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gnss-sdr/src/algorithms/libs/rtklib/rtklib_rtksvr.cc

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#include "rtklib_rtksvr.h"
#include "rtklib_preceph.h"
#include "rtklib_rtcm.h"
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#include "rtklib_rtkcmn.h"
#include "rtklib_rtkpos.h"
#include "rtklib_sbas.h"
#include "rtklib_solution.h"
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#include "rtklib_stream.h"
/* write solution header to output stream ------------------------------------*/
void writesolhead(stream_t *stream, const solopt_t *solopt)
{
unsigned char buff[1024];
int n;
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n = outsolheads(buff, solopt);
strwrite(stream, buff, n);
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}
/* save output buffer --------------------------------------------------------*/
void saveoutbuf(rtksvr_t *svr, unsigned char *buff, int n, int index)
{
rtksvrlock(svr);
n = n < svr->buffsize - svr->nsb[index] ? n : svr->buffsize - svr->nsb[index];
memcpy(svr->sbuf[index] + svr->nsb[index], buff, n);
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svr->nsb[index] += n;
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rtksvrunlock(svr);
}
/* write solution to output stream -------------------------------------------*/
void writesol(rtksvr_t *svr, int index)
{
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solopt_t solopt = solopt_default;
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unsigned char buff[1024];
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int i, n;
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tracet(4, "writesol: index=%d\n", index);
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for (i = 0; i < 2; i++)
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{
/* output solution */
n = outsols(buff, &svr->rtk.sol, svr->rtk.rb, svr->solopt + i);
strwrite(svr->stream + i + 3, buff, n);
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/* save output buffer */
saveoutbuf(svr, buff, n, i);
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/* output extended solution */
n = outsolexs(buff, &svr->rtk.sol, svr->rtk.ssat, svr->solopt + i);
strwrite(svr->stream + i + 3, buff, n);
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/* save output buffer */
saveoutbuf(svr, buff, n, i);
}
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/* output solution to monitor port */
if (svr->moni)
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{
n = outsols(buff, &svr->rtk.sol, svr->rtk.rb, &solopt);
strwrite(svr->moni, buff, n);
}
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/* save solution buffer */
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if (svr->nsol < MAXSOLBUF)
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{
rtksvrlock(svr);
svr->solbuf[svr->nsol++] = svr->rtk.sol;
rtksvrunlock(svr);
}
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}
/* update navigation data ----------------------------------------------------*/
void updatenav(nav_t *nav)
{
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int i, j;
for (i = 0; i < MAXSAT; i++)
for (j = 0; j < NFREQ; j++)
{
nav->lam[i][j] = satwavelen(i + 1, j, nav);
}
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}
/* update glonass frequency channel number in raw data struct ----------------*/
void updatefcn(rtksvr_t *svr)
{
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int i, j, sat, frq;
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for (i = 0; i < MAXPRNGLO; i++)
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{
sat = satno(SYS_GLO, i + 1);
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for (j = 0, frq = -999; j < 3; j++)
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{
if (svr->raw[j].nav.geph[i].sat != sat) continue;
frq = svr->raw[j].nav.geph[i].frq;
}
if (frq < -7 || frq > 6) continue;
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for (j = 0; j < 3; j++)
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{
if (svr->raw[j].nav.geph[i].sat == sat) continue;
svr->raw[j].nav.geph[i].sat = sat;
svr->raw[j].nav.geph[i].frq = frq;
}
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}
}
/* update rtk server struct --------------------------------------------------*/
void updatesvr(rtksvr_t *svr, int ret, obs_t *obs, nav_t *nav, int sat,
sbsmsg_t *sbsmsg, int index, int iobs)
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{
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eph_t *eph1, *eph2, *eph3;
geph_t *geph1, *geph2, *geph3;
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// gtime_t tof;
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double pos[3], del[3] = {0}, dr[3];
int i, n = 0, prn, sbssat = svr->rtk.opt.sbassatsel, sys, iode;
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tracet(4, "updatesvr: ret=%d sat=%2d index=%d\n", ret, sat, index);
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if (ret == 1)
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{ /* observation data */
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if (iobs < MAXOBSBUF)
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{
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for (i = 0; i < obs->n; i++)
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{
if (svr->rtk.opt.exsats[obs->data[i].sat - 1] == 1 ||
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!(satsys(obs->data[i].sat, nullptr) & svr->rtk.opt.navsys)) continue;
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svr->obs[index][iobs].data[n] = obs->data[i];
svr->obs[index][iobs].data[n++].rcv = index + 1;
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}
svr->obs[index][iobs].n = n;
sortobs(&svr->obs[index][iobs]);
}
svr->nmsg[index][0]++;
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}
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else if (ret == 2)
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{ /* ephemeris */
if (satsys(sat, &prn) != SYS_GLO)
{
if (!svr->navsel || svr->navsel == index + 1)
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{
eph1 = nav->eph + sat - 1;
eph2 = svr->nav.eph + sat - 1;
eph3 = svr->nav.eph + sat - 1 + MAXSAT;
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if (eph2->ttr.time == 0 ||
(eph1->iode != eph3->iode && eph1->iode != eph2->iode) ||
(timediff(eph1->toe, eph3->toe) != 0.0 &&
timediff(eph1->toe, eph2->toe) != 0.0))
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{
*eph3 = *eph2;
*eph2 = *eph1;
updatenav(&svr->nav);
}
}
svr->nmsg[index][1]++;
}
else
{
if (!svr->navsel || svr->navsel == index + 1)
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{
geph1 = nav->geph + prn - 1;
geph2 = svr->nav.geph + prn - 1;
geph3 = svr->nav.geph + prn - 1 + MAXPRNGLO;
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if (geph2->tof.time == 0 ||
(geph1->iode != geph3->iode && geph1->iode != geph2->iode))
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{
*geph3 = *geph2;
*geph2 = *geph1;
updatenav(&svr->nav);
updatefcn(svr);
}
}
svr->nmsg[index][6]++;
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}
}
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else if (ret == 3)
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{ /* sbas message */
if (sbsmsg && (sbssat == sbsmsg->prn || sbssat == 0))
{
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if (svr->nsbs < MAXSBSMSG)
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{
svr->sbsmsg[svr->nsbs++] = *sbsmsg;
}
else
{
for (i = 0; i < MAXSBSMSG - 1; i++) svr->sbsmsg[i] = svr->sbsmsg[i + 1];
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svr->sbsmsg[i] = *sbsmsg;
}
sbsupdatecorr(sbsmsg, &svr->nav);
}
svr->nmsg[index][3]++;
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}
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else if (ret == 9)
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{ /* ion/utc parameters */
if (svr->navsel == index || svr->navsel >= 3)
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{
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for (i = 0; i < 8; i++) svr->nav.ion_gps[i] = nav->ion_gps[i];
for (i = 0; i < 4; i++) svr->nav.utc_gps[i] = nav->utc_gps[i];
for (i = 0; i < 4; i++) svr->nav.ion_gal[i] = nav->ion_gal[i];
for (i = 0; i < 4; i++) svr->nav.utc_gal[i] = nav->utc_gal[i];
for (i = 0; i < 8; i++) svr->nav.ion_qzs[i] = nav->ion_qzs[i];
for (i = 0; i < 4; i++) svr->nav.utc_qzs[i] = nav->utc_qzs[i];
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svr->nav.leaps = nav->leaps;
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}
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svr->nmsg[index][2]++;
}
else if (ret == 5)
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{ /* antenna position parameters */
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if (svr->rtk.opt.refpos == 4 && index == 1)
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{
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for (i = 0; i < 3; i++)
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{
svr->rtk.rb[i] = svr->rtcm[1].sta.pos[i];
}
/* antenna delta */
ecef2pos(svr->rtk.rb, pos);
if (svr->rtcm[1].sta.deltype)
{ /* xyz */
del[2] = svr->rtcm[1].sta.hgt;
enu2ecef(pos, del, dr);
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for (i = 0; i < 3; i++)
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{
svr->rtk.rb[i] += svr->rtcm[1].sta.del[i] + dr[i];
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}
}
else
{ /* enu */
enu2ecef(pos, svr->rtcm[1].sta.del, dr);
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for (i = 0; i < 3; i++)
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{
svr->rtk.rb[i] += dr[i];
}
}
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}
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svr->nmsg[index][4]++;
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}
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else if (ret == 7)
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{ /* dgps correction */
svr->nmsg[index][5]++;
}
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else if (ret == 10)
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{ /* ssr message */
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for (i = 0; i < MAXSAT; i++)
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{
if (!svr->rtcm[index].ssr[i].update) continue;
svr->rtcm[index].ssr[i].update = 0;
iode = svr->rtcm[index].ssr[i].iode;
sys = satsys(i + 1, &prn);
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/* check corresponding ephemeris exists */
if (sys == SYS_GPS || sys == SYS_GAL || sys == SYS_QZS)
{
if (svr->nav.eph[i].iode != iode &&
svr->nav.eph[i + MAXSAT].iode != iode)
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{
continue;
}
}
else if (sys == SYS_GLO)
{
if (svr->nav.geph[prn - 1].iode != iode &&
svr->nav.geph[prn - 1 + MAXPRNGLO].iode != iode)
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{
continue;
}
}
svr->nav.ssr[i] = svr->rtcm[index].ssr[i];
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}
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svr->nmsg[index][7]++;
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}
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else if (ret == 31)
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{ /* lex message */
// lexupdatecorr(&svr->raw[index].lexmsg, &svr->nav, &tof);
svr->nmsg[index][8]++;
}
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else if (ret == -1)
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{ /* error */
svr->nmsg[index][9]++;
}
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}
/* decode receiver raw/rtcm data ---------------------------------------------*/
int decoderaw(rtksvr_t *svr, int index)
{
obs_t *obs;
nav_t *nav;
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sbsmsg_t *sbsmsg = nullptr;
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int i, ret = 0, sat, fobs = 0;
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tracet(4, "decoderaw: index=%d\n", index);
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rtksvrlock(svr);
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for (i = 0; i < svr->nb[index]; i++)
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{
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/* input rtcm/receiver raw data from stream */
if (svr->format[index] == STRFMT_RTCM2)
{
ret = input_rtcm2(svr->rtcm + index, svr->buff[index][i]);
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obs = &svr->rtcm[index].obs;
nav = &svr->rtcm[index].nav;
sat = svr->rtcm[index].ephsat;
}
else if (svr->format[index] == STRFMT_RTCM3)
{
ret = input_rtcm3(svr->rtcm + index, svr->buff[index][i]);
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obs = &svr->rtcm[index].obs;
nav = &svr->rtcm[index].nav;
sat = svr->rtcm[index].ephsat;
}
else
{
// Disabled !!
//ret = input_raw(svr->raw+index, svr->format[index], svr->buff[index][i]);
obs = &svr->raw[index].obs;
nav = &svr->raw[index].nav;
sat = svr->raw[index].ephsat;
sbsmsg = &svr->raw[index].sbsmsg;
}
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#if 0 /* record for receiving tick */
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if (ret == 1)
{
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trace(0, "%d %10d T=%s NS=%2d\n", index, tickget(),
time_str(obs->data[0].time, 0), obs->n);
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}
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#endif
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/* update rtk server */
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if (ret > 0) updatesvr(svr, ret, obs, nav, sat, sbsmsg, index, fobs);
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/* observation data received */
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if (ret == 1)
{
if (fobs < MAXOBSBUF)
fobs++;
else
svr->prcout++;
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}
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}
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svr->nb[index] = 0;
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rtksvrunlock(svr);
return fobs;
}
/* decode download file ------------------------------------------------------*/
void decodefile(rtksvr_t *svr, int index)
{
int i = 0;
char glo_fcn[MAXPRNGLO + 1];
// Allocate space for GLONASS frequency channels depending on availability
for (i = 0; i < MAXPRNGLO + 1; i++)
glo_fcn[i] = '0';
pcv_t pcvt0[MAXSAT] = {{0, {'0'}, {'0'}, {0, 0.0}, {0, 0.0}, {{0.0}, {0.0}}, {{0.0}, {0.0}}}};
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sbsfcorr_t sbsfcorr0 = {{0, 0.0}, 0.0, 0.0, 0.0, 0, 0, 0};
sbslcorr_t sbslcorr0 = {{0, 0.0}, 0, {0.0}, {0.0}, 0.0, 0.0};
sbssat_t sbssat0 = {0, 0, 0, {{0, sbsfcorr0, sbslcorr0}}};
sbsigp_t sbsigp0[MAXNIGP] = {{{0, 0.0}, 0, 0, 0, 0.0}};
sbsion_t sbsion0[MAXBAND + 1] = {{0, 0, {*sbsigp0}}};
dgps_t dgps0[MAXSAT] = {{{0, 0.0}, 0.0, 0.0, 0, 0.0}};
ssr_t ssr0[MAXSAT] = {{{{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'}};
lexeph_t lexeph0[MAXSAT] = {{{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}}};
stec_t stec0[MAXSTA] = {{{0, 0.0}, 0, 0.0, 0.0, {0.0}, 0}};
trop_t trop0[MAXSTA] = {{{0, 0.0}, {0.0}, {0.0}}};
pppcorr_t pppcorr0 = {0, {{0}, {0}}, {{0.0}, {0.0}}, {0}, {0}, {0}, {0}, {stec0}, {trop0}};
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nav_t nav = {0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr,
{0, 0, (erpd_t *){nullptr}}, {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}, {*glo_fcn}, {*pcvt0}, sbssat0, {*sbsion0}, {*dgps0}, {*ssr0}, {*lexeph0},
{{0, 0.0}, 0.0, {0.0}, {{0.0}, {0.0}}}, pppcorr0};
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char file[1024];
int nb;
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tracet(4, "decodefile: index=%d\n", index);
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rtksvrlock(svr);
/* check file path completed */
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if ((nb = svr->nb[index]) <= 2 ||
svr->buff[index][nb - 2] != '\r' || svr->buff[index][nb - 1] != '\n')
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{
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rtksvrunlock(svr);
return;
}
strncpy(file, reinterpret_cast<char *>(svr->buff[index]), nb - 2);
file[nb - 2] = '\0';
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svr->nb[index] = 0;
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rtksvrunlock(svr);
if (svr->format[index] == STRFMT_SP3)
{ /* precise ephemeris */
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/* read sp3 precise ephemeris */
readsp3(file, &nav, 0);
if (nav.ne <= 0)
{
tracet(1, "sp3 file read error: %s\n", file);
return;
}
/* update precise ephemeris */
rtksvrlock(svr);
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if (svr->nav.peph) free(svr->nav.peph);
svr->nav.ne = svr->nav.nemax = nav.ne;
svr->nav.peph = nav.peph;
svr->ftime[index] = utc2gpst(timeget());
strcpy(svr->files[index], file);
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rtksvrunlock(svr);
}
else if (svr->format[index] == STRFMT_RNXCLK)
{ /* precise clock */
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/* read rinex clock */ // Disabled!!
if (1 /*readrnxc(file, &nav)<=0 */)
{
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tracet(1, "rinex clock file read error: %s\n", file);
return;
}
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/* update precise clock */
rtksvrlock(svr);
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if (svr->nav.pclk) free(svr->nav.pclk);
svr->nav.nc = svr->nav.ncmax = nav.nc;
svr->nav.pclk = nav.pclk;
svr->ftime[index] = utc2gpst(timeget());
strcpy(svr->files[index], file);
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rtksvrunlock(svr);
}
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}
/* rtk server thread ---------------------------------------------------------*/
void *rtksvrthread(void *arg)
{
auto *svr = static_cast<rtksvr_t *>(arg);
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obs_t obs;
obsd_t data[MAXOBS * 2];
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double tt;
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unsigned int tick, ticknmea;
unsigned char *p, *q;
int i, j, n, fobs[3] = {0}, cycle, cputime;
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tracet(3, "rtksvrthread:\n");
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svr->state = 1;
obs.data = data;
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svr->tick = tickget();
ticknmea = svr->tick - 1000;
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for (cycle = 0; svr->state; cycle++)
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{
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tick = tickget();
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for (i = 0; i < 3; i++)
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{
p = svr->buff[i] + svr->nb[i];
q = svr->buff[i] + svr->buffsize;
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/* read receiver raw/rtcm data from input stream */
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if ((n = strread(svr->stream + i, p, static_cast<int>(q[0]) - static_cast<int>(p[0]))) <= 0)
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{
continue;
}
/* write receiver raw/rtcm data to log stream */
strwrite(svr->stream + i + 5, p, n);
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svr->nb[i] += n;
/* save peek buffer */
rtksvrlock(svr);
n = n < svr->buffsize - svr->npb[i] ? n : svr->buffsize - svr->npb[i];
memcpy(svr->pbuf[i] + svr->npb[i], p, n);
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svr->npb[i] += n;
rtksvrunlock(svr);
}
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for (i = 0; i < 3; i++)
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{
if (svr->format[i] == STRFMT_SP3 || svr->format[i] == STRFMT_RNXCLK)
{
/* decode download file */
decodefile(svr, i);
}
else
{
/* decode receiver raw/rtcm data */
fobs[i] = decoderaw(svr, i);
}
}
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for (i = 0; i < fobs[0]; i++)
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{ /* for each rover observation data */
obs.n = 0;
for (j = 0; j < svr->obs[0][i].n && obs.n < MAXOBS * 2; j++)
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{
obs.data[obs.n++] = svr->obs[0][i].data[j];
}
for (j = 0; j < svr->obs[1][0].n && obs.n < MAXOBS * 2; j++)
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{
obs.data[obs.n++] = svr->obs[1][0].data[j];
}
/* rtk positioning */
rtksvrlock(svr);
rtkpos(&svr->rtk, obs.data, obs.n, &svr->nav);
rtksvrunlock(svr);
if (svr->rtk.sol.stat != SOLQ_NONE)
{
/* adjust current time */
tt = static_cast<int>(tickget() - tick) / 1000.0 + DTTOL;
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timeset(gpst2utc(timeadd(svr->rtk.sol.time, tt)));
/* write solution */
writesol(svr, i);
}
/* if cpu overload, inclement obs outage counter and break */
if (static_cast<int>(tickget() - tick) >= svr->cycle)
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{
svr->prcout += fobs[0] - i - 1;
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#if 0 /* omitted v.2.4.1 */
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break;
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#endif
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}
}
/* send null solution if no solution (1hz) */
if (svr->rtk.sol.stat == SOLQ_NONE && cycle % (1000 / svr->cycle) == 0)
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{
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writesol(svr, 0);
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}
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/* send nmea request to base/nrtk input stream */
if (svr->nmeacycle > 0 && static_cast<int>(tick - ticknmea) >= svr->nmeacycle)
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{
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if (svr->stream[1].state == 1)
{
if (svr->nmeareq == 1)
{
strsendnmea(svr->stream + 1, svr->nmeapos);
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}
else if (svr->nmeareq == 2 && norm_rtk(svr->rtk.sol.rr, 3) > 0.0)
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{
strsendnmea(svr->stream + 1, svr->rtk.sol.rr);
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}
}
ticknmea = tick;
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}
if ((cputime = static_cast<int>(tickget() - tick)) > 0) svr->cputime = cputime;
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/* sleep until next cycle */
sleepms(svr->cycle - cputime);
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}
for (i = 0; i < MAXSTRRTK; i++) strclose(svr->stream + i);
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for (i = 0; i < 3; i++)
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{
svr->nb[i] = svr->npb[i] = 0;
free(svr->buff[i]);
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svr->buff[i] = nullptr;
free(svr->pbuf[i]);
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svr->pbuf[i] = nullptr;
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//free_raw (svr->raw +i);
free_rtcm(svr->rtcm + i);
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}
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for (i = 0; i < 2; i++)
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{
svr->nsb[i] = 0;
free(svr->sbuf[i]);
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svr->sbuf[i] = nullptr;
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}
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return nullptr;
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}
/* initialize rtk server -------------------------------------------------------
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* initialize rtk server
* args : rtksvr_t *svr IO rtk server
* return : status (0:error, 1:ok)
*-----------------------------------------------------------------------------*/
int rtksvrinit(rtksvr_t *svr)
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{
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gtime_t time0 = {0, 0.0};
sol_t sol0 = {{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};
eph_t eph0 = {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,
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0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, {0.0}, {0.0}, 0.0, 0.0};
geph_t geph0 = {0, -1, 0, 0, 0, 0, {0, 0.0}, {0, 0.0}, {0.0}, {0.0}, {0.0},
0.0, 0.0, 0.0};
seph_t seph0 = {0, {0, 0.0}, {0, 0.0}, 0, 0, {0.0}, {0.0}, {0.0}, 0.0, 0.0};
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int i, j;
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tracet(3, "rtksvrinit:\n");
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svr->state = svr->cycle = svr->nmeacycle = svr->nmeareq = 0;
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for (i = 0; i < 3; i++) svr->nmeapos[i] = 0.0;
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svr->buffsize = 0;
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for (i = 0; i < 3; i++) svr->format[i] = 0;
for (i = 0; i < 2; i++) svr->solopt[i] = solopt_default;
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svr->navsel = svr->nsbs = svr->nsol = 0;
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rtkinit(&svr->rtk, &prcopt_default);
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for (i = 0; i < 3; i++) svr->nb[i] = 0;
for (i = 0; i < 2; i++) svr->nsb[i] = 0;
for (i = 0; i < 3; i++) svr->npb[i] = 0;
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for (i = 0; i < 3; i++) svr->buff[i] = nullptr;
for (i = 0; i < 2; i++) svr->sbuf[i] = nullptr;
for (i = 0; i < 3; i++) svr->pbuf[i] = nullptr;
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for (i = 0; i < MAXSOLBUF; i++) svr->solbuf[i] = sol0;
for (i = 0; i < 3; i++)
for (j = 0; j < 10; j++) svr->nmsg[i][j] = 0;
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for (i = 0; i < 3; i++) svr->ftime[i] = time0;
for (i = 0; i < 3; i++) svr->files[i][0] = '\0';
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svr->moni = nullptr;
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svr->tick = 0;
svr->thread = 0; // NOLINT
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svr->cputime = svr->prcout = 0;
if (!(svr->nav.eph = static_cast<eph_t *>(malloc(sizeof(eph_t) * MAXSAT * 2))) ||
!(svr->nav.geph = static_cast<geph_t *>(malloc(sizeof(geph_t) * NSATGLO * 2))) ||
!(svr->nav.seph = static_cast<seph_t *>(malloc(sizeof(seph_t) * NSATSBS * 2))))
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{
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tracet(1, "rtksvrinit: malloc error\n");
return 0;
}
for (i = 0; i < MAXSAT * 2; i++) svr->nav.eph[i] = eph0;
for (i = 0; i < NSATGLO * 2; i++) svr->nav.geph[i] = geph0;
for (i = 0; i < NSATSBS * 2; i++) svr->nav.seph[i] = seph0;
svr->nav.n = MAXSAT * 2;
svr->nav.ng = NSATGLO * 2;
svr->nav.ns = NSATSBS * 2;
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for (i = 0; i < 3; i++)
for (j = 0; j < MAXOBSBUF; j++)
{
if (!(svr->obs[i][j].data = static_cast<obsd_t *>(malloc(sizeof(obsd_t) * MAXOBS))))
{
tracet(1, "rtksvrinit: malloc error\n");
return 0;
}
}
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for (i = 0; i < 3; i++)
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{
memset(svr->raw + i, 0, sizeof(raw_t));
memset(svr->rtcm + i, 0, sizeof(rtcm_t));
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}
for (i = 0; i < MAXSTRRTK; i++) strinit(svr->stream + i);
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initlock(&svr->lock);
return 1;
}
/* free rtk server -------------------------------------------------------------
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* free rtk server
* args : rtksvr_t *svr IO rtk server
* return : none
*-----------------------------------------------------------------------------*/
void rtksvrfree(rtksvr_t *svr)
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{
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int i, j;
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free(svr->nav.eph);
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free(svr->nav.geph);
free(svr->nav.seph);
for (i = 0; i < 3; i++)
for (j = 0; j < MAXOBSBUF; j++)
{
free(svr->obs[i][j].data);
}
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}
/* lock/unlock rtk server ------------------------------------------------------
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* lock/unlock rtk server
* args : rtksvr_t *svr IO rtk server
* return : status (1:ok 0:error)
*-----------------------------------------------------------------------------*/
void rtksvrlock(rtksvr_t *svr) { rtk_lock(&svr->lock); }
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void rtksvrunlock(rtksvr_t *svr) { rtk_unlock(&svr->lock); }
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/* start rtk server ------------------------------------------------------------
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* start rtk server thread
* args : rtksvr_t *svr IO rtk server
* int cycle I server cycle (ms)
* int buffsize I input buffer size (bytes)
* int *strs I stream types (STR_???)
* types[0]=input stream rover
* types[1]=input stream base station
* types[2]=input stream correction
* types[3]=output stream solution 1
* types[4]=output stream solution 2
* types[5]=log stream rover
* types[6]=log stream base station
* types[7]=log stream correction
* char *paths I input stream paths
* int *format I input stream formats (STRFMT_???)
* format[0]=input stream rover
* format[1]=input stream base station
* format[2]=input stream correction
* int navsel I navigation message select
* (0:rover, 1:base, 2:ephem, 3:all)
* char **cmds I input stream start commands
* cmds[0]=input stream rover (NULL: no command)
* cmds[1]=input stream base (NULL: no command)
* cmds[2]=input stream corr (NULL: no command)
* char **rcvopts I receiver options
* rcvopt[0]=receiver option rover
* rcvopt[1]=receiver option base
* rcvopt[2]=receiver option corr
* int nmeacycle I nmea request cycle (ms) (0:no request)
* int nmeareq I nmea request type (0:no, 1:base pos, 2:single sol)
* double *nmeapos I transmitted nmea position (ecef) (m)
* prcopt_t *prcopt I rtk processing options
* solopt_t *solopt I solution options
* solopt[0]=solution 1 options
* solopt[1]=solution 2 options
* stream_t *moni I monitor stream (NULL: not used)
* return : status (1:ok 0:error)
*-----------------------------------------------------------------------------*/
int rtksvrstart(rtksvr_t *svr, int cycle, int buffsize, int *strs,
char **paths, int *formats, int navsel, char **cmds,
char **rcvopts, int nmeacycle, int nmeareq,
const double *nmeapos, prcopt_t *prcopt,
solopt_t *solopt, stream_t *moni)
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{
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gtime_t time, time0 = {0, 0.0};
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int i, j, rw;
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tracet(3, "rtksvrstart: cycle=%d buffsize=%d navsel=%d nmeacycle=%d nmeareq=%d\n",
cycle, buffsize, navsel, nmeacycle, nmeareq);
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if (svr->state) return 0;
strinitcom();
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svr->cycle = cycle > 1 ? cycle : 1;
svr->nmeacycle = nmeacycle > 1000 ? nmeacycle : 1000;
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svr->nmeareq = nmeareq;
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for (i = 0; i < 3; i++) svr->nmeapos[i] = nmeapos[i];
svr->buffsize = buffsize > 4096 ? buffsize : 4096;
for (i = 0; i < 3; i++) svr->format[i] = formats[i];
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svr->navsel = navsel;
svr->nsbs = 0;
svr->nsol = 0;
svr->prcout = 0;
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rtkfree(&svr->rtk);
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rtkinit(&svr->rtk, prcopt);
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for (i = 0; i < 3; i++)
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{ /* input/log streams */
svr->nb[i] = svr->npb[i] = 0;
if (!(svr->buff[i] = static_cast<unsigned char *>(malloc(buffsize))) ||
!(svr->pbuf[i] = static_cast<unsigned char *>(malloc(buffsize))))
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{
tracet(1, "rtksvrstart: malloc error\n");
return 0;
}
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for (j = 0; j < 10; j++) svr->nmsg[i][j] = 0;
for (j = 0; j < MAXOBSBUF; j++) svr->obs[i][j].n = 0;
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/* initialize receiver raw and rtcm control */
//init_raw (svr->raw +i);
init_rtcm(svr->rtcm + i);
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/* set receiver and rtcm option */
if (strlen(rcvopts[i]) < 256) strcpy(svr->raw[i].opt, rcvopts[i]);
if (strlen(rcvopts[i]) < 256) strcpy(svr->rtcm[i].opt, rcvopts[i]);
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/* connect dgps corrections */
svr->rtcm[i].dgps = svr->nav.dgps;
}
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for (i = 0; i < 2; i++)
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{ /* output peek buffer */
if (!(svr->sbuf[i] = static_cast<unsigned char *>(malloc(buffsize))))
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{
tracet(1, "rtksvrstart: malloc error\n");
return 0;
}
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}
/* set solution options */
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for (i = 0; i < 2; i++)
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{
svr->solopt[i] = solopt[i];
}
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/* set base station position */
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for (i = 0; i < 6; i++)
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{
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svr->rtk.rb[i] = i < 3 ? prcopt->rb[i] : 0.0;
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}
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/* update navigation data */
for (i = 0; i < MAXSAT * 2; i++) svr->nav.eph[i].ttr = time0;
for (i = 0; i < NSATGLO * 2; i++) svr->nav.geph[i].tof = time0;
for (i = 0; i < NSATSBS * 2; i++) svr->nav.seph[i].tof = time0;
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updatenav(&svr->nav);
/* set monitor stream */
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svr->moni = moni;
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/* open input streams */
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for (i = 0; i < 8; i++)
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{
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rw = i < 3 ? STR_MODE_R : STR_MODE_W;
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if (strs[i] != STR_FILE) rw |= STR_MODE_W;
if (!stropen(svr->stream + i, strs[i], rw, paths[i]))
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{
for (i--; i >= 0; i--) strclose(svr->stream + i);
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return 0;
}
/* set initial time for rtcm and raw */
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if (i < 3)
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{
time = utc2gpst(timeget());
svr->raw[i].time = strs[i] == STR_FILE ? strgettime(svr->stream + i) : time;
svr->rtcm[i].time = strs[i] == STR_FILE ? strgettime(svr->stream + i) : time;
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}
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}
/* sync input streams */
strsync(svr->stream, svr->stream + 1);
strsync(svr->stream, svr->stream + 2);
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/* write start commands to input streams */
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for (i = 0; i < 3; i++)
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{
if (cmds[i]) strsendcmd(svr->stream + i, cmds[i]);
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}
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/* write solution header to solution streams */
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for (i = 3; i < 5; i++)
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{
writesolhead(svr->stream + i, svr->solopt + i - 3);
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}
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/* create rtk server thread */
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if (pthread_create(&svr->thread, nullptr, rtksvrthread, svr))
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{
for (i = 0; i < MAXSTRRTK; i++) strclose(svr->stream + i);
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return 0;
}
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return 1;
}
/* stop rtk server -------------------------------------------------------------
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* start rtk server thread
* args : rtksvr_t *svr IO rtk server
* char **cmds I input stream stop commands
* cmds[0]=input stream rover (NULL: no command)
* cmds[1]=input stream base (NULL: no command)
* cmds[2]=input stream ephem (NULL: no command)
* return : none
*-----------------------------------------------------------------------------*/
void rtksvrstop(rtksvr_t *svr, char **cmds)
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{
int i;
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tracet(3, "rtksvrstop:\n");
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/* write stop commands to input streams */
rtksvrlock(svr);
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for (i = 0; i < 3; i++)
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{
if (cmds[i]) strsendcmd(svr->stream + i, cmds[i]);
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}
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rtksvrunlock(svr);
/* stop rtk server */
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svr->state = 0;
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/* free rtk server thread */
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pthread_join(svr->thread, nullptr);
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}
/* open output/log stream ------------------------------------------------------
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* open output/log stream
* args : rtksvr_t *svr IO rtk server
* int index I output/log stream index
* (3:solution 1, 4:solution 2, 5:log rover,
* 6:log base station, 7:log correction)
* int str I output/log stream types (STR_???)
* char *path I output/log stream path
* solopt_t *solopt I solution options
* return : status (1:ok 0:error)
*-----------------------------------------------------------------------------*/
int rtksvropenstr(rtksvr_t *svr, int index, int str, const char *path,
const solopt_t *solopt)
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{
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tracet(3, "rtksvropenstr: index=%d str=%d path=%s\n", index, str, path);
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if (index < 3 || index > 7 || !svr->state) return 0;
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rtksvrlock(svr);
if (svr->stream[index].state > 0)
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{
rtksvrunlock(svr);
return 0;
}
if (!stropen(svr->stream + index, str, STR_MODE_W, path))
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{
tracet(2, "stream open error: index=%d\n", index);
rtksvrunlock(svr);
return 0;
}
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if (index <= 4)
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{
svr->solopt[index - 3] = *solopt;
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/* write solution header to solution stream */
writesolhead(svr->stream + index, svr->solopt + index - 3);
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}
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rtksvrunlock(svr);
return 1;
}
/* close output/log stream -----------------------------------------------------
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* close output/log stream
* args : rtksvr_t *svr IO rtk server
* int index I output/log stream index
* (3:solution 1, 4:solution 2, 5:log rover,
* 6:log base station, 7:log correction)
* return : none
*-----------------------------------------------------------------------------*/
void rtksvrclosestr(rtksvr_t *svr, int index)
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{
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tracet(3, "rtksvrclosestr: index=%d\n", index);
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if (index < 3 || index > 7 || !svr->state) return;
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rtksvrlock(svr);
strclose(svr->stream + index);
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rtksvrunlock(svr);
}
/* get observation data status -------------------------------------------------
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* get current observation data status
* args : rtksvr_t *svr I rtk server
* int rcv I receiver (0:rover, 1:base, 2:ephem)
* gtime_t *time O time of observation data
* int *sat O satellite prn numbers
* double *az O satellite azimuth angles (rad)
* double *el O satellite elevation angles (rad)
* int **snr O satellite snr for each freq (dBHz)
* snr[i][j] = sat i freq j snr
* int *vsat O valid satellite flag
* return : number of satellites
*-----------------------------------------------------------------------------*/
int rtksvrostat(rtksvr_t *svr, int rcv, gtime_t *time, int *sat,
double *az, double *el, int **snr, int *vsat)
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{
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int i, j, ns;
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tracet(4, "rtksvrostat: rcv=%d\n", rcv);
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if (!svr->state) return 0;
rtksvrlock(svr);
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ns = svr->obs[rcv][0].n;
if (ns > 0)
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{
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*time = svr->obs[rcv][0].data[0].time;
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}
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for (i = 0; i < ns; i++)
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{
sat[i] = svr->obs[rcv][0].data[i].sat;
az[i] = svr->rtk.ssat[sat[i] - 1].azel[0];
el[i] = svr->rtk.ssat[sat[i] - 1].azel[1];
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for (j = 0; j < NFREQ; j++)
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{
snr[i][j] = static_cast<int>(svr->obs[rcv][0].data[i].SNR[j] * 0.25);
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}
if (svr->rtk.sol.stat == SOLQ_NONE || svr->rtk.sol.stat == SOLQ_SINGLE)
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{
vsat[i] = svr->rtk.ssat[sat[i] - 1].vs;
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}
else
{
vsat[i] = svr->rtk.ssat[sat[i] - 1].vsat[0];
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}
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}
rtksvrunlock(svr);
return ns;
}
/* get stream status -----------------------------------------------------------
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* get current stream status
* args : rtksvr_t *svr I rtk server
* int *sstat O status of streams
* char *msg O status messages
* return : none
*-----------------------------------------------------------------------------*/
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void rtksvrsstat(rtksvr_t *svr, int *sstat, char *msg)
{
int i;
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char s[MAXSTRMSG], *p = msg;
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tracet(4, "rtksvrsstat:\n");
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rtksvrlock(svr);
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for (i = 0; i < MAXSTRRTK; i++)
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{
sstat[i] = strstat(svr->stream + i, s);
if (*s) p += sprintf(p, "(%d) %s ", i + 1, s);
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}
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rtksvrunlock(svr);
}