-- ********************************************************************** -- This is the 3Com Enterprise MIB. -- -- This MIB is specifically for the Transcend products. -- -- MIB Version: -- -- Comments: This defines the structure of the 3Com branch. -- -- History: -- Date Author Reason for Change -- 1 Sep 94 Paul J Moran Created -- 28 Nov 94 Paul J Moran Added LinkSwitch100 OIDs -- 10 Jan 95 Ed Heiner Added LANplex Systems MIB, -- LANplex Optional FDDI MIB, -- LANplex 2500/2016 sysOids, and -- new LANplex 6000 sysOids. -- 31 Jan 95 Paul J Moran Added more LinkSwitch100 OIDs -- 21 Feb 95 Danny Propp Added NCD products - -- New atm product group including -- CELLplex 7000,7200 OIDs. -- New linkSwitch500 and -- linkSwitch2700Atm OIDs. -- 27 Feb 95 David Chuang,Srinath Candadai -- Added FMS100(Fast Ethernet Hub) OIDs -- -- 15 Mar 95 Kiho Yum Added NSD products - -- NbroTrLarge, NbroTrHuge, mp6EthFl, -- ethV3, mp6EthFl, and ethV3Fl -- -- 8 May 95 Danny Propp Added NCD product - LinkSwitch2700Tli. -- Updated LinkSwitch2700Atm's name. -- Added ncdMibs OID. -- -- 15 May 95 Kiho Yum Added NSD products - -- cs2x00to, cs2x00tlo, cs3x00to, cs3x00tlo -- series2500, series3000, nbroFw, -- added AA sw pkg to all brouter products -- added AB sw pkg to all brouter products -- added BF sw pkg to all brouter products -- -- 16 May 95 Ed Heiner Added SD products - -- lss2000, linkSwitch-2200-2, -- lanplex-60xx-System-2, -- lanplex-60xx-Chassis-2, -- lanplex-60xx-ESM-2, -- lanplex-60xx-EFSM-2 -- Revised new switching module names -- (lps60xxFESM -> lps60xxEFSM). -- -- 19 Jun 95 Ed Heiner Added SD products - -- lanplex-2500-3, lanplex-2016-3, and -- linkSwitch-2200-3. -- -- 22 Jun 95 David Chuang & Srinath Candadai, Added NAD products - -- FMS100 management only system -- -- 26 Jun 95 Paul J Moran Added linkBuilderPresley -- rename linkSwitch100 to linkSwitch1000 -- Added linkSwitch3000 -- -- 3 Jul 95 Ed Heiner Added SD products - -- lanplex-60xx-System-3, -- lanplex-60xx-Chassis-3, -- lanplex-60xx-ESM-3, and -- lanplex-60xx-EFSM-3. -- 8 Aug 95 Paul J Moran -- rename linkBuilderPresley to officeStack-Hub8M -- -- 28 Nov 95 Danny Propp CELLplex7200 replaced by -- CELLplex7000-modules; -- New NCD CELLplex7000 modules added - -- - CELLplex7x00-moduleBridge -- - CELLplex7200-module -- - CELLplex7200F-module -- - CELLplex7400-module -- -- 06 Dec 95 Kiho Yum Added OIDs for NETBuilder -- Remote Office Token Ring Isdn -- products. Added nbro numbers to -- OID descriptors. -- -- 06 Dec 95 Kiho Yum Swapped OIDs for nbroTrHuge and -- nbroTrIsdn -- -- 30 Jan 96 Paul J Moran -- rename officeStack to officeConnect -- add extra linkSwitch3000 module -- -- 6 Feb 96 Paul J Moran -- add linkSwitch1000MSH sysObjID -- -- 08 Feb 96 Danny Propp Changed all CELLplex names to cELLplex. -- Changed cELLplex7000 modules/cards -- names. -- Added cELLplex-7600card. -- -- 13 Feb 96 Paul J Moran -- add superStack card ids -- -- -- 29 Feb 96 David Chuang & Srinath Candadai Added rptrGroupObjectID for FMS 100 -- (100BaseT4) repeater. -- -- 06 Mar 96 Kiho Yum Added OIDs for new NETBuilder -- ATM board, nbro2Eth, and nbro2EthIsdn. -- -- 07 Mar 96 John Scano Added OIDs for -- TRSM Module -- TMM Module -- FSM Module -- SS-2 -- For agent revisions 4,5,6,7 -- -- 15 March 96 Paul J Moran -- Added linkswitch cards for the OnCore -- -- 20 March 96 Paul J Moran -- ATMO module for superStack Switch1000/3000 -- -- 20 March 96 Kiho Yum Added OIDs for new NETBuilder -- flat FDDI boards -- -- 15 April 96 Paul J Moran -- Add oids for the LinkSwitch2000/Token Ring -- -- 25 April 96 Paul J Moran -- Changed linkSwitch1000MSH to mshSwitch1005 -- -- 29 April 96 Paul J Moran -- Added main branch for the VLAN Server -- -- 23 May 96 Kiho Yum -- Added main branch for terminal servers -- -- 29 May 96 Kiho Yum -- Added product oids for Office Connect Routers -- -- 3 June 96 Paul J Moran -- Added more linkswitch cards for the OnCore -- -- 21June 96 Paul J Moran -- Added yet more linkswitch card ids for the OnCore -- Added sysObjectId for new SuperStack Desktop Switch -- -- 8 July 1996 Paul J Moran -- Added card id for new SuperStack Desktop Switch -- -- 6 September 1996 Paul J Moran -- Added card id for new SuperStack Switch 3000 -- -- 16 September 96 Paul J Moran -- Added more linkswitch cards for the OnCore -- -- 11 October 96 Paul J Moran -- Added new mib branch for a new RPS product - rpsIIMgmtModule-mib -- -- 7 Nov 96 Kiho Yum -- Added nb platform oids for nbr2e, nbr2eIsdn, and Office Conn. Family -- Also added board OIDs for nboc cpu boards. -- -- 15 October 96 Evan McGinnis -- Corrected problems with linkSwitch/linkswitch naming -- confusion -- -- -- 6 November 96 Paul J Moran -- Added new OfficeConnet product, sysObjId and card types -- -- 7 Nov 96 Kiho Yum -- Added nb platform oids for nbr2e, nbr2eIsdn, and Office Conn. Family -- Also added board OIDs for nboc cpu boards. -- -- 20 Nov 96 Evan McGinnis -- Added ten100 card for LS1000 (As per Paul Moran's request) -- -- 19 Dec 96 Evan McGinnis -- Added Power supply branch & Power supply (As per Paul Moran's request) -- -- 21 Feb 97 Kiho Yum -- Added dpe Fw OID branch -- Also added brouterBoard OIDs for nbocST, nbocU, nboc56kCSU, nbocT1CSU, -- nboc1x1 and nboc2FlexWAN -- Also added brouterPlatform for ocT1CsuDsu. -- -- 18 Mar 97 Evan McGinnis -- Added section for NOVA project -- -- 17 Apr 97 Evan McGinnis -- Added branches for BAD (TDM) -- -- ********************************************************************** -- Copyright 3Com Technologies Limited. (1991-1996) -- ********************************************************************** A3Com-products-MIB DEFINITIONS ::= BEGIN IMPORTS enterprises FROM RFC1155-SMI; -- -- This MIB contains 3com product OIDs (used in sysObjectID) -- a3Com OBJECT IDENTIFIER ::= { enterprises 43 } products OBJECT IDENTIFIER ::= { a3Com 1 } brouterMIB OBJECT IDENTIFIER ::= { a3Com 2 } amp-mib OBJECT IDENTIFIER ::= { a3Com 3 } genericTrap OBJECT IDENTIFIER ::= { a3Com 4 } viewBuilderApps OBJECT IDENTIFIER ::= { a3Com 5 } specificTrap OBJECT IDENTIFIER ::= { a3Com 6 } linkBuilder3GH-mib OBJECT IDENTIFIER ::= { a3Com 7 } linkBuilder10BTi-mib OBJECT IDENTIFIER ::= { a3Com 8 } linkBuilderECS-mib OBJECT IDENTIFIER ::= { a3Com 9 } generic OBJECT IDENTIFIER ::= { a3Com 10 } netBuilder-mib OBJECT IDENTIFIER ::= { a3Com 11 } lBridgeECS-mib OBJECT IDENTIFIER ::= { a3Com 12 } deskMan OBJECT IDENTIFIER ::= { a3Com 13 } linkBuilderMSH-mib OBJECT IDENTIFIER ::= { a3Com 14 } a3ComUnused15 OBJECT IDENTIFIER ::= { a3Com 15 } a3comFddiWGHubMib OBJECT IDENTIFIER ::= { a3Com 16 } linkSwitch-mib OBJECT IDENTIFIER ::= { a3Com 17 } linkSwitch1000-mib OBJECT IDENTIFIER ::= { a3Com 18 } linkBuilderFMS100-mib OBJECT IDENTIFIER ::= { a3Com 19 } ncdMibs OBJECT IDENTIFIER ::= { a3Com 20 } officeConnect-Hub8M-mib OBJECT IDENTIFIER ::= { a3Com 21 } linkSwitch2000TR-mib OBJECT IDENTIFIER ::= { a3Com 22 } vlanServer-mib OBJECT IDENTIFIER ::= { a3Com 23 } terminalServerMib OBJECT IDENTIFIER ::= { a3Com 24 } rpsIIMgmtModule-mib OBJECT IDENTIFIER ::= { a3Com 25 } transcendEnterpriseMgr OBJECT IDENTIFIER ::= { a3Com 26 } terminalServer OBJECT IDENTIFIER ::= { products 1 } dedicatedBridgeServer OBJECT IDENTIFIER ::= { products 2 } dedicatedRouteServer OBJECT IDENTIFIER ::= { products 3 } brouter OBJECT IDENTIFIER ::= { products 4 } genericMSWorkstation OBJECT IDENTIFIER ::= { products 5 } genericMSServer OBJECT IDENTIFIER ::= { products 6 } genericUnixServer OBJECT IDENTIFIER ::= { products 7 } hub OBJECT IDENTIFIER ::= { products 8 } cards OBJECT IDENTIFIER ::= { products 9 } chipSets OBJECT IDENTIFIER ::= { products 10 } oem OBJECT IDENTIFIER ::= { products 11 } atm OBJECT IDENTIFIER ::= { products 12 } powerSupplies OBJECT IDENTIFIER ::= { products 13 } tdm OBJECT IDENTIFIER ::= { products 14 } -- -- the following identifiers are assigned to 3com terminal servers -- cs2500 OBJECT IDENTIFIER ::= { terminalServer 1 } cs2600 OBJECT IDENTIFIER ::= { terminalServer 2 } cs2000 OBJECT IDENTIFIER ::= { terminalServer 3 } cs1 OBJECT IDENTIFIER ::= { terminalServer 4 } cs210 OBJECT IDENTIFIER ::= { terminalServer 5 } cs2100 OBJECT IDENTIFIER ::= { terminalServer 6 } cs3000 OBJECT IDENTIFIER ::= { terminalServer 7 } cs3100 OBJECT IDENTIFIER ::= { terminalServer 8 } callisto OBJECT IDENTIFIER ::= { terminalServer 9 } termServerPlatform OBJECT IDENTIFIER ::= { terminalServer 10 } -- -- the following ids are assigned under a3Com.products.terminalServer.cs2500 -- cs2500to OBJECT IDENTIFIER ::= { cs2500 1 } cs2500tlo OBJECT IDENTIFIER ::= { cs2500 2 } -- -- the following ids are assigned under a3Com.products.terminalServer.cs2600 -- cs2600to OBJECT IDENTIFIER ::= { cs2600 1 } cs2600tlo OBJECT IDENTIFIER ::= { cs2600 2 } -- -- the following ids are assigned under a3Com.products.terminalServer.cs2000 -- cs2000to OBJECT IDENTIFIER ::= { cs2000 1 } cs2000tlo OBJECT IDENTIFIER ::= { cs2000 2 } -- -- the following ids are assigned under a3Com.products.terminalServer.cs2100 -- cs2100to OBJECT IDENTIFIER ::= { cs2100 1 } cs2100tlo OBJECT IDENTIFIER ::= { cs2100 2 } -- -- the following ids are assigned under a3Com.products.terminalServer.cs3000 -- cs3000to OBJECT IDENTIFIER ::= { cs3000 1 } cs3000tlo OBJECT IDENTIFIER ::= { cs3000 2 } -- -- the following ids are assigned under a3Com.products.terminalServer.cs3100 -- cs3100to OBJECT IDENTIFIER ::= { cs3100 1 } cs3100tlo OBJECT IDENTIFIER ::= { cs3100 2 } -- -- the following identifiers are assigned to 3com terminal server platforms -- series1 OBJECT IDENTIFIER ::= { termServerPlatform 1 } series200 OBJECT IDENTIFIER ::= { termServerPlatform 2 } callistoPlatfor OBJECT IDENTIFIER ::= { termServerPlatform 3 } series2500 OBJECT IDENTIFIER ::= { termServerPlatform 4 } series3000 OBJECT IDENTIFIER ::= { termServerPlatform 5 } -- -- the following identifiers are assigned to 3com brouters -- netbuilder1 OBJECT IDENTIFIER ::= { brouter 1 } -- not used netbuilder2 OBJECT IDENTIFIER ::= { brouter 2 } -- >= 6.2 lBridgeECS OBJECT IDENTIFIER ::= { brouter 3 } netbuilderTrRA OBJECT IDENTIFIER ::= { brouter 4 } -- 2 port nbtr NBTR Remote Access brouterPlatform OBJECT IDENTIFIER ::= { brouter 5 } netbuilderRem OBJECT IDENTIFIER ::= { brouter 6 } -- 4 port nb1 NB Remote netbuilderRA OBJECT IDENTIFIER ::= { brouter 7 } -- 2 port nb1 NB Remote Access netbuilderRC OBJECT IDENTIFIER ::= { brouter 8 } -- 2 port boundary rtr NB Remote Control netbuilderTrRem OBJECT IDENTIFIER ::= { brouter 9 } -- 4 port tok.ring nb1 NBTR Remote netbuilderTrRC OBJECT IDENTIFIER ::= { brouter 10 } -- tok.ring boundary rtr NBTR Remote Control nb2-4 OBJECT IDENTIFIER ::= { brouter 11 } -- 4 port nb2 nb2-8 OBJECT IDENTIFIER ::= { brouter 12 } -- 8 port nb2 nbro OBJECT IDENTIFIER ::= { brouter 13 } -- netbuilder Rem. Office (spectre) brouterBoards OBJECT IDENTIFIER ::= { brouter 14 } netbuilderLocal OBJECT IDENTIFIER ::= { brouter 15 } -- 2 Lan nb1 NB Local netbuilderTrLocal OBJECT IDENTIFIER ::= { brouter 16 } -- 2 Lan nbtr NBTR Local netbuilderRC1x2 OBJECT IDENTIFIER ::= { brouter 17 } -- NB Rem Ctl w/2 wan ports netbuilderTrRC1x2 OBJECT IDENTIFIER ::= { brouter 18 } -- NBTR Rem Ctl w/2 wan ports casper OBJECT IDENTIFIER ::= { brouter 19 } -- Spectre Large spectreHuge OBJECT IDENTIFIER ::= { brouter 20 } -- Spectre Huge spectreIsdn OBJECT IDENTIFIER ::= { brouter 21 } -- Spectre ISDN nb2-8-4fddi OBJECT IDENTIFIER ::= { brouter 22 } -- 8 port nb2 capable of 4 fddi sets nb2-8-dualwide OBJECT IDENTIFIER ::= { brouter 23 } -- 8 port nb2 w/dual wide slots 4 crew brouterBrdFwVers OBJECT IDENTIFIER ::= { brouter 24 } -- fw versions brouterBrdSwVers OBJECT IDENTIFIER ::= { brouter 25 } -- sw versions spectreIsdnHuge OBJECT IDENTIFIER ::= { brouter 26 } -- Spectre ISDN nbroTrHuge OBJECT IDENTIFIER ::= { brouter 27 } -- SpectreTR4x8 nbroTrIsdn OBJECT IDENTIFIER ::= { brouter 28 } -- SpectreTrIsdn4x8 nbroTrNext OBJECT IDENTIFIER ::= { brouter 29 } -- SpectreTrxxx nbro2Eth OBJECT IDENTIFIER ::= { brouter 30 } -- Spectre2Eth nbro2EthIsdn OBJECT IDENTIFIER ::= { brouter 31 } -- Spectre2EthIsdn officeConnRtr OBJECT IDENTIFIER ::= { brouter 32 } -- officeConnect -- -- the following ids are assigned under a3Com.products.brouter.netbuilderTrRA -- netbuilderTrRAbp OBJECT IDENTIFIER ::= { netbuilderTrRA 1 } -- NBTR Rem. Acc. w/Basic Prot. SW netbuilderTrRAcp OBJECT IDENTIFIER ::= { netbuilderTrRA 2 } -- NBTR Rem. Acc. w/Compl. Prot. SW netbuilderTrRAxw OBJECT IDENTIFIER ::= { netbuilderTrRA 3 } -- NBTR Rem. Acc w/Ext. WAN SW netbuilderTrRAcx OBJECT IDENTIFIER ::= { netbuilderTrRA 4 } -- NBTR Rem. Acc. w/Con Svc SW netbuilderTrRAba OBJECT IDENTIFIER ::= { netbuilderTrRA 5 } -- NBTR Rem. Acc. w/Bndry Rtg Clnt netbuilderTrRAar OBJECT IDENTIFIER ::= { netbuilderTrRA 6 } -- NBTR Rem. Acc. w/Acc. Rtr SW netbuilderTrRAsn OBJECT IDENTIFIER ::= { netbuilderTrRA 7 } -- NBTR Rem. Acc. w/SNA SW netbuilderTrRArb OBJECT IDENTIFIER ::= { netbuilderTrRA 8 } -- NBTR RA w/RB SW netbuilderTrRAff OBJECT IDENTIFIER ::= { netbuilderTrRA 9 } -- NBTR RA w/Full Feature SW netbuidlerTrRAcf OBJECT IDENTIFIER ::= { netbuilderTrRA 10 } -- NBTR RA w/CF SW netbuilderTrRAbx OBJECT IDENTIFIER ::= { netbuilderTrRA 11 } -- NBTR Rem Acc w/BX SW netbuilderTrRAappn OBJECT IDENTIFIER ::= { netbuilderTrRA 12 } -- NBTR RAAcc w/Appn SW netbuilderTrRAlm OBJECT IDENTIFIER ::= { netbuilderTrRA 13 } -- NBTR RA w/Lm Sw netbuilderTrRAlt OBJECT IDENTIFIER ::= { netbuilderTrRA 14 } -- NBTR RA w/Lt Sw netbuilderTrRAwm OBJECT IDENTIFIER ::= { netbuilderTrRA 15 } -- NBTR RA w/Wm Sw netbuilderTrRAwt OBJECT IDENTIFIER ::= { netbuilderTrRA 16 } -- NBTR RA w/Wt Sw netbuilderTrRAae OBJECT IDENTIFIER ::= { netbuilderTrRA 17 } -- NBTR RA w/Ae Sw netbuilderTrRAap OBJECT IDENTIFIER ::= { netbuilderTrRA 18 } -- NBTR RA w/Ap Sw netbuilderTrRAan OBJECT IDENTIFIER ::= { netbuilderTrRA 19 } -- NBTR RA w/An Sw netbuilderTrRAla OBJECT IDENTIFIER ::= { netbuilderTrRA 20 } -- NBTR RA w/La Sw netbuilderTrRAwa OBJECT IDENTIFIER ::= { netbuilderTrRA 21 } -- NBTR RA w/Wa Sw netbuilderTrRAaa OBJECT IDENTIFIER ::= { netbuilderTrRA 22 } -- NBTR RA w/Aa Sw netbuilderTrRAab OBJECT IDENTIFIER ::= { netbuilderTrRA 23 } -- NBTR RA w/Ab Sw netbuilderTrRAbf OBJECT IDENTIFIER ::= { netbuilderTrRA 24 } -- NBTR RA w/Bf Sw -- -- the following identifiers are assigned to brouterPlatform -- nb1 OBJECT IDENTIFIER ::= { brouterPlatform 1 } -- nb1 platform nb2 OBJECT IDENTIFIER ::= { brouterPlatform 2 } -- nb2 platform nbroPlatform OBJECT IDENTIFIER ::= { brouterPlatform 3 } -- netbuilder remote office platform casperPlatform OBJECT IDENTIFIER ::= { brouterPlatform 4 } -- Casper platform spectreIsdnPform OBJECT IDENTIFIER ::= { brouterPlatform 5 } -- spec.isdn pf spectreIITr OBJECT IDENTIFIER ::= { brouterPlatform 6 }--spec.IITr pf nbroIITrIsdnPform OBJECT IDENTIFIER ::= { brouterPlatform 7 }--sp.IITr Isdn pf nbroIIEthPform OBJECT IDENTIFIER ::= { brouterPlatform 8 }--spec.IITr pf nbroIIEthIsdnPform OBJECT IDENTIFIER ::= { brouterPlatform 9 }--sp.IITr Isdn pf ocGen OBJECT IDENTIFIER ::= { brouterPlatform 10 }--generic Office Connect ocIsdnSt OBJECT IDENTIFIER ::= { brouterPlatform 11 }--Office Conn w/ISDN s/t ocIsdnU OBJECT IDENTIFIER ::= { brouterPlatform 12 }--Office Conn w/ISDN U ocCsuDsu OBJECT IDENTIFIER ::= { brouterPlatform 13 }--Office Conn w/56K CSU/DSU ocWanOnly OBJECT IDENTIFIER ::= { brouterPlatform 14 }--Office Conn w/WAN only ocT1CsuDsu OBJECT IDENTIFIER ::= { brouterPlatform 15 }--Office Conn w/T1 CSU/DSU -- -- the following id are assigned under a3Com.products.brouter.netbuilderRem -- netbuilderRemBp OBJECT IDENTIFIER ::= { netbuilderRem 1 } -- nb Rem. w/Basic Prot netbuilderRemCp OBJECT IDENTIFIER ::= { netbuilderRem 2 } -- nb Rem w/Compl Prot netbuilderRemXw OBJECT IDENTIFIER ::= { netbuilderRem 3 } -- nb Rem w/Ext WAN netbuilderRemCx OBJECT IDENTIFIER ::= { netbuilderRem 4 } -- nb Rem w/X25 Con Svc netbuilderRemBa OBJECT IDENTIFIER ::= { netbuilderRem 5 } -- nb Rem w/Bndry Rtg netbuilderRemAr OBJECT IDENTIFIER ::= { netbuilderRem 6 } -- nb Rem w/Acc Rtr SW netbuilderRemSn OBJECT IDENTIFIER ::= { netbuilderRem 7 } -- nb Rem w/SNA SW netbuilderRemRb OBJECT IDENTIFIER ::= { netbuilderRem 8 } -- nb Rem w/RB SW netbuilderRemFf OBJECT IDENTIFIER ::= { netbuilderRem 9 } -- nb Remw/FF SW netbuilderRemCf OBJECT IDENTIFIER ::= { netbuilderRem 10 } -- nb Rem w/CF SW netbuilderRemBx OBJECT IDENTIFIER ::= { netbuilderRem 11 } -- nb Rem w/BX SW netbuilderRemAppn OBJECT IDENTIFIER ::= { netbuilderRem 12 } -- nb Rem w/Appn SW netbuilderRemLm OBJECT IDENTIFIER ::= { netbuilderRem 13 } -- nb Rem w/Lm Sw netbuilderRemLt OBJECT IDENTIFIER ::= { netbuilderRem 14 } -- nb Rem w/Lt Sw netbuilderRemWm OBJECT IDENTIFIER ::= { netbuilderRem 15 } -- nb Rem w/Wm Sw netbuilderRemWt OBJECT IDENTIFIER ::= { netbuilderRem 16 } -- nb Rem w/Wt Sw netbuilderRemAe OBJECT IDENTIFIER ::= { netbuilderRem 17 } -- nb Rem w/Ae Sw netbuilderRemAp OBJECT IDENTIFIER ::= { netbuilderRem 18 } -- nb Rem w/Ap Sw netbuilderRemAn OBJECT IDENTIFIER ::= { netbuilderRem 19 } -- nb Rem w/An Sw netbuilderRemLa OBJECT IDENTIFIER ::= { netbuilderRem 20 } -- nb Rem w/La Sw netbuilderRemWa OBJECT IDENTIFIER ::= { netbuilderRem 21 } -- nb Rem w/Wa Sw netbuilderRemAa OBJECT IDENTIFIER ::= { netbuilderRem 22 } -- nb Rem w/Aa Sw netbuilderRemAb OBJECT IDENTIFIER ::= { netbuilderRem 23 } -- nb Rem w/Ab Sw netbuilderRemBf OBJECT IDENTIFIER ::= { netbuilderRem 24 } -- nb Rem w/Bf Sw -- -- the following ids are assigned under a3Com.products.brouter.netbuilderRA -- netbuilderRAbp OBJECT IDENTIFIER ::= { netbuilderRA 1 } -- nb RA w/Basic Prot netbuilderRAcp OBJECT IDENTIFIER ::= { netbuilderRA 2 } -- nb RA w/Compl Prot netbuilderRAxw OBJECT IDENTIFIER ::= { netbuilderRA 3 } -- nb RA w/Ext WAN netbuilderRAcx OBJECT IDENTIFIER ::= { netbuilderRA 4 } -- nb RA w/Conn Svc netbuilderRAba OBJECT IDENTIFIER ::= { netbuilderRA 5 } -- nb RA w/Bndry Rtg netbuilderRAar OBJECT IDENTIFIER ::= { netbuilderRA 6 } -- nb RA w/AccRtr SW netbuilderRAsn OBJECT IDENTIFIER ::= { netbuilderRA 7 } -- nb RA w/SNA SW netbuilderRArb OBJECT IDENTIFIER ::= { netbuilderRA 8 } -- nb RA w/RB SW netbuilderRAff OBJECT IDENTIFIER ::= { netbuilderRA 9 } -- nb RA/FF SW netbuilderRAcf OBJECT IDENTIFIER ::= { netbuilderRA 10 } -- nb RA w/CF SW netbuilderRAbx OBJECT IDENTIFIER ::= { netbuilderRA 11 } -- nb RA w/BX SW netbuilderRAappn OBJECT IDENTIFIER ::= { netbuilderRA 12 } -- nb RA w/Appn SW netbuilderRAlm OBJECT IDENTIFIER ::= { netbuilderRA 13 } -- nb RA w/Lm Sw netbuilderRAlt OBJECT IDENTIFIER ::= { netbuilderRA 14 } -- nb RA w/Lt Sw netbuilderRAwm OBJECT IDENTIFIER ::= { netbuilderRA 15 } -- nb RA w/Wm Sw netbuilderRAwt OBJECT IDENTIFIER ::= { netbuilderRA 16 } -- nb RA w/Wt Sw netbuilderRAae OBJECT IDENTIFIER ::= { netbuilderRA 17 } -- nb RA w/Ae Sw netbuilderRAap OBJECT IDENTIFIER ::= { netbuilderRA 18 } -- nb RA w/Ap Sw netbuilderRAan OBJECT IDENTIFIER ::= { netbuilderRA 19 } -- nb RA w/An Sw netbuilderRAla OBJECT IDENTIFIER ::= { netbuilderRA 20 } -- nb RA w/La Sw netbuilderRAwa OBJECT IDENTIFIER ::= { netbuilderRA 21 } -- nb RA w/Wa Sw netbuilderRAaa OBJECT IDENTIFIER ::= { netbuilderRA 22 } -- nb RA w/Aa Sw netbuilderRAab OBJECT IDENTIFIER ::= { netbuilderRA 23 } -- nb RA w/Ab Sw netbuilderRAbf OBJECT IDENTIFIER ::= { netbuilderRA 24 } -- nb RA w/Bf Sw -- -- the following ids are assigned under a3Com.products.brouter.netbuilderRC -- netbuilderRCbp OBJECT IDENTIFIER ::= { netbuilderRC 1 } -- nb RC w/Basic Prot netbuilderRCcp OBJECT IDENTIFIER ::= { netbuilderRC 2 } -- nb RC w/Compl Prot netbuilderRCxw OBJECT IDENTIFIER ::= { netbuilderRC 3 } -- nb RC w/Ext WAN netbuilderRCcx OBJECT IDENTIFIER ::= { netbuilderRC 4 } -- nb RC w/Conn Svc netbuilderRCba OBJECT IDENTIFIER ::= { netbuilderRC 5 } -- nb RC w/Bndry Rtg netbuilderRCar OBJECT IDENTIFIER ::= { netbuilderRC 6 } -- nb RC w/AccRtr SW netbuilderRCsn OBJECT IDENTIFIER ::= { netbuilderRC 7 } -- nb RC w/SNA SW netbuilderRCrb OBJECT IDENTIFIER ::= { netbuilderRC 8 } -- nb RC w/RB SW netbuilderRCff OBJECT IDENTIFIER ::= { netbuilderRC 9 } -- nb RC w/FF SW netbuilderRCcf OBJECT IDENTIFIER ::= { netbuilderRC 10 } -- nb RC w/CF SW netbuilderRCbx OBJECT IDENTIFIER ::= { netbuilderRC 11 } -- nb RC w/BX SW netbuilderRCappn OBJECT IDENTIFIER ::= { netbuilderRC 12 } -- nb RC w/Appn SW netbuilderRClm OBJECT IDENTIFIER ::= { netbuilderRC 13 } -- nb RC w/Lm Sw netbuilderRClt OBJECT IDENTIFIER ::= { netbuilderRC 14 } -- nb RC w/Lt Sw netbuilderRCwm OBJECT IDENTIFIER ::= { netbuilderRC 15 } -- nb RC w/Wm Sw netbuilderRCwt OBJECT IDENTIFIER ::= { netbuilderRC 16 } -- nb RC w/Wt Sw netbuilderRCae OBJECT IDENTIFIER ::= { netbuilderRC 17 } -- nb RC w/Ae Sw netbuilderRCap OBJECT IDENTIFIER ::= { netbuilderRC 18 } -- nb RC w/Ap Sw netbuilderRCan OBJECT IDENTIFIER ::= { netbuilderRC 19 } -- nb RC w/An Sw netbuilderRCla OBJECT IDENTIFIER ::= { netbuilderRC 20 } -- nb RC w/La Sw netbuilderRCwa OBJECT IDENTIFIER ::= { netbuilderRC 21 } -- nb RC w/Wa Sw netbuilderRCaa OBJECT IDENTIFIER ::= { netbuilderRC 22 } -- nb RC w/Aa Sw netbuilderRCab OBJECT IDENTIFIER ::= { netbuilderRC 23 } -- nb RC w/Ab Sw netbuilderRCbf OBJECT IDENTIFIER ::= { netbuilderRC 24 } -- nb RC w/Bf Sw -- -- the following ids are assigned under a3Com.products.brouter.netbuilderTrRem -- netbuilderTrRemBp OBJECT IDENTIFIER ::= { netbuilderTrRem 1 } -- nbtr Rem w/BP netbuilderTrRemCp OBJECT IDENTIFIER ::= { netbuilderTrRem 2 } -- nbtr Rem w/CP netbuilderTrRemXw OBJECT IDENTIFIER ::= { netbuilderTrRem 3 } -- nbtr Rem w/XW netbuilderTrRemCx OBJECT IDENTIFIER ::= { netbuilderTrRem 4 } -- nbtr Rem w/CX netbuilderTrRemBa OBJECT IDENTIFIER ::= { netbuilderTrRem 5 } -- nbtr Rem w/BA netbuilderTrRemAr OBJECT IDENTIFIER ::= { netbuilderTrRem 6 } -- nbtr Rem w/AR netbuilderTrRemSn OBJECT IDENTIFIER ::= { netbuilderTrRem 7 } -- nbtr Rem w/SNA netbuilderTrRemRb OBJECT IDENTIFIER ::= { netbuilderTrRem 8 } -- nb TrRem w/RB netbuilderTrRemFf OBJECT IDENTIFIER ::= { netbuilderTrRem 9 } -- nb TrRem w/FF netbuilderTrRemCf OBJECT IDENTIFIER ::= { netbuilderTrRem 10 } -- nb TrRem w/CF netbuilderTrRemBx OBJECT IDENTIFIER ::= { netbuilderTrRem 11 } -- nbtr Rem w/BX netbuilderTrRemAppn OBJECT IDENTIFIER ::= { netbuilderTrRem 12 } -- nb TrRem w/Appn SW netbuilderTrRemLm OBJECT IDENTIFIER ::= { netbuilderTrRem 13 } -- nb TrRem w/Lm netbuilderTrRemLt OBJECT IDENTIFIER ::= { netbuilderTrRem 14 } -- nb TrRem w/Lt netbuilderTrRemWm OBJECT IDENTIFIER ::= { netbuilderTrRem 15 } -- nb TrRem w/Wm netbuilderTrRemWt OBJECT IDENTIFIER ::= { netbuilderTrRem 16 } -- nb TrRem w/Wt netbuilderTrRemAe OBJECT IDENTIFIER ::= { netbuilderTrRem 17 } -- nb TrRem w/Ae netbuilderTrRemAp OBJECT IDENTIFIER ::= { netbuilderTrRem 18 } -- nb TrRem w/Ap netbuilderTrRemAn OBJECT IDENTIFIER ::= { netbuilderTrRem 19 } -- nb TrRem w/An netbuilderTrRemLa OBJECT IDENTIFIER ::= { netbuilderTrRem 20 } -- nb TrRem w/La netbuilderTrRemWa OBJECT IDENTIFIER ::= { netbuilderTrRem 21 } -- nb TrRem w/La netbuilderTrRemAa OBJECT IDENTIFIER ::= { netbuilderTrRem 22 } -- nb TrRem w/Aa netbuilderTrRemAb OBJECT IDENTIFIER ::= { netbuilderTrRem 23 } -- nb TrRem w/Ab netbuilderTrRemBf OBJECT IDENTIFIER ::= { netbuilderTrRem 24 } -- nb TrRem w/Bf -- -- the following ids are assigned under a3Com.products.brouter.netbuilderTrRC -- netbuilderTrRCbp OBJECT IDENTIFIER ::= { netbuilderTrRC 1 } -- NBTR RC w/Basic Prot netbuilderTrRCcp OBJECT IDENTIFIER ::= { netbuilderTrRC 2 } -- NBTR Rc w/Compl Prot netbuilderTrRCxw OBJECT IDENTIFIER ::= { netbuilderTrRC 3 } -- NBTR Rc w/Ext WAN netbuilderTrRCcx OBJECT IDENTIFIER ::= { netbuilderTrRC 4 } -- NBTR RC w/CX netbuilderTrRCba OBJECT IDENTIFIER ::= { netbuilderTrRC 5 } -- NBTR RC w/BA netbuilderTrRCar OBJECT IDENTIFIER ::= { netbuilderTrRC 6 } -- NBTR RC w/AR netbuilderTrRCsn OBJECT IDENTIFIER ::= { netbuilderTrRC 7 } -- NBTR RC w/SNA netbuilderTrRCrb OBJECT IDENTIFIER ::= { netbuilderTrRC 8 } -- NBTR RC w/RB netbuilderTrRCff OBJECT IDENTIFIER ::= { netbuilderTrRC 9 } -- NBTR RC w/FF netbuilderTrRCcf OBJECT IDENTIFIER ::= { netbuilderTrRC 10 } -- NBTR RC w/CF netbuilderTrRCbx OBJECT IDENTIFIER ::= { netbuilderTrRC 11 } -- NBTR RC w/BX netbuilderTrRCappn OBJECT IDENTIFIER ::= { netbuilderTrRC 12 } -- NBTR RC w/Appn SW netbuilderTrRClm OBJECT IDENTIFIER ::= { netbuilderTrRC 13 } -- NBTR RC w/Lm netbuilderTrRClt OBJECT IDENTIFIER ::= { netbuilderTrRC 14 } -- NBTR RC w/Lt netbuilderTrRCwm OBJECT IDENTIFIER ::= { netbuilderTrRC 15 } -- NBTR RC w/Wm netbuilderTrRCwt OBJECT IDENTIFIER ::= { netbuilderTrRC 16 } -- NBTR RC w/Wt netbuilderTrRCae OBJECT IDENTIFIER ::= { netbuilderTrRC 17 } -- NBTR RC w/Ae netbuilderTrRCap OBJECT IDENTIFIER ::= { netbuilderTrRC 18 } -- NBTR RC w/Ap netbuilderTrRCan OBJECT IDENTIFIER ::= { netbuilderTrRC 19 } -- NBTR RC w/An netbuilderTrRCla OBJECT IDENTIFIER ::= { netbuilderTrRC 20 } -- NBTR RC w/La netbuilderTrRCwa OBJECT IDENTIFIER ::= { netbuilderTrRC 21 } -- NBTR RC w/Wa netbuilderTrRCaa OBJECT IDENTIFIER ::= { netbuilderTrRC 22 } -- NBTR RC w/Aa netbuilderTrRCab OBJECT IDENTIFIER ::= { netbuilderTrRC 23 } -- NBTR RC w/Ab netbuilderTrRCbf OBJECT IDENTIFIER ::= { netbuilderTrRC 24 } -- NBTR RC w/Bf -- -- the following identifiers are assigned under a3Com.products.brouter.nb2-4 -- nb2-4Bp OBJECT IDENTIFIER ::= { nb2-4 1 } -- nb2 4 slot w/Basic Prot SW nb2-4Cp OBJECT IDENTIFIER ::= { nb2-4 2 } -- nb2 4 slot w/Compl Prot SW nb2-4Xw OBJECT IDENTIFIER ::= { nb2-4 3 } -- nb2 4 slot w/Ext WAN SW nb2-4Cx OBJECT IDENTIFIER ::= { nb2-4 4 } -- nb2 4 slot w/Conn Svc SW nb2-4Ba OBJECT IDENTIFIER ::= { nb2-4 5 } -- nb2 4 slot w/BA nb2-4Ar OBJECT IDENTIFIER ::= { nb2-4 6 } -- nb2 4 slot w/AR nb2-4Sn OBJECT IDENTIFIER ::= { nb2-4 7 } -- nb2 4 slot w/SNA nb2-4Rb OBJECT IDENTIFIER ::= { nb2-4 8 } -- nb2 4 slot w/RB nb2-4Ff OBJECT IDENTIFIER ::= { nb2-4 9 } -- nb2 4 slot w/Full Feature SW nb2-4Cf OBJECT IDENTIFIER ::= { nb2-4 10 } -- nb2 4 slot w/CF nb2-4Bx OBJECT IDENTIFIER ::= { nb2-4 11 } -- nb2 4 slot w/BX nb2-4Appn OBJECT IDENTIFIER ::= { nb2-4 12 } -- nb2 4 slot w/Appn SW nb2-4Lm OBJECT IDENTIFIER ::= { nb2-4 13 } -- nb2 4 slot w/Lm Sw nb2-4Lt OBJECT IDENTIFIER ::= { nb2-4 14 } -- nb2 4 slot w/Lt Sw nb2-4Wm OBJECT IDENTIFIER ::= { nb2-4 15 } -- nb2 4 slot w/Wm Sw nb2-4Wt OBJECT IDENTIFIER ::= { nb2-4 16 } -- nb2 4 slot w/Wt Sw nb2-4Ae OBJECT IDENTIFIER ::= { nb2-4 17 } -- nb2 4 slot w/Ae Sw nb2-4Ap OBJECT IDENTIFIER ::= { nb2-4 18 } -- nb2 4 slot w/Ap Sw nb2-4An OBJECT IDENTIFIER ::= { nb2-4 19 } -- nb2 4 slot w/An Sw nb2-4La OBJECT IDENTIFIER ::= { nb2-4 20 } -- nb2 4 slot w/La Sw nb2-4Wa OBJECT IDENTIFIER ::= { nb2-4 21 } -- nb2 4 slot w/Wa Sw nb2-4Aa OBJECT IDENTIFIER ::= { nb2-4 22 } -- nb2 4 slot w/Aa Sw nb2-4Ab OBJECT IDENTIFIER ::= { nb2-4 23 } -- nb2 4 slot w/Ab Sw nb2-4Bf OBJECT IDENTIFIER ::= { nb2-4 24 } -- nb2 4 slot w/Bf Sw -- -- the following identifiers are assigned under a3Com.products.brouter.nb2-8 -- nb2-8Bp OBJECT IDENTIFIER ::= { nb2-8 1 } -- nb2 8 slot w/Basic Prot SW nb2-8Cp OBJECT IDENTIFIER ::= { nb2-8 2 } -- nb2 8 slot w/Compl Prot SW nb2-8Xw OBJECT IDENTIFIER ::= { nb2-8 3 } -- nb2 8 slot w/Ext WAN SW nb2-8Cx OBJECT IDENTIFIER ::= { nb2-8 4 } -- nb2 8 slot w/Conn Svc SW nb2-8Ba OBJECT IDENTIFIER ::= { nb2-8 5 } -- nb2 8 slot w/BA nb2-8Ar OBJECT IDENTIFIER ::= { nb2-8 6 } -- nb2 8 slot w/AR nb2-8Sn OBJECT IDENTIFIER ::= { nb2-8 7 } -- nb2 8 slot w/SNA nb2-8Rb OBJECT IDENTIFIER ::= { nb2-8 8 } -- nb2 8 slot w/RB nb2-8Ff OBJECT IDENTIFIER ::= { nb2-8 9 } -- nb2 8 slot w/Full Feature SW nb2-8Cf OBJECT IDENTIFIER ::= { nb2-8 10 } -- nb2 8 slot w/CF nb2-8Bx OBJECT IDENTIFIER ::= { nb2-8 11 } -- nb2 8 slot w/BX nb2-8Appn OBJECT IDENTIFIER ::= { nb2-8 12 } -- nb2 8 slot w/Appn SW nb2-8Lm OBJECT IDENTIFIER ::= { nb2-8 13 } -- nb2 8 slot w/Lm Sw nb2-8Lt OBJECT IDENTIFIER ::= { nb2-8 14 } -- nb2 8 slot w/Lt Sw nb2-8Wm OBJECT IDENTIFIER ::= { nb2-8 15 } -- nb2 8 slot w/Wm Sw nb2-8Wt OBJECT IDENTIFIER ::= { nb2-8 16 } -- nb2 8 slot w/Wt Sw nb2-8Ae OBJECT IDENTIFIER ::= { nb2-8 17 } -- nb2 8 slot w/Ae Sw nb2-8Ap OBJECT IDENTIFIER ::= { nb2-8 18 } -- nb2 8 slot w/Ap Sw nb2-8An OBJECT IDENTIFIER ::= { nb2-8 19 } -- nb2 8 slot w/An Sw nb2-8La OBJECT IDENTIFIER ::= { nb2-8 20 } -- nb2 8 slot w/La Sw nb2-8Wa OBJECT IDENTIFIER ::= { nb2-8 21 } -- nb2 8 slot w/Wa Sw nb2-8Aa OBJECT IDENTIFIER ::= { nb2-8 22 } -- nb2 8 slot w/Aa Sw nb2-8Ab OBJECT IDENTIFIER ::= { nb2-8 23 } -- nb2 8 slot w/Ab Sw nb2-8Bf OBJECT IDENTIFIER ::= { nb2-8 24 } -- nb2 8 slot w/Bf Sw -- -- the following identifiers are assigned under a3Com.products.brouter.nbro -- nbroBp OBJECT IDENTIFIER ::= { nbro 1 } -- nbro w/Basic Prot SW nbroCp OBJECT IDENTIFIER ::= { nbro 2 } -- nbro w/Compl Prot SW nbroXw OBJECT IDENTIFIER ::= { nbro 3 } -- nbro w/Ext WAN SW nbroCx OBJECT IDENTIFIER ::= { nbro 4 } -- nbro w/Conn Svc SW nbro201 OBJECT IDENTIFIER ::= { nbro 5 } -- nbro w/Bndry Rtg. SW nbroAr OBJECT IDENTIFIER ::= { nbro 6 } -- nbro w/AR nbroSn OBJECT IDENTIFIER ::= { nbro 7 } -- nbro w/SNA nbro200 OBJECT IDENTIFIER ::= { nbro 8 } -- nbro w/Bridge Prd. SW nbroFf OBJECT IDENTIFIER ::= { nbro 9 } -- nbro w/Full Feature SW nbroCf OBJECT IDENTIFIER ::= { nbro 10 } -- nbro w/CF nbroBx OBJECT IDENTIFIER ::= { nbro 11 } -- nbro w/BX nbroAppn OBJECT IDENTIFIER ::= { nbro 12 } -- nbro w/Appn SW nbroLm OBJECT IDENTIFIER ::= { nbro 13 } -- nbro w/Lm Sw nbroLt OBJECT IDENTIFIER ::= { nbro 14 } -- nbro w/Lt Sw nbroWm OBJECT IDENTIFIER ::= { nbro 15 } -- nbro w/Wm Sw nbroWt OBJECT IDENTIFIER ::= { nbro 16 } -- nbro w/Wt Sw nbroAe OBJECT IDENTIFIER ::= { nbro 17 } -- nbro w/Ae Sw nbroAp OBJECT IDENTIFIER ::= { nbro 18 } -- nbro w/Ap Sw nbroAn OBJECT IDENTIFIER ::= { nbro 19 } -- nbro w/An Sw nbroLa OBJECT IDENTIFIER ::= { nbro 20 } -- nbro w/La Sw nbroWa OBJECT IDENTIFIER ::= { nbro 21 } -- nbro w/Wa Sw nbro224 OBJECT IDENTIFIER ::= { nbro 22 } -- nbro w/Aa Sw nbroAb OBJECT IDENTIFIER ::= { nbro 23 } -- nbro w/Ab Sw nbro223 OBJECT IDENTIFIER ::= { nbro 24 } -- nbro w/Bf Sw -- -- the following identifier are assigned under a3Com.products.brouter.netbuilderLocal -- netbuilderLocalBp OBJECT IDENTIFIER ::= { netbuilderLocal 1 } -- nb Local w/BP netbuilderLocalCp OBJECT IDENTIFIER ::= { netbuilderLocal 2 } -- nb Local w/CP netbuilderLocalXw OBJECT IDENTIFIER ::= { netbuilderLocal 3 } -- nb Local w/XW netbuilderLocalCx OBJECT IDENTIFIER ::= { netbuilderLocal 4 } -- nb Local w/CX netbuilderLocalBa OBJECT IDENTIFIER ::= { netbuilderLocal 5 } -- nb Local w/BA netbuilderLocalAr OBJECT IDENTIFIER ::= { netbuilderLocal 6 } -- nb Local w/AR netbuilderLocalSn OBJECT IDENTIFIER ::= { netbuilderLocal 7 } -- nb Local w/SN netbuilderLocalRb OBJECT IDENTIFIER ::= { netbuilderLocal 8 } -- nb Local w/RB netbuilderLocalFf OBJECT IDENTIFIER ::= { netbuilderLocal 9 } -- nb Local w/FF netbuilderLocalCf OBJECT IDENTIFIER ::= { netbuilderLocal 10 } -- nb Local w/CF netbuilderLocalBx OBJECT IDENTIFIER ::= { netbuilderLocal 11 } -- nb Local w/BX netbuilderLocalAppn OBJECT IDENTIFIER ::= { netbuilderLocal 12 } -- nb Local w/Appn SW netbuilderLocalLm OBJECT IDENTIFIER ::= { netbuilderLocal 13 } -- nb Local w/Lm netbuilderLocalLt OBJECT IDENTIFIER ::= { netbuilderLocal 14 } -- nb Local w/Lt netbuilderLocalWm OBJECT IDENTIFIER ::= { netbuilderLocal 15 } -- nb Local w/Wm netbuilderLocalWt OBJECT IDENTIFIER ::= { netbuilderLocal 16 } -- nb Local w/Wt netbuilderLocalAe OBJECT IDENTIFIER ::= { netbuilderLocal 17 } -- nb Local w/Ae netbuilderLocalAp OBJECT IDENTIFIER ::= { netbuilderLocal 18 } -- nb Local w/Ap netbuilderLocalAn OBJECT IDENTIFIER ::= { netbuilderLocal 19 } -- nb Local w/An netbuilderLocalLa OBJECT IDENTIFIER ::= { netbuilderLocal 20 } -- nb Local w/La netbuilderLocalWa OBJECT IDENTIFIER ::= { netbuilderLocal 21 } -- nb Local w/Wa netbuilderLocalAa OBJECT IDENTIFIER ::= { netbuilderLocal 22 } -- nb Local w/Aa netbuilderLocalAb OBJECT IDENTIFIER ::= { netbuilderLocal 23 } -- nb Local w/Ab netbuilderLocalBf OBJECT IDENTIFIER ::= { netbuilderLocal 24 } -- nb Local w/Bf -- -- the following identifiers are assigned under a3Com.products.brouter.netbuilderTrLocal -- netbuilderTrLocalBp OBJECT IDENTIFIER ::= { netbuilderTrLocal 1 } -- nbtr Local w/Basic Prot SW netbuilderTrLocalCp OBJECT IDENTIFIER ::= { netbuilderTrLocal 2 } -- nbtr Local w/Compl Prot SW netbuilderTrLocalXw OBJECT IDENTIFIER ::= { netbuilderTrLocal 3 } -- nbtr Local w/XW netbuilderTrLocalCx OBJECT IDENTIFIER ::= { netbuilderTrLocal 4 } -- nbtr Local w/CX netbuilderTrLocalBa OBJECT IDENTIFIER ::= { netbuilderTrLocal 5 } -- nbtr Local w/BA netbuilderTrLocalAr OBJECT IDENTIFIER ::= { netbuilderTrLocal 6 } -- nbtr Local w/Acc Rtr SW netbuilderTrLocalSn OBJECT IDENTIFIER ::= { netbuilderTrLocal 7 } -- nbtr Local w/SNA Acc Rtr SW netbuilderTrLocalRb OBJECT IDENTIFIER ::= { netbuilderTrLocal 8 } -- nbtr Local w/RB netbuilderTrLocalFf OBJECT IDENTIFIER ::= { netbuilderTrLocal 9 } -- nbtr Local w/FF netbuilderTrLocalCf OBJECT IDENTIFIER ::= { netbuilderTrLocal 10 } -- nbtr Local w/CF netbuilderTrLocalBx OBJECT IDENTIFIER ::= { netbuilderTrLocal 11 } -- nbtr Local w/BX SW netbuilderTrLocalAppn OBJECT IDENTIFIER ::= { netbuilderTrLocal 12 } -- nb TrLocal w/Appn SW netbuilderTrLocalLm OBJECT IDENTIFIER ::= { netbuilderTrLocal 13 } -- nbtr Local w/Lm netbuilderTrLocalLt OBJECT IDENTIFIER ::= { netbuilderTrLocal 14 } -- nbtr Local w/Lt netbuilderTrLocalWm OBJECT IDENTIFIER ::= { netbuilderTrLocal 15 } -- nbtr Local w/Wm netbuilderTrLocalWt OBJECT IDENTIFIER ::= { netbuilderTrLocal 16 } -- nbtr Local w/Wt netbuilderTrLocalAe OBJECT IDENTIFIER ::= { netbuilderTrLocal 17 } -- nbtr Local w/Ae netbuilderTrLocalAp OBJECT IDENTIFIER ::= { netbuilderTrLocal 18 } -- nbtr Local w/Ap netbuilderTrLocalAn OBJECT IDENTIFIER ::= { netbuilderTrLocal 19 } -- nbtr Local w/An netbuilderTrLocalLa OBJECT IDENTIFIER ::= { netbuilderTrLocal 20 } -- nbtr Local w/La netbuilderTrLocalWa OBJECT IDENTIFIER ::= { netbuilderTrLocal 21 } -- nbtr Local w/Wa netbuilderTrLocalAa OBJECT IDENTIFIER ::= { netbuilderTrLocal 22 } -- nbtr Local w/Aa netbuilderTrLocalAb OBJECT IDENTIFIER ::= { netbuilderTrLocal 23 } -- nbtr Local w/Ab netbuilderTrLocalBf OBJECT IDENTIFIER ::= { netbuilderTrLocal 24 } -- nbtr Local w/Bf -- -- the following identifiers are assigned under a3Com.products.brouter.netbuilderRC1x2 -- netbuilderRC1x2bp OBJECT IDENTIFIER ::= { netbuilderRC1x2 1 } -- nbRC1x2 w/BP netbuilderRC1x2cp OBJECT IDENTIFIER ::= { netbuilderRC1x2 2 } -- nbRC1x2 w/CP netbuilderRC1x2xw OBJECT IDENTIFIER ::= { netbuilderRC1x2 3 } -- nbRC1x2 w/XW netbuilderRC1x2cx OBJECT IDENTIFIER ::= { netbuilderRC1x2 4 } -- nbRC1x2 w/CX netbuilderRC1x2ba OBJECT IDENTIFIER ::= { netbuilderRC1x2 5 } -- nbRC1x2 w/BA netbuilderRC1x2ar OBJECT IDENTIFIER ::= { netbuilderRC1x2 6 } -- nb RC1x2 w/AR netbuilderRC1x2sn OBJECT IDENTIFIER ::= { netbuilderRC1x2 7 } -- nb RC1x2 w/SN netbuilderRC1x2rb OBJECT IDENTIFIER ::= { netbuilderRC1x2 8 } -- nb RC1x2 w/RB netbuilderRC1x2ff OBJECT IDENTIFIER ::= { netbuilderRC1x2 9 } -- nb RC1x2 w/FF netbuilderRC1x2cf OBJECT IDENTIFIER ::= { netbuilderRC1x2 10 } -- nb RC1x2 w/CF netbuilderRC1x2bx OBJECT IDENTIFIER ::= { netbuilderRC1x2 11 } -- nb RC1x2 w/BX netbuilderRC1x2appn OBJECT IDENTIFIER ::= { netbuilderRC1x2 12 } -- RC1x2 w/Appn netbuilderRC1x2lm OBJECT IDENTIFIER ::= { netbuilderRC1x2 13 } -- RC1x2 w/Lm netbuilderRC1x2lt OBJECT IDENTIFIER ::= { netbuilderRC1x2 14 } -- RC1x2 w/Lt Sw netbuilderRC1x2wm OBJECT IDENTIFIER ::= { netbuilderRC1x2 15 } -- RC1x2 w/Wm Sw netbuilderRC1x2wt OBJECT IDENTIFIER ::= { netbuilderRC1x2 16 } -- RC1x2 w/Wt Sw netbuilderRC1x2ae OBJECT IDENTIFIER ::= { netbuilderRC1x2 17 } -- RC1x2 w/Ae Sw netbuilderRC1x2ap OBJECT IDENTIFIER ::= { netbuilderRC1x2 18 } -- RC1x2 w/Ap Sw netbuilderRC1x2an OBJECT IDENTIFIER ::= { netbuilderRC1x2 19 } -- RC1x2 w/An Sw netbuilderRC1x2la OBJECT IDENTIFIER ::= { netbuilderRC1x2 20 } -- RC1x2 w/La Sw netbuilderRC1x2wa OBJECT IDENTIFIER ::= { netbuilderRC1x2 21 } -- RC1x2 w/Wa Sw netbuilderRC1x2aa OBJECT IDENTIFIER ::= { netbuilderRC1x2 22 } -- RC1x2 w/Aa Sw netbuilderRC1x2ab OBJECT IDENTIFIER ::= { netbuilderRC1x2 23 } -- RC1x2 w/Ab Sw netbuilderRC1x2bf OBJECT IDENTIFIER ::= { netbuilderRC1x2 24 } -- RC1x2 w/Bf Sw -- -- the following identifiers are assigned under a3Com.products.brouter.netbuilderTrRC1x2 -- netbuilderTrRC1x2bp OBJECT IDENTIFIER ::= { netbuilderTrRC1x2 1 } netbuilderTrRC1x2cp OBJECT IDENTIFIER ::= { netbuilderTrRC1x2 2 } netbuilderTrRC1x2xw OBJECT IDENTIFIER ::= { netbuilderTrRC1x2 3 } netbuilderTrRC1x2cx OBJECT IDENTIFIER ::= { netbuilderTrRC1x2 4 } netbuilderTrRC1x2ba OBJECT IDENTIFIER ::= { netbuilderTrRC1x2 5 } netbuilderTrRC1x2ar OBJECT IDENTIFIER ::= { netbuilderTrRC1x2 6 } netbuilderTrRC1x2sn OBJECT IDENTIFIER ::= { netbuilderTrRC1x2 7 } netbuilderTrRC1x2rb OBJECT IDENTIFIER ::= { netbuilderTrRC1x2 8 } netbuilderTrRC1x2ff OBJECT IDENTIFIER ::= { netbuilderTrRC1x2 9 } netbuilderTrRC1x2cf OBJECT IDENTIFIER ::= { netbuilderTrRC1x2 10 } netbuilderTrRC1x2bx OBJECT IDENTIFIER ::= { netbuilderTrRC1x2 11 } netbuilderTrRC1x2appn OBJECT IDENTIFIER ::= { netbuilderTrRC1x2 12 } netbuilderTrRC1x2lm OBJECT IDENTIFIER ::= { netbuilderTrRC1x2 13 } netbuilderTrRC1x2lt OBJECT IDENTIFIER ::= { netbuilderTrRC1x2 14 } netbuilderTrRC1x2wm OBJECT IDENTIFIER ::= { netbuilderTrRC1x2 15 } netbuilderTrRC1x2wt OBJECT IDENTIFIER ::= { netbuilderTrRC1x2 16 } netbuilderTrRC1x2ae OBJECT IDENTIFIER ::= { netbuilderTrRC1x2 17 } netbuilderTrRC1x2ap OBJECT IDENTIFIER ::= { netbuilderTrRC1x2 18 } netbuilderTrRC1x2an OBJECT IDENTIFIER ::= { netbuilderTrRC1x2 19 } netbuilderTrRC1x2la OBJECT IDENTIFIER ::= { netbuilderTrRC1x2 20 } netbuilderTrRC1x2wa OBJECT IDENTIFIER ::= { netbuilderTrRC1x2 21 } netbuilderTrRC1x2aa OBJECT IDENTIFIER ::= { netbuilderTrRC1x2 22 } netbuilderTrRC1x2ab OBJECT IDENTIFIER ::= { netbuilderTrRC1x2 23 } netbuilderTrRC1x2bf OBJECT IDENTIFIER ::= { netbuilderTrRC1x2 24 } -- -- the following identifiers are assigned under a3Com.products.brouter.casper -- (casper aka "nbro Large" ) -- nbrolBp OBJECT IDENTIFIER ::= { casper 1 } -- casper w/Basic Prot SW nbrolCp OBJECT IDENTIFIER ::= { casper 2 } -- casper w/Compl Prot SW nbrolXw OBJECT IDENTIFIER ::= { casper 3 } -- casper w/Ext WAN SW nbrol228 OBJECT IDENTIFIER ::= { casper 4 } -- casper w/Conn Svc SW nbrol201 OBJECT IDENTIFIER ::= { casper 5 } -- casper w/Bndry Rtg. SW nbro222 OBJECT IDENTIFIER ::= { casper 6 } -- casper w/AR SW nbrolSn OBJECT IDENTIFIER ::= { casper 7 } -- casper w/SNA nbrol200 OBJECT IDENTIFIER ::= { casper 8 } -- casper w/RB. SW nbrolFf OBJECT IDENTIFIER ::= { casper 9 } -- casper w/Full Feature SW nbro227 OBJECT IDENTIFIER ::= { casper 10 } -- casper w/CF SW nbro221 OBJECT IDENTIFIER ::= { casper 11 } -- casper w/BX SW nbrolAppn OBJECT IDENTIFIER ::= { casper 12 } -- casper w/Appn SW nbrolLm OBJECT IDENTIFIER ::= { casper 13 } -- casper w/Lm Sw nbrolLt OBJECT IDENTIFIER ::= { casper 14 } -- casper w/Lt Sw nbrolWm OBJECT IDENTIFIER ::= { casper 15 } -- casper w/Wm Sw nbrolWt OBJECT IDENTIFIER ::= { casper 16 } -- casper w/Wt Sw nbrolAe OBJECT IDENTIFIER ::= { casper 17 } -- casper w/Ae Sw nbrolAp OBJECT IDENTIFIER ::= { casper 18 } -- casper w/Ap Sw nbrolAn OBJECT IDENTIFIER ::= { casper 19 } -- casper w/An Sw nbrolLa OBJECT IDENTIFIER ::= { casper 20 } -- casper w/La Sw nbrolWa OBJECT IDENTIFIER ::= { casper 21 } -- casper w/Wa Sw nbrol224 OBJECT IDENTIFIER ::= { casper 22 } -- casper w/Aa Sw nbrolAb OBJECT IDENTIFIER ::= { casper 23 } -- casper w/Ab Sw nbrol223 OBJECT IDENTIFIER ::= { casper 24 } -- casper w/Bf Sw -- -- the following identifiers are assigned under a3Com.products.brouter.spectreHuge -- (spectre Huge aka nbro Huge ) -- nbrohBp OBJECT IDENTIFIER ::= { spectreHuge 1 } -- spectreHuge w/BP SW nbrohCp OBJECT IDENTIFIER ::= { spectreHuge 2 } -- spectreHuge w/CP SW nbrohXw OBJECT IDENTIFIER ::= { spectreHuge 3 } -- spectreHuge w/Ext WAN SW nbro228 OBJECT IDENTIFIER ::= { spectreHuge 4 } -- spectreHuge w/CX SW nbroh201 OBJECT IDENTIFIER ::= { spectreHuge 5 } -- casper w/Bndry Rtg. SW nbroh222 OBJECT IDENTIFIER ::= { spectreHuge 6 } -- spectreHuge w/AR SW nbrohSn OBJECT IDENTIFIER ::= { spectreHuge 7 } -- spectreHuge w/SNA nbroh200 OBJECT IDENTIFIER ::= { spectreHuge 8 } -- spectreHuge w/RB SW nbrohFf OBJECT IDENTIFIER ::= { spectreHuge 9 } -- spectreHuge w/FF SW nbroh227 OBJECT IDENTIFIER ::= { spectreHuge 10 } -- spectreHuge w/CF SW nbroh221 OBJECT IDENTIFIER ::= { spectreHuge 11 } -- spectreHuge w/BX SW nbrohAppn OBJECT IDENTIFIER ::= { spectreHuge 12 } -- spectreHuge w/Appn SW nbrohLm OBJECT IDENTIFIER ::= { spectreHuge 13 } -- spectreHuge w/Lm Sw nbrohLt OBJECT IDENTIFIER ::= { spectreHuge 14 } -- spectreHuge w/Lt Sw nbrohWm OBJECT IDENTIFIER ::= { spectreHuge 15 } -- spectreHuge w/Wm Sw nbrohWt OBJECT IDENTIFIER ::= { spectreHuge 16 } -- spectreHuge w/Wt Sw nbrohAe OBJECT IDENTIFIER ::= { spectreHuge 17 } -- spectreHuge w/Ae Sw nbrohAp OBJECT IDENTIFIER ::= { spectreHuge 18 } -- spectreHuge w/Ap Sw nbrohAn OBJECT IDENTIFIER ::= { spectreHuge 19 } -- spectreHuge w/An Sw nbrohLa OBJECT IDENTIFIER ::= { spectreHuge 20 } -- spectreHuge w/La Sw nbrohWa OBJECT IDENTIFIER ::= { spectreHuge 21 } -- spectreHuge w/Wa Sw nbroh224 OBJECT IDENTIFIER ::= { spectreHuge 22 } -- spectreHuge w/Aa Sw nbrohAb OBJECT IDENTIFIER ::= { spectreHuge 23 } -- spectreHuge w/Ab Sw nbroh223 OBJECT IDENTIFIER ::= { spectreHuge 24 } -- spectreHuge w/Bf Sw -- -- the following identifiers are assigned under a3Com.products.brouter.spectreIsdn -- nbroiBp OBJECT IDENTIFIER ::= { spectreIsdn 1 } -- spectreIsdn w/BP SW nbroiCp OBJECT IDENTIFIER ::= { spectreIsdn 2 } -- spectreIsdn w/CP SW nbroiXw OBJECT IDENTIFIER ::= { spectreIsdn 3 } -- spectreIsdn w/Ext WAN SW nbroiCX OBJECT IDENTIFIER ::= { spectreIsdn 4 } -- spectreIsdn w/CX SW nbroiBA OBJECT IDENTIFIER ::= { spectreIsdn 5 } -- spectreIsdn w/Bndry Rtg. SW nbro422 OBJECT IDENTIFIER ::= { spectreIsdn 6 } -- spectreIsdn w/AR SW nbroiSn OBJECT IDENTIFIER ::= { spectreIsdn 7 } -- spectreIsdn w/SNA nbroi200 OBJECT IDENTIFIER ::= { spectreIsdn 8 } -- spectreIsdn w/RB SW nbroiFf OBJECT IDENTIFIER ::= { spectreIsdn 9 } -- spectreIsdn w/FF SW nbroil427 OBJECT IDENTIFIER ::= { spectreIsdn 10 } -- spectreIsdn w/CF SW nbro421 OBJECT IDENTIFIER ::= { spectreIsdn 11 } -- spectreIsdn w/BX SW nbroiAppn OBJECT IDENTIFIER ::= { spectreIsdn 12 } -- spectreIsdn w/Appn SW nbroiLm OBJECT IDENTIFIER ::= { spectreIsdn 13 } -- spectreIsdn w/Lm Sw nbroiLt OBJECT IDENTIFIER ::= { spectreIsdn 14 } -- spectreIsdn w/Lt Sw nbroiWm OBJECT IDENTIFIER ::= { spectreIsdn 15 } -- spectreIsdn w/Wm Sw nbroiWt OBJECT IDENTIFIER ::= { spectreIsdn 16 } -- spectreIsdn w/Wt Sw nbroiAe OBJECT IDENTIFIER ::= { spectreIsdn 17 } -- spectreIsdn w/Ae Sw nbroiAp OBJECT IDENTIFIER ::= { spectreIsdn 18 } -- spectreIsdn w/Ap Sw nbroiAn OBJECT IDENTIFIER ::= { spectreIsdn 19 } -- spectreIsdn w/An Sw nbroiLa OBJECT IDENTIFIER ::= { spectreIsdn 20 } -- spectreIsdn w/La Sw nbroiWa OBJECT IDENTIFIER ::= { spectreIsdn 21 } -- spectreIsdn w/Wa Sw nbroi424 OBJECT IDENTIFIER ::= { spectreIsdn 22 } -- spectreIsdn w/Aa Sw nbroiAb OBJECT IDENTIFIER ::= { spectreIsdn 23 } -- spectreIsdn w/Ab Sw nbroi423 OBJECT IDENTIFIER ::= { spectreIsdn 24 } -- spectreIsdn w/Bf Sw -- -- the following identifiers are assigned under a3Com.products.brouter.nb2-8-4fddi -- nb2-8-4fddiBp OBJECT IDENTIFIER ::= { nb2-8-4fddi 1 } -- crew 4fddi w/BP nb2-8-4fddiCp OBJECT IDENTIFIER ::= { nb2-8-4fddi 2 } -- crew 4fddi w/CP nb2-8-4fddiXw OBJECT IDENTIFIER ::= { nb2-8-4fddi 3 } -- crew 4fddi w/XW nb2-8-4fddiCx OBJECT IDENTIFIER ::= { nb2-8-4fddi 4 } -- crew 4fddi w/CX nb2-8-4fddiBa OBJECT IDENTIFIER ::= { nb2-8-4fddi 5 } -- crew 4fddi w/BA nb2-8-4fddiAr OBJECT IDENTIFIER ::= { nb2-8-4fddi 6 } -- crew 4fddi w/AR nb2-8-4fddiSn OBJECT IDENTIFIER ::= { nb2-8-4fddi 7 } -- crew 4fddi w/SNA nb2-8-4fddiRb OBJECT IDENTIFIER ::= { nb2-8-4fddi 8 } -- crew 4fddi w/RB nb2-8-4fddiFf OBJECT IDENTIFIER ::= { nb2-8-4fddi 9 } -- crew 4fddi w/FF nb2-8-4fddiCf OBJECT IDENTIFIER ::= { nb2-8-4fddi 10 } -- crew 4fddi w/CF nb2-8-4fddiBx OBJECT IDENTIFIER ::= { nb2-8-4fddi 11 } -- crew 4fddi w/BX nb2-8-4fddiAppn OBJECT IDENTIFIER ::= { nb2-8-4fddi 12 } -- crew 4fddi w/Appn nb2-8-4fddiLm OBJECT IDENTIFIER ::= { nb2-8-4fddi 13 } -- crew 4fddi w/Lm nb2-8-4fddiLt OBJECT IDENTIFIER ::= { nb2-8-4fddi 14 } -- crew 4fddi w/Lt nb2-8-4fddiWm OBJECT IDENTIFIER ::= { nb2-8-4fddi 15 } -- crew 4fddi w/Wm nb2-8-4fddiWt OBJECT IDENTIFIER ::= { nb2-8-4fddi 16 } -- crew 4fddi w/Wt nb2-8-4fddiAe OBJECT IDENTIFIER ::= { nb2-8-4fddi 17 } -- crew 4fddi w/Ae nb2-8-4fddiAp OBJECT IDENTIFIER ::= { nb2-8-4fddi 18 } -- crew 4fddi w/Ap nb2-8-4fddiAn OBJECT IDENTIFIER ::= { nb2-8-4fddi 19 } -- crew 4fddi w/An nb2-8-4fddiLa OBJECT IDENTIFIER ::= { nb2-8-4fddi 20 } -- crew 4fddi w/La nb2-8-4fddiWa OBJECT IDENTIFIER ::= { nb2-8-4fddi 21 } -- crew 4fddi w/Wa nb2-8-4fddiAa OBJECT IDENTIFIER ::= { nb2-8-4fddi 22 } -- crew 4fddi w/Aa nb2-8-4fddiAb OBJECT IDENTIFIER ::= { nb2-8-4fddi 23 } -- crew 4fddi w/Ab nb2-8-4fddiBf OBJECT IDENTIFIER ::= { nb2-8-4fddi 24 } -- crew 4fddi w/Bf -- -- the following identifiers are assigned under a3Com.products.brouter.nb2-8-dualwide -- nb2-8-dualwideBp OBJECT IDENTIFIER ::= { nb2-8-dualwide 1 } -- crew dualwide w/BP nb2-8-dualwideCp OBJECT IDENTIFIER ::= { nb2-8-dualwide 2 } -- crew dualwide w/CP nb2-8-dualwideXw OBJECT IDENTIFIER ::= { nb2-8-dualwide 3 } -- crew dualwide w/XW nb2-8-dualwideCx OBJECT IDENTIFIER ::= { nb2-8-dualwide 4 } -- crew dualwide w/CX nb2-8-dualwideBa OBJECT IDENTIFIER ::= { nb2-8-dualwide 5 } -- crew dualwide w/BA nb2-8-dualwideAr OBJECT IDENTIFIER ::= { nb2-8-dualwide 6 } -- crew dualwide w/AR nb2-8-dualwideSn OBJECT IDENTIFIER ::= { nb2-8-dualwide 7 } -- crew dualwide w/SNA nb2-8-dualwideRb OBJECT IDENTIFIER ::= { nb2-8-dualwide 8 } -- crew dualwide w/RB nb2-8-dualwideFf OBJECT IDENTIFIER ::= { nb2-8-dualwide 9 } -- crew dualwide w/FF nb2-8-dualwideCf OBJECT IDENTIFIER ::= { nb2-8-dualwide 10 } -- crew dualwide w/CF nb2-8-dualwideBx OBJECT IDENTIFIER ::= { nb2-8-dualwide 11 } -- crew dualwide w/BX nb2-8-dualwideAppn OBJECT IDENTIFIER ::= { nb2-8-dualwide 12 } -- crew dualwide w/Appn nb2-8-dualwideLm OBJECT IDENTIFIER ::= { nb2-8-dualwide 13 } -- crew dualwide w/Lm nb2-8-dualwideLt OBJECT IDENTIFIER ::= { nb2-8-dualwide 14 } -- crew dualwide w/Lt nb2-8-dualwideWm OBJECT IDENTIFIER ::= { nb2-8-dualwide 15 } -- crew dualwide w/Wm nb2-8-dualwideWt OBJECT IDENTIFIER ::= { nb2-8-dualwide 16 } -- crew dualwide w/Wt nb2-8-dualwideAe OBJECT IDENTIFIER ::= { nb2-8-dualwide 17 } -- crew dualwide w/Ae nb2-8-dualwideAp OBJECT IDENTIFIER ::= { nb2-8-dualwide 18 } -- crew dualwide w/Ap nb2-8-dualwideAn OBJECT IDENTIFIER ::= { nb2-8-dualwide 19 } -- crew dualwide w/An nb2-8-dualwideLa OBJECT IDENTIFIER ::= { nb2-8-dualwide 20 } -- crew dualwide w/La nb2-8-dualwideWa OBJECT IDENTIFIER ::= { nb2-8-dualwide 21 } -- crew dualwide w/Wa nb2-8-dualwideAa OBJECT IDENTIFIER ::= { nb2-8-dualwide 22 } -- crew dualwide w/Aa nb2-8-dualwideAb OBJECT IDENTIFIER ::= { nb2-8-dualwide 23 } -- crew dualwide w/Ab nb2-8-dualwideBf OBJECT IDENTIFIER ::= { nb2-8-dualwide 24 } -- crew dualwide w/Bf -- -- the following identifiers are assigned under a3Com.products.brouter.spectreIs dnHuge -- nbroihBp OBJECT IDENTIFIER ::= { spectreIsdnHuge 1 } --spectreIsdn w/BP SW nbroihCp OBJECT IDENTIFIER ::= { spectreIsdnHuge 2 } --spectreIsdn w/CP SW nbroihXw OBJECT IDENTIFIER ::= { spectreIsdnHuge 3 } -- spectreIsdn w/Ext WAN SW nbroihCx OBJECT IDENTIFIER ::= { spectreIsdnHuge 4 } -- spectreIsdn w/CX SW nbroihBa OBJECT IDENTIFIER ::= { spectreIsdnHuge 5 } --spectreIsdn w/Bndry Rtg . SW nbroih422 OBJECT IDENTIFIER ::= { spectreIsdnHuge 6 } --spectreIsdn w/AR SW nbroihSn OBJECT IDENTIFIER ::= { spectreIsdnHuge 7 } --spectreIsdn w/SNA nbroihRb OBJECT IDENTIFIER ::= { spectreIsdnHuge 8 } --spectreIsdn w/RB SW nbroihFf OBJECT IDENTIFIER ::= { spectreIsdnHuge 9 } -- spectreIsdn w/FF SW nbroih427 OBJECT IDENTIFIER ::= { spectreIsdnHuge 10 }--spectreIsdn w/CF SW nbroih421 OBJECT IDENTIFIER ::= { spectreIsdnHuge 11 }--spectreIsdn w/BX SW nbroihAppn OBJECT IDENTIFIER ::= { spectreIsdnHuge 12 } -- spectreIsdn w/Appn nbroihLm OBJECT IDENTIFIER ::= { spectreIsdnHuge 13 } -- spectreIsdn w/Lm Sw nbroihLt OBJECT IDENTIFIER ::= { spectreIsdnHuge 14 } -- spectreIsdn w/Lt Sw nbroihWm OBJECT IDENTIFIER ::= { spectreIsdnHuge 15 } -- spectreIsdn w/Wm Sw nbroihWt OBJECT IDENTIFIER ::= { spectreIsdnHuge 16 } -- spectreIsdn w/Wt Sw nbroihAe OBJECT IDENTIFIER ::= { spectreIsdnHuge 17 } -- spectreIsdn w/Ae Sw nbroihAp OBJECT IDENTIFIER ::= { spectreIsdnHuge 18 } -- spectreIsdn w/Ap Sw nbroihAn OBJECT IDENTIFIER ::= { spectreIsdnHuge 19 } -- spectreIsdn w/An Sw nbroihLa OBJECT IDENTIFIER ::= { spectreIsdnHuge 20 } -- spectreIsdn w/La Sw nbroihWa OBJECT IDENTIFIER ::= { spectreIsdnHuge 21 } -- spectreIsdn w/Wa Sw nbroih424 OBJECT IDENTIFIER ::= { spectreIsdnHuge 22 } -- spectreIsdn w/Aa Sw nbroihAb OBJECT IDENTIFIER ::= { spectreIsdnHuge 23 } -- spectreIsdn w/Ab Sw nbroih423 OBJECT IDENTIFIER ::= { spectreIsdnHuge 24 } -- spectreIsdn w/Bf Sw -- -- the following identifiers are assigned under a3Com.products.brouter.nbroTrLarge -- nbroTrlBp OBJECT IDENTIFIER ::= { nbroTrHuge 1 } --nbroTrHuge w/BP SW nbroTrlCp OBJECT IDENTIFIER ::= { nbroTrHuge 2 } --nbroTrHuge w/CP SW nbroTrlXw OBJECT IDENTIFIER ::= { nbroTrHuge 3 } -- nbroTrHuge w/Ext WAN SW nbroTrlCx OBJECT IDENTIFIER ::= { nbroTrHuge 4 } -- nbroTrHuge w/CX SW nbroTrlBa OBJECT IDENTIFIER ::= { nbroTrHuge 5 } --nbroTrHuge w/Bndry Rtg. SW nbro322 OBJECT IDENTIFIER ::= { nbroTrHuge 6 } --nbroTrHuge w/AR SW nbroTrlSn OBJECT IDENTIFIER ::= { nbroTrHuge 7 } --nbroTrHuge w/SNA nbroTrlRb OBJECT IDENTIFIER ::= { nbroTrHuge 8 } --nbroTrHuge w/RB SW nbroTrlFf OBJECT IDENTIFIER ::= { nbroTrHuge 9 } -- nbroTrHuge w/FF SW nbroTrl327 OBJECT IDENTIFIER ::= { nbroTrHuge 10 }--nbroTrHuge w/CF SW nbro321 OBJECT IDENTIFIER ::= { nbroTrHuge 11 }--nbroTrHuge w/BX SW nbroTrlAppn OBJECT IDENTIFIER ::= { nbroTrHuge 12 } -- nbroTrHuge w/Appn SW nbroTrlLm OBJECT IDENTIFIER ::= { nbroTrHuge 13 } -- nbroTrHuge w/Lm Sw nbroTrlLt OBJECT IDENTIFIER ::= { nbroTrHuge 14 } -- nbroTrHuge w/Lt Sw nbroTrlWm OBJECT IDENTIFIER ::= { nbroTrHuge 15 } -- nbroTrHuge w/Wm Sw nbroTrlWt OBJECT IDENTIFIER ::= { nbroTrHuge 16 } -- nbroTrHuge w/Wt Sw nbroTrlAe OBJECT IDENTIFIER ::= { nbroTrHuge 17 } -- nbroTrHuge w/Ae Sw nbroTrlAp OBJECT IDENTIFIER ::= { nbroTrHuge 18 } -- nbroTrHuge w/Ap Sw nbroTrlAn OBJECT IDENTIFIER ::= { nbroTrHuge 19 } -- nbroTrHuge w/An Sw nbroTrlLa OBJECT IDENTIFIER ::= { nbroTrHuge 20 } -- nbroTrHuge w/La Sw nbroTrlWa OBJECT IDENTIFIER ::= { nbroTrHuge 21 } -- nbroTrHuge w/Wa Sw nbroTrlAa OBJECT IDENTIFIER ::= { nbroTrHuge 22 } -- nbroTrHuge w/Aa Sw nbroTrlAb OBJECT IDENTIFIER ::= { nbroTrHuge 23 } -- nbroTrHuge w/Ab Sw nbroTrl323 OBJECT IDENTIFIER ::= { nbroTrHuge 24 } -- nbroTrHuge w/Bf Sw -- -- the following identifiers are assigned under a3Com.products.brouter.nbroTrIsdn -- nbroTrIsdnBp OBJECT IDENTIFIER ::= { nbroTrIsdn 1 } --nbroTrIsdn w/BP SW nbroTrIsdnCp OBJECT IDENTIFIER ::= { nbroTrIsdn 2 } --nbroTrIsdn w/CP SW nbroTrIsdnXw OBJECT IDENTIFIER ::= { nbroTrIsdn 3 } -- nbroTrIsdn w/Ext WAN SW nbroTrIsdnCx OBJECT IDENTIFIER ::= { nbroTrIsdn 4 } -- nbroTrIsdn w/CX SW nbroTrIsdnBa OBJECT IDENTIFIER ::= { nbroTrIsdn 5 } --nbroTrIsdn w/Bndry Rtg. SW nbroTrIsdnAr OBJECT IDENTIFIER ::= { nbroTrIsdn 6 } --nbroTrIsdn w/AR SW nbroTrIsdnSn OBJECT IDENTIFIER ::= { nbroTrIsdn 7 } --nbroTrIsdn w/SNA nbroTrIsdnRb OBJECT IDENTIFIER ::= { nbroTrIsdn 8 } --nbroTrIsdn w/RB SW nbroTrIsdnFf OBJECT IDENTIFIER ::= { nbroTrIsdn 9 } -- nbroTrIsdn w/FF SW nbro527 OBJECT IDENTIFIER ::= { nbroTrIsdn 10 }--nbroTrIsdn w/CF SW nbroTrIsdnBx OBJECT IDENTIFIER ::= { nbroTrIsdn 11 }--nbroTrIsdn w/BX SW nbroTrIsdnAppn OBJECT IDENTIFIER ::= { nbroTrIsdn 12 } -- nbroTrIsdn w/Appn SW nbroTrIsdnLm OBJECT IDENTIFIER ::= { nbroTrIsdn 13 } -- nbroTrIsdn w/Lm Sw nbroTrIsdnLt OBJECT IDENTIFIER ::= { nbroTrIsdn 14 } -- nbroTrIsdn w/Lt Sw nbroTrIsdnWm OBJECT IDENTIFIER ::= { nbroTrIsdn 15 } -- nbroTrIsdn w/Wm Sw nbroTrIsdnWt OBJECT IDENTIFIER ::= { nbroTrIsdn 16 } -- nbroTrIsdn w/Wt Sw nbroTrIsdnAe OBJECT IDENTIFIER ::= { nbroTrIsdn 17 } -- nbroTrIsdn w/Ae Sw nbroTrIsdnAp OBJECT IDENTIFIER ::= { nbroTrIsdn 18 } -- nbroTrIsdn w/Ap Sw nbroTrIsdnAn OBJECT IDENTIFIER ::= { nbroTrIsdn 19 } -- nbroTrIsdn w/An Sw nbroTrIsdnLa OBJECT IDENTIFIER ::= { nbroTrIsdn 20 } -- nbroTrIsdn w/La Sw nbroTrIsdnWa OBJECT IDENTIFIER ::= { nbroTrIsdn 21 } -- nbroTrIsdn w/Wa Sw nbroTrIsdnAa OBJECT IDENTIFIER ::= { nbroTrIsdn 22 } -- nbroTrIsdn w/Aa Sw nbroTrIsdnAb OBJECT IDENTIFIER ::= { nbroTrIsdn 23 } -- nbroTrIsdn w/Ab Sw nbro523 OBJECT IDENTIFIER ::= { nbroTrIsdn 24 } -- nbroTrIsdn w/Bf Sw -- -- the following identifiers are assigned under a3Com.products.brouter.nbroTrNext -- nbroTrhBp OBJECT IDENTIFIER ::= { nbroTrNext 1 } --nbroTrNext w/BP SW nbroTrhCp OBJECT IDENTIFIER ::= { nbroTrNext 2 } --nbroTrNext w/CP SW nbroTrhXw OBJECT IDENTIFIER ::= { nbroTrNext 3 } -- nbroTrNext w/Ext WAN SW nbroTrhCx OBJECT IDENTIFIER ::= { nbroTrNext 4 } -- nbroTrNext w/CX SW nbroTrhBa OBJECT IDENTIFIER ::= { nbroTrNext 5 } --nbroTrNext w/Bndry Rtg. SW nbroTrh322 OBJECT IDENTIFIER ::= { nbroTrNext 6 } --nbroTrNext w/AR SW nbroTrhSn OBJECT IDENTIFIER ::= { nbroTrNext 7 } --nbroTrNext w/SNA nbroTrhRb OBJECT IDENTIFIER ::= { nbroTrNext 8 } --nbroTrNext w/RB SW nbroTrhFf OBJECT IDENTIFIER ::= { nbroTrNext 9 } -- nbroTrNext w/FF SW nbroTrh327 OBJECT IDENTIFIER ::= { nbroTrNext 10 }--nbroTrNext w/CF SW nbroTrh321 OBJECT IDENTIFIER ::= { nbroTrNext 11 }--nbroTrNext w/BX SW nbroTrhAppn OBJECT IDENTIFIER ::= { nbroTrNext 12 } -- nbroTrNext w/Appn SW nbroTrhLm OBJECT IDENTIFIER ::= { nbroTrNext 13 } -- nbroTrNext w/Lm Sw nbroTrhLt OBJECT IDENTIFIER ::= { nbroTrNext 14 } -- nbroTrNext w/Lt Sw nbroTrhWm OBJECT IDENTIFIER ::= { nbroTrNext 15 } -- nbroTrNext w/Wm Sw nbroTrhWt OBJECT IDENTIFIER ::= { nbroTrNext 16 } -- nbroTrNext w/Wt Sw nbroTrhAe OBJECT IDENTIFIER ::= { nbroTrNext 17 } -- nbroTrNext w/Ae Sw nbroTrhAp OBJECT IDENTIFIER ::= { nbroTrNext 18 } -- nbroTrNext w/Ap Sw nbroTrhAn OBJECT IDENTIFIER ::= { nbroTrNext 19 } -- nbroTrNext w/An Sw nbroTrhLa OBJECT IDENTIFIER ::= { nbroTrNext 20 } -- nbroTrNext w/La Sw nbroTrhWa OBJECT IDENTIFIER ::= { nbroTrNext 21 } -- nbroTrNext w/Wa Sw nbroTrhAa OBJECT IDENTIFIER ::= { nbroTrNext 22 } -- nbroTrNext w/Aa Sw nbroTrhAb OBJECT IDENTIFIER ::= { nbroTrNext 23 } -- nbroTrNext w/Ab Sw nbroTrh323 OBJECT IDENTIFIER ::= { nbroTrNext 24 } -- nbroTrNext w/Bf Sw -- -- the following identifiers are assigned under a3Com.products.brouter.officeConnRtr -- ocRtrBp OBJECT IDENTIFIER ::= { officeConnRtr 1 } -- officeConnRtr w/BP SW ocRtrCp OBJECT IDENTIFIER ::= { officeConnRtr 2 } -- officeConnRtr w/CP SW ocRtrXw OBJECT IDENTIFIER ::= { officeConnRtr 3 } -- officeConnRtr w/Ext WAN SW ocRtrCx OBJECT IDENTIFIER ::= { officeConnRtr 4 } -- officeConnRtr w/CX SW ocRtrBa OBJECT IDENTIFIER ::= { officeConnRtr 5 } -- officeConnRtr w/Bndry Rtg. SW ocRtrAr OBJECT IDENTIFIER ::= { officeConnRtr 6 } -- officeConnRtr w/AR SW ocRtrSn OBJECT IDENTIFIER ::= { officeConnRtr 7 } -- officeConnRtr w/SNA ocRtrRb OBJECT IDENTIFIER ::= { officeConnRtr 8 } -- officeConnRtr w/RB SW ocRtrFf OBJECT IDENTIFIER ::= { officeConnRtr 9 } -- officeConnRtr w/FF SW ocRtrCf OBJECT IDENTIFIER ::= { officeConnRtr 10 } -- officeConnRtr w/CF SW ocRtrBx OBJECT IDENTIFIER ::= { officeConnRtr 11 } -- officeConnRtr w/BX SW ocRtrAppn OBJECT IDENTIFIER ::= { officeConnRtr 12 } -- officeConnRtr w/Appn SW ocRtrLm OBJECT IDENTIFIER ::= { officeConnRtr 13 } -- officeConnRtr w/Lm Sw ocRtrLt OBJECT IDENTIFIER ::= { officeConnRtr 14 } -- officeConnRtr w/Lt Sw ocRtrWm OBJECT IDENTIFIER ::= { officeConnRtr 15 } -- officeConnRtr w/Wm Sw ocRtrWt OBJECT IDENTIFIER ::= { officeConnRtr 16 } -- officeConnRtr w/Wt Sw ocRtrAe OBJECT IDENTIFIER ::= { officeConnRtr 17 } -- officeConnRtr w/Ae Sw ocRtrAp OBJECT IDENTIFIER ::= { officeConnRtr 18 } -- officeConnRtr w/Ap Sw ocRtrAn OBJECT IDENTIFIER ::= { officeConnRtr 19 } -- officeConnRtr w/An Sw ocRtrLa OBJECT IDENTIFIER ::= { officeConnRtr 20 } -- officeConnRtr w/La Sw ocRtrWa OBJECT IDENTIFIER ::= { officeConnRtr 21 } -- officeConnRtr w/Wa Sw ocRtrAa OBJECT IDENTIFIER ::= { officeConnRtr 22 } -- officeConnRtr w/Aa Sw ocRtrAb OBJECT IDENTIFIER ::= { officeConnRtr 23 } -- officeConnRtr w/Ab Sw ocRtrBf OBJECT IDENTIFIER ::= { officeConnRtr 24 } -- officeConnRtr w/Bf Sw -- -- the following identifiers are assigned to brouterBoards -- ethernet OBJECT IDENTIFIER ::= { brouterBoards 1 } fddiPhy OBJECT IDENTIFIER ::= { brouterBoards 2 } fddiMac OBJECT IDENTIFIER ::= { brouterBoards 3 } hss OBJECT IDENTIFIER ::= { brouterBoards 4 } tokenRingBrd OBJECT IDENTIFIER ::= { brouterBoards 5 } hssG703 OBJECT IDENTIFIER ::= { brouterBoards 6 } hssRS449 OBJECT IDENTIFIER ::= { brouterBoards 7 } t3HSSI OBJECT IDENTIFIER ::= { brouterBoards 8 } dualEth OBJECT IDENTIFIER ::= { brouterBoards 9 } cec OBJECT IDENTIFIER ::= { brouterBoards 10 } fddiPhySm OBJECT IDENTIFIER ::= { brouterBoards 11 } fddiPhyMmSm OBJECT IDENTIFIER ::= { brouterBoards 12 } fddiPhySmMm OBJECT IDENTIFIER ::= { brouterBoards 13 } hdwan OBJECT IDENTIFIER ::= { brouterBoards 14 } hdwan449 OBJECT IDENTIFIER ::= { brouterBoards 15 } hdwan232 OBJECT IDENTIFIER ::= { brouterBoards 16 } mp6Eth OBJECT IDENTIFIER ::= { brouterBoards 17 } trPlus OBJECT IDENTIFIER ::= { brouterBoards 18 } macPlus OBJECT IDENTIFIER ::= { brouterBoards 19 } cecStar OBJECT IDENTIFIER ::= { brouterBoards 20 } isdnBri OBJECT IDENTIFIER ::= { brouterBoards 21 } isdnPri OBJECT IDENTIFIER ::= { brouterBoards 22 } mpAtm OBJECT IDENTIFIER ::= { brouterBoards 23 } hssI431 OBJECT IDENTIFIER ::= { brouterBoards 24 } mpFddi OBJECT IDENTIFIER ::= { brouterBoards 25 } mp6EthFl OBJECT IDENTIFIER ::= { brouterBoards 26 } ethV3 OBJECT IDENTIFIER ::= { brouterBoards 27 } ethV3Fl OBJECT IDENTIFIER ::= { brouterBoards 28 } nbroBrd OBJECT IDENTIFIER ::= { brouterBoards 29 } mpAtmFiber OBJECT IDENTIFIER ::= { brouterBoards 30 } dpe OBJECT IDENTIFIER ::= { brouterBoards 31 } flatFddiMm OBJECT IDENTIFIER ::= { brouterBoards 32 } flatFddiSs OBJECT IDENTIFIER ::= { brouterBoards 33 } flatFddiSm OBJECT IDENTIFIER ::= { brouterBoards 34 } flatFddiMs OBJECT IDENTIFIER ::= { brouterBoards 35 } mpAtmFiberMm OBJECT IDENTIFIER ::= { brouterBoards 36 } nbocBrd OBJECT IDENTIFIER ::= { brouterBoards 37 } nbocST OBJECT IDENTIFIER ::= { brouterBoards 38 } nbocU OBJECT IDENTIFIER ::= { brouterBoards 39 } nboc56kCSU OBJECT IDENTIFIER ::= { brouterBoards 40 } nbocT1CSU OBJECT IDENTIFIER ::= { brouterBoards 41 } nboc1x1 OBJECT IDENTIFIER ::= { brouterBoards 42 } nboc2FlexWAN OBJECT IDENTIFIER ::= { brouterBoards 43 } -- -- the following identifiers are assigned to brouterBrdFwVers -- noFw OBJECT IDENTIFIER ::= { brouterBrdFwVers 1 } cecFw OBJECT IDENTIFIER ::= { brouterBrdFwVers 2 } hdwanFw OBJECT IDENTIFIER ::= { brouterBrdFwVers 3 } hdwan232Fw OBJECT IDENTIFIER ::= { brouterBrdFwVers 4 } hdwan449Fw OBJECT IDENTIFIER ::= { brouterBrdFwVers 5 } mp6ethFw OBJECT IDENTIFIER ::= { brouterBrdFwVers 6 } cecStarFw OBJECT IDENTIFIER ::= { brouterBrdFwVers 7 } mpAtmFw OBJECT IDENTIFIER ::= { brouterBrdFwVers 8 } mpFddiFw OBJECT IDENTIFIER ::= { brouterBrdFwVers 9 } mp6EthFlFw OBJECT IDENTIFIER ::= { brouterBrdFwVers 10 } nbroFw OBJECT IDENTIFIER ::= { brouterBrdFwVers 11 } nbocFw OBJECT IDENTIFIER ::= { brouterBrdFwVers 12 } dpeFw OBJECT IDENTIFIER ::= { brouterBrdFwVers 13 } -- -- the following identifiers are assigned to brouterBrdSwVers -- noSw OBJECT IDENTIFIER ::= { brouterBrdSwVers 1 } mp6eth OBJECT IDENTIFIER ::= { brouterBrdSwVers 2 } -- -- the following identifiers are assigned under a3Com.products.genericMSWorkstation -- deskManProduct OBJECT IDENTIFIER ::= { genericMSWorkstation 1 } -- -- the following identifiers are assigned under a3Com.products.genericMSWorkstation.deskManProduct -- ethernetSoftHub OBJECT IDENTIFIER ::= { deskManProduct 1 } ethernetDTAnode OBJECT IDENTIFIER ::= { deskManProduct 2 } tokenRingSoftHub OBJECT IDENTIFIER ::= { deskManProduct 3 } tokenRingDTAnode OBJECT IDENTIFIER ::= { deskManProduct 4 } -- -- the following identifiers are assigned to 3com hubs -- linkBuilder3GH OBJECT IDENTIFIER ::= { hub 1 } linkBuilder10BTi OBJECT IDENTIFIER ::= { hub 2 } linkBuilderECS OBJECT IDENTIFIER ::= { hub 3 } linkBuilderMSH OBJECT IDENTIFIER ::= { hub 4 } linkBuilderFMS OBJECT IDENTIFIER ::= { hub 5 } linkBuilderFddiWorkGroupHub OBJECT IDENTIFIER ::= { hub 6 } linkBuilderFMSII OBJECT IDENTIFIER ::= { hub 7 } linkSwitchFMS OBJECT IDENTIFIER ::= { hub 8 } linkSwitchMSH OBJECT IDENTIFIER ::= { hub 9 } linkBuilderFMSLBridge OBJECT IDENTIFIER ::= { hub 10 } linkBuilderTP8i OBJECT IDENTIFIER ::= { hub 11 } linkBuilderMSHFddi OBJECT IDENTIFIER ::= { hub 12 } linkSwitch1000 OBJECT IDENTIFIER ::= { hub 13 } linkSwitch500 OBJECT IDENTIFIER ::= { hub 14 } linkSwitch2700AU OBJECT IDENTIFIER ::= { hub 15 } linkSwitch2700Bridge OBJECT IDENTIFIER ::= { hub 16 } linkBuilderFMS100LBridge OBJECT IDENTIFIER ::= { hub 17 } linkSwitch2700TliAU OBJECT IDENTIFIER ::= { hub 18 } linkSwitch2700TliBridge OBJECT IDENTIFIER ::= { hub 19 } linkBuilderFMS100 OBJECT IDENTIFIER ::= { hub 20 } officeConnect-Hub8M OBJECT IDENTIFIER ::= { hub 21 } linkSwitch3000 OBJECT IDENTIFIER ::= { hub 22 } mshSwitch OBJECT IDENTIFIER ::= { hub 23 } linkSwitch2000TR OBJECT IDENTIFIER ::= { hub 24 } oncoreFastModuleFPA100 OBJECT IDENTIFIER ::= { hub 25} oncoreFastModuleFPA10 OBJECT IDENTIFIER ::= { hub 26} oncoreFastModuleFPA10FX OBJECT IDENTIFIER ::= { hub 27} oncoreFastModuleBPA OBJECT IDENTIFIER ::= { hub 28} superStackDesktopSwitch OBJECT IDENTIFIER ::= { hub 29 } oncoreFastModuleFPA100TX OBJECT IDENTIFIER ::= { hub 30} officeConnect-Switch140M OBJECT IDENTIFIER ::= { hub 31 } -- -- the following identifiers are assigned to 3com atm switching/access products -- cELLplex7000 OBJECT IDENTIFIER ::= { atm 1 } cELLplex7000-cards OBJECT IDENTIFIER ::= { atm 2 } atmAccess OBJECT IDENTIFIER ::= { atm 3 } -- -- the following identifiers are assigned to 3com cELLplex7000 interface cards -- cELLplex-7x00cardBridge OBJECT IDENTIFIER ::= { cELLplex7000-cards 1 } cELLplex-7200card OBJECT IDENTIFIER ::= { cELLplex7000-cards 2 } cELLplex-7200Fcard OBJECT IDENTIFIER ::= { cELLplex7000-cards 3 } cELLplex-7400card OBJECT IDENTIFIER ::= { cELLplex7000-cards 4 } cELLplex-7600card OBJECT IDENTIFIER ::= { cELLplex7000-cards 5 } -- -- the following identifiers are assinged to 3com Broadband Access products -- broadbandAccess OBJECT IDENTIFIER ::= { tdm 1 } -- -- the following identifiers are assigned to 3com modules and cards -- linkBuilder3GH-cards OBJECT IDENTIFIER ::= { cards 1 } linkBuilder10BTi-cards OBJECT IDENTIFIER ::= { cards 2 } linkBuilderECS-cards OBJECT IDENTIFIER ::= { cards 3 } linkBuilderMSH-cards OBJECT IDENTIFIER ::= { cards 4 } linkBuilderFMS-cards OBJECT IDENTIFIER ::= { cards 5 } linkBuilderFMSII-cards OBJECT IDENTIFIER ::= { cards 6 } a3C512 OBJECT IDENTIFIER ::= { cards 7 } linkBuilderTP8i-cards OBJECT IDENTIFIER ::= { cards 8 } linkSwitch1000-cards OBJECT IDENTIFIER ::= { cards 9 } linkBuilderFMS100-cards OBJECT IDENTIFIER ::= { cards 10 } officeConnect-Hub8M-cards OBJECT IDENTIFIER ::= { cards 11 } linkSwitch2000TR-cards OBJECT IDENTIFIER ::= { cards 12 } linkBuilder10BTi-cards-utp OBJECT IDENTIFIER ::= { linkBuilder10BTi-cards 1 } linkBuilder10BT-cards-utp OBJECT IDENTIFIER ::= { linkBuilder10BTi-cards 2 } linkBuilderFMS-cards-utp OBJECT IDENTIFIER ::= { linkBuilderFMS-cards 1 } linkBuilderFMS-cards-coax OBJECT IDENTIFIER ::= { linkBuilderFMS-cards 2 } linkBuilderFMS-cards-fiber OBJECT IDENTIFIER ::= { linkBuilderFMS-cards 3 } linkBuilderFMS-cards-12fiber OBJECT IDENTIFIER ::= { linkBuilderFMS-cards 4 } linkBuilderFMS-cards-24utp OBJECT IDENTIFIER ::= { linkBuilderFMS-cards 5 } linkBuilderFMSII-cards-12tp-rj45 OBJECT IDENTIFIER ::= { linkBuilderFMSII-cards 1 } linkBuilderFMSII-cards-10coax-bnc OBJECT IDENTIFIER ::= { linkBuilderFMSII-cards 2 } linkBuilderFMSII-cards-6fiber-st OBJECT IDENTIFIER ::= { linkBuilderFMSII-cards 3 } linkBuilderFMSII-cards-12fiber-st OBJECT IDENTIFIER ::= { linkBuilderFMSII-cards 4 } linkBuilderFMSII-cards-24tp-rj45 OBJECT IDENTIFIER ::= { linkBuilderFMSII-cards 5 } linkBuilderFMSII-cards-24tp-telco OBJECT IDENTIFIER ::= { linkBuilderFMSII-cards 6 } superStackHub10-cards-12tp-rj45 OBJECT IDENTIFIER ::= { linkBuilderFMSII-cards 7 } superStackHub10-cards-24tp-rj45 OBJECT IDENTIFIER ::= { linkBuilderFMSII-cards 8 } superStackHub10-cards-6fiber-st OBJECT IDENTIFIER ::= { linkBuilderFMSII-cards 9 } superStackHub10-cards-24tp-telco OBJECT IDENTIFIER ::= { linkBuilderFMSII-cards 10 } a3C512-withBNC-expn-card OBJECT IDENTIFIER ::= { a3C512 1 } a3C512-withAUI-expn-card OBJECT IDENTIFIER ::= { a3C512 2 } a3C512-withFOIRL-expn-card OBJECT IDENTIFIER ::= { a3C512 3 } linkBuilderTP8i-cards-8tp-rj45 OBJECT IDENTIFIER ::= { linkBuilderTP8i-cards 1 } linkSwitch1000-cards-24tp-rj45 OBJECT IDENTIFIER ::= { linkSwitch1000-cards 1 } linkSwitch1000-cards-12tp-rj45 OBJECT IDENTIFIER ::= { linkSwitch1000-cards 2 } linkSwitch3000-cards-5fiber-sc OBJECT IDENTIFIER ::= { linkSwitch1000-cards 3 } linkSwitch3000-cards-8tp-rj45 OBJECT IDENTIFIER ::= { linkSwitch1000-cards 4 } superStackSwitch1000-cards-24tp-rj45 OBJECT IDENTIFIER ::= { linkSwitch1000-cards 5 } superStackSwitch1000-cards-12tp-rj45 OBJECT IDENTIFIER ::= { linkSwitch1000-cards 6 } superStackSwitch3000-cards-5fiber-sc OBJECT IDENTIFIER ::= { linkSwitch1000-cards 7 } superStackSwitch3000-cards-8tp-rj45 OBJECT IDENTIFIER ::= { linkSwitch1000-cards 8 } oncore-cards-5fiber-sc-2tp-rj45-blk OBJECT IDENTIFIER ::= { linkSwitch1000-cards 9} oncore-cards-24tp-telco-blk OBJECT IDENTIFIER ::= { linkSwitch1000-cards 10} oncore-cards-24tp-telco-1fiber-sc-blk OBJECT IDENTIFIER ::= { linkSwitch1000-cards 11} oncore-cards-1fiber-sc-7blk OBJECT IDENTIFIER ::= { linkSwitch1000-cards 12} superStackSwitch1000-3000-cards-atm OBJECT IDENTIFIER ::= { linkSwitch1000-cards 13} oncore-cards-2fiber-sc-7blk OBJECT IDENTIFIER ::= { linkSwitch1000-cards 14} oncore-cards-1fiber-sc-tp-rj45-7blk OBJECT IDENTIFIER ::= { linkSwitch1000-cards 15} oncore-cards-1fiber-sc-atm-7blk OBJECT IDENTIFIER ::= { linkSwitch1000-cards 16} superStackDesktopSwitch-24tp-rj45 OBJECT IDENTIFIER ::= { linkSwitch1000-cards 17} linkSwitch3000-cards-12tp-rj45 OBJECT IDENTIFIER ::= { linkSwitch1000-cards 18} superStackSwitch3000-cards-12tp-rj45 OBJECT IDENTIFIER ::= { linkSwitch1000-cards 19} oncore-cards-7tp-rj45-blk OBJECT IDENTIFIER ::= { linkSwitch1000-cards 20} officeConnect-Switch140M-5tp-rj45 OBJECT IDENTIFIER ::= { linkSwitch1000-cards 21} superStackSwitch3000-cards-12tp-rj45-ten100 OBJECT IDENTIFIER ::= { linkSwitch1000-cards 22} linkBuilderFMS100-cards-12utp OBJECT IDENTIFIER ::= { linkBuilderFMS100-cards 1 } -- this is Ethernet 100BaseTX repeater card linkBuilderFMS100-cards-12T4 OBJECT IDENTIFIER ::= { linkBuilderFMS100-cards 2 } -- this is Ethernet 100BaseT4 repeater card officeConnect-Hub8M-cards-8tp-rj45 OBJECT IDENTIFIER ::= { officeConnect-Hub8M-cards 1 } linkSwitch2000TR-cards-12tp-rj45 OBJECT IDENTIFIER ::= { linkSwitch2000TR-cards 1 } -- -- the following identifiers are assigned to 3com chip sets -- valcan OBJECT IDENTIFIER ::= { chipSets 1 } -- -- the following identifiers are assigned to 3com oem products -- linkConv250 OBJECT IDENTIFIER ::= { oem 1 } linkConv251 OBJECT IDENTIFIER ::= { oem 2 } linkConv350 OBJECT IDENTIFIER ::= { oem 3 } linkConv351 OBJECT IDENTIFIER ::= { oem 4 } -- -- the following identifiers are assigned to Synernetics products -- (SysOID 1.3.6.1.4.1.114) -- synernetics OBJECT IDENTIFIER ::= { enterprises 114 } lanplex OBJECT IDENTIFIER ::= { synernetics 1 } lANplex-12-slot-support OBJECT IDENTIFIER ::= { lanplex 1 } lANplex-4-slot-support OBJECT IDENTIFIER ::= { lanplex 2 } lpsProducts OBJECT IDENTIFIER ::= { lanplex 3 } -- -- the following identifiers are assigned to the LANplex product line -- lps6000 OBJECT IDENTIFIER ::= { lpsProducts 2 } lps2000 OBJECT IDENTIFIER ::= { lpsProducts 3 } -- -- the following identifiers are assigned to the LANplex product types -- lps6012 OBJECT IDENTIFIER ::= { lps6000 1 } lps6004 OBJECT IDENTIFIER ::= { lps6000 2 } lps2500 OBJECT IDENTIFIER ::= { lps2000 1 } lss2200 OBJECT IDENTIFIER ::= { lps2000 2 } lps2016 OBJECT IDENTIFIER ::= { lps2000 3 } lss2200SS2 OBJECT IDENTIFIER ::= { lps2000 4 } -- -- the following identifiers are assigned to the LANplex 6000 devices -- lps6012System OBJECT IDENTIFIER ::= { lps6012 1 } lps6012Chassis OBJECT IDENTIFIER ::= { lps6012 2 } lps6012ESM OBJECT IDENTIFIER ::= { lps6012 3 } lps6012EFSM OBJECT IDENTIFIER ::= { lps6012 4 } lps6012TRSM OBJECT IDENTIFIER ::= { lps6012 5 } lps6012TMM OBJECT IDENTIFIER ::= { lps6012 6 } lps6012FSM OBJECT IDENTIFIER ::= { lps6012 7 } lps6004System OBJECT IDENTIFIER ::= { lps6004 1 } lps6004Chassis OBJECT IDENTIFIER ::= { lps6004 2 } lps6004ESM OBJECT IDENTIFIER ::= { lps6004 3 } lps6004EFSM OBJECT IDENTIFIER ::= { lps6004 4 } lps6004TRSM OBJECT IDENTIFIER ::= { lps6004 5 } lps6004TMM OBJECT IDENTIFIER ::= { lps6004 6 } lps6004FSM OBJECT IDENTIFIER ::= { lps6004 7 } -- -- the following identifiers are assigned to the LANplex agent versions -- lanplex-2500-2 OBJECT IDENTIFIER ::= { lps2500 2 } lanplex-2500-3 OBJECT IDENTIFIER ::= { lps2500 3 } lanplex-2500-4 OBJECT IDENTIFIER ::= { lps2500 4 } lanplex-2500-5 OBJECT IDENTIFIER ::= { lps2500 5 } lanplex-2500-6 OBJECT IDENTIFIER ::= { lps2500 6 } linkSwitch-2200-2 OBJECT IDENTIFIER ::= { lss2200 2 } linkSwitch-2200-3 OBJECT IDENTIFIER ::= { lss2200 3 } linkSwitch-2200-4 OBJECT IDENTIFIER ::= { lss2200 4 } linkSwitch-2200-5 OBJECT IDENTIFIER ::= { lss2200 5 } linkSwitch-2200-6 OBJECT IDENTIFIER ::= { lss2200 6 } lanplex-2016-2 OBJECT IDENTIFIER ::= { lps2016 2 } lanplex-2016-3 OBJECT IDENTIFIER ::= { lps2016 3 } lanplex-2016-4 OBJECT IDENTIFIER ::= { lps2016 4 } lanplex-2016-5 OBJECT IDENTIFIER ::= { lps2016 5 } lanplex-2016-6 OBJECT IDENTIFIER ::= { lps2016 6 } linkSwitch-2200-SS2-7 OBJECT IDENTIFIER ::= { lss2200SS2 7 } lanplex-6012-System-2 OBJECT IDENTIFIER ::= { lps6012System 2 } lanplex-6012-System-3 OBJECT IDENTIFIER ::= { lps6012System 3 } lanplex-6012-System-4 OBJECT IDENTIFIER ::= { lps6012System 4 } lanplex-6012-System-5 OBJECT IDENTIFIER ::= { lps6012System 5 } lanplex-6012-System-6 OBJECT IDENTIFIER ::= { lps6012System 6 } lanplex-6012-Chassis-2 OBJECT IDENTIFIER ::= { lps6012Chassis 2 } lanplex-6012-Chassis-3 OBJECT IDENTIFIER ::= { lps6012Chassis 3 } lanplex-6012-Chassis-4 OBJECT IDENTIFIER ::= { lps6012Chassis 4 } lanplex-6012-Chassis-5 OBJECT IDENTIFIER ::= { lps6012Chassis 5 } lanplex-6012-Chassis-6 OBJECT IDENTIFIER ::= { lps6012Chassis 6 } lanplex-6012-ESM-2 OBJECT IDENTIFIER ::= { lps6012ESM 2 } lanplex-6012-ESM-3 OBJECT IDENTIFIER ::= { lps6012ESM 3 } lanplex-6012-ESM-4 OBJECT IDENTIFIER ::= { lps6012ESM 4 } lanplex-6012-ESM-5 OBJECT IDENTIFIER ::= { lps6012ESM 5 } lanplex-6012-ESM-6 OBJECT IDENTIFIER ::= { lps6012ESM 6 } lanplex-6012-EFSM-2 OBJECT IDENTIFIER ::= { lps6012EFSM 2 } lanplex-6012-EFSM-3 OBJECT IDENTIFIER ::= { lps6012EFSM 3 } lanplex-6012-EFSM-4 OBJECT IDENTIFIER ::= { lps6012EFSM 4 } lanplex-6012-EFSM-5 OBJECT IDENTIFIER ::= { lps6012EFSM 5 } lanplex-6012-EFSM-6 OBJECT IDENTIFIER ::= { lps6012EFSM 6 } lanplex-6012-TRSM-5 OBJECT IDENTIFIER ::= { lps6012TRSM 5 } lanplex-6012-TRSM-6 OBJECT IDENTIFIER ::= { lps6012TRSM 6 } lanplex-6012-TMM-6 OBJECT IDENTIFIER ::= { lps6012TMM 6 } lanplex-6012-FSM-7 OBJECT IDENTIFIER ::= { lps6012FSM 7 } lanplex-6004-System-2 OBJECT IDENTIFIER ::= { lps6004System 2 } lanplex-6004-System-3 OBJECT IDENTIFIER ::= { lps6004System 3 } lanplex-6004-System-4 OBJECT IDENTIFIER ::= { lps6004System 4 } lanplex-6004-System-5 OBJECT IDENTIFIER ::= { lps6004System 5 } lanplex-6004-System-6 OBJECT IDENTIFIER ::= { lps6004System 6 } lanplex-6004-Chassis-2 OBJECT IDENTIFIER ::= { lps6004Chassis 2 } lanplex-6004-Chassis-3 OBJECT IDENTIFIER ::= { lps6004Chassis 3 } lanplex-6004-Chassis-4 OBJECT IDENTIFIER ::= { lps6004Chassis 4 } lanplex-6004-Chassis-5 OBJECT IDENTIFIER ::= { lps6004Chassis 5 } lanplex-6004-Chassis-6 OBJECT IDENTIFIER ::= { lps6004Chassis 6 } lanplex-6004-ESM-2 OBJECT IDENTIFIER ::= { lps6004ESM 2 } lanplex-6004-ESM-3 OBJECT IDENTIFIER ::= { lps6004ESM 3 } lanplex-6004-ESM-4 OBJECT IDENTIFIER ::= { lps6004ESM 4 } lanplex-6004-ESM-5 OBJECT IDENTIFIER ::= { lps6004ESM 5 } lanplex-6004-ESM-6 OBJECT IDENTIFIER ::= { lps6004ESM 6 } lanplex-6004-EFSM-2 OBJECT IDENTIFIER ::= { lps6004EFSM 2 } lanplex-6004-EFSM-3 OBJECT IDENTIFIER ::= { lps6004EFSM 3 } lanplex-6004-EFSM-4 OBJECT IDENTIFIER ::= { lps6004EFSM 4 } lanplex-6004-EFSM-5 OBJECT IDENTIFIER ::= { lps6004EFSM 5 } lanplex-6004-EFSM-6 OBJECT IDENTIFIER ::= { lps6004EFSM 6 } lanplex-6004-TRSM-5 OBJECT IDENTIFIER ::= { lps6004TRSM 5 } lanplex-6004-TRSM-6 OBJECT IDENTIFIER ::= { lps6004TRSM 6 } lanplex-6004-TMM-6 OBJECT IDENTIFIER ::= { lps6004TMM 6 } lanplex-6004-FSM-7 OBJECT IDENTIFIER ::= { lps6004FSM 7 } -- -- the following identifier are assigned to the LANplex MIB modules -- lanplexSystemsMib OBJECT IDENTIFIER ::= { lanplex 4 } lanplexOptFddi OBJECT IDENTIFIER ::= { lanplex 10 } -- -- the following identifiers are assigned to Centrum products -- (SysOID 1.3.6.1.4.1.327) -- centrum OBJECT IDENTIFIER ::= { enterprises 327 } mibDoc OBJECT IDENTIFIER ::= { centrum 1 } centrumRemote OBJECT IDENTIFIER ::= { mibDoc 1 } -- -- for the older ISOLAN equipment -- bicc OBJECT IDENTIFIER ::= { enterprises 170 } bdn OBJECT IDENTIFIER ::= { bicc 1 } bdnDevices OBJECT IDENTIFIER ::= { bdn 1 } -- -- Power Supplies -- rpsIIMgmtModule OBJECT IDENTIFIER ::= { powerSupplies 1 } -- -- Transcend Enterprise Manager -- watchModule OBJECT IDENTIFIER ::= { transcendEnterpriseMgr 1 } END C-PRODUCT-GROUP-MIB DEFINITIONS ::= BEGIN -- IMPORTS enterprises FROM RFC1155-SMI; IMPORTS atmAccess FROM A3Com-products-MIB; config OBJECT IDENTIFIER ::= { atmAccess 1 } access9600 OBJECT IDENTIFIER ::= { atmAccess 2 } access9300 OBJECT IDENTIFIER ::= { atmAccess 3 } access9100 OBJECT IDENTIFIER ::= { atmAccess 4 } mojave OBJECT IDENTIFIER ::= { atmAccess 5 } c-product OBJECT IDENTIFIER ::= { config 1 } -- groups in CS600 -- all enterprise-specific groups in cs600 are defined here sys OBJECT IDENTIFIER ::= { c-product 1 } shelf OBJECT IDENTIFIER ::= { c-product 2 } card OBJECT IDENTIFIER ::= { c-product 3 } port OBJECT IDENTIFIER ::= { c-product 4 } circuit OBJECT IDENTIFIER ::= { c-product 5 } fault OBJECT IDENTIFIER ::= { c-product 6 } ds3card OBJECT IDENTIFIER ::= { c-product 11 } qsim OBJECT IDENTIFIER ::= { c-product 12 } e3card OBJECT IDENTIFIER ::= { c-product 13 } hssicard OBJECT IDENTIFIER ::= { c-product 14 } cbr OBJECT IDENTIFIER ::= { c-product 15 } oc3card OBJECT IDENTIFIER ::= { c-product 16 } enetcard OBJECT IDENTIFIER ::= { c-product 17 } mcpu OBJECT IDENTIFIER ::= { c-product 18 } ima OBJECT IDENTIFIER ::= { c-product 19 } ctx OBJECT IDENTIFIER ::= { c-product 20 } END C-PRODUCT-BASE-MIB DEFINITIONS ::= BEGIN IMPORTS sys, shelf, card, port, circuit, fault FROM C-PRODUCT-GROUP-MIB IpAddress FROM RFC1155-SMI DisplayString, PhysAddress FROM RFC1213-MIB OBJECT-TYPE FROM RFC-1212; -- This data type is used to define time and date TimeAndDate ::= OCTET STRING (SIZE(6..6)) -- It is composed of 6 data bytes defined as follows: -- -- byte 1 - year (0..99) -- byte 2 - month (1..12) -- byte 3 - day (1..31) -- byte 4 - hour (0..23) -- byte 5 - minute (0..59) -- byte 6 - second (0..59) -- This data type is used to define the supported card types CardType ::= INTEGER { none (1), -- no card mcpu (2), -- management cpu card ds3 (3), -- ds3 card ether (4), -- ethernet card ctx (5), -- ctx card oc3 (6), -- oc3 card backplane (7), -- backplane card (not supported) hssi (8), -- hssi card cbr-dsx-4 (9), -- 4 port cbr dsx card cbr-e1-4 (11), -- 4 port cbr e1 card cbr-dsx-8 (12), -- 8 port cbr dsx card cbr-e1-8 (14), -- 8 port cbr e1 card unknown (15), -- undefined card type v-35-qsim (16), -- v.35 serial if module rs-422-qsim (17), -- rs-422 serial if module hsim (18), -- hssi if module e3 (19), -- e3 card ima-dsx-8 (20), -- 4 port ima dsx card ima-csu-8 (21), -- 4 port ima csu card ima-e1-8 (22), -- 4 port ima e1 card ima-dsx-4 (23), -- 8 port ima dsx card ima-csu-4 (24), -- 8 port ima csu card ima-e1-4 (25), -- 8 port ima e1 card fam-csu-8 (26), -- 8 port ima e1 card ctx-plus (27), -- 8 port ima e1 card fam-dsx-8 (28), -- 8 port ima e1 card fam-e1-8 (29), -- 8 port ima e1 card mojave-backplane (30), -- Mojave backplane ima-4-9300 (31), -- AB9300 ima card cbr-dsx-3-v35 (32), -- 3 port/V35 cbr dsx card cbr-csu-3-v35 (33), -- 3 port/V35 cbr csu card cbr-e1-3-v35 (34), -- 3 port/V35 E1 card cbr-dsx-4-9300 (35), -- 4 port cbr dsx card cbr-csu-4-9300 (36), -- 4 port cbr csu card cbr-e1-4-9300 (37), -- 4 port E1 card ctx-9300 (38) -- AB9300 ctx card } -- This data type is used to define the admin. and oper. status of a hardware -- component (e.g. port card, trunk card, power supply, etc.) AdminStatus ::= INTEGER { out-of-service (1), in-service (2) } PortOperStatus ::= INTEGER { out-of-service (1), in-service (2), no-response (3), coming-up (4), coming-down (5), status-failed (6) } CardOperStatus ::= INTEGER { out-of-service (1), in-service (2), failed (6) } CardShelfState ::= INTEGER { empty (1), missing (2), match (3), mismatch (4), invalid (5), hwrev-mismatch (6) } VcpPacketDiscard ::= INTEGER { pkt-no (1), pkt-yes (2) } -- This data type is used to define alarms types AlarmType ::= INTEGER { los (1), -- loss of signal oof (2), -- out of frame ais (3), -- alarm indication signal idle (4), -- idle signal ferf (5), -- far end rx failure lcd (6), -- loss of cell delineation vp-ais (7), -- virtual path ais vc-ais (8), -- virtual channel ais upload-image-missing (9), -- no upload image found card-reconf-ok (10), -- card reconfig. succeeded unknown-db-card-type (11), -- unknown card type in DB card-reconf-fail (12), -- card reconfig. failed card-mismatch (13), -- card type mismatched new-card-conf-ok (14), -- new card config. succeeded card-conf-fail (15), -- card config. failed unknown-card-type (16), -- unknown card type card-removed (17), -- card prematurely remvd download-fail (18), -- download card image failed ps1-missing (19), -- left power supply absent ps2-missing (20), -- right power supply absent ps1-fail (21), -- left power supply failed ps2-fail (22), -- right power supply failed relay-fuse-fail (23), -- relay power fuse failed comm-fail (24), -- communication failed fan1-fail (25), -- fan 1 failed fan2-fail (26), -- fan 2 failed fan3-fail (27), -- fan 3 failed fan4-fail (28), -- fan 4 failed feac-lpbk (29), -- feac loopback ntwk-line-lpbk (30), -- network line loopback card-lpbk (31), -- card loopback cell-lpbk (32), -- cell line loopback card-missing (33), -- card not installed card-inited (34), -- card initialized cellbus-parity-fail (35), -- cellbus parity failed rx-fifo-overflow (36), -- rx fifo overflow tx-fifo-overflow (37), -- tx fifo overflow lp-cellbus-congest (38), -- lp cellbus congested mp-cellbus-congest (39), -- mp cellbus congested hp-cellbus-congest (40), -- hp cellbus congested prom-checksum-fail (43), -- prom checksum error sram-0-fail (44), -- bank 0 sram failed sram-1-fail (45), -- bank 1 sram failed sar-sram-fail (46), -- sar sram failed hdlc-sram-fail (47), -- hdlc sram failed mailbox-sram-fail (48), -- mailbox sram failed cellbus-xilink-fail (49), -- cellbus xilinx failed prt01-xlnk-fail (50), -- prt01 xlnx prg failed prt23-xlnk-fail (51), -- prt23 xlnx prg failed prt45-xlnk-fail (52), -- prt45 xlnx prg failed prt67-xlnk-fail (53), -- prt67 xlnx prg failed sar-xlnk-fail (54), -- sAR xlnk prg failed port-lpbk-pseudo-fail(55), -- port lpbk pseudo-failure e1-slot16-ais (56), -- e1 time slot16 ais e1-loss-cas-multifrm (57), -- e1 loss of cas multiframe fe-e1-loss-cas (58), -- far end e1 loss of cas port-yellow (61), -- port yellow port-ais (62), -- port ais vc-rdi (64), -- vc rdi local-card-lpbk (65), -- local card loopback intern-refclk-fail (66), -- internal ref. clk. failed bits-refclk-fail (67), -- bits ref. clk. failed cbr-refclk-fail (68), -- cbr ref. clk. failed plcp-refclk-fail (69), -- plcp ref. clk. failed loss-of-clock (70), -- loss of clock remote-lpbk (71), -- remote loopback oc3-refclk-missing (73), -- oc3 ref. clk. failed power-up (75), -- system power up loss-cell-del (77), -- ima loss Cell Delin loss-ima-frame (78), -- ima loss of IMA Frame loss-diff-sync (79), -- ima loss of Diff Sync dup-id (80), -- ima Duplicate ID bad-ima-id (81), -- ima bad ID bad-ima-M-value (82), -- ima bad M value dup-link-id (83), -- ima duplicate Link ID dup-offset (84), -- ima duplicate offset test-pattern-fail (85), -- ima test Pattern failed bad-link-id (86), -- ima bad link ID bad-offset (87), -- ima bad offset fe-no-links (88), -- ima group far End no link fe-bad-M (89), -- ima group far End bad M fe-group-error (90), -- ima group far End error fe-los-of-signal (91), -- ima far end LOS fe-out-of-frame (92), -- ima far end OOF fe-loss-cell-del (93), -- ima far end LCD fe-loss-of-frame (94), -- ima lof fe-loss-diff-sync (95), -- ima loss Diff Sync fe-misconnected (96), -- ima misconnected alarm-cleared (102), -- alarm cleared history-overflow (103), -- history overflow afa-link-removal (104), -- AFA link removal lmi-link-down (105), -- LMI link down link-delay (106), -- Excessive Link Delay group-no-link (107), -- group no link group-degraded (108), -- group Degraded Service group-sync-failed (109), -- group Sync Failure sar-init-failure (110) } -- SAR Initialize Failure -- This data type is used to define VC types supported by the management -- CPU and port cards. VcpLinkType ::= INTEGER { vc-invalid(1), -- Invalid vc-regular(2), -- regular vc-multicast(3), -- Multi cast vc-management(4), -- Management vc-leaf(5) -- Leaf } VcFamilyCardType ::= INTEGER { cardFamNone(1), -- No family cardFamMCPU(2), -- MCPU cardFamCTX(3), -- CTX cardFamOC3(4), -- OC3 cardFamDS3(5), -- DS3 cardFamE3(6), -- E3 cardFamQSIM(7), -- QSIM cardFamFAM(8), -- FAM cardFamENET(9), -- ENET cardFamHSSI(10), -- HSSI cardFamCBR(11), -- CBR cardFamIMA(12), -- IMA cardFamBackplane(13) -- backplane } -- sys (system administration) group -- general system information sysGenInfo OBJECT IDENTIFIER ::= { sys 1 } sysGenInfoShelfName OBJECT-TYPE SYNTAX DisplayString (SIZE(0..16)) ACCESS read-write STATUS mandatory DESCRIPTION "Name of the managed node." ::= { sysGenInfo 1 } sysGenInfoCustomerName OBJECT-TYPE SYNTAX DisplayString (SIZE(0..32)) ACCESS read-write STATUS mandatory DESCRIPTION "Name of the organization that uses the managed node." ::= { sysGenInfo 2 } sysGenInfoPhoneNumber OBJECT-TYPE SYNTAX DisplayString (SIZE(0..32)) ACCESS read-write STATUS mandatory DESCRIPTION "Phone number of the organization that uses the managed node." ::= { sysGenInfo 3 } sysGenInfoMaintenanceContact OBJECT-TYPE SYNTAX DisplayString (SIZE(0..32)) ACCESS read-write STATUS mandatory DESCRIPTION "Maintenance contact of the managed node." ::= { sysGenInfo 4 } sysGenInfoLocation OBJECT-TYPE SYNTAX DisplayString (SIZE(0..32)) ACCESS read-write STATUS mandatory DESCRIPTION "Location of the managed node." ::= { sysGenInfo 5 } sysGenInfoAutoLogoutTime OBJECT-TYPE SYNTAX INTEGER (1..99) ACCESS read-write STATUS mandatory DESCRIPTION "The time a TELNET or VT-100 terminal user can maintain a session with the managed node without any keyboard action. Unit: minute" DEFVAL { 10 } ::= { sysGenInfo 6 } sysGenInfoPassword OBJECT-TYPE SYNTAX OCTET STRING (SIZE(0..16)) ACCESS read-write STATUS mandatory DESCRIPTION "Password required to access the managed node using VT-100 terminal or TELNET. A get request always returns a NULL string." DEFVAL { "password" } ::= { sysGenInfo 7 } sysGenCurrentCodeRelease OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Firmware revision of the current code running in the managed node." ::= { sysGenInfo 8 } -- Time and Date sysTimeAndDate OBJECT-TYPE SYNTAX TimeAndDate ACCESS read-write STATUS mandatory DESCRIPTION "Time and date maintained in the managed node." ::= { sys 2 } -- IP Network Configuration sysIpConfig OBJECT IDENTIFIER ::= { sys 3 } -- local host subgroup -- -- The objects in this subgroup includes the information -- required by the SNMP managers or TELENT clients to -- communicate with the SNMP agent and TELNET server in -- the managed node. -- sysIpConfigLocalHost OBJECT IDENTIFIER ::= { sysIpConfig 1 } sysIpConfigLocalHostCommunityName OBJECT-TYPE SYNTAX DisplayString (SIZE(0..64)) ACCESS read-write STATUS mandatory DESCRIPTION "Community name of the managed node. A get request always returns a NULL string." DEFVAL { "private" } ::= { sysIpConfigLocalHost 1 } sysIpConfigLocalHostIpAddress OBJECT-TYPE SYNTAX IpAddress ACCESS read-only STATUS mandatory DESCRIPTION "Local host's Ethernet IP address." ::= { sysIpConfigLocalHost 2 } sysIpConfigLocalHostSubnetMask OBJECT-TYPE SYNTAX IpAddress ACCESS read-only STATUS mandatory DESCRIPTION "Local host's Ethernet IP subnet mask." ::= { sysIpConfigLocalHost 3 } sysIpConfigLocalHostMacAddress OBJECT-TYPE SYNTAX PhysAddress ACCESS read-only STATUS mandatory DESCRIPTION "Local host's Ethernet MAC-layer address." ::= { sysIpConfigLocalHost 4 } -- trap gateway subgroup -- -- The objects in this subgroup are required when there -- are trap clients not directly reachable by the managed -- node. It requires a trap gateway to route the SNMP -- trap messages to the trap clients (SNMP managers). -- sysIpConfigTrapGateway OBJECT IDENTIFIER ::= { sysIpConfig 2 } sysIpConfigTrapGatewayIpAddress OBJECT-TYPE SYNTAX IpAddress ACCESS read-write STATUS mandatory DESCRIPTION "Trap gateway's IP address." DEFVAL { '00000000'h } ::= { sysIpConfigTrapGateway 1 } sysIpConfigTrapGatewaySubnetMask OBJECT-TYPE SYNTAX IpAddress ACCESS read-write STATUS mandatory DESCRIPTION "Trap gateway's IP subnet mask." DEFVAL { '00000000'h } ::= { sysIpConfigTrapGateway 2 } -- trap client table -- -- Each entry in the table contains the information of an SNMP -- trap client which receives SNMP traps from the SNMP agent in -- the managed node. -- sysIpConfigTrapClientTable OBJECT-TYPE SYNTAX SEQUENCE OF SysIpConfigTrapClientEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Trap client table has 4 entries" ::= { sysIpConfig 3 } sysIpConfigTrapClientEntry OBJECT-TYPE SYNTAX SysIpConfigTrapClientEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Each entry contains IP address and port number of an SNMP manager which receives traps from the managed node." INDEX { sysIpConfigTrapClientIndex } ::= { sysIpConfigTrapClientTable 1 } SysIpConfigTrapClientEntry ::= SEQUENCE { sysIpConfigTrapClientIndex INTEGER, sysIpConfigTrapClientIpAddress IpAddress, sysIpConfigTrapClientSubnetMask IpAddress, sysIpConfigTrapClientPortNumber INTEGER } sysIpConfigTrapClientIndex OBJECT-TYPE SYNTAX INTEGER (1..4) ACCESS not-accessible STATUS mandatory DESCRIPTION "" ::= { sysIpConfigTrapClientEntry 1 } sysIpConfigTrapClientIpAddress OBJECT-TYPE SYNTAX IpAddress ACCESS read-write STATUS mandatory DESCRIPTION "Trap client's IP address." DEFVAL { '00000000'h } ::= { sysIpConfigTrapClientEntry 2 } sysIpConfigTrapClientSubnetMask OBJECT-TYPE SYNTAX IpAddress ACCESS read-write STATUS mandatory DESCRIPTION "Trap client's IP subnet mask." DEFVAL { '00000000'h } ::= { sysIpConfigTrapClientEntry 3 } sysIpConfigTrapClientPortNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Trap client's port number." DEFVAL { 162 } ::= { sysIpConfigTrapClientEntry 4 } -- RS232 Ports Configuration sysRs232Table OBJECT-TYPE SYNTAX SEQUENCE OF SysRs232Entry ACCESS not-accessible STATUS mandatory DESCRIPTION "This table contains 2 rows. The first row shows the physical configuration of the port connected to a VT100 termianl. The second row is used to configure the port which supports SLIP. Access to the first row is read-only and access to the second row is read-write." ::= { sys 4 } sysRs232Entry OBJECT-TYPE SYNTAX SysRs232Entry ACCESS not-accessible STATUS mandatory DESCRIPTION "Each entry contains the attributes of a serial port." INDEX { sysRs232Port } ::= { sysRs232Table 1 } SysRs232Entry ::= SEQUENCE { sysRs232Port INTEGER, sysRs232BaudRate INTEGER, sysRs232Parity INTEGER, sysRs232DataBits INTEGER, sysRs232StopBits INTEGER } sysRs232Port OBJECT-TYPE SYNTAX INTEGER { port-1 (1), port-2 (2) } ACCESS not-accessible STATUS mandatory DESCRIPTION "The managed node has 2 serial ports: port 1 and port 2." ::= { sysRs232Entry 1 } sysRs232BaudRate OBJECT-TYPE SYNTAX INTEGER { br-300 (1), br-1200 (2), br-2400 (3), br-4800 (4), br-9600 (5), br-19200 (6), br-38400 (7) } ACCESS read-write STATUS mandatory DESCRIPTION "Baud rate. The instance of this object in port-1 is read-only." DEFVAL { br-9600 } ::= { sysRs232Entry 2 } sysRs232Parity OBJECT-TYPE SYNTAX INTEGER { none (1), even (2), odd (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Parity. The instance of this object in port-1 is read-only." DEFVAL { none } ::= { sysRs232Entry 3 } sysRs232DataBits OBJECT-TYPE SYNTAX INTEGER { db-7 (1), db-8 (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Number of data bits. The instance of this object in port-1 is read-only." DEFVAL { db-8 } ::= { sysRs232Entry 4 } sysRs232StopBits OBJECT-TYPE SYNTAX INTEGER { sb-1 (1), sb-2 (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Number of stop bits. The instance of this object in port-1 is read-only." DEFVAL { sb-1 } ::= { sysRs232Entry 5 } -- System Reference Clock sysRefClock OBJECT-TYPE SYNTAX INTEGER { no-clock (1), internal-default (2), internal (3), bits (4), slot-3 (5), slot-4 (6), slot-5 (7), slot-6 (8), slot-7 (9), slot-8 (10), slot-9 (11) } ACCESS read-write STATUS mandatory DESCRIPTION "System reference clock maintained in the managed node." ::= { sys 5 } sysProductType OBJECT-TYPE SYNTAX INTEGER { no-product (1), ab9600 (2), ab9300 (3), ab9100 (4), mojave (5) } ACCESS read-only STATUS mandatory DESCRIPTION "System Product Type contain type of product." ::= { sys 6 } -- shelf group shelfSerialNumber OBJECT-TYPE SYNTAX OCTET STRING (SIZE(10..10)) ACCESS read-only STATUS mandatory DESCRIPTION "Serial number of the shelf." ::= { shelf 1 } shelfRevision OBJECT-TYPE SYNTAX OCTET STRING (SIZE(1..1)) ACCESS read-only STATUS mandatory DESCRIPTION "Hardware revision number of the shelf." ::= { shelf 2 } shelfPowerSupplyTable OBJECT-TYPE SYNTAX SEQUENCE OF ShelfPowerSupplyEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The power supply table in the shelf." ::= { shelf 3 } shelfPowerSupplyEntry OBJECT-TYPE SYNTAX ShelfPowerSupplyEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Information of the power supply in the shelf." INDEX { shelfPowerSupplySlot } ::= { shelfPowerSupplyTable 1 } ShelfPowerSupplyEntry ::= SEQUENCE { shelfPowerSupplySlot INTEGER, shelfPowerSupplyAdminStatus AdminStatus, shelfPowerSupplyOperStatus INTEGER } shelfPowerSupplySlot OBJECT-TYPE SYNTAX INTEGER { slot-1 (1), -- left power supply slot-2 (2) } -- right power supply ACCESS not-accessible STATUS mandatory DESCRIPTION "Slot number of the power supply." ::= { shelfPowerSupplyEntry 1 } shelfPowerSupplyAdminStatus OBJECT-TYPE SYNTAX AdminStatus ACCESS read-write STATUS mandatory DESCRIPTION "Administrative status." DEFVAL { in-service } ::= { shelfPowerSupplyEntry 2 } shelfPowerSupplyOperStatus OBJECT-TYPE SYNTAX INTEGER { out-of-service (1), in-service (2), missing (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Operational status for Power Supply. In AB9300/AB9100, it doesn't support any setting value. " ::= { shelfPowerSupplyEntry 3 } shelfPartNumber OBJECT-TYPE SYNTAX OCTET STRING (SIZE(1..1)) ACCESS read-only STATUS mandatory DESCRIPTION "Part number of the shelf." ::= { shelf 4 } -- card group -- this group includes the objects common to all supported cards cardBaseTable OBJECT-TYPE SYNTAX SEQUENCE OF CardBaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A 6 entry card table in the shelf." ::= { card 1 } cardBaseEntry OBJECT-TYPE SYNTAX CardBaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Each card entry contains objects that refer to the card in that entry." INDEX { cardSlot } ::= { cardBaseTable 1} CardBaseEntry ::= SEQUENCE { cardSlot INTEGER, cardTypeDb CardType, cardTypeHw CardType, cardAdminStatus AdminStatus, cardOperStatus CardOperStatus, cardSerialNumber OCTET STRING, cardRevision OCTET STRING, cardPartNumber DisplayString, cardReset INTEGER, cardShelfState CardShelfState } cardSlot OBJECT-TYPE SYNTAX INTEGER (1..6) ACCESS not-accessible STATUS mandatory DESCRIPTION "Slot number of the card in the shelf. The assignment of the card slots is as follows: slot 1 : management cpu, slot 2 : ctx card, slot 3 : one of the trunk cards (e.g. ds3/oc3/e3/hssi), slot 4-6: one of the port cards (e.g. ether/cbr/qsim)." ::= { cardBaseEntry 1 } cardTypeDb OBJECT-TYPE SYNTAX CardType ACCESS read-write STATUS mandatory DESCRIPTION "The configured card type in the slot. It may differ from the actual card type (cardTypeHw) in the corresponding slot. A set request will be accepted only when one of the following is true: 1. the value of cardTypeHw in this slot is none, or 2. the new value of cardTypeDb is the same as the corresponding cardTypeHw. " ::= { cardBaseEntry 2 } cardTypeHw OBJECT-TYPE SYNTAX CardType ACCESS read-only STATUS mandatory DESCRIPTION "The actual card type in the slot." ::= { cardBaseEntry 3 } cardAdminStatus OBJECT-TYPE SYNTAX AdminStatus ACCESS read-write STATUS mandatory DESCRIPTION "Administrative status of the card. An error is returned if this slot has been selected as the system reference clock and an attempt is made to change this object to out-of-service. This object does not apply to management cpu and ctx card." DEFVAL { in-service } ::= { cardBaseEntry 4 } cardOperStatus OBJECT-TYPE SYNTAX CardOperStatus ACCESS read-only STATUS mandatory DESCRIPTION "Operational status of the card." ::= { cardBaseEntry 5 } cardSerialNumber OBJECT-TYPE SYNTAX OCTET STRING (SIZE(10..10)) ACCESS read-only STATUS mandatory DESCRIPTION "Serial number of the card." ::= { cardBaseEntry 6 } cardRevision OBJECT-TYPE SYNTAX OCTET STRING (SIZE(1..1)) ACCESS read-only STATUS mandatory DESCRIPTION "Hardware revision number of the card." ::= { cardBaseEntry 7 } cardPartNumber OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "Part number of the card." ::= { cardBaseEntry 8 } cardReset OBJECT-TYPE SYNTAX INTEGER { reset (1) } ACCESS read-write STATUS mandatory DESCRIPTION "This is the command to reset the card at the specified slot number. A read request always returns 0. Warning: Reseting card will temporarily disrupt traffic on the specified slot number." ::= { cardBaseEntry 9 } cardShelfState OBJECT-TYPE SYNTAX CardShelfState ACCESS read-only STATUS mandatory DESCRIPTION "Operational shelf state of the card." ::= { cardBaseEntry 10 } -- port group -- this group includes the objects common to all port/trunk card's ports. -- this table does not apply to management cpu and ctx card. portBaseTable OBJECT-TYPE SYNTAX SEQUENCE OF PortBaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The port information table." ::= { port 1 } portBaseEntry OBJECT-TYPE SYNTAX PortBaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Each port entry contains objects that refer to the port in that entry." INDEX { portSlot, portNumber } ::= { portBaseTable 1 } PortBaseEntry ::= SEQUENCE { portSlot INTEGER, portNumber INTEGER, portAdminStatus AdminStatus, portOperStatus PortOperStatus, portIfIndex INTEGER } portSlot OBJECT-TYPE SYNTAX INTEGER (3..6) ACCESS not-accessible STATUS mandatory DESCRIPTION "Slot Number. This table does not have objects for management cpu (slot #1) and ctx card (slot #2)." ::= { portBaseEntry 1 } portNumber OBJECT-TYPE SYNTAX INTEGER ACCESS not-accessible STATUS mandatory DESCRIPTION "Port number. The number of ports in each card depends on the type of card in that slot. Following is a list of cards and the port range of that cards: card type port range ----------- ---------- ds3 1..1 ether 1..2 oc3 1..1 hssi 1..1 cbr-dsx-4 1..4 cbr-e1-4 1..4 cbr-dsx-8 1..8 cbr-e1-8 1..8 v-35-qsim 1..4 rs-422-qsim 1..4 hssi-qsim 1..1 e3 1..1" ::= { portBaseEntry 2 } portAdminStatus OBJECT-TYPE SYNTAX AdminStatus ACCESS read-write STATUS mandatory DESCRIPTION "Administrative status of the port. An error is returned if this port has been selected as the system reference clock and an attempt is made to change this object to out-of-service." DEFVAL { out-of-service } ::= { portBaseEntry 3 } portOperStatus OBJECT-TYPE SYNTAX PortOperStatus ACCESS read-only STATUS mandatory DESCRIPTION "Operational status of the port." ::= { portBaseEntry 4 } portIfIndex OBJECT-TYPE SYNTAX INTEGER (1..57) ACCESS read-only STATUS mandatory DESCRIPTION "Currently this object applies to the interface ports in port cards ONLY. It is pre-assigned as following: slot range 3 1..8 4 9..16 5 17..24 6 25..32 7 33..40 8 41..48 9 49..57 " ::= { portBaseEntry 5 } -- virtual circuit table -- Multi/Non-multi cast virtual circuit Path table vcpNextAvailGlobVcSideId OBJECT-TYPE SYNTAX INTEGER (0..2147483647) ACCESS read-only STATUS mandatory DESCRIPTION "This unique value which identified the next available virtual circuit ID. It is allowed NMS manager to get the next available Virtual Circuit Id before created a new row into Virtual circuit Path Table." ::= { circuit 2 } vcpBaseTable OBJECT-TYPE SYNTAX SEQUENCE OF VcpBaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The base virtual circuit table contains the common information for both sides of circuit." ::= { circuit 3 } vcpBaseEntry OBJECT-TYPE SYNTAX VcpBaseEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Information of the base virtual circuit." INDEX { vcpSideAId, vcpSideBId } ::= { vcpBaseTable 1 } VcpBaseEntry ::= SEQUENCE { vcpSideAId INTEGER, vcpSideBId INTEGER, vcpLinkType VcpLinkType, vcpDescription DisplayString, vcpAdminStatus AdminStatus, vcpRowStatus INTEGER } vcpSideAId OBJECT-TYPE SYNTAX INTEGER (0..2147483647) ACCESS not-accessible STATUS mandatory DESCRIPTION "A unique value which identifies the SideA of circuit." ::= { vcpBaseEntry 1 } vcpSideBId OBJECT-TYPE SYNTAX INTEGER (0..2147483647) ACCESS not-accessible STATUS mandatory DESCRIPTION "A unique value which identifies the SideB of circuit." ::= { vcpBaseEntry 2 } vcpLinkType OBJECT-TYPE SYNTAX VcpLinkType ACCESS read-write STATUS mandatory DESCRIPTION "Vc Circuit Type indicated whether this circuit is Regular, Multicast, Management, Unicast, leaf." ::= { vcpBaseEntry 3 } vcpDescription OBJECT-TYPE SYNTAX DisplayString (SIZE(0..12)) ACCESS read-write STATUS mandatory DESCRIPTION "Vc description of circuits." DEFVAL { "" } ::= { vcpBaseEntry 4 } vcpAdminStatus OBJECT-TYPE SYNTAX AdminStatus ACCESS read-write STATUS mandatory DESCRIPTION "Vc administrative status." DEFVAL { in-service } ::= { vcpBaseEntry 5 } vcpRowStatus OBJECT-TYPE SYNTAX INTEGER { create (1), delete (2) } ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates the action to be taken by a set request." DEFVAL { create } ::= { vcpBaseEntry 6 } -- Multi/Non-multi cast Side Table circuit table vcpSideTable OBJECT-TYPE SYNTAX SEQUENCE OF VcpSideEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The side table contains the Side A or Side B of circuit information." ::= { circuit 4 } vcpSideEntry OBJECT-TYPE SYNTAX VcpSideEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Information of the base virtual circuit." INDEX { vcpSideId } ::= { vcpSideTable 1 } VcpSideEntry ::= SEQUENCE { vcpSideId INTEGER, vcpSideSlot INTEGER, vcpSidePort INTEGER, vcpSideTransmitVpi INTEGER, vcpSideTransmitVci INTEGER, vcpSideReceiveVpi INTEGER, vcpSideReceiveVci INTEGER, vcpSidePriority INTEGER, vcpSidePacketDiscard VcpPacketDiscard } vcpSideId OBJECT-TYPE SYNTAX INTEGER (0..2147483647) ACCESS not-accessible STATUS mandatory DESCRIPTION "unique number associated with virtual circuit." ::= { vcpSideEntry 1 } vcpSideSlot OBJECT-TYPE SYNTAX INTEGER (1..9) ACCESS read-write STATUS mandatory DESCRIPTION "Slot Number. This table does not have objects for ctx card (slot #2) and card (slot #3)." ::= { vcpSideEntry 2 } vcpSidePort OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Port number. The number of ports in each card depends on the type of card in that slot. Following is a list of cards and the port range of that cards: card type port range ----------- ---------- mcpu 1..1 ds3 1..1 ether 1..2 oc3 1..1 hssi 1..1 cbr-dsx-4 1..4 cbr-csu-4 1..4 cbr-e1-4 1..4 cbr-dsx-8 1..8 cbr-csu-8 1..8 cbr-e1-8 1..8 v-35-qsim 1..4 rs-422-qsim 1..4 hssi-qsim 1..1 e3 1..1" ::= { vcpSideEntry 3 } vcpSideTransmitVpi OBJECT-TYPE SYNTAX INTEGER (0..255) ACCESS read-write STATUS mandatory DESCRIPTION "Port card transmit vpi." ::= { vcpSideEntry 4 } vcpSideTransmitVci OBJECT-TYPE SYNTAX INTEGER (0..16383) ACCESS read-write STATUS mandatory DESCRIPTION "Port card transmit vci." ::= { vcpSideEntry 5 } vcpSideReceiveVpi OBJECT-TYPE SYNTAX INTEGER (0..255) ACCESS read-write STATUS mandatory DESCRIPTION "Port card receive vpi. The value range 0..255 applies when VPI-only translation is requested. Otherwise, its range is 0..15. If the value of an instance of this object is > 15, the value of the corresponding instance of vcPortReceiveVci MUST be 0 (VPI-only translation)." ::= { vcpSideEntry 6 } vcpSideReceiveVci OBJECT-TYPE SYNTAX INTEGER (0..1023) ACCESS read-write STATUS mandatory DESCRIPTION "Port card receive vci. If the value of this object is 0, VPI-only translation is requested." ::= { vcpSideEntry 7 } vcpSidePriority OBJECT-TYPE SYNTAX INTEGER (1..4) ACCESS read-write STATUS mandatory DESCRIPTION "Priority queue is to prioritize the circuit. The smallest number is the highest priority. The largest number is lowest priority. " ::= { vcpSideEntry 8 } vcpSidePacketDiscard OBJECT-TYPE SYNTAX VcpPacketDiscard ACCESS read-write STATUS mandatory DESCRIPTION "Packet Discard indicates whether this packet needs to drop off based on the threshold." DEFVAL { pkt-no } ::= { vcpSideEntry 9 } -- Multi/Non-multi cast Mapping Side Table table vcpMappingSideTable OBJECT-TYPE SYNTAX SEQUENCE OF VcpMappingSideEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The Mapping side table contains circuit Side information." ::= { circuit 5 } vcpMappingSideEntry OBJECT-TYPE SYNTAX VcpMappingSideEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Information of the base virtual circuit." INDEX { vcpMappingSideSlot, vcpMappingSidePort, vcpMappingSideAId, vcpMappingSideBId } ::= { vcpMappingSideTable 1 } VcpMappingSideEntry ::= SEQUENCE { vcpMappingSideSlot INTEGER, vcpMappingSidePort INTEGER, vcpMappingSideAId INTEGER, vcpMappingSideBId INTEGER, vcpMappingCardType CardType, vcpMappingFamCardType VcFamilyCardType, vcpMappingOtherCardType CardType, vcpMappingOtherFamCardType VcFamilyCardType } vcpMappingSideSlot OBJECT-TYPE SYNTAX INTEGER (1..9) ACCESS not-accessible STATUS mandatory DESCRIPTION "Slot Number. This table does not have objects for ctx card (slot #2) and card (slot #3)." ::= { vcpMappingSideEntry 1 } vcpMappingSidePort OBJECT-TYPE SYNTAX INTEGER ACCESS not-accessible STATUS mandatory DESCRIPTION "Port number. The number of ports in each card depends on the type of card in that slot. Following is a list of cards and the port range of that cards: card type port range ----------- ---------- mcpu 1..1 ds3 1..1 ether 1..2 oc3 1..1 hssi 1..1 cbr-dsx-4 1..4 cbr-csu-4 1..4 cbr-e1-4 1..4 cbr-dsx-8 1..8 cbr-csu-8 1..8 cbr-e1-8 1..8 v-35-qsim 1..4 rs-422-qsim 1..4 hssi-qsim 1..1 e3 1..1" ::= { vcpMappingSideEntry 2 } vcpMappingSideAId OBJECT-TYPE SYNTAX INTEGER (0..2147483647) ACCESS not-accessible STATUS mandatory DESCRIPTION "SideA ID is a unique number associated with virtual circuit." ::= { vcpMappingSideEntry 3 } vcpMappingSideBId OBJECT-TYPE SYNTAX INTEGER (0..2147483647) ACCESS not-accessible STATUS mandatory DESCRIPTION "SideB ID is a unique number associated with virtual circuit." ::= { vcpMappingSideEntry 4 } vcpMappingCardType OBJECT-TYPE SYNTAX CardType ACCESS read-only STATUS mandatory DESCRIPTION "card Type associated with mySide of circuit." ::= { vcpMappingSideEntry 5 } vcpMappingFamCardType OBJECT-TYPE SYNTAX VcFamilyCardType ACCESS read-only STATUS mandatory DESCRIPTION "Family Card Type associate with mySide of circuit." ::= { vcpMappingSideEntry 6 } vcpMappingOtherCardType OBJECT-TYPE SYNTAX CardType ACCESS read-only STATUS mandatory DESCRIPTION "Other Side of Card Type associate with the circuit." ::= { vcpMappingSideEntry 7 } vcpMappingOtherFamCardType OBJECT-TYPE SYNTAX VcFamilyCardType ACCESS read-only STATUS mandatory DESCRIPTION "Other Side of Family Card Type associate with the circuit." ::= { vcpMappingSideEntry 8 } -- fault group faultClearCurrentAlarms OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "A set request clears all entries in the current alarm table. A get/get-next request returns 0." ::= { fault 1 } faultClearHistoryAlarms OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "A set request clears all entries in the history alarm table. A get/get-next request returns 0." ::= { fault 2 } -- current (active) alarm table faultCurrentAlarmTable OBJECT-TYPE SYNTAX SEQUENCE OF FaultCurrentAlarmEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Current alarm table." ::= { fault 3 } faultCurrentAlarmEntry OBJECT-TYPE SYNTAX FaultCurrentAlarmEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Each entry in the table contains the information of a currently active alarm." INDEX { faultCurrentAlarmTag } ::= { faultCurrentAlarmTable 1 } FaultCurrentAlarmEntry ::= SEQUENCE { faultCurrentAlarmTag INTEGER, faultCurrentAlarmAlarmType AlarmType, faultCurrentAlarmSeverity INTEGER, faultCurrentAlarmCardType CardType, faultCurrentAlarmCardNumber INTEGER, faultCurrentAlarmPortNumber INTEGER, faultCurrentAlarmSetTime TimeAndDate, faultCurrentAlarmDescription DisplayString } faultCurrentAlarmTag OBJECT-TYPE SYNTAX INTEGER ACCESS not-accessible STATUS mandatory DESCRIPTION "The tag of the alarm in the current alarm table." ::= { faultCurrentAlarmEntry 1 } faultCurrentAlarmAlarmType OBJECT-TYPE SYNTAX AlarmType ACCESS read-only STATUS mandatory DESCRIPTION "Alarm type." ::= { faultCurrentAlarmEntry 2 } faultCurrentAlarmSeverity OBJECT-TYPE SYNTAX INTEGER { minor (2), major (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Alarm severity." ::= { faultCurrentAlarmEntry 3 } faultCurrentAlarmCardType OBJECT-TYPE SYNTAX CardType ACCESS read-only STATUS mandatory DESCRIPTION "Card type of the card which caused the alarm." ::= { faultCurrentAlarmEntry 4 } faultCurrentAlarmCardNumber OBJECT-TYPE SYNTAX INTEGER (1..6) ACCESS read-only STATUS mandatory DESCRIPTION "Slot number of the card which caused the alarm." ::= { faultCurrentAlarmEntry 5 } faultCurrentAlarmPortNumber OBJECT-TYPE SYNTAX INTEGER (1..8) ACCESS read-only STATUS mandatory DESCRIPTION "The port number of the card which caused the alarm." ::= { faultCurrentAlarmEntry 6 } faultCurrentAlarmSetTime OBJECT-TYPE SYNTAX TimeAndDate ACCESS read-only STATUS mandatory DESCRIPTION "The time when the alarm was set." ::= { faultCurrentAlarmEntry 7 } faultCurrentAlarmDescription OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A readable string which describes the alarm." ::= { faultCurrentAlarmEntry 8 } -- history alarm table faultHistoryAlarmTable OBJECT-TYPE SYNTAX SEQUENCE OF FaultHistoryAlarmEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "History/Information alarm table." ::= { fault 4 } faultHistoryAlarmEntry OBJECT-TYPE SYNTAX FaultHistoryAlarmEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Each entry in the history alarm table contains either a cleared alarm or an information alarm." INDEX { faultHistoryAlarmTag } ::= { faultHistoryAlarmTable 1 } FaultHistoryAlarmEntry ::= SEQUENCE { faultHistoryAlarmTag INTEGER, faultHistoryAlarmAlarmType AlarmType, faultHistoryAlarmSeverity INTEGER, faultHistoryAlarmCardType CardType, faultHistoryAlarmCardNumber INTEGER, faultHistoryAlarmPortNumber INTEGER, faultHistoryAlarmSetTime TimeAndDate, faultHistoryAlarmDescription DisplayString, faultHistoryAlarmClearTime TimeAndDate } faultHistoryAlarmTag OBJECT-TYPE SYNTAX INTEGER ACCESS not-accessible STATUS mandatory DESCRIPTION "The tag of the alarm in the history alarm table." ::= { faultHistoryAlarmEntry 1 } faultHistoryAlarmAlarmType OBJECT-TYPE SYNTAX AlarmType ACCESS read-only STATUS mandatory DESCRIPTION "Alarm type." ::= { faultHistoryAlarmEntry 2 } faultHistoryAlarmSeverity OBJECT-TYPE SYNTAX INTEGER { info (1), minor (2), major (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Severity of the alarm." ::= { faultHistoryAlarmEntry 3 } faultHistoryAlarmCardType OBJECT-TYPE SYNTAX CardType ACCESS read-only STATUS mandatory DESCRIPTION "Card type of the card which caused the alarm." ::= { faultHistoryAlarmEntry 4 } faultHistoryAlarmCardNumber OBJECT-TYPE SYNTAX INTEGER (1..6) ACCESS read-only STATUS mandatory DESCRIPTION "Slot number of the card which caused the alarm." ::= { faultHistoryAlarmEntry 5 } faultHistoryAlarmPortNumber OBJECT-TYPE SYNTAX INTEGER (1..8) ACCESS read-only STATUS mandatory DESCRIPTION "Port number of the card which caused the alarm." ::= { faultHistoryAlarmEntry 6 } faultHistoryAlarmSetTime OBJECT-TYPE SYNTAX TimeAndDate ACCESS read-only STATUS mandatory DESCRIPTION "The time when the alarm was set." ::= { faultHistoryAlarmEntry 7 } faultHistoryAlarmDescription OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A readable string which describes the alarm." ::= { faultHistoryAlarmEntry 8 } faultHistoryAlarmClearTime OBJECT-TYPE SYNTAX TimeAndDate ACCESS read-only STATUS mandatory DESCRIPTION "The time when the alarm was cleared." ::= { faultHistoryAlarmEntry 9 } END -- -- This MIB is used to support the enterprise-specific objects for QSIM, HSIM -- and FAM interface cards and QSIM is used to refer to the 3 interface cards. -- -- The following MIB groups are supported by all the interface cards (note: -- they all use "qsim" as prefix): -- -- qsimCard, qsimVc, qsimLmi, qsimSdlcVc, qsimDxiVc and qsimFrameRelayVc. -- -- qsimLmi and qsimFrameRelayVc groups are used for ports which support -- frame relay protocol. -- -- qsimSdlcVc group is used for ports which support SDLC protocol. -- -- qsimDxiVc group is used for ports which support DXI protocol. -- -- The following MIB groups are specific to each of the interface cards (note: -- they use "qsim" or "hsim" as prefix to distinguish the supporting card): -- -- qsimPort group is for QSIM interface card only. -- -- hsimPort group is for HSIM interface card only. -- C-PRODUCT-QSIM-MIB DEFINITIONS ::= BEGIN IMPORTS qsim FROM C-PRODUCT-GROUP-MIB cardSlot, portSlot, portNumber, vcpSideId FROM C-PRODUCT-BASE-MIB OBJECT-TYPE FROM RFC-1212; -- Data Types -- Pin status for V.35 ports PinStatus ::= INTEGER { off(1), on(2) } -- -- MIB Groups -- qsimCard OBJECT IDENTIFIER ::= { qsim 1 } qsimPort OBJECT IDENTIFIER ::= { qsim 2 } hsimPort OBJECT IDENTIFIER ::= { qsim 3 } -- The next statement apply only for Lodi Rel1.4 only qsimVc OBJECT IDENTIFIER ::= { qsim 4 } qsimLmi OBJECT IDENTIFIER ::= { qsim 6 } qsimNewVc OBJECT IDENTIFIER ::= { qsim 9 } -- The next 3 statements apply for Lodi Rel1.4 only qsimSdlcVc OBJECT IDENTIFIER ::= { qsimVc 1 } qsimDxiVc OBJECT IDENTIFIER ::= { qsimVc 2 } qsimFrameRelayVc OBJECT IDENTIFIER ::= { qsimVc 3 } -- The next 3 statements apply for Baja &Lodi Rel2.0 only qsimNewSdlcVc OBJECT IDENTIFIER ::= { qsimNewVc 1 } qsimNewDxiVc OBJECT IDENTIFIER ::= { qsimNewVc 2 } qsimNewFrameRelayVc OBJECT IDENTIFIER ::= { qsimNewVc 3 } -- -- Card Group (qsimCard) -- qsimCardTable OBJECT-TYPE SYNTAX SEQUENCE OF QsimCardEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Card configuration table." ::= { qsimCard 1 } qsimCardEntry OBJECT-TYPE SYNTAX QsimCardEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Card configuration entry." INDEX { cardSlot } ::= { qsimCardTable 1 } QsimCardEntry ::= SEQUENCE { qsimCardMaxFrameSize INTEGER } qsimCardMaxFrameSize OBJECT-TYPE SYNTAX INTEGER { mfs-2kb (1), mfs-4kb (2), mfs-8kb (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Maximum frame size for SDLC, DXI and Frame Relay frames. WARNING: Change of the Maximum Frame Size will cause Disruption of Service provided by the card." DEFVAL { mfs-2kb } ::= { qsimCardEntry 1 } -- -- QSIM-specific Port Group (qsimPortTable) -- qsimPortTable OBJECT-TYPE SYNTAX SEQUENCE OF QsimPortEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "QSIM port configuration table." ::= { qsimPort 1 } qsimPortEntry OBJECT-TYPE SYNTAX QsimPortEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "QSIM port configuration entry. The slot number (portSlot) of this card can be from 4 to 6. The port number (portNumber) can be from 1 to 4." INDEX { portSlot, portNumber } ::= { qsimPortTable 1 } QsimPortEntry ::= SEQUENCE { qsimPortLinkType INTEGER, qsimPortCableType INTEGER, qsimPortTermTimingSource INTEGER, qsimPortReceiveTimingPhase INTEGER, qsimPortDataRate INTEGER, qsimPortMinFlagBytes INTEGER, qsimPortFcsSize INTEGER, qsimPortRts PinStatus, qsimPortCts PinStatus, qsimPortDcd PinStatus, qsimPortDsr PinStatus } qsimPortLinkType OBJECT-TYPE SYNTAX INTEGER { dxi (1), sdlc (2), frame-relay (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Link layer protocol supported by the port." DEFVAL { dxi } ::= { qsimPortEntry 1 } qsimPortCableType OBJECT-TYPE SYNTAX INTEGER { none (1), -- cable not detected dte (2), -- dte cable is detected dce (3) } -- dce cable is detected ACCESS read-only STATUS mandatory DESCRIPTION "Type of cable connected to the port." ::= { qsimPortEntry 2 } qsimPortTermTimingSource OBJECT-TYPE SYNTAX INTEGER { internal (1), external (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Terminal timing source. This object applies ONLY when a DCE cable is connected to the port. If cable type is 'none' or 'dce', this object can be read and written. If cable type is 'dte', a get request returns whatever value currently stored in the managed node for this port and a set request returns genErr." DEFVAL { internal } ::= { qsimPortEntry 3 } qsimPortReceiveTimingPhase OBJECT-TYPE SYNTAX INTEGER { normal (1), inverted (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Receive timing phase control. This object applies ONLY when a DCE cable is connected to the port. If cable type is 'none' or 'dce', this object can be read and written. If cable type is 'dte', a get request returns whatever value currently stored in the managed node for this port and a set request returns genErr." DEFVAL { normal } ::= { qsimPortEntry 4 } qsimPortDataRate OBJECT-TYPE SYNTAX INTEGER { dr-64k (1), dr-128k (2), dr-256k (3), dr-512k (4), dr-1m (5), dr-2m (6), dr-4m (7), dr-8m (8) } ACCESS read-write STATUS mandatory DESCRIPTION "Data rate supported by the port." DEFVAL { dr-2m } ::= { qsimPortEntry 5 } qsimPortMinFlagBytes OBJECT-TYPE SYNTAX INTEGER { fb-1 (1), -- 1 flag byte fb-2 (2) } -- 2 flag bytes ACCESS read-write STATUS mandatory DESCRIPTION "Minimum flag bytes required to distinguish a frame." DEFVAL { fb-1 } ::= { qsimPortEntry 6 } qsimPortFcsSize OBJECT-TYPE SYNTAX INTEGER { fcs-2 (1), -- 2-byte FCS field fcs-4 (2) } -- 4-byte FCS field ACCESS read-write STATUS mandatory DESCRIPTION "Number of bytes in the FCS field of a frame." DEFVAL { fcs-2 } ::= { qsimPortEntry 7 } qsimPortRts OBJECT-TYPE SYNTAX PinStatus ACCESS read-only STATUS mandatory DESCRIPTION "RTS pin status." ::= { qsimPortEntry 8 } qsimPortCts OBJECT-TYPE SYNTAX PinStatus ACCESS read-only STATUS mandatory DESCRIPTION "CTS pin status." ::= { qsimPortEntry 9 } qsimPortDcd OBJECT-TYPE SYNTAX PinStatus ACCESS read-only STATUS mandatory DESCRIPTION "DCD pin status." ::= { qsimPortEntry 10 } qsimPortDsr OBJECT-TYPE SYNTAX PinStatus ACCESS read-only STATUS mandatory DESCRIPTION "DSR pin status." ::= { qsimPortEntry 11 } -- -- HSIM-specific Port Group (hsimPortTable) -- hsimPortTable OBJECT-TYPE SYNTAX SEQUENCE OF HsimPortEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "HSIM port configuration table." ::= { hsimPort 1 } hsimPortEntry OBJECT-TYPE SYNTAX HsimPortEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "HSIM port configuration entry. The slot number (portSlot) of this card can be from 4 to 6. The port number (portNumber) of this card is always 1." INDEX { portSlot, portNumber } ::= { hsimPortTable 1 } HsimPortEntry ::= SEQUENCE { hsimPortLinkType INTEGER, hsimPortDceDteMode INTEGER, hsimPortDataRate INTEGER, hsimPortMinFlagBytes INTEGER, hsimPortFcsSize INTEGER, hsimPortTa PinStatus, hsimPortCa PinStatus } hsimPortLinkType OBJECT-TYPE SYNTAX INTEGER { dxi (1), sdlc (2), frame-relay (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Link layer protocol supported by the port." DEFVAL { dxi } ::= { hsimPortEntry 1 } hsimPortDceDteMode OBJECT-TYPE SYNTAX INTEGER { dce (1), dte (2) } ACCESS read-write STATUS mandatory DESCRIPTION "DCE/DTE mode of the port." DEFVAL { dce } ::= { hsimPortEntry 2 } hsimPortDataRate OBJECT-TYPE SYNTAX INTEGER { dr-20m (1) } ACCESS read-only STATUS mandatory DESCRIPTION "Data rate supported by the port." ::= { hsimPortEntry 3 } hsimPortMinFlagBytes OBJECT-TYPE SYNTAX INTEGER { fb-1 (1), -- 1 flag byte fb-2 (2) } -- 2 flag bytes ACCESS read-write STATUS mandatory DESCRIPTION "Minimum flag bytes required to distinguish a frame." DEFVAL { fb-1 } ::= { hsimPortEntry 4 } hsimPortFcsSize OBJECT-TYPE SYNTAX INTEGER { fcs-2 (1), -- 2-byte FCS field fcs-4 (2) } -- 4-byte FCS field ACCESS read-write STATUS mandatory DESCRIPTION "Number of bytes in the FCS field of a frame." DEFVAL { fcs-2 } ::= { hsimPortEntry 5 } hsimPortTa OBJECT-TYPE SYNTAX PinStatus ACCESS read-only STATUS mandatory DESCRIPTION "TA pin status." ::= { hsimPortEntry 6 } hsimPortCa OBJECT-TYPE SYNTAX PinStatus ACCESS read-only STATUS mandatory DESCRIPTION "CA pin status." ::= { hsimPortEntry 7 } -- This method is only used for Lodi 1.4 & is not applicable for -- future releases as it will become obsolete. -- SDLC VC Group (qsimSdlcVc) -- DXI VC Group (qsimDxiVc) -- Frame Relay VC Group (qsimFrameRelayVc) -- -- LMI Group (qsimLmiTable) -- qsimLmiTable OBJECT-TYPE SYNTAX SEQUENCE OF QsimLmiEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "LMI configuration table." ::= { qsimLmi 1 } qsimLmiEntry OBJECT-TYPE SYNTAX QsimLmiEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "LMI configuration entry. The slot number (portSlot) should be from 4 to 6. The port number (portNumber) is from 1 to 4 for QSIM card, 1 to 8 for FAM card, and 1 for HSIM card." INDEX { portSlot, portNumber } ::= { qsimLmiTable 1 } QsimLmiEntry ::= SEQUENCE { qsimLmiProtocol INTEGER, qsimLmiProcedure INTEGER, qsimLmiUserT391 INTEGER, qsimLmiUserN391 INTEGER, qsimLmiUserN392 INTEGER, qsimLmiUserN393 INTEGER, qsimLmiNetworkT392 INTEGER, qsimLmiNetworkN392 INTEGER, qsimLmiNetworkN393 INTEGER } qsimLmiProtocol OBJECT-TYPE SYNTAX INTEGER { none (1), q-933a (2), t1-617d (3) } ACCESS read-write STATUS mandatory DESCRIPTION "LMI protocol supported by the port." DEFVAL { none } ::= { qsimLmiEntry 1 } qsimLmiProcedure OBJECT-TYPE SYNTAX INTEGER { user-side (1), network-side (2), bidirectional (3) } ACCESS read-write STATUS mandatory DESCRIPTION "LMI procedure supported by the port. This object applies when LMI Q.933 Annex A or T1.617 Annex D protocol is selected." DEFVAL { network-side } ::= { qsimLmiEntry 2 } qsimLmiUserT391 OBJECT-TYPE SYNTAX INTEGER (5..180) ACCESS read-write STATUS mandatory DESCRIPTION "User-side link integrity verification (LIV) polling timer. This object applies when LMI user-side or bidirectional procedure is selected." DEFVAL { 10 } ::= { qsimLmiEntry 3 } qsimLmiUserN391 OBJECT-TYPE SYNTAX INTEGER (1..255) ACCESS read-write STATUS mandatory DESCRIPTION "User-side full status polling counter. This object applies when LMI user-side or bidirectional procedure is selected." DEFVAL { 6 } ::= { qsimLmiEntry 4 } qsimLmiUserN392 OBJECT-TYPE SYNTAX INTEGER (1..10) ACCESS read-write STATUS mandatory DESCRIPTION "User-side error threshold. This object applies when LMI user-side or bidirectional procedure is selected. User-side N392 should be less than or equal to user- side N393." DEFVAL { 3 } ::= { qsimLmiEntry 5 } qsimLmiUserN393 OBJECT-TYPE SYNTAX INTEGER (1..10) ACCESS read-write STATUS mandatory DESCRIPTION "User-side monitored events count. This object applies when LMI user-side or bidirectional procedure is selected." DEFVAL { 4 } ::= { qsimLmiEntry 6 } qsimLmiNetworkT392 OBJECT-TYPE SYNTAX INTEGER (5..200) ACCESS read-write STATUS mandatory DESCRIPTION "Network-side polling verification timer. This object applies when LMI network-side or bidirectional procedure is selected." DEFVAL { 15 } ::= { qsimLmiEntry 7 } qsimLmiNetworkN392 OBJECT-TYPE SYNTAX INTEGER (1..10) ACCESS read-write STATUS mandatory DESCRIPTION "Network-side error threshold. This object applies when LMI network-side or bidirectional procedure is selected. Network-side N392 should be less than or equal to Network- side N393." DEFVAL { 3 } ::= { qsimLmiEntry 8 } qsimLmiNetworkN393 OBJECT-TYPE SYNTAX INTEGER (1..10) ACCESS read-write STATUS mandatory DESCRIPTION "Network-side monitored events count. This object applies when LMI network-side or bidirectional procedure is selected." DEFVAL { 4 } ::= { qsimLmiEntry 9 } -- New SDLC VC Group (qsimNewSdlcVc) -- Is only aplicable for Baja & Lodi Release 2.0 onwards -- This table is used to access the VC's on the ports whose link type is SDLC. -- qsimNewSdlcVcTable OBJECT-TYPE SYNTAX SEQUENCE OF QsimNewSdlcVcEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "SDLC VC configuration table." ::= { qsimNewSdlcVc 1 } qsimNewSdlcVcEntry OBJECT-TYPE SYNTAX QsimNewSdlcVcEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "SDLC VC configuration entry. The slot number (vcPortSlot) of the VC can be from 4 to maxslots. The port number (vcPortPort) can be from 1 to 4." INDEX { vcpSideId } ::= { qsimNewSdlcVcTable 1 } QsimNewSdlcVcEntry ::= SEQUENCE { qsimNewSdlcVcShapper INTEGER } qsimNewSdlcVcShapper OBJECT-TYPE SYNTAX INTEGER (1..13) ACCESS read-write STATUS mandatory DESCRIPTION "Data rate supported by the SDLC VC. Depending on the type of card a VC is configured, the shapper numbers are assigned as follows: HSIM QSIM data rate data rate shapper number --------- --------- -------------- 1.5m 64k 1 3m 128k 2 4.5m 192k 3 6m 256k 4 7.5m 384k 5 9m 512k 6 10.5m 640k 7 12m 768k 8 13.5m 1m 9 15m 1.5m 10 16.5m 2m 11 18m 4m 12 20m 8m 13 " ::= { qsimNewSdlcVcEntry 1 } -- -- DXI VC Group (qsimNewDxiVc) -- -- This table is used to access the VC's on the ports whose link type is DXI. -- qsimNewDxiVcTable OBJECT-TYPE SYNTAX SEQUENCE OF QsimNewDxiVcEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "DXI VC configuration table." ::= { qsimNewDxiVc 1 } qsimNewDxiVcEntry OBJECT-TYPE SYNTAX QsimNewDxiVcEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "DXI VC configuration entry. The slot number (vcPortSlot) of the VC can be from 4 to 6. The port number (vcPortPort) can be from 1 to 4." INDEX { vcpSideId } ::= { qsimNewDxiVcTable 1 } QsimNewDxiVcEntry ::= SEQUENCE { qsimNewDxiVcDfaVpi INTEGER, qsimNewDxiVcDfaVci INTEGER, qsimNewDxiVcDfaVciRange INTEGER, qsimNewDxiVcShapper INTEGER } qsimNewDxiVcDfaVpi OBJECT-TYPE SYNTAX INTEGER (0..15) ACCESS read-write STATUS mandatory DESCRIPTION "DXI DFA VPI." ::= { qsimNewDxiVcEntry 1 } qsimNewDxiVcDfaVci OBJECT-TYPE SYNTAX INTEGER (0..63) ACCESS read-write STATUS mandatory DESCRIPTION "DXI DFA VCI." ::= { qsimNewDxiVcEntry 2 } qsimNewDxiVcDfaVciRange OBJECT-TYPE SYNTAX INTEGER (1..64) ACCESS read-write STATUS mandatory DESCRIPTION "DXI VCI range. This object is used to create a set of VCs whose VPI equals to the value of the instance of qsimDxiVcDfaVpi and whose VCIs are in the range FROM 'the value of the instance of qsimDxiVcDfaVci' TO 'the value of the instance of this object PLUS the value of the instance of qsiDxiVcDfaVci MINUS 1'. A successful set request will generate 1 to N VC entries in this table. Where N equals to the value of the instance of this object. A get request always returns 1." DEFVAL { 1 } ::= { qsimNewDxiVcEntry 3 } qsimNewDxiVcShapper OBJECT-TYPE SYNTAX INTEGER (1..13) ACCESS read-write STATUS mandatory DESCRIPTION "Data rate supported by the DXI VC. Depending on the type of card a VC is configured, the shapper numbers are assigned as follows: HSIM QSIM data rate data rate shapper number --------- --------- -------------- 1.5m 64k 1 3m 128k 2 4.5m 192k 3 6m 256k 4 7.5m 384k 5 9m 512k 6 10.5m 640k 7 12m 768k 8 13.5m 1m 9 15m 1.5m 10 16.5m 2m 11 18m 4m 12 20m 8m 13 " ::= { qsimNewDxiVcEntry 4 } -- -- Frame Relay VC Group (qsimNewFrameRelayVc) -- -- This table is used to access the VC's on the ports whose link type is -- frame relay. -- qsimNewFrameRelayVcTable OBJECT-TYPE SYNTAX SEQUENCE OF QsimNewFrameRelayVcEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Frame relay VC configuration table." ::= { qsimNewFrameRelayVc 1 } qsimNewFrameRelayVcEntry OBJECT-TYPE SYNTAX QsimNewFrameRelayVcEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Frame relay VC configuration entry. The slot number (vcPortSlot) of the VC can be from 4 to maxslots. The port number (vcPortPort) can be from 1 to 4." INDEX { vcpSideId } ::= { qsimNewFrameRelayVcTable 1 } QsimNewFrameRelayVcEntry ::= SEQUENCE { qsimNewFrameRelayVcInterworking INTEGER, qsimNewFrameRelayVcEncapsulation INTEGER, qsimNewFrameRelayVcDe2Clp INTEGER, qsimNewFrameRelayVcClp2De INTEGER, qsimNewFrameRelayVcFecnToEfci INTEGER, qsimNewFrameRelayVcShapper INTEGER, qsimNewFrameRelayVcDlci INTEGER, qsimNewFrameRelayVcFrSscsDlci INTEGER, qsimNewFrameRelayVcStatus INTEGER } qsimNewFrameRelayVcInterworking OBJECT-TYPE SYNTAX INTEGER { network (1), -- network interworking service (2) } -- service interworking ACCESS read-write STATUS mandatory DESCRIPTION "Frame Relay/ATM interworking mode." ::= { qsimNewFrameRelayVcEntry 1 } qsimNewFrameRelayVcEncapsulation OBJECT-TYPE SYNTAX INTEGER { transparent (1), translation (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Encapsulation type. This object applies ONLY to service interworking." ::= { qsimNewFrameRelayVcEntry 2 } qsimNewFrameRelayVcDe2Clp OBJECT-TYPE SYNTAX INTEGER { direct (1), always-0 (2), always-1 (3) } ACCESS read-write STATUS mandatory DESCRIPTION "If mode 1 mapping is desirable, the user shall select direct mapping. If mode 2 mapping is desirable, the user shall select always-0 or always-1 to map the CLP field to a constant value (0 or 1)." ::= { qsimNewFrameRelayVcEntry 3 } qsimNewFrameRelayVcClp2De OBJECT-TYPE SYNTAX INTEGER { none (1), direct (2), always-0 (3), always-1 (4) } ACCESS read-write STATUS mandatory DESCRIPTION "For network interworking - The options are none and direct. If mode 1 mapping is desirable, the user shall select direct mapping. If mode 2 mapping is desirable, the user shall select none. The none option maps the DE field in FR-SSCS PDU to the core-Q.922 frame DE field and ignores the CLP field in the ATM cells. For service interworking - The options are direct, always-0 and always-1. If mode 1 mapping is desirable, the user shall select direct mapping. If mode 2 mapping is desirable, the user shall select always-0 or always-1 to map the DE field to a constant value (0 or 1)." ::= { qsimNewFrameRelayVcEntry 4 } qsimNewFrameRelayVcFecnToEfci OBJECT-TYPE SYNTAX INTEGER { direct (1), always-0 (2) } ACCESS read-write STATUS mandatory DESCRIPTION "This object applies ONLY to service interworking. If mode 1 mapping is desirable, direct mapping should be selected. If mode 2 mapping is desirable, always-0 should be selected to set the EFCI field to 'congestion not experienced'." ::= { qsimNewFrameRelayVcEntry 5 } qsimNewFrameRelayVcShapper OBJECT-TYPE SYNTAX INTEGER (1..13) ACCESS read-write STATUS mandatory DESCRIPTION "Data rate supported by the frame relay VC. Depending on the type of card a VC is configured, the shapper numbers are assigned as follows: HSIM QSIM data rate data rate shapper number --------- --------- -------------- 1.5m 64k 1 3m 128k 2 4.5m 192k 3 6m 256k 4 7.5m 384k 5 9m 512k 6 10.5m 640k 7 12m 768k 8 13.5m 1m 9 15m 1.5m 10 16.5m 2m 11 18m 4m 12 20m 8m 13 " ::= { qsimNewFrameRelayVcEntry 6 } qsimNewFrameRelayVcDlci OBJECT-TYPE SYNTAX INTEGER (16..991) ACCESS read-write STATUS mandatory DESCRIPTION "Frame relay DLCI." ::= { qsimNewFrameRelayVcEntry 7 } qsimNewFrameRelayVcFrSscsDlci OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "This object applies ONLY to network interworking. Its valid value is 16..991 and 1022." ::= { qsimNewFrameRelayVcEntry 8 } qsimNewFrameRelayVcStatus OBJECT-TYPE SYNTAX INTEGER { out-of-service (1), in-service (2), not-configured (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Frame relay PVC operational status." ::= { qsimNewFrameRelayVcEntry 9 } END C-PRODUCT-SIM-STAT-MIB DEFINITIONS ::= BEGIN IMPORTS qsim FROM C-PRODUCT-GROUP-MIB TimeAndDate, portSlot, portNumber, vcpSideId FROM C-PRODUCT-BASE-MIB Counter FROM RFC1155-SMI OBJECT-TYPE FROM RFC-1212; -- Data Types -- Serial Interface Module (SIM) Statistics groups simStat OBJECT IDENTIFIER ::= { qsim 5 } -- cover qsim, hsim, etc. simPortStat OBJECT IDENTIFIER ::= { simStat 1 } simAtmVcStat OBJECT IDENTIFIER ::= { simStat 2 } simDxiVcStat OBJECT IDENTIFIER ::= { simStat 3 } simFrameRelayVcStat OBJECT IDENTIFIER ::= { simStat 4 } simLmiStat OBJECT IDENTIFIER ::= { simStat 5 } simNewAtmVcStat OBJECT IDENTIFIER ::= { simStat 6 } simNewDxiVcStat OBJECT IDENTIFIER ::= { simStat 7 } simNewFrameRelayVcStat OBJECT IDENTIFIER ::= { simStat 8 } -- Serial Interface Module Port Statistics subgroup (simPortStat) -- This table is used to access the frame statistics on the ports. -- This group should cover a variety of port types including -- QSIM(V.35, RS422), HSIM, and (OSIM)8-port T1 simPortStatTable OBJECT-TYPE SYNTAX SEQUENCE OF SimPortStatEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The Serial Interface Module Port Statistics table. " ::= { simPortStat 1 } simPortStatEntry OBJECT-TYPE SYNTAX SimPortStatEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Information about a Serial Interface Module Port Statistics. The slot number (portSlot) of this card can be from 4 to 6. The port number (portNumber) can be from 1 to 4 for QSIM, 1 for HSIM, and from 1 to 8 for OSIM." INDEX { portSlot, portNumber } ::= { simPortStatTable 1 } SimPortStatEntry ::= SEQUENCE { simPortClrStatCmd INTEGER, simPortClrStatTime TimeAndDate, simPortRxFrames Counter, simPortTxFrames Counter, simPortInvalidFrames Counter, simPortCongestedFrames Counter, simPortRxOctets Counter, simPortTxOctets Counter, simPortRxFcsErrs Counter } simPortClrStatCmd OBJECT-TYPE SYNTAX INTEGER { clear (1) } ACCESS read-write STATUS mandatory DESCRIPTION "This is issued to clear all statistics of this port. The current time will be stored at simPortClrStatTime." ::= { simPortStatEntry 1 } simPortClrStatTime OBJECT-TYPE SYNTAX TimeAndDate ACCESS read-only STATUS mandatory DESCRIPTION "The time when the last statistics was clear." ::= { simPortStatEntry 2 } simPortRxFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Total received frames with good FCS at this port since last counter reset." ::= { simPortStatEntry 3 } simPortTxFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Total transmitted frames at this port since last counter reset. These frames were transmitted successfuly." ::= { simPortStatEntry 4 } simPortInvalidFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Total received invalid frames at this port since last counter reset. These frames are received with good FCS but can not be processed due to wrong content." ::= { simPortStatEntry 5 } simPortCongestedFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Total congested frames at this port since last counter reset. These frames were not transmitted due to link congestion." ::= { simPortStatEntry 6 } simPortRxOctets OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Total received octets with good FCS at this port since last counter reset." ::= { simPortStatEntry 7 } simPortTxOctets OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Total transmitted octets at this port since last counter reset." ::= { simPortStatEntry 8 } simPortRxFcsErrs OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Total received frames with bad FCS at this port since last counter reset." ::= { simPortStatEntry 9 } -- Serial Interface Module ATM VC Statistics subgroup (simAtmVcStat) -- This table is used to access the frame statistics on ATM VCs. -- This group should cover a variety of port types including -- QSIM(V.35, RS422), HSIM, and (OSIM)8-port T1 -- This table is for AB9300 & AB9600 Rel2.0 onwards simNewAtmVcStatTable OBJECT-TYPE SYNTAX SEQUENCE OF SimNewAtmVcStatEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The Serial Interface Module ATM VC Statistics table. " ::= { simNewAtmVcStat 1 } simNewAtmVcStatEntry OBJECT-TYPE SYNTAX SimNewAtmVcStatEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Information about a Serial Interface Module ATM VC Statistics. The slot number (portSlot) of this card can be from 4 to 6. The port number (portNumber) can be from 1 to 4 for QSIM, 1 for HSIM, and from 1 to 8 for OSIM." INDEX { vcpSideId } ::= { simNewAtmVcStatTable 1 } SimNewAtmVcStatEntry ::= SEQUENCE { simNewAtmVcClrStatCmd INTEGER, simNewAtmVcClrStatTime TimeAndDate, simNewAtmVcRxFrames Counter, simNewAtmVcTxFrames Counter, simNewAtmVcInvalidFrames Counter, simNewAtmVcCongestedFrames Counter } simNewAtmVcClrStatCmd OBJECT-TYPE SYNTAX INTEGER { clear (1) } ACCESS read-write STATUS mandatory DESCRIPTION "This is issued to clear all statistics of this ATM VC. The current time will be stored at simNewAtmVcClrStatTime." ::= { simNewAtmVcStatEntry 1 } simNewAtmVcClrStatTime OBJECT-TYPE SYNTAX TimeAndDate ACCESS read-only STATUS mandatory DESCRIPTION "The time when the last statistics was clear." ::= { simNewAtmVcStatEntry 2 } simNewAtmVcRxFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Total received frames at this ATM VC since last counter reset." ::= { simNewAtmVcStatEntry 3 } simNewAtmVcTxFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Total transmitted frames at this ATM VC since last counter reset. These frames were transmitted successfuly." ::= { simNewAtmVcStatEntry 4 } simNewAtmVcInvalidFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Total received invalid frames at this ATM VC since last counter reset. These frames are received with good VC id but can not be processed due to wrong content." ::= { simNewAtmVcStatEntry 5 } simNewAtmVcCongestedFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Total congested frames at this ATM VC since last counter reset. These frames were not transmitted due to link congestion." ::= { simNewAtmVcStatEntry 6 } -- Serial Interface Module DXI VC Statistics subgroup (simDxiVcStat) -- This table is used to access the frame statistics on DXI VCs. -- This group should cover a variety of port types including -- QSIM(V.35, RS422), HSIM, and (OSIM)8-port T1 -- This new table is for AB9600 Rel 2.0 & AB9300 simNewDxiVcStatTable OBJECT-TYPE SYNTAX SEQUENCE OF SimNewDxiVcStatEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The Serial Interface Module DXI VC Statistics table. " ::= { simNewDxiVcStat 1 } simNewDxiVcStatEntry OBJECT-TYPE SYNTAX SimNewDxiVcStatEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Information about a Serial Interface Module DXI VC Statistics. The slot number (portSlot) of this card can be from 4 to 6. The port number (portNumber) can be from 1 to 4 for QSIM, 1 for HSIM, and from 1 to 8 for OSIM." INDEX { vcpSideId } ::= { simNewDxiVcStatTable 1 } SimNewDxiVcStatEntry ::= SEQUENCE { simNewDxiVcClrStatCmd INTEGER, simNewDxiVcClrStatTime TimeAndDate, simNewDxiVcRxFrames Counter, simNewDxiVcTxFrames Counter, simNewDxiVcInvalidFrames Counter, simNewDxiVcCongestedFrames Counter, simNewDxiVcRxOctets Counter, simNewDxiVcTxOctets Counter, simNewDxiVcRxClp Counter } simNewDxiVcClrStatCmd OBJECT-TYPE SYNTAX INTEGER { clear (1) } ACCESS read-write STATUS mandatory DESCRIPTION "This is issued to clear all statistics of this DXI VC. The current time will be stored at simDxiVcClrStatTime." ::= { simNewDxiVcStatEntry 1 } simNewDxiVcClrStatTime OBJECT-TYPE SYNTAX TimeAndDate ACCESS read-only STATUS mandatory DESCRIPTION "The time when the last statistics was clear." ::= { simNewDxiVcStatEntry 2 } simNewDxiVcRxFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Total received frames at this DXI VC since last counter reset." ::= { simNewDxiVcStatEntry 3 } simNewDxiVcTxFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Total transmitted frames at this DXI VC since last counter reset. These frames were transmitted successfuly." ::= { simNewDxiVcStatEntry 4 } simNewDxiVcInvalidFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Total received invalid frames at this DXI VC since last counter reset. These frames are received with good VC id but can not be processed due to wrong content." ::= { simNewDxiVcStatEntry 5 } simNewDxiVcCongestedFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Total congested frames at this DXI VC since last counter reset. These frames were not transmitted due to link congestion." ::= { simNewDxiVcStatEntry 6 } simNewDxiVcRxOctets OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Total received octets at this DXI VC since last counter reset." ::= { simNewDxiVcStatEntry 7 } simNewDxiVcTxOctets OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Total transmitted octets at this DXI VC since last counter reset." ::= { simNewDxiVcStatEntry 8 } simNewDxiVcRxClp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Total received frames with CLP bit set at this DXI VC since last counter reset." ::= { simNewDxiVcStatEntry 9 } -- Serial Interface Module FR VC Statistics subgroup (simFrameRelayVcStat) -- This table is used to access the frame statistics on FR VCs. -- This group should cover a variety of port types including -- QSIM(V.35, RS422), HSIM, and (OSIM)8-port T1 simNewFrameRelayVcStatTable OBJECT-TYPE SYNTAX SEQUENCE OF SimNewFrameRelayVcStatEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The Serial Interface Module FR VC Statistics table. " ::= { simNewFrameRelayVcStat 1 } simNewFrameRelayVcStatEntry OBJECT-TYPE SYNTAX SimNewFrameRelayVcStatEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Information about a Serial Interface Module FR VC Statistics. The slot number (portSlot) of this card can be from 4 to 6. The port number (portNumber) can be from 1 to 4 for QSIM, 1 for HSIM, and from 1 to 8 for OSIM." INDEX { vcpSideId } ::= { simNewFrameRelayVcStatTable 1 } SimNewFrameRelayVcStatEntry ::= SEQUENCE { simNewFrameRelayVcClrStatCmd INTEGER, simNewFrameRelayVcClrStatTime TimeAndDate, simNewFrameRelayVcRxFrames Counter, simNewFrameRelayVcTxFrames Counter, simNewFrameRelayVcInvalidFrames Counter, simNewFrameRelayVcCongestedFrames Counter, simNewFrameRelayVcRxOctets Counter, simNewFrameRelayVcTxOctets Counter, simNewFrameRelayVcRxDe Counter, simNewFrameRelayVcRxFecn Counter, simNewFrameRelayVcRxBecn Counter } simNewFrameRelayVcClrStatCmd OBJECT-TYPE SYNTAX INTEGER { clear (1) } ACCESS read-write STATUS mandatory DESCRIPTION "This is issued to clear all statistics of this FR VC. The current time will be stored at simNewFrameRelayVcClrStatTime." ::= { simNewFrameRelayVcStatEntry 1 } simNewFrameRelayVcClrStatTime OBJECT-TYPE SYNTAX TimeAndDate ACCESS read-only STATUS mandatory DESCRIPTION "The time when the last statistics was clear." ::= { simNewFrameRelayVcStatEntry 2 } simNewFrameRelayVcRxFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Total received frames at this FR VC since last counter reset." ::= { simNewFrameRelayVcStatEntry 3 } simNewFrameRelayVcTxFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Total transmitted frames at this FR VC since last counter reset. These frames were transmitted successfuly." ::= { simNewFrameRelayVcStatEntry 4 } simNewFrameRelayVcInvalidFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Total received invalid frames at this FR VC since last counter reset. These frames are received with good VC id but can not be processed due to wrong content." ::= { simNewFrameRelayVcStatEntry 5 } simNewFrameRelayVcCongestedFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Total congested frames at this FR VC since last counter reset. These frames were not transmitted due to link congestion." ::= { simNewFrameRelayVcStatEntry 6 } simNewFrameRelayVcRxOctets OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Total received octets at this FR VC since last counter reset." ::= { simNewFrameRelayVcStatEntry 7 } simNewFrameRelayVcTxOctets OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Total transmitted octets at this FR VC since last counter reset." ::= { simNewFrameRelayVcStatEntry 8 } simNewFrameRelayVcRxDe OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Total received frames with DE bit set at this FR VC since last counter reset." ::= { simNewFrameRelayVcStatEntry 9 } simNewFrameRelayVcRxFecn OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Total received frames with FECN bit set at this FR VC since last counter reset." ::= { simNewFrameRelayVcStatEntry 10 } simNewFrameRelayVcRxBecn OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Total received frames with BECN bit set at this FR VC since last counter reset." ::= { simNewFrameRelayVcStatEntry 11 } -- -- LMI statistics group (simLmiStatTable) -- simLmiStatTable OBJECT-TYPE SYNTAX SEQUENCE OF SimLmiStatEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "LMI statistics table." ::= { simLmiStat 1 } simLmiStatEntry OBJECT-TYPE SYNTAX SimLmiStatEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "LMI statistics entry. The slot index (portSlot) of this entry can be from 4 to 6. The port index (portNumber) can be from 1 to 8 for FAM, 1 to 4 for QSIM and 1 for HSIM." INDEX { portSlot, portNumber } ::= { simLmiStatTable 1 } SimLmiStatEntry ::= SEQUENCE { simLmiClrStatCmd INTEGER, simLmiClrStatTime TimeAndDate, simLmiReceivedFrames Counter, simLmiDiscardedFrames Counter, simLmiUserLivTimeouts Counter, simLmiUserXmtLivRequests Counter, simLmiUserRcvLivResponses Counter, simLmiUserXmtFullStatusRequests Counter, simLmiUserRcvFullStatusResponses Counter, simLmiUserLossSeqNumSyncs Counter, simLmiUserRcvUnconfigPvcs Counter, simLmiNetworkPvTimeouts Counter, simLmiNetworkRcvLivRequests Counter, simLmiNetworkXmtLivResponses Counter, simLmiNetworkRcvFullStatusRequests Counter, simLmiNetworkXmtFullStatusResponses Counter, simLmiNetworkLossSeqNumSyncs Counter } simLmiClrStatCmd OBJECT-TYPE SYNTAX INTEGER { clear (1) } ACCESS read-write STATUS mandatory DESCRIPTION "This is a command to clear all LMI statistics. This object applies when LMI protocol is not 'none'." ::= { simLmiStatEntry 1 } simLmiClrStatTime OBJECT-TYPE SYNTAX TimeAndDate ACCESS read-only STATUS mandatory DESCRIPTION "The time when the last LMI statistics was cleared. This object applies when LMI protocol is not 'none'." ::= { simLmiStatEntry 2 } simLmiReceivedFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Received LMI frames. This object applies when LMI protocol is not 'none'." ::= { simLmiStatEntry 3 } simLmiDiscardedFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Discarded LMI frames. This object applies when LMI protocol is not 'none'." ::= { simLmiStatEntry 4 } simLmiUserLivTimeouts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "User-side LIV timeouts. This object applies when LMI procedure is user-side or bidirectional." ::= { simLmiStatEntry 5 } simLmiUserXmtLivRequests OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "User-side LIV requests. This object applies when LMI procedure is user-side or bidirectional." ::= { simLmiStatEntry 6 } simLmiUserRcvLivResponses OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "User-side LIV responses. This object applies when LMI procedure is user-side or bidirectional." ::= { simLmiStatEntry 7 } simLmiUserXmtFullStatusRequests OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "User-side full status requests. This object applies when LMI procedure is user-side or bidirectional." ::= { simLmiStatEntry 8 } simLmiUserRcvFullStatusResponses OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "User-side full status responses. This object applies when LMI procedure is user-side or bidirectional." ::= { simLmiStatEntry 9 } simLmiUserLossSeqNumSyncs OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "User-side loss of sequence number synchronization. This object applies when LMI procedure is user-side or bidirectional." ::= { simLmiStatEntry 10 } simLmiUserRcvUnconfigPvcs OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "User-side unconfigured PVCs. This object applies when LMI procedure is user-side or bidirectional." ::= { simLmiStatEntry 11 } simLmiNetworkPvTimeouts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Network-side PV timeouts. This object applies when LMI procedure is network-side or bidirectional." ::= { simLmiStatEntry 12 } simLmiNetworkRcvLivRequests OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Network-side LIV requests. This object applies when LMI procedure is network-side or bidirectional." ::= { simLmiStatEntry 13 } simLmiNetworkXmtLivResponses OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Network-side LIV responses. This object applies when LMI procedure is network-side or bidirectional." ::= { simLmiStatEntry 14 } simLmiNetworkRcvFullStatusRequests OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Network-side full status requests. This object applies when LMI procedure is network-side or bidirectional." ::= { simLmiStatEntry 15 } simLmiNetworkXmtFullStatusResponses OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Network-side full status responses. This object applies when LMI procedure is network-side or bidirectional." ::= { simLmiStatEntry 16 } simLmiNetworkLossSeqNumSyncs OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Network-side loss of sequence number synchronization. This object applies when LMI procedure is network-side or bidirectional." ::= { simLmiStatEntry 17 } END C-PRODUCT-CBR-MIB DEFINITIONS ::= BEGIN IMPORTS cbr FROM C-PRODUCT-GROUP-MIB portSlot, portNumber, vcpSideId, TimeAndDate FROM C-PRODUCT-BASE-MIB Counter FROM RFC1155-SMI OBJECT-TYPE FROM RFC-1212; -- Data Types -- CBR groups cbrDS1E1CardConfig OBJECT IDENTIFIER ::= {cbr 1} cbrDS1E1PortConfig OBJECT IDENTIFIER ::= {cbr 2} cbrDS1E1VcConfig OBJECT IDENTIFIER ::= {cbr 3} cbrDS1E1ATMStats OBJECT IDENTIFIER ::= {cbr 4} cbrV35PortConfig OBJECT IDENTIFIER ::= {cbr 5} cbrDS1E1NewVcConfig OBJECT IDENTIFIER ::= {cbr 6} cbrDS1E1NewATMStats OBJECT IDENTIFIER ::= {cbr 7} -- CBR Card Configuration Group (cbrDS1E1CardConfig) cbrDS1E1CardConfTable OBJECT-TYPE SYNTAX SEQUENCE OF CbrDS1E1CardEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This object contains the CBR specific card Configuration table. There is one cbrDS1E1CardConfEntry associated for each provisioned CBR interface within the shelf. This table uses portSlot as an index which is defined in the portBaseTable of the C-PRODUCT BASE MIB. This index value uniquely identifies the CBR interface to which this entry is applicable." ::= {cbrDS1E1CardConfig 1} cbrDS1E1CardConfEntry OBJECT-TYPE SYNTAX CbrDS1E1CardEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the CBR specific card Configuration table." INDEX { portSlot } ::= {cbrDS1E1CardConfTable 1} CbrDS1E1CardEntry ::= SEQUENCE { cbrDS1E1CardRefPort INTEGER } cbrDS1E1CardRefPort OBJECT-TYPE SYNTAX INTEGER (1..8) ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates which port the receive clock may be selected as the system reference clock source. The value range starts at 1 and the maximum value is dependent upon the total number of physical ports on the specified CBR interface. Four and eight port CBR intefaces are supported. An error is returned if this object is set outside the range of the specified physical card interface. In addition, an error is returned if this slot has been selected as the system reference clock and an attempt is made to change to a port not in-service. The default value is port 1 (1)." DEFVAL { 1 } ::= {cbrDS1E1CardConfEntry 1} -- CBR Port Configuration Group (cbrDS1E1PortConfig) cbrDS1E1PortConfTable OBJECT-TYPE SYNTAX SEQUENCE OF CbrDS1E1PortEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This object contains the CBR specific port Configuration table. There is one cbrDS1E1PortConfEntry associated for each provisioned CBR port interface within the shelf. This table uses portSlot and portNumber as an index which is defined in the portBaseTable of the C-PRODUCT BASE MIB. This index value uniquely identifies the CBR port interface to which this entry is applicable." ::= {cbrDS1E1PortConfig 1} cbrDS1E1PortConfEntry OBJECT-TYPE SYNTAX CbrDS1E1PortEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the CBR specific port Configuration table." INDEX { portSlot, portNumber } ::= { cbrDS1E1PortConfTable 1 } CbrDS1E1PortEntry ::= SEQUENCE { cbrDS1E1PortConfLBO INTEGER, cbrDS1E1PortConfLineCode INTEGER, cbrDS1E1PortConfPortMode INTEGER, cbrDS1E1PortConfFraming INTEGER, cbrDS1E1PortConfTiming INTEGER, cbrDS1E1PortConfSignaling INTEGER, cbrDS1E1PortConfCRC-4 INTEGER, cbrDS1E1PortConfDS0Channels INTEGER, cbrDS1E1PortConfLoopBackType INTEGER } cbrDS1E1PortConfLBO OBJECT-TYPE SYNTAX INTEGER { dsx-0-110ft(1), dsx-110-220ft(2), dsx-220-330ft(3), dsx-330-440ft(4), dsx-440-550ft(5), dsx-550-600ft(6), dsx-GT-600ft(7) } ACCESS read-write STATUS mandatory DESCRIPTION "This object is applicable to a T1-DSX CBR interface ONLY and indicates the associated Line Build Out configuration for the designated port. An error is returned if an access is attempted on a physical interface other than a T1-DSX port interface. The default value is 330 to 440 feet (4)." DEFVAL { dsx-330-440ft } ::= {cbrDS1E1PortConfEntry 1} cbrDS1E1PortConfLineCode OBJECT-TYPE SYNTAX INTEGER { ami(1), t1-B8ZS(2), e1-HDB3(3) } ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates the zero code suppression technique configured to the specified T1/E1 port interface. The bipolar with 8 zero substitution (B8ZS) technique is applicable to T1 interfaces ONLY. The High Density Binary Three (HDB3) is applicable to E1 interfaces ONLY." ::= {cbrDS1E1PortConfEntry 2} cbrDS1E1PortConfPortMode OBJECT-TYPE SYNTAX INTEGER { unstructured(1), struct-voice(2), struct-data(3) } ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates the type of service configured to the specified T1/E1 port interface. Unstructured allows the application to utilize the entire available bandwidth at a bit rate of 1.544 Mb/s for T1 or 2.048 Mb/s for E1. T1/E1 Framing is optional in this service mode. Structured service provides Nx64 kbit/s capability where N ranges between 1 and the maximum number of available DS0 channels. Struct-Voice passes traffic with signaling informaion enabled. Struct-Data passes traffic with signaling information disabled. Changing the mode configuration will cause the following parameters to be changed. . framing timing signaling crc-4 . ------- ------ --------- ----- . T1 unstructured unframed N/A N/A N/A . struct data ESF loop* N/A N/A . struct voice ESF loop* N/A N/A . E1 unstructured unframed N/A disable disable . struct data single loop* disable disable . struct voice multi loop* enable enable * timing is converted to loop timing only if timing is previously . configured to be in SRTS or adaptive timing modes NOTE: Changing this object to a different mode will cause all previously associated VCC's to be deleted. The default value for this object is unstructured (1)." DEFVAL { unstructured } ::= { cbrDS1E1PortConfEntry 3 } cbrDS1E1PortConfFraming OBJECT-TYPE SYNTAX INTEGER { unframed(1), t1-D4(2), t1-ESF(3), e1-single-frame(4), e1-multi-frame(5) } ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates the type of frame organization configured for the specified T1/E1 port interface. D4 and ESF frame organizations apply to T1 interfaces ONLY. Single-frame and multi-frame organizations pertain to E1 interfaces ONLY. An error is returned if a set is applied to an inappropriate cardtype (eg. T1-D4 is applied to an E1 cardtype). Unframed is not a valid configuration in a structured mode. The E1 interface will not allow framing to be changed in structured voice mode. Changing the framing configuration for an E1 interface will cause the following parameters to be changed in unstructured and structured data modes. . signaling crc-4 . --------- ----- . E1 unframed disable disable . single-frame disable* disable . multi-frame enable* enable * signaling is automatically changed in unstructured mode only The default value is unframed (1)." DEFVAL { unframed } ::= { cbrDS1E1PortConfEntry 4 } cbrDS1E1PortConfTiming OBJECT-TYPE SYNTAX INTEGER { system(1), loop(2), srts(3), adaptive(4) } ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates the type of input clock service configured for the specified T1/E1 port interface. Synchronous Residual Time Stamp (SRTS) and Adaptive timing modes are ONLY available in unstructured mode. System configures the port interface to use the system reference clock within the shelf as a reference for transmitting. Loop uses the input port Rx clock as the timing source. An error is returned if an access is attempted to set this object in an inappropriate port mode (eg. SRTS is applied in structured voice mode). The default value is adaptive (4)." DEFVAL { adaptive } ::= { cbrDS1E1PortConfEntry 5 } cbrDS1E1PortConfSignaling OBJECT-TYPE SYNTAX INTEGER { no-signaling(1), e1-CAS(2) } ACCESS read-write STATUS mandatory DESCRIPTION "This object is applicable to E1 interfaces ONLY and indicates if signaling information is enabled or disabled. Signaling information is always disabled in E1 single-frame or unframed mode. Signaling information is always enabled in structured voice multi-frame mode. An error is returned if a set is applied to an inappropriate cardtype (eg. E1-CAS is applied to a T1 cardtype). In addition, the crc-4 configuration object is automatically disabled if the E1 interface is in unstructured multi-frame mode and signaling is disabled. NOTE: This object can ONLY be changed in E1 unstructured multi-frame mode. The default value is no-signaling (1)." DEFVAL { no-signaling } ::= { cbrDS1E1PortConfEntry 6 } cbrDS1E1PortConfCRC-4 OBJECT-TYPE SYNTAX INTEGER { disabled(1), enabled(2) } ACCESS read-write STATUS mandatory DESCRIPTION "This object is applicable to E1 interfaces ONLY and indicates if CRC-4 information is enabled or disabled. CRC-4 information is always disabled in E1 single-frame or unframed mode. CRC-4 information is always enabled in multi-frame mode with signaling disabled. NOTE: This object can ONLY be modified in E1 CAS multi-frame mode. The default value is disabled (1)." DEFVAL { disabled } ::= { cbrDS1E1PortConfEntry 7 } cbrDS1E1PortConfDS0Channels OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This object indicates the associated DS0's which have been assigned to the specified physical port interface. All available DS0 channels are automatically allocated in unstructured mode. In structured mode, the DS0 channels are bit-coded with each bit representing one DS0 channel. The following are some examples: Value Representation 0x00000002 DS0-1 has been allocated to this port 0x000007f0 DS0-4 to DS0-10 have been allocated to this port 0x00027004 DS0-2, DS0-12 to DS0-14, DS0-17 have been allocated In E1 structured voice mode, the bit fields correspond to telephone channels and are automatically mapped to it's associated DS0 channel. Valid telephone channels range from 1 to 30. " ::= { cbrDS1E1PortConfEntry 8 } cbrDS1E1PortConfLoopBackType OBJECT-TYPE SYNTAX INTEGER { no-loopback(1), network-line(2), local-card(3), network-card(4), no-response(5) } ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates the type of loopback configured for the specified T1/E1 port interface. Network-line (2) redirects incoming remote traffic back into the network interface at the external edge of the card interface. Network-card (4) regenerates framing information prior to redirecting incoming remote traffic back into the network interface. Local-card (3) redirects local incoming traffic back into the local system. The default value is no-loopback (1)." DEFVAL { no-loopback } ::= { cbrDS1E1PortConfEntry 9 } -- This definition is good only for Lodi 1.4 & 1.5, Use new implementation -- If you had to modify anything for Baja & Lodi 2.0 -- CBR VC Configuration Group (cbrDS1E1VcConfig) -- CBR ATM Statistics Group (cbrDS1E1ATMStats) -- For Baja & Lodi 2.0 onwards -- CBR New VC Configuration Group (cbrDS1E1NewVcConfig) cbrDS1E1NewVcConfTable OBJECT-TYPE SYNTAX SEQUENCE OF CbrDS1E1NewVcEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This object contains the CBR specific VC Configuration table. There is one cbrDS1E1VcConfEntry associated for each CBR VC connection provisioned within the shelf. This table uses vcPortSlot, vcPortPort, vcPortTransmitVpi, vcPortTransmitVci, vcPortReceiveVpi, and vcPortReceiveVci as an index which is defined in the vcBaseTable of the C-PRODUCT BASE MIB. This index value uniquely identifies the CBR VC connection to which this entry is applicable. NOTE: The associated Circuit Emulation Service (CES) MIB defined by the ATM forum restricts the VC index to a single 32-bit scalar value. In support of this MIB, the CES MIB index retains the same indexing information as the enterprise MIB (with the exception of using vcPortReceiveVpi and vcPortReceiveVci) but has been bit-mapped using the following construction: vcPortPort bit 0..3 vcPortSlot bit 4..8 vcPortTransmitVci bit 9..23 vcPortTransmitVpi bit 24..31" ::= { cbrDS1E1NewVcConfig 1 } cbrDS1E1NewVcConfEntry OBJECT-TYPE SYNTAX CbrDS1E1NewVcEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the CBR specific VC Configuration table." INDEX { vcpSideId } ::= { cbrDS1E1NewVcConfTable 1 } CbrDS1E1NewVcEntry ::= SEQUENCE { cbrDS1E1NewVcConfCDVT INTEGER, cbrDS1E1NewVcConfIntegPeriod INTEGER, cbrDS1E1NewVcConfPayloadSize INTEGER, cbrDS1E1NewVcConfPayloadType INTEGER, cbrDS1E1NewVcConfOnHookDetection INTEGER, cbrDS1E1NewVcConfSignalingType INTEGER, cbrDS1E1NewVcConfDS0Channels INTEGER } cbrDS1E1NewVcConfCDVT OBJECT-TYPE SYNTAX INTEGER (1..31) -- UNITS msecs ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates the Cell Delay Variation Tolerance (CDVT) in msecs configured for the specified T1/E1 ATM VC connection. The CDVT value specifies the amount of cell delay uncertainty which may be experienced by any particular cell. The maximum CDVT value for a T1 interface is 24. The maximum CDVT value for an E1 interface is 31. The default value is 1 msec (1)." DEFVAL { 1 } ::= { cbrDS1E1NewVcConfEntry 1 } cbrDS1E1NewVcConfIntegPeriod OBJECT-TYPE SYNTAX INTEGER (2000..65535) -- UNITS msecs ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates the Cell Loss Integration Period in msecs configured for the specified ATM VC connection. If cell(s) are lost within this period, the ATM Cell Loss Status (ACLS) is set to loss. ACLS is accessible via the Circuit Emulation Service (CES) MIB defined by the ATM forum and/or the VT100 ATM statistics screen. The default value is 2500 msecs (2500)." DEFVAL { 2500 } ::= { cbrDS1E1NewVcConfEntry 2 } cbrDS1E1NewVcConfPayloadSize OBJECT-TYPE SYNTAX INTEGER (1..47) -- UNITS bytes ACCESS read-only STATUS mandatory DESCRIPTION "This object indicates the actual number of payload octets used per ATM cell size configured for the specified T1/E1 ATM VC connection. The default value is 47 bytes (47)." DEFVAL { 47 } ::= { cbrDS1E1NewVcConfEntry 3 } cbrDS1E1NewVcConfPayloadType OBJECT-TYPE SYNTAX INTEGER { none(1), voice(2), data(3) } ACCESS read-only STATUS mandatory DESCRIPTION "This object indicates which payload type has been configured for the specified T1/E1 ATM VC connection. It is reflective upon the T1/E1 port mode configuration (ie. none -> unstructured, voice -> structured voice, data -> structured data). The default is none (1)." DEFVAL { none } ::= { cbrDS1E1NewVcConfEntry 4 } cbrDS1E1NewVcConfOnHookDetection OBJECT-TYPE SYNTAX INTEGER { disabled(1), enabled(2) } ACCESS read-write STATUS mandatory DESCRIPTION "This object dynamically reallocates bandwidth based upon the detection of an on-hook condition as specified by the signaling type. This object is applicable in structured voice mode ONLY. The default value is disabled (1)." DEFVAL { disabled } ::= {cbrDS1E1NewVcConfEntry 5} cbrDS1E1NewVcConfSignalingType OBJECT-TYPE SYNTAX INTEGER { no-signaling(1), em-plar(2), fxo-loop-start(3), fxs-loop-start(4), fxo-ground-start(5), fxs-ground-start(6), e1-r2(7) } ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates the associated signaling application type. This object defaults to no_signaling in unstructured/structured data modes and cannot be modified in these modes. This object can only be set in structured voice mode. All signaling application type values are applicable in this mode except for no-signaling. An error will result if an attempt is made to set no_signaling in structured voice mode. In addition, an error will result if an attempt is made to set e1-r2 to a T1 interface. The default value is no-signaling(1)." DEFVAL { no-signaling } ::= { cbrDS1E1NewVcConfEntry 6 } cbrDS1E1NewVcConfDS0Channels OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates the associated DS0's which have been assigned to the specified ATM VC connection. All available DS0 channels are automatically allocated in unstructured mode. In structured mode, the DS0 channels are bit-coded with each bit representing one DS0 channel. The following are some examples: Value Representation 0x00000002 DS0-1 has been allocated to this VC 0x000007f0 DS0-4 to DS0-10 have been allocated to this VC 0x00027004 DS0-2, DS0-12 to DS0-14, DS0-17 have been allocated DS0 channels can only be assigned in structured mode. Channel conflicts within a T1/E1 port interface will result in an error. For CBR V35 Port the valid values are as follows: Channel Selection Value Data Rate ----------------- ------------ ----------- 1 2 64k 1-2 6 128k 1-3 14 192k 1-4 30 256k 1-6 126 384k 1-8 510 512k 1-12 8190 768k 1-16 131070 1024k 1-24 33554430 1536k " ::= { cbrDS1E1NewVcConfEntry 7 } cbrDS1E1NewATMStatsTable OBJECT-TYPE SYNTAX SEQUENCE OF CbrDS1E1NewATMStatsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This object contains the CBR specific VC Statistics table. There is one cbrDS1E1ATMStatsEntry associated for each CBR VC connection provisioned within the shelf. This table uses vcPortSlot, vcPortPort, vcPortTransmitVpi, and vcPortTransmitVci as an index which is defined in the vcBaseTable of the C-PRODUCT BASE MIB. This index value uniquely identifies the CBR VC connection to which this entry is applicable. Additional VC statistics information is available in the associated Circuit Emulation Service (CES) MIB defined by the ATM forum. NOTE: The associated Circuit Emulation Service (CES) MIB defined by the ATM forum restricts the VC index to a single 32-bit scalar value. In support of this MIB, the CES MIB index retains the same indexing information as the enterprise MIB but has been bit-mapped using the following construction: vcPortPort bit 0..3 vcPortSlot bit 4..8 vcPortTransmitVci bit 9..23 vcPortTransmitVpi bit 24..31" ::= { cbrDS1E1NewATMStats 1 } cbrDS1E1NewATMStatsEntry OBJECT-TYPE SYNTAX CbrDS1E1NewATMStatsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the CBR specific VC Statistics table." INDEX { vcpSideId } ::= { cbrDS1E1NewATMStatsTable 1 } CbrDS1E1NewATMStatsEntry ::= SEQUENCE { cbrDS1E1NewATMStatsRxCells Counter, cbrDS1E1NewATMStatsTxCells Counter, cbrDS1E1NewATMStatsOOSErrors Counter, cbrDS1E1NewATMStatsCRCErrors Counter, cbrDS1E1NewATMStatsOAMRxCells Counter, cbrDS1E1NewATMStatsOAMTxCells Counter, cbrDS1E1NewATMStatsClearStats INTEGER, cbrDS1E1NewATMStatsResetTimeDate TimeAndDate } cbrDS1E1NewATMStatsRxCells OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "This object indicates the total number of ATM cells received over the T1/E1 ATM VC connection since the last ATM VC clear time and date." ::= { cbrDS1E1NewATMStatsEntry 1 } cbrDS1E1NewATMStatsTxCells OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "This object indicates the total number of ATM cells transmitted over the T1/E1 ATM VC connection since the last ATM VC clear time and date." ::= { cbrDS1E1NewATMStatsEntry 2 } cbrDS1E1NewATMStatsOOSErrors OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "This object indicates the total number of out-of-sequence errors detected over the specified T1/E1 ATM VC connection since the last ATM VC clear time and date." ::= { cbrDS1E1NewATMStatsEntry 3 } cbrDS1E1NewATMStatsCRCErrors OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "This object indicates the total number of CRC errors detected over the specified T1/E1 ATM VC connection since the last ATM VC clear time and date." ::= { cbrDS1E1NewATMStatsEntry 4 } cbrDS1E1NewATMStatsOAMRxCells OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "This object indicates the total number of OAM cells received over the specified T1/E1 ATM VC connection since the last ATM VC clear time and date." ::= { cbrDS1E1NewATMStatsEntry 5 } cbrDS1E1NewATMStatsOAMTxCells OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "This object indicates the total number of OAM cells transmitted over the specified T1/E1 ATM VC connection since the last ATM VC clear time and date." ::= { cbrDS1E1NewATMStatsEntry 6 } cbrDS1E1NewATMStatsClearStats OBJECT-TYPE SYNTAX INTEGER { clear (1), not-applicable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "This object will (1) clear the ATM statistics counters and (2) initialize the reset time and date to the current time and date for the specified ATM VC connection. NOTE: A value of '2' is returned for any attempted reads of this object." ::= { cbrDS1E1NewATMStatsEntry 7 } cbrDS1E1NewATMStatsResetTimeDate OBJECT-TYPE SYNTAX TimeAndDate ACCESS read-only STATUS mandatory DESCRIPTION "This object indicates the last time and date the ATM statistics were cleared for the specified ATM VC connection." ::= { cbrDS1E1NewATMStatsEntry 8 } END C-PRODUCT-CBR-V35-MIB DEFINITIONS ::= BEGIN IMPORTS cbr FROM C-PRODUCT-GROUP-MIB portSlot, portNumber FROM C-PRODUCT-BASE-MIB OBJECT-TYPE FROM RFC-1212; -- Data Types -- CBR groups cbrV35PortConfig OBJECT IDENTIFIER ::= {cbr 5} -- CBR V.35 Port Configuration Group (cbrV35PortConfig) cbrV35PortConfTable OBJECT-TYPE SYNTAX SEQUENCE OF CbrV35PortEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This object contains the CBR's V.35 specific port Configuration table. There is one cbrV35PortConfEntry associated for each provisioned CBR port interface within the shelf. This table uses portSlot and portNumber as an index which is defined in the portBaseTable of the C-PRODUCT BASE MIB. This index value uniquely identifies the CBR port interface to which this entry is applicable." ::= {cbrV35PortConfig 1} cbrV35PortConfEntry OBJECT-TYPE SYNTAX CbrV35PortEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the CBR specific port Configuration table." INDEX { portSlot, portNumber } ::= { cbrV35PortConfTable 1 } CbrV35PortEntry ::= SEQUENCE { cbrV35PortConfCableType INTEGER, cbrV35PortConfScrClockSource INTEGER, cbrV35PortConfTxClockPhase INTEGER, cbrV35PortConfRts INTEGER, cbrV35PortConfCts INTEGER, cbrV35PortConfDcd INTEGER, cbrV35PortConfDsr INTEGER, cbrV35PortConfSctClockSource INTEGER, cbrV35PortConfRxTimingSource INTEGER, cbrV35PortConfCableID INTEGER, cbrV35PortConfLoopBackType INTEGER } cbrV35PortConfCableType OBJECT-TYPE SYNTAX INTEGER { none (1), -- cable not detected dte (2), -- dte cable detected dce (3) -- dce cable detected } ACCESS read-only STATUS mandatory DESCRIPTION "This object indicates the type of cable connected to the port. An error is returned if an access is attempted on a physical interface other than a V.35 port interface. The default value is none (1)." DEFVAL { none } ::= {cbrV35PortConfEntry 1} cbrV35PortConfScrClockSource OBJECT-TYPE SYNTAX INTEGER { internal (1), adaptive (2) } ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates the SCR clock source. This is aplicable for both DCE & DTE cable types. If the cable type is 'none', a get request returns whatever the value currently stored in the managed node for this port and a set request stores the value." ::= {cbrV35PortConfEntry 2} cbrV35PortConfTxClockPhase OBJECT-TYPE SYNTAX INTEGER { normal (1), inverted (2) } ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates the type of Transmit clock phase needed to correct the clock out of phase problem. This is aplicable ONLY when a 'dte' cable is connected to the port. The default value is normal (1)." DEFVAL { normal } ::= { cbrV35PortConfEntry 3 } cbrV35PortConfRts OBJECT-TYPE SYNTAX INTEGER { off (1), on (2) } ACCESS read-only STATUS mandatory DESCRIPTION "This object indicates RTS pin status. Default value is off (1)." DEFVAL { off } ::= { cbrV35PortConfEntry 4 } cbrV35PortConfCts OBJECT-TYPE SYNTAX INTEGER { off (1), on (2) } ACCESS read-only STATUS mandatory DESCRIPTION "This object indicates CTS pin status. Default value is off (1)." DEFVAL { off } ::= { cbrV35PortConfEntry 5 } cbrV35PortConfDcd OBJECT-TYPE SYNTAX INTEGER { off (1), on (2) } ACCESS read-only STATUS mandatory DESCRIPTION "This object indicates DCD pin status. Default value is off (1)." DEFVAL { off } ::= { cbrV35PortConfEntry 6 } cbrV35PortConfDsr OBJECT-TYPE SYNTAX INTEGER { off (1), on (2) } ACCESS read-only STATUS mandatory DESCRIPTION "This object indicates DSR pin status. Default value is off (1)." DEFVAL { off } ::= { cbrV35PortConfEntry 7 } cbrV35PortConfSctClockSource OBJECT-TYPE SYNTAX INTEGER { recovered(1), internal (2) } ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates the type of SCT clock source. This is aplicable for both 'DCE' & 'DTE' cable types. If no cable is attached then it just reflects the value stored in the database. The default value is internal (2)." DEFVAL { internal } ::= { cbrV35PortConfEntry 8 } cbrV35PortConfRxTimingSource OBJECT-TYPE SYNTAX INTEGER { echo-clock-from-dte (1), dce-transmit-clock (2) } ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates the Serial interface Recieive Timing Source. The default value is dce-transmit-clock." DEFVAL { dce-transmit-clock } ::= { cbrV35PortConfEntry 9 } cbrV35PortConfCableID OBJECT-TYPE SYNTAX INTEGER { none (1), v35 (2), rs422 (3) } ACCESS read-only STATUS mandatory DESCRIPTION "This object indicates the type of physical interface." DEFVAL { v35 } ::= { cbrV35PortConfEntry 10 } cbrV35PortConfLoopBackType OBJECT-TYPE SYNTAX INTEGER { no-loopback(1), local-card(3), network-card(4), no-response(5) } ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates the type of loopback configured for the specified T1/E1 port interface. Network-line (2) redirects incoming remote traffic back into the network interface at the external edge of the card interface. Network-card (4) regenerates framing information prior to redirecting incoming remote traffic back into the network interface. Local-card (3) redirects local incoming traffic back into the local system. The default value is no-loopback (1)." DEFVAL { no-loopback } ::= { cbrV35PortConfEntry 11 } END C-PRODUCT-OC3-MIB DEFINITIONS ::= BEGIN IMPORTS oc3card FROM C-PRODUCT-GROUP-MIB portSlot, portNumber, TimeAndDate FROM C-PRODUCT-BASE-MIB Counter FROM RFC1155-SMI DisplayString FROM RFC1213-MIB OBJECT-TYPE FROM RFC-1212; -- OC3 groups oc3Port OBJECT IDENTIFIER ::= { oc3card 1 } oc3PortStats OBJECT IDENTIFIER ::= { oc3card 2 } oc3PortResetStats OBJECT IDENTIFIER ::= { oc3card 3 } -- OC3 Port Group (oc3Port) oc3PortTable OBJECT-TYPE SYNTAX SEQUENCE OF Oc3PortEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The OC3 port information table." ::= { oc3Port 1 } oc3PortEntry OBJECT-TYPE SYNTAX Oc3PortEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Information about a OC3 port." INDEX { portSlot, portNumber } ::= { oc3PortTable 1 } Oc3PortEntry ::= SEQUENCE { oc3PortLoopbackType INTEGER, oc3PortPeakRate INTEGER, oc3PortScramble INTEGER, oc3PortTiming INTEGER, oc3PortSonetMode INTEGER, oc3PortXmtCktId DisplayString, oc3PortRcvCktId DisplayString } oc3PortLoopbackType OBJECT-TYPE SYNTAX INTEGER { none (1), -- no loopback networkLine (2), localCard (3)} ACCESS read-write STATUS mandatory DESCRIPTION "Loopback type of the OC3 port." DEFVAL { none } ::= { oc3PortEntry 1 } oc3PortPeakRate OBJECT-TYPE SYNTAX INTEGER (1..155) ACCESS read-write STATUS mandatory DESCRIPTION "Peak data transfer rate of the OC3 port. Unit: Mbps. This field doesn't apply AB9100/AB9300 devices." ::= { oc3PortEntry 2 } oc3PortScramble OBJECT-TYPE SYNTAX INTEGER { no(1), yes(2) } ACCESS read-write STATUS mandatory DESCRIPTION "ATM payload scrambling for the OC3 port." DEFVAL { yes } ::= { oc3PortEntry 3 } oc3PortTiming OBJECT-TYPE SYNTAX INTEGER { loop(1), system(2) } ACCESS read-write STATUS mandatory DESCRIPTION "OC3 timing source." DEFVAL { system } ::= { oc3PortEntry 4 } oc3PortSonetMode OBJECT-TYPE SYNTAX INTEGER { oc3(1), stm1(2) } ACCESS read-write STATUS mandatory DESCRIPTION "Sonet mode of operation, either OC3 or STM1" DEFVAL { oc3 } ::= { oc3PortEntry 5 } oc3PortXmtCktId OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "This is the string to be inserted in the J1 bytes of the sonet stream. It is the path trace buffer string being sent to the far end. This field doesn't apply AB9100/AB9300 device. " ::= { oc3PortEntry 6 } oc3PortRcvCktId OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This is the string being received in the J1 bytes of the sonet stream. It is the path trace buffer string coming from the far end. This field doesn't apply AB9100/AB9300 device. " ::= { oc3PortEntry 7 } -- OC3 Port Stats Group (oc3PortStats) oc3PortStatsTable OBJECT-TYPE SYNTAX SEQUENCE OF Oc3PortStatsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The OC3 port information table." ::= { oc3PortStats 1 } oc3PortStatsEntry OBJECT-TYPE SYNTAX Oc3PortStatsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Information about a OC3 port." INDEX { portSlot, portNumber } ::= { oc3PortStatsTable 1 } Oc3PortStatsEntry ::= SEQUENCE { oc3PortRxCells Counter, oc3PortTxCells Counter, oc3PortCorrectedHCSErrorCells Counter, oc3PortUncorrectedHCSErrorCells Counter, oc3PortResetTimeDate TimeAndDate } oc3PortRxCells OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The counter associated with the received cells, encountered on the ATM interface." ::= { oc3PortStatsEntry 1 } oc3PortTxCells OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The counter associated with the transmitted cells, encountered on the ATM interface." ::= { oc3PortStatsEntry 2 } oc3PortCorrectedHCSErrorCells OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The counter associated with the HCS errored cells whose errors were correctable, encountered on the ATM interface." ::= { oc3PortStatsEntry 3 } oc3PortUncorrectedHCSErrorCells OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The counter associated with the HCS errored cells whose errors were uncorrectable, encountered on the ATM interface." ::= { oc3PortStatsEntry 4 } oc3PortResetTimeDate OBJECT-TYPE SYNTAX TimeAndDate ACCESS read-only STATUS mandatory DESCRIPTION "The reset time and date of ATM stats on this ATM interface." ::= { oc3PortStatsEntry 5 } -- OC3 Port Reset Stats Group (oc3PortResetStats) oc3PortResetAtmStats OBJECT-TYPE SYNTAX INTEGER { reset (1) } ACCESS read-write STATUS mandatory DESCRIPTION "This field is used to reset the atm statistics for the oc3 port. If a get is performed on this command, the result will always be zero" ::= { oc3PortResetStats 1 } END C-PRODUCT-ETHER-MIB DEFINITIONS ::= BEGIN IMPORTS enetcard FROM C-PRODUCT-GROUP-MIB TimeAndDate, portSlot, portNumber, vcpSideId FROM C-PRODUCT-BASE-MIB Counter FROM RFC1155-SMI PhysAddress FROM RFC1213-MIB OBJECT-TYPE FROM RFC-1212; bridge OBJECT IDENTIFIER ::= { enetcard 1 } phyPort OBJECT IDENTIFIER ::= { enetcard 2 } ipOverAtm OBJECT IDENTIFIER ::= { enetcard 3 } enetCircuit OBJECT IDENTIFIER ::= { enetcard 4 } -- bridge group -- This group is used to manage the bridging objects. Some objects -- in this group can also be accessed through Standard Bridge MIB. -- They will be mentioned in individual object paragraph. brAgeTime OBJECT-TYPE SYNTAX INTEGER (1..65535) ACCESS read-write STATUS mandatory DESCRIPTION "The time in minute for a bridging entry to be aged out." ::= { bridge 1 } -- Bridge Filtering Flags Table brFilterFlagTable OBJECT-TYPE SYNTAX SEQUENCE OF BrFilterFlagEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Contain the flags to individually enable/disable these different types of filtering: Source protocol, Source Address, and Destination Address ." ::= { bridge 2 } brFilterFlagEntry OBJECT-TYPE SYNTAX BrFilterFlagEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Each entry in the table contains the information of a currently filtering setup for a port." INDEX { portSlot, portNumber } ::= { brFilterFlagTable 1 } BrFilterFlagEntry ::= SEQUENCE { brFilterFlagSrcProt INTEGER, brFilterFlagSrcAddr INTEGER, brFilterFlagDstAddr INTEGER, brFilterFlagIP INTEGER, brFilterFlagIPX INTEGER, brFilterFlagDecnet INTEGER } brFilterFlagSrcProt OBJECT-TYPE SYNTAX INTEGER { disabled (1), enabled (2) } ACCESS read-write STATUS mandatory DESCRIPTION "To enable/disable source protocol filtering. " ::= { brFilterFlagEntry 1 } brFilterFlagSrcAddr OBJECT-TYPE SYNTAX INTEGER { disabled (1), enabled (2) } ACCESS read-write STATUS mandatory DESCRIPTION "To enable/disable source address filtering. " ::= { brFilterFlagEntry 2 } brFilterFlagDstAddr OBJECT-TYPE SYNTAX INTEGER { disabled (1), enabled (2) } ACCESS read-write STATUS mandatory DESCRIPTION "To enable/disable source address filtering. " ::= { brFilterFlagEntry 3 } brFilterFlagIP OBJECT-TYPE SYNTAX INTEGER { disabled (1), enabled (2) } ACCESS read-write STATUS mandatory DESCRIPTION "To enable/disable IP protocol filtering. This object is used when source protocol filtering is enabled. " ::= { brFilterFlagEntry 4 } brFilterFlagIPX OBJECT-TYPE SYNTAX INTEGER { disabled (1), enabled (2) } ACCESS read-write STATUS mandatory DESCRIPTION "To enable/disable IPX protocol filtering. This object is used when source protocol filtering is enabled. " ::= { brFilterFlagEntry 5 } brFilterFlagDecnet OBJECT-TYPE SYNTAX INTEGER { disabled (1), enabled (2) } ACCESS read-write STATUS mandatory DESCRIPTION "To enable/disable DECNET protocol filtering. This object is used when source protocol filtering is enabled. " ::= { brFilterFlagEntry 6 } -- Bridge Source Address Filtering Table brFilterSrcAddrTable OBJECT-TYPE SYNTAX SEQUENCE OF BrFilterSrcAddrEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Contain all source addresses used for source address filtering." ::= { bridge 3 } brFilterSrcAddrEntry OBJECT-TYPE SYNTAX BrFilterSrcAddrEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Each entry in the table contains a source address used for source address filtering." INDEX { portSlot, portNumber, brFilterSrcAddr } ::= { brFilterSrcAddrTable 1 } BrFilterSrcAddrEntry ::= SEQUENCE { brFilterSrcAddr PhysAddress, brFilterSrcAddrAct INTEGER } brFilterSrcAddr OBJECT-TYPE SYNTAX PhysAddress ACCESS read-only STATUS mandatory DESCRIPTION "If the source address in an MAC frame matches this value, the frame will be filtered." ::= { brFilterSrcAddrEntry 1 } brFilterSrcAddrAct OBJECT-TYPE SYNTAX INTEGER { create(1), delete(2), not-applicable (3) } ACCESS read-write STATUS mandatory DESCRIPTION "This object is used for entry creation and deletion." ::= { brFilterSrcAddrEntry 2 } -- Bridge Destination Address Filtering Table brFilterDstAddrTable OBJECT-TYPE SYNTAX SEQUENCE OF BrFilterDstAddrEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Contain all destination addresses used for destination address filtering." ::= { bridge 4 } brFilterDstAddrEntry OBJECT-TYPE SYNTAX BrFilterDstAddrEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Each entry in the table contains a destination address used for destination address filtering." INDEX { portSlot, portNumber, brFilterDstAddr } ::= { brFilterDstAddrTable 1 } BrFilterDstAddrEntry ::= SEQUENCE { brFilterDstAddr PhysAddress, brFilterDstAddrAct INTEGER } brFilterDstAddr OBJECT-TYPE SYNTAX PhysAddress ACCESS read-only STATUS mandatory DESCRIPTION "If the destination address in an MAC frame matches this value, the frame will be filtered." ::= { brFilterDstAddrEntry 1 } brFilterDstAddrAct OBJECT-TYPE SYNTAX INTEGER { create(1), delete(2), not-applicable (3) } ACCESS read-write STATUS mandatory DESCRIPTION "This object is used for entry creation and deletion." ::= { brFilterDstAddrEntry 2 } -- Bridge Static Table brStaticTable OBJECT-TYPE SYNTAX SEQUENCE OF BrStaticEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Contain all static addresses attached to each port. The entry is used for forwarding." ::= { bridge 5 } brStaticEntry OBJECT-TYPE SYNTAX BrStaticEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Each entry in the table contains a station address used for forwarding." INDEX { portSlot, portNumber, brStaticAddr } ::= { brStaticTable 1 } BrStaticEntry ::= SEQUENCE { brStaticAddr PhysAddress, brStaticDstSlot INTEGER, brStaticDstPort INTEGER, brStaticDstTxVpi INTEGER, brStaticDstTxVci INTEGER, brStaticDstRxVpi INTEGER, brStaticDstRxVci INTEGER, brStaticAddrAct INTEGER } brStaticAddr OBJECT-TYPE SYNTAX PhysAddress ACCESS read-only STATUS mandatory DESCRIPTION "If the destination address in an MAC frame matches this value, the frame will be forwarded to destination specified by destination port or ATM VC." ::= { brStaticEntry 1 } brStaticDstSlot OBJECT-TYPE SYNTAX INTEGER (1..6) ACCESS read-write STATUS mandatory DESCRIPTION "The slot number to which this address is destined. If use VC, this object should be set to 0. " ::= { brStaticEntry 2 } brStaticDstPort OBJECT-TYPE SYNTAX INTEGER (1..4) ACCESS read-write STATUS mandatory DESCRIPTION "The port number to which this address is destined. If use slot/port, this object is ignored. " ::= { brStaticEntry 3 } brStaticDstTxVpi OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The Tx VP number to which this address is destined. If use slot/port, this object is ignored. " ::= { brStaticEntry 4 } brStaticDstTxVci OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The Tx VC number to which this address is destined. If use slot/port, this object is ignored. " ::= { brStaticEntry 5 } brStaticDstRxVpi OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The Rx VP number to which this address is destined. If use slot/port, this object is ignored. " ::= { brStaticEntry 6 } brStaticDstRxVci OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The Rx VC number to which this address is destined. If use slot/port, this object is ignored. " ::= { brStaticEntry 7 } brStaticAddrAct OBJECT-TYPE SYNTAX INTEGER { create(1), delete(2), not-applicable (3) } ACCESS read-write STATUS mandatory DESCRIPTION "This object is used for entry creation and deletion." ::= { brStaticEntry 8 } -- Bridge Forwarding Database Table brFdbTable OBJECT-TYPE SYNTAX SEQUENCE OF BrFdbEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table that contains information about unicast entries for which the bridge has forwarding and/or filtering information. This information is used by the transparent bridging function in determining how to propagate a received frame." ::= { bridge 6 } brFdbEntry OBJECT-TYPE SYNTAX BrFdbEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Information about a specific unicast MAC address for which the bridge has some forwarding and/or filtering information." INDEX { portSlot, portNumber, brFdbAddress } ::= { brFdbTable 1 } BrFdbEntry ::= SEQUENCE { brFdbAddress PhysAddress, brFdbDstTxVpi INTEGER, brFdbDstTxVci INTEGER, brFdbDstRxVpi INTEGER, brFdbDstRxVci INTEGER, brFdbStatus INTEGER, brFdbAge INTEGER } brFdbAddress OBJECT-TYPE SYNTAX PhysAddress ACCESS read-only STATUS mandatory DESCRIPTION "A unicast MAC address for which the bridge has forwarding and/or filtering information." REFERENCE "IEEE 802.1D-1990: Section 3.9.1, 3.9.2" ::= { brFdbEntry 1 } brFdbDstTxVpi OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The Tx VP number to which this address is destined." ::= { brFdbEntry 2 } brFdbDstTxVci OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The Tx VC number to which this address is destined." ::= { brFdbEntry 3 } brFdbDstRxVpi OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The Rx VP number to which this address is destined." ::= { brFdbEntry 4 } brFdbDstRxVci OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The Rx VC number to which this address is destined." ::= { brFdbEntry 5 } brFdbStatus OBJECT-TYPE SYNTAX INTEGER { other(1), invalid(2), learned(3), self(4), mgmt(5) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of this entry. The meanings of the values are: other(1) : none of the following. This would include the case where some other MIB object (not the corresponding instance of brFdbPort, nor an entry in the dot1dStaticTable) is being used to determine if and how frames addressed to the value of the corresponding instance of brFdbAddress are being forwarded. invalid(2) : this entry is not longer valid (e.g., it was learned but has since aged-out), but has not yet been flushed from the table. learned(3) : the value of the corresponding instance of brFdbPort was learned, and is being used. self(4) : the value of the corresponding instance of brFdbAddress represents one of the bridge's addresses. The corresponding instance of brFdbPort indicates which of the bridge's ports has this address. mgmt(5) : the value of the corresponding instance of brFdbAddress is also the value of an existing instance of dot1dStaticAddress." ::= { brFdbEntry 6 } brFdbAge OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Age of this forwarding table entry." ::= { brFdbEntry 7 } -- -- The Ports Group -- portTable OBJECT-TYPE SYNTAX SEQUENCE OF PortEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The port information table." ::= { phyPort 1 } portEntry OBJECT-TYPE SYNTAX PortEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Information about a port." INDEX { portSlot, portNumber } ::= { portTable 1 } PortEntry ::= SEQUENCE { portMaxInfo INTEGER, portInFrames Counter, portOutFrames Counter, portFramesForwarded Counter, portBroadcastFrames Counter, portNumFramesFlooded Counter, portNumFramesDiscarded Counter, portMaxMTUexceededFrames Counter, portNoATMvcDiscards Counter, portBridgeDiscards Counter, portOutPortDisabledDiscards Counter, portSrcAddressDiscards Counter, portDestAddressDiscards Counter, portSAPfilterDiscards Counter, portLearnedEntryDiscards Counter, portStatsClearStats INTEGER, portStatsResetTimeDate TimeAndDate, portMacAddress PhysAddress, portFramesTransmitted Counter } portMaxInfo OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum size of the INFO (non-MAC) field that this port will receive or transmit." ::= { portEntry 1 } portInFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of frames that have been received by this port from its segment. Note that a frame received on the interface corresponding to this port is only counted by this object if and only if it is for a protocol being processed by the local bridging function, including bridge management frames." REFERENCE "IEEE 802.1D-1990: Section 6.6.1.1.3" ::= { portEntry 2 } portOutFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of frames that have been transmitted by this port to its segment. Note that a frame transmitted on the interface corresponding to this port is only counted by this object if and only if it is for a protocol being processed by the local bridging function, including bridge management frames." REFERENCE "IEEE 802.1D-1990: Section 6.6.1.1.3" ::= { portEntry 3 } portFramesForwarded OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Number of incoming frames at this port that were forwarded." ::= { portEntry 4 } portBroadcastFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Number of broadcast frames received on port" ::= { portEntry 5 } portNumFramesFlooded OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Total number of incoming frames on this port that were flooded" ::= { portEntry 6 } portNumFramesDiscarded OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Count of valid frames received which were discarded (i.e., filtered) by the Forwarding Process." REFERENCE "IEEE 802.1D-1990: Section 6.6.1.1.3" ::= { portEntry 7 } portMaxMTUexceededFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Number of frames discarded because of size greater than maximum MTU size for the port" ::= { portEntry 8 } portNoATMvcDiscards OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Number of frames discarded because there was no ATM VC associated with this physical port" ::= { portEntry 9 } portBridgeDiscards OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Number of frames discarded because of bridging operation" ::= { portEntry 10 } portOutPortDisabledDiscards OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Number of frames filtered because the output port was disabled" ::= { portEntry 11 } portSrcAddressDiscards OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Number of frames filtered because of source address filtering" ::= { portEntry 12 } portDestAddressDiscards OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Number of frames filtered because of destination address filtering" ::= { portEntry 13 } portSAPfilterDiscards OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Number of frames filtered because of protocol filtering operation" ::= { portEntry 14 } portLearnedEntryDiscards OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of frames that were discarded because there was no storage memory available" ::= { portEntry 15 } portStatsClearStats OBJECT-TYPE SYNTAX INTEGER { clear (1), not-applicable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "This object will (1) clear the ATM statistics counters and (2) initialize the reset time and date to the current time and date for the specified port. NOTE: A value of '2' is returned for any attempted reads of this object." ::= { portEntry 16 } portStatsResetTimeDate OBJECT-TYPE SYNTAX TimeAndDate ACCESS read-only STATUS mandatory DESCRIPTION "This object indicates the last time and date the ATM statistics were cleared for the specified port." ::= { portEntry 17 } portMacAddress OBJECT-TYPE SYNTAX PhysAddress ACCESS read-only STATUS mandatory DESCRIPTION "This is mac address of ethernet port." ::= { portEntry 18 } portFramesTransmitted OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Total number of frames transmitted at this port." ::= { portEntry 19 } -- The Virtual Circuits Group vcpTable OBJECT-TYPE SYNTAX SEQUENCE OF VcpEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The virtual circuit information table." ::= { enetCircuit 2 } vcpEntry OBJECT-TYPE SYNTAX VcpEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Information about a virtual circuits." INDEX { vcpSideId } ::= { vcpTable 1 } VcpEntry ::= SEQUENCE { vcpMaxInfo INTEGER, vcpInFrames Counter, vcpOutFrames Counter, vcpFramesForwarded Counter, vcpBroadcastFrames Counter, vcpNumFramesFlooded Counter, vcpNumFramesDiscarded Counter, vcpMaxMTUexceededFrames Counter, vcpBridgeDiscards Counter, vcpOutPortDisabledDiscards Counter, vcpSrcAddressDiscards Counter, vcpDestAddressDiscards Counter, vcpSAPfilterDiscards Counter, vcpLearnedEntryDiscards Counter, vcpStatsClearStats INTEGER, vcpStatsResetTimeDate TimeAndDate, vcpTransmitQueueAveRate INTEGER, vcpNumFramesTransmitted Counter } vcpMaxInfo OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum size of the INFO (non-MAC) field that this vcp will receive or transmit." ::= { vcpEntry 1 } vcpInFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of frames that have been received by this vcp from its segment. Note that a frame received on the interface corresponding to this vcp is only counted by this object if and only if it is for a protocol being processed by the local bridging function, including bridge management frames." REFERENCE "IEEE 802.1D-1990: Section 6.6.1.1.3" ::= { vcpEntry 2 } vcpOutFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of frames that have been transmitted by this vcp to its segment. Note that a frame transmitted on the interface corresponding to this vcp is only counted by this object if and only if it is for a protocol being processed by the local bridging function, including bridge management frames." REFERENCE "IEEE 802.1D-1990: Section 6.6.1.1.3" ::= { vcpEntry 3 } vcpFramesForwarded OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Number of incoming frames at this vcp that were forwarded." ::= { vcpEntry 4 } vcpBroadcastFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Number of broadcast frames received on vcp" ::= { vcpEntry 5 } vcpNumFramesFlooded OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Total number of incoming frames on this vcp that were flooded" ::= { vcpEntry 6 } vcpNumFramesDiscarded OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Count of valid frames received which were discarded (i.e., filtered) by the Forwarding Process." REFERENCE "IEEE 802.1D-1990: Section 6.6.1.1.3" ::= { vcpEntry 7 } vcpMaxMTUexceededFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Number of frames discarded because of size greater than maximum MTU size for the vcp" ::= { vcpEntry 8 } vcpBridgeDiscards OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Number of frames discarded because of bridging operation" ::= { vcpEntry 9 } vcpOutPortDisabledDiscards OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Number of frames filtered because the output port was disabled" ::= { vcpEntry 10 } vcpSrcAddressDiscards OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Number of frames filtered because of source address filtering" ::= { vcpEntry 11 } vcpDestAddressDiscards OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Number of frames filtered because of destination address filtering" ::= { vcpEntry 12 } vcpSAPfilterDiscards OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Number of frames filtered because of protocol filtering operation" ::= { vcpEntry 13 } vcpLearnedEntryDiscards OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of frames that were discarded because there was no storage memory available" ::= { vcpEntry 14 } vcpStatsClearStats OBJECT-TYPE SYNTAX INTEGER { clear (1), not-applicable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "This object will (1) clear the ATM statistics counters and (2) initialize the reset time and date to the current time and date for the specified ATM VC connection. NOTE: A value of '2' is returned for any attempted reads of this object." ::= { vcpEntry 15 } vcpStatsResetTimeDate OBJECT-TYPE SYNTAX TimeAndDate ACCESS read-only STATUS mandatory DESCRIPTION "This object indicates the last time and date the ATM statistics were cleared for the specified ATM VC connection." ::= { vcpEntry 16 } vcpTransmitQueueAveRate OBJECT-TYPE SYNTAX INTEGER { na(0), r17mbps(1), r10mbps(2), r8mbps(3), r6mbps(4), r4mbps(5), r192mbps(6), r1536mbps(7), r1344mbps(8), r672kbps(9), r448kbps(10), r224kbps(11), r112kbps(12), r56kbps(13) } ACCESS read-write STATUS mandatory DESCRIPTION "This field specifies the average rate of transmit queue" ::= { vcpEntry 17 } vcpNumFramesTransmitted OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Total number of frames transmitted at this vcp." ::= { vcpEntry 18 } END C-PRODUCT-IMA-MIB DEFINITIONS ::= BEGIN IMPORTS ima FROM C-PRODUCT-GROUP-MIB portSlot, portNumber, PortOperStatus FROM C-PRODUCT-BASE-MIB OBJECT-TYPE FROM RFC-1212; -- Data Types AfaStatus ::= INTEGER { off(1), on(2) } AfaActRate ::= INTEGER { act-rate-10-4(1), act-rate-10-5(2), act-rate-10-6(3), act-rate-10-7(4)} AfaDeactRate ::= INTEGER { deact-rate-10-6(1), deact-rate-10-7(2), deact-rate-10-8(3), deact-rate-10-9(4)} InbLoopBackStatus ::= INTEGER { disabled(1), enabled(2) } -- IMA groups imaCard OBJECT IDENTIFIER ::= { ima 1 } imaPort OBJECT IDENTIFIER ::= { ima 2 } imaCardGroup OBJECT IDENTIFIER ::= { ima 3 } imaCardTable OBJECT-TYPE SYNTAX SEQUENCE OF ImaCardEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The IMA card information table." ::= {imaCard 1} imaCardEntry OBJECT-TYPE SYNTAX ImaCardEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This entry object contains IMA card configuration objects." INDEX { portSlot } ::= {imaCardTable 1} ImaCardEntry ::= SEQUENCE { imaCardGroupSize INTEGER, imaCardTrafficType INTEGER, imaCardRefPort INTEGER, imaCardNextAvailableGroup INTEGER } imaCardGroupSize OBJECT-TYPE SYNTAX INTEGER (1..8) ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates the number of ports in a Group for an IMA Trunk Card. If use CTX+, this GroupSize is irrelevant." DEFVAL { 1 } ::= {imaCardEntry 1} imaCardTrafficType OBJECT-TYPE SYNTAX INTEGER { cbr (1), non-cbr (2) } ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates the traffic type selected for the card, cbr traffic will get higer priority. This parameter is not for a trunk card." DEFVAL { 1 } ::= {imaCardEntry 2} imaCardRefPort OBJECT-TYPE SYNTAX INTEGER (1..8) ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates the clock reference port. It is altered only when the card is set to out-of-service. If is currently used by the shelf as system clock source then it can not be changed from here either." DEFVAL { 1 } ::= {imaCardEntry 3} imaCardNextAvailableGroup OBJECT-TYPE SYNTAX INTEGER (0..8) ACCESS read-only STATUS mandatory DESCRIPTION "This object indicates the next available IMA group number within this card, user shall reference this number as part of the indices for adding an group. The max number of group is depending on number of port of the card, 0 is returned if all groups are used." ::= {imaCardEntry 4} imaPortTable OBJECT-TYPE SYNTAX SEQUENCE OF ImaPortEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The IMA port information table." ::= { imaPort 1 } imaPortEntry OBJECT-TYPE SYNTAX ImaPortEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This entry object contains IMA port configuration objects. The slot (portSlot) of an card entry can be from 3 to 6 (trunk or port). The port (portNumber) can be from 1 to 8." INDEX { portSlot, portNumber } ::= { imaPortTable 1 } ImaPortEntry ::= SEQUENCE { imaPortLBO INTEGER, imaPortLineCode INTEGER, imaPortFraming INTEGER, imaPortTiming INTEGER, imaPortGainLimit INTEGER, imaPortImaGroupId INTEGER, imaPortImaTxLid INTEGER, imaPortImaRxLid INTEGER, imaPortImaOperLinkDelay INTEGER, imaPortAfa AfaStatus, imaPortAfaActMin INTEGER, imaPortAfaDeactMin INTEGER, imaPortAfaActRate AfaActRate, imaPortAfaDeactRate AfaDeactRate, imaPortInbLoopBack InbLoopBackStatus, imaPortApplication INTEGER } imaPortLBO OBJECT-TYPE SYNTAX INTEGER { lbo-0-0dB (1), lbo-7-5dB (2), lbo-15-0dB (3), lbo-22-5dB (4) } ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates the Line Build Out configured for the port." ::= {imaPortEntry 1} imaPortLineCode OBJECT-TYPE SYNTAX INTEGER { ami (1), t1-B8ZS (2), e1-HDB3 (3) } ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates the line coding configured for the port." ::= {imaPortEntry 2} imaPortFraming OBJECT-TYPE SYNTAX INTEGER { t1-D4 (1), t1-ESF (2), e1-Multi-Frame (3) } ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates the framing format configured for the port." ::= {imaPortEntry 3} imaPortTiming OBJECT-TYPE SYNTAX INTEGER { system (1), loop (2) } ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates the input clock service type configured for the port." ::= { imaPortEntry 4 } imaPortGainLimit OBJECT-TYPE SYNTAX INTEGER { gl-26dB (1), gl-36dB (2) } ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates the Line Gain Limit configured for the port." ::= { imaPortEntry 5 } imaPortImaGroupId OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This object indicates the IMA Group ID configured for the port, it is READ only from this table. The port can be selected into an IMA group by setting the imaCardGroupAdminPortsBitMap in imaCardGroupTable." ::= { imaPortEntry 6 } imaPortImaTxLid OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This object indicates the IMA Port Tx Link id learned from the IMA protocol." ::= { imaPortEntry 7 } imaPortImaRxLid OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This object indicates the IMA Port Rx Link id learned from the IMA protocol." ::= { imaPortEntry 8 } imaPortImaOperLinkDelay OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This object indicates the IMA Port Operational Link Delay of the port." ::= { imaPortEntry 9 } imaPortAfa OBJECT-TYPE SYNTAX AfaStatus ACCESS read-write STATUS mandatory DESCRIPTION "This object specifies the AFA status for the port." ::= { imaPortEntry 10 } imaPortAfaActMin OBJECT-TYPE SYNTAX INTEGER ( 1..15 ) ACCESS read-write STATUS mandatory DESCRIPTION "This object specifies the AFA kick-in period for the port." ::= { imaPortEntry 11 } imaPortAfaDeactMin OBJECT-TYPE SYNTAX INTEGER ( 15..30 ) ACCESS read-write STATUS mandatory DESCRIPTION "This object specifies the AFA recover period for the port." ::= { imaPortEntry 12 } imaPortAfaActRate OBJECT-TYPE SYNTAX AfaActRate ACCESS read-write STATUS mandatory DESCRIPTION "This object specifies the AFA kick-in error rate for the port." ::= { imaPortEntry 13 } imaPortAfaDeactRate OBJECT-TYPE SYNTAX AfaDeactRate ACCESS read-write STATUS mandatory DESCRIPTION "This object specifies the AFA recover error rate for the port." ::= { imaPortEntry 14 } imaPortInbLoopBack OBJECT-TYPE SYNTAX InbLoopBackStatus ACCESS read-write STATUS mandatory DESCRIPTION "This object specifies the Inband Loopback status for the port." ::= { imaPortEntry 15 } imaPortApplication OBJECT-TYPE SYNTAX INTEGER { dsx (1), csu (2) } ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates the type of application configured for that port." ::= { imaPortEntry 16 } imaCardGroupTable OBJECT-TYPE SYNTAX SEQUENCE OF ImaCardGroupEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The card based IMA group information table." ::= {imaCardGroup 1} imaCardGroupEntry OBJECT-TYPE SYNTAX ImaCardGroupEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This entry object contains IMA group configuration objects." INDEX { portSlot, imaCardGroupId } ::= {imaCardGroupTable 1} ImaCardGroupEntry ::= SEQUENCE { imaCardGroupId INTEGER, imaCardGroupImaId INTEGER, imaCardGroupAdminStatus INTEGER, imaCardGroupMinNumLinksStart INTEGER, imaCardGroupMinNumLinksFailed INTEGER, imaCardGroupMaxNumLinksAct INTEGER, imaCardGroupTxImaId INTEGER, imaCardGroupRxImaId INTEGER, imaCardGroupTxFrameLength INTEGER, imaCardGroupAdminLinkDelayMax INTEGER, imaCardGroupOperLinkDelayMax INTEGER, imaCardGroupAdminPortsBitMap INTEGER, imaCardGroupOperPortsBitMap INTEGER, imaCardGroupOperStatus PortOperStatus, imaCardGroupRowStatus INTEGER } imaCardGroupId OBJECT-TYPE SYNTAX INTEGER (1..8) ACCESS not-accessible STATUS mandatory DESCRIPTION "This object is used as an index to an imaCardGroupEntry." ::= {imaCardGroupEntry 1} imaCardGroupImaId OBJECT-TYPE SYNTAX INTEGER (0..255) ACCESS read-write STATUS mandatory DESCRIPTION "This object is the admin IMA id of the group." ::= { imaCardGroupEntry 2 } imaCardGroupAdminStatus OBJECT-TYPE SYNTAX INTEGER { out-of-service(1), in-service(2) } ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates the admin service status of the group." ::= { imaCardGroupEntry 3 } imaCardGroupMinNumLinksStart OBJECT-TYPE SYNTAX INTEGER (1..8) ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates the minimum number of links to start the group." ::= { imaCardGroupEntry 4 } imaCardGroupMinNumLinksFailed OBJECT-TYPE SYNTAX INTEGER (1..8) ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates the minimum number of links for the group to stay up, links lower than this number will declare the group to fail." ::= { imaCardGroupEntry 5 } imaCardGroupMaxNumLinksAct OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This object indicates the maximum number of links for the group, for a trunk IMA card, the value is the imaCardGroupSize, for a port card, it is derived from the imaCardGroupAdminPortsBitMap." ::= { imaCardGroupEntry 6 } imaCardGroupTxImaId OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This object indicates the transmit IMA ID. This shall show the ID assigned to imaCardGroupImaId." ::= { imaCardGroupEntry 7 } imaCardGroupRxImaId OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This object indicates the receive IMA ID." ::= { imaCardGroupEntry 8 } imaCardGroupTxFrameLength OBJECT-TYPE SYNTAX INTEGER { cells-32 (1), cells-64 (2), cells-128 (3), cells-256 (4) } ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates the transmit frame length of the group." ::= { imaCardGroupEntry 9 } imaCardGroupAdminLinkDelayMax OBJECT-TYPE SYNTAX INTEGER (0..100) ACCESS read-write STATUS mandatory DESCRIPTION "This object is the group admin maximum link differential delay in msec." ::= { imaCardGroupEntry 10 } imaCardGroupOperLinkDelayMax OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This object is the operational maximum link differential delay in msec." ::= { imaCardGroupEntry 11 } imaCardGroupAdminPortsBitMap OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "This bit map object indicates the ports configured for the group." ::= { imaCardGroupEntry 12 } imaCardGroupOperPortsBitMap OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This bit map object indicates the operational ports in the group." ::= { imaCardGroupEntry 13 } imaCardGroupOperStatus OBJECT-TYPE SYNTAX PortOperStatus ACCESS read-only STATUS mandatory DESCRIPTION "This object indicates the group operational service status." ::= { imaCardGroupEntry 14 } imaCardGroupRowStatus OBJECT-TYPE SYNTAX INTEGER { create (1), delete (2)} ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates the row set action request." ::= { imaCardGroupEntry 15 } END C-PRODUCT-CTX-MIB DEFINITIONS ::= BEGIN -- Abstract -- -- This memo defines a portion of the Management Information -- Base (MIB) for managing objects for AB9300 CTX interface card. -- IMPORTS ctx FROM C-PRODUCT-GROUP-MIB TimeAndDate, cardSlot, vcpSideId FROM C-PRODUCT-BASE-MIB Counter FROM RFC1155-SMI OBJECT-TYPE FROM RFC-1212; -- CTX groups ctxCardConfig OBJECT IDENTIFIER ::= { ctx 1 } ctxATMStats OBJECT IDENTIFIER ::= { ctx 2 } ctxCardBuffer OBJECT IDENTIFIER ::= { ctxCardConfig 1 } ctxCardShapers OBJECT IDENTIFIER ::= { ctxCardConfig 2 } ctxCard OBJECT IDENTIFIER ::= { ctxCardConfig 3 } -- CTX Card Buffer Group (ctxCardBuffer) ctxCardBufferTable OBJECT-TYPE SYNTAX SEQUENCE OF CtxCardBufferEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This object contains the CTX Queue Buffer information table. There are one ctxCardBufferEntry associated for each CTX Queue. Within the shelf, there are 16 queue buffers. The table uses the slot number and queue number as an index associated with each queue buffer. " ::= { ctxCardBuffer 1 } ctxCardBufferEntry OBJECT-TYPE SYNTAX CtxCardBufferEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Information about a CTX Buffer information." INDEX { cardSlot, ctxCardBufferIndex } ::= { ctxCardBufferTable 1 } CtxCardBufferEntry ::= SEQUENCE { ctxCardBufferIndex INTEGER, ctxCardInterface OCTET STRING, ctxCardBufferCells INTEGER, ctxCardCongOn INTEGER, ctxCardCongOff INTEGER } ctxCardBufferIndex OBJECT-TYPE SYNTAX INTEGER (1..16) ACCESS not-accessible STATUS mandatory DESCRIPTION "Queue Index " ::= { ctxCardBufferEntry 1 } ctxCardInterface OBJECT-TYPE SYNTAX OCTET STRING (SIZE(1..80)) ACCESS read-only STATUS mandatory DESCRIPTION "This object describes the Description of the queue. The queue Description is combined with slot, Card Interface, high/low priority queue. For example: Slot Interface Queue 3 IMA Grp 1 0 CBR 3 IMA Grp 1 1 VBR 3 IMA Grp 1 2 UBR1 ... (SAR ports) 1 low 8 (none) 0 high 8 (none) 1 low " ::= { ctxCardBufferEntry 2 } ctxCardBufferCells OBJECT-TYPE SYNTAX INTEGER (512..65280) ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates the buffer cells configured to a specified card interface. The integer value contains between 512 and 65280. The unit of Buffer Cells is in number of cells. " DEFVAL { 512 } ::= { ctxCardBufferEntry 3 } ctxCardCongOn OBJECT-TYPE SYNTAX INTEGER (0..100) ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates the percentage of Congestion ON configured to a specified card interface. The integer value contains 0-100 percentage. " DEFVAL { 0 } ::= { ctxCardBufferEntry 4 } ctxCardCongOff OBJECT-TYPE SYNTAX INTEGER (0..100) ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates the percentage of Congestion OFF configured to a specified card interface. The integer value contains 0-100 percentage. " DEFVAL { 0 } ::= { ctxCardBufferEntry 5 } -- CTX Buffer Sharper Group (ctxCardShapers) ctxCardShapersTable OBJECT-TYPE SYNTAX SEQUENCE OF CtxCardShapersEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This object contains the CTX Traffic Shaper information table. There are one ctxCardShapersEntry associated for each Traffic Shaper. Within the shelf, there are total of seven Traffic Shapers. The table uses the slot number and shaper Index as an index associated for each Traffic shaper. " ::= { ctxCardShapers 1 } ctxCardShapersEntry OBJECT-TYPE SYNTAX CtxCardShapersEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Information about a CTX Shaper information." INDEX { cardSlot, ctxCardShapersIndex } ::= { ctxCardShapersTable 1 } CtxCardShapersEntry ::= SEQUENCE { ctxCardShapersIndex INTEGER, ctxCardShapersDesc OCTET STRING, ctxCardShapersRate INTEGER } ctxCardShapersIndex OBJECT-TYPE SYNTAX INTEGER (1..7) ACCESS not-accessible STATUS mandatory DESCRIPTION "The Index is associated with Traffic shaper. " ::= { ctxCardShapersEntry 1 } ctxCardShapersDesc OBJECT-TYPE SYNTAX OCTET STRING (SIZE(1..80)) ACCESS read-only STATUS mandatory DESCRIPTION "This object describes the Description of the Traffic shaper. For example: Trunk Bulk Trk Grp 1 (VBR HI) Trk Grp 1 (VBR LO) Trk Grp 1 (UBR) SAR Output SAR Input OC3 Bulk " ::= { ctxCardShapersEntry 2 } ctxCardShapersRate OBJECT-TYPE SYNTAX INTEGER (150..390625) ACCESS read-write STATUS mandatory DESCRIPTION "This object contains the Traffic Shapers Rate. The integer value contains between 150 and 390625 for Trunk Bulk, Trk Grp and OC3 Bulk. The max Shaper rate for SAR Output/Input is 78125. The unit of Shapers Rate is in cells per seconds. " ::= { ctxCardShapersEntry 3 } -- CTX Card Group (ctxCard) ctxCardTable OBJECT-TYPE SYNTAX SEQUENCE OF CtxCardEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This object contains the CTX card information table. There are one ctxCardEntry associated for each CTX card. " ::= { ctxCard 1 } ctxCardEntry OBJECT-TYPE SYNTAX CtxCardEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Information about a CTX Card information." INDEX { cardSlot } ::= { ctxCardTable 1 } CtxCardEntry ::= SEQUENCE { ctxCardReset INTEGER } ctxCardReset OBJECT-TYPE SYNTAX INTEGER { reset(1) } ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates the action to be changed CTX buffer by a reset CTX card. It will cause cell loss on all Virtual Circuits for 10ms. A read request always return zero. " DEFVAL { reset } ::= { ctxCardEntry 1 } -- CTX ATM Statistics Group (ctxATMStats) ctxATMStatsTable OBJECT-TYPE SYNTAX SEQUENCE OF CbrATMStatsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This object contains the CTX specific VC Statistics table. There is one ctxATMStatsEntry associated for each CTX VC connection provisioned within the shelf. This table uses vcpSideId as an index which is defined in the vcBaseTable of the C-PRODUCT BASE MIB. This index value uniquely identifies the CTX VC connection to which this entry is applicable. " ::= { ctxATMStats 1 } ctxATMStatsEntry OBJECT-TYPE SYNTAX CbrATMStatsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the CTX specific VC Statistics table." INDEX { vcpSideId } ::= { ctxATMStatsTable 1 } CbrATMStatsEntry ::= SEQUENCE { ctxATMStatsRxCells Counter, ctxATMStatsTxCells Counter, ctxATMStatsResetStats INTEGER, ctxATMStatsResetTimeDate TimeAndDate } ctxATMStatsRxCells OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "This object indicates the total number of ATM cells received over the CTX ATM VC connection since the last ATM VC clear time and date." ::= { ctxATMStatsEntry 1 } ctxATMStatsTxCells OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "This object indicates the total number of ATM cells transmitted over the CTX ATM VC connection since the last ATM VC clear time and date." ::= { ctxATMStatsEntry 2 } ctxATMStatsResetStats OBJECT-TYPE SYNTAX INTEGER { reset (1), not-applicable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "This object will (1) clear the ATM statistics counters and (2) initialize the reset time and date to the current time and date for the specified ATM VC connection. NOTE: A value of '2' is returned for any attempted reads of this object." ::= { ctxATMStatsEntry 3 } ctxATMStatsResetTimeDate OBJECT-TYPE SYNTAX TimeAndDate ACCESS read-only STATUS mandatory DESCRIPTION "This object indicates the last time and date the ATM statistics were cleared for the specified ATM VC connection." ::= { ctxATMStatsEntry 4 } END