sdm845/android/GnssDebug.cpp - platform/hardware/qcom/sdm845/gps - Git at Google

 /*
  * Copyright (C) 2016 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 "LocSvc_GnssDebugInterface"

 #include <log/log.h>
 #include <log_util.h>
 #include "Gnss.h"
 #include "GnssDebug.h"
 #include "LocationUtil.h"

 namespace android {
 namespace hardware {
 namespace gnss {
 namespace V1_1 {
 namespace implementation {

 using ::android::hardware::hidl_vec;

 #define GNSS_DEBUG_UNKNOWN_HORIZONTAL_ACCURACY_METERS (20000000)
 #define GNSS_DEBUG_UNKNOWN_VERTICAL_ACCURACY_METERS   (20000)
 #define GNSS_DEBUG_UNKNOWN_SPEED_ACCURACY_PER_SEC     (500)
 #define GNSS_DEBUG_UNKNOWN_BEARING_ACCURACY_DEG       (180)

 #define GNSS_DEBUG_UNKNOWN_UTC_TIME            (1483228800000LL) // 1/1/2017 00:00 GMT
 #define GNSS_DEBUG_UNKNOWN_UTC_TIME_UNC_MIN    (999) // 999 ns
 #define GNSS_DEBUG_UNKNOWN_UTC_TIME_UNC_MAX    (1.57783680E17) // 5 years in ns
 #define GNSS_DEBUG_UNKNOWN_FREQ_UNC_NS_PER_SEC (2.0e5)  // ppm

 GnssDebug::GnssDebug(Gnss* gnss) : mGnss(gnss)
 {
 }

 /*
  * This methods requests position, time and satellite ephemeris debug information
  * from the HAL.
  *
  * @return void
 */
 Return<void> GnssDebug::getDebugData(getDebugData_cb _hidl_cb)
 {
     LOC_LOGD("%s]: ", __func__);

     DebugData data = { };

     if((nullptr == mGnss) || (nullptr == mGnss->getGnssInterface())){
         LOC_LOGE("GnssDebug - Null GNSS interface");
         _hidl_cb(data);
         return Void();
     }

     // get debug report snapshot via hal interface
     GnssDebugReport reports = { };
     mGnss->getGnssInterface()->getDebugReport(reports);

     // location block
     if (reports.mLocation.mValid) {
         data.position.valid = true;
         data.position.latitudeDegrees = reports.mLocation.mLocation.latitude;
         data.position.longitudeDegrees = reports.mLocation.mLocation.longitude;
         data.position.altitudeMeters = reports.mLocation.mLocation.altitude;

         data.position.speedMetersPerSec =
             (double)(reports.mLocation.mLocation.speed);
         data.position.bearingDegrees =
             (double)(reports.mLocation.mLocation.bearing);
         data.position.horizontalAccuracyMeters =
             (double)(reports.mLocation.mLocation.accuracy);
         data.position.verticalAccuracyMeters =
             reports.mLocation.verticalAccuracyMeters;
         data.position.speedAccuracyMetersPerSecond =
             reports.mLocation.speedAccuracyMetersPerSecond;
         data.position.bearingAccuracyDegrees =
             reports.mLocation.bearingAccuracyDegrees;

         struct timespec tv_now;
         clock_gettime(CLOCK_MONOTONIC, &tv_now);
         data.position.ageSeconds =
             (tv_now.tv_sec - reports.mLocation.mUtcReported.tv_sec) +
             (float)((tv_now.tv_nsec - reports.mLocation.mUtcReported.tv_nsec)) / 1000000000LL;
     }
     else {
         data.position.valid = false;
     }

     if (data.position.horizontalAccuracyMeters <= 0 ||
         data.position.horizontalAccuracyMeters > GNSS_DEBUG_UNKNOWN_HORIZONTAL_ACCURACY_METERS) {
         data.position.horizontalAccuracyMeters = GNSS_DEBUG_UNKNOWN_HORIZONTAL_ACCURACY_METERS;
     }
     if (data.position.verticalAccuracyMeters <= 0 ||
         data.position.verticalAccuracyMeters > GNSS_DEBUG_UNKNOWN_VERTICAL_ACCURACY_METERS) {
         data.position.verticalAccuracyMeters = GNSS_DEBUG_UNKNOWN_VERTICAL_ACCURACY_METERS;
     }
     if (data.position.speedAccuracyMetersPerSecond <= 0 ||
         data.position.speedAccuracyMetersPerSecond > GNSS_DEBUG_UNKNOWN_SPEED_ACCURACY_PER_SEC) {
         data.position.speedAccuracyMetersPerSecond = GNSS_DEBUG_UNKNOWN_SPEED_ACCURACY_PER_SEC;
     }
     if (data.position.bearingAccuracyDegrees <= 0 ||
         data.position.bearingAccuracyDegrees > GNSS_DEBUG_UNKNOWN_BEARING_ACCURACY_DEG) {
         data.position.bearingAccuracyDegrees = GNSS_DEBUG_UNKNOWN_BEARING_ACCURACY_DEG;
     }

     // time block
     if (reports.mTime.mValid) {
         data.time.timeEstimate = reports.mTime.timeEstimate;
         data.time.timeUncertaintyNs = reports.mTime.timeUncertaintyNs;
         data.time.frequencyUncertaintyNsPerSec =
             reports.mTime.frequencyUncertaintyNsPerSec;
     }

     if (data.time.timeEstimate < GNSS_DEBUG_UNKNOWN_UTC_TIME) {
         data.time.timeEstimate = GNSS_DEBUG_UNKNOWN_UTC_TIME;
     }
     if (data.time.timeUncertaintyNs <= 0) {
         data.time.timeUncertaintyNs = (float)GNSS_DEBUG_UNKNOWN_UTC_TIME_UNC_MIN;
     } else if (data.time.timeUncertaintyNs > GNSS_DEBUG_UNKNOWN_UTC_TIME_UNC_MAX) {
         data.time.timeUncertaintyNs = (float)GNSS_DEBUG_UNKNOWN_UTC_TIME_UNC_MAX;
     }
     if (data.time.frequencyUncertaintyNsPerSec <= 0 ||
         data.time.frequencyUncertaintyNsPerSec > (float)GNSS_DEBUG_UNKNOWN_FREQ_UNC_NS_PER_SEC) {
         data.time.frequencyUncertaintyNsPerSec = (float)GNSS_DEBUG_UNKNOWN_FREQ_UNC_NS_PER_SEC;
     }

     // satellite data block
     SatelliteData s = { };
     std::vector<SatelliteData> s_array = { };

     for (uint32_t i=0; i<reports.mSatelliteInfo.size(); i++) {
         memset(&s, 0, sizeof(s));
         s.svid = reports.mSatelliteInfo[i].svid;
         convertGnssConstellationType(
             reports.mSatelliteInfo[i].constellation, s.constellation);
         convertGnssEphemerisType(
             reports.mSatelliteInfo[i].mEphemerisType, s.ephemerisType);
         convertGnssEphemerisSource(
             reports.mSatelliteInfo[i].mEphemerisSource, s.ephemerisSource);
         convertGnssEphemerisHealth(
             reports.mSatelliteInfo[i].mEphemerisHealth, s.ephemerisHealth);

         s.ephemerisAgeSeconds =
             reports.mSatelliteInfo[i].ephemerisAgeSeconds;
         s.serverPredictionIsAvailable =
             reports.mSatelliteInfo[i].serverPredictionIsAvailable;
         s.serverPredictionAgeSeconds =
             reports.mSatelliteInfo[i].serverPredictionAgeSeconds;

         s_array.push_back(s);
     }
     data.satelliteDataArray = s_array;

     // callback HIDL with collected debug data
     _hidl_cb(data);
     return Void();
 }

 }  // namespace implementation
 }  // namespace V1_1
 }  // namespace gnss
 }  // namespace hardware
 }  // namespace android
	/*
	* Copyright (C) 2016 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 "LocSvc_GnssDebugInterface"

	#include <log/log.h>
	#include <log_util.h>
	#include "Gnss.h"
	#include "GnssDebug.h"
	#include "LocationUtil.h"

	namespace android {
	namespace hardware {
	namespace gnss {
	namespace V1_1 {
	namespace implementation {

	using ::android::hardware::hidl_vec;

	#define GNSS_DEBUG_UNKNOWN_HORIZONTAL_ACCURACY_METERS (20000000)
	#define GNSS_DEBUG_UNKNOWN_VERTICAL_ACCURACY_METERS (20000)
	#define GNSS_DEBUG_UNKNOWN_SPEED_ACCURACY_PER_SEC (500)
	#define GNSS_DEBUG_UNKNOWN_BEARING_ACCURACY_DEG (180)

	#define GNSS_DEBUG_UNKNOWN_UTC_TIME (1483228800000LL) // 1/1/2017 00:00 GMT
	#define GNSS_DEBUG_UNKNOWN_UTC_TIME_UNC_MIN (999) // 999 ns
	#define GNSS_DEBUG_UNKNOWN_UTC_TIME_UNC_MAX (1.57783680E17) // 5 years in ns
	#define GNSS_DEBUG_UNKNOWN_FREQ_UNC_NS_PER_SEC (2.0e5) // ppm

	GnssDebug::GnssDebug(Gnss* gnss) : mGnss(gnss)
	{
	}

	/*
	* This methods requests position, time and satellite ephemeris debug information
	* from the HAL.
	*
	* @return void
	*/
	Return<void> GnssDebug::getDebugData(getDebugData_cb _hidl_cb)
	{
	LOC_LOGD("%s]: ", __func__);

	DebugData data = { };

	if((nullptr == mGnss) \|\| (nullptr == mGnss->getGnssInterface())){
	LOC_LOGE("GnssDebug - Null GNSS interface");
	_hidl_cb(data);
	return Void();
	}

	// get debug report snapshot via hal interface
	GnssDebugReport reports = { };
	mGnss->getGnssInterface()->getDebugReport(reports);

	// location block
	if (reports.mLocation.mValid) {
	data.position.valid = true;
	data.position.latitudeDegrees = reports.mLocation.mLocation.latitude;
	data.position.longitudeDegrees = reports.mLocation.mLocation.longitude;
	data.position.altitudeMeters = reports.mLocation.mLocation.altitude;

	data.position.speedMetersPerSec =
	(double)(reports.mLocation.mLocation.speed);
	data.position.bearingDegrees =
	(double)(reports.mLocation.mLocation.bearing);
	data.position.horizontalAccuracyMeters =
	(double)(reports.mLocation.mLocation.accuracy);
	data.position.verticalAccuracyMeters =
	reports.mLocation.verticalAccuracyMeters;
	data.position.speedAccuracyMetersPerSecond =
	reports.mLocation.speedAccuracyMetersPerSecond;
	data.position.bearingAccuracyDegrees =
	reports.mLocation.bearingAccuracyDegrees;

	struct timespec tv_now;
	clock_gettime(CLOCK_MONOTONIC, &tv_now);
	data.position.ageSeconds =
	(tv_now.tv_sec - reports.mLocation.mUtcReported.tv_sec) +
	(float)((tv_now.tv_nsec - reports.mLocation.mUtcReported.tv_nsec)) / 1000000000LL;
	}
	else {
	data.position.valid = false;
	}

	if (data.position.horizontalAccuracyMeters <= 0 \|\|
	data.position.horizontalAccuracyMeters > GNSS_DEBUG_UNKNOWN_HORIZONTAL_ACCURACY_METERS) {
	data.position.horizontalAccuracyMeters = GNSS_DEBUG_UNKNOWN_HORIZONTAL_ACCURACY_METERS;
	}
	if (data.position.verticalAccuracyMeters <= 0 \|\|
	data.position.verticalAccuracyMeters > GNSS_DEBUG_UNKNOWN_VERTICAL_ACCURACY_METERS) {
	data.position.verticalAccuracyMeters = GNSS_DEBUG_UNKNOWN_VERTICAL_ACCURACY_METERS;
	}
	if (data.position.speedAccuracyMetersPerSecond <= 0 \|\|
	data.position.speedAccuracyMetersPerSecond > GNSS_DEBUG_UNKNOWN_SPEED_ACCURACY_PER_SEC) {
	data.position.speedAccuracyMetersPerSecond = GNSS_DEBUG_UNKNOWN_SPEED_ACCURACY_PER_SEC;
	}
	if (data.position.bearingAccuracyDegrees <= 0 \|\|
	data.position.bearingAccuracyDegrees > GNSS_DEBUG_UNKNOWN_BEARING_ACCURACY_DEG) {
	data.position.bearingAccuracyDegrees = GNSS_DEBUG_UNKNOWN_BEARING_ACCURACY_DEG;
	}

	// time block
	if (reports.mTime.mValid) {
	data.time.timeEstimate = reports.mTime.timeEstimate;
	data.time.timeUncertaintyNs = reports.mTime.timeUncertaintyNs;
	data.time.frequencyUncertaintyNsPerSec =
	reports.mTime.frequencyUncertaintyNsPerSec;
	}

	if (data.time.timeEstimate < GNSS_DEBUG_UNKNOWN_UTC_TIME) {
	data.time.timeEstimate = GNSS_DEBUG_UNKNOWN_UTC_TIME;
	}
	if (data.time.timeUncertaintyNs <= 0) {
	data.time.timeUncertaintyNs = (float)GNSS_DEBUG_UNKNOWN_UTC_TIME_UNC_MIN;
	} else if (data.time.timeUncertaintyNs > GNSS_DEBUG_UNKNOWN_UTC_TIME_UNC_MAX) {
	data.time.timeUncertaintyNs = (float)GNSS_DEBUG_UNKNOWN_UTC_TIME_UNC_MAX;
	}
	if (data.time.frequencyUncertaintyNsPerSec <= 0 \|\|
	data.time.frequencyUncertaintyNsPerSec > (float)GNSS_DEBUG_UNKNOWN_FREQ_UNC_NS_PER_SEC) {
	data.time.frequencyUncertaintyNsPerSec = (float)GNSS_DEBUG_UNKNOWN_FREQ_UNC_NS_PER_SEC;
	}

	// satellite data block
	SatelliteData s = { };
	std::vector<SatelliteData> s_array = { };

	for (uint32_t i=0; i<reports.mSatelliteInfo.size(); i++) {
	memset(&s, 0, sizeof(s));
	s.svid = reports.mSatelliteInfo[i].svid;
	convertGnssConstellationType(
	reports.mSatelliteInfo[i].constellation, s.constellation);
	convertGnssEphemerisType(
	reports.mSatelliteInfo[i].mEphemerisType, s.ephemerisType);
	convertGnssEphemerisSource(
	reports.mSatelliteInfo[i].mEphemerisSource, s.ephemerisSource);
	convertGnssEphemerisHealth(
	reports.mSatelliteInfo[i].mEphemerisHealth, s.ephemerisHealth);

	s.ephemerisAgeSeconds =
	reports.mSatelliteInfo[i].ephemerisAgeSeconds;
	s.serverPredictionIsAvailable =
	reports.mSatelliteInfo[i].serverPredictionIsAvailable;
	s.serverPredictionAgeSeconds =
	reports.mSatelliteInfo[i].serverPredictionAgeSeconds;

	s_array.push_back(s);
	}
	data.satelliteDataArray = s_array;

	// callback HIDL with collected debug data
	_hidl_cb(data);
	return Void();
	}

	} // namespace implementation
	} // namespace V1_1
	} // namespace gnss
	} // namespace hardware
	} // namespace android