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/*
* dns.c
*
* Copyright (C) 2012-16 - ntop.org
*
* Michele Campus - <campus@ntop.org>
*
* This file is part of nDPI, an open source deep packet inspection
* library based on the OpenDPI and PACE technology by ipoque GmbH
*
* nDPI is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* nDPI 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 Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with nDPI. If not, see <http://www.gnu.org/licenses/>.
*
*/
#include "ndpi_protocols.h"
#ifdef NDPI_PROTOCOL_DNS
#define FLAGS_MASK 0x8000
void ndpi_search_dns(struct ndpi_detection_module_struct *ndpi_struct, struct ndpi_flow_struct *flow)
{
int x;
u_int8_t is_query, ret_code;
u_int16_t s_port = 0;
u_int16_t d_port = 0;
NDPI_LOG(NDPI_PROTOCOL_DNS, ndpi_struct, NDPI_LOG_DEBUG, "search DNS.\n");
if(flow->packet.udp != NULL)
{
s_port = ntohs(flow->packet.udp->source);
d_port = ntohs(flow->packet.udp->dest);
x = 0;
}
else if(flow->packet.tcp != NULL) /* pkt size > 512 bytes */
{
s_port = ntohs(flow->packet.tcp->source);
d_port = ntohs(flow->packet.tcp->dest);
x = 2;
}
else
{
NDPI_LOG(NDPI_PROTOCOL_DNS, ndpi_struct, NDPI_LOG_DEBUG, "exclude DNS.\n");
NDPI_ADD_PROTOCOL_TO_BITMASK(flow->excluded_protocol_bitmask, NDPI_PROTOCOL_DNS);
}
if((s_port == 53 || d_port == 53 || d_port == 5355)
&& (flow->packet.payload_packet_len > sizeof(struct ndpi_dns_packet_header)))
{
struct ndpi_dns_packet_header dns_header;
int invalid = 0;
memcpy(&dns_header, (struct ndpi_dns_packet_header*) &flow->packet.payload[x], sizeof(struct ndpi_dns_packet_header));
dns_header.tr_id = ntohs(dns_header.tr_id);
dns_header.flags = ntohs(dns_header.flags);
dns_header.num_queries = ntohs(dns_header.num_queries);
dns_header.num_answers = ntohs(dns_header.num_answers);
dns_header.authority_rrs = ntohs(dns_header.authority_rrs);
dns_header.additional_rrs = ntohs(dns_header.additional_rrs);
/* 0x0000 QUERY */
if((dns_header.flags & FLAGS_MASK) == 0x0000)
is_query = 1;
/* 0x8000 RESPONSE */
else if((dns_header.flags & FLAGS_MASK) != 0x8000)
is_query = 0;
else
invalid = 1;
if(!invalid) {
if(is_query) {
/* DNS Request */
if((dns_header.num_queries > 0) && (dns_header.num_queries <= NDPI_MAX_DNS_REQUESTS)
&& (((dns_header.flags & 0x2800) == 0x2800 /* Dynamic DNS Update */)
|| ((dns_header.num_answers == 0) && (dns_header.authority_rrs == 0)))) {
/* This is a good query */
} else
invalid = 1;
} else {
/* DNS Reply */
if((dns_header.num_queries > 0) && (dns_header.num_queries <= NDPI_MAX_DNS_REQUESTS) /* Don't assume that num_queries must be zero */
&& (((dns_header.num_answers > 0) && (dns_header.num_answers <= NDPI_MAX_DNS_REQUESTS))
|| ((dns_header.authority_rrs > 0) && (dns_header.authority_rrs <= NDPI_MAX_DNS_REQUESTS))
|| ((dns_header.additional_rrs > 0) && (dns_header.additional_rrs <= NDPI_MAX_DNS_REQUESTS)))
) {
/* This is a good reply */
} else
invalid = 1;
}
}
if(invalid) {
NDPI_LOG(NDPI_PROTOCOL_DNS, ndpi_struct, NDPI_LOG_DEBUG, "exclude DNS.\n");
NDPI_ADD_PROTOCOL_TO_BITMASK(flow->excluded_protocol_bitmask, NDPI_PROTOCOL_DNS);
return;
}
/* extract host name server */
ret_code = (is_query == 0) ? 0 : (dns_header.flags & 0x0F);
int j = 0;
int off = sizeof(struct ndpi_dns_packet_header) + 1;
while((flow->packet.payload[off] != '\0'))
{
if(off < flow->packet.payload_packet_len)
{
flow->host_server_name[j] = flow->packet.payload[off];
if(j < strlen((char*)flow->host_server_name)) {
if(flow->host_server_name[j] < ' ')
flow->host_server_name[j] = '.';
j++;
}
off++;
}
}
flow->host_server_name[j] = '\0';
flow->protos.dns.num_answers = (u_int8_t) (dns_header.num_answers + dns_header.authority_rrs + dns_header.additional_rrs);
flow->protos.dns.ret_code = ret_code;
if(j > 0)
ndpi_match_host_subprotocol(ndpi_struct, flow,
(char *)flow->host_server_name,
strlen((const char*)flow->host_server_name),
NDPI_PROTOCOL_DNS);
if(flow->packet.detected_protocol_stack[0] == NDPI_PROTOCOL_UNKNOWN)
{
/**
Do not set the protocol with DNS if ndpi_match_host_subprotocol() has
matched a subprotocol
**/
NDPI_LOG(NDPI_PROTOCOL_DNS, ndpi_struct, NDPI_LOG_DEBUG, "found DNS.\n");
ndpi_set_detected_protocol(ndpi_struct, flow, (d_port == 5355) ? NDPI_PROTOCOL_LLMNR : NDPI_PROTOCOL_DNS, NDPI_PROTOCOL_UNKNOWN);
} else {
NDPI_LOG(NDPI_PROTOCOL_DNS, ndpi_struct, NDPI_LOG_DEBUG, "exclude DNS.\n");
NDPI_ADD_PROTOCOL_TO_BITMASK(flow->excluded_protocol_bitmask, NDPI_PROTOCOL_DNS);
}
}
}
void init_dns_dissector(struct ndpi_detection_module_struct *ndpi_struct, u_int32_t *id, NDPI_PROTOCOL_BITMASK *detection_bitmask)
{
ndpi_set_bitmask_protocol_detection("DNS", ndpi_struct, detection_bitmask, *id,
NDPI_PROTOCOL_DNS,
ndpi_search_dns,
NDPI_SELECTION_BITMASK_PROTOCOL_V4_V6_TCP_OR_UDP_WITH_PAYLOAD_WITHOUT_RETRANSMISSION,
SAVE_DETECTION_BITMASK_AS_UNKNOWN,
ADD_TO_DETECTION_BITMASK);
*id += 1;
}
#endif
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