示例#1
0
    def parse(cls, value):
        try:
            afi, safi = struct.unpack('!HB', value[0:3])
        except Exception:
            raise excep.UpdateMessageError(
                sub_error=bgp_cons.ERR_MSG_UPDATE_ATTR_LEN, data='')

        nlri_bin = value[3:]

        # for IPv4
        if afi == afn.AFNUM_INET:

            # VPNv4
            if safi == safn.SAFNUM_LAB_VPNUNICAST:
                nlri = IPv4MPLSVPN.parse(nlri_bin, iswithdraw=True)
                return dict(afi_safi=(afi, safi), withdraw=nlri)
            # BGP flow spec
            elif safi == safn.SAFNUM_FSPEC_RULE:
                # if nlri length is greater than 240 bytes, it is encoded over 2 bytes
                withdraw_list = []
                while nlri_bin:
                    length = ord(nlri_bin[0])
                    if length >> 4 == 0xf and len(nlri_bin) > 2:
                        length = struct.unpack('!H', nlri_bin[:2])[0]
                        nlri_tmp = nlri_bin[2:length + 2]
                        nlri_bin = nlri_bin[length + 2:]
                    else:
                        nlri_tmp = nlri_bin[1:length + 1]
                        nlri_bin = nlri_bin[length + 1:]
                    nlri = IPv4FlowSpec.parse(nlri_tmp)
                    if nlri:
                        withdraw_list.append(nlri)

                return dict(afi_safi=(afi, safi), withdraw=withdraw_list)
            else:
                return dict(afi_safi=(afn.AFNUM_INET, safi),
                            withdraw=repr(nlri_bin))
        # for ipv6
        elif afi == afn.AFNUM_INET6:
            # for ipv6 unicast
            if safi == safn.SAFNUM_UNICAST:
                return dict(afi_safi=(afi, safi),
                            withdraw=IPv6Unicast.parse(nlri_data=nlri_bin))
            elif safi == safn.SAFNUM_LAB_VPNUNICAST:
                return dict(afi_safi=(afi, safi),
                            withdraw=IPv6MPLSVPN.parse(value=nlri_bin,
                                                       iswithdraw=True))
            else:
                return dict(afi_safi=(afi, safi), withdraw=repr(nlri_bin))
        # for l2vpn
        elif afi == afn.AFNUM_L2VPN:
            # for evpn
            if safi == safn.SAFNUM_EVPN:
                return dict(afi_safi=(afi, safi),
                            withdraw=EVPN.parse(nlri_data=nlri_bin))
            else:
                return dict(afi_safi=(afi, safi), withdraw=repr(nlri_bin))

        else:
            return dict(afi_safi=(afi, safi), withdraw=repr(nlri_bin))
示例#2
0
 def test_withdraw_parse(self):
     nlri_hex = b'\x98\x80\x00\x00\x00\x00\x00\x64\x00\x00\x00\x0c\x20\x10\x00\x00\x00\x12\x00' \
                b'\x04\x98\x80\x00\x00\x00\x00\x00\x64\x00\x00\x00\x0c\x20\x10\x00\x01\x00\x12\x00\x00'
     nlri_list = [
         {'label': [524288], 'rd': '100:12', 'prefix': '2010:0:12:4::/64'},
         {'label': [524288], 'rd': '100:12', 'prefix': '2010:1:12::/64'}
     ]
     self.assertEqual(nlri_list, IPv6MPLSVPN.parse(value=nlri_hex, iswithdraw=True))
示例#3
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 def test_update_parse(self):
     nlri_hex = b'\x98\x00\x03\x61\x00\x00\x00\x64\x00\x00\x00\x0c\x20\x10\x00\x00\x00\x12\x00\x04' \
                b'\x98\x00\x03\x71\x00\x00\x00\x64\x00\x00\x00\x0c\x20\x10\x00\x01\x00\x12\x00\x00'
     nlri_list = [
         {'label': [54], 'rd': '100:12', 'prefix': '2010:0:12:4::/64'},
         {'label': [55], 'rd': '100:12', 'prefix': '2010:1:12::/64'}
     ]
     self.assertEqual(nlri_list, IPv6MPLSVPN.parse(value=nlri_hex))
示例#4
0
    def parse(cls, value):
        try:
            afi, safi = struct.unpack('!HB', value[0:3])
        except Exception:
            raise excep.UpdateMessageError(sub_error=bgp_cons.ERR_MSG_UPDATE_ATTR_LEN,
                                           data='')

        nlri_bin = value[3:]

        # for IPv4
        if afi == afn.AFNUM_INET:

            # VPNv4
            if safi == safn.SAFNUM_LAB_VPNUNICAST:
                nlri = IPv4MPLSVPN.parse(nlri_bin, iswithdraw=True)
                return dict(afi_safi=(afi, safi), withdraw=nlri)
            # BGP flow spec
            elif safi == safn.SAFNUM_FSPEC_RULE:
                # if nlri length is greater than 240 bytes, it is encoded over 2 bytes
                withdraw_list = []
                while nlri_bin:
                    length = ord(nlri_bin[0])
                    if length >> 4 == 0xf and len(nlri_bin) > 2:
                        length = struct.unpack('!H', nlri_bin[:2])[0]
                        nlri_tmp = nlri_bin[2: length + 2]
                        nlri_bin = nlri_bin[length + 2:]
                    else:
                        nlri_tmp = nlri_bin[1: length + 1]
                        nlri_bin = nlri_bin[length + 1:]
                    nlri = IPv4FlowSpec.parse(nlri_tmp)
                    if nlri:
                        withdraw_list.append(nlri)

                return dict(afi_safi=(afi, safi), withdraw=withdraw_list)
            else:
                return dict(afi_safi=(afn.AFNUM_INET, safi), withdraw=repr(nlri_bin))
        # for ipv6
        elif afi == afn.AFNUM_INET6:
            # for ipv6 unicast
            if safi == safn.SAFNUM_UNICAST:
                return dict(afi_safi=(afi, safi), withdraw=IPv6Unicast.parse(nlri_data=nlri_bin))
            elif safi == safn.SAFNUM_LAB_VPNUNICAST:
                return dict(afi_safi=(afi, safi), withdraw=IPv6MPLSVPN.parse(value=nlri_bin, iswithdraw=True))
            else:
                return dict(afi_safi=(afi, safi), withdraw=repr(nlri_bin))
        # for l2vpn
        elif afi == afn.AFNUM_L2VPN:
            # for evpn
            if safi == safn.SAFNUM_EVPN:
                return dict(afi_safi=(afi, safi), withdraw=EVPN.parse(nlri_data=nlri_bin))
            else:
                return dict(afi_safi=(afi, safi), withdraw=repr(nlri_bin))

        else:
            return dict(afi_safi=(afi, safi), withdraw=repr(nlri_bin))
示例#5
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 def test_update_parse(self):
     nlri_hex = b'\x98\x00\x03\x61\x00\x00\x00\x64\x00\x00\x00\x0c\x20\x10\x00\x00\x00\x12\x00\x04' \
                b'\x98\x00\x03\x71\x00\x00\x00\x64\x00\x00\x00\x0c\x20\x10\x00\x01\x00\x12\x00\x00'
     nlri_list = [{
         'label': [54],
         'rd': '100:12',
         'prefix': '2010:0:12:4::/64'
     }, {
         'label': [55],
         'rd': '100:12',
         'prefix': '2010:1:12::/64'
     }]
     self.assertEqual(nlri_list, IPv6MPLSVPN.parse(value=nlri_hex))
示例#6
0
 def test_withdraw_parse(self):
     nlri_hex = b'\x98\x80\x00\x00\x00\x00\x00\x64\x00\x00\x00\x0c\x20\x10\x00\x00\x00\x12\x00' \
                b'\x04\x98\x80\x00\x00\x00\x00\x00\x64\x00\x00\x00\x0c\x20\x10\x00\x01\x00\x12\x00\x00'
     nlri_list = [{
         'label': [524288],
         'rd': '100:12',
         'prefix': '2010:0:12:4::/64'
     }, {
         'label': [524288],
         'rd': '100:12',
         'prefix': '2010:1:12::/64'
     }]
     self.assertEqual(nlri_list,
                      IPv6MPLSVPN.parse(value=nlri_hex, iswithdraw=True))
示例#7
0
    def parse(cls, value):

        try:
            afi, safi, nexthop_length = struct.unpack('!HBB', value[0:4])
            nexthop_bin = value[4:4 + nexthop_length]
            nlri_bin = value[5 + nexthop_length:]
        except Exception:
            # error when lenght is wrong
            raise excep.UpdateMessageError(
                sub_error=bgp_cons.ERR_MSG_UPDATE_ATTR_LEN, data=repr(value))

        #  Address Family IPv4
        if afi == afn.AFNUM_INET:
            if safi == safn.SAFNUM_LAB_VPNUNICAST:
                # MPLS VPN
                # parse nexthop
                rd_bin = nexthop_bin[0:8]
                rd_type = struct.unpack('!H', rd_bin[0:2])[0]
                rd_value_bin = rd_bin[2:]
                if rd_type == 0:
                    asn, an = struct.unpack('!HI', rd_value_bin)
                    ipv4 = str(
                        netaddr.IPAddress(
                            int(binascii.b2a_hex(nexthop_bin[8:]), 16)))
                    nexthop = {'rd': '%s:%s' % (asn, an), 'str': ipv4}
                # TODO(xiaoquwl) for other RD type decoding
                else:
                    nexthop = repr(nexthop_bin[8:])
                # parse nlri
                nlri = IPv4MPLSVPN.parse(nlri_bin)
                return dict(afi_safi=(afi, safi), nexthop=nexthop, nlri=nlri)
            elif safi == safn.SAFNUM_FSPEC_RULE:
                # if nlri length is greater than 240 bytes, it is encoded over 2 bytes
                if len(nlri_bin) >= 240:
                    nlri_bin = nlri_bin[2:]
                else:
                    nlri_bin = nlri_bin[1:]
                nlri = IPv4FlowSpec.parse(nlri_bin)
                return dict(afi_safi=(afi, safi),
                            nexthop=nexthop_bin,
                            nlri=nlri)
            else:
                nlri = repr(nlri_bin)

        # #  Address Family IPv6
        elif afi == afn.AFNUM_INET6:
            # IPv6 unicast
            if safi == safn.SAFNUM_UNICAST:
                # decode nexthop
                # RFC 2545
                # The value of the Length of Next Hop Network Address field on a
                # MP_REACH_NLRI attribute shall be set to 16, when only a global
                # address is present, or 32 if a link-local address is also included in
                # the Next Hop field.
                #
                # The link-local address shall be included in the Next Hop field if and
                # only if the BGP speaker shares a common subnet with the entity
                # identified by the global IPv6 address carried in the Network Address
                # of Next Hop field and the peer the route is being advertised to.
                nexthop_addrlen = 16
                has_link_local = False
                nexthop = str(
                    netaddr.IPAddress(
                        int(binascii.b2a_hex(nexthop_bin[:nexthop_addrlen]),
                            16)))
                if len(nexthop_bin) == 2 * nexthop_addrlen:
                    # has link local address
                    has_link_local = True
                    linklocal_nexthop = str(
                        netaddr.IPAddress(
                            int(
                                binascii.b2a_hex(
                                    nexthop_bin[nexthop_addrlen:]), 16)))
                nlri = IPv6Unicast.parse(nlri_bin)
                if has_link_local:
                    return dict(afi_safi=(afi, safi),
                                nexthop=nexthop,
                                linklocal_nexthop=linklocal_nexthop,
                                nlri=nlri)
                else:
                    return dict(afi_safi=(afi, safi),
                                nexthop=nexthop,
                                nlri=nlri)
            elif safi == safn.SAFNUM_LAB_VPNUNICAST:
                # IPv6 MPLS VPN
                # parse nexthop
                rd_bin = nexthop_bin[0:8]
                rd_type = struct.unpack('!H', rd_bin[0:2])[0]
                rd_value_bin = rd_bin[2:]
                if rd_type == 0:
                    asn, an = struct.unpack('!HI', rd_value_bin)
                    ipv6 = str(
                        netaddr.IPAddress(
                            int(binascii.b2a_hex(nexthop_bin[8:]), 16)))
                    nexthop = {'rd': '%s:%s' % (asn, an), 'str': ipv6}
                # TODO(xiaoquwl) for other RD type decoding
                else:
                    nexthop = repr(nexthop_bin[8:])
                # parse nlri
                nlri = IPv6MPLSVPN.parse(nlri_bin)
                return dict(afi_safi=(afi, safi), nexthop=nexthop, nlri=nlri)
            else:
                return dict(afi_safi=(afi, safi),
                            nexthop=nexthop_bin,
                            nlri=nlri_bin)

        # for l2vpn
        elif afi == afn.AFNUM_L2VPN:
            if safi == safn.SAFNUM_EVPN:
                nexthop = str(
                    netaddr.IPAddress(int(binascii.b2a_hex(nexthop_bin), 16)))
                nlri = EVPN.parse(nlri_bin)
                return dict(afi_safi=(afi, safi), nexthop=nexthop, nlri=nlri)
            else:
                nlri = repr(nlri_bin)

        else:
            nlri = repr(nlri_bin)

        return dict(afi_safi=(afi, safi), nexthop=nexthop_bin, nlri=nlri_bin)
示例#8
0
    def parse(cls, value):

        try:
            afi, safi, nexthop_length = struct.unpack('!HBB', value[0:4])
            nexthop_bin = value[4:4 + nexthop_length]
            nlri_bin = value[5 + nexthop_length:]
        except Exception:
            # error when lenght is wrong
            raise excep.UpdateMessageError(
                sub_error=bgp_cons.ERR_MSG_UPDATE_ATTR_LEN,
                data=repr(value))

        #  Address Family IPv4
        if afi == afn.AFNUM_INET:
            if safi == safn.SAFNUM_LAB_VPNUNICAST:
                # MPLS VPN
                # parse nexthop
                rd_bin = nexthop_bin[0:8]
                rd_type = struct.unpack('!H', rd_bin[0:2])[0]
                rd_value_bin = rd_bin[2:]
                if rd_type == 0:
                    asn, an = struct.unpack('!HI', rd_value_bin)
                    ipv4 = str(netaddr.IPAddress(int(binascii.b2a_hex(nexthop_bin[8:]), 16)))
                    nexthop = {'rd': '%s:%s' % (asn, an), 'str': ipv4}
                # TODO(xiaoquwl) for other RD type decoding
                else:
                    nexthop = repr(nexthop_bin[8:])
                # parse nlri
                nlri = IPv4MPLSVPN.parse(nlri_bin)
                return dict(afi_safi=(afi, safi), nexthop=nexthop, nlri=nlri)
            elif safi == safn.SAFNUM_FSPEC_RULE:
                # if nlri length is greater than 240 bytes, it is encoded over 2 bytes
                nlri_list = []
                while nlri_bin:
                    length = ord(nlri_bin[0])
                    if length >> 4 == 0xf and len(nlri_bin) > 2:
                        length = struct.unpack('!H', nlri_bin[:2])[0]
                        nlri_tmp = nlri_bin[2: length + 2]
                        nlri_bin = nlri_bin[length + 2:]
                    else:
                        nlri_tmp = nlri_bin[1: length + 1]
                        nlri_bin = nlri_bin[length + 1:]
                    nlri = IPv4FlowSpec.parse(nlri_tmp)
                    if nlri:
                        nlri_list.append(nlri)
                if nexthop_bin:
                    nexthop = str(netaddr.IPAddress(int(binascii.b2a_hex(nexthop_bin), 16)))
                else:
                    nexthop = ''
                return dict(afi_safi=(afi, safi), nexthop=nexthop, nlri=nlri_list)
            else:
                nlri = repr(nlri_bin)

        # #  Address Family IPv6
        elif afi == afn.AFNUM_INET6:
            # IPv6 unicast
            if safi == safn.SAFNUM_UNICAST:
                # decode nexthop
                # RFC 2545
                # The value of the Length of Next Hop Network Address field on a
                # MP_REACH_NLRI attribute shall be set to 16, when only a global
                # address is present, or 32 if a link-local address is also included in
                # the Next Hop field.
                #
                # The link-local address shall be included in the Next Hop field if and
                # only if the BGP speaker shares a common subnet with the entity
                # identified by the global IPv6 address carried in the Network Address
                # of Next Hop field and the peer the route is being advertised to.
                nexthop_addrlen = 16
                has_link_local = False
                nexthop = str(netaddr.IPAddress(int(binascii.b2a_hex(nexthop_bin[:nexthop_addrlen]), 16)))
                if len(nexthop_bin) == 2 * nexthop_addrlen:
                    # has link local address
                    has_link_local = True
                    linklocal_nexthop = str(netaddr.IPAddress(int(binascii.b2a_hex(nexthop_bin[nexthop_addrlen:]), 16)))
                nlri = IPv6Unicast.parse(nlri_bin)
                if has_link_local:
                    return dict(afi_safi=(afi, safi), nexthop=nexthop, linklocal_nexthop=linklocal_nexthop, nlri=nlri)
                else:
                    return dict(afi_safi=(afi, safi), nexthop=nexthop, nlri=nlri)
            elif safi == safn.SAFNUM_LAB_VPNUNICAST:
                # IPv6 MPLS VPN
                # parse nexthop
                rd_bin = nexthop_bin[0:8]
                rd_type = struct.unpack('!H', rd_bin[0:2])[0]
                rd_value_bin = rd_bin[2:]
                if rd_type == 0:
                    asn, an = struct.unpack('!HI', rd_value_bin)
                    ipv6 = str(netaddr.IPAddress(int(binascii.b2a_hex(nexthop_bin[8:]), 16)))
                    nexthop = {'rd': '%s:%s' % (asn, an), 'str': ipv6}
                # TODO(xiaoquwl) for other RD type decoding
                else:
                    nexthop = repr(nexthop_bin[8:])
                # parse nlri
                nlri = IPv6MPLSVPN.parse(nlri_bin)
                return dict(afi_safi=(afi, safi), nexthop=nexthop, nlri=nlri)
            else:
                return dict(afi_safi=(afi, safi), nexthop=nexthop_bin, nlri=nlri_bin)

        # for l2vpn
        elif afi == afn.AFNUM_L2VPN:
            if safi == safn.SAFNUM_EVPN:
                nexthop = str(netaddr.IPAddress(int(binascii.b2a_hex(nexthop_bin), 16)))
                nlri = EVPN.parse(nlri_bin)
                return dict(afi_safi=(afi, safi), nexthop=nexthop, nlri=nlri)
            else:
                nlri = repr(nlri_bin)

        else:
            nlri = repr(nlri_bin)

        return dict(afi_safi=(afi, safi), nexthop=nexthop_bin, nlri=nlri_bin)