Current Path : /usr/src/contrib/ntp/ntpd/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //usr/src/contrib/ntp/ntpd/refclock_jjy.c |
/* * refclock_jjy - clock driver for JJY receivers */ /**********************************************************************/ /* */ /* Copyright (C) 2001-2004, Takao Abe. All rights reserved. */ /* */ /* Permission to use, copy, modify, and distribute this software */ /* and its documentation for any purpose is hereby granted */ /* without fee, provided that the following conditions are met: */ /* */ /* One retains the entire copyright notice properly, and both the */ /* copyright notice and this license. in the documentation and/or */ /* other materials provided with the distribution. */ /* */ /* This software and the name of the author must not be used to */ /* endorse or promote products derived from this software without */ /* prior written permission. */ /* */ /* THIS SOFTWARE IS PROVIDED "AS IS" WITHOUT EXPRESSED OR IMPLIED */ /* WARRANTIES OF ANY KIND, INCLUDING, BUT NOT LIMITED TO, THE */ /* IMPLIED WARRANTIES OF MERCHANTABLILITY AND FITNESS FOR A */ /* PARTICULAR PURPOSE. */ /* IN NO EVENT SHALL THE AUTHOR TAKAO ABE BE LIABLE FOR ANY DIRECT, */ /* INDIRECT, GENERAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES */ /* ( INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE */ /* GOODS OR SERVICES; LOSS OF USE, DATA OR PROFITS; OR BUSINESS */ /* INTERRUPTION ) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, */ /* WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT ( INCLUDING */ /* NEGLIGENCE OR OTHERWISE ) ARISING IN ANY WAY OUT OF THE USE OF */ /* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /* */ /* This driver is developed in my private time, and is opened as */ /* voluntary contributions for the NTP. */ /* The manufacturer of the JJY receiver has not participated in */ /* a development of this driver. */ /* The manufacturer does not warrant anything about this driver, */ /* and is not liable for anything about this driver. */ /* */ /**********************************************************************/ /* */ /* Author Takao Abe */ /* Email abetakao@bea.hi-ho.ne.jp */ /* Homepage http://www.bea.hi-ho.ne.jp/abetakao/ */ /* */ /**********************************************************************/ /* */ /* History */ /* */ /* 2001/07/15 */ /* [New] Support the Tristate Ltd. JJY receiver */ /* */ /* 2001/08/04 */ /* [Change] Log to clockstats even if bad reply */ /* [Fix] PRECISION = (-3) (about 100 ms) */ /* [Add] Support the C-DEX Co.Ltd. JJY receiver */ /* */ /* 2001/12/04 */ /* [Fix] C-DEX JST2000 ( fukusima@goto.info.waseda.ac.jp ) */ /* */ /* 2002/07/12 */ /* [Fix] Portability for FreeBSD ( patched by the user ) */ /* */ /* 2004/10/31 */ /* [Change] Command send timing for the Tristate Ltd. JJY receiver */ /* JJY-01 ( Firmware version 2.01 ) */ /* Thanks to Andy Taki for testing under FreeBSD */ /* */ /* 2004/11/28 */ /* [Add] Support the Echo Keisokuki LT-2000 receiver */ /* */ /* 2006/11/04 */ /* [Fix] C-DEX JST2000 */ /* Thanks to Hideo Kuramatsu for the patch */ /* */ /* 2009/04/05 */ /* [Add] Support the CITIZEN T.I.C JJY-200 receiver */ /* */ /**********************************************************************/ #ifdef HAVE_CONFIG_H #include <config.h> #endif #if defined(REFCLOCK) && defined(CLOCK_JJY) #include <stdio.h> #include <ctype.h> #include <string.h> #include <sys/time.h> #include <time.h> #include "ntpd.h" #include "ntp_io.h" #include "ntp_tty.h" #include "ntp_refclock.h" #include "ntp_calendar.h" #include "ntp_stdlib.h" /**********************************************************************/ /* */ /* The Tristate Ltd. JJY receiver JJY01 */ /* */ /* Command Response Remarks */ /* ------------ ---------------------- --------------------- */ /* date<CR><LF> YYYY/MM/DD XXX<CR><LF> */ /* time<CR><LF> HH:MM:SS<CR><LF> */ /* stim<CR><LF> HH:MM:SS<CR><LF> Reply at just second */ /* */ /* During synchronization after a receiver is turned on, */ /* It replies the past time from 2000/01/01 00:00:00. */ /* The function "refclock_process" checks the time and tells */ /* as an insanity time. */ /* */ /**********************************************************************/ /* */ /* The C-DEX Co. Ltd. JJY receiver JST2000 */ /* */ /* Command Response Remarks */ /* ------------ ---------------------- --------------------- */ /* <ENQ>1J<ETX> <STX>JYYMMDD HHMMSSS<ETX> */ /* */ /**********************************************************************/ /* */ /* The Echo Keisokuki Co. Ltd. JJY receiver LT2000 */ /* */ /* Command Response Remarks */ /* ------------ ---------------------- --------------------- */ /* # Mode 1 (Request&Send) */ /* T YYMMDDWHHMMSS<BCC1><BCC2><CR> */ /* C Mode 2 (Continuous) */ /* YYMMDDWHHMMSS<ST1><ST2><ST3><ST4><CR> */ /* <SUB> Second signal */ /* */ /**********************************************************************/ /* */ /* The CITIZEN T.I.C CO., LTD. JJY receiver JJY200 */ /* */ /* Command Response Remarks */ /* ------------ ---------------------- --------------------- */ /* 'XX YY/MM/DD W HH:MM:SS<CR> */ /* XX: OK|NG|ER */ /* W: 0(Monday)-6(Sunday) */ /* */ /**********************************************************************/ /* * Interface definitions */ #define DEVICE "/dev/jjy%d" /* device name and unit */ #define SPEED232 B9600 /* uart speed (9600 baud) */ #define SPEED232_TRISTATE_JJY01 B9600 /* UART speed (9600 baud) */ #define SPEED232_CDEX_JST2000 B9600 /* UART speed (9600 baud) */ #define SPEED232_ECHOKEISOKUKI_LT2000 B9600 /* UART speed (9600 baud) */ #define SPEED232_CITIZENTIC_JJY200 B4800 /* UART speed (4800 baud) */ #define REFID "JJY" /* reference ID */ #define DESCRIPTION "JJY Receiver" #define PRECISION (-3) /* precision assumed (about 100 ms) */ /* * JJY unit control structure */ struct jjyunit { char unittype ; /* UNITTYPE_XXXXXXXXXX */ short operationmode ; /* Echo Keisokuki LT-2000 : 1 or 2 */ short version ; short linediscipline ; /* LDISC_CLK or LDISC_RAW */ char bPollFlag ; /* Set by jjy_pool and Reset by jjy_receive */ int linecount ; int lineerror ; int year, month, day, hour, minute, second, msecond ; /* LDISC_RAW only */ #define MAX_LINECOUNT 8 #define MAX_RAWBUF 64 int lineexpect ; int charexpect [ MAX_LINECOUNT ] ; int charcount ; char rawbuf [ MAX_RAWBUF ] ; }; #define UNITTYPE_TRISTATE_JJY01 1 #define UNITTYPE_CDEX_JST2000 2 #define UNITTYPE_ECHOKEISOKUKI_LT2000 3 #define UNITTYPE_CITIZENTIC_JJY200 4 /* * Function prototypes */ static int jjy_start P((int, struct peer *)); static void jjy_shutdown P((int, struct peer *)); static void jjy_poll P((int, struct peer *)); static void jjy_poll_tristate_jjy01 P((int, struct peer *)); static void jjy_poll_cdex_jst2000 P((int, struct peer *)); static void jjy_poll_echokeisokuki_lt2000 P((int, struct peer *)); static void jjy_poll_citizentic_jjy200 P((int, struct peer *)); static void jjy_receive P((struct recvbuf *)); static int jjy_receive_tristate_jjy01 P((struct recvbuf *)); static int jjy_receive_cdex_jst2000 P((struct recvbuf *)); static int jjy_receive_echokeisokuki_lt2000 P((struct recvbuf *)); static int jjy_receive_citizentic_jjy200 P((struct recvbuf *)); /* * Transfer vector */ struct refclock refclock_jjy = { jjy_start, /* start up driver */ jjy_shutdown, /* shutdown driver */ jjy_poll, /* transmit poll message */ noentry, /* not used */ noentry, /* not used */ noentry, /* not used */ NOFLAGS /* not used */ }; /* * Start up driver return code */ #define RC_START_SUCCESS 1 #define RC_START_ERROR 0 /* * Local constants definition */ #define MAX_LOGTEXT 64 /**************************************************************************************************/ /* jjy_start - open the devices and initialize data for processing */ /**************************************************************************************************/ static int jjy_start ( int unit, struct peer *peer ) { struct jjyunit *up ; struct refclockproc *pp ; int fd ; char *pDeviceName ; short iDiscipline ; int iSpeed232 ; #ifdef DEBUG if ( debug ) { printf ( "jjy_start (refclock_jjy.c) : %s mode=%d ", ntoa(&peer->srcadr), peer->ttl ) ; printf ( DEVICE, unit ) ; printf ( "\n" ) ; } #endif /* * Open serial port */ if ( ! ( pDeviceName = (char*) emalloc ( strlen(DEVICE) + 10 ) ) ) { return RC_START_ERROR ; } sprintf ( pDeviceName, DEVICE, unit ) ; /* * peer->ttl is a mode number specified by "127.127.40.X mode N" in the ntp.conf */ switch ( peer->ttl ) { case 0 : case 1 : iDiscipline = LDISC_CLK ; iSpeed232 = SPEED232_TRISTATE_JJY01 ; break ; case 2 : iDiscipline = LDISC_RAW ; iSpeed232 = SPEED232_CDEX_JST2000 ; break ; case 3 : iDiscipline = LDISC_CLK ; iSpeed232 = SPEED232_ECHOKEISOKUKI_LT2000 ; break ; case 4 : iDiscipline = LDISC_CLK ; iSpeed232 = SPEED232_CITIZENTIC_JJY200 ; break ; default : msyslog ( LOG_ERR, "JJY receiver [ %s mode %d ] : Unsupported mode", ntoa(&peer->srcadr), peer->ttl ) ; free ( (void*) pDeviceName ) ; return RC_START_ERROR ; } if ( ! ( fd = refclock_open ( pDeviceName, iSpeed232, iDiscipline ) ) ) { free ( (void*) pDeviceName ) ; return RC_START_ERROR ; } free ( (void*) pDeviceName ) ; /* * Allocate and initialize unit structure */ if ( ! ( up = (struct jjyunit *) emalloc (sizeof(struct jjyunit)) ) ) { close ( fd ) ; return RC_START_ERROR ; } memset ( (char*)up, 0, sizeof(struct jjyunit) ) ; up->linediscipline = iDiscipline ; /* * peer->ttl is a mode number specified by "127.127.40.X mode N" in the ntp.conf */ switch ( peer->ttl ) { case 0 : /* * The mode 0 is a default clock type at this time. * But this will be change to auto-detect mode in the future. */ case 1 : up->unittype = UNITTYPE_TRISTATE_JJY01 ; up->version = 100 ; up->lineexpect = 2 ; up->charexpect[0] = 14 ; /* YYYY/MM/DD WWW<CR><LF> */ up->charexpect[1] = 8 ; /* HH:MM:SS<CR><LF> */ break ; case 2 : up->unittype = UNITTYPE_CDEX_JST2000 ; up->lineexpect = 1 ; up->charexpect[0] = 15 ; /* <STX>JYYMMDD HHMMSSS<ETX> */ break ; case 3 : up->unittype = UNITTYPE_ECHOKEISOKUKI_LT2000 ; up->operationmode = 2 ; /* Mode 2 : Continuous mode */ up->lineexpect = 1 ; switch ( up->operationmode ) { case 1 : up->charexpect[0] = 15 ; /* YYMMDDWHHMMSS<BCC1><BCC2><CR> */ break ; case 2 : up->charexpect[0] = 17 ; /* YYMMDDWHHMMSS<ST1><ST2><ST3><ST4><CR> */ break ; } break ; case 4 : up->unittype = UNITTYPE_CITIZENTIC_JJY200 ; up->lineexpect = 1 ; up->charexpect[0] = 23 ; /* 'XX YY/MM/DD W HH:MM:SS<CR> */ break ; default : msyslog ( LOG_ERR, "JJY receiver [ %s mode %d ] : Unsupported mode", ntoa(&peer->srcadr), peer->ttl ) ; close ( fd ) ; free ( (void*) up ) ; return RC_START_ERROR ; } pp = peer->procptr ; pp->unitptr = (caddr_t) up ; pp->io.clock_recv = jjy_receive ; pp->io.srcclock = (caddr_t) peer ; pp->io.datalen = 0 ; pp->io.fd = fd ; if ( ! io_addclock(&pp->io) ) { close ( fd ) ; free ( (void*) up ) ; return RC_START_ERROR ; } /* * Initialize miscellaneous variables */ peer->precision = PRECISION ; peer->burst = 1 ; pp->clockdesc = DESCRIPTION ; memcpy ( (char*)&pp->refid, REFID, strlen(REFID) ) ; return RC_START_SUCCESS ; } /**************************************************************************************************/ /* jjy_shutdown - shutdown the clock */ /**************************************************************************************************/ static void jjy_shutdown ( int unit, struct peer *peer ) { struct jjyunit *up; struct refclockproc *pp; pp = peer->procptr ; up = (struct jjyunit *) pp->unitptr ; io_closeclock ( &pp->io ) ; free ( (void*) up ) ; } /**************************************************************************************************/ /* jjy_receive - receive data from the serial interface */ /**************************************************************************************************/ static void jjy_receive ( struct recvbuf *rbufp ) { struct jjyunit *up ; struct refclockproc *pp ; struct peer *peer; l_fp tRecvTimestamp; /* arrival timestamp */ int rc ; char sLogText [ MAX_LOGTEXT ] ; int i, bCntrlChar ; /* * Initialize pointers and read the timecode and timestamp */ peer = (struct peer *) rbufp->recv_srcclock ; pp = peer->procptr ; up = (struct jjyunit *) pp->unitptr ; /* * Get next input line */ pp->lencode = refclock_gtlin ( rbufp, pp->a_lastcode, BMAX, &tRecvTimestamp ) ; if ( up->linediscipline == LDISC_RAW ) { /* * The reply with <STX> and <ETX> may give a blank line */ if ( pp->lencode == 0 && up->charcount == 0 ) return ; /* * Copy received charaters to temporary buffer */ for ( i = 0 ; i < pp->lencode && up->charcount < MAX_RAWBUF - 2 ; i ++ , up->charcount ++ ) { up->rawbuf[up->charcount] = pp->a_lastcode[i] ; } while ( up->charcount > 0 && up->rawbuf[0] < ' ' ) { for ( i = 0 ; i < up->charcount - 1 ; i ++ ) up->rawbuf[i] = up->rawbuf[i+1] ; up->charcount -- ; } bCntrlChar = 0 ; for ( i = 0 ; i < up->charcount ; i ++ ) { if ( up->rawbuf[i] < ' ' ) { bCntrlChar = 1 ; break ; } } if ( pp->lencode > 0 && up->linecount < up->lineexpect ) { if ( bCntrlChar == 0 && up->charcount < up->charexpect[up->linecount] ) return ; } up->rawbuf[up->charcount] = 0 ; } else { /* * The reply with <CR><LF> gives a blank line */ if ( pp->lencode == 0 ) return ; } /* * We get down to business */ pp->lastrec = tRecvTimestamp ; up->linecount ++ ; if ( up->lineerror != 0 ) return ; switch ( up->unittype ) { case UNITTYPE_TRISTATE_JJY01 : rc = jjy_receive_tristate_jjy01 ( rbufp ) ; break ; case UNITTYPE_CDEX_JST2000 : rc = jjy_receive_cdex_jst2000 ( rbufp ) ; break ; case UNITTYPE_ECHOKEISOKUKI_LT2000 : rc = jjy_receive_echokeisokuki_lt2000 ( rbufp ) ; break ; case UNITTYPE_CITIZENTIC_JJY200 : rc = jjy_receive_citizentic_jjy200 ( rbufp ) ; break ; default : rc = 0 ; break ; } if ( up->linediscipline == LDISC_RAW ) { if ( up->linecount <= up->lineexpect && up->charcount > up->charexpect[up->linecount-1] ) { for ( i = 0 ; i < up->charcount - up->charexpect[up->linecount-1] ; i ++ ) { up->rawbuf[i] = up->rawbuf[i+up->charexpect[up->linecount-1]] ; } up->charcount -= up->charexpect[up->linecount-1] ; } else { up->charcount = 0 ; } } if ( rc == 0 ) return ; up->bPollFlag = 0 ; if ( up->lineerror != 0 ) { refclock_report ( peer, CEVNT_BADREPLY ) ; strcpy ( sLogText, "BAD REPLY [" ) ; if ( up->linediscipline == LDISC_RAW ) { strncat ( sLogText, up->rawbuf, MAX_LOGTEXT - strlen ( sLogText ) - 1 ) ; } else { strncat ( sLogText, pp->a_lastcode, MAX_LOGTEXT - strlen ( sLogText ) - 1 ) ; } sLogText[MAX_LOGTEXT-1] = 0 ; if ( strlen ( sLogText ) < MAX_LOGTEXT - 2 ) strcat ( sLogText, "]" ) ; record_clock_stats ( &peer->srcadr, sLogText ) ; return ; } pp->year = up->year ; pp->day = ymd2yd ( up->year, up->month, up->day ) ; pp->hour = up->hour ; pp->minute = up->minute ; pp->second = up->second ; pp->nsec = up->msecond * 1000000; /* * JST to UTC */ pp->hour -= 9 ; if ( pp->hour < 0 ) { pp->hour += 24 ; pp->day -- ; if ( pp->day < 1 ) { pp->year -- ; pp->day = ymd2yd ( pp->year, 12, 31 ) ; } } #ifdef DEBUG if ( debug ) { printf ( "jjy_receive (refclock_jjy.c) : %04d/%02d/%02d %02d:%02d:%02d.%1d JST ", up->year, up->month, up->day, up->hour, up->minute, up->second, up->msecond/100 ) ; printf ( "( %04d/%03d %02d:%02d:%02d.%1d UTC )\n", pp->year, pp->day, pp->hour, pp->minute, pp->second, (int)(pp->nsec/100000000) ) ; } #endif /* * Process the new sample in the median filter and determine the * timecode timestamp. */ sprintf ( sLogText, "%04d/%02d/%02d %02d:%02d:%02d.%1d JST", up->year, up->month, up->day, up->hour, up->minute, up->second, up->msecond/100 ) ; record_clock_stats ( &peer->srcadr, sLogText ) ; if ( ! refclock_process ( pp ) ) { refclock_report(peer, CEVNT_BADTIME); return ; } pp->lastref = pp->lastrec; refclock_receive(peer); } /**************************************************************************************************/ static int jjy_receive_tristate_jjy01 ( struct recvbuf *rbufp ) { static char *sFunctionName = "jjy_receive_tristate_jjy01" ; struct jjyunit *up ; struct refclockproc *pp ; struct peer *peer; char *pBuf ; int iLen ; int rc ; /* * Initialize pointers and read the timecode and timestamp */ peer = (struct peer *) rbufp->recv_srcclock ; pp = peer->procptr ; up = (struct jjyunit *) pp->unitptr ; if ( up->linediscipline == LDISC_RAW ) { pBuf = up->rawbuf ; iLen = up->charcount ; } else { pBuf = pp->a_lastcode ; iLen = pp->lencode ; } switch ( up->linecount ) { case 1 : /* YYYY/MM/DD WWW */ if ( iLen != 14 ) { #ifdef DEBUG if ( debug >= 2 ) { printf ( "%s (refclock_jjy.c) : Reply length error ( up->linecount=%d iLen=%d )\n", sFunctionName, up->linecount, iLen ) ; } #endif up->lineerror = 1 ; break ; } rc = sscanf ( pBuf, "%4d/%2d/%2d", &up->year, &up->month, &up->day ) ; if ( rc != 3 || up->year < 2000 || up->month < 1 || up->month > 12 || up->day < 1 || up->day > 31 ) { #ifdef DEBUG if ( debug >= 2 ) { printf ( "%s (refclock_jjy.c) : Date error ( up->linecount=%d )\n", sFunctionName, up->linecount ) ; } #endif up->lineerror = 1 ; break ; } /*** Start of modification on 2004/10/31 */ /* * Following codes are moved from the function jjy_poll_tristate_jjy01 in this source. * The Tristate JJY-01 ( Firmware version 1.01 ) accepts "time" and "stim" commands without any delay. * But the JJY-01 ( Firmware version 2.01 ) does not accept these commands continuously, * so this driver issues the second command "stim" after the reply of the first command "date". */ /* * Send "stim<CR><LF>" or "time<CR><LF>" command */ if ( up->version >= 100 ) { #ifdef DEBUG if ( debug ) { printf ( "%s (refclock_jjy.c) : send 'stim<CR><LF>'\n", sFunctionName ) ; } #endif if ( write ( pp->io.fd, "stim\r\n",6 ) != 6 ) { refclock_report ( peer, CEVNT_FAULT ) ; } } else { #ifdef DEBUG if ( debug ) { printf ( "%s (refclock_jjy.c) : send 'time<CR><LF>'\n", sFunctionName ) ; } #endif if ( write ( pp->io.fd, "time\r\n",6 ) != 6 ) { refclock_report ( peer, CEVNT_FAULT ) ; } } /*** End of modification ***/ return 0 ; case 2 : /* HH:MM:SS */ if ( iLen != 8 ) { #ifdef DEBUG if ( debug >= 2 ) { printf ( "%s (refclock_jjy.c) : Reply length error ( up->linecount=%d iLen=%d )\n", sFunctionName, up->linecount, iLen ) ; } #endif up->lineerror = 1 ; break ; } rc = sscanf ( pBuf, "%2d:%2d:%2d", &up->hour, &up->minute, &up->second ) ; if ( rc != 3 || up->hour > 23 || up->minute > 59 || up->second > 60 ) { #ifdef DEBUG if ( debug >= 2 ) { printf ( "%s (refclock_jjy.c) : Time error ( up->linecount=%d )\n", sFunctionName, up->linecount ) ; } #endif up->lineerror = 1 ; break ; } up->msecond = 0 ; if ( up->hour == 0 && up->minute == 0 && up->second <= 2 ) { /* * The command "date" and "time" ( or "stim" ) were sent to the JJY receiver continuously. * But the JJY receiver replies a date and time separately. * Just after midnight transitions, we ignore this time. */ return 0 ; } break ; default : /* Unexpected reply */ up->lineerror = 1 ; break ; } return 1 ; } /**************************************************************************************************/ static int jjy_receive_cdex_jst2000 ( struct recvbuf *rbufp ) { static char *sFunctionName = "jjy_receive_cdex_jst2000" ; struct jjyunit *up ; struct refclockproc *pp ; struct peer *peer; char *pBuf ; int iLen ; int rc ; /* * Initialize pointers and read the timecode and timestamp */ peer = (struct peer *) rbufp->recv_srcclock ; pp = peer->procptr ; up = (struct jjyunit *) pp->unitptr ; if ( up->linediscipline == LDISC_RAW ) { pBuf = up->rawbuf ; iLen = up->charcount ; } else { pBuf = pp->a_lastcode ; iLen = pp->lencode ; } switch ( up->linecount ) { case 1 : /* JYYMMDD HHMMSSS */ if ( iLen != 15 ) { #ifdef DEBUG if ( debug >= 2 ) { printf ( "%s (refclock_jjy.c) : Reply length error ( iLen=%d )\n", sFunctionName, iLen ) ; } #endif up->lineerror = 1 ; break ; } rc = sscanf ( pBuf, "J%2d%2d%2d%*1d%2d%2d%2d%1d", &up->year, &up->month, &up->day, &up->hour, &up->minute, &up->second, &up->msecond ) ; if ( rc != 7 || up->month < 1 || up->month > 12 || up->day < 1 || up->day > 31 || up->hour > 23 || up->minute > 59 || up->second > 60 ) { #ifdef DEBUG if ( debug >= 2 ) { printf ( "%s (refclock_jjy.c) : Time error (rc=%d) [ %02d %02d %02d * %02d %02d %02d.%1d ]\n", sFunctionName, rc, up->year, up->month, up->day, up->hour, up->minute, up->second, up->msecond ) ; } #endif up->lineerror = 1 ; break ; } up->year += 2000 ; up->msecond *= 100 ; break ; default : /* Unexpected reply */ up->lineerror = 1 ; break ; } return 1 ; } /**************************************************************************************************/ static int jjy_receive_echokeisokuki_lt2000 ( struct recvbuf *rbufp ) { static char *sFunctionName = "jjy_receive_echokeisokuki_lt2000" ; struct jjyunit *up ; struct refclockproc *pp ; struct peer *peer; char *pBuf ; int iLen ; int rc ; int i, ibcc, ibcc1, ibcc2 ; /* * Initialize pointers and read the timecode and timestamp */ peer = (struct peer *) rbufp->recv_srcclock ; pp = peer->procptr ; up = (struct jjyunit *) pp->unitptr ; if ( up->linediscipline == LDISC_RAW ) { pBuf = up->rawbuf ; iLen = up->charcount ; } else { pBuf = pp->a_lastcode ; iLen = pp->lencode ; } switch ( up->linecount ) { case 1 : /* YYMMDDWHHMMSS<BCC1><BCC2> or YYMMDDWHHMMSS<ST1><ST2><ST3><ST4> */ if ( ( up->operationmode == 1 && iLen != 15 ) || ( up->operationmode == 2 && iLen != 17 ) ) { #ifdef DEBUG if ( debug >= 2 ) { printf ( "%s (refclock_jjy.c) : Reply length error ( iLen=%d )\n", sFunctionName, iLen ) ; } #endif if ( up->operationmode == 1 ) { #ifdef DEBUG if ( debug ) { printf ( "%s (refclock_jjy.c) : send '#'\n", sFunctionName ) ; } #endif if ( write ( pp->io.fd, "#",1 ) != 1 ) { refclock_report ( peer, CEVNT_FAULT ) ; } } up->lineerror = 1 ; break ; } if ( up->operationmode == 1 ) { for ( i = ibcc = 0 ; i < 13 ; i ++ ) ibcc ^= pBuf[i] ; ibcc1 = 0x30 | ( ( ibcc >> 4 ) & 0xF ) ; ibcc2 = 0x30 | ( ( ibcc ) & 0xF ) ; if ( pBuf[13] != ibcc1 || pBuf[14] != ibcc2 ) { #ifdef DEBUG if ( debug >= 2 ) { printf ( "%s (refclock_jjy.c) : BCC error ( Recv=%02X,%02X / Calc=%02X,%02X)\n", sFunctionName, pBuf[13]&0xFF, pBuf[14]&0xFF, ibcc1, ibcc2 ) ; } #endif up->lineerror = 1 ; break ; } } rc = sscanf ( pBuf, "%2d%2d%2d%*1d%2d%2d%2d", &up->year, &up->month, &up->day, &up->hour, &up->minute, &up->second ) ; if ( rc != 6 || up->month < 1 || up->month > 12 || up->day < 1 || up->day > 31 || up->hour > 23 || up->minute > 59 || up->second > 60 ) { #ifdef DEBUG if ( debug >= 2 ) { printf ( "%s (refclock_jjy.c) : Time error (rc=%d) [ %02d %02d %02d * %02d %02d %02d ]\n", sFunctionName, rc, up->year, up->month, up->day, up->hour, up->minute, up->second ) ; } #endif up->lineerror = 1 ; break ; } up->year += 2000 ; if ( up->operationmode == 2 ) { /* A time stamp comes on every 0.5 seccond in the mode 2 of the LT-2000. */ up->msecond = 500 ; pp->second -- ; if ( pp->second < 0 ) { pp->second = 59 ; pp->minute -- ; if ( pp->minute < 0 ) { pp->minute = 59 ; pp->hour -- ; if ( pp->hour < 0 ) { pp->hour = 23 ; pp->day -- ; if ( pp->day < 1 ) { pp->year -- ; pp->day = ymd2yd ( pp->year, 12, 31 ) ; } } } } /* Switch from mode 2 to mode 1 in order to restraint of useless time stamp. */ #ifdef DEBUG if ( debug ) { printf ( "%s (refclock_jjy.c) : send '#'\n", sFunctionName ) ; } #endif if ( write ( pp->io.fd, "#",1 ) != 1 ) { refclock_report ( peer, CEVNT_FAULT ) ; } } break ; default : /* Unexpected reply */ #ifdef DEBUG if ( debug ) { printf ( "%s (refclock_jjy.c) : send '#'\n", sFunctionName ) ; } #endif if ( write ( pp->io.fd, "#",1 ) != 1 ) { refclock_report ( peer, CEVNT_FAULT ) ; } up->lineerror = 1 ; break ; } return 1 ; } /**************************************************************************************************/ static int jjy_receive_citizentic_jjy200 ( struct recvbuf *rbufp ) { static char *sFunctionName = "jjy_receive_citizentic_jjy200" ; struct jjyunit *up ; struct refclockproc *pp ; struct peer *peer; char *pBuf ; int iLen ; int rc ; char cApostrophe, sStatus[3] ; int iWeekday ; /* * Initialize pointers and read the timecode and timestamp */ peer = (struct peer *) rbufp->recv_srcclock ; pp = peer->procptr ; up = (struct jjyunit *) pp->unitptr ; if ( up->linediscipline == LDISC_RAW ) { pBuf = up->rawbuf ; iLen = up->charcount ; } else { pBuf = pp->a_lastcode ; iLen = pp->lencode ; } /* * JJY-200 sends a timestamp every second. * So, a timestamp is ignored unless it is right after polled. */ if ( ! up->bPollFlag ) return 0 ; switch ( up->linecount ) { case 1 : /* 'XX YY/MM/DD W HH:MM:SS<CR> */ if ( iLen != 23 ) { #ifdef DEBUG if ( debug >= 2 ) { printf ( "%s (refclock_jjy.c) : Reply length error ( iLen=%d )\n", sFunctionName, iLen ) ; } #endif up->lineerror = 1 ; break ; } rc = sscanf ( pBuf, "%c%2s %2d/%2d/%2d %1d %2d:%2d:%2d", &cApostrophe, sStatus, &up->year, &up->month, &up->day, &iWeekday, &up->hour, &up->minute, &up->second ) ; sStatus[2] = 0 ; if ( rc != 9 || cApostrophe != '\'' || strcmp( sStatus, "OK" ) != 0 || up->month < 1 || up->month > 12 || up->day < 1 || up->day > 31 || iWeekday > 6 || up->hour > 23 || up->minute > 59 || up->second > 60 ) { #ifdef DEBUG if ( debug >= 2 ) { printf ( "%s (refclock_jjy.c) : Time error (rc=%d) [ %c %2s %02d %02d %02d %d %02d %02d %02d ]\n", sFunctionName, rc, cApostrophe, sStatus, up->year, up->month, up->day, iWeekday, up->hour, up->minute, up->second ) ; } #endif up->lineerror = 1 ; break ; } up->year += 2000 ; up->msecond = 0 ; break ; default : /* Unexpected reply */ up->lineerror = 1 ; break ; } return 1 ; } /**************************************************************************************************/ /* jjy_poll - called by the transmit procedure */ /**************************************************************************************************/ static void jjy_poll ( int unit, struct peer *peer ) { struct jjyunit *up; struct refclockproc *pp; pp = peer->procptr; up = (struct jjyunit *) pp->unitptr ; if ( pp->polls > 0 && up->linecount == 0 ) { /* * No reply for last command */ refclock_report ( peer, CEVNT_TIMEOUT ) ; } #ifdef DEBUG if ( debug ) { printf ( "jjy_poll (refclock_jjy.c) : %ld\n", pp->polls ) ; } #endif pp->polls ++ ; up->bPollFlag = 1 ; up->linecount = 0 ; up->lineerror = 0 ; up->charcount = 0 ; switch ( up->unittype ) { case UNITTYPE_TRISTATE_JJY01 : jjy_poll_tristate_jjy01 ( unit, peer ) ; break ; case UNITTYPE_CDEX_JST2000 : jjy_poll_cdex_jst2000 ( unit, peer ) ; break ; case UNITTYPE_ECHOKEISOKUKI_LT2000 : jjy_poll_echokeisokuki_lt2000 ( unit, peer ) ; break ; case UNITTYPE_CITIZENTIC_JJY200 : jjy_poll_citizentic_jjy200 ( unit, peer ) ; break ; default : break ; } } /**************************************************************************************************/ static void jjy_poll_tristate_jjy01 ( int unit, struct peer *peer ) { struct refclockproc *pp; pp = peer->procptr; /* * Send "date<CR><LF>" command */ #ifdef DEBUG if ( debug ) { printf ( "jjy_poll_tristate_jjy01 (refclock_jjy.c) : send 'date<CR><LF>'\n" ) ; } #endif if ( write ( pp->io.fd, "date\r\n",6 ) != 6 ) { refclock_report ( peer, CEVNT_FAULT ) ; } } /**************************************************************************************************/ static void jjy_poll_cdex_jst2000 ( int unit, struct peer *peer ) { struct refclockproc *pp; pp = peer->procptr; /* * Send "<ENQ>1J<ETX>" command */ #ifdef DEBUG if ( debug ) { printf ( "jjy_poll_cdex_jst2000 (refclock_jjy.c) : send '<ENQ>1J<ETX>'\n" ) ; } #endif if ( write ( pp->io.fd, "\0051J\003", 4 ) != 4 ) { refclock_report ( peer, CEVNT_FAULT ) ; } } /**************************************************************************************************/ static void jjy_poll_echokeisokuki_lt2000 ( int unit, struct peer *peer ) { struct jjyunit *up; struct refclockproc *pp; char sCmd[2] ; pp = peer->procptr; up = (struct jjyunit *) pp->unitptr ; /* * Send "T" or "C" command */ switch ( up->operationmode ) { case 1 : sCmd[0] = 'T' ; break ; case 2 : sCmd[0] = 'C' ; break ; } sCmd[1] = 0 ; #ifdef DEBUG if ( debug ) { printf ( "jjy_poll_echokeisokuki_lt2000 (refclock_jjy.c) : send '%s'\n", sCmd ) ; } #endif if ( write ( pp->io.fd, sCmd, 1 ) != 1 ) { refclock_report ( peer, CEVNT_FAULT ) ; } } /**************************************************************************************************/ static void jjy_poll_citizentic_jjy200 ( int unit, struct peer *peer ) { /* Do nothing ( up->bPollFlag is set by the jjy_poll ) */ } #else int refclock_jjy_bs ; #endif /* REFCLOCK */