// Copyright (C) 2017 The Android Open Source Project // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. #include #include #include "src/StatsLogProcessor.h" #include "src/StatsService.h" #include "src/stats_log_util.h" #include "tests/statsd_test_util.h" #include namespace android { namespace os { namespace statsd { #ifdef __ANDROID__ const string kAndroid = "android"; const string kApp1 = "app1.sharing.1"; const int kConfigKey = 789130123; // Randomly chosen to avoid collisions with existing configs. void SendConfig(StatsService& service, const StatsdConfig& config) { string str; config.SerializeToString(&str); std::vector configAsVec(str.begin(), str.end()); bool success; service.addConfiguration(kConfigKey, configAsVec, String16(kAndroid.c_str())); } ConfigMetricsReport GetReports(sp processor, int64_t timestamp, bool include_current = false) { vector output; IPCThreadState* ipc = IPCThreadState::self(); ConfigKey configKey(ipc->getCallingUid(), kConfigKey); processor->onDumpReport(configKey, timestamp, include_current /* include_current_bucket*/, ADB_DUMP, &output); ConfigMetricsReportList reports; reports.ParseFromArray(output.data(), output.size()); EXPECT_EQ(1, reports.reports_size()); return reports.reports(0); } StatsdConfig MakeConfig() { StatsdConfig config; config.add_allowed_log_source("AID_ROOT"); // LogEvent defaults to UID of root. auto appCrashMatcher = CreateProcessCrashAtomMatcher(); *config.add_atom_matcher() = appCrashMatcher; auto countMetric = config.add_count_metric(); countMetric->set_id(StringToId("AppCrashes")); countMetric->set_what(appCrashMatcher.id()); countMetric->set_bucket(FIVE_MINUTES); return config; } StatsdConfig MakeValueMetricConfig(int64_t minTime) { StatsdConfig config; config.add_allowed_log_source("AID_ROOT"); // LogEvent defaults to UID of root. auto temperatureAtomMatcher = CreateTemperatureAtomMatcher(); *config.add_atom_matcher() = temperatureAtomMatcher; *config.add_atom_matcher() = CreateScreenTurnedOnAtomMatcher(); *config.add_atom_matcher() = CreateScreenTurnedOffAtomMatcher(); auto valueMetric = config.add_value_metric(); valueMetric->set_id(123456); valueMetric->set_what(temperatureAtomMatcher.id()); *valueMetric->mutable_value_field() = CreateDimensions(android::util::TEMPERATURE, {3 /* temperature degree field */}); *valueMetric->mutable_dimensions_in_what() = CreateDimensions(android::util::TEMPERATURE, {2 /* sensor name field */}); valueMetric->set_bucket(FIVE_MINUTES); valueMetric->set_min_bucket_size_nanos(minTime); valueMetric->set_use_absolute_value_on_reset(true); return config; } StatsdConfig MakeGaugeMetricConfig(int64_t minTime) { StatsdConfig config; config.add_allowed_log_source("AID_ROOT"); // LogEvent defaults to UID of root. auto temperatureAtomMatcher = CreateTemperatureAtomMatcher(); *config.add_atom_matcher() = temperatureAtomMatcher; *config.add_atom_matcher() = CreateScreenTurnedOnAtomMatcher(); *config.add_atom_matcher() = CreateScreenTurnedOffAtomMatcher(); auto gaugeMetric = config.add_gauge_metric(); gaugeMetric->set_id(123456); gaugeMetric->set_what(temperatureAtomMatcher.id()); gaugeMetric->mutable_gauge_fields_filter()->set_include_all(true); *gaugeMetric->mutable_dimensions_in_what() = CreateDimensions(android::util::TEMPERATURE, {2 /* sensor name field */}); gaugeMetric->set_bucket(FIVE_MINUTES); gaugeMetric->set_min_bucket_size_nanos(minTime); return config; } TEST(PartialBucketE2eTest, TestCountMetricWithoutSplit) { StatsService service(nullptr); SendConfig(service, MakeConfig()); int64_t start = getElapsedRealtimeNs(); // This is the start-time the metrics producers are // initialized with. service.mProcessor->OnLogEvent(CreateAppCrashEvent(100, start + 1).get()); service.mProcessor->OnLogEvent(CreateAppCrashEvent(100, start + 2).get()); ConfigMetricsReport report = GetReports(service.mProcessor, start + 3); // Expect no metrics since the bucket has not finished yet. EXPECT_EQ(0, report.metrics_size()); } TEST(PartialBucketE2eTest, TestCountMetricNoSplitOnNewApp) { StatsService service(nullptr); SendConfig(service, MakeConfig()); int64_t start = getElapsedRealtimeNs(); // This is the start-time the metrics producers are // initialized with. // Force the uidmap to update at timestamp 2. service.mProcessor->OnLogEvent(CreateAppCrashEvent(100, start + 1).get()); // This is a new installation, so there shouldn't be a split (should be same as the without // split case). service.mUidMap->updateApp(start + 2, String16(kApp1.c_str()), 1, 2); // Goes into the second bucket. service.mProcessor->OnLogEvent(CreateAppCrashEvent(100, start + 3).get()); ConfigMetricsReport report = GetReports(service.mProcessor, start + 4); EXPECT_EQ(0, report.metrics_size()); } TEST(PartialBucketE2eTest, TestCountMetricSplitOnUpgrade) { StatsService service(nullptr); SendConfig(service, MakeConfig()); int64_t start = getElapsedRealtimeNs(); // This is the start-time the metrics producers are // initialized with. service.mUidMap->updateMap(start, {1}, {1}, {String16(kApp1.c_str())}); // Force the uidmap to update at timestamp 2. service.mProcessor->OnLogEvent(CreateAppCrashEvent(100, start + 1).get()); service.mUidMap->updateApp(start + 2, String16(kApp1.c_str()), 1, 2); // Goes into the second bucket. service.mProcessor->OnLogEvent(CreateAppCrashEvent(100, start + 3).get()); ConfigMetricsReport report = GetReports(service.mProcessor, start + 4); backfillStartEndTimestamp(&report); EXPECT_EQ(1, report.metrics_size()); EXPECT_TRUE(report.metrics(0).count_metrics().data(0).bucket_info(0). has_start_bucket_elapsed_nanos()); EXPECT_TRUE(report.metrics(0).count_metrics().data(0).bucket_info(0). has_end_bucket_elapsed_nanos()); EXPECT_EQ(1, report.metrics(0).count_metrics().data(0).bucket_info(0).count()); } TEST(PartialBucketE2eTest, TestCountMetricSplitOnRemoval) { StatsService service(nullptr); SendConfig(service, MakeConfig()); int64_t start = getElapsedRealtimeNs(); // This is the start-time the metrics producers are // initialized with. service.mUidMap->updateMap(start, {1}, {1}, {String16(kApp1.c_str())}); // Force the uidmap to update at timestamp 2. service.mProcessor->OnLogEvent(CreateAppCrashEvent(100, start + 1).get()); service.mUidMap->removeApp(start + 2, String16(kApp1.c_str()), 1); // Goes into the second bucket. service.mProcessor->OnLogEvent(CreateAppCrashEvent(100, start + 3).get()); ConfigMetricsReport report = GetReports(service.mProcessor, start + 4); backfillStartEndTimestamp(&report); EXPECT_EQ(1, report.metrics_size()); EXPECT_TRUE(report.metrics(0).count_metrics().data(0).bucket_info(0). has_start_bucket_elapsed_nanos()); EXPECT_TRUE(report.metrics(0).count_metrics().data(0).bucket_info(0). has_end_bucket_elapsed_nanos()); EXPECT_EQ(1, report.metrics(0).count_metrics().data(0).bucket_info(0).count()); } TEST(PartialBucketE2eTest, TestValueMetricWithoutMinPartialBucket) { StatsService service(nullptr); // Partial buckets don't occur when app is first installed. service.mUidMap->updateApp(1, String16(kApp1.c_str()), 1, 1); SendConfig(service, MakeValueMetricConfig(0)); int64_t start = getElapsedRealtimeNs(); // This is the start-time the metrics producers are // initialized with. service.mProcessor->informPullAlarmFired(5 * 60 * NS_PER_SEC + start); service.mUidMap->updateApp(5 * 60 * NS_PER_SEC + start + 2, String16(kApp1.c_str()), 1, 2); ConfigMetricsReport report = GetReports(service.mProcessor, 5 * 60 * NS_PER_SEC + start + 100, true); EXPECT_EQ(1, report.metrics_size()); EXPECT_EQ(0, report.metrics(0).value_metrics().skipped_size()); } TEST(PartialBucketE2eTest, TestValueMetricWithMinPartialBucket) { StatsService service(nullptr); // Partial buckets don't occur when app is first installed. service.mUidMap->updateApp(1, String16(kApp1.c_str()), 1, 1); SendConfig(service, MakeValueMetricConfig(60 * NS_PER_SEC /* One minute */)); int64_t start = getElapsedRealtimeNs(); // This is the start-time the metrics producers are // initialized with. const int64_t endSkipped = 5 * 60 * NS_PER_SEC + start + 2; service.mProcessor->informPullAlarmFired(5 * 60 * NS_PER_SEC + start); service.mUidMap->updateApp(endSkipped, String16(kApp1.c_str()), 1, 2); ConfigMetricsReport report = GetReports(service.mProcessor, 5 * 60 * NS_PER_SEC + start + 100 * NS_PER_SEC, true); backfillStartEndTimestamp(&report); EXPECT_EQ(1, report.metrics_size()); EXPECT_EQ(1, report.metrics(0).value_metrics().skipped_size()); EXPECT_TRUE(report.metrics(0).value_metrics().skipped(0).has_start_bucket_elapsed_nanos()); // Can't test the start time since it will be based on the actual time when the pulling occurs. EXPECT_EQ(MillisToNano(NanoToMillis(endSkipped)), report.metrics(0).value_metrics().skipped(0).end_bucket_elapsed_nanos()); } TEST(PartialBucketE2eTest, TestGaugeMetricWithoutMinPartialBucket) { StatsService service(nullptr); // Partial buckets don't occur when app is first installed. service.mUidMap->updateApp(1, String16(kApp1.c_str()), 1, 1); SendConfig(service, MakeGaugeMetricConfig(0)); int64_t start = getElapsedRealtimeNs(); // This is the start-time the metrics producers are // initialized with. service.mProcessor->informPullAlarmFired(5 * 60 * NS_PER_SEC + start); service.mUidMap->updateApp(5 * 60 * NS_PER_SEC + start + 2, String16(kApp1.c_str()), 1, 2); ConfigMetricsReport report = GetReports(service.mProcessor, 5 * 60 * NS_PER_SEC + start + 100, true); EXPECT_EQ(1, report.metrics_size()); EXPECT_EQ(0, report.metrics(0).gauge_metrics().skipped_size()); } TEST(PartialBucketE2eTest, TestGaugeMetricWithMinPartialBucket) { StatsService service(nullptr); // Partial buckets don't occur when app is first installed. service.mUidMap->updateApp(1, String16(kApp1.c_str()), 1, 1); SendConfig(service, MakeGaugeMetricConfig(60 * NS_PER_SEC /* One minute */)); int64_t start = getElapsedRealtimeNs(); // This is the start-time the metrics producers are // initialized with. const int64_t endSkipped = 5 * 60 * NS_PER_SEC + start + 2; service.mProcessor->informPullAlarmFired(5 * 60 * NS_PER_SEC + start); service.mUidMap->updateApp(endSkipped, String16(kApp1.c_str()), 1, 2); ConfigMetricsReport report = GetReports(service.mProcessor, 5 * 60 * NS_PER_SEC + start + 100 * NS_PER_SEC, true); backfillStartEndTimestamp(&report); EXPECT_EQ(1, report.metrics_size()); EXPECT_EQ(1, report.metrics(0).gauge_metrics().skipped_size()); // Can't test the start time since it will be based on the actual time when the pulling occurs. EXPECT_TRUE(report.metrics(0).gauge_metrics().skipped(0).has_start_bucket_elapsed_nanos()); EXPECT_EQ(MillisToNano(NanoToMillis(endSkipped)), report.metrics(0).gauge_metrics().skipped(0).end_bucket_elapsed_nanos()); } #else GTEST_LOG_(INFO) << "This test does nothing.\n"; #endif } // namespace statsd } // namespace os } // namespace android