Esempio n. 1
0
    def _process_tcp_udp_flow(self, pkt, protocol):

        if protocol == 'tcp':
            layer = sc.TCP
        elif protocol == 'udp':
            layer = sc.UDP
        else:
            return

        # Parse packet
        src_mac = pkt[sc.Ether].src
        dst_mac = pkt[sc.Ether].dst
        src_ip = pkt[sc.IP].src
        dst_ip = pkt[sc.IP].dst
        src_port = pkt[layer].sport
        dst_port = pkt[layer].dport

        # No broadcast
        if dst_mac == 'ff:ff:ff:ff:ff:ff' or dst_ip == '255.255.255.255':
            return

        # Only look at flows where this host pretends to be the gateway
        host_mac = self._host_state.host_mac
        host_gateway_inbound = (src_mac == host_mac)
        host_gateway_outbound = (dst_mac == host_mac)
        if not (host_gateway_inbound or host_gateway_outbound):
            return

        # Extract TCP sequence and ack numbers for us to estimate flow size
        # later
        tcp_seq = None
        tcp_ack = None

        try:
            tcp_layer = pkt[sc.TCP]
            tcp_seq = tcp_layer.seq
            if tcp_layer.ack > 0:
                tcp_ack = tcp_layer.ack
        except Exception:
            pass

        # Determine flow direction
        if src_mac == host_mac:
            direction = 'inbound'
            device_mac = dst_mac
            device_port = dst_port
            remote_ip = src_ip
            remote_port = src_port
        elif dst_mac == host_mac:
            direction = 'outbound'
            device_mac = src_mac
            device_port = src_port
            remote_ip = dst_ip
            remote_port = dst_port
        else:
            return

        # Anonymize device mac
        device_id = utils.get_device_id(device_mac, self._host_state)

        # Construct flow key
        flow_key = (
            device_id, device_port, remote_ip, remote_port, protocol
        )

        # Initialize flow_stats. Note: TCP byte counts may include out-of-order
        # packets and RSTs. On the other hand, TCP sequence number shows how
        # many unique bytes are transmitted in a flow; this number does not
        # consider the size of headers (Eth + IP + TCP = 66 bytes in my
        # experiment), out-of-order packets, or RSTs.
        flow_stats = {
            'inbound_byte_count': 0,
            'inbound_tcp_seq_min_max': (None, None),
            'inbound_tcp_ack_min_max': (None, None),
            'outbound_byte_count': 0,
            'outbound_tcp_seq_min_max': (None, None),
            'outbound_tcp_ack_min_max': (None, None),
            'syn_originator': None
        }
        with self._host_state.lock:
            flow_stats = self._host_state.pending_flow_dict \
                .setdefault(flow_key, flow_stats)

        # Construct flow_stats
        flow_stats[direction + '_byte_count'] += len(pkt)
        flow_stats[direction + '_tcp_seq_min_max'] = utils.get_min_max_tuple(
            flow_stats[direction + '_tcp_seq_min_max'], tcp_seq)
        flow_stats[direction + '_tcp_ack_min_max'] = utils.get_min_max_tuple(
            flow_stats[direction + '_tcp_ack_min_max'], tcp_ack)

        # Who initiated the SYN packet
        syn_originator = None
        try:
            if pkt[sc.TCP].flags == 2:
                if src_ip == remote_ip:
                    syn_originator = 'remote'
                else:
                    syn_originator = 'local'
        except Exception:
            pass

        if syn_originator and flow_stats['syn_originator'] is None:
            flow_stats['syn_originator'] = syn_originator

        # Extract UA and Host
        if remote_port == 80 and protocol == 'tcp':
            self._process_http(pkt, device_id, remote_ip)

        # Extract SNI from TLS client handshake
        if protocol == 'tcp':
            self._process_tls(pkt, device_id)

        with self._host_state.lock:
            self._host_state.byte_count += len(pkt)
Esempio n. 2
0
    def _process_tcp_udp_flow(self, pkt, protocol):

        if protocol == 'tcp':
            layer = sc.TCP
        elif protocol == 'udp':
            layer = sc.UDP
        else:
            return

        # Parse packet
        src_mac = pkt[sc.Ether].src
        dst_mac = pkt[sc.Ether].dst
        src_ip = pkt[sc.IP].src
        dst_ip = pkt[sc.IP].dst
        src_port = pkt[layer].sport
        dst_port = pkt[layer].dport

        # No broadcast
        if dst_mac == 'ff:ff:ff:ff:ff:ff' or dst_ip == '255.255.255.255':
            return

        # Only look at flows where this host pretends to be the gateway
        host_mac = self._host_state.host_mac

        # Extract TCP sequence and ack numbers for us to estimate flow size
        # later
        tcp_seq = None
        tcp_ack = None

        try:
            tcp_layer = pkt[sc.TCP]
            tcp_seq = tcp_layer.seq
            if tcp_layer.ack > 0:
                tcp_ack = tcp_layer.ack
        except Exception:
            pass

        # Determine flow direction
        if src_mac == host_mac:
            direction = 'inbound'
            device_mac = dst_mac
            device_port = dst_port
            remote_ip = src_ip
            remote_port = src_port
        elif dst_mac == host_mac:
            direction = 'outbound'
            device_mac = src_mac
            device_port = src_port
            remote_ip = dst_ip
            remote_port = dst_port
        else:
            return

        # Anonymize device mac
        device_id = utils.get_device_id(device_mac, self._host_state)

        # Get remote device_id for internal book-keeping purpose
        remote_device_id = ''
        remote_ip_is_inspector_host = 0  # True (1) or False (0)
        remote_ip_is_gateway = 0  # True (1) or False (0)
        try:
            with self._host_state.lock:
                real_remote_device_mac = self._host_state.ip_mac_dict[
                    remote_ip]
                remote_device_id = utils.get_device_id(real_remote_device_mac,
                                                       self._host_state)
                if remote_ip == self._host_state.host_ip:
                    remote_ip_is_inspector_host = 1
                elif remote_ip == self._host_state.gateway_ip:
                    remote_ip_is_gateway = 1
        except Exception:
            pass

        # Construct flow key
        flow_key = (device_id, device_port, remote_ip, remote_port, protocol)
        flow_key_str = ':'.join([str(item) for item in flow_key])

        flow_ts = time.time()

        # Initialize flow_stats. Note: TCP byte counts may include out-of-order
        # packets and RSTs. On the other hand, TCP sequence number shows how
        # many unique bytes are transmitted in a flow; this number does not
        # consider the size of headers (Eth + IP + TCP = 66 bytes in my
        # experiment), out-of-order packets, or RSTs.
        flow_stats = {
            'inbound_byte_count': 0,
            'inbound_tcp_seq_min_max': (None, None),
            'inbound_tcp_ack_min_max': (None, None),
            'outbound_byte_count': 0,
            'outbound_tcp_seq_min_max': (None, None),
            'outbound_tcp_ack_min_max': (None, None),
            'syn_originator': None,
            'internal_remote_device_id': remote_device_id,
            'internal_first_packet_originator': '',
            'internal_remote_ip_is_inspector_host':
            remote_ip_is_inspector_host,
            'internal_remote_ip_is_gateway': remote_ip_is_gateway,
            'internal_inbound_pkt_count': 0,
            'internal_outbound_pkt_count': 0,
            'internal_flow_ts_min': flow_ts,
            'internal_flow_ts_max': flow_ts,
            'internal_flow_key': flow_key_str
        }
        with self._host_state.lock:
            flow_stats = self._host_state.pending_flow_dict \
                .setdefault(flow_key, flow_stats)

        # Identify who sent out the first UDP packet in this flow
        if flow_stats['internal_first_packet_originator'] == '':
            if direction == 'inbound':
                flow_stats['internal_first_packet_originator'] = 'remote'
            else:
                flow_stats['internal_first_packet_originator'] = 'local'

        # Construct flow_stats
        flow_stats[direction + '_byte_count'] += len(pkt)
        flow_stats[direction + '_tcp_seq_min_max'] = utils.get_min_max_tuple(
            flow_stats[direction + '_tcp_seq_min_max'], tcp_seq)
        flow_stats[direction + '_tcp_ack_min_max'] = utils.get_min_max_tuple(
            flow_stats[direction + '_tcp_ack_min_max'], tcp_ack)
        flow_stats['internal_' + direction + '_pkt_count'] += 1
        flow_stats['internal_flow_ts_max'] = flow_ts

        # Who initiated the SYN packet
        syn_originator = None
        try:
            if pkt[sc.TCP].flags == 2:
                if src_ip == remote_ip:
                    syn_originator = 'remote'
                else:
                    syn_originator = 'local'
        except Exception:
            pass

        if syn_originator and flow_stats['syn_originator'] is None:
            flow_stats['syn_originator'] = syn_originator

        # Extract UA and Host
        if remote_port == 80 and protocol == 'tcp':
            self._process_http(pkt, device_id, remote_ip)

        # Extract SNI from TLS client handshake
        if protocol == 'tcp':
            self._process_tls(pkt, device_id)

        with self._host_state.lock:
            self._host_state.byte_count += len(pkt)