// Copyright 2020 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. /** * This file provides additional API on top of the default one for making * API calls, which come from embedder C++ functions. The functions are being * called directly from optimized code, doing all the necessary typechecks * in the compiler itself, instead of on the embedder side. Hence the "fast" * in the name. Example usage might look like: * * \code * void FastMethod(int param, bool another_param); * * v8::FunctionTemplate::New(isolate, SlowCallback, data, * signature, length, constructor_behavior * side_effect_type, * &v8::CFunction::Make(FastMethod)); * \endcode * * An example for custom embedder type support might employ a way to wrap/ * unwrap various C++ types in JSObject instances, e.g: * * \code * * // Represents the way this type system maps C++ and JS values. * struct WrapperTypeInfo { * // Store e.g. a method to map from exposed C++ types to the already * // created v8::FunctionTemplate's for instantiating them. * }; * * // Helper method with a sanity check. * template * inline T* GetInternalField(v8::Local wrapper) { * assert(offset < wrapper->InternalFieldCount()); * return reinterpret_cast( * wrapper->GetAlignedPointerFromInternalField(offset)); * } * * // Returns the type info from a wrapper JS object. * inline const WrapperTypeInfo* ToWrapperTypeInfo( * v8::Local wrapper) { * return GetInternalField(wrapper); * } * * class CustomEmbedderType { * public: * static constexpr const WrapperTypeInfo* GetWrapperTypeInfo() { * return &custom_type_wrapper_type_info; * } * // Returns the raw C object from a wrapper JS object. * static CustomEmbedderType* Unwrap(v8::Local wrapper) { * return GetInternalField(wrapper); * } * static void FastMethod(CustomEmbedderType* receiver, int param) { * assert(receiver != nullptr); * // Type checks are already done by the optimized code. * // Then call some performance-critical method like: * // receiver->Method(param); * } * * static void SlowMethod( * const v8::FunctionCallbackInfo& info) { * v8::Local instance = * v8::Local::Cast(info.Holder()); * CustomEmbedderType* receiver = Unwrap(instance); * // TODO: Do type checks and extract {param}. * FastMethod(receiver, param); * } * * private: * static const WrapperTypeInfo custom_type_wrapper_type_info; * }; * * // Support for custom embedder types via specialization of WrapperTraits. * namespace v8 { * template <> * class WrapperTraits { * public: * static const void* GetTypeInfo() { * // We use the already defined machinery for the custom type. * return CustomEmbedderType::GetWrapperTypeInfo(); * } * }; * } // namespace v8 * * // The constants kV8EmbedderWrapperTypeIndex and * // kV8EmbedderWrapperObjectIndex describe the offsets for the type info * // struct (the one returned by WrapperTraits::GetTypeInfo) and the * // native object, when expressed as internal field indices within a * // JSObject. The existance of this helper function assumes that all * // embedder objects have their JSObject-side type info at the same * // offset, but this is not a limitation of the API itself. For a detailed * // use case, see the third example. * static constexpr int kV8EmbedderWrapperTypeIndex = 0; * static constexpr int kV8EmbedderWrapperObjectIndex = 1; * * // The following setup function can be templatized based on * // the {embedder_object} argument. * void SetupCustomEmbedderObject(v8::Isolate* isolate, * v8::Local context, * CustomEmbedderType* embedder_object) { * isolate->set_embedder_wrapper_type_index( * kV8EmbedderWrapperTypeIndex); * isolate->set_embedder_wrapper_object_index( * kV8EmbedderWrapperObjectIndex); * * v8::CFunction c_func = * MakeV8CFunction(CustomEmbedderType::FastMethod); * * Local method_template = * v8::FunctionTemplate::New( * isolate, CustomEmbedderType::SlowMethod, v8::Local(), * v8::Local(), 1, v8::ConstructorBehavior::kAllow, * v8::SideEffectType::kHasSideEffect, &c_func); * * v8::Local object_template = * v8::ObjectTemplate::New(isolate); * object_template->SetInternalFieldCount( * kV8EmbedderWrapperObjectIndex + 1); * object_template->Set( v8::String::NewFromUtf8Literal(isolate, "method"), method_template); * * // Instantiate the wrapper JS object. * v8::Local object = * object_template->NewInstance(context).ToLocalChecked(); * object->SetAlignedPointerInInternalField( * kV8EmbedderWrapperObjectIndex, * reinterpret_cast(embedder_object)); * * // TODO: Expose {object} where it's necessary. * } * \endcode * * For instance if {object} is exposed via a global "obj" variable, * one could write in JS: * function hot_func() { * obj.method(42); * } * and once {hot_func} gets optimized, CustomEmbedderType::FastMethod * will be called instead of the slow version, with the following arguments: * receiver := the {embedder_object} from above * param := 42 * * Currently only void return types are supported. * Currently supported argument types: * - pointer to an embedder type * - bool * - int32_t * - uint32_t * To be supported types: * - int64_t * - uint64_t * - float32_t * - float64_t * - arrays of C types * - arrays of embedder types */ #ifndef INCLUDE_V8_FAST_API_CALLS_H_ #define INCLUDE_V8_FAST_API_CALLS_H_ #include #include #include "v8config.h" // NOLINT(build/include) namespace v8 { class CTypeInfo { public: enum class Type : char { kVoid, kBool, kInt32, kUint32, kInt64, kUint64, kFloat32, kFloat64, kUnwrappedApiObject, }; enum ArgFlags : char { None = 0, IsArrayBit = 1 << 0, // This argument is first in an array of values. }; static CTypeInfo FromWrapperType(const void* wrapper_type_info, ArgFlags flags = ArgFlags::None) { uintptr_t wrapper_type_info_ptr = reinterpret_cast(wrapper_type_info); // Check that the lower kIsWrapperTypeBit bits are 0's. CHECK_EQ( wrapper_type_info_ptr & ~(static_cast(~0) << static_cast(kIsWrapperTypeBit)), 0); // TODO(mslekova): Refactor the manual bit manipulations to use // PointerWithPayload instead. return CTypeInfo(wrapper_type_info_ptr | flags | kIsWrapperTypeBit); } static constexpr CTypeInfo FromCType(Type ctype, ArgFlags flags = ArgFlags::None) { // ctype cannot be Type::kUnwrappedApiObject. return CTypeInfo( ((static_cast(ctype) << kTypeOffset) & kTypeMask) | flags); } const void* GetWrapperInfo() const; constexpr Type GetType() const { if (payload_ & kIsWrapperTypeBit) { return Type::kUnwrappedApiObject; } return static_cast((payload_ & kTypeMask) >> kTypeOffset); } constexpr bool IsArray() const { return payload_ & ArgFlags::IsArrayBit; } private: explicit constexpr CTypeInfo(uintptr_t payload) : payload_(payload) {} // That must be the last bit after ArgFlags. static constexpr uintptr_t kIsWrapperTypeBit = 1 << 1; static constexpr uintptr_t kWrapperTypeInfoMask = static_cast(~0) << 2; static constexpr unsigned int kTypeOffset = kIsWrapperTypeBit; static constexpr unsigned int kTypeSize = 8 - kTypeOffset; static constexpr uintptr_t kTypeMask = (~(static_cast(~0) << kTypeSize)) << kTypeOffset; const uintptr_t payload_; }; class CFunctionInfo { public: virtual const CTypeInfo& ReturnInfo() const = 0; virtual unsigned int ArgumentCount() const = 0; virtual const CTypeInfo& ArgumentInfo(unsigned int index) const = 0; }; template class WrapperTraits { public: static const void* GetTypeInfo() { static_assert(sizeof(T) != sizeof(T), "WrapperTraits must be specialized for this type."); return nullptr; } }; namespace internal { template struct GetCType { static_assert(sizeof(T) != sizeof(T), "Unsupported CType"); }; #define SPECIALIZE_GET_C_TYPE_FOR(ctype, ctypeinfo) \ template <> \ struct GetCType { \ static constexpr CTypeInfo Get() { \ return CTypeInfo::FromCType(CTypeInfo::Type::ctypeinfo); \ } \ }; #define SUPPORTED_C_TYPES(V) \ V(void, kVoid) \ V(bool, kBool) \ V(int32_t, kInt32) \ V(uint32_t, kUint32) \ V(int64_t, kInt64) \ V(uint64_t, kUint64) \ V(float, kFloat32) \ V(double, kFloat64) SUPPORTED_C_TYPES(SPECIALIZE_GET_C_TYPE_FOR) template struct EnableIfHasWrapperTypeInfo {}; template <> struct EnableIfHasWrapperTypeInfo {}; template struct EnableIfHasWrapperTypeInfo::GetTypeInfo(), void())> { typedef void type; }; // T* where T is a primitive (array of primitives). template struct GetCTypePointerImpl { static constexpr CTypeInfo Get() { return CTypeInfo::FromCType(GetCType::Get().GetType(), CTypeInfo::IsArrayBit); } }; // T* where T is an API object. template struct GetCTypePointerImpl::type> { static constexpr CTypeInfo Get() { return CTypeInfo::FromWrapperType(WrapperTraits::GetTypeInfo()); } }; // T** where T is a primitive. Not allowed. template struct GetCTypePointerPointerImpl { static_assert(sizeof(T**) != sizeof(T**), "Unsupported type"); }; // T** where T is an API object (array of API objects). template struct GetCTypePointerPointerImpl< T, typename EnableIfHasWrapperTypeInfo::type> { static constexpr CTypeInfo Get() { return CTypeInfo::FromWrapperType(WrapperTraits::GetTypeInfo(), CTypeInfo::IsArrayBit); } }; template struct GetCType : public GetCTypePointerPointerImpl {}; template struct GetCType : public GetCTypePointerImpl {}; template class CFunctionInfoImpl : public CFunctionInfo { public: CFunctionInfoImpl() : return_info_(i::GetCType::Get()), arg_count_(sizeof...(Args)), arg_info_{i::GetCType::Get()...} { static_assert(i::GetCType::Get().GetType() == CTypeInfo::Type::kVoid, "Only void return types are currently supported."); } const CTypeInfo& ReturnInfo() const override { return return_info_; } unsigned int ArgumentCount() const override { return arg_count_; } const CTypeInfo& ArgumentInfo(unsigned int index) const override { CHECK_LT(index, ArgumentCount()); return arg_info_[index]; } private: CTypeInfo return_info_; const unsigned int arg_count_; CTypeInfo arg_info_[sizeof...(Args)]; }; } // namespace internal class V8_EXPORT CFunction { public: const CTypeInfo& ReturnInfo() const { return type_info_->ReturnInfo(); } const CTypeInfo& ArgumentInfo(unsigned int index) const { return type_info_->ArgumentInfo(index); } unsigned int ArgumentCount() const { return type_info_->ArgumentCount(); } const void* GetAddress() const { return address_; } const CFunctionInfo* GetTypeInfo() const { return type_info_; } template static CFunction Make(F* func) { return ArgUnwrap::Make(func); } private: const void* address_; const CFunctionInfo* type_info_; CFunction(const void* address, const CFunctionInfo* type_info); template static CFunctionInfo* GetCFunctionInfo() { static internal::CFunctionInfoImpl instance; return &instance; } template class ArgUnwrap { static_assert(sizeof(F) != sizeof(F), "CFunction must be created from a function pointer."); }; template class ArgUnwrap { public: static CFunction Make(R (*func)(Args...)) { return CFunction(reinterpret_cast(func), GetCFunctionInfo()); } }; }; } // namespace v8 #endif // INCLUDE_V8_FAST_API_CALLS_H_