundExecutable); } MacroAssemblerCodePtr VM::getCTIInternalFunctionTrampolineFor(CodeSpecializationKind kind) { #if ENABLE(JIT) if (Options::useJIT()) { if (kind == CodeForCall) return jitStubs->ctiInternalFunctionCall(*this).retagged(); return jitStubs->ctiInternalFunctionConstruct(*this).retagged(); } #endif if (kind == CodeForCall) return LLInt::getCodePtr(llint_internal_function_call_trampoline); return LLInt::getCodePtr(llint_internal_function_construct_trampoline); } VM::ClientData::~ClientData() { } void VM::whenIdle(Function&& callback) { if (!entryScope) { callback(); return; } entryScope->addDidPopListener(WTFMove(callback)); } void VM::deleteAllLinkedCode(DeleteAllCodeEffort effort) { whenIdle([=] () { heap.deleteAllCodeBlocks(effort); }); } void VM::deleteAllCode(DeleteAllCodeEffort effort) { whenIdle([=] () { m_codeCache->clear(); m_regExpCache->deleteAllCode(); heap.deleteAllCodeBlocks(effort); heap.deleteAllUnlinkedCodeBlocks(effort); heap.reportAbandonedObjectGraph(); }); } void VM::shrinkFootprintWhenIdle() { whenIdle([=] () { sanitizeStackForVM(*this); deleteAllCode(DeleteAllCodeIfNotCollecting); heap.collectNow(Synchronousness::Sync, CollectionScope::Full); // FIXME: Consider stopping various automatic threads here. // https://bugs.webkit.org/show_bug.cgi?id=185447 WTF::releaseFastMallocFreeMemory(); }); } SourceProviderCache* VM::addSourceProviderCache(SourceProvider* sourceProvider) { auto addResult = sourceProviderCacheMap.add(sourceProvider, nullptr); if (addResult.isNewEntry) addResult.iterator->value = adoptRef(new SourceProviderCache); return addResult.iterator->value.get(); } void VM::clearSourceProviderCaches() { sourceProviderCacheMap.clear(); } Exception* VM::throwException(JSGlobalObject* globalObject, Exception* exception) { CallFrame* throwOriginFrame = topJSCallFrame(); if (!throwOriginFrame) throwOriginFrame = globalObject->deprecatedCallFrameForDebugger(); if (UNLIKELY(Options::breakOnThrow())) { CodeBlock* codeBlock = throwOriginFrame ? throwOriginFrame->codeBlock() : nullptr; dataLog("Throwing exception in call frame ", RawPointer(throwOriginFrame), " for code block ", codeBlock, "\n"); CRASH(); } interpreter->notifyDebuggerOfExceptionToBeThrown(*this, globalObject, throwOriginFrame, exception); setException(exception); #if ENABLE(EXCEPTION_SCOPE_VERIFICATION) m_nativeStackTraceOfLastThrow = StackTrace::captureStackTrace(Options::unexpectedExceptionStackTraceLimit()); m_throwingThread = &Thread::current(); #endif return exception; } Exception* VM::throwException(JSGlobalObject* globalObject, JSValue thrownValue) { VM& vm = *this; Exception* exception = jsDynamicCast(vm, thrownValue); if (!exception) exception = Exception::create(*this, thrownValue); return throwException(globalObject, exception); } Exception* VM::throwException(JSGlobalObject* globalObject, JSObject* error) { return throwException(globalObject, JSValue(error)); } void VM::setStackPointerAtVMEntry(void* sp) { m_stackPointerAtVMEntry = sp; updateStackLimits(); } size_t VM::updateSoftReservedZoneSize(size_t softReservedZoneSize) { size_t oldSoftReservedZoneSize = m_currentSoftReservedZoneSize; m_currentSoftReservedZoneSize = softReservedZoneSize; #if ENABLE(C_LOOP) interpreter->cloopStack().setSoftReservedZoneSize(softReservedZoneSize); #endif updateStackLimits(); return oldSoftReservedZoneSize; } #if OS(WINDOWS) // On Windows the reserved stack space consists of committed memory, a guard page, and uncommitted memory, // where the guard page is a barrier between committed and uncommitted memory. // When data from the guard page is read or written, the guard page is moved, and memory is committed. // This is how the system grows the stack. // When using the C stack on Windows we need to precommit the needed stack space. // Otherwise we might crash later if we access uncommitted stack memory. // This can happen if we allocate stack space larger than the page guard size (4K). // The system does not get the chance to move the guard page, and commit more memory, // and we crash if uncommitted memory is accessed. // The MSVC compiler fixes this by inserting a call to the _chkstk() function, // when needed, see http://support.microsoft.com/kb/100775. // By touching every page up to the stack limit with a dummy operation, // we force the system to move the guard page, and commit memory. static void preCommitStackMemory(void* stackLimit) { const int pageSize = 4096; for (volatile char* p = reinterpret_cast(&stackLimit); p > stackLimit; p -= pageSize) { char ch = *p; *p = ch; } } #endif void VM::updateStackLimits() { #if OS(WINDOWS) void* lastSoftStackLimit = m_softStackLimit; #endif const StackBounds& stack = Thread::current().stack(); size_t reservedZoneSize = Options::reservedZoneSize(); // We should have already ensured that Options::reservedZoneSize() >= minimumReserveZoneSize at // options initialization time, and the option value should not have been changed thereafter. // We don't have the ability to assert here that it hasn't changed, but we can at least assert // that the value is sane. RELEASE_ASSERT(reservedZoneSize >= minimumReservedZoneSize); if (m_stackPointerAtVMEntry) { char* startOfStack = reinterpret_cast(m_stackPointerAtVMEntry); m_softStackLimit = stack.recursionLimit(startOfStack, Options::maxPerThreadStackUsage(), m_currentSoftReservedZoneSize); m_stackLimit = stack.recursionLimit(startOfStack, Options::maxPerThreadStackUsage(), reservedZoneSize); } else { m_softStackLimit = stack.recursionLimit(m_currentSoftReservedZoneSize); m_stackLimit = stack.recursionLimit(reservedZoneSize); } #if OS(WINDOWS) // We only need to precommit stack memory dictated by the VM::m_softStackLimit limit. // This is because VM::m_softStackLimit applies to stack usage by LLINT asm or JIT // generated code which can allocate stack space that the C++ compiler does not know // about. As such, we have to precommit that stack memory manually. // // In contrast, we do not need to worry about VM::m_stackLimit because that limit is // used exclusively by C++ code, and the C++ compiler will automatically commit the // needed stack pages. if (lastSoftStackLimit != m_softStackLimit) preCommitStackMemory(m_softStackLimit); #endif } #if ENABLE(DFG_JIT) void VM::gatherScratchBufferRoots(ConservativeRoots& conservativeRoots) { auto lock = holdLock(m_scratchBufferLock); for (auto* scratchBuffer : m_scratchBuffers) { if (scratchBuffer->activeLength()) { void* bufferStart = scratchBuffer->dataBuffer(); conservativeRoots.add(bufferStart, static_cast(static_cast(bufferStart) + scratchBuffer->activeLength())); } } } void VM::scanSideState(ConservativeRoots& roots) const { ASSERT(heap.worldIsStopped()); for (const auto& sideState : m_checkpointSideState) { static_assert(sizeof(sideState->tmps) / sizeof(JSValue) == maxNumCheckpointTmps); roots.add(sideState->tmps, sideState->tmps + maxNumCheckpointTmps); } } #endif void VM::pushCheckpointOSRSideState(std::unique_ptr&& payload) { ASSERT(currentThreadIsHoldingAPILock()); ASSERT(payload->associatedCallFrame); #if ASSERT_ENABLED for (const auto& sideState : m_checkpointSideState) ASSERT(sideState->associatedCallFrame != payload->associatedCallFrame); #endif m_checkpointSideState.append(WTFMove(payload)); #if ASSERT_ENABLED auto bounds = StackBounds::currentThreadStackBounds(); void* previousCallFrame = bounds.end(); for (size_t i = m_checkpointSideState.size(); i--;) { auto* callFrame = m_checkpointSideState[i]->associatedCallFrame; if (!bounds.contains(callFrame)) break; ASSERT(previousCallFrame < callFrame); previousCallFrame = callFrame; } #endif } std::unique_ptr VM::popCheckpointOSRSideState(CallFrame* expectedCallFrame) { ASSERT(currentThreadIsHoldingAPILock()); auto sideState = m_checkpointSideState.takeLast(); RELEASE_ASSERT(sideState->associatedCallFrame == expectedCallFrame); return sideState; } void VM::popAllCheckpointOSRSideStateUntil(CallFrame* target) { ASSERT(currentThreadIsHoldingAPILock()); auto bounds = StackBounds::currentThreadStackBounds().withSoftOrigin(target); ASSERT(bounds.contains(target)); // We have to worry about migrating from another thread since there may be no checkpoints in our thread but one in the other threads. while (m_checkpointSideState.size() && bounds.contains(m_checkpointSideState.last()->associatedCallFrame)) m_checkpointSideState.takeLast(); } void logSanitizeStack(VM& vm) { if (Options::verboseSanitizeStack() && vm.topCallFrame) { int dummy; auto& stackBounds = Thread::current().stack(); dataLog( "Sanitizing stack for VM = ", RawPointer(&vm), " with top call frame at ", RawPointer(vm.topCallFrame), ", current stack pointer at ", RawPointer(&dummy), ", in ", pointerDump(vm.topCallFrame->codeBlock()), ", last code origin = ", vm.topCallFrame->codeOrigin(), ", last stack top = ", RawPointer(vm.lastStackTop()), ", in stack range [", RawPointer(stackBounds.origin()), ", ", RawPointer(stackBounds.end()), "]\n"); } } #if ENABLE(YARR_JIT_ALL_PARENS_EXPRESSIONS) char* VM::acquireRegExpPatternContexBuffer() { m_regExpPatternContextLock.lock(); ASSERT(m_regExpPatternContextLock.isLocked()); if (!m_regExpPatternContexBuffer) m_regExpPatternContexBuffer = makeUniqueArray(VM::patternContextBufferSize); return m_regExpPatternContexBuffer.get(); } void VM::releaseRegExpPatternContexBuffer() { ASSERT(m_regExpPatternContextLock.isLocked()); m_regExpPatternContextLock.unlock(); } #endif #if ENABLE(REGEXP_TRACING) void VM::addRegExpToTrace(RegExp* regExp) { gcProtect(regExp); m_rtTraceList->add(regExp); } void VM::dumpRegExpTrace() { // The first RegExp object is ignored. It is create by the RegExpPrototype ctor and not used. RTTraceList::iterator iter = ++m_rtTraceList->begin(); if (iter != m_rtTraceList->end()) { dataLogF("\nRegExp Tracing\n"); dataLogF("Regular Expression 8 Bit 16 Bit match() Matches Average\n"); dataLogF(" JIT Addr JIT Address calls found String len\n"); dataLogF("----------------------------------------+----------------+----------------+----------+----------+-----------\n"); unsigned reCount = 0; for (; iter != m_rtTraceList->end(); ++iter, ++reCount) { (*iter)->printTraceData(); gcUnprotect(*iter); } dataLogF("%d Regular Expressions\n", reCount); } m_rtTraceList->clear(); } #else void VM::dumpRegExpTrace() { } #endif WatchpointSet* VM::ensureWatchpointSetForImpureProperty(UniquedStringImpl* propertyName) { auto result = m_impurePropertyWatchpointSets.add(propertyName, nullptr); if (result.isNewEntry) result.iterator->value = WatchpointSet::create(IsWatched); return result.iterator->value.get(); } void VM::addImpureProperty(UniquedStringImpl* propertyName) { if (RefPtr watchpointSet = m_impurePropertyWatchpointSets.take(propertyName)) watchpointSet->fireAll(*this, "Impure property added"); } template static bool enableProfilerWithRespectToCount(unsigned& counter, const Func& doEnableWork) { bool needsToRecompile = false; if (!counter) { doEnableWork(); needsToRecompile = true; } counter++; return needsToRecompile; } template static bool disableProfilerWithRespectToCount(unsigned& counter, const Func& doDisableWork) { RELEASE_ASSERT(counter > 0); bool needsToRecompile = false; counter--; if (!counter) { doDisableWork(); needsToRecompile = true; } return needsToRecompile; } bool VM::enableTypeProfiler() { auto enableTypeProfiler = [this] () { this->m_typeProfiler = makeUnique(); this->m_typeProfilerLog = makeUnique(*this); }; return enableProfilerWithRespectToCount(m_typeProfilerEnabledCount, enableTypeProfiler); } bool VM::disableTypeProfiler() { auto disableTypeProfiler = [this] () { this->m_typeProfiler.reset(nullptr); this->m_typeProfilerLog.reset(nullptr); }; return disableProfilerWithRespectToCount(m_typeProfilerEnabledCount, disableTypeProfiler); } bool VM::enableControlFlowProfiler() { auto enableControlFlowProfiler = [this] () { this->m_controlFlowProfiler = makeUnique(); }; return enableProfilerWithRespectToCount(m_controlFlowProfilerEnabledCount, enableControlFlowProfiler); } bool VM::disableControlFlowProfiler() { auto disableControlFlowProfiler = [this] () { this->m_controlFlowProfiler.reset(nullptr); }; return disableProfilerWithRespectToCount(m_controlFlowProfilerEnabledCount, disableControlFlowProfiler); } void VM::dumpTypeProfilerData() { if (!typeProfiler()) return; typeProfilerLog()->processLogEntries(*this, "VM Dump Types"_s); typeProfiler()->dumpTypeProfilerData(*this); } void VM::queueMicrotask(JSGlobalObject& globalObject, Ref&& task) { m_microtaskQueue.append(makeUnique(*this, &globalObject, WTFMove(task))); } void VM::callPromiseRejectionCallback(Strong& promise) { JSObject* callback = promise->globalObject()->unhandledRejectionCallback(); if (!callback) return; auto scope = DECLARE_CATCH_SCOPE(*this); auto callData = getCallData(*this, callback); ASSERT(callData.type != CallData::Type::None); MarkedArgumentBuffer args; args.append(promise.get()); args.append(promise->result(*this)); call(promise->globalObject(), callback, callData, jsNull(), args); scope.clearException(); } void VM::didExhaustMicrotaskQueue() { auto unhandledRejections = WTFMove(m_aboutToBeNotifiedRejectedPromises); for (auto& promise : unhandledRejections) { if (promise->isHandled(*this)) continue; callPromiseRejectionCallback(promise); } } void VM::promiseRejected(JSPromise* promise) { m_aboutToBeNotifiedRejectedPromises.constructAndAppend(*this, promise); } void VM::drainMicrotasks() { do { while (!m_microtaskQueue.isEmpty()) { m_microtaskQueue.takeFirst()->run(); if (m_onEachMicrotaskTick) m_onEachMicrotaskTick(*this); } didExhaustMicrotaskQueue(); } while (!m_microtaskQueue.isEmpty()); finalizeSynchronousJSExecution(); } void QueuedTask::run() { m_microtask->run(m_globalObject.get()); } void sanitizeStackForVM(VM& vm) { logSanitizeStack(vm); if (vm.topCallFrame) { auto& stackBounds = Thread::current().stack(); ASSERT(vm.currentThreadIsHoldingAPILock()); ASSERT_UNUSED(stackBounds, stackBounds.contains(vm.lastStackTop())); } #if ENABLE(C_LOOP) vm.interpreter->cloopStack().sanitizeStack(); #else sanitizeStackForVMImpl(&vm); #endif } size_t VM::committedStackByteCount() { #if !ENABLE(C_LOOP) // When using the C stack, we don't know how many stack pages are actually // committed. So, we use the current stack usage as an estimate. uint8_t* current = bitwise_cast(currentStackPointer()); uint8_t* high = bitwise_cast(Thread::current().stack().origin()); return high - current; #else return CLoopStack::committedByteCount(); #endif } #if ENABLE(C_LOOP) bool VM::ensureStackCapacityForCLoop(Register* newTopOfStack) { return interpreter->cloopStack().ensureCapacityFor(newTopOfStack); } bool VM::isSafeToRecurseSoftCLoop() const { return interpreter->cloopStack().isSafeToRecurse(); } void* VM::currentCLoopStackPointer() const { return interpreter->cloopStack().currentStackPointer(); } #endif // ENABLE(C_LOOP) #if ENABLE(EXCEPTION_SCOPE_VERIFICATION) void VM::verifyExceptionCheckNeedIsSatisfied(unsigned recursionDepth, ExceptionEventLocation& location) { if (!Options::validateExceptionChecks()) return; if (UNLIKELY(m_needExceptionCheck)) { auto throwDepth = m_simulatedThrowPointRecursionDepth; auto& throwLocation = m_simulatedThrowPointLocation; dataLog( "ERROR: Unchecked JS exception:\n" " This scope can throw a JS exception: ", throwLocation, "\n" " (ExceptionScope::m_recursionDepth was ", throwDepth, ")\n" " But the exception was unchecked as of this scope: ", location, "\n" " (ExceptionScope::m_recursionDepth was ", recursionDepth, ")\n" "\n"); StringPrintStream out; std::unique_ptr currentTrace = StackTrace::captureStackTrace(Options::unexpectedExceptionStackTraceLimit()); if (Options::dumpSimulatedThrows()) { out.println("The simulated exception was thrown at:"); m_nativeStackTraceOfLastSimulatedThrow->dump(out, " "); out.println(); } out.println("Unchecked exception detected at:"); currentTrace->dump(out, " "); out.println(); dataLog(out.toCString()); RELEASE_ASSERT(!m_needExceptionCheck); } } #endif ScratchBuffer* VM::scratchBufferForSize(size_t size) { if (!size) return nullptr; auto locker = holdLock(m_scratchBufferLock); if (size > m_sizeOfLastScratchBuffer) { // Protect against a N^2 memory usage pathology by ensuring // that at worst, we get a geometric series, meaning that the // total memory usage is somewhere around // max(scratch buffer size) * 4. m_sizeOfLastScratchBuffer = size * 2; ScratchBuffer* newBuffer = ScratchBuffer::create(m_sizeOfLastScratchBuffer); RELEASE_ASSERT(newBuffer); m_scratchBuffers.append(newBuffer); } ScratchBuffer* result = m_scratchBuffers.last(); return result; } void VM::clearScratchBuffers() { auto lock = holdLock(m_scratchBufferLock); for (auto* scratchBuffer : m_scratchBuffers) scratchBuffer->setActiveLength(0); } void VM::ensureShadowChicken() { if (m_shadowChicken) return; m_shadowChicken = makeUnique(); } #define DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(name, heapCellType, type) \ IsoSubspace* VM::name##Slow() \ { \ ASSERT(!m_##name); \ auto space = makeUnique ISO_SUBSPACE_INIT(heap, heapCellType, type); \ WTF::storeStoreFence(); \ m_##name = WTFMove(space); \ return m_##name.get(); \ } DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(apiGlobalObjectSpace, apiGlobalObjectHeapCellType.get(), JSAPIGlobalObject) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(apiValueWrapperSpace, cellHeapCellType.get(), JSAPIValueWrapper) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(arrayBufferSpace, cellHeapCellType.get(), JSArrayBuffer) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(arrayIteratorSpace, cellHeapCellType.get(), JSArrayIterator) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(asyncGeneratorSpace, cellHeapCellType.get(), JSAsyncGenerator) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(bigIntObjectSpace, cellHeapCellType.get(), BigIntObject) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(booleanObjectSpace, cellHeapCellType.get(), BooleanObject) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(boundFunctionSpace, cellHeapCellType.get(), JSBoundFunction) // Hash:0xd7916d41 DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(callbackConstructorSpace, callbackConstructorHeapCellType.get(), JSCallbackConstructor) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(callbackGlobalObjectSpace, callbackGlobalObjectHeapCellType.get(), JSCallbackObject) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(callbackFunctionSpace, cellHeapCellType.get(), JSCallbackFunction) // Hash:0xe7648ebc DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(callbackObjectSpace, callbackObjectHeapCellType.get(), JSCallbackObject) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(customGetterSetterFunctionSpace, cellHeapCellType.get(), JSCustomGetterSetterFunction) // Hash:0x18091000 DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(dataViewSpace, cellHeapCellType.get(), JSDataView) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(debuggerScopeSpace, cellHeapCellType.get(), DebuggerScope) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(errorInstanceSpace, errorInstanceHeapCellType.get(), ErrorInstance) // Hash:0x3f40d4a DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(float32ArraySpace, cellHeapCellType.get(), JSFloat32Array) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(float64ArraySpace, cellHeapCellType.get(), JSFloat64Array) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(functionRareDataSpace, destructibleCellHeapCellType.get(), FunctionRareData) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(generatorSpace, cellHeapCellType.get(), JSGenerator) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(globalObjectSpace, globalObjectHeapCellType.get(), JSGlobalObject) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(injectedScriptHostSpace, injectedScriptHostSpaceHeapCellType.get(), Inspector::JSInjectedScriptHost) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(int8ArraySpace, cellHeapCellType.get(), JSInt8Array) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(int16ArraySpace, cellHeapCellType.get(), JSInt16Array) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(int32ArraySpace, cellHeapCellType.get(), JSInt32Array) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(javaScriptCallFrameSpace, javaScriptCallFrameHeapCellType.get(), Inspector::JSJavaScriptCallFrame) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(jsModuleRecordSpace, jsModuleRecordHeapCellType.get(), JSModuleRecord) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(mapBucketSpace, cellHeapCellType.get(), JSMap::BucketType) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(mapIteratorSpace, cellHeapCellType.get(), JSMapIterator) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(mapSpace, cellHeapCellType.get(), JSMap) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(moduleNamespaceObjectSpace, moduleNamespaceObjectHeapCellType.get(), JSModuleNamespaceObject) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(nativeStdFunctionSpace, nativeStdFunctionHeapCellType.get(), JSNativeStdFunction) // Hash:0x70ed61e4 DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(proxyObjectSpace, cellHeapCellType.get(), ProxyObject) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(proxyRevokeSpace, cellHeapCellType.get(), ProxyRevoke) // Hash:0xb506a939 DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(scopedArgumentsTableSpace, destructibleCellHeapCellType.get(), ScopedArgumentsTable) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(scriptFetchParametersSpace, destructibleCellHeapCellType.get(), JSScriptFetchParameters) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(scriptFetcherSpace, destructibleCellHeapCellType.get(), JSScriptFetcher) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(setBucketSpace, cellHeapCellType.get(), JSSet::BucketType) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(setIteratorSpace, cellHeapCellType.get(), JSSetIterator) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(setSpace, cellHeapCellType.get(), JSSet) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(strictEvalActivationSpace, cellHeapCellType.get(), StrictEvalActivation) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(stringIteratorSpace, cellHeapCellType.get(), JSStringIterator) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(sourceCodeSpace, destructibleCellHeapCellType.get(), JSSourceCode) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(symbolSpace, destructibleCellHeapCellType.get(), Symbol) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(symbolObjectSpace, cellHeapCellType.get(), SymbolObject) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(templateObjectDescriptorSpace, destructibleCellHeapCellType.get(), JSTemplateObjectDescriptor) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(uint8ArraySpace, cellHeapCellType.get(), JSUint8Array) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(uint8ClampedArraySpace, cellHeapCellType.get(), JSUint8ClampedArray) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(uint16ArraySpace, cellHeapCellType.get(), JSUint16Array) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(uint32ArraySpace, cellHeapCellType.get(), JSUint32Array) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(unlinkedEvalCodeBlockSpace, destructibleCellHeapCellType.get(), UnlinkedEvalCodeBlock) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(unlinkedFunctionCodeBlockSpace, destructibleCellHeapCellType.get(), UnlinkedFunctionCodeBlock) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(unlinkedModuleProgramCodeBlockSpace, destructibleCellHeapCellType.get(), UnlinkedModuleProgramCodeBlock) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(unlinkedProgramCodeBlockSpace, destructibleCellHeapCellType.get(), UnlinkedProgramCodeBlock) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(weakMapSpace, weakMapHeapCellType.get(), JSWeakMap) // Hash:0x662b12a3 DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(weakSetSpace, weakSetHeapCellType.get(), JSWeakSet) // Hash:0x4c781b30 DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(weakObjectRefSpace, cellHeapCellType.get(), JSWeakObjectRef) // Hash:0x8ec68f1f DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(withScopeSpace, cellHeapCellType.get(), JSWithScope) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(finalizationRegistrySpace, finalizationRegistryCellType.get(), JSFinalizationRegistry) #if JSC_OBJC_API_ENABLED DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(apiWrapperObjectSpace, apiWrapperObjectHeapCellType.get(), JSCallbackObject) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(objCCallbackFunctionSpace, objCCallbackFunctionHeapCellType.get(), ObjCCallbackFunction) // Hash:0x10f610b8 #endif #ifdef JSC_GLIB_API_ENABLED DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(apiWrapperObjectSpace, apiWrapperObjectHeapCellType.get(), JSCallbackObject) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(jscCallbackFunctionSpace, jscCallbackFunctionHeapCellType.get(), JSCCallbackFunction) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(callbackAPIWrapperGlobalObjectSpace, callbackAPIWrapperGlobalObjectHeapCellType.get(), JSCallbackObject) #endif DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(intlCollatorSpace, intlCollatorHeapCellType.get(), IntlCollator) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(intlDateTimeFormatSpace, intlDateTimeFormatHeapCellType.get(), IntlDateTimeFormat) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(intlDisplayNamesSpace, intlDisplayNamesHeapCellType.get(), IntlDisplayNames) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(intlListFormatSpace, intlListFormatHeapCellType.get(), IntlListFormat) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(intlLocaleSpace, intlLocaleHeapCellType.get(), IntlLocale) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(intlNumberFormatSpace, intlNumberFormatHeapCellType.get(), IntlNumberFormat) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(intlPluralRulesSpace, intlPluralRulesHeapCellType.get(), IntlPluralRules) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(intlRelativeTimeFormatSpace, intlRelativeTimeFormatHeapCellType.get(), IntlRelativeTimeFormat) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(intlSegmentIteratorSpace, intlSegmentIteratorHeapCellType.get(), IntlSegmentIterator) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(intlSegmenterSpace, intlSegmenterHeapCellType.get(), IntlSegmenter) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(intlSegmentsSpace, intlSegmentsHeapCellType.get(), IntlSegments) #if ENABLE(WEBASSEMBLY) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(jsToWasmICCalleeSpace, cellHeapCellType.get(), JSToWasmICCallee) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(webAssemblyCodeBlockSpace, webAssemblyCodeBlockHeapCellType.get(), JSWebAssemblyCodeBlock) // Hash:0x9ad995cd DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(webAssemblyFunctionSpace, webAssemblyFunctionHeapCellType.get(), WebAssemblyFunction) // Hash:0x8b7c32db DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(webAssemblyGlobalSpace, webAssemblyGlobalHeapCellType.get(), JSWebAssemblyGlobal) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(webAssemblyInstanceSpace, webAssemblyInstanceHeapCellType.get(), JSWebAssemblyInstance) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(webAssemblyMemorySpace, webAssemblyMemoryHeapCellType.get(), JSWebAssemblyMemory) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(webAssemblyModuleSpace, webAssemblyModuleHeapCellType.get(), JSWebAssemblyModule) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(webAssemblyModuleRecordSpace, webAssemblyModuleRecordHeapCellType.get(), WebAssemblyModuleRecord) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(webAssemblyTableSpace, webAssemblyTableHeapCellType.get(), JSWebAssemblyTable) DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW(webAssemblyWrapperFunctionSpace, cellHeapCellType.get(), WebAssemblyWrapperFunction) // Hash:0xd4a5ff01 #endif #undef DYNAMIC_ISO_SUBSPACE_DEFINE_MEMBER_SLOW #define DYNAMIC_SPACE_AND_SET_DEFINE_MEMBER_SLOW(name, heapCellType, type) \ IsoSubspace* VM::name##Slow() \ { \ ASSERT(!m_##name); \ auto space = makeUnique ISO_SUBSPACE_INIT(heap, heapCellType, type); \ WTF::storeStoreFence(); \ m_##name = WTFMove(space); \ return &m_##name->space; \ } DYNAMIC_SPACE_AND_SET_DEFINE_MEMBER_SLOW(evalExecutableSpace, destructibleCellHeapCellType.get(), EvalExecutable) // Hash:0x958e3e9d DYNAMIC_SPACE_AND_SET_DEFINE_MEMBER_SLOW(moduleProgramExecutableSpace, destructibleCellHeapCellType.get(), ModuleProgramExecutable) // Hash:0x6506fa3c #undef DYNAMIC_SPACE_AND_SET_DEFINE_MEMBER_SLOW JSCell* VM::sentinelSetBucketSlow() { ASSERT(!m_sentinelSetBucket); auto* sentinel = JSSet::BucketType::createSentinel(*this); m_sentinelSetBucket.set(*this, sentinel); return sentinel; } JSCell* VM::sentinelMapBucketSlow() { ASSERT(!m_sentinelMapBucket); auto* sentinel = JSMap::BucketType::createSentinel(*this); m_sentinelMapBucket.set(*this, sentinel); return sentinel; } JSPropertyNameEnumerator* VM::emptyPropertyNameEnumeratorSlow() { ASSERT(!m_emptyPropertyNameEnumerator); PropertyNameArray propertyNames(*this, PropertyNameMode::Strings, PrivateSymbolMode::Exclude); auto* enumerator = JSPropertyNameEnumerator::create(*this, nullptr, 0, 0, WTFMove(propertyNames)); m_emptyPropertyNameEnumerator.set(*this, enumerator); return enumerator; } JSGlobalObject* VM::deprecatedVMEntryGlobalObject(JSGlobalObject* globalObject) const { if (entryScope) return entryScope->globalObject(); return globalObject; } void VM::setCrashOnVMCreation(bool shouldCrash) { vmCreationShouldCrash = shouldCrash; } void VM::addLoopHintExecutionCounter(const Instruction* instruction) { auto locker = holdLock(m_loopHintExecutionCountLock); auto addResult = m_loopHintExecutionCounts.add(instruction, std::pair>(0, nullptr)); if (addResult.isNewEntry) { auto ptr = WTF::makeUniqueWithoutFastMallocCheck(); *ptr = 0; addResult.iterator->value.second = WTFMove(ptr); } ++addResult.iterator->value.first; } uint64_t* VM::getLoopHintExecutionCounter(const Instruction* instruction) { auto locker = holdLock(m_loopHintExecutionCountLock); auto iter = m_loopHintExecutionCounts.find(instruction); return iter->value.second.get(); } void VM::removeLoopHintExecutionCounter(const Instruction* instruction) { auto locker = holdLock(m_loopHintExecutionCountLock); auto iter = m_loopHintExecutionCounts.find(instruction); RELEASE_ASSERT(!!iter->value.first); --iter->value.first; if (!iter->value.first) m_loopHintExecutionCounts.remove(iter); } } // namespace JSC