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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.
#ifndef V8_PROFILER_CPU_PROFILER_H_
#define V8_PROFILER_CPU_PROFILER_H_
#include <memory>
#include "src/allocation.h"
#include "src/base/atomic-utils.h"
#include "src/base/atomicops.h"
#include "src/base/platform/time.h"
#include "src/isolate.h"
#include "src/libsampler/sampler.h"
#include "src/locked-queue.h"
#include "src/profiler/circular-queue.h"
#include "src/profiler/profiler-listener.h"
#include "src/profiler/tick-sample.h"
namespace v8 {
namespace internal {
// Forward declarations.
class CodeEntry;
class CodeMap;
class CpuProfile;
class CpuProfilesCollection;
class ProfileGenerator;
#define CODE_EVENTS_TYPE_LIST(V) \
V(CODE_CREATION, CodeCreateEventRecord) \
V(CODE_MOVE, CodeMoveEventRecord) \
V(CODE_DISABLE_OPT, CodeDisableOptEventRecord) \
V(CODE_DEOPT, CodeDeoptEventRecord) \
V(REPORT_BUILTIN, ReportBuiltinEventRecord)
class CodeEventRecord {
public:
#define DECLARE_TYPE(type, ignore) type,
enum Type {
NONE = 0,
CODE_EVENTS_TYPE_LIST(DECLARE_TYPE)
NUMBER_OF_TYPES
};
#undef DECLARE_TYPE
Type type;
mutable unsigned order;
};
class CodeCreateEventRecord : public CodeEventRecord {
public:
Address start;
CodeEntry* entry;
unsigned size;
INLINE(void UpdateCodeMap(CodeMap* code_map));
};
class CodeMoveEventRecord : public CodeEventRecord {
public:
Address from;
Address to;
INLINE(void UpdateCodeMap(CodeMap* code_map));
};
class CodeDisableOptEventRecord : public CodeEventRecord {
public:
Address start;
const char* bailout_reason;
INLINE(void UpdateCodeMap(CodeMap* code_map));
};
class CodeDeoptEventRecord : public CodeEventRecord {
public:
Address start;
const char* deopt_reason;
int deopt_id;
void* pc;
int fp_to_sp_delta;
INLINE(void UpdateCodeMap(CodeMap* code_map));
};
class ReportBuiltinEventRecord : public CodeEventRecord {
public:
Address start;
Builtins::Name builtin_id;
INLINE(void UpdateCodeMap(CodeMap* code_map));
};
class TickSampleEventRecord {
public:
// The parameterless constructor is used when we dequeue data from
// the ticks buffer.
TickSampleEventRecord() { }
explicit TickSampleEventRecord(unsigned order) : order(order) { }
unsigned order;
TickSample sample;
};
class CodeEventsContainer {
public:
explicit CodeEventsContainer(
CodeEventRecord::Type type = CodeEventRecord::NONE) {
generic.type = type;
}
union {
CodeEventRecord generic;
#define DECLARE_CLASS(ignore, type) type type##_;
CODE_EVENTS_TYPE_LIST(DECLARE_CLASS)
#undef DECLARE_CLASS
};
};
// This class implements both the profile events processor thread and
// methods called by event producers: VM and stack sampler threads.
class ProfilerEventsProcessor : public base::Thread {
public:
ProfilerEventsProcessor(Isolate* isolate, ProfileGenerator* generator,
base::TimeDelta period);
virtual ~ProfilerEventsProcessor();
// Thread control.
virtual void Run();
void StopSynchronously();
INLINE(bool running()) { return !!base::NoBarrier_Load(&running_); }
void Enqueue(const CodeEventsContainer& event);
// Puts current stack into tick sample events buffer.
void AddCurrentStack(Isolate* isolate, bool update_stats = false);
void AddDeoptStack(Isolate* isolate, Address from, int fp_to_sp_delta);
// Tick sample events are filled directly in the buffer of the circular
// queue (because the structure is of fixed width, but usually not all
// stack frame entries are filled.) This method returns a pointer to the
// next record of the buffer.
inline TickSample* StartTickSample();
inline void FinishTickSample();
// SamplingCircularQueue has stricter alignment requirements than a normal new
// can fulfil, so we need to provide our own new/delete here.
void* operator new(size_t size);
void operator delete(void* ptr);
sampler::Sampler* sampler() { return sampler_.get(); }
private:
// Called from events processing thread (Run() method.)
bool ProcessCodeEvent();
enum SampleProcessingResult {
OneSampleProcessed,
FoundSampleForNextCodeEvent,
NoSamplesInQueue
};
SampleProcessingResult ProcessOneSample();
ProfileGenerator* generator_;
std::unique_ptr<sampler::Sampler> sampler_;
base::Atomic32 running_;
const base::TimeDelta period_; // Samples & code events processing period.
LockedQueue<CodeEventsContainer> events_buffer_;
static const size_t kTickSampleBufferSize = 1 * MB;
static const size_t kTickSampleQueueLength =
kTickSampleBufferSize / sizeof(TickSampleEventRecord);
SamplingCircularQueue<TickSampleEventRecord,
kTickSampleQueueLength> ticks_buffer_;
LockedQueue<TickSampleEventRecord> ticks_from_vm_buffer_;
base::AtomicNumber<unsigned> last_code_event_id_;
unsigned last_processed_code_event_id_;
};
class CpuProfiler : public CodeEventObserver {
public:
explicit CpuProfiler(Isolate* isolate);
CpuProfiler(Isolate* isolate, CpuProfilesCollection* profiles,
ProfileGenerator* test_generator,
ProfilerEventsProcessor* test_processor);
~CpuProfiler() override;
void set_sampling_interval(base::TimeDelta value);
void CollectSample();
void StartProfiling(const char* title, bool record_samples = false);
void StartProfiling(String* title, bool record_samples);
CpuProfile* StopProfiling(const char* title);
CpuProfile* StopProfiling(String* title);
int GetProfilesCount();
CpuProfile* GetProfile(int index);
void DeleteAllProfiles();
void DeleteProfile(CpuProfile* profile);
void CodeEventHandler(const CodeEventsContainer& evt_rec) override;
bool is_profiling() const { return is_profiling_; }
ProfileGenerator* generator() const { return generator_.get(); }
ProfilerEventsProcessor* processor() const { return processor_.get(); }
Isolate* isolate() const { return isolate_; }
private:
void StartProcessorIfNotStarted();
void StopProcessorIfLastProfile(const char* title);
void StopProcessor();
void ResetProfiles();
void LogBuiltins();
Isolate* const isolate_;
base::TimeDelta sampling_interval_;
std::unique_ptr<CpuProfilesCollection> profiles_;
std::unique_ptr<ProfileGenerator> generator_;
std::unique_ptr<ProfilerEventsProcessor> processor_;
bool saved_is_logging_;
bool is_profiling_;
DISALLOW_COPY_AND_ASSIGN(CpuProfiler);
};
} // namespace internal
} // namespace v8
#endif // V8_PROFILER_CPU_PROFILER_H_
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