// 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. //------------------------------------------------------------------------------ // Description of the life cycle of a instance of MetricsService. // // OVERVIEW // // A MetricsService instance is typically created at application startup. It is // the central controller for the acquisition of log data, and the automatic // transmission of that log data to an external server. Its major job is to // manage logs, grouping them for transmission, and transmitting them. As part // of its grouping, MS finalizes logs by including some just-in-time gathered // memory statistics, snapshotting the current stats of numerous histograms, // closing the logs, translating to protocol buffer format, and compressing the // results for transmission. Transmission includes submitting a compressed log // as data in a URL-post, and retransmitting (or retaining at process // termination) if the attempted transmission failed. Retention across process // terminations is done using the the PrefServices facilities. The retained logs // (the ones that never got transmitted) are compressed and base64-encoded // before being persisted. // // Logs fall into one of two categories: "initial logs," and "ongoing logs." // There is at most one initial log sent for each complete run of Chrome (from // startup, to browser shutdown). An initial log is generally transmitted some // short time (1 minute?) after startup, and includes stats such as recent crash // info, the number and types of plugins, etc. The external server's response // to the initial log conceptually tells this MS if it should continue // transmitting logs (during this session). The server response can actually be // much more detailed, and always includes (at a minimum) how often additional // ongoing logs should be sent. // // After the above initial log, a series of ongoing logs will be transmitted. // The first ongoing log actually begins to accumulate information stating when // the MS was first constructed. Note that even though the initial log is // commonly sent a full minute after startup, the initial log does not include // much in the way of user stats. The most common interlog period (delay) // is 30 minutes. That time period starts when the first user action causes a // logging event. This means that if there is no user action, there may be long // periods without any (ongoing) log transmissions. Ongoing logs typically // contain very detailed records of user activities (ex: opened tab, closed // tab, fetched URL, maximized window, etc.) In addition, just before an // ongoing log is closed out, a call is made to gather memory statistics. Those // memory statistics are deposited into a histogram, and the log finalization // code is then called. In the finalization, a call to a Histogram server // acquires a list of all local histograms that have been flagged for upload // to the UMA server. The finalization also acquires the most recent number // of page loads, along with any counts of renderer or plugin crashes. // // When the browser shuts down, there will typically be a fragment of an ongoing // log that has not yet been transmitted. At shutdown time, that fragment is // closed (including snapshotting histograms), and persisted, for potential // transmission during a future run of the product. // // There are two slightly abnormal shutdown conditions. There is a // "disconnected scenario," and a "really fast startup and shutdown" scenario. // In the "never connected" situation, the user has (during the running of the // process) never established an internet connection. As a result, attempts to // transmit the initial log have failed, and a lot(?) of data has accumulated in // the ongoing log (which didn't yet get closed, because there was never even a // contemplation of sending it). There is also a kindred "lost connection" // situation, where a loss of connection prevented an ongoing log from being // transmitted, and a (still open) log was stuck accumulating a lot(?) of data, // while the earlier log retried its transmission. In both of these // disconnected situations, two logs need to be, and are, persistently stored // for future transmission. // // The other unusual shutdown condition, termed "really fast startup and // shutdown," involves the deliberate user termination of the process before // the initial log is even formed or transmitted. In that situation, no logging // is done, but the historical crash statistics remain (unlogged) for inclusion // in a future run's initial log. (i.e., we don't lose crash stats). // // With the above overview, we can now describe the state machine's various // states, based on the State enum specified in the state_ member. Those states // are: // // 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 and creating new ones when we run out. // // In more detail, we have: // // INITIALIZED, // Constructor was called. // The MS has been constructed, but has taken no actions to compose the // initial log. // // INIT_TASK_SCHEDULED, // Waiting for deferred init tasks to finish. // Typically about 30 seconds after startup, a task is sent to a second thread // (the file thread) to perform deferred (lower priority and slower) // initialization steps such as getting the list of plugins. That task will // (when complete) make an async callback (via a Task) to indicate the // completion. // // INIT_TASK_DONE, // Waiting for timer to send initial log. // The callback has arrived, and it is now possible for an initial log to be // created. This callback typically arrives back less than one second after // the deferred init task is dispatched. // // SENDING_LOGS, // Sending logs an creating new ones when we run out. // Logs from previous sessions have been loaded, and initial logs have been // created (an optional stability log and the first metrics log). We will // send all of these logs, and when run out, we will start cutting new logs // to send. We will also cut a new log if we expect a shutdown. // // The progression through the above states is simple, and sequential. // States proceed from INITIAL to SENDING_LOGS, and remain in the latter until // shutdown. // // Also note that whenever we successfully send a log, we mirror the list // of logs into the PrefService. This ensures that IF we crash, we won't start // up and retransmit our old logs again. // // Due to race conditions, it is always possible that a log file could be sent // twice. For example, if a log file is sent, but not yet acknowledged by // the external server, and the user shuts down, then a copy of the log may be // saved for re-transmission. These duplicates could be filtered out server // side, but are not expected to be a significant problem. // // //------------------------------------------------------------------------------ #include "components/metrics/metrics_service.h" #include #include #include #include "base/bind.h" #include "base/callback.h" #include "base/location.h" #include "base/metrics/histogram_base.h" #include "base/metrics/histogram_functions.h" #include "base/metrics/histogram_macros.h" #include "base/metrics/histogram_samples.h" #include "base/metrics/persistent_histogram_allocator.h" #include "base/metrics/statistics_recorder.h" #include "base/single_thread_task_runner.h" #include "base/strings/string_piece.h" #include "base/threading/sequenced_task_runner_handle.h" #include "base/time/time.h" #include "build/build_config.h" #include "components/metrics/environment_recorder.h" #include "components/metrics/field_trials_provider.h" #include "components/metrics/metrics_log.h" #include "components/metrics/metrics_log_manager.h" #include "components/metrics/metrics_log_uploader.h" #include "components/metrics/metrics_pref_names.h" #include "components/metrics/metrics_rotation_scheduler.h" #include "components/metrics/metrics_service_client.h" #include "components/metrics/metrics_state_manager.h" #include "components/metrics/persistent_system_profile.h" #include "components/metrics/stability_metrics_provider.h" #include "components/metrics/url_constants.h" #include "components/prefs/pref_registry_simple.h" #include "components/prefs/pref_service.h" #include "components/variations/entropy_provider.h" namespace metrics { namespace { // The delay, in seconds, after starting recording before doing expensive // initialization work. #if defined(OS_ANDROID) || defined(OS_IOS) // On mobile devices, a significant portion of sessions last less than a minute. // Use a shorter timer on these platforms to avoid losing data. // TODO(dfalcantara): To avoid delaying startup, tighten up initialization so // that it occurs after the user gets their initial page. const int kInitializationDelaySeconds = 5; #else const int kInitializationDelaySeconds = 30; #endif // The browser last live timestamp is updated every 15 minutes. const int kUpdateAliveTimestampSeconds = 15 * 60; #if defined(OS_ANDROID) || defined(OS_IOS) void MarkAppCleanShutdownAndCommit(CleanExitBeacon* clean_exit_beacon, PrefService* local_state) { clean_exit_beacon->WriteBeaconValue(true); ExecutionPhaseManager(local_state).OnAppEnterBackground(); // Start writing right away (write happens on a different thread). local_state->CommitPendingWrite(); } #endif // defined(OS_ANDROID) || defined(OS_IOS) } // namespace // static MetricsService::ShutdownCleanliness MetricsService::clean_shutdown_status_ = MetricsService::CLEANLY_SHUTDOWN; // static void MetricsService::RegisterPrefs(PrefRegistrySimple* registry) { CleanExitBeacon::RegisterPrefs(registry); MetricsStateManager::RegisterPrefs(registry); MetricsLog::RegisterPrefs(registry); StabilityMetricsProvider::RegisterPrefs(registry); ExecutionPhaseManager::RegisterPrefs(registry); MetricsReportingService::RegisterPrefs(registry); registry->RegisterIntegerPref(prefs::kMetricsSessionID, -1); registry->RegisterInt64Pref(prefs::kUninstallLaunchCount, 0); registry->RegisterInt64Pref(prefs::kUninstallMetricsUptimeSec, 0); } MetricsService::MetricsService(MetricsStateManager* state_manager, MetricsServiceClient* client, PrefService* local_state) : reporting_service_(client, local_state), histogram_snapshot_manager_(this), state_manager_(state_manager), client_(client), local_state_(local_state), recording_state_(UNSET), test_mode_active_(false), state_(INITIALIZED), idle_since_last_transmission_(false), session_id_(-1), self_ptr_factory_(this) { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); DCHECK(state_manager_); DCHECK(client_); DCHECK(local_state_); RegisterMetricsProvider( std::make_unique(local_state_)); RegisterMetricsProvider(state_manager_->GetProvider()); RegisterMetricsProvider(std::make_unique( &synthetic_trial_registry_, base::StringPiece())); } MetricsService::~MetricsService() { DisableRecording(); } void MetricsService::InitializeMetricsRecordingState() { reporting_service_.Initialize(); InitializeMetricsState(); base::Closure upload_callback = base::Bind(&MetricsService::StartScheduledUpload, self_ptr_factory_.GetWeakPtr()); rotation_scheduler_.reset(new MetricsRotationScheduler( upload_callback, // MetricsServiceClient outlives MetricsService, and // MetricsRotationScheduler is tied to the lifetime of |this|. base::Bind(&MetricsServiceClient::GetStandardUploadInterval, base::Unretained(client_)))); // Init() has to be called after LogCrash() in order for LogCrash() to work. delegating_provider_.Init(); } void MetricsService::Start() { HandleIdleSinceLastTransmission(false); EnableRecording(); EnableReporting(); } void MetricsService::StartRecordingForTests() { test_mode_active_ = true; EnableRecording(); DisableReporting(); } void MetricsService::StartUpdatingLastLiveTimestamp() { base::SequencedTaskRunnerHandle::Get()->PostDelayedTask( FROM_HERE, base::BindOnce(&MetricsService::UpdateLastLiveTimestampTask, self_ptr_factory_.GetWeakPtr()), base::TimeDelta::FromSeconds(kUpdateAliveTimestampSeconds)); } void MetricsService::Stop() { HandleIdleSinceLastTransmission(false); DisableReporting(); DisableRecording(); } void MetricsService::EnableReporting() { if (reporting_service_.reporting_active()) return; reporting_service_.EnableReporting(); StartSchedulerIfNecessary(); } void MetricsService::DisableReporting() { reporting_service_.DisableReporting(); } std::string MetricsService::GetClientId() { return state_manager_->client_id(); } int64_t MetricsService::GetInstallDate() { return state_manager_->GetInstallDate(); } bool MetricsService::WasLastShutdownClean() const { return state_manager_->clean_exit_beacon()->exited_cleanly(); } void MetricsService::EnableRecording() { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); if (recording_state_ == ACTIVE) return; recording_state_ = ACTIVE; state_manager_->ForceClientIdCreation(); client_->SetMetricsClientId(state_manager_->client_id()); SystemProfileProto system_profile; MetricsLog::RecordCoreSystemProfile(client_, &system_profile); GlobalPersistentSystemProfile::GetInstance()->SetSystemProfile( system_profile, /*complete=*/false); if (!log_manager_.current_log()) OpenNewLog(); delegating_provider_.OnRecordingEnabled(); base::RemoveActionCallback(action_callback_); action_callback_ = base::Bind(&MetricsService::OnUserAction, base::Unretained(this)); base::AddActionCallback(action_callback_); } void MetricsService::DisableRecording() { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); if (recording_state_ == INACTIVE) return; recording_state_ = INACTIVE; base::RemoveActionCallback(action_callback_); delegating_provider_.OnRecordingDisabled(); PushPendingLogsToPersistentStorage(); } bool MetricsService::recording_active() const { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); return recording_state_ == ACTIVE; } bool MetricsService::reporting_active() const { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); return reporting_service_.reporting_active(); } bool MetricsService::has_unsent_logs() const { return reporting_service_.metrics_log_store()->has_unsent_logs(); } void MetricsService::RecordDelta(const base::HistogramBase& histogram, const base::HistogramSamples& snapshot) { log_manager_.current_log()->RecordHistogramDelta(histogram.histogram_name(), snapshot); } void MetricsService::HandleIdleSinceLastTransmission(bool in_idle) { // If there wasn't a lot of action, maybe the computer was asleep, in which // case, the log transmissions should have stopped. Here we start them up // again. if (!in_idle && idle_since_last_transmission_) StartSchedulerIfNecessary(); idle_since_last_transmission_ = in_idle; } void MetricsService::OnApplicationNotIdle() { if (recording_state_ == ACTIVE) HandleIdleSinceLastTransmission(false); } void MetricsService::RecordStartOfSessionEnd() { LogCleanShutdown(false); } void MetricsService::RecordCompletedSessionEnd() { LogCleanShutdown(true); } #if defined(OS_ANDROID) || defined(OS_IOS) void MetricsService::OnAppEnterBackground() { rotation_scheduler_->Stop(); reporting_service_.Stop(); MarkAppCleanShutdownAndCommit(state_manager_->clean_exit_beacon(), local_state_); // Give providers a chance to persist histograms as part of being // backgrounded. delegating_provider_.OnAppEnterBackground(); // At this point, there's no way of knowing when the process will be // killed, so this has to be treated similar to a shutdown, closing and // persisting all logs. Unlinke a shutdown, the state is primed to be ready // to continue logging and uploading if the process does return. if (recording_active() && state_ >= SENDING_LOGS) { PushPendingLogsToPersistentStorage(); // Persisting logs closes the current log, so start recording a new log // immediately to capture any background work that might be done before the // process is killed. OpenNewLog(); } } void MetricsService::OnAppEnterForeground() { state_manager_->clean_exit_beacon()->WriteBeaconValue(false); ExecutionPhaseManager(local_state_).OnAppEnterForeground(); StartSchedulerIfNecessary(); } #else void MetricsService::LogNeedForCleanShutdown() { state_manager_->clean_exit_beacon()->WriteBeaconValue(false); // Redundant setting to be sure we call for a clean shutdown. clean_shutdown_status_ = NEED_TO_SHUTDOWN; } #endif // defined(OS_ANDROID) || defined(OS_IOS) // static void MetricsService::SetExecutionPhase(ExecutionPhase execution_phase, PrefService* local_state) { ExecutionPhaseManager(local_state).SetExecutionPhase(execution_phase); } void MetricsService::RecordBreakpadRegistration(bool success) { StabilityMetricsProvider(local_state_).RecordBreakpadRegistration(success); } void MetricsService::RecordBreakpadHasDebugger(bool has_debugger) { StabilityMetricsProvider(local_state_) .RecordBreakpadHasDebugger(has_debugger); } void MetricsService::ClearSavedStabilityMetrics() { delegating_provider_.ClearSavedStabilityMetrics(); } void MetricsService::PushExternalLog(const std::string& log) { log_store()->StoreLog(log, MetricsLog::ONGOING_LOG); } void MetricsService::UpdateMetricsUsagePrefs(const std::string& service_name, int message_size, bool is_cellular) { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); reporting_service_.UpdateMetricsUsagePrefs(service_name, message_size, is_cellular); } //------------------------------------------------------------------------------ // private methods //------------------------------------------------------------------------------ //------------------------------------------------------------------------------ // Initialization methods void MetricsService::InitializeMetricsState() { const int64_t buildtime = MetricsLog::GetBuildTime(); const std::string version = client_->GetVersionString(); bool version_changed = false; EnvironmentRecorder recorder(local_state_); int64_t previous_buildtime = recorder.GetLastBuildtime(); std::string previous_version = recorder.GetLastVersion(); if (previous_buildtime != buildtime || previous_version != version) { recorder.SetBuildtimeAndVersion(buildtime, version); version_changed = true; } session_id_ = local_state_->GetInteger(prefs::kMetricsSessionID); StabilityMetricsProvider provider(local_state_); if (!state_manager_->clean_exit_beacon()->exited_cleanly()) { provider.LogCrash( state_manager_->clean_exit_beacon()->browser_last_live_timestamp()); // Reset flag, and wait until we call LogNeedForCleanShutdown() before // monitoring. state_manager_->clean_exit_beacon()->WriteBeaconValue(true); ExecutionPhaseManager manager(local_state_); base::UmaHistogramSparse("Chrome.Browser.CrashedExecutionPhase", static_cast(manager.GetExecutionPhase())); manager.SetExecutionPhase(ExecutionPhase::UNINITIALIZED_PHASE); } // HasPreviousSessionData is called first to ensure it is never bypassed. const bool is_initial_stability_log_required = delegating_provider_.HasPreviousSessionData() || !state_manager_->clean_exit_beacon()->exited_cleanly(); bool has_initial_stability_log = false; if (is_initial_stability_log_required) { // If the previous session didn't exit cleanly, or if any provider // explicitly requests it, prepare an initial stability log - // provided UMA is enabled. if (state_manager_->IsMetricsReportingEnabled()) { has_initial_stability_log = PrepareInitialStabilityLog(previous_version); if (!has_initial_stability_log) provider.LogStabilityLogDeferred(); } } // If the version changed, but no initial stability log was generated, clear // the stability stats from the previous version (so that they don't get // attributed to the current version). This could otherwise happen due to a // number of different edge cases, such as if the last version crashed before // it could save off a system profile or if UMA reporting is disabled (which // normally results in stats being accumulated). if (version_changed && !has_initial_stability_log) { ClearSavedStabilityMetrics(); provider.LogStabilityDataDiscarded(); } // If the version changed, the system profile is obsolete and needs to be // cleared. This is to avoid the stability data misattribution that could // occur if the current version crashed before saving its own system profile. // Note however this clearing occurs only after preparing the initial // stability log, an operation that requires the previous version's system // profile. At this point, stability metrics pertaining to the previous // version have been cleared. if (version_changed) recorder.ClearEnvironmentFromPrefs(); // Update session ID. ++session_id_; local_state_->SetInteger(prefs::kMetricsSessionID, session_id_); // Notify stability metrics providers about the launch. provider.LogLaunch(); SetExecutionPhase(ExecutionPhase::START_METRICS_RECORDING, local_state_); provider.CheckLastSessionEndCompleted(); // Call GetUptimes() for the first time, thus allowing all later calls // to record incremental uptimes accurately. base::TimeDelta ignored_uptime_parameter; base::TimeDelta startup_uptime; GetUptimes(local_state_, &startup_uptime, &ignored_uptime_parameter); DCHECK_EQ(0, startup_uptime.InMicroseconds()); // Bookkeeping for the uninstall metrics. IncrementLongPrefsValue(prefs::kUninstallLaunchCount); } void MetricsService::OnUserAction(const std::string& action) { log_manager_.current_log()->RecordUserAction(action); HandleIdleSinceLastTransmission(false); } void MetricsService::FinishedInitTask() { DCHECK_EQ(INIT_TASK_SCHEDULED, state_); state_ = INIT_TASK_DONE; // Create the initial log. if (!initial_metrics_log_) { initial_metrics_log_ = CreateLog(MetricsLog::ONGOING_LOG); delegating_provider_.OnDidCreateMetricsLog(); } rotation_scheduler_->InitTaskComplete(); } void MetricsService::GetUptimes(PrefService* pref, base::TimeDelta* incremental_uptime, base::TimeDelta* uptime) { base::TimeTicks now = base::TimeTicks::Now(); // If this is the first call, init |first_updated_time_| and // |last_updated_time_|. if (last_updated_time_.is_null()) { first_updated_time_ = now; last_updated_time_ = now; } *incremental_uptime = now - last_updated_time_; *uptime = now - first_updated_time_; last_updated_time_ = now; const int64_t incremental_time_secs = incremental_uptime->InSeconds(); if (incremental_time_secs > 0) { int64_t metrics_uptime = pref->GetInt64(prefs::kUninstallMetricsUptimeSec); metrics_uptime += incremental_time_secs; pref->SetInt64(prefs::kUninstallMetricsUptimeSec, metrics_uptime); } } //------------------------------------------------------------------------------ // Recording control methods void MetricsService::OpenNewLog() { DCHECK(!log_manager_.current_log()); log_manager_.BeginLoggingWithLog(CreateLog(MetricsLog::ONGOING_LOG)); delegating_provider_.OnDidCreateMetricsLog(); if (state_ == INITIALIZED) { // We only need to schedule that run once. state_ = INIT_TASK_SCHEDULED; base::SequencedTaskRunnerHandle::Get()->PostDelayedTask( FROM_HERE, base::Bind(&MetricsService::StartInitTask, self_ptr_factory_.GetWeakPtr()), base::TimeDelta::FromSeconds(kInitializationDelaySeconds)); base::SequencedTaskRunnerHandle::Get()->PostDelayedTask( FROM_HERE, base::Bind(&MetricsService::PrepareProviderMetricsTask, self_ptr_factory_.GetWeakPtr()), base::TimeDelta::FromSeconds(2 * kInitializationDelaySeconds)); } } void MetricsService::StartInitTask() { delegating_provider_.AsyncInit(base::Bind(&MetricsService::FinishedInitTask, self_ptr_factory_.GetWeakPtr())); } void MetricsService::CloseCurrentLog() { if (!log_manager_.current_log()) return; // If a persistent allocator is in use, update its internal histograms (such // as how much memory is being used) before reporting. base::PersistentHistogramAllocator* allocator = base::GlobalHistogramAllocator::Get(); if (allocator) allocator->UpdateTrackingHistograms(); // Put incremental data (histogram deltas, and realtime stats deltas) at the // end of all log transmissions (initial log handles this separately). // RecordIncrementalStabilityElements only exists on the derived // MetricsLog class. MetricsLog* current_log = log_manager_.current_log(); DCHECK(current_log); RecordCurrentEnvironment(current_log); base::TimeDelta incremental_uptime; base::TimeDelta uptime; GetUptimes(local_state_, &incremental_uptime, &uptime); current_log->RecordCurrentSessionData(&delegating_provider_, incremental_uptime, uptime); RecordCurrentHistograms(); current_log->TruncateEvents(); DVLOG(1) << "Generated an ongoing log."; log_manager_.FinishCurrentLog(log_store()); } void MetricsService::PushPendingLogsToPersistentStorage() { if (state_ < SENDING_LOGS) return; // We didn't and still don't have time to get plugin list etc. CloseCurrentLog(); log_store()->PersistUnsentLogs(); } //------------------------------------------------------------------------------ // Transmission of logs methods void MetricsService::StartSchedulerIfNecessary() { // Never schedule cutting or uploading of logs in test mode. if (test_mode_active_) return; // Even if reporting is disabled, the scheduler is needed to trigger the // creation of the initial log, which must be done in order for any logs to be // persisted on shutdown or backgrounding. if (recording_active() && (reporting_active() || state_ < SENDING_LOGS)) { rotation_scheduler_->Start(); reporting_service_.Start(); } } void MetricsService::StartScheduledUpload() { DVLOG(1) << "StartScheduledUpload"; DCHECK(state_ >= INIT_TASK_DONE); // If we're getting no notifications, then the log won't have much in it, and // it's possible the computer is about to go to sleep, so don't upload and // stop the scheduler. // If recording has been turned off, the scheduler doesn't need to run. // If reporting is off, proceed if the initial log hasn't been created, since // that has to happen in order for logs to be cut and stored when persisting. // TODO(stuartmorgan): Call Stop() on the scheduler when reporting and/or // recording are turned off instead of letting it fire and then aborting. if (idle_since_last_transmission_ || !recording_active() || (!reporting_active() && state_ >= SENDING_LOGS)) { rotation_scheduler_->Stop(); rotation_scheduler_->RotationFinished(); return; } // If there are unsent logs, send the next one. If not, start the asynchronous // process of finalizing the current log for upload. if (state_ == SENDING_LOGS && has_unsent_logs()) { reporting_service_.Start(); rotation_scheduler_->RotationFinished(); } else { // There are no logs left to send, so start creating a new one. client_->CollectFinalMetricsForLog( base::Bind(&MetricsService::OnFinalLogInfoCollectionDone, self_ptr_factory_.GetWeakPtr())); } } void MetricsService::OnFinalLogInfoCollectionDone() { DVLOG(1) << "OnFinalLogInfoCollectionDone"; // Abort if metrics were turned off during the final info gathering. if (!recording_active()) { rotation_scheduler_->Stop(); rotation_scheduler_->RotationFinished(); return; } if (state_ == INIT_TASK_DONE) { PrepareInitialMetricsLog(); } else { DCHECK_EQ(SENDING_LOGS, state_); CloseCurrentLog(); OpenNewLog(); } reporting_service_.Start(); rotation_scheduler_->RotationFinished(); HandleIdleSinceLastTransmission(true); } bool MetricsService::PrepareInitialStabilityLog( const std::string& prefs_previous_version) { DCHECK_EQ(INITIALIZED, state_); std::unique_ptr initial_stability_log( CreateLog(MetricsLog::INITIAL_STABILITY_LOG)); // Do not call OnDidCreateMetricsLog here because the stability // log describes stats from the _previous_ session. std::string system_profile_app_version; if (!initial_stability_log->LoadSavedEnvironmentFromPrefs( local_state_, &system_profile_app_version)) { return false; } if (system_profile_app_version != prefs_previous_version) StabilityMetricsProvider(local_state_).LogStabilityVersionMismatch(); log_manager_.PauseCurrentLog(); log_manager_.BeginLoggingWithLog(std::move(initial_stability_log)); // Note: Some stability providers may record stability stats via histograms, // so this call has to be after BeginLoggingWithLog(). log_manager_.current_log()->RecordPreviousSessionData(&delegating_provider_); RecordCurrentStabilityHistograms(); DVLOG(1) << "Generated an stability log."; log_manager_.FinishCurrentLog(log_store()); log_manager_.ResumePausedLog(); // Store unsent logs, including the stability log that was just saved, so // that they're not lost in case of a crash before upload time. log_store()->PersistUnsentLogs(); return true; } void MetricsService::PrepareInitialMetricsLog() { DCHECK_EQ(INIT_TASK_DONE, state_); RecordCurrentEnvironment(initial_metrics_log_.get()); base::TimeDelta incremental_uptime; base::TimeDelta uptime; GetUptimes(local_state_, &incremental_uptime, &uptime); // Histograms only get written to the current log, so make the new log current // before writing them. log_manager_.PauseCurrentLog(); log_manager_.BeginLoggingWithLog(std::move(initial_metrics_log_)); // Note: Some stability providers may record stability stats via histograms, // so this call has to be after BeginLoggingWithLog(). log_manager_.current_log()->RecordCurrentSessionData( &delegating_provider_, base::TimeDelta(), base::TimeDelta()); RecordCurrentHistograms(); DVLOG(1) << "Generated an initial log."; log_manager_.FinishCurrentLog(log_store()); log_manager_.ResumePausedLog(); // Store unsent logs, including the initial log that was just saved, so // that they're not lost in case of a crash before upload time. log_store()->PersistUnsentLogs(); state_ = SENDING_LOGS; } void MetricsService::IncrementLongPrefsValue(const char* path) { int64_t value = local_state_->GetInt64(path); local_state_->SetInt64(path, value + 1); } bool MetricsService::UmaMetricsProperlyShutdown() { CHECK(clean_shutdown_status_ == CLEANLY_SHUTDOWN || clean_shutdown_status_ == NEED_TO_SHUTDOWN); return clean_shutdown_status_ == CLEANLY_SHUTDOWN; } void MetricsService::RegisterMetricsProvider( std::unique_ptr provider) { DCHECK_EQ(INITIALIZED, state_); delegating_provider_.RegisterMetricsProvider(std::move(provider)); } void MetricsService::CheckForClonedInstall() { state_manager_->CheckForClonedInstall(); } std::unique_ptr MetricsService::CreateLog( MetricsLog::LogType log_type) { return std::make_unique(state_manager_->client_id(), session_id_, log_type, client_); } std::string MetricsService::RecordCurrentEnvironmentHelper( MetricsLog* log, PrefService* local_state, DelegatingProvider* delegating_provider) { const SystemProfileProto& system_profile = log->RecordEnvironment(delegating_provider); EnvironmentRecorder recorder(local_state); return recorder.SerializeAndRecordEnvironmentToPrefs(system_profile); } void MetricsService::RecordCurrentEnvironment(MetricsLog* log) { DCHECK(client_); std::string serialized_proto = RecordCurrentEnvironmentHelper(log, local_state_, &delegating_provider_); GlobalPersistentSystemProfile::GetInstance()->SetSystemProfile( serialized_proto, /*complete=*/true); client_->OnEnvironmentUpdate(&serialized_proto); } void MetricsService::RecordCurrentHistograms() { DCHECK(log_manager_.current_log()); // "true" indicates that StatisticsRecorder should include histograms held in // persistent storage. base::StatisticsRecorder::PrepareDeltas( true, base::Histogram::kNoFlags, base::Histogram::kUmaTargetedHistogramFlag, &histogram_snapshot_manager_); delegating_provider_.RecordHistogramSnapshots(&histogram_snapshot_manager_); } void MetricsService::RecordCurrentStabilityHistograms() { DCHECK(log_manager_.current_log()); // "true" indicates that StatisticsRecorder should include histograms held in // persistent storage. base::StatisticsRecorder::PrepareDeltas( true, base::Histogram::kNoFlags, base::Histogram::kUmaStabilityHistogramFlag, &histogram_snapshot_manager_); delegating_provider_.RecordInitialHistogramSnapshots( &histogram_snapshot_manager_); } bool MetricsService::PrepareProviderMetricsLog() { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); // Create a new log. This will have some defaut values injected in it but // those will be overwritten when an embedded profile is extracted. std::unique_ptr log = CreateLog(MetricsLog::INDEPENDENT_LOG); for (auto& provider : delegating_provider_.GetProviders()) { if (log->LoadIndependentMetrics(provider.get())) { log_manager_.PauseCurrentLog(); log_manager_.BeginLoggingWithLog(std::move(log)); log_manager_.FinishCurrentLog(log_store()); log_manager_.ResumePausedLog(); return true; } } return false; } void MetricsService::PrepareProviderMetricsTask() { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); bool found = PrepareProviderMetricsLog(); base::TimeDelta next_check = found ? base::TimeDelta::FromSeconds(5) : base::TimeDelta::FromMinutes(15); base::SequencedTaskRunnerHandle::Get()->PostDelayedTask( FROM_HERE, base::Bind(&MetricsService::PrepareProviderMetricsTask, self_ptr_factory_.GetWeakPtr()), next_check); } void MetricsService::LogCleanShutdown(bool end_completed) { DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_); // Redundant setting to assure that we always reset this value at shutdown // (and that we don't use some alternate path, and not call LogCleanShutdown). clean_shutdown_status_ = CLEANLY_SHUTDOWN; client_->OnLogCleanShutdown(); state_manager_->clean_exit_beacon()->WriteBeaconValue(true); SetExecutionPhase(ExecutionPhase::SHUTDOWN_COMPLETE, local_state_); StabilityMetricsProvider(local_state_).MarkSessionEndCompleted(end_completed); } void MetricsService::UpdateLastLiveTimestampTask() { state_manager_->clean_exit_beacon()->UpdateLastLiveTimestamp(); // Schecule the next update. StartUpdatingLastLiveTimestamp(); } } // namespace metrics