| // 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 "statsd_test_util.h" |
| |
| #include <aidl/android/util/StatsEventParcel.h> |
| |
| #include "matchers/SimpleAtomMatchingTracker.h" |
| #include "stats_event.h" |
| |
| using aidl::android::util::StatsEventParcel; |
| using std::shared_ptr; |
| |
| namespace android { |
| namespace os { |
| namespace statsd { |
| |
| StatsLogReport outputStreamToProto(ProtoOutputStream* proto) { |
| vector<uint8_t> bytes; |
| bytes.resize(proto->size()); |
| size_t pos = 0; |
| sp<ProtoReader> reader = proto->data(); |
| |
| while (reader->readBuffer() != NULL) { |
| size_t toRead = reader->currentToRead(); |
| std::memcpy(&((bytes)[pos]), reader->readBuffer(), toRead); |
| pos += toRead; |
| reader->move(toRead); |
| } |
| |
| StatsLogReport report; |
| report.ParseFromArray(bytes.data(), bytes.size()); |
| return report; |
| } |
| |
| AtomMatcher CreateSimpleAtomMatcher(const string& name, int atomId) { |
| AtomMatcher atom_matcher; |
| atom_matcher.set_id(StringToId(name)); |
| auto simple_atom_matcher = atom_matcher.mutable_simple_atom_matcher(); |
| simple_atom_matcher->set_atom_id(atomId); |
| return atom_matcher; |
| } |
| |
| AtomMatcher CreateTemperatureAtomMatcher() { |
| return CreateSimpleAtomMatcher("TemperatureMatcher", util::TEMPERATURE); |
| } |
| |
| AtomMatcher CreateScheduledJobStateChangedAtomMatcher(const string& name, |
| ScheduledJobStateChanged::State state) { |
| AtomMatcher atom_matcher; |
| atom_matcher.set_id(StringToId(name)); |
| auto simple_atom_matcher = atom_matcher.mutable_simple_atom_matcher(); |
| simple_atom_matcher->set_atom_id(util::SCHEDULED_JOB_STATE_CHANGED); |
| auto field_value_matcher = simple_atom_matcher->add_field_value_matcher(); |
| field_value_matcher->set_field(3); // State field. |
| field_value_matcher->set_eq_int(state); |
| return atom_matcher; |
| } |
| |
| AtomMatcher CreateStartScheduledJobAtomMatcher() { |
| return CreateScheduledJobStateChangedAtomMatcher("ScheduledJobStart", |
| ScheduledJobStateChanged::STARTED); |
| } |
| |
| AtomMatcher CreateFinishScheduledJobAtomMatcher() { |
| return CreateScheduledJobStateChangedAtomMatcher("ScheduledJobFinish", |
| ScheduledJobStateChanged::FINISHED); |
| } |
| |
| AtomMatcher CreateScreenBrightnessChangedAtomMatcher() { |
| AtomMatcher atom_matcher; |
| atom_matcher.set_id(StringToId("ScreenBrightnessChanged")); |
| auto simple_atom_matcher = atom_matcher.mutable_simple_atom_matcher(); |
| simple_atom_matcher->set_atom_id(util::SCREEN_BRIGHTNESS_CHANGED); |
| return atom_matcher; |
| } |
| |
| AtomMatcher CreateUidProcessStateChangedAtomMatcher() { |
| AtomMatcher atom_matcher; |
| atom_matcher.set_id(StringToId("UidProcessStateChanged")); |
| auto simple_atom_matcher = atom_matcher.mutable_simple_atom_matcher(); |
| simple_atom_matcher->set_atom_id(util::UID_PROCESS_STATE_CHANGED); |
| return atom_matcher; |
| } |
| |
| AtomMatcher CreateWakelockStateChangedAtomMatcher(const string& name, |
| WakelockStateChanged::State state) { |
| AtomMatcher atom_matcher; |
| atom_matcher.set_id(StringToId(name)); |
| auto simple_atom_matcher = atom_matcher.mutable_simple_atom_matcher(); |
| simple_atom_matcher->set_atom_id(util::WAKELOCK_STATE_CHANGED); |
| auto field_value_matcher = simple_atom_matcher->add_field_value_matcher(); |
| field_value_matcher->set_field(4); // State field. |
| field_value_matcher->set_eq_int(state); |
| return atom_matcher; |
| } |
| |
| AtomMatcher CreateAcquireWakelockAtomMatcher() { |
| return CreateWakelockStateChangedAtomMatcher("AcquireWakelock", WakelockStateChanged::ACQUIRE); |
| } |
| |
| AtomMatcher CreateReleaseWakelockAtomMatcher() { |
| return CreateWakelockStateChangedAtomMatcher("ReleaseWakelock", WakelockStateChanged::RELEASE); |
| } |
| |
| AtomMatcher CreateBatterySaverModeStateChangedAtomMatcher( |
| const string& name, BatterySaverModeStateChanged::State state) { |
| AtomMatcher atom_matcher; |
| atom_matcher.set_id(StringToId(name)); |
| auto simple_atom_matcher = atom_matcher.mutable_simple_atom_matcher(); |
| simple_atom_matcher->set_atom_id(util::BATTERY_SAVER_MODE_STATE_CHANGED); |
| auto field_value_matcher = simple_atom_matcher->add_field_value_matcher(); |
| field_value_matcher->set_field(1); // State field. |
| field_value_matcher->set_eq_int(state); |
| return atom_matcher; |
| } |
| |
| AtomMatcher CreateBatterySaverModeStartAtomMatcher() { |
| return CreateBatterySaverModeStateChangedAtomMatcher( |
| "BatterySaverModeStart", BatterySaverModeStateChanged::ON); |
| } |
| |
| |
| AtomMatcher CreateBatterySaverModeStopAtomMatcher() { |
| return CreateBatterySaverModeStateChangedAtomMatcher( |
| "BatterySaverModeStop", BatterySaverModeStateChanged::OFF); |
| } |
| |
| AtomMatcher CreateBatteryStateChangedAtomMatcher(const string& name, |
| BatteryPluggedStateEnum state) { |
| AtomMatcher atom_matcher; |
| atom_matcher.set_id(StringToId(name)); |
| auto simple_atom_matcher = atom_matcher.mutable_simple_atom_matcher(); |
| simple_atom_matcher->set_atom_id(util::PLUGGED_STATE_CHANGED); |
| auto field_value_matcher = simple_atom_matcher->add_field_value_matcher(); |
| field_value_matcher->set_field(1); // State field. |
| field_value_matcher->set_eq_int(state); |
| return atom_matcher; |
| } |
| |
| AtomMatcher CreateBatteryStateNoneMatcher() { |
| return CreateBatteryStateChangedAtomMatcher("BatteryPluggedNone", |
| BatteryPluggedStateEnum::BATTERY_PLUGGED_NONE); |
| } |
| |
| AtomMatcher CreateBatteryStateUsbMatcher() { |
| return CreateBatteryStateChangedAtomMatcher("BatteryPluggedUsb", |
| BatteryPluggedStateEnum::BATTERY_PLUGGED_USB); |
| } |
| |
| AtomMatcher CreateScreenStateChangedAtomMatcher( |
| const string& name, android::view::DisplayStateEnum state) { |
| AtomMatcher atom_matcher; |
| atom_matcher.set_id(StringToId(name)); |
| auto simple_atom_matcher = atom_matcher.mutable_simple_atom_matcher(); |
| simple_atom_matcher->set_atom_id(util::SCREEN_STATE_CHANGED); |
| auto field_value_matcher = simple_atom_matcher->add_field_value_matcher(); |
| field_value_matcher->set_field(1); // State field. |
| field_value_matcher->set_eq_int(state); |
| return atom_matcher; |
| } |
| |
| AtomMatcher CreateScreenTurnedOnAtomMatcher() { |
| return CreateScreenStateChangedAtomMatcher("ScreenTurnedOn", |
| android::view::DisplayStateEnum::DISPLAY_STATE_ON); |
| } |
| |
| AtomMatcher CreateScreenTurnedOffAtomMatcher() { |
| return CreateScreenStateChangedAtomMatcher("ScreenTurnedOff", |
| ::android::view::DisplayStateEnum::DISPLAY_STATE_OFF); |
| } |
| |
| AtomMatcher CreateSyncStateChangedAtomMatcher( |
| const string& name, SyncStateChanged::State state) { |
| AtomMatcher atom_matcher; |
| atom_matcher.set_id(StringToId(name)); |
| auto simple_atom_matcher = atom_matcher.mutable_simple_atom_matcher(); |
| simple_atom_matcher->set_atom_id(util::SYNC_STATE_CHANGED); |
| auto field_value_matcher = simple_atom_matcher->add_field_value_matcher(); |
| field_value_matcher->set_field(3); // State field. |
| field_value_matcher->set_eq_int(state); |
| return atom_matcher; |
| } |
| |
| AtomMatcher CreateSyncStartAtomMatcher() { |
| return CreateSyncStateChangedAtomMatcher("SyncStart", SyncStateChanged::ON); |
| } |
| |
| AtomMatcher CreateSyncEndAtomMatcher() { |
| return CreateSyncStateChangedAtomMatcher("SyncEnd", SyncStateChanged::OFF); |
| } |
| |
| AtomMatcher CreateActivityForegroundStateChangedAtomMatcher( |
| const string& name, ActivityForegroundStateChanged::State state) { |
| AtomMatcher atom_matcher; |
| atom_matcher.set_id(StringToId(name)); |
| auto simple_atom_matcher = atom_matcher.mutable_simple_atom_matcher(); |
| simple_atom_matcher->set_atom_id(util::ACTIVITY_FOREGROUND_STATE_CHANGED); |
| auto field_value_matcher = simple_atom_matcher->add_field_value_matcher(); |
| field_value_matcher->set_field(4); // Activity field. |
| field_value_matcher->set_eq_int(state); |
| return atom_matcher; |
| } |
| |
| AtomMatcher CreateMoveToBackgroundAtomMatcher() { |
| return CreateActivityForegroundStateChangedAtomMatcher( |
| "Background", ActivityForegroundStateChanged::BACKGROUND); |
| } |
| |
| AtomMatcher CreateMoveToForegroundAtomMatcher() { |
| return CreateActivityForegroundStateChangedAtomMatcher( |
| "Foreground", ActivityForegroundStateChanged::FOREGROUND); |
| } |
| |
| AtomMatcher CreateProcessLifeCycleStateChangedAtomMatcher( |
| const string& name, ProcessLifeCycleStateChanged::State state) { |
| AtomMatcher atom_matcher; |
| atom_matcher.set_id(StringToId(name)); |
| auto simple_atom_matcher = atom_matcher.mutable_simple_atom_matcher(); |
| simple_atom_matcher->set_atom_id(util::PROCESS_LIFE_CYCLE_STATE_CHANGED); |
| auto field_value_matcher = simple_atom_matcher->add_field_value_matcher(); |
| field_value_matcher->set_field(3); // Process state field. |
| field_value_matcher->set_eq_int(state); |
| return atom_matcher; |
| } |
| |
| AtomMatcher CreateProcessCrashAtomMatcher() { |
| return CreateProcessLifeCycleStateChangedAtomMatcher( |
| "Crashed", ProcessLifeCycleStateChanged::CRASHED); |
| } |
| |
| Predicate CreateScheduledJobPredicate() { |
| Predicate predicate; |
| predicate.set_id(StringToId("ScheduledJobRunningPredicate")); |
| predicate.mutable_simple_predicate()->set_start(StringToId("ScheduledJobStart")); |
| predicate.mutable_simple_predicate()->set_stop(StringToId("ScheduledJobFinish")); |
| return predicate; |
| } |
| |
| Predicate CreateBatterySaverModePredicate() { |
| Predicate predicate; |
| predicate.set_id(StringToId("BatterySaverIsOn")); |
| predicate.mutable_simple_predicate()->set_start(StringToId("BatterySaverModeStart")); |
| predicate.mutable_simple_predicate()->set_stop(StringToId("BatterySaverModeStop")); |
| return predicate; |
| } |
| |
| Predicate CreateDeviceUnpluggedPredicate() { |
| Predicate predicate; |
| predicate.set_id(StringToId("DeviceUnplugged")); |
| predicate.mutable_simple_predicate()->set_start(StringToId("BatteryPluggedNone")); |
| predicate.mutable_simple_predicate()->set_stop(StringToId("BatteryPluggedUsb")); |
| return predicate; |
| } |
| |
| Predicate CreateScreenIsOnPredicate() { |
| Predicate predicate; |
| predicate.set_id(StringToId("ScreenIsOn")); |
| predicate.mutable_simple_predicate()->set_start(StringToId("ScreenTurnedOn")); |
| predicate.mutable_simple_predicate()->set_stop(StringToId("ScreenTurnedOff")); |
| return predicate; |
| } |
| |
| Predicate CreateScreenIsOffPredicate() { |
| Predicate predicate; |
| predicate.set_id(1111123); |
| predicate.mutable_simple_predicate()->set_start(StringToId("ScreenTurnedOff")); |
| predicate.mutable_simple_predicate()->set_stop(StringToId("ScreenTurnedOn")); |
| return predicate; |
| } |
| |
| Predicate CreateHoldingWakelockPredicate() { |
| Predicate predicate; |
| predicate.set_id(StringToId("HoldingWakelock")); |
| predicate.mutable_simple_predicate()->set_start(StringToId("AcquireWakelock")); |
| predicate.mutable_simple_predicate()->set_stop(StringToId("ReleaseWakelock")); |
| return predicate; |
| } |
| |
| Predicate CreateIsSyncingPredicate() { |
| Predicate predicate; |
| predicate.set_id(33333333333333); |
| predicate.mutable_simple_predicate()->set_start(StringToId("SyncStart")); |
| predicate.mutable_simple_predicate()->set_stop(StringToId("SyncEnd")); |
| return predicate; |
| } |
| |
| Predicate CreateIsInBackgroundPredicate() { |
| Predicate predicate; |
| predicate.set_id(StringToId("IsInBackground")); |
| predicate.mutable_simple_predicate()->set_start(StringToId("Background")); |
| predicate.mutable_simple_predicate()->set_stop(StringToId("Foreground")); |
| return predicate; |
| } |
| |
| State CreateScreenState() { |
| State state; |
| state.set_id(StringToId("ScreenState")); |
| state.set_atom_id(util::SCREEN_STATE_CHANGED); |
| return state; |
| } |
| |
| State CreateUidProcessState() { |
| State state; |
| state.set_id(StringToId("UidProcessState")); |
| state.set_atom_id(util::UID_PROCESS_STATE_CHANGED); |
| return state; |
| } |
| |
| State CreateOverlayState() { |
| State state; |
| state.set_id(StringToId("OverlayState")); |
| state.set_atom_id(util::OVERLAY_STATE_CHANGED); |
| return state; |
| } |
| |
| State CreateScreenStateWithOnOffMap(int64_t screenOnId, int64_t screenOffId) { |
| State state; |
| state.set_id(StringToId("ScreenStateOnOff")); |
| state.set_atom_id(util::SCREEN_STATE_CHANGED); |
| |
| auto map = CreateScreenStateOnOffMap(screenOnId, screenOffId); |
| *state.mutable_map() = map; |
| |
| return state; |
| } |
| |
| State CreateScreenStateWithSimpleOnOffMap(int64_t screenOnId, int64_t screenOffId) { |
| State state; |
| state.set_id(StringToId("ScreenStateSimpleOnOff")); |
| state.set_atom_id(util::SCREEN_STATE_CHANGED); |
| |
| auto map = CreateScreenStateSimpleOnOffMap(screenOnId, screenOffId); |
| *state.mutable_map() = map; |
| |
| return state; |
| } |
| |
| StateMap_StateGroup CreateScreenStateOnGroup(int64_t screenOnId) { |
| StateMap_StateGroup group; |
| group.set_group_id(screenOnId); |
| group.add_value(android::view::DisplayStateEnum::DISPLAY_STATE_ON); |
| group.add_value(android::view::DisplayStateEnum::DISPLAY_STATE_VR); |
| group.add_value(android::view::DisplayStateEnum::DISPLAY_STATE_ON_SUSPEND); |
| return group; |
| } |
| |
| StateMap_StateGroup CreateScreenStateOffGroup(int64_t screenOffId) { |
| StateMap_StateGroup group; |
| group.set_group_id(screenOffId); |
| group.add_value(android::view::DisplayStateEnum::DISPLAY_STATE_OFF); |
| group.add_value(android::view::DisplayStateEnum::DISPLAY_STATE_DOZE); |
| group.add_value(android::view::DisplayStateEnum::DISPLAY_STATE_DOZE_SUSPEND); |
| return group; |
| } |
| |
| StateMap_StateGroup CreateScreenStateSimpleOnGroup(int64_t screenOnId) { |
| StateMap_StateGroup group; |
| group.set_group_id(screenOnId); |
| group.add_value(android::view::DisplayStateEnum::DISPLAY_STATE_ON); |
| return group; |
| } |
| |
| StateMap_StateGroup CreateScreenStateSimpleOffGroup(int64_t screenOffId) { |
| StateMap_StateGroup group; |
| group.set_group_id(screenOffId); |
| group.add_value(android::view::DisplayStateEnum::DISPLAY_STATE_OFF); |
| return group; |
| } |
| |
| StateMap CreateScreenStateOnOffMap(int64_t screenOnId, int64_t screenOffId) { |
| StateMap map; |
| *map.add_group() = CreateScreenStateOnGroup(screenOnId); |
| *map.add_group() = CreateScreenStateOffGroup(screenOffId); |
| return map; |
| } |
| |
| StateMap CreateScreenStateSimpleOnOffMap(int64_t screenOnId, int64_t screenOffId) { |
| StateMap map; |
| *map.add_group() = CreateScreenStateSimpleOnGroup(screenOnId); |
| *map.add_group() = CreateScreenStateSimpleOffGroup(screenOffId); |
| return map; |
| } |
| |
| void addPredicateToPredicateCombination(const Predicate& predicate, |
| Predicate* combinationPredicate) { |
| combinationPredicate->mutable_combination()->add_predicate(predicate.id()); |
| } |
| |
| FieldMatcher CreateAttributionUidDimensions(const int atomId, |
| const std::vector<Position>& positions) { |
| FieldMatcher dimensions; |
| dimensions.set_field(atomId); |
| for (const auto position : positions) { |
| auto child = dimensions.add_child(); |
| child->set_field(1); |
| child->set_position(position); |
| child->add_child()->set_field(1); |
| } |
| return dimensions; |
| } |
| |
| FieldMatcher CreateAttributionUidAndTagDimensions(const int atomId, |
| const std::vector<Position>& positions) { |
| FieldMatcher dimensions; |
| dimensions.set_field(atomId); |
| for (const auto position : positions) { |
| auto child = dimensions.add_child(); |
| child->set_field(1); |
| child->set_position(position); |
| child->add_child()->set_field(1); |
| child->add_child()->set_field(2); |
| } |
| return dimensions; |
| } |
| |
| FieldMatcher CreateDimensions(const int atomId, const std::vector<int>& fields) { |
| FieldMatcher dimensions; |
| dimensions.set_field(atomId); |
| for (const int field : fields) { |
| dimensions.add_child()->set_field(field); |
| } |
| return dimensions; |
| } |
| |
| FieldMatcher CreateAttributionUidAndOtherDimensions(const int atomId, |
| const std::vector<Position>& positions, |
| const std::vector<int>& fields) { |
| FieldMatcher dimensions = CreateAttributionUidDimensions(atomId, positions); |
| |
| for (const int field : fields) { |
| dimensions.add_child()->set_field(field); |
| } |
| return dimensions; |
| } |
| |
| CountMetric createCountMetric(string name, int64_t what, optional<int64_t> condition, |
| vector<int64_t> states) { |
| CountMetric metric; |
| metric.set_id(StringToId(name)); |
| metric.set_what(what); |
| metric.set_bucket(TEN_MINUTES); |
| if (condition) { |
| metric.set_condition(condition.value()); |
| } |
| for (const int64_t state : states) { |
| metric.add_slice_by_state(state); |
| } |
| return metric; |
| } |
| |
| GaugeMetric createGaugeMetric(string name, int64_t what, GaugeMetric::SamplingType samplingType, |
| optional<int64_t> condition, optional<int64_t> triggerEvent) { |
| GaugeMetric metric; |
| metric.set_id(StringToId(name)); |
| metric.set_what(what); |
| metric.set_bucket(TEN_MINUTES); |
| metric.set_sampling_type(samplingType); |
| if (condition) { |
| metric.set_condition(condition.value()); |
| } |
| if (triggerEvent) { |
| metric.set_trigger_event(triggerEvent.value()); |
| } |
| metric.mutable_gauge_fields_filter()->set_include_all(true); |
| return metric; |
| } |
| |
| // START: get primary key functions |
| void getUidProcessKey(int uid, HashableDimensionKey* key) { |
| int pos1[] = {1, 0, 0}; |
| Field field1(27 /* atom id */, pos1, 0 /* depth */); |
| Value value1((int32_t)uid); |
| |
| key->addValue(FieldValue(field1, value1)); |
| } |
| |
| void getOverlayKey(int uid, string packageName, HashableDimensionKey* key) { |
| int pos1[] = {1, 0, 0}; |
| int pos2[] = {2, 0, 0}; |
| |
| Field field1(59 /* atom id */, pos1, 0 /* depth */); |
| Field field2(59 /* atom id */, pos2, 0 /* depth */); |
| |
| Value value1((int32_t)uid); |
| Value value2(packageName); |
| |
| key->addValue(FieldValue(field1, value1)); |
| key->addValue(FieldValue(field2, value2)); |
| } |
| |
| void getPartialWakelockKey(int uid, const std::string& tag, HashableDimensionKey* key) { |
| int pos1[] = {1, 1, 1}; |
| int pos3[] = {2, 0, 0}; |
| int pos4[] = {3, 0, 0}; |
| |
| Field field1(10 /* atom id */, pos1, 2 /* depth */); |
| |
| Field field3(10 /* atom id */, pos3, 0 /* depth */); |
| Field field4(10 /* atom id */, pos4, 0 /* depth */); |
| |
| Value value1((int32_t)uid); |
| Value value3((int32_t)1 /*partial*/); |
| Value value4(tag); |
| |
| key->addValue(FieldValue(field1, value1)); |
| key->addValue(FieldValue(field3, value3)); |
| key->addValue(FieldValue(field4, value4)); |
| } |
| |
| void getPartialWakelockKey(int uid, HashableDimensionKey* key) { |
| int pos1[] = {1, 1, 1}; |
| int pos3[] = {2, 0, 0}; |
| |
| Field field1(10 /* atom id */, pos1, 2 /* depth */); |
| Field field3(10 /* atom id */, pos3, 0 /* depth */); |
| |
| Value value1((int32_t)uid); |
| Value value3((int32_t)1 /*partial*/); |
| |
| key->addValue(FieldValue(field1, value1)); |
| key->addValue(FieldValue(field3, value3)); |
| } |
| // END: get primary key functions |
| |
| void writeAttribution(AStatsEvent* statsEvent, const vector<int>& attributionUids, |
| const vector<string>& attributionTags) { |
| vector<const char*> cTags(attributionTags.size()); |
| for (int i = 0; i < cTags.size(); i++) { |
| cTags[i] = attributionTags[i].c_str(); |
| } |
| |
| AStatsEvent_writeAttributionChain(statsEvent, |
| reinterpret_cast<const uint32_t*>(attributionUids.data()), |
| cTags.data(), attributionUids.size()); |
| } |
| |
| void parseStatsEventToLogEvent(AStatsEvent* statsEvent, LogEvent* logEvent) { |
| AStatsEvent_build(statsEvent); |
| |
| size_t size; |
| uint8_t* buf = AStatsEvent_getBuffer(statsEvent, &size); |
| logEvent->parseBuffer(buf, size); |
| |
| AStatsEvent_release(statsEvent); |
| } |
| |
| void CreateTwoValueLogEvent(LogEvent* logEvent, int atomId, int64_t eventTimeNs, int32_t value1, |
| int32_t value2) { |
| AStatsEvent* statsEvent = AStatsEvent_obtain(); |
| AStatsEvent_setAtomId(statsEvent, atomId); |
| AStatsEvent_overwriteTimestamp(statsEvent, eventTimeNs); |
| |
| AStatsEvent_writeInt32(statsEvent, value1); |
| AStatsEvent_writeInt32(statsEvent, value2); |
| |
| parseStatsEventToLogEvent(statsEvent, logEvent); |
| } |
| |
| shared_ptr<LogEvent> CreateTwoValueLogEvent(int atomId, int64_t eventTimeNs, int32_t value1, |
| int32_t value2) { |
| shared_ptr<LogEvent> logEvent = std::make_shared<LogEvent>(/*uid=*/0, /*pid=*/0); |
| CreateTwoValueLogEvent(logEvent.get(), atomId, eventTimeNs, value1, value2); |
| return logEvent; |
| } |
| |
| void CreateThreeValueLogEvent(LogEvent* logEvent, int atomId, int64_t eventTimeNs, int32_t value1, |
| int32_t value2, int32_t value3) { |
| AStatsEvent* statsEvent = AStatsEvent_obtain(); |
| AStatsEvent_setAtomId(statsEvent, atomId); |
| AStatsEvent_overwriteTimestamp(statsEvent, eventTimeNs); |
| |
| AStatsEvent_writeInt32(statsEvent, value1); |
| AStatsEvent_writeInt32(statsEvent, value2); |
| AStatsEvent_writeInt32(statsEvent, value3); |
| |
| parseStatsEventToLogEvent(statsEvent, logEvent); |
| } |
| |
| shared_ptr<LogEvent> CreateThreeValueLogEvent(int atomId, int64_t eventTimeNs, int32_t value1, |
| int32_t value2, int32_t value3) { |
| shared_ptr<LogEvent> logEvent = std::make_shared<LogEvent>(/*uid=*/0, /*pid=*/0); |
| CreateThreeValueLogEvent(logEvent.get(), atomId, eventTimeNs, value1, value2, value3); |
| return logEvent; |
| } |
| |
| void CreateRepeatedValueLogEvent(LogEvent* logEvent, int atomId, int64_t eventTimeNs, |
| int32_t value) { |
| AStatsEvent* statsEvent = AStatsEvent_obtain(); |
| AStatsEvent_setAtomId(statsEvent, atomId); |
| AStatsEvent_overwriteTimestamp(statsEvent, eventTimeNs); |
| |
| AStatsEvent_writeInt32(statsEvent, value); |
| AStatsEvent_writeInt32(statsEvent, value); |
| |
| parseStatsEventToLogEvent(statsEvent, logEvent); |
| } |
| |
| shared_ptr<LogEvent> CreateRepeatedValueLogEvent(int atomId, int64_t eventTimeNs, int32_t value) { |
| shared_ptr<LogEvent> logEvent = std::make_shared<LogEvent>(/*uid=*/0, /*pid=*/0); |
| CreateRepeatedValueLogEvent(logEvent.get(), atomId, eventTimeNs, value); |
| return logEvent; |
| } |
| |
| void CreateNoValuesLogEvent(LogEvent* logEvent, int atomId, int64_t eventTimeNs) { |
| AStatsEvent* statsEvent = AStatsEvent_obtain(); |
| AStatsEvent_setAtomId(statsEvent, atomId); |
| AStatsEvent_overwriteTimestamp(statsEvent, eventTimeNs); |
| |
| parseStatsEventToLogEvent(statsEvent, logEvent); |
| } |
| |
| shared_ptr<LogEvent> CreateNoValuesLogEvent(int atomId, int64_t eventTimeNs) { |
| shared_ptr<LogEvent> logEvent = std::make_shared<LogEvent>(/*uid=*/0, /*pid=*/0); |
| CreateNoValuesLogEvent(logEvent.get(), atomId, eventTimeNs); |
| return logEvent; |
| } |
| |
| shared_ptr<LogEvent> makeUidLogEvent(int atomId, int64_t eventTimeNs, int uid, int data1, |
| int data2) { |
| AStatsEvent* statsEvent = AStatsEvent_obtain(); |
| AStatsEvent_setAtomId(statsEvent, atomId); |
| AStatsEvent_overwriteTimestamp(statsEvent, eventTimeNs); |
| |
| AStatsEvent_writeInt32(statsEvent, uid); |
| AStatsEvent_addBoolAnnotation(statsEvent, ANNOTATION_ID_IS_UID, true); |
| AStatsEvent_writeInt32(statsEvent, data1); |
| AStatsEvent_writeInt32(statsEvent, data2); |
| |
| shared_ptr<LogEvent> logEvent = std::make_shared<LogEvent>(/*uid=*/0, /*pid=*/0); |
| parseStatsEventToLogEvent(statsEvent, logEvent.get()); |
| return logEvent; |
| } |
| |
| shared_ptr<LogEvent> makeAttributionLogEvent(int atomId, int64_t eventTimeNs, |
| const vector<int>& uids, const vector<string>& tags, |
| int data1, int data2) { |
| AStatsEvent* statsEvent = AStatsEvent_obtain(); |
| AStatsEvent_setAtomId(statsEvent, atomId); |
| AStatsEvent_overwriteTimestamp(statsEvent, eventTimeNs); |
| |
| writeAttribution(statsEvent, uids, tags); |
| AStatsEvent_writeInt32(statsEvent, data1); |
| AStatsEvent_writeInt32(statsEvent, data2); |
| |
| shared_ptr<LogEvent> logEvent = std::make_shared<LogEvent>(/*uid=*/0, /*pid=*/0); |
| parseStatsEventToLogEvent(statsEvent, logEvent.get()); |
| return logEvent; |
| } |
| |
| sp<MockUidMap> makeMockUidMapForOneHost(int hostUid, const vector<int>& isolatedUids) { |
| sp<MockUidMap> uidMap = new NaggyMock<MockUidMap>(); |
| EXPECT_CALL(*uidMap, getHostUidOrSelf(_)).WillRepeatedly(ReturnArg<0>()); |
| for (const int isolatedUid : isolatedUids) { |
| EXPECT_CALL(*uidMap, getHostUidOrSelf(isolatedUid)).WillRepeatedly(Return(hostUid)); |
| } |
| |
| return uidMap; |
| } |
| |
| sp<MockUidMap> makeMockUidMapForPackage(const string& pkg, const set<int32_t>& uids) { |
| sp<MockUidMap> uidMap = new StrictMock<MockUidMap>(); |
| EXPECT_CALL(*uidMap, getAppUid(_)).Times(AnyNumber()); |
| EXPECT_CALL(*uidMap, getAppUid(pkg)).WillRepeatedly(Return(uids)); |
| |
| return uidMap; |
| } |
| |
| std::unique_ptr<LogEvent> CreateScreenStateChangedEvent(uint64_t timestampNs, |
| const android::view::DisplayStateEnum state, |
| int loggerUid) { |
| AStatsEvent* statsEvent = AStatsEvent_obtain(); |
| AStatsEvent_setAtomId(statsEvent, util::SCREEN_STATE_CHANGED); |
| AStatsEvent_overwriteTimestamp(statsEvent, timestampNs); |
| AStatsEvent_writeInt32(statsEvent, state); |
| AStatsEvent_addBoolAnnotation(statsEvent, util::ANNOTATION_ID_EXCLUSIVE_STATE, true); |
| AStatsEvent_addBoolAnnotation(statsEvent, util::ANNOTATION_ID_STATE_NESTED, false); |
| |
| std::unique_ptr<LogEvent> logEvent = std::make_unique<LogEvent>(loggerUid, /*pid=*/0); |
| parseStatsEventToLogEvent(statsEvent, logEvent.get()); |
| return logEvent; |
| } |
| |
| std::unique_ptr<LogEvent> CreateBatterySaverOnEvent(uint64_t timestampNs) { |
| AStatsEvent* statsEvent = AStatsEvent_obtain(); |
| AStatsEvent_setAtomId(statsEvent, util::BATTERY_SAVER_MODE_STATE_CHANGED); |
| AStatsEvent_overwriteTimestamp(statsEvent, timestampNs); |
| AStatsEvent_writeInt32(statsEvent, BatterySaverModeStateChanged::ON); |
| AStatsEvent_addBoolAnnotation(statsEvent, util::ANNOTATION_ID_EXCLUSIVE_STATE, true); |
| AStatsEvent_addBoolAnnotation(statsEvent, util::ANNOTATION_ID_STATE_NESTED, false); |
| |
| std::unique_ptr<LogEvent> logEvent = std::make_unique<LogEvent>(/*uid=*/0, /*pid=*/0); |
| parseStatsEventToLogEvent(statsEvent, logEvent.get()); |
| return logEvent; |
| } |
| |
| std::unique_ptr<LogEvent> CreateBatterySaverOffEvent(uint64_t timestampNs) { |
| AStatsEvent* statsEvent = AStatsEvent_obtain(); |
| AStatsEvent_setAtomId(statsEvent, util::BATTERY_SAVER_MODE_STATE_CHANGED); |
| AStatsEvent_overwriteTimestamp(statsEvent, timestampNs); |
| AStatsEvent_writeInt32(statsEvent, BatterySaverModeStateChanged::OFF); |
| AStatsEvent_addBoolAnnotation(statsEvent, util::ANNOTATION_ID_EXCLUSIVE_STATE, true); |
| AStatsEvent_addBoolAnnotation(statsEvent, util::ANNOTATION_ID_STATE_NESTED, false); |
| |
| std::unique_ptr<LogEvent> logEvent = std::make_unique<LogEvent>(/*uid=*/0, /*pid=*/0); |
| parseStatsEventToLogEvent(statsEvent, logEvent.get()); |
| return logEvent; |
| } |
| |
| std::unique_ptr<LogEvent> CreateBatteryStateChangedEvent(const uint64_t timestampNs, const BatteryPluggedStateEnum state) { |
| AStatsEvent* statsEvent = AStatsEvent_obtain(); |
| AStatsEvent_setAtomId(statsEvent, util::PLUGGED_STATE_CHANGED); |
| AStatsEvent_overwriteTimestamp(statsEvent, timestampNs); |
| AStatsEvent_writeInt32(statsEvent, state); |
| |
| std::unique_ptr<LogEvent> logEvent = std::make_unique<LogEvent>(/*uid=*/0, /*pid=*/0); |
| parseStatsEventToLogEvent(statsEvent, logEvent.get()); |
| return logEvent; |
| } |
| |
| std::unique_ptr<LogEvent> CreateScreenBrightnessChangedEvent(uint64_t timestampNs, int level) { |
| AStatsEvent* statsEvent = AStatsEvent_obtain(); |
| AStatsEvent_setAtomId(statsEvent, util::SCREEN_BRIGHTNESS_CHANGED); |
| AStatsEvent_overwriteTimestamp(statsEvent, timestampNs); |
| AStatsEvent_writeInt32(statsEvent, level); |
| |
| std::unique_ptr<LogEvent> logEvent = std::make_unique<LogEvent>(/*uid=*/0, /*pid=*/0); |
| parseStatsEventToLogEvent(statsEvent, logEvent.get()); |
| return logEvent; |
| } |
| |
| std::unique_ptr<LogEvent> CreateScheduledJobStateChangedEvent( |
| const vector<int>& attributionUids, const vector<string>& attributionTags, |
| const string& jobName, const ScheduledJobStateChanged::State state, uint64_t timestampNs) { |
| AStatsEvent* statsEvent = AStatsEvent_obtain(); |
| AStatsEvent_setAtomId(statsEvent, util::SCHEDULED_JOB_STATE_CHANGED); |
| AStatsEvent_overwriteTimestamp(statsEvent, timestampNs); |
| |
| writeAttribution(statsEvent, attributionUids, attributionTags); |
| AStatsEvent_writeString(statsEvent, jobName.c_str()); |
| AStatsEvent_writeInt32(statsEvent, state); |
| |
| std::unique_ptr<LogEvent> logEvent = std::make_unique<LogEvent>(/*uid=*/0, /*pid=*/0); |
| parseStatsEventToLogEvent(statsEvent, logEvent.get()); |
| return logEvent; |
| } |
| |
| std::unique_ptr<LogEvent> CreateStartScheduledJobEvent(uint64_t timestampNs, |
| const vector<int>& attributionUids, |
| const vector<string>& attributionTags, |
| const string& jobName) { |
| return CreateScheduledJobStateChangedEvent(attributionUids, attributionTags, jobName, |
| ScheduledJobStateChanged::STARTED, timestampNs); |
| } |
| |
| // Create log event when scheduled job finishes. |
| std::unique_ptr<LogEvent> CreateFinishScheduledJobEvent(uint64_t timestampNs, |
| const vector<int>& attributionUids, |
| const vector<string>& attributionTags, |
| const string& jobName) { |
| return CreateScheduledJobStateChangedEvent(attributionUids, attributionTags, jobName, |
| ScheduledJobStateChanged::FINISHED, timestampNs); |
| } |
| |
| std::unique_ptr<LogEvent> CreateWakelockStateChangedEvent(uint64_t timestampNs, |
| const vector<int>& attributionUids, |
| const vector<string>& attributionTags, |
| const string& wakelockName, |
| const WakelockStateChanged::State state) { |
| AStatsEvent* statsEvent = AStatsEvent_obtain(); |
| AStatsEvent_setAtomId(statsEvent, util::WAKELOCK_STATE_CHANGED); |
| AStatsEvent_overwriteTimestamp(statsEvent, timestampNs); |
| |
| writeAttribution(statsEvent, attributionUids, attributionTags); |
| AStatsEvent_addBoolAnnotation(statsEvent, util::ANNOTATION_ID_PRIMARY_FIELD_FIRST_UID, true); |
| AStatsEvent_writeInt32(statsEvent, android::os::WakeLockLevelEnum::PARTIAL_WAKE_LOCK); |
| AStatsEvent_addBoolAnnotation(statsEvent, util::ANNOTATION_ID_PRIMARY_FIELD, true); |
| AStatsEvent_writeString(statsEvent, wakelockName.c_str()); |
| AStatsEvent_addBoolAnnotation(statsEvent, util::ANNOTATION_ID_PRIMARY_FIELD, true); |
| AStatsEvent_writeInt32(statsEvent, state); |
| AStatsEvent_addBoolAnnotation(statsEvent, util::ANNOTATION_ID_EXCLUSIVE_STATE, true); |
| AStatsEvent_addBoolAnnotation(statsEvent, util::ANNOTATION_ID_STATE_NESTED, true); |
| |
| std::unique_ptr<LogEvent> logEvent = std::make_unique<LogEvent>(/*uid=*/0, /*pid=*/0); |
| parseStatsEventToLogEvent(statsEvent, logEvent.get()); |
| return logEvent; |
| } |
| |
| std::unique_ptr<LogEvent> CreateAcquireWakelockEvent(uint64_t timestampNs, |
| const vector<int>& attributionUids, |
| const vector<string>& attributionTags, |
| const string& wakelockName) { |
| return CreateWakelockStateChangedEvent(timestampNs, attributionUids, attributionTags, |
| wakelockName, WakelockStateChanged::ACQUIRE); |
| } |
| |
| std::unique_ptr<LogEvent> CreateReleaseWakelockEvent(uint64_t timestampNs, |
| const vector<int>& attributionUids, |
| const vector<string>& attributionTags, |
| const string& wakelockName) { |
| return CreateWakelockStateChangedEvent(timestampNs, attributionUids, attributionTags, |
| wakelockName, WakelockStateChanged::RELEASE); |
| } |
| |
| std::unique_ptr<LogEvent> CreateActivityForegroundStateChangedEvent( |
| uint64_t timestampNs, const int uid, const ActivityForegroundStateChanged::State state) { |
| AStatsEvent* statsEvent = AStatsEvent_obtain(); |
| AStatsEvent_setAtomId(statsEvent, util::ACTIVITY_FOREGROUND_STATE_CHANGED); |
| AStatsEvent_overwriteTimestamp(statsEvent, timestampNs); |
| |
| AStatsEvent_writeInt32(statsEvent, uid); |
| AStatsEvent_writeString(statsEvent, "pkg_name"); |
| AStatsEvent_writeString(statsEvent, "class_name"); |
| AStatsEvent_writeInt32(statsEvent, state); |
| |
| std::unique_ptr<LogEvent> logEvent = std::make_unique<LogEvent>(/*uid=*/0, /*pid=*/0); |
| parseStatsEventToLogEvent(statsEvent, logEvent.get()); |
| return logEvent; |
| } |
| |
| std::unique_ptr<LogEvent> CreateMoveToBackgroundEvent(uint64_t timestampNs, const int uid) { |
| return CreateActivityForegroundStateChangedEvent(timestampNs, uid, |
| ActivityForegroundStateChanged::BACKGROUND); |
| } |
| |
| std::unique_ptr<LogEvent> CreateMoveToForegroundEvent(uint64_t timestampNs, const int uid) { |
| return CreateActivityForegroundStateChangedEvent(timestampNs, uid, |
| ActivityForegroundStateChanged::FOREGROUND); |
| } |
| |
| std::unique_ptr<LogEvent> CreateSyncStateChangedEvent(uint64_t timestampNs, |
| const vector<int>& attributionUids, |
| const vector<string>& attributionTags, |
| const string& name, |
| const SyncStateChanged::State state) { |
| AStatsEvent* statsEvent = AStatsEvent_obtain(); |
| AStatsEvent_setAtomId(statsEvent, util::SYNC_STATE_CHANGED); |
| AStatsEvent_overwriteTimestamp(statsEvent, timestampNs); |
| |
| writeAttribution(statsEvent, attributionUids, attributionTags); |
| AStatsEvent_writeString(statsEvent, name.c_str()); |
| AStatsEvent_writeInt32(statsEvent, state); |
| |
| std::unique_ptr<LogEvent> logEvent = std::make_unique<LogEvent>(/*uid=*/0, /*pid=*/0); |
| parseStatsEventToLogEvent(statsEvent, logEvent.get()); |
| return logEvent; |
| } |
| |
| std::unique_ptr<LogEvent> CreateSyncStartEvent(uint64_t timestampNs, |
| const vector<int>& attributionUids, |
| const vector<string>& attributionTags, |
| const string& name) { |
| return CreateSyncStateChangedEvent(timestampNs, attributionUids, attributionTags, name, |
| SyncStateChanged::ON); |
| } |
| |
| std::unique_ptr<LogEvent> CreateSyncEndEvent(uint64_t timestampNs, |
| const vector<int>& attributionUids, |
| const vector<string>& attributionTags, |
| const string& name) { |
| return CreateSyncStateChangedEvent(timestampNs, attributionUids, attributionTags, name, |
| SyncStateChanged::OFF); |
| } |
| |
| std::unique_ptr<LogEvent> CreateProcessLifeCycleStateChangedEvent( |
| uint64_t timestampNs, const int uid, const ProcessLifeCycleStateChanged::State state) { |
| AStatsEvent* statsEvent = AStatsEvent_obtain(); |
| AStatsEvent_setAtomId(statsEvent, util::PROCESS_LIFE_CYCLE_STATE_CHANGED); |
| AStatsEvent_overwriteTimestamp(statsEvent, timestampNs); |
| |
| AStatsEvent_writeInt32(statsEvent, uid); |
| AStatsEvent_writeString(statsEvent, ""); |
| AStatsEvent_writeInt32(statsEvent, state); |
| |
| std::unique_ptr<LogEvent> logEvent = std::make_unique<LogEvent>(/*uid=*/0, /*pid=*/0); |
| parseStatsEventToLogEvent(statsEvent, logEvent.get()); |
| return logEvent; |
| } |
| |
| std::unique_ptr<LogEvent> CreateAppCrashEvent(uint64_t timestampNs, const int uid) { |
| return CreateProcessLifeCycleStateChangedEvent(timestampNs, uid, |
| ProcessLifeCycleStateChanged::CRASHED); |
| } |
| |
| std::unique_ptr<LogEvent> CreateAppCrashOccurredEvent(uint64_t timestampNs, const int uid) { |
| AStatsEvent* statsEvent = AStatsEvent_obtain(); |
| AStatsEvent_setAtomId(statsEvent, util::APP_CRASH_OCCURRED); |
| AStatsEvent_overwriteTimestamp(statsEvent, timestampNs); |
| |
| AStatsEvent_writeInt32(statsEvent, uid); |
| AStatsEvent_writeString(statsEvent, "eventType"); |
| AStatsEvent_writeString(statsEvent, "processName"); |
| |
| std::unique_ptr<LogEvent> logEvent = std::make_unique<LogEvent>(/*uid=*/0, /*pid=*/0); |
| parseStatsEventToLogEvent(statsEvent, logEvent.get()); |
| return logEvent; |
| } |
| |
| std::unique_ptr<LogEvent> CreateIsolatedUidChangedEvent(uint64_t timestampNs, int hostUid, |
| int isolatedUid, bool is_create) { |
| AStatsEvent* statsEvent = AStatsEvent_obtain(); |
| AStatsEvent_setAtomId(statsEvent, util::ISOLATED_UID_CHANGED); |
| AStatsEvent_overwriteTimestamp(statsEvent, timestampNs); |
| |
| AStatsEvent_writeInt32(statsEvent, hostUid); |
| AStatsEvent_writeInt32(statsEvent, isolatedUid); |
| AStatsEvent_writeInt32(statsEvent, is_create); |
| |
| std::unique_ptr<LogEvent> logEvent = std::make_unique<LogEvent>(/*uid=*/0, /*pid=*/0); |
| parseStatsEventToLogEvent(statsEvent, logEvent.get()); |
| return logEvent; |
| } |
| |
| std::unique_ptr<LogEvent> CreateUidProcessStateChangedEvent( |
| uint64_t timestampNs, int uid, const android::app::ProcessStateEnum state) { |
| AStatsEvent* statsEvent = AStatsEvent_obtain(); |
| AStatsEvent_setAtomId(statsEvent, util::UID_PROCESS_STATE_CHANGED); |
| AStatsEvent_overwriteTimestamp(statsEvent, timestampNs); |
| |
| AStatsEvent_writeInt32(statsEvent, uid); |
| AStatsEvent_addBoolAnnotation(statsEvent, util::ANNOTATION_ID_IS_UID, true); |
| AStatsEvent_addBoolAnnotation(statsEvent, util::ANNOTATION_ID_PRIMARY_FIELD, true); |
| AStatsEvent_writeInt32(statsEvent, state); |
| AStatsEvent_addBoolAnnotation(statsEvent, util::ANNOTATION_ID_EXCLUSIVE_STATE, true); |
| AStatsEvent_addBoolAnnotation(statsEvent, util::ANNOTATION_ID_STATE_NESTED, false); |
| |
| std::unique_ptr<LogEvent> logEvent = std::make_unique<LogEvent>(/*uid=*/0, /*pid=*/0); |
| parseStatsEventToLogEvent(statsEvent, logEvent.get()); |
| return logEvent; |
| } |
| |
| std::unique_ptr<LogEvent> CreateBleScanStateChangedEvent(uint64_t timestampNs, |
| const vector<int>& attributionUids, |
| const vector<string>& attributionTags, |
| const BleScanStateChanged::State state, |
| const bool filtered, const bool firstMatch, |
| const bool opportunistic) { |
| AStatsEvent* statsEvent = AStatsEvent_obtain(); |
| AStatsEvent_setAtomId(statsEvent, util::BLE_SCAN_STATE_CHANGED); |
| AStatsEvent_overwriteTimestamp(statsEvent, timestampNs); |
| |
| writeAttribution(statsEvent, attributionUids, attributionTags); |
| AStatsEvent_addBoolAnnotation(statsEvent, util::ANNOTATION_ID_PRIMARY_FIELD_FIRST_UID, true); |
| AStatsEvent_writeInt32(statsEvent, state); |
| AStatsEvent_addBoolAnnotation(statsEvent, util::ANNOTATION_ID_EXCLUSIVE_STATE, true); |
| AStatsEvent_addBoolAnnotation(statsEvent, util::ANNOTATION_ID_STATE_NESTED, true); |
| if (state == util::BLE_SCAN_STATE_CHANGED__STATE__RESET) { |
| AStatsEvent_addInt32Annotation(statsEvent, ANNOTATION_ID_TRIGGER_STATE_RESET, |
| util::BLE_SCAN_STATE_CHANGED__STATE__OFF); |
| } |
| AStatsEvent_writeBool(statsEvent, filtered); // filtered |
| AStatsEvent_addBoolAnnotation(statsEvent, util::ANNOTATION_ID_PRIMARY_FIELD, true); |
| AStatsEvent_writeBool(statsEvent, firstMatch); // first match |
| AStatsEvent_addBoolAnnotation(statsEvent, util::ANNOTATION_ID_PRIMARY_FIELD, true); |
| AStatsEvent_writeBool(statsEvent, opportunistic); // opportunistic |
| AStatsEvent_addBoolAnnotation(statsEvent, util::ANNOTATION_ID_PRIMARY_FIELD, true); |
| |
| std::unique_ptr<LogEvent> logEvent = std::make_unique<LogEvent>(/*uid=*/0, /*pid=*/0); |
| parseStatsEventToLogEvent(statsEvent, logEvent.get()); |
| return logEvent; |
| } |
| |
| std::unique_ptr<LogEvent> CreateOverlayStateChangedEvent(int64_t timestampNs, const int32_t uid, |
| const string& packageName, |
| const bool usingAlertWindow, |
| const OverlayStateChanged::State state) { |
| AStatsEvent* statsEvent = AStatsEvent_obtain(); |
| AStatsEvent_setAtomId(statsEvent, util::OVERLAY_STATE_CHANGED); |
| AStatsEvent_overwriteTimestamp(statsEvent, timestampNs); |
| |
| AStatsEvent_writeInt32(statsEvent, uid); |
| AStatsEvent_addBoolAnnotation(statsEvent, util::ANNOTATION_ID_IS_UID, true); |
| AStatsEvent_addBoolAnnotation(statsEvent, util::ANNOTATION_ID_PRIMARY_FIELD, true); |
| AStatsEvent_writeString(statsEvent, packageName.c_str()); |
| AStatsEvent_addBoolAnnotation(statsEvent, util::ANNOTATION_ID_PRIMARY_FIELD, true); |
| AStatsEvent_writeBool(statsEvent, usingAlertWindow); |
| AStatsEvent_writeInt32(statsEvent, state); |
| AStatsEvent_addBoolAnnotation(statsEvent, util::ANNOTATION_ID_EXCLUSIVE_STATE, true); |
| AStatsEvent_addBoolAnnotation(statsEvent, util::ANNOTATION_ID_STATE_NESTED, false); |
| |
| std::unique_ptr<LogEvent> logEvent = std::make_unique<LogEvent>(/*uid=*/0, /*pid=*/0); |
| parseStatsEventToLogEvent(statsEvent, logEvent.get()); |
| return logEvent; |
| } |
| |
| sp<StatsLogProcessor> CreateStatsLogProcessor(const int64_t timeBaseNs, const int64_t currentTimeNs, |
| const StatsdConfig& config, const ConfigKey& key, |
| const shared_ptr<IPullAtomCallback>& puller, |
| const int32_t atomTag, const sp<UidMap> uidMap) { |
| sp<StatsPullerManager> pullerManager = new StatsPullerManager(); |
| if (puller != nullptr) { |
| pullerManager->RegisterPullAtomCallback(/*uid=*/0, atomTag, NS_PER_SEC, NS_PER_SEC * 10, {}, |
| puller); |
| } |
| sp<AlarmMonitor> anomalyAlarmMonitor = |
| new AlarmMonitor(1, |
| [](const shared_ptr<IStatsCompanionService>&, int64_t){}, |
| [](const shared_ptr<IStatsCompanionService>&){}); |
| sp<AlarmMonitor> periodicAlarmMonitor = |
| new AlarmMonitor(1, |
| [](const shared_ptr<IStatsCompanionService>&, int64_t){}, |
| [](const shared_ptr<IStatsCompanionService>&){}); |
| sp<StatsLogProcessor> processor = |
| new StatsLogProcessor(uidMap, pullerManager, anomalyAlarmMonitor, periodicAlarmMonitor, |
| timeBaseNs, [](const ConfigKey&) { return true; }, |
| [](const int&, const vector<int64_t>&) {return true;}); |
| processor->OnConfigUpdated(currentTimeNs, key, config); |
| return processor; |
| } |
| |
| void sortLogEventsByTimestamp(std::vector<std::unique_ptr<LogEvent>> *events) { |
| std::sort(events->begin(), events->end(), |
| [](const std::unique_ptr<LogEvent>& a, const std::unique_ptr<LogEvent>& b) { |
| return a->GetElapsedTimestampNs() < b->GetElapsedTimestampNs(); |
| }); |
| } |
| |
| int64_t StringToId(const string& str) { |
| return static_cast<int64_t>(std::hash<std::string>()(str)); |
| } |
| |
| sp<EventMatcherWizard> createEventMatcherWizard( |
| int tagId, int matcherIndex, const vector<FieldValueMatcher>& fieldValueMatchers) { |
| sp<UidMap> uidMap = new UidMap(); |
| SimpleAtomMatcher atomMatcher; |
| atomMatcher.set_atom_id(tagId); |
| for (const FieldValueMatcher& fvm : fieldValueMatchers) { |
| *atomMatcher.add_field_value_matcher() = fvm; |
| } |
| uint64_t matcherHash = 0x12345678; |
| int64_t matcherId = 678; |
| return new EventMatcherWizard({new SimpleAtomMatchingTracker( |
| matcherId, matcherIndex, matcherHash, atomMatcher, uidMap)}); |
| } |
| |
| void ValidateWakelockAttributionUidAndTagDimension(const DimensionsValue& value, const int atomId, |
| const int uid, const string& tag) { |
| EXPECT_EQ(value.field(), atomId); |
| ASSERT_EQ(value.value_tuple().dimensions_value_size(), 2); |
| // Attribution field. |
| EXPECT_EQ(value.value_tuple().dimensions_value(0).field(), 1); |
| // Uid field. |
| ASSERT_EQ(value.value_tuple().dimensions_value(0).value_tuple().dimensions_value_size(), 1); |
| EXPECT_EQ(value.value_tuple().dimensions_value(0).value_tuple().dimensions_value(0).field(), 1); |
| EXPECT_EQ(value.value_tuple().dimensions_value(0).value_tuple().dimensions_value(0).value_int(), |
| uid); |
| // Tag field. |
| EXPECT_EQ(value.value_tuple().dimensions_value(1).field(), 3); |
| EXPECT_EQ(value.value_tuple().dimensions_value(1).value_str(), tag); |
| } |
| |
| void ValidateAttributionUidDimension(const DimensionsValue& value, int atomId, int uid) { |
| EXPECT_EQ(value.field(), atomId); |
| ASSERT_EQ(value.value_tuple().dimensions_value_size(), 1); |
| // Attribution field. |
| EXPECT_EQ(value.value_tuple().dimensions_value(0).field(), 1); |
| // Uid only. |
| EXPECT_EQ(value.value_tuple().dimensions_value(0) |
| .value_tuple().dimensions_value_size(), 1); |
| EXPECT_EQ(value.value_tuple().dimensions_value(0) |
| .value_tuple().dimensions_value(0).field(), 1); |
| EXPECT_EQ(value.value_tuple().dimensions_value(0) |
| .value_tuple().dimensions_value(0).value_int(), uid); |
| } |
| |
| void ValidateUidDimension(const DimensionsValue& value, int node_idx, int atomId, int uid) { |
| EXPECT_EQ(value.field(), atomId); |
| ASSERT_GT(value.value_tuple().dimensions_value_size(), node_idx); |
| // Attribution field. |
| EXPECT_EQ(value.value_tuple().dimensions_value(node_idx).field(), 1); |
| EXPECT_EQ(value.value_tuple().dimensions_value(node_idx) |
| .value_tuple().dimensions_value(0).field(), 1); |
| EXPECT_EQ(value.value_tuple().dimensions_value(node_idx) |
| .value_tuple().dimensions_value(0).value_int(), uid); |
| } |
| |
| void ValidateAttributionUidAndTagDimension( |
| const DimensionsValue& value, int node_idx, int atomId, int uid, const std::string& tag) { |
| EXPECT_EQ(value.field(), atomId); |
| ASSERT_GT(value.value_tuple().dimensions_value_size(), node_idx); |
| // Attribution field. |
| EXPECT_EQ(1, value.value_tuple().dimensions_value(node_idx).field()); |
| // Uid only. |
| EXPECT_EQ(2, value.value_tuple().dimensions_value(node_idx) |
| .value_tuple().dimensions_value_size()); |
| EXPECT_EQ(1, value.value_tuple().dimensions_value(node_idx) |
| .value_tuple().dimensions_value(0).field()); |
| EXPECT_EQ(uid, value.value_tuple().dimensions_value(node_idx) |
| .value_tuple().dimensions_value(0).value_int()); |
| EXPECT_EQ(2, value.value_tuple().dimensions_value(node_idx) |
| .value_tuple().dimensions_value(1).field()); |
| EXPECT_EQ(tag, value.value_tuple().dimensions_value(node_idx) |
| .value_tuple().dimensions_value(1).value_str()); |
| } |
| |
| void ValidateAttributionUidAndTagDimension( |
| const DimensionsValue& value, int atomId, int uid, const std::string& tag) { |
| EXPECT_EQ(value.field(), atomId); |
| ASSERT_EQ(1, value.value_tuple().dimensions_value_size()); |
| // Attribution field. |
| EXPECT_EQ(1, value.value_tuple().dimensions_value(0).field()); |
| // Uid only. |
| EXPECT_EQ(value.value_tuple().dimensions_value(0) |
| .value_tuple().dimensions_value_size(), 2); |
| EXPECT_EQ(value.value_tuple().dimensions_value(0) |
| .value_tuple().dimensions_value(0).field(), 1); |
| EXPECT_EQ(value.value_tuple().dimensions_value(0) |
| .value_tuple().dimensions_value(0).value_int(), uid); |
| EXPECT_EQ(value.value_tuple().dimensions_value(0) |
| .value_tuple().dimensions_value(1).field(), 2); |
| EXPECT_EQ(value.value_tuple().dimensions_value(0) |
| .value_tuple().dimensions_value(1).value_str(), tag); |
| } |
| |
| void ValidateStateValue(const google::protobuf::RepeatedPtrField<StateValue>& stateValues, |
| int atomId, int64_t value) { |
| ASSERT_EQ(stateValues.size(), 1); |
| ASSERT_EQ(stateValues[0].atom_id(), atomId); |
| switch (stateValues[0].contents_case()) { |
| case StateValue::ContentsCase::kValue: |
| EXPECT_EQ(stateValues[0].value(), (int32_t)value); |
| break; |
| case StateValue::ContentsCase::kGroupId: |
| EXPECT_EQ(stateValues[0].group_id(), value); |
| break; |
| default: |
| FAIL() << "State value should have either a value or a group id"; |
| } |
| } |
| |
| void ValidateCountBucket(const CountBucketInfo& countBucket, int64_t startTimeNs, int64_t endTimeNs, |
| int64_t count) { |
| EXPECT_EQ(countBucket.start_bucket_elapsed_nanos(), startTimeNs); |
| EXPECT_EQ(countBucket.end_bucket_elapsed_nanos(), endTimeNs); |
| EXPECT_EQ(countBucket.count(), count); |
| } |
| |
| bool EqualsTo(const DimensionsValue& s1, const DimensionsValue& s2) { |
| if (s1.field() != s2.field()) { |
| return false; |
| } |
| if (s1.value_case() != s2.value_case()) { |
| return false; |
| } |
| switch (s1.value_case()) { |
| case DimensionsValue::ValueCase::kValueStr: |
| return (s1.value_str() == s2.value_str()); |
| case DimensionsValue::ValueCase::kValueInt: |
| return s1.value_int() == s2.value_int(); |
| case DimensionsValue::ValueCase::kValueLong: |
| return s1.value_long() == s2.value_long(); |
| case DimensionsValue::ValueCase::kValueBool: |
| return s1.value_bool() == s2.value_bool(); |
| case DimensionsValue::ValueCase::kValueFloat: |
| return s1.value_float() == s2.value_float(); |
| case DimensionsValue::ValueCase::kValueTuple: { |
| if (s1.value_tuple().dimensions_value_size() != |
| s2.value_tuple().dimensions_value_size()) { |
| return false; |
| } |
| bool allMatched = true; |
| for (int i = 0; allMatched && i < s1.value_tuple().dimensions_value_size(); ++i) { |
| allMatched &= EqualsTo(s1.value_tuple().dimensions_value(i), |
| s2.value_tuple().dimensions_value(i)); |
| } |
| return allMatched; |
| } |
| case DimensionsValue::ValueCase::VALUE_NOT_SET: |
| default: |
| return true; |
| } |
| } |
| |
| bool LessThan(const google::protobuf::RepeatedPtrField<StateValue>& s1, |
| const google::protobuf::RepeatedPtrField<StateValue>& s2) { |
| if (s1.size() != s2.size()) { |
| return s1.size() < s2.size(); |
| } |
| for (int i = 0; i < s1.size(); i++) { |
| const StateValue& state1 = s1[i]; |
| const StateValue& state2 = s2[i]; |
| if (state1.atom_id() != state2.atom_id()) { |
| return state1.atom_id() < state2.atom_id(); |
| } |
| if (state1.value() != state2.value()) { |
| return state1.value() < state2.value(); |
| } |
| if (state1.group_id() != state2.group_id()) { |
| return state1.group_id() < state2.group_id(); |
| } |
| } |
| return false; |
| } |
| |
| bool LessThan(const DimensionsValue& s1, const DimensionsValue& s2) { |
| if (s1.field() != s2.field()) { |
| return s1.field() < s2.field(); |
| } |
| if (s1.value_case() != s2.value_case()) { |
| return s1.value_case() < s2.value_case(); |
| } |
| switch (s1.value_case()) { |
| case DimensionsValue::ValueCase::kValueStr: |
| return s1.value_str() < s2.value_str(); |
| case DimensionsValue::ValueCase::kValueInt: |
| return s1.value_int() < s2.value_int(); |
| case DimensionsValue::ValueCase::kValueLong: |
| return s1.value_long() < s2.value_long(); |
| case DimensionsValue::ValueCase::kValueBool: |
| return (int)s1.value_bool() < (int)s2.value_bool(); |
| case DimensionsValue::ValueCase::kValueFloat: |
| return s1.value_float() < s2.value_float(); |
| case DimensionsValue::ValueCase::kValueTuple: { |
| if (s1.value_tuple().dimensions_value_size() != |
| s2.value_tuple().dimensions_value_size()) { |
| return s1.value_tuple().dimensions_value_size() < |
| s2.value_tuple().dimensions_value_size(); |
| } |
| for (int i = 0; i < s1.value_tuple().dimensions_value_size(); ++i) { |
| if (EqualsTo(s1.value_tuple().dimensions_value(i), |
| s2.value_tuple().dimensions_value(i))) { |
| continue; |
| } else { |
| return LessThan(s1.value_tuple().dimensions_value(i), |
| s2.value_tuple().dimensions_value(i)); |
| } |
| } |
| return false; |
| } |
| case DimensionsValue::ValueCase::VALUE_NOT_SET: |
| default: |
| return false; |
| } |
| } |
| |
| bool LessThan(const DimensionsPair& s1, const DimensionsPair& s2) { |
| if (LessThan(s1.dimInWhat, s2.dimInWhat)) { |
| return true; |
| } else if (LessThan(s2.dimInWhat, s1.dimInWhat)) { |
| return false; |
| } |
| |
| return LessThan(s1.stateValues, s2.stateValues); |
| } |
| |
| void backfillStringInDimension(const std::map<uint64_t, string>& str_map, |
| DimensionsValue* dimension) { |
| if (dimension->has_value_str_hash()) { |
| auto it = str_map.find((uint64_t)(dimension->value_str_hash())); |
| if (it != str_map.end()) { |
| dimension->clear_value_str_hash(); |
| dimension->set_value_str(it->second); |
| } else { |
| ALOGE("Can not find the string hash: %llu", |
| (unsigned long long)dimension->value_str_hash()); |
| } |
| } else if (dimension->has_value_tuple()) { |
| auto value_tuple = dimension->mutable_value_tuple(); |
| for (int i = 0; i < value_tuple->dimensions_value_size(); ++i) { |
| backfillStringInDimension(str_map, value_tuple->mutable_dimensions_value(i)); |
| } |
| } |
| } |
| |
| void backfillStringInReport(ConfigMetricsReport *config_report) { |
| std::map<uint64_t, string> str_map; |
| for (const auto& str : config_report->strings()) { |
| uint64_t hash = Hash64(str); |
| if (str_map.find(hash) != str_map.end()) { |
| ALOGE("String hash conflicts: %s %s", str.c_str(), str_map[hash].c_str()); |
| } |
| str_map[hash] = str; |
| } |
| for (int i = 0; i < config_report->metrics_size(); ++i) { |
| auto metric_report = config_report->mutable_metrics(i); |
| if (metric_report->has_count_metrics()) { |
| backfillStringInDimension(str_map, metric_report->mutable_count_metrics()); |
| } else if (metric_report->has_duration_metrics()) { |
| backfillStringInDimension(str_map, metric_report->mutable_duration_metrics()); |
| } else if (metric_report->has_gauge_metrics()) { |
| backfillStringInDimension(str_map, metric_report->mutable_gauge_metrics()); |
| } else if (metric_report->has_value_metrics()) { |
| backfillStringInDimension(str_map, metric_report->mutable_value_metrics()); |
| } |
| } |
| // Backfill the package names. |
| for (int i = 0 ; i < config_report->uid_map().snapshots_size(); ++i) { |
| auto snapshot = config_report->mutable_uid_map()->mutable_snapshots(i); |
| for (int j = 0 ; j < snapshot->package_info_size(); ++j) { |
| auto package_info = snapshot->mutable_package_info(j); |
| if (package_info->has_name_hash()) { |
| auto it = str_map.find((uint64_t)(package_info->name_hash())); |
| if (it != str_map.end()) { |
| package_info->clear_name_hash(); |
| package_info->set_name(it->second); |
| } else { |
| ALOGE("Can not find the string package name hash: %llu", |
| (unsigned long long)package_info->name_hash()); |
| } |
| |
| } |
| } |
| } |
| // Backfill the app name in app changes. |
| for (int i = 0 ; i < config_report->uid_map().changes_size(); ++i) { |
| auto change = config_report->mutable_uid_map()->mutable_changes(i); |
| if (change->has_app_hash()) { |
| auto it = str_map.find((uint64_t)(change->app_hash())); |
| if (it != str_map.end()) { |
| change->clear_app_hash(); |
| change->set_app(it->second); |
| } else { |
| ALOGE("Can not find the string change app name hash: %llu", |
| (unsigned long long)change->app_hash()); |
| } |
| } |
| } |
| } |
| |
| void backfillStringInReport(ConfigMetricsReportList *config_report_list) { |
| for (int i = 0; i < config_report_list->reports_size(); ++i) { |
| backfillStringInReport(config_report_list->mutable_reports(i)); |
| } |
| } |
| |
| bool backfillDimensionPath(const DimensionsValue& path, |
| const google::protobuf::RepeatedPtrField<DimensionsValue>& leafValues, |
| int* leafIndex, |
| DimensionsValue* dimension) { |
| dimension->set_field(path.field()); |
| if (path.has_value_tuple()) { |
| for (int i = 0; i < path.value_tuple().dimensions_value_size(); ++i) { |
| if (!backfillDimensionPath( |
| path.value_tuple().dimensions_value(i), leafValues, leafIndex, |
| dimension->mutable_value_tuple()->add_dimensions_value())) { |
| return false; |
| } |
| } |
| } else { |
| if (*leafIndex < 0 || *leafIndex >= leafValues.size()) { |
| return false; |
| } |
| dimension->MergeFrom(leafValues.Get(*leafIndex)); |
| (*leafIndex)++; |
| } |
| return true; |
| } |
| |
| bool backfillDimensionPath(const DimensionsValue& path, |
| const google::protobuf::RepeatedPtrField<DimensionsValue>& leafValues, |
| DimensionsValue* dimension) { |
| int leafIndex = 0; |
| return backfillDimensionPath(path, leafValues, &leafIndex, dimension); |
| } |
| |
| void backfillDimensionPath(ConfigMetricsReportList *config_report_list) { |
| for (int i = 0; i < config_report_list->reports_size(); ++i) { |
| auto report = config_report_list->mutable_reports(i); |
| for (int j = 0; j < report->metrics_size(); ++j) { |
| auto metric_report = report->mutable_metrics(j); |
| if (metric_report->has_dimensions_path_in_what() || |
| metric_report->has_dimensions_path_in_condition()) { |
| auto whatPath = metric_report->dimensions_path_in_what(); |
| auto conditionPath = metric_report->dimensions_path_in_condition(); |
| if (metric_report->has_count_metrics()) { |
| backfillDimensionPath(whatPath, conditionPath, |
| metric_report->mutable_count_metrics()); |
| } else if (metric_report->has_duration_metrics()) { |
| backfillDimensionPath(whatPath, conditionPath, |
| metric_report->mutable_duration_metrics()); |
| } else if (metric_report->has_gauge_metrics()) { |
| backfillDimensionPath(whatPath, conditionPath, |
| metric_report->mutable_gauge_metrics()); |
| } else if (metric_report->has_value_metrics()) { |
| backfillDimensionPath(whatPath, conditionPath, |
| metric_report->mutable_value_metrics()); |
| } |
| metric_report->clear_dimensions_path_in_what(); |
| metric_report->clear_dimensions_path_in_condition(); |
| } |
| } |
| } |
| } |
| |
| void backfillStartEndTimestamp(StatsLogReport *report) { |
| const int64_t timeBaseNs = report->time_base_elapsed_nano_seconds(); |
| const int64_t bucketSizeNs = report->bucket_size_nano_seconds(); |
| if (report->has_count_metrics()) { |
| backfillStartEndTimestampForMetrics( |
| timeBaseNs, bucketSizeNs, report->mutable_count_metrics()); |
| } else if (report->has_duration_metrics()) { |
| backfillStartEndTimestampForMetrics( |
| timeBaseNs, bucketSizeNs, report->mutable_duration_metrics()); |
| } else if (report->has_gauge_metrics()) { |
| backfillStartEndTimestampForMetrics( |
| timeBaseNs, bucketSizeNs, report->mutable_gauge_metrics()); |
| if (report->gauge_metrics().skipped_size() > 0) { |
| backfillStartEndTimestampForSkippedBuckets( |
| timeBaseNs, report->mutable_gauge_metrics()); |
| } |
| } else if (report->has_value_metrics()) { |
| backfillStartEndTimestampForMetrics( |
| timeBaseNs, bucketSizeNs, report->mutable_value_metrics()); |
| if (report->value_metrics().skipped_size() > 0) { |
| backfillStartEndTimestampForSkippedBuckets( |
| timeBaseNs, report->mutable_value_metrics()); |
| } |
| } |
| } |
| |
| void backfillStartEndTimestamp(ConfigMetricsReport *config_report) { |
| for (int j = 0; j < config_report->metrics_size(); ++j) { |
| backfillStartEndTimestamp(config_report->mutable_metrics(j)); |
| } |
| } |
| |
| void backfillStartEndTimestamp(ConfigMetricsReportList *config_report_list) { |
| for (int i = 0; i < config_report_list->reports_size(); ++i) { |
| backfillStartEndTimestamp(config_report_list->mutable_reports(i)); |
| } |
| } |
| |
| Status FakeSubsystemSleepCallback::onPullAtom(int atomTag, |
| const shared_ptr<IPullAtomResultReceiver>& resultReceiver) { |
| // Convert stats_events into StatsEventParcels. |
| std::vector<StatsEventParcel> parcels; |
| for (int i = 1; i < 3; i++) { |
| AStatsEvent* event = AStatsEvent_obtain(); |
| AStatsEvent_setAtomId(event, atomTag); |
| std::string subsystemName = "subsystem_name_"; |
| subsystemName = subsystemName + std::to_string(i); |
| AStatsEvent_writeString(event, subsystemName.c_str()); |
| AStatsEvent_writeString(event, "subsystem_subname foo"); |
| AStatsEvent_writeInt64(event, /*count= */ i); |
| AStatsEvent_writeInt64(event, /*time_millis= */ i * 100); |
| AStatsEvent_build(event); |
| size_t size; |
| uint8_t* buffer = AStatsEvent_getBuffer(event, &size); |
| |
| StatsEventParcel p; |
| // vector.assign() creates a copy, but this is inevitable unless |
| // stats_event.h/c uses a vector as opposed to a buffer. |
| p.buffer.assign(buffer, buffer + size); |
| parcels.push_back(std::move(p)); |
| AStatsEvent_release(event); |
| } |
| resultReceiver->pullFinished(atomTag, /*success=*/true, parcels); |
| return Status::ok(); |
| } |
| |
| } // namespace statsd |
| } // namespace os |
| } // namespace android |
