// 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/assembler.h"
#include "src/counters.h"
#include "src/deoptimizer.h"
#include "src/ic/stub-cache.h"
namespace v8 {
namespace internal {
ExternalReferenceTable* ExternalReferenceTable::instance(Isolate* isolate) {
ExternalReferenceTable* external_reference_table =
isolate->external_reference_table();
if (external_reference_table == NULL) {
external_reference_table = new ExternalReferenceTable(isolate);
isolate->set_external_reference_table(external_reference_table);
}
return external_reference_table;
}
ExternalReferenceTable::ExternalReferenceTable(Isolate* isolate) {
// Miscellaneous
Add(ExternalReference::roots_array_start(isolate).address(),
"Heap::roots_array_start()");
Add(ExternalReference::address_of_stack_limit(isolate).address(),
"StackGuard::address_of_jslimit()");
Add(ExternalReference::address_of_real_stack_limit(isolate).address(),
"StackGuard::address_of_real_jslimit()");
Add(ExternalReference::new_space_allocation_limit_address(isolate).address(),
"Heap::NewSpaceAllocationLimitAddress()");
Add(ExternalReference::new_space_allocation_top_address(isolate).address(),
"Heap::NewSpaceAllocationTopAddress()");
Add(ExternalReference::mod_two_doubles_operation(isolate).address(),
"mod_two_doubles");
// Keyed lookup cache.
Add(ExternalReference::keyed_lookup_cache_keys(isolate).address(),
"KeyedLookupCache::keys()");
Add(ExternalReference::keyed_lookup_cache_field_offsets(isolate).address(),
"KeyedLookupCache::field_offsets()");
Add(ExternalReference::handle_scope_next_address(isolate).address(),
"HandleScope::next");
Add(ExternalReference::handle_scope_limit_address(isolate).address(),
"HandleScope::limit");
Add(ExternalReference::handle_scope_level_address(isolate).address(),
"HandleScope::level");
Add(ExternalReference::new_deoptimizer_function(isolate).address(),
"Deoptimizer::New()");
Add(ExternalReference::compute_output_frames_function(isolate).address(),
"Deoptimizer::ComputeOutputFrames()");
Add(ExternalReference::address_of_min_int().address(),
"LDoubleConstant::min_int");
Add(ExternalReference::address_of_one_half().address(),
"LDoubleConstant::one_half");
Add(ExternalReference::isolate_address(isolate).address(), "isolate");
Add(ExternalReference::interpreter_dispatch_table_address(isolate).address(),
"Interpreter::dispatch_table_address");
Add(ExternalReference::interpreter_dispatch_counters(isolate).address(),
"Interpreter::interpreter_dispatch_counters");
Add(ExternalReference::address_of_negative_infinity().address(),
"LDoubleConstant::negative_infinity");
Add(ExternalReference::power_double_double_function(isolate).address(),
"power_double_double_function");
Add(ExternalReference::power_double_int_function(isolate).address(),
"power_double_int_function");
Add(ExternalReference::ieee754_atan_function(isolate).address(),
"base::ieee754::atan");
Add(ExternalReference::ieee754_atan2_function(isolate).address(),
"base::ieee754::atan2");
Add(ExternalReference::ieee754_atanh_function(isolate).address(),
"base::ieee754::atanh");
Add(ExternalReference::ieee754_cbrt_function(isolate).address(),
"base::ieee754::cbrt");
Add(ExternalReference::ieee754_cos_function(isolate).address(),
"base::ieee754::cos");
Add(ExternalReference::ieee754_exp_function(isolate).address(),
"base::ieee754::exp");
Add(ExternalReference::ieee754_expm1_function(isolate).address(),
"base::ieee754::expm1");
Add(ExternalReference::ieee754_log_function(isolate).address(),
"base::ieee754::log");
Add(ExternalReference::ieee754_log1p_function(isolate).address(),
"base::ieee754::log1p");
Add(ExternalReference::ieee754_log10_function(isolate).address(),
"base::ieee754::log10");
Add(ExternalReference::ieee754_log2_function(isolate).address(),
"base::ieee754::log2");
Add(ExternalReference::ieee754_sin_function(isolate).address(),
"base::ieee754::sin");
Add(ExternalReference::ieee754_tan_function(isolate).address(),
"base::ieee754::tan");
Add(ExternalReference::store_buffer_top(isolate).address(),
"store_buffer_top");
Add(ExternalReference::address_of_the_hole_nan().address(), "the_hole_nan");
Add(ExternalReference::get_date_field_function(isolate).address(),
"JSDate::GetField");
Add(ExternalReference::date_cache_stamp(isolate).address(),
"date_cache_stamp");
Add(ExternalReference::address_of_pending_message_obj(isolate).address(),
"address_of_pending_message_obj");
Add(ExternalReference::get_make_code_young_function(isolate).address(),
"Code::MakeCodeYoung");
Add(ExternalReference::cpu_features().address(), "cpu_features");
Add(ExternalReference::old_space_allocation_top_address(isolate).address(),
"Heap::OldSpaceAllocationTopAddress");
Add(ExternalReference::old_space_allocation_limit_address(isolate).address(),
"Heap::OldSpaceAllocationLimitAddress");
Add(ExternalReference::allocation_sites_list_address(isolate).address(),
"Heap::allocation_sites_list_address()");
Add(ExternalReference::address_of_uint32_bias().address(), "uint32_bias");
Add(ExternalReference::get_mark_code_as_executed_function(isolate).address(),
"Code::MarkCodeAsExecuted");
Add(ExternalReference::is_profiling_address(isolate).address(),
"Isolate::is_profiling");
Add(ExternalReference::scheduled_exception_address(isolate).address(),
"Isolate::scheduled_exception");
Add(ExternalReference::invoke_function_callback(isolate).address(),
"InvokeFunctionCallback");
Add(ExternalReference::invoke_accessor_getter_callback(isolate).address(),
"InvokeAccessorGetterCallback");
Add(ExternalReference::wasm_f32_trunc(isolate).address(),
"wasm::f32_trunc_wrapper");
Add(ExternalReference::wasm_f32_floor(isolate).address(),
"wasm::f32_floor_wrapper");
Add(ExternalReference::wasm_f32_ceil(isolate).address(),
"wasm::f32_ceil_wrapper");
Add(ExternalReference::wasm_f32_nearest_int(isolate).address(),
"wasm::f32_nearest_int_wrapper");
Add(ExternalReference::wasm_f64_trunc(isolate).address(),
"wasm::f64_trunc_wrapper");
Add(ExternalReference::wasm_f64_floor(isolate).address(),
"wasm::f64_floor_wrapper");
Add(ExternalReference::wasm_f64_ceil(isolate).address(),
"wasm::f64_ceil_wrapper");
Add(ExternalReference::wasm_f64_nearest_int(isolate).address(),
"wasm::f64_nearest_int_wrapper");
Add(ExternalReference::wasm_int64_to_float32(isolate).address(),
"wasm::int64_to_float32_wrapper");
Add(ExternalReference::wasm_uint64_to_float32(isolate).address(),
"wasm::uint64_to_float32_wrapper");
Add(ExternalReference::wasm_int64_to_float64(isolate).address(),
"wasm::int64_to_float64_wrapper");
Add(ExternalReference::wasm_uint64_to_float64(isolate).address(),
"wasm::uint64_to_float64_wrapper");
Add(ExternalReference::wasm_float32_to_int64(isolate).address(),
"wasm::float32_to_int64_wrapper");
Add(ExternalReference::wasm_float32_to_uint64(isolate).address(),
"wasm::float32_to_uint64_wrapper");
Add(ExternalReference::wasm_float64_to_int64(isolate).address(),
"wasm::float64_to_int64_wrapper");
Add(ExternalReference::wasm_float64_to_uint64(isolate).address(),
"wasm::float64_to_uint64_wrapper");
Add(ExternalReference::wasm_int64_div(isolate).address(), "wasm::int64_div");
Add(ExternalReference::wasm_int64_mod(isolate).address(), "wasm::int64_mod");
Add(ExternalReference::wasm_uint64_div(isolate).address(),
"wasm::uint64_div");
Add(ExternalReference::wasm_uint64_mod(isolate).address(),
"wasm::uint64_mod");
Add(ExternalReference::wasm_word32_ctz(isolate).address(),
"wasm::word32_ctz");
Add(ExternalReference::wasm_word64_ctz(isolate).address(),
"wasm::word64_ctz");
Add(ExternalReference::wasm_word32_popcnt(isolate).address(),
"wasm::word32_popcnt");
Add(ExternalReference::wasm_word64_popcnt(isolate).address(),
"wasm::word64_popcnt");
Add(ExternalReference::f64_acos_wrapper_function(isolate).address(),
"f64_acos_wrapper");
Add(ExternalReference::f64_asin_wrapper_function(isolate).address(),
"f64_asin_wrapper");
Add(ExternalReference::f64_pow_wrapper_function(isolate).address(),
"f64_pow_wrapper");
Add(ExternalReference::f64_mod_wrapper_function(isolate).address(),
"f64_mod_wrapper");
Add(ExternalReference::log_enter_external_function(isolate).address(),
"Logger::EnterExternal");
Add(ExternalReference::log_leave_external_function(isolate).address(),
"Logger::LeaveExternal");
Add(ExternalReference::address_of_minus_one_half().address(),
"double_constants.minus_one_half");
Add(ExternalReference::stress_deopt_count(isolate).address(),
"Isolate::stress_deopt_count_address()");
Add(ExternalReference::virtual_handler_register(isolate).address(),
"Isolate::virtual_handler_register()");
Add(ExternalReference::virtual_slot_register(isolate).address(),
"Isolate::virtual_slot_register()");
Add(ExternalReference::runtime_function_table_address(isolate).address(),
"Runtime::runtime_function_table_address()");
Add(ExternalReference::is_tail_call_elimination_enabled_address(isolate)
.address(),
"Isolate::is_tail_call_elimination_enabled_address()");
// Debug addresses
Add(ExternalReference::debug_after_break_target_address(isolate).address(),
"Debug::after_break_target_address()");
Add(ExternalReference::debug_is_active_address(isolate).address(),
"Debug::is_active_address()");
Add(ExternalReference::debug_last_step_action_address(isolate).address(),
"Debug::step_in_enabled_address()");
Add(ExternalReference::debug_suspended_generator_address(isolate).address(),
"Debug::step_suspended_generator_address()");
#ifndef V8_INTERPRETED_REGEXP
Add(ExternalReference::re_case_insensitive_compare_uc16(isolate).address(),
"NativeRegExpMacroAssembler::CaseInsensitiveCompareUC16()");
Add(ExternalReference::re_check_stack_guard_state(isolate).address(),
"RegExpMacroAssembler*::CheckStackGuardState()");
Add(ExternalReference::re_grow_stack(isolate).address(),
"NativeRegExpMacroAssembler::GrowStack()");
Add(ExternalReference::re_word_character_map().address(),
"NativeRegExpMacroAssembler::word_character_map");
Add(ExternalReference::address_of_regexp_stack_limit(isolate).address(),
"RegExpStack::limit_address()");
Add(ExternalReference::address_of_regexp_stack_memory_address(isolate)
.address(),
"RegExpStack::memory_address()");
Add(ExternalReference::address_of_regexp_stack_memory_size(isolate).address(),
"RegExpStack::memory_size()");
Add(ExternalReference::address_of_static_offsets_vector(isolate).address(),
"OffsetsVector::static_offsets_vector");
#endif // V8_INTERPRETED_REGEXP
// The following populates all of the different type of external references
// into the ExternalReferenceTable.
//
// NOTE: This function was originally 100k of code. It has since been
// rewritten to be mostly table driven, as the callback macro style tends to
// very easily cause code bloat. Please be careful in the future when adding
// new references.
struct RefTableEntry {
uint16_t id;
const char* name;
};
static const RefTableEntry c_builtins[] = {
#define DEF_ENTRY_C(name) {Builtins::c_##name, "Builtins::" #name},
BUILTIN_LIST_C(DEF_ENTRY_C)
#undef DEF_ENTRY_C
};
for (unsigned i = 0; i < arraysize(c_builtins); ++i) {
ExternalReference ref(static_cast<Builtins::CFunctionId>(c_builtins[i].id),
isolate);
Add(ref.address(), c_builtins[i].name);
}
static const RefTableEntry builtins[] = {
#define DEF_ENTRY_C(name) {Builtins::k##name, "Builtins::" #name},
#define DEF_ENTRY_A(name, i1, i2) {Builtins::k##name, "Builtins::" #name},
BUILTIN_LIST_C(DEF_ENTRY_C) BUILTIN_LIST_A(DEF_ENTRY_A)
BUILTIN_LIST_DEBUG_A(DEF_ENTRY_A)
#undef DEF_ENTRY_C
#undef DEF_ENTRY_A
};
for (unsigned i = 0; i < arraysize(builtins); ++i) {
ExternalReference ref(static_cast<Builtins::Name>(builtins[i].id), isolate);
Add(ref.address(), builtins[i].name);
}
static const RefTableEntry 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(
static_cast<Runtime::FunctionId>(runtime_functions[i].id), isolate);
Add(ref.address(), runtime_functions[i].name);
}
// Stat counters
struct StatsRefTableEntry {
StatsCounter* (Counters::*counter)();
const char* name;
};
static const StatsRefTableEntry stats_ref_table[] = {
#define COUNTER_ENTRY(name, caption) {&Counters::name, "Counters::" #name},
STATS_COUNTER_LIST_1(COUNTER_ENTRY) STATS_COUNTER_LIST_2(COUNTER_ENTRY)
#undef COUNTER_ENTRY
};
Counters* counters = isolate->counters();
for (unsigned i = 0; i < arraysize(stats_ref_table); ++i) {
// To make sure the indices are not dependent on whether counters are
// enabled, use a dummy address as filler.
Address address = NotAvailable();
StatsCounter* counter = (counters->*(stats_ref_table[i].counter))();
if (counter->Enabled()) {
address = reinterpret_cast<Address>(counter->GetInternalPointer());
}
Add(address, stats_ref_table[i].name);
}
// Top addresses
static const char* address_names[] = {
#define BUILD_NAME_LITERAL(Name, name) "Isolate::" #name "_address",
FOR_EACH_ISOLATE_ADDRESS_NAME(BUILD_NAME_LITERAL) NULL
#undef BUILD_NAME_LITERAL
};
for (int i = 0; i < Isolate::kIsolateAddressCount; ++i) {
Add(isolate->get_address_from_id(static_cast<Isolate::AddressId>(i)),
address_names[i]);
}
// Accessors
struct AccessorRefTable {
Address address;
const char* name;
};
static const AccessorRefTable getters[] = {
#define ACCESSOR_INFO_DECLARATION(name) \
{FUNCTION_ADDR(&Accessors::name##Getter), "Accessors::" #name "Getter"},
ACCESSOR_INFO_LIST(ACCESSOR_INFO_DECLARATION)
#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_INFO_DECLARATION
};
for (unsigned i = 0; i < arraysize(getters); ++i) {
Add(getters[i].address, getters[i].name);
Add(AccessorInfo::redirect(isolate, getters[i].address, ACCESSOR_GETTER),
"");
}
for (unsigned i = 0; i < arraysize(setters); ++i) {
Add(setters[i].address, setters[i].name);
}
StubCache* stub_cache = isolate->stub_cache();
// Stub cache tables
Add(stub_cache->key_reference(StubCache::kPrimary).address(),
"StubCache::primary_->key");
Add(stub_cache->value_reference(StubCache::kPrimary).address(),
"StubCache::primary_->value");
Add(stub_cache->map_reference(StubCache::kPrimary).address(),
"StubCache::primary_->map");
Add(stub_cache->key_reference(StubCache::kSecondary).address(),
"StubCache::secondary_->key");
Add(stub_cache->value_reference(StubCache::kSecondary).address(),
"StubCache::secondary_->value");
Add(stub_cache->map_reference(StubCache::kSecondary).address(),
"StubCache::secondary_->map");
// Runtime entries
Add(ExternalReference::delete_handle_scope_extensions(isolate).address(),
"HandleScope::DeleteExtensions");
Add(ExternalReference::incremental_marking_record_write_function(isolate)
.address(),
"IncrementalMarking::RecordWrite");
Add(ExternalReference::incremental_marking_record_write_code_entry_function(
isolate)
.address(),
"IncrementalMarking::RecordWriteOfCodeEntryFromCode");
Add(ExternalReference::store_buffer_overflow_function(isolate).address(),
"StoreBuffer::StoreBufferOverflow");
// Add a small set of deopt entry addresses to encoder without generating the
// deopt table code, which isn't possible at deserialization time.
HandleScope scope(isolate);
for (int entry = 0; entry < kDeoptTableSerializeEntryCount; ++entry) {
Address address = Deoptimizer::GetDeoptimizationEntry(
isolate, entry, Deoptimizer::LAZY,
Deoptimizer::CALCULATE_ENTRY_ADDRESS);
Add(address, "lazy_deopt");
}
// Add external references provided by the embedder (a null-terminated array).
intptr_t* api_external_references = isolate->api_external_references();
if (api_external_references != nullptr) {
while (*api_external_references != 0) {
Add(reinterpret_cast<Address>(*api_external_references), "<embedder>");
api_external_references++;
}
}
}
} // namespace internal
} // namespace v8