metrics/metrics_daemon.h - mirrors/cros/chromiumos/platform2 - Git at Google

 // Copyright (c) 2010 The Chromium OS 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 METRICS_METRICS_DAEMON_H_
 #define METRICS_METRICS_DAEMON_H_

 #include <stdint.h>

 #include <map>
 #include <memory>
 #include <string>
 #include <vector>

 #include <base/files/file_path.h>
 #include <base/time/time.h>
 #include <brillo/daemons/dbus_daemon.h>
 #include <gtest/gtest_prod.h>  // for FRIEND_TEST

 #include "metrics/metrics_library.h"
 #include "metrics/persistent_integer.h"
 #include "metrics/process_meter.h"
 #include "metrics/vmlog_writer.h"
 #include "uploader/upload_service.h"

 namespace chromeos_metrics {

 class MetricsDaemon : public brillo::DBusDaemon {
  public:
   MetricsDaemon();
   MetricsDaemon(const MetricsDaemon&) = delete;
   MetricsDaemon& operator=(const MetricsDaemon&) = delete;

   ~MetricsDaemon();

   // Initializes metrics class variables.
   void Init(bool testing,
             bool uploader_active,
             MetricsLibraryInterface* metrics_lib,
             const std::string& diskstats_path,
             const std::string& vmstats_path,
             const std::string& cpuinfo_max_freq_path,
             const std::string& scaling_max_freq_path,
             const base::TimeDelta& upload_interval,
             const std::string& server,
             const std::string& metrics_file,
             const std::string& config_root,
             const base::FilePath& persistent_dir_path);

   // Initializes DBus and MessageLoop variables before running the MessageLoop.
   int OnInit() override;

   // Clean up data set up in OnInit before shutting down message loop.
   void OnShutdown(int* return_code) override;

   // Does all the work.
   int Run() override;

   // Triggers an upload event and exit. (Used to test UploadService)
   void RunUploaderTest();

   // Sets the base component of the path used to read thermal zone files.
   // See member variable |zone_path_base_| for example usage.
   void SetThermalZonePathBaseForTest(const base::FilePath& path);

   // Components of path to temperature logging files in sysfs.
   static constexpr char kSysfsThermalZoneFormat[] = "thermal_zone%d";
   static constexpr char kSysfsTemperatureValueFile[] = "temp";
   static constexpr char kSysfsTemperatureTypeFile[] = "type";

   // UMA Metrics used to report temperature data.
   static constexpr char kMetricTemperatureCpuName[] =
       "Platform.Thermal.Temperature.Cpu.0";
   static constexpr char kMetricTemperatureZeroName[] =
       "Platform.Temperature.Sensor00";
   static constexpr char kMetricTemperatureOneName[] =
       "Platform.Temperature.Sensor01";
   static constexpr char kMetricTemperatureTwoName[] =
       "Platform.Temperature.Sensor02";

   // Maximum temperature value to be reported to UMA.
   static constexpr int kMetricTemperatureMax = 100;  // degrees Celsius

   // Minimum time spent suspended in order to consider the sensor temperatures
   // measured at resume "ambient" (i.e. not influenced by the device) and
   // report them to UMA.
   static constexpr base::TimeDelta kMinSuspendDurationForAmbientTemperature =
       base::TimeDelta::FromMinutes(30);

   // UMA Metrics used to report temperature data when resuming from a suspend
   // that exceeds the minimum duration.
   static constexpr char kMetricSuspendedTemperatureCpuName[] =
       "Platform.Thermal.Temperature.Cpu.0.WhileSuspended";
   static constexpr char kMetricSuspendedTemperatureZeroName[] =
       "Platform.Temperature.Sensor00.WhileSuspended";
   static constexpr char kMetricSuspendedTemperatureOneName[] =
       "Platform.Temperature.Sensor01.WhileSuspended";
   static constexpr char kMetricSuspendedTemperatureTwoName[] =
       "Platform.Temperature.Sensor02.WhileSuspended";

  protected:
   // Used also by the unit tests.
   static const char kComprDataSizeName[];
   static const char kOrigDataSizeName[];
   static const char kZeroPagesName[];
   static const char kMMStatName[];

  private:
   friend class MetricsDaemonTest;
   FRIEND_TEST(MetricsDaemonTest, CheckSystemCrash);
   FRIEND_TEST(MetricsDaemonTest, ComputeEpochNoCurrent);
   FRIEND_TEST(MetricsDaemonTest, ComputeEpochNoLast);
   FRIEND_TEST(MetricsDaemonTest, GetHistogramPath);
   FRIEND_TEST(MetricsDaemonTest, IsNewEpoch);
   FRIEND_TEST(MetricsDaemonTest, MessageFilter);
   FRIEND_TEST(MetricsDaemonTest, ProcessKernelCrash);
   FRIEND_TEST(MetricsDaemonTest, ProcessMeminfo);
   FRIEND_TEST(MetricsDaemonTest, ProcessMeminfo2);
   FRIEND_TEST(MetricsDaemonTest, ProcessUncleanShutdown);
   FRIEND_TEST(MetricsDaemonTest, ProcessUserCrash);
   FRIEND_TEST(MetricsDaemonTest, ReportCrashesDailyFrequency);
   FRIEND_TEST(MetricsDaemonTest, ReadFreqToInt);
   FRIEND_TEST(MetricsDaemonTest, ReportDiskStats);
   FRIEND_TEST(MetricsDaemonTest, ReportKernelCrashInterval);
   FRIEND_TEST(MetricsDaemonTest, ReportUncleanShutdownInterval);
   FRIEND_TEST(MetricsDaemonTest, ReportUserCrashInterval);
   FRIEND_TEST(MetricsDaemonTest, SendSample);
   FRIEND_TEST(MetricsDaemonTest, SendCpuThrottleMetrics);
   FRIEND_TEST(MetricsDaemonTest, SendTemperatureSamplesAlternative);
   FRIEND_TEST(MetricsDaemonTest, SendTemperatureSamplesBasic);
   FRIEND_TEST(MetricsDaemonTest, SendTemperatureSamplesReadError);
   FRIEND_TEST(MetricsDaemonTest, SendTemperatureAtResume);
   FRIEND_TEST(MetricsDaemonTest, DoNotSendTemperatureShortResume);
   FRIEND_TEST(MetricsDaemonTest, SendZramMetrics);
   FRIEND_TEST(MetricsDaemonTest, SendZramMetricsOld);
   FRIEND_TEST(MetricsDaemonTest, SendZramMetricsWithIncompressiblePageStats);
   FRIEND_TEST(MetricsDaemonTest, GetDetachableBaseTimes);
   FRIEND_TEST(MetricsDaemonTest, UpdateUsageStats);
   FRIEND_TEST(MetricsDaemonTest, RoundsDailyUseIfJustOverOneDay);

   // State for disk stats collector callback.
   enum StatsState {
     kStatsShort,  // short wait before short interval collection
     kStatsLong,   // final wait before new collection
   };

   // Data record for aggregating daily usage.
   class UseRecord {
    public:
     UseRecord() : day_(0), seconds_(0) {}
     int day_;
     int seconds_;
   };

   // Type of scale to use for meminfo histograms.  For most of them we use
   // percent of total RAM, but for some we use absolute numbers, usually in
   // megabytes, on a log scale from 0 to 4000, and 0 to 8000 for compressed
   // swap (since it can be larger than total RAM).
   enum MeminfoOp {
     kMeminfoOp_HistPercent = 0,
     kMeminfoOp_HistLog,
     kMeminfoOp_SwapTotal,
     kMeminfoOp_SwapFree,
     kMeminfoOp_Anon,
     kMeminfoOp_File,
   };

   // Record for retrieving and reporting values from /proc/meminfo.
   struct MeminfoRecord {
     const char* name;   // print name
     const char* match;  // string to match in output of /proc/meminfo
     MeminfoOp op;       // histogram scale selector, or other operator
     int value;          // value from /proc/meminfo
   };

   // Metric parameters.
   static const char kMetricReadSectorsLongName[];
   static const char kMetricReadSectorsShortName[];
   static const char kMetricWriteSectorsLongName[];
   static const char kMetricWriteSectorsShortName[];
   static const char kMetricPageFaultsShortName[];
   static const char kMetricPageFaultsLongName[];
   static const char kMetricFilePageFaultsShortName[];
   static const char kMetricFilePageFaultsLongName[];
   static const char kMetricAnonPageFaultsShortName[];
   static const char kMetricAnonPageFaultsLongName[];
   static const char kMetricSwapInDailyName[];
   static const char kMetricSwapInLongName[];
   static const char kMetricSwapInShortName[];
   static const char kMetricSwapOutDailyName[];
   static const char kMetricSwapOutLongName[];
   static const char kMetricSwapOutShortName[];
   static const char kMetricScaledCpuFrequencyName[];
   static const int kMetricStatsShortInterval;
   static const int kMetricStatsLongInterval;
   static const int kMetricMeminfoInterval;
   static const base::TimeDelta kMetricReportProcessMemoryInterval;
   static const int kMetricDetachableBaseInterval;
   static const int kMetricSectorsIOMax;
   static const int kMetricSectorsBuckets;
   static const int kMetricPageFaultsMax;
   static const int kMetricPageFaultsBuckets;
   static const int kMetricDailySwapMax;
   static const int kMetricDailySwapBuckets;
   static const char kMetricsDiskStatsPath[];
   static const char kMetricsVmStatsPath[];
   static const char kMetricsProcStatFileName[];
   static const int kMetricsProcStatFirstLineItemsCount;
   static const char kMetricDetachableBaseActivePercentName[];
   static const char kMetricCroutonStarted[];

   // Detachable base USB autosuspend sysfs entries.
   //
   // udev detects the base; hammerd validates, updates, enables
   // USB autosuspend, and writes the sysfs path to /var/cache for
   // consumption by other programs.  ("hammer" is the code name of
   // the original device in this class.)
   static const char kHammerSysfsPathPath[];
   static const char kDetachableBaseSysfsLevelName[];
   static const char kDetachableBaseSysfsLevelValue[];
   static const char kDetachableBaseSysfsActiveTimeName[];
   static const char kDetachableBaseSysfsSuspendedTimeName[];

   // Returns the active time since boot (uptime minus sleep time) in seconds.
   double GetActiveTime();

   // D-Bus filter callback.
   static DBusHandlerResult MessageFilter(DBusConnection* connection,
                                          DBusMessage* message,
                                          void* user_data);

   // Updates the active use time and logs time between user-space
   // process crashes.
   void ProcessUserCrash();

   // Updates the active use time and logs time between kernel crashes.
   void ProcessKernelCrash();

   // Updates the active use time and logs time between unclean shutdowns.
   void ProcessUncleanShutdown();

   // Checks if a kernel crash has been detected and returns true if
   // so.  The method assumes that a kernel crash has happened if
   // |crash_file| exists.  It removes the file immediately if it
   // exists, so it must not be called more than once.
   bool CheckSystemCrash(const std::string& crash_file);

   // Sends a regular (exponential) histogram sample to Chrome for
   // transport to UMA. See MetricsLibrary::SendToUMA in
   // metrics_library.h for a description of the arguments.
   void SendSample(
       const std::string& name, int sample, int min, int max, int nbuckets);

   // Sends a linear histogram sample to Chrome for transport to UMA. See
   // MetricsLibrary::SendToUMA in metrics_library.h for a description of the
   // arguments.
   void SendLinearSample(const std::string& name,
                         int sample,
                         int max,
                         int nbuckets);

   // Sends various cumulative kernel crash-related stats, for instance the
   // total number of kernel crashes since the last version update.
   void SendKernelCrashesCumulativeCountStats();

   // Sends stat about crouton usage
   void SendCroutonStats();

   // Returns the total (system-wide) CPU usage between the time of the most
   // recent call to this function and now.
   base::TimeDelta GetIncrementalCpuUse();

   // Sends a sample representing the number of seconds of active use
   // for a 24-hour period and reset |use|.
   void SendAndResetDailyUseSample();

   // Sends a sample representing a time interval between two crashes of the
   // same type and reset |interval|.
   void SendAndResetCrashIntervalSample(
       const std::unique_ptr<PersistentInteger>& interval,
       const std::string& name);

   // Sends a sample representing a frequency of crashes of some type and reset
   // |frequency|.
   void SendAndResetCrashFrequencySample(
       const std::unique_ptr<PersistentInteger>& frequency,
       const std::string& name);

   // Sends stats representing the difference in vmstat values after a day, and
   // then resets the starting values.
   void SendAndResetDailyVmstats();

   // Initializes vm and disk stats reporting.
   void StatsReporterInit();

   // Schedules a callback for the next vm and disk stats collection.
   void ScheduleStatsCallback(int wait);

   // Reads cumulative disk statistics from sysfs.  Returns true for success.
   bool DiskStatsReadStats(uint64_t* read_sectors, uint64_t* write_sectors);

   // Reads cumulative vm statistics from procfs.  Returns true for success.
   bool VmStatsReadStats(struct VmstatRecord* stats);

   // Reads current temperature values from sysfs and returns as a map.
   // Keys are contents of temperature_zone 'type' file.
   // Values are contents of temperature_zone 'temp' file in millidegrees C.
   std::map<std::string, uint64_t> ReadSensorTemperatures();

   // Fetches current temperatures from sysfs and sends to UMA.
   void SendTemperatureSamples();

   // Method called when kSuspendDoneSignal is received from powerd.
   // Handles reporting of temperature during suspend.
   void HandleSuspendDone(dbus::Signal* signal);

   // Reports disk and vm statistics.
   void StatsCallback();

   // Schedules meminfo collection callback.
   void ScheduleMeminfoCallback(int wait);

   // Reports memory statistics.  Reschedules callback on success.
   void MeminfoCallback(base::TimeDelta wait);

   // Schedules the initial process memory stats collection.  |interval| is the
   // delay before the first collection and between further collections.
   void ScheduleReportProcessMemory(base::TimeDelta interval);

   // Runs ReportProcessMemory every |interval| time delta.
   void ReportProcessMemoryCallback(base::TimeDelta interval);

   // Classifies all processes into groups and reports the sum of their memory
   // usage (total, anon, file, and shmem).
   void ReportProcessMemory();

   // Sends uma samples for memory usage of a group of processes.
   void ReportProcessGroupStats(const char* const uma_names[MEM_KINDS_COUNT],
                                const ProcessMemoryStats& stats);

   // Schedules detachable base collection callback.
   void ScheduleDetachableBaseCallback(int wait);

   // Reports detachable base statistics.  Reschedules callback on success.
   void DetachableBaseCallback(const base::FilePath sysfs_path_path,
                               base::TimeDelta wait);

   // Retrieves current active and suspended times for detachable base.
   // active_time and suspended_time are only valid if the function returns true.
   bool GetDetachableBaseTimes(const base::FilePath sysfs_path_path,
                               uint64_t* active_time,
                               uint64_t* suspended_time);

   // Parses content of /proc/meminfo and sends fields of interest to UMA.
   // Returns false on errors.  |meminfo_raw| contains the content of
   // /proc/meminfo.
   bool ProcessMeminfo(const std::string& meminfo_raw);

   // Parses meminfo data from |meminfo_raw|.  |fields| is a vector containing
   // the fields of interest.  The order of the fields must be the same in which
   // /proc/meminfo prints them.  The result of parsing fields[i] is placed in
   // fields[i].value.
   bool FillMeminfo(const std::string& meminfo_raw,
                    std::vector<MeminfoRecord>* fields);

   // Schedule a memory use callback in |interval| seconds.
   void ScheduleMemuseCallback(double interval);

   // Calls MemuseCallbackWork, and possibly schedules next callback, if enough
   // active time has passed.  Otherwise reschedules itself to simulate active
   // time callbacks (i.e. wall clock time minus sleep time).
   void MemuseCallback();

   // Reads /proc/meminfo and sends total anonymous memory usage to UMA.
   bool MemuseCallbackWork();

   // Parses meminfo data and sends it to UMA.
   bool ProcessMemuse(const std::string& meminfo_raw);

   // Sends stats for thermal CPU throttling.
   void SendCpuThrottleMetrics();

   // Reads an integer CPU frequency value from sysfs.
   bool ReadFreqToInt(const std::string& sysfs_file_name, int* value);

   // Reads the current OS version from /etc/lsb-release and hashes it
   // to a unsigned 32-bit int.
   uint32_t GetOsVersionHash();

   // Returns true if the system is using an official build.
   bool IsOnOfficialBuild() const;

   // Updates stats, additionally sending them to UMA if enough time has elapsed
   // since the last report.
   void UpdateStats(base::TimeTicks now_ticks, base::Time now_wall_time);

   // Invoked periodically by |update_stats_timeout_id_| to call UpdateStats().
   void HandleUpdateStatsTimeout();

   // Reports zram statistics.
   bool ReportZram(const base::FilePath& zram_dir);

   // Reads a string from a file and converts it to uint64_t.
   static bool ReadFileToUint64(const base::FilePath& path,
                                uint64_t* value,
                                bool warn_on_read_failure = true);

   // Reads zram stat.
   static bool ReadZramStat(const base::FilePath& zram_dir,
                            uint64_t* compr_data_size_out,
                            uint64_t* orig_data_size_out,
                            uint64_t* zero_pages_out,
                            uint64_t* incompr_pages_out);

   // VARIABLES

   // Test mode.
   bool testing_;

   // Whether the uploader is enabled or disabled.
   bool uploader_active_;

   // Root of the configuration files to use.
   std::string config_root_;

   // The metrics library handle.
   MetricsLibraryInterface* metrics_lib_;

   // Timestamps last network state update.  This timestamp is used to
   // sample the time from the network going online to going offline so
   // TimeTicks ensures a monotonically increasing TimeDelta.
   base::TimeTicks network_state_last_;

   // The last time that UpdateStats() was called.
   base::TimeTicks last_update_stats_time_;

   // End time of current memuse stat collection interval.
   double memuse_final_time_;

   // Selects the wait time for the next memory use callback.
   unsigned int memuse_interval_index_;

   // Contain the most recent disk and vm cumulative stats.
   uint64_t read_sectors_;
   uint64_t write_sectors_;
   struct VmstatRecord vmstats_;

   StatsState stats_state_;
   double stats_initial_time_;

   // The system "HZ", or frequency of ticks.  Some system data uses ticks as a
   // unit, and this is used to convert to standard time units.
   uint32_t ticks_per_second_;
   // Used internally by GetIncrementalCpuUse() to return the CPU utilization
   // between calls.
   uint64_t latest_cpu_use_ticks_;

   // Keeps track of the last active and suspended times for detachable
   // base autosuspend.  Active and suspended states are toggled by an
   // autosuspend idle time.
   uint64_t detachable_base_active_time_;
   uint64_t detachable_base_suspended_time_;

   // Persistent values and accumulators for crash statistics.
   std::unique_ptr<PersistentInteger> daily_cycle_;
   std::unique_ptr<PersistentInteger> weekly_cycle_;
   std::unique_ptr<PersistentInteger> version_cycle_;

   // Active use accumulated in a day.
   std::unique_ptr<PersistentInteger> daily_active_use_;
   // Active use accumulated since the latest version update.
   std::unique_ptr<PersistentInteger> version_cumulative_active_use_;

   // The CPU time accumulator.  This contains the CPU time, in milliseconds,
   // used by the system since the most recent OS version update.
   std::unique_ptr<PersistentInteger> version_cumulative_cpu_use_;

   std::unique_ptr<PersistentInteger> user_crash_interval_;
   std::unique_ptr<PersistentInteger> kernel_crash_interval_;
   std::unique_ptr<PersistentInteger> unclean_shutdown_interval_;

   std::unique_ptr<PersistentInteger> any_crashes_daily_count_;
   std::unique_ptr<PersistentInteger> any_crashes_weekly_count_;
   std::unique_ptr<PersistentInteger> user_crashes_daily_count_;
   std::unique_ptr<PersistentInteger> user_crashes_weekly_count_;
   std::unique_ptr<PersistentInteger> kernel_crashes_daily_count_;
   std::unique_ptr<PersistentInteger> kernel_crashes_weekly_count_;
   std::unique_ptr<PersistentInteger> kernel_crashes_version_count_;
   std::unique_ptr<PersistentInteger> unclean_shutdowns_daily_count_;
   std::unique_ptr<PersistentInteger> unclean_shutdowns_weekly_count_;

   struct VmstatRecord vmstats_daily_start;
   bool vmstats_daily_success;

   std::string diskstats_path_;
   std::string vmstats_path_;
   std::string scaling_max_freq_path_;
   std::string cpuinfo_max_freq_path_;

   // The base component used to read from thermal zone paths
   // An example thermal zone path would be:
   //   '/sys/class/thermal/thermal_zone0/temp'
   // This base path would be the portion before the thermal_zone:
   //   '/sys/class/thermal/'
   // This will primarily be changed for testing purposes, see
   // SetThermalZonePathBaseForTest(base::FilePath).
   base::FilePath zone_path_base_;

   // In the sysfs directory '/sys/class/thermal/' there are multiple thermal
   // zones, starting at 0, for example '/sys/class/thermal/thermal_zone0',
   // '/sys/class/thermal/thermal_zone1', etc.
   // thermal_zone_count_ is the total number of these zones, so if
   // thermal_zone_count_ is 3, then thermal_zone0, thermal_zone1, and
   // thermal_zone2 should all exist, while thermal_zone3 should not.
   // This is initialized to -1, meaning that the first attempt to read
   // thermal_zones will try zones until failure and then update the count.
   int32_t thermal_zone_count_;

   // If index i is true, it means that we have already printed an error message
   // for a failed read from thermal_zone i, and should not print one again.
   // This helps reduce log spam from metrics_daemon.
   // Even if it fails, we will still attempt reading from the thermal_zone.
   // Once it has succeeded again, index i will be reset to false.
   std::vector<bool> thermal_zone_read_failure_notified_;

   base::TimeDelta upload_interval_;
   std::string server_;
   std::string metrics_file_;

   std::unique_ptr<UploadService> upload_service_;
   std::unique_ptr<VmlogWriter> vmlog_writer_;

   // The backing directory for persistent integers.
   base::FilePath backing_dir_;
 };

 }  // namespace chromeos_metrics

 #endif  // METRICS_METRICS_DAEMON_H_
	// Copyright (c) 2010 The Chromium OS 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 METRICS_METRICS_DAEMON_H_
	#define METRICS_METRICS_DAEMON_H_

	#include <stdint.h>

	#include <map>
	#include <memory>
	#include <string>
	#include <vector>

	#include <base/files/file_path.h>
	#include <base/time/time.h>
	#include <brillo/daemons/dbus_daemon.h>
	#include <gtest/gtest_prod.h> // for FRIEND_TEST

	#include "metrics/metrics_library.h"
	#include "metrics/persistent_integer.h"
	#include "metrics/process_meter.h"
	#include "metrics/vmlog_writer.h"
	#include "uploader/upload_service.h"

	namespace chromeos_metrics {

	class MetricsDaemon : public brillo::DBusDaemon {
	public:
	MetricsDaemon();
	MetricsDaemon(const MetricsDaemon&) = delete;
	MetricsDaemon& operator=(const MetricsDaemon&) = delete;

	~MetricsDaemon();

	// Initializes metrics class variables.
	void Init(bool testing,
	bool uploader_active,
	MetricsLibraryInterface* metrics_lib,
	const std::string& diskstats_path,
	const std::string& vmstats_path,
	const std::string& cpuinfo_max_freq_path,
	const std::string& scaling_max_freq_path,
	const base::TimeDelta& upload_interval,
	const std::string& server,
	const std::string& metrics_file,
	const std::string& config_root,
	const base::FilePath& persistent_dir_path);

	// Initializes DBus and MessageLoop variables before running the MessageLoop.
	int OnInit() override;

	// Clean up data set up in OnInit before shutting down message loop.
	void OnShutdown(int* return_code) override;

	// Does all the work.
	int Run() override;

	// Triggers an upload event and exit. (Used to test UploadService)
	void RunUploaderTest();

	// Sets the base component of the path used to read thermal zone files.
	// See member variable \|zone_path_base_\| for example usage.
	void SetThermalZonePathBaseForTest(const base::FilePath& path);

	// Components of path to temperature logging files in sysfs.
	static constexpr char kSysfsThermalZoneFormat[] = "thermal_zone%d";
	static constexpr char kSysfsTemperatureValueFile[] = "temp";
	static constexpr char kSysfsTemperatureTypeFile[] = "type";

	// UMA Metrics used to report temperature data.
	static constexpr char kMetricTemperatureCpuName[] =
	"Platform.Thermal.Temperature.Cpu.0";
	static constexpr char kMetricTemperatureZeroName[] =
	"Platform.Temperature.Sensor00";
	static constexpr char kMetricTemperatureOneName[] =
	"Platform.Temperature.Sensor01";
	static constexpr char kMetricTemperatureTwoName[] =
	"Platform.Temperature.Sensor02";

	// Maximum temperature value to be reported to UMA.
	static constexpr int kMetricTemperatureMax = 100; // degrees Celsius

	// Minimum time spent suspended in order to consider the sensor temperatures
	// measured at resume "ambient" (i.e. not influenced by the device) and
	// report them to UMA.
	static constexpr base::TimeDelta kMinSuspendDurationForAmbientTemperature =
	base::TimeDelta::FromMinutes(30);

	// UMA Metrics used to report temperature data when resuming from a suspend
	// that exceeds the minimum duration.
	static constexpr char kMetricSuspendedTemperatureCpuName[] =
	"Platform.Thermal.Temperature.Cpu.0.WhileSuspended";
	static constexpr char kMetricSuspendedTemperatureZeroName[] =
	"Platform.Temperature.Sensor00.WhileSuspended";
	static constexpr char kMetricSuspendedTemperatureOneName[] =
	"Platform.Temperature.Sensor01.WhileSuspended";
	static constexpr char kMetricSuspendedTemperatureTwoName[] =
	"Platform.Temperature.Sensor02.WhileSuspended";

	protected:
	// Used also by the unit tests.
	static const char kComprDataSizeName[];
	static const char kOrigDataSizeName[];
	static const char kZeroPagesName[];
	static const char kMMStatName[];

	private:
	friend class MetricsDaemonTest;
	FRIEND_TEST(MetricsDaemonTest, CheckSystemCrash);
	FRIEND_TEST(MetricsDaemonTest, ComputeEpochNoCurrent);
	FRIEND_TEST(MetricsDaemonTest, ComputeEpochNoLast);
	FRIEND_TEST(MetricsDaemonTest, GetHistogramPath);
	FRIEND_TEST(MetricsDaemonTest, IsNewEpoch);
	FRIEND_TEST(MetricsDaemonTest, MessageFilter);
	FRIEND_TEST(MetricsDaemonTest, ProcessKernelCrash);
	FRIEND_TEST(MetricsDaemonTest, ProcessMeminfo);
	FRIEND_TEST(MetricsDaemonTest, ProcessMeminfo2);
	FRIEND_TEST(MetricsDaemonTest, ProcessUncleanShutdown);
	FRIEND_TEST(MetricsDaemonTest, ProcessUserCrash);
	FRIEND_TEST(MetricsDaemonTest, ReportCrashesDailyFrequency);
	FRIEND_TEST(MetricsDaemonTest, ReadFreqToInt);
	FRIEND_TEST(MetricsDaemonTest, ReportDiskStats);
	FRIEND_TEST(MetricsDaemonTest, ReportKernelCrashInterval);
	FRIEND_TEST(MetricsDaemonTest, ReportUncleanShutdownInterval);
	FRIEND_TEST(MetricsDaemonTest, ReportUserCrashInterval);
	FRIEND_TEST(MetricsDaemonTest, SendSample);
	FRIEND_TEST(MetricsDaemonTest, SendCpuThrottleMetrics);
	FRIEND_TEST(MetricsDaemonTest, SendTemperatureSamplesAlternative);
	FRIEND_TEST(MetricsDaemonTest, SendTemperatureSamplesBasic);
	FRIEND_TEST(MetricsDaemonTest, SendTemperatureSamplesReadError);
	FRIEND_TEST(MetricsDaemonTest, SendTemperatureAtResume);
	FRIEND_TEST(MetricsDaemonTest, DoNotSendTemperatureShortResume);
	FRIEND_TEST(MetricsDaemonTest, SendZramMetrics);
	FRIEND_TEST(MetricsDaemonTest, SendZramMetricsOld);
	FRIEND_TEST(MetricsDaemonTest, SendZramMetricsWithIncompressiblePageStats);
	FRIEND_TEST(MetricsDaemonTest, GetDetachableBaseTimes);
	FRIEND_TEST(MetricsDaemonTest, UpdateUsageStats);
	FRIEND_TEST(MetricsDaemonTest, RoundsDailyUseIfJustOverOneDay);

	// State for disk stats collector callback.
	enum StatsState {
	kStatsShort, // short wait before short interval collection
	kStatsLong, // final wait before new collection
	};

	// Data record for aggregating daily usage.
	class UseRecord {
	public:
	UseRecord() : day_(0), seconds_(0) {}
	int day_;
	int seconds_;
	};

	// Type of scale to use for meminfo histograms. For most of them we use
	// percent of total RAM, but for some we use absolute numbers, usually in
	// megabytes, on a log scale from 0 to 4000, and 0 to 8000 for compressed
	// swap (since it can be larger than total RAM).
	enum MeminfoOp {
	kMeminfoOp_HistPercent = 0,
	kMeminfoOp_HistLog,
	kMeminfoOp_SwapTotal,
	kMeminfoOp_SwapFree,
	kMeminfoOp_Anon,
	kMeminfoOp_File,
	};

	// Record for retrieving and reporting values from /proc/meminfo.
	struct MeminfoRecord {
	const char* name; // print name
	const char* match; // string to match in output of /proc/meminfo
	MeminfoOp op; // histogram scale selector, or other operator
	int value; // value from /proc/meminfo
	};

	// Metric parameters.
	static const char kMetricReadSectorsLongName[];
	static const char kMetricReadSectorsShortName[];
	static const char kMetricWriteSectorsLongName[];
	static const char kMetricWriteSectorsShortName[];
	static const char kMetricPageFaultsShortName[];
	static const char kMetricPageFaultsLongName[];
	static const char kMetricFilePageFaultsShortName[];
	static const char kMetricFilePageFaultsLongName[];
	static const char kMetricAnonPageFaultsShortName[];
	static const char kMetricAnonPageFaultsLongName[];
	static const char kMetricSwapInDailyName[];
	static const char kMetricSwapInLongName[];
	static const char kMetricSwapInShortName[];
	static const char kMetricSwapOutDailyName[];
	static const char kMetricSwapOutLongName[];
	static const char kMetricSwapOutShortName[];
	static const char kMetricScaledCpuFrequencyName[];
	static const int kMetricStatsShortInterval;
	static const int kMetricStatsLongInterval;
	static const int kMetricMeminfoInterval;
	static const base::TimeDelta kMetricReportProcessMemoryInterval;
	static const int kMetricDetachableBaseInterval;
	static const int kMetricSectorsIOMax;
	static const int kMetricSectorsBuckets;
	static const int kMetricPageFaultsMax;
	static const int kMetricPageFaultsBuckets;
	static const int kMetricDailySwapMax;
	static const int kMetricDailySwapBuckets;
	static const char kMetricsDiskStatsPath[];
	static const char kMetricsVmStatsPath[];
	static const char kMetricsProcStatFileName[];
	static const int kMetricsProcStatFirstLineItemsCount;
	static const char kMetricDetachableBaseActivePercentName[];
	static const char kMetricCroutonStarted[];

	// Detachable base USB autosuspend sysfs entries.
	//
	// udev detects the base; hammerd validates, updates, enables
	// USB autosuspend, and writes the sysfs path to /var/cache for
	// consumption by other programs. ("hammer" is the code name of
	// the original device in this class.)
	static const char kHammerSysfsPathPath[];
	static const char kDetachableBaseSysfsLevelName[];
	static const char kDetachableBaseSysfsLevelValue[];
	static const char kDetachableBaseSysfsActiveTimeName[];
	static const char kDetachableBaseSysfsSuspendedTimeName[];

	// Returns the active time since boot (uptime minus sleep time) in seconds.
	double GetActiveTime();

	// D-Bus filter callback.
	static DBusHandlerResult MessageFilter(DBusConnection* connection,
	DBusMessage* message,
	void* user_data);

	// Updates the active use time and logs time between user-space
	// process crashes.
	void ProcessUserCrash();

	// Updates the active use time and logs time between kernel crashes.
	void ProcessKernelCrash();

	// Updates the active use time and logs time between unclean shutdowns.
	void ProcessUncleanShutdown();

	// Checks if a kernel crash has been detected and returns true if
	// so. The method assumes that a kernel crash has happened if
	// \|crash_file\| exists. It removes the file immediately if it
	// exists, so it must not be called more than once.
	bool CheckSystemCrash(const std::string& crash_file);

	// Sends a regular (exponential) histogram sample to Chrome for
	// transport to UMA. See MetricsLibrary::SendToUMA in
	// metrics_library.h for a description of the arguments.
	void SendSample(
	const std::string& name, int sample, int min, int max, int nbuckets);

	// Sends a linear histogram sample to Chrome for transport to UMA. See
	// MetricsLibrary::SendToUMA in metrics_library.h for a description of the
	// arguments.
	void SendLinearSample(const std::string& name,
	int sample,
	int max,
	int nbuckets);

	// Sends various cumulative kernel crash-related stats, for instance the
	// total number of kernel crashes since the last version update.
	void SendKernelCrashesCumulativeCountStats();

	// Sends stat about crouton usage
	void SendCroutonStats();

	// Returns the total (system-wide) CPU usage between the time of the most
	// recent call to this function and now.
	base::TimeDelta GetIncrementalCpuUse();

	// Sends a sample representing the number of seconds of active use
	// for a 24-hour period and reset \|use\|.
	void SendAndResetDailyUseSample();

	// Sends a sample representing a time interval between two crashes of the
	// same type and reset \|interval\|.
	void SendAndResetCrashIntervalSample(
	const std::unique_ptr<PersistentInteger>& interval,
	const std::string& name);

	// Sends a sample representing a frequency of crashes of some type and reset
	// \|frequency\|.
	void SendAndResetCrashFrequencySample(
	const std::unique_ptr<PersistentInteger>& frequency,
	const std::string& name);

	// Sends stats representing the difference in vmstat values after a day, and
	// then resets the starting values.
	void SendAndResetDailyVmstats();

	// Initializes vm and disk stats reporting.
	void StatsReporterInit();

	// Schedules a callback for the next vm and disk stats collection.
	void ScheduleStatsCallback(int wait);

	// Reads cumulative disk statistics from sysfs. Returns true for success.
	bool DiskStatsReadStats(uint64_t* read_sectors, uint64_t* write_sectors);

	// Reads cumulative vm statistics from procfs. Returns true for success.
	bool VmStatsReadStats(struct VmstatRecord* stats);

	// Reads current temperature values from sysfs and returns as a map.
	// Keys are contents of temperature_zone 'type' file.
	// Values are contents of temperature_zone 'temp' file in millidegrees C.
	std::map<std::string, uint64_t> ReadSensorTemperatures();

	// Fetches current temperatures from sysfs and sends to UMA.
	void SendTemperatureSamples();

	// Method called when kSuspendDoneSignal is received from powerd.
	// Handles reporting of temperature during suspend.
	void HandleSuspendDone(dbus::Signal* signal);

	// Reports disk and vm statistics.
	void StatsCallback();

	// Schedules meminfo collection callback.
	void ScheduleMeminfoCallback(int wait);

	// Reports memory statistics. Reschedules callback on success.
	void MeminfoCallback(base::TimeDelta wait);

	// Schedules the initial process memory stats collection. \|interval\| is the
	// delay before the first collection and between further collections.
	void ScheduleReportProcessMemory(base::TimeDelta interval);

	// Runs ReportProcessMemory every \|interval\| time delta.
	void ReportProcessMemoryCallback(base::TimeDelta interval);

	// Classifies all processes into groups and reports the sum of their memory
	// usage (total, anon, file, and shmem).
	void ReportProcessMemory();

	// Sends uma samples for memory usage of a group of processes.
	void ReportProcessGroupStats(const char* const uma_names[MEM_KINDS_COUNT],
	const ProcessMemoryStats& stats);

	// Schedules detachable base collection callback.
	void ScheduleDetachableBaseCallback(int wait);

	// Reports detachable base statistics. Reschedules callback on success.
	void DetachableBaseCallback(const base::FilePath sysfs_path_path,
	base::TimeDelta wait);

	// Retrieves current active and suspended times for detachable base.
	// active_time and suspended_time are only valid if the function returns true.
	bool GetDetachableBaseTimes(const base::FilePath sysfs_path_path,
	uint64_t* active_time,
	uint64_t* suspended_time);

	// Parses content of /proc/meminfo and sends fields of interest to UMA.
	// Returns false on errors. \|meminfo_raw\| contains the content of
	// /proc/meminfo.
	bool ProcessMeminfo(const std::string& meminfo_raw);

	// Parses meminfo data from \|meminfo_raw\|. \|fields\| is a vector containing
	// the fields of interest. The order of the fields must be the same in which
	// /proc/meminfo prints them. The result of parsing fields[i] is placed in
	// fields[i].value.
	bool FillMeminfo(const std::string& meminfo_raw,
	std::vector<MeminfoRecord>* fields);

	// Schedule a memory use callback in \|interval\| seconds.
	void ScheduleMemuseCallback(double interval);

	// Calls MemuseCallbackWork, and possibly schedules next callback, if enough
	// active time has passed. Otherwise reschedules itself to simulate active
	// time callbacks (i.e. wall clock time minus sleep time).
	void MemuseCallback();

	// Reads /proc/meminfo and sends total anonymous memory usage to UMA.
	bool MemuseCallbackWork();

	// Parses meminfo data and sends it to UMA.
	bool ProcessMemuse(const std::string& meminfo_raw);

	// Sends stats for thermal CPU throttling.
	void SendCpuThrottleMetrics();

	// Reads an integer CPU frequency value from sysfs.
	bool ReadFreqToInt(const std::string& sysfs_file_name, int* value);

	// Reads the current OS version from /etc/lsb-release and hashes it
	// to a unsigned 32-bit int.
	uint32_t GetOsVersionHash();

	// Returns true if the system is using an official build.
	bool IsOnOfficialBuild() const;

	// Updates stats, additionally sending them to UMA if enough time has elapsed
	// since the last report.
	void UpdateStats(base::TimeTicks now_ticks, base::Time now_wall_time);

	// Invoked periodically by \|update_stats_timeout_id_\| to call UpdateStats().
	void HandleUpdateStatsTimeout();

	// Reports zram statistics.
	bool ReportZram(const base::FilePath& zram_dir);

	// Reads a string from a file and converts it to uint64_t.
	static bool ReadFileToUint64(const base::FilePath& path,
	uint64_t* value,
	bool warn_on_read_failure = true);

	// Reads zram stat.
	static bool ReadZramStat(const base::FilePath& zram_dir,
	uint64_t* compr_data_size_out,
	uint64_t* orig_data_size_out,
	uint64_t* zero_pages_out,
	uint64_t* incompr_pages_out);

	// VARIABLES

	// Test mode.
	bool testing_;

	// Whether the uploader is enabled or disabled.
	bool uploader_active_;

	// Root of the configuration files to use.
	std::string config_root_;

	// The metrics library handle.
	MetricsLibraryInterface* metrics_lib_;

	// Timestamps last network state update. This timestamp is used to
	// sample the time from the network going online to going offline so
	// TimeTicks ensures a monotonically increasing TimeDelta.
	base::TimeTicks network_state_last_;

	// The last time that UpdateStats() was called.
	base::TimeTicks last_update_stats_time_;

	// End time of current memuse stat collection interval.
	double memuse_final_time_;

	// Selects the wait time for the next memory use callback.
	unsigned int memuse_interval_index_;

	// Contain the most recent disk and vm cumulative stats.
	uint64_t read_sectors_;
	uint64_t write_sectors_;
	struct VmstatRecord vmstats_;

	StatsState stats_state_;
	double stats_initial_time_;

	// The system "HZ", or frequency of ticks. Some system data uses ticks as a
	// unit, and this is used to convert to standard time units.
	uint32_t ticks_per_second_;
	// Used internally by GetIncrementalCpuUse() to return the CPU utilization
	// between calls.
	uint64_t latest_cpu_use_ticks_;

	// Keeps track of the last active and suspended times for detachable
	// base autosuspend. Active and suspended states are toggled by an
	// autosuspend idle time.
	uint64_t detachable_base_active_time_;
	uint64_t detachable_base_suspended_time_;

	// Persistent values and accumulators for crash statistics.
	std::unique_ptr<PersistentInteger> daily_cycle_;
	std::unique_ptr<PersistentInteger> weekly_cycle_;
	std::unique_ptr<PersistentInteger> version_cycle_;

	// Active use accumulated in a day.
	std::unique_ptr<PersistentInteger> daily_active_use_;
	// Active use accumulated since the latest version update.
	std::unique_ptr<PersistentInteger> version_cumulative_active_use_;

	// The CPU time accumulator. This contains the CPU time, in milliseconds,
	// used by the system since the most recent OS version update.
	std::unique_ptr<PersistentInteger> version_cumulative_cpu_use_;

	std::unique_ptr<PersistentInteger> user_crash_interval_;
	std::unique_ptr<PersistentInteger> kernel_crash_interval_;
	std::unique_ptr<PersistentInteger> unclean_shutdown_interval_;

	std::unique_ptr<PersistentInteger> any_crashes_daily_count_;
	std::unique_ptr<PersistentInteger> any_crashes_weekly_count_;
	std::unique_ptr<PersistentInteger> user_crashes_daily_count_;
	std::unique_ptr<PersistentInteger> user_crashes_weekly_count_;
	std::unique_ptr<PersistentInteger> kernel_crashes_daily_count_;
	std::unique_ptr<PersistentInteger> kernel_crashes_weekly_count_;
	std::unique_ptr<PersistentInteger> kernel_crashes_version_count_;
	std::unique_ptr<PersistentInteger> unclean_shutdowns_daily_count_;
	std::unique_ptr<PersistentInteger> unclean_shutdowns_weekly_count_;

	struct VmstatRecord vmstats_daily_start;
	bool vmstats_daily_success;

	std::string diskstats_path_;
	std::string vmstats_path_;
	std::string scaling_max_freq_path_;
	std::string cpuinfo_max_freq_path_;

	// The base component used to read from thermal zone paths
	// An example thermal zone path would be:
	// '/sys/class/thermal/thermal_zone0/temp'
	// This base path would be the portion before the thermal_zone:
	// '/sys/class/thermal/'
	// This will primarily be changed for testing purposes, see
	// SetThermalZonePathBaseForTest(base::FilePath).
	base::FilePath zone_path_base_;

	// In the sysfs directory '/sys/class/thermal/' there are multiple thermal
	// zones, starting at 0, for example '/sys/class/thermal/thermal_zone0',
	// '/sys/class/thermal/thermal_zone1', etc.
	// thermal_zone_count_ is the total number of these zones, so if
	// thermal_zone_count_ is 3, then thermal_zone0, thermal_zone1, and
	// thermal_zone2 should all exist, while thermal_zone3 should not.
	// This is initialized to -1, meaning that the first attempt to read
	// thermal_zones will try zones until failure and then update the count.
	int32_t thermal_zone_count_;

	// If index i is true, it means that we have already printed an error message
	// for a failed read from thermal_zone i, and should not print one again.
	// This helps reduce log spam from metrics_daemon.
	// Even if it fails, we will still attempt reading from the thermal_zone.
	// Once it has succeeded again, index i will be reset to false.
	std::vector<bool> thermal_zone_read_failure_notified_;

	base::TimeDelta upload_interval_;
	std::string server_;
	std::string metrics_file_;

	std::unique_ptr<UploadService> upload_service_;
	std::unique_ptr<VmlogWriter> vmlog_writer_;

	// The backing directory for persistent integers.
	base::FilePath backing_dir_;
	};

	} // namespace chromeos_metrics

	#endif // METRICS_METRICS_DAEMON_H_