Home | History | Annotate | Download | only in metrics
      1 // Copyright 2014 The Chromium Authors. All rights reserved.
      2 // Use of this source code is governed by a BSD-style license that can be
      3 // found in the LICENSE file.
      4 
      5 //------------------------------------------------------------------------------
      6 // Description of the life cycle of a instance of MetricsService.
      7 //
      8 //  OVERVIEW
      9 //
     10 // A MetricsService instance is typically created at application startup.  It is
     11 // the central controller for the acquisition of log data, and the automatic
     12 // transmission of that log data to an external server.  Its major job is to
     13 // manage logs, grouping them for transmission, and transmitting them.  As part
     14 // of its grouping, MS finalizes logs by including some just-in-time gathered
     15 // memory statistics, snapshotting the current stats of numerous histograms,
     16 // closing the logs, translating to protocol buffer format, and compressing the
     17 // results for transmission.  Transmission includes submitting a compressed log
     18 // as data in a URL-post, and retransmitting (or retaining at process
     19 // termination) if the attempted transmission failed.  Retention across process
     20 // terminations is done using the the PrefServices facilities. The retained logs
     21 // (the ones that never got transmitted) are compressed and base64-encoded
     22 // before being persisted.
     23 //
     24 // Logs fall into one of two categories: "initial logs," and "ongoing logs."
     25 // There is at most one initial log sent for each complete run of Chrome (from
     26 // startup, to browser shutdown).  An initial log is generally transmitted some
     27 // short time (1 minute?) after startup, and includes stats such as recent crash
     28 // info, the number and types of plugins, etc.  The external server's response
     29 // to the initial log conceptually tells this MS if it should continue
     30 // transmitting logs (during this session). The server response can actually be
     31 // much more detailed, and always includes (at a minimum) how often additional
     32 // ongoing logs should be sent.
     33 //
     34 // After the above initial log, a series of ongoing logs will be transmitted.
     35 // The first ongoing log actually begins to accumulate information stating when
     36 // the MS was first constructed.  Note that even though the initial log is
     37 // commonly sent a full minute after startup, the initial log does not include
     38 // much in the way of user stats.   The most common interlog period (delay)
     39 // is 30 minutes. That time period starts when the first user action causes a
     40 // logging event.  This means that if there is no user action, there may be long
     41 // periods without any (ongoing) log transmissions.  Ongoing logs typically
     42 // contain very detailed records of user activities (ex: opened tab, closed
     43 // tab, fetched URL, maximized window, etc.)  In addition, just before an
     44 // ongoing log is closed out, a call is made to gather memory statistics.  Those
     45 // memory statistics are deposited into a histogram, and the log finalization
     46 // code is then called.  In the finalization, a call to a Histogram server
     47 // acquires a list of all local histograms that have been flagged for upload
     48 // to the UMA server.  The finalization also acquires the most recent number
     49 // of page loads, along with any counts of renderer or plugin crashes.
     50 //
     51 // When the browser shuts down, there will typically be a fragment of an ongoing
     52 // log that has not yet been transmitted.  At shutdown time, that fragment is
     53 // closed (including snapshotting histograms), and persisted, for potential
     54 // transmission during a future run of the product.
     55 //
     56 // There are two slightly abnormal shutdown conditions.  There is a
     57 // "disconnected scenario," and a "really fast startup and shutdown" scenario.
     58 // In the "never connected" situation, the user has (during the running of the
     59 // process) never established an internet connection.  As a result, attempts to
     60 // transmit the initial log have failed, and a lot(?) of data has accumulated in
     61 // the ongoing log (which didn't yet get closed, because there was never even a
     62 // contemplation of sending it).  There is also a kindred "lost connection"
     63 // situation, where a loss of connection prevented an ongoing log from being
     64 // transmitted, and a (still open) log was stuck accumulating a lot(?) of data,
     65 // while the earlier log retried its transmission.  In both of these
     66 // disconnected situations, two logs need to be, and are, persistently stored
     67 // for future transmission.
     68 //
     69 // The other unusual shutdown condition, termed "really fast startup and
     70 // shutdown," involves the deliberate user termination of the process before
     71 // the initial log is even formed or transmitted. In that situation, no logging
     72 // is done, but the historical crash statistics remain (unlogged) for inclusion
     73 // in a future run's initial log.  (i.e., we don't lose crash stats).
     74 //
     75 // With the above overview, we can now describe the state machine's various
     76 // states, based on the State enum specified in the state_ member.  Those states
     77 // are:
     78 //
     79 //  INITIALIZED,                   // Constructor was called.
     80 //  INIT_TASK_SCHEDULED,           // Waiting for deferred init tasks to finish.
     81 //  INIT_TASK_DONE,                // Waiting for timer to send initial log.
     82 //  SENDING_INITIAL_STABILITY_LOG, // Initial stability log being sent.
     83 //  SENDING_INITIAL_METRICS_LOG,   // Initial metrics log being sent.
     84 //  SENDING_OLD_LOGS,              // Sending unsent logs from previous session.
     85 //  SENDING_CURRENT_LOGS,          // Sending ongoing logs as they acrue.
     86 //
     87 // In more detail, we have:
     88 //
     89 //    INITIALIZED,            // Constructor was called.
     90 // The MS has been constructed, but has taken no actions to compose the
     91 // initial log.
     92 //
     93 //    INIT_TASK_SCHEDULED,    // Waiting for deferred init tasks to finish.
     94 // Typically about 30 seconds after startup, a task is sent to a second thread
     95 // (the file thread) to perform deferred (lower priority and slower)
     96 // initialization steps such as getting the list of plugins.  That task will
     97 // (when complete) make an async callback (via a Task) to indicate the
     98 // completion.
     99 //
    100 //    INIT_TASK_DONE,         // Waiting for timer to send initial log.
    101 // The callback has arrived, and it is now possible for an initial log to be
    102 // created.  This callback typically arrives back less than one second after
    103 // the deferred init task is dispatched.
    104 //
    105 //    SENDING_INITIAL_STABILITY_LOG,  // Initial stability log being sent.
    106 // During initialization, if a crash occurred during the previous session, an
    107 // initial stability log will be generated and registered with the log manager.
    108 // This state will be entered if a stability log was prepared during metrics
    109 // service initialization (in InitializeMetricsRecordingState()) and is waiting
    110 // to be transmitted when it's time to send up the first log (per the reporting
    111 // scheduler).  If there is no initial stability log (e.g. there was no previous
    112 // crash), then this state will be skipped and the state will advance to
    113 // SENDING_INITIAL_METRICS_LOG.
    114 //
    115 //    SENDING_INITIAL_METRICS_LOG,  // Initial metrics log being sent.
    116 // This state is entered after the initial metrics log has been composed, and
    117 // prepared for transmission.  This happens after SENDING_INITIAL_STABILITY_LOG
    118 // if there was an initial stability log (see above).  It is also the case that
    119 // any previously unsent logs have been loaded into instance variables for
    120 // possible transmission.
    121 //
    122 //    SENDING_OLD_LOGS,       // Sending unsent logs from previous session.
    123 // This state indicates that the initial log for this session has been
    124 // successfully sent and it is now time to send any logs that were
    125 // saved from previous sessions.  All such logs will be transmitted before
    126 // exiting this state, and proceeding with ongoing logs from the current session
    127 // (see next state).
    128 //
    129 //    SENDING_CURRENT_LOGS,   // Sending standard current logs as they accrue.
    130 // Current logs are being accumulated.  Typically every 20 minutes a log is
    131 // closed and finalized for transmission, at the same time as a new log is
    132 // started.
    133 //
    134 // The progression through the above states is simple, and sequential, in the
    135 // most common use cases.  States proceed from INITIAL to SENDING_CURRENT_LOGS,
    136 // and remain in the latter until shutdown.
    137 //
    138 // The one unusual case is when the user asks that we stop logging.  When that
    139 // happens, any staged (transmission in progress) log is persisted, and any log
    140 // that is currently accumulating is also finalized and persisted.  We then
    141 // regress back to the SEND_OLD_LOGS state in case the user enables log
    142 // recording again during this session.  This way anything we have persisted
    143 // will be sent automatically if/when we progress back to SENDING_CURRENT_LOG
    144 // state.
    145 //
    146 // Another similar case is on mobile, when the application is backgrounded and
    147 // then foregrounded again. Backgrounding created new "old" stored logs, so the
    148 // state drops back from SENDING_CURRENT_LOGS to SENDING_OLD_LOGS so those logs
    149 // will be sent.
    150 //
    151 // Also note that whenever we successfully send an old log, we mirror the list
    152 // of logs into the PrefService. This ensures that IF we crash, we won't start
    153 // up and retransmit our old logs again.
    154 //
    155 // Due to race conditions, it is always possible that a log file could be sent
    156 // twice.  For example, if a log file is sent, but not yet acknowledged by
    157 // the external server, and the user shuts down, then a copy of the log may be
    158 // saved for re-transmission.  These duplicates could be filtered out server
    159 // side, but are not expected to be a significant problem.
    160 //
    161 //
    162 //------------------------------------------------------------------------------
    163 
    164 #include "components/metrics/metrics_service.h"
    165 
    166 #include <algorithm>
    167 
    168 #include "base/bind.h"
    169 #include "base/callback.h"
    170 #include "base/metrics/histogram.h"
    171 #include "base/metrics/histogram_base.h"
    172 #include "base/metrics/histogram_samples.h"
    173 #include "base/metrics/sparse_histogram.h"
    174 #include "base/metrics/statistics_recorder.h"
    175 #include "base/prefs/pref_registry_simple.h"
    176 #include "base/prefs/pref_service.h"
    177 #include "base/strings/string_number_conversions.h"
    178 #include "base/strings/utf_string_conversions.h"
    179 #include "base/threading/platform_thread.h"
    180 #include "base/threading/thread.h"
    181 #include "base/threading/thread_restrictions.h"
    182 #include "base/time/time.h"
    183 #include "base/tracked_objects.h"
    184 #include "base/values.h"
    185 #include "components/metrics/metrics_log.h"
    186 #include "components/metrics/metrics_log_manager.h"
    187 #include "components/metrics/metrics_log_uploader.h"
    188 #include "components/metrics/metrics_pref_names.h"
    189 #include "components/metrics/metrics_reporting_scheduler.h"
    190 #include "components/metrics/metrics_service_client.h"
    191 #include "components/metrics/metrics_state_manager.h"
    192 #include "components/variations/entropy_provider.h"
    193 
    194 namespace metrics {
    195 
    196 namespace {
    197 
    198 // Check to see that we're being called on only one thread.
    199 bool IsSingleThreaded() {
    200   static base::PlatformThreadId thread_id = 0;
    201   if (!thread_id)
    202     thread_id = base::PlatformThread::CurrentId();
    203   return base::PlatformThread::CurrentId() == thread_id;
    204 }
    205 
    206 // The delay, in seconds, after starting recording before doing expensive
    207 // initialization work.
    208 #if defined(OS_ANDROID) || defined(OS_IOS)
    209 // On mobile devices, a significant portion of sessions last less than a minute.
    210 // Use a shorter timer on these platforms to avoid losing data.
    211 // TODO(dfalcantara): To avoid delaying startup, tighten up initialization so
    212 //                    that it occurs after the user gets their initial page.
    213 const int kInitializationDelaySeconds = 5;
    214 #else
    215 const int kInitializationDelaySeconds = 30;
    216 #endif
    217 
    218 // The maximum number of events in a log uploaded to the UMA server.
    219 const int kEventLimit = 2400;
    220 
    221 // If an upload fails, and the transmission was over this byte count, then we
    222 // will discard the log, and not try to retransmit it.  We also don't persist
    223 // the log to the prefs for transmission during the next chrome session if this
    224 // limit is exceeded.
    225 const size_t kUploadLogAvoidRetransmitSize = 100 * 1024;
    226 
    227 // Interval, in minutes, between state saves.
    228 const int kSaveStateIntervalMinutes = 5;
    229 
    230 // The metrics server's URL.
    231 const char kServerUrl[] = "https://clients4.google.com/uma/v2";
    232 
    233 // The MIME type for the uploaded metrics data.
    234 const char kMimeType[] = "application/vnd.chrome.uma";
    235 
    236 enum ResponseStatus {
    237   UNKNOWN_FAILURE,
    238   SUCCESS,
    239   BAD_REQUEST,  // Invalid syntax or log too large.
    240   NO_RESPONSE,
    241   NUM_RESPONSE_STATUSES
    242 };
    243 
    244 ResponseStatus ResponseCodeToStatus(int response_code) {
    245   switch (response_code) {
    246     case -1:
    247       return NO_RESPONSE;
    248     case 200:
    249       return SUCCESS;
    250     case 400:
    251       return BAD_REQUEST;
    252     default:
    253       return UNKNOWN_FAILURE;
    254   }
    255 }
    256 
    257 void MarkAppCleanShutdownAndCommit(CleanExitBeacon* clean_exit_beacon,
    258                                    PrefService* local_state) {
    259   clean_exit_beacon->WriteBeaconValue(true);
    260   local_state->SetInteger(metrics::prefs::kStabilityExecutionPhase,
    261                           MetricsService::SHUTDOWN_COMPLETE);
    262   // Start writing right away (write happens on a different thread).
    263   local_state->CommitPendingWrite();
    264 }
    265 
    266 }  // namespace
    267 
    268 
    269 SyntheticTrialGroup::SyntheticTrialGroup(uint32 trial, uint32 group) {
    270   id.name = trial;
    271   id.group = group;
    272 }
    273 
    274 SyntheticTrialGroup::~SyntheticTrialGroup() {
    275 }
    276 
    277 // static
    278 MetricsService::ShutdownCleanliness MetricsService::clean_shutdown_status_ =
    279     MetricsService::CLEANLY_SHUTDOWN;
    280 
    281 MetricsService::ExecutionPhase MetricsService::execution_phase_ =
    282     MetricsService::UNINITIALIZED_PHASE;
    283 
    284 // static
    285 void MetricsService::RegisterPrefs(PrefRegistrySimple* registry) {
    286   DCHECK(IsSingleThreaded());
    287   metrics::MetricsStateManager::RegisterPrefs(registry);
    288   MetricsLog::RegisterPrefs(registry);
    289 
    290   registry->RegisterInt64Pref(metrics::prefs::kInstallDate, 0);
    291 
    292   registry->RegisterInt64Pref(metrics::prefs::kStabilityLaunchTimeSec, 0);
    293   registry->RegisterInt64Pref(metrics::prefs::kStabilityLastTimestampSec, 0);
    294   registry->RegisterStringPref(metrics::prefs::kStabilityStatsVersion,
    295                                std::string());
    296   registry->RegisterInt64Pref(metrics::prefs::kStabilityStatsBuildTime, 0);
    297   registry->RegisterBooleanPref(metrics::prefs::kStabilityExitedCleanly, true);
    298   registry->RegisterIntegerPref(metrics::prefs::kStabilityExecutionPhase,
    299                                 UNINITIALIZED_PHASE);
    300   registry->RegisterBooleanPref(metrics::prefs::kStabilitySessionEndCompleted,
    301                                 true);
    302   registry->RegisterIntegerPref(metrics::prefs::kMetricsSessionID, -1);
    303 
    304   registry->RegisterListPref(metrics::prefs::kMetricsInitialLogs);
    305   registry->RegisterListPref(metrics::prefs::kMetricsOngoingLogs);
    306 
    307   registry->RegisterInt64Pref(metrics::prefs::kUninstallLaunchCount, 0);
    308   registry->RegisterInt64Pref(metrics::prefs::kUninstallMetricsUptimeSec, 0);
    309 }
    310 
    311 MetricsService::MetricsService(metrics::MetricsStateManager* state_manager,
    312                                metrics::MetricsServiceClient* client,
    313                                PrefService* local_state)
    314     : log_manager_(local_state, kUploadLogAvoidRetransmitSize),
    315       histogram_snapshot_manager_(this),
    316       state_manager_(state_manager),
    317       client_(client),
    318       local_state_(local_state),
    319       clean_exit_beacon_(client->GetRegistryBackupKey(), local_state),
    320       recording_active_(false),
    321       reporting_active_(false),
    322       test_mode_active_(false),
    323       state_(INITIALIZED),
    324       has_initial_stability_log_(false),
    325       log_upload_in_progress_(false),
    326       idle_since_last_transmission_(false),
    327       session_id_(-1),
    328       self_ptr_factory_(this),
    329       state_saver_factory_(this) {
    330   DCHECK(IsSingleThreaded());
    331   DCHECK(state_manager_);
    332   DCHECK(client_);
    333   DCHECK(local_state_);
    334 
    335   // Set the install date if this is our first run.
    336   int64 install_date = local_state_->GetInt64(metrics::prefs::kInstallDate);
    337   if (install_date == 0) {
    338     local_state_->SetInt64(metrics::prefs::kInstallDate,
    339                            base::Time::Now().ToTimeT());
    340   }
    341 }
    342 
    343 MetricsService::~MetricsService() {
    344   DisableRecording();
    345 }
    346 
    347 void MetricsService::InitializeMetricsRecordingState() {
    348   InitializeMetricsState();
    349 
    350   base::Closure callback = base::Bind(&MetricsService::StartScheduledUpload,
    351                                       self_ptr_factory_.GetWeakPtr());
    352   scheduler_.reset(new MetricsReportingScheduler(callback));
    353 }
    354 
    355 void MetricsService::Start() {
    356   HandleIdleSinceLastTransmission(false);
    357   EnableRecording();
    358   EnableReporting();
    359 }
    360 
    361 bool MetricsService::StartIfMetricsReportingEnabled() {
    362   const bool enabled = state_manager_->IsMetricsReportingEnabled();
    363   if (enabled)
    364     Start();
    365   return enabled;
    366 }
    367 
    368 void MetricsService::StartRecordingForTests() {
    369   test_mode_active_ = true;
    370   EnableRecording();
    371   DisableReporting();
    372 }
    373 
    374 void MetricsService::Stop() {
    375   HandleIdleSinceLastTransmission(false);
    376   DisableReporting();
    377   DisableRecording();
    378 }
    379 
    380 void MetricsService::EnableReporting() {
    381   if (reporting_active_)
    382     return;
    383   reporting_active_ = true;
    384   StartSchedulerIfNecessary();
    385 }
    386 
    387 void MetricsService::DisableReporting() {
    388   reporting_active_ = false;
    389 }
    390 
    391 std::string MetricsService::GetClientId() {
    392   return state_manager_->client_id();
    393 }
    394 
    395 int64 MetricsService::GetInstallDate() {
    396   return local_state_->GetInt64(metrics::prefs::kInstallDate);
    397 }
    398 
    399 scoped_ptr<const base::FieldTrial::EntropyProvider>
    400 MetricsService::CreateEntropyProvider() {
    401   // TODO(asvitkine): Refactor the code so that MetricsService does not expose
    402   // this method.
    403   return state_manager_->CreateEntropyProvider();
    404 }
    405 
    406 void MetricsService::EnableRecording() {
    407   DCHECK(IsSingleThreaded());
    408 
    409   if (recording_active_)
    410     return;
    411   recording_active_ = true;
    412 
    413   state_manager_->ForceClientIdCreation();
    414   client_->SetMetricsClientId(state_manager_->client_id());
    415   if (!log_manager_.current_log())
    416     OpenNewLog();
    417 
    418   for (size_t i = 0; i < metrics_providers_.size(); ++i)
    419     metrics_providers_[i]->OnRecordingEnabled();
    420 
    421   base::RemoveActionCallback(action_callback_);
    422   action_callback_ = base::Bind(&MetricsService::OnUserAction,
    423                                 base::Unretained(this));
    424   base::AddActionCallback(action_callback_);
    425 }
    426 
    427 void MetricsService::DisableRecording() {
    428   DCHECK(IsSingleThreaded());
    429 
    430   if (!recording_active_)
    431     return;
    432   recording_active_ = false;
    433 
    434   base::RemoveActionCallback(action_callback_);
    435 
    436   for (size_t i = 0; i < metrics_providers_.size(); ++i)
    437     metrics_providers_[i]->OnRecordingDisabled();
    438 
    439   PushPendingLogsToPersistentStorage();
    440 }
    441 
    442 bool MetricsService::recording_active() const {
    443   DCHECK(IsSingleThreaded());
    444   return recording_active_;
    445 }
    446 
    447 bool MetricsService::reporting_active() const {
    448   DCHECK(IsSingleThreaded());
    449   return reporting_active_;
    450 }
    451 
    452 void MetricsService::RecordDelta(const base::HistogramBase& histogram,
    453                                  const base::HistogramSamples& snapshot) {
    454   log_manager_.current_log()->RecordHistogramDelta(histogram.histogram_name(),
    455                                                    snapshot);
    456 }
    457 
    458 void MetricsService::InconsistencyDetected(
    459     base::HistogramBase::Inconsistency problem) {
    460   UMA_HISTOGRAM_ENUMERATION("Histogram.InconsistenciesBrowser",
    461                             problem, base::HistogramBase::NEVER_EXCEEDED_VALUE);
    462 }
    463 
    464 void MetricsService::UniqueInconsistencyDetected(
    465     base::HistogramBase::Inconsistency problem) {
    466   UMA_HISTOGRAM_ENUMERATION("Histogram.InconsistenciesBrowserUnique",
    467                             problem, base::HistogramBase::NEVER_EXCEEDED_VALUE);
    468 }
    469 
    470 void MetricsService::InconsistencyDetectedInLoggedCount(int amount) {
    471   UMA_HISTOGRAM_COUNTS("Histogram.InconsistentSnapshotBrowser",
    472                        std::abs(amount));
    473 }
    474 
    475 void MetricsService::HandleIdleSinceLastTransmission(bool in_idle) {
    476   // If there wasn't a lot of action, maybe the computer was asleep, in which
    477   // case, the log transmissions should have stopped.  Here we start them up
    478   // again.
    479   if (!in_idle && idle_since_last_transmission_)
    480     StartSchedulerIfNecessary();
    481   idle_since_last_transmission_ = in_idle;
    482 }
    483 
    484 void MetricsService::OnApplicationNotIdle() {
    485   if (recording_active_)
    486     HandleIdleSinceLastTransmission(false);
    487 }
    488 
    489 void MetricsService::RecordStartOfSessionEnd() {
    490   LogCleanShutdown();
    491   RecordBooleanPrefValue(metrics::prefs::kStabilitySessionEndCompleted, false);
    492 }
    493 
    494 void MetricsService::RecordCompletedSessionEnd() {
    495   LogCleanShutdown();
    496   RecordBooleanPrefValue(metrics::prefs::kStabilitySessionEndCompleted, true);
    497 }
    498 
    499 #if defined(OS_ANDROID) || defined(OS_IOS)
    500 void MetricsService::OnAppEnterBackground() {
    501   scheduler_->Stop();
    502 
    503   MarkAppCleanShutdownAndCommit(&clean_exit_beacon_, local_state_);
    504 
    505   // At this point, there's no way of knowing when the process will be
    506   // killed, so this has to be treated similar to a shutdown, closing and
    507   // persisting all logs. Unlinke a shutdown, the state is primed to be ready
    508   // to continue logging and uploading if the process does return.
    509   if (recording_active() && state_ >= SENDING_INITIAL_STABILITY_LOG) {
    510     PushPendingLogsToPersistentStorage();
    511     // Persisting logs closes the current log, so start recording a new log
    512     // immediately to capture any background work that might be done before the
    513     // process is killed.
    514     OpenNewLog();
    515   }
    516 }
    517 
    518 void MetricsService::OnAppEnterForeground() {
    519   clean_exit_beacon_.WriteBeaconValue(false);
    520   StartSchedulerIfNecessary();
    521 }
    522 #else
    523 void MetricsService::LogNeedForCleanShutdown() {
    524   clean_exit_beacon_.WriteBeaconValue(false);
    525   // Redundant setting to be sure we call for a clean shutdown.
    526   clean_shutdown_status_ = NEED_TO_SHUTDOWN;
    527 }
    528 #endif  // defined(OS_ANDROID) || defined(OS_IOS)
    529 
    530 // static
    531 void MetricsService::SetExecutionPhase(ExecutionPhase execution_phase,
    532                                        PrefService* local_state) {
    533   execution_phase_ = execution_phase;
    534   local_state->SetInteger(metrics::prefs::kStabilityExecutionPhase,
    535                           execution_phase_);
    536 }
    537 
    538 void MetricsService::RecordBreakpadRegistration(bool success) {
    539   if (!success)
    540     IncrementPrefValue(metrics::prefs::kStabilityBreakpadRegistrationFail);
    541   else
    542     IncrementPrefValue(metrics::prefs::kStabilityBreakpadRegistrationSuccess);
    543 }
    544 
    545 void MetricsService::RecordBreakpadHasDebugger(bool has_debugger) {
    546   if (!has_debugger)
    547     IncrementPrefValue(metrics::prefs::kStabilityDebuggerNotPresent);
    548   else
    549     IncrementPrefValue(metrics::prefs::kStabilityDebuggerPresent);
    550 }
    551 
    552 //------------------------------------------------------------------------------
    553 // private methods
    554 //------------------------------------------------------------------------------
    555 
    556 
    557 //------------------------------------------------------------------------------
    558 // Initialization methods
    559 
    560 void MetricsService::InitializeMetricsState() {
    561   const int64 buildtime = MetricsLog::GetBuildTime();
    562   const std::string version = client_->GetVersionString();
    563   bool version_changed = false;
    564   if (local_state_->GetInt64(prefs::kStabilityStatsBuildTime) != buildtime ||
    565       local_state_->GetString(prefs::kStabilityStatsVersion) != version) {
    566     local_state_->SetString(metrics::prefs::kStabilityStatsVersion, version);
    567     local_state_->SetInt64(metrics::prefs::kStabilityStatsBuildTime, buildtime);
    568     version_changed = true;
    569   }
    570 
    571   log_manager_.LoadPersistedUnsentLogs();
    572 
    573   session_id_ = local_state_->GetInteger(metrics::prefs::kMetricsSessionID);
    574 
    575   if (!clean_exit_beacon_.exited_cleanly()) {
    576     IncrementPrefValue(metrics::prefs::kStabilityCrashCount);
    577     // Reset flag, and wait until we call LogNeedForCleanShutdown() before
    578     // monitoring.
    579     clean_exit_beacon_.WriteBeaconValue(true);
    580   }
    581 
    582   if (!clean_exit_beacon_.exited_cleanly() || ProvidersHaveStabilityMetrics()) {
    583     // TODO(rtenneti): On windows, consider saving/getting execution_phase from
    584     // the registry.
    585     int execution_phase =
    586         local_state_->GetInteger(metrics::prefs::kStabilityExecutionPhase);
    587     UMA_HISTOGRAM_SPARSE_SLOWLY("Chrome.Browser.CrashedExecutionPhase",
    588                                 execution_phase);
    589 
    590     // If the previous session didn't exit cleanly, or if any provider
    591     // explicitly requests it, prepare an initial stability log -
    592     // provided UMA is enabled.
    593     if (state_manager_->IsMetricsReportingEnabled())
    594       PrepareInitialStabilityLog();
    595   }
    596 
    597   // If no initial stability log was generated and there was a version upgrade,
    598   // clear the stability stats from the previous version (so that they don't get
    599   // attributed to the current version). This could otherwise happen due to a
    600   // number of different edge cases, such as if the last version crashed before
    601   // it could save off a system profile or if UMA reporting is disabled (which
    602   // normally results in stats being accumulated).
    603   if (!has_initial_stability_log_ && version_changed) {
    604     for (size_t i = 0; i < metrics_providers_.size(); ++i)
    605       metrics_providers_[i]->ClearSavedStabilityMetrics();
    606 
    607     // Reset the prefs that are managed by MetricsService/MetricsLog directly.
    608     local_state_->SetInteger(prefs::kStabilityCrashCount, 0);
    609     local_state_->SetInteger(prefs::kStabilityExecutionPhase,
    610                              UNINITIALIZED_PHASE);
    611     local_state_->SetInteger(prefs::kStabilityIncompleteSessionEndCount, 0);
    612     local_state_->SetInteger(prefs::kStabilityLaunchCount, 0);
    613     local_state_->SetBoolean(prefs::kStabilitySessionEndCompleted, true);
    614   }
    615 
    616   // Update session ID.
    617   ++session_id_;
    618   local_state_->SetInteger(metrics::prefs::kMetricsSessionID, session_id_);
    619 
    620   // Stability bookkeeping
    621   IncrementPrefValue(metrics::prefs::kStabilityLaunchCount);
    622 
    623   DCHECK_EQ(UNINITIALIZED_PHASE, execution_phase_);
    624   SetExecutionPhase(START_METRICS_RECORDING, local_state_);
    625 
    626   if (!local_state_->GetBoolean(
    627           metrics::prefs::kStabilitySessionEndCompleted)) {
    628     IncrementPrefValue(metrics::prefs::kStabilityIncompleteSessionEndCount);
    629     // This is marked false when we get a WM_ENDSESSION.
    630     local_state_->SetBoolean(metrics::prefs::kStabilitySessionEndCompleted,
    631                              true);
    632   }
    633 
    634   // Call GetUptimes() for the first time, thus allowing all later calls
    635   // to record incremental uptimes accurately.
    636   base::TimeDelta ignored_uptime_parameter;
    637   base::TimeDelta startup_uptime;
    638   GetUptimes(local_state_, &startup_uptime, &ignored_uptime_parameter);
    639   DCHECK_EQ(0, startup_uptime.InMicroseconds());
    640   // For backwards compatibility, leave this intact in case Omaha is checking
    641   // them.  metrics::prefs::kStabilityLastTimestampSec may also be useless now.
    642   // TODO(jar): Delete these if they have no uses.
    643   local_state_->SetInt64(metrics::prefs::kStabilityLaunchTimeSec,
    644                          base::Time::Now().ToTimeT());
    645 
    646   // Bookkeeping for the uninstall metrics.
    647   IncrementLongPrefsValue(metrics::prefs::kUninstallLaunchCount);
    648 
    649   // Kick off the process of saving the state (so the uptime numbers keep
    650   // getting updated) every n minutes.
    651   ScheduleNextStateSave();
    652 }
    653 
    654 void MetricsService::OnUserAction(const std::string& action) {
    655   if (!ShouldLogEvents())
    656     return;
    657 
    658   log_manager_.current_log()->RecordUserAction(action);
    659   HandleIdleSinceLastTransmission(false);
    660 }
    661 
    662 void MetricsService::FinishedGatheringInitialMetrics() {
    663   DCHECK_EQ(INIT_TASK_SCHEDULED, state_);
    664   state_ = INIT_TASK_DONE;
    665 
    666   // Create the initial log.
    667   if (!initial_metrics_log_.get()) {
    668     initial_metrics_log_ = CreateLog(MetricsLog::ONGOING_LOG);
    669     NotifyOnDidCreateMetricsLog();
    670   }
    671 
    672   scheduler_->InitTaskComplete();
    673 }
    674 
    675 void MetricsService::GetUptimes(PrefService* pref,
    676                                 base::TimeDelta* incremental_uptime,
    677                                 base::TimeDelta* uptime) {
    678   base::TimeTicks now = base::TimeTicks::Now();
    679   // If this is the first call, init |first_updated_time_| and
    680   // |last_updated_time_|.
    681   if (last_updated_time_.is_null()) {
    682     first_updated_time_ = now;
    683     last_updated_time_ = now;
    684   }
    685   *incremental_uptime = now - last_updated_time_;
    686   *uptime = now - first_updated_time_;
    687   last_updated_time_ = now;
    688 
    689   const int64 incremental_time_secs = incremental_uptime->InSeconds();
    690   if (incremental_time_secs > 0) {
    691     int64 metrics_uptime =
    692         pref->GetInt64(metrics::prefs::kUninstallMetricsUptimeSec);
    693     metrics_uptime += incremental_time_secs;
    694     pref->SetInt64(metrics::prefs::kUninstallMetricsUptimeSec, metrics_uptime);
    695   }
    696 }
    697 
    698 void MetricsService::NotifyOnDidCreateMetricsLog() {
    699   DCHECK(IsSingleThreaded());
    700   for (size_t i = 0; i < metrics_providers_.size(); ++i)
    701     metrics_providers_[i]->OnDidCreateMetricsLog();
    702 }
    703 
    704 //------------------------------------------------------------------------------
    705 // State save methods
    706 
    707 void MetricsService::ScheduleNextStateSave() {
    708   state_saver_factory_.InvalidateWeakPtrs();
    709 
    710   base::MessageLoop::current()->PostDelayedTask(FROM_HERE,
    711       base::Bind(&MetricsService::SaveLocalState,
    712                  state_saver_factory_.GetWeakPtr()),
    713       base::TimeDelta::FromMinutes(kSaveStateIntervalMinutes));
    714 }
    715 
    716 void MetricsService::SaveLocalState() {
    717   RecordCurrentState(local_state_);
    718 
    719   // TODO(jar):110021 Does this run down the batteries????
    720   ScheduleNextStateSave();
    721 }
    722 
    723 
    724 //------------------------------------------------------------------------------
    725 // Recording control methods
    726 
    727 void MetricsService::OpenNewLog() {
    728   DCHECK(!log_manager_.current_log());
    729 
    730   log_manager_.BeginLoggingWithLog(CreateLog(MetricsLog::ONGOING_LOG));
    731   NotifyOnDidCreateMetricsLog();
    732   if (state_ == INITIALIZED) {
    733     // We only need to schedule that run once.
    734     state_ = INIT_TASK_SCHEDULED;
    735 
    736     base::MessageLoop::current()->PostDelayedTask(
    737         FROM_HERE,
    738         base::Bind(&MetricsService::StartGatheringMetrics,
    739                    self_ptr_factory_.GetWeakPtr()),
    740         base::TimeDelta::FromSeconds(kInitializationDelaySeconds));
    741   }
    742 }
    743 
    744 void MetricsService::StartGatheringMetrics() {
    745   client_->StartGatheringMetrics(
    746       base::Bind(&MetricsService::FinishedGatheringInitialMetrics,
    747                  self_ptr_factory_.GetWeakPtr()));
    748 }
    749 
    750 void MetricsService::CloseCurrentLog() {
    751   if (!log_manager_.current_log())
    752     return;
    753 
    754   // TODO(jar): Integrate bounds on log recording more consistently, so that we
    755   // can stop recording logs that are too big much sooner.
    756   if (log_manager_.current_log()->num_events() > kEventLimit) {
    757     UMA_HISTOGRAM_COUNTS("UMA.Discarded Log Events",
    758                          log_manager_.current_log()->num_events());
    759     log_manager_.DiscardCurrentLog();
    760     OpenNewLog();  // Start trivial log to hold our histograms.
    761   }
    762 
    763   // Put incremental data (histogram deltas, and realtime stats deltas) at the
    764   // end of all log transmissions (initial log handles this separately).
    765   // RecordIncrementalStabilityElements only exists on the derived
    766   // MetricsLog class.
    767   MetricsLog* current_log = log_manager_.current_log();
    768   DCHECK(current_log);
    769   std::vector<variations::ActiveGroupId> synthetic_trials;
    770   GetCurrentSyntheticFieldTrials(&synthetic_trials);
    771   current_log->RecordEnvironment(
    772       metrics_providers_.get(), synthetic_trials, GetInstallDate());
    773   base::TimeDelta incremental_uptime;
    774   base::TimeDelta uptime;
    775   GetUptimes(local_state_, &incremental_uptime, &uptime);
    776   current_log->RecordStabilityMetrics(metrics_providers_.get(),
    777                                       incremental_uptime, uptime);
    778 
    779   current_log->RecordGeneralMetrics(metrics_providers_.get());
    780   RecordCurrentHistograms();
    781 
    782   log_manager_.FinishCurrentLog();
    783 }
    784 
    785 void MetricsService::PushPendingLogsToPersistentStorage() {
    786   if (state_ < SENDING_INITIAL_STABILITY_LOG)
    787     return;  // We didn't and still don't have time to get plugin list etc.
    788 
    789   CloseCurrentLog();
    790   log_manager_.PersistUnsentLogs();
    791 
    792   // If there was a staged and/or current log, then there is now at least one
    793   // log waiting to be uploaded.
    794   if (log_manager_.has_unsent_logs())
    795     state_ = SENDING_OLD_LOGS;
    796 }
    797 
    798 //------------------------------------------------------------------------------
    799 // Transmission of logs methods
    800 
    801 void MetricsService::StartSchedulerIfNecessary() {
    802   // Never schedule cutting or uploading of logs in test mode.
    803   if (test_mode_active_)
    804     return;
    805 
    806   // Even if reporting is disabled, the scheduler is needed to trigger the
    807   // creation of the initial log, which must be done in order for any logs to be
    808   // persisted on shutdown or backgrounding.
    809   if (recording_active() &&
    810       (reporting_active() || state_ < SENDING_INITIAL_STABILITY_LOG)) {
    811     scheduler_->Start();
    812   }
    813 }
    814 
    815 void MetricsService::StartScheduledUpload() {
    816   // If we're getting no notifications, then the log won't have much in it, and
    817   // it's possible the computer is about to go to sleep, so don't upload and
    818   // stop the scheduler.
    819   // If recording has been turned off, the scheduler doesn't need to run.
    820   // If reporting is off, proceed if the initial log hasn't been created, since
    821   // that has to happen in order for logs to be cut and stored when persisting.
    822   // TODO(stuartmorgan): Call Stop() on the scheduler when reporting and/or
    823   // recording are turned off instead of letting it fire and then aborting.
    824   if (idle_since_last_transmission_ ||
    825       !recording_active() ||
    826       (!reporting_active() && state_ >= SENDING_INITIAL_STABILITY_LOG)) {
    827     scheduler_->Stop();
    828     scheduler_->UploadCancelled();
    829     return;
    830   }
    831 
    832   // If the callback was to upload an old log, but there no longer is one,
    833   // just report success back to the scheduler to begin the ongoing log
    834   // callbacks.
    835   // TODO(stuartmorgan): Consider removing the distinction between
    836   // SENDING_OLD_LOGS and SENDING_CURRENT_LOGS to simplify the state machine
    837   // now that the log upload flow is the same for both modes.
    838   if (state_ == SENDING_OLD_LOGS && !log_manager_.has_unsent_logs()) {
    839     state_ = SENDING_CURRENT_LOGS;
    840     scheduler_->UploadFinished(true /* healthy */, false /* no unsent logs */);
    841     return;
    842   }
    843   // If there are unsent logs, send the next one. If not, start the asynchronous
    844   // process of finalizing the current log for upload.
    845   if (state_ == SENDING_OLD_LOGS) {
    846     DCHECK(log_manager_.has_unsent_logs());
    847     log_manager_.StageNextLogForUpload();
    848     SendStagedLog();
    849   } else {
    850     client_->CollectFinalMetrics(
    851         base::Bind(&MetricsService::OnFinalLogInfoCollectionDone,
    852                    self_ptr_factory_.GetWeakPtr()));
    853   }
    854 }
    855 
    856 void MetricsService::OnFinalLogInfoCollectionDone() {
    857   // If somehow there is a log upload in progress, we return and hope things
    858   // work out. The scheduler isn't informed since if this happens, the scheduler
    859   // will get a response from the upload.
    860   DCHECK(!log_upload_in_progress_);
    861   if (log_upload_in_progress_)
    862     return;
    863 
    864   // Abort if metrics were turned off during the final info gathering.
    865   if (!recording_active()) {
    866     scheduler_->Stop();
    867     scheduler_->UploadCancelled();
    868     return;
    869   }
    870 
    871   StageNewLog();
    872 
    873   // If logs shouldn't be uploaded, stop here. It's important that this check
    874   // be after StageNewLog(), otherwise the previous logs will never be loaded,
    875   // and thus the open log won't be persisted.
    876   // TODO(stuartmorgan): This is unnecessarily complicated; restructure loading
    877   // of previous logs to not require running part of the upload logic.
    878   // http://crbug.com/157337
    879   if (!reporting_active()) {
    880     scheduler_->Stop();
    881     scheduler_->UploadCancelled();
    882     return;
    883   }
    884 
    885   SendStagedLog();
    886 }
    887 
    888 void MetricsService::StageNewLog() {
    889   if (log_manager_.has_staged_log())
    890     return;
    891 
    892   switch (state_) {
    893     case INITIALIZED:
    894     case INIT_TASK_SCHEDULED:  // We should be further along by now.
    895       NOTREACHED();
    896       return;
    897 
    898     case INIT_TASK_DONE:
    899       if (has_initial_stability_log_) {
    900         // There's an initial stability log, ready to send.
    901         log_manager_.StageNextLogForUpload();
    902         has_initial_stability_log_ = false;
    903         state_ = SENDING_INITIAL_STABILITY_LOG;
    904       } else {
    905         PrepareInitialMetricsLog();
    906         state_ = SENDING_INITIAL_METRICS_LOG;
    907       }
    908       break;
    909 
    910     case SENDING_OLD_LOGS:
    911       NOTREACHED();  // Shouldn't be staging a new log during old log sending.
    912       return;
    913 
    914     case SENDING_CURRENT_LOGS:
    915       CloseCurrentLog();
    916       OpenNewLog();
    917       log_manager_.StageNextLogForUpload();
    918       break;
    919 
    920     default:
    921       NOTREACHED();
    922       return;
    923   }
    924 
    925   DCHECK(log_manager_.has_staged_log());
    926 }
    927 
    928 bool MetricsService::ProvidersHaveStabilityMetrics() {
    929   // Check whether any metrics provider has stability metrics.
    930   for (size_t i = 0; i < metrics_providers_.size(); ++i) {
    931     if (metrics_providers_[i]->HasStabilityMetrics())
    932       return true;
    933   }
    934 
    935   return false;
    936 }
    937 
    938 void MetricsService::PrepareInitialStabilityLog() {
    939   DCHECK_EQ(INITIALIZED, state_);
    940 
    941   scoped_ptr<MetricsLog> initial_stability_log(
    942       CreateLog(MetricsLog::INITIAL_STABILITY_LOG));
    943 
    944   // Do not call NotifyOnDidCreateMetricsLog here because the stability
    945   // log describes stats from the _previous_ session.
    946 
    947   if (!initial_stability_log->LoadSavedEnvironmentFromPrefs())
    948     return;
    949 
    950   log_manager_.PauseCurrentLog();
    951   log_manager_.BeginLoggingWithLog(initial_stability_log.Pass());
    952 
    953   // Note: Some stability providers may record stability stats via histograms,
    954   //       so this call has to be after BeginLoggingWithLog().
    955   log_manager_.current_log()->RecordStabilityMetrics(
    956       metrics_providers_.get(), base::TimeDelta(), base::TimeDelta());
    957   RecordCurrentStabilityHistograms();
    958 
    959   // Note: RecordGeneralMetrics() intentionally not called since this log is for
    960   //       stability stats from a previous session only.
    961 
    962   log_manager_.FinishCurrentLog();
    963   log_manager_.ResumePausedLog();
    964 
    965   // Store unsent logs, including the stability log that was just saved, so
    966   // that they're not lost in case of a crash before upload time.
    967   log_manager_.PersistUnsentLogs();
    968 
    969   has_initial_stability_log_ = true;
    970 }
    971 
    972 void MetricsService::PrepareInitialMetricsLog() {
    973   DCHECK(state_ == INIT_TASK_DONE || state_ == SENDING_INITIAL_STABILITY_LOG);
    974 
    975   std::vector<variations::ActiveGroupId> synthetic_trials;
    976   GetCurrentSyntheticFieldTrials(&synthetic_trials);
    977   initial_metrics_log_->RecordEnvironment(metrics_providers_.get(),
    978                                           synthetic_trials,
    979                                           GetInstallDate());
    980   base::TimeDelta incremental_uptime;
    981   base::TimeDelta uptime;
    982   GetUptimes(local_state_, &incremental_uptime, &uptime);
    983 
    984   // Histograms only get written to the current log, so make the new log current
    985   // before writing them.
    986   log_manager_.PauseCurrentLog();
    987   log_manager_.BeginLoggingWithLog(initial_metrics_log_.Pass());
    988 
    989   // Note: Some stability providers may record stability stats via histograms,
    990   //       so this call has to be after BeginLoggingWithLog().
    991   MetricsLog* current_log = log_manager_.current_log();
    992   current_log->RecordStabilityMetrics(metrics_providers_.get(),
    993                                       base::TimeDelta(), base::TimeDelta());
    994   current_log->RecordGeneralMetrics(metrics_providers_.get());
    995   RecordCurrentHistograms();
    996 
    997   log_manager_.FinishCurrentLog();
    998   log_manager_.ResumePausedLog();
    999 
   1000   // Store unsent logs, including the initial log that was just saved, so
   1001   // that they're not lost in case of a crash before upload time.
   1002   log_manager_.PersistUnsentLogs();
   1003 
   1004   DCHECK(!log_manager_.has_staged_log());
   1005   log_manager_.StageNextLogForUpload();
   1006 }
   1007 
   1008 void MetricsService::SendStagedLog() {
   1009   DCHECK(log_manager_.has_staged_log());
   1010   if (!log_manager_.has_staged_log())
   1011     return;
   1012 
   1013   DCHECK(!log_upload_in_progress_);
   1014   log_upload_in_progress_ = true;
   1015 
   1016   if (!log_uploader_) {
   1017     log_uploader_ = client_->CreateUploader(
   1018         kServerUrl, kMimeType,
   1019         base::Bind(&MetricsService::OnLogUploadComplete,
   1020                    self_ptr_factory_.GetWeakPtr()));
   1021   }
   1022 
   1023   const std::string hash =
   1024       base::HexEncode(log_manager_.staged_log_hash().data(),
   1025                       log_manager_.staged_log_hash().size());
   1026   bool success = log_uploader_->UploadLog(log_manager_.staged_log(), hash);
   1027   UMA_HISTOGRAM_BOOLEAN("UMA.UploadCreation", success);
   1028   if (!success) {
   1029     // Skip this upload and hope things work out next time.
   1030     log_manager_.DiscardStagedLog();
   1031     scheduler_->UploadCancelled();
   1032     log_upload_in_progress_ = false;
   1033     return;
   1034   }
   1035 
   1036   HandleIdleSinceLastTransmission(true);
   1037 }
   1038 
   1039 
   1040 void MetricsService::OnLogUploadComplete(int response_code) {
   1041   DCHECK(log_upload_in_progress_);
   1042   log_upload_in_progress_ = false;
   1043 
   1044   // Log a histogram to track response success vs. failure rates.
   1045   UMA_HISTOGRAM_ENUMERATION("UMA.UploadResponseStatus.Protobuf",
   1046                             ResponseCodeToStatus(response_code),
   1047                             NUM_RESPONSE_STATUSES);
   1048 
   1049   bool upload_succeeded = response_code == 200;
   1050 
   1051   // Provide boolean for error recovery (allow us to ignore response_code).
   1052   bool discard_log = false;
   1053   const size_t log_size = log_manager_.staged_log().length();
   1054   if (upload_succeeded) {
   1055     UMA_HISTOGRAM_COUNTS_10000("UMA.LogSize.OnSuccess", log_size / 1024);
   1056   } else if (log_size > kUploadLogAvoidRetransmitSize) {
   1057     UMA_HISTOGRAM_COUNTS("UMA.Large Rejected Log was Discarded",
   1058                          static_cast<int>(log_size));
   1059     discard_log = true;
   1060   } else if (response_code == 400) {
   1061     // Bad syntax.  Retransmission won't work.
   1062     discard_log = true;
   1063   }
   1064 
   1065   if (upload_succeeded || discard_log) {
   1066     log_manager_.DiscardStagedLog();
   1067     // Store the updated list to disk now that the removed log is uploaded.
   1068     log_manager_.PersistUnsentLogs();
   1069   }
   1070 
   1071   if (!log_manager_.has_staged_log()) {
   1072     switch (state_) {
   1073       case SENDING_INITIAL_STABILITY_LOG:
   1074         PrepareInitialMetricsLog();
   1075         SendStagedLog();
   1076         state_ = SENDING_INITIAL_METRICS_LOG;
   1077         break;
   1078 
   1079       case SENDING_INITIAL_METRICS_LOG:
   1080         state_ = log_manager_.has_unsent_logs() ? SENDING_OLD_LOGS
   1081                                                 : SENDING_CURRENT_LOGS;
   1082         break;
   1083 
   1084       case SENDING_OLD_LOGS:
   1085         if (!log_manager_.has_unsent_logs())
   1086           state_ = SENDING_CURRENT_LOGS;
   1087         break;
   1088 
   1089       case SENDING_CURRENT_LOGS:
   1090         break;
   1091 
   1092       default:
   1093         NOTREACHED();
   1094         break;
   1095     }
   1096 
   1097     if (log_manager_.has_unsent_logs())
   1098       DCHECK_LT(state_, SENDING_CURRENT_LOGS);
   1099   }
   1100 
   1101   // Error 400 indicates a problem with the log, not with the server, so
   1102   // don't consider that a sign that the server is in trouble.
   1103   bool server_is_healthy = upload_succeeded || response_code == 400;
   1104   // Don't notify the scheduler that the upload is finished if we've only sent
   1105   // the initial stability log, but not yet the initial metrics log (treat the
   1106   // two as a single unit of work as far as the scheduler is concerned).
   1107   if (state_ != SENDING_INITIAL_METRICS_LOG) {
   1108     scheduler_->UploadFinished(server_is_healthy,
   1109                                log_manager_.has_unsent_logs());
   1110   }
   1111 
   1112   if (server_is_healthy)
   1113     client_->OnLogUploadComplete();
   1114 }
   1115 
   1116 void MetricsService::IncrementPrefValue(const char* path) {
   1117   int value = local_state_->GetInteger(path);
   1118   local_state_->SetInteger(path, value + 1);
   1119 }
   1120 
   1121 void MetricsService::IncrementLongPrefsValue(const char* path) {
   1122   int64 value = local_state_->GetInt64(path);
   1123   local_state_->SetInt64(path, value + 1);
   1124 }
   1125 
   1126 bool MetricsService::UmaMetricsProperlyShutdown() {
   1127   CHECK(clean_shutdown_status_ == CLEANLY_SHUTDOWN ||
   1128         clean_shutdown_status_ == NEED_TO_SHUTDOWN);
   1129   return clean_shutdown_status_ == CLEANLY_SHUTDOWN;
   1130 }
   1131 
   1132 void MetricsService::RegisterSyntheticFieldTrial(
   1133     const SyntheticTrialGroup& trial) {
   1134   for (size_t i = 0; i < synthetic_trial_groups_.size(); ++i) {
   1135     if (synthetic_trial_groups_[i].id.name == trial.id.name) {
   1136       if (synthetic_trial_groups_[i].id.group != trial.id.group) {
   1137         synthetic_trial_groups_[i].id.group = trial.id.group;
   1138         synthetic_trial_groups_[i].start_time = base::TimeTicks::Now();
   1139       }
   1140       return;
   1141     }
   1142   }
   1143 
   1144   SyntheticTrialGroup trial_group = trial;
   1145   trial_group.start_time = base::TimeTicks::Now();
   1146   synthetic_trial_groups_.push_back(trial_group);
   1147 }
   1148 
   1149 void MetricsService::RegisterMetricsProvider(
   1150     scoped_ptr<metrics::MetricsProvider> provider) {
   1151   DCHECK_EQ(INITIALIZED, state_);
   1152   metrics_providers_.push_back(provider.release());
   1153 }
   1154 
   1155 void MetricsService::CheckForClonedInstall(
   1156     scoped_refptr<base::SingleThreadTaskRunner> task_runner) {
   1157   state_manager_->CheckForClonedInstall(task_runner);
   1158 }
   1159 
   1160 void MetricsService::GetCurrentSyntheticFieldTrials(
   1161     std::vector<variations::ActiveGroupId>* synthetic_trials) {
   1162   DCHECK(synthetic_trials);
   1163   synthetic_trials->clear();
   1164   const MetricsLog* current_log = log_manager_.current_log();
   1165   for (size_t i = 0; i < synthetic_trial_groups_.size(); ++i) {
   1166     if (synthetic_trial_groups_[i].start_time <= current_log->creation_time())
   1167       synthetic_trials->push_back(synthetic_trial_groups_[i].id);
   1168   }
   1169 }
   1170 
   1171 scoped_ptr<MetricsLog> MetricsService::CreateLog(MetricsLog::LogType log_type) {
   1172   return make_scoped_ptr(new MetricsLog(state_manager_->client_id(),
   1173                                         session_id_,
   1174                                         log_type,
   1175                                         client_,
   1176                                         local_state_));
   1177 }
   1178 
   1179 void MetricsService::RecordCurrentHistograms() {
   1180   DCHECK(log_manager_.current_log());
   1181   histogram_snapshot_manager_.PrepareDeltas(
   1182       base::Histogram::kNoFlags, base::Histogram::kUmaTargetedHistogramFlag);
   1183 }
   1184 
   1185 void MetricsService::RecordCurrentStabilityHistograms() {
   1186   DCHECK(log_manager_.current_log());
   1187   histogram_snapshot_manager_.PrepareDeltas(
   1188       base::Histogram::kNoFlags, base::Histogram::kUmaStabilityHistogramFlag);
   1189 }
   1190 
   1191 void MetricsService::LogCleanShutdown() {
   1192   // Redundant hack to write pref ASAP.
   1193   MarkAppCleanShutdownAndCommit(&clean_exit_beacon_, local_state_);
   1194 
   1195   // Redundant setting to assure that we always reset this value at shutdown
   1196   // (and that we don't use some alternate path, and not call LogCleanShutdown).
   1197   clean_shutdown_status_ = CLEANLY_SHUTDOWN;
   1198 
   1199   clean_exit_beacon_.WriteBeaconValue(true);
   1200   RecordCurrentState(local_state_);
   1201   local_state_->SetInteger(metrics::prefs::kStabilityExecutionPhase,
   1202                            MetricsService::SHUTDOWN_COMPLETE);
   1203 }
   1204 
   1205 bool MetricsService::ShouldLogEvents() {
   1206   // We simply don't log events to UMA if there is a single incognito
   1207   // session visible. The problem is that we always notify using the orginal
   1208   // profile in order to simplify notification processing.
   1209   return !client_->IsOffTheRecordSessionActive();
   1210 }
   1211 
   1212 void MetricsService::RecordBooleanPrefValue(const char* path, bool value) {
   1213   DCHECK(IsSingleThreaded());
   1214   local_state_->SetBoolean(path, value);
   1215   RecordCurrentState(local_state_);
   1216 }
   1217 
   1218 void MetricsService::RecordCurrentState(PrefService* pref) {
   1219   pref->SetInt64(metrics::prefs::kStabilityLastTimestampSec,
   1220                  base::Time::Now().ToTimeT());
   1221 }
   1222 
   1223 }  // namespace metrics
   1224