CISCO-WAN-AXIPOP-MIB

File: CISCO-WAN-AXIPOP-MIB.mib (946414 bytes)

Imported modules

RFC1155-SMI RFC-1212 RFC1213-MIB
BASIS-MIB

Imported symbols

Counter IpAddress Gauge
OBJECT-TYPE DisplayString atm
atmAddressRegistration cardGeneric axisDiagnostics
cardSpecific basisLines atmLmiSignaling
ausmPortCnf ausmChan cesmChan
ausmPort circuitEmulation frChan
frameRelay x21 frPortCntSig
frPortCnfSig basisAsm frPortCnfResPartGrp
vismChanCnfGrp vismPort vismChanGrp
dsx0Vism voice frPortCnt
frPortCnf frPortServiceQueGrp frPortCnfX21PortGrp
frPort ausmPortCnt virtualInterface
rpmInterface bbIfCnf bbIfCnfResPartGrp
bbIfStateGrp bbIfCnt bbChanCnfGrp
bbChanStateGrp bbChanCntGrp atmLineCnfGrp
atmLineCntGrp rpmPort rpmChanGrp
par

Defined Types

AtmAddress  
OCTET STRING Size(0..32)    

RpmNsapAddress  
OCTET STRING Size(20)    

IfNsapAddress  
OCTET STRING Size(20)    

NetPrefix  
OCTET STRING Size(8..13)    

AtmAddressEntry  
SEQUENCE    
  axisAtmAddressPort INTEGER
  axisAtmAddressAtmAddress AtmAddress
  axisAtmAddressStatus INTEGER

AtmNetPrefixEntry  
SEQUENCE    
  axisAtmNetPrefixPort INTEGER
  axisAtmNetPrefixPrefix NetPrefix
  axisAtmNetPrefixAdminStatus INTEGER
  axisAtmNetPrefixOperStatus INTEGER

CardResPartGrpEntry  
SEQUENCE    
  cardResPartCtrlrNum INTEGER
  cardResPartRowStatus INTEGER
  cardResPartNumOfLcnAvail INTEGER

BertDDSSeekResultsTableEntry  
SEQUENCE    
  bertDDSSeekResultsTableIndex INTEGER
  bertDDSCode INTEGER

BertSupportedTestsTableEntry  
SEQUENCE    
  bertSupportedTestsTableIndex INTEGER
  bertSupportFlag INTEGER
  bertTestMediumMask INTEGER
  bertModeMask INTEGER
  bertDeviceToLoopMask INTEGER
  bertPatternMask INTEGER
  bertLoopbackMask INTEGER
  bertCardT1E1Type INTEGER

Srm3T3CnfGrpEntry  
SEQUENCE    
  srmT3LineNum INTEGER
  srmStartT1LineNum INTEGER
  srmT1RowStatus INTEGER
  srmTargetSlotNum INTEGER
  srmTargetSlotLineNum INTEGER

SrmeCnfGrpEntry  
SEQUENCE    
  srmeLineNum INTEGER
  srmeStartVtNum INTEGER
  srmeRowStatus INTEGER
  srmeTargetSlotNum INTEGER
  srmeTargetSlotLineNum INTEGER
  srmeVtFramingType INTEGER

SerialInterfaceEntry  
SEQUENCE    
  serialPortNum INTEGER
  serialPortType INTEGER
  serialPortEnable INTEGER
  serialPortbps INTEGER

AsmAlarmEntry  
SEQUENCE    
  asmAlarmNum INTEGER
  asmAlarmType INTEGER
  asmAlarmUnitNum INTEGER
  asmAlarmThreshold INTEGER
  asmAlarmSeverity INTEGER
  asmUnitMeasurable INTEGER
  asmUnitMeasuredValue INTEGER
  asmPhysicalAlarmState INTEGER
  asmClrButton INTEGER

AumAddressTranslationEntry  
SEQUENCE    
  connShelfNum INTEGER
  connSlotNum INTEGER
  connChanNum INTEGER
  aumConnType INTEGER
  connVPINum INTEGER

AumAddressTranslationDeleteEntry  
SEQUENCE    
  delShelfNum INTEGER
  delSlotNum INTEGER

BnmPortCounterEntry  
SEQUENCE    
  bnmPortCounterIndex INTEGER
  bnmPortRcvCells Counter
  bnmPortXmtCells Counter
  bnmPortCounterClrButton INTEGER
  bnmPortRcvCellRate Gauge
  bnmPortRcvUtilization Gauge
  bnmPortXmtCellRate Gauge
  bnmPortXmtUtilization Gauge

AscChanStateSigLmiGrpEntry  
SEQUENCE    
  ascLmiVccLineNum INTEGER
  ascLmiVccVpi INTEGER
  ascLmiVccVci INTEGER
  ascLmiXmtAbitState INTEGER
  ascLmiRcvAbitState INTEGER

AscCnfSigLmiGrpEntry  
SEQUENCE    
  ascLmiCnfLineNum INTEGER
  ascLmiVpi INTEGER
  ascLmiVci INTEGER
  ascLmiEnabled INTEGER
  ascLmiPollingEnabled INTEGER
  ascLmiPollingInterval INTEGER
  ascLmiTimerT393 INTEGER
  ascLmiTimerT394 INTEGER
  ascLmiMaxRetryN394 INTEGER
  ascLmiMaxRetryN395 INTEGER
  ascLmiOperStatus INTEGER

AscCntSigLmiGrpEntry  
SEQUENCE    
  ascLmiCntLineNum INTEGER
  ascLmiStatusTx Counter
  ascLmiStatusEnqTx Counter
  ascLmiStatusAckTx Counter
  ascLmiUpdateStatusTx Counter
  ascLmiStatusRx Counter
  ascLmiStatusEnqRx Counter
  ascLmiStatusAckRx Counter
  ascLmiUpdateStatusRx Counter
  ascLmiInvalidPduRx Counter
  ascLmiInvalidPduLenRx Counter
  ascLmiUnknownPduRx Counter
  ascLmiInvalidIeRx Counter
  ascLmiInvalidTransaction Counter
  ascLmiTimeoutFailure Counter
  ascLmiNodeStatusTx Counter
  ascLmiNodeStatusAckTx Counter
  ascLmiNodeStatusRx Counter
  ascLmiNodeStatusAckRx Counter

PxmAtmVcCrossConnectEntry  
SEQUENCE    
  pxmAtmVcCrossConnectIndex INTEGER
  pxmAtmVcCrossConnectLowIfIndex INTEGER
  pxmAtmVcCrossConnectLowVpi INTEGER
  pxmAtmVcCrossConnectLowVci INTEGER
  pxmAtmVcCrossConnectHighIfIndex INTEGER
  pxmAtmVcCrossConnectHighVpi INTEGER
  pxmAtmVcCrossConnectHighVci INTEGER
  pxmAtmVcCrossConnectAdminStatus INTEGER
  pxmAtmVcCrossConnectL2HOperStatus INTEGER
  pxmAtmVcCrossConnectH2LOperStatus INTEGER
  pxmAtmVcCrossConnectL2HLastChange INTEGER
  pxmAtmVcCrossConnectH2LLastChange INTEGER
  pxmAtmVcCrossConnectRowStatus INTEGER
  pxmAtmVcCrossConnectHighAddressType INTEGER
  pxmAtmVcCrossConnectLowAddressType INTEGER

AtmLineCnfEntry  
SEQUENCE    
  atmLineCnfNum INTEGER
  atmLineInterfaceFormat INTEGER

AtmLineCntEntry  
SEQUENCE    
  atmLineNum INTEGER
  atmLineTotalRcvCells Counter
  atmLineTotalXmtCells Counter
  atmLineRcvHecErrorCells Counter
  atmLineCntClrButton INTEGER

BbIfCnfPortGrpEntry  
SEQUENCE    
  bbIfNum INTEGER
  bbIfRowStatus INTEGER
  bbIfAdmin INTEGER
  bbIfLineNum INTEGER
  bbIfIngrPctBandwidth INTEGER
  bbIfEgrPctBandwidth INTEGER
  bbIfMinVpi INTEGER
  bbIfMaxVpi INTEGER
  bbIfSpeed INTEGER
  bbIfMaxCellRatePct INTEGER

BbIfCnfRscPartGrpEntry  
SEQUENCE    
  bbRscPartIfNum INTEGER
  bbRscPartCtrlrNum INTEGER
  bbIfRscPrtRowStatus INTEGER
  bbIfRscPrtInUse INTEGER
  bbIfRscPrtIngrPctBandwidth INTEGER
  bbIfRscPrtEgrPctBandwidth INTEGER
  bbIfRscPrtVpiLow INTEGER
  bbIfRscPrtVpiHigh INTEGER
  bbIfRscPrtVciLow INTEGER
  bbIfRscPrtVciHigh INTEGER
  bbIfRscPrtVpidLow INTEGER
  bbIfRscPrtVpidHigh INTEGER
  bbIfRscPrtMaxChans INTEGER
  bbIfRscPartCtrlrID INTEGER

BbIfCnfSigILMIGrpEntry  
SEQUENCE    
  bbIfSigPortNum INTEGER
  bbIfIlmiEnable INTEGER
  bbIfSignallingProtocolType INTEGER
  bbIfSignallingVpi INTEGER
  bbIfSignallingVci INTEGER
  bbIfAddrPrefix NetPrefix
  bbIfCustomerId INTEGER
  bbIfProtocolRevNo INTEGER
  bbIfIlmiTrapEnable INTEGER
  bbIfMinTrapInterval INTEGER
  bbIfKeepAlivePollingEnable INTEGER
  bbIfErrorThresholdN491 INTEGER
  bbIfEventThresholdN492 INTEGER
  bbIfPollingIntervalT491 INTEGER
  bbIfMinEnquiryIntervalT493 INTEGER
  bbIfAddrRegEnable INTEGER

BbIfCntGrpEntry  
SEQUENCE    
  bbCntIfNum INTEGER
  bbIfTotalCells Counter
  bbIfRcvValidOAMCells Counter
  bbIfRcvRmCells Counter
  bbIfRcvClp0Cells Counter
  bbIfRcvClp1Cells Counter
  bbIfRcvClp0DiscCells Counter
  bbIfRcvClp1DiscCells Counter
  bbIfXmtOAMCells Counter
  bbIfXmtRmCells Counter
  bbIfXmtClp0Cells Counter
  bbIfXmtClp1Cells Counter
  bbIfCntClrButton INTEGER

BbIfCntSigILMIGrpEntry  
SEQUENCE    
  sigCntBbIfNum INTEGER
  bbIfSnmpPduReceived Counter
  bbIfGetRequestReceived Counter
  bbIfGetNextRequestReceived Counter
  bbIfSetRequestReceived Counter
  bbIfTrapReceived Counter
  bbIfGetResponseReceived Counter
  bbIfGetResponseTransmitted Counter
  bbIfGetRequestTransmitted Counter
  bbIfTrapTransmitted Counter
  bbIfInvalidPDUReceived Counter
  bbIfAsn1ParseError Counter
  bbIfNoSuchNameError Counter
  bbIfTooBigError Counter
  bbIfSigCntClrButton INTEGER

BbIfStateGrpEntry  
SEQUENCE    
  bbStateIfNum INTEGER
  bbIfState INTEGER
  bbIfOversubscribed INTEGER
  bbIfIngrPercentUtil INTEGER
  bbIfEgrPercentUtil INTEGER

BbChanCnfGrpEntry  
SEQUENCE    
  bbChanCnfNum INTEGER
  bbChanRowStatus INTEGER
  bbChanConnType INTEGER
  bbChanServiceType INTEGER
  bbChanConnDesc DisplayString
  bbChanSvcFlag INTEGER
  bbChanSvcConnId INTEGER
  bbChanIfNum INTEGER
  bbChanVpi INTEGER
  bbChanVci INTEGER
  bbChanUpcEnable INTEGER
  bbChanUpcPCR INTEGER
  bbChanUpcCDVT INTEGER
  bbChanUpcSCR INTEGER
  bbChanUpcMBS INTEGER
  bbChanGcra1Action INTEGER
  bbChanGcra2Action INTEGER
  bbChanUpcSCRPolicing INTEGER
  bbChanEfciThreshold INTEGER
  bbChanDiscardOption INTEGER
  bbChanFrmDiscardThreshold INTEGER
  bbChanClpHiThreshold INTEGER
  bbChanClpLoThreshold INTEGER
  bbChanCongstUpdateCode INTEGER
  bbChanMaxCellMemThreshold INTEGER
  bbChanIngrPercentUtil INTEGER
  bbChanEgrPercentUtil INTEGER
  bbChanEgrSrvRate INTEGER
  bbChanOvrSubOvrRide INTEGER
  bbChanLocalVpi INTEGER
  bbChanLocalVci INTEGER
  bbChanLocalNsapAddr IfNsapAddress
  bbChanRemoteVpi INTEGER
  bbChanRemoteVci INTEGER
  bbChanRemoteNsapAddr IfNsapAddress
  bbChanMaster INTEGER
  bbChanRtePriority INTEGER
  bbChanMaxCost INTEGER
  bbChanRestrictTrkType INTEGER
  bbChanTestType INTEGER
  bbChanTestState INTEGER
  bbChanTestResult INTEGER
  bbChanTestTypeCPESide INTEGER
  bbChanTestStateCPESide INTEGER
  bbConnVpcFlag INTEGER
  bbConnServiceType INTEGER
  bbConnPCR INTEGER
  bbConnSCR INTEGER
  bbConnPercentUtil INTEGER
  bbRemoteConnPCR INTEGER
  bbRemoteConnSCR INTEGER
  bbRemoteConnPercentUtil INTEGER
  bbChanUpcMCR INTEGER

BbChanCntGrpEntry  
SEQUENCE    
  bbChanCntNum INTEGER
  bbChanRcvClp0Cells Counter
  bbChanRcvClp1Cells Counter
  bbChanNonConformCellsAtGcra1Policer Counter
  bbChanNonConformCellsAtGcra2Policer Counter
  bbChanRcvEOFCells Counter
  bbChanDscdClp0Cells Counter
  bbChanDscdClp1Cells Counter
  bbChanRcvCellsSent Counter
  bbChanXmtClp0Cells Counter
  bbChanXmtClp1Cells Counter
  bbChanDscdClpZeroCellsToPort Counter
  bbChanDscdClpOneCellsToPort Counter
  bbChanCntClrButton INTEGER

BbChanStateGrpEntry  
SEQUENCE    
  bbChanStateNum INTEGER
  bbChanState INTEGER
  bbChanEgrXmtState INTEGER
  bbChanIngrRcvState INTEGER

VrtlIntrConfigEntry  
SEQUENCE    
  configVrtlIntrNum INTEGER
  vrtlIntrPortNum INTEGER
  vrtlIntrState INTEGER
  vrtlIntrMaxQueMem INTEGER
  vrtlIntrMinCellRate INTEGER
  vrtlIntrMaxCellRate INTEGER
  vrtlIntrCurrConfigPaths INTEGER

VrtlIntrCounterEntry  
SEQUENCE    
  countVrtlIntrNum INTEGER
  vrtlIntrTotalCellCnt Counter
  vrtlIntrTotalQbinCellCnt Counter
  vrtlIntrRxdValidOAMCellCnt Counter
  vrtlIntrRxdRmCellCnt Counter
  vrtlIntrRxdClpUntaggedCellCnt Counter
  vrtlIntrRxdClpTaggedCellCnt Counter
  vrtlIntrRxdClpUntaggedDiscardedCellCnt Counter
  vrtlIntrRxdClpTaggedDiscardedCellCnt Counter
  vrtlIntrXmtdOAMCellCnt Counter
  vrtlIntrXmtdRmCellCnt Counter
  vrtlIntrXmtdClpUntaggedCellCnt Counter
  vrtlIntrXmtdClpTaggedCellCnt Counter

VrtlIntrQbinConfigEntry  
SEQUENCE    
  queConfigVrtlIntrNum INTEGER
  queConfigVrtlIntrQbinNum INTEGER
  vrtlIntrQbinState INTEGER
  vrtlIntrQbinPri INTEGER
  vrtlIntrQbinRate INTEGER
  vrtlIntrQbinDiscardSelection INTEGER
  vrtlIntrQbinMaxThreshold INTEGER
  vrtlIntrQbinClpHiThreshold INTEGER
  vrtlIntrQbinClpLoThreshold INTEGER
  vrtlIntrQbinFrameDiscardThreshold INTEGER
  vrtlIntrQbinEfciThreshold INTEGER

VrtlIntrQbinCounterEntry  
SEQUENCE    
  queConuterVrtlIntrNum INTEGER
  queCounterVrtlIntrQbinNum INTEGER
  vrtlIntrQbinCurrentCellCnt Counter
  vrtlIntrQbinRxdCellCnt Counter
  vrtlIntrQbinTxdCellCnt Counter
  vrtlIntrQbinDiscardedCellCnt Counter

RpmChanGrpEntry  
SEQUENCE    
  rpmChanSlotNum INTEGER
  rpmChanInterface INTEGER
  rpmChanNum INTEGER
  rpmChanRowStatus INTEGER
  rpmChanVcd INTEGER
  rpmChanVpi INTEGER
  rpmChanVci INTEGER
  rpmChanSubInterface INTEGER
  rpmChanLocalVpi INTEGER
  rpmChanLocalVci INTEGER
  rpmChanLocalNsap RpmNsapAddress
  rpmChanRemoteVpi INTEGER
  rpmChanRemoteVci INTEGER
  rpmChanRemoteNsap RpmNsapAddress
  rpmChanType INTEGER
  rpmChanConnType INTEGER
  rpmChanServiceType INTEGER
  rpmChanMastership INTEGER
  rpmChanRtePriority INTEGER
  rpmChanMaxCost INTEGER
  rpmChanRestrictTrkType INTEGER
  rpmChanPCR INTEGER
  rpmChanRemotePCR INTEGER
  rpmChanMCR INTEGER
  rpmChanRemoteMCR INTEGER
  rpmChanPercentUtil INTEGER
  rpmChanRemotePercentUtil INTEGER
  rpmChanMidLow INTEGER
  rpmChanMidHigh INTEGER
  rpmChanBurstSize INTEGER
  rpmChanEncapType INTEGER
  rpmChanInArpFreq INTEGER
  rpmChanOAMloopback INTEGER
  rpmChanState INTEGER
  rpmChanVirtualTemplate INTEGER
  rpmChanAbrRDF INTEGER
  rpmChanAbrRIF INTEGER

RpmPortEntry  
SEQUENCE    
  rpmPortSlotNum INTEGER
  rpmPortInterface INTEGER
  rpmPortSubInterface INTEGER
  rpmPortRowStatus INTEGER
  rpmPortIpAddress IpAddress
  rpmPortSubNetMask IpAddress
  rpmPortState INTEGER

RpmIfCnfRscPartEntry  
SEQUENCE    
  rpmIfRscSlotNum INTEGER
  rpmIfRscPartIfNum INTEGER
  rpmIfRscPartCtrlrNum INTEGER
  rpmIfRscPrtRowStatus INTEGER
  rpmIfRscPrtIngrPctBandwidth INTEGER
  rpmIfRscPrtEgrPctBandwidth INTEGER
  rpmIfRscPrtVpiLow INTEGER
  rpmIfRscPrtVpiHigh INTEGER
  rpmIfRscPrtVciLow INTEGER
  rpmIfRscPrtVciHigh INTEGER
  rpmIfRscPrtMaxChans INTEGER

TruthValue  
INTEGER true(1), false(2)    

ParIfEntry  
SEQUENCE    
  parIfLogicalInterface INTEGER
  parIfType INTEGER
  parIfOperStatus INTEGER
  parIfTxBw INTEGER
  parIfRxBw INTEGER
  parIfMaxConn INTEGER
  parIfHiAddrMin INTEGER
  parIfHiAddrMax INTEGER
  parIfLoAddrMin INTEGER
  parIfLoAddrMax INTEGER

ParTrkEntry  
SEQUENCE    
  parTrkId INTEGER
  parTrkStatReserve INTEGER
  parTrkCnfgCcRestrict TruthValue
  parTrkCnfgLineType INTEGER
  parTrkCnfgPassSync TruthValue
  parTrkCnfgDerouteDelay INTEGER
  parTrkCnfgTrafficClassFst TruthValue
  parTrkCnfgTrafficClassFr TruthValue
  parTrkCnfgTrafficClassNts TruthValue
  parTrkCnfgTrafficClassTs TruthValue
  parTrkCnfgTrafficClassVoice TruthValue
  parTrkCnfgTrafficClassCbr TruthValue
  parTrkCnfgTrafficClassVbr TruthValue
  parTrkCnfgTrafficClassAbr TruthValue
  parTrkCnfgAdminStatus INTEGER
  parTrkCnfgRoutingCost INTEGER
  parTrkCnfgVpcConids INTEGER
  parTrkCnfgVccConids INTEGER
  parTrkLocalSlotNumber INTEGER
  parTrkLocalPortNumber INTEGER
  parTrkLocalVTrunkId INTEGER
  parTrkRemoteNodeId INTEGER
  parTrkRemoteTrunkId INTEGER
  parTrkRemoteSlotNumber INTEGER
  parTrkRemotePortNumber INTEGER
  parTrkRemoteVTrunkId INTEGER
  parTrkRemoteNodeIP IpAddress
  parTrkRemoteNodeType INTEGER
  parTrkRemoteNodeName DisplayString
  parTrkAlarmStatus INTEGER
  parTrkAlarmType INTEGER
  parTrkLineLoad INTEGER
  parTrkBwCapacity INTEGER

ParTrkLoadEntry  
SEQUENCE    
  parTrkLoadXmtUsedCbr INTEGER
  parTrkLoadRcvUsedCbr INTEGER
  parTrkLoadXmtUsedVbr INTEGER
  parTrkLoadRcvUsedVbr INTEGER
  parTrkLoadXmtUsedAbr INTEGER
  parTrkLoadRcvUsedAbr INTEGER
  parTrkLoadXmtUsedNts INTEGER
  parTrkLoadRcvUsedNts INTEGER
  parTrkLoadXmtUsedTs INTEGER
  parTrkLoadRcvUsedTs INTEGER
  parTrkLoadXmtUsedVoice INTEGER
  parTrkLoadRcvUsedVoice INTEGER
  parTrkLoadXmtUsedBdataA INTEGER
  parTrkLoadRcvUsedBdataA INTEGER
  parTrkLoadXmtUsedBdataB INTEGER
  parTrkLoadRcvUsedBdataB INTEGER
  parTrkLoadVccConidsUsed INTEGER
  parTrkLoadVpcConidsUsed INTEGER

ParConnectionEntry  
SEQUENCE    
  parConnLocalSlot INTEGER
  parConnLocalPort INTEGER
  parConnLocalVpi INTEGER
  parConnLocalVci INTEGER
  parConnMasterShip TruthValue
  parConnLocalVcIndx INTEGER
  parConnLocalEndpt DisplayString
  parConnRemoteNodeName DisplayString
  parConnRemoteSlot INTEGER
  parConnRemotePort INTEGER
  parConnRemoteVpi INTEGER
  parConnRemoteVci INTEGER
  parConnRemoteVcIndx INTEGER
  parConnRemoteEndpt DisplayString
  parConnOperStatus INTEGER
  parConnAdminStatus INTEGER
  parConnRoute DisplayString
  parPrefRoute DisplayString
  parConnFailRsn INTEGER
  parRrtFailRsn DisplayString
  parConnRstrTyp INTEGER
  parConnRstrZcs TruthValue
  parConnCos INTEGER

ParClockEntry  
SEQUENCE    
  parClockIndex INTEGER
  parClockType INTEGER
  parClockCurSource TruthValue
  parClockSource INTEGER
  parClockSourceId INTEGER
  parClockPath DisplayString

AusmPortCnfPortImaGrpEntry  
SEQUENCE    
  imaPortNum INTEGER
  imaPortEnable INTEGER
  imaPortSpeed INTEGER
  numLinksInImaGrp INTEGER
  listOfLinksInImaGrp DisplayString
  lcpCellsPeriodicity INTEGER
  lcpDelayTolerance INTEGER
  readPtrWrPtrDiff INTEGER
  numRedundantLinks INTEGER
  maxTolerableDiffDelay INTEGER
  imaPortType INTEGER
  axisImaGroupTxAvailCellRate INTEGER
  axisImaGroupSymmetry INTEGER
  axisImaGroupMinNumRxLinks INTEGER
  axisImaGroupNeTxClkMode INTEGER
  axisImaGroupAlphaValue INTEGER
  axisImaGroupBetaValue INTEGER
  axisImaGroupGammaValue INTEGER
  axisImaGroupNumRxCfgLnks INTEGER
  axisImaGroupTestLinkIfIndex INTEGER
  axisImaGroupTestPattern INTEGER
  axisImaGroupTestProcStatus INTEGER
  axisImaGroupIntegrationUpTime INTEGER
  axisImaGroupIntegrationDownTime INTEGER
  axisImaGroupMinNumTxLinks INTEGER
  axisImaGroupRxImaId INTEGER

AusmPortImaGrpRestartEntry  
SEQUENCE    
  axisImaGroupimaPortNum INTEGER
  axisImaGroupRestartImaGrp INTEGER

AusmPortCntPortImaGrpEntry  
SEQUENCE    
  imaCntPortNum INTEGER
  rcvAcpCells Counter
  rcvAcpErrCells Counter
  xmtAcpCells Counter
  xmtAcpCellsMissed Counter
  imaGrpRcvHecErrCount Counter
  imaGrpRcvHecErrSecCount Counter
  imaGrpRcvHecErrSESecCount Counter
  imaCntClrButton INTEGER
  axisImaGroupRunningSecs INTEGER
  axisImaGroupUnavailSecs INTEGER
  axisImaGroupNeNumFailures INTEGER
  axisImaGroupFeNumFailures INTEGER

AusmPortStateImaGrpEntry  
SEQUENCE    
  imaStatePortNum INTEGER
  imaPortState INTEGER
  numLinksPresentInImaGroup INTEGER
  listLinksPresentInImaGroup DisplayString
  remoteImaId INTEGER
  locImaId INTEGER
  imaArbitrationWinner INTEGER
  imaObsDiffDelay INTEGER
  imaPortOversubscribed INTEGER
  imaPortIngrPercentUtil INTEGER
  imaPortEgrPercentUtil INTEGER
  axisImaGroupRxAvailCellRate INTEGER
  axisImaGroupFeState INTEGER
  axisImaGroupFailureStatus INTEGER
  axisImaGroupFeTxClkMode INTEGER
  axisImaGroupTxTimingRefLink INTEGER
  axisImaGroupRxTimingRefLink INTEGER
  axisImaGroupLastChange OCTET STRING
  axisImaGroupRxFrameLength INTEGER
  axisImaGroupLeastDelayLink INTEGER
  axisImaGroupNumRxActLnks INTEGER
  axisImaGroupNeState INTEGER

ImatmDsx3PortCntrsEntry  
SEQUENCE    
  imatmDsx3PortIndex INTEGER
  imatmDsx3PortRcvCells Counter
  imatmDsx3PortXmtCells Counter
  imatmPortRcvInvCells Counter
  imatmPortCntrClrButton INTEGER
  imatmDsx3PortLastMismatchVpiVci INTEGER
  imatmPortImaCtrlMatchCells Counter

ImatmDsx3CardSpecConfigEntry  
SEQUENCE    
  imatmdsx3PortIndex INTEGER
  imatmDsx3SingleBitErrCorrEnable INTEGER

ImatmVpTrkMapGrpTableEntry  
SEQUENCE    
  imatmRangeNum INTEGER
  imatmTrkNum INTEGER
  imatmTrkMinVp INTEGER
  imatmTrkMaxVp INTEGER
  imatmTrkOpType INTEGER

ImatmVpTrkClrGrpEntry  
SEQUENCE    
  imatmClrVpTrkNum INTEGER
  imatmClrVpTrkButton INTEGER

CommonChanTableEntry  
SEQUENCE    
  commonChanNum INTEGER
  commonConnType INTEGER
  commonChanStatus INTEGER
  commonAlarmState INTEGER
  commonChanPortNum INTEGER
  commonChanServiceType INTEGER
  commonChanIngrXmtState INTEGER
  commonChanIngrRcvState INTEGER
  commonChanEgrXmtState INTEGER
  commonChanEgrRcvState INTEGER
  commonConnParm1 DisplayString
  commonConnParm2 DisplayString

CommonPortTableEntry  
SEQUENCE    
  commonPortNum INTEGER
  commonPortType INTEGER
  commonPortStatus INTEGER
  commonPortSpeed INTEGER
  commonPortAlarmState INTEGER
  commonPortSignallingProtocolType INTEGER
  commonPortSignallingState INTEGER
  commonPortAssocLines DisplayString
  commonPortAssocChannels DisplayString

AusmChanCnfGrpEntry  
SEQUENCE    
  ausmChanNum INTEGER
  ausmChanRowStatus INTEGER
  chanConnType INTEGER
  chanServiceType INTEGER
  chanConnDesc DisplayString
  chanSvcFlag INTEGER
  chanSvcConnId INTEGER
  ausmChanPortNum INTEGER
  chanVpi INTEGER
  chanVci INTEGER
  chanEgrQSelect INTEGER
  ingrQDepth INTEGER
  ingrQCLPThreshHigh INTEGER
  ingrQCLPThreshLow INTEGER
  ingrQCLPState INTEGER
  ingrQEfciThresh INTEGER
  ingrUpcEnable INTEGER
  ingrUpcPCR01 INTEGER
  ingrUpcCIR INTEGER
  ingrUpcCCDV INTEGER
  ingrUpcCBS INTEGER
  ingrUpcIBS INTEGER
  ingrUpcMFS INTEGER
  ingrUpcSCRPolicing INTEGER
  ingrUpcPCR0 INTEGER
  ingrUpcCDVT0 INTEGER
  ingrUpcCLPTagEnable INTEGER
  ingrUpcFGCRAEnable INTEGER
  foresightEnable INTEGER
  foresightMIR INTEGER
  foresightPIR INTEGER
  foresightQIR INTEGER
  ausmChanLocRmtLpbkState INTEGER
  ausmChanTestType INTEGER
  ausmChanTestState INTEGER
  ausmChanRTDResult INTEGER
  ausmChanTestTypeCPESide INTEGER
  ausmChanTestStateCPESide INTEGER
  ausmChanIngrPercentUtil INTEGER
  ausmChanEgrPercentUtil INTEGER
  ausmChanEgrSrvRate INTEGER
  ausmChanOvrSubOvrRide INTEGER
  ausmChanLocalVpId INTEGER
  ausmChanRMEnable INTEGER
  ausmIngrDiscardOption INTEGER
  ausmIngrFrDiscardThreshold INTEGER
  ausmCDRNumber INTEGER
  ausmLocalVpi INTEGER
  ausmLocalVci INTEGER
  ausmLocalNSAP OCTET STRING
  ausmRemoteVpi INTEGER
  ausmRemoteVci INTEGER
  ausmRemoteNSAP OCTET STRING
  ausmMastership INTEGER
  ausmVpcFlag INTEGER
  ausmConnServiceType INTEGER
  ausmRoutingPriority INTEGER
  ausmMaxCost INTEGER
  ausmRestrictTrunkType INTEGER
  ausmConnPCR INTEGER
  ausmConnMCR INTEGER
  ausmConnPercentUtil INTEGER
  ausmConnRemotePCR INTEGER
  ausmConnRemoteMCR INTEGER
  ausmConnRemotePercentUtil INTEGER
  ausmConnForeSightEnable INTEGER
  ausmConnFGCRAEnable INTEGER
  ausmChanReroute INTEGER
  ausmConnSCR INTEGER
  ausmConnRemoteSCR INTEGER
  ausmConnMBS INTEGER
  ausmConnRemoteMBS INTEGER
  ausmConnTemplateId INTEGER
  ausmConnAdminStatus INTEGER

AusmStdABRCnfGrpEntry  
SEQUENCE    
  ausmStdABRCnfChanNum INTEGER
  ausmStdABRType INTEGER
  ausmStdABRTBE INTEGER
  ausmStdABRFRTT INTEGER
  ausmStdABRRDF INTEGER
  ausmStdABRRIF INTEGER
  ausmStdABRNrm INTEGER
  ausmStdABRTrm INTEGER
  ausmStdABRCDF INTEGER
  ausmStdABRADTF INTEGER
  ausmStdABRICR INTEGER
  ausmStdABRMCR INTEGER
  ausmStdABRPCR INTEGER

AusmChanCntGrpEntry  
SEQUENCE    
  ausmCntChanNum INTEGER
  chanSecInService Counter
  chanCongestMinutes Counter
  chanIngrPeakQDepth INTEGER
  chanIngrRcvCells Counter
  chanIngrClpSetRcvCells Counter
  chanIngrEfciSetRcvCells Counter
  chanIngrQfullDiscardCells Counter
  chanIngrClpSetDiscardCells Counter
  chanIngrUpcClpSetCells Counter
  chanIngrXmtCells Counter
  chanShelfAlarmDiscardCells Counter
  ausmChanClrButton INTEGER
  chanEpdDiscCells Counter
  chanPpdDiscCells Counter
  chanIngrRcvCellRate Gauge
  chanIngrRcvUtilization Gauge
  chanIngrXmtCellRate Gauge
  chanIngrXmtUtilization Gauge
  chanEgrRcvCellRate Gauge
  chanEgrRcvUtilization Gauge
  chanIngrXmtAAL5Frames Counter
  chanIngrEfciSetXmtCells Counter
  chanEgrPortQfullDiscardCells Counter
  chanEgrPortQClpThresDiscardCells Counter
  chanTxFifoFullCnt Counter
  chanIngrCurrQDepth INTEGER

AusmChanStateGrpEntry  
SEQUENCE    
  ausmStateChanNum INTEGER
  ausmChanState INTEGER
  chanEgrXmtState INTEGER
  chanIngrRcvState INTEGER
  chanIngrXmtState INTEGER
  chanEgrRcvState INTEGER
  ausmChanStatusBitMap INTEGER

AusmEndPointMapGrpEntry  
SEQUENCE    
  ausmEndPortNum INTEGER
  endVpi INTEGER
  endVci INTEGER
  ausmEndChanNum INTEGER
  endChanType INTEGER

AusmPortCnfPortGrpEntry  
SEQUENCE    
  ausmPortNum INTEGER
  portEnable INTEGER
  ausmPortType INTEGER
  ausmPortIfType INTEGER
  ausmPortSpeed INTEGER
  ausmLineNum INTEGER

AusmPortCnfResPartGrpEntry  
SEQUENCE    
  ausmResPartPortNum INTEGER
  ausmPortSvcInUse INTEGER
  ausmPortSvcShareLcnVpid INTEGER
  ausmPortSvcLcnLow INTEGER
  ausmPortSvcLcnHigh INTEGER
  ausmPortSvcVpidLow INTEGER
  ausmPortSvcVpidHigh INTEGER
  ausmPortSvcVciLow INTEGER
  ausmPortSvcVciHigh INTEGER
  ausmPortSvcVpiLow INTEGER
  ausmPortSvcVpiHigh INTEGER
  ausmPortIngrSvcBandW INTEGER
  ausmPortEgrSvcBandW INTEGER

AusmPortDelSvcsGrpEntry  
SEQUENCE    
  ausmDelSvcsPortNum INTEGER
  ausmPortDeleteSvcs INTEGER

AusmPortCnfServiceQueGrpEntry  
SEQUENCE    
  egrQIndex INTEGER
  servicePortNum INTEGER
  egrQBinState INTEGER
  egrQServiceSequence INTEGER
  egrQDepthMax INTEGER
  egrQCLPThreshHigh INTEGER
  egrQCLPThreshLow INTEGER
  egrQEfciThresh INTEGER
  egrQAlgorithm INTEGER
  egrMaxBwInc INTEGER
  egrMinBwInc INTEGER
  egrQCLPState INTEGER
  egrQfullDiscardCells Counter
  egrQClpSetDiscardCells Counter

AusmPortCnfSigILMIGrpEntry  
SEQUENCE    
  sigPortNum INTEGER
  ausmSignallingProtocolType INTEGER
  signallingVpi INTEGER
  signallingVci INTEGER
  addrPrefix NetPrefix
  customerId INTEGER
  protocolRevNo INTEGER
  iLMITrapEnable INTEGER
  minTrapInterval INTEGER
  keepAlivePollingEnable INTEGER
  errorThresholdN491 INTEGER
  eventThresholdN492 INTEGER
  pollingIntervalT491 INTEGER
  minEnquiryIntervalT493 INTEGER
  addrRegEnable INTEGER

AusmPortCntPortGrpEntry  
SEQUENCE    
  ausmCntPortNum INTEGER
  ingrRcvCells Counter
  ingrGfcErrCells Counter
  ingrVpiVciErrCells Counter
  ingrLastUnknVpiVci INTEGER
  egrXmtCells Counter
  egrPortAlarmDiscardCells Counter
  egrXmtClpSetCells Counter
  egrXmtEfciSetCells Counter
  portXmtAisCells Counter
  portXmtSgmtLpbkCells Counter
  portRcvAisCells Counter
  portRcvFerfCells Counter
  portRcvSgmtLpbkCells Counter
  portRcvCrcErrOAMCells Counter
  ausmPortClrButton INTEGER
  ingrRcvClpSetCells Counter
  ingrXmtCells Counter
  egrRcvCells Counter
  ingrRcvCellRate Gauge
  ingrRcvUtilization Gauge
  egrXmtCellRate Gauge
  egrXmtUtilization Gauge
  egrRcvCellRate Gauge
  egrRcvUtilization Gauge
  totalIngrQfulldiscardCells Counter
  txFifoFullCnt Counter
  totalIngrClpSetDiscardCells Counter

AusmPortCntSigILMIGrpEntry  
SEQUENCE    
  sigCntPortNum INTEGER
  snmpPduReceived Counter
  getRequestReceived Counter
  getNextRequestReceived Counter
  setRequestReceived Counter
  trapReceived Counter
  getResponseReceived Counter
  getResponseTransmitted Counter
  getRequestTransmitted Counter
  trapTransmitted Counter
  invalidPDUReceived Counter
  asn1ParseError Counter
  noSuchNameError Counter
  tooBigError Counter
  portSigClrButton INTEGER

AusmPortStateGrpEntry  
SEQUENCE    
  ausmStatePortNum INTEGER
  ausmPortState INTEGER
  ausmPortOversubscribed INTEGER
  ausmPortIngrPercentUtil INTEGER
  ausmPortEgrPercentUtil INTEGER

AusmInterfaceConfEntry  
SEQUENCE    
  ausmInterfacePortNum INTEGER
  ausmInterfaceMyNeighborIpAddress IpAddress

CesmChanCnfGrpEntry  
SEQUENCE    
  cesCnfChanNum INTEGER
  cesChanRowStatus INTEGER
  cesMapPortNum INTEGER
  cesMapVpi INTEGER
  cesMapVci INTEGER
  cesCBRService INTEGER
  cesCBRClockMode INTEGER
  cesCas INTEGER
  cesPartialFill INTEGER
  cesBufMaxSize INTEGER
  cesCDVRxT INTEGER
  cesCellLossIntegrationPeriod INTEGER
  cesChanLocRmtLpbkState INTEGER
  cesChanTestType INTEGER
  cesChanTestState INTEGER
  cesChanRTDResult INTEGER
  cesChanPortNum INTEGER
  cesChanConnType INTEGER
  cesChanStrauSciNum INTEGER
  cesChanIdleDetEnable INTEGER
  cesChanIdleSignalCode INTEGER
  cesChanIdleCodeIntgnPeriod INTEGER
  cesChanOnhookCode INTEGER
  cesChanConditionedData INTEGER
  cesmChanExtTrgIdleSupp INTEGER
  cesmChanConditionedSigCode INTEGER
  cesLocalVpi INTEGER
  cesLocalVci INTEGER
  cesLocalNSAP OCTET STRING
  cesRemoteVpi INTEGER
  cesRemoteVci INTEGER
  cesRemoteNSAP OCTET STRING
  cesMastership INTEGER
  cesVpcFlag INTEGER
  cesConnServiceType INTEGER
  cesRoutingPriority INTEGER
  cesMaxCost INTEGER
  cesRestrictTrunkType INTEGER
  cesConnPCR INTEGER
  cesConnMCR INTEGER
  cesConnPercentUtil INTEGER
  cesmConnRemotePCR INTEGER
  cesmConnRemoteMCR INTEGER
  cesmConnRemotePercentUtil INTEGER
  cesmConnForeSightEnable INTEGER
  cesmConnFGCRAEnable INTEGER
  cesmChanReroute INTEGER
  cesmConnAdminStatus INTEGER

CesmChanCntGrpEntry  
SEQUENCE    
  cesCntChanNum INTEGER
  cesChanState INTEGER
  cesXmtATMState INTEGER
  cesRcvATMState INTEGER
  cesCellLossStatus INTEGER
  cesReassCells Counter
  cesGenCells Counter
  cesHdrErrors Counter
  cesPointerReframes Counter
  cesLostCells Counter
  cesBufUnderflows Counter
  cesBufOverflows Counter
  cesIngrDiscardedBytes Counter
  cesUflowInsCells Counter
  cesOflowDropBytes Counter
  cesCellSeqMismatchCnt Counter
  counterClrButton INTEGER
  cesChanSecUptime Counter
  cesChanSignalingStatus INTEGER
  cesChanStatusBitMap INTEGER

CesmPortCnfGrpEntry  
SEQUENCE    
  cesPortNum INTEGER
  cesPortRowStatus INTEGER
  cesPortLineNum INTEGER
  cesPortType INTEGER
  cesPortDs0ConfigBitMap INTEGER
  cesPortNumOfDs0Slot INTEGER
  cesPortNumOfSCIPerDS0 INTEGER
  cesPortSpeed INTEGER
  cesPortState INTEGER
  cesPortBERTEnable INTEGER

CesmPortCnfResPartGrpEntry  
SEQUENCE    
  cesmResPartPortNum INTEGER
  cesmResPartCtrlrNum INTEGER
  cesmResPartRowStatus INTEGER
  cesmResPartNumOfLcnAvail INTEGER
  cesmResPartLcnLow INTEGER
  cesmResPartLcnHigh INTEGER
  cesmResPartIngrPctBW INTEGER
  cesmResPartEgrPctBW INTEGER
  cesmResPartCtrlrID INTEGER

CesmEndPtMapGrpEntry  
SEQUENCE    
  cesEndPortNum INTEGER
  cesEndChanNum INTEGER
  cesEndLineNum INTEGER

FrChanCnfGrpEntry  
SEQUENCE    
  chanNum INTEGER
  chanRowStatus INTEGER
  chanPortNum INTEGER
  dLCI INTEGER
  egressQSelect INTEGER
  ingressQDepth INTEGER
  ingressQDEThresh INTEGER
  ingressQECNThresh INTEGER
  egressQDepth INTEGER
  egressQDEThresh INTEGER
  egressQECNThresh INTEGER
  deTaggingEnable INTEGER
  cir INTEGER
  bc INTEGER
  be INTEGER
  ibs INTEGER
  foreSightEnable INTEGER
  qir INTEGER
  mir INTEGER
  pir INTEGER
  chanLocRmtLpbkState INTEGER
  chanTestType INTEGER
  chanTestState INTEGER
  chanRTDResult INTEGER
  chanType INTEGER
  chanFECNconfig INTEGER
  chanDEtoCLPmap INTEGER
  chanCLPtoDEmap INTEGER
  chanIngrPercentUtil INTEGER
  chanEgrPercentUtil INTEGER
  chanEgrSrvRate INTEGER
  chanOvrSubOvrRide INTEGER
  chanFrConnType INTEGER
  frCDRNumber INTEGER
  frLocalVpi INTEGER
  frLocalVci INTEGER
  frLocalNSAP OCTET STRING
  frRemoteVpi INTEGER
  frRemoteVci INTEGER
  frRemoteNSAP OCTET STRING
  frMastership INTEGER
  frVpcFlag INTEGER
  frConnServiceType INTEGER
  frRoutingPriority INTEGER
  frMaxCost INTEGER
  frRestrictTrunkType INTEGER
  frConnPCR INTEGER
  frConnRemotePCR INTEGER
  frConnMCR INTEGER
  frConnRemoteMCR INTEGER
  frConnPercentUtil INTEGER
  frConnRemotePercentUtil INTEGER
  frConnForeSightEnable INTEGER
  frConnFGCRAEnable INTEGER
  chanServType INTEGER
  chanServiceRateOverride INTEGER
  chanServiceRate INTEGER
  zeroCirConEir INTEGER
  chanReroute INTEGER
  frConnSCR INTEGER
  frConnRemoteSCR INTEGER
  frConnTemplateId INTEGER
  frConnAdminStatus INTEGER
  frChanCnfChangeCount Counter
  frChanCnfIgnoreIncomingDE INTEGER
  frChanOamCCEnable INTEGER
  frChanStatsEnable INTEGER
  frChanLocalLpbkEnable INTEGER
  frChanUpcEnable INTEGER
  frChanSlaveType INTEGER
  frConnRemoteMBS INTEGER

FrstdABRCnfGrpEntry  
SEQUENCE    
  frstdABRcnfChanNum INTEGER
  frstdABRTBE INTEGER
  frstdABRFRTT INTEGER
  frstdABRRDF INTEGER
  frstdABRRIF INTEGER
  frstdABRNrm INTEGER
  frstdABRTrm INTEGER
  frstdABRCDF INTEGER
  frstdABRADTF INTEGER
  frstdABRICR INTEGER
  frstdABRMCR INTEGER
  frstdABRPCR INTEGER

FrChanCntGrpEntry  
SEQUENCE    
  cntChanNum INTEGER
  rcvFrames Counter
  rcvBytes Counter
  rcvFramesDE Counter
  rcvBytesDE Counter
  rcvFramesDiscard Counter
  rcvBytesDiscard Counter
  rcvFramesDiscShelfAlarm Counter
  rcvFramesDiscXceedQDepth Counter
  rcvBytesDiscXceedQDepth Counter
  rcvFramesDiscXceedDEThresh Counter
  rcvFramesFECN Counter
  rcvFramesBECN Counter
  rcvFramesTaggedFECN Counter
  rcvFramesTaggedBECN Counter
  rcvFramesTaggedDE Counter
  rcvBytesTaggedDE Counter
  rcvKbpsAIR INTEGER
  xmtFrames Counter
  xmtBytes Counter
  xmtFramesFECN Counter
  xmtFramesBECN Counter
  xmtFramesDE Counter
  xmtBytesDE Counter
  xmtFramesDiscard Counter
  xmtBytesDiscard Counter
  xmtFramesDiscXceedQDepth Counter
  xmtBytesDiscXceedQDepth Counter
  xmtFramesDiscXceedDEThresh Counter
  xmtFramesDiscPhyLayerFail Counter
  xmtFramesDiscCRCError Counter
  xmtFramesDiscReassmFail Counter
  xmtFramesDiscSrcAbort Counter
  xmtFramesDuringLMIAlarm Counter
  xmtBytesDuringLMIAlarm Counter
  xmtFramesTaggedFECN Counter
  xmtFramesTaggedBECN Counter
  xmtKbpsAIR INTEGER
  chanClrButton INTEGER
  chanSecUpTime Counter
  rcvFramesDiscUPC Counter
  xmtBytesTaggedDE Counter
  xmtFramesTaggedDE Counter
  xmtFramesInvalidCPIs Counter
  xmtFramesLengthViolations Counter
  xmtFramesOversizedSDUs Counter
  xmtFramesUnknownProtocols Counter
  rcvFramesUnknownProtocols Counter

FrChanStateGrpEntry  
SEQUENCE    
  stateChanNum INTEGER
  chanState INTEGER
  xmtAbitState INTEGER
  rcvAbitState INTEGER
  xmtATMState INTEGER
  rcvATMState INTEGER
  chanStatusBitMap INTEGER

FrEndPtMapGrpEntry  
SEQUENCE    
  endPortNum INTEGER
  endDLCI INTEGER
  endChanNum INTEGER
  endLineNum INTEGER

FrPortCnfPortGrpEntry  
SEQUENCE    
  portNum INTEGER
  portLineNum INTEGER
  portRowStatus INTEGER
  portDs0ConfigBitMap INTEGER
  portDs0Speed INTEGER
  portFlagsBetweenFrames INTEGER
  portEqueueServiceRatio INTEGER
  portSpeed INTEGER
  portAdmin INTEGER
  portType INTEGER
  portSvcStatus INTEGER
  portSvcInUse INTEGER
  portSvcShareLcn INTEGER
  portSvcLcnLow INTEGER
  portSvcLcnHigh INTEGER
  portSvcDlciLow INTEGER
  portSvcDlciHigh INTEGER
  portDeleteSvcs INTEGER
  portIngrSvcBandW INTEGER
  portEgrSvcBandW INTEGER
  portBERTEnable INTEGER
  portEnhancedSIW INTEGER
  portM32EgrQueueThresh INTEGER
  portHeaderLen INTEGER
  portFrameChkSumType INTEGER
  portFileId INTEGER
  portOverSubEnable INTEGER

FrPortsUsedLineGrpEntry  
SEQUENCE    
  frPortsUsedLineIndex INTEGER
  frPortsUsedLine INTEGER

FrPortCnfSigCLLMGrpEntry  
SEQUENCE    
  cllmCnfPortNum INTEGER
  cllmEnable INTEGER
  xmtCLLMStatusTimer INTEGER
  rcvCLLMStatusTimer INTEGER

FrPortCnfSigLMIGrpEntry  
SEQUENCE    
  lmiCnfPortNum INTEGER
  signallingProtocolType INTEGER
  asynchronousUpdates INTEGER
  t391LinkIntegrityTimer INTEGER
  t392PollingVerificationTimer INTEGER
  n391FullStatusPollingCounter INTEGER
  n392ErrorThreshold INTEGER
  n393MonitoredEventCount INTEGER
  enhancedLmi INTEGER
  portFRF1Dot2Support INTEGER

FrPortCntPortGrpEntry  
SEQUENCE    
  cntPortNum INTEGER
  rcvPortFrames Counter
  rcvPortBytes Counter
  rcvPortFramesDE Counter
  rcvPortFramesFECN Counter
  rcvPortFramesBECN Counter
  rcvFramesDiscCRCError Counter
  rcvFramesDiscAlignmentError Counter
  rcvFramesDiscIllegalLen Counter
  rcvFramesDiscIllegalHeader Counter
  rcvFramesAbort Counter
  rcvFramesUnknownDLCI Counter
  rcvLastUnknownDLCI INTEGER
  rcvPortFramesTaggedFECN Counter
  rcvPortFramesTaggedBECN Counter
  rcvPortFramesTaggedDE Counter
  rcvPortFramesDiscXceedDEThresh Counter
  rcvPortKbpsAIR INTEGER
  rcvBufNotAvailable Counter
  xmtPortFrames Counter
  xmtPortBytes Counter
  xmtPortFramesFECN Counter
  xmtPortFramesBECN Counter
  xmtPortFramesDiscXceedQDepth Counter
  xmtPortBytesDiscXceedQDepth Counter
  xmtPortFramesDuringLMIAlarm Counter
  xmtPortBytesDuringLMIAlarm Counter
  xmtFramesAbort Counter
  xmtFramesUnderrun Counter
  xmtPortKbpsAIR INTEGER
  xmtBufNotAvailable Counter
  portClrButton INTEGER
  rcvFramesDiscNoChan Counter
  rcvFramesDiscOverrun Counter

FrPortCntSigCLLMGrpEntry  
SEQUENCE    
  cllmSigPortNum INTEGER
  rcvFramesCLLM Counter
  rcvBytesCLLM Counter
  xmtFramesCLLM Counter
  xmtBytesCLLM Counter
  cllmFailures Counter

FrPortCntSigLMIGrpEntry  
SEQUENCE    
  lmiSigPortNum INTEGER
  rcvStatusInquiry Counter
  rcvInvalidRequest Counter
  rcvUNISeqMismatch Counter
  xmtStatus Counter
  xmtAsynchUpdate Counter
  uniSignalingTimeout Counter
  xmtStatusInquiry Counter
  rcvStatus Counter
  rcvAsynchUpdate Counter
  rcvNNISeqMismatch Counter
  nniSignalingTimeout Counter

FrPortStateGrpEntry  
SEQUENCE    
  statePortNum INTEGER
  portState INTEGER
  portSignallingState INTEGER
  portOversubscribed INTEGER
  portIngrPercentUtil INTEGER
  portEgrPercentUtil INTEGER

FrPortCnfResPartGrpEntry  
SEQUENCE    
  frResPartPortNum INTEGER
  frResPartCtrlrNum INTEGER
  frResPartRowStatus INTEGER
  frResPartNumOfLcnAvail INTEGER
  frResPartDlciLow INTEGER
  frResPartDlciHigh INTEGER
  frResPartIngrPctBW INTEGER
  frResPartEgrPctBW INTEGER
  frResPartCtrlrID INTEGER

FrPortServiceQueGrpEntry  
SEQUENCE    
  frServPortNum INTEGER
  portServiceQueueNo INTEGER
  portEgresQDepth INTEGER
  portEgresECNThresh INTEGER
  portEgresDEThresh INTEGER
  portQBwInc INTEGER
  portBytesDiscXceedQueFull Counter
  portBytesDiscXceedDEThresh Counter

FrPortCnfX21PortGrpEntry  
SEQUENCE    
  x21portNum INTEGER
  x21portLineNum INTEGER
  x21portRowStatus INTEGER
  x21portFlagsBetweenFrames INTEGER
  x21portEqueueServiceRatio INTEGER
  x21portSpeed INTEGER
  x21portAdmin INTEGER
  x21portType INTEGER
  x21portSvcStatus INTEGER
  x21portSvcInUse INTEGER
  x21portSvcShareLcn INTEGER
  x21portSvcLcnLow INTEGER
  x21portSvcLcnHigh INTEGER
  x21portSvcDlciLow INTEGER
  x21portSvcDlciHigh INTEGER
  x21portDeleteSvcs INTEGER
  x21portIngrSvcBandW INTEGER
  x21portEgrSvcBandW INTEGER

X21AlmCnfGrpEntry  
SEQUENCE    
  x21AlmCnfLineNum INTEGER
  x21Severity INTEGER

X21AlmGrpEntry  
SEQUENCE    
  x21AlmLineNum INTEGER
  x21LineAlarmState INTEGER
  x21LineEIAStatus INTEGER
  x21AlarmClrButton INTEGER

X21CnfGrpEntry  
SEQUENCE    
  x21LineNum INTEGER
  x21LineEnable INTEGER
  x21LineType INTEGER
  x21LineRate INTEGER
  x21LineLoopbackCommand INTEGER
  x21LineSendCode INTEGER
  x21LineLoopbackCodeDetection INTEGER
  x21ConnectorType INTEGER
  x21InvertClock INTEGER
  x21LineInterfaceType INTEGER
  x21ClkFrequencyThreshold INTEGER
  serialLineRate INTEGER
  serialLineRateVariation INTEGER

VismChanCnfGrpEntry  
SEQUENCE    
  vismCnfChanNum INTEGER
  vismChanRowStatus INTEGER
  vismChanPortNum INTEGER
  vismChanLocRmtLpbkState INTEGER
  vismChanTestType INTEGER
  vismChanTestState INTEGER
  vismChanRTDResult INTEGER
  vismChanPvcType INTEGER
  vismChanConnType INTEGER
  vismLocalVpi INTEGER
  vismLocalVci INTEGER
  vismLocalNSAP OCTET STRING
  vismRemoteVpi INTEGER
  vismRemoteVci INTEGER
  vismRemoteNSAP OCTET STRING
  vismMastership INTEGER
  vismVpcFlag INTEGER
  vismConnServiceType INTEGER
  vismRoutingPriority INTEGER
  vismMaxCost INTEGER
  vismRestrictTrunkType INTEGER
  vismConnPCR INTEGER
  vismConnPercentUtil INTEGER
  vismConnRemotePCR INTEGER
  vismConnRemotePercentUtil INTEGER
  vismChanProtection INTEGER
  vismChanPreference INTEGER
  vismChanActivityState INTEGER
  vismChanLockingState INTEGER
  vismChanScrIngress INTEGER
  vismChanMbsIngress INTEGER
  vismChanCdvt INTEGER
  vismChanClrIngress INTEGER
  vismConnPCREgress INTEGER
  vismChanScrEgress INTEGER
  vismChanMbsEgress INTEGER
  vismChanClrEgress INTEGER
  vismChanApplication INTEGER
  vismChanFallbackLcn INTEGER
  vismChanReroute TruthValue
  vismFarEndAddressType INTEGER
  vismFarEndE164Address DisplayString
  vismFarEndGWIDAddress DisplayString
  vismFarEndNSAPAddress OCTET STRING
  vismVCCI INTEGER
  vismConnAdminStatus INTEGER

VismChanStateGrpEntry  
SEQUENCE    
  vismStateChanNum INTEGER
  vismChanState INTEGER
  vismChanXmtATMState INTEGER
  vismChanRcvATMState INTEGER
  vismChanStatusBitMap INTEGER

VismChanCntGrpEntry  
SEQUENCE    
  vismCntChanNum INTEGER
  vismCntClrButton INTEGER
  vismChanAal2HecErrors Counter
  vismChanAal2CrcErrors Counter
  vismChanAal2OamLpbLostCells Counter
  vismChanAal2InvOsfCells Counter
  vismChanAal2InvParCells Counter
  vismChanAal2CpsSentPkts Counter
  vismChanAal2CpsRcvdPkts Counter
  vismChanAal2CpsInvCidPkts Counter
  vismChanAal2CpsInvUuiPkts Counter
  vismChanAal2CpsInvLenPkts Counter
  vismChanAal5InvCpiPdus Counter
  vismChanAal5OversizedSdusRcvdPdus Counter
  vismChanAal5InvLenPdus Counter
  vismChanAal5Crc32ErrorPdus Counter
  vismChanAal5ReassemTimerExpiryPdus Counter

VismPortCnfGrpEntry  
SEQUENCE    
  vismPortNum INTEGER
  vismPortRowStatus INTEGER
  vismPortLineNum INTEGER
  vismPortType INTEGER
  vismPortDs0ConfigBitMap INTEGER
  vismPortSpeed INTEGER
  vismPortState INTEGER

VismPortResPartCnfGrpEntry  
SEQUENCE    
  vismResPartPortNum INTEGER
  vismResPartCtrlrNum INTEGER
  vismResPartRowStatus INTEGER
  vismResPartNumOfLcnAvail INTEGER
  vismResPartLcnLow INTEGER
  vismResPartLcnHigh INTEGER
  vismResPartIngrPctBW INTEGER
  vismResPartEgrPctBW INTEGER
  vismResPartCtrlrID INTEGER

VismChanCacEntry  
SEQUENCE    
  vismChanNum INTEGER
  vismChanCacMaster INTEGER
  vismChanCacPassedCons Counter
  vismChanCacRejectedCons Counter
  vismChanCacRejectionPolicy INTEGER
  vismChanCarrierLossPolicy INTEGER
  vismChanVADTolerance INTEGER
  vismChanVADDutyCycle INTEGER
  networkCacConfigState INTEGER

VismCasVariantEntry  
SEQUENCE    
  vismCasVariantName DisplayString
  vismCasFileName DisplayString
  vismCasTRinging INTEGER
  vismCasDigitMethod INTEGER
  vismCasInterdigitTpart INTEGER
  vismCasInterdigitTcrit INTEGER
  vismCasInterdigitTMF INTEGER
  vismCasVariantState INTEGER
  vismCasRowStatus INTEGER
  vismCasCountryCode DisplayString
  vismCasVariantSource INTEGER

VismCasXgcpVariantEntry  
SEQUENCE    
  vismCasXgcpVariantName DisplayString
  vismCasXgcpFileName DisplayString
  vismCasXgcpMaxReXmitTime INTEGER
  vismCasXgcpInitialReXmitTime INTEGER
  vismCasXgcpMaxRetries INTEGER

VismAal2CidEntry  
SEQUENCE    
  vismAal2CidNum INTEGER
  vismAal2CidLcn INTEGER
  vismAal2EndptNum INTEGER
  vismAal2CidRowStatus INTEGER
  vismAal2CidType3Redundancy TruthValue
  vismAal2CidVad TruthValue
  vismAal2CidProfileType INTEGER
  vismAal2CidProfileNum INTEGER
  vismAal2CidCodecType INTEGER
  vismAal2CidDtmfTransport TruthValue
  vismAal2CidCasTransport TruthValue
  vismAal2CidEcanEnable TruthValue
  vismAal2InitVadTimer INTEGER
  vismAal2CnfPktPeriod INTEGER
  vismAal2CidICSEnable TruthValue
  vismAal2CidState INTEGER
  vismAal2CidFailReason INTEGER

VismHdlcChanEntry  
SEQUENCE    
  vismHdlcChanNum INTEGER
  vismHdlcRowStatus INTEGER
  vismHdlcMaxFrameSize INTEGER
  vismHdlcLcnNum INTEGER
  vismHdlcXmtFrames Counter
  vismHdlcRcvFrames Counter
  vismHdlcRcvCrcErrors Counter
  vismHdlcRcvBufOverflows Counter
  vismHdlcTxUnderflows Counter
  vismHdlcTxAbortFrames Counter
  vismHdlcRxAbortFrames Counter

BearerConnEntry  
SEQUENCE    
  bearerEndptNum INTEGER
  bearerCid INTEGER
  bearerLcn INTEGER
  bearerSentPkts Counter
  bearerRcvdPkts Counter
  bearerSentOctets Counter
  bearerRcvdOctets Counter
  bearerLostPkts Counter
  bearerJitter INTEGER
  bearerLatency INTEGER
  bearerAal2ExtAISCnts Counter
  bearerAal2ExtRAICnts Counter
  bearerAal2ConnAISCnts Counter
  bearerAal2ConnRDICnts Counter
  bearerCntClrButton INTEGER

Dsx0VismCnfEntry  
SEQUENCE    
  ds0IfIndex INTEGER
  ds0RobbedBitSignalling TruthValue
  ds0IdleCode INTEGER
  ds0SeizedCode INTEGER
  ds0ReceivedCode INTEGER
  ds0TransmitCodesEnable TruthValue
  ds0BundleMapped INTEGER
  ds0IfType INTEGER
  ds0CasVariantName DisplayString
  ds0CasCadenceOnTime INTEGER
  ds0CasCadenceOffTime INTEGER
  ds0InsertLocalCas TruthValue
  ds0LocalCasPattern INTEGER
  ds0LoopbackCommand INTEGER
  ds0CasParameterSource INTEGER
  ds0CasOnHookMinMakeTime INTEGER
  ds0CasOffHookMinMakeTime INTEGER
  ds0CasWinkMinMakeTime INTEGER
  ds0CasWinkMaxMakeTime INTEGER
  ds0CasWinkBreakTime INTEGER
  ds0CasGlareTime INTEGER
  ds0CasGaurdTime INTEGER
  ds0CasDelayImmedStart INTEGER
  ds0SignalingType INTEGER
  ds0CasMinDelayDialTime INTEGER
  ds0CasMinStartDialTime INTEGER
  ds0CasFlashMinMakeTime INTEGER
  ds0CasFlashMaxMakeTime INTEGER
  ds0CasDirectionality INTEGER
  ds0CasGlarePolicy INTEGER
  ds0CasIncomingMgcpPackage DisplayString
  ds0CasOutgoingMgcpPackage DisplayString
  ds0InputGain INTEGER
  ds0OutputAttenuation INTEGER
  ds0MusicThreshold INTEGER
  ds0SidPacket TruthValue

Dsx0VismChanMapEntry  
SEQUENCE    
  dsx1LineNum INTEGER
  ds0ChanNum INTEGER
  ds0ChanMapIfIndex INTEGER

VismCodecTemplateCnfGrpEntry  
SEQUENCE    
  vismCodecTemplateNum INTEGER
  vismCodecSupported INTEGER
  vismCodecTemplateMaxChanCount INTEGER

VismCodecCnfEntry  
SEQUENCE    
  vismCodecCnfIndex INTEGER
  vismCodecName DisplayString
  vismCodecPktPeriod INTEGER
  vismCodecPreference INTEGER
  vismCodecString DisplayString
  vismCodecIanaType INTEGER

Defined Values

atmAddressGroup 1.3.6.1.4.1.351.110.1.4.1.2
OBJECT IDENTIFIER    

atmAddressTable 1.3.6.1.4.1.351.110.1.4.1.2.1
A table implemented by the network-side of an ATM UNI port, containing the ATM-layer addresses in effect on the user-side of the UNI.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    AtmAddressEntry

atmAddressEntry 1.3.6.1.4.1.351.110.1.4.1.2.1.1
Information about a single ATM-layer address in effect on the user-side of a UNI port.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  AtmAddressEntry  

axisAtmAddressPort 1.3.6.1.4.1.351.110.1.4.1.2.1.1.1
A unique value which identifies this port. The value of 0 has the special meaning of identifying the local UNI.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..2147483647  

axisAtmAddressAtmAddress 1.3.6.1.4.1.351.110.1.4.1.2.1.1.2
The ATM address which is in effect on the user-side of the ATM UNI port.
Status: mandatory Access: read-only
OBJECT-TYPE    
  AtmAddress  

axisAtmAddressStatus 1.3.6.1.4.1.351.110.1.4.1.2.1.1.3
An indication of the validity of the ATM address at the user-side of the UNI port.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER valid(1), invalid(2)  

atmNetPrefixGroup 1.3.6.1.4.1.351.110.1.4.1.1
OBJECT IDENTIFIER    

atmNetPrefixTable 1.3.6.1.4.1.351.110.1.4.1.1.1
A table implemented by the UNI Management Entity on the user-side of an ATM UNI port, containing the network-prefix(es) for ATM-layer addresses in effect on the user-side of the UNI.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    AtmNetPrefixEntry

atmNetPrefixEntry 1.3.6.1.4.1.351.110.1.4.1.1.1.1
An entry in the table, containing information about the ATM Prefix status.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  AtmNetPrefixEntry  

axisAtmNetPrefixPort 1.3.6.1.4.1.351.110.1.4.1.1.1.1.1
The unique value which identifies the ILMI port.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..2147483647  

axisAtmNetPrefixPrefix 1.3.6.1.4.1.351.110.1.4.1.1.1.1.2
The network prefix for ATM addresses which is in effect on the user-side of the ATM UNI port.
Status: mandatory Access: read-only
OBJECT-TYPE    
  NetPrefix  

axisAtmNetPrefixAdminStatus 1.3.6.1.4.1.351.110.1.4.1.1.1.1.3
An indication of the validity of the network prefix for ATM addresses, on the user-side of the UNI port.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER valid(1), invalid(2)  

axisAtmNetPrefixOperStatus 1.3.6.1.4.1.351.110.1.4.1.1.1.1.4
An indication of the current registration state for the prefix: registering, de-registering, success, fail.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER registering(1), de-registering(2), registered(3), de-registered(4), failRegistering(5), failDe-registering(6)  

cardResourcePartition 1.3.6.1.4.1.351.110.2.9
OBJECT IDENTIFIER    

cardLcnPartitionType 1.3.6.1.4.1.351.110.2.9.1
This object specified the type of partition on LCN: 1. noPartition -- means that all controllers compete for the totoal (G)LCNs limited by the card 2. controllerBased -- means that the total number of (G)LCNs available to each controller is fixed but no reservation on each port. The number for each controller is specified in the smCardResPartGrpTable. 3. portControllerBased -- means that a certain number of (G)LCNs available on each port for each controller is reserved, it is specified in the port resouce partition table. NOTE: This object has to be configured before adding any connections and once a connection is added, this object cannot be changed until all of the connections are deleted.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER noPartition(1), controllerBased(2), portControllerBased(3)  

cardResPartGrpTable 1.3.6.1.4.1.351.110.2.9.2
This table contains the configuration of all the resource partition(s) that are on the card level, such as (G)LCN (if the object cardLcnPartitionType is configured as controller-based, if not, there is no need to configure this table since it'll be useless).
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    CardResPartGrpEntry

cardResPartGrpEntry 1.3.6.1.4.1.351.110.2.9.2.1
This is an entry for a controller
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  CardResPartGrpEntry  

cardResPartCtrlrNum 1.3.6.1.4.1.351.110.2.9.2.1.1
This object is the index to the table
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER par(1), pnni(2), tag(3)  

cardResPartRowStatus 1.3.6.1.4.1.351.110.2.9.2.1.2
This object is records the status of this entry
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER add(1), del(2), mod(3)  

cardResPartNumOfLcnAvail 1.3.6.1.4.1.351.110.2.9.2.1.3
This object is configured to reserve the number of (G)LCNs for one controller on a SM card, it can be used on any port but the total number of connections added on all of the ports for that particular controller cannot exceed this number.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

onlineDiagnostics 1.3.6.1.4.1.351.110.6.3
OBJECT IDENTIFIER    

diagType 1.3.6.1.4.1.351.110.6.3.1
This is used to identify the type of diagnostics. When a trap is sent to report diagnostics results this is used as a varbind to indicate the type of diagnostics.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER post(1), onlinediag(2)  

diagResult 1.3.6.1.4.1.351.110.6.3.2
This is used to indicate the result of the diagnostics tests in traps.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER passed(1), failed(2)  

diagTestId 1.3.6.1.4.1.351.110.6.3.3
This is used to indicate the test number of the diagnostics test that failed.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

bert 1.3.6.1.4.1.351.110.6.1
OBJECT IDENTIFIER    

bertControl 1.3.6.1.4.1.351.110.6.1.1
This object controls all the SET operations on this MIB group. acquireBert : Acquire BERT resources. cnfBert : Configure the required BERT test. startBert : The configured test has to be started. modBert : Modify parameters for the ongoing BERT test. delBert : Running BERT test has to be stopped. The above list shows the sequence in which the SET operations on this group need to be done, ideally. Bert can be operated upon only with bertUserId and bertSlotNumber. The default value is 0, means no action.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER acquireBert(1), releaseBert(2), cnfBert(3), startBert(4), modBert(5), delBert(6)  

bertResourceStatus 1.3.6.1.4.1.351.110.6.1.2
All of bert resources can be used by only one user at a time. This gives the status of the resources.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER free(1), inUse(2), cleanupPending(3)  

bertOwner 1.3.6.1.4.1.351.110.6.1.3
This refers to the user who owns the BERT resources. If the user is a CLI user, then this is username. If it is SV+, then this would be the IP address. For example, this value can be, 192.9.209.157 within quotes.
Status: mandatory Access: read-only
OBJECT-TYPE    
  DisplayString  

bertUserId 1.3.6.1.4.1.351.110.6.1.4
This identifies the user who wants to do a SET operation on this group. This will be compared against bertOwner and access will be given only if it matches. Hence, for every SET request, this object should have a valid value. If the user is a CLI user, then this is username. If it is SV+, then this would be the IP address. For example, this value can be, 192.9.209.157 within quotes. Required for bert operations.
Status: mandatory Access: read-write
OBJECT-TYPE    
  DisplayString  

bertStatus 1.3.6.1.4.1.351.110.6.1.5
This variable provides the status of BERT in the shelf.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER inactive(1), bertInSync(2), bertOutOfSync(3), searchingDDSCommands(4), farEndInLoop(5), facilityInLoop(6), portFacilityFifoFault(7), portFacilityFifoOutOfSync(8), metallicInLoop(9), bertFailed(10)  

bertSlotNumber 1.3.6.1.4.1.351.110.6.1.6
specifies the physical slot number of the Service Module which is to run BERT For MGX 8220, the range is 5-14. For MGX 8850, the range is 1-6, 9-14, 17-22, 25-30. Required for bert operations.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..30  

bertTestMedium 1.3.6.1.4.1.351.110.6.1.7
specifies whether the bert is to test a port or an entire T1/E1 line. No default value for this, it has to be set if bert is configured.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER port(1), line(2)  

bertPort 1.3.6.1.4.1.351.110.6.1.8
specifies the port number for BERT.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

bertLine 1.3.6.1.4.1.351.110.6.1.9
specifies the line number for BERT. If the test medium is port, this represents the line to which the port belongs.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

bertMode 1.3.6.1.4.1.351.110.6.1.10
specifies the mode, the BERT module is to be configured for.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER bertPatternTest(1), ddsSeek(2), loopback(3)  

bertDeviceToLoop 1.3.6.1.4.1.351.110.6.1.11
This shows the type of the end device and the type of the loopback used (latching/nonlatching/polynomial).
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER noLatchOCUwith1(1), noLatchOCUwitout1(2), noLatchCSU(3), noLatchDSU(4), latchDS0Drop(5), latchDS0Line(6), latchOCU(7), latchCSU(8), latchDSU(9), latchHL96(10), v54Polynomial(11), inband(12), esf(13), metallic(14), noDevice(15), smartJackInband(16)  

bertDS0DPIterationCount 1.3.6.1.4.1.351.110.6.1.12
The Iteration Register needs to be programmed in SRM when DSO drop loop option is selected in bertDeviceToLoop. The value to be programmed there is minus one of this object value, since the register is 0 based. DSP-OP devices can be cross connected in the centeral office. By this, the user has capablitiy to put any of the devices in the chain in loopback mode. This is done by repeating the latching activation code in a specific manner. The binary number in the iterataion register determines how many times the first portion of a latching loop activation code needs to be repeated as per user request and according to the Bellcore spec. A value of 0 results in no iteration and will cause the very first device in chain to go into loop back. A value of 1 will result into one iteration and will cause the second device to go into loopback and so on. The range of this count is 1 to 32, and it would translate to a range of 0 to 31 for the iteration register.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..32  

bertPattern 1.3.6.1.4.1.351.110.6.1.13
This variable determines BERT pattern to be transmitted.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER allZeros(1), allOnes(2), alternateONeZero(3), doubleOneZero(4), fifteenBit(5), twentyBit(6), twentyBitQRSS(7), twentythreeBit(8), oneInEight(9), threeIntwentyfour(10), dds-1(11), dds-2(12), dds-3(13), dds-4(14), dds-5(15), nineBit(16), elevenBit(17)  

bertLoopback 1.3.6.1.4.1.351.110.6.1.14
specifies the type of loopback to be (d)established.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER farEndLoopback(1), facilityLoopback(2), metallicLoopback(3)  

bertLoopbackOperation 1.3.6.1.4.1.351.110.6.1.15
specifies the operation of loopback (up or down).
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER loopUp(1), loopDown(2)  

bertDS0Speed 1.3.6.1.4.1.351.110.6.1.16
represents the ds0 speed of the test running.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER speed56k(1), speed64k(2)  

bertTimeSlots 1.3.6.1.4.1.351.110.6.1.17
represents the number of ds0s in the test medium chosen.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

bertStartTime 1.3.6.1.4.1.351.110.6.1.18
The syntax is hh:mm:ss The time zone is as configured in the shelf.
Status: mandatory Access: read-only
OBJECT-TYPE    
  DisplayString Size(8)  

bertStartDate 1.3.6.1.4.1.351.110.6.1.19
On MGX 8220, the syntax is mm/dd/yy On MGX 8850, the syntax is mm/dd/yyyy
Status: mandatory Access: read-only
OBJECT-TYPE    
  DisplayString Size(10)  

bertBitCount 1.3.6.1.4.1.351.110.6.1.20
This shows the number of bits transmitted.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

bertBitErrorCount 1.3.6.1.4.1.351.110.6.1.21
This shows the number of bits received in error.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

bertErrorInjectCount 1.3.6.1.4.1.351.110.6.1.22
This shows the number of times error was injected.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

bertCleanupAction 1.3.6.1.4.1.351.110.6.1.23
When the BERT has to be stopped or aborted (due to card state changes), this object would give the exact action to take. The bert related changes to the shelf, then, can be cleaned up. When its value is a Loopdown, it implies smCleanup plus the corresponding Loopdown.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER noAction(1), smCleanup(2), latchDS0DropLoopdown(3), latchDS0LineLoopdown(4), latchOCULoopdown(5), latchCSULoopdown(6), latchDSULoopdown(7), latchHL96Loopdown(8), v54PolynomialLoopdown(9), inbandLoopdown(10), esfLoopdown(11), facilityLoopdown(12), metallicLoopdown(13), smartJackInbandLoopdown(14)  

bertAbortReason 1.3.6.1.4.1.351.110.6.1.24
when the BERT is aborted, this object would give the reason for that.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER ascStateChange(1), smStateChange(2), srmStateChange(3), coreCardSwitch(4), smRedundancySwitch(5)  

bertDDSSeekResultsTableFirstIndex 1.3.6.1.4.1.351.110.6.1.25
Denotes the index of the oldest entry in the table. A value of zero means that there are no entries in the table.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..20  

bertDDSSeekResultsTableLastIndex 1.3.6.1.4.1.351.110.6.1.26
Denotes the index of the latest entry in the table. A value of zero means that there are no entries in the table.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..20  

bertDDSSeekResultsTable 1.3.6.1.4.1.351.110.6.1.27
A list of detected DDS codes.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    BertDDSSeekResultsTableEntry

bertDDSSeekResultsTableEntry 1.3.6.1.4.1.351.110.6.1.27.1
An entry in the detected DDS codes table.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  BertDDSSeekResultsTableEntry  

bertDDSSeekResultsTableIndex 1.3.6.1.4.1.351.110.6.1.27.1.1
Denotes the serial number of the entry in the table.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..20  

bertDDSCode 1.3.6.1.4.1.351.110.6.1.27.1.2
Denotes the type of DDS code detected.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER abnormalStationCondition(30), block(10), channelLoopback(40), dsuLoopback(44), farEndVoice(90), idle(126), loopbackEnable(86), mjuAlert(114), muxOutOfSync(26), ocuLoopback(42), release(120), test(28), testAlert(108), transitionInProgress(58), unassignedMuxChannel(24), unnamed(50)  

bertSupportedTestsTable 1.3.6.1.4.1.351.110.6.1.28
A list of supported tests for a given SM.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    BertSupportedTestsTableEntry

bertSupportedTestsTableEntry 1.3.6.1.4.1.351.110.6.1.28.1
A general supported tests entry.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  BertSupportedTestsTableEntry  

bertSupportedTestsTableIndex 1.3.6.1.4.1.351.110.6.1.28.1.1
This index is the physical slot number of the Service Module whose entry it represents in the table. For MGX 8220, the range is 5-14. For MGX 8850, the range is 1-6, 9-14, 17-22, 25-30.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..30  

bertSupportFlag 1.3.6.1.4.1.351.110.6.1.28.1.2
'yes' if the table entry correctly represents the supported tests for the SM on the corresponding slot. 'no' if no tests at all are supported.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER yes(1), no(2)  

bertTestMediumMask 1.3.6.1.4.1.351.110.6.1.28.1.3
Every test medium is represented by a bit of mask. Bits 0-1 are valid in this integer. The meaning of the mask can be understood from the example below: -------------------------- TestMedium | SM | support -------------------------- port | 1 line | 1 -------------------------- (Table contents applicable to FRSM-4T1) bertTestMediumMask = 11 binary The column titles represent the variables bertTestMedium depends on. The mask is represented in column major order.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

bertModeMask 1.3.6.1.4.1.351.110.6.1.28.1.4
Every mode is represented by 2 bits of mask. Bits 0-5 are valid in this integer. The meaning of the mask can be understood from the example below: ----------------------------------------------------------- Mode | SM support | Test Medium: | | Multiple | | T1 time slots ----------------------------------------------------------- Pattern test | 1 | 1 DDS seek | 1 | 0 Loopback | 1 | 1 ----------------------------------------------------------- (Table contents applicable to FRSM-4T1) bertModeMask = 101111 binary The column titles represent the variables bertMode depends on. The mask is represented in column major order.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

bertDeviceToLoopMask 1.3.6.1.4.1.351.110.6.1.28.1.5
Every class of devices to loop is represented by 6 bits of mask. Bits 0-29 are valid in this integer. The meaning of the mask can be understood from the example below: ----------------------------------------------------------- | | | Test Medium Class of | SM | MODE |________________________________ devices |supp | Loopback|Line |multiple T1 | 64k | 56k | | | | time slots | | ----------------------------------------------------------- noLatch | 1 0 0 0 0 1 latch | 1 1 0 0 1 1 v54 | 1 1 0 1 1 1 inband/esf| 1 1 1 0 0 0 metallic | 1 0 1 0 0 0 ----------------------------------------------------------- (Table contents applicable to FRSM-4T1) bertDeviceToLoopMask = 001110011000100110000111011111 binary The column titles represent the variables bertDeviceToLoop depends on. The mask is represented in column major order. Due to the limitation on the length of the mask, 'noDevice' option is not represented in this mask. But, the mask for it, is assumed to be a row of ones except for a zero on 'MODE Loopback' column.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

bertPatternMask 1.3.6.1.4.1.351.110.6.1.28.1.6
Every class of patterns is represented by 2 bits of mask. Bits 0-3 are valid in this integer. The meaning of the mask can be understood from the example below: ---------------------------------------------- Class of | SM | Non latching patterns | support |device to loop ---------------------------------------------- Other patterns | 1 | 0 ---------------------------------------------- Patterns | 1 | 1 power 9 and 11 | | ---------------------------------------------- (Table contents applicable to FRSM-4T1) bertPatternMask = 1011 binary The column titles represent the variables bertPattern depends on. The mask is represented in column major order.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

bertLoopbackMask 1.3.6.1.4.1.351.110.6.1.28.1.7
Every loopback is represented by 2 bits of mask. Bits 0-5 are valid in this integer. The meaning of the mask can be understood from the example below: ---------------------------------------------- Loopback | SM | Test Medium | support | Port ---------------------------------------------- Far End Loopback | 1 | 1 Facility Loopback | 1 | 1 Metallic Loopback | 1 | 0 ---------------------------------------------- (Table contents applicable to FRSM-4T1) bertLoopbackMask = 011111 binary The column titles represent the variables bertLoopback depends on. The mask is represented in column major order.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

bertCardT1E1Type 1.3.6.1.4.1.351.110.6.1.28.1.8
Specifies whether a t1 or e1 card.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER t1(1), e1(2)  

srm3T3CnfGrp 1.3.6.1.4.1.351.110.3.10
OBJECT IDENTIFIER    

srm3T3CnfGrpTable 1.3.6.1.4.1.351.110.3.10.1
The SRM 3T3 configuration table, it is the distribution of a T3 line.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    Srm3T3CnfGrpEntry

srm3T3CnfGrpEntry 1.3.6.1.4.1.351.110.3.10.1.1
an entry in the T3 configuration table
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  Srm3T3CnfGrpEntry  

srmT3LineNum 1.3.6.1.4.1.351.110.3.10.1.1.1
Select T3 line number. There is no default value for this object.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..3  

srmStartT1LineNum 1.3.6.1.4.1.351.110.3.10.1.1.2
The start T1 number to be affected. There is no default value for this object.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..28  

srmT1RowStatus 1.3.6.1.4.1.351.110.3.10.1.1.3
a command is used to add, delete, or modify one or more DS1 mapping. Default value is delete.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER add(1), delete(2), modify(3)  

srmTargetSlotNum 1.3.6.1.4.1.351.110.3.10.1.1.4
specify the target slot number to be linked. There is no default value for this object. For MGX8850: SRM01 services slots 1 - 6 and 9 - 14, SRM02 services slots 17 - 22 and 25 - 30 For MGX8220: SYNTAX INTEGER (5 ..14)
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..32  

srmTargetSlotLineNum 1.3.6.1.4.1.351.110.3.10.1.1.5
0 means not assigned. There is no default value for this object.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..8  

srmeCnfGrp 1.3.6.1.4.1.351.110.3.22
OBJECT IDENTIFIER    

srmeCnfGrpTable 1.3.6.1.4.1.351.110.3.22.1
The SRME configuration table for bulk distribution of SRME lines.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    SrmeCnfGrpEntry

srmeCnfGrpEntry 1.3.6.1.4.1.351.110.3.22.1.1
an entry in the SRME Distribution configuration table
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SrmeCnfGrpEntry  

srmeLineNum 1.3.6.1.4.1.351.110.3.22.1.1.1
Select SRME line number. For OC3/STM1: SYNTAX INTEGER 1 There is no default value for this object.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..3  

srmeStartVtNum 1.3.6.1.4.1.351.110.3.22.1.1.2
The start T1 or E1 number (virtual tributary) to be affected. For OC3 with T1 tributaries: SYNTAX INTEGER (1 .. 84) For STM1 with E1 tributaries: SYNTAX INTEGER (1 .. 63) There is no default value for this object.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..84  

srmeRowStatus 1.3.6.1.4.1.351.110.3.22.1.1.3
Command used to add, delete, or modify one or more T1 or E1 mappings. Only the srmeVtFramingType object can be modified once the distribution link is added. To modify all other objects, user should first delete the link and add it again. Default value is modify.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER add(1), delete(2), modify(3)  

srmeTargetSlotNum 1.3.6.1.4.1.351.110.3.22.1.1.4
specify the target slot number to be linked. There is no default value for this object. For MGX8x50: SRM01 services slots 1 - 6 and 9 - 14, SRM02 services slots 17 - 22 and 25 - 30 For MGX8x30: service slots 3-6 and 10-13
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..32  

srmeTargetSlotLineNum 1.3.6.1.4.1.351.110.3.22.1.1.5
Specify the target slot's line to be linked. 0 means not assigned. There is no default value for this object.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..8  

srmeVtFramingType 1.3.6.1.4.1.351.110.3.22.1.1.6
Specifies the Framing Type of the target slot line. This is applicable only if the target module is a T1 Service Module and byte sync mapping is used on SRME. Not applicable to E1 Service Modules. sf: Superframe or D4 esf: Extended Superframe. Default is esf if SRME lines are configured for byte-synchronous mapping. Else, the default is notApplicable.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER notApplicable(1), sf(2), esf(3)  

serialInterface 1.3.6.1.4.1.351.110.4.1
OBJECT IDENTIFIER    

serialPortNumOfValidEntries 1.3.6.1.4.1.351.110.4.1.2
Number of rows in serialPortTable. This number is equal to the number of serial ports on the module.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

serialInterfaceTable 1.3.6.1.4.1.351.110.4.1.1
This table represents Physical serial interfaces on the module
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    SerialInterfaceEntry

serialInterfaceEntry 1.3.6.1.4.1.351.110.4.1.1.1
An entry for the serial interface
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SerialInterfaceEntry  

serialPortNum 1.3.6.1.4.1.351.110.4.1.1.1.1
serial interface number port 1. is always defined as debug port port 2. on BSC can perform SLIP.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

serialPortType 1.3.6.1.4.1.351.110.4.1.1.1.2
On the BSC board IP stack is mounted on the manager port, on the debug port dumb terminal can be connected function of the ports cannot be changed, except for enabling and disabling
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER main(1), debug(2)  

serialPortEnable 1.3.6.1.4.1.351.110.4.1.1.1.3
ports can be enabled or diabled
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disable(1), enable(2)  

serialPortbps 1.3.6.1.4.1.351.110.4.1.1.1.4
baud rate of the ports, each port can be config different
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER bps9600(1), bps2400(2), bps19200(3)  

ethernetInterface 1.3.6.1.4.1.351.110.4.2
OBJECT IDENTIFIER    

ethernetPhysicaAddress 1.3.6.1.4.1.351.110.4.2.1
ethernet address stored in the BSC BRAM, entered by manfacturing.
Status: mandatory Access: read-only
OBJECT-TYPE    
  DisplayString Size(0..8)  

asmAlarmTable 1.3.6.1.4.1.351.110.1.2.1
The ASM Alarm table. The table size is given by the value of ASMNumOfValidEntries.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    AsmAlarmEntry

asmAlarmEntry 1.3.6.1.4.1.351.110.1.2.1.1
An entry in the Basis ASM Alarm Table.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  AsmAlarmEntry  

asmAlarmNum 1.3.6.1.4.1.351.110.1.2.1.1.1
This object is the identifier of a ASM alarm entry. The Alarm is further identified by the objects ASMAlarmType & ASMAlarmUnitNum.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

asmAlarmType 1.3.6.1.4.1.351.110.1.2.1.1.2
The value for this object indicates the type of Alarm represented in the entry of ASMAlarmTable indexed by ASMAlarmNum.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER alarmOther(1), alarmTemperature(2), alarmPSU(3), alarmDCLevel(4), alarmFanUnit(5)  

asmAlarmUnitNum 1.3.6.1.4.1.351.110.1.2.1.1.3
This object identifies one unit among a number of identical units represented in ASMAlarmTable having the same ASMAlarmType.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

asmAlarmThreshold 1.3.6.1.4.1.351.110.1.2.1.1.4
This object specifies the threshold beyond which the alarmable unit is said to be in an abnormal state.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..2147483647  

asmAlarmSeverity 1.3.6.1.4.1.351.110.1.2.1.1.5
This variable specifies the severity of the alarm to be declared when the ASMAlarmThreshold specified is exceeded for the entry of ASMAlarmTable indexed by ASMAlarmNum.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER alarmMinor(1), alarmMajor(2)  

asmUnitMeasurable 1.3.6.1.4.1.351.110.1.2.1.1.6
This object indicates if the alarm unit is measurable by the AXIS shelf.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER no(1), yes(2)  

asmUnitMeasuredValue 1.3.6.1.4.1.351.110.1.2.1.1.7
This object gives the mesaured value of the entity addressed by asmAlarmNum if it is measurable.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

asmPhysicalAlarmState 1.3.6.1.4.1.351.110.1.2.1.1.8
This object indicates the status of the ASM alarm represented in this entry. It is a bitmap where a set bit indicates an abnormal condition. A reset bit signifies normal operation.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

asmClrButton 1.3.6.1.4.1.351.110.1.2.1.1.9
This object when set to ASMAlarmClear causes the entry in the ASMAlarmTable represented by ASMAlarmNum to be cleared.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER asmAlarmNoAction(1), asmAlarmClear(2)  

asmNumOfValidEntries 1.3.6.1.4.1.351.110.1.2.2
The number of valid ASMAlarmTable entries (regardless of how many are actually configured) in the table.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

asmShelfAlarmState 1.3.6.1.4.1.351.110.1.2.3
This object indicates whether any Shelf Alarm has been declared in the BASIS system.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER alarmOff(1), alarmOn(2)  

aumClockConfig 1.3.6.1.4.1.351.110.3.1
OBJECT IDENTIFIER    

aumAddressTranslation 1.3.6.1.4.1.351.110.3.2
OBJECT IDENTIFIER    

bnmCounters 1.3.6.1.4.1.351.110.3.3
OBJECT IDENTIFIER    

bnmLineInterfaceMode 1.3.6.1.4.1.351.110.3.12
OBJECT IDENTIFIER    

primaryMuxClockSource 1.3.6.1.4.1.351.110.3.1.1
Primary Mux Clock source for AUM card.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER internalOscillator(1), aumInbandClock(2), externalClock(3)  

secondaryMuxClockSource 1.3.6.1.4.1.351.110.3.1.2
Secondary clock source for AUM card.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER internalOscillator(1), aumInbandClock(2), externalClock(3)  

currentClock 1.3.6.1.4.1.351.110.3.1.3
clock source currently selected for AUM card.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER primary(1), secondary(2), intOscillator(3)  

clockSwitchState 1.3.6.1.4.1.351.110.3.1.4
clock source switched.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER noChange(1), clockSrcChanged(2)  

extClockPresent 1.3.6.1.4.1.351.110.3.1.5
Status of External T1/E1 Clock on AUM card.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER clkNotPresent(1), clkPresent(2)  

extClkSrcImpedance 1.3.6.1.4.1.351.110.3.1.6
Impedance on external clock input for AUM card.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER ohms75(1), ohms100(2), ohms120(3)  

extClkConnectorType 1.3.6.1.4.1.351.110.3.1.7
This object describes the type of connector available for connecting the external clock source to the AUM-LM. The T3 and E3 cards are separate hence this field is not configurable for any BNM card type except bnm-155
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER db15Type(1), bncType(2)  

aumAddressTranslationTable 1.3.6.1.4.1.351.110.3.2.1
This table contains address translation parameters for AXIS connections.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    AumAddressTranslationEntry

aumAddressTranslationEntry 1.3.6.1.4.1.351.110.3.2.1.1
This entry exists when the connection specified by connShelfNum, connSlotNum and connChanNum exists.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  AumAddressTranslationEntry  

connShelfNum 1.3.6.1.4.1.351.110.3.2.1.1.1
Index to shelf list on BASIS.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

connSlotNum 1.3.6.1.4.1.351.110.3.2.1.1.2
Index to slot list on BASIS.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

connChanNum 1.3.6.1.4.1.351.110.3.2.1.1.3
Index to channel list on BASIS.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

aumConnType 1.3.6.1.4.1.351.110.3.2.1.1.4
Virtual channel connection or Virtual Path Connection
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER vpConnection(1), vcConnection(2)  

connVPINum 1.3.6.1.4.1.351.110.3.2.1.1.5
Virtual channel connection or Virtual Path Connection
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

aumAddressTranslationDeleteTable 1.3.6.1.4.1.351.110.3.2.2
This table contains address translation parameters for AXIS connections.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    AumAddressTranslationDeleteEntry

aumAddressTranslationDeleteEntry 1.3.6.1.4.1.351.110.3.2.2.1
This entry controls bulk deletion of connections on a given AXIS slot.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  AumAddressTranslationDeleteEntry  

delShelfNum 1.3.6.1.4.1.351.110.3.2.2.1.1
Index to shelf list on AXIS.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

delSlotNum 1.3.6.1.4.1.351.110.3.2.2.1.2
Index to slot list on BASIS.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

connNumOfValidEntries 1.3.6.1.4.1.351.110.3.2.3
Number of rows in aumAddressTranslationTable.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..1024  

bnmPortCounterTable 1.3.6.1.4.1.351.110.3.3.1
The counter table is for the ATM interface, initially there is only one interface, but by making it a table multiple ATM interfaces can be accommodated later.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    BnmPortCounterEntry

bnmPortCounterEntry 1.3.6.1.4.1.351.110.3.3.1.1
An entry for DS3 ATM counters
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  BnmPortCounterEntry  

bnmPortCounterIndex 1.3.6.1.4.1.351.110.3.3.1.1.1
This specifies the BNM port being referenced.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

bnmPortRcvCells 1.3.6.1.4.1.351.110.3.3.1.1.2
The count of Received cells at the BNM port.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bnmPortXmtCells 1.3.6.1.4.1.351.110.3.3.1.1.3
The count of cells transmitted by the BNM port.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bnmPortCounterClrButton 1.3.6.1.4.1.351.110.3.3.1.1.4
This object when set to bnmPortCounterClear causes all counters in the row referenced by bnmPortCounterIndex to be cleared.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER bnmPortCounterNoAction(1), bnmPortCounterClear(2)  

bnmPortRcvCellRate 1.3.6.1.4.1.351.110.3.3.1.1.5
The number of cells received from the BNM port (trunk) per second .
Status: mandatory Access: read-only
OBJECT-TYPE    
  Gauge  

bnmPortRcvUtilization 1.3.6.1.4.1.351.110.3.3.1.1.6
The received percentage utilization of the BNM port (trunk)
Status: mandatory Access: read-only
OBJECT-TYPE    
  Gauge  

bnmPortXmtCellRate 1.3.6.1.4.1.351.110.3.3.1.1.7
The number of cells transmitted to the BNM port (trunk) per second.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Gauge  

bnmPortXmtUtilization 1.3.6.1.4.1.351.110.3.3.1.1.8
The transmitted percentage utilization of the BNM port (trunk)
Status: mandatory Access: read-only
OBJECT-TYPE    
  Gauge  

bnmPortCounterNumOfValidEntries 1.3.6.1.4.1.351.110.3.3.2
This object specifies the number of rows in bnmPortCounterTable.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

bnmCellbusXmtCellCount 1.3.6.1.4.1.351.110.3.3.3
This objects is a count of cells transmitted by the BNM Cell Bus Master to the cell bus.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bnmCellbusNoAckCellCount 1.3.6.1.4.1.351.110.3.3.4
This object is a count of cells transmitted by the BNM Cell Bus Master to the cell bus for which no acknowledgement was received i.e the slave card was missing or inactive.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bnmCellbusGrantCount 1.3.6.1.4.1.351.110.3.3.5
This object is a count of receiver grants given by the BNM Cell Bus Master
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bnmEgressXmtCellCountDuringAlarm 1.3.6.1.4.1.351.110.3.3.6
This object is a count of cells transmitted by the Egress Engine to the port i while a T3 Alarm condition was in effect.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bnmEgressInvalidCellCount 1.3.6.1.4.1.351.110.3.3.7
This object is a count of cells with disabled channel headers, received by the Egress Engine on the BNM and dropped.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bnmEgressInvalidCellHdr 1.3.6.1.4.1.351.110.3.3.8
This object gives the header of the first invalid cell that was dropped by the Egress Engine on the BNM since this object was last read and/or cleared.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

bnmIngressInvalidCellCount 1.3.6.1.4.1.351.110.3.3.9
This object is a count of cells from disabled channels received by the Ingress Engine on the BNM. This is not available in Release 1.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bnmIngressInvalidCellHdr 1.3.6.1.4.1.351.110.3.3.10
This object gives the header of the first invalid cell that was dropped by the Ingress Engine on the BNM since this object was last read and/or cleared. This is not available in Release 1.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

bnmCountersClrButton 1.3.6.1.4.1.351.110.3.3.11
This object clears the BNM counters
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER bnmCountersNoAction(1), bnmCountersClear(2)  

bnmLineInterfaceFormat 1.3.6.1.4.1.351.110.3.12.1
This indicates the format of the cells going out on the BNM trunk For T3 and E3 cards its currently fixed at STI mode. BNM-155 sonet cards can take on UNI or NNI options
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER bnmSti(1), bnmUni(2), bnmNni(3)  

pxmClockConfig 1.3.6.1.4.1.351.110.3.16
OBJECT IDENTIFIER    

pxmPrimaryMuxClockSource 1.3.6.1.4.1.351.110.3.16.1
Primary Mux Clock source for PXM card. For pxmInbandClock1 and pxmInbandClock2, the pxmPrimaryInbandClockSourceLineNumber described the Line number that the clock is derived from. For pxmServiceModuleClock1 and pxmServiceModuleClock2, the pxmPrimarySMClockSourceSlotNumber described the SM slot number For pxmExternalClock and pxmExternalClock2, pxmPrimaryExternalClockSourcePortNumber describes the Port number from where the clock is derived. Also the pxmExtClockPresent and pxmExtClkConnectorType are used with the pxmExternalClock. And pxmExtClock2Present and pxmExtClk2ConnectorType are used with pxmExternalClock2.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER pxmInbandClock1(1), pxmServiceModuleClock1(2), pxmTopSRMClock(3), pxmExternalClock(4), pxmInbandClock2(5), pxmServiceModuleClock2(6), pxmBottomSRMClock(7), pxmInternalOscillator(8), pxmExternalClock2(9)  

pxmPrimaryInbandClockSourceLineNumber 1.3.6.1.4.1.351.110.3.16.2
If pxmPrimaryMuxClockSource is pxmInbandClock1 (1) or pxmServiceModuleClock2 (5), then this entry indicates Inband Line number.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..4  

pxmPrimarySMClockSourceSlotNumber 1.3.6.1.4.1.351.110.3.16.3
If pxmPrimaryMuxClockSource is pxmServiceModuleClock1(2) or pxmServiceModuleClock2 (6), then this entry indicates SM slot number.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..32  

pxmSecondaryMuxClockSource 1.3.6.1.4.1.351.110.3.16.4
Secondary clock source for PXM card. For pxmInbandClock1 and pxmInbandClock2, the pxmSecondaryInbandClockSourceLineNumber described the Line number that the clock is derived from. For pxmServiceModuleClock1 and pxmServiceModuleClock2, the pxmSecondarySMClockSourceSlotNumber described the SM slot number pxmSecondaryExternalClockSourcePortNumber describes the Port number from where the clock is derived. Also the pxmExtClockPresent and pxmExtClkConnectorType are used with the pxmExternalClock. And pxmExtClockPresent2 and pxmExtClkConnectorType2 are used with pxmExternalClock2.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER pxmInbandClock1(1), pxmServiceModuleClock1(2), pxmTopSRMClock(3), pxmExternalClock(4), pxmInbandClock2(5), pxmServiceModuleClock2(6), pxmBottomSRMClock(7), pxmInternalOscillator(8), pxmExternalClock2(9)  

pxmSecondaryInbandClockSourceLineNumber 1.3.6.1.4.1.351.110.3.16.5
If pxmSecondaryMuxClockSource is pxmInbandClock1 (1) or pxmServiceModuleClock2 (5), then this entry indicates Inband Line number .
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..4  

pxmSecondarySMClockSourceSlotNumber 1.3.6.1.4.1.351.110.3.16.6
If pxmSecondaryMuxClockSource is pxmServiceModuleClock1(2) or pxmServiceModuleClock2 (6), then this entry indicates SM slot number .
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..32  

pxmCurrentClock 1.3.6.1.4.1.351.110.3.16.7
Clock source currently selected for PXM card. If the pxmCurrentClock is primary then the pxmPrimaryMuxClockSource described further the source of the clock. If the pxmCurrentClock is secondary then the pxmSecondaryMuxClockSource described further the source of the clock.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER primary(1), secondary(2), intOscillator(3)  

pxmPreviousClock 1.3.6.1.4.1.351.110.3.16.8
Clock source Previously selected for PXM card.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER primary(1), secondary(2), intOscillator(3)  

pxmExtClockPresent 1.3.6.1.4.1.351.110.3.16.9
Status of External T1/E1 Clock on PXM card.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER clkNotPresent(1), clkPresent(2)  

pxmExtClkSrcImpedance 1.3.6.1.4.1.351.110.3.16.10
Impedance on external clock input for PXM card.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER ohms75(1), ohms100(2), ohms120(3)  

pxmExtClkConnectorType 1.3.6.1.4.1.351.110.3.16.11
This object describes the type of connector available for connecting the external clock source to the PXM-LM.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER rj45Type(1), smbType(2)  

pxmClkStratumLevel 1.3.6.1.4.1.351.110.3.16.12
This object describes the lowest stratum level provided by the interface the external clock source to the PXM-LM.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER stratumUnknown(1), stratumLevel1(2), stratumLevel2(3), stratumLevel3E(4), stratumLevel3(5), stratumLevel4(6), stratumLevel4E(7)  

pxmClkErrReason 1.3.6.1.4.1.351.110.3.16.13
This object gives more information about clock status (if known).
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER goodClk(1), unknownReason(2), noClkSignal(3), freqTooHigh(4), freqTooLow(5), excessiveJitter(6), missingCard(7), missingLogicalIf(8), noClock(9)  

pxmExtClock2Present 1.3.6.1.4.1.351.110.3.16.14
Status of External T1/E1 Clock on port 2 of UI-S3 back card of PXM card.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER clkNotPresent(1), clkPresent(2)  

pxmExtClk2SrcImpedance 1.3.6.1.4.1.351.110.3.16.15
Impedance on external clock input on port 2 of UI-S3 back card of PXM card.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER ohms75(1), ohms100(2), ohms120(3)  

pxmExtClk2ConnectorType 1.3.6.1.4.1.351.110.3.16.16
This object describes the type of connector available for connecting the external clock source to the port 2 of UI-S3 back card of PXM-LM.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER rj45Type(1), smbType(2)  

ascFeatures 1.3.6.1.4.1.351.110.3.5
OBJECT IDENTIFIER    

redundancyAllowed 1.3.6.1.4.1.351.110.3.5.1
BRAM parameter indicating whether redundancy is allowed in this shelf.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER redNotAllowed(1), redAllowed(2)  

coreCardCommands 1.3.6.1.4.1.351.110.3.20
OBJECT IDENTIFIER    

switchCoreCard 1.3.6.1.4.1.351.110.3.20.1
A SwitchCC command either to invoke switchcc or take noAction on the Core Card Set
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER noAction(1), doswitchcc(2), instswitchcc(3), fallbackswitchcc(4)  

ascChanStateSigLmiGrp 1.3.6.1.4.1.351.110.3.4.3
OBJECT IDENTIFIER    

ascChanStateSigLmiGrpTable 1.3.6.1.4.1.351.110.3.4.3.1
The ATM LMI Channel State table
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    AscChanStateSigLmiGrpEntry

ascChanStateSigLmiGrpEntry 1.3.6.1.4.1.351.110.3.4.3.1.1
An entry for a Channel
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  AscChanStateSigLmiGrpEntry  

ascLmiVccLineNum 1.3.6.1.4.1.351.110.3.4.3.1.1.1
Refers to the line number
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER lineNum(1)  

ascLmiVccVpi 1.3.6.1.4.1.351.110.3.4.3.1.1.2
Refers to the Virtual Path Indicator
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 5..14  

ascLmiVccVci 1.3.6.1.4.1.351.110.3.4.3.1.1.3
Refers to the Virtual Channel Indicator
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 16..271  

ascLmiXmtAbitState 1.3.6.1.4.1.351.110.3.4.3.1.1.4
This is the transmit A bit state 0 - A bit clear = not active 1 - A bit set = active
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..1  

ascLmiRcvAbitState 1.3.6.1.4.1.351.110.3.4.3.1.1.5
This is the receive A bit state 0 - A bit clear = not active 1 - A bit set = active
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..1  

ascLineCnfSigLmiGrp 1.3.6.1.4.1.351.110.3.4.1
OBJECT IDENTIFIER    

ascCnfSigLmiGrpTable 1.3.6.1.4.1.351.110.3.4.1.1
The config table is for DS3 line interface
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    AscCnfSigLmiGrpEntry

ascCnfSigLmiGrpEntry 1.3.6.1.4.1.351.110.3.4.1.1.1
An entry for logical line
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  AscCnfSigLmiGrpEntry  

ascLmiCnfLineNum 1.3.6.1.4.1.351.110.3.4.1.1.1.1
Refers to the logical line index
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER lmiCnflineNum(1)  

ascLmiVpi 1.3.6.1.4.1.351.110.3.4.1.1.1.2
VPI used for ATM LMI signalling
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER lmiVpi(3)  

ascLmiVci 1.3.6.1.4.1.351.110.3.4.1.1.1.3
VCI used for ATM LMI signalling
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER lmiVci(31)  

ascLmiEnabled 1.3.6.1.4.1.351.110.3.4.1.1.1.4
This will enable ATM LMI signalling, or ATM LMI with the Node Status Extensions
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disable(1), atmLmiEnable(2), atmLmiwithExtEnable(3), atmLmiEnhManualRecovery(4), atmLmiEnhAutoRecovery(5)  

ascLmiPollingEnabled 1.3.6.1.4.1.351.110.3.4.1.1.1.5
This will enable ATM LMI polling
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disable(1), enable(2)  

ascLmiPollingInterval 1.3.6.1.4.1.351.110.3.4.1.1.1.6
Status Enq Polling Interval in seconds Default is 10 seconds
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 5..30  

ascLmiTimerT393 1.3.6.1.4.1.351.110.3.4.1.1.1.7
Status Enq timeout interval in seconds Default is 10 seconds
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 5..30  

ascLmiTimerT394 1.3.6.1.4.1.351.110.3.4.1.1.1.8
Update Status timeout interval in seconds Default is 10 seconds
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 5..30  

ascLmiMaxRetryN394 1.3.6.1.4.1.351.110.3.4.1.1.1.9
Status Enq maximum retry count Default is 3
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..10  

ascLmiMaxRetryN395 1.3.6.1.4.1.351.110.3.4.1.1.1.10
Update Status maximum retry count Default is 3
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..10  

ascLmiOperStatus 1.3.6.1.4.1.351.110.3.4.1.1.1.11
Operational status
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER atmLmiFailed(1), atmLmiActive(2)  

ascCntSigLmiGrp 1.3.6.1.4.1.351.110.3.4.2
OBJECT IDENTIFIER    

ascCntSigLmiGrpTable 1.3.6.1.4.1.351.110.3.4.2.1
The counter table is for DS3 line interface
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    AscCntSigLmiGrpEntry

ascCntSigLmiGrpEntry 1.3.6.1.4.1.351.110.3.4.2.1.1
An entry for logical line
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  AscCntSigLmiGrpEntry  

ascLmiCntLineNum 1.3.6.1.4.1.351.110.3.4.2.1.1.1
Refers to the logical line index
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER lmiCntLineNum(1)  

ascLmiStatusTx 1.3.6.1.4.1.351.110.3.4.2.1.1.2
The number of Status PDUs transmitted
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

ascLmiStatusEnqTx 1.3.6.1.4.1.351.110.3.4.2.1.1.3
The number of Status Enquiry PDUs transmitted
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

ascLmiStatusAckTx 1.3.6.1.4.1.351.110.3.4.2.1.1.4
The number of Status Ack PDUs transmitted
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

ascLmiUpdateStatusTx 1.3.6.1.4.1.351.110.3.4.2.1.1.5
The number of Update Status PDUs transmitted
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

ascLmiStatusRx 1.3.6.1.4.1.351.110.3.4.2.1.1.6
The number of Status PDUs received
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

ascLmiStatusEnqRx 1.3.6.1.4.1.351.110.3.4.2.1.1.7
The number of Status Enquiry PDUs received
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

ascLmiStatusAckRx 1.3.6.1.4.1.351.110.3.4.2.1.1.8
The number of Status Ack PDUs received
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

ascLmiUpdateStatusRx 1.3.6.1.4.1.351.110.3.4.2.1.1.9
The number of Update Status PDUs received
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

ascLmiInvalidPduRx 1.3.6.1.4.1.351.110.3.4.2.1.1.10
The number of Invalid PDUs received. These are PDUs with invalid SSCOP or Q.2931 header, or invalid Protocol Discriminator
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

ascLmiInvalidPduLenRx 1.3.6.1.4.1.351.110.3.4.2.1.1.11
The number of PDUs received with invalid length. ATM LMI PDU Length field plus Q.2931 Header length does not equal actual message length
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

ascLmiUnknownPduRx 1.3.6.1.4.1.351.110.3.4.2.1.1.12
The number of PDUs with unknown Message Type received
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

ascLmiInvalidIeRx 1.3.6.1.4.1.351.110.3.4.2.1.1.13
The number of PDUs received with invalid Information Elements. This includes IEs with invalid length and missing mandatory IEs
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

ascLmiInvalidTransaction 1.3.6.1.4.1.351.110.3.4.2.1.1.14
The number of invalid transactions. The transaction number of a transmitted Update Status PDU does not match the transaction number of the corresponding received Status Ack PDU, or, the transaction number of a transmitted Status Enq PDU does not match the transaction number of the corresponding received Status PDU.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

ascLmiTimeoutFailure 1.3.6.1.4.1.351.110.3.4.2.1.1.15
The number of timeout failures
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

ascLmiNodeStatusTx 1.3.6.1.4.1.351.110.3.4.2.1.1.16
The number of Node Status PDUs transmitted
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

ascLmiNodeStatusAckTx 1.3.6.1.4.1.351.110.3.4.2.1.1.17
The number of Node Status Ack PDUs transmitted
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

ascLmiNodeStatusRx 1.3.6.1.4.1.351.110.3.4.2.1.1.18
The number of Node Status PDUs received
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

ascLmiNodeStatusAckRx 1.3.6.1.4.1.351.110.3.4.2.1.1.19
The number of Node Status Ack PDUs received
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

pxmFeatures 1.3.6.1.4.1.351.110.3.15
OBJECT IDENTIFIER    

vsiControllersAllowed 1.3.6.1.4.1.351.110.3.15.1
This respesents bit map of the VSI Controllers supported. Currently, we have BIT 0 - PAR BIT 1 - PNNI BIT 2 - TAG (e.g. A value of 1 in BIT 0 indicates the presence of PAR ) Remaining bits are set to 0.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..ffffff  

apsCardAttributes 1.3.6.1.4.1.351.110.3.15.2
This respesents bit map of the APS card attributes supported. Currently, we have BIT 0, 1 - unused BIT 2 - APS standard protocol configured (1 = TRUE ; 0 = FALSE) BIT 3, 4 ,5 - unused BIT 6 - Card HW supports APS 1+1 on two cards (1 = TRUE ; 0 = FALSE) BIT 7 - Card FW supports APS (1 = TRUE ; 0 = FALSE) Remaining bits are set to 0.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..ff  

trkCACEnable 1.3.6.1.4.1.351.110.3.15.3
This MIB variable allows one to add a new connection on the feeder trunk even if it is over-subscribed.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disable(1), enable(2)  

pxmAtmMIBObjects 2.16
OBJECT IDENTIFIER    

pxmAtmVcCrossConnectIndexNext 2.16.10
This object contains an appropriate value to be used for pxmAtmVcCrossConnectIndex when creating entries in the pxmAtmVcCrossConnectTable. The value 0 indicates that no unassigned entries are available. To obtain the pxmAtmVpCrossConnectIndex value for a new entry, the manager issues a management protocol retrieval operation to obtain the current value of this object. After each retrieval, the agent should modify the value to the next unassigned index.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..2147483647  

pxmAtmVcCrossConnectTable 2.16.11
The ATM VC Cross Connect table. A bi- directional VC cross-connect which cross-connects two end points (i.e., VCLs) is modeled as one entry in this table.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    PxmAtmVcCrossConnectEntry

pxmAtmVcCrossConnectEntry 2.16.11.1
An entry in the ATM VC Cross Connect table. This entry is used to model a bi-directional ATM VC cross-connect cross-connecting two end points. Step-wise Procedures to set up a VC Cross-connect Once the entries in the pxmAtmVclTable are created, the following procedures are used to cross-connect the VCLs together to form a VCC segment. (1) The manager obtains a unique pxmAtmVcCrossConnectIndex by reading the pxmAtmVcCrossConnectIndexNext object. (2) Next, the manager creates a set of one or more rows in the ATM VC Cross Connect Table, one for each cross-connection between two VCLs. Each row is indexed by the ATM interface port numbers and VPI/VCI values of the two ends of that cross-connection. This set of rows specifies the topology of the VCC cross-connect and is identified by a single value of pxmAtmVcCrossConnectIndex. Negotiated VC Cross-Connect Establishment (2a) The manager creates a row in this table by setting pxmAtmVcCrossConnectRowStatus to createAndWait(5). The agent checks the requested topology and the mutual sanity of the ATM traffic parameters and QoS Classes, i.e., the row creation fails if: - the requested topology is not supported by the agent, - the traffic/QoS parameter values associated with the requested row are incompatible with those of already existing rows for this VC cross-connect. [For example, for setting up a point-to-point VC cross-connect, the ATM traffic parameters in the receive direction of a VCL at the low end of the cross-connect must equal to the traffic parameters in the transmit direction of the other VCL at the high end of the cross-connect, otherwise, the row creation fails.] The agent also checks for internal errors in building the cross-connect. The pxmAtmVcCrossConnectIndex values in the corresponding pxmAtmVclTable rows are filled in by the agent at this point. (2b) The manager promotes the row in the pxmAtmVcCrossConnectTable by setting pxmAtmVcCrossConnectRowStatus to active(1). If this set is successful, the agent has reserved the resources specified by the ATM traffic parameter and QoS Class values for each direction of the VC cross-connect in an ATM switch or network. (3) The manager sets the pxmAtmVcCrossConnectAdminStatus to up(1) in all rows of this VC cross-connect to turn the traffic flow on. One-Shot VC Cross-Connect Establishment A VC cross-connect may also be established in one step by a set-request with all necessary parameter values and pxmAtmVcCrossConnectRowStatus set to createAndGo(4). In contrast to the negotiated VC cross-connect establishment which allows for detailed error checking i.e., set errors are explicitly linked to particular resource acquisition failures), the one-shot VC cross-connect establishment performs the setup on one operation but does not have the advantage of step-wise error checking. VC Cross-Connect Retirement A VC cross-connect identified by a particular value of pxmAtmVcCrossConnectIndex is released by: (1) Setting pxmAtmVcCrossConnectRowStatus of all rows identified by this value of pxmAtmVcCrossConnectIndex to destroy(6). The agent may release all associated resources, and the pxmAtmVcCrossConnectIndex values in the corresponding pxmAtmVclTable row are removed. Note that a situation when only a subset of the associated rows are deleted corresponds to a VC topology change. (2) After deletion of the appropriate pxmAtmVcCrossConnectEntries, the manager may set pxmAtmVclRowStatus to destroy(6) the associated VCLs. The agent releases the resources and removes the associated rows in the pxmAtmVclTable. VC Cross-Connect Reconfiguration At the discretion of the agent, a VC cross-connect may be reconfigured by adding and/or deleting leafs to/from the VC topology as per the VC cross-connect establishment/retirement procedures. Reconfiguration of traffic/QoS parameter values requires release of the VC cross-connect before those parameter values may by changed for individual VCLs.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  PxmAtmVcCrossConnectEntry  

pxmAtmVcCrossConnectIndex 2.16.11.1.1
A unique value to identify this VC cross-connect.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..2147483647  

pxmAtmVcCrossConnectLowIfIndex 2.16.11.1.2
The value of this object is equal to MIB II's ifIndex value of the ATM interface port for this VC cross-connect. The term low implies that this ATM interface has the numerically lower ifIndex value than the other ATM interface identified in the same pxmAtmVcCrossConnectEntry.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..2147483647  

pxmAtmVcCrossConnectLowVpi 2.16.11.1.3
The value of this object is equal to the VPI value at the ATM interface associated with the VC cross-connect that is identified by pxmAtmVcCrossConnectLowIfIndex. The VPI value cannot exceed the number supported by the pxmAtmInterfaceMaxVpiBits at the low ATM interface port.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..4095  

pxmAtmVcCrossConnectLowVci 2.16.11.1.4
The value of this object is equal to the VCI value at the ATM interface associated with this VC cross-connect that is identified by pxmAtmVcCrossConnectLowIfIndex. The VCI value cannot exceed the number supported by the pxmAtmInterfaceMaxVciBits at the low ATM interface port.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..65535  

pxmAtmVcCrossConnectHighIfIndex 2.16.11.1.5
The value of this object is equal to MIB II's ifIndex value for the ATM interface port for this VC cross-connect. The term high implies that this VC cross-connect that this ATM interface has the numerically higher ifIndex value than the other ATM interface identified in the same pxmAtmVcCrossConnectEntry.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..2147483647  

pxmAtmVcCrossConnectHighVpi 2.16.11.1.6
The value of this object is equal to the VPI value at the ATM interface associated with the VC cross-connect that is identified by pxmAtmVcCrossConnectHighIfIndex. The VPI value cannot exceed the number supported by the pxmAtmInterfaceMaxVpiBits at the high ATM interface port.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..4095  

pxmAtmVcCrossConnectHighVci 2.16.11.1.7
The value of this object is equal to the VCI value at the ATM interface associated with the VC cross-connect that is identified by pxmAtmVcCrossConnectHighIfIndex. The VCI value cannot exceed the number supported by the pxmAtmInterfaceMaxVciBits at the high ATM interface port.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..65535  

pxmAtmVcCrossConnectAdminStatus 2.16.11.1.8
The value of this object identifies the desired administrative status of this bi-directional VC cross-connect. The up and down states indicate that the traffic flow is enabled or disabled respectively on this VC cross-connect.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER up(1), down(2)  

pxmAtmVcCrossConnectL2HOperStatus 2.16.11.1.9
The value of this object identifies the current operational status of the VC cross-connect in one direction; (i.e., from the low to high direction). The up and down states indicate that this ATM VC cross-connect from low to high direction is operational or not operational respectively. The unknown state indicates that the state of it cannot be determined.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER up(1), down(2), unknown(3)  

pxmAtmVcCrossConnectH2LOperStatus 2.16.11.1.10
The value of this object identifies the current operational status of the VC cross-connect in one direction; (i.e., from the high to low direction). The up and down states indicate that this ATM VC cross-connect from high to low direction is operational or not operational respectively. The unknown state indicates that the state of it cannot be determined.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER up(1), down(2), unknown(3)  

pxmAtmVcCrossConnectL2HLastChange 2.16.11.1.11
The value of MIB II's sysUpTime object at the time this VC cross-connect entered its current operational state in low to high direction. If the current state was entered prior to the last re-initialization of the agent, then this object contains a zero value.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

pxmAtmVcCrossConnectH2LLastChange 2.16.11.1.12
The value of MIB II's sysUpTime object at the time this VC cross-connect entered its current operational state in high to low direction. If the current state was entered prior to the last re-initialization of the agent, then this object contains a zero value.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

pxmAtmVcCrossConnectRowStatus 2.16.11.1.13
The status of this entry in the pxmAtmVcCrossConnectTable. This object is used to create a new cross-connect for cross-connecting VCLs which are created using the pxmAtmVclTable or to change or delete existing cross-connect. This object must be initially set to `createAndWait' or `createAndGo'. This object cannot be set to `active' unless the following columnar object exists in this row: pxmAtmVcCrossConnectAdminStatus. To turn on a VC cross-connect, the pxmAtmVcCrossConnectAdminStatus is set to `up'.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

pxmAtmVcCrossConnectHighAddressType 2.16.11.1.14
The value of this object identifies the address type of the interface associated with the VC cross-connect that is identified by pxmAtmVcCrossConnectHighIfIndex. If the address type is pxmAtmUni, the first 4 bits of the VPI field is the GFCI and the remaing 12 bits of the VPI field is the VPI. If the address type is pxmAtmNni, the whole 16 bits of the VPI is the VPI. If the address type is the frameRelay, the combination of the VPI field and the VCI field are the DLCI.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER atmUni(1), atmNni(2), frameRelay(3)  

pxmAtmVcCrossConnectLowAddressType 2.16.11.1.15
The value of this object identifies the address type of the interface associated with the VC cross-connect that is identified by pxmAtmVcCrossConnectLowIfIndex. If the address type is pxmAtmUni, the first 4 bits of the VPI field is the GFCI and the remaing 12 bits of the VPI field is the VPI. If the address type is pxmAtmNni, the whole 16 bits of the VPI is the VPI. If the address type is the frameRelay, the combination of the VPI field and the VCI field are the DLCI.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER atmUni(1), atmNni(2), frameRelay(3)  

atmLineCnfTable 2.5.1.1
The ATM Line config table is for the physical interface. There will an entry for each of the physical line.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    AtmLineCnfEntry

atmLineCnfEntry 2.5.1.1.1
An entry for the physical interface.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  AtmLineCnfEntry  

atmLineCnfNum 2.5.1.1.1.1
Refers to the phsical line number, PXM port will have a maximum of 4 lines.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..4  

atmLineInterfaceFormat 2.5.1.1.1.2
This indicates the format of the cells going out on the physical interface
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER other(1), atmUni(2), atmNni(3)  

atmLineCntTable 2.5.2.1
The ATM Line count table is for the physical interface. There will an entry for each of the physical line.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    AtmLineCntEntry

atmLineCntEntry 2.5.2.1.1
An entry for the physical interface. These are counts which are collected on a physical line basis.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  AtmLineCntEntry  

atmLineNum 2.5.2.1.1.1
Refers to the phsical line number, PXM port will have a maximum of 4 lines.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..4  

atmLineTotalRcvCells 2.5.2.1.1.2
The number of cells received in Ingress direction.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

atmLineTotalXmtCells 2.5.2.1.1.3
The number of cells transmitted in the egress direction
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

atmLineRcvHecErrorCells 2.5.2.1.1.4
Number of cells with HEC error
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

atmLineCntClrButton 2.5.2.1.1.5
writing a value of 2 resets all the counters
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER noAction(1), resetCounters(2)  

bbIfCnfPortGrp 2.6.1.1
OBJECT IDENTIFIER    

bbIfCnfPortGrpTable 2.6.1.1.1
The Broadband Interface config table is for logical interface. There will an entry for each of the logical partition of the physical line.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    BbIfCnfPortGrpEntry

bbIfCnfPortGrpEntry 2.6.1.1.1.1
An entry for the logical interface. The interface may be further be configured to be used as a virtual trunk OR as a UNI Port.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  BbIfCnfPortGrpEntry  

bbIfNum 2.6.1.1.1.1.1
This is logical interface number within a physical line num. In MGX PXM card, a physical port can have a maximum of 32 logical interfaces.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..32  

bbIfRowStatus 2.6.1.1.1.1.2
This variable enables or disables the logical interface. 1 - enable 2 - disable 3 - modify
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER add(1), del(2), mod(3)  

bbIfAdmin 2.6.1.1.1.1.3
This variable enables or disables the logical interface. 1 - up 2 - down 3 - writeOnly
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER up(1), down(2), writeOnly(3)  

bbIfLineNum 2.6.1.1.1.1.4
The line number associated with the logical interface. For PXM, there is currently 4 physical lines.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..4  

bbIfIngrPctBandwidth 2.6.1.1.1.1.5
The percentage of aggregate physical line bandwidth, available for this broadband interface - Ingress. Default is 0 %
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..100  

bbIfEgrPctBandwidth 2.6.1.1.1.1.6
The percentage of aggregate physical line bandwidth, available for this broadband interface - Egress . Default is 0 %
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..100  

bbIfMinVpi 2.6.1.1.1.1.7
The lower limit of VPI range to be reserved for this logical interface.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..4095  

bbIfMaxVpi 2.6.1.1.1.1.8
The upper limit of VPI range to be reserved for this logical interface. For virtual trunks, bbIfMinVpi and bbIfMaxVpi should be the same.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..4095  

bbIfSpeed 2.6.1.1.1.1.9
The speed of the port in cells per second
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

bbIfMaxCellRatePct 2.6.1.1.1.1.10
The maximum cell rate allowed for the port in terms of percentage. Must be greater than or equal to bbIfIngrPctBandwidth. The default is 100 percent.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..100  

nextBbIfNumAvailable 2.6.1.1.2
Indicates the next logical broadband interface number that is available
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..32  

bbIfCnfRscPartGrpTable 2.6.2.1
The config table is for logical port interface There can be 32 entries for PXM card in MGX.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    BbIfCnfRscPartGrpEntry

bbIfCnfRscPartGrpEntry 2.6.2.1.1
An entry for a logical interface
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  BbIfCnfRscPartGrpEntry  

bbRscPartIfNum 2.6.2.1.1.1
This is logical interface number.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..32  

bbRscPartCtrlrNum 2.6.2.1.1.2
This is index for controller using the interface . 1 - PAR 2 - PNNI 3 - TAG
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER par(1), pnni(2), tag(3)  

bbIfRscPrtRowStatus 2.6.2.1.1.3
This will add, delete or modify the partition. 1 ==> ADD 2 ==> DELETE 3 ==> MODIFY
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER add(1), del(2), mod(3)  

bbIfRscPrtInUse 2.6.2.1.1.4
Setting this object to 1 indicates that the resources (LCN/Local VPID/VCI/VPI) have been partitioned and INS, network ctrlrs.,SV+ are currently using this information. The resource partition information can be changed after setting this variable to 2. The default value is 2 (NotInUse).
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER inUse(1), notInUse(2)  

bbIfRscPrtIngrPctBandwidth 2.6.2.1.1.5
The percentage of logical interface bandwidth ( bbIfIngrPctBandwidth ), available for UNI channels.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..100  

bbIfRscPrtEgrPctBandwidth 2.6.2.1.1.6
The percentage of logical interface bandwidth ( bbIfIngrPctBandwidth ), available for UNI channels.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..100  

bbIfRscPrtVpiLow 2.6.2.1.1.7
The beginning of the VPI range reserved for this partition.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..4095  

bbIfRscPrtVpiHigh 2.6.2.1.1.8
The end of the VPI range reserved for this partition.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..4095  

bbIfRscPrtVciLow 2.6.2.1.1.9
The beginning of the VCI range reserved for this partition. This field is only valid for logical interfaces configured with a single VPI.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..ffff  

bbIfRscPrtVciHigh 2.6.2.1.1.10
The end of the VCI range reserved for this partition. This field is only valid for logical interfaces configured with a single VPI.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..ffff  

bbIfRscPrtVpidLow 2.6.2.1.1.11
The beginning of the VPID range reserved for partition. Used for VP conn.s
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..100  

bbIfRscPrtVpidHigh 2.6.2.1.1.12
The end of the VPID range reserved for partition. Used for VP conn.s
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..100  

bbIfRscPrtMaxChans 2.6.2.1.1.13
This represents no. of channels that are available to the controller.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..32767  

bbIfRscPartCtrlrID 2.6.2.1.1.14
This is the controller identifier for resource patition. The default value is set for PNNI controller.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..255  

bbIfCnfSigILMIGrp 2.6.1.2
OBJECT IDENTIFIER    

bbIfCnfSigILMIGrpTable 2.6.1.2.1
The config table is for upto 32 logical port interfaces.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    BbIfCnfSigILMIGrpEntry

bbIfCnfSigILMIGrpEntry 2.6.1.2.1.1
An entry for a boradband interface used as a UNI port. In MGX PXM card, a physical port can have a maximum of 32 logical interfaces.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  BbIfCnfSigILMIGrpEntry  

bbIfSigPortNum 2.6.1.2.1.1.1
Refers to the logical interface index on the PXM card in MGX node.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..32  

bbIfIlmiEnable 2.6.1.2.1.1.2
The logical interface is a generic entity, it can be used as either a virtual trunk, or user port with UNI support. This variable is provided to enable/disable ILMI. ILMI should only be enabled on 'user ports' and not on 'virtual trunks' 1 - disable 2 - enable
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disable(1), enable(2)  

bbIfSignallingProtocolType 2.6.1.2.1.1.3
This will set the signalling protocol 1 - other 2 - noSignalling 3 - ILMI
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER other(1), noSignalling(2), iLMI(3)  

bbIfSignallingVpi 2.6.1.2.1.1.4
Indicates the VPI on which signalling cells arrive.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..4095  

bbIfSignallingVci 2.6.1.2.1.1.5
Indicates the VCI on which signalling cells arrive.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..ffff  

bbIfAddrPrefix 2.6.1.2.1.1.6
Network Prefix for the ATM address
Status: mandatory Access: read-write
OBJECT-TYPE    
  NetPrefix  

bbIfCustomerId 2.6.1.2.1.1.7
For the INS as a read/write variable
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

bbIfProtocolRevNo 2.6.1.2.1.1.8
For the INS as a read/write variable.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

bbIfIlmiTrapEnable 2.6.1.2.1.1.9
Enable/disable ILMI Trap sending
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disable(1), enable(2)  

bbIfMinTrapInterval 2.6.1.2.1.1.10
Number of seconds between traps.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..10  

bbIfKeepAlivePollingEnable 2.6.1.2.1.1.11
Enable/disable Keep Alive Polling
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disable(1), enable(2)  

bbIfErrorThresholdN491 2.6.1.2.1.1.12
Error Threshold (N491) value
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..10  

bbIfEventThresholdN492 2.6.1.2.1.1.13
Event Threshold (N492) value
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..10  

bbIfPollingIntervalT491 2.6.1.2.1.1.14
Polling Interval (T491) value
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER v1(5), v2(10), v3(15), v4(20), v5(25), v6(30), v7(35), v8(40), v9(45), v10(50), v11(55), v12(60)  

bbIfMinEnquiryIntervalT493 2.6.1.2.1.1.15
Minimum Enquiry Interval (T493)
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..20  

bbIfAddrRegEnable 2.6.1.2.1.1.16
Enable/disable ILMI Address Registration
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disable(1), enable(2)  

bbIfCntGrp 2.6.4.1
OBJECT IDENTIFIER    

bbIfCntGrpTable 2.6.4.1.1
The Broadband Interface Count table is for logical interface. There will an entry for each of the logical partition of the physical line.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    BbIfCntGrpEntry

bbIfCntGrpEntry 2.6.4.1.1.1
An entry for logical interface.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  BbIfCntGrpEntry  

bbCntIfNum 2.6.4.1.1.1.1
Refers to the logical interface index on the PXM card in MGX node.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..32  

bbIfTotalCells 2.6.4.1.1.1.2
Total number of cells (VC plus Qbin) that belong to this Interface. This maps on to the virtual interface of QE.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bbIfRcvValidOAMCells 2.6.4.1.1.1.3
Total number of OAM cell received.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bbIfRcvRmCells 2.6.4.1.1.1.4
Total number of RM cells Received.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bbIfRcvClp0Cells 2.6.4.1.1.1.5
Total number of CLP-0 cells Received.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bbIfRcvClp1Cells 2.6.4.1.1.1.6
Total number of CLP-1 cells Received.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bbIfRcvClp0DiscCells 2.6.4.1.1.1.7
Total number of CLP-0 cells discarded at Ingress.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bbIfRcvClp1DiscCells 2.6.4.1.1.1.8
Total number of CLP-1 cells discarded at Ingress.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bbIfXmtOAMCells 2.6.4.1.1.1.9
Total number of OAM cells transmitted.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bbIfXmtRmCells 2.6.4.1.1.1.10
Total number of RM cells transmitted.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bbIfXmtClp0Cells 2.6.4.1.1.1.11
Total number of CLP-0 cells transmitted.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bbIfXmtClp1Cells 2.6.4.1.1.1.12
Total number of CLP-1 cells transmitted.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bbIfCntClrButton 2.6.4.1.1.1.13
Writing a value of 2 resets all the counters
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER noAction(1), resetCounters(2)  

bbIfCntSigILMIGrp 2.6.4.2
OBJECT IDENTIFIER    

bbIfCntSigILMIGrpTable 2.6.4.2.1
The counter table is for upto 32 logical port interfaces.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    BbIfCntSigILMIGrpEntry

bbIfCntSigILMIGrpEntry 2.6.4.2.1.1
An entry for a boradband interface used as a UNI port. In MGX PXM card, a physical port can have a maximum of 32 logical interfaces.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  BbIfCntSigILMIGrpEntry  

sigCntBbIfNum 2.6.4.2.1.1.1
Refers to the logical interface index on the PXM card in MGX node.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..32  

bbIfSnmpPduReceived 2.6.4.2.1.1.2
The number of snmp packets received on this logical interface.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bbIfGetRequestReceived 2.6.4.2.1.1.3
The number of get request messages received
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bbIfGetNextRequestReceived 2.6.4.2.1.1.4
The number of get-next messages received
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bbIfSetRequestReceived 2.6.4.2.1.1.5
The number of set messages received
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bbIfTrapReceived 2.6.4.2.1.1.6
The number of traps received
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bbIfGetResponseReceived 2.6.4.2.1.1.7
The number of Keep Alive response messages received
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bbIfGetResponseTransmitted 2.6.4.2.1.1.8
The number of response messages transmitted
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bbIfGetRequestTransmitted 2.6.4.2.1.1.9
The number of Keep Alive get request messages transmitted
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bbIfTrapTransmitted 2.6.4.2.1.1.10
The number of trap messages transmitted
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bbIfInvalidPDUReceived 2.6.4.2.1.1.11
The number of invalid PDUs received
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bbIfAsn1ParseError 2.6.4.2.1.1.12
The number of parse errors on ASN.1
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bbIfNoSuchNameError 2.6.4.2.1.1.13
The number of errors for name not present
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bbIfTooBigError 2.6.4.2.1.1.14
The number of messages received with len > 484
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bbIfSigCntClrButton 2.6.4.2.1.1.15
Writing a value of 2 resets all the counters
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER noAction(1), resetCounters(2)  

bbIfStateGrpTable 2.6.3.1
The state table for the logical interface there can be 32 entries for the PXM card in MGX.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    BbIfStateGrpEntry

bbIfStateGrpEntry 2.6.3.1.1
An entry for logical interface. In MGX PXM card, a physical port can have a maximum of 32 logical interfaces.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  BbIfStateGrpEntry  

bbStateIfNum 2.6.3.1.1.1
This is logical interface number within a physical line num. In MGX PXM card, a physical port can have a maximum of 32 logical interfaces.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..32  

bbIfState 2.6.3.1.1.2
This variable indicates the status of the logical interface. The following are not supported for the logical interface. -- remoteloopback (3), -- outofcelldelineation (6), -- localloopback (7)
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER notConfigured(1), active(2), linefailure(4), signallingfailure(5), inactive(6), lineinloopback(7)  

bbIfOversubscribed 2.6.3.1.1.3
This variable indicates the whether the logical interface is over subscribed or not.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER false(1), true(2)  

bbIfIngrPercentUtil 2.6.3.1.1.4
Percentage Utilization of the interface in the Ingress direction.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..1000  

bbIfEgrPercentUtil 2.6.3.1.1.5
Percentage Utilization of the interface in the Egress direction.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..1000  

bbChanCnfGrpTable 2.7.1.1
The Broadband Channel config table is for a channel on logical interface. There will an entry for each of the channel added on the logical partition of the physical line.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    BbChanCnfGrpEntry

bbChanCnfGrpEntry 2.7.1.1.1
The config table is for logical channel.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  BbChanCnfGrpEntry  

bbChanCnfNum 2.7.1.1.1.1
This identifies a channel on the PXM logical interface, used as PXM port.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 16..4111  

bbChanRowStatus 2.7.1.1.1.2
This will add, delete or modify the channel 1 ==> ADD 2 ==> DELETE 3 ==> MODIFY
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER add(1), delete(2), modify(3)  

bbChanConnType 2.7.1.1.1.3
This specifies the connection type 1 ==> Virtual Path Connection 2 ==> Virtual Channel Connection
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER vpc(1), vcc(2)  

bbChanServiceType 2.7.1.1.1.4
This specifies the service type 1 ==> Constant Bit Rate 2 ==> Variable Bit Rate 3 ==> Available Bit Rate 4 ==> Unspecified Bit Rate 5 ==> Variable Bit Rate - Real Time
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER cbr(1), vbr(2), abr(3), ubr(4), vbr-rt(5)  

bbChanConnDesc 2.7.1.1.1.5
A string that has been defined to give a descriptive name to the connection
Status: mandatory Access: read-write
OBJECT-TYPE    
  DisplayString Size(0..20)  

bbChanSvcFlag 2.7.1.1.1.6
This specifies the connection type 1 ==> SVC connection 2 ==> PVC connection, used by PAR 3 ==> Soft PVC connection, used by PNNI
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER svc(1), pvc(2), spvc(3)  

bbChanSvcConnId 2.7.1.1.1.7
This connection ID is for future use Currently not supported.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

bbChanIfNum 2.7.1.1.1.8
Channel's logical Interface from which traffic of the connection will be received.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..32  

bbChanVpi 2.7.1.1.1.9
VPI for the connection.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..4095  

bbChanVci 2.7.1.1.1.10
VCI for the connection.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..ffff  

bbChanUpcEnable 2.7.1.1.1.11
enables/disables UPC for Ingress cells
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disable(1), enable(2)  

bbChanUpcPCR 2.7.1.1.1.12
PCR(0+1), Peak Cell Rate, specifies an upper bound on rate at which traffic can be submitted on an ATM connection. This object applies to the First Leaky Bucket for leaving cells with Cell Loss Priority of 0 or 1. . Units: cells per second. . Applicable connection types: UBR, CBR, VBR, ABR . Default: 50 . Ranges: T3 : 50-96000 E3 : 50-80000 OC3 : 50-353208 OC12: 50-1412832
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 50..1412832  

bbChanUpcCDVT 2.7.1.1.1.13
Compliant Cell Delay Variation. Also known as CDVT(0+1), Cell Delay Variation Tolerance, which specifies the maximum time period for accumulated violations of cell-arrival time parameters. This object applies to the First Leaky bucket for cells with Cell Loss Priority of 0 or 1. . Units: microseconds. . Applicable connection types: UBR, CBR, VBR, ABR . Default: CBR: 10000 Others: 250000
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..5000000  

bbChanUpcSCR 2.7.1.1.1.14
SCR, Sustainable Cell Rate, is an upper bound on the conforming average rate of an ATM connection, over time scales which are long relative to those for which the PCR is defined. Enforcement of this bound by the UPC could allow the network to allocate sufficient resources, but less than thos based on the PCR, and still ensure that the performance objectives (e.g., Cell Loss Ratio) can be achieved. . Units: cell per second. . Applicable connection types: . VBR, ABR . Ranges: T3 : 50-96000 E3 : 50-80000 OC3 : 50-353208 OC12: 50-1412832 . Default: 50
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..1412832  

bbChanUpcMBS 2.7.1.1.1.15
Maximum Burst Size (MBS). Also known as Compliant Burst Size (CBS). . Units: cells . Applicable connection types: . VBR, ABR . Default: 1000 . Range : 1-5000000
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..5000000  

bbChanGcra1Action 2.7.1.1.1.16
GCRA1 Action. 1 = No Action 2 = Tag Untagged cells 3 = Tag untagged cells and discard tagged cells 4 = Discard all (0+1) non-comforming cells
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER noAction(1), tagCells(2), tagAndDiscard(3), discardAllNonComformCells(4)  

bbChanGcra2Action 2.7.1.1.1.17
GCRA2 Action. 1 = No Action 2 = Tag Untagged cells 3 = Tag untagged cells and discard tagged cells 4 = Discard all (0+1) non-comforming cells
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER noAction(1), tagCells(2), tagAndDiscard(3), discardAllNonComformCells(4)  

bbChanUpcSCRPolicing 2.7.1.1.1.18
Selects SCR policing for CLP = 0 or all cells
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER clp0(1), clp0and1(2), off(3)  

bbChanEfciThreshold 2.7.1.1.1.19
Threshold above which EFCI bit is to be set. Default Value is 3/4 of max cell count.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..491520  

bbChanDiscardOption 2.7.1.1.1.20
Enable Frame Discard or CLP Hysteresis.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER clpHysteresis(1), frameDiscard(2)  

bbChanFrmDiscardThreshold 2.7.1.1.1.21
Ingress Frame Discard Threshold. Valid only when Ingress Frame Discard option is selected. Default Value : TBD
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..491520  

bbChanClpHiThreshold 2.7.1.1.1.22
Ingress CLP High Threshold. Default is 3/4 of max cell count.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..491520  

bbChanClpLoThreshold 2.7.1.1.1.23
Ingress CLP Low Threshold. Valid only when Ingress CLP Hysteresis option is selected. Default Value is 1/2 of max cell count.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..491520  

bbChanCongstUpdateCode 2.7.1.1.1.24
Ingress Channel Congestion Update Code. Default Value : TBD
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER dontUpdate(1), setCiBit(2), setEfciBit(3), clearEfciBit(4)  

bbChanMaxCellMemThreshold 2.7.1.1.1.25
Maximum number of cells of that connection in the memory. Assuming Total Cell Memory is 512K cells, this is defaulted to half of total size.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..512000  

bbChanIngrPercentUtil 2.7.1.1.1.26
Percentage Utilization of the IngrService Rate. This is used for connection admission control. Default Value : TBD
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..100  

bbChanEgrPercentUtil 2.7.1.1.1.27
Percentage Utilization of the EgrService Rate. This is used for egress bandwidth calculation and connection admission control. Default Value : TBD
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..100  

bbChanEgrSrvRate 2.7.1.1.1.28
Egress service rate - This is used for egress bandwidth calculation and for connection admission control. The actual value depends on the speed of the logical interface
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..1412832  

bbChanOvrSubOvrRide 2.7.1.1.1.29
Channel Over Subscrive Override This MIB variable allows one to add a new connection on a port even if it is over subscribed.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disable(1), enable(2)  

bbChanLocalVpi 2.7.1.1.1.30
The VPI value for this channel
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..4095  

bbChanLocalVci 2.7.1.1.1.31
The VCI value for this channel
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..ffff  

bbChanLocalNsapAddr 2.7.1.1.1.32
The Near End NSAP Address value for this channel.
Status: mandatory Access: read-write
OBJECT-TYPE    
  IfNsapAddress  

bbChanRemoteVpi 2.7.1.1.1.33
The VPI value for this channel
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..4095  

bbChanRemoteVci 2.7.1.1.1.34
The VCI value for this channel
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..ffff  

bbChanRemoteNsapAddr 2.7.1.1.1.35
The Far End NSAP Address value for this channel.
Status: mandatory Access: read-write
OBJECT-TYPE    
  IfNsapAddress  

bbChanMaster 2.7.1.1.1.36
This is used by the PXM switch platform module, to determine if this endpoint ia master or slave.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER master(1), slave(2), unknown(3)  

bbChanRtePriority 2.7.1.1.1.37
This is also known as class of service, it is used by PXM to determine how important this connection is when selecting connections to route.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..15  

bbChanMaxCost 2.7.1.1.1.38
Maximum allowed cost. It is related to Cost Based Routing. This is used by PXM so that it won't choose a path with a cost greater than this configured level.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..65535  

bbChanRestrictTrkType 2.7.1.1.1.39
Restricted trunk type for routind, used by PXM. It specifies that the connection either cannot be routed over satellite trunks or terrestrial trunks, or it can be on any type of trunk.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER noRestriction(1), terrestrialTrunk(2), satelliteTrunk(3)  

bbChanTestType 2.7.1.1.1.40
The chanTestType starts testing the continuity or delay of a connection. It sends specific cell patterns toward the network and the terminating end of this connection has to be an AXIS or ASI of a BPX in order for this test to be working. The receiving node would loop back when it receives these cells. The test should be done in about couple of seconds. The testcon tests the continuity of the connection and testdelay uses the same test except that it measures for delay through the network. To test the delay follow this procedure: a- set chanTestType to testdelay b- read chanTestState till it is Pass or Fail c- Read chanTestResult for the delay if it is Pass *Note that the chanTestType would go back to notest when the test is completed To test the continuity follow this procedure: a- set chanTestType to testcon b- read chanTestState till it is Pass or Fail *Note that the chanTestType would go back to notest when the test is completed You CAN NOT select 2 tests back to back, you have selcelt one and wait the result and then start the other one. SYNTAX When you select testdelay This is the type of the test 1 = Test Continuity 2 = Test Delay 3 = No Test tstconseg is performed on the port side, i.e, towards the CPE
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER testcon(1), testdelay(2), notest(3)  

bbChanTestState 2.7.1.1.1.41
This shows the state of the test When you add a connection then the chanTestState becomes notinprogress and when you select any test, it would go to inprogress state and after it completes the test, it will go to failed or passed state. 1 = Passed 2 = Failed 3 = In Progress 4 = Not In Progress
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER passed(1), failed(2), inprogress(3), notinprogress(4)  

bbChanTestResult 2.7.1.1.1.42
This is round trip delay in milliseconds. When you select testdelay option for the chanTestType, the result of the test that is measured in milliseconds can be read in chanTestResult.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..65535  

bbChanTestTypeCPESide 2.7.1.1.1.43
The default is notest. The chanTestType starts testing the segment continuity of a connection. It sends OAM Segment loopback cell towards port side (CPE) The CPE would loop back the cell To test the continuity follow this procedure: a- set chanTestTypeCPEside to testconseg b- read chanTestState till it is Pass or Fail *Note that the chanTestType would go back to notest when the test is completed SYNTAX When you select testdelay This is the type of the test 1 = Test Continuity 2 = No Test
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER testconseg(1), notest(2)  

bbChanTestStateCPESide 2.7.1.1.1.44
This shows the state of the test When you add a connection then the chanTestState becomes notinprogress and when you select any test, it would go to inprogress state and after it completes the test, it will go to failed or passed state. 1 = Passed 2 = Failed 3 = In Progress 4 = Not In Progress
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER passed(1), failed(2), inprogress(3), notinprogress(4)  

bbConnVpcFlag 2.7.1.1.1.45
This represents the connection type, used for PXM to identify VPC/VCC
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER vpc(1), vcc(2)  

bbConnServiceType 2.7.1.1.1.46
This specifies the service type 1 ==> Constant Bit Rate 2 ==> Variable Bit Rate 4 ==> Unspecified Bit Rate 6 ==> Available Bit Rate ( standard ) 8 ==> Variable Bit Rate - Real-Time Note that this is used by PXM card, Also to make it compatible with existing AUSM MIB definition, value 3 is not used. foresight ABR is not supported in PXM , i.e Virtual Service Module
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER cbr(1), vbr(2), ubr(4), abrstd(6), vbrrt(8)  

bbConnPCR 2.7.1.1.1.47
Peak cell rate, could be derived from the end point parameter
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

bbConnSCR 2.7.1.1.1.48
Sustained cell rate, could be derived from the end point parameter
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

bbConnPercentUtil 2.7.1.1.1.49
This is the expected long-term utilization of the channel by this end-point.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..100  

bbRemoteConnPCR 2.7.1.1.1.50
Peak cell rate of the other end, if not set, will be set to the same as local end PCR (bbChanUpcPCR). However, note that if the PCRs for both local and remote end are set to the different value (i.e., asymmetric conn), then this should be set differently from local end PCR.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

bbRemoteConnSCR 2.7.1.1.1.51
Sustained cell rate of the other end, if not set, will be set to the same as local end SCR (bbChanUpcSCR). However, note that if the PCRs for both local and remote end are set to the different value (i.e., asymmetric conn), then this should be set differently from local end SCR.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

bbRemoteConnPercentUtil 2.7.1.1.1.52
This is the expected long-term utilization of the channel by this end-point. If this is not specified in the connection setup request, it'll be defaulted to 100 percent
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..100  

bbChanUpcMCR 2.7.1.1.1.53
SCR, Sustainable Cell Rate, is an upper bound on the conforming average rate of an ATM connection, over time scales which are long relative to those for which the PCR is defined. Enforcement of this bound by the UPC could allow the network to allocate sufficient resources, but less than thos based on the PCR, and still ensure that the performance objectives (e.g., Cell Loss Ratio) can be achieved. . Units: cell per second. . Applicable connection types: . ABR . Ranges: T3 : 50-96000 E3 : 50-80000 OC3 : 50-353208 OC12: 50-1412832 . Default: 50
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..1412832  

bbChanNumNextAvailable 2.7.1.2
This variable contains the next unused channel number of the possible 4096 . This number can be used in channel config table. ChanNumNextAvailable gets updated whenever this number is used to create a new logical channel. Value 0 for this variable indicates that no more channels are available.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 16..4111  

bbChanVpIdNextAvailable 2.7.1.3
This in only valid for a Service Module, will NOT be used in PXM. This variable contains the next unused local VPId of the possible 1 to 4095. This number can be used in channel config table. It gets updated if the number is used to create a new vp connection. The max. no. of VP conn.s is limited to the VPI range configured for this logical interface. Value of 0 for this variable indicates that no more vp connections are available
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..4095  

bbChanCntGrpTable 2.7.3.1
The Broadband Channel count table is for a channel on virtual interface or a physical line. There will an entry for each of the channel added on the logical partition of the physical line.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    BbChanCntGrpEntry

bbChanCntGrpEntry 2.7.3.1.1
The count table is for logical channel. The available number of channels on the broadband interface on the PXM card is restricted to 4K. The PXM card has 2 Queue Engines ( QE0 and QE1).
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  BbChanCntGrpEntry  

bbChanCntNum 2.7.3.1.1.1
Channel number.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 16..4111  

bbChanRcvClp0Cells 2.7.3.1.1.2
CLP_0 Cells Received From Port Count.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bbChanRcvClp1Cells 2.7.3.1.1.3
CLP_1 Cells Received From Port Count.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bbChanNonConformCellsAtGcra1Policer 2.7.3.1.1.4
Non-Conforming Cells Received at Ingress GCRA1 Policer Count.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bbChanNonConformCellsAtGcra2Policer 2.7.3.1.1.5
Non-Conforming Cells Received at Ingress GCRA2 Policer Count.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bbChanRcvEOFCells 2.7.3.1.1.6
Number of cells received from PXM port with EOF set.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bbChanDscdClp0Cells 2.7.3.1.1.7
Number of discarded clp = 0 cells received from PXM port.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bbChanDscdClp1Cells 2.7.3.1.1.8
Number of discarded clp = 1 cells received from PXM port.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bbChanRcvCellsSent 2.7.3.1.1.9
Number of cells received from port and sent out of the Queue Engine.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bbChanXmtClp0Cells 2.7.3.1.1.10
Number of cells with EFCI clear transmitted to PXM port.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bbChanXmtClp1Cells 2.7.3.1.1.11
Number of cells with EFCI set transmitted to PXM port.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bbChanDscdClpZeroCellsToPort 2.7.3.1.1.12
Number of discard CLP = 0 cells before transmitted to PXM port.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bbChanDscdClpOneCellsToPort 2.7.3.1.1.13
Number of discard CLP = 1 cells before transmitted to PXM port.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bbChanCntClrButton 2.7.3.1.1.14
Writing a value of 2 resets all the counters
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER noAction(1), resetCounters(2)  

bbChanStateGrpTable 2.7.2.1
The Broadband Channel state table is for a channel on logical interface. There will an entry for each of the channel added on the logical partition of the physical line.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    BbChanStateGrpEntry

bbChanStateGrpEntry 2.7.2.1.1
The state table is for logical channel. The available number of channels on the broadband interface (user ports) on the PXM card is restricted to 4K. The PXM card has 2 Queue Engines ( QE0 and QE1). Current calculations allow 31954 GLCNs on QE0, and 31748 GLCNs on QE1.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  BbChanStateGrpEntry  

bbChanStateNum 2.7.2.1.1.1
Refers to the logical channel number
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 16..4111  

bbChanState 2.7.2.1.1.2
This variable indicates the state of the VC (channel).
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER notconfigured(1), normal(2), alarm(3)  

bbChanEgrXmtState 2.7.2.1.1.3
Indicates the status of port transmit(Egress)
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER other(1), normal(2), sendingAis(3), sendingFerf(4)  

bbChanIngrRcvState 2.7.2.1.1.4
indicates the status of port receive(Ingress)
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER other(1), normal(2), receivingAis(3), receivingFerf(4), alarm(5)  

virtualInterfaceCnf 2.8.1
OBJECT IDENTIFIER    

vrtlIntrConfigTable 2.8.1.1
Virtual Interface Configuration Table
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    VrtlIntrConfigEntry

vrtlIntrConfigEntry 2.8.1.1.1
An entry in the Virtual Interface configuration Table
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  VrtlIntrConfigEntry  

configVrtlIntrNum 2.8.1.1.1.1
Virtual Interface Number. There are totaly 32 Virtual Interfaces on the card (egress).
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..32  

vrtlIntrPortNum 2.8.1.1.1.2
Port number which will be connected to the Virtual Interface. Value zero meens that this virtual interface is not connected to any port.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..4  

vrtlIntrState 2.8.1.1.1.3
Virtual Interface State.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER down(1), up(2)  

vrtlIntrMaxQueMem 2.8.1.1.1.4
Virtual Interface's Max queue memory. 1 = 4Kcells 2 = 8Kcells 3 = 16Kcells 4 = 32Kcells 5 = 64Kcells 6 = 128Kcells 7 = 256Kcells 8 = 512Kcells
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..8  

vrtlIntrMinCellRate 2.8.1.1.1.5
Virtual Interface's minimum cell rate. The default value: for OC12 port is 1412832 cells/sec for OC3 port is 353208 cells/sec for T3 port is 96000 cells/sec for E3 port is 80000 cells/sec
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 103384..353208  

vrtlIntrMaxCellRate 2.8.1.1.1.6
Virtual Interface's maximum cell rate. The default value: for OC12 port is 1412832 cells/sec for OC3 port is 353208 cells/sec for T3 port is 96000 cells/sec for E3 port is 80000 cells/sec
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 103384..353208  

vrtlIntrCurrConfigPaths 2.8.1.1.1.7
This is not a configurable parameter. This gives the count of paths currently configured on this VI.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

virtualInterfaceCnt 2.8.2
OBJECT IDENTIFIER    

vrtlIntrCounterTable 2.8.2.1
Virtual Interface Counters Table.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    VrtlIntrCounterEntry

vrtlIntrCounterEntry 2.8.2.1.1
An entry in the Virtual Interface Counter Table.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  VrtlIntrCounterEntry  

countVrtlIntrNum 2.8.2.1.1.1
Virtual Interface Number.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..32  

vrtlIntrTotalCellCnt 2.8.2.1.1.2
Total number of cells (VC plus Qbin) that belong to this Virtual Interface.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vrtlIntrTotalQbinCellCnt 2.8.2.1.1.3
Total number of cells in the Qbin belonging to this Virtual Interface.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vrtlIntrRxdValidOAMCellCnt 2.8.2.1.1.4
Total number of OAM cell received.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vrtlIntrRxdRmCellCnt 2.8.2.1.1.5
Total number of RM cells Received.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vrtlIntrRxdClpUntaggedCellCnt 2.8.2.1.1.6
Total number of CLP-0 cells Received.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vrtlIntrRxdClpTaggedCellCnt 2.8.2.1.1.7
Total number of CLP-1 cells Received.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vrtlIntrRxdClpUntaggedDiscardedCellCnt 2.8.2.1.1.8
Total number of CLP-0 cells discarded at Ingress.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vrtlIntrRxdClpTaggedDiscardedCellCnt 2.8.2.1.1.9
Total number of CLP-1 cells discarded at Ingress.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vrtlIntrXmtdOAMCellCnt 2.8.2.1.1.10
Total number of OAM cells transmitted.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vrtlIntrXmtdRmCellCnt 2.8.2.1.1.11
Total number of RM cells transmitted.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vrtlIntrXmtdClpUntaggedCellCnt 2.8.2.1.1.12
Total number of CLP-0 cells transmitted.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vrtlIntrXmtdClpTaggedCellCnt 2.8.2.1.1.13
Total number of CLP-1 cells transmitted.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

virtualInterfaceQbinCnf 2.8.3
OBJECT IDENTIFIER    

vrtlIntrQbinConfigTable 2.8.3.1
Virtual Interface QBin Configuration Table.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    VrtlIntrQbinConfigEntry

vrtlIntrQbinConfigEntry 2.8.3.1.1
An entry in the Virtual Interface Qbin Config Table.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  VrtlIntrQbinConfigEntry  

queConfigVrtlIntrNum 2.8.3.1.1.1
Virtual Interface Number.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..32  

queConfigVrtlIntrQbinNum 2.8.3.1.1.2
Virtual Interface Qbin Number. There are totaly 16 Qbin per Virtual Interface.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..16  

vrtlIntrQbinState 2.8.3.1.1.3
Virtual Interface QBIN state.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER down(1), up(2)  

vrtlIntrQbinPri 2.8.3.1.1.4
This indicates the priority of the QBIN service within the Virtual Interface.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..16  

vrtlIntrQbinRate 2.8.3.1.1.5
The rate at which cells in the QBIN are serviced. Max Cell rate for OC3 interface is 353208 cell/sec.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..353208  

vrtlIntrQbinDiscardSelection 2.8.3.1.1.6
Virtual Interface QBin Congestion control option.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER clpHysteresis(1), frameDiscard(3)  

vrtlIntrQbinMaxThreshold 2.8.3.1.1.7
Max cells that can be queued in the QBIN. The Get value will be different from the Set value because of FW internal round up.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..512000  

vrtlIntrQbinClpHiThreshold 2.8.3.1.1.8
The threshold above which the tagged cells will be dropped. The Get value will be different from the Set value because of FW internal round up.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..512000  

vrtlIntrQbinClpLoThreshold 2.8.3.1.1.9
Valid only if congestion control is set to CLP hysterises. The threshold upto which the dropping of the tagged cells should continue once it has crossed CLP HI threshold. The Get value will be different from the Set value because of FW internal round up.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..512000  

vrtlIntrQbinFrameDiscardThreshold 2.8.3.1.1.10
Valid only if congestion control is set to Frame Discard. It is the threshold after which the QE will start discarding the entire frame if one or more cells of the frame is discarded.. The Get value will be different from the Set value because of FW internal round up.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..512000  

vrtlIntrQbinEfciThreshold 2.8.3.1.1.11
The threshold above which the EFCI bits of the cell is set. The Get value will be different from the Set value because of FW internal round up.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..512000  

virtualInterfaceQbinCnt 2.8.4
OBJECT IDENTIFIER    

vrtlIntrQbinCounterTable 2.8.4.1
Virtual Interface QBin Counter Table.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    VrtlIntrQbinCounterEntry

vrtlIntrQbinCounterEntry 2.8.4.1.1
An entry in the Virtual Interface Qbin Counter Table.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  VrtlIntrQbinCounterEntry  

queConuterVrtlIntrNum 2.8.4.1.1.1
Virtual Interface Number.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..32  

queCounterVrtlIntrQbinNum 2.8.4.1.1.2
Virtual Interface Qbin Number. There are totaly 16 Qbin per Virtual Interface.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..16  

vrtlIntrQbinCurrentCellCnt 2.8.4.1.1.3
Total number of cells currently in the Qbin.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vrtlIntrQbinRxdCellCnt 2.8.4.1.1.4
Total number of cells arrived to the QBIN.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vrtlIntrQbinTxdCellCnt 2.8.4.1.1.5
Total number of cells departured from QBIN.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vrtlIntrQbinDiscardedCellCnt 2.8.4.1.1.6
Total number of arrivals to QBIN which were discarded.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rpmChanGrpTable 2.10.1.1
The RPM channel table.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    RpmChanGrpEntry

rpmChanGrpEntry 2.10.1.1.1
An entry for logical channel.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  RpmChanGrpEntry  

rpmChanSlotNum 2.10.1.1.1.1
Specifies the slot number of the RPM card.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..30  

rpmChanInterface 2.10.1.1.1.2
This is the RPM's backplane interface. Currently there is only one interface.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

rpmChanNum 2.10.1.1.1.3
This is the LCN. A unique number which identifies a connection. LCN maps VPI and VCI. For VCC, VCI range is 1..3825, and LCN range is 16..3840. LCN = VCI + 16. For VPC, VPI range is 1..255 and LCN range is 3841..4095. LCN = VPI + 3840.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 16..4095  

rpmChanRowStatus 2.10.1.1.1.4
This indicates the status of this channel. 1 ==> ADD 2 ==> DELETE 3 ==> MODIFY
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER add(1), del(2), mod(3)  

rpmChanVcd 2.10.1.1.1.5
Virtual Circuit Descriptor. A unique number which identifies a connection.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..4095  

rpmChanVpi 2.10.1.1.1.6
The VPI value for this channel. For VPC, VPI range is 1..255 and LCN range is 3841..4095. LCN = VPI + 3840
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..255  

rpmChanVci 2.10.1.1.1.7
The VCI value for this channel. For VCC, VCI range is 1..3825, and LCN range is 16..3840. LCN = VCI + 16.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..65535  

rpmChanSubInterface 2.10.1.1.1.8
This is the RPM's backplane sub-interface. (SNMP doent support index value 0) sub-interface starts from 1. The sub-interface 0 in CLI will be 1 here. So sub-interface is incremented by 1.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

rpmChanLocalVpi 2.10.1.1.1.9
This VPI together with the local VCI and NSAP represents the local end point in this connection. The VPI value is zero if it is a VCC conn. type.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..255  

rpmChanLocalVci 2.10.1.1.1.10
This VCI together with the local VPI and NSAP represents the local end point in this connection.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..65535  

rpmChanLocalNsap 2.10.1.1.1.11
The Near End NSAP Address value for this channel. This NSAP is 20 bytes binary, among these 20 bytes: 13 bytes as node name, 2 bytes for Cisco ID, 1 byte rsvd, 3 bytes for logical interface: slot (1 byte) and port number (2 bytes), the last byte is for SEL Of the 13 bytes for the node name, only the first 8 bytes are used. If the node name is n (0 < n < 8) bytes long, the node name must be left justified ( Bytes 1 to n contain the node name and bytes (n+1) to 8 must be 0 ). Bytes 9-13 must be always 0.
Status: mandatory Access: read-only
OBJECT-TYPE    
  RpmNsapAddress  

rpmChanRemoteVpi 2.10.1.1.1.12
This VPI together with the remote VCI and NSAP represents the remote end point in this connection.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..255  

rpmChanRemoteVci 2.10.1.1.1.13
This VCI together with the remote VPI and NSAP represents the remote end point in this connection.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..65535  

rpmChanRemoteNsap 2.10.1.1.1.14
The Far End NSAP Address value for this channel. This NSAP is 20 bytes binary, among these 20 bytes: 13 bytes as prefix, 2 bytes for Cisco ID, 1 byte rsvd, 3 bytes for logical interface: slot (1 byte) and port number (2 bytes), the last byte is for SEL
Status: mandatory Access: read-only
OBJECT-TYPE    
  RpmNsapAddress  

rpmChanType 2.10.1.1.1.15
This specifies the connection type 1 ==> SVC 2 ==> PVC 3 ==> Soft PVC Currently only PVC is supported.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER svc(1), pvc(2), spvc(3)  

rpmChanConnType 2.10.1.1.1.16
This specifies the connection type 1 ==> Virtual Path Connection 2 ==> Virtual Channel Connection
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER vpc(1), vcc(2)  

rpmChanServiceType 2.10.1.1.1.17
This specifies the service type 1 ==> Constant Bit Rate 2 ==> Variable Bit Rate 4 ==> Unspecified Bit Rate 5 ==> ATM frame relay 6 ==> standard ABR 7 ==> foresight ABR Only VBR,standard ABR and UBR are supported in phase I.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER cbr(1), vbr(2), ubr(4), atfr(5), abrstd(6), abrfst(7)  

rpmChanMastership 2.10.1.1.1.18
This specifies which end of the connection is the master. This is used by PXM to determine if this end point is master or slave. Only in AXIS shelf, 'unknown' is always used. For consistency it was added here.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER master(1), slave(2), unknown(3)  

rpmChanRtePriority 2.10.1.1.1.19
This is also known as class of service, it is used by PXM to determine how important this connection is when selecting connections to route.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..15  

rpmChanMaxCost 2.10.1.1.1.20
Maximum allowed cost. It is related to Cost Based Routing. This is used by PXM so that it won't choose a path with a cost greater than this configured level.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..65535  

rpmChanRestrictTrkType 2.10.1.1.1.21
Restricted trunk type for routing, used by PXM. It specifies that the connection either cannot be routed over satellite trunks or terrestrial trunks, or it can be on any type of trunk.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER noRestriction(1), terrestrialTrunk(2), satelliteTrunk(3)  

rpmChanPCR 2.10.1.1.1.22
Peak cell rate.(in cells per sec.)
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..353208  

rpmChanRemotePCR 2.10.1.1.1.23
Peak cell rate of the other end, if not set, will be set to the same as local end PCR.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..353208  

rpmChanMCR 2.10.1.1.1.24
Minimum cell rate.(in cells per sec.)
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..353208  

rpmChanRemoteMCR 2.10.1.1.1.25
Minimum cell rate of the other end, if not set, will be set to the same as local end MCR.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..353208  

rpmChanPercentUtil 2.10.1.1.1.26
This is the expected long-term utilization of the channel by this end-point.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..100  

rpmChanRemotePercentUtil 2.10.1.1.1.27
This is the expected long-term utilization of the channel by the other end-point. If this is not specified in the connection setup request, it'll be set to be the same as the local end.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..100  

rpmChanEncapType 2.10.1.1.1.28
ATM adaptation layer (AAL) and Encapsulation type. aal5snap - LLC/SNAP precedes the protocol datagram. aal34smds - Encapsulation for SMDS network. aal5nlpid - Encapsulation that allows ATM interfaces to interoperate with HSSI. qsaal - signaling type PVC used for setting up or tearing down SVCs. ilmi - used to set up communication with ILMI. aal5mux[protocol] - a MUX-type Virtual circuit. ppp - PPP over ATM. The Encapsulation types aal34smds, qsaal and ilmi are not supported.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER aal5snap(1), aal34smds(2), aal5nlpid(3), qsaal(4), ilmi(5), aal5muxXNS(6), aal5muxIP(7), aal5muxVINES(8), aal5muxDECNET(9), aal5muxNOVELL1(10), ppp(11), unknown(12)  

rpmChanMidLow 2.10.1.1.1.29
Starting Message Identifier Number for this PVC.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..1023  

rpmChanMidHigh 2.10.1.1.1.30
Ending Message Identifier Number for this PVC.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..1023  

rpmChanBurstSize 2.10.1.1.1.31
The Maximum number of ATM cells the virtual circuit can transmit.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..65535  

rpmChanInArpFreq 2.10.1.1.1.32
Specifies how often (in minutes) Inverse ARP datagrams will be sent on this virtual circuit.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..60  

rpmChanOAMloopback 2.10.1.1.1.33
Specifies how often (in seconds) to generate an OAM F5 loopback cell from this virtual circuit.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..600  

rpmChanState 2.10.1.1.1.34
This indicates the status of this channel. 1 ==> notConfigured 2 ==> active 3 ==> failed. Currently 'failed' state is not supported. When the channel is not added, the state is notConfigured.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER notConfigured(1), active(2), failed(3)  

rpmChanVirtualTemplate 2.10.1.1.1.35
Specifies the Virtual Template used for CISCO PPP. If it is not using Virtual Template then this value is 0.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

rpmChanAbrRDF 2.10.1.1.1.36
This is valid only for ABR Service Type. Rate Decrease Factor: Controls the rate decrease which occurs when backward RM-cells with CI=1 are received. Larger values lead to faster rate decrease. Reference - ATM Forum Traffic Management Specification Version 4.0 Section 5.10.2
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

rpmChanAbrRIF 2.10.1.1.1.37
This is valid only for ABR Service Type. Rate Increase Factor: Controls the rate increase which occurs when a backward RM-cell is received with CI=0 and NI=0. Larger values lead to faster rate increase. Reference - ATM Forum Traffic Management Specification Version 4.0 Section 5.10.2
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

rpmPortTable 2.9.1.1
List of RPM backplane sub-interfaces.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    RpmPortEntry

rpmPortEntry 2.9.1.1.1
An entry for the RPM backplane sub interface. Each entry contains RPM's backplane sub interface number, its IP address and ATM address.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  RpmPortEntry  

rpmPortSlotNum 2.9.1.1.1.1
Specifies the slot number of the RPM card.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..30  

rpmPortInterface 2.9.1.1.1.2
This is the RPM's backplane interface. Currently there is only one interface.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

rpmPortSubInterface 2.9.1.1.1.3
It identifies a sub-interface. (SNMP doent support index value 0) sub-interface starts from 1. The sub-interface 0 in CLI will be 1 here. So sub-interface is incremented by 1.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

rpmPortRowStatus 2.9.1.1.1.4
This indicates the status of this sub-interface. 1 ==> ADD 2 ==> DELETE 3 ==> MODIFY
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER add(1), del(2), mod(3)  

rpmPortIpAddress 2.9.1.1.1.5
IP address of the sub-interface.
Status: mandatory Access: read-only
OBJECT-TYPE    
  IpAddress  

rpmPortSubNetMask 2.9.1.1.1.6
SUB-NETMASK of the sub-interface.
Status: mandatory Access: read-only
OBJECT-TYPE    
  IpAddress  

rpmPortState 2.9.1.1.1.7
This indicates the state of this sub-interface. 1 ==> notConfigured 2 ==> active 3 ==> failed. Currently 'failed' state is not supported.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER notConfigured(1), active(2), failed(3)  

rpmIfCnfResPart 2.9.2
OBJECT IDENTIFIER    

rpmIfCnfRscPartTable 2.9.2.1
The table is for RPM interface resource partition.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    RpmIfCnfRscPartEntry

rpmIfCnfRscPartEntry 2.9.2.1.1
An entry for a logical interface
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  RpmIfCnfRscPartEntry  

rpmIfRscSlotNum 2.9.2.1.1.1
Specifies the slot number of the RPM card.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..30  

rpmIfRscPartIfNum 2.9.2.1.1.2
This is backplane interface number. Currently there is only one interface.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

rpmIfRscPartCtrlrNum 2.9.2.1.1.3
This is index for controller using the interface . 1 - PAR 2 - PNNI 3 - TAG
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER par(1), pnni(2), tag(3)  

rpmIfRscPrtRowStatus 2.9.2.1.1.4
This will add, delete or modify the partition. 1 ==> ADD 2 ==> DELETE 3 ==> MODIFY
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER add(1), del(2), mod(3)  

rpmIfRscPrtIngrPctBandwidth 2.9.2.1.1.5
The percentage of logical interface bandwidth.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..100  

rpmIfRscPrtEgrPctBandwidth 2.9.2.1.1.6
The percentage of logical interface bandwidth.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..100  

rpmIfRscPrtVpiLow 2.9.2.1.1.7
The beginning of the VPI range reserved for this partition.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..255  

rpmIfRscPrtVpiHigh 2.9.2.1.1.8
The end of the VPI range reserved for this partition.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..255  

rpmIfRscPrtVciLow 2.9.2.1.1.9
The beginning of the VCI range reserved for this partition. This field is only valid for logical interfaces configured with a single VPI.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..65535  

rpmIfRscPrtVciHigh 2.9.2.1.1.10
The end of the VCI range reserved for this partition. This field is only valid for logical interfaces configured with a single VPI.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..65535  

rpmIfRscPrtMaxChans 2.9.2.1.1.11
This represents no. of channels that are available to the controller.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..4047  

parSelfNode 1.1
OBJECT IDENTIFIER    

parInterfaces 1.2
OBJECT IDENTIFIER    

parConnection 1.3
OBJECT IDENTIFIER    

parNetworkClock 1.4
OBJECT IDENTIFIER    

parConfigParms 1.5
OBJECT IDENTIFIER    

parSnNodeId 1.1.1
This object specifies the node number of the node. When the network manager tries to modify the value of this object, a message is sent node state machine which propagates this information and the value gets modified only if the new node number is successfully propagated. The node number uniquely identifies a routing node in a network.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..223  

parSnNodeIP 1.1.2
This object specifies the IP address for routing node and is used for communication with SV+.
Status: mandatory Access: read-write
OBJECT-TYPE    
  IpAddress  

parSnNodeName 1.1.3
This object specifies the name of the node and is unique among all the nodes in the network. Whenever the name of the node is changed, AutoRoute has to propagate the information to the other nodes in the network. It also specifies the name of a PAR Feeder node.
Status: mandatory Access: read-write
OBJECT-TYPE    
  DisplayString Size(0..8)  

parSnRevision 1.1.4
This object specifies the primary revision of the PAR running on the node. Format: cc.c.cc Where: c = one ascii character
Status: mandatory Access: read-only
OBJECT-TYPE    
  DisplayString  

parSnNodeAlarmStatus 1.1.5
This object specifies the type of alarm on the node. If there is no alarm the value of this object is none(1). If there is a minor alarm the value of this object is min(2) If there is a major alarm the value of this object is maj(3). If the node is unreachable the value of this object is unreach(4).
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER clear(1), minor(2), major(3), unreach(4)  

parSnNumberOfTrunks 1.1.6
This object specifies the number of trunks attached to the node.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..255  

parIfTable 1.2.1
Table of all logical interfaces supported by PAR
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    ParIfEntry

parIfEntry 1.2.1.1
Entries for logical interfaces.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  ParIfEntry  

parIfLogicalInterface 1.2.1.1.1
This object specifies the logical interface number assigned by Platform Software
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parIfType 1.2.1.1.2
Specifies the type of interface - uni, nni or clock. uni(1) interface is for user ports and trunks may be either nni or uni. Default type of the interface is uni(1) and it can be configured to nni(2) provided there are no connections on the port. Type of interface can be changed from nni(2) to uni(1) if the trunk is not added. clock type interface is one which is used derive the clock.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER userport(1), routingtrunk(2), feedertrunk(3), clkport(4), virtualtrunk(5)  

parIfOperStatus 1.2.1.1.3
This object specifies the operation status of the interface. For interfaces of type uni(1) the status is either up(1) or failed(3) as reported by platform. For interfaces of type nni(2) the status is either of up(1), added(2), failed(3) or added-failed(4). Status up(1) indicates that the interface is configured as trunk but the trunk is not added. Status failed(3) indicates that the interface is configured as trunk, the trunk is not added and platform indicates an alarm on the interface. Status added(2) indicates that the interface is configured as trunk and the trunk is added. Status added-failed(4) indicates that the interface is configured as trunk, the trunk is added and there is an alarm on the trunk. This alarm could be generated by PAR or reported by Platform.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER up(1), added(2), failed(3), added-failed(4)  

parIfTxBw 1.2.1.1.4
This object specifies the transmit bandwidth for the interface in units of cells per second.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parIfRxBw 1.2.1.1.5
This object specifies the receive bandwidth for the interface in units of cells per second.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parIfMaxConn 1.2.1.1.6
This object specifies the maximum number of connections that can be configured over the interface.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parIfHiAddrMin 1.2.1.1.7
This object specifies the minimum VPI that PAR can use for configuring connection in the interface.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parIfHiAddrMax 1.2.1.1.8
This object specifies the maximum VPI that PAR can use for configuring connection in the interface.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parIfLoAddrMin 1.2.1.1.9
This object specifies the minimum VCI that PAR can use for configuring connection in the interface.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parIfLoAddrMax 1.2.1.1.10
This object specifies the maximum VCI that PAR can use for configuring connection in the interface.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parTrkTable 1.2.2
Trunk parameters
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    ParTrkEntry

parTrkEntry 1.2.2.1
Entries for logical interfaces configured as trunks (parIfType nni).
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  ParTrkEntry  

parTrkId 1.2.2.1.1
This object specifies the logical trunk number associated with the trunk at the local node.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parTrkStatReserve 1.2.2.1.2
Specifies the bandwidth reserved as Statistical Reserve on the trunk in units of cells per second. This object cannot take a value beyond the bandwidth capacity of the trunk.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

parTrkCnfgCcRestrict 1.2.2.1.3
This object specifies the operators preference for routing control plane traffic on the interface. If the object is set to False, then the interface may be chosen for control plane traffic. If it is True, then the interface is not chosen, unless there is no other trunk with parIfOperStatus added(2), in which case it is chosen regardless of the value of this object.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

parTrkCnfgLineType 1.2.2.1.4
This object specifies the type of interface terrestrial or satellite. The interfaces configured as terrestrial(1) are preferred over those configured as satellite(2) for routing control plane traffic. This information is also used for connections for which routing restrictions are specified.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER terrestrial(1), satellite(2)  

parTrkCnfgPassSync 1.2.2.1.5
This object specifies whether the trunk can be used to pass clock sync. If the value of this object is True, clock can be synchronized through the trunk; otherwise not.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

parTrkCnfgDerouteDelay 1.2.2.1.6
This object specifies the value of deroute delay timer in seconds.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

parTrkCnfgTrafficClassFst 1.2.2.1.7
This object indicates whether Foresight traffic can be routed over the trunk. If the value is True it can be rerouted otherwise not.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

parTrkCnfgTrafficClassFr 1.2.2.1.8
This object indicates whether Frame Relay traffic can be routed over the trunk. If the value is True it can be rerouted otherwise not.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

parTrkCnfgTrafficClassNts 1.2.2.1.9
This object indicates whether Non-Time Stamped traffic can be routed over the trunk. If the value is True it can be rerouted otherwise not.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

parTrkCnfgTrafficClassTs 1.2.2.1.10
This object indicates whether Time Stamped traffic can be routed over the trunk. If the value is True it can be rerouted otherwise not.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

parTrkCnfgTrafficClassVoice 1.2.2.1.11
This object indicates whether Voice traffic can be routed over the trunk. If the value is True it can be rerouted otherwise not.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

parTrkCnfgTrafficClassCbr 1.2.2.1.12
This object indicates whether Constant Bit Rate traffic can be routed over the trunk. If the value is True it can be rerouted otherwise not.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

parTrkCnfgTrafficClassVbr 1.2.2.1.13
This object indicates whether Variable Bit Rate traffic can be routed over the trunk. If the value is True it can be rerouted otherwise not.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

parTrkCnfgTrafficClassAbr 1.2.2.1.14
This object indicates whether Available Bit Rate traffic can be routed over the trunk. If the value is True it can be rerouted otherwise not.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

parTrkCnfgAdminStatus 1.2.2.1.15
This object can be used to add or delete the trunk. The value of this object can be set to add(1) only if the parIfOperStatus is up. The value can be set to delete if parIfOperStatus is added or added-failed
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER add(1), delete(2)  

parTrkCnfgRoutingCost 1.2.2.1.16
This object specifies the cost associated with the trunk for the purpose of routing the connections. This object has significance if cost based routing feature is enabled. (parCmParmsCostBased)
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..15  

parTrkCnfgVccConids 1.2.2.1.17
The max number of routing resource available on the trunk for VCC connections.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

parTrkCnfgVpcConids 1.2.2.1.18
The max number of routing resource available on the trunk for VPC connections
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

parTrkLocalSlotNumber 1.2.2.1.19
This object specifies the slot number of the interface card associated with the trunk at the local node.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parTrkLocalPortNumber 1.2.2.1.20
This object specifies the port number of the interface card associated with the trunk at the local node.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parTrkLocalVTrunkId 1.2.2.1.21
This object specifies the Virtual trunk of the interface card associated with the trunk at the local node. The value of this object is between 1 and 254, inclusive for a virtual trunk and 255 for a physical trunk.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..255  

parTrkRemoteNodeId 1.2.2.1.22
This object specifies the node number of the node attached to the remote end of the trunk.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..223  

parTrkRemoteTrunkId 1.2.2.1.23
This object specifies the logical trunk number at the node on the remote end of the trunk.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..255  

parTrkRemoteSlotNumber 1.2.2.1.24
This object specifies the slot number of the interface card to which the trunk is attached on the remote node.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parTrkRemotePortNumber 1.2.2.1.25
This object specifies the port number of the interface card to which the trunk is attached on the remote node.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parTrkRemoteVTrunkId 1.2.2.1.26
This object specifies the Virtual trunk of the interface card associated with the trunk at the remote node. The value of this object is between 1 and 254, inclusive for a virtual trunk and 255 for a physical trunk.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..255  

parTrkRemoteNodeIP 1.2.2.1.27
This object specifies the IP address for the Remote node, used for communication with NMS
Status: mandatory Access: read-only
OBJECT-TYPE    
  IpAddress  

parTrkRemoteNodeType 1.2.2.1.28
Specifies the type of the node.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER ipx(1), igx(2), bpx(3), par(4), unknown(5)  

parTrkRemoteNodeName 1.2.2.1.29
This object specifies the name of the remote node and is unique among all the nodes in the network.
Status: mandatory Access: read-only
OBJECT-TYPE    
  DisplayString  

parTrkAlarmStatus 1.2.2.1.30
This object specifies the severity of the alarm on the trunk. If there is no alarm the value of this object is none(1). If there is a minor alarm the value of this object is min(2). If there is a major alarm on the trunk the value of this object is maj(3).
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER clear(1), minor(2), major(3)  

parTrkAlarmType 1.2.2.1.31
This object specifies the type of alarm on the trunk. The value of this object has no significance if parTrunkAlarmStatus indicates no alarm. resources unavailable (1) indicates that the platform has not provided the resources required to make this interface into a trunk. communication failure (2) indicates that message exchange between neighboring nodes on this trunk has failed. unknown (3) indicates that the alarm type is unknown to PAR, for example if the platform has declared the interface in alarm due to some physical problem with the interface.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER rsrcunavail(1), commfail(2), unknown(3), failed(4), looped(5)  

parTrkBwCapacity 1.2.2.1.32
Specifies the bandwidth capacity of the trunk.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parTrkLineLoad 1.2.2.1.33
Specifies the bandwidth used by the connections routed over the trunk.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parTrkLoadTable 1.2.3
Trunk Load Information
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    ParTrkLoadEntry

parTrkLoadEntry 1.2.3.1
Load info for logical interfaces configured as trunks (parIfType nni).
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  ParTrkLoadEntry  

parTrkLoadXmtUsedCbr 1.2.3.1.1
This object specifies the used bandwidth in the transmit direction for CBR traffic.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parTrkLoadRcvUsedCbr 1.2.3.1.2
This object specifies the used bandwidth in the receive direction for CBR traffic
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parTrkLoadXmtUsedVbr 1.2.3.1.3
This object specifies the used bandwidth in the transmit direction for VBR.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parTrkLoadRcvUsedVbr 1.2.3.1.4
This object specifies the used bandwidth in the receive direction for VBR.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parTrkLoadXmtUsedAbr 1.2.3.1.5
This object specifies the used bandwidth in the transmit direction for ABR.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parTrkLoadRcvUsedAbr 1.2.3.1.6
This object specifies the used bandwidth in the receive direction for ABR.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parTrkLoadXmtUsedNts 1.2.3.1.7
This object specifies the used bandwidth in the transmit direction for Non-Time Stamped.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parTrkLoadRcvUsedNts 1.2.3.1.8
This object specifies the used bandwidth in the receive direction for Non-Time Stamped.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parTrkLoadXmtUsedTs 1.2.3.1.9
This object specifies the used bandwidth in the transmit direction for Time-Stamped.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parTrkLoadRcvUsedTs 1.2.3.1.10
This object specifies the used bandwidth in the receive direction for Time-Stamped.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parTrkLoadXmtUsedVoice 1.2.3.1.11
This object specifies the used bandwidth in the transmit direction for Voice.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parTrkLoadRcvUsedVoice 1.2.3.1.12
This object specifies the used bandwidth in the receive direction for Voice.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parTrkLoadXmtUsedBdataA 1.2.3.1.13
This object specifies the used bandwidth in the transmit direction for Busty Data A.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parTrkLoadRcvUsedBdataA 1.2.3.1.14
This object specifies the used bandwidth in the receive direction for Bursty Data A.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parTrkLoadXmtUsedBdataB 1.2.3.1.15
This object specifies the used bandwidth in the transmit direction for Bursty Data B.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parTrkLoadRcvUsedBdataB 1.2.3.1.16
This object specifies the used bandwidth in the receive direction for Bursty Data B.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parTrkLoadVccConidsUsed 1.2.3.1.17
This object specifies the number of conids used for VCCs (not used) on the trunk.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parTrkLoadVpcConidsUsed 1.2.3.1.19
This object specifies the number of conids Used for VPCs (not used) on the trunk.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parConnectionTable 1.3.1
Connections Mastered or slaved by the node.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    ParConnectionEntry

parConnectionEntry 1.3.1.1
Entries for connections mastered or slaved by the node.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  ParConnectionEntry  

parConnLocalSlot 1.3.1.1.1
This object specifies the slot number part of the local endpoint connection address.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parConnLocalPort 1.3.1.1.2
This object specifies the port number part of the local endpoint connection address.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parConnLocalVpi 1.3.1.1.3
This object specifies the Virtual Path Identifier part of the local endpoint connection address.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parConnLocalVci 1.3.1.1.4
This object specifies the Virtual Channel Identifier part of the local endpoint connection address.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parConnMasterShip 1.3.1.1.5
This object specifies whether this end of the connection is the master or the slave of the connection.
Status: mandatory Access: read-only
OBJECT-TYPE    
  TruthValue  

parConnLocalVcIndx 1.3.1.1.6
This object specifies the Virtual Connection Index at this node. It is used by Network Management to correlate this end of the connection with the remote end.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parConnLocalEndpt 1.3.1.1.7
This object specifies the actual physical connection endpoint at the local node.
Status: mandatory Access: read-only
OBJECT-TYPE    
  DisplayString  

parConnRemoteNodeName 1.3.1.1.8
This object specifies the node name of the remote endpoint. For a intra-switch connection or feeder connection this object would specify the self node name.
Status: mandatory Access: read-only
OBJECT-TYPE    
  DisplayString  

parConnRemoteSlot 1.3.1.1.9
This object specifies the slot number part of the remote endpoint connection address.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parConnRemotePort 1.3.1.1.10
This object specifies the port number part of the remote endpoint connection address.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parConnRemoteVpi 1.3.1.1.11
This object specifies the VPI part of the remote endpoint connection address.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parConnRemoteVci 1.3.1.1.12
This object specifies the VCI part of the remote endpoint connection address.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parConnRemoteVcIndx 1.3.1.1.13
This object specifies the Virtual Connection Index at the remote node. It is used by Network Management to correlate this end of the connection with the remote end..
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parConnOperStatus 1.3.1.1.14
This object specifies the status of connection as known and determined by PAR. The status shall be OK if there is an abit alarm on the connection.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER routed(1), unrouted(2), lmifail(3), unknown(4)  

parConnAdminStatus 1.3.1.1.15
This object is used by the operator to reroute or down/up a connection. The value of this object is up when the connection is created. If the value of the object is set to down(1) the connection is derouted (if it is routed) and parConnOperStatus object is set to not routed. If the value of the object is up (2) and it is set to reroute(3) the connection is derouted and attempt is made to reroute the connection. If the value of the object is down (1) and the it is set to reroute (3), no action is performed and the object's value does not changes. If the value of object is down(1) and is set to up(2), an attempt is made to reroute the connection.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER down(1), up(2), reroute(3)  

parConnRoute 1.3.1.1.16
This object specifies the current path on which the connection is routed. A value of this object is valid only if parConnOperStatus is routed. Null string specifies that the connection is not routed. Format: Nodename {Trk--Trk Nodename} Where: Nodename = up to 8 characters, Trk = slot.port.vtrk, slot = 1 or 2 characters, port = 1 or two characters, and vtrk = 1 or two characters and is optional. The portion of the format shown in braces {like this} can be repeated up to 10 times.
Status: mandatory Access: read-only
OBJECT-TYPE    
  DisplayString  

parConnRemoteEndpt 1.3.1.1.17
This object specifies the actual physical connection endpoint at the remote end of the connection. It shall be known only if the connection is a local(DAX) connection.
Status: mandatory Access: read-only
OBJECT-TYPE    
  DisplayString  

parPrefRoute 1.3.1.1.18
This object specifies the preferred path for the connection. Null string specifies that the connection does not have a preferred route. Format: Nodename {Trk--Trk Nodename} Where: Nodename = up to 8 characters, Trk = slot.port.vtrk, slot = 1 or 2 characters, port = 1 or two characters, and vtrk = 1 or two characters and is optional. The portion of the format shown in braces {like this} can be repeated up to 10 times.
Status: mandatory Access: read-write
OBJECT-TYPE    
  DisplayString  

parConnFailRsn 1.3.1.1.19
This object specifies a reason code for the failure of the connection.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER down(1), hwalm(2), abitalm(3), lmifail(4), rrtfail(5), incomplete(6)  

parRrtFailRsn 1.3.1.1.20
This object specifies the Reason of failure of a connection to route.
Status: mandatory Access: read-only
OBJECT-TYPE    
  DisplayString  

parConnRstrTyp 1.3.1.1.21
This object specifies the Route restriction of a connection. The possible values are no restriction, terrestrial line restriction or sattelite line restriction.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER norestrict(1), terrestrict(2), satrestrict(3), undefrestrict(4)  

parConnRstrZcs 1.3.1.1.22
This object specifies whether ZCS lines should be avoided or not. The possible values are no restriction, terrestrial line restriction or sattelite line restriction.
Status: mandatory Access: read-only
OBJECT-TYPE    
  TruthValue  

parConnCos 1.3.1.1.23
This object specifies the COS for the connection.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..15  

parClockTable 1.4.1
Table of clock sources available to PAR
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    ParClockEntry

parClockEntry 1.4.1.1
Each entry represent a clock source iavailable to PAR
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  ParClockEntry  

parClockIndex 1.4.1.1.1
This clock index is assigned by PAR. This object is used to index into parClockTable
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parClockType 1.4.1.1.2
Specifies the type of clock - Primary, Secondary, Tertiary
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER primary(1), secondary(2), tertiary(3), null(4)  

parClockSource 1.4.1.1.3
Specifies source of the clock - Internal, Interface, External
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER internal(1), interface(2), external(3)  

parClockCurSource 1.4.1.1.4
Specifies whether clock source is a current clock source or not. The value is true if the cloock source is current and false otherwise
Status: mandatory Access: read-only
OBJECT-TYPE    
  TruthValue  

parClockSourceId 1.4.1.1.5
Specifies identification of the clock - for example - if clock source is `Interface' then this field will carry logical interface number
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

parClockPath 1.4.1.1.6
Describes the path used for clock synchronization
Status: mandatory Access: read-only
OBJECT-TYPE    
  DisplayString  

parVsiConfigParms 1.5.1
OBJECT IDENTIFIER    

parCmParms 1.5.2
OBJECT IDENTIFIER    

parMnUpdt 1.5.3
OBJECT IDENTIFIER    

parSwFunc 1.5.4
OBJECT IDENTIFIER    

parOnOff 1.5.5
OBJECT IDENTIFIER    

parSysParms 1.5.6
OBJECT IDENTIFIER    

parNetworkingParms 1.5.7
OBJECT IDENTIFIER    

parCmParmsMaxRoutingBundle 1.5.2.1
This object specifies the maximum number of connections that can be routed in one routing cycle.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

parCmParmsRerouteTimer 1.5.2.2
This object specifies the minimum time after which a connection is routed once it has been successfully routed.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

parCmParmsResetTimer 1.5.2.3
This object specifies whether the reroute timer should be reset if the path for routed connection failed. If the value of the object is True the timer is reset on detecting path fail.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

parCmParmsDnUpPerPass 1.5.2.4
This object specifies the maximum number of connections that are upped or down in one schedule of down connection state machine.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

parCmParmsDnUpTimer 1.5.2.5
This object specifies the minimum time interval (in milliseconds) between two schedules of the down connection state machine.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

parCmParmsRrtErrsPerCycle 1.5.2.6
This object specifies the threshold for number of failures to route a connection before it is moved into the wait group. If the value of this object is 0 the feature is disabled.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

parCmParmsRrtCycleInterval 1.5.2.7
This object specifies the time (in minutes) for which no attempt is made to route a connection in the wait group.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

parCmParmsMaxRrtCycles 1.5.2.8
This object specifies the number of times a connection is added to the wait group before declaring it unroutable.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

parCmParmsRrtPauseTime 1.5.2.9
This object specifies the time interval (in milliseconds) between two routing cycles.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

parCmParmsMaxUpdates 1.5.2.10
This object specifies the maximum number of connection management updates that are sent by the node in schedule..
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

parCmParmsRerouteGroups 1.5.2.11
This object specifies the total number of reroute groups.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

parCmParmsMinRrGroupSize 1.5.2.12
This object specifies the minimum size of reroute group in Cell Load Units.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

parCmParmsRrGroupInc 1.5.2.13
This object specifies the increment of reroute group size (in Cell Load Units) between adjacent groups.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

parCmParmsCostBased 1.5.2.14
This object can be configured to enable or disable cost based routing feature. If the value of this object is True the feature is enabled else it is disabled.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

parCmParmsUseCache 1.5.2.15
This object can be configured to enable or disable hop based route selection from using cache of precomputed routes. If the value of this object is True the feature is enabled else it is disabled.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

parCmParmsUseDelay 1.5.2.16
This object can be configured to enable or disable cost based route selection from considering end-to-end delay associated with the routes. If the value of this object is True the delay would be considered otherwise daley would not be considered during routing of connection.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

parCmParmMaxViaCons 1.5.2.17
This object specifies the maximum number of via user connections that can be routed through the node.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..80000  

parMnUpdtInterval 1.5.3.1
This object specifies the timer interval (in seconds) for the mandatory update state machine.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

parMnUpdtNodesPerInt 1.5.3.2
This object specifies the maximum number of nodes to which mandatory updates can be sent per interval.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

parMnUpdtBatchSend 1.5.3.3
This object specifies whether mandatory updates to any node are sent one at a time or all in one go. If the value of this object is True, all mandatory updates are sent to the node simultaneously. If the value of this object is False, mandatory updates are sent one at a time.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

parSwFuncAbrVsvd 1.5.4.1
This object enables/disables the ABR standard with VSVD. The feature is enabled if the value of the object is True.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

parSwFuncNodeType 1.5.4.2
This object specifies whether the node is a routing node or a feeder node. To configure the node from a routing(1) node to feeder(2) node the node should be part of a single node network. To configure the node from feeder node to routing node, there should be no feeder trunk attached to the node.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER routing(1), feeder(2)  

parOnOffBackgroundUpdt 1.5.5.1
This object can be used to enable or disable Background updates. If the value of the object is True Background updates are enabled; otherwise they are disabled.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

parOnOffDynamicBwAlloc 1.5.5.2
This object can be used to enable or disable Bandwidth state machine. If the value of the object is True Bandwidth state machine is enabled; otherwise it is disabled.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

parOnOffCmUpdts 1.5.5.3
This object can be used to enable or disable Connection management updates. If the value of the object is True Connection management updates are enabled; otherwise they are disabled.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

parOnOffRouting 1.5.5.4
This object can be used to enable or disable connection routing. If the value of the object is True routing is enabled; otherwise it is disabled.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

parOnOffCommFailTest 1.5.5.5
This object can be used to enable or disable Comm Fail Test. If the value of the object is True Comm Fail test is enabled; otherwise it is disabled.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

parOnOffDrtDelay 1.5.5.6
This object can be used to enable or disable Deroute Delay feature. If the value of the object is True Derote delay feature is enabled; otherwise it is disabled.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

parOnOffRenumRec 1.5.5.7
This object can be used to enable or disable Renumber recovery feature. If the value of the object is True renumber recovery feature is enabled; otherwise it is disabled.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

parOnOffCommBreak 1.5.5.8
This object can be used to enable or disable Comm Break Test. If the value of the object is True Comm Break Test feature is enabled; otherwise it is disabled.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

parSysParmsTsPacketAge 1.5.6.1
Time Stamped packets older than this value (in milliseconds) are discarded. This is a network wide parameter.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..64  

parSysParmsConnFail 1.5.6.2
This object specifies whether the connections to a node should be failed when comm fail is declared with the node. If the value of this object is True the connection will be failed. This is a network wide parameter.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

parSysParmsVcPollRate 1.5.6.3
This object specifies the rate at which VC statistics are to be polled. This is a network wide parameter. For Portable AutoRoute statistic collections would be done by platform software.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parSysParmsMaxVDelay 1.5.6.4
This object specifies the maximum delay for voice connection with VAD enabled in milli-seconds. This is a network wide parameter.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parSysParmsMaxCDelay 1.5.6.5
This object specifies the maximum delay for ADPCM compressed voice connection with VAD enabled in milli-seconds. This is a network wide parameter.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parSysParmsMaxDDelay 1.5.6.6
This object specifies the maximum delay for data connection in milli-seconds. This is a network wide parameter.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parSysParmsMaxADelay 1.5.6.7
This object specifies the maximum delay for ADPCM compressed voice connection in milli-seconds. This is a network wide parameter.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parSysParmsMaxHsdDelay 1.5.6.8
This object specifies the maximum delay for High Speed data connection in milli-seconds. This is a network wide parameter.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parSysParmsDeEnable 1.5.6.9
This object specifies whether DE bit of Frame Relay frames can be modified. DE bit can be modified if the value of this object is True. This is a network wide parameter.
Status: mandatory Access: read-only
OBJECT-TYPE    
  TruthValue  

parSysParmsFrStandard 1.5.6.10
This object specifies whether standard Frame Relay parameters, Be and Bc, are to be used. If the value of this object is True, standard parameters are used. This is a network wide parameter.
Status: mandatory Access: read-only
OBJECT-TYPE    
  TruthValue  

parSysParmsDrtDelay 1.5.6.11
This object specifies whether Deroute Delay feature is enabled. If the value of this object is True, the feature is enabled. This is a network wide parameter.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

parSysParmsInvLogAlarmThres 1.5.6.12
This object specifies the threshold for invalid login attempts before triggering an alarm. If the value of this object is zero, this feature is disabled. This is a network wide parameter.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parSysParmsMaxCdpVDelay 1.5.6.13
This object specifies the maximum network delay for CDP to CDP voice connection with VAD enabled in milli-seconds. This is a network wide parameter.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parSysParmsMaxCdpCDelay 1.5.6.14
This object specifies the maximum network delay for CDP to CDP ADPCM compressed voice connection with VAD enabled in milli-seconds. This is a network wide parameter.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parSysParmsMaxCdpDDelay 1.5.6.15
This object specifies the maximum network delay for CDP to CDP data connection in milli-seconds. This is a network wide parameter.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parSysParmsMaxCdpADelay 1.5.6.16
This object specifies the maximum network delay for CDP to CDP ADPCM compressed voice connection in milli-seconds. This is a network wide parameter.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parSysParmsMaxCdpHsdDelay 1.5.6.17
This object specifies the maximum network delay for CDP to CDP High Speed data connection in milli-seconds. This is a network wide parameter.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parSysParmsMaxIpcdpVDelay 1.5.6.18
This object specifies the maximum local delay for CDP to CDP voice connection with VAD enabled in milli-seconds. This is a network wide parameter.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parSysParmsMaxIpcdpCDelay 1.5.6.19
This object specifies the maximum local delay for CDP to CDP ADPCM compressed voice connection with VAD enabled in milli-seconds. This is a network wide parameter.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parSysParmsMaxIpcdpDDelay 1.5.6.20
This object specifies the maximum local delay for CDP to CDP data connection in milli-seconds. This is a network wide parameter.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parSysParmsMaxIpcdpADelay 1.5.6.21
This object specifies the maximum local delay for CDP to CDP ADPCM compressed voice connection in milli-seconds. This is a network wide parameter.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parSysParmsMaxIpcdpHsdDelay 1.5.6.22
This object specifies the maximum local delay for CDP to CDP High Speed data connection in milli-seconds. This is a network wide parameter.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parSysParmsMaxIphsdDelay 1.5.6.23
This object specifies the maximum local delay for High Speed data connection in milli-seconds. This is a network wide parameter.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parSysParmsFpdDeJitter 1.5.6.24
This object specifies the jitter delay for Fast Pad. This is a network wide parameter.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

parNetParmCondInitialStgr 1.5.7.1
This object specifies the initial pause time (in milliseconds) per new node added on addition of node(s) in the network before initiating conditional updates.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

parNetParmCondPerNodeInterval 1.5.7.2
This object specifies the minimum interval (in milliseconds) between sending of conditional updates to any two nodes.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

parNetParmCbDelay 1.5.7.3
This object specifies the minimum interval (in milliseconds) between initiating comm break tests between any two nodes.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

parNetParmCbOffset 1.5.7.4
TBD.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

parNetParmMsgTimeout 1.5.7.5
This object specifies the timeout (in milliseconds) for acknowledgment for control plane message sent to another node.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

parNetParmMsgMaxTimeout 1.5.7.6
This object specifies the maximum number of times a network handler timeout waiting for acknowledgment for control plane message sent to another node reachable through all terrestrial trunks.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

parNetParmMsgMaxTimeoutSat 1.5.7.7
This object specifies the maximum number of times a network handler timeout waiting for acknowledgment for control plane message sent to another node reachable through all satellite trunks.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

parNetParmBlindMaxTimeout 1.5.7.8
This object specifies the maximum number of times a network handler timeout waiting for acknowledgment for control plane blind message sent to another node.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

parNetParmCbMaxTimeout 1.5.7.9
This object specifies the maximum number of times a network handler timeout waiting for acknowledgment for comm break test message sent to another node.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

parNetParmCfTestInterval 1.5.7.10
This object specifies the minimum time interval between the comm fail tests for a trunk.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

parNetParmCfTestMultiplier 1.5.7.11
This object specifies the multiplier for the comm fail test interval for good trunks, that is, trunks not in comm fail.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

parNetParmNetwWindowSz 1.5.7.12
This object specifies the window size for the network handler for messages to any node. That is, the number of messages that the network handler can send simultaneous to a node without receiving the acknowledgment for them.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

parNetParmNetwLetWait 1.5.7.13
This object specifies the maximum interval (in milliseconds) network handler waits for the letter (message) from the processes running on its nodes before checking the received cells.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

parNetParmCfDelay 1.5.7.14
TBD (in milliseconds).
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

parNetParmHighTxRate 1.5.7.15
This object specifies the rate (in fast packets per second) at which the network handler sends control plane message cells to high performance nodes (High performance node are BPX and MGX).
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

parNetParmLowTxRate 1.5.7.16
This object specifies the rate (in fast packets per second) at which the network handler sends control plane message cells to low capacity nodes (Low capacity node are IPX and IGX).
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

parNetParmMaxNodeBlks 1.5.7.17
This object specifies the maximum number of blocks, of size 256 bytes, that should be queued up for transmission to a node.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

parNetParmTopoMsgSegSz 1.5.7.18
This object specifies the maximum size (in bytes) of the segment into which the topology message, sent during network join, is divided.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

ausmPortCnfPortImaGrp 2.1.1.4
OBJECT IDENTIFIER    

ausmPortImaGrpRestart 2.1.1.7
OBJECT IDENTIFIER    

ausmPortCnfPortImaGrpTable 2.1.1.4.1
The config table is for the IMA port (IMA group). There are 8 entries in all.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    AusmPortCnfPortImaGrpEntry

ausmPortCnfPortImaGrpEntry 2.1.1.4.1.1
An entry for every IMA port (total of 8 entries)
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  AusmPortCnfPortImaGrpEntry  

imaPortNum 2.1.1.4.1.1.1
This is the logical port number.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..8  

imaPortEnable 2.1.1.4.1.1.2
This variable enables, disables or modifies the configuration of the port 1 - delport (Disables the entire IMA group) 2 - addport (Enables the IMA group) 3 - addlinks (Adds links to an existing IMA group) 4 - dellinks (Deletes links from an existing IMA group) 5 - modify (Modifies parameters in an existing IMA group) An IMA group is synonymous with an IMA port. To configure an IMA port, the different lines in the IMA port should be enabled and then the IMA port should be added using the enumeration 'addport'. To delete an IMA port, the enumeration 'delport' should be used. To increase the bandwidth of an IMA group, the enumeration 'addlinks' should be used. To decrease the bandwidth of an IMA group, the enumeration 'dellinks' should be used. 'modify' is used to change parameters other than links in the IMA group
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER delport(1), addport(2), addlinks(3), dellinks(4), modify(5)  

imaPortSpeed 2.1.1.4.1.1.3
The speed of the port in cells per second. This depends on the nuber of links in the IMA group and the configuration of the physical interface on each link (eg: T1, Normal E1, Clear E1 etc).
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..38328  

numLinksInImaGrp 2.1.1.4.1.1.4
The number of links configured in the IMA group This is same as axisImaGroupNumTxCfgLnks in Forum Compliant Ima
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..8  

listOfLinksInImaGrp 2.1.1.4.1.1.5
The list of links in the IMA group delimited by dots
Status: mandatory Access: read-write
OBJECT-TYPE    
  DisplayString Size(1..15)  

lcpCellsPeriodicity 2.1.1.4.1.1.6
Period at wich LCP cells of the IMA protocol can be transmitted. A value of 32 indicates that after 32 cells, one LCP cell is transmitted on that link of the IMA group. Currently, the only value supported is 128 This has same meaning as axisImaGroupTxFrameLength in Forum Compliant Ima.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 32..128  

lcpDelayTolerance 2.1.1.4.1.1.7
The number of IMA frames for which an LCP cell on any link can be missed before the IMA state machine should remove the link from the IMA group. At present, this is hard-coded to 1 and is not programmable. Not supported in Forum Compliant Ima
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..1  

readPtrWrPtrDiff 2.1.1.4.1.1.8
The difference between the read and write pointer of a link in the common cell buffer. A lower value reduces the latency in the common cell buffer but also increases the probability of an IMA group being stalled for a cell-time due to a slower link in the IMA group Not supported in Forum Compliant Ima.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 4..12  


maxTolerableDiffDelay 2.1.1.4.1.1.10
This indicates the maximum tolerable differential delay in milliseconds between the various links in the IMA group. The default value is variable and depends on the type of card with IMA feature: For AUSM-8p: 200 milliseconds for an IMA group consisting of E1 lines 275 milliseconds for an IMA group consisting of T1 lines. For IMATM: 50 milliseconds for an IMA group consisting of either T1/E1 lines. This is same as axisImaGroupDiffDelayMax of Forum Compliant Ima.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..275  

imaPortType 2.1.1.4.1.1.11
This indicates whether the port is to be configured for UNI/NNI/STI mode. STI mode is supported only in the case of IMATM. vpTrkUni should be used only in IMATM when virtual trunks are passing through IMATM (i.e. the cell format is UNI but ForeSight information is carried in the lower 16 bits)
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER uni(1), nni(2), sti(3), vpTrkUni(4)  

axisImaGroupTxAvailCellRate 2.1.1.4.1.1.12
The current cell rate(truncated value in cells per second) provided by the IMA group in the transmit direction, considering all the transmit links in the Active state. The generic formula for the link rate with N links active is : N * link Rate * (M-1)/M * (2048/2049), where M is the Ima Frame length. Suppose M = 128, then following are the link rates : In case of T1,for 8 lines the value is 28728 cells/sec. In case of Normal E1(for 8 Lines), the value is 35920 cells/sec. In case of Clear E1(for 8 Lines),the value is 38312 cells/sec.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..38330  

axisImaGroupSymmetry 2.1.1.4.1.1.13
Symmetry of the IMA group. AsymmetricOperation,AsymmetricConfiguration are not supported.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER symmetricOperation(1), asymmetricOperation(2), asymmetriConfiguration(3)  


axisImaGroupNeTxClkMode 2.1.1.4.1.1.15
Transmit clocking mode used by the near-end IMA group. ITC is not available in ausm8(B). Only default value (ctc) is supported.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER ctc(1), itc(2)  

axisImaGroupAlphaValue 2.1.1.4.1.1.16
This indicates the 'alpha' value used to specify the number of consecutive invalid ICP cells to be detected before moving to the IMA HUNT state. Only default values are supported.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..2  

axisImaGroupBetaValue 2.1.1.4.1.1.17
This indicates the 'beta'value used to specify the number of consecutive errored ICP cells to be detected before moving to the IMA HUNT state. Only default values are supported.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..5  

axisImaGroupGammaValue 2.1.1.4.1.1.18
This indicates the 'gamma' value used to specify the number of consecutive valid ICP cells to be detected before moving to the IMA SYNC state from the PRESYNC state. Only default values are supported.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..5  

axisImaGroupNumRxCfgLnks 2.1.1.4.1.1.19
The Number of links that are configured to receive in this IMA Group.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

axisImaGroupTestLinkIfIndex 2.1.1.4.1.1.20
This object is used to designate an interface as the test link. A value of -1 specifies that the implementation may choose the test link. In this case ,the implementation may also choose the value of axisImaGroupTestPattern.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

axisImaGroupTestPattern 2.1.1.4.1.1.21
The value of this object is used to specify the test pattern in an IMA group loopback operation. A value in the range 0 to 255 designates a specific pattern. A value of -1 specifies that the implementation may choose the value. In this case,the implementation may also choose the value of 'axisImaGroupTestLinkIfIndex.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

axisImaGroupTestProcStatus 2.1.1.4.1.1.22
This object is used to enable or disable the Test Pattern Proceudre,and to note whether at least one link failed the test. The test is started by setting operating(2) status.If any link should fail the test ,the IMA will set the status to linkfail(3).The linkfail(3) state will persist until either the disabled(1) state is set or until no instance of imaLinkTestProcStatus has the value linkfail(3). Only the values disabled(1) and operating(2) may be written. Writing the opersting(2) value will not cause clearing of the linkfail(3) state.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disabled(1), operating(2), linkfail(3)  

axisImaGroupIntegrationUpTime 2.1.1.4.1.1.23
Integration UP time for alarm integration.Persisting checking time to enter a failure alarm condition,in case of LIF,LODS,RFI-IMA fault failure alarms. Time in Milli Seconds.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 100..100000  

axisImaGroupIntegrationDownTime 2.1.1.4.1.1.24
Integration DOWN time for alarm integration.Persisting clearing time to exit the LIF,LODS,RFI-IMA failure alarm conditions. Time in Milli seconds.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 100..400000  


axisImaGroupRxImaId 2.1.1.4.1.1.26
The Ima id used by the far end.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..255  

nextPortNumAvailable 2.1.1.4.2
Indicates the next logical port number (i.e. either ATM T1/E1 UNI or IMA port) that is available
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..8  

ausmPortImaGrpRestartTable 2.1.1.7.1
The restart table is for the IMA port (IMA group). There are 8 entries in all.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    AusmPortImaGrpRestartEntry

ausmPortImaGrpRestartEntry 2.1.1.7.1.1
An entry for every IMA port (total of 8 entries)
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  AusmPortImaGrpRestartEntry  

axisImaGroupimaPortNum 2.1.1.7.1.1.1
This is the logical port number.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..8  

axisImaGroupRestartImaGrp 2.1.1.7.1.1.2
This variable restarts the Ima grp. We have the option of relearning the Ima id or retaining the stored ID.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER noAction(1), persistent(2), dorelearn(3)  

ausmPortCntPortImaGrp 2.1.3.3
OBJECT IDENTIFIER    

ausmPortCntPortImaGrpTable 2.1.3.3.1
The counter table is for the IMA groups (8 possible entries)
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    AusmPortCntPortImaGrpEntry

ausmPortCntPortImaGrpEntry 2.1.3.3.1.1
An entry for the IMA group
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  AusmPortCntPortImaGrpEntry  

imaCntPortNum 2.1.3.3.1.1.1
This is the logical port number. This object does not have any default value.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..8  

rcvAcpCells 2.1.3.3.1.1.2
This is the number of ICP cells received. This object does not have any default value.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvAcpErrCells 2.1.3.3.1.1.3
This is the number of errored ICP cells on this IMA group. This object does not have any default value.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtAcpCells 2.1.3.3.1.1.4
This is the number of ACP cells transmitted on this IMA group. This object does not have any default value. Not supported in Forum Compliant Ima.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtAcpCellsMissed 2.1.3.3.1.1.5
This is the number of ACP cells that could not be transmitted on this IMA group due to lack of resources (buffers). This object does not have any default value. Not supported in Forum Compliant Ima.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

imaGrpRcvHecErrCount 2.1.3.3.1.1.6
This is the number of HEC errored cells received on all the links currently in the IMA group This object does not have any default value.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

imaGrpRcvHecErrSecCount 2.1.3.3.1.1.7
This is the number of HEC errored seconds for the IMA group-- that is the number of seconds in which at least one link in the IMA group experienced a HEC error This object does not have any default value.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

imaGrpRcvHecErrSESecCount 2.1.3.3.1.1.8
This is the number of severely errored seconds received on all the links currently in the IMA group. A severely errored second for an IMA group is defined if the following condn is true: if (sigma (number of HEC errors of all links in IMA group) > (HEC_SE_COUNT * nlinks)) where HEC_SE_COUNT is defined as 10 This object does not have any default value.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

imaCntClrButton 2.1.3.3.1.1.9
writing a value of 2 resets all the counters This object does not have any default value.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER noAction(1), resetCounters(2)  

axisImaGroupRunningSecs 2.1.3.3.1.1.10
The amount of time(in seconds) since this IMA group has been in opeartion(UP or DOWN.)
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

axisImaGroupUnavailSecs 2.1.3.3.1.1.11
Count of one second intervals where IMA group traffic state machine is down.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

axisImaGroupNeNumFailures 2.1.3.3.1.1.12
The number of times a near-end group failure(Config-abort, Insufficient-Links) has been reported since power-up or reboot.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

axisImaGroupFeNumFailures 2.1.3.3.1.1.13
The number of times a far-end group failure(config-abort-FE, Insufficient-links-FE,Blocked-FE) has been reported since power-up or reboot.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

ausmPortStateImaGrp 2.1.4
OBJECT IDENTIFIER    

ausmPortStateImaGrpTable 2.1.4.1
The state table for the IMA port interface: there are 8 entries for the 8 (maximum possible) IMA groups
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    AusmPortStateImaGrpEntry

ausmPortStateImaGrpEntry 2.1.4.1.1
An entry for every IMA group
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  AusmPortStateImaGrpEntry  

imaStatePortNum 2.1.4.1.1.1
This is the logical port number This object does not have any default value
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..8  

imaPortState 2.1.4.1.1.2
Indicates the state of the IMA port. The following error conditions are currently reported: 1 - Unconfigured state 2 - Active state 3 - Bandwidth changed due to addition/deletion of links. The addition/deletion can be triggered by either end 4 - FailedDueToACPTimeout (indicates that a timeout occurred due to non-arrival of an ACP cell) 5 - FailedDueToMajorAlarmOnIMAGroup (issued when the bandwidth of an IMA group falls below a certain threshold due to loss of links from an IMA group) 6 - FailedDueToImaSigFailure (this indicates configuration mismatch or non-arrival of LCP cells during set up of an IMA group) 7 - FailedDueToBadDiffDelay (indicates that the differential delay exceeded the maximum threshold) 8 - FailedDueToArbConflict (indicates that the IMA-ID could not be resolved between the 2 ends of the IMA pipe) 9 - Receiving Local OAM AIS from peer IMA node (valid only for network modules) 10- Receiving LOAM RDI from peer IMA node (valud only for network modules) 20- Failed due to ILMI signalling failure This object does not have any default value
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER unconfigured(1), active(2), bandwidthChanged(3), failedDueToAcpTimeout(4), failedDueToMajorAlmonImaGrp(5), failedDueToImaSigFailure(6), failedDueToBadDiffDelay(7), failedDueToArbConflict(8), receivingLoamAis(9), receivingLoamRdi(10), failedDueToIlmiSignalling(20)  

numLinksPresentInImaGroup 2.1.4.1.1.3
Indicates the number of links that are currently present in the IMA group. This object does not have any default value Same as axisImaGroupNumTxActLnks in Forum Compliant Ima.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..8  

listLinksPresentInImaGroup 2.1.4.1.1.4
Indicates the list of links currently present in the IMA group. Different links in the IMA group are delimited by dots. The position of each link in the displayed string indicates the relative order of the links in the round-robin (multiplexing order) This object does not have any default value
Status: mandatory Access: read-only
OBJECT-TYPE    
  DisplayString Size(1..15)  

remoteImaId 2.1.4.1.1.5
Indicates the IMA-ID in use at the remote end when sending LCP/ACP cells. Same as axisImaGroupRxImaId in Forum Compliant Ima . This object does not have any default value
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..255  

locImaId 2.1.4.1.1.6
Indicates the IMA-ID in use at the local end when sending LCP/ACP cells. This is same as axisImaGroupTxImaId in Forum Compliant Ima This object does not have any default value
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..255  

imaArbitrationWinner 2.1.4.1.1.7
Result of arbitration between the two ends of the IMA pipe. This object does not have any default value Retaining for the backward compatibility. Not supported in Forum Compliant Ima.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER isUnknown(1), isWinner(2), isLoser(3)  

imaObsDiffDelay 2.1.4.1.1.8
The observed differential delay in milliseconds between the different physical links in the IMA group This object does not have any default value Same as axisImaGroupDiffDelayMaxObs in Forum Compliant Ima.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

imaPortOversubscribed 2.1.4.1.1.9
This variable indicates whether the port is over-subscribed or not This object does not have any default value
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER false(1), true(2)  

imaPortIngrPercentUtil 2.1.4.1.1.10
Percent Utilization of the IMA Port in the Ingress direction This object does not have any default value
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..1000  

imaPortEgrPercentUtil 2.1.4.1.1.11
Percent Utilization of the IMA Port in the Egress direction This object does not have any default value
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..1000  

axisImaGroupRxAvailCellRate 2.1.4.1.1.12
The current cell-rate (truncated value in cells per second) provided by this IMA group in the receive direction,considering all the receive links in the active state.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

axisImaGroupFeState 2.1.4.1.1.13
The current operational state of the far-end IMA group state machine 1) notConfigured : The Group doesn't exist.This is the GSM initial state. 2) startUp : On UM configuring the IMA group,GSM comes to this state. 3) startUpAck : On getting the Start-up-ack from FE(this info from received ICP cell. i.e. FE accepting the proposed group parameters by this END.), GSM goes to this state. 4) configAbortUnsupportedM : This state is entered when FE is not accepting the parameter M. 5) configAbortIncompatibleSymmetry : When Group symmetry is not supported by the FE,this group is entered. 6) configAbortOther : If any of the other group parameters are not supported by the FE,then this state is entered. 7) insufficientLinks : On getting one of the following events from FE, when GSM is in startUpAck state,GSM moves to insufficientLinks state. evens : 1) Start-up-ack 2) insufficient links 3) Blocked or operational 8) blocked : For to maintenance purpose,if group is blcoked (inhibited by UM),GSM goes to this state. 9) operational : When the group has sufficient links in both Tx and Rx directions GSM goes to this state.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER notConfigured(1), startUp(2), startUpAck(3), configAbortUnsupportedM(4), configAbortIncompatibleSymmetry(5), configAbortOther(6), insufficientLinks(7), blocked(8), operational(9)  

axisImaGroupFailureStatus 2.1.4.1.1.14
The current failure status of the IMA group(the reason why the GTSM is in the DOWN state. 1) noFailure : The group is UP. 2) startUpNe : When the NE GSM is in startUp state. 3) startUpFe : When the FE GSM is in startUp state. 4) invalidMValueNe : If FE doesn't support M value this end 5) invalidMValueFe : When the FE M value is not supported by NE. 6) failedAssymetricNe : If FE doesn't support Assymetric operation of the NE. 7) failedAssymetricFe : When the FE assymetry is not supported by the NE. 8) insufficientLinksNe: When the NE is in insufficient links state 9) insufficientLinksFe: If the FE is in insufficient links state and if that message is conveyed to this end by ICP cell. 10) blockedNe : If the GSM is in blocked state. 11) blockedFe : If the FE is in blocked state. 12) otherFailure: Start-up-ack and others.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER noFailure(1), startUpNe(2), startUpFe(3), invalidMValueNe(4), invalidMValueFe(5), failedAssymetricNe(6), failedAssymetricFe(7), insufficientLinksNe(8), insufficientLinksFe(9), blockedNe(10), blockedFe(11), otherFailure(12)  

axisImaGroupFeTxClkMode 2.1.4.1.1.15
Transmit clocking mode used by the far-end IMA group.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER ctc(1), itc(2)  



axisImaGroupLastChange 2.1.4.1.1.18
The time-of-day the IMA group last changed operational state( i.e. value of axisImaGroupNeState changed.) SPLAY-HINT 2d-1d-1d,1d:1d:1d.1d,1a1d:1d field octets contents range ----- ------ -------- ----- 1 1-2 year 0..65536 2 3 month 1..12 3 4 day 1..31 4 5 hour 0..23 5 6 minutes 0..59 6 7 seconds 0..60 (use 60 for leap-second) 7 8 deci-seconds 0..9 8 9 direction from UTC '+' / '-' 9 10 hours from UTC 0..11 10 11 minutes from UTC 0..59 For example, Tuesday May 26, 1992 at 1:30:15 PM EDT would be displayed as: 1992-5-26,13:30:15.0,-4:0 Note that if only local time is known,then,timezone information (fields 8- 10) is not present. This variable is not supported anymore in forum Ima.
Status: mandatory Access: read-only
OBJECT-TYPE    
  OCTET STRING Size(11)  

axisImaGroupRxFrameLength 2.1.4.1.1.19
Value of IMA frame length as received from remote IMA function.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER m32(32), m64(64), m128(128), m256(256)  


axisImaGroupNumRxActLnks 2.1.4.1.1.21
The number of links which are configured to receive and are currently Active in this IMA group.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

axisImaGroupNeState 2.1.4.1.1.22
The current operational state of the near-end IMA group state machine. 1) notConfigured : The Group doesn't exist.This is the GSM initial state. 2) startUp : On UM configuring the IMA group,GSM comes to this state. 3) startUpAck : On getting the Start-up-ack from FE(this info from received ICP cell. i.e. FE accepting the proposed group parameters by this END.), GSM goes to this state. 4) configAbortUnsupportedM : This state is entered when FE is not accepting the parameter M. 5) configAbortIncompatibleSymmetry : When Group symmetry is not supported by the FE,this group is entered. 6) configAbortOther : If any of the other group parameters are not supported by the FE,then this state is entered. 7) insufficientLinks : On getting one of the following events from FE, when GSM is in startUpAck state,GSM moves to insufficientLinks state. evens : 1) Start-up-ack 2) insufficient links 3) Blocked or operational 8) blocked : For to maintenance purpose,if group is blcoked (inhibited by UM),GSM goes to this state. 9) operational : When the group has sufficient links in both Tx and Rx directions GSM goes to this state.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER notConfigured(1), startUp(2), startUpAck(3), configAbortUnsupportedM(4), configAbortIncompatibleSymmetry(5), configAbortOther(6), insufficientLinks(7), blocked(8), operational(9)  

axisImaGroupNumber 2.1.4.2
The number of IMA groups configured with the lines.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

imatmClkCfgGrp 1.3.6.1.4.1.351.110.3.8
OBJECT IDENTIFIER    

primaryClockSource 1.3.6.1.4.1.351.110.3.8.1
Primary reference for the clock source. Each of these codes are to be interpreted as follows: liu-rclk0: Recovered clock from physical line 0 liu-rclk1: Recovered clock from physical line 1 liu-rclk2: Recovered clock from physical line 2 liu-rclk3: Recovered clock from physical line 3 liu-rclk4: Recovered clock from physical line 4 liu-rclk5: Recovered clock from physical line 5 liu-rclk6: Recovered clock from physical line 6 liu-rclk7: Recovered clock from physical line 7 dsx3: Recovered clock from the T3/E3 line bp8clk: Back-plane 8 KHz clock
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER liu-rclk0(1), liu-rclk1(2), liu-rclk2(3), liu-rclk3(4), liu-rclk4(5), liu-rclk5(6), liu-rclk6(7), liu-rclk7(8), dsx3(9), bp8clk(10)  

secondaryClockSource 1.3.6.1.4.1.351.110.3.8.2
Secondary reference for the clock source. Each of these codes are to be interpreted as follows: liu-rclk0: Recovered clock from physical line 0 liu-rclk1: Recovered clock from physical line 1 liu-rclk2: Recovered clock from physical line 2 liu-rclk3: Recovered clock from physical line 3 liu-rclk4: Recovered clock from physical line 4 liu-rclk5: Recovered clock from physical line 5 liu-rclk6: Recovered clock from physical line 6 liu-rclk7: Recovered clock from physical line 7 dsx3: Recovered clock from the T3/E3 line bp8clk: Back-plane 8 KHz clock none : No secondary clock is configured
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER liu-rclk0(1), liu-rclk1(2), liu-rclk2(3), liu-rclk3(4), liu-rclk4(5), liu-rclk5(6), liu-rclk6(7), liu-rclk7(8), dsx3(9), bp8clk(10), none(11)  

currentClockSource 1.3.6.1.4.1.351.110.3.8.3
This object holds the current source for the clock
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER primary(1), secondary(2), internal(3)  

imatmDsx3CntrsGrp 1.3.6.1.4.1.351.110.3.9
OBJECT IDENTIFIER    

imatmDsx3PortCntrsGrpTable 1.3.6.1.4.1.351.110.3.9.1
The dsx3 port counters table is for the DS3 port in IMATM. At present there is only one entry (corresponding to the single DS3 port available). This structure has been made a table for flexibility (although there is only one entry in the table at present)
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    ImatmDsx3PortCntrsEntry

imatmDsx3PortCntrsEntry 1.3.6.1.4.1.351.110.3.9.1.1
An entry for each T3 port (total of only one entry at present)
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  ImatmDsx3PortCntrsEntry  

imatmDsx3PortIndex 1.3.6.1.4.1.351.110.3.9.1.1.1
Index to the dsx3 port number
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..1  

imatmDsx3PortRcvCells 1.3.6.1.4.1.351.110.3.9.1.1.2
Number of cells received on the DS3 port
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

imatmDsx3PortXmtCells 1.3.6.1.4.1.351.110.3.9.1.1.3
Number of cells transmitted on the DS3 port
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

imatmPortRcvInvCells 1.3.6.1.4.1.351.110.3.9.1.1.4
Number of invalid cells received on the DS3 port
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

imatmPortCntrClrButton 1.3.6.1.4.1.351.110.3.9.1.1.5
This variable is used to clear all the counters maintained by the card for this DS3 port
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER noaction(1), clear(2)  

imatmDsx3PortLastMismatchVpiVci 1.3.6.1.4.1.351.110.3.9.1.1.6
This variable denotes the last mismatch VPI/VCI value that was received over the DS3 interface.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

imatmPortImaCtrlMatchCells 1.3.6.1.4.1.351.110.3.9.1.1.7
This variable is used to count the number of cells from the DS3 interface that were discarded due to match with IMA Control header
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

dsx3CardSpecCnfgGrp 1.3.6.1.4.1.351.110.3.14
OBJECT IDENTIFIER    

imatmDsx3CardSpecConfigGrpTable 1.3.6.1.4.1.351.110.3.14.1
The dsx3 Card spec Config group table will contain all the configuration variable for DSX3. Right now there is only one configurable parameter in this group. Moreover this structure has been made a table for flexibility (although there is only one entry in the table at present).
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    ImatmDsx3CardSpecConfigEntry

imatmDsx3CardSpecConfigEntry 1.3.6.1.4.1.351.110.3.14.1.1
Each entry gives the config parameters for the given port.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  ImatmDsx3CardSpecConfigEntry  

imatmdsx3PortIndex 1.3.6.1.4.1.351.110.3.14.1.1.1
Index to the dsx3 port number
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..1  

imatmDsx3SingleBitErrCorrEnable 1.3.6.1.4.1.351.110.3.14.1.1.2
This variable refers to dsx3 HEC correction enabled/disabled default is disable.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disable(1), enable(2)  

imatmVpTrkGrp 1.3.6.1.4.1.351.110.3.13
OBJECT IDENTIFIER    

imatmVpTrkMapGrp 1.3.6.1.4.1.351.110.3.13.1
OBJECT IDENTIFIER    

imatmVpTrkMapGrpTable 1.3.6.1.4.1.351.110.3.13.1.1
The imatmVpTrkMapGrpTable entry contains the information for mapping VPI ranges to different trunks in IMATM.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    ImatmVpTrkMapGrpTableEntry

imatmVpTrkMapGrpTableEntry 1.3.6.1.4.1.351.110.3.13.1.1.1
An entry for each VPI range
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  ImatmVpTrkMapGrpTableEntry  

imatmRangeNum 1.3.6.1.4.1.351.110.3.13.1.1.1.1
An index to the VpTrkTbl
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..128  

imatmTrkNum 1.3.6.1.4.1.351.110.3.13.1.1.1.2
This variable refers to the trunk number on the IMATM card. The trunk number is the same as logical port number.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..8  

imatmTrkMinVp 1.3.6.1.4.1.351.110.3.13.1.1.1.3
This variable refers to the minimum VPI value to be configured in the range of VPIs that are to be mapped to an IMATM trunk.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..4095  

imatmTrkMaxVp 1.3.6.1.4.1.351.110.3.13.1.1.1.4
This variable refers to the maximum VPI value to be configured in the range of VPIs that are to be mapped to an IMATM trunk. It should be necessarily greater than or equal to the value of imatmTrkMinVp.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..4095  

imatmTrkOpType 1.3.6.1.4.1.351.110.3.13.1.1.1.5
This variable refers to the operation type for the VPI range in question. 'disable' deletes an existing row from the table 'enable' adds a new row to the table 'modify' modifies the attributes of an existing row to the table
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disable(1), enable(2), modify(3)  

nextRangeNumAvail 1.3.6.1.4.1.351.110.3.13.1.2
This variable indicates the next range number to be used as the index for the VpTrkTbl.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..128  

imatmVpTrkClrGrp 1.3.6.1.4.1.351.110.3.13.2
OBJECT IDENTIFIER    

imatmVpTrkClrGrpTable 1.3.6.1.4.1.351.110.3.13.2.1
This table is for each trunk in IMATM and is used if the user wishes to remove all VPI ranges for an IMATM trunk.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    ImatmVpTrkClrGrpEntry

imatmVpTrkClrGrpEntry 1.3.6.1.4.1.351.110.3.13.2.1.1
An entry for each IMATM trunk
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  ImatmVpTrkClrGrpEntry  

imatmClrVpTrkNum 1.3.6.1.4.1.351.110.3.13.2.1.1.1
This variable is used to identify the IMATM trunk number on which the 'Clear Map Table' operation needs to be done.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..8  

imatmClrVpTrkButton 1.3.6.1.4.1.351.110.3.13.2.1.1.2
This variable implements the 'Clear Map Table' for a specified IMATM trunk.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER noaction(1), clear(2)  

imaAutoRestartFeature 1.3.6.1.4.1.351.110.3.21
OBJECT IDENTIFIER    

imaAutoRestart 1.3.6.1.4.1.351.110.3.21.1
This object allows the user to enable/disable the IMA group auto-restart feature on IMA capable cards. The effect of this object is card-wide. A value of 1 disables the feature. A value of 2 enables the feature.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disabled(1), enabled(2)  

commonChannel 1.3.6.1.4.1.351.110.2.7
OBJECT IDENTIFIER    

commonChanTable 1.3.6.1.4.1.351.110.2.7.1
The common port table is for the common ports.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    CommonChanTableEntry

commonChanTableEntry 1.3.6.1.4.1.351.110.2.7.1.1
An entry for every common port group.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  CommonChanTableEntry  

commonChanNum 1.3.6.1.4.1.351.110.2.7.1.1.1
This is the index to the channel number.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 16..1015  

commonConnType 1.3.6.1.4.1.351.110.2.7.1.1.2
This specifies the connection type 1 ==> Virtual Path Connection 2 ==> Virtual Channel Connection
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER vpc(1), vcc(2)  

commonChanStatus 1.3.6.1.4.1.351.110.2.7.1.1.3
This variable indicates the state of the VC (channel)(
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER notconfigured(1), normal(2), alarm(3)  

commonAlarmState 1.3.6.1.4.1.351.110.2.7.1.1.4
This is the alarm state of the port.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

commonChanPortNum 1.3.6.1.4.1.351.110.2.7.1.1.5
This variable indicates the port number associated with the channel
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..8  

commonChanServiceType 1.3.6.1.4.1.351.110.2.7.1.1.6
This specifies the service type 1 ==> Constant Bit Rate 2 ==> Variable Bit Rate 3 ==> Associated Bit Rate
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER cbr(1), vbr(2), abr(3)  

commonChanIngrXmtState 1.3.6.1.4.1.351.110.2.7.1.1.7
This variable indicates the transmit state of the VC (channel) on the CellBus side (Ingress)
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER other(1), normal(2), receivingAis(3), receivingFerf(4)  

commonChanIngrRcvState 1.3.6.1.4.1.351.110.2.7.1.1.8
This variable indicates the status of port receive (Ingress)
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER other(1), normal(2), receivingAis(3), receivingFerf(4), alarm(5)  

commonChanEgrXmtState 1.3.6.1.4.1.351.110.2.7.1.1.9
indicates the status of port transmit(Egress)
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER other(1), normal(2), sendingAis(3), sendingFerf(4)  

commonChanEgrRcvState 1.3.6.1.4.1.351.110.2.7.1.1.10
Indicates the receiving state of the VC (channel) on the Cellbus side (Egress)
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER other(1), normal(2), sendingAis(3), sendingFerf(4), alarm(5)  

commonConnParm1 1.3.6.1.4.1.351.110.2.7.1.1.11
Connection paramter 1
Status: mandatory Access: read-only
OBJECT-TYPE    
  DisplayString  

commonConnParm2 1.3.6.1.4.1.351.110.2.7.1.1.12
Connection paramter 2
Status: mandatory Access: read-only
OBJECT-TYPE    
  DisplayString  

commonPort 1.3.6.1.4.1.351.110.2.6
OBJECT IDENTIFIER    

commonPortTable 1.3.6.1.4.1.351.110.2.6.1
The common port table is for the common ports.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    CommonPortTableEntry

commonPortTableEntry 1.3.6.1.4.1.351.110.2.6.1.1
An entry for every common port group.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  CommonPortTableEntry  

commonPortNum 1.3.6.1.4.1.351.110.2.6.1.1.1
This is the index to the port number.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..8  

commonPortType 1.3.6.1.4.1.351.110.2.6.1.1.2
This is the type of the port. 1 - Frame Relay Port. 2 - ATM Port. 3 - IMA Port.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER framerelayport(1), atmport(2), imaport(3)  

commonPortStatus 1.3.6.1.4.1.351.110.2.6.1.1.3
This variable enables or disables the port 1 - disable 2 - enable
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER disable(1), enable(2)  

commonPortSpeed 1.3.6.1.4.1.351.110.2.6.1.1.4
This is the speed of the port in cells per second.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..37360  

commonPortAlarmState 1.3.6.1.4.1.351.110.2.6.1.1.5
This variable states the alarm status of the port 1 - port in alarm 2 - port out of alarm
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER inalarm(1), outofalarm(2)  

commonPortSignallingProtocolType 1.3.6.1.4.1.351.110.2.6.1.1.6
This variable indicates the signalling protocol type of the port. This field is TBD. It is unused in IMATM/AUSM.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER tbd(1)  

commonPortSignallingState 1.3.6.1.4.1.351.110.2.6.1.1.7
This variable indicates the signalling state of the port.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER tbd(1)  

commonPortAssocLines 1.3.6.1.4.1.351.110.2.6.1.1.8
This variable indicates the list of physical lines in the port delimited by dots.
Status: mandatory Access: read-only
OBJECT-TYPE    
  DisplayString  

commonPortAssocChannels 1.3.6.1.4.1.351.110.2.6.1.1.9
The variable indicates the list of channels that are used in the ds1 frame.
Status: mandatory Access: read-only
OBJECT-TYPE    
  DisplayString  

ausmChanCnfGrp 2.2.1
OBJECT IDENTIFIER    

ausmChanCnfGrpTable 2.2.1.1
The config table is for logical channel interface there are 1000 entries for the 8 logical ports in AUSM (8-port) and 256 entries for the 4 logical ports in AUSM (4-port card). In AUSM (4-port card), a logical port is same as a physical port.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    AusmChanCnfGrpEntry

ausmChanCnfGrpEntry 2.2.1.1.1
An entry for logical channel
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  AusmChanCnfGrpEntry  

ausmChanNum 2.2.1.1.1.1
Refers to the virtual connection index. In AUSM (4-port card), valid range is from 16..271.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 16..1015  

ausmChanRowStatus 2.2.1.1.1.2
This will add, delete or modify the channel 1 ==> ADD 2 ==> DELETE 3 ==> MODIFY Setting this object to outOfService takes the channel out of service or brings the channel 'down'. The channel can be brought 'up' again by setting the object to mod
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER add(1), del(2), mod(3), outOfService(4)  

chanConnType 2.2.1.1.1.3
This specifies the connection type 1 ==> Virtual Path Connection 2 ==> Virtual Channel Connection
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER vpc(1), vcc(2)  

chanServiceType 2.2.1.1.1.4
This specifies the service type 1 ==> Constant Bit Rate 2 ==> Variable Bit Rate 3 ==> Available Bit Rate 4 ==> Unspecified Bit Rate 5 ==> Real-Time Variable Bit Rate
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER cbr(1), vbr(2), abr(3), ubr(4), rtvbr(5)  

chanConnDesc 2.2.1.1.1.5
A string that has been defined to give a descriptive name to the connection
Status: mandatory Access: read-write
OBJECT-TYPE    
  DisplayString Size(0..20)  

chanSvcFlag 2.2.1.1.1.6
This specifies the connection type 1 ==> SVC connection 2 ==> PVC connection 3 ==> SPVC connection 4 ==> connection added by PAR 5 ==> connection added by PNNI 6 ==> connection added by TAG
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER svc(1), pvc(2), spvc(3), par(4), pnni(5), tag(6)  

chanSvcConnId 2.2.1.1.1.7
This connection ID is for future use Currently not supported
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

ausmChanPortNum 2.2.1.1.1.8
Refers to the logical port on the board to which logical channel is associated. In AUSM (4-port card), a logical port is same as a physical port.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..8  

chanVpi 2.2.1.1.1.9
The VPI value for this channel
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..ff  

chanVci 2.2.1.1.1.10
The VCI value for this channel
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..ffff  

chanEgrQSelect 2.2.1.1.1.11
Selects one out of the 16 possible queues Each queue may have a different service algorithm
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..16  

ingrQDepth 2.2.1.1.1.12
This variable sets the max depth for queue, before it starts dropping the cells. In AUSM (4-port card), the valid range is from 1..8000.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..16000  

ingrQCLPThreshHigh 2.2.1.1.1.13
This variable sets the higher threshold for dropping CLP set cells in the ingress direction. In AUSM (4-port card), the valid range is from 1..8000.This value should be less than or equal to ingrQDepth. Default value depends on the ingrQDepth.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..16000  

ingrQCLPThreshLow 2.2.1.1.1.14
This variable sets the lower threshold for dropping CLP set cells in the ingress direction. In AUSM (4-port card), the valid range is from 1..8000.This value should be less than or equal to ingrQCLPThreshHigh. Default value depends on the ingrQDepth.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..16000  

ingrQCLPState 2.2.1.1.1.15
This variable indicates the CLP state for the channel
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER low(1), high(2)  

ingrQEfciThresh 2.2.1.1.1.16
This variable sets the efci threshold value for setting efci bit in the ingress direction. In AUSM (4-port card), the valid range is from 1..8000.This value should be less than or equal to ingrQDepth.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..16000  

ingrUpcEnable 2.2.1.1.1.17
enables/disables UPC for Ingress cells
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disable(1), enable(2)  

ingrUpcPCR01 2.2.1.1.1.18
Peak Cell Rate for CLP [0+1] cells. The actual value depends on the speed of the logical port (which can be a T1, E1 (normal), E1 (clear), IMA T1, IMA E1 (normal) or IMA E1 (clear) port. Note that the IMA port's speed is variable and depends on the number of links in the port. In AUSM (4-port), maximum value is 4830.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 10..38328  

ingrUpcCIR 2.2.1.1.1.19
Complaint Information Rate. The actual value depends on the speed of the logical port (which can be a T1, E1 (normal), E1 (clear), IMA T1, IMA E1 (normal) or IMA E1 (clear) port. Note that the IMA port's speed is variable and depends on the number of links in the port. In AUSM (4-port), maximum value is 4830.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 10..38328  

ingrUpcCCDV 2.2.1.1.1.20
Complaint Cell Delay Variation for all cells
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..250000  

ingrUpcCBS 2.2.1.1.1.21
Complaint Burst Size The unit of this parameter is in terms of number of cells. CBS is applicable only for VBR and ABR connections. In MGX switches, release 3.0.0.0 and above, the default value is 1024
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..5000  

ingrUpcIBS 2.2.1.1.1.22
Initial Burst Size. The Burst size allowed for a connection that has been idle for some time. The unit of this parameter is in terms of number of cells. IBS is applicable only for VBR and ABR connections. IBS value should be less than CBS for VBR and ABR connections. IBS value will be ignored for other service types.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..4830  

ingrUpcMFS 2.2.1.1.1.23
Maximum Frame Size
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..200  

ingrUpcSCRPolicing 2.2.1.1.1.24
selects SCR policing for CLP = 0 or all cells
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER clp0(1), clp0and1(2), off(3)  

ingrUpcPCR0 2.2.1.1.1.25
Peak Cell Rate for CLP=0 cells. The actual value depends on the speed of the logical port (which can be a T1, E1 (normal), E1 (clear), IMA T1, IMA E1 (normal) or IMA E1 (clear) port. Note that the IMA port's speed is variable and depends on the number of links in the port. In AUSM (4-port), maximum value is 4830.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 10..38328  

ingrUpcCDVT0 2.2.1.1.1.26
Complaint Cell Delay Variation for CLP=0 cells
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..250000  

ingrUpcCLPTagEnable 2.2.1.1.1.27
enables/disables CLP tagging for Ingress cells
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disable(1), enable(2)  

ingrUpcFGCRAEnable 2.2.1.1.1.28
enables/disables Frame based GCRA
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disable(1), enable(2)  

foresightEnable 2.2.1.1.1.29
enables/disables Foresight
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disable(1), enable(2)  

foresightMIR 2.2.1.1.1.30
Minimum Information Rate. The actual value depends on the speed of the logical port (which can be a T1, E1 (normal), E1 (clear), IMA T1, IMA E1 (normal) or IMA E1 (clear) port. Note that the IMA port's speed is variable and depends on the number of links in the port. In AUSM (4-port), maximum value is 4830.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..38328  

foresightPIR 2.2.1.1.1.31
Peak Information Rate. The actual value depends on the speed of the logical port (which can be a T1, E1 (normal), E1 (clear), IMA T1, IMA E1 (normal) or IMA E1 (clear) port. Note that the IMA port's speed is variable and depends on the number of links in the port. In AUSM (4-port), maximum value is 4830.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 10..38328  

foresightQIR 2.2.1.1.1.32
Quiescent Information Rate. The actual value depends on the speed of the logical port (which can be a T1, E1 (normal), E1 (clear), IMA T1, IMA E1 (normal) or IMA E1 (clear) port. Note that the IMA port's speed is variable and depends on the number of links in the port. In AUSM (4-port), maximum value is 4830.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..38328  

ausmChanLocRmtLpbkState 2.2.1.1.1.33
The default is disable. This variable enables or disables the remote loopback for each channel. When you enable this option on a connection (channel) then all the cells that are coming from the network side would be looped back toward the network and all the frames coming from the user side would be dropped. This channel remote loopback has nothing to do with the chanTestType option, each one does a different function. For example, the channel remote loopback is used for looping the data toward the network and if this connection is terminated on an IPX then they can put a test equipment and measure some of the characteristics of the network. 1 = enable 2 = disable
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER enable(1), disable(2)  

ausmChanTestType 2.2.1.1.1.34
The default is notest. The chanTestType starts testing the continuity or delay of a connection. It sends specific cell patterns toward the network and the terminating end of this connection has to be an AXIS or ASI of a BPX in order for this test to be working. The receiving node would loop back when it receives these cells. The test should be done in about couple of seconds. The testcon tests the continuity of the connection and testdelay uses the same test except that it measures for delay through the network. To test the delay follow this procedure: a- set chanTestType to testdelay b- read chanTestState till it is Pass or Fail c- Read chanRTDResult for the delay if it is Pass *Note that the chanTestType would go back to notest when the test is completed To test the continuity follow this procedure: a- set chanTestType to testcon b- read chanTestState till it is Pass or Fail *Note that the chanTestType would go back to notest when the test is completed You CAN NOT select 2 tests back to back, you have selcelt one and wait the result and then start the other one. SYNTAX When you select testdelay This is the type of the test 1 = Test Continuity 2 = Test Delay 3 = No Test
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER testcon(1), testdelay(2), notest(3)  

ausmChanTestState 2.2.1.1.1.35
This shows the state of the test When you add a connection then the chanTestState becomes notinprogress and when you select any test, it would go to inprogress state and after it completes the test, it will go to failed or passed state. 1 = Passed 2 = Failed 3 = In Progress 4 = Not In Progress
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER passed(1), failed(2), inprogress(3), notinprogress(4)  

ausmChanRTDResult 2.2.1.1.1.36
This is round trip delay in milliseconds. When you select testdelay option for the chanTestType, the result of the test that is measured in milliseconds can be read in chanRTDResult.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..65535  

ausmChanTestTypeCPESide 2.2.1.1.1.37
The default is notest. The chanTestType starts testing the segment continuity of a connection. It sends OAM Segment loopback cell towards port side (CPE) The CPE would loop back the cell To test the continuity follow this procedure: a- set chanTestTypeCPEside to testconseg b- read chanTestState till it is Pass or Fail *Note that the chanTestType would go back to notest when the test is completed SYNTAX When you select testdelay This is the type of the test 1 = Test Continuity 2 = No Test
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER testconseg(1), notest(2)  

ausmChanTestStateCPESide 2.2.1.1.1.38
This shows the state of the test When you add a connection then the chanTestState becomes notinprogress and when you select any test, it would go to inprogress state and after it completes the test, it will go to failed or passed state. 1 = Passed 2 = Failed 3 = In Progress 4 = Not In Progress
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER passed(1), failed(2), inprogress(3), notinprogress(4)  

ausmChanIngrPercentUtil 2.2.1.1.1.39
Percentage Utilization of the IngrService Rate. This is used for connection admission control.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..127  

ausmChanEgrPercentUtil 2.2.1.1.1.40
Percentage Utilization of the EgrService Rate. This is used for egress bandwidth calculation and connection admission control.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..127  

ausmChanEgrSrvRate 2.2.1.1.1.41
Egress service rate - This is used for egress bandwidth calculation and for connection admission control. The actual value depends on the speed of the logical port (which can be a T1, E1 (normal), E1 (clear), IMA T1, IMA E1 (normal) or IMA E1 (clear) port. Note that the IMA port's speed is variable and depends on the number of links in the port. In AUSM (4-port), maximum value is 4830.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..38328  

ausmChanOvrSubOvrRide 2.2.1.1.1.42
This MIB variable allows one to add a new connection on a port even if it is over subscribed.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disable(1), enable(2)  

ausmChanLocalVpId 2.2.1.1.1.43
Every VP connection will have a unique local VpId between 1 to 340. This is sent to ASC at the time of vp connection setup. This number along with the slot number will form a number which is unique across the shelf. This will be set only at the time adding the connection. This range varies dpending on the BNM interface. For STI 1..100 For UNI 1..20 For NNI 1..340 In case of AUSM-4P maximum localVpId can be only 1..255
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..340  

ausmChanRMEnable 2.2.1.1.1.44
enables/disables sending Resource Mangement Cells
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disable(1), enable(2)  

ausmIngrDiscardOption 2.2.1.1.1.45
This variable specifies whether Frame based Discard is to be enabled or CLP Threshold is to be used for determining the criterion for dropping cells. FrameDiscard enables the EPD/PPD features
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER clpHysterisis(1), frameDiscard(2)  

ausmIngrFrDiscardThreshold 2.2.1.1.1.46
This variable specifies the Ingress Frame Discard Threshold. Valid only when Ingress Frame Discard option is selected. By default, the value of this variable would be the peak queue depth of the queue. The value of this variable should be less than the peak queue depth that is configured for the queue
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..16000  

ausmCDRNumber 2.2.1.1.1.47
This is the key to correlate cell/frame counts, start/end record.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

ausmLocalVpi 2.2.1.1.1.48
This VPI has different meaning with the end point VPI (CPE), it can be same with the end point VPI but not necessary, it represents the local end point VPI, this object is read only, therefore, SM is responsible to assign a value to it.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..65535  

ausmLocalVci 2.2.1.1.1.49
This VCI has different meaning with the end point VCI (CPE), it can be same with the end point VPI but not necessary it represents the local end point VCI, this object is read only, therefore, SM is responsible to assign a value to it.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..65535  

ausmLocalNSAP 2.2.1.1.1.50
This NSAP is 20 bytes binary, among these 20 bytes: 13 bytes as prefix, 2 bytes for Cisco ID, 2 bytes rsvd, 2 bytes for slot (5 bits) and port number (11 bits), and 1 byte for SEL
Status: mandatory Access: read-write
OBJECT-TYPE    
  OCTET STRING Size(0..20)  

ausmRemoteVpi 2.2.1.1.1.51
This VPI has different with the remote end point VPI (CPE), this is similar to a connection ID and it can be same with the remote end point VPI but not necessary
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..65535  

ausmRemoteVci 2.2.1.1.1.52
This VCI has different with the remote end point VCI (CPE), this is similar to a connection ID and it can be same with the remote end point VPI but not necessary
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..65535  

ausmRemoteNSAP 2.2.1.1.1.53
This NSAP is 20bytes binary, among these 20 bytes: 13 bytes as prefix, 2 bytes for Cisco ID, 2 bytes rsvd, 2 bytes for slot (5 bits) and port number (11 bits), and 1 byte for SEL
Status: mandatory Access: read-write
OBJECT-TYPE    
  OCTET STRING Size(0..20)  

ausmMastership 2.2.1.1.1.54
This is used by PXM to determine if this end point is master or slave. In AXIS shelf, unknown is always used, but in MGX shelf, if unknown is set, PXM will fail the set request.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER master(1), slave(2), unknown(3)  

ausmVpcFlag 2.2.1.1.1.55
This represents the connection type, used for PXM to identify VPC/VCC
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER vpc(1), vcc(2)  

ausmConnServiceType 2.2.1.1.1.56
This specifies the service type 1 ==> Constant Bit Rate 2 ==> Variable Bit Rate 3 ==> Not used 4 ==> Unspecified Bit Rate 5 ==> ATM frame relay 6 ==> standard ABR 7 ==> foresight ABR 8 ==> Real-Time Variable Bit Rate Note that this is used by PXM card, FRSM doesn't need to set it Also to make it compatible with existing AUSM MIB definition, value 3 is not used. The following types are being added for PNNI support. and are based on UNI 4.0 cbr1 (21) - CBR.1 vbr1rt (22) - Real time VBR.1 vbr2rt (23) - Real time VBR.2 vbr3rt (24) - Real time VBR.3 vbr1nrt(25) - Non Real time VBR.1 vbr2nrt(26) - Non Real time VBR.2 vbr3nrt(27) - Non Real time VBR.3 ubr1 (28) - UBR.1 ubr2 (29) - UBR.2 stdabr (30) - TM 4.0 compliant standard ABR cbr2 (31) - CBR.2 cbr3 (32) - CBR.3
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER cbr(1), vbr(2), ubr(4), atfr(5), abrstd(6), abrfst(7), rtvbr(8), cbr1(21), vbr1rt(22), vbr2rt(23), vbr3rt(24), vbr1nrt(25), vbr2nrt(26), vbr3nrt(27), ubr1(28), ubr2(29), stdabr(30), cbr2(31), cbr3(32)  

ausmRoutingPriority 2.2.1.1.1.57
This is also known as class of service, it is used by PXM to determine how important this connection is when selecting connections to route
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..15  

ausmMaxCost 2.2.1.1.1.58
Maximum allowed cost. It is related to Cost Based Routing. This is used by PXM so that it won't choose a path with a cost greater than this configured level. When used with PAR controller the valid range is 1..65535 and the default value is 255. When used with PNNI controller the valid range is 1..2147483647 and the default value is 2147483647.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..2147483647  

ausmRestrictTrunkType 2.2.1.1.1.59
Restricted trunk type for routing, used by PXM. It specifies that the connection either cannot be routed over satelite trunks, or terrestrial trunks, or it can be on any type of trunk.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER noresriction(1), terrestrialTrunk(2), sateliteTrunk(3)  

ausmConnPCR 2.2.1.1.1.60
Peak cell rate, if not set in MGX, will be derived from the end point parameter
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 10..38328  

ausmConnMCR 2.2.1.1.1.61
Minimum cell rate, if not set in MGX, will be derived from the end point parameter
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 10..38328  

ausmConnPercentUtil 2.2.1.1.1.62
This is the expected long-term utilization of the channel by theis end-point.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..100  

ausmConnRemotePCR 2.2.1.1.1.63
Peak cell rate of the other end, if not set in MGX, will be derived from the end point parameter
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 10..38328  

ausmConnRemoteMCR 2.2.1.1.1.64
Minimum cell rate of the other end, if not set in MGX, will be derived from the end point parameter
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 10..38328  

ausmConnRemotePercentUtil 2.2.1.1.1.65
This is the expected long-term utilization of the channel by the other end-point.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..100  

ausmConnForeSightEnable 2.2.1.1.1.66
This object is used by the controller(PAR/PNNI/TAG) to set up the Qbin for the connection
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER enable(1), disable(2)  

ausmConnFGCRAEnable 2.2.1.1.1.67
enables/disables Frame based GCRA (early packet discard).
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER enable(1), disable(2)  

ausmChanReroute 2.2.1.1.1.68
This is used by the administrator to trigger the re-routing of the connection. The rerouting takes effect, when this object is set to true(1). When set to false (2), no action is taken. A get on this object always returns false (2). This object is not applicable to MGX Release 1.x.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER true(1), false(2)  

ausmConnSCR 2.2.1.1.1.69
Sustained cell rate, Used for VBR connections setup with PNNI controller.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 10..38328  

ausmConnRemoteSCR 2.2.1.1.1.70
Sustained cell rate of the other end, Used for VBR connections setup with PNNI controller.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 10..38328  

ausmConnMBS 2.2.1.1.1.71
Maximum burst size, Used for VBR connections setup with PNNI controller. In MGX switches, release 3.0.0.0 and above, the default value is 1024
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..5000  

ausmConnRemoteMBS 2.2.1.1.1.72
Maximum burst size at the remote end of the connection, Used for VBR connections setup with PNNI controller.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..5000000  

ausmConnTemplateId 2.2.1.1.1.73
This object specifies the template identifier for the connection template associated with this connection. The valid range for templates is 1..16. A value of 17 indicates no template is associated with this connection
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..17  

ausmConnAdminStatus 2.2.1.1.1.74
This object specifies channel admin status. This object is not applicable to MGX Release 1.x.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER up(1), down(2)  

ausmChanNumNextAvailable 2.2.1.2
This variable contains the next unused channel number of the possible 1000. This number can be used in channel config table. ChanNumNextAvailable gets updated whenever this number is used to create a new logical channel. Value 0 for this variable indicates that no more channels are available. In AUSM (4-port card), the maximum number of values for this variable is 256 (i.e. 16 ..271).
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 16..1015  

ausmChanVpIdNextAvailable 2.2.1.3
This variable contains the next unused local VPId of the possible 1 to 100. This number can be used in channel config table. It gets updated if the number is used to create a new vp connection. There can max 100 vp connections per slot. Value of 0 for this variable indicates that no more vp connections are available.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..100  

ausmStdABRCnfGrpTable 2.2.1.4
The ABR config table is for logical channel interface there are 1000 entries for the 8 logical ports in AUSM (8-port).
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    AusmStdABRCnfGrpEntry

ausmStdABRCnfGrpEntry 2.2.1.4.1
An entry for logical channel
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  AusmStdABRCnfGrpEntry  

ausmStdABRCnfChanNum 2.2.1.4.1.1
Refers to the virtual connection index.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 16..1015  

ausmStdABRType 2.2.1.4.1.2
StdabrType of value 1 indicates a TM4.0 switch behaving connection (Transparent connection) which assumes that RM cells will be received from a TM4.0 compliant CPE. Value 2 indicates a TM4.0 source destination behaving connection (Terminating connection) which generates RM cells by itself.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER switchBehaviour(1), srcDestBehaviour(2)  

ausmStdABRTBE 2.2.1.4.1.3
Transient Buffer Exposure. The unit is number of cells.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..16777215  

ausmStdABRFRTT 2.2.1.4.1.4
Fixed Round-Trip Time. The unit is milliseconds. Value 0 signifies that FRTT value is not available.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..16700  

ausmStdABRRDF 2.2.1.4.1.5
Rate Decrease Factor. This unitless value has to be inversed to arrive at the actual value. The valid values possible are only powers of 2; i.e. 1, 2, 4, 8 ..... 32768 . The SNMP agent has to verify this compliance.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..32768  

ausmStdABRRIF 2.2.1.4.1.6
Rate Increase Factor. This unitless value has to be inversed to arrive at the actual value. The valid values possible are are only powers of 2; i.e. 1, 2, 4, 8 ..... 32768 . The SNMP agent has to verify this compliance.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..32768  

ausmStdABRNrm 2.2.1.4.1.7
Maximum number of cells a source may send for each forward RM cell. The valid values possible are only powers of 2 starting from 2 ; i.e. 2, 4, 8 ..... 256. The SNMP agent has to verify this compliance.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 2..256  

ausmStdABRTrm 2.2.1.4.1.8
Upper bound on the time between forward RM cells for an active source. The unit is in milliseconds.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 3..255  

ausmStdABRCDF 2.2.1.4.1.9
Cutoff Decrease Factor. This unitless value has to be inversed to arrive at the actual value. The valid values possible are 0 and only powers of 2; i.e. 1, 2, 4, 8, 16, 32, 64 . The SNMP agent has to verify this compliance.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..64  

ausmStdABRADTF 2.2.1.4.1.10
ACR Decrease Time Factor. Unit of this value is milliseconds. Granularity allowed is 10 milli seconds. The SNMP agent has to verify this compliance.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 10..10230  

ausmStdABRICR 2.2.1.4.1.11
Initial cell Rate. The actual value depends on the speed of the logical port (which can be a T1, E1 (normal), E1 (clear), IMA T1, IMA T1, IMA E1 (normal) or IMA E1 (clear) port. Note that the IMA port's speed is variable and depends on the number of links in the port.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 10..38328  

ausmStdABRMCR 2.2.1.4.1.12
Minimum cell Rate. The actual value depends on the speed of the logical port (which can be a T1, E1 (normal), E1 (clear), IMA T1 IMA E1 (normal) or IMA E1 (clear) port. Note that the IMA port's speed is variable and depends on the number of links in the port. Please note that the MCR value will include bandwidth occupied by Data cells as well as all in-rate RM cells.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 10..38328  

ausmStdABRPCR 2.2.1.4.1.13
Peak cell Rate. The actual value depends on the speed of the logical port (which can be a T1, E1 (normal), E1 (clear), IMA T1 IMA E1 (normal) or IMA E1 (clear) port. Note that the IMA port's speed is variable and depends on the number of links in the port. Please note that the PCR value will include bandwidth occupied by Data cells as well as all in-rate RM cells.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 10..38328  

ausmChanCntGrp 2.2.3
OBJECT IDENTIFIER    

ausmChanCntGrpTable 2.2.3.1
The config table is for logical channel interface there are 1000 entries for 8 logical ports. In AUSM (4-port card), a logical port is synonymous with a physical port and the number of supported entries in this table is 256.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    AusmChanCntGrpEntry

ausmChanCntGrpEntry 2.2.3.1.1
An entry for logical channel
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  AusmChanCntGrpEntry  

ausmCntChanNum 2.2.3.1.1.1
Refers to the logical channel number. In AUSM (4-port card), the permissible range is from 16..271.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 16..1015  

chanSecInService 2.2.3.1.1.2
The number of seconds channel is in service
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

chanCongestMinutes 2.2.3.1.1.3
The number of minutes for which congestion was experienced
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

chanIngrPeakQDepth 2.2.3.1.1.4
Peak queue depth on the ingress direction
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..ffff  

chanIngrRcvCells 2.2.3.1.1.5
The number of cells received in the Ingress direction
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

chanIngrClpSetRcvCells 2.2.3.1.1.6
The number of CLP set cells received in Ingress direction
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

chanIngrEfciSetRcvCells 2.2.3.1.1.7
The number of EFCI set cells received in Ingress direction
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

chanIngrQfullDiscardCells 2.2.3.1.1.8
The number of cells discarded due to ingress Q full
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

chanIngrClpSetDiscardCells 2.2.3.1.1.9
The number of CLP set cells discarded in Ingress direction
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

chanIngrUpcClpSetCells 2.2.3.1.1.10
The number of cells for which CLP was set by UPC
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

chanIngrXmtCells 2.2.3.1.1.11
The number of cells transmitted to the cellbus
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

chanShelfAlarmDiscardCells 2.2.3.1.1.12
The number of cells discarded due to Shelf Alarm
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

ausmChanClrButton 2.2.3.1.1.13
writing a value of 2 resets all the counters
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER noAction(1), resetCounters(2)  

chanEpdDiscCells 2.2.3.1.1.14
The number of cells discarded due to EPD (Early Packet Discard) condition
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

chanPpdDiscCells 2.2.3.1.1.15
The number of cells discarded due to PPD (Partial Packet Discard) condition
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

chanIngrRcvCellRate 2.2.3.1.1.16
The number of cells received per second from the port. Statistics collected before UPC and ingress qeueing. The maximum value is 5000 because clear E1 rate is 4830.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Gauge  

chanIngrRcvUtilization 2.2.3.1.1.17
The percentage utilization of the reserved bandwidth (PCR). Statistics collected before UPC and ingress queueing. The maximum value is 200 because a connection can oversubcribe.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Gauge  

chanIngrXmtCellRate 2.2.3.1.1.18
The number of cells transmitted per second to the network. Statistics collected after UPC and ingress qeueing.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Gauge  

chanIngrXmtUtilization 2.2.3.1.1.19
The percentage utilization of the reserved bandwidth (PCR). Statistics collected after UPC and ingress queueing.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Gauge  

chanEgrRcvCellRate 2.2.3.1.1.20
The number of cells received per second from the network. Statistics collected before egress qeueing.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Gauge  

chanEgrRcvUtilization 2.2.3.1.1.21
The percentage utilization of the reserved bandwidth (PCR). Statistics collected before egress queueing.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Gauge  

chanIngrXmtAAL5Frames 2.2.3.1.1.22
This statistics provides a count of the number of AAL5 Frames that are sent to the network
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

chanIngrEfciSetXmtCells 2.2.3.1.1.23
This statistics provides a count of the number of EFCI set cells that are transmitted to the network. This statistis is collected after the policing and queueing.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

chanEgrPortQfullDiscardCells 2.2.3.1.1.24
This statistics provides a count of the number of cells discarded because of Egress Port Queue full. This count is displayed for the queue corresponding to port and the service type to which this channel belongs.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

chanEgrPortQClpThresDiscardCells 2.2.3.1.1.25
This statistics provides a count of the number of cells discarded because of Egress Port Queue CLP Threshold exceed. This count is displayed for the queue corresponding to port and the service type to which this channel belongs.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

chanTxFifoFullCnt 2.2.3.1.1.26
This statistics provides a count of the number of times the AUSM card tried to send a cell, but was unable to send because the Transmit FIFO was full. Note that this is NOT a count of the number of cells dropped. This statistics is per card statistics.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

chanIngrCurrQDepth 2.2.3.1.1.27
Current queue depth on the ingress direction
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..ffff  

ausmChanStateGrp 2.2.2
OBJECT IDENTIFIER    

ausmChanStateGrpTable 2.2.2.1
Table of transmit/receive states of channels.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    AusmChanStateGrpEntry

ausmChanStateGrpEntry 2.2.2.1.1
An entry for AusmChannelStateGrpEntry.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  AusmChanStateGrpEntry  

ausmStateChanNum 2.2.2.1.1.1
Refers to the logical channel number. In AUSM (4-port card), the permissible range is from 16..271.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 16..1015  

ausmChanState 2.2.2.1.1.2
This variable indicates the state of the VC (channel) failed(4) is added to distinguish between alarm (when the connection segment is not actually broken) and failed(when the segment is actually broken). This is applicable only to the PNNI environment.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER notconfigured(1), normal(2), alarm(3), failed(4)  

chanEgrXmtState 2.2.2.1.1.3
indicates the status of port transmit(Egress)
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER other(1), normal(2), sendingAis(3), sendingFerf(4)  

chanIngrRcvState 2.2.2.1.1.4
indicates the status of port receive(Ingress)
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER other(1), normal(2), receivingAis(3), receivingFerf(4), alarm(5)  

chanIngrXmtState 2.2.2.1.1.5
This variable indicates the transmit state of the VC (channel) on the Cellbus side (Ingress) 1 - other 2- normal 3 - sendingAIS 4 - sendingFerf
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER other(1), normal(2), sendingAis(3), sendingFerf(4)  

chanEgrRcvState 2.2.2.1.1.6
This variable indicates the receiving state of the VC (channel) on the Cellbus side (Egress) 1 - other 2- normal 3 - receivingAIS 4 - receivingFERF
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER other(1), normal(2), receivingAis(3), receivingFerf(4), alarm(5)  

ausmChanStatusBitMap 2.2.2.1.1.7
This variable indicates the consolidated bit map of the channel alarm state. Individual bit positions are as defined below. Bit position Fail/Alarm Reason ------------ ---------- ------ 0 Alarm port side AIS/RDI Rx 1 Alarm n/w side AIS/RDI Rx 2 Fail Conditioned(A bit from n/w) 3 Alarm Reserved 4 Fail Reserved 5 Fail Reserved 6 Alarm Reserved 7 Alarm Reserved Fail bitmap mask : 0x34 Alarm bitmap mask: 0xCB This object is not applicable to MGX Release 1.x.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..ff  

ausmEndPointMapGrp 2.3
OBJECT IDENTIFIER    

ausmEndPointMapGrpTable 2.3.1
For Ausm-4p There are 255 entries For Ausm-8p There are 1000 entries For PXM (MGX) There are 4096 entries Port Num and VpiVci will uniquely identify a row.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    AusmEndPointMapGrpEntry

ausmEndPointMapGrpEntry 2.3.1.1
An entry in the table
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  AusmEndPointMapGrpEntry  

ausmEndPortNum 2.3.1.1.1
Refers to the logical port on the board. In AUSM (4-port card), a logical port is synonymous with a physical port. In PXM, a port refers to the Logical Broadband Interface. Refer bbIfCnfPortGrp.my for more information.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..32  

endVpi 2.3.1.1.2
The VPI value for the connection
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..4095  

endVci 2.3.1.1.3
The VCI value for the connection
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..ffff  

ausmEndChanNum 2.3.1.1.4
Refers to the logical connection for this port and VpiVci. In AUSM (4-port card), the permissible range is 16..271 In AUSM (8-port card), the permissible range is 16..1015 In PXM (MGX ) , the permissible range is 16..4111
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 16..4111  

endChanType 2.3.1.1.5
Refers to the type of the connection for this Port and VpiVci
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER vpc(1), vcc(2)  

ausmPortCnfPortGrp 2.1.1.1
OBJECT IDENTIFIER    

ausmPortCnfPortGrpTable 2.1.1.1.1
The config table is for logical port interface there are 8 entries for either T1 or E1
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    AusmPortCnfPortGrpEntry

ausmPortCnfPortGrpEntry 2.1.1.1.1.1
An entry for logical port. In AUSM (4-port card), a logical port is same as a physical port.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  AusmPortCnfPortGrpEntry  

ausmPortNum 2.1.1.1.1.1.1
This is logical port number. In AUSM (4-port card), a logical port is same as a physical port.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..8  

portEnable 2.1.1.1.1.1.2
This variable enables or disables the port 1 - disable 2 - enable
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disable(1), enable(2)  

ausmPortType 2.1.1.1.1.1.3
This variable indicates whether UNI/NNI/STI interface STI mode is supported only in IMATM. vpTrkUni should be used only in IMATM when virtual trunks are passing through IMATM (i.e. the cell format is UNI but ForeSight information is carried in the lower 16 bits)
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER uni(1), nni(2), sti(3), vpTrkUni(4)  

ausmPortIfType 2.1.1.1.1.1.4
This variable indicates the type of interface
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER unknown(1), t1(2), e1(3)  

ausmPortSpeed 2.1.1.1.1.1.5
The speed of the port in cells per second
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

ausmLineNum 2.1.1.1.1.1.6
The line number associated with the logical port. For AUSM (4 port), the line number is same as the logical port. In AUSM-8p, these two can be different
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

ausmPortCnfResPartGrp 2.1.1.5
OBJECT IDENTIFIER    

ausmPortDelSvcsGrp 2.1.1.6
OBJECT IDENTIFIER    

ausmPortCnfResPartGrpTable 2.1.1.5.1
The config table is for logical port interface there are 4/8 entries for either T1 or E1 or AIMUX ports For PXM (MGX), there are 32 entries.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    AusmPortCnfResPartGrpEntry

ausmPortCnfResPartGrpEntry 2.1.1.5.1.1
An entry for logical port
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  AusmPortCnfResPartGrpEntry  

ausmResPartPortNum 2.1.1.5.1.1.1
This is logical port number In PXM, a port refers to the Logical Broadband Interface. Refer bbIfCnfPortGrp.my for more information.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..32  

ausmPortSvcInUse 2.1.1.5.1.1.2
Setting this object to 1 indicates that the resources (LCN/Local VPID/VCI/VPI) have been partitioned and INS and SV+ are currently using this information. The resource partition information can be changed after setting this variable to 2. The default value is 2 (NotInUse).
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER inUse(1), notInUse(2)  

ausmPortSvcShareLcnVpid 2.1.1.5.1.1.3
Indicates whether or not the LCN and VPid address spaces are shared across all the ports. Default value is 2 (cardBased).
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER portBased(1), cardBased(2)  

ausmPortSvcLcnLow 2.1.1.5.1.1.4
The beginning of the LCN range reserved for SVCs. Both the LCN low and high values apply to all ports when the 'atmPortSvcShareLcnVpid' object is set to 2 (CardBased). When they are changed for one port the change is applicable/propagated to all ports.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 16..4111  

ausmPortSvcLcnHigh 2.1.1.5.1.1.5
The end of the LCN range reserved for SVCs.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 16..4111  

ausmPortSvcVpidLow 2.1.1.5.1.1.6
The beginning of the VPID range reserved for SVCs. Both the VPID low and high values apply to all ports when the 'atmPortSvcShareLcnVpid' object is set to 2 (CardBased). When they are changed for one port the change is applicable/propagated to all ports.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..100  

ausmPortSvcVpidHigh 2.1.1.5.1.1.7
The end of the VPID range reserved for SVCs.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..100  

ausmPortSvcVciLow 2.1.1.5.1.1.8
The beginning of the VCI range reserved for SVCs. For VPI connections the valid VCI values are 0 - 4095
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..ffff  

ausmPortSvcVciHigh 2.1.1.5.1.1.9
The end of the VCI range reserved for SVCs. For VPI connections the valid VCI values are 0 -4095
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..ffff  

ausmPortSvcVpiLow 2.1.1.5.1.1.10
The beginning of the VCI range reserved for SVCs.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..4095  

ausmPortSvcVpiHigh 2.1.1.5.1.1.11
The end of the VPI range reserved for SVCs.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..4095  

ausmPortIngrSvcBandW 2.1.1.5.1.1.12
This represents Ingress Bandwidth reserved for SVC
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..100  

ausmPortEgrSvcBandW 2.1.1.5.1.1.13
This represents Egress Bandwidth reserved for SVC
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..100  

ausmPortDelSvcsGrpTable 2.1.1.6.1
The table is for logical port interface there are 4/8 entries for either T1 or E1 or AIMUX ports For PXM (MGX), there are 32 entries.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    AusmPortDelSvcsGrpEntry

ausmPortDelSvcsGrpEntry 2.1.1.6.1.1
An entry for logical port
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  AusmPortDelSvcsGrpEntry  

ausmDelSvcsPortNum 2.1.1.6.1.1.1
This is logical port number In PXM, a port refers to the Logical Broadband Interface. Refer bbIfCnfPortGrp.my for more information.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..32  

ausmPortDeleteSvcs 2.1.1.6.1.1.2
Setting this object to 1 indicates that all the SVC connections on the given port has to be deleted
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER delete(1), other(2)  

ausmPortCnfServiceQueGrp 2.1.1.2
OBJECT IDENTIFIER    

ausmPortCnfServiceQueGrpTable 2.1.1.2.1
In AUSM (4port): the Service queue table has 64 entries, 16 each for every port, in addition there are 4 queues for OAM/ILMI traffic In AUSM (8-port), the Service queue table has 128 entries, 16 each for every port, in addition there are 8 queues for OAM/ILMI traffic
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    AusmPortCnfServiceQueGrpEntry

ausmPortCnfServiceQueGrpEntry 2.1.1.2.1.1
An entry for a single queue
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  AusmPortCnfServiceQueGrpEntry  

egrQIndex 2.1.1.2.1.1.1
Egress queue number. In AUSM (4 port), only range from 1..12 is permissible
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..16  

servicePortNum 2.1.1.2.1.1.2
Logical port number to which egress queue is associated. In AUSM (4-port card), a logical port is same as a physical port. This is read only and queue mapping is as follows 1-16 port no 1 17-32 port no 2 33-48 port no 3 49-64 port no 4 For AUSM 8-port card, the following queue mapping is used in addition to the above: 65-80 port no 5 81-96 port no 6 97-112 port no 7 113-128 port no 8
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..8  

egrQBinState 2.1.1.2.1.1.3
Egress queue state
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disable(1), enable(2)  

egrQServiceSequence 2.1.1.2.1.1.4
Egress queue number sequence in the priority list. In AUSM (4 port), range from only 1..12 is permissible
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..16  

egrQDepthMax 2.1.1.2.1.1.5
The maximum depth of the egress queue. In AUSM (4 port), range from only 1..8000 is permissible
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..16000  

egrQCLPThreshHigh 2.1.1.2.1.1.6
High CLP threshold of the egress queue. In AUSM (4 port), range from only 1..8000 is permissible.This value should be less than or equal to egrQDepthMax.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..16000  

egrQCLPThreshLow 2.1.1.2.1.1.7
Low CLP threshold of the egress queue. In AUSM (4 port), range from only 1..8000 is permissible. This value should be less than or equal to egrQCLPThreshHigh.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..16000  

egrQEfciThresh 2.1.1.2.1.1.8
Threshold of the egress queue for EFCI. In AUSM (4 port), range from only 1..8000 is permissible.This value should be less than or equal to egrQDepthMax.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..16000  

egrQAlgorithm 2.1.1.2.1.1.9
The algorithm number for the Egress queue 1-5 are valid values 'ff'h is disable
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..ff  

egrMaxBwInc 2.1.1.2.1.1.10
The increment for the Maximum carry for the queue. In AUSM (8 port), range from only 1..511 is permissible
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..512  

egrMinBwInc 2.1.1.2.1.1.11
The increment for the minimum carry for the queue. In AUSM (8 port), range from only 1..511 is permissible
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..512  

egrQCLPState 2.1.1.2.1.1.12
this variable indicates the CLP state for the queue
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER clplow(1), clphigh(2)  

egrQfullDiscardCells 2.1.1.2.1.1.13
The number of cells discarded due to Egress Q full
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

egrQClpSetDiscardCells 2.1.1.2.1.1.14
The number of CLP set cells discarded in Egress direction
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

ausmPortCnfSig 2.1.1.3
OBJECT IDENTIFIER    

ausmPortCnfSigILMIGrp 2.1.1.3.1
OBJECT IDENTIFIER    

ausmPortCnfSigILMIGrpTable 2.1.1.3.1.1
The config table is for upto 8 logical port interfaces
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    AusmPortCnfSigILMIGrpEntry

ausmPortCnfSigILMIGrpEntry 2.1.1.3.1.1.1
An entry for a logical port. In AUSM (4-port card), a logical port is same as a physical port.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  AusmPortCnfSigILMIGrpEntry  

sigPortNum 2.1.1.3.1.1.1.1
Refers to the logical port index. In AUSM (4-port card), a logical port is same as a physical port.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..8  

ausmSignallingProtocolType 2.1.1.3.1.1.1.2
This will set the signalling protocol 1 - other 2 - noSignalling 3 - ILMI
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER other(1), noSignalling(2), iLMI(3)  

signallingVpi 2.1.1.3.1.1.1.3
indicates the VPI on which signalling cells arrive
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..ffffff  

signallingVci 2.1.1.3.1.1.1.4
indicates the VCI on which signalling cells arrive
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..ffffff  

addrPrefix 2.1.1.3.1.1.1.5
Network Prefix for the ATM address
Status: mandatory Access: read-write
OBJECT-TYPE    
  NetPrefix  

customerId 2.1.1.3.1.1.1.6
for the INS as a read/write variable
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

protocolRevNo 2.1.1.3.1.1.1.7
for the INS as a read/write variable
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

iLMITrapEnable 2.1.1.3.1.1.1.8
Enable/disable ILMI Trap sending
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disable(1), enable(2)  

minTrapInterval 2.1.1.3.1.1.1.9
number of seconds between traps
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..10  

keepAlivePollingEnable 2.1.1.3.1.1.1.10
Enable/disable Keep Alive Polling
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disable(1), enable(2)  

errorThresholdN491 2.1.1.3.1.1.1.11
Error Threshold (N491) value
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..10  

eventThresholdN492 2.1.1.3.1.1.1.12
Event Threshold (N492) value
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..10  

pollingIntervalT491 2.1.1.3.1.1.1.13
Polling Interval (T491) value
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER v1(5), v2(10), v3(15), v4(20), v5(25), v6(30), v7(35), v8(40), v9(45), v10(50), v11(55), v12(60)  

minEnquiryIntervalT493 2.1.1.3.1.1.1.14
Minimum Enquiry Interval (T493)
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..20  

addrRegEnable 2.1.1.3.1.1.1.15
Enable/disable ILMI Address Registration
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disable(1), enable(2)  

ausmPortCntPortGrp 2.1.3.1
OBJECT IDENTIFIER    

ausmPortCntPortGrpTable 2.1.3.1.1
The config table is for logical port interface there are 8 entries for either T1 or E1
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    AusmPortCntPortGrpEntry

ausmPortCntPortGrpEntry 2.1.3.1.1.1
An entry for logical port
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  AusmPortCntPortGrpEntry  

ausmCntPortNum 2.1.3.1.1.1.1
This is the logical port number. In AUSM (4-port card), a logical port is same as a physical port.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..8  

ingrRcvCells 2.1.3.1.1.1.2
The number of cells received in Ingress direction
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

ingrGfcErrCells 2.1.3.1.1.1.3
The number of cells received in Ingress direction with non zero-GFC
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

ingrVpiVciErrCells 2.1.3.1.1.1.4
The number of cells received in Ingress direction with unknown VpiVci
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

ingrLastUnknVpiVci 2.1.3.1.1.1.5
The last unknown Vpi Vci value
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..ffffff  

egrXmtCells 2.1.3.1.1.1.6
The number of cells transmitted in the egress direction
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

egrPortAlarmDiscardCells 2.1.3.1.1.1.7
The number of cells discarded due to port alarm
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

egrXmtClpSetCells 2.1.3.1.1.1.8
The number of cells transmitted in Egress direction with CLP bit set
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

egrXmtEfciSetCells 2.1.3.1.1.1.9
The number of cells transmitted in Egress direction with EFCI bit set
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

portXmtAisCells 2.1.3.1.1.1.10
The number of AIS cells transmitted towards port
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

portXmtSgmtLpbkCells 2.1.3.1.1.1.11
The number of Segment Loopback cells transmitted towards port
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

portRcvAisCells 2.1.3.1.1.1.12
The number of AIS cells received in Ingress direction
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

portRcvFerfCells 2.1.3.1.1.1.13
The number of FERF cells received in Ingress direction
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

portRcvSgmtLpbkCells 2.1.3.1.1.1.14
The number of Segment Loopback cells received in Ingress direction
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

portRcvCrcErrOAMCells 2.1.3.1.1.1.15
The number of OAM cells received in Ingress direction with CRC error
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

ausmPortClrButton 2.1.3.1.1.1.16
writing a value of 2 resets all the counters
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER noAction(1), resetCounters(2)  

ingrRcvClpSetCells 2.1.3.1.1.1.17
The number of cells received from the port which had the CLP bit in the ATM cell header equal to 1.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

ingrXmtCells 2.1.3.1.1.1.18
The number of cells out of the received cells from the port that were sent to the network. This count is taken after policing and ingress queueing.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

egrRcvCells 2.1.3.1.1.1.19
The number of cells received from the network in the egress direction
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

ingrRcvCellRate 2.1.3.1.1.1.20
The number of cells received per second from the port in the ingress direction. Maximum value is 5000 because because clear E1 rate is 4830.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Gauge  

ingrRcvUtilization 2.1.3.1.1.1.21
The percentage utilization of the port speed in the ingress direction.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Gauge  

egrXmtCellRate 2.1.3.1.1.1.22
The number of cells received transmitted to the port in the egress direction.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Gauge  

egrXmtUtilization 2.1.3.1.1.1.23
The percentage utilization of the port speed in the egress direction.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Gauge  

egrRcvCellRate 2.1.3.1.1.1.24
The number of cells received per second from the network in the egress receive direction.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Gauge  

egrRcvUtilization 2.1.3.1.1.1.25
The percentage utilization of the port speed in the egress receive direction.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Gauge  

totalIngrQfulldiscardCells 2.1.3.1.1.1.26
The total number of cells dropped on all the channels on this port because the the ingress Q was full. Adds up all the IngressQfull discard per channel statistics for all the channels in the port.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

txFifoFullCnt 2.1.3.1.1.1.27
This statistics provides a count of the number of times the AUSM card tried to send a cell, but was unable to send because the Transmit FIFO was full. Note that this is NOT a count of the number of cells dropped. This statistics is per card statistics. This counter is duplicated in channel count group to help monitoring.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

totalIngrClpSetDiscardCells 2.1.3.1.1.1.28
The total number of cells with CLP=1 dropped on all the channels on this port because of either PCR Exceeded, SCR exceeded (with CLP tagging disabled) or CLP Hysteris. Adds up all the IngressClpSet discard per channel statistics for all the channels in the port.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

ausmPortCntSig 2.1.3.2
OBJECT IDENTIFIER    

ausmPortCntSigILMIGrp 2.1.3.2.1
OBJECT IDENTIFIER    

ausmPortCntSigILMIGrpTable 2.1.3.2.1.1
The config table is for physical port interface there are 8 entries for either T1 or E1 or IMA
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    AusmPortCntSigILMIGrpEntry

ausmPortCntSigILMIGrpEntry 2.1.3.2.1.1.1
An entry for logical port. In AUSM (4-port card), a logical port is same as a physical port.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  AusmPortCntSigILMIGrpEntry  

sigCntPortNum 2.1.3.2.1.1.1.1
This is the logical port number.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..8  

snmpPduReceived 2.1.3.2.1.1.1.2
The number of snmp packets received
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

getRequestReceived 2.1.3.2.1.1.1.3
The number of get request messages received
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

getNextRequestReceived 2.1.3.2.1.1.1.4
The number of get-next messages received
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

setRequestReceived 2.1.3.2.1.1.1.5
The number of set messages received
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

trapReceived 2.1.3.2.1.1.1.6
The number of traps received
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

getResponseReceived 2.1.3.2.1.1.1.7
The number of Keep Alive response messages received
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

getResponseTransmitted 2.1.3.2.1.1.1.8
The number of response messages transmitted
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

getRequestTransmitted 2.1.3.2.1.1.1.9
The number of Keep Alive get request messages transmitted
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

trapTransmitted 2.1.3.2.1.1.1.10
The number of trap messages transmitted
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

invalidPDUReceived 2.1.3.2.1.1.1.11
The number of invalid PDUs received
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

asn1ParseError 2.1.3.2.1.1.1.12
The number of parse errors on ASN.1
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

noSuchNameError 2.1.3.2.1.1.1.13
The number of errors for name not present
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

tooBigError 2.1.3.2.1.1.1.14
The number of messages received with len > 484
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

portSigClrButton 2.1.3.2.1.1.1.15
writing a value of 2 resets all the counters
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER noAction(1), resetCounters(2)  

ausmPortStateGrp 2.1.2
OBJECT IDENTIFIER    

ausmPortStateGrpTable 2.1.2.1
The state table for the port interface there are 8 entries for either T1 or E1 or IMA.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    AusmPortStateGrpEntry

ausmPortStateGrpEntry 2.1.2.1.1
An entry for logical port. In AUSM (4-port card), a logical port is same as a physical port.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  AusmPortStateGrpEntry  

ausmStatePortNum 2.1.2.1.1.1
This is logical port number. In AUSM (4-port card), a logical port is same as a physical port.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..8  

ausmPortState 2.1.2.1.1.2
This variable indicates the status of the port
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER notConfigured(1), active(2), remoteloopback(3), linefailure(4), signallingfailure(5), outofcelldelineation(6), localloopback(7)  

ausmPortOversubscribed 2.1.2.1.1.3
This variable indicates the whether the port is over subscribed or not
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER false(1), true(2)  

ausmPortIngrPercentUtil 2.1.2.1.1.4
Percentage Utilization of the Port in the Ingress direction.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..1000  

ausmPortEgrPercentUtil 2.1.2.1.1.5
Percentage Utilization of the Port in the Egress direction.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..1000  

ausmPortInterfaceGrp 2.1.5
OBJECT IDENTIFIER    

ausmInterfaceConfTable 2.1.5.1
This table contains ATM local interface configuration parameters, one entry per ATM (ausm) interface port.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    AusmInterfaceConfEntry

ausmInterfaceConfEntry 2.1.5.1.1
This list contains ATM interface configuration parameters and state variables and is indexed by ausmInterfacePortNum values of ATM interfaces.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  AusmInterfaceConfEntry  

ausmInterfacePortNum 2.1.5.1.1.1
This is logical port number. In AUSM, a logical port is same as a physical port.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..8  

ausmInterfaceMyNeighborIpAddress 2.1.5.1.1.2
The IP address of the neighbor system connected to the far end of this interface, to which a Network Management Station can send SNMP messages, as IP datagrams sent to UDP port 161, in order to access network management information concerning the operation of that system. Note that the value of this object may be obtained in different ways, e.g., by manual configuration, or through ILMI interaction with the neighbor system.
Status: mandatory Access: read-only
OBJECT-TYPE    
  IpAddress  

cesmChanCnfGrp 1.3.6.1.4.1.351.110.5.3.2.1
OBJECT IDENTIFIER    

cesmChanCnfGrpTable 1.3.6.1.4.1.351.110.5.3.2.1.1
The config table is for logical channel interface there are 4 entries for 4 DS1s in case of CESM-4P in case of CESM-8P it can have 263 entries. For CESM-T3/E3 , this will have only one entry.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    CesmChanCnfGrpEntry

cesmChanCnfGrpEntry 1.3.6.1.4.1.351.110.5.3.2.1.1.1
An entry for logical channel
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  CesmChanCnfGrpEntry  

cesCnfChanNum 1.3.6.1.4.1.351.110.5.3.2.1.1.1.1
Refers to the virtual connection no. In case of CESM-4P the range is 16..19 (only for 4 entries). for CESM-8t1 we can have 192 and for CESM-8e1 we can have 248 channels. For CESM-T3/E3 we can have only one connection. For CESM-T1/E1/T3/E3, channel number starts from 35 in Release2.2
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 16..279  

cesChanRowStatus 1.3.6.1.4.1.351.110.5.3.2.1.1.1.2
This indicates the channel status 1 ==> ADD 2 ==> DELETE 3 ==> MODIFY 4 ==> Setting this object to outOfService takes the channel out of service or brings the channel 'down'. The channel can be brought 'up' again by setting the object to mod.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER add(1), del(2), mod(3), outOfService(4)  

cesMapPortNum 1.3.6.1.4.1.351.110.5.3.2.1.1.1.3
In case of CESM-4P this variable specifies the port number to which this channel is associated. Mappings are as - Port 1 - channel 16, 2-17, 3-18, 4-19 (it can take value from 1..4) In CESM-8 this variable gives mapping between logical channel and physical line number. In case of CESM-8P instead of this cesChanPortNum will be used to have the mapping between Channel and logical Port. In case of CESM-T3 it can be 1..1
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..8  

cesMapVpi 1.3.6.1.4.1.351.110.5.3.2.1.1.1.4
The value of this object is equal to the VPI used for the emulated circuit represented by this connection. In MGX8220( formerly AXIS) Implementaion slot number of the card will be used for this.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 5..14  

cesMapVci 1.3.6.1.4.1.351.110.5.3.2.1.1.1.5
This specifies VCI for emulated circuit represented by this VC. Our Implementation cesCnfChanNum will be used for this. In case of CESM-4P valid range is 16..19. In case of CESM-8P valid range is 32..279. In case of CESM-T3/E3 valid value is 32.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 16..279  

cesCBRService 1.3.6.1.4.1.351.110.5.3.2.1.1.1.6
This specifies data type supported by the CBR service Only Unstructured mode is supported in CESM-4P CESM-8P supports both structured and unstructured mode for T1/E1 and supports only unstructured mode in case of T3/E3. In CESM-T3 only unstructured is supported.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER unstructured(1), structured(2)  

cesCBRClockMode 1.3.6.1.4.1.351.110.5.3.2.1.1.1.7
This specifies clocking mode of the CBR service Only synchronous mode is supported in CESM-4P Structured mode is always synchronous. CESM -T3 will support only synchronous.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER synchronous(1), srts(2), adaptive(3)  

cesCas 1.3.6.1.4.1.351.110.5.3.2.1.1.1.8
Specifies if CAS bits are carried by the service. This also selects which AAL1 format should be used. Only basic mode is supported for unstructured connections Only basic mode is supported in CESM-4P and CESM-T3E3 . If type is ccs then this particular VC is carrying Signaling information. ccs option is not supported in CESM-8T1E1. In CESM-8T1/E1 all channels on a line should have the same value. basicNoPointer should be used for adding 1x64 basic connections without an AAL1 pointer ( CES-IS 2.0 compliance ). when cesCas = basic, for 1x64 connections, cells will be generated with a AAL1 pointer.Similarly while receiving, pointer will be expected in the incoming cells. ds1SfCasMF and ds1EsfCasMF should be used when line level multiframe sync to be enabled.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER basic(1), e1Cas(2), ds1SfCas(3), ds1EsfCas(4), ccs(5), conditionedE1Cas(6), basicNoPointer(7), ds1SfCasMF(8), ds1EsfCasMF(9)  

cesPartialFill 1.3.6.1.4.1.351.110.5.3.2.1.1.1.9
Specifies the number of user octets per cell, if partial cell fill is used. 47 means partial fill disabled. Partial fill is not supported in CESM-4P Ranges for partial fill are: T1 struct 25 - 47 T1 unstruct 33 - 47 E1 struct 20 - 47 E1 unstruct 33 - 47 and partial fill for any channel should always exceed the number of time slots assigned to that channel.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..47  

cesBufMaxSize 1.3.6.1.4.1.351.110.5.3.2.1.1.1.10
Specifies the maximum size in octets of egress buffer. CESM - 4P: Should be at least 0.6*CDVRxT for a T1 line and 0.7 * CDVRxT for a E1 line. 0 can be specified to internally compute the value Defaults for CESM-8T1E1 and CESM-T3E3 ------------------------------------- Default value of cesBufMaxSize is 0. Maximum value for CESM-8T1E1 and CESM-T3E3 ------------------------------------------- For T1 UDT and E1 UDT : 16224 bytes For T1 SDT : 384 * N bytes For E1 SDT : 417 * N bytes For T3 UDT and E3 UDT : 16224 bytes where N is the number of timeslots assigned in Nx64 connection. For T1-UDT and E1 UDT use N = 32 . Minimum value for CESM-8T1E1 and CESM-T3E3 ------------------------------------------- In CESM-8T1/E1 and CESM-T3E3 this object ( unit in bytes ) should be at least the greater of (1) CDVT in frames * 2 * N (2) ( CDVT in frames + number of frames in two cells ) * N where N is the number of timeslots assigned in Nx64 connection. For T1-UDT and E1-UDT use N = 32.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..65535  

cesCDVRxT 1.3.6.1.4.1.351.110.5.3.2.1.1.1.11
Specifies maximum cell arrival jitter that the reassembly process will tolerate. In case of CESM-8P it should be in increment of 125 micro secs and Max limit are as follows. T1 = 24 ms E1 = 26 ms T3 = 1.447 ms and E3 = 1.884 ms. Default values in CESM-8T1/E1 and CESM-T3/E3.: For T1 and E1 , 1000 microsecs. For T3 and E3 , 1000 microsecs.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 125..65535  

cesCellLossIntegrationPeriod 1.3.6.1.4.1.351.110.5.3.2.1.1.1.12
Specifies the cell loss integration period in milliseconds
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1000..65535  

cesChanLocRmtLpbkState 1.3.6.1.4.1.351.110.5.3.2.1.1.1.13
Loopback on cellbus in egress direction.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER enable(1), disable(2)  

cesChanTestType 1.3.6.1.4.1.351.110.5.3.2.1.1.1.14
This is the type of the test 1 = Test Continuity 2 = Test Delay 3 = no test is initated 4 = test continuity with sti cell format 5 = test delay with sti cell format
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER testcon(1), testdelay(2), notest(3), testconsti(4), testdelaysti(5)  

cesChanTestState 1.3.6.1.4.1.351.110.5.3.2.1.1.1.15
This shows the state of the test 1 = Passed 2 = Failed 3 = In Progress 4 = Not In Progress
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER passed(1), failed(2), inprogress(3), notinprogress(4)  

cesChanRTDResult 1.3.6.1.4.1.351.110.5.3.2.1.1.1.16
This is round trip delay in milliseconds
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..65535  

cesChanPortNum 1.3.6.1.4.1.351.110.5.3.2.1.1.1.17
This indicates to which logical port this connection belongs. Applicable on CESM-8T1/E1 or CESM-T3/E3. 1.. 248 for E1 1.. 192 for T1 1.. 1 for T3 Only applicable to CESM-8P
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..248  

cesChanConnType 1.3.6.1.4.1.351.110.5.3.2.1.1.1.18
This indicates the type of connection. 1 = PVC 2 = SVC 3 ==> SPVC connection Only applicable to CESM-8P and CESM-T3/E3.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER pvc(1), svc(2), spvc(3)  

cesChanStrauSciNum 1.3.6.1.4.1.351.110.5.3.2.1.1.1.19
This indicates the type of connection. 1 = Normal Channel (nonStrauChannel(0) ) 2 = SCI 1 i.e bit 1 & 2 3 = SCI 2 i.e bit 3 & 4 4 = SCI 3 i.e bit 5 & 6 5 = SCI 4 i.e bit 7 & 8 Currently not supported in CESM-8 Not applicable for CESM-4 and CESM-T3/E3
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER nonStrauChannel(1), sci1(2), sci2(3), sci3(4), sci4(5)  

cesChanIdleDetEnable 1.3.6.1.4.1.351.110.5.3.2.1.1.1.20
This indicates the type of Idle detection enabled 1 = Idle code detection is disabled. 2 = This will enable Idle detection whenver it detects Onhook in ABCD bits. Onhook code is configurable using cesChanOnhookCode. Applicable in structured mode. 3 = This will enable payload Idle code detection. Idle pattern is configurable through cesChanIdleSignalCode variable. Only applicable to CESM-8T1/E1 and non strau channels This will be supported in future release
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disable(1), enableOnhookDet(2), enableIdlePatternDet(3)  

cesChanIdleSignalCode 1.3.6.1.4.1.351.110.5.3.2.1.1.1.21
When cesChanIdleDetEnable = enableIdlePatternDet 3. This object will carry value 0..0xff and this will indicate Idle pattern in DS0 time slots. Only applicable to CESM-8P and not supported in this release.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..255  

cesChanIdleCodeIntgnPeriod 1.3.6.1.4.1.351.110.5.3.2.1.1.1.22
This variable indicates the Integration period in seconds whenever cesChanIdleDetEnable = enableIdlePatternDet Only applicable to CESM-8P and not supported in this release.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..100  

cesChanOnhookCode 1.3.6.1.4.1.351.110.5.3.2.1.1.1.23
When cesChanIdleDetEnable = enableOnhookDet 1. This will carry value 0..3 for framing mode SF. 2. This will carry value 0..15 for framing mode ESF/e1Cas. Only applicable for CESM-8T1/E1
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..15  

cesChanConditionedData 1.3.6.1.4.1.351.110.5.3.2.1.1.1.24
This byte will indicate Idle data to be sent towards the line whenever channels goes in to Underrun Only applicable for CESM-8T1/E1
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..255  

cesmChanExtTrgIdleSupp 1.3.6.1.4.1.351.110.5.3.2.1.1.1.25
Using this variable we can initiate Idle suppression on the connection. This can be set by external signalling device. Only applicable to CESM-8T1/E1.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disablesuppression(1), enableSuppresion(2)  

cesmChanConditionedSigCode 1.3.6.1.4.1.351.110.5.3.2.1.1.1.26
This byte will indicate Signal code to be sent sent towards the line whenever channels goes in to Underrun Only applicable to CESM-8T1/E1
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..255  

cesLocalVpi 1.3.6.1.4.1.351.110.5.3.2.1.1.1.27
This VPI together with the local VCI and NSAP represents the local end point in this connection, this object is read only, therefore it'll be assigned by SM to 0.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..65535  

cesLocalVci 1.3.6.1.4.1.351.110.5.3.2.1.1.1.28
This VCI together with the local VPI and NSAP represents the local end point in this connection, this object is read only, therefore it'll be assigned by SM to 0.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..65535  

cesLocalNSAP 1.3.6.1.4.1.351.110.5.3.2.1.1.1.29
This NSAP is 20 bytes binary, among these 20 bytes: 13 bytes as prefix, 2 bytes for Cisco ID, 1 byte rsvd, 3 bytes for logical interface: slot (1 byte) and port number (2 bytes), the last byte is for SEL
Status: mandatory Access: read-write
OBJECT-TYPE    
  OCTET STRING Size(0..20)  

cesRemoteVpi 1.3.6.1.4.1.351.110.5.3.2.1.1.1.30
This VPI together with the remote VCI and NSAP represents the remote end point in this connection. The value should be 0 for a DACS connection in MGX
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..65535  

cesRemoteVci 1.3.6.1.4.1.351.110.5.3.2.1.1.1.31
This VCI together with the remote VPI and NSAP represents the remote end point in this connection. The value should be 0 for a DACS connection in MGX
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..65535  

cesRemoteNSAP 1.3.6.1.4.1.351.110.5.3.2.1.1.1.32
This NSAP is 20 bytes binary, among these 20 bytes: 13 bytes as prefix, 2 bytes for Cisco ID, 1 byte rsvd, 3 bytes for logical interface: slot (1 byte) and port number (2 bytes), the last byte is for SEL
Status: mandatory Access: read-write
OBJECT-TYPE    
  OCTET STRING Size(0..20)  

cesMastership 1.3.6.1.4.1.351.110.5.3.2.1.1.1.33
This is used by PXM to determine if this end point is master or slave, a new type unknown is added to identify the SM in MGX8220(formerly AXIS) shelf and the SM in MGX shelf. In MGX8220 shelf, user can still use addchan to add a channel without specifying X/Y/P parameters. But in MGX shelf, if the user uses addchan without X/Y/P set (based on this object being set to type 3 unknown), SPM on PXM will reject the request. It must be supplied in connection setup request
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER master(1), slave(2), unkown(3)  

cesVpcFlag 1.3.6.1.4.1.351.110.5.3.2.1.1.1.34
This represents the connection type, used for PXM to identify VPC/VCC but CESM card doesn't use it always set to vcc for CESM card
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER vpc(1), vcc(2)  

cesConnServiceType 1.3.6.1.4.1.351.110.5.3.2.1.1.1.35
This specifies the service type 1 ==> Constant Bit Rate 2 ==> Variable Bit Rate 3 ==> Not used 4 ==> Unspecified Bit Rate 5 ==> ATM frame relay 6 ==> standard ABR 7 ==> foresight ABR Note that this is used by PXM card, SV+ doesn't need to set it, if not set in the connection setup request, it'll be defaulted to CBR type for CESM. Also to make it compatible with existing AUSM MIB definition, value 3 is not used. The following types are being added for PNNI support and are based on UNI 4.0. cbr1 (21) - CBR.1 vbr1rt (22) - Real time VBR.1 vbr2rt (23) - Real time VBR.2 vbr3rt (24) - Real time VBR.3 vbr1nrt(25) - Non Real time VBR.1 vbr2nrt(26) - Non Real time VBR.2 vbr3nrt(27) - Non Real time VBR.3 ubr1 (28) - UBR.1 ubr2 (29) - UBR.2 stdabr (30) - TM 4.0 compliant standard ABR cbr2 (31) - CBR.2 cbr3 (32) - CBR.3 Note that for CESM, the only valid connection type for PNNI support is cbr1(21). Other enumerations have been added for the sake of consistency across Narrow-Band service modules.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER cbr(1), vbr(2), ubr(4), atfr(5), abrstd(6), abrfst(7), cbr1(21), vbr1rt(22), vbr2rt(23), vbr3rt(24), vbr1nrt(25), vbr2nrt(26), vbr3nrt(27), ubr1(28), ubr2(29), stdabr(30), cbr2(31), cbr3(32)  

cesRoutingPriority 1.3.6.1.4.1.351.110.5.3.2.1.1.1.36
This is used by PXM to determine how important this connection is when selecting connections to route
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..15  

cesMaxCost 1.3.6.1.4.1.351.110.5.3.2.1.1.1.37
Maximum allowed cost. It is related to Cost Based Routing. This is used by PXM so that it won't choose a path with a cost greater than this configured level. This is not necessary to be provided in the connection setup request, if not provided, the default value 255 will be used. When used with PAR controller the valid range is 1..65535 and the default value is 255. When used with PNNI controller the valid range is 1..2147483647 and the default value is 2147483647.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..2147483647  

cesRestrictTrunkType 1.3.6.1.4.1.351.110.5.3.2.1.1.1.38
Restricted trunk type for routing, used by PXM. It specifies that the connection either cannot be routed over satelite trunks, or terrestrial trunks, or it can be on any type of trunk. It is not necessary to be provide in the connection setup request, the default value is noresriction(1).
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER noresriction(1), terrestrialTrunk(2), sateliteTrunk(3)  

cesConnPCR 1.3.6.1.4.1.351.110.5.3.2.1.1.1.39
Peak cell rate,if not provided in the connection setup request,it will be computed as follows, For CESM-8T1/E1 - N * 64 Kbps , where N = Number of timeslots assigned to this channel. For CESM-T3, the value is 44736 Kbps For CESM-E3, the value is 34368 Kbps.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

cesConnMCR 1.3.6.1.4.1.351.110.5.3.2.1.1.1.40
Minimum cell rate,if not provided in the connection setup request,it will be computed as follows, For CESM-8T1/E1 - N * 64 Kbps , where N = Number of timeslots assigned to this channel. For CESM-T3, the value is 44736 Kbps For CESM-E3, the value is 34368 Kbps.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

cesConnPercentUtil 1.3.6.1.4.1.351.110.5.3.2.1.1.1.41
This is the expected long-term utilization of the channel by theis end-point. For CESM-8T1/E1/T3/E3 , the value is 100%
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..100  

cesmConnRemotePCR 1.3.6.1.4.1.351.110.5.3.2.1.1.1.42
Peak cell rate of the other end, if not set in MGX, will be derived from the end point parameter
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

cesmConnRemoteMCR 1.3.6.1.4.1.351.110.5.3.2.1.1.1.43
Minimum cell rate of the other end, if not set in MGX, will be derived from the end point parameter
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

cesmConnRemotePercentUtil 1.3.6.1.4.1.351.110.5.3.2.1.1.1.44
This is the expected long-term utilization of the channel by the other end-point.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..100  

cesmConnForeSightEnable 1.3.6.1.4.1.351.110.5.3.2.1.1.1.45
This object is used by the controller(PAR/PNNI/TAG) to set up the Qbin for the connection. This is notapplicable to CESM-8T1/E1/T3/E3.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER enable(1), disable(2)  

cesmConnFGCRAEnable 1.3.6.1.4.1.351.110.5.3.2.1.1.1.46
enables/disables Frame based GCRA (early packet discard). This is not applicable to CESM-8T1/E1/T3/E3.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER enable(1), disable(2)  

cesmChanReroute 1.3.6.1.4.1.351.110.5.3.2.1.1.1.47
This is used by the administrator to trigger the re-routing of the connection. The rerouting takes effect, when this object is set to true(1). When set to false (2), no action is taken. A get on this object always returns false (2). This object is not applicable to MGX Release 1.x.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER true(1), false(2)  

cesmConnAdminStatus 1.3.6.1.4.1.351.110.5.3.2.1.1.1.48
This object specifies channel admin status. This object is not applicable to MGX Release 1.x.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER up(1), down(2)  

cesmChanNumNextAvailable 1.3.6.1.4.1.351.110.5.3.2.1.2
This variable contains the next unused channel number of the possible 248. This number can be used in channel config table. cesChanNumNextAvailable gets updated whenever this number is used to create a new logical channel. Value 0 for this variable indicates that no more channels are available. In CESM 8-port card), the maximum number of values for this variable is 248 (i.e. 32 ..279). Only applicable to CESM-8T1/E1/T3/E3.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..279  

cesmChanCntGrp 1.3.6.1.4.1.351.110.5.3.2.2
OBJECT IDENTIFIER    

cesmChanCntGrpTable 1.3.6.1.4.1.351.110.5.3.2.2.1
The config table is for logical channel interface there are 4 entries for 4 DS1s in case of CESM-4P In case of CESM-8P it can have 352 entries.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    CesmChanCntGrpEntry

cesmChanCntGrpEntry 1.3.6.1.4.1.351.110.5.3.2.2.1.1
An entry for logical channel
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  CesmChanCntGrpEntry  

cesCntChanNum 1.3.6.1.4.1.351.110.5.3.2.2.1.1.1
Refers to the channel Number 16 - 19 for CESM-4P 32 - 279 for CESM-8t1e1 32 for CESM-T3/E3
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 16..279  

cesChanState 1.3.6.1.4.1.351.110.5.3.2.2.1.1.2
This variable indicates the connection status failed(4) is added to distinguish between alarm (when the connection segment is not actually broken) and failed(when the segment is actually broken). This is applicable only to the PNNI environment.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER notConfigured(1), okay(2), alarm(3), failed(4)  

cesXmtATMState 1.3.6.1.4.1.351.110.5.3.2.2.1.1.3
This variable indicates the transmit state of channel on the ATM side (towards the network).
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER other(1), normal(2), sendingAIS(3), sendingFERF(4)  

cesRcvATMState 1.3.6.1.4.1.351.110.5.3.2.2.1.1.4
This variable indicates the receive state of channel on the ATM side (from the network).
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER other(1), normal(2), receivingAIS(3), receivingFERF(4)  

cesCellLossStatus 1.3.6.1.4.1.351.110.5.3.2.2.1.1.5
When cells are lost for the CellLossIntegrationPeriod the value is set to loss ( 2). when cells are no longer lost, the value is set to noLoss(1).
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER noLoss(1), loss(2)  

cesReassCells 1.3.6.1.4.1.351.110.5.3.2.2.1.1.6
The number of cells played out to T1/E1/T3E3 interface. It excludes cells that were discarded for any reason.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

cesGenCells 1.3.6.1.4.1.351.110.5.3.2.2.1.1.7
The number of cells generated from T1/E1/T3E3 interface and sent towards network.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

cesHdrErrors 1.3.6.1.4.1.351.110.5.3.2.2.1.1.8
The number of AAL-1 header errors detected and possibly corrected. Header errors include correctable and uncor- rectable CRC, plus bad parity.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

cesPointerReframes 1.3.6.1.4.1.351.110.5.3.2.2.1.1.9
The number of events in which the AAL1 reassembler found that an SDT pointer is not where it is expected and the and the pointer must be reacquired. Not supported in cesm8P due limitation in AAL1 SAR. Not applicable for CESM-4T1/E1 and CESM-T3/E3
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

cesLostCells 1.3.6.1.4.1.351.110.5.3.2.2.1.1.10
The number of cells lost in egress direction due to AAL 1 header errors and missing cells.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

cesBufUnderflows 1.3.6.1.4.1.351.110.5.3.2.2.1.1.11
The number of buffer underflows in Egress direction Not supported in cesm8P due limitation in AAL1 SAR.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

cesBufOverflows 1.3.6.1.4.1.351.110.5.3.2.2.1.1.12
The number of buffer overflows in Egress direction Not supported in cesm8P due limitation in AAL1 SAR.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

cesIngrDiscardedBytes 1.3.6.1.4.1.351.110.5.3.2.2.1.1.13
The number of bytes discarded due to shelf alarm in ingress direction from port data. Not supported in CESM-8P.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

cesUflowInsCells 1.3.6.1.4.1.351.110.5.3.2.2.1.1.14
The Number of All 1's cells inserted in case of Egress Buffer Underflow Not supported in CESM-8P.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

cesOflowDropBytes 1.3.6.1.4.1.351.110.5.3.2.2.1.1.15
The Number of bytes discarded in Egress direction because of Egress buffer overflow Not supported in CESM-8P.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

cesCellSeqMismatchCnt 1.3.6.1.4.1.351.110.5.3.2.2.1.1.16
The Number of times SAR received a valid out of sequence AAL-1 cell from CellBus.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

counterClrButton 1.3.6.1.4.1.351.110.5.3.2.2.1.1.17
writing a value of 2 resets all the counters
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER noAction(1), resetCounters(2)  

cesChanSecUptime 1.3.6.1.4.1.351.110.5.3.2.2.1.1.18
The Number of seconds channel is in service only applicable for CESM-8P
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

cesChanSignalingStatus 1.3.6.1.4.1.351.110.5.3.2.2.1.1.19
This variable indicates the connection signalling status Connection will be in Idle suppression mode if it in on-hook. Not applicable for T3E3 and CESM-4P.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER off-hook(1), on-hook(2)  

cesChanStatusBitMap 1.3.6.1.4.1.351.110.5.3.2.2.1.1.20
This variable indicates the consolidated bit map of the channel alarm state. Individual bit positions are as defined below. Bit position Fail/Alarm Reason ------------ ---------- ------ 0 Alarm Reserved 1 Alarm n/w side AIS/RDI Rx 2 Fail Conditioned(A bit from n/w) 3 Alarm Reserved 4 Fail Reserved 5 Fail Reserved 6 Alarm Reserved 7 Alarm Cell loss alarm Fail bitmap mask : 0x34 Alarm bitmap mask: 0xCB This object is not applicable to MGX Release 1.x.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..ff  

cesmPort 1.3.6.1.4.1.351.110.5.3.1
OBJECT IDENTIFIER    

cesmPortCnfGrp 1.3.6.1.4.1.351.110.5.3.1.1
OBJECT IDENTIFIER    

cesmPortCnfGrpTable 1.3.6.1.4.1.351.110.5.3.1.1.1
The config table is for logical port interface there are 192 entries for 8 DS1s or 248 entries for 8 E1s
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    CesmPortCnfGrpEntry

cesmPortCnfGrpEntry 1.3.6.1.4.1.351.110.5.3.1.1.1.1
An entry for logical port
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  CesmPortCnfGrpEntry  

cesPortNum 1.3.6.1.4.1.351.110.5.3.1.1.1.1.1
This is logical port number. If we have T1 card then the maximum port number is 192 and if we have E1 card the maximum port number can be 248 for T3 only one port is supported.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..248  

cesPortRowStatus 1.3.6.1.4.1.351.110.5.3.1.1.1.1.2
This variable enables or modifies the port 1- add 2 - del 3 - mod
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER add(1), del(2), mod(3)  

cesPortLineNum 1.3.6.1.4.1.351.110.5.3.1.1.1.1.3
This represents the line number to which this port is associated. For T3 only one line is supported.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..8  

cesPortType 1.3.6.1.4.1.351.110.5.3.1.1.1.1.4
This represents port type whether it is carrying subrate circuits strau. If it is strau port then it can have only one DS0 time slot. In case of unstructured all the time slots will be allocated to that. Strau ports are not supported in CESM-8T1/E1 or CESM-T3E3. framingOnVcDisconnect is similar to unstructured port during normal operation. In case of channel failure, line data will be looped back towards line. CESM-T3E3 card will support only unstructured mode.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER structured(1), unstructured(2), framingOnVcDisconnect(3), strau(4)  

cesPortDs0ConfigBitMap 1.3.6.1.4.1.351.110.5.3.1.1.1.1.5
This respesents bit map of DS0s for a line which are used to form this logical port. Bit 0 represents DS0-1.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..ffffff  

cesPortNumOfDs0Slot 1.3.6.1.4.1.351.110.5.3.1.1.1.1.6
This represents number of DS0 time slots configured to this Port. If the port type is strau then this can not have more than 1 DS0 time slot.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..32  

cesPortNumOfSCIPerDS0 1.3.6.1.4.1.351.110.5.3.1.1.1.1.7
This is applicable only to the Strau Port. represents number of subcircuit in the DS0 time slot. 8 = there are 8 no .of 8kbps links (1 bit) 4 = there are 4 no .of 16kbps links (2 bit) 2 = there are 2 no .of 32kbps links (4 bit) Currently not supported in CESM-8
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..8  

cesPortSpeed 1.3.6.1.4.1.351.110.5.3.1.1.1.1.8
Configured speed of port in kbps Max speed for T1 = 1544 Max speed for E1 = 2038 Max speed for T3 = 44736 Max spped for E3 = 34368
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..44736  

cesPortState 1.3.6.1.4.1.351.110.5.3.1.1.1.1.9
This variable indicates the state of the logical port
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER notConfigured(1), active(2), remoteLoopback(3), failedDueToLine(4), failedDueToSignalling(5), inactive(6), inBert(7), farEndRemoteLoopback(8)  

cesPortBERTEnable 1.3.6.1.4.1.351.110.5.3.1.1.1.1.10
This variable enables BERT This object is not supported in CESM-T3E3.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disable(1), enable(2)  

cesPortNextAvailable 1.3.6.1.4.1.351.110.5.3.1.1.2
This variable contains the next UNUSED logical port number of the possible 32 DS0s * n ports. This number can be used in channel config table, the cesportNextAvailable gets updated if the number gets used to create a logical port. A '0' indicates that no more ports are available.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..248  

cesPortsUsedLine1 1.3.6.1.4.1.351.110.5.3.1.1.3
Each bits set represents a DS0 that is used by all the logical ports defined so far for that DS1, the most significant byte is invalid for DS1 This is for line 1
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..ffffff  

cesPortsUsedLine2 1.3.6.1.4.1.351.110.5.3.1.1.4
Each bits set represents a DS0 that is used by all the logical ports defined so far for that DS1, the most significant byte is invalid for DS1 This is for line 2
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..ffffff  

cesPortsUsedLine3 1.3.6.1.4.1.351.110.5.3.1.1.5
Each bits set represents a DS0 that is used by all the logical ports defined so far for that DS1, the most significant byte is invalid for DS1 This is for line 3
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..ffffff  

cesPortsUsedLine4 1.3.6.1.4.1.351.110.5.3.1.1.6
Each bits set represents a DS0 that is used by all the logical ports defined so far for that DS1, the most significant byte is invalid for DS1 This is for line 4
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..ffffff  

cesPortsUsedLine5 1.3.6.1.4.1.351.110.5.3.1.1.7
Each bits set represents a DS0 that is used by all the logical ports defined so far for that DS1, the most significant byte is invalid for DS1 This is for line 5
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..ffffff  

cesPortsUsedLine6 1.3.6.1.4.1.351.110.5.3.1.1.8
Each bits set represents a DS0 that is used by all the logical ports defined so far for that DS1, the most significant byte is invalid for DS1 This is for line 6
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..ffffff  

cesPortsUsedLine7 1.3.6.1.4.1.351.110.5.3.1.1.9
Each bits set represents a DS0 that is used by all the logical ports defined so far for that DS1, the most significant byte is invalid for DS1 This is for line 7
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..ffffff  

cesPortsUsedLine8 1.3.6.1.4.1.351.110.5.3.1.1.10
Each bits set represents a DS0 that is used by all the logical ports defined so far for that DS1, the most significant byte is invalid for DS1 This is for line 8
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..ffffff  

cesmPortCnfResPartGrp 1.3.6.1.4.1.351.110.5.3.1.2
OBJECT IDENTIFIER    

cesmPortCnfResPartGrpTable 1.3.6.1.4.1.351.110.5.3.1.2.1
This table contains the configuration of port resource partition This is applicable for MGX8820(formerly AXIS) Rel. 5 and MGX.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    CesmPortCnfResPartGrpEntry

cesmPortCnfResPartGrpEntry 1.3.6.1.4.1.351.110.5.3.1.2.1.1
An entry for logical port
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  CesmPortCnfResPartGrpEntry  

cesmResPartPortNum 1.3.6.1.4.1.351.110.5.3.1.2.1.1.1
This is the logical port number, the index to this table. If we have T1 card then the maximum port number is 192 and if we have E1 card the maximum port number can be 248. CESM-T3/E3 supports only one port.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..248  

cesmResPartCtrlrNum 1.3.6.1.4.1.351.110.5.3.1.2.1.1.2
This is index for controller using the port
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER par(1), pnni(2), tag(3)  

cesmResPartRowStatus 1.3.6.1.4.1.351.110.5.3.1.2.1.1.3
This will add, delete or modify the partition. 1 ==> ADD 2 ==> DELETE 3 ==> MODIFY
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER add(1), del(2), mod(3)  

cesmResPartNumOfLcnAvail 1.3.6.1.4.1.351.110.5.3.1.2.1.1.4
This represents number of LCNs available for this controller and this port. In CESM-T3/E3 and 8-T1/E1,this value is 1.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..248  

cesmResPartLcnLow 1.3.6.1.4.1.351.110.5.3.1.2.1.1.5
This represents low end of reserved LCN In CESM-8T1/E1 and T3/E3, this refers to the logical port.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..248  

cesmResPartLcnHigh 1.3.6.1.4.1.351.110.5.3.1.2.1.1.6
This represents high end of reserved LCN In CESM-8T1/E1 and T3/E3, this refers to the logical port.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..248  

cesmResPartIngrPctBW 1.3.6.1.4.1.351.110.5.3.1.2.1.1.7
The percentage of total ingress bandwidth reserved. In CESM-8T1/E1 and T3/E3, as there is only one LCN per port and it could be used by only one controller,this value is 100% for that controller.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..100  

cesmResPartEgrPctBW 1.3.6.1.4.1.351.110.5.3.1.2.1.1.8
The percentage of total egress bandwidth reserved In CESM-8T1/E1 and T3/E3, as there is only one LCN per port and it could be used by only one controller,this value is 100% for that controller.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..100  

cesmResPartCtrlrID 1.3.6.1.4.1.351.110.5.3.1.2.1.1.9
This is the controller identifier for the resource patition. The default value is set for PNNI controller.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..255  

cesmEndPtMapGrp 1.3.6.1.4.1.351.110.5.3.3
OBJECT IDENTIFIER    

cesmEndPtMapGrpTable 1.3.6.1.4.1.351.110.5.3.3.1
There are 248 entries and port num will uniquely identify a row. For CESM-8T1/E1 , only 248 ports are possible. For CESM-T3/E3, only one port is possible.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    CesmEndPtMapGrpEntry

cesmEndPtMapGrpEntry 1.3.6.1.4.1.351.110.5.3.3.1.1
An entry for cesmEndPtMapGrpEntry.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  CesmEndPtMapGrpEntry  

cesEndPortNum 1.3.6.1.4.1.351.110.5.3.3.1.1.1
Refers to the logical port index CESM-8E1 supports 248 ports. CESM-8T1 supports 192 ports. CESM-T3/E3 supports only one port.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..248  

cesEndChanNum 1.3.6.1.4.1.351.110.5.3.3.1.1.2
Logical connection number for above cesEndPortNum
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 32..279  

cesEndLineNum 1.3.6.1.4.1.351.110.5.3.3.1.1.3
Refers to the physical line index In case T3 only one line will be supported.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..8  

frChanCnfGrp 3.2.1
OBJECT IDENTIFIER    

frChanCnfGrpTable 3.2.1.1
The config table is for logical channel interface (upto 4000 entries). The actual number of entries supported by a card depends on the type of card. eg: FRSM-4T1/E1 supports 256 entries FRSM-8T1/E1 supports 1000 entries FRSM-T3/E3/HS2/HS2B-HSSI/T3B/E3B supports 2000 entries FRSM-2CT3/HS2B-12IN1 supports 4000 entries FRSM12 supports 16000 entries
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    FrChanCnfGrpEntry

frChanCnfGrpEntry 3.2.1.1.1
An entry for logical channel
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  FrChanCnfGrpEntry  

chanNum 3.2.1.1.1.1
Refers to the virtual connection index Note that the actual range of the index supported by a card depends on the type of card. eg: FRSM-4T1/E1 supports a range from 16..271 (256 entries) FRSM-8T1/E1 supports a range from 16..1015 (1000 entries) FRSM-T3/E3/HS2/HS2B-HSSI/T3B/E3B supports a range from 16..2015 (2000 entries) FRSM-2CT3/HS2B-12IN1 supports a range from 16..4015 (4000 entries) For FRSM12 Card: Byte 3 = Chassis Number, Byte 2 = Slot Number, Byte 1 & 0 = channel Number. Lower two bytes range from 16..16015 (16000 entries)
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

chanRowStatus 3.2.1.1.1.2
This will add, delete or modify the channel 1 ==> ADD 2 ==> DELETE 3 ==> MODIFY Setting this object to outOfService takes the channel out of service or brings the channel 'down'. The channel can be brought 'up' again by setting the object to mod
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER add(1), del(2), mod(3), outOfService(4)  

chanPortNum 3.2.1.1.1.3
Refers to the logical ports that are possible on this card, the user must set this variable For FRSM12 Card: This object contains the port's ifIndex value.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

dLCI 3.2.1.1.1.4
This variable is the DLCI number of the channel. The user has to set this variable. All the connections on the same port should have a unique DLCI number. Note that if we are adding a channel to a port that has LMI signalling enabled, then we can not use DLCI number 0(ANNEX A & D) and 1023(STRATA LMI). For FRSM12 Card: For FR header length of 2-bytes, DLCI range is (0 .. 1023) and 0, 1007, 1023 DLCIs cannot be used. For FR header length of 4-bytes, DLCI range is (0 .. 8388607) and 0, 8257535 DLCIs cannot be used.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..8388607  

egressQSelect 3.2.1.1.1.5
Selects one out of two possible port queues. The default port queue number is 1 which is the high pririty queue. 1 = High priority queue 2 = Low priority queue 3 = Indicates that this entry is not used (eg: in FRSM-VHS, chanServType indicates the channel service type and would determine the queue to which the channel gets mapped) For FRSM12 Card: This object is used to select between the two ATM-COS queues in the egress direction.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER highPriority(1), lowPriority(2), notSupported(3)  

ingressQDepth 3.2.1.1.1.6
This variable sets the max depth for queue, before it starts dropping the cells. It is defined in terms of number of bytes. In all cards except the FRSM-VHS card, the range is limited to (4510..'ffff'h). ingressQDepth should be greater than ingressQECNThresh and ingressQDEThresh For FRSM12 Card: Not Supported
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 4510..1fffff  

ingressQECNThresh 3.2.1.1.1.7
This variable sets the max depth for queue, before it starts flow control. It is defined in terms of number of bytes. In all cards except the FRSM-VHS card, the range is limited to (0..'ffff'h). For FRSM12 Card: Not Supported
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..1fffff  

ingressQDEThresh 3.2.1.1.1.8
This variable sets the max depth for queue, before they become discard eligible. It is defined in terms of number of bytes. In all cards except the FRSM-VHS card, the range is limited to (0..'ffff'h). For FRSM12 Card: Not Supported
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..1fffff  

egressQDepth 3.2.1.1.1.9
This variable sets the max depth for queue, before it starts dropping the cells. It is defined in terms of number of bytes. In all cards except the FRSM-VHS card, the range is limited to (0..'ffff'h). egressQDepth should be greater than egressQDEThresh and egressQECNThresh For FRSM12 Card: Not Supported
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..1fffff  

egressQDEThresh 3.2.1.1.1.10
This variable sets the max depth for queue, before they become discard eligible. It is defined in terms of number of bytes. In all cards except the FRSM-VHS card, the range is limited to (0..'ffff'h). For FRSM12 Card: Not Supported
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..1fffff  

egressQECNThresh 3.2.1.1.1.11
This variable sets the max depth for queue, before it starts flow control. It is defined in terms of number of bytes. In all cards except the FRSM-VHS card, the range is limited to (0..'ffff'h). For FRSM12 Card: Not Supported
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..1fffff  

deTaggingEnable 3.2.1.1.1.12
The default value is 2. This variable enables DE tagging in the ingress direction only. enable = 1 disable = 2 For FRSM12 Card: When this object is disabled, the ingress policer will never set the DE bit to 1 in the Frame Relay frames even if the incoming frame exceeds the Bc bucket.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER enable(1), disable(2)  

cir 3.2.1.1.1.13
The default value is 2400 cir defines committed information rate cir is in bits per second Maximum value for cir for an E1 card is 2048000 and for a T1 card is 1536000. cir has to be less than or equal to the port speed. Maximum value for cir for an E3 card is 34368000, for a T3 card is 44736000m, and for HSSI it is 52000000. Note that for FRSM-2CT3 card, the peak value of permissible CIR is 1536000. Maximum value for FRSM-HS2B-12IN1 is 10240000 Any value from 1 to 2399 will be rounded off to 2400. For FRSM12 Card: The range is 0-44736000 bps for T3, and The range is 0-34368000 bps for E3. cir can be 0 only for chanServType of uBR.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..52000000  

bc 3.2.1.1.1.14
The default value is 5100 bc defines burst committed. bc is in bytes. bc can not be 0 when cir is not 0. bc has to be 0 if cir is 0. The peak value for bc in FRSM-VHS cards is (2^21 -1), i.e. 2097151 and for all other cards, it is 65535. For FRSM-VHS cards, the relation between CIR and Bc should be such that Tc is always less than 512 seconds. For FRSM12 Card: The range is 0-2097151
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..2097151  

be 3.2.1.1.1.15
The default value is 5100 be defines the burst excess. be can not be 0 when cir is 0. be is in bytes. The peak value for be in FRSM-VHS cards is (2^21 -1), i.e. 2097151 and for all other cards, it is 65535. For FRSM-VHS cards, setting the value of 2091751 will cause the policing to be disabled. For FRSM12 Card: The range is 0-2097151
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..2097151  

ibs 3.2.1.1.1.16
The default value is 100 ibs should be less or equal to bc when cir is greater than 0. ibs has to be 0 when cir is 0. The peak value for ibs in FRSM-VHS cards is (2^21 -1), i.e. 2097151 and for all other cards, it is 65535. For FRSM12 Card: Not Supported
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..2097151  

foreSightEnable 3.2.1.1.1.17
The default value is 2 This variable sets foreSight option Note that when you enable foresight option then you can modify qir, mir and pir, otherwise you CAN NOT change these values if you are disabling foresight or if foresight option is already disabled. The RATE CONTROL FEATURE has to be ON in order to enable foresight and also modify its parameter. enable = 1 disable = 2 For FRSM12 Card: Not Supported
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER enable(1), disable(2)  

qir 3.2.1.1.1.18
The dafault is 160 qir is defined in fastpackets/sec and it defines quiescent information rate for Foresight. 1 cell/sec is equal to 16 fastpackets/sec. Following information about cps is for reference only: The peak value for qir in FRSM-VHS cards is 285714 cps and for all other cards, it is 10000 cps. For FRSM-VHS cards, cell will be the ATM cell (48 byte payload). For FRSM12 Card: Not Supported
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 160..6400000  

mir 3.2.1.1.1.19
The dafault is 160 mir is defined in fastpackets/sec and it defines minimum information rate for Foresight. 1 cell/sec is equal to 16 fastpackets/sec. Following information about cps is for reference only: The peak value for qir in FRSM-VHS cards is 285714 cps and for all other cards, it is 10000 cps. For FRSM-VHS cards, cell will be the ATM cell (48 byte payload). For FRSM12 Card: Not Supported
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 160..6400000  

pir 3.2.1.1.1.20
The dafault is 160 pir is defined in fastpackets/sec and it defines peak information rate for Foresight. 1 cell/sec is equal to 16 fastpackets/sec. Following information about cps is for reference only: The peak value for qir in FRSM-VHS cards is 285714 cps and for all other cards, it is 10000 cps. For FRSM-VHS cards, cell will be the ATM cell (48 byte payload). For FRSM12 Card: Not Supported
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 160..6400000  

chanLocRmtLpbkState 3.2.1.1.1.21
The default is disable. This variable enables or disables the remote loopback for each channel. When you enable this option on a connection (channel) then all the cells that are coming from the network side would be looped back toward the network and all the frames coming from the user side would be dropped. This channel remote loopback has nothing to do with the chanTestType option, each one does a different function. For example, the channel remote loopback is used for looping the data toward the network and if this connection is terminated on an IPX then they can put a test equipment and measure some of the characteristics of the network. 1 = enable 2 = disable For FRSM12 Card: Not Supported
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER enable(1), disable(2)  

chanTestType 3.2.1.1.1.22
The default is notest. The chanTestType starts testing the continuity or delay of a connection. It sends specific cell patterns toward the network and the terminating end of this connection has to be an AXIS or ASI of a BPX in order for this test to be working. The receiving node would loop back when it receives these cells. The test should be done in about couple of seconds. The testcon tests the continuity of the connection and testdelay uses the same test except that it measures for delay through the network. To test the delay follow this procedure: a- set chanTestType to testdelay b- read chanTestState till it is Pass or Fail c- Read chanRTDResult for the delay if it is Pass *Note that the chanTestType would go back to notest when the test is completed To test the continuity follow this procedure: a- set chanTestType to testcon b- read chanTestState till it is Pass or Fail *Note that the chanTestType would go back to notest when the test is completed You CAN NOT select 2 tests back to back, you have selcelt one and wait the result and then start the other one. SYNTAX When you select testdelay This is the type of the test 1 = Test Continuity 2 = Test Delay 3 = No Test
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER testcon(1), testdelay(2), notest(3)  

chanTestState 3.2.1.1.1.23
This shows the state of the test When you add a connection then the chanTestState becomes notinprogress and when you select any test, it would go to inprogress state and after it completes the test, it will go to failed or passed state. 1 = Passed 2 = Failed 3 = In Progress 4 = Not In Progress
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER passed(1), failed(2), inprogress(3), notinprogress(4)  

chanRTDResult 3.2.1.1.1.24
This is round trip delay in milliseconds. When you select testdelay option for the chanTestType, the result of the test that is measured in milliseconds can be read in chanRTDResult.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..65535  

chanType 3.2.1.1.1.25
sets channel type Type 1 is frame-relay network interworking (NIW-unicast) type 2 is service interworking with out any SDU translation type 3 is service interworking with SDU translation type 4 is frame-relay UNI, currently mode-1a which is ALL5 type 5 is frame forwarding types 1,2,3 and 5 are supported as explained above type 4 (frame-relay UNI) is NOT supported type 6 is also supported. It means frame-relay Network Interworking with DLCI in FRSSCS-PDU always set to 1022 For FRSM12 Card: frFUNI is not supported.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER frNIW(1), frSIW-transparent(2), frSIW-translate(3), frFUNI(4), frForward(5), frNIWReplace(6)  

chanFECNconfig 3.2.1.1.1.26
sets FECN config mapEFCI valid only for SIW The FECN bits in frame-relay are mapped to EFCI bit in the ATM cells.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER mapEFCI(1), setEFCIzero(2)  

chanDEtoCLPmap 3.2.1.1.1.27
sets mapping of CLP bit The DE bit is mapped to CLP bit in ATM cell in Case 2 and 3, the DE bit is ignored and CLP bit is set to a constant value For FRSM12 Card: Should not be mapCLP for chanType of frForward.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER mapCLP(1), setCLPzero(2), setCLPone(3)  

chanCLPtoDEmap 3.2.1.1.1.28
sets mapping of DE bit 1,2,3 valid for SIW 1,4 valid for NIW The CLP bit is mapped to DE bit in frame-relay in the Case of 2 and 3, the CLP bit is ignored and DE bit is set to a constant value ignoreCLP ignores CLP bit and DE bit remains as received. For FRSM12 Card: Should be ignoreCLP for chanType of frForward. Should not be setDEzero/setDEone for chanType of frNIW and frNIWReplace. Should not be ignoreCLP for chanType of frSIW-transparent and frSIW-translate.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER mapDE(1), setDEzero(2), setDEone(3), ignoreCLP(4)  

chanIngrPercentUtil 3.2.1.1.1.29
the channel ingress utilized percentage
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..100  

chanEgrPercentUtil 3.2.1.1.1.30
the channel egress utilized percentage
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..100  

chanEgrSrvRate 3.2.1.1.1.31
The channel egress cir. Maximum value for chanEgrSrvRate for an E1 card is 2048000 and for a T1 card is 1536000. chanEgrSrvRate has to be less than or equal to the port speed. Maximum value for chanEgrSrvRate for an E3 card is 34368000, for a T3 card is 44736000m, and for HSSI it is 52000000. Note that for FRSM-2CT3 card, the peak value of permissible chanEgrSrvRate is 1536000. For FRSM12 Card: This object is used only for CAC and the range will be same as the range for cir object. The Maximum value is 44736000m.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 2400..52000000  

chanOvrSubOvrRide 3.2.1.1.1.32
This MIB variable allows one to add a new connection on a port even if it is over subscribed. For FRSM12 Card: Not Supported
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disable(1), enable(2)  

chanFrConnType 3.2.1.1.1.33
channel connection type 1 for pvc 2 for svc 3 for spvc 4 par (only for trunk connection) 5 pnni (only for trunk connection) 6 tag (only for trunk connection) For FRSM12 Card: Not Supported
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER pvc(1), svc(2), spvc(3), par(4), pnni(5), tag(6)  

frCDRNumber 3.2.1.1.1.34
This is the key to correlate cell/frame counts, start/end record. For FRSM12 Card: Not Supported
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

frLocalVpi 3.2.1.1.1.35
This VPI together with the local VCI and NSAP represents the local end point in this connection, this object is read only, therefore it'll be assigned by SM to 0.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..65535  

frLocalVci 3.2.1.1.1.36
This VCI together with the local VPI and NSAP represents the local end point in this connection, this object is read only, therefore it'll be assigned by SM to be equal to DLCI.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..65535  

frLocalNSAP 3.2.1.1.1.37
This NSAP is 20 bytes binary, among these 20 bytes: 13 bytes as prefix, 2 bytes for Cisco ID, 1 byte rsvd, 3 bytes for logical interface: slot (1 byte) and port number (2 bytes), the last byte is for SEL For FRSM12 Card: This object will have the NSAP format as required by the PNNI controller
Status: mandatory Access: read-write
OBJECT-TYPE    
  OCTET STRING Size(0..20)  

frRemoteVpi 3.2.1.1.1.38
This VPI together with the remote VCI and NSAP represents the remote end point in this connection
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..65535  

frRemoteVci 3.2.1.1.1.39
This VCI together with the remote VPI and NSAP represents the remote end point in this connection
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..65535  

frRemoteNSAP 3.2.1.1.1.40
This NSAP is 20 bytes binary, among these 20 bytes: 13 bytes as prefix, 2 bytes for Cisco ID, 1 byte rsvd, 3 bytes for logical interface: slot (1 byte) and port number (2 bytes), the last byte is for SEL
Status: mandatory Access: read-write
OBJECT-TYPE    
  OCTET STRING Size(0..20)  

frMastership 3.2.1.1.1.41
This is used by PXM to determine if this end point is master or slave, a new type unknown is added to identify the SM in AXIS shelf and the SM in MGX shelf. In AXIS shelf, user can still use addchan to add a channel without specifying X/Y/P parameters. But in MGX shelf, if the user uses addchan without X/Y/P set (based on this object being set to type 3 unknown), SPM on PXM will reject the request. It must be supplied in connection setup request. In the feeder mode, this is always set to master.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER master(1), slave(2), unknown(3)  

frVpcFlag 3.2.1.1.1.42
This represents the connection type, used for PXM to identify VPC/VCC but FRSM card doesn't use it always set to vcc for FRSM card For FRSM12 Card: This object is used by the PNNI controller and is always set to VCC
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER vpc(1), vcc(2)  

frConnServiceType 3.2.1.1.1.43
This specifies the service type 1 ==> Constant Bit Rate 2 ==> Variable Bit Rate 3 ==> Not used 4 ==> Unspecified Bit Rate 5 ==> ATM frame relay 6 ==> standard ABR 7 ==> foresight ABR Note that this is used by PXM card, SV+ doesn't need to set it, if not set in the connection setup request, it'll be defaulted to ATFR type for FRSM. Also to make it compatible with existing AUSM MIB definition, value 3 is not used. The following types are being added for PNNI support. and are based on UNI 4.0 cbr1 (21) - CBR.1 vbr1rt (22) - Real time VBR.1 vbr2rt (23) - Real time VBR.2 vbr3rt (24) - Real time VBR.3 vbr1nrt(25) - Non Real time VBR.1 vbr2nrt(26) - Non Real time VBR.2 vbr3nrt(27) - Non Real time VBR.3 ubr1 (28) - UBR.1 ubr2 (29) - UBR.2 stdabr (30) - TM 4.0 compliant standard ABR cbr2 (31) - CBR.2 cbr3 (32) - CBR.3 For FRSM12 Card: Not Supported. Derived from chanServType.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER cbr(1), vbr(2), notUsed(3), ubr(4), atfr(5), abrstd(6), abrfst(7), vbrrt(8), cbr1(21), vbr1rt(22), vbr2rt(23), vbr3rt(24), vbr1nrt(25), vbr2nrt(26), vbr3nrt(27), ubr1(28), ubr2(29), stdabr(30), cbr2(31), cbr3(32)  

frRoutingPriority 3.2.1.1.1.44
This is used by PXM to determine how important this connection is when selecting connections to route
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..15  

frMaxCost 3.2.1.1.1.45
Maximum allowed cost. It is related to Cost Based Routing. This is used by PXM so that it won't choose a path with a cost greater than this configured level. This is not necessary to be provided in the connection setup request, if not provided, the default value 255 will be used. When used with PAR controller the valid range is 1..65535 and the default value is 255. When used with PNNI controller the valid range is 1..2147483647 and the default value is 2147483647.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..2147483647  

frRestrictTrunkType 3.2.1.1.1.46
Restricted trunk type for routing, used by PXM. It specifies that the connection either cannot be routed over satelite trunks, or terrestrial trunks, or it can be on any type of trunk. It is not necessary to be provide in the connection setup request, the default value is norestriction(1). For FRSM12 Card: Not Supported
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER norestriction(1), terrestrialTrunk(2), sateliteTrunk(3)  

frConnPCR 3.2.1.1.1.47
Peak cell rate, if not provided in the connection setup request, it'll be derived from pir. For FRSM12 Card: Default value is (1.44 * CIR)
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

frConnRemotePCR 3.2.1.1.1.48
Peak cell rate of the other end, if not set, will be set to the same as local end PCR (frConnPCR). However, note that if the CIRs for both local and remote end are set to the different value (i.e., asymmetric conn), then this should be set differently from local end PCR. For FRSM12 Card: Default value is frConnPCR
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

frConnMCR 3.2.1.1.1.49
Minimum cell rate, if not provided in the connection setup request, it'll be derived from mir. For FRSM12 Card: Default value is frConnPCR
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

frConnRemoteMCR 3.2.1.1.1.50
Minimum cell rate of the other end, if not set, will be set to the same as local end MCR (frConnMCR). However, note that if the CIRs for both local and remote end are set to the different value (i.e., asymmetric conn), then this should be set differently from local end MCR. For FRSM12 Card: Default value is frConnMCR
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

frConnPercentUtil 3.2.1.1.1.51
This is the expected long-term utilization of the channel by this end-point. If this is not specified in the connection setup request, it'll be defaulted to 100 percent For FRSM12 Card: Not Supported
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..100  

frConnRemotePercentUtil 3.2.1.1.1.52
This is the expected long-term utilization of the channel by the other end-point. If this is not specified in the connection setup request, it'll be set to be the same as the local end frConnPercentUtil value assuming that the connection is symmetric. In a asymmetric connection, this object is supposed to be set. For FRSM12 Card: Not Supported
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..100  

frConnForeSightEnable 3.2.1.1.1.53
This object is used by the controller(PAR/PNNI/TAG) to set up the Qbin for the connection, if this is not set, it'll be defaulted by SM to the same as foreSightEnable in the end point parameters. For FRSM12 Card: Not Supported
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER enable(1), disable(2)  

frConnFGCRAEnable 3.2.1.1.1.54
enables/disables Frame based GCRA (early packet discard). For FRSM12 Card: Not Supported
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER enable(1), disable(2)  

chanServType 3.2.1.1.1.55
This indicates the class of the connection 1-High priority (typically CBR connections) 2- real-time VBR 3- non-real time VBR 4- Available Bit Rate 5- Unspecified Bit Rate 9- Standard ABR There are 8 queues actually but only 4 are currently being used (the 4 queues are for CBR, VBR-rt, , UBR traffic). This object is currently suuported only in FRSM-VHS and FRSM-8T1E1. For FRSM-8T1E1, a 0 indicates that the connections are of old model type where chanServType object is unused. Note that chanServType is not modifiable after a channel has been enabled For FRSM12 Card: The types aBR, queue6, queue7, queue8 are not supported
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER highpriority(1), rtVBR(2), nrtVBR(3), aBR(4), uBR(5), queue6(6), queue7(7), queue8(8), stdABR(9)  

chanServiceRateOverride 3.2.1.1.1.56
This variable sets the SAR IR programming option. Foresight and chanServiceRateOverride are mutually exclusive. For FRSM12 Card: Not Supported
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER enable(1), disable(2)  

chanServiceRate 3.2.1.1.1.57
This is the rate to which IR can be set to when chanServiceRateOverride is set to enabled. If chanServiceRateOverride is disabled then this object does not have any significance. For FRSM-8P, this is defined in fastpackets/sec. For FRSM-VHS, this is defined in atm cells per second. For VHS the range in cells per second will be 10 to 400000 cps. For FRSM12 Card: Not Supported
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 160..6400000  

zeroCirConEir 3.2.1.1.1.58
zeroCirConEir defines EIR value for '0' CIR connection. If zeroCirConEir is '0', EIR is set to port speed. If zeroCirConEir is non-zero value, EIR is set to value of this object, and this value is used for policing in ingress direction. This object is valid only for a zero cir connection. zeroCirConEir has to be less than or equal to the port speed.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..52000000  

chanReroute 3.2.1.1.1.59
This is used by the administrator to trigger the re-routing of the connection. The rerouting takes effect, when this object is set to true(1). When set to false (2), no action is taken. A get on this object always returns false (2). This object is not applicable to MGX Release 1.x.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER true(1), false(2)  

frConnSCR 3.2.1.1.1.60
Sustained cell rate, Used for VBR connections setup with PNNI controller. For FRSM12 Card: Default value is frConnPCR This object is not applicable to MGX Release 1.x
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

frConnRemoteSCR 3.2.1.1.1.61
Sustained cell rate of the other end, Used for VBR connections setup with PNNI controller. For FRSM12 Card: Default value is frConnSCR This object is not applicable to MGX Release 1.x
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

frConnTemplateId 3.2.1.1.1.62
This object specifies the template identifier for the connection template associated with this connection. The valid range for templates is 1..16. A value of 17 indicates no template is associated with this connection For FRSM12 Card: Not Supported This object is not applicable to MGX Release 1.x
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..17  

frConnAdminStatus 3.2.1.1.1.63
This object specifies channel admin status. This object is not applicable to MGX Release 1.x.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER up(1), down(2)  

frChanCnfChangeCount 3.2.1.1.1.64
This object is added only for FRSM12 card. This counter tracks the number of configuration changes that happen on a channel. The counter is associated only with the end point and NOT with the connection itself. This counter is used by the NMS to determine if a connection configuration had been modified and requires an upload. This functionality is conventionally achieved by time stamping using a time-of-day clock. However, in switches where time-of-day clock is not available, the following scheme is used: The upload counter is incremented, when: * assignment of connection to an end point channel. This happens when a connection is added and assigned this channel number. * de-assignment of connection from a channel number. This happens when a connection is deleted and the end point resource is released. * When there is a configuration change done to the connection that is associated with this end point channel number. In a new system, an unutilised resouce (channel number) has a counter value of zero. When a connection is added to this channel end point, the counter is incremented. And is incremented for any of the above operations. When a connection is deleted the value of this counter is incremented and preserved till a new connection gets associated with this channel end point. This object is not applicable to MGX Release 1.x.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

frChanCnfIgnoreIncomingDE 3.2.1.1.1.65
This object is added for FRSM12 card. When this object is enabled, the incoming frames with DE(Discard Eligible) bit set to 1 are counted in the Bc bucket instead of Be bucket This object is not applicable to MGX Release 1.x.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER enable(1), disable(2)  

frChanOamCCEnable 3.2.1.1.1.66
This object is added for FRSM12 card. This object serves to enable or disable continuity check(CC) on a connection endpoint. When continuity check is enabled on an endpoint, the endpoint anticipates OAM CC cells from its peer endpoint. OAM CC cells are sent when the peer endpoint does not have traffic cells to send. If the connection is idle and this endpoint has not received OAM CC cells for a period of 3.5 +/- 0.5 seconds, it declares continuity failure. This object serves to administratively control the CC feature. Typical implementations (of this feature) may choose to ignore this control or impose other conditions to actually enable CC cell flow. However, if this object is set to false(2), then this feature should be disabled This object is not applicable to MGX Release 1.x.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER enable(1), disable(2)  

frChanStatsEnable 3.2.1.1.1.67
This object is added for FRSM12 card. Limits imposed by software or hardware implementations could restrict the amount of statistical data that can be maintained in a physical entity (like a service module card). Hence there could be a need to restrict statistics collection to a smaller subset. This object serves the purpose of enabling/disabling statistics collection on a per connection basis. In implementations which do not have such limitations, this object can be set to enable(1) for all connections This object is not applicable to MGX Release 1.x.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER enable(1), disable(2)  

frChanLocalLpbkEnable 3.2.1.1.1.68
This object is added for FRSM12 card. This object when enabled adds a channel-level loopback towards the port side. If the connection is in loopback, Connection MIB (FrChanCnfGrpEntry) variables cannot be modified. This object is not applicable to MGX Release 1.x.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER enable(1), disable(2)  

frChanUpcEnable 3.2.1.1.1.69
This object is added for FRSM12 card. This object when disabled, disables Frame Relay policing. This object is not applicable to MGX Release 1.x.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER enable(1), disable(2)  

frChanSlaveType 3.2.1.1.1.70
This object is added for FRSM12 card. This object indicates whether a master endpoint has a persistent slave or not. A connection with a master and a non-persistent slave is considered a single-ended SPVC. This object is only meaningful when 'frMastership' contains the value of 'master(1)'. And this variable must be used with 'frMastership' to decide if a connection is single-ended or not. This object is not applicable to MGX Release 1.x.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER persistentSlave(1), nonPersistentSlave(2)  

frConnRemoteMBS 3.2.1.1.1.71
Remote Maximum Burst Size in terms of number of cells. This object should be set by the user in cases when the remote end of the connection is an ATM end-point where the Local MBS can be explicitly specified. In such cases, this element should be set to be equal to the remote end-point's local MBS. This object is not applicable to MGX Release 1.x.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..5000000  

chanNumNextAvailable 3.2.1.2
This variable contains the next UNUSED channel number of the possible 4000 (ranging from 16 to 4015). This number can be used in channel config table, the ChanNumNextAvailable gets updated if the number gets used to create a logical channel. A '0' indicates that no more channels are available. For FRSM12 Card: Not Supported
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 16..4015  

frstdABRCnfGrpTable 3.2.1.3
The ABR config table is for logical channel interface (upto 4000 entries). The actual number of entries supported by a card depends on the type of card. eg: FRSM-4T1/E1 supports 256 entries FRSM-8T1/E1 supports 1000 entries FRSM-T3/E3/HS2/T3B/E3B/HS2B-HSSI supports 2000 entries FRSM-2CT3/HS2B-12IN1 supports 4000 entries FRSM12 supports 16000 entries
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    FrstdABRCnfGrpEntry

frstdABRCnfGrpEntry 3.2.1.3.1
An entry for logical channel
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  FrstdABRCnfGrpEntry  

frstdABRcnfChanNum 3.2.1.3.1.1
Refers to the virtual connection index Note that the actual range of the index supported by a card depends on the type of card. eg: FRSM-4T1/E1 supports a range from 16..271 (256 entries) FRSM-8T1/E1 supports a range from 16..1015 (1000 entries) FRSM-T3/E3/HS2/T3B/E3B/HS2B-HSSI supports a range from 16..2015 (2000 entries) FRSM-2CT3/HS2B-12IN1 supports a range from 16..4015 (4000 entries) For FRSM12 Card: Byte 3 = Chassis Number, Byte 2 = Slot Number, Byte 1 & 0 = channel Number. Lower two bytes range from 16..16015 (16000 entries)
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

frstdABRTBE 3.2.1.3.1.2
Transient Buffer Exposure. The unit is number of cells.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..16777215  

frstdABRFRTT 3.2.1.3.1.3
Fixed Round-Trip Time. The unit is milliseconds. Value 0 signifies that FRTT is not available.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..16700  

frstdABRRDF 3.2.1.3.1.4
Rate Decrease Factor. This unitless value has to be inverted to arrive at the actual value. The valid values possible are only powers of 2; i.e. 1, 2, 4, 8 ..... 32768. The SNMP agent has to verify this compliance.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..32768  

frstdABRRIF 3.2.1.3.1.5
Rate Increase Factor. This unitless value has to be inverted to arrive at the actual value. The valid values possible are only powers of 2; i.e. 1, 2, 4, 8 ..... 32768. The SNMP agent has to verify this compliance.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..32768  

frstdABRNrm 3.2.1.3.1.6
Maximum number of cells a source may send for each forward RM cell. The valid values possible are only powers of 2 starting from 2; i.e. 2, 4, 8 ..... 256. The SNMP agent has to verify this compliance.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 2..256  

frstdABRTrm 3.2.1.3.1.7
Upper bound on the time between forward RM cells for an active source. The unit is in milliseconds.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 3..255  

frstdABRCDF 3.2.1.3.1.8
Cutoff Decrease Factor. This unitless value has to be inverted to arrive at the actual value. The valid values possible are 0 and only powers of 2; i.e., 1, 2, 4, 8, 16, 32, 64. The SNMP agent has to verify this compliance.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..64  

frstdABRADTF 3.2.1.3.1.9
ACR DecreaseTime Factor. Unit of this value is milliseconds. Granularity allowed is 10 milli seconds. The SNMP agent has to verify this compliance.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 10..10230  

frstdABRICR 3.2.1.3.1.10
Initial Cell Rate is the rate at which the source should send initially and after an idle period. This includes the bandwidth allocated for both data cells as well as all in-rate RM cells. Unit is cells/sec. The Range will be 10 to 400000. .
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 10..400000  

frstdABRMCR 3.2.1.3.1.11
Minimum Cell Rate is the rate at which the source is allowed to send. This includes the bandwidth allocated for both data cells as well as all in-rate RM cells. Unit is cells/sec. The Range will be 10 to 400000. .
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 10..400000  

frstdABRPCR 3.2.1.3.1.12
Peak Cell Rate is the rate at which the source is allowed to send. This includes the bandwidth allocated for both data cells as well as all in-rate RM cells. Unit is cells/sec. The Range will be 10 to 400000.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 10..400000  

frChanCntGrp 3.2.3
OBJECT IDENTIFIER    

frChanCntGrpTable 3.2.3.1
The config table is for logical channel interface there are upto 4000 entries.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    FrChanCntGrpEntry

frChanCntGrpEntry 3.2.3.1.1
An entry for logical channel
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  FrChanCntGrpEntry  

cntChanNum 3.2.3.1.1.1
Refers to the virtual connection index Note that the actual range of the index supported by a card depends on the type of card. eg: FRSM-4T1/E1 supports a range from 16..271 (256 entries) FRSM-8T1/E1 supports a range from 16..1015 (1000 entries) FRSM-T3/E3/HS2 supports a range from 16..2015 (2000 entries) FRSM-2CT3 supports a range from 16..4015 (4000 entries) FRSM12 supports a range from 16..16015 (16000 entries) For FRSM12 Card: Byte 3 = Chassis Number, Byte 2 = Slot Number, Byte 1 & 0 = channel Number
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

rcvFrames 3.2.3.1.1.2
The number of frames Received on the ingress
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvBytes 3.2.3.1.1.3
The number of bytes Received on the ingress
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvFramesDE 3.2.3.1.1.4
The number of DE frames Received on the ingress
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvBytesDE 3.2.3.1.1.5
The number of DE bytes Received on the ingress
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvFramesDiscard 3.2.3.1.1.6
The number of frames discarded on the ingress
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvBytesDiscard 3.2.3.1.1.7
The number of bytes discarded on the ingress
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvFramesDiscShelfAlarm 3.2.3.1.1.8
The number of frames discarded on the ingress due to shelf alarm For FRSM12 Card: Not Supported
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvFramesDiscXceedQDepth 3.2.3.1.1.9
The number of frames discarded on the ingress due to exceeded queue depth
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvBytesDiscXceedQDepth 3.2.3.1.1.10
The number of bytes discarded on the ingress due to exceeded queue depth
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvFramesDiscXceedDEThresh 3.2.3.1.1.11
The number of frames discarded on the ingress due to exceeded DE Threshold
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvFramesFECN 3.2.3.1.1.12
The number of frames received with FECN bit already set
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvFramesBECN 3.2.3.1.1.13
The number of frames received with BECN bit already set
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvFramesTaggedFECN 3.2.3.1.1.14
The number of frames received that were tagged with FECN bit
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvFramesTaggedBECN 3.2.3.1.1.15
The number of frames received that were tagged with BECN bit
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvFramesTaggedDE 3.2.3.1.1.16
The number of frames received that were tagged with DE bit
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvBytesTaggedDE 3.2.3.1.1.17
The number of bytes received that were tagged with DE bit
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvKbpsAIR 3.2.3.1.1.18
Received Average Information Rate in KBPS
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

xmtFrames 3.2.3.1.1.19
The number of frames transmitted
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtBytes 3.2.3.1.1.20
The number of bytes transmitted
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtFramesFECN 3.2.3.1.1.21
The number of frames transmitted with FECN bit already set
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtFramesBECN 3.2.3.1.1.22
The number of frames transmitted with BECN bit already set
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtFramesDE 3.2.3.1.1.23
The number of DE frames transmitted
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtBytesDE 3.2.3.1.1.24
The number of DE bytes transmitted
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtFramesDiscard 3.2.3.1.1.25
The number of frames discarded on the eggress
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtBytesDiscard 3.2.3.1.1.26
The number of bytes discarded on the egress For FRSM12 Card: Not Supported
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtFramesDiscXceedQDepth 3.2.3.1.1.27
The number of frames discarded on the egress due to exceeded queue depth For FRSM12 Card: Not Supported
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtBytesDiscXceedQDepth 3.2.3.1.1.28
The number of bytes discarded on the egress due to exceeded queue depth For FRSM12 Card: Not Supported
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtFramesDiscXceedDEThresh 3.2.3.1.1.29
The number of frames discarded on the egress due to exceeded DE Threshold For FRSM12 Card: Not Supported
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtFramesDiscPhyLayerFail 3.2.3.1.1.30
The number of frames discarded on the egress due to physical layer failure
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtFramesDiscCRCError 3.2.3.1.1.31
The number of frames discarded on the egress due to CRC Error
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtFramesDiscReassmFail 3.2.3.1.1.32
The number of frames discarded on the egress due to reassembly failure For FRSM12 Card: Not Supported
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtFramesDiscSrcAbort 3.2.3.1.1.33
The number of frames discarded on the egress due to source abort
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtFramesDuringLMIAlarm 3.2.3.1.1.34
The number of frames transmitted during LMI logical port alarm
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtBytesDuringLMIAlarm 3.2.3.1.1.35
The number of bytes transmitted during LMI logical port alarm
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtFramesTaggedFECN 3.2.3.1.1.36
The number of frames transmitted that were tagged with FECN bit
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtFramesTaggedBECN 3.2.3.1.1.37
The number of frames transmitted that were tagged with BECN bit
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtKbpsAIR 3.2.3.1.1.38
Transmitted Average Information Rate in KBPS
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

chanClrButton 3.2.3.1.1.39
Channel clear button. Clears Channel Counters.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER noaction(1), clear(2)  

xmtFramesTaggedDE 3.2.3.1.1.40
The number of frames transmitted which have been DE tagged at the far end ingress in excess of CIR
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtBytesTaggedDE 3.2.3.1.1.41
The number of bytes transmitted which have been DE tagged at the far end ingress in excess of CIR
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvFramesDiscUPC 3.2.3.1.1.42
The number of frames discarded at ingress due to the UPC measurement in excess of CIR+EIR
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

chanSecUpTime 3.2.3.1.1.43
The time in seconds the PVC stay in service
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtFramesInvalidCPIs 3.2.3.1.1.44
Number of frames transmitted with invalid CPI header. currently valid is 0
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtFramesLengthViolations 3.2.3.1.1.45
The number of frames discarded due to violation of length in the egress direction.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtFramesOversizedSDUs 3.2.3.1.1.46
The number of frames discarded because the size is beyond the max in the egress direction
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtFramesUnknownProtocols 3.2.3.1.1.47
The number of frames discarded for Unknown protocol in the egress direction. Used only in SIW for PDUs that are dropped.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvFramesUnknownProtocols 3.2.3.1.1.48
Number of frames discarded for Unknown protocol in the ingress direction. Used only in SIW for PDUs that are dropped
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

frChanStateGrp 3.2.2
OBJECT IDENTIFIER    

frChanStateGrpTable 3.2.2.1
Table of transmit/receive states of channels.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    FrChanStateGrpEntry

frChanStateGrpEntry 3.2.2.1.1
An entry for FrChannelStateGrpEntry.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  FrChanStateGrpEntry  

stateChanNum 3.2.2.1.1.1
Refers to the virtual connection index Note that the actual range of the index supported by a card depends on the type of card. eg: FRSM-4T1/E1 supports a range from 16..271 (256 entries) FRSM-8T1/E1 supports a range from 16..1015 (1000 entries) FRSM-T3/E3/HS2 supports a range from 16..2015 (2000 entries) FRSM-2CT3 supports a range from 16..4015 (4000 entries) For FRSM12 Card: Byte 3 = Chassis Number, Byte 2 = Slot Number, Byte 1 & 0 = channel Number. Lower two bytes range from 16..16015 (16000 entries)
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

chanState 3.2.2.1.1.2
This variable indicates the LMI state of the VC (channel) failed(4) is added to distinguish between alarm (when the connection in the PNNI n/w is not actually broken) and failed (when the connection in the PNNI n/w is actually broken). This is applicable only to the PNNI environment.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER notConfigured(1), okay(2), alarm(3), failed(4)  

xmtAbitState 3.2.2.1.1.3
The A bit transmit state 1 - LMI off 2 - LMI on and connection is O.K. 3 - LMI on and connection has failed
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER off(1), sendingAequal1(2), sendingAequal0(3)  

rcvAbitState 3.2.2.1.1.4
The A bit receive state 1 - LMI off 2 - LMI on and connection is O.K. 3 - LMI on and connection has failed
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER off(1), rcvingAequal1(2), rcvingAequal0(3)  

xmtATMState 3.2.2.1.1.5
This variable indicates the transmit state of the VC (channel) on the ATM side 1 - Not sending any state 2 - Sending AIS OAM state 3 - Sending FERF OAM state
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER notSending(1), sendingAIS(2), sendingFERF(3)  

rcvATMState 3.2.2.1.1.6
This variable indicates the receiving state of the VC (channel) on the ATM side 1 - Not receiving any state 2 - Receiving AIS OAM 3 - Receiving FERF OAM
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER notRcving(1), rcvingAIS(2), rcvingFERF(3)  

chanStatusBitMap 3.2.2.1.1.7
This variable indicates the consolidated bit map of the channel alarm state. Individual bit positions are as defined below. Bit position Fail/Alarm Reason ------------ ---------- ------ 0 Alarm Reserved 1 Alarm n/w side AIS/RDI Rx 2 Fail Conditioned(A bit from n/w) 3 Alarm Reserved 4 Fail CC failed/RAS failed 5 Fail Mismatch 6 Alarm ingress A bit (LMI) 7 Alarm Reserved Fail bitmap mask : 0x34 Alarm bitmap mask: 0xCB This object is not applicable to MGX Release 1.x.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..ff  

frEndPtMapGrp 3.3
OBJECT IDENTIFIER    

frEndPtMapGrpTable 3.3.1
Table of transmit/receive states of channels.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    FrEndPtMapGrpEntry

frEndPtMapGrpEntry 3.3.1.1
An entry for FrEndPtMapGrpEntry.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  FrEndPtMapGrpEntry  

endPortNum 3.3.1.1.1
Refers to the logical port index For FRSM12 card: The ifIndex of the port's corresponding row in ifTable. Byte 3 = Chassis Number, Byte 2 = Slot Number, Byte 1 & 0 = Encoded unique number for Port.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

endDLCI 3.3.1.1.2
Refers to the DLCI index
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..8388607  

endChanNum 3.3.1.1.3
Logical connection number 0 if port.dlci is a multicast group Note that the actual range of endChanNum supported by a card depends on the type of card. eg: FRSM-4T1/E1 supports a range from 16..271 (256 entries) FRSM-8T1/E1 supports a range from 16..1015 (1000 entries) FRSM-T3/E3/HS2 supports a range from 16..2015 (2000 entries) FRSM-2CT3 supports a range from 16..4015 (4000 entries) For FRSM12 Card: Byte 3 = Chassis Number, Byte 2 = Slot Number, Byte 1 & 0 = channel Number. Lower two bytes range from 16..16015 (16000 entries)
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

endLineNum 3.3.1.1.4
Refers to the physical line index. Note that the actual range of endLineNum supported by a card depends on the type of card. eg: FRSM-4T1/E1 supports a range from 1..4 (4 entries) FRSM-8T1/E1 supports a range from 1..8 (8 entries) FRSM-T3/E3/HS2 supports a range from 1..2 (2 entries) FRSM-2CT3 supports a range from 1..56 (56 entries) For FRSM12 Card: The ifIndex of the physical line on which this channel is provisioned.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

frPortCnfPortGrp 3.1.1.1
OBJECT IDENTIFIER    

frPortCnfPortGrpTable 3.1.1.1.1
The config table is for logical port interface. In FRSM-VHS, there are upto 256 entries for FRSM-2CT3 card and 2 entries for FRSM-T3/E3/HS2/T3B/E3B/HS2B-HSSI cards and 8 entries for FRSM-HS2B-12IN1 card. For other cards, there are upto 192 entries (for 8 DS1s) and upto 248 entries (for 8 E1s). For FRSM12 cards: There are upto 12 entries. When a new row is added to this table, the corresponding row is created in ifTable.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    FrPortCnfPortGrpEntry

frPortCnfPortGrpEntry 3.1.1.1.1.1
An entry for logical port
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  FrPortCnfPortGrpEntry  

portNum 3.1.1.1.1.1.1
This is logical port number. If we have T1 card then the maximum port number is 192 and if we have E1 card the maximum port number can be 248. For FRSM-2CT3 card, the maximum port number is 256 and for unchannelized FRSM-VHS cards (FRSM-T3/E3/HS2/T3B/E3B/HS2B-HSSI), the maximum port number is 2 For FRSM-HS2B-12IN1 card, the maximum port number is 8 For FRSM12 card: The ifIndex of the port's corresponding row in ifTable. Byte 3 = Chassis Number, Byte 2 = Slot Number, Byte 1 & 0 = Encoded unique number for Port.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

portLineNum 3.1.1.1.1.1.2
This represents the line number For FRSM12 card: The ifIndex of the physical line on which this port is provisioned.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

portRowStatus 3.1.1.1.1.1.3
This variable enables or modifies the port 1- add 2 - del 3 - mod For FRSM12 card: For Snmp GET operations, only mod is returned.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER add(1), del(2), mod(3)  

portDs0ConfigBitMap 3.1.1.1.1.1.4
This respesents bit map of DS0s for a line which are used to form this logical port. Bit 0 represents DS0-1. This entry is not used for unchannelized FRSM-VHS/FRSM12 cards. For these cases, this field carries a value of 'ffffff'h always.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..ffffff  

portDs0Speed 3.1.1.1.1.1.5
This represents port speed of 64 or 56 1 - speed56k 2 - speed64k 3 - unUsed. This field is not used for unchannelised FRSM-VHS (FRSM-2T3/ FRSM-2E3/FRSM-HS2/FRSM-T3B/FRSM-E3B/FRSM-HS2B) cards; in such cards, the portDs0Speed field carries a value of 'unUsed' always. For FRSM12 card: This is set to 3 - unUsed.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER speed56k(1), speed64k(2), unUsed(3)  

portFlagsBetweenFrames 3.1.1.1.1.1.6
Number of flags transmitted between FR frames For FRSM12 card: Only the values 1 to 8 are supported. The mapping is as follows: MIB object value No. of HDLC flags inserted 1 1 2 2 3 4 4 8 5 16 6 32 7 64 8 128
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..10  

portEqueueServiceRatio 3.1.1.1.1.1.7
Number of times queue 1 is serviced for every time queue 2 is serviced. The value 0 is supported only by FRSM-VHS. FRSM-VHS supports two different egress queue servicing algorithms depending on the Egress Qos Feature. if EgrQosFeature is ENABLED, Weighted Fair queueing algorithm will be used to select one queue out of 4 data queues and this object will be set to a default value of 0 in this case and this value cannot be modified by user. In case of EgrQosFeature being DISABLED, this object will be set to a default value of 1 and can be configured to user desired value. This value will be used to decide number of times High priority queue has to be serviced for every time low priority queue is serviced. For FRSM12 card: There is only one scheme of egress scheduling of COS queues within ports, which uses only two COS queues for user data. The scheduling scheme uses a pre-defined ratio to schedule these COS queues on a given port. This object will be used to decide number of times High priority queue has to be serviced for every time low priority queue is serviced.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..15  

portSpeed 3.1.1.1.1.1.8
Configured speed of port in kbps
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

portAdmin 3.1.1.1.1.1.9
used to up and down the port For FRSM12 card: This variable will be equivalent to ifAdminStatus of of ifTable. The write-only is not used.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER up(1), down(2), write-Only(3)  

portType 3.1.1.1.1.1.10
This represents port type For FRSM12 card: frFUNI not Applicable. For frame-relay the ifType is frameRelayService(44) and for frame-forward it is frForward(158).
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER frame-relay(1), frFUNI(2), frame-forward(3)  

portSvcStatus 3.1.1.1.1.1.11
This represents SVC status For FRSM12 card: Not Supported
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disable(1), enable(2)  

portSvcInUse 3.1.1.1.1.1.12
This represents port svc in use For FRSM12 card: Not Supported
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER not-use(1), in-use(2)  

portSvcShareLcn 3.1.1.1.1.1.13
This represents port type For FRSM12 card: Not Supported
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER port-based(1), card-based(2)  

portSvcLcnLow 3.1.1.1.1.1.14
This represents low end of reserved LCN for svc For FRSM12 card: Not Supported
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 16..4015  

portSvcLcnHigh 3.1.1.1.1.1.15
This represents high end of reserved LCN for svc For FRSM12 card: Not Supported
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 16..4015  

portSvcDlciLow 3.1.1.1.1.1.16
This represents low end of reserved DLCI for svc For FRSM12 card: Not Supported
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..1023  

portSvcDlciHigh 3.1.1.1.1.1.17
This represents high end of reserved DLCI for svc For FRSM12 card: Not Supported
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..1023  

portDeleteSvcs 3.1.1.1.1.1.18
Setting this object to 1 indicates that all the SVC connections on the given port has to be deleted For FRSM12 card: Not Supported
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER delete(1), other(2)  

portIngrSvcBandW 3.1.1.1.1.1.19
This represents Ingress Bandwidth reserve for SVC For FRSM12 card: Not Supported
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

portEgrSvcBandW 3.1.1.1.1.1.20
This represents Egress Bandwidth reserve for SVC For FRSM12 card: Not Supported
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

portBERTEnable 3.1.1.1.1.1.21
This variable enables BERT For FRSM12 card: Not Supported
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disable(1), enable(2)  

portEnhancedSIW 3.1.1.1.1.1.22
This variable enables/disables enhanced SIW feature. Enabling this permits support for SIW translation of Appletalk. This feature is currently supported only in the FRSM-VHS card. For FRSM12 card: Not Supported This object is not required in FRSM12 since Appletalk is supported by default in FRF.8.1 and FRSM12 supports FRF.8.1
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disable(1), enable(2)  

portM32EgrQueueThresh 3.1.1.1.1.1.23
This represents the M32 logical port Egress Queue threshold in bytes. Frames will not be queued until the number of bytes in the queue is less than the threshold. The default value is 6000. Using a very low value could under utilize the logical port. This is supported in FRSM 8t1e1 and FRSM 4t1e1 Service Modules only. For FRSM12 card: Not Supported
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..6000  

portHeaderLen 3.1.1.1.1.1.24
This object is added for FRSM12. The value of this object identifies the Q.922 Address field length and DLCI length for this UNI/NNI logical port. This object is not applicable to MGX Release 1.x.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER twoOctets(1), fourOctets(2)  

portFrameChkSumType 3.1.1.1.1.1.25
This object is added for FRSM12. The value of this object identifies the CRC Length in the HDLC Packet. Applicable for FrameForwarding ports only. This object is not applicable to MGX Release 1.x.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER crc16(1), crc32(2)  

portFileId 3.1.1.1.1.1.26
The ID of the SCT file that holds module specific configuration parameters for this FR virtual interface. This object is not applicable to MGX Release 1.x.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

portOverSubEnable 3.1.1.1.1.1.27
This object is added for FRSM12. When this object is enabled the port will be allowed to be over subscribed. This object is not applicable to MGX Release 1.x.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER enable(1), disable(2)  

portsUsedLine1 3.1.1.1.2
Each bits set represents a DS0 that is used by all the logical ports defined so far for that DS1, the most significant byte is invalid for DS1 This is for line 1
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..ffffff  

portsUsedLine2 3.1.1.1.3
Each bits set represents a DS0 that is used by all the logical ports defined so far for that DS1, the most significant byte is invalid for DS1 This is for line 2
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..ffffff  

portsUsedLine3 3.1.1.1.4
Each bits set represents a DS0 that is used by all the logical ports defined so far for that DS1, the most significant byte is invalid for DS1 This is for line 3
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..ffffff  

portsUsedLine4 3.1.1.1.5
Each bits set represents a DS0 that is used by all the logical ports defined so far for that DS1, the most significant byte is invalid for DS1 This is for line 4
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..ffffff  

portsUsedLine5 3.1.1.1.7
Each bits set represents a DS0 that is used by all the logical ports defined so far for that DS1, the most significant byte is invalid for DS1 This is for line 5
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..ffffff  

portsUsedLine6 3.1.1.1.8
Each bits set represents a DS0 that is used by all the logical ports defined so far for that DS1, the most significant byte is invalid for DS1 This is for line 6
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..ffffff  

portsUsedLine7 3.1.1.1.9
Each bits set represents a DS0 that is used by all the logical ports defined so far for that DS1, the most significant byte is invalid for DS1 This is for line 7
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..ffffff  

portsUsedLine8 3.1.1.1.10
Each bits set represents a DS0 that is used by all the logical ports defined so far for that DS1, the most significant byte is invalid for DS1 This is for line 8
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..ffffff  

portNextAvailable 3.1.1.1.6
This variable contains the next UNUSED logical port number. This number can be used in channel config table, the portNextAvailable gets updated if the number gets used to create a logical port. A '0' indicates that no more ports are available. For FRSM12 Card: Not Supported
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..256  

frPortsUsedLineGrpTable 3.1.1.1.11
Contains a sequence of entries for each DS1 line. each entry gives the number of DS0 slots being used added for FRSM_VHS
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    FrPortsUsedLineGrpEntry

frPortsUsedLineGrpEntry 3.1.1.1.11.1
One entry per DS1
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  FrPortsUsedLineGrpEntry  

frPortsUsedLineIndex 3.1.1.1.11.1.1
This is the Index to the table containing the portsUsedLine for the 56 DS1s
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..56  

frPortsUsedLine 3.1.1.1.11.1.2
Each bits set represents a DS0 that is used by all the logical ports defined so far for that DS1, the most significant byte is invalid for DS1
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..ffffff  

frPortCnfSigCLLMGrp 3.1.1.2.2
OBJECT IDENTIFIER    

frPortCnfSigCLLMGrpTable 3.1.1.2.2.1
The config table is for logical port interface
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    FrPortCnfSigCLLMGrpEntry

frPortCnfSigCLLMGrpEntry 3.1.1.2.2.1.1
An entry for logical port
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  FrPortCnfSigCLLMGrpEntry  

cllmCnfPortNum 3.1.1.2.2.1.1.1
Refers to the logical port index For FRSM12 card: The ifIndex of the port's corresponding row in ifTable. Byte 3 = Chassis Number, Byte 2 = Slot Number, Byte 1 & 0 = Encoded unique number for Port.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

cllmEnable 3.1.1.2.2.1.1.2
This will enable CLLM 1 - disabled 2 - enabled CLLM is not applicable for frame forwarding ports
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disable(1), enable(2)  

xmtCLLMStatusTimer 3.1.1.2.2.1.1.3
Interval in milliseconds for CLLM to send CLLM updates CLLM parameters are not applicable for frame forwarding ports
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 40..5000  

rcvCLLMStatusTimer 3.1.1.2.2.1.1.4
Timeout value for receiving CLLM updates CLLM parameters are not applicable for frame forwarding ports
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER rcvCLLMTimerValue(1000)  

frPortCnfSigLMIGrp 3.1.1.2.1
OBJECT IDENTIFIER    

frPortCnfSigLMIGrpTable 3.1.1.2.1.1
The config table is for logical port interface there are upto 248 entries (8 E1s) and 192 entries (8 T1s). In FRSM-VHS, there are a total of 256 entries. In FRSM12, there are 12 entries.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    FrPortCnfSigLMIGrpEntry

frPortCnfSigLMIGrpEntry 3.1.1.2.1.1.1
An entry for logical port
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  FrPortCnfSigLMIGrpEntry  

lmiCnfPortNum 3.1.1.2.1.1.1.1
Refers to the logical port index For FRSM12 card: The ifIndex of the port's corresponding row in ifTable. Byte 3 = Chassis Number, Byte 2 = Slot Number, Byte 1 & 0 = Encoded unique number for Port.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

signallingProtocolType 3.1.1.2.1.1.1.2
This will set the signalling protocol 1 - other 2 - noSignalling 3 - strataLMI 4 - annexAUNI 5 - annexDUNI 6 - annexANNI 7 - annexDNNI Only noSignalling is applicable to frame forwarding ports For FRSM12: strataLMI is not supported for portHeaderLen of fourOctets.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER other(1), noSignalling(2), strataLMI(3), annexAUNI(4), annexDUNI(5), annexANNI(6), annexDNNI(7)  

asynchronousUpdates 3.1.1.2.1.1.1.3
disable - disable Asynchronous Status Updates & Unsolicited Full Status enable - enable Asynchronous Status Updates fsenable - enable Unsolicited Full Status updfsenable - enable Asynchronous Status Updates & Unsolicited Full Status The signalling parameters are not applicable for the frame forwarding port.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disable(1), enable(2), fsenable(3), updfsenable(4)  

t391LinkIntegrityTimer 3.1.1.2.1.1.1.4
Interval in seconds for NNI to do status polling The signalling parameters are not applicable for the frame forwarding port.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 5..30  

t392PollingVerificationTimer 3.1.1.2.1.1.1.5
Interval in seconds for UNI to expect status polling The signalling parameters are not applicable for the frame forwarding port.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 5..30  

n391FullStatusPollingCounter 3.1.1.2.1.1.1.6
Number of UNI/NNI Polling cycles The signalling parameters are not applicable for the frame forwarding port.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..255  

n392ErrorThreshold 3.1.1.2.1.1.1.7
UNI/NNI Error Threshold The signalling parameters are not applicable for the frame forwarding port.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..10  

n393MonitoredEventCount 3.1.1.2.1.1.1.8
UNI/NNI Events, always greater than n392 The signalling parameters are not applicable for the frame forwarding port.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..10  

enhancedLmi 3.1.1.2.1.1.1.9
This object defines if enhanced LMI is enabled on a logical port. The signalling parameters are not applicable for the frame forwarding port.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disable(1), enable(2)  

portFRF1Dot2Support 3.1.1.2.1.1.1.10
This object is added for FRSM12. This variable enables/disables FRF 1.2 feature. This object is not applicable to MGX Release 1.x
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER enable(1), disable(2)  

frPortCntPortGrp 3.1.2.1
OBJECT IDENTIFIER    

frPortCntPortGrpTable 3.1.2.1.1
The config table is for logical port interface there are upto 248 entries (for 8 E1s) or 192 (for 8 T1s). In FRSM-VHS, there is support for upto 256 entries.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    FrPortCntPortGrpEntry

frPortCntPortGrpEntry 3.1.2.1.1.1
An entry for logical port
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  FrPortCntPortGrpEntry  

cntPortNum 3.1.2.1.1.1.1
Refers to the logical port index For FRSM12 card: The ifIndex of the port's corresponding row in ifTable. Byte 3 = Chassis Number, Byte 2 = Slot Number, Byte 1 & 0 = Encoded unique number for Port.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

rcvPortFrames 3.1.2.1.1.1.2
The number of frames Received on the ingress
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvPortBytes 3.1.2.1.1.1.3
The number of bytes Received on the ingress
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvPortFramesDE 3.1.2.1.1.1.4
The number of frames with DE bit set Received on the ingress
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvPortFramesFECN 3.1.2.1.1.1.5
The number of frames with FECN bit set Received on the ingress
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvPortFramesBECN 3.1.2.1.1.1.6
The number of frames with BECN bit set Received on the ingress
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvFramesDiscCRCError 3.1.2.1.1.1.7
The number of frames discarded on the ingress due to CRC error
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvFramesDiscAlignmentError 3.1.2.1.1.1.8
The number of frames discarded on the ingress due to Alignment error
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvFramesDiscIllegalLen 3.1.2.1.1.1.9
The number of frames discarded on the ingress due to illegal length
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvFramesDiscIllegalHeader 3.1.2.1.1.1.10
The number of frames discarded on the ingress due to illegal header
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvFramesAbort 3.1.2.1.1.1.11
The number of received frames aborted
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvFramesUnknownDLCI 3.1.2.1.1.1.12
The number of frames received with an unknown DLCI
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvLastUnknownDLCI 3.1.2.1.1.1.13
The last unknown DLCI received
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

rcvPortFramesTaggedFECN 3.1.2.1.1.1.14
The number of frames received that were tagged with FECN bit
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvPortFramesTaggedBECN 3.1.2.1.1.1.15
The number of frames received that were tagged with BECN bit
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvPortFramesTaggedDE 3.1.2.1.1.1.16
The number of frames received that were tagged with DE bit
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvPortFramesDiscXceedDEThresh 3.1.2.1.1.1.17
The number of frames discarded on the ingress due to exceeded DE Threshold
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvPortKbpsAIR 3.1.2.1.1.1.18
Received Average Information Rate in KBPS
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

rcvBufNotAvailable 3.1.2.1.1.1.19
The number of times the receiver is turned off
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtPortFrames 3.1.2.1.1.1.20
The number of frames transmitted
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtPortBytes 3.1.2.1.1.1.21
The number of bytes transmitted
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtPortFramesFECN 3.1.2.1.1.1.22
The number of frames transmittedc with FECN bit already set
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtPortFramesBECN 3.1.2.1.1.1.23
The number of frames transmitted with BECN bit already set
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtPortFramesDiscXceedQDepth 3.1.2.1.1.1.24
The number of frames discarded on the egress due to exceeded queue depth For FRSM12 Card: Not Supported
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtPortBytesDiscXceedQDepth 3.1.2.1.1.1.25
The number of bytes discarded on the egress due to exceeded queue depth For FRSM12 Card: Not Supported
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtPortFramesDuringLMIAlarm 3.1.2.1.1.1.26
The number of frames transmitted during LMI logical port alarm
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtPortBytesDuringLMIAlarm 3.1.2.1.1.1.27
The number of bytes transmitted during LMI logical port alarm
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtFramesAbort 3.1.2.1.1.1.28
The number of transmit frames aborted For FRSM12 Card: Not Supported
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtFramesUnderrun 3.1.2.1.1.1.29
The number of frames discarded due to underrun
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtPortKbpsAIR 3.1.2.1.1.1.30
Transmit Average Information Rate in KBPS
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

xmtBufNotAvailable 3.1.2.1.1.1.31
The number of times the transmitter is turned off For FRSM12 Card: Not Supported
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

portClrButton 3.1.2.1.1.1.32
Port clear button. Resets all counters.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER noaction(1), clear(2)  

rcvFramesDiscNoChan 3.1.2.1.1.1.33
The number of frames received when no channel is setup
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvFramesDiscOverrun 3.1.2.1.1.1.34
The number of frames discarded in Ingress direction due to FIFO overrun in HDLC Controller. This object is not applicable to MGX Release 1.x
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

frPortCntSigCLLMGrp 3.1.2.2.2
OBJECT IDENTIFIER    

frPortCntSigCLLMGrpTable 3.1.2.2.2.1
The CLLM counter table is for logical port interface
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    FrPortCntSigCLLMGrpEntry

frPortCntSigCLLMGrpEntry 3.1.2.2.2.1.1
An entry for logical port
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  FrPortCntSigCLLMGrpEntry  

cllmSigPortNum 3.1.2.2.2.1.1.1
Refers to the logical port index For FRSM12 card: The ifIndex of the port's corresponding row in ifTable. Byte 3 = Chassis Number, Byte 2 = Slot Number, Byte 1 & 0 = Encoded unique number for Port.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

rcvFramesCLLM 3.1.2.2.2.1.1.2
The number of CLLM frames received
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvBytesCLLM 3.1.2.2.2.1.1.3
The number of CLLM bytes received
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtFramesCLLM 3.1.2.2.2.1.1.4
The number of CLLM frames transmitted
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtBytesCLLM 3.1.2.2.2.1.1.5
The number of CLLM bytes transmitted
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

cllmFailures 3.1.2.2.2.1.1.6
The number of times an expected CLLM message was not received
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

frPortCntSigLMIGrp 3.1.2.2.1
OBJECT IDENTIFIER    

frPortCntSigLMIGrpTable 3.1.2.2.1.1
The LMI counter table is for logical port interface there are upto 248 entries (for 8 E1s) and upto 192 entries (for 8 T1s). In FRSM-VHS, there are upto 256 entries.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    FrPortCntSigLMIGrpEntry

frPortCntSigLMIGrpEntry 3.1.2.2.1.1.1
An entry for logical port
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  FrPortCntSigLMIGrpEntry  

lmiSigPortNum 3.1.2.2.1.1.1.1
Refers to the logical port index For FRSM12 card: The ifIndex of the port's corresponding row in ifTable. Byte 3 = Chassis Number, Byte 2 = Slot Number, Byte 1 & 0 = Encoded unique number for Port.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

rcvStatusInquiry 3.1.2.2.1.1.1.2
The number of Status Inquiry messages received
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvInvalidRequest 3.1.2.2.1.1.1.3
The number of Invalid Request messages received
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvUNISeqMismatch 3.1.2.2.1.1.1.4
The number of times UNI messages with sequence number mismatches were received
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtStatus 3.1.2.2.1.1.1.5
The number of times Status response messages transmitted
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtAsynchUpdate 3.1.2.2.1.1.1.6
The number of times Asynch Status messages transmitted
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

uniSignalingTimeout 3.1.2.2.1.1.1.7
The number of times UNI Status requests were not received
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

xmtStatusInquiry 3.1.2.2.1.1.1.8
The number of Status Inquiry messages transmitted
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvStatus 3.1.2.2.1.1.1.9
The number of times Status response messages received
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvAsynchUpdate 3.1.2.2.1.1.1.10
The number of times Asynch Status messages received
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

rcvNNISeqMismatch 3.1.2.2.1.1.1.11
The number of times NNI messages with sequence number mismatches were received
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

nniSignalingTimeout 3.1.2.2.1.1.1.12
The number of times NNI Status requests were not received
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

frPortStateGrp 3.1.3
OBJECT IDENTIFIER    

frPortStateGrpTable 3.1.3.1
Table of transmit/receive states of ports.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    FrPortStateGrpEntry

frPortStateGrpEntry 3.1.3.1.1
An entry for logical port.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  FrPortStateGrpEntry  

statePortNum 3.1.3.1.1.1
Refers to the logical port index For FRSM12 card: The ifIndex of the port's corresponding row in ifTable. Byte 3 = Chassis Number, Byte 2 = Slot Number, Byte 1 & 0 = Encoded unique number for Port.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

portState 3.1.3.1.1.2
This variable indicates the state of the logical port
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER notConfigured(1), active(2), remoteLoopback(3), failedDueToLine(4), failedDueToSignalling(5), inactive(6), inBert(7), farEndRemoteLoopback(8), latchDS0DropFeLoop(9), latchDS0LineFeLoop(10), latchOcuFeLoop(11), latchCsuFeLoop(12), latchDsuFeLoop(13), latchHL96FeLoop(14), v54PolynomialFeLoop(15)  

portSignallingState 3.1.3.1.1.3
Bit 0 = 0 -> LMI O.K. or not enabled Bit 0 = 1 -> LMI failed Bit 1 = 0 -> CLLM O.K. or not enabled Bit 1 = 1 -> CLLM failed
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..ffffff  

portOversubscribed 3.1.3.1.1.4
This variable indicates the whether the port is over subscribed or not
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER false(1), true(2)  

portIngrPercentUtil 3.1.3.1.1.5
Percentage Utilization of the Port in the Ingress direction.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..1000  

portEgrPercentUtil 3.1.3.1.1.6
Percentage Utilization of the Port in the Egress direction.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..1000  

frPortCnfResPartGrpTable 3.1.1.5.1
This table contains the configuration of port resource partition
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    FrPortCnfResPartGrpEntry

frPortCnfResPartGrpEntry 3.1.1.5.1.1
An entry for logical port
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  FrPortCnfResPartGrpEntry  

frResPartPortNum 3.1.1.5.1.1.1
This is the logical port number, the index to this table. If we have T1 card then the maximum port number is 192 and if we have E1 card the maximum port number can be 248 For FRSM VHS 2CT3 the maximum port number is 256. For FRSM12 card: The ifIndex of the port's corresponding row in ifTable. Byte 3 = Chassis Number, Byte 2 = Slot Number, Byte 1 & 0 = Encoded unique number for Port.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

frResPartCtrlrNum 3.1.1.5.1.1.2
This is index for controller using the port In MGX release 1.0, the value par should be used In MGX release 2.0, the value pnni should be used
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER par(1), pnni(2), tag(3)  

frResPartRowStatus 3.1.1.5.1.1.3
This will add, delete or modify the partition. In MGX Release1.0: To add an entry, this object should be set to add, value for other objects should not be specified. FRSM will choose default values for all other objects. In MGX Release2.0: To add an entry, this object should be set to add, value for frResPartCtrlrID may be specified. FRSM will choose default values for all other objects. Currently the value mod is not supported. To delete an entry, this object has to be set to del. The resource partition can be deleted only after deleting all the connections (LCNs).
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER add(1), del(2), mod(3)  

frResPartNumOfLcnAvail 3.1.1.5.1.1.4
This represents number of LCNs available for this controller and this port FRSM VHS 2CT3 can support LCNs upto 4000. FRSM12 can support LCNs upto 16000.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..16000  

frResPartDlciLow 3.1.1.5.1.1.5
This represents low end of reserved DLCI
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..8388607  

frResPartDlciHigh 3.1.1.5.1.1.6
This represents high end of reserved DLCI
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..8388607  

frResPartIngrPctBW 3.1.1.5.1.1.7
The percentage of total ingress bandwidth reserved
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..100  

frResPartEgrPctBW 3.1.1.5.1.1.8
The percentage of total egress bandwidth reserved
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..100  

frResPartCtrlrID 3.1.1.5.1.1.9
This is the controller identifier for the resource patition. The default value is set for PNNI controller.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..255  

frPortServiceQueGrpTable 3.1.1.4.1
The config table is for logical port interface. In FRSM-VHS, there are 256 entries for FRSM-2CT3 card and 2 entries for FRSM-T3/E3/HS2/T3B/E3B/HS2B-HSSI cards and 8 entries for FRSM-HS2B-12IN1. The table is currently supported only in FRSM-VHS when the object egrQosFeature in the cardSpecific group is set to egrQosFeatureEnabled.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    FrPortServiceQueGrpEntry

frPortServiceQueGrpEntry 3.1.1.4.1.1
An entry for logical port
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  FrPortServiceQueGrpEntry  

frServPortNum 3.1.1.4.1.1.1
This is the logical port number.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..256  

portServiceQueueNo 3.1.1.4.1.1.2
This identifies the Q depending on the Service Type 1 High Priority Queue 2 rt VBR Queue 3 nrt VBR and ABR Queue 4 UBR Queue queue5(5) to queue8(8) are reserved for future use There are 8 queues but only four are being used as of now.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER highpriorityQ(1), rtVBRQ(2), nrtVBRandABRQ(3), uBRQ(4), queue5(5), queue6(6), queue7(7), queue8(8)  

portEgresQDepth 3.1.1.4.1.1.3
Indicates the peak Egress queue depth for the logical port. The total queue depth of all connections mapped to this queue should not exceed this value.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..2097151  

portEgresECNThresh 3.1.1.4.1.1.4
ECN threshold for the logical port. If the total queue depth of all connections mapped to this port queue exceeds this threshold, then the appropriate ECN bit (FECN in the downstream direction and BECN in the upstream direction) get set.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..2097151  

portEgresDEThresh 3.1.1.4.1.1.5
DE threshold for the logical port. If the total queue depth of all connections mapped to this port queue exceeds this threshold, and the DE bit is set in the incoming frame, then the frame gets dropped.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..2097151  

portQBwInc 3.1.1.4.1.1.6
Denotes the bandwidth increment for this port queue. The bandwidth increment is the percentage of the port bandwidth used by all connections mapped to a particular queue scaled by the value 16384.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..16383  

portBytesDiscXceedQueFull 3.1.1.4.1.1.7
Counter maintained for the no of bytes discarded due to port queue depth exceeded.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

portBytesDiscXceedDEThresh 3.1.1.4.1.1.8
Counter maintained for the no of bytes discarded due to DE threshold exceeded.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

smFeatures 1.3.6.1.4.1.351.110.3.6
OBJECT IDENTIFIER    

smRateControlConfig 1.3.6.1.4.1.351.110.3.7
OBJECT IDENTIFIER    

smCardUtilization 1.3.6.1.4.1.351.110.3.11
OBJECT IDENTIFIER    

smRasConfig 1.3.6.1.4.1.351.110.3.18
OBJECT IDENTIFIER    

rasOamLpbkInfo 1.3.6.1.4.1.351.110.3.19
OBJECT IDENTIFIER    

channelizedAllowed 1.3.6.1.4.1.351.110.3.6.1
BRAM parameter indicating whether this card will support DS0 channels.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER nonChannelized(1), channelized(2)  

rateControlAllowed 1.3.6.1.4.1.351.110.3.6.2
BRAM parameter indicating whether this card will support foresight.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER rateControlDisabled(1), rateControlEnabled(2)  

svcAllowed 1.3.6.1.4.1.351.110.3.6.3
BRAM parameter indicating whether this card will support svc.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER svcDisabled(1), svcEnabled(2)  

funiAllowed 1.3.6.1.4.1.351.110.3.6.4
BRAM parameter indicating whether this card will support FUNI.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER funiDisabled(1), funiEnabled(2)  

imaAllowed 1.3.6.1.4.1.351.110.3.6.5
BRAM parameter indicating whether this card will support Inverse Multiplexing for ATM (IMA) feature
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER imaDisabled(1), imaEnabled(2)  

mulTrksAllowed 1.3.6.1.4.1.351.110.3.6.6
BRAM parameter indicating whether this card will support multiple IMA trunks feature. A value of 1 indicates that the feature is not allowed and a value of 2 indicates that the features is allowed
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER mulTrksDisabled(1), mulTrksEnabled(2)  

egrQosFeature 1.3.6.1.4.1.351.110.3.6.7
If this is set to egrQosFeatureEnabled then the various class of service viz. Hi Priority, VBR rt, etc. as defined by the channel MIB object chanServType are supported. If this is set to egrQosFeatureDisabled then, the priority based queuing as defined by the channel MIB object egressQSelect is supported.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER egrQosFeatureEnabled(1), egrQosFeatureDisabled(2), notApplicable(3)  

rateUp 1.3.6.1.4.1.351.110.3.7.1
Rate Up value for this card.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..100  

rateDown 1.3.6.1.4.1.351.110.3.7.2
Rate Down value for this card.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..100  

rateFastDown 1.3.6.1.4.1.351.110.3.7.3
Rate Fast Down value for this card.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..100  

rtdMeasurementTime 1.3.6.1.4.1.351.110.3.7.4
Round Trip delay measurement time in secs for this card.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..255  

qirTimeout 1.3.6.1.4.1.351.110.3.7.5
QIR timeout in secs for this card.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..255  

cardOversubscribed 1.3.6.1.4.1.351.110.3.11.1
This variable indicates the whether the card is over subscribed or not
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER false(1), true(2)  

cardIngrPercentUtil 1.3.6.1.4.1.351.110.3.11.2
Percentage Utilization of the Card in the Ingress direction.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..1000  

rasOamlpbkAllowed 1.3.6.1.4.1.351.110.3.18.1
Object indicating whether RAS- OAM loopback test is enabled or disabled for this card.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER rasOamlpbkEnabled(1), rasOamlpbkDisabled(2)  

rasOamlpbkFrequency 1.3.6.1.4.1.351.110.3.18.2
Object indicating the frequency in minutes in which RAS task sends one OAM loopback cell per idle connection.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..10  

chanPacketNumber 1.3.6.1.4.1.351.110.3.19.1
Each trap will send status for 256 channels bitmapping the status. This object identities the chunk of 256 channels. The channel numbers for which the trap indicates the status is found as chanPacketNumber * 256 + bitoffset + 16. This object cannot be set or read.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..15  

chanOAMstatus32 1.3.6.1.4.1.351.110.3.19.2
Bit map indicating Ras_oam_lpbk test state of 32 channels from chanPacketNumber * 256 + 16 to chanPacketNumber * 256 + 47 MSB represent lower channel and LSB represent higher channel 0 in bit position indicate lpbk test ok 1 in bit position indicate lpbk test failed This object cannot be set or read
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

chanOAMstatus64 1.3.6.1.4.1.351.110.3.19.3
Bit map indicating Ras_oam_lpbk test state of 32 channels from chanPacketNumber * 256 + 48 to chanPacketNumber * 256 + 79 MSB represent lower channel and LSB represent higher channel 0 in bit position indicate lpbk test ok 1 in bit position indicate lpbk test failed This object cannot be set or read
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

chanOAMstatus96 1.3.6.1.4.1.351.110.3.19.4
Bit map indicating Ras_oam_lpbk test state of 32 channels from chanPacketNumber * 256 + 80 to chanPacketNumber * 256 + 111 MSB represent lower channel and LSB represent higher channel 0 in bit position indicate lpbk test ok 1 in bit position indicate lpbk test failed This object cannot be set or read
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

chanOAMstatus128 1.3.6.1.4.1.351.110.3.19.5
Bit map indicating Ras_oam_lpbk test state of 32 channels from chanPacketNumber * 256 + 112 to chanPacketNumber * 256 + 143 MSB represent lower channel and LSB represent higher channel 0 in bit position indicate lpbk test ok 1 in bit position indicate lpbk test failed This object cannot be set or read
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

chanOAMstatus160 1.3.6.1.4.1.351.110.3.19.6
Bit map indicating Ras_oam_lpbk test state of 32 channels from chanPacketNumber * 256 + 144 to chanPacketNumber * 256 + 175 MSB represent lower channel and LSB represent higher channel 0 in bit position indicate lpbk test ok 1 in bit position indicate lpbk test failed This object cannot be set or read
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

chanOAMstatus192 1.3.6.1.4.1.351.110.3.19.7
Bit map indicating Ras_oam_lpbk test state of 32 channels from chanPacketNumber * 256 + 176 to chanPacketNumber * 256 + 207 MSB represent lower channel and LSB represent higher channel 0 in bit position indicate lpbk test ok 1 in bit position indicate lpbk test failed This object cannot be set or read
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

chanOAMstatus224 1.3.6.1.4.1.351.110.3.19.8
Bit map indicating Ras_oam_lpbk test state of 32 channels from chanPacketNumber * 256 + 208 to chanPacketNumber * 256 + 239 MSB represent lower channel and LSB represent higher channel 0 in bit position indicate lpbk test ok 1 in bit position indicate lpbk test failed This object cannot be set or read
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

chanOAMstatus256 1.3.6.1.4.1.351.110.3.19.9
Bit map indicating Ras_oam_lpbk test state of 32 channels from chanPacketNumber * 256 + 240 to chanPacketNumber * 256 + 271 MSB represent lower channel and LSB represent higher channel 0 in bit position indicate lpbk test ok 1 in bit position indicate lpbk test failed This object cannot be set or read
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

frPortCnfX21PortGrpTable 3.1.1.3.1
The config table is for X.21/HSSI logical port interface
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    FrPortCnfX21PortGrpEntry

frPortCnfX21PortGrpEntry 3.1.1.3.1.1
An entry for logical port
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  FrPortCnfX21PortGrpEntry  

x21portNum 3.1.1.3.1.1.1
This is logical port number. The HSSI backcard can support upto 3 ports, whereas the X.21 can support 4 logical ports. No defaults.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..4  

x21portLineNum 3.1.1.3.1.1.2
This represents the line number. On FRSM-HS1 the HSSI can support 3 lines and X.21 4 lines. No defaults.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..4  

x21portRowStatus 3.1.1.3.1.1.3
This variable adds, deletes, or modifies the port 1- add 2 - delete 3 - modify Default is add.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER add(1), del(2), mod(3)  

x21portFlagsBetweenFrames 3.1.1.3.1.1.4
Number of flags transmitted between two consecutive HDLC frames. Default is 1 flag.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..10  

x21portEqueueServiceRatio 3.1.1.3.1.1.5
Number of times queue 1 is serviced for every time queue 2 is serviced. Default is 1.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..15  

x21portSpeed 3.1.1.3.1.1.6
Port speed in kbps. At present it is same as line speed. No defaults.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

x21portAdmin 3.1.1.3.1.1.7
Up/down used to up and down the port. Default is the up state.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER up(1), down(2), write-Only(3)  

x21portType 3.1.1.3.1.1.8
This represents port type. The processing of the frames depends on the type of the port.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER frame-relay(1), frFUNI(2), frame-forward(3)  

x21portSvcStatus 3.1.1.3.1.1.9
This represents SVC status
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disable(1), enable(2)  

x21portSvcInUse 3.1.1.3.1.1.10
This represents port svc in use
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER not-use(1), in-use(2)  

x21portSvcShareLcn 3.1.1.3.1.1.11
This represents port type
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER port-based(1), card-based(2)  

x21portSvcLcnLow 3.1.1.3.1.1.12
This represents low end of reserved LCN for svc
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 16..271  

x21portSvcLcnHigh 3.1.1.3.1.1.13
This represents high end of reserved LCN for svc
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 16..271  

x21portSvcDlciLow 3.1.1.3.1.1.14
This represents low end of reserved DLCI for svc
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..1023  

x21portSvcDlciHigh 3.1.1.3.1.1.15
This represents high end of reserved DLCI for svc
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..1023  

x21portDeleteSvcs 3.1.1.3.1.1.16
Setting this object to 1 indicates that all the SVC connections on the given port has to be deleted
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER delete(1), other(2)  

x21portIngrSvcBandW 3.1.1.3.1.1.17
This represents Ingress Bandwidth reserve for SVC
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

x21portEgrSvcBandW 3.1.1.3.1.1.18
This represents Egress Bandwidth reserve for SVC
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

x21AlmCnfGrp 2.2
OBJECT IDENTIFIER    

x21AlmCnfGrpTable 2.2.1
The FRSM-HS1/HS2 interface alarm configuration table.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    X21AlmCnfGrpEntry

x21AlmCnfGrpEntry 2.2.1.1
An entry in the X.21/HSSI Alarm Configuration table
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  X21AlmCnfGrpEntry  

x21AlmCnfLineNum 2.2.1.1.1
X.21/HSSI line number. No defaults. FRSM-HS2/HS2B-HSSI supports a range from 1 to 2 FRSM-HS2B-12IN1 supports a range from 1 to 8
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..8  

x21Severity 2.2.1.1.2
This variable is used to setup the severity of LOS or clock mismatch alarm. Whenever the above condition arises, the FRSM-HS1/HS2/HS2B will send the alarm with appropriate status.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER minor(1), major(2), dontcare(3)  

x21AlmGrp 2.3
OBJECT IDENTIFIER    

x21AlmGrpTable 2.3.1
The X.21/HSSI interface alarm configuration table. The size of table is given by the value of x21LineNum
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    X21AlmGrpEntry

x21AlmGrpEntry 2.3.1.1
An entry in the X21 Alarm table
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  X21AlmGrpEntry  

x21AlmLineNum 2.3.1.1.1
This object is the identifier (line number) of a X.21/HSSI interface. FRSM-HS2/HS2B-HSSI supports a range from 1 to 2 FRSM-HS2B-12IN1 supports a range from 1 to 8
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..8  

x21LineAlarmState 2.3.1.1.2
This variable is a bitmap of the X21 Line ALarms on the FRSM-HS1. A value of zero indicates no alarms. Itemized below are the individual bits: BitPosition Alarm ----------- ----- 0 C/I signal is OFF (also used to indicate LOS) 1 Clock rate mismatch (used in DTE mode) 2 Internal Loopback (diagnostic loopback) 3 HSSI Local LoopA (line is in loopback) 4 HSSI Local LoopB (line is in loopback) 5 Remote Loopback (line is transmitting loopcodes) 6 For V35 DTE mode, DCD and CTS both are inactive 7 For V35 DCE mode, RTS is inactive 8 No cable attached to V35 backcard 9 Wrong cable attached to V35 backcard If all the bit-states are 0s: - line is not in alarm, or - line not in loopback, or - line is transmitting any loopback codes.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..1023  

x21LineEIAStatus 2.3.1.1.3
Indicates the status of X.21/HSSI lines: 0x01 -- c-lead high 0x02 -- i-lead high 0x04 -- LC-lead high (valid only for HSSI DCE mode).
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..7  

x21AlarmClrButton 2.3.1.1.4
This variable is used to clear all the alarms for the line. 1 = No action 2 = Clear alarm
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER noaction(1), clear(2)  

x21CnfGrp 2.1
OBJECT IDENTIFIER    

x21CnfGrpTable 2.1.1
The X21 Configuration table. The table size is given by the value of x21LineNumofValidEntries
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    X21CnfGrpEntry

x21CnfGrpEntry 2.1.1.1
An entry in the X21 Configuration table.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  X21CnfGrpEntry  

x21LineNum 2.1.1.1.1
This object is the identifier of a X.21 interface. No defaults. FRSM-HS2/HS2B-HSSI supports a range from 1 to 2 FRSM-HS2B-12IN1 supports a range from 1 to 8
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..8  

x21LineEnable 2.1.1.1.2
This variable disables, enables or modifies a line 1 - disable 2 - enable 3 - modify Default is enable.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disable(1), enable(2), modify(3)  

x21LineType 2.1.1.1.3
This variable indicates the type X21 line type. The line-type affects the clock -- the DCE device always provides the clock and DTE accepts it. dteST is only applicable to V.35 interfaces Default is DTE.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER dte(1), dce(2), dteST(3)  

x21LineRate 2.1.1.1.4
This variable configures the X.21/HSSI/V.35 line-rate. Note that enumerations 51 through 108 are supported only by FRSM-HS2/HS2B card. default is r48Kbps on FRSM-HS2B-12IN1 default is r52Mbps on FRSM-HS2/HS2B-HSSI
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER r48Kbps(1), r56Kbps(2), r64Kbps(3), r112Kbps(4), r128Kbps(5), r168Kbps(6), r192Kbps(7), r224Kbps(8), r256Kbps(9), r280Kbps(10), r320Kbps(11), r336Kbps(12), r384Kbps(13), r392Kbps(14), r448Kbps(15), r512Kbps(16), r768Kbps(17), r1024Kbps(18), r1536Kbps(19), r1544Kbps(20), r1792Kbps(21), r1920Kbps(22), r1984Kbps(23), r2048Kbps(24), r3097Kbps(25), r3157Kbps(26), r4096Kbps(27), r4645Kbps(28), r4736Kbps(29), r6195Kbps(30), r6315Kbps(31), r7744Kbps(32), r7899Kbps(33), r8192Kbps(34), r9289Kbps(35), r9472Kbps(36), r10240Kbps(37), r10890Kbps(38), r11060Kbps(39), r12390Kbps(40), r12630Kbps(41), r13900Kbps(42), r14220Kbps(43), r14340Kbps(44), r15490Kbps(45), r15800Kbps(46), r16380Kbps(47), r20030Kbps(48), r24990Kbps(49), r52Mbps(50), r17370Kbps(51), r18950Kbps(52), r20530Kbps(53), r22100Kbps(54), r23680Kbps(55), r3088Kbps(56), r4632Kbps(57), r6176Kbps(58), r7720Kbps(59), r9264Kbps(60), r10808Kbps(61), r12352Kbps(62), r13896Kbps(63), r15440Kbps(64), r16984Kbps(65), r18528Kbps(66), r20072Kbps(67), r21616Kbps(68), r23160Kbps(69), r24704Kbps(70), r26248Kbps(71), r27792Kbps(72), r29336Kbps(73), r30880Kbps(74), r32424Kbps(75), r33968Kbps(76), r35512Kbps(77), r37056Kbps(78), r38600Kbps(79), r40144Kbps(80), r41688Kbps(81), r43232Kbps(82), r44776Kbps(83), r46320Kbps(84), r47864Kbps(85), r49408Kbps(86), r50952Kbps(87), r6144Kbps(88), r12288Kbps(89), r14336Kbps(90), r16384Kbps(91), r18432Kbps(92), r20480Kbps(93), r22528Kbps(94), r24576Kbps(95), r26624Kbps(96), r28672Kbps(97), r30720Kbps(98), r32768Kbps(99), r34816Kbps(100), r36864Kbps(101), r38912Kbps(102), r40960Kbps(103), r43008Kbps(104), r45056Kbps(105), r47104Kbps(106), r49152Kbps(107), r51200Kbps(108)  

x21LineLoopbackCommand 2.1.1.1.5
This variable represents the loopback state x21NoLoop Not in the loopback state. Normal traffic can be sent x21DiagnosticMetallicLoop Loopbacks the line on the back-card towards the Network. x21DiagnosticFrontcardLoop Loopbacks the line on the frontcard toward the Network. x21RemoteLoop The remote NTU is in the loop back mode. In this state, the FRSM-HS1 is sending the loopback code to remote NTU. Default is x21NoLoop. Note: Before going into one of the loopbacks the state should be x21NoLoop.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER x21NoLoop(1), x21DiagnosticMetallicLoop(2), x21DiagnosticFrontcardLoop(3), x21RemoteLoop(4), v35MetallicLoop(5)  

x21LineSendCode 2.1.1.1.6
This variable indicates what type of code is being sent across the X.21/HSSI interface by the device. The values mean: x21NoCode: No loopback. x21SendLoopACode: Start sending Loop A code. Valid only if the backcard is HSSI and the line-type is DTE. This command loops the line module of the remote device. x21SendLoopBCode: Start sending Loop B code. Valid only if the backcard is HSSI and the line-type is DTE. This command loops the digital section of the remote device. x21SendLocalLoopCode: Start sending CCITT X.21 Loopback Type 3 code. This is valid only if the backcard is X.21 type. x21SendRemoteLoopCode: Start sending CCITT X.21 Loopback Type 2 code. This is valid only if the backcard is X.21 type. x21SendUnLoopCode: Sending a loopback termination request. Valid for both HSSI and X.21 lines. To execute any of the loop-codes the x21LineLoopbackCommand should be set to x21RemoteLoop. Once the x21SendUnLoopCode succeeds the x21LineLoopbackCommand would transition back to x21NoLoop state. Default is x21NoCode.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER x21NoCode(1), x21SendLoopACode(2), x21SendLoopBCode(3), x21SendLocalLoopCode(4), x21SendRemoteLoopCode(5), x21SendUnLoopCode(6)  

x21LineLoopbackCodeDetection 2.1.1.1.7
Enable detection of line Loopback Codes. In the current release, the loopback detection is implemented only in HSSI DCE mode. Default is codeDetectDisabled.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER codeDetectDisabled(1), codeDetectEnabled(2)  

x21ConnectorType 2.1.1.1.8
back card type This object is not used by FRSM-HS2/HS2B
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER x21Backcard(1), hssiBackcard(2), v35Backcard(3)  

x21InvertClock 2.1.1.1.9
This object configures two options: a) To invert the clock sent by HS1/HS2B with the TX data or not. b) If DCE,to expect the receive clock looped back from DTE or not. If DTE,to loop back the receive clock from DCE or not. nonInvertedAndNotLooped(1)- a)=dont invert, b)=dont expect rcv clock/ dont loop rcv clock invertedAndNotLooped(2) - a)=invert, b)=dont expect rcv clock/ dont loop rcv clock nonInvertedAndLooped(3) - a)=dont invert, b)=expect rcv clock/ loop rcv clock invertedAndLooped(4) - a)=invert, b)=expect rcv clock/ loop rcv clock Enums 1 and 2 are applicable for X.21/HSSI/V.35 interfaces. Enums 3 and 4 are applicable only for V.35. Default for X.21/HSSI is nonInvertedAndNotLooped(1) Default for V.35 is nonInvertedAndLooped(3) This object is not used by FRSM-HS2/FRSM-HS2B-HSSI This object is used by FRSM-HS2B-12IN1 and default values are nonInvertedAndNotLooped(1) for X.21, nonInvertedAndLooped(3) for V.35
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER nonInvertedAndNotLooped(1), invertedAndNotLooped(2), nonInvertedAndLooped(3), invertedAndLooped(4)  

x21LineInterfaceType 2.1.1.1.10
This object indicates serial interface type. Default is hssi. This object is not is configurable in FRSM-HS2 and FRSM-HS2B-HSSI. It will be set hssi by default for these cards This object is configurable in FRSM-H2B-12IN1. Default is v35
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER hssi(1), x21(2), v35(3)  

x21ClkFrequencyThreshold 2.1.1.1.11
This object indicates user configurable percentage of clock frequency, which is used by DTE clock monitoring to declare clock rate out of bound alarm. This object is valid only for X.21/v.35/HSSI DTE interfaces. This object is supported by FRSM-HS2 and FRSM-HS2/B
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..5  

serialLineRate 2.1.1.1.12
line rate for X.21/HSSI/V.35 interfaces in bps. This object is supported only by FRSM-HS2/B card, only multiples of 1000 are accepted. Default is 48Kbps for X.21/V.35 interfaces and 51840Kbps for HSSI interface
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 48000..51840000  

serialLineRateVariation 2.1.1.1.13
This object indicates line rate variation of HSSI/X.21/V.35 DCE interfaces in ppm (parts per million). i.e. clock generated from DCE hardware interface = (serialLineRate +/- (serialLineRateVariation * 10^6)/ serialLineRate) This object is supported only by FRSM-HS2/B card
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

x21LineNumofValidEntries 2.1.2
The number of X.21/HSSI configuration entries (regardless of their current configuration) in the x21ConfigTable table.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

vismConfig 1.3.6.1.4.1.351.110.3.17
OBJECT IDENTIFIER    

vismIpGrp 1.3.6.1.4.1.351.110.3.17.1
OBJECT IDENTIFIER    

vismVoIpGrp 1.3.6.1.4.1.351.110.3.17.2
OBJECT IDENTIFIER    

vismDspGrp 1.3.6.1.4.1.351.110.3.17.3
OBJECT IDENTIFIER    

vismSystemGrp 1.3.6.1.4.1.351.110.3.17.4
OBJECT IDENTIFIER    

vismTrapObjGrp 1.3.6.1.4.1.351.110.3.17.5
OBJECT IDENTIFIER    

vismAal2Grp 1.3.6.1.4.1.351.110.3.17.6
OBJECT IDENTIFIER    

vismInteropGrp 1.3.6.1.4.1.351.110.3.17.7
OBJECT IDENTIFIER    

vismIpAddress 1.3.6.1.4.1.351.110.3.17.1.1
The IP address of VISM card. Each VISM card has its own IP address. IP address for each VISM card is required to communicate with the Call agent. The IP address should be configured before adding endpoints. This object is applicable if the mode is voIP or switching. From vism 2.0.3 release onwards this object can be configured in any application but will be applicable only in switching applications.
Status: mandatory Access: read-write
OBJECT-TYPE    
  IpAddress  

vismSubNetMask 1.3.6.1.4.1.351.110.3.17.1.2
SUB-NETMASK of the VISM IP interface. This object is applicable if the mode is voIP or switching. From vism 2.0.3 release onwards this object can be configured in any application but will be applicable only in switching applications.
Status: mandatory Access: read-write
OBJECT-TYPE    
  IpAddress  

vismControlTos 1.3.6.1.4.1.351.110.3.17.1.3
This object is used to provision the bitmask used for the TOS (Type Of Service) octet for cells carrying the control (xGCP ) traffic. Default value 96 = 0x60 => Precedence = 3 and TOS nibble = 0 The bitmask can be only a byte value.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..255  

vismBearerIpAddress 1.3.6.1.4.1.351.110.3.17.1.4
The bearer IP address of VISM card. This is an optional second IP address of the VISM card. If this bearer IP address is defined, the vismIpAddress automatically becomes the control IP address. From vism 2.0.3 release onwards this object can be configured in any application but will be applicable only in switching applications.
Status: mandatory Access: read-write
OBJECT-TYPE    
  IpAddress  

vismBearerSubNetMask 1.3.6.1.4.1.351.110.3.17.1.5
Bearer SUB-NETMASK of the VISM IP interface. This optional bearer subnet mask must be provided when vismBearerIpAddress is provided. From vism 2.0.3 release onwards this object can be configured in any application but will be applicable only in switching applications.
Status: mandatory Access: read-write
OBJECT-TYPE    
  IpAddress  

vismBearerTos 1.3.6.1.4.1.351.110.3.17.2.1
This object is used to provision the bitmask used for the TOS (Type Of Service) octet for cells carrying VoIP bearer (RTP ) traffic. Default value 160 = 0xA0 => Precedence = 5 and TOS nibble = 0 The bitmask can be only a byte value.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..255  

vismRtcpRepInterval 1.3.6.1.4.1.351.110.3.17.2.2
This attribute defines the RTCP report interval ( defined in RFC 1889). This indicates the interval at which the RTCP reports should be sent to the participating members. The value is expressed in units of milliseconds. The RTCP reports are not sent at a fixed rate at this interval. Rather, this value is used as a base value to arrive at a random number between 0.5 and 1.5 times this value. This interval timer also serves the purpose of RTP packets receive timer. At every 'vismRtcpRecvMultiplier' times this interval, where 'vismRtcpRecvMultiplier'is specified in the MIB object below, a check is made on a VoIP connection (which is in SENDRECV or RECVONLY xGCP modes) to see if any RTP packets have been received. If not, gateway-initiated DLCX should be sent to the Call Agent. Currently, this interval timer is a card-specific value, which means the value is configurable on a per card basis and not on a per call basis. This value is applicable for VoIP adaptation only. From vism 2.0.3 release onwards this object can be configured in any mode/adaptations, but will be applicable only in voip adaptation.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 500..15000  

vismRtpReceiveTimer 1.3.6.1.4.1.351.110.3.17.2.3
This object defines whether the RTP packets receive timer on the VISM needs to be enabled or not. For some VoIP applications (as in South Carolina release), if a connection is in send-recv mode or recv-only mode, after the bearer cur-through is done, the RTP stream should be monitored for RTP packets. If there are no packets received within a time interval specified by 5 seconds, then a Gateway initiated DLCX (Delete connection) should be sent on that connection. If this object is set to enable, the RTP stream is monitored. Otherwise, it is not monitored. This value is applicable for VoIP adaptation only. From vism 2.0.3 release onwards this object can be configured in any mode/adaptations, but will be applicable only in voip adaptation.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disable(1), enable(2)  

vismPacketizationPeriod 1.3.6.1.4.1.351.110.3.17.2.4
This object is used to provision the packetization period to be applied. This object is applicable for VoIP adaptation only. For VoAAL2 adaptations, the packetization period is derived from the profile table entry. For VoAAL1 adaptation, it is fixed at 5.875 ms.
Status: deprecated Access: read-only
OBJECT-TYPE    
  INTEGER tenms(10), twentyms(20), thirtyms(30), fourtyms(40)  

vismVoIpDtmfRelay 1.3.6.1.4.1.351.110.3.17.2.5
This attribute defines whether the DTMF (Dual Tone, Multi-Frequency) digits need to be transported to the other endpoint via NSE packets. The value in this object will be utilised when the Call Agent does not specify this.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

vismVoIpCasTransport 1.3.6.1.4.1.351.110.3.17.2.6
This attribute defines whether the CAS (ABCD bits) bits need to be transported to the other endpoint via NSE packets. The value in this object will be utilized when the Call Agent does not specify this.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

vismVoIpTripleRedundancy 1.3.6.1.4.1.351.110.3.17.2.7
This attribute defines whether triple redundancy is enabled or not. With triple redundancy, NSEs are sent three times at 20 ms intervals. For reliable channels, triple redundancy can be disabled in order to save the bandwidth and the processing overheads. The value in this object will be utilized when the Call Agent does not specify this.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

vismVoIpVADTimer 1.3.6.1.4.1.351.110.3.17.2.8
This attribute defines the hangover time for VAD in milliseconds. Once the voice inactivity is detected, the gateway will wait for this duration before activating silence suppression. The value in this object will be utilized when the Call Agent does not specify this.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 250..65535  

vismVoIpNTECapabilityNegotiate 1.3.6.1.4.1.351.110.3.17.2.9
This attribute defines whether the VISM has the capability to negotiate the list of events either NSE (Named Signal Event) or NTE (Named Telephony Events), using rtpmap and fmtpmap in the SDP. If the value is TRUE, then VISM will include / accept rtpmap and fmtpmap in the SDP. Any events NSE / NTE not listed will be interpreted as not supported. If the value is FALSE, then VISM will neither include nor accept rtpmap for X-NSE & X-NTE, and fmtpmap. For the backward compatibility sake VISM will transmit DTMF digits using NSEs if the value is FALSE
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

vismVoIpSIDPayloadType 1.3.6.1.4.1.351.110.3.17.2.10
This attribute sets the payload type of a RTP packet carrying SID which is sent to the other end when silence is detected. The default value is in accordance to the earlier revisions of draft-ietf-avt-provile-new-10.txt
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..255  

vismVoIpDPvcOamCellGap 1.3.6.1.4.1.351.110.3.17.2.11
This attribute defines the inter cell gap for dual PVC OAM cells. The value represents the time in milliseconds.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 10..5000  

vismVoIpDPvcRetryCnt 1.3.6.1.4.1.351.110.3.17.2.12
This attribute defines the threshold for failure of a PVC. If the number of consecutive OAM cells sent for which no ack was received equals this number then the connection is considered failed.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..20  

vismVoIpDPvcRecoverCnt 1.3.6.1.4.1.351.110.3.17.2.13
This attribute defines the threshold for recovery of a PVC. If the number of consecutive OAM cells sent for which ack was received equals this number then the connection is considered recovered from failure.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..20  

vismRtcpRecvMultiplier 1.3.6.1.4.1.351.110.3.17.2.14
The 'vismRtcpRepInterval' MIB object specified above defines an approximate RTCP report interval (defined in RFC 1889) which indicates the interval in milliseconds at which the RTCP reports should be sent to the participating members. This MIB object, 'vismRtcpRecvMultiplier', defines how many times the RTCP reports may fail before exception condition activity may be done. At this number of times specified in this MIB object times the RTCP Report Interval, a check is made on a VoIP connection (which is in SENDRECV or RECVONLY xGCP modes) to see if any RTP packets have been received. If not, gateway-initiated DLCX should be sent to the Call Agent. Currently, this interval multiplier is a card-specific value, which means the value is configurable on a per card basis and not on a per call basis. This value is applicable for VoIP adaptation only.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..10  

vismVoIpLapdTrunkPVC 1.3.6.1.4.1.351.110.3.17.2.15
This object should be used for VoIP Trunking applications and only if the signalling type is configured to be CCS. By default the PRI D-channel information will be sent on the control channel. If the control network is totally seperated from the bearer network then the user needs to set this object to 'bearer' to send his Lapd trunk messages to the remote VISM.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER control(1), bearer(2)  

vismVoIpEventNegotiationPolicy 1.3.6.1.4.1.351.110.3.17.2.16
This attribute defines whether or not the VISM should advertise the event codecs, NSE (Named Signal Events), NTE (Named Telephony Events), or Cisco-rtp, in addition to the list of events specified by the call agent. If the value is none, then VISM will not include any more event codecs than what has been specified by the call agent. If the value is proprietary, then VISM can advertise proprietary event codecs in addition to the event codecs specified by the call agent. If the value is all, then VISM can advertise both proprietary as well as standard event codecs in addition to the event codecs specified by the call agent.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER none(1), proprietary(2), all(3)  

vismEcanCnfIdlePattern 1.3.6.1.4.1.351.110.3.17.3.1
Echo Canceller pattern for Idle code. Mu-Law : 1 - 7f, 2 - ff, 3 - 7f or ff, 4 - f7 A-Law : 1 - None, 2 - 54, 3 - 55, 4 - Programable Idle code. DEFVAL : pattern3 (7f or ff) for Mu-law and pattern2 (54) for A-Law.
Status: deprecated Access: read-only
OBJECT-TYPE    
  INTEGER pattern1(1), pattern2(2), pattern3(3), pattern4(4)  

vismEcanCnfIdleDirection 1.3.6.1.4.1.351.110.3.17.3.2
Echo Canceller Idle Direction. This determines in which direction the Idle code must be present.
Status: deprecated Access: read-only
OBJECT-TYPE    
  INTEGER both(1), either(2), send(3), receive(4)  

vismCompCnfPacketSize 1.3.6.1.4.1.351.110.3.17.3.3
Compressed output packet size - This value is used in the DSP interface API commands to configure the DSPs for the maximum packet size. The valid values are 80 and 160 only. NOTE: This object is not used currently. In future it is applicable only if the mode is VoAAL1. From vism 2.0.3 release onwards this object can be configured in any mode/adaptations, but will be applicable only in aal1 adaptation.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 80..160  

vismERL 1.3.6.1.4.1.351.110.3.17.3.4
This object is used to provision the return echo lost, i.e the db loss of the echo that the DSPs are supposed to cancel.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER zerodb(1), threedb(2), sixdb(3), worstdb(4)  

vismJitterDelayMode 1.3.6.1.4.1.351.110.3.17.3.5
This object is used to provision the jitter buffer mode to be apply to a call connection. The possible values are: fixed - means use a constant jitter buffer size, which is defined by the vismJitterInitialDelay mib variable. adaptive - means let the DSP pick the optimal value for the call connection.
Status: deprecated Access: read-write
OBJECT-TYPE    
  INTEGER fixed(1), adaptive(2)  

vismJitterInitialDelay 1.3.6.1.4.1.351.110.3.17.3.6
Defines the jitter buffer size. If the vismJitterDelayMode is set to be fixed, the jitter buffer is fixed at this value for the call. If vismJitterDelayMode is adaptive, this is the initial jitter buffer size, and the DSP will adapt to an optimal size. The range 10,20,30,40,50,60,70,80,90,100 is applicable to 1.5 release only. The range 1,5,10,15,20,25,30,35 .... is applicable from vism2.0 release onwards. The valid range for template 1 : 1,10,20,30,40,50,60,70,80,90,100 The valid range for template 2 : 1,5,10,15,20,25,30,35,40,45,50, 55,60,65,70,75,80,85,90,95,100. When the template of the card changes, either from template 1 to 2 or vice versa the value of this object will be implicitly set to default value.
Status: deprecated Access: read-write
OBJECT-TYPE    
  INTEGER zero(1), five(5), ten(10), fifteen(15), twenty(20), twentyfive(25), thirty(30), thirtyfive(35), fourty(40), fortyfive(45), fifty(50), fiftyfive(55), sixty(60), sixtyfive(65), seventy(70), seventyfive(75), eighty(80), eightyfive(85), ninty(90), ninetyfive(95), hundred(100)  

vismAdaptiveGainControl 1.3.6.1.4.1.351.110.3.17.3.7
If set to on, the DSP will adjust the gain of the of the call connection to an optimal value.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER off(1), on(2)  

vismDspHealth 1.3.6.1.4.1.351.110.3.17.3.8
This attribute indicates the health of the DSPs. It is a percentage of the total number of DSPs that are currently functional. Currently No action is planned upon the failure of a DSP chip in a card, other than resetting the card.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

vismUpspeedCodec 1.3.6.1.4.1.351.110.3.17.3.9
This object specifies the codec to be used when fax upspeed happens. The default value for this object is G.711u when the line type is T1 and G.711a when the line type is E1 This object is applicable only in the case of VOIP applications, for AAL2 the upspeedCodec is obtained from profile table and this object will have no affect.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER g-711u(1), g-711a(2), g-726-32(3), clearChannel(4), g-723h(5), g-723l(6), g-726-16(7), g-726-24(8), g-726-40(9)  

vismPayloadType 1.3.6.1.4.1.351.110.3.17.3.10
This object specifies the payload type to be used when fax upspeed happens. IANA values (0..95) are static payload and (96..127) are dynamic payload type. This object is applicable only in the case of VOIP applications, for AAL2 the upspeedCodec is obtained from profile table and this object will have no affect.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..256  

vismDaughterCardSerialNum 1.3.6.1.4.1.351.110.3.17.4.1
A unique value for each VISM daughter card, entered in nvram by manf. The serial No. is on the non-volatile RAM on the VISM daughter card.
Status: mandatory Access: read-only
OBJECT-TYPE    
  DisplayString Size(0..6)  

vismDaughterCardDescription 1.3.6.1.4.1.351.110.3.17.4.2
Describes the VISM daughter card.
Status: mandatory Access: read-only
OBJECT-TYPE    
  DisplayString Size(0..20)  

vismDaughterCardHWRev 1.3.6.1.4.1.351.110.3.17.4.3
Hardware revision number for the daughter card.
Status: mandatory Access: read-only
OBJECT-TYPE    
  DisplayString Size(0..2)  

vismEcanEncoding 1.3.6.1.4.1.351.110.3.17.4.4
Voice encoding type, Mu-law or A-law. mu-law is returned for T1 lines and a-law is returned for E1 lines.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER mu-law(1), a-law(2)  

vismMode 1.3.6.1.4.1.351.110.3.17.4.5
This attribute defines the connection model that the VISM card is configured to operate with. This object can be modified by CLI only. The CLI 'cnfvismmode' can be used to set this object. VISM card will be reset after modifying this parameter for the VISM card to come up in the new mode. Each mode enables a set of features on the VISM card. The feature set for each of the above modes is : voipSwitching - VoIP mode. In this mode VISM interacts with the Call Agent using XGCP protocol, bearer path is VoIP (AAL5). This mode is also used for VoIP applications that dosen't use call agent. (VoIP Trunking) aal2Trunking - AAL2 Trunking mode. In this mode VISM does not interact with the Call Agent. Bearer Path is AAL2. aal1Svc - AAL1 SVC mode. In this mode VISM interacts with Call Agent using XGCP protocol over AAL5 control PVCs. In this mode, bearer path is VoAAL1 and the bearer connections are SVCs. i.e VISM dynamically sets-up and tears down bearer connections. This value is applicable in VISM2.0 and onwards. switchedVoipCASBh, switchedVoipPRIBh, switchedAal2CASBh, switchedAal2Svc and superMode are ignored. switchedAal2Pvc - Switched and trunked AAL2 PVC with CAS xGCP backhaul, CCS and CAS forwarding. switchedAal2Svc - Switched AAL2 SVC with PRI backhaul. voipAndAal1Svc - VoIP and ATM Groomer. unknowMode - Unknown mode, when user change vismFeatureBitMap to a combination of Features that are not in the above modes. This object has to be synchronized with vismFeatureBitMap. When vismFeatureBitMag is changed this object will be implictly set to the mode that has the right combination of features. From Indiana release and onwards, when user change mode VISM card is not reset and the configuration is not cleared.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER voipSwitching(1), aal2Trunking(2), aal1Svc(3), switchedVoipCASBh(4), switchedVoipPRIBh(5), switchedAal2CASBh(6), switchedAal2Svc(7), switchedAal2Pvc(8), voipAndAal1Svc(9), superMode(99), unknownMode(100)  

vismPrevMode 1.3.6.1.4.1.351.110.3.17.4.6
This attribute indicates the mode in which VISM was operating before the vismMode value was changed. i.e It gives the value of vismMode before it got changed to the current value. When the card comes up in the default mode, the value of vismPrevMode will be the same as vismMode. From Indiana release and onwards, when user change mode VISM card is not reset and the configuration is not cleared. Therefore we don't need this object anymore.
Status: deprecated Access: read-only
OBJECT-TYPE    
  INTEGER voipSwitching(1), aal2Trunking(2), aal1Svc(3), aal2PvcSwitching(4)  

vismCacEnable 1.3.6.1.4.1.351.110.3.17.4.7
This attribute describes whether CAC (Connection Admission Control) functionality needs to be applied on the VISM card, on a per PVC basis. For some applications, the CAC functionality may not be required and in that case, it has to be disabled on a card basis.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disable(1), enable(2)  

vismAvailableDs0Count 1.3.6.1.4.1.351.110.3.17.4.8
This attribute describes the no. of DS0s available for new connections on VISM. This is modified by the VISM firmware after each connection is setup. In indiana release the number of connections has been increased to 248, as the number of endpoints supported has been increased.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..248  

vismAppliedTemplate 1.3.6.1.4.1.351.110.3.17.4.9
This attribute describes the Codec template currently configured on the VISM card. The value refers to an index to the vismCodecTemplate table. This template is applicable for all connections on the card. When a switch is made to a new template, the number of channels (endpoints) in use will be checked to ensure the switch will not occur if there are more endpoints active at the present time than what the new template (vismCodecTemplateMaxChanCount) allows. Also whenever an attempt is made to add a new endpoint for any template, this template maximum number will limit the number of endpoints that may be added for this template.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

vismTftpServerDn 1.3.6.1.4.1.351.110.3.17.4.11
This object holds the domain name of the tftp server from where the cas module will download the cas files. This domain name can be resolved internally or externally. Before configuring this object the domain name should be added in the mgDomainNameTable and at least one Ip address (internal or external) should be associated with this domain name in mgcResolutionTable. By default, the object is set to TFTPDOMAIN. Before the last entry corresponding to the tftp domain is deleted from the mgDomainNameTable or the last Ip address associated with this object is deleted from mgcResolutionTable, it should be set to 'TFTPDOMAIN'. If the user configures 'localhost' to be the tftp server domain then the cas files will be downloaded from PXM. If the user configures the domain name to be TFTPDOMIAN or localhost then that entry need not be present in mgDomainNameTable or mgcResolutionTable.
Status: mandatory Access: read-write
OBJECT-TYPE    
  DisplayString Size(1..64)  

vismXgcpBearerNetworkType 1.3.6.1.4.1.351.110.3.17.4.12
This object specifies the network type to use in order to transport bearer traffic. The user can configure this to IP or ATM based on where the VISM will be located. If the call agent specifies the network type in the MGCP local connection options (CRCX request), then the configuration of this object will have no effect, else the value of this object will be used when sending CRCX response. This object is applicable only from vism 2.0.3 release onwards.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER ip(1), atm(2)  

vismXgcpBearerVCType 1.3.6.1.4.1.351.110.3.17.4.13
This object specifies the vc type to use in order to transport bearer traffic. If the call agent specifies the VC type in the MGCP local connection options (CRCX request), then the configuration of this object will have no effect, else the value of this object will be used when sending CRCX response. This object is applicable only from vism 2.0.3 release onwards.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER pvc(1), svc(2)  

vismXgcpBearerConnectionType 1.3.6.1.4.1.351.110.3.17.4.14
This object specifies the connection type used to transport bearer traffic. If the BearerNetworkType is chosen to be IP then the value of this object has to be/will be set to not-applicable. If the call agent specifies the connection type in the MGCP local connection options (CRCX request), then the configuration of this object will have no effect, else the value of this object will be used when sending CRCX response. This object is applicable only from vism2.0.3 release onwards.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER aal1Sdt(1), aal2(2), notApplicable(3)  

vismBearerContinuityTimer 1.3.6.1.4.1.351.110.3.17.4.15
This object specifies the co4 (bearer continuity) timer in millisecs. The timer will be started in the terminating/orginating gateway for a duration as specified in this MIB object when a co3 message is sent from the terminating/orginating gateway to the originating/terminating gateway. If the terminating/originating gateway does not receive co4 as an acknowledgement from the originating/termintaing gateway and the timer expires, gateway initiated DLCX is sent to the call agent from the terminating/originating gateway. This object is applicable when the call agent feature is available.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..10000  

vismCodecNegotiationOption 1.3.6.1.4.1.351.110.3.17.4.16
This object helps in forming an ordered intersection of lists and one of the lists must be used in determining the resulting order of codecs. Lco - local connection options Rcd - remote connection description Lcl - local codec list If the value of this object is 1 then effectively we are giving first priority to the local connection options sent by the Call Agent, followed by remote connection description sent by the remote gateway (CA) and the last priority will be to local codec list stored in vism. If the value of this object is 2 then effectively we are giving first priority to local connection options sent by the call agent, followed by local codec list stored in vism and the last priority will be to remote connection description sent by the remote gateway (or remote CA). If the value of this object is 3 then effectively we are giving first priority to remote connection description sent by the remote gateway /call agent, followed by local connection options sent by the call agent and the last priority will be to the local codec list stored on the local gateway(vism). If the value of this object is 4 then effectively we are giving first priority to remote connection description sent by the remote gateway/CA followed by local codec list stored on the local gateway and the last priority will be to the local connection options sent by the CA. If the value of this object is 5 then effectively we are giving first priority to local codec list stored on the local gateway (vism) followed by local connection options sent by the call agent and the last priority will be to remote connection description sent by the remote gateway (or remote CA). If the value of this object is 6 then effectively we are giving first priority to local codec list stored on the vism followed by remote connection description sent by the remote gateway (or remote CA) and the last priority will be to local connection options sent by the call agent.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER lcoRcdLcl(1), lcoLclRcd(2), rcdLcoLcl(3), rcdLclLco(4), lclLcoRcd(5), lclRcdLco(6)  

vismProfileNegotiationOption 1.3.6.1.4.1.351.110.3.17.4.17
This object helps in forming an ordered intersection of lists and one of the lists must be used in determining the resulting order of profiles. Lco - local connection options Rcd - remote connection description Lcl - local codec list If the value of this object is 1 then effectively we are giving first priority to the local connection options sent by the Call Agent, followed by remote connection description sent by the remote gateway (CA) and the last priority will be to local codec list stored in vism. If the value of this object is 2 then effectively we are giving first priority to local connection options sent by the call agent, followed by local codec list stored in vism and the last priority will be to remote connection description sent by the remote gateway (or remote CA). If the value of this object is 3 then effectively we are giving first priority to remote connection description sent by the remote gateway /call agent, followed by local connection options sent by the call agent and the last priority will be to the local codec list stored on the local gateway(vism). If the value of this object is 4 then effectively we are giving first priority to remote connection description sent by the remote gateway/CA followed by local codec list stored on the local gateway and the last priority will be to the local connection options sent by the CA. If the value of this object is 5 then effectively we are giving first priority to local codec list stored on the local gateway (vism) followed by local connection options sent by the call agent and the last priority will be to remote connection description sent by the remote gateway (or remote CA). If the value of this object is 6 then effectively we are giving first priority to local codec list stored on the vism followed by remote connection description sent by the remote gateway (or remote CA) and the last priority will be to local connection options sent by the call agent.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER lcoRcdLcl(1), lcoLclRcd(2), rcdLcoLcl(3), rcdLclLco(4), lclLcoRcd(5), lclRcdLco(6)  

vismCarrierLossPolicy 1.3.6.1.4.1.351.110.3.17.4.18
This object defines the policy that needs to be applied when a carrier loss is detected. This states whether to switch to the pre-upspeed codec or to remain with the upspeed codec. This object is applicable in case of SVCs. This object will be applicable in case of PVC if the per PVC object - vismChanCarrierLossPolicy (defined in vismChanCacTable) is set to 'unspecified'. Configuring this object will not have any affect when card level cac is disabled (vismCacEnable).
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER previousCodec(1), upspeedCodec(2)  

vismCacRejectionPolicy 1.3.6.1.4.1.351.110.3.17.4.19
This attribute defines the policy that needs to be applied once the CAC function rejects the upspeeding of a connection, due to a fax/modem switch-over request. The applicable options are: 1 - To delete the connection that got rejected by CAC for upspeed 2 - To maintain the connection with the prior compression scheme. This object is applicable in case of SVCs . This object will be applicable in case of PVCs if the per PVC object - vismChanCacRejectionPolicy (defined in vismChanCacTable) is set to 'unspecified'. Configuring this object will not have any affect when card level cac is disabled (vismCacEnable).
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER delete(1), maintain(2)  

vismExtDnsServerDn 1.3.6.1.4.1.351.110.3.17.4.20
This object refers to the domain name of the external DNS server which will be used to resolve other domain name. Currently this domain name can only be resolved internally. Therefore, before configuring this object not only the domain name has to be added in the mgDomainNameTable with resolution type 'internalOnly' but also at least one IP address has been added with this domain name in mgcResolutionTable. Before deleting external DNS server from mgDomainNameTable or deleting the last IP address associated with the external DNS server this object should be set to 'NULL'. After we change the value of this object to NULL, all the externally resolved IP address in mgcResolutionTable will be purged. By default this object will be set to 'NULL'.
Status: mandatory Access: read-write
OBJECT-TYPE    
  DisplayString Size(1..64)  

vismFeatureBitMap 1.3.6.1.4.1.351.110.3.17.4.21
This object denotes the bit map for VISM features. It indicates the current features that are enabled. It should be consistant with vismMode. When user change vismMode, this object is implicitly set to the feature combination that inidicate to that mode. The change of vismFeatureBitMap will not cause VISM to reset and the configuration will not be cleared. For each bit, value 1 means the feature is enabled, 0 means disabled. Bit 0 - AAL1 adaptation Bit 1 - AAL2 adaptation Bit 2 - AAL5 adaptation (Bearer network type is IP). Bit 3 - Switching (with Call Agent) Bit 4 - Trunking (without Call Agent) Bit 5 - Bearer VC type is PVC. Bit 6 - Bearer VC type is SVC. Bit 7 - CAS signaling Bit 8 - PRI backhaul Bit 9 - CCS signaling Bit 10 - Domain Name For example, 0x5AC corresponds to vismMode 1 (VoipSwitching). Currently this object is not settable, it can only be set thru some debug commands.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

vismVADTolerance 1.3.6.1.4.1.351.110.3.17.4.22
The value in this object refers to the customer accepted drop rate for voice connections when the bandwidth usage exceeds allowed value. The actual range of this object is 0.0001% - 1.00 % The unit is in percentage, since the default is 0.01 %, and since we cannot express such fractions in MIB , it is being multiplied by 10000 . However, when the underlying CAC module is notified of the change in this object, then the value has to be divided by a factor of 10000. Multiplication factor 10000 is picked as someone might be interested in a tolerance as low as 0.0001%. This object will be applicable in case of aal2 SVCs where the user does not add a PVC and also this object will be applicable if the per PVC level object (vismChanVADTolerance) is configured to have a value of zero. Configuring this object will not have any affect when card level cac is disabled (vismCacEnable).
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..10000  

vismVADDutyCycle 1.3.6.1.4.1.351.110.3.17.4.23
This object refers to the talk-spurts duty cycle. The unit is in percentage. When the value of this object is to be passed to underlying CAC module in VISM this value has to be divided by 100. This causes the actual range of this object to be 0.01 to 0.99 and not 0.01 to 1.00 as specified in the range of values above. Since a value of 100 will cause a floating point exception, this value is disallowed. The default value is 0.61 and since we cannot have fractions in a MIB variable the value is being multiplied by 100 and is expressed as 61. This object will be applicable in case of aal2 SVCs where the user does not add a PVC and also this object will be applicable if the per PVC level object (vismChanVADDutyCycle) is configured to have a value of zero. Configuring this object will not have any affect when card level cac is disabled (vismCacEnable).
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..100  

vismAggregateTrafficClipping 1.3.6.1.4.1.351.110.3.17.4.24
This attribute defines the aggregate traffic clipping policy which is applicable to all bearer traffic generated at VISM card. The applicable options are: 1 - aggregate traffic clipping is disabled, VISM card traffic management does not perform aggregate traffic clipping. 2 - aggregate traffic clipping is enabled, VISM card traffic management performs aggregate traffic clipping. This is applicable to only AAL2 SVC voice bearer traffic. When aggregate traffic clipping is enabled, VISM card can discard cells which are exceeding VISM card aggregate SVC bandwidth which is specified as vismAggregateSvcBandwidth value.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER disable(1), enable(2)  

vismAggregateSvcBandwidth 1.3.6.1.4.1.351.110.3.17.4.25
The aggregate svc bandwidth is used for AAL2 SVC aggregate SVC Connection Admision Control and also used for aggregate traffic clipping at VISM card when vismAggregateTrafficClipping is enabled. This is expressed in cells per second. This need to be configured for AAL2 SVC aggregate bandwidth call admision control to admit AAL2 SVC connections at VISM card.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..100000  

vismBearerContinuityTest 1.3.6.1.4.1.351.110.3.17.4.26
This attribute defines whether the bearer continuity test for a connection will be performed at the time of call setup or not. When the vismBearerContinuityTest is enabled, the terminating media Gateway initiates a NSE/type 3 packet towards the originating gateway and starts a timer defined by vismBearerContinuityTimer. The originating gateway, on receipt of co3, responds by sending a co4 to the terminating end. If the terminating gateway doesn't receive co4 NSE/type 3 packet with in the time defined by co4 timer, it initiates a GW-initiated DLCX to the call agent which in turn deletes the connection. The value in this object will be utilised when the Call Agent does not specify this.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

vismCaleaEnable 1.3.6.1.4.1.351.110.3.17.4.27
This attribute describes whether CALEA (Communication Assistance for Law Enforcement Agency)) functionality needs to be enabled on the VISM card. This attribute enables/disables this feature at a card level. This command is only applicable for CALEA enable image.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

vismXgcpSdpOst 1.3.6.1.4.1.351.110.3.17.7.1
This object is used to enable/disable building of s=,t=,o= lines in SDP message. If this object is set to 'enable' then it indicates that the o=, s=, t= lines be built before sending SDP (Session Description Protocol), if it set to 'disable' then it indicates that the o=,s=,t= parameters need not be built for SDP. where o field indicates the owner/creator and session identifier s field indicates the session name t field indicates the duration while a session is valid.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER enable(1), disable(2)  

vismDynamicPT 1.3.6.1.4.1.351.110.3.17.7.2
This object is used to enable / disable dynamic payload type configuration on the VISM Card.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER enable(1), disable(2)  

vismConfigChangeTypeBitMap 1.3.6.1.4.1.351.110.3.17.5.1
Configuration change Type BitMap used in vismTableChanged trap and vismScalarChanged trap. When used in vismTableChanged trap, the bits indicate the following: bit 0 set = mgcTable changed bit 1 set = mgEndpointTable changed bit 2 set = mgcResolutionTable changed bit 3 set = srcpPeerTable changed bit 4 set = vismDsx1Table changed bit 5 set = vismXgcpPeerTable changed bit 6 set = xgcpPackageTable changed bit 7 set = vismChanCacTable changed bit 8 set = vismCasVariantTable changed bit 9 set = vismCasXgcpVariantTable changed bit 10 set = vismAal2CidCnfTable changed bit 11 set = dsx0VismCnfTable changed bit 12 set = vismHdlcChanCnfTable changed bit 13 set = lineAssignmentTable changed bit 14 set = vismCodecCnfTable changed bit 15 set = vismLapdTable changed bit 16 set = vismRudpSessionCnfTable changed bit 17 set = aal2ProfilesGrpTable changed bit 18 set = mgDomainNameTable changed bit 19 set = vismPortCnfGrpTable changed bit 20 set = mgcRedundancyGrpTable changed bit 21 set = mgcRedundancyGrpParamTable changed bit 22 set = srcpPeerGrpParamTable changed bit 23 set = vismRtpConnGrpTable changed bit 24 set = vismCodecGenParmTable changed bit 25 set = t38FaxRelayGrpTable changed bit 26 set = mgcRedundancyProtocolTable changed bit 27 set = vismSessionSetTable changed bit 28 set = vismSessionGrpTable changed When used in vismScalarChanged trap, the bits indicate the following: bit 0 set = mediaGateway group changed bit 1 set = mediaGatewayEndpoint group changed bit 2 set = mediaGatewayControllerResolution group changed bit 3 set = srcpAdminObjects group changed bit 4 set = vismConfig group changed bit 5 set = vismXgcpCoreObjects group changed bit 6 set = xgcpCoreObjects group changed bit 7 set = xgcpExtensionObjects group changed bit 8 set = xgcpPackageObjects group changed bit 9 set = vismSvcAtmQosGrp Objects group changed bit 10 set = vismSvcTrfScalingGrp Objects group changed bit 11 set = vismSvcAal2CidGrp Objects group changed bit 12 set = srcpAdminRetryObjects Objects group changed bit 13 set = vismConfig IpGrp group objects changed bit 14 set = vismConfig VoipGrp group objects changed bit 15 set = vismConfig DspGrp group objects changed bit 16 set = vismConfig SystemGrp group objects changed bit 17 set = vismConfig Aal2Grp group objects changed bit 18 set = vismConfig InteropGrp group objects changed bit 19 set = announceControlGrp Objects group changed bit 20 set = vismXgcpEnhancementsObjects group changed default value is 0, no change This MIB makes sense only in traps. A GET on this may not return a Useful result.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

vismTrapIntIndex1 1.3.6.1.4.1.351.110.3.17.5.2
This object is used only for the purpose of sending it in the trap varbind. This object is used for two purposes: 1. When the integer index of a SMIv2 table has to be sent, this object will be used instead of the actual index object. The instance value of the object will be the instance value of the actual index. 2. In the config change trap trapVismTableChange, to send the index value of the table entry which got changed. This object will contain the value of the first integer index. The NMS applications should not depend on the implementation of this object. The SNMP Requests(GET,GET-NEXT) may not be valid for this object.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

vismTrapIntIndex2 1.3.6.1.4.1.351.110.3.17.5.3
This object is used only for the purpose of sending it in the trap varbind. This object is used for two purposes: 1. This object will be used when the SMIv2 table has two index objects and the 2nd object is an integer. This object will be used instead of the actual second index object. The instance value of the object will be the instance value of the actual second index. 2. In the config change trap trapVismTableChange, to send the index value of the table entry which got changed. This object will contain the value of the second integer index. The NMS applications should not depend on the implementation of this object. The SNMP Requests(GET,GET-NEXT) may not be valid for this object.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

vismTrapStrIndex1 1.3.6.1.4.1.351.110.3.17.5.4
This object is used only for the purpose of sending it in the trap varbind. This object is used for two purposes: 1. When the OctetString index of a SMIv2 table has to be sent, this object will be used instead of the actual index object. The instance value of the object will be the instance value of the actual index. 2. In the config change trap trapVismTableChange, to send the index value of the table entry which got changed. This object will contain the value of the first OctetString index. The NMS applications should not depend on the implementation of this object. The SNMP Requests(GET,GET-NEXT) may not be valid for this object.
Status: mandatory Access: read-only
OBJECT-TYPE    
  OCTET STRING Size(0..66)  

vismAal2SubcellMuxing 1.3.6.1.4.1.351.110.3.17.6.1
This object is a card level parameter for AAL2 adaptation and it identifies the mutiplexing function of the AAL2 Common Part Sublayer. When it is disabled then each CPS-Packet would fill only one or two cells with padding. (Partial fill cells) Note that the length field for each CPS-Packet can be up to 64bytes. When this option is enabled then mutiple streams of CPS-Packets are mutiplexed to a single ATM connection without partial fill unless there is time-out. Refer to ITU-T I.363.2 for more information. When the muxing type changes if cids are present, then we need to check for CAC voilation for all cids, if the CAC fails then the change request will be rejected else the muxing status will be changed and the vismAal2MuxingTrap will be sent and the card will be reset . All the existing connecitons will come up in new muxing type. when the muxing type changes while there are no cids then the card will NOT be reset, but the vismAal2MuxingTrap will be sent.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

vismAal2DtmfRelay 1.3.6.1.4.1.351.110.3.17.6.2
This attribute defines whether the DTMF (Dual Tone Multi Frequency) digits need to be transported to the other end-point or not. The value in this object will be utilised when the Call Agent does not specify this in CRCX.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

vismAal2CasTransport 1.3.6.1.4.1.351.110.3.17.6.3
This attribute defines whether the CAS (ABCD bits) bits need to be transported to the other endpoint. In the case of switching application, the CAS bits are backhauled to the Call Agent through xGCP-CAS protocol. The value in this object will be utilised when the Call Agent does not specify this in CRCX.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

vismAal2Type3Redundancy 1.3.6.1.4.1.351.110.3.17.6.4
This attribute defines whether the triple redundancy is supported for type 3 packets in AAL2 SVC/PVC . When Triple redundancy is enabled , the type 3 packets (CAS bits, dialled digits and user state control packets) are transmitted in triplicates with an interval defined as per the standards I.366.2. For channels which are quite reliable, triple redundancy can be disabled in order to save the bandwidth and the processing overheads. The value in this object will be utilised when the Call Agent does not specify this in CRCX.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

vismAal2VADTimer 1.3.6.1.4.1.351.110.3.17.6.5
This attribute defines the hangover time for VAD in milliseconds. Once the voice inactivity is detected, the gateway will wait for this duration before activating silence suppression on an AAL2 SVC/PVC. The value in this object will be utilised when the Call Agent does not specify this in CRCX.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 250..65535  

vismAal2CidFillTimer 1.3.6.1.4.1.351.110.3.17.6.6
This attribute defines the time (millisecs) to wait for filling up the cell when the next packet is not ready. After waiting for the time configured in this object, the cell will be sent out. This timer has no effect when vismAal2SubcellMuxing is disabled. This object is applicable only for aal2 adaptations.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 5..100  

vismChanCnfGrpTable 1.3.6.1.4.1.351.110.5.5.3.1.1
The channel config table for voice traffic.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    VismChanCnfGrpEntry

vismChanCnfGrpEntry 1.3.6.1.4.1.351.110.5.5.3.1.1.1
An entry for each voice channel.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  VismChanCnfGrpEntry  

vismCnfChanNum 1.3.6.1.4.1.351.110.5.5.3.1.1.1.1
Logical Channel Number for the PVC.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 131..510  

vismChanRowStatus 1.3.6.1.4.1.351.110.5.5.3.1.1.1.2
An entry is created by setting this object to add. Once the entry is added, the value mod is returned for successive GETs. The value mod is used to modify an existing entry. An entry is deleted by setting this object to del. Setting this object to outOfService takes the channel out of service or brings the channel 'down'. The channel can be brought 'up' again by setting the object to mod. If there is redundant configuration for the channel, an active channel can be deleted only after locking the channel.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER add(1), del(2), mod(3), outOfService(4)  

vismChanPortNum 1.3.6.1.4.1.351.110.5.5.3.1.1.1.3
This refers to the virtual port between VISM and PXM. This number is defaulted to the appropriate number for the shelf. (1 for PXM1 and 255 for PXM1E)
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

vismChanLocRmtLpbkState 1.3.6.1.4.1.351.110.5.5.3.1.1.1.4
Loopback on cellbus in egress direction. This variable enables or disables the remote loopback for each channel. When you enable this option on a connection (channel) then all the cells that are coming from the network side would be looped back toward the network and all the frames coming from the user side would be dropped.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER enable(1), disable(2)  

vismChanTestType 1.3.6.1.4.1.351.110.5.5.3.1.1.1.5
This is the type of the test. 1 = Test Continuity 2 = Test Delay 3 = No test notest is meant for GET only. While doing a SET on this object, the SET request should contain only this parameter and no other MIB objects in this table.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER testcon(1), testdelay(2), notest(3)  

vismChanTestState 1.3.6.1.4.1.351.110.5.5.3.1.1.1.6
This shows the state of the test.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER passed(1), failed(2), inprogress(3), notinprogress(4)  

vismChanRTDResult 1.3.6.1.4.1.351.110.5.5.3.1.1.1.7
This is round trip delay in milliseconds.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..65535  

vismChanPvcType 1.3.6.1.4.1.351.110.5.5.3.1.1.1.8
PVC type. In VISM 1.0 pvc type VoIP was supported. It has been deprecated in the current release. This is a mandatory parameter when adding a PVC.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER aal-5(1), aal-2(2), aal-1(3)  

vismChanConnType 1.3.6.1.4.1.351.110.5.5.3.1.1.1.9
Connection type.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER pvc(1)  

vismLocalVpi 1.3.6.1.4.1.351.110.5.5.3.1.1.1.10
This VPI together with the local VCI and NSAP represents the local end point in this connection. GET on this object returns value=0.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..255  

vismLocalVci 1.3.6.1.4.1.351.110.5.5.3.1.1.1.11
This VCI together with the local VPI and NSAP represents the local end point in this connection. GET on this object returns the vismCnfChanNum or LCN.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..65535  

vismLocalNSAP 1.3.6.1.4.1.351.110.5.5.3.1.1.1.12
This NSAP is 20 bytes binary, among these 20 bytes: 13 bytes as prefix(node name), 2 bytes for Cisco ID, 1 byte rsvd, 3 bytes for logical interface: slot (1 byte) and port number (2 bytes), the last byte is for SEL.
Status: mandatory Access: read-write
OBJECT-TYPE    
  OCTET STRING Size(20)  

vismRemoteVpi 1.3.6.1.4.1.351.110.5.5.3.1.1.1.13
This VPI together with the remote VCI and NSAP represents the remote end point in this connection. This parameter is required only if vismMastership is set to master.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..65535  

vismRemoteVci 1.3.6.1.4.1.351.110.5.5.3.1.1.1.14
This VCI together with the remote VPI and NSAP represents the remote end point in this connection. This parameter is required only if vismMastership is set to master.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..65535  

vismRemoteNSAP 1.3.6.1.4.1.351.110.5.5.3.1.1.1.15
This NSAP is 20 bytes binary, among these 20 bytes: 13 bytes as prefix, 2 bytes for Cisco ID, 1 byte rsvd, 3 bytes for logical interface: slot (1 byte) and port number (2 bytes), the last byte is for SEL. This parameter is required only if vismMastership is set to master. This object contains the NSAP address of the cross-connect (PXM/AUSM).
Status: mandatory Access: read-write
OBJECT-TYPE    
  OCTET STRING Size(20)  

vismMastership 1.3.6.1.4.1.351.110.5.5.3.1.1.1.16
This is used by PXM to determine if this end point is master or slave. For VoIP channel, the value is master (1).
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER master(1), slave(2), unknown(3)  

vismVpcFlag 1.3.6.1.4.1.351.110.5.5.3.1.1.1.17
This is used by PXM to identify the connection type.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER vcc(2)  

vismConnServiceType 1.3.6.1.4.1.351.110.5.5.3.1.1.1.18
This specifies the class of service or service type 1 ==> Constant Bit Rate 2 ==> Variable Bit Rate 1 (Real Time) Although, VISM does not do any kind of traffic shaping, the PVC has to be specified as vbr-rt for PXM to treat the connection as a VBR1 connection. Variable Bit Rate is not currently supported. 3 ==> Variable Bit Rate 1 (non real time) VISM has to support all these kinds of traffic rates from Indiana release onwards The service type of the connection cannot be modified once the PVC is added. 4 ==> Variable Bit Rate 3 (Real Time) Although, VISM does not do any kind of traffic shaping, the PVC has to be specified as vbr3-rt for PXM to treat the connection as a VBR3 connection. Variable Bit Rate is not currently supported. 5 ==> Variable Bit Rate 2 (Real Time) Although, VISM does not do any kind of traffic shaping, the PVC has to be specified as vbr2-rt for PXM to treat the connection as a VBR2 connection. Variable Bit Rate is not currently supported. 6 ==> Variable Bit Rate 2 (non real time) VISM has to support all these kinds of traffic rates from Indiana release onwards The service type of the connection cannot be modified once the PVC is added. 7 ==> Variable Bit Rate 3 (non real time) VISM has to support all these kinds of traffic rates from Indiana release onwards The service type of the connection cannot be modified once the PVC is added.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER cbr(1), vbr-rt(2), vbr-nrt(3), vbr3-rt(4), vbr2-rt(5), vbr2-nrt(6), vbr3-nrt(7)  

vismRoutingPriority 1.3.6.1.4.1.351.110.5.5.3.1.1.1.19
This is used by PXM to determine how important this connection is when selecting connections to route.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..15  

vismMaxCost 1.3.6.1.4.1.351.110.5.5.3.1.1.1.20
Maximum allowed cost. It is related to Cost Based Routing. This is used by PXM so that it won't choose a path with a cost greater than this configured level. This is not necessary to be provided in the connection setup request, if not provided, the default value 255 will be used. When used with PAR controller the valid range is 1..65535 and the default value is 255. When used with PNNI controller the valid range is 1..2147483647 and the default value is 2147483647.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..2147483647  

vismRestrictTrunkType 1.3.6.1.4.1.351.110.5.5.3.1.1.1.21
Restricted trunk type for routing, used by PXM. It specifies that the connection either cannot be routed over satelite trunks, or terrestrial trunks, or it can be on any type of trunk. It is not necessary to be provide in the connection setup request, the default value is noresriction(1).
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER noresriction(1), terrestrialTrunk(2), sateliteTrunk(3)  

vismConnPCR 1.3.6.1.4.1.351.110.5.5.3.1.1.1.22
This indicates bandwidth(Peak Cell Rate) in cells per second from the local end i.e in the ingress direction of the PVC. For a VoIP bearer PVC, the max value is 75600 cps. For a VoIP control PVC, the max value is 24400 cps. For AAL2 PVCs, the PCR to be specified has to be computed based on: a) The no. of channels multiplexed on an AAL2 PVC b) The Codec (Compression Algorithm) used. c) The VAD factor d) Partial fill factor. For a AAL2 bearer PVC, the max value is 60,000 cps on E1 card and 50,000 cps on T1 card. For a signaling PVC, the max value is 400 cps. This is a mandatory parameter when adding a PVC. Hence a default value is not applicable. This parameter can not be changed when there are calls active on the PVC. From Indiana release onwards For a VOIP bearer PVC the max allowed value is 80000 For a VOIP control PVC the max allowed value is 20000 increased as we will allow 248 endpoints. For Aal2 the values remain the same 50000/60000. For vbr connections the minimum value of PCR is 15.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..100000  

vismConnPercentUtil 1.3.6.1.4.1.351.110.5.5.3.1.1.1.23
This is the expected long-term utilization of the channel by this end-point. Currently only 100 is allowed.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..100  

vismConnRemotePCR 1.3.6.1.4.1.351.110.5.5.3.1.1.1.24
This indicates bandwidth(Peak Cell Rate) from the other end i.e in the egress direction of the PVC. This value is expressed in units of cells per second. If not set, will be set to the same as local end PCR. From Indiana release onwards The range of this object is 1..100000
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..100000  

vismConnRemotePercentUtil 1.3.6.1.4.1.351.110.5.5.3.1.1.1.25
This is the expected long-term utilization of the channel by the other end-point. Currently only 100 is allowed.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..100  

vismChanProtection 1.3.6.1.4.1.351.110.5.5.3.1.1.1.26
This object is used to configure a PVC protection group (or redundant group) with the PVCs protecting each other. Currently only two PVCs are supported in a protection group. One of them is primary and the other one is secondary. This is intended for PVCs designated to carry control traffic and needs to be protected. (However the same PVC may also be used to carry VoIP bearer traffic or other traffic). Channels that are protected share the following characteristics: 1. They are monitored for their health (including emission of traps in case of state changes) 2. An active channel is protected by another protected channel which is standby. This means when an active channel fails, switchover to another channel will happen if one is available. 3. It is also possible to do a forced switchover (through locking). Even in the case of forced switchover, switchover to another channel, which is in standby, will happen. 4. Channels may be locked to force switchover and/or to take the channel out of service in a graceful fashion. This object takes the default value of unprotected during the creation of the table entry. Once the primary and secondary channels have been created as unprotected channels, they can be protected by doing a SET on the primary channel by specifying the vismChanProtection as protected and by specifying the vismChanFallbackLcn as the LCN number of the secondary channel. The sequence of operations for setting up the protection group is: step 1: Add primary channel as unprotected step 2: Add secondary channel as unprotected. The PCR value for the secondary should be the same as that of the primary. step 3: Do a SET on the primary channel with vismChanProtection set to protected and vismChanFallbackLcn set to the LCN number of the secondary channel. This operation sets-up the protection group. The primary channel becomes active and the secondary channel becomes standby. Please note that all the cac releated parameters for the both the PVCs in the protecting group should be same. In other words the vismChanCacMaster vismChanCarrierLossPolicy, vismChanCacRejectionPolicy, VAD tolerance etc.. should have the same value for the PVCs that are protecting each other, else the set request to protect two channels will be rejected. Once the protection group is setup, if the active channel fails, it automatically switches over to the standby. The standby channel then becomes active. The channels can be removed from the protection group by setting this object to unprotected. Deletion of a protected channel is not allowed. Channels have to be removed from the protection group first before deleting. The sequence of operations for deleting protected channels is: step 1: Remove the channels from the protection group by setting vismChanProtection to unprotected. step 2: Delete secondary channel. step 3: Delete primary channel.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER protected(1), unprotected(2)  

vismChanPreference 1.3.6.1.4.1.351.110.5.5.3.1.1.1.27
This object is used to identify a PVC as primary or secondary. The primary PVC should be added before the secondary. Similarly secondary should be deleted before deleting the primary. When the protection group is setup, the primary becomes active and secondary becomes standby. The distinction of primary and secondary is meaningful only if the PVC is protected. This is a mandatory parameter when adding a PVC.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER primary(1), secondary(2)  

vismChanActivityState 1.3.6.1.4.1.351.110.5.5.3.1.1.1.28
Indicates whether the PVC is currently used to carry IP traffic or not, and whether it has failed. The possible states are: active - Channel is healthy and is currently designated to carry IP traffic. A channel can only be active if it is also unlocked. standby - Channel is healthy but not designated to carry IP traffic. Switchover to this channel is allowed. failed - Channel is unable to carry any traffic. unknown - Channel is unprotected and hence health of the channel is not monitored. The default value upon creation of the row will be standby for a protected channel and unknown for an unprotected channel. VISM may then transition a protected channel to active if it determines that this channel should be the one carrying the traffic.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER active(1), standby(2), failed(3), unknown(4)  

vismChanLockingState 1.3.6.1.4.1.351.110.5.5.3.1.1.1.29
This object is used to control the switchover of protected channels. The possible values are: unlock - Transition state to unlock. A channel which is in lock state has to be brought to unlock state for it to be available for switchover. Whether a switchover to a channel is allowed or not is dependent on both vismChanActivityState and vismChanLockingState. A switchover is allowed if its vismChanActivityState is standby and its vismChanLockingState is unlock. Changing the vismChanLockingState to unlock does not cause a change in the vismChanActivityState. A channel which is in unlock state may carry traffic depending on its activity state (active or standby). lock - Transition state to lock. If the activity state is active, it transitions to standby and a switchover occurs to another channel which is standby and unlocked. When a channel is in lock state, switchover to this channel is not allowed. A channel which is in lock state, is always in either standby or failed state. Hence it will not carry any traffic. Switchover to a channel which is in lock state is not allowed. The default value of this object is unlock. It can be set to locked to force a switchover and/or to perform maintenance operations related to that channel. A channel that is unprotected will always be in unlock state. It can not be set to lock state.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER unlock(1), lock(2)  

vismChanScrIngress 1.3.6.1.4.1.351.110.5.5.3.1.1.1.30
This object defines the SCR (Sustained Cell Rate) for the PVC. SCR is used for vbr connection types only. Although, based on the value of SCR, any kind of traffic shaping is not done on the VISM card, this value is useful for setting up the parameters for the end-to-end PVC. This value is expressed in units of cells per second. This object defines the SCR value for the ingress direction of the PVC. From Indiana release onwards For a VOIP bearer PVC the max value is 80000 For a VOIP control PVC the max value is 20000 increased as we will allow 248 endpoints. For Aal2 the values remain the same (50000/60000). If the user provides a value that is greater than vismConnPCR then the SET request will be rejected. For vbr connections the allowed range of values of SCR is from 15 - PCR.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..100000  

vismChanMbsIngress 1.3.6.1.4.1.351.110.5.5.3.1.1.1.31
This object defines the MBS (Max. Burst Size) in cells per second. This object is meaningful for VBR connections only. This object defines the MBS value for the ingress direction of the PVC. The MBS value cannot be greater than 10 times vismChanSCRIngress value.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

vismChanClrIngress 1.3.6.1.4.1.351.110.5.5.3.1.1.1.32
This object defines the CLR (Cell Loss Ratio) for the PVC. This field is also meaningful for VBR connections only. This object defines the CLR value for the ingress direction of the PVC.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

vismChanCdvt 1.3.6.1.4.1.351.110.5.5.3.1.1.1.33
This object defines the CDVT (Cell Delay Variation Tolerance) for the connection. CDVT is useful for detemining the playout buffer size in the DSPs. This object is applicable only in AAL1 adaptation. For AAL2, the equivalent of this parameter, known as PDVT (Packet Delay Variation Tolerance) is internally derived.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..30  

vismConnPCREgress 1.3.6.1.4.1.351.110.5.5.3.1.1.1.34
This object defines the PCR (Peak Cell Rate) for the PVC. PCR is applicable to all connection service types ie. CBR, RT-VBR and nRT-VBR. This value is expressed in units of cells per second. This object defines the PCR value for the egress direction of the PVC. This is a mandatory parameter when adding a PVC.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..100000  

vismChanScrEgress 1.3.6.1.4.1.351.110.5.5.3.1.1.1.35
This object defines the SCR (Sustained Cell Rate) for the PVC. SCR is used for vbr connection types only. Although, based on the value of SCR, any kind of traffic shaping is not done on the VISM card, this value is useful for setting up the parameters for the end-to-end PVC. This value is expressed in units of cells per second. This object defines the SCR value for the egress direction of the PVC. From Indiana release onwards the range of this object has been increased to 100000.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..100000  

vismChanMbsEgress 1.3.6.1.4.1.351.110.5.5.3.1.1.1.36
This object defines the MBS (Max. Burst Size) in cells per second. This object is meaningful for VBR connections only. This object defines the MBS value for the egress direction of the PVC.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

vismChanClrEgress 1.3.6.1.4.1.351.110.5.5.3.1.1.1.37
This object defines the CLR (Cell Loss Ratio) for the PVC. This field is also meaningful for VBR connections only. This object defines the MBS value for the egress direction of the PVC.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

vismChanApplication 1.3.6.1.4.1.351.110.5.5.3.1.1.1.38
This object defines the application that the LCN is used for. There are 4 types of PVCs known so far: 1 - Control PVC used for carrying control traffic only (SGCP packets) 2 - bearer PVC, used for carrying voice payload traffic only 3 - signaling PVC, used for carrying the signaling protocol messages This is a mandatory parameter when adding a PVC.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER control(1), bearer(2), signaling(3)  

vismChanFallbackLcn 1.3.6.1.4.1.351.110.5.5.3.1.1.1.39
This object defines the LCN to be used as a fallback mechanism, in case the primary PVC fails. This is applicable if the PVC is configured for redundancy. The redundancy is applicable for both applications i.e control PVC and bearer PVC. This object is applicable only if the vismChanProtection is set to protected. It is mandatory if the PVC is protected.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 131..510  

vismChanReroute 1.3.6.1.4.1.351.110.5.5.3.1.1.1.40
This is used by the administrator to trigger the re-routing of the connection. The rerouting takes effect, when this object is set to true(1). When set to false (2), no action is taken. A get on this object always returns false (2).
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

vismFarEndAddressType 1.3.6.1.4.1.351.110.5.5.3.1.1.1.41
The address type can be one of five types: NSAP, E164, GWID, notapplicable or unspecified. It determines which object contains the scope for the VCCI, i.e. whether the VCCI needs to be unique relative to NSAP, E164 address or GWID. In case of nsap, object vismFarEndNSAPAddress contains the address. In case of e164, object vismFarEndE164Address contains the address. In case of gwid, object vismFarEndGWIDAddress contains the address. In case this object is set to notapplicable, no valid addresses are required and no validation of VCCI uniqueness for a remote address is performed. In case this object is set to unspecified, no valid addresses are required but VCCI needs to be unique. While this object is writeable, it is recommended not to change the value of this object once it has been created. However, upon modification to any value other than notapplicable, it will be ensured that the resulting combination of VCCI and remote address is unique. Requests that would result in a non-unique combination will be rejected. If the vismFarEndAddressType is one of nsap, e164 or gwid, the far end address has to be specified.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER notapplicable(1), nsap(2), e164(3), gwid(4), unspecified(5)  

vismFarEndE164Address 1.3.6.1.4.1.351.110.5.5.3.1.1.1.42
The E.164 address of the far end peer. The address is expressed as decimal numbers with up to 15 digits. If the vismFarEndAddressType is different from e164, this object is not applicable and it should be ignored. This object serves as the scope for VCCI identifiers (vismVCCI) if vismFarEndAddressType is equal to e164. In that case, the combination of (vismFarEndE164Address, vismVCCI) will always be unique for any given agent. It thus constitutes a label denoting the scope for a VCCI address space; it has no purpose otherwise. While this object is writeable, it is recommended not to change the value of this object once it has been created. However, upon modification, it will be ensured that the resulting combination of VCCI and remote E164 address is unique (as long as the remote address type is E164). Requests that would result in a non-unique combination will be rejected. Beyond this, there are no other integrity constraints that will be enforced for this object. This includes network-level consistency with the actual address of the remote peer. The value of this object cannot be modified when there are active calls on this PVC. The valid characters allowed are '0..9'.
Status: mandatory Access: read-write
OBJECT-TYPE    
  DisplayString Size(1..15)  

vismFarEndGWIDAddress 1.3.6.1.4.1.351.110.5.5.3.1.1.1.43
The gateway ID of the far end peer. The address is expressed as ASCII characters. If the vismFarEndAddressType is different from gwid, this object is not applicable and it should be ignored. This object serves as the scope for VCCI identifiers (vismVCCI) if vismFarEndAddressType is equal to gwid. In that case, the combination of (vismFarEndGWIDAddress, vismVCCI) will always be unique for any given agent. It thus constitutes a label denoting the scope for a VCCI address space; it has no purpose otherwise. While this object is writeable, it is recommended not to change the value of this object once it has been created. However, upon modification, it will be ensured that the resulting combination of VCCI and far end GWID address is unique (as long as the vismFarEndAddress type is GWID). Requests that would result in a non-unique combination will be rejected. Beyond this, there are no other integrity constraints that will be enforced for this object. This includes network-level consistency with the actual address of the remote peer. The value of this object cannot be modified when there are active calls on this PVC. All ASCII characters are allowed by this object.
Status: mandatory Access: read-write
OBJECT-TYPE    
  DisplayString Size(1..64)  

vismFarEndNSAPAddress 1.3.6.1.4.1.351.110.5.5.3.1.1.1.44
This object contains the 20 byte NSAP address of the far end peer. If the vismFarEndAddressType is different from nsap, this object is not applicable and it should be ignored. This object serves as the scope for VCCI identifiers (vismVCCI) if vismFarEndAddressType is equal to nsap. In that case, the combination of (vismFarEndNSAPAddress, vismVCCI) will always be unique for any given agent. It thus constitutes a label denoting the scope for a VCCI address space; it has no purpose otherwise. While this object is writeable, it is recommended not to change the value of this object once it has been created. However, upon modification, it will be ensured that the resulting combination of VCCI and far end NSAP address is unique (as long as the far end address type is GWID). Requests that would result in a non-unique combination will be rejected. Beyond this, there are no other integrity constraints that will be enforced for this object. This includes network-level consistency with the actual address of the remote peer. The value of this object cannot be modified when there are active calls on this PVC. When the user adds a connection, by default the value of this object will be set to vismRemoteNSAP, unless the user specifies a value for this object. This object is represented as hex (0 .. 9,A .. F)
Status: mandatory Access: read-write
OBJECT-TYPE    
  OCTET STRING Size(20)  

vismVCCI 1.3.6.1.4.1.351.110.5.5.3.1.1.1.45
The VCCI, or Virtual Circuit Connection Identifier, is a variable that identifies a virtual circuit connection between two nodes. A virtual circuit connection, or VCC, consists of one virtual circuit link or a series of concatenated virtual circuit links. In its most common usage, the value of the VCCI is unique between the nodes at the extremities of the virtual circuit connection, but not on a network-wide basis. Hence, its value needs to be qualified by the ATM addresses of these end nodes. At one of these end nodes, its value needs to be qualified by the ATM address of the far-end node. Some applications can extend this definition to make the VCCI value unique on a network- wide basis. This is specially possible when VCCIs are administered from a management system and not locally assigned by a node. In this MIB, the VCCI serves as a label to be assigned by an external application. VCCIs need to be unique for a given remote peer, however, the same VCCI can be reused for different remote peers. Accordingly, the combination of (remote address, VCCI) will always be unique for any given agent. This allows a controller to refer to a VC by the VCCI and remote peer address, in contrast to VPI/VCI and port. It thus constitutes a convenience feature, providing an alternative identification scheme for a VC which is managed by an outside user, such as a management system. The remote peer address can be specified in NSAP, E.164, or GWID format, as indicated by the address type (vismRemoteAddressType). Depending on the address type specified, uniqueness will be relative to NSAP, E.164 address, or GWID. While this object is writeable, it is recommended not to change the value of this object once it has been created. However, upon modification, it will be ensured that the resulting combination of VCCI and remote address is unique. Requests that would result in a non-unique combination will be rejected. Beyond this, there are no other integrity constraints that will be enforced for this object. This includes network-level consistency whether the remote peer, or an external controller, use the same VCCI designation for the VC.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..65535  

vismConnAdminStatus 1.3.6.1.4.1.351.110.5.5.3.1.1.1.46
This object specifies channel administration status.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER up(1), down(2)  

vismChanNumNextAvailable 1.3.6.1.4.1.351.110.5.5.3.1.2
This variable contains the next unused channel number. When channels are available the range is 32..510. This number can be used in channel config table. Value 0 for this variable indicates that no more channels are available.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..510  

vismChanStateGrp 1.3.6.1.4.1.351.110.5.5.3.2
OBJECT IDENTIFIER    

vismChanStateGrpTable 1.3.6.1.4.1.351.110.5.5.3.2.1
voice connection state table
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    VismChanStateGrpEntry

vismChanStateGrpEntry 1.3.6.1.4.1.351.110.5.5.3.2.1.1
An entry for each channel (PVC)
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  VismChanStateGrpEntry  

vismStateChanNum 1.3.6.1.4.1.351.110.5.5.3.2.1.1.1
Refers to the channel Number LCN.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 131..510  

vismChanState 1.3.6.1.4.1.351.110.5.5.3.2.1.1.2
Channel status.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER notConfigured(1), okay(2), alarm(3)  

vismChanXmtATMState 1.3.6.1.4.1.351.110.5.5.3.2.1.1.3
This variable indicates the transmit state of channel on the ATM side(towards the network).
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER other(1), normal(2), sendingAIS(3), sendingFERF(4)  

vismChanRcvATMState 1.3.6.1.4.1.351.110.5.5.3.2.1.1.4
This variable indicates the receive state of channel on the ATM side(from the network).
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER other(1), normal(2), receivingAIS(3), receivingFERF(4)  

vismChanStatusBitMap 1.3.6.1.4.1.351.110.5.5.3.2.1.1.5
This variable indicates the consolidated bit map of the channel alarm state. Individual bit positions are as defined below, all reserved bits will be set to zero. Bit position Fail/Alarm Reason ------------ ---------- ------ 0 Alarm Reserved 1 Alarm n/w side CC failure/AIS/RDI Rx 2 Fail Conditioned (Abit from n/w) 3 Alarm Reserved 4 Fail Reserved 5 Fail Reserved 6 Alarm Reserved 7 Alarm Reserved Fail bitmap mask : 0x34 Alarm bitmap mask: 0xCB
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..ff  

vismChanCntGrp 1.3.6.1.4.1.351.110.5.5.3.3
OBJECT IDENTIFIER    

vismChanCntGrpTable 1.3.6.1.4.1.351.110.5.5.3.3.1
vism channel counters table. This table gets implicitly created and deleted at the time of creation and deletion of ChanCnfGrp.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    VismChanCntGrpEntry

vismChanCntGrpEntry 1.3.6.1.4.1.351.110.5.5.3.3.1.1
An entry for each voice channel.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  VismChanCntGrpEntry  

vismCntChanNum 1.3.6.1.4.1.351.110.5.5.3.3.1.1.1
Refers to the logical channel Number.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 131..510  

vismCntClrButton 1.3.6.1.4.1.351.110.5.5.3.3.1.1.10
writing a value of 2 resets all the counters.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER noAction(1), resetCounters(2)  

vismChanAal2HecErrors 1.3.6.1.4.1.351.110.5.5.3.3.1.1.11
The count of egress AAL2 CPS(Common Part Sub-layer) PDUs dropped due to HEC (Header Error Control) error.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismChanAal2CrcErrors 1.3.6.1.4.1.351.110.5.5.3.3.1.1.12
The count of egress AAL2 type3 CPS PDUs dropped due to invalid CRC-10 error. CRC validation is for type 3 packets only. Type 1 packets are not subjected to CRC-10 error validation. Also this counter keeps track of CRC-10 errors for the type 3 packets which are generated by the the datamover CPU only. It does not take into account of type3 packets generated by the DSPs.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismChanAal2OamLpbLostCells 1.3.6.1.4.1.351.110.5.5.3.3.1.1.13
The count of OAM loopback cells lost. OAM loopback cells are sent on a periodic basis (1sec) on each PVC to monitor the health of the PVC. This is applicable for all PVCs.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismChanAal2InvOsfCells 1.3.6.1.4.1.351.110.5.5.3.3.1.1.14
The Number of AAL2 cells dropped due to invalid OSF (OffSet Field) in the egress direction.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismChanAal2InvParCells 1.3.6.1.4.1.351.110.5.5.3.3.1.1.15
The Number of AAL2 cells dropped due to invalid Parity bit field in the egress direction.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismChanAal2CpsSentPkts 1.3.6.1.4.1.351.110.5.5.3.3.1.1.16
The count of AAL2 CPS packets sent to the network.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismChanAal2CpsRcvdPkts 1.3.6.1.4.1.351.110.5.5.3.3.1.1.17
The count of AAL2 CPS packets received from the network. This does not include the packets which are counted as error packets.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismChanAal2CpsInvCidPkts 1.3.6.1.4.1.351.110.5.5.3.3.1.1.18
The count of AAL2 CPS packets dropped in the egress direction due to invalid CID (Channel ID). The CID may be considered as invalid if - a) It is out of range. b) It is not configured
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismChanAal2CpsInvUuiPkts 1.3.6.1.4.1.351.110.5.5.3.3.1.1.19
The count of AAL2 CPS packets dropped in the egress direction due to invalid UUI (User-to-User Info.) field.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismChanAal2CpsInvLenPkts 1.3.6.1.4.1.351.110.5.5.3.3.1.1.20
The count of AAL2 CPS packets dropped in the egress direction due to invalid length field.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismChanAal5InvCpiPdus 1.3.6.1.4.1.351.110.5.5.3.3.1.1.21
The count of AAL5 PDUs dropped in the egress direction due to invalid CPI (common part indicator) field in the AAL5 PDU trailer. This is applicable only to the PVCs configured as AAL5 PVCs (VoIP PVCs or CCS PVCs in the case of VoAAL2 application).
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismChanAal5OversizedSdusRcvdPdus 1.3.6.1.4.1.351.110.5.5.3.3.1.1.22
The count of AAL5 PDUs dropped due to the SDU size bigger than the configured value. This is applicable for AAL5 PVCs only.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismChanAal5InvLenPdus 1.3.6.1.4.1.351.110.5.5.3.3.1.1.23
The count of AAL5 PDUs dropped due to the length violations. This is applicable to the CCS PVCs. The HDLC frames should have a minimum frame size in order for the proper interpretation by the upper layer protocol.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismChanAal5Crc32ErrorPdus 1.3.6.1.4.1.351.110.5.5.3.3.1.1.24
The count of AAL5 PDUs dropped in the egress direction due to CRC-32 errors detected by the SAR.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismChanAal5ReassemTimerExpiryPdus 1.3.6.1.4.1.351.110.5.5.3.3.1.1.25
The count of AAL5 PDU reassembly timer expirations. The timers are maintained in the egress direction for building an AAL5 PDU from the cells.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismPortCnfGrp 1.3.6.1.4.1.351.110.5.5.2.1
OBJECT IDENTIFIER    

vismPortCnfGrpTable 1.3.6.1.4.1.351.110.5.5.2.1.1
Port configuration table for the virtual port. Only one entry is allowed in this table.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    VismPortCnfGrpEntry

vismPortCnfGrpEntry 1.3.6.1.4.1.351.110.5.5.2.1.1.1
An entry for logical port.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  VismPortCnfGrpEntry  

vismPortNum 1.3.6.1.4.1.351.110.5.5.2.1.1.1.1
This is a logical port number. If PXM1 is the PXM used on the shelf this object should be set to 1. For PXM1E this object should be set to 255. .
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

vismPortRowStatus 1.3.6.1.4.1.351.110.5.5.2.1.1.1.2
To add, del or modify a port. To add the port, this object has to be set to add, values for other objects should not be specififed (refer to Note 1). VISM will choose default values for all other objects (Note 1). Once added, the value mod is returned for a GET. To delete the port, this object has to be set to del. The port can be deleted only after deleting all the connections and the resource partition. Note 1: From VISM 2.x release onwards, vismPortRowStatus will be set to mod after adding the VISM port. Also, vismPortSpeed can be specified optionaly when VISM port is added.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER add(1), del(2), mod(3)  

vismPortLineNum 1.3.6.1.4.1.351.110.5.5.2.1.1.1.3
This represents the line number to which this port is associated. Since the network port is not associated with any line, line number 0 is returned on a GET. This object is currently not used and SET is not allowed on this object.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..8  

vismPortType 1.3.6.1.4.1.351.110.5.5.2.1.1.1.4
The value of this object is always set to voIP. It indicates that it is the network port. The same value is used even when VISM supports VoAAL1 or VoAAL2. The value userPort is not applicable for VISM. SET is not allowed on this object.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER voIP(1), userPort(2)  

vismPortDs0ConfigBitMap 1.3.6.1.4.1.351.110.5.5.2.1.1.1.5
This respesents the bit map of DS0s which is used to create this port. Bit 0 represents DS0-1. Since this object is not applicable to the network port, value 0 is returned on a GET. SET is not allowed on this object.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..ffffff  

vismPortSpeed 1.3.6.1.4.1.351.110.5.5.2.1.1.1.6
The speed of the port in cells per second. It is used by VISM card to advertise virtual port bandwidth to the controller, SVC and PVC connection admission control and aggregate traffic clipping. This object can be modified only when there is no existing resource partition on the port. Changed from read-only to read-write from VISM2.x release.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..5651320  

vismPortState 1.3.6.1.4.1.351.110.5.5.2.1.1.1.7
This object indicates the state of the port.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER notConfigured(1), active(2)  

vismPortResPartCnfGrp 1.3.6.1.4.1.351.110.5.5.2.2
OBJECT IDENTIFIER    

vismPortResPartCnfGrpTable 1.3.6.1.4.1.351.110.5.5.2.2.1
This table contains the configuration of port resource partition. Currently this table contains a single row.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    VismPortResPartCnfGrpEntry

vismPortResPartCnfGrpEntry 1.3.6.1.4.1.351.110.5.5.2.2.1.1
An entry for port resource partition.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  VismPortResPartCnfGrpEntry  

vismResPartPortNum 1.3.6.1.4.1.351.110.5.5.2.2.1.1.1
This is the logical port number, the index to this table. If PXM1 is the PXM used on the shelf this object should be set to 1. For PXM1E this object should be set to 255.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

vismResPartCtrlrNum 1.3.6.1.4.1.351.110.5.5.2.2.1.1.2
This is index for controller using the port. In MGX release 1.0, the value par should be used. In MGX release 2.0, the value pnni should be used.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER par(1), pnni(2), tag(3)  

vismResPartRowStatus 1.3.6.1.4.1.351.110.5.5.2.2.1.1.3
This will add, delete or modify the partition. In MGX Release1.0: To add an entry, this object should be set to add, value for other objects should not be specified. VISM will choose default values for all other objects. In MGX Release2.0: To add an entry, this object should be set to add, value for vismResPartCtrlrID may be specified. VISM will choose default values for all other objects. Currently the value mod is not supported. To delete an entry, this object has to be set to del. The resource partition can be deleted only after deleting all the connections (LCNs).
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER add(1), del(2), mod(3)  

vismResPartNumOfLcnAvail 1.3.6.1.4.1.351.110.5.5.2.2.1.1.4
This represents number of LCNs available for this controller and this port. The default value for this object is chosen based on vismMode : default value in voipSwitching mode - 3 default value in aal2Trunking mode - 72 Currently SET is not allowed on this object. From vism2.0.3 release onwards as there is no concept of modes the number of lcns will be set to maximum of number of lcns supported.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..380  

vismResPartLcnLow 1.3.6.1.4.1.351.110.5.5.2.2.1.1.5
This represents low end of reserved LCN. Currently SET is not allowed on this object.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 131..510  

vismResPartLcnHigh 1.3.6.1.4.1.351.110.5.5.2.2.1.1.6
This represents high end of reserved LCN. Currently SET is not allowed on this object.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 131..510  

vismResPartIngrPctBW 1.3.6.1.4.1.351.110.5.5.2.2.1.1.7
The percentage of total ingress bandwidth reserved. Since we have only one LCN for VoIP, the value is 100. Currently SET is not allowed on this object. From vism 2.0.3 release onwards since the mode will be gone this object will be writable.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..100  

vismResPartEgrPctBW 1.3.6.1.4.1.351.110.5.5.2.2.1.1.8
The percentage of total egress bandwidth reserved Since we have only one LCN for VoIP, the value is 100. Currently SET is not allowed on this object. From vism 2.0.3 release onwards since the mode will be gone this object will be writable.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..100  

vismResPartCtrlrID 1.3.6.1.4.1.351.110.5.5.2.2.1.1.9
This is the controller identifier of the PNNI controller.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..255  

vismChanCacTable 1.3.6.1.4.1.351.110.5.5.3.1.3
This table defines the CAC success or failure statistics. CAC functionality is applied on a per PVC basis for accepting the new calls in a switching model (i.e when CRCX message is received from the Call Agent) and when adding a new binding between a CID and a PVC in the AAL2 trunking application ('addcid' command). In both switching and trunking models, the CAC functionality is applied for upspeeding the connections due to the detection of fax/modem tone on a connection configured with voice compression.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    VismChanCacEntry

vismChanCacEntry 1.3.6.1.4.1.351.110.5.5.3.1.3.1
This table is used for CAC functions on a PVC. Each entry in this table corresponds to a PVC, since the CAC functionality is applied on a per PVC basis. The bandwidth is allocated on a per PVC basis and the connection admission control is done by comparing the available bandwidth on a PVC with the required bandwidth as a result of new connection setup request or upspeed request. The entries in this table are implicitly created and deleted with the creation and deletion of entries in vismChanCnfGrpEntry.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  VismChanCacEntry  

vismChanNum 1.3.6.1.4.1.351.110.5.5.3.1.3.1.1
This attribute defines the index for the vismChanCac Table. The LCN Number is the same as the LCN value used as the index for the vismChanCnfGrpTable i.e. vismCnfChanNum
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 131..510  

vismChanCacMaster 1.3.6.1.4.1.351.110.5.5.3.1.3.1.2
This attribute defines whether the PVC is the master end or slave end. CAC functionality is applied only at the master end of the PVC. It is not necessary if the PVC end is configured as the slave end. This is to prevent the glare condition resulting from the simulatenous allocation of the same bandwidth for different calls from both the ends. This parameter is applicable only in the trunking mode.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER master(1), slave(2)  

vismChanCacPassedCons 1.3.6.1.4.1.351.110.5.5.3.1.3.1.3
This attribute defines the count of connections that passed successfully the CAC function. CAC functionality is applied either due to 1) The CRCX message sent to VISM from the Call Agent to set up a new connection OR at the time of 'addcid' command in AAL2 trunking application. 2) Upspeed request due to Fax/modem tone detection on a connection configured for compression. For the initial version of Alabama release, only case 2 is valid.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismChanCacRejectedCons 1.3.6.1.4.1.351.110.5.5.3.1.3.1.4
This attribute defines the count of connections that got rejected due to CAC function. The CAC rejection was due to the bandwidth not being available on a given PVC.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismChanCacRejectionPolicy 1.3.6.1.4.1.351.110.5.5.3.1.3.1.5
This attribute defines the policy that needs to be applied once the CAC function rejects the upspeeding of a connection, due to a fax/modem switch-over request. The applicable options are 1 - To delete the connection that got rejected by CAC for upspeed 2 - To maintain the connection with the prior compression scheme. Note that the default value of maintaining the prior encoding scheme is applicable in the trunking application only since the connection is not deleted after the fax/modem switchover. In the case of switching application, the connection is deleted after the fax/modem switchover. From Indiana release onwards by default the value of this object will be unspecified. If the value of this object is 'unspecified' then the cac rejection policy as defined in the card level object vismCacRejectionPolicy will be used, else the value of this object will be used . Configuring this object will not have any affect when card level cac is disabled (vismCacEnable).
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER delete(1), maintain(2), unspecified(3)  

vismChanCarrierLossPolicy 1.3.6.1.4.1.351.110.5.5.3.1.3.1.6
This object defines the policy that needs to be applied when a carrier loss is detected. This states whether to switch to the pre-upspeed codec or to remain with the upspeed codec. By default the value of this object will be unspecified in that case the card level object value (vismCarrierLossPolicy) will be used. Configuring this object will not have any affect when card level cac is disabled (vismCacEnable).
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER previousCodec(1), upspeedCodec(2), unspecified(3)  

vismChanVADTolerance 1.3.6.1.4.1.351.110.5.5.3.1.3.1.7
The value in this object refers to the customer accepted drop rate for voice connections when the bandwidth usage exceeds allowed value. The actual range of this object is 0.0001% - 1.00 % The unit is in percentage, since the default is 0.01 %, and since we cannot express such fractions in MIB , it is being multiplied by 10000 . However, when the underlying CAC module is notified of the change in this object, then the value has to be divided by a factor of 10000. Multiplication factor 10000 is picked as someone might be interested in a tolerance as low as 0.0001%. A value of zero indicates an invalid value. In that case the card level object value will be used (vismVADTolerance). Configuring this object will not have any affect when card level cac is disabled (vismCacEnable).
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..10000  

vismChanVADDutyCycle 1.3.6.1.4.1.351.110.5.5.3.1.3.1.8
This object refers to the talk-spurts duty cycle. The unit is in percentage. The actual range of this object is 0.01 to 0.99 % and not 0.01 to 1.00 % as specified in the range values above. Since a value of 100 will cause a floating point exception, this value is disallowed. The default value is 0.61% and since we cannot have fractions in a MIB variable the value is being multiplied by 100 and is expressed as 61. When the value of this object is to be passed to underlying CAC module in VISM this value has to be divided by 100. A value of zero indicates an invalid value. In that case the card level object value will be used (vismVADDutyCycle). Configuring this object will not have any affect when card level cac is disabled (vismCacEnable). only value 1 - 99 is allowed to be set.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..100  

networkCacConfigState 1.3.6.1.4.1.351.110.5.5.3.1.3.1.9
This attribute defines whether the originating and terminating VISMs are configured properly or not, by default the configuration is assumed to be ok and this object is set to ok, if later during upspeed if we discover that both the originating and terminating VISMs are configured as either cac master or slave then it is considered as an invalid configuration and this object will be set to 'notOk' and trapNetworkCacConfigState change trap will be sent. This parameter is applicable only in trunking applications.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER ok(1), notOk(2)  

vismCasGrp 1.3.6.1.4.1.351.110.5.5.8
OBJECT IDENTIFIER    

vismCasVariantTable 1.3.6.1.4.1.351.110.5.5.8.1
This table contains configuration information about different CAS variants.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    VismCasVariantEntry

vismCasVariantEntry 1.3.6.1.4.1.351.110.5.5.8.1.1
An entry in the vismCasVariantTable. Each entry consists of configuration information for a specific CAS variant. An entry may be created by specifying vismCasVariantName, and vismCasFileName. Upon the creation of the table entry, the file specified by vismCasFileName will be downloaded and the CAS finite state machine will be initialized based on the information contained in this file.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  VismCasVariantEntry  

vismCasVariantName 1.3.6.1.4.1.351.110.5.5.8.1.1.1
This object is a string identifier for the CAS variant. It is used as index to the table. The maximum length allowed is 64 bytes.
Status: mandatory Access: read-only
OBJECT-TYPE    
  DisplayString  

vismCasFileName 1.3.6.1.4.1.351.110.5.5.8.1.1.2
This object gives the name of the file which contains the signal definition and the Finite State Machine definition for the CAS variant. The name is supplied during the creation of the table entry. Modifying the value of this object is not allowed. Upon the creation of the table entry, the file will be downloaded from a tftp server configured in the vismTftpServerDn object and the CAS finite state machine will be initialized based on the information contained in this file. This object must be provided in order to create en entry in this table.
Status: mandatory Access: read-write
OBJECT-TYPE    
  DisplayString Size(2..64)  

vismCasTRinging 1.3.6.1.4.1.351.110.5.5.8.1.1.3
This object gives the ringing time in seconds for the Cas Variant. The ringing will be on until this timer expires or until an off hook is received.
Status: deprecated Access: read-write
OBJECT-TYPE    
  INTEGER 10..600  

vismCasDigitMethod 1.3.6.1.4.1.351.110.5.5.8.1.1.4
The default digit method to be used for digit collection. If the digit method can not be derived from the digit map specified by the call agent in the XGCP message, this digit method will be used.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER mf(1), dtmf(2)  

vismCasInterdigitTpart 1.3.6.1.4.1.351.110.5.5.8.1.1.5
This object represents the partial dial timing in seconds and is used along with a digit map as the inter-digit timer. The timer is not started untill the first digit is entered, and the timer is restarted after each new digit is entered untill either a digit map match or mismatch occurs.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 10..10000  

vismCasInterdigitTcrit 1.3.6.1.4.1.351.110.5.5.8.1.1.6
This object represents the critical timing in seconds. If used along with a digit map, the timer is started when the last digit is received. i.e and when no more digits are required for a digit map match. After this timer expires, the digit map match is assumed to be complete. If used without a digit map, the timer is started immediately and cancelled (but not restarted) as soon as a digit is entered.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..10000  

vismCasInterdigitTMF 1.3.6.1.4.1.351.110.5.5.8.1.1.7
This object represents the interdigit timeout value for MF digits. The timeout value is in seconds.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..10  

vismCasVariantState 1.3.6.1.4.1.351.110.5.5.8.1.1.8
This variable indicates the configuration status of the CAS variant. When the table entry is created, downloading of the file will be initiated and the state will be set to configInProgress. Once the file is successfully downloaded and the CAS finite state machine successfully initialized, the state will be set to configured. If the initialization fails, the state will be set to notConfigured.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER notConfigured(1), configInProgress(2), configured(3)  

vismCasRowStatus 1.3.6.1.4.1.351.110.5.5.8.1.1.9
This variable allows to add, delete or modify the entry for a CAS variant. createAndGo: Use this to add an entry in this table, provided the vismCasVariantName and vismCasFileName MIB objects are available to be set. active: This values is returned, once the row is created destroy: Use this to delete an entry from this table.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER active(1), createAndGo(4), destroy(6)  

vismCasCountryCode 1.3.6.1.4.1.351.110.5.5.8.1.1.10
Represents a case-insensitive 2-letter country code taken from ISO-3166.
Status: deprecated Access: read-write
OBJECT-TYPE    
  DisplayString Size(0..2)  

vismCasVariantSource 1.3.6.1.4.1.351.110.5.5.8.1.1.11
This object specifies where the file defining this CAS variant resides. 1. Unspecified. This value indicates that the location of the file is not specified here. In this case, the location is determined based on whether the TFTP server domain is defined on VISM. The file is built into the firmware if no tftp domain is defined on VISM and resides on the TFTP server if a TFTP domain is defined on VISM. 2. Internal. Indicates that the file is built into the firmware. 3. External. Indicates that the file resides on the TFTP server configured on VISM.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER unspecified(1), internal(2), external(3)  

vismCasXgcpVariantTable 1.3.6.1.4.1.351.110.5.5.8.2
An entry in this table is implicitly created/deleted when an entry in vismCasVariantTable is created/deleted in switching mode .
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    VismCasXgcpVariantEntry

vismCasXgcpVariantEntry 1.3.6.1.4.1.351.110.5.5.8.2.1
An entry in the vismCasXgcpVariantTable.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  VismCasXgcpVariantEntry  

vismCasXgcpVariantName 1.3.6.1.4.1.351.110.5.5.8.2.1.1
This object is a string identifier for the CAS variant. It is used as index to the table.
Status: mandatory Access: read-only
OBJECT-TYPE    
  DisplayString  

vismCasXgcpFileName 1.3.6.1.4.1.351.110.5.5.8.2.1.2
This object gives the name of the file which contains the signal definition and the Finite State Machine definition for the CAS variant.
Status: mandatory Access: read-only
OBJECT-TYPE    
  DisplayString  

vismCasXgcpMaxReXmitTime 1.3.6.1.4.1.351.110.5.5.8.2.1.3
This object represents the maximum timeout value in milli seconds, used for retransmitting unacknowledged XGCP messages at the Call Agent - CAS/PBX interface. The value of this object is settable in 10 ms increments.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 10..10000  

vismCasXgcpInitialReXmitTime 1.3.6.1.4.1.351.110.5.5.8.2.1.4
This object represents the initial timeout value in milli seconds, used for retransmitting unacknowledged XGCP messages at the Call Agent - CAS/PBX interface. The value of this object is settable in 10 ms increments.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 10..10000  

vismCasXgcpMaxRetries 1.3.6.1.4.1.351.110.5.5.8.2.1.5
This object specifies the number of retries for a message that exceeds vismCasXgcpMaxReXmitTime or vismCasXgcpInitialReXmitTime.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..10  

vismAal2CidGrp 1.3.6.1.4.1.351.110.5.5.3.4
OBJECT IDENTIFIER    

vismAal2CidCnfTable 1.3.6.1.4.1.351.110.5.5.3.4.1
This table is defined to establish the binding between an endpoint and a PVC/CID pair in the case of AAL2 adaptation. This table is created and used in trunking mode VISM application only. The maximum number of CIDs that can be configured depends on the current codec template being used as represented by vismAppliedTemplate object. The signaling type of the line has to be configured before adding any CID on that line.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    VismAal2CidEntry

vismAal2CidEntry 1.3.6.1.4.1.351.110.5.5.3.4.1.1
Please see the above description.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  VismAal2CidEntry  

vismAal2CidNum 1.3.6.1.4.1.351.110.5.5.3.4.1.1.1
This attribute defines part of the index for the cid Table. vismAal2CidNum is the CID (or Channel ID) of a voice channel. CID has to be the same at both endpoints for a connection. CID is unique only within the context of a Virtual Circuit (PVC or SVC).
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 8..255  

vismAal2CidLcn 1.3.6.1.4.1.351.110.5.5.3.4.1.1.2
This attribute defines part of the index for the cid Table. Since CID is unique to a PVC, a combination of LCN and CID uniquely identifies a voice connection. This field refers to vismChanNum defined in vismChanCnfGrp.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 131..510  

vismAal2EndptNum 1.3.6.1.4.1.351.110.5.5.3.4.1.1.3
This attribute defines the endpoint number to which this CId is associated. It is the same as mgEndpointNumber in in mgEndpointTable
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 1..65535  

vismAal2CidRowStatus 1.3.6.1.4.1.351.110.5.5.3.4.1.1.4
This variable allows to add or delete a CID. A CID can only be added or deleted. Once added, mdifying an entry is not allowed. createAndGo: Use this to add an entry in this table. active: This values is returned, once the row is created destroy: Use this to delete an entry from this table. For creating a CID, a value for vismAal2EndptNum, vismAal2CidCodecType vismAal2CidProfileType, vismAal2CidProfileNum must be provided. To all other objects, defaults defined by the agent implementation may apply.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER active(1), createAndGo(4), destroy(6)  

vismAal2CidType3Redundancy 1.3.6.1.4.1.351.110.5.5.3.4.1.1.5
This attribute defines whether the triple redundancy is supported for type 3 packets in AAL2 for this channel. When Triple redundancy is enabled for a channel, the type 3 packets (CAS bits, dialled digits and user state control packets) are transmitted in triplicates with an interval defined as per the standards I.366.2. For channels which are quite reliable, triple redundancy can be disabled in order to save the bandwidth and the processing overheads. The default value of this object is true if either vismAal2CidCasTransport or vismAal2CidDtmfTransport is true, otherwise the default value is false.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

vismAal2CidVad 1.3.6.1.4.1.351.110.5.5.3.4.1.1.6
This attribute defines whether the VAD (Voice Activity Detection) has to be applied on this channel, upon detection of silence. For algorithms that do not have VAD (Voice Activity Detection) standards, Cisco-proprietary VAD can be applied and the generic SID packet as specified in I.366.2 standards can be sent to the other end. When the codecType is clearChannel vad has to be off.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

vismAal2CidProfileType 1.3.6.1.4.1.351.110.5.5.3.4.1.1.7
This attribute defines the profile type. The profile type defines which group of the profile tables the profile number should correspond to. There are three possible groups: itu - corresponding to the tables in ITU format in the profile is being used. atm - This is not supported custom - VISM specific custom profiles For doing a SET on this object, a value for vismAal2CidprofileNum also has to be specified. This is a mandatory parameter while adding a cid.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER itu(1), atm(2), custom(3), none(4)  

vismAal2CidProfileNum 1.3.6.1.4.1.351.110.5.5.3.4.1.1.8
This attribute defines the profile number. A profile is a set of entries, where each entry specifies an encoding format with a UUI range and length. This set defines a mapping that informs the receiver of a type 1 packet how to interpret the packet contents, i.e. which encoding format in the profile is being used. For doing a SET on this object, a value for vismAal2CidprofileType also has to be specified. This is a mandatory parameter while adding a cid.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

vismAal2CidCodecType 1.3.6.1.4.1.351.110.5.5.3.4.1.1.9
This attribute defines the codec Type used for the connection. g711u represents PCMU with 64 kbps. g711a represents PCMA with 64 kbps. g726r32000 represents G.726 at rate 32 kbps g726r16000 represents G.726 at rate 16 kbps g726r24000 represents G.726 at rate 24 kbps g726r40000 represents G.726 at rate 40 kbps g729a represents G.729 Annex A algorithm. g729ab represents G.729 Annex A and Annex B algorithm. clearChannel represents CCD with 64 kbps. g723h represents G.723.1-H at rate 6.3kbps. g723ah represents G.723.1-H at rate 6.3kbps with Silence Supression(SID) ON. g723l represents G.723.1-L at rate 5.3kbps. g723al represents G.723.1-L at rate 5.3kbps with Silence Supression(SID) ON. Note : 1. When codec type is clearChannel, vismAal2CidProfileType and vismAal2CidProfileNum are not applicable and will be ignored. 2. Value 10 is RESERVED and can't be used in future.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER g711u(1), g711a(2), g726r32000(3), g729a(4), g729ab(5), clearChannel(6), g726r16000(7), g726r24000(8), g726r40000(9), g723h(11), g723ah(12), g723l(13), g723al(14)  

vismAal2CidDtmfTransport 1.3.6.1.4.1.351.110.5.5.3.4.1.1.10
This attribute defines whether the DTMF (Dual Tone Multi Frequency) digits need to be transported to the other end-point.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

vismAal2CidCasTransport 1.3.6.1.4.1.351.110.5.5.3.4.1.1.11
This attribute defines whether the CAS (ABCD bits) bits need to be transported to the other endpoint. In the case of switching application, the CAS bits are backhauled to the Call Agent thro' xGCP-CAS protocol. Note that if the line signaling type is CAS the default value is TRUE, else the default value is FALSE.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

vismAal2CidEcanEnable 1.3.6.1.4.1.351.110.5.5.3.4.1.1.12
This attribute defines whether Echo Cancellation has to be enabled on this connection. If it is set to True, echo cancellation is enabled. If it is set to False, echo cancellation is disabled.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

vismAal2InitVadTimer 1.3.6.1.4.1.351.110.5.5.3.4.1.1.13
This attribute defines the hangover time for VAD in milliseconds. Once the voice inactivity is detected, the gateway will wait for this duration before activating silence suppression.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 250..65535  

vismAal2CnfPktPeriod 1.3.6.1.4.1.351.110.5.5.3.4.1.1.14
This object is used to configure the packetization period for a given codec. This pkt period has to be a valid entry in the profile table. Profile type and number identify a unique profile table and one codec type in this table might have one or more packetization period. This is applicable only if the vismAal2CidCodecType is G.729a. The configurable values for G.729a are 10,20,30 & 40. If a cid entry is configured with a codec other than G.729a then the user cannot configure the pkt period for that codec and the pkt period is picked from the profile table. Hence when we do get/walk on this entry/table any one of the above values could be returned. The packetization periods of 20, 30 and 40 ms. are not allowable in case of G729-a for the list of profiles that we support now. We can only support 10ms. For G.723 the configurable values is 30. Default value would be 30. Please see ENG-45055 or ITU specification I.366.2 annex P for more information.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER five(5), ten(10), twenty(20), thirty(30), fourty(40)  

vismAal2CidICSEnable 1.3.6.1.4.1.351.110.5.5.3.4.1.1.15
This object is used to enable or disable the Idle Channel Suppresion for a cid. This can be specified while adding the cid and cannot be modified. When the Idle Channel Suppression is enabled the DSP will look for the idle cas (ABCD bits) pattern specified in ds0IdleCode in dsx0 MIB. If the idle pattern is present the DSP stops generating voice packets towards ATM side. By default the ds0IdleCode will be zero unless the user has configured it before adding the cid. If the ds0IdleCode is changed after the cid is added it will have no affect unless the card is reset. Idle Channel Suppression is applicable only for trunking application, In case of switching there is no need for Idle channel Suppression as the calls are teared down and set up dynamically.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

vismAal2CidState 1.3.6.1.4.1.351.110.5.5.3.4.1.1.16
Indicates the state of the cid. active - the cid is in service and operational failed - the cid is in service but not operational, e.g. because the PVC that the cid belongs to is receiving F5 level alarm When VISM sees alarm on a CID (network side) sets this object to cidStateFailed, trapVismCidState trap will be sent, and an AIS will be sent on the ds0 that this cid corresponds to. If the whole PVC is in alarm then all the cids on that PVC will be set to cidStateFailed, trapVismChanFailed trap will be sent and all the ds0's that corresponds to each of the cids on this PVC will be in alarm. (NOTE: no trapVismCidState will be sent). If VISM sees an alarm on a ds0 in a line then an RAI will be sent on the cid that corresponds to this ds0, however the cid will not be put in failed state.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER cidStateActive(1), cidStateFailed(2)  

vismAal2CidFailReason 1.3.6.1.4.1.351.110.5.5.3.4.1.1.17
This object is used to indicate the cid failure reason. self: fail because of non-PVC alarm highLevel: fail because of PVC alarm both: fail because of both PVC and non-PVC alarm notFail: not fail
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER self(1), highLevel(2), both(3), notFail(4)  

vismSvcGrp 1.3.6.1.4.1.351.110.5.5.10
OBJECT IDENTIFIER    

vismSvcTxSetups 1.3.6.1.4.1.351.110.5.5.10.1
This is the number of Setup messages sent to the PXM from the VISM since VISM reset.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismSvcRxSetups 1.3.6.1.4.1.351.110.5.5.10.2
This is the number of Setup messages received by the VISM from the PXM since VISM reset.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismSvcTxCallProcs 1.3.6.1.4.1.351.110.5.5.10.3
This is the number of Call proceeding messages sent to the PXM from the VISM since VISM reset.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismSvcRxCallProcs 1.3.6.1.4.1.351.110.5.5.10.4
This is the number of Call proceeding messages received by the VISM from the PXM since VISM reset.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismSvcTxConns 1.3.6.1.4.1.351.110.5.5.10.5
This is the number of Connect messages sent to the PXM from the VISM since VISM reset.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismSvcTxConnAcks 1.3.6.1.4.1.351.110.5.5.10.6
This is the number of Connect ack messages sent to the PXM from the VISM since VISM reset.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismSvcRxConns 1.3.6.1.4.1.351.110.5.5.10.7
This is the number of Connect messages received by the VISM from the PXM since VISM reset.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismSvcRxConnAcks 1.3.6.1.4.1.351.110.5.5.10.8
This is the number of Connect ack messages received by the VISM from the PXM since VISM reset.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismSvcTxReleases 1.3.6.1.4.1.351.110.5.5.10.9
This is the number of Release messages sent to the PXM from the VISM since VISM reset.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismSvcTxReleaseCompls 1.3.6.1.4.1.351.110.5.5.10.10
This is the number of Release complete messages sent to the PXM from the VISM since VISM reset.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismSvcRxReleases 1.3.6.1.4.1.351.110.5.5.10.11
This is the number of Release messages received by the VISM from the PXM since VISM reset.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismSvcRxReleaseCompls 1.3.6.1.4.1.351.110.5.5.10.12
This is the number of Release complete messages received by the VISM from the PXM since VISM reset.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismSvcTxRestarts 1.3.6.1.4.1.351.110.5.5.10.13
This is the number of Restart messages sent to the PXM from the VISM since VISM reset.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismSvcTxRestartAcks 1.3.6.1.4.1.351.110.5.5.10.14
This is the number of Restart ack messages sent to the PXM from the VISM since VISM reset.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismSvcRxRestarts 1.3.6.1.4.1.351.110.5.5.10.15
This is the number of Restart messages received by the VISM from the PXM since VISM reset.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismSvcRxRestartAcks 1.3.6.1.4.1.351.110.5.5.10.16
This is the number of Restart ack messages received by the VISM from the PXM since VISM reset.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismSvcTxResyncStrts 1.3.6.1.4.1.351.110.5.5.10.17
This is the number of Resync start messages sent to the PXM from the VISM since VISM reset.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismSvcTxResyncStrtAcks 1.3.6.1.4.1.351.110.5.5.10.18
This is the number of Resync start ack messages sent to the PXM from the VISM since VISM reset.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismSvcRxResyncStrts 1.3.6.1.4.1.351.110.5.5.10.19
This is the number of Resync start messages received by the VISM from the PXM since VISM reset.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismSvcRxResyncStrtAcks 1.3.6.1.4.1.351.110.5.5.10.20
This is the number of Resync start ack messages received by the VISM from the PXM since VISM reset.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismSvcTxResyncEnds 1.3.6.1.4.1.351.110.5.5.10.21
This is the number of Resync end messages sent to the PXM from the VISM since VISM reset.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismSvcTxResyncEndAcks 1.3.6.1.4.1.351.110.5.5.10.22
This is the number of Resync end ack messages sent to the PXM from the VISM since VISM reset.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismSvcRxResyncEnds 1.3.6.1.4.1.351.110.5.5.10.23
This is the number of Resync end messages received by the VISM from the PXM since VISM reset.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismSvcRxResyncEndAcks 1.3.6.1.4.1.351.110.5.5.10.24
This is the number of Resync end ack messages received by the VISM from the PXM since VISM reset.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismSvcTxBulkResyncs 1.3.6.1.4.1.351.110.5.5.10.25
This is the number of Bulk resync messages sent to the PXM from the VISM since VISM reset.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismSvcRxBulkResyncs 1.3.6.1.4.1.351.110.5.5.10.26
This is the number of Bulk resync messages received by the VISM from the PXM since VISM reset.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismSvcCallProcExpiries 1.3.6.1.4.1.351.110.5.5.10.27
Call proceeding expirations
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismSvcReleasExpiries 1.3.6.1.4.1.351.110.5.5.10.28
Release completion expirations
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismSvcConnExpiries 1.3.6.1.4.1.351.110.5.5.10.29
Connect expirations
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismSvcConnAckExpiries 1.3.6.1.4.1.351.110.5.5.10.30
Connect ack expirations
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismSvcRestartExpiries 1.3.6.1.4.1.351.110.5.5.10.31
Restart expirations
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismSvcResyncExpiries 1.3.6.1.4.1.351.110.5.5.10.32
Resync expirations
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismSvcCnfGroups 1.3.6.1.4.1.351.110.5.5.19
OBJECT IDENTIFIER    

vismSvcAtmQosGrp 1.3.6.1.4.1.351.110.5.5.19.1
OBJECT IDENTIFIER    

vismSvcAtmQosCdv 1.3.6.1.4.1.351.110.5.5.19.1.1
End-to-end cell delay variation used in voice SVC establishment. It is used to guarantee the quality of the route selected for a voice SVC. It is applicable to both AAL1 and AAL2 SVC connection establishment. The value specified to this object is in 'micro-seconds'. This value is sent in voice SVC setup messages in extended quality of services information element as the objective value.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 500..20000  

vismSvcAtmQosCtd 1.3.6.1.4.1.351.110.5.5.19.1.2
End-to-end maximum cell transfer delay used in voice SVC establishment. It is used to guarantee the quality of the route selected for a voice SVC. It is applicable to both AAL1 and AAL2 SVC connection establishment. The value specified to this object is in 'micro-seconds'. This value is sent in voice SVC setup messages in end-to-end transit delay information element as the objective value.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 20000..150000  

vismSvcAtmQosClr 1.3.6.1.4.1.351.110.5.5.19.1.3
Maximum Cell Loss Ratio used in voice SVC establishment. It is used to guarantee the quality of the route selected for a voice SVC. It is applicable to both AAL1 and AAL2 SVC connection establishment. This value is sent in voice SVC setup messages in extended quality of services information element as maximum cell loss ratio value.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 4..8  

vismSvcTrfScalingGrp 1.3.6.1.4.1.351.110.5.5.19.2
OBJECT IDENTIFIER    

vismSvcTrfScalingFactor 1.3.6.1.4.1.351.110.5.5.19.2.1
Traffic scaling Factor used to compute factored bandwidth which is used in ATM signaling to establish voice SVC. When this value is less than 100 it can be referred as a `discount factor' and when more than 100 referred as an `excess factor' It is applicable only to VBR SVC connection establishment. The traffic scaling is not applicable to AAL2 SVC calls that require G.711 and clear channel codecs
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 50..200  

vismSvcAal2CidGrp 1.3.6.1.4.1.351.110.5.5.19.3
OBJECT IDENTIFIER    

vismSvcAal2CidNumber 1.3.6.1.4.1.351.110.5.5.19.3.1
The default AAL2 Channel IDentification (CID) number used for AAL2 SVC connections.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 8..255  

vismSigGrp 1.3.6.1.4.1.351.110.5.5.6
OBJECT IDENTIFIER    

vismHdlcChanTable 1.3.6.1.4.1.351.110.5.5.6.1
This table is used for maintaining the statistics info for the HDLC channels on VISM. It also keeps track of some configurable parameters required for proper operation of HDLC driver in VISM.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    VismHdlcChanEntry

vismHdlcChanEntry 1.3.6.1.4.1.351.110.5.5.6.1.1
An entry for each HDLC channel.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  VismHdlcChanEntry  

vismHdlcChanNum 1.3.6.1.4.1.351.110.5.5.6.1.1.1
This object is the index of this table. It refers to the ds0IfIndex in the dsx0VismCnfTable.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..248  

vismHdlcRowStatus 1.3.6.1.4.1.351.110.5.5.6.1.1.2
This variable allows to add, delete or modify the entry. createAndGo: Use this to add an entry in this table. There are two case of creating a entry: 1) a ccs channel is explicitly created for Aal2 trunking. In this case, if the DS0 already created for PRI or GR-303 the request of creation should be rejected. 2) A Hdlc entry will be implicitly created before creating a LAPD entry. In this case if the DS0 is already used for Aal2 trunking the request should be rejected. No entry in Lapd shall be created. active: This values is returned, once the row is created destroy: Use this to delete an entry from this table. According to the creation, an entry can be explicitly destroyed or implicitly removed.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER active(1), createAndGo(4), destroy(6)  

vismHdlcMaxFrameSize 1.3.6.1.4.1.351.110.5.5.6.1.1.3
This object describes the maximum frame size that is allowed on this HDLC channel. This value is not configurable. The value for this object is 264.
Status: deprecated Access: read-only
OBJECT-TYPE    
  INTEGER  

vismHdlcLcnNum 1.3.6.1.4.1.351.110.5.5.6.1.1.4
This object describes LCN or the PVC channel number with which the HDLC channel is associated with. It is applicable only for trunking applications where the CCS frames are transmitted to the other end point over an AAL5 PVC. For PRI or GR-303 applications, this is not applicable since the CCS frames in that case are backhauled to the call agent.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 131..510  

vismHdlcXmtFrames 1.3.6.1.4.1.351.110.5.5.6.1.1.5
This object maintains the count of HDLC frames transmitted to the HDLC channel on VISM.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismHdlcRcvFrames 1.3.6.1.4.1.351.110.5.5.6.1.1.6
This object maintains the count of HDLC frames received from the HDLC channel on VISM.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismHdlcRcvCrcErrors 1.3.6.1.4.1.351.110.5.5.6.1.1.7
This object describes the count of HDLC frames dropped due to CRC errors in the frames received from the HDLC Channel.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismHdlcRcvBufOverflows 1.3.6.1.4.1.351.110.5.5.6.1.1.8
This object describes the count of HDLC receiver buffer overflow condition. This can occur if the rate of arrival of HDLC frames from the line is more than the processing rate by the CPU.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismHdlcTxUnderflows 1.3.6.1.4.1.351.110.5.5.6.1.1.9
This object describes the count of HDLC Tx underflow condition.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismHdlcTxAbortFrames 1.3.6.1.4.1.351.110.5.5.6.1.1.10
This object describes the count of HDLC Abort frames transmitted.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismHdlcRxAbortFrames 1.3.6.1.4.1.351.110.5.5.6.1.1.11
This object describes the count of HDLC Abort frames received.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bearerConnGrp 1.3.6.1.4.1.351.110.5.5.9
OBJECT IDENTIFIER    

bearerConnTable 1.3.6.1.4.1.351.110.5.5.9.1
This table describes the statistical information available on a per-bearer connection basis. These values are applicable equally to an endpoint. However, a separate table has been maintained instead of extending the endpoint table because the endpoint table is the standards-based MgMib.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    BearerConnEntry

bearerConnEntry 1.3.6.1.4.1.351.110.5.5.9.1.1
Each entry in this table corresponds to a bearer connection, that was setup by binding an endpoint with VC/CID pair, either through CLI or SNMP. The statistical counters in this table are generic voice quality parameters that are equally applicable in all types of Voice Over Packet adapations (VoIP, VoAAL1 and VoAAL2). However, they are maintained only in the PVC (trunking) model because, these counters get reset in the switching model on a per call basis. The entries in this table are implicitly created/deleted at the time of creation/deletion of entries in the Aal2Cid table.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  BearerConnEntry  

bearerEndptNum 1.3.6.1.4.1.351.110.5.5.9.1.1.1
This attribute defines the index for the bearer connection Table. This refers to the same value as the index to the mgEndpoint Table ie. mgEndpointNumber
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..65535  

bearerCid 1.3.6.1.4.1.351.110.5.5.9.1.1.2
This attribute defines the CID (Channel ID associated with this bearer connection.This refers to the same value as vismAal2CidNum in the vismAal2CidCnfTable.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

bearerLcn 1.3.6.1.4.1.351.110.5.5.9.1.1.3
This attribute defines the PVC or LCN number to which this bearer connection is associated with. This refers to the same value as in vismChanNum in vismChanCnfGrp table.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 131..510  

bearerSentPkts 1.3.6.1.4.1.351.110.5.5.9.1.1.4
This attribute defines the count of packets sent towards the network since setup.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bearerRcvdPkts 1.3.6.1.4.1.351.110.5.5.9.1.1.5
This attribute defines the count of packets received from the network since setup.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bearerSentOctets 1.3.6.1.4.1.351.110.5.5.9.1.1.6
This attribute defines the count of bytes sent towards the network since this connection setup.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bearerRcvdOctets 1.3.6.1.4.1.351.110.5.5.9.1.1.7
This attribute defines the count of bytes received from the network since this connection setup.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bearerLostPkts 1.3.6.1.4.1.351.110.5.5.9.1.1.8
This attribute defines the count of packets lost in the egress direction (from the network). This is a computed number based on the expected number of packets and the actual number of packets arrived from the network. Currently this object is not used.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bearerJitter 1.3.6.1.4.1.351.110.5.5.9.1.1.9
This attribute defines the jitter (a.k.a interarrival jitter) This value is determined by the DSP and obtained by the HOST processor upon querying the DSP on a periodic basis. This value is expressed in units of milliseconds. Currently this object is not used.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

bearerLatency 1.3.6.1.4.1.351.110.5.5.9.1.1.10
This attribute defines the latency (a.k.a end-to-end average transmission delay for a voice packet. This value is expressed in units of milliseconds. Currently this object is not used.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

bearerAal2ExtAISCnts 1.3.6.1.4.1.351.110.5.5.9.1.1.11
This object contains the number of external AIS aal2 Type3 packets received. External AIS - is a Alarm Indication Signal associated with a maintenance alarm detected on a defective maintenance span, that is transmitted in the direction of the defect as a substitute for normal signal. The purpose is to show the downstream entities that a defect has been identified and to prevent other maintenance alrams consequent to this first defect. External AIS bit stream is represented by an all 1's signal. Ref - ITU-T Rec. M.20 sec. 5.4.2 a
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bearerAal2ExtRAICnts 1.3.6.1.4.1.351.110.5.5.9.1.1.12
This object contains the number of external RAI aal2 Type3 packets received. External RAI - is a Remote Alarm Indication signal that is transmitted upstream from an entity that has detected defects persisting long enough to constitute a received signal failure. Its purpose is to report in the backward direction that there is an interruption of service in the forward direction. Ref - ITU-T Rec. G.704 section 2.1.3.1.3
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bearerAal2ConnAISCnts 1.3.6.1.4.1.351.110.5.5.9.1.1.13
This object contains the number of external Conn AIS aal2 Type2 packets received. External Conn AIS - is a Alarm Indicating Signal transmitted in the downstream direction from the AAL type 2 connecting point that first detects a defect affecting the AAL type 2 connection; this includes defects indicated by lower layers. Ref - ITU-T Rec. I.610 sec 6.2.2.1.1.1
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bearerAal2ConnRDICnts 1.3.6.1.4.1.351.110.5.5.9.1.1.14
This object contains the number of external Conn RDI (Remote Defect Ind.) aal2 Type2 packets received. External Conn RDI - is a signal transmitted upstream by an AAl type 2 endpoint that is in an alarm state as the result of having received an AAL type2 connection AIS or having detected a defect that affects the AAL type2 connection.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

bearerCntClrButton 1.3.6.1.4.1.351.110.5.5.9.1.1.15
This object is used to clear bearerSentPkts, bearerRcvdPkts, bearerSentOctets, and bearerRcvdOctets.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER noaction(1), clear(2)  

dsx0VismCnfTable 1.3.6.1.4.1.351.110.4.7.1
The entries in this table are created and deleted implicitly at the time of adding and deleting the line. For every DS0 on a line, one row will be created.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    Dsx0VismCnfEntry

dsx0VismCnfEntry 1.3.6.1.4.1.351.110.4.7.1.1
This ds0 table contains both cas related and non cas related parameters. The non cas related parameters are applicable accross all line signaling types, while the following cas related parameters are applicable only if the signaling type of the line to which this ds0 belongs is cas. ds0IdleCode ds0SeizedCode ds0ReceivedCode ds0CasVariantName ds0CasCadenceOnTime ds0CasCadenceOffTime ds0InsertLocalCas ds0LocalCasPattern ds0CasParameterSource ds0CasOnHookMinMakeTime ds0CasOffHookMinMakeTime ds0CasWinkMinMakeTime ds0CasWinkMaxMakeTime ds0CasWinkBreakTime ds0CasGlareTime ds0CasGaurdTime ds0CasDelayImmedStart ds0CasMinDelayDialTime ds0CasMinStartDialTime ds0CasFlashMinMakeTime ds0CasFlashMaxMakeTime ds0CasDirectionality ds0CasGlarePolicy ds0CasIncomingMgcpPackage ds0CasOutgoingMgcpPackage When the line signaling type changes from cas to non-cas and vice versa, then the user will be forced to delete endpoint/ccs channels associated with any ds0 on that line When an endpoint is deleted the ds0CasVariantName associated with that endpoint will also be implicitly deleted. Other than that none of the above cas related parameters are modified across line signaling type changes.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  Dsx0VismCnfEntry  

ds0IfIndex 1.3.6.1.4.1.351.110.4.7.1.1.1
This attribute defines the index for this table. This is derived from the following formula: index = 31 * (Ds1# - 1) + ds0# where : Ds1# - The T1/E1 line number in the range 1 - 8. ds0# - The ds0 channel number ranging from 1 to 24 for T1 and 1 to 31 for E1.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..248  

ds0RobbedBitSignalling 1.3.6.1.4.1.351.110.4.7.1.1.2
This object indicates if Robbed Bit Signalling is turned on or off for a given ds0. This only applies to DS0s on a DS1 link. For E1 links the value is always off (false). For T1 links, the default value is true if the line is configured for CAS signaling, the default value is false if the line is configured for CCS signaling or no signaling.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

ds0IdleCode 1.3.6.1.4.1.351.110.4.7.1.1.3
This object contains the code transmitted in the ABCD bits when the ds0 is not connected and ds0TransmitCodesEnable is enabled. The object is a bitmap and the various bit positions are: Bit 0 (value 1) D bit Bit 1 (value 2) C bit Bit 2 (value 4) B bit Bit 3 (value 8) A bit This object is useful for ds0 conditioning to be done if an alarm condition is detected from the network side. DS0 conditioning is implemented in the trunking application only. This object is not applicable in the CAS backhaul application. From vism 2.0.3 release onwards this object can be configured in any mode, but will be applicable only in trunking application and will be ignored in other applications.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..15  

ds0SeizedCode 1.3.6.1.4.1.351.110.4.7.1.1.4
This object contains the code transmitted in the ABCD bits when the ds0 is connected and ds0TransmitCodesEnable is enabled. The object is a bitmap and the various bit positions are: Bit 0 (value 1) D bit Bit 1 (value 2) C bit Bit 2 (value 4) B bit Bit 3 (value 8) A bit This object is useful for ds0 conditioning to be done if an alarm condition is detected from the network side. DS0 conditioning is implemented in the trunking application only. This object is not applicable in the CAS backhaul application. From vism 2.0.3 release onwards this object can be configured in any mode, but will be applicable only in trunking application and will be ignored in other applications.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..15  

ds0ReceivedCode 1.3.6.1.4.1.351.110.4.7.1.1.5
This object contains the code being received in the ABCD bits. The object is a bitmap and the various bit positions are: Bit 0 (value 1) D bit Bit 1 (value 2) C bit Bit 2 (value 4) B bit Bit 3 (value 8) A bit
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 0..15  

ds0TransmitCodesEnable 1.3.6.1.4.1.351.110.4.7.1.1.6
This object determines if the idle and seized codes are transmitted. If the value of this object is true then the codes are transmitted. This object is not applicable in the CAS backhaul application.
Status: deprecated Access: read-only
OBJECT-TYPE    
  TruthValue  

ds0BundleMapped 1.3.6.1.4.1.351.110.4.7.1.1.7
This object indicates endpoint number as specified by mgEndpointNumber of endpoint table. If it is not associated with any endpoint, then it is set to -1. It should be noted that the endpoint is associated with bearer DS0s only. For signaling channel or DS0 as in the case of CCS channel, there is no endpoint number associated with it and the value is set to -1.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

ds0IfType 1.3.6.1.4.1.351.110.4.7.1.1.8
This object indicates the interface type associated with the ds0. ds0 ifType is considered as bearer if it the DS0 is used for carrying voice traffic. ds0 ifType is considered as ccs-signaling, if the DS0 is configured as the D-channel
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER bearer(81), ccs-signaling(63), unknown(1)  

ds0CasVariantName 1.3.6.1.4.1.351.110.4.7.1.1.9
This object indicates the index to the CAS variant table. This parameter can be configured after configuring this ds0 as an endpoint. This object cannot be modified while connections exist on this endpoint. The CAS variant table is used for configuring the system parameters associated with various types of CAS signaling methods supported on VISM.
Status: mandatory Access: read-write
OBJECT-TYPE    
  DisplayString Size(0..255)  

ds0CasCadenceOnTime 1.3.6.1.4.1.351.110.4.7.1.1.10
This attribute describes the duration during which the digit tone is generated. This object is applicable only for CAS backhaul applications. For trunking application it is not applicable. The value is expresssed in units of milliseconds. From vism2.0.3 release onwards this object can configured in any application, but will be applicable only in non-trunking applications and will be ignored in other applications.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 2..9999  

ds0CasCadenceOffTime 1.3.6.1.4.1.351.110.4.7.1.1.11
This attribute corresponds to the silence between the digit tones. This object is applicable only for CAS backhaul applications. For trunking application it is not applicable. The value is expresssed in units of milliseconds. From vism2.0.3 release onwards this object can configured in any application, but will be applicable only in non-trunking applications and will be ignored in other applications.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..9999  

ds0InsertLocalCas 1.3.6.1.4.1.351.110.4.7.1.1.12
This object tells the framer whether to force the cas bits to a value defined by ds0LocalCasPattern or not. If this is enabled the framer will force the cas (ABCD) bits to a value defined in ds0LocalCasPattern by ignorning the cas bits sent by DSP. Else the framer will transmit the cas bits sent by DSP. Setting of this object is not allowed when the signaling type of this line is cas. Also setting of this object is not allowed when the ds0LoopbackCommand is set to RemoteLoop, because in this situation we are suppose to loopback whatever comes from the TDM side and not force the cas bits to something else. This object can be set only if the line type is T1.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

ds0LocalCasPattern 1.3.6.1.4.1.351.110.4.7.1.1.13
This object contains the pattern that the cas (ABCD) bits will have when ds0InsertLocalCas is enabled.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..15  

ds0LoopbackCommand 1.3.6.1.4.1.351.110.4.7.1.1.14
This object represents the loopback type at the ds0 level.The ds0 configuration overrides the line level configuration. NoLoop There is no loopback on this ds0. LocalLoop The data received from the ATM side is loopedback to the ATM side. RemoteLoop The data from the TDM side is looped back to the TDM side. Setting of this object to RemoteLoop will not be allowed when insert local cas for this ds0 (ds0InsertLocalCas object) is enabled as we are suppose to force the cas bits to the pattern configured in ds0LocalCasPattern, and not do loopback on the TDM side.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER noLoop(1), remoteLoop(2), localLoop(3)  

ds0CasParameterSource 1.3.6.1.4.1.351.110.4.7.1.1.15
This object indicates VISM whether to read the cas related timer parameters from the casAppl file downloaded for that endpoint or to read from this mib. This gives the flexibility of configuring different cas related timer values for different endpoints associated with the same cas variant. This object cannot be configured if the signaling type for the line to which this ds0 belongs is non cas. For a cas line this object CAN only be configured only after associating this ds0 with an endpoint.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER casAppl(1), mibValue(2)  

ds0CasOnHookMinMakeTime 1.3.6.1.4.1.351.110.4.7.1.1.16
This indicates the the minimum time in msecs for which the on hook pattern should be present in order for it to be recognised else the signal will be considered to be a spurious signal and will be ignored. This object cannot be configured if the signaling type for the line to which this ds0 belongs is non cas. For a cas line this object CAN only be configured only after associating this ds0 with an endpoint. This object will be applicable if ds0CasParameterSource has a value of mibValue (2). The allowed range for this object is 10..1000
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..65535  

ds0CasOffHookMinMakeTime 1.3.6.1.4.1.351.110.4.7.1.1.17
This indicates the minimum time in msecs for which the off hook pattern should be present in order for it to be recognised else the signal will be considered to be a spurious signal and will be ignored. This object cannot be configured if the signaling type for the line to which this ds0 belongs is non cas. For a cas line this object CAN only be configured only after associating this ds0 with an endpoint This object will be applicable if ds0CasParameterSource has a value of mibValue (2). The allowed range for this object is 10..1000
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..65535  

ds0CasWinkMinMakeTime 1.3.6.1.4.1.351.110.4.7.1.1.18
The wink consists of off-hook A-B bit pattern, followed by on-hook A-B bit pattern in timed sequence. This object indicates the minimum duration for which the off-hook part of wink signal should persist. This object cannot be configured if the signaling type for the line to which this ds0 belongs is non cas. For a cas line this object CAN only be configured only after associating this ds0 with an endpoint This object will be applicable if ds0CasParameterSource has a value of mibValue (2). The allowed range for this object is 10..1000 and the range is in msecs.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..65535  

ds0CasWinkMaxMakeTime 1.3.6.1.4.1.351.110.4.7.1.1.19
The wink consists of off-hook A-B bit pattern, followed by on-hook A-B bit pattern in timed sequence. This object indicates the maximum duration for which the off-hook part of the wink signal should persist, if it exceeds this time limit the signal will be considered to be spurious and will be ignored. This object cannot be configured if the signaling type for the line to which this ds0 belongs is non cas. For a cas line this object CAN only be configured only after associating this ds0 with an endpoint This object will be applicable if ds0CasParameterSource has a value of mibValue (2). The allowed range for this object is 10..3000 and the units is in msecs. This object should be greater than or equal to ds0CasWinkMinMakeTime
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..65535  

ds0CasWinkBreakTime 1.3.6.1.4.1.351.110.4.7.1.1.20
The wink consists of off-hook A-B bit pattern, followed by on-hook A-B bit pattern in timed sequence. This object indicates the minimum duration for which the on-hook part of wink signal should persist. This object cannot be configured if the signaling type for the line to which this ds0 belongs is non cas. For a cas line this object CAN only be configured only after associating this ds0 with an endpoint This object will be applicable if ds0CasParameterSource has a value of mibValue (2). The allowed range for this object is 10..1000 and the units. is in msecs.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..65535  

ds0CasGlareTime 1.3.6.1.4.1.351.110.4.7.1.1.21
When the terminating gateway receives off Hook event from the Call Agent it starts the timer specified in this object to see if the terminating side is also trying to originate a call. If this is true, we have a 'glare' condition. The way glare is resolved is thru this user programmable timer, we will not honor any off hook events from the originating PBX during this time. This object cannot be configured if the signaling type for the line to which this ds0 belongs is non CAS. For a CAS line this object can only be configured only after associating this ds0 with an endpoint This object will be applicable if ds0CasParameterSource has a value of mibValue (2). The allowed range for this object is 10..10000 and the units is in msecs.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..65535  

ds0CasGaurdTime 1.3.6.1.4.1.351.110.4.7.1.1.22
The gaurd time is the duration between the end of one call and the start of next call. This object specifies what should be such a duration. All state changes from the PBX are ignored for this duration. After receiving DLCX, this timer will be started for a period as configured in this object, and will not honor any off-hook events before the expiration of this timer. This object cannot be configured if the signaling type for the line to which this ds0 belongs is non cas. For a cas line this object CAN only be configured only after associating this ds0 with an endpoint This object will be applicable if ds0CasParameterSource has a value of mibValue (2). The allowed range for this object is 10..1000 and the units is in msecs.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..65535  

ds0CasDelayImmedStart 1.3.6.1.4.1.351.110.4.7.1.1.23
This timer indicates the time that VISM should wait before outpulsing digits to the PBX after sending an off hook event. This applies only to immediate start protocol. This object cannot be configured if the signaling type for the line to which this ds0 belongs is non cas. For a cas line this object CAN only be configured only after associating this ds0 with an endpoint. This object will be applicable if ds0CasParameterSource has a value of mibValue (2). The allowed range for this object is 10..1000 and the units is in msecs.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..65535  

ds0SignalingType 1.3.6.1.4.1.351.110.4.7.1.1.24
This attribute indicates the type of signaling on the line to which this ds0 belongs. CAS - Channel Associated Signaling CCS - Common Channel Signaling none - no signaling used. This object will be implicitly set to line signaling type every time it changes.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER cas(1), ccs(2), none(3)  

ds0CasMinDelayDialTime 1.3.6.1.4.1.351.110.4.7.1.1.25
This is an object for an E & M signaling protocol like wink-start for this ds0. The difference is that the address-control signal is different from wink. The originating VISM, on receiving a seize (AB=11) from the PBX, responds by sending the delay-dial (AB=11) signal back to the PBX. When the originating VISM is ready to collect the digits, it sends a start-dial (AB=00) signal. This operation is symmetric. So the terminating VISM, on seizing a trunk, should receive AB=11 (as an ack that the trunk is operational). Subsequently, when it receives the start signal (AB=00) from the connected PBX, it should outpulse the digits. The rest of the operation is similiar to wink-start. The allowed range for this object is 100..1000 with units in milliseconds. In delay-dial operation, the outgoing interface (this interface), after sending a seize signal (AB = 11), waits for the delay-dial signal (AB = 11). The delay-dial signal, apart from acknowledging the seize signal, tells this interface that the connected equipment is not ready for the digits yet. This object specifies the time in milliseconds, after which incoming AB=11 will be interpreted by this interface as the delay-dial signal. References: Generic Requirements, GR-506-CORE, Issue 1, June 1996, Revision 1, November 1996, LSSGR: Signaling for Analog Interfaces Section 11.2.3 is about 'Delay-Dial Operation' (in general) In particular, section 11.2.3.1 ([R11-21] is about these timing requirements.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

ds0CasMinStartDialTime 1.3.6.1.4.1.351.110.4.7.1.1.26
This is an object for an E & M signaling protocol like wink-start for this ds0. The difference is that the address-control signal is different from wink. The originating VISM, on receiving a seize (AB=11) from the PBX, responds by sending the delay-dial (AB=11) signal back to the PBX. When the originating VISM is ready to collect the digits, it sends a start-dial (AB=00) signal. This operation is symmetric. So the terminating VISM, on seizing a trunk, should receive AB=11 (as an ack that the trunk is operational). Subsequently, when it receives the start signal (AB=00) from the connected PBX, it should outpulse the digits. The rest of the operation is similiar to wink-start. The allowed range for this object is 70..1000 with units in milliseconds. In delay-dial operation, the outgoing interface (this interface), after receiving a delay-dial signal (AB=11) from the connected equipment, waits for the start-dial signal (AB = 00) before sending the digits to the connected equipment. The start-dial signal tells this interface that the connected equipment is ready for the digits. This object specifies the time in milliseconds, after which incoming AB=00 will be interpreted by this interface as the start dial signal. References: Generic Requirements, GR-506-CORE, Issue 1, June 1996, Revision 1, November 1996, LSSGR: Signaling for Analog Interfaces Section 11.2.3 is about 'Delay-Dial Operation' (in general) In particular, section 11.2.3.1 ([R11-22] and [R11-23]) is about these timing requirements.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

ds0CasFlashMinMakeTime 1.3.6.1.4.1.351.110.4.7.1.1.27
Flash is a CAS signal generated by users to request special services. The interpretation of the flash depends on the protocol in use. The signal itself is an on-hook followed by an off-hook. This object specifies the minimum duration for the signal to be recognized as a flash by VISM. This duration, expressed in milliseconds, is defined as the elapsed time between the off-to-on-hook transition followed by the on-to-off-hook transition. If the on-hook duration is shorter than the value of this object, the signal will be ignored. This object cannot be configured if the signaling type for the line to which this ds0 belongs is non-CAS. For a CAS line, this object can only be configured after associating this ds0 with an endpoint. If no endpoint was added for this Ds0, any configuration attempt will be rejected. This object will be applicable if ds0CasParameterSource has a value of mibvalue (2). The allowed range for this object is 50..1550 (msec).
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

ds0CasFlashMaxMakeTime 1.3.6.1.4.1.351.110.4.7.1.1.28
Flash is a CAS signal generated by users to request special services. The interpretation of the flash depends on the protocol in use. The signal itself is an on-hook followed by an off-hook. This object specifies the maximum duration for the signal to be recognized as a flash by VISM. This duration, expressed in milliseconds, is defined as the elapsed time between the off-to-on-hook transition followed by the on-to-off-hook transition. If the on-hook duration is longer than the value of this object, the signal will be ignored. This object cannot be configured if the signaling type for the line to which this ds0 belongs is non-CAS. For a CAS line, this object can only be configured after associating this ds0 with an endpoint. This means that if no endpoint was added for this Ds0, any configuration set attempt will be rejected, but any get will be allowed. This object will be applicable if ds0CasParameterSource has a value of 'mibvalue'(2). The allowed range for this object is 50..1550 (msec.) with the additional requirement that the value of this object should be greater than or equal to ds0CasFlashMinMakeTime.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER  

ds0CasDirectionality 1.3.6.1.4.1.351.110.4.7.1.1.29
This object specifies the direction in which CAS calls will be accepted on this endpoint. If this object is set to incoming, then calls from the connected PBX will be accepted by VISM on this endpoint. If set to outgoing, VISM will send calls towards the connected PBX and not accept calls from the PBX. For VISM to both send and receive calls on this endpoint, this object should be set to bidirectional. The main difference between bidirectional and one-way trunks is the occurrence of glare. On bidirectional trunks, since both VISM and the connected PBX can seize the endpoint at approximately the same time, glare (dual seizure) is likely to occur. The protocol assigned to a bidirectional endpoint should be capable of detecting and resolving glare. Wink-start and delay-dial are examples of protocols capable of glare handling and immediate-start, ground-start and loop-start, of those that cannot. This object cannot be configured if the signaling type for the line to which this ds0 belongs is non-CAS. For a CAS line, this object can only be configured after associating this ds0 with an endpoint. This means that if no endpoint was added for this Ds0, any configuration set attempt will be rejected, but any get will be allowed.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER bidirectional(1), incoming(2), outgoing(3)  

ds0CasGlarePolicy 1.3.6.1.4.1.351.110.4.7.1.1.30
This object specifies how a bidirectional endpoint should resolve glare. This object will be used only if dsx0VismDirectionality of the endpoint is bidirectional. When glare is detected, if this object is set to controlling, VISM will wait for the connected PBX to assert on-hook. When the connected PBX goes on-hook, VISM proceeds to dial the numbers out waits for answer. If this object is set to releasing, VISM indicates the glare situation to the Call Agent (as specified by the control protocol), prepares to collect digits from the PBX and asserts on hook. The incoming call should go through. If the CAS protocol assigned to the endpoint cannot detect glare or if it cannot resolve glare according to the policy provisioned via this object, this object will not be used. This object cannot be configured if the signaling type for the line to which this ds0 belongs is non-CAS. For a CAS line, this object can only be configured after associating this ds0 with an endpoint. This means that if no endpoint was added for this Ds0, any configuration set attempt will be rejected, but any get will be allowed.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER controlling(1), releasing(2)  

ds0CasIncomingMgcpPackage 1.3.6.1.4.1.351.110.4.7.1.1.31
This object, in conjunction with the card level persistentXgcpEventsTable, controls how persistent CAS events (like seize, disconnect, etc) related to an incoming call observed on this DS0 are notified to the Media Gateway Controller (MGC). At the card level, the persistentXgcpEventsTable allows MGCP package-event combinations to be configured as persistent. For example, when L/hd is added to the persistentXgcpEventsTable, the hook-down event in line package will be notified to the MGC every time it is observed without the MGC requesting for that event. Since the same CAS event can map to different MGCP events under different packages (eg. the CAS event 'seize' can be 'sup' in 'MS' package and 'hd' in 'BL' package) and different lines could be running different packages at a given time, there needs to be a per-DS0 object indicating what package should be used while notifying CAS events observed on that DS0. This object, ds0CasIncomingMgcpPackage specifies the package that will be used while notifying CAS events observed on an incoming call on this DS0. This object can be set to a package name from xgcpCapabilityPackageTable whose xgcpCapabilityPackageEnable is true or the string 'basic' indicating that one of the basic packages in that table (G, T, L, H, R, D or M) to which the observed event belongs can be used. This object is used only if the protocol is MGCP. If the notification is in response to an RQNT, VISM uses the package (and event name) that the MGC used to request the event regardless what this object is set to. In the absence of an RQNT, the observed CAS event is encoded according to the package that this object specifies. A 'seize' observed on the CAS signaling channel on this DS0, for example is encoded as 'ms/sup' if this object is set to 'ms', 'bl/hd' if this object is set to 'bl' or as 'L/hd' if this object is set to 'basic'. If this package/event is present in persistentXgcpEventsTable, a notification is generated, otherwise this event is discarded. An attempt to set this object to a package name whose xgcpCapabilityPackageEnable is false in xgcpCapabilityPackageTable will fail. This object is used only if the ds0CasDirectionality is set to bidirectional or incoming.
Status: mandatory Access: read-write
OBJECT-TYPE    
  DisplayString Size(0..255)  

ds0CasOutgoingMgcpPackage 1.3.6.1.4.1.351.110.4.7.1.1.32
This object, in conjunction with the card level persistentXgcpEventsTable, controls how persistent CAS events (like answer, disconnect, etc) related to an outgoing call observed on this DS0 are notified to the Media Gateway Controller (MGC). At the card level, the persistentXgcpEventsTable allows MGCP package-event combinations to be configured as persistent. For example, when L/hd is added to the persistentXgcpEventsTable, the hook-down event in line package will be notified to the MGC every time it is observed without the MGC requesting for that event. Since the same CAS event can map to different MGCP events under different packages (eg. the CAS event 'answer' can be 'ans' in 'MS' package and 'hd' in 'BL' package) and different lines could be running different packages at a given time, there needs to be a per-DS0 object indicating what package should be used while notifying CAS events observed on that DS0. This object, ds0CasOutgoingMgcpPackage specifies the package that will be used while notifying CAS events observed on an outgoing call on this DS0. This object can be set to a package name from xgcpCapabilityPackageTable whose xgcpCapabilityPackageEnable is true or the string 'basic' indicating that one of the basic packages in that table (G, T, L, H, R, D or M) to which the observed event belongs can be used. This object is used only if the protocol is MGCP. If the notification is in response to an RQNT, VISM uses the package (and event name) that the MGC used to request the event regardless what this object is set to. In the absence of an RQNT, the observed CAS event is encoded according to the package that this object specifies. An answer observed on the CAS signaling channel on this DS0, for example is encoded as 'ms/ans' if this object is set to 'ms', 'bl/hd' if this object is set to 'bl' or as 'L/hd' if this object is set to 'basic'. If this package/event is present in persistentXgcpEventsTable, a notification is generated, otherwise this event is discarded. An attempt to set this object to a package name whose xgcpCapabilityPackageEnable is false in xgcpCapabilityPackageTable will fail. This object is used only if the ds0CasDirectionality is set to bidirectional or outgoing.
Status: mandatory Access: read-write
OBJECT-TYPE    
  DisplayString Size(0..255)  

ds0InputGain 1.3.6.1.4.1.351.110.4.7.1.1.33
This object indicates the amount of gain inserted at the receiver side of a ds0 channel, in dB (decibel) units. The default value of this object is 0 dB. The input gain settings only define a gain/loss relative to the 0 dB setting. The absolute loss at the 0 dB setting could be implementation dependent based on the desired network loss plan. This object can be set when there are active call going on, and in this case the new gain will take effective immediately. It can also be set at both unbound endpoints and bound but non-active endpoints.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER -6..14  

ds0OutputAttenuation 1.3.6.1.4.1.351.110.4.7.1.1.34
This object contains the amount of attenuation inserted at the transmit side of a ds0 channel, in dB (decibel) units. The output attenuation settings only define a loss relative to 0 dB setting. The absolute loss at the 0 dB setting could be implementation dependent based on the desired network loss plan. This object can be set when there are active call going on, and in this case the new gain will take effective immediately. It can also be set at both unbound endpoints and bound but non-active endpoints.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..14  

ds0MusicThreshold 1.3.6.1.4.1.351.110.4.7.1.1.35
The indicates Music On Hold Threshold in dBm. Based on this value, VISM DSP will interprete the incoming signal from TDM side as either silence or voice, and consequently turn on or off VAD. This object can be set when there is active call going on at the ds0 channel, and at both unbound endpoints and bound non-active endpoints.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER -70..-30  

ds0SidPacket 1.3.6.1.4.1.351.110.4.7.1.1.36
This object specifies whether the Silence Indication Detection (SID) packet should be generated when silence suppression is in active mode. The SID packet indicates the noise level during silence, which is used as a reference to generate comfort noise on the other side of the gateway. This object is used for VoIP only.
Status: mandatory Access: read-write
OBJECT-TYPE    
  TruthValue  

dsx0VismChanMapTable 1.3.6.1.4.1.351.110.4.7.2
This table is created implicitly at the time of creating and deleting the endpoints. This table provides the mapping information from a line and channel to obtain an index for that channel.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    Dsx0VismChanMapEntry

dsx0VismChanMapEntry 1.3.6.1.4.1.351.110.4.7.2.1
Please see the above description.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  Dsx0VismChanMapEntry  

dsx1LineNum 1.3.6.1.4.1.351.110.4.7.2.1.1
This object describes the physical line number on VISM card.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..8  

ds0ChanNum 1.3.6.1.4.1.351.110.4.7.2.1.2
This object describes the ds0 number or channel number within a T1 or E1 line. The valid channel numbers are 1 to 24 for T1 line and 1 - 31 for E1 line.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..31  

ds0ChanMapIfIndex 1.3.6.1.4.1.351.110.4.7.2.1.3
This object describes the ifIndex derived based on the line number and the channel number within the line according to the formula: IfIndex = 31 * (Ds1# - 1) + ds0# where : Ds1# - The T1/E1 line number in the range 1 - 8. ds0# - The ds0 channel number ranging from 1 to 24 for T1 and 1 to 31 for E1.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

vismCodecTemplateCnfGrp 1.3.6.1.4.1.351.110.5.5.7
OBJECT IDENTIFIER    

vismCodecTemplateCnfGrpTable 1.3.6.1.4.1.351.110.5.5.7.1
This table defines the DSP templates that are applicable on a card basis. It defines the set of codecs supported in each template and the maximum number of DS0s supported on the VISM card for a given template.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    VismCodecTemplateCnfGrpEntry

vismCodecTemplateCnfGrpEntry 1.3.6.1.4.1.351.110.5.5.7.1.1
An entry is defined for each set of codecs supported. The codecs supported are a combination of : G.711Mu (PCM - Mu-law) G.711A (PCM - A-law) G.726/32 (ADPCM) G.729a (CS-ACELP - Annex A) G.729ab (CS-ACELP - Annex B) clearChannel (clear channel voice) G.723.1-H G.723.1a-H G.723.1-L G.723.1a-L
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  VismCodecTemplateCnfGrpEntry  

vismCodecTemplateNum 1.3.6.1.4.1.351.110.5.5.7.1.1.1
This attribute defines the index for the CodecTemplate table. Template number is input at the time of configuring a template using 'cnftemp' CLI command.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER 1..100  

vismCodecSupported 1.3.6.1.4.1.351.110.5.5.7.1.1.2
This attribute represents a bit map of Codecs supported in this template. Bit 0 - represents the G.711 Mu-law codec. Bit 1 - represents the G.711 A-law codec. Bit 2 - represents the G.726 at rate 32 kbps. Bit 3 - represents the G.729a codec. Bit 4 - represents the G.729ab codec. Bit 5 - represents clear channel. Bit 6 - represents the G.726 at rate 16 kbps Bit 7 - represents the G.726 at rate 24 kbps Bit 8 - represents the G.726 at rate 40 kbps Bit 9 - Internal use (T.38) Bit 10 - represents the G.723.1-H codec. Bit 11 - represents the G.723.1a-H codec. Bit 12 - represents the G.723.1-L codec. Bit 13 - represents the G.723.1a-L codec. The remaining bits will be defined in future when other types of codecs are supported.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

vismCodecTemplateMaxChanCount 1.3.6.1.4.1.351.110.5.5.7.1.1.3
The max. number of channels supported for this template. Based on the codec that is of the maximum complexity, the maximum no. of channels that can be supported with a given set of codecs is determined and stored in this variable.
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER  

vismCodecCnfGrp 1.3.6.1.4.1.351.110.5.5.18
OBJECT IDENTIFIER    

vismCodecCnfTable 1.3.6.1.4.1.351.110.5.5.18.1
This table contains configuration information about different codecs and there packetization periods.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  SEQUENCE OF  
    VismCodecCnfEntry

vismCodecCnfEntry 1.3.6.1.4.1.351.110.5.5.18.1.1
An entry in the vismCodecCnf table. Each entry consists of packetization period information for a specific codec. All the entries in this table are implicitly created when the card comes up with appropriate default values and the user can modify the packetization period for a particular codec any point in time.
Status: mandatory Access: not-accessible
OBJECT-TYPE    
  VismCodecCnfEntry  

vismCodecCnfIndex 1.3.6.1.4.1.351.110.5.5.18.1.1.1
This object is a index to this table. 1 represents G.711u 2 represents G.711a 3 represents G.726 at rate 32 kbps 4 represents G.729a 5 represents G.729ab 6 represents clear channel 7 represents G.726 at rate 16 kbps 8 represents G.726 at rate 24 kbps 9 represents G.726 at rate 40 kbps 10 RESERVED 11 represents G.723.1-H at rate 6.4kbps 12 represents G.723.1a-H at rate 6.4kbps with SID 13 represents G.723.1-L at rate 5.3kbps 14 represents G.723.1a-L at rate 5.3kbps with SID
Status: mandatory Access: read-only
OBJECT-TYPE    
  INTEGER g711u(1), g711a(2), g726r32000(3), g729a(4), g729ab(5), clearChannel(6), g726r16000(7), g726r24000(8), g726r40000(9), g723h(11), g723ah(12), g723l(13), g723al(14)  

vismCodecName 1.3.6.1.4.1.351.110.5.5.18.1.1.2
This object holds the name of the codec for example index 1 will have G.711u as the codec name index 2 will have G.711a as the codec name and so on....
Status: mandatory Access: read-only
OBJECT-TYPE    
  DisplayString Size(1..64)  

vismCodecPktPeriod 1.3.6.1.4.1.351.110.5.5.18.1.1.3
This object gives the packetization period for a particular codec in milli secs. for G.711a allowed values are 10 & 20 for G.711u allowed values are 10 & 20 for G.726 at rate 32 kbps allowed values are 10 ,20 30 & 40 for G.729a allowed values are 10, 20 ,30 & 40 for G.729ab allowed values are 10, 20, 30 & 40 for clear channel allowed values are 10 and 20 for G.723 allowed values are 30 & 60 Default value for G.723 is 30 and for other codecs it is 10.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER ten(10), twenty(20), thirty(30), fourty(40), sixty(60)  

vismCodecPreference 1.3.6.1.4.1.351.110.5.5.18.1.1.4
This object contains the user configured preference for each codec. Lower the number, higher the preference of the codec . Since currently we only have 14 codecs supported, the allowed range of this object is 0-13. If the call agent does not specify the preferred codec list in CRCX request then the codec used will be the one of highest preference, as configured in this object. The default preference based on the codec type is G729ab will have preference 1 G729a will have preference 2 G726 at rate 16 kbps will have preference 3 G726 at rate 24 kbps will have preference 4 G726 at rate 32 kbps will have preference 5 G726 at rate 40 kbps will have preference 6 G.711u will have preference 7 for T1 and will have preference 8 for E1 G.711a will have preference 7 for E1 card and will have preference 8 for T1 clearChannel will have preference 9 G723H will have preference 10 G723AH will have preference 11 G723L will have preference 12 G723AL will have preference 13 This object is not applicable in releases earlier than VISM2.0.1. If the preference of a codec is zero then that codec will not be used.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..65535  

vismCodecString 1.3.6.1.4.1.351.110.5.5.18.1.1.5
The local connection option or SDP descriptor string that vism would get from the call agent for the codec to be used will be in the form of PCMU, PCMA, G726 at rate 32 kbps, G729a, CCD ..... where in PCMU stands for G711u PCMA stands for G711a and CCD stands for clear channel This object serves as a mapping string, and the vism will use the value configured in this object to match the SDP descriptor string obtained for a codec in a CRCX or MDCX message. Since the entries in this table are implicitly created by default the entry with codec = G.711u will have a value of PCMU G.711a will have a value of PCMA clear channel will have a value of CCD G.726 at rate 32 kbps will have G726 at rate 32 kbps G.726 at rate 16 kbps will have G726 at rate 16 kbps G.726 at rate 24 kbps will have G726 at rate 24 kbps G.726 at rate 40 kbps will have G726 at rate 40 kbps G.729a will have G729a G.729ab will have G729ab G.723.1-H will have G723H G.723.1a-H will have G723AH G.723.1-L will have G723L G.723.1a-L will have G723AL
Status: mandatory Access: read-write
OBJECT-TYPE    
  DisplayString Size(1..64)  

vismCodecIanaType 1.3.6.1.4.1.351.110.5.5.18.1.1.6
The codecs are assigned types (numbers) by IANA. This object will contain such a number. In future we may have more numbers. currently by default we have PCMU = 0 G.726 at rate 32 kbps = 2 PCMA = 8 and the rest codecs will have 96 If in a SDP string we would just receive an IANA type number and not the codec string, then vism would use the value in this object to derive the actual codec to be used in the bearer path. The valid Iana type numbers currently defined are from (0 .. 95) So if an entry has a value of 96 that means it is not a registered codec.In that case the actual codec will be determined by the vism using the rtpmap in SDP string.
Status: mandatory Access: read-write
OBJECT-TYPE    
  INTEGER 0..96  

vismCardCacFailuresGrp 1.3.6.1.4.1.351.110.5.5.20
OBJECT IDENTIFIER    

vismPortCacPvcAddFailures 1.3.6.1.4.1.351.110.5.5.20.1
Total number of attempts to add or modify a PVC to VISM virtual port that were rejected by port level connection admission control.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismPortCacSvcAddFailures 1.3.6.1.4.1.351.110.5.5.20.2
Total number of attempts to add a SVC to VISM virtual port that were rejected by port level connection admission control.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismVcCacPvcFailures 1.3.6.1.4.1.351.110.5.5.20.3
Total number of attempts to admit voice connections over bearer PVC connections that were rejected by voice connection admission control. It is sum of all voice connection admission control failures for all VISM bearer PVC connections.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismVcCacPvcUpspeedFailures 1.3.6.1.4.1.351.110.5.5.20.4
Total number of attempts to upspeed voice connections over bearer PVC connections that were rejected by Port Level Connection Admission Control.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter  

vismPortCacSvcUpspeedFailures 1.3.6.1.4.1.351.110.5.5.20.5
Total number of attempts to upspeed voice connections over bearer SVC connections that were rejected by Port Level Connection Admission Control.
Status: mandatory Access: read-only
OBJECT-TYPE    
  Counter