/*!
* \file rtklib_rtcm3.cc
* \brief RTCM functions for v3
* \authors
* - 2007-2013, T. Takasu
*
- 2017, Javier Arribas
*
- 2017, Carles Fernandez
*
*
* This is a derived work from RTKLIB http://www.rtklib.com/
* The original source code at https://github.com/tomojitakasu/RTKLIB is
* released under the BSD 2-clause license with an additional exclusive clause
* that does not apply here. This additional clause is reproduced below:
*
* " The software package includes some companion executive binaries or shared
* libraries necessary to execute APs on Windows. These licenses succeed to the
* original ones of these software. "
*
* Neither the executive binaries nor the shared libraries are required by, used
* or included in GNSS-SDR.
*
* -------------------------------------------------------------------------
* Copyright (C) 2007-2013, T. Takasu
* Copyright (C) 2017, Javier Arribas
* Copyright (C) 2017, Carles Fernandez
* All rights reserved.
*
* SPDX-License-Identifier: BSD-2-Clause
*
*
*----------------------------------------------------------------------------*/
#include "rtklib_rtcm3.h"
#include "rtklib_rtkcmn.h"
#include
/* msm signal id table -------------------------------------------------------*/
const char *msm_sig_gps[32] = {
/* GPS: ref [13] table 3.5-87, ref [14][15] table 3.5-91 */
"", "1C", "1P", "1W", "1Y", "1M", "", "2C", "2P", "2W", "2Y", "2M", /* 1-12 */
"", "", "2S", "2L", "2X", "", "", "", "", "5I", "5Q", "5X", /* 13-24 */
"", "", "", "", "", "1S", "1L", "1X" /* 25-32 */
};
const char *msm_sig_glo[32] = {
/* GLONASS: ref [13] table 3.5-93, ref [14][15] table 3.5-97 */
"", "1C", "1P", "", "", "", "", "2C", "2P", "", "3I", "3Q",
"3X", "", "", "", "", "", "", "", "", "", "", "",
"", "", "", "", "", "", "", ""};
const char *msm_sig_gal[32] = {
/* Galileo: ref [15] table 3.5-100 */
"", "1C", "1A", "1B", "1X", "1Z", "", "6C", "6A", "6B", "6X", "6Z",
"", "7I", "7Q", "7X", "", "8I", "8Q", "8X", "", "5I", "5Q", "5X",
"", "", "", "", "", "", "", ""};
const char *msm_sig_qzs[32] = {
/* QZSS: ref [15] table 3.5-103 */
"", "1C", "", "", "", "", "", "", "6S", "6L", "6X", "",
"", "", "2S", "2L", "2X", "", "", "", "", "5I", "5Q", "5X",
"", "", "", "", "", "1S", "1L", "1X"};
const char *msm_sig_sbs[32] = {
/* SBAS: ref [13] table 3.5-T+005 */
"", "1C", "", "", "", "", "", "", "", "", "", "",
"", "", "", "", "", "", "", "", "", "5I", "5Q", "5X",
"", "", "", "", "", "", "", ""};
const char *msm_sig_cmp[32] = {
/* BeiDou: ref [15] table 3.5-106 */
"", "1I", "1Q", "1X", "", "", "", "6I", "6Q", "6X", "", "",
"", "7I", "7Q", "7X", "", "", "", "", "", "", "", "",
"", "", "", "", "", "", "", ""};
/* get sign-magnitude bits ---------------------------------------------------*/
double getbitg(const unsigned char *buff, int pos, int len)
{
double value = getbitu(buff, pos + 1, len - 1);
return getbitu(buff, pos, 1) ? -value : value;
}
/* adjust weekly rollover of gps time ----------------------------------------*/
void adjweek(rtcm_t *rtcm, double tow)
{
double tow_p;
int week;
/* if no time, get cpu time */
if (rtcm->time.time == 0)
{
rtcm->time = utc2gpst(timeget());
}
tow_p = time2gpst(rtcm->time, &week);
if (tow < tow_p - 302400.0)
{
tow += 604800.0;
}
else if (tow > tow_p + 302400.0)
{
tow -= 604800.0;
}
rtcm->time = gpst2time(week, tow);
}
/* adjust weekly rollover of bdt time ----------------------------------------*/
int adjbdtweek(int week)
{
int w;
(void)time2bdt(gpst2bdt(utc2gpst(timeget())), &w);
if (w < 1)
{
w = 1; /* use 2006/1/1 if time is earlier than 2006/1/1 */
}
return week + (w - week + 512) / 1024 * 1024;
}
/* adjust daily rollover of glonass time -------------------------------------*/
void adjday_glot(rtcm_t *rtcm, double tod)
{
gtime_t time;
double tow;
double tod_p;
int week;
if (rtcm->time.time == 0)
{
rtcm->time = utc2gpst(timeget());
}
time = timeadd(gpst2utc(rtcm->time), 10800.0); /* glonass time */
tow = time2gpst(time, &week);
tod_p = fmod(tow, 86400.0);
tow -= tod_p;
if (tod < tod_p - 43200.0)
{
tod += 86400.0;
}
else if (tod > tod_p + 43200.0)
{
tod -= 86400.0;
}
time = gpst2time(week, tow + tod);
rtcm->time = utc2gpst(timeadd(time, -10800.0));
}
/* adjust carrier-phase rollover ---------------------------------------------*/
double adjcp(rtcm_t *rtcm, int sat, int freq, double cp)
{
if (rtcm->cp[sat - 1][freq] == 0.0)
{
}
else if (cp < rtcm->cp[sat - 1][freq] - 750.0)
{
cp += 1500.0;
}
else if (cp > rtcm->cp[sat - 1][freq] + 750.0)
{
cp -= 1500.0;
}
rtcm->cp[sat - 1][freq] = cp;
return cp;
}
/* loss-of-lock indicator ----------------------------------------------------*/
int lossoflock(rtcm_t *rtcm, int sat, int freq, int lock)
{
int lli = (!lock && !rtcm->lock[sat - 1][freq]) || lock < rtcm->lock[sat - 1][freq];
rtcm->lock[sat - 1][freq] = static_cast(lock);
return lli;
}
/* s/n ratio -----------------------------------------------------------------*/
unsigned char snratio(double snr)
{
return static_cast(snr <= 0.0 || 255.5 <= snr ? 0.0 : snr * 4.0 + 0.5);
}
/* get observation data index ------------------------------------------------*/
int obsindex3(obs_t *obs, gtime_t time, int sat)
{
int i;
int j;
for (i = 0; i < obs->n; i++)
{
if (obs->data[i].sat == sat)
{
return i; /* field already exists */
}
}
if (i >= MAXOBS)
{
return -1; /* overflow */
}
/* add new field */
obs->data[i].time = time;
obs->data[i].sat = sat;
for (j = 0; j < NFREQ + NEXOBS; j++)
{
obs->data[i].L[j] = obs->data[i].P[j] = 0.0;
obs->data[i].D[j] = 0.0;
obs->data[i].SNR[j] = obs->data[i].LLI[j] = obs->data[i].code[j] = 0;
}
obs->n++;
return i;
}
/* test station id consistency -----------------------------------------------*/
int test_staid(rtcm_t *rtcm, int staid)
{
char *p;
int type;
int id;
/* test station id option */
if ((p = strstr(rtcm->opt, "-STA=")) && sscanf(p, "-STA=%d", &id) == 1)
{
if (staid != id)
{
return 0;
}
}
/* save station id */
if (rtcm->staid == 0 || rtcm->obsflag)
{
rtcm->staid = staid;
}
else if (staid != rtcm->staid)
{
type = getbitu(rtcm->buff, 24, 12);
trace(2, "rtcm3 %d staid invalid id=%d %d\n", type, staid, rtcm->staid);
/* reset station id if station id error */
rtcm->staid = 0;
return 0;
}
return 1;
}
/* decode type 1001-1004 message header --------------------------------------*/
int decode_head1001(rtcm_t *rtcm, int *sync)
{
double tow;
char *msg;
int i = 24;
int staid;
int nsat;
int type;
type = getbitu(rtcm->buff, i, 12);
i += 12;
if (i + 52 <= rtcm->len * 8)
{
staid = getbitu(rtcm->buff, i, 12);
i += 12;
tow = getbitu(rtcm->buff, i, 30) * 0.001;
i += 30;
*sync = getbitu(rtcm->buff, i, 1);
i += 1;
nsat = getbitu(rtcm->buff, i, 5);
}
else
{
trace(2, "rtcm3 %d length error: len=%d\n", type, rtcm->len);
return -1;
}
/* test station id */
if (!test_staid(rtcm, staid))
{
return -1;
}
adjweek(rtcm, tow);
trace(4, "decode_head1001: time=%s nsat=%d sync=%d\n", time_str(rtcm->time, 2),
nsat, *sync);
if (rtcm->outtype)
{
msg = rtcm->msgtype + strlen(rtcm->msgtype);
std::snprintf(msg, sizeof(rtcm->msgtype), " staid=%4d %s nsat=%2d sync=%d", staid,
time_str(rtcm->time, 2), nsat, *sync);
}
return nsat;
}
/* decode type 1001: L1-only gps rtk observation -----------------------------*/
int decode_type1001(rtcm_t *rtcm)
{
int sync;
if (decode_head1001(rtcm, &sync) < 0)
{
return -1;
}
rtcm->obsflag = !sync;
return sync ? 0 : 1;
}
/* decode type 1002: extended L1-only gps rtk observables --------------------*/
int decode_type1002(rtcm_t *rtcm)
{
double pr1;
double cnr1;
double tt;
double cp1;
int i = 24 + 64;
int j;
int index;
int nsat;
int sync;
int prn;
int code;
int sat;
int ppr1;
int lock1;
int amb;
int sys;
if ((nsat = decode_head1001(rtcm, &sync)) < 0)
{
return -1;
}
for (j = 0; j < nsat && rtcm->obs.n < MAXOBS && i + 74 <= rtcm->len * 8; j++)
{
prn = getbitu(rtcm->buff, i, 6);
i += 6;
code = getbitu(rtcm->buff, i, 1);
i += 1;
pr1 = getbitu(rtcm->buff, i, 24);
i += 24;
ppr1 = getbits(rtcm->buff, i, 20);
i += 20;
lock1 = getbitu(rtcm->buff, i, 7);
i += 7;
amb = getbitu(rtcm->buff, i, 8);
i += 8;
cnr1 = getbitu(rtcm->buff, i, 8);
i += 8;
if (prn < 40)
{
sys = SYS_GPS;
}
else
{
sys = SYS_SBS;
prn += 80;
}
if (!(sat = satno(sys, prn)))
{
trace(2, "rtcm3 1002 satellite number error: prn=%d\n", prn);
continue;
}
tt = timediff(rtcm->obs.data[0].time, rtcm->time);
if (rtcm->obsflag || fabs(tt) > 1E-9)
{
rtcm->obs.n = rtcm->obsflag = 0;
}
if ((index = obsindex3(&rtcm->obs, rtcm->time, sat)) < 0)
{
continue;
}
pr1 = pr1 * 0.02 + amb * PRUNIT_GPS;
if (ppr1 != static_cast(0xFFF80000))
{
rtcm->obs.data[index].P[0] = pr1;
cp1 = adjcp(rtcm, sat, 0, ppr1 * 0.0005 / LAM_CARR[0]);
rtcm->obs.data[index].L[0] = pr1 / LAM_CARR[0] + cp1;
}
rtcm->obs.data[index].LLI[0] = lossoflock(rtcm, sat, 0, lock1);
rtcm->obs.data[index].SNR[0] = snratio(cnr1 * 0.25);
rtcm->obs.data[index].code[0] = code ? CODE_L1P : CODE_L1C;
}
return sync ? 0 : 1;
}
/* decode type 1003: L1&L2 gps rtk observables -------------------------------*/
int decode_type1003(rtcm_t *rtcm)
{
int sync;
if (decode_head1001(rtcm, &sync) < 0)
{
return -1;
}
rtcm->obsflag = !sync;
return sync ? 0 : 1;
}
/* decode type 1004: extended L1&L2 gps rtk observables ----------------------*/
int decode_type1004(rtcm_t *rtcm)
{
const int L2codes[] = {CODE_L2X, CODE_L2P, CODE_L2D, CODE_L2W};
double pr1;
double cnr1;
double cnr2;
double tt;
double cp1;
double cp2;
int i = 24 + 64;
int j;
int index;
int nsat;
int sync;
int prn;
int sat;
int code1;
int code2;
int pr21;
int ppr1;
int ppr2;
int lock1;
int lock2;
int amb;
int sys;
if ((nsat = decode_head1001(rtcm, &sync)) < 0)
{
return -1;
}
for (j = 0; j < nsat && rtcm->obs.n < MAXOBS && i + 125 <= rtcm->len * 8; j++)
{
prn = getbitu(rtcm->buff, i, 6);
i += 6;
code1 = getbitu(rtcm->buff, i, 1);
i += 1;
pr1 = getbitu(rtcm->buff, i, 24);
i += 24;
ppr1 = getbits(rtcm->buff, i, 20);
i += 20;
lock1 = getbitu(rtcm->buff, i, 7);
i += 7;
amb = getbitu(rtcm->buff, i, 8);
i += 8;
cnr1 = getbitu(rtcm->buff, i, 8);
i += 8;
code2 = getbitu(rtcm->buff, i, 2);
i += 2;
pr21 = getbits(rtcm->buff, i, 14);
i += 14;
ppr2 = getbits(rtcm->buff, i, 20);
i += 20;
lock2 = getbitu(rtcm->buff, i, 7);
i += 7;
cnr2 = getbitu(rtcm->buff, i, 8);
i += 8;
if (prn < 40)
{
sys = SYS_GPS;
}
else
{
sys = SYS_SBS;
prn += 80;
}
if (!(sat = satno(sys, prn)))
{
trace(2, "rtcm3 1004 satellite number error: sys=%d prn=%d\n", sys, prn);
continue;
}
tt = timediff(rtcm->obs.data[0].time, rtcm->time);
if (rtcm->obsflag || fabs(tt) > 1E-9)
{
rtcm->obs.n = rtcm->obsflag = 0;
}
if ((index = obsindex3(&rtcm->obs, rtcm->time, sat)) < 0)
{
continue;
}
pr1 = pr1 * 0.02 + amb * PRUNIT_GPS;
if (ppr1 != static_cast(0xFFF80000))
{
rtcm->obs.data[index].P[0] = pr1;
cp1 = adjcp(rtcm, sat, 0, ppr1 * 0.0005 / LAM_CARR[0]);
rtcm->obs.data[index].L[0] = pr1 / LAM_CARR[0] + cp1;
}
rtcm->obs.data[index].LLI[0] = lossoflock(rtcm, sat, 0, lock1);
rtcm->obs.data[index].SNR[0] = snratio(cnr1 * 0.25);
rtcm->obs.data[index].code[0] = code1 ? CODE_L1P : CODE_L1C;
if (pr21 != static_cast(0xFFFFE000))
{
rtcm->obs.data[index].P[1] = pr1 + pr21 * 0.02;
}
if (ppr2 != static_cast(0xFFF80000))
{
cp2 = adjcp(rtcm, sat, 1, ppr2 * 0.0005 / LAM_CARR[1]);
rtcm->obs.data[index].L[1] = pr1 / LAM_CARR[1] + cp2;
}
rtcm->obs.data[index].LLI[1] = lossoflock(rtcm, sat, 1, lock2);
rtcm->obs.data[index].SNR[1] = snratio(cnr2 * 0.25);
rtcm->obs.data[index].code[1] = L2codes[code2];
}
rtcm->obsflag = !sync;
return sync ? 0 : 1;
}
/* get signed 38bit field ----------------------------------------------------*/
double getbits_38(const unsigned char *buff, int pos)
{
return static_cast(getbits(buff, pos, 32)) * 64.0 + getbitu(buff, pos + 32, 6);
}
/* decode type 1005: stationary rtk reference station arp --------------------*/
int decode_type1005(rtcm_t *rtcm)
{
double rr[3];
double re[3];
double pos[3];
char *msg;
int i = 24 + 12;
int j;
int staid;
int itrf;
if (i + 140 == rtcm->len * 8)
{
staid = getbitu(rtcm->buff, i, 12);
i += 12;
itrf = getbitu(rtcm->buff, i, 6);
i += 6 + 4;
rr[0] = getbits_38(rtcm->buff, i);
i += 38 + 2;
rr[1] = getbits_38(rtcm->buff, i);
i += 38 + 2;
rr[2] = getbits_38(rtcm->buff, i);
}
else
{
trace(2, "rtcm3 1005 length error: len=%d\n", rtcm->len);
return -1;
}
if (rtcm->outtype)
{
msg = rtcm->msgtype + strlen(rtcm->msgtype);
for (j = 0; j < 3; j++)
{
re[j] = rr[j] * 0.0001;
}
ecef2pos(re, pos);
std::snprintf(msg, sizeof(rtcm->msgtype), " staid=%4d pos=%.8f %.8f %.3f", staid, pos[0] * R2D, pos[1] * R2D,
pos[2]);
}
/* test station id */
if (!test_staid(rtcm, staid))
{
return -1;
}
rtcm->sta.deltype = 0; /* xyz */
for (j = 0; j < 3; j++)
{
rtcm->sta.pos[j] = rr[j] * 0.0001;
rtcm->sta.del[j] = 0.0;
}
rtcm->sta.hgt = 0.0;
rtcm->sta.itrf = itrf;
return 5;
}
/* decode type 1006: stationary rtk reference station arp with height --------*/
int decode_type1006(rtcm_t *rtcm)
{
double rr[3];
double re[3];
double pos[3];
double anth;
char *msg;
int i = 24 + 12;
int j;
int staid;
int itrf;
if (i + 156 <= rtcm->len * 8)
{
staid = getbitu(rtcm->buff, i, 12);
i += 12;
itrf = getbitu(rtcm->buff, i, 6);
i += 6 + 4;
rr[0] = getbits_38(rtcm->buff, i);
i += 38 + 2;
rr[1] = getbits_38(rtcm->buff, i);
i += 38 + 2;
rr[2] = getbits_38(rtcm->buff, i);
i += 38;
anth = getbitu(rtcm->buff, i, 16);
}
else
{
trace(2, "rtcm3 1006 length error: len=%d\n", rtcm->len);
return -1;
}
if (rtcm->outtype)
{
msg = rtcm->msgtype + strlen(rtcm->msgtype);
for (j = 0; j < 3; j++)
{
re[j] = rr[j] * 0.0001;
}
ecef2pos(re, pos);
std::snprintf(msg, sizeof(rtcm->msgtype), " staid=%4d pos=%.8f %.8f %.3f anth=%.3f", staid, pos[0] * R2D,
pos[1] * R2D, pos[2], anth);
}
/* test station id */
if (!test_staid(rtcm, staid))
{
return -1;
}
rtcm->sta.deltype = 1; /* xyz */
for (j = 0; j < 3; j++)
{
rtcm->sta.pos[j] = rr[j] * 0.0001;
rtcm->sta.del[j] = 0.0;
}
rtcm->sta.hgt = anth * 0.0001;
rtcm->sta.itrf = itrf;
return 5;
}
/* decode type 1007: antenna descriptor --------------------------------------*/
int decode_type1007(rtcm_t *rtcm)
{
char des[32] = "";
char *msg;
int i = 24 + 12;
int j;
int staid;
int n;
int setup;
n = getbitu(rtcm->buff, i + 12, 8);
if (i + 28 + 8 * n <= rtcm->len * 8)
{
staid = getbitu(rtcm->buff, i, 12);
i += 12 + 8;
for (j = 0; j < n && j < 31; j++)
{
des[j] = static_cast(getbitu(rtcm->buff, i, 8));
i += 8;
}
setup = getbitu(rtcm->buff, i, 8);
}
else
{
trace(2, "rtcm3 1007 length error: len=%d\n", rtcm->len);
return -1;
}
if (rtcm->outtype)
{
msg = rtcm->msgtype + strlen(rtcm->msgtype);
std::snprintf(msg, sizeof(rtcm->msgtype), " staid=%4d", staid);
}
/* test station id */
if (!test_staid(rtcm, staid))
{
return -1;
}
strncpy(rtcm->sta.antdes, des, n);
rtcm->sta.antdes[n] = '\0';
rtcm->sta.antsetup = setup;
rtcm->sta.antsno[0] = '\0';
return 5;
}
/* decode type 1008: antenna descriptor & serial number ----------------------*/
int decode_type1008(rtcm_t *rtcm)
{
char des[32] = "";
char sno[32] = "";
char *msg;
int i = 24 + 12;
int j;
int staid;
int n;
int m;
int setup;
n = getbitu(rtcm->buff, i + 12, 8);
m = getbitu(rtcm->buff, i + 28 + 8 * n, 8);
if (i + 36 + 8 * (n + m) <= rtcm->len * 8)
{
staid = getbitu(rtcm->buff, i, 12);
i += 12 + 8;
for (j = 0; j < n && j < 31; j++)
{
des[j] = static_cast(getbitu(rtcm->buff, i, 8));
i += 8;
}
setup = getbitu(rtcm->buff, i, 8);
i += 8 + 8;
for (j = 0; j < m && j < 31; j++)
{
sno[j] = static_cast(getbitu(rtcm->buff, i, 8));
i += 8;
}
}
else
{
trace(2, "rtcm3 1008 length error: len=%d\n", rtcm->len);
return -1;
}
if (rtcm->outtype)
{
msg = rtcm->msgtype + strlen(rtcm->msgtype);
std::snprintf(msg, sizeof(rtcm->msgtype), " staid=%4d", staid);
}
/* test station id */
if (!test_staid(rtcm, staid))
{
return -1;
}
strncpy(rtcm->sta.antdes, des, n);
rtcm->sta.antdes[n] = '\0';
rtcm->sta.antsetup = setup;
strncpy(rtcm->sta.antsno, sno, m);
rtcm->sta.antsno[m] = '\0';
return 5;
}
/* decode type 1009-1012 message header --------------------------------------*/
int decode_head1009(rtcm_t *rtcm, int *sync)
{
double tod;
char *msg;
int i = 24;
int staid;
int nsat;
int type;
type = getbitu(rtcm->buff, i, 12);
i += 12;
if (i + 49 <= rtcm->len * 8)
{
staid = getbitu(rtcm->buff, i, 12);
i += 12;
tod = getbitu(rtcm->buff, i, 27) * 0.001;
i += 27; /* sec in a day */
*sync = getbitu(rtcm->buff, i, 1);
i += 1;
nsat = getbitu(rtcm->buff, i, 5);
}
else
{
trace(2, "rtcm3 %d length error: len=%d\n", type, rtcm->len);
return -1;
}
/* test station id */
if (!test_staid(rtcm, staid))
{
return -1;
}
adjday_glot(rtcm, tod);
trace(4, "decode_head1009: time=%s nsat=%d sync=%d\n", time_str(rtcm->time, 2),
nsat, *sync);
if (rtcm->outtype)
{
msg = rtcm->msgtype + strlen(rtcm->msgtype);
std::snprintf(msg, sizeof(rtcm->msgtype), " staid=%4d %s nsat=%2d sync=%d", staid,
time_str(rtcm->time, 2), nsat, *sync);
}
return nsat;
}
/* decode type 1009: L1-only glonass rtk observables -------------------------*/
int decode_type1009(rtcm_t *rtcm)
{
int sync;
if (decode_head1009(rtcm, &sync) < 0)
{
return -1;
}
rtcm->obsflag = !sync;
return sync ? 0 : 1;
}
/* decode type 1010: extended L1-only glonass rtk observables ----------------*/
int decode_type1010(rtcm_t *rtcm)
{
double pr1;
double cnr1;
double tt;
double cp1;
double lam1;
int i = 24 + 61;
int j;
int index;
int nsat;
int sync;
int prn;
int sat;
int code;
int freq;
int ppr1;
int lock1;
int amb;
int sys = SYS_GLO;
if ((nsat = decode_head1009(rtcm, &sync)) < 0)
{
return -1;
}
for (j = 0; j < nsat && rtcm->obs.n < MAXOBS && i + 79 <= rtcm->len * 8; j++)
{
prn = getbitu(rtcm->buff, i, 6);
i += 6;
code = getbitu(rtcm->buff, i, 1);
i += 1;
freq = getbitu(rtcm->buff, i, 5);
i += 5;
pr1 = getbitu(rtcm->buff, i, 25);
i += 25;
ppr1 = getbits(rtcm->buff, i, 20);
i += 20;
lock1 = getbitu(rtcm->buff, i, 7);
i += 7;
amb = getbitu(rtcm->buff, i, 7);
i += 7;
cnr1 = getbitu(rtcm->buff, i, 8);
i += 8;
if (!(sat = satno(sys, prn)))
{
trace(2, "rtcm3 1010 satellite number error: prn=%d\n", prn);
continue;
}
tt = timediff(rtcm->obs.data[0].time, rtcm->time);
if (rtcm->obsflag || fabs(tt) > 1E-9)
{
rtcm->obs.n = rtcm->obsflag = 0;
}
if ((index = obsindex3(&rtcm->obs, rtcm->time, sat)) < 0)
{
continue;
}
pr1 = pr1 * 0.02 + amb * PRUNIT_GLO;
if (ppr1 != static_cast(0xFFF80000))
{
rtcm->obs.data[index].P[0] = pr1;
lam1 = SPEED_OF_LIGHT / (FREQ1_GLO + DFRQ1_GLO * (freq - 7));
cp1 = adjcp(rtcm, sat, 0, ppr1 * 0.0005 / lam1);
rtcm->obs.data[index].L[0] = pr1 / lam1 + cp1;
}
rtcm->obs.data[index].LLI[0] = lossoflock(rtcm, sat, 0, lock1);
rtcm->obs.data[index].SNR[0] = snratio(cnr1 * 0.25);
rtcm->obs.data[index].code[0] = code ? CODE_L1P : CODE_L1C;
}
return sync ? 0 : 1;
}
/* decode type 1011: L1&L2 glonass rtk observables ---------------------------*/
int decode_type1011(rtcm_t *rtcm)
{
int sync;
if (decode_head1009(rtcm, &sync) < 0)
{
return -1;
}
rtcm->obsflag = !sync;
return sync ? 0 : 1;
}
/* decode type 1012: extended L1&L2 glonass rtk observables ------------------*/
int decode_type1012(rtcm_t *rtcm)
{
double pr1;
double cnr1;
double cnr2;
double tt;
double cp1;
double cp2;
double lam1;
double lam2;
int i = 24 + 61;
int j;
int index;
int nsat;
int sync;
int prn;
int sat;
int freq;
int code1;
int code2;
int pr21;
int ppr1;
int ppr2;
int lock1;
int lock2;
int amb;
int sys = SYS_GLO;
if ((nsat = decode_head1009(rtcm, &sync)) < 0)
{
return -1;
}
for (j = 0; j < nsat && rtcm->obs.n < MAXOBS && i + 130 <= rtcm->len * 8; j++)
{
prn = getbitu(rtcm->buff, i, 6);
i += 6;
code1 = getbitu(rtcm->buff, i, 1);
i += 1;
freq = getbitu(rtcm->buff, i, 5);
i += 5;
pr1 = getbitu(rtcm->buff, i, 25);
i += 25;
ppr1 = getbits(rtcm->buff, i, 20);
i += 20;
lock1 = getbitu(rtcm->buff, i, 7);
i += 7;
amb = getbitu(rtcm->buff, i, 7);
i += 7;
cnr1 = getbitu(rtcm->buff, i, 8);
i += 8;
code2 = getbitu(rtcm->buff, i, 2);
i += 2;
pr21 = getbits(rtcm->buff, i, 14);
i += 14;
ppr2 = getbits(rtcm->buff, i, 20);
i += 20;
lock2 = getbitu(rtcm->buff, i, 7);
i += 7;
cnr2 = getbitu(rtcm->buff, i, 8);
i += 8;
if (!(sat = satno(sys, prn)))
{
trace(2, "rtcm3 1012 satellite number error: sys=%d prn=%d\n", sys, prn);
continue;
}
tt = timediff(rtcm->obs.data[0].time, rtcm->time);
if (rtcm->obsflag || fabs(tt) > 1E-9)
{
rtcm->obs.n = rtcm->obsflag = 0;
}
if ((index = obsindex3(&rtcm->obs, rtcm->time, sat)) < 0)
{
continue;
}
pr1 = pr1 * 0.02 + amb * PRUNIT_GLO;
if (ppr1 != static_cast(0xFFF80000))
{
lam1 = SPEED_OF_LIGHT / (FREQ1_GLO + DFRQ1_GLO * (freq - 7));
rtcm->obs.data[index].P[0] = pr1;
cp1 = adjcp(rtcm, sat, 0, ppr1 * 0.0005 / lam1);
rtcm->obs.data[index].L[0] = pr1 / lam1 + cp1;
}
rtcm->obs.data[index].LLI[0] = lossoflock(rtcm, sat, 0, lock1);
rtcm->obs.data[index].SNR[0] = snratio(cnr1 * 0.25);
rtcm->obs.data[index].code[0] = code1 ? CODE_L1P : CODE_L1C;
if (pr21 != static_cast(0xFFFFE000))
{
rtcm->obs.data[index].P[1] = pr1 + pr21 * 0.02;
}
if (ppr2 != static_cast(0xFFF80000))
{
lam2 = SPEED_OF_LIGHT / (FREQ2_GLO + DFRQ2_GLO * (freq - 7));
cp2 = adjcp(rtcm, sat, 1, ppr2 * 0.0005 / lam2);
rtcm->obs.data[index].L[1] = pr1 / lam2 + cp2;
}
rtcm->obs.data[index].LLI[1] = lossoflock(rtcm, sat, 1, lock2);
rtcm->obs.data[index].SNR[1] = snratio(cnr2 * 0.25);
rtcm->obs.data[index].code[1] = code2 ? CODE_L2P : CODE_L2C;
}
rtcm->obsflag = !sync;
return sync ? 0 : 1;
}
/* decode type 1013: system parameters ---------------------------------------*/
int decode_type1013(rtcm_t *rtcm __attribute__((unused)))
{
return 0;
}
/* decode type 1019: gps ephemerides -----------------------------------------*/
int decode_type1019(rtcm_t *rtcm, bool pre_2009_file)
{
eph_t eph = {0, -1, -1, 0, 0, 0, 0, 0, {0, 0.0}, {0, 0.0}, {0, 0.0},
0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0,
0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, {0.0}, {0.0}, 0.0, 0.0};
double toc;
double sqrtA;
char *msg;
int i = 24 + 12;
int prn;
int sat;
int week;
int sys = SYS_GPS;
if (i + 476 <= rtcm->len * 8)
{
prn = getbitu(rtcm->buff, i, 6);
i += 6;
week = getbitu(rtcm->buff, i, 10);
i += 10;
eph.sva = getbitu(rtcm->buff, i, 4);
i += 4;
eph.code = getbitu(rtcm->buff, i, 2);
i += 2;
eph.idot = getbits(rtcm->buff, i, 14) * TWO_N43 * SC2RAD;
i += 14;
eph.iode = getbitu(rtcm->buff, i, 8);
i += 8;
toc = getbitu(rtcm->buff, i, 16) * 16.0;
i += 16;
eph.f2 = getbits(rtcm->buff, i, 8) * TWO_N55;
i += 8;
eph.f1 = getbits(rtcm->buff, i, 16) * TWO_N43;
i += 16;
eph.f0 = getbits(rtcm->buff, i, 22) * TWO_N31;
i += 22;
eph.iodc = getbitu(rtcm->buff, i, 10);
i += 10;
eph.crs = getbits(rtcm->buff, i, 16) * TWO_N5;
i += 16;
eph.deln = getbits(rtcm->buff, i, 16) * TWO_N43 * SC2RAD;
i += 16;
eph.M0 = getbits(rtcm->buff, i, 32) * TWO_N31 * SC2RAD;
i += 32;
eph.cuc = getbits(rtcm->buff, i, 16) * TWO_N29;
i += 16;
eph.e = getbitu(rtcm->buff, i, 32) * TWO_N33;
i += 32;
eph.cus = getbits(rtcm->buff, i, 16) * TWO_N29;
i += 16;
sqrtA = getbitu(rtcm->buff, i, 32) * TWO_N19;
i += 32;
eph.toes = getbitu(rtcm->buff, i, 16) * 16.0;
i += 16;
eph.cic = getbits(rtcm->buff, i, 16) * TWO_N29;
i += 16;
eph.OMG0 = getbits(rtcm->buff, i, 32) * TWO_N31 * SC2RAD;
i += 32;
eph.cis = getbits(rtcm->buff, i, 16) * TWO_N29;
i += 16;
eph.i0 = getbits(rtcm->buff, i, 32) * TWO_N31 * SC2RAD;
i += 32;
eph.crc = getbits(rtcm->buff, i, 16) * TWO_N5;
i += 16;
eph.omg = getbits(rtcm->buff, i, 32) * TWO_N31 * SC2RAD;
i += 32;
eph.OMGd = getbits(rtcm->buff, i, 24) * TWO_N43 * SC2RAD;
i += 24;
eph.tgd[0] = getbits(rtcm->buff, i, 8) * TWO_N31;
i += 8;
eph.svh = getbitu(rtcm->buff, i, 6);
i += 6;
eph.flag = getbitu(rtcm->buff, i, 1);
i += 1;
eph.fit = getbitu(rtcm->buff, i, 1) ? 0.0 : 4.0; /* 0:4hr, 1:>4hr */
}
else
{
trace(2, "rtcm3 1019 length error: len=%d\n", rtcm->len);
return -1;
}
if (prn >= 40)
{
sys = SYS_SBS;
prn += 80;
}
trace(4, "decode_type1019: prn=%d iode=%d toe=%.0f\n", prn, eph.iode, eph.toes);
if (rtcm->outtype)
{
msg = rtcm->msgtype + strlen(rtcm->msgtype);
std::snprintf(msg, sizeof(rtcm->msgtype), " prn=%2d iode=%3d iodc=%3d week=%d toe=%6.0f toc=%6.0f svh=%02X",
prn, eph.iode, eph.iodc, week, eph.toes, toc, eph.svh);
}
if (!(sat = satno(sys, prn)))
{
trace(2, "rtcm3 1019 satellite number error: prn=%d\n", prn);
return -1;
}
eph.sat = sat;
eph.week = adjgpsweek(week, pre_2009_file);
eph.toe = gpst2time(eph.week, eph.toes);
eph.toc = gpst2time(eph.week, toc);
eph.ttr = rtcm->time;
eph.A = sqrtA * sqrtA;
if (!strstr(rtcm->opt, "-EPHALL"))
{
if (eph.iode == rtcm->nav.eph[sat - 1].iode)
{
return 0; /* unchanged */
}
}
rtcm->nav.eph[sat - 1] = eph;
rtcm->ephsat = sat;
return 2;
}
/* decode type 1020: glonass ephemerides -------------------------------------*/
int decode_type1020(rtcm_t *rtcm)
{
geph_t geph = {0, -1, 0, 0, 0, 0, {0, 0.0}, {0, 0.0}, {0.0}, {0.0}, {0.0},
0.0, 0.0, 0.0};
double tk_h;
double tk_m;
double tk_s;
double toe;
double tow;
double tod;
double tof;
char *msg;
int i = 24 + 12;
int prn;
int sat;
int week;
int tb;
int bn;
int sys = SYS_GLO;
if (i + 348 <= rtcm->len * 8)
{
prn = getbitu(rtcm->buff, i, 6);
i += 6;
geph.frq = getbitu(rtcm->buff, i, 5) - 7;
i += 5 + 2 + 2;
tk_h = getbitu(rtcm->buff, i, 5);
i += 5;
tk_m = getbitu(rtcm->buff, i, 6);
i += 6;
tk_s = getbitu(rtcm->buff, i, 1) * 30.0;
i += 1;
bn = getbitu(rtcm->buff, i, 1);
i += 1 + 1;
tb = getbitu(rtcm->buff, i, 7);
i += 7;
geph.vel[0] = getbitg(rtcm->buff, i, 24) * TWO_N20 * 1E3;
i += 24;
geph.pos[0] = getbitg(rtcm->buff, i, 27) * TWO_N11 * 1E3;
i += 27;
geph.acc[0] = getbitg(rtcm->buff, i, 5) * TWO_N30 * 1E3;
i += 5;
geph.vel[1] = getbitg(rtcm->buff, i, 24) * TWO_N20 * 1E3;
i += 24;
geph.pos[1] = getbitg(rtcm->buff, i, 27) * TWO_N11 * 1E3;
i += 27;
geph.acc[1] = getbitg(rtcm->buff, i, 5) * TWO_N30 * 1E3;
i += 5;
geph.vel[2] = getbitg(rtcm->buff, i, 24) * TWO_N20 * 1E3;
i += 24;
geph.pos[2] = getbitg(rtcm->buff, i, 27) * TWO_N11 * 1E3;
i += 27;
geph.acc[2] = getbitg(rtcm->buff, i, 5) * TWO_N30 * 1E3;
i += 5 + 1;
geph.gamn = getbitg(rtcm->buff, i, 11) * TWO_N40;
i += 11 + 3;
geph.taun = getbitg(rtcm->buff, i, 22) * TWO_N30;
}
else
{
trace(2, "rtcm3 1020 length error: len=%d\n", rtcm->len);
return -1;
}
if (!(sat = satno(sys, prn)))
{
trace(2, "rtcm3 1020 satellite number error: prn=%d\n", prn);
return -1;
}
trace(4, "decode_type1020: prn=%d tk=%02.0f:%02.0f:%02.0f\n", prn, tk_h, tk_m, tk_s);
if (rtcm->outtype)
{
msg = rtcm->msgtype + strlen(rtcm->msgtype);
std::snprintf(msg, sizeof(rtcm->msgtype), " prn=%2d tk=%02.0f:%02.0f:%02.0f frq=%2d bn=%d tb=%d",
prn, tk_h, tk_m, tk_s, geph.frq, bn, tb);
}
geph.sat = sat;
geph.svh = bn;
geph.iode = tb & 0x7F;
if (rtcm->time.time == 0)
{
rtcm->time = utc2gpst(timeget());
}
tow = time2gpst(gpst2utc(rtcm->time), &week);
tod = fmod(tow, 86400.0);
tow -= tod;
tof = tk_h * 3600.0 + tk_m * 60.0 + tk_s - 10800.0; /* lt->utc */
if (tof < tod - 43200.0)
{
tof += 86400.0;
}
else if (tof > tod + 43200.0)
{
tof -= 86400.0;
}
geph.tof = utc2gpst(gpst2time(week, tow + tof));
toe = tb * 900.0 - 10800.0; /* lt->utc */
if (toe < tod - 43200.0)
{
toe += 86400.0;
}
else if (toe > tod + 43200.0)
{
toe -= 86400.0;
}
geph.toe = utc2gpst(gpst2time(week, tow + toe)); /* utc->gpst */
if (!strstr(rtcm->opt, "-EPHALL"))
{
if (fabs(timediff(geph.toe, rtcm->nav.geph[prn - 1].toe)) < 1.0 &&
geph.svh == rtcm->nav.geph[prn - 1].svh)
{
return 0; /* unchanged */
}
}
rtcm->nav.geph[prn - 1] = geph;
rtcm->ephsat = sat;
return 2;
}
/* decode type 1021: helmert/abridged molodenski -----------------------------*/
int decode_type1021(rtcm_t *rtcm __attribute__((unused)))
{
trace(2, "rtcm3 1021: not supported message\n");
return 0;
}
/* decode type 1022: moledenski-badekas transformation -----------------------*/
int decode_type1022(rtcm_t *rtcm __attribute__((unused)))
{
trace(2, "rtcm3 1022: not supported message\n");
return 0;
}
/* decode type 1023: residual, ellipoidal grid representation ----------------*/
int decode_type1023(rtcm_t *rtcm __attribute__((unused)))
{
trace(2, "rtcm3 1023: not supported message\n");
return 0;
}
/* decode type 1024: residual, plane grid representation ---------------------*/
int decode_type1024(rtcm_t *rtcm __attribute__((unused)))
{
trace(2, "rtcm3 1024: not supported message\n");
return 0;
}
/* decode type 1025: projection (types except LCC2SP, OM) ---------------------*/
int decode_type1025(rtcm_t *rtcm __attribute__((unused)))
{
trace(2, "rtcm3 1025: not supported message\n");
return 0;
}
/* decode type 1026: projection (LCC2SP - lambert conic conformal (2sp)) -----*/
int decode_type1026(rtcm_t *rtcm __attribute__((unused)))
{
trace(2, "rtcm3 1026: not supported message\n");
return 0;
}
/* decode type 1027: projection (type OM - oblique mercator) -----------------*/
int decode_type1027(rtcm_t *rtcm __attribute__((unused)))
{
trace(2, "rtcm3 1027: not supported message\n");
return 0;
}
/* decode type 1029: unicode text string -------------------------------------*/
int decode_type1029(rtcm_t *rtcm)
{
char *msg;
int i = 24 + 12;
int j;
int staid;
int nchar; // mjd, tod, nchar, cunit;
if (i + 60 <= rtcm->len * 8)
{
staid = getbitu(rtcm->buff, i, 12);
i += 12;
/* mjd = getbitu(rtcm->buff, i, 16); */ i += 16;
/* tod = getbitu(rtcm->buff, i, 17); */ i += 17;
nchar = getbitu(rtcm->buff, i, 7);
i += 7;
/* cunit = getbitu(rtcm->buff, i, 8); */ i += 8;
}
else
{
trace(2, "rtcm3 1029 length error: len=%d\n", rtcm->len);
return -1;
}
if (i + nchar * 8 > rtcm->len * 8)
{
trace(2, "rtcm3 1029 length error: len=%d nchar=%d\n", rtcm->len, nchar);
return -1;
}
for (j = 0; j < nchar && j < 126; j++)
{
rtcm->msg[j] = getbitu(rtcm->buff, i, 8);
i += 8;
}
rtcm->msg[j] = '\0';
if (rtcm->outtype)
{
msg = rtcm->msgtype + strlen(rtcm->msgtype);
std::snprintf(msg, sizeof(rtcm->msgtype), " staid=%4d text=%s", staid, rtcm->msg);
}
return 0;
}
/* decode type 1030: network rtk residual ------------------------------------*/
int decode_type1030(rtcm_t *rtcm __attribute__((unused)))
{
trace(2, "rtcm3 1030: not supported message\n");
return 0;
}
/* decode type 1031: glonass network rtk residual ----------------------------*/
int decode_type1031(rtcm_t *rtcm __attribute__((unused)))
{
trace(2, "rtcm3 1031: not supported message\n");
return 0;
}
/* decode type 1032: physical reference station position information ---------*/
int decode_type1032(rtcm_t *rtcm __attribute__((unused)))
{
trace(2, "rtcm3 1032: not supported message\n");
return 0;
}
/* decode type 1033: receiver and antenna descriptor -------------------------*/
int decode_type1033(rtcm_t *rtcm)
{
char des[32] = "";
char sno[32] = "";
char rec[32] = "";
char ver[32] = "";
char rsn[32] = "";
char *msg;
int i = 24 + 12;
int j;
int staid;
int n;
int m;
int n1;
int n2;
int n3;
int setup;
n = getbitu(rtcm->buff, i + 12, 8);
m = getbitu(rtcm->buff, i + 28 + 8 * n, 8);
n1 = getbitu(rtcm->buff, i + 36 + 8 * (n + m), 8);
n2 = getbitu(rtcm->buff, i + 44 + 8 * (n + m + n1), 8);
n3 = getbitu(rtcm->buff, i + 52 + 8 * (n + m + n1 + n2), 8);
if (i + 60 + 8 * (n + m + n1 + n2 + n3) <= rtcm->len * 8)
{
staid = getbitu(rtcm->buff, i, 12);
i += 12 + 8;
for (j = 0; j < n && j < 31; j++)
{
des[j] = static_cast(getbitu(rtcm->buff, i, 8));
i += 8;
}
setup = getbitu(rtcm->buff, i, 8);
i += 8 + 8;
for (j = 0; j < m && j < 31; j++)
{
sno[j] = static_cast(getbitu(rtcm->buff, i, 8));
i += 8;
}
i += 8;
for (j = 0; j < n1 && j < 31; j++)
{
rec[j] = static_cast(getbitu(rtcm->buff, i, 8));
i += 8;
}
i += 8;
for (j = 0; j < n2 && j < 31; j++)
{
ver[j] = static_cast(getbitu(rtcm->buff, i, 8));
i += 8;
}
i += 8;
for (j = 0; j < n3 && j < 31; j++)
{
rsn[j] = static_cast(getbitu(rtcm->buff, i, 8));
i += 8;
}
}
else
{
trace(2, "rtcm3 1033 length error: len=%d\n", rtcm->len);
return -1;
}
if (rtcm->outtype)
{
msg = rtcm->msgtype + strlen(rtcm->msgtype);
std::snprintf(msg, sizeof(rtcm->msgtype), " staid=%4d", staid);
}
/* test station id */
if (!test_staid(rtcm, staid))
{
return -1;
}
strncpy(rtcm->sta.antdes, des, n);
rtcm->sta.antdes[n] = '\0';
rtcm->sta.antsetup = setup;
strncpy(rtcm->sta.antsno, sno, m);
rtcm->sta.antsno[m] = '\0';
strncpy(rtcm->sta.rectype, rec, n1);
rtcm->sta.rectype[n1] = '\0';
strncpy(rtcm->sta.recver, ver, n2);
rtcm->sta.recver[n2] = '\0';
strncpy(rtcm->sta.recsno, rsn, n3);
rtcm->sta.recsno[n3] = '\0';
trace(3, "rtcm3 1033: ant=%s:%s rec=%s:%s:%s\n", des, sno, rec, ver, rsn);
return 5;
}
/* decode type 1034: gps network fkp gradient --------------------------------*/
int decode_type1034(rtcm_t *rtcm __attribute__((unused)))
{
trace(2, "rtcm3 1034: not supported message\n");
return 0;
}
/* decode type 1035: glonass network fkp gradient ----------------------------*/
int decode_type1035(rtcm_t *rtcm __attribute__((unused)))
{
trace(2, "rtcm3 1035: not supported message\n");
return 0;
}
/* decode type 1037: glonass network rtk ionospheric correction difference ---*/
int decode_type1037(rtcm_t *rtcm __attribute__((unused)))
{
trace(2, "rtcm3 1037: not supported message\n");
return 0;
}
/* decode type 1038: glonass network rtk geometic correction difference ------*/
int decode_type1038(rtcm_t *rtcm __attribute__((unused)))
{
trace(2, "rtcm3 1038: not supported message\n");
return 0;
}
/* decode type 1039: glonass network rtk combined correction difference ------*/
int decode_type1039(rtcm_t *rtcm __attribute__((unused)))
{
trace(2, "rtcm3 1039: not supported message\n");
return 0;
}
/* decode type 1044: qzss ephemerides (ref [15]) -----------------------------*/
int decode_type1044(rtcm_t *rtcm, bool pre_2009_file)
{
eph_t eph = {0, -1, -1, 0, 0, 0, 0, 0, {0, 0.0}, {0, 0.0}, {0, 0.0},
0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0,
0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, {0.0}, {0.0}, 0.0, 0.0};
double toc;
double sqrtA;
char *msg;
int i = 24 + 12;
int prn;
int sat;
int week;
int sys = SYS_QZS;
if (i + 473 <= rtcm->len * 8)
{
prn = getbitu(rtcm->buff, i, 4) + 192;
i += 4;
toc = getbitu(rtcm->buff, i, 16) * 16.0;
i += 16;
eph.f2 = getbits(rtcm->buff, i, 8) * TWO_N55;
i += 8;
eph.f1 = getbits(rtcm->buff, i, 16) * TWO_N43;
i += 16;
eph.f0 = getbits(rtcm->buff, i, 22) * TWO_N31;
i += 22;
eph.iode = getbitu(rtcm->buff, i, 8);
i += 8;
eph.crs = getbits(rtcm->buff, i, 16) * TWO_N5;
i += 16;
eph.deln = getbits(rtcm->buff, i, 16) * TWO_N43 * SC2RAD;
i += 16;
eph.M0 = getbits(rtcm->buff, i, 32) * TWO_N31 * SC2RAD;
i += 32;
eph.cuc = getbits(rtcm->buff, i, 16) * TWO_N29;
i += 16;
eph.e = getbitu(rtcm->buff, i, 32) * TWO_N33;
i += 32;
eph.cus = getbits(rtcm->buff, i, 16) * TWO_N29;
i += 16;
sqrtA = getbitu(rtcm->buff, i, 32) * TWO_N19;
i += 32;
eph.toes = getbitu(rtcm->buff, i, 16) * 16.0;
i += 16;
eph.cic = getbits(rtcm->buff, i, 16) * TWO_N29;
i += 16;
eph.OMG0 = getbits(rtcm->buff, i, 32) * TWO_N31 * SC2RAD;
i += 32;
eph.cis = getbits(rtcm->buff, i, 16) * TWO_N29;
i += 16;
eph.i0 = getbits(rtcm->buff, i, 32) * TWO_N31 * SC2RAD;
i += 32;
eph.crc = getbits(rtcm->buff, i, 16) * TWO_N5;
i += 16;
eph.omg = getbits(rtcm->buff, i, 32) * TWO_N31 * SC2RAD;
i += 32;
eph.OMGd = getbits(rtcm->buff, i, 24) * TWO_N43 * SC2RAD;
i += 24;
eph.idot = getbits(rtcm->buff, i, 14) * TWO_N43 * SC2RAD;
i += 14;
eph.code = getbitu(rtcm->buff, i, 2);
i += 2;
week = getbitu(rtcm->buff, i, 10);
i += 10;
eph.sva = getbitu(rtcm->buff, i, 4);
i += 4;
eph.svh = getbitu(rtcm->buff, i, 6);
i += 6;
eph.tgd[0] = getbits(rtcm->buff, i, 8) * TWO_N31;
i += 8;
eph.iodc = getbitu(rtcm->buff, i, 10);
i += 10;
eph.fit = getbitu(rtcm->buff, i, 1) ? 0.0 : 2.0; /* 0:2hr, 1:>2hr */
}
else
{
trace(2, "rtcm3 1044 length error: len=%d\n", rtcm->len);
return -1;
}
trace(4, "decode_type1044: prn=%d iode=%d toe=%.0f\n", prn, eph.iode, eph.toes);
if (rtcm->outtype)
{
msg = rtcm->msgtype + strlen(rtcm->msgtype);
std::snprintf(msg, sizeof(rtcm->msgtype), " prn=%3d iode=%3d iodc=%3d week=%d toe=%6.0f toc=%6.0f svh=%02X",
prn, eph.iode, eph.iodc, week, eph.toes, toc, eph.svh);
}
if (!(sat = satno(sys, prn)))
{
trace(2, "rtcm3 1044 satellite number error: prn=%d\n", prn);
return -1;
}
eph.sat = sat;
eph.week = adjgpsweek(week, pre_2009_file);
eph.toe = gpst2time(eph.week, eph.toes);
eph.toc = gpst2time(eph.week, toc);
eph.ttr = rtcm->time;
eph.A = sqrtA * sqrtA;
if (!strstr(rtcm->opt, "-EPHALL"))
{
if (eph.iode == rtcm->nav.eph[sat - 1].iode &&
eph.iodc == rtcm->nav.eph[sat - 1].iodc)
{
return 0; /* unchanged */
}
}
rtcm->nav.eph[sat - 1] = eph;
rtcm->ephsat = sat;
return 2;
}
/* decode type 1045: galileo satellite ephemerides (ref [15]) ----------------*/
int decode_type1045(rtcm_t *rtcm)
{
eph_t eph = {0, -1, -1, 0, 0, 0, 0, 0, {0, 0.0}, {0, 0.0}, {0, 0.0},
0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0,
0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, {0.0}, {0.0}, 0.0, 0.0};
double toc;
double sqrtA;
char *msg;
int i = 24 + 12;
int prn;
int sat;
int week;
int e5a_hs;
int e5a_dvs;
int sys = SYS_GAL;
if (i + 484 <= rtcm->len * 8)
{
prn = getbitu(rtcm->buff, i, 6);
i += 6;
week = getbitu(rtcm->buff, i, 12);
i += 12; /* gst-week */
eph.iode = getbitu(rtcm->buff, i, 10);
i += 10;
eph.sva = getbitu(rtcm->buff, i, 8);
i += 8;
eph.idot = getbits(rtcm->buff, i, 14) * TWO_N43 * SC2RAD;
i += 14;
toc = getbitu(rtcm->buff, i, 14) * 60.0;
i += 14;
eph.f2 = getbits(rtcm->buff, i, 6) * TWO_N59;
i += 6;
eph.f1 = getbits(rtcm->buff, i, 21) * TWO_N46;
i += 21;
eph.f0 = getbits(rtcm->buff, i, 31) * TWO_N34;
i += 31;
eph.crs = getbits(rtcm->buff, i, 16) * TWO_N5;
i += 16;
eph.deln = getbits(rtcm->buff, i, 16) * TWO_N43 * SC2RAD;
i += 16;
eph.M0 = getbits(rtcm->buff, i, 32) * TWO_N31 * SC2RAD;
i += 32;
eph.cuc = getbits(rtcm->buff, i, 16) * TWO_N29;
i += 16;
eph.e = getbitu(rtcm->buff, i, 32) * TWO_N33;
i += 32;
eph.cus = getbits(rtcm->buff, i, 16) * TWO_N29;
i += 16;
sqrtA = getbitu(rtcm->buff, i, 32) * TWO_N19;
i += 32;
eph.toes = getbitu(rtcm->buff, i, 14) * 60.0;
i += 14;
eph.cic = getbits(rtcm->buff, i, 16) * TWO_N29;
i += 16;
eph.OMG0 = getbits(rtcm->buff, i, 32) * TWO_N31 * SC2RAD;
i += 32;
eph.cis = getbits(rtcm->buff, i, 16) * TWO_N29;
i += 16;
eph.i0 = getbits(rtcm->buff, i, 32) * TWO_N31 * SC2RAD;
i += 32;
eph.crc = getbits(rtcm->buff, i, 16) * TWO_N5;
i += 16;
eph.omg = getbits(rtcm->buff, i, 32) * TWO_N31 * SC2RAD;
i += 32;
eph.OMGd = getbits(rtcm->buff, i, 24) * TWO_N43 * SC2RAD;
i += 24;
eph.tgd[0] = getbits(rtcm->buff, i, 10) * TWO_N32;
i += 10; /* E5a/E1 */
e5a_hs = getbitu(rtcm->buff, i, 2);
i += 2; /* OSHS */
e5a_dvs = getbitu(rtcm->buff, i, 1);
i += 1; /* OSDVS */
// rsv = getbitu(rtcm->buff, i, 7);
}
else
{
trace(2, "rtcm3 1045 length error: len=%d\n", rtcm->len);
return -1;
}
trace(4, "decode_type1045: prn=%d iode=%d toe=%.0f\n", prn, eph.iode, eph.toes);
if (rtcm->outtype)
{
msg = rtcm->msgtype + strlen(rtcm->msgtype);
std::snprintf(msg, sizeof(rtcm->msgtype), " prn=%2d iode=%3d week=%d toe=%6.0f toc=%6.0f hs=%d dvs=%d",
prn, eph.iode, week, eph.toes, toc, e5a_hs, e5a_dvs);
}
if (!(sat = satno(sys, prn)))
{
trace(2, "rtcm3 1045 satellite number error: prn=%d\n", prn);
return -1;
}
eph.sat = sat;
eph.week = week + 1024; /* gal-week = gst-week + 1024 */
eph.toe = gpst2time(eph.week, eph.toes);
eph.toc = gpst2time(eph.week, toc);
eph.ttr = rtcm->time;
eph.A = sqrtA * sqrtA;
eph.svh = (e5a_hs << 4) + (e5a_dvs << 3);
eph.code = 2; /* data source = f/nav e5a */
if (!strstr(rtcm->opt, "-EPHALL"))
{
if (eph.iode == rtcm->nav.eph[sat - 1].iode)
{
return 0; /* unchanged */
}
}
rtcm->nav.eph[sat - 1] = eph;
rtcm->ephsat = sat;
return 2;
}
/* decode type 1046: galileo satellite ephemerides (extension for IGS MGEX) --*/
int decode_type1046(rtcm_t *rtcm)
{
eph_t eph = {0, -1, -1, 0, 0, 0, 0, 0, {0, 0.0}, {0, 0.0}, {0, 0.0},
0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0,
0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, {0.0}, {0.0}, 0.0, 0.0};
double toc;
double sqrtA;
char *msg;
int i = 24 + 12;
int prn;
int sat;
int week;
int e5a_hs;
int e5a_dvs;
int sys = SYS_GAL;
if (i + 484 <= rtcm->len * 8)
{
prn = getbitu(rtcm->buff, i, 6);
i += 6;
week = getbitu(rtcm->buff, i, 12);
i += 12; /* gst-week */
eph.iode = getbitu(rtcm->buff, i, 10);
i += 10;
eph.sva = getbitu(rtcm->buff, i, 8);
i += 8;
eph.idot = getbits(rtcm->buff, i, 14) * TWO_N43 * SC2RAD;
i += 14;
toc = getbitu(rtcm->buff, i, 14) * 60.0;
i += 14;
eph.f2 = getbits(rtcm->buff, i, 6) * TWO_N59;
i += 6;
eph.f1 = getbits(rtcm->buff, i, 21) * TWO_N46;
i += 21;
eph.f0 = getbits(rtcm->buff, i, 31) * TWO_N34;
i += 31;
eph.crs = getbits(rtcm->buff, i, 16) * TWO_N5;
i += 16;
eph.deln = getbits(rtcm->buff, i, 16) * TWO_N43 * SC2RAD;
i += 16;
eph.M0 = getbits(rtcm->buff, i, 32) * TWO_N31 * SC2RAD;
i += 32;
eph.cuc = getbits(rtcm->buff, i, 16) * TWO_N29;
i += 16;
eph.e = getbitu(rtcm->buff, i, 32) * TWO_N33;
i += 32;
eph.cus = getbits(rtcm->buff, i, 16) * TWO_N29;
i += 16;
sqrtA = getbitu(rtcm->buff, i, 32) * TWO_N19;
i += 32;
eph.toes = getbitu(rtcm->buff, i, 14) * 60.0;
i += 14;
eph.cic = getbits(rtcm->buff, i, 16) * TWO_N29;
i += 16;
eph.OMG0 = getbits(rtcm->buff, i, 32) * TWO_N31 * SC2RAD;
i += 32;
eph.cis = getbits(rtcm->buff, i, 16) * TWO_N29;
i += 16;
eph.i0 = getbits(rtcm->buff, i, 32) * TWO_N31 * SC2RAD;
i += 32;
eph.crc = getbits(rtcm->buff, i, 16) * TWO_N5;
i += 16;
eph.omg = getbits(rtcm->buff, i, 32) * TWO_N31 * SC2RAD;
i += 32;
eph.OMGd = getbits(rtcm->buff, i, 24) * TWO_N43 * SC2RAD;
i += 24;
eph.tgd[0] = getbits(rtcm->buff, i, 10) * TWO_N32;
i += 10; /* E5a/E1 */
e5a_hs = getbitu(rtcm->buff, i, 2);
i += 2; /* OSHS */
e5a_dvs = getbitu(rtcm->buff, i, 1);
i += 1; /* OSDVS */
// rsv = getbitu(rtcm->buff, i, 7);
}
else
{
trace(2, "rtcm3 1046 length error: len=%d\n", rtcm->len);
return -1;
}
trace(4, "decode_type1046: prn=%d iode=%d toe=%.0f\n", prn, eph.iode, eph.toes);
if (rtcm->outtype)
{
msg = rtcm->msgtype + strlen(rtcm->msgtype);
std::snprintf(msg, sizeof(rtcm->msgtype), " prn=%2d iode=%3d week=%d toe=%6.0f toc=%6.0f hs=%d dvs=%d",
prn, eph.iode, week, eph.toes, toc, e5a_hs, e5a_dvs);
}
if (!(sat = satno(sys, prn)))
{
trace(2, "rtcm3 1046 satellite number error: prn=%d\n", prn);
return -1;
}
eph.sat = sat;
eph.week = week + 1024; /* gal-week = gst-week + 1024 */
eph.toe = gpst2time(eph.week, eph.toes);
eph.toc = gpst2time(eph.week, toc);
eph.ttr = rtcm->time;
eph.A = sqrtA * sqrtA;
eph.svh = (e5a_hs << 4) + (e5a_dvs << 3);
eph.code = 2; /* data source = f/nav e5a */
if (!strstr(rtcm->opt, "-EPHALL"))
{
if (eph.iode == rtcm->nav.eph[sat - 1].iode)
{
return 0; /* unchanged */
}
}
rtcm->nav.eph[sat - 1] = eph;
rtcm->ephsat = sat;
return 2;
}
/* decode type 1047: beidou ephemerides (tentative mt and format) ------------*/
int decode_type1047(rtcm_t *rtcm)
{
eph_t eph = {0, -1, -1, 0, 0, 0, 0, 0, {0, 0.0}, {0, 0.0}, {0, 0.0},
0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0,
0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, {0.0}, {0.0}, 0.0, 0.0};
double toc;
double sqrtA;
char *msg;
int i = 24 + 12;
int prn;
int sat;
int week;
int sys = SYS_BDS;
if (i + 476 <= rtcm->len * 8)
{
prn = getbitu(rtcm->buff, i, 6);
i += 6;
week = getbitu(rtcm->buff, i, 10);
i += 10;
eph.sva = getbitu(rtcm->buff, i, 4);
i += 4;
eph.code = getbitu(rtcm->buff, i, 2);
i += 2;
eph.idot = getbits(rtcm->buff, i, 14) * TWO_N43 * SC2RAD;
i += 14;
eph.iode = getbitu(rtcm->buff, i, 8);
i += 8;
toc = getbitu(rtcm->buff, i, 16) * 16.0;
i += 16;
eph.f2 = getbits(rtcm->buff, i, 8) * TWO_N55;
i += 8;
eph.f1 = getbits(rtcm->buff, i, 16) * TWO_N43;
i += 16;
eph.f0 = getbits(rtcm->buff, i, 22) * TWO_N31;
i += 22;
eph.iodc = getbitu(rtcm->buff, i, 10);
i += 10;
eph.crs = getbits(rtcm->buff, i, 16) * TWO_N5;
i += 16;
eph.deln = getbits(rtcm->buff, i, 16) * TWO_N43 * SC2RAD;
i += 16;
eph.M0 = getbits(rtcm->buff, i, 32) * TWO_N31 * SC2RAD;
i += 32;
eph.cuc = getbits(rtcm->buff, i, 16) * TWO_N29;
i += 16;
eph.e = getbitu(rtcm->buff, i, 32) * TWO_N33;
i += 32;
eph.cus = getbits(rtcm->buff, i, 16) * TWO_N29;
i += 16;
sqrtA = getbitu(rtcm->buff, i, 32) * TWO_N19;
i += 32;
eph.toes = getbitu(rtcm->buff, i, 16) * 16.0;
i += 16;
eph.cic = getbits(rtcm->buff, i, 16) * TWO_N29;
i += 16;
eph.OMG0 = getbits(rtcm->buff, i, 32) * TWO_N31 * SC2RAD;
i += 32;
eph.cis = getbits(rtcm->buff, i, 16) * TWO_N29;
i += 16;
eph.i0 = getbits(rtcm->buff, i, 32) * TWO_N31 * SC2RAD;
i += 32;
eph.crc = getbits(rtcm->buff, i, 16) * TWO_N5;
i += 16;
eph.omg = getbits(rtcm->buff, i, 32) * TWO_N31 * SC2RAD;
i += 32;
eph.OMGd = getbits(rtcm->buff, i, 24) * TWO_N43 * SC2RAD;
i += 24;
eph.tgd[0] = getbits(rtcm->buff, i, 8) * TWO_N31;
i += 8;
eph.svh = getbitu(rtcm->buff, i, 6);
i += 6;
eph.flag = getbitu(rtcm->buff, i, 1);
i += 1;
eph.fit = getbitu(rtcm->buff, i, 1) ? 0.0 : 4.0; /* 0:4hr, 1:>4hr */
}
else
{
trace(2, "rtcm3 1047 length error: len=%d\n", rtcm->len);
return -1;
}
trace(4, "decode_type1047: prn=%d iode=%d toe=%.0f\n", prn, eph.iode, eph.toes);
if (rtcm->outtype)
{
msg = rtcm->msgtype + strlen(rtcm->msgtype);
std::snprintf(msg, sizeof(rtcm->msgtype), " prn=%2d iode=%3d iodc=%3d week=%d toe=%6.0f toc=%6.0f svh=%02X",
prn, eph.iode, eph.iodc, week, eph.toes, toc, eph.svh);
}
if (!(sat = satno(sys, prn)))
{
trace(2, "rtcm3 1047 satellite number error: prn=%d\n", prn);
return -1;
}
eph.sat = sat;
eph.week = adjbdtweek(week);
eph.toe = bdt2gpst(bdt2time(eph.week, eph.toes)); /* bdt -> gpst */
eph.toc = bdt2gpst(bdt2time(eph.week, toc)); /* bdt -> gpst */
eph.ttr = rtcm->time;
eph.A = sqrtA * sqrtA;
if (!strstr(rtcm->opt, "-EPHALL"))
{
if (timediff(eph.toe, rtcm->nav.eph[sat - 1].toe) == 0.0 &&
eph.iode == rtcm->nav.eph[sat - 1].iode &&
eph.iodc == rtcm->nav.eph[sat - 1].iodc)
{
return 0; /* unchanged */
}
}
rtcm->nav.eph[sat - 1] = eph;
rtcm->ephsat = sat;
return 2;
}
/* decode type 63: beidou ephemerides (rtcm draft) ---------------------------*/
int decode_type63(rtcm_t *rtcm)
{
eph_t eph = {0, -1, -1, 0, 0, 0, 0, 0, {0, 0.0}, {0, 0.0}, {0, 0.0},
0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0,
0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, {0.0}, {0.0}, 0.0, 0.0};
double toc;
double sqrtA;
char *msg;
int i = 24 + 12;
int prn;
int sat;
int week;
int sys = SYS_BDS;
if (i + 499 <= rtcm->len * 8)
{
prn = getbitu(rtcm->buff, i, 6);
i += 6;
week = getbitu(rtcm->buff, i, 13);
i += 13;
eph.sva = getbitu(rtcm->buff, i, 4);
i += 4;
eph.idot = getbits(rtcm->buff, i, 14) * TWO_N43 * SC2RAD;
i += 14;
eph.iode = getbitu(rtcm->buff, i, 5);
i += 5; /* AODE */
toc = getbitu(rtcm->buff, i, 17) * 8.0;
i += 17;
eph.f2 = getbits(rtcm->buff, i, 11) * TWO_N55;
i += 11;
eph.f1 = getbits(rtcm->buff, i, 22) * TWO_N50;
i += 22;
eph.f0 = getbits(rtcm->buff, i, 24) * TWO_N33;
i += 24;
eph.iodc = getbitu(rtcm->buff, i, 5);
i += 5; /* AODC */
eph.crs = getbits(rtcm->buff, i, 18) * TWO_N6;
i += 18;
eph.deln = getbits(rtcm->buff, i, 16) * TWO_N43 * SC2RAD;
i += 16;
eph.M0 = getbits(rtcm->buff, i, 32) * TWO_N31 * SC2RAD;
i += 32;
eph.cuc = getbits(rtcm->buff, i, 18) * TWO_N31;
i += 18;
eph.e = getbitu(rtcm->buff, i, 32) * TWO_N33;
i += 32;
eph.cus = getbits(rtcm->buff, i, 18) * TWO_N31;
i += 18;
sqrtA = getbitu(rtcm->buff, i, 32) * TWO_N19;
i += 32;
eph.toes = getbitu(rtcm->buff, i, 17) * 8.0;
i += 17;
eph.cic = getbits(rtcm->buff, i, 18) * TWO_N31;
i += 18;
eph.OMG0 = getbits(rtcm->buff, i, 32) * TWO_N31 * SC2RAD;
i += 32;
eph.cis = getbits(rtcm->buff, i, 18) * TWO_N31;
i += 18;
eph.i0 = getbits(rtcm->buff, i, 32) * TWO_N31 * SC2RAD;
i += 32;
eph.crc = getbits(rtcm->buff, i, 18) * TWO_N6;
i += 18;
eph.omg = getbits(rtcm->buff, i, 32) * TWO_N31 * SC2RAD;
i += 32;
eph.OMGd = getbits(rtcm->buff, i, 24) * TWO_N43 * SC2RAD;
i += 24;
eph.tgd[0] = getbits(rtcm->buff, i, 10) * 1E-10;
i += 10;
eph.tgd[1] = getbits(rtcm->buff, i, 10) * 1E-10;
i += 10;
eph.svh = getbitu(rtcm->buff, i, 1);
i += 1;
}
else
{
trace(2, "rtcm3 63 length error: len=%d\n", rtcm->len);
return -1;
}
trace(4, "decode_type63: prn=%d iode=%d toe=%.0f\n", prn, eph.iode, eph.toes);
if (rtcm->outtype)
{
msg = rtcm->msgtype + strlen(rtcm->msgtype);
std::snprintf(msg, sizeof(rtcm->msgtype), " prn=%2d iode=%3d iodc=%3d week=%d toe=%6.0f toc=%6.0f svh=%02X",
prn, eph.iode, eph.iodc, week, eph.toes, toc, eph.svh);
}
if (!(sat = satno(sys, prn)))
{
trace(2, "rtcm3 63 satellite number error: prn=%d\n", prn);
return -1;
}
eph.sat = sat;
eph.week = adjbdtweek(week);
eph.toe = bdt2gpst(bdt2time(eph.week, eph.toes)); /* bdt -> gpst */
eph.toc = bdt2gpst(bdt2time(eph.week, toc)); /* bdt -> gpst */
eph.ttr = rtcm->time;
eph.A = sqrtA * sqrtA;
if (!strstr(rtcm->opt, "-EPHALL"))
{
if (timediff(eph.toe, rtcm->nav.eph[sat - 1].toe) == 0.0 &&
eph.iode == rtcm->nav.eph[sat - 1].iode &&
eph.iodc == rtcm->nav.eph[sat - 1].iodc)
{
return 0; /* unchanged */
}
}
rtcm->nav.eph[sat - 1] = eph;
rtcm->ephsat = sat;
return 2;
}
/* decode ssr 1, 4 message header ---------------------------------------------*/
int decode_ssr1_head(rtcm_t *rtcm, int sys, int *sync, int *iod,
double *udint, int *refd, int *hsize)
{
double tod;
double tow;
char *msg;
int i = 24 + 12;
int nsat;
int udi;
int provid = 0;
int solid = 0;
int ns = 6;
#ifndef SSR_QZSS_DRAFT_V05
ns = sys == SYS_QZS ? 4 : 6;
#endif
if (i + (sys == SYS_GLO ? 53 : 50 + ns) > rtcm->len * 8)
{
return -1;
}
if (sys == SYS_GLO)
{
tod = getbitu(rtcm->buff, i, 17);
i += 17;
adjday_glot(rtcm, tod);
}
else
{
tow = getbitu(rtcm->buff, i, 20);
i += 20;
adjweek(rtcm, tow);
}
udi = getbitu(rtcm->buff, i, 4);
i += 4;
*sync = getbitu(rtcm->buff, i, 1);
i += 1;
*refd = getbitu(rtcm->buff, i, 1);
i += 1; /* satellite ref datum */
*iod = getbitu(rtcm->buff, i, 4);
i += 4; /* iod */
provid = getbitu(rtcm->buff, i, 16);
i += 16; /* provider id */
solid = getbitu(rtcm->buff, i, 4);
i += 4; /* solution id */
nsat = getbitu(rtcm->buff, i, ns);
i += ns;
*udint = SSRUDINT[udi];
trace(4, "decode_ssr1_head: time=%s sys=%d nsat=%d sync=%d iod=%d provid=%d solid=%d\n",
time_str(rtcm->time, 2), sys, nsat, *sync, *iod, provid, solid);
if (rtcm->outtype)
{
msg = rtcm->msgtype + strlen(rtcm->msgtype);
std::snprintf(msg, sizeof(rtcm->msgtype), " %s nsat=%2d iod=%2d udi=%2d sync=%d",
time_str(rtcm->time, 2), nsat, *iod, udi, *sync);
}
*hsize = i;
return nsat;
}
/* decode ssr 2, 3, 5, 6 message header -----------------------------------------*/
int decode_ssr2_head(rtcm_t *rtcm, int sys, int *sync, int *iod,
double *udint, int *hsize)
{
double tod;
double tow;
char *msg;
int i = 24 + 12;
int nsat;
int udi;
int provid = 0;
int solid = 0;
int ns = 6;
#ifndef SSR_QZSS_DRAFT_V05
ns = sys == SYS_QZS ? 4 : 6;
#endif
if (i + (sys == SYS_GLO ? 52 : 49 + ns) > rtcm->len * 8)
{
return -1;
}
if (sys == SYS_GLO)
{
tod = getbitu(rtcm->buff, i, 17);
i += 17;
adjday_glot(rtcm, tod);
}
else
{
tow = getbitu(rtcm->buff, i, 20);
i += 20;
adjweek(rtcm, tow);
}
udi = getbitu(rtcm->buff, i, 4);
i += 4;
*sync = getbitu(rtcm->buff, i, 1);
i += 1;
*iod = getbitu(rtcm->buff, i, 4);
i += 4;
provid = getbitu(rtcm->buff, i, 16);
i += 16; /* provider id */
solid = getbitu(rtcm->buff, i, 4);
i += 4; /* solution id */
nsat = getbitu(rtcm->buff, i, ns);
i += ns;
*udint = SSRUDINT[udi];
trace(4, "decode_ssr2_head: time=%s sys=%d nsat=%d sync=%d iod=%d provid=%d solid=%d\n",
time_str(rtcm->time, 2), sys, nsat, *sync, *iod, provid, solid);
if (rtcm->outtype)
{
msg = rtcm->msgtype + strlen(rtcm->msgtype);
std::snprintf(msg, sizeof(rtcm->msgtype), " %s nsat=%2d iod=%2d udi=%2d sync=%d",
time_str(rtcm->time, 2), nsat, *iod, udi, *sync);
}
*hsize = i;
return nsat;
}
/* decode ssr 7 message header -----------------------------------------------*/
int decode_ssr7_head(rtcm_t *rtcm, int sys, int *sync, int *iod,
double *udint, int *dispe, int *mw, int *hsize)
{
double tod;
double tow;
char *msg;
int i = 24 + 12;
int nsat;
int udi;
int provid = 0;
int solid = 0;
int ns = 6;
#ifndef SSR_QZSS_DRAFT_V05
ns = sys == SYS_QZS ? 4 : 6;
#endif
if (i + (sys == SYS_GLO ? 54 : 51 + ns) > rtcm->len * 8)
{
return -1;
}
if (sys == SYS_GLO)
{
tod = getbitu(rtcm->buff, i, 17);
i += 17;
adjday_glot(rtcm, tod);
}
else
{
tow = getbitu(rtcm->buff, i, 20);
i += 20;
adjweek(rtcm, tow);
}
udi = getbitu(rtcm->buff, i, 4);
i += 4;
*sync = getbitu(rtcm->buff, i, 1);
i += 1;
*iod = getbitu(rtcm->buff, i, 4);
i += 4;
provid = getbitu(rtcm->buff, i, 16);
i += 16; /* provider id */
solid = getbitu(rtcm->buff, i, 4);
i += 4; /* solution id */
*dispe = getbitu(rtcm->buff, i, 1);
i += 1; /* dispersive bias consistency ind */
*mw = getbitu(rtcm->buff, i, 1);
i += 1; /* MW consistency indicator */
nsat = getbitu(rtcm->buff, i, ns);
i += ns;
*udint = SSRUDINT[udi];
trace(4, "decode_ssr7_head: time=%s sys=%d nsat=%d sync=%d iod=%d provid=%d solid=%d\n",
time_str(rtcm->time, 2), sys, nsat, *sync, *iod, provid, solid);
if (rtcm->outtype)
{
msg = rtcm->msgtype + strlen(rtcm->msgtype);
std::snprintf(msg, sizeof(rtcm->msgtype), " %s nsat=%2d iod=%2d udi=%2d sync=%d",
time_str(rtcm->time, 2), nsat, *iod, udi, *sync);
}
*hsize = i;
return nsat;
}
/* decode ssr 1: orbit corrections -------------------------------------------*/
int decode_ssr1(rtcm_t *rtcm, int sys)
{
double udint;
double deph[3];
double ddeph[3];
int i;
int j;
int k;
int type;
int sync;
int iod;
int nsat;
int prn;
int sat;
int iode;
int iodcrc;
int refd = 0;
int np;
int ni;
int nj;
int offp;
type = getbitu(rtcm->buff, 24, 12);
if ((nsat = decode_ssr1_head(rtcm, sys, &sync, &iod, &udint, &refd, &i)) < 0)
{
trace(2, "rtcm3 %d length error: len=%d\n", type, rtcm->len);
return -1;
}
switch (sys)
{
case SYS_GPS:
np = 6;
ni = 8;
nj = 0;
offp = 0;
break;
case SYS_GLO:
np = 5;
ni = 8;
nj = 0;
offp = 0;
break;
case SYS_GAL:
np = 6;
ni = 10;
nj = 0;
offp = 0;
break;
case SYS_QZS:
np = 4;
ni = 8;
nj = 0;
offp = 192;
break;
case SYS_BDS:
np = 6;
ni = 10;
nj = 24;
offp = 1;
break;
case SYS_SBS:
np = 6;
ni = 9;
nj = 24;
offp = 120;
break;
default:
return sync ? 0 : 10;
}
for (j = 0; j < nsat && i + 121 + np + ni + nj <= rtcm->len * 8; j++)
{
prn = getbitu(rtcm->buff, i, np) + offp;
i += np;
iode = getbitu(rtcm->buff, i, ni);
i += ni;
iodcrc = getbitu(rtcm->buff, i, nj);
i += nj;
deph[0] = getbits(rtcm->buff, i, 22) * 1E-4;
i += 22;
deph[1] = getbits(rtcm->buff, i, 20) * 4E-4;
i += 20;
deph[2] = getbits(rtcm->buff, i, 20) * 4E-4;
i += 20;
ddeph[0] = getbits(rtcm->buff, i, 21) * 1E-6;
i += 21;
ddeph[1] = getbits(rtcm->buff, i, 19) * 4E-6;
i += 19;
ddeph[2] = getbits(rtcm->buff, i, 19) * 4E-6;
i += 19;
if (!(sat = satno(sys, prn)))
{
trace(2, "rtcm3 %d satellite number error: prn=%d\n", type, prn);
continue;
}
rtcm->ssr[sat - 1].t0[0] = rtcm->time;
rtcm->ssr[sat - 1].udi[0] = udint;
rtcm->ssr[sat - 1].iod[0] = iod;
rtcm->ssr[sat - 1].iode = iode; /* sbas/bds: toe/t0 modulo */
rtcm->ssr[sat - 1].iodcrc = iodcrc; /* sbas/bds: iod crc */
rtcm->ssr[sat - 1].refd = refd;
for (k = 0; k < 3; k++)
{
rtcm->ssr[sat - 1].deph[k] = deph[k];
rtcm->ssr[sat - 1].ddeph[k] = ddeph[k];
}
rtcm->ssr[sat - 1].update = 1;
}
return sync ? 0 : 10;
}
/* decode ssr 2: clock corrections -------------------------------------------*/
int decode_ssr2(rtcm_t *rtcm, int sys)
{
double udint;
double dclk[3];
int i;
int j;
int k;
int type;
int sync;
int iod;
int nsat;
int prn;
int sat;
int np;
int offp;
type = getbitu(rtcm->buff, 24, 12);
if ((nsat = decode_ssr2_head(rtcm, sys, &sync, &iod, &udint, &i)) < 0)
{
trace(2, "rtcm3 %d length error: len=%d\n", type, rtcm->len);
return -1;
}
switch (sys)
{
case SYS_GPS:
np = 6;
offp = 0;
break;
case SYS_GLO:
np = 5;
offp = 0;
break;
case SYS_GAL:
np = 6;
offp = 0;
break;
case SYS_QZS:
np = 4;
offp = 192;
break;
case SYS_BDS:
np = 6;
offp = 1;
break;
case SYS_SBS:
np = 6;
offp = 120;
break;
default:
return sync ? 0 : 10;
}
for (j = 0; j < nsat && i + 70 + np <= rtcm->len * 8; j++)
{
prn = getbitu(rtcm->buff, i, np) + offp;
i += np;
dclk[0] = getbits(rtcm->buff, i, 22) * 1E-4;
i += 22;
dclk[1] = getbits(rtcm->buff, i, 21) * 1E-6;
i += 21;
dclk[2] = getbits(rtcm->buff, i, 27) * 2E-8;
i += 27;
if (!(sat = satno(sys, prn)))
{
trace(2, "rtcm3 %d satellite number error: prn=%d\n", type, prn);
continue;
}
rtcm->ssr[sat - 1].t0[1] = rtcm->time;
rtcm->ssr[sat - 1].udi[1] = udint;
rtcm->ssr[sat - 1].iod[1] = iod;
for (k = 0; k < 3; k++)
{
rtcm->ssr[sat - 1].dclk[k] = dclk[k];
}
rtcm->ssr[sat - 1].update = 1;
}
return sync ? 0 : 10;
}
/* decode ssr 3: satellite code biases ---------------------------------------*/
int decode_ssr3(rtcm_t *rtcm, int sys)
{
const int *codes;
double udint;
double bias;
double cbias[MAXCODE];
int i;
int j;
int k;
int type;
int mode;
int sync;
int iod;
int nsat;
int prn;
int sat;
int nbias;
int np;
int offp;
int ncode;
type = getbitu(rtcm->buff, 24, 12);
if ((nsat = decode_ssr2_head(rtcm, sys, &sync, &iod, &udint, &i)) < 0)
{
trace(2, "rtcm3 %d length error: len=%d\n", type, rtcm->len);
return -1;
}
switch (sys)
{
case SYS_GPS:
np = 6;
offp = 0;
codes = CODES_GPS;
ncode = 17;
break;
case SYS_GLO:
np = 5;
offp = 0;
codes = CODES_GLO;
ncode = 4;
break;
case SYS_GAL:
np = 6;
offp = 0;
codes = CODES_GAL;
ncode = 19;
break;
case SYS_QZS:
np = 4;
offp = 192;
codes = CODES_QZS;
ncode = 13;
break;
case SYS_BDS:
np = 6;
offp = 1;
codes = CODES_BDS;
ncode = 9;
break;
case SYS_SBS:
np = 6;
offp = 120;
codes = CODES_SBS;
ncode = 4;
break;
default:
return sync ? 0 : 10;
}
for (j = 0; j < nsat && i + 5 + np <= rtcm->len * 8; j++)
{
prn = getbitu(rtcm->buff, i, np) + offp;
i += np;
nbias = getbitu(rtcm->buff, i, 5);
i += 5;
for (k = 0; k < MAXCODE; k++)
{
cbias[k] = 0.0;
}
for (k = 0; k < nbias && i + 19 <= rtcm->len * 8; k++)
{
mode = getbitu(rtcm->buff, i, 5);
i += 5;
bias = getbits(rtcm->buff, i, 14) * 0.01;
i += 14;
if (mode <= ncode)
{
cbias[codes[mode] - 1] = static_cast(bias);
}
else
{
trace(2, "rtcm3 %d not supported mode: mode=%d\n", type, mode);
}
}
if (!(sat = satno(sys, prn)))
{
trace(2, "rtcm3 %d satellite number error: prn=%d\n", type, prn);
continue;
}
rtcm->ssr[sat - 1].t0[4] = rtcm->time;
rtcm->ssr[sat - 1].udi[4] = udint;
rtcm->ssr[sat - 1].iod[4] = iod;
for (k = 0; k < MAXCODE; k++)
{
rtcm->ssr[sat - 1].cbias[k] = static_cast(cbias[k]);
}
rtcm->ssr[sat - 1].update = 1;
}
return sync ? 0 : 10;
}
/* decode ssr 4: combined orbit and clock corrections ------------------------*/
int decode_ssr4(rtcm_t *rtcm, int sys)
{
double udint;
double deph[3];
double ddeph[3];
double dclk[3];
int i;
int j;
int k;
int type;
int nsat;
int sync;
int iod;
int prn;
int sat;
int iode;
int iodcrc;
int refd = 0;
int np;
int ni;
int nj;
int offp;
type = getbitu(rtcm->buff, 24, 12);
if ((nsat = decode_ssr1_head(rtcm, sys, &sync, &iod, &udint, &refd, &i)) < 0)
{
trace(2, "rtcm3 %d length error: len=%d\n", type, rtcm->len);
return -1;
}
switch (sys)
{
case SYS_GPS:
np = 6;
ni = 8;
nj = 0;
offp = 0;
break;
case SYS_GLO:
np = 5;
ni = 8;
nj = 0;
offp = 0;
break;
case SYS_GAL:
np = 6;
ni = 10;
nj = 0;
offp = 0;
break;
case SYS_QZS:
np = 4;
ni = 8;
nj = 0;
offp = 192;
break;
case SYS_BDS:
np = 6;
ni = 10;
nj = 24;
offp = 1;
break;
case SYS_SBS:
np = 6;
ni = 9;
nj = 24;
offp = 120;
break;
default:
return sync ? 0 : 10;
}
for (j = 0; j < nsat && i + 191 + np + ni + nj <= rtcm->len * 8; j++)
{
prn = getbitu(rtcm->buff, i, np) + offp;
i += np;
iode = getbitu(rtcm->buff, i, ni);
i += ni;
iodcrc = getbitu(rtcm->buff, i, nj);
i += nj;
deph[0] = getbits(rtcm->buff, i, 22) * 1E-4;
i += 22;
deph[1] = getbits(rtcm->buff, i, 20) * 4E-4;
i += 20;
deph[2] = getbits(rtcm->buff, i, 20) * 4E-4;
i += 20;
ddeph[0] = getbits(rtcm->buff, i, 21) * 1E-6;
i += 21;
ddeph[1] = getbits(rtcm->buff, i, 19) * 4E-6;
i += 19;
ddeph[2] = getbits(rtcm->buff, i, 19) * 4E-6;
i += 19;
dclk[0] = getbits(rtcm->buff, i, 22) * 1E-4;
i += 22;
dclk[1] = getbits(rtcm->buff, i, 21) * 1E-6;
i += 21;
dclk[2] = getbits(rtcm->buff, i, 27) * 2E-8;
i += 27;
if (!(sat = satno(sys, prn)))
{
trace(2, "rtcm3 %d satellite number error: prn=%d\n", type, prn);
continue;
}
rtcm->ssr[sat - 1].t0[0] = rtcm->ssr[sat - 1].t0[1] = rtcm->time;
rtcm->ssr[sat - 1].udi[0] = rtcm->ssr[sat - 1].udi[1] = udint;
rtcm->ssr[sat - 1].iod[0] = rtcm->ssr[sat - 1].iod[1] = iod;
rtcm->ssr[sat - 1].iode = iode;
rtcm->ssr[sat - 1].iodcrc = iodcrc;
rtcm->ssr[sat - 1].refd = refd;
for (k = 0; k < 3; k++)
{
rtcm->ssr[sat - 1].deph[k] = deph[k];
rtcm->ssr[sat - 1].ddeph[k] = ddeph[k];
rtcm->ssr[sat - 1].dclk[k] = dclk[k];
}
rtcm->ssr[sat - 1].update = 1;
}
return sync ? 0 : 10;
}
/* decode ssr 5: ura ---------------------------------------------------------*/
int decode_ssr5(rtcm_t *rtcm, int sys)
{
double udint;
int i;
int j;
int type;
int nsat;
int sync;
int iod;
int prn;
int sat;
int ura;
int np;
int offp;
type = getbitu(rtcm->buff, 24, 12);
if ((nsat = decode_ssr2_head(rtcm, sys, &sync, &iod, &udint, &i)) < 0)
{
trace(2, "rtcm3 %d length error: len=%d\n", type, rtcm->len);
return -1;
}
switch (sys)
{
case SYS_GPS:
np = 6;
offp = 0;
break;
case SYS_GLO:
np = 5;
offp = 0;
break;
case SYS_GAL:
np = 6;
offp = 0;
break;
case SYS_QZS:
np = 4;
offp = 192;
break;
case SYS_BDS:
np = 6;
offp = 1;
break;
case SYS_SBS:
np = 6;
offp = 120;
break;
default:
return sync ? 0 : 10;
}
for (j = 0; j < nsat && i + 6 + np <= rtcm->len * 8; j++)
{
prn = getbitu(rtcm->buff, i, np) + offp;
i += np;
ura = getbitu(rtcm->buff, i, 6);
i += 6;
if (!(sat = satno(sys, prn)))
{
trace(2, "rtcm3 %d satellite number error: prn=%d\n", type, prn);
continue;
}
rtcm->ssr[sat - 1].t0[3] = rtcm->time;
rtcm->ssr[sat - 1].udi[3] = udint;
rtcm->ssr[sat - 1].iod[3] = iod;
rtcm->ssr[sat - 1].ura = ura;
rtcm->ssr[sat - 1].update = 1;
}
return sync ? 0 : 10;
}
/* decode ssr 6: high rate clock correction ----------------------------------*/
int decode_ssr6(rtcm_t *rtcm, int sys)
{
double udint;
double hrclk;
int i;
int j;
int type;
int nsat;
int sync;
int iod;
int prn;
int sat;
int np;
int offp;
type = getbitu(rtcm->buff, 24, 12);
if ((nsat = decode_ssr2_head(rtcm, sys, &sync, &iod, &udint, &i)) < 0)
{
trace(2, "rtcm3 %d length error: len=%d\n", type, rtcm->len);
return -1;
}
switch (sys)
{
case SYS_GPS:
np = 6;
offp = 0;
break;
case SYS_GLO:
np = 5;
offp = 0;
break;
case SYS_GAL:
np = 6;
offp = 0;
break;
case SYS_QZS:
np = 4;
offp = 192;
break;
case SYS_BDS:
np = 6;
offp = 1;
break;
case SYS_SBS:
np = 6;
offp = 120;
break;
default:
return sync ? 0 : 10;
}
for (j = 0; j < nsat && i + 22 + np <= rtcm->len * 8; j++)
{
prn = getbitu(rtcm->buff, i, np) + offp;
i += np;
hrclk = getbits(rtcm->buff, i, 22) * 1E-4;
i += 22;
if (!(sat = satno(sys, prn)))
{
trace(2, "rtcm3 %d satellite number error: prn=%d\n", type, prn);
continue;
}
rtcm->ssr[sat - 1].t0[2] = rtcm->time;
rtcm->ssr[sat - 1].udi[2] = udint;
rtcm->ssr[sat - 1].iod[2] = iod;
rtcm->ssr[sat - 1].hrclk = hrclk;
rtcm->ssr[sat - 1].update = 1;
}
return sync ? 0 : 10;
}
/* decode ssr 7: phase bias --------------------------------------------------*/
int decode_ssr7(rtcm_t *rtcm, int sys)
{
const int *codes;
double udint;
double bias;
double std;
double pbias[MAXCODE];
double stdpb[MAXCODE];
int i;
int j;
int k;
int type;
int mode;
int sync;
int iod;
int nsat;
int prn;
int sat;
int nbias;
int ncode;
int np;
int mw;
int offp;
int dispe;
int yaw_ang;
int yaw_rate;
type = getbitu(rtcm->buff, 24, 12);
if ((nsat = decode_ssr7_head(rtcm, sys, &sync, &iod, &udint, &dispe, &mw, &i)) < 0)
{
trace(2, "rtcm3 %d length error: len=%d\n", type, rtcm->len);
return -1;
}
switch (sys)
{
case SYS_GPS:
np = 6;
offp = 0;
codes = CODES_GPS;
ncode = 17;
break;
case SYS_GLO:
np = 5;
offp = 0;
codes = CODES_GLO;
ncode = 4;
break;
case SYS_GAL:
np = 6;
offp = 0;
codes = CODES_GAL;
ncode = 19;
break;
case SYS_QZS:
np = 4;
offp = 192;
codes = CODES_QZS;
ncode = 13;
break;
case SYS_BDS:
np = 6;
offp = 1;
codes = CODES_BDS;
ncode = 9;
break;
default:
return sync ? 0 : 10;
}
for (j = 0; j < nsat && i + 5 + 17 + np <= rtcm->len * 8; j++)
{
prn = getbitu(rtcm->buff, i, np) + offp;
i += np;
nbias = getbitu(rtcm->buff, i, 5);
i += 5;
yaw_ang = getbitu(rtcm->buff, i, 9);
i += 9;
yaw_rate = getbits(rtcm->buff, i, 8);
i += 8;
for (k = 0; k < MAXCODE; k++)
{
pbias[k] = stdpb[k] = 0.0;
}
for (k = 0; k < nbias && i + 49 <= rtcm->len * 8; k++)
{
mode = getbitu(rtcm->buff, i, 5);
i += 5;
/* sii = getbitu(rtcm->buff, i, 1); */ i += 1; /* integer-indicator */
/* swl = getbitu(rtcm->buff, i, 2); */ i += 2; /* WL integer-indicator */
/* sdc = getbitu(rtcm->buff, i, 4); */ i += 4; /* discontinuity counter */
bias = getbits(rtcm->buff, i, 20);
i += 20; /* phase bias (m) */
std = getbitu(rtcm->buff, i, 17);
i += 17; /* phase bias std-dev (m) */
if (mode <= ncode)
{
pbias[codes[mode] - 1] = bias * 0.0001; /* (m) */
stdpb[codes[mode] - 1] = std * 0.0001; /* (m) */
}
else
{
trace(2, "rtcm3 %d not supported mode: mode=%d\n", type, mode);
}
}
if (!(sat = satno(sys, prn)))
{
trace(2, "rtcm3 %d satellite number error: prn=%d\n", type, prn);
continue;
}
rtcm->ssr[sat - 1].t0[5] = rtcm->time;
rtcm->ssr[sat - 1].udi[5] = udint;
rtcm->ssr[sat - 1].iod[5] = iod;
rtcm->ssr[sat - 1].yaw_ang = yaw_ang / 256.0 * 180.0; /* (deg) */
rtcm->ssr[sat - 1].yaw_rate = yaw_rate / 8192.0 * 180.0; /* (deg/s) */
for (k = 0; k < MAXCODE; k++)
{
rtcm->ssr[sat - 1].pbias[k] = pbias[k];
rtcm->ssr[sat - 1].stdpb[k] = static_cast(stdpb[k]);
}
}
return 20;
}
/* get signal index ----------------------------------------------------------*/
void sigindex(int sys, const unsigned char *code, const int *freq, int n,
const char *opt, int *ind)
{
int i;
int nex;
int pri;
int pri_h[8] = {0};
int index[8] = {0};
int ex[32] = {0};
/* test code priority */
for (i = 0; i < n; i++)
{
if (!code[i])
{
continue;
}
if (freq[i] > NFREQ)
{ /* save as extended signal if freq > NFREQ */
ex[i] = 1;
continue;
}
/* code priority */
pri = getcodepri(sys, code[i], opt);
/* select highest priority signal */
if (pri > pri_h[freq[i] - 1])
{
if (index[freq[i] - 1])
{
ex[index[freq[i] - 1] - 1] = 1;
}
pri_h[freq[i] - 1] = pri;
index[freq[i] - 1] = i + 1;
}
else
{
ex[i] = 1;
}
}
/* signal index in obs data */
for (i = nex = 0; i < n; i++)
{
if (ex[i] == 0)
{
ind[i] = freq[i] - 1;
}
else if (nex < NEXOBS)
{
ind[i] = NFREQ + nex++;
}
else
{ /* no space in obs data */
trace(2, "rtcm msm: no space in obs data sys=%d code=%d\n", sys, code[i]);
ind[i] = -1;
}
#if 0
trace(2, "sig pos: sys=%d code=%d ex=%d ind=%d\n", sys, code[i], ex[i], ind[i]);
#endif
}
}
/* save obs data in msm message ----------------------------------------------*/
void save_msm_obs(rtcm_t *rtcm, int sys, msm_h_t *h, const double *r,
const double *pr, const double *cp, const double *rr,
const double *rrf, const double *cnr, const int *lock,
const int *ex, const int *half)
{
const char *sig[32];
double tt;
double wl;
unsigned char code[32];
char *msm_type = const_cast("");
char *q = nullptr;
int i;
int j;
int k;
int type;
int prn;
int sat;
int fn;
int index = 0;
int freq[32];
int ind[32];
type = getbitu(rtcm->buff, 24, 12);
switch (sys)
{
case SYS_GPS:
msm_type = q = rtcm->msmtype[0];
break;
case SYS_GLO:
msm_type = q = rtcm->msmtype[1];
break;
case SYS_GAL:
msm_type = q = rtcm->msmtype[2];
break;
case SYS_QZS:
msm_type = q = rtcm->msmtype[3];
break;
case SYS_SBS:
msm_type = q = rtcm->msmtype[4];
break;
case SYS_BDS:
msm_type = q = rtcm->msmtype[5];
break;
}
/* id to signal */
for (i = 0; i < h->nsig; i++)
{
switch (sys)
{
case SYS_GPS:
sig[i] = msm_sig_gps[h->sigs[i] - 1];
break;
case SYS_GLO:
sig[i] = msm_sig_glo[h->sigs[i] - 1];
break;
case SYS_GAL:
sig[i] = msm_sig_gal[h->sigs[i] - 1];
break;
case SYS_QZS:
sig[i] = msm_sig_qzs[h->sigs[i] - 1];
break;
case SYS_SBS:
sig[i] = msm_sig_sbs[h->sigs[i] - 1];
break;
case SYS_BDS:
sig[i] = msm_sig_cmp[h->sigs[i] - 1];
break;
default:
sig[i] = "";
break;
}
/* signal to rinex obs type */
code[i] = obs2code(sig[i], freq + i);
/* frequency index for beidou */
if (sys == SYS_BDS)
{
if (freq[i] == 5)
{
freq[i] = 2; /* B2 */
}
else if (freq[i] == 4)
{
freq[i] = 3; /* B3 */
}
}
if (code[i] != CODE_NONE)
{
if (q)
{
q += std::snprintf(q, sizeof(rtcm->msmtype[0]), "L%s%s", sig[i], i < h->nsig - 1 ? ", " : "");
}
}
else
{
if (q)
{
q += std::snprintf(q, sizeof(rtcm->msmtype[0]), "(%d)%s", h->sigs[i], i < h->nsig - 1 ? ", " : "");
}
trace(2, "rtcm3 %d: unknown signal id=%2d\n", type, h->sigs[i]);
}
}
trace(3, "rtcm3 %d: signals=%s\n", type, msm_type);
/* get signal index */
sigindex(sys, code, freq, h->nsig, rtcm->opt, ind);
for (i = j = 0; i < h->nsat; i++)
{
prn = h->sats[i];
if (sys == SYS_QZS)
{
prn += MINPRNQZS - 1;
}
else if (sys == SYS_SBS)
{
prn += MINPRNSBS - 1;
}
if ((sat = satno(sys, prn)))
{
tt = timediff(rtcm->obs.data[0].time, rtcm->time);
if (rtcm->obsflag || fabs(tt) > 1E-9)
{
rtcm->obs.n = rtcm->obsflag = 0;
}
index = obsindex3(&rtcm->obs, rtcm->time, sat);
}
else
{
trace(2, "rtcm3 %d satellite error: prn=%d\n", type, prn);
}
for (k = 0; k < h->nsig; k++)
{
if (!h->cellmask[k + i * h->nsig])
{
continue;
}
if (sat && index >= 0 && ind[k] >= 0)
{
/* satellite carrier wave length */
wl = satwavelen(sat, freq[k] - 1, &rtcm->nav);
/* glonass wave length by extended info */
if (sys == SYS_GLO && ex && ex[i] <= 13)
{
fn = ex[i] - 7;
wl = SPEED_OF_LIGHT / ((freq[k] == 2 ? FREQ2_GLO : FREQ1_GLO) +
(freq[k] == 2 ? DFRQ2_GLO : DFRQ1_GLO) * fn);
}
/* pseudorange (m) */
if (r[i] != 0.0 && pr[j] > -1E12)
{
rtcm->obs.data[index].P[ind[k]] = r[i] + pr[j];
}
/* carrier-phase (cycle) */
if (r[i] != 0.0 && cp[j] > -1E12 && wl > 0.0)
{
rtcm->obs.data[index].L[ind[k]] = (r[i] + cp[j]) / wl;
}
/* doppler (hz) */
if (rr && rrf && rrf[j] > -1E12 && wl > 0.0)
{
rtcm->obs.data[index].D[ind[k]] = static_cast(-(rr[i] + rrf[j]) / wl);
}
rtcm->obs.data[index].LLI[ind[k]] =
lossoflock(rtcm, sat, ind[k], lock[j]) + (half[j] ? 3 : 0);
rtcm->obs.data[index].SNR[ind[k]] = static_cast(cnr[j] * 4.0);
rtcm->obs.data[index].code[ind[k]] = code[k];
}
j++;
}
}
}
/* decode type msm message header --------------------------------------------*/
int decode_msm_head(rtcm_t *rtcm, int sys, int *sync, int *iod,
msm_h_t *h, int *hsize)
{
msm_h_t h0 = {0, 0, 0, 0, 0, 0, 0, 0, {0}, {0}, {0}};
double tow;
double tod;
char *msg;
int i = 24;
int j;
int mask;
int staid;
int type;
int ncell = 0;
type = getbitu(rtcm->buff, i, 12);
i += 12;
*h = h0;
if (i + 157 <= rtcm->len * 8)
{
staid = getbitu(rtcm->buff, i, 12);
i += 12;
if (sys == SYS_GLO)
{
/* dow = getbitu(rtcm->buff, i, 3); */ i += 3;
tod = getbitu(rtcm->buff, i, 27) * 0.001;
i += 27;
adjday_glot(rtcm, tod);
}
else if (sys == SYS_BDS)
{
tow = getbitu(rtcm->buff, i, 30) * 0.001;
i += 30;
tow += 14.0; /* BDT -> GPST */
adjweek(rtcm, tow);
}
else
{
tow = getbitu(rtcm->buff, i, 30) * 0.001;
i += 30;
adjweek(rtcm, tow);
}
*sync = getbitu(rtcm->buff, i, 1);
i += 1;
*iod = getbitu(rtcm->buff, i, 3);
i += 3;
h->time_s = getbitu(rtcm->buff, i, 7);
i += 7;
h->clk_str = getbitu(rtcm->buff, i, 2);
i += 2;
h->clk_ext = getbitu(rtcm->buff, i, 2);
i += 2;
h->smooth = getbitu(rtcm->buff, i, 1);
i += 1;
h->tint_s = getbitu(rtcm->buff, i, 3);
i += 3;
for (j = 1; j <= 64; j++)
{
mask = getbitu(rtcm->buff, i, 1);
i += 1;
if (mask)
{
h->sats[h->nsat++] = j;
}
}
for (j = 1; j <= 32; j++)
{
mask = getbitu(rtcm->buff, i, 1);
i += 1;
if (mask)
{
h->sigs[h->nsig++] = j;
}
}
}
else
{
trace(2, "rtcm3 %d length error: len=%d\n", type, rtcm->len);
return -1;
}
/* test station id */
if (!test_staid(rtcm, staid))
{
return -1;
}
if (h->nsat * h->nsig > 64)
{
trace(2, "rtcm3 %d number of sats and sigs error: nsat=%d nsig=%d\n",
type, h->nsat, h->nsig);
return -1;
}
if (i + h->nsat * h->nsig > rtcm->len * 8)
{
trace(2, "rtcm3 %d length error: len=%d nsat=%d nsig=%d\n", type,
rtcm->len, h->nsat, h->nsig);
return -1;
}
for (j = 0; j < h->nsat * h->nsig; j++)
{
h->cellmask[j] = getbitu(rtcm->buff, i, 1);
i += 1;
if (h->cellmask[j])
{
ncell++;
}
}
*hsize = i;
trace(4, "decode_head_msm: time=%s sys=%d staid=%d nsat=%d nsig=%d sync=%d iod=%d ncell=%d\n",
time_str(rtcm->time, 2), sys, staid, h->nsat, h->nsig, *sync, *iod, ncell);
if (rtcm->outtype)
{
msg = rtcm->msgtype + strlen(rtcm->msgtype);
std::snprintf(msg, sizeof(rtcm->msgtype), " staid=%4d %s nsat=%2d nsig=%2d iod=%2d ncell=%2d sync=%d",
staid, time_str(rtcm->time, 2), h->nsat, h->nsig, *iod, ncell, *sync);
}
return ncell;
}
/* decode unsupported msm message --------------------------------------------*/
int decode_msm0(rtcm_t *rtcm, int sys)
{
msm_h_t h = {0, 0, 0, 0, 0, 0, 0, 0, {0}, {0}, {0}};
int i;
int sync;
int iod;
if (decode_msm_head(rtcm, sys, &sync, &iod, &h, &i) < 0)
{
return -1;
}
rtcm->obsflag = !sync;
return sync ? 0 : 1;
}
/* decode msm 4: full pseudorange and phaserange plus cnr --------------------*/
int decode_msm4(rtcm_t *rtcm, int sys)
{
msm_h_t h = {0, 0, 0, 0, 0, 0, 0, 0, {0}, {0}, {0}};
double r[64];
double pr[64];
double cp[64];
double cnr[64];
int i;
int j;
int type;
int sync;
int iod;
int ncell;
int rng;
int rng_m;
int prv;
int cpv;
int lock[64];
int half[64];
type = getbitu(rtcm->buff, 24, 12);
/* decode msm header */
if ((ncell = decode_msm_head(rtcm, sys, &sync, &iod, &h, &i)) < 0)
{
return -1;
}
if (i + h.nsat * 18 + ncell * 48 > rtcm->len * 8)
{
trace(2, "rtcm3 %d length error: nsat=%d ncell=%d len=%d\n", type, h.nsat,
ncell, rtcm->len);
return -1;
}
for (j = 0; j < h.nsat; j++)
{
r[j] = 0.0;
}
for (j = 0; j < ncell; j++)
{
pr[j] = cp[j] = -1E16;
}
/* decode satellite data */
for (j = 0; j < h.nsat; j++)
{ /* range */
rng = getbitu(rtcm->buff, i, 8);
i += 8;
if (rng != 255)
{
r[j] = rng * RANGE_MS;
}
}
for (j = 0; j < h.nsat; j++)
{
rng_m = getbitu(rtcm->buff, i, 10);
i += 10;
if (r[j] != 0.0)
{
r[j] += rng_m * TWO_N10 * RANGE_MS;
}
}
/* decode signal data */
for (j = 0; j < ncell; j++)
{ /* pseudorange */
prv = getbits(rtcm->buff, i, 15);
i += 15;
if (prv != -16384)
{
pr[j] = prv * TWO_N24 * RANGE_MS;
}
}
for (j = 0; j < ncell; j++)
{ /* phaserange */
cpv = getbits(rtcm->buff, i, 22);
i += 22;
if (cpv != -2097152)
{
cp[j] = cpv * TWO_N29 * RANGE_MS;
}
}
for (j = 0; j < ncell; j++)
{ /* lock time */
lock[j] = getbitu(rtcm->buff, i, 4);
i += 4;
}
for (j = 0; j < ncell; j++)
{ /* half-cycle ambiguity */
half[j] = getbitu(rtcm->buff, i, 1);
i += 1;
}
for (j = 0; j < ncell; j++)
{ /* cnr */
cnr[j] = getbitu(rtcm->buff, i, 6) * 1.0;
i += 6;
}
/* save obs data in msm message */
save_msm_obs(rtcm, sys, &h, r, pr, cp, nullptr, nullptr, cnr, lock, nullptr, half);
rtcm->obsflag = !sync;
return sync ? 0 : 1;
}
/* decode msm 5: full pseudorange, phaserange, phaserangerate and cnr --------*/
int decode_msm5(rtcm_t *rtcm, int sys)
{
msm_h_t h = {0, 0, 0, 0, 0, 0, 0, 0, {0}, {0}, {0}};
double r[64];
double rr[64];
double pr[64];
double cp[64];
double rrf[64];
double cnr[64];
int i;
int j;
int type;
int sync;
int iod;
int ncell;
int rng;
int rng_m;
int rate;
int prv;
int cpv;
int rrv;
int lock[64];
int ex[64];
int half[64];
type = getbitu(rtcm->buff, 24, 12);
/* decode msm header */
if ((ncell = decode_msm_head(rtcm, sys, &sync, &iod, &h, &i)) < 0)
{
return -1;
}
if (i + h.nsat * 36 + ncell * 63 > rtcm->len * 8)
{
trace(2, "rtcm3 %d length error: nsat=%d ncell=%d len=%d\n", type, h.nsat,
ncell, rtcm->len);
return -1;
}
for (j = 0; j < h.nsat; j++)
{
r[j] = rr[j] = 0.0;
ex[j] = 15;
}
for (j = 0; j < ncell; j++)
{
pr[j] = cp[j] = rrf[j] = -1E16;
}
/* decode satellite data */
for (j = 0; j < h.nsat; j++)
{ /* range */
rng = getbitu(rtcm->buff, i, 8);
i += 8;
if (rng != 255)
{
r[j] = rng * RANGE_MS;
}
}
for (j = 0; j < h.nsat; j++)
{ /* extended info */
ex[j] = getbitu(rtcm->buff, i, 4);
i += 4;
}
for (j = 0; j < h.nsat; j++)
{
rng_m = getbitu(rtcm->buff, i, 10);
i += 10;
if (r[j] != 0.0)
{
r[j] += rng_m * TWO_N10 * RANGE_MS;
}
}
for (j = 0; j < h.nsat; j++)
{ /* phaserangerate */
rate = getbits(rtcm->buff, i, 14);
i += 14;
if (rate != -8192)
{
rr[j] = rate * 1.0;
}
}
/* decode signal data */
for (j = 0; j < ncell; j++)
{ /* pseudorange */
prv = getbits(rtcm->buff, i, 15);
i += 15;
if (prv != -16384)
{
pr[j] = prv * TWO_N24 * RANGE_MS;
}
}
for (j = 0; j < ncell; j++)
{ /* phaserange */
cpv = getbits(rtcm->buff, i, 22);
i += 22;
if (cpv != -2097152)
{
cp[j] = cpv * TWO_N29 * RANGE_MS;
}
}
for (j = 0; j < ncell; j++)
{ /* lock time */
lock[j] = getbitu(rtcm->buff, i, 4);
i += 4;
}
for (j = 0; j < ncell; j++)
{ /* half-cycle ambiguity */
half[j] = getbitu(rtcm->buff, i, 1);
i += 1;
}
for (j = 0; j < ncell; j++)
{ /* cnr */
cnr[j] = getbitu(rtcm->buff, i, 6) * 1.0;
i += 6;
}
for (j = 0; j < ncell; j++)
{ /* phaserangerate */
rrv = getbits(rtcm->buff, i, 15);
i += 15;
if (rrv != -16384)
{
rrf[j] = rrv * 0.0001;
}
}
/* save obs data in msm message */
save_msm_obs(rtcm, sys, &h, r, pr, cp, rr, rrf, cnr, lock, ex, half);
rtcm->obsflag = !sync;
return sync ? 0 : 1;
}
/* decode msm 6: full pseudorange and phaserange plus cnr (high-res) ---------*/
int decode_msm6(rtcm_t *rtcm, int sys)
{
msm_h_t h = {0, 0, 0, 0, 0, 0, 0, 0, {0}, {0}, {0}};
double r[64];
double pr[64];
double cp[64];
double cnr[64];
int i;
int j;
int type;
int sync;
int iod;
int ncell;
int rng;
int rng_m;
int prv;
int cpv;
int lock[64];
int half[64];
type = getbitu(rtcm->buff, 24, 12);
/* decode msm header */
if ((ncell = decode_msm_head(rtcm, sys, &sync, &iod, &h, &i)) < 0)
{
return -1;
}
if (i + h.nsat * 18 + ncell * 65 > rtcm->len * 8)
{
trace(2, "rtcm3 %d length error: nsat=%d ncell=%d len=%d\n", type, h.nsat,
ncell, rtcm->len);
return -1;
}
for (j = 0; j < h.nsat; j++)
{
r[j] = 0.0;
}
for (j = 0; j < ncell; j++)
{
pr[j] = cp[j] = -1E16;
}
/* decode satellite data */
for (j = 0; j < h.nsat; j++)
{ /* range */
rng = getbitu(rtcm->buff, i, 8);
i += 8;
if (rng != 255)
{
r[j] = rng * RANGE_MS;
}
}
for (j = 0; j < h.nsat; j++)
{
rng_m = getbitu(rtcm->buff, i, 10);
i += 10;
if (r[j] != 0.0)
{
r[j] += rng_m * TWO_N10 * RANGE_MS;
}
}
/* decode signal data */
for (j = 0; j < ncell; j++)
{ /* pseudorange */
prv = getbits(rtcm->buff, i, 20);
i += 20;
if (prv != -524288)
{
pr[j] = prv * TWO_N29 * RANGE_MS;
}
}
for (j = 0; j < ncell; j++)
{ /* phaserange */
cpv = getbits(rtcm->buff, i, 24);
i += 24;
if (cpv != -8388608)
{
cp[j] = cpv * TWO_N31 * RANGE_MS;
}
}
for (j = 0; j < ncell; j++)
{ /* lock time */
lock[j] = getbitu(rtcm->buff, i, 10);
i += 10;
}
for (j = 0; j < ncell; j++)
{ /* half-cycle ambiguity */
half[j] = getbitu(rtcm->buff, i, 1);
i += 1;
}
for (j = 0; j < ncell; j++)
{ /* cnr */
cnr[j] = getbitu(rtcm->buff, i, 10) * 0.0625;
i += 10;
}
/* save obs data in msm message */
save_msm_obs(rtcm, sys, &h, r, pr, cp, nullptr, nullptr, cnr, lock, nullptr, half);
rtcm->obsflag = !sync;
return sync ? 0 : 1;
}
/* decode msm 7: full pseudorange, phaserange, phaserangerate and cnr (h-res) */
int decode_msm7(rtcm_t *rtcm, int sys)
{
msm_h_t h = {0, 0, 0, 0, 0, 0, 0, 0, {0}, {0}, {0}};
double r[64];
double rr[64];
double pr[64];
double cp[64];
double rrf[64];
double cnr[64];
int i;
int j;
int type;
int sync;
int iod;
int ncell;
int rng;
int rng_m;
int rate;
int prv;
int cpv;
int rrv;
int lock[64];
int ex[64];
int half[64];
type = getbitu(rtcm->buff, 24, 12);
/* decode msm header */
if ((ncell = decode_msm_head(rtcm, sys, &sync, &iod, &h, &i)) < 0)
{
return -1;
}
if (i + h.nsat * 36 + ncell * 80 > rtcm->len * 8)
{
trace(2, "rtcm3 %d length error: nsat=%d ncell=%d len=%d\n", type, h.nsat,
ncell, rtcm->len);
return -1;
}
for (j = 0; j < h.nsat; j++)
{
r[j] = rr[j] = 0.0;
ex[j] = 15;
}
for (j = 0; j < ncell; j++)
{
pr[j] = cp[j] = rrf[j] = -1E16;
}
/* decode satellite data */
for (j = 0; j < h.nsat; j++)
{ /* range */
rng = getbitu(rtcm->buff, i, 8);
i += 8;
if (rng != 255)
{
r[j] = rng * RANGE_MS;
}
}
for (j = 0; j < h.nsat; j++)
{ /* extended info */
ex[j] = getbitu(rtcm->buff, i, 4);
i += 4;
}
for (j = 0; j < h.nsat; j++)
{
rng_m = getbitu(rtcm->buff, i, 10);
i += 10;
if (r[j] != 0.0)
{
r[j] += rng_m * TWO_N10 * RANGE_MS;
}
}
for (j = 0; j < h.nsat; j++)
{ /* phaserangerate */
rate = getbits(rtcm->buff, i, 14);
i += 14;
if (rate != -8192)
{
rr[j] = rate * 1.0;
}
}
/* decode signal data */
for (j = 0; j < ncell; j++)
{ /* pseudorange */
prv = getbits(rtcm->buff, i, 20);
i += 20;
if (prv != -524288)
{
pr[j] = prv * TWO_N29 * RANGE_MS;
}
}
for (j = 0; j < ncell; j++)
{ /* phaserange */
cpv = getbits(rtcm->buff, i, 24);
i += 24;
if (cpv != -8388608)
{
cp[j] = cpv * TWO_N31 * RANGE_MS;
}
}
for (j = 0; j < ncell; j++)
{ /* lock time */
lock[j] = getbitu(rtcm->buff, i, 10);
i += 10;
}
for (j = 0; j < ncell; j++)
{ /* half-cycle amiguity */
half[j] = getbitu(rtcm->buff, i, 1);
i += 1;
}
for (j = 0; j < ncell; j++)
{ /* cnr */
cnr[j] = getbitu(rtcm->buff, i, 10) * 0.0625;
i += 10;
}
for (j = 0; j < ncell; j++)
{ /* phaserangerate */
rrv = getbits(rtcm->buff, i, 15);
i += 15;
if (rrv != -16384)
{
rrf[j] = rrv * 0.0001;
}
}
/* save obs data in msm message */
save_msm_obs(rtcm, sys, &h, r, pr, cp, rr, rrf, cnr, lock, ex, half);
rtcm->obsflag = !sync;
return sync ? 0 : 1;
}
/* decode type 1230: glonass L1 and L2 code-phase biases ---------------------*/
int decode_type1230(rtcm_t *rtcm __attribute__((unused)))
{
trace(2, "rtcm3 1230: not supported message\n");
return 0;
}
/* decode rtcm ver.3 message -------------------------------------------------*/
int decode_rtcm3(rtcm_t *rtcm)
{
double tow;
int ret = 0;
int type = getbitu(rtcm->buff, 24, 12);
int week;
trace(3, "decode_rtcm3: len=%3d type=%d\n", rtcm->len, type);
if (rtcm->outtype)
{
std::snprintf(rtcm->msgtype, sizeof(rtcm->msgtype), "RTCM %4d (%4d):", type, rtcm->len);
}
/* real-time input option */
if (strstr(rtcm->opt, "-RT_INP"))
{
tow = time2gpst(utc2gpst(timeget()), &week);
rtcm->time = gpst2time(week, floor(tow));
}
switch (type)
{
case 1001:
ret = decode_type1001(rtcm);
break; /* not supported */
case 1002:
ret = decode_type1002(rtcm);
break;
case 1003:
ret = decode_type1003(rtcm);
break; /* not supported */
case 1004:
ret = decode_type1004(rtcm);
break;
case 1005:
ret = decode_type1005(rtcm);
break;
case 1006:
ret = decode_type1006(rtcm);
break;
case 1007:
ret = decode_type1007(rtcm);
break;
case 1008:
ret = decode_type1008(rtcm);
break;
case 1009:
ret = decode_type1009(rtcm);
break; /* not supported */
case 1010:
ret = decode_type1010(rtcm);
break;
case 1011:
ret = decode_type1011(rtcm);
break; /* not supported */
case 1012:
ret = decode_type1012(rtcm);
break;
case 1013:
ret = decode_type1013(rtcm);
break; /* not supported */
case 1019:
ret = decode_type1019(rtcm);
break;
case 1020:
ret = decode_type1020(rtcm);
break;
case 1021:
ret = decode_type1021(rtcm);
break; /* not supported */
case 1022:
ret = decode_type1022(rtcm);
break; /* not supported */
case 1023:
ret = decode_type1023(rtcm);
break; /* not supported */
case 1024:
ret = decode_type1024(rtcm);
break; /* not supported */
case 1025:
ret = decode_type1025(rtcm);
break; /* not supported */
case 1026:
ret = decode_type1026(rtcm);
break; /* not supported */
case 1027:
ret = decode_type1027(rtcm);
break; /* not supported */
case 1029:
ret = decode_type1029(rtcm);
break;
case 1030:
ret = decode_type1030(rtcm);
break; /* not supported */
case 1031:
ret = decode_type1031(rtcm);
break; /* not supported */
case 1032:
ret = decode_type1032(rtcm);
break; /* not supported */
case 1033:
ret = decode_type1033(rtcm);
break;
case 1034:
ret = decode_type1034(rtcm);
break; /* not supported */
case 1035:
ret = decode_type1035(rtcm);
break; /* not supported */
case 1037:
ret = decode_type1037(rtcm);
break; /* not supported */
case 1038:
ret = decode_type1038(rtcm);
break; /* not supported */
case 1039:
ret = decode_type1039(rtcm);
break; /* not supported */
case 1044:
ret = decode_type1044(rtcm);
break;
case 1045:
ret = decode_type1045(rtcm);
break;
case 1046:
ret = decode_type1046(rtcm);
break; /* extension for IGS MGEX */
case 1047:
ret = decode_type1047(rtcm);
break; /* beidou ephemeris (tentative mt) */
case 63:
ret = decode_type63(rtcm);
break; /* beidou ephemeris (rtcm draft) */
case 1057:
ret = decode_ssr1(rtcm, SYS_GPS);
break;
case 1058:
ret = decode_ssr2(rtcm, SYS_GPS);
break;
case 1059:
ret = decode_ssr3(rtcm, SYS_GPS);
break;
case 1060:
ret = decode_ssr4(rtcm, SYS_GPS);
break;
case 1061:
ret = decode_ssr5(rtcm, SYS_GPS);
break;
case 1062:
ret = decode_ssr6(rtcm, SYS_GPS);
break;
case 1063:
ret = decode_ssr1(rtcm, SYS_GLO);
break;
case 1064:
ret = decode_ssr2(rtcm, SYS_GLO);
break;
case 1065:
ret = decode_ssr3(rtcm, SYS_GLO);
break;
case 1066:
ret = decode_ssr4(rtcm, SYS_GLO);
break;
case 1067:
ret = decode_ssr5(rtcm, SYS_GLO);
break;
case 1068:
ret = decode_ssr6(rtcm, SYS_GLO);
break;
case 1071:
ret = decode_msm0(rtcm, SYS_GPS);
break; /* not supported */
case 1072:
ret = decode_msm0(rtcm, SYS_GPS);
break; /* not supported */
case 1073:
ret = decode_msm0(rtcm, SYS_GPS);
break; /* not supported */
case 1074:
ret = decode_msm4(rtcm, SYS_GPS);
break;
case 1075:
ret = decode_msm5(rtcm, SYS_GPS);
break;
case 1076:
ret = decode_msm6(rtcm, SYS_GPS);
break;
case 1077:
ret = decode_msm7(rtcm, SYS_GPS);
break;
case 1081:
ret = decode_msm0(rtcm, SYS_GLO);
break; /* not supported */
case 1082:
ret = decode_msm0(rtcm, SYS_GLO);
break; /* not supported */
case 1083:
ret = decode_msm0(rtcm, SYS_GLO);
break; /* not supported */
case 1084:
ret = decode_msm4(rtcm, SYS_GLO);
break;
case 1085:
ret = decode_msm5(rtcm, SYS_GLO);
break;
case 1086:
ret = decode_msm6(rtcm, SYS_GLO);
break;
case 1087:
ret = decode_msm7(rtcm, SYS_GLO);
break;
case 1091:
ret = decode_msm0(rtcm, SYS_GAL);
break; /* not supported */
case 1092:
ret = decode_msm0(rtcm, SYS_GAL);
break; /* not supported */
case 1093:
ret = decode_msm0(rtcm, SYS_GAL);
break; /* not supported */
case 1094:
ret = decode_msm4(rtcm, SYS_GAL);
break;
case 1095:
ret = decode_msm5(rtcm, SYS_GAL);
break;
case 1096:
ret = decode_msm6(rtcm, SYS_GAL);
break;
case 1097:
ret = decode_msm7(rtcm, SYS_GAL);
break;
case 1101:
ret = decode_msm0(rtcm, SYS_SBS);
break; /* not supported */
case 1102:
ret = decode_msm0(rtcm, SYS_SBS);
break; /* not supported */
case 1103:
ret = decode_msm0(rtcm, SYS_SBS);
break; /* not supported */
case 1104:
ret = decode_msm4(rtcm, SYS_SBS);
break;
case 1105:
ret = decode_msm5(rtcm, SYS_SBS);
break;
case 1106:
ret = decode_msm6(rtcm, SYS_SBS);
break;
case 1107:
ret = decode_msm7(rtcm, SYS_SBS);
break;
case 1111:
ret = decode_msm0(rtcm, SYS_QZS);
break; /* not supported */
case 1112:
ret = decode_msm0(rtcm, SYS_QZS);
break; /* not supported */
case 1113:
ret = decode_msm0(rtcm, SYS_QZS);
break; /* not supported */
case 1114:
ret = decode_msm4(rtcm, SYS_QZS);
break;
case 1115:
ret = decode_msm5(rtcm, SYS_QZS);
break;
case 1116:
ret = decode_msm6(rtcm, SYS_QZS);
break;
case 1117:
ret = decode_msm7(rtcm, SYS_QZS);
break;
case 1121:
ret = decode_msm0(rtcm, SYS_BDS);
break; /* not supported */
case 1122:
ret = decode_msm0(rtcm, SYS_BDS);
break; /* not supported */
case 1123:
ret = decode_msm0(rtcm, SYS_BDS);
break; /* not supported */
case 1124:
ret = decode_msm4(rtcm, SYS_BDS);
break;
case 1125:
ret = decode_msm5(rtcm, SYS_BDS);
break;
case 1126:
ret = decode_msm6(rtcm, SYS_BDS);
break;
case 1127:
ret = decode_msm7(rtcm, SYS_BDS);
break;
case 1230:
ret = decode_type1230(rtcm);
break; /* not supported */
case 1240:
ret = decode_ssr1(rtcm, SYS_GAL);
break;
case 1241:
ret = decode_ssr2(rtcm, SYS_GAL);
break;
case 1242:
ret = decode_ssr3(rtcm, SYS_GAL);
break;
case 1243:
ret = decode_ssr4(rtcm, SYS_GAL);
break;
case 1244:
ret = decode_ssr5(rtcm, SYS_GAL);
break;
case 1245:
ret = decode_ssr6(rtcm, SYS_GAL);
break;
case 1246:
ret = decode_ssr1(rtcm, SYS_QZS);
break;
case 1247:
ret = decode_ssr2(rtcm, SYS_QZS);
break;
case 1248:
ret = decode_ssr3(rtcm, SYS_QZS);
break;
case 1249:
ret = decode_ssr4(rtcm, SYS_QZS);
break;
case 1250:
ret = decode_ssr5(rtcm, SYS_QZS);
break;
case 1251:
ret = decode_ssr6(rtcm, SYS_QZS);
break;
case 1252:
ret = decode_ssr1(rtcm, SYS_SBS);
break;
case 1253:
ret = decode_ssr2(rtcm, SYS_SBS);
break;
case 1254:
ret = decode_ssr3(rtcm, SYS_SBS);
break;
case 1255:
ret = decode_ssr4(rtcm, SYS_SBS);
break;
case 1256:
ret = decode_ssr5(rtcm, SYS_SBS);
break;
case 1257:
ret = decode_ssr6(rtcm, SYS_SBS);
break;
case 1258:
ret = decode_ssr1(rtcm, SYS_BDS);
break;
case 1259:
ret = decode_ssr2(rtcm, SYS_BDS);
break;
case 1260:
ret = decode_ssr3(rtcm, SYS_BDS);
break;
case 1261:
ret = decode_ssr4(rtcm, SYS_BDS);
break;
case 1262:
ret = decode_ssr5(rtcm, SYS_BDS);
break;
case 1263:
ret = decode_ssr6(rtcm, SYS_BDS);
break;
case 2065:
ret = decode_ssr7(rtcm, SYS_GPS);
break; /* tentative */
case 2066:
ret = decode_ssr7(rtcm, SYS_GLO);
break; /* tentative */
case 2067:
ret = decode_ssr7(rtcm, SYS_GAL);
break; /* tentative */
case 2068:
ret = decode_ssr7(rtcm, SYS_QZS);
break; /* tentative */
case 2070:
ret = decode_ssr7(rtcm, SYS_BDS);
break; /* tentative */
}
if (ret >= 0)
{
type -= 1000;
if (1 <= type && type <= 299)
{
rtcm->nmsg3[type]++; /* 1001-1299 */
}
else if (1000 <= type && type <= 1099)
{
rtcm->nmsg3[type - 700]++; /* 2000-2099 */
}
else
{
rtcm->nmsg3[0]++;
}
}
return ret;
}