/* * refclock_jjy - clock driver for JJY receivers */ /**********************************************************************/ /* */ /* Copyright (C) 2001-2020, 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 takao_abe@xurb.jp */ /* Homepage http://www.bea.hi-ho.ne.jp/abetakao/ */ /* */ /* The email address abetakao@bea.hi-ho.ne.jp is never read */ /* from 2010, because a few filtering rule are provided by the */ /* "hi-ho.ne.jp", and lots of spam mail are reached. */ /* New email address for supporting the refclock_jjy is */ /* takao_abe@xurb.jp */ /* */ /**********************************************************************/ /* */ /* 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 */ /* */ /* 2010/11/20 */ /* [Change] Bug 1618 ( Harmless ) */ /* Code clean up ( Remove unreachable codes ) in */ /* jjy_start() */ /* [Change] Change clockstats format of the Tristate JJY01/02 */ /* Issues more command to get the status of the receiver */ /* when "fudge 127.127.40.X flag1 1" is specified */ /* ( DATE,STIM -> DCST,STUS,DATE,STIM ) */ /* */ /* 2011/04/30 */ /* [Add] Support the Tristate Ltd. TS-GPSclock-01 */ /* */ /* 2015/03/29 */ /* [Add] Support the Telephone JJY */ /* [Change] Split the start up routine into each JJY receivers. */ /* Change raw data internal bufferring process */ /* Change over midnight handling of TS-JJY01 and TS-GPS01 */ /* to put DATE command between before and after TIME's. */ /* Unify the writing clockstats of all JJY receivers. */ /* */ /* 2015/05/15 */ /* [Add] Support the SEIKO TIME SYSTEMS TDC-300 */ /* */ /* 2016/05/08 */ /* [Fix] C-DEX JST2000 */ /* Thanks to Mr. Kuramatsu for the report and the patch. */ /* */ /* 2017/04/30 */ /* [Change] Avoid a wrong report of the coverity static analysis */ /* tool. ( The code is harmless and has no bug. ) */ /* teljjy_conn_send() */ /* */ /* 2020/01/19 */ /* [Change] Handling TS-JJY01/02 status of the the STUS reply. */ /* Time synchronization can be skipped by the settings of */ /* the flag2 when the status of the reply is UNADJUSTED. */ /* [Change] Quiet compilation for the GCC 9.2.0. */ /* [Fix] Correct typos in comment lines */ /* */ /**********************************************************************/ #ifdef HAVE_CONFIG_H #include #endif #if defined(REFCLOCK) && defined(CLOCK_JJY) #include #include #include #include #include #include "ntpd.h" #include "ntp_io.h" #include "ntp_tty.h" #include "ntp_refclock.h" #include "ntp_calendar.h" #include "ntp_stdlib.h" /**********************************************************************/ /* * Interface definitions */ #define DEVICE "/dev/jjy%d" /* device name and unit */ #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 SPEED232_TRISTATE_GPSCLOCK01 B38400 /* USB speed (38400 baud) */ #define SPEED232_SEIKO_TIMESYS_TDC_300 B2400 /* UART speed (2400 baud) */ #define SPEED232_TELEPHONE B2400 /* 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 jjyRawDataBreak { const char * pString ; int iLength ; } ; #define MAX_TIMESTAMP 6 #define MAX_RAWBUF 100 #define MAX_LOOPBACK 5 struct jjyunit { /* Set up by the function "jjy_start_xxxxxxxx" */ char unittype ; /* UNITTYPE_XXXXXXXXXX */ short operationmode ; /* Echo Keisokuki LT-2000 */ int linespeed ; /* SPEED232_XXXXXXXXXX */ short linediscipline ; /* LDISC_CLK or LDISC_RAW */ /* Receiving data */ char bInitError ; /* Set by jjy_start if any error during initialization */ short iProcessState ; /* JJY_PROCESS_STATE_XXXXXX */ char bReceiveFlag ; /* Set and reset by jjy_receive */ char bLineError ; /* Reset by jjy_poll / Set by jjy_receive_xxxxxxxx*/ short iCommandSeq ; /* 0:Idle Non-Zero:Issued */ short iReceiveSeq ; int iLineCount ; int year, month, day, hour, minute, second, msecond ; int leapsecond ; int iTimestampCount ; /* TS-JJY01, TS-GPS01, Telephone-JJY */ int iTimestamp [ MAX_TIMESTAMP ] ; /* Serial second ( 0 - 86399 ) */ /* LDISC_RAW only */ char sRawBuf [ MAX_RAWBUF ] ; int iRawBufLen ; struct jjyRawDataBreak *pRawBreak ; char bWaitBreakString ; char sLineBuf [ MAX_RAWBUF ] ; int iLineBufLen ; char sTextBuf [ MAX_RAWBUF ] ; int iTextBufLen ; char bSkipCntrlCharOnly ; /* TS-JJY01, TS-JJY02 */ time_t tLastAdjustedTimestamp ; char bStusReplyAdjusted ; char bStusReplyAdjustedAtLeastOnce ; /* Telephone JJY auto measurement of the loopback delay */ char bLoopbackMode ; short iLoopbackCount ; struct timeval sendTime[MAX_LOOPBACK], delayTime[MAX_LOOPBACK] ; char bLoopbackTimeout[MAX_LOOPBACK] ; short iLoopbackValidCount ; /* Telephone JJY timer */ short iTeljjySilentTimer ; short iTeljjyStateTimer ; /* Telephone JJY control finite state machine */ short iClockState ; short iClockEvent ; short iClockCommandSeq ; /* Modem timer */ short iModemSilentCount ; short iModemSilentTimer ; short iModemStateTimer ; /* Modem control finite state machine */ short iModemState ; short iModemEvent ; short iModemCommandSeq ; }; #define UNITTYPE_TRISTATE_JJY01 1 #define UNITTYPE_CDEX_JST2000 2 #define UNITTYPE_ECHOKEISOKUKI_LT2000 3 #define UNITTYPE_CITIZENTIC_JJY200 4 #define UNITTYPE_TRISTATE_GPSCLOCK01 5 #define UNITTYPE_SEIKO_TIMESYS_TDC_300 6 #define UNITTYPE_TELEPHONE 100 #define JJY_PROCESS_STATE_IDLE 0 #define JJY_PROCESS_STATE_POLL 1 #define JJY_PROCESS_STATE_RECEIVE 2 #define JJY_PROCESS_STATE_DONE 3 #define JJY_PROCESS_STATE_ERROR 4 /**********************************************************************/ /* * Function calling structure * * jjy_start * |-- jjy_start_tristate_jjy01 * |-- jjy_start_cdex_jst2000 * |-- jjy_start_echokeisokuki_lt2000 * |-- jjy_start_citizentic_jjy200 * |-- jjy_start_tristate_gpsclock01 * |-- jjy_start_seiko_tsys_tdc_300 * |-- jjy_start_telephone * * jjy_shutdown * * jjy_poll * |-- jjy_poll_tristate_jjy01 * |-- jjy_poll_cdex_jst2000 * |-- jjy_poll_echokeisokuki_lt2000 * |-- jjy_poll_citizentic_jjy200 * |-- jjy_poll_tristate_gpsclock01 * |-- jjy_poll_seiko_tsys_tdc_300 * |-- jjy_poll_telephone * |-- teljjy_control * |-- teljjy_XXXX_YYYY ( XXXX_YYYY is an event handler name. ) * |-- modem_connect * |-- modem_control * |-- modem_XXXX_YYYY ( XXXX_YYYY is an event handler name. ) * * jjy_receive * | * |-- jjy_receive_tristate_jjy01 * | |-- jjy_synctime * |-- jjy_receive_cdex_jst2000 * | |-- jjy_synctime * |-- jjy_receive_echokeisokuki_lt2000 * | |-- jjy_synctime * |-- jjy_receive_citizentic_jjy200 * | |-- jjy_synctime * |-- jjy_receive_tristate_gpsclock01 * | |-- jjy_synctime * |-- jjy_receive_seiko_tsys_tdc_300 * | |-- jjy_synctime * |-- jjy_receive_telephone * |-- modem_receive * | |-- modem_control * | |-- modem_XXXX_YYYY ( XXXX_YYYY is an event handler name. ) * |-- teljjy_control * |-- teljjy_XXXX_YYYY ( XXXX_YYYY is an event handler name. ) * |-- jjy_synctime * |-- modem_disconnect * |-- modem_control * |-- modem_XXXX_YYYY ( XXXX_YYYY is an event handler name. ) * * jjy_timer * |-- jjy_timer_telephone * |-- modem_timer * | |-- modem_control * | |-- modem_XXXX_YYYY ( XXXX_YYYY is an event handler name. ) * |-- teljjy_control * |-- teljjy_XXXX_YYYY ( XXXX_YYYY is an event handler name. ) * |-- modem_disconnect * |-- modem_control * |-- modem_XXXX_YYYY ( XXXX_YYYY is an event handler name. ) * * Function prototypes */ static int jjy_start (int, struct peer *); static int jjy_start_tristate_jjy01 (int, struct peer *, struct jjyunit *); static int jjy_start_cdex_jst2000 (int, struct peer *, struct jjyunit *); static int jjy_start_echokeisokuki_lt2000 (int, struct peer *, struct jjyunit *); static int jjy_start_citizentic_jjy200 (int, struct peer *, struct jjyunit *); static int jjy_start_tristate_gpsclock01 (int, struct peer *, struct jjyunit *); static int jjy_start_seiko_tsys_tdc_300 (int, struct peer *, struct jjyunit *); static int jjy_start_telephone (int, struct peer *, struct jjyunit *); static void jjy_shutdown (int, struct peer *); static void jjy_poll (int, struct peer *); static void jjy_poll_tristate_jjy01 (int, struct peer *); static void jjy_poll_cdex_jst2000 (int, struct peer *); static void jjy_poll_echokeisokuki_lt2000 (int, struct peer *); static void jjy_poll_citizentic_jjy200 (int, struct peer *); static void jjy_poll_tristate_gpsclock01 (int, struct peer *); static void jjy_poll_seiko_tsys_tdc_300 (int, struct peer *); static void jjy_poll_telephone (int, struct peer *); static void jjy_receive (struct recvbuf *); static int jjy_receive_tristate_jjy01 (struct recvbuf *); static int jjy_receive_cdex_jst2000 (struct recvbuf *); static int jjy_receive_echokeisokuki_lt2000 (struct recvbuf *); static int jjy_receive_citizentic_jjy200 (struct recvbuf *); static int jjy_receive_tristate_gpsclock01 (struct recvbuf *); static int jjy_receive_seiko_tsys_tdc_300 (struct recvbuf *); static int jjy_receive_telephone (struct recvbuf *); static void jjy_timer (int, struct peer *); static void jjy_timer_telephone (int, struct peer *); static void jjy_synctime ( struct peer *, struct refclockproc *, struct jjyunit * ) ; static void jjy_write_clockstats ( struct peer *, int, const char* ) ; static int getRawDataBreakPosition ( struct jjyunit *, int ) ; static short getModemState ( struct jjyunit * ) ; static int isModemStateConnect ( short ) ; static int isModemStateDisconnect ( short ) ; static int isModemStateTimerOn ( struct jjyunit * ) ; static void modem_connect ( int, struct peer * ) ; static void modem_disconnect ( int, struct peer * ) ; static int modem_receive ( struct recvbuf * ) ; static void modem_timer ( int, struct peer * ); static void printableString ( char*, int, const char*, int ) ; /* * 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 */ jjy_timer /* 1 second interval timer */ }; /* * Start up driver return code */ #define RC_START_SUCCESS 1 #define RC_START_ERROR 0 /* * Local constants definition */ #define MAX_LOGTEXT 200 #ifndef TRUE #define TRUE (0==0) #endif #ifndef FALSE #define FALSE (!TRUE) #endif /* Local constants definition for the return code of the jjy_receive_xxxxxxxx */ #define JJY_RECEIVE_DONE 0 #define JJY_RECEIVE_SKIP 1 #define JJY_RECEIVE_UNPROCESS 2 #define JJY_RECEIVE_WAIT 3 #define JJY_RECEIVE_ERROR 4 /* Local constants definition for the 2nd parameter of the jjy_write_clockstats */ #define JJY_CLOCKSTATS_MARK_NONE 0 #define JJY_CLOCKSTATS_MARK_JJY 1 #define JJY_CLOCKSTATS_MARK_SEND 2 #define JJY_CLOCKSTATS_MARK_RECEIVE 3 #define JJY_CLOCKSTATS_MARK_INFORMATION 4 #define JJY_CLOCKSTATS_MARK_ATTENTION 5 #define JJY_CLOCKSTATS_MARK_WARNING 6 #define JJY_CLOCKSTATS_MARK_ERROR 7 #define JJY_CLOCKSTATS_MARK_BUG 8 /* Local constants definition for the clockstats messages */ #define JJY_CLOCKSTATS_MESSAGE_ECHOBACK "* Echoback" #define JJY_CLOCKSTATS_MESSAGE_IGNORE_REPLY "* Ignore replay : [%s]" #define JJY_CLOCKSTATS_MESSAGE_OVER_MIDNIGHT_2 "* Over midnight : timestamp=%d, %d" #define JJY_CLOCKSTATS_MESSAGE_OVER_MIDNIGHT_3 "* Over midnight : timestamp=%d, %d, %d" #define JJY_CLOCKSTATS_MESSAGE_TIMESTAMP_UNSURE "* Unsure timestamp : %s" #define JJY_CLOCKSTATS_MESSAGE_LOOPBACK_DELAY "* Loopback delay : %d.%03d mSec." #define JJY_CLOCKSTATS_MESSAGE_DELAY_ADJUST "* Delay adjustment : %d mSec. ( valid=%hd/%d )" #define JJY_CLOCKSTATS_MESSAGE_DELAY_UNADJUST "* Delay adjustment : None ( valid=%hd/%d )" #define JJY_CLOCKSTATS_MESSAGE_STUS_UNADJUSTED "* Skip time synchronization : STUS is 'UNADJUSTED' for %.0lf %s" #define JJY_CLOCKSTATS_MESSAGE_UNEXPECTED_REPLY "# Unexpected reply : [%s]" #define JJY_CLOCKSTATS_MESSAGE_INVALID_LENGTH "# Invalid length : length=%d" #define JJY_CLOCKSTATS_MESSAGE_TOO_MANY_REPLY "# Too many reply : count=%d" #define JJY_CLOCKSTATS_MESSAGE_INVALID_REPLY "# Invalid reply : [%s]" #define JJY_CLOCKSTATS_MESSAGE_SLOW_REPLY_2 "# Slow reply : timestamp=%d, %d" #define JJY_CLOCKSTATS_MESSAGE_SLOW_REPLY_3 "# Slow reply : timestamp=%d, %d, %d" #define JJY_CLOCKSTATS_MESSAGE_SSCANF_INVALID_DATE "# Invalid date : rc=%d year=%d month=%d day=%d" #define JJY_CLOCKSTATS_MESSAGE_SSCANF_INVALID_TIME "# Invalid time : rc=%d hour=%d minute=%d second=%d" #define JJY_CLOCKSTATS_MESSAGE_SSCANF_INVALID_DATETIME "# Invalid time : rc=%d year=%d month=%d day=%d hour=%d minute=%d second=%d" #define JJY_CLOCKSTATS_MESSAGE_SSCANF_INVALID_LEAP "# Invalid leap : leapsecond=[%s]" #define JJY_CLOCKSTATS_MESSAGE_SSCANF_INVALID_STATUS "# Invalid status : status=[%s]" /* Debug print macro */ #ifdef DEBUG #define DEBUG_PRINTF_JJY_RECEIVE(sFunc,iLen) { if ( debug ) { printf ( "refclock_jjy.c : %s : iProcessState=%d bLineError=%d iCommandSeq=%d iLineCount=%d iTimestampCount=%d iLen=%d\n", sFunc, up->iProcessState, up->bLineError, up->iCommandSeq, up->iLineCount, up->iTimestampCount, iLen ) ; } } #else #define DEBUG_PRINTF_JJY_RECEIVE(sFunc,iLen) #endif /**************************************************************************************************/ /* jjy_start - open the devices and initialize data for processing */ /**************************************************************************************************/ static int jjy_start ( int unit, struct peer *peer ) { struct refclockproc *pp ; struct jjyunit *up ; int rc ; int fd ; char sDeviceName [ sizeof(DEVICE) + 10 ], sLog [ 60 ] ; #ifdef DEBUG if ( debug ) { printf( "refclock_jjy.c : jjy_start : %s mode=%d dev=%s unit=%d\n", ntoa(&peer->srcadr), peer->ttl, DEVICE, unit ) ; } #endif /* Allocate memory for the unit structure */ up = emalloc( sizeof(*up) ) ; if ( up == NULL ) { msyslog ( LOG_ERR, "refclock_jjy.c : jjy_start : emalloc" ) ; return RC_START_ERROR ; } memset ( up, 0, sizeof(*up) ) ; up->bInitError = FALSE ; up->iProcessState = JJY_PROCESS_STATE_IDLE ; up->bReceiveFlag = FALSE ; up->iCommandSeq = 0 ; up->iLineCount = 0 ; up->iTimestampCount = 0 ; up->bWaitBreakString = FALSE ; up->iRawBufLen = up->iLineBufLen = up->iTextBufLen = 0 ; up->bSkipCntrlCharOnly = TRUE ; /* Set up the device name */ snprintf( sDeviceName, sizeof(sDeviceName), DEVICE, unit ) ; snprintf( sLog, sizeof(sLog), "mode=%d dev=%s", peer->ttl, sDeviceName ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_JJY, sLog ) ; /* * 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 : rc = jjy_start_tristate_jjy01 ( unit, peer, up ) ; break ; case 2 : rc = jjy_start_cdex_jst2000 ( unit, peer, up ) ; break ; case 3 : rc = jjy_start_echokeisokuki_lt2000 ( unit, peer, up ) ; break ; case 4 : rc = jjy_start_citizentic_jjy200 ( unit, peer, up ) ; break ; case 5 : rc = jjy_start_tristate_gpsclock01 ( unit, peer, up ) ; break ; case 6 : rc = jjy_start_seiko_tsys_tdc_300 ( unit, peer, up ) ; break ; case 100 : rc = jjy_start_telephone ( unit, peer, up ) ; break ; default : if ( 101 <= peer->ttl && peer->ttl <= 180 ) { rc = jjy_start_telephone ( unit, peer, up ) ; } else { msyslog ( LOG_ERR, "JJY receiver [ %s mode %d ] : Unsupported mode", ntoa(&peer->srcadr), peer->ttl ) ; free ( (void*) up ) ; return RC_START_ERROR ; } } if ( rc != 0 ) { msyslog ( LOG_ERR, "JJY receiver [ %s mode %d ] : Initialize error", ntoa(&peer->srcadr), peer->ttl ) ; free ( (void*) up ) ; return RC_START_ERROR ; } /* Open the device */ fd = refclock_open ( &peer->srcadr, sDeviceName, up->linespeed, up->linediscipline ) ; if ( fd <= 0 ) { free ( (void*) up ) ; return RC_START_ERROR ; } /* * Initialize variables */ pp = peer->procptr ; pp->clockdesc = DESCRIPTION ; pp->unitptr = up ; pp->io.clock_recv = jjy_receive ; pp->io.srcclock = peer ; pp->io.datalen = 0 ; pp->io.fd = fd ; if ( ! io_addclock(&pp->io) ) { close ( fd ) ; pp->io.fd = -1 ; free ( up ) ; pp->unitptr = NULL ; return RC_START_ERROR ; } memcpy( (char*)&pp->refid, REFID, strlen(REFID) ) ; peer->precision = PRECISION ; snprintf( sLog, sizeof(sLog), "minpoll=%d maxpoll=%d", peer->minpoll, peer->maxpoll ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_JJY, sLog ) ; return RC_START_SUCCESS ; } /**************************************************************************************************/ /* jjy_shutdown - shutdown the clock */ /**************************************************************************************************/ static void jjy_shutdown ( int unit, struct peer *peer ) { struct jjyunit *up; struct refclockproc *pp; char sLog [ 60 ] ; pp = peer->procptr ; up = pp->unitptr ; if ( -1 != pp->io.fd ) { io_closeclock ( &pp->io ) ; } if ( NULL != up ) { free ( up ) ; } snprintf( sLog, sizeof(sLog), "JJY stopped. unit=%d mode=%d", unit, peer->ttl ) ; record_clock_stats( &peer->srcadr, sLog ) ; } /**************************************************************************************************/ /* jjy_receive - receive data from the serial interface */ /**************************************************************************************************/ static void jjy_receive ( struct recvbuf *rbufp ) { #ifdef DEBUG static const char *sFunctionName = "jjy_receive" ; #endif struct jjyunit *up ; struct refclockproc *pp ; struct peer *peer; l_fp tRecvTimestamp; /* arrival timestamp */ int rc ; char *pBuf, sLogText [ MAX_LOGTEXT ] ; size_t iLen, iCopyLen ; int i, j, iReadRawBuf, iBreakPosition ; /* * Initialize pointers and read the timecode and timestamp */ peer = rbufp->recv_peer ; pp = peer->procptr ; up = pp->unitptr ; /* * Get next input line */ if ( up->linediscipline == LDISC_RAW ) { pp->lencode = refclock_gtraw ( rbufp, pp->a_lastcode, BMAX-1, &tRecvTimestamp ) ; /* 3rd argument can be BMAX, but the coverity scan tool claim "Memory - corruptions (OVERRUN)" */ /* "a_lastcode" is defined as "char a_lastcode[BMAX]" in the ntp_refclock.h */ /* To avoid its claim, pass the value BMAX-1. */ /* * Append received characters to temporary buffer */ for ( i = 0 ; i < pp->lencode && up->iRawBufLen < MAX_RAWBUF - 2 ; i ++ , up->iRawBufLen ++ ) { up->sRawBuf[up->iRawBufLen] = pp->a_lastcode[i] ; } up->sRawBuf[up->iRawBufLen] = 0 ; } else { pp->lencode = refclock_gtlin ( rbufp, pp->a_lastcode, BMAX, &tRecvTimestamp ) ; } #ifdef DEBUG printf( "\nrefclock_jjy.c : %s : Len=%d ", sFunctionName, pp->lencode ) ; for ( i = 0 ; i < pp->lencode ; i ++ ) { if ( iscntrl( (u_char)(pp->a_lastcode[i] & 0x7F) ) ) { printf( "", pp->a_lastcode[i] & 0xFF ) ; } else { printf( "%c", pp->a_lastcode[i] ) ; } } printf( "\n" ) ; #endif /* * The reply with gives a blank line */ if ( pp->lencode == 0 ) return ; /* * Receiving data is not expected */ if ( up->iProcessState == JJY_PROCESS_STATE_IDLE || up->iProcessState == JJY_PROCESS_STATE_DONE || up->iProcessState == JJY_PROCESS_STATE_ERROR ) { /* Discard received data */ up->iRawBufLen = 0 ; #ifdef DEBUG if ( debug ) { printf( "refclock_jjy.c : %s : Discard received data\n", sFunctionName ) ; } #endif return ; } /* * We get down to business */ pp->lastrec = tRecvTimestamp ; up->iLineCount ++ ; up->iProcessState = JJY_PROCESS_STATE_RECEIVE ; up->bReceiveFlag = TRUE ; iReadRawBuf = 0 ; iBreakPosition = up->iRawBufLen - 1 ; for ( ; up->iProcessState == JJY_PROCESS_STATE_RECEIVE ; ) { if ( up->linediscipline == LDISC_RAW ) { if ( up->bWaitBreakString ) { iBreakPosition = getRawDataBreakPosition( up, iReadRawBuf ) ; if ( iBreakPosition == -1 ) { /* Break string have not come yet */ if ( up->iRawBufLen < MAX_RAWBUF - 2 || iReadRawBuf > 0 ) { /* Temporary buffer is not full */ break ; } else { /* Temporary buffer is full */ iBreakPosition = up->iRawBufLen - 1 ; } } } else { iBreakPosition = up->iRawBufLen - 1 ; } /* Copy characters from temporary buffer to process buffer */ up->iLineBufLen = up->iTextBufLen = 0 ; for ( i = iReadRawBuf ; i <= iBreakPosition ; i ++ ) { /* Copy all characters */ up->sLineBuf[up->iLineBufLen] = up->sRawBuf[i] ; up->iLineBufLen ++ ; /* Copy printable characters */ if ( ! iscntrl( (u_char)up->sRawBuf[i] ) ) { up->sTextBuf[up->iTextBufLen] = up->sRawBuf[i] ; up->iTextBufLen ++ ; } } up->sLineBuf[up->iLineBufLen] = 0 ; up->sTextBuf[up->iTextBufLen] = 0 ; #ifdef DEBUG printf( "refclock_jjy.c : %s : up->iLineBufLen=%d up->iTextBufLen=%d\n", sFunctionName, up->iLineBufLen, up->iTextBufLen ) ; #endif if ( up->bSkipCntrlCharOnly && up->iTextBufLen == 0 ) { #ifdef DEBUG printf( "refclock_jjy.c : %s : Skip cntrl char only : up->iRawBufLen=%d iReadRawBuf=%d iBreakPosition=%d\n", sFunctionName, up->iRawBufLen, iReadRawBuf, iBreakPosition ) ; #endif if ( iBreakPosition + 1 < up->iRawBufLen ) { iReadRawBuf = iBreakPosition + 1 ; continue ; } else { break ; } } } if ( up->linediscipline == LDISC_RAW ) { pBuf = up->sLineBuf ; iLen = up->iLineBufLen ; } else { pBuf = pp->a_lastcode ; iLen = pp->lencode ; } iCopyLen = ( iLen <= sizeof(sLogText)-1 ? iLen : sizeof(sLogText)-1 ) ; memcpy( sLogText, pBuf, iCopyLen ) ; sLogText[iCopyLen] = '\0' ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_RECEIVE, sLogText ) ; 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 ; case UNITTYPE_TRISTATE_GPSCLOCK01 : rc = jjy_receive_tristate_gpsclock01 ( rbufp ) ; break ; case UNITTYPE_SEIKO_TIMESYS_TDC_300 : rc = jjy_receive_seiko_tsys_tdc_300 ( rbufp ) ; break ; case UNITTYPE_TELEPHONE : rc = jjy_receive_telephone ( rbufp ) ; break ; default : rc = JJY_RECEIVE_ERROR ; break ; } switch ( rc ) { case JJY_RECEIVE_DONE : case JJY_RECEIVE_SKIP : up->iProcessState = JJY_PROCESS_STATE_DONE ; break ; case JJY_RECEIVE_ERROR : up->iProcessState = JJY_PROCESS_STATE_ERROR ; break ; default : break ; } if ( up->linediscipline == LDISC_RAW ) { if ( rc == JJY_RECEIVE_UNPROCESS ) { break ; } iReadRawBuf = iBreakPosition + 1 ; if ( iReadRawBuf >= up->iRawBufLen ) { /* Processed all received data */ break ; } } if ( up->linediscipline == LDISC_CLK ) { break ; } } if ( up->linediscipline == LDISC_RAW && iReadRawBuf > 0 ) { for ( i = 0, j = iReadRawBuf ; j < up->iRawBufLen ; i ++, j++ ) { up->sRawBuf[i] = up->sRawBuf[j] ; } up->iRawBufLen -= iReadRawBuf ; if ( up->iRawBufLen < 0 ) { up->iRawBufLen = 0 ; } } up->bReceiveFlag = FALSE ; } /**************************************************************************************************/ static int getRawDataBreakPosition ( struct jjyunit *up, int iStart ) { int i, j ; if ( iStart >= up->iRawBufLen ) { #ifdef DEBUG printf( "refclock_jjy.c : getRawDataBreakPosition : iStart=%d return=-1\n", iStart ) ; #endif return -1 ; } for ( i = iStart ; i < up->iRawBufLen ; i ++ ) { for ( j = 0 ; up->pRawBreak[j].pString != NULL ; j ++ ) { if ( i + up->pRawBreak[j].iLength <= up->iRawBufLen ) { if ( strncmp( up->sRawBuf + i, up->pRawBreak[j].pString, up->pRawBreak[j].iLength ) == 0 ) { #ifdef DEBUG printf( "refclock_jjy.c : getRawDataBreakPosition : iStart=%d return=%d\n", iStart, i + up->pRawBreak[j].iLength - 1 ) ; #endif return i + up->pRawBreak[j].iLength - 1 ; } } } } #ifdef DEBUG printf( "refclock_jjy.c : getRawDataBreakPosition : iStart=%d return=-1\n", iStart ) ; #endif return -1 ; } /**************************************************************************************************/ /* jjy_poll - called by the transmit procedure */ /**************************************************************************************************/ static void jjy_poll ( int unit, struct peer *peer ) { char sLog [ 40 ], sReach [ 9 ] ; struct jjyunit *up; struct refclockproc *pp; pp = peer->procptr; up = pp->unitptr ; if ( up->bInitError ) { jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_ERROR, "Ignore polling because of error during initializing" ) ; return ; } if ( pp->polls > 0 && up->iLineCount == 0 ) { /* * No reply for last command */ refclock_report ( peer, CEVNT_TIMEOUT ) ; } pp->polls ++ ; sReach[0] = peer->reach & 0x80 ? '1' : '0' ; sReach[1] = peer->reach & 0x40 ? '1' : '0' ; sReach[2] = peer->reach & 0x20 ? '1' : '0' ; sReach[3] = peer->reach & 0x10 ? '1' : '0' ; sReach[4] = peer->reach & 0x08 ? '1' : '0' ; sReach[5] = peer->reach & 0x04 ? '1' : '0' ; sReach[6] = peer->reach & 0x02 ? '1' : '0' ; sReach[7] = 0 ; /* This poll */ sReach[8] = 0 ; snprintf( sLog, sizeof(sLog), "polls=%ld reach=%s", pp->polls, sReach ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_ATTENTION, sLog ) ; up->iProcessState = JJY_PROCESS_STATE_POLL ; up->iCommandSeq = 0 ; up->iReceiveSeq = 0 ; up->iLineCount = 0 ; up->bLineError = FALSE ; up->iRawBufLen = 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 ; case UNITTYPE_TRISTATE_GPSCLOCK01 : jjy_poll_tristate_gpsclock01 ( unit, peer ) ; break ; case UNITTYPE_SEIKO_TIMESYS_TDC_300 : jjy_poll_seiko_tsys_tdc_300 ( unit, peer ) ; break ; case UNITTYPE_TELEPHONE : jjy_poll_telephone ( unit, peer ) ; break ; default : break ; } } /**************************************************************************************************/ /* jjy_timer - called at one-second intervals */ /**************************************************************************************************/ static void jjy_timer ( int unit, struct peer *peer ) { struct refclockproc *pp ; struct jjyunit *up ; #ifdef DEBUG if ( debug ) { printf ( "refclock_jjy.c : jjy_timer\n" ) ; } #endif pp = peer->procptr ; up = pp->unitptr ; if ( up->bReceiveFlag ) { #ifdef DEBUG if ( debug ) { printf ( "refclock_jjy.c : jjy_timer : up->bReceiveFlag= TRUE : Timer skipped.\n" ) ; } #endif return ; } switch ( up->unittype ) { case UNITTYPE_TELEPHONE : jjy_timer_telephone ( unit, peer ) ; break ; default : break ; } } /**************************************************************************************************/ /* jjy_synctime */ /**************************************************************************************************/ static void jjy_synctime ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { char sLog [ 80 ], cStatus ; const char *pStatus ; 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 ) ; } } /* * Process the new sample in the median filter and determine the * timecode timestamp. */ if ( ! refclock_process( pp ) ) { refclock_report( peer, CEVNT_BADTIME ) ; return ; } pp->lastref = pp->lastrec ; refclock_receive( peer ) ; /* * Write into the clockstats file */ snprintf ( sLog, sizeof(sLog), "%04d/%02d/%02d %02d:%02d:%02d.%03d JST ( %04d/%03d %02d:%02d:%02d.%03d UTC )", up->year, up->month, up->day, up->hour, up->minute, up->second, up->msecond, pp->year, pp->day, pp->hour, pp->minute, pp->second, (int)(pp->nsec/1000000) ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_ATTENTION, sLog ) ; cStatus = ' ' ; pStatus = "" ; switch ( peer->status ) { case 0 : cStatus = ' ' ; pStatus = "Reject" ; break ; case 1 : cStatus = 'x' ; pStatus = "FalseTick" ; break ; case 2 : cStatus = '.' ; pStatus = "Excess" ; break ; case 3 : cStatus = '-' ; pStatus = "Outlier" ; break ; case 4 : cStatus = '+' ; pStatus = "Candidate" ; break ; case 5 : cStatus = '#' ; pStatus = "Selected" ; break ; case 6 : cStatus = '*' ; pStatus = "Sys.Peer" ; break ; case 7 : cStatus = 'o' ; pStatus = "PPS.Peer" ; break ; default : break ; } snprintf ( sLog, sizeof(sLog), "status %d [%c] %s : offset %3.3f mSec. : jitter %3.3f mSec.", peer->status, cStatus, pStatus, peer->offset * 1000, peer->jitter * 1000 ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_INFORMATION, sLog ) ; } /*################################################################################################*/ /*################################################################################################*/ /*## ##*/ /*## The Tristate Ltd. JJY receiver TS-JJY01, TS-JJY02 ##*/ /*## ##*/ /*## server 127.127.40.X mode 1 ##*/ /*## ##*/ /*################################################################################################*/ /*################################################################################################*/ /* */ /* Command Response Remarks */ /* -------------------- ---------------------------------------- ---------------------------- */ /* dcst VALID or INVALID */ /* stus ADJUSTED or UNADJUSTED */ /* date YYYY/MM/DD XXX XXX is the day of the week */ /* time HH:MM:SS Not used by this driver */ /* stim HH:MM:SS Reply at just second */ /* */ /*################################################################################################*/ #define TS_JJY01_COMMAND_NUMBER_DATE 1 #define TS_JJY01_COMMAND_NUMBER_TIME 2 #define TS_JJY01_COMMAND_NUMBER_STIM 3 #define TS_JJY01_COMMAND_NUMBER_STUS 4 #define TS_JJY01_COMMAND_NUMBER_DCST 5 #define TS_JJY01_REPLY_DATE "yyyy/mm/dd www" #define TS_JJY01_REPLY_STIM "hh:mm:ss" #define TS_JJY01_REPLY_STUS_ADJUSTED "adjusted" #define TS_JJY01_REPLY_STUS_UNADJUSTED "unadjusted" #define TS_JJY01_REPLY_DCST_VALID "valid" #define TS_JJY01_REPLY_DCST_INVALID "invalid" #define TS_JJY01_REPLY_LENGTH_DATE 14 /* Length without */ #define TS_JJY01_REPLY_LENGTH_TIME 8 /* Length without */ #define TS_JJY01_REPLY_LENGTH_STIM 8 /* Length without */ #define TS_JJY01_REPLY_LENGTH_STUS_ADJUSTED 8 /* Length without */ #define TS_JJY01_REPLY_LENGTH_STUS_UNADJUSTED 10 /* Length without */ #define TS_JJY01_REPLY_LENGTH_DCST_VALID 5 /* Length without */ #define TS_JJY01_REPLY_LENGTH_DCST_INVALID 7 /* Length without */ static struct { const char commandNumber ; const char *command ; int commandLength ; int iExpectedReplyLength [ 2 ] ; } tristate_jjy01_command_sequence[] = { { 0, NULL, 0, { 0, 0 } }, /* Idle */ { TS_JJY01_COMMAND_NUMBER_DCST, "dcst\r\n", 6, { TS_JJY01_REPLY_LENGTH_DCST_VALID , TS_JJY01_REPLY_LENGTH_DCST_INVALID } }, { TS_JJY01_COMMAND_NUMBER_STUS, "stus\r\n", 6, { TS_JJY01_REPLY_LENGTH_STUS_ADJUSTED, TS_JJY01_REPLY_LENGTH_STUS_UNADJUSTED } }, { TS_JJY01_COMMAND_NUMBER_TIME, "time\r\n", 6, { TS_JJY01_REPLY_LENGTH_TIME , TS_JJY01_REPLY_LENGTH_TIME } }, { TS_JJY01_COMMAND_NUMBER_DATE, "date\r\n", 6, { TS_JJY01_REPLY_LENGTH_DATE , TS_JJY01_REPLY_LENGTH_DATE } }, { TS_JJY01_COMMAND_NUMBER_STIM, "stim\r\n", 6, { TS_JJY01_REPLY_LENGTH_STIM , TS_JJY01_REPLY_LENGTH_STIM } }, /* End of command */ { 0, NULL, 0, { 0, 0 } } } ; /**************************************************************************************************/ static int jjy_start_tristate_jjy01 ( int unit, struct peer *peer, struct jjyunit *up ) { jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_JJY, "Refclock: Tristate Ltd. TS-JJY01, TS-JJY02" ) ; up->unittype = UNITTYPE_TRISTATE_JJY01 ; up->linespeed = SPEED232_TRISTATE_JJY01 ; up->linediscipline = LDISC_CLK ; time( &(up->tLastAdjustedTimestamp) ) ; up->bStusReplyAdjustedAtLeastOnce = FALSE ; return 0 ; } /**************************************************************************************************/ static int jjy_receive_tristate_jjy01 ( struct recvbuf *rbufp ) { struct jjyunit *up ; struct refclockproc *pp ; struct peer *peer; char * pBuf ; char sLog [ MAX_LOGTEXT ] ; int iLen ; int rc ; time_t now ; double fSeconds ; const char * pCmd ; int iCmdLen ; /* Initialize pointers */ peer = rbufp->recv_peer ; pp = peer->procptr ; up = pp->unitptr ; if ( up->linediscipline == LDISC_RAW ) { pBuf = up->sTextBuf ; iLen = up->iTextBufLen ; } else { pBuf = pp->a_lastcode ; iLen = pp->lencode ; } DEBUG_PRINTF_JJY_RECEIVE( "jjy_receive_tristate_jjy01", iLen ) ; /* Check expected reply */ if ( tristate_jjy01_command_sequence[up->iCommandSeq].command == NULL ) { /* Command sequence has not been started, or has been completed */ snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_UNEXPECTED_REPLY, pBuf ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_ERROR, sLog ) ; up->bLineError = TRUE ; return JJY_RECEIVE_ERROR ; } /* Check reply length */ if ( iLen != tristate_jjy01_command_sequence[up->iCommandSeq].iExpectedReplyLength[0] && iLen != tristate_jjy01_command_sequence[up->iCommandSeq].iExpectedReplyLength[1] ) { /* Unexpected reply length */ snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_INVALID_LENGTH, iLen ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_ERROR, sLog ) ; up->bLineError = TRUE ; return JJY_RECEIVE_ERROR ; } /* Parse reply */ switch ( tristate_jjy01_command_sequence[up->iCommandSeq].commandNumber ) { case TS_JJY01_COMMAND_NUMBER_DATE : /* YYYY/MM/DD WWW */ rc = sscanf ( pBuf, "%4d/%2d/%2d", &up->year, &up->month, &up->day ) ; if ( rc != 3 || up->year < 2000 || 2099 <= up->year || up->month < 1 || 12 < up->month || up->day < 1 || 31 < up->day ) { /* Invalid date */ snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_SSCANF_INVALID_DATE, rc, up->year, up->month, up->day ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_ERROR, sLog ) ; up->bLineError = TRUE ; return JJY_RECEIVE_ERROR ; } break ; case TS_JJY01_COMMAND_NUMBER_TIME : /* HH:MM:SS */ case TS_JJY01_COMMAND_NUMBER_STIM : /* HH:MM:SS */ if ( up->iTimestampCount >= 2 ) { /* Too many time reply */ snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_TOO_MANY_REPLY, up->iTimestampCount ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_ERROR, sLog ) ; up->bLineError = TRUE ; return JJY_RECEIVE_ERROR ; } rc = sscanf ( pBuf, "%2d:%2d:%2d", &up->hour, &up->minute, &up->second ) ; if ( rc != 3 || up->hour > 23 || up->minute > 59 || up->second > 60 ) { /* Invalid time */ snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_SSCANF_INVALID_TIME, rc, up->hour, up->minute, up->second ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_ERROR, sLog ) ; up->bLineError = TRUE ; return JJY_RECEIVE_ERROR ; } up->iTimestamp[up->iTimestampCount] = ( up->hour * 60 + up->minute ) * 60 + up->second ; up->iTimestampCount++ ; up->msecond = 0 ; break ; case TS_JJY01_COMMAND_NUMBER_STUS : if ( strncmp( pBuf, TS_JJY01_REPLY_STUS_ADJUSTED, TS_JJY01_REPLY_LENGTH_STUS_ADJUSTED ) == 0 ) { /* STUS reply : adjusted */ up->bStusReplyAdjusted = TRUE ; up->bStusReplyAdjustedAtLeastOnce = TRUE ; time( &(up->tLastAdjustedTimestamp) ) ; } else if ( strncmp( pBuf, TS_JJY01_REPLY_STUS_UNADJUSTED, TS_JJY01_REPLY_LENGTH_STUS_UNADJUSTED ) == 0 ) { /* STUS reply : unadjusted */ up->bStusReplyAdjusted = FALSE ; } else { /* Bad reply */ snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_INVALID_REPLY, pBuf ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_ERROR, sLog ) ; up->bLineError = TRUE ; return JJY_RECEIVE_ERROR ; } break ; case TS_JJY01_COMMAND_NUMBER_DCST : if ( strncmp( pBuf, TS_JJY01_REPLY_DCST_VALID, TS_JJY01_REPLY_LENGTH_DCST_VALID ) == 0 || strncmp( pBuf, TS_JJY01_REPLY_DCST_INVALID, TS_JJY01_REPLY_LENGTH_DCST_INVALID ) == 0 ) { /* Valid reply */ } else { /* Bad reply */ snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_INVALID_REPLY, pBuf ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_ERROR, sLog ) ; up->bLineError = TRUE ; return JJY_RECEIVE_ERROR ; } break ; default : /* Unexpected reply */ snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_INVALID_REPLY, pBuf ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_ERROR, sLog ) ; up->bLineError = TRUE ; return JJY_RECEIVE_ERROR ; } if ( up->iTimestampCount == 2 ) { /* Process date and time */ time( &now ) ; fSeconds = difftime( now, up->tLastAdjustedTimestamp ) ; if ( ( pp->sloppyclockflag & CLK_FLAG2 ) != 0 && ( ! up->bStusReplyAdjusted ) && ( fSeconds >= ( pp->fudgetime2 * 3600 ) || ( ! up->bStusReplyAdjustedAtLeastOnce ) ) ) { /* STUS is not ADJUSTED */ if ( fSeconds < 60 ) { snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_STUS_UNADJUSTED, fSeconds, "seconds" ) ; } else if ( fSeconds < 3600 ) { snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_STUS_UNADJUSTED, fSeconds / 60, "minutes" ) ; } else if ( fSeconds < 86400 ) { snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_STUS_UNADJUSTED, fSeconds / 3600, "hours" ) ; } else { snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_STUS_UNADJUSTED, fSeconds / 86400, "days" ) ; } jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_INFORMATION, sLog ) ; return JJY_RECEIVE_SKIP ; } else if ( up->iTimestamp[1] - 2 <= up->iTimestamp[0] && up->iTimestamp[0] <= up->iTimestamp[1] ) { /* 3 commands (time,date,stim) was executed in two seconds */ jjy_synctime( peer, pp, up ) ; return JJY_RECEIVE_DONE ; } else if ( up->iTimestamp[0] > up->iTimestamp[1] ) { /* Over midnight, and date is unsure */ snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_OVER_MIDNIGHT_2, up->iTimestamp[0], up->iTimestamp[1] ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_INFORMATION, sLog ) ; return JJY_RECEIVE_SKIP ; } else { /* Slow reply */ snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_SLOW_REPLY_2, up->iTimestamp[0], up->iTimestamp[1] ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_ERROR, sLog ) ; up->bLineError = TRUE ; return JJY_RECEIVE_ERROR ; } } /* Issue next command */ if ( tristate_jjy01_command_sequence[up->iCommandSeq].command != NULL ) { up->iCommandSeq ++ ; } if ( tristate_jjy01_command_sequence[up->iCommandSeq].command == NULL ) { /* Command sequence completed */ return JJY_RECEIVE_DONE ; } pCmd = tristate_jjy01_command_sequence[up->iCommandSeq].command ; iCmdLen = tristate_jjy01_command_sequence[up->iCommandSeq].commandLength ; if ( write ( pp->io.fd, pCmd, iCmdLen ) != iCmdLen ) { refclock_report ( peer, CEVNT_FAULT ) ; } jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_SEND, pCmd ) ; return JJY_RECEIVE_WAIT ; } /**************************************************************************************************/ static void jjy_poll_tristate_jjy01 ( int unit, struct peer *peer ) { #ifdef DEBUG static const char *sFunctionName = "jjy_poll_tristate_jjy01" ; #endif struct refclockproc *pp ; struct jjyunit *up ; const char * pCmd ; int iCmdLen ; pp = peer->procptr; up = pp->unitptr ; up->bLineError = FALSE ; up->iTimestampCount = 0 ; if ( ( pp->sloppyclockflag & CLK_FLAG1 ) == 0 ) { /* Skip "dcst" and "stus" commands */ up->iCommandSeq = 2 ; up->iLineCount = 2 ; } up->bStusReplyAdjusted = FALSE ; #ifdef DEBUG if ( debug ) { printf ( "%s (refclock_jjy.c) : flag1=%X CLK_FLAG1=%X up->iLineCount=%d\n", sFunctionName, pp->sloppyclockflag, CLK_FLAG1, up->iLineCount ) ; } #endif /* * Send a first command */ up->iCommandSeq ++ ; pCmd = tristate_jjy01_command_sequence[up->iCommandSeq].command ; iCmdLen = tristate_jjy01_command_sequence[up->iCommandSeq].commandLength ; if ( write ( pp->io.fd, pCmd, iCmdLen ) != iCmdLen ) { refclock_report ( peer, CEVNT_FAULT ) ; } jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_SEND, pCmd ) ; } /*################################################################################################*/ /*################################################################################################*/ /*## ##*/ /*## The C-DEX Co. Ltd. JJY receiver JST2000 ##*/ /*## ##*/ /*## server 127.127.40.X mode 2 ##*/ /*## ##*/ /*################################################################################################*/ /*################################################################################################*/ /* */ /* Command Response Remarks */ /* -------------------- ---------------------------------------- ---------------------------- */ /* 1J JYYMMDDWHHMMSSS J is a fixed character */ /* */ /*################################################################################################*/ static struct jjyRawDataBreak cdex_jst2000_raw_break [ ] = { { "\x03", 1 }, { NULL, 0 } } ; /**************************************************************************************************/ static int jjy_start_cdex_jst2000 ( int unit, struct peer *peer, struct jjyunit *up ) { jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_JJY, "Refclock: C-DEX Co. Ltd. JST2000" ) ; up->unittype = UNITTYPE_CDEX_JST2000 ; up->linespeed = SPEED232_CDEX_JST2000 ; up->linediscipline = LDISC_RAW ; up->pRawBreak = cdex_jst2000_raw_break ; up->bWaitBreakString = TRUE ; up->bSkipCntrlCharOnly = FALSE ; return 0 ; } /**************************************************************************************************/ static int jjy_receive_cdex_jst2000 ( struct recvbuf *rbufp ) { struct jjyunit *up ; struct refclockproc *pp ; struct peer *peer ; char *pBuf, sLog [ MAX_LOGTEXT ] ; int iLen ; int rc ; /* Initialize pointers */ peer = rbufp->recv_peer ; pp = peer->procptr ; up = pp->unitptr ; if ( up->linediscipline == LDISC_RAW ) { pBuf = up->sTextBuf ; iLen = up->iTextBufLen ; } else { pBuf = pp->a_lastcode ; iLen = pp->lencode ; } DEBUG_PRINTF_JJY_RECEIVE( "jjy_receive_cdex_jst2000", iLen ) ; /* Check expected reply */ if ( up->iCommandSeq != 1 ) { /* Command sequence has not been started, or has been completed */ snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_UNEXPECTED_REPLY, pBuf ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_ERROR, sLog ) ; up->bLineError = TRUE ; return JJY_RECEIVE_ERROR ; } /* Wait until ETX comes */ if ( up->iLineBufLen < 17 || up->sLineBuf[up->iLineBufLen-1] != 0x03 ) { return JJY_RECEIVE_UNPROCESS ; } /* Check reply length */ if ( iLen != 15 ) { /* Unexpected reply length */ snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_INVALID_LENGTH, iLen ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_ERROR, sLog ) ; up->bLineError = TRUE ; return JJY_RECEIVE_ERROR ; } /* JYYMMDDWHHMMSSS */ 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 ) { /* Invalid date and time */ snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_SSCANF_INVALID_DATETIME, rc, up->year, up->month, up->day, up->hour, up->minute, up->second ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_ERROR, sLog ) ; up->bLineError = TRUE ; return JJY_RECEIVE_ERROR ; } up->year += 2000 ; up->msecond *= 100 ; jjy_synctime( peer, pp, up ) ; return JJY_RECEIVE_DONE ; } /**************************************************************************************************/ static void jjy_poll_cdex_jst2000 ( int unit, struct peer *peer ) { struct refclockproc *pp ; struct jjyunit *up ; pp = peer->procptr ; up = pp->unitptr ; up->bLineError = FALSE ; up->iRawBufLen = 0 ; up->iLineBufLen = 0 ; up->iTextBufLen = 0 ; /* * Send "1J" command */ up->iCommandSeq ++ ; if ( write ( pp->io.fd, "\0051J\003", 4 ) != 4 ) { refclock_report ( peer, CEVNT_FAULT ) ; } jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_SEND, "\0051J\003" ) ; } /*################################################################################################*/ /*################################################################################################*/ /*## ##*/ /*## The Echo Keisokuki Co. Ltd. JJY receiver LT2000 ##*/ /*## ##*/ /*## server 127.127.40.X mode 3 ##*/ /*## ##*/ /*################################################################################################*/ /*################################################################################################*/ /* */ /* Command Response Remarks */ /* -------------------- ---------------------------------------- ---------------------------- */ /* # Mode 1 ( Request & Send ) */ /* T YYMMDDWHHMMSS */ /* C Mode 2 ( Continuous ) */ /* YYMMDDWHHMMSS 0.5 sec before time stamp */ /* Second signal */ /* */ /*################################################################################################*/ #define ECHOKEISOKUKI_LT2000_MODE_REQUEST_SEND 1 #define ECHOKEISOKUKI_LT2000_MODE_CONTINUOUS 2 #define ECHOKEISOKUKI_LT2000_MODE_SWITCHING_CONTINUOUS 3 #define ECHOKEISOKUKI_LT2000_COMMAND_REQUEST_SEND "#" #define ECHOKEISOKUKI_LT2000_COMMAND_REQUEST_TIME "T" #define ECHOKEISOKUKI_LT2000_COMMAND_CONTINUOUS "C" /**************************************************************************************************/ static int jjy_start_echokeisokuki_lt2000 ( int unit, struct peer *peer, struct jjyunit *up ) { jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_JJY, "Refclock: Echo Keisokuki Co. Ltd. LT2000" ) ; up->unittype = UNITTYPE_ECHOKEISOKUKI_LT2000 ; up->linespeed = SPEED232_ECHOKEISOKUKI_LT2000 ; up->linediscipline = LDISC_CLK ; up->operationmode = ECHOKEISOKUKI_LT2000_MODE_SWITCHING_CONTINUOUS ; return 0 ; } /**************************************************************************************************/ static int jjy_receive_echokeisokuki_lt2000 ( struct recvbuf *rbufp ) { struct jjyunit *up ; struct refclockproc *pp ; struct peer *peer; char *pBuf, sLog [ 100 ], sErr [ 60 ] ; int iLen ; int rc ; int i, ibcc, ibcc1, ibcc2 ; /* Initialize pointers */ peer = rbufp->recv_peer ; pp = peer->procptr ; up = pp->unitptr ; if ( up->linediscipline == LDISC_RAW ) { pBuf = up->sTextBuf ; iLen = up->iTextBufLen ; } else { pBuf = pp->a_lastcode ; iLen = pp->lencode ; } DEBUG_PRINTF_JJY_RECEIVE( "jjy_receive_echokeisokuki_lt2000", iLen ) ; /* Check reply length */ if ( ( up->operationmode == ECHOKEISOKUKI_LT2000_MODE_REQUEST_SEND && iLen != 15 ) || ( up->operationmode == ECHOKEISOKUKI_LT2000_MODE_CONTINUOUS && iLen != 17 ) || ( up->operationmode == ECHOKEISOKUKI_LT2000_MODE_SWITCHING_CONTINUOUS && iLen != 17 ) ) { /* Unexpected reply length */ snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_INVALID_LENGTH, iLen ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_ERROR, sLog ) ; up->bLineError = TRUE ; return JJY_RECEIVE_ERROR ; } if ( up->operationmode == ECHOKEISOKUKI_LT2000_MODE_REQUEST_SEND && iLen == 15 ) { /* YYMMDDWHHMMSS */ 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 ) { snprintf( sErr, sizeof(sErr)-1, " BCC error : Recv=%02X,%02X / Calc=%02X,%02X ", pBuf[13] & 0xFF, pBuf[14] & 0xFF, ibcc1, ibcc2 ) ; snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_INVALID_REPLY, sErr ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_ERROR, sLog ) ; up->bLineError = TRUE ; return JJY_RECEIVE_ERROR ; } } if ( ( up->operationmode == ECHOKEISOKUKI_LT2000_MODE_REQUEST_SEND && iLen == 15 ) || ( up->operationmode == ECHOKEISOKUKI_LT2000_MODE_CONTINUOUS && iLen == 17 ) || ( up->operationmode == ECHOKEISOKUKI_LT2000_MODE_SWITCHING_CONTINUOUS && iLen == 17 ) ) { /* YYMMDDWHHMMSS or YYMMDDWHHMMSS */ 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 ) { /* Invalid date and time */ snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_SSCANF_INVALID_DATETIME, rc, up->year, up->month, up->day, up->hour, up->minute, up->second ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_ERROR, sLog ) ; up->bLineError = TRUE ; return JJY_RECEIVE_ERROR ; } up->year += 2000 ; if ( up->operationmode == ECHOKEISOKUKI_LT2000_MODE_CONTINUOUS || up->operationmode == ECHOKEISOKUKI_LT2000_MODE_SWITCHING_CONTINUOUS ) { /* A time stamp comes on every 0.5 second in the mode 2 of the LT-2000. */ up->msecond = 500 ; up->second -- ; if ( up->second < 0 ) { up->second = 59 ; up->minute -- ; if ( up->minute < 0 ) { up->minute = 59 ; up->hour -- ; if ( up->hour < 0 ) { up->hour = 23 ; up->day -- ; if ( up->day < 1 ) { up->month -- ; if ( up->month < 1 ) { up->month = 12 ; up->year -- ; } } } } } } jjy_synctime( peer, pp, up ) ; } if (up->operationmode == ECHOKEISOKUKI_LT2000_MODE_SWITCHING_CONTINUOUS ) { /* Switch from mode 2 to mode 1 in order to restraint of useless time stamp. */ iLen = strlen( ECHOKEISOKUKI_LT2000_COMMAND_REQUEST_SEND ) ; if ( write ( pp->io.fd, ECHOKEISOKUKI_LT2000_COMMAND_REQUEST_SEND, iLen ) != iLen ) { refclock_report ( peer, CEVNT_FAULT ) ; } jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_SEND, ECHOKEISOKUKI_LT2000_COMMAND_REQUEST_SEND ) ; } return JJY_RECEIVE_DONE ; } /**************************************************************************************************/ static void jjy_poll_echokeisokuki_lt2000 ( int unit, struct peer *peer ) { struct refclockproc *pp ; struct jjyunit *up ; char sCmd[2] ; pp = peer->procptr ; up = pp->unitptr ; up->bLineError = FALSE ; /* * Send "T" or "C" command */ switch ( up->operationmode ) { case ECHOKEISOKUKI_LT2000_MODE_REQUEST_SEND : sCmd[0] = 'T' ; break ; case ECHOKEISOKUKI_LT2000_MODE_CONTINUOUS : case ECHOKEISOKUKI_LT2000_MODE_SWITCHING_CONTINUOUS : sCmd[0] = 'C' ; break ; } sCmd[1] = 0 ; if ( write ( pp->io.fd, sCmd, 1 ) != 1 ) { refclock_report ( peer, CEVNT_FAULT ) ; } jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_SEND, sCmd ) ; } /*################################################################################################*/ /*################################################################################################*/ /*## ##*/ /*## The CITIZEN T.I.C CO., LTD. JJY receiver JJY200 ##*/ /*## ##*/ /*## server 127.127.40.X mode 4 ##*/ /*## ##*/ /*################################################################################################*/ /*################################################################################################*/ /* */ /* Command Response Remarks */ /* -------------------- ---------------------------------------- ---------------------------- */ /* 'XX YY/MM/DD W HH:MM:SS XX:OK|NG|ER W:0(Mon)-6(Sun) */ /* */ /*################################################################################################*/ static int jjy_start_citizentic_jjy200 ( int unit, struct peer *peer, struct jjyunit *up ) { jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_JJY, "Refclock: CITIZEN T.I.C CO. LTD. JJY200" ) ; up->unittype = UNITTYPE_CITIZENTIC_JJY200 ; up->linespeed = SPEED232_CITIZENTIC_JJY200 ; up->linediscipline = LDISC_CLK ; return 0 ; } /**************************************************************************************************/ static int jjy_receive_citizentic_jjy200 ( struct recvbuf *rbufp ) { struct jjyunit *up ; struct refclockproc *pp ; struct peer *peer; char *pBuf, sLog [ 100 ], sMsg [ 16 ] ; int iLen ; int rc ; char cApostrophe, sStatus[3] ; int iWeekday ; /* Initialize pointers */ peer = rbufp->recv_peer ; pp = peer->procptr ; up = pp->unitptr ; if ( up->linediscipline == LDISC_RAW ) { pBuf = up->sTextBuf ; iLen = up->iTextBufLen ; } else { pBuf = pp->a_lastcode ; iLen = pp->lencode ; } DEBUG_PRINTF_JJY_RECEIVE( "jjy_receive_citizentic_jjy200", iLen ) ; /* * JJY-200 sends a timestamp every second. * So, a timestamp is ignored unless it is right after polled. */ if ( up->iProcessState != JJY_PROCESS_STATE_RECEIVE ) { return JJY_RECEIVE_SKIP ; } /* Check reply length */ if ( iLen != 23 ) { /* Unexpected reply length */ snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_INVALID_LENGTH, iLen ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_ERROR, sLog ) ; up->bLineError = TRUE ; return JJY_RECEIVE_ERROR ; } /* 'XX YY/MM/DD W HH:MM:SS */ 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 && strcmp( sStatus, "NG" ) != 0 && strcmp( sStatus, "ER" ) != 0 ) || up->month < 1 || up->month > 12 || up->day < 1 || up->day > 31 || iWeekday > 6 || up->hour > 23 || up->minute > 59 || up->second > 60 ) { /* Invalid date and time */ snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_SSCANF_INVALID_DATETIME, rc, up->year, up->month, up->day, up->hour, up->minute, up->second ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_ERROR, sLog ) ; up->bLineError = TRUE ; return JJY_RECEIVE_ERROR ; } else if ( strcmp( sStatus, "NG" ) == 0 || strcmp( sStatus, "ER" ) == 0 ) { /* Timestamp is unsure */ snprintf( sMsg, sizeof(sMsg)-1, "status=%s", sStatus ) ; snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_TIMESTAMP_UNSURE, sMsg ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_WARNING, sLog ) ; return JJY_RECEIVE_SKIP ; } up->year += 2000 ; up->msecond = 0 ; jjy_synctime( peer, pp, up ) ; return JJY_RECEIVE_DONE ; } /**************************************************************************************************/ static void jjy_poll_citizentic_jjy200 ( int unit, struct peer *peer ) { struct refclockproc *pp ; struct jjyunit *up ; pp = peer->procptr ; up = pp->unitptr ; up->bLineError = FALSE ; } /*################################################################################################*/ /*################################################################################################*/ /*## ##*/ /*## The Tristate Ltd. GPS clock TS-GPS01 ##*/ /*## ##*/ /*## server 127.127.40.X mode 5 ##*/ /*## ##*/ /*################################################################################################*/ /*################################################################################################*/ /* */ /* This clock has NMEA mode and command/response mode. */ /* When this jjy driver are used, set to command/response mode of this clock */ /* by the onboard switch SW4, and make sure the LED-Y is tured on. */ /* Other than this JJY driver, the refclock driver type 20, generic NMEA driver, */ /* works with the NMEA mode of this clock. */ /* */ /* Command Response Remarks */ /* -------------------- ---------------------------------------- ---------------------------- */ /* stus *R|*G|*U|+U */ /* date YY/MM/DD */ /* time HH:MM:SS */ /* */ /*################################################################################################*/ #define TS_GPS01_COMMAND_NUMBER_DATE 1 #define TS_GPS01_COMMAND_NUMBER_TIME 2 #define TS_GPS01_COMMAND_NUMBER_STUS 4 #define TS_GPS01_REPLY_DATE "yyyy/mm/dd" #define TS_GPS01_REPLY_TIME "hh:mm:ss" #define TS_GPS01_REPLY_STUS_RTC "*R" #define TS_GPS01_REPLY_STUS_GPS "*G" #define TS_GPS01_REPLY_STUS_UTC "*U" #define TS_GPS01_REPLY_STUS_PPS "+U" #define TS_GPS01_REPLY_LENGTH_DATE 10 /* Length without */ #define TS_GPS01_REPLY_LENGTH_TIME 8 /* Length without */ #define TS_GPS01_REPLY_LENGTH_STUS 2 /* Length without */ static struct { char commandNumber ; const char *command ; int commandLength ; int iExpectedReplyLength ; } tristate_gps01_command_sequence[] = { { 0, NULL, 0, 0 }, /* Idle */ { TS_GPS01_COMMAND_NUMBER_STUS, "stus\r\n", 6, TS_GPS01_REPLY_LENGTH_STUS }, { TS_GPS01_COMMAND_NUMBER_TIME, "time\r\n", 6, TS_GPS01_REPLY_LENGTH_TIME }, { TS_GPS01_COMMAND_NUMBER_DATE, "date\r\n", 6, TS_GPS01_REPLY_LENGTH_DATE }, { TS_GPS01_COMMAND_NUMBER_TIME, "time\r\n", 6, TS_GPS01_REPLY_LENGTH_TIME }, /* End of command */ { 0, NULL, 0, 0 } } ; /**************************************************************************************************/ static int jjy_start_tristate_gpsclock01 ( int unit, struct peer *peer, struct jjyunit *up ) { jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_JJY, "Refclock: Tristate Ltd. TS-GPS01" ) ; up->unittype = UNITTYPE_TRISTATE_GPSCLOCK01 ; up->linespeed = SPEED232_TRISTATE_GPSCLOCK01 ; up->linediscipline = LDISC_CLK ; return 0 ; } /**************************************************************************************************/ static int jjy_receive_tristate_gpsclock01 ( struct recvbuf *rbufp ) { #ifdef DEBUG static const char *sFunctionName = "jjy_receive_tristate_gpsclock01" ; #endif struct jjyunit *up ; struct refclockproc *pp ; struct peer *peer; char * pBuf ; char sLog [ MAX_LOGTEXT ] ; int iLen ; int rc ; const char * pCmd ; int iCmdLen ; /* Initialize pointers */ peer = rbufp->recv_peer ; pp = peer->procptr ; up = pp->unitptr ; if ( up->linediscipline == LDISC_RAW ) { pBuf = up->sTextBuf ; iLen = up->iTextBufLen ; } else { pBuf = pp->a_lastcode ; iLen = pp->lencode ; } DEBUG_PRINTF_JJY_RECEIVE( "jjy_receive_tristate_gpsclock01", iLen ) ; /* Ignore NMEA data stream */ if ( iLen > 5 && ( strncmp( pBuf, "$GP", 3 ) == 0 || strncmp( pBuf, "$PFEC", 5 ) == 0 ) ) { #ifdef DEBUG if ( debug ) { printf ( "%s (refclock_jjy.c) : Skip NMEA stream [%s]\n", sFunctionName, pBuf ) ; } #endif return JJY_RECEIVE_WAIT ; } /* * Skip command prompt '$Cmd>' from the TS-GPSclock-01 */ if ( iLen == 5 && strncmp( pBuf, "$Cmd>", 5 ) == 0 ) { return JJY_RECEIVE_WAIT ; } else if ( iLen > 5 && strncmp( pBuf, "$Cmd>", 5 ) == 0 ) { pBuf += 5 ; iLen -= 5 ; } /* * Ignore NMEA data stream after command prompt */ if ( iLen > 5 && ( strncmp( pBuf, "$GP", 3 ) == 0 || strncmp( pBuf, "$PFEC", 5 ) == 0 ) ) { #ifdef DEBUG if ( debug ) { printf ( "%s (refclock_jjy.c) : Skip NMEA stream [%s]\n", sFunctionName, pBuf ) ; } #endif return JJY_RECEIVE_WAIT ; } /* Check expected reply */ if ( tristate_gps01_command_sequence[up->iCommandSeq].command == NULL ) { /* Command sequence has not been started, or has been completed */ snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_UNEXPECTED_REPLY, pBuf ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_ERROR, sLog ) ; up->bLineError = TRUE ; return JJY_RECEIVE_ERROR ; } /* Check reply length */ if ( iLen != tristate_gps01_command_sequence[up->iCommandSeq].iExpectedReplyLength ) { /* Unexpected reply length */ snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_INVALID_LENGTH, iLen ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_ERROR, sLog ) ; up->bLineError = TRUE ; return JJY_RECEIVE_ERROR ; } /* Parse reply */ switch ( tristate_gps01_command_sequence[up->iCommandSeq].commandNumber ) { case TS_GPS01_COMMAND_NUMBER_DATE : /* YYYY/MM/DD */ rc = sscanf ( pBuf, "%4d/%2d/%2d", &up->year, &up->month, &up->day ) ; if ( rc != 3 || up->year < 2000 || 2099 <= up->year || up->month < 1 || 12 < up->month || up->day < 1 || 31 < up->day ) { /* Invalid date */ snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_SSCANF_INVALID_DATE, rc, up->year, up->month, up->day ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_ERROR, sLog ) ; up->bLineError = TRUE ; return JJY_RECEIVE_ERROR ; } break ; case TS_GPS01_COMMAND_NUMBER_TIME : /* HH:MM:SS */ if ( up->iTimestampCount >= 2 ) { /* Too many time reply */ snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_TOO_MANY_REPLY, up->iTimestampCount ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_ERROR, sLog ) ; up->bLineError = TRUE ; return JJY_RECEIVE_ERROR ; } rc = sscanf ( pBuf, "%2d:%2d:%2d", &up->hour, &up->minute, &up->second ) ; if ( rc != 3 || up->hour > 23 || up->minute > 59 || up->second > 60 ) { /* Invalid time */ snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_SSCANF_INVALID_TIME, rc, up->hour, up->minute, up->second ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_ERROR, sLog ) ; up->bLineError = TRUE ; return JJY_RECEIVE_ERROR ; } up->iTimestamp[up->iTimestampCount] = ( up->hour * 60 + up->minute ) * 60 + up->second ; up->iTimestampCount++ ; up->msecond = 0 ; break ; case TS_GPS01_COMMAND_NUMBER_STUS : if ( strncmp( pBuf, TS_GPS01_REPLY_STUS_RTC, TS_GPS01_REPLY_LENGTH_STUS ) == 0 || strncmp( pBuf, TS_GPS01_REPLY_STUS_GPS, TS_GPS01_REPLY_LENGTH_STUS ) == 0 || strncmp( pBuf, TS_GPS01_REPLY_STUS_UTC, TS_GPS01_REPLY_LENGTH_STUS ) == 0 || strncmp( pBuf, TS_GPS01_REPLY_STUS_PPS, TS_GPS01_REPLY_LENGTH_STUS ) == 0 ) { /* Good */ } else { snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_INVALID_REPLY, pBuf ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_ERROR, sLog ) ; up->bLineError = TRUE ; return JJY_RECEIVE_ERROR ; } break ; default : /* Unexpected reply */ snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_INVALID_REPLY, pBuf ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_ERROR, sLog ) ; up->bLineError = TRUE ; return JJY_RECEIVE_ERROR ; } if ( up->iTimestampCount == 2 ) { /* Process date and time */ if ( up->iTimestamp[1] - 2 <= up->iTimestamp[0] && up->iTimestamp[0] <= up->iTimestamp[1] ) { /* 3 commands (time,date,stim) was executed in two seconds */ jjy_synctime( peer, pp, up ) ; return JJY_RECEIVE_DONE ; } else if ( up->iTimestamp[0] > up->iTimestamp[1] ) { /* Over midnight, and date is unsure */ snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_OVER_MIDNIGHT_2, up->iTimestamp[0], up->iTimestamp[1] ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_INFORMATION, sLog ) ; return JJY_RECEIVE_SKIP ; } else { /* Slow reply */ snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_SLOW_REPLY_2, up->iTimestamp[0], up->iTimestamp[1] ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_ERROR, sLog ) ; up->bLineError = TRUE ; return JJY_RECEIVE_ERROR ; } } if ( tristate_gps01_command_sequence[up->iCommandSeq].command == NULL ) { /* Command sequence completed */ jjy_synctime( peer, pp, up ) ; return JJY_RECEIVE_DONE ; } /* Issue next command */ if ( tristate_gps01_command_sequence[up->iCommandSeq].command != NULL ) { up->iCommandSeq ++ ; } if ( tristate_gps01_command_sequence[up->iCommandSeq].command == NULL ) { /* Command sequence completed */ up->iProcessState = JJY_PROCESS_STATE_DONE ; return JJY_RECEIVE_DONE ; } pCmd = tristate_gps01_command_sequence[up->iCommandSeq].command ; iCmdLen = tristate_gps01_command_sequence[up->iCommandSeq].commandLength ; if ( write ( pp->io.fd, pCmd, iCmdLen ) != iCmdLen ) { refclock_report ( peer, CEVNT_FAULT ) ; } jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_SEND, pCmd ) ; return JJY_RECEIVE_WAIT ; } /**************************************************************************************************/ static void jjy_poll_tristate_gpsclock01 ( int unit, struct peer *peer ) { #ifdef DEBUG static const char *sFunctionName = "jjy_poll_tristate_gpsclock01" ; #endif struct refclockproc *pp ; struct jjyunit *up ; const char * pCmd ; int iCmdLen ; pp = peer->procptr ; up = pp->unitptr ; up->iTimestampCount = 0 ; if ( ( pp->sloppyclockflag & CLK_FLAG1 ) == 0 ) { /* Skip "stus" command */ up->iCommandSeq = 1 ; up->iLineCount = 1 ; } #ifdef DEBUG if ( debug ) { printf ( "%s (refclock_jjy.c) : flag1=%X CLK_FLAG1=%X up->iLineCount=%d\n", sFunctionName, pp->sloppyclockflag, CLK_FLAG1, up->iLineCount ) ; } #endif /* * Send a first command */ up->iCommandSeq ++ ; pCmd = tristate_gps01_command_sequence[up->iCommandSeq].command ; iCmdLen = tristate_gps01_command_sequence[up->iCommandSeq].commandLength ; if ( write ( pp->io.fd, pCmd, iCmdLen ) != iCmdLen ) { refclock_report ( peer, CEVNT_FAULT ) ; } jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_SEND, pCmd ) ; } /*################################################################################################*/ /*################################################################################################*/ /*## ##*/ /*## The SEIKO TIME SYSTEMS TDC-300 ##*/ /*## ##*/ /*## server 127.127.40.X mode 6 ##*/ /*## ##*/ /*################################################################################################*/ /*################################################################################################*/ /* */ /* Type Response Remarks */ /* -------------------- ---------------------------------------- ---------------------------- */ /* Type 1 HH:MM:SS */ /* Type 2 YYMMDDHHMMSSWLSCU W:0(Sun)-6(Sat) */ /* Type 3 YYMMDDWHHMMSS W:0(Sun)-6(Sat) */ /* 5 to 10 mSec. before second */ /* */ /*################################################################################################*/ static struct jjyRawDataBreak seiko_tsys_tdc_300_raw_break [ ] = { { "\x03", 1 }, { NULL, 0 } } ; /**************************************************************************************************/ static int jjy_start_seiko_tsys_tdc_300 ( int unit, struct peer *peer, struct jjyunit *up ) { jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_JJY, "Refclock: SEIKO TIME SYSTEMS TDC-300" ) ; up->unittype = UNITTYPE_SEIKO_TIMESYS_TDC_300 ; up->linespeed = SPEED232_SEIKO_TIMESYS_TDC_300 ; up->linediscipline = LDISC_RAW ; up->pRawBreak = seiko_tsys_tdc_300_raw_break ; up->bWaitBreakString = TRUE ; up->bSkipCntrlCharOnly = FALSE ; return 0 ; } /**************************************************************************************************/ static int jjy_receive_seiko_tsys_tdc_300 ( struct recvbuf *rbufp ) { struct peer *peer; struct refclockproc *pp ; struct jjyunit *up ; char *pBuf, sLog [ MAX_LOGTEXT ] ; int iLen, i ; int rc, iWeekday ; time_t now ; struct tm *pTime ; /* Initialize pointers */ peer = rbufp->recv_peer ; pp = peer->procptr ; up = pp->unitptr ; if ( up->linediscipline == LDISC_RAW ) { pBuf = up->sTextBuf ; iLen = up->iTextBufLen ; } else { pBuf = pp->a_lastcode ; iLen = pp->lencode ; } DEBUG_PRINTF_JJY_RECEIVE( "jjy_receive_seiko_tsys_tdc_300", iLen ) ; /* * TDC-300 sends a timestamp every second. * So, a timestamp is ignored unless it is right after polled. */ if ( up->iProcessState != JJY_PROCESS_STATE_RECEIVE ) { return JJY_RECEIVE_SKIP ; } /* Process timestamp */ up->iReceiveSeq ++ ; switch ( iLen ) { case 8 : /* Type 1 : HH:MM:SS */ for ( i = 0 ; i < iLen ; i ++ ) { pBuf[i] &= 0x7F ; } rc = sscanf ( pBuf+1, "%2d:%2d:%2d", &up->hour, &up->minute, &up->second ) ; if ( rc != 3 || up->hour > 23 || up->minute > 59 || up->second > 60 ) { /* Invalid time */ snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_SSCANF_INVALID_TIME, rc, up->hour, up->minute, up->second ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_ERROR, sLog ) ; up->bLineError = TRUE ; return JJY_RECEIVE_ERROR ; } else if ( up->hour == 23 && up->minute == 59 && up->second >= 55 ) { /* Uncertainty date guard */ return JJY_RECEIVE_WAIT ; } time( &now ) ; pTime = localtime( &now ) ; up->year = pTime->tm_year ; up->month = pTime->tm_mon + 1 ; up->day = pTime->tm_mday ; break ; case 17 : /* Type 2 : YYMMDDHHMMSSWLSCU */ for ( i = 0 ; i < iLen ; i ++ ) { pBuf[i] &= 0x7F ; } rc = sscanf ( pBuf+1, "%2d%2d%2d%2d%2d%2d%1d", &up->year, &up->month, &up->day, &up->hour, &up->minute, &up->second, &iWeekday ) ; if ( rc != 7 || up->month < 1 || up->month > 12 || up->day < 1 || up->day > 31 || iWeekday > 6 || up->hour > 23 || up->minute > 59 || up->second > 60 ) { /* Invalid date and time */ snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_SSCANF_INVALID_DATETIME, rc, up->year, up->month, up->day, up->hour, up->minute, up->second ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_ERROR, sLog ) ; up->bLineError = TRUE ; return JJY_RECEIVE_ERROR ; } break ; case 13 : /* Type 3 : YYMMDDWHHMMSS */ rc = sscanf ( pBuf, "%2d%2d%2d%1d%2d%2d%2d", &up->year, &up->month, &up->day, &iWeekday, &up->hour, &up->minute, &up->second ) ; if ( rc != 7 || up->month < 1 || up->month > 12 || up->day < 1 || up->day > 31 || iWeekday > 6 || up->hour > 23 || up->minute > 59 || up->second > 60 ) { /* Invalid date and time */ snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_SSCANF_INVALID_DATETIME, rc, up->year, up->month, up->day, up->hour, up->minute, up->second ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_ERROR, sLog ) ; up->bLineError = TRUE ; return JJY_RECEIVE_ERROR ; } return JJY_RECEIVE_WAIT ; case 1 : /* Type 3 : */ if ( ( *pBuf & 0xFF ) != 0xE5 ) { /* Invalid second signal */ snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_INVALID_REPLY, up->sLineBuf ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_ERROR, sLog ) ; up->bLineError = TRUE ; return JJY_RECEIVE_ERROR ; } else if ( up->iReceiveSeq == 1 ) { /* Wait for next timestamp */ up->iReceiveSeq -- ; return JJY_RECEIVE_WAIT ; } else if ( up->iReceiveSeq >= 3 ) { /* Unexpected second signal */ snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_UNEXPECTED_REPLY, up->sLineBuf ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_ERROR, sLog ) ; up->bLineError = TRUE ; return JJY_RECEIVE_ERROR ; } break ; default : /* Unexpected reply length */ snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_INVALID_LENGTH, iLen ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_ERROR, sLog ) ; up->bLineError = TRUE ; return JJY_RECEIVE_ERROR ; } up->year += 2000 ; up->msecond = 0 ; jjy_synctime( peer, pp, up ) ; return JJY_RECEIVE_DONE ; } /**************************************************************************************************/ static void jjy_poll_seiko_tsys_tdc_300 ( int unit, struct peer *peer ) { struct refclockproc *pp ; struct jjyunit *up ; pp = peer->procptr ; up = pp->unitptr ; up->bLineError = FALSE ; } /*################################################################################################*/ /*################################################################################################*/ /*## ##*/ /*## Telephone JJY ##*/ /*## ##*/ /*## server 127.127.40.X mode 100 to 180 ##*/ /*## ##*/ /*################################################################################################*/ /*################################################################################################*/ /* */ /* Prompt Command Response Remarks */ /* -------------------- -------------------- -------------------- -------------------------- */ /* Name? TJJY Welcome messages TJJY is a guest user ID */ /* > 4DATE YYYYMMDD */ /* > LEAPSEC XX One of 0, +1, -1 */ /* > TIME HHMMSS 3 times on second */ /* > BYE Sayounara messages */ /* */ /*################################################################################################*/ static struct jjyRawDataBreak teljjy_raw_break [ ] = { { "\r\n", 2 }, { "\r" , 1 }, { "\n" , 1 }, { "Name ? ", 7 }, { ">" , 1 }, { "+++" , 3 }, { NULL , 0 } } ; #define TELJJY_STATE_IDLE 0 #define TELJJY_STATE_DAILOUT 1 #define TELJJY_STATE_LOGIN 2 #define TELJJY_STATE_CONNECT 3 #define TELJJY_STATE_BYE 4 #define TELJJY_EVENT_NULL 0 #define TELJJY_EVENT_START 1 #define TELJJY_EVENT_CONNECT 2 #define TELJJY_EVENT_DISCONNECT 3 #define TELJJY_EVENT_COMMAND 4 #define TELJJY_EVENT_LOGIN 5 /* Posted by the jjy_receive_telephone */ #define TELJJY_EVENT_PROMPT 6 /* Posted by the jjy_receive_telephone */ #define TELJJY_EVENT_DATA 7 /* Posted by the jjy_receive_telephone */ #define TELJJY_EVENT_ERROR 8 /* Posted by the jjy_receive_telephone */ #define TELJJY_EVENT_SILENT 9 /* Posted by the jjy_timer_telephone */ #define TELJJY_EVENT_TIMEOUT 10 /* Posted by the jjy_timer_telephone */ static void teljjy_control ( struct peer *peer, struct refclockproc *, struct jjyunit * ) ; static int teljjy_idle_ignore ( struct peer *peer, struct refclockproc *, struct jjyunit * ) ; static int teljjy_idle_dialout ( struct peer *peer, struct refclockproc *, struct jjyunit * ) ; static int teljjy_dial_ignore ( struct peer *peer, struct refclockproc *, struct jjyunit * ) ; static int teljjy_dial_login ( struct peer *peer, struct refclockproc *, struct jjyunit * ) ; static int teljjy_dial_disc ( struct peer *peer, struct refclockproc *, struct jjyunit * ) ; static int teljjy_login_ignore ( struct peer *peer, struct refclockproc *, struct jjyunit * ) ; static int teljjy_login_disc ( struct peer *peer, struct refclockproc *, struct jjyunit * ) ; static int teljjy_login_conn ( struct peer *peer, struct refclockproc *, struct jjyunit * ) ; static int teljjy_login_login ( struct peer *peer, struct refclockproc *, struct jjyunit * ) ; static int teljjy_login_silent ( struct peer *peer, struct refclockproc *, struct jjyunit * ) ; static int teljjy_login_error ( struct peer *peer, struct refclockproc *, struct jjyunit * ) ; static int teljjy_conn_ignore ( struct peer *peer, struct refclockproc *, struct jjyunit * ) ; static int teljjy_conn_disc ( struct peer *peer, struct refclockproc *, struct jjyunit * ) ; static int teljjy_conn_send ( struct peer *peer, struct refclockproc *, struct jjyunit * ) ; static int teljjy_conn_data ( struct peer *peer, struct refclockproc *, struct jjyunit * ) ; static int teljjy_conn_silent ( struct peer *peer, struct refclockproc *, struct jjyunit * ) ; static int teljjy_conn_error ( struct peer *peer, struct refclockproc *, struct jjyunit * ) ; static int teljjy_bye_ignore ( struct peer *peer, struct refclockproc *, struct jjyunit * ) ; static int teljjy_bye_disc ( struct peer *peer, struct refclockproc *, struct jjyunit * ) ; static int teljjy_bye_modem ( struct peer *peer, struct refclockproc *, struct jjyunit * ) ; static int ( *pTeljjyHandler [ ] [ 5 ] ) ( struct peer *, struct refclockproc *, struct jjyunit *) = { /*STATE_IDLE STATE_DAILOUT STATE_LOGIN STATE_CONNECT STATE_BYE */ /* NULL */ { teljjy_idle_ignore , teljjy_dial_ignore, teljjy_login_ignore, teljjy_conn_ignore, teljjy_bye_ignore }, /* START */ { teljjy_idle_dialout, teljjy_dial_ignore, teljjy_login_ignore, teljjy_conn_ignore, teljjy_bye_ignore }, /* CONNECT */ { teljjy_idle_ignore , teljjy_dial_login , teljjy_login_ignore, teljjy_conn_ignore, teljjy_bye_ignore }, /* DISCONNECT */ { teljjy_idle_ignore , teljjy_dial_disc , teljjy_login_disc , teljjy_conn_disc , teljjy_bye_disc }, /* COMMAND */ { teljjy_idle_ignore , teljjy_dial_ignore, teljjy_login_ignore, teljjy_conn_ignore, teljjy_bye_modem }, /* LOGIN */ { teljjy_idle_ignore , teljjy_dial_ignore, teljjy_login_login , teljjy_conn_error , teljjy_bye_ignore }, /* PROMPT */ { teljjy_idle_ignore , teljjy_dial_ignore, teljjy_login_conn , teljjy_conn_send , teljjy_bye_ignore }, /* DATA */ { teljjy_idle_ignore , teljjy_dial_ignore, teljjy_login_ignore, teljjy_conn_data , teljjy_bye_ignore }, /* ERROR */ { teljjy_idle_ignore , teljjy_dial_ignore, teljjy_login_error , teljjy_conn_error , teljjy_bye_ignore }, /* SILENT */ { teljjy_idle_ignore , teljjy_dial_ignore, teljjy_login_silent, teljjy_conn_silent, teljjy_bye_ignore }, /* TIMEOUT */ { teljjy_idle_ignore , teljjy_dial_disc , teljjy_login_error , teljjy_conn_error , teljjy_bye_modem } } ; static short iTeljjyNextState [ ] [ 5 ] = { /*STATE_IDLE STATE_DAILOUT STATE_LOGIN STATE_CONNECT STATE_BYE */ /* NULL */ { TELJJY_STATE_IDLE , TELJJY_STATE_DAILOUT, TELJJY_STATE_LOGIN , TELJJY_STATE_CONNECT, TELJJY_STATE_BYE }, /* START */ { TELJJY_STATE_DAILOUT, TELJJY_STATE_DAILOUT, TELJJY_STATE_LOGIN , TELJJY_STATE_CONNECT, TELJJY_STATE_BYE }, /* CONNECT */ { TELJJY_STATE_IDLE , TELJJY_STATE_LOGIN , TELJJY_STATE_LOGIN , TELJJY_STATE_CONNECT, TELJJY_STATE_BYE }, /* DISCONNECT */ { TELJJY_STATE_IDLE , TELJJY_STATE_IDLE , TELJJY_STATE_IDLE , TELJJY_STATE_IDLE , TELJJY_STATE_IDLE }, /* COMMAND */ { TELJJY_STATE_IDLE , TELJJY_STATE_DAILOUT, TELJJY_STATE_LOGIN , TELJJY_STATE_CONNECT, TELJJY_STATE_BYE }, /* LOGIN */ { TELJJY_STATE_IDLE , TELJJY_STATE_DAILOUT, TELJJY_STATE_LOGIN , TELJJY_STATE_BYE , TELJJY_STATE_BYE }, /* PROMPT */ { TELJJY_STATE_IDLE , TELJJY_STATE_DAILOUT, TELJJY_STATE_CONNECT, TELJJY_STATE_BYE , TELJJY_STATE_BYE }, /* DATA */ { TELJJY_STATE_IDLE , TELJJY_STATE_DAILOUT, TELJJY_STATE_LOGIN , TELJJY_STATE_CONNECT, TELJJY_STATE_BYE }, /* ERROR */ { TELJJY_STATE_IDLE , TELJJY_STATE_DAILOUT, TELJJY_STATE_BYE , TELJJY_STATE_BYE , TELJJY_STATE_BYE }, /* SILENT */ { TELJJY_STATE_IDLE , TELJJY_STATE_DAILOUT, TELJJY_STATE_LOGIN , TELJJY_STATE_CONNECT, TELJJY_STATE_BYE }, /* TIMEOUT */ { TELJJY_STATE_IDLE , TELJJY_STATE_IDLE , TELJJY_STATE_BYE , TELJJY_STATE_BYE , TELJJY_STATE_BYE } } ; static short iTeljjyPostEvent [ ] [ 5 ] = { /*STATE_IDLE STATE_DAILOUT STATE_LOGIN STATE_CONNECT STATE_BYE */ /* NULL */ { TELJJY_EVENT_NULL, TELJJY_EVENT_NULL, TELJJY_EVENT_NULL , TELJJY_EVENT_NULL , TELJJY_EVENT_NULL }, /* START */ { TELJJY_EVENT_NULL, TELJJY_EVENT_NULL, TELJJY_EVENT_NULL , TELJJY_EVENT_NULL , TELJJY_EVENT_NULL }, /* CONNECT */ { TELJJY_EVENT_NULL, TELJJY_EVENT_NULL, TELJJY_EVENT_NULL , TELJJY_EVENT_NULL , TELJJY_EVENT_NULL }, /* DISCONNECT */ { TELJJY_EVENT_NULL, TELJJY_EVENT_NULL, TELJJY_EVENT_NULL , TELJJY_EVENT_NULL , TELJJY_EVENT_NULL }, /* COMMAND */ { TELJJY_EVENT_NULL, TELJJY_EVENT_NULL, TELJJY_EVENT_NULL , TELJJY_EVENT_NULL , TELJJY_EVENT_NULL }, /* LOGIN */ { TELJJY_EVENT_NULL, TELJJY_EVENT_NULL, TELJJY_EVENT_NULL , TELJJY_EVENT_COMMAND, TELJJY_EVENT_NULL }, /* PROMPT */ { TELJJY_EVENT_NULL, TELJJY_EVENT_NULL, TELJJY_EVENT_PROMPT , TELJJY_EVENT_COMMAND, TELJJY_EVENT_NULL }, /* DATA */ { TELJJY_EVENT_NULL, TELJJY_EVENT_NULL, TELJJY_EVENT_NULL , TELJJY_EVENT_NULL , TELJJY_EVENT_NULL }, /* ERROR */ { TELJJY_EVENT_NULL, TELJJY_EVENT_NULL, TELJJY_EVENT_COMMAND, TELJJY_EVENT_COMMAND, TELJJY_EVENT_NULL }, /* SILENT */ { TELJJY_EVENT_NULL, TELJJY_EVENT_NULL, TELJJY_EVENT_NULL , TELJJY_EVENT_NULL , TELJJY_EVENT_NULL }, /* TIMEOUT */ { TELJJY_EVENT_NULL, TELJJY_EVENT_NULL, TELJJY_EVENT_COMMAND, TELJJY_EVENT_COMMAND, TELJJY_EVENT_NULL } } ; static short iTeljjySilentTimeout [ 5 ] = { 0, 0, 10, 5, 0 } ; static short iTeljjyStateTimeout [ 5 ] = { 0, 120, 60, 60, 40 } ; #define TELJJY_STAY_CLOCK_STATE 0 #define TELJJY_CHANGE_CLOCK_STATE 1 /* Command and replay */ #define TELJJY_REPLY_NONE 0 #define TELJJY_REPLY_4DATE 1 #define TELJJY_REPLY_TIME 2 #define TELJJY_REPLY_LEAPSEC 3 #define TELJJY_REPLY_LOOP 4 #define TELJJY_REPLY_PROMPT 5 #define TELJJY_REPLY_LOOPBACK 6 #define TELJJY_REPLY_COM 7 #define TELJJY_COMMAND_START_SKIP_LOOPBACK 7 static struct { const char *command ; int commandLength ; int iEchobackReplyLength ; int iExpectedReplyType ; int iExpectedReplyLength ; } teljjy_command_sequence[] = { { NULL, 0, 0, 0, 0 }, /* Idle */ { "LOOP\r" , 5, 4, TELJJY_REPLY_LOOP , 0 }, /* Getting into loopback mode */ { ">" , 1, 1, TELJJY_REPLY_LOOPBACK, 0 }, /* Loopback measuring of delay time */ { ">" , 1, 1, TELJJY_REPLY_LOOPBACK, 0 }, /* Loopback measuring of delay time */ { ">" , 1, 1, TELJJY_REPLY_LOOPBACK, 0 }, /* Loopback measuring of delay time */ { ">" , 1, 1, TELJJY_REPLY_LOOPBACK, 0 }, /* Loopback measuring of delay time */ { ">" , 1, 1, TELJJY_REPLY_LOOPBACK, 0 }, /* Loopback measuring of delay time */ { "COM\r" , 4, 3, TELJJY_REPLY_COM , 0 }, /* Exit from loopback mode */ /* TELJJY_COMMAND_START_SKIP_LOOPBACK */ { "TIME\r" , 5, 4, TELJJY_REPLY_TIME , 6 }, { "4DATE\r" , 6, 5, TELJJY_REPLY_4DATE , 8 }, { "LEAPSEC\r", 8, 7, TELJJY_REPLY_LEAPSEC , 2 }, { "TIME\r" , 5, 4, TELJJY_REPLY_TIME , 6 }, { "BYE\r" , 4, 3, TELJJY_REPLY_NONE , 0 }, /* End of command */ { NULL, 0, 0, 0, 0 } } ; #define TELJJY_LOOPBACK_DELAY_THRESHOLD 700 /* Milli second */ #ifdef DEBUG #define DEBUG_TELJJY_PRINTF(sFunc) { if ( debug ) { printf ( "refclock_jjy.c : %s : iClockState=%d iClockEvent=%d iTeljjySilentTimer=%d iTeljjyStateTimer=%d iClockCommandSeq=%d\n", sFunc, up->iClockState, up->iClockEvent, up->iTeljjySilentTimer, up->iTeljjyStateTimer, up->iClockCommandSeq ) ; } } #else #define DEBUG_TELJJY_PRINTF(sFunc) #endif /**************************************************************************************************/ static int jjy_start_telephone ( int unit, struct peer *peer, struct jjyunit *up ) { char sLog [ 80 ], sFirstThreeDigits [ 4 ] ; int iNumberOfDigitsOfPhoneNumber, iCommaCount, iCommaPosition ; size_t i ; size_t iFirstThreeDigitsCount ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_JJY, "Refclock: Telephone JJY" ) ; up->unittype = UNITTYPE_TELEPHONE ; up->linespeed = SPEED232_TELEPHONE ; up->linediscipline = LDISC_RAW ; up->pRawBreak = teljjy_raw_break ; up->bWaitBreakString = TRUE ; up->bSkipCntrlCharOnly = TRUE ; up->iClockState = TELJJY_STATE_IDLE ; up->iClockEvent = TELJJY_EVENT_NULL ; /* Check the telephone number */ if ( sys_phone[0] == NULL ) { msyslog( LOG_ERR, "refclock_jjy.c : jjy_start_telephone : phone in the ntpd.conf must be specified." ) ; up->bInitError = TRUE ; return 1 ; } if ( sys_phone[1] != NULL ) { msyslog( LOG_ERR, "refclock_jjy.c : jjy_start_telephone : phone in the ntpd.conf should be only one." ) ; up->bInitError = TRUE ; return 1 ; } iNumberOfDigitsOfPhoneNumber = iCommaCount = iCommaPosition = iFirstThreeDigitsCount = 0 ; for ( i = 0 ; i < strlen( sys_phone[0] ) ; i ++ ) { if ( isdigit( (u_char)sys_phone[0][i] ) ) { if ( iFirstThreeDigitsCount < sizeof(sFirstThreeDigits)-1 ) { sFirstThreeDigits[iFirstThreeDigitsCount++] = sys_phone[0][i] ; } iNumberOfDigitsOfPhoneNumber ++ ; } else if ( sys_phone[0][i] == ',' ) { iCommaCount ++ ; if ( iCommaCount > 1 ) { msyslog( LOG_ERR, "refclock_jjy.c : jjy_start_telephone : phone in the ntpd.conf should be zero or one comma." ) ; up->bInitError = TRUE ; return 1 ; } iFirstThreeDigitsCount = 0 ; iCommaPosition = i ; } else if ( sys_phone[0][i] != '-' ) { msyslog( LOG_ERR, "refclock_jjy.c : jjy_start_telephone : phone in the ntpd.conf should be a number or a hyphen." ) ; up->bInitError = TRUE ; return 1 ; } } sFirstThreeDigits[iFirstThreeDigitsCount] = 0 ; if ( iCommaCount == 1 ) { if ( iCommaPosition != 1 || *sys_phone[0] != '0' ) { msyslog( LOG_ERR, "refclock_jjy.c : jjy_start_telephone : Getting an outside line should be '0,'." ) ; up->bInitError = TRUE ; return 1 ; } } if ( iNumberOfDigitsOfPhoneNumber - iCommaPosition < 6 || 10 < iNumberOfDigitsOfPhoneNumber - iCommaPosition ) { /* Too short or too long */ msyslog( LOG_ERR, "refclock_jjy.c : jjy_start_telephone : phone=%s : Number of digits should be 6 to 10.", sys_phone[0] ) ; up->bInitError = TRUE ; return 1 ; } if ( strncmp( sFirstThreeDigits + iCommaPosition, "00" , 2 ) == 0 || strncmp( sFirstThreeDigits + iCommaPosition, "10" , 2 ) == 0 || strncmp( sFirstThreeDigits + iCommaPosition, "11" , 2 ) == 0 || strncmp( sFirstThreeDigits + iCommaPosition, "12" , 2 ) == 0 || strncmp( sFirstThreeDigits + iCommaPosition, "171", 3 ) == 0 || strncmp( sFirstThreeDigits + iCommaPosition, "177", 3 ) == 0 || ( sFirstThreeDigits[0] == '0' && sFirstThreeDigits[2] == '0' ) ) { /* Not allowed because of emergency numbers or special service numbers */ msyslog( LOG_ERR, "refclock_jjy.c : jjy_start_telephone : phone=%s : First 2 or 3 digits are not allowed.", sys_phone[0] ) ; up->bInitError = TRUE ; return 1 ; } snprintf( sLog, sizeof(sLog), "phone=%s", sys_phone[0] ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_JJY, sLog ) ; if ( peer->minpoll < 8 ) { /* minpoll must be greater or equal to 8 ( 256 seconds = about 4 minutes ) */ int oldminpoll = peer->minpoll ; peer->minpoll = 8 ; if ( peer->ppoll < peer->minpoll ) { peer->ppoll = peer->minpoll ; } if ( peer->maxpoll < peer->minpoll ) { peer->maxpoll = peer->minpoll ; } snprintf( sLog, sizeof(sLog), "minpoll=%d -> %d", oldminpoll, peer->minpoll ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_JJY, sLog ) ; } return 0 ; } /**************************************************************************************************/ static int jjy_receive_telephone ( struct recvbuf *rbufp ) { #ifdef DEBUG static const char *sFunctionName = "jjy_receive_telephone" ; #endif struct peer *peer; struct refclockproc *pp ; struct jjyunit *up ; char *pBuf ; int iLen ; short iPreviousModemState ; peer = rbufp->recv_peer ; pp = peer->procptr ; up = pp->unitptr ; DEBUG_TELJJY_PRINTF( sFunctionName ) ; if ( up->iClockState == TELJJY_STATE_IDLE || up->iClockState == TELJJY_STATE_DAILOUT || up->iClockState == TELJJY_STATE_BYE ) { iPreviousModemState = getModemState( up ) ; modem_receive ( rbufp ) ; if ( iPreviousModemState != up->iModemState ) { /* Modem state is changed just now. */ if ( isModemStateDisconnect( up->iModemState ) ) { up->iClockEvent = TELJJY_EVENT_DISCONNECT ; teljjy_control ( peer, pp, up ) ; } else if ( isModemStateConnect( up->iModemState ) ) { up->iClockEvent = TELJJY_EVENT_CONNECT ; teljjy_control ( peer, pp, up ) ; } } return JJY_RECEIVE_WAIT ; } if ( up->linediscipline == LDISC_RAW ) { pBuf = up->sTextBuf ; iLen = up->iTextBufLen ; } else { pBuf = pp->a_lastcode ; iLen = pp->lencode ; } up->iTeljjySilentTimer = 0 ; if ( iLen == 7 && strncmp( pBuf, "Name ? ", 7 ) == 0 ) { up->iClockEvent = TELJJY_EVENT_LOGIN ; } else if ( iLen == 1 && strncmp( pBuf, ">" , 1 ) == 0 ) { up->iClockEvent = TELJJY_EVENT_PROMPT ; } else if ( iLen >= 1 && strncmp( pBuf, "?" , 1 ) == 0 ) { up->iClockEvent = TELJJY_EVENT_ERROR ; } else { up->iClockEvent = TELJJY_EVENT_DATA ; } teljjy_control ( peer, pp, up ) ; return JJY_RECEIVE_WAIT ; } /**************************************************************************************************/ static void jjy_poll_telephone ( int unit, struct peer *peer ) { #ifdef DEBUG static const char *sFunctionName = "jjy_poll_telephone" ; #endif struct refclockproc *pp ; struct jjyunit *up ; pp = peer->procptr ; up = pp->unitptr ; DEBUG_TELJJY_PRINTF( sFunctionName ) ; if ( up->iClockState == TELJJY_STATE_IDLE ) { up->iRawBufLen = 0 ; up->iLineBufLen = 0 ; up->iTextBufLen = 0 ; } up->iClockEvent = TELJJY_EVENT_START ; teljjy_control ( peer, pp, up ) ; } /**************************************************************************************************/ static void jjy_timer_telephone ( int unit, struct peer *peer ) { #ifdef DEBUG static const char *sFunctionName = "jjy_timer_telephone" ; #endif struct refclockproc *pp ; struct jjyunit *up ; short iPreviousModemState ; pp = peer->procptr ; up = pp->unitptr ; DEBUG_TELJJY_PRINTF( sFunctionName ) ; if ( iTeljjySilentTimeout[up->iClockState] != 0 ) { up->iTeljjySilentTimer++ ; if ( iTeljjySilentTimeout[up->iClockState] <= up->iTeljjySilentTimer ) { up->iClockEvent = TELJJY_EVENT_SILENT ; teljjy_control ( peer, pp, up ) ; } } if ( iTeljjyStateTimeout[up->iClockState] != 0 ) { up->iTeljjyStateTimer++ ; if ( iTeljjyStateTimeout[up->iClockState] <= up->iTeljjyStateTimer ) { up->iClockEvent = TELJJY_EVENT_TIMEOUT ; teljjy_control ( peer, pp, up ) ; } } if ( isModemStateTimerOn( up ) ) { iPreviousModemState = getModemState( up ) ; modem_timer ( unit, peer ) ; if ( iPreviousModemState != up->iModemState ) { /* Modem state is changed just now. */ if ( isModemStateDisconnect( up->iModemState ) ) { up->iClockEvent = TELJJY_EVENT_DISCONNECT ; teljjy_control ( peer, pp, up ) ; } else if ( isModemStateConnect( up->iModemState ) ) { up->iClockEvent = TELJJY_EVENT_CONNECT ; teljjy_control ( peer, pp, up ) ; } } } } /**************************************************************************************************/ static void teljjy_control ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { int i, rc ; short iPostEvent = TELJJY_EVENT_NULL ; DEBUG_TELJJY_PRINTF( "teljjy_control" ) ; rc = (*pTeljjyHandler[up->iClockEvent][up->iClockState])( peer, pp, up ) ; if ( rc == TELJJY_CHANGE_CLOCK_STATE ) { iPostEvent = iTeljjyPostEvent[up->iClockEvent][up->iClockState] ; #ifdef DEBUG if ( debug ) { printf( "refclock_jjy.c : teljjy_control : iClockState=%hd -> %hd iPostEvent=%hd\n", up->iClockState, iTeljjyNextState[up->iClockEvent][up->iClockState], iPostEvent ) ; } #endif up->iTeljjySilentTimer = 0 ; if ( up->iClockState != iTeljjyNextState[up->iClockEvent][up->iClockState] ) { /* Telephone JJY state is changing now */ up->iTeljjyStateTimer = 0 ; up->bLineError = FALSE ; up->iClockCommandSeq = 0 ; up->iTimestampCount = 0 ; up->iLoopbackCount = 0 ; for ( i = 0 ; i < MAX_LOOPBACK ; i ++ ) { up->bLoopbackTimeout[i] = FALSE ; } if (iTeljjyNextState[up->iClockEvent][up->iClockState] == TELJJY_STATE_IDLE ) { /* Telephone JJY state is changing to IDLE just now */ up->iProcessState = JJY_PROCESS_STATE_DONE ; } } up->iClockState = iTeljjyNextState[up->iClockEvent][up->iClockState] ; } if ( iPostEvent != TELJJY_EVENT_NULL ) { up->iClockEvent = iPostEvent ; teljjy_control ( peer, pp, up ) ; } up->iClockEvent = TELJJY_EVENT_NULL ; } /**************************************************************************************************/ static void teljjy_setDelay ( struct peer *peer, struct jjyunit *up ) { char sLog [ 60 ] ; int milliSecond, microSecond ; gettimeofday( &(up->delayTime[up->iLoopbackCount]), NULL ) ; up->delayTime[up->iLoopbackCount].tv_sec -= up->sendTime[up->iLoopbackCount].tv_sec ; up->delayTime[up->iLoopbackCount].tv_usec -= up->sendTime[up->iLoopbackCount].tv_usec ; if ( up->delayTime[up->iLoopbackCount].tv_usec < 0 ) { up->delayTime[up->iLoopbackCount].tv_sec -- ; up->delayTime[up->iLoopbackCount].tv_usec += 1000000 ; } milliSecond = up->delayTime[up->iLoopbackCount].tv_usec / 1000 ; microSecond = up->delayTime[up->iLoopbackCount].tv_usec - milliSecond * 1000 ; milliSecond += up->delayTime[up->iLoopbackCount].tv_sec * 1000 ; snprintf( sLog, sizeof(sLog), JJY_CLOCKSTATS_MESSAGE_LOOPBACK_DELAY, milliSecond, microSecond ) ; if ( milliSecond > TELJJY_LOOPBACK_DELAY_THRESHOLD ) { /* Delay > 700 mS */ jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_WARNING, sLog ) ; } else { /* Delay <= 700 mS */ jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_INFORMATION, sLog ) ; } } /**************************************************************************************************/ static int teljjy_getDelay ( struct peer *peer, struct jjyunit *up ) { struct timeval maxTime, minTime, averTime ; int i ; int minIndex = 0, maxIndex = 0, iAverCount = 0 ; int iThresholdSecond, iThresholdMicroSecond ; int iPercent ; minTime.tv_sec = minTime.tv_usec = 0 ; maxTime.tv_sec = maxTime.tv_usec = 0 ; iThresholdSecond = TELJJY_LOOPBACK_DELAY_THRESHOLD / 1000 ; iThresholdMicroSecond = ( TELJJY_LOOPBACK_DELAY_THRESHOLD - ( TELJJY_LOOPBACK_DELAY_THRESHOLD / 1000 ) * 1000 ) * 1000 ; up->iLoopbackValidCount = 0 ; for ( i = 0 ; i < MAX_LOOPBACK && i < up->iLoopbackCount ; i ++ ) { if ( up->bLoopbackTimeout[i] || up->delayTime[i].tv_sec > iThresholdSecond || ( up->delayTime[i].tv_sec == iThresholdSecond && up->delayTime[i].tv_usec > iThresholdMicroSecond ) ) { continue ; } if ( up->iLoopbackValidCount == 0 ) { minTime.tv_sec = up->delayTime[i].tv_sec ; minTime.tv_usec = up->delayTime[i].tv_usec ; maxTime.tv_sec = up->delayTime[i].tv_sec ; maxTime.tv_usec = up->delayTime[i].tv_usec ; minIndex = maxIndex = i ; } else if ( minTime.tv_sec > up->delayTime[i].tv_sec || ( minTime.tv_sec == up->delayTime[i].tv_sec && minTime.tv_usec > up->delayTime[i].tv_usec ) ) { minTime.tv_sec = up->delayTime[i].tv_sec ; minTime.tv_usec = up->delayTime[i].tv_usec ; minIndex = i ; } else if ( maxTime.tv_sec < up->delayTime[i].tv_sec || ( maxTime.tv_sec == up->delayTime[i].tv_sec && maxTime.tv_usec < up->delayTime[i].tv_usec ) ) { maxTime.tv_sec = up->delayTime[i].tv_sec ; maxTime.tv_usec = up->delayTime[i].tv_usec ; maxIndex = i ; } up->iLoopbackValidCount ++ ; } if ( up->iLoopbackValidCount < 2 ) { return -1 ; } averTime.tv_usec = 0; for ( i = 0 ; i < MAX_LOOPBACK && i < up->iLoopbackCount ; i ++ ) { if ( up->bLoopbackTimeout[i] || up->delayTime[i].tv_sec > iThresholdSecond || ( up->delayTime[i].tv_sec == iThresholdSecond && up->delayTime[i].tv_usec > iThresholdMicroSecond ) ) { continue ; } if ( up->iLoopbackValidCount >= 3 && i == maxIndex ) { continue ; } if ( up->iLoopbackValidCount >= 4 && i == minIndex ) { continue ; } averTime.tv_usec += up->delayTime[i].tv_usec ; iAverCount ++ ; } if ( iAverCount == 0 ) { /* This is never happened. */ /* Previous for-if-for blocks assure iAverCount > 0. */ /* This code avoids a claim by the coverity scan tool. */ return -1 ; } /* mode 101 = 1%, mode 150 = 50%, mode 180 = 80% */ iPercent = ( peer->ttl - 100 ) ; /* Average delay time in milli second */ return ( ( averTime.tv_usec / iAverCount ) * iPercent ) / 100000 ; } /******************************/ static int teljjy_idle_ignore ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { DEBUG_TELJJY_PRINTF( "teljjy_idle_ignore" ) ; return TELJJY_STAY_CLOCK_STATE ; } /******************************/ static int teljjy_idle_dialout ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { DEBUG_TELJJY_PRINTF( "teljjy_idle_dialout" ) ; modem_connect ( peer->refclkunit, peer ) ; return TELJJY_CHANGE_CLOCK_STATE ; } /******************************/ static int teljjy_dial_ignore ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { DEBUG_TELJJY_PRINTF( "teljjy_dial_ignore" ) ; return TELJJY_STAY_CLOCK_STATE ; } /******************************/ static int teljjy_dial_login ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { DEBUG_TELJJY_PRINTF( "teljjy_dial_login" ) ; return TELJJY_CHANGE_CLOCK_STATE ; } /******************************/ static int teljjy_dial_disc ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { DEBUG_TELJJY_PRINTF( "teljjy_dial_disc" ) ; return TELJJY_CHANGE_CLOCK_STATE ; } /******************************/ static int teljjy_login_ignore ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { DEBUG_TELJJY_PRINTF( "teljjy_login_ignore" ) ; return TELJJY_STAY_CLOCK_STATE ; } /******************************/ static int teljjy_login_disc ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { DEBUG_TELJJY_PRINTF( "teljjy_login_disc" ) ; return TELJJY_CHANGE_CLOCK_STATE ; } /******************************/ static int teljjy_login_conn ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { int i ; DEBUG_TELJJY_PRINTF( "teljjy_login_conn" ) ; up->bLineError = FALSE ; up->iClockCommandSeq = 0 ; up->iTimestampCount = 0 ; up->iLoopbackCount = 0 ; for ( i = 0 ; i < MAX_LOOPBACK ; i ++ ) { up->bLoopbackTimeout[i] = FALSE ; } return TELJJY_CHANGE_CLOCK_STATE ; } /******************************/ static int teljjy_login_login ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { const char * pCmd ; int iCmdLen ; DEBUG_TELJJY_PRINTF( "teljjy_login_login" ) ; /* Send a guest user ID */ pCmd = "TJJY\r" ; /* Send login ID */ iCmdLen = strlen( pCmd ) ; if ( write( pp->io.fd, pCmd, iCmdLen ) != iCmdLen ) { refclock_report( peer, CEVNT_FAULT ) ; } jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_SEND, pCmd ) ; return TELJJY_STAY_CLOCK_STATE ; } /******************************/ static int teljjy_login_silent ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { DEBUG_TELJJY_PRINTF( "teljjy_login_silent" ) ; if ( write( pp->io.fd, "\r", 1 ) != 1 ) { refclock_report( peer, CEVNT_FAULT ) ; } jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_SEND, "\r" ) ; up->iTeljjySilentTimer = 0 ; return TELJJY_CHANGE_CLOCK_STATE ; } /******************************/ static int teljjy_login_error ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { DEBUG_TELJJY_PRINTF( "teljjy_login_error" ) ; return TELJJY_CHANGE_CLOCK_STATE ; } /******************************/ static int teljjy_conn_ignore ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { DEBUG_TELJJY_PRINTF( "teljjy_conn_ignore" ) ; return TELJJY_STAY_CLOCK_STATE ; } /******************************/ static int teljjy_conn_disc ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { DEBUG_TELJJY_PRINTF( "teljjy_conn_disc" ) ; return TELJJY_CHANGE_CLOCK_STATE ; } /******************************/ static int teljjy_conn_send ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { const char * pCmd ; int i, iLen, iNextClockState ; char sLog [ 120 ] ; DEBUG_TELJJY_PRINTF( "teljjy_conn_send" ) ; if ( up->iClockCommandSeq > 0 && teljjy_command_sequence[up->iClockCommandSeq].command == NULL ) { /* Command sequence has been completed */ return TELJJY_CHANGE_CLOCK_STATE ; } if ( up->iClockCommandSeq == 0 && peer->ttl == 100 ) { /* Skip loopback */ up->iClockCommandSeq = TELJJY_COMMAND_START_SKIP_LOOPBACK ; } else if ( up->iClockCommandSeq == 0 && peer->ttl != 100 ) { /* Loopback start */ up->iLoopbackCount = 0 ; for ( i = 0 ; i < MAX_LOOPBACK ; i ++ ) { up->bLoopbackTimeout[i] = FALSE ; } } else if ( up->iClockCommandSeq > 0 && peer->ttl != 100 && teljjy_command_sequence[up->iClockCommandSeq].iExpectedReplyType == TELJJY_REPLY_LOOPBACK && up->iLoopbackCount < MAX_LOOPBACK ) { /* Loopback character comes */ #ifdef DEBUG if ( debug ) { printf( "refclock_jjy.c : teljjy_conn_send : iClockCommandSeq=%d iLoopbackCount=%d\n", up->iClockCommandSeq, up->iLoopbackCount ) ; } #endif teljjy_setDelay( peer, up ) ; up->iLoopbackCount ++ ; } up->iClockCommandSeq++ ; pCmd = teljjy_command_sequence[up->iClockCommandSeq].command ; iLen = teljjy_command_sequence[up->iClockCommandSeq].commandLength ; if ( pCmd != NULL ) { if ( write( pp->io.fd, pCmd, iLen ) != iLen ) { refclock_report( peer, CEVNT_FAULT ) ; } if ( teljjy_command_sequence[up->iClockCommandSeq].iExpectedReplyType == TELJJY_REPLY_LOOPBACK ) { /* Loopback character and timestamp */ if ( up->iLoopbackCount < MAX_LOOPBACK ) { gettimeofday( &(up->sendTime[up->iLoopbackCount]), NULL ) ; up->bLoopbackMode = TRUE ; } else { /* This else-block is never come. */ /* This code avoid wrong report of the coverity static analysis scan tool. */ snprintf( sLog, sizeof(sLog)-1, "refclock_jjy.c ; teljjy_conn_send ; iClockCommandSeq=%d iLoopbackCount=%d MAX_LOOPBACK=%d", up->iClockCommandSeq, up->iLoopbackCount, MAX_LOOPBACK ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_BUG, sLog ) ; msyslog ( LOG_ERR, "%s", sLog ) ; up->bLoopbackMode = FALSE ; } } else { /* Regular command */ up->bLoopbackMode = FALSE ; } jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_SEND, pCmd ) ; if ( teljjy_command_sequence[up->iClockCommandSeq+1].command == NULL ) { /* Last command of the command sequence */ iNextClockState = TELJJY_CHANGE_CLOCK_STATE ; } else { /* More commands to be issued */ iNextClockState = TELJJY_STAY_CLOCK_STATE ; } } else { iNextClockState = TELJJY_CHANGE_CLOCK_STATE ; } return iNextClockState ; } /******************************/ static int teljjy_conn_data ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { char *pBuf ; int iLen, rc ; char sLog [ MAX_LOGTEXT ] ; char bAdjustment ; DEBUG_TELJJY_PRINTF( "teljjy_conn_data" ) ; if ( up->linediscipline == LDISC_RAW ) { pBuf = up->sTextBuf ; iLen = up->iTextBufLen ; } else { pBuf = pp->a_lastcode ; iLen = pp->lencode ; } if ( teljjy_command_sequence[up->iClockCommandSeq].iEchobackReplyLength == iLen && teljjy_command_sequence[up->iClockCommandSeq].iExpectedReplyType == TELJJY_REPLY_LOOPBACK && up->sTextBuf[0] == *(teljjy_command_sequence[up->iClockCommandSeq].command) && up->iLoopbackCount < MAX_LOOPBACK ) { /* Loopback */ teljjy_setDelay( peer, up ) ; up->iLoopbackCount ++ ; } else if ( teljjy_command_sequence[up->iClockCommandSeq].iEchobackReplyLength == iLen && strncmp( pBuf, teljjy_command_sequence[up->iClockCommandSeq].command, iLen ) == 0 ) { /* Maybe echoback */ jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_INFORMATION, JJY_CLOCKSTATS_MESSAGE_ECHOBACK ) ; } else if ( teljjy_command_sequence[up->iClockCommandSeq].iExpectedReplyLength == iLen && teljjy_command_sequence[up->iClockCommandSeq].iExpectedReplyType == TELJJY_REPLY_4DATE ) { /* 4DATE -> YYYYMMDD */ rc = sscanf ( pBuf, "%4d%2d%2d", &up->year, &up->month, &up->day ) ; if ( rc != 3 || up->year < 2000 || 2099 <= up->year || up->month < 1 || 12 < up->month || up->day < 1 || 31 < up->day ) { /* Invalid date */ snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_SSCANF_INVALID_DATE, rc, up->year, up->month, up->day ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_ERROR, sLog ) ; up->bLineError = TRUE ; } } else if ( teljjy_command_sequence[up->iClockCommandSeq].iExpectedReplyLength == iLen && teljjy_command_sequence[up->iClockCommandSeq].iExpectedReplyType == TELJJY_REPLY_LEAPSEC && ( strncmp( pBuf, " 0", 2 ) == 0 || strncmp( pBuf, "+1", 2 ) == 0 || strncmp( pBuf, "-1", 2 ) == 0 ) ) { /* LEAPSEC -> XX ( One of 0, +1, -1 ) */ rc = sscanf ( pBuf, "%2d", &up->leapsecond ) ; if ( rc != 1 || up->leapsecond < -1 || 1 < up->leapsecond ) { /* Invalid leap second */ snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_SSCANF_INVALID_LEAP, pBuf ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_ERROR, sLog ) ; up->bLineError = TRUE ; } } else if ( teljjy_command_sequence[up->iClockCommandSeq].iExpectedReplyLength == iLen && teljjy_command_sequence[up->iClockCommandSeq].iExpectedReplyType == TELJJY_REPLY_TIME ) { /* TIME -> HHMMSS ( 3 times on second ) */ rc = sscanf ( pBuf, "%2d%2d%2d", &up->hour, &up->minute, &up->second ) ; if ( rc != 3 || up->hour > 23 || up->minute > 59 || up->second > 60 ) { /* Invalid time */ snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_SSCANF_INVALID_TIME, rc, up->hour, up->minute, up->second ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_ERROR, sLog ) ; up->bLineError = TRUE ; } up->iTimestamp[up->iTimestampCount] = ( up->hour * 60 + up->minute ) * 60 + up->second ; up->iTimestampCount++ ; if ( up->iTimestampCount == 6 && ! up->bLineError ) { #if DEBUG printf( "refclock_jjy.c : teljjy_conn_data : bLineError=%d iTimestamp=%d, %d, %d\n", up->bLineError, up->iTimestamp[3], up->iTimestamp[4], up->iTimestamp[5] ) ; #endif bAdjustment = TRUE ; if ( peer->ttl == 100 ) { /* mode=100 */ up->msecond = 0 ; } else { /* mode=101 to 110 */ up->msecond = teljjy_getDelay( peer, up ) ; if (up->msecond < 0 ) { up->msecond = 0 ; bAdjustment = FALSE ; } } if ( ( up->iTimestamp[3] - 15 ) <= up->iTimestamp[2] && up->iTimestamp[2] <= up->iTimestamp[3] && ( up->iTimestamp[3] + 1 ) == up->iTimestamp[4] && ( up->iTimestamp[4] + 1 ) == up->iTimestamp[5] ) { /* Non over midnight */ jjy_synctime( peer, pp, up ) ; if ( peer->ttl != 100 ) { if ( bAdjustment ) { snprintf( sLog, sizeof(sLog), JJY_CLOCKSTATS_MESSAGE_DELAY_ADJUST, up->msecond, up->iLoopbackValidCount, MAX_LOOPBACK ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_INFORMATION, sLog ) ; } else { snprintf( sLog, sizeof(sLog), JJY_CLOCKSTATS_MESSAGE_DELAY_UNADJUST, up->iLoopbackValidCount, MAX_LOOPBACK ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_ERROR, sLog ) ; } } } } } else if ( teljjy_command_sequence[up->iClockCommandSeq].iEchobackReplyLength != iLen && teljjy_command_sequence[up->iClockCommandSeq].iExpectedReplyType == TELJJY_REPLY_LOOPBACK ) { /* Loopback noise ( Unexpected replay ) */ snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_IGNORE_REPLY, pBuf ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_WARNING, sLog ) ; } else { up->bLineError = TRUE ; snprintf( sLog, sizeof(sLog)-1, JJY_CLOCKSTATS_MESSAGE_UNEXPECTED_REPLY, pBuf ) ; jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_ERROR, sLog ) ; } return TELJJY_STAY_CLOCK_STATE ; } /******************************/ static int teljjy_conn_silent ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { const char * pCmd ; DEBUG_TELJJY_PRINTF( "teljjy_conn_silent" ) ; if ( up->iClockCommandSeq >= 1 && up->iClockCommandSeq < TELJJY_COMMAND_START_SKIP_LOOPBACK ) { /* Loopback */ #ifdef DEBUG if ( debug ) { printf( "refclock_jjy.c : teljjy_conn_silent : call teljjy_conn_send\n" ) ; } #endif if ( teljjy_command_sequence[up->iClockCommandSeq].iExpectedReplyType == TELJJY_REPLY_LOOPBACK ) { up->bLoopbackTimeout[up->iLoopbackCount] = TRUE ; } up->iTeljjySilentTimer = 0 ; return teljjy_conn_send( peer, pp, up ) ; } else { pCmd = "\r" ; } if ( write( pp->io.fd, pCmd, 1 ) != 1 ) { refclock_report( peer, CEVNT_FAULT ) ; } jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_SEND, pCmd ) ; up->iTeljjySilentTimer = 0 ; return TELJJY_STAY_CLOCK_STATE ; } /******************************/ static int teljjy_conn_error ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { DEBUG_TELJJY_PRINTF( "teljjy_conn_error" ) ; return TELJJY_CHANGE_CLOCK_STATE ; } /******************************/ static int teljjy_bye_ignore ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { DEBUG_TELJJY_PRINTF( "teljjy_bye_ignore" ) ; return TELJJY_STAY_CLOCK_STATE ; } /******************************/ static int teljjy_bye_disc ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { DEBUG_TELJJY_PRINTF( "teljjy_bye_disc" ) ; return TELJJY_CHANGE_CLOCK_STATE ; } /******************************/ static int teljjy_bye_modem ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { DEBUG_TELJJY_PRINTF( "teljjy_bye_modem" ) ; modem_disconnect ( peer->refclkunit, peer ) ; return TELJJY_STAY_CLOCK_STATE ; } /*################################################################################################*/ /*################################################################################################*/ /*## ##*/ /*## Modem control finite state machine ##*/ /*## ##*/ /*################################################################################################*/ /*################################################################################################*/ /* struct jjyunit.iModemState */ #define MODEM_STATE_DISCONNECT 0 #define MODEM_STATE_INITIALIZE 1 #define MODEM_STATE_DAILING 2 #define MODEM_STATE_CONNECT 3 #define MODEM_STATE_ESCAPE 4 /* struct jjyunit.iModemEvent */ #define MODEM_EVENT_NULL 0 #define MODEM_EVENT_INITIALIZE 1 #define MODEM_EVENT_DIALOUT 2 #define MODEM_EVENT_DISCONNECT 3 #define MODEM_EVENT_RESP_OK 4 #define MODEM_EVENT_RESP_CONNECT 5 #define MODEM_EVENT_RESP_RING 6 #define MODEM_EVENT_RESP_NO_CARRIER 7 #define MODEM_EVENT_RESP_ERROR 8 #define MODEM_EVENT_RESP_CONNECT_X 9 #define MODEM_EVENT_RESP_NO_DAILTONE 10 #define MODEM_EVENT_RESP_BUSY 11 #define MODEM_EVENT_RESP_NO_ANSWER 12 #define MODEM_EVENT_RESP_UNKNOWN 13 #define MODEM_EVENT_SILENT 14 #define MODEM_EVENT_TIMEOUT 15 /* Function prototypes */ static void modem_control ( struct peer *, struct refclockproc *, struct jjyunit * ) ; static int modem_disc_ignore ( struct peer *, struct refclockproc *, struct jjyunit * ) ; static int modem_disc_init ( struct peer *, struct refclockproc *, struct jjyunit * ) ; static int modem_init_ignore ( struct peer *, struct refclockproc *, struct jjyunit * ) ; static int modem_init_start ( struct peer *, struct refclockproc *, struct jjyunit * ) ; static int modem_init_disc ( struct peer *, struct refclockproc *, struct jjyunit * ) ; static int modem_init_resp00 ( struct peer *, struct refclockproc *, struct jjyunit * ) ; static int modem_init_resp04 ( struct peer *, struct refclockproc *, struct jjyunit * ) ; static int modem_dial_ignore ( struct peer *, struct refclockproc *, struct jjyunit * ) ; static int modem_dial_dialout ( struct peer *, struct refclockproc *, struct jjyunit * ) ; static int modem_dial_escape ( struct peer *, struct refclockproc *, struct jjyunit * ) ; static int modem_dial_connect ( struct peer *, struct refclockproc *, struct jjyunit * ) ; static int modem_dial_disc ( struct peer *, struct refclockproc *, struct jjyunit * ) ; static int modem_conn_ignore ( struct peer *, struct refclockproc *, struct jjyunit * ) ; static int modem_conn_escape ( struct peer *, struct refclockproc *, struct jjyunit * ) ; static int modem_esc_ignore ( struct peer *, struct refclockproc *, struct jjyunit * ) ; static int modem_esc_escape ( struct peer *, struct refclockproc *, struct jjyunit * ) ; static int modem_esc_data ( struct peer *, struct refclockproc *, struct jjyunit * ) ; static int modem_esc_silent ( struct peer *, struct refclockproc *, struct jjyunit * ) ; static int modem_esc_disc ( struct peer *, struct refclockproc *, struct jjyunit * ) ; static int ( *pModemHandler [ ] [ 5 ] ) ( struct peer *, struct refclockproc *, struct jjyunit * ) = { /*STATE_DISCONNECT STATE_INITIALIZE STATE_DAILING STATE_CONNECT STATE_ESCAPE */ /* NULL */ { modem_disc_ignore, modem_init_ignore, modem_dial_ignore , modem_conn_ignore, modem_esc_ignore }, /* INITIALIZE */ { modem_disc_init , modem_init_start , modem_dial_ignore , modem_conn_ignore, modem_esc_ignore }, /* DIALOUT */ { modem_disc_ignore, modem_init_ignore, modem_dial_dialout, modem_conn_ignore, modem_esc_ignore }, /* DISCONNECT */ { modem_disc_ignore, modem_init_disc , modem_dial_escape , modem_conn_escape, modem_esc_escape }, /* RESP: 0: OK */ { modem_disc_ignore, modem_init_resp00, modem_dial_ignore , modem_conn_ignore, modem_esc_data }, /* RESP: 1: CONNECT */ { modem_disc_ignore, modem_init_ignore, modem_dial_connect, modem_conn_ignore, modem_esc_data }, /* RESP: 2: RING */ { modem_disc_ignore, modem_init_ignore, modem_dial_ignore , modem_conn_ignore, modem_esc_data }, /* RESP: 3: NO CARRIER */ { modem_disc_ignore, modem_init_ignore, modem_dial_disc , modem_conn_ignore, modem_esc_data }, /* RESP: 4: ERROR */ { modem_disc_ignore, modem_init_resp04, modem_dial_disc , modem_conn_ignore, modem_esc_data }, /* RESP: 5: CONNECT */ { modem_disc_ignore, modem_init_ignore, modem_dial_connect, modem_conn_ignore, modem_esc_data }, /* RESP: 6: NO DAILTONE */ { modem_disc_ignore, modem_init_ignore, modem_dial_disc , modem_conn_ignore, modem_esc_data }, /* RESP: 7: BUSY */ { modem_disc_ignore, modem_init_ignore, modem_dial_disc , modem_conn_ignore, modem_esc_data }, /* RESP: 8: NO ANSWER */ { modem_disc_ignore, modem_init_ignore, modem_dial_disc , modem_conn_ignore, modem_esc_data }, /* RESP: 9: UNKNOWN */ { modem_disc_ignore, modem_init_ignore, modem_dial_ignore , modem_conn_ignore, modem_esc_data }, /* SILENT */ { modem_disc_ignore, modem_init_ignore, modem_dial_ignore , modem_conn_ignore, modem_esc_silent }, /* TIMEOUT */ { modem_disc_ignore, modem_init_disc , modem_dial_escape , modem_conn_escape, modem_esc_disc } } ; static short iModemNextState [ ] [ 5 ] = { /*STATE_DISCONNECT STATE_INITIALIZE STATE_DAILING STATE_CONNECT STATE_ESCAPE */ /* NULL */ { MODEM_STATE_DISCONNECT, MODEM_STATE_INITIALIZE, MODEM_STATE_DAILING , MODEM_STATE_CONNECT, MODEM_STATE_ESCAPE }, /* INITIALIZE */ { MODEM_STATE_INITIALIZE, MODEM_STATE_INITIALIZE, MODEM_STATE_DAILING , MODEM_STATE_CONNECT, MODEM_STATE_ESCAPE }, /* DIALOUT */ { MODEM_STATE_DISCONNECT, MODEM_STATE_INITIALIZE, MODEM_STATE_DAILING , MODEM_STATE_CONNECT, MODEM_STATE_ESCAPE }, /* DISCONNECT */ { MODEM_STATE_DISCONNECT, MODEM_STATE_DISCONNECT, MODEM_STATE_ESCAPE , MODEM_STATE_ESCAPE , MODEM_STATE_ESCAPE }, /* RESP: 0: OK */ { MODEM_STATE_DISCONNECT, MODEM_STATE_DAILING , MODEM_STATE_DAILING , MODEM_STATE_CONNECT, MODEM_STATE_ESCAPE }, /* RESP: 1: CONNECT */ { MODEM_STATE_DISCONNECT, MODEM_STATE_INITIALIZE, MODEM_STATE_CONNECT , MODEM_STATE_CONNECT, MODEM_STATE_ESCAPE }, /* RESP: 2: RING */ { MODEM_STATE_DISCONNECT, MODEM_STATE_INITIALIZE, MODEM_STATE_DAILING , MODEM_STATE_CONNECT, MODEM_STATE_ESCAPE }, /* RESP: 3: NO CARRIER */ { MODEM_STATE_DISCONNECT, MODEM_STATE_INITIALIZE, MODEM_STATE_DISCONNECT, MODEM_STATE_CONNECT, MODEM_STATE_ESCAPE }, /* RESP: 4: ERROR */ { MODEM_STATE_DISCONNECT, MODEM_STATE_DAILING , MODEM_STATE_DISCONNECT, MODEM_STATE_CONNECT, MODEM_STATE_ESCAPE }, /* RESP: 5: CONNECT X */ { MODEM_STATE_DISCONNECT, MODEM_STATE_INITIALIZE, MODEM_STATE_CONNECT , MODEM_STATE_CONNECT, MODEM_STATE_ESCAPE }, /* RESP: 6: NO DAILTONE */ { MODEM_STATE_DISCONNECT, MODEM_STATE_INITIALIZE, MODEM_STATE_DISCONNECT, MODEM_STATE_CONNECT, MODEM_STATE_ESCAPE }, /* RESP: 7: BUSY */ { MODEM_STATE_DISCONNECT, MODEM_STATE_INITIALIZE, MODEM_STATE_DISCONNECT, MODEM_STATE_CONNECT, MODEM_STATE_ESCAPE }, /* RESP: 8: NO ANSWER */ { MODEM_STATE_DISCONNECT, MODEM_STATE_INITIALIZE, MODEM_STATE_DISCONNECT, MODEM_STATE_CONNECT, MODEM_STATE_ESCAPE }, /* RESP: 9: UNKNOWN */ { MODEM_STATE_DISCONNECT, MODEM_STATE_INITIALIZE, MODEM_STATE_DAILING , MODEM_STATE_CONNECT, MODEM_STATE_ESCAPE }, /* SILENT */ { MODEM_STATE_DISCONNECT, MODEM_STATE_INITIALIZE, MODEM_STATE_DAILING , MODEM_STATE_CONNECT, MODEM_STATE_DISCONNECT }, /* TIMEOUT */ { MODEM_STATE_DISCONNECT, MODEM_STATE_DISCONNECT, MODEM_STATE_ESCAPE , MODEM_STATE_ESCAPE , MODEM_STATE_DISCONNECT } } ; static short iModemPostEvent [ ] [ 5 ] = { /*STATE_DISCONNECT STATE_INITIALIZE STATE_DAILING STATE_CONNECT STATE_ESCAPE */ /* NULL */ { MODEM_EVENT_NULL , MODEM_EVENT_NULL , MODEM_EVENT_NULL , MODEM_EVENT_NULL , MODEM_EVENT_NULL }, /* INITIALIZE */ { MODEM_EVENT_INITIALIZE, MODEM_EVENT_NULL , MODEM_EVENT_NULL , MODEM_EVENT_NULL , MODEM_EVENT_NULL }, /* DIALOUT */ { MODEM_EVENT_NULL , MODEM_EVENT_NULL , MODEM_EVENT_NULL , MODEM_EVENT_NULL , MODEM_EVENT_NULL }, /* DISCONNECT */ { MODEM_EVENT_NULL , MODEM_EVENT_NULL , MODEM_EVENT_DISCONNECT, MODEM_EVENT_DISCONNECT, MODEM_EVENT_NULL }, /* RESP: 0: OK */ { MODEM_EVENT_NULL , MODEM_EVENT_DIALOUT, MODEM_EVENT_NULL , MODEM_EVENT_NULL , MODEM_EVENT_NULL }, /* RESP: 1: CONNECT */ { MODEM_EVENT_NULL , MODEM_EVENT_NULL , MODEM_EVENT_NULL , MODEM_EVENT_NULL , MODEM_EVENT_NULL }, /* RESP: 2: RING */ { MODEM_EVENT_NULL , MODEM_EVENT_NULL , MODEM_EVENT_NULL , MODEM_EVENT_NULL , MODEM_EVENT_NULL }, /* RESP: 3: NO CARRIER */ { MODEM_EVENT_NULL , MODEM_EVENT_NULL , MODEM_EVENT_NULL , MODEM_EVENT_NULL , MODEM_EVENT_NULL }, /* RESP: 4: ERROR */ { MODEM_EVENT_NULL , MODEM_EVENT_DIALOUT, MODEM_EVENT_NULL , MODEM_EVENT_NULL , MODEM_EVENT_NULL }, /* RESP: 5: CONNECT X */ { MODEM_EVENT_NULL , MODEM_EVENT_NULL , MODEM_EVENT_NULL , MODEM_EVENT_NULL , MODEM_EVENT_NULL }, /* RESP: 6: NO DAILTONE */ { MODEM_EVENT_NULL , MODEM_EVENT_NULL , MODEM_EVENT_NULL , MODEM_EVENT_NULL , MODEM_EVENT_NULL }, /* RESP: 7: BUSY */ { MODEM_EVENT_NULL , MODEM_EVENT_NULL , MODEM_EVENT_NULL , MODEM_EVENT_NULL , MODEM_EVENT_NULL }, /* RESP: 8: NO ANSWER */ { MODEM_EVENT_NULL , MODEM_EVENT_NULL , MODEM_EVENT_NULL , MODEM_EVENT_NULL , MODEM_EVENT_NULL }, /* RESP: 9: UNKNOWN */ { MODEM_EVENT_NULL , MODEM_EVENT_NULL , MODEM_EVENT_NULL , MODEM_EVENT_NULL , MODEM_EVENT_NULL }, /* SILENT */ { MODEM_EVENT_NULL , MODEM_EVENT_NULL , MODEM_EVENT_NULL , MODEM_EVENT_NULL , MODEM_EVENT_NULL }, /* TIMEOUT */ { MODEM_EVENT_NULL , MODEM_EVENT_NULL , MODEM_EVENT_DISCONNECT, MODEM_EVENT_DISCONNECT, MODEM_EVENT_NULL } } ; static short iModemSilentTimeout [ 5 ] = { 0, 0, 0, 0, 5 } ; static short iModemStateTimeout [ 5 ] = { 0, 20, 90, 0, 20 } ; #define STAY_MODEM_STATE 0 #define CHANGE_MODEM_STATE 1 #ifdef DEBUG #define DEBUG_MODEM_PRINTF(sFunc) { if ( debug ) { printf ( "refclock_jjy.c : %s : iModemState=%d iModemEvent=%d iModemSilentTimer=%d iModemStateTimer=%d\n", sFunc, up->iModemState, up->iModemEvent, up->iModemSilentTimer, up->iModemStateTimer ) ; } } #else #define DEBUG_MODEM_PRINTF(sFunc) #endif /**************************************************************************************************/ static short getModemState ( struct jjyunit *up ) { return up->iModemState ; } /**************************************************************************************************/ static int isModemStateConnect ( short iCheckState ) { return ( iCheckState == MODEM_STATE_CONNECT ) ; } /**************************************************************************************************/ static int isModemStateDisconnect ( short iCheckState ) { return ( iCheckState == MODEM_STATE_DISCONNECT ) ; } /**************************************************************************************************/ static int isModemStateTimerOn ( struct jjyunit *up ) { return ( iModemSilentTimeout[up->iModemState] != 0 || iModemStateTimeout[up->iModemState] != 0 ) ; } /**************************************************************************************************/ static void modem_connect ( int unit, struct peer *peer ) { struct refclockproc *pp; struct jjyunit *up; pp = peer->procptr ; up = pp->unitptr ; DEBUG_MODEM_PRINTF( "modem_connect" ) ; up->iModemEvent = MODEM_EVENT_INITIALIZE ; modem_control ( peer, pp, up ) ; } /**************************************************************************************************/ static void modem_disconnect ( int unit, struct peer *peer ) { struct refclockproc *pp; struct jjyunit *up; pp = peer->procptr ; up = pp->unitptr ; DEBUG_MODEM_PRINTF( "modem_disconnect" ) ; up->iModemEvent = MODEM_EVENT_DISCONNECT ; modem_control ( peer, pp, up ) ; } /**************************************************************************************************/ static int modem_receive ( struct recvbuf *rbufp ) { struct peer *peer; struct jjyunit *up; struct refclockproc *pp; char *pBuf ; size_t iLen ; #ifdef DEBUG static const char *sFunctionName = "modem_receive" ; #endif peer = rbufp->recv_peer ; pp = peer->procptr ; up = pp->unitptr ; DEBUG_MODEM_PRINTF( sFunctionName ) ; if ( up->linediscipline == LDISC_RAW ) { pBuf = up->sTextBuf ; iLen = up->iTextBufLen ; } else { pBuf = pp->a_lastcode ; iLen = pp->lencode ; } if ( iLen == 2 && strncmp( pBuf, "OK" , 2 ) == 0 ) { up->iModemEvent = MODEM_EVENT_RESP_OK ; } else if ( iLen == 7 && strncmp( pBuf, "CONNECT" , 7 ) == 0 ) { up->iModemEvent = MODEM_EVENT_RESP_CONNECT ; } else if ( iLen == 4 && strncmp( pBuf, "RING" , 4 ) == 0 ) { up->iModemEvent = MODEM_EVENT_RESP_RING ; } else if ( iLen == 10 && strncmp( pBuf, "NO CARRIER" , 10 ) == 0 ) { up->iModemEvent = MODEM_EVENT_RESP_NO_CARRIER ; } else if ( iLen == 5 && strncmp( pBuf, "ERROR" , 5 ) == 0 ) { up->iModemEvent = MODEM_EVENT_RESP_ERROR ; } else if ( iLen >= 8 && strncmp( pBuf, "CONNECT " , 8 ) == 0 ) { up->iModemEvent = MODEM_EVENT_RESP_CONNECT_X ; } else if ( iLen == 11 && strncmp( pBuf, "NO DAILTONE", 11 ) == 0 ) { up->iModemEvent = MODEM_EVENT_RESP_NO_DAILTONE ; } else if ( iLen == 4 && strncmp( pBuf, "BUSY" , 4 ) == 0 ) { up->iModemEvent = MODEM_EVENT_RESP_BUSY ; } else if ( iLen == 9 && strncmp( pBuf, "NO ANSWER" , 9 ) == 0 ) { up->iModemEvent = MODEM_EVENT_RESP_NO_ANSWER ; } else { up->iModemEvent = MODEM_EVENT_RESP_UNKNOWN ; } #ifdef DEBUG if ( debug ) { char sResp [ 40 ] ; size_t iCopyLen ; iCopyLen = ( iLen <= sizeof(sResp)-1 ? iLen : sizeof(sResp)-1 ) ; strncpy( sResp, pBuf, iLen <= sizeof(sResp)-1 ? iLen : sizeof(sResp)-1 ) ; sResp[iCopyLen] = 0 ; printf ( "refclock_jjy.c : modem_receive : iLen=%zu pBuf=[%s] iModemEvent=%d\n", iCopyLen, sResp, up->iModemEvent ) ; } #endif modem_control ( peer, pp, up ) ; return 0 ; } /**************************************************************************************************/ static void modem_timer ( int unit, struct peer *peer ) { struct refclockproc *pp ; struct jjyunit *up ; pp = peer->procptr ; up = pp->unitptr ; DEBUG_MODEM_PRINTF( "modem_timer" ) ; if ( iModemSilentTimeout[up->iModemState] != 0 ) { up->iModemSilentTimer++ ; if ( iModemSilentTimeout[up->iModemState] <= up->iModemSilentTimer ) { up->iModemEvent = MODEM_EVENT_SILENT ; modem_control ( peer, pp, up ) ; } } if ( iModemStateTimeout[up->iModemState] != 0 ) { up->iModemStateTimer++ ; if ( iModemStateTimeout[up->iModemState] <= up->iModemStateTimer ) { up->iModemEvent = MODEM_EVENT_TIMEOUT ; modem_control ( peer, pp, up ) ; } } } /**************************************************************************************************/ static void modem_control ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { int rc ; short iPostEvent = MODEM_EVENT_NULL ; DEBUG_MODEM_PRINTF( "modem_control" ) ; rc = (*pModemHandler[up->iModemEvent][up->iModemState])( peer, pp, up ) ; if ( rc == CHANGE_MODEM_STATE ) { iPostEvent = iModemPostEvent[up->iModemEvent][up->iModemState] ; #ifdef DEBUG if ( debug ) { printf( "refclock_jjy.c : modem_control : iModemState=%d -> %d iPostEvent=%d\n", up->iModemState, iModemNextState[up->iModemEvent][up->iModemState], iPostEvent ) ; } #endif if ( up->iModemState != iModemNextState[up->iModemEvent][up->iModemState] ) { up->iModemSilentCount = 0 ; up->iModemStateTimer = 0 ; up->iModemCommandSeq = 0 ; } up->iModemState = iModemNextState[up->iModemEvent][up->iModemState] ; } if ( iPostEvent != MODEM_EVENT_NULL ) { up->iModemEvent = iPostEvent ; modem_control ( peer, pp, up ) ; } up->iModemEvent = MODEM_EVENT_NULL ; } /******************************/ static int modem_disc_ignore ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { DEBUG_MODEM_PRINTF( "modem_disc_ignore" ) ; return STAY_MODEM_STATE ; } /******************************/ static int modem_disc_init ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { DEBUG_MODEM_PRINTF( "modem_disc_init" ) ; return CHANGE_MODEM_STATE ; } /******************************/ static int modem_init_ignore ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { DEBUG_MODEM_PRINTF( "modem_init_ignore" ) ; return STAY_MODEM_STATE ; } /******************************/ static int modem_init_start ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { DEBUG_MODEM_PRINTF( "modem_init_start" ) ; up->iModemCommandSeq = 0 ; #ifdef DEBUG if ( debug ) { printf( "refclock_jjy.c : modem_init_start : call modem_init_resp00\n" ) ; } #endif return modem_init_resp00( peer, pp, up ) ; } /******************************/ static int modem_init_resp00 ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { const char * pCmd ; char cBuf [ 46 ] ; int iCmdLen ; int iErrorCorrection, iSpeakerSwitch, iSpeakerVolume ; int iNextModemState = STAY_MODEM_STATE ; DEBUG_MODEM_PRINTF( "modem_init_resp00" ) ; up->iModemCommandSeq++ ; switch ( up->iModemCommandSeq ) { case 1 : /* En = Echoback 0:Off 1:On */ /* Qn = Result codes 0:On 1:Off */ /* Vn = Result codes 0:Numeric 1:Text */ pCmd = "ATE0Q0V1\r\n" ; break ; case 2 : /* Mn = Speaker switch 0:Off 1:On until remote carrier detected 2:On */ if ( ( pp->sloppyclockflag & CLK_FLAG3 ) == 0 ) { /* fudge 127.127.40.n flag3 0 */ iSpeakerSwitch = 0 ; } else { /* fudge 127.127.40.n flag3 1 */ iSpeakerSwitch = 2 ; } /* Ln = Speaker volume 0:Very low 1:Low 2:Middle 3:High */ if ( ( pp->sloppyclockflag & CLK_FLAG4 ) == 0 ) { /* fudge 127.127.40.n flag4 0 */ iSpeakerVolume = 1 ; } else { /* fudge 127.127.40.n flag4 1 */ iSpeakerVolume = 2 ; } pCmd = cBuf ; snprintf( cBuf, sizeof(cBuf), "ATM%dL%d\r\n", iSpeakerSwitch, iSpeakerVolume ) ; break ; case 3 : /* &Kn = Flow control 4:XON/XOFF */ pCmd = "AT&K4\r\n" ; break ; case 4 : /* +MS = Protocol V22B:1200,2400bpsiV.22bis) */ pCmd = "AT+MS=V22B\r\n" ; break ; case 5 : /* %Cn = Data compression 0:No data compression */ pCmd = "AT%C0\r\n" ; break ; case 6 : /* \Nn = Error correction 0:Normal mode 1:Direct mode 2:V42,MNP 3:V42,MNP,Normal */ if ( ( pp->sloppyclockflag & CLK_FLAG2 ) == 0 ) { /* fudge 127.127.40.n flag2 0 */ iErrorCorrection = 0 ; } else { /* fudge 127.127.40.n flag2 1 */ iErrorCorrection = 3 ; } pCmd = cBuf ; snprintf( cBuf, sizeof(cBuf), "AT\\N%d\r\n", iErrorCorrection ) ; break ; case 7 : /* Hn = Hook 0:Hook-On ( Disconnect ) 1:Hook-Off ( Connect ) */ pCmd = "ATH1\r\n" ; break ; case 8 : /* Initialize completion */ pCmd = NULL ; iNextModemState = CHANGE_MODEM_STATE ; break ; default : pCmd = NULL ; break ; } if ( pCmd != NULL ) { iCmdLen = strlen( pCmd ) ; if ( write( pp->io.fd, pCmd, iCmdLen ) != iCmdLen ) { refclock_report( peer, CEVNT_FAULT ) ; } jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_SEND, pCmd ) ; } return iNextModemState ; } /******************************/ static int modem_init_resp04 ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { DEBUG_MODEM_PRINTF( "modem_init_resp04" ) ; return modem_init_resp00( peer, pp, up ) ; } /******************************/ static int modem_init_disc ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { DEBUG_MODEM_PRINTF( "modem_init_disc" ) ; #ifdef DEBUG if ( debug ) { printf( "refclock_jjy.c : modem_init_disc : call modem_esc_disc\n" ) ; } #endif return CHANGE_MODEM_STATE ; } /******************************/ static int modem_dial_ignore ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { DEBUG_MODEM_PRINTF( "modem_dial_ignore" ) ; return STAY_MODEM_STATE ; } /******************************/ static int modem_dial_dialout ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { char sCmd [ 46 ] ; int iCmdLen ; char cToneOrPulse ; DEBUG_MODEM_PRINTF( "modem_dial_dialout" ) ; /* Tone or Pulse */ if ( ( pp->sloppyclockflag & CLK_FLAG1 ) == 0 ) { /* fudge 127.127.40.n flag1 0 */ cToneOrPulse = 'T' ; } else { /* fudge 127.127.40.n flag1 1 */ cToneOrPulse = 'P' ; } /* Connect ( Dial number ) */ snprintf( sCmd, sizeof(sCmd), "ATDW%c%s\r\n", cToneOrPulse, *sys_phone ) ; /* Send command */ iCmdLen = strlen( sCmd ) ; if ( write( pp->io.fd, sCmd, iCmdLen ) != iCmdLen ) { refclock_report( peer, CEVNT_FAULT ) ; } jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_SEND, sCmd ) ; return STAY_MODEM_STATE ; } /******************************/ static int modem_dial_escape ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { DEBUG_MODEM_PRINTF( "modem_dial_escape" ) ; #ifdef DEBUG if ( debug ) { printf( "refclock_jjy.c : modem_dial_escape : call modem_conn_escape\n" ) ; } #endif return modem_conn_escape( peer, pp, up ) ; } /******************************/ static int modem_dial_connect ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { DEBUG_MODEM_PRINTF( "modem_dial_connect" ) ; return CHANGE_MODEM_STATE ; } /******************************/ static int modem_dial_disc ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { DEBUG_MODEM_PRINTF( "modem_dial_disc" ) ; #ifdef DEBUG if ( debug ) { printf( "refclock_jjy.c : modem_dial_disc : call modem_esc_disc\n" ) ; } #endif modem_esc_disc( peer, pp, up ) ; return CHANGE_MODEM_STATE ; } /******************************/ static int modem_conn_ignore ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { DEBUG_MODEM_PRINTF( "modem_conn_ignore" ) ; return STAY_MODEM_STATE ; } /******************************/ static int modem_conn_escape ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { DEBUG_MODEM_PRINTF( "modem_conn_escape" ) ; return CHANGE_MODEM_STATE ; } /******************************/ static int modem_esc_ignore ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { DEBUG_MODEM_PRINTF( "modem_esc_ignore" ) ; return STAY_MODEM_STATE ; } /******************************/ static int modem_esc_escape ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { const char * pCmd ; int iCmdLen ; DEBUG_MODEM_PRINTF( "modem_esc_escape" ) ; /* Escape command ( Go to command mode ) */ pCmd = "+++" ; /* Send command */ iCmdLen = strlen( pCmd ) ; if ( write( pp->io.fd, pCmd, iCmdLen ) != iCmdLen ) { refclock_report( peer, CEVNT_FAULT ) ; } jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_SEND, pCmd ) ; return STAY_MODEM_STATE ; } /******************************/ static int modem_esc_data ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { DEBUG_MODEM_PRINTF( "modem_esc_data" ) ; up->iModemSilentTimer = 0 ; return STAY_MODEM_STATE ; } /******************************/ static int modem_esc_silent ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { DEBUG_MODEM_PRINTF( "modem_esc_silent" ) ; up->iModemSilentCount ++ ; if ( up->iModemSilentCount < iModemStateTimeout[up->iModemState] / iModemSilentTimeout[up->iModemState] ) { #ifdef DEBUG if ( debug ) { printf( "refclock_jjy.c : modem_esc_silent : call modem_esc_escape\n" ) ; } #endif modem_esc_escape( peer, pp, up ) ; up->iModemSilentTimer = 0 ; return STAY_MODEM_STATE ; } #ifdef DEBUG if ( debug ) { printf( "refclock_jjy.c : modem_esc_silent : call modem_esc_disc\n" ) ; } #endif return modem_esc_disc( peer, pp, up ) ; } /******************************/ static int modem_esc_disc ( struct peer *peer, struct refclockproc *pp, struct jjyunit *up ) { const char * pCmd ; int iCmdLen ; DEBUG_MODEM_PRINTF( "modem_esc_disc" ) ; /* Disconnect */ pCmd = "ATH0\r\n" ; /* Send command */ iCmdLen = strlen( pCmd ) ; if ( write( pp->io.fd, pCmd, iCmdLen ) != iCmdLen ) { refclock_report( peer, CEVNT_FAULT ) ; } jjy_write_clockstats( peer, JJY_CLOCKSTATS_MARK_SEND, pCmd ) ; return CHANGE_MODEM_STATE ; } /*################################################################################################*/ /*################################################################################################*/ /*## ##*/ /*## jjy_write_clockstats ##*/ /*## ##*/ /*################################################################################################*/ /*################################################################################################*/ static void jjy_write_clockstats ( struct peer *peer, int iMark, const char *pData ) { char sLog [ 100 ] ; const char * pMark ; int iMarkLen, iDataLen ; switch ( iMark ) { case JJY_CLOCKSTATS_MARK_JJY : pMark = "JJY " ; break ; case JJY_CLOCKSTATS_MARK_SEND : pMark = "--> " ; break ; case JJY_CLOCKSTATS_MARK_RECEIVE : pMark = "<-- " ; break ; case JJY_CLOCKSTATS_MARK_INFORMATION : pMark = "--- " ; break ; case JJY_CLOCKSTATS_MARK_ATTENTION : pMark = "=== " ; break ; case JJY_CLOCKSTATS_MARK_WARNING : pMark = "-W- " ; break ; case JJY_CLOCKSTATS_MARK_ERROR : pMark = "-X- " ; break ; case JJY_CLOCKSTATS_MARK_BUG : pMark = "!!! " ; break ; default : pMark = "" ; break ; } iDataLen = strlen( pData ) ; iMarkLen = strlen( pMark ) ; strcpy( sLog, pMark ) ; /* Harmless because of enough length */ printableString( sLog+iMarkLen, sizeof(sLog)-iMarkLen, pData, iDataLen ) ; #ifdef DEBUG if ( debug ) { printf( "refclock_jjy.c : clockstats : %s\n", sLog ) ; } #endif record_clock_stats( &peer->srcadr, sLog ) ; } /*################################################################################################*/ /*################################################################################################*/ /*## ##*/ /*## printableString ##*/ /*## ##*/ /*################################################################################################*/ /*################################################################################################*/ static void printableString ( char *sOutput, int iOutputLen, const char *sInput, int iInputLen ) { const char *printableControlChar[] = { "", "", "", "", "", "", "", "", "" , "" , "" , "" , "" , "" , "" , "" , "", "", "", "", "", "", "", "", "", "" , "", "", "" , "" , "" , "" , " " } ; size_t i, j, n ; size_t InputLen; size_t OutputLen; InputLen = (size_t)iInputLen; OutputLen = (size_t)iOutputLen; for ( i = j = 0 ; i < InputLen && j < OutputLen ; i ++ ) { if ( isprint( (unsigned char)sInput[i] ) ) { n = 1 ; if ( j + 1 >= OutputLen ) break ; sOutput[j] = sInput[i] ; } else if ( ( sInput[i] & 0xFF ) < COUNTOF(printableControlChar) ) { n = strlen( printableControlChar[sInput[i] & 0xFF] ) ; if ( j + n + 1 >= OutputLen ) break ; strlcpy( sOutput + j, printableControlChar[sInput[i] & 0xFF], OutputLen - j ) ; } else { n = 5 ; if ( j + n + 1 >= OutputLen ) break ; snprintf( sOutput + j, OutputLen - j, "", sInput[i] & 0xFF ) ; } j += n ; } sOutput[min(j, (size_t)iOutputLen - 1)] = '\0' ; } /**************************************************************************************************/ #else NONEMPTY_TRANSLATION_UNIT #endif /* REFCLOCK */