// Copyright 2014 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. // This file defines a service that collects information about the user // experience in order to help improve future versions of the app. #ifndef COMPONENTS_METRICS_METRICS_SERVICE_H_ #define COMPONENTS_METRICS_METRICS_SERVICE_H_ #include #include #include #include "base/basictypes.h" #include "base/gtest_prod_util.h" #include "base/memory/scoped_ptr.h" #include "base/memory/scoped_vector.h" #include "base/memory/weak_ptr.h" #include "base/metrics/field_trial.h" #include "base/metrics/histogram_flattener.h" #include "base/metrics/histogram_snapshot_manager.h" #include "base/metrics/user_metrics.h" #include "base/observer_list.h" #include "base/time/time.h" #include "components/metrics/clean_exit_beacon.h" #include "components/metrics/metrics_log.h" #include "components/metrics/metrics_log_manager.h" #include "components/metrics/metrics_provider.h" #include "components/metrics/net/network_metrics_provider.h" #include "components/variations/active_field_trials.h" class PrefService; class PrefRegistrySimple; namespace base { class DictionaryValue; class HistogramSamples; class PrefService; } namespace variations { struct ActiveGroupId; } namespace net { class URLFetcher; } namespace metrics { class MetricsLogUploader; class MetricsReportingScheduler; class MetricsServiceAccessor; class MetricsServiceClient; class MetricsStateManager; // A Field Trial and its selected group, which represent a particular // Chrome configuration state. For example, the trial name could map to // a preference name, and the group name could map to a preference value. struct SyntheticTrialGroup { public: ~SyntheticTrialGroup(); variations::ActiveGroupId id; base::TimeTicks start_time; private: // Synthetic field trial users: friend class MetricsServiceAccessor; friend class MetricsService; FRIEND_TEST_ALL_PREFIXES(MetricsServiceTest, RegisterSyntheticTrial); // This constructor is private specifically so as to control which code is // able to access it. New code that wishes to use it should be added as a // friend class. SyntheticTrialGroup(uint32 trial, uint32 group); }; // Interface class to observe changes to synthetic trials in MetricsService. class SyntheticTrialObserver { public: // Called when the list of synthetic field trial groups has changed. virtual void OnSyntheticTrialsChanged( const std::vector& groups) = 0; protected: virtual ~SyntheticTrialObserver() {} }; // See metrics_service.cc for a detailed description. class MetricsService : public base::HistogramFlattener { public: // The execution phase of the browser. enum ExecutionPhase { UNINITIALIZED_PHASE = 0, START_METRICS_RECORDING = 100, CREATE_PROFILE = 200, STARTUP_TIMEBOMB_ARM = 300, THREAD_WATCHER_START = 400, MAIN_MESSAGE_LOOP_RUN = 500, SHUTDOWN_TIMEBOMB_ARM = 600, SHUTDOWN_COMPLETE = 700, }; // Creates the MetricsService with the given |state_manager|, |client|, and // |local_state|. Does not take ownership of the paramaters; instead stores // a weak pointer to each. Caller should ensure that the parameters are valid // for the lifetime of this class. MetricsService(MetricsStateManager* state_manager, MetricsServiceClient* client, PrefService* local_state); ~MetricsService() override; // Initializes metrics recording state. Updates various bookkeeping values in // prefs and sets up the scheduler. This is a separate function rather than // being done by the constructor so that field trials could be created before // this is run. void InitializeMetricsRecordingState(); // Starts the metrics system, turning on recording and uploading of metrics. // Should be called when starting up with metrics enabled, or when metrics // are turned on. void Start(); // Starts the metrics system in a special test-only mode. Metrics won't ever // be uploaded or persisted in this mode, but metrics will be recorded in // memory. void StartRecordingForTests(); // Shuts down the metrics system. Should be called at shutdown, or if metrics // are turned off. void Stop(); // Enable/disable transmission of accumulated logs and crash reports (dumps). // Calling Start() automatically enables reporting, but sending is // asyncronous so this can be called immediately after Start() to prevent // any uploading. void EnableReporting(); void DisableReporting(); // Returns the client ID for this client, or the empty string if metrics // recording is not currently running. std::string GetClientId(); // Returns the install date of the application, in seconds since the epoch. int64 GetInstallDate(); // Returns the date at which the current metrics client ID was created as // an int64 containing seconds since the epoch. int64 GetMetricsReportingEnabledDate(); // Returns true if the last session exited cleanly. bool WasLastShutdownClean() const; // Returns the preferred entropy provider used to seed persistent activities // based on whether or not metrics reporting will be permitted on this client. // // If metrics reporting is enabled, this method returns an entropy provider // that has a high source of entropy, partially based on the client ID. // Otherwise, it returns an entropy provider that is based on a low entropy // source. scoped_ptr CreateEntropyProvider(); // At startup, prefs needs to be called with a list of all the pref names and // types we'll be using. static void RegisterPrefs(PrefRegistrySimple* registry); // HistogramFlattener: void RecordDelta(const base::HistogramBase& histogram, const base::HistogramSamples& snapshot) override; void InconsistencyDetected( base::HistogramBase::Inconsistency problem) override; void UniqueInconsistencyDetected( base::HistogramBase::Inconsistency problem) override; void InconsistencyDetectedInLoggedCount(int amount) override; // This should be called when the application is not idle, i.e. the user seems // to be interacting with the application. void OnApplicationNotIdle(); // Invoked when we get a WM_SESSIONEND. This places a value in prefs that is // reset when RecordCompletedSessionEnd is invoked. void RecordStartOfSessionEnd(); // This should be called when the application is shutting down. It records // that session end was successful. void RecordCompletedSessionEnd(); #if defined(OS_ANDROID) || defined(OS_IOS) // Called when the application is going into background mode. void OnAppEnterBackground(); // Called when the application is coming out of background mode. void OnAppEnterForeground(); #else // Set the dirty flag, which will require a later call to LogCleanShutdown(). void LogNeedForCleanShutdown(); #endif // defined(OS_ANDROID) || defined(OS_IOS) static void SetExecutionPhase(ExecutionPhase execution_phase, PrefService* local_state); // Saves in the preferences if the crash report registration was successful. // This count is eventually send via UMA logs. void RecordBreakpadRegistration(bool success); // Saves in the preferences if the browser is running under a debugger. // This count is eventually send via UMA logs. void RecordBreakpadHasDebugger(bool has_debugger); bool recording_active() const; bool reporting_active() const; // Redundant test to ensure that we are notified of a clean exit. // This value should be true when process has completed shutdown. static bool UmaMetricsProperlyShutdown(); // Registers a field trial name and group to be used to annotate a UMA report // with a particular Chrome configuration state. A UMA report will be // annotated with this trial group if and only if all events in the report // were created after the trial is registered. Only one group name may be // registered at a time for a given trial_name. Only the last group name that // is registered for a given trial name will be recorded. The values passed // in must not correspond to any real field trial in the code. // To use this method, SyntheticTrialGroup should friend your class. void RegisterSyntheticFieldTrial(const SyntheticTrialGroup& trial_group); // Adds an observer to be notified when the synthetic trials list changes. void AddSyntheticTrialObserver(SyntheticTrialObserver* observer); // Removes an existing observer of synthetic trials list changes. void RemoveSyntheticTrialObserver(SyntheticTrialObserver* observer); // Register the specified |provider| to provide additional metrics into the // UMA log. Should be called during MetricsService initialization only. void RegisterMetricsProvider(scoped_ptr provider); // Check if this install was cloned or imaged from another machine. If a // clone is detected, reset the client id and low entropy source. This // should not be called more than once. void CheckForClonedInstall( scoped_refptr task_runner); // Clears the stability metrics that are saved in local state. void ClearSavedStabilityMetrics(); // Pushes a log that has been generated by an external component. void PushExternalLog(const std::string& log); protected: // Exposed for testing. MetricsLogManager* log_manager() { return &log_manager_; } private: // The MetricsService has a lifecycle that is stored as a state. // See metrics_service.cc for description of this lifecycle. enum State { INITIALIZED, // Constructor was called. INIT_TASK_SCHEDULED, // Waiting for deferred init tasks to finish. INIT_TASK_DONE, // Waiting for timer to send initial log. SENDING_LOGS, // Sending logs an creating new ones when we run out. }; enum ShutdownCleanliness { CLEANLY_SHUTDOWN = 0xdeadbeef, NEED_TO_SHUTDOWN = ~CLEANLY_SHUTDOWN }; // The current state of recording for the MetricsService. The state is UNSET // until set to something else, at which point it remains INACTIVE or ACTIVE // for the lifetime of the object. enum RecordingState { INACTIVE, ACTIVE, UNSET }; typedef std::vector SyntheticTrialGroups; // Calls into the client to start metrics gathering. void StartGatheringMetrics(); // Callback that moves the state to INIT_TASK_DONE. When this is called, the // state should be INIT_TASK_SCHEDULED. void FinishedGatheringInitialMetrics(); void OnUserAction(const std::string& action); // Get the amount of uptime since this process started and since the last // call to this function. Also updates the cumulative uptime metric (stored // as a pref) for uninstall. Uptimes are measured using TimeTicks, which // guarantees that it is monotonic and does not jump if the user changes // his/her clock. The TimeTicks implementation also makes the clock not // count time the computer is suspended. void GetUptimes(PrefService* pref, base::TimeDelta* incremental_uptime, base::TimeDelta* uptime); // Turns recording on or off. // DisableRecording() also forces a persistent save of logging state (if // anything has been recorded, or transmitted). void EnableRecording(); void DisableRecording(); // If in_idle is true, sets idle_since_last_transmission to true. // If in_idle is false and idle_since_last_transmission_ is true, sets // idle_since_last_transmission to false and starts the timer (provided // starting the timer is permitted). void HandleIdleSinceLastTransmission(bool in_idle); // Set up client ID, session ID, etc. void InitializeMetricsState(); // Notifies providers when a new metrics log is created. void NotifyOnDidCreateMetricsLog(); // Schedule the next save of LocalState information. This is called // automatically by the task that performs each save to schedule the next one. void ScheduleNextStateSave(); // Save the LocalState information immediately. This should not be called by // anybody other than the scheduler to avoid doing too many writes. When you // make a change, call ScheduleNextStateSave() instead. void SaveLocalState(); // Opens a new log for recording user experience metrics. void OpenNewLog(); // Closes out the current log after adding any last information. void CloseCurrentLog(); // Pushes the text of the current and staged logs into persistent storage. // Called when Chrome shuts down. void PushPendingLogsToPersistentStorage(); // Ensures that scheduler is running, assuming the current settings are such // that metrics should be reported. If not, this is a no-op. void StartSchedulerIfNecessary(); // Starts the process of uploading metrics data. void StartScheduledUpload(); // Called by the client via a callback when final log info collection is // complete. void OnFinalLogInfoCollectionDone(); // If recording is enabled, begins uploading the next completed log from // the log manager, staging it if necessary. void SendNextLog(); // Returns true if any of the registered metrics providers have critical // stability metrics to report in an initial stability log. bool ProvidersHaveInitialStabilityMetrics(); // Prepares the initial stability log, which is only logged when the previous // run of Chrome crashed. This log contains any stability metrics left over // from that previous run, and only these stability metrics. It uses the // system profile from the previous session. Returns true if a log was // created. bool PrepareInitialStabilityLog(); // Prepares the initial metrics log, which includes startup histograms and // profiler data, as well as incremental stability-related metrics. void PrepareInitialMetricsLog(); // Uploads the currently staged log (which must be non-null). void SendStagedLog(); // Called after transmission completes (either successfully or with failure). void OnLogUploadComplete(int response_code); // Reads, increments and then sets the specified integer preference. void IncrementPrefValue(const char* path); // Reads, increments and then sets the specified long preference that is // stored as a string. void IncrementLongPrefsValue(const char* path); // Records that the browser was shut down cleanly. void LogCleanShutdown(); // Records state that should be periodically saved, like uptime and // buffered plugin stability statistics. void RecordCurrentState(PrefService* pref); // Checks whether events should currently be logged. bool ShouldLogEvents(); // Sets the value of the specified path in prefs and schedules a save. void RecordBooleanPrefValue(const char* path, bool value); // Notifies observers on a synthetic trial list change. void NotifySyntheticTrialObservers(); // Returns a list of synthetic field trials that were active for the entire // duration of the current log. void GetCurrentSyntheticFieldTrials( std::vector* synthetic_trials); // Creates a new MetricsLog instance with the given |log_type|. scoped_ptr CreateLog(MetricsLog::LogType log_type); // Records the current environment (system profile) in |log|. void RecordCurrentEnvironment(MetricsLog* log); // Record complete list of histograms into the current log. // Called when we close a log. void RecordCurrentHistograms(); // Record complete list of stability histograms into the current log, // i.e., histograms with the |kUmaStabilityHistogramFlag| flag set. void RecordCurrentStabilityHistograms(); // Skips staged upload and discards the log. Used in case of unsuccessful // upload or intentional sampling of logs. void SkipAndDiscardUpload(); // Manager for the various in-flight logs. MetricsLogManager log_manager_; // |histogram_snapshot_manager_| prepares histogram deltas for transmission. base::HistogramSnapshotManager histogram_snapshot_manager_; // Used to manage various metrics reporting state prefs, such as client id, // low entropy source and whether metrics reporting is enabled. Weak pointer. MetricsStateManager* const state_manager_; // Used to interact with the embedder. Weak pointer; must outlive |this| // instance. MetricsServiceClient* const client_; // Registered metrics providers. ScopedVector metrics_providers_; PrefService* local_state_; CleanExitBeacon clean_exit_beacon_; base::ActionCallback action_callback_; // Indicate whether recording and reporting are currently happening. // These should not be set directly, but by calling SetRecording and // SetReporting. RecordingState recording_state_; bool reporting_active_; // Indicate whether test mode is enabled, where the initial log should never // be cut, and logs are neither persisted nor uploaded. bool test_mode_active_; // The progression of states made by the browser are recorded in the following // state. State state_; // The initial metrics log, used to record startup metrics (histograms and // profiler data). Note that if a crash occurred in the previous session, an // initial stability log may be sent before this. scoped_ptr initial_metrics_log_; // Instance of the helper class for uploading logs. scoped_ptr log_uploader_; // Whether there is a current log upload in progress. bool log_upload_in_progress_; // Whether the MetricsService object has received any notifications since // the last time a transmission was sent. bool idle_since_last_transmission_; // A number that identifies the how many times the app has been launched. int session_id_; // The scheduler for determining when uploads should happen. scoped_ptr scheduler_; // Stores the time of the first call to |GetUptimes()|. base::TimeTicks first_updated_time_; // Stores the time of the last call to |GetUptimes()|. base::TimeTicks last_updated_time_; // Field trial groups that map to Chrome configuration states. SyntheticTrialGroups synthetic_trial_groups_; // List of observers of |synthetic_trial_groups_| changes. base::ObserverList synthetic_trial_observer_list_; // Execution phase the browser is in. static ExecutionPhase execution_phase_; // Reduntant marker to check that we completed our shutdown, and set the // exited-cleanly bit in the prefs. static ShutdownCleanliness clean_shutdown_status_; FRIEND_TEST_ALL_PREFIXES(MetricsServiceTest, IsPluginProcess); FRIEND_TEST_ALL_PREFIXES(MetricsServiceTest, PermutedEntropyCacheClearedWhenLowEntropyReset); FRIEND_TEST_ALL_PREFIXES(MetricsServiceTest, RegisterSyntheticTrial); // Weak pointers factory used to post task on different threads. All weak // pointers managed by this factory have the same lifetime as MetricsService. base::WeakPtrFactory self_ptr_factory_; // Weak pointers factory used for saving state. All weak pointers managed by // this factory are invalidated in ScheduleNextStateSave. base::WeakPtrFactory state_saver_factory_; DISALLOW_COPY_AND_ASSIGN(MetricsService); }; } // namespace metrics #endif // COMPONENTS_METRICS_METRICS_SERVICE_H_