// Copyright (C) 2017 The Android Open Source Project // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. #include #include "src/StatsLogProcessor.h" #include "src/stats_log_util.h" #include "tests/statsd_test_util.h" #include namespace android { namespace os { namespace statsd { #ifdef __ANDROID__ namespace { StatsdConfig CreateStatsdConfig(const GaugeMetric::SamplingType sampling_type) { StatsdConfig config; config.add_allowed_log_source("AID_ROOT"); // LogEvent defaults to UID of root. auto temperatureAtomMatcher = CreateTemperatureAtomMatcher(); *config.add_atom_matcher() = temperatureAtomMatcher; *config.add_atom_matcher() = CreateScreenTurnedOnAtomMatcher(); *config.add_atom_matcher() = CreateScreenTurnedOffAtomMatcher(); auto screenIsOffPredicate = CreateScreenIsOffPredicate(); *config.add_predicate() = screenIsOffPredicate; auto gaugeMetric = config.add_gauge_metric(); gaugeMetric->set_id(123456); gaugeMetric->set_what(temperatureAtomMatcher.id()); gaugeMetric->set_condition(screenIsOffPredicate.id()); gaugeMetric->set_sampling_type(sampling_type); gaugeMetric->mutable_gauge_fields_filter()->set_include_all(true); *gaugeMetric->mutable_dimensions_in_what() = CreateDimensions(android::util::TEMPERATURE, {2/* sensor name field */ }); gaugeMetric->set_bucket(FIVE_MINUTES); return config; } } // namespace TEST(GaugeMetricE2eTest, TestRandomSamplePulledEvents) { auto config = CreateStatsdConfig(GaugeMetric::RANDOM_ONE_SAMPLE); int64_t baseTimeNs = 10 * NS_PER_SEC; int64_t configAddedTimeNs = 10 * 60 * NS_PER_SEC + baseTimeNs; int64_t bucketSizeNs = TimeUnitToBucketSizeInMillis(config.gauge_metric(0).bucket()) * 1000000; ConfigKey cfgKey; auto processor = CreateStatsLogProcessor( baseTimeNs, configAddedTimeNs, config, cfgKey); EXPECT_EQ(processor->mMetricsManagers.size(), 1u); EXPECT_TRUE(processor->mMetricsManagers.begin()->second->isConfigValid()); processor->mStatsPullerManager.ForceClearPullerCache(); int startBucketNum = processor->mMetricsManagers.begin()->second-> mAllMetricProducers[0]->getCurrentBucketNum(); EXPECT_GT(startBucketNum, (int64_t)0); // When creating the config, the gauge metric producer should register the alarm at the // end of the current bucket. EXPECT_EQ((size_t)1, StatsPullerManagerImpl::GetInstance().mReceivers.size()); EXPECT_EQ(bucketSizeNs, StatsPullerManagerImpl::GetInstance().mReceivers.begin()-> second.front().intervalNs); int64_t& nextPullTimeNs = StatsPullerManagerImpl::GetInstance().mReceivers.begin()-> second.front().nextPullTimeNs; EXPECT_EQ(baseTimeNs + startBucketNum * bucketSizeNs + bucketSizeNs, nextPullTimeNs); auto screenOffEvent = CreateScreenStateChangedEvent(android::view::DISPLAY_STATE_OFF, configAddedTimeNs + 55); processor->OnLogEvent(screenOffEvent.get()); // Pulling alarm arrives on time and reset the sequential pulling alarm. processor->informPullAlarmFired(nextPullTimeNs + 1); EXPECT_EQ(baseTimeNs + startBucketNum * bucketSizeNs + 2 * bucketSizeNs, nextPullTimeNs); auto screenOnEvent = CreateScreenStateChangedEvent(android::view::DISPLAY_STATE_ON, configAddedTimeNs + bucketSizeNs + 10); processor->OnLogEvent(screenOnEvent.get()); screenOffEvent = CreateScreenStateChangedEvent(android::view::DISPLAY_STATE_OFF, configAddedTimeNs + bucketSizeNs + 100); processor->OnLogEvent(screenOffEvent.get()); processor->informPullAlarmFired(nextPullTimeNs + 1); EXPECT_EQ(baseTimeNs + startBucketNum * bucketSizeNs + 3 * bucketSizeNs, nextPullTimeNs); processor->informPullAlarmFired(nextPullTimeNs + 1); EXPECT_EQ(baseTimeNs + startBucketNum * bucketSizeNs + 4 * bucketSizeNs, nextPullTimeNs); screenOnEvent = CreateScreenStateChangedEvent(android::view::DISPLAY_STATE_ON, configAddedTimeNs + 3 * bucketSizeNs + 2); processor->OnLogEvent(screenOnEvent.get()); processor->informPullAlarmFired(nextPullTimeNs + 3); EXPECT_EQ(baseTimeNs + startBucketNum * bucketSizeNs + 5 * bucketSizeNs, nextPullTimeNs); screenOffEvent = CreateScreenStateChangedEvent(android::view::DISPLAY_STATE_OFF, configAddedTimeNs + 5 * bucketSizeNs + 1); processor->OnLogEvent(screenOffEvent.get()); processor->informPullAlarmFired(nextPullTimeNs + 2); EXPECT_EQ(baseTimeNs + startBucketNum * bucketSizeNs + 6 * bucketSizeNs, nextPullTimeNs); processor->informPullAlarmFired(nextPullTimeNs + 2); ConfigMetricsReportList reports; vector buffer; processor->onDumpReport(cfgKey, configAddedTimeNs + 7 * bucketSizeNs + 10, false, ADB_DUMP, &buffer); EXPECT_TRUE(buffer.size() > 0); EXPECT_TRUE(reports.ParseFromArray(&buffer[0], buffer.size())); backfillDimensionPath(&reports); backfillStringInReport(&reports); backfillStartEndTimestamp(&reports); EXPECT_EQ(1, reports.reports_size()); EXPECT_EQ(1, reports.reports(0).metrics_size()); StatsLogReport::GaugeMetricDataWrapper gaugeMetrics; sortMetricDataByDimensionsValue( reports.reports(0).metrics(0).gauge_metrics(), &gaugeMetrics); EXPECT_GT((int)gaugeMetrics.data_size(), 1); auto data = gaugeMetrics.data(0); EXPECT_EQ(android::util::TEMPERATURE, data.dimensions_in_what().field()); EXPECT_EQ(1, data.dimensions_in_what().value_tuple().dimensions_value_size()); EXPECT_EQ(2 /* sensor name field */, data.dimensions_in_what().value_tuple().dimensions_value(0).field()); EXPECT_FALSE(data.dimensions_in_what().value_tuple().dimensions_value(0).value_str().empty()); EXPECT_EQ(6, data.bucket_info_size()); EXPECT_EQ(1, data.bucket_info(0).atom_size()); EXPECT_EQ(1, data.bucket_info(0).elapsed_timestamp_nanos_size()); EXPECT_EQ(configAddedTimeNs + 55, data.bucket_info(0).elapsed_timestamp_nanos(0)); EXPECT_EQ(1, data.bucket_info(0).wall_clock_timestamp_nanos_size()); EXPECT_EQ(baseTimeNs + 2 * bucketSizeNs, data.bucket_info(0).start_bucket_elapsed_nanos()); EXPECT_EQ(baseTimeNs + 3 * bucketSizeNs, data.bucket_info(0).end_bucket_elapsed_nanos()); EXPECT_FALSE(data.bucket_info(0).atom(0).temperature().sensor_name().empty()); EXPECT_GT(data.bucket_info(0).atom(0).temperature().temperature_dc(), 0); EXPECT_EQ(1, data.bucket_info(1).atom_size()); EXPECT_EQ(baseTimeNs + 3 * bucketSizeNs + 1, data.bucket_info(1).elapsed_timestamp_nanos(0)); EXPECT_EQ(configAddedTimeNs + 55, data.bucket_info(0).elapsed_timestamp_nanos(0)); EXPECT_EQ(baseTimeNs + 3 * bucketSizeNs, data.bucket_info(1).start_bucket_elapsed_nanos()); EXPECT_EQ(baseTimeNs + 4 * bucketSizeNs, data.bucket_info(1).end_bucket_elapsed_nanos()); EXPECT_FALSE(data.bucket_info(1).atom(0).temperature().sensor_name().empty()); EXPECT_GT(data.bucket_info(1).atom(0).temperature().temperature_dc(), 0); EXPECT_EQ(1, data.bucket_info(2).atom_size()); EXPECT_EQ(1, data.bucket_info(2).elapsed_timestamp_nanos_size()); EXPECT_EQ(baseTimeNs + 4 * bucketSizeNs + 1, data.bucket_info(2).elapsed_timestamp_nanos(0)); EXPECT_EQ(baseTimeNs + 4 * bucketSizeNs, data.bucket_info(2).start_bucket_elapsed_nanos()); EXPECT_EQ(baseTimeNs + 5 * bucketSizeNs, data.bucket_info(2).end_bucket_elapsed_nanos()); EXPECT_FALSE(data.bucket_info(2).atom(0).temperature().sensor_name().empty()); EXPECT_GT(data.bucket_info(2).atom(0).temperature().temperature_dc(), 0); EXPECT_EQ(1, data.bucket_info(3).atom_size()); EXPECT_EQ(1, data.bucket_info(3).elapsed_timestamp_nanos_size()); EXPECT_EQ(baseTimeNs + 5 * bucketSizeNs + 1, data.bucket_info(3).elapsed_timestamp_nanos(0)); EXPECT_EQ(baseTimeNs + 5 * bucketSizeNs, data.bucket_info(3).start_bucket_elapsed_nanos()); EXPECT_EQ(baseTimeNs + 6 * bucketSizeNs, data.bucket_info(3).end_bucket_elapsed_nanos()); EXPECT_FALSE(data.bucket_info(3).atom(0).temperature().sensor_name().empty()); EXPECT_GT(data.bucket_info(3).atom(0).temperature().temperature_dc(), 0); EXPECT_EQ(1, data.bucket_info(4).atom_size()); EXPECT_EQ(1, data.bucket_info(4).elapsed_timestamp_nanos_size()); EXPECT_EQ(baseTimeNs + 7 * bucketSizeNs + 1, data.bucket_info(4).elapsed_timestamp_nanos(0)); EXPECT_EQ(baseTimeNs + 7 * bucketSizeNs, data.bucket_info(4).start_bucket_elapsed_nanos()); EXPECT_EQ(baseTimeNs + 8 * bucketSizeNs, data.bucket_info(4).end_bucket_elapsed_nanos()); EXPECT_FALSE(data.bucket_info(4).atom(0).temperature().sensor_name().empty()); EXPECT_GT(data.bucket_info(4).atom(0).temperature().temperature_dc(), 0); EXPECT_EQ(1, data.bucket_info(5).atom_size()); EXPECT_EQ(1, data.bucket_info(5).elapsed_timestamp_nanos_size()); EXPECT_EQ(baseTimeNs + 8 * bucketSizeNs + 2, data.bucket_info(5).elapsed_timestamp_nanos(0)); EXPECT_EQ(baseTimeNs + 8 * bucketSizeNs, data.bucket_info(5).start_bucket_elapsed_nanos()); EXPECT_EQ(baseTimeNs + 9 * bucketSizeNs, data.bucket_info(5).end_bucket_elapsed_nanos()); EXPECT_FALSE(data.bucket_info(5).atom(0).temperature().sensor_name().empty()); EXPECT_GT(data.bucket_info(5).atom(0).temperature().temperature_dc(), 0); } TEST(GaugeMetricE2eTest, TestAllConditionChangesSamplePulledEvents) { auto config = CreateStatsdConfig(GaugeMetric::ALL_CONDITION_CHANGES); int64_t baseTimeNs = 10 * NS_PER_SEC; int64_t configAddedTimeNs = 10 * 60 * NS_PER_SEC + baseTimeNs; int64_t bucketSizeNs = TimeUnitToBucketSizeInMillis(config.gauge_metric(0).bucket()) * 1000000; ConfigKey cfgKey; auto processor = CreateStatsLogProcessor( baseTimeNs, configAddedTimeNs, config, cfgKey); EXPECT_EQ(processor->mMetricsManagers.size(), 1u); EXPECT_TRUE(processor->mMetricsManagers.begin()->second->isConfigValid()); processor->mStatsPullerManager.ForceClearPullerCache(); int startBucketNum = processor->mMetricsManagers.begin()->second-> mAllMetricProducers[0]->getCurrentBucketNum(); EXPECT_GT(startBucketNum, (int64_t)0); auto screenOffEvent = CreateScreenStateChangedEvent(android::view::DISPLAY_STATE_OFF, configAddedTimeNs + 55); processor->OnLogEvent(screenOffEvent.get()); auto screenOnEvent = CreateScreenStateChangedEvent(android::view::DISPLAY_STATE_ON, configAddedTimeNs + bucketSizeNs + 10); processor->OnLogEvent(screenOnEvent.get()); screenOffEvent = CreateScreenStateChangedEvent(android::view::DISPLAY_STATE_OFF, configAddedTimeNs + bucketSizeNs + 100); processor->OnLogEvent(screenOffEvent.get()); screenOnEvent = CreateScreenStateChangedEvent(android::view::DISPLAY_STATE_ON, configAddedTimeNs + 3 * bucketSizeNs + 2); processor->OnLogEvent(screenOnEvent.get()); screenOffEvent = CreateScreenStateChangedEvent(android::view::DISPLAY_STATE_OFF, configAddedTimeNs + 5 * bucketSizeNs + 1); processor->OnLogEvent(screenOffEvent.get()); screenOnEvent = CreateScreenStateChangedEvent(android::view::DISPLAY_STATE_ON, configAddedTimeNs + 5 * bucketSizeNs + 3); processor->OnLogEvent(screenOnEvent.get()); screenOffEvent = CreateScreenStateChangedEvent(android::view::DISPLAY_STATE_OFF, configAddedTimeNs + 5 * bucketSizeNs + 10); processor->OnLogEvent(screenOffEvent.get()); ConfigMetricsReportList reports; vector buffer; processor->onDumpReport(cfgKey, configAddedTimeNs + 8 * bucketSizeNs + 10, false, ADB_DUMP, &buffer); EXPECT_TRUE(buffer.size() > 0); EXPECT_TRUE(reports.ParseFromArray(&buffer[0], buffer.size())); backfillDimensionPath(&reports); backfillStringInReport(&reports); backfillStartEndTimestamp(&reports); EXPECT_EQ(1, reports.reports_size()); EXPECT_EQ(1, reports.reports(0).metrics_size()); StatsLogReport::GaugeMetricDataWrapper gaugeMetrics; sortMetricDataByDimensionsValue( reports.reports(0).metrics(0).gauge_metrics(), &gaugeMetrics); EXPECT_GT((int)gaugeMetrics.data_size(), 1); auto data = gaugeMetrics.data(0); EXPECT_EQ(android::util::TEMPERATURE, data.dimensions_in_what().field()); EXPECT_EQ(1, data.dimensions_in_what().value_tuple().dimensions_value_size()); EXPECT_EQ(2 /* sensor name field */, data.dimensions_in_what().value_tuple().dimensions_value(0).field()); EXPECT_FALSE(data.dimensions_in_what().value_tuple().dimensions_value(0).value_str().empty()); EXPECT_EQ(3, data.bucket_info_size()); EXPECT_EQ(1, data.bucket_info(0).atom_size()); EXPECT_EQ(1, data.bucket_info(0).elapsed_timestamp_nanos_size()); EXPECT_EQ(configAddedTimeNs + 55, data.bucket_info(0).elapsed_timestamp_nanos(0)); EXPECT_EQ(1, data.bucket_info(0).wall_clock_timestamp_nanos_size()); EXPECT_EQ(baseTimeNs + 2 * bucketSizeNs, data.bucket_info(0).start_bucket_elapsed_nanos()); EXPECT_EQ(baseTimeNs + 3 * bucketSizeNs, data.bucket_info(0).end_bucket_elapsed_nanos()); EXPECT_FALSE(data.bucket_info(0).atom(0).temperature().sensor_name().empty()); EXPECT_GT(data.bucket_info(0).atom(0).temperature().temperature_dc(), 0); EXPECT_EQ(1, data.bucket_info(1).atom_size()); EXPECT_EQ(baseTimeNs + 3 * bucketSizeNs + 100, data.bucket_info(1).elapsed_timestamp_nanos(0)); EXPECT_EQ(configAddedTimeNs + 55, data.bucket_info(0).elapsed_timestamp_nanos(0)); EXPECT_EQ(baseTimeNs + 3 * bucketSizeNs, data.bucket_info(1).start_bucket_elapsed_nanos()); EXPECT_EQ(baseTimeNs + 4 * bucketSizeNs, data.bucket_info(1).end_bucket_elapsed_nanos()); EXPECT_FALSE(data.bucket_info(1).atom(0).temperature().sensor_name().empty()); EXPECT_GT(data.bucket_info(1).atom(0).temperature().temperature_dc(), 0); EXPECT_EQ(2, data.bucket_info(2).atom_size()); EXPECT_EQ(2, data.bucket_info(2).elapsed_timestamp_nanos_size()); EXPECT_EQ(baseTimeNs + 7 * bucketSizeNs + 1, data.bucket_info(2).elapsed_timestamp_nanos(0)); EXPECT_EQ(baseTimeNs + 7 * bucketSizeNs + 10, data.bucket_info(2).elapsed_timestamp_nanos(1)); EXPECT_EQ(baseTimeNs + 7 * bucketSizeNs, data.bucket_info(2).start_bucket_elapsed_nanos()); EXPECT_EQ(baseTimeNs + 8 * bucketSizeNs, data.bucket_info(2).end_bucket_elapsed_nanos()); EXPECT_FALSE(data.bucket_info(2).atom(0).temperature().sensor_name().empty()); EXPECT_GT(data.bucket_info(2).atom(0).temperature().temperature_dc(), 0); EXPECT_FALSE(data.bucket_info(2).atom(1).temperature().sensor_name().empty()); EXPECT_GT(data.bucket_info(2).atom(1).temperature().temperature_dc(), 0); } TEST(GaugeMetricE2eTest, TestRandomSamplePulledEvent_LateAlarm) { auto config = CreateStatsdConfig(GaugeMetric::RANDOM_ONE_SAMPLE); int64_t baseTimeNs = 10 * NS_PER_SEC; int64_t configAddedTimeNs = 10 * 60 * NS_PER_SEC + baseTimeNs; int64_t bucketSizeNs = TimeUnitToBucketSizeInMillis(config.gauge_metric(0).bucket()) * 1000000; ConfigKey cfgKey; auto processor = CreateStatsLogProcessor( baseTimeNs, configAddedTimeNs, config, cfgKey); EXPECT_EQ(processor->mMetricsManagers.size(), 1u); EXPECT_TRUE(processor->mMetricsManagers.begin()->second->isConfigValid()); processor->mStatsPullerManager.ForceClearPullerCache(); int startBucketNum = processor->mMetricsManagers.begin()->second-> mAllMetricProducers[0]->getCurrentBucketNum(); EXPECT_GT(startBucketNum, (int64_t)0); // When creating the config, the gauge metric producer should register the alarm at the // end of the current bucket. EXPECT_EQ((size_t)1, StatsPullerManagerImpl::GetInstance().mReceivers.size()); EXPECT_EQ(bucketSizeNs, StatsPullerManagerImpl::GetInstance().mReceivers.begin()-> second.front().intervalNs); int64_t& nextPullTimeNs = StatsPullerManagerImpl::GetInstance().mReceivers.begin()-> second.front().nextPullTimeNs; EXPECT_EQ(baseTimeNs + startBucketNum * bucketSizeNs + bucketSizeNs, nextPullTimeNs); auto screenOffEvent = CreateScreenStateChangedEvent(android::view::DISPLAY_STATE_OFF, configAddedTimeNs + 55); processor->OnLogEvent(screenOffEvent.get()); auto screenOnEvent = CreateScreenStateChangedEvent(android::view::DISPLAY_STATE_ON, configAddedTimeNs + bucketSizeNs + 10); processor->OnLogEvent(screenOnEvent.get()); // Pulling alarm arrives one bucket size late. processor->informPullAlarmFired(nextPullTimeNs + bucketSizeNs); EXPECT_EQ(baseTimeNs + startBucketNum * bucketSizeNs + 3 * bucketSizeNs, nextPullTimeNs); screenOffEvent = CreateScreenStateChangedEvent(android::view::DISPLAY_STATE_OFF, configAddedTimeNs + 3 * bucketSizeNs + 11); processor->OnLogEvent(screenOffEvent.get()); // Pulling alarm arrives more than one bucket size late. processor->informPullAlarmFired(nextPullTimeNs + bucketSizeNs + 12); EXPECT_EQ(baseTimeNs + startBucketNum * bucketSizeNs + 5 * bucketSizeNs, nextPullTimeNs); ConfigMetricsReportList reports; vector buffer; processor->onDumpReport(cfgKey, configAddedTimeNs + 7 * bucketSizeNs + 10, false, ADB_DUMP, &buffer); EXPECT_TRUE(buffer.size() > 0); EXPECT_TRUE(reports.ParseFromArray(&buffer[0], buffer.size())); backfillDimensionPath(&reports); backfillStringInReport(&reports); backfillStartEndTimestamp(&reports); EXPECT_EQ(1, reports.reports_size()); EXPECT_EQ(1, reports.reports(0).metrics_size()); StatsLogReport::GaugeMetricDataWrapper gaugeMetrics; sortMetricDataByDimensionsValue( reports.reports(0).metrics(0).gauge_metrics(), &gaugeMetrics); EXPECT_GT((int)gaugeMetrics.data_size(), 1); auto data = gaugeMetrics.data(0); EXPECT_EQ(android::util::TEMPERATURE, data.dimensions_in_what().field()); EXPECT_EQ(1, data.dimensions_in_what().value_tuple().dimensions_value_size()); EXPECT_EQ(2 /* sensor name field */, data.dimensions_in_what().value_tuple().dimensions_value(0).field()); EXPECT_FALSE(data.dimensions_in_what().value_tuple().dimensions_value(0).value_str().empty()); EXPECT_EQ(3, data.bucket_info_size()); EXPECT_EQ(1, data.bucket_info(0).atom_size()); EXPECT_EQ(1, data.bucket_info(0).elapsed_timestamp_nanos_size()); EXPECT_EQ(configAddedTimeNs + 55, data.bucket_info(0).elapsed_timestamp_nanos(0)); EXPECT_EQ(1, data.bucket_info(0).wall_clock_timestamp_nanos_size()); EXPECT_EQ(baseTimeNs + 2 * bucketSizeNs, data.bucket_info(0).start_bucket_elapsed_nanos()); EXPECT_EQ(baseTimeNs + 3 * bucketSizeNs, data.bucket_info(0).end_bucket_elapsed_nanos()); EXPECT_FALSE(data.bucket_info(0).atom(0).temperature().sensor_name().empty()); EXPECT_GT(data.bucket_info(0).atom(0).temperature().temperature_dc(), 0); EXPECT_EQ(1, data.bucket_info(1).atom_size()); EXPECT_EQ(configAddedTimeNs + 3 * bucketSizeNs + 11, data.bucket_info(1).elapsed_timestamp_nanos(0)); EXPECT_EQ(configAddedTimeNs + 55, data.bucket_info(0).elapsed_timestamp_nanos(0)); EXPECT_EQ(baseTimeNs + 5 * bucketSizeNs, data.bucket_info(1).start_bucket_elapsed_nanos()); EXPECT_EQ(baseTimeNs + 6 * bucketSizeNs, data.bucket_info(1).end_bucket_elapsed_nanos()); EXPECT_FALSE(data.bucket_info(1).atom(0).temperature().sensor_name().empty()); EXPECT_GT(data.bucket_info(1).atom(0).temperature().temperature_dc(), 0); EXPECT_EQ(1, data.bucket_info(2).atom_size()); EXPECT_EQ(1, data.bucket_info(2).elapsed_timestamp_nanos_size()); EXPECT_EQ(baseTimeNs + 6 * bucketSizeNs + 12, data.bucket_info(2).elapsed_timestamp_nanos(0)); EXPECT_EQ(baseTimeNs + 6 * bucketSizeNs, data.bucket_info(2).start_bucket_elapsed_nanos()); EXPECT_EQ(baseTimeNs + 7 * bucketSizeNs, data.bucket_info(2).end_bucket_elapsed_nanos()); EXPECT_FALSE(data.bucket_info(2).atom(0).temperature().sensor_name().empty()); EXPECT_GT(data.bucket_info(2).atom(0).temperature().temperature_dc(), 0); } #else GTEST_LOG_(INFO) << "This test does nothing.\n"; #endif } // namespace statsd } // namespace os } // namespace android