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v811_spc009/packages/modules/StatsD/statsd/tests/state/StateTracker_test.cpp

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/*
* Copyright (C) 2019, The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "state/StateTracker.h"
#include <gtest/gtest.h>
#include <private/android_filesystem_config.h>
#include "state/StateListener.h"
#include "state/StateManager.h"
#include "state/StateTracker.h"
#include "stats_event.h"
#include "tests/statsd_test_util.h"
#ifdef __ANDROID__
namespace android {
namespace os {
namespace statsd {
const int32_t timestampNs = 1000;
/**
* Mock StateListener class for testing.
* Stores primary key and state pairs.
*/
class TestStateListener : public virtual StateListener {
public:
TestStateListener(){};
virtual ~TestStateListener(){};
struct Update {
Update(const HashableDimensionKey& key, int state) : mKey(key), mState(state){};
HashableDimensionKey mKey;
int mState;
};
std::vector<Update> updates;
void onStateChanged(const int64_t eventTimeNs, const int32_t atomId,
const HashableDimensionKey& primaryKey, const FieldValue& oldState,
const FieldValue& newState) {
updates.emplace_back(primaryKey, newState.mValue.int_value);
}
};
int getStateInt(StateManager& mgr, int atomId, const HashableDimensionKey& queryKey) {
FieldValue output;
mgr.getStateValue(atomId, queryKey, &output);
return output.mValue.int_value;
}
// START: build event functions.
// Incorrect event - missing fields
std::unique_ptr<LogEvent> buildIncorrectOverlayEvent(int uid, const std::string& packageName,
int state) {
AStatsEvent* statsEvent = AStatsEvent_obtain();
AStatsEvent_setAtomId(statsEvent, util::OVERLAY_STATE_CHANGED);
AStatsEvent_overwriteTimestamp(statsEvent, 1000);
AStatsEvent_writeInt32(statsEvent, uid);
AStatsEvent_writeString(statsEvent, packageName.c_str());
// Missing field 3 - using_alert_window.
AStatsEvent_writeInt32(statsEvent, state);
std::unique_ptr<LogEvent> logEvent = std::make_unique<LogEvent>(/*uid=*/0, /*pid=*/0);
parseStatsEventToLogEvent(statsEvent, logEvent.get());
return logEvent;
}
// Incorrect event - exclusive state has wrong type
std::unique_ptr<LogEvent> buildOverlayEventBadStateType(int uid, const std::string& packageName) {
AStatsEvent* statsEvent = AStatsEvent_obtain();
AStatsEvent_setAtomId(statsEvent, util::OVERLAY_STATE_CHANGED);
AStatsEvent_overwriteTimestamp(statsEvent, 1000);
AStatsEvent_writeInt32(statsEvent, uid);
AStatsEvent_writeString(statsEvent, packageName.c_str());
AStatsEvent_writeInt32(statsEvent, true); // using_alert_window
AStatsEvent_writeString(statsEvent, "string"); // exclusive state: string instead of int
std::unique_ptr<LogEvent> logEvent = std::make_unique<LogEvent>(/*uid=*/0, /*pid=*/0);
parseStatsEventToLogEvent(statsEvent, logEvent.get());
return logEvent;
}
// END: build event functions.
TEST(StateListenerTest, TestStateListenerWeakPointer) {
sp<TestStateListener> listener = new TestStateListener();
wp<TestStateListener> wListener = listener;
listener = nullptr; // let go of listener
EXPECT_TRUE(wListener.promote() == nullptr);
}
TEST(StateManagerTest, TestStateManagerGetInstance) {
sp<TestStateListener> listener1 = new TestStateListener();
StateManager& mgr = StateManager::getInstance();
mgr.clear();
mgr.registerListener(util::SCREEN_STATE_CHANGED, listener1);
EXPECT_EQ(1, mgr.getStateTrackersCount());
EXPECT_EQ(1, StateManager::getInstance().getStateTrackersCount());
}
TEST(StateManagerTest, TestOnLogEvent) {
sp<MockUidMap> uidMap = makeMockUidMapForPackage("com.android.systemui", {10111});
sp<TestStateListener> listener1 = new TestStateListener();
StateManager mgr;
mgr.updateLogSources(uidMap);
// Add StateTracker by registering a listener.
mgr.registerListener(util::SCREEN_STATE_CHANGED, listener1);
// log event using AID_ROOT
std::unique_ptr<LogEvent> event = CreateScreenStateChangedEvent(
timestampNs, android::view::DisplayStateEnum::DISPLAY_STATE_ON);
mgr.onLogEvent(*event);
// check StateTracker was updated by querying for state
HashableDimensionKey queryKey = DEFAULT_DIMENSION_KEY;
EXPECT_EQ(android::view::DisplayStateEnum::DISPLAY_STATE_ON,
getStateInt(mgr, util::SCREEN_STATE_CHANGED, queryKey));
// log event using mocked uid
event = CreateScreenStateChangedEvent(
timestampNs, android::view::DisplayStateEnum::DISPLAY_STATE_OFF, 10111);
mgr.onLogEvent(*event);
// check StateTracker was updated by querying for state
queryKey = DEFAULT_DIMENSION_KEY;
EXPECT_EQ(android::view::DisplayStateEnum::DISPLAY_STATE_OFF,
getStateInt(mgr, util::SCREEN_STATE_CHANGED, queryKey));
// log event using non-whitelisted uid
event = CreateScreenStateChangedEvent(timestampNs,
android::view::DisplayStateEnum::DISPLAY_STATE_ON, 10112);
mgr.onLogEvent(*event);
// check StateTracker was NOT updated by querying for state
queryKey = DEFAULT_DIMENSION_KEY;
EXPECT_EQ(android::view::DisplayStateEnum::DISPLAY_STATE_OFF,
getStateInt(mgr, util::SCREEN_STATE_CHANGED, queryKey));
// log event using AID_SYSTEM
event = CreateScreenStateChangedEvent(
timestampNs, android::view::DisplayStateEnum::DISPLAY_STATE_ON, AID_SYSTEM);
mgr.onLogEvent(*event);
// check StateTracker was updated by querying for state
queryKey = DEFAULT_DIMENSION_KEY;
EXPECT_EQ(android::view::DisplayStateEnum::DISPLAY_STATE_ON,
getStateInt(mgr, util::SCREEN_STATE_CHANGED, queryKey));
}
/**
* Test registering listeners to StateTrackers
*
* - StateManager will create a new StateTracker if it doesn't already exist
* and then register the listener to the StateTracker.
* - If a listener is already registered to a StateTracker, it is not added again.
* - StateTrackers are only created for atoms that are state atoms.
*/
TEST(StateTrackerTest, TestRegisterListener) {
sp<TestStateListener> listener1 = new TestStateListener();
sp<TestStateListener> listener2 = new TestStateListener();
StateManager mgr;
// Register listener to non-existing StateTracker
EXPECT_EQ(0, mgr.getStateTrackersCount());
mgr.registerListener(util::SCREEN_STATE_CHANGED, listener1);
EXPECT_EQ(1, mgr.getStateTrackersCount());
EXPECT_EQ(1, mgr.getListenersCount(util::SCREEN_STATE_CHANGED));
// Register listener to existing StateTracker
mgr.registerListener(util::SCREEN_STATE_CHANGED, listener2);
EXPECT_EQ(1, mgr.getStateTrackersCount());
EXPECT_EQ(2, mgr.getListenersCount(util::SCREEN_STATE_CHANGED));
// Register already registered listener to existing StateTracker
mgr.registerListener(util::SCREEN_STATE_CHANGED, listener2);
EXPECT_EQ(1, mgr.getStateTrackersCount());
EXPECT_EQ(2, mgr.getListenersCount(util::SCREEN_STATE_CHANGED));
// Register listener to non-state atom
mgr.registerListener(util::BATTERY_LEVEL_CHANGED, listener2);
EXPECT_EQ(2, mgr.getStateTrackersCount());
}
/**
* Test unregistering listeners from StateTrackers
*
* - StateManager will unregister listeners from a StateTracker only if the
* StateTracker exists and the listener is registered to the StateTracker.
* - Once all listeners are removed from a StateTracker, the StateTracker
* is also removed.
*/
TEST(StateTrackerTest, TestUnregisterListener) {
sp<TestStateListener> listener1 = new TestStateListener();
sp<TestStateListener> listener2 = new TestStateListener();
StateManager mgr;
// Unregister listener from non-existing StateTracker
EXPECT_EQ(0, mgr.getStateTrackersCount());
mgr.unregisterListener(util::SCREEN_STATE_CHANGED, listener1);
EXPECT_EQ(0, mgr.getStateTrackersCount());
EXPECT_EQ(-1, mgr.getListenersCount(util::SCREEN_STATE_CHANGED));
// Unregister non-registered listener from existing StateTracker
mgr.registerListener(util::SCREEN_STATE_CHANGED, listener1);
EXPECT_EQ(1, mgr.getStateTrackersCount());
EXPECT_EQ(1, mgr.getListenersCount(util::SCREEN_STATE_CHANGED));
mgr.unregisterListener(util::SCREEN_STATE_CHANGED, listener2);
EXPECT_EQ(1, mgr.getStateTrackersCount());
EXPECT_EQ(1, mgr.getListenersCount(util::SCREEN_STATE_CHANGED));
// Unregister second-to-last listener from StateTracker
mgr.registerListener(util::SCREEN_STATE_CHANGED, listener2);
mgr.unregisterListener(util::SCREEN_STATE_CHANGED, listener1);
EXPECT_EQ(1, mgr.getStateTrackersCount());
EXPECT_EQ(1, mgr.getListenersCount(util::SCREEN_STATE_CHANGED));
// Unregister last listener from StateTracker
mgr.unregisterListener(util::SCREEN_STATE_CHANGED, listener2);
EXPECT_EQ(0, mgr.getStateTrackersCount());
EXPECT_EQ(-1, mgr.getListenersCount(util::SCREEN_STATE_CHANGED));
}
/**
* Test a binary state atom with nested counting.
*
* To go from an "ON" state to an "OFF" state with nested counting, we must see
* an equal number of "OFF" events as "ON" events.
* For example, ACQUIRE, ACQUIRE, RELEASE will still be in the ACQUIRE state.
* ACQUIRE, ACQUIRE, RELEASE, RELEASE will be in the RELEASE state.
*/
TEST(StateTrackerTest, TestStateChangeNested) {
sp<TestStateListener> listener = new TestStateListener();
StateManager mgr;
mgr.registerListener(util::WAKELOCK_STATE_CHANGED, listener);
std::vector<int> attributionUids1 = {1000};
std::vector<string> attributionTags1 = {"tag"};
std::unique_ptr<LogEvent> event1 = CreateAcquireWakelockEvent(timestampNs, attributionUids1,
attributionTags1, "wakelockName");
mgr.onLogEvent(*event1);
ASSERT_EQ(1, listener->updates.size());
EXPECT_EQ(1000, listener->updates[0].mKey.getValues()[0].mValue.int_value);
EXPECT_EQ(1, listener->updates[0].mState);
listener->updates.clear();
std::unique_ptr<LogEvent> event2 = CreateAcquireWakelockEvent(
timestampNs + 1000, attributionUids1, attributionTags1, "wakelockName");
mgr.onLogEvent(*event2);
ASSERT_EQ(0, listener->updates.size());
std::unique_ptr<LogEvent> event3 = CreateReleaseWakelockEvent(
timestampNs + 2000, attributionUids1, attributionTags1, "wakelockName");
mgr.onLogEvent(*event3);
ASSERT_EQ(0, listener->updates.size());
std::unique_ptr<LogEvent> event4 = CreateReleaseWakelockEvent(
timestampNs + 3000, attributionUids1, attributionTags1, "wakelockName");
mgr.onLogEvent(*event4);
ASSERT_EQ(1, listener->updates.size());
EXPECT_EQ(1000, listener->updates[0].mKey.getValues()[0].mValue.int_value);
EXPECT_EQ(0, listener->updates[0].mState);
}
/**
* Test a state atom with a reset state.
*
* If the reset state value is seen, every state in the map is set to the default
* state and every listener is notified.
*/
TEST(StateTrackerTest, TestStateChangeReset) {
sp<TestStateListener> listener = new TestStateListener();
StateManager mgr;
mgr.registerListener(util::BLE_SCAN_STATE_CHANGED, listener);
std::vector<int> attributionUids1 = {1000};
std::vector<string> attributionTags1 = {"tag1"};
std::vector<int> attributionUids2 = {2000};
std::unique_ptr<LogEvent> event1 =
CreateBleScanStateChangedEvent(timestampNs, attributionUids1, attributionTags1,
BleScanStateChanged::ON, false, false, false);
mgr.onLogEvent(*event1);
ASSERT_EQ(1, listener->updates.size());
EXPECT_EQ(1000, listener->updates[0].mKey.getValues()[0].mValue.int_value);
EXPECT_EQ(BleScanStateChanged::ON, listener->updates[0].mState);
FieldValue stateFieldValue;
mgr.getStateValue(util::BLE_SCAN_STATE_CHANGED, listener->updates[0].mKey, &stateFieldValue);
EXPECT_EQ(BleScanStateChanged::ON, stateFieldValue.mValue.int_value);
listener->updates.clear();
std::unique_ptr<LogEvent> event2 =
CreateBleScanStateChangedEvent(timestampNs + 1000, attributionUids2, attributionTags1,
BleScanStateChanged::ON, false, false, false);
mgr.onLogEvent(*event2);
ASSERT_EQ(1, listener->updates.size());
EXPECT_EQ(2000, listener->updates[0].mKey.getValues()[0].mValue.int_value);
EXPECT_EQ(BleScanStateChanged::ON, listener->updates[0].mState);
mgr.getStateValue(util::BLE_SCAN_STATE_CHANGED, listener->updates[0].mKey, &stateFieldValue);
EXPECT_EQ(BleScanStateChanged::ON, stateFieldValue.mValue.int_value);
listener->updates.clear();
std::unique_ptr<LogEvent> event3 =
CreateBleScanStateChangedEvent(timestampNs + 2000, attributionUids2, attributionTags1,
BleScanStateChanged::RESET, false, false, false);
mgr.onLogEvent(*event3);
ASSERT_EQ(2, listener->updates.size());
for (const TestStateListener::Update& update : listener->updates) {
EXPECT_EQ(BleScanStateChanged::OFF, update.mState);
mgr.getStateValue(util::BLE_SCAN_STATE_CHANGED, update.mKey, &stateFieldValue);
EXPECT_EQ(BleScanStateChanged::OFF, stateFieldValue.mValue.int_value);
}
}
/**
* Test StateManager's onLogEvent and StateListener's onStateChanged correctly
* updates listener for states without primary keys.
*/
TEST(StateTrackerTest, TestStateChangeNoPrimaryFields) {
sp<TestStateListener> listener1 = new TestStateListener();
StateManager mgr;
mgr.registerListener(util::SCREEN_STATE_CHANGED, listener1);
// log event
std::unique_ptr<LogEvent> event = CreateScreenStateChangedEvent(
timestampNs, android::view::DisplayStateEnum::DISPLAY_STATE_ON);
mgr.onLogEvent(*event);
// check listener was updated
ASSERT_EQ(1, listener1->updates.size());
EXPECT_EQ(DEFAULT_DIMENSION_KEY, listener1->updates[0].mKey);
EXPECT_EQ(2, listener1->updates[0].mState);
// check StateTracker was updated by querying for state
HashableDimensionKey queryKey = DEFAULT_DIMENSION_KEY;
EXPECT_EQ(android::view::DisplayStateEnum::DISPLAY_STATE_ON,
getStateInt(mgr, util::SCREEN_STATE_CHANGED, queryKey));
}
/**
* Test StateManager's onLogEvent and StateListener's onStateChanged correctly
* updates listener for states with one primary key.
*/
TEST(StateTrackerTest, TestStateChangeOnePrimaryField) {
sp<TestStateListener> listener1 = new TestStateListener();
StateManager mgr;
mgr.registerListener(util::UID_PROCESS_STATE_CHANGED, listener1);
// log event
std::unique_ptr<LogEvent> event = CreateUidProcessStateChangedEvent(
timestampNs, 1000 /*uid*/, android::app::ProcessStateEnum::PROCESS_STATE_TOP);
mgr.onLogEvent(*event);
// check listener was updated
ASSERT_EQ(1, listener1->updates.size());
EXPECT_EQ(1000, listener1->updates[0].mKey.getValues()[0].mValue.int_value);
EXPECT_EQ(1002, listener1->updates[0].mState);
// check StateTracker was updated by querying for state
HashableDimensionKey queryKey;
getUidProcessKey(1000 /* uid */, &queryKey);
EXPECT_EQ(android::app::ProcessStateEnum::PROCESS_STATE_TOP,
getStateInt(mgr, util::UID_PROCESS_STATE_CHANGED, queryKey));
}
TEST(StateTrackerTest, TestStateChangePrimaryFieldAttrChain) {
sp<TestStateListener> listener1 = new TestStateListener();
StateManager mgr;
mgr.registerListener(util::WAKELOCK_STATE_CHANGED, listener1);
// Log event.
std::vector<int> attributionUids = {1001};
std::vector<string> attributionTags = {"tag1"};
std::unique_ptr<LogEvent> event = CreateAcquireWakelockEvent(timestampNs, attributionUids,
attributionTags, "wakelockName");
mgr.onLogEvent(*event);
EXPECT_EQ(1, mgr.getStateTrackersCount());
EXPECT_EQ(1, mgr.getListenersCount(util::WAKELOCK_STATE_CHANGED));
// Check listener was updated.
ASSERT_EQ(1, listener1->updates.size());
ASSERT_EQ(3, listener1->updates[0].mKey.getValues().size());
EXPECT_EQ(1001, listener1->updates[0].mKey.getValues()[0].mValue.int_value);
EXPECT_EQ(1, listener1->updates[0].mKey.getValues()[1].mValue.int_value);
EXPECT_EQ("wakelockName", listener1->updates[0].mKey.getValues()[2].mValue.str_value);
EXPECT_EQ(WakelockStateChanged::ACQUIRE, listener1->updates[0].mState);
// Check StateTracker was updated by querying for state.
HashableDimensionKey queryKey;
getPartialWakelockKey(1001 /* uid */, "wakelockName", &queryKey);
EXPECT_EQ(WakelockStateChanged::ACQUIRE,
getStateInt(mgr, util::WAKELOCK_STATE_CHANGED, queryKey));
// No state stored for this query key.
HashableDimensionKey queryKey2;
getPartialWakelockKey(1002 /* uid */, "tag1", &queryKey2);
EXPECT_EQ(-1 /*StateTracker::kStateUnknown*/,
getStateInt(mgr, util::WAKELOCK_STATE_CHANGED, queryKey2));
// Partial query fails.
HashableDimensionKey queryKey3;
getPartialWakelockKey(1001 /* uid */, &queryKey3);
EXPECT_EQ(-1 /*StateTracker::kStateUnknown*/,
getStateInt(mgr, util::WAKELOCK_STATE_CHANGED, queryKey3));
}
/**
* Test StateManager's onLogEvent and StateListener's onStateChanged correctly
* updates listener for states with multiple primary keys.
*/
TEST(StateTrackerTest, TestStateChangeMultiplePrimaryFields) {
sp<TestStateListener> listener1 = new TestStateListener();
StateManager mgr;
mgr.registerListener(util::OVERLAY_STATE_CHANGED, listener1);
// log event
std::unique_ptr<LogEvent> event = CreateOverlayStateChangedEvent(
timestampNs, 1000 /* uid */, "package1", true /*using_alert_window*/,
OverlayStateChanged::ENTERED);
mgr.onLogEvent(*event);
// check listener was updated
ASSERT_EQ(1, listener1->updates.size());
EXPECT_EQ(1000, listener1->updates[0].mKey.getValues()[0].mValue.int_value);
EXPECT_EQ(1, listener1->updates[0].mState);
// check StateTracker was updated by querying for state
HashableDimensionKey queryKey;
getOverlayKey(1000 /* uid */, "package1", &queryKey);
EXPECT_EQ(OverlayStateChanged::ENTERED,
getStateInt(mgr, util::OVERLAY_STATE_CHANGED, queryKey));
}
/**
* Test StateManager's onLogEvent and StateListener's onStateChanged
* when there is an error extracting state from log event. Listener is not
* updated of state change.
*/
TEST(StateTrackerTest, TestStateChangeEventError) {
sp<TestStateListener> listener1 = new TestStateListener();
StateManager mgr;
mgr.registerListener(util::OVERLAY_STATE_CHANGED, listener1);
// log event
std::shared_ptr<LogEvent> event1 =
buildIncorrectOverlayEvent(1000 /* uid */, "package1", 1 /* state */);
std::shared_ptr<LogEvent> event2 = buildOverlayEventBadStateType(1001 /* uid */, "package2");
// check listener was updated
mgr.onLogEvent(*event1);
ASSERT_EQ(0, listener1->updates.size());
mgr.onLogEvent(*event2);
ASSERT_EQ(0, listener1->updates.size());
}
TEST(StateTrackerTest, TestStateQuery) {
sp<TestStateListener> listener1 = new TestStateListener();
sp<TestStateListener> listener2 = new TestStateListener();
sp<TestStateListener> listener3 = new TestStateListener();
sp<TestStateListener> listener4 = new TestStateListener();
StateManager mgr;
mgr.registerListener(util::SCREEN_STATE_CHANGED, listener1);
mgr.registerListener(util::UID_PROCESS_STATE_CHANGED, listener2);
mgr.registerListener(util::OVERLAY_STATE_CHANGED, listener3);
mgr.registerListener(util::WAKELOCK_STATE_CHANGED, listener4);
std::unique_ptr<LogEvent> event1 = CreateUidProcessStateChangedEvent(
timestampNs, 1000 /*uid*/,
android::app::ProcessStateEnum::PROCESS_STATE_TOP); // state value: 1002
std::unique_ptr<LogEvent> event2 = CreateUidProcessStateChangedEvent(
timestampNs + 1000, 1001 /*uid*/,
android::app::ProcessStateEnum::PROCESS_STATE_FOREGROUND_SERVICE); // state value:
// 1003
std::unique_ptr<LogEvent> event3 = CreateUidProcessStateChangedEvent(
timestampNs + 2000, 1002 /*uid*/,
android::app::ProcessStateEnum::PROCESS_STATE_PERSISTENT); // state value: 1000
std::unique_ptr<LogEvent> event4 = CreateUidProcessStateChangedEvent(
timestampNs + 3000, 1001 /*uid*/,
android::app::ProcessStateEnum::PROCESS_STATE_TOP); // state value: 1002
std::unique_ptr<LogEvent> event5 = CreateScreenStateChangedEvent(
timestampNs + 4000, android::view::DisplayStateEnum::DISPLAY_STATE_ON);
std::unique_ptr<LogEvent> event6 = CreateOverlayStateChangedEvent(
timestampNs + 5000, 1000 /*uid*/, "package1", true /*using_alert_window*/,
OverlayStateChanged::ENTERED);
std::unique_ptr<LogEvent> event7 = CreateOverlayStateChangedEvent(
timestampNs + 6000, 1000 /*uid*/, "package2", true /*using_alert_window*/,
OverlayStateChanged::EXITED);
std::vector<int> attributionUids = {1005};
std::vector<string> attributionTags = {"tag"};
std::unique_ptr<LogEvent> event8 = CreateAcquireWakelockEvent(
timestampNs + 7000, attributionUids, attributionTags, "wakelock1");
std::unique_ptr<LogEvent> event9 = CreateReleaseWakelockEvent(
timestampNs + 8000, attributionUids, attributionTags, "wakelock2");
mgr.onLogEvent(*event1);
mgr.onLogEvent(*event2);
mgr.onLogEvent(*event3);
mgr.onLogEvent(*event5);
mgr.onLogEvent(*event5);
mgr.onLogEvent(*event6);
mgr.onLogEvent(*event7);
mgr.onLogEvent(*event8);
mgr.onLogEvent(*event9);
// Query for UidProcessState of uid 1001
HashableDimensionKey queryKey1;
getUidProcessKey(1001, &queryKey1);
EXPECT_EQ(android::app::ProcessStateEnum::PROCESS_STATE_FOREGROUND_SERVICE,
getStateInt(mgr, util::UID_PROCESS_STATE_CHANGED, queryKey1));
// Query for UidProcessState of uid 1004 - not in state map
HashableDimensionKey queryKey2;
getUidProcessKey(1004, &queryKey2);
EXPECT_EQ(-1, getStateInt(mgr, util::UID_PROCESS_STATE_CHANGED,
queryKey2)); // default state
// Query for UidProcessState of uid 1001 - after change in state
mgr.onLogEvent(*event4);
EXPECT_EQ(android::app::ProcessStateEnum::PROCESS_STATE_TOP,
getStateInt(mgr, util::UID_PROCESS_STATE_CHANGED, queryKey1));
// Query for ScreenState
EXPECT_EQ(android::view::DisplayStateEnum::DISPLAY_STATE_ON,
getStateInt(mgr, util::SCREEN_STATE_CHANGED, DEFAULT_DIMENSION_KEY));
// Query for OverlayState of uid 1000, package name "package2"
HashableDimensionKey queryKey3;
getOverlayKey(1000, "package2", &queryKey3);
EXPECT_EQ(OverlayStateChanged::EXITED,
getStateInt(mgr, util::OVERLAY_STATE_CHANGED, queryKey3));
// Query for WakelockState of uid 1005, tag 2
HashableDimensionKey queryKey4;
getPartialWakelockKey(1005, "wakelock2", &queryKey4);
EXPECT_EQ(WakelockStateChanged::RELEASE,
getStateInt(mgr, util::WAKELOCK_STATE_CHANGED, queryKey4));
// Query for WakelockState of uid 1005, tag 1
HashableDimensionKey queryKey5;
getPartialWakelockKey(1005, "wakelock1", &queryKey5);
EXPECT_EQ(WakelockStateChanged::ACQUIRE,
getStateInt(mgr, util::WAKELOCK_STATE_CHANGED, queryKey5));
}
} // namespace statsd
} // namespace os
} // namespace android
#else
GTEST_LOG_(INFO) << "This test does nothing.\n";
#endif
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