Exemplo n.º 1
0
 def create_mac_obj(cls, utg_mac):
     headerObj = Ethernet(src_s=utg_mac.sa.value)
     headerObj.dst_s = utg_mac.da.value
     l2_proto = utg_mac._l2_proto
     if l2_proto == TGEnums.L2_PROTO.ETHERNETII:
         if utg_mac._ethertype._current_val != utg_mac._ethertype._default_val:
             headerObj.type = int(utg_mac._ethertype._current_val, 16)
     else:
         headerObj.type = None
     return headerObj
Exemplo n.º 2
0
    def get_packet_headers(self):
        """
        :return: current packet headers
        :rtype: pypacker.layer12.ethernet.Ethernet
        """

        bin_headers = self.get_attribute('ps_packetheader')
        return Ethernet(binascii.unhexlify(bin_headers[2:]))
Exemplo n.º 3
0
 def _apply_mac(self):
     pass  # TODO PACKET BUILDER
     eth = Ethernet(src_s=self.packet.mac.sa.value)
     eth.dst_s = self.packet.mac.da.value
     #TODO fix ethertype
     if self.packet.l2_proto == TGEnums.L2_PROTO.ETHERNETII:
         if self.packet.ethertype != self.packet._ethertype._default_val:
             eth.type = int(self.packet.ethertype, 16)
     else:
         eth.type = None
     self._headers = eth
     self._config_field_modifier(4, self.packet.mac.da)
     self._config_field_modifier(10, self.packet.mac.sa)
     if len(self.packet.vlans) > 0:
         for vlan in self.packet.vlans:
             vid = int(self.packet.vlans[vlan].vid.value)
             cfi = int(self.packet.vlans[vlan].cfi)
             prio = self.packet.vlans[vlan].priority
             vlanObj = Dot1Q(vid=vid, cfi=cfi, prio=prio)
             eth.vlan.append(vlanObj)
Exemplo n.º 4
0
    def test_layer_4_checksums(self):

        #: :type port: xenavalkyrie.xena_port.XenaPort
        port = self.xm.session.reserve_ports([self.port1],
                                             force=False,
                                             reset=True)[self.port1]

        #: :type tcp_stream: xenavalkyrie.xena_stream.XenaStream
        tcp_stream = port.add_stream('tcp stream')

        eth = Ethernet(src_s='22:22:22:22:22:22')
        eth.dst_s = '11:11:11:11:11:11'
        vlan = Dot1Q(vid=17, prio=3)
        eth.vlan.append(vlan)
        ip = IP()
        tcp = TCP()
        headers = eth + ip + tcp
        tcp_stream.set_packet_headers(headers, l4_checksum=False)
        headerprotocol = tcp_stream.get_attribute('ps_headerprotocol')
        assert 'tcpcheck' not in headerprotocol.lower()
        tcp_stream.set_packet_headers(headers, l4_checksum=True)
        headerprotocol = tcp_stream.get_attribute('ps_headerprotocol')
        assert 'tcpcheck' in headerprotocol.lower()
        resulting_headers = tcp_stream.get_packet_headers()
        l4 = resulting_headers.upper_layer.upper_layer
        assert l4.sum == 0

        #: :type udp_stream: xenavalkyrie.xena_stream.XenaStream
        udp_stream = port.add_stream('udp stream')

        eth = Ethernet(src_s='44:44:44:44:44:44')
        eth.dst_s = '33:33:33:33:33:33'
        ip6 = IP6()
        udp = UDP()
        headers = eth + ip6 + udp
        udp_stream.set_packet_headers(headers, l4_checksum=False)
        headerprotocol = udp_stream.get_attribute('ps_headerprotocol')
        assert 'udpcheck' not in headerprotocol.lower()
        udp_stream.set_packet_headers(headers, l4_checksum=True)
        headerprotocol = udp_stream.get_attribute('ps_headerprotocol')
        assert 'udpcheck' in headerprotocol.lower()
        resulting_headers = udp_stream.get_packet_headers()
        l4 = resulting_headers.upper_layer.upper_layer
        assert l4.sum == 0
Exemplo n.º 5
0
# print("seconds since 1.1.1900: %d" % struct.unpack(">I", answer.transmit_time[0:4])[0])
# psock_req.close()


#
# spoof NTP response
#
print("waiting for NTP request")
psock	= psocket.SocketHndl(iface_name=IFACE, timeout=600)
filter	= lambda p: p[ntp.NTP] is not None and p[ip.IP].src_s == IP_SRC
answer	= psock.recvp(filter_match_recv=filter)[0]
answer_ntp	= answer[ntp.NTP]

print("got NTP packet: %s" % answer_ntp)

ntp_answer_send	= Ethernet(dst=answer[Ethernet].src, src=answer[Ethernet].dst) +\
			ip.IP(src=answer[ip.IP].dst, dst_s=IP_SRC, p=ip.IP_PROTO_UDP) +\
			UDP(sport=answer[UDP].dport, dport=answer[UDP].sport) +\
			ntp.NTP(li=ntp.NO_WARNING, v=3, mode=ntp.SERVER, stratum=2, interval=4,
				update_time=answer_ntp.transmit_time,
				originate_time=answer_ntp.transmit_time,
				receive_time=b"\x00" * 4 + answer_ntp.transmit_time[4:],
				transmit_time=b"\x00" * 4 + answer_ntp.transmit_time[4:])

# alternative packet creation
"""
ntp_answer_send	= answer.create_reverse()
layer_ntp		= ntp_answer_send[ntp.NTP]
layer_ntp.mode		= ntp.SERVER
layer_ntp.originate_time = answer_ntp.transmit_time
layer_ntp.receive_time	= layer_ntp.transmit_time = b"\x00"*4 + answer_ntp.transmit_time[4:]
Exemplo n.º 6
0
    "orP = old results (Intel Core2 Duo CPU @ 1,866 GHz, 2GB RAM, Pypy 5.10.1)"
)
print("rounds per test: %d" % LOOP_CNT)

try:
    from pypacker.layer12.ethernet import Ethernet
    from pypacker.layer3 import ip
    from pypacker.layer4 import tcp
    from pypacker.layer567 import http

    print(">>> testing pypacker parsing speed")

    t_start = time.time()

    for cnt in range(LOOP_CNT):
        pkt1 = Ethernet(pkt_eth_ip_tcp_bts)
        # dpkt does not parse TCP content but pypacker does
        # -> access layer ip to get comparable result
        pkt2 = pkt1.upper_layer
        bts = pkt2.body_bytes
    t_end = time.time()

    print("nr = %d p/s" % (LOOP_CNT / (t_end - t_start)))
    print("orC = 12527 p/s")
    print("orP =  p/s")
except Exception as ex:
    print("Could not execute pypacker tests: %r" % ex)

try:
    import dpkt
    print(">>> testing dpkt parsing speed")
Exemplo n.º 7
0
def act_dhcp(server_port, server_ip, client_ip, subnet_mask, router_ip,
             dns_ip):

    global ports

    # Reserve ports
    ports = xm.session.reserve_ports([server_port], force=True, reset=False)
    server = ports[server_location]
    # server.wait_for_up(16)

    # Load configuration on port-0.
    server.load_config(server_config)

    # Prep whatever possible in advance.
    offer = server.streams[0].get_packet_headers()
    offer.ip.src_s = server_ip
    offer.ip.dst_s = '255.255.255.255'
    offer.ip.udp.dhcp.yiaddr_s = client_ip
    offer.ip.udp.dhcp.opts[1].body_bytes = socket.inet_aton(server_ip)
    offer.ip.udp.dhcp.opts[3].body_bytes = socket.inet_aton(subnet_mask)
    offer.ip.udp.dhcp.opts[4].body_bytes = socket.inet_aton(router_ip)
    offer.ip.udp.dhcp.opts[5].body_bytes = socket.inet_aton(dns_ip)
    ack = server.streams[1].get_packet_headers()
    ack.ip.src_s = server_ip
    ack.ip.dst_s = client_ip
    ack.ip.udp.dhcp.yiaddr_s = client_ip
    ack.ip.udp.dhcp.opts[1].body_bytes = socket.inet_aton(server_ip)
    ack.ip.udp.dhcp.opts[3].body_bytes = socket.inet_aton(subnet_mask)
    ack.ip.udp.dhcp.opts[4].body_bytes = socket.inet_aton(router_ip)
    ack.ip.udp.dhcp.opts[5].body_bytes = socket.inet_aton(router_ip)

    print("Ready to receive DHCP request\n")

    # Wait for Discover
    server.start_capture()
    while not server.capture.packets:
        time.sleep(0.01)
    server.stop_capture()

    # At this point we know we have received Discover
    packet = server.capture.get_packets(cap_type=XenaCaptureBufferType.raw)[-1]
    discover = Ethernet(binascii.unhexlify(packet))
    client_mac = discover.src_s
    chaddr = binascii.unhexlify(client_mac.replace(':', '') + '000000000000')
    transaction_id = discover.ip.udp.dhcp.xid

    # Send Offer packet.
    server.streams[0].set_attributes(PS_ENABLE='ON')
    server.streams[1].set_attributes(PS_ENABLE='OFF')
    offer.dst_s = client_mac
    offer.ip.udp.dhcp.chaddr = chaddr
    offer.ip.udp.dhcp.xid = transaction_id
    server.streams[0].set_packet_headers(offer, l4_checksum=True)
    server.start_traffic()

    # Wait for Request
    server.start_capture()
    while not server.capture.packets:
        time.sleep(0.01)
    server.stop_capture()
    server.stop_traffic()

    # At this point we know we have received Request

    # Send Ack packet.
    server.streams[0].set_attributes(PS_ENABLE='OFF')
    server.streams[1].set_attributes(PS_ENABLE='ON')
    ack.dst_s = client_mac
    ack.ip.udp.dhcp.chaddr = chaddr
    ack.ip.udp.dhcp.xid = transaction_id
    server.streams[1].set_packet_headers(ack, l4_checksum=True)
    server.start_traffic()

    # Release ports.
    xm.session.release_ports()
Exemplo n.º 8
0
def configuration():
    """ Reserve ports.
        Wait for ports up.
        Load configuration on one port.
        Build configuration on the second port.
    """

    global ports

    #: :type header: pypacker.layer12.ethernet
    #: :type p0_s0: xenavalkyrie.xena_stream.XenaStream
    #: :type p1_s0: xenavalkyrie.xena_stream.XenaStream
    #: :type modifier: xenavalkyrie.xena_strea.XenaModifier

    ports = xm.session.reserve_ports([port0, port1], True)
    ports[port0].wait_for_up(16)
    ports[port1].wait_for_up(16)

    # Load configuration on port-0.
    ports[port0].load_config(config0)

    # Get port-0/stream-0 object.
    p0_s0 = ports[port0].streams[0]

    # Get Multi-parameter query with get_attributes which returns all attributes values as dict.
    ps_config = p0_s0.get_attributes()
    print('{} info:\n{}'.format(p0_s0.name, json.dumps(ps_config, indent=1)))

    # Get packet headers.
    headers = p0_s0.get_packet_headers()
    print('{} headers:\n{}'.format(p0_s0.name, headers))
    # Access any header and field by name with nice string representation.
    print('{} MAC SRC: {}'.format(p0_s0.name, headers.src_s))
    print('{} VLAN ID: {}'.format(p0_s0.name, headers.vlan[0].vid))
    print('{} IP DST: {}'.format(p0_s0.name, headers.ip.dst_s))

    # Add stream on port-1
    p1_s0 = ports[port1].add_stream('new stream')

    # Set ps_packetlimit and ps_ratepps with set_attributes which sets list of attributes.
    p1_s0.set_attributes(ps_packetlimit=80, ps_ratepps=10)

    # Get single parameter query with get_attribute which returns the attribute value as str.
    ps_packetlimit = p1_s0.get_attribute('ps_packetlimit')
    ps_ratepps = p1_s0.get_attribute('ps_ratepps')
    print('{} info:\nps_packetlimit: {}\nps_ratepps: {}'.format(
        p1_s0.name, ps_packetlimit, ps_ratepps))

    # Set headers - all fields can be set with the constructor or by direct access after creation.
    eth = Ethernet(src_s='22:22:22:22:22:22')
    eth.dst_s = '11:11:11:11:11:11'
    vlan = Dot1Q(vid=17)
    eth.vlan.append(vlan)
    # In order to add header simply concatenate it.
    ip6 = IP6()
    tcp = TCP()
    headers = eth + ip6 + tcp
    p1_s0.set_packet_headers(headers)

    # Add modifier - all parameters can be set with the constructor or by direct access after creation.
    modifier = p1_s0.add_modifier(position=4)
    modifier.min_val = 100
    modifier.max_val = 200

    # Save new configuration.
    ports[port1].save_config(save_config)
Exemplo n.º 9
0
def traffic():
    """ Run traffic.
        Get statistics.
        Get capture.
    """

    # Run traffic with capture on all ports.
    xm.session.clear_stats()
    xm.session.start_capture()
    xm.session.start_traffic(blocking=True)
    xm.session.stop_capture()

    # Get port level statistics.
    ports_stats = XenaPortsStats(xm.session)
    ports_stats.read_stats()
    print(ports_stats.statistics.dumps())

    # Get stream level statistics.
    # For each stream the returned dictionary includes the TX statistics and the associated TPLD statistics.
    streams_stats = XenaStreamsStats(xm.session)
    streams_stats.read_stats()
    print(streams_stats.statistics.dumps())

    # Get TPLD level statistics.
    tplds_stats = XenaTpldsStats(xm.session)
    tplds_stats.read_stats()
    print(tplds_stats.statistics.dumps())

    # Run traffic on one port and capture on the second port.
    xm.session.clear_stats()
    ports[port0].start_capture()
    ports[port1].start_traffic(blocking=True)
    ports[port0].stop_capture()

    # Get individual port statistics.
    print(json.dumps(ports[port0].read_port_stats(), indent=1))

    # Get individual stream statistics.
    print(json.dumps(ports[port0].streams[0].read_stats(), indent=1))

    # Get first two captured packets in raw format - note that MAC address changed due to modifier.
    packets = ports[port0].capture.get_packets(
        to_index=2, cap_type=XenaCaptureBufferType.raw)
    for packet in packets:
        packet = Ethernet(binascii.unhexlify(packet))
        print(packet.dst_s)

    # Get first two packets in wireshark text format.
    packets = ports[port0].capture.get_packets(from_index=10, to_index=12)
    for packet in packets:
        print(packet)

    # Analyze capture buffer with tshark.
    tshark = Tshark(wireshark_path)
    packets = ports[port0].capture.get_packets(
        cap_type=XenaCaptureBufferType.pcap,
        file_name=pcap_file,
        tshark=tshark)
    analyser = TsharkAnalyzer()
    analyser.add_field('ip.src')
    analyser.add_field('ip.dst')
    fields = tshark.analyze(pcap_file, analyser)
    print(len(fields))
    analyser.set_read_filter('eth.dst == 11:11:11:11:00:11')
    fields = tshark.analyze(pcap_file, analyser)
    print(len(fields))
import time

from pypacker.layer12.ethernet import Ethernet
from pypacker.layer3 import ip
from pypacker.layer4 import tcp
from pypacker.layer567 import http

import dpkt

pkt_eth_ip_tcp = Ethernet() + ip.IP() + tcp.TCP(dport=80)
http_l = http.HTTP(startline=b"GET / HTTP/1.1",
                   hdr=[(b"header1", b"value1")],
                   body_bytes=b"Content123")
pkt_eth_ip_tcp += http_l
pkt_eth_ip_tcp_bts = pkt_eth_ip_tcp.bin()

LOOP_CNT = 100000

print(
    "or = original results (Intel Core2 Duo CPU @ 1,866 GHz, 2GB RAM, Python v3.3)"
)
print("nr = new results on this machine")
print("rounds per test: %d" % LOOP_CNT)

print(">>> testing pypacker parsing speed")

t_start = time.time()

for cnt in range(LOOP_CNT):
    pkt1 = Ethernet(pkt_eth_ip_tcp_bts)
    # dpkt does not parse TCP content but pypacker does