// Copyright 2019 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE.chromium file. #ifndef ELECTRON_SHELL_COMMON_GIN_HELPER_FUNCTION_TEMPLATE_H_ #define ELECTRON_SHELL_COMMON_GIN_HELPER_FUNCTION_TEMPLATE_H_ #include #include #include "base/functional/bind.h" #include "base/functional/callback.h" #include "base/memory/raw_ptr.h" #include "gin/arguments.h" #include "gin/per_isolate_data.h" #include "shell/common/gin_helper/arguments.h" #include "shell/common/gin_helper/destroyable.h" #include "shell/common/gin_helper/error_thrower.h" #include "shell/common/gin_helper/microtasks_scope.h" // This file is forked from gin/function_template.h with 2 differences: // 1. Support for additional types of arguments. // 2. Support for warning using destroyed objects. // // TODO(zcbenz): We should seek to remove this file after removing native_mate. namespace gin_helper { struct InvokerOptions { bool holder_is_first_argument = false; const char* holder_type = nullptr; // Null if unknown or not applicable. }; template struct CallbackParamTraits { typedef T LocalType; }; template struct CallbackParamTraits { typedef T LocalType; }; template struct CallbackParamTraits { typedef T* LocalType; }; // CallbackHolder and CallbackHolderBase are used to pass a // base::RepeatingCallback from CreateFunctionTemplate through v8 (via // v8::FunctionTemplate) to DispatchToCallback, where it is invoked. // CallbackHolder will clean up the callback in two different scenarios: // - If the garbage collector finds that it's garbage and collects it. (But note // that even _if_ we become garbage, we might never get collected!) // - If the isolate gets disposed. // // TODO(crbug.com/1285119): When gin::Wrappable gets migrated over to using // cppgc, this class should also be considered for migration. // This simple base class is used so that we can share a single object template // among every CallbackHolder instance. class CallbackHolderBase { public: CallbackHolderBase(const CallbackHolderBase&) = delete; CallbackHolderBase& operator=(const CallbackHolderBase&) = delete; v8::Local GetHandle(v8::Isolate* isolate); protected: explicit CallbackHolderBase(v8::Isolate* isolate); virtual ~CallbackHolderBase(); private: class DisposeObserver : gin::PerIsolateData::DisposeObserver { public: DisposeObserver(gin::PerIsolateData* per_isolate_data, CallbackHolderBase* holder); ~DisposeObserver() override; // gin::PerIsolateData::DisposeObserver void OnBeforeDispose(v8::Isolate* isolate) override; void OnDisposed() override; private: // Unlike in Chromium, it's possible for PerIsolateData to be null // for a given isolate - e.g. in a Node.js Worker. Thus this // needs to be a raw_ptr instead of a raw_ref. const raw_ptr per_isolate_data_; const raw_ref holder_; }; static void FirstWeakCallback( const v8::WeakCallbackInfo& data); static void SecondWeakCallback( const v8::WeakCallbackInfo& data); v8::Global v8_ref_; DisposeObserver dispose_observer_; }; template class CallbackHolder : public CallbackHolderBase { public: CallbackHolder(v8::Isolate* isolate, base::RepeatingCallback callback, InvokerOptions invoker_options) : CallbackHolderBase(isolate), callback(std::move(callback)), invoker_options(std::move(invoker_options)) {} CallbackHolder(const CallbackHolder&) = delete; CallbackHolder& operator=(const CallbackHolder&) = delete; base::RepeatingCallback callback; InvokerOptions invoker_options; private: ~CallbackHolder() override = default; }; template bool GetNextArgument(gin::Arguments* args, const InvokerOptions& invoker_options, bool is_first, T* result) { if (is_first && invoker_options.holder_is_first_argument) { return args->GetHolder(result); } else { return args->GetNext(result); } } // Electron-specific GetNextArgument that supports std::optional. template bool GetNextArgument(gin::Arguments* args, const InvokerOptions& invoker_options, bool is_first, std::optional* result) { T converted; // Use gin::Arguments::GetNext which always advances |next| counter. if (args->GetNext(&converted)) result->emplace(std::move(converted)); return true; } // Electron-specific GetNextArgument that supports ErrorThrower. inline bool GetNextArgument(gin::Arguments* args, const InvokerOptions& invoker_options, bool is_first, ErrorThrower* result) { *result = ErrorThrower(args->isolate()); return true; } // Electron-specific GetNextArgument that supports the gin_helper::Arguments. inline bool GetNextArgument(gin::Arguments* args, const InvokerOptions& invoker_options, bool is_first, gin_helper::Arguments** result) { *result = static_cast(args); return true; } // For advanced use cases, we allow callers to request the unparsed Arguments // object and poke around in it directly. inline bool GetNextArgument(gin::Arguments* args, const InvokerOptions& invoker_options, bool is_first, gin::Arguments* result) { *result = *args; return true; } inline bool GetNextArgument(gin::Arguments* args, const InvokerOptions& invoker_options, bool is_first, gin::Arguments** result) { *result = args; return true; } // It's common for clients to just need the isolate, so we make that easy. inline bool GetNextArgument(gin::Arguments* args, const InvokerOptions& invoker_options, bool is_first, v8::Isolate** result) { *result = args->isolate(); return true; } // Throws an error indicating conversion failure. void ThrowConversionError(gin::Arguments* args, const InvokerOptions& invoker_options, size_t index); // Class template for extracting and storing single argument for callback // at position |index|. template struct ArgumentHolder { using ArgLocalType = typename CallbackParamTraits::LocalType; ArgLocalType value; bool ok = false; ArgumentHolder(gin::Arguments* args, const InvokerOptions& invoker_options) { v8::Local holder; if (index == 0 && invoker_options.holder_is_first_argument && args->GetHolder(&holder) && gin_helper::Destroyable::IsDestroyed(holder)) { args->ThrowTypeError("Object has been destroyed"); return; } ok = GetNextArgument(args, invoker_options, index == 0, &value); if (!ok) { ThrowConversionError(args, invoker_options, index); } } }; // This is required for types such as v8::LocalVector, which don't have // a default constructor. To create an element of such a type, the isolate // has to be provided. template struct ArgumentHolder< index, ArgType, std::enable_if_t::LocalType> && std::is_constructible_v< typename CallbackParamTraits::LocalType, v8::Isolate*>>> { using ArgLocalType = typename CallbackParamTraits::LocalType; ArgLocalType value; bool ok; ArgumentHolder(gin::Arguments* args, const InvokerOptions& invoker_options) : value(args->isolate()), ok(GetNextArgument(args, invoker_options, index == 0, &value)) { if (!ok) { ThrowConversionError(args, invoker_options, index); } } }; // Class template for converting arguments from JavaScript to C++ and running // the callback with them. template class Invoker; template class Invoker, ArgTypes...> : public ArgumentHolder... { public: // Invoker<> inherits from ArgumentHolder<> for each argument. // C++ has always been strict about the class initialization order, // so it is guaranteed ArgumentHolders will be initialized (and thus, will // extract arguments from Arguments) in the right order. Invoker(gin::Arguments* args, const InvokerOptions& invoker_options) : ArgumentHolder(args, invoker_options)..., args_(args) {} bool IsOK() { return And(ArgumentHolder::ok...); } template void DispatchToCallback( base::RepeatingCallback callback) { gin_helper::MicrotasksScope microtasks_scope( args_->isolate(), args_->GetHolderCreationContext()->GetMicrotaskQueue(), true); args_->Return( callback.Run(std::move(ArgumentHolder::value)...)); } // In C++, you can declare the function foo(void), but you can't pass a void // expression to foo. As a result, we must specialize the case of Callbacks // that have the void return type. void DispatchToCallback(base::RepeatingCallback callback) { gin_helper::MicrotasksScope microtasks_scope( args_->isolate(), args_->GetHolderCreationContext()->GetMicrotaskQueue(), true); callback.Run(std::move(ArgumentHolder::value)...); } private: static bool And() { return true; } template static bool And(bool arg1, T... args) { return arg1 && And(args...); } raw_ptr args_; }; // DispatchToCallback converts all the JavaScript arguments to C++ types and // invokes the base::RepeatingCallback. template struct Dispatcher {}; template struct Dispatcher { static void DispatchToCallbackImpl(gin::Arguments* args) { v8::Local v8_holder; CHECK(args->GetData(&v8_holder)); CallbackHolderBase* holder_base = reinterpret_cast(v8_holder->Value()); typedef CallbackHolder HolderT; HolderT* holder = static_cast(holder_base); using Indices = std::index_sequence_for; Invoker invoker(args, holder->invoker_options); if (invoker.IsOK()) invoker.DispatchToCallback(holder->callback); } static void DispatchToCallback( const v8::FunctionCallbackInfo& info) { gin::Arguments args(info); DispatchToCallbackImpl(&args); } static void DispatchToCallbackForProperty( v8::Local, const v8::PropertyCallbackInfo& info) { gin::Arguments args(info); DispatchToCallbackImpl(&args); } }; // CreateFunctionTemplate creates a v8::FunctionTemplate that will create // JavaScript functions that execute a provided C++ function or // base::RepeatingCallback. JavaScript arguments are automatically converted via // gin::Converter, as is the return value of the C++ function, if any. // |invoker_options| contains additional parameters. If it contains a // holder_type, it will be used to provide a useful conversion error if the // holder is the first argument. If not provided, a generic invocation error // will be used. // // NOTE: V8 caches FunctionTemplates for a lifetime of a web page for its own // internal reasons, thus it is generally a good idea to cache the template // returned by this function. Otherwise, repeated method invocations from JS // will create substantial memory leaks. See http://crbug.com/463487. // // The callback will be destroyed if either the function template gets garbage // collected or _after_ the isolate is disposed. Garbage collection can never be // relied upon. As such, any destructors for objects bound to the callback must // not depend on the isolate being alive at the point they are called. The order // in which callbacks are destroyed is not guaranteed. template v8::Local CreateFunctionTemplate( v8::Isolate* isolate, base::RepeatingCallback callback, InvokerOptions invoker_options = {}) { typedef CallbackHolder HolderT; HolderT* holder = new HolderT(isolate, std::move(callback), std::move(invoker_options)); v8::Local tmpl = v8::FunctionTemplate::New( isolate, &Dispatcher::DispatchToCallback, gin::ConvertToV8>(isolate, holder->GetHandle(isolate)), v8::Local(), 0, v8::ConstructorBehavior::kAllow); return tmpl; } // CreateDataPropertyCallback creates a v8::AccessorNameGetterCallback and // corresponding data value that will hold and execute the provided // base::RepeatingCallback, using automatic conversions similar to // |CreateFunctionTemplate|. // // It is expected that these will be passed to v8::Template::SetLazyDataProperty // or another similar function. template std::pair> CreateDataPropertyCallback(v8::Isolate* isolate, base::RepeatingCallback callback, InvokerOptions invoker_options = {}) { typedef CallbackHolder HolderT; HolderT* holder = new HolderT(isolate, std::move(callback), std::move(invoker_options)); return {&Dispatcher::DispatchToCallbackForProperty, gin::ConvertToV8>( isolate, holder->GetHandle(isolate))}; } // Base template - used only for non-member function pointers. Other types // either go to one of the below specializations, or go here and fail to compile // because of base::Bind(). template struct CallbackTraits { static v8::Local CreateTemplate(v8::Isolate* isolate, T callback) { return gin_helper::CreateFunctionTemplate(isolate, base::BindRepeating(callback)); } }; // Specialization for base::RepeatingCallback. template struct CallbackTraits> { static v8::Local CreateTemplate( v8::Isolate* isolate, const base::RepeatingCallback& callback) { return gin_helper::CreateFunctionTemplate(isolate, callback); } }; // Specialization for member function pointers. We need to handle this case // specially because the first parameter for callbacks to MFP should typically // come from the JavaScript "this" object the function was called on, not // from the first normal parameter. template struct CallbackTraits< T, typename std::enable_if::value>::type> { static v8::Local CreateTemplate(v8::Isolate* isolate, T callback) { InvokerOptions invoker_options = {.holder_is_first_argument = true}; return gin_helper::CreateFunctionTemplate( isolate, base::BindRepeating(callback), std::move(invoker_options)); } }; } // namespace gin_helper #endif // ELECTRON_SHELL_COMMON_GIN_HELPER_FUNCTION_TEMPLATE_H_