| // Copyright 2016 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/builtins/builtins-proxy-gen.h" |
| #include "src/builtins/builtins-utils-gen.h" |
| #include "src/builtins/builtins-utils.h" |
| #include "src/builtins/builtins.h" |
| |
| #include "src/counters.h" |
| #include "src/objects-inl.h" |
| |
| namespace v8 { |
| namespace internal { |
| |
| // ES6 section 26.2.1.1 Proxy ( target, handler ) for the [[Call]] case. |
| TF_BUILTIN(ProxyConstructor, CodeStubAssembler) { |
| Node* context = Parameter(Descriptor::kContext); |
| ThrowTypeError(context, MessageTemplate::kConstructorNotFunction, "Proxy"); |
| } |
| |
| void ProxiesCodeStubAssembler::GotoIfRevokedProxy(Node* object, |
| Label* if_proxy_revoked) { |
| Label proxy_not_revoked(this); |
| GotoIfNot(IsJSProxy(object), &proxy_not_revoked); |
| Branch(IsJSReceiver(LoadObjectField(object, JSProxy::kHandlerOffset)), |
| &proxy_not_revoked, if_proxy_revoked); |
| BIND(&proxy_not_revoked); |
| } |
| |
| Node* ProxiesCodeStubAssembler::AllocateProxy(Node* target, Node* handler, |
| Node* context) { |
| VARIABLE(map, MachineRepresentation::kTagged); |
| |
| Label callable_target(this), constructor_target(this), none_target(this), |
| create_proxy(this); |
| |
| Node* nativeContext = LoadNativeContext(context); |
| |
| Branch(IsCallable(target), &callable_target, &none_target); |
| |
| BIND(&callable_target); |
| { |
| // Every object that is a constructor is implicitly callable |
| // so it's okay to nest this check here |
| GotoIf(IsConstructor(target), &constructor_target); |
| map.Bind( |
| LoadContextElement(nativeContext, Context::PROXY_CALLABLE_MAP_INDEX)); |
| Goto(&create_proxy); |
| } |
| BIND(&constructor_target); |
| { |
| map.Bind(LoadContextElement(nativeContext, |
| Context::PROXY_CONSTRUCTOR_MAP_INDEX)); |
| Goto(&create_proxy); |
| } |
| BIND(&none_target); |
| { |
| map.Bind(LoadContextElement(nativeContext, Context::PROXY_MAP_INDEX)); |
| Goto(&create_proxy); |
| } |
| |
| BIND(&create_proxy); |
| Node* proxy = Allocate(JSProxy::kSize); |
| StoreMapNoWriteBarrier(proxy, map.value()); |
| StoreObjectFieldRoot(proxy, JSProxy::kPropertiesOrHashOffset, |
| Heap::kEmptyPropertyDictionaryRootIndex); |
| StoreObjectFieldNoWriteBarrier(proxy, JSProxy::kTargetOffset, target); |
| StoreObjectFieldNoWriteBarrier(proxy, JSProxy::kHandlerOffset, handler); |
| |
| return proxy; |
| } |
| |
| Node* ProxiesCodeStubAssembler::AllocateJSArrayForCodeStubArguments( |
| Node* context, CodeStubArguments& args, Node* argc, ParameterMode mode) { |
| Node* native_context = LoadNativeContext(context); |
| Node* array_map = LoadJSArrayElementsMap(PACKED_ELEMENTS, native_context); |
| Node* argc_smi = ParameterToTagged(argc, mode); |
| |
| Node* array = AllocateJSArray(PACKED_ELEMENTS, array_map, argc, argc_smi, |
| nullptr, mode); |
| Node* elements = LoadElements(array); |
| |
| VARIABLE(index, MachineType::PointerRepresentation(), |
| IntPtrConstant(FixedArrayBase::kHeaderSize - kHeapObjectTag)); |
| VariableList list({&index}, zone()); |
| args.ForEach(list, [=, &index](Node* arg) { |
| StoreNoWriteBarrier(MachineRepresentation::kTagged, elements, index.value(), |
| arg); |
| Increment(&index, kPointerSize); |
| }); |
| return array; |
| } |
| |
| // ES6 section 26.2.1.1 Proxy ( target, handler ) for the [[Construct]] case. |
| TF_BUILTIN(ProxyConstructor_ConstructStub, ProxiesCodeStubAssembler) { |
| int const kTargetArg = 0; |
| int const kHandlerArg = 1; |
| |
| Node* argc = |
| ChangeInt32ToIntPtr(Parameter(BuiltinDescriptor::kArgumentsCount)); |
| CodeStubArguments args(this, argc); |
| |
| Node* target = args.GetOptionalArgumentValue(kTargetArg); |
| Node* handler = args.GetOptionalArgumentValue(kHandlerArg); |
| Node* context = Parameter(BuiltinDescriptor::kContext); |
| |
| Label throw_proxy_non_object(this, Label::kDeferred), |
| throw_proxy_handler_or_target_revoked(this, Label::kDeferred), |
| return_create_proxy(this); |
| |
| GotoIf(TaggedIsSmi(target), &throw_proxy_non_object); |
| GotoIfNot(IsJSReceiver(target), &throw_proxy_non_object); |
| GotoIfRevokedProxy(target, &throw_proxy_handler_or_target_revoked); |
| |
| GotoIf(TaggedIsSmi(handler), &throw_proxy_non_object); |
| GotoIfNot(IsJSReceiver(handler), &throw_proxy_non_object); |
| GotoIfRevokedProxy(handler, &throw_proxy_handler_or_target_revoked); |
| |
| args.PopAndReturn(AllocateProxy(target, handler, context)); |
| |
| BIND(&throw_proxy_non_object); |
| ThrowTypeError(context, MessageTemplate::kProxyNonObject); |
| |
| BIND(&throw_proxy_handler_or_target_revoked); |
| ThrowTypeError(context, MessageTemplate::kProxyHandlerOrTargetRevoked); |
| } |
| |
| Node* ProxiesCodeStubAssembler::CreateProxyRevokeFunctionContext( |
| Node* proxy, Node* native_context) { |
| Node* const context = Allocate(FixedArray::SizeFor(kProxyContextLength)); |
| StoreMapNoWriteBarrier(context, Heap::kFunctionContextMapRootIndex); |
| InitializeFunctionContext(native_context, context, kProxyContextLength); |
| StoreContextElementNoWriteBarrier(context, kProxySlot, proxy); |
| return context; |
| } |
| |
| Node* ProxiesCodeStubAssembler::AllocateProxyRevokeFunction(Node* proxy, |
| Node* context) { |
| Node* const native_context = LoadNativeContext(context); |
| |
| Node* const proxy_context = |
| CreateProxyRevokeFunctionContext(proxy, native_context); |
| Node* const revoke_map = LoadContextElement( |
| native_context, Context::STRICT_FUNCTION_WITHOUT_PROTOTYPE_MAP_INDEX); |
| Node* const revoke_info = |
| LoadContextElement(native_context, Context::PROXY_REVOKE_SHARED_FUN); |
| |
| return AllocateFunctionWithMapAndContext(revoke_map, revoke_info, |
| proxy_context); |
| } |
| |
| TF_BUILTIN(ProxyRevocable, ProxiesCodeStubAssembler) { |
| Node* const target = Parameter(Descriptor::kTarget); |
| Node* const handler = Parameter(Descriptor::kHandler); |
| Node* const context = Parameter(Descriptor::kContext); |
| Node* const native_context = LoadNativeContext(context); |
| |
| Label throw_proxy_non_object(this, Label::kDeferred), |
| throw_proxy_handler_or_target_revoked(this, Label::kDeferred), |
| return_create_proxy(this); |
| |
| GotoIf(TaggedIsSmi(target), &throw_proxy_non_object); |
| GotoIfNot(IsJSReceiver(target), &throw_proxy_non_object); |
| GotoIfRevokedProxy(target, &throw_proxy_handler_or_target_revoked); |
| |
| GotoIf(TaggedIsSmi(handler), &throw_proxy_non_object); |
| GotoIfNot(IsJSReceiver(handler), &throw_proxy_non_object); |
| GotoIfRevokedProxy(handler, &throw_proxy_handler_or_target_revoked); |
| |
| Node* const proxy = AllocateProxy(target, handler, context); |
| Node* const revoke = AllocateProxyRevokeFunction(proxy, context); |
| |
| Node* const result = Allocate(JSProxyRevocableResult::kSize); |
| Node* const result_map = LoadContextElement( |
| native_context, Context::PROXY_REVOCABLE_RESULT_MAP_INDEX); |
| StoreMapNoWriteBarrier(result, result_map); |
| StoreObjectFieldRoot(result, JSProxyRevocableResult::kPropertiesOrHashOffset, |
| Heap::kEmptyFixedArrayRootIndex); |
| StoreObjectFieldRoot(result, JSProxyRevocableResult::kElementsOffset, |
| Heap::kEmptyFixedArrayRootIndex); |
| StoreObjectFieldNoWriteBarrier(result, JSProxyRevocableResult::kProxyOffset, |
| proxy); |
| StoreObjectFieldNoWriteBarrier(result, JSProxyRevocableResult::kRevokeOffset, |
| revoke); |
| Return(result); |
| |
| BIND(&throw_proxy_non_object); |
| ThrowTypeError(context, MessageTemplate::kProxyNonObject); |
| |
| BIND(&throw_proxy_handler_or_target_revoked); |
| ThrowTypeError(context, MessageTemplate::kProxyHandlerOrTargetRevoked); |
| } |
| |
| // Proxy Revocation Functions |
| // https://tc39.github.io/ecma262/#sec-proxy-revocation-functions |
| TF_BUILTIN(ProxyRevoke, ProxiesCodeStubAssembler) { |
| Node* const context = Parameter(Descriptor::kContext); |
| |
| // 1. Let p be F.[[RevocableProxy]]. |
| Node* const proxy_slot = IntPtrConstant(kProxySlot); |
| Node* const proxy = LoadContextElement(context, proxy_slot); |
| |
| Label revoke_called(this); |
| |
| // 2. If p is null, ... |
| GotoIf(IsNull(proxy), &revoke_called); |
| |
| // 3. Set F.[[RevocableProxy]] to null. |
| StoreContextElement(context, proxy_slot, NullConstant()); |
| |
| // 4. Assert: p is a Proxy object. |
| CSA_ASSERT(this, IsJSProxy(proxy)); |
| |
| // 5. Set p.[[ProxyTarget]] to null. |
| StoreObjectField(proxy, JSProxy::kTargetOffset, NullConstant()); |
| |
| // 6. Set p.[[ProxyHandler]] to null. |
| StoreObjectField(proxy, JSProxy::kHandlerOffset, NullConstant()); |
| |
| // 7. Return undefined. |
| Return(UndefinedConstant()); |
| |
| BIND(&revoke_called); |
| // 2. ... return undefined. |
| Return(UndefinedConstant()); |
| } |
| |
| TF_BUILTIN(CallProxy, ProxiesCodeStubAssembler) { |
| Node* argc = Parameter(Descriptor::kActualArgumentsCount); |
| Node* argc_ptr = ChangeInt32ToIntPtr(argc); |
| Node* proxy = Parameter(Descriptor::kFunction); |
| Node* context = Parameter(Descriptor::kContext); |
| |
| CSA_ASSERT(this, IsJSProxy(proxy)); |
| CSA_ASSERT(this, IsCallable(proxy)); |
| |
| PerformStackCheck(context); |
| |
| Label throw_proxy_handler_revoked(this, Label::kDeferred), |
| trap_undefined(this); |
| |
| // 1. Let handler be the value of the [[ProxyHandler]] internal slot of O. |
| Node* handler = LoadObjectField(proxy, JSProxy::kHandlerOffset); |
| |
| // 2. If handler is null, throw a TypeError exception. |
| CSA_ASSERT(this, IsNullOrJSReceiver(handler)); |
| GotoIfNot(IsJSReceiver(handler), &throw_proxy_handler_revoked); |
| |
| // 3. Assert: Type(handler) is Object. |
| CSA_ASSERT(this, IsJSReceiver(handler)); |
| |
| // 4. Let target be the value of the [[ProxyTarget]] internal slot of O. |
| Node* target = LoadObjectField(proxy, JSProxy::kTargetOffset); |
| |
| // 5. Let trap be ? GetMethod(handler, "apply"). |
| // 6. If trap is undefined, then |
| Handle<Name> trap_name = factory()->apply_string(); |
| Node* trap = GetMethod(context, handler, trap_name, &trap_undefined); |
| |
| CodeStubArguments args(this, argc_ptr); |
| Node* receiver = args.GetReceiver(); |
| |
| // 7. Let argArray be CreateArrayFromList(argumentsList). |
| Node* array = AllocateJSArrayForCodeStubArguments(context, args, argc_ptr, |
| INTPTR_PARAMETERS); |
| |
| // 8. Return Call(trap, handler, «target, thisArgument, argArray»). |
| Node* result = CallJS(CodeFactory::Call(isolate()), context, trap, handler, |
| target, receiver, array); |
| args.PopAndReturn(result); |
| |
| BIND(&trap_undefined); |
| { |
| // 6.a. Return Call(target, thisArgument, argumentsList). |
| TailCallStub(CodeFactory::Call(isolate()), context, target, argc); |
| } |
| |
| BIND(&throw_proxy_handler_revoked); |
| { ThrowTypeError(context, MessageTemplate::kProxyRevoked, "apply"); } |
| } |
| |
| TF_BUILTIN(ConstructProxy, ProxiesCodeStubAssembler) { |
| Node* argc = Parameter(Descriptor::kActualArgumentsCount); |
| Node* argc_ptr = ChangeInt32ToIntPtr(argc); |
| Node* proxy = Parameter(Descriptor::kFunction); |
| Node* new_target = Parameter(Descriptor::kNewTarget); |
| Node* context = Parameter(Descriptor::kContext); |
| |
| CSA_ASSERT(this, IsJSProxy(proxy)); |
| CSA_ASSERT(this, IsCallable(proxy)); |
| |
| Label throw_proxy_handler_revoked(this, Label::kDeferred), |
| trap_undefined(this), not_an_object(this, Label::kDeferred); |
| |
| // 1. Let handler be the value of the [[ProxyHandler]] internal slot of O. |
| Node* handler = LoadObjectField(proxy, JSProxy::kHandlerOffset); |
| |
| // 2. If handler is null, throw a TypeError exception. |
| CSA_ASSERT(this, IsNullOrJSReceiver(handler)); |
| GotoIfNot(IsJSReceiver(handler), &throw_proxy_handler_revoked); |
| |
| // 3. Assert: Type(handler) is Object. |
| CSA_ASSERT(this, IsJSReceiver(handler)); |
| |
| // 4. Let target be the value of the [[ProxyTarget]] internal slot of O. |
| Node* target = LoadObjectField(proxy, JSProxy::kTargetOffset); |
| |
| // 5. Let trap be ? GetMethod(handler, "construct"). |
| // 6. If trap is undefined, then |
| Handle<Name> trap_name = factory()->construct_string(); |
| Node* trap = GetMethod(context, handler, trap_name, &trap_undefined); |
| |
| CodeStubArguments args(this, argc_ptr); |
| |
| // 7. Let argArray be CreateArrayFromList(argumentsList). |
| Node* array = AllocateJSArrayForCodeStubArguments(context, args, argc_ptr, |
| INTPTR_PARAMETERS); |
| |
| // 8. Let newObj be ? Call(trap, handler, « target, argArray, newTarget »). |
| Node* new_obj = CallJS(CodeFactory::Call(isolate()), context, trap, handler, |
| target, array, new_target); |
| |
| // 9. If Type(newObj) is not Object, throw a TypeError exception. |
| GotoIf(TaggedIsSmi(new_obj), ¬_an_object); |
| GotoIfNot(IsJSReceiver(new_obj), ¬_an_object); |
| |
| // 10. Return newObj. |
| args.PopAndReturn(new_obj); |
| |
| BIND(¬_an_object); |
| { |
| ThrowTypeError(context, MessageTemplate::kProxyConstructNonObject, new_obj); |
| } |
| |
| BIND(&trap_undefined); |
| { |
| // 6.a. Assert: target has a [[Construct]] internal method. |
| CSA_ASSERT(this, IsConstructor(target)); |
| |
| // 6.b. Return ? Construct(target, argumentsList, newTarget). |
| TailCallStub(CodeFactory::Construct(isolate()), context, target, new_target, |
| argc); |
| } |
| |
| BIND(&throw_proxy_handler_revoked); |
| { ThrowTypeError(context, MessageTemplate::kProxyRevoked, "construct"); } |
| } |
| |
| TF_BUILTIN(ProxyHasProperty, ProxiesCodeStubAssembler) { |
| Node* context = Parameter(Descriptor::kContext); |
| Node* proxy = Parameter(Descriptor::kProxy); |
| Node* name = Parameter(Descriptor::kName); |
| |
| CSA_ASSERT(this, IsJSProxy(proxy)); |
| |
| // 1. Assert: IsPropertyKey(P) is true. |
| CSA_ASSERT(this, IsName(name)); |
| CSA_ASSERT(this, Word32Equal(IsPrivateSymbol(name), Int32Constant(0))); |
| |
| Label throw_proxy_handler_revoked(this, Label::kDeferred), |
| trap_undefined(this), |
| if_try_get_own_property_bailout(this, Label::kDeferred), |
| trap_not_callable(this, Label::kDeferred), return_true(this), |
| return_false(this), check_target_desc(this); |
| |
| // 2. Let handler be O.[[ProxyHandler]]. |
| Node* handler = LoadObjectField(proxy, JSProxy::kHandlerOffset); |
| |
| // 3. If handler is null, throw a TypeError exception. |
| // 4. Assert: Type(handler) is Object. |
| GotoIfNot(IsJSReceiver(handler), &throw_proxy_handler_revoked); |
| |
| // 5. Let target be O.[[ProxyTarget]]. |
| Node* target = LoadObjectField(proxy, JSProxy::kTargetOffset); |
| |
| // 6. Let trap be ? GetMethod(handler, "has"). |
| // 7. If trap is undefined, then (see 7.a below). |
| Handle<Name> trap_name = factory()->has_string(); |
| Node* trap = GetMethod(context, handler, trap_name, &trap_undefined); |
| |
| GotoIf(TaggedIsSmi(trap), &trap_not_callable); |
| GotoIfNot(IsCallable(trap), &trap_not_callable); |
| |
| // 8. Let booleanTrapResult be ToBoolean(? Call(trap, handler, « target, P |
| // »)). |
| BranchIfToBooleanIsTrue(CallJS(CodeFactory::Call(isolate()), context, trap, |
| handler, target, name), |
| &return_true, &check_target_desc); |
| |
| BIND(&check_target_desc); |
| { |
| // 9. If booleanTrapResult is false, then (see 9.a. in CheckHasTrapResult). |
| CheckHasTrapResult(context, target, proxy, name, &return_false, |
| &if_try_get_own_property_bailout); |
| } |
| |
| BIND(&if_try_get_own_property_bailout); |
| { |
| CallRuntime(Runtime::kCheckProxyHasTrap, context, name, target); |
| Return(FalseConstant()); |
| } |
| |
| BIND(&trap_undefined); |
| { |
| // 7.a. Return ? target.[[HasProperty]](P). |
| TailCallStub(Builtins::CallableFor(isolate(), Builtins::kHasProperty), |
| context, name, target); |
| } |
| |
| BIND(&return_false); |
| Return(FalseConstant()); |
| |
| BIND(&return_true); |
| Return(TrueConstant()); |
| |
| BIND(&throw_proxy_handler_revoked); |
| ThrowTypeError(context, MessageTemplate::kProxyRevoked, "has"); |
| |
| BIND(&trap_not_callable); |
| ThrowTypeError(context, MessageTemplate::kPropertyNotFunction, trap, |
| StringConstant("has"), proxy); |
| } |
| |
| TF_BUILTIN(ProxyGetProperty, ProxiesCodeStubAssembler) { |
| Node* context = Parameter(Descriptor::kContext); |
| Node* proxy = Parameter(Descriptor::kProxy); |
| Node* name = Parameter(Descriptor::kName); |
| Node* receiver = Parameter(Descriptor::kReceiverValue); |
| |
| CSA_ASSERT(this, IsJSProxy(proxy)); |
| |
| // 1. Assert: IsPropertyKey(P) is true. |
| CSA_ASSERT(this, TaggedIsNotSmi(name)); |
| CSA_ASSERT(this, IsName(name)); |
| CSA_ASSERT(this, Word32Equal(IsPrivateSymbol(name), Int32Constant(0))); |
| |
| Label throw_proxy_handler_revoked(this, Label::kDeferred), |
| trap_undefined(this); |
| |
| // 2. Let handler be O.[[ProxyHandler]]. |
| Node* handler = LoadObjectField(proxy, JSProxy::kHandlerOffset); |
| |
| // 3. If handler is null, throw a TypeError exception. |
| GotoIf(IsNull(handler), &throw_proxy_handler_revoked); |
| |
| // 4. Assert: Type(handler) is Object. |
| CSA_ASSERT(this, IsJSReceiver(handler)); |
| |
| // 5. Let target be O.[[ProxyTarget]]. |
| Node* target = LoadObjectField(proxy, JSProxy::kTargetOffset); |
| |
| // 6. Let trap be ? GetMethod(handler, "get"). |
| // 7. If trap is undefined, then (see 7.a below). |
| Handle<Name> trap_name = factory()->get_string(); |
| Node* trap = GetMethod(context, handler, trap_name, &trap_undefined); |
| |
| // 8. Let trapResult be ? Call(trap, handler, « target, P, Receiver »). |
| Node* trap_result = CallJS( |
| CodeFactory::Call(isolate(), ConvertReceiverMode::kNotNullOrUndefined), |
| context, trap, handler, target, name, receiver); |
| |
| // 9. Let targetDesc be ? target.[[GetOwnProperty]](P). |
| Label return_result(this); |
| CheckGetSetTrapResult(context, target, proxy, name, trap_result, |
| &return_result, JSProxy::kGet); |
| |
| BIND(&return_result); |
| { |
| // 11. Return trapResult. |
| Return(trap_result); |
| } |
| |
| BIND(&trap_undefined); |
| { |
| // 7.a. Return ? target.[[Get]](P, Receiver). |
| // TODO(mslekova): Introduce GetPropertyWithReceiver stub |
| Return(CallRuntime(Runtime::kGetPropertyWithReceiver, context, target, name, |
| receiver)); |
| } |
| |
| BIND(&throw_proxy_handler_revoked); |
| ThrowTypeError(context, MessageTemplate::kProxyRevoked, "get"); |
| } |
| |
| TF_BUILTIN(ProxySetProperty, ProxiesCodeStubAssembler) { |
| Node* context = Parameter(Descriptor::kContext); |
| Node* proxy = Parameter(Descriptor::kProxy); |
| Node* name = Parameter(Descriptor::kName); |
| Node* value = Parameter(Descriptor::kValue); |
| Node* receiver = Parameter(Descriptor::kReceiverValue); |
| Node* language_mode = Parameter(Descriptor::kLanguageMode); |
| |
| CSA_ASSERT(this, IsJSProxy(proxy)); |
| |
| // 1. Assert: IsPropertyKey(P) is true. |
| CSA_ASSERT(this, TaggedIsNotSmi(name)); |
| CSA_ASSERT(this, IsName(name)); |
| |
| Label throw_proxy_handler_revoked(this, Label::kDeferred), |
| trap_undefined(this), failure(this, Label::kDeferred), |
| continue_checks(this), success(this), |
| private_symbol(this, Label::kDeferred); |
| |
| GotoIf(IsPrivateSymbol(name), &private_symbol); |
| |
| // 2. Let handler be O.[[ProxyHandler]]. |
| Node* handler = LoadObjectField(proxy, JSProxy::kHandlerOffset); |
| |
| // 3. If handler is null, throw a TypeError exception. |
| GotoIfNot(IsJSReceiver(handler), &throw_proxy_handler_revoked); |
| |
| // 4. Assert: Type(handler) is Object. |
| CSA_ASSERT(this, IsJSReceiver(handler)); |
| |
| // 5. Let target be O.[[ProxyTarget]]. |
| Node* target = LoadObjectField(proxy, JSProxy::kTargetOffset); |
| |
| // 6. Let trap be ? GetMethod(handler, "set"). |
| // 7. If trap is undefined, then (see 7.a below). |
| Handle<Name> set_string = factory()->set_string(); |
| Node* trap = GetMethod(context, handler, set_string, &trap_undefined); |
| |
| // 8. Let booleanTrapResult be ToBoolean(? Call(trap, handler, |
| // « target, P, V, Receiver »)). |
| // 9. If booleanTrapResult is false, return false. |
| BranchIfToBooleanIsTrue( |
| CallJS(CodeFactory::Call(isolate(), |
| ConvertReceiverMode::kNotNullOrUndefined), |
| context, trap, handler, target, name, value, receiver), |
| &continue_checks, &failure); |
| |
| BIND(&continue_checks); |
| { |
| // 9. Let targetDesc be ? target.[[GetOwnProperty]](P). |
| Label return_result(this); |
| CheckGetSetTrapResult(context, target, proxy, name, value, &success, |
| JSProxy::kSet); |
| } |
| |
| BIND(&failure); |
| { |
| Label if_throw(this, Label::kDeferred); |
| Branch(SmiEqual(language_mode, SmiConstant(LanguageMode::kStrict)), |
| &if_throw, &success); |
| |
| BIND(&if_throw); |
| ThrowTypeError(context, MessageTemplate::kProxyTrapReturnedFalsishFor, |
| HeapConstant(set_string), name); |
| } |
| |
| // 12. Return true. |
| BIND(&success); |
| Return(value); |
| |
| BIND(&private_symbol); |
| { |
| Label failure(this), throw_error(this, Label::kDeferred); |
| |
| Branch(SmiEqual(language_mode, SmiConstant(LanguageMode::kStrict)), |
| &throw_error, &failure); |
| |
| BIND(&failure); |
| Return(UndefinedConstant()); |
| |
| BIND(&throw_error); |
| ThrowTypeError(context, MessageTemplate::kProxyPrivate); |
| } |
| |
| BIND(&trap_undefined); |
| { |
| // 7.a. Return ? target.[[Set]](P, V, Receiver). |
| CallRuntime(Runtime::kSetPropertyWithReceiver, context, target, name, value, |
| receiver, language_mode); |
| Return(value); |
| } |
| |
| BIND(&throw_proxy_handler_revoked); |
| ThrowTypeError(context, MessageTemplate::kProxyRevoked, "set"); |
| } |
| |
| void ProxiesCodeStubAssembler::CheckGetSetTrapResult( |
| Node* context, Node* target, Node* proxy, Node* name, Node* trap_result, |
| Label* check_passed, JSProxy::AccessKind access_kind) { |
| Node* map = LoadMap(target); |
| VARIABLE(var_value, MachineRepresentation::kTagged); |
| VARIABLE(var_details, MachineRepresentation::kWord32); |
| VARIABLE(var_raw_value, MachineRepresentation::kTagged); |
| |
| Label if_found_value(this), check_in_runtime(this, Label::kDeferred); |
| |
| Node* instance_type = LoadInstanceType(target); |
| TryGetOwnProperty(context, target, target, map, instance_type, name, |
| &if_found_value, &var_value, &var_details, &var_raw_value, |
| check_passed, &check_in_runtime, kReturnAccessorPair); |
| |
| BIND(&if_found_value); |
| { |
| Label throw_non_configurable_data(this, Label::kDeferred), |
| throw_non_configurable_accessor(this, Label::kDeferred), |
| check_accessor(this), check_data(this); |
| |
| // If targetDesc is not undefined and targetDesc.[[Configurable]] is |
| // false, then: |
| GotoIfNot(IsSetWord32(var_details.value(), |
| PropertyDetails::kAttributesDontDeleteMask), |
| check_passed); |
| |
| // If IsDataDescriptor(targetDesc) is true and |
| // targetDesc.[[Writable]] is false, then: |
| BranchIfAccessorPair(var_raw_value.value(), &check_accessor, &check_data); |
| |
| BIND(&check_data); |
| { |
| Node* read_only = IsSetWord32(var_details.value(), |
| PropertyDetails::kAttributesReadOnlyMask); |
| GotoIfNot(read_only, check_passed); |
| |
| // If SameValue(trapResult, targetDesc.[[Value]]) is false, |
| // throw a TypeError exception. |
| BranchIfSameValue(trap_result, var_value.value(), check_passed, |
| &throw_non_configurable_data); |
| } |
| |
| BIND(&check_accessor); |
| { |
| Node* accessor_pair = var_raw_value.value(); |
| |
| if (access_kind == JSProxy::kGet) { |
| Label continue_check(this, Label::kDeferred); |
| // 10.b. If IsAccessorDescriptor(targetDesc) is true and |
| // targetDesc.[[Get]] is undefined, then: |
| Node* getter = |
| LoadObjectField(accessor_pair, AccessorPair::kGetterOffset); |
| // Here we check for null as well because if the getter was never |
| // defined it's set as null. |
| GotoIf(IsUndefined(getter), &continue_check); |
| GotoIf(IsNull(getter), &continue_check); |
| Goto(check_passed); |
| |
| // 10.b.i. If trapResult is not undefined, throw a TypeError exception. |
| BIND(&continue_check); |
| GotoIfNot(IsUndefined(trap_result), &throw_non_configurable_accessor); |
| } else { |
| // 11.b.i. If targetDesc.[[Set]] is undefined, throw a TypeError |
| // exception. |
| Node* setter = |
| LoadObjectField(accessor_pair, AccessorPair::kSetterOffset); |
| GotoIf(IsUndefined(setter), &throw_non_configurable_accessor); |
| GotoIf(IsNull(setter), &throw_non_configurable_accessor); |
| } |
| Goto(check_passed); |
| } |
| |
| BIND(&check_in_runtime); |
| { |
| CallRuntime(Runtime::kCheckProxyGetSetTrapResult, context, name, target, |
| trap_result, SmiConstant(access_kind)); |
| Return(trap_result); |
| } |
| |
| BIND(&throw_non_configurable_data); |
| { |
| ThrowTypeError(context, MessageTemplate::kProxyGetNonConfigurableData, |
| name, var_value.value(), trap_result); |
| } |
| |
| BIND(&throw_non_configurable_accessor); |
| { |
| ThrowTypeError(context, MessageTemplate::kProxyGetNonConfigurableAccessor, |
| name, trap_result); |
| } |
| } |
| } |
| |
| void ProxiesCodeStubAssembler::CheckHasTrapResult(Node* context, Node* target, |
| Node* proxy, Node* name, |
| Label* check_passed, |
| Label* if_bailout) { |
| Node* target_map = LoadMap(target); |
| VARIABLE(var_value, MachineRepresentation::kTagged); |
| VARIABLE(var_details, MachineRepresentation::kWord32); |
| VARIABLE(var_raw_value, MachineRepresentation::kTagged); |
| |
| Label if_found_value(this, Label::kDeferred), |
| throw_non_configurable(this, Label::kDeferred), |
| throw_non_extensible(this, Label::kDeferred); |
| |
| // 9.a. Let targetDesc be ? target.[[GetOwnProperty]](P). |
| Node* instance_type = LoadInstanceType(target); |
| TryGetOwnProperty(context, target, target, target_map, instance_type, name, |
| &if_found_value, &var_value, &var_details, &var_raw_value, |
| check_passed, if_bailout, kReturnAccessorPair); |
| |
| // 9.b. If targetDesc is not undefined, then (see 9.b.i. below). |
| BIND(&if_found_value); |
| { |
| // 9.b.i. If targetDesc.[[Configurable]] is false, throw a TypeError |
| // exception. |
| Node* non_configurable = IsSetWord32( |
| var_details.value(), PropertyDetails::kAttributesDontDeleteMask); |
| GotoIf(non_configurable, &throw_non_configurable); |
| |
| // 9.b.ii. Let extensibleTarget be ? IsExtensible(target). |
| Node* target_extensible = IsExtensibleMap(target_map); |
| |
| // 9.b.iii. If extensibleTarget is false, throw a TypeError exception. |
| GotoIfNot(target_extensible, &throw_non_extensible); |
| Goto(check_passed); |
| } |
| |
| BIND(&throw_non_configurable); |
| { ThrowTypeError(context, MessageTemplate::kProxyHasNonConfigurable, name); } |
| |
| BIND(&throw_non_extensible); |
| { ThrowTypeError(context, MessageTemplate::kProxyHasNonExtensible, name); } |
| } |
| |
| } // namespace internal |
| } // namespace v8 |
