# Copyright (C) 2013 Nippon Telegraph and Telephone Corporation. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or # implied. # See the License for the specific language governing permissions and # limitations under the License. import abc import six import struct from os_ken.lib import addrconv from os_ken.lib import stringify from os_ken.lib.packet import packet_base # IEEE 802.1ag OpCode CFM_CC_MESSAGE = 0x01 CFM_LOOPBACK_REPLY = 0x02 CFM_LOOPBACK_MESSAGE = 0x03 CFM_LINK_TRACE_REPLY = 0x04 CFM_LINK_TRACE_MESSAGE = 0x05 # IEEE 802.1ag TLV type CFM_END_TLV = 0x00 CFM_SENDER_ID_TLV = 0x01 CFM_PORT_STATUS_TLV = 0x02 CFM_DATA_TLV = 0x03 CFM_INTERFACE_STATUS_TLV = 0x04 CFM_REPLY_INGRESS_TLV = 0x05 CFM_REPLY_EGRESS_TLV = 0x06 CFM_LTM_EGRESS_IDENTIFIER_TLV = 0x07 CFM_LTR_EGRESS_IDENTIFIER_TLV = 0x08 CFM_ORGANIZATION_SPECIFIC_TLV = 0x1f # IEEE 802.1ag CFM version CFM_VERSION = 0 class cfm(packet_base.PacketBase): """CFM (Connectivity Fault Management) Protocol header class. http://standards.ieee.org/getieee802/download/802.1ag-2007.pdf OpCode Field range assignments +---------------+--------------------------------------------------+ | OpCode range | CFM PDU or organization | +===============+==================================================+ | 0 | Reserved for IEEE 802.1 | +---------------+--------------------------------------------------+ | 1 | Continuity Check Message (CCM) | +---------------+--------------------------------------------------+ | 2 | Loopback Reply (LBR) | +---------------+--------------------------------------------------+ | 3 | Loopback Message (LBM) | +---------------+--------------------------------------------------+ | 4 | Linktrace Reply (LTR) | +---------------+--------------------------------------------------+ | 5 | Linktrace Message (LTM) | +---------------+--------------------------------------------------+ | 06 - 31 | Reserved for IEEE 802.1 | +---------------+--------------------------------------------------+ | 32 - 63 | Defined by ITU-T Y.1731 | +---------------+--------------------------------------------------+ | 64 - 255 | Reserved for IEEE 802.1. | +---------------+--------------------------------------------------+ An instance has the following attributes at least. Most of them are same to the on-wire counterparts but in host byte order. __init__ takes the corresponding args in this order. .. tabularcolumns:: |l|L| ============== ======================================== Attribute Description ============== ======================================== op CFM PDU ============== ======================================== """ _PACK_STR = '!B' _MIN_LEN = struct.calcsize(_PACK_STR) _CFM_OPCODE = {} _TYPE = { 'ascii': [ 'ltm_orig_addr', 'ltm_targ_addr' ] } @staticmethod def register_cfm_opcode(type_): def _register_cfm_opcode(cls): cfm._CFM_OPCODE[type_] = cls return cls return _register_cfm_opcode def __init__(self, op=None): super(cfm, self).__init__() assert isinstance(op, operation) self.op = op @classmethod def parser(cls, buf): (opcode, ) = struct.unpack_from(cls._PACK_STR, buf, cls._MIN_LEN) cls_ = cls._CFM_OPCODE.get(opcode) op = cls_.parser(buf) instance = cls(op) rest = buf[len(instance):] return instance, None, rest def serialize(self, payload, prev): buf = self.op.serialize() return buf def __len__(self): return len(self.op) @six.add_metaclass(abc.ABCMeta) class operation(stringify.StringifyMixin): _TLV_TYPES = {} _END_TLV_LEN = 1 @staticmethod def register_tlv_types(type_): def _register_tlv_types(cls): operation._TLV_TYPES[type_] = cls return cls return _register_tlv_types def __init__(self, md_lv, version, tlvs): self.md_lv = md_lv self.version = version tlvs = tlvs or [] assert isinstance(tlvs, list) for tlv_ in tlvs: assert isinstance(tlv_, tlv) self.tlvs = tlvs @classmethod @abc.abstractmethod def parser(cls, buf): pass @abc.abstractmethod def serialize(self): pass @abc.abstractmethod def __len__(self): pass @classmethod def _parser_tlvs(cls, buf): offset = 0 tlvs = [] while True: (type_, ) = struct.unpack_from('!B', buf, offset) cls_ = cls._TLV_TYPES.get(type_) if not cls_: assert type_ is CFM_END_TLV break tlv_ = cls_.parser(buf[offset:]) tlvs.append(tlv_) offset += len(tlv_) return tlvs @staticmethod def _serialize_tlvs(tlvs): buf = bytearray() for tlv_ in tlvs: buf.extend(tlv_.serialize()) return buf def _calc_len(self, len_): for tlv_ in self.tlvs: len_ += len(tlv_) len_ += self._END_TLV_LEN return len_ @cfm.register_cfm_opcode(CFM_CC_MESSAGE) class cc_message(operation): """CFM (IEEE Std 802.1ag-2007) Continuity Check Message (CCM) encoder/decoder class. This is used with os_ken.lib.packet.cfm.cfm. An instance has the following attributes at least. Most of them are same to the on-wire counterparts but in host byte order. __init__ takes the corresponding args in this order. .. tabularcolumns:: |l|L| ==================== ======================================= Attribute Description ==================== ======================================= md_lv Maintenance Domain Level. version The protocol version number. rdi RDI bit. interval CCM Interval.The default is 4 (1 frame/s) seq_num Sequence Number. mep_id Maintenance association End Point Identifier. md_name_format Maintenance Domain Name Format. The default is 4 (Character string) md_name_length Maintenance Domain Name Length. (0 means automatically-calculate when encoding.) md_name Maintenance Domain Name. short_ma_name_format Short MA Name Format. The default is 2 (Character string) short_ma_name_length Short MA Name Format Length. (0 means automatically-calculate when encoding.) short_ma_name Short MA Name. tlvs TLVs. ==================== ======================================= """ _PACK_STR = '!4BIHB' _MIN_LEN = struct.calcsize(_PACK_STR) _TLV_OFFSET = 70 _MD_NAME_FORMAT_LEN = 1 _MD_NAME_LENGTH_LEN = 1 _SHORT_MA_NAME_FORMAT_LEN = 1 _SHORT_MA_NAME_LENGTH_LEN = 1 _MA_ID_LEN = 64 # Maintenance Domain Name Format _MD_FMT_NO_MD_NAME_PRESENT = 1 _MD_FMT_DOMAIN_NAME_BASED_STRING = 2 _MD_FMT_MAC_ADDRESS_TWO_OCTET_INTEGER = 3 _MD_FMT_CHARACTER_STRING = 4 # Short MA Name Format _SHORT_MA_FMT_PRIMARY_VID = 1 _SHORT_MA_FMT_CHARACTER_STRING = 2 _SHORT_MA_FMT_TWO_OCTET_INTEGER = 3 _SHORT_MA_FMT_RFC_2685_VPN_ID = 4 # CCM Transmission Interval _INTERVAL_300_HZ = 1 _INTERVAL_10_MSEC = 2 _INTERVAL_100_MSEC = 3 _INTERVAL_1_SEC = 4 _INTERVAL_10_SEC = 5 _INTERVAL_1_MIN = 6 _INTERVAL_10_MIN = 6 def __init__(self, md_lv=0, version=CFM_VERSION, rdi=0, interval=_INTERVAL_1_SEC, seq_num=0, mep_id=1, md_name_format=_MD_FMT_CHARACTER_STRING, md_name_length=0, md_name=b"0", short_ma_name_format=_SHORT_MA_FMT_CHARACTER_STRING, short_ma_name_length=0, short_ma_name=b"1", tlvs=None): super(cc_message, self).__init__(md_lv, version, tlvs) self._opcode = CFM_CC_MESSAGE assert rdi in [0, 1] self.rdi = rdi assert interval is not 0 self.interval = interval self.seq_num = seq_num assert 1 <= mep_id <= 8191 self.mep_id = mep_id self.md_name_format = md_name_format self.md_name_length = md_name_length self.md_name = md_name self.short_ma_name_format = short_ma_name_format self.short_ma_name_length = short_ma_name_length self.short_ma_name = short_ma_name @classmethod def parser(cls, buf): (md_lv_version, opcode, flags, tlv_offset, seq_num, mep_id, md_name_format) = struct.unpack_from(cls._PACK_STR, buf) md_name_length = 0 md_name = b"" md_lv = int(md_lv_version >> 5) version = int(md_lv_version & 0x1f) rdi = int(flags >> 7) interval = int(flags & 0x07) offset = cls._MIN_LEN # parse md_name if md_name_format != cls._MD_FMT_NO_MD_NAME_PRESENT: (md_name_length, ) = struct.unpack_from("!B", buf, offset) offset += cls._MD_NAME_LENGTH_LEN form = "%dB" % md_name_length md_name = struct.unpack_from(form, buf, offset) offset += md_name_length # parse short_ma_name (short_ma_name_format, short_ma_name_length) = struct.unpack_from("!2B", buf, offset) offset += (cls._SHORT_MA_NAME_FORMAT_LEN + cls._SHORT_MA_NAME_LENGTH_LEN) form = "%dB" % short_ma_name_length short_ma_name = struct.unpack_from(form, buf, offset) offset = cls._MIN_LEN + (cls._MA_ID_LEN - cls._MD_NAME_FORMAT_LEN) tlvs = cls._parser_tlvs(buf[offset:]) # ascii to text if md_name_format == cls._MD_FMT_DOMAIN_NAME_BASED_STRING or \ md_name_format == cls._MD_FMT_CHARACTER_STRING: md_name = b"".join(map(six.int2byte, md_name)) if short_ma_name_format == cls._SHORT_MA_FMT_CHARACTER_STRING: short_ma_name = b"".join(map(six.int2byte, short_ma_name)) return cls(md_lv, version, rdi, interval, seq_num, mep_id, md_name_format, md_name_length, md_name, short_ma_name_format, short_ma_name_length, short_ma_name, tlvs) def serialize(self): buf = struct.pack(self._PACK_STR, (self.md_lv << 5) | self.version, self._opcode, (self.rdi << 7) | self.interval, self._TLV_OFFSET, self.seq_num, self.mep_id, self.md_name_format) buf = bytearray(buf) # Maintenance Domain Name if self.md_name_format != self._MD_FMT_NO_MD_NAME_PRESENT: if self.md_name_length == 0: self.md_name_length = len(self.md_name) buf.extend(struct.pack('!B%ds' % self.md_name_length, self.md_name_length, self.md_name)) # Short MA Name if self.short_ma_name_length == 0: self.short_ma_name_length = len(self.short_ma_name) buf.extend(struct.pack('!2B%ds' % self.short_ma_name_length, self.short_ma_name_format, self.short_ma_name_length, self.short_ma_name )) # 0 pad maid_length = (self._MD_NAME_FORMAT_LEN + self._SHORT_MA_NAME_FORMAT_LEN + self._SHORT_MA_NAME_LENGTH_LEN + self.short_ma_name_length) if self.md_name_format != self._MD_FMT_NO_MD_NAME_PRESENT: maid_length += self._MD_NAME_LENGTH_LEN + self.md_name_length buf.extend(bytearray(self._MA_ID_LEN - maid_length)) # tlvs if self.tlvs: buf.extend(self._serialize_tlvs(self.tlvs)) buf.extend(struct.pack("!B", CFM_END_TLV)) return buf def __len__(self): return self._calc_len( (self._MIN_LEN - self._MD_NAME_FORMAT_LEN) + self._MA_ID_LEN) class loopback(operation): _PACK_STR = '!4BI' _MIN_LEN = struct.calcsize(_PACK_STR) _TLV_OFFSET = 4 @abc.abstractmethod def __init__(self, md_lv, version, transaction_id, tlvs): super(loopback, self).__init__(md_lv, version, tlvs) self._flags = 0 self.transaction_id = transaction_id @classmethod def parser(cls, buf): (md_lv_version, opcode, flags, tlv_offset, transaction_id) = struct.unpack_from(cls._PACK_STR, buf) md_lv = int(md_lv_version >> 5) version = int(md_lv_version & 0x1f) tlvs = cls._parser_tlvs(buf[cls._MIN_LEN:]) return cls(md_lv, version, transaction_id, tlvs) def serialize(self): buf = struct.pack(self._PACK_STR, (self.md_lv << 5) | self.version, self._opcode, self._flags, self._TLV_OFFSET, self.transaction_id, ) buf = bytearray(buf) # tlvs if self.tlvs: buf.extend(self._serialize_tlvs(self.tlvs)) buf.extend(struct.pack("!B", CFM_END_TLV)) return buf def __len__(self): return self._calc_len(self._MIN_LEN) @cfm.register_cfm_opcode(CFM_LOOPBACK_MESSAGE) class loopback_message(loopback): """CFM (IEEE Std 802.1ag-2007) Loopback Message (LBM) encoder/decoder class. This is used with os_ken.lib.packet.cfm.cfm. An instance has the following attributes at least. Most of them are same to the on-wire counterparts but in host byte order. __init__ takes the corresponding args in this order. .. tabularcolumns:: |l|L| ================= ======================================= Attribute Description ================= ======================================= md_lv Maintenance Domain Level. version The protocol version number. transaction_id Loopback Transaction Identifier. tlvs TLVs. ================= ======================================= """ def __init__(self, md_lv=0, version=CFM_VERSION, transaction_id=0, tlvs=None, ): super(loopback_message, self).__init__(md_lv, version, transaction_id, tlvs) self._opcode = CFM_LOOPBACK_MESSAGE @cfm.register_cfm_opcode(CFM_LOOPBACK_REPLY) class loopback_reply(loopback): """CFM (IEEE Std 802.1ag-2007) Loopback Reply (LBR) encoder/decoder class. This is used with os_ken.lib.packet.cfm.cfm. An instance has the following attributes at least. Most of them are same to the on-wire counterparts but in host byte order. __init__ takes the corresponding args in this order. .. tabularcolumns:: |l|L| ==================== ======================================= Attribute Description ==================== ======================================= md_lv Maintenance Domain Level. version The protocol version number. transaction_id Loopback Transaction Identifier. tlvs TLVs. ==================== ======================================= """ def __init__(self, md_lv=0, version=CFM_VERSION, transaction_id=0, tlvs=None, ): super(loopback_reply, self).__init__(md_lv, version, transaction_id, tlvs) self._opcode = CFM_LOOPBACK_REPLY class link_trace(operation): @abc.abstractmethod def __init__(self, md_lv, version, use_fdb_only, transaction_id, ttl, tlvs): super(link_trace, self).__init__(md_lv, version, tlvs) assert use_fdb_only in [0, 1] self.use_fdb_only = use_fdb_only self.transaction_id = transaction_id self.ttl = ttl @classmethod @abc.abstractmethod def parser(cls, buf): pass @abc.abstractmethod def serialize(self): pass def __len__(self): return self._calc_len(self._MIN_LEN) @cfm.register_cfm_opcode(CFM_LINK_TRACE_MESSAGE) class link_trace_message(link_trace): """CFM (IEEE Std 802.1ag-2007) Linktrace Message (LTM) encoder/decoder class. This is used with os_ken.lib.packet.cfm.cfm. An instance has the following attributes at least. Most of them are same to the on-wire counterparts but in host byte order. __init__ takes the corresponding args in this order. .. tabularcolumns:: |l|L| ==================== ======================================= Attribute Description ==================== ======================================= md_lv Maintenance Domain Level. version The protocol version number. use_fdb_only UseFDBonly bit. transaction_id LTM Transaction Identifier. ttl LTM TTL. ltm_orig_addr Original MAC Address. ltm_targ_addr Target MAC Address. tlvs TLVs. ==================== ======================================= """ _PACK_STR = '!4BIB6s6s' _ALL_PACK_LEN = struct.calcsize(_PACK_STR) _MIN_LEN = _ALL_PACK_LEN _TLV_OFFSET = 17 _TYPE = { 'ascii': [ 'ltm_orig_addr', 'ltm_targ_addr' ] } def __init__(self, md_lv=0, version=CFM_VERSION, use_fdb_only=1, transaction_id=0, ttl=64, ltm_orig_addr='00:00:00:00:00:00', ltm_targ_addr='00:00:00:00:00:00', tlvs=None ): super(link_trace_message, self).__init__(md_lv, version, use_fdb_only, transaction_id, ttl, tlvs) self._opcode = CFM_LINK_TRACE_MESSAGE self.ltm_orig_addr = ltm_orig_addr self.ltm_targ_addr = ltm_targ_addr @classmethod def parser(cls, buf): (md_lv_version, opcode, flags, tlv_offset, transaction_id, ttl, ltm_orig_addr, ltm_targ_addr) = struct.unpack_from(cls._PACK_STR, buf) md_lv = int(md_lv_version >> 5) version = int(md_lv_version & 0x1f) use_fdb_only = int(flags >> 7) tlvs = cls._parser_tlvs(buf[cls._MIN_LEN:]) return cls(md_lv, version, use_fdb_only, transaction_id, ttl, addrconv.mac.bin_to_text(ltm_orig_addr), addrconv.mac.bin_to_text(ltm_targ_addr), tlvs) def serialize(self): buf = struct.pack(self._PACK_STR, (self.md_lv << 5) | self.version, self._opcode, self.use_fdb_only << 7, self._TLV_OFFSET, self.transaction_id, self.ttl, addrconv.mac.text_to_bin(self.ltm_orig_addr), addrconv.mac.text_to_bin(self.ltm_targ_addr), ) buf = bytearray(buf) if self.tlvs: buf.extend(self._serialize_tlvs(self.tlvs)) buf.extend(struct.pack("!B", CFM_END_TLV)) return buf @cfm.register_cfm_opcode(CFM_LINK_TRACE_REPLY) class link_trace_reply(link_trace): """CFM (IEEE Std 802.1ag-2007) Linktrace Reply (LTR) encoder/decoder class. This is used with os_ken.lib.packet.cfm.cfm. An instance has the following attributes at least. Most of them are same to the on-wire counterparts but in host byte order. __init__ takes the corresponding args in this order. .. tabularcolumns:: |l|L| ==================== ======================================= Attribute Description ==================== ======================================= version The protocol version number. use_fdb_only UseFDBonly bit. fwd_yes FwdYes bit. terminal_mep TerminalMep bit. transaction_id LTR Transaction Identifier. ttl Reply TTL. relay_action Relay Action.The default is 1 (RlyHit) tlvs TLVs. ==================== ======================================= """ _PACK_STR = '!4BIBB' _ALL_PACK_LEN = struct.calcsize(_PACK_STR) _MIN_LEN = _ALL_PACK_LEN _TLV_OFFSET = 6 # Relay Action field values _RLY_HIT = 1 _RLY_FDB = 2 _RLY_MPDB = 3 def __init__(self, md_lv=0, version=CFM_VERSION, use_fdb_only=1, fwd_yes=0, terminal_mep=1, transaction_id=0, ttl=64, relay_action=_RLY_HIT, tlvs=None ): super(link_trace_reply, self).__init__(md_lv, version, use_fdb_only, transaction_id, ttl, tlvs) self._opcode = CFM_LINK_TRACE_REPLY assert fwd_yes in [0, 1] self.fwd_yes = fwd_yes assert terminal_mep in [0, 1] self.terminal_mep = terminal_mep assert relay_action in [self._RLY_HIT, self._RLY_FDB, self._RLY_MPDB] self.relay_action = relay_action @classmethod def parser(cls, buf): (md_lv_version, opcode, flags, tlv_offset, transaction_id, ttl, relay_action) = struct.unpack_from(cls._PACK_STR, buf) md_lv = int(md_lv_version >> 5) version = int(md_lv_version & 0x1f) use_fdb_only = int(flags >> 7) fwd_yes = int(flags >> 6 & 0x01) terminal_mep = int(flags >> 5 & 0x01) tlvs = cls._parser_tlvs(buf[cls._MIN_LEN:]) return cls(md_lv, version, use_fdb_only, fwd_yes, terminal_mep, transaction_id, ttl, relay_action, tlvs) def serialize(self): buf = struct.pack(self._PACK_STR, (self.md_lv << 5) | self.version, self._opcode, (self.use_fdb_only << 7) | (self.fwd_yes << 6) | (self.terminal_mep << 5), self._TLV_OFFSET, self.transaction_id, self.ttl, self.relay_action, ) buf = bytearray(buf) if self.tlvs: buf.extend(self._serialize_tlvs(self.tlvs)) buf.extend(struct.pack("!B", CFM_END_TLV)) return buf cfm.set_classes(cfm._CFM_OPCODE) @six.add_metaclass(abc.ABCMeta) class tlv(stringify.StringifyMixin): _TYPE_LEN = 1 _LENGTH_LEN = 2 _TYPE = { 'ascii': [ 'egress_id_mac', 'last_egress_id_mac', 'next_egress_id_mac', 'mac_address' ] } def __init__(self, length): self.length = length @classmethod @abc.abstractmethod def parser(cls, buf): pass @abc.abstractmethod def serialize(self): pass def __len__(self): return self.length + self._TYPE_LEN + self._LENGTH_LEN @operation.register_tlv_types(CFM_SENDER_ID_TLV) class sender_id_tlv(tlv): """CFM (IEEE Std 802.1ag-2007) Sender ID TLV encoder/decoder class. This is used with os_ken.lib.packet.cfm.cfm. An instance has the following attributes at least. Most of them are same to the on-wire counterparts but in host byte order. __init__ takes the corresponding args in this order. .. tabularcolumns:: |l|L| ==================== ======================================= Attribute Description ==================== ======================================= length Length of Value field. (0 means automatically-calculate when encoding.) chassis_id_length Chassis ID Length. (0 means automatically-calculate when encoding.) chassis_id_subtype Chassis ID Subtype. The default is 4 (Mac Address) chassis_id Chassis ID. ma_domain_length Management Address Domain Length. (0 means automatically-calculate when encoding.) ma_domain Management Address Domain. ma_length Management Address Length. (0 means automatically-calculate when encoding.) ma Management Address. ==================== ======================================= """ _PACK_STR = '!BHB' _MIN_LEN = struct.calcsize(_PACK_STR) _CHASSIS_ID_LENGTH_LEN = 1 _CHASSIS_ID_SUBTYPE_LEN = 1 _MA_DOMAIN_LENGTH_LEN = 1 _MA_LENGTH_LEN = 1 # Chassis ID subtype enumeration _CHASSIS_ID_CHASSIS_COMPONENT = 1 _CHASSIS_ID_INTERFACE_ALIAS = 2 _CHASSIS_ID_PORT_COMPONENT = 3 _CHASSIS_ID_MAC_ADDRESS = 4 _CHASSIS_ID_NETWORK_ADDRESS = 5 _CHASSIS_ID_INTERFACE_NAME = 6 _CHASSIS_ID_LOCALLY_ASSIGNED = 7 def __init__(self, length=0, chassis_id_length=0, chassis_id_subtype=_CHASSIS_ID_MAC_ADDRESS, chassis_id=b'', ma_domain_length=0, ma_domain=b'', ma_length=0, ma=b'' ): super(sender_id_tlv, self).__init__(length) self._type = CFM_SENDER_ID_TLV self.chassis_id_length = chassis_id_length assert chassis_id_subtype in [ self._CHASSIS_ID_CHASSIS_COMPONENT, self._CHASSIS_ID_INTERFACE_ALIAS, self._CHASSIS_ID_PORT_COMPONENT, self._CHASSIS_ID_MAC_ADDRESS, self._CHASSIS_ID_NETWORK_ADDRESS, self._CHASSIS_ID_INTERFACE_NAME, self._CHASSIS_ID_LOCALLY_ASSIGNED] self.chassis_id_subtype = chassis_id_subtype self.chassis_id = chassis_id self.ma_domain_length = ma_domain_length self.ma_domain = ma_domain self.ma_length = ma_length self.ma = ma @classmethod def parser(cls, buf): (type_, length, chassis_id_length) = struct.unpack_from(cls._PACK_STR, buf) chassis_id_subtype = 4 chassis_id = b'' ma_domain_length = 0 ma_domain = b'' ma_length = 0 ma = b'' offset = cls._MIN_LEN if chassis_id_length != 0: (chassis_id_subtype, ) = struct.unpack_from("!B", buf, offset) offset += cls._CHASSIS_ID_SUBTYPE_LEN form = "%ds" % chassis_id_length (chassis_id,) = struct.unpack_from(form, buf, offset) offset += chassis_id_length if length + (cls._TYPE_LEN + cls._LENGTH_LEN) > offset: (ma_domain_length, ) = struct.unpack_from("!B", buf, offset) offset += cls._MA_DOMAIN_LENGTH_LEN form = "%ds" % ma_domain_length (ma_domain, ) = struct.unpack_from(form, buf, offset) offset += ma_domain_length if length + (cls._TYPE_LEN + cls._LENGTH_LEN) > offset: (ma_length, ) = struct.unpack_from("!B", buf, offset) offset += cls._MA_LENGTH_LEN form = "%ds" % ma_length (ma, ) = struct.unpack_from(form, buf, offset) return cls(length, chassis_id_length, chassis_id_subtype, chassis_id, ma_domain_length, ma_domain, ma_length, ma) def serialize(self): # calculate length when it contains 0 if self.chassis_id_length == 0: self.chassis_id_length = len(self.chassis_id) if self.ma_domain_length == 0: self.ma_domain_length = len(self.ma_domain) if self.ma_length == 0: self.ma_length = len(self.ma) if self.length == 0: self.length += self._CHASSIS_ID_LENGTH_LEN if self.chassis_id_length != 0: self.length += (self._CHASSIS_ID_SUBTYPE_LEN + self.chassis_id_length) if self.chassis_id_length != 0 or self.ma_domain_length != 0: self.length += self._MA_DOMAIN_LENGTH_LEN if self.ma_domain_length != 0: self.length += (self.ma_domain_length + self._MA_LENGTH_LEN + self.ma_length) # start serialize buf = struct.pack(self._PACK_STR, self._type, self.length, self.chassis_id_length ) buf = bytearray(buf) # Chassis ID Subtype and Chassis ID present # if the Chassis ID Length field contains not 0. if self.chassis_id_length != 0: buf.extend(struct.pack("!B", self.chassis_id_subtype)) form = "%ds" % self.chassis_id_length buf.extend(struct.pack(form, self.chassis_id)) # Management Address Domain Length present # if the Chassis ID Length field or Management Address Length field # contains not 0. if self.chassis_id_length != 0 or self.ma_domain_length != 0: buf.extend(struct.pack("!B", self.ma_domain_length)) # Management Address Domain present # Management Address Domain Length field contains not 0. if self.ma_domain_length != 0: form = "%ds" % self.ma_domain_length buf.extend(struct.pack(form, self.ma_domain)) buf.extend(struct.pack("!B", self.ma_length)) # Management Address present # Management Address Length field contains not 0. if self.ma_length != 0: form = "%ds" % self.ma_length buf.extend(struct.pack(form, self.ma)) return buf @operation.register_tlv_types(CFM_PORT_STATUS_TLV) class port_status_tlv(tlv): """CFM (IEEE Std 802.1ag-2007) Port Status TLV encoder/decoder class. This is used with os_ken.lib.packet.cfm.cfm. An instance has the following attributes at least. Most of them are same to the on-wire counterparts but in host byte order. __init__ takes the corresponding args in this order. .. tabularcolumns:: |l|L| ==================== ======================================= Attribute Description ==================== ======================================= length Length of Value field. (0 means automatically-calculate when encoding.) port_status Port Status.The default is 1 (psUp) ==================== ======================================= """ _PACK_STR = '!BHB' _MIN_LEN = struct.calcsize(_PACK_STR) # Port Status TLV values _PS_BLOCKED = 1 _PS_UP = 2 def __init__(self, length=0, port_status=_PS_UP): super(port_status_tlv, self).__init__(length) self._type = CFM_PORT_STATUS_TLV assert port_status in [self._PS_BLOCKED, self._PS_UP] self.port_status = port_status @classmethod def parser(cls, buf): (type_, length, port_status) = struct.unpack_from(cls._PACK_STR, buf) return cls(length, port_status) def serialize(self): # calculate length when it contains 0 if self.length == 0: self.length = 1 # start serialize buf = struct.pack(self._PACK_STR, self._type, self.length, self.port_status) return bytearray(buf) @operation.register_tlv_types(CFM_DATA_TLV) class data_tlv(tlv): """CFM (IEEE Std 802.1ag-2007) Data TLV encoder/decoder class. This is used with os_ken.lib.packet.cfm.cfm. An instance has the following attributes at least. Most of them are same to the on-wire counterparts but in host byte order. __init__ takes the corresponding args in this order. .. tabularcolumns:: |l|L| ============== ======================================= Attribute Description ============== ======================================= length Length of Value field. (0 means automatically-calculate when encoding) data_value Bit pattern of any of n octets.(n = length) ============== ======================================= """ _PACK_STR = '!BH' _MIN_LEN = struct.calcsize(_PACK_STR) def __init__(self, length=0, data_value=b"" ): super(data_tlv, self).__init__(length) self._type = CFM_DATA_TLV self.data_value = data_value @classmethod def parser(cls, buf): (type_, length) = struct.unpack_from(cls._PACK_STR, buf) form = "%ds" % length (data_value, ) = struct.unpack_from(form, buf, cls._MIN_LEN) return cls(length, data_value) def serialize(self): # calculate length when it contains 0 if self.length == 0: self.length = len(self.data_value) # start serialize buf = struct.pack(self._PACK_STR, self._type, self.length) buf = bytearray(buf) form = "%ds" % self.length buf.extend(struct.pack(form, self.data_value)) return buf @operation.register_tlv_types(CFM_INTERFACE_STATUS_TLV) class interface_status_tlv(tlv): """CFM (IEEE Std 802.1ag-2007) Interface Status TLV encoder/decoder class. This is used with os_ken.lib.packet.cfm.cfm. An instance has the following attributes at least. Most of them are same to the on-wire counterparts but in host byte order. __init__ takes the corresponding args in this order. .. tabularcolumns:: |l|L| ==================== ======================================= Attribute Description ==================== ======================================= length Length of Value field. (0 means automatically-calculate when encoding.) interface_status Interface Status.The default is 1 (isUp) ==================== ======================================= """ _PACK_STR = '!BHB' _MIN_LEN = struct.calcsize(_PACK_STR) # Interface Status TLV values _IS_UP = 1 _IS_DOWN = 2 _IS_TESTING = 3 _IS_UNKNOWN = 4 _IS_DORMANT = 5 _IS_NOT_PRESENT = 6 _IS_LOWER_LAYER_DOWN = 7 def __init__(self, length=0, interface_status=_IS_UP): super(interface_status_tlv, self).__init__(length) self._type = CFM_INTERFACE_STATUS_TLV assert interface_status in [ self._IS_UP, self._IS_DOWN, self._IS_TESTING, self._IS_UNKNOWN, self._IS_DORMANT, self._IS_NOT_PRESENT, self._IS_LOWER_LAYER_DOWN] self.interface_status = interface_status @classmethod def parser(cls, buf): (type_, length, interface_status) = struct.unpack_from(cls._PACK_STR, buf) return cls(length, interface_status) def serialize(self): # calculate length when it contains 0 if self.length == 0: self.length = 1 # start serialize buf = struct.pack(self._PACK_STR, self._type, self.length, self.interface_status) return bytearray(buf) @operation.register_tlv_types(CFM_LTM_EGRESS_IDENTIFIER_TLV) class ltm_egress_identifier_tlv(tlv): """CFM (IEEE Std 802.1ag-2007) LTM EGRESS TLV encoder/decoder class. This is used with os_ken.lib.packet.cfm.cfm. An instance has the following attributes at least. Most of them are same to the on-wire counterparts but in host byte order. __init__ takes the corresponding args in this order. .. tabularcolumns:: |l|L| ============== ======================================= Attribute Description ============== ======================================= length Length of Value field. (0 means automatically-calculate when encoding.) egress_id_ui Egress Identifier of Unique ID. egress_id_mac Egress Identifier of MAC address. ============== ======================================= """ _PACK_STR = '!BHH6s' _MIN_LEN = struct.calcsize(_PACK_STR) def __init__(self, length=0, egress_id_ui=0, egress_id_mac='00:00:00:00:00:00' ): super(ltm_egress_identifier_tlv, self).__init__(length) self._type = CFM_LTM_EGRESS_IDENTIFIER_TLV self.egress_id_ui = egress_id_ui self.egress_id_mac = egress_id_mac @classmethod def parser(cls, buf): (type_, length, egress_id_ui, egress_id_mac) = struct.unpack_from(cls._PACK_STR, buf) return cls(length, egress_id_ui, addrconv.mac.bin_to_text(egress_id_mac)) def serialize(self): # calculate length when it contains 0 if self.length == 0: self.length = 8 # start serialize buf = struct.pack(self._PACK_STR, self._type, self.length, self.egress_id_ui, addrconv.mac.text_to_bin(self.egress_id_mac) ) return bytearray(buf) @operation.register_tlv_types(CFM_LTR_EGRESS_IDENTIFIER_TLV) class ltr_egress_identifier_tlv(tlv): """CFM (IEEE Std 802.1ag-2007) LTR EGRESS TLV encoder/decoder class. This is used with os_ken.lib.packet.cfm.cfm. An instance has the following attributes at least. Most of them are same to the on-wire counterparts but in host byte order. __init__ takes the corresponding args in this order. .. tabularcolumns:: |l|L| ==================== ======================================= Attribute Description ==================== ======================================= length Length of Value field. (0 means automatically-calculate when encoding.) last_egress_id_ui Last Egress Identifier of Unique ID. last_egress_id_mac Last Egress Identifier of MAC address. next_egress_id_ui Next Egress Identifier of Unique ID. next_egress_id_mac Next Egress Identifier of MAC address. ==================== ======================================= """ _PACK_STR = '!BHH6sH6s' _MIN_LEN = struct.calcsize(_PACK_STR) def __init__(self, length=0, last_egress_id_ui=0, last_egress_id_mac='00:00:00:00:00:00', next_egress_id_ui=0, next_egress_id_mac='00:00:00:00:00:00' ): super(ltr_egress_identifier_tlv, self).__init__(length) self._type = CFM_LTR_EGRESS_IDENTIFIER_TLV self.last_egress_id_ui = last_egress_id_ui self.last_egress_id_mac = last_egress_id_mac self.next_egress_id_ui = next_egress_id_ui self.next_egress_id_mac = next_egress_id_mac @classmethod def parser(cls, buf): (type_, length, last_egress_id_ui, last_egress_id_mac, next_egress_id_ui, next_egress_id_mac ) = struct.unpack_from(cls._PACK_STR, buf) return cls(length, last_egress_id_ui, addrconv.mac.bin_to_text(last_egress_id_mac), next_egress_id_ui, addrconv.mac.bin_to_text(next_egress_id_mac)) def serialize(self): # calculate length when it contains 0 if self.length == 0: self.length = 16 # start serialize buf = struct.pack(self._PACK_STR, self._type, self.length, self.last_egress_id_ui, addrconv.mac.text_to_bin(self.last_egress_id_mac), self.next_egress_id_ui, addrconv.mac.text_to_bin(self.next_egress_id_mac) ) return bytearray(buf) @operation.register_tlv_types(CFM_ORGANIZATION_SPECIFIC_TLV) class organization_specific_tlv(tlv): """CFM (IEEE Std 802.1ag-2007) Organization Specific TLV encoder/decoder class. This is used with os_ken.lib.packet.cfm.cfm. An instance has the following attributes at least. Most of them are same to the on-wire counterparts but in host byte order. __init__ takes the corresponding args in this order. .. tabularcolumns:: |l|L| ============== ======================================= Attribute Description ============== ======================================= length Length of Value field. (0 means automatically-calculate when encoding.) oui Organizationally Unique Identifier. subtype Subtype. value Value.(optional) ============== ======================================= """ _PACK_STR = '!BH3sB' _MIN_LEN = struct.calcsize(_PACK_STR) _OUI_AND_SUBTYPE_LEN = 4 def __init__(self, length=0, oui=b"\x00\x00\x00", subtype=0, value=b"" ): super(organization_specific_tlv, self).__init__(length) self._type = CFM_ORGANIZATION_SPECIFIC_TLV self.oui = oui self.subtype = subtype self.value = value @classmethod def parser(cls, buf): (type_, length, oui, subtype) = struct.unpack_from(cls._PACK_STR, buf) value = b"" if length > cls._OUI_AND_SUBTYPE_LEN: form = "%ds" % (length - cls._OUI_AND_SUBTYPE_LEN) (value,) = struct.unpack_from(form, buf, cls._MIN_LEN) return cls(length, oui, subtype, value) def serialize(self): # calculate length when it contains 0 if self.length == 0: self.length = len(self.value) + self._OUI_AND_SUBTYPE_LEN # start serialize buf = struct.pack(self._PACK_STR, self._type, self.length, self.oui, self.subtype, ) buf = bytearray(buf) form = "%ds" % (self.length - self._OUI_AND_SUBTYPE_LEN) buf.extend(struct.pack(form, self.value)) return buf class reply_tlv(tlv): _PACK_STR = '!BHB6s' _MIN_LEN = struct.calcsize(_PACK_STR) _MIN_VALUE_LEN = _MIN_LEN - struct.calcsize('!BH') _PORT_ID_LENGTH_LEN = 1 _PORT_ID_SUBTYPE_LEN = 1 def __init__(self, length, action, mac_address, port_id_length, port_id_subtype, port_id): super(reply_tlv, self).__init__(length) self.action = action self.mac_address = mac_address self.port_id_length = port_id_length self.port_id_subtype = port_id_subtype self.port_id = port_id @classmethod def parser(cls, buf): (type_, length, action, mac_address) = struct.unpack_from(cls._PACK_STR, buf) port_id_length = 0 port_id_subtype = 0 port_id = b'' if length > cls._MIN_VALUE_LEN: (port_id_length, port_id_subtype) = struct.unpack_from('!2B', buf, cls._MIN_LEN) form = "%ds" % port_id_length (port_id,) = struct.unpack_from(form, buf, cls._MIN_LEN + cls._PORT_ID_LENGTH_LEN + cls._PORT_ID_SUBTYPE_LEN) return cls(length, action, addrconv.mac.bin_to_text(mac_address), port_id_length, port_id_subtype, port_id) def serialize(self): # calculate length when it contains 0 if self.port_id_length == 0: self.port_id_length = len(self.port_id) if self.length == 0: self.length = self._MIN_VALUE_LEN if self.port_id_length != 0: self.length += (self.port_id_length + self._PORT_ID_LENGTH_LEN + self._PORT_ID_SUBTYPE_LEN) # start serialize buf = struct.pack(self._PACK_STR, self._type, self.length, self.action, addrconv.mac.text_to_bin(self.mac_address), ) buf = bytearray(buf) if self.port_id_length != 0: buf.extend(struct.pack("!BB", self.port_id_length, self.port_id_subtype)) form = "%ds" % self.port_id_length buf.extend(struct.pack(form, self.port_id)) return buf @operation.register_tlv_types(CFM_REPLY_INGRESS_TLV) class reply_ingress_tlv(reply_tlv): """CFM (IEEE Std 802.1ag-2007) Reply Ingress TLV encoder/decoder class. This is used with os_ken.lib.packet.cfm.cfm. An instance has the following attributes at least. Most of them are same to the on-wire counterparts but in host byte order. __init__ takes the corresponding args in this order. .. tabularcolumns:: |l|L| ================= ======================================= Attribute Description ================= ======================================= length Length of Value field. (0 means automatically-calculate when encoding.) action Ingress Action.The default is 1 (IngOK) mac_address Ingress MAC Address. port_id_length Ingress PortID Length. (0 means automatically-calculate when encoding.) port_id_subtype Ingress PortID Subtype. port_id Ingress PortID. ================= ======================================= """ # Ingress Action field values _ING_OK = 1 _ING_DOWN = 2 _ING_BLOCKED = 3 _ING_VID = 4 def __init__(self, length=0, action=_ING_OK, mac_address='00:00:00:00:00:00', port_id_length=0, port_id_subtype=0, port_id=b'' ): super(reply_ingress_tlv, self).__init__(length, action, mac_address, port_id_length, port_id_subtype, port_id) assert action in [self._ING_OK, self._ING_DOWN, self._ING_BLOCKED, self._ING_VID] self._type = CFM_REPLY_INGRESS_TLV @operation.register_tlv_types(CFM_REPLY_EGRESS_TLV) class reply_egress_tlv(reply_tlv): """CFM (IEEE Std 802.1ag-2007) Reply Egress TLV encoder/decoder class. This is used with os_ken.lib.packet.cfm.cfm. An instance has the following attributes at least. Most of them are same to the on-wire counterparts but in host byte order. __init__ takes the corresponding args in this order. .. tabularcolumns:: |l|L| ================= ======================================= Attribute Description ================= ======================================= length Length of Value field. (0 means automatically-calculate when encoding.) action Egress Action.The default is 1 (EgrOK) mac_address Egress MAC Address. port_id_length Egress PortID Length. (0 means automatically-calculate when encoding.) port_id_subtype Egress PortID Subtype. port_id Egress PortID. ================= ======================================= """ # Egress Action field values _EGR_OK = 1 _EGR_DOWN = 2 _EGR_BLOCKED = 3 _EGR_VID = 4 def __init__(self, length=0, action=_EGR_OK, mac_address='00:00:00:00:00:00', port_id_length=0, port_id_subtype=0, port_id=b'' ): super(reply_egress_tlv, self).__init__(length, action, mac_address, port_id_length, port_id_subtype, port_id) assert action in [self._EGR_OK, self._EGR_DOWN, self._EGR_BLOCKED, self._EGR_VID] self._type = CFM_REPLY_EGRESS_TLV operation.set_classes(operation._TLV_TYPES)