/* * Copyright (c) 2000-2004 Sendmail, Inc. and its suppliers. * All rights reserved. * * By using this file, you agree to the terms and conditions set * forth in the LICENSE file which can be found at the top level of * the sendmail distribution. * */ /* * Copyright (c) 1995, 1996, 1997, 1998, 1999 Kungliga Tekniska Högskolan * (Royal Institute of Technology, Stockholm, Sweden). * 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. Neither the name of the Institute 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 INSTITUTE 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 INSTITUTE 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. */ #pragma ident "%Z%%M% %I% %E% SMI" #include #if DNSMAP # if NAMED_BIND # include "sm_resolve.h" SM_RCSID("$Id: sm_resolve.c,v 8.34 2006/08/15 23:24:58 ca Exp $") static struct stot { const char *st_name; int st_type; } stot[] = { # if NETINET { "A", T_A }, # endif /* NETINET */ # if NETINET6 { "AAAA", T_AAAA }, # endif /* NETINET6 */ { "NS", T_NS }, { "CNAME", T_CNAME }, { "PTR", T_PTR }, { "MX", T_MX }, { "TXT", T_TXT }, { "AFSDB", T_AFSDB }, { "SRV", T_SRV }, { NULL, 0 } }; static DNS_REPLY_T *parse_dns_reply __P((unsigned char *, int)); /* ** DNS_STRING_TO_TYPE -- convert resource record name into type ** ** Parameters: ** name -- name of resource record type ** ** Returns: ** type if succeeded. ** -1 otherwise. */ int dns_string_to_type(name) const char *name; { struct stot *p = stot; for (p = stot; p->st_name != NULL; p++) if (sm_strcasecmp(name, p->st_name) == 0) return p->st_type; return -1; } /* ** DNS_TYPE_TO_STRING -- convert resource record type into name ** ** Parameters: ** type -- resource record type ** ** Returns: ** name if succeeded. ** NULL otherwise. */ const char * dns_type_to_string(type) int type; { struct stot *p = stot; for (p = stot; p->st_name != NULL; p++) if (type == p->st_type) return p->st_name; return NULL; } /* ** DNS_FREE_DATA -- free all components of a DNS_REPLY_T ** ** Parameters: ** r -- pointer to DNS_REPLY_T ** ** Returns: ** none. */ void dns_free_data(r) DNS_REPLY_T *r; { RESOURCE_RECORD_T *rr; if (r->dns_r_q.dns_q_domain != NULL) sm_free(r->dns_r_q.dns_q_domain); for (rr = r->dns_r_head; rr != NULL; ) { RESOURCE_RECORD_T *tmp = rr; if (rr->rr_domain != NULL) sm_free(rr->rr_domain); if (rr->rr_u.rr_data != NULL) sm_free(rr->rr_u.rr_data); rr = rr->rr_next; sm_free(tmp); } sm_free(r); } /* ** PARSE_DNS_REPLY -- parse DNS reply data. ** ** Parameters: ** data -- pointer to dns data ** len -- len of data ** ** Returns: ** pointer to DNS_REPLY_T if succeeded. ** NULL otherwise. */ static DNS_REPLY_T * parse_dns_reply(data, len) unsigned char *data; int len; { unsigned char *p; int status; size_t l; char host[MAXHOSTNAMELEN]; DNS_REPLY_T *r; RESOURCE_RECORD_T **rr; r = (DNS_REPLY_T *) sm_malloc(sizeof(*r)); if (r == NULL) return NULL; memset(r, 0, sizeof(*r)); p = data; /* doesn't work on Crays? */ memcpy(&r->dns_r_h, p, sizeof(r->dns_r_h)); p += sizeof(r->dns_r_h); status = dn_expand(data, data + len, p, host, sizeof(host)); if (status < 0) { dns_free_data(r); return NULL; } r->dns_r_q.dns_q_domain = sm_strdup(host); if (r->dns_r_q.dns_q_domain == NULL) { dns_free_data(r); return NULL; } p += status; GETSHORT(r->dns_r_q.dns_q_type, p); GETSHORT(r->dns_r_q.dns_q_class, p); rr = &r->dns_r_head; while (p < data + len) { int type, class, ttl, size, txtlen; status = dn_expand(data, data + len, p, host, sizeof(host)); if (status < 0) { dns_free_data(r); return NULL; } p += status; GETSHORT(type, p); GETSHORT(class, p); GETLONG(ttl, p); GETSHORT(size, p); if (p + size > data + len) { /* ** announced size of data exceeds length of ** data paket: someone is cheating. */ if (LogLevel > 5) sm_syslog(LOG_WARNING, NOQID, "ERROR: DNS RDLENGTH=%d > data len=%d", size, len - (p - data)); dns_free_data(r); return NULL; } *rr = (RESOURCE_RECORD_T *) sm_malloc(sizeof(**rr)); if (*rr == NULL) { dns_free_data(r); return NULL; } memset(*rr, 0, sizeof(**rr)); (*rr)->rr_domain = sm_strdup(host); if ((*rr)->rr_domain == NULL) { dns_free_data(r); return NULL; } (*rr)->rr_type = type; (*rr)->rr_class = class; (*rr)->rr_ttl = ttl; (*rr)->rr_size = size; switch (type) { case T_NS: case T_CNAME: case T_PTR: status = dn_expand(data, data + len, p, host, sizeof(host)); if (status < 0) { dns_free_data(r); return NULL; } (*rr)->rr_u.rr_txt = sm_strdup(host); if ((*rr)->rr_u.rr_txt == NULL) { dns_free_data(r); return NULL; } break; case T_MX: case T_AFSDB: status = dn_expand(data, data + len, p + 2, host, sizeof(host)); if (status < 0) { dns_free_data(r); return NULL; } l = strlen(host) + 1; (*rr)->rr_u.rr_mx = (MX_RECORD_T *) sm_malloc(sizeof(*((*rr)->rr_u.rr_mx)) + l); if ((*rr)->rr_u.rr_mx == NULL) { dns_free_data(r); return NULL; } (*rr)->rr_u.rr_mx->mx_r_preference = (p[0] << 8) | p[1]; (void) sm_strlcpy((*rr)->rr_u.rr_mx->mx_r_domain, host, l); break; case T_SRV: status = dn_expand(data, data + len, p + 6, host, sizeof(host)); if (status < 0) { dns_free_data(r); return NULL; } l = strlen(host) + 1; (*rr)->rr_u.rr_srv = (SRV_RECORDT_T*) sm_malloc(sizeof(*((*rr)->rr_u.rr_srv)) + l); if ((*rr)->rr_u.rr_srv == NULL) { dns_free_data(r); return NULL; } (*rr)->rr_u.rr_srv->srv_r_priority = (p[0] << 8) | p[1]; (*rr)->rr_u.rr_srv->srv_r_weight = (p[2] << 8) | p[3]; (*rr)->rr_u.rr_srv->srv_r_port = (p[4] << 8) | p[5]; (void) sm_strlcpy((*rr)->rr_u.rr_srv->srv_r_target, host, l); break; case T_TXT: /* ** The TXT record contains the length as ** leading byte, hence the value is restricted ** to 255, which is less than the maximum value ** of RDLENGTH (size). Nevertheless, txtlen ** must be less than size because the latter ** specifies the length of the entire TXT ** record. */ txtlen = *p; if (txtlen >= size) { if (LogLevel > 5) sm_syslog(LOG_WARNING, NOQID, "ERROR: DNS TXT record size=%d <= text len=%d", size, txtlen); dns_free_data(r); return NULL; } (*rr)->rr_u.rr_txt = (char *) sm_malloc(txtlen + 1); if ((*rr)->rr_u.rr_txt == NULL) { dns_free_data(r); return NULL; } (void) sm_strlcpy((*rr)->rr_u.rr_txt, (char*) p + 1, txtlen + 1); break; default: (*rr)->rr_u.rr_data = (unsigned char*) sm_malloc(size); if ((*rr)->rr_u.rr_data == NULL) { dns_free_data(r); return NULL; } (void) memcpy((*rr)->rr_u.rr_data, p, size); break; } p += size; rr = &(*rr)->rr_next; } *rr = NULL; return r; } /* ** DNS_LOOKUP_INT -- perform dns map lookup (internal helper routine) ** ** Parameters: ** domain -- name to lookup ** rr_class -- resource record class ** rr_type -- resource record type ** retrans -- retransmission timeout ** retry -- number of retries ** ** Returns: ** result of lookup if succeeded. ** NULL otherwise. */ DNS_REPLY_T * dns_lookup_int(domain, rr_class, rr_type, retrans, retry) const char *domain; int rr_class; int rr_type; time_t retrans; int retry; { int len; unsigned long old_options = 0; time_t save_retrans = 0; int save_retry = 0; DNS_REPLY_T *r = NULL; unsigned char reply[1024]; if (tTd(8, 16)) { old_options = _res.options; _res.options |= RES_DEBUG; sm_dprintf("dns_lookup(%s, %d, %s)\n", domain, rr_class, dns_type_to_string(rr_type)); } if (retrans > 0) { save_retrans = _res.retrans; _res.retrans = retrans; } if (retry > 0) { save_retry = _res.retry; _res.retry = retry; } errno = 0; SM_SET_H_ERRNO(0); len = res_search(domain, rr_class, rr_type, reply, sizeof(reply)); if (tTd(8, 16)) { _res.options = old_options; sm_dprintf("dns_lookup(%s, %d, %s) --> %d\n", domain, rr_class, dns_type_to_string(rr_type), len); } if (len >= 0) r = parse_dns_reply(reply, len); if (retrans > 0) _res.retrans = save_retrans; if (retry > 0) _res.retry = save_retry; return r; } # if 0 DNS_REPLY_T * dns_lookup(domain, type_name, retrans, retry) const char *domain; const char *type_name; time_t retrans; int retry; { int type; type = dns_string_to_type(type_name); if (type == -1) { if (tTd(8, 16)) sm_dprintf("dns_lookup: unknown resource type: `%s'\n", type_name); return NULL; } return dns_lookup_int(domain, C_IN, type, retrans, retry); } # endif /* 0 */ # endif /* NAMED_BIND */ #endif /* DNSMAP */