/* Copyright (c) 2017-2020 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_LocationAPI" #include #include #include #include #include #include #include typedef const GnssInterface* (getGnssInterface)(); typedef const GeofenceInterface* (getGeofenceInterface)(); typedef const BatchingInterface* (getBatchingInterface)(); typedef struct { // bit mask of the adpaters that we need to wait for the removeClientCompleteCallback // before we invoke the registered locationApiDestroyCompleteCallback LocationAdapterTypeMask waitAdapterMask; locationApiDestroyCompleteCallback destroyCompleteCb; } LocationAPIDestroyCbData; // This is the map for the client that has requested destroy with // destroy callback provided. typedef std::map LocationClientDestroyCbMap; typedef std::map LocationClientMap; typedef struct { LocationClientMap clientData; LocationClientDestroyCbMap destroyClientData; LocationControlAPI* controlAPI; LocationControlCallbacks controlCallbacks; GnssInterface* gnssInterface; GeofenceInterface* geofenceInterface; BatchingInterface* batchingInterface; } LocationAPIData; static LocationAPIData gData = {}; static pthread_mutex_t gDataMutex = PTHREAD_MUTEX_INITIALIZER; static bool gGnssLoadFailed = false; static bool gBatchingLoadFailed = false; static bool gGeofenceLoadFailed = false; template static const T1* loadLocationInterface(const char* library, const char* name) { void* libhandle = nullptr; T2* getter = (T2*)dlGetSymFromLib(libhandle, library, name); if (nullptr == getter) { return (const T1*) getter; }else { return (*getter)(); } } static bool needsGnssTrackingInfo(LocationCallbacks& locationCallbacks) { return (locationCallbacks.gnssLocationInfoCb != nullptr || locationCallbacks.engineLocationsInfoCb != nullptr || locationCallbacks.gnssSvCb != nullptr || locationCallbacks.gnssNmeaCb != nullptr || locationCallbacks.gnssDataCb != nullptr || locationCallbacks.gnssMeasurementsCb != nullptr); } static bool isGnssClient(LocationCallbacks& locationCallbacks) { return (locationCallbacks.gnssNiCb != nullptr || locationCallbacks.trackingCb != nullptr || locationCallbacks.gnssLocationInfoCb != nullptr || locationCallbacks.engineLocationsInfoCb != nullptr || locationCallbacks.gnssSvCb != nullptr || locationCallbacks.gnssNmeaCb != nullptr || locationCallbacks.gnssDataCb != nullptr || locationCallbacks.gnssMeasurementsCb != nullptr || locationCallbacks.locationSystemInfoCb != nullptr); } static bool isBatchingClient(LocationCallbacks& locationCallbacks) { return (locationCallbacks.batchingCb != nullptr); } static bool isGeofenceClient(LocationCallbacks& locationCallbacks) { return (locationCallbacks.geofenceBreachCb != nullptr || locationCallbacks.geofenceStatusCb != nullptr); } void LocationAPI::onRemoveClientCompleteCb (LocationAdapterTypeMask adapterType) { bool invokeCallback = false; locationApiDestroyCompleteCallback destroyCompleteCb; LOC_LOGd("adatper type %x", adapterType); pthread_mutex_lock(&gDataMutex); auto it = gData.destroyClientData.find(this); if (it != gData.destroyClientData.end()) { it->second.waitAdapterMask &= ~adapterType; if (it->second.waitAdapterMask == 0) { invokeCallback = true; destroyCompleteCb = it->second.destroyCompleteCb; gData.destroyClientData.erase(it); } } pthread_mutex_unlock(&gDataMutex); if ((true == invokeCallback) && (nullptr != destroyCompleteCb)) { LOC_LOGd("invoke client destroy cb"); (destroyCompleteCb) (); delete this; } } void onGnssRemoveClientCompleteCb (LocationAPI* client) { client->onRemoveClientCompleteCb (LOCATION_ADAPTER_GNSS_TYPE_BIT); } void onBatchingRemoveClientCompleteCb (LocationAPI* client) { client->onRemoveClientCompleteCb (LOCATION_ADAPTER_BATCHING_TYPE_BIT); } void onGeofenceRemoveClientCompleteCb (LocationAPI* client) { client->onRemoveClientCompleteCb (LOCATION_ADAPTER_GEOFENCE_TYPE_BIT); } LocationAPI* LocationAPI::createInstance (LocationCallbacks& locationCallbacks) { if (nullptr == locationCallbacks.capabilitiesCb || nullptr == locationCallbacks.responseCb || nullptr == locationCallbacks.collectiveResponseCb) { return NULL; } LocationAPI* newLocationAPI = new LocationAPI(); bool requestedCapabilities = false; pthread_mutex_lock(&gDataMutex); if (isGnssClient(locationCallbacks)) { if (NULL == gData.gnssInterface && !gGnssLoadFailed) { gData.gnssInterface = (GnssInterface*)loadLocationInterface("libgnss.so", "getGnssInterface"); if (NULL == gData.gnssInterface) { gGnssLoadFailed = true; LOC_LOGW("%s:%d]: No gnss interface available", __func__, __LINE__); } else { gData.gnssInterface->initialize(); } } if (NULL != gData.gnssInterface) { gData.gnssInterface->addClient(newLocationAPI, locationCallbacks); if (!requestedCapabilities) { gData.gnssInterface->requestCapabilities(newLocationAPI); requestedCapabilities = true; } } } if (isBatchingClient(locationCallbacks)) { if (NULL == gData.batchingInterface && !gBatchingLoadFailed) { gData.batchingInterface = (BatchingInterface*)loadLocationInterface("libbatching.so", "getBatchingInterface"); if (NULL == gData.batchingInterface) { gBatchingLoadFailed = true; LOC_LOGW("%s:%d]: No batching interface available", __func__, __LINE__); } else { gData.batchingInterface->initialize(); } } if (NULL != gData.batchingInterface) { gData.batchingInterface->addClient(newLocationAPI, locationCallbacks); if (!requestedCapabilities) { gData.batchingInterface->requestCapabilities(newLocationAPI); requestedCapabilities = true; } } } if (isGeofenceClient(locationCallbacks)) { if (NULL == gData.geofenceInterface && !gGeofenceLoadFailed) { gData.geofenceInterface = (GeofenceInterface*)loadLocationInterface("libgeofencing.so", "getGeofenceInterface"); if (NULL == gData.geofenceInterface) { gGeofenceLoadFailed = true; LOC_LOGW("%s:%d]: No geofence interface available", __func__, __LINE__); } else { gData.geofenceInterface->initialize(); } } if (NULL != gData.geofenceInterface) { gData.geofenceInterface->addClient(newLocationAPI, locationCallbacks); if (!requestedCapabilities) { gData.geofenceInterface->requestCapabilities(newLocationAPI); requestedCapabilities = true; } } } gData.clientData[newLocationAPI] = locationCallbacks; pthread_mutex_unlock(&gDataMutex); return newLocationAPI; } void LocationAPI::destroy(locationApiDestroyCompleteCallback destroyCompleteCb) { bool invokeDestroyCb = false; pthread_mutex_lock(&gDataMutex); auto it = gData.clientData.find(this); if (it != gData.clientData.end()) { bool removeFromGnssInf = (NULL != gData.gnssInterface); bool removeFromBatchingInf = (NULL != gData.batchingInterface); bool removeFromGeofenceInf = (NULL != gData.geofenceInterface); bool needToWait = (removeFromGnssInf || removeFromBatchingInf || removeFromGeofenceInf); LOC_LOGe("removeFromGnssInf: %d, removeFromBatchingInf: %d, removeFromGeofenceInf: %d," "needToWait: %d", removeFromGnssInf, removeFromBatchingInf, removeFromGeofenceInf, needToWait); if ((NULL != destroyCompleteCb) && (true == needToWait)) { LocationAPIDestroyCbData destroyCbData = {}; destroyCbData.destroyCompleteCb = destroyCompleteCb; // record down from which adapter we need to wait for the destroy complete callback // only when we have received all the needed callbacks from all the associated stacks, // we shall notify the client. destroyCbData.waitAdapterMask = (removeFromGnssInf ? LOCATION_ADAPTER_GNSS_TYPE_BIT : 0); destroyCbData.waitAdapterMask |= (removeFromBatchingInf ? LOCATION_ADAPTER_BATCHING_TYPE_BIT : 0); destroyCbData.waitAdapterMask |= (removeFromGeofenceInf ? LOCATION_ADAPTER_GEOFENCE_TYPE_BIT : 0); gData.destroyClientData[this] = destroyCbData; LOC_LOGi("destroy data stored in the map: 0x%x", destroyCbData.waitAdapterMask); } if (removeFromGnssInf) { gData.gnssInterface->removeClient(it->first, onGnssRemoveClientCompleteCb); } if (removeFromBatchingInf) { gData.batchingInterface->removeClient(it->first, onBatchingRemoveClientCompleteCb); } if (removeFromGeofenceInf) { gData.geofenceInterface->removeClient(it->first, onGeofenceRemoveClientCompleteCb); } gData.clientData.erase(it); if ((NULL != destroyCompleteCb) && (false == needToWait)) { invokeDestroyCb = true; } } else { LOC_LOGE("%s:%d]: Location API client %p not found in client data", __func__, __LINE__, this); } pthread_mutex_unlock(&gDataMutex); if (invokeDestroyCb == true) { (destroyCompleteCb) (); delete this; } } LocationAPI::LocationAPI() { LOC_LOGD("LOCATION API CONSTRUCTOR"); } // private destructor LocationAPI::~LocationAPI() { LOC_LOGD("LOCATION API DESTRUCTOR"); } void LocationAPI::updateCallbacks(LocationCallbacks& locationCallbacks) { if (nullptr == locationCallbacks.capabilitiesCb || nullptr == locationCallbacks.responseCb || nullptr == locationCallbacks.collectiveResponseCb) { return; } pthread_mutex_lock(&gDataMutex); if (isGnssClient(locationCallbacks)) { if (NULL == gData.gnssInterface && !gGnssLoadFailed) { gData.gnssInterface = (GnssInterface*)loadLocationInterface("libgnss.so", "getGnssInterface"); if (NULL == gData.gnssInterface) { gGnssLoadFailed = true; LOC_LOGW("%s:%d]: No gnss interface available", __func__, __LINE__); } else { gData.gnssInterface->initialize(); } } if (NULL != gData.gnssInterface) { // either adds new Client or updates existing Client gData.gnssInterface->addClient(this, locationCallbacks); } } if (isBatchingClient(locationCallbacks)) { if (NULL == gData.batchingInterface && !gBatchingLoadFailed) { gData.batchingInterface = (BatchingInterface*)loadLocationInterface("libbatching.so", "getBatchingInterface"); if (NULL == gData.batchingInterface) { gBatchingLoadFailed = true; LOC_LOGW("%s:%d]: No batching interface available", __func__, __LINE__); } else { gData.batchingInterface->initialize(); } } if (NULL != gData.batchingInterface) { // either adds new Client or updates existing Client gData.batchingInterface->addClient(this, locationCallbacks); } } if (isGeofenceClient(locationCallbacks)) { if (NULL == gData.geofenceInterface && !gGeofenceLoadFailed) { gData.geofenceInterface = (GeofenceInterface*)loadLocationInterface("libgeofencing.so", "getGeofenceInterface"); if (NULL == gData.geofenceInterface) { gGeofenceLoadFailed = true; LOC_LOGW("%s:%d]: No geofence interface available", __func__, __LINE__); } else { gData.geofenceInterface->initialize(); } } if (NULL != gData.geofenceInterface) { // either adds new Client or updates existing Client gData.geofenceInterface->addClient(this, locationCallbacks); } } gData.clientData[this] = locationCallbacks; pthread_mutex_unlock(&gDataMutex); } uint32_t LocationAPI::startTracking(TrackingOptions& trackingOptions) { uint32_t id = 0; pthread_mutex_lock(&gDataMutex); auto it = gData.clientData.find(this); if (it != gData.clientData.end()) { if (NULL != gData.gnssInterface) { id = gData.gnssInterface->startTracking(this, trackingOptions); } else { LOC_LOGE("%s:%d]: No gnss interface available for Location API client %p ", __func__, __LINE__, this); } } else { LOC_LOGE("%s:%d]: Location API client %p not found in client data", __func__, __LINE__, this); } pthread_mutex_unlock(&gDataMutex); return id; } void LocationAPI::stopTracking(uint32_t id) { pthread_mutex_lock(&gDataMutex); auto it = gData.clientData.find(this); if (it != gData.clientData.end()) { if (gData.gnssInterface != NULL) { gData.gnssInterface->stopTracking(this, id); } else { LOC_LOGE("%s:%d]: No gnss interface available for Location API client %p ", __func__, __LINE__, this); } } else { LOC_LOGE("%s:%d]: Location API client %p not found in client data", __func__, __LINE__, this); } pthread_mutex_unlock(&gDataMutex); } void LocationAPI::updateTrackingOptions( uint32_t id, TrackingOptions& trackingOptions) { pthread_mutex_lock(&gDataMutex); auto it = gData.clientData.find(this); if (it != gData.clientData.end()) { if (gData.gnssInterface != NULL) { gData.gnssInterface->updateTrackingOptions(this, id, trackingOptions); } else { LOC_LOGE("%s:%d]: No gnss interface available for Location API client %p ", __func__, __LINE__, this); } } else { LOC_LOGE("%s:%d]: Location API client %p not found in client data", __func__, __LINE__, this); } pthread_mutex_unlock(&gDataMutex); } uint32_t LocationAPI::startBatching(BatchingOptions &batchingOptions) { uint32_t id = 0; pthread_mutex_lock(&gDataMutex); if (NULL != gData.batchingInterface) { id = gData.batchingInterface->startBatching(this, batchingOptions); } else { LOC_LOGE("%s:%d]: No batching interface available for Location API client %p ", __func__, __LINE__, this); } pthread_mutex_unlock(&gDataMutex); return id; } void LocationAPI::stopBatching(uint32_t id) { pthread_mutex_lock(&gDataMutex); if (NULL != gData.batchingInterface) { gData.batchingInterface->stopBatching(this, id); } else { LOC_LOGE("%s:%d]: No batching interface available for Location API client %p ", __func__, __LINE__, this); } pthread_mutex_unlock(&gDataMutex); } void LocationAPI::updateBatchingOptions(uint32_t id, BatchingOptions& batchOptions) { pthread_mutex_lock(&gDataMutex); if (NULL != gData.batchingInterface) { gData.batchingInterface->updateBatchingOptions(this, id, batchOptions); } else { LOC_LOGE("%s:%d]: No batching interface available for Location API client %p ", __func__, __LINE__, this); } pthread_mutex_unlock(&gDataMutex); } void LocationAPI::getBatchedLocations(uint32_t id, size_t count) { pthread_mutex_lock(&gDataMutex); if (gData.batchingInterface != NULL) { gData.batchingInterface->getBatchedLocations(this, id, count); } else { LOC_LOGE("%s:%d]: No batching interface available for Location API client %p ", __func__, __LINE__, this); } pthread_mutex_unlock(&gDataMutex); } uint32_t* LocationAPI::addGeofences(size_t count, GeofenceOption* options, GeofenceInfo* info) { uint32_t* ids = NULL; pthread_mutex_lock(&gDataMutex); if (gData.geofenceInterface != NULL) { ids = gData.geofenceInterface->addGeofences(this, count, options, info); } else { LOC_LOGE("%s:%d]: No geofence interface available for Location API client %p ", __func__, __LINE__, this); } pthread_mutex_unlock(&gDataMutex); return ids; } void LocationAPI::removeGeofences(size_t count, uint32_t* ids) { pthread_mutex_lock(&gDataMutex); if (gData.geofenceInterface != NULL) { gData.geofenceInterface->removeGeofences(this, count, ids); } else { LOC_LOGE("%s:%d]: No geofence interface available for Location API client %p ", __func__, __LINE__, this); } pthread_mutex_unlock(&gDataMutex); } void LocationAPI::modifyGeofences(size_t count, uint32_t* ids, GeofenceOption* options) { pthread_mutex_lock(&gDataMutex); if (gData.geofenceInterface != NULL) { gData.geofenceInterface->modifyGeofences(this, count, ids, options); } else { LOC_LOGE("%s:%d]: No geofence interface available for Location API client %p ", __func__, __LINE__, this); } pthread_mutex_unlock(&gDataMutex); } void LocationAPI::pauseGeofences(size_t count, uint32_t* ids) { pthread_mutex_lock(&gDataMutex); if (gData.geofenceInterface != NULL) { gData.geofenceInterface->pauseGeofences(this, count, ids); } else { LOC_LOGE("%s:%d]: No geofence interface available for Location API client %p ", __func__, __LINE__, this); } pthread_mutex_unlock(&gDataMutex); } void LocationAPI::resumeGeofences(size_t count, uint32_t* ids) { pthread_mutex_lock(&gDataMutex); if (gData.geofenceInterface != NULL) { gData.geofenceInterface->resumeGeofences(this, count, ids); } else { LOC_LOGE("%s:%d]: No geofence interface available for Location API client %p ", __func__, __LINE__, this); } pthread_mutex_unlock(&gDataMutex); } void LocationAPI::gnssNiResponse(uint32_t id, GnssNiResponse response) { pthread_mutex_lock(&gDataMutex); if (gData.gnssInterface != NULL) { gData.gnssInterface->gnssNiResponse(this, id, response); } else { LOC_LOGE("%s:%d]: No gnss interface available for Location API client %p ", __func__, __LINE__, this); } pthread_mutex_unlock(&gDataMutex); } LocationControlAPI* LocationControlAPI::createInstance(LocationControlCallbacks& locationControlCallbacks) { LocationControlAPI* controlAPI = NULL; pthread_mutex_lock(&gDataMutex); if (nullptr != locationControlCallbacks.responseCb && NULL == gData.controlAPI) { if (NULL == gData.gnssInterface && !gGnssLoadFailed) { gData.gnssInterface = (GnssInterface*)loadLocationInterface("libgnss.so", "getGnssInterface"); if (NULL == gData.gnssInterface) { gGnssLoadFailed = true; LOC_LOGW("%s:%d]: No gnss interface available", __func__, __LINE__); } else { gData.gnssInterface->initialize(); } } if (NULL != gData.gnssInterface) { gData.controlAPI = new LocationControlAPI(); gData.controlCallbacks = locationControlCallbacks; gData.gnssInterface->setControlCallbacks(locationControlCallbacks); controlAPI = gData.controlAPI; } } pthread_mutex_unlock(&gDataMutex); return controlAPI; } void LocationControlAPI::destroy() { delete this; } LocationControlAPI::LocationControlAPI() { LOC_LOGD("LOCATION CONTROL API CONSTRUCTOR"); } LocationControlAPI::~LocationControlAPI() { LOC_LOGD("LOCATION CONTROL API DESTRUCTOR"); pthread_mutex_lock(&gDataMutex); gData.controlAPI = NULL; pthread_mutex_unlock(&gDataMutex); } uint32_t LocationControlAPI::enable(LocationTechnologyType techType) { uint32_t id = 0; pthread_mutex_lock(&gDataMutex); if (gData.gnssInterface != NULL) { id = gData.gnssInterface->enable(techType); } else { LOC_LOGE("%s:%d]: No gnss interface available for Location Control API client %p ", __func__, __LINE__, this); } pthread_mutex_unlock(&gDataMutex); return id; } void LocationControlAPI::disable(uint32_t id) { pthread_mutex_lock(&gDataMutex); if (gData.gnssInterface != NULL) { gData.gnssInterface->disable(id); } else { LOC_LOGE("%s:%d]: No gnss interface available for Location Control API client %p ", __func__, __LINE__, this); } pthread_mutex_unlock(&gDataMutex); } uint32_t* LocationControlAPI::gnssUpdateConfig(const GnssConfig& config) { uint32_t* ids = NULL; pthread_mutex_lock(&gDataMutex); if (gData.gnssInterface != NULL) { ids = gData.gnssInterface->gnssUpdateConfig(config); } else { LOC_LOGE("%s:%d]: No gnss interface available for Location Control API client %p ", __func__, __LINE__, this); } pthread_mutex_unlock(&gDataMutex); return ids; } uint32_t* LocationControlAPI::gnssGetConfig(GnssConfigFlagsMask mask) { uint32_t* ids = NULL; pthread_mutex_lock(&gDataMutex); if (NULL != gData.gnssInterface) { ids = gData.gnssInterface->gnssGetConfig(mask); } else { LOC_LOGe("No gnss interface available for Control API client %p", this); } pthread_mutex_unlock(&gDataMutex); return ids; } uint32_t LocationControlAPI::gnssDeleteAidingData(GnssAidingData& data) { uint32_t id = 0; pthread_mutex_lock(&gDataMutex); if (gData.gnssInterface != NULL) { id = gData.gnssInterface->gnssDeleteAidingData(data); } else { LOC_LOGE("%s:%d]: No gnss interface available for Location Control API client %p ", __func__, __LINE__, this); } pthread_mutex_unlock(&gDataMutex); return id; } uint32_t LocationControlAPI::configConstellations( const GnssSvTypeConfig& constellationEnablementConfig, const GnssSvIdConfig& blacklistSvConfig) { uint32_t id = 0; pthread_mutex_lock(&gDataMutex); if (gData.gnssInterface != NULL) { id = gData.gnssInterface->gnssUpdateSvConfig( constellationEnablementConfig, blacklistSvConfig); } else { LOC_LOGe("No gnss interface available for Location Control API"); } pthread_mutex_unlock(&gDataMutex); return id; } uint32_t LocationControlAPI::configConstellationSecondaryBand( const GnssSvTypeConfig& secondaryBandConfig) { uint32_t id = 0; pthread_mutex_lock(&gDataMutex); if (gData.gnssInterface != NULL) { id = gData.gnssInterface->gnssUpdateSecondaryBandConfig(secondaryBandConfig); } else { LOC_LOGe("No gnss interface available for Location Control API"); } pthread_mutex_unlock(&gDataMutex); return id; } uint32_t LocationControlAPI::configConstrainedTimeUncertainty( bool enable, float tuncThreshold, uint32_t energyBudget) { uint32_t id = 0; pthread_mutex_lock(&gDataMutex); if (gData.gnssInterface != NULL) { id = gData.gnssInterface->setConstrainedTunc(enable, tuncThreshold, energyBudget); } else { LOC_LOGe("No gnss interface available for Location Control API"); } pthread_mutex_unlock(&gDataMutex); return id; } uint32_t LocationControlAPI::configPositionAssistedClockEstimator(bool enable) { uint32_t id = 0; pthread_mutex_lock(&gDataMutex); if (gData.gnssInterface != NULL) { id = gData.gnssInterface->setPositionAssistedClockEstimator(enable); } else { LOC_LOGe("No gnss interface available for Location Control API"); } pthread_mutex_unlock(&gDataMutex); return id; } uint32_t LocationControlAPI::configLeverArm(const LeverArmConfigInfo& configInfo) { uint32_t id = 0; pthread_mutex_lock(&gDataMutex); if (gData.gnssInterface != NULL) { id = gData.gnssInterface->configLeverArm(configInfo); } else { LOC_LOGe("No gnss interface available for Location Control API"); } pthread_mutex_unlock(&gDataMutex); return id; } uint32_t LocationControlAPI::configRobustLocation(bool enable, bool enableForE911) { uint32_t id = 0; pthread_mutex_lock(&gDataMutex); if (gData.gnssInterface != NULL) { id = gData.gnssInterface->configRobustLocation(enable, enableForE911); } else { LOC_LOGe("No gnss interface available for Location Control API"); } pthread_mutex_unlock(&gDataMutex); return id; } uint32_t LocationControlAPI::configMinGpsWeek(uint16_t minGpsWeek) { uint32_t id = 0; pthread_mutex_lock(&gDataMutex); if (gData.gnssInterface != NULL) { id = gData.gnssInterface->configMinGpsWeek(minGpsWeek); } else { LOC_LOGe("No gnss interface available for Location Control API"); } pthread_mutex_unlock(&gDataMutex); return id; } uint32_t LocationControlAPI::configDeadReckoningEngineParams( const DeadReckoningEngineConfig& dreConfig) { uint32_t id = 0; pthread_mutex_lock(&gDataMutex); if (gData.gnssInterface != NULL) { id = gData.gnssInterface->configDeadReckoningEngineParams(dreConfig); } else { LOC_LOGe("No gnss interface available for Location Control API"); } pthread_mutex_unlock(&gDataMutex); return id; }