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NetBSD/dist/bind/bin/named/db_sec.c

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/* $NetBSD: db_sec.c,v 1.1.1.1 1999/11/20 18:53:59 veego Exp $ */
#if !defined(lint) && !defined(SABER)
static const char rcsid[] = "Id: db_sec.c,v 8.30 1999/10/15 21:06:49 vixie Exp";
#endif /* not lint */
/*
* Copyright (c) 1986, 1990
* 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.
*/
/*
* Portions Copyright (c) 1996-1999 by Internet Software Consortium.
*
* 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.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND INTERNET SOFTWARE CONSORTIUM DISCLAIMS
* ALL WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL INTERNET SOFTWARE
* CONSORTIUM 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.
*/
#include "port_before.h"
#include <sys/types.h>
#include <sys/param.h>
#include <sys/socket.h>
#include <sys/un.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#include <arpa/nameser.h>
#include <ctype.h>
#include <resolv.h>
#include <stdio.h>
#include <string.h>
#include <syslog.h>
#include <time.h>
#include <isc/eventlib.h>
#include <isc/logging.h>
#include <isc/memcluster.h>
#include <isc/tree.h>
#include <isc/dst.h>
#include "port_after.h"
#include "named.h"
struct zpubkey {
struct dst_key *zpk_key; /* Should be DST_KEY */
char *zpk_name;
struct zpubkey *zpk_next;
};
typedef struct zpubkey *zpubkey_list;
static int nxt_match_rrset(struct databuf *dp, struct db_rrset *rrset);
/*
* A converted databuf is a stripped down databuf after converting the
* data to wire format.
*/
struct converted_databuf {
struct converted_databuf *cd_next;
u_char *cd_data;
int cd_size, cd_alloc;
};
/* All of the trusted keys and zone keys */
static tree *trusted_keys = NULL;
static int
compare_pubkey (struct zpubkey *zpk1, struct zpubkey *zpk2) {
char ta[NS_MAXDNAME], tb[NS_MAXDNAME];
if (ns_makecanon(zpk1->zpk_name, ta, sizeof ta) < 0 ||
ns_makecanon(zpk2->zpk_name, tb, sizeof tb) < 0)
return (-1);
return (strcasecmp(ta, tb));
}
static struct zpubkey *
tree_srch_pubkey (const char *name) {
struct zpubkey tkey, *key;
tkey.zpk_name = (char *) name;
if (trusted_keys == NULL) {
tree_init(&trusted_keys);
return (NULL);
}
key = (struct zpubkey *)tree_srch(&trusted_keys, compare_pubkey,
&tkey);
return (key);
}
static DST_KEY *
find_public_key (const char *name, u_int16_t key_id) {
struct namebuf *knp;
struct hashbuf *htp;
struct databuf *dp;
const char *fname;
DST_KEY *key;
ns_debug(ns_log_default, 5, "find_public_key(%s, %d)", name, key_id);
htp = hashtab;
knp = nlookup (name, &htp, &fname, 0);
if (fname != name)
/* The name doesn't exist, so there's no key */
return (NULL);
for (dp = knp->n_data; dp != NULL; dp = dp->d_next) {
if (dp->d_type != ns_t_key || dp->d_secure < DB_S_SECURE)
continue;
key = dst_dnskey_to_key(name, dp->d_data, dp->d_size);
/* XXX what about multiple keys with same footprint? */
if (key) {
if (key->dk_id == ntohs(key_id))
return (key);
else
dst_free_key(key);
}
}
return (NULL);
}
static DST_KEY *
find_trusted_key (const char *name, u_int16_t key_id) {
struct zpubkey *zpk;
zpubkey_list keylist = tree_srch_pubkey (name);
ns_debug(ns_log_default, 5, "find_trusted_key(%s, %d)", name, key_id);
for (zpk = keylist; zpk; zpk = zpk->zpk_next)
if (zpk->zpk_key->dk_id == ntohs(key_id))
return (zpk->zpk_key);
return (NULL);
}
int
add_trusted_key (const char *name, const int flags, const int proto,
const int alg, const char *str)
{
zpubkey_list keylist;
struct zpubkey *zpk;
u_char buf[1024];
int n;
keylist = tree_srch_pubkey (name);
zpk = (struct zpubkey *) memget (sizeof (struct zpubkey));
if (zpk == NULL)
ns_panic(ns_log_default, 1,
"add_trusted_key: memget failed(%s)", name);
n = b64_pton(str, buf, sizeof(buf));
if (n < 0)
goto failure;
zpk->zpk_key = dst_buffer_to_key(name, alg, flags, proto, buf, n);
if (zpk->zpk_key == NULL) {
ns_warning(ns_log_default,
"add_trusted_key: dst_buffer_to_key(%s) failed",
name);
goto failure;
}
zpk->zpk_name = zpk->zpk_key->dk_key_name;
zpk->zpk_next = NULL;
if (keylist == NULL) {
if (tree_add (&trusted_keys, compare_pubkey, zpk, NULL) == NULL)
goto failure;
}
else {
struct zpubkey *tkey = keylist;
while (tkey->zpk_next)
tkey = tkey->zpk_next;
tkey->zpk_next = zpk;
}
return (1);
failure:
memput(zpk, sizeof (struct zpubkey));
return (0);
}
/* Can the signer sign records for this name? This is a heuristic. */
static int
can_sign(const char *name, const char *signer) {
return (ns_samedomain(name, signer) &&
dn_count_labels(name) - dn_count_labels(signer) <= 2);
}
static int
rrset_set_security(struct db_rrset *rrset, int slev) {
struct dnode *dnp;
for (dnp = rrset->rr_list; dnp != NULL; dnp = dnp->dn_next)
dnp->dp->d_secure = slev;
for (dnp = rrset->rr_sigs; dnp != NULL; dnp = dnp->dn_next)
dnp->dp->d_secure = slev;
return (slev);
}
static int
convert_databuf(struct databuf *dp, struct converted_databuf *cdp) {
u_char *bp = cdp->cd_data;
u_char *cp = dp->d_data;
u_char *eob = cdp->cd_data + cdp->cd_alloc;
int len;
u_char buf[MAXDNAME];
switch (dp->d_type) {
case ns_t_soa:
case ns_t_minfo:
case ns_t_rp:
if (eob - bp < strlen((char *)cp) + 1)
return (-1);
if (ns_name_pton((char *)cp, buf, sizeof buf) < 0)
return (-1);
len = ns_name_ntol(buf, bp, eob - bp);
if (len < 0)
return (-1);
bp += len;
cp += strlen((char *)cp) + 1;
if (eob - bp < strlen((char *)cp) + 1)
return (-1);
if (ns_name_pton((char *)cp, buf, sizeof buf) < 0)
return (-1);
len = ns_name_ntol(buf, bp, eob - bp);
if (len < 0)
return (-1);
bp += len;
cp += strlen((char *)cp) + 1;
if (dp->d_type == ns_t_soa) {
if (eob - bp < 5 * INT32SZ)
return (-1);
memcpy(bp, cp, 5 * INT32SZ);
bp += (5 * INT32SZ);
cp += (5 * INT32SZ);
}
break;
case ns_t_ns:
case ns_t_cname:
case ns_t_mb:
case ns_t_mg:
case ns_t_mr:
case ns_t_ptr:
case ns_t_nxt:
if (eob - bp < strlen((char *)cp) + 1)
return (-1);
if (ns_name_pton((char *)cp, buf, sizeof buf) < 0)
return (-1);
len = ns_name_ntol(buf, bp, eob - bp);
if (len < 0)
return (-1);
bp += len;
cp += (len = strlen((char *)cp) + 1);
if (dp->d_type == ns_t_nxt) {
if (eob - bp < dp->d_size - len)
return (-1);
memcpy(bp, cp, dp->d_size - len);
bp += (dp->d_size - len);
cp += (dp->d_size - len);
}
break;
case ns_t_srv:
if (eob - bp < 2 * INT16SZ)
return (-1);
memcpy(bp, cp, 2 * INT16SZ);
bp += (2 * INT16SZ);
cp += (2 * INT16SZ);
/* no break */
case ns_t_rt:
case ns_t_mx:
case ns_t_afsdb:
case ns_t_px:
if (eob - bp < INT16SZ)
return (-1);
memcpy (bp, cp, INT16SZ);
bp += INT16SZ;
cp += INT16SZ;
if (eob - bp < strlen((char *)cp) + 1)
return (-1);
if (ns_name_pton((char *)cp, buf, sizeof buf) < 0)
return (-1);
len = ns_name_ntol(buf, bp, eob - bp);
if (len < 0)
return (-1);
bp += len;
cp += strlen((char *)cp) + 1;
if (dp->d_type == ns_t_px) {
if (eob - bp < strlen((char *)cp) + 1)
return (-1);
if (ns_name_pton((char *)cp, buf, sizeof buf) < 0)
return (-1);
len = ns_name_ntol(buf, bp, eob - bp);
if (len < 0)
return (-1);
bp += len;
cp += strlen((char *)cp) + 1;
}
break;
default:
if (eob - bp < dp->d_size)
return (-1);
memcpy(bp, cp, dp->d_size);
bp += dp->d_size;
}
cdp->cd_size = bp - cdp->cd_data;
return (cdp->cd_size);
}
static int
digest_rr(char *envelope, int elen, struct converted_databuf *cdp,
char *buffer, int blen)
{
char *bp = buffer, *eob = buffer + blen;
if (eob - bp < elen)
return (-1);
memcpy (bp, envelope, elen);
bp += elen;
if (eob - bp < INT16SZ)
return (-1);
PUTSHORT(cdp->cd_size, bp);
if (eob - bp < cdp->cd_size)
return (-1);
memcpy (bp, cdp->cd_data, cdp->cd_size);
bp += cdp->cd_size;
return (bp - buffer);
}
/* Sorts the converted databuf in the list */
static void
insert_converted_databuf(struct converted_databuf *cdp,
struct converted_databuf **clist)
{
struct converted_databuf *tcdp, *next;
int t;
#define compare_cdatabuf(c1, c2, t) \
(t = memcmp(c1->cd_data, c2->cd_data, MIN(c1->cd_size, c2->cd_size)), \
t == 0 ? c1->cd_size - c2->cd_size : t)
if (*clist == NULL) {
*clist = cdp;
return;
}
tcdp = *clist;
if (compare_cdatabuf(cdp, tcdp, t) < 0) {
cdp->cd_next = tcdp;
*clist = cdp;
return;
}
next = tcdp->cd_next;
while (next) {
if (compare_cdatabuf(cdp, next, t) < 0) {
cdp->cd_next = next;
tcdp->cd_next = cdp;
return;
}
tcdp = next;
next = next->cd_next;
}
tcdp->cd_next = cdp;
#undef compare_cdatabuf
}
static void
free_clist(struct converted_databuf *clist) {
struct converted_databuf *cdp;
while (clist != NULL) {
cdp = clist;
clist = clist->cd_next;
memput(cdp->cd_data, cdp->cd_alloc);
memput(cdp, sizeof(struct converted_databuf));
}
}
/* Removes all empty nodes from an rrset's SIG list. */
static void
rrset_trim_sigs(struct db_rrset *rrset) {
struct dnode *dnp, *odnp, *ndnp;
odnp = NULL;
dnp = rrset->rr_sigs;
while (dnp != NULL) {
if (dnp->dp != NULL) {
odnp = dnp;
dnp = dnp->dn_next;
}
else {
if (odnp != NULL)
odnp->dn_next = dnp->dn_next;
else
rrset->rr_sigs = dnp->dn_next;
ndnp = dnp->dn_next;
memput(dnp, sizeof(struct dnode));
dnp = ndnp;
}
}
}
int
verify_set(struct db_rrset *rrset) {
DST_KEY *key = NULL;
struct sig_record *sigdata;
struct dnode *sigdn;
struct databuf *sigdp;
time_t now;
char *signer;
u_char name_n[MAXDNAME];
u_char *sig, *eom;
int trustedkey = 0, siglen, labels, len = 0, ret;
u_char *buffer = NULL, *bp;
u_char envelope[MAXDNAME+32], *ep;
struct dnode *dnp;
int bufsize = 2048; /* Large enough for MAXDNAME + SIG_HDR_SIZE */
struct converted_databuf *clist = NULL, *cdp;
int dnssec_failed = 0, dnssec_succeeded = 0;
int return_value;
int i;
if (rrset == NULL || rrset->rr_name == NULL) {
ns_warning (ns_log_default, "verify_set: missing rrset/name");
return (rrset_set_security(rrset, DB_S_FAILED));
}
if (rrset->rr_sigs == NULL)
return (rrset_set_security(rrset, DB_S_INSECURE));
ns_debug(ns_log_default, 5, "verify_set(%s, %s, %s)", rrset->rr_name,
p_type(rrset->rr_type), p_class(rrset->rr_class));
now = time(NULL);
for (sigdn = rrset->rr_sigs; sigdn != NULL; sigdn = sigdn->dn_next) {
u_int32_t namefield;
struct sig_record sigrec;
sigdp = sigdn->dp;
eom = sigdp->d_data + sigdp->d_size;
if (sigdp->d_size < SIG_HDR_SIZE) {
return_value = DB_S_FAILED;
goto end;
}
memcpy(&sigrec, sigdp->d_data, SIG_HDR_SIZE);
sigdata = &sigrec;
signer = (char *)sigdp->d_data + SIG_HDR_SIZE;
sig = (u_char *)signer + strlen(signer) + 1;
siglen = eom - sig;
/*
* Don't verify a set if the SIG inception time is in
* the future. This should be fixed before 2038 (BEW)
*/
if (ntohl(sigdata->sig_time_n) > now)
continue;
/* An expired set is dropped, but the data is not. */
if (ntohl(sigdata->sig_exp_n) < now) {
db_freedata(sigdp);
sigdn->dp = NULL;
continue;
}
/* Cleanup from the last iteration if we continue'd */
if (trustedkey == 0 && key != NULL)
dst_free_key(key);
key = find_trusted_key(signer, sigdata->sig_keyid_n);
if (key == NULL) {
trustedkey = 0;
key = find_public_key(signer, sigdata->sig_keyid_n);
}
else
trustedkey = 1;
/* if we don't have the key, either
* - the data should be considered insecure
* - the sig is not a dnssec signature
*/
if (key == NULL)
continue;
/* Can a key with this name sign the data? */
if (!can_sign(rrset->rr_name, signer))
continue;
/* Check the protocol and flags of the key */
if (key->dk_proto != NS_KEY_PROT_DNSSEC &&
key->dk_proto != NS_KEY_PROT_ANY)
continue;
if (key->dk_flags & NS_KEY_NO_AUTH)
continue;
namefield = key->dk_flags & NS_KEY_NAME_TYPE;
if (namefield == NS_KEY_NAME_USER ||
namefield == NS_KEY_NAME_RESERVED)
continue;
if (namefield == NS_KEY_NAME_ENTITY &&
(key->dk_flags & NS_KEY_SIGNATORYMASK == 0))
continue;
/*
* If we're still here, we have a non-null key that's either
* a zone key or an entity key with signing authority.
*/
if (buffer == NULL) {
bp = buffer = memget(bufsize);
if (bp == NULL) {
return_value = DB_S_FAILED;
goto end;
}
}
else
bp = buffer;
/* Digest the fixed portion of the SIG record */
memcpy(bp, (char *) sigdata, SIG_HDR_SIZE);
bp += SIG_HDR_SIZE;
/* Digest the signer's name, canonicalized */
if (ns_name_pton(signer, name_n, sizeof name_n) < 0) {
return_value = DB_S_FAILED;
goto end;
}
i = ns_name_ntol(name_n, (u_char *)bp, bufsize - SIG_HDR_SIZE);
if (i < 0) {
return_value = DB_S_FAILED;
goto end;
}
bp += i;
/* create the dns record envelope:
* <name><type><class><Original TTL>
*/
if (ns_name_pton(rrset->rr_name, name_n, sizeof name_n) < 0 ||
ns_name_ntol(name_n, (u_char *)envelope, sizeof envelope) < 0) {
return_value = DB_S_FAILED;
goto end;
}
labels = dn_count_labels(rrset->rr_name);
if (labels > sigdata->sig_labels_n) {
ep = envelope;
for (i=0; i < (labels - 1 - sigdata->sig_labels_n); i++)
ep += (*ep+1);
i = dn_skipname(ep, envelope + sizeof envelope);
if (i < 0) {
return_value = DB_S_FAILED;
goto end;
}
envelope[0] = '\001';
envelope[1] = '*';
memmove(envelope + 2, ep, i);
}
i = dn_skipname(envelope, envelope + sizeof envelope);
if (i < 0) {
return_value = DB_S_FAILED;
goto end;
}
ep = envelope + i;
PUTSHORT (rrset->rr_type, ep);
PUTSHORT (rrset->rr_class, ep);
if (envelope + sizeof(envelope) - ep < INT32SZ) {
return_value = DB_S_FAILED;
goto end;
}
memcpy (ep, &sigdata->sig_ottl_n, INT32SZ);
ep += INT32SZ;
if (clist == NULL) {
for (dnp = rrset->rr_list;
dnp != NULL;
dnp = dnp->dn_next)
{
struct databuf *dp = dnp->dp;
cdp = memget(sizeof(struct converted_databuf));
if (cdp == NULL) {
return_value = DB_S_FAILED;
goto end;
}
memset(cdp, 0, sizeof(*cdp));
/* Should be large enough... */
cdp->cd_alloc = dp->d_size + 8;
cdp->cd_data = memget(cdp->cd_alloc);
if (cdp->cd_data == NULL) {
memput(cdp, sizeof(*cdp));
return_value = DB_S_FAILED;
goto end;
}
while (convert_databuf(dp, cdp) < 0) {
memput(cdp->cd_data, cdp->cd_alloc);
cdp->cd_alloc *= 2;
cdp->cd_data = memget(cdp->cd_alloc);
if (cdp->cd_data == NULL) {
memput(cdp, sizeof(*cdp));
return_value = DB_S_FAILED;
goto end;
}
}
insert_converted_databuf(cdp, &clist);
}
}
for (cdp = clist; cdp != NULL; cdp = cdp->cd_next) {
len = digest_rr((char *)envelope, ep-envelope, cdp,
(char *)bp, bufsize - (bp - buffer));
while (len < 0) {
u_char *newbuf;
/* Double the buffer size */
newbuf = memget(bufsize*2);
if (newbuf == NULL) {
return_value = DB_S_FAILED;
goto end;
}
memcpy(newbuf, buffer, bp - buffer);
bp = (bp - buffer) + newbuf;
memput(buffer, bufsize);
buffer = newbuf;
bufsize *= 2;
len = digest_rr((char *)envelope, ep-envelope,
cdp, (char *)bp,
bufsize - (bp - buffer));
}
bp += len;
}
if (len < 0) {
return_value = DB_S_FAILED;
goto end;
}
ret = dst_verify_data(SIG_MODE_ALL, key, NULL, buffer,
bp - buffer, sig, siglen);
if (ret < 0) {
dnssec_failed++;
db_freedata(sigdp);
sigdn->dp = NULL;
}
else
dnssec_succeeded++;
}
end:
if (dnssec_failed > 0)
rrset_trim_sigs(rrset);
if (trustedkey == 0 && key != NULL)
dst_free_key(key);
if (dnssec_failed > 0 && dnssec_succeeded == 0) {
ns_warning (ns_log_default,
"verify_set(%s, %s, %s) failed",
rrset->rr_name, p_type(rrset->rr_type),
p_class(rrset->rr_class));
return_value = DB_S_FAILED;
}
else if (dnssec_succeeded > 0)
return_value = DB_S_SECURE;
else
return_value = DB_S_INSECURE;
free_clist(clist);
if (buffer != NULL)
memput(buffer, bufsize);
return (rrset_set_security(rrset, return_value));
}
static void
rrset_free_partial(struct db_rrset *rrset, int free_data, struct dnode *start) {
struct dnode *dnp;
int found_start = 0;
ns_debug(ns_log_default, 5, "rrset_free(%s)", rrset->rr_name);
if (start == NULL)
found_start = 1;
while (rrset->rr_list) {
dnp = rrset->rr_list;
if (dnp == start)
found_start = 1;
rrset->rr_list = rrset->rr_list->dn_next;
if (dnp->dp != NULL && free_data == 1 && found_start == 1)
db_freedata(dnp->dp);
memput(dnp, sizeof(struct dnode));
}
while (rrset->rr_sigs) {
dnp = rrset->rr_sigs;
if (dnp == start)
found_start = 1;
rrset->rr_sigs = rrset->rr_sigs->dn_next;
if (dnp->dp != NULL && free_data == 1 && found_start == 1)
db_freedata(dnp->dp);
memput(dnp, sizeof(struct dnode));
}
}
static void
rrset_free(struct db_rrset *rrset, int free_data) {
rrset_free_partial(rrset, free_data, NULL);
}
/*
* This is called when we have an rrset with SIGs and no other data.
* Returns 1 if we either found the necessary data or if the SIG can be added
* with no other data. 0 indicates that the SIG cannot be added.
*/
static int
attach_data(struct db_rrset *rrset) {
int type, class;
struct databuf *dp, *newdp, *sigdp;
struct dnode *dnp;
struct namebuf *np;
struct hashbuf *htp;
char *signer;
const char *fname;
char *name = rrset->rr_name;
sigdp = rrset->rr_sigs->dp;
type = SIG_COVERS(sigdp);
class = sigdp->d_class;
signer = (char *)(sigdp + SIG_HDR_SIZE);
/* First, see if the signer can sign data for the name. If not,
* it's not a DNSSEC signature, so we can insert it with no
* corresponding data.
*/
if (!can_sign(name, signer))
return (1);
htp = hashtab;
np = nlookup (name, &htp, &fname, 0);
if (fname != name)
return (0);
for (dp = np->n_data; dp != NULL; dp = dp->d_next) {
if (dp->d_type == type && dp->d_class == class) {
newdp = savedata(class, type, dp->d_ttl, dp->d_data,
dp->d_size);
dnp = (struct dnode *) memget (sizeof (struct dnode));
if (dnp == NULL)
ns_panic(ns_log_default, 1,
"attach_data: memget failed");
dnp->dp = newdp;
dnp->dn_next = rrset->rr_list;
rrset->rr_list = dnp;
}
}
if (rrset->rr_list != NULL)
return (1);
else
return (0);
}
static int
rrset_db_update(struct db_rrset *rrset, int flags, struct hashbuf **htpp,
struct sockaddr_in from, int *rrcount)
{
struct dnode *dnp;
struct databuf *dp;
int ret;
/* If we have any unattached SIG records that are DNSSEC signatures,
* don't cache them unless we already have the corresponding data.
* If we do cache unattached SIGs, we run into problems later if we
* have a SIG X and get a query for type X.
*/
if (rrset->rr_list == NULL) {
if (attach_data(rrset) == 0) {
rrset_free(rrset, 1);
return (OK);
}
if (rrset->rr_list != NULL &&
verify_set(rrset) == DB_S_FAILED)
{
rrset_free(rrset, 1);
return (OK);
}
}
for (dnp = rrset->rr_list; dnp != NULL; dnp = dnp->dn_next) {
dp = dnp->dp;
ret = db_update(rrset->rr_name, dp, dp, NULL,
flags, (*htpp), from);
if (ret != OK) {
/* XXX Probably should do rollback. */
db_err(ret, rrset->rr_name, dp->d_type,
dnp->file, dnp->line);
if (ret != DATAEXISTS) {
rrset_free_partial(rrset, 1, dnp);
return (ret);
}
db_freedata(dp);
}
if (rrcount != NULL)
(*rrcount)++;
dnp->dp = NULL;
}
for (dnp = rrset->rr_sigs; dnp != NULL; dnp = dnp->dn_next) {
dp = dnp->dp;
if (dp == NULL) /* verifyset() can remove sigs */
continue;
ret = db_update(rrset->rr_name, dp, dp, NULL,
flags, (*htpp), from);
if (ret != OK) {
/* XXX Probably should do rollback. */
db_err(ret, rrset->rr_name, dp->d_type,
dnp->file, dnp->line);
if (ret != DATAEXISTS) {
rrset_free_partial(rrset, 1, dnp);
return (ret);
}
db_freedata(dp);
}
if (rrcount != NULL)
(*rrcount)++;
dnp->dp = NULL;
}
rrset_free(rrset, 0);
return (OK);
}
static int
rr_in_set(struct databuf *rr, struct dnode *set) {
struct dnode *dnp;
if (set == NULL)
return (0);
for(dnp = set; dnp != NULL; dnp = dnp->dn_next) {
if (dnp->dp->d_size == rr->d_size &&
memcmp(dnp->dp->d_data, rr->d_data, dnp->dp->d_size) == 0)
return (1);
}
return (0);
}
static int
add_to_rrset_list(struct db_rrset **rrsets, char *name, struct databuf *dp,
int line, const char *file)
{
struct db_rrset *rrset = *rrsets;
struct dnode *dnp;
while (rrset != NULL) {
if (rrset->rr_type != ns_t_nxt || dp->d_type != ns_t_nxt) {
if (dp->d_type == ns_t_sig) {
if (SIG_COVERS(dp) == rrset->rr_type)
break;
} else {
if (dp->d_type == rrset->rr_type)
break;
}
}
else if (nxt_match_rrset(dp, rrset))
break;
rrset = rrset->rr_next;
}
if (rrset != NULL) {
if ((dp->d_type == ns_t_sig && rr_in_set(dp, rrset->rr_sigs)) ||
(dp->d_type != ns_t_sig && rr_in_set(dp, rrset->rr_list)))
{
db_freedata(dp);
return (DATAEXISTS);
}
} else {
rrset = (struct db_rrset *) memget(sizeof(struct db_rrset));
if (rrset == NULL)
ns_panic(ns_log_default, 1,
"add_to_rrset_list: memget failed(%s)", name);
memset(rrset, 0, sizeof(struct db_rrset));
rrset->rr_name = savestr(name, 1);
rrset->rr_class = dp->d_class;
if (dp->d_type == ns_t_sig)
rrset->rr_type = SIG_COVERS(dp);
else
rrset->rr_type = dp->d_type;
rrset->rr_next = *rrsets;
*rrsets = rrset;
}
dnp = (struct dnode *) memget(sizeof(struct dnode));
if (dnp == NULL)
ns_panic(ns_log_default, 1,
"add_to_rrset_list: memget failed(%s)", name);
memset(dnp, 0, sizeof(struct dnode));
dnp->dp = dp;
if (dp->d_type == ns_t_sig) {
if (rrset->rr_sigs != NULL) {
struct dnode *fdnp;
/* Preserve the order of the RRs */
/* Add this one to the end of the list */
for (fdnp = rrset->rr_sigs;
fdnp->dn_next != NULL;
fdnp = fdnp->dn_next)
/* NULL */ ;
fdnp->dn_next = dnp;
} else
rrset->rr_sigs = dnp;
} else {
if (rrset->rr_list != NULL) {
struct dnode *fdnp;
/* Preserve the order of the RRs */
/* Add this one to the end of the list */
for (fdnp = rrset->rr_list;
fdnp->dn_next != NULL;
fdnp = fdnp->dn_next)
/* NULL */ ;
fdnp->dn_next = dnp;
} else
rrset->rr_list = dnp;
}
dnp->file = (char *) file;
dnp->line = line;
return (0);
}
static int
update_rrset_list(struct db_rrset **rrsets, int flags, struct hashbuf **htpp,
struct sockaddr_in from, int *rrcount)
{
struct db_rrset *rrset = *rrsets, *next = NULL, *last = NULL;
int result = 0, tresult, cnameandother = 0;
while (rrset != NULL) {
if (rrset->rr_type == ns_t_key)
break;
last = rrset;
rrset = rrset->rr_next;
}
if (rrset != NULL && last != NULL) {
last->rr_next = rrset->rr_next;
rrset->rr_next = *rrsets;
*rrsets = rrset;
}
rrset = *rrsets;
while (rrset != NULL) {
if (verify_set(rrset) > DB_S_FAILED) {
ns_debug(ns_log_default, 10,
"update_rrset_list(%s, %s): set verified",
rrset->rr_name, p_type(rrset->rr_type));
tresult = rrset_db_update(rrset, flags, htpp,
from, rrcount);
if (tresult == CNAMEANDOTHER)
cnameandother++;
if (tresult != OK)
result = tresult;
}
else {
rrset_free(rrset, 1);
result = DNSSECFAIL;
}
freestr(rrset->rr_name);
next = rrset->rr_next;
memput(rrset, sizeof(struct db_rrset));
rrset = next;
}
*rrsets = NULL;
if (cnameandother != 0)
return (CNAMEANDOTHER);
return (result);
}
int
db_set_update(char *name, struct databuf *dp, void **state,
int flags, struct hashbuf **htpp, struct sockaddr_in from,
int *rrcount, int line, const char *file)
{
struct db_rrset **rrsets;
struct db_rrset *rrset;
int result = 0;
ns_debug(ns_log_default, 5, "db_set_update(%s)",
(name == NULL) ? "<NULL>" : (*name == 0) ? "." : name);
if (state == NULL)
ns_panic(ns_log_default, 1,
"Called db_set_update with state == NULL");
rrsets = (struct db_rrset **) state;
if (*rrsets != NULL) {
rrset = *rrsets;
if (rrset->rr_name != NULL && dp != NULL &&
name != NULL && ns_samename(name, rrset->rr_name) == 1 &&
dp->d_class == rrset->rr_class)
return (add_to_rrset_list(rrsets, name, dp,
line, file));
}
if (*rrsets != NULL)
result = update_rrset_list(rrsets, flags, htpp, from, rrcount);
if (dp != NULL) {
ns_debug(ns_log_default, 10,
"db_set_update(%s), creating new list", name);
(void) add_to_rrset_list(rrsets, name, dp, line, file);
}
return (result);
}
static int
nxt_match_rrset(struct databuf *dp, struct db_rrset *rrset) {
if (rrset->rr_list != NULL)
return (nxtmatch(rrset->rr_name, dp, rrset->rr_list->dp));
else
return (nxtmatch(rrset->rr_name, dp, rrset->rr_sigs->dp));
}
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