// 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/external-reference-table.h" #include "src/accessors.h" #include "src/counters.h" #include "src/external-reference.h" #include "src/ic/stub-cache.h" #if defined(DEBUG) && defined(V8_OS_LINUX) && !defined(V8_OS_ANDROID) #define SYMBOLIZE_FUNCTION #include #include #endif // DEBUG && V8_OS_LINUX && !V8_OS_ANDROID 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) #undef FORWARD_DECLARE void ExternalReferenceTable::Init(Isolate* isolate) { int index = 0; // kNullAddress is preserved through serialization/deserialization. Add(kNullAddress, "nullptr", &index); AddReferences(isolate, &index); AddBuiltins(&index); AddRuntimeFunctions(&index); AddIsolateAddresses(isolate, &index); AddAccessors(&index); AddStubCache(isolate, &index); is_initialized_ = static_cast(true); USE(unused_padding_); CHECK_EQ(kSize, index); } const char* ExternalReferenceTable::ResolveSymbol(void* address) { #ifdef SYMBOLIZE_FUNCTION char** names = backtrace_symbols(&address, 1); const char* name = names[0]; // The array of names is malloc'ed. However, each name string is static // and do not need to be freed. free(names); return name; #else return ""; #endif // SYMBOLIZE_FUNCTION } void ExternalReferenceTable::Add(Address address, const char* name, int* index) { refs_[(*index)++] = {address, name}; } void ExternalReferenceTable::AddReferences(Isolate* isolate, int* index) { CHECK_EQ(kSpecialReferenceCount, *index); #define ADD_EXTERNAL_REFERENCE(name, desc) \ Add(ExternalReference::name().address(), desc, index); EXTERNAL_REFERENCE_LIST(ADD_EXTERNAL_REFERENCE) #undef ADD_EXTERNAL_REFERENCE #define ADD_EXTERNAL_REFERENCE(name, desc) \ Add(ExternalReference::name(isolate).address(), desc, index); EXTERNAL_REFERENCE_LIST_WITH_ISOLATE(ADD_EXTERNAL_REFERENCE) #undef ADD_EXTERNAL_REFERENCE CHECK_EQ(kSpecialReferenceCount + kExternalReferenceCount, *index); } void ExternalReferenceTable::AddBuiltins(int* index) { CHECK_EQ(kSpecialReferenceCount + kExternalReferenceCount, *index); struct CBuiltinEntry { Address address; const char* name; }; static const CBuiltinEntry c_builtins[] = { #define DEF_ENTRY(Name, ...) {FUNCTION_ADDR(&Builtin_##Name), "Builtin_" #Name}, BUILTIN_LIST_C(DEF_ENTRY) #undef DEF_ENTRY }; for (unsigned i = 0; i < arraysize(c_builtins); ++i) { Add(ExternalReference::Create(c_builtins[i].address).address(), c_builtins[i].name, index); } CHECK_EQ(kSpecialReferenceCount + kExternalReferenceCount + kBuiltinsReferenceCount, *index); } void ExternalReferenceTable::AddRuntimeFunctions(int* index) { CHECK_EQ(kSpecialReferenceCount + kExternalReferenceCount + kBuiltinsReferenceCount, *index); struct RuntimeEntry { Runtime::FunctionId id; const char* name; }; static const RuntimeEntry runtime_functions[] = { #define RUNTIME_ENTRY(name, i1, i2) {Runtime::k##name, "Runtime::" #name}, FOR_EACH_INTRINSIC(RUNTIME_ENTRY) #undef RUNTIME_ENTRY }; for (unsigned i = 0; i < arraysize(runtime_functions); ++i) { ExternalReference ref = ExternalReference::Create(runtime_functions[i].id); Add(ref.address(), runtime_functions[i].name, index); } CHECK_EQ(kSpecialReferenceCount + kExternalReferenceCount + kBuiltinsReferenceCount + kRuntimeReferenceCount, *index); } void ExternalReferenceTable::AddIsolateAddresses(Isolate* isolate, int* index) { CHECK_EQ(kSpecialReferenceCount + kExternalReferenceCount + kBuiltinsReferenceCount + kRuntimeReferenceCount, *index); // Top addresses static const char* address_names[] = { #define BUILD_NAME_LITERAL(Name, name) "Isolate::" #name "_address", FOR_EACH_ISOLATE_ADDRESS_NAME(BUILD_NAME_LITERAL) nullptr #undef BUILD_NAME_LITERAL }; for (int i = 0; i < IsolateAddressId::kIsolateAddressCount; ++i) { Add(isolate->get_address_from_id(static_cast(i)), address_names[i], index); } CHECK_EQ(kSpecialReferenceCount + kExternalReferenceCount + kBuiltinsReferenceCount + kRuntimeReferenceCount + kIsolateAddressReferenceCount, *index); } void ExternalReferenceTable::AddAccessors(int* index) { CHECK_EQ(kSpecialReferenceCount + kExternalReferenceCount + kBuiltinsReferenceCount + kRuntimeReferenceCount + kIsolateAddressReferenceCount, *index); // Accessors struct AccessorRefTable { Address address; const char* name; }; static const AccessorRefTable getters[] = { #define ACCESSOR_INFO_DECLARATION(_, accessor_name, AccessorName, ...) \ {FUNCTION_ADDR(&Accessors::AccessorName##Getter), \ "Accessors::" #AccessorName "Getter"}, /* NOLINT(whitespace/indent) */ ACCESSOR_INFO_LIST_GENERATOR(ACCESSOR_INFO_DECLARATION, /* not used */) #undef ACCESSOR_INFO_DECLARATION }; static const AccessorRefTable setters[] = { #define ACCESSOR_SETTER_DECLARATION(name) \ { FUNCTION_ADDR(&Accessors::name), "Accessors::" #name}, ACCESSOR_SETTER_LIST(ACCESSOR_SETTER_DECLARATION) #undef ACCESSOR_SETTER_DECLARATION }; for (unsigned i = 0; i < arraysize(getters); ++i) { Add(getters[i].address, getters[i].name, index); } for (unsigned i = 0; i < arraysize(setters); ++i) { Add(setters[i].address, setters[i].name, index); } CHECK_EQ(kSpecialReferenceCount + kExternalReferenceCount + kBuiltinsReferenceCount + kRuntimeReferenceCount + kIsolateAddressReferenceCount + kAccessorReferenceCount, *index); } void ExternalReferenceTable::AddStubCache(Isolate* isolate, int* index) { CHECK_EQ(kSpecialReferenceCount + kExternalReferenceCount + kBuiltinsReferenceCount + kRuntimeReferenceCount + kIsolateAddressReferenceCount + kAccessorReferenceCount, *index); StubCache* load_stub_cache = isolate->load_stub_cache(); // Stub cache tables Add(load_stub_cache->key_reference(StubCache::kPrimary).address(), "Load StubCache::primary_->key", index); Add(load_stub_cache->value_reference(StubCache::kPrimary).address(), "Load StubCache::primary_->value", index); Add(load_stub_cache->map_reference(StubCache::kPrimary).address(), "Load StubCache::primary_->map", index); Add(load_stub_cache->key_reference(StubCache::kSecondary).address(), "Load StubCache::secondary_->key", index); Add(load_stub_cache->value_reference(StubCache::kSecondary).address(), "Load StubCache::secondary_->value", index); Add(load_stub_cache->map_reference(StubCache::kSecondary).address(), "Load StubCache::secondary_->map", index); StubCache* store_stub_cache = isolate->store_stub_cache(); // Stub cache tables Add(store_stub_cache->key_reference(StubCache::kPrimary).address(), "Store StubCache::primary_->key", index); Add(store_stub_cache->value_reference(StubCache::kPrimary).address(), "Store StubCache::primary_->value", index); Add(store_stub_cache->map_reference(StubCache::kPrimary).address(), "Store StubCache::primary_->map", index); Add(store_stub_cache->key_reference(StubCache::kSecondary).address(), "Store StubCache::secondary_->key", index); Add(store_stub_cache->value_reference(StubCache::kSecondary).address(), "Store StubCache::secondary_->value", index); Add(store_stub_cache->map_reference(StubCache::kSecondary).address(), "Store StubCache::secondary_->map", index); CHECK_EQ(kSpecialReferenceCount + kExternalReferenceCount + kBuiltinsReferenceCount + kRuntimeReferenceCount + kIsolateAddressReferenceCount + kAccessorReferenceCount + kStubCacheReferenceCount, *index); CHECK_EQ(kSize, *index); } } // namespace internal } // namespace v8 #undef SYMBOLIZE_FUNCTION