v8/src/external-reference-table.cc

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// 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/builtins/builtins.h"
#include "src/counters.h"
#include "src/deoptimizer.h"
#include "src/ic/stub-cache.h"
#include "src/objects-inl.h"
#if defined(DEBUG) && defined(V8_OS_LINUX) && !defined(V8_OS_ANDROID)
#define SYMBOLIZE_FUNCTION
#include <execinfo.h>
#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
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) {
// nullptr is preserved through serialization/deserialization.
Add(nullptr, "nullptr");
AddReferences(isolate);
AddBuiltins(isolate);
AddRuntimeFunctions(isolate);
AddIsolateAddresses(isolate);
AddAccessors(isolate);
AddStubCache(isolate);
// API references must be added last.
AddApiReferences(isolate);
}
#ifdef DEBUG
void ExternalReferenceTable::ResetCount() {
for (ExternalReferenceEntry& entry : refs_) entry.count = 0;
}
void ExternalReferenceTable::PrintCount() {
for (int i = 0; i < refs_.length(); i++) {
v8::base::OS::Print("index=%5d count=%5d %-60s\n", i, refs_[i].count,
refs_[i].name);
}
}
#endif // DEBUG
// static
const char* ExternalReferenceTable::ResolveSymbol(void* address) {
#ifdef SYMBOLIZE_FUNCTION
return backtrace_symbols(&address, 1)[0];
#else
return "<unresolved>";
#endif // SYMBOLIZE_FUNCTION
}
void ExternalReferenceTable::AddReferences(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");
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::address_of_negative_infinity().address(),
"LDoubleConstant::negative_infinity");
Add(ExternalReference::power_double_double_function(isolate).address(),
"power_double_double_function");
Add(ExternalReference::ieee754_acos_function(isolate).address(),
"base::ieee754::acos");
Add(ExternalReference::ieee754_acosh_function(isolate).address(),
"base::ieee754::acosh");
Add(ExternalReference::ieee754_asin_function(isolate).address(),
"base::ieee754::asin");
Add(ExternalReference::ieee754_asinh_function(isolate).address(),
"base::ieee754::asinh");
Add(ExternalReference::ieee754_atan_function(isolate).address(),
"base::ieee754::atan");
Add(ExternalReference::ieee754_atanh_function(isolate).address(),
"base::ieee754::atanh");
Add(ExternalReference::ieee754_atan2_function(isolate).address(),
"base::ieee754::atan2");
Add(ExternalReference::ieee754_cbrt_function(isolate).address(),
"base::ieee754::cbrt");
Add(ExternalReference::ieee754_cos_function(isolate).address(),
"base::ieee754::cos");
Add(ExternalReference::ieee754_cosh_function(isolate).address(),
"base::ieee754::cosh");
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_sinh_function(isolate).address(),
"base::ieee754::sinh");
Add(ExternalReference::ieee754_tan_function(isolate).address(),
"base::ieee754::tan");
Add(ExternalReference::ieee754_tanh_function(isolate).address(),
"base::ieee754::tanh");
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_float64_pow(isolate).address(),
"wasm::float64_pow");
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_mod_wrapper_function(isolate).address(),
"f64_mod_wrapper");
[wasm] Introduce the TrapIf and TrapUnless operators to generate trap code. Some instructions in WebAssembly trap for some inputs, which means that the execution is terminated and (at least at the moment) a JavaScript exception is thrown. Examples for traps are out-of-bounds memory accesses, or integer divisions by zero. Without the TrapIf and TrapUnless operators trap check in WebAssembly introduces 5 TurboFan nodes (branch, if_true, if_false, trap-reason constant, trap-position constant), in addition to the trap condition itself. Additionally, each WebAssembly function has four TurboFan nodes (merge, effect_phi, 2 phis) whose number of inputs is linear to the number of trap checks in the function. Especially for functions with high numbers of trap checks we observe a significant slowdown in compilation time, down to 0.22 MiB/s in the sqlite benchmark instead of the average of 3 MiB/s in other benchmarks. By introducing a TrapIf common operator only a single node is necessary per trap check, in addition to the trap condition. Also the nodes which are shared between trap checks (merge, effect_phi, 2 phis) would disappear. First measurements suggest a speedup of 30-50% on average. This CL only implements TrapIf and TrapUnless on x64. The implementation is also hidden behind the --wasm-trap-if flag. Please take a special look at how the source position is transfered from the instruction selector to the code generator, and at the context that is used for the runtime call. R=titzer@chromium.org Review-Url: https://codereview.chromium.org/2562393002 Cr-Commit-Position: refs/heads/master@{#41720}
2016-12-15 13:31:29 +00:00
Add(ExternalReference::wasm_call_trap_callback_for_testing(isolate).address(),
"wasm::call_trap_callback_for_testing");
Add(ExternalReference::libc_memchr_function(isolate).address(),
"libc_memchr");
Add(ExternalReference::libc_memcpy_function(isolate).address(),
"libc_memcpy");
Add(ExternalReference::libc_memset_function(isolate).address(),
"libc_memset");
Add(ExternalReference::try_internalize_string_function(isolate).address(),
"try_internalize_string_function");
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::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()");
Add(ExternalReference::address_of_float_abs_constant().address(),
"float_absolute_constant");
Add(ExternalReference::address_of_float_neg_constant().address(),
"float_negate_constant");
Add(ExternalReference::address_of_double_abs_constant().address(),
"double_absolute_constant");
Add(ExternalReference::address_of_double_neg_constant().address(),
"double_negate_constant");
[inspector] change target promise for kDebugWillHandle & kDebugDidHandle - kDebugPromiseCreated(task, parent_task) This event occurs when promise is created (PromiseHookType::Init). V8Debugger uses this event to maintain task -> parent task map. - kDebugEnqueueAsyncFunction(task) This event occurs when first internal promise for async function is created. V8Debugger collects stack trace at this point. - kDebugEnqueuePromiseResolve(task), This event occurs when Promise fulfills with resolved status. V8Debugger collects stack trace at this point. - kDebugEnqueuePromiseReject(task), This event occurs when Promise fulfills with rejected status. V8Debugger collects stack trace at this point. - kDebugPromiseCollected, This event occurs when Promise is collected and no other chained callbacks can be added. V8Debugger removes information about async task for this promise. - kDebugWillHandle, This event occurs when chained promise function (either resolve or reject handler) is called. V8Debugger installs parent promise's stack (based on task -> parent_task map) as current if available or current promise's scheduled stack otherwise. - kDebugDidHandle, This event occurs after chained promise function has finished. V8Debugger restores asynchronous call chain to previous one. With this change all instrumentation calls are related to current promise (before WillHandle and DidHandle were related to next async task). Before V8Debugger supported only the following: - asyncTaskScheduled(task1) - asyncTaskStarted(task1) - asyncTaskFinished(task1) Now V8Debugger supports the following: - asyncTaskScheduled(parent_task) .. - asyncTaskCreated(task, parent_task), - asyncTaskStarted(task), uses parent_task scheduled stack - asyncTaskScheduled(task) - asyncTaskFinished(task) Additionally: WillHandle and DidHandle were migrated to PromiseHook API. More details: https://docs.google.com/document/d/1u19N45f1gSF7M39mGsycJEK3IPyJgIXCBnWyiPeuJFE BUG=v8:5738 R=dgozman@chromium.org,gsathya@chromium.org,yangguo@chromium.org Review-Url: https://codereview.chromium.org/2650803003 Cr-Commit-Position: refs/heads/master@{#42644}
2017-01-25 07:05:43 +00:00
Add(ExternalReference::promise_hook_or_debug_is_active_address(isolate)
.address(),
"Isolate::promise_hook_or_debug_is_active_address()");
// Debug addresses
Add(ExternalReference::debug_is_active_address(isolate).address(),
"Debug::is_active_address()");
Add(ExternalReference::debug_hook_on_function_call_address(isolate).address(),
"Debug::hook_on_function_call_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()");
Add(ExternalReference::debug_restart_fp_address(isolate).address(),
"Debug::restart_fp_address()");
Add(ExternalReference::address_of_regexp_dotall_flag(isolate).address(),
"FLAG_harmony_regexp_dotall");
#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
// 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");
}
void ExternalReferenceTable::AddBuiltins(Isolate* isolate) {
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(c_builtins[i].address, isolate).address(),
c_builtins[i].name);
}
struct BuiltinEntry {
Builtins::Name id;
const char* name;
};
static const BuiltinEntry builtins[] = {
#define DEF_ENTRY(Name, ...) {Builtins::k##Name, "Builtin_" #Name},
BUILTIN_LIST_C(DEF_ENTRY) BUILTIN_LIST_A(DEF_ENTRY)
#undef DEF_ENTRY
};
for (unsigned i = 0; i < arraysize(builtins); ++i) {
Add(isolate->builtins()->builtin_address(builtins[i].id), builtins[i].name);
}
}
void ExternalReferenceTable::AddRuntimeFunctions(Isolate* isolate) {
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(runtime_functions[i].id, isolate);
Add(ref.address(), runtime_functions[i].name);
}
}
void ExternalReferenceTable::AddIsolateAddresses(Isolate* isolate) {
// 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]);
}
}
void ExternalReferenceTable::AddAccessors(Isolate* isolate) {
// 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);
}
for (unsigned i = 0; i < arraysize(setters); ++i) {
Add(setters[i].address, setters[i].name);
}
}
void ExternalReferenceTable::AddStubCache(Isolate* isolate) {
StubCache* load_stub_cache = isolate->load_stub_cache();
// Stub cache tables
Add(load_stub_cache->key_reference(StubCache::kPrimary).address(),
"Load StubCache::primary_->key");
Add(load_stub_cache->value_reference(StubCache::kPrimary).address(),
"Load StubCache::primary_->value");
Add(load_stub_cache->map_reference(StubCache::kPrimary).address(),
"Load StubCache::primary_->map");
Add(load_stub_cache->key_reference(StubCache::kSecondary).address(),
"Load StubCache::secondary_->key");
Add(load_stub_cache->value_reference(StubCache::kSecondary).address(),
"Load StubCache::secondary_->value");
Add(load_stub_cache->map_reference(StubCache::kSecondary).address(),
"Load StubCache::secondary_->map");
StubCache* store_stub_cache = isolate->store_stub_cache();
// Stub cache tables
Add(store_stub_cache->key_reference(StubCache::kPrimary).address(),
"Store StubCache::primary_->key");
Add(store_stub_cache->value_reference(StubCache::kPrimary).address(),
"Store StubCache::primary_->value");
Add(store_stub_cache->map_reference(StubCache::kPrimary).address(),
"Store StubCache::primary_->map");
Add(store_stub_cache->key_reference(StubCache::kSecondary).address(),
"Store StubCache::secondary_->key");
Add(store_stub_cache->value_reference(StubCache::kSecondary).address(),
"Store StubCache::secondary_->value");
Add(store_stub_cache->map_reference(StubCache::kSecondary).address(),
"Store StubCache::secondary_->map");
}
void ExternalReferenceTable::AddApiReferences(Isolate* isolate) {
// Add external references provided by the embedder (a null-terminated
// array).
api_refs_start_ = size();
intptr_t* api_external_references = isolate->api_external_references();
if (api_external_references != nullptr) {
while (*api_external_references != 0) {
Address address = reinterpret_cast<Address>(*api_external_references);
Add(address, ResolveSymbol(address));
api_external_references++;
}
}
}
} // namespace internal
} // namespace v8