blob: 6303447de444cac31cea7a43867487b320395005 [file] [log] [blame]
// Copyright (c) 2012, the Dart project authors. Please see the AUTHORS file
// for details. All rights reserved. Use of this source code is governed by a
// BSD-style license that can be found in the LICENSE file.
#include "vm/stub_code.h"
#include "platform/assert.h"
#include "platform/globals.h"
#include "vm/app_snapshot.h"
#include "vm/compiler/assembler/disassembler.h"
#include "vm/flags.h"
#include "vm/heap/safepoint.h"
#include "vm/object_store.h"
#include "vm/snapshot.h"
#include "vm/virtual_memory.h"
#include "vm/visitor.h"
#if !defined(DART_PRECOMPILED_RUNTIME)
#include "vm/compiler/aot/precompiler.h"
#include "vm/compiler/assembler/assembler.h"
#endif // !defined(DART_PRECOMPILED_RUNTIME)
namespace dart {
DECLARE_FLAG(bool, precompiled_mode);
StubCode::StubCodeEntry StubCode::entries_[kNumStubEntries] = {
#if defined(DART_PRECOMPILED_RUNTIME)
#define STUB_CODE_DECLARE(name) {nullptr, #name},
#else
#define STUB_CODE_DECLARE(name) \
{nullptr, #name, compiler::StubCodeCompiler::Generate##name##Stub},
#endif
VM_STUB_CODE_LIST(STUB_CODE_DECLARE)
#undef STUB_CODE_DECLARE
};
AcqRelAtomic<bool> StubCode::initialized_ = {false};
#if defined(DART_PRECOMPILED_RUNTIME)
void StubCode::Init() {
// Stubs will be loaded from the snapshot.
UNREACHABLE();
}
#else
void StubCode::Init() {
compiler::ObjectPoolBuilder object_pool_builder;
// Generate all the stubs.
for (size_t i = 0; i < ARRAY_SIZE(entries_); i++) {
entries_[i].code = Code::ReadOnlyHandle();
*(entries_[i].code) =
Generate(entries_[i].name, &object_pool_builder, entries_[i].generator);
}
const ObjectPool& object_pool =
ObjectPool::Handle(ObjectPool::NewFromBuilder(object_pool_builder));
for (size_t i = 0; i < ARRAY_SIZE(entries_); i++) {
entries_[i].code->set_object_pool(object_pool.ptr());
}
InitializationDone();
#if defined(DART_PRECOMPILER)
{
// Set Function owner for UnknownDartCode stub so it pretends to
// be a Dart code.
Zone* zone = Thread::Current()->zone();
const auto& signature = FunctionType::Handle(zone, FunctionType::New());
auto& owner = Object::Handle(zone);
owner = Object::void_class();
ASSERT(!owner.IsNull());
owner = Function::New(signature, Object::null_string(),
UntaggedFunction::kRegularFunction,
/*is_static=*/true,
/*is_const=*/false,
/*is_abstract=*/false,
/*is_external=*/false,
/*is_native=*/false, owner, TokenPosition::kNoSource);
StubCode::UnknownDartCode().set_owner(owner);
StubCode::UnknownDartCode().set_exception_handlers(
Object::empty_exception_handlers());
StubCode::UnknownDartCode().set_pc_descriptors(Object::empty_descriptors());
ASSERT(StubCode::UnknownDartCode().IsFunctionCode());
}
#endif // defined(DART_PRECOMPILER)
}
#undef STUB_CODE_GENERATE
#undef STUB_CODE_SET_OBJECT_POOL
CodePtr StubCode::Generate(
const char* name,
compiler::ObjectPoolBuilder* object_pool_builder,
void (*GenerateStub)(compiler::Assembler* assembler)) {
auto thread = Thread::Current();
SafepointWriteRwLocker ml(thread, thread->isolate_group()->program_lock());
compiler::Assembler assembler(object_pool_builder);
GenerateStub(&assembler);
const Code& code = Code::Handle(Code::FinalizeCodeAndNotify(
name, nullptr, &assembler, Code::PoolAttachment::kNotAttachPool,
/*optimized=*/false));
#ifndef PRODUCT
if (FLAG_support_disassembler && FLAG_disassemble_stubs) {
Disassembler::DisassembleStub(name, code);
}
#endif // !PRODUCT
return code.ptr();
}
#endif // defined(DART_PRECOMPILED_RUNTIME)
void StubCode::Cleanup() {
initialized_.store(false, std::memory_order_release);
for (size_t i = 0; i < ARRAY_SIZE(entries_); i++) {
entries_[i].code = nullptr;
}
}
bool StubCode::InInvocationStub(uword pc) {
ASSERT(HasBeenInitialized());
uword entry = StubCode::InvokeDartCode().EntryPoint();
uword size = StubCode::InvokeDartCodeSize();
return (pc >= entry) && (pc < (entry + size));
}
bool StubCode::InJumpToFrameStub(uword pc) {
ASSERT(HasBeenInitialized());
uword entry = StubCode::JumpToFrame().EntryPoint();
uword size = StubCode::JumpToFrameSize();
return (pc >= entry) && (pc < (entry + size));
}
#if !defined(DART_PRECOMPILED_RUNTIME)
ArrayPtr compiler::StubCodeCompiler::BuildStaticCallsTable(
Zone* zone,
compiler::UnresolvedPcRelativeCalls* unresolved_calls) {
if (unresolved_calls->length() == 0) {
return Array::null();
}
const intptr_t array_length =
unresolved_calls->length() * Code::kSCallTableEntryLength;
const auto& static_calls_table =
Array::Handle(zone, Array::New(array_length, Heap::kOld));
StaticCallsTable entries(static_calls_table);
auto& kind_type_and_offset = Smi::Handle(zone);
for (intptr_t i = 0; i < unresolved_calls->length(); i++) {
auto& unresolved_call = (*unresolved_calls)[i];
auto call_kind = unresolved_call->is_tail_call() ? Code::kPcRelativeTailCall
: Code::kPcRelativeCall;
kind_type_and_offset =
Smi::New(Code::KindField::encode(call_kind) |
Code::EntryPointField::encode(Code::kDefaultEntry) |
Code::OffsetField::encode(unresolved_call->offset()));
auto view = entries[i];
view.Set<Code::kSCallTableKindAndOffset>(kind_type_and_offset);
view.Set<Code::kSCallTableCodeOrTypeTarget>(unresolved_call->target());
}
return static_calls_table.ptr();
}
CodePtr StubCode::GetAllocationStubForClass(const Class& cls) {
Thread* thread = Thread::Current();
auto object_store = thread->isolate_group()->object_store();
Zone* zone = thread->zone();
const Error& error =
Error::Handle(zone, cls.EnsureIsAllocateFinalized(thread));
ASSERT(error.IsNull());
switch (cls.id()) {
case kArrayCid:
return object_store->allocate_array_stub();
case kContextCid:
return object_store->allocate_context_stub();
case kUnhandledExceptionCid:
return object_store->allocate_unhandled_exception_stub();
case kMintCid:
return object_store->allocate_mint_stub();
case kDoubleCid:
return object_store->allocate_double_stub();
case kFloat32x4Cid:
return object_store->allocate_float32x4_stub();
case kFloat64x2Cid:
return object_store->allocate_float64x2_stub();
case kInt32x4Cid:
return object_store->allocate_int32x4_stub();
case kClosureCid:
return object_store->allocate_closure_stub();
}
Code& stub = Code::Handle(zone, cls.allocation_stub());
if (stub.IsNull()) {
compiler::ObjectPoolBuilder object_pool_builder;
Precompiler* precompiler = Precompiler::Instance();
compiler::ObjectPoolBuilder* wrapper =
precompiler != NULL ? precompiler->global_object_pool_builder()
: &object_pool_builder;
const auto pool_attachment = FLAG_precompiled_mode
? Code::PoolAttachment::kNotAttachPool
: Code::PoolAttachment::kAttachPool;
auto zone = thread->zone();
auto object_store = thread->isolate_group()->object_store();
auto& allocate_object_stub = Code::ZoneHandle(zone);
auto& allocate_object_parametrized_stub = Code::ZoneHandle(zone);
if (FLAG_precompiled_mode) {
allocate_object_stub = object_store->allocate_object_stub();
allocate_object_parametrized_stub =
object_store->allocate_object_parametrized_stub();
}
compiler::Assembler assembler(wrapper);
compiler::UnresolvedPcRelativeCalls unresolved_calls;
const char* name = cls.ToCString();
compiler::StubCodeCompiler::GenerateAllocationStubForClass(
&assembler, &unresolved_calls, cls, allocate_object_stub,
allocate_object_parametrized_stub);
const auto& static_calls_table =
Array::Handle(zone, compiler::StubCodeCompiler::BuildStaticCallsTable(
zone, &unresolved_calls));
SafepointWriteRwLocker ml(thread, thread->isolate_group()->program_lock());
auto mutator_fun = [&]() {
stub = Code::FinalizeCode(nullptr, &assembler, pool_attachment,
/*optimized=*/false,
/*stats=*/nullptr);
// Check if some other thread has not already added the stub.
if (cls.allocation_stub() == Code::null()) {
stub.set_owner(cls);
if (!static_calls_table.IsNull()) {
stub.set_static_calls_target_table(static_calls_table);
}
cls.set_allocation_stub(stub);
}
};
// We have to ensure no mutators are running, because:
//
// a) We allocate an instructions object, which might cause us to
// temporarily flip page protections from (RX -> RW -> RX).
thread->isolate_group()->RunWithStoppedMutators(mutator_fun,
/*use_force_growth=*/true);
// We notify code observers after finalizing the code in order to be
// outside a [SafepointOperationScope].
Code::NotifyCodeObservers(name, stub, /*optimized=*/false);
#ifndef PRODUCT
if (FLAG_support_disassembler && FLAG_disassemble_stubs) {
Disassembler::DisassembleStub(name, stub);
}
#endif // !PRODUCT
}
return stub.ptr();
}
CodePtr StubCode::GetAllocationStubForTypedData(classid_t class_id) {
auto object_store = Thread::Current()->isolate_group()->object_store();
switch (class_id) {
case kTypedDataInt8ArrayCid:
return object_store->allocate_int8_array_stub();
case kTypedDataUint8ArrayCid:
return object_store->allocate_uint8_array_stub();
case kTypedDataUint8ClampedArrayCid:
return object_store->allocate_uint8_clamped_array_stub();
case kTypedDataInt16ArrayCid:
return object_store->allocate_int16_array_stub();
case kTypedDataUint16ArrayCid:
return object_store->allocate_uint16_array_stub();
case kTypedDataInt32ArrayCid:
return object_store->allocate_int32_array_stub();
case kTypedDataUint32ArrayCid:
return object_store->allocate_uint32_array_stub();
case kTypedDataInt64ArrayCid:
return object_store->allocate_int64_array_stub();
case kTypedDataUint64ArrayCid:
return object_store->allocate_uint64_array_stub();
case kTypedDataFloat32ArrayCid:
return object_store->allocate_float32_array_stub();
case kTypedDataFloat64ArrayCid:
return object_store->allocate_float64_array_stub();
case kTypedDataFloat32x4ArrayCid:
return object_store->allocate_float32x4_array_stub();
case kTypedDataInt32x4ArrayCid:
return object_store->allocate_int32x4_array_stub();
case kTypedDataFloat64x2ArrayCid:
return object_store->allocate_float64x2_array_stub();
}
UNREACHABLE();
return Code::null();
}
#endif // !defined(DART_PRECOMPILED_RUNTIME)
#if !defined(TARGET_ARCH_IA32)
CodePtr StubCode::GetBuildMethodExtractorStub(compiler::ObjectPoolBuilder* pool,
bool generic) {
#if !defined(DART_PRECOMPILED_RUNTIME)
auto thread = Thread::Current();
auto Z = thread->zone();
auto object_store = thread->isolate_group()->object_store();
const auto& closure_allocation_stub =
Code::ZoneHandle(Z, object_store->allocate_closure_stub());
const auto& context_allocation_stub =
Code::ZoneHandle(Z, object_store->allocate_context_stub());
compiler::ObjectPoolBuilder object_pool_builder;
compiler::Assembler assembler(pool != nullptr ? pool : &object_pool_builder);
compiler::StubCodeCompiler::GenerateBuildMethodExtractorStub(
&assembler, closure_allocation_stub, context_allocation_stub, generic);
const char* name = generic ? "BuildGenericMethodExtractor"
: "BuildNonGenericMethodExtractor";
const Code& stub = Code::Handle(Code::FinalizeCodeAndNotify(
name, nullptr, &assembler, Code::PoolAttachment::kNotAttachPool,
/*optimized=*/false));
if (pool == nullptr) {
stub.set_object_pool(ObjectPool::NewFromBuilder(object_pool_builder));
}
#ifndef PRODUCT
if (FLAG_support_disassembler && FLAG_disassemble_stubs) {
Disassembler::DisassembleStub(name, stub);
}
#endif // !PRODUCT
return stub.ptr();
#else // !defined(DART_PRECOMPILED_RUNTIME)
UNIMPLEMENTED();
return nullptr;
#endif // !defined(DART_PRECOMPILED_RUNTIME)
}
#endif // !defined(TARGET_ARCH_IA32)
const Code& StubCode::UnoptimizedStaticCallEntry(intptr_t num_args_tested) {
switch (num_args_tested) {
case 0:
return ZeroArgsUnoptimizedStaticCall();
case 1:
return OneArgUnoptimizedStaticCall();
case 2:
return TwoArgsUnoptimizedStaticCall();
default:
UNIMPLEMENTED();
return Code::Handle();
}
}
const char* StubCode::NameOfStub(uword entry_point) {
for (size_t i = 0; i < ARRAY_SIZE(entries_); i++) {
if ((entries_[i].code != nullptr) && !entries_[i].code->IsNull() &&
(entries_[i].code->EntryPoint() == entry_point)) {
return entries_[i].name;
}
}
auto object_store = IsolateGroup::Current()->object_store();
#define MATCH(member, name) \
if (object_store->member() != Code::null() && \
entry_point == Code::EntryPointOf(object_store->member())) { \
return "_iso_stub_" #name "Stub"; \
}
OBJECT_STORE_STUB_CODE_LIST(MATCH)
MATCH(build_generic_method_extractor_code, BuildGenericMethodExtractor)
MATCH(build_nongeneric_method_extractor_code, BuildNonGenericMethodExtractor)
#undef MATCH
return nullptr;
}
} // namespace dart