/* Copyright (c) 2011-2014, The Linux Foundation. All rights reserved.
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* modification, are permitted provided that the following conditions are
* met:
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* * Redistributions in binary form must reproduce the above
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* 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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#ifndef LOC_API_ENG_ADAPTER_H
#define LOC_API_ENG_ADAPTER_H
#include <ctype.h>
#include <hardware/gps.h>
#include <loc.h>
#include <loc_eng_log.h>
#include <log_util.h>
#include <LocAdapterBase.h>
#include <LocDualContext.h>
#include <UlpProxyBase.h>
#include <platform_lib_includes.h>
#define MAX_URL_LEN 256
using namespace loc_core;
class LocEngAdapter;
class LocInternalAdapter : public LocAdapterBase {
LocEngAdapter* mLocEngAdapter;
public:
LocInternalAdapter(LocEngAdapter* adapter);
virtual void reportPosition(UlpLocation &location,
GpsLocationExtended &locationExtended,
void* locationExt,
enum loc_sess_status status,
LocPosTechMask loc_technology_mask);
virtual void reportSv(GpsSvStatus &svStatus,
GpsLocationExtended &locationExtended,
void* svExt);
virtual void reportStatus(GpsStatusValue status);
virtual void setPositionModeInt(LocPosMode& posMode);
virtual void startFixInt();
virtual void stopFixInt();
virtual void getZppInt();
virtual void setUlpProxy(UlpProxyBase* ulp);
virtual void shutdown();
};
typedef void (*loc_msg_sender)(void* loc_eng_data_p, void* msgp);
class LocEngAdapter : public LocAdapterBase {
void* mOwner;
LocInternalAdapter* mInternalAdapter;
UlpProxyBase* mUlp;
LocPosMode mFixCriteria;
bool mNavigating;
// mPowerVote is encoded as
// mPowerVote & 0x20 -- powerVoteRight
// mPowerVote & 0x10 -- power On / Off
unsigned int mPowerVote;
static const unsigned int POWER_VOTE_RIGHT = 0x20;
static const unsigned int POWER_VOTE_VALUE = 0x10;
public:
bool mSupportsAgpsRequests;
bool mSupportsPositionInjection;
LocEngAdapter(LOC_API_ADAPTER_EVENT_MASK_T mask,
void* owner, ContextBase* context,
MsgTask::tCreate tCreator);
virtual ~LocEngAdapter();
virtual void setUlpProxy(UlpProxyBase* ulp);
inline void requestUlp(unsigned long capabilities) {
mContext->requestUlp(mInternalAdapter, capabilities);
}
inline LocInternalAdapter* getInternalAdapter() { return mInternalAdapter; }
inline UlpProxyBase* getUlpProxy() { return mUlp; }
inline void* getOwner() { return mOwner; }
inline bool hasAgpsExtendedCapabilities() {
return mContext->hasAgpsExtendedCapabilities();
}
inline bool hasCPIExtendedCapabilities() {
return mContext->hasCPIExtendedCapabilities();
}
inline const MsgTask* getMsgTask() { return mMsgTask; }
inline enum loc_api_adapter_err
startFix()
{
return mLocApi->startFix(mFixCriteria);
}
inline enum loc_api_adapter_err
stopFix()
{
return mLocApi->stopFix();
}
inline enum loc_api_adapter_err
deleteAidingData(GpsAidingData f)
{
return mLocApi->deleteAidingData(f);
}
inline enum loc_api_adapter_err
enableData(int enable)
{
return mLocApi->enableData(enable);
}
inline enum loc_api_adapter_err
setAPN(char* apn, int len)
{
return mLocApi->setAPN(apn, len);
}
inline enum loc_api_adapter_err
injectPosition(double latitude, double longitude, float accuracy)
{
return mLocApi->injectPosition(latitude, longitude, accuracy);
}
inline enum loc_api_adapter_err
setTime(GpsUtcTime time, int64_t timeReference, int uncertainty)
{
return mLocApi->setTime(time, timeReference, uncertainty);
}
inline enum loc_api_adapter_err
setXtraData(char* data, int length)
{
return mLocApi->setXtraData(data, length);
}
inline enum loc_api_adapter_err
requestXtraServer()
{
return mLocApi->requestXtraServer();
}
inline enum loc_api_adapter_err
atlOpenStatus(int handle, int is_succ, char* apn, AGpsBearerType bearer, AGpsType agpsType)
{
return mLocApi->atlOpenStatus(handle, is_succ, apn, bearer, agpsType);
}
inline enum loc_api_adapter_err
atlCloseStatus(int handle, int is_succ)
{
return mLocApi->atlCloseStatus(handle, is_succ);
}
inline enum loc_api_adapter_err
setPositionMode(const LocPosMode *posMode)
{
if (NULL != posMode) {
mFixCriteria = *posMode;
}
return mLocApi->setPositionMode(mFixCriteria);
}
inline enum loc_api_adapter_err
setServer(const char* url, int len)
{
return mLocApi->setServer(url, len);
}
inline enum loc_api_adapter_err
setServer(unsigned int ip, int port,
LocServerType type)
{
return mLocApi->setServer(ip, port, type);
}
inline enum loc_api_adapter_err
informNiResponse(GpsUserResponseType userResponse, const void* passThroughData)
{
return mLocApi->informNiResponse(userResponse, passThroughData);
}
inline enum loc_api_adapter_err
setSUPLVersion(uint32_t version)
{
return mLocApi->setSUPLVersion(version);
}
inline enum loc_api_adapter_err
setLPPConfig(uint32_t profile)
{
return mLocApi->setLPPConfig(profile);
}
inline enum loc_api_adapter_err
setSensorControlConfig(int sensorUsage, int sensorProvider)
{
return mLocApi->setSensorControlConfig(sensorUsage, sensorProvider);
}
inline enum loc_api_adapter_err
setSensorProperties(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)
{
return mLocApi->setSensorProperties(gyroBiasVarianceRandomWalk_valid, gyroBiasVarianceRandomWalk,
accelBiasVarianceRandomWalk_valid, accelBiasVarianceRandomWalk,
angleBiasVarianceRandomWalk_valid, angleBiasVarianceRandomWalk,
rateBiasVarianceRandomWalk_valid, rateBiasVarianceRandomWalk,
velocityBiasVarianceRandomWalk_valid, velocityBiasVarianceRandomWalk);
}
inline virtual enum loc_api_adapter_err
setSensorPerfControlConfig(int controlMode, int accelSamplesPerBatch, int accelBatchesPerSec,
int gyroSamplesPerBatch, int gyroBatchesPerSec,
int accelSamplesPerBatchHigh, int accelBatchesPerSecHigh,
int gyroSamplesPerBatchHigh, int gyroBatchesPerSecHigh, int algorithmConfig)
{
return mLocApi->setSensorPerfControlConfig(controlMode, accelSamplesPerBatch, accelBatchesPerSec,
gyroSamplesPerBatch, gyroBatchesPerSec,
accelSamplesPerBatchHigh, accelBatchesPerSecHigh,
gyroSamplesPerBatchHigh, gyroBatchesPerSecHigh,
algorithmConfig);
}
inline virtual enum loc_api_adapter_err
setExtPowerConfig(int isBatteryCharging)
{
return mLocApi->setExtPowerConfig(isBatteryCharging);
}
inline virtual enum loc_api_adapter_err
setAGLONASSProtocol(unsigned long aGlonassProtocol)
{
return mLocApi->setAGLONASSProtocol(aGlonassProtocol);
}
inline virtual int initDataServiceClient()
{
return mLocApi->initDataServiceClient();
}
inline virtual int openAndStartDataCall()
{
return mLocApi->openAndStartDataCall();
}
inline virtual void stopDataCall()
{
mLocApi->stopDataCall();
}
inline virtual void closeDataCall()
{
mLocApi->closeDataCall();
}
inline enum loc_api_adapter_err
getZpp(GpsLocation &zppLoc, LocPosTechMask &tech_mask)
{
return mLocApi->getBestAvailableZppFix(zppLoc, tech_mask);
}
inline virtual void installAGpsCert(const DerEncodedCertificate* pData,
size_t length,
uint32_t slotBitMask)
{
mLocApi->installAGpsCert(pData, length, slotBitMask);
}
virtual void handleEngineDownEvent();
virtual void handleEngineUpEvent();
virtual void reportPosition(UlpLocation &location,
GpsLocationExtended &locationExtended,
void* locationExt,
enum loc_sess_status status,
LocPosTechMask loc_technology_mask);
virtual void reportSv(GpsSvStatus &svStatus,
GpsLocationExtended &locationExtended,
void* svExt);
virtual void reportStatus(GpsStatusValue status);
virtual void reportNmea(const char* nmea, int length);
virtual bool reportXtraServer(const char* url1, const char* url2,
const char* url3, const int maxlength);
virtual bool requestXtraData();
virtual bool requestTime();
virtual bool requestATL(int connHandle, AGpsType agps_type);
virtual bool releaseATL(int connHandle);
virtual bool requestNiNotify(GpsNiNotification ¬ify, const void* data);
virtual bool requestSuplES(int connHandle);
virtual bool reportDataCallOpened();
virtual bool reportDataCallClosed();
virtual void reportGpsMeasurementData(GpsData &gpsMeasurementData);
inline const LocPosMode& getPositionMode() const
{return mFixCriteria;}
inline virtual bool isInSession()
{ return mNavigating; }
void setInSession(bool inSession);
// Permit/prohibit power voting
inline void setPowerVoteRight(bool powerVoteRight) {
mPowerVote = powerVoteRight ? (mPowerVote | POWER_VOTE_RIGHT) :
(mPowerVote & ~POWER_VOTE_RIGHT);
}
inline bool getPowerVoteRight() const {
return (mPowerVote & POWER_VOTE_RIGHT) != 0 ;
}
// Set the power voting up/down and do actual operation if permitted
inline void setPowerVote(bool powerOn) {
mPowerVote = powerOn ? (mPowerVote | POWER_VOTE_VALUE) :
(mPowerVote & ~POWER_VOTE_VALUE);
requestPowerVote();
}
inline bool getPowerVote() const {
return (mPowerVote & POWER_VOTE_VALUE) != 0 ;
}
// Do power voting according to last settings if permitted
void requestPowerVote();
/*Values for lock
1 = Do not lock any position sessions
2 = Lock MI position sessions
3 = Lock MT position sessions
4 = Lock all position sessions
*/
inline int setGpsLock(LOC_GPS_LOCK_MASK lock)
{
return mLocApi->setGpsLock(lock);
}
int setGpsLockMsg(LOC_GPS_LOCK_MASK lock);
/*
Returns
Current value of GPS lock on success
-1 on failure
*/
inline int getGpsLock()
{
return mLocApi->getGpsLock();
}
/*
Update Registration Mask
*/
void updateRegistrationMask(LOC_API_ADAPTER_EVENT_MASK_T event,
loc_registration_mask_status isEnabled);
/*
Set Gnss Constellation Config
*/
bool gnssConstellationConfig();
};
#endif //LOC_API_ENG_ADAPTER_H