/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*- * vim: set ts=8 sts=4 et sw=4 tw=99: * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #ifndef vm_GlobalObject_h #define vm_GlobalObject_h #include "jsarray.h" #include "jsbool.h" #include "jsexn.h" #include "jsfun.h" #include "jsnum.h" #include "builtin/RegExp.h" #include "js/Vector.h" #include "vm/ArrayBufferObject.h" #include "vm/ErrorObject.h" #include "vm/RegExpStatics.h" #include "vm/Runtime.h" namespace js { class Debugger; class TypedObjectModuleObject; class LexicalEnvironmentObject; class SimdTypeDescr; enum class SimdType; /* * Global object slots are reserved as follows: * * [0, APPLICATION_SLOTS) * Pre-reserved slots in all global objects set aside for the embedding's * use. As with all reserved slots these start out as UndefinedValue() and * are traced for GC purposes. Apart from that the engine never touches * these slots, so the embedding can do whatever it wants with them. * [APPLICATION_SLOTS, APPLICATION_SLOTS + JSProto_LIMIT) * Stores the original value of the constructor for the corresponding * JSProtoKey. * [APPLICATION_SLOTS + JSProto_LIMIT, APPLICATION_SLOTS + 2 * JSProto_LIMIT) * Stores the prototype, if any, for the constructor for the corresponding * JSProtoKey offset from JSProto_LIMIT. * [APPLICATION_SLOTS + 2 * JSProto_LIMIT, RESERVED_SLOTS) * Various one-off values: ES5 13.2.3's [[ThrowTypeError]], RegExp statics, * the original eval for this global object (implementing |var eval = * otherWindow.eval; eval(...)| as an indirect eval), a bit indicating * whether this object has been cleared (see JS_ClearScope), and a cache for * whether eval is allowed (per the global's Content Security Policy). * * The two JSProto_LIMIT-sized ranges are necessary to implement * js::FindClassObject, and spec language speaking in terms of "the original * Array prototype object", or "as if by the expression new Array()" referring * to the original Array constructor. The actual (writable and even deletable) * Object, Array, &c. properties are not stored in reserved slots. */ class GlobalObject : public NativeObject { /* Count of slots set aside for application use. */ static const unsigned APPLICATION_SLOTS = JSCLASS_GLOBAL_APPLICATION_SLOTS; /* * Count of slots to store built-in prototypes and initial visible * properties for the constructors. */ static const unsigned STANDARD_CLASS_SLOTS = JSProto_LIMIT * 2; enum : unsigned { /* Various function values needed by the engine. */ EVAL = APPLICATION_SLOTS + STANDARD_CLASS_SLOTS, CREATE_DATAVIEW_FOR_THIS, THROWTYPEERROR, /* * Instances of the internal createArrayFromBuffer function used by the * typed array code, one per typed array element type. */ FROM_BUFFER_UINT8, FROM_BUFFER_INT8, FROM_BUFFER_UINT16, FROM_BUFFER_INT16, FROM_BUFFER_UINT32, FROM_BUFFER_INT32, FROM_BUFFER_FLOAT32, FROM_BUFFER_FLOAT64, FROM_BUFFER_UINT8CLAMPED, /* One-off properties stored after slots for built-ins. */ LEXICAL_ENVIRONMENT, EMPTY_GLOBAL_SCOPE, ITERATOR_PROTO, ARRAY_ITERATOR_PROTO, STRING_ITERATOR_PROTO, REGEXP_STRING_ITERATOR_PROTO, LEGACY_GENERATOR_OBJECT_PROTO, STAR_GENERATOR_OBJECT_PROTO, STAR_GENERATOR_FUNCTION_PROTO, STAR_GENERATOR_FUNCTION, ASYNC_FUNCTION_PROTO, ASYNC_FUNCTION, ASYNC_ITERATOR_PROTO, ASYNC_FROM_SYNC_ITERATOR_PROTO, ASYNC_GENERATOR, ASYNC_GENERATOR_FUNCTION, ASYNC_GENERATOR_PROTO, MAP_ITERATOR_PROTO, SET_ITERATOR_PROTO, COLLATOR_PROTO, NUMBER_FORMAT_PROTO, DATE_TIME_FORMAT_PROTO, MODULE_PROTO, IMPORT_ENTRY_PROTO, EXPORT_ENTRY_PROTO, REGEXP_STATICS, WARNED_ONCE_FLAGS, RUNTIME_CODEGEN_ENABLED, DEBUGGERS, INTRINSICS, FOR_OF_PIC_CHAIN, WINDOW_PROXY, GLOBAL_THIS_RESOLVED, /* Total reserved-slot count for global objects. */ RESERVED_SLOTS }; /* * The slot count must be in the public API for JSCLASS_GLOBAL_FLAGS, and * we won't expose GlobalObject, so just assert that the two values are * synchronized. */ static_assert(JSCLASS_GLOBAL_SLOT_COUNT == RESERVED_SLOTS, "global object slot counts are inconsistent"); enum WarnOnceFlag : int32_t { WARN_WATCH_DEPRECATED = 1 << 0, WARN_ARRAYBUFFER_SLICE_DEPRECATED = 1 << 1, }; // Emit the specified warning if the given slot in |obj|'s global isn't // true, then set the slot to true. Thus calling this method warns once // for each global object it's called on, and every other call does // nothing. static bool warnOnceAbout(JSContext* cx, HandleObject obj, WarnOnceFlag flag, unsigned errorNumber); public: LexicalEnvironmentObject& lexicalEnvironment() const; GlobalScope& emptyGlobalScope() const; void setThrowTypeError(JSFunction* fun) { MOZ_ASSERT(getSlotRef(THROWTYPEERROR).isUndefined()); setSlot(THROWTYPEERROR, ObjectValue(*fun)); } void setOriginalEval(JSObject* evalobj) { MOZ_ASSERT(getSlotRef(EVAL).isUndefined()); setSlot(EVAL, ObjectValue(*evalobj)); } Value getConstructor(JSProtoKey key) const { MOZ_ASSERT(key <= JSProto_LIMIT); return getSlot(APPLICATION_SLOTS + key); } static bool skipDeselectedConstructor(JSContext* cx, JSProtoKey key); static bool ensureConstructor(JSContext* cx, Handle global, JSProtoKey key); static bool resolveConstructor(JSContext* cx, Handle global, JSProtoKey key); static bool initBuiltinConstructor(JSContext* cx, Handle global, JSProtoKey key, HandleObject ctor, HandleObject proto); static bool maybeResolveGlobalThis(JSContext* cx, Handle global, bool* resolved); void setConstructor(JSProtoKey key, const Value& v) { MOZ_ASSERT(key <= JSProto_LIMIT); setSlot(APPLICATION_SLOTS + key, v); } Value getPrototype(JSProtoKey key) const { MOZ_ASSERT(key <= JSProto_LIMIT); return getSlot(APPLICATION_SLOTS + JSProto_LIMIT + key); } void setPrototype(JSProtoKey key, const Value& value) { MOZ_ASSERT(key <= JSProto_LIMIT); setSlot(APPLICATION_SLOTS + JSProto_LIMIT + key, value); } bool classIsInitialized(JSProtoKey key) const { bool inited = !getConstructor(key).isUndefined(); MOZ_ASSERT(inited == !getPrototype(key).isUndefined()); return inited; } bool functionObjectClassesInitialized() const { bool inited = classIsInitialized(JSProto_Function); MOZ_ASSERT(inited == classIsInitialized(JSProto_Object)); return inited; } /* * Lazy standard classes need a way to indicate they have been initialized. * Otherwise, when we delete them, we might accidentally recreate them via * a lazy initialization. We use the presence of an object in the * getConstructor(key) reserved slot to indicate that they've been * initialized. * * Note: A few builtin objects, like JSON and Math, are not constructors, * so getConstructor is a bit of a misnomer. */ bool isStandardClassResolved(JSProtoKey key) const { // If the constructor is undefined, then it hasn't been initialized. MOZ_ASSERT(getConstructor(key).isUndefined() || getConstructor(key).isObject()); return !getConstructor(key).isUndefined(); } /* * Using a Handle as a Handle is always safe as * GlobalObject derives JSObject. However, with C++'s semantics, Handle * is not related to Handle, independent of how S and T are related. * Further, Handle stores an indirect pointer and, again because of C++'s * semantics, T** is not related to S**, independent of how S and T are * related. Since we know that this specific case is safe, we provide a * manual upcast operation here to do the reinterpret_cast in a known-safe * manner. */ static HandleObject upcast(Handle global) { return HandleObject::fromMarkedLocation( reinterpret_cast(global.address())); } private: bool arrayClassInitialized() const { return classIsInitialized(JSProto_Array); } bool booleanClassInitialized() const { return classIsInitialized(JSProto_Boolean); } bool numberClassInitialized() const { return classIsInitialized(JSProto_Number); } bool stringClassInitialized() const { return classIsInitialized(JSProto_String); } bool regexpClassInitialized() const { return classIsInitialized(JSProto_RegExp); } bool arrayBufferClassInitialized() const { return classIsInitialized(JSProto_ArrayBuffer); } bool sharedArrayBufferClassInitialized() const { return classIsInitialized(JSProto_SharedArrayBuffer); } bool errorClassesInitialized() const { return classIsInitialized(JSProto_Error); } bool dataViewClassInitialized() const { return classIsInitialized(JSProto_DataView); } Value createArrayFromBufferHelper(uint32_t slot) const { MOZ_ASSERT(FROM_BUFFER_UINT8 <= slot && slot <= FROM_BUFFER_UINT8CLAMPED); return getSlot(slot); } void setCreateArrayFromBufferHelper(uint32_t slot, Handle fun) { MOZ_ASSERT(getSlotRef(slot).isUndefined()); setSlot(slot, ObjectValue(*fun)); } public: /* XXX Privatize me! */ void setCreateDataViewForThis(Handle fun) { MOZ_ASSERT(getSlotRef(CREATE_DATAVIEW_FOR_THIS).isUndefined()); setSlot(CREATE_DATAVIEW_FOR_THIS, ObjectValue(*fun)); } template inline void setCreateArrayFromBuffer(Handle fun); private: // Disallow use of unqualified JSObject::create in GlobalObject. static GlobalObject* create(...) = delete; friend struct ::JSRuntime; static GlobalObject* createInternal(JSContext* cx, const Class* clasp); public: static GlobalObject* new_(JSContext* cx, const Class* clasp, JSPrincipals* principals, JS::OnNewGlobalHookOption hookOption, const JS::CompartmentOptions& options); /* * Create a constructor function with the specified name and length using * ctor, a method which creates objects with the given class. */ static JSFunction* createConstructor(JSContext* cx, JSNative ctor, JSAtom* name, unsigned length, gc::AllocKind kind = gc::AllocKind::FUNCTION, const JSJitInfo* jitInfo = nullptr); /* * Create an object to serve as [[Prototype]] for instances of the given * class, using |Object.prototype| as its [[Prototype]]. Users creating * prototype objects with particular internal structure (e.g. reserved * slots guaranteed to contain values of particular types) must immediately * complete the minimal initialization to make the returned object safe to * touch. */ static NativeObject* createBlankPrototype(JSContext* cx, Handle global, const js::Class* clasp); /* * Identical to createBlankPrototype, but uses proto as the [[Prototype]] * of the returned blank prototype. */ static NativeObject* createBlankPrototypeInheriting(JSContext* cx, Handle global, const js::Class* clasp, HandleObject proto); template static T* createBlankPrototype(JSContext* cx, Handle global) { NativeObject* res = createBlankPrototype(cx, global, &T::class_); return res ? &res->template as() : nullptr; } static NativeObject* getOrCreateObjectPrototype(JSContext* cx, Handle global) { if (global->functionObjectClassesInitialized()) return &global->getPrototype(JSProto_Object).toObject().as(); if (!ensureConstructor(cx, global, JSProto_Object)) return nullptr; return &global->getPrototype(JSProto_Object).toObject().as(); } static NativeObject* getOrCreateFunctionPrototype(JSContext* cx, Handle global) { if (global->functionObjectClassesInitialized()) return &global->getPrototype(JSProto_Function).toObject().as(); if (!ensureConstructor(cx, global, JSProto_Object)) return nullptr; return &global->getPrototype(JSProto_Function).toObject().as(); } static NativeObject* getOrCreateArrayPrototype(JSContext* cx, Handle global) { if (!ensureConstructor(cx, global, JSProto_Array)) return nullptr; return &global->getPrototype(JSProto_Array).toObject().as(); } NativeObject* maybeGetArrayPrototype() { if (arrayClassInitialized()) return &getPrototype(JSProto_Array).toObject().as(); return nullptr; } static NativeObject* getOrCreateBooleanPrototype(JSContext* cx, Handle global) { if (!ensureConstructor(cx, global, JSProto_Boolean)) return nullptr; return &global->getPrototype(JSProto_Boolean).toObject().as(); } static NativeObject* getOrCreateNumberPrototype(JSContext* cx, Handle global) { if (!ensureConstructor(cx, global, JSProto_Number)) return nullptr; return &global->getPrototype(JSProto_Number).toObject().as(); } static NativeObject* getOrCreateStringPrototype(JSContext* cx, Handle global) { if (!ensureConstructor(cx, global, JSProto_String)) return nullptr; return &global->getPrototype(JSProto_String).toObject().as(); } static NativeObject* getOrCreateSymbolPrototype(JSContext* cx, Handle global) { if (!ensureConstructor(cx, global, JSProto_Symbol)) return nullptr; return &global->getPrototype(JSProto_Symbol).toObject().as(); } static NativeObject* getOrCreatePromisePrototype(JSContext* cx, Handle global) { if (!ensureConstructor(cx, global, JSProto_Promise)) return nullptr; return &global->getPrototype(JSProto_Promise).toObject().as(); } static NativeObject* getOrCreateRegExpPrototype(JSContext* cx, Handle global) { if (!ensureConstructor(cx, global, JSProto_RegExp)) return nullptr; return &global->getPrototype(JSProto_RegExp).toObject().as(); } JSObject* maybeGetRegExpPrototype() { if (regexpClassInitialized()) return &getPrototype(JSProto_RegExp).toObject(); return nullptr; } static NativeObject* getOrCreateSavedFramePrototype(JSContext* cx, Handle global) { if (!ensureConstructor(cx, global, JSProto_SavedFrame)) return nullptr; return &global->getPrototype(JSProto_SavedFrame).toObject().as(); } static JSObject* getOrCreateArrayBufferPrototype(JSContext* cx, Handle global) { if (!ensureConstructor(cx, global, JSProto_ArrayBuffer)) return nullptr; return &global->getPrototype(JSProto_ArrayBuffer).toObject(); } static JSObject* getOrCreateSharedArrayBufferPrototype(JSContext* cx, Handle global) { if (!ensureConstructor(cx, global, JSProto_SharedArrayBuffer)) return nullptr; return &global->getPrototype(JSProto_SharedArrayBuffer).toObject(); } static JSObject* getOrCreateCustomErrorPrototype(JSContext* cx, Handle global, JSExnType exnType) { JSProtoKey key = GetExceptionProtoKey(exnType); if (!ensureConstructor(cx, global, key)) return nullptr; return &global->getPrototype(key).toObject(); } static JSFunction* getOrCreateErrorConstructor(JSContext* cx, Handle global) { if (!ensureConstructor(cx, global, JSProto_Error)) return nullptr; return &global->getConstructor(JSProto_Error).toObject().as(); } static JSObject* getOrCreateErrorPrototype(JSContext* cx, Handle global) { return getOrCreateCustomErrorPrototype(cx, global, JSEXN_ERR); } static NativeObject* getOrCreateSetPrototype(JSContext* cx, Handle global) { if (!ensureConstructor(cx, global, JSProto_Set)) return nullptr; return &global->getPrototype(JSProto_Set).toObject().as(); } static NativeObject* getOrCreateWeakSetPrototype(JSContext* cx, Handle global) { if (!ensureConstructor(cx, global, JSProto_WeakSet)) return nullptr; return &global->getPrototype(JSProto_WeakSet).toObject().as(); } static JSObject* getOrCreateIntlObject(JSContext* cx, Handle global) { return getOrCreateObject(cx, global, APPLICATION_SLOTS + JSProto_Intl, initIntlObject); } static JSObject* getOrCreateTypedObjectModule(JSContext* cx, Handle global) { return getOrCreateObject(cx, global, APPLICATION_SLOTS + JSProto_TypedObject, initTypedObjectModule); } static JSObject* getOrCreateSimdGlobalObject(JSContext* cx, Handle global) { return getOrCreateObject(cx, global, APPLICATION_SLOTS + JSProto_SIMD, initSimdObject); } // Get the type descriptor for one of the SIMD types. // simdType is one of the JS_SIMDTYPEREPR_* constants. // Implemented in builtin/SIMD.cpp. static SimdTypeDescr* getOrCreateSimdTypeDescr(JSContext* cx, Handle global, SimdType simdType); TypedObjectModuleObject& getTypedObjectModule() const; JSObject* getLegacyIteratorPrototype() { return &getPrototype(JSProto_Iterator).toObject(); } static JSObject* getOrCreateCollatorPrototype(JSContext* cx, Handle global) { return getOrCreateObject(cx, global, COLLATOR_PROTO, initIntlObject); } static JSObject* getOrCreateNumberFormatPrototype(JSContext* cx, Handle global) { return getOrCreateObject(cx, global, NUMBER_FORMAT_PROTO, initIntlObject); } static JSObject* getOrCreateDateTimeFormatPrototype(JSContext* cx, Handle global) { return getOrCreateObject(cx, global, DATE_TIME_FORMAT_PROTO, initIntlObject); } static bool ensureModulePrototypesCreated(JSContext *cx, Handle global); JSObject* maybeGetModulePrototype() { Value value = getSlot(MODULE_PROTO); return value.isUndefined() ? nullptr : &value.toObject(); } JSObject* maybeGetImportEntryPrototype() { Value value = getSlot(IMPORT_ENTRY_PROTO); return value.isUndefined() ? nullptr : &value.toObject(); } JSObject* maybeGetExportEntryPrototype() { Value value = getSlot(EXPORT_ENTRY_PROTO); return value.isUndefined() ? nullptr : &value.toObject(); } JSObject* getModulePrototype() { JSObject* proto = maybeGetModulePrototype(); MOZ_ASSERT(proto); return proto; } JSObject* getImportEntryPrototype() { JSObject* proto = maybeGetImportEntryPrototype(); MOZ_ASSERT(proto); return proto; } JSObject* getExportEntryPrototype() { JSObject* proto = maybeGetExportEntryPrototype(); MOZ_ASSERT(proto); return proto; } static JSFunction* getOrCreateTypedArrayConstructor(JSContext* cx, Handle global) { if (!ensureConstructor(cx, global, JSProto_TypedArray)) return nullptr; return &global->getConstructor(JSProto_TypedArray).toObject().as(); } static JSObject* getOrCreateTypedArrayPrototype(JSContext* cx, Handle global) { if (!ensureConstructor(cx, global, JSProto_TypedArray)) return nullptr; return &global->getPrototype(JSProto_TypedArray).toObject(); } private: typedef bool (*ObjectInitOp)(JSContext* cx, Handle global); static JSObject* getOrCreateObject(JSContext* cx, Handle global, unsigned slot, ObjectInitOp init) { Value v = global->getSlotRef(slot); if (v.isObject()) return &v.toObject(); if (!init(cx, global)) return nullptr; return &global->getSlot(slot).toObject(); } public: static NativeObject* getOrCreateIteratorPrototype(JSContext* cx, Handle global) { return MaybeNativeObject(getOrCreateObject(cx, global, ITERATOR_PROTO, initIteratorProto)); } static NativeObject* getOrCreateArrayIteratorPrototype(JSContext* cx, Handle global) { return MaybeNativeObject(getOrCreateObject(cx, global, ARRAY_ITERATOR_PROTO, initArrayIteratorProto)); } static NativeObject* getOrCreateStringIteratorPrototype(JSContext* cx, Handle global) { return MaybeNativeObject(getOrCreateObject(cx, global, STRING_ITERATOR_PROTO, initStringIteratorProto)); } static NativeObject* getOrCreateRegExpStringIteratorPrototype(JSContext* cx, Handle global) { return MaybeNativeObject(getOrCreateObject(cx, global, REGEXP_STRING_ITERATOR_PROTO, initRegExpStringIteratorProto)); } static NativeObject* getOrCreateLegacyGeneratorObjectPrototype(JSContext* cx, Handle global) { return MaybeNativeObject(getOrCreateObject(cx, global, LEGACY_GENERATOR_OBJECT_PROTO, initLegacyGeneratorProto)); } static NativeObject* getOrCreateStarGeneratorObjectPrototype(JSContext* cx, Handle global) { return MaybeNativeObject(getOrCreateObject(cx, global, STAR_GENERATOR_OBJECT_PROTO, initStarGenerators)); } static NativeObject* getOrCreateStarGeneratorFunctionPrototype(JSContext* cx, Handle global) { return MaybeNativeObject(getOrCreateObject(cx, global, STAR_GENERATOR_FUNCTION_PROTO, initStarGenerators)); } static JSObject* getOrCreateStarGeneratorFunction(JSContext* cx, Handle global) { return getOrCreateObject(cx, global, STAR_GENERATOR_FUNCTION, initStarGenerators); } static NativeObject* getOrCreateAsyncFunctionPrototype(JSContext* cx, Handle global) { return MaybeNativeObject(getOrCreateObject(cx, global, ASYNC_FUNCTION_PROTO, initAsyncFunction)); } static JSObject* getOrCreateAsyncFunction(JSContext* cx, Handle global) { return getOrCreateObject(cx, global, ASYNC_FUNCTION, initAsyncFunction); } static NativeObject* getOrCreateAsyncIteratorPrototype(JSContext* cx, Handle global) { return MaybeNativeObject(getOrCreateObject(cx, global, ASYNC_ITERATOR_PROTO, initAsyncGenerators)); } static NativeObject* getOrCreateAsyncFromSyncIteratorPrototype(JSContext* cx, Handle global) { return MaybeNativeObject(getOrCreateObject(cx, global, ASYNC_FROM_SYNC_ITERATOR_PROTO, initAsyncGenerators)); } static NativeObject* getOrCreateAsyncGenerator(JSContext* cx, Handle global) { return MaybeNativeObject(getOrCreateObject(cx, global, ASYNC_GENERATOR, initAsyncGenerators)); } static JSObject* getOrCreateAsyncGeneratorFunction(JSContext* cx, Handle global) { return getOrCreateObject(cx, global, ASYNC_GENERATOR_FUNCTION, initAsyncGenerators); } static NativeObject* getOrCreateAsyncGeneratorPrototype(JSContext* cx, Handle global) { return MaybeNativeObject(getOrCreateObject(cx, global, ASYNC_GENERATOR_PROTO, initAsyncGenerators)); } static JSObject* getOrCreateMapIteratorPrototype(JSContext* cx, Handle global) { return getOrCreateObject(cx, global, MAP_ITERATOR_PROTO, initMapIteratorProto); } static JSObject* getOrCreateSetIteratorPrototype(JSContext* cx, Handle global) { return getOrCreateObject(cx, global, SET_ITERATOR_PROTO, initSetIteratorProto); } static JSObject* getOrCreateDataViewPrototype(JSContext* cx, Handle global) { if (!ensureConstructor(cx, global, JSProto_DataView)) return nullptr; return &global->getPrototype(JSProto_DataView).toObject(); } static JSFunction* getOrCreatePromiseConstructor(JSContext* cx, Handle global) { if (!ensureConstructor(cx, global, JSProto_Promise)) return nullptr; return &global->getConstructor(JSProto_Promise).toObject().as(); } static NativeObject* getIntrinsicsHolder(JSContext* cx, Handle global); bool maybeExistingIntrinsicValue(PropertyName* name, Value* vp) { Value slot = getReservedSlot(INTRINSICS); // If we're in the self-hosting compartment itself, the // intrinsics-holder isn't initialized at this point. if (slot.isUndefined()) { *vp = UndefinedValue(); return false; } NativeObject* holder = &slot.toObject().as(); Shape* shape = holder->lookupPure(name); if (!shape) { *vp = UndefinedValue(); return false; } *vp = holder->getSlot(shape->slot()); return true; } Value existingIntrinsicValue(PropertyName* name) { Value val; mozilla::DebugOnly exists = maybeExistingIntrinsicValue(name, &val); MOZ_ASSERT(exists, "intrinsic must already have been added to holder"); return val; } static bool maybeGetIntrinsicValue(JSContext* cx, Handle global, Handle name, MutableHandleValue vp, bool* exists) { NativeObject* holder = getIntrinsicsHolder(cx, global); if (!holder) return false; if (Shape* shape = holder->lookupPure(name)) { vp.set(holder->getSlot(shape->slot())); *exists = true; } else { *exists = false; } return true; } static bool getIntrinsicValue(JSContext* cx, Handle global, HandlePropertyName name, MutableHandleValue value) { bool exists = false; if (!GlobalObject::maybeGetIntrinsicValue(cx, global, name, value, &exists)) return false; if (exists) return true; if (!cx->runtime()->cloneSelfHostedValue(cx, name, value)) return false; return GlobalObject::addIntrinsicValue(cx, global, name, value); } static bool addIntrinsicValue(JSContext* cx, Handle global, HandlePropertyName name, HandleValue value); static bool setIntrinsicValue(JSContext* cx, Handle global, HandlePropertyName name, HandleValue value) { MOZ_ASSERT(cx->runtime()->isSelfHostingGlobal(global)); RootedObject holder(cx, GlobalObject::getIntrinsicsHolder(cx, global)); if (!holder) return false; return SetProperty(cx, holder, name, value); } static bool getSelfHostedFunction(JSContext* cx, Handle global, HandlePropertyName selfHostedName, HandleAtom name, unsigned nargs, MutableHandleValue funVal); bool hasRegExpStatics() const; static RegExpStatics* getRegExpStatics(ExclusiveContext* cx, Handle global); RegExpStatics* getAlreadyCreatedRegExpStatics() const; JSObject* getThrowTypeError() const { const Value v = getReservedSlot(THROWTYPEERROR); MOZ_ASSERT(v.isObject(), "attempting to access [[ThrowTypeError]] too early"); return &v.toObject(); } Value createDataViewForThis() const { MOZ_ASSERT(dataViewClassInitialized()); return getSlot(CREATE_DATAVIEW_FOR_THIS); } template inline Value createArrayFromBuffer() const; static bool isRuntimeCodeGenEnabled(JSContext* cx, Handle global); // Warn about use of the deprecated watch/unwatch functions in the global // in which |obj| was created, if no prior warning was given. static bool warnOnceAboutWatch(JSContext* cx, HandleObject obj) { // Temporarily disabled until we've provided a watch/unwatch workaround for // debuggers like Firebug (bug 934669). //return warnOnceAbout(cx, obj, WARN_WATCH_DEPRECATED, JSMSG_OBJECT_WATCH_DEPRECATED); return true; } // Warn about use of the deprecated (static) ArrayBuffer.slice method. static bool warnOnceAboutArrayBufferSlice(JSContext* cx, HandleObject obj) { return warnOnceAbout(cx, obj, WARN_ARRAYBUFFER_SLICE_DEPRECATED, JSMSG_ARRAYBUFFER_SLICE_DEPRECATED); } static bool getOrCreateEval(JSContext* cx, Handle global, MutableHandleObject eval); // Infallibly test whether the given value is the eval function for this global. bool valueIsEval(const Value& val); // Implemented in jsiter.cpp. static bool initIteratorProto(JSContext* cx, Handle global); static bool initArrayIteratorProto(JSContext* cx, Handle global); static bool initStringIteratorProto(JSContext* cx, Handle global); static bool initRegExpStringIteratorProto(JSContext* cx, Handle global); // Implemented in vm/GeneratorObject.cpp. static bool initLegacyGeneratorProto(JSContext* cx, Handle global); static bool initStarGenerators(JSContext* cx, Handle global); static bool initAsyncFunction(JSContext* cx, Handle global); static bool initAsyncGenerators(JSContext* cx, Handle global); // Implemented in builtin/MapObject.cpp. static bool initMapIteratorProto(JSContext* cx, Handle global); static bool initSetIteratorProto(JSContext* cx, Handle global); // Implemented in Intl.cpp. static bool initIntlObject(JSContext* cx, Handle global); // Implemented in builtin/ModuleObject.cpp static bool initModuleProto(JSContext* cx, Handle global); static bool initImportEntryProto(JSContext* cx, Handle global); static bool initExportEntryProto(JSContext* cx, Handle global); // Implemented in builtin/TypedObject.cpp static bool initTypedObjectModule(JSContext* cx, Handle global); // Implemented in builtin/SIMD.cpp static bool initSimdObject(JSContext* cx, Handle global); static bool initSimdType(JSContext* cx, Handle global, SimdType simdType); static bool initStandardClasses(JSContext* cx, Handle global); static bool initSelfHostingBuiltins(JSContext* cx, Handle global, const JSFunctionSpec* builtins); typedef js::Vector, 0, js::SystemAllocPolicy> DebuggerVector; /* * The collection of Debugger objects debugging this global. If this global * is not a debuggee, this returns either nullptr or an empty vector. */ DebuggerVector* getDebuggers() const; /* * The same, but create the empty vector if one does not already * exist. Returns nullptr only on OOM. */ static DebuggerVector* getOrCreateDebuggers(JSContext* cx, Handle global); inline NativeObject* getForOfPICObject() { Value forOfPIC = getReservedSlot(FOR_OF_PIC_CHAIN); if (forOfPIC.isUndefined()) return nullptr; return &forOfPIC.toObject().as(); } static NativeObject* getOrCreateForOfPICObject(JSContext* cx, Handle global); JSObject* windowProxy() const { return &getReservedSlot(WINDOW_PROXY).toObject(); } JSObject* maybeWindowProxy() const { Value v = getReservedSlot(WINDOW_PROXY); MOZ_ASSERT(v.isObject() || v.isUndefined()); return v.isObject() ? &v.toObject() : nullptr; } void setWindowProxy(JSObject* windowProxy) { setReservedSlot(WINDOW_PROXY, ObjectValue(*windowProxy)); } // Returns either this global's star-generator function prototype, or null // if that object was never created. Dodgy; for use only in also-dodgy // GlobalHelperThreadState::mergeParseTaskCompartment(). JSObject* getStarGeneratorFunctionPrototype(); }; template<> inline void GlobalObject::setCreateArrayFromBuffer(Handle fun) { setCreateArrayFromBufferHelper(FROM_BUFFER_UINT8, fun); } template<> inline void GlobalObject::setCreateArrayFromBuffer(Handle fun) { setCreateArrayFromBufferHelper(FROM_BUFFER_INT8, fun); } template<> inline void GlobalObject::setCreateArrayFromBuffer(Handle fun) { setCreateArrayFromBufferHelper(FROM_BUFFER_UINT16, fun); } template<> inline void GlobalObject::setCreateArrayFromBuffer(Handle fun) { setCreateArrayFromBufferHelper(FROM_BUFFER_INT16, fun); } template<> inline void GlobalObject::setCreateArrayFromBuffer(Handle fun) { setCreateArrayFromBufferHelper(FROM_BUFFER_UINT32, fun); } template<> inline void GlobalObject::setCreateArrayFromBuffer(Handle fun) { setCreateArrayFromBufferHelper(FROM_BUFFER_INT32, fun); } template<> inline void GlobalObject::setCreateArrayFromBuffer(Handle fun) { setCreateArrayFromBufferHelper(FROM_BUFFER_FLOAT32, fun); } template<> inline void GlobalObject::setCreateArrayFromBuffer(Handle fun) { setCreateArrayFromBufferHelper(FROM_BUFFER_FLOAT64, fun); } template<> inline void GlobalObject::setCreateArrayFromBuffer(Handle fun) { setCreateArrayFromBufferHelper(FROM_BUFFER_UINT8CLAMPED, fun); } template<> inline Value GlobalObject::createArrayFromBuffer() const { return createArrayFromBufferHelper(FROM_BUFFER_UINT8); } template<> inline Value GlobalObject::createArrayFromBuffer() const { return createArrayFromBufferHelper(FROM_BUFFER_INT8); } template<> inline Value GlobalObject::createArrayFromBuffer() const { return createArrayFromBufferHelper(FROM_BUFFER_UINT16); } template<> inline Value GlobalObject::createArrayFromBuffer() const { return createArrayFromBufferHelper(FROM_BUFFER_INT16); } template<> inline Value GlobalObject::createArrayFromBuffer() const { return createArrayFromBufferHelper(FROM_BUFFER_UINT32); } template<> inline Value GlobalObject::createArrayFromBuffer() const { return createArrayFromBufferHelper(FROM_BUFFER_INT32); } template<> inline Value GlobalObject::createArrayFromBuffer() const { return createArrayFromBufferHelper(FROM_BUFFER_FLOAT32); } template<> inline Value GlobalObject::createArrayFromBuffer() const { return createArrayFromBufferHelper(FROM_BUFFER_FLOAT64); } template<> inline Value GlobalObject::createArrayFromBuffer() const { return createArrayFromBufferHelper(FROM_BUFFER_UINT8CLAMPED); } /* * Unless otherwise specified, define ctor.prototype = proto as non-enumerable, * non-configurable, and non-writable; and define proto.constructor = ctor as * non-enumerable but configurable and writable. */ extern bool LinkConstructorAndPrototype(JSContext* cx, JSObject* ctor, JSObject* proto, unsigned prototypeAttrs = JSPROP_PERMANENT | JSPROP_READONLY, unsigned constructorAttrs = 0); /* * Define properties and/or functions on any object. Either ps or fs, or both, * may be null. */ extern bool DefinePropertiesAndFunctions(JSContext* cx, HandleObject obj, const JSPropertySpec* ps, const JSFunctionSpec* fs); typedef HashSet, SystemAllocPolicy> GlobalObjectSet; extern bool DefineToStringTag(JSContext *cx, HandleObject obj, JSAtom* tag); /* * Convenience templates to generic constructor and prototype creation functions * for ClassSpecs. */ template JSObject* GenericCreateConstructor(JSContext* cx, JSProtoKey key) { // Note - We duplicate the trick from ClassName() so that we don't need to // include jsatominlines.h here. PropertyName* name = (&cx->names().Null)[key]; return GlobalObject::createConstructor(cx, ctor, name, length, kind, jitInfo); } inline JSObject* GenericCreatePrototype(JSContext* cx, JSProtoKey key) { MOZ_ASSERT(key != JSProto_Object); const Class* clasp = ProtoKeyToClass(key); MOZ_ASSERT(clasp); JSProtoKey protoKey = InheritanceProtoKeyForStandardClass(key); if (!GlobalObject::ensureConstructor(cx, cx->global(), protoKey)) return nullptr; RootedObject parentProto(cx, &cx->global()->getPrototype(protoKey).toObject()); return GlobalObject::createBlankPrototypeInheriting(cx, cx->global(), clasp, parentProto); } inline JSProtoKey StandardProtoKeyOrNull(const JSObject* obj) { return JSCLASS_CACHED_PROTO_KEY(obj->getClass()); } JSObject* NewSingletonObjectWithFunctionPrototype(JSContext* cx, Handle global); } // namespace js template<> inline bool JSObject::is() const { return !!(getClass()->flags & JSCLASS_IS_GLOBAL); } #endif /* vm_GlobalObject_h */