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android / platform / external / chromium_org / v8 / baf4b7536eee2d8fefabdab9be2901c4b04f1c85 / . / src / cpu-profiler.cc
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// 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/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,
TimeDelta period)
: Thread(Thread::Options("v8:ProfEvntProc", kProfilerStackSize)),
generator_(generator),
sampler_(sampler),
running_(true),
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::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);
ticks_from_vm_buffer_.Enqueue(record);
}
void ProfilerEventsProcessor::StopSynchronously() {
if (!running_) return;
running_ = false;
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 (running_) {
ElapsedTimer timer;
timer.Start();
// Keep processing existing events until we need to do next sample.
do {
if (FoundSampleForNextCodeEvent == ProcessOneSample()) {
// All ticks of the current last_processed_code_event_id_ are
// processed, proceed to the next code event.
ProcessCodeEvent();
}
} while (!timer.HasExpired(period_));
// 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;
rec->shared = NULL;
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));
rec->size = code->ExecutableSize();
rec->shared = NULL;
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));
rec->size = code->ExecutableSize();
rec->shared = NULL;
processor_->Enqueue(evt_rec);
}
void CpuProfiler::CodeCreateEvent(Logger::LogEventsAndTags tag,
Code* code,
SharedFunctionInfo* shared,
CompilationInfo* info,
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));
if (info) {
rec->entry->set_no_frame_ranges(info->ReleaseNoFrameRanges());
}
if (shared->script()->IsScript()) {
ASSERT(Script::cast(shared->script()));
Script* script = Script::cast(shared->script());
rec->entry->set_script_id(script->id()->value());
rec->entry->set_bailout_reason(
GetBailoutReason(shared->DisableOptimizationReason()));
}
rec->size = code->ExecutableSize();
rec->shared = shared->address();
processor_->Enqueue(evt_rec);
}
void CpuProfiler::CodeCreateEvent(Logger::LogEventsAndTags tag,
Code* code,
SharedFunctionInfo* shared,
CompilationInfo* info,
Name* source, int line, int column) {
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(source),
line,
column);
if (info) {
rec->entry->set_no_frame_ranges(info->ReleaseNoFrameRanges());
}
ASSERT(Script::cast(shared->script()));
Script* script = Script::cast(shared->script());
rec->entry->set_script_id(script->id()->value());
rec->size = code->ExecutableSize();
rec->shared = shared->address();
rec->entry->set_bailout_reason(
GetBailoutReason(shared->DisableOptimizationReason()));
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: ");
rec->size = code->ExecutableSize();
rec->shared = NULL;
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->DisableOptimizationReason());
processor_->Enqueue(evt_rec);
}
void CpuProfiler::CodeDeleteEvent(Address from) {
}
void CpuProfiler::SharedFunctionInfoMoveEvent(Address from, Address to) {
CodeEventsContainer evt_rec(CodeEventRecord::SHARED_FUNC_MOVE);
SharedFunctionInfoMoveEventRecord* rec =
&evt_rec.SharedFunctionInfoMoveEventRecord_;
rec->from = from;
rec->to = to;
processor_->Enqueue(evt_rec);
}
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;
rec->shared = NULL;
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: ");
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;
rec->shared = NULL;
processor_->Enqueue(evt_rec);
}
CpuProfiler::CpuProfiler(Isolate* isolate)
: isolate_(isolate),
sampling_interval_(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_(TimeDelta::FromMicroseconds(
FLAG_cpu_profiler_sampling_interval)),
profiles_(test_profiles),
generator_(test_generator),
processor_(test_processor),
is_profiling_(false) {
}
CpuProfiler::~CpuProfiler() {
ASSERT(!is_profiling_);
delete profiles_;
}
void CpuProfiler::set_sampling_interval(TimeDelta value) {
ASSERT(!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.
ASSERT(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<Sampler*>(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();
ASSERT(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<Builtins::Name>(i);
rec->start = builtins->builtin(id)->address();
rec->builtin_id = id;
processor_->Enqueue(evt_rec);
}
}
} } // namespace v8::internal