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// 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-async-gen.h"
#include "src/builtins/builtins-utils-gen.h"
#include "src/heap/factory-inl.h"
#include "src/objects/js-promise.h"
#include "src/objects/shared-function-info.h"
namespace v8 {
namespace internal {
using compiler::Node;
namespace {
// Describe fields of Context associated with the AsyncIterator unwrap closure.
class ValueUnwrapContext {
public:
enum Fields { kDoneSlot = Context::MIN_CONTEXT_SLOTS, kLength };
};
} // namespace
Node* AsyncBuiltinsAssembler::AwaitOld(Node* context, Node* generator,
Node* value, Node* outer_promise,
Node* on_resolve_context_index,
Node* on_reject_context_index,
Node* is_predicted_as_caught) {
TNode<NativeContext> const native_context = LoadNativeContext(context);
static const int kWrappedPromiseOffset =
FixedArray::SizeFor(Context::MIN_CONTEXT_SLOTS);
static const int kResolveClosureOffset =
kWrappedPromiseOffset + JSPromise::kSizeWithEmbedderFields;
static const int kRejectClosureOffset =
kResolveClosureOffset + JSFunction::kSizeWithoutPrototype;
static const int kTotalSize =
kRejectClosureOffset + JSFunction::kSizeWithoutPrototype;
TNode<HeapObject> base = AllocateInNewSpace(kTotalSize);
TNode<Context> closure_context = UncheckedCast<Context>(base);
{
// Initialize the await context, storing the {generator} as extension.
StoreMapNoWriteBarrier(closure_context, RootIndex::kAwaitContextMap);
StoreObjectFieldNoWriteBarrier(closure_context, Context::kLengthOffset,
SmiConstant(Context::MIN_CONTEXT_SLOTS));
TNode<Object> const empty_scope_info =
LoadContextElement(native_context, Context::SCOPE_INFO_INDEX);
StoreContextElementNoWriteBarrier(
closure_context, Context::SCOPE_INFO_INDEX, empty_scope_info);
StoreContextElementNoWriteBarrier(closure_context, Context::PREVIOUS_INDEX,
native_context);
StoreContextElementNoWriteBarrier(closure_context, Context::EXTENSION_INDEX,
generator);
StoreContextElementNoWriteBarrier(
closure_context, Context::NATIVE_CONTEXT_INDEX, native_context);
}
// Let promiseCapability be ! NewPromiseCapability(%Promise%).
TNode<JSFunction> const promise_fun =
CAST(LoadContextElement(native_context, Context::PROMISE_FUNCTION_INDEX));
CSA_ASSERT(this, IsFunctionWithPrototypeSlotMap(LoadMap(promise_fun)));
TNode<Map> const promise_map = CAST(
LoadObjectField(promise_fun, JSFunction::kPrototypeOrInitialMapOffset));
// Assert that the JSPromise map has an instance size is
// JSPromise::kSizeWithEmbedderFields.
CSA_ASSERT(this,
IntPtrEqual(LoadMapInstanceSizeInWords(promise_map),
IntPtrConstant(JSPromise::kSizeWithEmbedderFields /
kTaggedSize)));
TNode<HeapObject> wrapped_value = InnerAllocate(base, kWrappedPromiseOffset);
{
// Initialize Promise
StoreMapNoWriteBarrier(wrapped_value, promise_map);
StoreObjectFieldRoot(wrapped_value, JSPromise::kPropertiesOrHashOffset,
RootIndex::kEmptyFixedArray);
StoreObjectFieldRoot(wrapped_value, JSPromise::kElementsOffset,
RootIndex::kEmptyFixedArray);
PromiseInit(wrapped_value);
}
// Initialize resolve handler
TNode<HeapObject> on_resolve = InnerAllocate(base, kResolveClosureOffset);
InitializeNativeClosure(closure_context, native_context, on_resolve,
on_resolve_context_index);
// Initialize reject handler
TNode<HeapObject> on_reject = InnerAllocate(base, kRejectClosureOffset);
InitializeNativeClosure(closure_context, native_context, on_reject,
on_reject_context_index);
VARIABLE(var_throwaway, MachineRepresentation::kTaggedPointer,
UndefinedConstant());
// Deal with PromiseHooks and debug support in the runtime. This
// also allocates the throwaway promise, which is only needed in
// case of PromiseHooks or debugging.
Label if_debugging(this, Label::kDeferred), do_resolve_promise(this);
Branch(IsPromiseHookEnabledOrDebugIsActiveOrHasAsyncEventDelegate(),
&if_debugging, &do_resolve_promise);
BIND(&if_debugging);
var_throwaway.Bind(CallRuntime(Runtime::kAwaitPromisesInitOld, context, value,
wrapped_value, outer_promise, on_reject,
is_predicted_as_caught));
Goto(&do_resolve_promise);
BIND(&do_resolve_promise);
// Perform ! Call(promiseCapability.[[Resolve]], undefined, « promise »).
CallBuiltin(Builtins::kResolvePromise, context, wrapped_value, value);
return CallBuiltin(Builtins::kPerformPromiseThen, context, wrapped_value,
on_resolve, on_reject, var_throwaway.value());
}
Node* AsyncBuiltinsAssembler::AwaitOptimized(Node* context, Node* generator,
Node* promise, Node* outer_promise,
Node* on_resolve_context_index,
Node* on_reject_context_index,
Node* is_predicted_as_caught) {
TNode<NativeContext> const native_context = LoadNativeContext(context);
CSA_ASSERT(this, IsJSPromise(promise));
static const int kResolveClosureOffset =
FixedArray::SizeFor(Context::MIN_CONTEXT_SLOTS);
static const int kRejectClosureOffset =
kResolveClosureOffset + JSFunction::kSizeWithoutPrototype;
static const int kTotalSize =
kRejectClosureOffset + JSFunction::kSizeWithoutPrototype;
// 2. Let promise be ? PromiseResolve(« promise »).
// Node* const promise =
// CallBuiltin(Builtins::kPromiseResolve, context, promise_fun, value);
TNode<HeapObject> base = AllocateInNewSpace(kTotalSize);
TNode<Context> closure_context = UncheckedCast<Context>(base);
{
// Initialize the await context, storing the {generator} as extension.
StoreMapNoWriteBarrier(closure_context, RootIndex::kAwaitContextMap);
StoreObjectFieldNoWriteBarrier(closure_context, Context::kLengthOffset,
SmiConstant(Context::MIN_CONTEXT_SLOTS));
TNode<Object> const empty_scope_info =
LoadContextElement(native_context, Context::SCOPE_INFO_INDEX);
StoreContextElementNoWriteBarrier(
closure_context, Context::SCOPE_INFO_INDEX, empty_scope_info);
StoreContextElementNoWriteBarrier(closure_context, Context::PREVIOUS_INDEX,
native_context);
StoreContextElementNoWriteBarrier(closure_context, Context::EXTENSION_INDEX,
generator);
StoreContextElementNoWriteBarrier(
closure_context, Context::NATIVE_CONTEXT_INDEX, native_context);
}
// Initialize resolve handler
TNode<HeapObject> on_resolve = InnerAllocate(base, kResolveClosureOffset);
InitializeNativeClosure(closure_context, native_context, on_resolve,
on_resolve_context_index);
// Initialize reject handler
TNode<HeapObject> on_reject = InnerAllocate(base, kRejectClosureOffset);
InitializeNativeClosure(closure_context, native_context, on_reject,
on_reject_context_index);
VARIABLE(var_throwaway, MachineRepresentation::kTaggedPointer,
UndefinedConstant());
// Deal with PromiseHooks and debug support in the runtime. This
// also allocates the throwaway promise, which is only needed in
// case of PromiseHooks or debugging.
Label if_debugging(this, Label::kDeferred), do_perform_promise_then(this);
Branch(IsPromiseHookEnabledOrDebugIsActiveOrHasAsyncEventDelegate(),
&if_debugging, &do_perform_promise_then);
BIND(&if_debugging);
var_throwaway.Bind(CallRuntime(Runtime::kAwaitPromisesInit, context, promise,
promise, outer_promise, on_reject,
is_predicted_as_caught));
Goto(&do_perform_promise_then);
BIND(&do_perform_promise_then);
return CallBuiltin(Builtins::kPerformPromiseThen, native_context, promise,
on_resolve, on_reject, var_throwaway.value());
}
Node* AsyncBuiltinsAssembler::Await(Node* context, Node* generator, Node* value,
Node* outer_promise,
Node* on_resolve_context_index,
Node* on_reject_context_index,
Node* is_predicted_as_caught) {
VARIABLE(result, MachineRepresentation::kTagged);
Label if_old(this), if_new(this), done(this),
if_slow_constructor(this, Label::kDeferred);
// We do the `PromiseResolve(%Promise%,value)` avoiding to unnecessarily
// create wrapper promises. Now if {value} is already a promise with the
// intrinsics %Promise% constructor as its "constructor", we don't need
// to allocate the wrapper promise and can just use the `AwaitOptimized`
// logic.
GotoIf(TaggedIsSmi(value), &if_old);
TNode<Map> const value_map = LoadMap(value);
GotoIfNot(IsJSPromiseMap(value_map), &if_old);
// We can skip the "constructor" lookup on {value} if it's [[Prototype]]
// is the (initial) Promise.prototype and the @@species protector is
// intact, as that guards the lookup path for "constructor" on
// JSPromise instances which have the (initial) Promise.prototype.
TNode<NativeContext> const native_context = LoadNativeContext(context);
TNode<Object> const promise_prototype =
LoadContextElement(native_context, Context::PROMISE_PROTOTYPE_INDEX);
GotoIfNot(TaggedEqual(LoadMapPrototype(value_map), promise_prototype),
&if_slow_constructor);
Branch(IsPromiseSpeciesProtectorCellInvalid(), &if_slow_constructor, &if_new);
// At this point, {value} doesn't have the initial promise prototype or
// the promise @@species protector was invalidated, but {value} could still
// have the %Promise% as its "constructor", so we need to check that as well.
BIND(&if_slow_constructor);
{
TNode<Object> const value_constructor =
GetProperty(context, value, isolate()->factory()->constructor_string());
TNode<Object> const promise_function =
LoadContextElement(native_context, Context::PROMISE_FUNCTION_INDEX);
Branch(TaggedEqual(value_constructor, promise_function), &if_new, &if_old);
}
BIND(&if_old);
result.Bind(AwaitOld(context, generator, value, outer_promise,
on_resolve_context_index, on_reject_context_index,
is_predicted_as_caught));
Goto(&done);
BIND(&if_new);
result.Bind(AwaitOptimized(context, generator, value, outer_promise,
on_resolve_context_index, on_reject_context_index,
is_predicted_as_caught));
Goto(&done);
BIND(&done);
return result.value();
}
void AsyncBuiltinsAssembler::InitializeNativeClosure(Node* context,
Node* native_context,
Node* function,
Node* context_index) {
TNode<Map> function_map = CAST(LoadContextElement(
native_context, Context::STRICT_FUNCTION_WITHOUT_PROTOTYPE_MAP_INDEX));
// Ensure that we don't have to initialize prototype_or_initial_map field of
// JSFunction.
CSA_ASSERT(this,
IntPtrEqual(LoadMapInstanceSizeInWords(function_map),
IntPtrConstant(JSFunction::kSizeWithoutPrototype /
kTaggedSize)));
STATIC_ASSERT(JSFunction::kSizeWithoutPrototype == 7 * kTaggedSize);
StoreMapNoWriteBarrier(function, function_map);
StoreObjectFieldRoot(function, JSObject::kPropertiesOrHashOffset,
RootIndex::kEmptyFixedArray);
StoreObjectFieldRoot(function, JSObject::kElementsOffset,
RootIndex::kEmptyFixedArray);
StoreObjectFieldRoot(function, JSFunction::kFeedbackCellOffset,
RootIndex::kManyClosuresCell);
TNode<SharedFunctionInfo> shared_info =
CAST(LoadContextElement(native_context, context_index));
StoreObjectFieldNoWriteBarrier(
function, JSFunction::kSharedFunctionInfoOffset, shared_info);
StoreObjectFieldNoWriteBarrier(function, JSFunction::kContextOffset, context);
// For the native closures that are initialized here (for `await`)
// we know that their SharedFunctionInfo::function_data() slot
// contains a builtin index (as Smi), so there's no need to use
// CodeStubAssembler::GetSharedFunctionInfoCode() helper here,
// which almost doubles the size of `await` builtins (unnecessarily).
TNode<Smi> builtin_id = LoadObjectField<Smi>(
shared_info, SharedFunctionInfo::kFunctionDataOffset);
TNode<Code> code = LoadBuiltin(builtin_id);
StoreObjectFieldNoWriteBarrier(function, JSFunction::kCodeOffset, code);
}
Node* AsyncBuiltinsAssembler::CreateUnwrapClosure(Node* native_context,
Node* done) {
TNode<Object> const map = LoadContextElement(
native_context, Context::STRICT_FUNCTION_WITHOUT_PROTOTYPE_MAP_INDEX);
TNode<SharedFunctionInfo> const on_fulfilled_shared = CAST(LoadContextElement(
native_context, Context::ASYNC_ITERATOR_VALUE_UNWRAP_SHARED_FUN));
Node* const closure_context =
AllocateAsyncIteratorValueUnwrapContext(native_context, done);
return AllocateFunctionWithMapAndContext(map, on_fulfilled_shared,
closure_context);
}
Node* AsyncBuiltinsAssembler::AllocateAsyncIteratorValueUnwrapContext(
Node* native_context, Node* done) {
CSA_ASSERT(this, IsNativeContext(native_context));
CSA_ASSERT(this, IsBoolean(done));
Node* const context =
CreatePromiseContext(native_context, ValueUnwrapContext::kLength);
StoreContextElementNoWriteBarrier(context, ValueUnwrapContext::kDoneSlot,
done);
return context;
}
TF_BUILTIN(AsyncIteratorValueUnwrap, AsyncBuiltinsAssembler) {
Node* const value = Parameter(Descriptor::kValue);
Node* const context = Parameter(Descriptor::kContext);
TNode<Object> const done =
LoadContextElement(context, ValueUnwrapContext::kDoneSlot);
CSA_ASSERT(this, IsBoolean(CAST(done)));
TNode<Object> const unwrapped_value =
CallBuiltin(Builtins::kCreateIterResultObject, context, value, done);
Return(unwrapped_value);
}
} // namespace internal
} // namespace v8
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