// 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" namespace android { namespace os { namespace statsd { 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 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(android::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(android::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(android::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(android::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 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(android::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(android::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::Activity activity) { 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(android::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(activity); return atom_matcher; } AtomMatcher CreateMoveToBackgroundAtomMatcher() { return CreateActivityForegroundStateChangedAtomMatcher( "MoveToBackground", ActivityForegroundStateChanged::MOVE_TO_BACKGROUND); } AtomMatcher CreateMoveToForegroundAtomMatcher() { return CreateActivityForegroundStateChangedAtomMatcher( "MoveToForeground", ActivityForegroundStateChanged::MOVE_TO_FOREGROUND); } AtomMatcher CreateProcessLifeCycleStateChangedAtomMatcher( const string& name, ProcessLifeCycleStateChanged::Event event) { 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(android::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(event); return atom_matcher; } AtomMatcher CreateProcessCrashAtomMatcher() { return CreateProcessLifeCycleStateChangedAtomMatcher( "ProcessCrashed", ProcessLifeCycleStateChanged::PROCESS_CRASHED); } 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 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("MoveToBackground")); predicate.mutable_simple_predicate()->set_stop(StringToId("MoveToForeground")); return predicate; } void addPredicateToPredicateCombination(const Predicate& predicate, Predicate* combinationPredicate) { combinationPredicate->mutable_combination()->add_predicate(predicate.id()); } FieldMatcher CreateAttributionUidDimensions(const int atomId, const std::vector& 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& 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& fields) { FieldMatcher dimensions; dimensions.set_field(atomId); for (const int field : fields) { dimensions.add_child()->set_field(field); } return dimensions; } std::unique_ptr CreateScreenStateChangedEvent( const android::view::DisplayStateEnum state, uint64_t timestampNs) { auto event = std::make_unique(android::util::SCREEN_STATE_CHANGED, timestampNs); EXPECT_TRUE(event->write(state)); event->init(); return event; } std::unique_ptr CreateBatterySaverOnEvent(uint64_t timestampNs) { auto event = std::make_unique( android::util::BATTERY_SAVER_MODE_STATE_CHANGED, timestampNs); EXPECT_TRUE(event->write(BatterySaverModeStateChanged::ON)); event->init(); return event; } std::unique_ptr CreateBatterySaverOffEvent(uint64_t timestampNs) { auto event = std::make_unique( android::util::BATTERY_SAVER_MODE_STATE_CHANGED, timestampNs); EXPECT_TRUE(event->write(BatterySaverModeStateChanged::OFF)); event->init(); return event; } std::unique_ptr CreateScreenBrightnessChangedEvent( int level, uint64_t timestampNs) { auto event = std::make_unique(android::util::SCREEN_BRIGHTNESS_CHANGED, timestampNs); EXPECT_TRUE(event->write(level)); event->init(); return event; } std::unique_ptr CreateWakelockStateChangedEvent( const std::vector& attributions, const string& wakelockName, const WakelockStateChanged::State state, uint64_t timestampNs) { auto event = std::make_unique(android::util::WAKELOCK_STATE_CHANGED, timestampNs); event->write(attributions); event->write(android::os::WakeLockLevelEnum::PARTIAL_WAKE_LOCK); event->write(wakelockName); event->write(state); event->init(); return event; } std::unique_ptr CreateAcquireWakelockEvent( const std::vector& attributions, const string& wakelockName, uint64_t timestampNs) { return CreateWakelockStateChangedEvent( attributions, wakelockName, WakelockStateChanged::ACQUIRE, timestampNs); } std::unique_ptr CreateReleaseWakelockEvent( const std::vector& attributions, const string& wakelockName, uint64_t timestampNs) { return CreateWakelockStateChangedEvent( attributions, wakelockName, WakelockStateChanged::RELEASE, timestampNs); } std::unique_ptr CreateActivityForegroundStateChangedEvent( const int uid, const ActivityForegroundStateChanged::Activity activity, uint64_t timestampNs) { auto event = std::make_unique( android::util::ACTIVITY_FOREGROUND_STATE_CHANGED, timestampNs); event->write(uid); event->write("pkg_name"); event->write("class_name"); event->write(activity); event->init(); return event; } std::unique_ptr CreateMoveToBackgroundEvent(const int uid, uint64_t timestampNs) { return CreateActivityForegroundStateChangedEvent( uid, ActivityForegroundStateChanged::MOVE_TO_BACKGROUND, timestampNs); } std::unique_ptr CreateMoveToForegroundEvent(const int uid, uint64_t timestampNs) { return CreateActivityForegroundStateChangedEvent( uid, ActivityForegroundStateChanged::MOVE_TO_FOREGROUND, timestampNs); } std::unique_ptr CreateSyncStateChangedEvent( const std::vector& attributions, const string& name, const SyncStateChanged::State state, uint64_t timestampNs) { auto event = std::make_unique(android::util::SYNC_STATE_CHANGED, timestampNs); event->write(attributions); event->write(name); event->write(state); event->init(); return event; } std::unique_ptr CreateSyncStartEvent( const std::vector& attributions, const string& name, uint64_t timestampNs){ return CreateSyncStateChangedEvent(attributions, name, SyncStateChanged::ON, timestampNs); } std::unique_ptr CreateSyncEndEvent( const std::vector& attributions, const string& name, uint64_t timestampNs) { return CreateSyncStateChangedEvent(attributions, name, SyncStateChanged::OFF, timestampNs); } std::unique_ptr CreateProcessLifeCycleStateChangedEvent( const int uid, const ProcessLifeCycleStateChanged::Event event, uint64_t timestampNs) { auto logEvent = std::make_unique( android::util::PROCESS_LIFE_CYCLE_STATE_CHANGED, timestampNs); logEvent->write(uid); logEvent->write(""); logEvent->write(event); logEvent->init(); return logEvent; } std::unique_ptr CreateAppCrashEvent(const int uid, uint64_t timestampNs) { return CreateProcessLifeCycleStateChangedEvent( uid, ProcessLifeCycleStateChanged::PROCESS_CRASHED, timestampNs); } std::unique_ptr CreateIsolatedUidChangedEvent( int isolatedUid, int hostUid, bool is_create, uint64_t timestampNs) { auto logEvent = std::make_unique( android::util::ISOLATED_UID_CHANGED, timestampNs); logEvent->write(hostUid); logEvent->write(isolatedUid); logEvent->write(is_create); logEvent->init(); return logEvent; } sp CreateStatsLogProcessor(const long timeBaseSec, const StatsdConfig& config, const ConfigKey& key) { sp uidMap = new UidMap(); sp anomalyMonitor = new AnomalyMonitor(10); // 10 seconds sp processor = new StatsLogProcessor( uidMap, anomalyMonitor, timeBaseSec, [](const ConfigKey&){}); processor->OnConfigUpdated(key, config); return processor; } AttributionNode CreateAttribution(const int& uid, const string& tag) { AttributionNode attribution; attribution.set_uid(uid); attribution.set_tag(tag); return attribution; } void sortLogEventsByTimestamp(std::vector> *events) { std::sort(events->begin(), events->end(), [](const std::unique_ptr& a, const std::unique_ptr& b) { return a->GetTimestampNs() < b->GetTimestampNs(); }); } int64_t StringToId(const string& str) { return static_cast(std::hash()(str)); } void ValidateAttributionUidDimension(const DimensionsValue& value, int atomId, int uid) { EXPECT_EQ(value.field(), atomId); EXPECT_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 atomId, int uid) { EXPECT_EQ(value.field(), atomId); EXPECT_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 ValidateAttributionUidAndTagDimension( const DimensionsValue& value, int atomId, int uid, const std::string& tag) { EXPECT_EQ(value.field(), atomId); EXPECT_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(), 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); } 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 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.dimInCondition, s2.dimInCondition); } } // namespace statsd } // namespace os } // namespace android