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refclock_shm.c revision 1.1.1.8
      1 /*
      2  * refclock_shm - clock driver for utc via shared memory
      3  * - under construction -
      4  * To add new modes: Extend or union the shmTime-struct. Do not
      5  * extend/shrink size, because otherwise existing implementations
      6  * will specify wrong size of shared memory-segment
      7  * PB 18.3.97
      8  */
      9 
     10 #ifdef HAVE_CONFIG_H
     11 # include <config.h>
     12 #endif
     13 
     14 #include "ntp_types.h"
     15 
     16 #if defined(REFCLOCK) && defined(CLOCK_SHM)
     17 
     18 #include "ntpd.h"
     19 #undef fileno
     20 #include "ntp_io.h"
     21 #undef fileno
     22 #include "ntp_refclock.h"
     23 #undef fileno
     24 #include "timespecops.h"
     25 #undef fileno
     26 #include "ntp_stdlib.h"
     27 #include "ntp_assert.h"
     28 
     29 #undef fileno
     30 #include <ctype.h>
     31 #undef fileno
     32 
     33 #ifndef SYS_WINNT
     34 # include <sys/ipc.h>
     35 # include <sys/shm.h>
     36 # include <assert.h>
     37 # include <unistd.h>
     38 # include <stdio.h>
     39 #endif
     40 
     41 #ifdef HAVE_STDATOMIC_H
     42 # include <stdatomic.h>
     43 #endif /* HAVE_STDATOMIC_H */
     44 
     45 /*
     46  * This driver supports a reference clock attached thru shared memory
     47  */
     48 
     49 /*
     50  * SHM interface definitions
     51  */
     52 #define PRECISION       (-1)    /* precision assumed (0.5 s) */
     53 #define REFID           "SHM"   /* reference ID */
     54 #define DESCRIPTION     "SHM/Shared memory interface"
     55 
     56 #define NSAMPLES        3       /* stages of median filter */
     57 
     58 /*
     59  * Mode flags
     60  */
     61 #define SHM_MODE_PRIVATE 0x0001
     62 
     63 /*
     64  * Function prototypes
     65  */
     66 static  int     shm_start       (int unit, struct peer *peer);
     67 static  void    shm_shutdown    (int unit, struct peer *peer);
     68 static  void    shm_poll        (int unit, struct peer *peer);
     69 static  void    shm_timer       (int unit, struct peer *peer);
     70 static	void	shm_clockstats  (int unit, struct peer *peer);
     71 static	void	shm_control	(int unit, const struct refclockstat * in_st,
     72 				 struct refclockstat * out_st, struct peer *peer);
     73 
     74 /*
     75  * Transfer vector
     76  */
     77 struct  refclock refclock_shm = {
     78 	shm_start,              /* start up driver */
     79 	shm_shutdown,           /* shut down driver */
     80 	shm_poll,		/* transmit poll message */
     81 	shm_control,		/* control settings */
     82 	noentry,		/* not used: init */
     83 	noentry,		/* not used: buginfo */
     84 	shm_timer,              /* once per second */
     85 };
     86 
     87 struct shmTime {
     88 	int    mode; /* 0 - if valid is set:
     89 		      *       use values,
     90 		      *       clear valid
     91 		      * 1 - if valid is set:
     92 		      *       if count before and after read of values is equal,
     93 		      *         use values
     94 		      *       clear valid
     95 		      */
     96 	volatile int    count;
     97 	time_t		clockTimeStampSec;
     98 	int		clockTimeStampUSec;
     99 	time_t		receiveTimeStampSec;
    100 	int		receiveTimeStampUSec;
    101 	int		leap;
    102 	int		precision;
    103 	int		nsamples;
    104 	volatile int    valid;
    105 	unsigned	clockTimeStampNSec;	/* Unsigned ns timestamps */
    106 	unsigned	receiveTimeStampNSec;	/* Unsigned ns timestamps */
    107 	int		dummy[8];
    108 };
    109 
    110 struct shmunit {
    111 	struct shmTime *shm;	/* pointer to shared memory segment */
    112 	int forall;		/* access for all UIDs?	*/
    113 
    114 	/* debugging/monitoring counters - reset when printed */
    115 	int ticks;		/* number of attempts to read data*/
    116 	int good;		/* number of valid samples */
    117 	int notready;		/* number of peeks without data ready */
    118 	int bad;		/* number of invalid samples */
    119 	int clash;		/* number of access clashes while reading */
    120 
    121 	time_t max_delta;	/* difference limit */
    122 	time_t max_delay;	/* age/stale limit */
    123 };
    124 
    125 
    126 static struct shmTime*
    127 getShmTime(
    128 	int unit,
    129 	int/*BOOL*/ forall
    130 	)
    131 {
    132 	struct shmTime *p = NULL;
    133 
    134 #ifndef SYS_WINNT
    135 
    136 	int shmid;
    137 
    138 	/* 0x4e545030 is NTP0.
    139 	 * Big units will give non-ascii but that's OK
    140 	 * as long as everybody does it the same way.
    141 	 */
    142 	shmid=shmget(0x4e545030 + unit, sizeof (struct shmTime),
    143 		      IPC_CREAT | (forall ? 0666 : 0600));
    144 	if (shmid == -1) { /* error */
    145 		msyslog(LOG_ERR, "SHM shmget (unit %d): %m", unit);
    146 		return NULL;
    147 	}
    148 	p = (struct shmTime *)shmat (shmid, 0, 0);
    149 	if (p == (struct shmTime *)-1) { /* error */
    150 		msyslog(LOG_ERR, "SHM shmat (unit %d): %m", unit);
    151 		return NULL;
    152 	}
    153 
    154 	return p;
    155 #else
    156 
    157 	static const char * nspref[2] = { "Local", "Global" };
    158 	char buf[20];
    159 	LPSECURITY_ATTRIBUTES psec = 0;
    160 	HANDLE shmid = 0;
    161 	SECURITY_DESCRIPTOR sd;
    162 	SECURITY_ATTRIBUTES sa;
    163 	unsigned int numch;
    164 
    165 	numch = snprintf(buf, sizeof(buf), "%s\\NTP%d",
    166 			 nspref[forall != 0], (unit & 0xFF));
    167 	if (numch >= sizeof(buf)) {
    168 		msyslog(LOG_ERR, "SHM name too long (unit %d)", unit);
    169 		return NULL;
    170 	}
    171 	if (forall) { /* world access */
    172 		if (!InitializeSecurityDescriptor(&sd, SECURITY_DESCRIPTOR_REVISION)) {
    173 			msyslog(LOG_ERR,"SHM InitializeSecurityDescriptor (unit %d): %m", unit);
    174 			return NULL;
    175 		}
    176 		if (!SetSecurityDescriptorDacl(&sd, TRUE, NULL, FALSE)) {
    177 			msyslog(LOG_ERR, "SHM SetSecurityDescriptorDacl (unit %d): %m", unit);
    178 			return NULL;
    179 		}
    180 		sa.nLength = sizeof(SECURITY_ATTRIBUTES);
    181 		sa.lpSecurityDescriptor = &sd;
    182 		sa.bInheritHandle = FALSE;
    183 		psec = &sa;
    184 	}
    185 	shmid = CreateFileMapping ((HANDLE)0xffffffff, psec, PAGE_READWRITE,
    186 				   0, sizeof (struct shmTime), buf);
    187 	if (shmid == NULL) { /*error*/
    188 		char buf[1000];
    189 		FormatMessage (FORMAT_MESSAGE_FROM_SYSTEM,
    190 			       0, GetLastError (), 0, buf, sizeof (buf), 0);
    191 		msyslog(LOG_ERR, "SHM CreateFileMapping (unit %d): %s", unit, buf);
    192 		return NULL;
    193 	}
    194 	p = (struct shmTime *)MapViewOfFile(shmid, FILE_MAP_WRITE, 0, 0,
    195 					    sizeof (struct shmTime));
    196 	if (p == NULL) { /*error*/
    197 		char buf[1000];
    198 		FormatMessage (FORMAT_MESSAGE_FROM_SYSTEM,
    199 			       0, GetLastError (), 0, buf, sizeof (buf), 0);
    200 		msyslog(LOG_ERR,"SHM MapViewOfFile (unit %d): %s", unit, buf);
    201 		return NULL;
    202 	}
    203 
    204 	return p;
    205 #endif
    206 
    207 	/* NOTREACHED */
    208 	ENSURE(!"getShmTime(): Not reached.");
    209 }
    210 
    211 
    212 /*
    213  * shm_start - attach to shared memory
    214  */
    215 static int
    216 shm_start(
    217 	int unit,
    218 	struct peer *peer
    219 	)
    220 {
    221 	struct refclockproc * const pp = peer->procptr;
    222 	struct shmunit *      const up = emalloc_zero(sizeof(*up));
    223 
    224 	pp->io.clock_recv = noentry;
    225 	pp->io.srcclock = peer;
    226 	pp->io.datalen = 0;
    227 	pp->io.fd = -1;
    228 
    229 	up->forall = (unit >= 2) && !(peer->ttl & SHM_MODE_PRIVATE);
    230 
    231 	up->shm = getShmTime(unit, up->forall);
    232 
    233 	/*
    234 	 * Initialize miscellaneous peer variables
    235 	 */
    236 	memcpy((char *)&pp->refid, REFID, 4);
    237 	if (up->shm != 0) {
    238 		pp->unitptr = up;
    239 		up->shm->precision = PRECISION;
    240 		peer->precision = up->shm->precision;
    241 		up->shm->valid = 0;
    242 		up->shm->nsamples = NSAMPLES;
    243 		pp->clockdesc = DESCRIPTION;
    244 		/* items to be changed later in 'shm_control()': */
    245 		up->max_delay = 5;
    246 		up->max_delta = 4*3600;
    247 		return 1;
    248 	} else {
    249 		free(up);
    250 		pp->unitptr = NULL;
    251 		return 0;
    252 	}
    253 }
    254 
    255 
    256 /*
    257  * shm_control - configure flag1/time2 params
    258  *
    259  * These are not yet available during 'shm_start', so we have to do any
    260  * pre-computations we want to avoid during regular poll/timer callbacks
    261  * in this callback.
    262  */
    263 static void
    264 shm_control(
    265 	int                         unit,
    266 	const struct refclockstat * in_st,
    267 	struct refclockstat       * out_st,
    268 	struct peer               * peer
    269 	)
    270 {
    271 	struct refclockproc * const pp = peer->procptr;
    272 	struct shmunit *      const up = pp->unitptr;
    273 
    274 	UNUSED_ARG(unit);
    275 	UNUSED_ARG(in_st);
    276 	UNUSED_ARG(out_st);
    277 	if (NULL == up)
    278 		return;
    279 	if (pp->sloppyclockflag & CLK_FLAG1)
    280 		up->max_delta = 0;
    281 	else if (pp->fudgetime2 < 1. || pp->fudgetime2 > 86400.)
    282 		up->max_delta = 4*3600;
    283 	else
    284 		up->max_delta = (time_t)floor(pp->fudgetime2 + 0.5);
    285 }
    286 
    287 
    288 /*
    289  * shm_shutdown - shut down the clock
    290  */
    291 static void
    292 shm_shutdown(
    293 	int unit,
    294 	struct peer *peer
    295 	)
    296 {
    297 	struct refclockproc * const pp = peer->procptr;
    298 	struct shmunit *      const up = pp->unitptr;
    299 
    300 	UNUSED_ARG(unit);
    301 	if (NULL == up)
    302 		return;
    303 #ifndef SYS_WINNT
    304 
    305 	/* HMS: shmdt() wants char* or const void * */
    306 	(void)shmdt((char *)up->shm);
    307 
    308 #else
    309 
    310 	UnmapViewOfFile(up->shm);
    311 
    312 #endif
    313 	free(up);
    314 }
    315 
    316 
    317 /*
    318  * shm_poll - called by the transmit procedure
    319  */
    320 static void
    321 shm_poll(
    322 	int unit,
    323 	struct peer *peer
    324 	)
    325 {
    326 	struct refclockproc * const pp = peer->procptr;
    327 	struct shmunit *      const up = pp->unitptr;
    328 	int major_error;
    329 
    330 	pp->polls++;
    331 
    332 	/* get dominant reason if we have no samples at all */
    333 	major_error = max(up->notready, up->bad);
    334 	major_error = max(major_error, up->clash);
    335 
    336         /*
    337          * Process median filter samples. If none received, see what
    338          * happened, tell the core and keep going.
    339          */
    340         if (pp->coderecv != pp->codeproc) {
    341 		/* have some samples, everything OK */
    342 		pp->lastref = pp->lastrec;
    343 		refclock_receive(peer);
    344 	} else if (NULL == up->shm) { /* is this possible at all? */
    345 		/* we're out of business without SHM access */
    346 		refclock_report(peer, CEVNT_FAULT);
    347 	} else if (major_error == up->clash) {
    348 		/* too many collisions is like a bad signal */
    349                 refclock_report(peer, CEVNT_PROP);
    350 	} else if (major_error == up->bad) {
    351 		/* too much stale/bad/garbled data */
    352                 refclock_report(peer, CEVNT_BADREPLY);
    353 	} else {
    354 		/* in any other case assume it's just a timeout */
    355                 refclock_report(peer, CEVNT_TIMEOUT);
    356         }
    357 	/* shm_clockstats() clears the tallies, so it must be last... */
    358 	shm_clockstats(unit, peer);
    359 }
    360 
    361 
    362 enum segstat_t {
    363     OK, NO_SEGMENT, NOT_READY, BAD_MODE, CLASH
    364 };
    365 
    366 struct shm_stat_t {
    367     int status;
    368     int mode;
    369     struct timespec tvc, tvr, tvt;
    370     int precision;
    371     int leap;
    372 };
    373 
    374 static inline void memory_barrier(void)
    375 {
    376 #ifdef HAVE_ATOMIC_THREAD_FENCE
    377     atomic_thread_fence(memory_order_seq_cst);
    378 #endif /* HAVE_ATOMIC_THREAD_FENCE */
    379 }
    380 
    381 static enum segstat_t shm_query(volatile struct shmTime *shm_in, struct shm_stat_t *shm_stat)
    382 /* try to grab a sample from the specified SHM segment */
    383 {
    384     struct shmTime shmcopy;
    385     volatile struct shmTime *shm = shm_in;
    386     volatile int cnt;
    387 
    388     unsigned int cns_new, rns_new;
    389 
    390     /*
    391      * This is the main routine. It snatches the time from the shm
    392      * board and tacks on a local timestamp.
    393      */
    394     if (shm == NULL) {
    395 	shm_stat->status = NO_SEGMENT;
    396 	return NO_SEGMENT;
    397     }
    398 
    399     /*@-type@*//* splint is confused about struct timespec */
    400     shm_stat->tvc.tv_sec = shm_stat->tvc.tv_nsec = 0;
    401     {
    402 	time_t now;
    403 
    404 	time(&now);
    405 	shm_stat->tvc.tv_sec = now;
    406     }
    407 
    408     /* relying on word access to be atomic here */
    409     if (shm->valid == 0) {
    410 	shm_stat->status = NOT_READY;
    411 	return NOT_READY;
    412     }
    413 
    414     cnt = shm->count;
    415 
    416     /*
    417      * This is proof against concurrency issues if either
    418      * (a) the memory_barrier() call works on this host, or
    419      * (b) memset compiles to an uninterruptible single-instruction bitblt.
    420      */
    421     memory_barrier();
    422     memcpy(&shmcopy, (void*)(uintptr_t)shm, sizeof(struct shmTime));
    423     shm->valid = 0;
    424     memory_barrier();
    425 
    426     /*
    427      * Clash detection in case neither (a) nor (b) was true.
    428      * Not supported in mode 0, and word access to the count field
    429      * must be atomic for this to work.
    430      */
    431     if (shmcopy.mode > 0 && cnt != shm->count) {
    432 	shm_stat->status = CLASH;
    433 	return shm_stat->status;
    434     }
    435 
    436     shm_stat->status = OK;
    437     shm_stat->mode = shmcopy.mode;
    438 
    439     switch (shmcopy.mode) {
    440     case 0:
    441 	shm_stat->tvr.tv_sec	= shmcopy.receiveTimeStampSec;
    442 	shm_stat->tvr.tv_nsec	= shmcopy.receiveTimeStampUSec * 1000;
    443 	rns_new		= shmcopy.receiveTimeStampNSec;
    444 	shm_stat->tvt.tv_sec	= shmcopy.clockTimeStampSec;
    445 	shm_stat->tvt.tv_nsec	= shmcopy.clockTimeStampUSec * 1000;
    446 	cns_new		= shmcopy.clockTimeStampNSec;
    447 
    448 	/* Since the following comparisons are between unsigned
    449 	** variables they are always well defined, and any
    450 	** (signed) underflow will turn into very large unsigned
    451 	** values, well above the 1000 cutoff.
    452 	**
    453 	** Note: The usecs *must* be a *truncated*
    454 	** representation of the nsecs. This code will fail for
    455 	** *rounded* usecs, and the logic to deal with
    456 	** wrap-arounds in the presence of rounded values is
    457 	** much more convoluted.
    458 	*/
    459 	if (   ((cns_new - (unsigned)shm_stat->tvt.tv_nsec) < 1000)
    460 	       && ((rns_new - (unsigned)shm_stat->tvr.tv_nsec) < 1000)) {
    461 	    shm_stat->tvt.tv_nsec = cns_new;
    462 	    shm_stat->tvr.tv_nsec = rns_new;
    463 	}
    464 	/* At this point shm_stat->tvr and shm_stat->tvt contain valid ns-level
    465 	** timestamps, possibly generated by extending the old
    466 	** us-level timestamps
    467 	*/
    468 	break;
    469 
    470     case 1:
    471 
    472 	shm_stat->tvr.tv_sec	= shmcopy.receiveTimeStampSec;
    473 	shm_stat->tvr.tv_nsec	= shmcopy.receiveTimeStampUSec * 1000;
    474 	rns_new		= shmcopy.receiveTimeStampNSec;
    475 	shm_stat->tvt.tv_sec	= shmcopy.clockTimeStampSec;
    476 	shm_stat->tvt.tv_nsec	= shmcopy.clockTimeStampUSec * 1000;
    477 	cns_new		= shmcopy.clockTimeStampNSec;
    478 
    479 	/* See the case above for an explanation of the
    480 	** following test.
    481 	*/
    482 	if (   ((cns_new - (unsigned)shm_stat->tvt.tv_nsec) < 1000)
    483 	       && ((rns_new - (unsigned)shm_stat->tvr.tv_nsec) < 1000)) {
    484 	    shm_stat->tvt.tv_nsec = cns_new;
    485 	    shm_stat->tvr.tv_nsec = rns_new;
    486 	}
    487 	/* At this point shm_stat->tvr and shm_stat->tvt contains valid ns-level
    488 	** timestamps, possibly generated by extending the old
    489 	** us-level timestamps
    490 	*/
    491 	break;
    492 
    493     default:
    494 	shm_stat->status = BAD_MODE;
    495 	break;
    496     }
    497     /*@-type@*/
    498 
    499     /*
    500      * leap field is not a leap offset but a leap notification code.
    501      * The values are magic numbers used by NTP and set by GPSD, if at all, in
    502      * the subframe code.
    503      */
    504     shm_stat->leap = shmcopy.leap;
    505     shm_stat->precision = shmcopy.precision;
    506 
    507     return shm_stat->status;
    508 }
    509 
    510 /*
    511  * shm_timer - called once every second.
    512  *
    513  * This tries to grab a sample from the SHM segment, filtering bad ones
    514  */
    515 static void
    516 shm_timer(
    517 	int unit,
    518 	struct peer *peer
    519 	)
    520 {
    521 	struct refclockproc * const pp = peer->procptr;
    522 	struct shmunit *      const up = pp->unitptr;
    523 
    524 	volatile struct shmTime *shm;
    525 
    526 	l_fp tsrcv;
    527 	l_fp tsref;
    528 	int c;
    529 
    530 	/* for formatting 'a_lastcode': */
    531 	struct calendar cd;
    532 	time_t tt;
    533 	vint64 ts;
    534 
    535 	enum segstat_t status;
    536 	struct shm_stat_t shm_stat;
    537 
    538 	up->ticks++;
    539 	if ((shm = up->shm) == NULL) {
    540 		/* try to map again - this may succeed if meanwhile some-
    541 		body has ipcrm'ed the old (unaccessible) shared mem segment */
    542 		shm = up->shm = getShmTime(unit, up->forall);
    543 		if (shm == NULL) {
    544 			DPRINTF(1, ("%s: no SHM segment\n",
    545 				    refnumtoa(&peer->srcadr)));
    546 			return;
    547 		}
    548 	}
    549 
    550 	/* query the segment, atomically */
    551 	status = shm_query(shm, &shm_stat);
    552 
    553 	switch (status) {
    554 	case OK:
    555 	    DPRINTF(2, ("%s: SHM type %d sample\n",
    556 			refnumtoa(&peer->srcadr), shm_stat.mode));
    557 	    break;
    558 	case NO_SEGMENT:
    559 	    /* should never happen, but is harmless */
    560 	    return;
    561 	case NOT_READY:
    562 	    DPRINTF(1, ("%s: SHM not ready\n",refnumtoa(&peer->srcadr)));
    563 	    up->notready++;
    564 	    return;
    565 	case BAD_MODE:
    566 	    DPRINTF(1, ("%s: SHM type blooper, mode=%d\n",
    567 			refnumtoa(&peer->srcadr), shm->mode));
    568 	    up->bad++;
    569 	    msyslog (LOG_ERR, "SHM: bad mode found in shared memory: %d",
    570 		     shm->mode);
    571 	    return;
    572 	case CLASH:
    573 	    DPRINTF(1, ("%s: type 1 access clash\n",
    574 			refnumtoa(&peer->srcadr)));
    575 	    msyslog (LOG_NOTICE, "SHM: access clash in shared memory");
    576 	    up->clash++;
    577 	    return;
    578 	default:
    579 	    DPRINTF(1, ("%s: internal error, unknown SHM fetch status\n",
    580 			refnumtoa(&peer->srcadr)));
    581 	    msyslog (LOG_NOTICE, "internal error, unknown SHM fetch status");
    582 	    up->bad++;
    583 	    return;
    584 	}
    585 
    586 
    587 	/* format the last time code in human-readable form into
    588 	 * 'pp->a_lastcode'. Someone claimed: "NetBSD has incompatible
    589 	 * tv_sec". I can't find a base for this claim, but we can work
    590 	 * around that potential problem. BTW, simply casting a pointer
    591 	 * is a receipe for disaster on some architectures.
    592 	 */
    593 	tt = (time_t)shm_stat.tvt.tv_sec;
    594 	ts = time_to_vint64(&tt);
    595 	ntpcal_time_to_date(&cd, &ts);
    596 
    597 	/* add ntpq -c cv timecode in ISO 8601 format */
    598 	c = snprintf(pp->a_lastcode, sizeof(pp->a_lastcode),
    599 		     "%04u-%02u-%02uT%02u:%02u:%02u.%09ldZ",
    600 		     cd.year, cd.month, cd.monthday,
    601 		     cd.hour, cd.minute, cd.second,
    602 		     (long)shm_stat.tvt.tv_nsec);
    603 	pp->lencode = (c < sizeof(pp->a_lastcode)) ? c : 0;
    604 
    605 	/* check 1: age control of local time stamp */
    606 	tt = shm_stat.tvc.tv_sec - shm_stat.tvr.tv_sec;
    607 	if (tt < 0 || tt > up->max_delay) {
    608 		DPRINTF(1, ("%s:SHM stale/bad receive time, delay=%llds\n",
    609 			    refnumtoa(&peer->srcadr), (long long)tt));
    610 		up->bad++;
    611 		msyslog (LOG_ERR, "SHM: stale/bad receive time, delay=%llds",
    612 			 (long long)tt);
    613 		return;
    614 	}
    615 
    616 	/* check 2: delta check */
    617 	tt = shm_stat.tvr.tv_sec - shm_stat.tvt.tv_sec - (shm_stat.tvr.tv_nsec < shm_stat.tvt.tv_nsec);
    618 	if (tt < 0)
    619 		tt = -tt;
    620 	if (up->max_delta > 0 && tt > up->max_delta) {
    621 		DPRINTF(1, ("%s: SHM diff limit exceeded, delta=%llds\n",
    622 			    refnumtoa(&peer->srcadr), (long long)tt));
    623 		up->bad++;
    624 		msyslog (LOG_ERR, "SHM: difference limit exceeded, delta=%llds\n",
    625 			 (long long)tt);
    626 		return;
    627 	}
    628 
    629 	/* if we really made it to this point... we're winners! */
    630 	DPRINTF(2, ("%s: SHM feeding data\n",
    631 		    refnumtoa(&peer->srcadr)));
    632 	tsrcv = tspec_stamp_to_lfp(shm_stat.tvr);
    633 	tsref = tspec_stamp_to_lfp(shm_stat.tvt);
    634 	pp->leap = shm_stat.leap;
    635 	peer->precision = shm_stat.precision;
    636 	refclock_process_offset(pp, tsref, tsrcv, pp->fudgetime1);
    637 	up->good++;
    638 }
    639 
    640 /*
    641  * shm_clockstats - dump and reset counters
    642  */
    643 static void shm_clockstats(
    644 	int unit,
    645 	struct peer *peer
    646 	)
    647 {
    648 	struct refclockproc * const pp = peer->procptr;
    649 	struct shmunit *      const up = pp->unitptr;
    650 
    651 	UNUSED_ARG(unit);
    652 	if (pp->sloppyclockflag & CLK_FLAG4) {
    653 		mprintf_clock_stats(
    654 			&peer->srcadr, "%3d %3d %3d %3d %3d",
    655 			up->ticks, up->good, up->notready,
    656 			up->bad, up->clash);
    657 	}
    658 	up->ticks = up->good = up->notready = up->bad = up->clash = 0;
    659 }
    660 
    661 #else
    662 NONEMPTY_TRANSLATION_UNIT
    663 #endif /* REFCLOCK */
    664