REPEATER-MIB-2 device MIB details by Enterasys Networks Inc
REPEATER-MIB-2 file content
The SNMP protocol is used to for conveying information and commands between agents and managing entities. SNMP uses the User Datagram Protocol (UDP) as the transport protocol for passing data between managers and agents. The reasons for using UDP for SNMP are, firstly it has low overheads in comparison to TCP, which uses a 3-way hand shake for connection. Secondly, in congested networks, SNMP over TCP is a bad idea because TCP in order to maintain reliability will flood the network with retransmissions.
Management information (MIB) is represented as a collection of managed objects. These objects together form a virtual information base called MIB. An agent may implement many MIBs, but all agents must implement a particular MIB called MIB-II [16]. This standard defines variables for things such as interface statistics (interface speeds, MTU, octets sent, octets received, etc.) as well as various other things pertaining to the system itself (system location, system contact, etc.). The main goal of MIB-II is to provide general TCP/IP management information.
Use ActiveXperts Network Monitor 2024 to import vendor-specific MIB files, inclusing REPEATER-MIB-2.
Vendor: | Enterasys Networks Inc |
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Mib: | REPEATER-MIB-2 [download] [view objects] |
Tool: | ActiveXperts Network Monitor 2024 [download] (ships with advanced SNMP/MIB tools) |
REPEATER-MIB-2 DEFINITIONS ::= BEGIN -- MMAC Intelligent Repeater (IRBM & IRM2) -- Revision: 2.04.02 -- Part Number: 2170570-01 -- Date: December 4, 1997 -- Cabletron Systems, Inc. -- 35 Industrial Way, P.O. Box 5005 -- Rochester, NH 03867-0505 -- (603) 332-9400 -- support@ctron.com -- This module provides authoritative definitions for part -- of the naming tree below: -- -- cabletron { enterprises 52 } -- -- This module will be extended, as additional sub-sections -- of this naming tree are defined. -- -- Cabletron Systems reserves the right to make changes in -- specification and other information contained in this document -- without prior notice. The reader should consult Cabletron Systems -- to determine whether any such changes have been made. -- -- In no event shall Cabletron Systems be liable for any incidental, -- indirect, special, or consequential damages whatsoever (including -- but not limited to lost profits) arising out of or related to this -- document or the information contained in it, even if Cabletron -- Systems has been advised of, known, or should have known, the -- possibility of such damages. -- -- Cabletron grants vendors, end-users, and other interested parties -- a non-exclusive license to use this Specification in connection -- with the management of Cabletron products. -- Copyright August 97 Cabletron Systems -- NOTE: -- ----- -- Because rrev2-mib.txt, currently contains both "optional" and -- "mandatory" objects, intermixed within groups, and several -- Cabletron products utilizing this MIB have supported different -- subsets of these "optional" objects, this MIB cannot be 'fixed' -- without 'breaking' one or more product implementation. -- To get this MIB to compile with SMIC, you must use the /5 -- command line option. This tells the compiler to allow the -- value of "optional" for STATUS. MOSY doesn't complain. IMPORTS Counter, NetworkAddress FROM RFC1155-SMI commonRev1, sysChassis, sysRepeaters, repeaterRev1, repeaterRev2, product, subSysMMAC FROM IRM-OIDS OBJECT-TYPE FROM RFC-1212; -- Common MIB Structure -- --------------------- -- -- The Common MIB is a group of objects that are common to -- all communications devices. This section will describe these -- objects. -- -- Instance Identifiers for Common objects -- ---------------------------------------- -- -- There is only one instance of an Common object in any -- device. Thus the Instance Identifier is 0. deviceType OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This object defines the board type for the Management board in the device. (eg. IRBM, IRM). See appendix A for values." ::= { commonRev1 1 } deviceName OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-write STATUS mandatory DESCRIPTION "An ASCII name of the device that this agent manages." ::= { commonRev1 2 } deviceIPAddress OBJECT-TYPE SYNTAX NetworkAddress ACCESS read-write STATUS mandatory DESCRIPTION "The Internet address of this device. Write access is granted only if SuperUser access is used." ::= { commonRev1 3 } currentTime OBJECT-TYPE SYNTAX OCTET STRING (SIZE(7)) ACCESS read-write STATUS optional DESCRIPTION "The current time of day as measured by the device in HHMMSS format." ::= { commonRev1 4 } currentDate OBJECT-TYPE SYNTAX OCTET STRING (SIZE(8)) ACCESS read-write STATUS optional DESCRIPTION "The current date as measured by the device in MMDDYYYY format." ::= { commonRev1 5 } mACAddress OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS mandatory DESCRIPTION "The MAC (Ethernet) address of the MMAC. This can also be obtained from address translation MIB." ::= { commonRev1 6 } -- SysOIDs definitions -- -- This section defines the values returned by the System OID -- in the Internet MIB. These are NOT objects in the MIB but -- come from the OID tree assigned to Cabletron. -- -- -- Formal Definitions soidIRMSNMP OBJECT IDENTIFIER ::= { sysChassis 1 } soidIRBM OBJECT IDENTIFIER ::= { sysChassis 2 } soidIRM2 OBJECT IDENTIFIER ::= { sysChassis 3 } soidMINIMMAC OBJECT IDENTIFIER ::= { sysRepeaters 1 } soidMRXI OBJECT IDENTIFIER ::= { sysRepeaters 2 } -- Formal definitions for RepeaterRev1 device OBJECT IDENTIFIER ::= { repeaterRev1 1 } board OBJECT IDENTIFIER ::= { repeaterRev1 2 } port OBJECT IDENTIFIER ::= { repeaterRev1 3 } sourceAddr OBJECT IDENTIFIER ::= { repeaterRev1 7 } redundancy OBJECT IDENTIFIER ::= { repeaterRev1 8 } alarm OBJECT IDENTIFIER ::= { repeaterRev1 9 } -- device Object Definitions -- -- This section defines the objects under the Device node. -- -- Instance Identifiers for device objects -- -- Again there is only one instance of an device object in -- any device. Thus the Instance Identifier is 0. -- -- device Objects deviceMMACType OBJECT-TYPE SYNTAX INTEGER { -- mMAC8(0), Non shunting mMAC3(1), -- Non shunting mMAC5(2), -- Non shunting minimmac(3), mrxi1(4), mrxi2(5), mMACm8Shunt(6), -- Shunting mMACm3Shunt(7), -- Shunting mMACm5Shunt(8), -- Shunting mMAC8FNBShunt(9), mMAC3FNBShunt(10), mMAC5FNBShunt(11), mMACm8FNB(12) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates the type of MMAC." ::= { device 2 } deviceSlots OBJECT-TYPE SYNTAX INTEGER { mMAC8(8), mMAC3(3), -- 3 will also be returned for the miniMMAC, MRXI, and MRXI2 mMAC5(5) } ACCESS read-only STATUS mandatory DESCRIPTION "Number of available slots in this device including the IRM slot." ::= { device 3 } deviceOccupiedSlots OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The slots that contain MIM boards. This field is bit encoded (eg. If a bit is set then that board is present. For example, a value of 3 indicates that there are boards in the IRM slot and the first MIM slot." ::= { device 4 } devicePortsOn OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "A read will return the number of adminstratively ON ports for the device. A write of a 1 will administratively enable all the ports on the device, except for redundant ports." ::= { device 5 } deviceTotalPorts OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total number of ports in the MMAC." ::= { device 6 } deviceTotalPkts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of packets detected on all ports of this device." ::= { device 7 } deviceTotalErrors OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS optional DESCRIPTION "The sum of all alignment, CRC, out-of-window collisions, runt, and giant errors detected by this device." ::= { device 8 } deviceTransmitColls OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS optional DESCRIPTION "The number of transmit collisions detected by this device." ::= { device 9 } deviceRecColls OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS optional DESCRIPTION "The number of receive collsions detected by this device." ::= { device 10 } deviceAligns OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS optional DESCRIPTION "The number of packets with alignment errors detected by this device." ::= { device 11 } deviceCRCs OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS optional DESCRIPTION "The number of packets with bad CRC detected by this device." ::= { device 12 } deviceRunts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS optional DESCRIPTION "The number of runt frames detected by this device." ::= { device 13 } deviceOOWColls OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS optional DESCRIPTION "The number of out-of-window collisions detected by this device." ::= { device 14 } deviceNoResources OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS optional DESCRIPTION "The number of no resource condtions detected by this device." ::= { device 15 } deviceRecBytes OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS optional DESCRIPTION "The number of bytes detected on the network by this device." ::= { device 16 } deviceGiantFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS optional DESCRIPTION "The number of longer than 1518 byte packets detected by this device." ::= { device 17 } deviceRestart OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "A read will return 0. A set of 0 will restart the device." ::= { device 18 } deviceResetCounters OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "A read will return 0. A set of 0 will reset all the counters for the device, boards and ports." ::= { device 19 } deviceRedundantCts OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "The number of redundant circuits available for use." ::= { device 20 } deviceTimeBase OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS optional DESCRIPTION "The number of seconds used as the interval for performing all of the rate alarm checks. The minimum is 10 secs. There isn't a maximum." DEFVAL { 10 } ::= { device 24 } deviceResetRedundancy OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS optional DESCRIPTION "A read will return 0. A set of a 1 will reset redundancy for the entire box." ::= { device 25 } deviceSrcAddrAgingTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS optional DESCRIPTION "The number of minutes that a source address is not detected before it is removed from the source address table. The minimum is 1 minute and the maximum is 1440 minutes (max minutes in a day)." DEFVAL { 60 } ::= { device 26 } deviceSrcAddrTraps OBJECT-TYPE SYNTAX INTEGER { trapsoff(1), trapson(2) } ACCESS read-write STATUS optional DESCRIPTION "Controls sending of source address related traps." DEFVAL { trapson } ::= { device 27 } deviceSrcAddrLocked OBJECT-TYPE SYNTAX INTEGER { lockoff(1), lockon(2) } ACCESS read-write STATUS optional DESCRIPTION "A set of 2 will disable all ports that support link status but do not have link active, or is segmented. The first source address seen on each of the remaining enabled ports, that have the type of station, will be the only address allowed through that port. If any other address is seen the port will be disabled." DEFVAL { lockoff } ::= { device 28 } deviceEnetBoardMap OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The slots that contain Ethernet MIM boards. This field is bit encoded (e.g. If a bit is set then that board is present and is an Ethernet MIM.) For example, a value of 3 indicates that there are boards in the IRM slot and the first MIM slot and that these boards are Ethernet MIMs." ::= { device 29 } deviceTokenRingBoardMap OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The slots that contain Token Ring MIM boards. This field is bit encoded (e.g. If a bit is set then that board is present and is a Token Ring MIM.) For example, a value of 2 indicates that there is a board in the first slot and it is a Token Ring board." ::= { device 30 } deviceFDDIBoardMap OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The slots that contain FDDI MIM boards. This field is bit encoded (e.g. If a bit is set then that board is present and is a FDDI MIM.) For example, a value of 2 indicates that there is a board in the first slot and it is a FDDI board." ::= { device 31 } deviceRestoreDefaults OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS optional DESCRIPTION "A get will return 0. A set of 0 will restore all of battery backed RAM to factory defaults, with the execption of the IP address, the community table and the modem baud rate." ::= { device 32 } deviceActiveUsers OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "The number of active users seen on this device." ::= { device 33 } deviceBroadPkts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS optional DESCRIPTION "The sum of all of the broadcast packets detected on all ports of this device." ::= { device 48 } deviceMultPkts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS optional DESCRIPTION "The sum of all of the multicast packets detected on all ports of this device." ::= { device 49 } deviceThdPartyOccupiedSlots OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "The slots that contain Third Party MIM boards. This field is bit encoded (eg. if a bit is set then that board is present and is a Third Party MIM.) For example, a value of 4 indicates that there is a board in the third MIM slot (slot 4) and that this board is a Third Party MIM." ::= { device 51 } deviceImimOccupiedSlots OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "The slots that contain IMIM boards. This field is bit encoded (eg. if a bit is set then that board is present and is an IMIM). For example, a value of 4 indicates that there is a board in the third MIM slot (slot 4) and that this board is an IMIM." ::= { device 52 } deviceLinkTraps OBJECT-TYPE SYNTAX INTEGER { trapsoff(1), trapson(2) } ACCESS read-write STATUS optional DESCRIPTION "Controls sending of link related traps." DEFVAL { trapson } ::= { device 54 } deviceSegTraps OBJECT-TYPE SYNTAX INTEGER { trapsoff(1), trapson(2) } ACCESS read-write STATUS optional DESCRIPTION "Controls sending of seg related traps." DEFVAL { trapson } ::= { device 55 } ctIPDefaultFrameType OBJECT-TYPE SYNTAX INTEGER { ethernet(1), snap8022(2) } ACCESS read-write STATUS mandatory DESCRIPTION "Defines the default frame type that will be used by the device. A device will understand both frame types and will respond based upon the framing type that is learned for the given address. This object defines the type of framing that will be used if no framing is known, for example ARP requests. Setting a value of 8022snap(2) will result in framing 802.3 - 802.2 - IP packets being generated by default. Setting a value of ethernet(1) will result in framing ethernet IP packets by default." DEFVAL { ethernet } ::= { device 56 } -- sourceAddr object definitions implementation of this group is -- optional -- -- The sourceAddr object section contains objects that can -- be accessed by source address. -- -- Instance Identifier for sourceAddr objects -- -- The instance identifier for these variables is the -- source address the user is interested in. Each octet of the -- source address forms a term in the instance identifier (see -- below) sourceAddrBoard OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The board number of the port that the supplied source address has been seen on." ::= { sourceAddr 1 } sourceAddrPort OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The port number of the port that the supplied source address has been seen on." ::= { sourceAddr 2 } -- redundancy Object Definitions implementation of this group is -- optional -- -- This section defines the objects that are associated -- with cable level redundancy. The concepts for this are -- described in other documentation. It should be noted here -- that the port specific objects for redundancy can be found -- in the PORT section of the MIB. -- The maximum number of redundant circuits can be found in the -- DEVICE section of the MIB. -- -- Instance Identifiers for redundancy Objects -- -- There are two types of instance identifiers for -- redundancy objects. First, are the global objects that apply -- to all redundant circuits. These have an instance identifier -- of 0. The second kind of object is circuit specific, the -- instance identifier for these is the circuit number. redundancyPollInterval OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The number of seconds between polls for redundancy. The minimum is 0 and the maximum is 99." DEFVAL { 3 } ::= { redundancy 1 } redundancyTestTod OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-write STATUS mandatory DESCRIPTION "The time of day at which the redundant circuits should be tested." -- DEFVAL { "10000" } (1am) ::= { redundancy 2 } redundancyPerformTest OBJECT-TYPE SYNTAX INTEGER { performTest(1) } ACCESS read-write STATUS mandatory DESCRIPTION "A read will return a 0. A set of a 1 will test the redundant circuits now." ::= { redundancy 3 } redundancyCircuitName OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-write STATUS mandatory DESCRIPTION "The name of the indicated circuit." -- DEFVAL { "Circuit #" } ::= { redundancy 4 } redundancyRetryCount OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The number of unanswered polls allowed for the indicated circuit before the current connection is declared bad. The minimum is 0 the maximum is 16." DEFVAL { 0 } ::= { redundancy 5 } redundancyNumBPs OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of board/port combinations associated with the indicated circuit." ::= { redundancy 6 } redundancyCircuitBoards OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The boards associated with the indicated circuit, accessed by index. Note: The instance identifier for this object is the circuit number followed by an index. The index has no other meaning than to be used as an index for the purposes of the GET NEXT operation." ::= { redundancy 7 } redundancyCircuitPort OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The ports associated with the indicated circuit, accessed by index. Note: The instance identifier for this object is the circuit number followed by an index. The index has no other meaning than to be used as an index for the purposes of the GET NEXT operation." ::= { redundancy 8 } redundancyCircuitTypes OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The type of each port associated with the indicated circuit, accessed by index. Note: The instance identifier for this object is the circuit number followed by an index. The index has no other meaning than to be used as an index for the purposes of the GET NEXT operation." ::= { redundancy 9 } redundancyCircuitNumAddr OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of addresses associated with the indicated circuit." ::= { redundancy 10 } redundancyCircuitMACAddrAdd OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-write STATUS mandatory DESCRIPTION "A get will return a null string. A set adds an ethernet address to the polling list for the indicated circuit." ::= { redundancy 11 } redundancyCircuitMACAddrDel OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-write STATUS mandatory DESCRIPTION "A get will return a null string. A set deletes an ethernet address from the polling list for the indicated circuit." ::= { redundancy 12 } redundancyCircuitMACAddrDisp OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS mandatory DESCRIPTION "The ethernet addresses associated with the indicated circuit, accessed by index. Note: The instance identifier for this object is the circuit number followed by an index. The index has no other meaning than to be used as an index for the purposes of the GET NEXT operation." ::= { redundancy 13 } redundancyCircuitEnable OBJECT-TYPE SYNTAX INTEGER { disable (1), enable(2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enables and disables the indicated circuit." DEFVAL { disable } ::= { redundancy 14 } redundancyCircuitReset OBJECT-TYPE SYNTAX INTEGER { reset(1) } ACCESS read-write STATUS mandatory DESCRIPTION "A get will return 0. A set of 1 will reset the indicated circuit, return all of the associated board and ports to NOT-USED, remove associated addresses from the polling list, reset the circuit name and retry count to default values." ::= { redundancy 15 } -- alarm Object definitions -- -- This section defines the objects that can cause alarms -- to be generated. All of the alarm objects presented are -- objects that derive there values from other parts of the MIB -- and hence the structure of this section of the MIB mirrors -- the sections that generate the raw data. -- -- For each section there are 3 sources of alarms:Traffic -- levels, collsion rates (as they relate to traffic), and -- error rates (also related to traffic). All alarms are -- qualified by the Devicetimebase (ie. the rates are measured -- for a particular length of time). -- -- Formal defintions for the structure below alarm devAlrm OBJECT IDENTIFIER ::= { alarm 1 } bdAlrm OBJECT IDENTIFIER ::= { alarm 2 } portAlrm OBJECT IDENTIFIER ::= { alarm 3 } -- devAlrm object defintions -- -- This section defines the objects that will control -- alarms associated with the device. -- -- devAlrm Instance Identifiers -- There is only one set of device level alarms per MMAC -- thus the instance identifiers for DevAlrm objects is 0. -- -- Formal defintions below devAlrm devTraffic OBJECT IDENTIFIER ::= { devAlrm 1 } devColls OBJECT IDENTIFIER ::= { devAlrm 2 } devError OBJECT IDENTIFIER ::= { devAlrm 3 } devBroad OBJECT IDENTIFIER ::= { devAlrm 4 } -- devTraffic Object Definitions implementation of this group is -- optional -- -- This section define the devTraffic objects. These -- objects control the device level traffic alarm generation. devTrafficEnable OBJECT-TYPE SYNTAX INTEGER { disable(1), enable(2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable or disable the checking for device level traffic thresholds getting exceeded." DEFVAL { disable } ::= { devTraffic 1 } devTrafficThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The number of packets detected by the device within the device timebase that will cause a device traffic alarm trap to be sent. The minimum is 0. There isn't a maximum." DEFVAL { 1000 } ::= { devTraffic 2 } -- devColls Object Defintions implementation of this group is optional -- -- This section defines the objects that control the -- device level collision alarm. devCollsEnable OBJECT-TYPE SYNTAX INTEGER { disable(1), enable(2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable or disable the checking for device level collision thresholds getting exceeded." DEFVAL { disable } ::= { devColls 1 } devCollsThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The number of collisions per good packet detected by the device within the device timebase that will cause a device collision alarm trap to be sent. The minimum is 1, the maximum is 15." ::= { devColls 2 } -- devErrorS Object Defintions implementation of this group is -- optional -- -- This section defines the objects that control the -- device level error alarm. devErrorEnable OBJECT-TYPE SYNTAX INTEGER { disable(1), enable(2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable or disable the checking for device level error thresholds getting exceeded." DEFVAL { disable } ::= { devError 1 } devErrorThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The percentage of errors per good packet detected by the device within the device timebase that will cause a device error alarm trap to be sent. The minimum is 1, the maximum is 100." DEFVAL { 10 } ::= { devError 2 } devErrorSource OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The type of errors used for the device error alarm. The INTEGER is a bit encoded version of which errors to include in the error sum. The bits are encoded as follows: CRC_errors - Bit 0 - Least Significant Bit runts - Bit 1 OOW_colls - Bit 2 align_errs - Bit 3 No_resource - Bit 4 Giants - Bit 5" DEFVAL { 63 } ::= { devError 3 } -- devBroad Object Defintions implementation of this group is optional -- -- This section defines the objects that control the -- device level boradcast alarm. devBroadEnable OBJECT-TYPE SYNTAX INTEGER { disable(1), enable(2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable the sending of device level broadcast traps." ::= { devBroad 1 } devBroadThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The threshold of broadcast packets within the Devicetimebase that will cause a broadcast alarm." ::= { devBroad 2 } -- bdAlrm object defintions implementation of this group is optional -- -- This section defines the objects that will control -- alarms associated with the board. -- -- bdAlrm Instance Identifiers -- -- -- There is set of board level alarms per board thus the -- instance identifiers for bdAlrm objects is teh board number. -- -- Formal defintions below bdAlrm bdTraffic OBJECT IDENTIFIER ::= { bdAlrm 1 } bdColls OBJECT IDENTIFIER ::= { bdAlrm 2 } bdError OBJECT IDENTIFIER ::= { bdAlrm 3 } bdBroad OBJECT IDENTIFIER ::= { bdAlrm 4 } -- bdTraffic Object Definitions -- -- -- This section define the bdTraffic objects. These -- objects control the board level traffic alarm generation. bdTrafficEnable OBJECT-TYPE SYNTAX INTEGER { disable (1), enable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable or disable the checking for board level traffic thresholds getting exceeded." DEFVAL { disable } ::= { bdTraffic 1 } bdTrafficThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The number of packets detected by the specified board within the device timebase that will cause a board traffic alarm trap to be sent. The minimum is 0. There isn't a maximum." DEFVAL { 100 } ::= { bdTraffic 2 } bdTrafficBdDisable OBJECT-TYPE SYNTAX INTEGER { disable (1), -- do not disable board enable(2) -- Allow for disabling of board } ACCESS read-write STATUS mandatory DESCRIPTION "Permits a board to be disabled on a traffic threshold getting exceeded." DEFVAL { disable } ::= { bdTraffic 3 } -- bdColls Object Defintions -- -- This section defines the objects that control the board -- level collision alarm. bdCollsEnable OBJECT-TYPE SYNTAX INTEGER { disable (1), enable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable or disable the checking for board level collision thresholds getting exceeded." DEFVAL { disable } ::= { bdColls 1 } bdCollsThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The number of collisions per good packet detected by the specified board within the device timebase that will cause a board collision alarm trap to be sent. The minimum is 1, the maximum is 15." DEFVAL { 1 } ::= { bdColls 2 } bdCollsBdDisable OBJECT-TYPE SYNTAX INTEGER { disable (1), -- Do NOT disable board enable (2) -- Allow for disabling of board } ACCESS read-write STATUS mandatory DESCRIPTION "Permits a board to be disabled on a collision threshold getting exceeded." DEFVAL { disable } ::= { bdColls 3 } -- bdErrorS Object Defintions -- -- This section defines the objects that control the board -- level error alarm. bdErrorEnable OBJECT-TYPE SYNTAX INTEGER { disable (1), enable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable or disable the checking for board level error thresholds getting exceeded." DEFVAL { disable } ::= { bdError 1 } bdErrorThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The percentage of errors per good packet detected by the specified board within the device timebase that will cause a board error alarm trap to be sent. The minimum is 1, the maximum is 100." DEFVAL { 10 } ::= { bdError 2 } bdErrorSource OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The type of errors used for the board error alarm. The INTEGER is a bit encoded version of which errors to include in the error sum. The bits are encoded as follows: CRC_errors - Bit 0 - Least Significant Bit runts - Bit 1 OOW_colls - Bit 2 align_errs - Bit 3 No_resource - Bit 4 Giants - Bit 5" DEFVAL { 63 } ::= { bdError 3 } bdErrorBdDisable OBJECT-TYPE SYNTAX INTEGER { disable (1), -- Do NOT disable board enable (2) -- Allow for disabling of board } ACCESS read-write STATUS mandatory DESCRIPTION "Permits a board to be disabled on an error threshold getting exceeded." DEFVAL { disable } ::= { bdError 4 } -- bdBroad Object Defintions -- -- This section defines the objects that control the board -- level broadcast alarm. bdBroadEnable OBJECT-TYPE SYNTAX INTEGER { disable(1), enable(2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable the sending of board level broadcast traps for this board." ::= { bdBroad 1 } bdBroadThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The threshold of broadcast packets within the Devicetimebase that will cause a broadcast alarm." ::= { bdBroad 2 } bdBroadDisable OBJECT-TYPE SYNTAX INTEGER { disable(1), -- Do NOT disable board enable (2) -- Allow for disabling of board } ACCESS read-write STATUS mandatory DESCRIPTION "Permit a board to be disabled on a broadcast threshold alarm." ::= { bdBroad 3 } -- portAlrm object defintions -- -- This section defines the objects that will control -- alarms associated with the port. -- -- portAlrm Instance Identifiers implementation of this group is -- optional -- -- There is set of port level alarms per board thus the -- instance identifiers for portAlrm objects is the board -- number. -- -- Formal defintions below portAlrm -- portTraffic OBJECT IDENTIFIER ::= { portAlrm 1 } portColls OBJECT IDENTIFIER ::= { portAlrm 2 } portError OBJECT IDENTIFIER ::= { portAlrm 3 } portBroad OBJECT IDENTIFIER ::= { portAlrm 4 } -- portTraffic Object Definitions -- -- This section define the portTraffic objects. These -- objects control the port level traffic alarm generation. -- portTrafficEnable OBJECT-TYPE SYNTAX INTEGER { disable (1), enable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable or disable the checking for port level traffic thresholds getting exceeded." DEFVAL { disable } ::= { portTraffic 1 } portTrafficThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The number of packets detected by the specified port within the device timebase that will cause a port traffic alarm trap to be sent. The minimum is 0. There isn't a maximum." DEFVAL { 100 } ::= { portTraffic 2 } portTrafficPortDisable OBJECT-TYPE SYNTAX INTEGER { disable (1), -- Do NOT disable port enable (2) -- Allow for disabling of port } ACCESS read-write STATUS mandatory DESCRIPTION "Permits a port to be disabled on a traffic threshold getting exceeded." DEFVAL { disable } ::= { portTraffic 3 } -- portColls Object Defintions -- -- This section defines the objects that control the port -- level collision alarm. -- portCollsEnable OBJECT-TYPE SYNTAX INTEGER { disable (1), enable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable or disable the checking for port level collision thresholds getting exceeded." DEFVAL { disable } ::= { portColls 1 } portCollsThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The number of collisions per good packet detected by the specified port within the device timebase that will cause a port collision alarm trap to be sent. The minimum is 1, the maximum is 15." DEFVAL { 1 } ::= { portColls 2 } portCollsPortDisable OBJECT-TYPE SYNTAX INTEGER { disable (1), -- Do NOT disable port enable (2) -- Allow for disabling of port } ACCESS read-write STATUS mandatory DESCRIPTION "Permits a port to be disabled on a collision threshold getting exceeded." DEFVAL { disable } ::= { portColls 3 } -- portErrorS Object Defintions -- -- This section defines the objects that control the port -- level error alarm. portErrorEnable OBJECT-TYPE SYNTAX INTEGER { disable (1), enable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable or disable the checking for port level error thresholds getting exceeded." DEFVAL { disable } ::= { portError 1 } portErrorThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The percentage of errors per good packet detected by the specified port within the device timebase that will cause a port error alarm trap to be sent. The minimum is 1, the maximum is 100." DEFVAL { 10 } ::= { portError 2 } portErrorSource OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The type of errors used for the port error alarm. The INTEGER is a bit encoded version of which errors to include in the error sum. The bits are encoded as follows: CRC_errors - Bit 0 - Least Significant Bit runts - Bit 1 OOW_colls - Bit 2 align_errs - Bit 3 No_resource - Bit 4 Giants - Bit 5" DEFVAL { 63 } ::= { portError 3 } portErrorPortDisable OBJECT-TYPE SYNTAX INTEGER { disable (1), -- Do NOT disable port enable (2) -- Allow for disabling of port } ACCESS read-write STATUS mandatory DESCRIPTION "Permits a port to be disabled on an error threshold getting exceeded." DEFVAL { disable } ::= { portError 4 } -- portBroad Object Defintions -- -- This section defines the objects that control the port -- level broadcast alarm. portBroadEnable OBJECT-TYPE SYNTAX INTEGER { disable(1), enable(2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable the sending of port level broadcast alarms." ::= { portBroad 1 } portBroadThreshold OBJECT-TYPE SYNTAX Counter ACCESS read-write STATUS mandatory DESCRIPTION "The threshold of broadcast packets within the Devicetimebase that will cause a broadcast alarm." ::= { portBroad 2 } portBroadDisable OBJECT-TYPE SYNTAX INTEGER { disable(1), -- Do NOT disable port enable (2) -- Allow for disabling of port } ACCESS read-write STATUS mandatory DESCRIPTION "Permit a port to be disabled on a broadcast threshold alarm." ::= { portBroad 3 } -- RepeaterRev2 Formal declarations rr2device OBJECT IDENTIFIER ::= { repeaterRev2 1 } network OBJECT IDENTIFIER ::= { repeaterRev2 2 } rr2board OBJECT IDENTIFIER ::= { repeaterRev2 3 } rr2port OBJECT IDENTIFIER ::= { repeaterRev2 4 } repeaterTables OBJECT IDENTIFIER ::= { repeaterRev2 5 } commonD OBJECT IDENTIFIER ::= { rr2device 1 } ethernetD OBJECT IDENTIFIER ::= { rr2device 2 } tokenRingD OBJECT IDENTIFIER ::= { rr2device 3 } deviceTRTokenRingPortsOn OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS deprecated DESCRIPTION "The number of Token Ring Ports (i.e. station, Ring In and Ring Out ports) administratively ON for this device." ::= { tokenRingD 1 } deviceTRTotalTokenRingPorts OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS deprecated DESCRIPTION "The total number of Token Ring Ports (i.e. station, Ring In and Ring Out ports) on this device." ::= { tokenRingD 2 } deviceTRTotalTokenRingRingPortsOn OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS deprecated DESCRIPTION "The total number of Ring In and Ring Out ports (active) administratively ON for this device." ::= { tokenRingD 3 } deviceTRTotalTokenRingRingPorts OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS deprecated DESCRIPTION "The total number of Ring In and Ring Out ports on this device." ::= { tokenRingD 4 } deviceTRTotalTokenRingRings OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS deprecated DESCRIPTION "The total number of (Token Ring) rings formed on this device." ::= { tokenRingD 5 } deviceTRTotalTokenRingBoards OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS deprecated DESCRIPTION "The total number of Token Ring MIMs in the MMAC." ::= { tokenRingD 6 } deviceTRTokenRingBoardMap OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS deprecated DESCRIPTION "The slots that contain Token Ring MIM boards. This field is bit encoded (e.g. If a bit is set then that board is present and is a Token Ring MIM.) For example, a value of 2 indicates that there is a board in the first slot and it is a Token Ring board." ::= { tokenRingD 7 } -- board Object Definitions -- -- This section will describe the management objects -- associated with a board. The board variables have been broken down into -- Network type independent and Network Type Dependent variables. -- -- Formal Definitions within board commonB OBJECT IDENTIFIER ::= { rr2board 1 } ethernetB OBJECT IDENTIFIER ::= { rr2board 2 } tokenRingB OBJECT IDENTIFIER ::= { rr2board 3 } fddiB OBJECT IDENTIFIER ::= { rr2board 4 } -- -- Instance Identifiers for board s -- -- The Instance Identifiers for board objects is the -- number of the slot in the MMAC cage. The current valid range -- is from 1-8. The IRM being in slot 1. B indicates the -- instance of a board number. -- -- common board Objects boardIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The slot number of this board." ::= { commonB 1 } boardName OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-write STATUS mandatory DESCRIPTION "The name of the board. This field will only contain printable ASCII characters." ::= { commonB 2 } boardType OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The type of the MIM. (eg. FOT, TPT, etc). See appendix A for encoding." ::= { commonB 3 } boardTotalPorts OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Total number of ports supported on this board." ::= { commonB 4 } boardPortsOn OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "A read will return the number of adminstratively ON ports for the board. A write of a 2 will administratively enable all the ports on the board, except for redundant ports." ::= { commonB 6 } boardActiveUsers OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of active users seen on this board." ::= { commonB 8 } -- Ethernet board Objects implementaiton of this group is optional boardTotalPkts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of packets detected on all ports of this port." ::= { ethernetB 1 } boardTotalErrors OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The sum of all alignment, CRC, out-of-window collisions, runt, and giant errors detected by this board." ::= { ethernetB 2 } boardTransColls OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmit collisions detected by this board." ::= { ethernetB 3 } boardRecColls OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of receive collsions detected by this board." ::= { ethernetB 4 } boardAligns OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of packets with alignment errors detected by this board." ::= { ethernetB 5 } boardCRCs OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of packets with bad CRC detected by this board." ::= { ethernetB 6 } boardRunts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of runt frames detected by this board." ::= { ethernetB 7 } boardOOWColls OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of out-of-window collisions detected by this board." ::= { ethernetB 8 } boardNoResources OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of no resource condtions detected by this board." ::= { ethernetB 9 } boardRecBytes OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes detected on the network by this board." ::= { ethernetB 10 } boardGiants OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of longer than 1518 byte packets detected by this board." ::= { ethernetB 11 } boardBroadPkts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number broadcast packets detected by this board." ::= { ethernetB 26 } boardMultPkts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number multicast packets detected by this board." ::= { ethernetB 27 } -- Token Ring board Objects boardTotalRingPorts OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS deprecated DESCRIPTION "The total number of ring ports on this board. Currently, zero or two." ::= { tokenRingB 1 } boardTotalStationPorts OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS deprecated DESCRIPTION "The total number of station ports on this board." ::= { tokenRingB 2 } boardModeStatus OBJECT-TYPE SYNTAX INTEGER { management (1), auto (2) } ACCESS read-write STATUS deprecated DESCRIPTION "The board mode." ::= { tokenRingB 3 } boardTotalRingPortsOn OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS deprecated DESCRIPTION "The number of administartively ON ring ports on this board." ::= { tokenRingB 4 } boardTotalStationPortsOn OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS deprecated DESCRIPTION "The number of administartively ON station ports on this board." ::= { tokenRingB 5 } boardSpeed OBJECT-TYPE SYNTAX INTEGER { fourMhz (4), sixteenMhz (16) } ACCESS read-write STATUS deprecated DESCRIPTION "The board speed." ::= { tokenRingB 6 } boardRingSpeedFault OBJECT-TYPE SYNTAX INTEGER { noFaultDetected (1), faultDetected (2) } ACCESS read-only STATUS deprecated DESCRIPTION "Data speed of station mismatches configuration speed of board. Board is automatically bypassed." ::= { tokenRingB 7 } boardFirstRingPort OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS deprecated DESCRIPTION "The port number of the first ring port." ::= { tokenRingB 9 } -- Port Object Definitions -- -- This section will define the objects associated with -- ports. Here again the objects are deperateed into common objects and -- network type specific objects. -- -- Formal Definitions within Port commonP OBJECT IDENTIFIER ::= { rr2port 1 } ethernetP OBJECT IDENTIFIER ::= { rr2port 2 } tokenRingP OBJECT IDENTIFIER ::= { rr2port 3 } fddiP OBJECT IDENTIFIER ::= { rr2port 4 } -- -- -- Instance Identifiers for port s -- -- The instance identifiers for port objects are board# -- and port#. The format of the port identifier is thus:Board_num.Port_num or B.P portIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of this port relative to the board it is on." ::= { commonP 1 } portMediaType OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The type of the port. (eg. FOT, TPT, etc). See appendix A for values." ::= { commonP 2 } portAdminState OBJECT-TYPE SYNTAX INTEGER { off (1), on (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The administrative status of this port." ::= { commonP 3 } portSourceAddr OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "A source address that has been seen on this port." ::= { commonP 4 } portActiveUsers OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "The number of active users seen on this port." ::= { commonP 6 } -- Ethernet port Objects implementation of this group is optional portTopologyType OBJECT-TYPE SYNTAX INTEGER { station (1), trunk (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The topological type of the port. Station referring to a port that has seen 1 or 0 addresses. Trunk referring to a port that has seen more than 1 address." ::= { ethernetP 1 } portLinkStatus OBJECT-TYPE SYNTAX INTEGER { linkSignalInactive (1), linkSignalActive (2), linkSignalNotSupported (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of the link signal for this port" ::= { ethernetP 2 } portStatus OBJECT-TYPE SYNTAX INTEGER { active (1), segmented (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The hardware status of the port." ::= { ethernetP 3 } portTotalPkts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of packets detected by this port." ::= { ethernetP 4 } portTotalErrors OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The sum of all alignment, CRC, out-of-window collisions, runt, and giant errors detected by this port." ::= { ethernetP 5 } portTransmitColls OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmit collisions detected by this port." ::= { ethernetP 6 } portRecColls OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of receive collsions detected by this port." ::= { ethernetP 7 } portAligns OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of packets with alignment errors detected by this port." ::= { ethernetP 8 } portCRCs OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of packets with bad CRC detected by this port." ::= { ethernetP 9 } portRunts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of runt frames detected by this port." ::= { ethernetP 10 } portOOWColls OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of out-of-window collisions detected by this port." ::= { ethernetP 11 } portNoResources OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of no resource condtions detected by this port." ::= { ethernetP 12 } portRecBytes OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes detected on the network by this port." ::= { ethernetP 13 } portGiantFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of longer than 1518 byte packets detected by this port." ::= { ethernetP 14 } portRedundCrt OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The redundant circuit with which this port is associated." ::= { ethernetP 15 } portRedundType OBJECT-TYPE SYNTAX INTEGER { notUsed (1), primary (3), backup (4) } ACCESS read-write STATUS mandatory DESCRIPTION "The type of port this port is in the redundant circuit." ::= { ethernetP 16 } portRedundStatus OBJECT-TYPE SYNTAX INTEGER { notUsed (1), active (2), inactive (3) } ACCESS read-write STATUS mandatory DESCRIPTION "The current state of this port in the redundant circuit." ::= { ethernetP 17 } portForceTrunkType OBJECT-TYPE SYNTAX INTEGER { notForced (1), forced (2) } ACCESS read-write STATUS mandatory DESCRIPTION "This variable forces a port to be a trunk port." ::= { ethernetP 18 } portBroadPkts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The sum of broadcast packets detected on this port." ::= { ethernetP 33 } portMultPkts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The sum of multicast packets detected on this port." ::= { ethernetP 34 } -- Token Ring Port Objects -- -- Token Ring Port Objects are further broken down into station objects -- and Ring-In/Ring-Out objects. The formal defintions is: stationP OBJECT IDENTIFIER ::= { tokenRingP 1 } ringP OBJECT IDENTIFIER ::= { tokenRingP 2 } stationPortLinkStatus OBJECT-TYPE SYNTAX INTEGER { linkSignalInactive (1), linkSignalActive (2) } ACCESS read-only STATUS deprecated DESCRIPTION "When station is supplying phantom current the Link Signal is active. When there is no phantom current the Link Signal is inactive." ::= { stationP 1 } stationPortLinkStateTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS deprecated DESCRIPTION "The amount of time (in seconds) elapsed since the station port last changed state. A write of 0 will reset the elapsed time." ::= { stationP 2 } -- Product specific Objects implementation of this group is optional -- -- For each of the individual repeaters/bridges there are -- several objects that particular to that product. below is a -- description of these objects. -- -- Formal description of Product specfics productRev1 OBJECT IDENTIFIER ::= { product 1 } target OBJECT IDENTIFIER ::= { productRev1 1 } -- target specific Objects -- These objects are particular to the target. targetRevision OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The revision of the target board." ::= { target 1 } targetPortAssociation OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Controls how the front panel ports are associated with the bridge or the repeater. The valid values are: Value AUI Port Fiber Port 0 Bridge Redundant 1 Redundant Bridge 2 Bridge Repeater 3 Repeater Bridge 4 Redundant Repeater 5 Repeater Redundant Note: only values 0 and 1 are valid for rev 2 boards and before. Note: only values 4 and 5 are valid for the IRM2." ::= { target 2 } fnb OBJECT IDENTIFIER ::= { subSysMMAC 1 } fnbConnectedLeft OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The Connected Left board (board n + 1) has the following states: Detached == 1 (Management (only management) detached, read/write). Attached == 2 (Management/AutoMode attached, read/write). Faulted == 3 (Management/AutoMode tried to attach but failed read ONLY)." ::= { fnb 1 } fnbConnectedRight OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The Connected Right board (board n - 1) has the following states: Detached == 1 (Management (only management) detached, read/write). Attached == 2 (Management/AutoMode attached, read/write). Faulted == 3 (Management/AutoMode tried to attach but failed read ONLY)." ::= { fnb 2 } fnbBoardBypassState OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Off == 1 (NOT bypassed). On == 2 (bypassed)." ::= { fnb 3 } -- MMAC Objects audibleAlarm OBJECT IDENTIFIER ::= { subSysMMAC 2 } audibleAlarmEnable OBJECT-TYPE SYNTAX INTEGER{ disable (1), enable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Allows/disallows the audible alarm to be sounded when a situation occurs that the alarm should be sounded." ::= { audibleAlarm 1 } audibleAlarmOff OBJECT-TYPE SYNTAX INTEGER{ off (1), on (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Turn off a sounding alarm. A read will tell you if the alarm is on or not. A write will stop a sounding alarm." ::= { audibleAlarm 2 } -- TrapTypes -- This section will describe the trap types that the -- repeater section of the IRBM/IRM2 can generate. These are not -- objects, but Object identifers used to indicate the specfic -- trap. They are taken from the object space and are thus -- documented here. -- The SNMP protocol provides a mechanism for -- asynchronusly notifying management stations of significant -- changes in the network. This mechanism is the SNMP trap -- message. This document will describe the general format for -- all trap messages that Cabletron products will generate as -- well as the specific traps that the will be generated by the -- IRBM. -- Trap Formats -- The SNMP trap messages are composed of two user -- definable areas: the specific trap type and the VarBindings -- (eg. the interesting information). The specific trap type is -- an INTEGER that is used to determine the specific trap that -- has occurred. The "interesting information" contains a group -- of objects identifiers (OID) and their values that provide -- information about the trap. -- Trap Description -- PortSegmenting -- Specfic Trap Type Code - 0x101 -- When a port goes from operational to segmented, a trap -- will be generated. For these purposes, the port state will -- be sampled every XXX seconds, thus it will be statistically -- possible to miss oscillating circuits. -- The interesting information will include: -- BoardIndex {CommonB 1} -- PortIndex {CommonP 1} -- Trap Description -- PortUnsegementing -- Specfic Trap Type Code - 0x102 -- When it is detected that a previously segmented port -- has gone operational, a trap will be generated. This is -- also sampled, thus a trap may not be generated for each -- transition. -- The interesting information will include: -- BoardIndex {CommonB 1} -- PortIndex {CommonP 1} -- Trap Description -- PortLinkUp -- Specfic Trap Type Code - 0x103 -- This trap will be generated when it is determined that -- MAU has been attached to the MMAC. This is only appropriate -- for MIMs that support the concept of a link state. -- The interesting information will include: -- BoardIndex {CommonB 1} -- PortIndex {CommonP 1} -- Trap Description -- PortLinkDown -- Specfic Trap Type Code - 0x104 -- This trap will be generated when a previously attached -- MAU is removed or powered down. Again, this is only -- appropriate for MIM's that support link state. -- The interesting information will include: -- BoardIndex {CommonB 1} -- PortIndex {CommonP 1} -- Trap Description -- NewSourceAddress -- Specfic Trap Type Code - 0x105 -- This trap will be generated when the MMAC detects the -- existence of a new source address on one of it's ports. -- The interesting information will include: -- BoardIndex {CommonB 1} -- PortIndex {CommonP 1} -- PortSourceAddr {CommonP 4} -- Trap Description -- SourceAddressTimeout -- Specfic Trap Type Code - 0x106 -- This trap will indicate that the MMAC has not detected -- a packet generated by this source address within a certain -- timeout. -- The interesting information will include: -- BoardIndex {CommonB 1} -- PortIndex {CommonP 1} -- PortSourceAddr {CommonP 4} -- Trap Description -- BoardRemoval -- Specfic Trap Type Code - 0x107 -- This trap will be generated when the MMAC detects that -- MIM has been removed. -- The interesting information will include: -- BoardIndex {CommonB 1} -- Trap Description -- BoardInsertion -- Specfic Trap Type Code - 0x108 -- This trap will be generated when the MMAC determines -- that a new board has been inserted. -- The interesting information will include: -- BoardIndex {CommonB 1} -- BoardType {CommonB 3} -- Trap Description -- ActivePortInRedundantCircuitFailed -- Specfic Trap Type Code - 0x109 -- This trap will be generated when the active port in a -- redundant circuit has failed polling. This will indicate the -- activation of redundancy. -- The interesting information will include: -- BoardIndex {CommonB 1} -- PortIndex {CommonP 1} -- PortRedundCrt {EthernetP 15} -- Trap Description -- RedundantPortActivated -- Specfic Trap Type Code - 0x10a -- This trap indicates that a new port has been activated -- in a redundant circuit. This does NOT indicate that this -- port is usable, but is being tested. If the port fails the -- above trap will be generated. -- The interesting information will include: -- BoardIndex {CommonB 1} -- PortIndex {CommonP 1} -- PortRedundCrt {EthernetP 15} -- Trap Description -- RedundantPortTestFailed -- Specfic Trap Type Code - 0x10b -- This trap will be generated when the MMAC executes it's -- periodic redundancy diagnostics and finds one of the ports in -- a redundant circuit has failed. This message will not -- indicate that redundancy has been activated, just that the -- port has failed and should be fixed before it is needed. -- The interesting information will include: -- BoardIndex {CommonB 1} -- PortIndex {CommonP 1} -- PortRedundCrt {EthernetP 15} -- Trap Description -- deviceTrafficThresholdExceeded -- Specfic Trap Type Code - 0x10c -- This trap will be generated when the traffic (good -- packets per time interval) has been exceed for the entire -- MMAC. -- The interesting information will include: -- DevTrafficThreshold {DevTraffic 2} -- DeviceTimebase {Device 24} -- Trap Description -- deviceErrorThresholdExceeded -- Specfic Trap Type Code - 0x10d -- This trap will be generated when packets of the -- selected error type exceeds a threshold percentage of the -- good packets for a particular interval for the entire MMAC. -- The interesting information will include: -- DevErrorThreshold {DevError 2} -- DevErrorSource {DevError 3} -- DeviceTimebase {Device 24} -- Trap Description -- deviceCollsionThresholdExceeded -- Specfic Trap Type Code - 0x10e -- This trap will be generated when collsions exceed a -- threshold percentage of the good packets for a particular -- interval for the entire MMAC. -- The interesting information will include: -- DevCollsThreshold {DevColls 2} -- DeviceTimebase {Device 24} -- -- Trap Description -- BoardTrafficThresholdExceeded -- Specfic Trap Type Code - 0x10f -- This trap will be generated when the traffic (good -- packets per time interval) has been exceed for a particular -- MIM. -- The interesting information will include: -- DevTrafficThreshold {DevTraffic 2} -- DeviceTimebase {Device 24} -- BoardIndex {CommonB 1} -- Trap Description -- BoardErrorThresholdExceeded -- Specfic Trap Type Code - 0x110 -- This trap will be generated when packets of the -- selected error type exceeds a threshold percentage of the -- good packets for a particular interval for a particular MIM. -- This will most likely indicate a bad MIM. -- The interesting information will include: -- DevErrorThreshold {DevError 2} -- DevErrorSource {DevError 3} -- DeviceTimebase {Device 24} -- BoardIndex {CommonB 1} -- Trap Description -- BoardCollisionThresholdExceeded -- Specfic Trap Type Code - 0x111 -- This trap will be generated when collisions exceed a -- threshold percentage of the good packets for a particular -- interval for a particular MIM. -- The interesting information will include: -- DevCollsThreshold {DevColls 2} -- DeviceTimebase {Device 24} -- BoardIndex {CommonB 1} -- Trap Description -- PortTrafficThresholdExceeded -- Specfic Trap Type Code - 0x112 -- This trap will be generated when the traffic (good -- packets per time interval) has been exceed for a particular -- port. -- The interesting information will include: -- DevTrafficThreshold {DevTraffic 2} -- DeviceTimebase {Device 24} -- BoardIndex {CommonB 1} -- PortIndex {CommonP 1} -- Trap Description -- PortErrorThresholdExceeded -- Specfic Trap Type Code - 0x113 -- This trap will be generated when packets of the -- selected error type exceeds a threshold percentage of the -- good packets for a particular interval for a particular -- port. -- The interesting information will include: -- DevErrorThreshold {DevError 2} -- DevErrorSource {DevError 3} -- DeviceTimebase {Device 24} -- BoardIndex {CommonB 1} -- PortIndex {CommonP 1} -- Trap Description -- PortCollisionThresholdExceeded -- Specfic Trap Type Code - 0x114 -- This trap will be generated when collisions exceed a -- threshold percentage of the good packets for a particular -- interval for a particular port. -- The interesting information will include: -- DevCollsThreshold {DevColls 2} -- DeviceTimebase {Device 24} -- BoardIndex {CommonB 1} -- PortIndex {CommonP 1} -- Trap Description -- PortTypeChanged -- Specfic Trap Type Code - 0x115 -- This trap indicates that a port has changed from a -- station port to a link port or vice versa. -- The interesting information is: -- BoardIndex {CommonB 1} -- PortIndex {CommonP 1} -- PortTopologyType {EthernetP 1} -- Trap Description -- LockSTATUSChanged -- Specfic Trap Type Code - 0x116 -- This trap is generated when the status of the address lock -- changes. -- The interesting information is: -- DeviceSrcAddrLocked {Device 28} -- Trap Description -- PortSecurityViolation -- Specfic Trap Type Code - 0x117 -- This trap is generated when a source address other than those -- locked to a port is seen. -- The interesting information is: -- BoardIndex {CommonB 1} -- PortIndex {CommonP 1} -- PortSourceAddr {CommonP 4} -- Trap Description -- PortViolationReset -- Specfic Trap Type Code - 0x118 -- This trap is generated when management intervention has -- reset a port after a violation has occured. -- The interesting information is: -- BoardIndex {CommonB 1} -- PortIndex {CommonP 1} -- Trap Description -- EnvTempWarm -- Specfic Trap Type Code - 0x119 -- This trap is generated when the device detects that the temperature -- within a MIM has reached a WARM condition. -- The interesting information is: -- BoardIndex {CommonB 1} -- Trap Description -- EnvTempHot -- Specfic Trap Type Code - 0x11A -- This trap is generated when the device detects that the temperature -- within a MIM has reached a HOT condition. -- The interesting information is: -- BoardIndex {CommonB 1} -- Trap Description -- EnvTempNormal -- Specfic Trap Type Code - 0x11C -- This trap is generated when the device detects that the temperature -- within a MIM has returned to a NORMAL state. -- The interesting information is: -- BoardIndex {CommonB 1} -- Trap Description -- EnvVoltageLow -- Specfic Trap Type Code - 0x11B -- This trap is generated when a power supply`s voltage is LOW. -- The interesting information is: -- PowerSupplyLowVoltage {Environment 1} -- Trap Description -- EnvVoltageNormal -- Specfic Trap Type Code - 0x11D -- This trap is generated when all power supply`s voltage -- have returned to a NORMAL state. -- The interesting information is: -- None -- Trap Description -- FanFail -- Specfic Trap Type Code - 0x11E -- This trap is generated when the device detects that the system fans -- have failed. -- The interesting information is: -- None -- Trap Description -- FanNormal -- Specfic Trap Type Code - 0x11F -- This trap is generated when the device detects that the system fans -- have returned to normal. -- The interesting information is: -- None -- DeviceBroadcastThresholdExceeded -- Specfic Trap Type Code - 0x120 -- This trap will be generated when the broadcast(per timer interval) -- have exceeded the threshold for the entire MMAC. The interesting -- information is: -- DevBroadThreshold {DevBroad 2} -- DevTimeBase {Device 24} -- BoardBroadcastThresholdExceeded -- Specfic Trap Type Code - 0x121 -- This trap will be generated when the broadcast(per timer interval) -- have exceeded the threshold for the given board. The interesting -- information is: -- BdBroadThreshold {BdBroad 2} -- DevTimeBase {Device 24} -- BoardIndex {CommonB 1} -- PortBroadcastThresholdExceeded -- Specfic Trap Type Code - 0x122 -- This trap will be generated when the broadcast(per timer interval) -- have exceeded the threshold for the given port. The interesting -- information is: -- BdBroadThreshold {BdBroad 2} -- DevTimeBase {Device 24} -- BoardIndex {CommonB 1} -- PortIndex {CommonP 1} -- Appendix A - Media type values -- -- Board Type Value -- -- Management Modules -- IRM-2 0xB0 -- IRBM 0xB1 -- IRM-3 0xB2 -- TRMBM-R 0xB4 -- TRMBM-S 0xB5 -- EFDMIM 0xB6 -- ETBMIM 0xB7 -- TRBMIM 0xB8 -- ETWMIM 0xBD -- TRMM 0xBB -- MiniMMAC 0x10010 -device type -- MRXI 0x10020 -device type -- MRXI-2 0x10030 -device type -- MRXI 0x30043 -board 1 type -- MRXI-2 0x30042 -board 1 type -- MRXI-28 0x300A0 -- -- -- Mim Types -- -- THNMIM 0x10 or 0x50 -- MT8MIM 0xA0 -- FOTMIM (6 ) 0xE0 -- FOTMIM (12) 0xC0 -- TPTMIM 0xD0 -- TPMIM-T 0x42 -- TPMIM-T1 0x41 -- TPMIM-T3 0x43 -- TPMIM-24 0x60 -- TPMIM-22 0x61 -- TPMIM-34 0x62 -- TPMIM-32 0x63 -- FOMIM-18 0x90 -- FOMIM-12 0x92 -- FOMIM-16 0x93 -- FOMIM-28 0x94 -- FOMIM-22 0x96 -- FOMIM-26 0x97 -- FOMIM-38 0x98 -- FOMIM-32 0x9A -- FOMIM-36 0x9B -- TPRMIM-36 0x70 -- TPRMIM-33 0x71 -- CXRMIM 0x72 -- FORMIM-22 0x73 -- TPRMIM-20 0x74 -- TPRMIM-22 0x75 -- TRMIM-12 0x30 -- TRMIM-10R 0x31 -- TRMIM-22P 0x32 -- TRMIM-20PR 0x33 -- TRRMIM-16 0x34 -- TRRMIM-26 0x35 -- TRMIM-24A 0x36 -- TRMIM-22A 0x37 -- FTRMIM-22 0x39 -- FTRMIM-26 0x3B -- TRMIM-34A 0x3C -- TRMIM-32A 0x3D -- TRMIM-44A 0x3E -- TRMIM-42A 0x3F -- TRRMIM-A 0x3A -- TRRMIM-2A 0x3A -- TRRMIM-4A 0x3A -- TRMIM-2AR 0x38 -- TRMIM-4AR 0x38 -- FDMMIM-00 0x23 -- FDMMIM-04 0x22 -- FDMMIM-16 0x21 -- FDMMIM-26 0x20 -- FDMMIM-00S 0x27 -- FDMMIM-04S 0x26 -- FDMMIM-16S 0x25 -- FDMMIM-26S 0x24 -- FDCMIM-04 0x2B -- FDCMIM-08 0x2A -- FDCMIM-16 0x2F -- FDCMIM-12 0x2D -- FDCMIM-26 0x2C -- FDCMIM-22 0x28 -- Third party Mims -- Xyplex 16 port terminal server. ETSMIM 0002 -- DNSMIM Silicon Graphics 0003 -- CAYMAN Appletalk to Ethernet Router. GATORMIM CS 0004 -- NOVELL LANTERN ethernet SNMP Monitor. LANTERMIM 0005 -- CISCO Ethernet to Ethernet Router Mim. CRM-L 0006 -- CISCO Ethernet to WAN Router Mim. CRM-S 0007 -- Cayman 1 GATOR STAR GX.M 0008 -- XYLOGIC Terminal Server 16 ports 010C00 -- XYLOGIC Terminal Server 32 ports 010C01 -- SNACMIM SYNC Research F0 thru FE -- Multi-Port Interfaces Modules -- MPIM-X 0x10000 -- MPIM-A 0x10001 -- MPIM-C 0x10002 -- MPIM-T 0x10003 -- MPIM-F2 0x10004 -- MPIM-F1 0x10005 -- MPIM-T1 0x10006 -- MPIM-B 0x10007 - BLANK -- Single-Port Interface Modules -- -- SPIM-A 0x20001 -- SPIM-C 0x20002 -- SPIM-T 0x20003 -- SPIM-F2 0x20004 -- SPIM-F1 0x20005 -- SPIM-T1 0x20006 -- SPIM-B 0x20007 - BLANK -- Ethernet-Port Interface Modules -- -- EPIM-B 0x30000 - BLANK -- EPIM-A 0x30001 -- EPIM-C 0x30002 -- EPIM-T 0x30003 -- EPIM-F2 0x30004 -- EPIM-F1 0x30005 -- EPIM-F3 0x30007 -- EPIM-X 0x30008 END