// Copyright 2013 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_SAMPLER_H_ #define V8_SAMPLER_H_ #include "atomicops.h" #include "frames.h" #include "globals.h" namespace v8 { namespace internal { class Isolate; // ---------------------------------------------------------------------------- // Sampler // // A sampler periodically samples the state of the VM and optionally // (if used for profiling) the program counter and stack pointer for // the thread that created it. struct RegisterState { RegisterState() : pc(NULL), sp(NULL), fp(NULL) {} Address pc; // Instruction pointer. Address sp; // Stack pointer. Address fp; // Frame pointer. }; // TickSample captures the information collected for each sample. struct TickSample { TickSample() : state(OTHER), pc(NULL), external_callback(NULL), frames_count(0), has_external_callback(false), top_frame_type(StackFrame::NONE) {} void Init(Isolate* isolate, const RegisterState& state); StateTag state; // The state of the VM. Address pc; // Instruction pointer. union { Address tos; // Top stack value (*sp). Address external_callback; }; static const int kMaxFramesCount = 64; Address stack[kMaxFramesCount]; // Call stack. TimeTicks timestamp; int frames_count : 8; // Number of captured frames. bool has_external_callback : 1; StackFrame::Type top_frame_type : 4; }; class Sampler { public: // Initializes the Sampler support. Called once at VM startup. static void SetUp(); static void TearDown(); // Initialize sampler. Sampler(Isolate* isolate, int interval); virtual ~Sampler(); Isolate* isolate() const { return isolate_; } int interval() const { return interval_; } // Performs stack sampling. void SampleStack(const RegisterState& regs); // Start and stop sampler. void Start(); void Stop(); // Whether the sampling thread should use this Sampler for CPU profiling? bool IsProfiling() const { return NoBarrier_Load(&profiling_) > 0 && !NoBarrier_Load(&has_processing_thread_); } void IncreaseProfilingDepth(); void DecreaseProfilingDepth(); // Whether the sampler is running (that is, consumes resources). bool IsActive() const { return NoBarrier_Load(&active_); } void DoSample(); // If true next sample must be initiated on the profiler event processor // thread right after latest sample is processed. void SetHasProcessingThread(bool value) { NoBarrier_Store(&has_processing_thread_, value); } // Used in tests to make sure that stack sampling is performed. unsigned js_and_external_sample_count() const { return js_and_external_sample_count_; } void StartCountingSamples() { is_counting_samples_ = true; js_and_external_sample_count_ = 0; } class PlatformData; PlatformData* platform_data() const { return data_; } protected: // This method is called for each sampling period with the current // program counter. virtual void Tick(TickSample* sample) = 0; private: void SetActive(bool value) { NoBarrier_Store(&active_, value); } Isolate* isolate_; const int interval_; Atomic32 profiling_; Atomic32 has_processing_thread_; Atomic32 active_; PlatformData* data_; // Platform specific data. bool is_counting_samples_; // Counts stack samples taken in JS VM state. unsigned js_and_external_sample_count_; DISALLOW_IMPLICIT_CONSTRUCTORS(Sampler); }; } } // namespace v8::internal #endif // V8_SAMPLER_H_