cmds/statsd/tests/e2e/DurationMetric_e2e_test.cpp

// Copyright (C) 2019 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__

// TODO(b/149590301): Update these tests to use new socket schema.
//TEST(DurationMetricE2eTest, TestOneBucket) {
//    StatsdConfig config;
//    config.add_allowed_log_source("AID_ROOT"); // LogEvent defaults to UID of root.
//
//    auto screenOnMatcher = CreateScreenTurnedOnAtomMatcher();
//    auto screenOffMatcher = CreateScreenTurnedOffAtomMatcher();
//    *config.add_atom_matcher() = screenOnMatcher;
//    *config.add_atom_matcher() = screenOffMatcher;
//
//    auto durationPredicate = CreateScreenIsOnPredicate();
//    *config.add_predicate() = durationPredicate;
//
//    int64_t metricId = 123456;
//    auto durationMetric = config.add_duration_metric();
//    durationMetric->set_id(metricId);
//    durationMetric->set_what(durationPredicate.id());
//    durationMetric->set_bucket(FIVE_MINUTES);
//    durationMetric->set_aggregation_type(DurationMetric_AggregationType_SUM);
//
//
//    const int64_t baseTimeNs = 0; // 0:00
//    const int64_t configAddedTimeNs = baseTimeNs + 1 * NS_PER_SEC; // 0:01
//    const int64_t bucketSizeNs =
//            TimeUnitToBucketSizeInMillis(config.duration_metric(0).bucket()) * 1000LL * 1000LL;
//
//    int uid = 12345;
//    int64_t cfgId = 98765;
//    ConfigKey cfgKey(uid, cfgId);
//
//    auto processor = CreateStatsLogProcessor(baseTimeNs, configAddedTimeNs, config, cfgKey);
//
//    EXPECT_EQ(processor->mMetricsManagers.size(), 1u);
//    sp<MetricsManager> metricsManager = processor->mMetricsManagers.begin()->second;
//    EXPECT_TRUE(metricsManager->isConfigValid());
//    EXPECT_EQ(metricsManager->mAllMetricProducers.size(), 1);
//    sp<MetricProducer> metricProducer = metricsManager->mAllMetricProducers[0];
//    EXPECT_TRUE(metricsManager->isActive());
//    EXPECT_TRUE(metricProducer->mIsActive);
//
//    std::unique_ptr<LogEvent> event;
//
//    // Screen is off at start of bucket.
//    event = CreateScreenStateChangedEvent(
//            android::view::DISPLAY_STATE_OFF, configAddedTimeNs); // 0:01
//    processor->OnLogEvent(event.get());
//
//    // Turn screen on.
//    const int64_t durationStartNs = configAddedTimeNs + 10 * NS_PER_SEC; // 0:11
//    event = CreateScreenStateChangedEvent(android::view::DISPLAY_STATE_ON, durationStartNs);
//    processor->OnLogEvent(event.get());
//
//    // Turn off screen 30 seconds after turning on.
//    const int64_t durationEndNs = durationStartNs + 30 * NS_PER_SEC; // 0:41
//    event = CreateScreenStateChangedEvent(android::view::DISPLAY_STATE_OFF, durationEndNs);
//    processor->OnLogEvent(event.get());
//
//    event = CreateScreenBrightnessChangedEvent(64, durationEndNs + 1 * NS_PER_SEC); // 0:42
//    processor->OnLogEvent(event.get());
//
//    ConfigMetricsReportList reports;
//    vector<uint8_t> buffer;
//    processor->onDumpReport(cfgKey, configAddedTimeNs + bucketSizeNs + 1 * NS_PER_SEC, false, true,
//                            ADB_DUMP, FAST, &buffer); // 5:01
//    EXPECT_TRUE(buffer.size() > 0);
//    EXPECT_TRUE(reports.ParseFromArray(&buffer[0], buffer.size()));
//    backfillDimensionPath(&reports);
//    backfillStartEndTimestamp(&reports);
//    EXPECT_EQ(1, reports.reports_size());
//    EXPECT_EQ(1, reports.reports(0).metrics_size());
//    EXPECT_EQ(metricId, reports.reports(0).metrics(0).metric_id());
//    EXPECT_TRUE(reports.reports(0).metrics(0).has_duration_metrics());
//
//    const StatsLogReport::DurationMetricDataWrapper& durationMetrics =
//            reports.reports(0).metrics(0).duration_metrics();
//    EXPECT_EQ(1, durationMetrics.data_size());
//
//    auto data = durationMetrics.data(0);
//    EXPECT_EQ(1, data.bucket_info_size());
//    EXPECT_EQ(durationEndNs - durationStartNs, data.bucket_info(0).duration_nanos());
//    EXPECT_EQ(configAddedTimeNs, data.bucket_info(0).start_bucket_elapsed_nanos());
//    EXPECT_EQ(baseTimeNs + bucketSizeNs, data.bucket_info(0).end_bucket_elapsed_nanos());
//}
//
//TEST(DurationMetricE2eTest, TestTwoBuckets) {
//    StatsdConfig config;
//    config.add_allowed_log_source("AID_ROOT"); // LogEvent defaults to UID of root.
//
//    auto screenOnMatcher = CreateScreenTurnedOnAtomMatcher();
//    auto screenOffMatcher = CreateScreenTurnedOffAtomMatcher();
//    *config.add_atom_matcher() = screenOnMatcher;
//    *config.add_atom_matcher() = screenOffMatcher;
//
//    auto durationPredicate = CreateScreenIsOnPredicate();
//    *config.add_predicate() = durationPredicate;
//
//    int64_t metricId = 123456;
//    auto durationMetric = config.add_duration_metric();
//    durationMetric->set_id(metricId);
//    durationMetric->set_what(durationPredicate.id());
//    durationMetric->set_bucket(FIVE_MINUTES);
//    durationMetric->set_aggregation_type(DurationMetric_AggregationType_SUM);
//
//
//    const int64_t baseTimeNs = 0; // 0:00
//    const int64_t configAddedTimeNs = baseTimeNs + 1 * NS_PER_SEC; // 0:01
//    const int64_t bucketSizeNs =
//            TimeUnitToBucketSizeInMillis(config.duration_metric(0).bucket()) * 1000LL * 1000LL;
//
//    int uid = 12345;
//    int64_t cfgId = 98765;
//    ConfigKey cfgKey(uid, cfgId);
//
//    auto processor = CreateStatsLogProcessor(baseTimeNs, configAddedTimeNs, config, cfgKey);
//
//    EXPECT_EQ(processor->mMetricsManagers.size(), 1u);
//    sp<MetricsManager> metricsManager = processor->mMetricsManagers.begin()->second;
//    EXPECT_TRUE(metricsManager->isConfigValid());
//    EXPECT_EQ(metricsManager->mAllMetricProducers.size(), 1);
//    sp<MetricProducer> metricProducer = metricsManager->mAllMetricProducers[0];
//    EXPECT_TRUE(metricsManager->isActive());
//    EXPECT_TRUE(metricProducer->mIsActive);
//
//    std::unique_ptr<LogEvent> event;
//
//    // Screen is off at start of bucket.
//    event = CreateScreenStateChangedEvent(
//            android::view::DISPLAY_STATE_OFF, configAddedTimeNs); // 0:01
//    processor->OnLogEvent(event.get());
//
//    // Turn screen on.
//    const int64_t durationStartNs = configAddedTimeNs + 10 * NS_PER_SEC; // 0:11
//    event = CreateScreenStateChangedEvent(android::view::DISPLAY_STATE_ON, durationStartNs);
//    processor->OnLogEvent(event.get());
//
//    // Turn off screen 30 seconds after turning on.
//    const int64_t durationEndNs = durationStartNs + 30 * NS_PER_SEC; // 0:41
//    event = CreateScreenStateChangedEvent(android::view::DISPLAY_STATE_OFF, durationEndNs);
//    processor->OnLogEvent(event.get());
//
//    event = CreateScreenBrightnessChangedEvent(64, durationEndNs + 1 * NS_PER_SEC); // 0:42
//    processor->OnLogEvent(event.get());
//
//    ConfigMetricsReportList reports;
//    vector<uint8_t> buffer;
//    processor->onDumpReport(cfgKey, configAddedTimeNs + 2 * bucketSizeNs + 1 * NS_PER_SEC, false, true,
//                            ADB_DUMP, FAST, &buffer); // 10:01
//    EXPECT_TRUE(buffer.size() > 0);
//    EXPECT_TRUE(reports.ParseFromArray(&buffer[0], buffer.size()));
//    backfillDimensionPath(&reports);
//    backfillStartEndTimestamp(&reports);
//    EXPECT_EQ(1, reports.reports_size());
//    EXPECT_EQ(1, reports.reports(0).metrics_size());
//    EXPECT_EQ(metricId, reports.reports(0).metrics(0).metric_id());
//    EXPECT_TRUE(reports.reports(0).metrics(0).has_duration_metrics());
//
//    const StatsLogReport::DurationMetricDataWrapper& durationMetrics =
//            reports.reports(0).metrics(0).duration_metrics();
//    EXPECT_EQ(1, durationMetrics.data_size());
//
//    auto data = durationMetrics.data(0);
//    EXPECT_EQ(1, data.bucket_info_size());
//
//    auto bucketInfo = data.bucket_info(0);
//    EXPECT_EQ(0, bucketInfo.bucket_num());
//    EXPECT_EQ(durationEndNs - durationStartNs, bucketInfo.duration_nanos());
//    EXPECT_EQ(configAddedTimeNs, bucketInfo.start_bucket_elapsed_nanos());
//    EXPECT_EQ(baseTimeNs + bucketSizeNs, bucketInfo.end_bucket_elapsed_nanos());
//}
//
//TEST(DurationMetricE2eTest, TestWithActivation) {
//    StatsdConfig config;
//    config.add_allowed_log_source("AID_ROOT"); // LogEvent defaults to UID of root.
//
//    auto screenOnMatcher = CreateScreenTurnedOnAtomMatcher();
//    auto screenOffMatcher = CreateScreenTurnedOffAtomMatcher();
//    auto crashMatcher = CreateProcessCrashAtomMatcher();
//    *config.add_atom_matcher() = screenOnMatcher;
//    *config.add_atom_matcher() = screenOffMatcher;
//    *config.add_atom_matcher() = crashMatcher;
//
//    auto durationPredicate = CreateScreenIsOnPredicate();
//    *config.add_predicate() = durationPredicate;
//
//    int64_t metricId = 123456;
//    auto durationMetric = config.add_duration_metric();
//    durationMetric->set_id(metricId);
//    durationMetric->set_what(durationPredicate.id());
//    durationMetric->set_bucket(FIVE_MINUTES);
//    durationMetric->set_aggregation_type(DurationMetric_AggregationType_SUM);
//
//    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(crashMatcher.id());
//    event_activation1->set_ttl_seconds(30); // 30 secs.
//
//    const int64_t bucketStartTimeNs = 10000000000;
//    const int64_t bucketSizeNs =
//            TimeUnitToBucketSizeInMillis(config.duration_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;
//
//    int broadcastCount = 0;
//    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;
//            });
//
//    processor.OnConfigUpdated(bucketStartTimeNs, cfgKey, config); // 0:00
//
//    EXPECT_EQ(processor.mMetricsManagers.size(), 1u);
//    sp<MetricsManager> metricsManager = processor.mMetricsManagers.begin()->second;
//    EXPECT_TRUE(metricsManager->isConfigValid());
//    EXPECT_EQ(metricsManager->mAllMetricProducers.size(), 1);
//    sp<MetricProducer> metricProducer = metricsManager->mAllMetricProducers[0];
//    auto& eventActivationMap = metricProducer->mEventActivationMap;
//
//    EXPECT_FALSE(metricsManager->isActive());
//    EXPECT_FALSE(metricProducer->mIsActive);
//    EXPECT_EQ(eventActivationMap.size(), 1u);
//    EXPECT_TRUE(eventActivationMap.find(2) != eventActivationMap.end());
//    EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kNotActive);
//    EXPECT_EQ(eventActivationMap[2]->start_ns, 0);
//    EXPECT_EQ(eventActivationMap[2]->ttl_ns, event_activation1->ttl_seconds() * NS_PER_SEC);
//
//    std::unique_ptr<LogEvent> event;
//
//    // Turn screen off.
//    event = CreateScreenStateChangedEvent(
//            android::view::DISPLAY_STATE_OFF, bucketStartTimeNs + 2 * NS_PER_SEC); // 0:02
//    processor.OnLogEvent(event.get(), bucketStartTimeNs + 2 * NS_PER_SEC);
//
//    // Turn screen on.
//    const int64_t durationStartNs = bucketStartTimeNs + 5 * NS_PER_SEC; // 0:05
//    event = CreateScreenStateChangedEvent(android::view::DISPLAY_STATE_ON, durationStartNs);
//    processor.OnLogEvent(event.get(), durationStartNs);
//
//    // Activate metric.
//    const int64_t activationStartNs = bucketStartTimeNs + 5 * NS_PER_SEC; // 0:10
//    const int64_t activationEndNs =
//            activationStartNs + event_activation1->ttl_seconds() * NS_PER_SEC; // 0:40
//    event = CreateAppCrashEvent(111, activationStartNs);
//    processor.OnLogEvent(event.get(), activationStartNs);
//    EXPECT_TRUE(metricsManager->isActive());
//    EXPECT_TRUE(metricProducer->mIsActive);
//    EXPECT_EQ(broadcastCount, 1);
//    EXPECT_EQ(activeConfigsBroadcast.size(), 1);
//    EXPECT_EQ(activeConfigsBroadcast[0], cfgId);
//    EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kActive);
//    EXPECT_EQ(eventActivationMap[2]->start_ns, activationStartNs);
//    EXPECT_EQ(eventActivationMap[2]->ttl_ns, event_activation1->ttl_seconds() * NS_PER_SEC);
//
//    // Expire activation.
//    const int64_t expirationNs = activationEndNs + 7 * NS_PER_SEC;
//    event = CreateScreenBrightnessChangedEvent(64, expirationNs); // 0:47
//    processor.OnLogEvent(event.get(), expirationNs);
//    EXPECT_FALSE(metricsManager->isActive());
//    EXPECT_FALSE(metricProducer->mIsActive);
//    EXPECT_EQ(broadcastCount, 2);
//    EXPECT_EQ(activeConfigsBroadcast.size(), 0);
//    EXPECT_EQ(eventActivationMap.size(), 1u);
//    EXPECT_TRUE(eventActivationMap.find(2) != eventActivationMap.end());
//    EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kNotActive);
//    EXPECT_EQ(eventActivationMap[2]->start_ns, activationStartNs);
//    EXPECT_EQ(eventActivationMap[2]->ttl_ns, event_activation1->ttl_seconds() * NS_PER_SEC);
//
//    // Turn off screen 10 seconds after activation expiration.
//    const int64_t durationEndNs = activationEndNs + 10 * NS_PER_SEC; // 0:50
//    event = CreateScreenStateChangedEvent(android::view::DISPLAY_STATE_OFF, durationEndNs);
//    processor.OnLogEvent(event.get(),durationEndNs);
//
//    // Turn screen on.
//    const int64_t duration2StartNs = durationEndNs + 5 * NS_PER_SEC; // 0:55
//    event = CreateScreenStateChangedEvent(android::view::DISPLAY_STATE_ON, duration2StartNs);
//    processor.OnLogEvent(event.get(), duration2StartNs);
//
//    // Turn off screen.
//    const int64_t duration2EndNs = duration2StartNs + 10 * NS_PER_SEC; // 1:05
//    event = CreateScreenStateChangedEvent(android::view::DISPLAY_STATE_OFF, duration2EndNs);
//    processor.OnLogEvent(event.get(), duration2EndNs);
//
//    // Activate metric.
//    const int64_t activation2StartNs = duration2EndNs + 5 * NS_PER_SEC; // 1:10
//    const int64_t activation2EndNs =
//            activation2StartNs + event_activation1->ttl_seconds() * NS_PER_SEC; // 1:40
//    event = CreateAppCrashEvent(211, activation2StartNs);
//    processor.OnLogEvent(event.get(), activation2StartNs);
//    EXPECT_TRUE(metricsManager->isActive());
//    EXPECT_TRUE(metricProducer->mIsActive);
//    EXPECT_EQ(broadcastCount, 3);
//    EXPECT_EQ(activeConfigsBroadcast.size(), 1);
//    EXPECT_EQ(activeConfigsBroadcast[0], cfgId);
//    EXPECT_EQ(eventActivationMap[2]->state, ActivationState::kActive);
//    EXPECT_EQ(eventActivationMap[2]->start_ns, activation2StartNs);
//    EXPECT_EQ(eventActivationMap[2]->ttl_ns, event_activation1->ttl_seconds() * NS_PER_SEC);
//
//    ConfigMetricsReportList reports;
//    vector<uint8_t> buffer;
//    processor.onDumpReport(cfgKey, bucketStartTimeNs + bucketSizeNs + 1 * NS_PER_SEC, false, true,
//                            ADB_DUMP, FAST, &buffer); // 5:01
//    EXPECT_TRUE(buffer.size() > 0);
//    EXPECT_TRUE(reports.ParseFromArray(&buffer[0], buffer.size()));
//    backfillDimensionPath(&reports);
//    backfillStartEndTimestamp(&reports);
//    EXPECT_EQ(1, reports.reports_size());
//    EXPECT_EQ(1, reports.reports(0).metrics_size());
//    EXPECT_EQ(metricId, reports.reports(0).metrics(0).metric_id());
//    EXPECT_TRUE(reports.reports(0).metrics(0).has_duration_metrics());
//
//    const StatsLogReport::DurationMetricDataWrapper& durationMetrics =
//            reports.reports(0).metrics(0).duration_metrics();
//    EXPECT_EQ(1, durationMetrics.data_size());
//
//    auto data = durationMetrics.data(0);
//    EXPECT_EQ(1, data.bucket_info_size());
//
//    auto bucketInfo = data.bucket_info(0);
//    EXPECT_EQ(0, bucketInfo.bucket_num());
//    EXPECT_EQ(bucketStartTimeNs, bucketInfo.start_bucket_elapsed_nanos());
//    EXPECT_EQ(expirationNs, bucketInfo.end_bucket_elapsed_nanos());
//    EXPECT_EQ(expirationNs - durationStartNs, bucketInfo.duration_nanos());
//}
//
//TEST(DurationMetricE2eTest, TestWithCondition) {
//    StatsdConfig config;
//    config.add_allowed_log_source("AID_ROOT"); // LogEvent defaults to UID of root.
//    *config.add_atom_matcher() = CreateAcquireWakelockAtomMatcher();
//    *config.add_atom_matcher() = CreateReleaseWakelockAtomMatcher();
//    *config.add_atom_matcher() = CreateMoveToBackgroundAtomMatcher();
//    *config.add_atom_matcher() = CreateMoveToForegroundAtomMatcher();
//
//    auto holdingWakelockPredicate = CreateHoldingWakelockPredicate();
//    *config.add_predicate() = holdingWakelockPredicate;
//
//    auto isInBackgroundPredicate = CreateIsInBackgroundPredicate();
//    *config.add_predicate() = isInBackgroundPredicate;
//
//    auto durationMetric = config.add_duration_metric();
//    durationMetric->set_id(StringToId("WakelockDuration"));
//    durationMetric->set_what(holdingWakelockPredicate.id());
//    durationMetric->set_condition(isInBackgroundPredicate.id());
//    durationMetric->set_aggregation_type(DurationMetric::SUM);
//    durationMetric->set_bucket(FIVE_MINUTES);
//
//    ConfigKey cfgKey;
//    uint64_t bucketStartTimeNs = 10000000000;
//    uint64_t bucketSizeNs =
//            TimeUnitToBucketSizeInMillis(config.duration_metric(0).bucket()) * 1000000LL;
//    auto processor = CreateStatsLogProcessor(bucketStartTimeNs, bucketStartTimeNs, config, cfgKey);
//    EXPECT_EQ(processor->mMetricsManagers.size(), 1u);
//    sp<MetricsManager> metricsManager = processor->mMetricsManagers.begin()->second;
//    EXPECT_TRUE(metricsManager->isConfigValid());
//    EXPECT_EQ(metricsManager->mAllMetricProducers.size(), 1);
//    sp<MetricProducer> metricProducer = metricsManager->mAllMetricProducers[0];
//    auto& eventActivationMap = metricProducer->mEventActivationMap;
//    EXPECT_TRUE(metricsManager->isActive());
//    EXPECT_TRUE(metricProducer->mIsActive);
//    EXPECT_TRUE(eventActivationMap.empty());
//
//    int appUid = 123;
//    std::vector<AttributionNodeInternal> attributions1 = {CreateAttribution(appUid, "App1")};
//
//    auto event = CreateAcquireWakelockEvent(
//            attributions1, "wl1", bucketStartTimeNs + 10 * NS_PER_SEC); // 0:10
//    processor->OnLogEvent(event.get());
//
//    event = CreateMoveToBackgroundEvent(appUid, bucketStartTimeNs + 22 * NS_PER_SEC); // 0:22
//    processor->OnLogEvent(event.get());
//
//    event = CreateMoveToForegroundEvent(
//            appUid, bucketStartTimeNs + (3 * 60 + 15) * NS_PER_SEC); // 3:15
//    processor->OnLogEvent(event.get());
//
//    event = CreateReleaseWakelockEvent(
//            attributions1, "wl1", bucketStartTimeNs + 4 * 60 * NS_PER_SEC); // 4:00
//    processor->OnLogEvent(event.get());
//
//    vector<uint8_t> buffer;
//    ConfigMetricsReportList reports;
//    processor->onDumpReport(cfgKey, bucketStartTimeNs + bucketSizeNs + 1, false, true,
//                            ADB_DUMP, FAST, &buffer);
//    EXPECT_GT(buffer.size(), 0);
//    EXPECT_TRUE(reports.ParseFromArray(&buffer[0], buffer.size()));
//    backfillDimensionPath(&reports);
//    backfillStringInReport(&reports);
//    backfillStartEndTimestamp(&reports);
//
//    EXPECT_EQ(1, reports.reports_size());
//    EXPECT_EQ(1, reports.reports(0).metrics_size());
//    EXPECT_EQ(1, reports.reports(0).metrics(0).duration_metrics().data_size());
//
//    auto data = reports.reports(0).metrics(0).duration_metrics().data(0);
//
//    // Validate bucket info.
//    EXPECT_EQ(1, data.bucket_info_size());
//
//    auto bucketInfo = data.bucket_info(0);
//    EXPECT_EQ(bucketStartTimeNs, bucketInfo.start_bucket_elapsed_nanos());
//    EXPECT_EQ(bucketStartTimeNs + bucketSizeNs, bucketInfo.end_bucket_elapsed_nanos());
//    EXPECT_EQ((2 * 60 + 53) * NS_PER_SEC, bucketInfo.duration_nanos());
//}
//
//TEST(DurationMetricE2eTest, TestWithSlicedCondition) {
//    StatsdConfig config;
//    config.add_allowed_log_source("AID_ROOT"); // LogEvent defaults to UID of root.
//    auto screenOnMatcher = CreateScreenTurnedOnAtomMatcher();
//    *config.add_atom_matcher() = CreateAcquireWakelockAtomMatcher();
//    *config.add_atom_matcher() = CreateReleaseWakelockAtomMatcher();
//    *config.add_atom_matcher() = CreateMoveToBackgroundAtomMatcher();
//    *config.add_atom_matcher() = CreateMoveToForegroundAtomMatcher();
//
//    auto holdingWakelockPredicate = CreateHoldingWakelockPredicate();
//    // The predicate is dimensioning by first attribution node by uid.
//    FieldMatcher dimensions = CreateAttributionUidDimensions(
//            android::util::WAKELOCK_STATE_CHANGED, {Position::FIRST});
//    *holdingWakelockPredicate.mutable_simple_predicate()->mutable_dimensions() = dimensions;
//    *config.add_predicate() = holdingWakelockPredicate;
//
//    auto isInBackgroundPredicate = CreateIsInBackgroundPredicate();
//    *isInBackgroundPredicate.mutable_simple_predicate()->mutable_dimensions() =
//        CreateDimensions(android::util::ACTIVITY_FOREGROUND_STATE_CHANGED, {Position::FIRST});
//    *config.add_predicate() = isInBackgroundPredicate;
//
//    auto durationMetric = config.add_duration_metric();
//    durationMetric->set_id(StringToId("WakelockDuration"));
//    durationMetric->set_what(holdingWakelockPredicate.id());
//    durationMetric->set_condition(isInBackgroundPredicate.id());
//    durationMetric->set_aggregation_type(DurationMetric::SUM);
//    // The metric is dimensioning by first attribution node and only by uid.
//    *durationMetric->mutable_dimensions_in_what() =
//        CreateAttributionUidDimensions(
//            android::util::WAKELOCK_STATE_CHANGED, {Position::FIRST});
//    durationMetric->set_bucket(FIVE_MINUTES);
//
//    // Links between wakelock state atom and condition of app is in background.
//    auto links = durationMetric->add_links();
//    links->set_condition(isInBackgroundPredicate.id());
//    auto dimensionWhat = links->mutable_fields_in_what();
//    dimensionWhat->set_field(android::util::WAKELOCK_STATE_CHANGED);
//    dimensionWhat->add_child()->set_field(1);  // uid field.
//    *links->mutable_fields_in_condition() = CreateAttributionUidDimensions(
//            android::util::ACTIVITY_FOREGROUND_STATE_CHANGED, { Position::FIRST });
//
//    ConfigKey cfgKey;
//    uint64_t bucketStartTimeNs = 10000000000;
//    uint64_t bucketSizeNs =
//            TimeUnitToBucketSizeInMillis(config.duration_metric(0).bucket()) * 1000000LL;
//    auto processor = CreateStatsLogProcessor(bucketStartTimeNs, bucketStartTimeNs, config, cfgKey);
//    EXPECT_EQ(processor->mMetricsManagers.size(), 1u);
//    sp<MetricsManager> metricsManager = processor->mMetricsManagers.begin()->second;
//    EXPECT_TRUE(metricsManager->isConfigValid());
//    EXPECT_EQ(metricsManager->mAllMetricProducers.size(), 1);
//    sp<MetricProducer> metricProducer = metricsManager->mAllMetricProducers[0];
//    auto& eventActivationMap = metricProducer->mEventActivationMap;
//    EXPECT_TRUE(metricsManager->isActive());
//    EXPECT_TRUE(metricProducer->mIsActive);
//    EXPECT_TRUE(eventActivationMap.empty());
//
//    int appUid = 123;
//    std::vector<AttributionNodeInternal> attributions1 = {CreateAttribution(appUid, "App1")};
//
//    auto event = CreateAcquireWakelockEvent(
//            attributions1, "wl1", bucketStartTimeNs + 10 * NS_PER_SEC); // 0:10
//    processor->OnLogEvent(event.get());
//
//    event = CreateMoveToBackgroundEvent(appUid, bucketStartTimeNs + 22 * NS_PER_SEC); // 0:22
//    processor->OnLogEvent(event.get());
//
//    event = CreateReleaseWakelockEvent(
//            attributions1, "wl1", bucketStartTimeNs + 60 * NS_PER_SEC); // 1:00
//    processor->OnLogEvent(event.get());
//
//
//    event = CreateMoveToForegroundEvent(
//            appUid, bucketStartTimeNs + (3 * 60 + 15) * NS_PER_SEC); // 3:15
//    processor->OnLogEvent(event.get());
//
//    vector<uint8_t> buffer;
//    ConfigMetricsReportList reports;
//    processor->onDumpReport(cfgKey, bucketStartTimeNs + bucketSizeNs + 1, false, true,
//                            ADB_DUMP, FAST, &buffer);
//    EXPECT_GT(buffer.size(), 0);
//    EXPECT_TRUE(reports.ParseFromArray(&buffer[0], buffer.size()));
//    backfillDimensionPath(&reports);
//    backfillStringInReport(&reports);
//    backfillStartEndTimestamp(&reports);
//
//    EXPECT_EQ(1, reports.reports_size());
//    EXPECT_EQ(1, reports.reports(0).metrics_size());
//    EXPECT_EQ(1, reports.reports(0).metrics(0).duration_metrics().data_size());
//
//    auto data = reports.reports(0).metrics(0).duration_metrics().data(0);
//    // Validate dimension value.
//    ValidateAttributionUidDimension(data.dimensions_in_what(),
//                                    android::util::WAKELOCK_STATE_CHANGED, appUid);
//    // Validate bucket info.
//    EXPECT_EQ(1, data.bucket_info_size());
//
//    auto bucketInfo = data.bucket_info(0);
//    EXPECT_EQ(bucketStartTimeNs, bucketInfo.start_bucket_elapsed_nanos());
//    EXPECT_EQ(bucketStartTimeNs + bucketSizeNs, bucketInfo.end_bucket_elapsed_nanos());
//    EXPECT_EQ(38 * NS_PER_SEC, bucketInfo.duration_nanos());
//}
//
//TEST(DurationMetricE2eTest, TestWithActivationAndSlicedCondition) {
//    StatsdConfig config;
//    config.add_allowed_log_source("AID_ROOT"); // LogEvent defaults to UID of root.
//    auto screenOnMatcher = CreateScreenTurnedOnAtomMatcher();
//    *config.add_atom_matcher() = CreateAcquireWakelockAtomMatcher();
//    *config.add_atom_matcher() = CreateReleaseWakelockAtomMatcher();
//    *config.add_atom_matcher() = CreateMoveToBackgroundAtomMatcher();
//    *config.add_atom_matcher() = CreateMoveToForegroundAtomMatcher();
//    *config.add_atom_matcher() = screenOnMatcher;
//
//    auto holdingWakelockPredicate = CreateHoldingWakelockPredicate();
//    // The predicate is dimensioning by first attribution node by uid.
//    FieldMatcher dimensions = CreateAttributionUidDimensions(
//            android::util::WAKELOCK_STATE_CHANGED, {Position::FIRST});
//    *holdingWakelockPredicate.mutable_simple_predicate()->mutable_dimensions() = dimensions;
//    *config.add_predicate() = holdingWakelockPredicate;
//
//    auto isInBackgroundPredicate = CreateIsInBackgroundPredicate();
//    *isInBackgroundPredicate.mutable_simple_predicate()->mutable_dimensions() =
//        CreateDimensions(android::util::ACTIVITY_FOREGROUND_STATE_CHANGED, {Position::FIRST});
//    *config.add_predicate() = isInBackgroundPredicate;
//
//    auto durationMetric = config.add_duration_metric();
//    durationMetric->set_id(StringToId("WakelockDuration"));
//    durationMetric->set_what(holdingWakelockPredicate.id());
//    durationMetric->set_condition(isInBackgroundPredicate.id());
//    durationMetric->set_aggregation_type(DurationMetric::SUM);
//    // The metric is dimensioning by first attribution node and only by uid.
//    *durationMetric->mutable_dimensions_in_what() =
//        CreateAttributionUidDimensions(
//            android::util::WAKELOCK_STATE_CHANGED, {Position::FIRST});
//    durationMetric->set_bucket(FIVE_MINUTES);
//
//    // Links between wakelock state atom and condition of app is in background.
//    auto links = durationMetric->add_links();
//    links->set_condition(isInBackgroundPredicate.id());
//    auto dimensionWhat = links->mutable_fields_in_what();
//    dimensionWhat->set_field(android::util::WAKELOCK_STATE_CHANGED);
//    dimensionWhat->add_child()->set_field(1);  // uid field.
//    *links->mutable_fields_in_condition() = CreateAttributionUidDimensions(
//            android::util::ACTIVITY_FOREGROUND_STATE_CHANGED, { Position::FIRST });
//
//    auto metric_activation1 = config.add_metric_activation();
//    metric_activation1->set_metric_id(durationMetric->id());
//    auto event_activation1 = metric_activation1->add_event_activation();
//    event_activation1->set_atom_matcher_id(screenOnMatcher.id());
//    event_activation1->set_ttl_seconds(60 * 2);  // 2 minutes.
//
//    ConfigKey cfgKey;
//    uint64_t bucketStartTimeNs = 10000000000;
//    uint64_t bucketSizeNs =
//            TimeUnitToBucketSizeInMillis(config.duration_metric(0).bucket()) * 1000000LL;
//    auto processor = CreateStatsLogProcessor(bucketStartTimeNs, bucketStartTimeNs, config, cfgKey);
//    EXPECT_EQ(processor->mMetricsManagers.size(), 1u);
//    sp<MetricsManager> metricsManager = processor->mMetricsManagers.begin()->second;
//    EXPECT_TRUE(metricsManager->isConfigValid());
//    EXPECT_EQ(metricsManager->mAllMetricProducers.size(), 1);
//    sp<MetricProducer> metricProducer = metricsManager->mAllMetricProducers[0];
//    auto& eventActivationMap = metricProducer->mEventActivationMap;
//    EXPECT_FALSE(metricsManager->isActive());
//    EXPECT_FALSE(metricProducer->mIsActive);
//    EXPECT_EQ(eventActivationMap.size(), 1u);
//    EXPECT_TRUE(eventActivationMap.find(4) != eventActivationMap.end());
//    EXPECT_EQ(eventActivationMap[4]->state, ActivationState::kNotActive);
//    EXPECT_EQ(eventActivationMap[4]->start_ns, 0);
//    EXPECT_EQ(eventActivationMap[4]->ttl_ns, event_activation1->ttl_seconds() * NS_PER_SEC);
//
//    int appUid = 123;
//    std::vector<AttributionNodeInternal> attributions1 = {CreateAttribution(appUid, "App1")};
//
//    auto event = CreateAcquireWakelockEvent(
//            attributions1, "wl1", bucketStartTimeNs + 10 * NS_PER_SEC); // 0:10
//    processor->OnLogEvent(event.get());
//    EXPECT_FALSE(metricsManager->isActive());
//    EXPECT_FALSE(metricProducer->mIsActive);
//    EXPECT_EQ(eventActivationMap[4]->state, ActivationState::kNotActive);
//    EXPECT_EQ(eventActivationMap[4]->start_ns, 0);
//    EXPECT_EQ(eventActivationMap[4]->ttl_ns, event_activation1->ttl_seconds() * NS_PER_SEC);
//
//    event = CreateMoveToBackgroundEvent(appUid, bucketStartTimeNs + 22 * NS_PER_SEC); // 0:22
//    processor->OnLogEvent(event.get());
//    EXPECT_FALSE(metricsManager->isActive());
//    EXPECT_FALSE(metricProducer->mIsActive);
//    EXPECT_EQ(eventActivationMap[4]->state, ActivationState::kNotActive);
//    EXPECT_EQ(eventActivationMap[4]->start_ns, 0);
//    EXPECT_EQ(eventActivationMap[4]->ttl_ns, event_activation1->ttl_seconds() * NS_PER_SEC);
//
//    const int64_t durationStartNs = bucketStartTimeNs + 30 * NS_PER_SEC; // 0:30
//    event = CreateScreenStateChangedEvent(android::view::DISPLAY_STATE_ON, durationStartNs);
//    processor->OnLogEvent(event.get());
//    EXPECT_TRUE(metricsManager->isActive());
//    EXPECT_TRUE(metricProducer->mIsActive);
//    EXPECT_EQ(eventActivationMap[4]->state, ActivationState::kActive);
//    EXPECT_EQ(eventActivationMap[4]->start_ns, durationStartNs);
//    EXPECT_EQ(eventActivationMap[4]->ttl_ns, event_activation1->ttl_seconds() * NS_PER_SEC);
//
//    const int64_t durationEndNs =
//            durationStartNs + (event_activation1->ttl_seconds() + 30) * NS_PER_SEC; // 3:00
//    event = CreateAppCrashEvent(333, durationEndNs);
//    processor->OnLogEvent(event.get());
//    EXPECT_FALSE(metricsManager->isActive());
//    EXPECT_FALSE(metricProducer->mIsActive);
//    EXPECT_EQ(eventActivationMap[4]->state, ActivationState::kNotActive);
//    EXPECT_EQ(eventActivationMap[4]->start_ns, durationStartNs);
//    EXPECT_EQ(eventActivationMap[4]->ttl_ns, event_activation1->ttl_seconds() * NS_PER_SEC);
//
//    event = CreateMoveToForegroundEvent(
//            appUid, bucketStartTimeNs + (3 * 60 + 15) * NS_PER_SEC); // 3:15
//    processor->OnLogEvent(event.get());
//
//    event = CreateReleaseWakelockEvent(
//            attributions1, "wl1", bucketStartTimeNs + (4 * 60 + 17) * NS_PER_SEC); // 4:17
//    processor->OnLogEvent(event.get());
//
//    event = CreateMoveToBackgroundEvent(
//            appUid, bucketStartTimeNs + (4 * 60 + 20) * NS_PER_SEC); // 4:20
//    processor->OnLogEvent(event.get());
//
//    event = CreateAcquireWakelockEvent(
//            attributions1, "wl1", bucketStartTimeNs + (4 * 60 + 25) * NS_PER_SEC); // 4:25
//    processor->OnLogEvent(event.get());
//
//    const int64_t duration2StartNs = bucketStartTimeNs + (4 * 60 + 30) * NS_PER_SEC; // 4:30
//    event = CreateScreenStateChangedEvent(android::view::DISPLAY_STATE_ON, duration2StartNs);
//    processor->OnLogEvent(event.get());
//    EXPECT_TRUE(metricsManager->isActive());
//    EXPECT_TRUE(metricProducer->mIsActive);
//    EXPECT_EQ(eventActivationMap[4]->state, ActivationState::kActive);
//    EXPECT_EQ(eventActivationMap[4]->start_ns, duration2StartNs);
//    EXPECT_EQ(eventActivationMap[4]->ttl_ns, event_activation1->ttl_seconds() * NS_PER_SEC);
//
//    vector<uint8_t> buffer;
//    ConfigMetricsReportList reports;
//    processor->onDumpReport(cfgKey, bucketStartTimeNs + bucketSizeNs + 1, false, true,
//                            ADB_DUMP, FAST, &buffer);
//    EXPECT_GT(buffer.size(), 0);
//    EXPECT_TRUE(reports.ParseFromArray(&buffer[0], buffer.size()));
//    backfillDimensionPath(&reports);
//    backfillStringInReport(&reports);
//    backfillStartEndTimestamp(&reports);
//
//    EXPECT_EQ(1, reports.reports_size());
//    EXPECT_EQ(1, reports.reports(0).metrics_size());
//    EXPECT_EQ(1, reports.reports(0).metrics(0).duration_metrics().data_size());
//
//    auto data = reports.reports(0).metrics(0).duration_metrics().data(0);
//    // Validate dimension value.
//    ValidateAttributionUidDimension(data.dimensions_in_what(),
//                                    android::util::WAKELOCK_STATE_CHANGED, appUid);
//    // Validate bucket info.
//    EXPECT_EQ(2, data.bucket_info_size());
//
//    auto bucketInfo = data.bucket_info(0);
//    EXPECT_EQ(bucketStartTimeNs, bucketInfo.start_bucket_elapsed_nanos());
//    EXPECT_EQ(durationEndNs, bucketInfo.end_bucket_elapsed_nanos());
//    EXPECT_EQ(durationEndNs - durationStartNs, bucketInfo.duration_nanos());
//
//    bucketInfo = data.bucket_info(1);
//    EXPECT_EQ(durationEndNs, bucketInfo.start_bucket_elapsed_nanos());
//    EXPECT_EQ(bucketStartTimeNs + bucketSizeNs, bucketInfo.end_bucket_elapsed_nanos());
//    EXPECT_EQ(bucketStartTimeNs + bucketSizeNs - duration2StartNs, bucketInfo.duration_nanos());
//}

#else
GTEST_LOG_(INFO) << "This test does nothing.\n";
#endif

}  // namespace statsd
}  // namespace os
}  // namespace android