// Copyright 2014 the V8 project authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "src/objects/lookup.h" #include "include/v8config.h" #include "src/deoptimizer/deoptimizer.h" #include "src/execution/isolate-inl.h" #include "src/execution/protectors-inl.h" #include "src/init/bootstrapper.h" #include "src/logging/counters.h" #include "src/objects/elements.h" #include "src/objects/field-type.h" #include "src/objects/hash-table-inl.h" #include "src/objects/heap-number-inl.h" #include "src/objects/struct-inl.h" namespace v8 { namespace internal { // static LookupIterator LookupIterator::PropertyOrElement( Isolate* isolate, Handle receiver, Handle key, bool* success, Handle holder, Configuration configuration) { uint32_t index = 0; if (key->ToArrayIndex(&index)) { *success = true; return LookupIterator(isolate, receiver, index, holder, configuration); } Handle name; *success = Object::ToName(isolate, key).ToHandle(&name); if (!*success) { DCHECK(isolate->has_pending_exception()); // Return an unusable dummy. return LookupIterator(isolate, receiver, isolate->factory()->empty_string()); } if (name->AsArrayIndex(&index)) { LookupIterator it(isolate, receiver, index, holder, configuration); // Here we try to avoid having to rebuild the string later // by storing it on the indexed LookupIterator. it.name_ = name; return it; } return LookupIterator(receiver, name, holder, configuration); } // static LookupIterator LookupIterator::PropertyOrElement(Isolate* isolate, Handle receiver, Handle key, bool* success, Configuration configuration) { // TODO(mslekova): come up with better way to avoid duplication uint32_t index = 0; if (key->ToArrayIndex(&index)) { *success = true; return LookupIterator(isolate, receiver, index, configuration); } Handle name; *success = Object::ToName(isolate, key).ToHandle(&name); if (!*success) { DCHECK(isolate->has_pending_exception()); // Return an unusable dummy. return LookupIterator(isolate, receiver, isolate->factory()->empty_string()); } if (name->AsArrayIndex(&index)) { LookupIterator it(isolate, receiver, index, configuration); // Here we try to avoid having to rebuild the string later // by storing it on the indexed LookupIterator. it.name_ = name; return it; } return LookupIterator(isolate, receiver, name, configuration); } LookupIterator::LookupIterator(Isolate* isolate, Handle receiver, Handle name, Handle transition_map, PropertyDetails details, bool has_property) : configuration_(DEFAULT), state_(TRANSITION), has_property_(has_property), interceptor_state_(InterceptorState::kUninitialized), property_details_(details), isolate_(isolate), name_(name), transition_(transition_map), receiver_(receiver), initial_holder_(GetRoot(isolate, receiver)), index_(kMaxUInt32), number_(static_cast(DescriptorArray::kNotFound)) { holder_ = initial_holder_; } template void LookupIterator::Start() { DisallowHeapAllocation no_gc; has_property_ = false; state_ = NOT_FOUND; holder_ = initial_holder_; JSReceiver holder = *holder_; Map map = holder.map(isolate_); state_ = LookupInHolder(map, holder); if (IsFound()) return; NextInternal(map, holder); } template void LookupIterator::Start(); template void LookupIterator::Start(); void LookupIterator::Next() { DCHECK_NE(JSPROXY, state_); DCHECK_NE(TRANSITION, state_); DisallowHeapAllocation no_gc; has_property_ = false; JSReceiver holder = *holder_; Map map = holder.map(isolate_); if (map.IsSpecialReceiverMap()) { state_ = IsElement() ? LookupInSpecialHolder(map, holder) : LookupInSpecialHolder(map, holder); if (IsFound()) return; } IsElement() ? NextInternal(map, holder) : NextInternal(map, holder); } template void LookupIterator::NextInternal(Map map, JSReceiver holder) { do { JSReceiver maybe_holder = NextHolder(map); if (maybe_holder.is_null()) { if (interceptor_state_ == InterceptorState::kSkipNonMasking) { RestartLookupForNonMaskingInterceptors(); return; } state_ = NOT_FOUND; if (holder != *holder_) holder_ = handle(holder, isolate_); return; } holder = maybe_holder; map = holder.map(isolate_); state_ = LookupInHolder(map, holder); } while (!IsFound()); holder_ = handle(holder, isolate_); } template void LookupIterator::RestartInternal(InterceptorState interceptor_state) { interceptor_state_ = interceptor_state; property_details_ = PropertyDetails::Empty(); number_ = static_cast(DescriptorArray::kNotFound); Start(); } template void LookupIterator::RestartInternal(InterceptorState); template void LookupIterator::RestartInternal(InterceptorState); // static Handle LookupIterator::GetRootForNonJSReceiver( Isolate* isolate, Handle receiver, uint32_t index) { // Strings are the only objects with properties (only elements) directly on // the wrapper. Hence we can skip generating the wrapper for all other cases. if (receiver->IsString(isolate) && index < static_cast(String::cast(*receiver).length())) { // TODO(verwaest): Speed this up. Perhaps use a cached wrapper on the native // context, ensuring that we don't leak it into JS? Handle constructor = isolate->string_function(); Handle result = isolate->factory()->NewJSObject(constructor); Handle::cast(result)->set_value(*receiver); return result; } auto root = handle( receiver->GetPrototypeChainRootMap(isolate).prototype(isolate), isolate); if (root->IsNull(isolate)) { isolate->PushStackTraceAndDie(reinterpret_cast(receiver->ptr())); } return Handle::cast(root); } Handle LookupIterator::GetReceiverMap() const { if (receiver_->IsNumber(isolate_)) return factory()->heap_number_map(); return handle(Handle::cast(receiver_)->map(isolate_), isolate_); } bool LookupIterator::HasAccess() const { DCHECK_EQ(ACCESS_CHECK, state_); return isolate_->MayAccess(handle(isolate_->context(), isolate_), GetHolder()); } template void LookupIterator::ReloadPropertyInformation() { state_ = BEFORE_PROPERTY; interceptor_state_ = InterceptorState::kUninitialized; state_ = LookupInHolder(holder_->map(isolate_), *holder_); DCHECK(IsFound() || !holder_->HasFastProperties(isolate_)); } namespace { bool IsTypedArrayFunctionInAnyContext(Isolate* isolate, HeapObject object) { static uint32_t context_slots[] = { #define TYPED_ARRAY_CONTEXT_SLOTS(Type, type, TYPE, ctype) \ Context::TYPE##_ARRAY_FUN_INDEX, TYPED_ARRAYS(TYPED_ARRAY_CONTEXT_SLOTS) #undef TYPED_ARRAY_CONTEXT_SLOTS }; if (!object.IsJSFunction(isolate)) return false; return std::any_of( std::begin(context_slots), std::end(context_slots), [=](uint32_t slot) { return isolate->IsInAnyContext(object, slot); }); } } // namespace void LookupIterator::InternalUpdateProtector() { if (isolate_->bootstrapper()->IsActive()) return; if (!receiver_->IsHeapObject()) return; Handle receiver = Handle::cast(receiver_); // Getting the native_context from the isolate as a fallback. If possible, we // use the receiver's creation context instead. Handle native_context = isolate_->native_context(); ReadOnlyRoots roots(isolate_); if (*name_ == roots.constructor_string()) { // Fetching the context in here since the operation is rather expensive. if (receiver->IsJSReceiver()) { native_context = Handle::cast(receiver)->GetCreationContext(); } if (!Protectors::IsArraySpeciesLookupChainIntact(isolate_) && !isolate_->IsPromiseSpeciesLookupChainIntact() && !Protectors::IsRegExpSpeciesLookupChainProtectorIntact( native_context) && !isolate_->IsTypedArraySpeciesLookupChainIntact()) { return; } // Setting the constructor property could change an instance's @@species if (receiver->IsJSArray(isolate_)) { if (!Protectors::IsArraySpeciesLookupChainIntact(isolate_)) return; isolate_->CountUsage( v8::Isolate::UseCounterFeature::kArrayInstanceConstructorModified); Protectors::InvalidateArraySpeciesLookupChain(isolate_); return; } else if (receiver->IsJSPromise(isolate_)) { if (!isolate_->IsPromiseSpeciesLookupChainIntact()) return; isolate_->InvalidatePromiseSpeciesProtector(); return; } else if (receiver->IsJSRegExp(isolate_)) { if (!Protectors::IsRegExpSpeciesLookupChainProtectorIntact( native_context)) { return; } Protectors::InvalidateRegExpSpeciesLookupChainProtector(isolate_, native_context); return; } else if (receiver->IsJSTypedArray(isolate_)) { if (!isolate_->IsTypedArraySpeciesLookupChainIntact()) return; isolate_->InvalidateTypedArraySpeciesProtector(); return; } if (receiver->map(isolate_).is_prototype_map()) { DisallowHeapAllocation no_gc; // Setting the constructor of any prototype with the @@species protector // (of any realm) also needs to invalidate the protector. // For typed arrays, we check a prototype of this receiver since // TypedArrays have different prototypes for each type, and their parent // prototype is pointing the same TYPED_ARRAY_PROTOTYPE. if (isolate_->IsInAnyContext(*receiver, Context::INITIAL_ARRAY_PROTOTYPE_INDEX)) { if (!Protectors::IsArraySpeciesLookupChainIntact(isolate_)) return; isolate_->CountUsage( v8::Isolate::UseCounterFeature::kArrayPrototypeConstructorModified); Protectors::InvalidateArraySpeciesLookupChain(isolate_); } else if (isolate_->IsInAnyContext(*receiver, Context::PROMISE_PROTOTYPE_INDEX)) { if (!isolate_->IsPromiseSpeciesLookupChainIntact()) return; isolate_->InvalidatePromiseSpeciesProtector(); } else if (isolate_->IsInAnyContext(*receiver, Context::REGEXP_PROTOTYPE_INDEX)) { if (!Protectors::IsRegExpSpeciesLookupChainProtectorIntact( native_context)) { return; } Protectors::InvalidateRegExpSpeciesLookupChainProtector(isolate_, native_context); } else if (isolate_->IsInAnyContext( receiver->map(isolate_).prototype(isolate_), Context::TYPED_ARRAY_PROTOTYPE_INDEX)) { if (!isolate_->IsTypedArraySpeciesLookupChainIntact()) return; isolate_->InvalidateTypedArraySpeciesProtector(); } } } else if (*name_ == roots.next_string()) { if (receiver->IsJSArrayIterator() || isolate_->IsInAnyContext( *receiver, Context::INITIAL_ARRAY_ITERATOR_PROTOTYPE_INDEX)) { // Setting the next property of %ArrayIteratorPrototype% also needs to // invalidate the array iterator protector. if (!isolate_->IsArrayIteratorLookupChainIntact()) return; isolate_->InvalidateArrayIteratorProtector(); } else if (receiver->IsJSMapIterator() || isolate_->IsInAnyContext( *receiver, Context::INITIAL_MAP_ITERATOR_PROTOTYPE_INDEX)) { if (!isolate_->IsMapIteratorLookupChainIntact()) return; isolate_->InvalidateMapIteratorProtector(); } else if (receiver->IsJSSetIterator() || isolate_->IsInAnyContext( *receiver, Context::INITIAL_SET_ITERATOR_PROTOTYPE_INDEX)) { if (!isolate_->IsSetIteratorLookupChainIntact()) return; isolate_->InvalidateSetIteratorProtector(); } else if (receiver->IsJSStringIterator() || isolate_->IsInAnyContext( *receiver, Context::INITIAL_STRING_ITERATOR_PROTOTYPE_INDEX)) { // Setting the next property of %StringIteratorPrototype% invalidates the // string iterator protector. if (!isolate_->IsStringIteratorLookupChainIntact()) return; isolate_->InvalidateStringIteratorProtector(); } } else if (*name_ == roots.species_symbol()) { // Fetching the context in here since the operation is rather expensive. if (receiver->IsJSReceiver()) { native_context = Handle::cast(receiver)->GetCreationContext(); } if (!Protectors::IsArraySpeciesLookupChainIntact(isolate_) && !isolate_->IsPromiseSpeciesLookupChainIntact() && !Protectors::IsRegExpSpeciesLookupChainProtectorIntact( native_context) && !isolate_->IsTypedArraySpeciesLookupChainIntact()) { return; } // Setting the Symbol.species property of any Array, Promise or TypedArray // constructor invalidates the @@species protector if (isolate_->IsInAnyContext(*receiver, Context::ARRAY_FUNCTION_INDEX)) { if (!Protectors::IsArraySpeciesLookupChainIntact(isolate_)) return; isolate_->CountUsage( v8::Isolate::UseCounterFeature::kArraySpeciesModified); Protectors::InvalidateArraySpeciesLookupChain(isolate_); } else if (isolate_->IsInAnyContext(*receiver, Context::PROMISE_FUNCTION_INDEX)) { if (!isolate_->IsPromiseSpeciesLookupChainIntact()) return; isolate_->InvalidatePromiseSpeciesProtector(); } else if (isolate_->IsInAnyContext(*receiver, Context::REGEXP_FUNCTION_INDEX)) { if (!Protectors::IsRegExpSpeciesLookupChainProtectorIntact( native_context)) { return; } Protectors::InvalidateRegExpSpeciesLookupChainProtector(isolate_, native_context); } else if (IsTypedArrayFunctionInAnyContext(isolate_, *receiver)) { if (!isolate_->IsTypedArraySpeciesLookupChainIntact()) return; isolate_->InvalidateTypedArraySpeciesProtector(); } } else if (*name_ == roots.is_concat_spreadable_symbol()) { if (!isolate_->IsIsConcatSpreadableLookupChainIntact()) return; isolate_->InvalidateIsConcatSpreadableProtector(); } else if (*name_ == roots.iterator_symbol()) { if (receiver->IsJSArray(isolate_)) { if (!isolate_->IsArrayIteratorLookupChainIntact()) return; isolate_->InvalidateArrayIteratorProtector(); } else if (receiver->IsJSSet(isolate_) || receiver->IsJSSetIterator() || isolate_->IsInAnyContext( *receiver, Context::INITIAL_SET_ITERATOR_PROTOTYPE_INDEX) || isolate_->IsInAnyContext(*receiver, Context::INITIAL_SET_PROTOTYPE_INDEX)) { if (isolate_->IsSetIteratorLookupChainIntact()) { isolate_->InvalidateSetIteratorProtector(); } } else if (receiver->IsJSMapIterator() || isolate_->IsInAnyContext( *receiver, Context::INITIAL_MAP_ITERATOR_PROTOTYPE_INDEX)) { if (isolate_->IsMapIteratorLookupChainIntact()) { isolate_->InvalidateMapIteratorProtector(); } } else if (isolate_->IsInAnyContext( *receiver, Context::INITIAL_ITERATOR_PROTOTYPE_INDEX)) { if (isolate_->IsMapIteratorLookupChainIntact()) { isolate_->InvalidateMapIteratorProtector(); } if (isolate_->IsSetIteratorLookupChainIntact()) { isolate_->InvalidateSetIteratorProtector(); } } else if (isolate_->IsInAnyContext( *receiver, Context::INITIAL_STRING_PROTOTYPE_INDEX)) { // Setting the Symbol.iterator property of String.prototype invalidates // the string iterator protector. Symbol.iterator can also be set on a // String wrapper, but not on a primitive string. We only support // protector for primitive strings. if (!isolate_->IsStringIteratorLookupChainIntact()) return; isolate_->InvalidateStringIteratorProtector(); } } else if (*name_ == roots.resolve_string()) { if (!isolate_->IsPromiseResolveLookupChainIntact()) return; // Setting the "resolve" property on any %Promise% intrinsic object // invalidates the Promise.resolve protector. if (isolate_->IsInAnyContext(*receiver, Context::PROMISE_FUNCTION_INDEX)) { isolate_->InvalidatePromiseResolveProtector(); } } else if (*name_ == roots.then_string()) { if (!isolate_->IsPromiseThenLookupChainIntact()) return; // Setting the "then" property on any JSPromise instance or on the // initial %PromisePrototype% invalidates the Promise#then protector. // Also setting the "then" property on the initial %ObjectPrototype% // invalidates the Promise#then protector, since we use this protector // to guard the fast-path in AsyncGeneratorResolve, where we can skip // the ResolvePromise step and go directly to FulfillPromise if we // know that the Object.prototype doesn't contain a "then" method. if (receiver->IsJSPromise(isolate_) || isolate_->IsInAnyContext(*receiver, Context::INITIAL_OBJECT_PROTOTYPE_INDEX) || isolate_->IsInAnyContext(*receiver, Context::PROMISE_PROTOTYPE_INDEX)) { isolate_->InvalidatePromiseThenProtector(); } } } void LookupIterator::PrepareForDataProperty(Handle value) { DCHECK(state_ == DATA || state_ == ACCESSOR); DCHECK(HolderIsReceiverOrHiddenPrototype()); Handle holder = GetHolder(); // JSProxy does not have fast properties so we do an early return. DCHECK_IMPLIES(holder->IsJSProxy(isolate_), !holder->HasFastProperties(isolate_)); DCHECK_IMPLIES(holder->IsJSProxy(isolate_), name()->IsPrivate(isolate_)); if (holder->IsJSProxy(isolate_)) return; Handle holder_obj = Handle::cast(holder); if (IsElement()) { ElementsKind kind = holder_obj->GetElementsKind(isolate_); ElementsKind to = value->OptimalElementsKind(isolate_); if (IsHoleyElementsKind(kind)) to = GetHoleyElementsKind(to); to = GetMoreGeneralElementsKind(kind, to); if (kind != to) { JSObject::TransitionElementsKind(holder_obj, to); } // Copy the backing store if it is copy-on-write. if (IsSmiOrObjectElementsKind(to) || IsSealedElementsKind(to) || IsNonextensibleElementsKind(to)) { JSObject::EnsureWritableFastElements(holder_obj); } return; } if (holder_obj->IsJSGlobalObject(isolate_)) { Handle dictionary( JSGlobalObject::cast(*holder_obj).global_dictionary(isolate_), isolate()); Handle cell(dictionary->CellAt(isolate_, dictionary_entry()), isolate()); property_details_ = cell->property_details(); PropertyCell::PrepareForValue(isolate(), dictionary, dictionary_entry(), value, property_details_); return; } if (!holder_obj->HasFastProperties(isolate_)) return; PropertyConstness new_constness = PropertyConstness::kConst; if (constness() == PropertyConstness::kConst) { DCHECK_EQ(kData, property_details_.kind()); // Check that current value matches new value otherwise we should make // the property mutable. if (!IsConstFieldValueEqualTo(*value)) new_constness = PropertyConstness::kMutable; } Handle old_map(holder_obj->map(isolate_), isolate_); DCHECK(!old_map->is_dictionary_map()); Handle new_map = Map::Update(isolate_, old_map); if (!new_map->is_dictionary_map()) { new_map = Map::PrepareForDataProperty( isolate(), new_map, descriptor_number(), new_constness, value); if (old_map.is_identical_to(new_map)) { // Update the property details if the representation was None. if (constness() != new_constness || representation().IsNone()) { property_details_ = new_map->instance_descriptors(isolate_).GetDetails( descriptor_number()); } return; } } // We should only get here if the new_map is different from the old map, // otherwise we would have falled through to the is_identical_to check above. DCHECK_NE(*old_map, *new_map); JSObject::MigrateToMap(isolate_, holder_obj, new_map); ReloadPropertyInformation(); } void LookupIterator::ReconfigureDataProperty(Handle value, PropertyAttributes attributes) { DCHECK(state_ == DATA || state_ == ACCESSOR); DCHECK(HolderIsReceiverOrHiddenPrototype()); Handle holder = GetHolder(); // Property details can never change for private properties. if (holder->IsJSProxy(isolate_)) { DCHECK(name()->IsPrivate(isolate_)); return; } Handle holder_obj = Handle::cast(holder); if (IsElement()) { DCHECK(!holder_obj->HasTypedArrayElements(isolate_)); DCHECK(attributes != NONE || !holder_obj->HasFastElements(isolate_)); Handle elements(holder_obj->elements(isolate_), isolate()); holder_obj->GetElementsAccessor(isolate_)->Reconfigure( holder_obj, elements, number_, value, attributes); ReloadPropertyInformation(); } else if (holder_obj->HasFastProperties(isolate_)) { Handle old_map(holder_obj->map(isolate_), isolate_); // Force mutable to avoid changing constant value by reconfiguring // kData -> kAccessor -> kData. Handle new_map = Map::ReconfigureExistingProperty( isolate_, old_map, descriptor_number(), i::kData, attributes, PropertyConstness::kMutable); if (!new_map->is_dictionary_map()) { // Make sure that the data property has a compatible representation. // TODO(leszeks): Do this as part of ReconfigureExistingProperty. new_map = Map::PrepareForDataProperty(isolate(), new_map, descriptor_number(), PropertyConstness::kMutable, value); } JSObject::MigrateToMap(isolate_, holder_obj, new_map); ReloadPropertyInformation(); } if (!IsElement() && !holder_obj->HasFastProperties(isolate_)) { PropertyDetails details(kData, attributes, PropertyCellType::kMutable); if (holder_obj->map(isolate_).is_prototype_map() && (property_details_.attributes() & READ_ONLY) == 0 && (attributes & READ_ONLY) != 0) { // Invalidate prototype validity cell when a property is reconfigured // from writable to read-only as this may invalidate transitioning store // IC handlers. JSObject::InvalidatePrototypeChains(holder->map(isolate_)); } if (holder_obj->IsJSGlobalObject(isolate_)) { Handle dictionary( JSGlobalObject::cast(*holder_obj).global_dictionary(isolate_), isolate()); Handle cell = PropertyCell::PrepareForValue( isolate(), dictionary, dictionary_entry(), value, details); cell->set_value(*value); property_details_ = cell->property_details(); } else { Handle dictionary( holder_obj->property_dictionary(isolate_), isolate()); PropertyDetails original_details = dictionary->DetailsAt(dictionary_entry()); int enumeration_index = original_details.dictionary_index(); DCHECK_GT(enumeration_index, 0); details = details.set_index(enumeration_index); dictionary->SetEntry(isolate(), dictionary_entry(), *name(), *value, details); property_details_ = details; } state_ = DATA; } WriteDataValue(value, true); #if VERIFY_HEAP if (FLAG_verify_heap) { holder->HeapObjectVerify(isolate()); } #endif } // Can only be called when the receiver is a JSObject. JSProxy has to be handled // via a trap. Adding properties to primitive values is not observable. void LookupIterator::PrepareTransitionToDataProperty( Handle receiver, Handle value, PropertyAttributes attributes, StoreOrigin store_origin) { DCHECK_IMPLIES(receiver->IsJSProxy(isolate_), name()->IsPrivate(isolate_)); DCHECK(receiver.is_identical_to(GetStoreTarget())); if (state_ == TRANSITION) return; if (!IsElement() && name()->IsPrivate(isolate_)) { attributes = static_cast(attributes | DONT_ENUM); } DCHECK(state_ != LookupIterator::ACCESSOR || (GetAccessors()->IsAccessorInfo(isolate_) && AccessorInfo::cast(*GetAccessors()).is_special_data_property())); DCHECK_NE(INTEGER_INDEXED_EXOTIC, state_); DCHECK(state_ == NOT_FOUND || !HolderIsReceiverOrHiddenPrototype()); Handle map(receiver->map(isolate_), isolate_); // Dictionary maps can always have additional data properties. if (map->is_dictionary_map()) { state_ = TRANSITION; if (map->IsJSGlobalObjectMap()) { // Install a property cell. Handle global = Handle::cast(receiver); int entry; Handle cell = JSGlobalObject::EnsureEmptyPropertyCell( global, name(), PropertyCellType::kUninitialized, &entry); Handle dictionary(global->global_dictionary(isolate_), isolate_); DCHECK(cell->value(isolate_).IsTheHole(isolate_)); DCHECK(!value->IsTheHole(isolate_)); transition_ = cell; // Assign an enumeration index to the property and update // SetNextEnumerationIndex. int index = dictionary->NextEnumerationIndex(); dictionary->SetNextEnumerationIndex(index + 1); property_details_ = PropertyDetails( kData, attributes, PropertyCellType::kUninitialized, index); PropertyCellType new_type = PropertyCell::UpdatedType(isolate(), cell, value, property_details_); property_details_ = property_details_.set_cell_type(new_type); cell->set_property_details(property_details_); number_ = entry; has_property_ = true; } else { // Don't set enumeration index (it will be set during value store). property_details_ = PropertyDetails(kData, attributes, PropertyCellType::kNoCell); transition_ = map; } return; } Handle transition = Map::TransitionToDataProperty(isolate_, map, name_, value, attributes, PropertyConstness::kConst, store_origin); state_ = TRANSITION; transition_ = transition; if (transition->is_dictionary_map()) { // Don't set enumeration index (it will be set during value store). property_details_ = PropertyDetails(kData, attributes, PropertyCellType::kNoCell); } else { property_details_ = transition->GetLastDescriptorDetails(isolate_); has_property_ = true; } } void LookupIterator::ApplyTransitionToDataProperty( Handle receiver) { DCHECK_EQ(TRANSITION, state_); DCHECK(receiver.is_identical_to(GetStoreTarget())); holder_ = receiver; if (receiver->IsJSGlobalObject(isolate_)) { JSObject::InvalidatePrototypeChains(receiver->map(isolate_)); state_ = DATA; return; } Handle transition = transition_map(); bool simple_transition = transition->GetBackPointer(isolate_) == receiver->map(isolate_); if (configuration_ == DEFAULT && !transition->is_dictionary_map() && !transition->IsPrototypeValidityCellValid()) { // Only LookupIterator instances with DEFAULT (full prototype chain) // configuration can produce valid transition handler maps. Handle validity_cell = Map::GetOrCreatePrototypeChainValidityCell(transition, isolate()); transition->set_prototype_validity_cell(*validity_cell); } if (!receiver->IsJSProxy(isolate_)) { JSObject::MigrateToMap(isolate_, Handle::cast(receiver), transition); } if (simple_transition) { int number = transition->LastAdded(); number_ = static_cast(number); property_details_ = transition->GetLastDescriptorDetails(isolate_); state_ = DATA; } else if (receiver->map(isolate_).is_dictionary_map()) { Handle dictionary(receiver->property_dictionary(isolate_), isolate_); int entry; if (receiver->map(isolate_).is_prototype_map() && receiver->IsJSObject(isolate_)) { JSObject::InvalidatePrototypeChains(receiver->map(isolate_)); } dictionary = NameDictionary::Add(isolate(), dictionary, name(), isolate_->factory()->uninitialized_value(), property_details_, &entry); receiver->SetProperties(*dictionary); // Reload details containing proper enumeration index value. property_details_ = dictionary->DetailsAt(entry); number_ = entry; has_property_ = true; state_ = DATA; } else { ReloadPropertyInformation(); } } void LookupIterator::Delete() { Handle holder = Handle::cast(holder_); if (IsElement()) { Handle object = Handle::cast(holder); ElementsAccessor* accessor = object->GetElementsAccessor(isolate_); accessor->Delete(object, number_); } else { DCHECK(!name()->IsPrivateName(isolate_)); bool is_prototype_map = holder->map(isolate_).is_prototype_map(); RuntimeCallTimerScope stats_scope( isolate_, is_prototype_map ? RuntimeCallCounterId::kPrototypeObject_DeleteProperty : RuntimeCallCounterId::kObject_DeleteProperty); PropertyNormalizationMode mode = is_prototype_map ? KEEP_INOBJECT_PROPERTIES : CLEAR_INOBJECT_PROPERTIES; if (holder->HasFastProperties(isolate_)) { JSObject::NormalizeProperties(isolate_, Handle::cast(holder), mode, 0, "DeletingProperty"); ReloadPropertyInformation(); } JSReceiver::DeleteNormalizedProperty(holder, number_); if (holder->IsJSObject(isolate_)) { JSObject::ReoptimizeIfPrototype(Handle::cast(holder)); } } state_ = NOT_FOUND; } void LookupIterator::TransitionToAccessorProperty( Handle getter, Handle setter, PropertyAttributes attributes) { DCHECK(!getter->IsNull(isolate_) || !setter->IsNull(isolate_)); // Can only be called when the receiver is a JSObject. JSProxy has to be // handled via a trap. Adding properties to primitive values is not // observable. Handle receiver = GetStoreTarget(); if (!IsElement() && name()->IsPrivate(isolate_)) { attributes = static_cast(attributes | DONT_ENUM); } if (!IsElement() && !receiver->map(isolate_).is_dictionary_map()) { Handle old_map(receiver->map(isolate_), isolate_); if (!holder_.is_identical_to(receiver)) { holder_ = receiver; state_ = NOT_FOUND; } else if (state_ == INTERCEPTOR) { LookupInRegularHolder(*old_map, *holder_); } int descriptor = IsFound() ? static_cast(number_) : DescriptorArray::kNotFound; Handle new_map = Map::TransitionToAccessorProperty( isolate_, old_map, name_, descriptor, getter, setter, attributes); bool simple_transition = new_map->GetBackPointer(isolate_) == receiver->map(isolate_); JSObject::MigrateToMap(isolate_, receiver, new_map); if (simple_transition) { int number = new_map->LastAdded(); number_ = static_cast(number); property_details_ = new_map->GetLastDescriptorDetails(isolate_); state_ = ACCESSOR; return; } ReloadPropertyInformation(); if (!new_map->is_dictionary_map()) return; } Handle pair; if (state() == ACCESSOR && GetAccessors()->IsAccessorPair(isolate_)) { pair = Handle::cast(GetAccessors()); // If the component and attributes are identical, nothing has to be done. if (pair->Equals(*getter, *setter)) { if (property_details().attributes() == attributes) { if (!IsElement()) JSObject::ReoptimizeIfPrototype(receiver); return; } } else { pair = AccessorPair::Copy(isolate(), pair); pair->SetComponents(*getter, *setter); } } else { pair = factory()->NewAccessorPair(); pair->SetComponents(*getter, *setter); } TransitionToAccessorPair(pair, attributes); #if VERIFY_HEAP if (FLAG_verify_heap) { receiver->JSObjectVerify(isolate()); } #endif } void LookupIterator::TransitionToAccessorPair(Handle pair, PropertyAttributes attributes) { Handle receiver = GetStoreTarget(); holder_ = receiver; PropertyDetails details(kAccessor, attributes, PropertyCellType::kMutable); if (IsElement()) { // TODO(verwaest): Move code into the element accessor. isolate_->CountUsage(v8::Isolate::kIndexAccessor); Handle dictionary = JSObject::NormalizeElements(receiver); dictionary = NumberDictionary::Set(isolate_, dictionary, index_, pair, receiver, details); receiver->RequireSlowElements(*dictionary); if (receiver->HasSlowArgumentsElements(isolate_)) { FixedArray parameter_map = FixedArray::cast(receiver->elements(isolate_)); uint32_t length = parameter_map.length() - 2; if (number_ < length) { parameter_map.set(number_ + 2, ReadOnlyRoots(isolate_).the_hole_value()); } FixedArray::cast(receiver->elements(isolate_)).set(1, *dictionary); } else { receiver->set_elements(*dictionary); } ReloadPropertyInformation(); } else { PropertyNormalizationMode mode = CLEAR_INOBJECT_PROPERTIES; if (receiver->map(isolate_).is_prototype_map()) { JSObject::InvalidatePrototypeChains(receiver->map(isolate_)); mode = KEEP_INOBJECT_PROPERTIES; } // Normalize object to make this operation simple. JSObject::NormalizeProperties(isolate_, receiver, mode, 0, "TransitionToAccessorPair"); JSObject::SetNormalizedProperty(receiver, name_, pair, details); JSObject::ReoptimizeIfPrototype(receiver); ReloadPropertyInformation(); } } bool LookupIterator::HolderIsReceiver() const { DCHECK(has_property_ || state_ == INTERCEPTOR || state_ == JSPROXY); // Optimization that only works if configuration_ is not mutable. if (!check_prototype_chain()) return true; return *receiver_ == *holder_; } bool LookupIterator::HolderIsReceiverOrHiddenPrototype() const { DCHECK(has_property_ || state_ == INTERCEPTOR || state_ == JSPROXY); // Optimization that only works if configuration_ is not mutable. if (!check_prototype_chain()) return true; if (*receiver_ == *holder_) return true; if (!receiver_->IsJSGlobalProxy(isolate_)) return false; return Handle::cast(receiver_)->map(isolate_).prototype( isolate_) == *holder_; } Handle LookupIterator::FetchValue() const { Object result; if (IsElement()) { Handle holder = GetHolder(); ElementsAccessor* accessor = holder->GetElementsAccessor(isolate_); return accessor->Get(holder, number_); } else if (holder_->IsJSGlobalObject(isolate_)) { Handle holder = GetHolder(); result = holder->global_dictionary(isolate_).ValueAt(isolate_, number_); } else if (!holder_->HasFastProperties(isolate_)) { result = holder_->property_dictionary(isolate_).ValueAt(isolate_, number_); } else if (property_details_.location() == kField) { DCHECK_EQ(kData, property_details_.kind()); Handle holder = GetHolder(); FieldIndex field_index = FieldIndex::ForDescriptor(holder->map(isolate_), number_); return JSObject::FastPropertyAt(holder, property_details_.representation(), field_index); } else { result = holder_->map(isolate_).instance_descriptors(isolate_).GetStrongValue( isolate_, number_); } return handle(result, isolate_); } bool LookupIterator::IsConstFieldValueEqualTo(Object value) const { DCHECK(!IsElement()); DCHECK(holder_->HasFastProperties(isolate_)); DCHECK_EQ(kField, property_details_.location()); DCHECK_EQ(PropertyConstness::kConst, property_details_.constness()); Handle holder = GetHolder(); FieldIndex field_index = FieldIndex::ForDescriptor(holder->map(isolate_), number_); if (property_details_.representation().IsDouble()) { if (!value.IsNumber(isolate_)) return false; uint64_t bits; if (holder->IsUnboxedDoubleField(isolate_, field_index)) { bits = holder->RawFastDoublePropertyAsBitsAt(field_index); } else { Object current_value = holder->RawFastPropertyAt(isolate_, field_index); DCHECK(current_value.IsHeapNumber(isolate_)); bits = HeapNumber::cast(current_value).value_as_bits(); } // Use bit representation of double to to check for hole double, since // manipulating the signaling NaN used for the hole in C++, e.g. with // bit_cast or value(), will change its value on ia32 (the x87 stack is // used to return values and stores to the stack silently clear the // signalling bit). if (bits == kHoleNanInt64) { // Uninitialized double field. return true; } return Object::SameNumberValue(bit_cast(bits), value.Number()); } else { Object current_value = holder->RawFastPropertyAt(isolate_, field_index); if (current_value.IsUninitialized(isolate()) || current_value == value) { return true; } return current_value.IsNumber(isolate_) && value.IsNumber(isolate_) && Object::SameNumberValue(current_value.Number(), value.Number()); } } int LookupIterator::GetFieldDescriptorIndex() const { DCHECK(has_property_); DCHECK(holder_->HasFastProperties()); DCHECK_EQ(kField, property_details_.location()); DCHECK_EQ(kData, property_details_.kind()); return descriptor_number(); } int LookupIterator::GetAccessorIndex() const { DCHECK(has_property_); DCHECK(holder_->HasFastProperties(isolate_)); DCHECK_EQ(kDescriptor, property_details_.location()); DCHECK_EQ(kAccessor, property_details_.kind()); return descriptor_number(); } Handle LookupIterator::GetFieldOwnerMap() const { DCHECK(has_property_); DCHECK(holder_->HasFastProperties(isolate_)); DCHECK_EQ(kField, property_details_.location()); DCHECK(!IsElement()); Map holder_map = holder_->map(isolate_); return handle(holder_map.FindFieldOwner(isolate(), descriptor_number()), isolate_); } #if defined(__clang__) && defined(V8_OS_WIN) // Force function alignment to work around CPU bug: https://crbug.com/968683 __attribute__((__aligned__(32))) #endif FieldIndex LookupIterator::GetFieldIndex() const { DCHECK(has_property_); DCHECK(holder_->HasFastProperties(isolate_)); DCHECK_EQ(kField, property_details_.location()); DCHECK(!IsElement()); return FieldIndex::ForDescriptor(holder_->map(isolate_), descriptor_number()); } Handle LookupIterator::GetFieldType() const { DCHECK(has_property_); DCHECK(holder_->HasFastProperties(isolate_)); DCHECK_EQ(kField, property_details_.location()); return handle( holder_->map(isolate_).instance_descriptors(isolate_).GetFieldType( isolate_, descriptor_number()), isolate_); } Handle LookupIterator::GetPropertyCell() const { DCHECK(!IsElement()); Handle holder = GetHolder(); return handle( holder->global_dictionary(isolate_).CellAt(isolate_, dictionary_entry()), isolate_); } Handle LookupIterator::GetAccessors() const { DCHECK_EQ(ACCESSOR, state_); return FetchValue(); } Handle LookupIterator::GetDataValue() const { DCHECK_EQ(DATA, state_); Handle value = FetchValue(); return value; } void LookupIterator::WriteDataValue(Handle value, bool initializing_store) { DCHECK_EQ(DATA, state_); Handle holder = GetHolder(); if (IsElement()) { Handle object = Handle::cast(holder); ElementsAccessor* accessor = object->GetElementsAccessor(isolate_); accessor->Set(object, number_, *value); } else if (holder->HasFastProperties(isolate_)) { if (property_details_.location() == kField) { // Check that in case of VariableMode::kConst field the existing value is // equal to |value|. DCHECK_IMPLIES(!initializing_store && property_details_.constness() == PropertyConstness::kConst, IsConstFieldValueEqualTo(*value)); JSObject::cast(*holder).WriteToField(descriptor_number(), property_details_, *value); } else { DCHECK_EQ(kDescriptor, property_details_.location()); DCHECK_EQ(PropertyConstness::kConst, property_details_.constness()); } } else if (holder->IsJSGlobalObject(isolate_)) { GlobalDictionary dictionary = JSGlobalObject::cast(*holder).global_dictionary(isolate_); dictionary.CellAt(isolate_, dictionary_entry()).set_value(*value); } else { DCHECK_IMPLIES(holder->IsJSProxy(isolate_), name()->IsPrivate(isolate_)); NameDictionary dictionary = holder->property_dictionary(isolate_); dictionary.ValueAtPut(dictionary_entry(), *value); } } template bool LookupIterator::SkipInterceptor(JSObject holder) { InterceptorInfo info = GetInterceptor(isolate_, holder); if (!is_element && name_->IsSymbol(isolate_) && !info.can_intercept_symbols()) { return true; } if (info.non_masking()) { switch (interceptor_state_) { case InterceptorState::kUninitialized: interceptor_state_ = InterceptorState::kSkipNonMasking; V8_FALLTHROUGH; case InterceptorState::kSkipNonMasking: return true; case InterceptorState::kProcessNonMasking: return false; } } return interceptor_state_ == InterceptorState::kProcessNonMasking; } JSReceiver LookupIterator::NextHolder(Map map) { DisallowHeapAllocation no_gc; if (map.prototype(isolate_) == ReadOnlyRoots(isolate_).null_value()) { return JSReceiver(); } if (!check_prototype_chain() && !map.IsJSGlobalProxyMap()) { return JSReceiver(); } return JSReceiver::cast(map.prototype(isolate_)); } LookupIterator::State LookupIterator::NotFound(JSReceiver const holder) const { DCHECK(!IsElement()); if (!holder.IsJSTypedArray(isolate_) || !name_->IsString(isolate_)) return NOT_FOUND; return IsSpecialIndex(String::cast(*name_)) ? INTEGER_INDEXED_EXOTIC : NOT_FOUND; } namespace { template bool HasInterceptor(Map map) { return is_element ? map.has_indexed_interceptor() : map.has_named_interceptor(); } } // namespace template LookupIterator::State LookupIterator::LookupInSpecialHolder( Map const map, JSReceiver const holder) { STATIC_ASSERT(INTERCEPTOR == BEFORE_PROPERTY); switch (state_) { case NOT_FOUND: if (map.IsJSProxyMap()) { if (is_element || !name_->IsPrivate(isolate_)) return JSPROXY; } if (map.is_access_check_needed()) { if (is_element || !name_->IsPrivate(isolate_)) return ACCESS_CHECK; } V8_FALLTHROUGH; case ACCESS_CHECK: if (check_interceptor() && HasInterceptor(map) && !SkipInterceptor(JSObject::cast(holder))) { if (is_element || !name_->IsPrivate(isolate_)) return INTERCEPTOR; } V8_FALLTHROUGH; case INTERCEPTOR: if (!is_element && map.IsJSGlobalObjectMap()) { GlobalDictionary dict = JSGlobalObject::cast(holder).global_dictionary(isolate_); int number = dict.FindEntry(isolate(), name_); if (number == GlobalDictionary::kNotFound) return NOT_FOUND; number_ = static_cast(number); PropertyCell cell = dict.CellAt(isolate_, number_); if (cell.value(isolate_).IsTheHole(isolate_)) return NOT_FOUND; property_details_ = cell.property_details(); has_property_ = true; switch (property_details_.kind()) { case v8::internal::kData: return DATA; case v8::internal::kAccessor: return ACCESSOR; } } return LookupInRegularHolder(map, holder); case ACCESSOR: case DATA: return NOT_FOUND; case INTEGER_INDEXED_EXOTIC: case JSPROXY: case TRANSITION: UNREACHABLE(); } UNREACHABLE(); } template LookupIterator::State LookupIterator::LookupInRegularHolder( Map const map, JSReceiver const holder) { DisallowHeapAllocation no_gc; if (interceptor_state_ == InterceptorState::kProcessNonMasking) { return NOT_FOUND; } if (is_element) { JSObject js_object = JSObject::cast(holder); ElementsAccessor* accessor = js_object.GetElementsAccessor(isolate_); FixedArrayBase backing_store = js_object.elements(isolate_); number_ = accessor->GetEntryForIndex(isolate_, js_object, backing_store, index_); if (number_ == kMaxUInt32) { return holder.IsJSTypedArray(isolate_) ? INTEGER_INDEXED_EXOTIC : NOT_FOUND; } property_details_ = accessor->GetDetails(js_object, number_); if (map.has_frozen_elements()) { property_details_ = property_details_.CopyAddAttributes(FROZEN); } else if (map.has_sealed_elements()) { property_details_ = property_details_.CopyAddAttributes(SEALED); } } else if (!map.is_dictionary_map()) { DescriptorArray descriptors = map.instance_descriptors(isolate_); int number = descriptors.SearchWithCache(isolate_, *name_, map); if (number == DescriptorArray::kNotFound) return NotFound(holder); number_ = static_cast(number); property_details_ = descriptors.GetDetails(number_); } else { DCHECK_IMPLIES(holder.IsJSProxy(isolate_), name()->IsPrivate(isolate_)); NameDictionary dict = holder.property_dictionary(isolate_); int number = dict.FindEntry(isolate(), name_); if (number == NameDictionary::kNotFound) return NotFound(holder); number_ = static_cast(number); property_details_ = dict.DetailsAt(number_); } has_property_ = true; switch (property_details_.kind()) { case v8::internal::kData: return DATA; case v8::internal::kAccessor: return ACCESSOR; } UNREACHABLE(); } Handle LookupIterator::GetInterceptorForFailedAccessCheck() const { DCHECK_EQ(ACCESS_CHECK, state_); DisallowHeapAllocation no_gc; AccessCheckInfo access_check_info = AccessCheckInfo::Get(isolate_, Handle::cast(holder_)); if (!access_check_info.is_null()) { Object interceptor = IsElement() ? access_check_info.indexed_interceptor() : access_check_info.named_interceptor(); if (interceptor != Object()) { return handle(InterceptorInfo::cast(interceptor), isolate_); } } return Handle(); } bool LookupIterator::TryLookupCachedProperty() { return state() == LookupIterator::ACCESSOR && GetAccessors()->IsAccessorPair(isolate_) && LookupCachedProperty(); } bool LookupIterator::LookupCachedProperty() { DCHECK_EQ(state(), LookupIterator::ACCESSOR); DCHECK(GetAccessors()->IsAccessorPair(isolate_)); AccessorPair accessor_pair = AccessorPair::cast(*GetAccessors()); Handle getter(accessor_pair.getter(isolate_), isolate()); MaybeHandle maybe_name = FunctionTemplateInfo::TryGetCachedPropertyName(isolate(), getter); if (maybe_name.is_null()) return false; // We have found a cached property! Modify the iterator accordingly. name_ = maybe_name.ToHandleChecked(); Restart(); CHECK_EQ(state(), LookupIterator::DATA); return true; } } // namespace internal } // namespace v8