/* * refclock_leitch - clock driver for the Leitch CSD-5300 Master Clock */ #ifdef HAVE_CONFIG_H # include #endif #include "ntp_types.h" #if defined(REFCLOCK) && defined(CLOCK_LEITCH) #include #include #include "ntpd.h" #include "ntp_io.h" #include "ntp_refclock.h" #include "timevalops.h" #include "ntp_stdlib.h" /* * Driver for Leitch CSD-5300 Master Clock System * * COMMANDS: * DATE: D * TIME: T * STATUS: S * LOOP: L * * FORMAT: * DATE: YYMMDD * TIME: /HHMMSS /HHMMSS /HHMMSS / * second bondaried on the stop bit of the * second boundaries at '/' above. * STATUS: G (good), D (diag fail), T (time not provided) or * P (last phone update failed) */ #define PRECISION (-20) /* 1x10-8 */ #define MAXUNITS 1 /* max number of LEITCH units */ #define LEITCHREFID "ATOM" /* reference id */ #define LEITCH_DESCRIPTION "Leitch: CSD 5300 Master Clock System Driver" #define LEITCH232 "/dev/leitch%d" /* name of radio device */ #define SPEED232 B300 /* uart speed (300 baud) */ #ifdef DEBUG #define leitch_send(A,M) \ if (debug) fprintf(stderr,"write leitch %s\n",M); \ if ((write(A->leitchio.fd,M,sizeof(M)) < 0)) {\ if (debug) \ fprintf(stderr, "leitch_send: unit %d send failed\n", A->unit); \ else \ msyslog(LOG_ERR, "leitch_send: unit %d send failed %m",A->unit);} #else #define leitch_send(A,M) \ if ((write(A->leitchio.fd,M,sizeof(M)) < 0)) {\ msyslog(LOG_ERR, "leitch_send: unit %d send failed %m",A->unit);} #endif #define STATE_IDLE 0 #define STATE_DATE 1 #define STATE_TIME1 2 #define STATE_TIME2 3 #define STATE_TIME3 4 /* * LEITCH unit control structure */ struct leitchunit { struct peer *peer; struct refclockio leitchio; u_char unit; short year; short yearday; short month; short day; short hour; short second; short minute; short state; u_short fudge1; l_fp reftime1; l_fp reftime2; l_fp reftime3; l_fp codetime1; l_fp codetime2; l_fp codetime3; u_long yearstart; }; /* * Function prototypes */ static void leitch_init (void); static int leitch_start (int, struct peer *); static void leitch_shutdown (int, struct peer *); static void leitch_poll (int, struct peer *); static void leitch_control (int, const struct refclockstat *, struct refclockstat *, struct peer *); #define leitch_buginfo noentry static void leitch_receive (struct recvbuf *); static void leitch_process (struct leitchunit *); #if 0 static void leitch_timeout (struct peer *); #endif static int leitch_get_date (struct recvbuf *, struct leitchunit *); static int leitch_get_time (struct recvbuf *, struct leitchunit *, int); static int days_per_year (int); static struct leitchunit leitchunits[MAXUNITS]; static u_char unitinuse[MAXUNITS]; static u_char stratumtouse[MAXUNITS]; static u_int32 refid[MAXUNITS]; static char days_in_month [] = { 31, 29, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 }; /* * Transfer vector */ struct refclock refclock_leitch = { leitch_start, leitch_shutdown, leitch_poll, leitch_control, leitch_init, leitch_buginfo, NOFLAGS }; /* * leitch_init - initialize internal leitch driver data */ static void leitch_init(void) { int i; memset((char*)leitchunits, 0, sizeof(leitchunits)); memset((char*)unitinuse, 0, sizeof(unitinuse)); for (i = 0; i < MAXUNITS; i++) memcpy((char *)&refid[i], LEITCHREFID, 4); } /* * leitch_shutdown - shut down a LEITCH clock */ static void leitch_shutdown( int unit, struct peer *peer ) { struct leitchunit *leitch; if (unit >= MAXUNITS) { return; } leitch = &leitchunits[unit]; if (-1 != leitch->leitchio.fd) io_closeclock(&leitch->leitchio); #ifdef DEBUG if (debug) fprintf(stderr, "leitch_shutdown()\n"); #endif } /* * leitch_poll - called by the transmit procedure */ static void leitch_poll( int unit, struct peer *peer ) { struct leitchunit *leitch; /* start the state machine rolling */ #ifdef DEBUG if (debug) fprintf(stderr, "leitch_poll()\n"); #endif if (unit >= MAXUNITS) { /* XXXX syslog it */ return; } leitch = &leitchunits[unit]; if (leitch->state != STATE_IDLE) { /* reset and wait for next poll */ /* XXXX syslog it */ leitch->state = STATE_IDLE; } else { leitch_send(leitch,"D\r"); leitch->state = STATE_DATE; } } static void leitch_control( int unit, const struct refclockstat *in, struct refclockstat *out, struct peer *passed_peer ) { if (unit >= MAXUNITS) { msyslog(LOG_ERR, "leitch_control: unit %d invalid", unit); return; } if (in) { if (in->haveflags & CLK_HAVEVAL1) stratumtouse[unit] = (u_char)(in->fudgeval1); if (in->haveflags & CLK_HAVEVAL2) refid[unit] = in->fudgeval2; if (unitinuse[unit]) { struct peer *peer; peer = (&leitchunits[unit])->peer; peer->stratum = stratumtouse[unit]; peer->refid = refid[unit]; } } if (out) { memset((char *)out, 0, sizeof (struct refclockstat)); out->type = REFCLK_ATOM_LEITCH; out->haveflags = CLK_HAVEVAL1 | CLK_HAVEVAL2; out->fudgeval1 = (int32)stratumtouse[unit]; out->fudgeval2 = refid[unit]; out->p_lastcode = ""; out->clockdesc = LEITCH_DESCRIPTION; } } /* * leitch_start - open the LEITCH devices and initialize data for processing */ static int leitch_start( int unit, struct peer *peer ) { struct leitchunit *leitch; int fd232; char leitchdev[32]; /* * Check configuration info. */ if (unit >= MAXUNITS) { msyslog(LOG_ERR, "leitch_start: unit %d invalid", unit); return (0); } if (unitinuse[unit]) { msyslog(LOG_ERR, "leitch_start: unit %d in use", unit); return (0); } /* * Open serial port. */ snprintf(leitchdev, sizeof(leitchdev), LEITCH232, unit); fd232 = open(leitchdev, O_RDWR, 0777); if (fd232 == -1) { msyslog(LOG_ERR, "leitch_start: open of %s: %m", leitchdev); return (0); } leitch = &leitchunits[unit]; memset(leitch, 0, sizeof(*leitch)); #if defined(HAVE_SYSV_TTYS) /* * System V serial line parameters (termio interface) * */ { struct termio ttyb; if (ioctl(fd232, TCGETA, &ttyb) < 0) { msyslog(LOG_ERR, "leitch_start: ioctl(%s, TCGETA): %m", leitchdev); goto screwed; } ttyb.c_iflag = IGNBRK|IGNPAR|ICRNL; ttyb.c_oflag = 0; ttyb.c_cflag = SPEED232|CS8|CLOCAL|CREAD; ttyb.c_lflag = ICANON; ttyb.c_cc[VERASE] = ttyb.c_cc[VKILL] = '\0'; if (ioctl(fd232, TCSETA, &ttyb) < 0) { msyslog(LOG_ERR, "leitch_start: ioctl(%s, TCSETA): %m", leitchdev); goto screwed; } } #endif /* HAVE_SYSV_TTYS */ #if defined(HAVE_TERMIOS) /* * POSIX serial line parameters (termios interface) */ { struct termios ttyb, *ttyp; ttyp = &ttyb; if (tcgetattr(fd232, ttyp) < 0) { msyslog(LOG_ERR, "leitch_start: tcgetattr(%s): %m", leitchdev); goto screwed; } ttyp->c_iflag = IGNBRK|IGNPAR|ICRNL; ttyp->c_oflag = 0; ttyp->c_cflag = SPEED232|CS8|CLOCAL|CREAD; ttyp->c_lflag = ICANON; ttyp->c_cc[VERASE] = ttyp->c_cc[VKILL] = '\0'; if (tcsetattr(fd232, TCSANOW, ttyp) < 0) { msyslog(LOG_ERR, "leitch_start: tcsetattr(%s): %m", leitchdev); goto screwed; } if (tcflush(fd232, TCIOFLUSH) < 0) { msyslog(LOG_ERR, "leitch_start: tcflush(%s): %m", leitchdev); goto screwed; } } #endif /* HAVE_TERMIOS */ #if defined(HAVE_BSD_TTYS) /* * 4.3bsd serial line parameters (sgttyb interface) */ { struct sgttyb ttyb; if (ioctl(fd232, TIOCGETP, &ttyb) < 0) { msyslog(LOG_ERR, "leitch_start: ioctl(%s, TIOCGETP): %m", leitchdev); goto screwed; } ttyb.sg_ispeed = ttyb.sg_ospeed = SPEED232; ttyb.sg_erase = ttyb.sg_kill = '\0'; ttyb.sg_flags = EVENP|ODDP|CRMOD; if (ioctl(fd232, TIOCSETP, &ttyb) < 0) { msyslog(LOG_ERR, "leitch_start: ioctl(%s, TIOCSETP): %m", leitchdev); goto screwed; } } #endif /* HAVE_BSD_TTYS */ /* * Set up the structures */ leitch->peer = peer; leitch->unit = unit; leitch->state = STATE_IDLE; leitch->fudge1 = 15; /* 15ms */ leitch->leitchio.clock_recv = leitch_receive; leitch->leitchio.srcclock = peer; leitch->leitchio.datalen = 0; leitch->leitchio.fd = fd232; if (!io_addclock(&leitch->leitchio)) { leitch->leitchio.fd = -1; goto screwed; } /* * All done. Initialize a few random peer variables, then * return success. */ peer->precision = PRECISION; peer->stratum = stratumtouse[unit]; peer->refid = refid[unit]; unitinuse[unit] = 1; return(1); /* * Something broke; abandon ship. */ screwed: close(fd232); return(0); } /* * leitch_receive - receive data from the serial interface on a leitch * clock */ static void leitch_receive( struct recvbuf *rbufp ) { struct leitchunit *leitch = rbufp->recv_peer->procptr->unitptr; #ifdef DEBUG if (debug) fprintf(stderr, "leitch_recieve(%*.*s)\n", rbufp->recv_length, rbufp->recv_length, rbufp->recv_buffer); #endif if (rbufp->recv_length != 7) return; /* The date is return with a trailing newline, discard it. */ switch (leitch->state) { case STATE_IDLE: /* unexpected, discard and resync */ return; case STATE_DATE: if (!leitch_get_date(rbufp,leitch)) { leitch->state = STATE_IDLE; break; } leitch_send(leitch,"T\r"); #ifdef DEBUG if (debug) fprintf(stderr, "%u\n",leitch->yearday); #endif leitch->state = STATE_TIME1; break; case STATE_TIME1: if (!leitch_get_time(rbufp,leitch,1)) { } if (!clocktime(leitch->yearday,leitch->hour,leitch->minute, leitch->second, 1, rbufp->recv_time.l_ui, &leitch->yearstart, &leitch->reftime1.l_ui)) { leitch->state = STATE_IDLE; break; } leitch->reftime1.l_uf = 0; #ifdef DEBUG if (debug) fprintf(stderr, "%lu\n", (u_long)leitch->reftime1.l_ui); #endif MSUTOTSF(leitch->fudge1, leitch->reftime1.l_uf); leitch->codetime1 = rbufp->recv_time; leitch->state = STATE_TIME2; break; case STATE_TIME2: if (!leitch_get_time(rbufp,leitch,2)) { } if (!clocktime(leitch->yearday,leitch->hour,leitch->minute, leitch->second, 1, rbufp->recv_time.l_ui, &leitch->yearstart, &leitch->reftime2.l_ui)) { leitch->state = STATE_IDLE; break; } #ifdef DEBUG if (debug) fprintf(stderr, "%lu\n", (u_long)leitch->reftime2.l_ui); #endif MSUTOTSF(leitch->fudge1, leitch->reftime2.l_uf); leitch->codetime2 = rbufp->recv_time; leitch->state = STATE_TIME3; break; case STATE_TIME3: if (!leitch_get_time(rbufp,leitch,3)) { } if (!clocktime(leitch->yearday,leitch->hour,leitch->minute, leitch->second, GMT, rbufp->recv_time.l_ui, &leitch->yearstart, &leitch->reftime3.l_ui)) { leitch->state = STATE_IDLE; break; } #ifdef DEBUG if (debug) fprintf(stderr, "%lu\n", (u_long)leitch->reftime3.l_ui); #endif MSUTOTSF(leitch->fudge1, leitch->reftime3.l_uf); leitch->codetime3 = rbufp->recv_time; leitch_process(leitch); leitch->state = STATE_IDLE; break; default: msyslog(LOG_ERR, "leitech_receive: invalid state %d unit %d", leitch->state, leitch->unit); } } /* * leitch_process - process a pile of samples from the clock * * This routine uses a three-stage median filter to calculate offset and * dispersion. reduce jitter. The dispersion is calculated as the span * of the filter (max - min), unless the quality character (format 2) is * non-blank, in which case the dispersion is calculated on the basis of * the inherent tolerance of the internal radio oscillator, which is * +-2e-5 according to the radio specifications. */ static void leitch_process( struct leitchunit *leitch ) { l_fp off; l_fp tmp_fp; /*double doffset;*/ off = leitch->reftime1; L_SUB(&off,&leitch->codetime1); tmp_fp = leitch->reftime2; L_SUB(&tmp_fp,&leitch->codetime2); if (L_ISGEQ(&off,&tmp_fp)) off = tmp_fp; tmp_fp = leitch->reftime3; L_SUB(&tmp_fp,&leitch->codetime3); if (L_ISGEQ(&off,&tmp_fp)) off = tmp_fp; /*LFPTOD(&off, doffset);*/ refclock_receive(leitch->peer); } /* * days_per_year */ static int days_per_year( int year ) { if (year%4) { /* not a potential leap year */ return (365); } else { if (year % 100) { /* is a leap year */ return (366); } else { if (year % 400) { return (365); } else { return (366); } } } } static int leitch_get_date( struct recvbuf *rbufp, struct leitchunit *leitch ) { int i; if (rbufp->recv_length < 6) return(0); #undef BAD /* confict: defined as (-1) in AIX sys/param.h */ #define BAD(A) (rbufp->recv_buffer[A] < '0') || (rbufp->recv_buffer[A] > '9') if (BAD(0)||BAD(1)||BAD(2)||BAD(3)||BAD(4)||BAD(5)) return(0); #define ATOB(A) ((rbufp->recv_buffer[A])-'0') leitch->year = ATOB(0)*10 + ATOB(1); leitch->month = ATOB(2)*10 + ATOB(3); leitch->day = ATOB(4)*10 + ATOB(5); /* sanity checks */ if (leitch->month > 12) return(0); if (leitch->day > days_in_month[leitch->month-1]) return(0); /* calculate yearday */ i = 0; leitch->yearday = leitch->day; while ( i < (leitch->month-1) ) leitch->yearday += days_in_month[i++]; if ((days_per_year((leitch->year>90?1900:2000)+leitch->year)==365) && leitch->month > 2) leitch->yearday--; return(1); } /* * leitch_get_time */ static int leitch_get_time( struct recvbuf *rbufp, struct leitchunit *leitch, int which ) { if (BAD(0)||BAD(1)||BAD(2)||BAD(3)||BAD(4)||BAD(5)) return(0); leitch->hour = ATOB(0)*10 +ATOB(1); leitch->minute = ATOB(2)*10 +ATOB(3); leitch->second = ATOB(4)*10 +ATOB(5); if ((leitch->hour > 23) || (leitch->minute > 60) || (leitch->second > 60)) return(0); return(1); } #else NONEMPTY_TRANSLATION_UNIT #endif /* REFCLOCK */