// Copyright 2012 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.h" #include "src/api.h" #include "src/code-events.h" #include "src/compiler/code-assembler.h" #include "src/ic/ic-state.h" #include "src/interface-descriptors.h" #include "src/isolate.h" #include "src/macro-assembler.h" #include "src/objects-inl.h" namespace v8 { namespace internal { // Forward declarations for C++ builtins. #define FORWARD_DECLARE(Name) \ Object* Builtin_##Name(int argc, Object** args, Isolate* isolate); BUILTIN_LIST_C(FORWARD_DECLARE) Builtins::Builtins() : initialized_(false) { memset(builtins_, 0, sizeof(builtins_[0]) * builtin_count); } Builtins::~Builtins() {} namespace { void PostBuildProfileAndTracing(Isolate* isolate, Code* code, const char* name) { PROFILE(isolate, CodeCreateEvent(CodeEventListener::BUILTIN_TAG, AbstractCode::cast(code), name)); #ifdef ENABLE_DISASSEMBLER if (FLAG_print_builtin_code) { CodeTracer::Scope trace_scope(isolate->GetCodeTracer()); OFStream os(trace_scope.file()); os << "Builtin: " << name << "\n"; code->Disassemble(name, os); os << "\n"; } #endif } typedef void (*MacroAssemblerGenerator)(MacroAssembler*); typedef void (*CodeAssemblerGenerator)(compiler::CodeAssemblerState*); Code* BuildWithMacroAssembler(Isolate* isolate, MacroAssemblerGenerator generator, Code::Flags flags, const char* s_name) { HandleScope scope(isolate); const size_t buffer_size = 32 * KB; byte buffer[buffer_size]; // NOLINT(runtime/arrays) MacroAssembler masm(isolate, buffer, buffer_size, CodeObjectRequired::kYes); DCHECK(!masm.has_frame()); generator(&masm); CodeDesc desc; masm.GetCode(&desc); Handle code = isolate->factory()->NewCode(desc, flags, masm.CodeObject()); PostBuildProfileAndTracing(isolate, *code, s_name); return *code; } Code* BuildAdaptor(Isolate* isolate, Address builtin_address, Builtins::ExitFrameType exit_frame_type, Code::Flags flags, const char* name) { HandleScope scope(isolate); const size_t buffer_size = 32 * KB; byte buffer[buffer_size]; // NOLINT(runtime/arrays) MacroAssembler masm(isolate, buffer, buffer_size, CodeObjectRequired::kYes); DCHECK(!masm.has_frame()); Builtins::Generate_Adaptor(&masm, builtin_address, exit_frame_type); CodeDesc desc; masm.GetCode(&desc); Handle code = isolate->factory()->NewCode(desc, flags, masm.CodeObject()); PostBuildProfileAndTracing(isolate, *code, name); return *code; } // Builder for builtins implemented in TurboFan with JS linkage. Code* BuildWithCodeStubAssemblerJS(Isolate* isolate, CodeAssemblerGenerator generator, int argc, Code::Flags flags, const char* name) { HandleScope scope(isolate); Zone zone(isolate->allocator(), ZONE_NAME); const int argc_with_recv = (argc == SharedFunctionInfo::kDontAdaptArgumentsSentinel) ? 0 : argc + 1; compiler::CodeAssemblerState state(isolate, &zone, argc_with_recv, flags, name); generator(&state); Handle code = compiler::CodeAssembler::GenerateCode(&state); PostBuildProfileAndTracing(isolate, *code, name); return *code; } // Builder for builtins implemented in TurboFan with CallStub linkage. Code* BuildWithCodeStubAssemblerCS(Isolate* isolate, CodeAssemblerGenerator generator, CallDescriptors::Key interface_descriptor, Code::Flags flags, const char* name, int result_size) { HandleScope scope(isolate); Zone zone(isolate->allocator(), ZONE_NAME); // The interface descriptor with given key must be initialized at this point // and this construction just queries the details from the descriptors table. CallInterfaceDescriptor descriptor(isolate, interface_descriptor); // Ensure descriptor is already initialized. DCHECK_LE(0, descriptor.GetRegisterParameterCount()); compiler::CodeAssemblerState state(isolate, &zone, descriptor, flags, name, result_size); generator(&state); Handle code = compiler::CodeAssembler::GenerateCode(&state); PostBuildProfileAndTracing(isolate, *code, name); return *code; } } // anonymous namespace void Builtins::SetUp(Isolate* isolate, bool create_heap_objects) { DCHECK(!initialized_); // Create a scope for the handles in the builtins. HandleScope scope(isolate); if (create_heap_objects) { int index = 0; const Code::Flags kBuiltinFlags = Code::ComputeFlags(Code::BUILTIN); Code* code; #define BUILD_CPP(Name) \ code = BuildAdaptor(isolate, FUNCTION_ADDR(Builtin_##Name), BUILTIN_EXIT, \ kBuiltinFlags, #Name); \ builtins_[index++] = code; #define BUILD_API(Name) \ code = BuildAdaptor(isolate, FUNCTION_ADDR(Builtin_##Name), EXIT, \ kBuiltinFlags, #Name); \ builtins_[index++] = code; #define BUILD_TFJ(Name, Argc) \ code = BuildWithCodeStubAssemblerJS(isolate, &Generate_##Name, Argc, \ kBuiltinFlags, #Name); \ builtins_[index++] = code; #define BUILD_TFS(Name, Kind, Extra, InterfaceDescriptor, result_size) \ { InterfaceDescriptor##Descriptor descriptor(isolate); } \ code = BuildWithCodeStubAssemblerCS( \ isolate, &Generate_##Name, CallDescriptors::InterfaceDescriptor, \ Code::ComputeFlags(Code::Kind, Extra), #Name, result_size); \ builtins_[index++] = code; #define BUILD_ASM(Name) \ code = \ BuildWithMacroAssembler(isolate, Generate_##Name, kBuiltinFlags, #Name); \ builtins_[index++] = code; #define BUILD_ASH(Name, Kind, Extra) \ code = BuildWithMacroAssembler( \ isolate, Generate_##Name, Code::ComputeFlags(Code::Kind, Extra), #Name); \ builtins_[index++] = code; BUILTIN_LIST(BUILD_CPP, BUILD_API, BUILD_TFJ, BUILD_TFS, BUILD_ASM, BUILD_ASH, BUILD_ASM); #undef BUILD_CPP #undef BUILD_API #undef BUILD_TFJ #undef BUILD_TFS #undef BUILD_ASM #undef BUILD_ASH CHECK_EQ(builtin_count, index); for (int i = 0; i < builtin_count; i++) { Code::cast(builtins_[i])->set_builtin_index(i); } } // Mark as initialized. initialized_ = true; } void Builtins::TearDown() { initialized_ = false; } void Builtins::IterateBuiltins(ObjectVisitor* v) { v->VisitPointers(&builtins_[0], &builtins_[0] + builtin_count); } const char* Builtins::Lookup(byte* pc) { // may be called during initialization (disassembler!) if (initialized_) { for (int i = 0; i < builtin_count; i++) { Code* entry = Code::cast(builtins_[i]); if (entry->contains(pc)) return name(i); } } return NULL; } // static const char* Builtins::name(int index) { switch (index) { #define CASE(Name, ...) \ case k##Name: \ return #Name; BUILTIN_LIST_ALL(CASE) #undef CASE default: UNREACHABLE(); break; } return ""; } // static Address Builtins::CppEntryOf(int index) { DCHECK(0 <= index && index < builtin_count); switch (index) { #define CASE(Name, ...) \ case k##Name: \ return FUNCTION_ADDR(Builtin_##Name); BUILTIN_LIST_C(CASE) #undef CASE default: return nullptr; } UNREACHABLE(); } // static bool Builtins::IsCpp(int index) { DCHECK(0 <= index && index < builtin_count); switch (index) { #define CASE(Name, ...) \ case k##Name: \ return true; #define BUILTIN_LIST_CPP(V) \ BUILTIN_LIST(V, IGNORE_BUILTIN, IGNORE_BUILTIN, IGNORE_BUILTIN, \ IGNORE_BUILTIN, IGNORE_BUILTIN, IGNORE_BUILTIN) BUILTIN_LIST_CPP(CASE) #undef BUILTIN_LIST_CPP #undef CASE default: return false; } UNREACHABLE(); } // static bool Builtins::IsApi(int index) { DCHECK(0 <= index && index < builtin_count); switch (index) { #define CASE(Name, ...) \ case k##Name: \ return true; #define BUILTIN_LIST_API(V) \ BUILTIN_LIST(IGNORE_BUILTIN, V, IGNORE_BUILTIN, IGNORE_BUILTIN, \ IGNORE_BUILTIN, IGNORE_BUILTIN, IGNORE_BUILTIN) BUILTIN_LIST_API(CASE); #undef BUILTIN_LIST_API #undef CASE default: return false; } UNREACHABLE(); } // static bool Builtins::HasCppImplementation(int index) { DCHECK(0 <= index && index < builtin_count); switch (index) { #define CASE(Name, ...) \ case k##Name: \ return true; BUILTIN_LIST_C(CASE) #undef CASE default: return false; } UNREACHABLE(); } #define DEFINE_BUILTIN_ACCESSOR(Name, ...) \ Handle Builtins::Name() { \ Code** code_address = reinterpret_cast(builtin_address(k##Name)); \ return Handle(code_address); \ } BUILTIN_LIST_ALL(DEFINE_BUILTIN_ACCESSOR) #undef DEFINE_BUILTIN_ACCESSOR // static bool Builtins::AllowDynamicFunction(Isolate* isolate, Handle target, Handle target_global_proxy) { if (FLAG_allow_unsafe_function_constructor) return true; HandleScopeImplementer* impl = isolate->handle_scope_implementer(); Handle responsible_context = impl->MicrotaskContextIsLastEnteredContext() ? impl->MicrotaskContext() : impl->LastEnteredContext(); // TODO(jochen): Remove this. if (responsible_context.is_null()) { return true; } if (*responsible_context == target->context()) return true; return isolate->MayAccess(responsible_context, target_global_proxy); } } // namespace internal } // namespace v8