/* * packet.c -- low-level DNS packet encoding and decoding functions. * * Copyright (c) 2001-2006, NLnet Labs. All rights reserved. * * See LICENSE for the license. * */ #include "config.h" #include #include "packet.h" #include "query.h" #include "rdata.h" int round_robin = 0; int minimal_responses = 0; static void encode_dname(query_type *q, domain_type *domain) { while (domain->parent && query_get_dname_offset(q, domain) == 0) { query_put_dname_offset(q, domain, buffer_position(q->packet)); DEBUG(DEBUG_NAME_COMPRESSION, 2, (LOG_INFO, "dname: %s, number: %lu, offset: %u\n", domain_to_string(domain), (unsigned long) domain->number, query_get_dname_offset(q, domain))); buffer_write(q->packet, dname_name(domain_dname(domain)), label_length(dname_name(domain_dname(domain))) + 1U); domain = domain->parent; } if (domain->parent) { DEBUG(DEBUG_NAME_COMPRESSION, 2, (LOG_INFO, "dname: %s, number: %lu, pointer: %u\n", domain_to_string(domain), (unsigned long) domain->number, query_get_dname_offset(q, domain))); assert(query_get_dname_offset(q, domain) <= MAX_COMPRESSION_OFFSET); buffer_write_u16(q->packet, 0xc000 | query_get_dname_offset(q, domain)); } else { buffer_write_u8(q->packet, 0); } } int packet_encode_rr(query_type *q, domain_type *owner, rr_type *rr, uint32_t ttl) { size_t truncation_mark; uint16_t rdlength = 0; size_t rdlength_pos; uint16_t j; assert(q); assert(owner); assert(rr); /* * If the record does not in fit in the packet the packet size * will be restored to the mark. */ truncation_mark = buffer_position(q->packet); encode_dname(q, owner); buffer_write_u16(q->packet, rr->type); buffer_write_u16(q->packet, rr->klass); buffer_write_u32(q->packet, ttl); /* Reserve space for rdlength. */ rdlength_pos = buffer_position(q->packet); buffer_skip(q->packet, sizeof(rdlength)); for (j = 0; j < rr->rdata_count; ++j) { switch (rdata_atom_wireformat_type(rr->type, j)) { case RDATA_WF_COMPRESSED_DNAME: encode_dname(q, rdata_atom_domain(rr->rdatas[j])); break; case RDATA_WF_UNCOMPRESSED_DNAME: { const dname_type *dname = domain_dname( rdata_atom_domain(rr->rdatas[j])); buffer_write(q->packet, dname_name(dname), dname->name_size); break; } default: buffer_write(q->packet, rdata_atom_data(rr->rdatas[j]), rdata_atom_size(rr->rdatas[j])); break; } } if (!query_overflow(q)) { rdlength = (buffer_position(q->packet) - rdlength_pos - sizeof(rdlength)); buffer_write_u16_at(q->packet, rdlength_pos, rdlength); return 1; } else { buffer_set_position(q->packet, truncation_mark); query_clear_dname_offsets(q, truncation_mark); assert(!query_overflow(q)); return 0; } } int packet_encode_rrset(query_type *query, domain_type *owner, rrset_type *rrset, int section, #ifdef MINIMAL_RESPONSES size_t minimal_respsize, int* done) #else size_t ATTR_UNUSED(minimal_respsize), int* ATTR_UNUSED(done)) #endif { uint16_t i; size_t truncation_mark; uint16_t added = 0; int all_added = 1; #ifdef MINIMAL_RESPONSES int minimize_response = (section >= OPTIONAL_AUTHORITY_SECTION); int truncate_rrset = (section == ANSWER_SECTION || section == AUTHORITY_SECTION); #else int truncate_rrset = (section == ANSWER_SECTION || section == AUTHORITY_SECTION || section == OPTIONAL_AUTHORITY_SECTION); #endif static int round_robin_off = 0; int do_robin = (round_robin && section == ANSWER_SECTION && query->qtype != TYPE_AXFR && query->qtype != TYPE_IXFR); uint16_t start; rrset_type *rrsig; assert(rrset->rr_count > 0); truncation_mark = buffer_position(query->packet); if(do_robin && rrset->rr_count) start = (uint16_t)(round_robin_off++ % rrset->rr_count); else start = 0; for (i = start; i < rrset->rr_count; ++i) { if (packet_encode_rr(query, owner, &rrset->rrs[i], rrset->rrs[i].ttl)) { ++added; } else { all_added = 0; start = 0; break; } } for (i = 0; i < start; ++i) { if (packet_encode_rr(query, owner, &rrset->rrs[i], rrset->rrs[i].ttl)) { ++added; } else { all_added = 0; break; } } if (all_added && query->edns.dnssec_ok && zone_is_secure(rrset->zone) && rrset_rrtype(rrset) != TYPE_RRSIG && (rrsig = domain_find_rrset(owner, rrset->zone, TYPE_RRSIG))) { for (i = 0; i < rrsig->rr_count; ++i) { if (rr_rrsig_type_covered(&rrsig->rrs[i]) == rrset_rrtype(rrset)) { if (packet_encode_rr(query, owner, &rrsig->rrs[i], rrset_rrtype(rrset)==TYPE_SOA?rrset->rrs[0].ttl:rrsig->rrs[i].ttl)) { ++added; } else { all_added = 0; break; } } } } #ifdef MINIMAL_RESPONSES if ((!all_added || buffer_position(query->packet) > minimal_respsize) && !query->tcp && minimize_response) { /* Truncate entire RRset. */ buffer_set_position(query->packet, truncation_mark); query_clear_dname_offsets(query, truncation_mark); added = 0; *done = 1; } #endif if (!all_added && truncate_rrset) { /* Truncate entire RRset and set truncate flag. */ buffer_set_position(query->packet, truncation_mark); query_clear_dname_offsets(query, truncation_mark); TC_SET(query->packet); added = 0; } return added; } int packet_skip_dname(buffer_type *packet) { while (1) { uint8_t label_size; if (!buffer_available(packet, 1)) return 0; label_size = buffer_read_u8(packet); if (label_size == 0) { return 1; } else if ((label_size & 0xc0) != 0) { if (!buffer_available(packet, 1)) return 0; buffer_skip(packet, 1); return 1; } else if (!buffer_available(packet, label_size)) { return 0; } else { buffer_skip(packet, label_size); } } } int packet_skip_rr(buffer_type *packet, int question_section) { if (!packet_skip_dname(packet)) return 0; if (question_section) { if (!buffer_available(packet, 4)) return 0; buffer_skip(packet, 4); } else { uint16_t rdata_size; if (!buffer_available(packet, 10)) return 0; buffer_skip(packet, 8); rdata_size = buffer_read_u16(packet); if (!buffer_available(packet, rdata_size)) return 0; buffer_skip(packet, rdata_size); } return 1; } rr_type * packet_read_rr(region_type *region, domain_table_type *owners, buffer_type *packet, int question_section) { const dname_type *owner; uint16_t rdlength; ssize_t rdata_count; rdata_atom_type *rdatas; rr_type *result = (rr_type *) region_alloc(region, sizeof(rr_type)); owner = dname_make_from_packet(region, packet, 1, 1); if (!owner || !buffer_available(packet, 2*sizeof(uint16_t))) { return NULL; } result->owner = domain_table_insert(owners, owner); result->type = buffer_read_u16(packet); result->klass = buffer_read_u16(packet); if (question_section) { result->ttl = 0; result->rdata_count = 0; result->rdatas = NULL; return result; } else if (!buffer_available(packet, sizeof(uint32_t) + sizeof(uint16_t))) { return NULL; } result->ttl = buffer_read_u32(packet); rdlength = buffer_read_u16(packet); if (!buffer_available(packet, rdlength)) { return NULL; } rdata_count = rdata_wireformat_to_rdata_atoms( region, owners, result->type, rdlength, packet, &rdatas); if (rdata_count == -1) { return NULL; } result->rdata_count = rdata_count; result->rdatas = rdatas; return result; } int packet_read_query_section(buffer_type *packet, uint8_t* dst, uint16_t* qtype, uint16_t* qclass) { uint8_t *query_name = buffer_current(packet); uint8_t *src = query_name; size_t len; while (*src) { /* * If we are out of buffer limits or we have a pointer * in question dname or the domain name is longer than * MAXDOMAINLEN ... */ if ((*src & 0xc0) || (src + *src + 2 > buffer_end(packet)) || (src + *src + 2 > query_name + MAXDOMAINLEN)) { return 0; } memcpy(dst, src, *src + 1); dst += *src + 1; src += *src + 1; } *dst++ = *src++; /* Make sure name is not too long or we have stripped packet... */ len = src - query_name; if (len > MAXDOMAINLEN || (src + 2*sizeof(uint16_t) > buffer_end(packet))) { return 0; } buffer_set_position(packet, src - buffer_begin(packet)); *qtype = buffer_read_u16(packet); *qclass = buffer_read_u16(packet); return 1; } int packet_find_notify_serial(buffer_type *packet, uint32_t* serial) { size_t saved_position = buffer_position(packet); /* count of further RRs after question section */ size_t rrcount = ANCOUNT(packet) + NSCOUNT(packet) + ARCOUNT(packet); size_t i; buffer_set_position(packet, QHEADERSZ); /* skip all question RRs */ for (i = 0; i < QDCOUNT(packet); ++i) { if (!packet_skip_rr(packet, 1)) { buffer_set_position(packet, saved_position); return 0; } } /* Find the SOA RR */ for(i = 0; i < rrcount; i++) { uint16_t rdata_size; if (!packet_skip_dname(packet)) break; /* check length available for type,class,ttl,rdatalen */ if (!buffer_available(packet, 10)) break; /* check type, class */ if(buffer_read_u16(packet) == TYPE_SOA) { if(buffer_read_u16(packet) != CLASS_IN) break; buffer_skip(packet, 4); /* skip ttl */ rdata_size = buffer_read_u16(packet); if (!buffer_available(packet, rdata_size)) break; /* skip two dnames, then serial */ if (!packet_skip_dname(packet) || !packet_skip_dname(packet)) break; if (!buffer_available(packet, 4)) break; *serial = buffer_read_u32(packet); buffer_set_position(packet, saved_position); return 1; } /* continue to next RR */ buffer_skip(packet, 6); rdata_size = buffer_read_u16(packet); if (!buffer_available(packet, rdata_size)) break; buffer_skip(packet, rdata_size); } /* failed to find SOA */ buffer_set_position(packet, saved_position); return 0; }