result_type trace() { SnifferConfiguration config; config.set_promisc_mode(false); // ICMPs that aren't sent from us. config.set_filter( "ip proto \\icmp and not src host " + iface.addresses().ip_addr.to_string()); Sniffer sniffer(iface.name(), config); PacketSender sender; // Create our handler auto handler = bind( &Traceroute::sniff_callback, this, std::placeholders::_1 ); // We're running running = true; // Start the sniff thread thread sniff_thread( [&]() { sniffer.sniff_loop(handler); } ); send_packets(sender); sniff_thread.join(); // If the final hop responded, add its address at the appropriate ttl if (lowest_dest_ttl != numeric_limits<int>::max()) { results[lowest_dest_ttl] = addr; } // Clear our results and return what we've found return move(results); }
result_type trace() { // ICMPs that aren't sent from us. SnifferConfiguration config; config.set_snap_len(500); config.set_promisc_mode(false); config.set_filter( "ip proto \\icmp and not src host " + iface.addresses().ip_addr.to_string()); Sniffer sniffer(iface.name(), config); PacketSender sender; // Create our handler auto handler = std::bind( &Traceroute::sniff_callback, this, std::placeholders::_1 ); // We're running running = true; // Start the sniff thread std::thread sniff_thread( &Sniffer::sniff_loop<decltype(handler)>, &sniffer, handler, 0 ); send_packets(sender); sniff_thread.join(); // Clear our results and return what we've found return std::move(results); }
Sniffer::Sniffer(const string& device, promisc_type promisc, const string& filter, bool rfmon) { SnifferConfiguration configuration; configuration.set_promisc_mode(promisc == PROMISC); configuration.set_filter(filter); configuration.set_rfmon(rfmon); char error[PCAP_ERRBUF_SIZE]; pcap_t* phandle = pcap_create(TINS_PREFIX_INTERFACE(device).c_str(), error); if (!phandle) { throw runtime_error(error); } set_pcap_handle(phandle); // Set the netmask if we are able to find it. bpf_u_int32 ip, if_mask; if (pcap_lookupnet(TINS_PREFIX_INTERFACE(device).c_str(), &ip, &if_mask, error) == 0) { set_if_mask(if_mask); } // Configure the sniffer's attributes prior to activation. configuration.configure_sniffer_pre_activation(*this); // Finally, activate the pcap. In case of error throw runtime_error if (pcap_activate(get_pcap_handle()) < 0) { throw pcap_error(pcap_geterr(get_pcap_handle())); } // Configure the sniffer's attributes after activation. configuration.configure_sniffer_post_activation(*this); }
int main(int argc, char* argv[]) { string iface; if (argc == 2) { // Use the provided interface iface = argv[1]; } else { // Use the default interface iface = NetworkInterface::default_interface().name(); } try { SnifferConfiguration config; config.set_promisc_mode(true); config.set_filter("udp and port 53"); Sniffer sniffer(iface, config); dns_monitor monitor; thread thread( [&]() { monitor.run(sniffer); } ); while (true) { auto info = monitor.stats().get_information(); cout << "\rAverage " << info.average.count() << "ms. Worst: " << info.worst.count() << "ms. Count: " << info.count << " "; cout.flush(); sleep_for(seconds(1)); } } catch (exception& ex) { cout << "[-] Error: " << ex.what() << endl; } }
void BeaconSniffer::run(const std::string& iface) { SnifferConfiguration config; config.set_promisc_mode(true); config.set_filter("type mgt subtype beacon"); config.set_rfmon(true); Sniffer sniffer(iface, config); sniffer.sniff_loop(make_sniffer_handler(this, &BeaconSniffer::callback)); }
PDU& PacketSenderGeneric::send_recv(PDU& spdu, SharedSender& shared_sender, const NetworkInterface& iface, bool promisc, double* rdelay, double* edelay) { //wait for previous packet to receive response (TODO: not ideal, plan future change) while (sent_pdu) { std::this_thread::sleep_for(std::chrono::milliseconds(1000)); } sent_pdu = spdu.clone(); //start sniff task SnifferConfiguration config; config.set_promisc_mode(promisc); config.set_snap_len(65535); config.set_timeout(10); //Critical section SHARED_SNIFFER_MUTEX.lock(); Sniffer sniffer{ iface.name(), config }; SHARED_SNIFFER_MUTEX.unlock(); bool compute_delay = true; if (!rdelay) compute_delay = false; std::future<void> fresp(std::async(std::launch::async, &PacketSenderGeneric::sniff_task, this, &sniffer, compute_delay)); //send packet std::clock_t effective_sent_time = std::clock(); std::cout << "Registering packet to send !" << std::endl; shared_sender.register_packet(sent_pdu, NetworkInterface(iface)); //std::cout << "waiting for max " << timeout << "..." << std::endl; std::future_status status = fresp.wait_for(std::chrono::seconds(timeout)); //raise exception in case of timeout if (status == std::future_status::timeout) { sniffer.stop_sniff(); sent_pdu = NULL; throw timeout_elapsed(); } else if (status == std::future_status::deferred) std::cout << "DEBUG: packet sniffing deffered... shouldn't happen"; //Treat response packet if (edelay) *edelay = ((std::clock() - effective_sent_time) / (double)CLOCKS_PER_SEC) * 1000; if (rdelay) { *rdelay = response_delay; } PDU& response(*this->response_pdu); //Clean sent_pdu = NULL; response_delay = NULL; //response_pdu = NULL; return response; }
int main() { SnifferConfiguration config; Sniffer("wlan0", config).sniff_loop(callback); //config.set_filter("ip.addr == 192.168.5.20"); config.set_promisc_mode(true); //config.set_snap_len(400); // config.set_filter("ip.addr == 192.168.5.20"); //config.set_filter("port=3128"); }
void InfoWriter::process() { SnifferConfiguration config; config.set_promisc_mode(true); try { config.set_filter(filter.toLower().toStdString()); sniffer = new Sniffer(NetworkInterface::default_interface().name(),config); sniffer->sniff_loop(std::tr1::bind(&InfoWriter::callback, this, std::placeholders::_1)); } catch (std::exception e) { emit error(QString::fromStdString(e.what())); } }
int main(int argc, char *argv[]) { if(argc != 2) { std::cout << "Usage: " << *argv << " <DEVICE>\n"; return 1; } // Only sniff beacons SnifferConfiguration config; config.set_snap_len(2000); config.set_promisc_mode(true); config.set_filter("wlan type mgt subtype beacon"); Sniffer sniffer(argv[1], config); sniffer.sniff_loop(handler); }
int main(int argc, char *argv[]) { if(argc != 2) { std::cout << "Usage: " << *argv << " <interface>\n"; return 1; } arp_monitor monitor; // Sniffer configuration SnifferConfiguration config; config.set_promisc_mode(true); config.set_filter("arp"); // Sniff on the provided interface in promiscuous mode Sniffer sniffer(argv[1], config); // Only capture arp packets monitor.run(sniffer); }
int main(int argc, char* argv[]) { if(argc != 2) { cout << "Usage: " <<* argv << " <interface>" << endl; return 1; } arp_monitor monitor; // Sniffer configuration SnifferConfiguration config; config.set_promisc_mode(true); config.set_filter("arp"); try { // Sniff on the provided interface in promiscuous mode Sniffer sniffer(argv[1], config); // Only capture arp packets monitor.run(sniffer); } catch (std::exception& ex) { std::cerr << "Error: " << ex.what() << std::endl; } }
int main(int argc, char *argv[]) { pcap_if_t *alldevs; pcap_if_t *d; int inum; int i = 0; char errbuf[PCAP_ERRBUF_SIZE]; /* Retrieve the device list */ if (pcap_findalldevs(&alldevs, errbuf) == -1) { fprintf(stderr, "Error in pcap_findalldevs: %s\n", errbuf); exit(1); } /* Print the list */ for (d = alldevs; d; d = d->next) { printf("%d. %s", ++i, d->name); if (d->description) printf(" (%s)\n", d->description); else printf(" (No description available)\n"); } if (i == 0) { printf("\nNo interfaces found! Make sure WinPcap is installed.\n"); return -1; } printf("Enter the interface number (1-%d):", i); scanf_s("%d", &inum); if (inum < 1 || inum > i) { printf("\nInterface number out of range.\n"); /* Free the device list */ pcap_freealldevs(alldevs); return -1; } /* Jump to the selected adapter */ for (d = alldevs, i = 0; i< inum - 1; d = d->next, i++); arp_monitor monitor; // Sniffer configuration SnifferConfiguration config; config.set_promisc_mode(true); config.set_filter("arp"); try { // Sniff on the provided interface in promiscuous mode std::string str_interface = std::string(d->name); std::string str_begin = "\\Device\\NPF_"; // kill \Device\NPF_ if (str_interface.find_first_of(str_begin) != std::string::npos){ str_interface = &str_interface[0] + str_begin.length(); } Sniffer sniffer(str_interface, config); // Only capture arp packets monitor.run(sniffer); } catch (std::exception& ex) { std::cerr << "Error: " << ex.what() << std::endl; } system("pause"); }