Source code for ironic_inspector.common.lldp_parsers

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# you may not use this file except in compliance with the License.
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#
#    http://www.apache.org/licenses/LICENSE-2.0
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""" Names and mapping functions used to map LLDP TLVs to name/value pairs """

import binascii

from construct import core
import netaddr

from ironic_inspector.common.i18n import _, _LW
from ironic_inspector.common import lldp_tlvs as tlv
from ironic_inspector import utils

LOG = utils.getProcessingLogger(__name__)


# Names used in name/value pair from parsed TLVs
LLDP_CHASSIS_ID_NM = 'switch_chassis_id'
LLDP_PORT_ID_NM = 'switch_port_id'
LLDP_PORT_DESC_NM = 'switch_port_description'
LLDP_SYS_NAME_NM = 'switch_system_name'
LLDP_SYS_DESC_NM = 'switch_system_description'
LLDP_SWITCH_CAP_NM = 'switch_capabilities'
LLDP_CAP_SUPPORT_NM = 'switch_capabilities_support'
LLDP_CAP_ENABLED_NM = 'switch_capabilities_enabled'
LLDP_MGMT_ADDRESSES_NM = 'switch_mgmt_addresses'
LLDP_PORT_VLANID_NM = 'switch_port_untagged_vlan_id'
LLDP_PORT_PROT_NM = 'switch_port_protocol'
LLDP_PORT_PROT_VLAN_ENABLED_NM = 'switch_port_protocol_vlan_enabled'
LLDP_PORT_PROT_VLAN_SUPPORT_NM = 'switch_port_protocol_vlan_support'
LLDP_PORT_PROT_VLANIDS_NM = 'switch_port_protocol_vlan_ids'
LLDP_PORT_VLANS_NM = 'switch_port_vlans'
LLDP_PROTOCOL_IDENTITIES_NM = 'switch_protocol_identities'
LLDP_PORT_MGMT_VLANID_NM = 'switch_port_management_vlan_id'
LLDP_PORT_LINK_AGG_NM = 'switch_port_link_aggregation'
LLDP_PORT_LINK_AGG_ENABLED_NM = 'switch_port_link_aggregation_enabled'
LLDP_PORT_LINK_AGG_SUPPORT_NM = 'switch_port_link_aggregation_support'
LLDP_PORT_LINK_AGG_ID_NM = 'switch_port_link_aggregation_id'
LLDP_PORT_MAC_PHY_NM = 'switch_port_mac_phy_config'
LLDP_PORT_LINK_AUTONEG_ENABLED_NM = 'switch_port_autonegotiation_enabled'
LLDP_PORT_LINK_AUTONEG_SUPPORT_NM = 'switch_port_autonegotiation_support'
LLDP_PORT_CAPABILITIES_NM = 'switch_port_physical_capabilities'
LLDP_PORT_MAU_TYPE_NM = 'switch_port_mau_type'
LLDP_MTU_NM = 'switch_port_mtu'


[docs]class LLDPParser(object): """Base class to handle parsing of LLDP TLVs Each class that inherits from this base class must provide a parser map. Parser maps are used to associate a LLDP TLV with a function handler and arguments necessary to parse the TLV and generate one or more name/value pairs. Each LLDP TLV maps to a tuple with the following fields: function - handler function to generate name/value pairs construct - name of construct definition for TLV name - user-friendly name of TLV. For TLVs that generate only one name/value pair this is the name used len_check - boolean indicating if length check should be done on construct It's valid to have a function handler of None, this is for TLVs that are not mapped to a name/value pair(e.g.LLDP_TLV_TTL). """ def __init__(self, node_info, nv=None): """Create LLDPParser :param node_info - node being introspected :param nv - dictionary of name/value pairs to use """ self.nv_dict = nv or {} self.node_info = node_info self.parser_map = {}
[docs] def set_value(self, name, value): """Set name value pair in dictionary The value for a name should not be changed if it exists. """ self.nv_dict.setdefault(name, value)
[docs] def append_value(self, name, value): """Add value to a list mapped to name""" self.nv_dict.setdefault(name, []).append(value)
[docs] def add_single_value(self, struct, name, data): """Add a single name/value pair the the nv dict""" self.set_value(name, struct.value)
[docs] def parse_tlv(self, tlv_type, data): """Parse TLVs from mapping table This functions takes the TLV type and the raw data for this TLV and gets a tuple from the parser_map. The construct field in the tuple contains the construct lib definition of the TLV which can be parsed to access individual fields. Once the TLV is parsed, the handler function for each TLV will store the individual fields as name/value pairs in nv_dict. If the handler function does not exist, then no name/value pairs will be added to nv_dict, but since the TLV was handled, True will be returned. :param: tlv_type - type identifier for TLV :param: data - raw TLV value :returns: True if TLV in parser_map and data is valid, otherwise False. """ s = self.parser_map.get(tlv_type) if not s: return False func = s[0] # handler if not func: return True # TLV is handled try: tlv_parser = s[1] name = s[2] check_len = s[3] except KeyError as e: LOG.warning(_LW("Key error in TLV table: %s"), e, node_info=self.node_info) return False # Some constructs require a length validation to ensure the # proper number of bytes has been provided, for example # when a BitStruct is used. if check_len and (tlv_parser.sizeof() != len(data)): LOG.warning(_LW('Invalid data for %(name)s ' 'expected len %(expect)d, got %(actual)d'), {'name': name, 'expect': tlv_parser.sizeof(), 'actual': len(data)}, node_info=self.node_info) return False # Use the construct parser to parse TLV so that it's # individual fields can be accessed try: struct = tlv_parser.parse(data) except (core.RangeError, core.FieldError, core.MappingError, netaddr.AddrFormatError) as e: LOG.warning(_LW("TLV parse error: %s"), e, node_info=self.node_info) return False # Call functions with parsed structure try: func(struct, name, data) except ValueError as e: LOG.warning(_LW("TLV value error: %s"), e, node_info=self.node_info) return False return True
[docs]class LLDPBasicMgmtParser(LLDPParser): """Class to handle parsing of 802.1AB Basic Management set This class will also handle 802.1Q and 802.3 OUI TLVs. """ def __init__(self, nv=None): super(LLDPBasicMgmtParser, self).__init__(nv) self.parser_map = { tlv.LLDP_TLV_CHASSIS_ID: (self.add_single_value, tlv.ChassisId, LLDP_CHASSIS_ID_NM, False), tlv.LLDP_TLV_PORT_ID: (self.add_single_value, tlv.PortId, LLDP_PORT_ID_NM, False), tlv.LLDP_TLV_TTL: (None, None, None, False), tlv.LLDP_TLV_PORT_DESCRIPTION: (self.add_single_value, tlv.PortDesc, LLDP_PORT_DESC_NM, False), tlv.LLDP_TLV_SYS_NAME: (self.add_single_value, tlv.SysName, LLDP_SYS_NAME_NM, False), tlv.LLDP_TLV_SYS_DESCRIPTION: (self.add_single_value, tlv.SysDesc, LLDP_SYS_DESC_NM, False), tlv.LLDP_TLV_SYS_CAPABILITIES: (self.add_capabilities, tlv.SysCapabilities, LLDP_SWITCH_CAP_NM, True), tlv.LLDP_TLV_MGMT_ADDRESS: (self.add_mgmt_address, tlv.MgmtAddress, LLDP_MGMT_ADDRESSES_NM, False), tlv.LLDP_TLV_ORG_SPECIFIC: (self.handle_org_specific_tlv, tlv.OrgSpecific, None, False), tlv.LLDP_TLV_END_LLDPPDU: (None, None, None, False) }
[docs] def add_mgmt_address(self, struct, name, data): """Handle LLDP_TLV_MGMT_ADDRESS There can be multiple Mgmt Address TLVs, store in list. """ self.append_value(name, struct.address)
def _get_capabilities_list(self, caps): """Get capabilities from bit map""" cap_map = [ (caps.repeater, 'Repeater'), (caps.bridge, 'Bridge'), (caps.wlan, 'WLAN'), (caps.router, 'Router'), (caps.telephone, 'Telephone'), (caps.docsis, 'DOCSIS cable device'), (caps.station, 'Station only'), (caps.cvlan, 'C-Vlan'), (caps.svlan, 'S-Vlan'), (caps.tpmr, 'TPMR')] return [cap for (bit, cap) in cap_map if bit]
[docs] def add_capabilities(self, struct, name, data): """Handle LLDP_TLV_SYS_CAPABILITIES""" self.set_value(LLDP_CAP_SUPPORT_NM, self._get_capabilities_list(struct.system)) self.set_value(LLDP_CAP_ENABLED_NM, self._get_capabilities_list(struct.enabled))
[docs] def handle_org_specific_tlv(self, struct, name, data): """Handle Organizationally Unique ID TLVs This class supports 802.1Q and 802.3 OUI TLVs. See http://www.ieee802.org/1/pages/802.1Q-2014.html, Annex D and http://standards.ieee.org/about/get/802/802.3.html """ oui = binascii.hexlify(struct.oui).decode() subtype = struct.subtype oui_data = data[4:] if oui == tlv.LLDP_802dot1_OUI: parser = LLDPdot1Parser(self.node_info, self.nv_dict) if parser.parse_tlv(subtype, oui_data): LOG.debug("Handled 802.1 subtype %d", subtype) else: LOG.debug("Subtype %d not found for 802.1", subtype) elif oui == tlv.LLDP_802dot3_OUI: parser = LLDPdot3Parser(self.node_info, self.nv_dict) if parser.parse_tlv(subtype, oui_data): LOG.debug("Handled 802.3 subtype %d", subtype) else: LOG.debug("Subtype %d not found for 802.3", subtype) else: LOG.warning(_LW("Organizationally Unique ID %s not " "recognized"), oui, node_info=self.node_info)
[docs]class LLDPdot1Parser(LLDPParser): """Class to handle parsing of 802.1Q TLVs""" def __init__(self, node_info, nv=None): super(LLDPdot1Parser, self).__init__(node_info, nv) self.parser_map = { tlv.dot1_PORT_VLANID: (self.add_single_value, tlv.Dot1_UntaggedVlanId, LLDP_PORT_VLANID_NM, False), tlv.dot1_PORT_PROTOCOL_VLANID: (self.add_dot1_port_protocol_vlan, tlv.Dot1_PortProtocolVlan, LLDP_PORT_PROT_NM, True), tlv.dot1_VLAN_NAME: (self.add_dot1_vlans, tlv.Dot1_VlanName, None, False), tlv.dot1_PROTOCOL_IDENTITY: (self.add_dot1_protocol_identities, tlv.Dot1_ProtocolIdentity, LLDP_PROTOCOL_IDENTITIES_NM, False), tlv.dot1_MANAGEMENT_VID: (self.add_single_value, tlv.Dot1_MgmtVlanId, LLDP_PORT_MGMT_VLANID_NM, False), tlv.dot1_LINK_AGGREGATION: (self.add_dot1_link_aggregation, tlv.Dot1_LinkAggregationId, LLDP_PORT_LINK_AGG_NM, True) }
[docs] def add_dot1_port_protocol_vlan(self, struct, name, data): """Handle dot1_PORT_PROTOCOL_VLANID""" self.set_value(LLDP_PORT_PROT_VLAN_ENABLED_NM, struct.flags.enabled) self.set_value(LLDP_PORT_PROT_VLAN_SUPPORT_NM, struct.flags.supported) # There can be multiple port/protocol vlans TLVs, store in list self.append_value(LLDP_PORT_PROT_VLANIDS_NM, struct.vlanid)
[docs] def add_dot1_vlans(self, struct, name, data): """Handle dot1_VLAN_NAME There can be multiple vlan TLVs, add dictionary entry with id/vlan to list. """ vlan_dict = {} vlan_dict['name'] = struct.vlan_name vlan_dict['id'] = struct.vlanid self.append_value(LLDP_PORT_VLANS_NM, vlan_dict)
[docs] def add_dot1_protocol_identities(self, struct, name, data): """Handle dot1_PROTOCOL_IDENTITY There can be multiple protocol ids TLVs, store in list """ self.append_value(LLDP_PROTOCOL_IDENTITIES_NM, binascii.b2a_hex(struct.protocol).decode())
[docs]class LLDPdot3Parser(LLDPParser): """Class to handle parsing of 802.3 TLVs""" def __init__(self, node_info, nv=None): super(LLDPdot3Parser, self).__init__(node_info, nv) # Note that 802.3 link Aggregation has been deprecated and moved to # 802.1 spec, but it is in the same format. Use the same function as # dot1 handler. self.parser_map = { tlv.dot3_MACPHY_CONFIG_STATUS: (self.add_dot3_macphy_config, tlv.Dot3_MACPhy_Config_Status, LLDP_PORT_MAC_PHY_NM, True), tlv.dot3_LINK_AGGREGATION: (self.add_dot1_link_aggregation, tlv.Dot1_LinkAggregationId, LLDP_PORT_LINK_AGG_NM, True), tlv.dot3_MTU: (self.add_single_value, tlv.Dot3_MTU, LLDP_MTU_NM, False) }
[docs] def add_dot3_macphy_config(self, struct, name, data): """Handle dot3_MACPHY_CONFIG_STATUS""" try: mau_type = tlv.OPER_MAU_TYPES[struct.mau_type] except KeyError: raise ValueError(_('Invalid index for mau type')) self.set_value(LLDP_PORT_LINK_AUTONEG_ENABLED_NM, struct.autoneg.enabled) self.set_value(LLDP_PORT_LINK_AUTONEG_SUPPORT_NM, struct.autoneg.supported) self.set_value(LLDP_PORT_CAPABILITIES_NM, tlv.get_autoneg_cap(struct.pmd_autoneg)) self.set_value(LLDP_PORT_MAU_TYPE_NM, mau_type)