
--			SK-SNMPD-MIB.2.0

		internet	OBJECT IDENTIFIER ::= { iso org(3) dod(6) 1 }
		mgmt		OBJECT IDENTIFIER ::= { internet 2 }
		experimental	OBJECT IDENTIFIER ::= { internet 3 }
		private		OBJECT IDENTIFIER ::= { internet 4 }
		enterprises	OBJECT IDENTIFIER ::= { private 1 }

		mib-2		OBJECT IDENTIFIER ::= { mgmt 1 }
		system		OBJECT IDENTIFIER ::= { mib-2 1 }
		interfaces	OBJECT IDENTIFIER ::= { mib-2 2 }
		snmp		OBJECT IDENTIFIER ::= { mib-2 11 }

		dot3		OBJECT IDENTIFIER ::= { experimental 3 }

		sk		OBJECT IDENTIFIER ::= { enterprises 179 }
		sk-snmpd	OBJECT IDENTIFIER ::= { sk 2 }
		sk-board	OBJECT IDENTIFIER ::= { sk-snmpd 2 }
		sk-board-status	OBJECT IDENTIFIER ::= { sk-board 1 }
		sk-board-client	OBJECT IDENTIFIER ::= { sk-board 2 }

		eth		OBJECT IDENTIFIER ::= { sk-board 3 }

		tok		OBJECT IDENTIFIER ::= { sk-board 4 }

		fddi		OBJECT IDENTIFIER ::= { sk-board 5 }

		sk-board-statistics	OBJECT IDENTIFIER ::= { sk-board 6 }


		  -- the System, Interface and SNMP group are all
		  -- defined in RFC 1213

		  -- the System group

		sysDescr OBJECT-TYPE
			SYNTAX	OCTET STRING
			ACCESS	read-only
			STATUS	mandatory
			::= { system 1 }

		sysObjectID OBJECT-TYPE
			SYNTAX	OBJECT IDENTIFIER
			ACCESS	read-only
			STATUS	mandatory
			::= { system 2 }

		sysUpTime OBJECT-TYPE
			SYNTAX	TimeTicks
			ACCESS	read-only
			STATUS	mandatory
			::= { system 3 }

		sysContact OBJECT-TYPE
			SYNTAX	OCTET STRING
			ACCESS	read-only
			STATUS	mandatory
			::= { system 4 }

		sysName OBJECT-TYPE
			SYNTAX	OCTET STRING
			ACCESS	read-only
			STATUS	mandatory
			::= { system 5 }

		sysLocation OBJECT-TYPE
			SYNTAX	OCTET STRING
			ACCESS	read-only
			STATUS	mandatory
			::= { system 6 }

		sysServices OBJECT-TYPE
			SYNTAX	INTEGER
			ACCESS	read-only
			STATUS	mandatory
			::= { system 7 }

		-- the Interfaces group

		ifNumber OBJECT-TYPE
			SYNTAX	INTEGER
			ACCESS	read-only
			STATUS	mandatory
			::= { interfaces 1 }

		-- the Interfaces table

		ifTable OBJECT-TYPE
			SYNTAX	SEQUENCE OF IfEntry
			ACCESS	not-accessible
			STATUS	mandatory
			::= { interfaces 2 }

		ifEntry OBJECT-TYPE
			SYNTAX	IfEntry
			ACCESS	not-accessible
			STATUS	mandatory

			::= { ifTable 1 }

		IfEntry ::= SEQUENCE {
			ifIndex
			  INTEGER,
			ifDescr
			  OCTET STRING,
			ifType
			  INTEGER,
			ifMtu
			  INTEGER,
			ifSpeed
			  Gauge,
			ifPhysAddress
			   OCTET STRING,
			ifAdminStatus
			  INTEGER,
			ifOperStatus
			  INTEGER,
			ifLastChange
			  TimeTicks,
			ifInOctets
			  Counter,
			ifInUcastPkts
			  Counter,
			ifInNUcastPkts
			  Counter,
			ifInDiscards
			  Counter,
			ifInErrors
			  Counter,
			ifInUnknownProtos
			  Counter,
			ifOutOctets
			  Counter,
			ifOutUcastPkts
			  Counter,
			ifOutNUcastPkts
			  Counter,
			ifOutDiscards
			  Counter,
			ifOutErrors
			  Counter,
			ifOutQLen
			  Gauge,
			ifSpecific
			  OBJECT IDENTIFIER
		}

		ifIndex OBJECT-TYPE
			SYNTAX	INTEGER
			ACCESS	read-only
			STATUS	mandatory
			::= { ifEntry 1 }

		ifDescr OBJECT-TYPE
			SYNTAX	OCTET STRING
			ACCESS	read-only
			STATUS	mandatory
			::= { ifEntry 2 }

		ifType OBJECT-TYPE
			SYNTAX	INTEGER {
				other(1),	-- none of the following
				regular1822(2),
				hdh1822(3),
				ddn-x25(4),
				rfc877-x25(5),
				ethernet-csmacd(6),
				iso88023-csmacd(7),
				iso88024-tokenBus(8),
				iso88025-tokenRing(9),
				iso88026-man(10),
				starLan(11),
				proteon-10MBit(12),
				proteon-80MBit(13),
				hyperchannel(14),
				fddi(15),
				lapb(16),
				sdlc(17),
				t1-carrier(18),
				cept(19),
				basicIsdn(20),
				primaryIsdn(21),
				   -- proprietary serial
				propPointToPointSerial(22)
			}
			ACCESS	read-only
			STATUS	mandatory
			::= { ifEntry 3 }

		ifMtu OBJECT-TYPE
			SYNTAX	INTEGER
			ACCESS	read-only
			STATUS	mandatory
			::= { ifEntry 4 }

		ifSpeed OBJECT-TYPE
			SYNTAX	Gauge
			ACCESS	read-only
			STATUS	mandatory
			::= { ifEntry 5 }

		ifPhysAddress OBJECT-TYPE
			SYNTAX	OCTET STRING
			ACCESS	read-only
			STATUS	mandatory
			::= { ifEntry 6 }

		ifAdminStatus OBJECT-TYPE
			SYNTAX	INTEGER {
				up(1),	-- ready to pass packets
				down(2),
				testing(3)	-- in some test mode
			 }
			ACCESS	read-only
			STATUS	mandatory
			::= { ifEntry 7 }

		ifOperStatus OBJECT-TYPE
			SYNTAX	INTEGER {
				up(1),	-- ready to pass packets
				down(2),
				testing(3)	-- in some test mode
			}
			ACCESS	read-only
			STATUS	mandatory
			::= { ifEntry 8 }

		ifLastChange OBJECT-TYPE
			SYNTAX	TimeTicks
			ACCESS	read-only
			STATUS	mandatory
			::= { ifEntry 9 }

		ifInOctets OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { ifEntry 10 }

		ifInUcastPkts OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::=  { ifEntry 11 }

		ifInNUcastPkts OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { ifEntry 12 }

		ifInDiscards OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { ifEntry 13 }

		ifInErrors OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { ifEntry 14 }

		ifInUnknownProtos OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { ifEntry 15 }

		ifOutOctets OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { ifEntry 16 }

		ifOutUcastPkts OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { ifEntry 17 }

		ifOutNUcastPkts OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { ifEntry 18 }

		ifOutDiscards OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { ifEntry 19 }

		ifOutErrors OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { ifEntry 20 }

		ifOutQLen OBJECT-TYPE
			SYNTAX	Gauge
			ACCESS	read-only
			STATUS	mandatory
			::= { ifEntry 21 }

		ifSpecific OBJECT-TYPE
			SYNTAX	OBJECT IDENTIFIER
			ACCESS	read-only
			STATUS	mandatory
			::= { ifEntry 22 }

		-- the SNMP group

		snmpInPkts OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { snmp 1 }

		snmpOutPkts OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { snmp 2 }

		snmpInBadVersions OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { snmp 3 }

		snmpInBadCommunityNames OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { snmp 4 }

		snmpInBadCommunityUses OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { snmp 5 }

		snmpInASNParseErrs OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { snmp 6 }

		snmpInBadTypes OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { snmp 7 }

		snmpInTooBigs OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { snmp 8 }

		snmpInNoSuchNames OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { snmp 9 }

		snmpInBadValues OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { snmp 10 }

		snmpInReadOnlys OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { snmp 11 }

		snmpInGenErrs OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { snmp 12 }

		snmpInTotalReqVars OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { snmp 13 }

		snmpInTotalSetVars OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { snmp 14 }

		snmpInGetRequests OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { snmp 15 }

		snmpInGetNexts OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { snmp 16 }

		snmpInSetRequests OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { snmp 17 }

		snmpInGetResponses OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { snmp 18 }

		snmpInTraps OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { snmp 19 }

		snmpOutTooBigs OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { snmp 20 }

		snmpOutNoSuchNames OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { snmp 21 }

		snmpOutBadValues OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { snmp 22 }

		snmpOutReadOnlys OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { snmp 23 }

		snmpOutGenErrs OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { snmp 24 }

		snmpOutGetRequests OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { snmp 25 }

		snmpOutGetNexts OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { snmp 26 }

		snmpOutSetRequests OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { snmp 27 }

		snmpOutGetResponses OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { snmp 28 }

		snmpOutTraps OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { snmp 29 }

		snmpEnableAuthTraps OBJECT-TYPE
			SYNTAX	INTEGER
			ACCESS	read-only
			STATUS	mandatory
			::= { snmp 30 }

			-- generic ethernet group (dot3)
			-- defined in "internet draft ethernet-like Objects"
			-- it's only supported in older UPPS-SNMPD's
			-- (v1.00 - 1.11)

		dot3Table OBJECT-TYPE
			SYNTAX	SEQUENCE OF Dot3Entry
			ACCESS	not-accessible
			STATUS	mandatory
			::= { dot3 1 }

		dot3Entry OBJECT-TYPE
			SYNTAX	Dot3Entry
			ACCESS	not-accessible
			STATUS	mandatory

			::= { dot3Table 1 }

		Dot3Entry ::= SEQUENCE {
			dot3Index
			  INTEGER,
			dot3InitializeMAC
			  INTEGER,
			dot3MACSubLayerStatus
			  INTEGER,
			dot3MulticastReceiveStatus
			  INTEGER,
			dot3TXEnabled
			  INTEGER,
			dot3TestTDRValue
			  Gauge
		}

		dot3Index OBJECT-TYPE
			SYNTAX	INTEGER
			ACCESS	read-only
			STATUS	mandatory
			::= { dot3Entry 1 }

		dot3InitializeMAC OBJECT-TYPE
			SYNTAX	INTEGER {
				initialized(1),
				uninitialized(2)
			}
			ACCESS	read-only
			STATUS	mandatory
			::= { dot3Entry 2 }

		dot3MACSubLayerStatus OBJECT-TYPE
			SYNTAX	INTEGER {
				enabled(1),
				disabled(2)
			}
			ACCESS	read-only
			STATUS	mandatory
			::= { dot3Entry 3 }

		dot3MulticastReceiveStatus OBJECT-TYPE
			SYNTAX	INTEGER {
				enabled(1),
				disabled(2)
			}
			ACCESS	read-only
			STATUS	mandatory
			::= { dot3Entry 4 }

		dot3TXEnabled OBJECT-TYPE
			SYNTAX	INTEGER {
				true(1),
				false(2)
				}
			ACCESS	read-only
			STATUS	mandatory
			::= { dot3Entry 5 }

		dot3TestTDRValue OBJECT-TYPE
			SYNTAX	Gauge
			ACCESS	read-only
			STATUS	mandatory
			::= { dot3Entry 6 }


			-- generic ethernet statistics group

		dot3StatsTable OBJECT-TYPE
			SYNTAX	SEQUENCE OF Dot3StatsEntry
			ACCESS	not-accessible
			STATUS	mandatory
			::= { dot3 2 }

		dot3StatsEntry OBJECT-TYPE
			SYNTAX	Dot3StatsEntry
			ACCESS	not-accessible
			STATUS	mandatory

			::= { dot3StatsTable 1 }

		Dot3StatsEntry ::= SEQUENCE {
			dot3StatsIndex
			  INTEGER,
			dot3StatsAlignmentErrors
			  Counter,
			dot3StatsFCSErrors
			  Counter,
			dot3StatsSingleCollisionFrames
			  Counter,
			dot3StatsMultipleCollisions
			  Counter,
			dot3StatsSQETestErrors
			  Counter,
			dot3StatsDeferredTransmissions
			  Counter,
			dot3StatsLateCollisions
			  Counter,
			dot3StatsExcessiveCollisions
			  Counter,
			dot3StatsInternalMACTransErrs
			  Counter,
			dot3StatsCarrierSenseErrors
			  Counter,
			dot3StatsExcessiveDeferrals
			  Counter,
			dot3StatsFrameTooLongs
			  Counter,
			dot3StatsInRangeLengthErrors
			  Counter,
			dot3StatsOutOfRangeLengthFields
			  Counter,
			dot3StatsInternalMACReceiveErrs
			  Counter
		}

		dot3StatsIndex OBJECT-TYPE
			SYNTAX	INTEGER
			ACCESS	read-only
			STATUS	mandatory
			::= { dot3StatsEntry 1 }

		dot3StatsAlignmentErrors OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { dot3StatsEntry 2 }

		dot3StatsFCSErrors OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { dot3StatsEntry 3 }

		dot3StatsSingleCollisionFrames OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { dot3StatsEntry 4 }

		dot3StatsMultipleCollisions OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { dot3StatsEntry 5 }

		dot3StatsSQETestErrors OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { dot3StatsEntry 6 }

		dot3StatsDeferredTransmissions OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { dot3StatsEntry 7 }

		dot3StatsLateCollisions OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { dot3StatsEntry 8 }

		dot3StatsExcessiveCollisions OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { dot3StatsEntry 9 }

		dot3StatsInternalMACTransErrs OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { dot3StatsEntry 10 }

		dot3StatsCarrierSenseErrors OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { dot3StatsEntry 11 }

		dot3StatsExcessiveDeferrals OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { dot3StatsEntry 12 }

		dot3StatsFrameTooLongs OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { dot3StatsEntry 13 }

		dot3StatsInRangeLengthErrors OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { dot3StatsEntry 14 }

		dot3StatsOutOfRangeLengthFields OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { dot3StatsEntry 15 }

		dot3StatsInternalMACReceiveErrs OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
			::= { dot3StatsEntry 16 }


		-- the Board Status group
		-- Instances of these object types represent status
		-- information of a network adapter runnning
		-- the DLI.

		stTable OBJECT-TYPE
			SYNTAX	SEQUENCE OF StEntry
			ACCESS	not-accessible
			STATUS	mandatory
			::= { sk-board-status 1 }

		stEntry OBJECT-TYPE
			SYNTAX	StEntry
			ACCESS	not-accessible
			STATUS	mandatory

			::= { stTable 1 }

		StEntry ::= SEQUENCE {
			stIfIndex
			  INTEGER,
			stVersion
			  OCTET STRING,
			stLogAddress
			  OCTET STRING,
			stInterrupt
			  INTEGER,
			stBaseAddress
			  OCTET STRING,
			stRAMSize
			  OCTET STRING,
			stIOPort
			  OCTET STRING,
			stDMALine
			  INTEGER,
			stNumMbufs
			  INTEGER,
			stMaxTxMbufs
			  INTEGER,
			stMaxRxMbufs
			  INTEGER,
			stCurrentPacketFilter
			  INTEGER,
			stServiceInterrupt
			  OCTET STRING,
			stOEMSignature
			  OCTET STRING,
			stTopology
			  INTEGER,
			stIORange
			  INTEGER
		}

		stIfIndex OBJECT-TYPE
			SYNTAX	INTEGER
			ACCESS	read-only
			STATUS	mandatory
			::= { stEntry 1 }

		stVersion OBJECT-TYPE
			SYNTAX	OCTET STRING
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"VersionNr. of the DLI"
			::= { stEntry 2 }

		stLogAddress OBJECT-TYPE
			SYNTAX	OCTET STRING
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		This is the adapter's current logical node
		--		address.  In normal case this address is
		--		equal to the value of PHYSADDR.	 If the DLI
		--		wants to change the logical address, it
		--		calls DriverChangeAddress.
			::= { stEntry 3 }

		stInterrupt OBJECT-TYPE
			SYNTAX	INTEGER
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		This is the IRQ line used by the adapter
		--		(-1 if none).
			::= { stEntry 4 }

		stBaseAddress OBJECT-TYPE
			SYNTAX	OCTET STRING
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		This is the segment address (base) at which
		--		the adapter's RAM is located in the address
		--		space of the PC (0 if adapter has no shared
		--		memory).
			::= { stEntry 5 }

		stRAMSize OBJECT-TYPE
			SYNTAX	OCTET STRING
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		This is the size in bytes of the shared memory
		--		on the adapter.
			::= { stEntry 6 }

		stIOPort OBJECT-TYPE
			SYNTAX	OCTET STRING
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		This is the first I/O port address (base)
		--		used by the adapter (0 if none).
			::= { stEntry 7 }

		stDMALine OBJECT-TYPE
			SYNTAX	INTEGER
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		This is the DMA channel number used by the
		--		adapter (-1 if none).
			::= { stEntry 8 }

		stNumMbufs OBJECT-TYPE
			SYNTAX	INTEGER
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		This is the total number of all Mbufs.
		--		Mbuf is a data structure in the DLI whichs
		--		includes the necessary information to
		--		coordinate the interaction of various
		--		functions and events between the DLI
		--		and the protocol clients.
			::= { stEntry 9 }

		stMaxTxMbufs OBJECT-TYPE
			SYNTAX	INTEGER
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		This is the maximum number of Mbufs that
		--		may be allocated by the protocol clients
			::= { stEntry 10 }

		stMaxRxMbufs OBJECT-TYPE
			SYNTAX	INTEGER
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"The number of Mbufs for packet reception"
		--		The number of Mbufs destined for packet
		--		reception can be calculated as
		--		NumMbufs - MaxTXMbufs.
			::= { stEntry 11 }

		stCurrentPacketFilter OBJECT-TYPE
			SYNTAX	INTEGER
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"This variable is a value representing
		--		the address types that are received by the
		--		driver.	Default is O.
		--		Then, for each address type A, with the
		--		value 1 - 4, the power of two of (A - 1) is
		--		added.
		--		Address types:
		--		1	Direct addressing (+Broadcast)
		--		2	Multicast or group addressing
		--			plus functional addresses
		--		3	Promiscuous mode
		--		4	Source routing
		--
		--		If the variable has the value O,
		--		this object will not be supported.  "
			::= { stEntry 12 }


		stServiceInterrupt OBJECT-TYPE
			SYNTAX	OCTET STRING
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		This is the service interrupt occupied by
		--		UPPSDLI.  It can be set at start of the DLI
		--		(default:0x7c).
			::= { stEntry 13 }

		stOEMSignature OBJECT-TYPE
			SYNTAX	OCTET STRING
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		OEM-Signature
			::= { stEntry 14 }

		stTopology OBJECT-TYPE
			SYNTAX	INTEGER {
				ethernet(1),
				fddi(2),
				token-ring(3)
			}
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		This field holds the network topology id.
		--		Topology ids are assigned by Schneider &
		--		Koch.  The following topology ids have been
		--		defined:
		--
		--		 ID	Topology
		--		===	=========
		--		01h	Ethernet
		--		02h	FDDI
		--		03h	Token Ring
			::= { stEntry 15 }

		stIORange OBJECT-TYPE
			SYNTAX	INTEGER
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		Specifies the number of I/O ports following
		--		the I/O port base.
			::= { stEntry 16 }

		-- the Board client group

		clTable OBJECT-TYPE
			SYNTAX	SEQUENCE OF ClEntry
			ACCESS	not-accessible
			STATUS	mandatory
			::= { sk-board-client 1 }

		clEntry OBJECT-TYPE
			SYNTAX	ClEntry
			ACCESS	not-accessible
			STATUS	mandatory

			::= { clTable 1 }

		ClEntry ::= SEQUENCE {
			clIfIndex
			  INTEGER,
			clType
			  OCTET STRING,
			clMulticast
			  INTEGER,
			clName
			  OCTET STRING,
			clMode
			  INTEGER,
			clPID
			  INTEGER
		}

		clIfIndex OBJECT-TYPE
			SYNTAX	INTEGER
			ACCESS	read-only
			STATUS	mandatory
			::= { clEntry 1 }

		clType OBJECT-TYPE
			SYNTAX	OCTET STRING
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"This object represents the protocol type to be
		--		opened.	 The protocol types are the following:
		--
		--Mode (PMODE)	TYPE		Protocol
		-- =========== ===============	==================
		--Ethernet II	0000h		IEEE 802.3 (cf. below)
		--Ethernet II	0001h-05DCh	"Dummy" = no reception!
		--Ethernet II	05DDh-FFFEh	Ethernet II type code
		--Ethernet II	FFFFh		Demultiplexor (or Promiscuous
		--				or Hook)
		--IEEE SAP	xx00h		IEEE 802.2 Service Access Point
		--IEEE SNAP	0000h-FFFFh	IEEE 802.2 SNAP Type Code
		--
		--		Note that true ETHERNET II type code protocols
		--		can only have type codes 05DDh (1501 decimal) or
		--		higher.	 A protocol with type code less than
		--		05DDh can be logged on at the DLI.  However,
		--		this protocol cannot receive packets, as packets
		--		with type code less than 05DDh are interpreted
		--		as IEEE 802.3 packets and will be routed to a
		--		possibly active IEEE 802.3 protocol or (if
		--		inactive) will be dismissed.  "
			::= { clEntry 2 }

		clMulticast OBJECT-TYPE
			SYNTAX	 INTEGER
			ACCESS	 read-only
			STATUS	 mandatory
		--	DESCRIPTION
		--		"This is the number of multicast addresses      tered
		--		registered by the protocol."
			::= { clEntry 3 }

		clName OBJECT-TYPE
			SYNTAX	OCTET STRING
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"This is a character chain that
		--		characterizes the protocol/application."
			::= { clEntry 4 }

		clMode OBJECT-TYPE
			SYNTAX	INTEGER
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"This value represents the mode of the
		--		registered protocol (cf. UPPS Developers Kit)"
			::= { clEntry 5 }

		clPID OBJECT-TYPE
			SYNTAX	INTEGER
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"This value represents a virtual board
		--		number to identify a protocol"
			::= { clEntry 6 }

		-- Topology statistics
		-- Instances of these object types represent attributes of an
		-- interface to an Ethernet Token Ring or FDDI communications
		-- medium.  Only one object group has to be implemented at the
		-- same time depending on the hardware of the communication
		-- adapter.

		-- The ethernet object group is a part of the internet draft
		-- 'ETHERNET LIKE OBJECTS'.

		-- The FDDI object group is partially from the RFC1285
		-- 'FDDI Management Information Base'.
		-- textual conventions
		-- FddiMACLongAddressType ::= OCTET STRING (SIZE (6))
		-- The representation of long MAC addresses as management
		-- values is in the IEEE (ANSI/IEEE P802.1A) canonical
		-- notation for 48 bit addresses.  The canonical form is a
		-- 6-octet string where the first octet contains the first 8
		-- bits of the address, with the I/G (Individual/Group)
		-- address bit as the least significant bit and the  U/L
		-- (Universal/Local) bit as the next more significant bit,
		-- and so on.  Note that the addresses in the SMT frames are
		-- represented in FDDI MAC order.

		-- The Token Ring object group is a summary of objects described
		-- in the User's Guide for the TMS380 from Texas Instruments.

		-- Ethernet statistics group

		ethStatsTable OBJECT-TYPE
			SYNTAX	SEQUENCE OF EthStatsEntry
			ACCESS	not-accessible
			STATUS	mandatory
		--	DESCRIPTION
		--		"Statistics for a collection of ethernet-like
		--		interfaces attached to a particular system."
			::= { eth 1 }

		ethStatsEntry OBJECT-TYPE
			SYNTAX	EthStatsEntry
			ACCESS	not-accessible
			STATUS	mandatory
		--	DESCRIPTION
		--		"Statistics for a particular interface to an
		--		ethernet-like medium."

			::= { ethStatsTable 1 }

		EthStatsEntry ::= SEQUENCE {
			ethStatsIndex
			  INTEGER,
			ethStatsAlignmentErrors
			  Counter,
			ethStatsFCSErrors
			  Counter,
			ethStatsSingleCollisionFrames
			  Counter,
			ethStatsMultipleCollisionFrames
			  Counter,
			ethStatsSQETestErrors
			  Counter,
			ethStatsDeferredTransmissions
			  Counter,
			ethStatsLateCollisions
			  Counter,
			ethStatsExcessiveCollisions
			  Counter,
			ethStatsInternalMacTransErrors
			  Counter,
			ethStatsCarrierSenseErrors
			  Counter,
			ethStatsExcessiveDeferrals
			  Counter,
			ethStatsFrameTooLongs
			  Counter,
			ethStatsInRangeLengthErrors
			  Counter,
			ethStatsOutOfRangeLengthFields
			  Counter,
			ethStatsInternalMacRecvErrors
			  Counter
		}

		ethStatsIndex OBJECT-TYPE
			SYNTAX	INTEGER
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"An index value that uniquely identifies an
		--		interface to an ethernet-like medium.  The
		--		interface identified by a particular value of
		--		this index is the same interface as identified
		--		by the same value of ifIndex."
			::= { ethStatsEntry 1 }

		ethStatsAlignmentErrors OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"A count of frames received on a particular
		--		interface that are not an integral number of
		--		octets in length and do not pass the FCS check.
		--
		--		The count represented by an instance of this
		--		object is incremented when the alignmentError
		--		status is returned by the MAC service to the LLC
		--		(or other MAC user). Received frames for which
		--		multiple error conditions obtain are, according
		--		tothe conventions of [9], counted exclusively
		--		according to the error status presented to the
		--		LLC."
			::= { ethStatsEntry 2 }

		ethStatsFCSErrors OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"A count of frames received on a particular
		--		interface that are an integral number of octets
		--		in length but do not pass the FCS check.
		--
		--		The count represented by an instance of this
		--		object is incremented when the frameCheckError
		--		status is returned by the MAC service to the LLC
		--		(or other MAC user). Received frames for which
		--		multiple error conditions obtain are, according
		--		tothe conventions of [9], counted exclusively
		--		according to the error status presented to the
		--		LLC."
			::= { ethStatsEntry 3 }

		ethStatsSingleCollisionFrames OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"A count of successfully transmitted frames on a
		--		particular interface for which transmission is
		--		inhibited by exactly one collision.
		--
		--		A frame that is counted by an instance of this
		--		object is also counted by the corresponding
		--		instance of either the ifOutUcastPkts or
		--		ifOutNUcastPkts object and is not counted by the
		--		corresponding instance of the
		--		ethStatsMultipleCollisionFrames object."
			::= { ethStatsEntry 4 }

		ethStatsMultipleCollisionFrames OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"A count of successfully transmitted frames on a
		--		particular interface for which transmission is
		--		inhibited by more than one collision.
		--
		--		A frame that is counted by an instance of this
		--		object is also counted by the corresponding
		--		instance of either the ifOutUcastPkts or
		--		ifOutNUcastPkts object and is not counted by the
		--		corresponding instance of the
		--		ethStatsSingleCollisionFrames object."
			::= { ethStatsEntry 5 }

		ethStatsSQETestErrors OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"A count of times that the SQE TEST ERROR
		--		message is generated by the PLS sublayer for a
		--		particular interface.
		--		this object is not supported
			::= { ethStatsEntry 6 }

		ethStatsDeferredTransmissions OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"A count of frames for which the first
		--		transmission attempt on a particular interface
		--		is delayed because the medium is busy.
		--		The count represented by an instance of this
		--		object does not include frames involved in
		--		collisions."
			::= { ethStatsEntry 7 }

		ethStatsLateCollisions OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"The number of times that a collision is
		--		detected on a particular interface later than
		--		512 bit-times into the transmission of a packet.
		--
		--		Five hundred and twelve bit-times corresponds to
		--		51.2 microseconds on a 10 Mbit/s system. A
		--		(late) collision included in a count represented
		--		by an instance of this object is also considered
		--		as a (generic) collision for purposes of other
		--		collision-related statistics."
			::= { ethStatsEntry 8 }

		ethStatsExcessiveCollisions OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"A count of frames for which transmission on a
		--		particular interface fails due to excessive
		--		collisions."
			::= { ethStatsEntry 9 }

		ethStatsInternalMacTransErrors OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"A count of frames for which transmission on a
		--		particular interface fails due to an internal MAC
		--		sublayer transmit error. A frame is only counted
		--		by an instance of this object if it is not
		--		counted by the corresponding instance of either
		--		the ethStatsLateCollisions object, the
		--		ethStatsExcessiveCollisions object, the
		--		ethStatsCarrierSenseErrors object, or the
		--		ethStatsExcessiveDeferrals object.  The precise
		--		meaning of the count represented by an instance
		--		of this object is implementation- specific.  In
		--		particular, an instance of this object may
		--		represent a count of transmission errors on a
		--		particular interface that are not otherwise
		--		counted."
			::= { ethStatsEntry 10 }

		ethStatsCarrierSenseErrors OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"The number of times that the carrier sense
		--		condition was lost or never asserted when
		--		attempting to transmit a frame on a particular
		--		interface.

		--		The count represented by an instance of this
		--		object is incremented at most once per
		--		transmission attempt, even if the carrier sense
		--		condition fluctuates during a transmission
		--		attempt."
			::= { ethStatsEntry 11 }

		ethStatsExcessiveDeferrals OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"A count of frames for which transmission on a
		--		particular interface is deferred for an
		--		excessive period of time."
			::= { ethStatsEntry 12 }

		ethStatsFrameTooLongs OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"A count of frames received on a particular
		--		interface that exceed the maximum permitted
		--		frame size.
		--		The count represented by an instance of this
		--		object is incremented when the frameTooLong
		--		status is returned by the MAC service to the LLC
		--		(or other MAC user).  Received frames for which
		--		multiple error conditions obtain are, according
		--		to the conventions of [9], counted exclusively
		--		according to the error status presented to the
		--		LLC."
			::= { ethStatsEntry 13 }

		ethStatsInRangeLengthErrors OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"A count of frames received on a particular
		--		interface with a length field value that falls
		--		between the minimum unpadded LLC data size and
		--		the maximum allowed LLC data size inclusive and
		--		that does not match the number of LLC data
		--		octets received.

		--		The count represented by an instance of this
		--		object also includes frames for which the length
		--		field value is less than the minimum unpadded
		--		LLC data size."
			::= { ethStatsEntry 14 }

		ethStatsOutOfRangeLengthFields OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"A count of frames received on a particular
		--		interface for which the length field value
		--		exceeds the maximum allowed LLC data size.
		--
		--		The count represented by an instance of this
		--		object is not incremented in implementations
		--		that observe Ethernet encapsulation conventions
		--		(by which the IEEE 802.3 length field is
		--		interpreted as the Ethernet Type field)."
			::= { ethStatsEntry 15 }

		ethStatsInternalMacRecvErrors OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"A count of frames for which reception on a
		--		particular interface fails due to an internal
		--		MAC sublayer receive error.  A frame is only
		--		counted by an instance of this object if it is
		--		not counted by the corresponding instance of
		--		either the ethStatsFrameTooLongs object, the
		--		ethStatsAlignmentErrors object, the
		--		ethStatsFCSErrors object, the
		--		ethStatsInRangeLengthErrors object, or the
		--		ethStatsOutOfRangeLengthFields object.
		--
		--		The precise meaning of the count represented by
		--		an instance of this object is implementation-
		--		specific.  In particular, an instance of this
		--		object may represent a count of receive errors
		--		on a particular interface that are not otherwise
		--		counted."
			::= { ethStatsEntry 16 }



		-- Token Ring statistics group

		tokStatsTable OBJECT-TYPE
			SYNTAX	SEQUENCE OF TokStatsEntry
			ACCESS	not-accessible
			STATUS	mandatory
		--	DESCRIPTION
		--		"Statistics for a collection of token-ring
		--		interfaces attached to a particular system."
			::= { tok 1 }

		tokStatsEntry OBJECT-TYPE
			SYNTAX	TokStatsEntry
			ACCESS	not-accessible
			STATUS	mandatory
		--	DESCRIPTION
		--		"Statistics for a particular interface for Token
		--		Ring."

			::= { tokStatsTable 1 }

		TokStatsEntry ::= SEQUENCE {
			tokStatsIndex
			  INTEGER,
			tokStatsUpstreamNbr
			  OCTET STRING,
			tokStatsLocalRingNumber
			  INTEGER,
			tokStatsRingUpCounts
			  Counter,
			tokStatsSignalLossErrors
			  Counter,
			tokStatsLobeWireFaults
			  Counter,
			tokStatsRingRecoveryCounts
			  Counter,
			tokStatsLineErrors
			  Counter,
			tokStatsBurstErrors
			  Counter,
			tokStatsARI-FCIErrors
			  Counter,
			tokStatsLostFrameErrors
			  Counter,
			tokStatsReceiveCongestionErrors
			  Counter,
			tokStatsFrameCopiedErrors
			  Counter,
			tokStatsTokenErrors
			  Counter,
			tokStatsDMABusErrors
			  Counter,
			tokStatsDMAParityErrors
			  Counter,
			tokStatsReceiveOverflowErrors
			  Counter
		}

		tokStatsIndex OBJECT-TYPE
			SYNTAX	INTEGER
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"An index value that uniquely identifies an
		--		interface to a token-ring medium.  The interface
		--		identified by a particular value of this index
		--		is the same interface as identified by the same
		--		value of ifIndex."
			::= { tokStatsEntry 1 }

		tokStatsUpstreamNbr OBJECT-TYPE
			SYNTAX	OCTET STRING
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"The MAC's upstream neighbour's long individual
		--		MAC address."
			::= { tokStatsEntry 2 }

		tokStatsLocalRingNumber OBJECT-TYPE
			SYNTAX	INTEGER
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"The unique number of the local Token Ring"
			::= { tokStatsEntry 3 }

		tokStatsRingUpCounts OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"The number of times the station made
		--		sucessfully an 'open adapter' "
			::= { tokStatsEntry 4 }

		tokStatsSignalLossErrors OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"The number of times the adapter detected a loss
		--		of signal on the ring"
			::= { tokStatsEntry 5 }

		tokStatsLobeWireFaults OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"The number of times the adapter detected an
		--		open or short circuit in the cable between the
		--		adapter and the wiring concentrator."
			::= { tokStatsEntry 6 }

		tokStatsRingRecoveryCounts OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"The number of times the adapter observes claim
		--		token MAC frames on the ring.  The adapter may
		--		be transmitting the claim token frames."
			::= { tokStatsEntry 7 }

		tokStatsLineErrors OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"The line error counter is incremented whenever
		--
		--		1) a frame is repeated or copied, and
		--		2) the error detected indicator is zero in the
		--		incoming frame, and
		--		3) at least one of the following conditions
		--		exists:
		--
		--		a) a code violation between the starting
		--		delimiter and the ending delimiter of the
		--		frame.
		--		b) a code violation in the token
		--		c) a Frame Check Sequence (FCS) error.
		--
		--		When the line error is incremented, the EDI of
		--		the frame is set to one so that no further
		--		station count the error."
			::= { tokStatsEntry 8 }

		tokStatsBurstErrors OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"The burst error counter is contained in all
		--		adapter configurations and is incremented when
		--		the adapter detects the absence of transitions
		--		for five half- bit times between SDEL and EDEL,
		--		or EDEL and SDEL.  Only one adapter detects the
		--		burst five condition because the adapter that
		--		detects a burst four condition (four half bit
		--		times without transition) directs its
		--		transmitter to transmit idles if the burst five
		--		condition is detected."
			::= { tokStatsEntry 9 }

		tokStatsARI-FCIErrors OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"The ARI/FCI error counter is incremented when
		--		an adapter receives an Active Monitor Present
		--		(AMP)MAC frame with the ARI/FCI bits equal to
		--		zero and a Standby Monitor Present (SMP)MAC
		--		frame with the ARI/FCI bits equal to zero, or
		--		more than one SMP MAC frame with the ARI/FCI
		--		bits equal to zero, without receiving an
		--		intervening AMP MAC frame.  This condition
		--		indicates that the upstream neighbor is unable
		--		to set the ARI/FCI bits in a frame that it has
		--		copied."
			::= { tokStatsEntry 10 }


		tokStatsLostFrameErrors OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"The lost frame error counter is incremented
		--		when an adapter is in transmit (stripping) mode
		--		and fails to receive the end of the frame
		--		transmitted."
			::= { tokStatsEntry 11 }


		tokStatsReceiveCongestionErrors OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"The receive congestion error counter is
		--		incremented when an adapter in the repeat mode
		--		recognizes a frame addressed to it but has no
		--		buffer available to copy the frame."
			::= { tokStatsEntry 12 }


		tokStatsFrameCopiedErrors OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"The frame copied error counter is incremented
		--		when an adapter in the repeat/receive mode
		--		recognizes a frame addressed to its specific
		--		address but finds the ARI bit not equal to zero.
		--		This indicates a possible line hit or duplicate
		--		address."
			::= { tokStatsEntry 13 }


		tokStatsTokenErrors OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"The token error is active only in the active
		--		monitor station.  It is incremented when the
		--		active monitor detects an error with the token
		--		protocol as follows:
		--
		--		1)The MONITOR_COUNT bit of a token with nonzero
		--		priority equals one.
		--
		--		2)The MONITOR_COUNT bit of a frame equals one
		--
		--		3)No token or frame is received within a 10-ms
		--		window
		--
		--		4)The starting delimiter/token sequence has a
		--		code violation in an area where code violation
		--		must not exist."
			::= { tokStatsEntry 14 }


		tokStatsDMABusErrors OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"The DMA bus error counter counts the
		--		occurrences of DMA bus errors that do not exceed
		--		the abort thresholds as specified in the
		--		Initialization parameters."

			::= { tokStatsEntry 15 }


		tokStatsDMAParityErrors OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"The DMA parity error counter counts the
		--		occurrences of DMA parity errors that do not
		--		exceed the abort thresholds as specified in the
		--		Initialization parameters."
			::= { tokStatsEntry 16 }


		tokStatsReceiveOverflowErrors OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"The Receive Overflow error counter counts the
		--		occurrences of packets which do not fit in one
		--		DLI Mbuf ( > 4504 Bytes)
			::= { tokStatsEntry 17 }



		-- FDDI statistics group

		fddiStatsTable OBJECT-TYPE
			SYNTAX	SEQUENCE OF FddiStatsEntry
			ACCESS	not-accessible
			STATUS	mandatory
		--	DESCRIPTION
		--		"Statistics for a collection of fddi interfaces
		--		attached to a particular system."
			::= { fddi 1 }

		fddiStatsEntry OBJECT-TYPE
			SYNTAX	FddiStatsEntry
			ACCESS	not-accessible
			STATUS	mandatory
		--	DESCRIPTION
		--		"Statistics for a particular interface to a fddi
		--		medium."

			::= { fddiStatsTable 1 }

		FddiStatsEntry ::= SEQUENCE {
			fddiStatsIndex
			  INTEGER,
			fddiSMTOpVersionId
			  INTEGER,
			fddiSMTCFState
			  INTEGER,
			fddiSMTFrameSends
			  Counter,
			fddiSMTFrameReceives
			  Counter,
			fddiSMTRingUps
			  Counter,
			fddiMACUpstreamNbr
			  OCTET STRING,
			fddiMACDownstreamNbr
			  OCTET STRING,
			fddiMACFrameCts
			  Counter,
			fddiMACErrorCts
			  Counter,
			fddiMACLostCts
			  Counter,
			fddiPORT1LerEstimate
			  INTEGER,
			fddiPORT2LerEstimate
			  INTEGER,
			fddiATTACHMENTClass
			  INTEGER,
			fddiATTACHOptBypassPresent
			  INTEGER
		}

		fddiStatsIndex OBJECT-TYPE
			SYNTAX	INTEGER
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"An index value that uniquely identifies an
		--		interface to an fddi medium.  The interface
		--		identified by a particular value of this index
		--		is the same interface as identified by the same
		--		value of ifIndex."
			::= { fddiStatsEntry 1 }

		fddiSMTOpVersionId OBJECT-TYPE
			SYNTAX	INTEGER (1..65535)
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"The version that this station is using for its
		--		operation (refer to ANSI 7.1.2.2)."
		--	REFERENCE
		--		"ANSI { fddiSMT 13 }"
			::= { fddiStatsEntry 2 }


		fddiSMTCFState OBJECT-TYPE
			SYNTAX	INTEGER {
				cf0(0), -- Isolated
				cf1(1), -- local_a
				cf2(2), -- local_b
				cf3(3), -- local_ab
				cf4(4), -- local_s
				cf5(5),	 -- wrap_a
				cf6(6),	 -- wrap_b
				cf7(7),	 -- wrap_ab
				cf8(8),	 -- wrap_s
				cf9(9),	 -- c_wrap_a
				cf10(10),  -- c_wrap_b
				cf11(11),  -- c_wrap_s
				cf12(12)  -- thru
			}
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"The attachment configuration for the station or
		--		concentrator (refer to ANSI SMT 9.7.4.3)."
		--	REFERENCE
		--		"ANSI { fddiSMT 42 }"
			::= { fddiStatsEntry 3 }


		fddiSMTFrameSends OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"The number of SMT frames sent"
			::= { fddiStatsEntry 4 }


		fddiSMTFrameReceives OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"The number of SMT frames received"
			::= { fddiStatsEntry 5 }


		fddiSMTRingUps OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"The number of times the Ring came up"
			::= { fddiStatsEntry 6 }


		fddiMACUpstreamNbr OBJECT-TYPE
			SYNTAX	OCTET STRING
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"The MAC's upstream neighbor's long individual
		--		MAC address.  It may be determined by the
		--		Neighbor Information Frame protocol (refer to
		--		ANSI SMT 7.2.1).  The value shall be reported as
		--		'00 00 F8 00 00 00' if it is unknown."
		--	REFERENCE
		--		"ANSI { fddiMAC 24 }"
			::= { fddiStatsEntry 7 }


		fddiMACDownstreamNbr OBJECT-TYPE
			SYNTAX	OCTET STRING
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"The MAC's downstream neighbor's long individual
		--		MAC address.  It may be determined by the
		--		Neighbor Information Frame protocol (refer to
		--		ANSI SMT 7.2.1).  The value shall be reported as
		--		'00 00 F8 00 00 00' if it is unknown."
		--	REFERENCE
		--		"ANSI { fddiMAC 24 }"
			::= { fddiStatsEntry 8 }


		fddiMACFrameCts OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"Frame_Counter (refer to ANSI MAC 2.2.1)."
		--	REFERENCE
		--		"ANSI { fddiMAC 71 }"
			::= { fddiStatsEntry 9 }

		fddiMACErrorCts OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"Error_Counter (refer to ANSI MAC 2.2.1)."
		--	REFERENCE
		--		"ANSI { fddiMAC 81 }"
			::= { fddiStatsEntry 10 }


		fddiMACLostCts OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"Lost_Counter (refer to ANSI MAC 2.2.1)."
		--	REFERENCE
		--		"ANSI { fddiMAC 82 }"
			::= { fddiStatsEntry 11 }


		fddiPORT1LerEstimate OBJECT-TYPE
			SYNTAX	INTEGER (4..15)
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"A long term average link error rate of Port 1.
		--		It ranges from 10**-4 to 10**-15 and is reported
		--		as the absolute value of the exponent of the
		--		estimate."
		--	REFERENCE
		--		"ANSI { fddiPORT 51 }"
			::= { fddiStatsEntry 12 }


		fddiPORT2LerEstimate OBJECT-TYPE
			SYNTAX	INTEGER (4..15)
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"A long term average link error rate of Port2.
		--		It ranges from 10**-4 to 10**-15 and is reported
		--		as the absolute value of the exponent of the
		--		estimate.  Returns Null if Port is not
		--		available"
		--	REFERENCE
		--		"ANSI { fddiPORT 51 }"
			::= { fddiStatsEntry 13 }


		fddiATTACHMENTClass OBJECT-TYPE
			SYNTAX	INTEGER {
				single-attachment(1),
				dual-attachment(2),
				concentrator(3)
			}
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"The Attachment class.  This represents a PORT
		--		or a pair of PORTs plus the associated optional
		--		optical bypass that are managed as a functional
		--		unit.  The PORT associations are the following:
		--
		--		single-attachment - S PORTs
		--		dual-attachment - A/B PORT Pairs
		--		concentrator - M PORTs "
		--	REFERENCE
		--		"ANSI { fddiATTACHMENT 11 }"
			::= { fddiStatsEntry 14 }


		fddiATTACHOptBypassPresent OBJECT-TYPE
			SYNTAX	INTEGER { true(1), false(2) }
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--
		--		"The value of this object is false for 'single-
		--		attachment'.
		--		Correct operation of CMT for single-attachment
		--		and concentrator attachments requires that a
		--		bypass function must not loopback the network
		--		side of the MIC, but only the node side."
		--	REFERENCE
		--		"ANSI { fddiATTACHMENT 12 }"
			::= { fddiStatsEntry 15 }


		-- the Board statistics group

		statsTable OBJECT-TYPE
			SYNTAX	SEQUENCE OF StatsEntry
			ACCESS	not-accessible
			STATUS	mandatory
			::= { sk-board-statistics 1 }

		statsEntry OBJECT-TYPE
			SYNTAX	StatsEntry
			ACCESS	not-accessible
			STATUS	mandatory

			::= { statsTable 1 }

		StatsEntry ::= SEQUENCE {
			statsIfIndex
			  INTEGER,
			statsFCSErrors
			  Counter,
			statsAlignmentErrors
			  Counter,
			statsFrameTooLongs
			  Counter
		}

		statsIfIndex OBJECT-TYPE
			SYNTAX	INTEGER
			ACCESS	read-only
			STATUS	mandatory
			::= { statsEntry 1 }

		statsFCSErrors OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		" The number of frames received with a Cyclic
		--		Redundancy Check error.
		--		This counter is incremented by the template
		--		part of the DLI not by the hardware driver as it
		--		it is done in the topology-specific statistics."
			::= { statsEntry 2 }

		statsAlignmentErrors OBJECT-TYPE
			SYNTAX	 Counter
			ACCESS	 read-only
			STATUS	 mandatory
		--	DESCRIPTION
		--		"The number of frames received, which did not
		--		end on a byte boundery.
		--		This counter is incremented by the template
		--		part of the DLI not by the hardware driver as it
		--		it is done in the topology-specific statistics."
			::= { statsEntry 3 }

		statsFrameTooLongs OBJECT-TYPE
			SYNTAX	Counter
			ACCESS	read-only
			STATUS	mandatory
		--	DESCRIPTION
		--		"The number of frames received which were to long
		--		to fit in the data area of the Mbuf.
		--		This counter is incremented by the template
		--		part of the DLI not by the hardware driver as it
		--		it is done in the topology-specific statistics."
			::= { statsEntry 4 }

		-- CMU private

		  cmu OBJECT IDENTIFIER ::= { enterprises 3 }
		  systems OBJECT IDENTIFIER ::= { cmu 1 }
		  mibs OBJECT IDENTIFIER ::= { cmu 2 }
		  cmuSNMP OBJECT IDENTIFIER ::= { systems 1 }
		  cmuKip OBJECT IDENTIFIER ::= { systems 2 }
		  cmuRouter OBJECT IDENTIFIER ::= { systems 3 }

		-- S&K private

		  sk OBJECT IDENTIFIER ::= { enterprises 179 }
		  skSystems OBJECT IDENTIFIER ::= { sk 1 }
		  skRouter OBJECT IDENTIFIER ::= { skSystems 1 }

		-- enterprises

		Reserved OBJECT IDENTIFIER ::= { enterprises 0 }
		Proteon OBJECT IDENTIFIER ::= { enterprises 1 }
		IBM OBJECT IDENTIFIER ::= { enterprises 2 }

		Unix OBJECT IDENTIFIER ::= { enterprises 4 }
		ACC OBJECT IDENTIFIER ::= { enterprises 5 }
		TWG OBJECT IDENTIFIER ::= { enterprises 6 }
		CAYMAN OBJECT IDENTIFIER ::= { enterprises 7 }
		PSI OBJECT IDENTIFIER ::= { enterprises 8 }
		cisco OBJECT IDENTIFIER ::= { enterprises 9 }
		NSC OBJECT IDENTIFIER ::= { enterprises 10 }
		HP OBJECT IDENTIFIER ::= { enterprises 11 }
		Epilogue OBJECT IDENTIFIER ::= { enterprises 12 }
		Utennessee OBJECT IDENTIFIER ::= { enterprises 13 }
		BBN OBJECT IDENTIFIER ::= { enterprises 14 }
		Xylogics, OBJECT IDENTIFIER ::= { enterprises 15 }
		Unisys OBJECT IDENTIFIER ::= { enterprises 16 }
		Canstar OBJECT IDENTIFIER ::= { enterprises 17 }
		Wellfleet OBJECT IDENTIFIER ::= { enterprises 18 }
		TRW OBJECT IDENTIFIER ::= { enterprises 19 }
		MIT OBJECT IDENTIFIER ::= { enterprises 20 }
		EON OBJECT IDENTIFIER ::= { enterprises 21 }
		Spartacus OBJECT IDENTIFIER ::= { enterprises 22 }
		Excelan OBJECT IDENTIFIER ::= { enterprises 23 }
		Spider OBJECT IDENTIFIER ::= { enterprises 24 }
		NSFNET OBJECT IDENTIFIER ::= { enterprises 25 }
		Hughes OBJECT IDENTIFIER ::= { enterprises 26 }
		Intergraph OBJECT IDENTIFIER ::= { enterprises 27 }
		Interlan OBJECT IDENTIFIER ::= { enterprises 28 }
		Vitalink OBJECT IDENTIFIER ::= { enterprises 29 }
		Ulana OBJECT IDENTIFIER ::= { enterprises 30 }
		NSWC OBJECT IDENTIFIER ::= { enterprises 31 }
		Santa OBJECT IDENTIFIER ::= { enterprises 32 }
		Xyplex OBJECT IDENTIFIER ::= { enterprises 33 }
		Cray OBJECT IDENTIFIER ::= { enterprises 34 }
		Bell OBJECT IDENTIFIER ::= { enterprises 35 }
		DEC OBJECT IDENTIFIER ::= { enterprises 36 }
		Touch OBJECT IDENTIFIER ::= { enterprises 37 }
		Network OBJECT IDENTIFIER ::= { enterprises 38 }
		Baylor OBJECT IDENTIFIER ::= { enterprises 39 }
		NMFECC-LLNL OBJECT IDENTIFIER ::= { enterprises 40 }
		SRI OBJECT IDENTIFIER ::= { enterprises 41 }
		Sun OBJECT IDENTIFIER ::= { enterprises 42 }
		3Com OBJECT IDENTIFIER ::= { enterprises 43 }
		CMC OBJECT IDENTIFIER ::= { enterprises 44 }
		SynOptics OBJECT IDENTIFIER ::= { enterprises 45 }
		Cheyenne OBJECT IDENTIFIER ::= { enterprises 46 }
		Prime OBJECT IDENTIFIER ::= { enterprises 47 }
		MCNC/North OBJECT IDENTIFIER ::= { enterprises 48 }
		Chipcom OBJECT IDENTIFIER ::= { enterprises 49 }
		Optical OBJECT IDENTIFIER ::= { enterprises 50 }
		gated OBJECT IDENTIFIER ::= { enterprises 51 }
		Cabletron OBJECT IDENTIFIER ::= { enterprises 52 }
		Apollo OBJECT IDENTIFIER ::= { enterprises 53 }
		DeskTalk OBJECT IDENTIFIER ::= { enterprises 54 }
		SSDS OBJECT IDENTIFIER ::= { enterprises 55 }
		Castle OBJECT IDENTIFIER ::= { enterprises 56 }
		MIPS OBJECT IDENTIFIER ::= { enterprises 57 }
		TGV, OBJECT IDENTIFIER ::= { enterprises 58 }
		Silicon OBJECT IDENTIFIER ::= { enterprises 59 }
		UofBritishColumbia OBJECT IDENTIFIER ::= { enterprises 60 }
		Merit OBJECT IDENTIFIER ::= { enterprises 61 }
		FiberCom OBJECT IDENTIFIER ::= { enterprises 62 }
		Apple OBJECT IDENTIFIER ::= { enterprises 63 }
		Gandalf OBJECT IDENTIFIER ::= { enterprises 64 }
		Dartmouth OBJECT IDENTIFIER ::= { enterprises 65 }
		David OBJECT IDENTIFIER ::= { enterprises 66 }
		Reuter OBJECT IDENTIFIER ::= { enterprises 67 }
		Cornell OBJECT IDENTIFIER ::= { enterprises 68 }
		TMAC OBJECT IDENTIFIER ::= { enterprises 69 }
		Locus OBJECT IDENTIFIER ::= { enterprises 70 }
		NASA OBJECT IDENTIFIER ::= { enterprises 71 }
		Retix OBJECT IDENTIFIER ::= { enterprises 72 }
		Boeing OBJECT IDENTIFIER ::= { enterprises 73 }
		AT&T OBJECT IDENTIFIER ::= { enterprises 74 }
		Ungermann-Bass OBJECT IDENTIFIER ::= { enterprises 75 }
		Digital OBJECT IDENTIFIER ::= { enterprises 76 }
		LANMan OBJECT IDENTIFIER ::= { enterprises 77 }
		Netlabs OBJECT IDENTIFIER ::= { enterprises 78 }
		ICL OBJECT IDENTIFIER ::= { enterprises 79 }
		Auspex OBJECT IDENTIFIER ::= { enterprises 80 }
		Lannet OBJECT IDENTIFIER ::= { enterprises 81 }
		NetworkComputingDevices OBJECT IDENTIFIER ::= { enterprises 82 }
		Raycom OBJECT IDENTIFIER ::= { enterprises 83 }
		Pirelli OBJECT IDENTIFIER ::= { enterprises 84 }
		Datability OBJECT IDENTIFIER ::= { enterprises 85 }
		NetworkApplTechn OBJECT IDENTIFIER ::= { enterprises 86 }
		LINK OBJECT IDENTIFIER ::= { enterprises 87 }
		NYU OBJECT IDENTIFIER ::= { enterprises 88 }
		RND OBJECT IDENTIFIER ::= { enterprises 89 }
		InterCon OBJECT IDENTIFIER ::= { enterprises 90 }
		LearningTree OBJECT IDENTIFIER ::= { enterprises 91 }
		Webster OBJECT IDENTIFIER ::= { enterprises 92 }
		Frontier OBJECT IDENTIFIER ::= { enterprises 93 }
		Nokia OBJECT IDENTIFIER ::= { enterprises 94 }
		Allen-Bradley OBJECT IDENTIFIER ::= { enterprises 95 }
		CERN OBJECT IDENTIFIER ::= { enterprises 96 }
		Sigma OBJECT IDENTIFIER ::= { enterprises 97 }
		Emerging OBJECT IDENTIFIER ::= { enterprises 98 }
		SNMPResearch OBJECT IDENTIFIER ::= { enterprises 99 }
		Ohio OBJECT IDENTIFIER ::= { enterprises 100 }
		Ultra OBJECT IDENTIFIER ::= { enterprises 101 }
		Microcom OBJECT IDENTIFIER ::= { enterprises 102 }
		Martin OBJECT IDENTIFIER ::= { enterprises 103 }
		Micro OBJECT IDENTIFIER ::= { enterprises 104 }
		Process OBJECT IDENTIFIER ::= { enterprises 105 }
		Data OBJECT IDENTIFIER ::= { enterprises 106 }
		Bull OBJECT IDENTIFIER ::= { enterprises 107 }
		Emulex OBJECT IDENTIFIER ::= { enterprises 108 }
		Warwick OBJECT IDENTIFIER ::= { enterprises 109 }
		NetworkGeneral OBJECT IDENTIFIER ::= { enterprises 110 }
		Oracle OBJECT IDENTIFIER ::= { enterprises 111 }
		ControlData OBJECT IDENTIFIER ::= { enterprises 112 }
		Hughes OBJECT IDENTIFIER ::= { enterprises 113 }
		Synernetics, OBJECT IDENTIFIER ::= { enterprises 114 }
		Mitre OBJECT IDENTIFIER ::= { enterprises 115 }
		Hitachi, OBJECT IDENTIFIER ::= { enterprises 116 }
		Telebit OBJECT IDENTIFIER ::= { enterprises 117 }
		Salomon OBJECT IDENTIFIER ::= { enterprises 118 }
		NEC OBJECT IDENTIFIER ::= { enterprises 119 }
		Fibermux OBJECT IDENTIFIER ::= { enterprises 120 }
		FTPSoftware OBJECT IDENTIFIER ::= { enterprises 121 }
		Sony OBJECT IDENTIFIER ::= { enterprises 122 }
		Newbridge OBJECT IDENTIFIER ::= { enterprises 123 }
		Racal-Milgo OBJECT IDENTIFIER ::= { enterprises 124 }
		CR OBJECT IDENTIFIER ::= { enterprises 125 }
		DSET OBJECT IDENTIFIER ::= { enterprises 126 }
		Computone OBJECT IDENTIFIER ::= { enterprises 127 }
		Tektronix, OBJECT IDENTIFIER ::= { enterprises 128 }
		Interactive OBJECT IDENTIFIER ::= { enterprises 129 }
		Banyan OBJECT IDENTIFIER ::= { enterprises 130 }
		Sintrom OBJECT IDENTIFIER ::= { enterprises 131 }
		Bell OBJECT IDENTIFIER ::= { enterprises 132 }
		Crosscomm OBJECT IDENTIFIER ::= { enterprises 133 }
		Rice OBJECT IDENTIFIER ::= { enterprises 134 }
		T3Plus OBJECT IDENTIFIER ::= { enterprises 135 }
		Concurrent OBJECT IDENTIFIER ::= { enterprises 136 }
		Basser OBJECT IDENTIFIER ::= { enterprises 137 }
		Luxcom OBJECT IDENTIFIER ::= { enterprises 138 }
		Artel OBJECT IDENTIFIER ::= { enterprises 139 }
		Independence OBJECT IDENTIFIER ::= { enterprises 140 }
		Frontier OBJECT IDENTIFIER ::= { enterprises 141 }
		Digital OBJECT IDENTIFIER ::= { enterprises 142 }
		Eyring, OBJECT IDENTIFIER ::= { enterprises 143 }
		Case OBJECT IDENTIFIER ::= { enterprises 144 }
		Penril OBJECT IDENTIFIER ::= { enterprises 145 }
		American OBJECT IDENTIFIER ::= { enterprises 146 }
		Sequent OBJECT IDENTIFIER ::= { enterprises 147 }
		Bellcore OBJECT IDENTIFIER ::= { enterprises 148 }
		Konkord OBJECT IDENTIFIER ::= { enterprises 149 }
		UniversityWashington OBJECT IDENTIFIER ::= { enterprises 150 }
		Develcon OBJECT IDENTIFIER ::= { enterprises 151 }
		Solarix OBJECT IDENTIFIER ::= { enterprises 152 }
		Unifi OBJECT IDENTIFIER ::= { enterprises 153 }
		Roadnet OBJECT IDENTIFIER ::= { enterprises 154 }
		Network OBJECT IDENTIFIER ::= { enterprises 155 }
		ENE OBJECT IDENTIFIER ::= { enterprises 156 }
		Dansk OBJECT IDENTIFIER ::= { enterprises 157 }
		Morning OBJECT IDENTIFIER ::= { enterprises 158 }
		Dupont OBJECT IDENTIFIER ::= { enterprises 159 }
		Legato OBJECT IDENTIFIER ::= { enterprises 160 }
		Motorola OBJECT IDENTIFIER ::= { enterprises 161 }
		European OBJECT IDENTIFIER ::= { enterprises 162 }
		BIM OBJECT IDENTIFIER ::= { enterprises 163 }
		Rad OBJECT IDENTIFIER ::= { enterprises 164 }
		Intellicom OBJECT IDENTIFIER ::= { enterprises 165 }
		Shiva OBJECT IDENTIFIER ::= { enterprises 166 }
		Fujikura OBJECT IDENTIFIER ::= { enterprises 167 }
		Xlnt OBJECT IDENTIFIER ::= { enterprises 168 }
		Tandem OBJECT IDENTIFIER ::= { enterprises 169 }
		BICC OBJECT IDENTIFIER ::= { enterprises 170 }
		D-Link OBJECT IDENTIFIER ::= { enterprises 171 }
		AMP, OBJECT IDENTIFIER ::= { enterprises 172 }
		Netlink OBJECT IDENTIFIER ::= { enterprises 173 }
		C-Itoh OBJECT IDENTIFIER ::= { enterprises 174 }
		Sumitomo OBJECT IDENTIFIER ::= { enterprises 175 }
		DHL OBJECT IDENTIFIER ::= { enterprises 176 }
		Network OBJECT IDENTIFIER ::= { enterprises 177 }
		APTEC OBJECT IDENTIFIER ::= { enterprises 178 }
