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android13/hardware/interfaces/gnss/2.0/vts/functional/gnss_hal_test.cpp

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/*
* Copyright (C) 2018 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.
*/
#define LOG_TAG "GnssHalTest"
#include <android/hidl/manager/1.2/IServiceManager.h>
#include <gnss_hal_test.h>
#include <gtest/gtest.h>
#include <hidl/ServiceManagement.h>
#include <chrono>
#include "Utils.h"
using ::android::hardware::hidl_string;
using ::android::hardware::gnss::common::Utils;
// Implementations for the main test class for GNSS HAL
void GnssHalTest::SetUp() {
gnss_hal_ = IGnss::getService(GetParam());
ASSERT_NE(gnss_hal_, nullptr);
SetUpGnssCallback();
}
void GnssHalTest::TearDown() {
if (gnss_hal_ != nullptr) {
gnss_hal_->cleanup();
gnss_hal_ = nullptr;
}
// Set to nullptr to destruct the callback event queues and warn of any unprocessed events.
gnss_cb_ = nullptr;
}
void GnssHalTest::SetUpGnssCallback() {
gnss_cb_ = new GnssCallback();
ASSERT_NE(gnss_cb_, nullptr);
auto result = gnss_hal_->setCallback_2_0(gnss_cb_);
if (!result.isOk()) {
ALOGE("result of failed setCallback %s", result.description().c_str());
}
ASSERT_TRUE(result.isOk());
ASSERT_TRUE(result);
/*
* All capabilities, name and systemInfo callbacks should trigger
*/
EXPECT_TRUE(gnss_cb_->capabilities_cbq_.retrieve(gnss_cb_->last_capabilities_, TIMEOUT_SEC));
EXPECT_TRUE(gnss_cb_->info_cbq_.retrieve(gnss_cb_->last_info_, TIMEOUT_SEC));
EXPECT_TRUE(gnss_cb_->name_cbq_.retrieve(gnss_cb_->last_name_, TIMEOUT_SEC));
EXPECT_EQ(gnss_cb_->capabilities_cbq_.calledCount(), 1);
EXPECT_EQ(gnss_cb_->info_cbq_.calledCount(), 1);
EXPECT_EQ(gnss_cb_->name_cbq_.calledCount(), 1);
}
void GnssHalTest::StopAndClearLocations() {
const auto result = gnss_hal_->stop();
EXPECT_TRUE(result.isOk());
EXPECT_TRUE(result);
/*
* Clear notify/waiting counter, allowing up till the timeout after
* the last reply for final startup messages to arrive (esp. system
* info.)
*/
while (gnss_cb_->location_cbq_.retrieve(gnss_cb_->last_location_, TIMEOUT_SEC)) {
}
gnss_cb_->location_cbq_.reset();
}
void GnssHalTest::SetPositionMode(const int min_interval_msec, const bool low_power_mode) {
const int kPreferredAccuracy = 0; // Ideally perfect (matches GnssLocationProvider)
const int kPreferredTimeMsec = 0; // Ideally immediate
const auto result = gnss_hal_->setPositionMode_1_1(
IGnss::GnssPositionMode::MS_BASED, IGnss::GnssPositionRecurrence::RECURRENCE_PERIODIC,
min_interval_msec, kPreferredAccuracy, kPreferredTimeMsec, low_power_mode);
ASSERT_TRUE(result.isOk());
EXPECT_TRUE(result);
}
bool GnssHalTest::StartAndCheckFirstLocation(const bool strict, const int min_interval_msec,
const bool low_power_mode) {
SetPositionMode(min_interval_msec, low_power_mode);
const auto result = gnss_hal_->start();
EXPECT_TRUE(result.isOk());
EXPECT_TRUE(result);
/*
* GnssLocationProvider support of AGPS SUPL & XtraDownloader is not available in VTS,
* so allow time to demodulate ephemeris over the air.
*/
const int kFirstGnssLocationTimeoutSeconds = 75;
int locationCalledCount = 0;
if (strict) {
EXPECT_TRUE(gnss_cb_->location_cbq_.retrieve(gnss_cb_->last_location_,
kFirstGnssLocationTimeoutSeconds));
locationCalledCount = gnss_cb_->location_cbq_.calledCount();
EXPECT_EQ(locationCalledCount, 1);
}
if (locationCalledCount > 0) {
// don't require speed on first fix
CheckLocation(gnss_cb_->last_location_, false);
return true;
}
return false;
}
void GnssHalTest::CheckLocation(const GnssLocation_2_0& location, bool check_speed) {
const bool check_more_accuracies =
(gnss_cb_->info_cbq_.calledCount() > 0 && gnss_cb_->last_info_.yearOfHw >= 2017);
Utils::checkLocation(location.v1_0, check_speed, check_more_accuracies);
}
void GnssHalTest::StartAndCheckLocations(int count) {
const int kMinIntervalMsec = 500;
const int kLocationTimeoutSubsequentSec = 2;
const bool kLowPowerMode = false;
SetPositionMode(kMinIntervalMsec, kLowPowerMode);
EXPECT_TRUE(StartAndCheckFirstLocation(/* strict= */ true,
/* min_interval_msec= */ 1000,
/* low_power_mode= */ false));
for (int i = 1; i < count; i++) {
EXPECT_TRUE(gnss_cb_->location_cbq_.retrieve(gnss_cb_->last_location_,
kLocationTimeoutSubsequentSec));
int locationCalledCount = gnss_cb_->location_cbq_.calledCount();
EXPECT_EQ(locationCalledCount, i + 1);
// Don't cause confusion by checking details if no location yet
if (locationCalledCount > 0) {
// Should be more than 1 location by now, but if not, still don't check first fix speed
CheckLocation(gnss_cb_->last_location_, locationCalledCount > 1);
}
}
}
bool GnssHalTest::IsGnssHalVersion_2_0() const {
using ::android::hidl::manager::V1_2::IServiceManager;
sp<IServiceManager> manager = ::android::hardware::defaultServiceManager1_2();
bool hasGnssHalVersion_2_0 = false;
manager->listManifestByInterface(
"android.hardware.gnss@2.0::IGnss",
[&hasGnssHalVersion_2_0](const hidl_vec<hidl_string>& registered) {
hasGnssHalVersion_2_0 = registered.size() != 0;
});
bool hasGnssHalVersion_2_1 = false;
manager->listManifestByInterface(
"android.hardware.gnss@2.1::IGnss",
[&hasGnssHalVersion_2_1](const hidl_vec<hidl_string>& registered) {
hasGnssHalVersion_2_1 = registered.size() != 0;
});
return hasGnssHalVersion_2_0 && !hasGnssHalVersion_2_1;
}
GnssHalTest::GnssCallback::GnssCallback()
: info_cbq_("system_info"),
name_cbq_("name"),
capabilities_cbq_("capabilities"),
location_cbq_("location"),
sv_info_list_cbq_("sv_info") {}
Return<void> GnssHalTest::GnssCallback::gnssSetSystemInfoCb(
const IGnssCallback_1_0::GnssSystemInfo& info) {
ALOGI("Info received, year %d", info.yearOfHw);
info_cbq_.store(info);
return Void();
}
Return<void> GnssHalTest::GnssCallback::gnssSetCapabilitesCb(uint32_t capabilities) {
ALOGI("Capabilities received %d", capabilities);
capabilities_cbq_.store(capabilities);
return Void();
}
Return<void> GnssHalTest::GnssCallback::gnssSetCapabilitiesCb_2_0(uint32_t capabilities) {
ALOGI("Capabilities (v2.0) received %d", capabilities);
capabilities_cbq_.store(capabilities);
return Void();
}
Return<void> GnssHalTest::GnssCallback::gnssNameCb(const android::hardware::hidl_string& name) {
ALOGI("Name received: %s", name.c_str());
name_cbq_.store(name);
return Void();
}
Return<void> GnssHalTest::GnssCallback::gnssLocationCb(const GnssLocation_1_0& location) {
ALOGI("Location received");
GnssLocation_2_0 location_v2_0;
location_v2_0.v1_0 = location;
return gnssLocationCbImpl(location_v2_0);
}
Return<void> GnssHalTest::GnssCallback::gnssLocationCb_2_0(const GnssLocation_2_0& location) {
ALOGI("Location (v2.0) received");
return gnssLocationCbImpl(location);
}
Return<void> GnssHalTest::GnssCallback::gnssLocationCbImpl(const GnssLocation_2_0& location) {
location_cbq_.store(location);
return Void();
}
Return<void> GnssHalTest::GnssCallback::gnssSvStatusCb(const IGnssCallback_1_0::GnssSvStatus&) {
ALOGI("gnssSvStatusCb");
return Void();
}
Return<void> GnssHalTest::GnssCallback::gnssSvStatusCb_2_0(
const hidl_vec<IGnssCallback_2_0::GnssSvInfo>& svInfoList) {
ALOGI("gnssSvStatusCb_2_0. Size = %d", (int)svInfoList.size());
sv_info_list_cbq_.store(svInfoList);
return Void();
}
Return<void> GnssHalTest::GnssMeasurementCallback::gnssMeasurementCb_2_0(
const IGnssMeasurementCallback_2_0::GnssData& data) {
ALOGD("GnssMeasurement received. Size = %d", (int)data.measurements.size());
measurement_cbq_.store(data);
return Void();
}
Return<void> GnssHalTest::GnssMeasurementCorrectionsCallback::setCapabilitiesCb(
uint32_t capabilities) {
ALOGI("GnssMeasurementCorrectionsCallback capabilities received %d", capabilities);
capabilities_cbq_.store(capabilities);
return Void();
}
GnssConstellationType_1_0 GnssHalTest::startLocationAndGetNonGpsConstellation() {
const int kLocationsToAwait = 3;
gnss_cb_->location_cbq_.reset();
StartAndCheckLocations(kLocationsToAwait);
const int location_called_count = gnss_cb_->location_cbq_.calledCount();
// Tolerate 1 less sv status to handle edge cases in reporting.
int sv_info_list_cbq_size = gnss_cb_->sv_info_list_cbq_.size();
EXPECT_GE(sv_info_list_cbq_size + 1, kLocationsToAwait);
ALOGD("Observed %d GnssSvStatus, while awaiting %d Locations (%d received)",
sv_info_list_cbq_size, kLocationsToAwait, location_called_count);
// Find first non-GPS constellation to blacklist. Exclude IRNSS in GnssConstellationType_2_0
// as blacklisting of this constellation is not supported in gnss@2.0.
const int kGnssSvStatusTimeout = 2;
GnssConstellationType_1_0 constellation_to_blacklist = GnssConstellationType_1_0::UNKNOWN;
for (int i = 0; i < sv_info_list_cbq_size; ++i) {
hidl_vec<IGnssCallback_2_0::GnssSvInfo> sv_info_list;
gnss_cb_->sv_info_list_cbq_.retrieve(sv_info_list, kGnssSvStatusTimeout);
for (IGnssCallback_2_0::GnssSvInfo sv_info : sv_info_list) {
if ((sv_info.v1_0.svFlag & IGnssCallback_2_0::GnssSvFlags::USED_IN_FIX) &&
(sv_info.constellation != GnssConstellationType_2_0::UNKNOWN) &&
(sv_info.constellation != GnssConstellationType_2_0::IRNSS) &&
(sv_info.constellation != GnssConstellationType_2_0::GPS)) {
// found a non-GPS V1_0 constellation
constellation_to_blacklist = Utils::mapConstellationType(sv_info.constellation);
break;
}
}
if (constellation_to_blacklist != GnssConstellationType_1_0::UNKNOWN) {
break;
}
}
if (constellation_to_blacklist == GnssConstellationType_1_0::UNKNOWN) {
ALOGI("No non-GPS constellations found, constellation blacklist test less effective.");
// Proceed functionally to blacklist something.
constellation_to_blacklist = GnssConstellationType_1_0::GLONASS;
}
return constellation_to_blacklist;
}
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