// Copyright (C) 2018 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 <gtest/gtest.h>
#include "src/StatsLogProcessor.h"
#include "src/stats_log_util.h"
#include "tests/statsd_test_util.h"
#include <vector>
namespace android {
namespace os {
namespace statsd {
#ifdef __ANDROID__
namespace {
StatsdConfig CreateStatsdConfig() {
StatsdConfig config;
auto saverModeMatcher = CreateBatterySaverModeStartAtomMatcher();
auto crashMatcher = CreateProcessCrashAtomMatcher();
auto screenOnMatcher = CreateScreenTurnedOnAtomMatcher();
*config.add_atom_matcher() = saverModeMatcher;
*config.add_atom_matcher() = crashMatcher;
*config.add_atom_matcher() = screenOnMatcher;
int64_t metricId = 123456;
auto countMetric = config.add_count_metric();
countMetric->set_id(metricId);
countMetric->set_what(crashMatcher.id());
countMetric->set_bucket(FIVE_MINUTES);
countMetric->mutable_dimensions_in_what()->set_field(
util::PROCESS_LIFE_CYCLE_STATE_CHANGED);
countMetric->mutable_dimensions_in_what()->add_child()->set_field(1); // uid field
auto metric_activation1 = config.add_metric_activation();
metric_activation1->set_metric_id(metricId);
auto event_activation1 = metric_activation1->add_event_activation();
event_activation1->set_atom_matcher_id(saverModeMatcher.id());
event_activation1->set_ttl_seconds(60 * 6); // 6 minutes
auto event_activation2 = metric_activation1->add_event_activation();
event_activation2->set_atom_matcher_id(screenOnMatcher.id());
event_activation2->set_ttl_seconds(60 * 2); // 2 minutes
return config;
}
StatsdConfig CreateStatsdConfigWithOneDeactivation() {
StatsdConfig config;
auto saverModeMatcher = CreateBatterySaverModeStartAtomMatcher();
auto crashMatcher = CreateProcessCrashAtomMatcher();
auto screenOnMatcher = CreateScreenTurnedOnAtomMatcher();
auto brightnessChangedMatcher = CreateScreenBrightnessChangedAtomMatcher();
*config.add_atom_matcher() = saverModeMatcher;
*config.add_atom_matcher() = crashMatcher;
*config.add_atom_matcher() = screenOnMatcher;
*config.add_atom_matcher() = brightnessChangedMatcher;
int64_t metricId = 123456;
auto countMetric = config.add_count_metric();
countMetric->set_id(metricId);
countMetric->set_what(crashMatcher.id());
countMetric->set_bucket(FIVE_MINUTES);
countMetric->mutable_dimensions_in_what()->set_field(
util::PROCESS_LIFE_CYCLE_STATE_CHANGED);
countMetric->mutable_dimensions_in_what()->add_child()->set_field(1); // uid field
auto metric_activation1 = config.add_metric_activation();
metric_activation1->set_metric_id(metricId);
auto event_activation1 = metric_activation1->add_event_activation();
event_activation1->set_atom_matcher_id(saverModeMatcher.id());
event_activation1->set_ttl_seconds(60 * 6); // 6 minutes
event_activation1->set_deactivation_atom_matcher_id(brightnessChangedMatcher.id());
auto event_activation2 = metric_activation1->add_event_activation();
event_activation2->set_atom_matcher_id(screenOnMatcher.id());
event_activation2->set_ttl_seconds(60 * 2); // 2 minutes
return config;
}
StatsdConfig CreateStatsdConfigWithTwoDeactivations() {
StatsdConfig config;
auto saverModeMatcher = CreateBatterySaverModeStartAtomMatcher();
auto crashMatcher = CreateProcessCrashAtomMatcher();
auto screenOnMatcher = CreateScreenTurnedOnAtomMatcher();
auto brightnessChangedMatcher = CreateScreenBrightnessChangedAtomMatcher();
auto brightnessChangedMatcher2 = CreateScreenBrightnessChangedAtomMatcher();
brightnessChangedMatcher2.set_id(StringToId("ScreenBrightnessChanged2"));
*config.add_atom_matcher() = saverModeMatcher;
*config.add_atom_matcher() = crashMatcher;
*config.add_atom_matcher() = screenOnMatcher;
*config.add_atom_matcher() = brightnessChangedMatcher;
*config.add_atom_matcher() = brightnessChangedMatcher2;
int64_t metricId = 123456;
auto countMetric = config.add_count_metric();
countMetric->set_id(metricId);
countMetric->set_what(crashMatcher.id());
countMetric->set_bucket(FIVE_MINUTES);
countMetric->mutable_dimensions_in_what()->set_field(
util::PROCESS_LIFE_CYCLE_STATE_CHANGED);
countMetric->mutable_dimensions_in_what()->add_child()->set_field(1); // uid field
auto metric_activation1 = config.add_metric_activation();
metric_activation1->set_metric_id(metricId);
auto event_activation1 = metric_activation1->add_event_activation();
event_activation1->set_atom_matcher_id(saverModeMatcher.id());
event_activation1->set_ttl_seconds(60 * 6); // 6 minutes
event_activation1->set_deactivation_atom_matcher_id(brightnessChangedMatcher.id());
auto event_activation2 = metric_activation1->add_event_activation();
event_activation2->set_atom_matcher_id(screenOnMatcher.id());
event_activation2->set_ttl_seconds(60 * 2); // 2 minutes
event_activation2->set_deactivation_atom_matcher_id(brightnessChangedMatcher2.id());
return config;
}
StatsdConfig CreateStatsdConfigWithSameDeactivations() {
StatsdConfig config;
auto saverModeMatcher = CreateBatterySaverModeStartAtomMatcher();
auto crashMatcher = CreateProcessCrashAtomMatcher();
auto screenOnMatcher = CreateScreenTurnedOnAtomMatcher();
auto brightnessChangedMatcher = CreateScreenBrightnessChangedAtomMatcher();
*config.add_atom_matcher() = saverModeMatcher;
*config.add_atom_matcher() = crashMatcher;
*config.add_atom_matcher() = screenOnMatcher;
*config.add_atom_matcher() = brightnessChangedMatcher;
int64_t metricId = 123456;
auto countMetric = config.add_count_metric();
countMetric->set_id(metricId);
countMetric->set_what(crashMatcher.id());
countMetric->set_bucket(FIVE_MINUTES);
countMetric->mutable_dimensions_in_what()->set_field(
util::PROCESS_LIFE_CYCLE_STATE_CHANGED);
countMetric->mutable_dimensions_in_what()->add_child()->set_field(1); // uid field
auto metric_activation1 = config.add_metric_activation();
metric_activation1->set_metric_id(metricId);
auto event_activation1 = metric_activation1->add_event_activation();
event_activation1->set_atom_matcher_id(saverModeMatcher.id());
event_activation1->set_ttl_seconds(60 * 6); // 6 minutes
event_activation1->set_deactivation_atom_matcher_id(brightnessChangedMatcher.id());
auto event_activation2 = metric_activation1->add_event_activation();
event_activation2->set_atom_matcher_id(screenOnMatcher.id());
event_activation2->set_ttl_seconds(60 * 2); // 2 minutes
event_activation2->set_deactivation_atom_matcher_id(brightnessChangedMatcher.id());
return config;
}
StatsdConfig CreateStatsdConfigWithTwoMetricsTwoDeactivations() {
StatsdConfig config;
auto saverModeMatcher = CreateBatterySaverModeStartAtomMatcher();
auto crashMatcher = CreateProcessCrashAtomMatcher();
auto foregroundMatcher = CreateMoveToForegroundAtomMatcher();
auto screenOnMatcher = CreateScreenTurnedOnAtomMatcher();
auto brightnessChangedMatcher = CreateScreenBrightnessChangedAtomMatcher();
auto brightnessChangedMatcher2 = CreateScreenBrightnessChangedAtomMatcher();
brightnessChangedMatcher2.set_id(StringToId("ScreenBrightnessChanged2"));
*config.add_atom_matcher() = saverModeMatcher;
*config.add_atom_matcher() = crashMatcher;
*config.add_atom_matcher() = screenOnMatcher;
*config.add_atom_matcher() = brightnessChangedMatcher;
*config.add_atom_matcher() = brightnessChangedMatcher2;
*config.add_atom_matcher() = foregroundMatcher;
int64_t metricId = 123456;
auto countMetric = config.add_count_metric();
countMetric->set_id(metricId);
countMetric->set_what(crashMatcher.id());
countMetric->set_bucket(FIVE_MINUTES);
countMetric->mutable_dimensions_in_what()->set_field(
util::PROCESS_LIFE_CYCLE_STATE_CHANGED);
countMetric->mutable_dimensions_in_what()->add_child()->set_field(1); // uid field
int64_t metricId2 = 234567;
countMetric = config.add_count_metric();
countMetric->set_id(metricId2);
countMetric->set_what(foregroundMatcher.id());
countMetric->set_bucket(FIVE_MINUTES);
countMetric->mutable_dimensions_in_what()->set_field(
util::ACTIVITY_FOREGROUND_STATE_CHANGED);
countMetric->mutable_dimensions_in_what()->add_child()->set_field(1); // uid field
auto metric_activation1 = config.add_metric_activation();
metric_activation1->set_metric_id(metricId);
auto event_activation1 = metric_activation1->add_event_activation();
event_activation1->set_atom_matcher_id(saverModeMatcher.id());
event_activation1->set_ttl_seconds(60 * 6); // 6 minutes
event_activation1->set_deactivation_atom_matcher_id(brightnessChangedMatcher.id());
auto event_activation2 = metric_activation1->add_event_activation();
event_activation2->set_atom_matcher_id(screenOnMatcher.id());
event_activation2->set_ttl_seconds(60 * 2); // 2 minutes
event_activation2->set_deactivation_atom_matcher_id(brightnessChangedMatcher2.id());
metric_activation1 = config.add_metric_activation();
metric_activation1->set_metric_id(metricId2);
event_activation1 = metric_activation1->add_event_activation();
event_activation1->set_atom_matcher_id(saverModeMatcher.id());
event_activation1->set_ttl_seconds(60 * 6); // 6 minutes
event_activation1->set_deactivation_atom_matcher_id(brightnessChangedMatcher.id());
event_activation2 = metric_activation1->add_event_activation();
event_activation2->set_atom_matcher_id(screenOnMatcher.id());
event_activation2->set_ttl_seconds(60 * 2); // 2 minutes
event_activation2->set_deactivation_atom_matcher_id(brightnessChangedMatcher2.id());
return config;
}
} // namespace
TEST(MetricActivationE2eTest, TestCountMetric) {
auto config = CreateStatsdConfig();
int64_t bucketStartTimeNs = NS_PER_SEC * 10; // 10 secs
int64_t bucketSizeNs =
TimeUnitToBucketSizeInMillis(config.count_metric(0).bucket()) * 1000LL * 1000LL;
int uid = 12345;
int64_t cfgId = 98765;
ConfigKey cfgKey(uid, cfgId);
sp<UidMap> m = new UidMap();
sp<StatsPullerManager> pullerManager = new StatsPullerManager();
sp<AlarmMonitor> anomalyAlarmMonitor;
sp<AlarmMonitor> subscriberAlarmMonitor;
vector<int64_t> activeConfigsBroadcast;
long timeBase1 = 1;
int broadcastCount = 0;
std::shared_ptr<MockLogEventFilter> mockLogEventFilter = std::make_shared<MockLogEventFilter>();
EXPECT_CALL(*mockLogEventFilter, setAtomIds(StatsLogProcessor::getDefaultAtomIdSet(), _))
.Times(1);
StatsLogProcessor processor(
m, pullerManager, anomalyAlarmMonitor, subscriberAlarmMonitor, bucketStartTimeNs,
[](const ConfigKey& key) { return true; },
[&uid, &broadcastCount, &activeConfigsBroadcast](const int& broadcastUid,
const vector<int64_t>& activeConfigs) {
broadcastCount++;
EXPECT_EQ(broadcastUid, uid);
activeConfigsBroadcast.clear();
activeConfigsBroadcast.insert(activeConfigsBroadcast.end(), activeConfigs.begin(),
activeConfigs.end());
return true;
},
[](const ConfigKey&, const string&, const vector<int64_t>&) {}, mockLogEventFilter);
const LogEventFilter::AtomIdSet atomIdsList = CreateAtomIdSetFromConfig(config);
EXPECT_CALL(*mockLogEventFilter, setAtomIds(atomIdsList, &processor)).Times(1);
processor.OnConfigUpdated(bucketStartTimeNs, cfgKey, config);
ASSERT_EQ(processor.mMetricsManagers.size(), 1u);
sp<MetricsManager> metricsManager = processor.mMetricsManagers.begin()->second;
EXPECT_TRUE(metricsManager->isConfigValid());
ASSERT_EQ(metricsManager->mAllMetricProducers.size(), 1);
sp<MetricProducer> metricProducer = metricsManager->mAllMetricProducers[0];
auto& eventActivationMap = metricProducer->mEventActivationMap;
EXPECT_FALSE(metricsManager->isActive());
EXPECT_FALSE(metricProducer->mIsActive);
// Two activations: one is triggered by battery saver mode (tracker index 0), the other is
// triggered by screen on event (tracker index 2).
ASSERT_EQ(eventActivationMap.size(), 2u);
EXPECT_TRUE(eventActivationMap.find(0) != eventActivationMap.end());
EXPECT_TRUE(eventActivationMap.find(2) != eventActivationMap.end());
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, 0);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, 0);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
std::unique_ptr<LogEvent> event;
event = CreateAppCrashEvent(bucketStartTimeNs + 5, 111);
processor.OnLogEvent(event.get(), bucketStartTimeNs + 5);
EXPECT_FALSE(metricsManager->isActive());
EXPECT_FALSE(metricProducer->mIsActive);
EXPECT_EQ(broadcastCount, 0);
// Activated by battery save mode.
event = CreateBatterySaverOnEvent(bucketStartTimeNs + 10);
processor.OnLogEvent(event.get(), bucketStartTimeNs + 10);
EXPECT_TRUE(metricsManager->isActive());
EXPECT_TRUE(metricProducer->mIsActive);
EXPECT_EQ(broadcastCount, 1);
ASSERT_EQ(activeConfigsBroadcast.size(), 1);
EXPECT_EQ(activeConfigsBroadcast[0], cfgId);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, bucketStartTimeNs + 10);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, 0);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
// First processed event.
event = CreateAppCrashEvent(bucketStartTimeNs + 15, 222);
processor.OnLogEvent(event.get(), bucketStartTimeNs + 15);
// Activated by screen on event.
event = CreateScreenStateChangedEvent(bucketStartTimeNs + 20, android::view::DISPLAY_STATE_ON);
processor.OnLogEvent(event.get(), bucketStartTimeNs + 20);
EXPECT_TRUE(metricsManager->isActive());
EXPECT_TRUE(metricProducer->mIsActive);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, bucketStartTimeNs + 10);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, bucketStartTimeNs + 20);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
// 2nd processed event.
// The activation by screen_on event expires, but the one by battery save mode is still active.
event = CreateAppCrashEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 2 + 25, 333);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 2 + 25);
EXPECT_TRUE(metricsManager->isActive());
EXPECT_TRUE(metricProducer->mIsActive);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, bucketStartTimeNs + 10);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, bucketStartTimeNs + 20);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
// No new broadcast since the config should still be active.
EXPECT_EQ(broadcastCount, 1);
// 3rd processed event.
event = CreateAppCrashEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 5 + 25, 444);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 5 + 25);
// All activations expired.
event = CreateAppCrashEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 8, 555);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 8);
EXPECT_FALSE(metricsManager->isActive());
EXPECT_FALSE(metricProducer->mIsActive);
// New broadcast since the config is no longer active.
EXPECT_EQ(broadcastCount, 2);
ASSERT_EQ(activeConfigsBroadcast.size(), 0);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, bucketStartTimeNs + 10);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, bucketStartTimeNs + 20);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
// Re-activate metric via screen on.
event = CreateScreenStateChangedEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 10 + 10,
android::view::DISPLAY_STATE_ON);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 10 + 10);
EXPECT_TRUE(metricsManager->isActive());
EXPECT_TRUE(metricProducer->mIsActive);
EXPECT_EQ(broadcastCount, 3);
ASSERT_EQ(activeConfigsBroadcast.size(), 1);
EXPECT_EQ(activeConfigsBroadcast[0], cfgId);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, bucketStartTimeNs + 10);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 10 + 10);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
// 4th processed event.
event = CreateAppCrashEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 1, 666);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 1);
ConfigMetricsReportList reports;
vector<uint8_t> buffer;
processor.onDumpReport(cfgKey, bucketStartTimeNs + NS_PER_SEC * 60 * 15 + 1, false, true,
ADB_DUMP, FAST, &buffer);
EXPECT_TRUE(buffer.size() > 0);
EXPECT_TRUE(reports.ParseFromArray(&buffer[0], buffer.size()));
backfillDimensionPath(&reports);
backfillStartEndTimestamp(&reports);
ASSERT_EQ(1, reports.reports_size());
ASSERT_EQ(1, reports.reports(0).metrics_size());
StatsLogReport::CountMetricDataWrapper countMetrics;
sortMetricDataByDimensionsValue(reports.reports(0).metrics(0).count_metrics(), &countMetrics);
ASSERT_EQ(4, countMetrics.data_size());
auto data = countMetrics.data(0);
EXPECT_EQ(util::PROCESS_LIFE_CYCLE_STATE_CHANGED, data.dimensions_in_what().field());
ASSERT_EQ(1, data.dimensions_in_what().value_tuple().dimensions_value_size());
EXPECT_EQ(1 /* uid field */,
data.dimensions_in_what().value_tuple().dimensions_value(0).field());
EXPECT_EQ(222, data.dimensions_in_what().value_tuple().dimensions_value(0).value_int());
ASSERT_EQ(1, data.bucket_info_size());
EXPECT_EQ(1, data.bucket_info(0).count());
EXPECT_EQ(bucketStartTimeNs, data.bucket_info(0).start_bucket_elapsed_nanos());
EXPECT_EQ(bucketStartTimeNs + bucketSizeNs, data.bucket_info(0).end_bucket_elapsed_nanos());
data = countMetrics.data(1);
EXPECT_EQ(util::PROCESS_LIFE_CYCLE_STATE_CHANGED, data.dimensions_in_what().field());
ASSERT_EQ(1, data.dimensions_in_what().value_tuple().dimensions_value_size());
EXPECT_EQ(1 /* uid field */,
data.dimensions_in_what().value_tuple().dimensions_value(0).field());
EXPECT_EQ(333, data.dimensions_in_what().value_tuple().dimensions_value(0).value_int());
ASSERT_EQ(1, data.bucket_info_size());
EXPECT_EQ(1, data.bucket_info(0).count());
EXPECT_EQ(bucketStartTimeNs, data.bucket_info(0).start_bucket_elapsed_nanos());
EXPECT_EQ(bucketStartTimeNs + bucketSizeNs, data.bucket_info(0).end_bucket_elapsed_nanos());
data = countMetrics.data(2);
EXPECT_EQ(util::PROCESS_LIFE_CYCLE_STATE_CHANGED, data.dimensions_in_what().field());
ASSERT_EQ(1, data.dimensions_in_what().value_tuple().dimensions_value_size());
EXPECT_EQ(1 /* uid field */,
data.dimensions_in_what().value_tuple().dimensions_value(0).field());
EXPECT_EQ(444, data.dimensions_in_what().value_tuple().dimensions_value(0).value_int());
ASSERT_EQ(1, data.bucket_info_size());
EXPECT_EQ(1, data.bucket_info(0).count());
// Partial bucket as metric is deactivated.
EXPECT_EQ(bucketStartTimeNs + bucketSizeNs, data.bucket_info(0).start_bucket_elapsed_nanos());
EXPECT_EQ(bucketStartTimeNs + NS_PER_SEC * 60 * 8,
data.bucket_info(0).end_bucket_elapsed_nanos());
data = countMetrics.data(3);
EXPECT_EQ(util::PROCESS_LIFE_CYCLE_STATE_CHANGED, data.dimensions_in_what().field());
ASSERT_EQ(1, data.dimensions_in_what().value_tuple().dimensions_value_size());
EXPECT_EQ(1 /* uid field */,
data.dimensions_in_what().value_tuple().dimensions_value(0).field());
EXPECT_EQ(666, data.dimensions_in_what().value_tuple().dimensions_value(0).value_int());
ASSERT_EQ(1, data.bucket_info_size());
EXPECT_EQ(1, data.bucket_info(0).count());
EXPECT_EQ(bucketStartTimeNs + 2 * bucketSizeNs,
data.bucket_info(0).start_bucket_elapsed_nanos());
EXPECT_EQ(bucketStartTimeNs + 3 * bucketSizeNs, data.bucket_info(0).end_bucket_elapsed_nanos());
}
TEST(MetricActivationE2eTest, TestCountMetricWithOneDeactivation) {
auto config = CreateStatsdConfigWithOneDeactivation();
int64_t bucketStartTimeNs = NS_PER_SEC * 10; // 10 secs
int64_t bucketSizeNs =
TimeUnitToBucketSizeInMillis(config.count_metric(0).bucket()) * 1000LL * 1000LL;
int uid = 12345;
int64_t cfgId = 98765;
ConfigKey cfgKey(uid, cfgId);
sp<UidMap> m = new UidMap();
sp<StatsPullerManager> pullerManager = new StatsPullerManager();
sp<AlarmMonitor> anomalyAlarmMonitor;
sp<AlarmMonitor> subscriberAlarmMonitor;
vector<int64_t> activeConfigsBroadcast;
long timeBase1 = 1;
int broadcastCount = 0;
std::shared_ptr<MockLogEventFilter> mockLogEventFilter = std::make_shared<MockLogEventFilter>();
EXPECT_CALL(*mockLogEventFilter, setAtomIds(StatsLogProcessor::getDefaultAtomIdSet(), _))
.Times(1);
StatsLogProcessor processor(
m, pullerManager, anomalyAlarmMonitor, subscriberAlarmMonitor, bucketStartTimeNs,
[](const ConfigKey& key) { return true; },
[&uid, &broadcastCount, &activeConfigsBroadcast](const int& broadcastUid,
const vector<int64_t>& activeConfigs) {
broadcastCount++;
EXPECT_EQ(broadcastUid, uid);
activeConfigsBroadcast.clear();
activeConfigsBroadcast.insert(activeConfigsBroadcast.end(), activeConfigs.begin(),
activeConfigs.end());
return true;
},
[](const ConfigKey&, const string&, const vector<int64_t>&) {}, mockLogEventFilter);
const LogEventFilter::AtomIdSet atomIdsList = CreateAtomIdSetFromConfig(config);
EXPECT_CALL(*mockLogEventFilter, setAtomIds(atomIdsList, &processor)).Times(1);
processor.OnConfigUpdated(bucketStartTimeNs, cfgKey, config);
ASSERT_EQ(processor.mMetricsManagers.size(), 1u);
sp<MetricsManager> metricsManager = processor.mMetricsManagers.begin()->second;
EXPECT_TRUE(metricsManager->isConfigValid());
ASSERT_EQ(metricsManager->mAllMetricProducers.size(), 1);
sp<MetricProducer> metricProducer = metricsManager->mAllMetricProducers[0];
auto& eventActivationMap = metricProducer->mEventActivationMap;
auto& eventDeactivationMap = metricProducer->mEventDeactivationMap;
EXPECT_FALSE(metricsManager->isActive());
EXPECT_FALSE(metricProducer->mIsActive);
// Two activations: one is triggered by battery saver mode (tracker index 0), the other is
// triggered by screen on event (tracker index 2).
ASSERT_EQ(eventActivationMap.size(), 2u);
EXPECT_TRUE(eventActivationMap.find(0) != eventActivationMap.end());
EXPECT_TRUE(eventActivationMap.find(2) != eventActivationMap.end());
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, 0);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, 0);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
ASSERT_EQ(eventDeactivationMap.size(), 1u);
EXPECT_TRUE(eventDeactivationMap.find(3) != eventDeactivationMap.end());
ASSERT_EQ(eventDeactivationMap[3].size(), 1u);
EXPECT_EQ(eventDeactivationMap[3][0], eventActivationMap[0]);
std::unique_ptr<LogEvent> event;
event = CreateAppCrashEvent(bucketStartTimeNs + 5, 111);
processor.OnLogEvent(event.get(), bucketStartTimeNs + 5);
EXPECT_FALSE(metricsManager->isActive());
EXPECT_FALSE(metricProducer->mIsActive);
EXPECT_EQ(broadcastCount, 0);
// Activated by battery save mode.
event = CreateBatterySaverOnEvent(bucketStartTimeNs + 10);
processor.OnLogEvent(event.get(), bucketStartTimeNs + 10);
EXPECT_TRUE(metricsManager->isActive());
EXPECT_TRUE(metricProducer->mIsActive);
EXPECT_EQ(broadcastCount, 1);
ASSERT_EQ(activeConfigsBroadcast.size(), 1);
EXPECT_EQ(activeConfigsBroadcast[0], cfgId);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, bucketStartTimeNs + 10);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, 0);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap[3][0], eventActivationMap[0]);
// First processed event.
event = CreateAppCrashEvent(bucketStartTimeNs + 15, 222);
processor.OnLogEvent(event.get(), bucketStartTimeNs + 15);
// Activated by screen on event.
event = CreateScreenStateChangedEvent(bucketStartTimeNs + 20, android::view::DISPLAY_STATE_ON);
processor.OnLogEvent(event.get(), bucketStartTimeNs + 20);
EXPECT_TRUE(metricsManager->isActive());
EXPECT_TRUE(metricProducer->mIsActive);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, bucketStartTimeNs + 10);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, bucketStartTimeNs + 20);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap[3][0], eventActivationMap[0]);
// 2nd processed event.
// The activation by screen_on event expires, but the one by battery save mode is still active.
event = CreateAppCrashEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 2 + 25, 333);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 2 + 25);
EXPECT_TRUE(metricsManager->isActive());
EXPECT_TRUE(metricProducer->mIsActive);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, bucketStartTimeNs + 10);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, bucketStartTimeNs + 20);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap[3][0], eventActivationMap[0]);
// No new broadcast since the config should still be active.
EXPECT_EQ(broadcastCount, 1);
// 3rd processed event.
event = CreateAppCrashEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 5 + 25, 444);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 5 + 25);
// All activations expired.
event = CreateAppCrashEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 8, 555);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 8);
EXPECT_FALSE(metricsManager->isActive());
EXPECT_FALSE(metricProducer->mIsActive);
// New broadcast since the config is no longer active.
EXPECT_EQ(broadcastCount, 2);
ASSERT_EQ(activeConfigsBroadcast.size(), 0);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, bucketStartTimeNs + 10);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, bucketStartTimeNs + 20);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap[3][0], eventActivationMap[0]);
// Re-activate metric via screen on.
event = CreateScreenStateChangedEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 10 + 10,
android::view::DISPLAY_STATE_ON);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 10 + 10);
EXPECT_TRUE(metricsManager->isActive());
EXPECT_TRUE(metricProducer->mIsActive);
EXPECT_EQ(broadcastCount, 3);
ASSERT_EQ(activeConfigsBroadcast.size(), 1);
EXPECT_EQ(activeConfigsBroadcast[0], cfgId);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, bucketStartTimeNs + 10);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 10 + 10);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap[3][0], eventActivationMap[0]);
// 4th processed event.
event = CreateAppCrashEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 1, 666);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 1);
// Re-enable battery saver mode activation.
event = CreateBatterySaverOnEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 15);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 15);
EXPECT_TRUE(metricsManager->isActive());
EXPECT_TRUE(metricProducer->mIsActive);
EXPECT_EQ(broadcastCount, 3);
ASSERT_EQ(activeConfigsBroadcast.size(), 1);
EXPECT_EQ(activeConfigsBroadcast[0], cfgId);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 15);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 10 + 10);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap[3][0], eventActivationMap[0]);
// 5th processed event.
event = CreateAppCrashEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 40, 777);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 40);
// Cancel battery saver mode activation.
event = CreateScreenBrightnessChangedEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 60, 64);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 60);
EXPECT_TRUE(metricsManager->isActive());
EXPECT_TRUE(metricProducer->mIsActive);
EXPECT_EQ(broadcastCount, 3);
ASSERT_EQ(activeConfigsBroadcast.size(), 1);
EXPECT_EQ(activeConfigsBroadcast[0], cfgId);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 15);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 10 + 10);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap[3][0], eventActivationMap[0]);
// Screen-on activation expired.
event = CreateAppCrashEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 13, 888);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 13);
EXPECT_FALSE(metricsManager->isActive());
EXPECT_FALSE(metricProducer->mIsActive);
// New broadcast since the config is no longer active.
EXPECT_EQ(broadcastCount, 4);
ASSERT_EQ(activeConfigsBroadcast.size(), 0);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 15);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 10 + 10);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap[3][0], eventActivationMap[0]);
event = CreateAppCrashEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 14 + 1, 999);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 14 + 1);
// Re-enable battery saver mode activation.
event = CreateBatterySaverOnEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 15 + 15);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 15 + 15);
EXPECT_TRUE(metricsManager->isActive());
EXPECT_TRUE(metricProducer->mIsActive);
EXPECT_EQ(broadcastCount, 5);
ASSERT_EQ(activeConfigsBroadcast.size(), 1);
EXPECT_EQ(activeConfigsBroadcast[0], cfgId);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 15 + 15);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 10 + 10);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap[3][0], eventActivationMap[0]);
// Cancel battery saver mode activation.
event = CreateScreenBrightnessChangedEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 16, 140);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 16);
EXPECT_FALSE(metricsManager->isActive());
EXPECT_FALSE(metricProducer->mIsActive);
EXPECT_EQ(broadcastCount, 6);
ASSERT_EQ(activeConfigsBroadcast.size(), 0);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 15 + 15);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 10 + 10);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap[3][0], eventActivationMap[0]);
ConfigMetricsReportList reports;
vector<uint8_t> buffer;
processor.onDumpReport(cfgKey, bucketStartTimeNs + NS_PER_SEC * 60 * 15 + 1, false, true,
ADB_DUMP, FAST, &buffer);
EXPECT_TRUE(buffer.size() > 0);
EXPECT_TRUE(reports.ParseFromArray(&buffer[0], buffer.size()));
backfillDimensionPath(&reports);
backfillStartEndTimestamp(&reports);
ASSERT_EQ(1, reports.reports_size());
ASSERT_EQ(1, reports.reports(0).metrics_size());
StatsLogReport::CountMetricDataWrapper countMetrics;
sortMetricDataByDimensionsValue(reports.reports(0).metrics(0).count_metrics(), &countMetrics);
ASSERT_EQ(5, countMetrics.data_size());
auto data = countMetrics.data(0);
EXPECT_EQ(util::PROCESS_LIFE_CYCLE_STATE_CHANGED, data.dimensions_in_what().field());
ASSERT_EQ(1, data.dimensions_in_what().value_tuple().dimensions_value_size());
EXPECT_EQ(1 /* uid field */,
data.dimensions_in_what().value_tuple().dimensions_value(0).field());
EXPECT_EQ(222, data.dimensions_in_what().value_tuple().dimensions_value(0).value_int());
ASSERT_EQ(1, data.bucket_info_size());
EXPECT_EQ(1, data.bucket_info(0).count());
EXPECT_EQ(bucketStartTimeNs, data.bucket_info(0).start_bucket_elapsed_nanos());
EXPECT_EQ(bucketStartTimeNs + bucketSizeNs, data.bucket_info(0).end_bucket_elapsed_nanos());
data = countMetrics.data(1);
EXPECT_EQ(util::PROCESS_LIFE_CYCLE_STATE_CHANGED, data.dimensions_in_what().field());
ASSERT_EQ(1, data.dimensions_in_what().value_tuple().dimensions_value_size());
EXPECT_EQ(1 /* uid field */,
data.dimensions_in_what().value_tuple().dimensions_value(0).field());
EXPECT_EQ(333, data.dimensions_in_what().value_tuple().dimensions_value(0).value_int());
ASSERT_EQ(1, data.bucket_info_size());
EXPECT_EQ(1, data.bucket_info(0).count());
EXPECT_EQ(bucketStartTimeNs, data.bucket_info(0).start_bucket_elapsed_nanos());
EXPECT_EQ(bucketStartTimeNs + bucketSizeNs, data.bucket_info(0).end_bucket_elapsed_nanos());
data = countMetrics.data(2);
EXPECT_EQ(util::PROCESS_LIFE_CYCLE_STATE_CHANGED, data.dimensions_in_what().field());
ASSERT_EQ(1, data.dimensions_in_what().value_tuple().dimensions_value_size());
EXPECT_EQ(1 /* uid field */,
data.dimensions_in_what().value_tuple().dimensions_value(0).field());
EXPECT_EQ(444, data.dimensions_in_what().value_tuple().dimensions_value(0).value_int());
ASSERT_EQ(1, data.bucket_info_size());
EXPECT_EQ(1, data.bucket_info(0).count());
// Partial bucket as metric is deactivated.
EXPECT_EQ(bucketStartTimeNs + bucketSizeNs, data.bucket_info(0).start_bucket_elapsed_nanos());
EXPECT_EQ(bucketStartTimeNs + NS_PER_SEC * 60 * 8,
data.bucket_info(0).end_bucket_elapsed_nanos());
data = countMetrics.data(3);
EXPECT_EQ(util::PROCESS_LIFE_CYCLE_STATE_CHANGED, data.dimensions_in_what().field());
ASSERT_EQ(1, data.dimensions_in_what().value_tuple().dimensions_value_size());
EXPECT_EQ(1 /* uid field */,
data.dimensions_in_what().value_tuple().dimensions_value(0).field());
EXPECT_EQ(666, data.dimensions_in_what().value_tuple().dimensions_value(0).value_int());
ASSERT_EQ(1, data.bucket_info_size());
EXPECT_EQ(1, data.bucket_info(0).count());
EXPECT_EQ(bucketStartTimeNs + 2 * bucketSizeNs,
data.bucket_info(0).start_bucket_elapsed_nanos());
EXPECT_EQ(bucketStartTimeNs + NS_PER_SEC * 60 * 13,
data.bucket_info(0).end_bucket_elapsed_nanos());
data = countMetrics.data(4);
EXPECT_EQ(util::PROCESS_LIFE_CYCLE_STATE_CHANGED, data.dimensions_in_what().field());
ASSERT_EQ(1, data.dimensions_in_what().value_tuple().dimensions_value_size());
EXPECT_EQ(1 /* uid field */,
data.dimensions_in_what().value_tuple().dimensions_value(0).field());
EXPECT_EQ(777, data.dimensions_in_what().value_tuple().dimensions_value(0).value_int());
ASSERT_EQ(1, data.bucket_info_size());
EXPECT_EQ(1, data.bucket_info(0).count());
EXPECT_EQ(bucketStartTimeNs + 2 * bucketSizeNs,
data.bucket_info(0).start_bucket_elapsed_nanos());
EXPECT_EQ(bucketStartTimeNs + NS_PER_SEC * 60 * 13,
data.bucket_info(0).end_bucket_elapsed_nanos());
}
TEST(MetricActivationE2eTest, TestCountMetricWithTwoDeactivations) {
auto config = CreateStatsdConfigWithTwoDeactivations();
int64_t bucketStartTimeNs = NS_PER_SEC * 10; // 10 secs
int64_t bucketSizeNs =
TimeUnitToBucketSizeInMillis(config.count_metric(0).bucket()) * 1000LL * 1000LL;
int uid = 12345;
int64_t cfgId = 98765;
ConfigKey cfgKey(uid, cfgId);
sp<UidMap> m = new UidMap();
sp<StatsPullerManager> pullerManager = new StatsPullerManager();
sp<AlarmMonitor> anomalyAlarmMonitor;
sp<AlarmMonitor> subscriberAlarmMonitor;
vector<int64_t> activeConfigsBroadcast;
long timeBase1 = 1;
int broadcastCount = 0;
std::shared_ptr<MockLogEventFilter> mockLogEventFilter = std::make_shared<MockLogEventFilter>();
EXPECT_CALL(*mockLogEventFilter, setAtomIds(StatsLogProcessor::getDefaultAtomIdSet(), _))
.Times(1);
StatsLogProcessor processor(
m, pullerManager, anomalyAlarmMonitor, subscriberAlarmMonitor, bucketStartTimeNs,
[](const ConfigKey& key) { return true; },
[&uid, &broadcastCount, &activeConfigsBroadcast](const int& broadcastUid,
const vector<int64_t>& activeConfigs) {
broadcastCount++;
EXPECT_EQ(broadcastUid, uid);
activeConfigsBroadcast.clear();
activeConfigsBroadcast.insert(activeConfigsBroadcast.end(), activeConfigs.begin(),
activeConfigs.end());
return true;
},
[](const ConfigKey&, const string&, const vector<int64_t>&) {}, mockLogEventFilter);
const LogEventFilter::AtomIdSet atomIdsList = CreateAtomIdSetFromConfig(config);
EXPECT_CALL(*mockLogEventFilter, setAtomIds(atomIdsList, &processor)).Times(1);
processor.OnConfigUpdated(bucketStartTimeNs, cfgKey, config);
ASSERT_EQ(processor.mMetricsManagers.size(), 1u);
sp<MetricsManager> metricsManager = processor.mMetricsManagers.begin()->second;
EXPECT_TRUE(metricsManager->isConfigValid());
ASSERT_EQ(metricsManager->mAllMetricProducers.size(), 1);
sp<MetricProducer> metricProducer = metricsManager->mAllMetricProducers[0];
auto& eventActivationMap = metricProducer->mEventActivationMap;
auto& eventDeactivationMap = metricProducer->mEventDeactivationMap;
EXPECT_FALSE(metricsManager->isActive());
EXPECT_FALSE(metricProducer->mIsActive);
// Two activations: one is triggered by battery saver mode (tracker index 0), the other is
// triggered by screen on event (tracker index 2).
ASSERT_EQ(eventActivationMap.size(), 2u);
EXPECT_TRUE(eventActivationMap.find(0) != eventActivationMap.end());
EXPECT_TRUE(eventActivationMap.find(2) != eventActivationMap.end());
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, 0);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, 0);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
ASSERT_EQ(eventDeactivationMap.size(), 2u);
EXPECT_TRUE(eventDeactivationMap.find(3) != eventDeactivationMap.end());
EXPECT_TRUE(eventDeactivationMap.find(4) != eventDeactivationMap.end());
ASSERT_EQ(eventDeactivationMap[3].size(), 1u);
ASSERT_EQ(eventDeactivationMap[4].size(), 1u);
EXPECT_EQ(eventDeactivationMap[3][0], eventActivationMap[0]);
EXPECT_EQ(eventDeactivationMap[4][0], eventActivationMap[2]);
std::unique_ptr<LogEvent> event;
event = CreateAppCrashEvent(bucketStartTimeNs + 5, 111);
processor.OnLogEvent(event.get(), bucketStartTimeNs + 5);
EXPECT_FALSE(metricsManager->isActive());
EXPECT_FALSE(metricProducer->mIsActive);
EXPECT_EQ(broadcastCount, 0);
// Activated by battery save mode.
event = CreateBatterySaverOnEvent(bucketStartTimeNs + 10);
processor.OnLogEvent(event.get(), bucketStartTimeNs + 10);
EXPECT_TRUE(metricsManager->isActive());
EXPECT_TRUE(metricProducer->mIsActive);
EXPECT_EQ(broadcastCount, 1);
ASSERT_EQ(activeConfigsBroadcast.size(), 1);
EXPECT_EQ(activeConfigsBroadcast[0], cfgId);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, bucketStartTimeNs + 10);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, 0);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap[3][0], eventActivationMap[0]);
EXPECT_EQ(eventDeactivationMap[4][0], eventActivationMap[2]);
// First processed event.
event = CreateAppCrashEvent(bucketStartTimeNs + 15, 222);
processor.OnLogEvent(event.get(), bucketStartTimeNs + 15);
// Activated by screen on event.
event = CreateScreenStateChangedEvent(bucketStartTimeNs + 20, android::view::DISPLAY_STATE_ON);
processor.OnLogEvent(event.get(), bucketStartTimeNs + 20);
EXPECT_TRUE(metricsManager->isActive());
EXPECT_TRUE(metricProducer->mIsActive);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, bucketStartTimeNs + 10);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, bucketStartTimeNs + 20);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap[3][0], eventActivationMap[0]);
EXPECT_EQ(eventDeactivationMap[4][0], eventActivationMap[2]);
// 2nd processed event.
// The activation by screen_on event expires, but the one by battery save mode is still active.
event = CreateAppCrashEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 2 + 25, 333);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 2 + 25);
EXPECT_TRUE(metricsManager->isActive());
EXPECT_TRUE(metricProducer->mIsActive);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, bucketStartTimeNs + 10);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, bucketStartTimeNs + 20);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap[3][0], eventActivationMap[0]);
EXPECT_EQ(eventDeactivationMap[4][0], eventActivationMap[2]);
// No new broadcast since the config should still be active.
EXPECT_EQ(broadcastCount, 1);
// 3rd processed event.
event = CreateAppCrashEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 5 + 25, 444);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 5 + 25);
// All activations expired.
event = CreateAppCrashEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 8, 555);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 8);
EXPECT_FALSE(metricsManager->isActive());
EXPECT_FALSE(metricProducer->mIsActive);
// New broadcast since the config is no longer active.
EXPECT_EQ(broadcastCount, 2);
ASSERT_EQ(activeConfigsBroadcast.size(), 0);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, bucketStartTimeNs + 10);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, bucketStartTimeNs + 20);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap[3][0], eventActivationMap[0]);
EXPECT_EQ(eventDeactivationMap[4][0], eventActivationMap[2]);
// Re-activate metric via screen on.
event = CreateScreenStateChangedEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 10 + 10,
android::view::DISPLAY_STATE_ON);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 10 + 10);
EXPECT_TRUE(metricsManager->isActive());
EXPECT_TRUE(metricProducer->mIsActive);
EXPECT_EQ(broadcastCount, 3);
ASSERT_EQ(activeConfigsBroadcast.size(), 1);
EXPECT_EQ(activeConfigsBroadcast[0], cfgId);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, bucketStartTimeNs + 10);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 10 + 10);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap[3][0], eventActivationMap[0]);
EXPECT_EQ(eventDeactivationMap[4][0], eventActivationMap[2]);
// 4th processed event.
event = CreateAppCrashEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 1, 666);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 1);
// Re-enable battery saver mode activation.
event = CreateBatterySaverOnEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 15);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 15);
EXPECT_TRUE(metricsManager->isActive());
EXPECT_TRUE(metricProducer->mIsActive);
EXPECT_EQ(broadcastCount, 3);
ASSERT_EQ(activeConfigsBroadcast.size(), 1);
EXPECT_EQ(activeConfigsBroadcast[0], cfgId);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 15);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 10 + 10);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap[3][0], eventActivationMap[0]);
EXPECT_EQ(eventDeactivationMap[4][0], eventActivationMap[2]);
// 5th processed event.
event = CreateAppCrashEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 40, 777);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 40);
// Cancel battery saver mode and screen on activation.
event = CreateScreenBrightnessChangedEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 60, 64);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 60);
EXPECT_FALSE(metricsManager->isActive());
EXPECT_FALSE(metricProducer->mIsActive);
// New broadcast since the config is no longer active.
EXPECT_EQ(broadcastCount, 4);
ASSERT_EQ(activeConfigsBroadcast.size(), 0);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 15);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 10 + 10);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap[3][0], eventActivationMap[0]);
EXPECT_EQ(eventDeactivationMap[4][0], eventActivationMap[2]);
// Screen-on activation expired.
event = CreateAppCrashEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 13, 888);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 13);
EXPECT_FALSE(metricsManager->isActive());
EXPECT_FALSE(metricProducer->mIsActive);
EXPECT_EQ(broadcastCount, 4);
ASSERT_EQ(activeConfigsBroadcast.size(), 0);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 15);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 10 + 10);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap[3][0], eventActivationMap[0]);
EXPECT_EQ(eventDeactivationMap[4][0], eventActivationMap[2]);
event = CreateAppCrashEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 14 + 1, 999);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 14 + 1);
// Re-enable battery saver mode activation.
event = CreateBatterySaverOnEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 15 + 15);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 15 + 15);
EXPECT_TRUE(metricsManager->isActive());
EXPECT_TRUE(metricProducer->mIsActive);
EXPECT_EQ(broadcastCount, 5);
ASSERT_EQ(activeConfigsBroadcast.size(), 1);
EXPECT_EQ(activeConfigsBroadcast[0], cfgId);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 15 + 15);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 10 + 10);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap[3][0], eventActivationMap[0]);
EXPECT_EQ(eventDeactivationMap[4][0], eventActivationMap[2]);
// Cancel battery saver mode and screen on activation.
event = CreateScreenBrightnessChangedEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 16, 140);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 16);
EXPECT_FALSE(metricsManager->isActive());
EXPECT_FALSE(metricProducer->mIsActive);
EXPECT_EQ(broadcastCount, 6);
ASSERT_EQ(activeConfigsBroadcast.size(), 0);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 15 + 15);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 10 + 10);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap[3][0], eventActivationMap[0]);
EXPECT_EQ(eventDeactivationMap[4][0], eventActivationMap[2]);
ConfigMetricsReportList reports;
vector<uint8_t> buffer;
processor.onDumpReport(cfgKey, bucketStartTimeNs + NS_PER_SEC * 60 * 15 + 1, false, true,
ADB_DUMP, FAST, &buffer);
EXPECT_TRUE(buffer.size() > 0);
EXPECT_TRUE(reports.ParseFromArray(&buffer[0], buffer.size()));
backfillDimensionPath(&reports);
backfillStartEndTimestamp(&reports);
ASSERT_EQ(1, reports.reports_size());
ASSERT_EQ(1, reports.reports(0).metrics_size());
StatsLogReport::CountMetricDataWrapper countMetrics;
sortMetricDataByDimensionsValue(reports.reports(0).metrics(0).count_metrics(), &countMetrics);
ASSERT_EQ(5, countMetrics.data_size());
auto data = countMetrics.data(0);
EXPECT_EQ(util::PROCESS_LIFE_CYCLE_STATE_CHANGED, data.dimensions_in_what().field());
ASSERT_EQ(1, data.dimensions_in_what().value_tuple().dimensions_value_size());
EXPECT_EQ(1 /* uid field */,
data.dimensions_in_what().value_tuple().dimensions_value(0).field());
EXPECT_EQ(222, data.dimensions_in_what().value_tuple().dimensions_value(0).value_int());
ASSERT_EQ(1, data.bucket_info_size());
EXPECT_EQ(1, data.bucket_info(0).count());
EXPECT_EQ(bucketStartTimeNs, data.bucket_info(0).start_bucket_elapsed_nanos());
EXPECT_EQ(bucketStartTimeNs + bucketSizeNs, data.bucket_info(0).end_bucket_elapsed_nanos());
data = countMetrics.data(1);
EXPECT_EQ(util::PROCESS_LIFE_CYCLE_STATE_CHANGED, data.dimensions_in_what().field());
ASSERT_EQ(1, data.dimensions_in_what().value_tuple().dimensions_value_size());
EXPECT_EQ(1 /* uid field */,
data.dimensions_in_what().value_tuple().dimensions_value(0).field());
EXPECT_EQ(333, data.dimensions_in_what().value_tuple().dimensions_value(0).value_int());
ASSERT_EQ(1, data.bucket_info_size());
EXPECT_EQ(1, data.bucket_info(0).count());
EXPECT_EQ(bucketStartTimeNs, data.bucket_info(0).start_bucket_elapsed_nanos());
EXPECT_EQ(bucketStartTimeNs + bucketSizeNs, data.bucket_info(0).end_bucket_elapsed_nanos());
data = countMetrics.data(2);
EXPECT_EQ(util::PROCESS_LIFE_CYCLE_STATE_CHANGED, data.dimensions_in_what().field());
ASSERT_EQ(1, data.dimensions_in_what().value_tuple().dimensions_value_size());
EXPECT_EQ(1 /* uid field */,
data.dimensions_in_what().value_tuple().dimensions_value(0).field());
EXPECT_EQ(444, data.dimensions_in_what().value_tuple().dimensions_value(0).value_int());
ASSERT_EQ(1, data.bucket_info_size());
EXPECT_EQ(1, data.bucket_info(0).count());
// Partial bucket as metric is deactivated.
EXPECT_EQ(bucketStartTimeNs + bucketSizeNs, data.bucket_info(0).start_bucket_elapsed_nanos());
EXPECT_EQ(bucketStartTimeNs + NS_PER_SEC * 60 * 8,
data.bucket_info(0).end_bucket_elapsed_nanos());
data = countMetrics.data(3);
EXPECT_EQ(util::PROCESS_LIFE_CYCLE_STATE_CHANGED, data.dimensions_in_what().field());
ASSERT_EQ(1, data.dimensions_in_what().value_tuple().dimensions_value_size());
EXPECT_EQ(1 /* uid field */,
data.dimensions_in_what().value_tuple().dimensions_value(0).field());
EXPECT_EQ(666, data.dimensions_in_what().value_tuple().dimensions_value(0).value_int());
ASSERT_EQ(1, data.bucket_info_size());
EXPECT_EQ(1, data.bucket_info(0).count());
EXPECT_EQ(bucketStartTimeNs + 2 * bucketSizeNs,
data.bucket_info(0).start_bucket_elapsed_nanos());
EXPECT_EQ(bucketStartTimeNs + NS_PER_SEC * 60 * 11,
data.bucket_info(0).end_bucket_elapsed_nanos());
data = countMetrics.data(4);
EXPECT_EQ(util::PROCESS_LIFE_CYCLE_STATE_CHANGED, data.dimensions_in_what().field());
ASSERT_EQ(1, data.dimensions_in_what().value_tuple().dimensions_value_size());
EXPECT_EQ(1 /* uid field */,
data.dimensions_in_what().value_tuple().dimensions_value(0).field());
EXPECT_EQ(777, data.dimensions_in_what().value_tuple().dimensions_value(0).value_int());
ASSERT_EQ(1, data.bucket_info_size());
EXPECT_EQ(1, data.bucket_info(0).count());
EXPECT_EQ(bucketStartTimeNs + 2 * bucketSizeNs,
data.bucket_info(0).start_bucket_elapsed_nanos());
EXPECT_EQ(bucketStartTimeNs + NS_PER_SEC * 60 * 11,
data.bucket_info(0).end_bucket_elapsed_nanos());
}
TEST(MetricActivationE2eTest, TestCountMetricWithSameDeactivation) {
auto config = CreateStatsdConfigWithSameDeactivations();
int64_t bucketStartTimeNs = NS_PER_SEC * 10; // 10 secs
int64_t bucketSizeNs =
TimeUnitToBucketSizeInMillis(config.count_metric(0).bucket()) * 1000LL * 1000LL;
int uid = 12345;
int64_t cfgId = 98765;
ConfigKey cfgKey(uid, cfgId);
sp<UidMap> m = new UidMap();
sp<StatsPullerManager> pullerManager = new StatsPullerManager();
sp<AlarmMonitor> anomalyAlarmMonitor;
sp<AlarmMonitor> subscriberAlarmMonitor;
vector<int64_t> activeConfigsBroadcast;
long timeBase1 = 1;
int broadcastCount = 0;
std::shared_ptr<MockLogEventFilter> mockLogEventFilter = std::make_shared<MockLogEventFilter>();
EXPECT_CALL(*mockLogEventFilter, setAtomIds(StatsLogProcessor::getDefaultAtomIdSet(), _))
.Times(1);
StatsLogProcessor processor(
m, pullerManager, anomalyAlarmMonitor, subscriberAlarmMonitor, bucketStartTimeNs,
[](const ConfigKey& key) { return true; },
[&uid, &broadcastCount, &activeConfigsBroadcast](const int& broadcastUid,
const vector<int64_t>& activeConfigs) {
broadcastCount++;
EXPECT_EQ(broadcastUid, uid);
activeConfigsBroadcast.clear();
activeConfigsBroadcast.insert(activeConfigsBroadcast.end(), activeConfigs.begin(),
activeConfigs.end());
return true;
},
[](const ConfigKey&, const string&, const vector<int64_t>&) {}, mockLogEventFilter);
const LogEventFilter::AtomIdSet atomIdsList = CreateAtomIdSetFromConfig(config);
EXPECT_CALL(*mockLogEventFilter, setAtomIds(atomIdsList, &processor)).Times(1);
processor.OnConfigUpdated(bucketStartTimeNs, cfgKey, config);
ASSERT_EQ(processor.mMetricsManagers.size(), 1u);
sp<MetricsManager> metricsManager = processor.mMetricsManagers.begin()->second;
EXPECT_TRUE(metricsManager->isConfigValid());
ASSERT_EQ(metricsManager->mAllMetricProducers.size(), 1);
sp<MetricProducer> metricProducer = metricsManager->mAllMetricProducers[0];
auto& eventActivationMap = metricProducer->mEventActivationMap;
auto& eventDeactivationMap = metricProducer->mEventDeactivationMap;
EXPECT_FALSE(metricsManager->isActive());
EXPECT_FALSE(metricProducer->mIsActive);
// Two activations: one is triggered by battery saver mode (tracker index 0), the other is
// triggered by screen on event (tracker index 2).
ASSERT_EQ(eventActivationMap.size(), 2u);
EXPECT_TRUE(eventActivationMap.find(0) != eventActivationMap.end());
EXPECT_TRUE(eventActivationMap.find(2) != eventActivationMap.end());
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, 0);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, 0);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
ASSERT_EQ(eventDeactivationMap.size(), 1u);
EXPECT_TRUE(eventDeactivationMap.find(3) != eventDeactivationMap.end());
ASSERT_EQ(eventDeactivationMap[3].size(), 2u);
EXPECT_EQ(eventDeactivationMap[3][0], eventActivationMap[0]);
EXPECT_EQ(eventDeactivationMap[3][1], eventActivationMap[2]);
EXPECT_EQ(broadcastCount, 0);
std::unique_ptr<LogEvent> event;
// Event that should be ignored.
event = CreateAppCrashEvent(bucketStartTimeNs + 1, 111);
processor.OnLogEvent(event.get(), bucketStartTimeNs + 1);
// Activate metric via screen on for 2 minutes.
event = CreateScreenStateChangedEvent(bucketStartTimeNs + 10, android::view::DISPLAY_STATE_ON);
processor.OnLogEvent(event.get(), bucketStartTimeNs + 10);
EXPECT_TRUE(metricsManager->isActive());
EXPECT_TRUE(metricProducer->mIsActive);
EXPECT_EQ(broadcastCount, 1);
ASSERT_EQ(activeConfigsBroadcast.size(), 1);
EXPECT_EQ(activeConfigsBroadcast[0], cfgId);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, bucketStartTimeNs + 10);
// 1st processed event.
event = CreateAppCrashEvent(bucketStartTimeNs + 15, 222);
processor.OnLogEvent(event.get(), bucketStartTimeNs + 15);
// Enable battery saver mode activation for 5 minutes.
event = CreateBatterySaverOnEvent(bucketStartTimeNs + NS_PER_SEC * 60 + 10);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 + 10);
EXPECT_TRUE(metricsManager->isActive());
EXPECT_TRUE(metricProducer->mIsActive);
EXPECT_EQ(broadcastCount, 1);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 + 10);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, bucketStartTimeNs + 10);
// 2nd processed event.
event = CreateAppCrashEvent(bucketStartTimeNs + NS_PER_SEC * 60 + 40, 333);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 + 40);
// Cancel battery saver mode and screen on activation.
int64_t firstDeactivation = bucketStartTimeNs + NS_PER_SEC * 61;
event = CreateScreenBrightnessChangedEvent(firstDeactivation, 64);
processor.OnLogEvent(event.get(), firstDeactivation);
EXPECT_FALSE(metricsManager->isActive());
EXPECT_FALSE(metricProducer->mIsActive);
// New broadcast since the config is no longer active.
EXPECT_EQ(broadcastCount, 2);
ASSERT_EQ(activeConfigsBroadcast.size(), 0);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kNotActive);
// Should be ignored
event = CreateAppCrashEvent(bucketStartTimeNs + NS_PER_SEC * 61 + 80, 444);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 61 + 80);
// Re-enable battery saver mode activation.
event = CreateBatterySaverOnEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 10 + 15);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 10 + 15);
EXPECT_TRUE(metricsManager->isActive());
EXPECT_TRUE(metricProducer->mIsActive);
EXPECT_EQ(broadcastCount, 3);
ASSERT_EQ(activeConfigsBroadcast.size(), 1);
EXPECT_EQ(activeConfigsBroadcast[0], cfgId);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 10 + 15);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kNotActive);
// 3rd processed event.
event = CreateAppCrashEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 10 + 80, 555);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 10 + 80);
// Cancel battery saver mode activation.
int64_t secondDeactivation = bucketStartTimeNs + NS_PER_SEC * 60 * 13;
event = CreateScreenBrightnessChangedEvent(secondDeactivation, 140);
processor.OnLogEvent(event.get(), secondDeactivation);
EXPECT_FALSE(metricsManager->isActive());
EXPECT_FALSE(metricProducer->mIsActive);
EXPECT_EQ(broadcastCount, 4);
ASSERT_EQ(activeConfigsBroadcast.size(), 0);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kNotActive);
// Should be ignored.
event = CreateAppCrashEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 13 + 80, 666);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 13 + 80);
ConfigMetricsReportList reports;
vector<uint8_t> buffer;
processor.onDumpReport(cfgKey, bucketStartTimeNs + NS_PER_SEC * 60 * 15 + 1, false, true,
ADB_DUMP, FAST, &buffer);
EXPECT_TRUE(buffer.size() > 0);
EXPECT_TRUE(reports.ParseFromArray(&buffer[0], buffer.size()));
backfillDimensionPath(&reports);
backfillStartEndTimestamp(&reports);
ASSERT_EQ(1, reports.reports_size());
ASSERT_EQ(1, reports.reports(0).metrics_size());
StatsLogReport::CountMetricDataWrapper countMetrics;
sortMetricDataByDimensionsValue(reports.reports(0).metrics(0).count_metrics(), &countMetrics);
ASSERT_EQ(3, countMetrics.data_size());
auto data = countMetrics.data(0);
EXPECT_EQ(util::PROCESS_LIFE_CYCLE_STATE_CHANGED, data.dimensions_in_what().field());
ASSERT_EQ(1, data.dimensions_in_what().value_tuple().dimensions_value_size());
EXPECT_EQ(1 /* uid field */,
data.dimensions_in_what().value_tuple().dimensions_value(0).field());
EXPECT_EQ(222, data.dimensions_in_what().value_tuple().dimensions_value(0).value_int());
ASSERT_EQ(1, data.bucket_info_size());
EXPECT_EQ(1, data.bucket_info(0).count());
EXPECT_EQ(bucketStartTimeNs, data.bucket_info(0).start_bucket_elapsed_nanos());
EXPECT_EQ(firstDeactivation, data.bucket_info(0).end_bucket_elapsed_nanos());
data = countMetrics.data(1);
EXPECT_EQ(util::PROCESS_LIFE_CYCLE_STATE_CHANGED, data.dimensions_in_what().field());
ASSERT_EQ(1, data.dimensions_in_what().value_tuple().dimensions_value_size());
EXPECT_EQ(1 /* uid field */,
data.dimensions_in_what().value_tuple().dimensions_value(0).field());
EXPECT_EQ(333, data.dimensions_in_what().value_tuple().dimensions_value(0).value_int());
ASSERT_EQ(1, data.bucket_info_size());
EXPECT_EQ(1, data.bucket_info(0).count());
EXPECT_EQ(bucketStartTimeNs, data.bucket_info(0).start_bucket_elapsed_nanos());
EXPECT_EQ(firstDeactivation, data.bucket_info(0).end_bucket_elapsed_nanos());
data = countMetrics.data(2);
EXPECT_EQ(util::PROCESS_LIFE_CYCLE_STATE_CHANGED, data.dimensions_in_what().field());
ASSERT_EQ(1, data.dimensions_in_what().value_tuple().dimensions_value_size());
EXPECT_EQ(1 /* uid field */,
data.dimensions_in_what().value_tuple().dimensions_value(0).field());
EXPECT_EQ(555, data.dimensions_in_what().value_tuple().dimensions_value(0).value_int());
ASSERT_EQ(1, data.bucket_info_size());
EXPECT_EQ(1, data.bucket_info(0).count());
// Partial bucket as metric is deactivated.
EXPECT_EQ(bucketStartTimeNs + 2 * bucketSizeNs,
data.bucket_info(0).start_bucket_elapsed_nanos());
EXPECT_EQ(secondDeactivation, data.bucket_info(0).end_bucket_elapsed_nanos());
}
TEST(MetricActivationE2eTest, TestCountMetricWithTwoMetricsTwoDeactivations) {
auto config = CreateStatsdConfigWithTwoMetricsTwoDeactivations();
int64_t bucketStartTimeNs = NS_PER_SEC * 10; // 10 secs
int64_t bucketSizeNs =
TimeUnitToBucketSizeInMillis(config.count_metric(0).bucket()) * 1000LL * 1000LL;
int uid = 12345;
int64_t cfgId = 98765;
ConfigKey cfgKey(uid, cfgId);
sp<UidMap> m = new UidMap();
sp<StatsPullerManager> pullerManager = new StatsPullerManager();
sp<AlarmMonitor> anomalyAlarmMonitor;
sp<AlarmMonitor> subscriberAlarmMonitor;
vector<int64_t> activeConfigsBroadcast;
long timeBase1 = 1;
int broadcastCount = 0;
std::shared_ptr<MockLogEventFilter> mockLogEventFilter = std::make_shared<MockLogEventFilter>();
EXPECT_CALL(*mockLogEventFilter, setAtomIds(StatsLogProcessor::getDefaultAtomIdSet(), _))
.Times(1);
StatsLogProcessor processor(
m, pullerManager, anomalyAlarmMonitor, subscriberAlarmMonitor, bucketStartTimeNs,
[](const ConfigKey& key) { return true; },
[&uid, &broadcastCount, &activeConfigsBroadcast](const int& broadcastUid,
const vector<int64_t>& activeConfigs) {
broadcastCount++;
EXPECT_EQ(broadcastUid, uid);
activeConfigsBroadcast.clear();
activeConfigsBroadcast.insert(activeConfigsBroadcast.end(), activeConfigs.begin(),
activeConfigs.end());
return true;
},
[](const ConfigKey&, const string&, const vector<int64_t>&) {}, mockLogEventFilter);
const LogEventFilter::AtomIdSet atomIdsList = CreateAtomIdSetFromConfig(config);
EXPECT_CALL(*mockLogEventFilter, setAtomIds(atomIdsList, &processor)).Times(1);
processor.OnConfigUpdated(bucketStartTimeNs, cfgKey, config);
ASSERT_EQ(processor.mMetricsManagers.size(), 1u);
sp<MetricsManager> metricsManager = processor.mMetricsManagers.begin()->second;
EXPECT_TRUE(metricsManager->isConfigValid());
ASSERT_EQ(metricsManager->mAllMetricProducers.size(), 2);
sp<MetricProducer> metricProducer = metricsManager->mAllMetricProducers[0];
auto& eventActivationMap = metricProducer->mEventActivationMap;
auto& eventDeactivationMap = metricProducer->mEventDeactivationMap;
sp<MetricProducer> metricProducer2 = metricsManager->mAllMetricProducers[1];
auto& eventActivationMap2 = metricProducer2->mEventActivationMap;
auto& eventDeactivationMap2 = metricProducer2->mEventDeactivationMap;
EXPECT_FALSE(metricsManager->isActive());
EXPECT_FALSE(metricProducer->mIsActive);
EXPECT_FALSE(metricProducer2->mIsActive);
// Two activations: one is triggered by battery saver mode (tracker index 0), the other is
// triggered by screen on event (tracker index 2).
ASSERT_EQ(eventActivationMap.size(), 2u);
EXPECT_TRUE(eventActivationMap.find(0) != eventActivationMap.end());
EXPECT_TRUE(eventActivationMap.find(2) != eventActivationMap.end());
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, 0);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, 0);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
ASSERT_EQ(eventDeactivationMap.size(), 2u);
EXPECT_TRUE(eventDeactivationMap.find(3) != eventDeactivationMap.end());
EXPECT_TRUE(eventDeactivationMap.find(4) != eventDeactivationMap.end());
ASSERT_EQ(eventDeactivationMap[3].size(), 1u);
ASSERT_EQ(eventDeactivationMap[4].size(), 1u);
EXPECT_EQ(eventDeactivationMap[3][0], eventActivationMap[0]);
EXPECT_EQ(eventDeactivationMap[4][0], eventActivationMap[2]);
ASSERT_EQ(eventActivationMap2.size(), 2u);
EXPECT_TRUE(eventActivationMap2.find(0) != eventActivationMap2.end());
EXPECT_TRUE(eventActivationMap2.find(2) != eventActivationMap2.end());
EXPECT_EQ(eventActivationMap2[0]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap2[0]->start_ns, 0);
EXPECT_EQ(eventActivationMap2[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap2[2]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap2[2]->start_ns, 0);
EXPECT_EQ(eventActivationMap2[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
ASSERT_EQ(eventDeactivationMap2.size(), 2u);
EXPECT_TRUE(eventDeactivationMap2.find(3) != eventDeactivationMap2.end());
EXPECT_TRUE(eventDeactivationMap2.find(4) != eventDeactivationMap2.end());
ASSERT_EQ(eventDeactivationMap[3].size(), 1u);
ASSERT_EQ(eventDeactivationMap[4].size(), 1u);
EXPECT_EQ(eventDeactivationMap2[3][0], eventActivationMap2[0]);
EXPECT_EQ(eventDeactivationMap2[4][0], eventActivationMap2[2]);
std::unique_ptr<LogEvent> event;
event = CreateAppCrashEvent(bucketStartTimeNs + 5, 111);
processor.OnLogEvent(event.get(), bucketStartTimeNs + 5);
event = CreateMoveToForegroundEvent(bucketStartTimeNs + 5, 1111);
processor.OnLogEvent(event.get(), bucketStartTimeNs + 5);
EXPECT_FALSE(metricsManager->isActive());
EXPECT_FALSE(metricProducer->mIsActive);
EXPECT_FALSE(metricProducer2->mIsActive);
EXPECT_EQ(broadcastCount, 0);
// Activated by battery save mode.
event = CreateBatterySaverOnEvent(bucketStartTimeNs + 10);
processor.OnLogEvent(event.get(), bucketStartTimeNs + 10);
EXPECT_TRUE(metricsManager->isActive());
EXPECT_EQ(broadcastCount, 1);
ASSERT_EQ(activeConfigsBroadcast.size(), 1);
EXPECT_EQ(activeConfigsBroadcast[0], cfgId);
EXPECT_TRUE(metricProducer->mIsActive);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, bucketStartTimeNs + 10);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, 0);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap[3][0], eventActivationMap[0]);
EXPECT_EQ(eventDeactivationMap[4][0], eventActivationMap[2]);
EXPECT_TRUE(metricProducer2->mIsActive);
EXPECT_EQ(eventActivationMap2[0]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap2[0]->start_ns, bucketStartTimeNs + 10);
EXPECT_EQ(eventActivationMap2[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap2[2]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap2[2]->start_ns, 0);
EXPECT_EQ(eventActivationMap2[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap2[3][0], eventActivationMap2[0]);
EXPECT_EQ(eventDeactivationMap2[4][0], eventActivationMap2[2]);
// First processed event.
event = CreateAppCrashEvent(bucketStartTimeNs + 15, 222);
processor.OnLogEvent(event.get(), bucketStartTimeNs + 15);
event = CreateMoveToForegroundEvent(bucketStartTimeNs + 15, 2222);
processor.OnLogEvent(event.get(), bucketStartTimeNs + 15);
// Activated by screen on event.
event = CreateScreenStateChangedEvent(bucketStartTimeNs + 20, android::view::DISPLAY_STATE_ON);
processor.OnLogEvent(event.get(), bucketStartTimeNs + 20);
EXPECT_TRUE(metricsManager->isActive());
EXPECT_TRUE(metricProducer->mIsActive);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, bucketStartTimeNs + 10);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, bucketStartTimeNs + 20);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap[3][0], eventActivationMap[0]);
EXPECT_EQ(eventDeactivationMap[4][0], eventActivationMap[2]);
EXPECT_TRUE(metricProducer2->mIsActive);
EXPECT_EQ(eventActivationMap2[0]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap2[0]->start_ns, bucketStartTimeNs + 10);
EXPECT_EQ(eventActivationMap2[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap2[2]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap2[2]->start_ns, bucketStartTimeNs + 20);
EXPECT_EQ(eventActivationMap2[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap2[3][0], eventActivationMap2[0]);
EXPECT_EQ(eventDeactivationMap2[4][0], eventActivationMap2[2]);
// 2nd processed event.
// The activation by screen_on event expires, but the one by battery save mode is still active.
event = CreateAppCrashEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 2 + 25, 333);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 2 + 25);
event = CreateMoveToForegroundEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 2 + 25, 3333);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 2 + 25);
EXPECT_TRUE(metricsManager->isActive());
EXPECT_TRUE(metricProducer->mIsActive);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, bucketStartTimeNs + 10);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, bucketStartTimeNs + 20);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap[3][0], eventActivationMap[0]);
EXPECT_EQ(eventDeactivationMap[4][0], eventActivationMap[2]);
EXPECT_TRUE(metricProducer2->mIsActive);
EXPECT_EQ(eventActivationMap2[0]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap2[0]->start_ns, bucketStartTimeNs + 10);
EXPECT_EQ(eventActivationMap2[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap2[2]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap2[2]->start_ns, bucketStartTimeNs + 20);
EXPECT_EQ(eventActivationMap2[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap2[3][0], eventActivationMap2[0]);
EXPECT_EQ(eventDeactivationMap2[4][0], eventActivationMap2[2]);
// No new broadcast since the config should still be active.
EXPECT_EQ(broadcastCount, 1);
// 3rd processed event.
event = CreateAppCrashEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 5 + 25, 444);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 5 + 25);
event = CreateMoveToForegroundEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 5 + 25, 4444);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 5 + 25);
// All activations expired.
event = CreateAppCrashEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 8, 555);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 8);
event = CreateMoveToForegroundEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 8, 5555);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 8);
EXPECT_FALSE(metricsManager->isActive());
// New broadcast since the config is no longer active.
EXPECT_EQ(broadcastCount, 2);
ASSERT_EQ(activeConfigsBroadcast.size(), 0);
EXPECT_FALSE(metricProducer->mIsActive);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, bucketStartTimeNs + 10);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, bucketStartTimeNs + 20);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap[3][0], eventActivationMap[0]);
EXPECT_EQ(eventDeactivationMap[4][0], eventActivationMap[2]);
EXPECT_FALSE(metricProducer2->mIsActive);
EXPECT_EQ(eventActivationMap2[0]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap2[0]->start_ns, bucketStartTimeNs + 10);
EXPECT_EQ(eventActivationMap2[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap2[2]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap2[2]->start_ns, bucketStartTimeNs + 20);
EXPECT_EQ(eventActivationMap2[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap2[3][0], eventActivationMap2[0]);
EXPECT_EQ(eventDeactivationMap2[4][0], eventActivationMap2[2]);
// Re-activate metric via screen on.
event = CreateScreenStateChangedEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 10 + 10,
android::view::DISPLAY_STATE_ON);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 10 + 10);
EXPECT_TRUE(metricsManager->isActive());
EXPECT_EQ(broadcastCount, 3);
ASSERT_EQ(activeConfigsBroadcast.size(), 1);
EXPECT_EQ(activeConfigsBroadcast[0], cfgId);
EXPECT_TRUE(metricProducer->mIsActive);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, bucketStartTimeNs + 10);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 10 + 10);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap[3][0], eventActivationMap[0]);
EXPECT_EQ(eventDeactivationMap[4][0], eventActivationMap[2]);
EXPECT_TRUE(metricProducer2->mIsActive);
EXPECT_EQ(eventActivationMap2[0]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap2[0]->start_ns, bucketStartTimeNs + 10);
EXPECT_EQ(eventActivationMap2[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap2[2]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap2[2]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 10 + 10);
EXPECT_EQ(eventActivationMap2[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap2[3][0], eventActivationMap2[0]);
EXPECT_EQ(eventDeactivationMap2[4][0], eventActivationMap2[2]);
// 4th processed event.
event = CreateAppCrashEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 1, 666);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 1);
event = CreateMoveToForegroundEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 1, 6666);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 1);
// Re-enable battery saver mode activation.
event = CreateBatterySaverOnEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 15);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 15);
EXPECT_TRUE(metricsManager->isActive());
EXPECT_EQ(broadcastCount, 3);
ASSERT_EQ(activeConfigsBroadcast.size(), 1);
EXPECT_EQ(activeConfigsBroadcast[0], cfgId);
EXPECT_TRUE(metricProducer->mIsActive);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 15);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 10 + 10);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap[3][0], eventActivationMap[0]);
EXPECT_EQ(eventDeactivationMap[4][0], eventActivationMap[2]);
EXPECT_TRUE(metricProducer2->mIsActive);
EXPECT_EQ(eventActivationMap2[0]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap2[0]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 15);
EXPECT_EQ(eventActivationMap2[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap2[2]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap2[2]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 10 + 10);
EXPECT_EQ(eventActivationMap2[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap2[3][0], eventActivationMap2[0]);
EXPECT_EQ(eventDeactivationMap2[4][0], eventActivationMap2[2]);
// 5th processed event.
event = CreateAppCrashEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 40, 777);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 40);
event = CreateMoveToForegroundEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 40, 7777);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 40);
// Cancel battery saver mode and screen on activation.
event = CreateScreenBrightnessChangedEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 60, 64);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 60);
EXPECT_FALSE(metricsManager->isActive());
// New broadcast since the config is no longer active.
EXPECT_EQ(broadcastCount, 4);
ASSERT_EQ(activeConfigsBroadcast.size(), 0);
EXPECT_FALSE(metricProducer->mIsActive);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 15);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 10 + 10);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap[3][0], eventActivationMap[0]);
EXPECT_EQ(eventDeactivationMap[4][0], eventActivationMap[2]);
EXPECT_FALSE(metricProducer2->mIsActive);
EXPECT_EQ(eventActivationMap2[0]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap2[0]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 15);
EXPECT_EQ(eventActivationMap2[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap2[2]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap2[2]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 10 + 10);
EXPECT_EQ(eventActivationMap2[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap2[3][0], eventActivationMap2[0]);
EXPECT_EQ(eventDeactivationMap2[4][0], eventActivationMap2[2]);
// Screen-on activation expired.
event = CreateAppCrashEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 13, 888);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 13);
event = CreateMoveToForegroundEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 13, 8888);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 13);
EXPECT_FALSE(metricsManager->isActive());
EXPECT_EQ(broadcastCount, 4);
ASSERT_EQ(activeConfigsBroadcast.size(), 0);
EXPECT_FALSE(metricProducer->mIsActive);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 15);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 10 + 10);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap[3][0], eventActivationMap[0]);
EXPECT_EQ(eventDeactivationMap[4][0], eventActivationMap[2]);
EXPECT_FALSE(metricProducer2->mIsActive);
EXPECT_EQ(eventActivationMap2[0]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap2[0]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 11 + 15);
EXPECT_EQ(eventActivationMap2[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap2[2]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap2[2]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 10 + 10);
EXPECT_EQ(eventActivationMap2[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap2[3][0], eventActivationMap2[0]);
EXPECT_EQ(eventDeactivationMap2[4][0], eventActivationMap2[2]);
event = CreateAppCrashEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 14 + 1, 999);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 14 + 1);
event = CreateMoveToForegroundEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 14 + 1, 9999);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 14 + 1);
// Re-enable battery saver mode activation.
event = CreateBatterySaverOnEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 15 + 15);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 15 + 15);
EXPECT_TRUE(metricsManager->isActive());
EXPECT_EQ(broadcastCount, 5);
ASSERT_EQ(activeConfigsBroadcast.size(), 1);
EXPECT_EQ(activeConfigsBroadcast[0], cfgId);
EXPECT_TRUE(metricProducer->mIsActive);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 15 + 15);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 10 + 10);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap[3][0], eventActivationMap[0]);
EXPECT_EQ(eventDeactivationMap[4][0], eventActivationMap[2]);
EXPECT_TRUE(metricProducer2->mIsActive);
EXPECT_EQ(eventActivationMap2[0]->state, ActivationState::kActive);
EXPECT_EQ(eventActivationMap2[0]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 15 + 15);
EXPECT_EQ(eventActivationMap2[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap2[2]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap2[2]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 10 + 10);
EXPECT_EQ(eventActivationMap2[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap2[3][0], eventActivationMap2[0]);
EXPECT_EQ(eventDeactivationMap2[4][0], eventActivationMap2[2]);
// Cancel battery saver mode and screen on activation.
event = CreateScreenBrightnessChangedEvent(bucketStartTimeNs + NS_PER_SEC * 60 * 16, 140);
processor.OnLogEvent(event.get(), bucketStartTimeNs + NS_PER_SEC * 60 * 16);
EXPECT_FALSE(metricsManager->isActive());
EXPECT_EQ(broadcastCount, 6);
ASSERT_EQ(activeConfigsBroadcast.size(), 0);
EXPECT_FALSE(metricProducer->mIsActive);
EXPECT_EQ(eventActivationMap[0]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[0]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 15 + 15);
EXPECT_EQ(eventActivationMap[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap[2]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 10 + 10);
EXPECT_EQ(eventActivationMap[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap[3][0], eventActivationMap[0]);
EXPECT_EQ(eventDeactivationMap[4][0], eventActivationMap[2]);
EXPECT_FALSE(metricProducer2->mIsActive);
EXPECT_EQ(eventActivationMap2[0]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap2[0]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 15 + 15);
EXPECT_EQ(eventActivationMap2[0]->ttl_ns, 60 * 6 * NS_PER_SEC);
EXPECT_EQ(eventActivationMap2[2]->state, ActivationState::kNotActive);
EXPECT_EQ(eventActivationMap2[2]->start_ns, bucketStartTimeNs + NS_PER_SEC * 60 * 10 + 10);
EXPECT_EQ(eventActivationMap2[2]->ttl_ns, 60 * 2 * NS_PER_SEC);
EXPECT_EQ(eventDeactivationMap2[3][0], eventActivationMap2[0]);
EXPECT_EQ(eventDeactivationMap2[4][0], eventActivationMap2[2]);
ConfigMetricsReportList reports;
vector<uint8_t> buffer;
processor.onDumpReport(cfgKey, bucketStartTimeNs + NS_PER_SEC * 60 * 15 + 1, false, true,
ADB_DUMP, FAST, &buffer);
EXPECT_TRUE(buffer.size() > 0);
EXPECT_TRUE(reports.ParseFromArray(&buffer[0], buffer.size()));
backfillDimensionPath(&reports);
backfillStartEndTimestamp(&reports);
ASSERT_EQ(1, reports.reports_size());
ASSERT_EQ(2, reports.reports(0).metrics_size());
StatsLogReport::CountMetricDataWrapper countMetrics;
sortMetricDataByDimensionsValue(reports.reports(0).metrics(0).count_metrics(), &countMetrics);
ASSERT_EQ(5, countMetrics.data_size());
auto data = countMetrics.data(0);
EXPECT_EQ(util::PROCESS_LIFE_CYCLE_STATE_CHANGED, data.dimensions_in_what().field());
ASSERT_EQ(1, data.dimensions_in_what().value_tuple().dimensions_value_size());
EXPECT_EQ(1 /* uid field */,
data.dimensions_in_what().value_tuple().dimensions_value(0).field());
EXPECT_EQ(222, data.dimensions_in_what().value_tuple().dimensions_value(0).value_int());
ASSERT_EQ(1, data.bucket_info_size());
EXPECT_EQ(1, data.bucket_info(0).count());
EXPECT_EQ(bucketStartTimeNs, data.bucket_info(0).start_bucket_elapsed_nanos());
EXPECT_EQ(bucketStartTimeNs + bucketSizeNs, data.bucket_info(0).end_bucket_elapsed_nanos());
data = countMetrics.data(1);
EXPECT_EQ(util::PROCESS_LIFE_CYCLE_STATE_CHANGED, data.dimensions_in_what().field());
ASSERT_EQ(1, data.dimensions_in_what().value_tuple().dimensions_value_size());
EXPECT_EQ(1 /* uid field */,
data.dimensions_in_what().value_tuple().dimensions_value(0).field());
EXPECT_EQ(333, data.dimensions_in_what().value_tuple().dimensions_value(0).value_int());
ASSERT_EQ(1, data.bucket_info_size());
EXPECT_EQ(1, data.bucket_info(0).count());
EXPECT_EQ(bucketStartTimeNs, data.bucket_info(0).start_bucket_elapsed_nanos());
EXPECT_EQ(bucketStartTimeNs + bucketSizeNs, data.bucket_info(0).end_bucket_elapsed_nanos());
data = countMetrics.data(2);
EXPECT_EQ(util::PROCESS_LIFE_CYCLE_STATE_CHANGED, data.dimensions_in_what().field());
ASSERT_EQ(1, data.dimensions_in_what().value_tuple().dimensions_value_size());
EXPECT_EQ(1 /* uid field */,
data.dimensions_in_what().value_tuple().dimensions_value(0).field());
EXPECT_EQ(444, data.dimensions_in_what().value_tuple().dimensions_value(0).value_int());
ASSERT_EQ(1, data.bucket_info_size());
EXPECT_EQ(1, data.bucket_info(0).count());
// Partial bucket as metric is deactivated.
EXPECT_EQ(bucketStartTimeNs + bucketSizeNs, data.bucket_info(0).start_bucket_elapsed_nanos());
EXPECT_EQ(bucketStartTimeNs + NS_PER_SEC * 60 * 8,
data.bucket_info(0).end_bucket_elapsed_nanos());
data = countMetrics.data(3);
EXPECT_EQ(util::PROCESS_LIFE_CYCLE_STATE_CHANGED, data.dimensions_in_what().field());
ASSERT_EQ(1, data.dimensions_in_what().value_tuple().dimensions_value_size());
EXPECT_EQ(1 /* uid field */,
data.dimensions_in_what().value_tuple().dimensions_value(0).field());
EXPECT_EQ(666, data.dimensions_in_what().value_tuple().dimensions_value(0).value_int());
ASSERT_EQ(1, data.bucket_info_size());
EXPECT_EQ(1, data.bucket_info(0).count());
EXPECT_EQ(bucketStartTimeNs + 2 * bucketSizeNs,
data.bucket_info(0).start_bucket_elapsed_nanos());
EXPECT_EQ(bucketStartTimeNs + NS_PER_SEC * 60 * 11,
data.bucket_info(0).end_bucket_elapsed_nanos());
data = countMetrics.data(4);
EXPECT_EQ(util::PROCESS_LIFE_CYCLE_STATE_CHANGED, data.dimensions_in_what().field());
ASSERT_EQ(1, data.dimensions_in_what().value_tuple().dimensions_value_size());
EXPECT_EQ(1 /* uid field */,
data.dimensions_in_what().value_tuple().dimensions_value(0).field());
EXPECT_EQ(777, data.dimensions_in_what().value_tuple().dimensions_value(0).value_int());
ASSERT_EQ(1, data.bucket_info_size());
EXPECT_EQ(1, data.bucket_info(0).count());
EXPECT_EQ(bucketStartTimeNs + 2 * bucketSizeNs,
data.bucket_info(0).start_bucket_elapsed_nanos());
EXPECT_EQ(bucketStartTimeNs + NS_PER_SEC * 60 * 11,
data.bucket_info(0).end_bucket_elapsed_nanos());
countMetrics.clear_data();
sortMetricDataByDimensionsValue(reports.reports(0).metrics(1).count_metrics(), &countMetrics);
ASSERT_EQ(5, countMetrics.data_size());
data = countMetrics.data(0);
EXPECT_EQ(util::ACTIVITY_FOREGROUND_STATE_CHANGED, data.dimensions_in_what().field());
ASSERT_EQ(1, data.dimensions_in_what().value_tuple().dimensions_value_size());
EXPECT_EQ(1 /* uid field */,
data.dimensions_in_what().value_tuple().dimensions_value(0).field());
EXPECT_EQ(2222, data.dimensions_in_what().value_tuple().dimensions_value(0).value_int());
ASSERT_EQ(1, data.bucket_info_size());
EXPECT_EQ(1, data.bucket_info(0).count());
EXPECT_EQ(bucketStartTimeNs, data.bucket_info(0).start_bucket_elapsed_nanos());
EXPECT_EQ(bucketStartTimeNs + bucketSizeNs, data.bucket_info(0).end_bucket_elapsed_nanos());
data = countMetrics.data(1);
EXPECT_EQ(util::ACTIVITY_FOREGROUND_STATE_CHANGED, data.dimensions_in_what().field());
ASSERT_EQ(1, data.dimensions_in_what().value_tuple().dimensions_value_size());
EXPECT_EQ(1 /* uid field */,
data.dimensions_in_what().value_tuple().dimensions_value(0).field());
EXPECT_EQ(3333, data.dimensions_in_what().value_tuple().dimensions_value(0).value_int());
ASSERT_EQ(1, data.bucket_info_size());
EXPECT_EQ(1, data.bucket_info(0).count());
EXPECT_EQ(bucketStartTimeNs, data.bucket_info(0).start_bucket_elapsed_nanos());
EXPECT_EQ(bucketStartTimeNs + bucketSizeNs, data.bucket_info(0).end_bucket_elapsed_nanos());
data = countMetrics.data(2);
EXPECT_EQ(util::ACTIVITY_FOREGROUND_STATE_CHANGED, data.dimensions_in_what().field());
ASSERT_EQ(1, data.dimensions_in_what().value_tuple().dimensions_value_size());
EXPECT_EQ(1 /* uid field */,
data.dimensions_in_what().value_tuple().dimensions_value(0).field());
EXPECT_EQ(4444, data.dimensions_in_what().value_tuple().dimensions_value(0).value_int());
ASSERT_EQ(1, data.bucket_info_size());
EXPECT_EQ(1, data.bucket_info(0).count());
// Partial bucket as metric is deactivated.
EXPECT_EQ(bucketStartTimeNs + bucketSizeNs, data.bucket_info(0).start_bucket_elapsed_nanos());
EXPECT_EQ(bucketStartTimeNs + NS_PER_SEC * 60 * 8,
data.bucket_info(0).end_bucket_elapsed_nanos());
data = countMetrics.data(3);
EXPECT_EQ(util::ACTIVITY_FOREGROUND_STATE_CHANGED, data.dimensions_in_what().field());
ASSERT_EQ(1, data.dimensions_in_what().value_tuple().dimensions_value_size());
EXPECT_EQ(1 /* uid field */,
data.dimensions_in_what().value_tuple().dimensions_value(0).field());
EXPECT_EQ(6666, data.dimensions_in_what().value_tuple().dimensions_value(0).value_int());
ASSERT_EQ(1, data.bucket_info_size());
EXPECT_EQ(1, data.bucket_info(0).count());
EXPECT_EQ(bucketStartTimeNs + 2 * bucketSizeNs,
data.bucket_info(0).start_bucket_elapsed_nanos());
EXPECT_EQ(bucketStartTimeNs + NS_PER_SEC * 60 * 11,
data.bucket_info(0).end_bucket_elapsed_nanos());
data = countMetrics.data(4);
EXPECT_EQ(util::ACTIVITY_FOREGROUND_STATE_CHANGED, data.dimensions_in_what().field());
ASSERT_EQ(1, data.dimensions_in_what().value_tuple().dimensions_value_size());
EXPECT_EQ(1 /* uid field */,
data.dimensions_in_what().value_tuple().dimensions_value(0).field());
EXPECT_EQ(7777, data.dimensions_in_what().value_tuple().dimensions_value(0).value_int());
ASSERT_EQ(1, data.bucket_info_size());
EXPECT_EQ(1, data.bucket_info(0).count());
EXPECT_EQ(bucketStartTimeNs + 2 * bucketSizeNs,
data.bucket_info(0).start_bucket_elapsed_nanos());
EXPECT_EQ(bucketStartTimeNs + NS_PER_SEC * 60 * 11,
data.bucket_info(0).end_bucket_elapsed_nanos());
}
#else
GTEST_LOG_(INFO) << "This test does nothing.\n";
#endif
} // namespace statsd
} // namespace os
} // namespace android