src/third_party/v8/src/builtins/promise-misc.tq - cobalt - Git at Google

 // Copyright 2019 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-promise.h'
 #include 'src/builtins/builtins-promise-gen.h'

 namespace runtime {
 extern transitioning runtime
 AllowDynamicFunction(implicit context: Context)(JSAny): JSAny;
 }

 // Unsafe functions that should be used very carefully.
 namespace promise_internal {
 extern macro PromiseBuiltinsAssembler::ZeroOutEmbedderOffsets(JSPromise): void;

 extern macro PromiseBuiltinsAssembler::AllocateJSPromise(Context): HeapObject;
 }

 namespace promise {
 extern macro IsFunctionWithPrototypeSlotMap(Map): bool;

 @export
 macro PromiseHasHandler(promise: JSPromise): bool {
   return promise.HasHandler();
 }

 @export
 macro PromiseInit(promise: JSPromise): void {
   promise.reactions_or_result = kZero;
   promise.flags = SmiTag(JSPromiseFlags{
     status: PromiseState::kPending,
     has_handler: false,
     handled_hint: false,
     async_task_id: 0
   });
   promise_internal::ZeroOutEmbedderOffsets(promise);
 }

 macro InnerNewJSPromise(implicit context: Context)(): JSPromise {
   const promiseFun = *NativeContextSlot(ContextSlot::PROMISE_FUNCTION_INDEX);
   assert(IsFunctionWithPrototypeSlotMap(promiseFun.map));
   const promiseMap = UnsafeCast<Map>(promiseFun.prototype_or_initial_map);
   const promiseHeapObject = promise_internal::AllocateJSPromise(context);
   *UnsafeConstCast(&promiseHeapObject.map) = promiseMap;
   const promise = UnsafeCast<JSPromise>(promiseHeapObject);
   promise.properties_or_hash = kEmptyFixedArray;
   promise.elements = kEmptyFixedArray;
   promise.reactions_or_result = kZero;
   promise.flags = SmiTag(JSPromiseFlags{
     status: PromiseState::kPending,
     has_handler: false,
     handled_hint: false,
     async_task_id: 0
   });
   return promise;
 }

 macro NewPromiseFulfillReactionJobTask(implicit context: Context)(
     handlerContext: Context, argument: Object, handler: Callable|Undefined,
     promiseOrCapability: JSPromise|PromiseCapability|
     Undefined): PromiseFulfillReactionJobTask {
   const nativeContext = LoadNativeContext(handlerContext);
   return new PromiseFulfillReactionJobTask{
     map: PromiseFulfillReactionJobTaskMapConstant(),
     argument,
     context: handlerContext,
     handler,
     promise_or_capability: promiseOrCapability,
     continuation_preserved_embedder_data:
         *ContextSlot(
         nativeContext, ContextSlot::CONTINUATION_PRESERVED_EMBEDDER_DATA_INDEX)
   };
 }

 macro NewPromiseRejectReactionJobTask(implicit context: Context)(
     handlerContext: Context, argument: Object, handler: Callable|Undefined,
     promiseOrCapability: JSPromise|PromiseCapability|
     Undefined): PromiseRejectReactionJobTask {
   const nativeContext = LoadNativeContext(handlerContext);
   return new PromiseRejectReactionJobTask{
     map: PromiseRejectReactionJobTaskMapConstant(),
     argument,
     context: handlerContext,
     handler,
     promise_or_capability: promiseOrCapability,
     continuation_preserved_embedder_data:
         *ContextSlot(
         nativeContext, ContextSlot::CONTINUATION_PRESERVED_EMBEDDER_DATA_INDEX)
   };
 }

 // These allocate and initialize a promise with pending state and
 // undefined fields.
 //
 // This uses the given parent as the parent promise for the promise
 // init hook.
 @export
 transitioning macro NewJSPromise(implicit context: Context)(parent: Object):
     JSPromise {
   const instance = InnerNewJSPromise();
   PromiseInit(instance);
   if (IsPromiseHookEnabledOrHasAsyncEventDelegate()) {
     runtime::PromiseHookInit(instance, parent);
   }
   return instance;
 }

 // This uses undefined as the parent promise for the promise init
 // hook.
 @export
 transitioning macro NewJSPromise(implicit context: Context)(): JSPromise {
   return NewJSPromise(Undefined);
 }

 // This allocates and initializes a promise with the given state and
 // fields.
 @export
 transitioning macro NewJSPromise(implicit context: Context)(
     status: constexpr PromiseState, result: JSAny): JSPromise {
   assert(status != PromiseState::kPending);

   const instance = InnerNewJSPromise();
   instance.reactions_or_result = result;
   instance.SetStatus(status);
   promise_internal::ZeroOutEmbedderOffsets(instance);

   if (IsPromiseHookEnabledOrHasAsyncEventDelegate()) {
     runtime::PromiseHookInit(instance, Undefined);
   }
   return instance;
 }

 macro NewPromiseReaction(implicit context: Context)(
     handlerContext: Context, next: Zero|PromiseReaction,
     promiseOrCapability: JSPromise|PromiseCapability|Undefined,
     fulfillHandler: Callable|Undefined,
     rejectHandler: Callable|Undefined): PromiseReaction {
   const nativeContext = LoadNativeContext(handlerContext);
   return new PromiseReaction{
     map: PromiseReactionMapConstant(),
     next: next,
     reject_handler: rejectHandler,
     fulfill_handler: fulfillHandler,
     promise_or_capability: promiseOrCapability,
     continuation_preserved_embedder_data:
         *ContextSlot(
         nativeContext, ContextSlot::CONTINUATION_PRESERVED_EMBEDDER_DATA_INDEX)
   };
 }

 extern macro PromiseResolveThenableJobTaskMapConstant(): Map;

 // https://tc39.es/ecma262/#sec-newpromiseresolvethenablejob
 macro NewPromiseResolveThenableJobTask(implicit context: Context)(
     promiseToResolve: JSPromise, thenable: JSReceiver,
     then: Callable): PromiseResolveThenableJobTask {
   // 2. Let getThenRealmResult be GetFunctionRealm(then).
   // 3. If getThenRealmResult is a normal completion, then let thenRealm be
   //    getThenRealmResult.[[Value]].
   // 4. Otherwise, let thenRealm be null.
   //
   // The only cases where |thenRealm| can be null is when |then| is a revoked
   // Proxy object, which would throw when it is called anyway. So instead of
   // setting the context to null as the spec does, we just use the current
   // realm.
   const thenContext: Context = ExtractHandlerContext(then);
   const nativeContext = LoadNativeContext(thenContext);

   // 1. Let job be a new Job abstract closure with no parameters that
   //    captures promiseToResolve, thenable, and then...
   // 5. Return { [[Job]]: job, [[Realm]]: thenRealm }.
   return new PromiseResolveThenableJobTask{
     map: PromiseResolveThenableJobTaskMapConstant(),
     context: nativeContext,
     promise_to_resolve: promiseToResolve,
     thenable,
     then
   };
 }

 struct InvokeThenOneArgFunctor {
   transitioning
   macro Call(
       nativeContext: NativeContext, then: JSAny, receiver: JSAny, arg1: JSAny,
       _arg2: JSAny): JSAny {
     return Call(nativeContext, then, receiver, arg1);
   }
 }

 struct InvokeThenTwoArgFunctor {
   transitioning
   macro Call(
       nativeContext: NativeContext, then: JSAny, receiver: JSAny, arg1: JSAny,
       arg2: JSAny): JSAny {
     return Call(nativeContext, then, receiver, arg1, arg2);
   }
 }

 transitioning
 macro InvokeThen<F: type>(implicit context: Context)(
     nativeContext: NativeContext, receiver: JSAny, arg1: JSAny, arg2: JSAny,
     callFunctor: F): JSAny {
   // We can skip the "then" lookup on {receiver} if it's [[Prototype]]
   // is the (initial) Promise.prototype and the Promise#then protector
   // is intact, as that guards the lookup path for the "then" property
   // on JSPromise instances which have the (initial) %PromisePrototype%.
   if (!Is<Smi>(receiver) &&
       IsPromiseThenLookupChainIntact(
           nativeContext, UnsafeCast<HeapObject>(receiver).map)) {
     const then =
         *NativeContextSlot(nativeContext, ContextSlot::PROMISE_THEN_INDEX);
     return callFunctor.Call(nativeContext, then, receiver, arg1, arg2);
   } else
     deferred {
       const then = UnsafeCast<JSAny>(GetProperty(receiver, kThenString));
       return callFunctor.Call(nativeContext, then, receiver, arg1, arg2);
     }
 }

 transitioning
 macro InvokeThen(implicit context: Context)(
     nativeContext: NativeContext, receiver: JSAny, arg: JSAny): JSAny {
   return InvokeThen(
       nativeContext, receiver, arg, Undefined, InvokeThenOneArgFunctor{});
 }

 transitioning
 macro InvokeThen(implicit context: Context)(
     nativeContext: NativeContext, receiver: JSAny, arg1: JSAny,
     arg2: JSAny): JSAny {
   return InvokeThen(
       nativeContext, receiver, arg1, arg2, InvokeThenTwoArgFunctor{});
 }

 transitioning
 macro BranchIfAccessCheckFailed(implicit context: Context)(
     nativeContext: NativeContext, promiseConstructor: JSAny,
     executor: JSAny): void labels IfNoAccess {
   try {
     // If executor is a bound function, load the bound function until we've
     // reached an actual function.
     let foundExecutor = executor;
     while (true) {
       typeswitch (foundExecutor) {
         case (f: JSFunction): {
           // Load the context from the function and compare it to the Promise
           // constructor's context. If they match, everything is fine,
           // otherwise, bail out to the runtime.
           const functionContext = f.context;
           const nativeFunctionContext = LoadNativeContext(functionContext);
           if (TaggedEqual(nativeContext, nativeFunctionContext)) {
             goto HasAccess;
           } else {
             goto CallRuntime;
           }
         }
         case (b: JSBoundFunction): {
           foundExecutor = b.bound_target_function;
         }
         case (Object): {
           goto CallRuntime;
         }
       }
     }
   } label CallRuntime deferred {
     const result = runtime::AllowDynamicFunction(promiseConstructor);
     if (result != True) {
       goto IfNoAccess;
     }
   } label HasAccess {}
 }
 }
	// Copyright 2019 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-promise.h'
	#include 'src/builtins/builtins-promise-gen.h'

	namespace runtime {
	extern transitioning runtime
	AllowDynamicFunction(implicit context: Context)(JSAny): JSAny;
	}

	// Unsafe functions that should be used very carefully.
	namespace promise_internal {
	extern macro PromiseBuiltinsAssembler::ZeroOutEmbedderOffsets(JSPromise): void;

	extern macro PromiseBuiltinsAssembler::AllocateJSPromise(Context): HeapObject;
	}

	namespace promise {
	extern macro IsFunctionWithPrototypeSlotMap(Map): bool;

	@export
	macro PromiseHasHandler(promise: JSPromise): bool {
	return promise.HasHandler();
	}

	@export
	macro PromiseInit(promise: JSPromise): void {
	promise.reactions_or_result = kZero;
	promise.flags = SmiTag(JSPromiseFlags{
	status: PromiseState::kPending,
	has_handler: false,
	handled_hint: false,
	async_task_id: 0
	});
	promise_internal::ZeroOutEmbedderOffsets(promise);
	}

	macro InnerNewJSPromise(implicit context: Context)(): JSPromise {
	const promiseFun = *NativeContextSlot(ContextSlot::PROMISE_FUNCTION_INDEX);
	assert(IsFunctionWithPrototypeSlotMap(promiseFun.map));
	const promiseMap = UnsafeCast<Map>(promiseFun.prototype_or_initial_map);
	const promiseHeapObject = promise_internal::AllocateJSPromise(context);
	*UnsafeConstCast(&promiseHeapObject.map) = promiseMap;
	const promise = UnsafeCast<JSPromise>(promiseHeapObject);
	promise.properties_or_hash = kEmptyFixedArray;
	promise.elements = kEmptyFixedArray;
	promise.reactions_or_result = kZero;
	promise.flags = SmiTag(JSPromiseFlags{
	status: PromiseState::kPending,
	has_handler: false,
	handled_hint: false,
	async_task_id: 0
	});
	return promise;
	}

	macro NewPromiseFulfillReactionJobTask(implicit context: Context)(
	handlerContext: Context, argument: Object, handler: Callable\|Undefined,
	promiseOrCapability: JSPromise\|PromiseCapability\|
	Undefined): PromiseFulfillReactionJobTask {
	const nativeContext = LoadNativeContext(handlerContext);
	return new PromiseFulfillReactionJobTask{
	map: PromiseFulfillReactionJobTaskMapConstant(),
	argument,
	context: handlerContext,
	handler,
	promise_or_capability: promiseOrCapability,
	continuation_preserved_embedder_data:
	*ContextSlot(
	nativeContext, ContextSlot::CONTINUATION_PRESERVED_EMBEDDER_DATA_INDEX)
	};
	}

	macro NewPromiseRejectReactionJobTask(implicit context: Context)(
	handlerContext: Context, argument: Object, handler: Callable\|Undefined,
	promiseOrCapability: JSPromise\|PromiseCapability\|
	Undefined): PromiseRejectReactionJobTask {
	const nativeContext = LoadNativeContext(handlerContext);
	return new PromiseRejectReactionJobTask{
	map: PromiseRejectReactionJobTaskMapConstant(),
	argument,
	context: handlerContext,
	handler,
	promise_or_capability: promiseOrCapability,
	continuation_preserved_embedder_data:
	*ContextSlot(
	nativeContext, ContextSlot::CONTINUATION_PRESERVED_EMBEDDER_DATA_INDEX)
	};
	}

	// These allocate and initialize a promise with pending state and
	// undefined fields.
	//
	// This uses the given parent as the parent promise for the promise
	// init hook.
	@export
	transitioning macro NewJSPromise(implicit context: Context)(parent: Object):
	JSPromise {
	const instance = InnerNewJSPromise();
	PromiseInit(instance);
	if (IsPromiseHookEnabledOrHasAsyncEventDelegate()) {
	runtime::PromiseHookInit(instance, parent);
	}
	return instance;
	}

	// This uses undefined as the parent promise for the promise init
	// hook.
	@export
	transitioning macro NewJSPromise(implicit context: Context)(): JSPromise {
	return NewJSPromise(Undefined);
	}

	// This allocates and initializes a promise with the given state and
	// fields.
	@export
	transitioning macro NewJSPromise(implicit context: Context)(
	status: constexpr PromiseState, result: JSAny): JSPromise {
	assert(status != PromiseState::kPending);

	const instance = InnerNewJSPromise();
	instance.reactions_or_result = result;
	instance.SetStatus(status);
	promise_internal::ZeroOutEmbedderOffsets(instance);

	if (IsPromiseHookEnabledOrHasAsyncEventDelegate()) {
	runtime::PromiseHookInit(instance, Undefined);
	}
	return instance;
	}

	macro NewPromiseReaction(implicit context: Context)(
	handlerContext: Context, next: Zero\|PromiseReaction,
	promiseOrCapability: JSPromise\|PromiseCapability\|Undefined,
	fulfillHandler: Callable\|Undefined,
	rejectHandler: Callable\|Undefined): PromiseReaction {
	const nativeContext = LoadNativeContext(handlerContext);
	return new PromiseReaction{
	map: PromiseReactionMapConstant(),
	next: next,
	reject_handler: rejectHandler,
	fulfill_handler: fulfillHandler,
	promise_or_capability: promiseOrCapability,
	continuation_preserved_embedder_data:
	*ContextSlot(
	nativeContext, ContextSlot::CONTINUATION_PRESERVED_EMBEDDER_DATA_INDEX)
	};
	}

	extern macro PromiseResolveThenableJobTaskMapConstant(): Map;

	// https://tc39.es/ecma262/#sec-newpromiseresolvethenablejob
	macro NewPromiseResolveThenableJobTask(implicit context: Context)(
	promiseToResolve: JSPromise, thenable: JSReceiver,
	then: Callable): PromiseResolveThenableJobTask {
	// 2. Let getThenRealmResult be GetFunctionRealm(then).
	// 3. If getThenRealmResult is a normal completion, then let thenRealm be
	// getThenRealmResult.[[Value]].
	// 4. Otherwise, let thenRealm be null.
	//
	// The only cases where \|thenRealm\| can be null is when \|then\| is a revoked
	// Proxy object, which would throw when it is called anyway. So instead of
	// setting the context to null as the spec does, we just use the current
	// realm.
	const thenContext: Context = ExtractHandlerContext(then);
	const nativeContext = LoadNativeContext(thenContext);

	// 1. Let job be a new Job abstract closure with no parameters that
	// captures promiseToResolve, thenable, and then...
	// 5. Return { [[Job]]: job, [[Realm]]: thenRealm }.
	return new PromiseResolveThenableJobTask{
	map: PromiseResolveThenableJobTaskMapConstant(),
	context: nativeContext,
	promise_to_resolve: promiseToResolve,
	thenable,
	then
	};
	}

	struct InvokeThenOneArgFunctor {
	transitioning
	macro Call(
	nativeContext: NativeContext, then: JSAny, receiver: JSAny, arg1: JSAny,
	_arg2: JSAny): JSAny {
	return Call(nativeContext, then, receiver, arg1);
	}
	}

	struct InvokeThenTwoArgFunctor {
	transitioning
	macro Call(
	nativeContext: NativeContext, then: JSAny, receiver: JSAny, arg1: JSAny,
	arg2: JSAny): JSAny {
	return Call(nativeContext, then, receiver, arg1, arg2);
	}
	}

	transitioning
	macro InvokeThen<F: type>(implicit context: Context)(
	nativeContext: NativeContext, receiver: JSAny, arg1: JSAny, arg2: JSAny,
	callFunctor: F): JSAny {
	// We can skip the "then" lookup on {receiver} if it's [[Prototype]]
	// is the (initial) Promise.prototype and the Promise#then protector
	// is intact, as that guards the lookup path for the "then" property
	// on JSPromise instances which have the (initial) %PromisePrototype%.
	if (!Is<Smi>(receiver) &&
	IsPromiseThenLookupChainIntact(
	nativeContext, UnsafeCast<HeapObject>(receiver).map)) {
	const then =
	*NativeContextSlot(nativeContext, ContextSlot::PROMISE_THEN_INDEX);
	return callFunctor.Call(nativeContext, then, receiver, arg1, arg2);
	} else
	deferred {
	const then = UnsafeCast<JSAny>(GetProperty(receiver, kThenString));
	return callFunctor.Call(nativeContext, then, receiver, arg1, arg2);
	}
	}

	transitioning
	macro InvokeThen(implicit context: Context)(
	nativeContext: NativeContext, receiver: JSAny, arg: JSAny): JSAny {
	return InvokeThen(
	nativeContext, receiver, arg, Undefined, InvokeThenOneArgFunctor{});
	}

	transitioning
	macro InvokeThen(implicit context: Context)(
	nativeContext: NativeContext, receiver: JSAny, arg1: JSAny,
	arg2: JSAny): JSAny {
	return InvokeThen(
	nativeContext, receiver, arg1, arg2, InvokeThenTwoArgFunctor{});
	}

	transitioning
	macro BranchIfAccessCheckFailed(implicit context: Context)(
	nativeContext: NativeContext, promiseConstructor: JSAny,
	executor: JSAny): void labels IfNoAccess {
	try {
	// If executor is a bound function, load the bound function until we've
	// reached an actual function.
	let foundExecutor = executor;
	while (true) {
	typeswitch (foundExecutor) {
	case (f: JSFunction): {
	// Load the context from the function and compare it to the Promise
	// constructor's context. If they match, everything is fine,
	// otherwise, bail out to the runtime.
	const functionContext = f.context;
	const nativeFunctionContext = LoadNativeContext(functionContext);
	if (TaggedEqual(nativeContext, nativeFunctionContext)) {
	goto HasAccess;
	} else {
	goto CallRuntime;
	}
	}
	case (b: JSBoundFunction): {
	foundExecutor = b.bound_target_function;
	}
	case (Object): {
	goto CallRuntime;
	}
	}
	}
	} label CallRuntime deferred {
	const result = runtime::AllowDynamicFunction(promiseConstructor);
	if (result != True) {
	goto IfNoAccess;
	}
	} label HasAccess {}
	}
	}