-- SECTION 1: MIB Definition

S5-TCS-MIB DEFINITIONS ::= BEGIN


-- 5000 Common Textual Conventions MIB Release 1.1.2
-- Revision 07/28/94

-- Copyright 1993-94 SynOptics Communications, Inc.
-- All rights reserved.
-- This SynOptics SNMP Management Information Base Specification
-- (Specification) embodies SynOptics' confidential and
-- proprietary intellectual property. SynOptics retains all
-- title and ownership in the Specification, including any
-- revisions.

-- This Specification is supplied "AS IS," and SynOptics makes
-- no warranty, either express or implied, as to the use,
-- operation, condition, or performance of the Specification.


-- Textual Convention Definitions


-- A textual conventions for MAC addresses.
-- This is a 6 octet address in the "canonical" order
-- defined by IEEE 802.1a, i.e., as if it were transmitted
-- least significant bit first, even though 802.5 (in contrast
-- to other 802.x protocols) requires MAC addresses to be
-- transmitted most significant bit first.
MacAddress ::= OCTET STRING (SIZE (6))


-- A textual convention for IPX addresses. The first four bytes
-- are the network number in 'network order'. The last 6 bytes
-- are the MAC address.
IpxAddress ::= OCTET STRING (SIZE (10))


-- A textual convention for a period of time measured
-- in units of 0.01 seconds.
TimeIntervalHrd ::= INTEGER


-- A textual convention for a period of time measured
-- in units of seconds.
TimeIntervalSec ::= INTEGER



-- A textual convention for an Index of a "source".
-- The values are encoded so that the same MIB object
-- can be used to describe the same type of data, but
-- from different sources.
-- For the 5000 Chassis, this is encoded in the
-- following base 10 fields:
--   1bbiii - identifies an interface on an NMM
--              where 'bb' is the board index and
--              'iii' is the interface number.
--
--   2bbppp - identifies a connectivity port on
--              a board where 'bb' is the board INDEX
--              and 'ppp' is the port INDEX.
--
--   3bblll - identifies a local channel on a
--              board where 'bb' is the board INDEX
--              and 'll' is the local channel INDEX.
--
--   4bbccc - identifies a cluster on a board
--              where 'bb' is the board INDEX and
--              'cc' is the cluster INDEX.
--
--   5bbfff - identifies a FPU on a board where
--              'bb' is the board INDEX, and 'fff' is
--              the FPU INDEX.
--
--   6bbnnn - identifies host board backplane counters
--              where 'bb' is the board INDEX, and
--              'nnn' is the segment INDEX.
--
--   7bbccc - identifies a NULL segment on a board
--              where 'bb' is the board INDEX, and
--              'ccc' is the cluster INDEX.
--
--   8mmnnn - identifies a sum across all host board(s)
--              connected to a given backplane segment
--              where 'mm' is media type, and 'nnn' is
--              the segment INDEX. (NOTE: This is currently
--              only valid for Ethernet.)
SrcIndx ::= INTEGER (1..999999)



-- A textual convention for Media types
MediaType ::= INTEGER {
	other(1),	-- unknown or other type
	eth(2),		-- ethernet
	tok(3),		-- token ring
	fddi(4)		-- FDDI
	}		-- ATM later


-- The FDDI backplane mode.
FddiBkNetMode ::= INTEGER {
	other(1),	-- other or unknown
	thruLow(2),
	thruHigh(3),
	thruLowThruHigh(4)
	}

-- The backplane network ID. This is a numeric assignment
-- made to a backplane channel, a piece of a divided
-- backplane channel, or a grouping of several backplane
-- channels (which is done for FDDI). The number (and values)
-- of the backplane networks is determined by the setting
-- of the channel divider(s) which split some or all
-- the backplane channels into networks, and by
-- grouping when allowed by the media (such as FDDI).
-- Different media and backplane implementations may
-- have a divider or not. Also, there may be different
-- mappings of backplane network IDs to a divided (or
-- undivided) backplane channel.
--
-- Note to agent implementors - you must map the divided
-- (or undivided) backplane channel to the numbering here
-- based on the setting of the backplane channel divider(s),
-- and/or the grouping of the channels for FDDI.
BkNetId ::= INTEGER (1..255)


-- The physical backplane channel identification.
-- This does not change when a backplane is divided.
-- A value of zero means no channel. Otherwise, the
-- channels are numbered starting at one.
BkChan ::= INTEGER (0..255)

-- The physical local channel identification.
-- A value of zero means no channel. Otherwise, the
-- channels are numbered starting at one.
LocChan ::= INTEGER (0..255)

-- The attachment ID. This is either a backplane
-- network ID, a local channel, or as an indication
-- of no backplane network attachment. Negative numbers
-- are used to identify local channels on a board.
-- Where used, the board must also be specified
-- (or implied). A value of zero is used to indicate
-- no (or null) attachment. Positive numbers are the
-- backplane network IDs. The number (and values) of
-- the backplane networks is determined by the setting
-- of the channel divider(s) which split some or all
-- the backplane channels into backplane networks,
-- and by grouping when allowed by the media (such as
-- FDDI). Different media and implementations may have
-- a divider or not. Also, there may be different
-- mappings of backplane network IDs to a divided
-- (or undivided) backplane channel.
--
-- Note to agent implementors - you must map the divided
-- (or undivided) backplane channel to the numbering here
-- based on the setting of the backplane channel divider(s),
-- and/or the grouping of the channels for FDDI.
AttId ::= INTEGER (-255..255)


END