/* * stun.c * * Copyright (C) 2011-22 - 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 . * */ #include "ndpi_protocol_ids.h" #define NDPI_CURRENT_PROTO NDPI_PROTOCOL_STUN #include "ndpi_api.h" #define MAX_NUM_STUN_PKTS 3 // #define DEBUG_STUN 1 // #define DEBUG_LRU 1 struct stun_packet_header { u_int16_t msg_type, msg_len; u_int32_t cookie; u_int8_t transaction_id[8]; }; /* ************************************************************ */ u_int32_t get_stun_lru_key(struct ndpi_packet_struct *packet, u_int8_t rev) { if(rev) return(ntohl(packet->iph->daddr) + ntohs(packet->udp->dest)); else return(ntohl(packet->iph->saddr) + ntohs(packet->udp->source)); } /* ************************************************************ */ void ndpi_int_stun_add_connection(struct ndpi_detection_module_struct *ndpi_struct, struct ndpi_flow_struct *flow, u_int proto, u_int app_proto) { struct ndpi_packet_struct *packet = &ndpi_struct->packet; ndpi_confidence_t confidence = NDPI_CONFIDENCE_DPI; if(ndpi_struct->stun_cache == NULL) ndpi_struct->stun_cache = ndpi_lru_cache_init(1024); if(ndpi_struct->stun_cache && packet->iph && packet->udp && (app_proto != NDPI_PROTOCOL_UNKNOWN) ) /* Cache flow sender info */ { u_int32_t key = get_stun_lru_key(packet, 0); u_int16_t cached_proto; if(ndpi_lru_find_cache(ndpi_struct->stun_cache, key, &cached_proto, 0 /* Don't remove it as it can be used for other connections */)) { #ifdef DEBUG_LRU printf("[LRU] FOUND %u / %u: no need to cache %u.%u\n", key, cached_proto, proto, app_proto); #endif if(app_proto != cached_proto || proto != NDPI_PROTOCOL_STUN) { app_proto = cached_proto, proto = NDPI_PROTOCOL_STUN; confidence = NDPI_CONFIDENCE_DPI_CACHE; } } else { u_int32_t key_rev = get_stun_lru_key(packet, 1); if(ndpi_lru_find_cache(ndpi_struct->stun_cache, key_rev, &cached_proto, 0 /* Don't remove it as it can be used for other connections */)) { #ifdef DEBUG_LRU printf("[LRU] FOUND %u / %u: no need to cache %u.%u\n", key_rev, cached_proto, proto, app_proto); #endif if(app_proto != cached_proto || proto != NDPI_PROTOCOL_STUN) { app_proto = cached_proto, proto = NDPI_PROTOCOL_STUN; confidence = NDPI_CONFIDENCE_DPI_CACHE; } } else { if(app_proto != NDPI_PROTOCOL_STUN) { /* No sense to add STUN, but only subprotocols */ #ifdef DEBUG_LRU printf("[LRU] ADDING %u / %u.%u [%u -> %u]\n", key, proto, app_proto, ntohs(packet->udp->source), ntohs(packet->udp->dest)); #endif ndpi_lru_add_to_cache(ndpi_struct->stun_cache, key, app_proto); if(ndpi_struct->ndpi_notify_lru_add_handler_ptr) ndpi_struct->ndpi_notify_lru_add_handler_ptr(ndpi_stun_cache, key, app_proto); ndpi_lru_add_to_cache(ndpi_struct->stun_cache, key_rev, app_proto); if(ndpi_struct->ndpi_notify_lru_add_handler_ptr) ndpi_struct->ndpi_notify_lru_add_handler_ptr(ndpi_stun_cache, key_rev, app_proto); } } } } ndpi_set_detected_protocol(ndpi_struct, flow, app_proto, proto, confidence); } typedef enum { NDPI_IS_STUN, NDPI_IS_NOT_STUN } ndpi_int_stun_t; /* ************************************************************ */ static int is_google_ip_address(u_int32_t host) { if( ((host & 0xFFFF0000 /* 255.255.0.0 */) == 0x4A7D0000 /* 74.125.0.0/16 */) || ((host & 0xFFFF0000 /* 255.255.0.0 */) == 0x42660000 /* 66.102.0.0/16 */) ) return(1); else return(0); } /* ************************************************************ */ /* WhatsApp 31.13.86.48 31.13.92.50 157.240.20.51 157.240.21.51 185.60.216.51 Messenger 31.13.86.5 */ static int is_messenger_ip_address(u_int32_t host) { if(host == 0x1F0D5605 /* 31.13.86.5 */) return(1); else return(0); } /* ************************************************************ */ static ndpi_int_stun_t ndpi_int_check_stun(struct ndpi_detection_module_struct *ndpi_struct, struct ndpi_flow_struct *flow, const u_int8_t * payload, const u_int16_t payload_length) { struct ndpi_packet_struct *packet = &ndpi_struct->packet; u_int16_t msg_type, msg_len; int rc; if(packet->iph && ((packet->iph->daddr == 0xFFFFFFFF /* 255.255.255.255 */) || ((ntohl(packet->iph->daddr) & 0xF0000000) == 0xE0000000 /* A multicast address */))) { NDPI_EXCLUDE_PROTO(ndpi_struct, flow); return(NDPI_IS_NOT_STUN); } if(payload_length >= 512) { return(NDPI_IS_NOT_STUN); } else if(payload_length < sizeof(struct stun_packet_header)) { /* This looks like an invalid packet */ if(flow->stun.num_udp_pkts > 0) { // flow->guessed_host_protocol_id = NDPI_PROTOCOL_WHATSAPP_CALL; return(NDPI_IS_STUN); } else return(NDPI_IS_NOT_STUN); } if((strncmp((const char*)payload, (const char*)"RSP/", 4) == 0) && (strncmp((const char*)&payload[7], (const char*)" STUN_", 6) == 0)) { NDPI_LOG_INFO(ndpi_struct, "found stun\n"); goto udp_stun_found; } msg_type = ntohs(*((u_int16_t*)payload)); msg_len = ntohs(*((u_int16_t*)&payload[2])); if((msg_type == 0) || ((msg_len+20) != payload_length)) return(NDPI_IS_NOT_STUN); /* https://www.iana.org/assignments/stun-parameters/stun-parameters.xhtml */ if(((msg_type & 0x3EEF) > 0x000B) && (msg_type != 0x0800)) { #ifdef DEBUG_STUN printf("[STUN] msg_type = %04X\n", msg_type); #endif /* If we're here it's because this does not look like STUN anymore as this was a flow that started as STUN and turned into something else. Let's investigate what is that about */ if(payload[0] == 0x16) { /* Let's check if this is DTLS used by some socials */ struct ndpi_packet_struct *packet = &ndpi_struct->packet; u_int16_t total_len, version = htons(*((u_int16_t*) &packet->payload[1])); switch (version) { case 0xFEFF: /* DTLS 1.0 */ case 0xFEFD: /* DTLS 1.2 */ total_len = ntohs(*((u_int16_t*) &packet->payload[11])) + 13; if(payload_length == total_len) { flow->guessed_host_protocol_id = NDPI_PROTOCOL_DTLS; return(NDPI_IS_NOT_STUN); } } } return(NDPI_IS_NOT_STUN); } #if 0 if((flow->packet.udp->dest == htons(3480)) || (flow->packet.udp->source == htons(3480)) ) printf("[STUN] Here we go\n");; #endif if(ndpi_struct->stun_cache && packet->iph) { /* TODO: ipv6 */ u_int16_t proto; u_int32_t key = get_stun_lru_key(packet, 0); int rc = ndpi_lru_find_cache(ndpi_struct->stun_cache, key, &proto, 0 /* Don't remove it as it can be used for other connections */); #ifdef DEBUG_LRU printf("[LRU] Searching %u\n", key); #endif if(!rc) { key = get_stun_lru_key(packet, 1); rc = ndpi_lru_find_cache(ndpi_struct->stun_cache, key, &proto, 0 /* Don't remove it as it can be used for other connections */); #ifdef DEBUG_LRU printf("[LRU] Searching %u\n", key); #endif } if(rc) { #ifdef DEBUG_LRU printf("[LRU] Cache FOUND %u / %u\n", key, proto); #endif flow->guessed_host_protocol_id = proto; return(NDPI_IS_STUN); } else { #ifdef DEBUG_LRU printf("[LRU] NOT FOUND %u\n", key); #endif } } else { #ifdef DEBUG_LRU printf("[LRU] NO/EMPTY CACHE\n"); #endif } if(msg_type == 0x01 /* Binding Request */) { flow->stun.num_binding_requests++; if(!msg_len && flow->guessed_host_protocol_id == NDPI_PROTOCOL_GOOGLE) flow->guessed_host_protocol_id = NDPI_PROTOCOL_HANGOUT_DUO; else if(flow->guessed_host_protocol_id == NDPI_PROTOCOL_FACEBOOK) flow->guessed_host_protocol_id = NDPI_PROTOCOL_FACEBOOK_VOIP; else flow->guessed_protocol_id = NDPI_PROTOCOL_STUN; if(!msg_len) { /* flow->stun.num_udp_pkts++; */ return(NDPI_IS_NOT_STUN); /* This to keep analyzing STUN instead of giving up */ } } if(msg_type == 0x03 /* Allocate Request */) { if(flow->guessed_host_protocol_id == NDPI_PROTOCOL_FACEBOOK) flow->guessed_host_protocol_id = NDPI_PROTOCOL_FACEBOOK_VOIP; } if(!msg_len && flow->guessed_host_protocol_id == NDPI_PROTOCOL_UNKNOWN) { NDPI_EXCLUDE_PROTO(ndpi_struct, flow); return(NDPI_IS_NOT_STUN); } flow->stun.num_udp_pkts++; if((payload[0] == 0x80 && payload_length < 512 && ((msg_len+20) <= payload_length))) { flow->guessed_host_protocol_id = NDPI_PROTOCOL_WHATSAPP_CALL; return(NDPI_IS_STUN); /* This is WhatsApp Call */ } else if((payload[0] == 0x90) && (((msg_len+11) == payload_length) || (flow->stun.num_binding_requests >= 4))) { flow->guessed_host_protocol_id = NDPI_PROTOCOL_WHATSAPP_CALL; return(NDPI_IS_STUN); /* This is WhatsApp Call */ } if(payload[0] != 0x80 && (msg_len + 20) > payload_length) return(NDPI_IS_NOT_STUN); else { switch(flow->guessed_protocol_id) { case NDPI_PROTOCOL_HANGOUT_DUO: case NDPI_PROTOCOL_FACEBOOK_VOIP: case NDPI_PROTOCOL_SIGNAL_VOIP: case NDPI_PROTOCOL_WHATSAPP_CALL: /* Don't overwrite the protocol with sub-STUN protocols */ break; default: flow->guessed_protocol_id = NDPI_PROTOCOL_STUN; break; } } if(payload_length == (msg_len+20)) { if((msg_type & 0x3EEF) <= 0x000B) /* http://www.3cx.com/blog/voip-howto/stun-details/ */ { u_int offset = 20; /* This can either be the standard RTCP or Ms Lync RTCP that later will become Ms Lync RTP. In this case we need to be careful before deciding about the protocol before dissecting the packet MS Lync = Skype https://en.wikipedia.org/wiki/Skype_for_Business */ while((offset+4) < payload_length) { u_int16_t attribute = ntohs(*((u_int16_t*)&payload[offset])); u_int16_t len = ntohs(*((u_int16_t*)&payload[offset+2])); u_int16_t x = (len + 4) % 4; if(x) len += 4-x; #ifdef DEBUG_STUN printf("==> Attribute: %04X\n", attribute); #endif switch(attribute) { case 0x0103: flow->guessed_host_protocol_id = NDPI_PROTOCOL_ZOOM; return(NDPI_IS_STUN); break; case 0x4000: case 0x4001: case 0x4002: /* These are the only messages apparently whatsapp voice can use */ flow->guessed_host_protocol_id = NDPI_PROTOCOL_WHATSAPP_CALL; return(NDPI_IS_STUN); break; case 0x0014: /* Realm */ { u_int16_t realm_len = ntohs(*((u_int16_t*)&payload[offset+2])); if(flow->host_server_name[0] == '\0') { u_int k = offset+4; ndpi_hostname_sni_set(flow, payload + k, ndpi_min(realm_len, payload_length - k)); #ifdef DEBUG_STUN printf("==> [%s]\n", flow->host_server_name); #endif if(strstr(flow->host_server_name, "google.com") != NULL) { flow->guessed_host_protocol_id = NDPI_PROTOCOL_HANGOUT_DUO; return(NDPI_IS_STUN); } else if(strstr(flow->host_server_name, "whispersystems.org") != NULL || (strstr(flow->host_server_name, "signal.org") != NULL)) { flow->guessed_host_protocol_id = NDPI_PROTOCOL_SIGNAL_VOIP; return(NDPI_IS_STUN); } else if(strstr(flow->host_server_name, "facebook") != NULL) { flow->guessed_host_protocol_id = NDPI_PROTOCOL_FACEBOOK_VOIP; return(NDPI_IS_STUN); } } } break; case 0xC057: /* Messeger */ if(msg_type == 0x0001) { if((msg_len == 100) || (msg_len == 104)) { flow->guessed_host_protocol_id = NDPI_PROTOCOL_FACEBOOK_VOIP; return(NDPI_IS_STUN); } else if(msg_len == 76) { #if 0 if(1) { flow->guessed_host_protocol_id = NDPI_PROTOCOL_HANGOUT_DUO; return(NDPI_IS_NOT_STUN); /* This case is found also with signal traffic */ } else return(NDPI_IS_STUN); #endif } } break; case 0x8054: /* Candidate Identifier */ if((len == 4) && ((offset+7) < payload_length) && (payload[offset+5] == 0x00) && (payload[offset+6] == 0x00) && (payload[offset+7] == 0x00)) { /* Either skype for business or "normal" skype with multiparty call */ #ifdef DEBUG_STUN printf("==> Skype found\n"); #endif flow->guessed_host_protocol_id = NDPI_PROTOCOL_SKYPE_CALL; return(NDPI_IS_STUN); } break; case 0x8055: /* MS Service Quality (skype?) */ break; /* Proprietary fields found on skype calls */ case 0x24DF: case 0x3802: case 0x8036: case 0x8095: case 0x0800: case 0x8006: /* This is found on skype calls) */ /* printf("====>>>> %04X\n", attribute); */ #ifdef DEBUG_STUN printf("==> Skype (2) found\n"); #endif flow->guessed_host_protocol_id = NDPI_PROTOCOL_SKYPE_CALL; return(NDPI_IS_STUN); break; case 0x8070: /* Implementation Version */ if(len == 4 && ((offset+7) < payload_length) && (payload[offset+4] == 0x00) && (payload[offset+5] == 0x00) && (payload[offset+6] == 0x00) && ((payload[offset+7] == 0x02) || (payload[offset+7] == 0x03))) { #ifdef DEBUG_STUN printf("==> Skype (3) found\n"); #endif flow->guessed_host_protocol_id = NDPI_PROTOCOL_SKYPE_CALL; return(NDPI_IS_STUN); } break; case 0xFF03: flow->guessed_host_protocol_id = NDPI_PROTOCOL_HANGOUT_DUO; return(NDPI_IS_STUN); break; default: #ifdef DEBUG_STUN printf("==> %04X\n", attribute); #endif break; } offset += len + 4; } goto udp_stun_found; } else if(msg_type == 0x0800) { flow->guessed_host_protocol_id = NDPI_PROTOCOL_WHATSAPP_CALL; return(NDPI_IS_STUN); } } if((flow->stun.num_udp_pkts > 0) && (msg_type <= 0x00FF)) { flow->guessed_host_protocol_id = NDPI_PROTOCOL_WHATSAPP_CALL; return(NDPI_IS_STUN); } else return(NDPI_IS_NOT_STUN); udp_stun_found: flow->stun.num_processed_pkts++; #ifdef DEBUG_STUN printf("==>> NDPI_PROTOCOL_WHATSAPP_CALL\n"); #endif if(packet->iph) { /* TODO: ipv6 */ if(is_messenger_ip_address(ntohl(packet->iph->saddr)) || is_messenger_ip_address(ntohl(packet->iph->daddr))) flow->guessed_host_protocol_id = NDPI_PROTOCOL_FACEBOOK_VOIP; else if(is_google_ip_address(ntohl(packet->iph->saddr)) || is_google_ip_address(ntohl(packet->iph->daddr))) flow->guessed_host_protocol_id = NDPI_PROTOCOL_HANGOUT_DUO; } rc = (flow->stun.num_udp_pkts < MAX_NUM_STUN_PKTS) ? NDPI_IS_NOT_STUN : NDPI_IS_STUN; return rc; } void ndpi_search_stun(struct ndpi_detection_module_struct *ndpi_struct, struct ndpi_flow_struct *flow) { struct ndpi_packet_struct *packet = &ndpi_struct->packet; // printf("==> %s()\n", __FUNCTION__) NDPI_LOG_DBG(ndpi_struct, "search stun\n"); if(packet->payload == NULL) return; else if(packet->iphv6 != NULL) { NDPI_EXCLUDE_PROTO(ndpi_struct, flow); return; } if(packet->tcp) { /* STUN may be encapsulated in TCP packets */ if((packet->payload_packet_len >= 22) && ((ntohs(get_u_int16_t(packet->payload, 0)) + 2) == packet->payload_packet_len)) { /* TODO there could be several STUN packets in a single TCP packet so maybe the detection could be * improved by checking only the STUN packet of given length */ if(ndpi_int_check_stun(ndpi_struct, flow, packet->payload + 2, packet->payload_packet_len - 2) == NDPI_IS_STUN) { goto udp_stun_match; } } } /* UDP */ if(ndpi_int_check_stun(ndpi_struct, flow, packet->payload, packet->payload_packet_len) == NDPI_IS_STUN) { udp_stun_match: if(flow->guessed_protocol_id == NDPI_PROTOCOL_UNKNOWN) flow->guessed_protocol_id = NDPI_PROTOCOL_STUN; if(flow->guessed_host_protocol_id == NDPI_PROTOCOL_UNKNOWN) { flow->guessed_host_protocol_id = flow->guessed_protocol_id; flow->guessed_protocol_id = NDPI_PROTOCOL_STUN; } ndpi_int_stun_add_connection(ndpi_struct, flow, flow->guessed_protocol_id, flow->guessed_host_protocol_id); return; } if(flow->stun.num_udp_pkts >= MAX_NUM_STUN_PKTS) NDPI_EXCLUDE_PROTO(ndpi_struct, flow); if(flow->packet_counter > 0) { /* This might be a RTP stream: let's make sure we check it */ NDPI_CLR(&flow->excluded_protocol_bitmask, NDPI_PROTOCOL_RTP); } } void init_stun_dissector(struct ndpi_detection_module_struct *ndpi_struct, u_int32_t *id, NDPI_PROTOCOL_BITMASK *detection_bitmask) { ndpi_set_bitmask_protocol_detection("STUN", ndpi_struct, detection_bitmask, *id, NDPI_PROTOCOL_STUN, ndpi_search_stun, NDPI_SELECTION_BITMASK_PROTOCOL_V4_V6_UDP_WITH_PAYLOAD, SAVE_DETECTION_BITMASK_AS_UNKNOWN, ADD_TO_DETECTION_BITMASK); *id += 1; }