Beispiel #1
0
def lisp_itr_data_plane(packet, device, input_interface, macs, my_sa):
    global lisp_send_sockets
    global lisp_ephem_port
    global lisp_raw_socket, lisp_raw_v6_socket
    global lisp_ipc_listen_socket

    #
    # Check RLOC-probe Map-Reply. We need to grab the TTL from IP header.
    #
    orig_packet = packet
    packet, source, port, ttl = lisp.lisp_is_rloc_probe(packet, 1)
    if (orig_packet != packet):
        if (source == None): return
        lisp.lisp_parse_packet(lisp_send_sockets, packet, source, port, ttl)
        return
    #endif

    packet = lisp.lisp_packet(packet)
    if (packet.decode(False, None, None) == None): return

    #
    # For locally source packets from this system, the MAC address may
    # be the default router. Check source to see if assigned to this system,
    # and if so, accept on interface "device".
    #
    if (my_sa): input_interface = device

    #
    # Get instance-ID for incoming interface.
    #
    source_eid = packet.inner_source
    iid = lisp.lisp_get_interface_instance_id(input_interface, source_eid)
    packet.inner_dest.instance_id = iid
    packet.inner_source.instance_id = iid

    #
    # Print some useful header fields and strip outer headers..
    #
    if (macs != ""): macs = ", MACs: " + macs + ","
    packet.print_packet("Receive {}{}".format(device, macs), False)

    #
    # Drop packet if input interface not found based on MAC address used.
    #
    if (device != input_interface and device != "lispers.net"):
        lisp.dprint("Not our MAC address on interface {}, pcap interface {}". \
            format(input_interface, device))
        return
    #endif

    lisp_decent = lisp.lisp_decent_push_configured
    if (lisp_decent):
        multicast = packet.inner_dest.is_multicast_address()
        local = packet.inner_source.is_local()
        lisp_decent = (local and multicast)
    #endif

    if (lisp_decent == False):

        #
        # Only forward packets from source-EIDs.
        #
        db = lisp.lisp_db_for_lookups.lookup_cache(packet.inner_source, False)
        if (db == None):
            lisp.dprint("Packet received from non-EID source")
            return
        #endif

        #
        # Check to see if we are doing dynamic-EID discovery.
        #
        if (db.dynamic_eid_configured()):
            i = lisp.lisp_allow_dynamic_eid(input_interface, 
                packet.inner_source)
            if (i):
                lisp.lisp_itr_discover_eid(db, packet.inner_source, 
                    input_interface, i, lisp_ipc_listen_socket)
            else:
                e = lisp.green(packet.inner_source.print_address(), False)
                lisp.dprint("Disallow dynamic-EID {} on interface {}".format(e,
                    input_interface))
                return
            #endif
        #endif

        if (packet.inner_source.is_local() and 
            packet.udp_dport == lisp.LISP_CTRL_PORT): return
    #endif

    #
    # Do input processing for currently supported packet types..
    #
    if (packet.inner_version == 4):
        igmp, packet.packet = lisp.lisp_ipv4_input(packet.packet)
        if (packet.packet == None or igmp): return
        packet.inner_ttl -= 1
    elif (packet.inner_version == 6):
        packet.packet = lisp.lisp_ipv6_input(packet)
        if (packet.packet == None): return
        packet.inner_ttl -= 1
    else:
        packet.packet = lisp.lisp_mac_input(packet.packet)
        if (packet.packet == None): return
        packet.encap_port = lisp.LISP_L2_DATA_PORT
    #endif

    #
    # First check if destination is to any local EID-prefixes from database-
    # mapping commands. In this case, we need to natively forward.
    #
    if (lisp_xtr_loopback == False):
        db = lisp.lisp_db_for_lookups.lookup_cache(packet.inner_dest, False)
        if (db and db.dynamic_eid_configured == False):
            lisp.dprint(("Packet destined to local EID-prefix {}, " + \
                "natively forwarding").format(db.print_eid_tuple()))
            packet.send_packet(lisp_raw_socket, packet.inner_dest)
            return
        #endif
    #endif

    # 
    # Do map-cache lookup.
    #
    mc = lisp.lisp_map_cache_lookup(packet.inner_source, packet.inner_dest)

    #
    # If "secondary-iid" is configured, we want to check the secondary 
    # map-cache if a lookup miss occured in the default IID for this source 
    # EID-prefix. If destination EID found in secondary map-cache, use it.
    # Otherwise, send Map-Request for EID in default IID.
    #
    secondary_iid = db.secondary_iid if (db != None) else None
    if (secondary_iid and mc and mc.action == lisp.LISP_NATIVE_FORWARD_ACTION):
        dest_eid = packet.inner_dest
        dest_eid.instance_id = secondary_iid
        mc = lisp.lisp_map_cache_lookup(packet.inner_source, dest_eid)
    #endif

    #
    # Map-cache lookup miss.
    #
    if (mc == None or mc.action == lisp.LISP_SEND_MAP_REQUEST_ACTION):
        if (lisp.lisp_rate_limit_map_request(packet.inner_source, 
            packet.inner_dest)): return
        lisp.lisp_send_map_request(lisp_send_sockets, lisp_ephem_port, 
            packet.inner_source, packet.inner_dest, None)

        if (packet.is_trace()):
            lisp.lisp_trace_append(packet, reason="map-cache miss")
        #endif
        return
    #endif

    #
    # Send Map-Request to see if there is a RLOC change or to refresh an
    # entry that is about to time out.
    #
    if (mc and mc.is_active() and mc.has_ttl_elapsed()):
        lisp.lprint("Refresh map-cache entry {}".format( \
            lisp.green(mc.print_eid_tuple(), False)))
        lisp.lisp_send_map_request(lisp_send_sockets, lisp_ephem_port, 
            packet.inner_source, packet.inner_dest, None)
    #endif

    #
    # Update stats for entry. Stats per RLOC is done in lisp_mapping.select_
    # rloc().
    #
    mc.stats.increment(len(packet.packet))

    #
    # Encapsulate, native forward, or encapsulate-and-replciate  packet.
    #
    dest_rloc, dest_port, nonce, action, rle, rloc_entry = \
        mc.select_rloc(packet, lisp_ipc_listen_socket)

    if (dest_rloc == None and rle == None):
        if (action == lisp.LISP_NATIVE_FORWARD_ACTION):
            lisp.dprint("Natively forwarding")
            packet.send_packet(lisp_raw_socket, packet.inner_dest)

            if (packet.is_trace()):
                lisp.lisp_trace_append(packet, reason="not an EID")
            #endif
            return
        #endif
        r = "No reachable RLOCs found"
        lisp.dprint(r)
        if (packet.is_trace()): lisp.lisp_trace_append(packet, reason=r)
        return
    #endif
    if (dest_rloc and dest_rloc.is_null()): 
        r = "Drop action RLOC found"
        lisp.dprint(r)

        if (packet.is_trace()): lisp.lisp_trace_append(packet, reason=r)
        return
    #endif

    #
    # Setup outer header for either unicast or multicast transmission..
    #
    packet.outer_tos = packet.inner_tos
    packet.outer_ttl = packet.inner_ttl

    #
    # Do unicast encapsulation.
    #
    if (dest_rloc):
        packet.outer_dest.copy_address(dest_rloc)
        version = packet.outer_dest.afi_to_version()
        packet.outer_version = version
        source_rloc = lisp.lisp_myrlocs[0] if (version == 4) else \
            lisp.lisp_myrlocs[1]
        packet.outer_source.copy_address(source_rloc)

        if (packet.is_trace()):
            if (lisp.lisp_trace_append(packet, rloc_entry=rloc_entry) \
                == False): return
        #endif

        #
        # Encode new LISP, UDP, and outer header.
        #
        if (packet.encode(nonce) == None): return
        if (len(packet.packet) <= 1500): packet.print_packet("Send", True)

        #
        # Send out on raw socket.
        #
        raw_socket = lisp_raw_v6_socket if version == 6 else lisp_raw_socket
        packet.send_packet(raw_socket, packet.outer_dest)

    elif (rle):

        #
        # Do replication of RLE is returned. Since we are an ITR, replicate to
        # level-0 RTRs (or ETRs) only (or first-level boxes only)..
        #
        level = rle.rle_nodes[0].level
        orig_len = len(packet.packet)
        for node in rle.rle_forwarding_list:
            if (node.level != level): return

            packet.outer_dest.copy_address(node.address)
            if (lisp_decent): packet.inner_dest.instance_id = 0xffffff
            version = packet.outer_dest.afi_to_version()
            packet.outer_version = version
            source_rloc = lisp.lisp_myrlocs[0] if (version == 4) else \
                lisp.lisp_myrlocs[1]
            packet.outer_source.copy_address(source_rloc)

            if (packet.is_trace()):
                if (lisp.lisp_trace_append(packet) == False): return
            #endif

            if (packet.encode(None) == None): return

            #
            # Replicate out on raw socket.
            #
            packet.print_packet("Replicate-to-L{}".format(node.level), True)
            packet.send_packet(lisp_raw_socket, packet.outer_dest)

            #
            # We need to strip the encapsulation header so we can add a new
            # one for the next replication.
            #
            strip_len = len(packet.packet) - orig_len
            packet.packet = packet.packet[strip_len::]
        #endfor
    #endif

    # 
    # Don't need packet structure anymore.
    #
    del(packet)
    return
Beispiel #2
0
if (o00oo0()):
    lisp.lprint("lisp_ddt_startup() failed")
    lisp.lisp_print_banner("DDT-Node abnormal exit")
    exit(1)
    if 52 - 52: ooOoO0o.iII111i + I1Ii111
    if 38 - 38: i1IIi - II111iiii.I1Ii111
while (True):
    ooO, o0o00OOo0, I1IIii1, OO0o0oOOO0O = lisp.lisp_receive(
        oooO0oo0oOOOO, True)
    if 49 - 49: I1ii11iIi11i.o0oOOo0O0Ooo.II111iiii
    if (o0o00OOo0 == ""): break
    if 98 - 98: iII111i
    if (ooO == "command"):
        lispconfig.lisp_process_command(oooO0oo0oOOOO, ooO, OO0o0oOOO0O,
                                        "lisp-ddt", [iiii111II])
    else:
        lisp.lisp_parse_packet(i1I1ii1II1iII, OO0o0oOOO0O, o0o00OOo0, I1IIii1)
        if 68 - 68:
            iIii1I11I1II1 * iIii1I11I1II1.o0oOOo0O0Ooo / II111iiii % Oo0Ooo
        if 38 - 38: ooOoO0o - OOooOOo / iII111i
        if 66 - 66:
            O0 % I1ii11iIi11i + i11iIiiIii.OoOoOO00 / Ii1I + I1ii11iIi11i
oOooO()
lisp.lisp_print_banner("DDT-Node normal exit")
exit(0)
if 86 - 86: o0oOOo0O0Ooo
if 5 - 5: IiII * OoOoOO00
if 5 - 5:
    I1Ii111
    # dd678faae9ac167bc83abf78e5cb2f3f0688d3a3
Beispiel #3
0
def lisp_rtr_data_plane(lisp_packet, thread_name):
    global lisp_send_sockets, lisp_ephem_prot, lisp_data_packet 
    global lisp_raw_socket, lisp_raw_v6_socket

    packet = lisp_packet

    #
    # Check RLOC-probe Map-Request. We need to grab the TTL from IP header.
    #
    orig_pkt = packet.packet
    pkt = orig_pkt
    pkt, source, port, ttl = lisp.lisp_is_rloc_probe(pkt, -1)
    if (orig_pkt != pkt):
        if (source == None): return
        lisp.lisp_parse_packet(lisp_send_sockets, pkt, source, port, ttl)
        return
    #endif

    #
    # First check if we are assembling IPv4 fragments.
    #
    packet.packet = lisp.lisp_reassemble(packet.packet)
    if (packet.packet == None): return

    #
    # We need to cache the input encapsualted packet as well as the output
    # encapsulated packet.
    #
    if (lisp.lisp_flow_logging): packet = copy.deepcopy(packet)

    if (packet.decode(True, None, lisp.lisp_decap_stats) == None): return

    #
    # Print some useful header fields and strip outer headers..
    #
    packet.print_packet("Receive-({})".format(thread_name), True)

    #
    # Strip outer headers and start inner header forwarding logic.
    #
    packet.strip_outer_headers()

    #
    # If instance-id is 0xffffff, this is a Info-Request packet encapsulated
    # to port 4341. We need to store the source port and source RLOC for
    # NAT-traversal reasons.
    #
    # We don't need to send an Info-Reply from the 4341 data port. There is no
    # information the xTR needs. It has the translated address from the 
    # map-server, and the NAT is ready for packets from port 4341 since we 
    # received this Info-Request.
    #
    if (packet.lisp_header.get_instance_id() == 0xffffff):
        header = lisp.lisp_control_header()
        header.decode(packet.packet)
        if (header.is_info_request()):
            info = lisp.lisp_info()
            info.decode(packet.packet)
            info.print_info()

            #
            # Store/refresh NAT state and Fix map-cache entries if there was
            # a change.
            #
            h = info.hostname if (info.hostname != None) else ""
            s = packet.outer_source
            p = packet.udp_sport
            if (lisp.lisp_store_nat_info(h, s, p)):
                lisp_fix_rloc_encap_state(lisp_send_sockets, h, s, p)
            #endif
        else:
            source = packet.outer_source.print_address_no_iid()
            ttl = packet.outer_ttl
            packet = packet.packet
            if (lisp.lisp_is_rloc_probe_request(packet[28]) == False and
                lisp.lisp_is_rloc_probe_reply(packet[28]) == False): ttl = -1
            packet = packet[28::]
            lisp.lisp_parse_packet(lisp_send_sockets, packet, source, 0, ttl)
        #endif
        return
    #endif

    #
    # Packets are arriving on pcap interface. Need to check if another data-
    # plane is running. If so, don't deliver duplicates.
    #
    if (lisp.lisp_ipc_data_plane): 
        lisp.dprint("Drop packet, external data-plane active")
        return
    #endif

    #
    # Increment global stats.
    #
    lisp.lisp_decap_stats["good-packets"].increment(len(packet.packet))

    #
    # Process inner header (checksum and decrement ttl).
    #
    if (packet.inner_dest.is_mac()):
        packet.packet = lisp.lisp_mac_input(packet.packet)
        if (packet.packet == None): return
        packet.encap_port = lisp.LISP_VXLAN_DATA_PORT
    elif (packet.inner_version == 4):
        packet.packet = lisp.lisp_ipv4_input(packet.packet)
        if (packet.packet == None): return
        packet.inner_ttl = packet.outer_ttl
    elif (packet.inner_version == 6):
        packet.packet = lisp.lisp_ipv6_input(packet)
        if (packet.packet == None): return
        packet.inner_ttl = packet.outer_ttl
    else:
        lisp.dprint("Cannot parse inner packet header")
        return
    #endif

    #
    # Process decap node trace function.
    #
    if (packet.is_trace()):
        if (lisp.lisp_trace_append(packet, "decap") == False): return
        packet.outer_source.afi = lisp.LISP_AFI_NONE
        packet.outer_dest.afi = lisp.LISP_AFI_NONE
    #endif

    #
    # Do map-cache lookup. If no entry found, send Map-Request.
    #
    mc = lisp.lisp_map_cache_lookup(packet.inner_source, packet.inner_dest)

    #
    # Check if we are doing secondary-instance-ids only when we have a 
    # map-cache entry in the IID that is possibly a non-LISP site.
    #
    if (mc and (mc.action == lisp.LISP_NATIVE_FORWARD_ACTION or 
        mc.eid.address == 0)):
        db = lisp.lisp_db_for_lookups.lookup_cache(packet.inner_source, False)
        if (db and db.secondary_iid):
            dest_eid = packet.inner_dest
            dest_eid.instance_id = db.secondary_iid
            mc = lisp.lisp_map_cache_lookup(packet.inner_source, dest_eid)
        #endif
    #endif

    #
    # Map-cache lookup miss.
    #
    if (mc == None or mc.action == lisp.LISP_SEND_MAP_REQUEST_ACTION):
        if (lisp.lisp_rate_limit_map_request(packet.inner_source, 
            packet.inner_dest)): return
        lisp.lisp_send_map_request(lisp_send_sockets, lisp_ephem_port, 
            packet.inner_source, packet.inner_dest, None)

        if (packet.is_trace()): lisp.lisp_trace_append(packet)
        return
    #endif

    #
    # Send Map-Request to see if there is a RLOC change or to refresh an
    # entry that is about to time out.
    #
    if (mc and mc.is_active() and mc.has_ttl_elapsed()):
        lisp.lprint("Refresh map-cache entry {}".format( \
            lisp.green(mc.print_eid_tuple(), False)))
        lisp.lisp_send_map_request(lisp_send_sockets, lisp_ephem_port, 
            packet.inner_source, packet.inner_dest, None)
    #endif

    #
    # Update stats for entry. Stats per RLOC is done in lisp_mapping.select_
    # rloc().
    #
    mc.stats.increment(len(packet.packet))

    #
    # Encapsulate or native forward packet.
    #
    dest_rloc, dest_port, nonce, action, rle = mc.select_rloc(packet, None)

    if (dest_rloc == None and rle == None):
        if (action == lisp.LISP_NATIVE_FORWARD_ACTION):
            lisp.dprint("Natively forwarding")
            packet.send_packet(lisp_raw_socket, packet.inner_dest)
            if (packet.is_trace()): lisp.lisp_trace_append(packet)
            return
        #endif
        lisp.dprint("No reachable RLOCs found")
        if (packet.is_trace()): lisp.lisp_trace_append(packet)
        return
    #endif
    if (dest_rloc and dest_rloc.is_null()): 
        lisp.dprint("Drop action RLOC found")
        if (packet.is_trace()): lisp.lisp_trace_append(packet)
        return
    #endif

    #
    # Setup outer header for either unicast or multicast transmission..
    #
    packet.outer_tos = packet.inner_tos
    packet.outer_ttl = packet.inner_ttl

    #
    # Do unicast encapsulation.
    #
    if (dest_rloc):
        packet.encap_port = dest_port
        if (dest_port == 0): packet.encap_port = lisp.LISP_DATA_PORT
        packet.outer_dest.copy_address(dest_rloc)
        version = packet.outer_dest.afi_to_version()
        packet.outer_version = version
        source_rloc = lisp.lisp_myrlocs[0] if (version == 4) else \
            lisp.lisp_myrlocs[1]
        packet.outer_source.copy_address(source_rloc)

        if (packet.is_trace()):
            if (lisp.lisp_trace_append(packet) == False): return
        #endif

        #
        # Encode new LISP, UDP, and outer header.
        #
        if (packet.encode(nonce) == None): return
        if (len(packet.packet) <= 1500): packet.print_packet("Send", True)

        #
        # Send out on raw socket.
        #
        raw_socket = lisp_raw_v6_socket if version == 6 else lisp_raw_socket
        packet.send_packet(raw_socket, packet.outer_dest)

    elif (rle):

        #
        # Do replication of RLE is returned.
        #
        orig_len = len(packet.packet)
        for node in rle.rle_forwarding_list:
            packet.outer_dest.copy_address(node.address)
            packet.encap_port = lisp.LISP_DATA_PORT if \
                node.translated_port == 0 else node.translated_port

            version = packet.outer_dest.afi_to_version()
            packet.outer_version = version
            source_rloc = lisp.lisp_myrlocs[0] if (version == 4) else \
                lisp.lisp_myrlocs[1]
            packet.outer_source.copy_address(source_rloc)

            if (packet.is_trace()):
                if (lisp.lisp_trace_append(packet) == False): return
            #endif

            if (packet.encode(None) == None): return

            packet.print_packet("Replicate-to-L{}".format(node.level), True)
            packet.send_packet(lisp_raw_socket, packet.outer_dest)

            #
            # We need to strip the encapsulation header so we can add a new
            # one for the next replication.
            #
            strip_len = len(packet.packet) - orig_len
            packet.packet = packet.packet[strip_len::]

            if (lisp.lisp_flow_logging): packet = copy.deepcopy(packet)
        #endfor
    #endif

    # 
    # Don't need packet structure anymore.
    #
    del(packet)
    return
Beispiel #4
0
            lisp_ephem_port)
    #endif

    #
    # Process Map-Reply messages received on ephemeral port.
    #
    if (lisp_ephem_listen_socket in ready_list):
        opcode, source, port, packet = lisp.lisp_receive(ephem_sockets[0], 
            False)
        if (source == ""): break

        if (lisp.lisp_is_rloc_probe_reply(packet[0])):
            lisp.lprint("ITR ignoring RLOC-probe reply, using pcap")
            continue
        #endif
        lisp.lisp_parse_packet(ephem_sockets, packet, source, port)
    #endif

    #
    # Process Info-Reply messages received on NAT ephemeral port.
    #
    if (lisp_ephem_nat_socket in ready_list):
        opcode, source, port, packet = lisp.lisp_receive(ephem_nat_sockets[0], 
            False)
        if (source == ""): break

        if (lisp.lisp_is_rloc_probe_reply(packet[0])):
            lisp.lprint("ITR ignoring RLOC-probe reply, using pcap")
            continue
        #endif
        probe = lisp.lisp_parse_packet(ephem_nat_sockets, packet, source, port)
Beispiel #5
0
#
# Main entry point for process.
#
if (lisp_ms_startup() == False):
    lisp.lprint("lisp_ms_startup() failed")
    lisp.lisp_print_banner("Map-Server abnormal exit")
    exit(1)
#endif

while (True):
    opcode, source, port, packet = \
        lisp.lisp_receive(lisp_ipc_listen_socket, True)
    if (source == ""): break

    if (opcode == "command"):
        lispconfig.lisp_process_command(
            lisp_ipc_listen_socket, opcode, packet, "lisp-ms",
            [lisp_ms_commands, lisp.lisp_policy_commands])
    elif (opcode == "api"):
        lisp.lisp_process_api("lisp-ms", lisp_ipc_listen_socket, packet)
    else:
        lisp.lisp_parse_packet(lisp_send_sockets, packet, source, port)
    #endif
#endwhile

lisp_ms_shutdown()
lisp.lisp_print_banner("Map-Server normal exit")
exit(0)

#------------------------------------------------------------------------------
Beispiel #6
0
    lisp.lprint("lisp_ddt_startup() failed")
    lisp.lisp_print_banner("DDT-Node abnormal exit")
    exit(1)
    if 68 - 68: OoooooooOO * I11i % OoOoOO00 - IiII
    if 34 - 34:
        I1Ii111.iIii1I11I1II1 * OoOoOO00 * oO0o / I1Ii111 / I1ii11iIi11i
while (True):
    oOoOOo0O, OOOooo, OooO0OO, o0OOo0o0O0O = lisp.lisp_receive(
        oooO0oo0oOOOO, True)
    if 65 - 65: i11iIiiIii
    if (OOOooo == ""): break
    if 85 - 85: Ii1I % iII111i + I11i / o0oOOo0O0Ooo.oO0o + OOooOOo
    if (oOoOOo0O == "command"):
        o0OOo0o0O0O = o0OOo0o0O0O.decode()
        lispconfig.lisp_process_command(oooO0oo0oOOOO, oOoOOo0O, o0OOo0o0O0O,
                                        "lisp-ddt", [oO00ooooO0o])
    else:
        lisp.lisp_parse_packet(i1I1ii1II1iII, o0OOo0o0O0O, OOOooo, OooO0OO)
        if 62 - 62: i11iIiiIii + i11iIiiIii - o0oOOo0O0Ooo
        if 28 - 28:
            iII111i.iII111i % iIii1I11I1II1 * iIii1I11I1II1.o0oOOo0O0Ooo / iII111i
        if 27 - 27: OoO0O00 + ooOoO0o - i1IIi
oOOOoo00()
lisp.lisp_print_banner("DDT-Node normal exit")
exit(0)
if 69 - 69: IiII - O0 % I1ii11iIi11i + i11iIiiIii.OoOoOO00 / OoO0O00
if 79 - 79: O0 * i11iIiiIii - IiII / IiII
if 48 - 48:
    O0
    # dd678faae9ac167bc83abf78e5cb2f3f0688d3a3
Beispiel #7
0
def O0O(lisp_packet, thread_name):
    global II1iII1i, i1I1I, iiI1I
    global iiI1iIiI, OOo
    if 12 - 12: i11iIiiIii - i1IIi - OoO0O00.i1IIi - OOooOOo + O0
    oO0OOOO0 = lisp_packet
    if 26 - 26: Ii1I
    if 35 - 35: Ii1I - I1IiiI % o0oOOo0O0Ooo.OoooooooOO % Ii1I
    if 47 - 47: iII111i - Ii1I.II111iiii + OoooooooOO.i11iIiiIii
    if 94 - 94: o0oOOo0O0Ooo * Ii1I / Oo0Ooo / Ii1I
    oO0 = oO0OOOO0.packet
    O0OO0O = oO0
    O0OO0O, OO, IIIIii, OoOoO = lisp.lisp_is_rloc_probe(O0OO0O, -1)
    if (oO0 != O0OO0O):
        if (OO == None): return
        lisp.lisp_parse_packet(II1iII1i, O0OO0O, OO, IIIIii, OoOoO)
        return
        if 43 - 43: i11iIiiIii + Oo0Ooo * II111iiii * I1Ii111 * O0
        if 64 - 64: OOooOOo % iIii1I11I1II1 * oO0o
        if 79 - 79: O0
        if 78 - 78: I1ii11iIi11i + OOooOOo - I1Ii111
        if 38 - 38: o0oOOo0O0Ooo - oO0o + iIii1I11I1II1 / OoOoOO00 % Oo0Ooo
    oO0OOOO0.packet = lisp.lisp_reassemble(oO0OOOO0.packet)
    if (oO0OOOO0.packet == None): return
    if 57 - 57: OoO0O00 / ooOoO0o
    if 29 - 29: iIii1I11I1II1 + OoOoOO00 * OoO0O00 * OOooOOo.I1IiiI * I1IiiI
    if 7 - 7: IiII * I1Ii111 % Ii1I - o0oOOo0O0Ooo
    if 13 - 13: Ii1I.i11iIiiIii
    if 56 - 56: I1ii11iIi11i % O0 - I1IiiI
    if (lisp.lisp_flow_logging): oO0OOOO0 = copy.deepcopy(oO0OOOO0)
    if 100 - 100: Ii1I - O0 % oO0o * OOooOOo + I1IiiI
    if (oO0OOOO0.decode(True, None, lisp.lisp_decap_stats) == None): return
    if 88 - 88: OoooooooOO - OoO0O00 * O0 * OoooooooOO.OoooooooOO
    if 33 - 33: I1Ii111 + iII111i * oO0o / iIii1I11I1II1 - I1IiiI
    if 54 - 54: I1Ii111 / OOooOOo.oO0o % iII111i
    if 57 - 57: i11iIiiIii.I1ii11iIi11i - Ii1I - oO0o + OoOoOO00
    oO0OOOO0.print_packet("Receive-({})".format(thread_name), True)
    if 63 - 63: OoOoOO00 * iII111i
    if 69 - 69: O0.OoO0O00
    if 49 - 49: I1IiiI - I11i
    if 74 - 74:
        iIii1I11I1II1 * I1ii11iIi11i + OoOoOO00 / i1IIi / II111iiii.Oo0Ooo
    oO0OOOO0.strip_outer_headers()
    if 62 - 62: OoooooooOO * I1IiiI
    if 58 - 58: OoOoOO00 % o0oOOo0O0Ooo
    if 50 - 50: I1Ii111.o0oOOo0O0Ooo
    if 97 - 97: O0 + OoOoOO00
    if 89 - 89: o0oOOo0O0Ooo + OoO0O00 * I11i * Ii1I
    if 37 - 37: OoooooooOO - O0 - o0oOOo0O0Ooo
    if 77 - 77: OOooOOo * iIii1I11I1II1
    if 98 - 98: I1IiiI % Ii1I * OoooooooOO
    if 51 - 51: iIii1I11I1II1.OoOoOO00 / oO0o + o0oOOo0O0Ooo
    if 33 - 33: ooOoO0o.II111iiii % iII111i + o0oOOo0O0Ooo
    if 71 - 71: Oo0Ooo % OOooOOo
    if (oO0OOOO0.lisp_header.get_instance_id() == 0xffffff):
        O00oO000O0O = lisp.lisp_control_header()
        O00oO000O0O.decode(oO0OOOO0.packet)
        if (O00oO000O0O.is_info_request()):
            I1i1i1iii = lisp.lisp_info()
            I1i1i1iii.decode(oO0OOOO0.packet)
            I1i1i1iii.print_info()
            if 16 - 16: Ii1I + IiII * O0 % i1IIi.I1IiiI
            if 67 - 67: OoooooooOO / I1IiiI * Ii1I + I11i
            if 65 - 65: OoooooooOO - I1ii11iIi11i / ooOoO0o / II111iiii / i1IIi
            if 71 - 71: I1Ii111 + Ii1I
            if 28 - 28: OOooOOo
            I11ii1IIiIi = I1i1i1iii.hostname if (
                I1i1i1iii.hostname != None) else ""
            OoOOo0OOoO = oO0OOOO0.outer_source
            ooO0O00Oo0o = oO0OOOO0.udp_sport
            if (lisp.lisp_store_nat_info(I11ii1IIiIi, OoOOo0OOoO,
                                         ooO0O00Oo0o)):
                i1I1iI1iIi111i(II1iII1i, I11ii1IIiIi, OoOOo0OOoO, ooO0O00Oo0o)
                if 65 - 65:
                    I1ii11iIi11i.I11i - I1Ii111 * IiII / I1Ii111 / ooOoO0o
        else:
            OO = oO0OOOO0.outer_source.print_address_no_iid()
            OoOoO = oO0OOOO0.outer_ttl
            oO0OOOO0 = oO0OOOO0.packet
            if (lisp.lisp_is_rloc_probe_request(oO0OOOO0[28]) == False
                    and lisp.lisp_is_rloc_probe_reply(oO0OOOO0[28]) == False):
                OoOoO = -1
            oO0OOOO0 = oO0OOOO0[28::]
            lisp.lisp_parse_packet(II1iII1i, oO0OOOO0, OO, 0, OoOoO)
            if 40 - 40: ooOoO0o * IiII * i11iIiiIii
        return
        if 57 - 57: ooOoO0o
        if 29 - 29:
            OoOoOO00 - IiII * OoooooooOO + OoooooooOO.II111iiii + OoooooooOO
        if 74 - 74: Ii1I - IiII / iII111i * O0 - OOooOOo
        if 19 - 19: I1IiiI
        if 25 - 25: Ii1I / ooOoO0o
        if 31 - 31: OOooOOo.O0 % I1IiiI.o0oOOo0O0Ooo + IiII
    if (lisp.lisp_ipc_data_plane):
        lisp.dprint("Drop packet, external data-plane active")
        return
        if 71 - 71: I1Ii111.II111iiii
        if 62 - 62: OoooooooOO.I11i
        if 61 - 61: OoOoOO00 - OOooOOo - i1IIi
        if 25 - 25: O0 * I11i + I1ii11iIi11i.o0oOOo0O0Ooo.o0oOOo0O0Ooo
        if 58 - 58: I1IiiI
    lisp.lisp_decap_stats["good-packets"].increment(len(oO0OOOO0.packet))
    if 53 - 53: i1IIi
    if 59 - 59: o0oOOo0O0Ooo
    if 81 - 81: OoOoOO00 - OoOoOO00.iII111i
    if 73 - 73: I11i % i11iIiiIii - I1IiiI
    if (oO0OOOO0.inner_dest.is_mac()):
        oO0OOOO0.packet = lisp.lisp_mac_input(oO0OOOO0.packet)
        if (oO0OOOO0.packet == None): return
        oO0OOOO0.encap_port = lisp.LISP_VXLAN_DATA_PORT
    elif (oO0OOOO0.inner_version == 4):
        oO0OOOO0.packet = lisp.lisp_ipv4_input(oO0OOOO0.packet)
        if (oO0OOOO0.packet == None): return
        oO0OOOO0.inner_ttl = oO0OOOO0.outer_ttl
    elif (oO0OOOO0.inner_version == 6):
        oO0OOOO0.packet = lisp.lisp_ipv6_input(oO0OOOO0)
        if (oO0OOOO0.packet == None): return
        oO0OOOO0.inner_ttl = oO0OOOO0.outer_ttl
    else:
        lisp.dprint("Cannot parse inner packet header")
        return
        if 7 - 7: O0 * i11iIiiIii * Ii1I + ooOoO0o % OoO0O00 - ooOoO0o
        if 39 - 39:
            Oo0Ooo * OOooOOo % OOooOOo - OoooooooOO + o0oOOo0O0Ooo - I11i
        if 23 - 23: i11iIiiIii
        if 30 - 30: o0oOOo0O0Ooo - i1IIi % II111iiii + I11i * iIii1I11I1II1
        if 81 - 81: IiII % i1IIi.iIii1I11I1II1
    Ii1Iii1iIi = lisp.lisp_map_cache_lookup(oO0OOOO0.inner_source,
                                            oO0OOOO0.inner_dest)
    if 82 - 82: I1ii11iIi11i / I1IiiI % iIii1I11I1II1 / i1IIi - I1IiiI
    if 7 - 7: I1Ii111 * OoO0O00 - ooOoO0o + OOooOOo * I1IiiI % OoO0O00
    if 15 - 15: OoOoOO00 % I1IiiI * I11i
    if 81 - 81: ooOoO0o - iIii1I11I1II1 - i1IIi / I1Ii111 - O0 * I11i
    if 20 - 20: oO0o % IiII
    if (Ii1Iii1iIi and (Ii1Iii1iIi.action == lisp.LISP_NATIVE_FORWARD_ACTION
                        or Ii1Iii1iIi.eid.address == 0)):
        III1i1i11i = lisp.lisp_db_for_lookups.lookup_cache(
            oO0OOOO0.inner_source, False)
        if (III1i1i11i and III1i1i11i.secondary_iid):
            oOo0 = oO0OOOO0.inner_dest
            oOo0.instance_id = III1i1i11i.secondary_iid
            Ii1Iii1iIi = lisp.lisp_map_cache_lookup(oO0OOOO0.inner_source,
                                                    oOo0)
            if 56 - 56: o0oOOo0O0Ooo + II111iiii + OoOoOO00 - ooOoO0o.OoOoOO00
            if 84 - 84:
                OoO0O00 + i1IIi - II111iiii.I1ii11iIi11i * OoooooooOO + I1IiiI
            if 38 - 38:
                OOooOOo + II111iiii % ooOoO0o % OoOoOO00 - Ii1I / OoooooooOO
            if 73 - 73: o0oOOo0O0Ooo * O0 - i11iIiiIii
            if 85 - 85: Ii1I % iII111i + I11i / o0oOOo0O0Ooo.oO0o + OOooOOo
            if 62 - 62: i11iIiiIii + i11iIiiIii - o0oOOo0O0Ooo
    if (Ii1Iii1iIi == None
            or Ii1Iii1iIi.action == lisp.LISP_SEND_MAP_REQUEST_ACTION):
        if (lisp.lisp_rate_limit_map_request(oO0OOOO0.inner_source,
                                             oO0OOOO0.inner_dest)):
            return
        lisp.lisp_send_map_request(II1iII1i, II1Ii1iI1i, oO0OOOO0.inner_source,
                                   oO0OOOO0.inner_dest, None)
        return
        if 28 - 28:
            iII111i.iII111i % iIii1I11I1II1 * iIii1I11I1II1.o0oOOo0O0Ooo / iII111i
        if 27 - 27: OoO0O00 + ooOoO0o - i1IIi
        if 69 - 69: IiII - O0 % I1ii11iIi11i + i11iIiiIii.OoOoOO00 / OoO0O00
        if 79 - 79: O0 * i11iIiiIii - IiII / IiII
        if 48 - 48: O0
        if 93 - 93: i11iIiiIii - I1IiiI * I1ii11iIi11i * I11i % O0 + OoooooooOO
    if (Ii1Iii1iIi and Ii1Iii1iIi.is_active()
            and Ii1Iii1iIi.has_ttl_elapsed()):
        lisp.lprint("Refresh map-cache entry {}".format(
            lisp.green(Ii1Iii1iIi.print_eid_tuple(), False)))
        if 25 - 25: IiII + Ii1I / ooOoO0o.o0oOOo0O0Ooo % O0 * OoO0O00
        lisp.lisp_send_map_request(II1iII1i, II1Ii1iI1i, oO0OOOO0.inner_source,
                                   oO0OOOO0.inner_dest, None)
        if 84 - 84: ooOoO0o % Ii1I + i11iIiiIii
        if 28 - 28: Oo0Ooo + OoO0O00 * OOooOOo % oO0o.I11i % O0
        if 16 - 16: I11i - iIii1I11I1II1 / I1IiiI.II111iiii + iIii1I11I1II1
        if 19 - 19: OoO0O00 - Oo0Ooo.O0
        if 60 - 60: II111iiii + Oo0Ooo
        if 9 - 9:
            ooOoO0o * OoooooooOO - iIii1I11I1II1 + OoOoOO00 / OoO0O00.OoO0O00
    Ii1Iii1iIi.stats.increment(len(oO0OOOO0.packet))
    if 49 - 49: II111iiii
    if 25 - 25: OoooooooOO - I1IiiI.I1IiiI * oO0o
    if 81 - 81: iII111i + IiII
    if 98 - 98: I1IiiI
    o00o0, II1I, II1I1I1Ii, OOOOoO00o0O, I1I1I1IIi1III = Ii1Iii1iIi.select_rloc(
        oO0OOOO0, None)
    if 5 - 5:
        Oo0Ooo % ooOoO0o % i11iIiiIii + o0oOOo0O0Ooo / I1ii11iIi11i - I1ii11iIi11i
    if (o00o0 == None and I1I1I1IIi1III == None):
        if (OOOOoO00o0O == lisp.LISP_NATIVE_FORWARD_ACTION):
            lisp.dprint("Natively forwarding")
            oO0OOOO0.send_packet(iiI1iIiI, oO0OOOO0.inner_dest)
            return
            if 45 - 45: I1ii11iIi11i % I1IiiI - i11iIiiIii
        lisp.dprint("No reachable RLOCs found")
        return
        if 11 - 11: iIii1I11I1II1 * iIii1I11I1II1 * I1IiiI
    if (o00o0 and o00o0.is_null()):
        lisp.dprint("Drop action RLOC found")
        return
        if 46 - 46: OoOoOO00 + OoO0O00
        if 70 - 70: iII111i / iIii1I11I1II1
        if 85 - 85: OoooooooOO % i1IIi * OoooooooOO / I1ii11iIi11i
        if 96 - 96: OoooooooOO + oO0o
        if 44 - 44: oO0o
    oO0OOOO0.outer_tos = oO0OOOO0.inner_tos
    oO0OOOO0.outer_ttl = oO0OOOO0.inner_ttl
    if 20 - 20: I11i + Ii1I / O0 % iIii1I11I1II1
    if 88 - 88: OoOoOO00 / II111iiii
    if 87 - 87: I1ii11iIi11i - I1ii11iIi11i - iII111i + oO0o
    if 82 - 82: oO0o / iIii1I11I1II1.I1IiiI.OOooOOo / o0oOOo0O0Ooo
    if (o00o0):
        oO0OOOO0.encap_port = II1I
        if (II1I == 0): oO0OOOO0.encap_port = lisp.LISP_DATA_PORT
        oO0OOOO0.outer_dest.copy_address(o00o0)
        iiI1I1 = oO0OOOO0.outer_dest.afi_to_version()
        oO0OOOO0.outer_version = iiI1I1
        ooO = lisp.lisp_myrlocs[0] if (iiI1I1 == 4) else lisp.lisp_myrlocs[1]
        if 6 - 6: iIii1I11I1II1.ooOoO0o % o0oOOo0O0Ooo
        oO0OOOO0.outer_source.copy_address(ooO)
        if 50 - 50: iII111i + O0 + Ii1I.II111iiii / o0oOOo0O0Ooo
        if 17 - 17: Ii1I % iIii1I11I1II1 - iIii1I11I1II1
        if 78 - 78: iII111i + I11i.ooOoO0o - iII111i.Ii1I
        if 30 - 30: I1IiiI + OoO0O00 % Ii1I * iII111i / Oo0Ooo - I11i
        if (oO0OOOO0.encode(II1I1I1Ii) == None): return
        if (len(oO0OOOO0.packet) <= 1500): oO0OOOO0.print_packet("Send", True)
        if 64 - 64: iIii1I11I1II1
        if 21 - 21: Oo0Ooo.II111iiii
        if 54 - 54: II111iiii % II111iiii
        if 86 - 86: O0 % Ii1I * ooOoO0o * iIii1I11I1II1 * i1IIi * I11i
        OOOoOOO0oO = OOo if iiI1I1 == 6 else iiI1iIiI
        oO0OOOO0.send_packet(OOOoOOO0oO, oO0OOOO0.outer_dest)
        if 28 - 28: ooOoO0o + i11iIiiIii / I11i % OoOoOO00 % Oo0Ooo - O0
    elif (I1I1I1IIi1III):
        if 54 - 54: i1IIi + II111iiii
        if 83 - 83: I1ii11iIi11i - I1IiiI + OOooOOo
        if 5 - 5: Ii1I
        if 46 - 46: IiII
        ii1iIi1iIiI1i = len(oO0OOOO0.packet)
        for iiI1iIii1i in I1I1I1IIi1III.rle_forwarding_list:
            oO0OOOO0.outer_dest.copy_address(iiI1iIii1i.address)
            oO0OOOO0.encap_port = lisp.LISP_DATA_PORT if iiI1iIii1i.translated_port == 0 else iiI1iIii1i.translated_port
            if 70 - 70: OoO0O00 * O0.I11i + I1IiiI.IiII
            if 14 - 14:
                iIii1I11I1II1 % iIii1I11I1II1 * i11iIiiIii - OoO0O00 - I11i
            iiI1I1 = oO0OOOO0.outer_dest.afi_to_version()
            oO0OOOO0.outer_version = iiI1I1
            ooO = lisp.lisp_myrlocs[0] if (iiI1I1
                                           == 4) else lisp.lisp_myrlocs[1]
            if 63 - 63: OoO0O00
            oO0OOOO0.outer_source.copy_address(ooO)
            if 69 - 69:
                iIii1I11I1II1.I1ii11iIi11i % ooOoO0o + iIii1I11I1II1 / O0 / I1ii11iIi11i
            if (oO0OOOO0.encode(None) == None): return
            if 61 - 61: OOooOOo % OOooOOo * o0oOOo0O0Ooo / o0oOOo0O0Ooo
            oO0OOOO0.print_packet("Replicate-to-L{}".format(iiI1iIii1i.level),
                                  True)
            oO0OOOO0.send_packet(iiI1iIiI, oO0OOOO0.outer_dest)
            if 75 - 75: IiII.ooOoO0o
            if 50 - 50: OoOoOO00
            if 60 - 60: ooOoO0o * iIii1I11I1II1 * I1ii11iIi11i * Oo0Ooo
            if 69 - 69: Ii1I * O0.i11iIiiIii / Ii1I.o0oOOo0O0Ooo
            if 63 - 63: I11i + o0oOOo0O0Ooo.II111iiii - I1IiiI
            oOOO00o000o = len(oO0OOOO0.packet) - ii1iIi1iIiI1i
            oO0OOOO0.packet = oO0OOOO0.packet[oOOO00o000o::]
            if 9 - 9: oO0o + I11i / I11i
            if (lisp.lisp_flow_logging): oO0OOOO0 = copy.deepcopy(oO0OOOO0)
            if 12 - 12: OoooooooOO % o0oOOo0O0Ooo * I11i % iIii1I11I1II1 / Ii1I
            if 27 - 27: i11iIiiIii % II111iiii % I11i.O0 - Oo0Ooo + OoOoOO00
            if 57 - 57: iIii1I11I1II1 / I11i - i1IIi
            if 51 - 51: IiII
            if 25 - 25: OoooooooOO + IiII * I1ii11iIi11i
            if 92 - 92: I1IiiI + I11i + O0 / o0oOOo0O0Ooo + I1Ii111
    del (oO0OOOO0)
    return
    if 18 - 18: ooOoO0o * OoOoOO00.iII111i / I1ii11iIi11i / i11iIiiIii
    if 21 - 21: oO0o / I1ii11iIi11i + Ii1I + OoooooooOO
    if 91 - 91: i11iIiiIii / i1IIi + iII111i + ooOoO0o * i11iIiiIii
    if 66 - 66: iIii1I11I1II1 % i1IIi - O0 + I11i * I1Ii111.IiII
    if 52 - 52: ooOoO0o + O0.iII111i.I1ii11iIi11i.OoO0O00
    if 97 - 97: I1IiiI / iII111i
    if 71 - 71: II111iiii / i1IIi.I1ii11iIi11i % OoooooooOO.OoOoOO00
Beispiel #8
0
    exit(1)
    if 59 - 59: OOooOOo + i11iIiiIii
    if 88 - 88: i11iIiiIii - ooOoO0o
O0iIi1IiII = [Oo0oO0oo0oO00, oO0oIIII]
I1i = [Oo0oO0oo0oO00] * 3
if 72 - 72: iIii1I11I1II1
while (True):
    try:
        iiIi, oO, Ii111 = select.select(O0iIi1IiII, [], [])
    except:
        break
    if 67 - 67: O0
    if (Oo0oO0oo0oO00 in iiIi):
        Ooo, oO0OO0, ooooo0o, oo0OoOOO0o0 = lisp.lisp_receive(I1i[0], False)
        if (oO0OO0 == ""): break
        lisp.lisp_parse_packet(I1i, oo0OoOOO0o0, oO0OO0, ooooo0o)
        continue
        if 19 - 19: II111iiii * IiII + Ii1I
        if 65 - 65: OOooOOo.I1Ii111.OoO0O00.iII111i - OOooOOo
    Ooo, oO0OO0, ooooo0o, oo0OoOOO0o0 = lisp.lisp_receive(oO0oIIII, True)
    if 19 - 19: i11iIiiIii + iII111i % ooOoO0o
    if (oO0OO0 == ""): break
    if 14 - 14: OoO0O00.II111iiii.I11i / Ii1I % I1ii11iIi11i - ooOoO0o
    if (Ooo == "command"):
        if (oo0OoOOO0o0 == "clear"):
            iIiiI1()
            continue
            if 67 - 67: I11i - OOooOOo.i1IIi
        lispconfig.lisp_process_command(oO0oIIII, Ooo, oo0OoOOO0o0, "lisp-mr",
                                        [Ii])
    else:
Beispiel #9
0
     if 1 - 1: IiII / IiII - i11iIiiIii
     if 87 - 87: Oo0Ooo / O0 * IiII / o0oOOo0O0Ooo
     if 19 - 19: I1Ii111 + i1IIi.I1IiiI - Oo0Ooo
 if (i111I in OoOo):
     iIi1I1, OO, IIIIii, oO0OOOO0 = lisp.lisp_receive(oO00oOOo0Oo[0], False)
     if (OO == ""): break
     if (lisp.lisp_is_rloc_probe_request(oO0OOOO0[0])):
         lisp.lprint("RTR ignoring RLOC-probe request, using pcap")
         continue
         if 63 - 63:
             iII111i * I1ii11iIi11i.OoooooooOO / OOooOOo * Oo0Ooo.ooOoO0o
     if (lisp.lisp_is_rloc_probe_reply(oO0OOOO0[0])):
         lisp.lprint("RTR ignoring RLOC-probe reply, using pcap")
         continue
         if 62 - 62: i1IIi / ooOoO0o.I1IiiI * o0oOOo0O0Ooo
     lisp.lisp_parse_packet(oO00oOOo0Oo, oO0OOOO0, OO, IIIIii)
     if 21 - 21: o0oOOo0O0Ooo
     if 81 - 81:
         I11i / iIii1I11I1II1 - ooOoO0o * I1Ii111.I1IiiI * I1ii11iIi11i
     if 95 - 95: I1IiiI
     if 88 - 88: IiII % OoO0O00 + I1Ii111 + I1Ii111 * II111iiii
     if 78 - 78: OoooooooOO
     if 77 - 77: I1ii11iIi11i / i1IIi / Oo0Ooo % OOooOOo
 if (oO0oIIII in OoOo):
     iIi1I1, OO, IIIIii, oO0OOOO0 = lisp.lisp_receive(oO0oIIII, True)
     if 48 - 48: I11i - IiII + iIii1I11I1II1 + OoooooooOO
     if (OO == ""): break
     if 4 - 4: II111iiii.I11i + Ii1I * I1Ii111.ooOoO0o
     if (iIi1I1 == "command"):
         if (oO0OOOO0 == "clear"):
             lisp.lisp_clear_map_cache()
Beispiel #10
0
     if 50 - 50: OoooooooOO
     if 4 - 4: II111iiii.I11i + Ii1I * I1Ii111.ooOoO0o
     if 87 - 87: OoOoOO00 / OoO0O00 / i11iIiiIii
 if (i111I in OO000oOoo0O):
     oO0OO, OO, IIIIii, oO0OOOO0 = lisp.lisp_receive(IiII1iiI[0], False)
     if (OO == ""): break
     if (lisp.lisp_is_rloc_probe_request(oO0OOOO0[0])):
         lisp.lprint("RTR ignoring RLOC-probe request, using pcap")
         continue
         if 88 - 88:
             OoOoOO00 - i11iIiiIii % o0oOOo0O0Ooo * I11i + I1ii11iIi11i
     if (lisp.lisp_is_rloc_probe_reply(oO0OOOO0[0])):
         lisp.lprint("RTR ignoring RLOC-probe reply, using pcap")
         continue
         if 52 - 52: II111iiii.I1IiiI + OoOoOO00 % OoO0O00
     lisp.lisp_parse_packet(IiII1iiI, oO0OOOO0, OO, IIIIii)
     if 62 - 62: o0oOOo0O0Ooo
     if 15 - 15: I11i + Ii1I.OOooOOo * OoO0O00.OoOoOO00
     if 18 - 18: i1IIi % II111iiii + I1Ii111 % Ii1I
     if 72 - 72: iIii1I11I1II1
     if 45 - 45: Oo0Ooo - o0oOOo0O0Ooo % I1Ii111
     if 38 - 38: I1Ii111 % OOooOOo - OoooooooOO
 if (oO0oIIII in OO000oOoo0O):
     oO0OO, OO, IIIIii, oO0OOOO0 = lisp.lisp_receive(oO0oIIII, True)
     if 87 - 87: OoO0O00 % I1IiiI
     if (OO == ""): break
     if 77 - 77: iIii1I11I1II1 - i1IIi.oO0o
     if (oO0OO == "command"):
         if (oO0OOOO0 == "clear"):
             lisp.lisp_clear_map_cache()
             continue
Beispiel #11
0
         iIii1I11I1II1 % OoOoOO00 % o0oOOo0O0Ooo % I1Ii111.I1ii11iIi11i % O0
     if 47 - 47: o0oOOo0O0Ooo
     if 66 - 66: I1IiiI - IiII
 if (II1Ii1iI1i in iIiIIi):
     I1I1Iiii1, OO, IIIIii, oO0OOOO0 = lisp.lisp_receive(
         Ooo00o0oOo0O0O[0], False)
     if (OO == ""): break
     if (lisp.lisp_is_rloc_probe_request(oO0OOOO0[0])):
         lisp.lprint("RTR ignoring RLOC-probe request, using pcap")
         continue
         if 33 - 33: I1IiiI / OoO0O00
     if (lisp.lisp_is_rloc_probe_reply(oO0OOOO0[0])):
         lisp.lprint("RTR ignoring RLOC-probe reply, using pcap")
         continue
         if 12 - 12: II111iiii
     lisp.lisp_parse_packet(Ooo00o0oOo0O0O, oO0OOOO0, OO, IIIIii)
     if 2 - 2: i1IIi - I1IiiI + I11i.II111iiii
     if 25 - 25: oO0o
     if 34 - 34: OoOoOO00.iIii1I11I1II1 % O0
     if 43 - 43: I1ii11iIi11i - iII111i
     if 70 - 70: iII111i / OOooOOo % ooOoO0o - Ii1I
     if 47 - 47: iII111i
 if (Oo0oO0oo0oO00 in iIiIIi):
     I1I1Iiii1, OO, IIIIii, oO0OOOO0 = lisp.lisp_receive(
         Oo0oO0oo0oO00, True)
     if 92 - 92: OOooOOo + OoOoOO00 % i1IIi
     if (OO == ""): break
     if 23 - 23: I1Ii111 - OOooOOo + Ii1I - OoOoOO00 * OoOoOO00.Oo0Ooo
     if (I1I1Iiii1 == "command"):
         if (oO0OOOO0 == "clear"):
             lisp.lisp_clear_map_cache()
Beispiel #12
0
#endif

socket_list = [lisp_ephem_listen_socket, lisp_ipc_listen_socket]
ephem_sockets = [lisp_ephem_listen_socket] * 3

while (True):
    try:
        ready_list, w, x = select.select(socket_list, [], [])
    except:
        break

    if (lisp_ephem_listen_socket in ready_list):
        opcode, source, port, packet = lisp.lisp_receive(
            ephem_sockets[0], False)
        if (source == ""): break
        lisp.lisp_parse_packet(ephem_sockets, packet, source, port)
        continue
    #endif

    opcode, source, port, packet = \
        lisp.lisp_receive(lisp_ipc_listen_socket, True)
    if (source == ""): break

    if (opcode == "command"):
        if (packet == "clear"):
            lisp_clear_referral_cache()
            continue
        #endif
        lispconfig.lisp_process_command(lisp_ipc_listen_socket, opcode, packet,
                                        "lisp-mr", [lisp_mr_commands])
    else:
Beispiel #13
0
    if 51 - 51: IiII * O0 / II111iiii.Ii1I % OOooOOo / I1IiiI
    if 9 - 9: I1IiiI % I1IiiI % II111iiii
I1I1i1I = [O0oO, oooO0oo0oOOOO]
oo0oo = [O0oO] * 3
if 41 - 41: OoOoOO00 * I11i / OoOoOO00 % oO0o
while (True):
    try:
        Ii, oO0oOOO0Ooo, i1i1I = select.select(I1I1i1I, [], [])
    except:
        break
    if 25 - 25: iIii1I11I1II1 + I1ii11iIi11i + iII111i / II111iiii / I11i
    if (O0oO in Ii):
        o0O0Oo00Oo0o, Ii1i1i1i1I1Ii, OOOo, oo0OOo0O = lisp.lisp_receive(
            oo0oo[0], False)
        if (Ii1i1i1i1I1Ii == ""): break
        lisp.lisp_parse_packet(oo0oo, oo0OOo0O, Ii1i1i1i1I1Ii, OOOo)
        continue
        if 39 - 39: OoooooooOO + oO0o % OOooOOo / OOooOOo
        if 27 - 27: iII111i.I11i.iIii1I11I1II1.iIii1I11I1II1
    o0O0Oo00Oo0o, Ii1i1i1i1I1Ii, OOOo, oo0OOo0O = lisp.lisp_receive(
        oooO0oo0oOOOO, True)
    if 20 - 20: o0oOOo0O0Ooo / i1IIi
    if (Ii1i1i1i1I1Ii == ""): break
    if 71 - 71: OoOoOO00.i1IIi
    if (o0O0Oo00Oo0o == "command"):
        oo0OOo0O = oo0OOo0O.decode()
        if (oo0OOo0O == "clear"):
            oo()
            continue
            if 94 - 94: OOooOOo.I1Ii111
        lispconfig.lisp_process_command(oooO0oo0oOOOO, o0O0Oo00Oo0o, oo0OOo0O,