/*
* 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_service_location_test.h"
#include <hisysevent.h>
#include "battery_stats_listener.h"
#include "battery_stats_service.h"
#include "hisysevent_operation.h"
#include "stats_hisysevent.h"
#include "stats_service_test_proxy.h"
#include "stats_service_write_event.h"
using namespace OHOS;
using namespace testing::ext;
using namespace OHOS::HiviewDFX;
using namespace OHOS::PowerMgr;
using namespace std;
namespace {
static sptr<BatteryStatsService> g_statsService = nullptr;
static std::shared_ptr<StatsServiceTestProxy> g_statsServiceProxy = nullptr;
} // namespace
void StatsServiceLocationTest::SetUpTestCase()
{
ParserAveragePowerFile();
g_statsService = BatteryStatsService::GetInstance();
g_statsService->OnStart();
if (g_statsService->listenerPtr_ == nullptr) {
g_statsService->listenerPtr_ = std::make_shared<BatteryStatsListener>();
}
if (g_statsServiceProxy == nullptr) {
g_statsServiceProxy = std::make_shared<StatsServiceTestProxy>(g_statsService);
}
}
void StatsServiceLocationTest::TearDownTestCase()
{
g_statsService->listenerPtr_ = nullptr;
g_statsService->OnStop();
}
void StatsServiceLocationTest::SetUp()
{
auto statsService = BatteryStatsService::GetInstance();
statsService->SetOnBattery(true);
}
void StatsServiceLocationTest::TearDown()
{
auto statsService = BatteryStatsService::GetInstance();
statsService->SetOnBattery(false);
}
namespace {
/**
* @tc.name: StatsServiceLocationTest_001
* @tc.desc: test Reset function(GNSS)
* @tc.type: FUNC
* @tc.require: issueI663DX
*/
HWTEST_F (StatsServiceLocationTest, StatsServiceLocationTest_001, TestSize.Level0)
{
ASSERT_NE(g_statsServiceProxy, nullptr);
auto statsService = BatteryStatsService::GetInstance();
g_statsServiceProxy->Reset();
int32_t uid = 10003;
int32_t pid = 3458;
std::string stateOn = "start";
std::string stateOff = "stop";
StatsWriteHiSysEvent(statsService,
HiSysEvent::Domain::LOCATION, StatsHiSysEvent::GNSS_STATE,
HiSysEvent::EventType::STATISTIC, "PID", pid, "UID", uid, "STATE", stateOn);
usleep(SERVICE_POWER_CONSUMPTION_DURATION_US);
StatsWriteHiSysEvent(statsService,
HiSysEvent::Domain::LOCATION, StatsHiSysEvent::GNSS_STATE,
HiSysEvent::EventType::STATISTIC, "PID", pid, "UID", uid, "STATE", stateOff);
double powerMahBefore = g_statsServiceProxy->GetAppStatsMah(uid);
g_statsServiceProxy->Reset();
double powerMahAfter = g_statsServiceProxy->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: StatsServiceLocationTest_002
* @tc.desc: test GetAppStatsMah function(Gnss)
* @tc.type: FUNC
* @tc.require: issueI663DX
*/
HWTEST_F (StatsServiceLocationTest, StatsServiceLocationTest_002, TestSize.Level0)
{
ASSERT_NE(g_statsServiceProxy, nullptr);
auto statsService = BatteryStatsService::GetInstance();
g_statsServiceProxy->Reset();
double gnssOnAverageMa = g_statsParser->GetAveragePowerMa(StatsUtils::CURRENT_GNSS_ON);
int32_t uid = 10003;
int32_t pid = 3458;
std::string stateOn = "start";
std::string stateOff = "stop";
StatsWriteHiSysEvent(statsService,
HiSysEvent::Domain::LOCATION, StatsHiSysEvent::GNSS_STATE,
HiSysEvent::EventType::STATISTIC, "PID", pid, "UID", uid, "STATE", stateOn);
usleep(SERVICE_POWER_CONSUMPTION_DURATION_US);
StatsWriteHiSysEvent(statsService,
HiSysEvent::Domain::LOCATION, StatsHiSysEvent::GNSS_STATE,
HiSysEvent::EventType::STATISTIC, "PID", pid, "UID", uid, "STATE", stateOff);
double expectedPower = SERVICE_POWER_CONSUMPTION_DURATION_US * gnssOnAverageMa / US_PER_HOUR;
double actualPower = g_statsServiceProxy->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: StatsServiceLocationTest_003
* @tc.desc: test GetAppStatsPercent function(GNSS)
* @tc.type: FUNC
* @tc.require: issueI663DX
*/
HWTEST_F (StatsServiceLocationTest, StatsServiceLocationTest_003, TestSize.Level0)
{
ASSERT_NE(g_statsServiceProxy, nullptr);
auto statsService = BatteryStatsService::GetInstance();
g_statsServiceProxy->Reset();
int32_t uid = 10003;
int32_t pid = 3458;
std::string stateOn = "start";
std::string stateOff = "stop";
double fullPercent = 1;
double zeroPercent = 0;
StatsWriteHiSysEvent(statsService,
HiSysEvent::Domain::LOCATION, StatsHiSysEvent::GNSS_STATE,
HiSysEvent::EventType::STATISTIC, "PID", pid, "UID", uid, "STATE", stateOn);
usleep(SERVICE_POWER_CONSUMPTION_DURATION_US);
StatsWriteHiSysEvent(statsService,
HiSysEvent::Domain::LOCATION, StatsHiSysEvent::GNSS_STATE,
HiSysEvent::EventType::STATISTIC, "PID", pid, "UID", uid, "STATE", stateOff);
double actualPercent = g_statsServiceProxy->GetAppStatsPercent(uid);
GTEST_LOG_(INFO) << __func__ << ": actual percent = " << actualPercent;
EXPECT_TRUE(actualPercent >= zeroPercent && actualPercent <= fullPercent);
}
/**
* @tc.name: StatsServiceLocationTest_004
* @tc.desc: test GNSS_STATE event are sent repeatedly, gnss power consumption(GNSS)
* @tc.type: FUNC
* @tc.require: issueI663DX
*/
HWTEST_F (StatsServiceLocationTest, StatsServiceLocationTest_004, TestSize.Level0)
{
ASSERT_NE(g_statsServiceProxy, nullptr);
auto statsService = BatteryStatsService::GetInstance();
g_statsServiceProxy->Reset();
double gnssOnAverageMa = g_statsParser->GetAveragePowerMa(StatsUtils::CURRENT_GNSS_ON);
int32_t uid = 10003;
int32_t pid = 3458;
std::string stateOn = "start";
std::string stateOff = "stop";
StatsWriteHiSysEvent(statsService,
HiSysEvent::Domain::LOCATION, StatsHiSysEvent::GNSS_STATE,
HiSysEvent::EventType::STATISTIC, "PID", pid, "UID", uid, "STATE", stateOn);
usleep(SERVICE_POWER_CONSUMPTION_DURATION_US);
StatsWriteHiSysEvent(statsService,
HiSysEvent::Domain::LOCATION, StatsHiSysEvent::GNSS_STATE,
HiSysEvent::EventType::STATISTIC, "PID", pid, "UID", uid, "STATE", stateOn);
usleep(SERVICE_POWER_CONSUMPTION_DURATION_US);
StatsWriteHiSysEvent(statsService,
HiSysEvent::Domain::LOCATION, StatsHiSysEvent::GNSS_STATE,
HiSysEvent::EventType::STATISTIC, "PID", pid, "UID", uid, "STATE", stateOff);
usleep(SERVICE_POWER_CONSUMPTION_DURATION_US);
StatsWriteHiSysEvent(statsService,
HiSysEvent::Domain::LOCATION, StatsHiSysEvent::GNSS_STATE,
HiSysEvent::EventType::STATISTIC, "PID", pid, "UID", uid, "STATE", stateOff);
double expectedPower = 2 * SERVICE_POWER_CONSUMPTION_DURATION_US * gnssOnAverageMa / US_PER_HOUR;
double actualPower = g_statsServiceProxy->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: StatsServiceLocationTest_005
* @tc.desc: test test GetAppStatsMah function, GNSS abnormal state test(GNSS is off)
* @tc.type: FUNC
* @tc.require: issueI663DX
*/
HWTEST_F (StatsServiceLocationTest, StatsServiceLocationTest_005, TestSize.Level0)
{
ASSERT_NE(g_statsServiceProxy, nullptr);
auto statsService = BatteryStatsService::GetInstance();
g_statsServiceProxy->Reset();
int32_t uid = 10003;
int32_t pid = 3458;
std::string stateInvaildOn = "star";
std::string stateOff = "stop";
StatsWriteHiSysEvent(statsService,
HiSysEvent::Domain::LOCATION, StatsHiSysEvent::GNSS_STATE,
HiSysEvent::EventType::STATISTIC, "PID", pid, "UID", uid, "STATE", stateInvaildOn);
usleep(SERVICE_POWER_CONSUMPTION_DURATION_US);
StatsWriteHiSysEvent(statsService,
HiSysEvent::Domain::LOCATION, StatsHiSysEvent::GNSS_STATE,
HiSysEvent::EventType::STATISTIC, "PID", pid, "UID", uid, "STATE", stateOff);
double expectedPower = StatsUtils::DEFAULT_VALUE;
double actualPower = g_statsServiceProxy->GetAppStatsMah(uid);
GTEST_LOG_(INFO) << __func__ << ": expected consumption = " << expectedPower << " mAh";
GTEST_LOG_(INFO) << __func__ << ": actual consumption = " << actualPower << " mAh";
EXPECT_EQ(expectedPower, actualPower);
}
/**
* @tc.name: StatsServiceLocationTest_006
* @tc.desc: test test GetAppStatsMah function, GNSS abnormal state test(GNSS is On)
* @tc.type: FUNC
* @tc.require: issueI663DX
*/
HWTEST_F (StatsServiceLocationTest, StatsServiceLocationTest_006, TestSize.Level0)
{
ASSERT_NE(g_statsServiceProxy, nullptr);
auto statsService = BatteryStatsService::GetInstance();
g_statsServiceProxy->Reset();
double gnssOnAverageMa = g_statsParser->GetAveragePowerMa(StatsUtils::CURRENT_GNSS_ON);
int32_t uid = 10003;
int32_t pid = 3458;
std::string stateOn = "start";
std::string stateOff = "stop";
std::string stateInvaildOn = "star";
std::string stateInvaildOff = "stp";
StatsWriteHiSysEvent(statsService,
HiSysEvent::Domain::LOCATION, StatsHiSysEvent::GNSS_STATE,
HiSysEvent::EventType::STATISTIC, "PID", pid, "UID", uid, "STATE", stateOn);
usleep(SERVICE_POWER_CONSUMPTION_DURATION_US);
StatsWriteHiSysEvent(statsService,
HiSysEvent::Domain::LOCATION, StatsHiSysEvent::GNSS_STATE,
HiSysEvent::EventType::STATISTIC, "PID", pid, "UID", uid, "STATE", stateInvaildOn);
usleep(SERVICE_POWER_CONSUMPTION_DURATION_US);
StatsWriteHiSysEvent(statsService,
HiSysEvent::Domain::LOCATION, StatsHiSysEvent::GNSS_STATE,
HiSysEvent::EventType::STATISTIC, "PID", pid, "UID", uid, "STATE", stateInvaildOff);
usleep(SERVICE_POWER_CONSUMPTION_DURATION_US);
StatsWriteHiSysEvent(statsService,
HiSysEvent::Domain::LOCATION, StatsHiSysEvent::GNSS_STATE,
HiSysEvent::EventType::STATISTIC, "PID", pid, "UID", uid, "STATE", stateOff);
double expectedPower = 3 * SERVICE_POWER_CONSUMPTION_DURATION_US * gnssOnAverageMa / US_PER_HOUR;
double actualPower = g_statsServiceProxy->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: StatsServiceLocationTest_007
* @tc.desc: test GetTotalTimeSecond function(GNSS)
* @tc.type: FUNC
* @tc.require: issueI663DX
*/
HWTEST_F (StatsServiceLocationTest, StatsServiceLocationTest_007, TestSize.Level0)
{
ASSERT_NE(g_statsServiceProxy, nullptr);
auto statsService = BatteryStatsService::GetInstance();
g_statsServiceProxy->Reset();
std::string stateOn = "start";
std::string stateOff = "stop";
int32_t uid = 10003;
int32_t pid = 3458;
StatsWriteHiSysEvent(statsService,
HiSysEvent::Domain::LOCATION, StatsHiSysEvent::GNSS_STATE,
HiSysEvent::EventType::STATISTIC, "PID", pid, "UID", uid, "STATE", stateOn);
usleep(SERVICE_POWER_CONSUMPTION_DURATION_US);
StatsWriteHiSysEvent(statsService,
HiSysEvent::Domain::LOCATION, StatsHiSysEvent::GNSS_STATE,
HiSysEvent::EventType::STATISTIC, "PID", pid, "UID", uid, "STATE", stateOff);
long expectedTime = round(SERVICE_POWER_CONSUMPTION_DURATION_US / US_PER_SECOND);
long actualTime = g_statsServiceProxy->GetTotalTimeSecond(StatsUtils::STATS_TYPE_GNSS_ON, uid);
GTEST_LOG_(INFO) << __func__ << ": expected time = " << expectedTime << " seconds";
GTEST_LOG_(INFO) << __func__ << ": actual time = " << actualTime << " seconds";
EXPECT_EQ(expectedTime, actualTime);
}
/**
* @tc.name: StatsServiceLocationTest_008
* @tc.desc: test test GetAppStatsMah function with different UID(GNSS)
* @tc.type: FUNC
* @tc.require: issueI663DX
*/
HWTEST_F (StatsServiceLocationTest, StatsServiceLocationTest_008, TestSize.Level0)
{
ASSERT_NE(g_statsServiceProxy, nullptr);
auto statsService = BatteryStatsService::GetInstance();
g_statsServiceProxy->Reset();
double gnssOnAverageMa = g_statsParser->GetAveragePowerMa(StatsUtils::CURRENT_GNSS_ON);
std::string stateOn = "start";
std::string stateOff = "stop";
int32_t uidOne = 10003;
int32_t pidOne = 3458;
int32_t uidTwo = 10004;
int32_t pidTwo = 3459;
StatsWriteHiSysEvent(statsService,
HiSysEvent::Domain::LOCATION, StatsHiSysEvent::GNSS_STATE,
HiSysEvent::EventType::STATISTIC, "PID", pidOne, "UID", uidOne, "STATE", stateOn);
usleep(SERVICE_POWER_CONSUMPTION_DURATION_US);
StatsWriteHiSysEvent(statsService,
HiSysEvent::Domain::LOCATION, StatsHiSysEvent::GNSS_STATE,
HiSysEvent::EventType::STATISTIC, "PID", pidTwo, "UID", uidTwo, "STATE", stateOn);
usleep(SERVICE_POWER_CONSUMPTION_DURATION_US);
StatsWriteHiSysEvent(statsService,
HiSysEvent::Domain::LOCATION, StatsHiSysEvent::GNSS_STATE,
HiSysEvent::EventType::STATISTIC, "PID", pidTwo, "UID", uidTwo, "STATE", stateOff);
usleep(SERVICE_POWER_CONSUMPTION_DURATION_US);
StatsWriteHiSysEvent(statsService,
HiSysEvent::Domain::LOCATION, StatsHiSysEvent::GNSS_STATE,
HiSysEvent::EventType::STATISTIC, "PID", pidOne, "UID", uidOne, "STATE", stateOff);
double expectedPower = 3 * SERVICE_POWER_CONSUMPTION_DURATION_US * gnssOnAverageMa / US_PER_HOUR;
double actualPower = g_statsServiceProxy->GetAppStatsMah(uidOne);
double devPrecent = abs(expectedPower - actualPower) / expectedPower;
GTEST_LOG_(INFO) << __func__ << ": expected first uid consumption = " << expectedPower << " mAh";
GTEST_LOG_(INFO) << __func__ << ": actual first uid consumption = " << actualPower << " mAh";
EXPECT_LE(devPrecent, DEVIATION_PERCENT_THRESHOLD);
expectedPower = SERVICE_POWER_CONSUMPTION_DURATION_US * gnssOnAverageMa / US_PER_HOUR;
actualPower = g_statsServiceProxy->GetAppStatsMah(uidTwo);
devPrecent = abs(expectedPower - actualPower) / expectedPower;
GTEST_LOG_(INFO) << __func__ << ": expected second uid consumption = " << expectedPower << " mAh";
GTEST_LOG_(INFO) << __func__ << ": actual second uid consumption = " << actualPower << " mAh";
EXPECT_LE(devPrecent, DEVIATION_PERCENT_THRESHOLD);
}
/**
* @tc.name: StatsServiceLocationTest_009
* @tc.desc: test SetOnBattery function(GNSS)
* @tc.type: FUNC
* @tc.require: issueI663DX
*/
HWTEST_F (StatsServiceLocationTest, StatsServiceLocationTest_009, TestSize.Level0)
{
ASSERT_NE(g_statsServiceProxy, nullptr);
auto statsService = BatteryStatsService::GetInstance();
g_statsServiceProxy->Reset();
g_statsServiceProxy->SetOnBattery(false);
int32_t uid = 10003;
int32_t pid = 3458;
std::string stateOn = "start";
std::string stateOff = "stop";
StatsWriteHiSysEvent(statsService,
HiSysEvent::Domain::LOCATION, StatsHiSysEvent::GNSS_STATE,
HiSysEvent::EventType::STATISTIC, "PID", pid, "UID", uid, "STATE", stateOn);
usleep(SERVICE_POWER_CONSUMPTION_DURATION_US);
StatsWriteHiSysEvent(statsService,
HiSysEvent::Domain::LOCATION, StatsHiSysEvent::GNSS_STATE,
HiSysEvent::EventType::STATISTIC, "PID", pid, "UID", uid, "STATE", stateOff);
double expectedPower = StatsUtils::DEFAULT_VALUE;
double actualPower = g_statsServiceProxy->GetAppStatsMah(uid);
GTEST_LOG_(INFO) << __func__ << ": expected consumption = " << expectedPower << " mAh";
GTEST_LOG_(INFO) << __func__ << ": actual consumption = " << actualPower << " mAh";
EXPECT_EQ(expectedPower, actualPower);
g_statsServiceProxy->SetOnBattery(true);
}
/**
* @tc.name: StatsServiceLocationTest_010
* @tc.desc: test GetPartStatsMah function with battery changed(GNSS)
* @tc.type: FUNC
* @tc.require: issueI663DX
*/
HWTEST_F (StatsServiceLocationTest, StatsServiceLocationTest_010, TestSize.Level0)
{
ASSERT_NE(g_statsServiceProxy, nullptr);
auto statsService = BatteryStatsService::GetInstance();
g_statsServiceProxy->Reset();
double gnssOnAverageMa = g_statsParser->GetAveragePowerMa(StatsUtils::CURRENT_GNSS_ON);
int32_t uid = 10003;
int32_t pid = 3458;
std::string stateOn = "start";
std::string stateOff = "stop";
StatsWriteHiSysEvent(statsService,
HiSysEvent::Domain::LOCATION, StatsHiSysEvent::GNSS_STATE,
HiSysEvent::EventType::STATISTIC, "PID", pid, "UID", uid, "STATE", stateOn);
usleep(SERVICE_POWER_CONSUMPTION_DURATION_US);
g_statsServiceProxy->SetOnBattery(false);
usleep(SERVICE_POWER_CONSUMPTION_DURATION_US);
g_statsServiceProxy->SetOnBattery(true);
usleep(SERVICE_POWER_CONSUMPTION_DURATION_US);
StatsWriteHiSysEvent(statsService,
HiSysEvent::Domain::LOCATION, StatsHiSysEvent::GNSS_STATE,
HiSysEvent::EventType::STATISTIC, "PID", pid, "UID", uid, "STATE", stateOff);
double expectedPower = 2 * SERVICE_POWER_CONSUMPTION_DURATION_US * gnssOnAverageMa / US_PER_HOUR;
double actualPower = g_statsServiceProxy->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: StatsServiceLocationTest_011
* @tc.desc: test gnss entity GetPartStatsMah function(Gnss)
* @tc.type: FUNC
* @tc.require: issueI663DX
*/
HWTEST_F (StatsServiceLocationTest, StatsServiceLocationTest_011, TestSize.Level0)
{
ASSERT_NE(g_statsServiceProxy, nullptr);
auto statsService = BatteryStatsService::GetInstance();
g_statsServiceProxy->Reset();
double gnssOnAverageMa = g_statsParser->GetAveragePowerMa(StatsUtils::CURRENT_GNSS_ON);
int32_t uid = 10003;
int32_t pid = 3458;
std::string stateOn = "start";
std::string stateOff = "stop";
StatsWriteHiSysEvent(statsService,
HiSysEvent::Domain::LOCATION, StatsHiSysEvent::GNSS_STATE,
HiSysEvent::EventType::STATISTIC, "PID", pid, "UID", uid, "STATE", stateOn);
usleep(SERVICE_POWER_CONSUMPTION_DURATION_US);
StatsWriteHiSysEvent(statsService,
HiSysEvent::Domain::LOCATION, StatsHiSysEvent::GNSS_STATE,
HiSysEvent::EventType::STATISTIC, "PID", pid, "UID", uid, "STATE", stateOff);
auto statsCore = statsService->GetBatteryStatsCore();
auto gnssEntity = statsCore->GetEntity(BatteryStatsInfo::CONSUMPTION_TYPE_GNSS);
statsCore->ComputePower();
double expectedPower = SERVICE_POWER_CONSUMPTION_DURATION_US * gnssOnAverageMa / US_PER_HOUR;
double actualPower = gnssEntity->GetStatsPowerMah(StatsUtils::STATS_TYPE_GNSS_ON, 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);
EXPECT_EQ(StatsUtils::DEFAULT_VALUE, gnssEntity->GetStatsPowerMah(StatsUtils::STATS_TYPE_GNSS_ON));
EXPECT_EQ(StatsUtils::DEFAULT_VALUE, gnssEntity->GetStatsPowerMah(StatsUtils::STATS_TYPE_INVALID, uid));
}
/**
* @tc.name: StatsServiceLocationTest_012
* @tc.desc: test send hisysevent with missing information(Gnss)
* @tc.type: FUNC
* @tc.require: issueI663DX
*/
HWTEST_F (StatsServiceLocationTest, StatsServiceLocationTest_012, TestSize.Level0)
{
ASSERT_NE(g_statsServiceProxy, nullptr);
auto statsService = BatteryStatsService::GetInstance();
g_statsServiceProxy->Reset();
int32_t uid = 10003;
StatsWriteHiSysEvent(statsService,
HiSysEvent::Domain::LOCATION, StatsHiSysEvent::GNSS_STATE, HiSysEvent::EventType::STATISTIC);
usleep(SERVICE_POWER_CONSUMPTION_DURATION_US);
StatsWriteHiSysEvent(statsService,
HiSysEvent::Domain::LOCATION, StatsHiSysEvent::GNSS_STATE, HiSysEvent::EventType::STATISTIC);
double expectedPower = StatsUtils::DEFAULT_VALUE;
double actualPower = g_statsServiceProxy->GetAppStatsMah(uid);
GTEST_LOG_(INFO) << __func__ << ": expected consumption = " << expectedPower << " mAh";
GTEST_LOG_(INFO) << __func__ << ": actual consumption = " << actualPower << " mAh";
EXPECT_EQ(expectedPower, actualPower);
}
}