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SoftOSGPS.c
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SoftOSGPS.c
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#include "SoftOSGPS.h"
/***********************************************************************
Software GPS RECEIVER (SoftOSGPS)
***********************************************************************/
#include "serport.h" /* NMEA */
#include "nmea.h" /* NMEA */
#include <time.h>
#include <stdio.h>
#include <stdlib.h>
#include <math.h>
#include <string.h>
#include <sys/types.h>
#include <sys/stat.h>
#include "file.h"
#include "display.h"
#ifdef __GNUC__
#include <errno.h>
#include <sys/socket.h>
#include <netinet/ip.h>
#include <arpa/inet.h>
#include <netdb.h>
#include <sys/un.h>
#include <getopt.h>
#elif (defined WIN32)
#include <winsock2.h>
#include "ws2tcpip.h"
#include "getopt.h"
typedef int socklen_t;
#endif
#define MAIN
#include "consts.h"
#include "structs.h"
#include "interfac.h"
#include "gpsfuncs.h"
#include "globals.h"
#include "rinex.h"
#include "correlator.h"
#undef MAIN
#ifndef FILENAME_MAX
#define FILENAME_MAX 256
#endif
#define DEFAULT_FILENAME "gnss.bin"
extern long code_ref, carrier_ref;
extern long carrier_ref_cycles;
FILE *output, *debug, *in, *out, *kalm, *data_bits;
FILE *rinex_obs, *rinex_nav, *rinex_par;
char output_file[40],almanac_file[40],ephemeris_file[40],receiver_file[40];
char location_file[40],ion_utc_file[40],data_bits_file[40],kalman_file[40];
char rinex_obs_file[40],rinex_nav_file[40],rinex_par_file[40],debug_file[40];
/* Internal functions */
static void read_rcvr_par (void);
static void chan_allocate (void);
static void cold_allocate (void);
static void read_rinex_par (void);
static void read_filenames (void);
static void unpack(char *,char *,int);
/* External functions */
extern void nav_fix (void);
extern void Interrupt_Install (void);
extern void Interrupt_Remove (void);
#ifdef __GNUC__
#define UNUSED __attribute__ ((unused))
#else
#define UNUSED /* */
#endif
void generate_prn_codes(void);
void create_wave(float [], int, double, double, double, int);
void gensig(float [], int, int, double, double, double, int);
void Sim_GP2021(char IF[],long nsamp,long *tic);
void Sim_GP2021_int (char *IF, long nsamp);
void gpsisr (void);
struct stat buffer;
int status;
time_t utctime;
long tic_counter;
/**
* Tracking constants for 2nd order tracking loops
*
* Variable definitions:
* On = Natural frequency (Hz)
* zeta = Damping coefficient (unitless) set to 0.7071
* BWn = Noise bandwidth (Hz)
* Ts = Integration time (s)
* Ko = Discriminator gain chip (code) /cycle (carrier)
* = 1 for code loop
* = 2*pi for carrier loop
* Kn = NCO resolution (Hz)
* = 0.042575 Hz or 40e6/7/2^27
*
* Equations:
* On = 8*zeta*BWn/(4*zeta^2+1)
* C1 = (1/(Ko*Kn))*8*zeta*On*Ts/(4+4*zeta*On*Ts+(On*Ts)^2)
* C2 = (1/(Ko*Kn))*4*(On*Ts)^2/(4+4*zeta*On*Ts+(On*Ts)^2)
**/
static void
get_second_order_tracking_const (int *C1, int *C2,
double zeta, /* Damping coefficient (no unit)*/
double BWn, /* Noise bandwidth (Hz) */
double Ts, /* Integration Time (seconds) */
double Ko, /* Discriminator gain */
double Kn) /* NCO resolution (Hz) */
{
double On = ((8.0 * zeta * BWn) / (4.0 * zeta * zeta + 1.0));
double KoKn = Ko * Kn;
double OnTs = On * Ts;
double denom = (4.0 + 4.0 * zeta * OnTs + OnTs * OnTs);
*C1=(int) ((1.0 / KoKn * 8.0 * zeta * On) / denom + 0.5);
*C2=(int) ((1.0 / KoKn * 4.0 * OnTs * On) / denom + 0.5);
}
/* XXX FIX ME: This should be a structure **/
extern int trk_carr_C1, trk_carr_C2;
extern int trk_code_C1, trk_code_C2;
extern int pull_carr_C1, pull_carr_C2;
extern int pull_code_C1, pull_code_C2;
double Carrier_DCO_Delta, Code_DCO_Delta;
extern int d_freq;
extern int acq_thresh;
static int
get_acq_thresh (double samp_rate)
{
double acq_thres_db = 35; /* dB-Hz, this a generally accepted value */
double acq_thres_value = pow(10.0, acq_thres_db/10.0);
/**
* C / No = (1/2) * (A/sigma_n)^2 * (1 / T); in Hz
* T = 0.001 seconds
**/
double acq_thres_ratio = sqrt(2.0 * acq_thres_value / 1000);
int carrier_dco_levels[8] = {-1, 1, 2, 2, 1, -1, -2, -2};
int i;
double sigma_n;
double sum_sq = 0, mean_sum_sq;
/* double hack = samp_rate / (40e6/7.0); */
double hack = 1;
for (i = 0; i < 8; i++)
sum_sq += (carrier_dco_levels[i] * carrier_dco_levels[i]);
mean_sum_sq = sum_sq / 8;
/* We're at level "3" of the IF 30% of the time and at level "1" 70%
of the time so... */
sigma_n = sqrt (2.0 *((mean_sum_sq * 3.0 * 3.0) * 0.3
+ (mean_sum_sq * 1.0 * 1.0) * 0.7)
* samp_rate * hack * 0.001);
return (int) (sigma_n * acq_thres_ratio + 0.5);
}
static void
tracking_init()
{
double zeta = 1.0 / sqrt(2.0);
/* pull-in is all 1 ms */
/* tracking loop constants for pull-in state */
get_second_order_tracking_const (&pull_carr_C1, &pull_carr_C2,
zeta, 25.0, 1e-3, 2.0 * M_PI,
Carrier_DCO_Delta);
get_second_order_tracking_const (&pull_code_C1, &pull_code_C2,
zeta, 25.0, 1e-3, 1.0,
Code_DCO_Delta);
/* 25 Hz, 1 ms */
get_second_order_tracking_const (&trk_carr_C1, &trk_carr_C2,
zeta, 15.0, 1e-3, 2.0 * M_PI,
Carrier_DCO_Delta);
/* 1 Hz, 20 ms */
get_second_order_tracking_const (&trk_code_C1, &trk_code_C2,
zeta, 1.0, 0.02, 1.0,
Code_DCO_Delta);
}
/******************************************************************************
FUNCTION main()
RETURNS None.
PARAMETERS None.
PURPOSE
This is the main program to control the GPS receiver
WRITTEN BY
Clifford Kelley
******************************************************************************/
int
main (int argc UNUSED, char *argv[] UNUSED)
{
FILE *ifdata;
char IF[16368]; /* reserve enough space for 1 ms at 16.368 MHz */
char IFP[16368]; /* reserve enough space for unpacking 1 ms of data at 16.368 MHz */
int i,ch;
double simtime;
int wrd;
char wrdh, wrdl;
char IF_Filename[FILENAME_MAX];
int idispcnt = 0;
double freq_bin_width = 200; /* Hertz */
double tic_period = 0.1; /* Seconds */
/* for the SiGe these are the parameters */
double samp_rate=2.0479e6; /* sampling rate */
double carrier_IF=2.556e6; /* carrier Intermediate Frequency */
/* number of samples per interrupt */
long nsamp;
int subsample3 = 0;
int pack4 = 0;
int socket_flag = 0;
int tcp_port = 0;
int opt;
strncpy (IF_Filename, DEFAULT_FILENAME, 8);
while ((opt = getopt(argc, argv, "3pf:t:ua")) != -1) {
switch (opt) {
case '3':
subsample3 = 1;
break;
case 'p':
pack4 = 1;
break;
case 'f':
strncpy (IF_Filename, optarg, FILENAME_MAX);
break;
case 't':
sscanf (optarg, "%d", &tcp_port);
socket_flag = 1;
break;
case 'u':
socket_flag = 1;
break;
case 'a':
/* for the GPS1A these are the parameters */
samp_rate=16.367666666e6; /* sampling rate */
carrier_IF=4.123968e6; /* carrier Intermediate Frequency */
break;
default: /* '?' */
fprintf (stderr, "Usage: %s [-3] [-p] [-a] [-t TCP_port] [-u] [-f filename]\n",
argv[0]);
exit (EXIT_FAILURE);
}
}
if (subsample3) {
samp_rate=samp_rate / 3.0;
carrier_IF = samp_rate - carrier_IF;
dop_sign = 1;
}
else
dop_sign = -1;
/* for Integer GP2021 emulation use 32 bits */
Carrier_DCO_Delta = samp_rate / pow(2.0,32);
Code_DCO_Delta = samp_rate / pow(2.0,32);
correlator_init (samp_rate, tic_period);
tracking_init();
acq_thresh = get_acq_thresh (samp_rate);
if (!subsample3) acq_thresh*=3;
/* number of samples per interrupt */
nsamp = samp_rate * interr_int / 1.0e6;
if (subsample3 & pack4)
nsamp=(nsamp/12)*12;
d_freq = (int) freq_bin_width / Carrier_DCO_Delta;
carrier_ref_cycles = carrier_IF * tic_period * 1024;
out=fopen("test.dat","w+");
read_filenames();
code_ref = 1023000.0/Code_DCO_Delta;
carrier_ref = carrier_IF/Carrier_DCO_Delta;
simtime=0.0;
if (socket_flag) {
int unit;
struct sockaddr *sp = NULL;
socklen_t slen = 0;
struct sockaddr_in sin;
#ifndef WIN32
struct sockaddr_un sun;
#endif
if (tcp_port) {
char host[256];
struct hostent *hp;
/* Open a TCP socket */
if ((unit=socket(PF_INET, SOCK_STREAM, 0)) < 0) {
perror ("Unable to open IP socket");
exit (EXIT_FAILURE);
}
/* Start off assuming they want to run off the local host */
strcpy (host, "localhost");
/* If user set a file name assume it's a host name */
if (strcmp (DEFAULT_FILENAME, IF_Filename) != 0)
strcpy (host, IF_Filename);
/* Look up host by name */
if ((hp=gethostbyname(host)) == NULL) {
fprintf (stderr, "Unable to find a DNS entry for a host named %s.\n",
host);
exit (EXIT_FAILURE);
}
/* Set up the server internet socket address structure */
memset ((char *) &sin, 0, sizeof(sin));
sin.sin_family = PF_INET;
sin.sin_port = htons(tcp_port);
#ifdef WIN32
memcpy (&sin.sin_addr, hp->h_addr_list[0], 4);
#else
if (inet_pton(PF_INET, hp->h_addr_list[0], &sin.sin_addr) < 0) {
perror ("Unable to convert IP address");
exit (EXIT_FAILURE);
}
#endif
sp = (struct sockaddr *) &sin;
slen = sizeof(sin);
}
#ifndef WIN32
else { /* UNIX Domain Socket */
/* Open a UNIX socket */
if ((unit=socket(PF_UNIX, SOCK_STREAM, 0)) < 0) {
perror ("Unable to open UNIX socket");
exit (EXIT_FAILURE);
}
/* Set up the server UNIX domain socket address structure */
memset ((char *) &sun, 0, sizeof(sun));
sun.sun_family = PF_UNIX;
strcpy (sun.sun_path, IF_Filename);
slen = sizeof(sun.sun_family) + strlen(sun.sun_path);
sp = (struct sockaddr *) &sun;
}
#endif /* Not WIN32 */
/* Attempt to connect to server */
if (connect(unit, sp, slen) < 0) {
perror ("Unable to connect");
exit (EXIT_FAILURE);
}
/* Open stream so input will be buffered and we can use fread() */
if ( (ifdata = fdopen (unit, "rb")) == NULL) {
perror ("Unable to open socket stream");
exit (EXIT_FAILURE);
}
/* Set time to computer's time */
time (&utctime);
}
else {
/* Open input from a standard file */
if ((ifdata=fopen(IF_Filename,"rb")) == NULL) {
fprintf (stderr, "Error: Unable to open IF file %s: %s\n",
IF_Filename, strerror (errno));
fprintf (stderr, "Exiting...\n");
exit (EXIT_FAILURE);
}
/* Set the time to modification time of the input file */
status = stat(IF_Filename, &buffer);
utctime=buffer.st_mtime ; /* mtime is at the end of the file */
/* we need to adjust for the start of the file */
/* important when using large if files */
if (pack4) utctime-=buffer.st_size/samp_rate*4;
else utctime-=buffer.st_size/samp_rate;
}
tic_counter=0;
read_rcvr_par ();
rec_pos_xyz.x = 0.0;
rec_pos_xyz.y = 0.0;
rec_pos_xyz.z = 0.0;
if (out_kalman == 1)
kalm = fopen (kalman_file, "w+");
if (out_rinex == 1)
{
rinex_obs = fopen (rinex_obs_file, "w+");
rinex_nav = fopen (rinex_nav_file, "w+");
read_rinex_par();
write_rinex_obs_head = 1;
write_rinex_nav_head = 1;
}
if (out_pos == 1 || out_vel == 1 || out_time == 1)
output = fopen (output_file, "w+");
if (out_pos == 1)
fprintf (output, "time (seconds), latitude (degrees), "
"longitude (degrees), hae (meters), ");
if (out_vel == 1)
fprintf (output, "velocity north, velocity east, velocity up, ");
if (out_time == 1)
fprintf (output, "clock offset, ");
if (out_pos || out_vel || out_time)
fprintf (output, "hdop, vdop, tdop\n");
if (out_debug == 1)
debug = fopen (debug_file, "w+");
if (out_data == 1)
data_bits = fopen (data_bits_file, "w+");
read_initial_data ();
current_loc = receiver_loc ();
rec_pos_llh.lon = current_loc.lon;
rec_pos_llh.lat = current_loc.lat;
rec_pos_llh.hae = current_loc.hae;
nav_tic = nav_up;
setup_term();
if (status != cold_start)
chan_allocate ();
else if (status == cold_start)
cold_allocate ();
m_time[1] = clock_tow;
/* Initialize IODE and IODC to the invalid value of -1. */
for (i = 0; i <= 32; i++) {
gps_eph[i].iode = -1;
gps_eph[i].iodc = -1;
}
read_ephemeris ();
{
/* int err; */
/* open_com (0, Com0Baud, 0, 1, 8, &err); */ /* NMEA */
}
while (!feof(ifdata))
{
if ( pack4 ) {
/* Simulate an interrupt every nsamp-les */
fread(&IFP,sizeof(char),nsamp/4,ifdata);
unpack(IF,IFP,nsamp/4);
}
else
/* Simulate an interrupt every nsamp-les */
fread(&IF,sizeof(char),nsamp,ifdata);
simtime += interr_int / 1e6;
Sim_GP2021_int(IF, nsamp);
gpsisr(); /* Do the interrupt routine stuff (tracking loops etc.) */
if (idispcnt > 2000) { /* display only about once per second to save time */
if (display()!=0)
break;
printf("time = %f\n",simtime);
idispcnt = 0;
}
else
idispcnt++;
if (data_frame_ready == 1)
{
for (ch = 0; ch < N_channels; ch++)
{
if ((ichan[ch].state == track) && ichan[ch].tow_sync)
{
/* decode the navigation message for this channel */
navmess (ichan[ch].prn, ch);
}
}
if (out_data)
{
for (ch = 0; ch < N_channels; ch++)
{
wrdl = ichan[ch].prn;
fputc(wrdl,data_bits);
}
for (i=0;i<1500;i++)
{
wrd= data_message[i];
wrdh= (wrd & 0xff00) >> 8;
wrdl= wrd & 0xff;
fputc(wrdh,data_bits);
fputc(wrdl,data_bits);
}
fprintf(data_bits,"\n");
}
data_frame_ready = 0;
}
if (sec_flag == 1)
{
/* SendNMEA (); */
nav_fix();
/* Do the main routine stuff (display, position fix etc.) */
utctime++;
clock_tow = (clock_tow+1) % 604800L;
time_on++;
sec_flag = 0;
for (ch = 0; ch < N_channels; ch++)
{
if (ichan[ch].state == track)
{
if (ichan[ch].CNo < 33)
{
/* calculate carrier clock and doppler correction */
long carrier_corr = -(xyz[ichan[ch].prn].doppler +
clock_offset * 1575.42)*dop_sign /
Carrier_DCO_Delta;
/* calculate code clock and doppler correction */
long code_corr =(xyz[ichan[ch].prn].doppler +
clock_offset * 1575.42) / 1540 /
Carrier_DCO_Delta;
setup_channel (ch, ichan[ch].prn, code_corr, carrier_corr);
}
}
}
}
if (min_flag == 1)
{
chan_allocate();
min_flag=0;
}
}
restore_term ();
/* Update the Almanac Data file */
write_almanac ();
/* Update the Ephemeris Data file */
write_ephemeris ();
/* Update the ionospheric model and UTC parameters */
write_ion_utc ();
/* Update the curloc file for the next run */
if (status == navigating)
{
out = fopen (location_file, "w+");
fprintf (out, "latitude %f\n", rec_pos_llh.lat * r_to_d);
fprintf (out, "longitude %f\n", rec_pos_llh.lon * r_to_d);
fprintf (out, "hae %f\n", rec_pos_llh.hae);
fclose (out);
}
return 0;
}
/******************************************************************************
FUNCTION cold_allocate()
RETURNS None.
PARAMETERS None.
PURPOSE To allocate the PRNs to channels for a cold start, start by
searching for PRN 1 through 12 and cycling through all PRN
numbers skipping channels that are tracking
WRITTEN BY
Clifford Kelley
******************************************************************************/
void
cold_allocate ()
{
int ch, i, alloc;
/* search 200 Hz intervals */
search_max_f = 50; /* widen the search for a cold start */
satfind (0);
/* almanac_valid=1; */
for (i = 1; i <= 32; i++)
{
if (gps_alm[i].inc > 0.0 && gps_alm[i].week != gps_week % 1024)
almanac_valid = 0;
}
if (al0 == 0.0 && b0 == 0.0)
almanac_valid = 0;
for (ch = 0; ch < N_channels; ch++) /* if no satellite is being tracked */
/* turn the channel off */
{
if (ichan[ch].CNo < 30) /* if C/No is too low turn the channel off */
channel_off (ch);
}
for (i = 0; i <= chmax; i++)
{
alloc = 0;
for (ch = 0; ch < N_channels; ch++)
{
if (ichan[ch].prn == cold_prn)
{
alloc = 1; /* satellite is already allocated a channel */
cold_prn = cold_prn % 32 + 1;
break;
}
}
if (alloc == 0) /* if not allocated find an empty channel */
{
for (ch = 0; ch < N_channels; ch++)
{
if (ichan[ch].state == off)
{
long carrier_corr = - clock_offset * 1575.42 * dop_sign / Carrier_DCO_Delta;
setup_channel (ch, cold_prn, 0, carrier_corr); /* No code correction */
cold_prn = cold_prn % 32 + 1;
break;
}
}
}
}
}
/******************************************************************************
FUNCTION read_rcvr_par(void)
RETURNS None.
PARAMETERS None.
PURPOSE To read in from the rcvr_par file the receiver parameters that
control acquisition, tracking etc.
WRITTEN BY
Clifford Kelley
******************************************************************************/
void
read_rcvr_par (void)
{
char intext[40];
if ((in = fopen (receiver_file, "r")) == NULL)
{
printf ("Cannot open rcvr_par.dat file.\n");
exit (0);
}
else
{
fscanf (in, "%s %s", intext, tzstr);
fscanf (in, "%s %f", intext, &mask_angle);
mask_angle = mask_angle / r_to_d;
fscanf (in, "%s %f", intext, &clock_offset);
fscanf (in, "%s %u", intext, &interr_int);
fscanf (in, "%s %d", intext, &cold_prn);
fscanf (in, "%s %d", intext, &ICP_CTL);
fscanf (in, "%s %f", intext, &nav_up);
fscanf (in, "%s %d", intext, &out_pos);
fscanf (in, "%s %d", intext, &out_vel);
fscanf (in, "%s %d", intext, &out_time);
fscanf (in, "%s %d", intext, &out_kalman);
fscanf (in, "%s %d", intext, &out_debug);
fscanf (in, "%s %d", intext, &out_data);
fscanf (in, "%s %d", intext, &m_tropo);
fscanf (in, "%s %d", intext, &m_iono);
fscanf (in, "%s %d", intext, &align_t);
fscanf (in, "%s %u", intext, &Com0Baud); /* NMEA */
fscanf (in, "%s %u", intext, &Com1Baud); /* NMEA */
fscanf (in, "%s %u", intext, &GPGGA); /* NMEA */
fscanf (in, "%s %u", intext, &GPGSV); /* NMEA */
fscanf (in, "%s %u", intext, &GPGSA); /* NMEA */
fscanf (in, "%s %u", intext, &GPVTG); /* NMEA */
fscanf (in, "%s %u", intext, &GPRMC); /* NMEA */
fscanf (in, "%s %u", intext, &GPZDA); /* NMEA */
fscanf (in, "%s %d", intext, &out_rinex); /* RINEX data logging */
}
fclose (in);
}
/******************************************************************************
FUNCTION read_rinex_par(void)
RETURNS None.
PARAMETERS None.
PURPOSE Reads in the RINEX file parameters from the rinexpar.dat file
WRITTEN BY
Jonathan J. Makela
******************************************************************************/
void
read_rinex_par (void)
{
char intext[40];
char *p;
if ((in = fopen (rinex_par_file, "r")) == NULL)
{
printf ("Cannot open %s file.\n",rinex_par_file);
exit (0);
}
else
{
fscanf (in, "%s %s\n", intext, system_type);
fscanf (in, "%s %s\n", intext, program_name);
fscanf (in, "%s %s\n", intext, agency_name);
fscanf (in, "%s %s\n", intext, marker_name);
fscanf (in, "%s\t", intext);
fgets(observer_name, 20, in);
/* Remove newline character if it is there */
p = strchr(observer_name, '\n');
if(p != NULL)
*p = '\0';
else
fscanf (in, "%[ a-z A-Z 0-9]\n", intext);
fscanf (in, "%s %s\n", intext, receiver_number);
fscanf (in, "%s %s\n", intext, receiver_type);
fscanf (in, "%s %s\n", intext, receiver_version);
fscanf (in, "%s %s\n", intext, antenna_number);
fscanf (in, "%s %s\n", intext, antenna_type);
fscanf (in, "%s %lf\n", intext, &loc_x);
fscanf (in, "%s %lf\n", intext, &loc_y);
fscanf (in, "%s %lf\n", intext, &loc_z);
fscanf (in, "%s %lf\n", intext, &delx);
fscanf (in, "%s %lf\n", intext, &dely);
fscanf (in, "%s %lf\n", intext, &delz);
fscanf (in, "%s %d\n", intext, &lamda_factor_L1);
fscanf (in, "%s %d\n", intext, &lamda_factor_L2);
fscanf (in, "%s %d\n", intext, &n_obs);
fscanf (in, "%s %s\n", intext, obs1);
fscanf (in, "%s %s\n", intext, obs2);
fscanf (in, "%s %s\n", intext, time_system);
}
fclose (in);
}
/******************************************************************************
FUNCTION chan_allocate()
RETURNS None.
PARAMETERS None.
PURPOSE
This function allocates the channels with PRN numbers
WRITTEN BY
Clifford Kelley
******************************************************************************/
void
chan_allocate ()
{
int ch, prnn, alloc;
int i;
/* almanac_valid=1; */
for (prnn = 1; prnn <= 32; prnn++)
{
xyz[prnn] = satfind (prnn);
if (gps_alm[prnn].inc > 0.0 && gps_alm[prnn].week != gps_week % 1024)
{
almanac_valid = 0;
}
}
if (al0 == 0.0 && b0 == 0.0)
almanac_valid = 0;
for (ch = 0; ch < N_channels; ch++)
/* if the sat has dropped below mask angle turn the channel off */
{
if (ichan[ch].CNo < 30)
{
memset (&satellite[ichan[ch].prn], 0, sizeof(struct satellite));
channel_off (ch);
for (i = 0; i < 5; i++)
schan[ch].word_error[i] = 0;
}
}
for (prnn = 1; prnn <= 32; prnn++)
{
if (xyz[prnn].elevation > mask_angle && gps_alm[prnn].health == 0 &&
gps_alm[prnn].ety != 0.00)
{
alloc = 0;
for (ch = 0; ch < N_channels; ch++)
{
if (ichan[ch].prn == prnn)
{
alloc = 1; /* satellite already allocated a channel */
break;
}
}
if (alloc == 0) /* if not allocated find an empty channel */
{
for (ch = 0; ch < N_channels; ch++)
{
if (ichan[ch].state == off)
{
/* calculate carrier clock and doppler correction */
long carrier_corr = (long)(-( xyz[prnn].doppler + clock_offset * 1575.42) * dop_sign /
Carrier_DCO_Delta);
/* calculate code clock and doppler correction */
long code_corr = (long) ((xyz[prnn].doppler + clock_offset * 1575.42)
/ 1540 / Code_DCO_Delta );
setup_channel (ch, prnn, code_corr, carrier_corr);
break;
}
}
}
}
}
}
int
pcifind (void)
{
return 0;
}
void read_filenames(void)
{
char txt1[40],txt2[40];
FILE *filenames;
filenames = fopen("SW_files.def","r");
if (filenames == NULL) {
fprintf (stderr, "Error: open file names file: %s\n",
strerror (errno));
exit (EXIT_FAILURE);
}
fscanf(filenames,"%s %s",txt1,txt2);
sprintf(almanac_file,"%s",txt2);
fscanf(filenames,"%s %s",txt1,txt2);
sprintf(ephemeris_file,"%s",txt2);
fscanf(filenames,"%s %s",txt1,txt2);
sprintf(receiver_file,"%s",txt2);
fscanf(filenames,"%s %s",txt1,txt2);
sprintf(location_file,"%s",txt2);
fscanf(filenames,"%s %s",txt1,txt2);
sprintf(ion_utc_file,"%s",txt2);
fscanf(filenames,"%s %s",txt1,txt2);
sprintf(output_file,"%s",txt2);
fscanf(filenames,"%s %s",txt1,txt2);
sprintf(kalman_file,"%s",txt2);
fscanf(filenames,"%s %s",txt1,txt2);
sprintf(data_bits_file,"%s",txt2);
fscanf(filenames,"%s %s",txt1,txt2);
sprintf(rinex_par_file,"%s",txt2);
fscanf(filenames,"%s %s",txt1,txt2);
sprintf(rinex_obs_file,"%s",txt2);
fscanf(filenames,"%s %s",txt1,txt2);
sprintf(rinex_nav_file,"%s",txt2);
fscanf(filenames,"%s %s",txt1,txt2);
sprintf(debug_file,"%s",txt2);
fclose(filenames);
}
static void
unpack(char *IF,char *IFP,int nsamp)
{
int i;
const char val[4]={1,3,-1,-3};
for (i = 0; i < nsamp; i++) {
IF[(i<<2) ] = val[ IFP[i]&0x3 ];
IF[(i<<2)+1] = val[(IFP[i]&0xc )>>2];
IF[(i<<2)+2] = val[(IFP[i]&0x30)>>4];
IF[(i<<2)+3] = val[(IFP[i]&0xc0)>>6];
}
}