third-party/benchmark/src/perf_counters.h - third_party/github.com/llvm/llvm-project - Git at Google

 // Copyright 2021 Google Inc. All rights reserved.
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //     http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 #ifndef BENCHMARK_PERF_COUNTERS_H
 #define BENCHMARK_PERF_COUNTERS_H

 #include <array>
 #include <cstdint>
 #include <cstring>
 #include <memory>
 #include <vector>

 #include "benchmark/benchmark.h"
 #include "check.h"
 #include "log.h"
 #include "mutex.h"

 #ifndef BENCHMARK_OS_WINDOWS
 #include <unistd.h>
 #endif

 #if defined(_MSC_VER)
 #pragma warning(push)
 // C4251: <symbol> needs to have dll-interface to be used by clients of class
 #pragma warning(disable : 4251)
 #endif

 namespace benchmark {
 namespace internal {

 // Typically, we can only read a small number of counters. There is also a
 // padding preceding counter values, when reading multiple counters with one
 // syscall (which is desirable). PerfCounterValues abstracts these details.
 // The implementation ensures the storage is inlined, and allows 0-based
 // indexing into the counter values.
 // The object is used in conjunction with a PerfCounters object, by passing it
 // to Snapshot(). The Read() method relocates individual reads, discarding
 // the initial padding from each group leader in the values buffer such that
 // all user accesses through the [] operator are correct.
 class BENCHMARK_EXPORT PerfCounterValues {
  public:
   explicit PerfCounterValues(size_t nr_counters) : nr_counters_(nr_counters) {
     BM_CHECK_LE(nr_counters_, kMaxCounters);
   }

   // We are reading correctly now so the values don't need to skip padding
   uint64_t operator[](size_t pos) const { return values_[pos]; }

   // Increased the maximum to 32 only since the buffer
   // is std::array<> backed
   static constexpr size_t kMaxCounters = 32;

  private:
   friend class PerfCounters;
   // Get the byte buffer in which perf counters can be captured.
   // This is used by PerfCounters::Read
   std::pair<char*, size_t> get_data_buffer() {
     return {reinterpret_cast<char*>(values_.data()),
             sizeof(uint64_t) * (kPadding + nr_counters_)};
   }

   // This reading is complex and as the goal of this class is to
   // abstract away the intrincacies of the reading process, this is
   // a better place for it
   size_t Read(const std::vector<int>& leaders);

   // Move the padding to 2 due to the reading algorithm (1st padding plus a
   // current read padding)
   static constexpr size_t kPadding = 2;
   std::array<uint64_t, kPadding + kMaxCounters> values_;
   const size_t nr_counters_;
 };

 // Collect PMU counters. The object, once constructed, is ready to be used by
 // calling read(). PMU counter collection is enabled from the time create() is
 // called, to obtain the object, until the object's destructor is called.
 class BENCHMARK_EXPORT PerfCounters final {
  public:
   // True iff this platform supports performance counters.
   static const bool kSupported;

   // Returns an empty object
   static PerfCounters NoCounters() { return PerfCounters(); }

   ~PerfCounters() { CloseCounters(); }
   PerfCounters() = default;
   PerfCounters(PerfCounters&&) = default;
   PerfCounters(const PerfCounters&) = delete;
   PerfCounters& operator=(PerfCounters&&) noexcept;
   PerfCounters& operator=(const PerfCounters&) = delete;

   // Platform-specific implementations may choose to do some library
   // initialization here.
   static bool Initialize();

   // Check if the given counter is supported, if the app wants to
   // check before passing
   static bool IsCounterSupported(const std::string& name);

   // Return a PerfCounters object ready to read the counters with the names
   // specified. The values are user-mode only. The counter name format is
   // implementation and OS specific.
   // In case of failure, this method will in the worst case return an
   // empty object whose state will still be valid.
   static PerfCounters Create(const std::vector<std::string>& counter_names);

   // Take a snapshot of the current value of the counters into the provided
   // valid PerfCounterValues storage. The values are populated such that:
   // names()[i]'s value is (*values)[i]
   BENCHMARK_ALWAYS_INLINE bool Snapshot(PerfCounterValues* values) const {
 #ifndef BENCHMARK_OS_WINDOWS
     assert(values != nullptr);
     return values->Read(leader_ids_) == counter_ids_.size();
 #else
     (void)values;
     return false;
 #endif
   }

   const std::vector<std::string>& names() const { return counter_names_; }
   size_t num_counters() const { return counter_names_.size(); }

  private:
   PerfCounters(const std::vector<std::string>& counter_names,
                std::vector<int>&& counter_ids, std::vector<int>&& leader_ids)
       : counter_ids_(std::move(counter_ids)),
         leader_ids_(std::move(leader_ids)),
         counter_names_(counter_names) {}

   void CloseCounters() const;

   std::vector<int> counter_ids_;
   std::vector<int> leader_ids_;
   std::vector<std::string> counter_names_;
 };

 // Typical usage of the above primitives.
 class BENCHMARK_EXPORT PerfCountersMeasurement final {
  public:
   PerfCountersMeasurement(const std::vector<std::string>& counter_names);

   size_t num_counters() const { return counters_.num_counters(); }

   std::vector<std::string> names() const { return counters_.names(); }

   BENCHMARK_ALWAYS_INLINE bool Start() {
     if (num_counters() == 0) return true;
     // Tell the compiler to not move instructions above/below where we take
     // the snapshot.
     ClobberMemory();
     valid_read_ &= counters_.Snapshot(&start_values_);
     ClobberMemory();

     return valid_read_;
   }

   BENCHMARK_ALWAYS_INLINE bool Stop(
       std::vector<std::pair<std::string, double>>& measurements) {
     if (num_counters() == 0) return true;
     // Tell the compiler to not move instructions above/below where we take
     // the snapshot.
     ClobberMemory();
     valid_read_ &= counters_.Snapshot(&end_values_);
     ClobberMemory();

     for (size_t i = 0; i < counters_.names().size(); ++i) {
       double measurement = static_cast<double>(end_values_[i]) -
                            static_cast<double>(start_values_[i]);
       measurements.push_back({counters_.names()[i], measurement});
     }

     return valid_read_;
   }

  private:
   PerfCounters counters_;
   bool valid_read_ = true;
   PerfCounterValues start_values_;
   PerfCounterValues end_values_;
 };

 }  // namespace internal
 }  // namespace benchmark

 #if defined(_MSC_VER)
 #pragma warning(pop)
 #endif

 #endif  // BENCHMARK_PERF_COUNTERS_H
	// Copyright 2021 Google Inc. All rights reserved.
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	#ifndef BENCHMARK_PERF_COUNTERS_H
	#define BENCHMARK_PERF_COUNTERS_H

	#include <array>
	#include <cstdint>
	#include <cstring>
	#include <memory>
	#include <vector>

	#include "benchmark/benchmark.h"
	#include "check.h"
	#include "log.h"
	#include "mutex.h"

	#ifndef BENCHMARK_OS_WINDOWS
	#include <unistd.h>
	#endif

	#if defined(_MSC_VER)
	#pragma warning(push)
	// C4251: <symbol> needs to have dll-interface to be used by clients of class
	#pragma warning(disable : 4251)
	#endif

	namespace benchmark {
	namespace internal {

	// Typically, we can only read a small number of counters. There is also a
	// padding preceding counter values, when reading multiple counters with one
	// syscall (which is desirable). PerfCounterValues abstracts these details.
	// The implementation ensures the storage is inlined, and allows 0-based
	// indexing into the counter values.
	// The object is used in conjunction with a PerfCounters object, by passing it
	// to Snapshot(). The Read() method relocates individual reads, discarding
	// the initial padding from each group leader in the values buffer such that
	// all user accesses through the [] operator are correct.
	class BENCHMARK_EXPORT PerfCounterValues {
	public:
	explicit PerfCounterValues(size_t nr_counters) : nr_counters_(nr_counters) {
	BM_CHECK_LE(nr_counters_, kMaxCounters);
	}

	// We are reading correctly now so the values don't need to skip padding
	uint64_t operator[](size_t pos) const { return values_[pos]; }

	// Increased the maximum to 32 only since the buffer
	// is std::array<> backed
	static constexpr size_t kMaxCounters = 32;

	private:
	friend class PerfCounters;
	// Get the byte buffer in which perf counters can be captured.
	// This is used by PerfCounters::Read
	std::pair<char*, size_t> get_data_buffer() {
	return {reinterpret_cast<char*>(values_.data()),
	sizeof(uint64_t) * (kPadding + nr_counters_)};
	}

	// This reading is complex and as the goal of this class is to
	// abstract away the intrincacies of the reading process, this is
	// a better place for it
	size_t Read(const std::vector<int>& leaders);

	// Move the padding to 2 due to the reading algorithm (1st padding plus a
	// current read padding)
	static constexpr size_t kPadding = 2;
	std::array<uint64_t, kPadding + kMaxCounters> values_;
	const size_t nr_counters_;
	};

	// Collect PMU counters. The object, once constructed, is ready to be used by
	// calling read(). PMU counter collection is enabled from the time create() is
	// called, to obtain the object, until the object's destructor is called.
	class BENCHMARK_EXPORT PerfCounters final {
	public:
	// True iff this platform supports performance counters.
	static const bool kSupported;

	// Returns an empty object
	static PerfCounters NoCounters() { return PerfCounters(); }

	~PerfCounters() { CloseCounters(); }
	PerfCounters() = default;
	PerfCounters(PerfCounters&&) = default;
	PerfCounters(const PerfCounters&) = delete;
	PerfCounters& operator=(PerfCounters&&) noexcept;
	PerfCounters& operator=(const PerfCounters&) = delete;

	// Platform-specific implementations may choose to do some library
	// initialization here.
	static bool Initialize();

	// Check if the given counter is supported, if the app wants to
	// check before passing
	static bool IsCounterSupported(const std::string& name);

	// Return a PerfCounters object ready to read the counters with the names
	// specified. The values are user-mode only. The counter name format is
	// implementation and OS specific.
	// In case of failure, this method will in the worst case return an
	// empty object whose state will still be valid.
	static PerfCounters Create(const std::vector<std::string>& counter_names);

	// Take a snapshot of the current value of the counters into the provided
	// valid PerfCounterValues storage. The values are populated such that:
	// names()[i]'s value is (*values)[i]
	BENCHMARK_ALWAYS_INLINE bool Snapshot(PerfCounterValues* values) const {
	#ifndef BENCHMARK_OS_WINDOWS
	assert(values != nullptr);
	return values->Read(leader_ids_) == counter_ids_.size();
	#else
	(void)values;
	return false;
	#endif
	}

	const std::vector<std::string>& names() const { return counter_names_; }
	size_t num_counters() const { return counter_names_.size(); }

	private:
	PerfCounters(const std::vector<std::string>& counter_names,
	std::vector<int>&& counter_ids, std::vector<int>&& leader_ids)
	: counter_ids_(std::move(counter_ids)),
	leader_ids_(std::move(leader_ids)),
	counter_names_(counter_names) {}

	void CloseCounters() const;

	std::vector<int> counter_ids_;
	std::vector<int> leader_ids_;
	std::vector<std::string> counter_names_;
	};

	// Typical usage of the above primitives.
	class BENCHMARK_EXPORT PerfCountersMeasurement final {
	public:
	PerfCountersMeasurement(const std::vector<std::string>& counter_names);

	size_t num_counters() const { return counters_.num_counters(); }

	std::vector<std::string> names() const { return counters_.names(); }

	BENCHMARK_ALWAYS_INLINE bool Start() {
	if (num_counters() == 0) return true;
	// Tell the compiler to not move instructions above/below where we take
	// the snapshot.
	ClobberMemory();
	valid_read_ &= counters_.Snapshot(&start_values_);
	ClobberMemory();

	return valid_read_;
	}

	BENCHMARK_ALWAYS_INLINE bool Stop(
	std::vector<std::pair<std::string, double>>& measurements) {
	if (num_counters() == 0) return true;
	// Tell the compiler to not move instructions above/below where we take
	// the snapshot.
	ClobberMemory();
	valid_read_ &= counters_.Snapshot(&end_values_);
	ClobberMemory();

	for (size_t i = 0; i < counters_.names().size(); ++i) {
	double measurement = static_cast<double>(end_values_[i]) -
	static_cast<double>(start_values_[i]);
	measurements.push_back({counters_.names()[i], measurement});
	}

	return valid_read_;
	}

	private:
	PerfCounters counters_;
	bool valid_read_ = true;
	PerfCounterValues start_values_;
	PerfCounterValues end_values_;
	};

	} // namespace internal
	} // namespace benchmark

	#if defined(_MSC_VER)
	#pragma warning(pop)
	#endif

	#endif // BENCHMARK_PERF_COUNTERS_H