1*d56dad13Sderaadt /* $OpenBSD: dnssec.c,v 1.28 2021/10/09 18:43:50 deraadt Exp $ */
2d30b96b8Sho
3d30b96b8Sho /*
442af7185Sniklas * Copyright (c) 2001 H�kan Olsson. All rights reserved.
5d30b96b8Sho *
6d30b96b8Sho * Redistribution and use in source and binary forms, with or without
7d30b96b8Sho * modification, are permitted provided that the following conditions
8d30b96b8Sho * are met:
9d30b96b8Sho * 1. Redistributions of source code must retain the above copyright
10d30b96b8Sho * notice, this list of conditions and the following disclaimer.
11d30b96b8Sho * 2. Redistributions in binary form must reproduce the above copyright
12d30b96b8Sho * notice, this list of conditions and the following disclaimer in the
13d30b96b8Sho * documentation and/or other materials provided with the distribution.
14d30b96b8Sho *
15d30b96b8Sho * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
16d30b96b8Sho * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
17d30b96b8Sho * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
18d30b96b8Sho * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
19d30b96b8Sho * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
20d30b96b8Sho * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
21d30b96b8Sho * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
22d30b96b8Sho * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
23d30b96b8Sho * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
24d30b96b8Sho * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
25d30b96b8Sho */
26d30b96b8Sho
2793da7598Sho #include <sys/types.h>
28d30b96b8Sho #include <netinet/in.h>
29d30b96b8Sho #include <arpa/inet.h>
3093da7598Sho #include <stdlib.h>
3193da7598Sho
3293da7598Sho #include <openssl/rsa.h>
33a8c1f587Sjakob
34a8c1f587Sjakob #ifdef LWRES
35d30b96b8Sho #include <lwres/netdb.h>
36a8c1f587Sjakob #include <dns/keyvalues.h>
37a8c1f587Sjakob #else
38a8c1f587Sjakob #include <netdb.h>
39a8c1f587Sjakob #endif
40d30b96b8Sho
4193da7598Sho #include "dnssec.h"
42d30b96b8Sho #include "exchange.h"
4393da7598Sho #include "ipsec_num.h"
4493da7598Sho #include "libcrypto.h"
45d30b96b8Sho #include "log.h"
46d30b96b8Sho #include "message.h"
47d30b96b8Sho #include "transport.h"
48b99a8d82Sho #include "util.h"
49d30b96b8Sho
5091f13c10Sho #ifndef DNS_UFQDN_SEPARATOR
5191f13c10Sho #define DNS_UFQDN_SEPARATOR "._ipsec."
5291f13c10Sho #endif
5391f13c10Sho
54d30b96b8Sho /* adapted from <dns/rdatastruct.h> / RFC 2535 */
55d30b96b8Sho struct dns_rdata_key {
56d30b96b8Sho u_int16_t flags;
57d30b96b8Sho u_int8_t protocol;
58d30b96b8Sho u_int8_t algorithm;
59d30b96b8Sho u_int16_t datalen;
60d30b96b8Sho unsigned char *data;
61d30b96b8Sho };
62d30b96b8Sho
63d30b96b8Sho void *
dns_get_key(int type,struct message * msg,int * keylen)64d30b96b8Sho dns_get_key(int type, struct message *msg, int *keylen)
65d30b96b8Sho {
6612d8b02fSho struct exchange *exchange = msg->exchange;
67d30b96b8Sho struct rrsetinfo *rr;
68d30b96b8Sho struct dns_rdata_key key_rr;
69b9fc9a72Sderaadt char name[HOST_NAME_MAX+1];
7012d8b02fSho in_addr_t ip4;
71fb9475d6Sderaadt u_int8_t algorithm, *id, *umark;
7212d8b02fSho size_t id_len;
7312d8b02fSho int ret, i;
74d30b96b8Sho
75fb9475d6Sderaadt switch (type) {
76d30b96b8Sho case IKE_AUTH_RSA_SIG:
77d30b96b8Sho algorithm = DNS_KEYALG_RSA;
78d30b96b8Sho break;
79d30b96b8Sho
80d30b96b8Sho case IKE_AUTH_RSA_ENC:
81d30b96b8Sho case IKE_AUTH_RSA_ENC_REV:
8293da7598Sho /* XXX Not yet. */
83d30b96b8Sho /* algorithm = DNS_KEYALG_RSA; */
8493da7598Sho return 0;
85d30b96b8Sho
86d30b96b8Sho case IKE_AUTH_DSS:
87d30b96b8Sho /* XXX Not yet. */
88d30b96b8Sho /* algorithm = DNS_KEYALG_DSS; */
8993da7598Sho return 0;
90d30b96b8Sho
91d30b96b8Sho case IKE_AUTH_PRE_SHARED:
92d30b96b8Sho default:
9393da7598Sho return 0;
94d30b96b8Sho }
95d30b96b8Sho
9612d8b02fSho id = exchange->initiator ? exchange->id_r : exchange->id_i;
9712d8b02fSho id_len = exchange->initiator ? exchange->id_r_len : exchange->id_i_len;
980dc10397Shshoexer bzero(name, sizeof name);
9912d8b02fSho
100fb9475d6Sderaadt if (!id || id_len == 0) {
10112d8b02fSho log_print("dns_get_key: ID is missing");
10212d8b02fSho return 0;
10312d8b02fSho }
10412d8b02fSho /* Exchanges (and SAs) don't carry the ID in ISAKMP form */
10591f13c10Sho id -= ISAKMP_GEN_SZ;
10691f13c10Sho id_len += ISAKMP_GEN_SZ - ISAKMP_ID_DATA_OFF;
10712d8b02fSho
108fb9475d6Sderaadt switch (GET_ISAKMP_ID_TYPE(id)) {
10912d8b02fSho case IPSEC_ID_IPV4_ADDR:
11012d8b02fSho /* We want to lookup a KEY RR in the reverse zone. */
11112d8b02fSho if (id_len < sizeof ip4)
11212d8b02fSho return 0;
11312d8b02fSho memcpy(&ip4, id + ISAKMP_ID_DATA_OFF, sizeof ip4);
114df915834Shshoexer snprintf(name, sizeof name, "%d.%d.%d.%d.in-addr.arpa.", ip4
115df915834Shshoexer >> 24, (ip4 >> 16) & 0xFF, (ip4 >> 8) & 0xFF, ip4 & 0xFF);
116b99a8d82Sho break;
11712d8b02fSho
11891f13c10Sho case IPSEC_ID_IPV6_ADDR:
11991f13c10Sho /* XXX Not yet. */
12091f13c10Sho return 0;
12191f13c10Sho break;
12291f13c10Sho
12312d8b02fSho case IPSEC_ID_FQDN:
124f799be47Sho if ((id_len + 1) >= sizeof name)
12512d8b02fSho return 0;
12650eea14cSho /* ID is not NULL-terminated. Add trailing dot and NULL. */
12712d8b02fSho memcpy(name, id + ISAKMP_ID_DATA_OFF, id_len);
12812d8b02fSho *(name + id_len) = '.';
12912d8b02fSho *(name + id_len + 1) = '\0';
130b99a8d82Sho break;
13112d8b02fSho
13212d8b02fSho case IPSEC_ID_USER_FQDN:
13391f13c10Sho /*
13491f13c10Sho * Some special handling here. We want to convert the ID
13591f13c10Sho * 'user@host.domain' string into 'user._ipsec.host.domain.'.
13691f13c10Sho */
137f799be47Sho if ((id_len + sizeof(DNS_UFQDN_SEPARATOR)) >= sizeof name)
13891f13c10Sho return 0;
13991f13c10Sho /* Look for the '@' separator. */
140df915834Shshoexer for (umark = id + ISAKMP_ID_DATA_OFF; (umark - id) < id_len;
141df915834Shshoexer umark++)
14291f13c10Sho if (*umark == '@')
14391f13c10Sho break;
144fb9475d6Sderaadt if (*umark != '@') {
14591f13c10Sho LOG_DBG((LOG_MISC, 50, "dns_get_key: bad UFQDN ID"));
14691f13c10Sho return 0;
14791f13c10Sho }
14891f13c10Sho *umark++ = '\0';
14991f13c10Sho /* id is now terminated. 'umark', however, is not. */
150f799be47Sho snprintf(name, sizeof name, "%s%s", id + ISAKMP_ID_DATA_OFF,
151b8380d91Sho DNS_UFQDN_SEPARATOR);
15291f13c10Sho memcpy(name + strlen(name), umark, id_len - strlen(id) - 1);
15391f13c10Sho *(name + id_len + sizeof(DNS_UFQDN_SEPARATOR) - 2) = '.';
15491f13c10Sho *(name + id_len + sizeof(DNS_UFQDN_SEPARATOR) - 1) = '\0';
15512d8b02fSho break;
15612d8b02fSho
157b99a8d82Sho default:
158b99a8d82Sho return 0;
159b99a8d82Sho }
160d30b96b8Sho
16112d8b02fSho LOG_DBG((LOG_MISC, 50, "dns_get_key: trying KEY RR for %s", name));
16212d8b02fSho ret = getrrsetbyname(name, C_IN, T_KEY, 0, &rr);
163d30b96b8Sho
164fb9475d6Sderaadt if (ret) {
165df915834Shshoexer LOG_DBG((LOG_MISC, 30, "dns_get_key: no DNS responses "
166df915834Shshoexer "(error %d)", ret));
16793da7598Sho return 0;
168d30b96b8Sho }
169d30b96b8Sho LOG_DBG((LOG_MISC, 80,
170d30b96b8Sho "dns_get_key: rrset class %d type %d ttl %d nrdatas %d nrsigs %d",
171d30b96b8Sho rr->rri_rdclass, rr->rri_rdtype, rr->rri_ttl, rr->rri_nrdatas,
172d30b96b8Sho rr->rri_nsigs));
173d30b96b8Sho
174d30b96b8Sho /* We don't accept unvalidated data. */
175fb9475d6Sderaadt if (!(rr->rri_flags & RRSET_VALIDATED)) {
17650eea14cSho LOG_DBG((LOG_MISC, 10, "dns_get_key: "
17750eea14cSho "got unvalidated response"));
178a8c1f587Sjakob freerrset(rr);
17993da7598Sho return 0;
180d30b96b8Sho }
181d30b96b8Sho /* Sanity. */
182fb9475d6Sderaadt if (rr->rri_nrdatas == 0 || rr->rri_rdtype != T_KEY) {
1834e89419aSaaron LOG_DBG((LOG_MISC, 30, "dns_get_key: no KEY RRs received"));
184a8c1f587Sjakob freerrset(rr);
18593da7598Sho return 0;
186d30b96b8Sho }
1870dc10397Shshoexer bzero(&key_rr, sizeof key_rr);
188d30b96b8Sho
189d30b96b8Sho /*
190d30b96b8Sho * Find a key with the wanted algorithm, if any.
191df915834Shshoexer * XXX If there are several keys present, we currently only find the
192df915834Shshoexer * first.
193d30b96b8Sho */
194fb9475d6Sderaadt for (i = 0; i < rr->rri_nrdatas && key_rr.datalen == 0; i++) {
195d30b96b8Sho key_rr.flags = ntohs((u_int16_t) * rr->rri_rdatas[i].rdi_data);
196d30b96b8Sho key_rr.protocol = *(rr->rri_rdatas[i].rdi_data + 2);
197d30b96b8Sho key_rr.algorithm = *(rr->rri_rdatas[i].rdi_data + 3);
198d30b96b8Sho
199fb9475d6Sderaadt if (key_rr.protocol != DNS_KEYPROTO_IPSEC) {
200df915834Shshoexer LOG_DBG((LOG_MISC, 50, "dns_get_key: ignored "
201df915834Shshoexer "non-IPsec key"));
202d30b96b8Sho continue;
203d30b96b8Sho }
204fb9475d6Sderaadt if (key_rr.algorithm != algorithm) {
205fb9475d6Sderaadt LOG_DBG((LOG_MISC, 50, "dns_get_key: ignored "
206fb9475d6Sderaadt "key with other alg"));
207d30b96b8Sho continue;
208d30b96b8Sho }
209d30b96b8Sho key_rr.datalen = rr->rri_rdatas[i].rdi_length - 4;
210fb9475d6Sderaadt if (key_rr.datalen <= 0) {
21150eea14cSho LOG_DBG((LOG_MISC, 50, "dns_get_key: "
21250eea14cSho "ignored bad key"));
213d30b96b8Sho key_rr.datalen = 0;
214d30b96b8Sho continue;
215d30b96b8Sho }
216d30b96b8Sho /* This key seems to fit our requirements... */
2175ae94ef8Sderaadt key_rr.data = malloc(key_rr.datalen);
218fb9475d6Sderaadt if (!key_rr.data) {
219df915834Shshoexer log_error("dns_get_key: malloc (%d) failed",
220df915834Shshoexer key_rr.datalen);
221a8c1f587Sjakob freerrset(rr);
22293da7598Sho return 0;
223d30b96b8Sho }
224df915834Shshoexer memcpy(key_rr.data, rr->rri_rdatas[i].rdi_data + 4,
225df915834Shshoexer key_rr.datalen);
226d30b96b8Sho *keylen = key_rr.datalen;
227d30b96b8Sho }
228d30b96b8Sho
229a8c1f587Sjakob freerrset(rr);
230d30b96b8Sho
231d30b96b8Sho if (key_rr.datalen)
232d30b96b8Sho return key_rr.data;
23393da7598Sho return 0;
234d30b96b8Sho }
235d30b96b8Sho
236d30b96b8Sho int
dns_RSA_dns_to_x509(u_int8_t * key,int keylen,RSA ** rsa_key)237d30b96b8Sho dns_RSA_dns_to_x509(u_int8_t *key, int keylen, RSA **rsa_key)
238d30b96b8Sho {
239d30b96b8Sho RSA *rsa;
240d30b96b8Sho int key_offset;
241d30b96b8Sho u_int8_t e_len;
242d30b96b8Sho
243fb9475d6Sderaadt if (!key || keylen <= 0) {
244d30b96b8Sho log_print("dns_RSA_dns_to_x509: invalid public key");
245d30b96b8Sho return -1;
246d30b96b8Sho }
247f61a65acSho rsa = RSA_new();
248fb9475d6Sderaadt if (rsa == NULL) {
24950eea14cSho log_error("dns_RSA_dns_to_x509: "
25050eea14cSho "failed to allocate new RSA struct");
251d30b96b8Sho return -1;
252d30b96b8Sho }
253d30b96b8Sho e_len = *key;
254d30b96b8Sho key_offset = 1;
255d30b96b8Sho
256fb9475d6Sderaadt if (e_len == 0) {
257fb9475d6Sderaadt if (keylen < 3) {
258d30b96b8Sho log_print("dns_RSA_dns_to_x509: invalid public key");
259f61a65acSho RSA_free(rsa);
260d30b96b8Sho return -1;
261d30b96b8Sho }
262d30b96b8Sho e_len = *(key + key_offset++) << 8;
263d30b96b8Sho e_len += *(key + key_offset++);
264d30b96b8Sho }
265fb9475d6Sderaadt if (e_len > (keylen - key_offset)) {
266d30b96b8Sho log_print("dns_RSA_dns_to_x509: invalid public key");
267f61a65acSho RSA_free(rsa);
268d30b96b8Sho return -1;
269d30b96b8Sho }
270f61a65acSho rsa->e = BN_bin2bn(key + key_offset, e_len, NULL);
271d30b96b8Sho key_offset += e_len;
272d30b96b8Sho
273d30b96b8Sho /* XXX if (keylen <= key_offset) -> "invalid public key" ? */
274d30b96b8Sho
275f61a65acSho rsa->n = BN_bin2bn(key + key_offset, keylen - key_offset, NULL);
276d30b96b8Sho
277d30b96b8Sho *rsa_key = rsa;
278d30b96b8Sho
279d30b96b8Sho LOG_DBG((LOG_MISC, 30, "dns_RSA_dns_to_x509: got %d bits RSA key",
280f61a65acSho BN_num_bits(rsa->n)));
281d30b96b8Sho return 0;
282d30b96b8Sho }
283d30b96b8Sho
284d30b96b8Sho #if notyet
285d30b96b8Sho int
dns_RSA_x509_to_dns(RSA * rsa_key,u_int8_t * key,int * keylen)286d30b96b8Sho dns_RSA_x509_to_dns(RSA *rsa_key, u_int8_t *key, int *keylen)
287d30b96b8Sho {
288d30b96b8Sho return 0;
289d30b96b8Sho }
290d30b96b8Sho #endif
291