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gerrit-public.fairphone.software / platform / frameworks / base / 1e4368aa43fe50c3e78dbc71d41d95037610db9a / . / cmds / statsd / tests / metrics / GaugeMetricProducer_test.cpp
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// Copyright (C) 2017 The Android Open Source Project
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#include "src/metrics/GaugeMetricProducer.h"
#include <gmock/gmock.h>
#include <gtest/gtest.h>
#include <math.h>
#include <stdio.h>
#include <vector>
#include "logd/LogEvent.h"
#include "metrics_test_helper.h"
#include "src/matchers/SimpleLogMatchingTracker.h"
#include "src/metrics/MetricProducer.h"
#include "src/stats_log_util.h"
#include "tests/statsd_test_util.h"
using namespace testing;
using android::sp;
using std::set;
using std::unordered_map;
using std::vector;
using std::make_shared;
#ifdef __ANDROID__
namespace android {
namespace os {
namespace statsd {
const ConfigKey kConfigKey(0, 12345);
const int tagId = 1;
const int64_t metricId = 123;
const int64_t atomMatcherId = 678;
const int logEventMatcherIndex = 0;
const int64_t bucketStartTimeNs = 10 * NS_PER_SEC;
const int64_t bucketSizeNs = TimeUnitToBucketSizeInMillis(ONE_MINUTE) * 1000000LL;
const int64_t bucket2StartTimeNs = bucketStartTimeNs + bucketSizeNs;
const int64_t bucket3StartTimeNs = bucketStartTimeNs + 2 * bucketSizeNs;
const int64_t bucket4StartTimeNs = bucketStartTimeNs + 3 * bucketSizeNs;
const int64_t eventUpgradeTimeNs = bucketStartTimeNs + 15 * NS_PER_SEC;
/*
* Tests that the first bucket works correctly
*/
TEST(GaugeMetricProducerTest, TestFirstBucket) {
GaugeMetric metric;
metric.set_id(metricId);
metric.set_bucket(ONE_MINUTE);
metric.mutable_gauge_fields_filter()->set_include_all(false);
auto gaugeFieldMatcher = metric.mutable_gauge_fields_filter()->mutable_fields();
gaugeFieldMatcher->set_field(tagId);
gaugeFieldMatcher->add_child()->set_field(1);
gaugeFieldMatcher->add_child()->set_field(3);
sp<MockConditionWizard> wizard = new NaggyMock<MockConditionWizard>();
UidMap uidMap;
SimpleAtomMatcher atomMatcher;
atomMatcher.set_atom_id(tagId);
sp<EventMatcherWizard> eventMatcherWizard = new EventMatcherWizard({
new SimpleLogMatchingTracker(atomMatcherId, logEventMatcherIndex, atomMatcher, uidMap)});
sp<MockStatsPullerManager> pullerManager = new StrictMock<MockStatsPullerManager>();
// statsd started long ago.
// The metric starts in the middle of the bucket
GaugeMetricProducer gaugeProducer(kConfigKey, metric, -1 /*-1 meaning no condition*/, wizard,
logEventMatcherIndex, eventMatcherWizard,
-1, -1, tagId, 5, 600 * NS_PER_SEC + NS_PER_SEC / 2,
pullerManager);
EXPECT_EQ(600500000000, gaugeProducer.mCurrentBucketStartTimeNs);
EXPECT_EQ(10, gaugeProducer.mCurrentBucketNum);
EXPECT_EQ(660000000005, gaugeProducer.getCurrentBucketEndTimeNs());
}
// TODO(b/149590301): Update these tests to use new socket schema.
//TEST(GaugeMetricProducerTest, TestPulledEventsNoCondition) {
// GaugeMetric metric;
// metric.set_id(metricId);
// metric.set_bucket(ONE_MINUTE);
// metric.mutable_gauge_fields_filter()->set_include_all(false);
// metric.set_max_pull_delay_sec(INT_MAX);
// auto gaugeFieldMatcher = metric.mutable_gauge_fields_filter()->mutable_fields();
// gaugeFieldMatcher->set_field(tagId);
// gaugeFieldMatcher->add_child()->set_field(1);
// gaugeFieldMatcher->add_child()->set_field(3);
//
// sp<MockConditionWizard> wizard = new NaggyMock<MockConditionWizard>();
//
// UidMap uidMap;
// SimpleAtomMatcher atomMatcher;
// atomMatcher.set_atom_id(tagId);
// sp<EventMatcherWizard> eventMatcherWizard = new EventMatcherWizard({
// new SimpleLogMatchingTracker(atomMatcherId, logEventMatcherIndex, atomMatcher, uidMap)});
//
// sp<MockStatsPullerManager> pullerManager = new StrictMock<MockStatsPullerManager>();
// EXPECT_CALL(*pullerManager, RegisterReceiver(tagId, _, _, _)).WillOnce(Return());
// EXPECT_CALL(*pullerManager, UnRegisterReceiver(tagId, _)).WillOnce(Return());
// EXPECT_CALL(*pullerManager, Pull(tagId, _))
// .WillOnce(Invoke([](int tagId, vector<std::shared_ptr<LogEvent>>* data) {
// data->clear();
// shared_ptr<LogEvent> event = make_shared<LogEvent>(tagId, bucketStartTimeNs + 10);
// event->write(3);
// event->write("some value");
// event->write(11);
// event->init();
// data->push_back(event);
// return true;
// }));
//
// GaugeMetricProducer gaugeProducer(kConfigKey, metric, -1 /*-1 meaning no condition*/, wizard,
// logEventMatcherIndex, eventMatcherWizard,
// tagId, -1, tagId, bucketStartTimeNs, bucketStartTimeNs,
// pullerManager);
//
// vector<shared_ptr<LogEvent>> allData;
// allData.clear();
// shared_ptr<LogEvent> event = make_shared<LogEvent>(tagId, bucket2StartTimeNs + 1);
// event->write(10);
// event->write("some value");
// event->write(11);
// event->init();
// allData.push_back(event);
//
// gaugeProducer.onDataPulled(allData, /** succeed */ true, bucket2StartTimeNs);
// EXPECT_EQ(1UL, gaugeProducer.mCurrentSlicedBucket->size());
// auto it = gaugeProducer.mCurrentSlicedBucket->begin()->second.front().mFields->begin();
// EXPECT_EQ(INT, it->mValue.getType());
// EXPECT_EQ(10, it->mValue.int_value);
// it++;
// EXPECT_EQ(11, it->mValue.int_value);
// EXPECT_EQ(1UL, gaugeProducer.mPastBuckets.size());
// EXPECT_EQ(3, gaugeProducer.mPastBuckets.begin()->second.back().mGaugeAtoms
// .front().mFields->begin()->mValue.int_value);
//
// allData.clear();
// std::shared_ptr<LogEvent> event2 = std::make_shared<LogEvent>(tagId, bucket3StartTimeNs + 10);
// event2->write(24);
// event2->write("some value");
// event2->write(25);
// event2->init();
// allData.push_back(event2);
// gaugeProducer.onDataPulled(allData, /** succeed */ true, bucket3StartTimeNs);
// EXPECT_EQ(1UL, gaugeProducer.mCurrentSlicedBucket->size());
// it = gaugeProducer.mCurrentSlicedBucket->begin()->second.front().mFields->begin();
// EXPECT_EQ(INT, it->mValue.getType());
// EXPECT_EQ(24, it->mValue.int_value);
// it++;
// EXPECT_EQ(INT, it->mValue.getType());
// EXPECT_EQ(25, it->mValue.int_value);
// // One dimension.
// EXPECT_EQ(1UL, gaugeProducer.mPastBuckets.size());
// EXPECT_EQ(2UL, gaugeProducer.mPastBuckets.begin()->second.size());
// it = gaugeProducer.mPastBuckets.begin()->second.back().mGaugeAtoms.front().mFields->begin();
// EXPECT_EQ(INT, it->mValue.getType());
// EXPECT_EQ(10L, it->mValue.int_value);
// it++;
// EXPECT_EQ(INT, it->mValue.getType());
// EXPECT_EQ(11L, it->mValue.int_value);
//
// gaugeProducer.flushIfNeededLocked(bucket4StartTimeNs);
// EXPECT_EQ(0UL, gaugeProducer.mCurrentSlicedBucket->size());
// // One dimension.
// EXPECT_EQ(1UL, gaugeProducer.mPastBuckets.size());
// EXPECT_EQ(3UL, gaugeProducer.mPastBuckets.begin()->second.size());
// it = gaugeProducer.mPastBuckets.begin()->second.back().mGaugeAtoms.front().mFields->begin();
// EXPECT_EQ(INT, it->mValue.getType());
// EXPECT_EQ(24L, it->mValue.int_value);
// it++;
// EXPECT_EQ(INT, it->mValue.getType());
// EXPECT_EQ(25L, it->mValue.int_value);
//}
//
//TEST(GaugeMetricProducerTest, TestPushedEventsWithUpgrade) {
// sp<AlarmMonitor> alarmMonitor;
// GaugeMetric metric;
// metric.set_id(metricId);
// metric.set_bucket(ONE_MINUTE);
// metric.mutable_gauge_fields_filter()->set_include_all(true);
//
// Alert alert;
// alert.set_id(101);
// alert.set_metric_id(metricId);
// alert.set_trigger_if_sum_gt(25);
// alert.set_num_buckets(100);
// sp<MockConditionWizard> wizard = new NaggyMock<MockConditionWizard>();
// sp<MockStatsPullerManager> pullerManager = new StrictMock<MockStatsPullerManager>();
//
// UidMap uidMap;
// SimpleAtomMatcher atomMatcher;
// atomMatcher.set_atom_id(tagId);
// sp<EventMatcherWizard> eventMatcherWizard = new EventMatcherWizard({
// new SimpleLogMatchingTracker(atomMatcherId, logEventMatcherIndex, atomMatcher, uidMap)});
//
// GaugeMetricProducer gaugeProducer(kConfigKey, metric, -1 /*-1 meaning no condition*/, wizard,
// logEventMatcherIndex, eventMatcherWizard,
// -1 /* -1 means no pulling */, -1, tagId, bucketStartTimeNs,
// bucketStartTimeNs, pullerManager);
//
// sp<AnomalyTracker> anomalyTracker = gaugeProducer.addAnomalyTracker(alert, alarmMonitor);
// EXPECT_TRUE(anomalyTracker != nullptr);
//
// shared_ptr<LogEvent> event1 = make_shared<LogEvent>(tagId, bucketStartTimeNs + 10);
// event1->write(1);
// event1->write(10);
// event1->init();
// gaugeProducer.onMatchedLogEvent(1 /*log matcher index*/, *event1);
// EXPECT_EQ(1UL, (*gaugeProducer.mCurrentSlicedBucket).count(DEFAULT_METRIC_DIMENSION_KEY));
//
// gaugeProducer.notifyAppUpgrade(eventUpgradeTimeNs, "ANY.APP", 1, 1);
// EXPECT_EQ(0UL, (*gaugeProducer.mCurrentSlicedBucket).count(DEFAULT_METRIC_DIMENSION_KEY));
// EXPECT_EQ(1UL, gaugeProducer.mPastBuckets[DEFAULT_METRIC_DIMENSION_KEY].size());
// EXPECT_EQ(0L, gaugeProducer.mCurrentBucketNum);
// EXPECT_EQ(eventUpgradeTimeNs, gaugeProducer.mCurrentBucketStartTimeNs);
// // Partial buckets are not sent to anomaly tracker.
// EXPECT_EQ(0, anomalyTracker->getSumOverPastBuckets(DEFAULT_METRIC_DIMENSION_KEY));
//
// // Create an event in the same partial bucket.
// shared_ptr<LogEvent> event2 = make_shared<LogEvent>(tagId, bucketStartTimeNs + 59 * NS_PER_SEC);
// event2->write(1);
// event2->write(10);
// event2->init();
// gaugeProducer.onMatchedLogEvent(1 /*log matcher index*/, *event2);
// EXPECT_EQ(0L, gaugeProducer.mCurrentBucketNum);
// EXPECT_EQ(1UL, gaugeProducer.mPastBuckets[DEFAULT_METRIC_DIMENSION_KEY].size());
// EXPECT_EQ((int64_t)eventUpgradeTimeNs, gaugeProducer.mCurrentBucketStartTimeNs);
// // Partial buckets are not sent to anomaly tracker.
// EXPECT_EQ(0, anomalyTracker->getSumOverPastBuckets(DEFAULT_METRIC_DIMENSION_KEY));
//
// // Next event should trigger creation of new bucket and send previous full bucket to anomaly
// // tracker.
// shared_ptr<LogEvent> event3 = make_shared<LogEvent>(tagId, bucketStartTimeNs + 65 * NS_PER_SEC);
// event3->write(1);
// event3->write(10);
// event3->init();
// gaugeProducer.onMatchedLogEvent(1 /*log matcher index*/, *event3);
// EXPECT_EQ(1L, gaugeProducer.mCurrentBucketNum);
// EXPECT_EQ(2UL, gaugeProducer.mPastBuckets[DEFAULT_METRIC_DIMENSION_KEY].size());
// EXPECT_EQ((int64_t)bucketStartTimeNs + bucketSizeNs, gaugeProducer.mCurrentBucketStartTimeNs);
// EXPECT_EQ(1, anomalyTracker->getSumOverPastBuckets(DEFAULT_METRIC_DIMENSION_KEY));
//
// // Next event should trigger creation of new bucket.
// shared_ptr<LogEvent> event4 =
// make_shared<LogEvent>(tagId, bucketStartTimeNs + 125 * NS_PER_SEC);
// event4->write(1);
// event4->write(10);
// event4->init();
// gaugeProducer.onMatchedLogEvent(1 /*log matcher index*/, *event4);
// EXPECT_EQ(2L, gaugeProducer.mCurrentBucketNum);
// EXPECT_EQ(3UL, gaugeProducer.mPastBuckets[DEFAULT_METRIC_DIMENSION_KEY].size());
// EXPECT_EQ(2, anomalyTracker->getSumOverPastBuckets(DEFAULT_METRIC_DIMENSION_KEY));
//}
//
//TEST(GaugeMetricProducerTest, TestPulledWithUpgrade) {
// GaugeMetric metric;
// metric.set_id(metricId);
// metric.set_bucket(ONE_MINUTE);
// metric.set_max_pull_delay_sec(INT_MAX);
// auto gaugeFieldMatcher = metric.mutable_gauge_fields_filter()->mutable_fields();
// gaugeFieldMatcher->set_field(tagId);
// gaugeFieldMatcher->add_child()->set_field(2);
//
// sp<MockConditionWizard> wizard = new NaggyMock<MockConditionWizard>();
//
// UidMap uidMap;
// SimpleAtomMatcher atomMatcher;
// atomMatcher.set_atom_id(tagId);
// sp<EventMatcherWizard> eventMatcherWizard =
// new EventMatcherWizard({new SimpleLogMatchingTracker(
// atomMatcherId, logEventMatcherIndex, atomMatcher, uidMap)});
//
// sp<MockStatsPullerManager> pullerManager = new StrictMock<MockStatsPullerManager>();
// EXPECT_CALL(*pullerManager, RegisterReceiver(tagId, _, _, _)).WillOnce(Return());
// EXPECT_CALL(*pullerManager, UnRegisterReceiver(tagId, _)).WillOnce(Return());
// EXPECT_CALL(*pullerManager, Pull(tagId, _))
// .WillOnce(Return(false))
// .WillOnce(Invoke([](int tagId, vector<std::shared_ptr<LogEvent>>* data) {
// data->clear();
// shared_ptr<LogEvent> event = make_shared<LogEvent>(tagId, eventUpgradeTimeNs);
// event->write("some value");
// event->write(2);
// event->init();
// data->push_back(event);
// return true;
// }));
//
// GaugeMetricProducer gaugeProducer(kConfigKey, metric, -1 /*-1 meaning no condition*/, wizard,
// logEventMatcherIndex, eventMatcherWizard, tagId, -1, tagId,
// bucketStartTimeNs, bucketStartTimeNs, pullerManager);
//
// vector<shared_ptr<LogEvent>> allData;
// shared_ptr<LogEvent> event = make_shared<LogEvent>(tagId, bucketStartTimeNs + 1);
// event->write("some value");
// event->write(1);
// event->init();
// allData.push_back(event);
// gaugeProducer.onDataPulled(allData, /** succeed */ true, bucketStartTimeNs);
// EXPECT_EQ(1UL, gaugeProducer.mCurrentSlicedBucket->size());
// EXPECT_EQ(1, gaugeProducer.mCurrentSlicedBucket->begin()
// ->second.front()
// .mFields->begin()
// ->mValue.int_value);
//
// gaugeProducer.notifyAppUpgrade(eventUpgradeTimeNs, "ANY.APP", 1, 1);
// EXPECT_EQ(1UL, gaugeProducer.mPastBuckets[DEFAULT_METRIC_DIMENSION_KEY].size());
// EXPECT_EQ(0L, gaugeProducer.mCurrentBucketNum);
// EXPECT_EQ((int64_t)eventUpgradeTimeNs, gaugeProducer.mCurrentBucketStartTimeNs);
// EXPECT_EQ(1UL, gaugeProducer.mCurrentSlicedBucket->size());
// EXPECT_EQ(2, gaugeProducer.mCurrentSlicedBucket->begin()
// ->second.front()
// .mFields->begin()
// ->mValue.int_value);
//
// allData.clear();
// event = make_shared<LogEvent>(tagId, bucketStartTimeNs + bucketSizeNs + 1);
// event->write("some value");
// event->write(3);
// event->init();
// allData.push_back(event);
// gaugeProducer.onDataPulled(allData, /** succeed */ true, bucketStartTimeNs + bucketSizeNs);
// EXPECT_EQ(2UL, gaugeProducer.mPastBuckets[DEFAULT_METRIC_DIMENSION_KEY].size());
// EXPECT_EQ(1UL, gaugeProducer.mCurrentSlicedBucket->size());
// EXPECT_EQ(3, gaugeProducer.mCurrentSlicedBucket->begin()
// ->second.front()
// .mFields->begin()
// ->mValue.int_value);
//}
//
//TEST(GaugeMetricProducerTest, TestPulledWithAppUpgradeDisabled) {
// GaugeMetric metric;
// metric.set_id(metricId);
// metric.set_bucket(ONE_MINUTE);
// metric.set_max_pull_delay_sec(INT_MAX);
// metric.set_split_bucket_for_app_upgrade(false);
// auto gaugeFieldMatcher = metric.mutable_gauge_fields_filter()->mutable_fields();
// gaugeFieldMatcher->set_field(tagId);
// gaugeFieldMatcher->add_child()->set_field(2);
//
// sp<MockConditionWizard> wizard = new NaggyMock<MockConditionWizard>();
//
// UidMap uidMap;
// SimpleAtomMatcher atomMatcher;
// atomMatcher.set_atom_id(tagId);
// sp<EventMatcherWizard> eventMatcherWizard = new EventMatcherWizard({
// new SimpleLogMatchingTracker(atomMatcherId, logEventMatcherIndex, atomMatcher, uidMap)});
//
// sp<MockStatsPullerManager> pullerManager = new StrictMock<MockStatsPullerManager>();
// EXPECT_CALL(*pullerManager, RegisterReceiver(tagId, _, _, _)).WillOnce(Return());
// EXPECT_CALL(*pullerManager, UnRegisterReceiver(tagId, _)).WillOnce(Return());
// EXPECT_CALL(*pullerManager, Pull(tagId, _)).WillOnce(Return(false));
//
// GaugeMetricProducer gaugeProducer(kConfigKey, metric, -1 /*-1 meaning no condition*/, wizard,
// logEventMatcherIndex, eventMatcherWizard,
// tagId, -1, tagId, bucketStartTimeNs, bucketStartTimeNs,
// pullerManager);
//
// vector<shared_ptr<LogEvent>> allData;
// shared_ptr<LogEvent> event = make_shared<LogEvent>(tagId, bucketStartTimeNs + 1);
// event->write("some value");
// event->write(1);
// event->init();
// allData.push_back(event);
// gaugeProducer.onDataPulled(allData, /** succeed */ true, bucketStartTimeNs);
// EXPECT_EQ(1UL, gaugeProducer.mCurrentSlicedBucket->size());
// EXPECT_EQ(1, gaugeProducer.mCurrentSlicedBucket->begin()
// ->second.front()
// .mFields->begin()
// ->mValue.int_value);
//
// gaugeProducer.notifyAppUpgrade(eventUpgradeTimeNs, "ANY.APP", 1, 1);
// EXPECT_EQ(0UL, gaugeProducer.mPastBuckets[DEFAULT_METRIC_DIMENSION_KEY].size());
// EXPECT_EQ(0L, gaugeProducer.mCurrentBucketNum);
// EXPECT_EQ(bucketStartTimeNs, gaugeProducer.mCurrentBucketStartTimeNs);
// EXPECT_EQ(1UL, gaugeProducer.mCurrentSlicedBucket->size());
// EXPECT_EQ(1, gaugeProducer.mCurrentSlicedBucket->begin()
// ->second.front()
// .mFields->begin()
// ->mValue.int_value);
//}
//
//TEST(GaugeMetricProducerTest, TestPulledEventsWithCondition) {
// GaugeMetric metric;
// metric.set_id(metricId);
// metric.set_bucket(ONE_MINUTE);
// metric.set_max_pull_delay_sec(INT_MAX);
// auto gaugeFieldMatcher = metric.mutable_gauge_fields_filter()->mutable_fields();
// gaugeFieldMatcher->set_field(tagId);
// gaugeFieldMatcher->add_child()->set_field(2);
// metric.set_condition(StringToId("SCREEN_ON"));
//
// sp<MockConditionWizard> wizard = new NaggyMock<MockConditionWizard>();
//
// UidMap uidMap;
// SimpleAtomMatcher atomMatcher;
// atomMatcher.set_atom_id(tagId);
// sp<EventMatcherWizard> eventMatcherWizard = new EventMatcherWizard({
// new SimpleLogMatchingTracker(atomMatcherId, logEventMatcherIndex, atomMatcher, uidMap)});
//
// sp<MockStatsPullerManager> pullerManager = new StrictMock<MockStatsPullerManager>();
// EXPECT_CALL(*pullerManager, RegisterReceiver(tagId, _, _, _)).WillOnce(Return());
// EXPECT_CALL(*pullerManager, UnRegisterReceiver(tagId, _)).WillOnce(Return());
// EXPECT_CALL(*pullerManager, Pull(tagId, _))
// .WillOnce(Invoke([](int tagId, vector<std::shared_ptr<LogEvent>>* data) {
// data->clear();
// shared_ptr<LogEvent> event = make_shared<LogEvent>(tagId, bucketStartTimeNs + 10);
// event->write("some value");
// event->write(100);
// event->init();
// data->push_back(event);
// return true;
// }));
//
// GaugeMetricProducer gaugeProducer(kConfigKey, metric, 1, wizard,
// logEventMatcherIndex, eventMatcherWizard, tagId, -1, tagId,
// bucketStartTimeNs, bucketStartTimeNs, pullerManager);
//
// gaugeProducer.onConditionChanged(true, bucketStartTimeNs + 8);
// EXPECT_EQ(1UL, gaugeProducer.mCurrentSlicedBucket->size());
// EXPECT_EQ(100, gaugeProducer.mCurrentSlicedBucket->begin()
// ->second.front()
// .mFields->begin()
// ->mValue.int_value);
// EXPECT_EQ(0UL, gaugeProducer.mPastBuckets.size());
//
// vector<shared_ptr<LogEvent>> allData;
// allData.clear();
// shared_ptr<LogEvent> event = make_shared<LogEvent>(tagId, bucket2StartTimeNs + 1);
// event->write("some value");
// event->write(110);
// event->init();
// allData.push_back(event);
// gaugeProducer.onDataPulled(allData, /** succeed */ true, bucket2StartTimeNs);
//
// EXPECT_EQ(1UL, gaugeProducer.mCurrentSlicedBucket->size());
// EXPECT_EQ(110, gaugeProducer.mCurrentSlicedBucket->begin()
// ->second.front()
// .mFields->begin()
// ->mValue.int_value);
// EXPECT_EQ(1UL, gaugeProducer.mPastBuckets.size());
// EXPECT_EQ(100, gaugeProducer.mPastBuckets.begin()
// ->second.back()
// .mGaugeAtoms.front()
// .mFields->begin()
// ->mValue.int_value);
//
// gaugeProducer.onConditionChanged(false, bucket2StartTimeNs + 10);
// gaugeProducer.flushIfNeededLocked(bucket3StartTimeNs + 10);
// EXPECT_EQ(1UL, gaugeProducer.mPastBuckets.size());
// EXPECT_EQ(2UL, gaugeProducer.mPastBuckets.begin()->second.size());
// EXPECT_EQ(110L, gaugeProducer.mPastBuckets.begin()
// ->second.back()
// .mGaugeAtoms.front()
// .mFields->begin()
// ->mValue.int_value);
//}
//
//TEST(GaugeMetricProducerTest, TestPulledEventsWithSlicedCondition) {
// const int conditionTag = 65;
// GaugeMetric metric;
// metric.set_id(1111111);
// metric.set_bucket(ONE_MINUTE);
// metric.mutable_gauge_fields_filter()->set_include_all(true);
// metric.set_condition(StringToId("APP_DIED"));
// metric.set_max_pull_delay_sec(INT_MAX);
// auto dim = metric.mutable_dimensions_in_what();
// dim->set_field(tagId);
// dim->add_child()->set_field(1);
//
// UidMap uidMap;
// SimpleAtomMatcher atomMatcher;
// atomMatcher.set_atom_id(tagId);
// sp<EventMatcherWizard> eventMatcherWizard = new EventMatcherWizard({
// new SimpleLogMatchingTracker(atomMatcherId, logEventMatcherIndex, atomMatcher, uidMap)});
//
// sp<MockConditionWizard> wizard = new NaggyMock<MockConditionWizard>();
// EXPECT_CALL(*wizard, query(_, _, _))
// .WillRepeatedly(
// Invoke([](const int conditionIndex, const ConditionKey& conditionParameters,
// const bool isPartialLink) {
// int pos[] = {1, 0, 0};
// Field f(conditionTag, pos, 0);
// HashableDimensionKey key;
// key.mutableValues()->emplace_back(f, Value((int32_t)1000000));
//
// return ConditionState::kTrue;
// }));
//
// sp<MockStatsPullerManager> pullerManager = new StrictMock<MockStatsPullerManager>();
// EXPECT_CALL(*pullerManager, RegisterReceiver(tagId, _, _, _)).WillOnce(Return());
// EXPECT_CALL(*pullerManager, UnRegisterReceiver(tagId, _)).WillOnce(Return());
// EXPECT_CALL(*pullerManager, Pull(tagId, _))
// .WillOnce(Invoke([](int tagId, vector<std::shared_ptr<LogEvent>>* data) {
// data->clear();
// shared_ptr<LogEvent> event = make_shared<LogEvent>(tagId, bucketStartTimeNs + 10);
// event->write(1000);
// event->write(100);
// event->init();
// data->push_back(event);
// return true;
// }));
//
// GaugeMetricProducer gaugeProducer(kConfigKey, metric, 1, wizard,
// logEventMatcherIndex, eventMatcherWizard, tagId, -1, tagId,
// bucketStartTimeNs, bucketStartTimeNs, pullerManager);
//
// gaugeProducer.onSlicedConditionMayChange(true, bucketStartTimeNs + 8);
//
// EXPECT_EQ(1UL, gaugeProducer.mCurrentSlicedBucket->size());
// const auto& key = gaugeProducer.mCurrentSlicedBucket->begin()->first;
// EXPECT_EQ(1UL, key.getDimensionKeyInWhat().getValues().size());
// EXPECT_EQ(1000, key.getDimensionKeyInWhat().getValues()[0].mValue.int_value);
//
// EXPECT_EQ(0UL, gaugeProducer.mPastBuckets.size());
//
// vector<shared_ptr<LogEvent>> allData;
// allData.clear();
// shared_ptr<LogEvent> event = make_shared<LogEvent>(tagId, bucket2StartTimeNs + 1);
// event->write(1000);
// event->write(110);
// event->init();
// allData.push_back(event);
// gaugeProducer.onDataPulled(allData, /** succeed */ true, bucket2StartTimeNs);
//
// EXPECT_EQ(1UL, gaugeProducer.mCurrentSlicedBucket->size());
// EXPECT_EQ(1UL, gaugeProducer.mPastBuckets.size());
//}
//
//TEST(GaugeMetricProducerTest, TestPulledEventsAnomalyDetection) {
// sp<AlarmMonitor> alarmMonitor;
// sp<MockConditionWizard> wizard = new NaggyMock<MockConditionWizard>();
//
// sp<MockStatsPullerManager> pullerManager = new StrictMock<MockStatsPullerManager>();
// EXPECT_CALL(*pullerManager, RegisterReceiver(tagId, _, _, _)).WillOnce(Return());
// EXPECT_CALL(*pullerManager, UnRegisterReceiver(tagId, _)).WillOnce(Return());
// EXPECT_CALL(*pullerManager, Pull(tagId, _)).WillOnce(Return(false));
//
// GaugeMetric metric;
// metric.set_id(metricId);
// metric.set_bucket(ONE_MINUTE);
// metric.set_max_pull_delay_sec(INT_MAX);
// auto gaugeFieldMatcher = metric.mutable_gauge_fields_filter()->mutable_fields();
// gaugeFieldMatcher->set_field(tagId);
// gaugeFieldMatcher->add_child()->set_field(2);
//
// UidMap uidMap;
// SimpleAtomMatcher atomMatcher;
// atomMatcher.set_atom_id(tagId);
// sp<EventMatcherWizard> eventMatcherWizard = new EventMatcherWizard({
// new SimpleLogMatchingTracker(atomMatcherId, logEventMatcherIndex, atomMatcher, uidMap)});
//
// GaugeMetricProducer gaugeProducer(kConfigKey, metric, -1 /*-1 meaning no condition*/, wizard,
// logEventMatcherIndex, eventMatcherWizard,
// tagId, -1, tagId, bucketStartTimeNs, bucketStartTimeNs,
// pullerManager);
//
// Alert alert;
// alert.set_id(101);
// alert.set_metric_id(metricId);
// alert.set_trigger_if_sum_gt(25);
// alert.set_num_buckets(2);
// const int32_t refPeriodSec = 60;
// alert.set_refractory_period_secs(refPeriodSec);
// sp<AnomalyTracker> anomalyTracker = gaugeProducer.addAnomalyTracker(alert, alarmMonitor);
//
// int tagId = 1;
// std::shared_ptr<LogEvent> event1 = std::make_shared<LogEvent>(tagId, bucketStartTimeNs + 1);
// event1->write("some value");
// event1->write(13);
// event1->init();
//
// gaugeProducer.onDataPulled({event1}, /** succeed */ true, bucketStartTimeNs);
// EXPECT_EQ(1UL, gaugeProducer.mCurrentSlicedBucket->size());
// EXPECT_EQ(13L, gaugeProducer.mCurrentSlicedBucket->begin()
// ->second.front()
// .mFields->begin()
// ->mValue.int_value);
// EXPECT_EQ(anomalyTracker->getRefractoryPeriodEndsSec(DEFAULT_METRIC_DIMENSION_KEY), 0U);
//
// std::shared_ptr<LogEvent> event2 =
// std::make_shared<LogEvent>(tagId, bucketStartTimeNs + bucketSizeNs + 20);
// event2->write("some value");
// event2->write(15);
// event2->init();
//
// gaugeProducer.onDataPulled({event2}, /** succeed */ true, bucketStartTimeNs + bucketSizeNs);
// EXPECT_EQ(1UL, gaugeProducer.mCurrentSlicedBucket->size());
// EXPECT_EQ(15L, gaugeProducer.mCurrentSlicedBucket->begin()
// ->second.front()
// .mFields->begin()
// ->mValue.int_value);
// EXPECT_EQ(anomalyTracker->getRefractoryPeriodEndsSec(DEFAULT_METRIC_DIMENSION_KEY),
// std::ceil(1.0 * event2->GetElapsedTimestampNs() / NS_PER_SEC) + refPeriodSec);
//
// std::shared_ptr<LogEvent> event3 =
// std::make_shared<LogEvent>(tagId, bucketStartTimeNs + 2 * bucketSizeNs + 10);
// event3->write("some value");
// event3->write(26);
// event3->init();
//
// gaugeProducer.onDataPulled({event3}, /** succeed */ true, bucket2StartTimeNs + 2 * bucketSizeNs);
// EXPECT_EQ(1UL, gaugeProducer.mCurrentSlicedBucket->size());
// EXPECT_EQ(26L, gaugeProducer.mCurrentSlicedBucket->begin()
// ->second.front()
// .mFields->begin()
// ->mValue.int_value);
// EXPECT_EQ(anomalyTracker->getRefractoryPeriodEndsSec(DEFAULT_METRIC_DIMENSION_KEY),
// std::ceil(1.0 * event2->GetElapsedTimestampNs() / NS_PER_SEC + refPeriodSec));
//
// // The event4 does not have the gauge field. Thus the current bucket value is 0.
// std::shared_ptr<LogEvent> event4 =
// std::make_shared<LogEvent>(tagId, bucketStartTimeNs + 3 * bucketSizeNs + 10);
// event4->write("some value");
// event4->init();
// gaugeProducer.onDataPulled({event4}, /** succeed */ true, bucketStartTimeNs + 3 * bucketSizeNs);
// EXPECT_EQ(1UL, gaugeProducer.mCurrentSlicedBucket->size());
// EXPECT_TRUE(gaugeProducer.mCurrentSlicedBucket->begin()->second.front().mFields->empty());
//}
//
//TEST(GaugeMetricProducerTest, TestPullOnTrigger) {
// GaugeMetric metric;
// metric.set_id(metricId);
// metric.set_bucket(ONE_MINUTE);
// metric.set_sampling_type(GaugeMetric::FIRST_N_SAMPLES);
// metric.mutable_gauge_fields_filter()->set_include_all(false);
// metric.set_max_pull_delay_sec(INT_MAX);
// auto gaugeFieldMatcher = metric.mutable_gauge_fields_filter()->mutable_fields();
// gaugeFieldMatcher->set_field(tagId);
// gaugeFieldMatcher->add_child()->set_field(1);
//
// sp<MockConditionWizard> wizard = new NaggyMock<MockConditionWizard>();
//
// UidMap uidMap;
// SimpleAtomMatcher atomMatcher;
// atomMatcher.set_atom_id(tagId);
// sp<EventMatcherWizard> eventMatcherWizard = new EventMatcherWizard({
// new SimpleLogMatchingTracker(atomMatcherId, logEventMatcherIndex, atomMatcher, uidMap)});
//
// sp<MockStatsPullerManager> pullerManager = new StrictMock<MockStatsPullerManager>();
// EXPECT_CALL(*pullerManager, Pull(tagId, _))
// .WillOnce(Invoke([](int tagId, vector<std::shared_ptr<LogEvent>>* data) {
// data->clear();
// shared_ptr<LogEvent> event = make_shared<LogEvent>(tagId, bucketStartTimeNs + 10);
// event->write(4);
// event->init();
// data->push_back(event);
// return true;
// }))
// .WillOnce(Invoke([](int tagId, vector<std::shared_ptr<LogEvent>>* data) {
// data->clear();
// shared_ptr<LogEvent> event = make_shared<LogEvent>(tagId, bucketStartTimeNs + 20);
// event->write(5);
// event->init();
// data->push_back(event);
// return true;
// }))
// .WillOnce(Return(true));
//
// int triggerId = 5;
// GaugeMetricProducer gaugeProducer(kConfigKey, metric, -1 /*-1 meaning no condition*/, wizard,
// logEventMatcherIndex, eventMatcherWizard,
// tagId, triggerId, tagId, bucketStartTimeNs, bucketStartTimeNs,
// pullerManager);
//
// vector<shared_ptr<LogEvent>> allData;
//
// EXPECT_EQ(0UL, gaugeProducer.mCurrentSlicedBucket->size());
// LogEvent trigger(triggerId, bucketStartTimeNs + 10);
// trigger.init();
// gaugeProducer.onMatchedLogEvent(1 /*log matcher index*/, trigger);
// EXPECT_EQ(1UL, gaugeProducer.mCurrentSlicedBucket->begin()->second.size());
// trigger.setElapsedTimestampNs(bucketStartTimeNs + 20);
// gaugeProducer.onMatchedLogEvent(1 /*log matcher index*/, trigger);
// EXPECT_EQ(2UL, gaugeProducer.mCurrentSlicedBucket->begin()->second.size());
// trigger.setElapsedTimestampNs(bucket2StartTimeNs + 1);
// gaugeProducer.onMatchedLogEvent(1 /*log matcher index*/, trigger);
//
// EXPECT_EQ(1UL, gaugeProducer.mPastBuckets.size());
// EXPECT_EQ(2UL, gaugeProducer.mPastBuckets.begin()->second.back().mGaugeAtoms.size());
// EXPECT_EQ(4, gaugeProducer.mPastBuckets.begin()
// ->second.back()
// .mGaugeAtoms[0]
// .mFields->begin()
// ->mValue.int_value);
// EXPECT_EQ(5, gaugeProducer.mPastBuckets.begin()
// ->second.back()
// .mGaugeAtoms[1]
// .mFields->begin()
// ->mValue.int_value);
//}
//
//TEST(GaugeMetricProducerTest, TestRemoveDimensionInOutput) {
// GaugeMetric metric;
// metric.set_id(metricId);
// metric.set_bucket(ONE_MINUTE);
// metric.set_sampling_type(GaugeMetric::FIRST_N_SAMPLES);
// metric.mutable_gauge_fields_filter()->set_include_all(true);
// metric.set_max_pull_delay_sec(INT_MAX);
// auto dimensionMatcher = metric.mutable_dimensions_in_what();
// // use field 1 as dimension.
// dimensionMatcher->set_field(tagId);
// dimensionMatcher->add_child()->set_field(1);
//
// sp<MockConditionWizard> wizard = new NaggyMock<MockConditionWizard>();
//
// UidMap uidMap;
// SimpleAtomMatcher atomMatcher;
// atomMatcher.set_atom_id(tagId);
// sp<EventMatcherWizard> eventMatcherWizard = new EventMatcherWizard({
// new SimpleLogMatchingTracker(atomMatcherId, logEventMatcherIndex, atomMatcher, uidMap)});
//
// sp<MockStatsPullerManager> pullerManager = new StrictMock<MockStatsPullerManager>();
// EXPECT_CALL(*pullerManager, Pull(tagId, _))
// .WillOnce(Invoke([](int tagId, vector<std::shared_ptr<LogEvent>>* data) {
// data->clear();
// shared_ptr<LogEvent> event = make_shared<LogEvent>(tagId, bucketStartTimeNs + 3);
// event->write(3);
// event->write(4);
// event->init();
// data->push_back(event);
// return true;
// }))
// .WillOnce(Invoke([](int tagId, vector<std::shared_ptr<LogEvent>>* data) {
// data->clear();
// shared_ptr<LogEvent> event = make_shared<LogEvent>(tagId, bucketStartTimeNs + 10);
// event->write(4);
// event->write(5);
// event->init();
// data->push_back(event);
// return true;
// }))
// .WillOnce(Invoke([](int tagId, vector<std::shared_ptr<LogEvent>>* data) {
// data->clear();
// shared_ptr<LogEvent> event = make_shared<LogEvent>(tagId, bucketStartTimeNs + 20);
// event->write(4);
// event->write(6);
// event->init();
// data->push_back(event);
// return true;
// }))
// .WillOnce(Return(true));
//
// int triggerId = 5;
// GaugeMetricProducer gaugeProducer(kConfigKey, metric, -1 /*-1 meaning no condition*/, wizard,
// logEventMatcherIndex, eventMatcherWizard,
// tagId, triggerId, tagId, bucketStartTimeNs, bucketStartTimeNs,
// pullerManager);
//
// vector<shared_ptr<LogEvent>> allData;
//
// LogEvent trigger(triggerId, bucketStartTimeNs + 3);
// trigger.init();
// gaugeProducer.onMatchedLogEvent(1 /*log matcher index*/, trigger);
// EXPECT_EQ(1UL, gaugeProducer.mCurrentSlicedBucket->size());
// trigger.setElapsedTimestampNs(bucketStartTimeNs + 10);
// gaugeProducer.onMatchedLogEvent(1 /*log matcher index*/, trigger);
// EXPECT_EQ(2UL, gaugeProducer.mCurrentSlicedBucket->size());
// EXPECT_EQ(1UL, gaugeProducer.mCurrentSlicedBucket->begin()->second.size());
// trigger.setElapsedTimestampNs(bucketStartTimeNs + 20);
// gaugeProducer.onMatchedLogEvent(1 /*log matcher index*/, trigger);
// EXPECT_EQ(2UL, gaugeProducer.mCurrentSlicedBucket->begin()->second.size());
// trigger.setElapsedTimestampNs(bucket2StartTimeNs + 1);
// gaugeProducer.onMatchedLogEvent(1 /*log matcher index*/, trigger);
//
// EXPECT_EQ(2UL, gaugeProducer.mPastBuckets.size());
// auto bucketIt = gaugeProducer.mPastBuckets.begin();
// EXPECT_EQ(1UL, bucketIt->second.back().mGaugeAtoms.size());
// EXPECT_EQ(3, bucketIt->first.getDimensionKeyInWhat().getValues().begin()->mValue.int_value);
// EXPECT_EQ(4, bucketIt->second.back().mGaugeAtoms[0].mFields->begin()->mValue.int_value);
// bucketIt++;
// EXPECT_EQ(2UL, bucketIt->second.back().mGaugeAtoms.size());
// EXPECT_EQ(4, bucketIt->first.getDimensionKeyInWhat().getValues().begin()->mValue.int_value);
// EXPECT_EQ(5, bucketIt->second.back().mGaugeAtoms[0].mFields->begin()->mValue.int_value);
// EXPECT_EQ(6, bucketIt->second.back().mGaugeAtoms[1].mFields->begin()->mValue.int_value);
//}
//
///*
// * Test that BUCKET_TOO_SMALL dump reason is logged when a flushed bucket size
// * is smaller than the "min_bucket_size_nanos" specified in the metric config.
// */
//TEST(GaugeMetricProducerTest_BucketDrop, TestBucketDropWhenBucketTooSmall) {
// GaugeMetric metric;
// metric.set_id(metricId);
// metric.set_bucket(FIVE_MINUTES);
// metric.set_sampling_type(GaugeMetric::FIRST_N_SAMPLES);
// metric.set_min_bucket_size_nanos(10000000000); // 10 seconds
//
// sp<MockConditionWizard> wizard = new NaggyMock<MockConditionWizard>();
//
// UidMap uidMap;
// SimpleAtomMatcher atomMatcher;
// atomMatcher.set_atom_id(tagId);
// sp<EventMatcherWizard> eventMatcherWizard = new EventMatcherWizard({
// new SimpleLogMatchingTracker(atomMatcherId, logEventMatcherIndex, atomMatcher, uidMap)});
//
// sp<MockStatsPullerManager> pullerManager = new StrictMock<MockStatsPullerManager>();
// EXPECT_CALL(*pullerManager, Pull(tagId, _))
// // Bucket start.
// .WillOnce(Invoke([](int tagId, vector<std::shared_ptr<LogEvent>>* data) {
// data->clear();
// shared_ptr<LogEvent> event = make_shared<LogEvent>(tagId, bucketStartTimeNs);
// event->write("field1");
// event->write(10);
// event->init();
// data->push_back(event);
// return true;
// }));
//
// int triggerId = 5;
// GaugeMetricProducer gaugeProducer(kConfigKey, metric, -1 /*-1 meaning no condition*/, wizard,
// logEventMatcherIndex, eventMatcherWizard,
// tagId, triggerId, tagId, bucketStartTimeNs, bucketStartTimeNs,
// pullerManager);
//
// LogEvent trigger(triggerId, bucketStartTimeNs + 3);
// trigger.init();
// gaugeProducer.onMatchedLogEvent(1 /*log matcher index*/, trigger);
//
// // Check dump report.
// ProtoOutputStream output;
// std::set<string> strSet;
// gaugeProducer.onDumpReport(bucketStartTimeNs + 9000000, true /* include recent buckets */,
// true, FAST /* dump_latency */, &strSet, &output);
//
// StatsLogReport report = outputStreamToProto(&output);
// EXPECT_TRUE(report.has_gauge_metrics());
// EXPECT_EQ(0, report.gauge_metrics().data_size());
// EXPECT_EQ(1, report.gauge_metrics().skipped_size());
//
// EXPECT_EQ(NanoToMillis(bucketStartTimeNs),
// report.gauge_metrics().skipped(0).start_bucket_elapsed_millis());
// EXPECT_EQ(NanoToMillis(bucketStartTimeNs + 9000000),
// report.gauge_metrics().skipped(0).end_bucket_elapsed_millis());
// EXPECT_EQ(1, report.gauge_metrics().skipped(0).drop_event_size());
//
// auto dropEvent = report.gauge_metrics().skipped(0).drop_event(0);
// EXPECT_EQ(BucketDropReason::BUCKET_TOO_SMALL, dropEvent.drop_reason());
// EXPECT_EQ(NanoToMillis(bucketStartTimeNs + 9000000), dropEvent.drop_time_millis());
//}
} // namespace statsd
} // namespace os
} // namespace android
#else
GTEST_LOG_(INFO) << "This test does nothing.\n";
#endif