/* dns.c * (c) Jonas Gunz, 2019 * License: MIT * */ #include "dns.h" int dns_construct_header ( struct dns_header* _header, char* _buffer, int _bufflen ) { if ( !_buffer || !_header || _bufflen < 12 ) return -1; *((uint16_t*)_buffer) = _header->id; //Since only copied, no flipping necessary _buffer[2] = ((_header->QR & 0x01) << 7) | ((_header->OPCODE & 0x0F) << 3) | ((_header->AA & 0x01) << 2) | ((_header->TC & 0x01) << 1) | ( _header->RD & 0x01); _buffer[3] = ((_header->RA & 0x01) << 7) | ((_header->Z & 0x07) << 4) | ( _header->RCODE & 0x0F); *((uint16_t*)(_buffer + 4 )) = FLIP_BYTES(_header->question_count); *((uint16_t*)(_buffer + 6 )) = FLIP_BYTES(_header->answer_count); *((uint16_t*)(_buffer + 8 )) = FLIP_BYTES(_header->authorative_count); *((uint16_t*)(_buffer + 10)) = FLIP_BYTES(_header->additional_count); return 12; } int dns_destroy_struct ( struct dns_message* _msg ) { if ( !_msg ) return -1; if ( _msg->question_count > 0 && _msg->question) { free ( _msg->question ); _msg->question = NULL; } if ( _msg->answer_count > 0 && _msg->answer) { free ( _msg->answer ); _msg->answer = NULL; } return 0; } int dns_parse_packet ( char* _buffer, int _bufflen, struct dns_message* _msg ) { //TODO refactor if ( !_buffer || !_bufflen || !_msg ) return 1; //Invalid input if ( _bufflen < 12 ) return 1; //Too short to contain a DNS header //TODO test _msg->header.id = *( (uint16_t*) _buffer ); _msg->header.QR = ( 0x80 & *( (uint8_t*) (_buffer + 2)) ) >> 7; _msg->header.OPCODE = (0x78 & *( (uint8_t*) (_buffer + 2))) >> 3; _msg->header.AA = (0x04 & *( (uint8_t*) (_buffer + 2))) >> 2; _msg->header.TC = (0x02 & *( (uint8_t*) (_buffer + 2))) >> 1; _msg->header.RD = (0x01 & *( (uint8_t*) (_buffer + 2))); _msg->header.RA = (0x80 & *( (uint8_t*) (_buffer + 3))) >> 7; _msg->header.Z = (0x70 & *( (uint8_t*) (_buffer + 3))) >> 4; _msg->header.RCODE = (0x0F & *( (uint8_t*) (_buffer + 3))); _msg->question_count = _msg->header.question_count = (*((uint8_t*) (_buffer + 4 )) << 8) | *((uint8_t*) (_buffer + 5 )); _msg->answer_count = _msg->header.answer_count = (*((uint8_t*) (_buffer + 6 )) << 8) | *((uint8_t*) (_buffer + 7 )); _msg->header.authorative_count = (*((uint8_t*) (_buffer + 8 )) << 8) | *((uint8_t*) (_buffer + 9 )); _msg->header.additional_count = (*((uint8_t*) (_buffer + 10)) << 8) | *((uint8_t*) (_buffer + 11)); //TODO remove printf("ANSWER %i\n", _msg->header.answer_count); printf("QUESTI %i\n", _msg->header.question_count); printf("AUTHOR %i\n", _msg->header.authorative_count); printf("ADDITI %i\n", _msg->header.additional_count); //Check for sensible QD, AN, NS and ARCOUNTS before massive memory allocation if( _msg->header.question_count > 4 || _msg->header.answer_count > 32 || _msg->header.authorative_count > 32 || _msg->header.additional_count > 32 ) { return 1; } //Allocate question array //TODO Only implements question section. size_t qsize = sizeof(typeof(*(_msg->question))) * _msg->question_count; _msg->question_count = _msg->header.question_count; _msg->question = malloc ( qsize ); memset( _msg->question, 0, qsize ); if (!_msg->question) //malloc failed return 1; int ptr = 12; //byte counter for (int i = 0; i < _msg->question_count; i++) { int qname_len = qname_check ( (_buffer + ptr), _bufflen - ptr); if (qname_len <= 0) //Check for faulty QNAME return 1; _msg->question[i].qname = _buffer + ptr; ptr += qname_len; if( ptr >= (_bufflen - 4) ) //Out of bounds check return 1; _msg->question[i].qtype = ((uint8_t)*(_buffer + ptr) << 8) | ((uint8_t)*(_buffer + ptr + 1)); ptr += 2; _msg->question[i].qclass = ((uint8_t)*(_buffer + ptr) << 8) | ((uint8_t)*(_buffer + ptr + 1)); ptr += 2; } return 0; } int fqdn_to_qname( char* _source, int _sourcelen, char* _sink ,int _sinklen ) { int i; int lastdot = 0; if (_sourcelen < 1 || _sinklen < 1) return -1; _sink[0] = ' '; //Set to known value for(i = 0; ((i < _sourcelen) && (i < (_sinklen - 1))); i++) { //Copy offset 1 if(! _source[i]) break; _sink[i+1] = _source[i]; } if( _source[i] ) // _source not terminated, thus no valid string return -1; for (int o = 0; o < i; o++) { if( _sink[o] == '.') { _sink[lastdot] = o - lastdot - 1; lastdot = o; } } _sink[lastdot] = i - lastdot; _sink[i + 1] = 0; return i+2; } int qname_to_fqdn( char* _source, int _sourcelen, char* _sink, int _sinklen ) { if ( !_sourcelen || !_sinklen ) { return -1; } unsigned int next_dot = _source[0] + 1; int i = 1; for(i = 1; i < _sourcelen; i++) { if( i > _sinklen){ //Output too small. Not >= bc sink[i-1] is used return -1; } if ( !_source[i] ) { _sink[i-1] = '\0'; break; } else if (i == next_dot) { _sink[i-1]='.'; next_dot = _source[i] + i + 1; } else { _sink[i-1] = _source[i]; } } return i-1; } int qname_check( char* _source, int _sourcelen ) { if (!_sourcelen) return -1; int next_dot = 0; //TODO questionable control flow //TODO add ASCII prrintable check for (int i = 0; i < _sourcelen; i++) { if ( i == next_dot ) { if (_source[i]) { //Not last dot next_dot = _source[i] + i + 1; } else { //last dot return i+1; } } else if (!_source[i]) { //Unexpected \0 return -1; } } return -1; }