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/*
* tor.c
*
* Copyright (C) 2016 ntop.org
* Copyright (C) 2013 Remy Mudingay <mudingay@ill.fr>
*
*/
#include "ndpi_protocol_ids.h"
#ifdef NDPI_PROTOCOL_TOR
#define NDPI_CURRENT_PROTO NDPI_PROTOCOL_TOR
#include "ndpi_api.h"
static void ndpi_int_tor_add_connection(struct ndpi_detection_module_struct
*ndpi_struct, struct ndpi_flow_struct *flow) {
ndpi_set_detected_protocol(ndpi_struct, flow, NDPI_PROTOCOL_TOR, NDPI_PROTOCOL_UNKNOWN);
}
int ndpi_is_ssl_tor(struct ndpi_detection_module_struct *ndpi_struct,
struct ndpi_flow_struct *flow, char *certificate) {
int prev_num = 0, numbers_found = 0, num_found = 0, i, len;
char dummy[48], *dot, *name;
if(certificate == NULL)
return(0);
else
len = strlen(certificate);
/* Check if it ends in .com or .net */
if(len>=4 && strcmp(&certificate[len-4], ".com") && strcmp(&certificate[len-4], ".net"))
return(0);
if((len < 6)
|| (!strncmp(certificate, "*.", 2)) /* Wildcard certificate */
|| (strncmp(certificate, "www.", 4)) /* Not starting with www.... */
)
return(0);
// printf("***** [SSL] %s(): %s\n", __FUNCTION__, certificate);
snprintf(dummy, sizeof(dummy), "%s", certificate);
if((dot = strrchr(dummy, '.')) == NULL) return(0);
dot[0] = '\0';
if((dot = strrchr(dummy, '.')) == NULL) return(0);
name = &dot[1];
len = strlen(name);
if(len >= 5) {
for(i = 0; name[i+1] != '\0'; i++) {
// printf("***** [SSL] %s(): [%d][%c]", __FUNCTION__, i, name[i]);
if((name[i] >= '0') && (name[i] <= '9')) {
if(prev_num != 1) {
numbers_found++;
if(numbers_found == 2) {
ndpi_int_tor_add_connection(ndpi_struct, flow);
return(1);
}
prev_num = 1;
}
} else
prev_num = 0;
if(ndpi_match_bigram(ndpi_struct, &ndpi_struct->bigrams_automa, &name[i])) {
num_found++;
} else if(ndpi_match_bigram(ndpi_struct, &ndpi_struct->impossible_bigrams_automa, &name[i])) {
ndpi_int_tor_add_connection(ndpi_struct, flow);
return(1);
}
}
if(num_found == 0) {
ndpi_int_tor_add_connection(ndpi_struct, flow);
return(1);
} else {
#ifdef PEDANTIC_TOR_CHECK
if(gethostbyname(certificate) == NULL) {
ndpi_int_tor_add_connection(ndpi_struct, flow);
return(1);
}
#endif
}
}
return(0);
}
/* ******************************************* */
void ndpi_search_tor(struct ndpi_detection_module_struct *ndpi_struct, struct ndpi_flow_struct *flow)
{
struct ndpi_packet_struct *packet = &flow->packet;
u_int16_t dport = 0, sport = 0;
NDPI_LOG_DBG(ndpi_struct, "search for TOR\n");
if(packet->tcp != NULL) {
sport = ntohs(packet->tcp->source), dport = ntohs(packet->tcp->dest);
NDPI_LOG_DBG2(ndpi_struct, "calculating TOR over tcp\n");
if ((((dport == 9001) || (sport == 9001)) || ((dport == 9030) || (sport == 9030)))
&& ((packet->payload[0] == 0x17) || (packet->payload[0] == 0x16))
&& (packet->payload[1] == 0x03)
&& (packet->payload[2] == 0x01)
&& (packet->payload[3] == 0x00)) {
NDPI_LOG_INFO(ndpi_struct, "found tor\n");
ndpi_int_tor_add_connection(ndpi_struct, flow);
}
} else {
NDPI_EXCLUDE_PROTO(ndpi_struct, flow);
}
}
void init_tor_dissector(struct ndpi_detection_module_struct *ndpi_struct, u_int32_t *id, NDPI_PROTOCOL_BITMASK *detection_bitmask)
{
ndpi_set_bitmask_protocol_detection("Tor", ndpi_struct, detection_bitmask, *id,
NDPI_PROTOCOL_TOR,
ndpi_search_tor,
NDPI_SELECTION_BITMASK_PROTOCOL_V4_V6_TCP_WITH_PAYLOAD_WITHOUT_RETRANSMISSION,
SAVE_DETECTION_BITMASK_AS_UNKNOWN,
ADD_TO_DETECTION_BITMASK);
*id += 1;
}
#endif
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