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* modification, are permitted provided that the following conditions are
* met:
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* 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.
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* contributors may be used to endorse or promote products derived
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*
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#ifndef LOC_API_BASE_H
#define LOC_API_BASE_H
#include <stddef.h>
#include <ctype.h>
#include <gps_extended.h>
#include <LocationAPI.h>
#include <MsgTask.h>
#include <LocSharedLock.h>
#include <log_util.h>
#ifdef NO_UNORDERED_SET_OR_MAP
#include <map>
#else
#include <unordered_map>
#endif
#include <inttypes.h>
#include <functional>
using namespace loc_util;
namespace loc_core {
class ContextBase;
struct LocApiResponse;
template <typename> struct LocApiResponseData;
int hexcode(char *hexstring, int string_size,
const char *data, int data_size);
int decodeAddress(char *addr_string, int string_size,
const char *data, int data_size);
#define MAX_ADAPTERS 10
#define MAX_FEATURE_LENGTH 100
#define TO_ALL_ADAPTERS(adapters, call) \
for (int i = 0; i < MAX_ADAPTERS && NULL != (adapters)[i]; i++) { \
call; \
}
#define TO_1ST_HANDLING_ADAPTER(adapters, call) \
for (int i = 0; i <MAX_ADAPTERS && NULL != (adapters)[i] && !(call); i++);
class LocAdapterBase;
struct LocSsrMsg;
struct LocOpenMsg;
typedef struct
{
uint32_t accumulatedDistance;
uint32_t numOfBatchedPositions;
} LocApiBatchData;
typedef struct
{
uint32_t hwId;
} LocApiGeofenceData;
struct LocApiMsg: LocMsg {
private:
std::function<void ()> mProcImpl;
inline virtual void proc() const {
mProcImpl();
}
public:
inline LocApiMsg(std::function<void ()> procImpl ) :
mProcImpl(procImpl) {}
};
class LocApiProxyBase {
public:
inline LocApiProxyBase() {}
inline virtual ~LocApiProxyBase() {}
inline virtual void* getSibling2() { return NULL; }
inline virtual double getGloRfLoss(uint32_t left,
uint32_t center, uint32_t right, uint8_t gloFrequency) { return 0.0; }
};
class LocApiBase {
friend struct LocSsrMsg;
//LocOpenMsg calls open() which makes it necessary to declare
//it as a friend
friend struct LocOpenMsg;
friend struct LocCloseMsg;
friend struct LocKillMsg;
friend class ContextBase;
static MsgTask* mMsgTask;
static volatile int32_t mMsgTaskRefCount;
LocAdapterBase* mLocAdapters[MAX_ADAPTERS];
protected:
ContextBase *mContext;
virtual enum loc_api_adapter_err
open(LOC_API_ADAPTER_EVENT_MASK_T mask);
virtual enum loc_api_adapter_err
close();
LOC_API_ADAPTER_EVENT_MASK_T getEvtMask();
LOC_API_ADAPTER_EVENT_MASK_T mMask;
uint32_t mNmeaMask;
LocApiBase(LOC_API_ADAPTER_EVENT_MASK_T excludedMask,
ContextBase* context = NULL);
inline virtual ~LocApiBase() {
android_atomic_dec(&mMsgTaskRefCount);
if (nullptr != mMsgTask && 0 == mMsgTaskRefCount) {
delete mMsgTask;
mMsgTask = nullptr;
}
}
bool isInSession();
const LOC_API_ADAPTER_EVENT_MASK_T mExcludedMask;
bool isMaster();
public:
inline void sendMsg(const LocMsg* msg) const {
if (nullptr != mMsgTask) {
mMsgTask->sendMsg(msg);
}
}
inline void destroy() {
close();
struct LocKillMsg : public LocMsg {
LocApiBase* mLocApi;
inline LocKillMsg(LocApiBase* locApi) : LocMsg(), mLocApi(locApi) {}
inline virtual void proc() const {
delete mLocApi;
}
};
sendMsg(new LocKillMsg(this));
}
static bool needReport(const UlpLocation& ulpLocation,
enum loc_sess_status status,
LocPosTechMask techMask);
void addAdapter(LocAdapterBase* adapter);
void removeAdapter(LocAdapterBase* adapter);
// upward calls
void handleEngineUpEvent();
void handleEngineDownEvent();
void reportPosition(UlpLocation& location,
GpsLocationExtended& locationExtended,
enum loc_sess_status status,
LocPosTechMask loc_technology_mask =
LOC_POS_TECH_MASK_DEFAULT,
GnssDataNotification* pDataNotify = nullptr,
int msInWeek = -1);
void reportSv(GnssSvNotification& svNotify);
void reportSvPolynomial(GnssSvPolynomial &svPolynomial);
void reportSvEphemeris(GnssSvEphemerisReport &svEphemeris);
void reportStatus(LocGpsStatusValue status);
void reportNmea(const char* nmea, int length);
void reportData(GnssDataNotification& dataNotify, int msInWeek);
void reportXtraServer(const char* url1, const char* url2,
const char* url3, const int maxlength);
void reportLocationSystemInfo(const LocationSystemInfo& locationSystemInfo);
void requestXtraData();
void requestTime();
void requestLocation();
void requestATL(int connHandle, LocAGpsType agps_type, LocApnTypeMask apn_type_mask);
void releaseATL(int connHandle);
void requestNiNotify(GnssNiNotification ¬ify, const void* data,
const LocInEmergency emergencyState);
void reportGnssMeasurements(GnssMeasurements& gnssMeasurements, int msInWeek);
void reportWwanZppFix(LocGpsLocation &zppLoc);
void reportZppBestAvailableFix(LocGpsLocation &zppLoc, GpsLocationExtended &location_extended,
LocPosTechMask tech_mask);
void reportGnssSvIdConfig(const GnssSvIdConfig& config);
void reportGnssSvTypeConfig(const GnssSvTypeConfig& config);
void requestOdcpi(OdcpiRequestInfo& request);
void reportGnssEngEnergyConsumedEvent(uint64_t energyConsumedSinceFirstBoot);
void reportDeleteAidingDataEvent(GnssAidingData& aidingData);
void reportKlobucharIonoModel(GnssKlobucharIonoModel& ionoModel);
void reportGnssAdditionalSystemInfo(GnssAdditionalSystemInfo& additionalSystemInfo);
void sendNfwNotification(GnssNfwNotification& notification);
void reportGnssConfig(uint32_t sessionId, const GnssConfig& gnssConfig);
void reportLatencyInfo(GnssLatencyInfo& gnssLatencyInfo);
void reportQwesCapabilities
(
const std::unordered_map<LocationQwesFeatureType, bool> &featureMap
);
void geofenceBreach(size_t count, uint32_t* hwIds, Location& location,
GeofenceBreachType breachType, uint64_t timestamp);
void geofenceStatus(GeofenceStatusAvailable available);
void reportDBTPosition(UlpLocation &location,
GpsLocationExtended &locationExtended,
enum loc_sess_status status,
LocPosTechMask loc_technology_mask);
void reportLocations(Location* locations, size_t count, BatchingMode batchingMode);
void reportCompletedTrips(uint32_t accumulated_distance);
void handleBatchStatusEvent(BatchingStatus batchStatus);
// downward calls
virtual void* getSibling();
virtual LocApiProxyBase* getLocApiProxy();
virtual void startFix(const LocPosMode& fixCriteria, LocApiResponse* adapterResponse);
virtual void stopFix(LocApiResponse* adapterResponse);
virtual void deleteAidingData(const GnssAidingData& data, LocApiResponse* adapterResponse);
virtual void injectPosition(double latitude, double longitude, float accuracy,
bool onDemandCpi);
virtual void injectPosition(const GnssLocationInfoNotification &locationInfo,
bool onDemandCpi=false);
virtual void injectPosition(const Location& location, bool onDemandCpi);
virtual void setTime(LocGpsUtcTime time, int64_t timeReference, int uncertainty);
virtual void atlOpenStatus(int handle, int is_succ, char* apn, uint32_t apnLen,
AGpsBearerType bear, LocAGpsType agpsType, LocApnTypeMask mask);
virtual void atlCloseStatus(int handle, int is_succ);
virtual LocationError setServerSync(const char* url, int len, LocServerType type);
virtual LocationError setServerSync(unsigned int ip, int port, LocServerType type);
virtual void informNiResponse(GnssNiResponse userResponse, const void* passThroughData);
virtual LocationError setSUPLVersionSync(GnssConfigSuplVersion version);
virtual enum loc_api_adapter_err setNMEATypesSync(uint32_t typesMask);
virtual LocationError setLPPConfigSync(GnssConfigLppProfileMask profileMask);
virtual enum loc_api_adapter_err setSensorPropertiesSync(
bool gyroBiasVarianceRandomWalk_valid, float gyroBiasVarianceRandomWalk,
bool accelBiasVarianceRandomWalk_valid, float accelBiasVarianceRandomWalk,
bool angleBiasVarianceRandomWalk_valid, float angleBiasVarianceRandomWalk,
bool rateBiasVarianceRandomWalk_valid, float rateBiasVarianceRandomWalk,
bool velocityBiasVarianceRandomWalk_valid, float velocityBiasVarianceRandomWalk);
virtual enum loc_api_adapter_err setSensorPerfControlConfigSync(int controlMode,
int accelSamplesPerBatch, int accelBatchesPerSec, int gyroSamplesPerBatch,
int gyroBatchesPerSec, int accelSamplesPerBatchHigh, int accelBatchesPerSecHigh,
int gyroSamplesPerBatchHigh, int gyroBatchesPerSecHigh, int algorithmConfig);
virtual LocationError
setAGLONASSProtocolSync(GnssConfigAGlonassPositionProtocolMask aGlonassProtocol);
virtual LocationError setLPPeProtocolCpSync(GnssConfigLppeControlPlaneMask lppeCP);
virtual LocationError setLPPeProtocolUpSync(GnssConfigLppeUserPlaneMask lppeUP);
virtual GnssConfigSuplVersion convertSuplVersion(const uint32_t suplVersion);
virtual GnssConfigLppeControlPlaneMask convertLppeCp(const uint32_t lppeControlPlaneMask);
virtual GnssConfigLppeUserPlaneMask convertLppeUp(const uint32_t lppeUserPlaneMask);
virtual LocationError setEmergencyExtensionWindowSync(const uint32_t emergencyExtensionSeconds);
virtual void setMeasurementCorrections(
const GnssMeasurementCorrections& gnssMeasurementCorrections);
virtual void getWwanZppFix();
virtual void getBestAvailableZppFix();
virtual LocationError setGpsLockSync(GnssConfigGpsLock lock);
virtual void requestForAidingData(GnssAidingDataSvMask svDataMask);
virtual LocationError setXtraVersionCheckSync(uint32_t check);
/* Requests for SV/Constellation Control */
virtual LocationError setBlacklistSvSync(const GnssSvIdConfig& config);
virtual void setBlacklistSv(const GnssSvIdConfig& config,
LocApiResponse *adapterResponse=nullptr);
virtual void getBlacklistSv();
virtual void setConstellationControl(const GnssSvTypeConfig& config,
LocApiResponse *adapterResponse=nullptr);
virtual void getConstellationControl();
virtual void resetConstellationControl(LocApiResponse *adapterResponse=nullptr);
virtual void setConstrainedTuncMode(bool enabled,
float tuncConstraint,
uint32_t energyBudget,
LocApiResponse* adapterResponse=nullptr);
virtual void setPositionAssistedClockEstimatorMode(bool enabled,
LocApiResponse* adapterResponse=nullptr);
virtual void getGnssEnergyConsumed();
virtual void addGeofence(uint32_t clientId, const GeofenceOption& options,
const GeofenceInfo& info, LocApiResponseData<LocApiGeofenceData>* adapterResponseData);
virtual void removeGeofence(uint32_t hwId, uint32_t clientId, LocApiResponse* adapterResponse);
virtual void pauseGeofence(uint32_t hwId, uint32_t clientId, LocApiResponse* adapterResponse);
virtual void resumeGeofence(uint32_t hwId, uint32_t clientId, LocApiResponse* adapterResponse);
virtual void modifyGeofence(uint32_t hwId, uint32_t clientId, const GeofenceOption& options,
LocApiResponse* adapterResponse);
virtual void startTimeBasedTracking(const TrackingOptions& options,
LocApiResponse* adapterResponse);
virtual void stopTimeBasedTracking(LocApiResponse* adapterResponse);
virtual void startDistanceBasedTracking(uint32_t sessionId, const LocationOptions& options,
LocApiResponse* adapterResponse);
virtual void stopDistanceBasedTracking(uint32_t sessionId,
LocApiResponse* adapterResponse = nullptr);
virtual void startBatching(uint32_t sessionId, const LocationOptions& options,
uint32_t accuracy, uint32_t timeout, LocApiResponse* adapterResponse);
virtual void stopBatching(uint32_t sessionId, LocApiResponse* adapterResponse);
virtual LocationError startOutdoorTripBatchingSync(uint32_t tripDistance,
uint32_t tripTbf, uint32_t timeout);
virtual void startOutdoorTripBatching(uint32_t tripDistance,
uint32_t tripTbf, uint32_t timeout, LocApiResponse* adapterResponse);
virtual void reStartOutdoorTripBatching(uint32_t ongoingTripDistance,
uint32_t ongoingTripInterval, uint32_t batchingTimeout,
LocApiResponse* adapterResponse);
virtual LocationError stopOutdoorTripBatchingSync(bool deallocBatchBuffer = true);
virtual void stopOutdoorTripBatching(bool deallocBatchBuffer = true,
LocApiResponse* adapterResponse = nullptr);
virtual LocationError getBatchedLocationsSync(size_t count);
virtual void getBatchedLocations(size_t count, LocApiResponse* adapterResponse);
virtual LocationError getBatchedTripLocationsSync(size_t count, uint32_t accumulatedDistance);
virtual void getBatchedTripLocations(size_t count, uint32_t accumulatedDistance,
LocApiResponse* adapterResponse);
virtual LocationError queryAccumulatedTripDistanceSync(uint32_t &accumulated_trip_distance,
uint32_t &numOfBatchedPositions);
virtual void queryAccumulatedTripDistance(
LocApiResponseData<LocApiBatchData>* adapterResponseData);
virtual void setBatchSize(size_t size);
virtual void setTripBatchSize(size_t size);
virtual void addToCallQueue(LocApiResponse* adapterResponse);
void updateEvtMask();
void updateNmeaMask(uint32_t mask);
virtual void updateSystemPowerState(PowerStateType systemPowerState);
virtual void configRobustLocation(bool enable, bool enableForE911,
LocApiResponse* adapterResponse=nullptr);
virtual void getRobustLocationConfig(uint32_t sessionId, LocApiResponse* adapterResponse);
virtual void configMinGpsWeek(uint16_t minGpsWeek,
LocApiResponse* adapterResponse=nullptr);
virtual void getMinGpsWeek(uint32_t sessionId, LocApiResponse* adapterResponse);
virtual LocationError setParameterSync(const GnssConfig & gnssConfig);
virtual void getParameter(uint32_t sessionId, GnssConfigFlagsMask flags,
LocApiResponse* adapterResponse=nullptr);
virtual void configConstellationMultiBand(const GnssSvTypeConfig& secondaryBandConfig,
LocApiResponse* adapterResponse=nullptr);
virtual void getConstellationMultiBandConfig(uint32_t sessionId,
LocApiResponse* adapterResponse=nullptr);
};
class ElapsedRealtimeEstimator {
private:
int64_t mCurrentClockDiff;
int64_t mPrevUtcTimeNanos;
int64_t mPrevBootTimeNanos;
int64_t mFixTimeStablizationThreshold;
int64_t mInitialTravelTime;
int64_t mPrevDataTimeNanos;
public:
ElapsedRealtimeEstimator(int64_t travelTimeNanosEstimate):
mInitialTravelTime(travelTimeNanosEstimate) {reset();}
int64_t getElapsedRealtimeEstimateNanos(int64_t curDataTimeNanos,
bool isCurDataTimeTrustable, int64_t tbf);
inline int64_t getElapsedRealtimeUncNanos() { return 5000000;}
void reset();
static int64_t getElapsedRealtimeQtimer(int64_t qtimerTicksAtOrigin);
static bool getCurrentTime(struct timespec& currentTime, int64_t& sinceBootTimeNanos);
};
typedef LocApiBase* (getLocApi_t)(LOC_API_ADAPTER_EVENT_MASK_T exMask,
ContextBase *context);
} // namespace loc_core
#endif //LOC_API_BASE_H