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android_device_xiaomi_sdm66.../android/2.0/location_api/GnssAPIClient.cpp
haohuang 31f3995e14 Remove assigning preferredAccuracyMeters to minDistance 
Remove this assigning in gnssSetPositionMode. We shouldn't
assign preferredAccuracyMeters to minDistance, because if
preferredAccuracyMeters is larger than 0, GnssAdapter
will start distance based tracking which is not expected.

Change-Id: I2c2acedd121e02bf9da1136540cc34b9257197fd
CRs-fixed: 2566229
2019-11-14 17:39:09 +08:00

727 lines
29 KiB
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/* Copyright (c) 2017-2019, The Linux Foundation. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met:
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following
* disclaimer in the documentation and/or other materials provided
* with the distribution.
* * Neither the name of The Linux Foundation, nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
* BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
* WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
* OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
* IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
*/
#define LOG_NDEBUG 0
#define LOG_TAG "LocSvc_GnssAPIClient"
#define SINGLE_SHOT_MIN_TRACKING_INTERVAL_MSEC (590 * 60 * 60 * 1000) // 590 hours
#include <log_util.h>
#include <loc_cfg.h>
#include "LocationUtil.h"
#include "GnssAPIClient.h"
#include <LocContext.h>
namespace android {
namespace hardware {
namespace gnss {
namespace V2_0 {
namespace implementation {
using ::android::hardware::gnss::V2_0::IGnss;
using ::android::hardware::gnss::V2_0::IGnssCallback;
using ::android::hardware::gnss::V1_0::IGnssNiCallback;
using ::android::hardware::gnss::V2_0::GnssLocation;
static void convertGnssSvStatus(GnssSvNotification& in, V1_0::IGnssCallback::GnssSvStatus& out);
static void convertGnssSvStatus(GnssSvNotification& in,
hidl_vec<V2_0::IGnssCallback::GnssSvInfo>& out);
GnssAPIClient::GnssAPIClient(const sp<V1_0::IGnssCallback>& gpsCb,
const sp<V1_0::IGnssNiCallback>& niCb) :
LocationAPIClientBase(),
mGnssCbIface(nullptr),
mGnssNiCbIface(nullptr),
mControlClient(new LocationAPIControlClient()),
mLocationCapabilitiesMask(0),
mLocationCapabilitiesCached(false),
mTracking(false),
mGnssCbIface_2_0(nullptr)
{
LOC_LOGD("%s]: (%p %p)", __FUNCTION__, &gpsCb, &niCb);
initLocationOptions();
gnssUpdateCallbacks(gpsCb, niCb);
}
GnssAPIClient::GnssAPIClient(const sp<V2_0::IGnssCallback>& gpsCb) :
LocationAPIClientBase(),
mGnssCbIface(nullptr),
mGnssNiCbIface(nullptr),
mControlClient(new LocationAPIControlClient()),
mLocationCapabilitiesMask(0),
mLocationCapabilitiesCached(false),
mTracking(false),
mGnssCbIface_2_0(nullptr)
{
LOC_LOGD("%s]: (%p)", __FUNCTION__, &gpsCb);
initLocationOptions();
gnssUpdateCallbacks_2_0(gpsCb);
}
GnssAPIClient::~GnssAPIClient()
{
LOC_LOGD("%s]: ()", __FUNCTION__);
if (mControlClient) {
delete mControlClient;
mControlClient = nullptr;
}
}
void GnssAPIClient::initLocationOptions()
{
// set default LocationOptions.
memset(&mTrackingOptions, 0, sizeof(TrackingOptions));
mTrackingOptions.size = sizeof(TrackingOptions);
mTrackingOptions.minInterval = 1000;
mTrackingOptions.minDistance = 0;
mTrackingOptions.mode = GNSS_SUPL_MODE_STANDALONE;
}
void GnssAPIClient::setCallbacks()
{
LocationCallbacks locationCallbacks;
memset(&locationCallbacks, 0, sizeof(LocationCallbacks));
locationCallbacks.size = sizeof(LocationCallbacks);
locationCallbacks.trackingCb = nullptr;
locationCallbacks.trackingCb = [this](Location location) {
onTrackingCb(location);
};
locationCallbacks.batchingCb = nullptr;
locationCallbacks.geofenceBreachCb = nullptr;
locationCallbacks.geofenceStatusCb = nullptr;
locationCallbacks.gnssLocationInfoCb = nullptr;
locationCallbacks.gnssNiCb = nullptr;
if (mGnssNiCbIface != nullptr) {
loc_core::ContextBase* context =
loc_core::LocContext::getLocContext(
NULL, NULL,
loc_core::LocContext::mLocationHalName, false);
if (!context->hasAgpsExtendedCapabilities()) {
LOC_LOGD("Registering NI CB");
locationCallbacks.gnssNiCb = [this](uint32_t id, GnssNiNotification gnssNiNotify) {
onGnssNiCb(id, gnssNiNotify);
};
}
}
locationCallbacks.gnssSvCb = nullptr;
locationCallbacks.gnssSvCb = [this](GnssSvNotification gnssSvNotification) {
onGnssSvCb(gnssSvNotification);
};
locationCallbacks.gnssNmeaCb = nullptr;
locationCallbacks.gnssNmeaCb = [this](GnssNmeaNotification gnssNmeaNotification) {
onGnssNmeaCb(gnssNmeaNotification);
};
locationCallbacks.gnssMeasurementsCb = nullptr;
locAPISetCallbacks(locationCallbacks);
}
// for GpsInterface
void GnssAPIClient::gnssUpdateCallbacks(const sp<V1_0::IGnssCallback>& gpsCb,
const sp<IGnssNiCallback>& niCb)
{
LOC_LOGD("%s]: (%p %p)", __FUNCTION__, &gpsCb, &niCb);
mMutex.lock();
mGnssCbIface = gpsCb;
mGnssNiCbIface = niCb;
mMutex.unlock();
if (mGnssCbIface != nullptr || mGnssNiCbIface != nullptr) {
setCallbacks();
}
}
void GnssAPIClient::gnssUpdateCallbacks_2_0(const sp<V2_0::IGnssCallback>& gpsCb)
{
LOC_LOGD("%s]: (%p)", __FUNCTION__, &gpsCb);
mMutex.lock();
mGnssCbIface_2_0 = gpsCb;
mMutex.unlock();
if (mGnssCbIface_2_0 != nullptr) {
setCallbacks();
}
}
bool GnssAPIClient::gnssStart()
{
LOC_LOGD("%s]: ()", __FUNCTION__);
mMutex.lock();
mTracking = true;
mMutex.unlock();
bool retVal = true;
locAPIStartTracking(mTrackingOptions);
return retVal;
}
bool GnssAPIClient::gnssStop()
{
LOC_LOGD("%s]: ()", __FUNCTION__);
mMutex.lock();
mTracking = false;
mMutex.unlock();
bool retVal = true;
locAPIStopTracking();
return retVal;
}
bool GnssAPIClient::gnssSetPositionMode(IGnss::GnssPositionMode mode,
IGnss::GnssPositionRecurrence recurrence, uint32_t minIntervalMs,
uint32_t preferredAccuracyMeters, uint32_t preferredTimeMs,
GnssPowerMode powerMode, uint32_t timeBetweenMeasurement)
{
LOC_LOGD("%s]: (%d %d %d %d %d %d %d)", __FUNCTION__,
(int)mode, recurrence, minIntervalMs, preferredAccuracyMeters,
preferredTimeMs, (int)powerMode, timeBetweenMeasurement);
bool retVal = true;
memset(&mTrackingOptions, 0, sizeof(TrackingOptions));
mTrackingOptions.size = sizeof(TrackingOptions);
mTrackingOptions.minInterval = minIntervalMs;
if (IGnss::GnssPositionMode::MS_ASSISTED == mode ||
IGnss::GnssPositionRecurrence::RECURRENCE_SINGLE == recurrence) {
// We set a very large interval to simulate SINGLE mode. Once we report a fix,
// the caller should take the responsibility to stop the session.
// For MSA, we always treat it as SINGLE mode.
mTrackingOptions.minInterval = SINGLE_SHOT_MIN_TRACKING_INTERVAL_MSEC;
}
if (mode == IGnss::GnssPositionMode::STANDALONE)
mTrackingOptions.mode = GNSS_SUPL_MODE_STANDALONE;
else if (mode == IGnss::GnssPositionMode::MS_BASED)
mTrackingOptions.mode = GNSS_SUPL_MODE_MSB;
else if (mode == IGnss::GnssPositionMode::MS_ASSISTED)
mTrackingOptions.mode = GNSS_SUPL_MODE_MSA;
else {
LOC_LOGD("%s]: invalid GnssPositionMode: %d", __FUNCTION__, (int)mode);
retVal = false;
}
if (GNSS_POWER_MODE_INVALID != powerMode) {
mTrackingOptions.powerMode = powerMode;
mTrackingOptions.tbm = timeBetweenMeasurement;
}
locAPIUpdateTrackingOptions(mTrackingOptions);
return retVal;
}
// for GpsNiInterface
void GnssAPIClient::gnssNiRespond(int32_t notifId,
IGnssNiCallback::GnssUserResponseType userResponse)
{
LOC_LOGD("%s]: (%d %d)", __FUNCTION__, notifId, static_cast<int>(userResponse));
GnssNiResponse data;
switch (userResponse) {
case IGnssNiCallback::GnssUserResponseType::RESPONSE_ACCEPT:
data = GNSS_NI_RESPONSE_ACCEPT;
break;
case IGnssNiCallback::GnssUserResponseType::RESPONSE_DENY:
data = GNSS_NI_RESPONSE_DENY;
break;
case IGnssNiCallback::GnssUserResponseType::RESPONSE_NORESP:
data = GNSS_NI_RESPONSE_NO_RESPONSE;
break;
default:
data = GNSS_NI_RESPONSE_IGNORE;
break;
}
locAPIGnssNiResponse(notifId, data);
}
// these apis using LocationAPIControlClient
void GnssAPIClient::gnssDeleteAidingData(IGnss::GnssAidingData aidingDataFlags)
{
LOC_LOGD("%s]: (%02hx)", __FUNCTION__, aidingDataFlags);
if (mControlClient == nullptr) {
return;
}
GnssAidingData data;
memset(&data, 0, sizeof (GnssAidingData));
data.sv.svTypeMask = GNSS_AIDING_DATA_SV_TYPE_GPS_BIT |
GNSS_AIDING_DATA_SV_TYPE_GLONASS_BIT |
GNSS_AIDING_DATA_SV_TYPE_QZSS_BIT |
GNSS_AIDING_DATA_SV_TYPE_BEIDOU_BIT |
GNSS_AIDING_DATA_SV_TYPE_GALILEO_BIT |
GNSS_AIDING_DATA_SV_TYPE_NAVIC_BIT;
data.posEngineMask = STANDARD_POSITIONING_ENGINE;
if (aidingDataFlags == IGnss::GnssAidingData::DELETE_ALL)
data.deleteAll = true;
else {
if (aidingDataFlags & IGnss::GnssAidingData::DELETE_EPHEMERIS)
data.sv.svMask |= GNSS_AIDING_DATA_SV_EPHEMERIS_BIT;
if (aidingDataFlags & IGnss::GnssAidingData::DELETE_ALMANAC)
data.sv.svMask |= GNSS_AIDING_DATA_SV_ALMANAC_BIT;
if (aidingDataFlags & IGnss::GnssAidingData::DELETE_POSITION)
data.common.mask |= GNSS_AIDING_DATA_COMMON_POSITION_BIT;
if (aidingDataFlags & IGnss::GnssAidingData::DELETE_TIME)
data.common.mask |= GNSS_AIDING_DATA_COMMON_TIME_BIT;
if (aidingDataFlags & IGnss::GnssAidingData::DELETE_IONO)
data.sv.svMask |= GNSS_AIDING_DATA_SV_IONOSPHERE_BIT;
if (aidingDataFlags & IGnss::GnssAidingData::DELETE_UTC)
data.common.mask |= GNSS_AIDING_DATA_COMMON_UTC_BIT;
if (aidingDataFlags & IGnss::GnssAidingData::DELETE_HEALTH)
data.sv.svMask |= GNSS_AIDING_DATA_SV_HEALTH_BIT;
if (aidingDataFlags & IGnss::GnssAidingData::DELETE_SVDIR)
data.sv.svMask |= GNSS_AIDING_DATA_SV_DIRECTION_BIT;
if (aidingDataFlags & IGnss::GnssAidingData::DELETE_SVSTEER)
data.sv.svMask |= GNSS_AIDING_DATA_SV_STEER_BIT;
if (aidingDataFlags & IGnss::GnssAidingData::DELETE_SADATA)
data.sv.svMask |= GNSS_AIDING_DATA_SV_SA_DATA_BIT;
if (aidingDataFlags & IGnss::GnssAidingData::DELETE_RTI)
data.common.mask |= GNSS_AIDING_DATA_COMMON_RTI_BIT;
if (aidingDataFlags & IGnss::GnssAidingData::DELETE_CELLDB_INFO)
data.common.mask |= GNSS_AIDING_DATA_COMMON_CELLDB_BIT;
}
mControlClient->locAPIGnssDeleteAidingData(data);
}
void GnssAPIClient::gnssEnable(LocationTechnologyType techType)
{
LOC_LOGD("%s]: (%0d)", __FUNCTION__, techType);
if (mControlClient == nullptr) {
return;
}
mControlClient->locAPIEnable(techType);
}
void GnssAPIClient::gnssDisable()
{
LOC_LOGD("%s]: ()", __FUNCTION__);
if (mControlClient == nullptr) {
return;
}
mControlClient->locAPIDisable();
}
void GnssAPIClient::gnssConfigurationUpdate(const GnssConfig& gnssConfig)
{
LOC_LOGD("%s]: (%02x)", __FUNCTION__, gnssConfig.flags);
if (mControlClient == nullptr) {
return;
}
mControlClient->locAPIGnssUpdateConfig(gnssConfig);
}
void GnssAPIClient::requestCapabilities() {
// only send capablities if it's already cached, otherwise the first time LocationAPI
// is initialized, capabilities will be sent by LocationAPI
if (mLocationCapabilitiesCached) {
onCapabilitiesCb(mLocationCapabilitiesMask);
}
}
// callbacks
void GnssAPIClient::onCapabilitiesCb(LocationCapabilitiesMask capabilitiesMask)
{
LOC_LOGD("%s]: (%02x)", __FUNCTION__, capabilitiesMask);
mLocationCapabilitiesMask = capabilitiesMask;
mLocationCapabilitiesCached = true;
mMutex.lock();
auto gnssCbIface(mGnssCbIface);
auto gnssCbIface_2_0(mGnssCbIface_2_0);
mMutex.unlock();
if (gnssCbIface_2_0 != nullptr || gnssCbIface != nullptr) {
uint32_t data = 0;
if ((capabilitiesMask & LOCATION_CAPABILITIES_TIME_BASED_TRACKING_BIT) ||
(capabilitiesMask & LOCATION_CAPABILITIES_TIME_BASED_BATCHING_BIT) ||
(capabilitiesMask & LOCATION_CAPABILITIES_DISTANCE_BASED_TRACKING_BIT) ||
(capabilitiesMask & LOCATION_CAPABILITIES_DISTANCE_BASED_BATCHING_BIT))
data |= IGnssCallback::Capabilities::SCHEDULING;
if (capabilitiesMask & LOCATION_CAPABILITIES_GEOFENCE_BIT)
data |= V1_0::IGnssCallback::Capabilities::GEOFENCING;
if (capabilitiesMask & LOCATION_CAPABILITIES_GNSS_MEASUREMENTS_BIT)
data |= V1_0::IGnssCallback::Capabilities::MEASUREMENTS;
if (capabilitiesMask & LOCATION_CAPABILITIES_GNSS_MSB_BIT)
data |= IGnssCallback::Capabilities::MSB;
if (capabilitiesMask & LOCATION_CAPABILITIES_GNSS_MSA_BIT)
data |= IGnssCallback::Capabilities::MSA;
if (capabilitiesMask & LOCATION_CAPABILITIES_AGPM_BIT)
data |= IGnssCallback::Capabilities::LOW_POWER_MODE;
if (capabilitiesMask & LOCATION_CAPABILITIES_CONSTELLATION_ENABLEMENT_BIT)
data |= IGnssCallback::Capabilities::SATELLITE_BLACKLIST;
IGnssCallback::GnssSystemInfo gnssInfo;
if (capabilitiesMask & LOCATION_CAPABILITIES_PRIVACY_BIT) {
gnssInfo.yearOfHw = 2019;
} else if (capabilitiesMask & LOCATION_CAPABILITIES_CONSTELLATION_ENABLEMENT_BIT ||
capabilitiesMask & LOCATION_CAPABILITIES_AGPM_BIT) {
gnssInfo.yearOfHw = 2018;
} else if (capabilitiesMask & LOCATION_CAPABILITIES_DEBUG_NMEA_BIT) {
gnssInfo.yearOfHw = 2017;
} else if (capabilitiesMask & LOCATION_CAPABILITIES_GNSS_MEASUREMENTS_BIT) {
gnssInfo.yearOfHw = 2016;
} else {
gnssInfo.yearOfHw = 2015;
}
LOC_LOGV("%s:%d] set_system_info_cb (%d)", __FUNCTION__, __LINE__, gnssInfo.yearOfHw);
if (gnssCbIface_2_0 != nullptr) {
auto r = gnssCbIface_2_0->gnssSetCapabilitiesCb_2_0(data);
if (!r.isOk()) {
LOC_LOGE("%s] Error from gnssSetCapabilitiesCb_2_0 description=%s",
__func__, r.description().c_str());
}
r = gnssCbIface_2_0->gnssSetSystemInfoCb(gnssInfo);
if (!r.isOk()) {
LOC_LOGE("%s] Error from gnssSetSystemInfoCb description=%s",
__func__, r.description().c_str());
}
} else if (gnssCbIface != nullptr) {
auto r = gnssCbIface->gnssSetCapabilitesCb(data);
if (!r.isOk()) {
LOC_LOGE("%s] Error from gnssSetCapabilitesCb description=%s",
__func__, r.description().c_str());
}
r = gnssCbIface->gnssSetSystemInfoCb(gnssInfo);
if (!r.isOk()) {
LOC_LOGE("%s] Error from gnssSetSystemInfoCb description=%s",
__func__, r.description().c_str());
}
}
}
}
void GnssAPIClient::onTrackingCb(Location location)
{
mMutex.lock();
auto gnssCbIface(mGnssCbIface);
auto gnssCbIface_2_0(mGnssCbIface_2_0);
bool isTracking = mTracking;
mMutex.unlock();
LOC_LOGD("%s]: (flags: %02x isTracking: %d)", __FUNCTION__, location.flags, isTracking);
if (!isTracking) {
return;
}
if (gnssCbIface_2_0 != nullptr) {
V2_0::GnssLocation gnssLocation;
convertGnssLocation(location, gnssLocation);
auto r = gnssCbIface_2_0->gnssLocationCb_2_0(gnssLocation);
if (!r.isOk()) {
LOC_LOGE("%s] Error from gnssLocationCb_2_0 description=%s",
__func__, r.description().c_str());
}
} else if (gnssCbIface != nullptr) {
V1_0::GnssLocation gnssLocation;
convertGnssLocation(location, gnssLocation);
auto r = gnssCbIface->gnssLocationCb(gnssLocation);
if (!r.isOk()) {
LOC_LOGE("%s] Error from gnssLocationCb description=%s",
__func__, r.description().c_str());
}
} else {
LOC_LOGW("%s] No GNSS Interface ready for gnssLocationCb ", __FUNCTION__);
}
}
void GnssAPIClient::onGnssNiCb(uint32_t id, GnssNiNotification gnssNiNotification)
{
LOC_LOGD("%s]: (id: %d)", __FUNCTION__, id);
mMutex.lock();
auto gnssNiCbIface(mGnssNiCbIface);
mMutex.unlock();
if (gnssNiCbIface == nullptr) {
LOC_LOGE("%s]: mGnssNiCbIface is nullptr", __FUNCTION__);
return;
}
IGnssNiCallback::GnssNiNotification notificationGnss = {};
notificationGnss.notificationId = id;
if (gnssNiNotification.type == GNSS_NI_TYPE_VOICE)
notificationGnss.niType = IGnssNiCallback::GnssNiType::VOICE;
else if (gnssNiNotification.type == GNSS_NI_TYPE_SUPL)
notificationGnss.niType = IGnssNiCallback::GnssNiType::UMTS_SUPL;
else if (gnssNiNotification.type == GNSS_NI_TYPE_CONTROL_PLANE)
notificationGnss.niType = IGnssNiCallback::GnssNiType::UMTS_CTRL_PLANE;
else if (gnssNiNotification.type == GNSS_NI_TYPE_EMERGENCY_SUPL)
notificationGnss.niType = IGnssNiCallback::GnssNiType::EMERGENCY_SUPL;
if (gnssNiNotification.options & GNSS_NI_OPTIONS_NOTIFICATION_BIT)
notificationGnss.notifyFlags |= IGnssNiCallback::GnssNiNotifyFlags::NEED_NOTIFY;
if (gnssNiNotification.options & GNSS_NI_OPTIONS_VERIFICATION_BIT)
notificationGnss.notifyFlags |= IGnssNiCallback::GnssNiNotifyFlags::NEED_VERIFY;
if (gnssNiNotification.options & GNSS_NI_OPTIONS_PRIVACY_OVERRIDE_BIT)
notificationGnss.notifyFlags |= IGnssNiCallback::GnssNiNotifyFlags::PRIVACY_OVERRIDE;
notificationGnss.timeoutSec = gnssNiNotification.timeout;
if (gnssNiNotification.timeoutResponse == GNSS_NI_RESPONSE_ACCEPT)
notificationGnss.defaultResponse = IGnssNiCallback::GnssUserResponseType::RESPONSE_ACCEPT;
else if (gnssNiNotification.timeoutResponse == GNSS_NI_RESPONSE_DENY)
notificationGnss.defaultResponse = IGnssNiCallback::GnssUserResponseType::RESPONSE_DENY;
else if (gnssNiNotification.timeoutResponse == GNSS_NI_RESPONSE_NO_RESPONSE ||
gnssNiNotification.timeoutResponse == GNSS_NI_RESPONSE_IGNORE)
notificationGnss.defaultResponse = IGnssNiCallback::GnssUserResponseType::RESPONSE_NORESP;
notificationGnss.requestorId = gnssNiNotification.requestor;
notificationGnss.notificationMessage = gnssNiNotification.message;
if (gnssNiNotification.requestorEncoding == GNSS_NI_ENCODING_TYPE_NONE)
notificationGnss.requestorIdEncoding =
IGnssNiCallback::GnssNiEncodingType::ENC_NONE;
else if (gnssNiNotification.requestorEncoding == GNSS_NI_ENCODING_TYPE_GSM_DEFAULT)
notificationGnss.requestorIdEncoding =
IGnssNiCallback::GnssNiEncodingType::ENC_SUPL_GSM_DEFAULT;
else if (gnssNiNotification.requestorEncoding == GNSS_NI_ENCODING_TYPE_UTF8)
notificationGnss.requestorIdEncoding =
IGnssNiCallback::GnssNiEncodingType::ENC_SUPL_UTF8;
else if (gnssNiNotification.requestorEncoding == GNSS_NI_ENCODING_TYPE_UCS2)
notificationGnss.requestorIdEncoding =
IGnssNiCallback::GnssNiEncodingType::ENC_SUPL_UCS2;
if (gnssNiNotification.messageEncoding == GNSS_NI_ENCODING_TYPE_NONE)
notificationGnss.notificationIdEncoding =
IGnssNiCallback::GnssNiEncodingType::ENC_NONE;
else if (gnssNiNotification.messageEncoding == GNSS_NI_ENCODING_TYPE_GSM_DEFAULT)
notificationGnss.notificationIdEncoding =
IGnssNiCallback::GnssNiEncodingType::ENC_SUPL_GSM_DEFAULT;
else if (gnssNiNotification.messageEncoding == GNSS_NI_ENCODING_TYPE_UTF8)
notificationGnss.notificationIdEncoding =
IGnssNiCallback::GnssNiEncodingType::ENC_SUPL_UTF8;
else if (gnssNiNotification.messageEncoding == GNSS_NI_ENCODING_TYPE_UCS2)
notificationGnss.notificationIdEncoding =
IGnssNiCallback::GnssNiEncodingType::ENC_SUPL_UCS2;
gnssNiCbIface->niNotifyCb(notificationGnss);
}
void GnssAPIClient::onGnssSvCb(GnssSvNotification gnssSvNotification)
{
LOC_LOGD("%s]: (count: %u)", __FUNCTION__, gnssSvNotification.count);
mMutex.lock();
auto gnssCbIface(mGnssCbIface);
auto gnssCbIface_2_0(mGnssCbIface_2_0);
mMutex.unlock();
if (gnssCbIface_2_0 != nullptr) {
hidl_vec<V2_0::IGnssCallback::GnssSvInfo> svInfoList;
convertGnssSvStatus(gnssSvNotification, svInfoList);
auto r = gnssCbIface_2_0->gnssSvStatusCb_2_0(svInfoList);
if (!r.isOk()) {
LOC_LOGE("%s] Error from gnssSvStatusCb_2_0 description=%s",
__func__, r.description().c_str());
}
} else if (gnssCbIface != nullptr) {
V1_0::IGnssCallback::GnssSvStatus svStatus;
convertGnssSvStatus(gnssSvNotification, svStatus);
auto r = gnssCbIface->gnssSvStatusCb(svStatus);
if (!r.isOk()) {
LOC_LOGE("%s] Error from gnssSvStatusCb description=%s",
__func__, r.description().c_str());
}
}
}
void GnssAPIClient::onGnssNmeaCb(GnssNmeaNotification gnssNmeaNotification)
{
mMutex.lock();
auto gnssCbIface(mGnssCbIface);
auto gnssCbIface_2_0(mGnssCbIface_2_0);
mMutex.unlock();
if (gnssCbIface != nullptr || gnssCbIface_2_0 != nullptr) {
const std::string s(gnssNmeaNotification.nmea);
std::stringstream ss(s);
std::string each;
while(std::getline(ss, each, '\n')) {
each += '\n';
android::hardware::hidl_string nmeaString;
nmeaString.setToExternal(each.c_str(), each.length());
if (gnssCbIface_2_0 != nullptr) {
auto r = gnssCbIface_2_0->gnssNmeaCb(
static_cast<V1_0::GnssUtcTime>(gnssNmeaNotification.timestamp), nmeaString);
if (!r.isOk()) {
LOC_LOGE("%s] Error from gnssCbIface_2_0 nmea=%s length=%u description=%s",
__func__, gnssNmeaNotification.nmea, gnssNmeaNotification.length,
r.description().c_str());
}
} else if (gnssCbIface != nullptr) {
auto r = gnssCbIface->gnssNmeaCb(
static_cast<V1_0::GnssUtcTime>(gnssNmeaNotification.timestamp), nmeaString);
if (!r.isOk()) {
LOC_LOGE("%s] Error from gnssNmeaCb nmea=%s length=%u description=%s",
__func__, gnssNmeaNotification.nmea, gnssNmeaNotification.length,
r.description().c_str());
}
}
}
}
}
void GnssAPIClient::onStartTrackingCb(LocationError error)
{
LOC_LOGD("%s]: (%d)", __FUNCTION__, error);
mMutex.lock();
auto gnssCbIface(mGnssCbIface);
auto gnssCbIface_2_0(mGnssCbIface_2_0);
mMutex.unlock();
if (error == LOCATION_ERROR_SUCCESS) {
if (gnssCbIface_2_0 != nullptr) {
auto r = gnssCbIface_2_0->gnssStatusCb(IGnssCallback::GnssStatusValue::ENGINE_ON);
if (!r.isOk()) {
LOC_LOGE("%s] Error from gnssStatusCb 2.0 ENGINE_ON description=%s",
__func__, r.description().c_str());
}
r = gnssCbIface_2_0->gnssStatusCb(IGnssCallback::GnssStatusValue::SESSION_BEGIN);
if (!r.isOk()) {
LOC_LOGE("%s] Error from gnssStatusCb 2.0 SESSION_BEGIN description=%s",
__func__, r.description().c_str());
}
} else if (gnssCbIface != nullptr) {
auto r = gnssCbIface->gnssStatusCb(IGnssCallback::GnssStatusValue::ENGINE_ON);
if (!r.isOk()) {
LOC_LOGE("%s] Error from gnssStatusCb ENGINE_ON description=%s",
__func__, r.description().c_str());
}
r = gnssCbIface->gnssStatusCb(IGnssCallback::GnssStatusValue::SESSION_BEGIN);
if (!r.isOk()) {
LOC_LOGE("%s] Error from gnssStatusCb SESSION_BEGIN description=%s",
__func__, r.description().c_str());
}
}
}
}
void GnssAPIClient::onStopTrackingCb(LocationError error)
{
LOC_LOGD("%s]: (%d)", __FUNCTION__, error);
mMutex.lock();
auto gnssCbIface(mGnssCbIface);
auto gnssCbIface_2_0(mGnssCbIface_2_0);
mMutex.unlock();
if (error == LOCATION_ERROR_SUCCESS) {
if (gnssCbIface_2_0 != nullptr) {
auto r = gnssCbIface_2_0->gnssStatusCb(IGnssCallback::GnssStatusValue::SESSION_END);
if (!r.isOk()) {
LOC_LOGE("%s] Error from gnssStatusCb 2.0 SESSION_END description=%s",
__func__, r.description().c_str());
}
r = gnssCbIface_2_0->gnssStatusCb(IGnssCallback::GnssStatusValue::ENGINE_OFF);
if (!r.isOk()) {
LOC_LOGE("%s] Error from gnssStatusCb 2.0 ENGINE_OFF description=%s",
__func__, r.description().c_str());
}
} else if (gnssCbIface != nullptr) {
auto r = gnssCbIface->gnssStatusCb(IGnssCallback::GnssStatusValue::SESSION_END);
if (!r.isOk()) {
LOC_LOGE("%s] Error from gnssStatusCb SESSION_END description=%s",
__func__, r.description().c_str());
}
r = gnssCbIface->gnssStatusCb(IGnssCallback::GnssStatusValue::ENGINE_OFF);
if (!r.isOk()) {
LOC_LOGE("%s] Error from gnssStatusCb ENGINE_OFF description=%s",
__func__, r.description().c_str());
}
}
}
}
static void convertGnssSvStatus(GnssSvNotification& in, V1_0::IGnssCallback::GnssSvStatus& out)
{
memset(&out, 0, sizeof(IGnssCallback::GnssSvStatus));
out.numSvs = in.count;
if (out.numSvs > static_cast<uint32_t>(V1_0::GnssMax::SVS_COUNT)) {
LOC_LOGW("%s]: Too many satellites %u. Clamps to %d.",
__FUNCTION__, out.numSvs, V1_0::GnssMax::SVS_COUNT);
out.numSvs = static_cast<uint32_t>(V1_0::GnssMax::SVS_COUNT);
}
for (size_t i = 0; i < out.numSvs; i++) {
out.gnssSvList[i].svid = in.gnssSvs[i].svId;
convertGnssConstellationType(in.gnssSvs[i].type, out.gnssSvList[i].constellation);
out.gnssSvList[i].cN0Dbhz = in.gnssSvs[i].cN0Dbhz;
out.gnssSvList[i].elevationDegrees = in.gnssSvs[i].elevation;
out.gnssSvList[i].azimuthDegrees = in.gnssSvs[i].azimuth;
out.gnssSvList[i].carrierFrequencyHz = in.gnssSvs[i].carrierFrequencyHz;
out.gnssSvList[i].svFlag = static_cast<uint8_t>(IGnssCallback::GnssSvFlags::NONE);
if (in.gnssSvs[i].gnssSvOptionsMask & GNSS_SV_OPTIONS_HAS_EPHEMER_BIT)
out.gnssSvList[i].svFlag |= IGnssCallback::GnssSvFlags::HAS_EPHEMERIS_DATA;
if (in.gnssSvs[i].gnssSvOptionsMask & GNSS_SV_OPTIONS_HAS_ALMANAC_BIT)
out.gnssSvList[i].svFlag |= IGnssCallback::GnssSvFlags::HAS_ALMANAC_DATA;
if (in.gnssSvs[i].gnssSvOptionsMask & GNSS_SV_OPTIONS_USED_IN_FIX_BIT)
out.gnssSvList[i].svFlag |= IGnssCallback::GnssSvFlags::USED_IN_FIX;
if (in.gnssSvs[i].gnssSvOptionsMask & GNSS_SV_OPTIONS_HAS_CARRIER_FREQUENCY_BIT)
out.gnssSvList[i].svFlag |= IGnssCallback::GnssSvFlags::HAS_CARRIER_FREQUENCY;
}
}
static void convertGnssSvStatus(GnssSvNotification& in,
hidl_vec<V2_0::IGnssCallback::GnssSvInfo>& out)
{
out.resize(in.count);
for (size_t i = 0; i < in.count; i++) {
out[i].v1_0.svid = in.gnssSvs[i].svId;
out[i].v1_0.cN0Dbhz = in.gnssSvs[i].cN0Dbhz;
out[i].v1_0.elevationDegrees = in.gnssSvs[i].elevation;
out[i].v1_0.azimuthDegrees = in.gnssSvs[i].azimuth;
out[i].v1_0.carrierFrequencyHz = in.gnssSvs[i].carrierFrequencyHz;
out[i].v1_0.svFlag = static_cast<uint8_t>(IGnssCallback::GnssSvFlags::NONE);
if (in.gnssSvs[i].gnssSvOptionsMask & GNSS_SV_OPTIONS_HAS_EPHEMER_BIT)
out[i].v1_0.svFlag |= IGnssCallback::GnssSvFlags::HAS_EPHEMERIS_DATA;
if (in.gnssSvs[i].gnssSvOptionsMask & GNSS_SV_OPTIONS_HAS_ALMANAC_BIT)
out[i].v1_0.svFlag |= IGnssCallback::GnssSvFlags::HAS_ALMANAC_DATA;
if (in.gnssSvs[i].gnssSvOptionsMask & GNSS_SV_OPTIONS_USED_IN_FIX_BIT)
out[i].v1_0.svFlag |= IGnssCallback::GnssSvFlags::USED_IN_FIX;
if (in.gnssSvs[i].gnssSvOptionsMask & GNSS_SV_OPTIONS_HAS_CARRIER_FREQUENCY_BIT)
out[i].v1_0.svFlag |= IGnssCallback::GnssSvFlags::HAS_CARRIER_FREQUENCY;
convertGnssConstellationType(in.gnssSvs[i].type, out[i].constellation);
}
}
} // namespace implementation
} // namespace V2_0
} // namespace gnss
} // namespace hardware
} // namespace android
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