// Copyright 2012 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/v8.h" #include "src/cpu-profiler-inl.h" #include "src/compiler.h" #include "src/deoptimizer.h" #include "src/frames-inl.h" #include "src/hashmap.h" #include "src/log-inl.h" #include "src/vm-state-inl.h" #include "include/v8-profiler.h" namespace v8 { namespace internal { static const int kProfilerStackSize = 64 * KB; ProfilerEventsProcessor::ProfilerEventsProcessor(ProfileGenerator* generator, Sampler* sampler, base::TimeDelta period) : Thread(Thread::Options("v8:ProfEvntProc", kProfilerStackSize)), generator_(generator), sampler_(sampler), running_(1), period_(period), last_code_event_id_(0), last_processed_code_event_id_(0) {} void ProfilerEventsProcessor::Enqueue(const CodeEventsContainer& event) { event.generic.order = ++last_code_event_id_; events_buffer_.Enqueue(event); } void ProfilerEventsProcessor::AddDeoptStack(Isolate* isolate, Address from, int fp_to_sp_delta) { TickSampleEventRecord record(last_code_event_id_); RegisterState regs; Address fp = isolate->c_entry_fp(isolate->thread_local_top()); regs.sp = fp - fp_to_sp_delta; regs.fp = fp; regs.pc = from; record.sample.Init(isolate, regs, TickSample::kSkipCEntryFrame); ticks_from_vm_buffer_.Enqueue(record); } void ProfilerEventsProcessor::AddCurrentStack(Isolate* isolate) { TickSampleEventRecord record(last_code_event_id_); RegisterState regs; StackFrameIterator it(isolate); if (!it.done()) { StackFrame* frame = it.frame(); regs.sp = frame->sp(); regs.fp = frame->fp(); regs.pc = frame->pc(); } record.sample.Init(isolate, regs, TickSample::kSkipCEntryFrame); ticks_from_vm_buffer_.Enqueue(record); } void ProfilerEventsProcessor::StopSynchronously() { if (!base::NoBarrier_AtomicExchange(&running_, 0)) return; Join(); } bool ProfilerEventsProcessor::ProcessCodeEvent() { CodeEventsContainer record; if (events_buffer_.Dequeue(&record)) { switch (record.generic.type) { #define PROFILER_TYPE_CASE(type, clss) \ case CodeEventRecord::type: \ record.clss##_.UpdateCodeMap(generator_->code_map()); \ break; CODE_EVENTS_TYPE_LIST(PROFILER_TYPE_CASE) #undef PROFILER_TYPE_CASE default: return true; // Skip record. } last_processed_code_event_id_ = record.generic.order; return true; } return false; } ProfilerEventsProcessor::SampleProcessingResult ProfilerEventsProcessor::ProcessOneSample() { if (!ticks_from_vm_buffer_.IsEmpty() && ticks_from_vm_buffer_.Peek()->order == last_processed_code_event_id_) { TickSampleEventRecord record; ticks_from_vm_buffer_.Dequeue(&record); generator_->RecordTickSample(record.sample); return OneSampleProcessed; } const TickSampleEventRecord* record = ticks_buffer_.Peek(); if (record == NULL) { if (ticks_from_vm_buffer_.IsEmpty()) return NoSamplesInQueue; return FoundSampleForNextCodeEvent; } if (record->order != last_processed_code_event_id_) { return FoundSampleForNextCodeEvent; } generator_->RecordTickSample(record->sample); ticks_buffer_.Remove(); return OneSampleProcessed; } void ProfilerEventsProcessor::Run() { while (!!base::NoBarrier_Load(&running_)) { base::TimeTicks nextSampleTime = base::TimeTicks::HighResolutionNow() + period_; base::TimeTicks now; SampleProcessingResult result; // Keep processing existing events until we need to do next sample // or the ticks buffer is empty. do { result = ProcessOneSample(); if (result == FoundSampleForNextCodeEvent) { // All ticks of the current last_processed_code_event_id_ are // processed, proceed to the next code event. ProcessCodeEvent(); } now = base::TimeTicks::HighResolutionNow(); } while (result != NoSamplesInQueue && now < nextSampleTime); if (nextSampleTime > now) { #if V8_OS_WIN // Do not use Sleep on Windows as it is very imprecise. // Could be up to 16ms jitter, which is unacceptable for the purpose. while (base::TimeTicks::HighResolutionNow() < nextSampleTime) { } #else base::OS::Sleep(nextSampleTime - now); #endif } // Schedule next sample. sampler_ is NULL in tests. if (sampler_) sampler_->DoSample(); } // Process remaining tick events. do { SampleProcessingResult result; do { result = ProcessOneSample(); } while (result == OneSampleProcessed); } while (ProcessCodeEvent()); } void* ProfilerEventsProcessor::operator new(size_t size) { return AlignedAlloc(size, V8_ALIGNOF(ProfilerEventsProcessor)); } void ProfilerEventsProcessor::operator delete(void* ptr) { AlignedFree(ptr); } int CpuProfiler::GetProfilesCount() { // The count of profiles doesn't depend on a security token. return profiles_->profiles()->length(); } CpuProfile* CpuProfiler::GetProfile(int index) { return profiles_->profiles()->at(index); } void CpuProfiler::DeleteAllProfiles() { if (is_profiling_) StopProcessor(); ResetProfiles(); } void CpuProfiler::DeleteProfile(CpuProfile* profile) { profiles_->RemoveProfile(profile); delete profile; if (profiles_->profiles()->is_empty() && !is_profiling_) { // If this was the last profile, clean up all accessory data as well. ResetProfiles(); } } static bool FilterOutCodeCreateEvent(Logger::LogEventsAndTags tag) { return FLAG_prof_browser_mode && (tag != Logger::CALLBACK_TAG && tag != Logger::FUNCTION_TAG && tag != Logger::LAZY_COMPILE_TAG && tag != Logger::REG_EXP_TAG && tag != Logger::SCRIPT_TAG); } void CpuProfiler::CallbackEvent(Name* name, Address entry_point) { if (FilterOutCodeCreateEvent(Logger::CALLBACK_TAG)) return; CodeEventsContainer evt_rec(CodeEventRecord::CODE_CREATION); CodeCreateEventRecord* rec = &evt_rec.CodeCreateEventRecord_; rec->start = entry_point; rec->entry = profiles_->NewCodeEntry( Logger::CALLBACK_TAG, profiles_->GetName(name)); rec->size = 1; processor_->Enqueue(evt_rec); } void CpuProfiler::CodeCreateEvent(Logger::LogEventsAndTags tag, Code* code, const char* name) { if (FilterOutCodeCreateEvent(tag)) return; CodeEventsContainer evt_rec(CodeEventRecord::CODE_CREATION); CodeCreateEventRecord* rec = &evt_rec.CodeCreateEventRecord_; rec->start = code->address(); rec->entry = profiles_->NewCodeEntry( tag, profiles_->GetFunctionName(name), CodeEntry::kEmptyNamePrefix, CodeEntry::kEmptyResourceName, CpuProfileNode::kNoLineNumberInfo, CpuProfileNode::kNoColumnNumberInfo, NULL, code->instruction_start()); rec->size = code->ExecutableSize(); processor_->Enqueue(evt_rec); } void CpuProfiler::CodeCreateEvent(Logger::LogEventsAndTags tag, Code* code, Name* name) { if (FilterOutCodeCreateEvent(tag)) return; CodeEventsContainer evt_rec(CodeEventRecord::CODE_CREATION); CodeCreateEventRecord* rec = &evt_rec.CodeCreateEventRecord_; rec->start = code->address(); rec->entry = profiles_->NewCodeEntry( tag, profiles_->GetFunctionName(name), CodeEntry::kEmptyNamePrefix, CodeEntry::kEmptyResourceName, CpuProfileNode::kNoLineNumberInfo, CpuProfileNode::kNoColumnNumberInfo, NULL, code->instruction_start()); rec->size = code->ExecutableSize(); processor_->Enqueue(evt_rec); } void CpuProfiler::CodeCreateEvent(Logger::LogEventsAndTags tag, Code* code, SharedFunctionInfo* shared, CompilationInfo* info, Name* script_name) { if (FilterOutCodeCreateEvent(tag)) return; CodeEventsContainer evt_rec(CodeEventRecord::CODE_CREATION); CodeCreateEventRecord* rec = &evt_rec.CodeCreateEventRecord_; rec->start = code->address(); rec->entry = profiles_->NewCodeEntry( tag, profiles_->GetFunctionName(shared->DebugName()), CodeEntry::kEmptyNamePrefix, profiles_->GetName(script_name), CpuProfileNode::kNoLineNumberInfo, CpuProfileNode::kNoColumnNumberInfo, NULL, code->instruction_start()); if (info) { rec->entry->set_no_frame_ranges(info->ReleaseNoFrameRanges()); rec->entry->set_inlined_function_infos(info->inlined_function_infos()); } rec->entry->FillFunctionInfo(shared); rec->size = code->ExecutableSize(); processor_->Enqueue(evt_rec); } void CpuProfiler::CodeCreateEvent(Logger::LogEventsAndTags tag, Code* code, SharedFunctionInfo* shared, CompilationInfo* info, Name* script_name, int line, int column) { if (FilterOutCodeCreateEvent(tag)) return; CodeEventsContainer evt_rec(CodeEventRecord::CODE_CREATION); CodeCreateEventRecord* rec = &evt_rec.CodeCreateEventRecord_; rec->start = code->address(); Script* script = Script::cast(shared->script()); JITLineInfoTable* line_table = NULL; if (script) { line_table = new JITLineInfoTable(); for (RelocIterator it(code); !it.done(); it.next()) { RelocInfo::Mode mode = it.rinfo()->rmode(); if (RelocInfo::IsPosition(mode)) { int position = static_cast(it.rinfo()->data()); if (position >= 0) { int pc_offset = static_cast(it.rinfo()->pc() - code->address()); int line_number = script->GetLineNumber(position) + 1; line_table->SetPosition(pc_offset, line_number); } } } } rec->entry = profiles_->NewCodeEntry( tag, profiles_->GetFunctionName(shared->DebugName()), CodeEntry::kEmptyNamePrefix, profiles_->GetName(script_name), line, column, line_table, code->instruction_start()); if (info) { rec->entry->set_no_frame_ranges(info->ReleaseNoFrameRanges()); rec->entry->set_inlined_function_infos(info->inlined_function_infos()); } rec->entry->FillFunctionInfo(shared); rec->size = code->ExecutableSize(); processor_->Enqueue(evt_rec); } void CpuProfiler::CodeCreateEvent(Logger::LogEventsAndTags tag, Code* code, int args_count) { if (FilterOutCodeCreateEvent(tag)) return; CodeEventsContainer evt_rec(CodeEventRecord::CODE_CREATION); CodeCreateEventRecord* rec = &evt_rec.CodeCreateEventRecord_; rec->start = code->address(); rec->entry = profiles_->NewCodeEntry( tag, profiles_->GetName(args_count), "args_count: ", CodeEntry::kEmptyResourceName, CpuProfileNode::kNoLineNumberInfo, CpuProfileNode::kNoColumnNumberInfo, NULL, code->instruction_start()); rec->size = code->ExecutableSize(); processor_->Enqueue(evt_rec); } void CpuProfiler::CodeMoveEvent(Address from, Address to) { CodeEventsContainer evt_rec(CodeEventRecord::CODE_MOVE); CodeMoveEventRecord* rec = &evt_rec.CodeMoveEventRecord_; rec->from = from; rec->to = to; processor_->Enqueue(evt_rec); } void CpuProfiler::CodeDisableOptEvent(Code* code, SharedFunctionInfo* shared) { CodeEventsContainer evt_rec(CodeEventRecord::CODE_DISABLE_OPT); CodeDisableOptEventRecord* rec = &evt_rec.CodeDisableOptEventRecord_; rec->start = code->address(); rec->bailout_reason = GetBailoutReason(shared->disable_optimization_reason()); processor_->Enqueue(evt_rec); } void CpuProfiler::CodeDeoptEvent(Code* code, Address pc, int fp_to_sp_delta) { CodeEventsContainer evt_rec(CodeEventRecord::CODE_DEOPT); CodeDeoptEventRecord* rec = &evt_rec.CodeDeoptEventRecord_; Deoptimizer::DeoptInfo info = Deoptimizer::GetDeoptInfo(code, pc); rec->start = code->address(); rec->deopt_reason = Deoptimizer::GetDeoptReason(info.deopt_reason); rec->position = info.position; rec->pc_offset = pc - code->instruction_start(); processor_->Enqueue(evt_rec); processor_->AddDeoptStack(isolate_, pc, fp_to_sp_delta); } void CpuProfiler::CodeDeleteEvent(Address from) { } void CpuProfiler::GetterCallbackEvent(Name* name, Address entry_point) { if (FilterOutCodeCreateEvent(Logger::CALLBACK_TAG)) return; CodeEventsContainer evt_rec(CodeEventRecord::CODE_CREATION); CodeCreateEventRecord* rec = &evt_rec.CodeCreateEventRecord_; rec->start = entry_point; rec->entry = profiles_->NewCodeEntry( Logger::CALLBACK_TAG, profiles_->GetName(name), "get "); rec->size = 1; processor_->Enqueue(evt_rec); } void CpuProfiler::RegExpCodeCreateEvent(Code* code, String* source) { if (FilterOutCodeCreateEvent(Logger::REG_EXP_TAG)) return; CodeEventsContainer evt_rec(CodeEventRecord::CODE_CREATION); CodeCreateEventRecord* rec = &evt_rec.CodeCreateEventRecord_; rec->start = code->address(); rec->entry = profiles_->NewCodeEntry( Logger::REG_EXP_TAG, profiles_->GetName(source), "RegExp: ", CodeEntry::kEmptyResourceName, CpuProfileNode::kNoLineNumberInfo, CpuProfileNode::kNoColumnNumberInfo, NULL, code->instruction_start()); rec->size = code->ExecutableSize(); processor_->Enqueue(evt_rec); } void CpuProfiler::SetterCallbackEvent(Name* name, Address entry_point) { if (FilterOutCodeCreateEvent(Logger::CALLBACK_TAG)) return; CodeEventsContainer evt_rec(CodeEventRecord::CODE_CREATION); CodeCreateEventRecord* rec = &evt_rec.CodeCreateEventRecord_; rec->start = entry_point; rec->entry = profiles_->NewCodeEntry( Logger::CALLBACK_TAG, profiles_->GetName(name), "set "); rec->size = 1; processor_->Enqueue(evt_rec); } CpuProfiler::CpuProfiler(Isolate* isolate) : isolate_(isolate), sampling_interval_(base::TimeDelta::FromMicroseconds( FLAG_cpu_profiler_sampling_interval)), profiles_(new CpuProfilesCollection(isolate->heap())), generator_(NULL), processor_(NULL), is_profiling_(false) { } CpuProfiler::CpuProfiler(Isolate* isolate, CpuProfilesCollection* test_profiles, ProfileGenerator* test_generator, ProfilerEventsProcessor* test_processor) : isolate_(isolate), sampling_interval_(base::TimeDelta::FromMicroseconds( FLAG_cpu_profiler_sampling_interval)), profiles_(test_profiles), generator_(test_generator), processor_(test_processor), is_profiling_(false) { } CpuProfiler::~CpuProfiler() { DCHECK(!is_profiling_); delete profiles_; } void CpuProfiler::set_sampling_interval(base::TimeDelta value) { DCHECK(!is_profiling_); sampling_interval_ = value; } void CpuProfiler::ResetProfiles() { delete profiles_; profiles_ = new CpuProfilesCollection(isolate()->heap()); } void CpuProfiler::StartProfiling(const char* title, bool record_samples) { if (profiles_->StartProfiling(title, record_samples)) { StartProcessorIfNotStarted(); } } void CpuProfiler::StartProfiling(String* title, bool record_samples) { StartProfiling(profiles_->GetName(title), record_samples); } void CpuProfiler::StartProcessorIfNotStarted() { if (processor_ != NULL) { processor_->AddCurrentStack(isolate_); return; } Logger* logger = isolate_->logger(); // Disable logging when using the new implementation. saved_is_logging_ = logger->is_logging_; logger->is_logging_ = false; generator_ = new ProfileGenerator(profiles_); Sampler* sampler = logger->sampler(); processor_ = new ProfilerEventsProcessor( generator_, sampler, sampling_interval_); is_profiling_ = true; // Enumerate stuff we already have in the heap. DCHECK(isolate_->heap()->HasBeenSetUp()); if (!FLAG_prof_browser_mode) { logger->LogCodeObjects(); } logger->LogCompiledFunctions(); logger->LogAccessorCallbacks(); LogBuiltins(); // Enable stack sampling. sampler->SetHasProcessingThread(true); sampler->IncreaseProfilingDepth(); processor_->AddCurrentStack(isolate_); processor_->StartSynchronously(); } CpuProfile* CpuProfiler::StopProfiling(const char* title) { if (!is_profiling_) return NULL; StopProcessorIfLastProfile(title); CpuProfile* result = profiles_->StopProfiling(title); if (result != NULL) { result->Print(); } return result; } CpuProfile* CpuProfiler::StopProfiling(String* title) { if (!is_profiling_) return NULL; const char* profile_title = profiles_->GetName(title); StopProcessorIfLastProfile(profile_title); return profiles_->StopProfiling(profile_title); } void CpuProfiler::StopProcessorIfLastProfile(const char* title) { if (profiles_->IsLastProfile(title)) StopProcessor(); } void CpuProfiler::StopProcessor() { Logger* logger = isolate_->logger(); Sampler* sampler = reinterpret_cast(logger->ticker_); is_profiling_ = false; processor_->StopSynchronously(); delete processor_; delete generator_; processor_ = NULL; generator_ = NULL; sampler->SetHasProcessingThread(false); sampler->DecreaseProfilingDepth(); logger->is_logging_ = saved_is_logging_; } void CpuProfiler::LogBuiltins() { Builtins* builtins = isolate_->builtins(); DCHECK(builtins->is_initialized()); for (int i = 0; i < Builtins::builtin_count; i++) { CodeEventsContainer evt_rec(CodeEventRecord::REPORT_BUILTIN); ReportBuiltinEventRecord* rec = &evt_rec.ReportBuiltinEventRecord_; Builtins::Name id = static_cast(i); rec->start = builtins->builtin(id)->address(); rec->builtin_id = id; processor_->Enqueue(evt_rec); } } } } // namespace v8::internal