LBHUB-BOOM-MIB

File: LBHUB-BOOM-MIB.mib (322235 bytes)

Imported modules

RFC1155-SMI RFC-1212 RFC-1215
MAU-MIB RFC1213-MIB

Imported symbols

mgmt NetworkAddress IpAddress
Counter Gauge TimeTicks
enterprises OBJECT-TYPE TRAP-TYPE
rpMauMediaAvailable rptrPortAutoPartitionState DisplayString
PhysAddress

Defined Types

DisplayString  
OCTET STRING    

PhysAddress  
OCTET STRING    

VmMonFaultEntry  
SEQUENCE    
  vmMonFaultIndex INTEGER
  vmMonFaultErrorNumber INTEGER
  vmMonFaultTimeStamp TimeTicks
  vmMonFaultRestartCount INTEGER

VmConfigGroupEntry  
SEQUENCE    
  vmConGroupIndex INTEGER
  vmConGroupPortMask INTEGER

VmConfigPortEntry  
SEQUENCE    
  vmConPortGroupIndex INTEGER
  vmConPortIndex INTEGER
  vmConPortSquelch INTEGER
  vmConPortLinkPulse INTEGER
  vmConPortXoverSwitchState INTEGER
  vmConPortType INTEGER

VmConfigMediaEntry  
SEQUENCE    
  vmConMediaIndex INTEGER
  vmConMediaModuleRevNo INTEGER
  vmConMediaModuleCardType INTEGER

VmMacMonitorEntry  
SEQUENCE    
  vmMacMonitorIndex INTEGER
  vmMacMonitorMissErrors Counter
  vmMacMonitorBabbleErrors Counter
  vmMacMonitorMemoryErrors Counter
  vmMacMonitorFCSErrors Counter
  vmMacMonitorOverflowErrors Counter
  vmMacMonitorFramingErrors Counter
  vmMacMonitorRetryErrors Counter
  vmMacMonitorLateEvents Counter
  vmMacMonitorLCarErrors Counter
  vmMacMonitorUnderflowErrors Counter

PddrmMonitorGroupEntry  
SEQUENCE    
  pddrmMonGroupIndex INTEGER
  pddrmMonGroupFCSErrors Counter
  pddrmMonGroupAlignmentErrors Counter
  pddrmMonGroupFrameTooLongs Counter
  pddrmMonGroupShortEvents Counter
  pddrmMonGroupRunts Counter
  pddrmMonGroupCollisions Counter
  pddrmMonGroupLateEvents Counter
  pddrmMonGroupVeryLongEvents Counter
  pddrmMonGroupDataRateMismatches Counter
  pddrmMonGroupAutoPartitions Counter
  pddrmMonGroupUniCastFrames Counter
  pddrmMonGroupMultiCastFrames Counter
  pddrmMonGroupBroadCastFrames Counter
  pddrmMonGroupClearCounters INTEGER

PddrmMonitorPortEntry  
SEQUENCE    
  pddrmMonPortGroupIndex INTEGER
  pddrmMonPortIndex INTEGER
  pddrmMonPortUniCastFrames Counter
  pddrmMonPortMultiCastFrames Counter
  pddrmMonPortBroadCastFrames Counter
  pddrmMonPortClearCounters INTEGER
  pddrmMonPortESTFilter INTEGER
  pddrmMonPortMediaAvailableTraps INTEGER
  pddrmMonPortAutoPartitionTraps INTEGER

DeprRptrGroupEntry  
SEQUENCE    
  deprRptrGroupIndex INTEGER
  deprRptrGroupDescr DisplayString
  deprRptrGroupObjectID OBJECT IDENTIFIER
  deprRptrGroupOperStatus INTEGER
  deprRptrGroupLastOperStatusChange TimeTicks
  deprRptrGroupPortCapacity INTEGER

DeprRptrPortEntry  
SEQUENCE    
  deprRptrPortGroupIndex INTEGER
  deprRptrPortIndex INTEGER
  deprRptrPortAdminStatus INTEGER
  deprRptrPortAutoPartitionState INTEGER
  deprRptrPortOperStatus INTEGER

DeprRptrMonitorGroupEntry  
SEQUENCE    
  deprRptrMonitorGroupIndex INTEGER
  deprRptrMonitorGroupTotalFrames Counter
  deprRptrMonitorGroupTotalOctets Counter
  deprRptrMonitorGroupTotalErrors Counter

DeprRptrMonitorPortEntry  
SEQUENCE    
  deprRptrMonitorPortGroupIndex INTEGER
  deprRptrMonitorPortIndex INTEGER
  deprRptrMonitorPortReadableFrames Counter
  deprRptrMonitorPortReadableOctets Counter
  deprRptrMonitorPortFCSErrors Counter
  deprRptrMonitorPortAlignmentErrors Counter
  deprRptrMonitorPortFrameTooLongs Counter
  deprRptrMonitorPortShortEvents Counter
  deprRptrMonitorPortRunts Counter
  deprRptrMonitorPortCollisions Counter
  deprRptrMonitorPortLateEvents Counter
  deprRptrMonitorPortVeryLongEvents Counter
  deprRptrMonitorPortDataRateMismatches Counter
  deprRptrMonitorPortAutoPartitions Counter
  deprRptrMonitorPortTotalErrors Counter

DeprRptrAddrTrackEntry  
SEQUENCE    
  deprRptrAddrTrackGroupIndex INTEGER
  deprRptrAddrTrackPortIndex INTEGER
  deprRptrAddrTrackLastSourceAddress PhysAddress
  deprRptrAddrTrackSourceAddrChanges Counter

DeprRpMauEntry  
SEQUENCE    
  deprRpMauGroupIndex INTEGER
  deprRpMauPortIndex INTEGER
  deprRpMauIndex INTEGER
  deprRpMauType INTEGER
  deprRpMauAdminState INTEGER
  deprRpMauMediaAvailable INTEGER
  deprRpMauLostMedias Counter
  deprRpMauJabberState INTEGER
  deprRpMauJabbers Counter

IfExtnsEntry  
SEQUENCE    
  ifExtnsIfIndex INTEGER
  ifExtnsChipSet OBJECT IDENTIFIER
  ifExtnsRevWare DisplayString
  ifExtnsMulticastsTransmittedOks Counter
  ifExtnsBroadcastsTransmittedOks Counter
  ifExtnsMulticastsReceivedOks Counter
  ifExtnsBroadcastsReceivedOks Counter
  ifExtnsPromiscuous INTEGER

FaultEntry  
SEQUENCE    
  faultIndex INTEGER
  faultErrorNumber INTEGER
  faultTimeStamp TimeTicks
  faultRestartCount INTEGER

MrmCardEntry  
SEQUENCE    
  mrmCardServiceId INTEGER
  mrmCardIndex INTEGER
  mrmCardPortCapacity INTEGER
  mrmCardTest INTEGER
  mrmCardDOBPorts INTEGER
  mrmCardMDIenable INTEGER

MrmPortEntry  
SEQUENCE    
  mrmPortServiceId INTEGER
  mrmPortCardIndex INTEGER
  mrmPortIndex INTEGER
  mrmPortInterfaceType INTEGER
  mrmPortConnectorType INTEGER
  mrmPortAdminStatus INTEGER
  mrmPortAutoPartitionState INTEGER
  mrmPortLinkState INTEGER
  mrmPortBootState INTEGER
  mrmPortESTFilter INTEGER
  mrmPortPartitionEvent INTEGER
  mrmPortLinkStateEvent INTEGER
  mrmPortSecurityAvailable INTEGER
  mrmPortLinkPulse INTEGER
  mrmPortModule INTEGER
  mrmPortDUDAction INTEGER
  mrmPortFunction INTEGER

MrmMonitorRepEntry  
SEQUENCE    
  mrmMonRepServiceId INTEGER
  mrmMonRepReadableFrames Counter
  mrmMonRepUnicastFrames Counter
  mrmMonRepMulticastFrames Counter
  mrmMonRepBroadcastFrames Counter
  mrmMonRepReadableOctets Counter
  mrmMonRepUnicastOctets Counter
  mrmMonRepMulticastOctets Counter
  mrmMonRepBroadcastOctets Counter
  mrmMonRepFCSErrors Counter
  mrmMonRepAlignmentErrors Counter
  mrmMonRepFrameTooLongs Counter
  mrmMonRepShortEvents Counter
  mrmMonRepRunts Counter
  mrmMonRepTxCollisions Counter
  mrmMonRepLateEvents Counter
  mrmMonRepVeryLongEvents Counter
  mrmMonRepDataRateMismatches Counter
  mrmMonRepAutoPartitions Counter
  mrmMonRepTotalErrors Counter
  mrmMonRepBound0 Counter
  mrmMonRepBound1 Counter
  mrmMonRepBound2 Counter
  mrmMonRepBound3 Counter
  mrmMonRepBound4 Counter
  mrmMonRepBound5 Counter
  mrmMonRepAction INTEGER
  mrmMonRepBandwidthUsed Counter
  mrmMonRepErrorsPer10000Packets Counter

MrmMonitorCardEntry  
SEQUENCE    
  mrmMonCardServiceId INTEGER
  mrmMonCardIndex INTEGER
  mrmMonCardReadableFrames Counter
  mrmMonCardUnicastFrames Counter
  mrmMonCardMulticastFrames Counter
  mrmMonCardBroadcastFrames Counter
  mrmMonCardReadableOctets Counter
  mrmMonCardUnicastOctets Counter
  mrmMonCardMulticastOctets Counter
  mrmMonCardBroadcastOctets Counter
  mrmMonCardFCSErrors Counter
  mrmMonCardAlignmentErrors Counter
  mrmMonCardFrameTooLongs Counter
  mrmMonCardShortEvents Counter
  mrmMonCardRunts Counter
  mrmMonCardLateEvents Counter
  mrmMonCardVeryLongEvents Counter
  mrmMonCardDataRateMismatches Counter
  mrmMonCardAutoPartitions Counter
  mrmMonCardTotalErrors Counter
  mrmMonCardBound0 Counter
  mrmMonCardBound1 Counter
  mrmMonCardBound2 Counter
  mrmMonCardBound3 Counter
  mrmMonCardBound4 Counter
  mrmMonCardBound5 Counter
  mrmMonCardClearCounters INTEGER
  mrmMonCardBandwidthUsed Counter
  mrmMonCardErrorsPer10000Packets Counter

MrmMonitorPortEntry  
SEQUENCE    
  mrmMonPortServiceId INTEGER
  mrmMonPortCardIndex INTEGER
  mrmMonPortIndex INTEGER
  mrmMonPortReadableFrames Counter
  mrmMonPortUnicastFrames Counter
  mrmMonPortMulticastFrames Counter
  mrmMonPortBroadcastFrames Counter
  mrmMonPortReadableOctets Counter
  mrmMonPortUnicastOctets Counter
  mrmMonPortMulticastOctets Counter
  mrmMonPortBroadcastOctets Counter
  mrmMonPortFCSErrors Counter
  mrmMonPortAlignmentErrors Counter
  mrmMonPortFrameTooLongs Counter
  mrmMonPortShortEvents Counter
  mrmMonPortRunts Counter
  mrmMonPortCollisions Counter
  mrmMonPortLateEvents Counter
  mrmMonPortVeryLongEvents Counter
  mrmMonPortDataRateMismatches Counter
  mrmMonPortAutoPartitions Counter
  mrmMonPortTotalErrors Counter
  mrmMonPortBound0 Counter
  mrmMonPortBound1 Counter
  mrmMonPortBound2 Counter
  mrmMonPortBound3 Counter
  mrmMonPortBound4 Counter
  mrmMonPortBound5 Counter
  mrmMonPortBandwidthUsed Counter
  mrmMonPortErrorsPer10000Packets Counter
  mrmMonPortClearCounters INTEGER
  mrmMonPortLastAddress OCTET STRING
  mrmMonPortAddressChanges Counter

SetIpIfEntry  
SEQUENCE    
  setIpIfIndex INTEGER
  setIpIfAddr IpAddress
  setIpIfMask IpAddress

LoadableDeviceEntry  
SEQUENCE    
  slDeviceType INTEGER
  slDeviceInstance INTEGER
  slLoadStatus INTEGER
  slSoftwareVersion DisplayString
  slHardwareVersion INTEGER
  slFilename DisplayString
  slServerIpAddress IpAddress
  slLoad INTEGER
  slServerAddress DisplayString
  slServerProtocol INTEGER

SecurityEnableTableEntry  
SEQUENCE    
  securityLevel INTEGER
  securityCommunityEnable INTEGER
  securitySecureEnable INTEGER
  securityTermEnable INTEGER
  securityTelnetEnable INTEGER
  securityFrontPanelEnable INTEGER

SecurityUserTableEntry  
SEQUENCE    
  securityUserStatus INTEGER
  securityUserName DisplayString
  securityUserLevel INTEGER
  securityUserPassword DisplayString
  securityUserCommunity DisplayString
  securityUserLocParty OBJECT IDENTIFIER
  securityUserMgrParty OBJECT IDENTIFIER

SecurityAuditLogEntry  
SEQUENCE    
  securityAuditIndex INTEGER
  securityAuditTime TimeTicks
  securityAuditUser DisplayString
  securityAuditObject OBJECT IDENTIFIER
  securityAuditValue OCTET STRING
  securityAuditResult INTEGER

GaugeTableEntry  
SEQUENCE    
  gaugeIndex INTEGER
  gaugeItemId OBJECT IDENTIFIER
  gaugeItemType INTEGER
  gaugeSamplesPerAverage INTEGER
  gaugeSamplePeriod INTEGER
  gaugeValue INTEGER
  gaugePeakValue INTEGER
  gaugeThresholdLevel INTEGER
  gaugeRecoveryLevel INTEGER
  gaugeThresholdAction INTEGER
  gaugeRecoveryAction INTEGER
  gaugeState INTEGER
  gaugeOwner DisplayString

AlarmEntry  
SEQUENCE    
  alarmIndex INTEGER 1..65535
  alarmInterval INTEGER
  alarmVariable OBJECT IDENTIFIER
  alarmSampleType INTEGER
  alarmValue INTEGER
  alarmStartupAlarm INTEGER
  alarmRisingThreshold INTEGER
  alarmFallingThreshold INTEGER
  alarmRisingEventIndex INTEGER 0..65535
  alarmFallingEventIndex INTEGER 0..65535
  alarmOwner DisplayString
  alarmStatus INTEGER

EventEntry  
SEQUENCE    
  eventIndex INTEGER 1..65535
  eventDescription DisplayString Size(0..127)
  eventType INTEGER
  eventCommunity OCTET STRING Size(0..127)
  eventLastTimeSent TimeTicks
  eventOwner DisplayString
  eventStatus INTEGER

LogEntry  
SEQUENCE    
  logEventIndex INTEGER 1..65535
  logIndex INTEGER
  logTime TimeTicks
  logDescription DisplayString Size(0..255)

ConfigV24Entry  
SEQUENCE    
  configV24PortID INTEGER
  configV24ConnType INTEGER
  configV24AutoConfig INTEGER
  configV24Speed INTEGER
  configV24CharSize INTEGER
  configV24StopBits INTEGER
  configV24Parity INTEGER
  configV24DSRControl INTEGER
  configV24DCDControl INTEGER
  configV24FlowControl INTEGER
  configV24Update INTEGER

EsTableEntry  
SEQUENCE    
  esAddrType INTEGER
  esAddress OCTET STRING
  esSlotNumber INTEGER
  esPortNumber INTEGER

EsModTableEntry  
SEQUENCE    
  esModAddrType INTEGER
  esModAddress OCTET STRING
  esModSlotNumber INTEGER
  esModPortNumber INTEGER

EsPortAccessEntry  
SEQUENCE    
  ecPortCardNo INTEGER
  ecPortPortNo INTEGER
  ecPortIndex INTEGER
  ecPortAddrType INTEGER
  ecPortAddress OCTET STRING

PollTableEntry  
SEQUENCE    
  pollIndex INTEGER
  pollAddress DisplayString
  pollProtocol INTEGER
  pollRate INTEGER
  pollTargetType INTEGER
  pollLastPollSent TimeTicks
  pollRoundTripTime INTEGER
  pollInformation DisplayString
  pollAlarmIndex INTEGER
  pollOwner DisplayString
  pollRowStatus INTEGER

TrapEntry  
SEQUENCE    
  trapStatus INTEGER
  trapDestination IpAddress
  trapCommunity DisplayString
  trapSubject OBJECT IDENTIFIER
  trapCategory INTEGER
  trapThrottle INTEGER

SnmpTrapEntry  
SEQUENCE    
  snmpTrapIndex INTEGER
  snmpTrapDestination DisplayString
  snmpTrapProtocol INTEGER
  snmpTrapCommunity DisplayString
  snmpTrapCategory OCTET STRING
  snmpTrapThrottle INTEGER
  snmpTrapRowStatus INTEGER

IpxBasicSysEntry  
SEQUENCE    
  ipxBasicSysInstance INTEGER
  ipxBasicSysExistState INTEGER
  ipxBasicSysNetNumber OCTET STRING
  ipxBasicSysNode OCTET STRING
  ipxBasicSysName OCTET STRING
  ipxBasicSysInReceives Counter
  ipxBasicSysInHdrErrors Counter
  ipxBasicSysInUnknownSockets Counter
  ipxBasicSysInDiscards Counter
  ipxBasicSysInBadChecksums Counter
  ipxBasicSysInDelivers Counter
  ipxBasicSysNoRoutes Counter
  ipxBasicSysOutRequests Counter
  ipxBasicSysOutMalformedRequests Counter
  ipxBasicSysOutDiscards Counter
  ipxBasicSysOutPackets Counter
  ipxBasicSysConfigSockets INTEGER
  ipxBasicSysOpenSocketFails Counter

IpxAdvSysEntry  
SEQUENCE    
  ipxAdvSysInstance INTEGER
  ipxAdvSysMaxPathSplits INTEGER
  ipxAdvSysMaxHops INTEGER
  ipxAdvSysTooManyHops Counter
  ipxAdvSysInFiltered Counter
  ipxAdvSysCompressDiscards Counter
  ipxAdvSysNETBIOSPackets Counter
  ipxAdvSysForwPackets Counter
  ipxAdvSysOutFiltered Counter
  ipxAdvSysOutCompressDiscards Counter
  ipxAdvSysCircCount Counter
  ipxAdvSysDestCount Counter
  ipxAdvSysServCount Counter

ResTableEntry  
SEQUENCE    
  resRepeater INTEGER
  resMainSlot INTEGER
  resMainPort INTEGER
  resMainState INTEGER
  resStandbySlot INTEGER
  resStandbyPort INTEGER
  resStandbyState INTEGER
  resPairState INTEGER
  resPairModificationStatus INTEGER
  resPairAction INTEGER
  resPairEnable INTEGER

ResStandbyMapTableEntry  
SEQUENCE    
  resSbRepeater INTEGER
  resSbSlot INTEGER
  resSbPort INTEGER
  resSbType INTEGER
  resSbMainSlot INTEGER
  resSbMainPort INTEGER

PowerStackTableEntry  
SEQUENCE    
  powerStackTableIndex INTEGER
  powerStackRBSPresent INTEGER
  powerStackRBSStatus INTEGER

Defined Values

mib-2 2.2.1
OBJECT IDENTIFIER    

system 2.2.1.1
OBJECT IDENTIFIER    

interfaces 2.2.1.2
OBJECT IDENTIFIER    

at 2.2.1.3
OBJECT IDENTIFIER    

ip 2.2.1.4
OBJECT IDENTIFIER    

icmp 2.2.1.5
OBJECT IDENTIFIER    

tcp 2.2.1.6
OBJECT IDENTIFIER    

udp 2.2.1.7
OBJECT IDENTIFIER    

egp 2.2.1.8
OBJECT IDENTIFIER    

transmission 2.2.1.10
OBJECT IDENTIFIER    

snmp 2.2.1.11
OBJECT IDENTIFIER    

dot1dBridge 2.2.1.17
OBJECT IDENTIFIER    

a3Com 2.4.1.43
OBJECT IDENTIFIER    

products 2.4.1.43.1
OBJECT IDENTIFIER    

terminalServer 2.4.1.43.1.1
OBJECT IDENTIFIER    

dedicatedBridgeServer 2.4.1.43.1.2
OBJECT IDENTIFIER    

dedicatedRouteServer 2.4.1.43.1.3
OBJECT IDENTIFIER    

brouter 2.4.1.43.1.4
OBJECT IDENTIFIER    

genericMSWorkstation 2.4.1.43.1.5
OBJECT IDENTIFIER    

genericMSServer 2.4.1.43.1.6
OBJECT IDENTIFIER    

genericUnixServer 2.4.1.43.1.7
OBJECT IDENTIFIER    

hub 2.4.1.43.1.8
OBJECT IDENTIFIER    

cards 2.4.1.43.1.9
OBJECT IDENTIFIER    

chipsets 2.4.1.43.1.10
OBJECT IDENTIFIER    

linkBuilder3GH 2.4.1.43.1.8.1
OBJECT IDENTIFIER    

linkBuilder10BTi 2.4.1.43.1.8.2
OBJECT IDENTIFIER    

linkBuilderECS 2.4.1.43.1.8.3
OBJECT IDENTIFIER    

linkBuilderMSH 2.4.1.43.1.8.4
OBJECT IDENTIFIER    

linkBuilderFMS 2.4.1.43.1.8.5
OBJECT IDENTIFIER    

linkBuilderFDDIwg 2.4.1.43.1.8.6
OBJECT IDENTIFIER    

linkBuilderFMSII 2.4.1.43.1.8.7
OBJECT IDENTIFIER    

linkSwitchFMS 2.4.1.43.1.8.8
OBJECT IDENTIFIER    

linkSwitchMSH 2.4.1.43.1.8.9
OBJECT IDENTIFIER    

linkBuilderFMSLBridge 2.4.1.43.1.8.10
OBJECT IDENTIFIER    

linkBuilder3GH-cards 2.4.1.43.1.9.1
OBJECT IDENTIFIER    

linkBuilder10BTi-cards 2.4.1.43.1.9.2
OBJECT IDENTIFIER    

linkBuilderECS-cards 2.4.1.43.1.9.3
OBJECT IDENTIFIER    

linkBuilderMSH-cards 2.4.1.43.1.9.4
OBJECT IDENTIFIER    

linkBuilderFMS-cards 2.4.1.43.1.9.5
OBJECT IDENTIFIER    

linkBuilderFMSII-cards 2.4.1.43.1.9.6
OBJECT IDENTIFIER    

linkBuilder10BTi-cards-utp 2.4.1.43.1.9.2.1
OBJECT IDENTIFIER    

linkBuilder10BT-cards-utp 2.4.1.43.1.9.2.2
OBJECT IDENTIFIER    

linkBuilderFMS-cards-utp 2.4.1.43.1.9.5.1
OBJECT IDENTIFIER    

linkBuilderFMS-cards-coax 2.4.1.43.1.9.5.2
OBJECT IDENTIFIER    

linkBuilderFMS-cards-fiber 2.4.1.43.1.9.5.3
OBJECT IDENTIFIER    

linkBuilderFMS-cards-12fiber 2.4.1.43.1.9.5.4
OBJECT IDENTIFIER    

linkBuilderFMS-cards-24utp 2.4.1.43.1.9.5.5
OBJECT IDENTIFIER    

linkBuilderFMSII-cards-12tp-rj45 2.4.1.43.1.9.6.1
OBJECT IDENTIFIER    

linkBuilderFMSII-cards-10coax-bnc 2.4.1.43.1.9.6.2
OBJECT IDENTIFIER    

linkBuilderFMSII-cards-6fiber-st 2.4.1.43.1.9.6.3
OBJECT IDENTIFIER    

linkBuilderFMSII-cards-12fiber-st 2.4.1.43.1.9.6.4
OBJECT IDENTIFIER    

linkBuilderFMSII-cards-24tp-rj45 2.4.1.43.1.9.6.5
OBJECT IDENTIFIER    

linkBuilderFMSII-cards-24tp-telco 2.4.1.43.1.9.6.6
OBJECT IDENTIFIER    

amp-mib 2.4.1.43.3
OBJECT IDENTIFIER    

genericTrap 2.4.1.43.4
OBJECT IDENTIFIER    

viewBuilderApps 2.4.1.43.5
OBJECT IDENTIFIER    

specificTrap 2.4.1.43.6
OBJECT IDENTIFIER    

linkBuilder3GH-mib 2.4.1.43.7
OBJECT IDENTIFIER    

linkBuilder10BTi-mib 2.4.1.43.8
OBJECT IDENTIFIER    

linkBuilderECS-mib 2.4.1.43.9
OBJECT IDENTIFIER    

generic 2.4.1.43.10
OBJECT IDENTIFIER    

genExperimental 2.4.1.43.10.1
OBJECT IDENTIFIER    

setup 2.4.1.43.10.2
OBJECT IDENTIFIER    

sysLoader 2.4.1.43.10.3
OBJECT IDENTIFIER    

security 2.4.1.43.10.4
OBJECT IDENTIFIER    

gauges 2.4.1.43.10.5
OBJECT IDENTIFIER    

asciiAgent 2.4.1.43.10.6
OBJECT IDENTIFIER    

serialIf 2.4.1.43.10.7
OBJECT IDENTIFIER    

repeaterMgmt 2.4.1.43.10.8
OBJECT IDENTIFIER    

endStation 2.4.1.43.10.9
OBJECT IDENTIFIER    

localSnmp 2.4.1.43.10.10
OBJECT IDENTIFIER    

manager 2.4.1.43.10.11
OBJECT IDENTIFIER    

unusedGeneric12 2.4.1.43.10.12
OBJECT IDENTIFIER    

chassis 2.4.1.43.10.14
OBJECT IDENTIFIER    

mrmResilience 2.4.1.43.10.15
OBJECT IDENTIFIER    

tokenRing 2.4.1.43.10.16
OBJECT IDENTIFIER    

multiRepeater 2.4.1.43.10.17
OBJECT IDENTIFIER    

bridgeMgmt 2.4.1.43.10.18
OBJECT IDENTIFIER    

fault 2.4.1.43.10.19
OBJECT IDENTIFIER    

poll 2.4.1.43.10.20
OBJECT IDENTIFIER    

powerSupply 2.4.1.43.10.21
OBJECT IDENTIFIER    

testData 2.4.1.43.10.1.1
OBJECT IDENTIFIER    

ifExtensions 2.4.1.43.10.1.2
OBJECT IDENTIFIER    

netBuilder-mib 2.4.1.43.11
OBJECT IDENTIFIER    

lBridgeECS-mib 2.4.1.43.12
OBJECT IDENTIFIER    

deskMan-mib 2.4.1.43.13
OBJECT IDENTIFIER    

linkBuilderMSH-mib 2.4.1.43.14
OBJECT IDENTIFIER    

linkBuilderFMS-mib 2.4.1.43.15
OBJECT IDENTIFIER    

linkBuilderFDDI-wghub-mib 2.4.1.43.16
OBJECT IDENTIFIER    

linkSwitch-mib 2.4.1.43.17
OBJECT IDENTIFIER    

linkbuilderMonitorPackage 2.4.1.43.8.1
OBJECT IDENTIFIER    

linkbuilderConfigPackage 2.4.1.43.8.2
OBJECT IDENTIFIER    

linkbuilderStatusPackage 2.4.1.43.8.3
OBJECT IDENTIFIER    

linkbuilderMonitorMacPackage 2.4.1.43.8.6
OBJECT IDENTIFIER    

vmMonBatteryStatus 2.4.1.43.8.1.1
The results of the start up check on NVRAM Battery condition.
OBJECT-TYPE    
  INTEGER normal(1), low(2)  

vmMonPOSTResults 2.4.1.43.8.1.2
The results of the Power On Self Test are recorded here. The value read is a bit mask of possible errors, these are as follows:- bit 3 set - error accessing the Ethernet Address PROM bit 5 set - error accessing System RAM bit 6 set - error accessing NVRAM bit 7 set - battery level low bit 8 set - MFP errors bit 9 set - LANCE errors bit 11 set - error allocating unit ids to units bit 12 set - error on acessing repeater bit 13 set - as above bit 14 set - as above bit 15 set - as above bit 16 set - as above bit 17 set - error accessing processor bus bit 2 set - error accessing the Ethernet Address PROM bit 3 set - error accessing System RAM bit 4 set - as above bit 5 set - error accessing NVRAM bit 6 set - battery level low bit 7 set - MFP errors bit 8 set - LANCE errors bit 9 set - MBGA errors bit 10 set - watchdog bit 11 set - error allocating unit ids bit 12 set - error on acessing repeater bit 13 set - as above bit 14 set - as above bit 15 set - as above bit 16 set - as above bit 17 set - as above bit 18 set - hardware bus error bit 19 set - as above bit 20 set - as above bit 21 set - as above bit 22 set - interrupt error bit 23 set - as above bit 24 set - unknown
OBJECT-TYPE    
  INTEGER  

vmMonFault 2.4.1.43.8.1.3
OBJECT IDENTIFIER    

vmMonFaultModifiedFlag 2.4.1.43.8.1.3.1
In order to ensure a clean read of the Fault table this flag should be set to clean_read when commencing to read the table and should be examined after reading the entire table. If still set to clean_read then the table read is okay, if not the table should be re-read as it has been modified during the read process.
OBJECT-TYPE    
  INTEGER clean-read(1), modified(2)  

vmMonFaultTable 2.4.1.43.8.1.3.2
The Fault Table.
OBJECT-TYPE    
  SEQUENCE OF  
    VmMonFaultEntry

vmMonFaultEntry 2.4.1.43.8.1.3.2.1
Information relating to a single fault.
OBJECT-TYPE    
  VmMonFaultEntry  

vmMonFaultIndex 2.4.1.43.8.1.3.2.1.1
The index into the Fault table. The initial read from the table should be read as the next, from an index of 0; subsequent reads should read the next from the index returned by the previous read.
OBJECT-TYPE    
  INTEGER  

vmMonFaultErrorNumber 2.4.1.43.8.1.3.2.1.2
This error number for this fault log entry.
OBJECT-TYPE    
  INTEGER  

vmMonFaultTimeStamp 2.4.1.43.8.1.3.2.1.3
The time since startup, in milliseconds, when the fault occurred.
OBJECT-TYPE    
  TimeTicks  

vmMonFaultRestartCount 2.4.1.43.8.1.3.2.1.4
The number of restarts at time of fault.
OBJECT-TYPE    
  INTEGER  

vmMonDvtEcho 2.4.1.43.8.1.4
This enables/disables the Echo service for test purposes only.
OBJECT-TYPE    
  INTEGER disabled(1), enabled(2)  

vmConfigGroupTable 2.4.1.43.8.2.2
Table configuration options for all of the groups.
OBJECT-TYPE    
  SEQUENCE OF  
    VmConfigGroupEntry

vmConfigGroupEntry 2.4.1.43.8.2.2.1
Configuration options for a single group.
OBJECT-TYPE    
  VmConfigGroupEntry  

vmConGroupIndex 2.4.1.43.8.2.2.1.1
This attribute uniquely identifies this group within the repeater, it is part of the index for the group table.
OBJECT-TYPE    
  INTEGER 1..16  

vmConGroupPortMask 2.4.1.43.8.2.2.1.2
This attribute identifies which ports are present on this group. It is formatted as a bit mask. Bit 0, the least significant bit, represents port number one, bit 1 represents port number two and so on. Port number one is the port that has a xxxxPortIndex of 1 where xxxx depends upon which MIB table is being examined. The bits in the bit mask are set to a 1 if the port is present in this group and set to a zero if the port is not present.
OBJECT-TYPE    
  INTEGER  

vmConfigPortTable 2.4.1.43.8.2.3
Table configuration options for all of the ports.
OBJECT-TYPE    
  SEQUENCE OF  
    VmConfigPortEntry

vmConfigPortEntry 2.4.1.43.8.2.3.1
Configuration options for a single port.
OBJECT-TYPE    
  VmConfigPortEntry  

vmConPortGroupIndex 2.4.1.43.8.2.3.1.1
This attribute uniquely identifies this group within the repeater, it is part of the index for the port table.
OBJECT-TYPE    
  INTEGER 1..16  

vmConPortIndex 2.4.1.43.8.2.3.1.2
This attribute uniquely identifies this port within the group, it is part of the index for the port table.
OBJECT-TYPE    
  INTEGER 1..1024  

vmConPortSquelch 2.4.1.43.8.2.3.1.3
This attribute controls the 10BaseT squelch level for a 10BaseT port. It enables it to be set to the IEEE standard level = normal, or to be set more sensative = low.
OBJECT-TYPE    
  INTEGER normal(1), low(2), notApplicable(3)  

vmConPortLinkPulse 2.4.1.43.8.2.3.1.4
This attribute determines if link pulse generating and monitoring is enabled or disabled for a 10BaseT port. The attribute may take the values of enabled (standard) or disabled (non standard).
OBJECT-TYPE    
  INTEGER enabled(1), disabled(2), notApplicable(3)  

vmConPortXoverSwitchState 2.4.1.43.8.2.3.1.5
This attribute determines the state of the cross over switch, this is only applicable to fixed UTP ports.
OBJECT-TYPE    
  INTEGER notApplicable(1), normal(2), crossed(3)  

vmConPortType 2.4.1.43.8.2.3.1.6
This attribute describes the port type in terms of media supported, modular or fixed and manufacturer.
OBJECT-TYPE    
  INTEGER fms-FixedTP(1), fms-FixedCoax(2), fms-FixedFibreFL(3), fms-ModularBridge(4), fms-ModularMaleAUI(8), fms-ModularFMaleAUI(9), fms-ModularCoax(10), fms-ModularFibreFL(11), fms-ModularUTP(12), fms-ModularSTP(13), fms-ModularFibreFB(14), fms-AUI(15), bti-FixedUTP(32), bti-ModularFibreFL(40), bti-ModularCoax(41), bti-AUI(50), unknown(60)  

vmConfigMediaTable 2.4.1.43.8.2.4
Configuration information and control variables for a collection of media cards this repeater.
OBJECT-TYPE    
  SEQUENCE OF  
    VmConfigMediaEntry

vmConfigMediaEntry 2.4.1.43.8.2.4.1
Configuration information and control variables for a single media card.
OBJECT-TYPE    
  VmConfigMediaEntry  

vmConMediaIndex 2.4.1.43.8.2.4.1.1
This attribute uniquely identifies this media card, it is part of the index for the Media Table.
OBJECT-TYPE    
  INTEGER 1..16  

vmConMediaModuleRevNo 2.4.1.43.8.2.4.1.2
The Media Module Hardware revision number.
OBJECT-TYPE    
  INTEGER 1..1024  

vmConMediaModuleCardType 2.4.1.43.8.2.4.1.3
The Media Module Card Type.
OBJECT-TYPE    
  INTEGER fms-12Port-UTP(1), fms-10Port-Coax(2), fms-12Port-Fibre(3), fms-6Port-Fibre(4), fms-24PortUTP(5), bt-12Port-UTP-Rev2(14), bt-12Port-UTP-Rev1(15), bti-12Port-UTP-Rev2(30), bti-12Port-UTP-Rev1(31), fmsII-12Port-TP-RJ45(65), fmsII-10Port-Coax(66), fmsII-12Port-Fibre(67), fmsII-6Port-Fibre(68), fmsII-24Port-TP-RJ45(69), fmsII-24Port-TP-Telco(70), fmsII-RMON-Box(71)  

vmMacMonitorTable 2.4.1.43.8.6.1
Table of performance and error statistics for the MACs.
OBJECT-TYPE    
  SEQUENCE OF  
    VmMacMonitorEntry

vmMacMonitorEntry 2.4.1.43.8.6.1.1
OBJECT-TYPE    
  VmMacMonitorEntry  

vmMacMonitorIndex 2.4.1.43.8.6.1.1.1
This object identifies the MAC for which this entry contains information.
OBJECT-TYPE    
  INTEGER 1..16  

vmMacMonitorMissErrors 2.4.1.43.8.6.1.1.2
The number of packets the MAC has failed to receive. This may be due to no receive buffer being available or a SILO overflow.
OBJECT-TYPE    
  Counter  

vmMacMonitorBabbleErrors 2.4.1.43.8.6.1.1.3
The number of packets, whose length has exceeded 1519 bytes, transmitted by the MAC.
OBJECT-TYPE    
  Counter  

vmMacMonitorMemoryErrors 2.4.1.43.8.6.1.1.4
The number of times the MAC has been unable to obtain bus mastership with the specified period.
OBJECT-TYPE    
  Counter  

vmMacMonitorFCSErrors 2.4.1.43.8.6.1.1.5
The number packets received by the MAC containing an FCS error.
OBJECT-TYPE    
  Counter  

vmMacMonitorOverflowErrors 2.4.1.43.8.6.1.1.6
The number of packets received by the MAC which caused a SILO overflow error.
OBJECT-TYPE    
  Counter  

vmMacMonitorFramingErrors 2.4.1.43.8.6.1.1.7
The number of packets received by the MAC containing a non-integer multiple of 8 bits and a FCS error.
OBJECT-TYPE    
  Counter  

vmMacMonitorRetryErrors 2.4.1.43.8.6.1.1.8
The number of times the MAC has failed, in 16 attempts, to transmit a packet due to collisions on the network.
OBJECT-TYPE    
  Counter  

vmMacMonitorLateEvents 2.4.1.43.8.6.1.1.9
The number of times the MAC detected an out of window collision during transmission of a packet.
OBJECT-TYPE    
  Counter  

vmMacMonitorLCarErrors 2.4.1.43.8.6.1.1.10
The number of times the MAC has detected a loss of carrier during transmission of a packet.
OBJECT-TYPE    
  Counter  

vmMacMonitorUnderflowErrors 2.4.1.43.8.6.1.1.11
The number of times the MAC has truncated an outgoing packet due to the SILO emptying before the end of packet has been reached.
OBJECT-TYPE    
  Counter  

vmMauMediaAvailable 25
This trap indicates that the mau for this port has entered or left rpMauMediaAvailable = available(3) state.
TRAP-TYPE    

vmAutoPartitionState 26
This trap indicates that the repeater SM for this port has entered or left the partitioned state.
TRAP-TYPE    

pddrmBasicPackage 2.4.1.43.10.8.1
OBJECT IDENTIFIER    

pddrmMonitorPackage 2.4.1.43.10.8.2
OBJECT IDENTIFIER    

pddrmBasRepeaterPackage 2.4.1.43.10.8.1.1
OBJECT IDENTIFIER    

pddrmBasGroupPackage 2.4.1.43.10.8.1.2
OBJECT IDENTIFIER    

pddrmBasPortPackage 2.4.1.43.10.8.1.3
OBJECT IDENTIFIER    

pddrmMonRepeaterPackage 2.4.1.43.10.8.2.1
OBJECT IDENTIFIER    

pddrmMonGroupPackage 2.4.1.43.10.8.2.2
OBJECT IDENTIFIER    

pddrmMonPortPackage 2.4.1.43.10.8.2.3
OBJECT IDENTIFIER    

pddrmMonRepeaterDummyPackage 2.4.1.43.10.8.2.4
OBJECT IDENTIFIER    

pddrmMonGroupDummyPackage 2.4.1.43.10.8.2.5
OBJECT IDENTIFIER    

pddrmMonPortDummyPackage 2.4.1.43.10.8.2.6
OBJECT IDENTIFIER    

pddrmMonRepeaterReadableFrames 2.4.1.43.10.8.2.1.1
This counter is incremented by one for each frame whose OctetCount is greater than or equal to minFrameSize and less than or equal to maxFraneSize and for which FCSError is not asserted that is received by the repeater.
OBJECT-TYPE    
  Counter  

pddrmMonRepeaterReadableOctets 2.4.1.43.10.8.2.1.2
This counter is incremented by the octet count for each readable frame received by the repeater.
OBJECT-TYPE    
  Counter  

pddrmMonRepeaterFCSErrors 2.4.1.43.10.8.2.1.3
This counter is incremented by one for each frame with an FCS error that does not have a framing error and which is of legal frame size received by the repeater.
OBJECT-TYPE    
  Counter  

pddrmMonRepeaterAlignmentErrors 2.4.1.43.10.8.2.1.4
This counter is incremented by one for each frame with an FCS error that does have a framing error and which is of legal frame size received by the repeater.
OBJECT-TYPE    
  Counter  

pddrmMonRepeaterFrameTooLongs 2.4.1.43.10.8.2.1.5
This counter is incremented by one for each frame whose octet count is greater than the max frame size that is received by the repeater.
OBJECT-TYPE    
  Counter  

pddrmMonRepeaterShortEvents 2.4.1.43.10.8.2.1.6
This counter is incremented by one for each carrier event whose duration is less than short event max time that is detected by the repeater.
OBJECT-TYPE    
  Counter  

pddrmMonRepeaterRunts 2.4.1.43.10.8.2.1.7
This counter is incremented by one for each carrier event whose duration is greater than short event max time and less than valid packet min time and which does not suffer a collision detected by the repeater.
OBJECT-TYPE    
  Counter  

pddrmMonRepeaterCollisions 2.4.1.43.10.8.2.1.8
This counter is incremented by one each time the repeater state machine enters the COLLISION COUNT INCREMENT state.
OBJECT-TYPE    
  Counter  

pddrmMonRepeaterLateEvents 2.4.1.43.10.8.2.1.9
This counter is incremented by one each time a collisions occurs after valid packet min time, a late event is counted as both a collision and as a late event.
OBJECT-TYPE    
  Counter  

pddrmMonRepeaterVeryLongEvents 2.4.1.43.10.8.2.1.10
This counter is incremented by one each time a carrier event occurs whose duration is greater than the MAU Jabber Lockup Protection time.
OBJECT-TYPE    
  Counter  

pddrmMonRepeaterDataRateMismatches 2.4.1.43.10.8.2.1.11
This counter is incremented by one each time a packet has been received by this repeater with the data rate detectably mismatched from the local frequency.
OBJECT-TYPE    
  Counter  

pddrmMonRepeaterAutoPartitions 2.4.1.43.10.8.2.1.12
This counter is incremented by one each time the repeater has automatically partitioned any port.
OBJECT-TYPE    
  Counter  

pddrmMonRepeaterUniCastFrames 2.4.1.43.10.8.2.1.13
This counter is incremented by one for each readable frame seen by the repeater that is addressed to a unicast (non group) address.
OBJECT-TYPE    
  Counter  

pddrmMonRepeaterMultiCastFrames 2.4.1.43.10.8.2.1.14
This counter is incremented by one for each readable frame seen by the repeater that is addressed to a multicast (non broadcast) address.
OBJECT-TYPE    
  Counter  

pddrmMonRepeaterBroadCastFrames 2.4.1.43.10.8.2.1.15
This counter is incremented by one for each readable frame seen by the repeater that is addressed to the broadcast address.
OBJECT-TYPE    
  Counter  

pddrmMonRepeaterClearCounters 2.4.1.43.10.8.2.1.16
This attribute allows all counters on this repeater to be cleared.
OBJECT-TYPE    
  INTEGER noChangeCounters(1), clearCounters(2)  

pddrmMonRepeaterMediaAvailableTraps 2.4.1.43.10.8.2.1.17
This attribute enable/disables traps to be issued when a ports media is lost/regained.
OBJECT-TYPE    
  INTEGER enableMediaTraps(1), disableMediaTraps(2)  

pddrmMonRepeaterAutoPartitionTraps 2.4.1.43.10.8.2.1.18
This attribute enables/disables traps to be issued when ports autopartition or reconnect.
OBJECT-TYPE    
  INTEGER enablePartitionTraps(1), disablePartitionTraps(2)  

pddrmMonRepeaterTotalErrors 2.4.1.43.10.8.2.1.19
This counter is incremented by one for each erroneous frame seen by the repeater.
OBJECT-TYPE    
  Counter  

pddrmMonitorGroupTable 2.4.1.43.10.8.2.2.1
Status information and control variables for a collection of groups in this repeater.
OBJECT-TYPE    
  SEQUENCE OF  
    PddrmMonitorGroupEntry

pddrmMonitorGroupEntry 2.4.1.43.10.8.2.2.1.1
Status information and control variables for a single group of ports.
OBJECT-TYPE    
  PddrmMonitorGroupEntry  

pddrmMonGroupIndex 2.4.1.43.10.8.2.2.1.1.1
This attribute uniquely identifies this group, it is part of the index for the Group Table.
OBJECT-TYPE    
  INTEGER 1..16  

pddrmMonGroupFCSErrors 2.4.1.43.10.8.2.2.1.1.4
This counter is incremented by one for each frame with an FCS error that does not have a framing error and which is of legal frame size.
OBJECT-TYPE    
  Counter  

pddrmMonGroupAlignmentErrors 2.4.1.43.10.8.2.2.1.1.5
This counter is incremented by one for each frame with an FCS error that does have a framing error and which is of legal frame size .
OBJECT-TYPE    
  Counter  

pddrmMonGroupFrameTooLongs 2.4.1.43.10.8.2.2.1.1.6
This counter is incremented by one for each frame whose octet count is greater than the max frame size that is received by the repeater.
OBJECT-TYPE    
  Counter  

pddrmMonGroupShortEvents 2.4.1.43.10.8.2.2.1.1.7
This counter is incremented by one for each carrier event whose duration is less than short event max time that is detected.
OBJECT-TYPE    
  Counter  

pddrmMonGroupRunts 2.4.1.43.10.8.2.2.1.1.8
This counter is incremented by one for each carrier event whose duration is greater than short event max time and less than valid packet min time and which does not suffer a collision.
OBJECT-TYPE    
  Counter  

pddrmMonGroupCollisions 2.4.1.43.10.8.2.2.1.1.9
This counter is incremented by one each time the repeater state machine enters the COLLISION COUNT INCREMENT state.
OBJECT-TYPE    
  Counter  

pddrmMonGroupLateEvents 2.4.1.43.10.8.2.2.1.1.10
This counter is incremented by one each time a collisions occurs after valid packet min time, a late event is counted as both a collision and as a late event.
OBJECT-TYPE    
  Counter  

pddrmMonGroupVeryLongEvents 2.4.1.43.10.8.2.2.1.1.11
This counter is incremented by one each time a carrier event occurs whose duration is greater than the MAU Jabber Lockup Protection time.
OBJECT-TYPE    
  Counter  

pddrmMonGroupDataRateMismatches 2.4.1.43.10.8.2.2.1.1.12
This counter is incremented by one each time a packet has been received with the data rate detectably mismatched from the local frequency.
OBJECT-TYPE    
  Counter  

pddrmMonGroupAutoPartitions 2.4.1.43.10.8.2.2.1.1.13
This counter is incremented by one each time the repeater has automatically partitioned any port.
OBJECT-TYPE    
  Counter  

pddrmMonGroupUniCastFrames 2.4.1.43.10.8.2.2.1.1.14
This counter is incremented by one for each readable frame seen by the group that is addressed to a unicast (non group) address.
OBJECT-TYPE    
  Counter  

pddrmMonGroupMultiCastFrames 2.4.1.43.10.8.2.2.1.1.15
This counter is incremented by one for each readable frame seen by the group that is addressed to a multicast (non broadcast) address.
OBJECT-TYPE    
  Counter  

pddrmMonGroupBroadCastFrames 2.4.1.43.10.8.2.2.1.1.16
This counter is incremented by one for each readable frame seen by the group that is addressed to the broadcast address.
OBJECT-TYPE    
  Counter  

pddrmMonGroupClearCounters 2.4.1.43.10.8.2.2.1.1.17
This attribute allows all counters on this Group to be cleared.
OBJECT-TYPE    
  INTEGER noChangeCounters(1), clearCounters(2)  

pddrmMonitorPortTable 2.4.1.43.10.8.2.3.1
Table of performance and error statistics for the ports.
OBJECT-TYPE    
  SEQUENCE OF  
    PddrmMonitorPortEntry

pddrmMonitorPortEntry 2.4.1.43.10.8.2.3.1.1
Performance and error statistics for a single port.
OBJECT-TYPE    
  PddrmMonitorPortEntry  

pddrmMonPortGroupIndex 2.4.1.43.10.8.2.3.1.1.1
This attribute uniquely identifies this group within the repeater, it is part of the index for the port table.
OBJECT-TYPE    
  INTEGER 1..16  

pddrmMonPortIndex 2.4.1.43.10.8.2.3.1.1.2
This attribute uniquely identifies this port within the group, it is part of the index for the port table.
OBJECT-TYPE    
  INTEGER 1..1024  

pddrmMonPortUniCastFrames 2.4.1.43.10.8.2.3.1.1.3
This counter is incremented by one for each readable frame seen by the group that is addressed to a unicast (non group) address.
OBJECT-TYPE    
  Counter  

pddrmMonPortMultiCastFrames 2.4.1.43.10.8.2.3.1.1.4
This counter is incremented by one for each readable frame seen by the group that is addressed to a multicast (non broadcast) address.
OBJECT-TYPE    
  Counter  

pddrmMonPortBroadCastFrames 2.4.1.43.10.8.2.3.1.1.5
This counter is incremented by one for each readable frame seen by the group that is addressed to the broadcast address.
OBJECT-TYPE    
  Counter  

pddrmMonPortClearCounters 2.4.1.43.10.8.2.3.1.1.6
This attribute allows all counters on this Port to be cleared.
OBJECT-TYPE    
  INTEGER noChangeCounters(1), clearCounters(2)  

pddrmMonPortESTFilter 2.4.1.43.10.8.2.3.1.1.7
This attribute passes or filters out entries from this port from going to the End Station Table processing. For instance the backbone port on a repeater would normally have this atribute set to filter, while the UTP ports would normally have this set to pass.
OBJECT-TYPE    
  INTEGER filter(1), pass(2)  

pddrmMonPortMediaAvailableTraps 2.4.1.43.10.8.2.3.1.1.8
This attribute enable/disables traps to be issued when a ports media is lost/regained.
OBJECT-TYPE    
  INTEGER enableMediaTraps(1), disableMediaTraps(2)  

pddrmMonPortAutoPartitionTraps 2.4.1.43.10.8.2.3.1.1.9
This attribute enables/disables traps to be issued when ports autopartition or reconnect.
OBJECT-TYPE    
  INTEGER enablePartitionTraps(1), disablePartitionTraps(2)  

deprSnmpDot3RptrMgt 2.4.1.43.8.4
OBJECT IDENTIFIER    

deprRptrBasicPackage 2.4.1.43.8.4.1
OBJECT IDENTIFIER    

deprRptrMonitorPackage 2.4.1.43.8.4.2
OBJECT IDENTIFIER    

deprRptrAddrTrackPackage 2.4.1.43.8.4.3
OBJECT IDENTIFIER    

deprRptrRptrInfo 2.4.1.43.8.4.1.1
OBJECT IDENTIFIER    

deprRptrGroupInfo 2.4.1.43.8.4.1.2
OBJECT IDENTIFIER    

deprRptrPortInfo 2.4.1.43.8.4.1.3
OBJECT IDENTIFIER    

deprRptrMonitorRptrInfo 2.4.1.43.8.4.2.1
OBJECT IDENTIFIER    

deprRptrMonitorGroupInfo 2.4.1.43.8.4.2.2
OBJECT IDENTIFIER    

deprRptrMonitorPortInfo 2.4.1.43.8.4.2.3
OBJECT IDENTIFIER    

deprRptrAddrTrackRptrInfo 2.4.1.43.8.4.3.1
OBJECT IDENTIFIER    

deprRptrAddrTrackGroupInfo 2.4.1.43.8.4.3.2
OBJECT IDENTIFIER    

deprRptrAddrTrackPortInfo 2.4.1.43.8.4.3.3
OBJECT IDENTIFIER    

deprRptrGroupCapacity 2.4.1.43.8.4.1.1.1
The deprRptrGroupCapacity is the number of groups that can be contained within the repeater. Within each managed repeater, the groups are uniquely numbered in the range from 1 to deprRptrGroupCapacity. Some groups may not be present in a given repeater instance, in which case the actual number of groups present will be less than deprRptrGroupCapacity. The number of groups present will never be greater than deprRptrGroupCapacity. Note: In practice, this will generally be the number of field-replaceable units (i.e., modules, cards, or boards) that can fit in the physical repeater enclosure, and the group numbers will correspond to numbers marked on the physical enclosure.
OBJECT-TYPE    
  INTEGER 1..32  

deprRptrOperStatus 2.4.1.43.8.4.1.1.2
The deprRptrOperStatus object indicates the operational state of the repeater. The deprRptrHealthText object may be consulted for more specific information about the state of the repeater's health. In the case of multiple kinds of failures (e.g., repeater failure and port failure), the value of this attribute shall reflect the highest priority failure in the following order: rptrFailure(3) groupFailure(4) portFailure(5) generalFailure(6)
OBJECT-TYPE    
  INTEGER other(1), ok(2), rptrFailure(3), groupFailure(4), portFailure(5), generalFailure(6)  

deprRptrHealthText 2.4.1.43.8.4.1.1.3
The health text object is a text string that provides information relevant to the operational state of the repeater. Agents may use this mechanism to provide detailed failure information or instructions for problem resolution. The contents are agent-specific.
OBJECT-TYPE    
  DisplayString Size(0..255)  

deprRptrReset 2.4.1.43.8.4.1.1.4
Setting this variable to reset(2) causes a transition to the START state of Fig 9-2 in section 9 [11]. Setting this variable to noReset(1) has no effect. The agent will always return the value noReset(1) when this variable is read. This action does not reset the management counters defined in this document nor does it affect the portAdminState parameters. Included in this action is the execution of a disruptive Self-Test. As a result of this action a deprRptrReset trap may be sent. Note: This action may result in the loss of packets.
OBJECT-TYPE    
  INTEGER noReset(1), reset(2)  

deprRptrNonDisruptTest 2.4.1.43.8.4.1.1.5
Setting this variable to selfTest(2) causes the repeater to perform a agent-specific, non- disruptive self-test that has the following characteristics: (1) The nature of the tests is not specified. (2) The test does not change the state of the repeater or management information about the repeater. (3) The test does not inject packets onto any segment. (4) The test does not prevent the relay of any packets. (5) The test does not interfere with management functions. After performing this test the agent will update the repeater health information. If a change in the repeater health has occurred, the agent will send a deprRptrHealth trap. Setting this variable to noSelfTest(1) has no effect. The agent will always return the value noSelfTest(1) when this variable is read.
OBJECT-TYPE    
  INTEGER noSelfTest(1), selfTest(2)  

deprRptrTotalPartitionedPorts 2.4.1.43.8.4.1.1.6
This object returns the total number of ports in the repeater whose current state meets all three of the following criteria: deprRptrPortOperStatus does not have the value notPresent(3), deprRptrPortAdminStatus is enabled(1), and deprRptrPortAutoPartitionState is autoPartitioned(1).
OBJECT-TYPE    
  Gauge  

deprRptrGroupTable 2.4.1.43.8.4.1.2.1
Table of descriptive and status information about the groups of ports.
OBJECT-TYPE    
  SEQUENCE OF  
    DeprRptrGroupEntry

deprRptrGroupEntry 2.4.1.43.8.4.1.2.1.1
An entry in the table, containing information about a single group of ports.
OBJECT-TYPE    
  DeprRptrGroupEntry  

deprRptrGroupIndex 2.4.1.43.8.4.1.2.1.1.1
This variable identifies the group within the repeater for which this entry contains information. This value is never greater than deprRptrGroupCapacity.
OBJECT-TYPE    
  INTEGER 1..1024  

deprRptrGroupDescr 2.4.1.43.8.4.1.2.1.1.2
A textual description of the group. This value should include the full name and version identification of the group's hardware type and indicate how the group is differentiated from other groups in the repeater. 'Wilma Flintstone 6-Port FOIRL Plug-in Module, Rev A' or 'Barney Rubble 10BASE-T 4-port SIMM socket V. 2.1' are examples of valid group descriptions. It is mandatory that this only contain printable ASCII characters.
OBJECT-TYPE    
  DisplayString Size(0..255)  

deprRptrGroupObjectID 2.4.1.43.8.4.1.2.1.1.3
The vendor's authoritative identification of the group. This value is allocated within the SMI enterprises subtree (1.3.6.1.4.1) and provides a straight-forward and unambiguous means for determining what kind of group is being managed. For example, this variable could take the value 1.3.6.1.4.1.4242.1.2.14 if vendor 'Flintstones, Inc.' was assigned the subtree 1.3.6.1.4.1.4242, and had assigned the identifier 1.3.6.1.4.1.4242.1.2.14 to its 'Wilma Flintstone 6-Port FOIRL Plug-in Module.'
OBJECT-TYPE    
  OBJECT IDENTIFIER  

deprRptrGroupOperStatus 2.4.1.43.8.4.1.2.1.1.4
An object that indicates the operational status of the group. A status of notPresent(4) indicates that the group has been physically removed from the repeater. A status of operational(2) indicates that the group is functioning, and a status of malFunctioning(3) indicates that the group is malfunctioning in some way.
OBJECT-TYPE    
  INTEGER other(1), operational(2), malFunctioning(3), notPresent(4), undertest(5), resetInProgress(6)  

deprRptrGroupLastOperStatusChange 2.4.1.43.8.4.1.2.1.1.5
An object that contains the value of sysUpTime at the time that the value of the deprRptrGroupOperStatus object for this group last changed. A value of zero indicates that the group's oper status has not changed since the agent last restarted.
OBJECT-TYPE    
  TimeTicks  

deprRptrGroupPortCapacity 2.4.1.43.8.4.1.2.1.1.6
The deprRptrGroupPortCapacity is the number of ports that can be contained within the group. Valid range is 1-1024. Within each group, the ports are uniquely numbered in the range from 1 to deprRptrGroupPortCapacity. Note: In practice, this will generally be the number of ports on a module, card, or board, and the port numbers will correspond to numbers marked on the physical embodiment.
OBJECT-TYPE    
  INTEGER 1..1024  

deprRptrPortTable 2.4.1.43.8.4.1.3.1
Table of descriptive and status information about the ports.
OBJECT-TYPE    
  SEQUENCE OF  
    DeprRptrPortEntry

deprRptrPortEntry 2.4.1.43.8.4.1.3.1.1
An entry in the table, containing information about a single port.
OBJECT-TYPE    
  DeprRptrPortEntry  

deprRptrPortGroupIndex 2.4.1.43.8.4.1.3.1.1.1
This variable identifies the group containing the port for which this entry contains information.
OBJECT-TYPE    
  INTEGER 1..1024  

deprRptrPortIndex 2.4.1.43.8.4.1.3.1.1.2
This variable identifies the port within the group within the repeater for which this entry contains management information. This value can never be greater than deprRptrGroupPortCapacity for the associated group.
OBJECT-TYPE    
  INTEGER 1..1024  

deprRptrPortAdminStatus 2.4.1.43.8.4.1.3.1.1.3
Setting this object to disabled(2) disables the port. A disabled port neither transmits nor receives. Once disabled, a port must be explicitly enabled to restore operation. A port which is disabled when power is lost or when a reset is exerted shall remain disabled when normal operation resumes. The admin status takes precedence over auto- partition and functionally operates between the auto-partition mechanism and the AUI/PMA. Setting this object to enabled(1) enables the port and exerts a BEGIN on the port's auto-partition state machine. (In effect, when a port is disabled, the value of deprRptrPortAutoPartitionState for that port is frozen until the port is next enabled. When the port becomes enabled, the deprRptrPortAutoPartitionState becomes notAutoPartitioned(2), regardless of its pre-disabling state.)
OBJECT-TYPE    
  INTEGER enabled(1), disabled(2)  

deprRptrPortAutoPartitionState 2.4.1.43.8.4.1.3.1.1.4
The autoPartitionState flag indicates whether the port is currently partitioned by the repeater's auto-partition protection. The conditions that cause port partitioning are specified in partition state machine in Sect. 9 [11]. They are not differentiated here.
OBJECT-TYPE    
  INTEGER autoPartitioned(1), notAutoPartitioned(2)  

deprRptrPortOperStatus 2.4.1.43.8.4.1.3.1.1.5
This object indicates the port's operational state. The notPresent(3) state indicates the port is physically removed (note this may or may not be possible depending on the type of port.) The operational(1) state indicates that the port is enabled (see deprRptrPortAdminStatus) and working, even though it might be auto-partitioned (see deprRptrPortAutoPartitionState).
OBJECT-TYPE    
  INTEGER operational(1), notOperational(2), notPresent(3)  

deprRptrMonitorTransmitCollisions 2.4.1.43.8.4.2.1.1
This counter is incremented every time the repeater state machine enters the TRANSMIT COLLISION state from any state other than ONE PORT LEFT (Ref: Fig 9-2) [11]. Note: The approximate minimum time for counter rollover is 16 hours.
OBJECT-TYPE    
  Counter  

deprRptrMonitorGroupTable 2.4.1.43.8.4.2.2.1
Table of performance and error statistics for the groups.
OBJECT-TYPE    
  SEQUENCE OF  
    DeprRptrMonitorGroupEntry

deprRptrMonitorGroupEntry 2.4.1.43.8.4.2.2.1.1
An entry in the table, containing total performance and error statistics for a single group. Regular retrieval of the information in this table provides a means of tracking the performance and health of the networked devices attached to this group's ports. The counters in this table are redundant in the sense that they are the summations of information already available through other objects. However, these sums provide a considerable optimization of network management traffic over the otherwise necessary retrieval of the individual counters included in each sum.
OBJECT-TYPE    
  DeprRptrMonitorGroupEntry  

deprRptrMonitorGroupIndex 2.4.1.43.8.4.2.2.1.1.1
This object identifies the group within the repeater for which this entry contains information.
OBJECT-TYPE    
  INTEGER 1..1024  

deprRptrMonitorGroupTotalFrames 2.4.1.43.8.4.2.2.1.1.2
The total number of frames of valid frame length that have been received on the ports in this group. This counter is the summation of the values of the deprRptrMonitorPortReadableFrames counters for all of the ports in the group. This statistic provides one of the parameters necessary for obtaining the packet error rate. The approximate minimum time for rollover of this counter is 80 hours.
OBJECT-TYPE    
  Counter  

deprRptrMonitorGroupTotalOctets 2.4.1.43.8.4.2.2.1.1.3
The total number of octets contained in the valid frames that have been received on the ports in this group. This counter is the summation of the values of the deprRptrMonitorPortReadableOctets counters for all of the ports in the group. This statistic provides an indicator of the total data transferred. The approximate minimum time for rollover of this counter is 58 minutes.
OBJECT-TYPE    
  Counter  

deprRptrMonitorGroupTotalErrors 2.4.1.43.8.4.2.2.1.1.4
The total number of errors which have occurred on all of the ports in this group. This counter is the summation of the values of the deprRptrMonitorPortTotalErrors counters for all of the ports in the group.
OBJECT-TYPE    
  Counter  

deprRptrMonitorPortTable 2.4.1.43.8.4.2.3.1
Table of performance and error statistics for the ports.
OBJECT-TYPE    
  SEQUENCE OF  
    DeprRptrMonitorPortEntry

deprRptrMonitorPortEntry 2.4.1.43.8.4.2.3.1.1
An entry in the table, containing performance and error statistics for a single port.
OBJECT-TYPE    
  DeprRptrMonitorPortEntry  

deprRptrMonitorPortGroupIndex 2.4.1.43.8.4.2.3.1.1.1
This object identifies the group containing the port for which this entry contains information.
OBJECT-TYPE    
  INTEGER 1..16  

deprRptrMonitorPortIndex 2.4.1.43.8.4.2.3.1.1.2
This object identifies the port within the group for which this entry contains information.
OBJECT-TYPE    
  INTEGER 1..1024  

deprRptrMonitorPortReadableFrames 2.4.1.43.8.4.2.3.1.1.3
This object is the number of frames of valid frame length that have been received on this port. This counter is incremented by one for each frame received on this port whose OctetCount is greater than or equal to minFrameSize and less than or equal to maxFrameSize (Ref: IEEE 802.3 Std, 4.4.2.1) and for which the FCSError and CollisionEvent signals are not asserted. This statistic provides one of the parameters necessary for obtaining the packet error rate. The approximate minimum time for rollover of this counter is 80 hours.
OBJECT-TYPE    
  Counter  

deprRptrMonitorPortReadableOctets 2.4.1.43.8.4.2.3.1.1.4
This object is the number of octets contained in valid frames that have been received on this port. This counter is incremented by OctetCount for each frame received on this port which has been determined to be a readable frame. This statistic provides an indicator of the total data transferred. The approximate minimum time for rollover of this counter is 58 minutes.
OBJECT-TYPE    
  Counter  

deprRptrMonitorPortFCSErrors 2.4.1.43.8.4.2.3.1.1.5
This counter is incremented by one for each frame received on this port with the FCSError signal asserted and the FramingError and CollisionEvent signals deasserted and whose OctetCount is greater than or equal to minFrameSize and less than or equal to maxFrameSize (Ref: 4.4.2.1, IEEE 802.3 Std). The approximate minimum time for rollover of this counter is 80 hours.
OBJECT-TYPE    
  Counter  

deprRptrMonitorPortAlignmentErrors 2.4.1.43.8.4.2.3.1.1.6
This counter is incremented by one for each frame received on this port with the FCSError and FramingError signals asserted and CollisionEvent signal deasserted and whose OctetCount is greater than or equal to minFrameSize and less than or equal to maxFrameSize (Ref: IEEE 802.3 Std, 4.4.2.1). If deprRptrMonitorPortAlignmentErrors is incremented then the deprRptrMonitorPortFCSErrors Counter shall not be incremented for the same frame. The approximate minimum time for rollover of this counter is 80 hours.
OBJECT-TYPE    
  Counter  

deprRptrMonitorPortFrameTooLongs 2.4.1.43.8.4.2.3.1.1.7
This counter is incremented by one for each frame received on this port whose OctetCount is greater than maxFrameSize (Ref: 4.4.2.1, IEEE 802.3 Std). If deprRptrMonitorPortFrameTooLongs is incremented then neither the deprRptrMonitorPortAlignmentErrors nor the deprRptrMonitorPortFCSErrors counter shall be incremented for the frame. The approximate minimum time for rollover of this counter is 61 days.
OBJECT-TYPE    
  Counter  

deprRptrMonitorPortShortEvents 2.4.1.43.8.4.2.3.1.1.8
This counter is incremented by one for each CarrierEvent on this port with ActivityDuration less than ShortEventMaxTime. ShortEventMaxTime is greater than 74 bit times and less than 82 bit times. ShortEventMaxTime has tolerances included to provide for circuit losses between a conformance test point at the AUI and the measurement point within the state machine. Note: shortEvents may indicate externally generated noise hits which will cause the repeater to transmit Runts to its other ports, or propagate a collision (which may be late) back to the transmitting DTE and damaged frames to the rest of the network. Implementors may wish to consider selecting the ShortEventMaxTime towards the lower end of the allowed tolerance range to accommodate bit losses suffered through physical channel devices not budgeted for within this standard. The approximate minimum time for rollover of this counter is 16 hours.
OBJECT-TYPE    
  Counter  

deprRptrMonitorPortRunts 2.4.1.43.8.4.2.3.1.1.9
This counter is incremented by one for each CarrierEvent on this port that meets one of the following two conditions. Only one test need be made. a) The ActivityDuration is greater than ShortEventMaxTime and less than ValidPacketMinTime and the CollisionEvent signal is deasserted. b) The OctetCount is less than 64, the ActivityDuration is greater than ShortEventMaxTime and the CollisionEvent signal is deasserted. ValidPacketMinTime is greater than or equal to 552 bit times and less than 565 bit times. An event whose length is greater than 74 bit times but less than 82 bit times shall increment either the shortEvents counter or the runts counter but not both. A CarrierEvent greater than or equal to 552 bit times but less than 565 bit times may or may not be counted as a runt. ValidPacketMinTime has tolerances included to provide for circuit losses between a conformance test point at the AUI and the measurement point within the state machine. Runts usually indicate collision fragments, a normal network event. In certain situations associated with large diameter networks a percentage of runts may exceed ValidPacketMinTime. The approximate minimum time for rollover of this counter is 16 hours.
OBJECT-TYPE    
  Counter  

deprRptrMonitorPortCollisions 2.4.1.43.8.4.2.3.1.1.10
This counter is incremented by one for any CarrierEvent signal on any port for which the CollisionEvent signal on this port is asserted. The approximate minimum time for rollover of this counter is 16 hours.
OBJECT-TYPE    
  Counter  

deprRptrMonitorPortLateEvents 2.4.1.43.8.4.2.3.1.1.11
This counter is incremented by one for each CarrierEvent on this port in which the CollIn(X) variable transitions to the value SQE (Ref: 9.6.6.2, IEEE 802.3 Std) while the ActivityDuration is greater than the LateEventThreshold. Such a CarrierEvent is counted twice, as both a collision and as a lateEvent. The LateEventThreshold is greater than 480 bit times and less than 565 bit times. LateEventThreshold has tolerances included to permit an implementation to build a single threshold to serve as both the LateEventThreshold and ValidPacketMinTime threshold. The approximate minimum time for rollover of this counter is 81 hours.
OBJECT-TYPE    
  Counter  

deprRptrMonitorPortVeryLongEvents 2.4.1.43.8.4.2.3.1.1.12
This counter is incremented by one for each CarrierEvent on this port whose ActivityDuration is greater than the MAU Jabber Lockup Protection timer TW3 (Ref: 9.6.1 & 9.6.5, IEEE 802.3 Std). Other counters may be incremented as appropriate.
OBJECT-TYPE    
  Counter  

deprRptrMonitorPortDataRateMismatches 2.4.1.43.8.4.2.3.1.1.13
This counter is incremented by one for each frame received on this port that meets all of the following conditions: a) The CollisionEvent signal is not asserted. b) The ActivityDuration is greater than ValidPacketMinTime. c) The frequency (data rate) is detectably mismatched from the local transmit frequency. The exact degree of mismatch is vendor specific and is to be defined by the vendor for conformance testing. When this event occurs, other counters whose increment conditions were satisfied may or may not also be incremented, at the implementor's discretion. Whether or not the repeater was able to maintain data integrity is beyond the scope of this standard.
OBJECT-TYPE    
  Counter  

deprRptrMonitorPortAutoPartitions 2.4.1.43.8.4.2.3.1.1.14
This counter is incremented by one for each time the repeater has automatically partitioned this port. The conditions that cause port partitioning are specified in the partition state machine in Section 9 [IEEE 802.3 Std]. They are not differentiated here.
OBJECT-TYPE    
  Counter  

deprRptrMonitorPortTotalErrors 2.4.1.43.8.4.2.3.1.1.15
The total number of errors which have occurred on this port. This counter is the summation of the values of other error counters (for the same port), namely: deprRptrMonitorPortFCSErrors, deprRptrMonitorPortAlignmentErrors, deprRptrMonitorPortFrameTooLongs, deprRptrMonitorPortShortEvents, deprRptrMonitorPortLateEvents, deprRptrMonitorPortVeryLongEvents, and deprRptrMonitorPortDataRateMismatches. This counter is redundant in the sense that it is the summation of information already available through other objects. However, it is included specifically because the regular retrieval of this object as a means of tracking the health of a port provides a considerable optimization of network management traffic over the otherwise necessary retrieval of the summed counters.
OBJECT-TYPE    
  Counter  

deprRptrAddrTrackTable 2.4.1.43.8.4.3.3.1
Table of address mapping information about the ports.
OBJECT-TYPE    
  SEQUENCE OF  
    DeprRptrAddrTrackEntry

deprRptrAddrTrackEntry 2.4.1.43.8.4.3.3.1.1
An entry in the table, containing address mapping information about a single port.
OBJECT-TYPE    
  DeprRptrAddrTrackEntry  

deprRptrAddrTrackGroupIndex 2.4.1.43.8.4.3.3.1.1.1
This object identifies the group containing the port for which this entry contains information.
OBJECT-TYPE    
  INTEGER 1..16  

deprRptrAddrTrackPortIndex 2.4.1.43.8.4.3.3.1.1.2
This object identifies the port within the group for which this entry contains information.
OBJECT-TYPE    
  INTEGER 1..1024  

deprRptrAddrTrackLastSourceAddress 2.4.1.43.8.4.3.3.1.1.3
This object is the SourceAddress of the last readable frame (i.e., counted by deprRptrMonitorPortReadableFrames) received by this port.
OBJECT-TYPE    
  PhysAddress  

deprRptrAddrTrackSourceAddrChanges 2.4.1.43.8.4.3.3.1.1.4
This counter is incremented by one for each time that the deprRptrAddrTrackLastSourceAddress attribute for this port has changed. This may indicate whether a link is connected to a single DTE or another multi-user segment. The approximate minimum time for rollover of this counter is 81 hours.
OBJECT-TYPE    
  Counter  

deprRptrHealth 1
The deprRptrHealth trap conveys information related to the operational state of the repeater. This trap is sent only when the oper status of the repeater changes. The deprRptrHealth trap must contain the deprRptrOperStatus variable. The agent may optionally include the deprRptrHealthText variable in the varBind list. See the deprRptrOperStatus and deprRptrHealthText objects for descriptions of the information that is sent. The agent must throttle the generation of consecutive deprRptrHealth traps so that there is at least a five-second gap between them.
TRAP-TYPE    

deprRptrGroupChange 2
This trap is sent when a change occurs in the group structure of a repeater. This occurs only when a group is logically removed from or added to a repeater. The varBind list contains the identifier of the group that was removed or added. The agent must throttle the generation of consecutive deprRptrGroupChange traps for the same group so that there is at least a five-second gap between them.
TRAP-TYPE    

deprRptrResetEvent 3
The deprRptrReset trap conveys information related to the operational state of the repeater. This trap is sent on completion of a repeater reset action. A repeater reset action is defined as an a transition to the START state of Fig 9-2 in section 9 [11], when triggered by a management command (e.g., an SNMP Set on the deprRptrReset object). The agent must throttle the generation of consecutive deprRptrReset traps so that there is at least a five-second gap between them. The deprRptrReset trap is not sent when the agent restarts and sends an SNMP coldStart or warmStart trap. However, it is recommended that a repeater agent send the deprRptrHealth variables as optional variables with its coldStart and warmStart trap PDUs. The deprRptrOperStatus variable must be included in the varbind list sent with this trap. The agent may optionally include the deprRptrHealthText variable as well.
TRAP-TYPE    

deprSnmpDot3RpMauMgt 2.4.1.43.8.5
OBJECT IDENTIFIER    

deprRpMauBasicGroup 2.4.1.43.8.5.1
OBJECT IDENTIFIER    

deprRpMauTable 2.4.1.43.8.5.1.1
Table of descriptive and status information about the groups of ports.
OBJECT-TYPE    
  SEQUENCE OF  
    DeprRpMauEntry

deprRpMauEntry 2.4.1.43.8.5.1.1.1
An entry in the table, containing information about a single group of ports.
OBJECT-TYPE    
  DeprRpMauEntry  

deprRpMauGroupIndex 2.4.1.43.8.5.1.1.1.1
This variable uniquely identifies the repeater group that contains the port to which is connected the MAU for which this entry contains information.
OBJECT-TYPE    
  INTEGER 1..1024  

deprRpMauPortIndex 2.4.1.43.8.5.1.1.1.2
This variable uniquely identifies the repeater port to which is connected the MAU for which this entry contains information.
OBJECT-TYPE    
  INTEGER 1..1024  

deprRpMauIndex 2.4.1.43.8.5.1.1.1.3
This variable uniquely identifies the MAU for which this entry contains information.
OBJECT-TYPE    
  INTEGER 1..1024  

deprRpMauType 2.4.1.43.8.5.1.1.1.4
A value that identifies the 10 Mb/s baseband MAU type. The enumeration of the type is such that the value matches the section number of the IEEE 802.3 standard that specifies the particular MAU.
OBJECT-TYPE    
  INTEGER other(1), unknown(2), aui(7), tenbase5(8), foirl(9), tenbase2(10), tenbaseT(14), tenbaseFP(16), tenbaseFB(17), tenbaseFL(18)  

deprRpMauAdminState 2.4.1.43.8.5.1.1.1.5
The administrative state of the MAU. This object may be implemented as a read-only object by those agents and MAUs that do not implement software control of the administrative state. A MAU in the operational(3) state is fully functional, operates, and passes signals to its attached DTE or repeater port in accordance to its specification. A MAU in standby(4) state forces DI and CI and the media transmitter to idle. Standby(4) mode only applies to link type MAUs. The state of mauMediaAvailable is unaffected. A MAU in shutdown(5) state assumes the same condition on DI, CI, and the media transmitter as if it were powered down. The MAU may return other(1) state for the mauJabber and mauMediaAvailable objects when it is in this state. For an AUI, this state will remove power from the AUI. Setting this variable to the value reset(6) resets the MAU in the same manner as a power-off, power- on cycle would. Setting this variable to the value operational(3), standby(4), or shutdown(5) causes the MAU to assume the respective state except that setting a mixing-type MAU or an AUI to standby(4) will cause the MAU to enter the shutdown state.
OBJECT-TYPE    
  INTEGER other(1), unknown(2), operational(3), standby(4), shutdown(5), reset(6)  

deprRpMauMediaAvailable 2.4.1.43.8.5.1.1.1.6
If the MAU is a link or fiber type (FOIRL, 10BASE-T, 10BASE-F) then this is equivalent to the link integrity/low light state. For an AUI or coax MAU this indicates whether or not loopback is detected on the DI circuit. The value of this attribute persists between packets for MAU types AUI, 10BASE5, 10BASE2, and 10BASE-FP. NOTE: IEEE 802.3 modified the following descriptive text at their meeting the week of 3/9/92. New text will be provided at the San Diego IETF plenary. At power-up or following a reset, the value of this attribute will be unknown for AUI, coax, and 10BASE-FP MAUs. For these MAUs loopback will be tested on each transmission during which no collision is detected. If DI receives input within startUpDelay of the start of output on DO, loopback will be detected. The value of startUpDelay shall be between 15 and 25 BT (bit times). Transition form input to output_idle on DI while output is present on DO may also be detected on loopback. The value of this attribute will only change during non-collided transmissions for AUI, coax, and 10BASE-FP MAUs.
OBJECT-TYPE    
  INTEGER other(1), unknown(2), present(3), notPresent(4), remoteFault(5), invalidSignal(6)  

deprRpMauLostMedias 2.4.1.43.8.5.1.1.1.7
A count of the number of times that deprRpMauMediaAvailable for this MAU instance leaves the state available(3). Implementation of this object is mandatory for MAU instances with deprRpMauType of AUI(7). It is recommended for all MAU types.
OBJECT-TYPE    
  Counter  

deprRpMauJabberState 2.4.1.43.8.5.1.1.1.8
If the MAU is in jabber state the attribute is set to the jabbering(4) value. This object returns the value other(1) for MAU type AUI.
OBJECT-TYPE    
  INTEGER other(1), unknown(2), noJabber(3), jabbering(4)  

deprRpMauJabbers 2.4.1.43.8.5.1.1.1.9
A count of the number of times that deprRpMauJabberState for this MAU instance enters the state jabbering(4).
OBJECT-TYPE    
  Counter  

deprRpMauJabberTrap 24
This trap is sent whenever a managed MAU enters the jabber state. The agent must throttle the generation of consecutive deprRpMauJabberTraps so that there is at least a five-second gap between them.
TRAP-TYPE    

ifExtensions 2.2.1.12
OBJECT IDENTIFIER    

ifExtnsTable 2.4.1.43.10.1.2.1
A list of interfaces extension entries. The number of entries is given by the value of ifNumber, defined in [4,6].
OBJECT-TYPE    
  SEQUENCE OF  
    IfExtnsEntry

ifExtnsEntry 2.4.1.43.10.1.2.1.1
An extension to the interfaces entry, defined in [4,6], containing additional objects at the subnetwork layer and below for a particular interface.
OBJECT-TYPE    
  IfExtnsEntry  

ifExtnsIfIndex 2.4.1.43.10.1.2.1.1.1
The value of this object identifies the interface for which this entry contains extended management information. The value of this object for a particular interface has the same value as the ifIndex object, defined in [4,6], for the same interface.
OBJECT-TYPE    
  INTEGER  

ifExtnsChipSet 2.4.1.43.10.1.2.1.1.2
This object identifies the hardware chip set being used in the interface. The assignment of OBJECT IDENTIFIERs to various types of hardware chip sets is managed by the IANA. If the hardware chip set is unknown, the object identifier unknownChipSet OBJECT IDENTIFIER ::= { 0 0 } is returned. Note that unknownChipSet is a syntactically valid object identifier, and any conformant implementation of ASN.1 and the BER must be able to generate and recognize this value.
OBJECT-TYPE    
  OBJECT IDENTIFIER  

ifExtnsRevWare 2.4.1.43.10.1.2.1.1.3
An arbitrary octet string that describes the firmware version of this interface. It is intended that this should be human readable. It must only contain ASCII printable characters. Typically this will be the firmware version of the main interface software.
OBJECT-TYPE    
  DisplayString Size(0..255)  

ifExtnsMulticastsTransmittedOks 2.4.1.43.10.1.2.1.1.4
The count of frames successfully transmitted to a subnetwork or link-layer multicast destination address other than a broadcast address. For a MAC layer protocol, this includes both Group and Functional addresses.
OBJECT-TYPE    
  Counter  

ifExtnsBroadcastsTransmittedOks 2.4.1.43.10.1.2.1.1.5
The count of frames successfully transmitted to a subnetwork or link-layer broadcast addresses. It does not include frames sent to a multicast address.
OBJECT-TYPE    
  Counter  

ifExtnsMulticastsReceivedOks 2.4.1.43.10.1.2.1.1.6
The count of frames successfully received that are directed to an active subnetwork or link-layer multicast address (for a MAC layer protocol, this includes both Group and Functional addresses). This does not include frames directed to a broadcast address, nor frames received with errors.
OBJECT-TYPE    
  Counter  

ifExtnsBroadcastsReceivedOks 2.4.1.43.10.1.2.1.1.7
The count of frames successfully received that are directed to a subnetwork or link-layer broadcast address. This does not include frames received with errors.
OBJECT-TYPE    
  Counter  

ifExtnsPromiscuous 2.4.1.43.10.1.2.1.1.8
This object has a value of false(2) if this interface only accepts packets/frames that are addressed to this station. This object has a value of true(1) when the station accepts all packets/frames transmitted on the media. The value true(1) is only legal on certain types of media. If legal, setting this object to a value of true(1) may require the interface to be reset before becoming effective.
OBJECT-TYPE    
  INTEGER true(1), false(2)  

faultModifiedFlag 2.4.1.43.10.19.1
In order to ensure a clean read of the Fault table this flag should be set to clean_read when commencing to read the table and should be examined after reading the entire table. If still set to clean_read then the table read is okay, if not the table should be re-read as it has been modified during the read process.
OBJECT-TYPE    
  INTEGER clean-read(1), modified(2)  

faultTable 2.4.1.43.10.19.2
The Fault Table.
OBJECT-TYPE    
  SEQUENCE OF  
    FaultEntry

faultEntry 2.4.1.43.10.19.2.1
Information relating to a single fault.
OBJECT-TYPE    
  FaultEntry  

faultIndex 2.4.1.43.10.19.2.1.1
The index into the Fault table. The initial read from the table should be read as the next, from an index of 0; subsequent reads should read the next from the index returned by the previous read.
OBJECT-TYPE    
  INTEGER  

faultErrorNumber 2.4.1.43.10.19.2.1.2
This error number for this fault log entry.
OBJECT-TYPE    
  INTEGER  

faultTimeStamp 2.4.1.43.10.19.2.1.3
The time since startup, in milliseconds, when the fault occurred.
OBJECT-TYPE    
  TimeTicks  

faultRestartCount 2.4.1.43.10.19.2.1.4
The number of restarts at time of fault.
OBJECT-TYPE    
  INTEGER  

mrmBasicPackage 2.4.1.43.10.17.1
OBJECT IDENTIFIER    

mrmMonitorPackage 2.4.1.43.10.17.2
OBJECT IDENTIFIER    

mrmBasCardPackage 2.4.1.43.10.17.1.1
OBJECT IDENTIFIER    

mrmBasPortPackage 2.4.1.43.10.17.1.2
OBJECT IDENTIFIER    

mrmMonRepeaterPackage 2.4.1.43.10.17.2.1
OBJECT IDENTIFIER    

mrmMonCardPackage 2.4.1.43.10.17.2.2
OBJECT IDENTIFIER    

mrmMonPortPackage 2.4.1.43.10.17.2.3
OBJECT IDENTIFIER    

mrmMonDummyPackage 2.4.1.43.10.17.2.4
OBJECT IDENTIFIER    

mrmMonRepeaterSmartPackage 2.4.1.43.10.17.2.5
OBJECT IDENTIFIER    

mrmMonCardSmartPackage 2.4.1.43.10.17.2.6
OBJECT IDENTIFIER    

mrmMonPortSmartPackage 2.4.1.43.10.17.2.7
OBJECT IDENTIFIER    

mrmCardTable 2.4.1.43.10.17.1.1.1
Table of descriptive and status information about the groups of ports.
OBJECT-TYPE    
  SEQUENCE OF  
    MrmCardEntry

mrmCardEntry 2.4.1.43.10.17.1.1.1.1
An entry in the table, containing information about a single group of ports.
OBJECT-TYPE    
  MrmCardEntry  

mrmCardServiceId 2.4.1.43.10.17.1.1.1.1.1
This identifies one of the repeaters within the chassis as the target of a request.
OBJECT-TYPE    
  INTEGER  

mrmCardIndex 2.4.1.43.10.17.1.1.1.1.2
This object identifies the card within the repeater for which this entry contains information.
OBJECT-TYPE    
  INTEGER  

mrmCardPortCapacity 2.4.1.43.10.17.1.1.1.1.3
The mrmCardPortCapacity is the number of ports that can be contained within the group. Valid range is 1-1024. Within each group, the ports are uniquely numbered in the range from 1 to mrmCardPortCapacity. Note: In practice, this will generally be the number of ports on a module, card, or board, and the port numbers will correspond to numbers marked on the physical embodiment.
OBJECT-TYPE    
  INTEGER  

mrmCardTest 2.4.1.43.10.17.1.1.1.1.4
An object that allows the user to test the operation of a card. Writing test(2) to this object forces the card to perform a disruptive test to determine if the card is functioning properly. Reading this object while the card is under test return the value testing(3). When the test is completed, reading this value will return either passed(4) or failed(5).
OBJECT-TYPE    
  INTEGER noTest(1), test(2), testing(3), passed(4), failed(5)  

mrmCardDOBPorts 2.4.1.43.10.17.1.1.1.1.5
MSH Repeater Cards have the ability to disable ports at power up or reset. Ports configured in this way are useful for configuring resilient links because they prevent loops in the network from occurring at startup. The disable on boot feature is determined according to a hardware strap which cannot be changed via software. This parameter is a mask containing a single bit for each port on the card. Port 1 is represented by bit 0 and so-on. If a bit representing a particular port is 0 this port boots up disabled. If the bit is a 1 the port boots up enabled. This parameter allows the state of these parameters to be rapidly determined by a network management application.
OBJECT-TYPE    
  INTEGER  

mrmCardMDIenable 2.4.1.43.10.17.1.1.1.1.6
10Base-T line cards are normally configured (mdi_disabled(2)) to link to an external network device ( internal crossover ). Port 1 may be configured ( mdi_enabled(3) ) to link to another 10Base-T line card ( with no internal crossover ). This parameter allows the configuration to be determined. Note ECS line cards show unknown(1) since the configuration cannot be accessed via the management interface.
OBJECT-TYPE    
  INTEGER unknown(1), mdiDisabled(2), mdiEnabled(3), notApplicable(4)  

mrmPortTable 2.4.1.43.10.17.1.2.1
Table of descriptive and status information about the ports.
OBJECT-TYPE    
  SEQUENCE OF  
    MrmPortEntry

mrmPortEntry 2.4.1.43.10.17.1.2.1.1
An entry in the table, containing information about a single port.
OBJECT-TYPE    
  MrmPortEntry  

mrmPortServiceId 2.4.1.43.10.17.1.2.1.1.1
This object identifies the repeater which this entry contains information.
OBJECT-TYPE    
  INTEGER  

mrmPortCardIndex 2.4.1.43.10.17.1.2.1.1.2
This object identifies the group containing the port for which this entry contains information.
OBJECT-TYPE    
  INTEGER  

mrmPortIndex 2.4.1.43.10.17.1.2.1.1.3
This object identifies the port within the group for which this entry contains information. This value can never be greater than mrmCardPortCapacity for the associated group.
OBJECT-TYPE    
  INTEGER  

mrmPortInterfaceType 2.4.1.43.10.17.1.2.1.1.4
This object specifies the type of electrical interface made available at the interface to the card for this port. The interface does not necessarily specify what the actual media to end station is.
OBJECT-TYPE    
  INTEGER unknown(1), maleAUI(2), femaleAUI(3), thinCoax(4), twistedPair(5), unshieldedTP(6), fiber(7)  

mrmPortConnectorType 2.4.1.43.10.17.1.2.1.1.5
This specifies the type of the physical connector through which one would attach to this card. This is distinct from the media type. For example UTP may be connected to the port via either an RJ45 or a Telco connector.
OBJECT-TYPE    
  INTEGER unknown(1), rj45(2), telco(3), st(4), sma(5), dtype-15(6), bnc(7)  

mrmPortAdminStatus 2.4.1.43.10.17.1.2.1.1.6
Setting this object to disabled(2) disables the port. A disabled port neither transmits nor receives. Once disabled, a port must be explicitly enabled to restore operation. A port which is disabled when power is lost or when a reset is exerted shall remain disabled when normal operation resumes. The admin status takes precedence over auto- partition and functionally operates between the auto-partition mechanism and the AUI/PMA. Setting this object to enabled(1) enables the port and exerts a BEGIN on the port's auto-partition state machine. In effect, when a port is disabled, the value of mrmPortAutoPartitionState for that port is frozen until the port is next enabled. When the port becomes enabled, the mrmPortAutoPartitionState becomes notAutoPartitioned(2), regardless of its pre-disabling state.)
OBJECT-TYPE    
  INTEGER enabled(1), disabled(2)  

mrmPortAutoPartitionState 2.4.1.43.10.17.1.2.1.1.7
The autoPartitionState flag indicates whether the port is currently partitioned by the repeater's auto-partition protection. The conditions that cause port partitioning are specified in partition state machine in Section 9 IEEE 802.3 Std]. They are not differentiated here.
OBJECT-TYPE    
  INTEGER partitioned(1), unpartitioned(2)  

mrmPortLinkState 2.4.1.43.10.17.1.2.1.1.8
This object reflects the presence or absence of signal on this port. The signal may be either light in the case of fiber, or general link present in the case of copper. The value of this parameter is correct regardless of the state the admin state or the partition state.
OBJECT-TYPE    
  INTEGER present(1), absent(2)  

mrmPortBootState 2.4.1.43.10.17.1.2.1.1.9
A repeater port may be enabled or disabled after a reset. This parameter indicates the default for this port.
OBJECT-TYPE    
  INTEGER disable(1), enable(2)  

mrmPortESTFilter 2.4.1.43.10.17.1.2.1.1.10
This attribute determines whether and which address information is extracted from packets received on a port and forwarded to the end station database. It is recommended that this attribute be disabled for inter-repeater links to prevent the database being filled with remote information. To disable this feature for all address types write the value forwardNone (128) to this variable.
OBJECT-TYPE    
  INTEGER forwardMAC(1), forwardIP(2), forwardAll(127), forwardNone(128)  

mrmPortPartitionEvent 2.4.1.43.10.17.1.2.1.1.11
Specifies whether a trap should be sent if the port partition state changes.
OBJECT-TYPE    
  INTEGER enabled(1), disabled(2)  

mrmPortLinkStateEvent 2.4.1.43.10.17.1.2.1.1.12
Specifies whether a trap should be sent if the link state changes.
OBJECT-TYPE    
  INTEGER enabled(1), disabled(2)  

mrmPortSecurityAvailable 2.4.1.43.10.17.1.2.1.1.13
Specifies whether security is an available feature on this port. Only ports that have this feature available can have an entry in the repeater security table.
OBJECT-TYPE    
  INTEGER available(1), notAvailable(2)  

mrmPortLinkPulse 2.4.1.43.10.17.1.2.1.1.14
This attribute determines if link pulse generating and monitoring is enabled or disabled for a 10BaseT port. The attribute may take the values of enabled (standard) or disabled (non standard).
OBJECT-TYPE    
  INTEGER enabled(1), disabled(2), notApplicable(3)  

mrmPortModule 2.4.1.43.10.17.1.2.1.1.15
This attribute indicates whether the port is a modular port or not.
OBJECT-TYPE    
  INTEGER unknown(1), modularPort(2), notModularPort(3)  

mrmPortDUDAction 2.4.1.43.10.17.1.2.1.1.16
DUD Action for this port.
OBJECT-TYPE    
  INTEGER noAction(1), notify(2), disconnect(3)  

mrmPortFunction 2.4.1.43.10.17.1.2.1.1.17
This atribute indicates the function of the port.
OBJECT-TYPE    
  INTEGER unknown(1), repeater(2), bridge(3)  

mrmMonitorRepTable 2.4.1.43.10.17.2.1.1
Table of performance and error statistics for the ports.
OBJECT-TYPE    
  SEQUENCE OF  
    MrmMonitorRepEntry

mrmMonitorRepEntry 2.4.1.43.10.17.2.1.1.1
This table provides statistical and control information concerning the entire repeater.
OBJECT-TYPE    
  MrmMonitorRepEntry  

mrmMonRepServiceId 2.4.1.43.10.17.2.1.1.1.1
This parameter is used as the index in this table. A modular chassis contains potentially many repeater services. Each repeater service contains a number of cards (or groups). This parameter allows one of those repeaters to be selected.
OBJECT-TYPE    
  INTEGER  

mrmMonRepReadableFrames 2.4.1.43.10.17.2.1.1.1.2
This counter is incremented by one for each frame whose OctetCount is greater than or equal to minFrameSize and less than or equal to maxFrameSize and for which FCSError is not asserted that is received by the repeater. NOTE: This counter does not really exist. It is calculated by adding together all the port counters within this repeater.
OBJECT-TYPE    
  Counter  

mrmMonRepUnicastFrames 2.4.1.43.10.17.2.1.1.1.3
This counter is incremented by one for each readable frame seen by the Repeater that is addressed to a unicast (non Card) address.
OBJECT-TYPE    
  Counter  

mrmMonRepMulticastFrames 2.4.1.43.10.17.2.1.1.1.4
This counter is incremented by one for each readable frame seen by the Repeater that is addressed to a multicast (non broadcast) address.
OBJECT-TYPE    
  Counter  

mrmMonRepBroadcastFrames 2.4.1.43.10.17.2.1.1.1.5
This counter is incremented by one for each readable frame seen by the Repeater that is addressed to the broadcast address ffffffffffff.
OBJECT-TYPE    
  Counter  

mrmMonRepReadableOctets 2.4.1.43.10.17.2.1.1.1.6
This counter is incremented by the octet count for each readable frame received by the repeater. NOTE: This counter does not really exist. It is calculated by adding together all the port counters within this repeater.
OBJECT-TYPE    
  Counter  

mrmMonRepUnicastOctets 2.4.1.43.10.17.2.1.1.1.7
This object is the number of octets contained in valid frames that have been received on this port in which the destination field was a unicast address. The approximate minimum time for rollover of this counter is 58 minutes.
OBJECT-TYPE    
  Counter  

mrmMonRepMulticastOctets 2.4.1.43.10.17.2.1.1.1.8
This object is the number of octets contained in valid frames that have been received on this port in which the destination was a multicast address. The approximate minimum time for rollover of this counter is 58 minutes.
OBJECT-TYPE    
  Counter  

mrmMonRepBroadcastOctets 2.4.1.43.10.17.2.1.1.1.9
This object is the number of octets contained in valid frames that have been received on this port in which the destination was the broadcast address ffffffffffff. By attaching a gauge to this counter one can monitor the port for broadcast storms. Action can then be taken to automatically recover network normal operation. The approximate minimum time for rollover of this counter is 58 minutes.
OBJECT-TYPE    
  Counter  

mrmMonRepFCSErrors 2.4.1.43.10.17.2.1.1.1.10
This counter is incremented by one for each frame with an FCS error that does not have a framing error and which is of legal frame size received by the repeater. NOTE: This counter does not really exist. It is calculated by adding together all the port counters within this repeater.
OBJECT-TYPE    
  Counter  

mrmMonRepAlignmentErrors 2.4.1.43.10.17.2.1.1.1.11
This counter is incremented by one for each frame with an FCS error that does have a framing error and which is of legal frame size received by the repeater. NOTE: This counter does not really exist. It is calculated by adding together all the port counters within this repeater.
OBJECT-TYPE    
  Counter  

mrmMonRepFrameTooLongs 2.4.1.43.10.17.2.1.1.1.12
This counter is incremented by one for each frame whose octet count is greater than the max frame size that is received by the repeater. NOTE: This counter does not really exist. It is calculated by adding together all the port counters within this repeater.
OBJECT-TYPE    
  Counter  

mrmMonRepShortEvents 2.4.1.43.10.17.2.1.1.1.13
This counter is incremented by one for each carrier event whose duration is less than short event max time that is detected by the repeater. NOTE: This counter does not really exist. It is calculated by adding together all the port counters within this repeater.
OBJECT-TYPE    
  Counter  

mrmMonRepRunts 2.4.1.43.10.17.2.1.1.1.14
This counter is incremented by one for each carrier event whose duration is greater than short event max time and less than valid packet min time and which does not suffer a collision detected by the repeater. NOTE: This counter does not really exist. It is calculated by adding together all the port counters within this repeater.
OBJECT-TYPE    
  Counter  

mrmMonRepTxCollisions 2.4.1.43.10.17.2.1.1.1.15
This counter is incremented by one for any CarrierEvent signal on any port of this repeater for which the CollisionEvent signal on this port is asserted. The approximate minimum time for rollover of this counter is 16 hours.
OBJECT-TYPE    
  Counter  

mrmMonRepLateEvents 2.4.1.43.10.17.2.1.1.1.16
This counter is incremented by one each time a collisions occurs after valid packet min time, a late event is counted as both a collision and as a late event. NOTE: This counter does not really exist. It is calculated by adding together all the port counters within this repeater.
OBJECT-TYPE    
  Counter  

mrmMonRepVeryLongEvents 2.4.1.43.10.17.2.1.1.1.17
This counter is incremented by one each time a carrier event occurs whose duration is greater than the MAU Jabber Lockup Protection time. NOTE: This counter does not really exist. It is calculated by adding together all the port counters within this repeater.
OBJECT-TYPE    
  Counter  

mrmMonRepDataRateMismatches 2.4.1.43.10.17.2.1.1.1.18
This counter is incremented by one each time a packet has been received by this repeater with the data rate detectably mismatched from the local frequency. NOTE: This counter does not really exist. It is calculated by adding together all the port counters within this repeater.
OBJECT-TYPE    
  Counter  

mrmMonRepAutoPartitions 2.4.1.43.10.17.2.1.1.1.19
This counter is incremented by one each time the repeater has automatically partitioned any port. NOTE: This counter does not really exist. It is calculated by adding together all the port counters within this repeater.
OBJECT-TYPE    
  Counter  

mrmMonRepTotalErrors 2.4.1.43.10.17.2.1.1.1.20
The total number of errors which have occurred on all ports on all groups of this repeater. This counter is the summation of the values of the mrmMonCardTotalErrors counters for all of the cards in the repeater. It is the sum of the following: FCS, Alignment, Frames Too Long, Short Events, Late Events, Very Long Events and Data Rate Mismatches. As a general indicator the individual error counters are too detailed. This parameter gives a very good monitor type parameter.
OBJECT-TYPE    
  Counter  

mrmMonRepBound0 2.4.1.43.10.17.2.1.1.1.21
This object is a summation of the number of frames (including error frames) with a length of 64 octets which were received by each port on every card of this repeater.
OBJECT-TYPE    
  Counter  

mrmMonRepBound1 2.4.1.43.10.17.2.1.1.1.22
This object is a summation of the number of frames (including error frames) with a length of between 65 and 127 octets inclusive which were received by each port on every card of this repeater.
OBJECT-TYPE    
  Counter  

mrmMonRepBound2 2.4.1.43.10.17.2.1.1.1.23
This object is a summation of the number of frames (including error frames) with a length of between 128 and 255 octets inclusive which were received by each port on every card of this repeater.
OBJECT-TYPE    
  Counter  

mrmMonRepBound3 2.4.1.43.10.17.2.1.1.1.24
This object is a summation of the number of frames (including error frames) with a length of between 256 and 511 octets inclusive which were received by each port on every card of this repeater.
OBJECT-TYPE    
  Counter  

mrmMonRepBound4 2.4.1.43.10.17.2.1.1.1.25
This object is a summation of the number of frames (including error frames) with a length of between 512 and 1023 octets inclusive which were received by each port on every card of this repeater.
OBJECT-TYPE    
  Counter  

mrmMonRepBound5 2.4.1.43.10.17.2.1.1.1.26
This object is a summation of the number of frames (including error frames) with a length of between 1024 and 1518 octets inclusive which were received by each port on every card of this repeater.
OBJECT-TYPE    
  Counter  

mrmMonRepAction 2.4.1.43.10.17.2.1.1.1.27
This object allows repeater stats specific actions to be implemented. There is only one action currently defined, 'clearCounters'. Writing this value to a repeater entry will clear ALL counters in this repeater. That include port stats, card and repeater totals. If this object is read then noAction will be returned.
OBJECT-TYPE    
  INTEGER clearCounters(1), noAction(128)  

mrmMonRepBandwidthUsed 2.4.1.43.10.17.2.1.1.1.28
This is a high level 'smart MIB' object. This object provides a running average of the bandwidth in use. This value is calculated locally on the agent and so does not require processor bandwidth from the management station or occupy valuable network bandwidth communicating with that station. By default an agent supporting this parameter will exhibit the following characteristics: 1) The parameter will be recalculated at approx 15 second intervals 2) Every calculation period the device will read the value of rptrMonitorPortReadableOctets. 3) The calculation will be performed on the most recent 4 samples as follows: 4 Sum(sample(i)/(time(i) * K)) * 100/4 i=1 Sample(i) is rptrMonitorPortReadableOctets(i)-rptrMonitorPortReadableOctets(i-1) time(i) is the time between sample(i-1) and sample(i) K is the max bytes per unit time (i.e. the available bandwidth K depends on the ring speed. The value is expressed as a percentage. A default threshold exists on this average so that if a calculated average exceeds 15% a trap will be sent to the management station. Further traps will not be sent until the average drops to below 10%. A particular device may provide a means of changing the number of samples, the averaging period, threshold and threshold action if it so wishes.
OBJECT-TYPE    
  Counter  

mrmMonRepErrorsPer10000Packets 2.4.1.43.10.17.2.1.1.1.29
This is a high level 'smart MIB' object. This object provides a running average of the bandwidth in use. The value of this value is calculated locally on the agent and so does not require processor bandwidth from a management station or occupy valuable network bandwidth communicating with that station. By default an agent supporting this parameter will exhibit the following behaviour: 1) The parameter will be recalculated at approx 15 second intervals. 2) Every calculation period the device will read the value of rptrMonitorPortTotalErrors and rptrMonitorPortReadableFrames. 3) The calculation will be performed on the most recent 4 samples as follows: 4 10000 * Sum(Errors(i)/Frames(i)) i=1 Errors(i) = rptrMonitorPortTotalErrors(i)-rptrMonitorPortTotalErrors(i-1) Frames(i) = rptrMonitorPortReadableFrames(i)-rptrMonitorPortReadableFrames(i-1) The value is an integer number of errors per 10,000 packets received by this repeater. A default threshold exists on this average so that if a calculated average exceeds 200 (i.e. 2% of frames are in error) a trap will be sent to the management station. Further traps will not be sent until the average drops to below 100 (i.e. 1% of frames are in error). A particular device may provide a means of changing the number of samples, the averaging period and threshold if it so wishes.
OBJECT-TYPE    
  Counter  

mrmMonitorCardTable 2.4.1.43.10.17.2.2.1
This table contains parameters about the various repeater cards within the chassis. The table is indexed using the 'serviceIndex' for the repeater and the slot number within that repeater.
OBJECT-TYPE    
  SEQUENCE OF  
    MrmMonitorCardEntry

mrmMonitorCardEntry 2.4.1.43.10.17.2.2.1.1
Status information and control variables for the ports on a single card.
OBJECT-TYPE    
  MrmMonitorCardEntry  

mrmMonCardServiceId 2.4.1.43.10.17.2.2.1.1.1
This parameter is used as the first of two indices in this table. A modular chassis contains potentially many repeater services. Each repeater service contains a number of cards (or groups). In order to uniquely identify a port it is necessary to specify both the repeater service and the card within that repeater.
OBJECT-TYPE    
  INTEGER  

mrmMonCardIndex 2.4.1.43.10.17.2.2.1.1.2
This is the second part of the key on this table. Having selected one of the repeaters within the chassis it is necessary to identify the card within that repeater.
OBJECT-TYPE    
  INTEGER  

mrmMonCardReadableFrames 2.4.1.43.10.17.2.2.1.1.3
This counter is incremented by one for each frame whose OctetCount is greater than or equal to minFrameSize and less than or equal to maxFrameSize and for which FCSError is not asserted that is received for any port on this card.
OBJECT-TYPE    
  Counter  

mrmMonCardUnicastFrames 2.4.1.43.10.17.2.2.1.1.4
This counter is incremented by one for each readable frame seen by the Card that is addressed to a unicast (non Card) address.
OBJECT-TYPE    
  Counter  

mrmMonCardMulticastFrames 2.4.1.43.10.17.2.2.1.1.5
This counter is incremented by one for each readable frame seen by the Card that is addressed to a multicast (non broadcast) address.
OBJECT-TYPE    
  Counter  

mrmMonCardBroadcastFrames 2.4.1.43.10.17.2.2.1.1.6
This counter is incremented by one for each readable frame seen by the Card that is addressed to the broadcast address ffffffffffff.
OBJECT-TYPE    
  Counter  

mrmMonCardReadableOctets 2.4.1.43.10.17.2.2.1.1.7
This counter is incremented by the octet count for each readable frame received by any port on this card.
OBJECT-TYPE    
  Counter  

mrmMonCardUnicastOctets 2.4.1.43.10.17.2.2.1.1.8
This object is the number of octets contained in valid frames that have been received on this port in which the destination field was a unicast address. The approximate minimum time for rollover of this counter is 58 minutes.
OBJECT-TYPE    
  Counter  

mrmMonCardMulticastOctets 2.4.1.43.10.17.2.2.1.1.9
This object is the number of octets contained in valid frames that have been received on this port in which the destination was a multicast address. The approximate minimum time for rollover of this counter is 58 minutes.
OBJECT-TYPE    
  Counter  

mrmMonCardBroadcastOctets 2.4.1.43.10.17.2.2.1.1.10
This object is the number of octets contained in valid frames that have been received on this port in which the destination was the broadcast address ffffffffffff. By attaching a gauge to this counter one can monitor the port for broadcast storms. Action can then be taken to automatically recover network normal operation. The approximate minimum time for rollover of this counter is 58 minutes.
OBJECT-TYPE    
  Counter  

mrmMonCardFCSErrors 2.4.1.43.10.17.2.2.1.1.11
This counter is incremented by one for each frame with an FCS error that does not have a framing error and which is of legal frame size.
OBJECT-TYPE    
  Counter  

mrmMonCardAlignmentErrors 2.4.1.43.10.17.2.2.1.1.12
This counter is incremented by one for each frame with an FCS error that does have a framing error and which is of legal frame size .
OBJECT-TYPE    
  Counter  

mrmMonCardFrameTooLongs 2.4.1.43.10.17.2.2.1.1.13
This counter is incremented by one for each frame whose octet count is greater than the max frame size that is received by the repeater.
OBJECT-TYPE    
  Counter  

mrmMonCardShortEvents 2.4.1.43.10.17.2.2.1.1.14
This counter is incremented by one for each carrier event whose duration is less than short event max time that is detected.
OBJECT-TYPE    
  Counter  

mrmMonCardRunts 2.4.1.43.10.17.2.2.1.1.15
This counter is incremented by one for each carrier event whose duration is greater than short event max time and less than valid packet min time and which does not suffer a collision.
OBJECT-TYPE    
  Counter  

mrmMonCardLateEvents 2.4.1.43.10.17.2.2.1.1.16
This counter is incremented by one each time a collisions occurs after valid packet min time, a late event is counted as both a collision and as a late event.
OBJECT-TYPE    
  Counter  

mrmMonCardVeryLongEvents 2.4.1.43.10.17.2.2.1.1.17
This counter is incremented by one each time a carrier event occurs whose duration is greater than the MAU Jabber Lockup Protection time.
OBJECT-TYPE    
  Counter  

mrmMonCardDataRateMismatches 2.4.1.43.10.17.2.2.1.1.18
This counter is incremented by one each time a packet has been received with the data rate detectably mismatched from the local frequency.
OBJECT-TYPE    
  Counter  

mrmMonCardAutoPartitions 2.4.1.43.10.17.2.2.1.1.19
This counter is incremented by one each time the repeater has automatically partitioned any port.
OBJECT-TYPE    
  Counter  

mrmMonCardTotalErrors 2.4.1.43.10.17.2.2.1.1.20
The total number of errors which have occurred on all ports of this card. This counter is the summation of the values of other error counters (for each port), namely: FCS Errors, Alignment Errors, Frames Too Long, Short Events, Late Events, Very Long Events, Data Rate Mismatches. This counter is redundant in the sense that it is the summation of information already available through other objects. However, it is included specifically because the regular retrieval of this object as a means of tracking the health of a port provides a considerable optimization of network management traffic over the otherwise necessary retrieval of the summed counters.
OBJECT-TYPE    
  Counter  

mrmMonCardBound0 2.4.1.43.10.17.2.2.1.1.21
This object is a summation of the number of frames (including error frames) with a length of 64 octets which were received by each port on this card.
OBJECT-TYPE    
  Counter  

mrmMonCardBound1 2.4.1.43.10.17.2.2.1.1.22
This object is a summation of the number of frames (including error frames) with a length of between 65 and 127 octets inclusive which were received by each port on this card.
OBJECT-TYPE    
  Counter  

mrmMonCardBound2 2.4.1.43.10.17.2.2.1.1.23
This object is a summation of the number of frames (including error frames) with a length of between 128 and 255 octets inclusive which were received by each port on this card.
OBJECT-TYPE    
  Counter  

mrmMonCardBound3 2.4.1.43.10.17.2.2.1.1.24
This object is a summation of the number of frames (including error frames) with a length of between 256 and 511 octets inclusive which were received by each port on this card.
OBJECT-TYPE    
  Counter  

mrmMonCardBound4 2.4.1.43.10.17.2.2.1.1.25
This object is a summation of the number of frames (including error frames) with a length of between 512 and 1023 octets inclusive which were received by each port on this card.
OBJECT-TYPE    
  Counter  

mrmMonCardBound5 2.4.1.43.10.17.2.2.1.1.26
This object is a summation of the number of frames (including error frames) with a length of between 1024 and 1518 octets inclusive which were received by each port on this card.
OBJECT-TYPE    
  Counter  

mrmMonCardClearCounters 2.4.1.43.10.17.2.2.1.1.27
This attribute allows all counters on this Card to be cleared. If this object is read then it will return noChangeCounters(1).
OBJECT-TYPE    
  INTEGER noChangeCounters(1), clearCounters(2)  

mrmMonCardBandwidthUsed 2.4.1.43.10.17.2.2.1.1.28
This is a high level 'smart MIB' object. This object provides a running average of the bandwidth in use. This value is calculated locally on the agent and so does not require processor bandwidth from the management station or occupy valuable network bandwidth communicating with that station. By default an agent supporting this parameter will exhibit the following characteristics: 1) The parameter will be recalculated at approx 15 second intervals 2) Every calculation period the device will read the value of rptrMonitorGroupTotalOctets. 3) The calculation will be performed on the most recent 4 samples as follows: 4 Sum(sample(i)/(time(i) * K)) * 100/4 i=1 Sample(i) is rptrMonitorGroupTotalOctets(i)-rptrMonitorGroupTotalOctets(i-1) time(i) is the time between sample(i-1) and sample(i) K is the max bytes per unit time (i.e. the available bandwidth K depends on the ring speed. The value is expressed as a percentage. A default threshold exists on this average so that if a calculated average exceeds 15% a trap will be sent to the management station. Further traps will not be sent until the average drops to below 10%. A particular device may provide a means of changing the number of samples, the averaging period, threshold and threshold action if it so wishes.
OBJECT-TYPE    
  Counter  

mrmMonCardErrorsPer10000Packets 2.4.1.43.10.17.2.2.1.1.29
This is a high level 'smart MIB' object. This object provides a running average of the bandwidth in use. The value of this value is calculated locally on the agent and so does not require processor bandwidth from a management station or occupy valuable network bandwidth communicating with that station. By default an agent supporting this parameter will exhibit the following behaviour: 1) The parameter will be recalculated at approx 15 second intervals. 2) Every calculation period the device will read the value of rptrMonitorGroupTotalErrors and rptrMonitorGroupTotalFrames. 3) The calculation will be performed on the most recent 4 samples as follows: 4 10000 * Sum(Errors(i)/Frames(i)) i=1 Errors(i) = rptrMonitorGroupTotalErrors(i)-rptrMonitorGroupTotalErrors(i-1) Frames(i) = rptrMonitorGroupTotalFrames(i)-rptrMonitorGroupTotalFrames(i-1) The value is an integer number of errors per 10,000 packets received by this repeater. A default threshold exists on this average so that if a calculated average exceeds 200 (i.e. 2% of frames are in error) a trap will be sent to the management station. Further traps will not be sent until the average drops to below 100 (i.e. 1% of frames are in error). A particular device may provide a means of changing the number of samples, the averaging period and threshold if it so wishes.
OBJECT-TYPE    
  Counter  

mrmMonitorPortTable 2.4.1.43.10.17.2.3.1
Table of performance and error statistics for the ports.
OBJECT-TYPE    
  SEQUENCE OF  
    MrmMonitorPortEntry

mrmMonitorPortEntry 2.4.1.43.10.17.2.3.1.1
Performance and error statistics for a single port.
OBJECT-TYPE    
  MrmMonitorPortEntry  

mrmMonPortServiceId 2.4.1.43.10.17.2.3.1.1.1
This parameter selects one of the repeaters within the chassis. This forms the first, most significant index column. Having selected a repeater one must select a card then port within that repeater.
OBJECT-TYPE    
  INTEGER 1..1024  

mrmMonPortCardIndex 2.4.1.43.10.17.2.3.1.1.2
This attribute uniquely identifies this Card within the repeater, it is part of the index for the port table.
OBJECT-TYPE    
  INTEGER  

mrmMonPortIndex 2.4.1.43.10.17.2.3.1.1.3
This attribute uniquely identifies this port within the Card, it is part of the index for the port table.
OBJECT-TYPE    
  INTEGER  

mrmMonPortReadableFrames 2.4.1.43.10.17.2.3.1.1.4
This object is the number of frames of valid frame length that have been received on this port. This counter is incremented by one for each frame received on this port whose OctetCount is greater than or equal to minFrameSize and less than or equal to maxFrameSize (Ref: IEEE 802.3 Std, 4.4.2.1) and for which the FCSError and CollisionEvent signals are not asserted. This statistic provides one of the parameters necessary for obtaining the packet error rate. The approximate minimum time for rollover of this counter is 80 hours.
OBJECT-TYPE    
  Counter  

mrmMonPortUnicastFrames 2.4.1.43.10.17.2.3.1.1.5
This counter is incremented by one for each readable frame seen by the Card that is addressed to a unicast (non Card) address.
OBJECT-TYPE    
  Counter  

mrmMonPortMulticastFrames 2.4.1.43.10.17.2.3.1.1.6
This counter is incremented by one for each readable frame seen by the Card that is addressed to a multicast (non broadcast) address.
OBJECT-TYPE    
  Counter  

mrmMonPortBroadcastFrames 2.4.1.43.10.17.2.3.1.1.7
This counter is incremented by one for each readable frame seen by the Card that is addressed to the broadcast address.
OBJECT-TYPE    
  Counter  

mrmMonPortReadableOctets 2.4.1.43.10.17.2.3.1.1.8
This object is the number of octets contained in valid frames that have been received on this port. This counter is incremented by OctetCount for each frame received on this port which has been determined to be a readable frame. This statistic provides an indicator of the total data transferred. The approximate minimum time for rollover of this counter is 58 minutes.
OBJECT-TYPE    
  Counter  

mrmMonPortUnicastOctets 2.4.1.43.10.17.2.3.1.1.9
This object is the number of octets contained in valid frames that have been received on this port in which the destination field was a unicast address. The approximate minimum time for rollover of this counter is 58 minutes.
OBJECT-TYPE    
  Counter  

mrmMonPortMulticastOctets 2.4.1.43.10.17.2.3.1.1.10
This object is the number of octets contained in valid frames that have been received on this port in which the destination was a multicast address. The approximate minimum time for rollover of this counter is 58 minutes.
OBJECT-TYPE    
  Counter  

mrmMonPortBroadcastOctets 2.4.1.43.10.17.2.3.1.1.11
This object is the number of octets contained in valid frames that have been received on this port in which the destination was the broadcast address ffffffffffff. By attaching a gauge to this counter one can monitor the port for broadcast storms. Action can then be taken to automatically recover network normal operation. The approximate minimum time for rollover of this counter is 58 minutes.
OBJECT-TYPE    
  Counter  

mrmMonPortFCSErrors 2.4.1.43.10.17.2.3.1.1.12
This counter is incremented by one for each frame received on this port with the FCSError signal asserted and the FramingError and CollisionEvent signals deasserted and whose OctetCount is greater than or equal to minFrameSize and less than or equal to maxFrameSize (Ref: 4.4.2.1, IEEE 802.3 Std). The approximate minimum time for rollover of this counter is 80 hours.
OBJECT-TYPE    
  Counter  

mrmMonPortAlignmentErrors 2.4.1.43.10.17.2.3.1.1.13
This counter is incremented by one for each frame received on this port with the FCSError and FramingError signals asserted and CollisionEvent signal deasserted and whose OctetCount is greater than or equal to minFrameSize and less than or equal to maxFrameSize (Ref: IEEE 802.3 Std, 4.4.2.1). If rptrMonitorPortAlignmentErrors is incremented then the rptrMonitorPortFCSErrors Counter shall not be incremented for the same frame. The approximate minimum time for rollover of this counter is 80 hours.
OBJECT-TYPE    
  Counter  

mrmMonPortFrameTooLongs 2.4.1.43.10.17.2.3.1.1.14
This counter is incremented by one for each frame received on this port whose OctetCount is greater than maxFrameSize (Ref: 4.4.2.1, IEEE 802.3 Std). If this parameter is incremented then neither the alignment error nor the FCS error counters shall be incremented for the frame. The approximate minimum time for rollover of this counter is 61 days.
OBJECT-TYPE    
  Counter  

mrmMonPortShortEvents 2.4.1.43.10.17.2.3.1.1.15
This counter is incremented by one for each CarrierEvent on this port with ActivityDuration less than ShortEventMaxTime. ShortEventMaxTime is greater than 74 bit times and less than 82 bit times. ShortEventMaxTime has tolerances included to provide for circuit losses between a conformance test point at the AUI and the measurement point within the state machine. Note: shortEvents may indicate externally generated noise hits which will cause the repeater to transmit Runts to its other ports, or propagate a collision (which may be late) back to the transmitting DTE and damaged frames to the rest of the network. The approximate minimum time for rollover of this counter is 16 hours.
OBJECT-TYPE    
  Counter  

mrmMonPortRunts 2.4.1.43.10.17.2.3.1.1.16
This counter is incremented by one for each CarrierEvent on this port that meets one of the following two conditions. Only one test need be made. a) The ActivityDuration is greater than ShortEventMaxTime and less than ValidPacketMinTime and the CollisionEvent signal is deasserted. b) The OctetCount is less than 64, the ActivityDuration is greater than ShortEventMaxTime and the CollisionEvent signal is deasserted. ValidPacketMinTime is greater than or equal to 552 bit times and less than 565 bit times. An event whose length is greater than 74 bit times but less than 82 bit times shall increment either the shortEvents counter or the runts counter but not both. A CarrierEvent greater than or equal to 552 bit times but less than 565 bit times may or may not be counted as a runt. ValidPacketMinTime has tolerances included to provide for circuit losses between a conformance test point at the AUI and the measurement point within the state machine. Runts usually indicate collision fragments, a normal network event. In certain situations associated with large diameter networks a percentage of runts may exceed ValidPacketMinTime. The approximate minimum time for rollover of this counter is 16 hours.
OBJECT-TYPE    
  Counter  

mrmMonPortCollisions 2.4.1.43.10.17.2.3.1.1.17
This counter is incremented by one each time a collision is detected on this port or when the CollisionEvent signal is asserted on this port. The approximate minimum time for rollover of this counter is 16 hours.
OBJECT-TYPE    
  Counter  

mrmMonPortLateEvents 2.4.1.43.10.17.2.3.1.1.18
This counter is incremented by one for each CarrierEvent on this port in which the CollIn(X) variable transitions to the value SQE (Ref: 9.6.6.2, IEEE 802.3 Std) while the ActivityDuration is greater than the LateEventThreshold. Such a CarrierEvent is counted twice, as both a collision and as a lateEvent. The LateEventThreshold is greater than 480 bit times and less than 565 bit times. LateEventThreshold has tolerances included to permit an implementation to build a single threshold to serve as both the LateEventThreshold and ValidPacketMinTime threshold. The approximate minimum time for rollover of this counter is 81 hours.
OBJECT-TYPE    
  Counter  

mrmMonPortVeryLongEvents 2.4.1.43.10.17.2.3.1.1.19
This counter is incremented by one for each CarrierEvent on this port whose ActivityDuration is greater than the MAU Jabber Lockup Protection timer TW3 (Ref: 9.6.1 & 9.6.5, IEEE 802.3 Std). Other counters may be incremented as appropriate.
OBJECT-TYPE    
  Counter  

mrmMonPortDataRateMismatches 2.4.1.43.10.17.2.3.1.1.20
This counter is incremented by one for each frame received on this port that meets all of the following conditions: a) The CollisionEvent signal is not asserted. b) The ActivityDuration is greater than ValidPacketMinTime. c) The frequency (data rate) is detectably mismatched from the local transmit frequency. The exact degree of mismatch is vendor specific and is to be defined by the vendor for conformance testing. When this event occurs, other counters whose increment conditions were satisfied may or may not also be incremented, at the implementor's discretion. Whether or not the repeater was able to maintain data integrity is beyond the scope of this standard.
OBJECT-TYPE    
  Counter  

mrmMonPortAutoPartitions 2.4.1.43.10.17.2.3.1.1.21
This counter is incremented by one for each time the repeater has automatically partitioned this port. The conditions that cause port partitioning are specified in the partition state machine in Section 9 [IEEE 802.3 Std]. They are not differentiated here.
OBJECT-TYPE    
  Counter  

mrmMonPortTotalErrors 2.4.1.43.10.17.2.3.1.1.22
The total number of errors which have occurred on this port. This counter is the summation of the values of other error counters (for the same port), namely: FCS Errors, Alignment Errors, Frames Too Long, Short Events, Late Events, Very Long Events, Data Rate Mismatches. This counter is redundant in the sense that it is the summation of information already available through other objects. However, it is included specifically because the regular retrieval of this object as a means of tracking the health of a port provides a considerable optimization of network management traffic over the otherwise necessary retrieval of the summed counters.
OBJECT-TYPE    
  Counter  

mrmMonPortBound0 2.4.1.43.10.17.2.3.1.1.23
This object is the number of frames (including error frames) with a length of 64 octets which were received on this port.
OBJECT-TYPE    
  Counter  

mrmMonPortBound1 2.4.1.43.10.17.2.3.1.1.24
This object is the number of frames (including error frames) with a length of between 65 and 127 octets inclusive which were received on this port.
OBJECT-TYPE    
  Counter  

mrmMonPortBound2 2.4.1.43.10.17.2.3.1.1.25
This object is the number of frames (including error frames) with a length of between 128 and 255 octets inclusive which were received on this port.
OBJECT-TYPE    
  Counter  

mrmMonPortBound3 2.4.1.43.10.17.2.3.1.1.26
This object is the number of frames (including error frames) with a length of between 256 and 511 octets inclusive which were received on this port.
OBJECT-TYPE    
  Counter  

mrmMonPortBound4 2.4.1.43.10.17.2.3.1.1.27
This object is the number of frames (including error frames) with a length of between 512 and 1023 octets inclusive which were received on this port.
OBJECT-TYPE    
  Counter  

mrmMonPortBound5 2.4.1.43.10.17.2.3.1.1.28
This object is the number of frames (including error frames) with a length of between 1024 and 1518 octets inclusive which were received on this port.
OBJECT-TYPE    
  Counter  

mrmMonPortBandwidthUsed 2.4.1.43.10.17.2.3.1.1.29
This is a high level 'smart MIB' object. This object provides a running average of the bandwidth in use. This value is calculated locally on the agent and so does not require processor bandwidth from the management station or occupy valuable network bandwidth communicating with that station. By default an agent supporting this parameter will exhibit the following characteristics: 1) The parameter will be recalculated at approx 15 second intervals 2) Every calculation period the device will read the value of mrmMonPortReadableOctets. 3) The calculation will be performed on the most recent 4 samples as follows: 4 Sum(sample(i)/(time(i) * K)) * 100/4 i=1 Sample(i) is mrmMonPortReadableOctets(i)-mrmMonPortReadableOctets(i-1) time(i) is the time between sample(i-1) and sample(i) K is the max bytes per unit time (i.e. the available bandwidth K depends on the ring speed. The value is expressed as a percentage. A default threshold exists on this average so that if a calculated average exceeds 15% a trap will be sent to the management station. Further traps will not be sent until the average drops to below 10%. A particular device may provide a means of changing the number of samples, the averaging period, threshold and threshold action if it so wishes.
OBJECT-TYPE    
  Counter  

mrmMonPortErrorsPer10000Packets 2.4.1.43.10.17.2.3.1.1.30
This is a high level 'smart MIB' object. This object provides a running average of the number of errors per 10000 packets. This is an error rate, and is calculated over the number of packets received in the sample periods, and not on every 10000 packets. This value is calculated locally on the agent and so does not require processor bandwidth from a management station or occupy valuable network bandwidth communicating with that station. By default an agent supporting this parameter will exhibit the following behaviour: 1) The parameter will be recalculated at approx 15 second intervals. 2) Every calculation period the device will read the value of mrmMonPortTotalErrors and mrmMonPortReadableFrames. 3) The calculation will be performed on the most recent 4 samples as follows: 4 Sum(Errors(i)/Frames(i)) * 10000/4 i=1 Errors(i) = mrmMonPortTotalErrors(i)-mrmMonPortTotalErrors(i-1) Frames(i) = mrmMonPortReadableFrames(i)-mrmMonPortReadableFrames(i-1) The value is an integer number of errors per 10,000 packets received by this repeater. A default threshold exists on this average so that if a calculated average exceeds 200 (i.e. 2% of frames are in error) a trap will be sent to the management station. Further traps will not be sent until the average drops to below 100 (i.e. 1% of frames are in error). A particular device may provide a means of changing the number of samples, the averaging period and threshold if it so wishes.
OBJECT-TYPE    
  Counter  

mrmMonPortClearCounters 2.4.1.43.10.17.2.3.1.1.31
This attribute allows all counters on this Port to be cleared. If read this object will return noChangeCounters(1).
OBJECT-TYPE    
  INTEGER noChangeCounters(1), clearCounters(2)  

mrmMonPortLastAddress 2.4.1.43.10.17.2.3.1.1.32
This is the last MAC address seen on this port.
OBJECT-TYPE    
  OCTET STRING  

mrmMonPortAddressChanges 2.4.1.43.10.17.2.3.1.1.33
This is a count of the number of times the MAC address on this port has changed. A high number of changes indicates this is either an inter-repeater link or a multi-drop segment.
OBJECT-TYPE    
  Counter  

trafficLevel 2.4.1.43.10.17.2.4.1
This is a dummy 'smart MIB' object which is used internally by the agent to provide a running average of the bandwidth in use. It should not be accessed by a management station and is used by the logic which calculates the value of its associated object 'mrmMonPortBandwidthUsed'. See 'mrmMonPortBandwidthUsed' for a description of how the bandwidth used is calculated.
OBJECT-TYPE    
  Counter  

errorFrames 2.4.1.43.10.17.2.4.2
This is a dummy 'smart MIB' object which is used internally by the agent to provide a running average of the error rate. It should not be accessed by a management station and is used by the logic which calculates the value of its associated object 'mrmMonPortErrorsPer10000Packets'. See 'mrmMonPortErrorsPer10000Packets' for a description of how the error rate is calculated.
OBJECT-TYPE    
  Counter  

mrmMonRepeaterTrafficLevel 2.4.1.43.10.17.2.5.1
This is a smart MIB object which is used internally by the agent to provide a running average of the bandwidth in use. It should not be accessed by a management station and is used by the logic which calculates the value of its associated object 'mrmMonRepeaterBandwidthUsed'. See 'mrmMonRepeaterBandwidthUsed' for a description of how the bandwidth used is calculated.
OBJECT-TYPE    
  Counter  

mrmMonRepeaterErrorFrames 2.4.1.43.10.17.2.5.2
This is a smart MIB object which is used internally by the agent to provide a running average of the error rate. It should not be accessed by a management station and is used by the logic which calculates the value of its associated object 'mrmMonRepeaterErrorsPer10000Packets'. See 'mrmMonRepeaterErrorsPer10000Packets' for a description of how the error rate is calculated.
OBJECT-TYPE    
  Counter  

mrmMonCardTrafficLevel 2.4.1.43.10.17.2.6.1
This is a smart MIB object which is used internally by the agent to provide a running average of the bandwidth in use. It should not be accessed by a management station and is used by the logic which calculates the value of its associated object 'mrmMonCardBandwidthUsed'. See 'mrmMonCardBandwidthUsed' for a description of how the bandwidth used is calculated.
OBJECT-TYPE    
  Counter  

mrmMonCardErrorFrames 2.4.1.43.10.17.2.6.2
This is a smart MIB object which is used internally by the agent to provide a running average of the error rate. It should not be accessed by a management station and is used by the logic which calculates the value of its associated object 'mrmMonCardErrorsPer10000Packets'. See 'mrmMonCardErrorsPer10000Packets' for a description of how the error rate is calculated.
OBJECT-TYPE    
  Counter  

mrmMonPortTrafficLevel 2.4.1.43.10.17.2.7.1
This is a smart MIB object which is used internally by the agent to provide a running average of the bandwidth in use. It should not be accessed by a management station and is used by the logic which calculates the value of its associated object 'mrmMonPortBandwidthUsed'. See 'mrmMonPortBandwidthUsed' for a description of how the bandwidth used is calculated.
OBJECT-TYPE    
  Counter  

mrmMonPortErrorFrames 2.4.1.43.10.17.2.7.2
This is a smart MIB object which is used internally by the agent to provide a running average of the error rate. It should not be accessed by a management station and is used by the logic which calculates the value of its associated object 'mrmMonPortErrorsPer10000Packets'. See 'mrmMonPortErrorsPer10000Packets' for a description of how the error rate is calculated.
OBJECT-TYPE    
  Counter  

repPartitionStateChange 38
This trap is sent when the partition state of a port changes. The trap is accompanied by the new partition state of the port.
TRAP-TYPE    

repLinkStateChange 39
This trap is sent when the link state of a port changes. The var-bind identifies which port has changed state and what the new state of that port is.
TRAP-TYPE    

repAdminStateChange 40
This trap is only sent when the administration state of a port is changed by a gauge. It is not sent if a user initiates a state change via SNMP, Telnet or the V.24 terminal interface.
TRAP-TYPE    

repPortTopUsage 41
This trap is sent when the port bandwidth used exceeds the defined threshold. This threshold is by default 15%, although this may have been changed on a particular device.
TRAP-TYPE    

repPortErrors 42
This trap is sent when the errors per packet exceeds the the defined threshold.
TRAP-TYPE    

dudUnauthorisedDevice 66
This trap is sent when an unrecognised MAC address appears on the port. It is only sent if DUD is set on the port.
TRAP-TYPE    

repRepTopUsage 67
This trap is sent when the repeater bandwidth used exceeds the defined threshold. This threshold is by default 15%, although this may have been changed on a particular device.
TRAP-TYPE    

repRepErrors 68
This trap is sent when the repeater errors per packet exceeds the the defined threshold.
TRAP-TYPE    

repCardTopUsage 69
This trap is sent when the card bandwidth used exceeds the defined threshold. This threshold is by default 15%, although this may have been changed on a particular device.
TRAP-TYPE    

repCardErrors 70
This trap is sent when the errors per packet exceeds the the defined threshold.
TRAP-TYPE    

setupGeneral 2.4.1.43.10.2.1
OBJECT IDENTIFIER    

heartbeatInterval 2.4.1.43.10.2.1.1
The time, in seconds, between successive heartbeat events sent to the management station. An interval of 0 indicates that no heartbeat events are to be generated.
OBJECT-TYPE    
  INTEGER 0..65535  

heartbeatEvent 13
Generated at a regular interval to inform the manager this device is still operating and can be reached on the network.
TRAP-TYPE    

setupIp 2.4.1.43.10.2.2
OBJECT IDENTIFIER    

setIpIfTable 2.4.1.43.10.2.2.1
This table shows the IP address and network mask to be used to initialise ipAddrTable on each network interface after the next system restart. There is one entry per network interface and the index is equivalent to the index for the ifTable in the MIB-II interfaces group.
OBJECT-TYPE    
  SEQUENCE OF  
    SetIpIfEntry

setIpIfEntry 2.4.1.43.10.2.2.1.1
The default information relating to a single IP interface.
OBJECT-TYPE    
  SetIpIfEntry  

setIpIfIndex 2.4.1.43.10.2.2.1.1.1
The index value which uniquely identifies the interface to which this entry is applicable. The interface identified by a particular value of this index is the same interface as identified by the same value of ifIndex (for ifTable).
OBJECT-TYPE    
  INTEGER  

setIpIfAddr 2.4.1.43.10.2.2.1.1.2
The IP address to be used for this interface.
OBJECT-TYPE    
  IpAddress  

setIpIfMask 2.4.1.43.10.2.2.1.1.3
The IP network mask to be used for this interface.
OBJECT-TYPE    
  IpAddress  

setIpIfRouter 2.4.1.43.10.2.2.2
This is the IP address of the default router to be used for sending IP datagrams to remote destinations which have no suitable entry in the routing table. This corresponds to an entry in the MIB-II ipRouteTable with an ipRouteDest field of '0.0.0.0' (the default router) which is set up from this value after a system restart. Changes to this value do not affect the IP routing table until after the next system restart. (To change the default router without a restart, the IP routing table should be changed directly, with an equivalent change to setIpIfRouter only if the change is required to be made permanently.)
OBJECT-TYPE    
  IpAddress  

setupStart 2.4.1.43.10.2.3
OBJECT IDENTIFIER    

startPROMSwVerNo 2.4.1.43.10.2.3.1
The PROM software version number.
OBJECT-TYPE    
  DisplayString Size(1..16)  

startRestartCount 2.4.1.43.10.2.3.2
The number of restarts the box has undergone, either power on or reset switch or watchdog expiries.
OBJECT-TYPE    
  Counter  

startLastRestartType 2.4.1.43.10.2.3.3
The reason for the last system restart. This may be due to management command; watchdog timeout expiry; power interruption; the reset switch was pressed or system error. It is not possible to differentiate between the latter two causes.
OBJECT-TYPE    
  INTEGER other(1), command(2), watchdog(3), power-reset(4), system-error(5)  

startResetAction 2.4.1.43.10.2.3.4
Reset the device with manufacturers default configuration if the manDefaultReset value is written to this item.
OBJECT-TYPE    
  INTEGER nochange(1), manDefaultReset(2)  

startLastSystemError 2.4.1.43.10.2.3.5
The last System Error experienced by the system. This is set to the NVRAM last system error code on startup. When the system issues a TRAP indicating the last system error number the NVRAM version is set to zero. Hence after the next restart this attribute will have the value zero also.
OBJECT-TYPE    
  INTEGER  

startRestartAction 2.4.1.43.10.2.3.6
Restart the device with it's current configuration if the restart value is written to this item.
OBJECT-TYPE    
  INTEGER nochange(1), restart(2)  

loadableDeviceTable 2.4.1.43.10.3.1
A table which is used to control the loading of new software images to the devices controlled by the management agent. By convention the first entry in the table (device type = system(1), instance = 1) controls the loading of the device containing the management agent itself. Agents which have no subsidiary devices will have only this one entry in the table. If the Agent does control subsidiary devices, the other entries control the loading of software into subsidiary devices.
OBJECT-TYPE    
  SEQUENCE OF  
    LoadableDeviceEntry

loadableDeviceEntry 2.4.1.43.10.3.1.1
An entry containing the objects for controlling the loading of a software image to a device controlled by the agent.
OBJECT-TYPE    
  LoadableDeviceEntry  

slDeviceType 2.4.1.43.10.3.1.1.1
The type of the device to load. Simple agents only contain one device type, which is always `system'. More complex agents, probably containing multiple processors, may contain subsidiary devices denoted (for the purposes of the system loader) as `component'. In general, a `system' device is one which monitors and/or manages the operation of `component' devices.
OBJECT-TYPE    
  INTEGER system(1), component(2)  

slDeviceInstance 2.4.1.43.10.3.1.1.2
The instance of the device type specified by slDeviceType. By convention instance 1 of the system devices is the one containing the management agent, and always exists. Many systems will contain only the one instance of the system device type.
OBJECT-TYPE    
  INTEGER  

slLoadStatus 2.4.1.43.10.3.1.1.3
The status of the last system load operation requested for this device. If the value of this object is in the range 1 to 19 inclusive, or 200 or more, the download failed, and the value is an error code indicating the reason why. Codes 1 to 7 are a direct mapping from the TFTP error codes defined in RFC-783. The possible status values and their meanings are as follows:- fileNotFound(1) the server cannot find the requested file; accessViolation(2) the file system security mechanism does not permit TFTP to access the requested file; illegalOperation(4) TFTP protocol error; unknownTransferID(5) TFTP protocol error; noSuchUser(7) user number not recognised; noResponse(8) load server failed to respond; noResource(9) the download could not be started because of a lack of resources; recLenMismatch(10) the record length differs from that implied by the value of the record length field; invalidRecType(11) the record type is not recognised; checksumError(12) record checksum error; wrongDevice(13) the device type in the file is incorrect; wrongHardwareVersion(14) the software image is not suitable for this version of the hardware; noFileHeader(15) the first record in the file was not a file header; byteCountError(16) the byte count reported in the file trailer record differed from the number of bytes actually received; invalidProgAddress(17) the load file contained a load address which was outside the valid range of memory; eraseFailed(18) unable to erase the program memory; progFailed(19) hardware error programming the memory. The meanings of the remaining values are as follows:- loadPending(20) a load has been requested but has not yet begun; loadActive(21) the device is currently being downloaded; success(22) the device has been downloaded successfully; paused(23) the device could not complete the download at this time, it will request that the load be restarted when it is ready. The following status values may result from downloading a subsidiary module:- modInvalidAdress(200) the load file contained a load address which was outside the valid range of memory; modChecksumError(201) the load data was corrupted as it was transferred from the management agent to the subsidiary module; modTimeout(202) the management agent timed out while waiting for a response from the subsidiary module; modBusy(203) the subsidiary module was unable to accept a command from the management agent; modRemoved(204) the subsidiary module was removed during the download; modNoResource(205) the download could not continue because of a lack of resources; modFailure(255) the subsidiary module failed during the download.
OBJECT-TYPE    
  INTEGER fileNotFound(1), accessViolation(2), illegalOperation(4), unknownTransferID(5), noSuchUser(7), noResponse(8), noResource(9), recLenMismatch(10), invalidRecType(11), checksumError(12), wrongDevice(13), wrongHardwareVersion(14), noFileHeader(15), byteCountError(16), invalidProgAddress(17), eraseFailed(18), progFailed(19), loadPending(20), loadActive(21), success(22), paused(23), modInvalidAdress(200), modChecksumError(201), modTimeout(202), modBusy(203), modRemoved(204), modNoResource(205), modFailure(255)  

slSoftwareVersion 2.4.1.43.10.3.1.1.4
The version identifier of the software running in the device.
OBJECT-TYPE    
  DisplayString Size(0..32)  

slHardwareVersion 2.4.1.43.10.3.1.1.5
The version number identifying the revision level of the hardware of the device
OBJECT-TYPE    
  INTEGER  

slFilename 2.4.1.43.10.3.1.1.6
The name of the file which contains the software image to load, or which was the last loaded to the device.
OBJECT-TYPE    
  DisplayString Size(1..128)  

slServerIpAddress 2.4.1.43.10.3.1.1.7
The IP address of the host containing the software image to load, or from which the last image loaded was read. This object has been deprecated in favour of writing the IP address into slServerAddress.
OBJECT-TYPE    
  IpAddress  

slLoad 2.4.1.43.10.3.1.1.8
Writing 2 to this object causes the agent to attempt to load a new software image to the corresponding device. The file to load and the address of the server to load it from are specified in the other objects in the same row of the table.
OBJECT-TYPE    
  INTEGER noAction(1), startDownload(2)  

slServerAddress 2.4.1.43.10.3.1.1.9
The address of the server containing the software image to load, or from which the last image was loaded. This is either an IP address in standard dotted notation, or an IPX address in the format aabbccdd:112233445566. An error is returned if the agent does not support the download protocol implied by the address format.
OBJECT-TYPE    
  DisplayString Size(0..50)  

slServerProtocol 2.4.1.43.10.3.1.1.10
This is the protocol to use when downloading the software from the server specified in slServerAddress. At present, this value is determined by the value of slServerAddress which is currently un-ambiguous and so this object is read-only.
OBJECT-TYPE    
  INTEGER unknown(1), tftp-ip(2), tftp-ipx(3)  

slFailed 18
When a system load is requested, a response is returned immediately and the load proceeds in the background. If an error is detected this trap is generated indicating the reason why in the status, as follows:- (1) file not found; (2) access violation; (4) illegal TFTP operation; (5) unknown transfer ID; (7) no such user; (8) no response from the load server; (9) the download could not be started because of a lack of resources; (10) the length of a record differs from that implied by the value of the record length field; (11) the record type is not recognised; (12) record checksum error; (13) the device type in the file is incorrect; (14) the software image is not suitable for this version of the hardware; (15) the first record in the file was not a file header; (16) The byte count reported in the file trailer record differed from the number of bytes actually received; (200) the load file contained a load address which was outside the valid range of memory; (201) the load data was corrupted as it was transferred from the management agent to the subsidiary module; (202) the management agent timed out while waiting for a response from the subsidiary module; (203) the subsidiary module was unable to accept a command from the management agent; (204) the subsidiary module was removed during the download; (205) the download could not continue because of a lack of resources; (255) the subsidiary module failed during the download. When loading a new image into the device containing the agent itself, the agent first reads the beginning of the image file to test if it is accessible and contains a valid image. If there is anything wrong, this trap is generated, no download is performed and the device continues to run uninterrupted. If this check is successful the download proper is begun. Should that fail, it is simply retried continuously until either an attempt succeeds or the device is reset.
TRAP-TYPE    

securityEnableTable 2.4.1.43.10.4.1
A table of permissions for access to the managed device from each of its interfaces, at each security access level. The table is fixed at 5 rows, indexed by the access level.
OBJECT-TYPE    
  SEQUENCE OF  
    SecurityEnableTableEntry

securityEnableTableEntry 2.4.1.43.10.4.1.1
This table allows individual interfaces to be enabled or disabled separately for each security level.
OBJECT-TYPE    
  SecurityEnableTableEntry  

securityLevel 2.4.1.43.10.4.1.1.1
Index to the security enable table.
OBJECT-TYPE    
  INTEGER monitor(1), secureMonitor(2), manager(3), specialist(4), security(5)  

securityCommunityEnable 2.4.1.43.10.4.1.1.2
Community SNMP access permission
OBJECT-TYPE    
  INTEGER enable(1), disable(2), permanentlyEnabled(3), permanentlyDisabled(4)  

securitySecureEnable 2.4.1.43.10.4.1.1.3
Secure SNMP access permission
OBJECT-TYPE    
  INTEGER enable(1), disable(2), permanentlyEnabled(3), permanentlyDisabled(4)  

securityTermEnable 2.4.1.43.10.4.1.1.4
Local Terminal access permission
OBJECT-TYPE    
  INTEGER enable(1), disable(2), permanentlyEnabled(3), permanentlyDisabled(4)  

securityTelnetEnable 2.4.1.43.10.4.1.1.5
Telnet access permission
OBJECT-TYPE    
  INTEGER enable(1), disable(2), permanentlyEnabled(3), permanentlyDisabled(4)  

securityFrontPanelEnable 2.4.1.43.10.4.1.1.6
Front Panel access permission
OBJECT-TYPE    
  INTEGER enable(1), disable(2), permanentlyEnabled(3), permanentlyDisabled(4)  

securityUserTable 2.4.1.43.10.4.2
A table used to define Users. Users can be created/modified or deleted, with the exception of the default Users which cannot be deleted.
OBJECT-TYPE    
  SEQUENCE OF  
    SecurityUserTableEntry

securityUserTableEntry 2.4.1.43.10.4.2.1
1. Creating a new user is done by using the username as a qualifier and SETting any of the items in the row - defaults will be used for the remaining values. 2. Deleting a user is by writing 'invalid' to the status column. 3. There must always be users called 'monitor', 'manager' and 'security' - these cannot be deleted.
OBJECT-TYPE    
  SecurityUserTableEntry  

securityUserStatus 2.4.1.43.10.4.2.1.1
User Status. `invalid' is used to indicate this user is no longer allowed to access this device, and the table entry may subsequently be re-used. Note that the Status of default Users cannot be set to invalid.
OBJECT-TYPE    
  INTEGER valid(1), invalid(2)  

securityUserName 2.4.1.43.10.4.2.1.2
An ASCII string for the User Name. Empty strings are not allowed. The index column for the User Table.
OBJECT-TYPE    
  DisplayString Size(1..10)  

securityUserLevel 2.4.1.43.10.4.2.1.3
User Access Level defining the scope of management allowed for this user. Note that the access level of default Users cannot be changed.
OBJECT-TYPE    
  INTEGER monitor(1), secureMonitor(2), manager(3), specialist(4), security(5)  

securityUserPassword 2.4.1.43.10.4.2.1.4
The password required for user confirmation, when access is made via the local serial port, the front panel, or via Telnet.
OBJECT-TYPE    
  DisplayString Size(0..10)  

securityUserCommunity 2.4.1.43.10.4.2.1.5
The community string identifying this user, when access is made via the original community-based SNMP (RFC1157).
OBJECT-TYPE    
  DisplayString Size(0..32)  

securityUserLocParty 2.4.1.43.10.4.2.1.6
The local party identity of this user, when access is made via secure SNMP.
OBJECT-TYPE    
  OBJECT IDENTIFIER  

securityUserMgrParty 2.4.1.43.10.4.2.1.7
The manager party identity for this user, when access is made via secure SNMP.
OBJECT-TYPE    
  OBJECT IDENTIFIER  

securityAuditLogTable 2.4.1.43.10.4.3
The audit log is a circular table recording all updates to the managed database on the device. The log must be read regularly by a management device, to maintain a more permanent record of the management history.
OBJECT-TYPE    
  SEQUENCE OF  
    SecurityAuditLogEntry

securityAuditLogEntry 2.4.1.43.10.4.3.1
Each entry contains the time an update was made, by whom, the item referenced, the new value and the result of this request.
OBJECT-TYPE    
  SecurityAuditLogEntry  

securityAuditIndex 2.4.1.43.10.4.3.1.1
Audit Log Index. A monotonically increasing value to uniquely identify an entry in the audit log. This value wraps around (to 1) after reaching the maximum value (65535).
OBJECT-TYPE    
  INTEGER 1..65535  

securityAuditTime 2.4.1.43.10.4.3.1.2
The time, in hundredths of a second since the last system restart, of the update request.
OBJECT-TYPE    
  TimeTicks  

securityAuditUser 2.4.1.43.10.4.3.1.3
The name of the user making the request.
OBJECT-TYPE    
  DisplayString Size(0..10)  

securityAuditObject 2.4.1.43.10.4.3.1.4
The object identifier of the item being updated. This includes any qualifier for the item.
OBJECT-TYPE    
  OBJECT IDENTIFIER  

securityAuditValue 2.4.1.43.10.4.3.1.5
The new value for the item.
OBJECT-TYPE    
  OCTET STRING Size(0..200)  

securityAuditResult 2.4.1.43.10.4.3.1.6
The result of the update request may indicate that it was applied successfully, that it failed (for one of a number of reasons) or that it is still in progress.
OBJECT-TYPE    
  INTEGER success(255), pending(1), too-big(2), failed(3), locked(4), security-violation(5), no-such-function(6), no-such-item(7)  

gaugeTable 2.4.1.43.10.5.1
A table used to define Alarms.
OBJECT-TYPE    
  SEQUENCE OF  
    GaugeTableEntry

gaugeTableEntry 2.4.1.43.10.5.1.1
This table allows Alarms to be set-up on items in the MIB.
OBJECT-TYPE    
  GaugeTableEntry  

gaugeIndex 2.4.1.43.10.5.1.1.1
Unique identifier for a row in the Alarm Table. Allocated by the Alarms Subsystem. An integer in the range 1..gaugeTableSize.
OBJECT-TYPE    
  INTEGER  

gaugeItemId 2.4.1.43.10.5.1.1.2
The object Id and qualifier of the item to be monitored by this alarm.
OBJECT-TYPE    
  OBJECT IDENTIFIER  

gaugeItemType 2.4.1.43.10.5.1.1.3
A 'counter', by definition will always be a positive number. 'Meters' can be signed or unsigned.
OBJECT-TYPE    
  INTEGER counter(1), signedMeter(2), unsignedMeter(3)  

gaugeSamplesPerAverage 2.4.1.43.10.5.1.1.4
The number of samples used to calculate the Alarm Value. The default number of samples is four. If a SamplesPerAverage value of one is used, no average is calculated and the GaugeValue will be the most recent sample.
OBJECT-TYPE    
  INTEGER nonAveraging(1), twoSamples(2), threeSamples(3), maxSamples(4)  

gaugeSamplePeriod 2.4.1.43.10.5.1.1.5
Number of seconds between samples. The total averaging period is given by (gaugeSamplesPerAverage * gaugeSamplePeiod) secs.
OBJECT-TYPE    
  INTEGER 1..4294967295  

gaugeValue 2.4.1.43.10.5.1.1.6
The most recently computed average of the item being monitored. For a `meter' alarm, this is the simple average of the samples. For a 'counter' alarm, this is the average of the differences between successive samples. Counters and unsignedMeters are unsigned 32-bit values and have a maximum value of 4294967295. signedMeters are signed 32-bit values and have a maximum value of +-2147483647 divided by the value of gaugeSamplesPerAverage .
OBJECT-TYPE    
  INTEGER 0..4294967295  

gaugePeakValue 2.4.1.43.10.5.1.1.7
The highest recorded Alarm Value. This will be either a signed or unsigned 32 bit value depending on the gaugeItemType
OBJECT-TYPE    
  INTEGER 0..4294967295  

gaugeThresholdLevel 2.4.1.43.10.5.1.1.8
The threshold value of the the Alarm which causes the ThresholdState to move from the 'ready' state to the 'fired' state and also causes the the ThresholdAction to be taken. It will be either a signed or unsigned 32-bit integer depending on the gaugeItemType.
OBJECT-TYPE    
  INTEGER 0..4294967295  

gaugeRecoveryLevel 2.4.1.43.10.5.1.1.9
The threshold value of the the Alarm which causes the ThresholdState to move from the `fired' state to the `ready' state and also causes the the RecoveryAction to be taken. This value will be either a signed or unsigned 32-bit integer depending on the gaugeItemType.
OBJECT-TYPE    
  INTEGER  

gaugeThresholdAction 2.4.1.43.10.5.1.1.10
This object identifies the action to be taken when an Alarm crosses the Threshold Level. The default action will be to send a trigger event (sendTrap). The other actions are device specific and may not be available on all devices. See the RMON Event Table for the actions supported by this device.
OBJECT-TYPE    
  INTEGER noAction(1), sendTrap(2), disable(3), enable(4), notifyAndBlipPortOff(5), notifyAndBlipCardOff(6), notifyAndDisablePort(8), notifyAndDisableCard(9), blipPortOff(12), blipCardOff(13), disablePort(14), disableCard(15), notifyAndResilientSwitch(18), notifyBandwidthExceeded(19), notifyErrorsExceeded(20), notifyPollFailed(22), notifyFilterBridgePort(23)  

gaugeRecoveryAction 2.4.1.43.10.5.1.1.11
This object identifies the action to be taken when a 'fired' Alarm crosses the Recovery Level. The default action will be to send a recovery event (sendTrap). The actions for 'disable' and 'enable' are device specific.
OBJECT-TYPE    
  INTEGER noAction(1), sendTrap(2), disable(3), enable(4), notifyAndEnablePort(10), notifyAndEnableCard(11), enablePort(16), enableCard(17), notifyPollSuccess(21), notifyUnfilterBridgePort(24)  

gaugeState 2.4.1.43.10.5.1.1.12
onTriggersEnabled - This is the normal active state of a alarm. The gaugeValue is updated on every sample and if it crosses the Threshold or Recovery Levels, the corresponding Action will be taken. onTriggersDisabled - This is used when a new device, or alarm is set up and the Threshold and Recovery Levels have not been calibrated. The Alarm runs as normal and the gaugeValue and peakValue are updated. However, if the gaugeValue crosses the Threshold or Recovery Levels, no action is taken. off - This de-activates the alarm, allowing it to be configured safely . Before updating any of the Alarm fields the alarm SHOULD be turned off. Turning the alarm 'off' and then 'on' will not lose any of the sampling data, gaugeValue, peakValue, or thresholdStatus. Updates to the index fields will fail since they are read-only. deleted - An alarm is invalidated by setting it to 'deleted'. A 'deleted' alarm will not be returned by a 'GetNext' request. autoCalibrate - Updates the Threshold and Recovery values according to the current peak value. The gaugeState will then be set to 'onTriggersEnabled'. This can be done when the gaugeState is in states (1), (2), or (3). After this operation: thresholdLevel = peakValue * %gaugeThresholdLevelScaler recoveryLevel = peakValue * %gaugeRecoveryLevelScaler gaugeState = onTriggersEnabled When the gaugeState is set to either of the 'on' states, all the fields for the Alarm are validated. If any of the fields are invalid, the operation will fail. The sampling data, gaugeValue, peakValue and thresholdState can be reset by writing 'onTriggersEnabled', 'onTriggers- Disabled' , or 'autoCalibrate' to the gaugeState when it is already in either of the 'on' states.
OBJECT-TYPE    
  INTEGER onTriggersEnabled(1), onTriggersDisabled(2), off(3), deleted(4), autoCalibrate(5)  

gaugeOwner 2.4.1.43.10.5.1.1.13
The entity that configured this entry and is therefore using the resources assigned to it.
OBJECT-TYPE    
  DisplayString  

gaugeTableSize 2.4.1.43.10.5.2
Number of entries in Alarm Table. The size of the Alarm Table depends on the requirements and available resources of the device. The actual maximum will probably be around 1000.
OBJECT-TYPE    
  INTEGER 1..65535  

gaugeThresholdLevelScaler 2.4.1.43.10.5.3
The ThresholdLevel is set to this percentage of the peakValue when the Alarm is auto-calibrated. e.g gaugeThresholdLevelScaler = 120 gaugePeakValue = 360 After writing 'calibrateTriggers' to the gaugeState: ThresholdLevel = 120/100 * 360 = 432
OBJECT-TYPE    
  INTEGER 1..65535  

gaugeRecoveryLevelScaler 2.4.1.43.10.5.4
The RecoveryLevel is set to this percentage of the peakValue when the Alarm is auto-calibrated. e.g gaugeRecoveryLevelScaler = 90 gaugePeakValue = 360 After writing 'calibrateTriggers' to the gaugeState: RecoveryLevel = 90/100 * 360 = 324
OBJECT-TYPE    
  INTEGER 1..65535  

gaugeTableUpdate 2.4.1.43.10.5.5
Performs the specified operation on every Alarm in the table.
OBJECT-TYPE    
  INTEGER deleteAll(1)  

gaugeConfigureObjId 2.4.1.43.10.5.6
Object Id and qualifier of alarm(s) to be updated.
OBJECT-TYPE    
  OBJECT IDENTIFIER  

gaugeConfigureColumn 2.4.1.43.10.5.7
Alarm Table Column to be updated.
OBJECT-TYPE    
  INTEGER itemType(1), samplesPerAverage(2), samplePeriod(3), thresholdLevel(4), recoveryLevel(5), thresholdAction(6), recoveryAction(7), gaugeState(8)  

gaugeConfigureValue 2.4.1.43.10.5.8
Value to be written to the 'gaugeConfigureColumn' of the Alarms which match the 'gaugeConfigureObjId'. Writing to this value initiates the operation.
OBJECT-TYPE    
  INTEGER 1..4294967295  

gaugeNextFreeIndex 2.4.1.43.10.5.9
Indicates the gaugeIndex which must be used to create the next alarm. Index is set to GAUGE_TABLE_FULL (zero) if there are no free rows in the table.
OBJECT-TYPE    
  INTEGER  

gaugesThresholdTrap 16
Generated when the Alarm value for this Alarm crosses the Threshold Level.
TRAP-TYPE    

gaugesRecoveryTrap 17
Generated when the Alarm value for this Alarm crosses the Recovery Level.
TRAP-TYPE    

rmon 2.2.1.16
OBJECT IDENTIFIER    

statistics 2.2.1.16.1
OBJECT IDENTIFIER    

history 2.2.1.16.2
OBJECT IDENTIFIER    

alarm 2.2.1.16.3
OBJECT IDENTIFIER    

hosts 2.2.1.16.4
OBJECT IDENTIFIER    

hostTopN 2.2.1.16.5
OBJECT IDENTIFIER    

matrix 2.2.1.16.6
OBJECT IDENTIFIER    

filter 2.2.1.16.7
OBJECT IDENTIFIER    

capture 2.2.1.16.8
OBJECT IDENTIFIER    

event 2.2.1.16.9
OBJECT IDENTIFIER    

alarmTable 2.2.1.16.3.1
A list of alarm entries.
OBJECT-TYPE    
  SEQUENCE OF  
    AlarmEntry

alarmEntry 2.2.1.16.3.1.1
A list of parameters that set up a periodic checking for alarm conditions.
OBJECT-TYPE    
  AlarmEntry  

alarmIndex 2.2.1.16.3.1.1.1
An index that uniquely identifies an entry in the alarm table. Each such entry defines a diagnostic sample at a particular interval for an object on the device.
OBJECT-TYPE    
  INTEGER 1..65535  

alarmInterval 2.2.1.16.3.1.1.2
The interval in seconds over which the data is sampled and compared with the rising and falling thresholds. When setting this variable, care should be given to ensure that the variable being monitored will not exceed 2^31 - 1 and roll over the alarmValue object during the interval. This object may not be modified if the associated alarmStatus object is equal to valid(1).
OBJECT-TYPE    
  INTEGER  

alarmVariable 2.2.1.16.3.1.1.3
The object identifier of the particular variable to be sampled. Only variables that resolve to an ASN.1 primitive type of INTEGER (INTEGER, Counter, Gauge, or TimeTicks) may be sampled. Because SNMP access control is articulated entirely in terms of the contents of MIB views, no access control mechanism exists that can restrict the value of this object to identify only those objects that exist in a particular MIB view. Because there is thus no acceptable means of restricting the read access that could be obtained through the alarm mechanism, the probe must only grant write access to this object in those views that have read access to all objects on the probe. During a set operation, if the supplied variable name is not available in the selected MIB view, a badValue error must be returned. If at any time the variable name of an established alarmEntry is no longer available in the selected MIB view, the probe must change the status of this alarmEntry to invalid(4). This object may not be modified if the associated alarmStatus object is equal to valid(1).
OBJECT-TYPE    
  OBJECT IDENTIFIER  

alarmSampleType 2.2.1.16.3.1.1.4
The method of sampling the selected variable and calculating the value to be compared against the thresholds. If the value of this object is absoluteValue(1), the value of the selected variable will be compared directly with the thresholds at the end of the sampling interval. If the value of this object is deltaValue(2), the value of the selected variable at the last sample will be subtracted from the current value, and the difference compared with the thresholds. This object may not be modified if the associated alarmStatus object is equal to valid(1).
OBJECT-TYPE    
  INTEGER absoluteValue(1), deltaValue(2)  

alarmValue 2.2.1.16.3.1.1.5
The value of the statistic during the last sampling period. The value during the current sampling period is not made available until the period is completed.
OBJECT-TYPE    
  INTEGER  

alarmStartupAlarm 2.2.1.16.3.1.1.6
The alarm that may be sent when this entry is first set to valid. If the first sample after this entry becomes valid is greater than or equal to the risingThreshold and alarmStartupAlarm is equal to risingAlarm(1) or risingOrFallingAlarm(3), then a single rising alarm will be generated. If the first sample after this entry becomes valid is less than or equal to the fallingThreshold and alarmStartupAlarm is equal to fallingAlarm(2) or risingOrFallingAlarm(3), then a single falling alarm will be generated. This object may not be modified if the associated alarmStatus object is equal to valid(1).
OBJECT-TYPE    
  INTEGER risingAlarm(1), fallingAlarm(2), risingOrFallingAlarm(3)  

alarmRisingThreshold 2.2.1.16.3.1.1.7
A threshold for the sampled statistic. When the current sampled value is greater than or equal to this threshold, and the value at the last sampling interval was less than this threshold, a single event will be generated. A single event will also be generated if the first sample after this entry becomes valid is greater than or equal to this threshold and the associated alarmStartupAlarm is equal to risingAlarm(1) or risingOrFallingAlarm(3). After a rising event is generated, another such event will not be generated until the sampled value falls below this threshold and reaches the alarmFallingThreshold. This object may not be modified if the associated alarmStatus object is equal to valid(1).
OBJECT-TYPE    
  INTEGER  

alarmFallingThreshold 2.2.1.16.3.1.1.8
A threshold for the sampled statistic. When the current sampled value is less than or equal to this threshold, and the value at the last sampling interval was greater than this threshold, a single event will be generated. A single event will also be generated if the first sample after this entry becomes valid is less than or equal to this threshold and the associated alarmStartupAlarm is equal to fallingAlarm(2) or risingOrFallingAlarm(3). After a falling event is generated, another such event will not be generated until the sampled value rises above this threshold and reaches the alarmRisingThreshold. This object may not be modified if the associated alarmStatus object is equal to valid(1).
OBJECT-TYPE    
  INTEGER  

alarmRisingEventIndex 2.2.1.16.3.1.1.9
The index of the eventEntry that is used when a rising threshold is crossed. The eventEntry identified by a particular value of this index is the same as identified by the same value of the eventIndex object. If there is no corresponding entry in the eventTable, then no association exists. In particular, if this value is zero, no associated event will be generated, as zero is not a valid event index. This object may not be modified if the associated alarmStatus object is equal to valid(1).
OBJECT-TYPE    
  INTEGER 0..65535  

alarmFallingEventIndex 2.2.1.16.3.1.1.10
The index of the eventEntry that is used when a falling threshold is crossed. The eventEntry identified by a particular value of this index is the same as identified by the same value of the eventIndex object. If there is no corresponding entry in the eventTable, then no association exists. In particular, if this value is zero, no associated event will be generated, as zero is not a valid event index. This object may not be modified if the associated alarmStatus object is equal to valid(1).
OBJECT-TYPE    
  INTEGER 0..65535  

alarmOwner 2.2.1.16.3.1.1.11
The entity that configured this entry and is therefore using the resources assigned to it.
OBJECT-TYPE    
  DisplayString  

alarmStatus 2.2.1.16.3.1.1.12
The status of this alarm entry.
OBJECT-TYPE    
  INTEGER valid(1), createRequest(2), underCreation(3), invalid(4)  

eventTable 2.2.1.16.9.1
A list of events to be generated.
OBJECT-TYPE    
  SEQUENCE OF  
    EventEntry

eventEntry 2.2.1.16.9.1.1
A set of parameters that describe an event to be generated when certain conditions are met.
OBJECT-TYPE    
  EventEntry  

eventIndex 2.2.1.16.9.1.1.1
An index that uniquely identifies an entry in the event table. Each such entry defines one event that is to be generated when the appropriate conditions occur.
OBJECT-TYPE    
  INTEGER 1..65535  

eventDescription 2.2.1.16.9.1.1.2
A comment describing this event entry.
OBJECT-TYPE    
  DisplayString Size(0..127)  

eventType 2.2.1.16.9.1.1.3
The type of notification that the probe will make about this event. In the case of log, an entry is made in the log table for each event. In the case of snmp-trap, an SNMP trap is sent to one or more management stations.
OBJECT-TYPE    
  INTEGER none(1), log(2), snmp-trap(3), log-and-trap(4)  

eventCommunity 2.2.1.16.9.1.1.4
If an SNMP trap is to be sent, it will be sent to the SNMP community specified by this octet string. In the future this table will be extended to include the party security mechanism. This object shall be set to a string of length zero if it is intended that that mechanism be used to specify the destination of the trap.
OBJECT-TYPE    
  OCTET STRING Size(0..127)  

eventLastTimeSent 2.2.1.16.9.1.1.5
The value of sysUpTime at the time this event entry last generated an event. If this entry has not generated any events, this value will be zero.
OBJECT-TYPE    
  TimeTicks  

eventOwner 2.2.1.16.9.1.1.6
The entity that configured this entry and is therefore using the resources assigned to it. If this object contains a string starting with 'monitor' and has associated entries in the log table, all connected management stations should retrieve those log entries, as they may have significance to all management stations connected to this device
OBJECT-TYPE    
  DisplayString  

eventStatus 2.2.1.16.9.1.1.7
The status of this event entry. If this object is not equal to valid(1), all associated log entries shall be deleted by the agent.
OBJECT-TYPE    
  INTEGER valid(1), createRequest(2), underCreation(3), invalid(4)  

logTable 2.2.1.16.9.2
A list of events that have been logged.
OBJECT-TYPE    
  SEQUENCE OF  
    LogEntry

logEntry 2.2.1.16.9.2.1
A set of data describing an event that has been logged.
OBJECT-TYPE    
  LogEntry  

logEventIndex 2.2.1.16.9.2.1.1
The event entry that generated this log entry. The log identified by a particular value of this index is associated with the same eventEntry as identified by the same value of eventIndex.
OBJECT-TYPE    
  INTEGER 1..65535  

logIndex 2.2.1.16.9.2.1.2
An index that uniquely identifies an entry in the log table amongst those generated by the same eventEntries. These indexes are assigned beginning with 1 and increase by one with each new log entry. The association between values of logIndex and logEntries is fixed for the lifetime of each logEntry. The agent may choose to delete the oldest instances of logEntry as required because of lack of memory. It is an implementation-specific matter as to when this deletion may occur.
OBJECT-TYPE    
  INTEGER  

logTime 2.2.1.16.9.2.1.3
The value of sysUpTime when this log entry was created.
OBJECT-TYPE    
  TimeTicks  

logDescription 2.2.1.16.9.2.1.4
An implementation dependent description of the event that activated this log entry.
OBJECT-TYPE    
  DisplayString Size(0..255)  

risingAlarm 1
The SNMP trap that is generated when an alarm entry crosses its rising threshold and generates an event that is configured for sending SNMP traps.
TRAP-TYPE    

fallingAlarm 2
The SNMP trap that is generated when an alarm entry crosses its falling threshold and generates an event that is configured for sending SNMP traps.
TRAP-TYPE    

ascTimeAttemptedLogin 2.4.1.43.10.6.1
Time in hundredths of a second when the last Login was attempted. Note, that only the ASCII Agent can write to this parameter. A write operation from any other agent will result in an ERROR
OBJECT-TYPE    
  TimeTicks  

ascUserNameForLastAttemptedLogin 2.4.1.43.10.6.2
An ASCII string used when attempted login. Empty string is NOT valid. Note, that only the ASCII Agent can write to this parameter. A write operation from any other agent will result in an ERROR
OBJECT-TYPE    
  DisplayString Size(0..10)  

ascLoginStatus 2.4.1.43.10.6.3
Status of last attempted login. The value 'loginOKFromTelnet' or 'loginOKFromSerialPort' is used to show that the user was allowed access via Telnet or Serial Port. 'DeniedAccessFromTelnet' indicates that a user was denied access via Telnet. The value 'unknownUserFromTelnet' is used to show that a user attempted to login with an invalid user name from a Telnet session and 'incorrectPasswordFromTelnet' is used to show that an invalid password was entered having supplied a valid user name. The value 'securityViolationFromTelnet' is used to indicate that a user has entered the password incorrectly three time consecutively from a Telnet session. Note that only the ASCII Agent can write to this parameter. A write operation from any other agent will result in an ERROR
OBJECT-TYPE    
  INTEGER loginOKFromTelnet(1), loginOKFromSerialPort(2), deniedAccessFromTelnet(3), deniedAccessFromSerialPort(4), unknownUserFromTelnet(5), unknownUserFromSerialPort(6), incorrectPasswordFromTelnet(7), incorrectPasswordFromSerialPort(8), securityViolationFromTelnet(9), securityViolationFromSerialPort(10), nologin(11)  

ascLocalManagementBanner 2.4.1.43.10.6.4
An ASCII string describing the Banner to appear on the FIRST screen of the Local Management Terminal. The string of 490 characters defines a region in the centre of the screen which is 7 Rows by 70 Columns
OBJECT-TYPE    
  DisplayString Size(0..490)  

localManagementUpdate 14
A local management update trap indicates that the configuration of the device has been modified via the ascii agent. This may be through Telnet or the V24 port.
TRAP-TYPE    

securityViolation 15
A security violation trap indicates that a user has attempted to login and failed to enter the correct password Three times consecutively.
TRAP-TYPE    

siSlipPort 2.4.1.43.10.7.1
This object identifies the serial port which SLIP can use to send/receive packets. If this object is set to 0xFFFF, then SLIP cannot send/receive packets.
OBJECT-TYPE    
  INTEGER  

configV24Table 2.4.1.43.10.7.2
Configuration parameters for all the V.24 ports in a system.
OBJECT-TYPE    
  SEQUENCE OF  
    ConfigV24Entry

configV24Entry 2.4.1.43.10.7.2.1
Configuration parameters for a V.24 port in the system.
OBJECT-TYPE    
  ConfigV24Entry  

configV24PortID 2.4.1.43.10.7.2.1.1
This attribute uniquely identifies this V.24 port, it is the index for the V.24 table.
OBJECT-TYPE    
  INTEGER 1..16  

configV24ConnType 2.4.1.43.10.7.2.1.2
This determines if the V.24 port is to be connected locally to a terminal or terminal emulator in which case no interface signals need to be asserted unless requested by other management options below or if the V.24 port is to be connected to a modem when at least DSR is required to be asserted.
OBJECT-TYPE    
  INTEGER local(1), remote(2)  

configV24AutoConfig 2.4.1.43.10.7.2.1.3
This determines if the configuration parameters for the V.24 port, speed, parity, stop bits, character size, are to be determined automatically from an initial character sequence entered by the user or they will be defined by the management options below.
OBJECT-TYPE    
  INTEGER disabled(1), enabled(2)  

configV24Speed 2.4.1.43.10.7.2.1.4
This determines the receive and transmit speed of the V.24 port unless the autoconfigure attribute is enabled when the data rates are determined from the line. Split rx and tx speeds are not possible.
OBJECT-TYPE    
  INTEGER speed1200(4), speed2400(5), speed4800(6), speed9600(7), speed19200(8), speed38400(9)  

configV24CharSize 2.4.1.43.10.7.2.1.5
This determines the character size, unless the autoconfigure attribute is enabled when character size is determined automatically from the line, it may be set to either 7 or 8 bits.
OBJECT-TYPE    
  INTEGER size7(3), size8(4)  

configV24StopBits 2.4.1.43.10.7.2.1.6
This determines the number of stop bits.
OBJECT-TYPE    
  INTEGER stopOne(1), stopOneDotFive(2), stopTwo(3)  

configV24Parity 2.4.1.43.10.7.2.1.7
This determines the parity option to be used, unless the autoconfigure attribute is enabled when parity is determined automatically from the line, it may be set to either no parity, space (parity bit always 0), mark (parity bit always 1), odd or even.
OBJECT-TYPE    
  INTEGER noParity(1), spaceParity(2), markParity(3), oddParity(4), evenParity(5)  

configV24DSRControl 2.4.1.43.10.7.2.1.8
This attribute is only applicable to local connection types. It determines if DSR need be asserted for a local connection to be made and if the connection need be released if DSR is seen deasserted.
OBJECT-TYPE    
  INTEGER disabled(1), enabled(2)  

configV24DCDControl 2.4.1.43.10.7.2.1.9
This attribute is only applicable to local connection types. It determines if DCD need be asserted for a local connection to be made and if the connection should be release if DCD is seen deasserted.
OBJECT-TYPE    
  INTEGER disabled(1), enabled(2)  

configV24FlowControl 2.4.1.43.10.7.2.1.10
This determines the flow control protocol to be used, either no flow control, xon-xoff, rts-cts full duplex or rts-cts. Full duplex rts/cts uses the rts and cts lines as two independent signals. The DTE signals to the DCE that it is prepared to accept more data by asserting RTS, the DCE signals to the DTE that is is prepared to accept more data by asserting CTS. Half duplex rts/cts (the conventional way) uses CTS as a response to RTS, the DCE flow controls the DTE by only returning CTS is response to a RTS from the DTE when the DCE can accept more data. The DTE can flow control the DCE by raising RTS when it does not want to receive any more input and dropping it when it is ready to receive more.
OBJECT-TYPE    
  INTEGER noFlowControl(1), xonXoff(2), rtsCtsFullDplx(3), rtsCtsHalfDplx(4)  

configV24Update 2.4.1.43.10.7.2.1.11
This attribute may be written to to force the operational V.24 port parameters to be updated.
OBJECT-TYPE    
  INTEGER nochange(1), update(2)  

esDatabaseState 2.4.1.43.10.9.1
This parameter is normally set to 'NO-CHANGE'. When any change is made to the database the value of this parameter becomes 'MODIFIED'. It will remain in this state until a manager sets it back to NO-CHANGE.
OBJECT-TYPE    
  INTEGER noChange(1), modified(2)  

esDatabaseFlush 2.4.1.43.10.9.2
This parameter clears the End Station Database
OBJECT-TYPE    
  INTEGER flush(1)  

esTable 2.4.1.43.10.9.3
End Station Table
OBJECT-TYPE    
  SEQUENCE OF  
    EsTableEntry

esTableEntry 2.4.1.43.10.9.3.1
The end station database maintains information concerning end-station address information against device port for 802.3 repeater type devices. This table provides one of three views on that database. The view provided by this particular table is indexed firstly on address type and then on address and so can be used to read the entire contents of the database in end-station address order. Additionally one can read all addresses of a certain type from the database, e.g. all IP addresses known. There are some points to note when reading the contents of the end station table. Firstly the repeater number reported will change if a unit is moved from one repeater within a device to another or if a unit is isolated. Secondly an address will only appear in the table once. If an address which is already present in the database is found on another port then the original record is changed and the 'modified' flag set for that entry.
OBJECT-TYPE    
  EsTableEntry  

esAddrType 2.4.1.43.10.9.3.1.1
The end station database is capable of storing information for a number of different protocols. Each protocol has it's own addressing format. This parameter allows access to the end station database indexed on address type. For example to read all IEE8021 addresses simply start with a get-next operation on IEEE8021.0 and read until the type changes.
OBJECT-TYPE    
  INTEGER ieee8021(1), internet(2), ipx(3)  

esAddress 2.4.1.43.10.9.3.1.2
The address information held in this entry of the database. The length and format of the string depends on the address type. For example a MAC address will be a 6 byte OCTET STRING, an IP address a 4 byte OCTET STRING.
OBJECT-TYPE    
  OCTET STRING Size(6)  

esSlotNumber 2.4.1.43.10.9.3.1.3
Number of unit on which this address was learnt.
OBJECT-TYPE    
  INTEGER  

esPortNumber 2.4.1.43.10.9.3.1.4
Port number of unit on which this address was learnt.
OBJECT-TYPE    
  INTEGER  

esModTable 2.4.1.43.10.9.4
End Station Table ( Modified )
OBJECT-TYPE    
  SEQUENCE OF  
    EsModTableEntry

esModTableEntry 2.4.1.43.10.9.4.1
The end station database maintains information concerning end-station address information against device port for 802.3 repeater type devices. This table provides one of three views on that database. The view provided by this particular table is indexed firstly on address type and then on address. The view is restricted to include only those entries in the database which have the MODIFIED flag set, i.e. that have been changed since the database was last viewed by the manager. This table can be used to read all the modified entries in the table. This is the table generally used to update the contents of a station map in a management station. Note that it can take a reasonable time to read the contents of the table and in that time other changes may occur. To detect this an additional MIB parameter is specified 'esDatabaseState'. This parameter is normally set to 'NO-CHANGE'. When any change is made to the database the value of this parameter becomes 'MODIFIED'. It will remain in this state until a manager sets it back to NO-CHANGE. The recommended access for this table is as follows: do { write 'NO-CHANGE' to esDatabaseState read modified table read esDatabaseState } while esDatabaseState is MODIFIED There are some points to note when reading the contents of the end station table. Firstly the repeater number reported will change if a unit is moved from one repeater within a device to another or if a unit is isolated. Secondly an address will only appear in the table once. If an address which is already present in the database is found on another port then the original record is changed and the 'modified' flag set for that entry.
OBJECT-TYPE    
  EsModTableEntry  

esModAddrType 2.4.1.43.10.9.4.1.1
The end station database is capable of storing information for a number of different protocols. Each protocol has it's own addressing format. This parameter allows access to the end station database indexed on address type. For example to read all IEE8021 addresses simply start with a get-next operation on IEEE8021.0 and read until the type changes.
OBJECT-TYPE    
  INTEGER ieee8021(1), internet(2), ipx(3)  

esModAddress 2.4.1.43.10.9.4.1.2
The address information held in this entry of the database. The length and format of the string depends on the address type. For example a MAC address will be a 6 byte OCTET STRING, an IP address a 4 byte OCTET STRING.
OBJECT-TYPE    
  OCTET STRING Size(6)  

esModSlotNumber 2.4.1.43.10.9.4.1.3
Unit number on which this address was learnt.
OBJECT-TYPE    
  INTEGER  

esModPortNumber 2.4.1.43.10.9.4.1.4
Port number of unit on which this address was learnt.
OBJECT-TYPE    
  INTEGER  

esPortAccessTable 2.4.1.43.10.9.5
End Station Table ( Port Access )
OBJECT-TYPE    
  SEQUENCE OF  
    EsPortAccessEntry

esPortAccessEntry 2.4.1.43.10.9.5.1
The end station database maintains information concerning end-station address information against device port for 802.3 repeater type devices. This table provides one of three views on that database. The view provided by this particular table allows one to determine the addresses learnt against a particular port.
OBJECT-TYPE    
  EsPortAccessEntry  

ecPortCardNo 2.4.1.43.10.9.5.1.2
Unit part of the identifier for this port.
OBJECT-TYPE    
  INTEGER  

ecPortPortNo 2.4.1.43.10.9.5.1.3
Port number on unit of port for which end station information is required.
OBJECT-TYPE    
  INTEGER  

ecPortIndex 2.4.1.43.10.9.5.1.4
Each port may have a number of addresses against it. This index allows these various addresses to be distinguished. The only stipulation on this number is that it will be unique for the any combination of unit and port. The numbers will be returned in numerically ascending order for a particular unit.port combination but will not be contiguous. For example the following sequence could be seen: Unit Port Index 1 1 211 1 1 231 1 1 438 1 1 672 1 2 120 etc
OBJECT-TYPE    
  INTEGER  

ecPortAddrType 2.4.1.43.10.9.5.1.5
The end station database is capable of storing information for a number of different protocols. Each protocol has it's own addressing format. This parameter identifies the type of address in this entry of the table.
OBJECT-TYPE    
  INTEGER ieee8021(1), internet(2), ipx(3)  

ecPortAddress 2.4.1.43.10.9.5.1.6
The address information held in this entry of the database. The length and format of the string depends on the address type. For example a MAC address will be a 6 byte OCTET STRING, an IP address a 4 byte OCTET STRING.
OBJECT-TYPE    
  OCTET STRING Size(6)  

estStateChange 19
When the end-station table moves from the noChange to modified state this trap is generated. The trap is sent once on this transition and not subsequently until the 'Database State' is changed back to 'noChange' by a manager.
TRAP-TYPE    

estTableFull 20
When the end-station table becomes full this trap is generated.
TRAP-TYPE    

pollTable 2.4.1.43.10.20.1
This table is used to provide remote device monitoring facilities. This table allows a list of network devices to be set up and polled regularly (or only once) by a variety of protocols. The table can be configured to inform the management station(s) of devices that are not responding to polls or that have started to respond after a period of silence. The minimum effort required to do a single poll is 1. In one packet, Write the address, rate=once-only(1) and RowStatus=CreateAndGo. 2. In the next packet, read the roundTripTime. The minimum effort required to monitor a device is 1. In one packet, Write the address, rate=every-30-seconds(1) and RowStatus=CreateAndGo. 2. Wait for traps to come in.
OBJECT-TYPE    
  SEQUENCE OF  
    PollTableEntry

pollTableEntry 2.4.1.43.10.20.1.1
A table used to define device monitoring.
OBJECT-TYPE    
  PollTableEntry  

pollIndex 2.4.1.43.10.20.1.1.1
Unique identifier of a row in the Poll Table. The actual number of rows that can be created on any particular device depends on the memory and processing resources available at the time.
OBJECT-TYPE    
  INTEGER 1..255  

pollAddress 2.4.1.43.10.20.1.1.2
This DisplayString is the network address of the device to monitor. Typically this is an IP, MAC or IPX address. The following formats can be used. IP nnn.nnn.nnn.nnn - dotted format IPX AABBCCDD:AABBCCDDEEFF - network : node
OBJECT-TYPE    
  DisplayString Size(0..50)  

pollProtocol 2.4.1.43.10.20.1.1.3
This defines the protocol to use with which to monitor the device. Writing an address to the pollAddress field causes a default pollProtocol value to be setup. The default value is derived from the format of the address - four bytes means ip(2), and 10 bytes means ipx(3) addresses. If the requested protocol is not supported or is not compatible with the pollAddress, then an error is returned when an attempt is made to set the RowStatus to active or notInService.
OBJECT-TYPE    
  INTEGER unknown(1), ip(2), ipx(3), learn(4), llc(5)  

pollRate 2.4.1.43.10.20.1.1.4
This defines how often a poll packet is sent to the device. If once-only(1) is chosen, then when the RowStatus is set to active, a single poll packet is to be sent. There are no re-transmissions and no traps are generated. The results of the operation can be read in the pollLastPollSent and pollRoundTripTime fields. When a reply to the poll is received, then the RowStatus is changed to notInService. For the other values, setting the RowStatus to active causes the device to be regularly polled. The operation of the poll can be monitored by reading the pollLastPollSent and pollRoundTripTime fields. After four un-successful polls a pollLostContact trap is generated. The next successful poll to the device causes a pollEstablishedContact trap to be generated. Changing RowStatus from the active state causes polling to stop - in particular changing RowStatus from active to notInService (and vice-versa) is a convenient way of stopping and starting the polls. A poll is said to have been un-successful, if no reply has been received by the time the device is due to be polled again - i.e. if the pollRoundTripTime is still zero. By convention, row 1 of the PollTable is only ever used for once-only(1) polls. The facilities of the RMON Alarm and RMON Event groups are used when regular polling is taking place. These groups perform the timing, threshold checking and trap generation.
OBJECT-TYPE    
  INTEGER once-only(1), every-30-seconds(2), every-minute(3), every-5-minutes(4), every-30-minutes(5), every-hour(6)  

pollTargetType 2.4.1.43.10.20.1.1.5
This field is provided solely for the purpose of the Network Management station to allow extra information to be stored about this poll table entry. This value is not used by the device.
OBJECT-TYPE    
  INTEGER other(1), file-server(2)  

pollLastPollSent 2.4.1.43.10.20.1.1.6
Reading this variable returns the sysUpTime at which the last poll was sent to the device. A value of 0 means that no polls have been sent or that the poll could not be sent e.g. protocol error.
OBJECT-TYPE    
  TimeTicks  

pollRoundTripTime 2.4.1.43.10.20.1.1.7
This is the round trip time in milli-seconds of the most recent poll to the pollAddress device. A value of 0 means that no reply has been received from the last poll. Round trip times of less than one hundred of a second are reported with the value of 10 milli-seconds.
OBJECT-TYPE    
  INTEGER  

pollInformation 2.4.1.43.10.20.1.1.8
After each successful poll, this field is updated with some protocol specific information that was gleaned from the packet exchange. For the IPX protocol, this string contains the number of router hops made by the poll response packet. For the IP protocol, this string contains the value of Time-To-Live from the IP packet header.
OBJECT-TYPE    
  DisplayString Size(0..500)  

pollAlarmIndex 2.4.1.43.10.20.1.1.9
This is a value of alarmIndex from the RMON Alarm Table. The alarm indicated is being used by the PollTable to provide the timing and trap generation facilities. If this value is 0, then no alarm is associated with this PollTable entry.
OBJECT-TYPE    
  INTEGER  

pollOwner 2.4.1.43.10.20.1.1.10
The RMON OwnerString conventions are used here to help control the multi-manager situations. This data type is used to model an administratively assigned name of the owner of a resource. This information is taken from the NVT ASCII character set. It is suggested that this name contain one or more of the following: IP address, management station name, network manager's name, location, or phone number. In some cases the agent itself will be the owner of an entry. In these cases, this string shall be set to a string starting with 'monitor'. SNMP access control is articulated entirely in terms of the contents of MIB views; access to a particular SNMP object instance depends only upon its presence or absence in a particular MIB view and never upon its value or the value of related object instances. Thus, objects of this type afford resolution of resource contention only among cooperating managers; they realize no access control function with respect to uncooperative parties.
OBJECT-TYPE    
  DisplayString  

pollRowStatus 2.4.1.43.10.20.1.1.11
The SNMPv2 RowStatus convention. Notes: 1) Writing any data to a destroyed row, changes its state to notReady. 2) If the status is active or notInService and any of the configuration parameters are changed, then the polling stops and the status is set to notReady.
OBJECT-TYPE    
  INTEGER active(1), notInService(2), notReady(3), createAndGo(4), createAndWait(5), destroy(6)  

pollNextFreeIndex 2.4.1.43.10.20.2
Indicates the the next value of pollIndex which can be used to create the next poll entry. This value is set to zero if there are no free rows in the table.
OBJECT-TYPE    
  INTEGER 0..255  

pollTableSuccessTrap 61
This trap is generated when the PollTable in the managed agent receives a reply to a poll after a sequence of four or more un-successful polls.
TRAP-TYPE    

pollTableFailedTrap 62
This trap is generated when the PollTable in the managed agent fails to receive a reply to four successive polls.
TRAP-TYPE    

trapTable 2.4.1.43.10.10.1
The snmp Trap database
OBJECT-TYPE    
  SEQUENCE OF  
    TrapEntry

trapEntry 2.4.1.43.10.10.1.1
A single snmp Trap entry
OBJECT-TYPE    
  TrapEntry  

trapStatus 2.4.1.43.10.10.1.1.1
The Status of the Entry valid(1) or invalid(2), writing invalid(2) will delete the entry from the table
OBJECT-TYPE    
  INTEGER valid(1), invalid(2)  

trapDestination 2.4.1.43.10.10.1.1.2
The Destination IP Address
OBJECT-TYPE    
  IpAddress  

trapCommunity 2.4.1.43.10.10.1.1.3
SNMP Community to be used to send traps to destination trapDestination
OBJECT-TYPE    
  DisplayString Size(0..32)  

trapSubject 2.4.1.43.10.10.1.1.4
SNMP Subject Party used to generate traps to destination trapDestination
OBJECT-TYPE    
  OBJECT IDENTIFIER  

trapCategory 2.4.1.43.10.10.1.1.5
32 Bit Mask indicating which Trap categories that the snmpTrapDestination is interested in. '00000001'h - High Priority Configuration Traps '00000002'h - Low Priority Configuration Traps '00000004'h - High Priority Security Traps '00000008'h - Low Priority Security Traps '00000010'h - Alarms & Polling Traps '00000020'h - Regular Heartbeat Traps '00000040'h - End Station Table Traps '00000080'h - reserved '00000100'h - Physical Entity Traps '00000200'h - Facility Traps '00000400'h - Service Related Traps A value of 0xFFFFFFFF enables all traps.
OBJECT-TYPE    
  INTEGER  

trapThrottle 2.4.1.43.10.10.1.1.6
The Maximum rate at which that trapDestination is willing to receive traps, specified as the minimum interval in milliseconds between traps. A value of zero indicates that no trap throttling is required.
OBJECT-TYPE    
  INTEGER  

snmpTrapTable 2.4.1.43.10.10.2
This table can store the destination addresses of SNMP managers that wish to receive traps from this device.
OBJECT-TYPE    
  SEQUENCE OF  
    SnmpTrapEntry

snmpTrapEntry 2.4.1.43.10.10.2.1
This table can store the destination addresses of SNMP managers that wish to receive traps from this device.
OBJECT-TYPE    
  SnmpTrapEntry  

snmpTrapIndex 2.4.1.43.10.10.2.1.1
This is the unique identifier for this row in the snmpTrapTable. When creating a new row, a manager can read the value of the snmpTrapNextFreeIndex object and (if non-zero) can use this value as the index of the new row to be created. The actual number of rows that can be created on any particular device depends on the memory and processing resources available at the time.
OBJECT-TYPE    
  INTEGER 1..255  

snmpTrapDestination 2.4.1.43.10.10.2.1.2
This DisplayString is the network address of the device to which SNMP traps will be sent. This is an IP or IPX address. The following formats can be used. IP nnn.nnn.nnn.nnn - dotted format IPX AABBCCDD:AABBCCDDEEFF - network : node Destination addresses must be unique within this table. An error is returned if an attempt is made to add a duplicate address.
OBJECT-TYPE    
  DisplayString Size(0..50)  

snmpTrapProtocol 2.4.1.43.10.10.2.1.3
This defines the transport protocol to use when sending an SNMP trap. At present, this value is determined by the format/value of snmpTrapDestionation which is currently un-ambiguous and so this object is read-only.
OBJECT-TYPE    
  INTEGER unknown(1), ip(2), ipx(3)  

snmpTrapCommunity 2.4.1.43.10.10.2.1.4
SNMP Community String to be used when sending Traps to this destination.
OBJECT-TYPE    
  DisplayString Size(0..32)  

snmpTrapCategory 2.4.1.43.10.10.2.1.5
32 Bit Mask indicating which Trap categories that the snmpTrapDestination is interested in. '00000001'h - High Priority Configuration Traps '00000002'h - Low Priority Configuration Traps '00000004'h - High Priority Security Traps '00000008'h - Low Priority Security Traps '00000010'h - Alarms & Polling Traps '00000020'h - Regular Heartbeat Traps '00000040'h - End Station Table Traps '00000080'h - reserved '00000100'h - Physical Entity Traps '00000200'h - Facility Traps '00000400'h - Service Related Traps A value of 0xFFFFFFFF enables all traps.
OBJECT-TYPE    
  OCTET STRING Size(4)  

snmpTrapThrottle 2.4.1.43.10.10.2.1.6
The maximum rate at which that snmpTrapDestination is willing to receive traps, specified as the minimum interval in milliseconds between traps. For example, a value of 2000 will limit traps sent to this destination to one trap every 2 seconds. A value of zero indicates that no trap throttling is required.
OBJECT-TYPE    
  INTEGER 0..99999  

snmpTrapRowStatus 2.4.1.43.10.10.2.1.7
The SNMPv2 RowStatus convention. Notes: Because this is such a simple table:- 1) Writing any data to a destroyed row, changes its state to active. 2) There is no notReady or notInService state. Each row is either active or destroyed.
OBJECT-TYPE    
  INTEGER active(1), notInService(2), notReady(3), createAndGo(4), createAndWait(5), destroy(6)  

snmpTrapNextFreeIndex 2.4.1.43.10.10.3
Indicates the the next value of snmpTrapIndex which can be used to create a new trap destination entry. This value is zero if there are no free rows in the table.
OBJECT-TYPE    
  INTEGER 0..255  

novell 2.4.1.23
OBJECT IDENTIFIER    

mibDoc 2.4.1.23.2
OBJECT IDENTIFIER    

ipx 2.4.1.23.2.5
OBJECT IDENTIFIER    

ipxSystem 3.1
OBJECT IDENTIFIER    

ipxCircuit 3.2
OBJECT IDENTIFIER    

ipxForwarding 3.3
OBJECT IDENTIFIER    

ipxServices 3.4
OBJECT IDENTIFIER    

ipxTraps 3.5
OBJECT IDENTIFIER    

ipxBasicSysTable 3.1.1
The IPX System Table - basic information.
OBJECT-TYPE    
  SEQUENCE OF  
    IpxBasicSysEntry

ipxBasicSysEntry 3.1.1.1
Each entry corresponds to one instance of IPX running on the system.
OBJECT-TYPE    
  IpxBasicSysEntry  

ipxBasicSysInstance 3.1.1.1.1
The unique identifier of the instance of IPX to which this row corresponds. This value may be written only when creating a new entry in the table.
OBJECT-TYPE    
  INTEGER  

ipxBasicSysExistState 3.1.1.1.2
The validity of this entry in the IPX system table. Setting this field to off indicates that this entry may be deleted from the system table at the IPX implementation's discretion.
OBJECT-TYPE    
  INTEGER off(1), on(2)  

ipxBasicSysNetNumber 3.1.1.1.3
The network number portion of the IPX address of this system.
OBJECT-TYPE    
  OCTET STRING Size(4)  

ipxBasicSysNode 3.1.1.1.4
The node number portion of the IPX address of this system.
OBJECT-TYPE    
  OCTET STRING Size(6)  

ipxBasicSysName 3.1.1.1.5
The readable name for this system.
OBJECT-TYPE    
  OCTET STRING Size(0..48)  

ipxBasicSysInReceives 3.1.1.1.6
The total number of IPX packets received, including those received in error.
OBJECT-TYPE    
  Counter  

ipxBasicSysInHdrErrors 3.1.1.1.7
The number of IPX packets discarded due to errors in their headers, including any IPX packets with a size less than the minimum of 30 bytes.
OBJECT-TYPE    
  Counter  

ipxBasicSysInUnknownSockets 3.1.1.1.8
The number of IPX packets discarded because the destination socket was not open.
OBJECT-TYPE    
  Counter  

ipxBasicSysInDiscards 3.1.1.1.9
The number of IPX packets received but discarded due to reasons other than those accounted for by ipxBasicSysInHdrErrors, ipxBasicSysInUnknownSockets, ipxAdvSysInDiscards, and ipxAdvSysInCompressDiscards.
OBJECT-TYPE    
  Counter  

ipxBasicSysInBadChecksums 3.1.1.1.10
The number of IPX packets received with incorrect checksums.
OBJECT-TYPE    
  Counter  

ipxBasicSysInDelivers 3.1.1.1.11
The total number of IPX packets delivered locally, including packets from local applications.
OBJECT-TYPE    
  Counter  

ipxBasicSysNoRoutes 3.1.1.1.12
The number of times no route to a destination was found.
OBJECT-TYPE    
  Counter  

ipxBasicSysOutRequests 3.1.1.1.13
The number of IPX packets supplied locally for transmission, not including any packets counted in ipxAdvForwPackets.
OBJECT-TYPE    
  Counter  

ipxBasicSysOutMalformedRequests 3.1.1.1.14
The number of IPX packets supplied locally that contained errors in their structure.
OBJECT-TYPE    
  Counter  

ipxBasicSysOutDiscards 3.1.1.1.15
The number of outgoing IPX packets discarded due to reasons other than those accounted for in ipxBasicSysOutMalformedDiscards, ipxAdvSysOutFiltered, and ipxAdvSysOutCompressDiscards.
OBJECT-TYPE    
  Counter  

ipxBasicSysOutPackets 3.1.1.1.16
The total number of IPX packets transmitted.
OBJECT-TYPE    
  Counter  

ipxBasicSysConfigSockets 3.1.1.1.17
The configured maximum number of IPX sockets that may be open at one time.
OBJECT-TYPE    
  INTEGER  

ipxBasicSysOpenSocketFails 3.1.1.1.18
The number of IPX socket open calls which failed.
OBJECT-TYPE    
  Counter  

ipxAdvSysTable 3.1.2
The IPX System Table - advanced information.
OBJECT-TYPE    
  SEQUENCE OF  
    IpxAdvSysEntry

ipxAdvSysEntry 3.1.2.1
Each entry corresponds to one instance of IPX running on the system.
OBJECT-TYPE    
  IpxAdvSysEntry  

ipxAdvSysInstance 3.1.2.1.1
The unique identifer of the instance of IPX to which this row corresponds. This value may be written only when creating a new entry in the table.
OBJECT-TYPE    
  INTEGER  

ipxAdvSysMaxPathSplits 3.1.2.1.2
The maximum number of paths with equal routing metric value which this instance of the IPX my split between when forwarding packets.
OBJECT-TYPE    
  INTEGER 1..32  

ipxAdvSysMaxHops 3.1.2.1.3
The maximum number of hops a packet may take.
OBJECT-TYPE    
  INTEGER  

ipxAdvSysTooManyHops 3.1.2.1.4
The number of IPX packets discarded due to exceeding the maximum hop count.
OBJECT-TYPE    
  Counter  

ipxAdvSysInFiltered 3.1.2.1.5
The number of incoming IPX packets discarded due to filtering.
OBJECT-TYPE    
  Counter  

ipxAdvSysCompressDiscards 3.1.2.1.6
The number of incoming IPX packets discarded due to decompression errors.
OBJECT-TYPE    
  Counter  

ipxAdvSysNETBIOSPackets 3.1.2.1.7
The number of NETBIOS packets received.
OBJECT-TYPE    
  Counter  

ipxAdvSysForwPackets 3.1.2.1.8
The number of IPX packets forwarded.
OBJECT-TYPE    
  Counter  

ipxAdvSysOutFiltered 3.1.2.1.9
The number of outgoing IPX packets discarded due to filtering.
OBJECT-TYPE    
  Counter  

ipxAdvSysOutCompressDiscards 3.1.2.1.10
The number of outgoing IPX packets discarded due to compression errors.
OBJECT-TYPE    
  Counter  

ipxAdvSysCircCount 3.1.2.1.11
The number of circuits known to this instance of IPX.
OBJECT-TYPE    
  Counter  

ipxAdvSysDestCount 3.1.2.1.12
The number of currently reachable destinations known to this instance of IPX.
OBJECT-TYPE    
  Counter  

ipxAdvSysServCount 3.1.2.1.13
The number of services known to this instance of IPX.
OBJECT-TYPE    
  Counter  

resTable 2.4.1.43.10.15.1
Tok_String
OBJECT-TYPE    
  SEQUENCE OF  
    ResTableEntry

resTableEntry 2.4.1.43.10.15.1.1
An MSH may be configured to contain a number of 'resilient pairs'. These are 802.3 point to point connections, e.g. UTP, that allow two repeaters to be connected together in a resilient configuration. In such a configuration one of the two ports is nominated the 'main' port while the other is the 'standby' port. One of these two ports is enabled and is the current active port. The other is present in case of failure of the active port. Such a failure is detected by the MSH and a switch performed. There are a couple of rules that must apply to a resilient pair definition before that definition becomes a valid resilient pair. Firstly both ports must be on the same repeater. Secondly the standby port must b