base/profiler/stack_sampling_profiler.h - bauxite - Git at Google

 // Copyright 2015 The Chromium 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 BASE_PROFILER_STACK_SAMPLING_PROFILER_H_
 #define BASE_PROFILER_STACK_SAMPLING_PROFILER_H_

 #include <string>
 #include <vector>

 #include "base/base_export.h"
 #include "base/callback.h"
 #include "base/files/file_path.h"
 #include "base/memory/scoped_ptr.h"
 #include "base/strings/string16.h"
 #include "base/synchronization/waitable_event.h"
 #include "base/threading/platform_thread.h"
 #include "base/time/time.h"

 namespace base {

 class NativeStackSampler;
 class NativeStackSamplerTestDelegate;

 // StackSamplingProfiler periodically stops a thread to sample its stack, for
 // the purpose of collecting information about which code paths are
 // executing. This information is used in aggregate by UMA to identify hot
 // and/or janky code paths.
 //
 // Sample StackSamplingProfiler usage:
 //
 //   // Create and customize params as desired.
 //   base::StackStackSamplingProfiler::SamplingParams params;
 //   // Any thread's ID may be passed as the target.
 //   base::StackSamplingProfiler profiler(base::PlatformThread::CurrentId()),
 //       params);
 //
 //   // Or, to process the profiles within Chrome rather than via UMA, use a
 //   // custom completed callback:
 //   base::StackStackSamplingProfiler::CompletedCallback
 //       thread_safe_callback = ...;
 //   base::StackSamplingProfiler profiler(base::PlatformThread::CurrentId()),
 //       params, thread_safe_callback);
 //
 //   profiler.Start();
 //   // ... work being done on the target thread here ...
 //   profiler.Stop();  // optional, stops collection before complete per params
 //
 // The default SamplingParams causes stacks to be recorded in a single burst at
 // a 10Hz interval for a total of 30 seconds. All of these parameters may be
 // altered as desired.
 //
 // When all call stack profiles are complete, or the profiler is stopped, the
 // completed callback is called from a thread created by the profiler with the
 // collected profiles.
 //
 // The results of the profiling are passed to the completed callback and consist
 // of a vector of CallStackProfiles. Each CallStackProfile corresponds to a
 // burst as specified in SamplingParams and contains a set of Samples and
 // Modules. One Sample corresponds to a single recorded stack, and the Modules
 // record those modules associated with the recorded stack frames.
 class BASE_EXPORT StackSamplingProfiler {
  public:
   // Module represents the module (DLL or exe) corresponding to a stack frame.
   struct BASE_EXPORT Module {
     Module();
     Module(uintptr_t base_address,
            const std::string& id,
            const FilePath& filename);
     ~Module();

     // Points to the base address of the module.
     uintptr_t base_address;

     // An opaque binary string that uniquely identifies a particular program
     // version with high probability. This is parsed from headers of the loaded
     // module.
     // For binaries generated by GNU tools:
     //   Contents of the .note.gnu.build-id field.
     // On Windows:
     //   GUID + AGE in the debug image headers of a module.
     std::string id;

     // The filename of the module.
     FilePath filename;
   };

   // Frame represents an individual sampled stack frame with module information.
   struct BASE_EXPORT Frame {
     // Identifies an unknown module.
     static const size_t kUnknownModuleIndex = static_cast<size_t>(-1);

     Frame(uintptr_t instruction_pointer, size_t module_index);
     ~Frame();

     // Default constructor to satisfy IPC macros. Do not use explicitly.
     Frame();

     // The sampled instruction pointer within the function.
     uintptr_t instruction_pointer;

     // Index of the module in CallStackProfile::modules. We don't represent
     // module state directly here to save space.
     size_t module_index;
   };

   // Sample represents a set of stack frames.
   using Sample = std::vector<Frame>;

   // CallStackProfile represents a set of samples.
   struct BASE_EXPORT CallStackProfile {
     CallStackProfile();
     ~CallStackProfile();

     std::vector<Module> modules;
     std::vector<Sample> samples;

     // Duration of this profile.
     TimeDelta profile_duration;

     // Time between samples.
     TimeDelta sampling_period;
   };

   using CallStackProfiles = std::vector<CallStackProfile>;

   // Represents parameters that configure the sampling.
   struct BASE_EXPORT SamplingParams {
     SamplingParams();

     // Time to delay before first samples are taken. Defaults to 0.
     TimeDelta initial_delay;

     // Number of sampling bursts to perform. Defaults to 1.
     int bursts;

     // Interval between sampling bursts. This is the desired duration from the
     // start of one burst to the start of the next burst. Defaults to 10s.
     TimeDelta burst_interval;

     // Number of samples to record per burst. Defaults to 300.
     int samples_per_burst;

     // Interval between samples during a sampling burst. This is the desired
     // duration from the start of one sample to the start of the next
     // sample. Defaults to 100ms.
     TimeDelta sampling_interval;
   };

   // The callback type used to collect completed profiles.
   //
   // IMPORTANT NOTE: the callback is invoked on a thread the profiler
   // constructs, rather than on the thread used to construct the profiler and
   // set the callback, and thus the callback must be callable on any thread. For
   // threads with message loops that create StackSamplingProfilers, posting a
   // task to the message loop with a copy of the profiles is the recommended
   // thread-safe callback implementation.
   using CompletedCallback = Callback<void(const CallStackProfiles&)>;

   // Creates a profiler that sends completed profiles to |callback|. The second
   // constructor is for test purposes.
   StackSamplingProfiler(PlatformThreadId thread_id,
                         const SamplingParams& params,
                         const CompletedCallback& callback);
   StackSamplingProfiler(PlatformThreadId thread_id,
                         const SamplingParams& params,
                         const CompletedCallback& callback,
                         NativeStackSamplerTestDelegate* test_delegate);
   // Stops any profiling currently taking place before destroying the profiler.
   ~StackSamplingProfiler();

   // The fire-and-forget interface: starts a profiler and allows it to complete
   // without the caller needing to manage the profiler lifetime. May be invoked
   // from any thread, but requires that the calling thread has a message loop.
   static void StartAndRunAsync(PlatformThreadId thread_id,
                                const SamplingParams& params,
                                const CompletedCallback& callback);

   // Initializes the profiler and starts sampling.
   void Start();

   // Stops the profiler and any ongoing sampling. Calling this function is
   // optional; if not invoked profiling terminates when all the profiling bursts
   // specified in the SamplingParams are completed or the profiler is destroyed,
   // whichever occurs first.
   void Stop();

  private:
   // SamplingThread is a separate thread used to suspend and sample stacks from
   // the target thread.
   class SamplingThread : public PlatformThread::Delegate {
    public:
     // Samples stacks using |native_sampler|. When complete, invokes
     // |completed_callback| with the collected call stack profiles.
     // |completed_callback| must be callable on any thread.
     SamplingThread(scoped_ptr<NativeStackSampler> native_sampler,
                    const SamplingParams& params,
                    const CompletedCallback& completed_callback);
     ~SamplingThread() override;

     // PlatformThread::Delegate:
     void ThreadMain() override;

     void Stop();

    private:
     // Collects |profile| from a single burst. If the profiler was stopped
     // during collection, sets |was_stopped| and provides the set of samples
     // collected up to that point.
     void CollectProfile(CallStackProfile* profile, TimeDelta* elapsed_time,
                         bool* was_stopped);

     // Collects call stack profiles from all bursts, or until the sampling is
     // stopped. If stopped before complete, the last profile in
     // |call_stack_profiles| may contain a partial burst.
     void CollectProfiles(CallStackProfiles* profiles);

     scoped_ptr<NativeStackSampler> native_sampler_;
     const SamplingParams params_;

     // If Stop() is called, it signals this event to force the sampling to
     // terminate before all the samples specified in |params_| are collected.
     WaitableEvent stop_event_;

     const CompletedCallback completed_callback_;

     DISALLOW_COPY_AND_ASSIGN(SamplingThread);
   };

   // The thread whose stack will be sampled.
   PlatformThreadId thread_id_;

   const SamplingParams params_;

   scoped_ptr<SamplingThread> sampling_thread_;
   PlatformThreadHandle sampling_thread_handle_;

   const CompletedCallback completed_callback_;

   // Stored until it can be passed to the NativeStackSampler created in Start().
   NativeStackSamplerTestDelegate* const test_delegate_;

   DISALLOW_COPY_AND_ASSIGN(StackSamplingProfiler);
 };

 // The metrics provider code wants to put Samples in a map and compare them,
 // which requires us to define a few operators.
 BASE_EXPORT bool operator==(const StackSamplingProfiler::Frame& a,
                             const StackSamplingProfiler::Frame& b);
 BASE_EXPORT bool operator<(const StackSamplingProfiler::Frame& a,
                            const StackSamplingProfiler::Frame& b);

 }  // namespace base

 #endif  // BASE_PROFILER_STACK_SAMPLING_PROFILER_H_
	// Copyright 2015 The Chromium 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 BASE_PROFILER_STACK_SAMPLING_PROFILER_H_
	#define BASE_PROFILER_STACK_SAMPLING_PROFILER_H_

	#include <string>
	#include <vector>

	#include "base/base_export.h"
	#include "base/callback.h"
	#include "base/files/file_path.h"
	#include "base/memory/scoped_ptr.h"
	#include "base/strings/string16.h"
	#include "base/synchronization/waitable_event.h"
	#include "base/threading/platform_thread.h"
	#include "base/time/time.h"

	namespace base {

	class NativeStackSampler;
	class NativeStackSamplerTestDelegate;

	// StackSamplingProfiler periodically stops a thread to sample its stack, for
	// the purpose of collecting information about which code paths are
	// executing. This information is used in aggregate by UMA to identify hot
	// and/or janky code paths.
	//
	// Sample StackSamplingProfiler usage:
	//
	// // Create and customize params as desired.
	// base::StackStackSamplingProfiler::SamplingParams params;
	// // Any thread's ID may be passed as the target.
	// base::StackSamplingProfiler profiler(base::PlatformThread::CurrentId()),
	// params);
	//
	// // Or, to process the profiles within Chrome rather than via UMA, use a
	// // custom completed callback:
	// base::StackStackSamplingProfiler::CompletedCallback
	// thread_safe_callback = ...;
	// base::StackSamplingProfiler profiler(base::PlatformThread::CurrentId()),
	// params, thread_safe_callback);
	//
	// profiler.Start();
	// // ... work being done on the target thread here ...
	// profiler.Stop(); // optional, stops collection before complete per params
	//
	// The default SamplingParams causes stacks to be recorded in a single burst at
	// a 10Hz interval for a total of 30 seconds. All of these parameters may be
	// altered as desired.
	//
	// When all call stack profiles are complete, or the profiler is stopped, the
	// completed callback is called from a thread created by the profiler with the
	// collected profiles.
	//
	// The results of the profiling are passed to the completed callback and consist
	// of a vector of CallStackProfiles. Each CallStackProfile corresponds to a
	// burst as specified in SamplingParams and contains a set of Samples and
	// Modules. One Sample corresponds to a single recorded stack, and the Modules
	// record those modules associated with the recorded stack frames.
	class BASE_EXPORT StackSamplingProfiler {
	public:
	// Module represents the module (DLL or exe) corresponding to a stack frame.
	struct BASE_EXPORT Module {
	Module();
	Module(uintptr_t base_address,
	const std::string& id,
	const FilePath& filename);
	~Module();

	// Points to the base address of the module.
	uintptr_t base_address;

	// An opaque binary string that uniquely identifies a particular program
	// version with high probability. This is parsed from headers of the loaded
	// module.
	// For binaries generated by GNU tools:
	// Contents of the .note.gnu.build-id field.
	// On Windows:
	// GUID + AGE in the debug image headers of a module.
	std::string id;

	// The filename of the module.
	FilePath filename;
	};

	// Frame represents an individual sampled stack frame with module information.
	struct BASE_EXPORT Frame {
	// Identifies an unknown module.
	static const size_t kUnknownModuleIndex = static_cast<size_t>(-1);

	Frame(uintptr_t instruction_pointer, size_t module_index);
	~Frame();

	// Default constructor to satisfy IPC macros. Do not use explicitly.
	Frame();

	// The sampled instruction pointer within the function.
	uintptr_t instruction_pointer;

	// Index of the module in CallStackProfile::modules. We don't represent
	// module state directly here to save space.
	size_t module_index;
	};

	// Sample represents a set of stack frames.
	using Sample = std::vector<Frame>;

	// CallStackProfile represents a set of samples.
	struct BASE_EXPORT CallStackProfile {
	CallStackProfile();
	~CallStackProfile();

	std::vector<Module> modules;
	std::vector<Sample> samples;

	// Duration of this profile.
	TimeDelta profile_duration;

	// Time between samples.
	TimeDelta sampling_period;
	};

	using CallStackProfiles = std::vector<CallStackProfile>;

	// Represents parameters that configure the sampling.
	struct BASE_EXPORT SamplingParams {
	SamplingParams();

	// Time to delay before first samples are taken. Defaults to 0.
	TimeDelta initial_delay;

	// Number of sampling bursts to perform. Defaults to 1.
	int bursts;

	// Interval between sampling bursts. This is the desired duration from the
	// start of one burst to the start of the next burst. Defaults to 10s.
	TimeDelta burst_interval;

	// Number of samples to record per burst. Defaults to 300.
	int samples_per_burst;

	// Interval between samples during a sampling burst. This is the desired
	// duration from the start of one sample to the start of the next
	// sample. Defaults to 100ms.
	TimeDelta sampling_interval;
	};

	// The callback type used to collect completed profiles.
	//
	// IMPORTANT NOTE: the callback is invoked on a thread the profiler
	// constructs, rather than on the thread used to construct the profiler and
	// set the callback, and thus the callback must be callable on any thread. For
	// threads with message loops that create StackSamplingProfilers, posting a
	// task to the message loop with a copy of the profiles is the recommended
	// thread-safe callback implementation.
	using CompletedCallback = Callback<void(const CallStackProfiles&)>;

	// Creates a profiler that sends completed profiles to \|callback\|. The second
	// constructor is for test purposes.
	StackSamplingProfiler(PlatformThreadId thread_id,
	const SamplingParams& params,
	const CompletedCallback& callback);
	StackSamplingProfiler(PlatformThreadId thread_id,
	const SamplingParams& params,
	const CompletedCallback& callback,
	NativeStackSamplerTestDelegate* test_delegate);
	// Stops any profiling currently taking place before destroying the profiler.
	~StackSamplingProfiler();

	// The fire-and-forget interface: starts a profiler and allows it to complete
	// without the caller needing to manage the profiler lifetime. May be invoked
	// from any thread, but requires that the calling thread has a message loop.
	static void StartAndRunAsync(PlatformThreadId thread_id,
	const SamplingParams& params,
	const CompletedCallback& callback);

	// Initializes the profiler and starts sampling.
	void Start();

	// Stops the profiler and any ongoing sampling. Calling this function is
	// optional; if not invoked profiling terminates when all the profiling bursts
	// specified in the SamplingParams are completed or the profiler is destroyed,
	// whichever occurs first.
	void Stop();

	private:
	// SamplingThread is a separate thread used to suspend and sample stacks from
	// the target thread.
	class SamplingThread : public PlatformThread::Delegate {
	public:
	// Samples stacks using \|native_sampler\|. When complete, invokes
	// \|completed_callback\| with the collected call stack profiles.
	// \|completed_callback\| must be callable on any thread.
	SamplingThread(scoped_ptr<NativeStackSampler> native_sampler,
	const SamplingParams& params,
	const CompletedCallback& completed_callback);
	~SamplingThread() override;

	// PlatformThread::Delegate:
	void ThreadMain() override;

	void Stop();

	private:
	// Collects \|profile\| from a single burst. If the profiler was stopped
	// during collection, sets \|was_stopped\| and provides the set of samples
	// collected up to that point.
	void CollectProfile(CallStackProfile* profile, TimeDelta* elapsed_time,
	bool* was_stopped);

	// Collects call stack profiles from all bursts, or until the sampling is
	// stopped. If stopped before complete, the last profile in
	// \|call_stack_profiles\| may contain a partial burst.
	void CollectProfiles(CallStackProfiles* profiles);

	scoped_ptr<NativeStackSampler> native_sampler_;
	const SamplingParams params_;

	// If Stop() is called, it signals this event to force the sampling to
	// terminate before all the samples specified in \|params_\| are collected.
	WaitableEvent stop_event_;

	const CompletedCallback completed_callback_;

	DISALLOW_COPY_AND_ASSIGN(SamplingThread);
	};

	// The thread whose stack will be sampled.
	PlatformThreadId thread_id_;

	const SamplingParams params_;

	scoped_ptr<SamplingThread> sampling_thread_;
	PlatformThreadHandle sampling_thread_handle_;

	const CompletedCallback completed_callback_;

	// Stored until it can be passed to the NativeStackSampler created in Start().
	NativeStackSamplerTestDelegate* const test_delegate_;

	DISALLOW_COPY_AND_ASSIGN(StackSamplingProfiler);
	};

	// The metrics provider code wants to put Samples in a map and compare them,
	// which requires us to define a few operators.
	BASE_EXPORT bool operator==(const StackSamplingProfiler::Frame& a,
	const StackSamplingProfiler::Frame& b);
	BASE_EXPORT bool operator<(const StackSamplingProfiler::Frame& a,
	const StackSamplingProfiler::Frame& b);

	} // namespace base

	#endif // BASE_PROFILER_STACK_SAMPLING_PROFILER_H_