/* -*- 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/. */ /* JavaScript iterators. */ #include "jsiter.h" #include "mozilla/ArrayUtils.h" #include "mozilla/Maybe.h" #include "mozilla/MemoryReporting.h" #include "mozilla/PodOperations.h" #include "mozilla/Unused.h" #include "jsarray.h" #include "jsatom.h" #include "jscntxt.h" #include "jsgc.h" #include "jsobj.h" #include "jsopcode.h" #include "jsscript.h" #include "jstypes.h" #include "jsutil.h" #include "builtin/SelfHostingDefines.h" #include "ds/Sort.h" #include "gc/Marking.h" #include "js/Proxy.h" #include "vm/GeneratorObject.h" #include "vm/GlobalObject.h" #include "vm/Interpreter.h" #include "vm/Shape.h" #include "vm/StopIterationObject.h" #include "vm/TypedArrayCommon.h" #include "jsscriptinlines.h" #include "vm/NativeObject-inl.h" #include "vm/Stack-inl.h" #include "vm/String-inl.h" using namespace js; using namespace js::gc; using JS::ForOfIterator; using mozilla::ArrayLength; using mozilla::Maybe; using mozilla::PodCopy; using mozilla::PodZero; typedef Rooted<PropertyIteratorObject*> RootedPropertyIteratorObject; static const gc::AllocKind ITERATOR_FINALIZE_KIND = gc::AllocKind::OBJECT2_BACKGROUND; void NativeIterator::trace(JSTracer* trc) { for (GCPtrFlatString* str = begin(); str < end(); str++) TraceNullableEdge(trc, str, "prop"); TraceNullableEdge(trc, &obj, "obj"); for (size_t i = 0; i < guard_length; i++) guard_array[i].trace(trc); // The SuppressDeletedPropertyHelper loop can GC, so make sure that if the // GC removes any elements from the list, it won't remove this one. if (iterObj_) TraceManuallyBarrieredEdge(trc, &iterObj_, "iterObj"); } typedef HashSet<jsid, DefaultHasher<jsid>> IdSet; static inline bool NewKeyValuePair(JSContext* cx, jsid id, const Value& val, MutableHandleValue rval) { return NewValuePair(cx, IdToValue(id), val, rval); } static inline bool Enumerate(JSContext* cx, HandleObject pobj, jsid id, bool enumerable, unsigned flags, Maybe<IdSet>& ht, AutoIdVector* props) { // Allow duplicate properties from Proxy's [[OwnPropertyKeys]]. bool proxyOwnProperty = pobj->is<ProxyObject>() && (flags & JSITER_OWNONLY); if (!proxyOwnProperty && (!(flags & JSITER_OWNONLY) || pobj->is<ProxyObject>() || pobj->getOpsEnumerate())) { if (!ht) { ht.emplace(cx); // Most of the time there are only a handful of entries. if (!ht->init(5)) return false; } // If we've already seen this, we definitely won't add it. IdSet::AddPtr p = ht->lookupForAdd(id); if (MOZ_UNLIKELY(!!p)) return true; // It's not necessary to add properties to the hash table at the end of // the prototype chain, but custom enumeration behaviors might return // duplicated properties, so always add in such cases. if (pobj->is<ProxyObject>() || pobj->staticPrototype() || pobj->getOpsEnumerate()) { if (!ht->add(p, id)) return false; } } // Symbol-keyed properties and nonenumerable properties are skipped unless // the caller specifically asks for them. A caller can also filter out // non-symbols by asking for JSITER_SYMBOLSONLY. if (JSID_IS_SYMBOL(id) ? !(flags & JSITER_SYMBOLS) : (flags & JSITER_SYMBOLSONLY)) return true; if (!enumerable && !(flags & JSITER_HIDDEN)) return true; return props->append(id); } static bool EnumerateExtraProperties(JSContext* cx, HandleObject obj, unsigned flags, Maybe<IdSet>& ht, AutoIdVector* props) { MOZ_ASSERT(obj->getOpsEnumerate()); AutoIdVector properties(cx); bool enumerableOnly = !(flags & JSITER_HIDDEN); if (!obj->getOpsEnumerate()(cx, obj, properties, enumerableOnly)) return false; RootedId id(cx); for (size_t n = 0; n < properties.length(); n++) { id = properties[n]; // The enumerate hook does not indicate whether the properties // it returns are enumerable or not. Since we already passed // `enumerableOnly` to the hook to filter out non-enumerable // properties, it doesn't really matter what we pass here. bool enumerable = true; if (!Enumerate(cx, obj, id, enumerable, flags, ht, props)) return false; } return true; } static bool SortComparatorIntegerIds(jsid a, jsid b, bool* lessOrEqualp) { uint32_t indexA, indexB; MOZ_ALWAYS_TRUE(IdIsIndex(a, &indexA)); MOZ_ALWAYS_TRUE(IdIsIndex(b, &indexB)); *lessOrEqualp = (indexA <= indexB); return true; } static bool EnumerateNativeProperties(JSContext* cx, HandleNativeObject pobj, unsigned flags, Maybe<IdSet>& ht, AutoIdVector* props, Handle<UnboxedPlainObject*> unboxed = nullptr) { bool enumerateSymbols; if (flags & JSITER_SYMBOLSONLY) { enumerateSymbols = true; } else { /* Collect any dense elements from this object. */ size_t firstElemIndex = props->length(); size_t initlen = pobj->getDenseInitializedLength(); const Value* vp = pobj->getDenseElements(); bool hasHoles = false; for (size_t i = 0; i < initlen; ++i, ++vp) { if (vp->isMagic(JS_ELEMENTS_HOLE)) { hasHoles = true; } else { /* Dense arrays never get so large that i would not fit into an integer id. */ if (!Enumerate(cx, pobj, INT_TO_JSID(i), /* enumerable = */ true, flags, ht, props)) return false; } } /* Collect any typed array or shared typed array elements from this object. */ if (pobj->is<TypedArrayObject>()) { size_t len = pobj->as<TypedArrayObject>().length(); for (size_t i = 0; i < len; i++) { if (!Enumerate(cx, pobj, INT_TO_JSID(i), /* enumerable = */ true, flags, ht, props)) return false; } } // Collect any sparse elements from this object. bool isIndexed = pobj->isIndexed(); if (isIndexed) { // If the dense elements didn't have holes, we don't need to include // them in the sort. if (!hasHoles) firstElemIndex = props->length(); for (Shape::Range<NoGC> r(pobj->lastProperty()); !r.empty(); r.popFront()) { Shape& shape = r.front(); jsid id = shape.propid(); uint32_t dummy; if (IdIsIndex(id, &dummy)) { if (!Enumerate(cx, pobj, id, shape.enumerable(), flags, ht, props)) return false; } } MOZ_ASSERT(firstElemIndex <= props->length()); jsid* ids = props->begin() + firstElemIndex; size_t n = props->length() - firstElemIndex; AutoIdVector tmp(cx); if (!tmp.resize(n)) return false; PodCopy(tmp.begin(), ids, n); if (!MergeSort(ids, n, tmp.begin(), SortComparatorIntegerIds)) return false; } if (unboxed) { // If |unboxed| is set then |pobj| is the expando for an unboxed // plain object we are enumerating. Add the unboxed properties // themselves here since they are all property names that were // given to the object before any of the expando's properties. MOZ_ASSERT(pobj->is<UnboxedExpandoObject>()); if (!EnumerateExtraProperties(cx, unboxed, flags, ht, props)) return false; } size_t initialLength = props->length(); /* Collect all unique property names from this object's shape. */ bool symbolsFound = false; Shape::Range<NoGC> r(pobj->lastProperty()); for (; !r.empty(); r.popFront()) { Shape& shape = r.front(); jsid id = shape.propid(); if (JSID_IS_SYMBOL(id)) { symbolsFound = true; continue; } uint32_t dummy; if (isIndexed && IdIsIndex(id, &dummy)) continue; if (!Enumerate(cx, pobj, id, shape.enumerable(), flags, ht, props)) return false; } ::Reverse(props->begin() + initialLength, props->end()); enumerateSymbols = symbolsFound && (flags & JSITER_SYMBOLS); } if (enumerateSymbols) { // Do a second pass to collect symbols. ES6 draft rev 25 (2014 May 22) // 9.1.12 requires that all symbols appear after all strings in the // result. size_t initialLength = props->length(); for (Shape::Range<NoGC> r(pobj->lastProperty()); !r.empty(); r.popFront()) { Shape& shape = r.front(); jsid id = shape.propid(); if (JSID_IS_SYMBOL(id)) { if (!Enumerate(cx, pobj, id, shape.enumerable(), flags, ht, props)) return false; } } ::Reverse(props->begin() + initialLength, props->end()); } return true; } #ifdef JS_MORE_DETERMINISTIC struct SortComparatorIds { JSContext* const cx; SortComparatorIds(JSContext* cx) : cx(cx) {} bool operator()(jsid a, jsid b, bool* lessOrEqualp) { // Pick an arbitrary order on jsids that is as stable as possible // across executions. if (a == b) { *lessOrEqualp = true; return true; } size_t ta = JSID_BITS(a) & JSID_TYPE_MASK; size_t tb = JSID_BITS(b) & JSID_TYPE_MASK; if (ta != tb) { *lessOrEqualp = (ta <= tb); return true; } if (JSID_IS_INT(a)) { *lessOrEqualp = (JSID_TO_INT(a) <= JSID_TO_INT(b)); return true; } RootedString astr(cx), bstr(cx); if (JSID_IS_SYMBOL(a)) { MOZ_ASSERT(JSID_IS_SYMBOL(b)); JS::SymbolCode ca = JSID_TO_SYMBOL(a)->code(); JS::SymbolCode cb = JSID_TO_SYMBOL(b)->code(); if (ca != cb) { *lessOrEqualp = uint32_t(ca) <= uint32_t(cb); return true; } MOZ_ASSERT(ca == JS::SymbolCode::InSymbolRegistry || ca == JS::SymbolCode::UniqueSymbol); astr = JSID_TO_SYMBOL(a)->description(); bstr = JSID_TO_SYMBOL(b)->description(); if (!astr || !bstr) { *lessOrEqualp = !astr; return true; } // Fall through to string comparison on the descriptions. The sort // order is nondeterministic if two different unique symbols have // the same description. } else { astr = IdToString(cx, a); if (!astr) return false; bstr = IdToString(cx, b); if (!bstr) return false; } int32_t result; if (!CompareStrings(cx, astr, bstr, &result)) return false; *lessOrEqualp = (result <= 0); return true; } }; #endif /* JS_MORE_DETERMINISTIC */ static bool Snapshot(JSContext* cx, HandleObject pobj_, unsigned flags, AutoIdVector* props) { // We initialize |ht| lazily (in Enumerate()) because it ends up unused // anywhere from 67--99.9% of the time. Maybe<IdSet> ht; RootedObject pobj(cx, pobj_); do { if (pobj->getOpsEnumerate()) { if (pobj->is<UnboxedPlainObject>() && pobj->as<UnboxedPlainObject>().maybeExpando()) { // Special case unboxed objects with an expando object. RootedNativeObject expando(cx, pobj->as<UnboxedPlainObject>().maybeExpando()); if (!EnumerateNativeProperties(cx, expando, flags, ht, props, pobj.as<UnboxedPlainObject>())) { return false; } } else { if (!EnumerateExtraProperties(cx, pobj, flags, ht, props)) return false; if (pobj->isNative()) { if (!EnumerateNativeProperties(cx, pobj.as<NativeObject>(), flags, ht, props)) return false; } } } else if (pobj->isNative()) { // Give the object a chance to resolve all lazy properties if (JSEnumerateOp enumerate = pobj->getClass()->getEnumerate()) { if (!enumerate(cx, pobj.as<NativeObject>())) return false; } if (!EnumerateNativeProperties(cx, pobj.as<NativeObject>(), flags, ht, props)) return false; } else if (pobj->is<ProxyObject>()) { AutoIdVector proxyProps(cx); if (flags & JSITER_HIDDEN || flags & JSITER_SYMBOLS) { // This gets all property keys, both strings and // symbols. The call to Enumerate in the loop below // will filter out unwanted keys, per the flags. if (!Proxy::ownPropertyKeys(cx, pobj, proxyProps)) return false; Rooted<PropertyDescriptor> desc(cx); for (size_t n = 0, len = proxyProps.length(); n < len; n++) { bool enumerable = false; // We need to filter, if the caller just wants enumerable // symbols. if (!(flags & JSITER_HIDDEN)) { if (!Proxy::getOwnPropertyDescriptor(cx, pobj, proxyProps[n], &desc)) return false; enumerable = desc.enumerable(); } if (!Enumerate(cx, pobj, proxyProps[n], enumerable, flags, ht, props)) return false; } } else { // Returns enumerable property names (no symbols). if (!Proxy::getOwnEnumerablePropertyKeys(cx, pobj, proxyProps)) return false; for (size_t n = 0, len = proxyProps.length(); n < len; n++) { if (!Enumerate(cx, pobj, proxyProps[n], true, flags, ht, props)) return false; } } } else { MOZ_CRASH("non-native objects must have an enumerate op"); } if (flags & JSITER_OWNONLY) break; if (!GetPrototype(cx, pobj, &pobj)) return false; } while (pobj != nullptr); #ifdef JS_MORE_DETERMINISTIC /* * In some cases the enumeration order for an object depends on the * execution mode (interpreter vs. JIT), especially for native objects * with a class enumerate hook (where resolving a property changes the * resulting enumeration order). These aren't really bugs, but the * differences can change the generated output and confuse correctness * fuzzers, so we sort the ids if such a fuzzer is running. * * We don't do this in the general case because (a) doing so is slow, * and (b) it also breaks the web, which expects enumeration order to * follow the order in which properties are added, in certain cases. * Since ECMA does not specify an enumeration order for objects, both * behaviors are technically correct to do. */ jsid* ids = props->begin(); size_t n = props->length(); AutoIdVector tmp(cx); if (!tmp.resize(n)) return false; PodCopy(tmp.begin(), ids, n); if (!MergeSort(ids, n, tmp.begin(), SortComparatorIds(cx))) return false; #endif /* JS_MORE_DETERMINISTIC */ return true; } JS_FRIEND_API(bool) js::GetPropertyKeys(JSContext* cx, HandleObject obj, unsigned flags, AutoIdVector* props) { return Snapshot(cx, obj, flags & (JSITER_OWNONLY | JSITER_HIDDEN | JSITER_SYMBOLS | JSITER_SYMBOLSONLY), props); } size_t sCustomIteratorCount = 0; static inline bool GetCustomIterator(JSContext* cx, HandleObject obj, unsigned flags, MutableHandleObject objp) { JS_CHECK_RECURSION(cx, return false); RootedValue rval(cx); /* Check whether we have a valid __iterator__ method. */ HandlePropertyName name = cx->names().iteratorIntrinsic; if (!GetProperty(cx, obj, obj, name, &rval)) return false; /* If there is no custom __iterator__ method, we are done here. */ if (!rval.isObject()) { objp.set(nullptr); return true; } if (!cx->runningWithTrustedPrincipals()) ++sCustomIteratorCount; /* Otherwise call it and return that object. */ { FixedInvokeArgs<1> args(cx); args[0].setBoolean((flags & JSITER_FOREACH) == 0); RootedValue thisv(cx, ObjectValue(*obj)); if (!js::Call(cx, rval, thisv, args, &rval)) return false; } if (rval.isPrimitive()) { // Ignore the stack when throwing. We can't tell whether we were // supposed to skip over a new.target or not. JSAutoByteString bytes; if (!AtomToPrintableString(cx, name, &bytes)) return false; RootedValue val(cx, ObjectValue(*obj)); ReportValueError2(cx, JSMSG_BAD_TRAP_RETURN_VALUE, JSDVG_IGNORE_STACK, val, nullptr, bytes.ptr()); return false; } objp.set(&rval.toObject()); return true; } template <typename T> static inline bool Compare(T* a, T* b, size_t c) { size_t n = (c + size_t(7)) / size_t(8); switch (c % 8) { case 0: do { if (*a++ != *b++) return false; MOZ_FALLTHROUGH; case 7: if (*a++ != *b++) return false; MOZ_FALLTHROUGH; case 6: if (*a++ != *b++) return false; MOZ_FALLTHROUGH; case 5: if (*a++ != *b++) return false; MOZ_FALLTHROUGH; case 4: if (*a++ != *b++) return false; MOZ_FALLTHROUGH; case 3: if (*a++ != *b++) return false; MOZ_FALLTHROUGH; case 2: if (*a++ != *b++) return false; MOZ_FALLTHROUGH; case 1: if (*a++ != *b++) return false; } while (--n > 0); } return true; } static bool legacy_iterator_next(JSContext* cx, unsigned argc, Value* vp); static inline PropertyIteratorObject* NewPropertyIteratorObject(JSContext* cx, unsigned flags) { if (flags & JSITER_ENUMERATE) { RootedObjectGroup group(cx, ObjectGroup::defaultNewGroup(cx, &PropertyIteratorObject::class_, TaggedProto(nullptr))); if (!group) return nullptr; const Class* clasp = &PropertyIteratorObject::class_; RootedShape shape(cx, EmptyShape::getInitialShape(cx, clasp, TaggedProto(nullptr), ITERATOR_FINALIZE_KIND)); if (!shape) return nullptr; JSObject* obj = JSObject::create(cx, ITERATOR_FINALIZE_KIND, GetInitialHeap(GenericObject, clasp), shape, group); if (!obj) return nullptr; PropertyIteratorObject* res = &obj->as<PropertyIteratorObject>(); MOZ_ASSERT(res->numFixedSlots() == JSObject::ITER_CLASS_NFIXED_SLOTS); return res; } Rooted<PropertyIteratorObject*> res(cx, NewBuiltinClassInstance<PropertyIteratorObject>(cx)); if (!res) return nullptr; if (flags == 0) { // Redefine next as an own property. This ensure that deleting the // next method on the prototype doesn't break cross-global for .. in. // We don't have to do this for JSITER_ENUMERATE because that object always // takes an optimized path. RootedFunction next(cx, NewNativeFunction(cx, legacy_iterator_next, 0, HandlePropertyName(cx->names().next))); if (!next) return nullptr; RootedValue value(cx, ObjectValue(*next)); if (!DefineProperty(cx, res, cx->names().next, value)) return nullptr; } return res; } NativeIterator* NativeIterator::allocateIterator(JSContext* cx, uint32_t numGuards, uint32_t plength) { JS_STATIC_ASSERT(sizeof(ReceiverGuard) == 2 * sizeof(void*)); size_t extraLength = plength + numGuards * 2; NativeIterator* ni = cx->zone()->pod_malloc_with_extra<NativeIterator, void*>(extraLength); if (!ni) { ReportOutOfMemory(cx); return nullptr; } void** extra = reinterpret_cast<void**>(ni + 1); PodZero(ni); PodZero(extra, extraLength); ni->props_array = ni->props_cursor = reinterpret_cast<GCPtrFlatString*>(extra); ni->props_end = ni->props_array + plength; return ni; } NativeIterator* NativeIterator::allocateSentinel(JSContext* maybecx) { NativeIterator* ni = js_pod_malloc<NativeIterator>(); if (!ni) { if (maybecx) ReportOutOfMemory(maybecx); return nullptr; } PodZero(ni); ni->next_ = ni; ni->prev_ = ni; return ni; } inline void NativeIterator::init(JSObject* obj, JSObject* iterObj, unsigned flags, uint32_t numGuards, uint32_t key) { this->obj.init(obj); this->iterObj_ = iterObj; this->flags = flags; this->guard_array = (HeapReceiverGuard*) this->props_end; this->guard_length = numGuards; this->guard_key = key; } bool NativeIterator::initProperties(JSContext* cx, Handle<PropertyIteratorObject*> obj, const AutoIdVector& props) { // The obj parameter is just so that we can ensure that this object will get // traced if we GC. MOZ_ASSERT(this == obj->getNativeIterator()); size_t plength = props.length(); MOZ_ASSERT(plength == size_t(end() - begin())); for (size_t i = 0; i < plength; i++) { JSFlatString* str = IdToString(cx, props[i]); if (!str) return false; props_array[i].init(str); } return true; } static inline void RegisterEnumerator(JSContext* cx, PropertyIteratorObject* iterobj, NativeIterator* ni) { /* Register non-escaping native enumerators (for-in) with the current context. */ if (ni->flags & JSITER_ENUMERATE) { ni->link(cx->compartment()->enumerators); MOZ_ASSERT(!(ni->flags & JSITER_ACTIVE)); ni->flags |= JSITER_ACTIVE; } } static inline bool VectorToKeyIterator(JSContext* cx, HandleObject obj, unsigned flags, AutoIdVector& keys, uint32_t numGuards, uint32_t key, MutableHandleObject objp) { MOZ_ASSERT(!(flags & JSITER_FOREACH)); if (obj->isSingleton() && !JSObject::setIteratedSingleton(cx, obj)) return false; MarkObjectGroupFlags(cx, obj, OBJECT_FLAG_ITERATED); Rooted<PropertyIteratorObject*> iterobj(cx, NewPropertyIteratorObject(cx, flags)); if (!iterobj) return false; NativeIterator* ni = NativeIterator::allocateIterator(cx, numGuards, keys.length()); if (!ni) return false; iterobj->setNativeIterator(ni); ni->init(obj, iterobj, flags, numGuards, key); if (!ni->initProperties(cx, iterobj, keys)) return false; if (numGuards) { // Fill in the guard array from scratch. JSObject* pobj = obj; size_t ind = 0; do { ni->guard_array[ind++].init(ReceiverGuard(pobj)); // The one caller of this method that passes |numGuards > 0|, does // so only if the entire chain consists of cacheable objects (that // necessarily have static prototypes). pobj = pobj->staticPrototype(); } while (pobj); MOZ_ASSERT(ind == numGuards); } objp.set(iterobj); RegisterEnumerator(cx, iterobj, ni); return true; } static bool VectorToValueIterator(JSContext* cx, HandleObject obj, unsigned flags, AutoIdVector& keys, MutableHandleObject objp) { MOZ_ASSERT(flags & JSITER_FOREACH); if (obj->isSingleton() && !JSObject::setIteratedSingleton(cx, obj)) return false; MarkObjectGroupFlags(cx, obj, OBJECT_FLAG_ITERATED); Rooted<PropertyIteratorObject*> iterobj(cx, NewPropertyIteratorObject(cx, flags)); if (!iterobj) return false; NativeIterator* ni = NativeIterator::allocateIterator(cx, 0, keys.length()); if (!ni) return false; iterobj->setNativeIterator(ni); ni->init(obj, iterobj, flags, 0, 0); if (!ni->initProperties(cx, iterobj, keys)) return false; objp.set(iterobj); RegisterEnumerator(cx, iterobj, ni); return true; } bool js::EnumeratedIdVectorToIterator(JSContext* cx, HandleObject obj, unsigned flags, AutoIdVector& props, MutableHandleObject objp) { if (!(flags & JSITER_FOREACH)) return VectorToKeyIterator(cx, obj, flags, props, 0, 0, objp); return VectorToValueIterator(cx, obj, flags, props, objp); } // Mainly used for .. in over null/undefined bool js::NewEmptyPropertyIterator(JSContext* cx, unsigned flags, MutableHandleObject objp) { Rooted<PropertyIteratorObject*> iterobj(cx, NewPropertyIteratorObject(cx, flags)); if (!iterobj) return false; AutoIdVector keys(cx); // Empty NativeIterator* ni = NativeIterator::allocateIterator(cx, 0, keys.length()); if (!ni) return false; iterobj->setNativeIterator(ni); ni->init(nullptr, iterobj, flags, 0, 0); if (!ni->initProperties(cx, iterobj, keys)) return false; objp.set(iterobj); RegisterEnumerator(cx, iterobj, ni); return true; } static inline void UpdateNativeIterator(NativeIterator* ni, JSObject* obj) { // Update the object for which the native iterator is associated, so // SuppressDeletedPropertyHelper will recognize the iterator as a match. ni->obj = obj; } static inline bool CanCompareIterableObjectToCache(JSObject* obj) { if (obj->isNative()) return obj->as<NativeObject>().hasEmptyElements(); if (obj->is<UnboxedPlainObject>()) { if (UnboxedExpandoObject* expando = obj->as<UnboxedPlainObject>().maybeExpando()) return expando->hasEmptyElements(); return true; } return false; } static inline bool CanCacheIterableObject(JSContext* cx, JSObject* obj) { if (!CanCompareIterableObjectToCache(obj)) return false; if (obj->isNative()) { if (obj->is<TypedArrayObject>() || obj->hasUncacheableProto() || obj->getOpsEnumerate() || obj->getClass()->getEnumerate() || obj->as<NativeObject>().containsPure(cx->names().iteratorIntrinsic)) { return false; } } return true; } bool js::GetIterator(JSContext* cx, HandleObject obj, unsigned flags, MutableHandleObject objp) { if (obj->is<PropertyIteratorObject>() || obj->is<LegacyGeneratorObject>()) { objp.set(obj); return true; } // We should only call the enumerate trap for "for-in". // Or when we call GetIterator from the Proxy [[Enumerate]] hook. // JSITER_ENUMERATE is just an optimization and the same // as flags == 0 otherwise. if (flags == 0 || flags == JSITER_ENUMERATE) { if (obj->is<ProxyObject>()) return Proxy::enumerate(cx, obj, objp); } Vector<ReceiverGuard, 8> guards(cx); uint32_t key = 0; if (flags == JSITER_ENUMERATE) { // Check to see if this is the same as the most recent object which was // iterated over. if (PropertyIteratorObject* last = cx->compartment()->lastCachedNativeIterator) { NativeIterator* lastni = last->getNativeIterator(); if (!(lastni->flags & (JSITER_ACTIVE|JSITER_UNREUSABLE)) && CanCompareIterableObjectToCache(obj) && ReceiverGuard(obj) == lastni->guard_array[0]) { JSObject* proto = obj->staticPrototype(); if (CanCompareIterableObjectToCache(proto) && ReceiverGuard(proto) == lastni->guard_array[1] && !proto->staticPrototype()) { objp.set(last); assertSameCompartment(cx, objp); UpdateNativeIterator(lastni, obj); RegisterEnumerator(cx, last, lastni); return true; } } } // The iterator object for JSITER_ENUMERATE never escapes, so we don't // care that the "proper" prototype is set. This also lets us reuse an // old, inactive iterator object. { JSObject* pobj = obj; do { if (!CanCacheIterableObject(cx, pobj)) { guards.clear(); goto miss; } ReceiverGuard guard(pobj); key = (key + (key << 16)) ^ guard.hash(); if (!guards.append(guard)) return false; pobj = pobj->staticPrototype(); } while (pobj); } if (PropertyIteratorObject* iterobj = cx->caches.nativeIterCache.get(key)) { NativeIterator* ni = iterobj->getNativeIterator(); if (!(ni->flags & (JSITER_ACTIVE|JSITER_UNREUSABLE)) && ni->guard_key == key && ni->guard_length == guards.length() && Compare(reinterpret_cast<ReceiverGuard*>(ni->guard_array), guards.begin(), ni->guard_length) && iterobj->compartment() == cx->compartment()) { objp.set(iterobj); UpdateNativeIterator(ni, obj); RegisterEnumerator(cx, iterobj, ni); if (guards.length() == 2) cx->compartment()->lastCachedNativeIterator = iterobj; return true; } } } miss: if (!GetCustomIterator(cx, obj, flags, objp)) return false; if (objp) { assertSameCompartment(cx, objp); return true; } AutoIdVector keys(cx); if (flags & JSITER_FOREACH) { MOZ_ASSERT(guards.empty()); if (!Snapshot(cx, obj, flags, &keys)) return false; if (!VectorToValueIterator(cx, obj, flags, keys, objp)) return false; } else { if (!Snapshot(cx, obj, flags, &keys)) return false; if (!VectorToKeyIterator(cx, obj, flags, keys, guards.length(), key, objp)) return false; } PropertyIteratorObject* iterobj = &objp->as<PropertyIteratorObject>(); assertSameCompartment(cx, iterobj); /* Cache the iterator object if possible. */ if (guards.length()) cx->caches.nativeIterCache.set(key, iterobj); if (guards.length() == 2) cx->compartment()->lastCachedNativeIterator = iterobj; return true; } JSObject* js::GetIteratorObject(JSContext* cx, HandleObject obj, uint32_t flags) { RootedObject iterator(cx); if (!GetIterator(cx, obj, flags, &iterator)) return nullptr; return iterator; } // ES 2017 draft 7.4.7. JSObject* js::CreateIterResultObject(JSContext* cx, HandleValue value, bool done) { // Step 1 (implicit). // Step 2. RootedObject resultObj(cx, NewBuiltinClassInstance<PlainObject>(cx)); if (!resultObj) return nullptr; // Step 3. if (!DefineProperty(cx, resultObj, cx->names().value, value)) return nullptr; // Step 4. if (!DefineProperty(cx, resultObj, cx->names().done, done ? TrueHandleValue : FalseHandleValue)) { return nullptr; } // Step 5. return resultObj; } bool js::ThrowStopIteration(JSContext* cx) { MOZ_ASSERT(!JS_IsExceptionPending(cx)); // StopIteration isn't a constructor, but it's stored in GlobalObject // as one, out of laziness. Hence the GetBuiltinConstructor call here. RootedObject ctor(cx); if (GetBuiltinConstructor(cx, JSProto_StopIteration, &ctor)) cx->setPendingException(ObjectValue(*ctor)); return false; } /*** Iterator objects ****************************************************************************/ bool js::IteratorConstructor(JSContext* cx, unsigned argc, Value* vp) { CallArgs args = CallArgsFromVp(argc, vp); if (args.length() == 0) { ReportMissingArg(cx, args.calleev(), 0); return false; } bool keyonly = false; if (args.length() >= 2) keyonly = ToBoolean(args[1]); unsigned flags = JSITER_OWNONLY | (keyonly ? 0 : (JSITER_FOREACH | JSITER_KEYVALUE)); RootedObject iterobj(cx, ValueToIterator(cx, flags, args[0])); if (!iterobj) return false; args.rval().setObject(*iterobj); return true; } MOZ_ALWAYS_INLINE bool NativeIteratorNext(JSContext* cx, NativeIterator* ni, MutableHandleValue rval, bool* done) { *done = false; if (ni->props_cursor >= ni->props_end) { *done = true; return true; } if (MOZ_LIKELY(ni->isKeyIter())) { rval.setString(*ni->current()); ni->incCursor(); return true; } // Non-standard Iterator for "for each" RootedId id(cx); RootedValue current(cx, StringValue(*ni->current())); if (!ValueToId<CanGC>(cx, current, &id)) return false; ni->incCursor(); RootedObject obj(cx, ni->obj); if (!GetProperty(cx, obj, obj, id, rval)) return false; // JS 1.7 only: for each (let [k, v] in obj) if (ni->flags & JSITER_KEYVALUE) return NewKeyValuePair(cx, id, rval, rval); return true; } MOZ_ALWAYS_INLINE bool IsIterator(HandleValue v) { return v.isObject() && v.toObject().hasClass(&PropertyIteratorObject::class_); } MOZ_ALWAYS_INLINE bool legacy_iterator_next_impl(JSContext* cx, const CallArgs& args) { MOZ_ASSERT(IsIterator(args.thisv())); RootedObject thisObj(cx, &args.thisv().toObject()); NativeIterator* ni = thisObj.as<PropertyIteratorObject>()->getNativeIterator(); RootedValue value(cx); bool done; if (!NativeIteratorNext(cx, ni, &value, &done)) return false; // Use old iterator protocol for compatibility reasons. if (done) { ThrowStopIteration(cx); return false; } args.rval().set(value); return true; } static bool legacy_iterator_next(JSContext* cx, unsigned argc, Value* vp) { CallArgs args = CallArgsFromVp(argc, vp); return CallNonGenericMethod<IsIterator, legacy_iterator_next_impl>(cx, args); } static const JSFunctionSpec legacy_iterator_methods[] = { JS_SELF_HOSTED_SYM_FN(iterator, "LegacyIteratorShim", 0, 0), JS_FN("next", legacy_iterator_next, 0, 0), JS_FS_END }; size_t PropertyIteratorObject::sizeOfMisc(mozilla::MallocSizeOf mallocSizeOf) const { return mallocSizeOf(getPrivate()); } void PropertyIteratorObject::trace(JSTracer* trc, JSObject* obj) { if (NativeIterator* ni = obj->as<PropertyIteratorObject>().getNativeIterator()) ni->trace(trc); } void PropertyIteratorObject::finalize(FreeOp* fop, JSObject* obj) { if (NativeIterator* ni = obj->as<PropertyIteratorObject>().getNativeIterator()) fop->free_(ni); } const ClassOps PropertyIteratorObject::classOps_ = { nullptr, /* addProperty */ nullptr, /* delProperty */ nullptr, /* getProperty */ nullptr, /* setProperty */ nullptr, /* enumerate */ nullptr, /* resolve */ nullptr, /* mayResolve */ finalize, nullptr, /* call */ nullptr, /* hasInstance */ nullptr, /* construct */ trace }; const Class PropertyIteratorObject::class_ = { "Iterator", JSCLASS_HAS_CACHED_PROTO(JSProto_Iterator) | JSCLASS_HAS_PRIVATE | JSCLASS_BACKGROUND_FINALIZE, &PropertyIteratorObject::classOps_ }; static const Class ArrayIteratorPrototypeClass = { "Array Iterator", 0 }; enum { ArrayIteratorSlotIteratedObject, ArrayIteratorSlotNextIndex, ArrayIteratorSlotItemKind, ArrayIteratorSlotCount }; const Class ArrayIteratorObject::class_ = { "Array Iterator", JSCLASS_HAS_RESERVED_SLOTS(ArrayIteratorSlotCount) }; static const JSFunctionSpec array_iterator_methods[] = { JS_SELF_HOSTED_FN("next", "ArrayIteratorNext", 0, 0), JS_FS_END }; static const Class StringIteratorPrototypeClass = { "String Iterator", 0 }; enum { StringIteratorSlotIteratedObject, StringIteratorSlotNextIndex, StringIteratorSlotCount }; const Class StringIteratorObject::class_ = { "String Iterator", JSCLASS_HAS_RESERVED_SLOTS(StringIteratorSlotCount) }; static const JSFunctionSpec string_iterator_methods[] = { JS_SELF_HOSTED_FN("next", "StringIteratorNext", 0, 0), JS_FS_END }; static const Class RegExpStringIteratorPrototypeClass = { "RegExp String Iterator", 0 }; enum { RegExpStringIteratorSlotRegExp, RegExpStringIteratorSlotString, RegExpStringIteratorSlotFlags, RegExpStringIteratorSlotDone, RegExpStringIteratorSlotCount }; static_assert(RegExpStringIteratorSlotRegExp == REGEXP_STRING_ITERATOR_REGEXP_SLOT, "RegExpStringIteratorSlotRegExp must match self-hosting define for regexp slot."); static_assert(RegExpStringIteratorSlotString == REGEXP_STRING_ITERATOR_STRING_SLOT, "RegExpStringIteratorSlotString must match self-hosting define for string slot."); static_assert(RegExpStringIteratorSlotFlags == REGEXP_STRING_ITERATOR_FLAGS_SLOT, "RegExpStringIteratorSlotFlags must match self-hosting define for flags slot."); static_assert(RegExpStringIteratorSlotDone == REGEXP_STRING_ITERATOR_DONE_SLOT, "RegExpStringIteratorSlotDone must match self-hosting define for done slot."); const Class RegExpStringIteratorObject::class_ = { "RegExp String Iterator", JSCLASS_HAS_RESERVED_SLOTS(RegExpStringIteratorSlotCount) }; static const JSFunctionSpec regexp_string_iterator_methods[] = { JS_SELF_HOSTED_FN("next", "RegExpStringIteratorNext", 0, 0), JS_FS_END }; JSObject* js::ValueToIterator(JSContext* cx, unsigned flags, HandleValue vp) { /* JSITER_KEYVALUE must always come with JSITER_FOREACH */ MOZ_ASSERT_IF(flags & JSITER_KEYVALUE, flags & JSITER_FOREACH); RootedObject obj(cx); if (vp.isObject()) { /* Common case. */ obj = &vp.toObject(); } else if ((flags & JSITER_ENUMERATE) && vp.isNullOrUndefined()) { /* * Enumerating over null and undefined gives an empty enumerator, so * that |for (var p in <null or undefined>) <loop>;| never executes * <loop>, per ES5 12.6.4. */ RootedObject iter(cx); if (!NewEmptyPropertyIterator(cx, flags, &iter)) return nullptr; return iter; } else { obj = ToObject(cx, vp); if (!obj) return nullptr; } RootedObject iter(cx); if (!GetIterator(cx, obj, flags, &iter)) return nullptr; return iter; } bool js::CloseIterator(JSContext* cx, HandleObject obj) { if (obj->is<PropertyIteratorObject>()) { /* Remove enumerators from the active list, which is a stack. */ NativeIterator* ni = obj->as<PropertyIteratorObject>().getNativeIterator(); if (ni->flags & JSITER_ENUMERATE) { ni->unlink(); MOZ_ASSERT(ni->flags & JSITER_ACTIVE); ni->flags &= ~JSITER_ACTIVE; /* * Reset the enumerator; it may still be in the cached iterators * for this thread, and can be reused. */ ni->props_cursor = ni->props_array; } } else if (obj->is<LegacyGeneratorObject>()) { Rooted<LegacyGeneratorObject*> genObj(cx, &obj->as<LegacyGeneratorObject>()); if (genObj->isClosed()) return true; if (genObj->isRunning() || genObj->isClosing()) { // Nothing sensible to do. return true; } return LegacyGeneratorObject::close(cx, obj); } return true; } bool js::UnwindIteratorForException(JSContext* cx, HandleObject obj) { RootedValue v(cx); bool getOk = cx->getPendingException(&v); cx->clearPendingException(); if (!CloseIterator(cx, obj)) return false; if (!getOk) return false; cx->setPendingException(v); return true; } bool js::IteratorCloseForException(JSContext* cx, HandleObject obj) { MOZ_ASSERT(cx->isExceptionPending()); bool isClosingGenerator = cx->isClosingGenerator(); JS::AutoSaveExceptionState savedExc(cx); // Implements IteratorClose (ES 7.4.6) for exception unwinding. See // also the bytecode generated by BytecodeEmitter::emitIteratorClose. // Step 3. // // Get the "return" method. RootedValue returnMethod(cx); if (!GetProperty(cx, obj, obj, cx->names().return_, &returnMethod)) return false; // Step 4. // // Do nothing if "return" is null or undefined. Throw a TypeError if the // method is not IsCallable. if (returnMethod.isNullOrUndefined()) return true; if (!IsCallable(returnMethod)) return ReportIsNotFunction(cx, returnMethod); // Step 5, 6, 8. // // Call "return" if it is not null or undefined. RootedValue rval(cx); bool ok = Call(cx, returnMethod, obj, &rval); if (isClosingGenerator) { // Closing an iterator is implemented as an exception, but in spec // terms it is a Completion value with [[Type]] return. In this case // we *do* care if the call threw and if it returned an object. if (!ok) return false; if (!rval.isObject()) return ThrowCheckIsObject(cx, CheckIsObjectKind::IteratorReturn); } else { // We don't care if the call threw or that it returned an Object, as // Step 6 says if IteratorClose is being called during a throw, the // original throw has primacy. savedExc.restore(); } return true; } void js::UnwindIteratorForUncatchableException(JSContext* cx, JSObject* obj) { if (obj->is<PropertyIteratorObject>()) { NativeIterator* ni = obj->as<PropertyIteratorObject>().getNativeIterator(); if (ni->flags & JSITER_ENUMERATE) ni->unlink(); } } /* * Suppress enumeration of deleted properties. This function must be called * when a property is deleted and there might be active enumerators. * * We maintain a list of active non-escaping for-in enumerators. To suppress * a property, we check whether each active enumerator contains the (obj, id) * pair and has not yet enumerated |id|. If so, and |id| is the next property, * we simply advance the cursor. Otherwise, we delete |id| from the list. * * We do not suppress enumeration of a property deleted along an object's * prototype chain. Only direct deletions on the object are handled. * * This function can suppress multiple properties at once. The |predicate| * argument is an object which can be called on an id and returns true or * false. It also must have a method |matchesAtMostOne| which allows us to * stop searching after the first deletion if true. */ template<typename StringPredicate> static bool SuppressDeletedPropertyHelper(JSContext* cx, HandleObject obj, StringPredicate predicate) { NativeIterator* enumeratorList = cx->compartment()->enumerators; NativeIterator* ni = enumeratorList->next(); while (ni != enumeratorList) { again: /* This only works for identified suppressed keys, not values. */ if (ni->isKeyIter() && ni->obj == obj && ni->props_cursor < ni->props_end) { /* Check whether id is still to come. */ GCPtrFlatString* props_cursor = ni->current(); GCPtrFlatString* props_end = ni->end(); for (GCPtrFlatString* idp = props_cursor; idp < props_end; ++idp) { if (predicate(*idp)) { /* * Check whether another property along the prototype chain * became visible as a result of this deletion. */ RootedObject proto(cx); if (!GetPrototype(cx, obj, &proto)) return false; if (proto) { RootedId id(cx); RootedValue idv(cx, StringValue(*idp)); if (!ValueToId<CanGC>(cx, idv, &id)) return false; Rooted<PropertyDescriptor> desc(cx); if (!GetPropertyDescriptor(cx, proto, id, &desc)) return false; if (desc.object()) { if (desc.enumerable()) continue; } } /* * If GetPropertyDescriptorById above removed a property from * ni, start over. */ if (props_end != ni->props_end || props_cursor != ni->props_cursor) goto again; /* * No property along the prototype chain stepped in to take the * property's place, so go ahead and delete id from the list. * If it is the next property to be enumerated, just skip it. */ if (idp == props_cursor) { ni->incCursor(); } else { for (GCPtrFlatString* p = idp; p + 1 != props_end; p++) *p = *(p + 1); ni->props_end = ni->end() - 1; /* * This invokes the pre barrier on this element, since * it's no longer going to be marked, and ensures that * any existing remembered set entry will be dropped. */ *ni->props_end = nullptr; } /* Don't reuse modified native iterators. */ ni->flags |= JSITER_UNREUSABLE; if (predicate.matchesAtMostOne()) break; } } } ni = ni->next(); } return true; } namespace { class SingleStringPredicate { Handle<JSFlatString*> str; public: explicit SingleStringPredicate(Handle<JSFlatString*> str) : str(str) {} bool operator()(JSFlatString* str) { return EqualStrings(str, this->str); } bool matchesAtMostOne() { return true; } }; } /* anonymous namespace */ bool js::SuppressDeletedProperty(JSContext* cx, HandleObject obj, jsid id) { if (JSID_IS_SYMBOL(id)) return true; Rooted<JSFlatString*> str(cx, IdToString(cx, id)); if (!str) return false; return SuppressDeletedPropertyHelper(cx, obj, SingleStringPredicate(str)); } bool js::SuppressDeletedElement(JSContext* cx, HandleObject obj, uint32_t index) { RootedId id(cx); if (!IndexToId(cx, index, &id)) return false; return SuppressDeletedProperty(cx, obj, id); } bool js::IteratorMore(JSContext* cx, HandleObject iterobj, MutableHandleValue rval) { // Fast path for native iterators. if (iterobj->is<PropertyIteratorObject>()) { NativeIterator* ni = iterobj->as<PropertyIteratorObject>().getNativeIterator(); bool done; if (!NativeIteratorNext(cx, ni, rval, &done)) return false; if (done) rval.setMagic(JS_NO_ITER_VALUE); return true; } // We're reentering below and can call anything. JS_CHECK_RECURSION(cx, return false); // Call the iterator object's .next method. if (!GetProperty(cx, iterobj, iterobj, cx->names().next, rval)) return false; // Call the .next method. Fall through to the error-handling cases in the // unlikely event that either one of the fallible operations performed // during the call process fails. FixedInvokeArgs<0> args(cx); RootedValue iterval(cx, ObjectValue(*iterobj)); if (!js::Call(cx, rval, iterval, args, rval)) { // Check for StopIteration. if (!cx->isExceptionPending()) return false; RootedValue exception(cx); if (!cx->getPendingException(&exception)) return false; if (!JS_IsStopIteration(exception)) return false; cx->clearPendingException(); rval.setMagic(JS_NO_ITER_VALUE); } return true; } static bool stopiter_hasInstance(JSContext* cx, HandleObject obj, MutableHandleValue v, bool* bp) { *bp = JS_IsStopIteration(v); return true; } static const ClassOps StopIterationObjectClassOps = { nullptr, /* addProperty */ nullptr, /* delProperty */ nullptr, /* getProperty */ nullptr, /* setProperty */ nullptr, /* enumerate */ nullptr, /* resolve */ nullptr, /* mayResolve */ nullptr, /* finalize */ nullptr, /* call */ stopiter_hasInstance }; const Class StopIterationObject::class_ = { "StopIteration", JSCLASS_HAS_CACHED_PROTO(JSProto_StopIteration), &StopIterationObjectClassOps }; static const JSFunctionSpec iterator_proto_methods[] = { JS_SELF_HOSTED_SYM_FN(iterator, "IteratorIdentity", 0, 0), JS_FS_END }; /* static */ bool GlobalObject::initIteratorProto(JSContext* cx, Handle<GlobalObject*> global) { if (global->getReservedSlot(ITERATOR_PROTO).isObject()) return true; RootedObject proto(cx, GlobalObject::createBlankPrototype<PlainObject>(cx, global)); if (!proto || !DefinePropertiesAndFunctions(cx, proto, nullptr, iterator_proto_methods)) return false; global->setReservedSlot(ITERATOR_PROTO, ObjectValue(*proto)); return true; } /* static */ bool GlobalObject::initArrayIteratorProto(JSContext* cx, Handle<GlobalObject*> global) { if (global->getReservedSlot(ARRAY_ITERATOR_PROTO).isObject()) return true; RootedObject iteratorProto(cx, GlobalObject::getOrCreateIteratorPrototype(cx, global)); if (!iteratorProto) return false; const Class* cls = &ArrayIteratorPrototypeClass; RootedObject proto(cx, GlobalObject::createBlankPrototypeInheriting(cx, global, cls, iteratorProto)); if (!proto || !DefinePropertiesAndFunctions(cx, proto, nullptr, array_iterator_methods) || !DefineToStringTag(cx, proto, cx->names().ArrayIterator)) { return false; } global->setReservedSlot(ARRAY_ITERATOR_PROTO, ObjectValue(*proto)); return true; } /* static */ bool GlobalObject::initStringIteratorProto(JSContext* cx, Handle<GlobalObject*> global) { if (global->getReservedSlot(STRING_ITERATOR_PROTO).isObject()) return true; RootedObject iteratorProto(cx, GlobalObject::getOrCreateIteratorPrototype(cx, global)); if (!iteratorProto) return false; const Class* cls = &StringIteratorPrototypeClass; RootedObject proto(cx, GlobalObject::createBlankPrototypeInheriting(cx, global, cls, iteratorProto)); if (!proto || !DefinePropertiesAndFunctions(cx, proto, nullptr, string_iterator_methods) || !DefineToStringTag(cx, proto, cx->names().StringIterator)) { return false; } global->setReservedSlot(STRING_ITERATOR_PROTO, ObjectValue(*proto)); return true; } /* static */ bool GlobalObject::initRegExpStringIteratorProto(JSContext* cx, Handle<GlobalObject*> global) { if (global->getReservedSlot(REGEXP_STRING_ITERATOR_PROTO).isObject()) return true; RootedObject iteratorProto(cx, GlobalObject::getOrCreateIteratorPrototype(cx, global)); if (!iteratorProto) return false; const Class* cls = &RegExpStringIteratorPrototypeClass; RootedObject proto(cx, GlobalObject::createBlankPrototypeInheriting(cx, global, cls, iteratorProto)); if (!proto || !DefinePropertiesAndFunctions(cx, proto, nullptr, regexp_string_iterator_methods) || !DefineToStringTag(cx, proto, cx->names().RegExpStringIterator)) { return false; } global->setReservedSlot(REGEXP_STRING_ITERATOR_PROTO, ObjectValue(*proto)); return true; } JSObject* js::InitLegacyIteratorClass(JSContext* cx, HandleObject obj) { Handle<GlobalObject*> global = obj.as<GlobalObject>(); if (global->getPrototype(JSProto_Iterator).isObject()) return &global->getPrototype(JSProto_Iterator).toObject(); RootedObject iteratorProto(cx); iteratorProto = GlobalObject::createBlankPrototype(cx, global, &PropertyIteratorObject::class_); if (!iteratorProto) return nullptr; NativeIterator* ni = NativeIterator::allocateIterator(cx, 0, 0); if (!ni) return nullptr; iteratorProto->as<PropertyIteratorObject>().setNativeIterator(ni); ni->init(nullptr, nullptr, 0 /* flags */, 0, 0); Rooted<JSFunction*> ctor(cx); ctor = GlobalObject::createConstructor(cx, IteratorConstructor, cx->names().Iterator, 2); if (!ctor) return nullptr; if (!LinkConstructorAndPrototype(cx, ctor, iteratorProto)) return nullptr; if (!DefinePropertiesAndFunctions(cx, iteratorProto, nullptr, legacy_iterator_methods)) return nullptr; if (!GlobalObject::initBuiltinConstructor(cx, global, JSProto_Iterator, ctor, iteratorProto)) { return nullptr; } return &global->getPrototype(JSProto_Iterator).toObject(); } JSObject* js::InitStopIterationClass(JSContext* cx, HandleObject obj) { Handle<GlobalObject*> global = obj.as<GlobalObject>(); if (!global->getPrototype(JSProto_StopIteration).isObject()) { RootedObject proto(cx, GlobalObject::createBlankPrototype(cx, global, &StopIterationObject::class_)); if (!proto || !FreezeObject(cx, proto)) return nullptr; // This should use a non-JSProtoKey'd slot, but this is easier for now. if (!GlobalObject::initBuiltinConstructor(cx, global, JSProto_StopIteration, proto, proto)) return nullptr; global->setConstructor(JSProto_StopIteration, ObjectValue(*proto)); } return &global->getPrototype(JSProto_StopIteration).toObject(); }