NetBSD/dist/ntp/arlib/arlib.c

1059 lines
22 KiB
C

/* $NetBSD: arlib.c,v 1.2 2003/12/04 16:23:34 drochner Exp $ */
/*
* arlib.c (C)opyright 1993 Darren Reed. All rights reserved.
* This file may not be distributed without the author's permission in any
* shape or form. The author takes no responsibility for any damage or loss
* of property which results from the use of this software.
*/
#ifndef lint
static char sccsid[] = "@(#)arlib.c 1.9 6/5/93 (C)opyright 1992 Darren \
Reed. ASYNC DNS";
#endif
#include <stdio.h>
#include <fcntl.h>
#include <signal.h>
#include <sys/types.h>
#include <sys/time.h>
#include <sys/socket.h>
#include <netinet/in.h>
#include "netdb.h"
#include "arpa/nameser.h"
#include <resolv.h>
#include "arlib.h"
#include "arplib.h"
extern int errno, h_errno;
static char ar_hostbuf[65], ar_domainname[65];
static char ar_dot[] = ".";
static int ar_resfd = -1, ar_vc = 0;
static struct reslist *ar_last, *ar_first;
/*
* Statistics structure.
*/
static struct resstats {
int re_errors;
int re_nu_look;
int re_na_look;
int re_replies;
int re_requests;
int re_resends;
int re_sent;
int re_timeouts;
} ar_reinfo;
static int do_query_name(/* struct resinfo *, char *, struct reslist * */);
static int do_query_number(/* struct resinfo *, char *, struct reslist * */);
static int ar_resend_query(/* struct reslist * */);
/*
* ar_init
*
* Initializes the various ARLIB internal varilables and related DNS
* options for res_init().
*
* Returns 0 or the socket opened for use with talking to name servers
* if 0 is passed or ARES_INITSOCK is set.
*/
int ar_init(op)
int op;
{
int ret = 0;
if (op & ARES_INITLIST)
{
bzero(&ar_reinfo, sizeof(ar_reinfo));
ar_first = ar_last = NULL;
}
if (op & ARES_CALLINIT && !(_res.options & RES_INIT))
{
ret = res_init();
(void)strcpy(ar_domainname, ar_dot);
(void)strncat(ar_domainname, _res.defdname,
sizeof(ar_domainname)-2);
}
if (op & ARES_INITSOCK)
ret = ar_resfd = ar_open();
if (op & ARES_INITDEBG)
_res.options |= RES_DEBUG;
if (op == 0)
ret = ar_resfd;
return ret;
}
/*
* ar_open
*
* Open a socket to talk to a name server with.
* Check _res.options to see if we use a TCP or UDP socket.
*/
int ar_open()
{
if (ar_resfd == -1)
{
if (_res.options & RES_USEVC)
{
struct sockaddr_in *sip;
int i;
sip = _res.NS_ADDR_LIST; /* was _res.nsaddr_list */
ar_vc = 1;
ar_resfd = socket(AF_INET, SOCK_STREAM, 0);
/*
* Try each name server listed in sequence until we
* succeed or run out.
*/
while (connect(ar_resfd, (struct sockaddr *)sip++,
sizeof(struct sockaddr)))
{
(void)close(ar_resfd);
ar_resfd = -1;
if (i >= _res.nscount)
break;
ar_resfd = socket(AF_INET, SOCK_STREAM, 0);
}
}
else
ar_resfd = socket(AF_INET, SOCK_DGRAM, 0);
}
if (ar_resfd >= 0)
{ /* Need one of these two here - and it MUST work!! */
int flags;
if ((flags = fcntl(ar_resfd, F_GETFL, 0)) != -1)
#ifdef O_NONBLOCK
if (fcntl(ar_resfd, F_SETFL, flags|O_NONBLOCK) == -1)
#else
# ifdef O_NDELAY
if (fcntl(ar_resfd, F_SETFL, flags|O_NDELAY) == -1)
# else
# ifdef FNDELAY
if (fcntl(ar_resfd, F_SETFL, flags|FNDELAY) == -1)
# endif
# endif
#endif
{
(void)close(ar_resfd);
ar_resfd = -1;
}
}
return ar_resfd;
}
/*
* ar_close
*
* Closes and flags the ARLIB socket as closed.
*/
void ar_close()
{
(void)close(ar_resfd);
ar_resfd = -1;
return;
}
/*
* ar_add_request
*
* Add a new DNS query to the end of the query list.
*/
static int ar_add_request(new)
struct reslist *new;
{
if (!new)
return -1;
if (!ar_first)
ar_first = ar_last = new;
else {
ar_last->re_next = new;
ar_last = new;
}
new->re_next = NULL;
ar_reinfo.re_requests++;
return 0;
}
/*
* ar_remrequest
*
* Remove a request from the list. This must also free any memory that has
* been allocated for temporary storage of DNS results.
*
* Returns -1 if there are anyy problems removing the requested structure
* or 0 if the remove is successful.
*/
static int ar_remrequest(old)
struct reslist *old;
{
register struct reslist *rptr, *r2ptr;
register char **s;
if (!old)
return -1;
for (rptr = ar_first, r2ptr = NULL; rptr; rptr = rptr->re_next)
{
if (rptr == old)
break;
r2ptr = rptr;
}
if (!rptr)
return -1;
if (rptr == ar_first)
ar_first = ar_first->re_next;
else if (rptr == ar_last)
{
if (ar_last = r2ptr)
ar_last->re_next = NULL;
}
else
r2ptr->re_next = rptr->re_next;
if (!ar_first)
ar_last = ar_first;
#ifdef ARLIB_DEBUG
ar_dump_hostent("ar_remrequest:", rptr->re_he);
#endif
if (rptr->re_he.h_name)
(void)free(rptr->re_he.h_name);
if (s = rptr->re_he.h_aliases)
for (; *s; s++)
(void)free(*s);
if (rptr->re_rinfo.ri_ptr)
(void)free(rptr->re_rinfo.ri_ptr);
(void)free(rptr);
return 0;
}
/*
* ar_make_request
*
* Create a DNS query recorded for the request being made and place it on the
* current list awaiting replies. Initialization of the record with set
* values should also be done.
*/
static struct reslist *ar_make_request(resi)
register struct resinfo *resi;
{
register struct reslist *rptr;
register struct resinfo *rp;
rptr = (struct reslist *)calloc(1, sizeof(struct reslist));
rp = &rptr->re_rinfo;
rptr->re_next = NULL; /* where NULL is non-zero ;) */
rptr->re_sentat = time(NULL);
rptr->re_retries = _res.retry;
rptr->re_sends = 1;
rptr->re_resend = 1;
rptr->re_timeout = rptr->re_sentat + _res.retrans;
rptr->re_he.h_name = NULL;
rptr->re_he.h_addrtype = AF_INET;
rptr->re_he.h_aliases[0] = NULL;
rp->ri_ptr = resi->ri_ptr;
rp->ri_size = resi->ri_size;
(void)ar_add_request(rptr);
return rptr;
}
/*
* ar_timeout
*
* Remove queries from the list which have been there too long without
* being resolved.
*/
long ar_timeout(now, info, size)
time_t now;
char *info;
int size;
{
register struct reslist *rptr, *r2ptr;
register long next = 0;
for (rptr = ar_first, r2ptr = NULL; rptr; rptr = r2ptr)
{
r2ptr = rptr->re_next;
if (now >= rptr->re_timeout)
{
/*
* If the timeout for the query has been exceeded,
* then resend the query if we still have some
* 'retry credit' and reset the timeout. If we have
* used it all up, then remove the request.
*/
if (--rptr->re_retries <= 0)
{
ar_reinfo.re_timeouts++;
if (info && rptr->re_rinfo.ri_ptr)
bcopy(rptr->re_rinfo.ri_ptr, info,
MIN(rptr->re_rinfo.ri_size,
size));
(void)ar_remrequest(rptr);
return now;
}
else
{
rptr->re_sends++;
rptr->re_sentat = now;
rptr->re_timeout = now + _res.retrans;
(void)ar_resend_query(rptr);
}
}
if (!next || rptr->re_timeout < next)
next = rptr->re_timeout;
}
return next;
}
/*
* ar_send_res_msg
*
* When sending queries to nameservers listed in the resolv.conf file,
* don't send a query to every one, but increase the number sent linearly
* to match the number of resends. This increase only occurs if there are
* multiple nameserver entries in the resolv.conf file.
* The return value is the number of messages successfully sent to
* nameservers or -1 if no successful sends.
*/
static int ar_send_res_msg(msg, len, rcount)
char *msg;
int len, rcount;
{
register int i;
int sent = 0;
if (!msg)
return -1;
rcount = (_res.nscount > rcount) ? rcount : _res.nscount;
if (_res.options & RES_PRIMARY)
rcount = 1;
if (ar_vc)
{
ar_reinfo.re_sent++;
sent++;
if (write(ar_resfd, msg, len) == -1)
{
int errtmp = errno;
(void)close(ar_resfd);
errno = errtmp;
ar_resfd = -1;
}
}
else
for (i = 0; i < rcount; i++)
{
if (sendto(ar_resfd, msg, len, 0,
(struct sockaddr *)&(_res.NS_ADDR_LIST[i]),
sizeof(struct sockaddr_in)) == len)
{
ar_reinfo.re_sent++;
sent++;
}
}
return (sent) ? sent : -1;
}
/*
* ar_find_id
*
* find a dns query record by the id (id is determined by dn_mkquery)
*/
static struct reslist *ar_find_id(id)
int id;
{
register struct reslist *rptr;
for (rptr = ar_first; rptr; rptr = rptr->re_next)
if (rptr->re_id == id)
return rptr;
return NULL;
}
/*
* ar_delete
*
* Delete a request from the waiting list if it has a data pointer which
* matches the one passed.
*/
int ar_delete(ptr, size)
char *ptr;
int size;
{
register struct reslist *rptr;
register struct reslist *r2ptr;
int removed = 0;
for (rptr = ar_first; rptr; rptr = r2ptr)
{
r2ptr = rptr->re_next;
if (rptr->re_rinfo.ri_ptr && ptr && size &&
bcmp(rptr->re_rinfo.ri_ptr, ptr, size) == 0)
{
(void)ar_remrequest(rptr);
removed++;
}
}
return removed;
}
/*
* ar_query_name
*
* generate a query based on class, type and name.
*/
static int ar_query_name(name, class, type, rptr)
char *name;
int class, type;
struct reslist *rptr;
{
static char buf[MAXPACKET];
int r,s,a;
HEADER *hptr;
bzero(buf, sizeof(buf));
r = res_mkquery(QUERY, name, class, type, NULL, 0, NULL,
buf, sizeof(buf));
if (r <= 0)
{
h_errno = NO_RECOVERY;
return r;
}
hptr = (HEADER *)buf;
rptr->re_id = ntohs(hptr->id);
s = ar_send_res_msg(buf, r, rptr->re_sends);
if (s == -1)
{
h_errno = TRY_AGAIN;
return -1;
}
else
rptr->re_sent += s;
return 0;
}
/*
* ar_gethostbyname
*
* Replacement library function call to gethostbyname(). This one, however,
* doesn't return the record being looked up but just places the query in the
* queue to await answers.
*/
int ar_gethostbyname(name, info, size)
char *name;
char *info;
int size;
{
char host[65];
struct resinfo resi;
register struct resinfo *rp = &resi;
if (size && info)
{
rp->ri_ptr = (char *)malloc(size);
bcopy(info, rp->ri_ptr, size);
rp->ri_size = size;
}
else
bzero((char *)rp, sizeof(resi));
ar_reinfo.re_na_look++;
(void)strncpy(host, name, 64);
host[64] = '\0';
return (do_query_name(rp, host, NULL));
}
static int do_query_name(resi, name, rptr)
struct resinfo *resi;
char *name;
register struct reslist *rptr;
{
char hname[65];
int len;
len = strlen((char *)strncpy(hname, name, sizeof(hname)-1));
if (rptr && (hname[len-1] != '.'))
{
(void)strncat(hname, ar_dot, sizeof(hname)-len-1);
/*
* NOTE: The logical relationship between DNSRCH and DEFNAMES
* is implies. ie no DEFNAES, no DNSRCH.
*/
if (_res.options & (RES_DEFNAMES|RES_DNSRCH) ==
(RES_DEFNAMES|RES_DNSRCH))
{
if (_res.dnsrch[rptr->re_srch])
(void)strncat(hname, _res.dnsrch[rptr->re_srch],
sizeof(hname) - ++len -1);
}
else if (_res.options & RES_DEFNAMES)
(void)strncat(hname, ar_domainname, sizeof(hname) - len -1);
}
/*
* Store the name passed as the one to lookup and generate other host
* names to pass onto the nameserver(s) for lookups.
*/
if (!rptr)
{
rptr = ar_make_request(resi);
rptr->re_type = T_A;
(void)strncpy(rptr->re_name, name, sizeof(rptr->re_name)-1);
}
return (ar_query_name(hname, C_IN, T_A, rptr));
}
/*
* ar_gethostbyaddr
*
* Generates a query for a given IP address.
*/
int ar_gethostbyaddr(addr, info, size)
char *addr;
char *info;
int size;
{
struct resinfo resi;
register struct resinfo *rp = &resi;
if (size && info)
{
rp->ri_ptr = (char *)malloc(size);
bcopy(info, rp->ri_ptr, size);
rp->ri_size = size;
}
else
bzero((char *)rp, sizeof(resi));
ar_reinfo.re_nu_look++;
return (do_query_number(rp, addr, NULL));
}
/*
* do_query_number
*
* Use this to do reverse IP# lookups.
*/
static int do_query_number(resi, numb, rptr)
struct resinfo *resi;
char *numb;
register struct reslist *rptr;
{
register unsigned char *cp;
static char ipbuf[32];
/*
* Generate name in the "in-addr.arpa" domain. No addings bits to this
* name to get more names to query!.
*/
cp = (unsigned char *)numb;
(void)sprintf(ipbuf,"%u.%u.%u.%u.in-addr.arpa.",
(unsigned int)(cp[3]), (unsigned int)(cp[2]),
(unsigned int)(cp[1]), (unsigned int)(cp[0]));
if (!rptr)
{
rptr = ar_make_request(resi);
rptr->re_type = T_PTR;
rptr->re_he.h_length = sizeof(struct in_addr);
bcopy(numb, (char *)&rptr->re_addr, rptr->re_he.h_length);
bcopy(numb, (char *)&rptr->re_he.h_addr_list[0].s_addr,
rptr->re_he.h_length);
}
return (ar_query_name(ipbuf, C_IN, T_PTR, rptr));
}
/*
* ar_resent_query
*
* resends a query.
*/
static int ar_resend_query(rptr)
struct reslist *rptr;
{
if (!rptr->re_resend)
return -1;
switch(rptr->re_type)
{
case T_PTR:
ar_reinfo.re_resends++;
return do_query_number(NULL, &rptr->re_addr, rptr);
case T_A:
ar_reinfo.re_resends++;
return do_query_name(NULL, rptr->re_name, rptr);
default:
break;
}
return -1;
}
/*
* ar_procanswer
*
* process an answer received from a nameserver.
*/
static int ar_procanswer(rptr, hptr, buf, eob)
struct reslist *rptr;
char *buf, *eob;
HEADER *hptr;
{
char *cp, **alias, *s;
int class, type, dlen, len, ans = 0, n, i;
u_int32_t ttl, dr, *adr;
struct hent *hp;
cp = buf + sizeof(HEADER);
adr = (u_int32_t *)rptr->re_he.h_addr_list;
while (*adr)
adr++;
alias = rptr->re_he.h_aliases;
while (*alias)
alias++;
hp = &rptr->re_he;
/*
* Skip over the original question.
*/
while (hptr->qdcount-- > 0)
cp += dn_skipname(cp, eob) + QFIXEDSZ;
/*
* proccess each answer sent to us. blech.
*/
while (hptr->ancount-- > 0 && cp < eob) {
n = dn_expand(buf, eob, cp, ar_hostbuf, sizeof(ar_hostbuf));
cp += n;
if (n <= 0)
return ans;
ans++;
/*
* 'skip' past the general dns crap (ttl, class, etc) to get
* the pointer to the right spot. Some of thse are actually
* useful so its not a good idea to skip past in one big jump.
*/
type = (int)_getshort(cp);
cp += sizeof(short);
class = (int)_getshort(cp);
cp += sizeof(short);
ttl = (u_int32_t)_getlong(cp);
cp += sizeof(u_int32_t);
dlen = (int)_getshort(cp);
cp += sizeof(short);
rptr->re_type = type;
switch(type)
{
case T_A :
rptr->re_he.h_length = dlen;
if (ans == 1)
rptr->re_he.h_addrtype=(class == C_IN) ?
AF_INET : AF_UNSPEC;
if (dlen != sizeof(dr))
{
h_errno = TRY_AGAIN;
continue;
}
bcopy(cp, &dr, dlen);
*adr++ = dr;
*adr = 0;
cp += dlen;
len = strlen(ar_hostbuf);
if (!rptr->re_he.h_name)
{
rptr->re_he.h_name = (char *)malloc(len+1);
if (!rptr->re_he.h_name)
break;
(void)strcpy(rptr->re_he.h_name, ar_hostbuf);
}
break;
case T_PTR :
if ((n = dn_expand(buf, eob, cp, ar_hostbuf,
sizeof(ar_hostbuf) )) < 0)
{
cp += n;
continue;
}
cp += n;
len = strlen(ar_hostbuf)+1;
/*
* copy the returned hostname into the host name
* or alias field if there is a known hostname
* already.
*/
if (!rptr->re_he.h_name)
{
rptr->re_he.h_name = (char *)malloc(len);
if (!rptr->re_he.h_name)
break;
(void)strcpy(rptr->re_he.h_name, ar_hostbuf);
}
else
{
*alias = (char *)malloc(len);
if (!*alias)
return -1;
(void)strcpy(*alias++, ar_hostbuf);
*alias = NULL;
}
break;
case T_CNAME :
cp += dlen;
if (alias >= &(rptr->re_he.h_aliases[MAXALIASES-1]))
continue;
n = strlen(ar_hostbuf)+1;
*alias = (char *)malloc(n);
if (!*alias)
return -1;
(void)strcpy(*alias++, ar_hostbuf);
*alias = NULL;
break;
default :
break;
}
}
return ans;
}
/*
* ar_answer
*
* Get an answer from a DNS server and process it. If a query is found to
* which no answer has been given to yet, copy its 'info' structure back
* to where "reip" points and return a pointer to the hostent structure.
*/
struct hostent *ar_answer(reip, size)
char *reip;
int size;
{
static char ar_rcvbuf[sizeof(HEADER) + MAXPACKET];
static struct hostent ar_host;
register HEADER *hptr;
register struct reslist *rptr = NULL;
register struct hostent *hp;
register char **s;
unsigned long *adr;
int rc, i, n, a;
rc = recv(ar_resfd, ar_rcvbuf, sizeof(ar_rcvbuf), 0);
if (rc <= 0)
goto getres_err;
ar_reinfo.re_replies++;
hptr = (HEADER *)ar_rcvbuf;
/*
* convert things to be in the right order.
*/
hptr->id = ntohs(hptr->id);
hptr->ancount = ntohs(hptr->ancount);
hptr->arcount = ntohs(hptr->arcount);
hptr->nscount = ntohs(hptr->nscount);
hptr->qdcount = ntohs(hptr->qdcount);
/*
* response for an id which we have already received an answer for
* just ignore this response.
*/
rptr = ar_find_id(hptr->id);
if (!rptr)
goto getres_err;
if ((hptr->rcode != NOERROR) || (hptr->ancount == 0))
{
switch (hptr->rcode)
{
case NXDOMAIN:
h_errno = HOST_NOT_FOUND;
break;
case SERVFAIL:
h_errno = TRY_AGAIN;
break;
case NOERROR:
h_errno = NO_DATA;
break;
case FORMERR:
case NOTIMP:
case REFUSED:
default:
h_errno = NO_RECOVERY;
break;
}
ar_reinfo.re_errors++;
/*
** If a bad error was returned, we stop here and dont send
** send any more (no retries granted).
*/
if (h_errno != TRY_AGAIN)
{
rptr->re_resend = 0;
rptr->re_retries = 0;
}
goto getres_err;
}
a = ar_procanswer(rptr, hptr, ar_rcvbuf, ar_rcvbuf+rc);
if ((rptr->re_type == T_PTR) && (_res.options & RES_CHECKPTR))
{
/*
* For reverse lookups on IP#'s, lookup the name that is given
* for the ip# and return with that as the official result.
* -avalon
*/
rptr->re_type = T_A;
/*
* Clean out the list of addresses already set, even though
* there should only be one :)
*/
adr = (unsigned long *)rptr->re_he.h_addr_list;
while (*adr)
*adr++ = 0L;
/*
* Lookup the name that we were given for the ip#
*/
ar_reinfo.re_na_look++;
(void)strncpy(rptr->re_name, rptr->re_he.h_name,
sizeof(rptr->re_name)-1);
rptr->re_he.h_name = NULL;
rptr->re_retries = _res.retry;
rptr->re_sends = 1;
rptr->re_resend = 1;
rptr->re_he.h_name = NULL;
ar_reinfo.re_na_look++;
(void)ar_query_name(rptr->re_name, C_IN, T_A, rptr);
return NULL;
}
if (reip && rptr->re_rinfo.ri_ptr && size)
bcopy(rptr->re_rinfo.ri_ptr, reip,
MIN(rptr->re_rinfo.ri_size, size));
/*
* Clean up structure from previous usage.
*/
hp = &ar_host;
#ifdef ARLIB_DEBUG
ar_dump_hostent("ar_answer: previous usage", hp);
#endif
if (hp->h_name)
(void)free(hp->h_name);
if (s = hp->h_aliases)
{
while (*s)
(void)free(*s++);
(void)free(hp->h_aliases);
}
if (s = hp->h_addr_list)
{
/*
* Only free once since we allocated space for
* address in one big chunk.
*/
(void)free(*s);
(void)free(hp->h_addr_list);
}
bzero((char *)hp, sizeof(*hp));
/*
* Setup and copy details for the structure we return a pointer to.
*/
hp->h_addrtype = AF_INET;
hp->h_length = sizeof(struct in_addr);
if(rptr->re_he.h_name)
{
hp->h_name = (char *)malloc(strlen(rptr->re_he.h_name)+1);
if(!hp->h_name)
{
#ifdef ARLIB_DEBUG
fprintf(stderr, "no memory for hostname\n");
#endif
h_errno = TRY_AGAIN;
goto getres_err;
}
(void)strcpy(hp->h_name, rptr->re_he.h_name);
}
#ifdef ARLIB_DEBUG
ar_dump_hostent("ar_answer: (snap) store name", hp);
#endif
/*
* Count IP#'s.
*/
for (i = 0, n = 0; i < MAXADDRS; i++, n++)
if (!rptr->re_he.h_addr_list[i].s_addr)
break;
s = hp->h_addr_list = (char **)malloc((n + 1) * sizeof(char *));
if (n)
{
*s = (char *)malloc(n * sizeof(struct in_addr));
if(!*s)
{
#ifdef ARLIB_DEBUG
fprintf(stderr, "no memory for IP#'s (%d)\n", n);
#endif
h_errno = TRY_AGAIN;
goto getres_err;
}
bcopy((char *)&rptr->re_he.h_addr_list[0].s_addr, *s,
sizeof(struct in_addr));
s++;
for (i = 1; i < n; i++, s++)
{
*s = hp->h_addr + i * sizeof(struct in_addr);
bcopy((char *)&rptr->re_he.h_addr_list[i].s_addr, *s,
sizeof(struct in_addr));
}
}
*s = NULL;
#ifdef ARLIB_DEBUG
ar_dump_hostent("ar_answer: (snap) store IP#'s", hp);
#endif
/*
* Count CNAMEs
*/
for (i = 0, n = 0; i < MAXADDRS; i++, n++)
if (!rptr->re_he.h_aliases[i])
break;
s = hp->h_aliases = (char **)malloc((n + 1) * sizeof(char *));
if (!s)
{
#ifdef ARLIB_DEBUG
fprintf(stderr, "no memory for aliases (%d)\n", n);
#endif
h_errno = TRY_AGAIN;
goto getres_err;
}
for (i = 0; i < n; i++)
{
*s++ = rptr->re_he.h_aliases[i];
rptr->re_he.h_aliases[i] = NULL;
}
*s = NULL;
#ifdef ARLIB_DEBUG
ar_dump_hostent("ar_answer: (snap) store CNAMEs", hp);
ar_dump_hostent("ar_answer: new one", hp);
#endif
if (a > 0)
(void)ar_remrequest(rptr);
else
if (!rptr->re_sent)
(void)ar_remrequest(rptr);
return hp;
getres_err:
if (rptr)
{
if (reip && rptr->re_rinfo.ri_ptr && size)
bcopy(rptr->re_rinfo.ri_ptr, reip,
MIN(rptr->re_rinfo.ri_size, size));
if ((h_errno != TRY_AGAIN) &&
(_res.options & (RES_DNSRCH|RES_DEFNAMES) ==
(RES_DNSRCH|RES_DEFNAMES) ))
if (_res.dnsrch[rptr->re_srch])
{
rptr->re_retries = _res.retry;
rptr->re_sends = 1;
rptr->re_resend = 1;
(void)ar_resend_query(rptr);
rptr->re_srch++;
}
return NULL;
}
return NULL;
}
#ifdef ARLIB_DEBUG
void ar_dump_hostent(prefix, hp)
char *prefix;
struct hostent *hp;
{
register char **s;
fflush(stdout);
fprintf(stderr, "%s\n", prefix);
fprintf(stderr, " hp %p\n", hp);
fprintf(stderr, " h_name %p '%s'\n",
hp->h_name, hp->h_name);
if (s = hp->h_aliases)
{
fprintf(stderr, " h_aliases %p\n",
hp->h_aliases);
while (*s)
{
fprintf(stderr, " element %p\n", *s);
s++;
}
}
if (s = hp->h_addr_list)
{
fprintf(stderr, " h_addr_list %p\n",
hp->h_addr_list);
while (*s)
{
fprintf(stderr, " element %p\n", *s);
s++;
}
}
fflush(stderr);
}
void ar_dump_reslist(FILE* fp)
{
register struct reslist *rptr;
int c;
c = 0;
for (rptr = ar_first; rptr; rptr = rptr->re_next)
{
fprintf(fp, "%4d [%p] %4d [%p]: %s\n", rptr->re_id, rptr,
*(rptr->re_rinfo.ri_ptr), rptr->re_rinfo.ri_ptr,
rptr->re_name);
}
}
#endif