tests/icachetest/Profiler.h - platform/system/extras - Git at Google

 /*
  * Copyright (C) 2016 The Android Open Source Project
  *
  * 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 TNT_UTILS_PROFILER_H
 #define TNT_UTILS_PROFILER_H

 #include <assert.h>
 #include <stdint.h>

 #include <array>
 #include <chrono>

 #if defined(__linux__)
 #   include <unistd.h>
 #   include <sys/ioctl.h>
 #   include <linux/perf_event.h>
 #endif

 namespace utils {

 class Profiler {
     enum {
         INSTRUCTIONS    = 0,   // must be zero
         CPU_CYCLES      = 1,
         DCACHE_REFS     = 2,
         DCACHE_MISSES   = 3,
         BRANCHES        = 4,
         BRANCH_MISSES   = 5,
         ICACHE_REFS     = 6,
         ICACHE_MISSES   = 7,

         // Must be last one
         EVENT_COUNT
     };

 public:

     enum {
         EV_CPU_CYCLES = 1 << CPU_CYCLES,
         EV_L1D_REFS   = 1 << DCACHE_REFS,
         EV_L1D_MISSES = 1 << DCACHE_MISSES,
         EV_BPU_REFS   = 1 << BRANCHES,
         EV_BPU_MISSES = 1 << BRANCH_MISSES,
         EV_L1I_REFS   = 1 << ICACHE_REFS,
         EV_L1I_MISSES = 1 << ICACHE_MISSES,
         // helpers
         EV_L1D_RATES = EV_L1D_REFS | EV_L1D_MISSES,
         EV_L1I_RATES = EV_L1I_REFS | EV_L1I_MISSES,
         EV_BPU_RATES = EV_BPU_REFS | EV_BPU_MISSES,
     };

     static Profiler& get() noexcept;


     Profiler(const Profiler& rhs) = delete;
     Profiler(Profiler&& rhs) = delete;
     Profiler& operator=(const Profiler& rhs) = delete;
     Profiler& operator=(Profiler&& rhs) = delete;

     // selects which events are enabled.
     // By Default: EV_CPU_CYCLES | EV_L1D_RATES | EV_BPU_RATES
     uint32_t resetEvents(uint32_t eventMask) noexcept;

     uint32_t getEnabledEvents() const noexcept { return mEnabledEvents; }

     // could return false if performance counters are not supported/enabled
     bool isValid() const { return mCountersFd[0] >= 0; }

     class Counters {
         friend class Profiler;
         uint64_t nr;
         uint64_t time_enabled;
         uint64_t time_running;
         struct {
             uint64_t value;
             uint64_t id;
         } counters[Profiler::EVENT_COUNT];

         friend Counters operator-(Counters lhs, const Counters& rhs) noexcept {
             lhs.nr -= rhs.nr;
             lhs.time_enabled -= rhs.time_enabled;
             lhs.time_running -= rhs.time_running;
             for (size_t i=0 ; i<EVENT_COUNT ; ++i) {
                 lhs.counters[i].value -= rhs.counters[i].value;
             }
             return lhs;
         }

     public:
         uint64_t getInstructions() const        { return counters[INSTRUCTIONS].value; }
         uint64_t getCpuCycles() const           { return counters[CPU_CYCLES].value; }
         uint64_t getL1DReferences() const       { return counters[DCACHE_REFS].value; }
         uint64_t getL1DMisses() const           { return counters[DCACHE_MISSES].value; }
         uint64_t getL1IReferences() const       { return counters[ICACHE_REFS].value; }
         uint64_t getL1IMisses() const           { return counters[ICACHE_MISSES].value; }
         uint64_t getBranchInstructions() const  { return counters[BRANCHES].value; }
         uint64_t getBranchMisses() const        { return counters[BRANCH_MISSES].value; }

         std::chrono::duration<uint64_t, std::nano> getWallTime() const {
             return std::chrono::duration<uint64_t, std::nano>(time_enabled);
         }

         std::chrono::duration<uint64_t, std::nano> getRunningTime() const {
             return std::chrono::duration<uint64_t, std::nano>(time_running);
         }

         double getIPC() const noexcept {
             uint64_t cpuCycles = getCpuCycles();
             uint64_t instructions = getInstructions();
             return double(instructions) / double(cpuCycles);
         }

         double getCPI() const noexcept {
             uint64_t cpuCycles = getCpuCycles();
             uint64_t instructions = getInstructions();
             return double(cpuCycles) / double(instructions);
         }

         double getL1DMissRate() const noexcept {
             uint64_t cacheReferences = getL1DReferences();
             uint64_t cacheMisses = getL1DMisses();
             return double(cacheMisses) / double(cacheReferences);
         }

         double getL1DHitRate() const noexcept {
             return 1.0 - getL1DMissRate();
         }

         double getL1IMissRate() const noexcept {
             uint64_t cacheReferences = getL1IReferences();
             uint64_t cacheMisses = getL1IMisses();
             return double(cacheMisses) / double(cacheReferences);
         }

         double getL1IHitRate() const noexcept {
             return 1.0 - getL1IMissRate();
         }

         double getBranchMissRate() const noexcept {
             uint64_t branchReferences = getBranchInstructions();
             uint64_t branchMisses = getBranchMisses();
             return double(branchMisses) / double(branchReferences);
         }

         double getBranchHitRate() const noexcept {
             return 1.0 - getBranchMissRate();
         }

         double getMPKI(uint64_t misses) const noexcept {
             return (misses * 1000.0) / getInstructions();
         }

     };

 #if defined(__linux__)

     void reset() noexcept {
         int fd = mCountersFd[0];
         ioctl(fd, PERF_EVENT_IOC_RESET,  PERF_IOC_FLAG_GROUP);
     }

     void start() noexcept {
         int fd = mCountersFd[0];
         ioctl(fd, PERF_EVENT_IOC_ENABLE, PERF_IOC_FLAG_GROUP);
     }

     void stop() noexcept {
         int fd = mCountersFd[0];
         ioctl(fd, PERF_EVENT_IOC_DISABLE, PERF_IOC_FLAG_GROUP);
     }

     void readCounters(Counters* outCounters) noexcept {
         Counters counters;
         ssize_t n = read(mCountersFd[0], &counters, sizeof(Counters));
         memset(outCounters, 0, sizeof(Counters));
         if (n > 0) {
             outCounters->nr = counters.nr;
             outCounters->time_enabled = counters.time_enabled;
             outCounters->time_running = counters.time_running;
             for (size_t i=0 ; i<size_t(EVENT_COUNT) ; i++) {
                 if (mCountersFd[i] >= 0) {
                     outCounters->counters[i] = counters.counters[mIds[i]];
                 }
             }
         }
     }

 #else // !__linux__

     void reset() noexcept { }
     void start() noexcept { }
     void stop() noexcept { }
     void readCounters(Counters* counters) noexcept { }

 #endif // __linux__

     bool hasBranchRates() const noexcept {
         return (mCountersFd[BRANCHES] >= 0) && (mCountersFd[BRANCH_MISSES] >= 0);
     }

     bool hasICacheRates() const noexcept {
         return (mCountersFd[ICACHE_REFS] >= 0) && (mCountersFd[ICACHE_MISSES] >= 0);
     }

 private:
     Profiler() noexcept;
     ~Profiler() noexcept;

     std::array<uint8_t, EVENT_COUNT> mIds;
     std::array<int, EVENT_COUNT> mCountersFd;
     uint32_t mEnabledEvents = 0;
 };

 } // namespace utils

 #endif // TNT_UTILS_PROFILER_H
	/*
	* Copyright (C) 2016 The Android Open Source Project
	*
	* 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 TNT_UTILS_PROFILER_H
	#define TNT_UTILS_PROFILER_H

	#include <assert.h>
	#include <stdint.h>

	#include <array>
	#include <chrono>

	#if defined(__linux__)
	# include <unistd.h>
	# include <sys/ioctl.h>
	# include <linux/perf_event.h>
	#endif

	namespace utils {

	class Profiler {
	enum {
	INSTRUCTIONS = 0, // must be zero
	CPU_CYCLES = 1,
	DCACHE_REFS = 2,
	DCACHE_MISSES = 3,
	BRANCHES = 4,
	BRANCH_MISSES = 5,
	ICACHE_REFS = 6,
	ICACHE_MISSES = 7,

	// Must be last one
	EVENT_COUNT
	};

	public:

	enum {
	EV_CPU_CYCLES = 1 << CPU_CYCLES,
	EV_L1D_REFS = 1 << DCACHE_REFS,
	EV_L1D_MISSES = 1 << DCACHE_MISSES,
	EV_BPU_REFS = 1 << BRANCHES,
	EV_BPU_MISSES = 1 << BRANCH_MISSES,
	EV_L1I_REFS = 1 << ICACHE_REFS,
	EV_L1I_MISSES = 1 << ICACHE_MISSES,
	// helpers
	EV_L1D_RATES = EV_L1D_REFS \| EV_L1D_MISSES,
	EV_L1I_RATES = EV_L1I_REFS \| EV_L1I_MISSES,
	EV_BPU_RATES = EV_BPU_REFS \| EV_BPU_MISSES,
	};

	static Profiler& get() noexcept;


	Profiler(const Profiler& rhs) = delete;
	Profiler(Profiler&& rhs) = delete;
	Profiler& operator=(const Profiler& rhs) = delete;
	Profiler& operator=(Profiler&& rhs) = delete;

	// selects which events are enabled.
	// By Default: EV_CPU_CYCLES \| EV_L1D_RATES \| EV_BPU_RATES
	uint32_t resetEvents(uint32_t eventMask) noexcept;

	uint32_t getEnabledEvents() const noexcept { return mEnabledEvents; }

	// could return false if performance counters are not supported/enabled
	bool isValid() const { return mCountersFd[0] >= 0; }

	class Counters {
	friend class Profiler;
	uint64_t nr;
	uint64_t time_enabled;
	uint64_t time_running;
	struct {
	uint64_t value;
	uint64_t id;
	} counters[Profiler::EVENT_COUNT];

	friend Counters operator-(Counters lhs, const Counters& rhs) noexcept {
	lhs.nr -= rhs.nr;
	lhs.time_enabled -= rhs.time_enabled;
	lhs.time_running -= rhs.time_running;
	for (size_t i=0 ; i<EVENT_COUNT ; ++i) {
	lhs.counters[i].value -= rhs.counters[i].value;
	}
	return lhs;
	}

	public:
	uint64_t getInstructions() const { return counters[INSTRUCTIONS].value; }
	uint64_t getCpuCycles() const { return counters[CPU_CYCLES].value; }
	uint64_t getL1DReferences() const { return counters[DCACHE_REFS].value; }
	uint64_t getL1DMisses() const { return counters[DCACHE_MISSES].value; }
	uint64_t getL1IReferences() const { return counters[ICACHE_REFS].value; }
	uint64_t getL1IMisses() const { return counters[ICACHE_MISSES].value; }
	uint64_t getBranchInstructions() const { return counters[BRANCHES].value; }
	uint64_t getBranchMisses() const { return counters[BRANCH_MISSES].value; }

	std::chrono::duration<uint64_t, std::nano> getWallTime() const {
	return std::chrono::duration<uint64_t, std::nano>(time_enabled);
	}

	std::chrono::duration<uint64_t, std::nano> getRunningTime() const {
	return std::chrono::duration<uint64_t, std::nano>(time_running);
	}

	double getIPC() const noexcept {
	uint64_t cpuCycles = getCpuCycles();
	uint64_t instructions = getInstructions();
	return double(instructions) / double(cpuCycles);
	}

	double getCPI() const noexcept {
	uint64_t cpuCycles = getCpuCycles();
	uint64_t instructions = getInstructions();
	return double(cpuCycles) / double(instructions);
	}

	double getL1DMissRate() const noexcept {
	uint64_t cacheReferences = getL1DReferences();
	uint64_t cacheMisses = getL1DMisses();
	return double(cacheMisses) / double(cacheReferences);
	}

	double getL1DHitRate() const noexcept {
	return 1.0 - getL1DMissRate();
	}

	double getL1IMissRate() const noexcept {
	uint64_t cacheReferences = getL1IReferences();
	uint64_t cacheMisses = getL1IMisses();
	return double(cacheMisses) / double(cacheReferences);
	}

	double getL1IHitRate() const noexcept {
	return 1.0 - getL1IMissRate();
	}

	double getBranchMissRate() const noexcept {
	uint64_t branchReferences = getBranchInstructions();
	uint64_t branchMisses = getBranchMisses();
	return double(branchMisses) / double(branchReferences);
	}

	double getBranchHitRate() const noexcept {
	return 1.0 - getBranchMissRate();
	}

	double getMPKI(uint64_t misses) const noexcept {
	return (misses * 1000.0) / getInstructions();
	}

	};

	#if defined(__linux__)

	void reset() noexcept {
	int fd = mCountersFd[0];
	ioctl(fd, PERF_EVENT_IOC_RESET, PERF_IOC_FLAG_GROUP);
	}

	void start() noexcept {
	int fd = mCountersFd[0];
	ioctl(fd, PERF_EVENT_IOC_ENABLE, PERF_IOC_FLAG_GROUP);
	}

	void stop() noexcept {
	int fd = mCountersFd[0];
	ioctl(fd, PERF_EVENT_IOC_DISABLE, PERF_IOC_FLAG_GROUP);
	}

	void readCounters(Counters* outCounters) noexcept {
	Counters counters;
	ssize_t n = read(mCountersFd[0], &counters, sizeof(Counters));
	memset(outCounters, 0, sizeof(Counters));
	if (n > 0) {
	outCounters->nr = counters.nr;
	outCounters->time_enabled = counters.time_enabled;
	outCounters->time_running = counters.time_running;
	for (size_t i=0 ; i<size_t(EVENT_COUNT) ; i++) {
	if (mCountersFd[i] >= 0) {
	outCounters->counters[i] = counters.counters[mIds[i]];
	}
	}
	}
	}

	#else // !__linux__

	void reset() noexcept { }
	void start() noexcept { }
	void stop() noexcept { }
	void readCounters(Counters* counters) noexcept { }

	#endif // __linux__

	bool hasBranchRates() const noexcept {
	return (mCountersFd[BRANCHES] >= 0) && (mCountersFd[BRANCH_MISSES] >= 0);
	}

	bool hasICacheRates() const noexcept {
	return (mCountersFd[ICACHE_REFS] >= 0) && (mCountersFd[ICACHE_MISSES] >= 0);
	}

	private:
	Profiler() noexcept;
	~Profiler() noexcept;

	std::array<uint8_t, EVENT_COUNT> mIds;
	std::array<int, EVENT_COUNT> mCountersFd;
	uint32_t mEnabledEvents = 0;
	};

	} // namespace utils

	#endif // TNT_UTILS_PROFILER_H