/* $NetBSD: refclock_tpro.c,v 1.3 1998/03/06 18:17:25 christos Exp $ */ /* * refclock_tpro - clock driver for the KSI/Odetics TPRO-S IRIG-B reader */ #ifdef HAVE_CONFIG_H #include #endif #if defined(REFCLOCK) && defined(TPRO) #include #include #include #include "ntpd.h" #include "ntp_io.h" #include "ntp_refclock.h" #include "ntp_unixtime.h" #include "sys/tpro.h" #include "ntp_stdlib.h" /* * This driver supports the KSI/Odetecs TPRO-S IRIG-B reader and TPRO- * SAT GPS receiver for the Sun Microsystems SBus. It requires that the * tpro.o device driver be installed and loaded. */ /* * TPRO interface definitions */ #define DEVICE "/dev/tpro%d" /* device name and unit */ #define PRECISION (-20) /* precision assumed (1 us) */ #define REFID "IRIG" /* reference ID */ #define DESCRIPTION "KSI/Odetics TPRO/S IRIG Interface" /* WRU */ #define NSAMPLES 3 /* stages of median filter */ /* * Imported from ntp_timer module */ extern u_long current_time; /* current time (s) */ /* * Imported from ntpd module */ extern int debug; /* global debug flag */ /* * Unit control structure */ struct tprounit { struct tproval tprodata; /* data returned from tpro read */ }; /* * Function prototypes */ static int tpro_start P((int, struct peer *)); static void tpro_shutdown P((int, struct peer *)); static void tpro_poll P((int unit, struct peer *)); /* * Transfer vector */ struct refclock refclock_tpro = { tpro_start, /* start up driver */ tpro_shutdown, /* shut down driver */ tpro_poll, /* transmit poll message */ noentry, /* not used (old tpro_control) */ noentry, /* initialize driver (not used) */ noentry, /* not used (old tpro_buginfo) */ NOFLAGS /* not used */ }; /* * tpro_start - open the TPRO device and initialize data for processing */ static int tpro_start(unit, peer) int unit; struct peer *peer; { register struct tprounit *up; struct refclockproc *pp; char device[20]; int fd; /* * Open TPRO device */ (void)sprintf(device, DEVICE, unit); fd = open(device, O_RDONLY | O_NDELAY, 0777); if (fd == -1) { msyslog(LOG_ERR, "tpro_start: open of %s: %m", device); return (0); } /* * Allocate and initialize unit structure */ if (!(up = (struct tprounit *) emalloc(sizeof(struct tprounit)))) { (void) close(fd); return (0); } memset((char *)up, 0, sizeof(struct tprounit)); pp = peer->procptr; pp->io.clock_recv = noentry; pp->io.srcclock = (caddr_t)peer; pp->io.datalen = 0; pp->io.fd = fd; pp->unitptr = (caddr_t)up; /* * Initialize miscellaneous peer variables */ peer->precision = PRECISION; pp->clockdesc = DESCRIPTION; memcpy((char *)&pp->refid, REFID, 4); return (1); } /* * tpro_shutdown - shut down the clock */ static void tpro_shutdown(unit, peer) int unit; struct peer *peer; { register struct tprounit *up; struct refclockproc *pp; pp = peer->procptr; up = (struct tprounit *)pp->unitptr; io_closeclock(&pp->io); free(up); } /* * tpro_poll - called by the transmit procedure */ static void tpro_poll(unit, peer) int unit; struct peer *peer; { register struct tprounit *up; struct refclockproc *pp; struct tproval *tp; /* * This is the main routine. It snatches the time from the TPRO * board and tacks on a local timestamp. */ pp = peer->procptr; up = (struct tprounit *)pp->unitptr; tp = &up->tprodata; if (read(pp->io.fd, (char *)tp, sizeof(struct tproval)) < 0) { refclock_report(peer, CEVNT_FAULT); return; } get_systime(&pp->lastrec); pp->lasttime = current_time; pp->polls++; /* * We get down to business, check the timecode format and decode * its contents. If the timecode has invalid length or is not in * proper format, we declare bad format and exit. Note: we * can't use the sec/usec conversion produced by the driver, * since the year may be suspect. All format error checking is * done by the sprintf() and sscanf() routines. */ sprintf(pp->a_lastcode, "%1x%1x%1x %1x%1x:%1x%1x:%1x%1x.%1x%1x%1x%1x%1x%1x %1x", tp->day100, tp->day10, tp->day1, tp->hour10, tp->hour1, tp->min10, tp->min1, tp->sec10, tp->sec1, tp->ms100, tp->ms10, tp->ms1, tp->usec100, tp->usec10, tp->usec1, tp->status); pp->lencode = strlen(pp->a_lastcode); #ifdef DEBUG if (debug) printf("tpro: time %s timecode %d %s\n", ulfptoa(&pp->lastrec, 6), pp->lencode, pp->a_lastcode); #endif record_clock_stats(&peer->srcadr, pp->a_lastcode); if (sscanf(pp->a_lastcode, "%3d %2d:%2d:%2d.%6ld", &pp->day, &pp->hour, &pp->minute, &pp->second, &pp->usec) != 5) { refclock_report(peer, CEVNT_BADTIME); return; } if (!tp->status & 0x3) { pp->leap = LEAP_NOTINSYNC; refclock_report(peer, CEVNT_FAULT); return; } else { pp->leap = 0; pp->lasttime = current_time; } /* * Process the new sample in the median filter and determine the * reference clock offset and dispersion. We use lastrec as both * the reference time and receive time in order to avoid being * cute, like setting the reference time later than the receive * time, which may cause a paranoid protocol module to chuck out * the data. */ if (!refclock_process(pp, NSAMPLES, NSAMPLES)) { refclock_report(peer, CEVNT_BADTIME); return; } refclock_receive(peer, &pp->offset, 0, pp->dispersion, &pp->lastrec, &pp->lastrec, pp->leap); } #else /* not (REFCLOCK && TPRO) */ int refclock_tpro_bs; #endif /* not (REFCLOCK && TPRO) */