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android / platform / hardware / qcom / sm7150 / gps / refs/tags/android-12.0.0_r20 / . / core / SystemStatus.cpp
blob: 393eead1daf4731bce1f35fc473018987acb6405 [file] [log] [blame]
/* 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_TAG "LocSvc_SystemStatus"
#include <inttypes.h>
#include <string>
#include <stdlib.h>
#include <string.h>
#include <sys/time.h>
#include <pthread.h>
#include <loc_pla.h>
#include <log_util.h>
#include <loc_nmea.h>
#include <DataItemsFactoryProxy.h>
#include <SystemStatus.h>
#include <SystemStatusOsObserver.h>
#include <DataItemConcreteTypesBase.h>
namespace loc_core
{
/******************************************************************************
SystemStatusNmeaBase - base class for all NMEA parsers
******************************************************************************/
class SystemStatusNmeaBase
{
protected:
std::vector<std::string> mField;
SystemStatusNmeaBase(const char *str_in, uint32_t len_in)
{
// check size and talker
if (!loc_nmea_is_debug(str_in, len_in)) {
return;
}
std::string parser(str_in);
std::string::size_type index = 0;
// verify checksum field
index = parser.find("*");
if (index == std::string::npos) {
return;
}
parser[index] = ',';
// tokenize parser
while (1) {
std::string str;
index = parser.find(",");
if (index == std::string::npos) {
break;
}
str = parser.substr(0, index);
parser = parser.substr(index + 1);
mField.push_back(str);
}
}
virtual ~SystemStatusNmeaBase() { }
public:
static const uint32_t NMEA_MINSIZE = DEBUG_NMEA_MINSIZE;
static const uint32_t NMEA_MAXSIZE = DEBUG_NMEA_MAXSIZE;
};
/******************************************************************************
SystemStatusPQWM1
******************************************************************************/
class SystemStatusPQWM1
{
public:
uint16_t mGpsWeek; // x1
uint32_t mGpsTowMs; // x2
uint8_t mTimeValid; // x3
uint8_t mTimeSource; // x4
int32_t mTimeUnc; // x5
int32_t mClockFreqBias; // x6
int32_t mClockFreqBiasUnc; // x7
uint8_t mXoState; // x8
int32_t mPgaGain; // x9
uint32_t mGpsBpAmpI; // xA
uint32_t mGpsBpAmpQ; // xB
uint32_t mAdcI; // xC
uint32_t mAdcQ; // xD
uint32_t mJammerGps; // xE
uint32_t mJammerGlo; // xF
uint32_t mJammerBds; // x10
uint32_t mJammerGal; // x11
uint32_t mRecErrorRecovery; // x12
double mAgcGps; // x13
double mAgcGlo; // x14
double mAgcBds; // x15
double mAgcGal; // x16
int32_t mLeapSeconds;// x17
int32_t mLeapSecUnc; // x18
uint32_t mGloBpAmpI; // x19
uint32_t mGloBpAmpQ; // x1A
uint32_t mBdsBpAmpI; // x1B
uint32_t mBdsBpAmpQ; // x1C
uint32_t mGalBpAmpI; // x1D
uint32_t mGalBpAmpQ; // x1E
uint64_t mTimeUncNs; // x1F
};
// parser
class SystemStatusPQWM1parser : public SystemStatusNmeaBase
{
private:
enum
{
eTalker = 0,
eGpsWeek = 1,
eGpsTowMs = 2,
eTimeValid = 3,
eTimeSource = 4,
eTimeUnc = 5,
eClockFreqBias = 6,
eClockFreqBiasUnc = 7,
eXoState = 8,
ePgaGain = 9,
eGpsBpAmpI = 10,
eGpsBpAmpQ = 11,
eAdcI = 12,
eAdcQ = 13,
eJammerGps = 14,
eJammerGlo = 15,
eJammerBds = 16,
eJammerGal = 17,
eRecErrorRecovery = 18,
eAgcGps = 19,
eAgcGlo = 20,
eAgcBds = 21,
eAgcGal = 22,
eMax0 = eAgcGal,
eLeapSeconds = 23,
eLeapSecUnc = 24,
eGloBpAmpI = 25,
eGloBpAmpQ = 26,
eBdsBpAmpI = 27,
eBdsBpAmpQ = 28,
eGalBpAmpI = 29,
eGalBpAmpQ = 30,
eTimeUncNs = 31,
eMax
};
SystemStatusPQWM1 mM1;
public:
inline uint16_t getGpsWeek() { return mM1.mGpsWeek; }
inline uint32_t getGpsTowMs() { return mM1.mGpsTowMs; }
inline uint8_t getTimeValid() { return mM1.mTimeValid; }
inline uint8_t getTimeSource() { return mM1.mTimeSource; }
inline int32_t getTimeUnc() { return mM1.mTimeUnc; }
inline int32_t getClockFreqBias() { return mM1.mClockFreqBias; }
inline int32_t getClockFreqBiasUnc() { return mM1.mClockFreqBiasUnc; }
inline uint8_t getXoState() { return mM1.mXoState;}
inline int32_t getPgaGain() { return mM1.mPgaGain; }
inline uint32_t getGpsBpAmpI() { return mM1.mGpsBpAmpI; }
inline uint32_t getGpsBpAmpQ() { return mM1.mGpsBpAmpQ; }
inline uint32_t getAdcI() { return mM1.mAdcI; }
inline uint32_t getAdcQ() { return mM1.mAdcQ; }
inline uint32_t getJammerGps() { return mM1.mJammerGps; }
inline uint32_t getJammerGlo() { return mM1.mJammerGlo; }
inline uint32_t getJammerBds() { return mM1.mJammerBds; }
inline uint32_t getJammerGal() { return mM1.mJammerGal; }
inline uint32_t getAgcGps() { return mM1.mAgcGps; }
inline uint32_t getAgcGlo() { return mM1.mAgcGlo; }
inline uint32_t getAgcBds() { return mM1.mAgcBds; }
inline uint32_t getAgcGal() { return mM1.mAgcGal; }
inline uint32_t getRecErrorRecovery() { return mM1.mRecErrorRecovery; }
inline int32_t getLeapSeconds(){ return mM1.mLeapSeconds; }
inline int32_t getLeapSecUnc() { return mM1.mLeapSecUnc; }
inline uint32_t getGloBpAmpI() { return mM1.mGloBpAmpI; }
inline uint32_t getGloBpAmpQ() { return mM1.mGloBpAmpQ; }
inline uint32_t getBdsBpAmpI() { return mM1.mBdsBpAmpI; }
inline uint32_t getBdsBpAmpQ() { return mM1.mBdsBpAmpQ; }
inline uint32_t getGalBpAmpI() { return mM1.mGalBpAmpI; }
inline uint32_t getGalBpAmpQ() { return mM1.mGalBpAmpQ; }
inline uint64_t getTimeUncNs() { return mM1.mTimeUncNs; }
SystemStatusPQWM1parser(const char *str_in, uint32_t len_in)
: SystemStatusNmeaBase(str_in, len_in)
{
memset(&mM1, 0, sizeof(mM1));
if (mField.size() <= eMax0) {
LOC_LOGE("PQWM1parser - invalid size=%zu", mField.size());
mM1.mTimeValid = 0;
return;
}
mM1.mGpsWeek = atoi(mField[eGpsWeek].c_str());
mM1.mGpsTowMs = atoi(mField[eGpsTowMs].c_str());
mM1.mTimeValid = atoi(mField[eTimeValid].c_str());
mM1.mTimeSource = atoi(mField[eTimeSource].c_str());
mM1.mTimeUnc = atoi(mField[eTimeUnc].c_str());
mM1.mClockFreqBias = atoi(mField[eClockFreqBias].c_str());
mM1.mClockFreqBiasUnc = atoi(mField[eClockFreqBiasUnc].c_str());
mM1.mXoState = atoi(mField[eXoState].c_str());
mM1.mPgaGain = atoi(mField[ePgaGain].c_str());
mM1.mGpsBpAmpI = atoi(mField[eGpsBpAmpI].c_str());
mM1.mGpsBpAmpQ = atoi(mField[eGpsBpAmpQ].c_str());
mM1.mAdcI = atoi(mField[eAdcI].c_str());
mM1.mAdcQ = atoi(mField[eAdcQ].c_str());
mM1.mJammerGps = atoi(mField[eJammerGps].c_str());
mM1.mJammerGlo = atoi(mField[eJammerGlo].c_str());
mM1.mJammerBds = atoi(mField[eJammerBds].c_str());
mM1.mJammerGal = atoi(mField[eJammerGal].c_str());
mM1.mRecErrorRecovery = atoi(mField[eRecErrorRecovery].c_str());
mM1.mAgcGps = atof(mField[eAgcGps].c_str());
mM1.mAgcGlo = atof(mField[eAgcGlo].c_str());
mM1.mAgcBds = atof(mField[eAgcBds].c_str());
mM1.mAgcGal = atof(mField[eAgcGal].c_str());
if (mField.size() > eLeapSecUnc) {
mM1.mLeapSeconds = atoi(mField[eLeapSeconds].c_str());
mM1.mLeapSecUnc = atoi(mField[eLeapSecUnc].c_str());
}
if (mField.size() > eGalBpAmpQ) {
mM1.mGloBpAmpI = atoi(mField[eGloBpAmpI].c_str());
mM1.mGloBpAmpQ = atoi(mField[eGloBpAmpQ].c_str());
mM1.mBdsBpAmpI = atoi(mField[eBdsBpAmpI].c_str());
mM1.mBdsBpAmpQ = atoi(mField[eBdsBpAmpQ].c_str());
mM1.mGalBpAmpI = atoi(mField[eGalBpAmpI].c_str());
mM1.mGalBpAmpQ = atoi(mField[eGalBpAmpQ].c_str());
}
if (mField.size() > eTimeUncNs) {
mM1.mTimeUncNs = strtoull(mField[eTimeUncNs].c_str(), nullptr, 10);
}
}
inline SystemStatusPQWM1& get() { return mM1;} //getparser
};
/******************************************************************************
SystemStatusPQWP1
******************************************************************************/
class SystemStatusPQWP1
{
public:
uint8_t mEpiValidity; // x4
float mEpiLat; // x5
float mEpiLon; // x6
float mEpiAlt; // x7
float mEpiHepe; // x8
float mEpiAltUnc; // x9
uint8_t mEpiSrc; // x10
};
class SystemStatusPQWP1parser : public SystemStatusNmeaBase
{
private:
enum
{
eTalker = 0,
eUtcTime = 1,
eEpiValidity = 2,
eEpiLat = 3,
eEpiLon = 4,
eEpiAlt = 5,
eEpiHepe = 6,
eEpiAltUnc = 7,
eEpiSrc = 8,
eMax
};
SystemStatusPQWP1 mP1;
public:
inline uint8_t getEpiValidity() { return mP1.mEpiValidity; }
inline float getEpiLat() { return mP1.mEpiLat; }
inline float getEpiLon() { return mP1.mEpiLon; }
inline float getEpiAlt() { return mP1.mEpiAlt; }
inline float getEpiHepe() { return mP1.mEpiHepe; }
inline float getEpiAltUnc() { return mP1.mEpiAltUnc; }
inline uint8_t getEpiSrc() { return mP1.mEpiSrc; }
SystemStatusPQWP1parser(const char *str_in, uint32_t len_in)
: SystemStatusNmeaBase(str_in, len_in)
{
if (mField.size() < eMax) {
return;
}
memset(&mP1, 0, sizeof(mP1));
mP1.mEpiValidity = strtol(mField[eEpiValidity].c_str(), NULL, 16);
mP1.mEpiLat = atof(mField[eEpiLat].c_str());
mP1.mEpiLon = atof(mField[eEpiLon].c_str());
mP1.mEpiAlt = atof(mField[eEpiAlt].c_str());
mP1.mEpiHepe = atoi(mField[eEpiHepe].c_str());
mP1.mEpiAltUnc = atof(mField[eEpiAltUnc].c_str());
mP1.mEpiSrc = atoi(mField[eEpiSrc].c_str());
}
inline SystemStatusPQWP1& get() { return mP1;}
};
/******************************************************************************
SystemStatusPQWP2
******************************************************************************/
class SystemStatusPQWP2
{
public:
float mBestLat; // x4
float mBestLon; // x5
float mBestAlt; // x6
float mBestHepe; // x7
float mBestAltUnc; // x8
};
class SystemStatusPQWP2parser : public SystemStatusNmeaBase
{
private:
enum
{
eTalker = 0,
eUtcTime = 1,
eBestLat = 2,
eBestLon = 3,
eBestAlt = 4,
eBestHepe = 5,
eBestAltUnc = 6,
eMax
};
SystemStatusPQWP2 mP2;
public:
inline float getBestLat() { return mP2.mBestLat; }
inline float getBestLon() { return mP2.mBestLon; }
inline float getBestAlt() { return mP2.mBestAlt; }
inline float getBestHepe() { return mP2.mBestHepe; }
inline float getBestAltUnc() { return mP2.mBestAltUnc; }
SystemStatusPQWP2parser(const char *str_in, uint32_t len_in)
: SystemStatusNmeaBase(str_in, len_in)
{
if (mField.size() < eMax) {
return;
}
memset(&mP2, 0, sizeof(mP2));
mP2.mBestLat = atof(mField[eBestLat].c_str());
mP2.mBestLon = atof(mField[eBestLon].c_str());
mP2.mBestAlt = atof(mField[eBestAlt].c_str());
mP2.mBestHepe = atof(mField[eBestHepe].c_str());
mP2.mBestAltUnc = atof(mField[eBestAltUnc].c_str());
}
inline SystemStatusPQWP2& get() { return mP2;}
};
/******************************************************************************
SystemStatusPQWP3
******************************************************************************/
class SystemStatusPQWP3
{
public:
uint8_t mXtraValidMask;
uint32_t mGpsXtraAge;
uint32_t mGloXtraAge;
uint32_t mBdsXtraAge;
uint32_t mGalXtraAge;
uint32_t mQzssXtraAge;
uint32_t mNavicXtraAge;
uint32_t mGpsXtraValid;
uint32_t mGloXtraValid;
uint64_t mBdsXtraValid;
uint64_t mGalXtraValid;
uint8_t mQzssXtraValid;
uint32_t mNavicXtraValid;
};
class SystemStatusPQWP3parser : public SystemStatusNmeaBase
{
private:
// todo: update for navic once available
enum
{
eTalker = 0,
eUtcTime = 1,
eXtraValidMask = 2,
eGpsXtraAge = 3,
eGloXtraAge = 4,
eBdsXtraAge = 5,
eGalXtraAge = 6,
eQzssXtraAge = 7,
eGpsXtraValid = 8,
eGloXtraValid = 9,
eBdsXtraValid = 10,
eGalXtraValid = 11,
eQzssXtraValid = 12,
eMax
};
SystemStatusPQWP3 mP3;
public:
inline uint8_t getXtraValid() { return mP3.mXtraValidMask; }
inline uint32_t getGpsXtraAge() { return mP3.mGpsXtraAge; }
inline uint32_t getGloXtraAge() { return mP3.mGloXtraAge; }
inline uint32_t getBdsXtraAge() { return mP3.mBdsXtraAge; }
inline uint32_t getGalXtraAge() { return mP3.mGalXtraAge; }
inline uint32_t getQzssXtraAge() { return mP3.mQzssXtraAge; }
inline uint32_t getNavicXtraAge() { return mP3.mNavicXtraAge; }
inline uint32_t getGpsXtraValid() { return mP3.mGpsXtraValid; }
inline uint32_t getGloXtraValid() { return mP3.mGloXtraValid; }
inline uint64_t getBdsXtraValid() { return mP3.mBdsXtraValid; }
inline uint64_t getGalXtraValid() { return mP3.mGalXtraValid; }
inline uint8_t getQzssXtraValid() { return mP3.mQzssXtraValid; }
inline uint32_t getNavicXtraValid() { return mP3.mNavicXtraValid; }
SystemStatusPQWP3parser(const char *str_in, uint32_t len_in)
: SystemStatusNmeaBase(str_in, len_in)
{
if (mField.size() < eMax) {
return;
}
memset(&mP3, 0, sizeof(mP3));
// todo: update for navic once available
mP3.mXtraValidMask = strtol(mField[eXtraValidMask].c_str(), NULL, 16);
mP3.mGpsXtraAge = atoi(mField[eGpsXtraAge].c_str());
mP3.mGloXtraAge = atoi(mField[eGloXtraAge].c_str());
mP3.mBdsXtraAge = atoi(mField[eBdsXtraAge].c_str());
mP3.mGalXtraAge = atoi(mField[eGalXtraAge].c_str());
mP3.mQzssXtraAge = atoi(mField[eQzssXtraAge].c_str());
mP3.mGpsXtraValid = strtol(mField[eGpsXtraValid].c_str(), NULL, 16);
mP3.mGloXtraValid = strtol(mField[eGloXtraValid].c_str(), NULL, 16);
mP3.mBdsXtraValid = strtol(mField[eBdsXtraValid].c_str(), NULL, 16);
mP3.mGalXtraValid = strtol(mField[eGalXtraValid].c_str(), NULL, 16);
mP3.mQzssXtraValid = strtol(mField[eQzssXtraValid].c_str(), NULL, 16);
}
inline SystemStatusPQWP3& get() { return mP3;}
};
/******************************************************************************
SystemStatusPQWP4
******************************************************************************/
class SystemStatusPQWP4
{
public:
uint32_t mGpsEpheValid;
uint32_t mGloEpheValid;
uint64_t mBdsEpheValid;
uint64_t mGalEpheValid;
uint8_t mQzssEpheValid;
};
class SystemStatusPQWP4parser : public SystemStatusNmeaBase
{
private:
enum
{
eTalker = 0,
eUtcTime = 1,
eGpsEpheValid = 2,
eGloEpheValid = 3,
eBdsEpheValid = 4,
eGalEpheValid = 5,
eQzssEpheValid = 6,
eMax
};
SystemStatusPQWP4 mP4;
public:
inline uint32_t getGpsEpheValid() { return mP4.mGpsEpheValid; }
inline uint32_t getGloEpheValid() { return mP4.mGloEpheValid; }
inline uint64_t getBdsEpheValid() { return mP4.mBdsEpheValid; }
inline uint64_t getGalEpheValid() { return mP4.mGalEpheValid; }
inline uint8_t getQzssEpheValid() { return mP4.mQzssEpheValid; }
SystemStatusPQWP4parser(const char *str_in, uint32_t len_in)
: SystemStatusNmeaBase(str_in, len_in)
{
if (mField.size() < eMax) {
return;
}
memset(&mP4, 0, sizeof(mP4));
mP4.mGpsEpheValid = strtol(mField[eGpsEpheValid].c_str(), NULL, 16);
mP4.mGloEpheValid = strtol(mField[eGloEpheValid].c_str(), NULL, 16);
mP4.mBdsEpheValid = strtol(mField[eBdsEpheValid].c_str(), NULL, 16);
mP4.mGalEpheValid = strtol(mField[eGalEpheValid].c_str(), NULL, 16);
mP4.mQzssEpheValid = strtol(mField[eQzssEpheValid].c_str(), NULL, 16);
}
inline SystemStatusPQWP4& get() { return mP4;}
};
/******************************************************************************
SystemStatusPQWP5
******************************************************************************/
class SystemStatusPQWP5
{
public:
uint32_t mGpsUnknownMask;
uint32_t mGloUnknownMask;
uint64_t mBdsUnknownMask;
uint64_t mGalUnknownMask;
uint8_t mQzssUnknownMask;
uint32_t mNavicUnknownMask;
uint32_t mGpsGoodMask;
uint32_t mGloGoodMask;
uint64_t mBdsGoodMask;
uint64_t mGalGoodMask;
uint8_t mQzssGoodMask;
uint32_t mNavicGoodMask;
uint32_t mGpsBadMask;
uint32_t mGloBadMask;
uint64_t mBdsBadMask;
uint64_t mGalBadMask;
uint8_t mQzssBadMask;
uint32_t mNavicBadMask;
};
class SystemStatusPQWP5parser : public SystemStatusNmeaBase
{
private:
// todo: update for navic once available
enum
{
eTalker = 0,
eUtcTime = 1,
eGpsUnknownMask = 2,
eGloUnknownMask = 3,
eBdsUnknownMask = 4,
eGalUnknownMask = 5,
eQzssUnknownMask = 6,
eGpsGoodMask = 7,
eGloGoodMask = 8,
eBdsGoodMask = 9,
eGalGoodMask = 10,
eQzssGoodMask = 11,
eGpsBadMask = 12,
eGloBadMask = 13,
eBdsBadMask = 14,
eGalBadMask = 15,
eQzssBadMask = 16,
eMax
};
SystemStatusPQWP5 mP5;
public:
inline uint32_t getGpsUnknownMask() { return mP5.mGpsUnknownMask; }
inline uint32_t getGloUnknownMask() { return mP5.mGloUnknownMask; }
inline uint64_t getBdsUnknownMask() { return mP5.mBdsUnknownMask; }
inline uint64_t getGalUnknownMask() { return mP5.mGalUnknownMask; }
inline uint8_t getQzssUnknownMask() { return mP5.mQzssUnknownMask; }
inline uint32_t getNavicUnknownMask() { return mP5.mNavicUnknownMask; }
inline uint32_t getGpsGoodMask() { return mP5.mGpsGoodMask; }
inline uint32_t getGloGoodMask() { return mP5.mGloGoodMask; }
inline uint64_t getBdsGoodMask() { return mP5.mBdsGoodMask; }
inline uint64_t getGalGoodMask() { return mP5.mGalGoodMask; }
inline uint8_t getQzssGoodMask() { return mP5.mQzssGoodMask; }
inline uint32_t getNavicGoodMask() { return mP5.mNavicGoodMask; }
inline uint32_t getGpsBadMask() { return mP5.mGpsBadMask; }
inline uint32_t getGloBadMask() { return mP5.mGloBadMask; }
inline uint64_t getBdsBadMask() { return mP5.mBdsBadMask; }
inline uint64_t getGalBadMask() { return mP5.mGalBadMask; }
inline uint8_t getQzssBadMask() { return mP5.mQzssBadMask; }
inline uint32_t getNavicBadMask() { return mP5.mNavicBadMask; }
SystemStatusPQWP5parser(const char *str_in, uint32_t len_in)
: SystemStatusNmeaBase(str_in, len_in)
{
if (mField.size() < eMax) {
return;
}
memset(&mP5, 0, sizeof(mP5));
// todo: update for navic once available
mP5.mGpsUnknownMask = strtol(mField[eGpsUnknownMask].c_str(), NULL, 16);
mP5.mGloUnknownMask = strtol(mField[eGloUnknownMask].c_str(), NULL, 16);
mP5.mBdsUnknownMask = strtol(mField[eBdsUnknownMask].c_str(), NULL, 16);
mP5.mGalUnknownMask = strtol(mField[eGalUnknownMask].c_str(), NULL, 16);
mP5.mQzssUnknownMask = strtol(mField[eQzssUnknownMask].c_str(), NULL, 16);
mP5.mGpsGoodMask = strtol(mField[eGpsGoodMask].c_str(), NULL, 16);
mP5.mGloGoodMask = strtol(mField[eGloGoodMask].c_str(), NULL, 16);
mP5.mBdsGoodMask = strtol(mField[eBdsGoodMask].c_str(), NULL, 16);
mP5.mGalGoodMask = strtol(mField[eGalGoodMask].c_str(), NULL, 16);
mP5.mQzssGoodMask = strtol(mField[eQzssGoodMask].c_str(), NULL, 16);
mP5.mGpsBadMask = strtol(mField[eGpsBadMask].c_str(), NULL, 16);
mP5.mGloBadMask = strtol(mField[eGloBadMask].c_str(), NULL, 16);
mP5.mBdsBadMask = strtol(mField[eBdsBadMask].c_str(), NULL, 16);
mP5.mGalBadMask = strtol(mField[eGalBadMask].c_str(), NULL, 16);
mP5.mQzssBadMask = strtol(mField[eQzssBadMask].c_str(), NULL, 16);
}
inline SystemStatusPQWP5& get() { return mP5;}
};
/******************************************************************************
SystemStatusPQWP6parser
******************************************************************************/
class SystemStatusPQWP6
{
public:
uint32_t mFixInfoMask;
};
class SystemStatusPQWP6parser : public SystemStatusNmeaBase
{
private:
enum
{
eTalker = 0,
eUtcTime = 1,
eFixInfoMask = 2,
eMax
};
SystemStatusPQWP6 mP6;
public:
inline uint32_t getFixInfoMask() { return mP6.mFixInfoMask; }
SystemStatusPQWP6parser(const char *str_in, uint32_t len_in)
: SystemStatusNmeaBase(str_in, len_in)
{
if (mField.size() < eMax) {
return;
}
memset(&mP6, 0, sizeof(mP6));
mP6.mFixInfoMask = strtol(mField[eFixInfoMask].c_str(), NULL, 16);
}
inline SystemStatusPQWP6& get() { return mP6;}
};
/******************************************************************************
SystemStatusPQWP7parser
******************************************************************************/
class SystemStatusPQWP7
{
public:
SystemStatusNav mNav[SV_ALL_NUM];
};
class SystemStatusPQWP7parser : public SystemStatusNmeaBase
{
private:
enum
{
eTalker = 0,
eUtcTime = 1,
eMin = 2 + SV_ALL_NUM_MIN*3,
eMax = 2 + SV_ALL_NUM*3
};
SystemStatusPQWP7 mP7;
public:
SystemStatusPQWP7parser(const char *str_in, uint32_t len_in)
: SystemStatusNmeaBase(str_in, len_in)
{
uint32_t svLimit = SV_ALL_NUM;
if (mField.size() < eMin) {
LOC_LOGE("PQWP7parser - invalid size=%zu", mField.size());
return;
}
if (mField.size() < eMax) {
// Try reducing limit, accounting for possibly missing NAVIC support
svLimit = SV_ALL_NUM_MIN;
}
memset(mP7.mNav, 0, sizeof(mP7.mNav));
for (uint32_t i=0; i<svLimit; i++) {
mP7.mNav[i].mType = GnssEphemerisType(atoi(mField[i*3+2].c_str()));
mP7.mNav[i].mSource = GnssEphemerisSource(atoi(mField[i*3+3].c_str()));
mP7.mNav[i].mAgeSec = atoi(mField[i*3+4].c_str());
}
}
inline SystemStatusPQWP7& get() { return mP7;}
};
/******************************************************************************
SystemStatusPQWS1parser
******************************************************************************/
class SystemStatusPQWS1
{
public:
uint32_t mFixInfoMask;
uint32_t mHepeLimit;
};
class SystemStatusPQWS1parser : public SystemStatusNmeaBase
{
private:
enum
{
eTalker = 0,
eUtcTime = 1,
eFixInfoMask = 2,
eHepeLimit = 3,
eMax
};
SystemStatusPQWS1 mS1;
public:
inline uint16_t getFixInfoMask() { return mS1.mFixInfoMask; }
inline uint32_t getHepeLimit() { return mS1.mHepeLimit; }
SystemStatusPQWS1parser(const char *str_in, uint32_t len_in)
: SystemStatusNmeaBase(str_in, len_in)
{
if (mField.size() < eMax) {
return;
}
memset(&mS1, 0, sizeof(mS1));
mS1.mFixInfoMask = atoi(mField[eFixInfoMask].c_str());
mS1.mHepeLimit = atoi(mField[eHepeLimit].c_str());
}
inline SystemStatusPQWS1& get() { return mS1;}
};
/******************************************************************************
SystemStatusTimeAndClock
******************************************************************************/
SystemStatusTimeAndClock::SystemStatusTimeAndClock(const SystemStatusPQWM1& nmea) :
mGpsWeek(nmea.mGpsWeek),
mGpsTowMs(nmea.mGpsTowMs),
mTimeValid(nmea.mTimeValid),
mTimeSource(nmea.mTimeSource),
mTimeUnc(nmea.mTimeUnc),
mClockFreqBias(nmea.mClockFreqBias),
mClockFreqBiasUnc(nmea.mClockFreqBiasUnc),
mLeapSeconds(nmea.mLeapSeconds),
mLeapSecUnc(nmea.mLeapSecUnc),
mTimeUncNs(nmea.mTimeUncNs)
{
}
bool SystemStatusTimeAndClock::equals(const SystemStatusTimeAndClock& peer)
{
if ((mGpsWeek != peer.mGpsWeek) ||
(mGpsTowMs != peer.mGpsTowMs) ||
(mTimeValid != peer.mTimeValid) ||
(mTimeSource != peer.mTimeSource) ||
(mTimeUnc != peer.mTimeUnc) ||
(mClockFreqBias != peer.mClockFreqBias) ||
(mClockFreqBiasUnc != peer.mClockFreqBiasUnc) ||
(mLeapSeconds != peer.mLeapSeconds) ||
(mLeapSecUnc != peer.mLeapSecUnc) ||
(mTimeUncNs != peer.mTimeUncNs)) {
return false;
}
return true;
}
void SystemStatusTimeAndClock::dump()
{
LOC_LOGV("TimeAndClock: u=%ld:%ld g=%d:%d v=%d ts=%d tu=%d b=%d bu=%d ls=%d lu=%d un=%" PRIu64,
mUtcTime.tv_sec, mUtcTime.tv_nsec,
mGpsWeek,
mGpsTowMs,
mTimeValid,
mTimeSource,
mTimeUnc,
mClockFreqBias,
mClockFreqBiasUnc,
mLeapSeconds,
mLeapSecUnc,
mTimeUncNs);
return;
}
/******************************************************************************
SystemStatusXoState
******************************************************************************/
SystemStatusXoState::SystemStatusXoState(const SystemStatusPQWM1& nmea) :
mXoState(nmea.mXoState)
{
}
bool SystemStatusXoState::equals(const SystemStatusXoState& peer)
{
if (mXoState != peer.mXoState) {
return false;
}
return true;
}
void SystemStatusXoState::dump()
{
LOC_LOGV("XoState: u=%ld:%ld x=%d",
mUtcTime.tv_sec, mUtcTime.tv_nsec,
mXoState);
return;
}
/******************************************************************************
SystemStatusRfAndParams
******************************************************************************/
SystemStatusRfAndParams::SystemStatusRfAndParams(const SystemStatusPQWM1& nmea) :
mPgaGain(nmea.mPgaGain),
mGpsBpAmpI(nmea.mGpsBpAmpI),
mGpsBpAmpQ(nmea.mGpsBpAmpQ),
mAdcI(nmea.mAdcI),
mAdcQ(nmea.mAdcQ),
mJammerGps(nmea.mJammerGps),
mJammerGlo(nmea.mJammerGlo),
mJammerBds(nmea.mJammerBds),
mJammerGal(nmea.mJammerGal),
mAgcGps(nmea.mAgcGps),
mAgcGlo(nmea.mAgcGlo),
mAgcBds(nmea.mAgcBds),
mAgcGal(nmea.mAgcGal),
mGloBpAmpI(nmea.mGloBpAmpI),
mGloBpAmpQ(nmea.mGloBpAmpQ),
mBdsBpAmpI(nmea.mBdsBpAmpI),
mBdsBpAmpQ(nmea.mBdsBpAmpQ),
mGalBpAmpI(nmea.mGalBpAmpI),
mGalBpAmpQ(nmea.mGalBpAmpQ)
{
}
bool SystemStatusRfAndParams::equals(const SystemStatusRfAndParams& peer)
{
if ((mPgaGain != peer.mPgaGain) ||
(mGpsBpAmpI != peer.mGpsBpAmpI) ||
(mGpsBpAmpQ != peer.mGpsBpAmpQ) ||
(mAdcI != peer.mAdcI) ||
(mAdcQ != peer.mAdcQ) ||
(mJammerGps != peer.mJammerGps) ||
(mJammerGlo != peer.mJammerGlo) ||
(mJammerBds != peer.mJammerBds) ||
(mJammerGal != peer.mJammerGal) ||
(mAgcGps != peer.mAgcGps) ||
(mAgcGlo != peer.mAgcGlo) ||
(mAgcBds != peer.mAgcBds) ||
(mAgcGal != peer.mAgcGal) ||
(mGloBpAmpI != peer.mGloBpAmpI) ||
(mGloBpAmpQ != peer.mGloBpAmpQ) ||
(mBdsBpAmpI != peer.mBdsBpAmpI) ||
(mBdsBpAmpQ != peer.mBdsBpAmpQ) ||
(mGalBpAmpI != peer.mGalBpAmpI) ||
(mGalBpAmpQ != peer.mGalBpAmpQ)) {
return false;
}
return true;
}
void SystemStatusRfAndParams::dump()
{
LOC_LOGV("RfAndParams: u=%ld:%ld p=%d bi=%d bq=%d ai=%d aq=%d "
"jgp=%d jgl=%d jbd=%d jga=%d "
"agp=%lf agl=%lf abd=%lf aga=%lf",
mUtcTime.tv_sec, mUtcTime.tv_nsec,
mPgaGain,
mGpsBpAmpI,
mGpsBpAmpQ,
mAdcI,
mAdcQ,
mJammerGps,
mJammerGlo,
mJammerBds,
mJammerGal,
mAgcGps,
mAgcGlo,
mAgcBds,
mAgcGal);
return;
}
/******************************************************************************
SystemStatusErrRecovery
******************************************************************************/
SystemStatusErrRecovery::SystemStatusErrRecovery(const SystemStatusPQWM1& nmea) :
mRecErrorRecovery(nmea.mRecErrorRecovery)
{
}
bool SystemStatusErrRecovery::equals(const SystemStatusErrRecovery& peer)
{
if (mRecErrorRecovery != peer.mRecErrorRecovery) {
return false;
}
return true;
}
void SystemStatusErrRecovery::dump()
{
LOC_LOGV("ErrRecovery: u=%ld:%ld e=%d",
mUtcTime.tv_sec, mUtcTime.tv_nsec,
mRecErrorRecovery);
return;
}
/******************************************************************************
SystemStatusInjectedPosition
******************************************************************************/
SystemStatusInjectedPosition::SystemStatusInjectedPosition(const SystemStatusPQWP1& nmea) :
mEpiValidity(nmea.mEpiValidity),
mEpiLat(nmea.mEpiLat),
mEpiLon(nmea.mEpiLon),
mEpiAlt(nmea.mEpiAlt),
mEpiHepe(nmea.mEpiHepe),
mEpiAltUnc(nmea.mEpiAltUnc),
mEpiSrc(nmea.mEpiSrc)
{
}
bool SystemStatusInjectedPosition::equals(const SystemStatusInjectedPosition& peer)
{
if ((mEpiValidity != peer.mEpiValidity) ||
(mEpiLat != peer.mEpiLat) ||
(mEpiLon != peer.mEpiLon) ||
(mEpiAlt != peer.mEpiAlt) ||
(mEpiHepe != peer.mEpiHepe) ||
(mEpiAltUnc != peer.mEpiAltUnc) ||
(mEpiSrc != peer.mEpiSrc)) {
return false;
}
return true;
}
void SystemStatusInjectedPosition::dump()
{
LOC_LOGV("InjectedPosition: u=%ld:%ld v=%x la=%f lo=%f al=%f he=%f au=%f es=%d",
mUtcTime.tv_sec, mUtcTime.tv_nsec,
mEpiValidity,
mEpiLat,
mEpiLon,
mEpiAlt,
mEpiHepe,
mEpiAltUnc,
mEpiSrc);
return;
}
/******************************************************************************
SystemStatusBestPosition
******************************************************************************/
SystemStatusBestPosition::SystemStatusBestPosition(const SystemStatusPQWP2& nmea) :
mValid(true),
mBestLat(nmea.mBestLat),
mBestLon(nmea.mBestLon),
mBestAlt(nmea.mBestAlt),
mBestHepe(nmea.mBestHepe),
mBestAltUnc(nmea.mBestAltUnc)
{
}
bool SystemStatusBestPosition::equals(const SystemStatusBestPosition& peer)
{
if ((mBestLat != peer.mBestLat) ||
(mBestLon != peer.mBestLon) ||
(mBestAlt != peer.mBestAlt) ||
(mBestHepe != peer.mBestHepe) ||
(mBestAltUnc != peer.mBestAltUnc)) {
return false;
}
return true;
}
void SystemStatusBestPosition::dump()
{
LOC_LOGV("BestPosition: u=%ld:%ld la=%f lo=%f al=%f he=%f au=%f",
mUtcTime.tv_sec, mUtcTime.tv_nsec,
mBestLat,
mBestLon,
mBestAlt,
mBestHepe,
mBestAltUnc);
return;
}
/******************************************************************************
SystemStatusXtra
******************************************************************************/
SystemStatusXtra::SystemStatusXtra(const SystemStatusPQWP3& nmea) :
mXtraValidMask(nmea.mXtraValidMask),
mGpsXtraAge(nmea.mGpsXtraAge),
mGloXtraAge(nmea.mGloXtraAge),
mBdsXtraAge(nmea.mBdsXtraAge),
mGalXtraAge(nmea.mGalXtraAge),
mQzssXtraAge(nmea.mQzssXtraAge),
mNavicXtraAge(nmea.mNavicXtraAge),
mGpsXtraValid(nmea.mGpsXtraValid),
mGloXtraValid(nmea.mGloXtraValid),
mBdsXtraValid(nmea.mBdsXtraValid),
mGalXtraValid(nmea.mGalXtraValid),
mQzssXtraValid(nmea.mQzssXtraValid),
mNavicXtraValid(nmea.mNavicXtraValid)
{
}
bool SystemStatusXtra::equals(const SystemStatusXtra& peer)
{
if ((mXtraValidMask != peer.mXtraValidMask) ||
(mGpsXtraAge != peer.mGpsXtraAge) ||
(mGloXtraAge != peer.mGloXtraAge) ||
(mBdsXtraAge != peer.mBdsXtraAge) ||
(mGalXtraAge != peer.mGalXtraAge) ||
(mQzssXtraAge != peer.mQzssXtraAge) ||
(mNavicXtraAge != peer.mNavicXtraAge) ||
(mGpsXtraValid != peer.mGpsXtraValid) ||
(mGloXtraValid != peer.mGloXtraValid) ||
(mBdsXtraValid != peer.mBdsXtraValid) ||
(mGalXtraValid != peer.mGalXtraValid) ||
(mQzssXtraValid != peer.mQzssXtraValid) ||
(mNavicXtraValid != peer.mNavicXtraValid)) {
return false;
}
return true;
}
void SystemStatusXtra::dump()
{
LOC_LOGV("SystemStatusXtra: u=%ld:%ld m=%x a=%d:%d:%d:%d:%d v=%x:%x:%" PRIx64 ":%" PRIx64":%x",
mUtcTime.tv_sec, mUtcTime.tv_nsec,
mXtraValidMask,
mGpsXtraAge,
mGloXtraAge,
mBdsXtraAge,
mGalXtraAge,
mQzssXtraAge,
mGpsXtraValid,
mGloXtraValid,
mBdsXtraValid,
mGalXtraValid,
mQzssXtraValid);
return;
}
/******************************************************************************
SystemStatusEphemeris
******************************************************************************/
SystemStatusEphemeris::SystemStatusEphemeris(const SystemStatusPQWP4& nmea) :
mGpsEpheValid(nmea.mGpsEpheValid),
mGloEpheValid(nmea.mGloEpheValid),
mBdsEpheValid(nmea.mBdsEpheValid),
mGalEpheValid(nmea.mGalEpheValid),
mQzssEpheValid(nmea.mQzssEpheValid)
{
}
bool SystemStatusEphemeris::equals(const SystemStatusEphemeris& peer)
{
if ((mGpsEpheValid != peer.mGpsEpheValid) ||
(mGloEpheValid != peer.mGloEpheValid) ||
(mBdsEpheValid != peer.mBdsEpheValid) ||
(mGalEpheValid != peer.mGalEpheValid) ||
(mQzssEpheValid != peer.mQzssEpheValid)) {
return false;
}
return true;
}
void SystemStatusEphemeris::dump()
{
LOC_LOGV("Ephemeris: u=%ld:%ld ev=%x:%x:%" PRIx64 ":%" PRIx64 ":%x",
mUtcTime.tv_sec, mUtcTime.tv_nsec,
mGpsEpheValid,
mGloEpheValid,
mBdsEpheValid,
mGalEpheValid,
mQzssEpheValid);
return;
}
/******************************************************************************
SystemStatusSvHealth
******************************************************************************/
SystemStatusSvHealth::SystemStatusSvHealth(const SystemStatusPQWP5& nmea) :
mGpsUnknownMask(nmea.mGpsUnknownMask),
mGloUnknownMask(nmea.mGloUnknownMask),
mBdsUnknownMask(nmea.mBdsUnknownMask),
mGalUnknownMask(nmea.mGalUnknownMask),
mQzssUnknownMask(nmea.mQzssUnknownMask),
mNavicUnknownMask(nmea.mNavicUnknownMask),
mGpsGoodMask(nmea.mGpsGoodMask),
mGloGoodMask(nmea.mGloGoodMask),
mBdsGoodMask(nmea.mBdsGoodMask),
mGalGoodMask(nmea.mGalGoodMask),
mQzssGoodMask(nmea.mQzssGoodMask),
mNavicGoodMask(nmea.mNavicGoodMask),
mGpsBadMask(nmea.mGpsBadMask),
mGloBadMask(nmea.mGloBadMask),
mBdsBadMask(nmea.mBdsBadMask),
mGalBadMask(nmea.mGalBadMask),
mQzssBadMask(nmea.mQzssBadMask),
mNavicBadMask(nmea.mNavicBadMask)
{
}
bool SystemStatusSvHealth::equals(const SystemStatusSvHealth& peer)
{
if ((mGpsUnknownMask != peer.mGpsUnknownMask) ||
(mGloUnknownMask != peer.mGloUnknownMask) ||
(mBdsUnknownMask != peer.mBdsUnknownMask) ||
(mGalUnknownMask != peer.mGalUnknownMask) ||
(mQzssUnknownMask != peer.mQzssUnknownMask) ||
(mGpsGoodMask != peer.mGpsGoodMask) ||
(mGloGoodMask != peer.mGloGoodMask) ||
(mBdsGoodMask != peer.mBdsGoodMask) ||
(mGalGoodMask != peer.mGalGoodMask) ||
(mQzssGoodMask != peer.mQzssGoodMask) ||
(mGpsBadMask != peer.mGpsBadMask) ||
(mGloBadMask != peer.mGloBadMask) ||
(mBdsBadMask != peer.mBdsBadMask) ||
(mGalBadMask != peer.mGalBadMask) ||
(mQzssBadMask != peer.mQzssBadMask)) {
return false;
}
return true;
}
void SystemStatusSvHealth::dump()
{
LOC_LOGV("SvHealth: u=%ld:%ld \
u=%x:%x:%" PRIx64 ":%" PRIx64 ":%x \
g=%x:%x:%" PRIx64 ":%" PRIx64 ":%x \
b=%x:%x:%" PRIx64 ":%" PRIx64 ":%x",
mUtcTime.tv_sec, mUtcTime.tv_nsec,
mGpsUnknownMask,
mGloUnknownMask,
mBdsUnknownMask,
mGalUnknownMask,
mQzssUnknownMask,
mGpsGoodMask,
mGloGoodMask,
mBdsGoodMask,
mGalGoodMask,
mQzssGoodMask,
mGpsBadMask,
mGloBadMask,
mBdsBadMask,
mGalBadMask,
mQzssBadMask);
return;
}
/******************************************************************************
SystemStatusPdr
******************************************************************************/
SystemStatusPdr::SystemStatusPdr(const SystemStatusPQWP6& nmea) :
mFixInfoMask(nmea.mFixInfoMask)
{
}
bool SystemStatusPdr::equals(const SystemStatusPdr& peer)
{
if (mFixInfoMask != peer.mFixInfoMask) {
return false;
}
return true;
}
void SystemStatusPdr::dump()
{
LOC_LOGV("Pdr: u=%ld:%ld m=%x",
mUtcTime.tv_sec, mUtcTime.tv_nsec,
mFixInfoMask);
return;
}
/******************************************************************************
SystemStatusNavData
******************************************************************************/
SystemStatusNavData::SystemStatusNavData(const SystemStatusPQWP7& nmea)
{
for (uint32_t i=0; i<SV_ALL_NUM; i++) {
mNav[i] = nmea.mNav[i];
}
}
bool SystemStatusNavData::equals(const SystemStatusNavData& peer)
{
for (uint32_t i=0; i<SV_ALL_NUM; i++) {
if ((mNav[i].mType != peer.mNav[i].mType) ||
(mNav[i].mSource != peer.mNav[i].mSource) ||
(mNav[i].mAgeSec != peer.mNav[i].mAgeSec)) {
return false;
}
}
return true;
}
void SystemStatusNavData::dump()
{
LOC_LOGV("NavData: u=%ld:%ld",
mUtcTime.tv_sec, mUtcTime.tv_nsec);
for (uint32_t i=0; i<SV_ALL_NUM; i++) {
LOC_LOGV("i=%d type=%d src=%d age=%d",
i, mNav[i].mType, mNav[i].mSource, mNav[i].mAgeSec);
}
return;
}
/******************************************************************************
SystemStatusPositionFailure
******************************************************************************/
SystemStatusPositionFailure::SystemStatusPositionFailure(const SystemStatusPQWS1& nmea) :
mFixInfoMask(nmea.mFixInfoMask),
mHepeLimit(nmea.mHepeLimit)
{
}
bool SystemStatusPositionFailure::equals(const SystemStatusPositionFailure& peer)
{
if ((mFixInfoMask != peer.mFixInfoMask) ||
(mHepeLimit != peer.mHepeLimit)) {
return false;
}
return true;
}
void SystemStatusPositionFailure::dump()
{
LOC_LOGV("PositionFailure: u=%ld:%ld m=%d h=%d",
mUtcTime.tv_sec, mUtcTime.tv_nsec,
mFixInfoMask,
mHepeLimit);
return;
}
/******************************************************************************
SystemStatusLocation
******************************************************************************/
bool SystemStatusLocation::equals(const SystemStatusLocation& peer)
{
if ((mLocation.gpsLocation.latitude != peer.mLocation.gpsLocation.latitude) ||
(mLocation.gpsLocation.longitude != peer.mLocation.gpsLocation.longitude) ||
(mLocation.gpsLocation.altitude != peer.mLocation.gpsLocation.altitude)) {
return false;
}
return true;
}
void SystemStatusLocation::dump()
{
LOC_LOGV("Location: lat=%f lon=%f alt=%f spd=%f",
mLocation.gpsLocation.latitude,
mLocation.gpsLocation.longitude,
mLocation.gpsLocation.altitude,
mLocation.gpsLocation.speed);
return;
}
/******************************************************************************
SystemStatus
******************************************************************************/
pthread_mutex_t SystemStatus::mMutexSystemStatus = PTHREAD_MUTEX_INITIALIZER;
SystemStatus* SystemStatus::mInstance = NULL;
SystemStatus* SystemStatus::getInstance(const MsgTask* msgTask)
{
pthread_mutex_lock(&mMutexSystemStatus);
if (!mInstance) {
// Instantiating for the first time. msgTask should not be NULL
if (msgTask == NULL) {
LOC_LOGE("SystemStatus: msgTask is NULL!!");
pthread_mutex_unlock(&mMutexSystemStatus);
return NULL;
}
mInstance = new (nothrow) SystemStatus(msgTask);
LOC_LOGD("SystemStatus::getInstance:%p. Msgtask:%p", mInstance, msgTask);
}
pthread_mutex_unlock(&mMutexSystemStatus);
return mInstance;
}
void SystemStatus::destroyInstance()
{
delete mInstance;
mInstance = NULL;
}
IOsObserver* SystemStatus::getOsObserver()
{
return &mSysStatusObsvr;
}
SystemStatus::SystemStatus(const MsgTask* msgTask) :
mSysStatusObsvr(this, msgTask)
{
int result = 0;
ENTRY_LOG ();
mCache.mLocation.clear();
mCache.mTimeAndClock.clear();
mCache.mXoState.clear();
mCache.mRfAndParams.clear();
mCache.mErrRecovery.clear();
mCache.mInjectedPosition.clear();
mCache.mBestPosition.clear();
mCache.mXtra.clear();
mCache.mEphemeris.clear();
mCache.mSvHealth.clear();
mCache.mPdr.clear();
mCache.mNavData.clear();
mCache.mPositionFailure.clear();
mCache.mAirplaneMode.clear();
mCache.mENH.clear();
mCache.mGPSState.clear();
mCache.mNLPStatus.clear();
mCache.mWifiHardwareState.clear();
mCache.mNetworkInfo.clear();
mCache.mRilServiceInfo.clear();
mCache.mRilCellInfo.clear();
mCache.mServiceStatus.clear();
mCache.mModel.clear();
mCache.mManufacturer.clear();
mCache.mAssistedGps.clear();
mCache.mScreenState.clear();
mCache.mPowerConnectState.clear();
mCache.mTimeZoneChange.clear();
mCache.mTimeChange.clear();
mCache.mWifiSupplicantStatus.clear();
mCache.mShutdownState.clear();
mCache.mTac.clear();
mCache.mMccMnc.clear();
mCache.mBtDeviceScanDetail.clear();
mCache.mBtLeDeviceScanDetail.clear();
EXIT_LOG_WITH_ERROR ("%d",result);
}
/******************************************************************************
SystemStatus - storing dataitems
******************************************************************************/
template <typename TYPE_REPORT, typename TYPE_ITEM>
bool SystemStatus::setIteminReport(TYPE_REPORT& report, TYPE_ITEM&& s)
{
if (s.ignore()) {
return false;
}
if (!report.empty() && report.back().equals(static_cast<TYPE_ITEM&>(s.collate(report.back())))) {
// there is no change - just update reported timestamp
report.back().mUtcReported = s.mUtcReported;
return false;
}
// first event or updated
report.push_back(s);
if (report.size() > s.maxItem) {
report.erase(report.begin());
}
return true;
}
template <typename TYPE_REPORT, typename TYPE_ITEM>
void SystemStatus::setDefaultIteminReport(TYPE_REPORT& report, const TYPE_ITEM& s)
{
report.push_back(s);
if (report.size() > s.maxItem) {
report.erase(report.begin());
}
}
template <typename TYPE_REPORT, typename TYPE_ITEM>
void SystemStatus::getIteminReport(TYPE_REPORT& reportout, const TYPE_ITEM& c) const
{
reportout.clear();
if (c.size() >= 1) {
reportout.push_back(c.back());
reportout.back().dump();
}
}
/******************************************************************************
@brief API to set report data into internal buffer
@param[In] data pointer to the NMEA string
@param[In] len length of the NMEA string
@return true when the NMEA is consumed by the method.
******************************************************************************/
bool SystemStatus::setNmeaString(const char *data, uint32_t len)
{
if (!loc_nmea_is_debug(data, len)) {
return false;
}
char buf[SystemStatusNmeaBase::NMEA_MAXSIZE + 1] = { 0 };
strlcpy(buf, data, sizeof(buf));
pthread_mutex_lock(&mMutexSystemStatus);
// parse the received nmea strings here
if (0 == strncmp(data, "$PQWM1", SystemStatusNmeaBase::NMEA_MINSIZE)) {
SystemStatusPQWM1 s = SystemStatusPQWM1parser(buf, len).get();
setIteminReport(mCache.mTimeAndClock, SystemStatusTimeAndClock(s));
setIteminReport(mCache.mXoState, SystemStatusXoState(s));
setIteminReport(mCache.mRfAndParams, SystemStatusRfAndParams(s));
setIteminReport(mCache.mErrRecovery, SystemStatusErrRecovery(s));
}
else if (0 == strncmp(data, "$PQWP1", SystemStatusNmeaBase::NMEA_MINSIZE)) {
setIteminReport(mCache.mInjectedPosition,
SystemStatusInjectedPosition(SystemStatusPQWP1parser(buf, len).get()));
}
else if (0 == strncmp(data, "$PQWP2", SystemStatusNmeaBase::NMEA_MINSIZE)) {
setIteminReport(mCache.mBestPosition,
SystemStatusBestPosition(SystemStatusPQWP2parser(buf, len).get()));
}
else if (0 == strncmp(data, "$PQWP3", SystemStatusNmeaBase::NMEA_MINSIZE)) {
setIteminReport(mCache.mXtra,
SystemStatusXtra(SystemStatusPQWP3parser(buf, len).get()));
}
else if (0 == strncmp(data, "$PQWP4", SystemStatusNmeaBase::NMEA_MINSIZE)) {
setIteminReport(mCache.mEphemeris,
SystemStatusEphemeris(SystemStatusPQWP4parser(buf, len).get()));
}
else if (0 == strncmp(data, "$PQWP5", SystemStatusNmeaBase::NMEA_MINSIZE)) {
setIteminReport(mCache.mSvHealth,
SystemStatusSvHealth(SystemStatusPQWP5parser(buf, len).get()));
}
else if (0 == strncmp(data, "$PQWP6", SystemStatusNmeaBase::NMEA_MINSIZE)) {
setIteminReport(mCache.mPdr,
SystemStatusPdr(SystemStatusPQWP6parser(buf, len).get()));
}
else if (0 == strncmp(data, "$PQWP7", SystemStatusNmeaBase::NMEA_MINSIZE)) {
setIteminReport(mCache.mNavData,
SystemStatusNavData(SystemStatusPQWP7parser(buf, len).get()));
}
else if (0 == strncmp(data, "$PQWS1", SystemStatusNmeaBase::NMEA_MINSIZE)) {
setIteminReport(mCache.mPositionFailure,
SystemStatusPositionFailure(SystemStatusPQWS1parser(buf, len).get()));
}
else {
// do nothing
}
pthread_mutex_unlock(&mMutexSystemStatus);
return true;
}
/******************************************************************************
@brief API to set report position data into internal buffer
@param[In] UlpLocation
@return true when successfully done
******************************************************************************/
bool SystemStatus::eventPosition(const UlpLocation& location,
const GpsLocationExtended& locationEx)
{
bool ret = false;
pthread_mutex_lock(&mMutexSystemStatus);
ret = setIteminReport(mCache.mLocation, SystemStatusLocation(location, locationEx));
LOC_LOGV("eventPosition - lat=%f lon=%f alt=%f speed=%f",
location.gpsLocation.latitude,
location.gpsLocation.longitude,
location.gpsLocation.altitude,
location.gpsLocation.speed);
pthread_mutex_unlock(&mMutexSystemStatus);
return ret;
}
/******************************************************************************
@brief API to set report DataItem event into internal buffer
@param[In] DataItem
@return true when info is updatated
******************************************************************************/
bool SystemStatus::eventDataItemNotify(IDataItemCore* dataitem)
{
bool ret = false;
pthread_mutex_lock(&mMutexSystemStatus);
switch(dataitem->getId())
{
case AIRPLANEMODE_DATA_ITEM_ID:
ret = setIteminReport(mCache.mAirplaneMode,
SystemStatusAirplaneMode(*(static_cast<AirplaneModeDataItemBase*>(dataitem))));
break;
case ENH_DATA_ITEM_ID:
ret = setIteminReport(mCache.mENH,
SystemStatusENH(*(static_cast<ENHDataItemBase*>(dataitem))));
break;
case GPSSTATE_DATA_ITEM_ID:
ret = setIteminReport(mCache.mGPSState,
SystemStatusGpsState(*(static_cast<GPSStateDataItemBase*>(dataitem))));
break;
case NLPSTATUS_DATA_ITEM_ID:
ret = setIteminReport(mCache.mNLPStatus,
SystemStatusNLPStatus(*(static_cast<NLPStatusDataItemBase*>(dataitem))));
break;
case WIFIHARDWARESTATE_DATA_ITEM_ID:
ret = setIteminReport(mCache.mWifiHardwareState,
SystemStatusWifiHardwareState(*(static_cast<WifiHardwareStateDataItemBase*>(dataitem))));
break;
case NETWORKINFO_DATA_ITEM_ID:
ret = setIteminReport(mCache.mNetworkInfo,
SystemStatusNetworkInfo(*(static_cast<NetworkInfoDataItemBase*>(dataitem))));
break;
case RILSERVICEINFO_DATA_ITEM_ID:
ret = setIteminReport(mCache.mRilServiceInfo,
SystemStatusServiceInfo(*(static_cast<RilServiceInfoDataItemBase*>(dataitem))));
break;
case RILCELLINFO_DATA_ITEM_ID:
ret = setIteminReport(mCache.mRilCellInfo,
SystemStatusRilCellInfo(*(static_cast<RilCellInfoDataItemBase*>(dataitem))));
break;
case SERVICESTATUS_DATA_ITEM_ID:
ret = setIteminReport(mCache.mServiceStatus,
SystemStatusServiceStatus(*(static_cast<ServiceStatusDataItemBase*>(dataitem))));
break;
case MODEL_DATA_ITEM_ID:
ret = setIteminReport(mCache.mModel,
SystemStatusModel(*(static_cast<ModelDataItemBase*>(dataitem))));
break;
case MANUFACTURER_DATA_ITEM_ID:
ret = setIteminReport(mCache.mManufacturer,
SystemStatusManufacturer(*(static_cast<ManufacturerDataItemBase*>(dataitem))));
break;
case ASSISTED_GPS_DATA_ITEM_ID:
ret = setIteminReport(mCache.mAssistedGps,
SystemStatusAssistedGps(*(static_cast<AssistedGpsDataItemBase*>(dataitem))));
break;
case SCREEN_STATE_DATA_ITEM_ID:
ret = setIteminReport(mCache.mScreenState,
SystemStatusScreenState(*(static_cast<ScreenStateDataItemBase*>(dataitem))));
break;
case POWER_CONNECTED_STATE_DATA_ITEM_ID:
ret = setIteminReport(mCache.mPowerConnectState,
SystemStatusPowerConnectState(*(static_cast<PowerConnectStateDataItemBase*>(dataitem))));
break;
case TIMEZONE_CHANGE_DATA_ITEM_ID:
ret = setIteminReport(mCache.mTimeZoneChange,
SystemStatusTimeZoneChange(*(static_cast<TimeZoneChangeDataItemBase*>(dataitem))));
break;
case TIME_CHANGE_DATA_ITEM_ID:
ret = setIteminReport(mCache.mTimeChange,
SystemStatusTimeChange(*(static_cast<TimeChangeDataItemBase*>(dataitem))));
break;
case WIFI_SUPPLICANT_STATUS_DATA_ITEM_ID:
ret = setIteminReport(mCache.mWifiSupplicantStatus,
SystemStatusWifiSupplicantStatus(*(static_cast<WifiSupplicantStatusDataItemBase*>(dataitem))));
break;
case SHUTDOWN_STATE_DATA_ITEM_ID:
ret = setIteminReport(mCache.mShutdownState,
SystemStatusShutdownState(*(static_cast<ShutdownStateDataItemBase*>(dataitem))));
break;
case TAC_DATA_ITEM_ID:
ret = setIteminReport(mCache.mTac,
SystemStatusTac(*(static_cast<TacDataItemBase*>(dataitem))));
break;
case MCCMNC_DATA_ITEM_ID:
ret = setIteminReport(mCache.mMccMnc,
SystemStatusMccMnc(*(static_cast<MccmncDataItemBase*>(dataitem))));
break;
case BTLE_SCAN_DATA_ITEM_ID:
ret = setIteminReport(mCache.mBtDeviceScanDetail,
SystemStatusBtDeviceScanDetail(*(static_cast<BtDeviceScanDetailsDataItemBase*>(dataitem))));
break;
case BT_SCAN_DATA_ITEM_ID:
ret = setIteminReport(mCache.mBtLeDeviceScanDetail,
SystemStatusBtleDeviceScanDetail(*(static_cast<BtLeDeviceScanDetailsDataItemBase*>(dataitem))));
break;
default:
break;
}
pthread_mutex_unlock(&mMutexSystemStatus);
return ret;
}
/******************************************************************************
@brief API to get report data into a given buffer
@param[In] reference to report buffer
@param[In] bool flag to identify latest only or entire buffer
@return true when successfully done
******************************************************************************/
bool SystemStatus::getReport(SystemStatusReports& report, bool isLatestOnly) const
{
pthread_mutex_lock(&mMutexSystemStatus);
if (isLatestOnly) {
// push back only the latest report and return it
getIteminReport(report.mLocation, mCache.mLocation);
getIteminReport(report.mTimeAndClock, mCache.mTimeAndClock);
getIteminReport(report.mXoState, mCache.mXoState);
getIteminReport(report.mRfAndParams, mCache.mRfAndParams);
getIteminReport(report.mErrRecovery, mCache.mErrRecovery);
getIteminReport(report.mInjectedPosition, mCache.mInjectedPosition);
getIteminReport(report.mBestPosition, mCache.mBestPosition);
getIteminReport(report.mXtra, mCache.mXtra);
getIteminReport(report.mEphemeris, mCache.mEphemeris);
getIteminReport(report.mSvHealth, mCache.mSvHealth);
getIteminReport(report.mPdr, mCache.mPdr);
getIteminReport(report.mNavData, mCache.mNavData);
getIteminReport(report.mPositionFailure, mCache.mPositionFailure);
getIteminReport(report.mAirplaneMode, mCache.mAirplaneMode);
getIteminReport(report.mENH, mCache.mENH);
getIteminReport(report.mGPSState, mCache.mGPSState);
getIteminReport(report.mNLPStatus, mCache.mNLPStatus);
getIteminReport(report.mWifiHardwareState, mCache.mWifiHardwareState);
getIteminReport(report.mNetworkInfo, mCache.mNetworkInfo);
getIteminReport(report.mRilServiceInfo, mCache.mRilServiceInfo);
getIteminReport(report.mRilCellInfo, mCache.mRilCellInfo);
getIteminReport(report.mServiceStatus, mCache.mServiceStatus);
getIteminReport(report.mModel, mCache.mModel);
getIteminReport(report.mManufacturer, mCache.mManufacturer);
getIteminReport(report.mAssistedGps, mCache.mAssistedGps);
getIteminReport(report.mScreenState, mCache.mScreenState);
getIteminReport(report.mPowerConnectState, mCache.mPowerConnectState);
getIteminReport(report.mTimeZoneChange, mCache.mTimeZoneChange);
getIteminReport(report.mTimeChange, mCache.mTimeChange);
getIteminReport(report.mWifiSupplicantStatus, mCache.mWifiSupplicantStatus);
getIteminReport(report.mShutdownState, mCache.mShutdownState);
getIteminReport(report.mTac, mCache.mTac);
getIteminReport(report.mMccMnc, mCache.mMccMnc);
getIteminReport(report.mBtDeviceScanDetail, mCache.mBtDeviceScanDetail);
getIteminReport(report.mBtLeDeviceScanDetail, mCache.mBtLeDeviceScanDetail);
}
else {
// copy entire reports and return them
report.mLocation.clear();
report.mTimeAndClock.clear();
report.mXoState.clear();
report.mRfAndParams.clear();
report.mErrRecovery.clear();
report.mInjectedPosition.clear();
report.mBestPosition.clear();
report.mXtra.clear();
report.mEphemeris.clear();
report.mSvHealth.clear();
report.mPdr.clear();
report.mNavData.clear();
report.mPositionFailure.clear();
report.mAirplaneMode.clear();
report.mENH.clear();
report.mGPSState.clear();
report.mNLPStatus.clear();
report.mWifiHardwareState.clear();
report.mNetworkInfo.clear();
report.mRilServiceInfo.clear();
report.mRilCellInfo.clear();
report.mServiceStatus.clear();
report.mModel.clear();
report.mManufacturer.clear();
report.mAssistedGps.clear();
report.mScreenState.clear();
report.mPowerConnectState.clear();
report.mTimeZoneChange.clear();
report.mTimeChange.clear();
report.mWifiSupplicantStatus.clear();
report.mShutdownState.clear();
report.mTac.clear();
report.mMccMnc.clear();
report.mBtDeviceScanDetail.clear();
report.mBtLeDeviceScanDetail.clear();
report = mCache;
}
pthread_mutex_unlock(&mMutexSystemStatus);
return true;
}
/******************************************************************************
@brief API to set default report data
@param[In] none
@return true when successfully done
******************************************************************************/
bool SystemStatus::setDefaultGnssEngineStates(void)
{
pthread_mutex_lock(&mMutexSystemStatus);
setDefaultIteminReport(mCache.mLocation, SystemStatusLocation());
setDefaultIteminReport(mCache.mTimeAndClock, SystemStatusTimeAndClock());
setDefaultIteminReport(mCache.mXoState, SystemStatusXoState());
setDefaultIteminReport(mCache.mRfAndParams, SystemStatusRfAndParams());
setDefaultIteminReport(mCache.mErrRecovery, SystemStatusErrRecovery());
setDefaultIteminReport(mCache.mInjectedPosition, SystemStatusInjectedPosition());
setDefaultIteminReport(mCache.mBestPosition, SystemStatusBestPosition());
setDefaultIteminReport(mCache.mXtra, SystemStatusXtra());
setDefaultIteminReport(mCache.mEphemeris, SystemStatusEphemeris());
setDefaultIteminReport(mCache.mSvHealth, SystemStatusSvHealth());
setDefaultIteminReport(mCache.mPdr, SystemStatusPdr());
setDefaultIteminReport(mCache.mNavData, SystemStatusNavData());
setDefaultIteminReport(mCache.mPositionFailure, SystemStatusPositionFailure());
pthread_mutex_unlock(&mMutexSystemStatus);
return true;
}
/******************************************************************************
@brief API to handle connection status update event from GnssRil
@param[In] Connection status
@return true when successfully done
******************************************************************************/
bool SystemStatus::eventConnectionStatus(bool connected, int8_t type,
bool roaming, NetworkHandle networkHandle)
{
// send networkinof dataitem to systemstatus observer clients
SystemStatusNetworkInfo s(type, "", "", connected, roaming,
(uint64_t) networkHandle);
mSysStatusObsvr.notify({&s});
return true;
}
/******************************************************************************
@brief API to update power connect state
@param[In] power connect status
@return true when successfully done
******************************************************************************/
bool SystemStatus::updatePowerConnectState(bool charging)
{
SystemStatusPowerConnectState s(charging);
mSysStatusObsvr.notify({&s});
return true;
}
} // namespace loc_core