// Copyright 2010 the V8 project authors. All rights reserved.
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following
// disclaimer in the documentation and/or other materials provided
// with the distribution.
// * Neither the name of Google Inc. nor the names of its
// contributors may be used to endorse or promote products derived
// from this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#include "v8.h"
#include "cpu-profiler-inl.h"
#ifdef ENABLE_LOGGING_AND_PROFILING
#include "frames-inl.h"
#include "hashmap.h"
#include "log-inl.h"
#include "vm-state-inl.h"
#include "../include/v8-profiler.h"
namespace v8 {
namespace internal {
static const int kEventsBufferSize = 256*KB;
static const int kTickSamplesBufferChunkSize = 64*KB;
static const int kTickSamplesBufferChunksCount = 16;
ProfilerEventsProcessor::ProfilerEventsProcessor(Isolate* isolate,
ProfileGenerator* generator)
: Thread(isolate, "v8:ProfEvntProc"),
generator_(generator),
running_(true),
ticks_buffer_(sizeof(TickSampleEventRecord),
kTickSamplesBufferChunkSize,
kTickSamplesBufferChunksCount),
enqueue_order_(0) {
}
void ProfilerEventsProcessor::CallbackCreateEvent(Logger::LogEventsAndTags tag,
const char* prefix,
String* name,
Address start) {
if (FilterOutCodeCreateEvent(tag)) return;
CodeEventsContainer evt_rec;
CodeCreateEventRecord* rec = &evt_rec.CodeCreateEventRecord_;
rec->type = CodeEventRecord::CODE_CREATION;
rec->order = ++enqueue_order_;
rec->start = start;
rec->entry = generator_->NewCodeEntry(tag, prefix, name);
rec->size = 1;
rec->shared = NULL;
events_buffer_.Enqueue(evt_rec);
}
void ProfilerEventsProcessor::CodeCreateEvent(Logger::LogEventsAndTags tag,
String* name,
String* resource_name,
int line_number,
Address start,
unsigned size,
Address shared) {
if (FilterOutCodeCreateEvent(tag)) return;
CodeEventsContainer evt_rec;
CodeCreateEventRecord* rec = &evt_rec.CodeCreateEventRecord_;
rec->type = CodeEventRecord::CODE_CREATION;
rec->order = ++enqueue_order_;
rec->start = start;
rec->entry = generator_->NewCodeEntry(tag, name, resource_name, line_number);
rec->size = size;
rec->shared = shared;
events_buffer_.Enqueue(evt_rec);
}
void ProfilerEventsProcessor::CodeCreateEvent(Logger::LogEventsAndTags tag,
const char* name,
Address start,
unsigned size) {
if (FilterOutCodeCreateEvent(tag)) return;
CodeEventsContainer evt_rec;
CodeCreateEventRecord* rec = &evt_rec.CodeCreateEventRecord_;
rec->type = CodeEventRecord::CODE_CREATION;
rec->order = ++enqueue_order_;
rec->start = start;
rec->entry = generator_->NewCodeEntry(tag, name);
rec->size = size;
rec->shared = NULL;
events_buffer_.Enqueue(evt_rec);
}
void ProfilerEventsProcessor::CodeCreateEvent(Logger::LogEventsAndTags tag,
int args_count,
Address start,
unsigned size) {
if (FilterOutCodeCreateEvent(tag)) return;
CodeEventsContainer evt_rec;
CodeCreateEventRecord* rec = &evt_rec.CodeCreateEventRecord_;
rec->type = CodeEventRecord::CODE_CREATION;
rec->order = ++enqueue_order_;
rec->start = start;
rec->entry = generator_->NewCodeEntry(tag, args_count);
rec->size = size;
rec->shared = NULL;
events_buffer_.Enqueue(evt_rec);
}
void ProfilerEventsProcessor::CodeMoveEvent(Address from, Address to) {
CodeEventsContainer evt_rec;
CodeMoveEventRecord* rec = &evt_rec.CodeMoveEventRecord_;
rec->type = CodeEventRecord::CODE_MOVE;
rec->order = ++enqueue_order_;
rec->from = from;
rec->to = to;
events_buffer_.Enqueue(evt_rec);
}
void ProfilerEventsProcessor::CodeDeleteEvent(Address from) {
CodeEventsContainer evt_rec;
CodeDeleteEventRecord* rec = &evt_rec.CodeDeleteEventRecord_;
rec->type = CodeEventRecord::CODE_DELETE;
rec->order = ++enqueue_order_;
rec->start = from;
events_buffer_.Enqueue(evt_rec);
}
void ProfilerEventsProcessor::SharedFunctionInfoMoveEvent(Address from,
Address to) {
CodeEventsContainer evt_rec;
SharedFunctionInfoMoveEventRecord* rec =
&evt_rec.SharedFunctionInfoMoveEventRecord_;
rec->type = CodeEventRecord::SHARED_FUNC_MOVE;
rec->order = ++enqueue_order_;
rec->from = from;
rec->to = to;
events_buffer_.Enqueue(evt_rec);
}
void ProfilerEventsProcessor::RegExpCodeCreateEvent(
Logger::LogEventsAndTags tag,
const char* prefix,
String* name,
Address start,
unsigned size) {
if (FilterOutCodeCreateEvent(tag)) return;
CodeEventsContainer evt_rec;
CodeCreateEventRecord* rec = &evt_rec.CodeCreateEventRecord_;
rec->type = CodeEventRecord::CODE_CREATION;
rec->order = ++enqueue_order_;
rec->start = start;
rec->entry = generator_->NewCodeEntry(tag, prefix, name);
rec->size = size;
events_buffer_.Enqueue(evt_rec);
}
void ProfilerEventsProcessor::AddCurrentStack() {
TickSampleEventRecord record;
TickSample* sample = &record.sample;
Isolate* isolate = Isolate::Current();
sample->state = isolate->current_vm_state();
sample->pc = reinterpret_cast<Address>(sample); // Not NULL.
sample->tos = NULL;
sample->has_external_callback = false;
sample->frames_count = 0;
for (StackTraceFrameIterator it(isolate);
!it.done() && sample->frames_count < TickSample::kMaxFramesCount;
it.Advance()) {
sample->stack[sample->frames_count++] = it.frame()->pc();
}
record.order = enqueue_order_;
ticks_from_vm_buffer_.Enqueue(record);
}
bool ProfilerEventsProcessor::ProcessCodeEvent(unsigned* dequeue_order) {
if (!events_buffer_.IsEmpty()) {
CodeEventsContainer record;
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.
}
*dequeue_order = record.generic.order;
return true;
}
return false;
}
bool ProfilerEventsProcessor::ProcessTicks(unsigned dequeue_order) {
while (true) {
if (!ticks_from_vm_buffer_.IsEmpty()
&& ticks_from_vm_buffer_.Peek()->order == dequeue_order) {
TickSampleEventRecord record;
ticks_from_vm_buffer_.Dequeue(&record);
generator_->RecordTickSample(record.sample);
}
const TickSampleEventRecord* rec =
TickSampleEventRecord::cast(ticks_buffer_.StartDequeue());
if (rec == NULL) return !ticks_from_vm_buffer_.IsEmpty();
// Make a local copy of tick sample record to ensure that it won't
// be modified as we are processing it. This is possible as the
// sampler writes w/o any sync to the queue, so if the processor
// will get far behind, a record may be modified right under its
// feet.
TickSampleEventRecord record = *rec;
if (record.order == dequeue_order) {
// A paranoid check to make sure that we don't get a memory overrun
// in case of frames_count having a wild value.
if (record.sample.frames_count < 0
|| record.sample.frames_count > TickSample::kMaxFramesCount)
record.sample.frames_count = 0;
generator_->RecordTickSample(record.sample);
ticks_buffer_.FinishDequeue();
} else {
return true;
}
}
}
void ProfilerEventsProcessor::Run() {
unsigned dequeue_order = 0;
while (running_) {
// Process ticks until we have any.
if (ProcessTicks(dequeue_order)) {
// All ticks of the current dequeue_order are processed,
// proceed to the next code event.
ProcessCodeEvent(&dequeue_order);
}
YieldCPU();
}
// Process remaining tick events.
ticks_buffer_.FlushResidualRecords();
// Perform processing until we have tick events, skip remaining code events.
while (ProcessTicks(dequeue_order) && ProcessCodeEvent(&dequeue_order)) { }
}
void CpuProfiler::StartProfiling(const char* title) {
ASSERT(Isolate::Current()->cpu_profiler() != NULL);
Isolate::Current()->cpu_profiler()->StartCollectingProfile(title);
}
void CpuProfiler::StartProfiling(String* title) {
ASSERT(Isolate::Current()->cpu_profiler() != NULL);
Isolate::Current()->cpu_profiler()->StartCollectingProfile(title);
}
CpuProfile* CpuProfiler::StopProfiling(const char* title) {
return is_profiling() ?
Isolate::Current()->cpu_profiler()->StopCollectingProfile(title) : NULL;
}
CpuProfile* CpuProfiler::StopProfiling(Object* security_token, String* title) {
return is_profiling() ?
Isolate::Current()->cpu_profiler()->StopCollectingProfile(
security_token, title) : NULL;
}
int CpuProfiler::GetProfilesCount() {
ASSERT(Isolate::Current()->cpu_profiler() != NULL);
// The count of profiles doesn't depend on a security token.
return Isolate::Current()->cpu_profiler()->profiles_->Profiles(
TokenEnumerator::kNoSecurityToken)->length();
}
CpuProfile* CpuProfiler::GetProfile(Object* security_token, int index) {
ASSERT(Isolate::Current()->cpu_profiler() != NULL);
CpuProfiler* profiler = Isolate::Current()->cpu_profiler();
const int token = profiler->token_enumerator_->GetTokenId(security_token);
return profiler->profiles_->Profiles(token)->at(index);
}
CpuProfile* CpuProfiler::FindProfile(Object* security_token, unsigned uid) {
ASSERT(Isolate::Current()->cpu_profiler() != NULL);
CpuProfiler* profiler = Isolate::Current()->cpu_profiler();
const int token = profiler->token_enumerator_->GetTokenId(security_token);
return profiler->profiles_->GetProfile(token, uid);
}
TickSample* CpuProfiler::TickSampleEvent(Isolate* isolate) {
if (CpuProfiler::is_profiling(isolate)) {
return isolate->cpu_profiler()->processor_->TickSampleEvent();
} else {
return NULL;
}
}
void CpuProfiler::DeleteAllProfiles() {
Isolate* isolate = Isolate::Current();
ASSERT(isolate->cpu_profiler() != NULL);
if (is_profiling())
isolate->cpu_profiler()->StopProcessor();
isolate->cpu_profiler()->ResetProfiles();
}
void CpuProfiler::DeleteProfile(CpuProfile* profile) {
ASSERT(Isolate::Current()->cpu_profiler() != NULL);
Isolate::Current()->cpu_profiler()->profiles_->RemoveProfile(profile);
delete profile;
}
bool CpuProfiler::HasDetachedProfiles() {
ASSERT(Isolate::Current()->cpu_profiler() != NULL);
return Isolate::Current()->cpu_profiler()->profiles_->HasDetachedProfiles();
}
void CpuProfiler::CallbackEvent(String* name, Address entry_point) {
Isolate::Current()->cpu_profiler()->processor_->CallbackCreateEvent(
Logger::CALLBACK_TAG, CodeEntry::kEmptyNamePrefix, name, entry_point);
}
void CpuProfiler::CodeCreateEvent(Logger::LogEventsAndTags tag,
Code* code, const char* comment) {
Isolate::Current()->cpu_profiler()->processor_->CodeCreateEvent(
tag, comment, code->address(), code->ExecutableSize());
}
void CpuProfiler::CodeCreateEvent(Logger::LogEventsAndTags tag,
Code* code, String* name) {
Isolate* isolate = Isolate::Current();
isolate->cpu_profiler()->processor_->CodeCreateEvent(
tag,
name,
isolate->heap()->empty_string(),
v8::CpuProfileNode::kNoLineNumberInfo,
code->address(),
code->ExecutableSize(),
NULL);
}
void CpuProfiler::CodeCreateEvent(Logger::LogEventsAndTags tag,
Code* code,
SharedFunctionInfo* shared,
String* name) {
Isolate* isolate = Isolate::Current();
isolate->cpu_profiler()->processor_->CodeCreateEvent(
tag,
name,
isolate->heap()->empty_string(),
v8::CpuProfileNode::kNoLineNumberInfo,
code->address(),
code->ExecutableSize(),
shared->address());
}
void CpuProfiler::CodeCreateEvent(Logger::LogEventsAndTags tag,
Code* code,
SharedFunctionInfo* shared,
String* source, int line) {
Isolate::Current()->cpu_profiler()->processor_->CodeCreateEvent(
tag,
shared->DebugName(),
source,
line,
code->address(),
code->ExecutableSize(),
shared->address());
}
void CpuProfiler::CodeCreateEvent(Logger::LogEventsAndTags tag,
Code* code, int args_count) {
Isolate::Current()->cpu_profiler()->processor_->CodeCreateEvent(
tag,
args_count,
code->address(),
code->ExecutableSize());
}
void CpuProfiler::CodeMoveEvent(Address from, Address to) {
Isolate::Current()->cpu_profiler()->processor_->CodeMoveEvent(from, to);
}
void CpuProfiler::CodeDeleteEvent(Address from) {
Isolate::Current()->cpu_profiler()->processor_->CodeDeleteEvent(from);
}
void CpuProfiler::SharedFunctionInfoMoveEvent(Address from, Address to) {
CpuProfiler* profiler = Isolate::Current()->cpu_profiler();
profiler->processor_->SharedFunctionInfoMoveEvent(from, to);
}
void CpuProfiler::GetterCallbackEvent(String* name, Address entry_point) {
Isolate::Current()->cpu_profiler()->processor_->CallbackCreateEvent(
Logger::CALLBACK_TAG, "get ", name, entry_point);
}
void CpuProfiler::RegExpCodeCreateEvent(Code* code, String* source) {
Isolate::Current()->cpu_profiler()->processor_->RegExpCodeCreateEvent(
Logger::REG_EXP_TAG,
"RegExp: ",
source,
code->address(),
code->ExecutableSize());
}
void CpuProfiler::SetterCallbackEvent(String* name, Address entry_point) {
Isolate::Current()->cpu_profiler()->processor_->CallbackCreateEvent(
Logger::CALLBACK_TAG, "set ", name, entry_point);
}
CpuProfiler::CpuProfiler()
: profiles_(new CpuProfilesCollection()),
next_profile_uid_(1),
token_enumerator_(new TokenEnumerator()),
generator_(NULL),
processor_(NULL),
need_to_stop_sampler_(false),
is_profiling_(false) {
}
CpuProfiler::~CpuProfiler() {
delete token_enumerator_;
delete profiles_;
}
void CpuProfiler::ResetProfiles() {
delete profiles_;
profiles_ = new CpuProfilesCollection();
}
void CpuProfiler::StartCollectingProfile(const char* title) {
if (profiles_->StartProfiling(title, next_profile_uid_++)) {
StartProcessorIfNotStarted();
}
processor_->AddCurrentStack();
}
void CpuProfiler::StartCollectingProfile(String* title) {
StartCollectingProfile(profiles_->GetName(title));
}
void CpuProfiler::StartProcessorIfNotStarted() {
if (processor_ == NULL) {
Isolate* isolate = Isolate::Current();
// Disable logging when using the new implementation.
saved_logging_nesting_ = isolate->logger()->logging_nesting_;
isolate->logger()->logging_nesting_ = 0;
generator_ = new ProfileGenerator(profiles_);
processor_ = new ProfilerEventsProcessor(isolate, generator_);
NoBarrier_Store(&is_profiling_, true);
processor_->Start();
// Enumerate stuff we already have in the heap.
if (isolate->heap()->HasBeenSetup()) {
if (!FLAG_prof_browser_mode) {
bool saved_log_code_flag = FLAG_log_code;
FLAG_log_code = true;
isolate->logger()->LogCodeObjects();
FLAG_log_code = saved_log_code_flag;
}
isolate->logger()->LogCompiledFunctions();
isolate->logger()->LogAccessorCallbacks();
}
// Enable stack sampling.
Sampler* sampler = reinterpret_cast<Sampler*>(isolate->logger()->ticker_);
if (!sampler->IsActive()) {
sampler->Start();
need_to_stop_sampler_ = true;
}
sampler->IncreaseProfilingDepth();
}
}
CpuProfile* CpuProfiler::StopCollectingProfile(const char* title) {
const double actual_sampling_rate = generator_->actual_sampling_rate();
StopProcessorIfLastProfile(title);
CpuProfile* result =
profiles_->StopProfiling(TokenEnumerator::kNoSecurityToken,
title,
actual_sampling_rate);
if (result != NULL) {
result->Print();
}
return result;
}
CpuProfile* CpuProfiler::StopCollectingProfile(Object* security_token,
String* title) {
const double actual_sampling_rate = generator_->actual_sampling_rate();
const char* profile_title = profiles_->GetName(title);
StopProcessorIfLastProfile(profile_title);
int token = token_enumerator_->GetTokenId(security_token);
return profiles_->StopProfiling(token, profile_title, actual_sampling_rate);
}
void CpuProfiler::StopProcessorIfLastProfile(const char* title) {
if (profiles_->IsLastProfile(title)) StopProcessor();
}
void CpuProfiler::StopProcessor() {
Logger* logger = Isolate::Current()->logger();
Sampler* sampler = reinterpret_cast<Sampler*>(logger->ticker_);
sampler->DecreaseProfilingDepth();
if (need_to_stop_sampler_) {
sampler->Stop();
need_to_stop_sampler_ = false;
}
processor_->Stop();
processor_->Join();
delete processor_;
delete generator_;
processor_ = NULL;
NoBarrier_Store(&is_profiling_, false);
generator_ = NULL;
logger->logging_nesting_ = saved_logging_nesting_;
}
} } // namespace v8::internal
#endif // ENABLE_LOGGING_AND_PROFILING
namespace v8 {
namespace internal {
void CpuProfiler::Setup() {
#ifdef ENABLE_LOGGING_AND_PROFILING
Isolate* isolate = Isolate::Current();
if (isolate->cpu_profiler() == NULL) {
isolate->set_cpu_profiler(new CpuProfiler());
}
#endif
}
void CpuProfiler::TearDown() {
#ifdef ENABLE_LOGGING_AND_PROFILING
Isolate* isolate = Isolate::Current();
if (isolate->cpu_profiler() != NULL) {
delete isolate->cpu_profiler();
}
isolate->set_cpu_profiler(NULL);
#endif
}
} } // namespace v8::internal