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#if !defined(lint) && !defined(SABER)
static char sccsid[] = "@(#)ns_maint.c	4.39 (Berkeley) 3/2/91";
static char rcsid[] = "$Id: ns_maint.c,v 8.18 1996/09/22 00:13:10 vixie Exp $";
#endif /* not lint */

/*
 * ++Copyright++ 1986, 1988
 * -
 * Copyright (c) 1986, 1988
 *    The Regents of the University of California.  All rights reserved.
 * 
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 * 1. Redistributions of source code must retain the above copyright
 *    notice, this list of conditions and the following disclaimer.
 * 2. Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in the
 *    documentation and/or other materials provided with the distribution.
 * 3. All advertising materials mentioning features or use of this software
 *    must display the following acknowledgement:
 * 	This product includes software developed by the University of
 * 	California, Berkeley and its contributors.
 * 4. Neither the name of the University nor the names of its contributors
 *    may be used to endorse or promote products derived from this software
 *    without specific prior written permission.
 * 
 * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, 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.
 * -
 * Portions Copyright (c) 1993 by Digital Equipment Corporation.
 * 
 * Permission to use, copy, modify, and distribute this software for any
 * purpose with or without fee is hereby granted, provided that the above
 * copyright notice and this permission notice appear in all copies, and that
 * the name of Digital Equipment Corporation not be used in advertising or
 * publicity pertaining to distribution of the document or software without
 * specific, written prior permission.
 * 
 * THE SOFTWARE IS PROVIDED "AS IS" AND DIGITAL EQUIPMENT CORP. DISCLAIMS ALL
 * WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES
 * OF MERCHANTABILITY AND FITNESS.   IN NO EVENT SHALL DIGITAL EQUIPMENT
 * CORPORATION BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL
 * DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR
 * PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS
 * ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS
 * SOFTWARE.
 * -
 * --Copyright--
 */

#include <sys/param.h>
#include <sys/types.h>
#include <sys/socket.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#include <arpa/nameser.h>
#include <sys/wait.h>
#include <stdio.h>
#include <syslog.h>
#include <signal.h>
#include <errno.h>
#include <sys/stat.h>

#include "named.h"

#ifdef USE_UTIME
# include <utime.h>
#endif

static int		xfers_running,	/* # of xfers running */
			xfers_deferred,	/* # of needed xfers not run yet */
			qserials_running,
			alarm_pending,	/* flag */
			nxfers __P((struct zoneinfo *, int));

static void		startxfer __P((struct zoneinfo *)),
			abortxfer __P((struct zoneinfo *)),
			addxfer __P((struct zoneinfo *)),
			tryxfer __P((void));

#define	qserial_qfull()	(qserials_running == MAXQSERIAL)

#ifdef CLEANCACHE
static time_t cache_time;
#endif
#ifdef XSTATS
static time_t stats_time;
#endif
/*
 * Invoked at regular intervals by signal interrupt; refresh all secondary
 * zones from primary name server and remove old cache entries.
 */
void
ns_maint()
{
	register struct zoneinfo *zp;
	int zonenum;

	gettime(&tt);

	dprintf(1, (ddt, "\nns_maint(); now %s", ctimel(tt.tv_sec)));

	alarm_pending = 0;
	for (zp = zones, zonenum = 0; zp < &zones[nzones]; zp++, zonenum++) {
#ifdef DEBUG
		if (debug >= 2)
			printzoneinfo(zonenum);
#endif
		if (tt.tv_sec >= zp->z_time && zp->z_refresh > 0) {
			switch (zp->z_type) {

			case Z_CACHE:
				doachkpt();
				ns_refreshtime(zp, tt.tv_sec);
				break;

			case Z_SECONDARY:
#ifdef STUBS
			case Z_STUB:
#endif
				if (zp->z_serial != 0 &&
				    ((zp->z_lastupdate + zp->z_expire) <
				     tt.tv_sec)
				    ) {
					zp->z_serial = 0;
				}
				if (zp->z_flags &
				    (Z_NEED_RELOAD|Z_NEED_XFER|Z_QSERIAL)) {
					ns_refreshtime(zp, tt.tv_sec);
					break;
				}
				if (zp->z_flags & Z_XFER_RUNNING) {
					abortxfer(zp);
					break;
				}
				qserial_query(zp);
				break;
			}
			gettime(&tt);
		}
	}
#ifdef CLEANCACHE
	if ((cache_time + cache_interval) <= tt.tv_sec) {
		if (cache_time && (!NoRecurse || !NoFetchGlue))
			remove_zone(hashtab, 0, 0);
		cache_time = tt.tv_sec;
	}
#endif
#ifdef XSTATS
	if (stats_time + stats_interval <= tt.tv_sec) {
		if (stats_time)
			ns_logstats();
		stats_time = tt.tv_sec;
	}
#endif
	if (!needmaint)
		sched_maint();
	dprintf(1, (ddt, "exit ns_maint()\n"));
}

/*
 * Find when the next refresh needs to be and set
 * interrupt time accordingly.
 */
void
sched_maint()
{
	register struct zoneinfo *zp;
	struct itimerval ival;
#ifdef	CLEANCACHE
	time_t next_refresh = cache_time + cache_interval;
#else
	time_t next_refresh = 0;
#endif
	static time_t next_alarm;

	for (zp = zones; zp < &zones[nzones]; zp++)
		if (zp->z_time != 0 &&
		    (next_refresh == 0 || next_refresh > zp->z_time))
			next_refresh = zp->z_time;
        /*
	 *  Schedule the next call to ns_maint.
	 *  Don't visit any sooner than maint_interval.
	 */
	bzero((char *)&ival, sizeof ival);
	if (next_refresh != 0) {
		if (next_refresh == next_alarm && alarm_pending) {
			dprintf(1, (ddt, "sched_maint: no schedule change\n"));
			return;
		}
		/*
		 *  tv_sec can be an unsigned long, so we can't let
		 *  it go negative.
		 */
		if (next_refresh < tt.tv_sec)
			next_refresh = tt.tv_sec;
		ival.it_value.tv_sec = next_refresh - tt.tv_sec;
		if ((long) ival.it_value.tv_sec < maint_interval)
			ival.it_value.tv_sec = maint_interval;
		next_alarm = next_refresh;
		alarm_pending = 1;
	}
	(void) setitimer(ITIMER_REAL, &ival, (struct itimerval *)NULL);
	dprintf(1, (ddt, "sched_maint: Next interrupt in %lu sec\n",
		    (u_long)ival.it_value.tv_sec));
}

/*
 * Mark a zone "up to date" after named-xfer tells us this or we
 * discover it through the qserial_*() logic.
 */
static void
markUpToDate(zp)
	struct zoneinfo *zp;
{
	struct stat f_time;

	zp->z_flags &= ~Z_SYSLOGGED;
	zp->z_lastupdate = tt.tv_sec;
	ns_refreshtime(zp, tt.tv_sec);
	/*
	 * Restore Z_AUTH in case expired,
	 * but only if there were no errors
	 * in the zone file.
	 */
	if ((zp->z_flags & Z_DB_BAD) == 0)
		zp->z_flags |= Z_AUTH;
	if (zp->z_source) {
#if defined(USE_UTIME)
		struct utimbuf t;

		t.actime = tt.tv_sec;
		t.modtime = tt.tv_sec;
		(void) utime(zp->z_source, &t);
#else
		struct timeval t[2];

		t[0] = tt;
		t[1] = tt;
		(void) utimes(zp->z_source, t);
#endif /* USE_UTIME */
	}
	/* we use "stat" to set zp->z_ftime instead of just
	   setting it to tt.tv_sec in order to avoid any
	   possible rounding problems in utimes(). */
	if (stat(zp->z_source, &f_time) != -1)
		zp->z_ftime = f_time.st_mtime;
	/* XXX log if stat fails? */
}

/*
 * Query for the serial number of a zone, so that
 * we can check to see if we need to transfer it.
 */
void
qserial_query(zp)
	struct zoneinfo *zp;
{
	struct qinfo *qp;

	dprintf(1, (ddt, "qserial_query(%s)\n", zp->z_origin));

	if (qserial_qfull())
		return;

	qp = sysquery(zp->z_origin, zp->z_class, T_SOA,
		      zp->z_addr, zp->z_addrcnt, QUERY);
	if (!qp) {
		syslog(LOG_INFO, "qserial_query(%s): sysquery FAILED",
		       zp->z_origin);
		return;		/* XXX - this is bad, we should do something */
	}
	qp->q_flags |= Q_ZSERIAL;
	qp->q_zquery = zp;
	zp->z_flags |= Z_QSERIAL;
	ns_refreshtime(zp, tt.tv_sec);
	qserials_running++;
	dprintf(1, (ddt, "qserial_query(%s) QUEUED\n", zp->z_origin));
}

void
qserial_answer(qp, serial)
	struct qinfo *qp;
	u_int32_t serial;
{
	struct zoneinfo *zp = qp->q_zquery;
	int was_qfull = qserial_qfull();

	dprintf(1, (ddt, "qserial_answer(%s, %lu)\n",
		    zp->z_origin, (u_long)serial));
	zp->z_flags &= ~Z_QSERIAL;
	qp->q_flags &= ~Q_ZSERIAL;	/* keeps us from being called twice */
	qserials_running--;
	if (serial == 0) {
		/* an error occurred, or the query timed out.
		 */
#ifdef GETSER_LOGGING
		syslog(GETSER_LOGGING, "Err/TO getting serial# for \"%s\"",
		       zp->z_origin);
#endif /* GETSER_LOGGING */
		addxfer(zp);
	} else if (SEQ_GT(serial, zp->z_serial) || !zp->z_serial) {
		dprintf(1, (ddt, "qserial_answer: zone is out of date\n"));
		zp->z_xaddr = from_addr.sin_addr; /* don't use qp->q_from */
		addxfer(zp);
	} else if (SEQ_GT(zp->z_serial, serial)) {
		if (!haveComplained((char*)zp, "went backward")) {
			syslog(LOG_NOTICE,
   "Zone \"%s\" (class %d) SOA serial# (%lu) rcvd from [%s] is < ours (%lu)\n",
			       zp->z_origin, zp->z_class, (u_long)serial,
			       inet_ntoa(from_addr.sin_addr),
			       (u_long)zp->z_serial);
		}
	} else {
		dprintf(1, (ddt, "qserial_answer: zone serial is still OK\n"));
		markUpToDate(zp);
	}
	if (was_qfull)
		needmaint = 1;
}

/*
 * Hold and release SIGCHLD
 */
#ifdef POSIX_SIGNALS
static sigset_t sset;
#else
#ifndef SYSV
static int omask;
#endif
#endif /* POSIX_SIGNALS */

void holdsigchld()
{
#ifdef POSIX_SIGNALS
	sigemptyset(&sset);
	sigaddset(&sset,SIGCHLD);
	sigprocmask(SIG_BLOCK,&sset,NULL);
#else  /* POSIX_SIGNALS */
#ifndef SYSV
	omask = sigblock(sigmask(SIGCHLD));
#else  /* SYSV */
	/* XXX - out of luck? */
#endif /* SYSV */
#endif /* POSIX_SIGNALS */
}
	
void releasesigchld()
{
#ifdef POSIX_SIGNALS
	sigprocmask(SIG_UNBLOCK,&sset,NULL);
#else
#ifndef SYSV
	(void) sigsetmask(omask);
#endif
#endif /* POSIX_SIGNALS */
}

	/* State of all running zone transfers */
static struct {
	pid_t 	xfer_pid;
	int	xfer_state; /* see below */
#ifdef sequent
	union wait xfer_status;
#else
	int	xfer_status;
#endif
} xferstatus[MAX_XFERS_RUNNING];
#define XFER_IDLE	0
#define XFER_RUNNING	1
#define XFER_DONE	2

/*
 * Start an asynchronous zone transfer for a zone.
 * Depends on current time being in tt.
 * The caller must call sched_maint after startxfer.
 */
static void
startxfer(zp)
	struct zoneinfo *zp;
{
	char *argv[NSMAX + 20], argv_ns[NSMAX][MAXDNAME];
	int argc = 0, argc_ns = 0, pid, i;
	unsigned int cnt;
	char debug_str[10];
	char serial_str[10];
	char port_str[10];
#ifdef GEN_AXFR
	char class_str[10];
#endif

	dprintf(1, (ddt, "startxfer() %s\n", zp->z_origin));

	argv[argc++] = _PATH_XFER;
	argv[argc++] = "-z";
	argv[argc++] = zp->z_origin;
	argv[argc++] = "-f";
	argv[argc++] = zp->z_source;
	argv[argc++] = "-s";
	sprintf(serial_str, "%lu", (u_long)zp->z_serial);
	argv[argc++] = serial_str;
#ifdef GEN_AXFR
	argv[argc++] = "-C";
	sprintf(class_str, "%d", zp->z_class);
	argv[argc++] = class_str;
#endif
 	if (zp->z_flags & Z_SYSLOGGED)
		argv[argc++] = "-q";
	argv[argc++] = "-P";
	sprintf(port_str, "%d", ns_port);
	argv[argc++] = port_str;
#ifdef STUBS
	if (zp->z_type == Z_STUB)
		argv[argc++] = "-S";
#endif
#ifdef DEBUG
	if (debug) {
		argv[argc++] = "-d";
		sprintf(debug_str, "%d", debug);
		argv[argc++] = debug_str;
		argv[argc++] = "-l";
		argv[argc++] = _PATH_XFERDDT;
		if (debug > 5) {
			argv[argc++] = "-t";
			argv[argc++] = _PATH_XFERTRACE;
		}
	}
#endif
	
	if (zp->z_xaddr.s_addr != 0) {
		/* Address was specified by the qserial logic, use it. */
		argv[argc++] = strcpy(argv_ns[argc_ns++],
				      inet_ntoa(zp->z_xaddr));
	} else {
		/*
		 * Copy the server ip addresses into argv, after converting
		 * to ascii and saving the static inet_ntoa result.
		 */
		for (cnt = 0;  cnt < zp->z_addrcnt;  cnt++) {
			struct in_addr a;

			a = zp->z_addr[cnt];
			if (aIsUs(a) &&
			    !haveComplained(zp->z_origin, (char*)startxfer)) {
				syslog(LOG_NOTICE,
				   "attempted to fetch zone %s from self (%s)",
				       zp->z_origin, inet_ntoa(a));
				continue;
			}
			argv[argc++] = strcpy(argv_ns[argc_ns++],
					      inet_ntoa(a));
		}
        }

	argv[argc] = 0;

#ifdef DEBUG
	if (debug) {
		for (i = 0; i < argc; i++) 
			fprintf(ddt, " %s", argv[i]);
		fprintf(ddt, "\n");
        }
#endif /* DEBUG */

	gettime(&tt);
	holdsigchld();
	for (i = 0; i < MAX_XFERS_RUNNING; i++) {
		if (xferstatus[i].xfer_pid == 0) {
			xferstatus[i].xfer_state = XFER_RUNNING;
			break;
		}
	}
	if ((pid = vfork()) == -1) {
		syslog(LOG_ERR, "xfer vfork: %m");
		releasesigchld();
		zp->z_time = tt.tv_sec + 10;
		return;
	}

	if (pid == 0) {
		/* Child. */
		execv(_PATH_XFER, argv);
		syslog(LOG_ERR, "can't exec %s: %m", _PATH_XFER);
		_exit(XFER_FAIL);	/* Avoid duplicate buffer flushes. */
	}
	/* Parent. */
	xferstatus[i].xfer_pid = pid;  /* XXX - small race condition here if we
					* can't hold signals */
	dprintf(1, (ddt, "started xfer child %d\n", pid));
	zp->z_flags &= ~Z_NEED_XFER;
	zp->z_flags |= Z_XFER_RUNNING;
	zp->z_xferpid = pid;
	xfers_running++;
	zp->z_time = tt.tv_sec + MAX_XFER_TIME;
	releasesigchld();
}

const char *
zoneTypeString(zp)
	const struct zoneinfo *zp;
{
	static char ret[sizeof "(4294967296?)"];	/* 2^32 */

	switch (zp->z_type) {
	case Z_PRIMARY:		return ("primary");
	case Z_SECONDARY:	return ("secondary");
#ifdef STUBS
	case Z_STUB:		return ("stub");
#endif
	case Z_CACHE:		return ("cache");
	default:
		sprintf(ret, "(%lu?)", (u_long)zp->z_type);
		return (ret);
	}
}

#ifdef DEBUG
void
printzoneinfo(zonenum)
	int zonenum;
{
	struct timeval  tt;
	struct zoneinfo *zp = &zones[zonenum];

	if (!debug)
		return;

	if (!zp->z_origin)
		return;

	fprintf(ddt, "printzoneinfo(%d):\n", zonenum);

	gettime(&tt);
	fprintf(ddt, "origin ='%s'", zp->z_origin[0] ? zp->z_origin : ".");
#ifdef GEN_AXFR
	fprintf(ddt, ", class = %d", zp->z_class);
#endif
 	fprintf(ddt, ", type = %s", zoneTypeString(zp));
	if (zp->z_source)
		fprintf(ddt,", source = %s\n", zp->z_source);
	fprintf(ddt, "z_refresh = %lu", (u_long)zp->z_refresh);
	fprintf(ddt, ", retry = %lu", (u_long)zp->z_retry);
	fprintf(ddt, ", expire = %lu", (u_long)zp->z_expire);
	fprintf(ddt, ", minimum = %lu", (u_long)zp->z_minimum);
	fprintf(ddt, ", serial = %lu\n", (u_long)zp->z_serial);
	fprintf(ddt, "z_time = %lu", (u_long)zp->z_time);
	if (zp->z_time) {
		fprintf(ddt, ", now time : %lu sec", (u_long)tt.tv_sec);
		fprintf(ddt, ", time left: %lu sec",
			(u_long)(zp->z_time - tt.tv_sec));
	}
	fprintf(ddt, "; flags %lx\n", (u_long)zp->z_flags);
}
#endif /* DEBUG */

/*
 * remove_zone (htp, zone) --
 *     Delete all RR's in the zone "zone" under specified hash table.
 */
void
#ifdef CLEANCACHE
remove_zone(htp, zone, all)
#else
remove_zone(htp, zone)
#endif
	register struct hashbuf *htp;
	register int zone;
#ifdef	CLEANCACHE
	register int all;
#endif
{
	register struct databuf *dp, *pdp;
	register struct namebuf *np, *pnp, *npn;
	struct namebuf **npp, **nppend;

	nppend = htp->h_tab + htp->h_size;
	for (npp = htp->h_tab; npp < nppend; npp++) {
		for (pnp = NULL, np = *npp; np != NULL; np = npn) {
			for (pdp = NULL, dp = np->n_data; dp != NULL; NULL) {
				if (dp->d_zone == zone
#ifdef CLEANCACHE
				    && (all || stale(dp))
#endif
				    ) {
					dp = rm_datum(dp, np, pdp);
				} else {
					pdp = dp;
					dp = dp->d_next;
				}
			} /*for(pdp)*/

			if (np->n_hash) {
				/* call recursively to remove subdomains. */
				remove_zone(np->n_hash, zone
#ifdef CLEANCACHE
					    , all
#endif
					    );

				/* if now empty, free it */
				if (np->n_hash->h_cnt == 0) {
					free((char*)np->n_hash);
					np->n_hash = NULL;
				}
			}

			if ((np->n_hash == NULL) && (np->n_data == NULL)) {
				npn = rm_name(np, npp, pnp);
				htp->h_cnt--;
			} else {
				npn = np->n_next;
				pnp = np;
			}
		} /*for(pnp)*/
	} /*for(npp)*/
}

#ifdef PURGE_ZONE
static void purge_z_2 __P((struct hashbuf *, int));
static bottom_of_zone __P((struct databuf *, int));

void
purge_zone(dname, htp, class)
	const char *dname;
	register struct hashbuf *htp;
	int class;
{
	const char *fname;
	struct databuf *dp, *pdp;
	struct namebuf *np;
	struct hashbuf *phtp = htp;

	dprintf(1, (ddt, "purge_zone(%s,%d)\n", dname, class));
	if ((np = nlookup(dname, &phtp, &fname, 0)) && dname == fname &&
	    !ns_wildcard(NAME(*np))) {
		for (pdp = NULL, dp = np->n_data; dp != NULL; ) {
			if (dp->d_class == class)
				dp = rm_datum(dp, np, pdp);
			else {
				pdp = dp;
				dp = dp->d_next;
			}
		}

		if (np->n_hash) {
			purge_z_2(np->n_hash, class);
			if (np->n_hash->h_cnt == 0) {
				free((char*)np->n_hash);
				np->n_hash = NULL;
			}
		}
		
		/* remove entry from cache, if required */
		if ((np->n_hash == NULL) && (np->n_data == NULL)) {
			struct namebuf **npp, **nppend;
			struct namebuf *npn, *pnp, *nnp;

			dprintf(3,(ddt, "purge_zone: cleaning cache\n"));

			/* walk parent hashtable looking for ourself */
			if (np->n_parent)
				phtp = np->n_parent->n_hash;
			else 
				phtp = htp; /* top / root zone */

			if (phtp) {
				nppend = phtp->h_tab + phtp->h_size;
				for (npp = phtp->h_tab; npp < nppend; npp++) {
				    for (pnp = NULL, nnp = *npp;
					 nnp != NULL;
					 nnp = npn) {
					    if (nnp == np) {
						    dprintf(3, (ddt,
					       "purge_zone: found our selves\n"
								));
						    npn = rm_name(nnp,npp,pnp);
						    phtp->h_cnt--;
					    } else {
						    npn = nnp->n_next;
						    pnp = nnp;
					    }
				    }
				}
			}
		}
	}
}

static void
purge_z_2(htp, class)
	register struct hashbuf *htp;
	register int class;
{
	register struct databuf *dp, *pdp;
	register struct namebuf *np, *pnp, *npn;
	struct namebuf **npp, **nppend;

	nppend = htp->h_tab + htp->h_size;
	for (npp = htp->h_tab; npp < nppend; npp++) {
		for (pnp = NULL, np = *npp; np != NULL; np = npn) {
			if (!bottom_of_zone(np->n_data, class)) {
				for (pdp = NULL, dp = np->n_data; dp != NULL; ) {
					if (dp->d_class == class)
						dp = rm_datum(dp, np, pdp);
					else {
						pdp = dp;
						dp = dp->d_next;
					}
				}
				if (np->n_hash) {
					/* call recursively to rm subdomains */
					purge_z_2(np->n_hash, class);

					/* if now empty, free it */
					if (np->n_hash->h_cnt == 0) {
						free((char*)np->n_hash);
						np->n_hash = NULL;
					}
				}
			}

			if ((np->n_hash == NULL) && (np->n_data == NULL)) {
				npn = rm_name(np, npp, pnp);
				htp->h_cnt--;
			} else {
				npn = np->n_next;
				pnp = np;
			}
		}
	}
}

static int
bottom_of_zone(dp, class)
	struct databuf *dp;
	int class;
{
	for ( ; dp ; dp = dp->d_next) {
		if (dp->d_class != class)
			continue;
		if (dp->d_zone == 0)
			continue;
#ifdef NCACHE
		if (dp->d_rcode)	/* this should not occur */
			continue;
#endif
		if (dp->d_type == T_SOA)
			return (1);
	}
	dprintf(3, (ddt, "bottom_of_zone() == 0\n"));
	return (0);
}
#endif
   
/*
 * Handle XFER limit for a nameserver.
 */
static int
nxfers(zp, delta)
	struct zoneinfo *zp;
	int delta;
{
	struct in_addr nsa;
	struct nameser *nsp;
	int ret;

	if (zp->z_xaddr.s_addr)
		nsa = zp->z_xaddr;	/* qserial overrode address */
	else if (!zp->z_addrcnt)
		return (-1);
	else
		nsa = zp->z_addr[0];	/* first ns holds zone's xfer limit */

	if (!(nsp = nameserFind(nsa, NS_F_INSERT)))
		return (-1);		/* probably ENOMEM */

	ret = nsp->xfers;
	if (delta < 0 && -delta > ret)
		return (-1);		/* taking more than we have */

	nsp->xfers += delta;
	return (ret);
}

/*
 * Abort an xfer that has taken too long.
 */
static void
abortxfer(zp)
	struct zoneinfo *zp;
{
	if (zp->z_flags & (Z_XFER_GONE|Z_XFER_ABORTED)) {
		int i;

		for (i = 0; i < MAX_XFERS_RUNNING; i++) {
			if (xferstatus[i].xfer_pid == zp->z_xferpid) {
				xferstatus[i].xfer_pid = 0;
				xferstatus[i].xfer_state = XFER_IDLE;
				break;
			}
		}

		if (zp->z_flags & Z_XFER_GONE)
			syslog(LOG_WARNING,
			   "zone transfer timeout for \"%s\"; pid %lu missing",
			       zp->z_origin, (u_long)zp->z_xferpid);
		else if (kill(zp->z_xferpid, SIGKILL) == -1)
			syslog(LOG_WARNING,
			  "zone transfer timeout for \"%s\"; kill pid %lu: %m",
			       zp->z_origin, (u_long)zp->z_xferpid);
		else
			syslog(LOG_WARNING,
"zone transfer timeout for \"%s\"; second kill\
pid %lu - forgetting, processes may accumulate",
			       zp->z_origin, (u_long)zp->z_xferpid);

		zp->z_xferpid = 0;
		xfers_running--;
		(void)nxfers(zp, -1);
		zp->z_flags &= ~(Z_XFER_RUNNING|Z_XFER_ABORTED|Z_XFER_GONE);
	} else if (kill(zp->z_xferpid, SIGKILL) == -1) {
		if (errno == ESRCH)
			/* No warning on first time, it may have just exited */
			zp->z_flags |= Z_XFER_GONE;
		else {
			syslog(LOG_WARNING,
		    "zone transfer timeout for \"%s\"; pid %lu kill failed %m",
			       zp->z_origin, (u_long)zp->z_xferpid);
			zp->z_flags |= Z_XFER_ABORTED;
		}
	} else {
		syslog(LOG_NOTICE,
		       "zone transfer timeout for \"%s\"; pid %lu killed",
		       zp->z_origin, (u_long)zp->z_xferpid);
		zp->z_flags |= Z_XFER_ABORTED;
	}
}

/*
 * SIGCHLD signal handler: process exit of xfer's.
 * (Note: also called when outgoing transfer completes.)
 */
SIG_FN
reapchild()
{
	int pid, i, save_errno;
#if defined(sequent)
	union wait status;
#else
	int status;
#endif /* sequent */

#if defined(MUST_REARM_SIGS)
	(void)signal(SIGCLD, (SIG_FN (*)()) reapchild);
#endif
	save_errno = errno;
	gettime(&tt);
#if defined(USE_WAITPID)
	while ((pid = waitpid(-1, &status, WNOHANG)) > 0) {
#else /* USE_WAITPID */
	{
		pid = wait(&status);
#endif /* USE_WAITPID */
		for (i = 0; i < MAX_XFERS_RUNNING; i++) {
			if (xferstatus[i].xfer_pid == pid) {
				xferstatus[i].xfer_status = status;
				xferstatus[i].xfer_state = XFER_DONE;
				needendxfer++;
				break;
			}
		}
	}
	errno = save_errno;
}

/*
 * Finish processing of of finished xfers
 */
void
endxfer()
{
    	register struct zoneinfo *zp;   
	int exitstatus, pid, i;
#if defined(sequent)
	union wait status;
#else
	int status;
#endif /* sequent */

	gettime(&tt);

	for (i = 0; i < MAX_XFERS_RUNNING; i++) {
		if (xferstatus[i].xfer_state != XFER_DONE)
			continue;
		pid = xferstatus[i].xfer_pid;
		status = xferstatus[i].xfer_status;
		exitstatus = WIFEXITED(status) ?WEXITSTATUS(status) :0;

		for (zp = zones; zp < &zones[nzones]; zp++) {
			if (zp->z_xferpid != pid)
				continue;
			xfers_running--;
			(void) nxfers(zp, -1);
			zp->z_xferpid = 0;
			zp->z_flags &=
				~(Z_XFER_RUNNING|Z_XFER_ABORTED|Z_XFER_GONE);
			dprintf(1, (ddt,
		 "\nendxfer: child %d zone %s returned status=%d termsig=%d\n",
				    pid, zp->z_origin, exitstatus,
				    WIFSIGNALED(status) ?WTERMSIG(status) :-1
				    )
				);
			if (WIFSIGNALED(status)) {
				if (WTERMSIG(status) != SIGKILL) {
					syslog(LOG_NOTICE,
				  "named-xfer \"%s\" exited with signal %d\n",
					  zp->z_origin[0]?zp->z_origin:".",
					  WTERMSIG(status));
				}
				ns_retrytime(zp, tt.tv_sec);
			} else {
				switch (exitstatus) {
				case XFER_UPTODATE:
					markUpToDate(zp);
					break;

				case XFER_SUCCESS:
					/* XXX should incorporate loadxfer() */
					zp->z_flags |= Z_NEED_RELOAD;
					zp->z_flags &= ~Z_SYSLOGGED;
					needzoneload++;
					break;

				case XFER_TIMEOUT:
					if (!(zp->z_flags & Z_SYSLOGGED)) {
						zp->z_flags |= Z_SYSLOGGED;
						syslog(LOG_NOTICE,
		      "zoneref: Masters for secondary zone \"%s\" unreachable",
						       zp->z_origin);
					}
					ns_retrytime(zp, tt.tv_sec);
					break;

				default:
					if (!(zp->z_flags & Z_SYSLOGGED)) {
						zp->z_flags |= Z_SYSLOGGED;
						syslog(LOG_NOTICE,
					     "named-xfer for \"%s\" exited %d",
						       zp->z_origin,
						       exitstatus);
					}
					/* FALLTHROUGH */
				case XFER_FAIL:
					zp->z_flags |= Z_SYSLOGGED;
					ns_retrytime(zp, tt.tv_sec);
					break;
				}
				break;
			}
		}
		xferstatus[i].xfer_state = XFER_IDLE;
		xferstatus[i].xfer_pid = 0;
	}
	releasesigchld();
	tryxfer();
}

/*
 * Try to start some xfers - new "fair scheduler" by Bob Heiney @DEC (1995)
 */
static void
tryxfer() {
	static struct zoneinfo *zp = NULL;
	static struct zoneinfo *lastzones = NULL;
	static int lastnzones = 0;
	struct zoneinfo *startzp, *stopzp;

	/* initialize, and watch out for changes in zones! */
	if (lastzones != zones) {
		if (lastzones != NULL)
			syslog(LOG_INFO, "zones changed: %p != %p",
			       lastzones, zones);
		lastzones = zones;
		zp = zones;
	}

	/* did zones shrink? */
	if (lastnzones > nzones) {
		syslog(LOG_INFO, "zones shrunk");
		zp = zones;
	}
	lastnzones = nzones;
    
	if (zp == zones)
		stopzp = &zones[nzones-1];
	else
		stopzp = zp - 1;

	dprintf(3, (ddt, "tryxfer start zp=%p stopzp=%p def=%d running=%d\n",
		    zp, stopzp, xfers_deferred, xfers_running));

	startzp = zp;
	for (;;) {
		int xfers;

		if (!xfers_deferred || xfers_running >= max_xfers_running)
			break;
		
		if ((xfers = nxfers(zp, 0)) != -1 &&
		    xfers < max_xfers_per_ns &&
		    (zp->z_flags & Z_NEED_XFER)) {
			nxfers(zp, 1);
			xfers_deferred--;
			startxfer(zp);
		}

		if (zp == stopzp) {
			dprintf(3, (ddt, "tryxfer stop mark\n"));
			zp = startzp;
			break;
		}

		zp++;
		/* wrap around? */
		if (zp == &zones[nzones])
			zp = zones;
	}
	dprintf(3, (ddt, "tryxfer stop zp=%p\n", zp));

	if (!needmaint)
		sched_maint();
}

/*
 * Reload zones whose transfers have completed.
 */
void
loadxfer() {
    	register struct zoneinfo *zp;   

	gettime(&tt);
	for (zp = zones; zp < &zones[nzones]; zp++) {
		if (zp->z_flags & Z_NEED_RELOAD) {
			dprintf(1, (ddt, "loadxfer() \"%s\"\n",
				    zp->z_origin[0] ? zp->z_origin : "."));
			zp->z_flags &= ~(Z_NEED_RELOAD|Z_AUTH);
			remove_zone(hashtab, zp - zones
#ifdef CLEANCACHE
				    , 1
#endif
				    );
#ifdef PURGE_ZONE
			purge_zone(zp->z_origin, hashtab, zp->z_class);
#endif
			if (!db_load(zp->z_source, zp->z_origin, zp, NULL))
				zp->z_flags |= Z_AUTH;
			if (zp->z_flags & Z_TMP_FILE)
				(void) unlink(zp->z_source);
		}
	}
	if (!needmaint)
		sched_maint();
}

/*
 * Add this zone to the set of those needing transfers.
 */
static void
addxfer(zp)
	struct zoneinfo *zp;
{
	if (!(zp->z_flags & Z_NEED_XFER)) {
		zp->z_flags |= Z_NEED_XFER;
		xfers_deferred++;
		tryxfer();
	}
}
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