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diff --git a/utils/loc_nmea.cpp b/utils/loc_nmea.cpp
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+/* Copyright (c) 2012-2017, 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_nmea"
+#include <loc_nmea.h>
+#include <math.h>
+#include <log_util.h>
+#include <loc_pla.h>
+#include <loc_cfg.h>
+
+#define GLONASS_SV_ID_OFFSET 64
+#define QZSS_SV_ID_OFFSET (-192)
+#define MAX_SV_COUNT_SUPPORTED_IN_ONE_CONSTELLATION 64
+#define MAX_SATELLITES_IN_USE 12
+#define MSEC_IN_ONE_WEEK 604800000ULL
+#define UTC_GPS_OFFSET_MSECS 315964800000ULL
+
+// GNSS system id according to NMEA spec
+#define SYSTEM_ID_GPS 1
+#define SYSTEM_ID_GLONASS 2
+#define SYSTEM_ID_GALILEO 3
+#define SYSTEM_ID_BDS 4
+#define SYSTEM_ID_QZSS 5
+#define SYSTEM_ID_NAVIC 6
+
+//GNSS signal id according to NMEA spec
+#define SIGNAL_ID_ALL_SIGNALS 0
+#define SIGNAL_ID_GPS_L1CA 1
+#define SIGNAL_ID_GPS_L1P 2
+#define SIGNAL_ID_GPS_L1M 3
+#define SIGNAL_ID_GPS_L2P 4
+#define SIGNAL_ID_GPS_L2CM 5
+#define SIGNAL_ID_GPS_L2CL 6
+#define SIGNAL_ID_GPS_L5I 7
+#define SIGNAL_ID_GPS_L5Q 8
+
+
+#define SIGNAL_ID_GLO_G1CA 1
+#define SIGNAL_ID_GLO_G1P 2
+#define SIGNAL_ID_GLO_G2CA 3
+#define SIGNAL_ID_GLO_G2P 4
+
+
+#define SIGNAL_ID_GAL_E5A 1
+#define SIGNAL_ID_GAL_E5B 2
+#define SIGNAL_ID_GAL_E5AB 3
+#define SIGNAL_ID_GAL_E6A 4
+#define SIGNAL_ID_GAL_E6BC 5
+#define SIGNAL_ID_GAL_L1A 6
+#define SIGNAL_ID_GAL_L1BC 7
+
+#define SIGNAL_ID_BDS_B1I 1
+#define SIGNAL_ID_BDS_B1Q 2
+#define SIGNAL_ID_BDS_B1C 3
+#define SIGNAL_ID_BDS_B1A 4
+#define SIGNAL_ID_BDS_B2A 5
+#define SIGNAL_ID_BDS_B2B 6
+#define SIGNAL_ID_BDS_B2AB 7
+#define SIGNAL_ID_BDS_B3I 8
+#define SIGNAL_ID_BDS_B3Q 9
+#define SIGNAL_ID_BDS_B3A 0xA
+#define SIGNAL_ID_BDS_B2I 0xB
+#define SIGNAL_ID_BDS_B2Q 0xC
+
+#define SIGNAL_ID_QZSS_L1CA 1
+#define SIGNAL_ID_QZSS_L1CD 2
+#define SIGNAL_ID_QZSS_L1CP 3
+#define SIGNAL_ID_QZSS_LIS 4
+#define SIGNAL_ID_QZSS_L2CM 5
+#define SIGNAL_ID_QZSS_L2CL 6
+#define SIGNAL_ID_QZSS_L5I 7
+#define SIGNAL_ID_QZSS_L5Q 8
+#define SIGNAL_ID_QZSS_L6D 9
+#define SIGNAL_ID_QZSS_L6E 0xA
+
+#define SIGNAL_ID_NAVIC_L5SPS 1
+#define SIGNAL_ID_NAVIC_SSPS 2
+#define SIGNAL_ID_NAVIC_L5RS 3
+#define SIGNAL_ID_NAVIC_SRS 4
+#define SIGNAL_ID_NAVIC_L1SPS 5
+
+
+typedef struct loc_nmea_sv_meta_s
+{
+ char talker[3];
+ LocGnssConstellationType svType;
+ uint64_t mask;
+ uint32_t svCount;
+ uint32_t totalSvUsedCount;
+ uint32_t svIdOffset;
+ uint32_t signalId;
+ uint32_t systemId;
+} loc_nmea_sv_meta;
+
+typedef struct loc_sv_cache_info_s
+{
+ uint64_t gps_used_mask;
+ uint64_t glo_used_mask;
+ uint64_t gal_used_mask;
+ uint64_t qzss_used_mask;
+ uint64_t bds_used_mask;
+ uint64_t navic_used_mask;
+ uint32_t gps_l1_count;
+ uint32_t gps_l5_count;
+ uint32_t glo_g1_count;
+ uint32_t glo_g2_count;
+ uint32_t gal_e1_count;
+ uint32_t gal_e5_count;
+ uint32_t qzss_l1_count;
+ uint32_t qzss_l5_count;
+ uint32_t bds_b1_count;
+ uint32_t bds_b2_count;
+ uint32_t navic_l5_count;
+ float hdop;
+ float pdop;
+ float vdop;
+} loc_sv_cache_info;
+
+/*===========================================================================
+FUNCTION convert_Lla_to_Ecef
+
+DESCRIPTION
+ Convert LLA to ECEF
+
+DEPENDENCIES
+ NONE
+
+RETURN VALUE
+ NONE
+
+SIDE EFFECTS
+ N/A
+
+===========================================================================*/
+static void convert_Lla_to_Ecef(const LocLla& plla, LocEcef& pecef)
+{
+ double r;
+
+ r = MAJA / sqrt(1.0 - ESQR * sin(plla.lat) * sin(plla.lat));
+ pecef.X = (r + plla.alt) * cos(plla.lat) * cos(plla.lon);
+ pecef.Y = (r + plla.alt) * cos(plla.lat) * sin(plla.lon);
+ pecef.Z = (r * OMES + plla.alt) * sin(plla.lat);
+}
+
+/*===========================================================================
+FUNCTION convert_WGS84_to_PZ90
+
+DESCRIPTION
+ Convert datum from WGS84 to PZ90
+
+DEPENDENCIES
+ NONE
+
+RETURN VALUE
+ NONE
+
+SIDE EFFECTS
+ N/A
+
+===========================================================================*/
+static void convert_WGS84_to_PZ90(const LocEcef& pWGS84, LocEcef& pPZ90)
+{
+ double deltaX = DatumConstFromWGS84[0];
+ double deltaY = DatumConstFromWGS84[1];
+ double deltaZ = DatumConstFromWGS84[2];
+ double deltaScale = DatumConstFromWGS84[3];
+ double rotX = DatumConstFromWGS84[4];
+ double rotY = DatumConstFromWGS84[5];
+ double rotZ = DatumConstFromWGS84[6];
+
+ pPZ90.X = deltaX + deltaScale * (pWGS84.X + rotZ * pWGS84.Y - rotY * pWGS84.Z);
+ pPZ90.Y = deltaY + deltaScale * (pWGS84.Y - rotZ * pWGS84.X + rotX * pWGS84.Z);
+ pPZ90.Z = deltaZ + deltaScale * (pWGS84.Z + rotY * pWGS84.X - rotX * pWGS84.Y);
+}
+
+/*===========================================================================
+FUNCTION convert_Ecef_to_Lla
+
+DESCRIPTION
+ Convert ECEF to LLA
+
+DEPENDENCIES
+ NONE
+
+RETURN VALUE
+ NONE
+
+SIDE EFFECTS
+ N/A
+
+===========================================================================*/
+static void convert_Ecef_to_Lla(const LocEcef& pecef, LocLla& plla)
+{
+ double p, r;
+ double EcefA = C_PZ90A;
+ double EcefB = C_PZ90B;
+ double Ecef1Mf;
+ double EcefE2;
+ double Mu;
+ double Smu;
+ double Cmu;
+ double Phi;
+ double Sphi;
+ double N;
+
+ p = sqrt(pecef.X * pecef.X + pecef.Y * pecef.Y);
+ r = sqrt(p * p + pecef.Z * pecef.Z);
+ if (r < 1.0) {
+ plla.lat = 1.0;
+ plla.lon = 1.0;
+ plla.alt = 1.0;
+ }
+ Ecef1Mf = 1.0 - (EcefA - EcefB) / EcefA;
+ EcefE2 = 1.0 - (EcefB * EcefB) / (EcefA * EcefA);
+ if (p > 1.0) {
+ Mu = atan2(pecef.Z * (Ecef1Mf + EcefE2 * EcefA / r), p);
+ } else {
+ if (pecef.Z > 0.0) {
+ Mu = M_PI / 2.0;
+ } else {
+ Mu = -M_PI / 2.0;
+ }
+ }
+ Smu = sin(Mu);
+ Cmu = cos(Mu);
+ Phi = atan2(pecef.Z * Ecef1Mf + EcefE2 * EcefA * Smu * Smu * Smu,
+ Ecef1Mf * (p - EcefE2 * EcefA * Cmu * Cmu * Cmu));
+ Sphi = sin(Phi);
+ N = EcefA / sqrt(1.0 - EcefE2 * Sphi * Sphi);
+ plla.alt = p * cos(Phi) + pecef.Z * Sphi - EcefA * EcefA/N;
+ plla.lat = Phi;
+ if ( p > 1.0) {
+ plla.lon = atan2(pecef.Y, pecef.X);
+ } else {
+ plla.lon = 0.0;
+ }
+}
+
+/*===========================================================================
+FUNCTION convert_signalType_to_signalId
+
+DESCRIPTION
+ convert signalType to signal ID
+
+DEPENDENCIES
+ NONE
+
+RETURN VALUE
+ value of signal ID
+
+SIDE EFFECTS
+ N/A
+
+===========================================================================*/
+static uint32_t convert_signalType_to_signalId(GnssSignalTypeMask signalType)
+{
+ uint32_t signalId = SIGNAL_ID_ALL_SIGNALS;
+
+ switch (signalType) {
+ case GNSS_SIGNAL_GPS_L1CA:
+ signalId = SIGNAL_ID_GPS_L1CA;
+ break;
+ case GNSS_SIGNAL_GPS_L2:
+ signalId = SIGNAL_ID_GPS_L2CL;
+ break;
+ case GNSS_SIGNAL_GPS_L5:
+ signalId = SIGNAL_ID_GPS_L5Q;
+ break;
+ case GNSS_SIGNAL_GLONASS_G1:
+ signalId = SIGNAL_ID_GLO_G1CA;
+ break;
+ case GNSS_SIGNAL_GLONASS_G2:
+ signalId = SIGNAL_ID_GLO_G2CA;
+ break;
+ case GNSS_SIGNAL_GALILEO_E1:
+ signalId = SIGNAL_ID_GAL_L1BC;
+ break;
+ case GNSS_SIGNAL_GALILEO_E5A:
+ signalId = SIGNAL_ID_GAL_E5A;
+ break;
+ case GNSS_SIGNAL_GALILEO_E5B:
+ signalId = SIGNAL_ID_GAL_E5B;
+ break;
+ case GNSS_SIGNAL_QZSS_L1CA:
+ signalId = SIGNAL_ID_QZSS_L1CA;
+ break;
+ case GNSS_SIGNAL_QZSS_L2:
+ signalId = SIGNAL_ID_QZSS_L2CL;
+ break;
+ case GNSS_SIGNAL_QZSS_L5:
+ signalId = SIGNAL_ID_QZSS_L5Q;
+ break;
+ case GNSS_SIGNAL_BEIDOU_B1I:
+ signalId = SIGNAL_ID_BDS_B1I;
+ break;
+ case GNSS_SIGNAL_BEIDOU_B1C:
+ signalId = SIGNAL_ID_BDS_B1C;
+ break;
+ case GNSS_SIGNAL_BEIDOU_B2I:
+ signalId = SIGNAL_ID_BDS_B2I;
+ break;
+ case GNSS_SIGNAL_BEIDOU_B2AI:
+ case GNSS_SIGNAL_BEIDOU_B2AQ:
+ signalId = SIGNAL_ID_BDS_B2A;
+ break;
+ case GNSS_SIGNAL_NAVIC_L5:
+ signalId = SIGNAL_ID_NAVIC_L5SPS;
+ break;
+ default:
+ signalId = SIGNAL_ID_ALL_SIGNALS;
+ }
+
+ return signalId;
+
+}
+
+/*===========================================================================
+FUNCTION get_sv_count_from_mask
+
+DESCRIPTION
+ get the sv count from bit mask
+
+DEPENDENCIES
+ NONE
+
+RETURN VALUE
+ value of sv count
+
+SIDE EFFECTS
+ N/A
+
+===========================================================================*/
+static uint32_t get_sv_count_from_mask(uint64_t svMask, int totalSvCount)
+{
+ int index = 0;
+ uint32_t svCount = 0;
+
+ if(totalSvCount > MAX_SV_COUNT_SUPPORTED_IN_ONE_CONSTELLATION) {
+ LOC_LOGE("total SV count in this constellation %d exceeded limit %d",
+ totalSvCount, MAX_SV_COUNT_SUPPORTED_IN_ONE_CONSTELLATION);
+ }
+ for(index = 0; index < totalSvCount; index++) {
+ if(svMask & 0x1)
+ svCount += 1;
+ svMask >>= 1;
+ }
+ return svCount;
+}
+
+/*===========================================================================
+FUNCTION loc_nmea_sv_meta_init
+
+DESCRIPTION
+ Init loc_nmea_sv_meta passed in
+
+DEPENDENCIES
+ NONE
+
+RETURN VALUE
+ Pointer to loc_nmea_sv_meta
+
+SIDE EFFECTS
+ N/A
+
+===========================================================================*/
+static loc_nmea_sv_meta* loc_nmea_sv_meta_init(loc_nmea_sv_meta& sv_meta,
+ loc_sv_cache_info& sv_cache_info,
+ GnssSvType svType,
+ GnssSignalTypeMask signalType,
+ bool needCombine)
+{
+ memset(&sv_meta, 0, sizeof(sv_meta));
+ sv_meta.svType = svType;
+
+ switch (svType)
+ {
+ case GNSS_SV_TYPE_GPS:
+ sv_meta.talker[0] = 'G';
+ sv_meta.talker[1] = 'P';
+ sv_meta.mask = sv_cache_info.gps_used_mask;
+ sv_meta.systemId = SYSTEM_ID_GPS;
+ if (GNSS_SIGNAL_GPS_L1CA == signalType) {
+ sv_meta.svCount = sv_cache_info.gps_l1_count;
+ } else if (GNSS_SIGNAL_GPS_L5 == signalType) {
+ sv_meta.svCount = sv_cache_info.gps_l5_count;
+ }
+ break;
+ case GNSS_SV_TYPE_GLONASS:
+ sv_meta.talker[0] = 'G';
+ sv_meta.talker[1] = 'L';
+ sv_meta.mask = sv_cache_info.glo_used_mask;
+ // GLONASS SV ids are from 65-96
+ sv_meta.svIdOffset = GLONASS_SV_ID_OFFSET;
+ sv_meta.systemId = SYSTEM_ID_GLONASS;
+ if (GNSS_SIGNAL_GLONASS_G1 == signalType) {
+ sv_meta.svCount = sv_cache_info.glo_g1_count;
+ } else if (GNSS_SIGNAL_GLONASS_G2 == signalType) {
+ sv_meta.svCount = sv_cache_info.glo_g2_count;
+ }
+ break;
+ case GNSS_SV_TYPE_GALILEO:
+ sv_meta.talker[0] = 'G';
+ sv_meta.talker[1] = 'A';
+ sv_meta.mask = sv_cache_info.gal_used_mask;
+ sv_meta.systemId = SYSTEM_ID_GALILEO;
+ if (GNSS_SIGNAL_GALILEO_E1 == signalType) {
+ sv_meta.svCount = sv_cache_info.gal_e1_count;
+ } else if (GNSS_SIGNAL_GALILEO_E5A == signalType) {
+ sv_meta.svCount = sv_cache_info.gal_e5_count;
+ }
+ break;
+ case GNSS_SV_TYPE_QZSS:
+ sv_meta.talker[0] = 'G';
+ sv_meta.talker[1] = 'Q';
+ sv_meta.mask = sv_cache_info.qzss_used_mask;
+ // QZSS SV ids are from 193-199. So keep svIdOffset -192
+ sv_meta.svIdOffset = QZSS_SV_ID_OFFSET;
+ sv_meta.systemId = SYSTEM_ID_QZSS;
+ if (GNSS_SIGNAL_QZSS_L1CA == signalType) {
+ sv_meta.svCount = sv_cache_info.qzss_l1_count;
+ } else if (GNSS_SIGNAL_QZSS_L5 == signalType) {
+ sv_meta.svCount = sv_cache_info.qzss_l5_count;
+ }
+ break;
+ case GNSS_SV_TYPE_BEIDOU:
+ sv_meta.talker[0] = 'G';
+ sv_meta.talker[1] = 'B';
+ sv_meta.mask = sv_cache_info.bds_used_mask;
+ // BDS SV ids are from 201-235. So keep svIdOffset 0
+ sv_meta.systemId = SYSTEM_ID_BDS;
+ if (GNSS_SIGNAL_BEIDOU_B1I == signalType) {
+ sv_meta.svCount = sv_cache_info.bds_b1_count;
+ } else if (GNSS_SIGNAL_BEIDOU_B2AI == signalType) {
+ sv_meta.svCount = sv_cache_info.bds_b2_count;
+ }
+ break;
+ case GNSS_SV_TYPE_NAVIC:
+ sv_meta.talker[0] = 'G';
+ sv_meta.talker[1] = 'I';
+ sv_meta.mask = sv_cache_info.navic_used_mask;
+ // NAVIC SV ids are from 401-414. So keep svIdOffset 0
+ sv_meta.systemId = SYSTEM_ID_NAVIC;
+ if (GNSS_SIGNAL_NAVIC_L5 == signalType) {
+ sv_meta.svCount = sv_cache_info.navic_l5_count;
+ }
+ break;
+ default:
+ LOC_LOGE("NMEA Error unknow constellation type: %d", svType);
+ return NULL;
+ }
+ sv_meta.signalId = convert_signalType_to_signalId(signalType);
+ sv_meta.totalSvUsedCount =
+ get_sv_count_from_mask(sv_cache_info.gps_used_mask,
+ GPS_SV_PRN_MAX - GPS_SV_PRN_MIN + 1) +
+ get_sv_count_from_mask(sv_cache_info.glo_used_mask,
+ GLO_SV_PRN_MAX - GLO_SV_PRN_MIN + 1) +
+ get_sv_count_from_mask(sv_cache_info.gal_used_mask,
+ GAL_SV_PRN_MAX - GAL_SV_PRN_MIN + 1) +
+ get_sv_count_from_mask(sv_cache_info.qzss_used_mask,
+ QZSS_SV_PRN_MAX - QZSS_SV_PRN_MIN + 1) +
+ get_sv_count_from_mask(sv_cache_info.bds_used_mask,
+ BDS_SV_PRN_MAX - BDS_SV_PRN_MIN + 1) +
+ get_sv_count_from_mask(sv_cache_info.navic_used_mask,
+ NAVIC_SV_PRN_MAX - NAVIC_SV_PRN_MIN + 1);
+ if (needCombine &&
+ (sv_cache_info.gps_used_mask ? 1 : 0) +
+ (sv_cache_info.glo_used_mask ? 1 : 0) +
+ (sv_cache_info.gal_used_mask ? 1 : 0) +
+ (sv_cache_info.qzss_used_mask ? 1 : 0) +
+ (sv_cache_info.bds_used_mask ? 1 : 0) +
+ (sv_cache_info.navic_used_mask ? 1 : 0) > 1)
+ {
+ // If GPS, GLONASS, Galileo, QZSS, BDS etc. are combined
+ // to obtain the reported position solution,
+ // talker shall be set to GN, to indicate that
+ // the satellites are used in a combined solution
+ sv_meta.talker[0] = 'G';
+ sv_meta.talker[1] = 'N';
+ }
+ return &sv_meta;
+}
+
+/*===========================================================================
+FUNCTION loc_nmea_put_checksum
+
+DESCRIPTION
+ Generate NMEA sentences generated based on position report
+
+DEPENDENCIES
+ NONE
+
+RETURN VALUE
+ Total length of the nmea sentence
+
+SIDE EFFECTS
+ N/A
+
+===========================================================================*/
+static int loc_nmea_put_checksum(char *pNmea, int maxSize)
+{
+ uint8_t checksum = 0;
+ int length = 0;
+ if(NULL == pNmea)
+ return 0;
+
+ pNmea++; //skip the $
+ while (*pNmea != '\0')
+ {
+ checksum ^= *pNmea++;
+ length++;
+ }
+
+ // length now contains nmea sentence string length not including $ sign.
+ int checksumLength = snprintf(pNmea,(maxSize-length-1),"*%02X\r\n", checksum);
+
+ // total length of nmea sentence is length of nmea sentence inc $ sign plus
+ // length of checksum (+1 is to cover the $ character in the length).
+ return (length + checksumLength + 1);
+}
+
+/*===========================================================================
+FUNCTION loc_nmea_generate_GSA
+
+DESCRIPTION
+ Generate NMEA GSA sentences generated based on position report
+ Currently below sentences are generated:
+ - $GPGSA : GPS DOP and active SVs
+ - $GLGSA : GLONASS DOP and active SVs
+ - $GAGSA : GALILEO DOP and active SVs
+ - $GNGSA : GNSS DOP and active SVs
+
+DEPENDENCIES
+ NONE
+
+RETURN VALUE
+ Number of SVs used
+
+SIDE EFFECTS
+ N/A
+
+===========================================================================*/
+static uint32_t loc_nmea_generate_GSA(const GpsLocationExtended &locationExtended,
+ char* sentence,
+ int bufSize,
+ loc_nmea_sv_meta* sv_meta_p,
+ std::vector<std::string> &nmeaArraystr)
+{
+ if (!sentence || bufSize <= 0 || !sv_meta_p)
+ {
+ LOC_LOGE("NMEA Error invalid arguments.");
+ return 0;
+ }
+
+ char* pMarker = sentence;
+ int lengthRemaining = bufSize;
+ int length = 0;
+
+ uint32_t svUsedCount = 0;
+ uint32_t svUsedList[64] = {0};
+
+ char fixType = '\0';
+
+ const char* talker = sv_meta_p->talker;
+ uint32_t svIdOffset = sv_meta_p->svIdOffset;
+ uint64_t mask = sv_meta_p->mask;
+
+ if(sv_meta_p->svType != GNSS_SV_TYPE_GLONASS) {
+ svIdOffset = 0;
+ }
+
+ for (uint8_t i = 1; mask > 0 && svUsedCount < 64; i++)
+ {
+ if (mask & 1)
+ svUsedList[svUsedCount++] = i + svIdOffset;
+ mask = mask >> 1;
+ }
+
+ if (svUsedCount == 0)
+ return 0;
+
+ if (sv_meta_p->totalSvUsedCount == 0)
+ fixType = '1'; // no fix
+ else if (sv_meta_p->totalSvUsedCount <= 3)
+ fixType = '2'; // 2D fix
+ else
+ fixType = '3'; // 3D fix
+
+ // Start printing the sentence
+ // Format: $--GSA,a,x,xx,xx,xx,xx,xx,xx,xx,xx,xx,xx,xx,xx,p.p,h.h,v.v,s*cc
+ // a : Mode : A : Automatic, allowed to automatically switch 2D/3D
+ // x : Fixtype : 1 (no fix), 2 (2D fix), 3 (3D fix)
+ // xx : 12 SV ID
+ // p.p : Position DOP (Dilution of Precision)
+ // h.h : Horizontal DOP
+ // v.v : Vertical DOP
+ // s : GNSS System Id
+ // cc : Checksum value
+ length = snprintf(pMarker, lengthRemaining, "$%sGSA,A,%c,", talker, fixType);
+
+ if (length < 0 || length >= lengthRemaining)
+ {
+ LOC_LOGE("NMEA Error in string formatting");
+ return 0;
+ }
+ pMarker += length;
+ lengthRemaining -= length;
+
+ // Add first 12 satellite IDs
+ for (uint8_t i = 0; i < 12; i++)
+ {
+ if (i < svUsedCount)
+ length = snprintf(pMarker, lengthRemaining, "%02d,", svUsedList[i]);
+ else
+ length = snprintf(pMarker, lengthRemaining, ",");
+
+ if (length < 0 || length >= lengthRemaining)
+ {
+ LOC_LOGE("NMEA Error in string formatting");
+ return 0;
+ }
+ pMarker += length;
+ lengthRemaining -= length;
+ }
+
+ // Add the position/horizontal/vertical DOP values
+ if (locationExtended.flags & GPS_LOCATION_EXTENDED_HAS_DOP)
+ {
+ length = snprintf(pMarker, lengthRemaining, "%.1f,%.1f,%.1f,",
+ locationExtended.pdop,
+ locationExtended.hdop,
+ locationExtended.vdop);
+ }
+ else
+ { // no dop
+ length = snprintf(pMarker, lengthRemaining, ",,,");
+ }
+ pMarker += length;
+ lengthRemaining -= length;
+
+ // system id
+ length = snprintf(pMarker, lengthRemaining, "%d", sv_meta_p->systemId);
+ pMarker += length;
+ lengthRemaining -= length;
+
+ /* Sentence is ready, add checksum and broadcast */
+ length = loc_nmea_put_checksum(sentence, bufSize);
+ nmeaArraystr.push_back(sentence);
+
+ return svUsedCount;
+}
+
+/*===========================================================================
+FUNCTION loc_nmea_generate_GSV
+
+DESCRIPTION
+ Generate NMEA GSV sentences generated based on sv report
+ Currently below sentences are generated:
+ - $GPGSV: GPS Satellites in View
+ - $GLGSV: GLONASS Satellites in View
+ - $GAGSV: GALILEO Satellites in View
+
+DEPENDENCIES
+ NONE
+
+RETURN VALUE
+ NONE
+
+SIDE EFFECTS
+ N/A
+
+===========================================================================*/
+static void loc_nmea_generate_GSV(const GnssSvNotification &svNotify,
+ char* sentence,
+ int bufSize,
+ loc_nmea_sv_meta* sv_meta_p,
+ std::vector<std::string> &nmeaArraystr)
+{
+ if (!sentence || bufSize <= 0)
+ {
+ LOC_LOGE("NMEA Error invalid argument.");
+ return;
+ }
+
+ char* pMarker = sentence;
+ int lengthRemaining = bufSize;
+ int length = 0;
+ int sentenceCount = 0;
+ int sentenceNumber = 1;
+ size_t svNumber = 1;
+
+ const char* talker = sv_meta_p->talker;
+ uint32_t svIdOffset = sv_meta_p->svIdOffset;
+ int svCount = sv_meta_p->svCount;
+ if (svCount <= 0)
+ {
+ LOC_LOGV("No SV in view for talker ID:%s, signal ID:%X", talker, sv_meta_p->signalId);
+ return;
+ }
+
+ svNumber = 1;
+ sentenceNumber = 1;
+ sentenceCount = svCount / 4 + (svCount % 4 != 0);
+
+ while (sentenceNumber <= sentenceCount)
+ {
+ pMarker = sentence;
+ lengthRemaining = bufSize;
+
+ length = snprintf(pMarker, lengthRemaining, "$%sGSV,%d,%d,%02d",
+ talker, sentenceCount, sentenceNumber, svCount);
+
+ if (length < 0 || length >= lengthRemaining)
+ {
+ LOC_LOGE("NMEA Error in string formatting");
+ return;
+ }
+ pMarker += length;
+ lengthRemaining -= length;
+
+ for (int i=0; (svNumber <= svNotify.count) && (i < 4); svNumber++)
+ {
+ GnssSignalTypeMask signalType = svNotify.gnssSvs[svNumber-1].gnssSignalTypeMask;
+ if (0 == signalType) {
+ // If no signal type in report, it means default L1,G1,E1,B1I
+ switch (svNotify.gnssSvs[svNumber - 1].type)
+ {
+ case GNSS_SV_TYPE_GPS:
+ signalType = GNSS_SIGNAL_GPS_L1CA;
+ break;
+ case GNSS_SV_TYPE_GLONASS:
+ signalType = GNSS_SIGNAL_GLONASS_G1;
+ break;
+ case GNSS_SV_TYPE_GALILEO:
+ signalType = GNSS_SIGNAL_GALILEO_E1;
+ break;
+ case GNSS_SV_TYPE_QZSS:
+ signalType = GNSS_SIGNAL_QZSS_L1CA;
+ break;
+ case GNSS_SV_TYPE_BEIDOU:
+ signalType = GNSS_SIGNAL_BEIDOU_B1I;
+ break;
+ case GNSS_SV_TYPE_SBAS:
+ signalType = GNSS_SIGNAL_SBAS_L1;
+ break;
+ case GNSS_SV_TYPE_NAVIC:
+ signalType = GNSS_SIGNAL_NAVIC_L5;
+ break;
+ default:
+ LOC_LOGE("NMEA Error unknow constellation type: %d",
+ svNotify.gnssSvs[svNumber - 1].type);
+ continue;
+ }
+ }
+
+ if (sv_meta_p->svType == svNotify.gnssSvs[svNumber - 1].type &&
+ sv_meta_p->signalId == convert_signalType_to_signalId(signalType))
+ {
+ length = snprintf(pMarker, lengthRemaining,",%02d,%02d,%03d,",
+ svNotify.gnssSvs[svNumber - 1].svId + svIdOffset,
+ (int)(0.5 + svNotify.gnssSvs[svNumber - 1].elevation), //float to int
+ (int)(0.5 + svNotify.gnssSvs[svNumber - 1].azimuth)); //float to int
+
+ if (length < 0 || length >= lengthRemaining)
+ {
+ LOC_LOGE("NMEA Error in string formatting");
+ return;
+ }
+ pMarker += length;
+ lengthRemaining -= length;
+
+ if (svNotify.gnssSvs[svNumber - 1].cN0Dbhz > 0)
+ {
+ length = snprintf(pMarker, lengthRemaining,"%02d",
+ (int)(0.5 + svNotify.gnssSvs[svNumber - 1].cN0Dbhz)); //float to int
+
+ if (length < 0 || length >= lengthRemaining)
+ {
+ LOC_LOGE("NMEA Error in string formatting");
+ return;
+ }
+ pMarker += length;
+ lengthRemaining -= length;
+ }
+
+ i++;
+ }
+
+ }
+
+ // append signalId
+ length = snprintf(pMarker, lengthRemaining,",%X",sv_meta_p->signalId);
+ pMarker += length;
+ lengthRemaining -= length;
+
+ length = loc_nmea_put_checksum(sentence, bufSize);
+ nmeaArraystr.push_back(sentence);
+ sentenceNumber++;
+
+ } //while
+}
+
+/*===========================================================================
+FUNCTION loc_nmea_generate_DTM
+
+DESCRIPTION
+ Generate NMEA DTM sentences generated based on position report
+
+DEPENDENCIES
+ NONE
+
+RETURN VALUE
+ NONE
+
+SIDE EFFECTS
+ N/A
+
+===========================================================================*/
+static void loc_nmea_generate_DTM(const LocLla &ref_lla,
+ const LocLla &local_lla,
+ char *talker,
+ char *sentence,
+ int bufSize)
+{
+ char* pMarker = sentence;
+ int lengthRemaining = bufSize;
+ int length = 0;
+ int datum_type;
+ char ref_datum[4] = {0};
+ char local_datum[4] = {0};
+ double lla_offset[3] = {0};
+ char latHem, longHem;
+ double latMins, longMins;
+
+
+
+ datum_type = loc_get_datum_type();
+ switch (datum_type) {
+ case LOC_GNSS_DATUM_WGS84:
+ ref_datum[0] = 'W';
+ ref_datum[1] = '8';
+ ref_datum[2] = '4';
+ local_datum[0] = 'P';
+ local_datum[1] = '9';
+ local_datum[2] = '0';
+ break;
+ case LOC_GNSS_DATUM_PZ90:
+ ref_datum[0] = 'P';
+ ref_datum[1] = '9';
+ ref_datum[2] = '0';
+ local_datum[0] = 'W';
+ local_datum[1] = '8';
+ local_datum[2] = '4';
+ break;
+ default:
+ break;
+ }
+ length = snprintf(pMarker , lengthRemaining , "$%sDTM,%s,," , talker, local_datum);
+ if (length < 0 || length >= lengthRemaining) {
+ LOC_LOGE("NMEA Error in string formatting");
+ return;
+ }
+ pMarker += length;
+ lengthRemaining -= length;
+
+ lla_offset[0] = local_lla.lat - ref_lla.lat;
+ lla_offset[1] = fmod(local_lla.lon - ref_lla.lon, 360.0);
+ if (lla_offset[1] < -180.0) {
+ lla_offset[1] += 360.0;
+ } else if ( lla_offset[1] > 180.0) {
+ lla_offset[1] -= 360.0;
+ }
+ lla_offset[2] = local_lla.alt - ref_lla.alt;
+ if (lla_offset[0] > 0.0) {
+ latHem = 'N';
+ } else {
+ latHem = 'S';
+ lla_offset[0] *= -1.0;
+ }
+ latMins = fmod(lla_offset[0] * 60.0, 60.0);
+ if (lla_offset[1] < 0.0) {
+ longHem = 'W';
+ lla_offset[1] *= -1.0;
+ }else {
+ longHem = 'E';
+ }
+ longMins = fmod(lla_offset[1] * 60.0, 60.0);
+ length = snprintf(pMarker, lengthRemaining, "%02d%09.6lf,%c,%03d%09.6lf,%c,%.3lf,",
+ (uint8_t)floor(lla_offset[0]), latMins, latHem,
+ (uint8_t)floor(lla_offset[1]), longMins, longHem, lla_offset[2]);
+ if (length < 0 || length >= lengthRemaining) {
+ LOC_LOGE("NMEA Error in string formatting");
+ return;
+ }
+ pMarker += length;
+ lengthRemaining -= length;
+ length = snprintf(pMarker , lengthRemaining , "%s" , ref_datum);
+ if (length < 0 || length >= lengthRemaining) {
+ LOC_LOGE("NMEA Error in string formatting");
+ return;
+ }
+ pMarker += length;
+ lengthRemaining -= length;
+
+ length = loc_nmea_put_checksum(sentence, bufSize);
+}
+
+/*===========================================================================
+FUNCTION get_utctime_with_leapsecond_transition
+
+DESCRIPTION
+ This function returns true if the position report is generated during
+ leap second transition period. If not, then the utc timestamp returned
+ will be set to the timestamp in the position report. If it is,
+ then the utc timestamp returned will need to take into account
+ of the leap second transition so that proper calendar year/month/date
+ can be calculated from the returned utc timestamp.
+
+DEPENDENCIES
+ NONE
+
+RETURN VALUE
+ true: position report is generated in leap second transition period.
+
+SIDE EFFECTS
+ N/A
+
+===========================================================================*/
+static bool get_utctime_with_leapsecond_transition(
+ const UlpLocation &location,
+ const GpsLocationExtended &locationExtended,
+ const LocationSystemInfo &systemInfo,
+ LocGpsUtcTime &utcPosTimestamp)
+{
+ bool inTransition = false;
+
+ // position report is not generated during leap second transition,
+ // we can use the UTC timestamp from position report as is
+ utcPosTimestamp = location.gpsLocation.timestamp;
+
+ // Check whether we are in leap second transition.
+ // If so, per NMEA spec, we need to display the extra second in format of 23:59:60
+ // with year/month/date not getting advanced.
+ if ((locationExtended.flags & GPS_LOCATION_EXTENDED_HAS_GPS_TIME) &&
+ ((systemInfo.systemInfoMask & LOCATION_SYS_INFO_LEAP_SECOND) &&
+ (systemInfo.leapSecondSysInfo.leapSecondInfoMask &
+ LEAP_SECOND_SYS_INFO_LEAP_SECOND_CHANGE_BIT))) {
+
+ const LeapSecondChangeInfo &leapSecondChangeInfo =
+ systemInfo.leapSecondSysInfo.leapSecondChangeInfo;
+ const GnssSystemTimeStructType &gpsTimestampLsChange =
+ leapSecondChangeInfo.gpsTimestampLsChange;
+
+ uint64_t gpsTimeLsChange = gpsTimestampLsChange.systemWeek * MSEC_IN_ONE_WEEK +
+ gpsTimestampLsChange.systemMsec;
+ uint64_t gpsTimePosReport = locationExtended.gpsTime.gpsWeek * MSEC_IN_ONE_WEEK +
+ locationExtended.gpsTime.gpsTimeOfWeekMs;
+ // we are only dealing with positive leap second change, as negative
+ // leap second change has never occurred and should not occur in future
+ if (leapSecondChangeInfo.leapSecondsAfterChange >
+ leapSecondChangeInfo.leapSecondsBeforeChange) {
+ // leap second adjustment is always 1 second at a time. It can happen
+ // every quarter end and up to four times per year.
+ if ((gpsTimePosReport >= gpsTimeLsChange) &&
+ (gpsTimePosReport < (gpsTimeLsChange + 1000))) {
+ inTransition = true;
+ utcPosTimestamp = gpsTimeLsChange + UTC_GPS_OFFSET_MSECS -
+ leapSecondChangeInfo.leapSecondsBeforeChange * 1000;
+
+ // we substract 1000 milli-seconds from UTC timestmap in order to calculate the
+ // proper year, month and date during leap second transtion.
+ // Let us give an example, assuming leap second transition is scheduled on 2019,
+ // Dec 31st mid night. When leap second transition is happening,
+ // instead of outputting the time as 2020, Jan, 1st, 00 hour, 00 min, and 00 sec.
+ // The time need to be displayed as 2019, Dec, 31st, 23 hour, 59 min and 60 sec.
+ utcPosTimestamp -= 1000;
+ }
+ }
+ }
+ return inTransition;
+}
+
+/*===========================================================================
+FUNCTION loc_nmea_get_fix_quality
+
+DESCRIPTION
+ This function obtains the fix quality for GGA sentence, mode indicator
+ for RMC and VTG sentence based on nav solution mask and tech mask in
+ the postion report.
+
+DEPENDENCIES
+ NONE
+
+Output parameter
+ ggaGpsQuality: gps quality field in GGA sentence
+ rmcModeIndicator: mode indicator field in RMC sentence
+ vtgModeIndicator: mode indicator field in VTG sentence
+
+SIDE EFFECTS
+ N/A
+
+===========================================================================*/
+static void loc_nmea_get_fix_quality(const UlpLocation & location,
+ const GpsLocationExtended & locationExtended,
+ char & ggaGpsQuality,
+ char & rmcModeIndicator,
+ char & vtgModeIndicator) {
+
+ ggaGpsQuality = '0';
+ rmcModeIndicator = 'N';
+ vtgModeIndicator = 'N';
+
+ do {
+ if (!(location.gpsLocation.flags & LOC_GPS_LOCATION_HAS_LAT_LONG)){
+ ggaGpsQuality = '0'; // 0 means no fix
+ rmcModeIndicator = 'N';
+ vtgModeIndicator = 'N';
+ break;
+ }
+ // NOTE: Order of the check is important
+ if (locationExtended.flags & GPS_LOCATION_EXTENDED_HAS_NAV_SOLUTION_MASK) {
+ if (LOC_NAV_MASK_PPP_CORRECTION & locationExtended.navSolutionMask) {
+ ggaGpsQuality = '2'; // 2 means DGPS fix
+ rmcModeIndicator = 'P'; // P means precise
+ vtgModeIndicator = 'P'; // P means precise
+ break;
+ } else if (LOC_NAV_MASK_RTK_FIXED_CORRECTION & locationExtended.navSolutionMask){
+ ggaGpsQuality = '4'; // 4 means RTK Fixed fix
+ rmcModeIndicator = 'R'; // use R (RTK fixed)
+ vtgModeIndicator = 'D'; // use D (differential) as
+ // no RTK fixed defined for VTG in NMEA 183 spec
+ break;
+ } else if (LOC_NAV_MASK_RTK_CORRECTION & locationExtended.navSolutionMask){
+ ggaGpsQuality = '5'; // 5 means RTK float fix
+ rmcModeIndicator = 'F'; // F means RTK float fix
+ vtgModeIndicator = 'D'; // use D (differential) as
+ // no RTK float defined for VTG in NMEA 183 spec
+ break;
+ } else if (LOC_NAV_MASK_DGNSS_CORRECTION & locationExtended.navSolutionMask){
+ ggaGpsQuality = '2'; // 2 means DGPS fix
+ rmcModeIndicator = 'D'; // D means differential
+ vtgModeIndicator = 'D'; // D means differential
+ break;
+ } else if (LOC_NAV_MASK_SBAS_CORRECTION_IONO & locationExtended.navSolutionMask){
+ ggaGpsQuality = '2'; // 2 means DGPS fix
+ rmcModeIndicator = 'D'; // D means differential
+ vtgModeIndicator = 'D'; // D means differential
+ break;
+ }
+ }
+ // NOTE: Order of the check is important
+ if (locationExtended.flags & GPS_LOCATION_EXTENDED_HAS_POS_TECH_MASK) {
+ if (LOC_POS_TECH_MASK_SATELLITE & locationExtended.tech_mask){
+ ggaGpsQuality = '1'; // 1 means GPS
+ rmcModeIndicator = 'A'; // A means autonomous
+ vtgModeIndicator = 'A'; // A means autonomous
+ break;
+ } else if (LOC_POS_TECH_MASK_SENSORS & locationExtended.tech_mask){
+ ggaGpsQuality = '6'; // 6 means estimated (dead reckoning)
+ rmcModeIndicator = 'E'; // E means estimated (dead reckoning)
+ vtgModeIndicator = 'E'; // E means estimated (dead reckoning)
+ break;
+ }
+ }
+ } while (0);
+
+ LOC_LOGv("gps quality: %c, rmc mode indicator: %c, vtg mode indicator: %c",
+ ggaGpsQuality, rmcModeIndicator, vtgModeIndicator);
+}
+
+/*===========================================================================
+FUNCTION loc_nmea_generate_pos
+
+DESCRIPTION
+ Generate NMEA sentences generated based on position report
+ Currently below sentences are generated within this function:
+ - $GPGSA : GPS DOP and active SVs
+ - $GLGSA : GLONASS DOP and active SVs
+ - $GAGSA : GALILEO DOP and active SVs
+ - $GNGSA : GNSS DOP and active SVs
+ - $--VTG : Track made good and ground speed
+ - $--RMC : Recommended minimum navigation information
+ - $--GGA : Time, position and fix related data
+
+DEPENDENCIES
+ NONE
+
+RETURN VALUE
+ 0
+
+SIDE EFFECTS
+ N/A
+
+===========================================================================*/
+void loc_nmea_generate_pos(const UlpLocation &location,
+ const GpsLocationExtended &locationExtended,
+ const LocationSystemInfo &systemInfo,
+ unsigned char generate_nmea,
+ std::vector<std::string> &nmeaArraystr)
+{
+ ENTRY_LOG();
+
+ LocGpsUtcTime utcPosTimestamp = 0;
+ bool inLsTransition = false;
+
+ inLsTransition = get_utctime_with_leapsecond_transition
+ (location, locationExtended, systemInfo, utcPosTimestamp);
+
+ time_t utcTime(utcPosTimestamp/1000);
+ tm * pTm = gmtime(&utcTime);
+ if (NULL == pTm) {
+ LOC_LOGE("gmtime failed");
+ return;
+ }
+
+ char sentence[NMEA_SENTENCE_MAX_LENGTH] = {0};
+ char sentence_DTM[NMEA_SENTENCE_MAX_LENGTH] = {0};
+ char sentence_RMC[NMEA_SENTENCE_MAX_LENGTH] = {0};
+ char sentence_GNS[NMEA_SENTENCE_MAX_LENGTH] = {0};
+ char sentence_GGA[NMEA_SENTENCE_MAX_LENGTH] = {0};
+ char* pMarker = sentence;
+ int lengthRemaining = sizeof(sentence);
+ int length = 0;
+ int utcYear = pTm->tm_year % 100; // 2 digit year
+ int utcMonth = pTm->tm_mon + 1; // tm_mon starts at zero
+ int utcDay = pTm->tm_mday;
+ int utcHours = pTm->tm_hour;
+ int utcMinutes = pTm->tm_min;
+ int utcSeconds = pTm->tm_sec;
+ int utcMSeconds = (location.gpsLocation.timestamp)%1000;
+ int datum_type = loc_get_datum_type();
+ LocEcef ecef_w84;
+ LocEcef ecef_p90;
+ LocLla lla_w84;
+ LocLla lla_p90;
+ LocLla ref_lla;
+ LocLla local_lla;
+
+ if (inLsTransition) {
+ // During leap second transition, we need to display the extra
+ // leap second of hour, minute, second as (23:59:60)
+ utcHours = 23;
+ utcMinutes = 59;
+ utcSeconds = 60;
+ // As UTC timestamp is freezing during leap second transition,
+ // retrieve milli-seconds portion from GPS timestamp.
+ utcMSeconds = locationExtended.gpsTime.gpsTimeOfWeekMs % 1000;
+ }
+
+ loc_sv_cache_info sv_cache_info = {};
+
+ if (GPS_LOCATION_EXTENDED_HAS_GNSS_SV_USED_DATA & locationExtended.flags) {
+ sv_cache_info.gps_used_mask =
+ locationExtended.gnss_sv_used_ids.gps_sv_used_ids_mask;
+ sv_cache_info.glo_used_mask =
+ locationExtended.gnss_sv_used_ids.glo_sv_used_ids_mask;
+ sv_cache_info.gal_used_mask =
+ locationExtended.gnss_sv_used_ids.gal_sv_used_ids_mask;
+ sv_cache_info.bds_used_mask =
+ locationExtended.gnss_sv_used_ids.bds_sv_used_ids_mask;
+ sv_cache_info.qzss_used_mask =
+ locationExtended.gnss_sv_used_ids.qzss_sv_used_ids_mask;
+ sv_cache_info.navic_used_mask =
+ locationExtended.gnss_sv_used_ids.navic_sv_used_ids_mask;
+ }
+
+ if (generate_nmea) {
+ char talker[3] = {'G', 'P', '\0'};
+ char modeIndicator[7] = {0};
+ uint32_t svUsedCount = 0;
+ uint32_t count = 0;
+ loc_nmea_sv_meta sv_meta;
+ // -------------------
+ // ---$GPGSA/$GNGSA---
+ // -------------------
+
+ count = loc_nmea_generate_GSA(locationExtended, sentence, sizeof(sentence),
+ loc_nmea_sv_meta_init(sv_meta, sv_cache_info, GNSS_SV_TYPE_GPS,
+ GNSS_SIGNAL_GPS_L1CA, true), nmeaArraystr);
+ if (count > 0)
+ {
+ svUsedCount += count;
+ talker[0] = sv_meta.talker[0];
+ talker[1] = sv_meta.talker[1];
+ }
+
+ // -------------------
+ // ---$GLGSA/$GNGSA---
+ // -------------------
+
+ count = loc_nmea_generate_GSA(locationExtended, sentence, sizeof(sentence),
+ loc_nmea_sv_meta_init(sv_meta, sv_cache_info, GNSS_SV_TYPE_GLONASS,
+ GNSS_SIGNAL_GLONASS_G1, true), nmeaArraystr);
+ if (count > 0)
+ {
+ svUsedCount += count;
+ talker[0] = sv_meta.talker[0];
+ talker[1] = sv_meta.talker[1];
+ }
+
+ // -------------------
+ // ---$GAGSA/$GNGSA---
+ // -------------------
+
+ count = loc_nmea_generate_GSA(locationExtended, sentence, sizeof(sentence),
+ loc_nmea_sv_meta_init(sv_meta, sv_cache_info, GNSS_SV_TYPE_GALILEO,
+ GNSS_SIGNAL_GALILEO_E1, true), nmeaArraystr);
+ if (count > 0)
+ {
+ svUsedCount += count;
+ talker[0] = sv_meta.talker[0];
+ talker[1] = sv_meta.talker[1];
+ }
+
+ // ----------------------------
+ // ---$GBGSA/$GNGSA (BEIDOU)---
+ // ----------------------------
+ count = loc_nmea_generate_GSA(locationExtended, sentence, sizeof(sentence),
+ loc_nmea_sv_meta_init(sv_meta, sv_cache_info, GNSS_SV_TYPE_BEIDOU,
+ GNSS_SIGNAL_BEIDOU_B1I, true), nmeaArraystr);
+ if (count > 0)
+ {
+ svUsedCount += count;
+ talker[0] = sv_meta.talker[0];
+ talker[1] = sv_meta.talker[1];
+ }
+
+ // --------------------------
+ // ---$GQGSA/$GNGSA (QZSS)---
+ // --------------------------
+
+ count = loc_nmea_generate_GSA(locationExtended, sentence, sizeof(sentence),
+ loc_nmea_sv_meta_init(sv_meta, sv_cache_info, GNSS_SV_TYPE_QZSS,
+ GNSS_SIGNAL_QZSS_L1CA, true), nmeaArraystr);
+ if (count > 0)
+ {
+ svUsedCount += count;
+ talker[0] = sv_meta.talker[0];
+ talker[1] = sv_meta.talker[1];
+ }
+
+ char ggaGpsQuality = '0';
+ char rmcModeIndicator = 'N';
+ char vtgModeIndicator = 'N';
+ loc_nmea_get_fix_quality(location, locationExtended,
+ ggaGpsQuality, rmcModeIndicator, vtgModeIndicator);
+
+ // -------------------
+ // ------$--VTG-------
+ // -------------------
+
+ pMarker = sentence;
+ lengthRemaining = sizeof(sentence);
+
+ if (location.gpsLocation.flags & LOC_GPS_LOCATION_HAS_BEARING)
+ {
+ float magTrack = location.gpsLocation.bearing;
+ if (locationExtended.flags & GPS_LOCATION_EXTENDED_HAS_MAG_DEV)
+ {
+ float magTrack = location.gpsLocation.bearing - locationExtended.magneticDeviation;
+ if (magTrack < 0.0)
+ magTrack += 360.0;
+ else if (magTrack > 360.0)
+ magTrack -= 360.0;
+ }
+
+ length = snprintf(pMarker, lengthRemaining, "$%sVTG,%.1lf,T,%.1lf,M,", talker, location.gpsLocation.bearing, magTrack);
+ }
+ else
+ {
+ length = snprintf(pMarker, lengthRemaining, "$%sVTG,,T,,M,", talker);
+ }
+
+ if (length < 0 || length >= lengthRemaining)
+ {
+ LOC_LOGE("NMEA Error in string formatting");
+ return;
+ }
+ pMarker += length;
+ lengthRemaining -= length;
+
+ if (location.gpsLocation.flags & LOC_GPS_LOCATION_HAS_SPEED)
+ {
+ float speedKnots = location.gpsLocation.speed * (3600.0/1852.0);
+ float speedKmPerHour = location.gpsLocation.speed * 3.6;
+
+ length = snprintf(pMarker, lengthRemaining, "%.1lf,N,%.1lf,K,", speedKnots, speedKmPerHour);
+ }
+ else
+ {
+ length = snprintf(pMarker, lengthRemaining, ",N,,K,");
+ }
+
+ if (length < 0 || length >= lengthRemaining)
+ {
+ LOC_LOGE("NMEA Error in string formatting");
+ return;
+ }
+ pMarker += length;
+ lengthRemaining -= length;
+
+ length = snprintf(pMarker, lengthRemaining, "%c", vtgModeIndicator);
+
+ length = loc_nmea_put_checksum(sentence, sizeof(sentence));
+ nmeaArraystr.push_back(sentence);
+
+ memset(&ecef_w84, 0, sizeof(ecef_w84));
+ memset(&ecef_p90, 0, sizeof(ecef_p90));
+ memset(&lla_w84, 0, sizeof(lla_w84));
+ memset(&lla_p90, 0, sizeof(lla_p90));
+ memset(&ref_lla, 0, sizeof(ref_lla));
+ memset(&local_lla, 0, sizeof(local_lla));
+ lla_w84.lat = location.gpsLocation.latitude / 180.0 * M_PI;
+ lla_w84.lon = location.gpsLocation.longitude / 180.0 * M_PI;
+ lla_w84.alt = location.gpsLocation.altitude;
+
+ convert_Lla_to_Ecef(lla_w84, ecef_w84);
+ convert_WGS84_to_PZ90(ecef_w84, ecef_p90);
+ convert_Ecef_to_Lla(ecef_p90, lla_p90);
+
+ switch (datum_type) {
+ case LOC_GNSS_DATUM_WGS84:
+ ref_lla.lat = location.gpsLocation.latitude;
+ ref_lla.lon = location.gpsLocation.longitude;
+ ref_lla.alt = location.gpsLocation.altitude;
+ local_lla.lat = lla_p90.lat / M_PI * 180.0;
+ local_lla.lon = lla_p90.lon / M_PI * 180.0;
+ local_lla.alt = lla_p90.alt;
+ break;
+ case LOC_GNSS_DATUM_PZ90:
+ ref_lla.lat = lla_p90.lat / M_PI * 180.0;
+ ref_lla.lon = lla_p90.lon / M_PI * 180.0;
+ ref_lla.alt = lla_p90.alt;
+ local_lla.lat = location.gpsLocation.latitude;
+ local_lla.lon = location.gpsLocation.longitude;
+ local_lla.alt = location.gpsLocation.altitude;
+ break;
+ default:
+ break;
+ }
+
+ // -------------------
+ // ------$--DTM-------
+ // -------------------
+ loc_nmea_generate_DTM(ref_lla, local_lla, talker, sentence_DTM, sizeof(sentence_DTM));
+
+ // -------------------
+ // ------$--RMC-------
+ // -------------------
+
+ pMarker = sentence_RMC;
+ lengthRemaining = sizeof(sentence_RMC);
+
+ length = snprintf(pMarker, lengthRemaining, "$%sRMC,%02d%02d%02d.%02d,A," ,
+ talker, utcHours, utcMinutes, utcSeconds,utcMSeconds/10);
+
+ if (length < 0 || length >= lengthRemaining)
+ {
+ LOC_LOGE("NMEA Error in string formatting");
+ return;
+ }
+ pMarker += length;
+ lengthRemaining -= length;
+
+ if (location.gpsLocation.flags & LOC_GPS_LOCATION_HAS_LAT_LONG)
+ {
+ double latitude = ref_lla.lat;
+ double longitude = ref_lla.lon;
+ char latHemisphere;
+ char lonHemisphere;
+ double latMinutes;
+ double lonMinutes;
+
+ if (latitude > 0)
+ {
+ latHemisphere = 'N';
+ }
+ else
+ {
+ latHemisphere = 'S';
+ latitude *= -1.0;
+ }
+
+ if (longitude < 0)
+ {
+ lonHemisphere = 'W';
+ longitude *= -1.0;
+ }
+ else
+ {
+ lonHemisphere = 'E';
+ }
+
+ latMinutes = fmod(latitude * 60.0 , 60.0);
+ lonMinutes = fmod(longitude * 60.0 , 60.0);
+
+ length = snprintf(pMarker, lengthRemaining, "%02d%09.6lf,%c,%03d%09.6lf,%c,",
+ (uint8_t)floor(latitude), latMinutes, latHemisphere,
+ (uint8_t)floor(longitude),lonMinutes, lonHemisphere);
+ }
+ else
+ {
+ length = snprintf(pMarker, lengthRemaining,",,,,");
+ }
+
+ if (length < 0 || length >= lengthRemaining)
+ {
+ LOC_LOGE("NMEA Error in string formatting");
+ return;
+ }
+ pMarker += length;
+ lengthRemaining -= length;
+
+ if (location.gpsLocation.flags & LOC_GPS_LOCATION_HAS_SPEED)
+ {
+ float speedKnots = location.gpsLocation.speed * (3600.0/1852.0);
+ length = snprintf(pMarker, lengthRemaining, "%.1lf,", speedKnots);
+ }
+ else
+ {
+ length = snprintf(pMarker, lengthRemaining, ",");
+ }
+
+ if (length < 0 || length >= lengthRemaining)
+ {
+ LOC_LOGE("NMEA Error in string formatting");
+ return;
+ }
+ pMarker += length;
+ lengthRemaining -= length;
+
+ if (location.gpsLocation.flags & LOC_GPS_LOCATION_HAS_BEARING)
+ {
+ length = snprintf(pMarker, lengthRemaining, "%.1lf,", location.gpsLocation.bearing);
+ }
+ else
+ {
+ length = snprintf(pMarker, lengthRemaining, ",");
+ }
+
+ if (length < 0 || length >= lengthRemaining)
+ {
+ LOC_LOGE("NMEA Error in string formatting");
+ return;
+ }
+ pMarker += length;
+ lengthRemaining -= length;
+
+ length = snprintf(pMarker, lengthRemaining, "%2.2d%2.2d%2.2d,",
+ utcDay, utcMonth, utcYear);
+
+ if (length < 0 || length >= lengthRemaining)
+ {
+ LOC_LOGE("NMEA Error in string formatting");
+ return;
+ }
+ pMarker += length;
+ lengthRemaining -= length;
+
+ if (locationExtended.flags & GPS_LOCATION_EXTENDED_HAS_MAG_DEV)
+ {
+ float magneticVariation = locationExtended.magneticDeviation;
+ char direction;
+ if (magneticVariation < 0.0)
+ {
+ direction = 'W';
+ magneticVariation *= -1.0;
+ }
+ else
+ {
+ direction = 'E';
+ }
+
+ length = snprintf(pMarker, lengthRemaining, "%.1lf,%c,",
+ magneticVariation, direction);
+ }
+ else
+ {
+ length = snprintf(pMarker, lengthRemaining, ",,");
+ }
+
+ if (length < 0 || length >= lengthRemaining)
+ {
+ LOC_LOGE("NMEA Error in string formatting");
+ return;
+ }
+ pMarker += length;
+ lengthRemaining -= length;
+
+ length = snprintf(pMarker, lengthRemaining, "%c", rmcModeIndicator);
+ pMarker += length;
+ lengthRemaining -= length;
+
+ // hardcode Navigation Status field to 'V'
+ length = snprintf(pMarker, lengthRemaining, ",%c", 'V');
+ pMarker += length;
+ lengthRemaining -= length;
+
+ length = loc_nmea_put_checksum(sentence_RMC, sizeof(sentence_RMC));
+
+ // -------------------
+ // ------$--GNS-------
+ // -------------------
+
+ pMarker = sentence_GNS;
+ lengthRemaining = sizeof(sentence_GNS);
+
+ length = snprintf(pMarker, lengthRemaining, "$%sGNS,%02d%02d%02d.%02d," ,
+ talker, utcHours, utcMinutes, utcSeconds, utcMSeconds/10);
+
+ if (length < 0 || length >= lengthRemaining)
+ {
+ LOC_LOGE("NMEA Error in string formatting");
+ return;
+ }
+ pMarker += length;
+ lengthRemaining -= length;
+
+ if (location.gpsLocation.flags & LOC_GPS_LOCATION_HAS_LAT_LONG)
+ {
+ double latitude = ref_lla.lat;
+ double longitude = ref_lla.lon;
+ char latHemisphere;
+ char lonHemisphere;
+ double latMinutes;
+ double lonMinutes;
+
+ if (latitude > 0)
+ {
+ latHemisphere = 'N';
+ }
+ else
+ {
+ latHemisphere = 'S';
+ latitude *= -1.0;
+ }
+
+ if (longitude < 0)
+ {
+ lonHemisphere = 'W';
+ longitude *= -1.0;
+ }
+ else
+ {
+ lonHemisphere = 'E';
+ }
+
+ latMinutes = fmod(latitude * 60.0 , 60.0);
+ lonMinutes = fmod(longitude * 60.0 , 60.0);
+
+ length = snprintf(pMarker, lengthRemaining, "%02d%09.6lf,%c,%03d%09.6lf,%c,",
+ (uint8_t)floor(latitude), latMinutes, latHemisphere,
+ (uint8_t)floor(longitude),lonMinutes, lonHemisphere);
+ }
+ else
+ {
+ length = snprintf(pMarker, lengthRemaining,",,,,");
+ }
+
+ if (length < 0 || length >= lengthRemaining)
+ {
+ LOC_LOGE("NMEA Error in string formatting");
+ return;
+ }
+ pMarker += length;
+ lengthRemaining -= length;
+
+ if(!(sv_cache_info.gps_used_mask ? 1 : 0))
+ modeIndicator[0] = 'N';
+ else if (LOC_NAV_MASK_SBAS_CORRECTION_IONO & locationExtended.navSolutionMask)
+ modeIndicator[0] = 'D';
+ else if (LOC_POS_TECH_MASK_SENSORS == locationExtended.tech_mask)
+ modeIndicator[0] = 'E';
+ else
+ modeIndicator[0] = 'A';
+ if(!(sv_cache_info.glo_used_mask ? 1 : 0))
+ modeIndicator[1] = 'N';
+ else if (LOC_POS_TECH_MASK_SENSORS == locationExtended.tech_mask)
+ modeIndicator[1] = 'E';
+ else
+ modeIndicator[1] = 'A';
+ if(!(sv_cache_info.gal_used_mask ? 1 : 0))
+ modeIndicator[2] = 'N';
+ else if (LOC_POS_TECH_MASK_SENSORS == locationExtended.tech_mask)
+ modeIndicator[2] = 'E';
+ else
+ modeIndicator[2] = 'A';
+ if(!(sv_cache_info.bds_used_mask ? 1 : 0))
+ modeIndicator[3] = 'N';
+ else if (LOC_POS_TECH_MASK_SENSORS == locationExtended.tech_mask)
+ modeIndicator[3] = 'E';
+ else
+ modeIndicator[3] = 'A';
+ if(!(sv_cache_info.qzss_used_mask ? 1 : 0))
+ modeIndicator[4] = 'N';
+ else if (LOC_POS_TECH_MASK_SENSORS == locationExtended.tech_mask)
+ modeIndicator[4] = 'E';
+ else
+ modeIndicator[4] = 'A';
+ if(!(sv_cache_info.navic_used_mask ? 1 : 0))
+ modeIndicator[5] = 'N';
+ else if (LOC_POS_TECH_MASK_SENSORS == locationExtended.tech_mask)
+ modeIndicator[5] = 'E';
+ else
+ modeIndicator[5] = 'A';
+ modeIndicator[6] = '\0';
+ for(int index = 5; index > 0 && 'N' == modeIndicator[index]; index--) {
+ modeIndicator[index] = '\0';
+ }
+ length = snprintf(pMarker, lengthRemaining,"%s,", modeIndicator);
+
+ pMarker += length;
+ lengthRemaining -= length;
+
+ if (locationExtended.flags & GPS_LOCATION_EXTENDED_HAS_DOP) {
+ length = snprintf(pMarker, lengthRemaining, "%02d,%.1f,",
+ svUsedCount, locationExtended.hdop);
+ }
+ else { // no hdop
+ length = snprintf(pMarker, lengthRemaining, "%02d,,",
+ svUsedCount);
+ }
+
+ if (length < 0 || length >= lengthRemaining)
+ {
+ LOC_LOGE("NMEA Error in string formatting");
+ return;
+ }
+ pMarker += length;
+ lengthRemaining -= length;
+
+ if (locationExtended.flags & GPS_LOCATION_EXTENDED_HAS_ALTITUDE_MEAN_SEA_LEVEL)
+ {
+ length = snprintf(pMarker, lengthRemaining, "%.1lf,",
+ locationExtended.altitudeMeanSeaLevel);
+ }
+ else
+ {
+ length = snprintf(pMarker, lengthRemaining,",");
+ }
+
+ if (length < 0 || length >= lengthRemaining)
+ {
+ LOC_LOGE("NMEA Error in string formatting");
+ return;
+ }
+ pMarker += length;
+ lengthRemaining -= length;
+
+ if ((location.gpsLocation.flags & LOC_GPS_LOCATION_HAS_ALTITUDE) &&
+ (locationExtended.flags & GPS_LOCATION_EXTENDED_HAS_ALTITUDE_MEAN_SEA_LEVEL))
+ {
+ length = snprintf(pMarker, lengthRemaining, "%.1lf,,",
+ ref_lla.alt - locationExtended.altitudeMeanSeaLevel);
+ }
+ else
+ {
+ length = snprintf(pMarker, lengthRemaining,",,");
+ }
+
+ pMarker += length;
+ lengthRemaining -= length;
+
+ // hardcode Navigation Status field to 'V'
+ length = snprintf(pMarker, lengthRemaining, ",%c", 'V');
+ pMarker += length;
+ lengthRemaining -= length;
+
+ length = loc_nmea_put_checksum(sentence_GNS, sizeof(sentence_GNS));
+
+
+ // -------------------
+ // ------$--GGA-------
+ // -------------------
+
+ pMarker = sentence_GGA;
+ lengthRemaining = sizeof(sentence_GGA);
+
+ length = snprintf(pMarker, lengthRemaining, "$%sGGA,%02d%02d%02d.%02d," ,
+ talker, utcHours, utcMinutes, utcSeconds, utcMSeconds/10);
+
+ if (length < 0 || length >= lengthRemaining)
+ {
+ LOC_LOGE("NMEA Error in string formatting");
+ return;
+ }
+ pMarker += length;
+ lengthRemaining -= length;
+
+ if (location.gpsLocation.flags & LOC_GPS_LOCATION_HAS_LAT_LONG)
+ {
+ double latitude = ref_lla.lat;
+ double longitude = ref_lla.lon;
+ char latHemisphere;
+ char lonHemisphere;
+ double latMinutes;
+ double lonMinutes;
+
+ if (latitude > 0)
+ {
+ latHemisphere = 'N';
+ }
+ else
+ {
+ latHemisphere = 'S';
+ latitude *= -1.0;
+ }
+
+ if (longitude < 0)
+ {
+ lonHemisphere = 'W';
+ longitude *= -1.0;
+ }
+ else
+ {
+ lonHemisphere = 'E';
+ }
+
+ latMinutes = fmod(latitude * 60.0 , 60.0);
+ lonMinutes = fmod(longitude * 60.0 , 60.0);
+
+ length = snprintf(pMarker, lengthRemaining, "%02d%09.6lf,%c,%03d%09.6lf,%c,",
+ (uint8_t)floor(latitude), latMinutes, latHemisphere,
+ (uint8_t)floor(longitude),lonMinutes, lonHemisphere);
+ }
+ else
+ {
+ length = snprintf(pMarker, lengthRemaining,",,,,");
+ }
+
+ if (length < 0 || length >= lengthRemaining)
+ {
+ LOC_LOGE("NMEA Error in string formatting");
+ return;
+ }
+ pMarker += length;
+ lengthRemaining -= length;
+
+ // Number of satellites in use, 00-12
+ if (svUsedCount > MAX_SATELLITES_IN_USE)
+ svUsedCount = MAX_SATELLITES_IN_USE;
+ if (locationExtended.flags & GPS_LOCATION_EXTENDED_HAS_DOP)
+ {
+ length = snprintf(pMarker, lengthRemaining, "%c,%02d,%.1f,",
+ ggaGpsQuality, svUsedCount, locationExtended.hdop);
+ }
+ else
+ { // no hdop
+ length = snprintf(pMarker, lengthRemaining, "%c,%02d,,",
+ ggaGpsQuality, svUsedCount);
+ }
+
+ if (length < 0 || length >= lengthRemaining)
+ {
+ LOC_LOGE("NMEA Error in string formatting");
+ return;
+ }
+ pMarker += length;
+ lengthRemaining -= length;
+
+ if (locationExtended.flags & GPS_LOCATION_EXTENDED_HAS_ALTITUDE_MEAN_SEA_LEVEL)
+ {
+ length = snprintf(pMarker, lengthRemaining, "%.1lf,M,",
+ locationExtended.altitudeMeanSeaLevel);
+ }
+ else
+ {
+ length = snprintf(pMarker, lengthRemaining,",,");
+ }
+
+ if (length < 0 || length >= lengthRemaining)
+ {
+ LOC_LOGE("NMEA Error in string formatting");
+ return;
+ }
+ pMarker += length;
+ lengthRemaining -= length;
+
+ if ((location.gpsLocation.flags & LOC_GPS_LOCATION_HAS_ALTITUDE) &&
+ (locationExtended.flags & GPS_LOCATION_EXTENDED_HAS_ALTITUDE_MEAN_SEA_LEVEL))
+ {
+ length = snprintf(pMarker, lengthRemaining, "%.1lf,M,,",
+ ref_lla.alt - locationExtended.altitudeMeanSeaLevel);
+ }
+ else
+ {
+ length = snprintf(pMarker, lengthRemaining,",,,");
+ }
+
+ length = loc_nmea_put_checksum(sentence_GGA, sizeof(sentence_GGA));
+
+ // ------$--DTM-------
+ nmeaArraystr.push_back(sentence_DTM);
+ // ------$--RMC-------
+ nmeaArraystr.push_back(sentence_RMC);
+ if(LOC_GNSS_DATUM_PZ90 == datum_type) {
+ // ------$--DTM-------
+ nmeaArraystr.push_back(sentence_DTM);
+ }
+ // ------$--GNS-------
+ nmeaArraystr.push_back(sentence_GNS);
+ if(LOC_GNSS_DATUM_PZ90 == datum_type) {
+ // ------$--DTM-------
+ nmeaArraystr.push_back(sentence_DTM);
+ }
+ // ------$--GGA-------
+ nmeaArraystr.push_back(sentence_GGA);
+
+ }
+ //Send blank NMEA reports for non-final fixes
+ else {
+ strlcpy(sentence, "$GPGSA,A,1,,,,,,,,,,,,,,,,", sizeof(sentence));
+ length = loc_nmea_put_checksum(sentence, sizeof(sentence));
+ nmeaArraystr.push_back(sentence);
+
+ strlcpy(sentence, "$GPVTG,,T,,M,,N,,K,N", sizeof(sentence));
+ length = loc_nmea_put_checksum(sentence, sizeof(sentence));
+ nmeaArraystr.push_back(sentence);
+
+ strlcpy(sentence, "$GPDTM,,,,,,,,", sizeof(sentence));
+ length = loc_nmea_put_checksum(sentence, sizeof(sentence));
+ nmeaArraystr.push_back(sentence);
+
+ strlcpy(sentence, "$GPRMC,,V,,,,,,,,,,N,V", sizeof(sentence));
+ length = loc_nmea_put_checksum(sentence, sizeof(sentence));
+ nmeaArraystr.push_back(sentence);
+
+ strlcpy(sentence, "$GPGNS,,,,,,N,,,,,,,V", sizeof(sentence));
+ length = loc_nmea_put_checksum(sentence, sizeof(sentence));
+ nmeaArraystr.push_back(sentence);
+
+ strlcpy(sentence, "$GPGGA,,,,,,0,,,,,,,,", sizeof(sentence));
+ length = loc_nmea_put_checksum(sentence, sizeof(sentence));
+ nmeaArraystr.push_back(sentence);
+ }
+
+ EXIT_LOG(%d, 0);
+}
+
+
+
+/*===========================================================================
+FUNCTION loc_nmea_generate_sv
+
+DESCRIPTION
+ Generate NMEA sentences generated based on sv report
+
+DEPENDENCIES
+ NONE
+
+RETURN VALUE
+ 0
+
+SIDE EFFECTS
+ N/A
+
+===========================================================================*/
+void loc_nmea_generate_sv(const GnssSvNotification &svNotify,
+ std::vector<std::string> &nmeaArraystr)
+{
+ ENTRY_LOG();
+
+ char sentence[NMEA_SENTENCE_MAX_LENGTH] = {0};
+ int svCount = svNotify.count;
+ int svNumber = 1;
+ loc_sv_cache_info sv_cache_info = {};
+
+ //Count GPS SVs for saparating GPS from GLONASS and throw others
+ for(svNumber=1; svNumber <= svCount; svNumber++) {
+ if (GNSS_SV_TYPE_GPS == svNotify.gnssSvs[svNumber - 1].type)
+ {
+ // cache the used in fix mask, as it will be needed to send $GPGSA
+ // during the position report
+ if (GNSS_SV_OPTIONS_USED_IN_FIX_BIT ==
+ (svNotify.gnssSvs[svNumber - 1].gnssSvOptionsMask &
+ GNSS_SV_OPTIONS_USED_IN_FIX_BIT))
+ {
+ sv_cache_info.gps_used_mask |= (1 << (svNotify.gnssSvs[svNumber - 1].svId - 1));
+ }
+ if (GNSS_SIGNAL_GPS_L5 == svNotify.gnssSvs[svNumber - 1].gnssSignalTypeMask) {
+ sv_cache_info.gps_l5_count++;
+ } else {
+ // GNSS_SIGNAL_GPS_L1CA or default
+ // If no signal type in report, it means default L1
+ sv_cache_info.gps_l1_count++;
+ }
+ }
+ else if (GNSS_SV_TYPE_GLONASS == svNotify.gnssSvs[svNumber - 1].type)
+ {
+ // cache the used in fix mask, as it will be needed to send $GNGSA
+ // during the position report
+ if (GNSS_SV_OPTIONS_USED_IN_FIX_BIT ==
+ (svNotify.gnssSvs[svNumber - 1].gnssSvOptionsMask &
+ GNSS_SV_OPTIONS_USED_IN_FIX_BIT))
+ {
+ sv_cache_info.glo_used_mask |= (1 << (svNotify.gnssSvs[svNumber - 1].svId - 1));
+ }
+ if (GNSS_SIGNAL_GLONASS_G2 == svNotify.gnssSvs[svNumber - 1].gnssSignalTypeMask){
+ sv_cache_info.glo_g2_count++;
+ } else {
+ // GNSS_SIGNAL_GLONASS_G1 or default
+ // If no signal type in report, it means default G1
+ sv_cache_info.glo_g1_count++;
+ }
+ }
+ else if (GNSS_SV_TYPE_GALILEO == svNotify.gnssSvs[svNumber - 1].type)
+ {
+ // cache the used in fix mask, as it will be needed to send $GAGSA
+ // during the position report
+ if (GNSS_SV_OPTIONS_USED_IN_FIX_BIT ==
+ (svNotify.gnssSvs[svNumber - 1].gnssSvOptionsMask &
+ GNSS_SV_OPTIONS_USED_IN_FIX_BIT))
+ {
+ sv_cache_info.gal_used_mask |= (1 << (svNotify.gnssSvs[svNumber - 1].svId - 1));
+ }
+ if(GNSS_SIGNAL_GALILEO_E5A == svNotify.gnssSvs[svNumber - 1].gnssSignalTypeMask){
+ sv_cache_info.gal_e5_count++;
+ } else {
+ // GNSS_SIGNAL_GALILEO_E1 or default
+ // If no signal type in report, it means default E1
+ sv_cache_info.gal_e1_count++;
+ }
+ }
+ else if (GNSS_SV_TYPE_QZSS == svNotify.gnssSvs[svNumber - 1].type)
+ {
+ // cache the used in fix mask, as it will be needed to send $PQGSA
+ // during the position report
+ if (GNSS_SV_OPTIONS_USED_IN_FIX_BIT ==
+ (svNotify.gnssSvs[svNumber - 1].gnssSvOptionsMask &
+ GNSS_SV_OPTIONS_USED_IN_FIX_BIT))
+ {
+ sv_cache_info.qzss_used_mask |= (1 << (svNotify.gnssSvs[svNumber - 1].svId - 1));
+ }
+ if (GNSS_SIGNAL_QZSS_L5 == svNotify.gnssSvs[svNumber - 1].gnssSignalTypeMask) {
+ sv_cache_info.qzss_l5_count++;
+ } else {
+ // GNSS_SIGNAL_QZSS_L1CA or default
+ // If no signal type in report, it means default L1
+ sv_cache_info.qzss_l1_count++;
+ }
+ }
+ else if (GNSS_SV_TYPE_BEIDOU == svNotify.gnssSvs[svNumber - 1].type)
+ {
+ // cache the used in fix mask, as it will be needed to send $PQGSA
+ // during the position report
+ if (GNSS_SV_OPTIONS_USED_IN_FIX_BIT ==
+ (svNotify.gnssSvs[svNumber - 1].gnssSvOptionsMask &
+ GNSS_SV_OPTIONS_USED_IN_FIX_BIT))
+ {
+ sv_cache_info.bds_used_mask |= (1 << (svNotify.gnssSvs[svNumber - 1].svId - 1));
+ }
+ if(GNSS_SIGNAL_BEIDOU_B2AI == svNotify.gnssSvs[svNumber - 1].gnssSignalTypeMask){
+ sv_cache_info.bds_b2_count++;
+ } else {
+ // GNSS_SIGNAL_BEIDOU_B1I or default
+ // If no signal type in report, it means default B1I
+ sv_cache_info.bds_b1_count++;
+ }
+ }
+ else if (GNSS_SV_TYPE_NAVIC == svNotify.gnssSvs[svNumber - 1].type)
+ {
+ // cache the used in fix mask, as it will be needed to send $PQGSA
+ // during the position report
+ if (GNSS_SV_OPTIONS_USED_IN_FIX_BIT ==
+ (svNotify.gnssSvs[svNumber - 1].gnssSvOptionsMask &
+ GNSS_SV_OPTIONS_USED_IN_FIX_BIT))
+ {
+ sv_cache_info.navic_used_mask |= (1 << (svNotify.gnssSvs[svNumber - 1].svId - 1));
+ }
+ // GNSS_SIGNAL_NAVIC_L5 is the only signal type for NAVIC
+ sv_cache_info.navic_l5_count++;
+ }
+ }
+
+ loc_nmea_sv_meta sv_meta;
+ // ---------------------
+ // ------$GPGSV:L1CA----
+ // ---------------------
+
+ loc_nmea_generate_GSV(svNotify, sentence, sizeof(sentence),
+ loc_nmea_sv_meta_init(sv_meta, sv_cache_info, GNSS_SV_TYPE_GPS,
+ GNSS_SIGNAL_GPS_L1CA, false), nmeaArraystr);
+
+ // ---------------------
+ // ------$GPGSV:L5------
+ // ---------------------
+
+ loc_nmea_generate_GSV(svNotify, sentence, sizeof(sentence),
+ loc_nmea_sv_meta_init(sv_meta, sv_cache_info, GNSS_SV_TYPE_GPS,
+ GNSS_SIGNAL_GPS_L5, false), nmeaArraystr);
+ // ---------------------
+ // ------$GLGSV:G1------
+ // ---------------------
+
+ loc_nmea_generate_GSV(svNotify, sentence, sizeof(sentence),
+ loc_nmea_sv_meta_init(sv_meta, sv_cache_info, GNSS_SV_TYPE_GLONASS,
+ GNSS_SIGNAL_GLONASS_G1, false), nmeaArraystr);
+
+ // ---------------------
+ // ------$GLGSV:G2------
+ // ---------------------
+
+ loc_nmea_generate_GSV(svNotify, sentence, sizeof(sentence),
+ loc_nmea_sv_meta_init(sv_meta, sv_cache_info, GNSS_SV_TYPE_GLONASS,
+ GNSS_SIGNAL_GLONASS_G2, false), nmeaArraystr);
+
+ // ---------------------
+ // ------$GAGSV:E1------
+ // ---------------------
+
+ loc_nmea_generate_GSV(svNotify, sentence, sizeof(sentence),
+ loc_nmea_sv_meta_init(sv_meta, sv_cache_info, GNSS_SV_TYPE_GALILEO,
+ GNSS_SIGNAL_GALILEO_E1, false), nmeaArraystr);
+
+ // -------------------------
+ // ------$GAGSV:E5A---------
+ // -------------------------
+ loc_nmea_generate_GSV(svNotify, sentence, sizeof(sentence),
+ loc_nmea_sv_meta_init(sv_meta, sv_cache_info, GNSS_SV_TYPE_GALILEO,
+ GNSS_SIGNAL_GALILEO_E5A, false), nmeaArraystr);
+
+ // -----------------------------
+ // ------$PQGSV (QZSS):L1CA-----
+ // -----------------------------
+
+ loc_nmea_generate_GSV(svNotify, sentence, sizeof(sentence),
+ loc_nmea_sv_meta_init(sv_meta, sv_cache_info, GNSS_SV_TYPE_QZSS,
+ GNSS_SIGNAL_QZSS_L1CA, false), nmeaArraystr);
+
+ // -----------------------------
+ // ------$PQGSV (QZSS):L5-------
+ // -----------------------------
+
+ loc_nmea_generate_GSV(svNotify, sentence, sizeof(sentence),
+ loc_nmea_sv_meta_init(sv_meta, sv_cache_info, GNSS_SV_TYPE_QZSS,
+ GNSS_SIGNAL_QZSS_L5, false), nmeaArraystr);
+ // -----------------------------
+ // ------$PQGSV (BEIDOU:B1I)----
+ // -----------------------------
+
+ loc_nmea_generate_GSV(svNotify, sentence, sizeof(sentence),
+ loc_nmea_sv_meta_init(sv_meta, sv_cache_info, GNSS_SV_TYPE_BEIDOU,
+ GNSS_SIGNAL_BEIDOU_B1I,false), nmeaArraystr);
+
+ // -----------------------------
+ // ------$PQGSV (BEIDOU:B2AI)---
+ // -----------------------------
+
+ loc_nmea_generate_GSV(svNotify, sentence, sizeof(sentence),
+ loc_nmea_sv_meta_init(sv_meta, sv_cache_info, GNSS_SV_TYPE_BEIDOU,
+ GNSS_SIGNAL_BEIDOU_B2AI,false), nmeaArraystr);
+
+ // -----------------------------
+ // ------$GIGSV (NAVIC:L5)------
+ // -----------------------------
+
+ loc_nmea_generate_GSV(svNotify, sentence, sizeof(sentence),
+ loc_nmea_sv_meta_init(sv_meta, sv_cache_info, GNSS_SV_TYPE_NAVIC,
+ GNSS_SIGNAL_NAVIC_L5,false), nmeaArraystr);
+
+ EXIT_LOG(%d, 0);
+}