arkcompiler_ets_runtime/ecmascript/ecma_vm.cpp
openharmony_ci 6342072cde
!7248 NULL pointer dereference during deserialization
Merge pull request !7248 from lukai/deserilization
2024-05-06 06:21:39 +00:00

1095 lines
38 KiB
C++

/*
* Copyright (c) 2021-2022 Huawei Device Co., Ltd.
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "ecmascript/ecma_vm.h"
#include "ecmascript/base/string_helper.h"
#include "ecmascript/builtins/builtins.h"
#include "ecmascript/builtins/builtins_ark_tools.h"
#include "ecmascript/checkpoint/thread_state_transition.h"
#ifdef ARK_SUPPORT_INTL
#include "ecmascript/builtins/builtins_collator.h"
#include "ecmascript/builtins/builtins_date_time_format.h"
#include "ecmascript/builtins/builtins_number_format.h"
#endif
#include "ecmascript/builtins/builtins_global.h"
#include "ecmascript/builtins/builtins_object.h"
#include "ecmascript/builtins/builtins_promise.h"
#include "ecmascript/builtins/builtins_promise_handler.h"
#include "ecmascript/builtins/builtins_proxy.h"
#include "ecmascript/builtins/builtins_regexp.h"
#include "ecmascript/compiler/builtins/builtins_call_signature.h"
#include "ecmascript/compiler/call_signature.h"
#include "ecmascript/compiler/common_stubs.h"
#include "ecmascript/compiler/interpreter_stub.h"
#include "ecmascript/compiler/rt_call_signature.h"
#include "ecmascript/jit/jit_task.h"
#if defined(ECMASCRIPT_SUPPORT_CPUPROFILER)
#include "ecmascript/dfx/cpu_profiler/cpu_profiler.h"
#endif
#if !WIN_OR_MAC_OR_IOS_PLATFORM
#include "ecmascript/dfx/hprof/heap_profiler.h"
#include "ecmascript/dfx/hprof/heap_profiler_interface.h"
#endif
#include "ecmascript/compiler/aot_file/an_file_data_manager.h"
#include "ecmascript/compiler/aot_file/aot_file_manager.h"
#include "ecmascript/debugger/js_debugger_manager.h"
#include "ecmascript/dfx/stackinfo/js_stackinfo.h"
#include "ecmascript/dfx/tracing/tracing.h"
#include "ecmascript/dfx/vmstat/function_call_timer.h"
#include "ecmascript/dfx/vmstat/opt_code_profiler.h"
#include "ecmascript/dfx/vmstat/runtime_stat.h"
#include "ecmascript/ecma_context.h"
#include "ecmascript/ecma_string_table.h"
#include "ecmascript/global_env.h"
#include "ecmascript/global_env_constants-inl.h"
#include "ecmascript/global_env_constants.h"
#include "ecmascript/interpreter/interpreter-inl.h"
#include "ecmascript/jobs/micro_job_queue.h"
#include "ecmascript/js_arraybuffer.h"
#include "ecmascript/js_for_in_iterator.h"
#include "ecmascript/js_native_pointer.h"
#include "ecmascript/js_thread.h"
#include "ecmascript/jspandafile/constpool_value.h"
#include "ecmascript/jspandafile/js_pandafile.h"
#include "ecmascript/jspandafile/js_pandafile_manager.h"
#include "ecmascript/jspandafile/panda_file_translator.h"
#include "ecmascript/jspandafile/program_object.h"
#include "ecmascript/mem/concurrent_marker.h"
#include "ecmascript/mem/gc_stats.h"
#include "ecmascript/mem/heap.h"
#include "ecmascript/mem/mem.h"
#include "ecmascript/mem/space.h"
#include "ecmascript/mem/visitor.h"
#include "ecmascript/module/js_module_manager.h"
#include "ecmascript/module/module_data_extractor.h"
#include "ecmascript/module/module_path_helper.h"
#include "ecmascript/object_factory.h"
#include "ecmascript/patch/quick_fix_manager.h"
#include "ecmascript/pgo_profiler/pgo_profiler_manager.h"
#include "ecmascript/regexp/regexp_parser_cache.h"
#include "ecmascript/runtime.h"
#include "ecmascript/runtime_call_id.h"
#include "ecmascript/snapshot/mem/snapshot.h"
#include "ecmascript/snapshot/mem/snapshot_env.h"
#include "ecmascript/stubs/runtime_stubs.h"
#include "ecmascript/tagged_array-inl.h"
#include "ecmascript/tagged_dictionary.h"
#include "ecmascript/tagged_queue.h"
#include "ecmascript/tagged_queue.h"
#include "ecmascript/taskpool/task.h"
#include "ecmascript/taskpool/taskpool.h"
#include "ecmascript/ohos/enable_aot_list_helper.h"
#include "ecmascript/ohos/jit_tools.h"
#if defined(PANDA_TARGET_OHOS) && !defined(STANDALONE_MODE)
#include "parameters.h"
#endif
namespace panda::ecmascript {
using RandomGenerator = base::RandomGenerator;
using PGOProfilerManager = pgo::PGOProfilerManager;
AOTFileManager *JsStackInfo::loader = nullptr;
JSRuntimeOptions *JsStackInfo::options = nullptr;
bool EcmaVM::multiThreadCheck_ = false;
#ifdef JIT_ESCAPE_ENABLE
static struct sigaction s_oldSa[SIGSYS + 1]; // SIGSYS = 31
void GetSignalHandler(int signal, siginfo_t *info, void *context)
{
[[maybe_unused]] ucontext_t *ucontext = reinterpret_cast<ucontext_t*>(context);
[[maybe_unused]] mcontext_t &mcontext = ucontext->uc_mcontext;
uintptr_t pc = 0;
#if defined(PANDA_TARGET_AMD64)
pc = static_cast<uintptr_t>(mcontext.gregs[REG_RIP]);
#elif defined(PANDA_TARGET_ARM64)
pc = static_cast<uintptr_t>(mcontext.pc);
#endif
if (JsStackInfo::loader == nullptr) {
ecmascript::JsStackInfo::BuildCrashInfo(false);
} else if (!JsStackInfo::loader->InsideStub(pc) && !JsStackInfo::loader->InsideAOT(pc)) {
ecmascript::JsStackInfo::BuildCrashInfo(false);
} else {
ecmascript::JsStackInfo::BuildCrashInfo(false, pc);
}
sigaction(signal, &s_oldSa[signal], nullptr);
int rc = syscall(SYS_rt_tgsigqueueinfo, getpid(), syscall(SYS_gettid), info->si_signo, info);
if (rc != 0) {
LOG_ECMA(ERROR) << "GetSignalHandler() failed to resend signal during crash";
}
}
void SignalReg(int signo)
{
sigaction(signo, nullptr, &s_oldSa[signo]);
struct sigaction newAction;
newAction.sa_flags = SA_RESTART | SA_SIGINFO;
newAction.sa_sigaction = GetSignalHandler;
sigaction(signo, &newAction, nullptr);
}
#endif
EcmaVM *EcmaVM::Create(const JSRuntimeOptions &options)
{
Runtime::CreateIfFirstVm(options);
auto heapType = options.IsWorker() ? EcmaParamConfiguration::HeapType::WORKER_HEAP :
EcmaParamConfiguration::HeapType::DEFAULT_HEAP;
size_t heapSize = options.GetHeapSize();
auto config = EcmaParamConfiguration(heapType,
MemMapAllocator::GetInstance()->GetCapacity(),
heapSize);
JSRuntimeOptions newOptions = options;
// only define SUPPORT_ENABLE_ASM_INTERP can enable asm-interpreter
#if !defined(SUPPORT_ENABLE_ASM_INTERP)
newOptions.SetEnableAsmInterpreter(false);
#endif
auto vm = new EcmaVM(newOptions, config);
auto jsThread = JSThread::Create(vm);
vm->thread_ = jsThread;
Runtime::GetInstance()->InitializeIfFirstVm(vm);
if (JsStackInfo::loader == nullptr) {
JsStackInfo::loader = vm->GetAOTFileManager();
}
if (JsStackInfo::options == nullptr) {
JsStackInfo::options = &(vm->GetJSOptions());
}
#if defined(__aarch64__) && !defined(PANDA_TARGET_MACOS) && !defined(PANDA_TARGET_IOS)
if (SetThreadInfoCallback != nullptr) {
SetThreadInfoCallback(CrashCallback);
}
#endif
#if defined(PANDA_TARGET_OHOS) && !defined(STANDALONE_MODE)
int arkProperties = OHOS::system::GetIntParameter<int>("persist.ark.properties", -1);
vm->GetJSOptions().SetArkProperties(arkProperties);
#endif
return vm;
}
// static
bool EcmaVM::Destroy(EcmaVM *vm)
{
if (UNLIKELY(vm == nullptr)) {
return false;
}
delete vm;
Runtime::DestroyIfLastVm();
return true;
}
void EcmaVM::PreFork()
{
heap_->CompactHeapBeforeFork();
heap_->AdjustSpaceSizeForAppSpawn();
heap_->GetReadOnlySpace()->SetReadOnly();
SharedHeap::GetInstance()->DisableParallelGC();
heap_->DisableParallelGC();
}
void EcmaVM::PostFork()
{
RandomGenerator::InitRandom(GetAssociatedJSThread());
heap_->SetHeapMode(HeapMode::SHARE);
GetAssociatedJSThread()->PostFork();
Taskpool::GetCurrentTaskpool()->Initialize();
LOG_ECMA(INFO) << "multi-thread check enabled: " << options_.EnableThreadCheck();
#ifdef JIT_ESCAPE_ENABLE
SignalReg(SIGABRT);
SignalReg(SIGBUS);
SignalReg(SIGSEGV);
SignalReg(SIGILL);
SignalReg(SIGKILL);
SignalReg(SIGSTKFLT);
SignalReg(SIGFPE);
SignalReg(SIGTRAP);
#endif
SharedHeap::GetInstance()->EnableParallelGC(GetJSOptions());
heap_->EnableParallelGC();
std::string bundleName = PGOProfilerManager::GetInstance()->GetBundleName();
if (ohos::EnableAotListHelper::GetInstance()->IsDisableBlackList(bundleName)) {
options_.SetEnablePGOProfiler(false);
PGOProfilerManager::GetInstance()->SetDisableAot(true);
} else if (ohos::EnableAotListHelper::GetInstance()->IsEnableList(bundleName)) {
options_.SetEnablePGOProfiler(true);
}
ResetPGOProfiler();
bool isEnableFastJit = options_.IsEnableJIT() && options_.GetEnableAsmInterpreter();
bool isEnableBaselineJit = options_.IsEnableBaselineJIT() && options_.GetEnableAsmInterpreter();
if (ohos::EnableAotListHelper::GetJitInstance()->IsEnableJit(bundleName) && options_.GetEnableAsmInterpreter()) {
options_.SetEnableAPPJIT(true);
Jit::GetInstance()->SetEnableOrDisable(options_, isEnableFastJit, isEnableBaselineJit);
bool jitEscapeDisable = panda::ecmascript::ohos::GetJitEscapeEanble();
if ((!jitEscapeDisable) && JSNApi::IsJitEscape()) {
isEnableFastJit = false;
isEnableBaselineJit = false;
options_.SetEnableJIT(false);
}
if (isEnableFastJit || isEnableBaselineJit) {
EnableJit();
}
}
#ifdef ENABLE_POSTFORK_FORCEEXPAND
heap_->NotifyPostFork();
heap_->NotifyFinishColdStartSoon();
#endif
#if defined(PANDA_TARGET_OHOS) && !defined(STANDALONE_MODE)
int arkProperties = OHOS::system::GetIntParameter<int>("persist.ark.properties", -1);
GetJSOptions().SetArkProperties(arkProperties);
#endif
}
EcmaVM::EcmaVM(JSRuntimeOptions options, EcmaParamConfiguration config)
: nativeAreaAllocator_(std::make_unique<NativeAreaAllocator>()),
heapRegionAllocator_(std::make_unique<HeapRegionAllocator>()),
chunk_(nativeAreaAllocator_.get()),
ecmaParamConfiguration_(std::move(config))
{
options_ = std::move(options);
LOG_ECMA(INFO) << "multi-thread check enabled: " << options_.EnableThreadCheck();
icEnabled_ = options_.EnableIC();
optionalLogEnabled_ = options_.EnableOptionalLog();
options_.ParseAsmInterOption();
SetEnableOsr(options_.IsEnableOSR() && options_.IsEnableJIT() && options_.GetEnableAsmInterpreter());
}
// for jit
EcmaVM::EcmaVM()
: nativeAreaAllocator_(std::make_unique<NativeAreaAllocator>()),
heapRegionAllocator_(nullptr),
chunk_(nativeAreaAllocator_.get()) {}
void EcmaVM::InitializeForJit(JitThread *jitThread)
{
thread_ = jitThread;
stringTable_ = Runtime::GetInstance()->GetEcmaStringTable();
ASSERT(stringTable_);
// ObjectFactory only sypport alloc string in sharedheap
factory_ = chunk_.New<ObjectFactory>(thread_, nullptr, SharedHeap::GetInstance());
SetIsJitCompileVM(true);
}
void EcmaVM::InitializePGOProfiler()
{
bool isEnablePGOProfiler = IsEnablePGOProfiler();
if (pgoProfiler_ == nullptr) {
pgoProfiler_ = PGOProfilerManager::GetInstance()->Build(this, isEnablePGOProfiler);
}
thread_->SetPGOProfilerEnable(isEnablePGOProfiler);
}
void EcmaVM::ResetPGOProfiler()
{
if (pgoProfiler_ != nullptr) {
bool isEnablePGOProfiler = IsEnablePGOProfiler();
PGOProfilerManager::GetInstance()->Reset(pgoProfiler_, isEnablePGOProfiler);
thread_->SetPGOProfilerEnable(isEnablePGOProfiler);
thread_->CheckOrSwitchPGOStubs();
}
}
bool EcmaVM::IsEnablePGOProfiler() const
{
if (options_.IsWorker()) {
return PGOProfilerManager::GetInstance()->IsEnable();
}
return options_.GetEnableAsmInterpreter() && options_.IsEnablePGOProfiler();
}
bool EcmaVM::IsEnableElementsKind() const
{
if (options_.IsWorker()) {
return false;
}
return options_.GetEnableAsmInterpreter() && options_.IsEnableElementsKind();
}
bool EcmaVM::IsEnableFastJit() const
{
return GetJit()->IsEnableFastJit();
}
bool EcmaVM::IsEnableBaselineJit() const
{
return GetJit()->IsEnableBaselineJit();
}
void EcmaVM::EnableJit()
{
// check enable aot pgo, if have enable aot pgo, thread installed pgo stubs
if (!IsEnablePGOProfiler() && pgoProfiler_ != nullptr) {
// only jit enable pgo, disable aot pgo dump
options_.SetEnableProfileDump(false);
Jit::GetInstance()->SetProfileNeedDump(false);
// enable pgo profile
options_.SetEnablePGOProfiler(true);
ResetPGOProfiler();
}
if (pgoProfiler_ != nullptr) {
pgoProfiler_->InitJITProfiler();
}
bool isApp = Jit::GetInstance()->IsAppJit();
options_.SetEnableAPPJIT(isApp);
bool profileNeedDump = Jit::GetInstance()->IsProfileNeedDump();
options_.SetEnableProfileDump(profileNeedDump);
GetJSThread()->SwitchJitProfileStubs();
bool jitEnableLitecg = panda::ecmascript::ohos::IsJitEnableLitecg(options_.IsCompilerEnableLiteCG());
LOG_JIT(INFO) << "jit enable litecg: " << jitEnableLitecg;
options_.SetCompilerEnableLiteCG(jitEnableLitecg);
}
Jit *EcmaVM::GetJit() const
{
return Jit::GetInstance();
}
bool EcmaVM::Initialize()
{
ECMA_BYTRACE_NAME(HITRACE_TAG_ARK, "EcmaVM::Initialize");
stringTable_ = Runtime::GetInstance()->GetEcmaStringTable();
InitializePGOProfiler();
Taskpool::GetCurrentTaskpool()->Initialize();
#ifndef PANDA_TARGET_WINDOWS
RuntimeStubs::Initialize(thread_);
#endif
heap_ = new Heap(this);
heap_->Initialize();
gcStats_ = chunk_.New<GCStats>(heap_, options_.GetLongPauseTime());
gcKeyStats_ = chunk_.New<GCKeyStats>(heap_, gcStats_);
factory_ = chunk_.New<ObjectFactory>(thread_, heap_, SharedHeap::GetInstance());
if (UNLIKELY(factory_ == nullptr)) {
LOG_FULL(FATAL) << "alloc factory_ failed";
UNREACHABLE();
}
debuggerManager_ = new tooling::JsDebuggerManager(this);
aotFileManager_ = new AOTFileManager(this);
auto context = new EcmaContext(thread_);
thread_->PushContext(context);
[[maybe_unused]] EcmaHandleScope scope(thread_);
thread_->SetReadyForGCIterating(true);
snapshotEnv_ = new SnapshotEnv(this);
context->Initialize();
snapshotEnv_->AddGlobalConstToMap();
thread_->SetGlueGlobalEnv(reinterpret_cast<GlobalEnv *>(context->GetGlobalEnv().GetTaggedType()));
thread_->SetGlobalObject(GetGlobalEnv()->GetGlobalObject());
thread_->SetCurrentEcmaContext(context);
GenerateInternalNativeMethods();
quickFixManager_ = new QuickFixManager();
if (options_.GetEnableAsmInterpreter()) {
thread_->GetCurrentEcmaContext()->LoadStubFile();
}
callTimer_ = new FunctionCallTimer();
strategy_ = new ThroughputJSObjectResizingStrategy();
if (IsEnableFastJit() || IsEnableBaselineJit()) {
EnableJit();
}
initialized_ = true;
return true;
}
EcmaVM::~EcmaVM()
{
if (isJitCompileVM_) {
if (factory_ != nullptr) {
delete factory_;
factory_ = nullptr;
}
stringTable_ = nullptr;
thread_ = nullptr;
return;
}
ASSERT(thread_->IsInRunningStateOrProfiling());
initialized_ = false;
#if defined(ECMASCRIPT_SUPPORT_CPUPROFILER)
if (thread_->isProfiling_) {
if (profiler_->GetOutToFile()) {
DFXJSNApi::StopCpuProfilerForFile(this);
} else {
DFXJSNApi::StopCpuProfilerForInfo(this);
}
}
#endif
#if defined(ECMASCRIPT_SUPPORT_HEAPPROFILER)
DeleteHeapProfile();
#endif
if (IsEnableFastJit() || IsEnableBaselineJit()) {
GetJit()->ClearTaskWithVm(this);
}
heap_->WaitAllTasksFinished();
Taskpool::GetCurrentTaskpool()->Destroy(thread_->GetThreadId());
if (pgoProfiler_ != nullptr) {
PGOProfilerManager::GetInstance()->Destroy(pgoProfiler_);
pgoProfiler_ = nullptr;
}
#if ECMASCRIPT_ENABLE_FUNCTION_CALL_TIMER
DumpCallTimeInfo();
#endif
#if defined(ECMASCRIPT_SUPPORT_TRACING)
if (tracing_) {
DFXJSNApi::StopTracing(this);
}
#endif
// clear c_address: c++ pointer delete
ClearBufferData();
if (!isBundlePack_) {
std::shared_ptr<JSPandaFile> jsPandaFile = JSPandaFileManager::GetInstance()->FindJSPandaFile(assetPath_);
if (jsPandaFile != nullptr) {
jsPandaFile->DeleteParsedConstpoolVM(this);
}
}
if (gcStats_ != nullptr) {
if (options_.EnableGCStatsPrint()) {
gcStats_->PrintStatisticResult();
}
chunk_.Delete(gcStats_);
gcStats_ = nullptr;
}
if (gcKeyStats_ != nullptr) {
chunk_.Delete(gcKeyStats_);
gcKeyStats_ = nullptr;
}
if (JsStackInfo::loader == aotFileManager_) {
JsStackInfo::loader = nullptr;
}
if (heap_ != nullptr) {
heap_->Destroy();
delete heap_;
heap_ = nullptr;
}
SharedHeap *sHeap = SharedHeap::GetInstance();
const Heap *heap = Runtime::GetInstance()->GetMainThread()->GetEcmaVM()->GetHeap();
if (heap && IsWorkerThread() && Runtime::SharedGCRequest() && !heap->InSensitiveStatus()) {
// destory workervm to release mem.
thread_->SetReadyForGCIterating(false);
sHeap->CollectGarbage(thread_, TriggerGCType::SHARED_GC, GCReason::WORKER_DESTRUCTION);
}
if (debuggerManager_ != nullptr) {
delete debuggerManager_;
debuggerManager_ = nullptr;
}
if (aotFileManager_ != nullptr) {
delete aotFileManager_;
aotFileManager_ = nullptr;
}
if (factory_ != nullptr) {
chunk_.Delete(factory_);
factory_ = nullptr;
}
if (stringTable_ != nullptr) {
stringTable_ = nullptr;
}
if (quickFixManager_ != nullptr) {
delete quickFixManager_;
quickFixManager_ = nullptr;
}
if (snapshotEnv_ != nullptr) {
snapshotEnv_->ClearEnvMap();
delete snapshotEnv_;
snapshotEnv_ = nullptr;
}
if (callTimer_ != nullptr) {
delete callTimer_;
callTimer_ = nullptr;
}
if (strategy_ != nullptr) {
delete strategy_;
strategy_ = nullptr;
}
if (thread_ != nullptr) {
delete thread_;
thread_ = nullptr;
}
}
JSHandle<GlobalEnv> EcmaVM::GetGlobalEnv() const
{
return thread_->GetCurrentEcmaContext()->GetGlobalEnv();
}
JSTaggedValue EcmaVM::FastCallAot(size_t actualNumArgs, JSTaggedType *args, const JSTaggedType *prevFp)
{
INTERPRETER_TRACE(thread_, ExecuteAot);
ASSERT(thread_->IsInManagedState());
auto entry = thread_->GetRTInterface(kungfu::RuntimeStubCSigns::ID_OptimizedFastCallEntry);
// do not modify this log to INFO, this will call many times
LOG_ECMA(DEBUG) << "start to execute aot entry: " << (void*)entry;
auto res = reinterpret_cast<FastCallAotEntryType>(entry)(thread_->GetGlueAddr(),
actualNumArgs,
args,
reinterpret_cast<uintptr_t>(prevFp));
return res;
}
void EcmaVM::CheckStartCpuProfiler()
{
#if defined(ECMASCRIPT_SUPPORT_CPUPROFILER)
if (options_.EnableCpuProfilerColdStartMainThread() && options_.GetArkBundleName().compare(bundleName_) == 0 &&
!options_.IsWorker() && profiler_ == nullptr) {
std::string fileName = options_.GetArkBundleName() + ".cpuprofile";
if (!builtins::BuiltinsArkTools::CreateFile(fileName)) {
LOG_ECMA(ERROR) << "createFile failed " << fileName;
return;
} else {
DFXJSNApi::StartCpuProfilerForFile(this, fileName, CpuProfiler::INTERVAL_OF_INNER_START);
return;
}
}
if (options_.EnableCpuProfilerColdStartWorkerThread() && options_.GetArkBundleName().compare(bundleName_) == 0 &&
options_.IsWorker() && profiler_ == nullptr) {
std::string fileName = options_.GetArkBundleName() + "_"
+ std::to_string(thread_->GetThreadId()) + ".cpuprofile";
if (!builtins::BuiltinsArkTools::CreateFile(fileName)) {
LOG_ECMA(ERROR) << "createFile failed " << fileName;
return;
} else {
DFXJSNApi::StartCpuProfilerForFile(this, fileName, CpuProfiler::INTERVAL_OF_INNER_START);
return;
}
}
#endif
}
JSHandle<JSTaggedValue> EcmaVM::GetAndClearEcmaUncaughtException() const
{
JSHandle<JSTaggedValue> exceptionHandle = GetEcmaUncaughtException();
thread_->ClearException(); // clear for ohos app
return exceptionHandle;
}
JSHandle<JSTaggedValue> EcmaVM::GetEcmaUncaughtException() const
{
if (!thread_->HasPendingException()) {
return JSHandle<JSTaggedValue>();
}
JSHandle<JSTaggedValue> exceptionHandle(thread_, thread_->GetException());
return exceptionHandle;
}
void EcmaVM::PrintJSErrorInfo(const JSHandle<JSTaggedValue> &exceptionInfo) const
{
EcmaContext::PrintJSErrorInfo(thread_, exceptionInfo);
}
void EcmaVM::ProcessNativeDelete(const WeakRootVisitor &visitor)
{
if (!heap_->IsYoungGC()) {
auto iter = nativePointerList_.begin();
ECMA_BYTRACE_NAME(HITRACE_TAG_ARK, "ProcessNativeDeleteNum:" + std::to_string(nativePointerList_.size()));
while (iter != nativePointerList_.end()) {
JSNativePointer *object = *iter;
auto fwd = visitor(reinterpret_cast<TaggedObject *>(object));
if (fwd == nullptr) {
nativeAreaAllocator_->DecreaseNativeSizeStats(object->GetBindingSize(), object->GetNativeFlag());
object->Destroy(thread_);
iter = nativePointerList_.erase(iter);
} else {
++iter;
}
}
auto newIter = concurrentNativePointerList_.begin();
while (newIter != concurrentNativePointerList_.end()) {
JSNativePointer *object = *newIter;
auto fwd = visitor(reinterpret_cast<TaggedObject *>(object));
if (fwd == nullptr) {
nativeAreaAllocator_->DecreaseNativeSizeStats(object->GetBindingSize(), object->GetNativeFlag());
nativePointerCallbacks_.emplace_back(std::make_pair(object->GetDeleter(),
std::make_pair(object->GetExternalPointer(),
object->GetData())));
newIter = concurrentNativePointerList_.erase(newIter);
} else {
++newIter;
}
}
}
}
void EcmaVM::ProcessSharedNativeDelete(const WeakRootVisitor &visitor)
{
auto sharedIter = sharedNativePointerList_.begin();
while (sharedIter != sharedNativePointerList_.end()) {
JSNativePointer *object = *sharedIter;
auto fwd = visitor(reinterpret_cast<TaggedObject *>(object));
if (fwd == nullptr) {
sharedNativePointerCallbacks_.emplace_back(
std::make_pair(object->GetDeleter(), std::make_pair(object->GetExternalPointer(), object->GetData())));
sharedIter = sharedNativePointerList_.erase(sharedIter);
} else {
++sharedIter;
}
}
}
void EcmaVM::ProcessReferences(const WeakRootVisitor &visitor)
{
if (thread_->GetCurrentEcmaContext()->GetRegExpParserCache() != nullptr) {
thread_->GetCurrentEcmaContext()->GetRegExpParserCache()->Clear();
}
if (!heap_->IsYoungGC()) {
heap_->ResetNativeBindingSize();
// array buffer
auto iter = nativePointerList_.begin();
ECMA_BYTRACE_NAME(HITRACE_TAG_ARK, "ProcessReferencesNum:" + std::to_string(nativePointerList_.size()));
while (iter != nativePointerList_.end()) {
JSNativePointer *object = *iter;
auto fwd = visitor(reinterpret_cast<TaggedObject *>(object));
if (fwd == nullptr) {
nativeAreaAllocator_->DecreaseNativeSizeStats(object->GetBindingSize(), object->GetNativeFlag());
object->Destroy(thread_);
iter = nativePointerList_.erase(iter);
continue;
}
heap_->IncreaseNativeBindingSize(JSNativePointer::Cast(fwd));
if (fwd != reinterpret_cast<TaggedObject *>(object)) {
*iter = JSNativePointer::Cast(fwd);
}
++iter;
}
auto newIter = concurrentNativePointerList_.begin();
while (newIter != concurrentNativePointerList_.end()) {
JSNativePointer *object = *newIter;
auto fwd = visitor(reinterpret_cast<TaggedObject *>(object));
if (fwd == nullptr) {
nativeAreaAllocator_->DecreaseNativeSizeStats(object->GetBindingSize(), object->GetNativeFlag());
nativePointerCallbacks_.emplace_back(std::make_pair(object->GetDeleter(),
std::make_pair(object->GetExternalPointer(),
object->GetData())));
newIter = concurrentNativePointerList_.erase(newIter);
continue;
}
heap_->IncreaseNativeBindingSize(JSNativePointer::Cast(fwd));
if (fwd != reinterpret_cast<TaggedObject *>(object)) {
*newIter = JSNativePointer::Cast(fwd);
}
++newIter;
}
}
GetPGOProfiler()->ProcessReferences(visitor);
}
void EcmaVM::PushToNativePointerList(JSNativePointer *pointer, Concurrent isConcurrent)
{
ASSERT(!JSTaggedValue(pointer).IsInSharedHeap());
if (isConcurrent == Concurrent::YES) {
concurrentNativePointerList_.emplace_back(pointer);
} else {
nativePointerList_.emplace_back(pointer);
}
}
void EcmaVM::PushToSharedNativePointerList(JSNativePointer *pointer)
{
ASSERT(JSTaggedValue(pointer).IsInSharedHeap());
sharedNativePointerList_.emplace_back(pointer);
}
void EcmaVM::RemoveFromNativePointerList(JSNativePointer *pointer)
{
auto iter = std::find(nativePointerList_.begin(), nativePointerList_.end(), pointer);
if (iter != nativePointerList_.end()) {
JSNativePointer *object = *iter;
nativeAreaAllocator_->DecreaseNativeSizeStats(object->GetBindingSize(), object->GetNativeFlag());
object->Destroy(thread_);
nativePointerList_.erase(iter);
}
auto newIter = std::find(concurrentNativePointerList_.begin(), concurrentNativePointerList_.end(), pointer);
if (newIter != concurrentNativePointerList_.end()) {
JSNativePointer *object = *newIter;
nativeAreaAllocator_->DecreaseNativeSizeStats(object->GetBindingSize(), object->GetNativeFlag());
object->Destroy(thread_);
concurrentNativePointerList_.erase(newIter);
}
}
void EcmaVM::PushToDeregisterModuleList(CString module)
{
deregisterModuleList_.emplace_back(module);
}
void EcmaVM::RemoveFromDeregisterModuleList(CString module)
{
auto iter = std::find(deregisterModuleList_.begin(), deregisterModuleList_.end(), module);
if (iter != deregisterModuleList_.end()) {
deregisterModuleList_.erase(iter);
}
}
bool EcmaVM::ContainInDeregisterModuleList(CString module)
{
return (std::find(deregisterModuleList_.begin(), deregisterModuleList_.end(), module)
!= deregisterModuleList_.end());
}
void EcmaVM::ClearBufferData()
{
for (auto iter : nativePointerList_) {
iter->Destroy(thread_);
}
for (auto iter : concurrentNativePointerList_) {
iter->Destroy(thread_);
}
nativePointerList_.clear();
thread_->GetCurrentEcmaContext()->ClearBufferData();
internalNativeMethods_.clear();
workerList_.clear();
deregisterModuleList_.clear();
}
void EcmaVM::CollectGarbage(TriggerGCType gcType, GCReason reason) const
{
heap_->CollectGarbage(gcType, reason);
}
void EcmaVM::Iterate(const RootVisitor &v, const RootRangeVisitor &rv)
{
rv(Root::ROOT_VM, ObjectSlot(ToUintPtr(&internalNativeMethods_.front())),
ObjectSlot(ToUintPtr(&internalNativeMethods_.back()) + JSTaggedValue::TaggedTypeSize()));
if (!WIN_OR_MAC_OR_IOS_PLATFORM && snapshotEnv_!= nullptr) {
snapshotEnv_->Iterate(v);
}
if (pgoProfiler_ != nullptr) {
pgoProfiler_->Iterate(v);
}
}
#if defined(ECMASCRIPT_SUPPORT_HEAPPROFILER)
void EcmaVM::DeleteHeapProfile()
{
if (heapProfile_ == nullptr) {
return;
}
delete heapProfile_;
heapProfile_ = nullptr;
}
HeapProfilerInterface *EcmaVM::GetHeapProfile()
{
if (heapProfile_ != nullptr) {
return heapProfile_;
}
return nullptr;
}
HeapProfilerInterface *EcmaVM::GetOrNewHeapProfile()
{
if (heapProfile_ != nullptr) {
return heapProfile_;
}
heapProfile_ = new HeapProfiler(this);
ASSERT(heapProfile_ != nullptr);
return heapProfile_;
}
void EcmaVM::StartHeapTracking()
{
heap_->StartHeapTracking();
}
void EcmaVM::StopHeapTracking()
{
heap_->StopHeapTracking();
}
#endif
// NOLINTNEXTLINE(modernize-avoid-c-arrays)
void *EcmaVM::InternalMethodTable[] = {
reinterpret_cast<void *>(builtins::BuiltinsGlobal::CallJsBoundFunction),
reinterpret_cast<void *>(builtins::BuiltinsGlobal::CallJsProxy),
reinterpret_cast<void *>(builtins::BuiltinsObject::CreateDataPropertyOnObjectFunctions),
#ifdef ARK_SUPPORT_INTL
reinterpret_cast<void *>(builtins::BuiltinsCollator::AnonymousCollator),
reinterpret_cast<void *>(builtins::BuiltinsDateTimeFormat::AnonymousDateTimeFormat),
reinterpret_cast<void *>(builtins::BuiltinsNumberFormat::NumberFormatInternalFormatNumber),
#endif
reinterpret_cast<void *>(builtins::BuiltinsProxy::InvalidateProxyFunction),
reinterpret_cast<void *>(builtins::BuiltinsPromiseHandler::AsyncAwaitFulfilled),
reinterpret_cast<void *>(builtins::BuiltinsPromiseHandler::AsyncAwaitRejected),
reinterpret_cast<void *>(builtins::BuiltinsPromiseHandler::ResolveElementFunction),
reinterpret_cast<void *>(builtins::BuiltinsPromiseHandler::Resolve),
reinterpret_cast<void *>(builtins::BuiltinsPromiseHandler::Reject),
reinterpret_cast<void *>(builtins::BuiltinsPromiseHandler::Executor),
reinterpret_cast<void *>(builtins::BuiltinsPromiseHandler::AnyRejectElementFunction),
reinterpret_cast<void *>(builtins::BuiltinsPromiseHandler::AllSettledResolveElementFunction),
reinterpret_cast<void *>(builtins::BuiltinsPromiseHandler::AllSettledRejectElementFunction),
reinterpret_cast<void *>(builtins::BuiltinsPromiseHandler::ThenFinally),
reinterpret_cast<void *>(builtins::BuiltinsPromiseHandler::CatchFinally),
reinterpret_cast<void *>(builtins::BuiltinsPromiseHandler::valueThunkFunction),
reinterpret_cast<void *>(builtins::BuiltinsPromiseHandler::throwerFunction),
reinterpret_cast<void *>(JSAsyncGeneratorObject::ProcessorFulfilledFunc),
reinterpret_cast<void *>(JSAsyncGeneratorObject::ProcessorRejectedFunc),
reinterpret_cast<void *>(JSAsyncFromSyncIterator::AsyncFromSyncIterUnwarpFunction),
reinterpret_cast<void *>(SourceTextModule::AsyncModuleFulfilledFunc),
reinterpret_cast<void *>(SourceTextModule::AsyncModuleRejectedFunc)
};
void EcmaVM::GenerateInternalNativeMethods()
{
size_t length = static_cast<size_t>(MethodIndex::METHOD_END);
constexpr uint32_t numArgs = 2; // function object and this
for (size_t i = 0; i < length; i++) {
auto method = factory_->NewSMethod(nullptr, MemSpaceType::SHARED_NON_MOVABLE);
method->SetNativePointer(InternalMethodTable[i]);
method->SetNativeBit(true);
method->SetNumArgsWithCallField(numArgs);
method->SetFunctionKind(FunctionKind::NORMAL_FUNCTION);
internalNativeMethods_.emplace_back(method.GetTaggedValue());
}
}
JSTaggedValue EcmaVM::GetMethodByIndex(MethodIndex idx)
{
auto index = static_cast<uint8_t>(idx);
ASSERT(index < internalNativeMethods_.size());
return internalNativeMethods_[index];
}
void EcmaVM::TriggerConcurrentCallback(JSTaggedValue result, JSTaggedValue hint)
{
if (concurrentCallback_ == nullptr) {
LOG_ECMA(DEBUG) << "Only trigger concurrent callback in taskpool thread";
return;
}
bool success = true;
if (result.IsJSPromise()) {
// Async concurrent will return Promise
auto promise = JSPromise::Cast(result.GetTaggedObject());
auto status = promise->GetPromiseState();
if (status == PromiseState::PENDING) {
result = JSHandle<JSTaggedValue>::Cast(factory_->GetJSError(
ErrorType::ERROR, "Can't return Promise in pending state")).GetTaggedValue();
} else {
result = promise->GetPromiseResult();
}
if (status != PromiseState::FULFILLED) {
success = false;
}
}
JSHandle<JSTaggedValue> functionValue(thread_, hint);
if (!functionValue->IsJSFunction()) {
LOG_ECMA(ERROR) << "TriggerConcurrentCallback hint is not function";
return;
}
JSHandle<JSFunction> functionInfo(functionValue);
if (!functionInfo->GetTaskConcurrentFuncFlag()) {
LOG_ECMA(INFO) << "Function is not Concurrent Function";
return;
}
void *taskInfo = reinterpret_cast<void*>(thread_->GetTaskInfo());
// clear the taskInfo when return, which can prevent the callback to get it
thread_->SetTaskInfo(reinterpret_cast<uintptr_t>(nullptr));
concurrentCallback_(JSNApiHelper::ToLocal<JSValueRef>(JSHandle<JSTaggedValue>(thread_, result)), success,
taskInfo, concurrentData_);
}
void EcmaVM::DumpCallTimeInfo()
{
if (callTimer_ != nullptr) {
callTimer_->PrintAllStats();
}
}
void EcmaVM::WorkersetInfo(EcmaVM *workerVm)
{
LockHolder lock(mutex_);
auto thread = workerVm->GetJSThread();
if (thread != nullptr) {
auto tid = thread->GetThreadId();
if (tid != 0) {
workerList_.emplace(tid, workerVm);
}
}
}
EcmaVM *EcmaVM::GetWorkerVm(uint32_t tid)
{
LockHolder lock(mutex_);
EcmaVM *workerVm = nullptr;
if (!workerList_.empty()) {
auto iter = workerList_.find(tid);
if (iter != workerList_.end()) {
workerVm = iter->second;
}
}
return workerVm;
}
bool EcmaVM::DeleteWorker(EcmaVM *workerVm)
{
LockHolder lock(mutex_);
auto thread = workerVm->GetJSThread();
if (thread != nullptr) {
auto tid = thread->GetThreadId();
if (tid == 0) {
return false;
}
auto iter = workerList_.find(tid);
if (iter != workerList_.end()) {
workerList_.erase(iter);
return true;
}
return false;
}
return false;
}
bool EcmaVM::SuspendWorkerVm(uint32_t tid)
{
LockHolder lock(mutex_);
if (!workerList_.empty()) {
auto iter = workerList_.find(tid);
if (iter != workerList_.end()) {
return DFXJSNApi::SuspendVM(iter->second);
}
}
return false;
}
void EcmaVM::ResumeWorkerVm(uint32_t tid)
{
LockHolder lock(mutex_);
if (!workerList_.empty()) {
auto iter = workerList_.find(tid);
if (iter != workerList_.end()) {
DFXJSNApi::ResumeVM(iter->second);
}
}
}
/* This moduleName is a readOnly variable for napi, represent which abc is running in current vm.
* Get Current recordName: bundleName/moduleName/ets/xxx/xxx
* pkg_modules@xxx/xxx/xxx
* Get Current fileName: /data/storage/el1/bundle/moduleName/ets/modules.abc
* output: moduleName: moduleName
* if needRecordName then fileName is: moduleName/ets/modules.abc
*/
std::pair<std::string, std::string> EcmaVM::GetCurrentModuleInfo(bool needRecordName)
{
std::pair<JSTaggedValue, JSTaggedValue> moduleInfo = EcmaInterpreter::GetCurrentEntryPoint(thread_);
RETURN_VALUE_IF_ABRUPT_COMPLETION(thread_, std::make_pair("", ""));
CString recordName = ConvertToString(moduleInfo.first);
CString fileName = ConvertToString(moduleInfo.second);
LOG_FULL(INFO) << "Current recordName is " << recordName <<", current fileName is " << fileName;
CString moduleName;
if (IsNormalizedOhmUrlPack()) {
moduleName = ModulePathHelper::GetModuleNameWithNormalizedName(recordName);
} else {
if (needRecordName) {
if (fileName.length() > ModulePathHelper::BUNDLE_INSTALL_PATH_LEN &&
fileName.find(ModulePathHelper::BUNDLE_INSTALL_PATH) == 0) {
fileName = fileName.substr(ModulePathHelper::BUNDLE_INSTALL_PATH_LEN);
} else {
LOG_FULL(ERROR) << " GetCurrentModuleName Fail, fileName is " << fileName;
}
return std::make_pair(recordName.c_str(), fileName.c_str());
}
moduleName = ModulePathHelper::GetModuleName(recordName);
}
if (moduleName.empty()) {
LOG_FULL(ERROR) << " GetCurrentModuleName Fail, recordName is " << recordName;
}
return std::make_pair(moduleName.c_str(), fileName.c_str());
}
void EcmaVM::SetHmsModuleList(const std::vector<panda::HmsMap> &list)
{
for (size_t i = 0; i < list.size(); i++) {
HmsMap hmsMap = list[i];
hmsModuleList_.emplace(hmsMap.originalPath.c_str(), hmsMap);
}
}
CString EcmaVM::GetHmsModule(const CString &module) const
{
auto it = hmsModuleList_.find(module);
if (it == hmsModuleList_.end()) {
LOG_ECMA(FATAL) << " Get Hms Module failed";
}
HmsMap hmsMap = it->second;
return hmsMap.targetPath.c_str();
}
bool EcmaVM::IsHmsModule(const CString &moduleStr) const
{
if (hmsModuleList_.empty()) {
return false;
}
auto it = hmsModuleList_.find(moduleStr);
if (it == hmsModuleList_.end()) {
return false;
}
return true;
}
void EcmaVM::SetpkgContextInfoList(const std::map<std::string, std::vector<std::vector<std::string>>> &list)
{
for (auto it = list.begin(); it != list.end(); it++) {
const std::vector<std::vector<std::string>> vec = it->second;
CMap<CString, CVector<CString>> map;
for (size_t i = 0; i < vec.size(); i++) {
CString pkgName = vec[i][0].c_str();
CVector<CString> pkgContextInfo;
for (size_t j = 1; j < vec[i].size(); j++) {
pkgContextInfo.emplace_back(vec[i][j].c_str());
}
map.emplace(pkgName, pkgContextInfo);
}
pkgContextInfoList_.emplace(it->first.c_str(), map);
}
}
// Initialize IcuData Path
void EcmaVM::InitializeIcuData(const JSRuntimeOptions &options)
{
std::string icuPath = options.GetIcuDataPath();
if (icuPath == "default") {
#if !WIN_OR_MAC_OR_IOS_PLATFORM && !defined(PANDA_TARGET_LINUX)
SetHwIcuDirectory();
#endif
} else {
std::string absPath;
if (ecmascript::RealPath(icuPath, absPath)) {
u_setDataDirectory(absPath.c_str());
}
}
}
} // namespace panda::ecmascript