/* * Copyright (C) 2007, 2008, 2009 Apple Inc. All rights reserved. * Copyright (C) 2008 Cameron Zwarich (cwzwarich@uwaterloo.ca) * * 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 Computer, 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 "JSGlobalObject.h" #include "Arguments.h" #include "ArgumentsIteratorConstructor.h" #include "ArgumentsIteratorPrototype.h" #include "ArrayConstructor.h" #include "ArrayIteratorConstructor.h" #include "ArrayIteratorPrototype.h" #include "ArrayPrototype.h" #include "BooleanConstructor.h" #include "BooleanPrototype.h" #include "CodeBlock.h" #include "CodeCache.h" #include "DateConstructor.h" #include "DatePrototype.h" #include "Debugger.h" #include "Error.h" #include "ErrorConstructor.h" #include "ErrorPrototype.h" #include "FunctionConstructor.h" #include "FunctionPrototype.h" #include "GetterSetter.h" #include "HeapIterationScope.h" #include "Interpreter.h" #include "JSAPIWrapperObject.h" #include "JSActivation.h" #include "JSArgumentsIterator.h" #include "JSArrayBuffer.h" #include "JSArrayBufferConstructor.h" #include "JSArrayBufferPrototype.h" #include "JSArrayIterator.h" #include "JSBoundFunction.h" #include "JSCallbackConstructor.h" #include "JSCallbackFunction.h" #include "JSCallbackObject.h" #include "JSDataView.h" #include "JSDataViewPrototype.h" #include "JSFunction.h" #include "JSGenericTypedArrayViewConstructorInlines.h" #include "JSGenericTypedArrayViewInlines.h" #include "JSGenericTypedArrayViewPrototypeInlines.h" #include "JSGlobalObjectFunctions.h" #include "JSLock.h" #include "JSMap.h" #include "JSMapIterator.h" #include "JSNameScope.h" #include "JSONObject.h" #include "JSSet.h" #include "JSSetIterator.h" #include "JSTypedArrayConstructors.h" #include "JSTypedArrayPrototypes.h" #include "JSTypedArrays.h" #include "JSWeakMap.h" #include "JSWithScope.h" #include "LegacyProfiler.h" #include "Lookup.h" #include "MapConstructor.h" #include "MapIteratorConstructor.h" #include "MapIteratorPrototype.h" #include "MapPrototype.h" #include "MathObject.h" #include "Microtask.h" #include "NameConstructor.h" #include "NameInstance.h" #include "NamePrototype.h" #include "NativeErrorConstructor.h" #include "NativeErrorPrototype.h" #include "NumberConstructor.h" #include "NumberPrototype.h" #include "ObjCCallbackFunction.h" #include "ObjectConstructor.h" #include "ObjectPrototype.h" #include "Operations.h" #include "ParserError.h" #include "RegExpConstructor.h" #include "RegExpMatchesArray.h" #include "RegExpObject.h" #include "RegExpPrototype.h" #include "SetConstructor.h" #include "SetIteratorConstructor.h" #include "SetIteratorPrototype.h" #include "SetPrototype.h" #include "StrictEvalActivation.h" #include "StringConstructor.h" #include "StringPrototype.h" #include "WeakMapConstructor.h" #include "WeakMapPrototype.h" #if ENABLE(PROMISES) #include "JSPromise.h" #include "JSPromiseConstructor.h" #include "JSPromisePrototype.h" #endif // ENABLE(PROMISES) #if ENABLE(REMOTE_INSPECTOR) #include "JSGlobalObjectDebuggable.h" #include "RemoteInspector.h" #endif #include "JSGlobalObject.lut.h" namespace JSC { const ClassInfo JSGlobalObject::s_info = { "GlobalObject", &Base::s_info, 0, ExecState::globalObjectTable, CREATE_METHOD_TABLE(JSGlobalObject) }; const GlobalObjectMethodTable JSGlobalObject::s_globalObjectMethodTable = { &allowsAccessFrom, &supportsProfiling, &supportsRichSourceInfo, &shouldInterruptScript, &javaScriptExperimentsEnabled, 0, &shouldInterruptScriptBeforeTimeout }; /* Source for JSGlobalObject.lut.h @begin globalObjectTable parseInt globalFuncParseInt DontEnum|Function 2 parseFloat globalFuncParseFloat DontEnum|Function 1 isNaN globalFuncIsNaN DontEnum|Function 1 isFinite globalFuncIsFinite DontEnum|Function 1 escape globalFuncEscape DontEnum|Function 1 unescape globalFuncUnescape DontEnum|Function 1 decodeURI globalFuncDecodeURI DontEnum|Function 1 decodeURIComponent globalFuncDecodeURIComponent DontEnum|Function 1 encodeURI globalFuncEncodeURI DontEnum|Function 1 encodeURIComponent globalFuncEncodeURIComponent DontEnum|Function 1 @end */ JSGlobalObject::JSGlobalObject(VM& vm, Structure* structure, const GlobalObjectMethodTable* globalObjectMethodTable) : Base(vm, structure, 0) , m_masqueradesAsUndefinedWatchpoint(adoptRef(new WatchpointSet(IsWatched))) , m_havingABadTimeWatchpoint(adoptRef(new WatchpointSet(IsWatched))) , m_varInjectionWatchpoint(adoptRef(new WatchpointSet(IsWatched))) , m_weakRandom(Options::forceWeakRandomSeed() ? Options::forcedWeakRandomSeed() : static_cast(randomNumber() * (std::numeric_limits::max() + 1.0))) , m_evalEnabled(true) , m_globalObjectMethodTable(globalObjectMethodTable ? globalObjectMethodTable : &s_globalObjectMethodTable) { } JSGlobalObject::~JSGlobalObject() { if (m_debugger) m_debugger->detach(this, Debugger::GlobalObjectIsDestructing); if (LegacyProfiler* profiler = vm().enabledProfiler()) profiler->stopProfiling(this); } void JSGlobalObject::destroy(JSCell* cell) { static_cast(cell)->JSGlobalObject::~JSGlobalObject(); } void JSGlobalObject::setGlobalThis(VM& vm, JSObject* globalThis) { m_globalThis.set(vm, this, globalThis); } void JSGlobalObject::init(JSObject* thisValue) { ASSERT(vm().currentThreadIsHoldingAPILock()); setGlobalThis(vm(), thisValue); JSGlobalObject::globalExec()->init(0, 0, this, CallFrame::noCaller(), 0, 0); m_debugger = 0; #if ENABLE(REMOTE_INSPECTOR) m_inspectorDebuggable = std::make_unique(*this); m_inspectorDebuggable->init(); m_inspectorDebuggable->setRemoteDebuggingAllowed(true); #endif reset(prototype()); } void JSGlobalObject::put(JSCell* cell, ExecState* exec, PropertyName propertyName, JSValue value, PutPropertySlot& slot) { JSGlobalObject* thisObject = jsCast(cell); ASSERT(!Heap::heap(value) || Heap::heap(value) == Heap::heap(thisObject)); if (symbolTablePut(thisObject, exec, propertyName, value, slot.isStrictMode())) return; Base::put(thisObject, exec, propertyName, value, slot); } bool JSGlobalObject::defineOwnProperty(JSObject* object, ExecState* exec, PropertyName propertyName, const PropertyDescriptor& descriptor, bool shouldThrow) { JSGlobalObject* thisObject = jsCast(object); PropertySlot slot(thisObject); // silently ignore attempts to add accessors aliasing vars. if (descriptor.isAccessorDescriptor() && symbolTableGet(thisObject, propertyName, slot)) return false; return Base::defineOwnProperty(thisObject, exec, propertyName, descriptor, shouldThrow); } JSGlobalObject::NewGlobalVar JSGlobalObject::addGlobalVar(const Identifier& ident, ConstantMode constantMode) { ConcurrentJITLocker locker(symbolTable()->m_lock); int index = symbolTable()->size(locker); SymbolTableEntry newEntry(index, (constantMode == IsConstant) ? ReadOnly : 0); if (constantMode == IsVariable) newEntry.prepareToWatch(); SymbolTable::Map::AddResult result = symbolTable()->add(locker, ident.impl(), newEntry); if (result.isNewEntry) addRegisters(1); else index = result.iterator->value.getIndex(); NewGlobalVar var; var.registerNumber = index; var.set = result.iterator->value.watchpointSet(); return var; } void JSGlobalObject::addFunction(ExecState* exec, const Identifier& propertyName, JSValue value) { removeDirect(exec->vm(), propertyName); // Newly declared functions overwrite existing properties. NewGlobalVar var = addGlobalVar(propertyName, IsVariable); registerAt(var.registerNumber).set(exec->vm(), this, value); if (var.set) var.set->notifyWrite(value); } static inline JSObject* lastInPrototypeChain(JSObject* object) { JSObject* o = object; while (o->prototype().isObject()) o = asObject(o->prototype()); return o; } void JSGlobalObject::reset(JSValue prototype) { ExecState* exec = JSGlobalObject::globalExec(); VM& vm = exec->vm(); m_functionPrototype.set(vm, this, FunctionPrototype::create(vm, FunctionPrototype::createStructure(vm, this, jsNull()))); // The real prototype will be set once ObjectPrototype is created. m_functionStructure.set(vm, this, JSFunction::createStructure(vm, this, m_functionPrototype.get())); m_boundFunctionStructure.set(vm, this, JSBoundFunction::createStructure(vm, this, m_functionPrototype.get())); m_namedFunctionStructure.set(vm, this, Structure::addPropertyTransition(vm, m_functionStructure.get(), vm.propertyNames->name, DontDelete | ReadOnly | DontEnum, 0, m_functionNameOffset)); m_internalFunctionStructure.set(vm, this, InternalFunction::createStructure(vm, this, m_functionPrototype.get())); JSFunction* callFunction = 0; JSFunction* applyFunction = 0; m_functionPrototype->addFunctionProperties(exec, this, &callFunction, &applyFunction); m_callFunction.set(vm, this, callFunction); m_applyFunction.set(vm, this, applyFunction); m_objectPrototype.set(vm, this, ObjectPrototype::create(vm, this, ObjectPrototype::createStructure(vm, this, jsNull()))); GetterSetter* protoAccessor = GetterSetter::create(vm); protoAccessor->setGetter(vm, JSFunction::create(vm, this, 0, String(), globalFuncProtoGetter)); protoAccessor->setSetter(vm, JSFunction::create(vm, this, 0, String(), globalFuncProtoSetter)); m_objectPrototype->putDirectNonIndexAccessor(vm, vm.propertyNames->underscoreProto, protoAccessor, Accessor | DontEnum); m_functionPrototype->structure()->setPrototypeWithoutTransition(vm, m_objectPrototype.get()); m_typedArrays[toIndex(TypeInt8)].prototype.set(vm, this, JSInt8ArrayPrototype::create(vm, this, JSInt8ArrayPrototype::createStructure(vm, this, m_objectPrototype.get()))); m_typedArrays[toIndex(TypeInt16)].prototype.set(vm, this, JSInt16ArrayPrototype::create(vm, this, JSInt16ArrayPrototype::createStructure(vm, this, m_objectPrototype.get()))); m_typedArrays[toIndex(TypeInt32)].prototype.set(vm, this, JSInt32ArrayPrototype::create(vm, this, JSInt32ArrayPrototype::createStructure(vm, this, m_objectPrototype.get()))); m_typedArrays[toIndex(TypeUint8)].prototype.set(vm, this, JSUint8ArrayPrototype::create(vm, this, JSUint8ArrayPrototype::createStructure(vm, this, m_objectPrototype.get()))); m_typedArrays[toIndex(TypeUint8Clamped)].prototype.set(vm, this, JSUint8ClampedArrayPrototype::create(vm, this, JSUint8ClampedArrayPrototype::createStructure(vm, this, m_objectPrototype.get()))); m_typedArrays[toIndex(TypeUint16)].prototype.set(vm, this, JSUint16ArrayPrototype::create(vm, this, JSUint16ArrayPrototype::createStructure(vm, this, m_objectPrototype.get()))); m_typedArrays[toIndex(TypeUint32)].prototype.set(vm, this, JSUint32ArrayPrototype::create(vm, this, JSUint32ArrayPrototype::createStructure(vm, this, m_objectPrototype.get()))); m_typedArrays[toIndex(TypeFloat32)].prototype.set(vm, this, JSFloat32ArrayPrototype::create(vm, this, JSFloat32ArrayPrototype::createStructure(vm, this, m_objectPrototype.get()))); m_typedArrays[toIndex(TypeFloat64)].prototype.set(vm, this, JSFloat64ArrayPrototype::create(vm, this, JSFloat64ArrayPrototype::createStructure(vm, this, m_objectPrototype.get()))); m_typedArrays[toIndex(TypeDataView)].prototype.set(vm, this, JSDataViewPrototype::create(vm, JSDataViewPrototype::createStructure(vm, this, m_objectPrototype.get()))); m_typedArrays[toIndex(TypeInt8)].structure.set(vm, this, JSInt8Array::createStructure(vm, this, m_typedArrays[toIndex(TypeInt8)].prototype.get())); m_typedArrays[toIndex(TypeInt16)].structure.set(vm, this, JSInt16Array::createStructure(vm, this, m_typedArrays[toIndex(TypeInt16)].prototype.get())); m_typedArrays[toIndex(TypeInt32)].structure.set(vm, this, JSInt32Array::createStructure(vm, this, m_typedArrays[toIndex(TypeInt32)].prototype.get())); m_typedArrays[toIndex(TypeUint8)].structure.set(vm, this, JSUint8Array::createStructure(vm, this, m_typedArrays[toIndex(TypeUint8)].prototype.get())); m_typedArrays[toIndex(TypeUint8Clamped)].structure.set(vm, this, JSUint8ClampedArray::createStructure(vm, this, m_typedArrays[toIndex(TypeUint8Clamped)].prototype.get())); m_typedArrays[toIndex(TypeUint16)].structure.set(vm, this, JSUint16Array::createStructure(vm, this, m_typedArrays[toIndex(TypeUint16)].prototype.get())); m_typedArrays[toIndex(TypeUint32)].structure.set(vm, this, JSUint32Array::createStructure(vm, this, m_typedArrays[toIndex(TypeUint32)].prototype.get())); m_typedArrays[toIndex(TypeFloat32)].structure.set(vm, this, JSFloat32Array::createStructure(vm, this, m_typedArrays[toIndex(TypeFloat32)].prototype.get())); m_typedArrays[toIndex(TypeFloat64)].structure.set(vm, this, JSFloat64Array::createStructure(vm, this, m_typedArrays[toIndex(TypeFloat64)].prototype.get())); m_typedArrays[toIndex(TypeDataView)].structure.set(vm, this, JSDataView::createStructure(vm, this, m_typedArrays[toIndex(TypeDataView)].prototype.get())); m_nameScopeStructure.set(vm, this, JSNameScope::createStructure(vm, this, jsNull())); m_activationStructure.set(vm, this, JSActivation::createStructure(vm, this, jsNull())); m_strictEvalActivationStructure.set(vm, this, StrictEvalActivation::createStructure(vm, this, jsNull())); m_withScopeStructure.set(vm, this, JSWithScope::createStructure(vm, this, jsNull())); m_nullPrototypeObjectStructure.set(vm, this, JSFinalObject::createStructure(vm, this, jsNull(), JSFinalObject::defaultInlineCapacity())); m_callbackFunctionStructure.set(vm, this, JSCallbackFunction::createStructure(vm, this, m_functionPrototype.get())); m_argumentsStructure.set(vm, this, Arguments::createStructure(vm, this, m_objectPrototype.get())); m_callbackConstructorStructure.set(vm, this, JSCallbackConstructor::createStructure(vm, this, m_objectPrototype.get())); m_callbackObjectStructure.set(vm, this, JSCallbackObject::createStructure(vm, this, m_objectPrototype.get())); #if JSC_OBJC_API_ENABLED m_objcCallbackFunctionStructure.set(vm, this, ObjCCallbackFunction::createStructure(vm, this, m_functionPrototype.get())); m_objcWrapperObjectStructure.set(vm, this, JSCallbackObject::createStructure(vm, this, m_objectPrototype.get())); #endif m_arrayPrototype.set(vm, this, ArrayPrototype::create(vm, this, ArrayPrototype::createStructure(vm, this, m_objectPrototype.get()))); m_originalArrayStructureForIndexingShape[UndecidedShape >> IndexingShapeShift].set(vm, this, JSArray::createStructure(vm, this, m_arrayPrototype.get(), ArrayWithUndecided)); m_originalArrayStructureForIndexingShape[Int32Shape >> IndexingShapeShift].set(vm, this, JSArray::createStructure(vm, this, m_arrayPrototype.get(), ArrayWithInt32)); m_originalArrayStructureForIndexingShape[DoubleShape >> IndexingShapeShift].set(vm, this, JSArray::createStructure(vm, this, m_arrayPrototype.get(), ArrayWithDouble)); m_originalArrayStructureForIndexingShape[ContiguousShape >> IndexingShapeShift].set(vm, this, JSArray::createStructure(vm, this, m_arrayPrototype.get(), ArrayWithContiguous)); m_originalArrayStructureForIndexingShape[ArrayStorageShape >> IndexingShapeShift].set(vm, this, JSArray::createStructure(vm, this, m_arrayPrototype.get(), ArrayWithArrayStorage)); m_originalArrayStructureForIndexingShape[SlowPutArrayStorageShape >> IndexingShapeShift].set(vm, this, JSArray::createStructure(vm, this, m_arrayPrototype.get(), ArrayWithSlowPutArrayStorage)); for (unsigned i = 0; i < NumberOfIndexingShapes; ++i) m_arrayStructureForIndexingShapeDuringAllocation[i] = m_originalArrayStructureForIndexingShape[i]; m_regExpMatchesArrayStructure.set(vm, this, RegExpMatchesArray::createStructure(vm, this, m_arrayPrototype.get())); RegExp* emptyRegex = RegExp::create(vm, "", NoFlags); m_regExpPrototype.set(vm, this, RegExpPrototype::create(vm, RegExpPrototype::createStructure(vm, this, m_objectPrototype.get()), emptyRegex)); m_regExpStructure.set(vm, this, RegExpObject::createStructure(vm, this, m_regExpPrototype.get())); #if ENABLE(PROMISES) m_promisePrototype.set(vm, this, JSPromisePrototype::create(exec, this, JSPromisePrototype::createStructure(vm, this, m_objectPrototype.get()))); m_promiseStructure.set(vm, this, JSPromise::createStructure(vm, this, m_promisePrototype.get())); #endif // ENABLE(PROMISES) #define CREATE_PROTOTYPE_FOR_SIMPLE_TYPE(capitalName, lowerName, properName, instanceType, jsName) \ m_ ## lowerName ## Prototype.set(vm, this, capitalName##Prototype::create(vm, this, capitalName##Prototype::createStructure(vm, this, m_objectPrototype.get()))); \ m_ ## properName ## Structure.set(vm, this, instanceType::createStructure(vm, this, m_ ## lowerName ## Prototype.get())); FOR_EACH_SIMPLE_BUILTIN_TYPE(CREATE_PROTOTYPE_FOR_SIMPLE_TYPE) #undef CREATE_PROTOTYPE_FOR_SIMPLE_TYPE // Constructors JSCell* objectConstructor = ObjectConstructor::create(vm, ObjectConstructor::createStructure(vm, this, m_functionPrototype.get()), m_objectPrototype.get()); JSCell* functionConstructor = FunctionConstructor::create(vm, FunctionConstructor::createStructure(vm, this, m_functionPrototype.get()), m_functionPrototype.get()); JSCell* arrayConstructor = ArrayConstructor::create(vm, ArrayConstructor::createStructure(vm, this, m_functionPrototype.get()), m_arrayPrototype.get()); m_regExpConstructor.set(vm, this, RegExpConstructor::create(vm, RegExpConstructor::createStructure(vm, this, m_functionPrototype.get()), m_regExpPrototype.get())); #define CREATE_CONSTRUCTOR_FOR_SIMPLE_TYPE(capitalName, lowerName, properName, instanceType, jsName) \ capitalName ## Constructor* lowerName ## Constructor = capitalName ## Constructor::create(vm, capitalName ## Constructor::createStructure(vm, this, m_functionPrototype.get()), m_ ## lowerName ## Prototype.get()); \ m_ ## lowerName ## Prototype->putDirectWithoutTransition(vm, vm.propertyNames->constructor, lowerName ## Constructor, DontEnum); \ FOR_EACH_SIMPLE_BUILTIN_TYPE(CREATE_CONSTRUCTOR_FOR_SIMPLE_TYPE) #undef CREATE_CONSTRUCTOR_FOR_SIMPLE_TYPE m_errorConstructor.set(vm, this, errorConstructor); Structure* nativeErrorPrototypeStructure = NativeErrorPrototype::createStructure(vm, this, m_errorPrototype.get()); Structure* nativeErrorStructure = NativeErrorConstructor::createStructure(vm, this, m_functionPrototype.get()); m_evalErrorConstructor.set(vm, this, NativeErrorConstructor::create(vm, this, nativeErrorStructure, nativeErrorPrototypeStructure, ASCIILiteral("EvalError"))); m_rangeErrorConstructor.set(vm, this, NativeErrorConstructor::create(vm, this, nativeErrorStructure, nativeErrorPrototypeStructure, ASCIILiteral("RangeError"))); m_referenceErrorConstructor.set(vm, this, NativeErrorConstructor::create(vm, this, nativeErrorStructure, nativeErrorPrototypeStructure, ASCIILiteral("ReferenceError"))); m_syntaxErrorConstructor.set(vm, this, NativeErrorConstructor::create(vm, this, nativeErrorStructure, nativeErrorPrototypeStructure, ASCIILiteral("SyntaxError"))); m_typeErrorConstructor.set(vm, this, NativeErrorConstructor::create(vm, this, nativeErrorStructure, nativeErrorPrototypeStructure, ASCIILiteral("TypeError"))); m_URIErrorConstructor.set(vm, this, NativeErrorConstructor::create(vm, this, nativeErrorStructure, nativeErrorPrototypeStructure, ASCIILiteral("URIError"))); m_promiseConstructor.set(vm, this, JSPromiseConstructor::create(vm, JSPromiseConstructor::createStructure(vm, this, m_functionPrototype.get()), m_promisePrototype.get())); m_objectPrototype->putDirectWithoutTransition(vm, vm.propertyNames->constructor, objectConstructor, DontEnum); m_functionPrototype->putDirectWithoutTransition(vm, vm.propertyNames->constructor, functionConstructor, DontEnum); m_arrayPrototype->putDirectWithoutTransition(vm, vm.propertyNames->constructor, arrayConstructor, DontEnum); m_regExpPrototype->putDirectWithoutTransition(vm, vm.propertyNames->constructor, m_regExpConstructor.get(), DontEnum); #if ENABLE(PROMISES) m_promisePrototype->putDirectWithoutTransition(vm, vm.propertyNames->constructor, m_promiseConstructor.get(), DontEnum); #endif putDirectWithoutTransition(vm, vm.propertyNames->Object, objectConstructor, DontEnum); putDirectWithoutTransition(vm, vm.propertyNames->Function, functionConstructor, DontEnum); putDirectWithoutTransition(vm, vm.propertyNames->Array, arrayConstructor, DontEnum); putDirectWithoutTransition(vm, vm.propertyNames->RegExp, m_regExpConstructor.get(), DontEnum); putDirectWithoutTransition(vm, vm.propertyNames->EvalError, m_evalErrorConstructor.get(), DontEnum); putDirectWithoutTransition(vm, vm.propertyNames->RangeError, m_rangeErrorConstructor.get(), DontEnum); putDirectWithoutTransition(vm, vm.propertyNames->ReferenceError, m_referenceErrorConstructor.get(), DontEnum); putDirectWithoutTransition(vm, vm.propertyNames->SyntaxError, m_syntaxErrorConstructor.get(), DontEnum); putDirectWithoutTransition(vm, vm.propertyNames->TypeError, m_typeErrorConstructor.get(), DontEnum); putDirectWithoutTransition(vm, vm.propertyNames->URIError, m_URIErrorConstructor.get(), DontEnum); putDirectWithoutTransition(vm, vm.propertyNames->Promise, m_promiseConstructor.get(), DontEnum); #define PUT_CONSTRUCTOR_FOR_SIMPLE_TYPE(capitalName, lowerName, properName, instanceType, jsName) \ putDirectWithoutTransition(vm, vm.propertyNames-> jsName, lowerName ## Constructor, DontEnum); \ FOR_EACH_SIMPLE_BUILTIN_TYPE(PUT_CONSTRUCTOR_FOR_SIMPLE_TYPE) #undef PUT_CONSTRUCTOR_FOR_SIMPLE_TYPE PrototypeMap& prototypeMap = vm.prototypeMap; Structure* iteratorResultStructure = prototypeMap.emptyObjectStructureForPrototype(m_objectPrototype.get(), JSFinalObject::defaultInlineCapacity()); PropertyOffset offset; iteratorResultStructure = Structure::addPropertyTransition(vm, iteratorResultStructure, vm.propertyNames->done, 0, 0, offset); iteratorResultStructure = Structure::addPropertyTransition(vm, iteratorResultStructure, vm.propertyNames->value, 0, 0, offset); m_iteratorResultStructure.set(vm, this, iteratorResultStructure); m_evalFunction.set(vm, this, JSFunction::create(vm, this, 1, vm.propertyNames->eval.string(), globalFuncEval)); putDirectWithoutTransition(vm, vm.propertyNames->eval, m_evalFunction.get(), DontEnum); putDirectWithoutTransition(vm, vm.propertyNames->JSON, JSONObject::create(vm, JSONObject::createStructure(vm, this, m_objectPrototype.get())), DontEnum); putDirectWithoutTransition(vm, vm.propertyNames->Math, MathObject::create(vm, this, MathObject::createStructure(vm, this, m_objectPrototype.get())), DontEnum); std::array typedArrayConstructors; typedArrayConstructors[toIndex(TypeInt8)] = JSInt8ArrayConstructor::create(vm, JSInt8ArrayConstructor::createStructure(vm, this, m_functionPrototype.get()), m_typedArrays[toIndex(TypeInt8)].prototype.get(), "Int8Array"); typedArrayConstructors[toIndex(TypeInt16)] = JSInt16ArrayConstructor::create(vm, JSInt16ArrayConstructor::createStructure(vm, this, m_functionPrototype.get()), m_typedArrays[toIndex(TypeInt16)].prototype.get(), "Int16Array"); typedArrayConstructors[toIndex(TypeInt32)] = JSInt32ArrayConstructor::create(vm, JSInt32ArrayConstructor::createStructure(vm, this, m_functionPrototype.get()), m_typedArrays[toIndex(TypeInt32)].prototype.get(), "Int32Array"); typedArrayConstructors[toIndex(TypeUint8)] = JSUint8ArrayConstructor::create(vm, JSUint8ArrayConstructor::createStructure(vm, this, m_functionPrototype.get()), m_typedArrays[toIndex(TypeUint8)].prototype.get(), "Uint8Array"); typedArrayConstructors[toIndex(TypeUint8Clamped)] = JSUint8ClampedArrayConstructor::create(vm, JSUint8ClampedArrayConstructor::createStructure(vm, this, m_functionPrototype.get()), m_typedArrays[toIndex(TypeUint8Clamped)].prototype.get(), "Uint8ClampedArray"); typedArrayConstructors[toIndex(TypeUint16)] = JSUint16ArrayConstructor::create(vm, JSUint16ArrayConstructor::createStructure(vm, this, m_functionPrototype.get()), m_typedArrays[toIndex(TypeUint16)].prototype.get(), "Uint16Array"); typedArrayConstructors[toIndex(TypeUint32)] = JSUint32ArrayConstructor::create(vm, JSUint32ArrayConstructor::createStructure(vm, this, m_functionPrototype.get()), m_typedArrays[toIndex(TypeUint32)].prototype.get(), "Uint32Array"); typedArrayConstructors[toIndex(TypeFloat32)] = JSFloat32ArrayConstructor::create(vm, JSFloat32ArrayConstructor::createStructure(vm, this, m_functionPrototype.get()), m_typedArrays[toIndex(TypeFloat32)].prototype.get(), "Float32Array"); typedArrayConstructors[toIndex(TypeFloat64)] = JSFloat64ArrayConstructor::create(vm, JSFloat64ArrayConstructor::createStructure(vm, this, m_functionPrototype.get()), m_typedArrays[toIndex(TypeFloat64)].prototype.get(), "Float64Array"); typedArrayConstructors[toIndex(TypeDataView)] = JSDataViewConstructor::create(vm, JSDataViewConstructor::createStructure(vm, this, m_functionPrototype.get()), m_typedArrays[toIndex(TypeDataView)].prototype.get(), "DataView"); for (unsigned typedArrayIndex = NUMBER_OF_TYPED_ARRAY_TYPES; typedArrayIndex--;) { m_typedArrays[typedArrayIndex].prototype->putDirectWithoutTransition(vm, vm.propertyNames->constructor, typedArrayConstructors[typedArrayIndex], DontEnum); putDirectWithoutTransition(vm, Identifier(exec, typedArrayConstructors[typedArrayIndex]->name(exec)), typedArrayConstructors[typedArrayIndex], DontEnum); } GlobalPropertyInfo staticGlobals[] = { GlobalPropertyInfo(vm.propertyNames->NaN, jsNaN(), DontEnum | DontDelete | ReadOnly), GlobalPropertyInfo(vm.propertyNames->Infinity, jsNumber(std::numeric_limits::infinity()), DontEnum | DontDelete | ReadOnly), GlobalPropertyInfo(vm.propertyNames->undefinedKeyword, jsUndefined(), DontEnum | DontDelete | ReadOnly) }; addStaticGlobals(staticGlobals, WTF_ARRAY_LENGTH(staticGlobals)); m_specialPointers[Special::CallFunction] = m_callFunction.get(); m_specialPointers[Special::ApplyFunction] = m_applyFunction.get(); m_specialPointers[Special::ObjectConstructor] = objectConstructor; m_specialPointers[Special::ArrayConstructor] = arrayConstructor; if (m_experimentsEnabled) { NamePrototype* privateNamePrototype = NamePrototype::create(exec, NamePrototype::createStructure(vm, this, m_objectPrototype.get())); m_privateNameStructure.set(vm, this, NameInstance::createStructure(vm, this, privateNamePrototype)); JSCell* privateNameConstructor = NameConstructor::create(vm, NameConstructor::createStructure(vm, this, m_functionPrototype.get()), privateNamePrototype); privateNamePrototype->putDirectWithoutTransition(vm, vm.propertyNames->constructor, privateNameConstructor, DontEnum); putDirectWithoutTransition(vm, Identifier(exec, "Name"), privateNameConstructor, DontEnum); } resetPrototype(vm, prototype); } // Private namespace for helpers for JSGlobalObject::haveABadTime() namespace { class ObjectsWithBrokenIndexingFinder : public MarkedBlock::VoidFunctor { public: ObjectsWithBrokenIndexingFinder(MarkedArgumentBuffer&, JSGlobalObject*); void operator()(JSCell*); private: MarkedArgumentBuffer& m_foundObjects; JSGlobalObject* m_globalObject; }; ObjectsWithBrokenIndexingFinder::ObjectsWithBrokenIndexingFinder( MarkedArgumentBuffer& foundObjects, JSGlobalObject* globalObject) : m_foundObjects(foundObjects) , m_globalObject(globalObject) { } inline bool hasBrokenIndexing(JSObject* object) { // This will change if we have more indexing types. IndexingType type = object->structure()->indexingType(); // This could be made obviously more efficient, but isn't made so right now, because // we expect this to be an unlikely slow path anyway. return hasUndecided(type) || hasInt32(type) || hasDouble(type) || hasContiguous(type) || hasFastArrayStorage(type); } void ObjectsWithBrokenIndexingFinder::operator()(JSCell* cell) { if (!cell->isObject()) return; JSObject* object = asObject(cell); // Run this filter first, since it's cheap, and ought to filter out a lot of objects. if (!hasBrokenIndexing(object)) return; // We only want to have a bad time in the affected global object, not in the entire // VM. But we have to be careful, since there may be objects that claim to belong to // a different global object that have prototypes from our global object. bool foundGlobalObject = false; for (JSObject* current = object; ;) { if (current->globalObject() == m_globalObject) { foundGlobalObject = true; break; } JSValue prototypeValue = current->prototype(); if (prototypeValue.isNull()) break; current = asObject(prototypeValue); } if (!foundGlobalObject) return; m_foundObjects.append(object); } } // end private namespace for helpers for JSGlobalObject::haveABadTime() void JSGlobalObject::haveABadTime(VM& vm) { ASSERT(&vm == &this->vm()); if (isHavingABadTime()) return; // Make sure that all allocations or indexed storage transitions that are inlining // the assumption that it's safe to transition to a non-SlowPut array storage don't // do so anymore. m_havingABadTimeWatchpoint->fireAll(); ASSERT(isHavingABadTime()); // The watchpoint is what tells us that we're having a bad time. // Make sure that all JSArray allocations that load the appropriate structure from // this object now load a structure that uses SlowPut. for (unsigned i = 0; i < NumberOfIndexingShapes; ++i) m_arrayStructureForIndexingShapeDuringAllocation[i].set(vm, this, originalArrayStructureForIndexingType(ArrayWithSlowPutArrayStorage)); // Make sure that all objects that have indexed storage switch to the slow kind of // indexed storage. MarkedArgumentBuffer foundObjects; // Use MarkedArgumentBuffer because switchToSlowPutArrayStorage() may GC. ObjectsWithBrokenIndexingFinder finder(foundObjects, this); { HeapIterationScope iterationScope(vm.heap); vm.heap.objectSpace().forEachLiveCell(iterationScope, finder); } while (!foundObjects.isEmpty()) { JSObject* object = asObject(foundObjects.last()); foundObjects.removeLast(); ASSERT(hasBrokenIndexing(object)); object->switchToSlowPutArrayStorage(vm); } } bool JSGlobalObject::objectPrototypeIsSane() { return !hasIndexedProperties(m_objectPrototype->structure()->indexingType()) && m_objectPrototype->prototype().isNull(); } bool JSGlobalObject::arrayPrototypeChainIsSane() { return !hasIndexedProperties(m_arrayPrototype->structure()->indexingType()) && m_arrayPrototype->prototype() == m_objectPrototype.get() && objectPrototypeIsSane(); } bool JSGlobalObject::stringPrototypeChainIsSane() { return !hasIndexedProperties(m_stringPrototype->structure()->indexingType()) && m_stringPrototype->prototype() == m_objectPrototype.get() && objectPrototypeIsSane(); } void JSGlobalObject::createThrowTypeError(VM& vm) { JSFunction* thrower = JSFunction::create(vm, this, 0, String(), globalFuncThrowTypeError); GetterSetter* getterSetter = GetterSetter::create(vm); getterSetter->setGetter(vm, thrower); getterSetter->setSetter(vm, thrower); m_throwTypeErrorGetterSetter.set(vm, this, getterSetter); } // Set prototype, and also insert the object prototype at the end of the chain. void JSGlobalObject::resetPrototype(VM& vm, JSValue prototype) { setPrototype(vm, prototype); JSObject* oldLastInPrototypeChain = lastInPrototypeChain(this); JSObject* objectPrototype = m_objectPrototype.get(); if (oldLastInPrototypeChain != objectPrototype) oldLastInPrototypeChain->setPrototype(vm, objectPrototype); } void JSGlobalObject::visitChildren(JSCell* cell, SlotVisitor& visitor) { JSGlobalObject* thisObject = jsCast(cell); ASSERT_GC_OBJECT_INHERITS(thisObject, info()); COMPILE_ASSERT(StructureFlags & OverridesVisitChildren, OverridesVisitChildrenWithoutSettingFlag); ASSERT(thisObject->structure()->typeInfo().overridesVisitChildren()); Base::visitChildren(thisObject, visitor); visitor.append(&thisObject->m_globalThis); visitor.append(&thisObject->m_regExpConstructor); visitor.append(&thisObject->m_errorConstructor); visitor.append(&thisObject->m_evalErrorConstructor); visitor.append(&thisObject->m_rangeErrorConstructor); visitor.append(&thisObject->m_referenceErrorConstructor); visitor.append(&thisObject->m_syntaxErrorConstructor); visitor.append(&thisObject->m_typeErrorConstructor); visitor.append(&thisObject->m_URIErrorConstructor); visitor.append(&thisObject->m_promiseConstructor); visitor.append(&thisObject->m_evalFunction); visitor.append(&thisObject->m_callFunction); visitor.append(&thisObject->m_applyFunction); visitor.append(&thisObject->m_throwTypeErrorGetterSetter); visitor.append(&thisObject->m_objectPrototype); visitor.append(&thisObject->m_functionPrototype); visitor.append(&thisObject->m_arrayPrototype); visitor.append(&thisObject->m_errorPrototype); #if ENABLE(PROMISES) visitor.append(&thisObject->m_promisePrototype); #endif visitor.append(&thisObject->m_withScopeStructure); visitor.append(&thisObject->m_strictEvalActivationStructure); visitor.append(&thisObject->m_activationStructure); visitor.append(&thisObject->m_nameScopeStructure); visitor.append(&thisObject->m_argumentsStructure); for (unsigned i = 0; i < NumberOfIndexingShapes; ++i) visitor.append(&thisObject->m_originalArrayStructureForIndexingShape[i]); for (unsigned i = 0; i < NumberOfIndexingShapes; ++i) visitor.append(&thisObject->m_arrayStructureForIndexingShapeDuringAllocation[i]); visitor.append(&thisObject->m_booleanObjectStructure); visitor.append(&thisObject->m_callbackConstructorStructure); visitor.append(&thisObject->m_callbackFunctionStructure); visitor.append(&thisObject->m_callbackObjectStructure); #if JSC_OBJC_API_ENABLED visitor.append(&thisObject->m_objcCallbackFunctionStructure); visitor.append(&thisObject->m_objcWrapperObjectStructure); #endif visitor.append(&thisObject->m_nullPrototypeObjectStructure); visitor.append(&thisObject->m_errorStructure); visitor.append(&thisObject->m_functionStructure); visitor.append(&thisObject->m_boundFunctionStructure); visitor.append(&thisObject->m_namedFunctionStructure); visitor.append(&thisObject->m_privateNameStructure); visitor.append(&thisObject->m_regExpMatchesArrayStructure); visitor.append(&thisObject->m_regExpStructure); visitor.append(&thisObject->m_internalFunctionStructure); #if ENABLE(PROMISES) visitor.append(&thisObject->m_promiseStructure); #endif // ENABLE(PROMISES) #define VISIT_SIMPLE_TYPE(CapitalName, lowerName, properName, instanceType, jsName) \ visitor.append(&thisObject->m_ ## lowerName ## Prototype); \ visitor.append(&thisObject->m_ ## properName ## Structure); \ FOR_EACH_SIMPLE_BUILTIN_TYPE(VISIT_SIMPLE_TYPE) #undef VISIT_SIMPLE_TYPE for (unsigned i = NUMBER_OF_TYPED_ARRAY_TYPES; i--;) { visitor.append(&thisObject->m_typedArrays[i].prototype); visitor.append(&thisObject->m_typedArrays[i].structure); } } JSValue JSGlobalObject::toThis(JSCell*, ExecState* exec, ECMAMode ecmaMode) { if (ecmaMode == StrictMode) return jsUndefined(); return exec->globalThisValue(); } ExecState* JSGlobalObject::globalExec() { return CallFrame::create(m_globalCallFrame); } void JSGlobalObject::addStaticGlobals(GlobalPropertyInfo* globals, int count) { addRegisters(count); for (int i = 0; i < count; ++i) { GlobalPropertyInfo& global = globals[i]; ASSERT(global.attributes & DontDelete); int index = symbolTable()->size(); SymbolTableEntry newEntry(index, global.attributes); symbolTable()->add(global.identifier.impl(), newEntry); registerAt(index).set(vm(), this, global.value); } } bool JSGlobalObject::getOwnPropertySlot(JSObject* object, ExecState* exec, PropertyName propertyName, PropertySlot& slot) { JSGlobalObject* thisObject = jsCast(object); if (getStaticFunctionSlot(exec, ExecState::globalObjectTable(exec->vm()), thisObject, propertyName, slot)) return true; return symbolTableGet(thisObject, propertyName, slot); } void JSGlobalObject::clearRareData(JSCell* cell) { jsCast(cell)->m_rareData.clear(); } void slowValidateCell(JSGlobalObject* globalObject) { RELEASE_ASSERT(globalObject->isGlobalObject()); ASSERT_GC_OBJECT_INHERITS(globalObject, JSGlobalObject::info()); } UnlinkedProgramCodeBlock* JSGlobalObject::createProgramCodeBlock(CallFrame* callFrame, ProgramExecutable* executable, JSObject** exception) { ParserError error; JSParserStrictness strictness = executable->isStrictMode() ? JSParseStrict : JSParseNormal; DebuggerMode debuggerMode = hasDebugger() ? DebuggerOn : DebuggerOff; ProfilerMode profilerMode = hasProfiler() ? ProfilerOn : ProfilerOff; UnlinkedProgramCodeBlock* unlinkedCodeBlock = vm().codeCache()->getProgramCodeBlock(vm(), executable, executable->source(), strictness, debuggerMode, profilerMode, error); if (hasDebugger()) debugger()->sourceParsed(callFrame, executable->source().provider(), error.m_line, error.m_message); if (error.m_type != ParserError::ErrorNone) { *exception = error.toErrorObject(this, executable->source()); return 0; } return unlinkedCodeBlock; } UnlinkedEvalCodeBlock* JSGlobalObject::createEvalCodeBlock(CallFrame* callFrame, EvalExecutable* executable) { ParserError error; JSParserStrictness strictness = executable->isStrictMode() ? JSParseStrict : JSParseNormal; DebuggerMode debuggerMode = hasDebugger() ? DebuggerOn : DebuggerOff; ProfilerMode profilerMode = hasProfiler() ? ProfilerOn : ProfilerOff; UnlinkedEvalCodeBlock* unlinkedCodeBlock = vm().codeCache()->getEvalCodeBlock(vm(), executable, executable->source(), strictness, debuggerMode, profilerMode, error); if (hasDebugger()) debugger()->sourceParsed(callFrame, executable->source().provider(), error.m_line, error.m_message); if (error.m_type != ParserError::ErrorNone) { throwVMError(callFrame, error.toErrorObject(this, executable->source())); return 0; } return unlinkedCodeBlock; } void JSGlobalObject::setRemoteDebuggingEnabled(bool enabled) { #if ENABLE(REMOTE_INSPECTOR) m_inspectorDebuggable->setRemoteDebuggingAllowed(enabled); #else UNUSED_PARAM(enabled); #endif } bool JSGlobalObject::remoteDebuggingEnabled() const { #if ENABLE(REMOTE_INSPECTOR) return m_inspectorDebuggable->remoteDebuggingAllowed(); #else return false; #endif } void JSGlobalObject::setName(const String& name) { m_name = name; #if ENABLE(REMOTE_INSPECTOR) m_inspectorDebuggable->update(); #endif } void JSGlobalObject::queueMicrotask(PassRefPtr task) { if (globalObjectMethodTable()->queueTaskToEventLoop) globalObjectMethodTable()->queueTaskToEventLoop(this, task); else WTFLogAlways("ERROR: Event loop not supported."); } } // namespace JSC