embedaddon/dnsmasq/src/auth.c - diff

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Diff for /embedaddon/dnsmasq/src/auth.c between versions 1.1.1.3 and 1.1.1.4

version 1.1.1.3, 2016/11/02 09:57:01	version 1.1.1.4, 2021/03/17 00:56:46
Line 1	Line 1
/* dnsmasq is Copyright (c) 2000-2016 Simon Kelley	/* dnsmasq is Copyright (c) 2000-2021 Simon Kelley

This program is free software; you can redistribute it and/or modify	This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by	it under the terms of the GNU General Public License as published by
Line 18	Line 18

#ifdef HAVE_AUTH	#ifdef HAVE_AUTH

static struct addrlist find_subnet(struct auth_zone zone, int flag, struct all_addr *addr_u)	static struct addrlist find_addrlist(struct addrlist list, int flag, union all_addr *addr_u)
{	{
struct addrlist *subnet;	do {
	if (!(list->flags & ADDRLIST_IPV6))
	{
	struct in_addr netmask, addr = addr_u->addr4;

	if (!(flag & F_IPV4))
	continue;

	netmask.s_addr = htonl(~(in_addr_t)0 << (32 - list->prefixlen));

	if (is_same_net(addr, list->addr.addr4, netmask))
	return list;
	}
	else if (is_same_net6(&(addr_u->addr6), &list->addr.addr6, list->prefixlen))
	return list;

	} while ((list = list->next));

	return NULL;
	}

for (subnet = zone->subnet; subnet; subnet = subnet->next)	static struct addrlist find_subnet(struct auth_zone zone, int flag, union all_addr *addr_u)
{	{
if (!(subnet->flags & ADDRLIST_IPV6))	if (!zone->subnet)
{	return NULL;
struct in_addr netmask, addr = addr_u->addr.addr4;
	return find_addrlist(zone->subnet, flag, addr_u);
	}

if (!(flag & F_IPV4))	static struct addrlist find_exclude(struct auth_zone zone, int flag, union all_addr *addr_u)
continue;	{
	if (!zone->exclude)
netmask.s_addr = htonl(~(in_addr_t)0 << (32 - subnet->prefixlen));	return NULL;

if (is_same_net(addr, subnet->addr.addr.addr4, netmask))	return find_addrlist(zone->exclude, flag, addr_u);
return subnet;
}
#ifdef HAVE_IPV6
else if (is_same_net6(&(addr_u->addr.addr6), &subnet->addr.addr.addr6, subnet->prefixlen))
return subnet;
#endif

}
return NULL;
}	}

static int filter_zone(struct auth_zone zone, int flag, struct all_addr addr_u)	static int filter_zone(struct auth_zone zone, int flag, union all_addr addr_u)
{	{
/* No zones specified, no filter */	if (find_exclude(zone, flag, addr_u))
	return 0;

	/* No subnets specified, no filter */
if (!zone->subnet)	if (!zone->subnet)
return 1;	return 1;

Line 86 size_t answer_auth(struct dns_header header, char li	Line 101 size_t answer_auth(struct dns_header header, char li
{	{
char *name = daemon->namebuff;	char *name = daemon->namebuff;
unsigned char p, ansp;	unsigned char p, ansp;
int qtype, qclass;	int qtype, qclass, rc;
int nameoffset, axfroffset = 0;	int nameoffset, axfroffset = 0;
int q, anscount = 0, authcount = 0;	int q, anscount = 0, authcount = 0;
struct crec *crecp;	struct crec *crecp;
Line 98 size_t answer_auth(struct dns_header header, char li	Line 113 size_t answer_auth(struct dns_header header, char li
struct txt_record *txt;	struct txt_record *txt;
struct interface_name *intr;	struct interface_name *intr;
struct naptr *na;	struct naptr *na;
struct all_addr addr;	union all_addr addr;
struct cname *a;	struct cname a, candidate;
	unsigned int wclen;

if (ntohs(header->qdcount) == 0 \|\| OPCODE(header) != QUERY )	if (ntohs(header->qdcount) == 0 \|\| OPCODE(header) != QUERY )
return 0;	return 0;
Line 113 size_t answer_auth(struct dns_header header, char li	Line 129 size_t answer_auth(struct dns_header header, char li

for (q = ntohs(header->qdcount); q != 0; q--)	for (q = ntohs(header->qdcount); q != 0; q--)
{	{
unsigned short flag = 0;	unsigned int flag = 0;
int found = 0;	int found = 0;
	int cname_wildcard = 0;

/* save pointer to name for copying into answers */	/* save pointer to name for copying into answers */
nameoffset = p - (unsigned char *)header;	nameoffset = p - (unsigned char *)header;
Line 161 size_t answer_auth(struct dns_header header, char li	Line 178 size_t answer_auth(struct dns_header header, char li
struct addrlist *addrlist;	struct addrlist *addrlist;

for (addrlist = intr->addr; addrlist; addrlist = addrlist->next)	for (addrlist = intr->addr; addrlist; addrlist = addrlist->next)
if (!(addrlist->flags & ADDRLIST_IPV6) && addr.addr.addr4.s_addr == addrlist->addr.addr.addr4.s_addr)	if (!(addrlist->flags & ADDRLIST_IPV6) && addr.addr4.s_addr == addrlist->addr.addr4.s_addr)
break;	break;

if (addrlist)	if (addrlist)
Line 170 size_t answer_auth(struct dns_header header, char li	Line 187 size_t answer_auth(struct dns_header header, char li
while (intr->next && strcmp(intr->intr, intr->next->intr) == 0)	while (intr->next && strcmp(intr->intr, intr->next->intr) == 0)
intr = intr->next;	intr = intr->next;
}	}
#ifdef HAVE_IPV6
else if (flag == F_IPV6)	else if (flag == F_IPV6)
for (intr = daemon->int_names; intr; intr = intr->next)	for (intr = daemon->int_names; intr; intr = intr->next)
{	{
struct addrlist *addrlist;	struct addrlist *addrlist;

for (addrlist = intr->addr; addrlist; addrlist = addrlist->next)	for (addrlist = intr->addr; addrlist; addrlist = addrlist->next)
if ((addrlist->flags & ADDRLIST_IPV6) && IN6_ARE_ADDR_EQUAL(&addr.addr.addr6, &addrlist->addr.addr.addr6))	if ((addrlist->flags & ADDRLIST_IPV6) && IN6_ARE_ADDR_EQUAL(&addr.addr6, &addrlist->addr.addr6))
break;	break;

if (addrlist)	if (addrlist)
Line 186 size_t answer_auth(struct dns_header header, char li	Line 202 size_t answer_auth(struct dns_header header, char li
while (intr->next && strcmp(intr->intr, intr->next->intr) == 0)	while (intr->next && strcmp(intr->intr, intr->next->intr) == 0)
intr = intr->next;	intr = intr->next;
}	}
#endif

if (intr)	if (intr)
{	{
Line 264 size_t answer_auth(struct dns_header header, char li	Line 279 size_t answer_auth(struct dns_header header, char li
}	}

for (rec = daemon->mxnames; rec; rec = rec->next)	for (rec = daemon->mxnames; rec; rec = rec->next)
if (!rec->issrv && hostname_isequal(name, rec->name))	if (!rec->issrv && (rc = hostname_issubdomain(name, rec->name)))
{	{
nxdomain = 0;	nxdomain = 0;

if (qtype == T_MX)	if (rc == 2 && qtype == T_MX)
{	{
found = 1;	found = 1;
log_query(F_CONFIG \| F_RRNAME, name, NULL, "<MX>");	log_query(F_CONFIG \| F_RRNAME, name, NULL, "<MX>");
Line 279 size_t answer_auth(struct dns_header header, char li	Line 294 size_t answer_auth(struct dns_header header, char li
}	}

for (move = NULL, up = &daemon->mxnames, rec = daemon->mxnames; rec; rec = rec->next)	for (move = NULL, up = &daemon->mxnames, rec = daemon->mxnames; rec; rec = rec->next)
if (rec->issrv && hostname_isequal(name, rec->name))	if (rec->issrv && (rc = hostname_issubdomain(name, rec->name)))
{	{
nxdomain = 0;	nxdomain = 0;

if (qtype == T_SRV)	if (rc == 2 && qtype == T_SRV)
{	{
found = 1;	found = 1;
log_query(F_CONFIG \| F_RRNAME, name, NULL, "<SRV>");	log_query(F_CONFIG \| F_RRNAME, name, NULL, "<SRV>");
Line 314 size_t answer_auth(struct dns_header header, char li	Line 329 size_t answer_auth(struct dns_header header, char li
}	}

for (txt = daemon->rr; txt; txt = txt->next)	for (txt = daemon->rr; txt; txt = txt->next)
if (hostname_isequal(name, txt->name))	if ((rc = hostname_issubdomain(name, txt->name)))
{	{
nxdomain = 0;	nxdomain = 0;
if (txt->class == qtype)	if (rc == 2 && txt->class == qtype)
{	{
found = 1;	found = 1;
log_query(F_CONFIG \| F_RRNAME, name, NULL, "<RR>");	log_query(F_CONFIG \| F_RRNAME, name, NULL, querystr(NULL, txt->class));
if (add_resource_record(header, limit, &trunc, nameoffset, &ansp, daemon->auth_ttl,	if (add_resource_record(header, limit, &trunc, nameoffset, &ansp, daemon->auth_ttl,
NULL, txt->class, C_IN, "t", txt->len, txt->txt))	NULL, txt->class, C_IN, "t", txt->len, txt->txt))
anscount++;	anscount++;
Line 328 size_t answer_auth(struct dns_header header, char li	Line 343 size_t answer_auth(struct dns_header header, char li
}	}

for (txt = daemon->txt; txt; txt = txt->next)	for (txt = daemon->txt; txt; txt = txt->next)
if (txt->class == C_IN && hostname_isequal(name, txt->name))	if (txt->class == C_IN && (rc = hostname_issubdomain(name, txt->name)))
{	{
nxdomain = 0;	nxdomain = 0;
if (qtype == T_TXT)	if (rc == 2 && qtype == T_TXT)
{	{
found = 1;	found = 1;
log_query(F_CONFIG \| F_RRNAME, name, NULL, "<TXT>");	log_query(F_CONFIG \| F_RRNAME, name, NULL, "<TXT>");
Line 342 size_t answer_auth(struct dns_header header, char li	Line 357 size_t answer_auth(struct dns_header header, char li
}	}

for (na = daemon->naptr; na; na = na->next)	for (na = daemon->naptr; na; na = na->next)
if (hostname_isequal(name, na->name))	if ((rc = hostname_issubdomain(name, na->name)))
{	{
nxdomain = 0;	nxdomain = 0;
if (qtype == T_NAPTR)	if (rc == 2 && qtype == T_NAPTR)
{	{
found = 1;	found = 1;
log_query(F_CONFIG \| F_RRNAME, name, NULL, "<NAPTR>");	log_query(F_CONFIG \| F_RRNAME, name, NULL, "<NAPTR>");
Line 359 size_t answer_auth(struct dns_header header, char li	Line 374 size_t answer_auth(struct dns_header header, char li
if (qtype == T_A)	if (qtype == T_A)
flag = F_IPV4;	flag = F_IPV4;

#ifdef HAVE_IPV6
if (qtype == T_AAAA)	if (qtype == T_AAAA)
flag = F_IPV6;	flag = F_IPV6;
#endif

for (intr = daemon->int_names; intr; intr = intr->next)	for (intr = daemon->int_names; intr; intr = intr->next)
if (hostname_isequal(name, intr->name))	if ((rc = hostname_issubdomain(name, intr->name)))
{	{
struct addrlist *addrlist;	struct addrlist *addrlist;

nxdomain = 0;	nxdomain = 0;

if (flag)	if (rc == 2 && flag)
for (addrlist = intr->addr; addrlist; addrlist = addrlist->next)	for (addrlist = intr->addr; addrlist; addrlist = addrlist->next)
if (((addrlist->flags & ADDRLIST_IPV6) ? T_AAAA : T_A) == qtype &&	if (((addrlist->flags & ADDRLIST_IPV6) ? T_AAAA : T_A) == qtype &&
(local_query \|\| filter_zone(zone, flag, &addrlist->addr)))	(local_query \|\| filter_zone(zone, flag, &addrlist->addr)))
{	{
#ifdef HAVE_IPV6
if (addrlist->flags & ADDRLIST_REVONLY)	if (addrlist->flags & ADDRLIST_REVONLY)
continue;	continue;
#endif
found = 1;	found = 1;
log_query(F_FORWARD \| F_CONFIG \| flag, name, &addrlist->addr, NULL);	log_query(F_FORWARD \| F_CONFIG \| flag, name, &addrlist->addr, NULL);
if (add_resource_record(header, limit, &trunc, nameoffset, &ansp,	if (add_resource_record(header, limit, &trunc, nameoffset, &ansp,
Line 389 size_t answer_auth(struct dns_header header, char li	Line 401 size_t answer_auth(struct dns_header header, char li
}	}
}	}

for (a = daemon->cnames; a; a = a->next)
if (hostname_isequal(name, a->alias) )
{
log_query(F_CONFIG \| F_CNAME, name, NULL, NULL);
strcpy(name, a->target);
if (!strchr(name, '.'))
{
strcat(name, ".");
strcat(name, zone->domain);
}
found = 1;
if (add_resource_record(header, limit, &trunc, nameoffset, &ansp,
daemon->auth_ttl, &nameoffset,
T_CNAME, C_IN, "d", name))
anscount++;

goto cname_restart;
}

if (!cut)	if (!cut)
{	{
nxdomain = 0;	nxdomain = 0;
Line 424 size_t answer_auth(struct dns_header header, char li	Line 417 size_t answer_auth(struct dns_header header, char li

if (peer_addr->sa.sa_family == AF_INET)	if (peer_addr->sa.sa_family == AF_INET)
peer_addr->in.sin_port = 0;	peer_addr->in.sin_port = 0;
#ifdef HAVE_IPV6
else	else
{	{
peer_addr->in6.sin6_port = 0;	peer_addr->in6.sin6_port = 0;
peer_addr->in6.sin6_scope_id = 0;	peer_addr->in6.sin6_scope_id = 0;
}	}
#endif

for (peers = daemon->auth_peers; peers; peers = peers->next)	for (peers = daemon->auth_peers; peers; peers = peers->next)
if (sockaddr_isequal(peer_addr, &peers->addr))	if (sockaddr_isequal(peer_addr, &peers->addr))
break;	break;

/* Refuse all AXFR unless --auth-sec-servers is set */	/* Refuse all AXFR unless --auth-sec-servers or auth-peers is set */
if ((!peers && daemon->auth_peers) \|\| !daemon->secondary_forward_server)	if ((!daemon->secondary_forward_server && !daemon->auth_peers) \|\|
	(daemon->auth_peers && !peers))
{	{
if (peer_addr->sa.sa_family == AF_INET)	if (peer_addr->sa.sa_family == AF_INET)
inet_ntop(AF_INET, &peer_addr->in.sin_addr, daemon->addrbuff, ADDRSTRLEN);	inet_ntop(AF_INET, &peer_addr->in.sin_addr, daemon->addrbuff, ADDRSTRLEN);
#ifdef HAVE_IPV6
else	else
inet_ntop(AF_INET6, &peer_addr->in6.sin6_addr, daemon->addrbuff, ADDRSTRLEN);	inet_ntop(AF_INET6, &peer_addr->in6.sin6_addr, daemon->addrbuff, ADDRSTRLEN);
#endif

my_syslog(LOG_WARNING, _("ignoring zone transfer request from %s"), daemon->addrbuff);	my_syslog(LOG_WARNING, _("ignoring zone transfer request from %s"), daemon->addrbuff);
return 0;	return 0;
Line 478 size_t answer_auth(struct dns_header header, char li	Line 468 size_t answer_auth(struct dns_header header, char li
{	{
nxdomain = 0;	nxdomain = 0;
if ((crecp->flags & flag) &&	if ((crecp->flags & flag) &&
(local_query \|\| filter_zone(zone, flag, &(crecp->addr.addr))))	(local_query \|\| filter_zone(zone, flag, &(crecp->addr))))
{	{
cut = '.'; / restore domain part */	cut = '.'; / restore domain part */
log_query(crecp->flags, name, &crecp->addr.addr, record_source(crecp->uid));	log_query(crecp->flags, name, &crecp->addr, record_source(crecp->uid));
cut = 0; / remove domain part */	cut = 0; / remove domain part */
found = 1;	found = 1;
if (add_resource_record(header, limit, &trunc, nameoffset, &ansp,	if (add_resource_record(header, limit, &trunc, nameoffset, &ansp,
Line 501 size_t answer_auth(struct dns_header header, char li	Line 491 size_t answer_auth(struct dns_header header, char li
do	do
{	{
nxdomain = 0;	nxdomain = 0;
if ((crecp->flags & flag) && (local_query \|\| filter_zone(zone, flag, &(crecp->addr.addr))))	if ((crecp->flags & flag) && (local_query \|\| filter_zone(zone, flag, &(crecp->addr))))
{	{
log_query(crecp->flags, name, &crecp->addr.addr, record_source(crecp->uid));	log_query(crecp->flags, name, &crecp->addr, record_source(crecp->uid));
found = 1;	found = 1;
if (add_resource_record(header, limit, &trunc, nameoffset, &ansp,	if (add_resource_record(header, limit, &trunc, nameoffset, &ansp,
daemon->auth_ttl, NULL, qtype, C_IN,	daemon->auth_ttl, NULL, qtype, C_IN,
Line 513 size_t answer_auth(struct dns_header header, char li	Line 503 size_t answer_auth(struct dns_header header, char li
} while ((crecp = cache_find_by_name(crecp, name, now, F_IPV4 \| F_IPV6)));	} while ((crecp = cache_find_by_name(crecp, name, now, F_IPV4 \| F_IPV6)));
}	}

if (!found)	/* Only supply CNAME if no record for any type is known. */
log_query(flag \| F_NEG \| (nxdomain ? F_NXDOMAIN : 0) \| F_FORWARD \| F_AUTH, name, NULL, NULL);	if (nxdomain)
	{
	/* Check for possible wildcard match against *.domain
	return length of match, to get longest.
	Note that if return length of wildcard section, so
	we match b.simon to _both_ *.simon and b.simon
	but return a longer (better) match to b.simon.
	*/
	for (wclen = 0, candidate = NULL, a = daemon->cnames; a; a = a->next)
	if (a->alias[0] == '*')
	{
	char *test = name;

	while ((test = strchr(test+1, '.')))
	{
	if (hostname_isequal(test, &(a->alias[1])))
	{
	if (strlen(test) > wclen && !cname_wildcard)
	{
	wclen = strlen(test);
	candidate = a;
	cname_wildcard = 1;
	}
	break;
	}
	}

	}
	else if (hostname_isequal(a->alias, name) && strlen(a->alias) > wclen)
	{
	/* Simple case, no wildcard */
	wclen = strlen(a->alias);
	candidate = a;
	}

	if (candidate)
	{
	log_query(F_CONFIG \| F_CNAME, name, NULL, NULL);
	strcpy(name, candidate->target);
	if (!strchr(name, '.'))
	{
	strcat(name, ".");
	strcat(name, zone->domain);
	}
	found = 1;
	if (add_resource_record(header, limit, &trunc, nameoffset, &ansp,
	daemon->auth_ttl, &nameoffset,
	T_CNAME, C_IN, "d", name))
	anscount++;

	goto cname_restart;
	}
	else if (cache_find_non_terminal(name, now))
	nxdomain = 0;

	log_query(flag \| F_NEG \| (nxdomain ? F_NXDOMAIN : 0) \| F_FORWARD \| F_AUTH, name, NULL, NULL);
	}

}	}

Line 534 size_t answer_auth(struct dns_header header, char li	Line 580 size_t answer_auth(struct dns_header header, char li

if (!(subnet->flags & ADDRLIST_IPV6))	if (!(subnet->flags & ADDRLIST_IPV6))
{	{
in_addr_t a = ntohl(subnet->addr.addr.addr4.s_addr) >> 8;	in_addr_t a = ntohl(subnet->addr.addr4.s_addr) >> 8;
char *p = name;	char *p = name;

if (subnet->prefixlen >= 24)	if (subnet->prefixlen >= 24)
p += sprintf(p, "%d.", a & 0xff);	p += sprintf(p, "%u.", a & 0xff);
a = a >> 8;	a = a >> 8;
if (subnet->prefixlen >= 16 )	if (subnet->prefixlen >= 16 )
p += sprintf(p, "%d.", a & 0xff);	p += sprintf(p, "%u.", a & 0xff);
a = a >> 8;	a = a >> 8;
p += sprintf(p, "%d.in-addr.arpa", a & 0xff);	p += sprintf(p, "%u.in-addr.arpa", a & 0xff);

}	}
#ifdef HAVE_IPV6
else	else
{	{
char *p = name;	char *p = name;
Line 554 size_t answer_auth(struct dns_header header, char li	Line 599 size_t answer_auth(struct dns_header header, char li

for (i = subnet->prefixlen-1; i >= 0; i -= 4)	for (i = subnet->prefixlen-1; i >= 0; i -= 4)
{	{
int dig = ((unsigned char *)&subnet->addr.addr.addr6)[i>>3];	int dig = ((unsigned char *)&subnet->addr.addr6)[i>>3];
p += sprintf(p, "%.1x.", (i>>2) & 1 ? dig & 15 : dig >> 4);	p += sprintf(p, "%.1x.", (i>>2) & 1 ? dig & 15 : dig >> 4);
}	}
p += sprintf(p, "ip6.arpa");	p += sprintf(p, "ip6.arpa");

}	}
#endif
}	}

/* handle NS and SOA in auth section or for explicit queries */	/* handle NS and SOA in auth section or for explicit queries */
Line 584 size_t answer_auth(struct dns_header header, char li	Line 628 size_t answer_auth(struct dns_header header, char li
{	{
struct name_list *secondary;	struct name_list *secondary;

newoffset = ansp - (unsigned char *)header;	/* Only include the machine running dnsmasq if it's acting as an auth server */
if (add_resource_record(header, limit, &trunc, -offset, &ansp,	if (daemon->authinterface)
daemon->auth_ttl, NULL, T_NS, C_IN, "d", offset == 0 ? authname : NULL, daemon->authserver))
{	{
if (offset == 0)	newoffset = ansp - (unsigned char *)header;
offset = newoffset;	if (add_resource_record(header, limit, &trunc, -offset, &ansp,
if (ns)	daemon->auth_ttl, NULL, T_NS, C_IN, "d", offset == 0 ? authname : NULL, daemon->authserver))
anscount++;	{
else	if (offset == 0)
authcount++;	offset = newoffset;
	if (ns)
	anscount++;
	else
	authcount++;
	}
}	}

if (!subnet)	if (!subnet)
Line 697 size_t answer_auth(struct dns_header header, char li	Line 745 size_t answer_auth(struct dns_header header, char li
daemon->auth_ttl, NULL, T_A, C_IN, "4", cut ? intr->name : NULL, &addrlist->addr))	daemon->auth_ttl, NULL, T_A, C_IN, "4", cut ? intr->name : NULL, &addrlist->addr))
anscount++;	anscount++;

#ifdef HAVE_IPV6
for (addrlist = intr->addr; addrlist; addrlist = addrlist->next)	for (addrlist = intr->addr; addrlist; addrlist = addrlist->next)
if ((addrlist->flags & ADDRLIST_IPV6) &&	if ((addrlist->flags & ADDRLIST_IPV6) &&
(local_query \|\| filter_zone(zone, F_IPV6, &addrlist->addr)) &&	(local_query \|\| filter_zone(zone, F_IPV6, &addrlist->addr)) &&
add_resource_record(header, limit, &trunc, -axfroffset, &ansp,	add_resource_record(header, limit, &trunc, -axfroffset, &ansp,
daemon->auth_ttl, NULL, T_AAAA, C_IN, "6", cut ? intr->name : NULL, &addrlist->addr))	daemon->auth_ttl, NULL, T_AAAA, C_IN, "6", cut ? intr->name : NULL, &addrlist->addr))
anscount++;	anscount++;
#endif

/* restore config data */	/* restore config data */
if (cut)	if (cut)
Line 741 size_t answer_auth(struct dns_header header, char li	Line 787 size_t answer_auth(struct dns_header header, char li
{	{
char *cache_name = cache_get_name(crecp);	char *cache_name = cache_get_name(crecp);
if (!strchr(cache_name, '.') &&	if (!strchr(cache_name, '.') &&
(local_query \|\| filter_zone(zone, (crecp->flags & (F_IPV6 \| F_IPV4)), &(crecp->addr.addr))))	(local_query \|\| filter_zone(zone, (crecp->flags & (F_IPV6 \| F_IPV4)), &(crecp->addr))) &&
{	add_resource_record(header, limit, &trunc, -axfroffset, &ansp,
qtype = T_A;	daemon->auth_ttl, NULL, (crecp->flags & F_IPV6) ? T_AAAA : T_A, C_IN,
#ifdef HAVE_IPV6	(crecp->flags & F_IPV4) ? "4" : "6", cache_name, &crecp->addr))
if (crecp->flags & F_IPV6)	anscount++;
qtype = T_AAAA;
#endif
if (add_resource_record(header, limit, &trunc, -axfroffset, &ansp,
daemon->auth_ttl, NULL, qtype, C_IN,
(crecp->flags & F_IPV4) ? "4" : "6", cache_name, &crecp->addr))
anscount++;
}
}	}

if ((crecp->flags & F_HOSTS) \|\| (((crecp->flags & F_DHCP) && option_bool(OPT_DHCP_FQDN))))	if ((crecp->flags & F_HOSTS) \|\| (((crecp->flags & F_DHCP) && option_bool(OPT_DHCP_FQDN))))
{	{
strcpy(name, cache_get_name(crecp));	strcpy(name, cache_get_name(crecp));
if (in_zone(zone, name, &cut) &&	if (in_zone(zone, name, &cut) &&
(local_query \|\| filter_zone(zone, (crecp->flags & (F_IPV6 \| F_IPV4)), &(crecp->addr.addr))))	(local_query \|\| filter_zone(zone, (crecp->flags & (F_IPV6 \| F_IPV4)), &(crecp->addr))))
{	{
qtype = T_A;	if (cut)
#ifdef HAVE_IPV6	*cut = 0;
if (crecp->flags & F_IPV6)
qtype = T_AAAA;
#endif
if (cut)
*cut = 0;

if (add_resource_record(header, limit, &trunc, -axfroffset, &ansp,	if (add_resource_record(header, limit, &trunc, -axfroffset, &ansp,
daemon->auth_ttl, NULL, qtype, C_IN,	daemon->auth_ttl, NULL, (crecp->flags & F_IPV6) ? T_AAAA : T_A, C_IN,
(crecp->flags & F_IPV4) ? "4" : "6", cut ? name : NULL, &crecp->addr))	(crecp->flags & F_IPV4) ? "4" : "6", cut ? name : NULL, &crecp->addr))
anscount++;	anscount++;
}	}
}	}
}	}
Line 806 size_t answer_auth(struct dns_header header, char li	Line 840 size_t answer_auth(struct dns_header header, char li
header->hb4 &= ~HB4_RA;	header->hb4 &= ~HB4_RA;
}	}

/* authoritive */	/* data is never DNSSEC signed. */
	header->hb4 &= ~HB4_AD;

	/* authoritative */
if (auth)	if (auth)
header->hb3 \|= HB3_AA;	header->hb3 \|= HB3_AA;

FreeBSD-CVSweb <freebsd-cvsweb@FreeBSD.org>

Removed from v.1.1.1.3
changed lines
	Added in v.1.1.1.4