PowerCounters-linux.cpp

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/* This Source Code Form is subject to the terms of the Mozilla Public

 * License, v. 2.0. If a copy of the MPL was not distributed with this

 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */

#include "PowerCounters.h"

#include "nsXULAppAPI.h"

#include "mozilla/Maybe.h"

#include "mozilla/Logging.h"

#include <sys/syscall.h>

#include <sys/ioctl.h>

#include <unistd.h>

#include <cerrno>

#include <cinttypes>

#include <cstdio>

#include <cstdlib>

#include <fstream>

#include <string>

#include <linux/perf_event.h>

// From the kernel rapl_scale() function:

//

// > users must then scale back: count * 1/(1e9*2^32) to get Joules

#define PERF_EVENT_SCALE_NANOJOULES 2.3283064365386962890625e-1

#define SCALE_NANOJOULES_TO_PICOWATTHOUR 3.6

#define SYSFS_PERF_POWER_TYPE_PATH "/sys/bus/event_source/devices/power/type"

static mozilla::LazyLogModule sRaplEventLog("profiler.rapl");

#define RAPL_LOG(...) \

  MOZ_LOG(sRaplEventLog, mozilla::LogLevel::Debug, (__VA_ARGS__));

enum class RaplEventType : uint64_t {

  RAPL_ENERGY_CORES = 0x01,

  RAPL_ENERGY_PKG = 0x02,

  RAPL_ENERGY_DRAM = 0x03,

  RAPL_ENERGY_GPU = 0x04,

  RAPL_ENERGY_PSYS = 0x05,

};

struct RaplDomain {

  RaplEventType mRaplEventType;

  const char* mLabel;

  const char* mDescription;

};

constexpr RaplDomain kSupportedRaplDomains[] = {

    {RaplEventType::RAPL_ENERGY_CORES, "Power: CPU cores",

     "Consumption of all physical cores"},

        RaplEventType::RAPL_ENERGY_PKG,

        "Power: CPU package",

        "Consumption of the whole processor package",

},

        RaplEventType::RAPL_ENERGY_DRAM,

        "Power: DRAM",

        "Consumption of the dram domain",

},

        RaplEventType::RAPL_ENERGY_GPU,

        "Power: iGPU",

        "Consumption of the builtin-gpu domain",

},

        RaplEventType::RAPL_ENERGY_PSYS,

        "Power: System",

        "Consumption of the builtin-psys domain",

}};

static std::string GetSysfsFileID(RaplEventType aEventType) {

  switch (aEventType) {

    case RaplEventType::RAPL_ENERGY_CORES:

      return "cores";

    case RaplEventType::RAPL_ENERGY_PKG:

      return "pkg";

    case RaplEventType::RAPL_ENERGY_DRAM:

      return "ram";

    case RaplEventType::RAPL_ENERGY_GPU:

      return "gpu";

    case RaplEventType::RAPL_ENERGY_PSYS:

      return "psys";

  return "";

static double GetRaplPerfEventScale(RaplEventType aEventType) {

  const std::string sysfsFileName =

      "/sys/bus/event_source/devices/power/events/energy-" +

      GetSysfsFileID(aEventType) + ".scale";

  std::ifstream sysfsFile(sysfsFileName);

  if (!sysfsFile) {

    return PERF_EVENT_SCALE_NANOJOULES;

  double scale;

  if (sysfsFile >> scale) {

    RAPL_LOG("Read scale from %s: %.22e", sysfsFileName.c_str(), scale);

    return scale * 1e9;

  return PERF_EVENT_SCALE_NANOJOULES;

static uint64_t GetRaplPerfEventConfig(RaplEventType aEventType) {

  const std::string sysfsFileName =

      "/sys/bus/event_source/devices/power/events/energy-" +

      GetSysfsFileID(aEventType);

  std::ifstream sysfsFile(sysfsFileName);

  if (!sysfsFile) {

    return static_cast<uint64_t>(aEventType);

  char buffer[7] = {};

  const std::string key = "event=";

  if (!sysfsFile.get(buffer, static_cast<std::streamsize>(key.length()) + 1) ||

      key != buffer) {

    return static_cast<uint64_t>(aEventType);

  uint64_t config;

  if (sysfsFile >> std::hex >> config) {

    RAPL_LOG("Read config from %s: 0x%" PRIx64, sysfsFileName.c_str(), config);

    return config;

  return static_cast<uint64_t>(aEventType);

class RaplProfilerCount final : public BaseProfilerCount {

 public:

  explicit RaplProfilerCount(int aPerfEventType,

                             const RaplEventType& aPerfEventConfig,

                             const char* aLabel, const char* aDescription)

      : BaseProfilerCount(aLabel, nullptr, nullptr, "power", aDescription),

        mLastResult(0),

        mPerfEventFd(-1) {

    RAPL_LOG("Creating RAPL Event for type: %s", mLabel);

    // Optimize for ease of use and do not set an excludes value. This

    // ensures we do not require PERF_PMU_CAP_NO_EXCLUDE.

    struct perf_event_attr attr = {0};

    memset(&attr, 0, sizeof(attr));

    attr.type = aPerfEventType;

    attr.size = sizeof(struct perf_event_attr);

    attr.config = GetRaplPerfEventConfig(aPerfEventConfig);

    attr.sample_period = 0;

    attr.sample_type = PERF_SAMPLE_IDENTIFIER;

    attr.inherit = 1;

    RAPL_LOG("Config for event %s: 0x%llx", mLabel, attr.config);

    mEventScale = GetRaplPerfEventScale(aPerfEventConfig);

    RAPL_LOG("Scale for event %s: %.22e", mLabel, mEventScale);

    long fd = syscall(__NR_perf_event_open, &attr, -1, 0, -1, 0);

    if (fd < 0) {

      RAPL_LOG("Event descriptor creation failed for event: %s", mLabel);

      mPerfEventFd = -1;

      return;

    RAPL_LOG("Created descriptor for event: %s", mLabel)

    mPerfEventFd = static_cast<int>(fd);

  ~RaplProfilerCount() {

    if (ValidPerfEventFd()) {

      ioctl(mPerfEventFd, PERF_EVENT_IOC_DISABLE, 0);

      close(mPerfEventFd);

  RaplProfilerCount(const RaplProfilerCount&) = delete;

  RaplProfilerCount& operator=(const RaplProfilerCount&) = delete;

  CountSample Sample() override {

    CountSample result = {

        .count = 0,

        .number = 0,

        .isSampleNew = false,

};

    mozilla::Maybe<uint64_t> raplEventResult = ReadEventFd();

    if (raplEventResult.isNothing()) {

      return result;

    // We need to return picowatthour to be consistent with the Windows

    // EMI API. As a result, the scale calculation should:

//

    //  - Convert the returned value to nanojoules

    //  - Convert nanojoules to picowatthour

    double nanojoules =

        static_cast<double>(raplEventResult.value()) * mEventScale;

    double picowatthours = nanojoules / SCALE_NANOJOULES_TO_PICOWATTHOUR;

    RAPL_LOG("Sample %s { count: %lu, last-result: %lu } = %lfJ", mLabel,

             raplEventResult.value(), mLastResult, nanojoules * 1e-9);

    result.count = static_cast<int64_t>(picowatthours);

    // If the tick count is the same as the returned value or if this is the

    // first sample, treat this sample as a duplicate.

    result.isSampleNew =

        (mLastResult != 0 && mLastResult != raplEventResult.value() &&

         result.count >= 0);

    mLastResult = raplEventResult.value();

    return result;

  bool ValidPerfEventFd() { return mPerfEventFd >= 0; }

 private:

  mozilla::Maybe<uint64_t> ReadEventFd() {

    MOZ_ASSERT(ValidPerfEventFd());

    uint64_t eventResult;

    ssize_t readBytes = read(mPerfEventFd, &eventResult, sizeof(uint64_t));

    if (readBytes != sizeof(uint64_t)) {

      RAPL_LOG("Invalid RAPL event read size: %ld", readBytes);

      return mozilla::Nothing();

    return mozilla::Some(eventResult);

  uint64_t mLastResult;

  int mPerfEventFd;

  double mEventScale;

};

static int GetRaplPerfEventType() {

  FILE* fp = fopen(SYSFS_PERF_POWER_TYPE_PATH, "r");

  if (!fp) {

    RAPL_LOG("Open of " SYSFS_PERF_POWER_TYPE_PATH " failed");

    return -1;

  int readTypeValue = -1;

  if (fscanf(fp, "%d", &readTypeValue) != 1) {

    RAPL_LOG("Read of " SYSFS_PERF_POWER_TYPE_PATH " failed");

  fclose(fp);

  return readTypeValue;

PowerCounters::PowerCounters() {

  if (!XRE_IsParentProcess()) {

    // Energy meters are global, so only sample them on the parent.

    return;

  // Get the value perf_event_attr.type should be set to for RAPL

  // perf events.

  int perfEventType = GetRaplPerfEventType();

  if (perfEventType < 0) {

    RAPL_LOG("Failed to find the event type for RAPL perf events.");

    return;

  for (const auto& raplEventDomain : kSupportedRaplDomains) {

    RaplProfilerCount* raplEvent = new RaplProfilerCount(

        perfEventType, raplEventDomain.mRaplEventType, raplEventDomain.mLabel,

        raplEventDomain.mDescription);

    if (!raplEvent->ValidPerfEventFd() || !mCounters.emplaceBack(raplEvent)) {

      delete raplEvent;