Blame - gnss/aidl/vts/gnss_hal_test.cpp - android_hardware_interfaces

2020-09-30 17:01:53 -0700

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/*

*

* Licensed under the Apache License, Version 2.0 (the "License");

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* you may not use this file except in compliance with the License.

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* You may obtain a copy of the License at

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*

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* http://www.apache.org/licenses/LICENSE-2.0

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*

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* Unless required by applicable law or agreed to in writing, software

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* distributed under the License is distributed on an "AS IS" BASIS,

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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.

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* See the License for the specific language governing permissions and

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* limitations under the License.

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*/

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#define LOG_TAG "GnssHalTest"

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#include "gnss_hal_test.h"

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#include <hidl/ServiceManagement.h>

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#include <algorithm>

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#include <cmath>

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#include "Utils.h"

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using android::hardware::gnss::GnssClock;

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using android::hardware::gnss::GnssConstellationType;

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using android::hardware::gnss::GnssData;

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using android::hardware::gnss::GnssLocation;

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using android::hardware::gnss::GnssMeasurement;

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using android::hardware::gnss::IGnss;

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using android::hardware::gnss::IGnssCallback;

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using android::hardware::gnss::IGnssMeasurementInterface;

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using android::hardware::gnss::common::Utils;

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using GnssConstellationTypeV2_0 = android::hardware::gnss::V2_0::GnssConstellationType;

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namespace {

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// The difference between the mean of the received intervals and the requested interval should not

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// be larger mInterval * ALLOWED_MEAN_ERROR_RATIO

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constexpr double ALLOWED_MEAN_ERROR_RATIO = 0.25;

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// The standard deviation computed for the deltas should not be bigger

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// than mInterval * ALLOWED_STDEV_ERROR_RATIO or MIN_STDEV_MS, whichever is higher.

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constexpr double ALLOWED_STDEV_ERROR_RATIO = 0.50;

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constexpr double MIN_STDEV_MS = 1000;

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double computeMean(std::vector<int>& deltas) {

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long accumulator = 0;

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for (auto& d : deltas) {

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accumulator += d;

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}

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return accumulator / deltas.size();

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}

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double computeStdev(double mean, std::vector<int>& deltas) {

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double accumulator = 0;

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for (auto& d : deltas) {

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double diff = d - mean;

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accumulator += diff * diff;

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}

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return std::sqrt(accumulator / (deltas.size() - 1));

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}

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} // anonymous namespace

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void GnssHalTest::SetUp() {

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// Get AIDL handle

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aidl_gnss_hal_ = android::waitForDeclaredService<IGnssAidl>(String16(GetParam().c_str()));

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ASSERT_NE(aidl_gnss_hal_, nullptr);

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ALOGD("AIDL Interface Version = %d", aidl_gnss_hal_->getInterfaceVersion());

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if (aidl_gnss_hal_->getInterfaceVersion() <= 1) {

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const auto& hidlInstanceNames = android::hardware::getAllHalInstanceNames(

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android::hardware::gnss::V2_1::IGnss::descriptor);

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gnss_hal_ = IGnss_V2_1::getService(hidlInstanceNames[0]);

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ASSERT_NE(gnss_hal_, nullptr);

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}

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SetUpGnssCallback();

}

void GnssHalTest::SetUpGnssCallback() {

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aidl_gnss_cb_ = new GnssCallbackAidl();

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ASSERT_NE(aidl_gnss_cb_, nullptr);

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auto status = aidl_gnss_hal_->setCallback(aidl_gnss_cb_);

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if (!status.isOk()) {

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ALOGE("Failed to setCallback");

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}

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ASSERT_TRUE(status.isOk());

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/*

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* Capabilities callback should trigger.

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*/

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EXPECT_TRUE(aidl_gnss_cb_->capabilities_cbq_.retrieve(aidl_gnss_cb_->last_capabilities_,

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TIMEOUT_SEC));

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EXPECT_EQ(aidl_gnss_cb_->capabilities_cbq_.calledCount(), 1);

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if (aidl_gnss_hal_->getInterfaceVersion() <= 1) {

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// Invoke the super method.

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GnssHalTestTemplate<IGnss_V2_1>::SetUpGnssCallback();

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} else {

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/*

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* SystemInfo callback should trigger

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*/

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EXPECT_TRUE(aidl_gnss_cb_->info_cbq_.retrieve(aidl_gnss_cb_->last_info_, TIMEOUT_SEC));

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EXPECT_EQ(aidl_gnss_cb_->info_cbq_.calledCount(), 1);

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}

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/*

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* SignalTypeCapabilities callback should trigger.

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*/

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if (aidl_gnss_hal_->getInterfaceVersion() >= 3) {

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EXPECT_TRUE(aidl_gnss_cb_->signal_type_capabilities_cbq_.retrieve(

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aidl_gnss_cb_->last_signal_type_capabilities, TIMEOUT_SEC));

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EXPECT_EQ(aidl_gnss_cb_->signal_type_capabilities_cbq_.calledCount(), 1);

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}

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}

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void GnssHalTest::TearDown() {

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GnssHalTestTemplate<IGnss_V2_1>::TearDown();

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if (aidl_gnss_hal_ != nullptr) {

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aidl_gnss_hal_->close();

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aidl_gnss_hal_ = nullptr;

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}

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// Set to nullptr to destruct the callback event queues and warn of any unprocessed events.

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aidl_gnss_cb_ = nullptr;

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}

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void GnssHalTest::CheckLocation(const GnssLocation& location, bool check_speed) {

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Utils::checkLocation(location, check_speed, /* check_more_accuracies= */ true);

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}

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void GnssHalTest::SetPositionMode(const int min_interval_msec, const bool low_power_mode) {

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if (aidl_gnss_hal_->getInterfaceVersion() <= 1) {

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// Invoke the super method.

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return GnssHalTestTemplate<IGnss_V2_1>::SetPositionMode(min_interval_msec, low_power_mode);

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}

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const int kPreferredAccuracy = 0; // Ideally perfect (matches GnssLocationProvider)

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const int kPreferredTimeMsec = 0; // Ideally immediate

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IGnss::PositionModeOptions options;

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options.mode = IGnss::GnssPositionMode::MS_BASED;

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options.recurrence = IGnss::GnssPositionRecurrence::RECURRENCE_PERIODIC;

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options.minIntervalMs = min_interval_msec;

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options.preferredAccuracyMeters = kPreferredAccuracy;

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options.preferredTimeMs = kPreferredTimeMsec;

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options.lowPowerMode = low_power_mode;

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auto status = aidl_gnss_hal_->setPositionMode(options);

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ASSERT_TRUE(status.isOk());

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}

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bool GnssHalTest::StartAndCheckFirstLocation(const int min_interval_msec, const bool low_power_mode,

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const bool start_sv_status, const bool start_nmea) {

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if (aidl_gnss_hal_->getInterfaceVersion() <= 1) {

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// Invoke the super method.

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return GnssHalTestTemplate<IGnss_V2_1>::StartAndCheckFirstLocation(min_interval_msec,

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low_power_mode);

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}

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SetPositionMode(min_interval_msec, low_power_mode);

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if (start_sv_status) {

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auto status = aidl_gnss_hal_->startSvStatus();

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EXPECT_TRUE(status.isOk());

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}

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if (start_nmea) {

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auto status = aidl_gnss_hal_->startNmea();

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EXPECT_TRUE(status.isOk());

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}

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auto status = aidl_gnss_hal_->start();

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EXPECT_TRUE(status.isOk());

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/*

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* GnssLocationProvider support of AGPS SUPL & XtraDownloader is not available in VTS,

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* so allow time to demodulate ephemeris over the air.

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*/

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const int kFirstGnssLocationTimeoutSeconds = 75;

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EXPECT_TRUE(aidl_gnss_cb_->location_cbq_.retrieve(aidl_gnss_cb_->last_location_,

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kFirstGnssLocationTimeoutSeconds));

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int locationCalledCount = aidl_gnss_cb_->location_cbq_.calledCount();

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EXPECT_EQ(locationCalledCount, 1);

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if (locationCalledCount > 0) {

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// don't require speed on first fix

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CheckLocation(aidl_gnss_cb_->last_location_, false);

return true;

}

return false;

}

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bool GnssHalTest::StartAndCheckFirstLocation(const int min_interval_msec,

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const bool low_power_mode) {

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return StartAndCheckFirstLocation(min_interval_msec, low_power_mode,

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/* start_sv_status= */ true, /* start_nmea= */ true);

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}

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void GnssHalTest::StopAndClearLocations() {

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ALOGD("StopAndClearLocations");

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if (aidl_gnss_hal_->getInterfaceVersion() <= 1) {

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// Invoke the super method.

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return GnssHalTestTemplate<IGnss_V2_1>::StopAndClearLocations();

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}

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auto status = aidl_gnss_hal_->stopSvStatus();

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EXPECT_TRUE(status.isOk());

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status = aidl_gnss_hal_->stopNmea();

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EXPECT_TRUE(status.isOk());

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status = aidl_gnss_hal_->stop();

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EXPECT_TRUE(status.isOk());

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/*

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* Clear notify/waiting counter, allowing up till the timeout after

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* the last reply for final startup messages to arrive (esp. system

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* info.)

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*/

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while (aidl_gnss_cb_->location_cbq_.retrieve(aidl_gnss_cb_->last_location_, TIMEOUT_SEC)) {

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}

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aidl_gnss_cb_->location_cbq_.reset();

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}

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void GnssHalTest::StartAndCheckLocations(const int count, const bool start_sv_status,

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const bool start_nmea) {

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if (aidl_gnss_hal_->getInterfaceVersion() <= 1) {

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// Invoke the super method.

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return GnssHalTestTemplate<IGnss_V2_1>::StartAndCheckLocations(count);

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}

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const int kMinIntervalMsec = 500;

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const int kLocationTimeoutSubsequentSec = 2;

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const bool kLowPowerMode = false;

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EXPECT_TRUE(StartAndCheckFirstLocation(kMinIntervalMsec, kLowPowerMode, start_sv_status,

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start_nmea));

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for (int i = 1; i < count; i++) {

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EXPECT_TRUE(aidl_gnss_cb_->location_cbq_.retrieve(aidl_gnss_cb_->last_location_,

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kLocationTimeoutSubsequentSec));

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int locationCalledCount = aidl_gnss_cb_->location_cbq_.calledCount();

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EXPECT_EQ(locationCalledCount, i + 1);

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// Don't cause confusion by checking details if no location yet

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if (locationCalledCount > 0) {

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// Should be more than 1 location by now, but if not, still don't check first fix speed

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CheckLocation(aidl_gnss_cb_->last_location_, locationCalledCount > 1);

}

}

}

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void GnssHalTest::StartAndCheckLocations(const int count) {

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StartAndCheckLocations(count, /* start_sv_status= */ true, /* start_nmea= */ true);

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}

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std::list<std::vector<IGnssCallback::GnssSvInfo>> GnssHalTest::convertToAidl(

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const std::list<hidl_vec<IGnssCallback_2_1::GnssSvInfo>>& sv_info_list) {

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std::list<std::vector<IGnssCallback::GnssSvInfo>> aidl_sv_info_list;

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for (const auto& sv_info_vec : sv_info_list) {

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std::vector<IGnssCallback::GnssSvInfo> aidl_sv_info_vec;

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for (const auto& sv_info : sv_info_vec) {

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IGnssCallback::GnssSvInfo aidl_sv_info;

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aidl_sv_info.svid = sv_info.v2_0.v1_0.svid;

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aidl_sv_info.constellation =

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static_cast<GnssConstellationType>(sv_info.v2_0.constellation);

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aidl_sv_info.cN0Dbhz = sv_info.v2_0.v1_0.cN0Dbhz;

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aidl_sv_info.basebandCN0DbHz = sv_info.basebandCN0DbHz;

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aidl_sv_info.elevationDegrees = sv_info.v2_0.v1_0.elevationDegrees;

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aidl_sv_info.azimuthDegrees = sv_info.v2_0.v1_0.azimuthDegrees;

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aidl_sv_info.carrierFrequencyHz = (int64_t)sv_info.v2_0.v1_0.carrierFrequencyHz;

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aidl_sv_info.svFlag = (int)sv_info.v2_0.v1_0.svFlag;

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aidl_sv_info_vec.push_back(aidl_sv_info);

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}

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aidl_sv_info_list.push_back(aidl_sv_info_vec);

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}

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return aidl_sv_info_list;

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}

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/*

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* FindStrongFrequentSource:

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*

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* Search through a GnssSvStatus list for the strongest satellite observed enough times per

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* constellation

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*

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* returns the strongest sources for each constellation,

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* or an empty vector if none are found sufficient times

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*/

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std::vector<BlocklistedSource> GnssHalTest::FindStrongFrequentSources(

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const std::list<hidl_vec<IGnssCallback_2_1::GnssSvInfo>> sv_info_list,

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const int min_observations) {

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return FindStrongFrequentSources(convertToAidl(sv_info_list), min_observations);

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}

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bool GnssHalTest::isBlockableConstellation(const GnssConstellationType constellation,

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const bool isCnBuild) {

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if (constellation == GnssConstellationType::GPS) {

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return false;

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}

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if (isCnBuild && (constellation == GnssConstellationType::BEIDOU)) {

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// Do not blocklist BDS on CN builds

return false;

}

return true;

}

std::vector<BlocklistedSource> GnssHalTest::FindStrongFrequentSources(

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const std::list<std::vector<IGnssCallback::GnssSvInfo>> sv_info_list,

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const int min_observations) {

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ALOGD("Find strongest sv from %d sv_info_list with %d min_observations.",

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(int)sv_info_list.size(), min_observations);

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std::map<ComparableBlocklistedSource, SignalCounts> mapSignals;

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for (const auto& sv_info_vec : sv_info_list) {

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for (uint32_t iSv = 0; iSv < sv_info_vec.size(); iSv++) {

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const auto& gnss_sv = sv_info_vec[iSv];

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if (gnss_sv.svFlag & (int)IGnssCallback::GnssSvFlags::USED_IN_FIX) {

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ComparableBlocklistedSource source;

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source.id.svid = gnss_sv.svid;

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source.id.constellation = gnss_sv.constellation;

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const auto& itSignal = mapSignals.find(source);

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if (itSignal == mapSignals.end()) {

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SignalCounts counts;

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counts.observations = 1;

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counts.max_cn0_dbhz = gnss_sv.cN0Dbhz;

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mapSignals.insert(

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std::pair<ComparableBlocklistedSource, SignalCounts>(source, counts));

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} else {

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itSignal->second.observations++;

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if (itSignal->second.max_cn0_dbhz < gnss_sv.cN0Dbhz) {

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itSignal->second.max_cn0_dbhz = gnss_sv.cN0Dbhz;

}

}

}

}

}

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// the Cn0 of the strongest SV per constellation

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std::unordered_map<GnssConstellationType, float> max_cn0_map;

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// # of total observations of all signals per constellation

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std::unordered_map<GnssConstellationType, int> total_observation_count_map;

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// # of observations of the strongest sv per constellation

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std::unordered_map<GnssConstellationType, int> source_observation_count_map;

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// the source to blocklist per constellation

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std::unordered_map<GnssConstellationType, ComparableBlocklistedSource> source_map;

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// # of signals per constellation

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std::unordered_map<GnssConstellationType, int> signal_count_map;

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for (auto const& pairSignal : mapSignals) {

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ComparableBlocklistedSource source = pairSignal.first;

350

total_observation_count_map[source.id.constellation] += pairSignal.second.observations;

351

signal_count_map[source.id.constellation]++;

352

if (pairSignal.second.observations < min_observations) {

353

continue;

354

}

355

if (pairSignal.second.max_cn0_dbhz > max_cn0_map[source.id.constellation]) {

356

source_map[source.id.constellation] = pairSignal.first;

357

source_observation_count_map[source.id.constellation] = pairSignal.second.observations;

358

max_cn0_map[source.id.constellation] = pairSignal.second.max_cn0_dbhz;

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2021-11-24 16:39:13 -0800

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359

}

360

}

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2021-11-24 16:39:13 -0800

[diff] [blame]

361

Yu-Han Yang

2024-09-09 21:46:23 +0000

[diff] [blame]

362

std::vector<BlocklistedSource> sources;

363

if (aidl_gnss_hal_->getInterfaceVersion() <= 4) {

364

/* For AIDL version <= 4 (launched-in-15 or earlier), only blocklist 1 sv */

365

float max_cn0 = 0;

366

ComparableBlocklistedSource source_to_blocklist;

367

for (auto const& pair : source_map) {

368

GnssConstellationType constellation = pair.first;

369

ComparableBlocklistedSource source = pair.second;

370

if (max_cn0_map[constellation] > max_cn0) {

371

max_cn0 = max_cn0_map[constellation];

372

source_to_blocklist = source;

373

}

374

}

375

if (source_to_blocklist.id.constellation != GnssConstellationType::UNKNOWN) {

376

ALOGD("In constellation %d, among %d observed SVs, svid %d is chosen to blocklist. "

377

"It has %d observations with max Cn0: %.1f among %d total observations of this "

378

"constellation.",

379

(int)source_to_blocklist.id.constellation,

380

signal_count_map[source_to_blocklist.id.constellation],

381

source_to_blocklist.id.svid,

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source_observation_count_map[source_to_blocklist.id.constellation], max_cn0,

383

total_observation_count_map[source_to_blocklist.id.constellation]);

384

sources.push_back(source_to_blocklist.id);

385

}

386

} else {

387

/* For AIDL version >= 5 (launched-in-16 or later), blocklist 1 sv per constellation */

388

for (auto const& pair : source_map) {

389

ComparableBlocklistedSource source = pair.second;

390

if (signal_count_map[source.id.constellation] < 4) {

391

// Skip the constellation with a small number of signals

392

// 4 is arbitrarily chosen to avoid affecting constellations with a limited coverage

393

continue;

394

}

395

ALOGD("In constellation %d, among %d observed SVs, svid %d is chosen to blocklist. "

396

"It has %d observations with max Cn0: %.1f among %d total observations of this "

397

"constellation.",

398

(int)source.id.constellation, signal_count_map[source.id.constellation],

399

source.id.svid, source_observation_count_map[source.id.constellation],

400

max_cn0_map[source.id.constellation],

401

total_observation_count_map[source.id.constellation]);

402

sources.push_back(source.id);

}

}

return sources;

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2021-11-24 16:39:13 -0800

[diff] [blame]

407

}

408

Yu-Han Yang

2024-08-27 22:28:47 +0000

[diff] [blame]

409

GnssConstellationType GnssHalTest::startLocationAndGetBlockableConstellation(

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410

const int locations_to_await, const int gnss_sv_info_list_timeout) {

Yu-Han Yang

2022-02-09 14:47:50 -0800

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411

if (aidl_gnss_hal_->getInterfaceVersion() <= 1) {

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2021-11-24 16:39:13 -0800

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412

return static_cast<GnssConstellationType>(

413

GnssHalTestTemplate<IGnss_V2_1>::startLocationAndGetNonGpsConstellation(

414

locations_to_await, gnss_sv_info_list_timeout));

415

}

416

aidl_gnss_cb_->location_cbq_.reset();

417

StartAndCheckLocations(locations_to_await);

418

const int location_called_count = aidl_gnss_cb_->location_cbq_.calledCount();

419

420

// Tolerate 1 less sv status to handle edge cases in reporting.

421

int sv_info_list_cbq_size = aidl_gnss_cb_->sv_info_list_cbq_.size();

422

EXPECT_GE(sv_info_list_cbq_size + 1, locations_to_await);

423

ALOGD("Observed %d GnssSvInfo, while awaiting %d Locations (%d received)",

424

sv_info_list_cbq_size, locations_to_await, location_called_count);

425

Yu-Han Yang

2024-08-27 22:28:47 +0000

[diff] [blame]

426

bool isCnBuild = Utils::isCnBuild();

427

ALOGD("isCnBuild: %s", isCnBuild ? "true" : "false");

428

// Find first blockable constellation to blocklist

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429

GnssConstellationType constellation_to_blocklist = GnssConstellationType::UNKNOWN;

430

for (int i = 0; i < sv_info_list_cbq_size; ++i) {

431

std::vector<IGnssCallback::GnssSvInfo> sv_info_vec;

432

aidl_gnss_cb_->sv_info_list_cbq_.retrieve(sv_info_vec, gnss_sv_info_list_timeout);

433

for (uint32_t iSv = 0; iSv < sv_info_vec.size(); iSv++) {

434

auto& gnss_sv = sv_info_vec[iSv];

435

if ((gnss_sv.svFlag & (uint32_t)IGnssCallback::GnssSvFlags::USED_IN_FIX) &&

436

(gnss_sv.constellation != GnssConstellationType::UNKNOWN) &&

437

(gnss_sv.constellation != GnssConstellationType::GPS)) {

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2024-08-27 22:28:47 +0000

[diff] [blame]

438

if (isCnBuild && (gnss_sv.constellation == GnssConstellationType::BEIDOU)) {

439

// Do not blocklist BDS on CN builds

440

continue;

441

}

442

// found a blockable constellation

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443

constellation_to_blocklist = gnss_sv.constellation;

break;

}

}

if (constellation_to_blocklist != GnssConstellationType::UNKNOWN) {

break;

}

}

if (constellation_to_blocklist == GnssConstellationType::UNKNOWN) {

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2024-08-27 22:28:47 +0000

[diff] [blame]

453

ALOGI("No blockable constellations found, constellation blocklist test less effective.");

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2021-11-24 16:39:13 -0800

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454

// Proceed functionally to blocklist something.

455

constellation_to_blocklist = GnssConstellationType::GLONASS;

456

}

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2024-08-27 22:28:47 +0000

[diff] [blame]

457

ALOGD("Constellation to blocklist: %d", constellation_to_blocklist);

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458

return constellation_to_blocklist;

Yu-Han Yang

2020-09-30 17:01:53 -0700

[diff] [blame]

459

}

Yu-Han Yang

2022-04-27 09:57:01 -0700

[diff] [blame]

460

461

void GnssHalTest::checkGnssMeasurementClockFields(const GnssData& measurement) {

462

Utils::checkElapsedRealtime(measurement.elapsedRealtime);

463

ASSERT_TRUE(measurement.clock.gnssClockFlags >= 0 &&

464

measurement.clock.gnssClockFlags <=

465

(GnssClock::HAS_LEAP_SECOND | GnssClock::HAS_TIME_UNCERTAINTY |

466

GnssClock::HAS_FULL_BIAS | GnssClock::HAS_BIAS |

467

GnssClock::HAS_BIAS_UNCERTAINTY | GnssClock::HAS_DRIFT |

468

GnssClock::HAS_DRIFT_UNCERTAINTY));

469

}

470

471

void GnssHalTest::checkGnssMeasurementFlags(const GnssMeasurement& measurement) {

472

ASSERT_TRUE(measurement.flags >= 0 &&

473

measurement.flags <=

474

(GnssMeasurement::HAS_SNR | GnssMeasurement::HAS_CARRIER_FREQUENCY |

475

GnssMeasurement::HAS_CARRIER_CYCLES | GnssMeasurement::HAS_CARRIER_PHASE |

476

GnssMeasurement::HAS_CARRIER_PHASE_UNCERTAINTY |

477

GnssMeasurement::HAS_AUTOMATIC_GAIN_CONTROL |

478

GnssMeasurement::HAS_FULL_ISB | GnssMeasurement::HAS_FULL_ISB_UNCERTAINTY |

479

GnssMeasurement::HAS_SATELLITE_ISB |

480

GnssMeasurement::HAS_SATELLITE_ISB_UNCERTAINTY |

481

GnssMeasurement::HAS_SATELLITE_PVT |

482

GnssMeasurement::HAS_CORRELATION_VECTOR));

483

}

484

485

void GnssHalTest::checkGnssMeasurementFields(const GnssMeasurement& measurement,

486

const GnssData& data) {

487

checkGnssMeasurementFlags(measurement);

488

// Verify CodeType is valid.

489

ASSERT_NE(measurement.signalType.codeType, "");

490

// Verify basebandCn0DbHz is valid.

491

ASSERT_TRUE(measurement.basebandCN0DbHz > 0.0 && measurement.basebandCN0DbHz <= 65.0);

492

493

if (((measurement.flags & GnssMeasurement::HAS_FULL_ISB) > 0) &&

494

((measurement.flags & GnssMeasurement::HAS_FULL_ISB_UNCERTAINTY) > 0) &&

495

((measurement.flags & GnssMeasurement::HAS_SATELLITE_ISB) > 0) &&

496

((measurement.flags & GnssMeasurement::HAS_SATELLITE_ISB_UNCERTAINTY) > 0)) {

497

GnssConstellationType referenceConstellation =

498

data.clock.referenceSignalTypeForIsb.constellation;

499

double carrierFrequencyHz = data.clock.referenceSignalTypeForIsb.carrierFrequencyHz;

500

std::string codeType = data.clock.referenceSignalTypeForIsb.codeType;

501

502

ASSERT_TRUE(referenceConstellation >= GnssConstellationType::UNKNOWN &&

503

referenceConstellation <= GnssConstellationType::IRNSS);

504

ASSERT_TRUE(carrierFrequencyHz > 0);

505

ASSERT_NE(codeType, "");

506

507

ASSERT_TRUE(std::abs(measurement.fullInterSignalBiasNs) < 1.0e6);

508

ASSERT_TRUE(measurement.fullInterSignalBiasUncertaintyNs >= 0);

509

ASSERT_TRUE(std::abs(measurement.satelliteInterSignalBiasNs) < 1.0e6);

510

ASSERT_TRUE(measurement.satelliteInterSignalBiasUncertaintyNs >= 0);

}

}

void GnssHalTest::startMeasurementWithInterval(

515

int intervalMs, const sp<IGnssMeasurementInterface>& iGnssMeasurement,

516

sp<GnssMeasurementCallbackAidl>& callback) {

517

ALOGD("Start requesting measurement at interval of %d millis.", intervalMs);

518

IGnssMeasurementInterface::Options options;

519

options.intervalMs = intervalMs;

520

auto status = iGnssMeasurement->setCallbackWithOptions(callback, options);

521

ASSERT_TRUE(status.isOk());

522

}

523

524

void GnssHalTest::collectMeasurementIntervals(const sp<GnssMeasurementCallbackAidl>& callback,

525

const int numMeasurementEvents,

526

const int timeoutSeconds,

527

std::vector<int>& deltasMs) {

Yu-Han Yang

dbab0de

2023-02-07 19:01:56 +0000

[diff] [blame]

528

callback->gnss_data_cbq_.reset(); // throw away the initial measurements if any

Yu-Han Yang

2022-04-27 09:57:01 -0700

[diff] [blame]

529

int64_t lastElapsedRealtimeMillis = 0;

530

for (int i = 0; i < numMeasurementEvents; i++) {

531

GnssData lastGnssData;

532

ASSERT_TRUE(callback->gnss_data_cbq_.retrieve(lastGnssData, timeoutSeconds));

533

EXPECT_EQ(callback->gnss_data_cbq_.calledCount(), i + 1);

Yu-Han Yang

8c495af

2024-08-27 22:38:10 +0000

[diff] [blame]

534

if (i <= 2 && lastGnssData.measurements.size() == 0) {

535

// Allow 3 seconds tolerance for empty measurement

536

continue;

537

}

Yu-Han Yang