/************************************************************************** * * dns_resolver.c: Etherboot support for resolution of host/domain * names in filename parameters * Written 2004 by Anselm M. Hoffmeister * * * 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 * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. * * This code is using nuts and bolts from throughout etherboot. * It is a fresh implementation according to the DNS RFC, #1035 * * REVISION HISTORY: * ================ * 2004-05-10 File created * 2004-05-19 First release to CVS * 2004-05-22 CNAME support first stage finished * 2004-05-24 First "stable" release to CVS * 2004-08-28 Improve readability, set recursion flag * 2005-04-30 Tidied up to the point of being a complete rewrite (mcb30) ***************************************************************************/ #include "etherboot.h" #include "nic.h" #include "resolv.h" #include "dns.h" /* * await_dns * Shall be called on any incoming packet during the resolution process * (as is the case with all the other await_ functions in etherboot) * Param: as any await functions * */ static int await_dns ( int ival, void *ptr, unsigned short ptype __unused, struct iphdr *ip __unused, struct udphdr *udp, struct tcphdr *tcp __unused ) { struct dns_header **header = ptr; if ( ! udp ) return 0; if ( ntohs ( udp->dest ) != ival ) return 0; *header = ( struct dns_header * ) ( udp + 1 ); return 1; } /* * Send a name server query and wait for a response. Query is retried * up to DNS_MAX_RETRIES times. Returns a pointer to the answer * packet, or NULL if no answer was received. * */ struct dns_header * dns_query ( struct dns_query *query, unsigned int query_len, struct sockaddr_in *nameserver ) { long timeout; int retry; struct dns_header *reply; for ( retry = 0 ; retry < DNS_MAX_RETRIES ; retry++ ) { udp_transmit ( nameserver->sin_addr.s_addr, nameserver->sin_port, nameserver->sin_port, query_len, query ); timeout = rfc2131_sleep_interval ( TIMEOUT, retry ); if ( ! await_reply ( await_dns, nameserver->sin_port, &reply, timeout ) ) continue; if ( reply->id != query->dns.id ) { DBG ( "DNS received unexpected reply ID %d " "(wanted %d)\n", ntohs ( reply->id ), ntohs ( query->dns.id ) ); continue; } /* We have a valid reply! */ return reply; } return NULL; } /* * Compare two DNS names to see if they are the same. Takes * compressed names in the reply into account (though the query name * must be uncompressed). Returns 0 for a match (for consistency with * strcmp et al). * */ static inline int dns_name_cmp ( const char *qname, const char *rname, struct dns_header *reply ) { int i; while ( 1 ) { /* Obtain next section of rname */ while ( ( *rname ) & 0xc0 ) { rname = ( ( char * ) reply + ( ntohs( *((uint16_t *)rname) ) & ~0xc000 )); } /* Check that lengths match */ if ( *rname != *qname ) return 1; /* If length is zero, we have reached the end */ if ( ! *qname ) return 0; /* Check that data matches */ for ( i = *qname + 1; i > 0 ; i-- ) { if ( *(rname++) != *(qname++) ) return 1; } } } /* * Skip over a DNS name, which may be compressed * */ static inline const char * dns_skip_name ( const char *name ) { while ( 1 ) { if ( ! *name ) { /* End of name */ return ( name + 1); } if ( *name & 0xc0 ) { /* Start of a compressed name */ return ( name + 2 ); } /* Uncompressed name portion */ name += *name + 1; } } /* * Find a Resource Record in a reply packet corresponding to our * query. Returns a pointer to the RR, or NULL if no answer found. * */ struct dns_rr_info * dns_find_rr ( struct dns_query *query, struct dns_header *reply ) { int i, cmp; const char *p = ( ( char * ) reply ) + sizeof ( struct dns_header ); /* Skip over the questions section */ for ( i = ntohs ( reply->qdcount ) ; i > 0 ; i-- ) { p = dns_skip_name ( p ) + sizeof ( struct dns_query_info ); } /* Process the answers section */ for ( i = ntohs ( reply->ancount ) ; i > 0 ; i-- ) { cmp = dns_name_cmp ( query->payload, p, reply ); p = dns_skip_name ( p ); if ( cmp == 0 ) return ( ( struct dns_rr_info * ) p ); p += ( sizeof ( struct dns_rr_info ) + ntohs ( ( ( struct dns_rr_info * ) p )->rdlength ) ); } return NULL; } /* * Convert a standard NUL-terminated string to a DNS query name, * consisting of "element" pairs. * * Returns a pointer to the character following the constructed DNS * query name. * */ static inline char * dns_make_name ( char *dest, const char *name ) { char *length_byte = dest++; char c; while ( ( c = *(name++) ) ) { if ( c == '.' ) { *length_byte = dest - length_byte - 1; length_byte = dest; } *(dest++) = c; } *length_byte = dest - length_byte - 1; *(dest++) = '\0'; return dest; } /* * Produce a printable version of a DNS name. Used only for debugging. * */ static inline char * dns_unmake_name ( char *name ) { char *p; unsigned int len; p = name; while ( ( len = *p ) ) { *(p++) = '.'; p += len; } return name + 1; } /* * Decompress a DNS name. * * Returns a pointer to the character following the decompressed DNS * name. * */ static inline char * dns_decompress_name ( char *dest, const char *name, struct dns_header *header ) { int i, len; do { /* Obtain next section of name */ while ( ( *name ) & 0xc0 ) { name = ( ( char * ) header + ( ntohs ( *((uint16_t *)name) ) & ~0xc000 ) ); } /* Copy data */ len = *name; for ( i = len + 1 ; i > 0 ; i-- ) { *(dest++) = *(name++); } } while ( len ); return dest; } /* * Resolve a name using DNS * */ static int dns_resolv ( struct in_addr *addr, const char *name ) { struct dns_query query; struct dns_query_info *query_info; struct dns_header *reply; struct dns_rr_info *rr_info; struct sockaddr_in nameserver; uint16_t qtype; unsigned int recursion = 0; unsigned int id = 1; /* Fail immediately if we have no name server */ if ( ! arptable[ARP_NAMESERVER].ipaddr.s_addr ) { DBG ( "DNS has no nameserver\n" ); return 0; } DBG ( "DNS resolving %s\n", name ); /* Set up the query data */ nameserver.sin_addr = arptable[ARP_NAMESERVER].ipaddr; nameserver.sin_port = DNS_UDP_PORT; memset ( &query, 0, sizeof ( query ) ); query.dns.flags = htons ( DNS_FLAG_QUERY | DNS_FLAG_OPCODE_QUERY | DNS_FLAG_RD ); query.dns.qdcount = htons ( 1 ); query_info = ( void * ) dns_make_name ( query.payload, name ); query_info->qtype = htons ( DNS_TYPE_A ); query_info->qclass = htons ( DNS_CLASS_IN ); while ( 1 ) { /* Transmit current query, wait for reply */ query.dns.id = htons ( id++ ); qtype = ntohs ( query_info->qtype ); reply = dns_query ( &query, ( ( ( char * ) query_info ) + sizeof ( *query_info ) - ( ( char * ) &query ) ), &nameserver ); if ( ! reply ) { DBG ( "DNS got no response from server %@ (port %d)\n", nameserver.sin_addr.s_addr, nameserver.sin_port ); return 0; } /* Search through response for useful answers. Do * this multiple times, to take advantage of useful * nameservers which send us e.g. the CNAME *and* the * A record for the pointed-to name. */ while ( ( rr_info = dns_find_rr ( &query, reply ) ) ) { switch ( ntohs ( rr_info->type ) ) { case DNS_TYPE_A: { /* Found the target A record */ struct dns_rr_info_a *rr_info_a = ( struct dns_rr_info_a * ) rr_info; *addr = rr_info_a->in_addr; DBG ( "DNS found address %@\n", addr->s_addr ); return 1; } case DNS_TYPE_CNAME: { /* Found a CNAME record - update the query */ struct dns_rr_info_cname *rr_info_cname = ( struct dns_rr_info_cname * ) rr_info; char *cname = rr_info_cname->cname; query_info = ( void * ) dns_decompress_name ( query.payload, cname, reply ); DBG ( "DNS found CNAME %s\n", dns_unmake_name ( query.payload ) ); DBG ( "", /* Reconstruct name */ dns_make_name ( query.payload, query.payload + 1 ) ); query_info->qtype = htons ( DNS_TYPE_A ); query_info->qclass = htons ( DNS_CLASS_IN ); if ( ++recursion > DNS_MAX_CNAME_RECURSION ) { DBG ( "DNS recursion exceeded\n" ); return 0; } break; } default: DBG ( "DNS got unknown record type %d\n", ntohs ( rr_info->type ) ); return 0; } } /* Determine what to do next based on the type of * query we issued and the reponse we received */ switch ( qtype ) { case DNS_TYPE_A : /* We asked for an A record and got nothing; * try the CNAME. */ DBG ( "DNS found no A record; trying CNAME\n" ); query_info->qtype = htons ( DNS_TYPE_CNAME ); break; case DNS_TYPE_CNAME : /* We asked for a CNAME record. If we didn't * get any response (i.e. the next A query * isn't already set up), then abort. */ if ( query_info->qtype != htons ( DNS_TYPE_A ) ) { DBG ( "DNS found no CNAME record\n" ); return 0; } break; default: DBG ( "DNS internal error - inconsistent state\n" ); } } } static struct resolver dns_resolver __resolver = { .name = "DNS", .resolv = dns_resolv, };