/* * Copyright (c) 2022-2023 Huawei Device Co., Ltd. * 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 "stats_audio_test.h" #include #include "battery_stats_client.h" #include "stats_hisysevent.h" using namespace testing::ext; using namespace OHOS::HiviewDFX; using namespace OHOS::PowerMgr; using namespace std; void StatsAudioTest::SetUpTestCase() { ParserAveragePowerFile(); system("hidumper -s 3302 -a -u"); } void StatsAudioTest::TearDownTestCase() { system("hidumper -s 3302 -a -r"); } void StatsAudioTest::SetUp() { auto& statsClient = BatteryStatsClient::GetInstance(); statsClient.SetOnBattery(true); } void StatsAudioTest::TearDown() { auto& statsClient = BatteryStatsClient::GetInstance(); statsClient.SetOnBattery(false); } namespace { /** * @tc.name: StatsAudioTest_001 * @tc.desc: test Reset function(Audio) * @tc.type: FUNC */ HWTEST_F (StatsAudioTest, StatsAudioTest_001, TestSize.Level0) { auto& statsClient = BatteryStatsClient::GetInstance(); statsClient.Reset(); int32_t uid = 10003; int32_t pid = 3458; int32_t stateRunning = 2; int32_t stateStopped = 3; HiSysEventWrite(HiSysEvent::Domain::AUDIO, StatsHiSysEvent::STREAM_CHANGE, HiSysEvent::EventType::BEHAVIOR, "PID", pid, "UID", uid, "STATE", stateRunning); usleep(POWER_CONSUMPTION_DURATION_US); HiSysEventWrite(HiSysEvent::Domain::AUDIO, StatsHiSysEvent::STREAM_CHANGE, HiSysEvent::EventType::BEHAVIOR, "PID", pid, "UID", uid, "STATE", stateStopped); double powerMahBefore = statsClient.GetAppStatsMah(uid); statsClient.Reset(); double powerMahAfter = statsClient.GetAppStatsMah(uid); GTEST_LOG_(INFO) << __func__ << ": before consumption = " << powerMahBefore << " mAh"; GTEST_LOG_(INFO) << __func__ << ": after consumption = " << powerMahAfter << " mAh"; EXPECT_TRUE(powerMahBefore >= StatsUtils::DEFAULT_VALUE && powerMahAfter == StatsUtils::DEFAULT_VALUE); } /** * @tc.name: StatsAudioTest_002 * @tc.desc: test GetAppStatsMah function(Audio) * @tc.type: FUNC */ HWTEST_F (StatsAudioTest, StatsAudioTest_002, TestSize.Level0) { auto& statsClient = BatteryStatsClient::GetInstance(); statsClient.Reset(); double audioOnAverageMa = g_statsParser->GetAveragePowerMa(StatsUtils::CURRENT_AUDIO_ON); int32_t uid = 10003; int32_t pid = 3458; int32_t stateRunning = 2; int32_t stateStopped = 3; HiSysEventWrite(HiSysEvent::Domain::AUDIO, StatsHiSysEvent::STREAM_CHANGE, HiSysEvent::EventType::BEHAVIOR, "PID", pid, "UID", uid, "STATE", stateRunning); usleep(POWER_CONSUMPTION_DURATION_US); HiSysEventWrite(HiSysEvent::Domain::AUDIO, StatsHiSysEvent::STREAM_CHANGE, HiSysEvent::EventType::BEHAVIOR, "PID", pid, "UID", uid, "STATE", stateStopped); double expectedPower = POWER_CONSUMPTION_DURATION_US * audioOnAverageMa / US_PER_HOUR; double actualPower = statsClient.GetAppStatsMah(uid); double devPrecent = abs(expectedPower - actualPower) / expectedPower; GTEST_LOG_(INFO) << __func__ << ": expected consumption = " << expectedPower << " mAh"; GTEST_LOG_(INFO) << __func__ << ": actual consumption = " << actualPower << " mAh"; EXPECT_LE(devPrecent, DEVIATION_PERCENT_THRESHOLD); } /** * @tc.name: StatsAudioTest_003 * @tc.desc: test GetAppStatsPercent function(Audio) * @tc.type: FUNC */ HWTEST_F (StatsAudioTest, StatsAudioTest_003, TestSize.Level0) { auto& statsClient = BatteryStatsClient::GetInstance(); statsClient.Reset(); int32_t uid = 10003; int32_t pid = 3458; int32_t stateRunning = 2; int32_t stateStopped = 3; double fullPercent = 1; double zeroPercent = 0; HiSysEventWrite(HiSysEvent::Domain::AUDIO, StatsHiSysEvent::STREAM_CHANGE, HiSysEvent::EventType::BEHAVIOR, "PID", pid, "UID", uid, "STATE", stateRunning); usleep(POWER_CONSUMPTION_DURATION_US); HiSysEventWrite(HiSysEvent::Domain::AUDIO, StatsHiSysEvent::STREAM_CHANGE, HiSysEvent::EventType::BEHAVIOR, "PID", pid, "UID", uid, "STATE", stateStopped); double actualPercent = statsClient.GetAppStatsPercent(uid); GTEST_LOG_(INFO) << __func__ << ": actual percent = " << actualPercent; EXPECT_TRUE(actualPercent >= zeroPercent && actualPercent <= fullPercent); } /** * @tc.name: StatsAudioTest_004 * @tc.desc: test GetAppStatsMah function, Audio state composite test * @tc.type: FUNC */ HWTEST_F (StatsAudioTest, StatsAudioTest_004, TestSize.Level0) { auto& statsClient = BatteryStatsClient::GetInstance(); statsClient.Reset(); double audioOnAverageMa = g_statsParser->GetAveragePowerMa(StatsUtils::CURRENT_AUDIO_ON); int32_t uid = 10003; int32_t pid = 3458; int32_t stateRunning = 2; int32_t stateStopped = 3; int32_t stateReleased = 4; int32_t statePaused = 5; HiSysEventWrite(HiSysEvent::Domain::AUDIO, StatsHiSysEvent::STREAM_CHANGE, HiSysEvent::EventType::BEHAVIOR, "PID", pid, "UID", uid, "STATE", stateRunning); usleep(POWER_CONSUMPTION_DURATION_US); HiSysEventWrite(HiSysEvent::Domain::AUDIO, StatsHiSysEvent::STREAM_CHANGE, HiSysEvent::EventType::BEHAVIOR, "PID", pid, "UID", uid, "STATE", stateStopped); HiSysEventWrite(HiSysEvent::Domain::AUDIO, StatsHiSysEvent::STREAM_CHANGE, HiSysEvent::EventType::BEHAVIOR, "PID", pid, "UID", uid, "STATE", stateRunning); usleep(POWER_CONSUMPTION_DURATION_US); HiSysEventWrite(HiSysEvent::Domain::AUDIO, StatsHiSysEvent::STREAM_CHANGE, HiSysEvent::EventType::BEHAVIOR, "PID", pid, "UID", uid, "STATE", stateReleased); HiSysEventWrite(HiSysEvent::Domain::AUDIO, StatsHiSysEvent::STREAM_CHANGE, HiSysEvent::EventType::BEHAVIOR, "PID", pid, "UID", uid, "STATE", stateRunning); usleep(POWER_CONSUMPTION_DURATION_US); HiSysEventWrite(HiSysEvent::Domain::AUDIO, StatsHiSysEvent::STREAM_CHANGE, HiSysEvent::EventType::BEHAVIOR, "PID", pid, "UID", uid, "STATE", statePaused); double expectedPower = 3 * POWER_CONSUMPTION_DURATION_US * audioOnAverageMa / US_PER_HOUR; double actualPower = statsClient.GetAppStatsMah(uid); double devPrecent = abs(expectedPower - actualPower) / expectedPower; GTEST_LOG_(INFO) << __func__ << ": expected consumption = " << expectedPower << " mAh"; GTEST_LOG_(INFO) << __func__ << ": actual consumption = " << actualPower << " mAh"; EXPECT_LE(devPrecent, DEVIATION_PERCENT_THRESHOLD); } /** * @tc.name: StatsAudioTest_005 * @tc.desc: test GetAppStatsMah function, Audio abnormal state test * @tc.type: FUNC */ HWTEST_F (StatsAudioTest, StatsAudioTest_005, TestSize.Level0) { auto& statsClient = BatteryStatsClient::GetInstance(); statsClient.Reset(); double audioOnAverageMa = g_statsParser->GetAveragePowerMa(StatsUtils::CURRENT_AUDIO_ON); int32_t uid = 10003; int32_t pid = 3458; int32_t stateRunning = 2; int32_t stateStopped = 3; int32_t stateInvalid = -1; int32_t stateAbnormal = 101; HiSysEventWrite(HiSysEvent::Domain::AUDIO, StatsHiSysEvent::STREAM_CHANGE, HiSysEvent::EventType::BEHAVIOR, "PID", pid, "UID", uid, "STATE", stateInvalid); usleep(POWER_CONSUMPTION_DURATION_US); HiSysEventWrite(HiSysEvent::Domain::AUDIO, StatsHiSysEvent::STREAM_CHANGE, HiSysEvent::EventType::BEHAVIOR, "PID", pid, "UID", uid, "STATE", stateRunning); usleep(POWER_CONSUMPTION_DURATION_US); HiSysEventWrite(HiSysEvent::Domain::AUDIO, StatsHiSysEvent::STREAM_CHANGE, HiSysEvent::EventType::BEHAVIOR, "PID", pid, "UID", uid, "STATE", stateAbnormal); usleep(POWER_CONSUMPTION_DURATION_US); HiSysEventWrite(HiSysEvent::Domain::AUDIO, StatsHiSysEvent::STREAM_CHANGE, HiSysEvent::EventType::BEHAVIOR, "PID", pid, "UID", uid, "STATE", stateStopped); double expectedPower = 2 * POWER_CONSUMPTION_DURATION_US * audioOnAverageMa / US_PER_HOUR; double actualPower = statsClient.GetAppStatsMah(uid); double devPrecent = abs(expectedPower - actualPower) / expectedPower; GTEST_LOG_(INFO) << __func__ << ": expected consumption = " << expectedPower << " mAh"; GTEST_LOG_(INFO) << __func__ << ": actual consumption = " << actualPower << " mAh"; EXPECT_LE(devPrecent, DEVIATION_PERCENT_THRESHOLD); } /** * @tc.name: StatsAudioTest_006 * @tc.desc: test GetAppStatsMah(Audio) and GetAppStatsPercent(Sensor) function * @tc.type: FUNC */ HWTEST_F (StatsAudioTest, StatsAudioTest_006, TestSize.Level0) { auto& statsClient = BatteryStatsClient::GetInstance(); statsClient.Reset(); double audioOnAverageMa = g_statsParser->GetAveragePowerMa(StatsUtils::CURRENT_AUDIO_ON); int32_t uid = 10003; int32_t pid = 3458; int32_t stateRunning = 2; int32_t stateStopped = 3; HiSysEventWrite(HiSysEvent::Domain::AUDIO, StatsHiSysEvent::STREAM_CHANGE, HiSysEvent::EventType::BEHAVIOR, "PID", pid, "UID", uid, "STATE", stateRunning); usleep(POWER_CONSUMPTION_DURATION_US); HiSysEventWrite(HiSysEvent::Domain::AUDIO, StatsHiSysEvent::STREAM_CHANGE, HiSysEvent::EventType::BEHAVIOR, "PID", pid, "UID", uid, "STATE", stateStopped); double expectedPower = POWER_CONSUMPTION_DURATION_US * audioOnAverageMa / US_PER_HOUR; double actualPower = statsClient.GetAppStatsMah(uid); double devPrecent = abs(expectedPower - actualPower) / expectedPower; GTEST_LOG_(INFO) << __func__ << ": expected consumption = " << expectedPower << " mAh"; GTEST_LOG_(INFO) << __func__ << ": actual consumption = " << actualPower << " mAh"; EXPECT_LE(devPrecent, DEVIATION_PERCENT_THRESHOLD); uid = 10004; pid = 3459; int32_t stateOn = 1; int32_t stateOff = 0; double fullPercent = 1; double zeroPercent = 0; HiSysEventWrite(HiSysEvent::Domain::STATS, StatsHiSysEvent::POWER_SENSOR_GRAVITY, HiSysEvent::EventType::STATISTIC, "PID", pid, "UID", uid, "STATE", stateOn); usleep(POWER_CONSUMPTION_DURATION_US); HiSysEventWrite(HiSysEvent::Domain::STATS, StatsHiSysEvent::POWER_SENSOR_GRAVITY, HiSysEvent::EventType::STATISTIC, "PID", pid, "UID", uid, "STATE", stateOff); double actualPercent = statsClient.GetAppStatsPercent(uid); GTEST_LOG_(INFO) << __func__ << ": actual percent = " << actualPercent; EXPECT_TRUE(actualPercent >= zeroPercent && actualPercent <= fullPercent); } }