ALLIEDTELESYN-MIB -- ATRouter Private MIB Version 1.36 4/Oct/2005 (Update and remove this comment when releasing) -- Private MIB for AR series Remote Access Router -- Private MIB for Rapier series layer 3 switches -- History:: -- [Ichiro::08/22/97] Modified syntax listed below -- OCTET STRING -> DisplayString -- licenceRelease -- instHistLine -- licencePassword -- licenceExpiry -- loadFileName -- DisplayString (SIZE (0..255)) -> DisplayString -- configFile -- fileCreationTime -- [Ichiro::08/26/97] Made the following change -- INDEX { licenceRelease } -> INDEX { licenceIndex } -- [Ichiro::12/15/98] Made the following changes to Release 1.01 -- 1) Change Header comment to compile HP-OV -- 2) Add History Headder comment -- 3) Revival syntax listed below -- DisplayString -> DisplayString (SIZE (0..255)) -- configFile -- fileCreationTime -- [Ichiro::02/25/99] Made the following change to Release 1.02 -- 1)Set size macro which MIB objects has DisplayString syntax -- 2)Add OBJECT IDENTIFIER for AR720 and option boards -- [Tony van der Peet::2/Aug/1999] Release 1.03 -- 1)Add OBJECT IDENTIFIER for AR023, AR024, AR025 option board -- 2)Fix OBJECT IDENTIFIER for AR020 option board -- 3)Add OBJECT IDENTIFIER for AR3xx router boards -- 4)Add Firewall trap message object and Firewall trap -- 5)Add createConfigFile object for creating a configuration via SNMP -- 6)Add the ISDN Call Control module MIB -- 7)Add textual convention for InterfaceIndexOrZero (used in CC module MIB). -- [Tony van der Peet::19/Aug/1999] Release 1.04 -- 1)Add objects: arBoardMaxIndex, arBoardTable, arSlotTable, arInterfaceTable -- 2)Add objects under ethernet ::= { modules 23 } -- 3)Add objects under bri ::= { modules 41 } -- 4)Add objects under pri ::= { modules 42 } -- 5)Change name of interfaces group { atRouter 5 } to arInterfaces to avoid -- clash with interfaces group in MIB-II. -- [Ichiro::23/Aug/1999] Release 1.04 -- 1)Modify identifer of ccDetailsDataRate -- 2)Change SYNTAX from InterfaceIndexOrZero into INTEGER -- briIntIndex,briChanIntIndex,priIntIndex and priChanIntIndex -- [Tony van der Peet,Ichiro::1/Sep/1999] Changes to release 1.04 -- 1)Add chip_860T_cpu OID for AR720. -- 2)Change SYNTAX from InterfaceIndexOrZero into INTEGER -- ethIntIndex -- 3)Change description for ccDetailsInSetupCliSearchList, -- ccDetailsInSetupCliCheckList and ccDetailsPppTemplate. -- [Tony van der Peet,Dave Evans::7/Dec/1999] Changes to release 1.04 -- 1)Add board types ar740, ar140, ar160, ar320, ar340, ar130s, ar130u. -- 2)Remove '_' characters from object identifiers (not valid syntax). -- [Ichiro::25/Feb/2000] Release 1.05 -- 1)Fix some incorrect definition of table entries. -- 2)Fix some incompatible ASN.1 definition to compile SwimManager -- [Tony van der Peet::21/Mar/2000] Release 1.05 -- 1)Check all changes, archive and release. -- [Tony van der Peet::18/Oct/2000] Release 1.06 -- 1)Add sysObjectId values for new routers and switches -- 2)Add board IDs for new boards -- [Vaughan Smith::5/Dec/2000] Release 1.06 -- 1)Add InterfaceFullName OBJECT IDENTIFIER -- [Tony van der Peet::12/Apr/2001] Release 1.07 -- 1)Add sysObjectId and board values for AR120 router. -- [Tony van der Peet::13/Jul/2001] Release 1.08 -- 1)Add fanAndPs group under sysinfo, for fan and power supply monitoring. -- [Tony van der Peet::23/Jul/2001] Release 1.09 -- 1)Add status variables to fan and temperature status traps (fanAndPs group). -- [Tony van der Peet::11/Sep/2001] Release 1.10 -- 1)Do traps when fan status transitions in both directions. -- [Tony van der Peet::8/Oct/2001] Release 1.11 -- 1)Add module MIB for trigger module. One variable to show the trigger -- last activated. -- 2)Add trap for trigger module for each trigger activation. -- [Tobias Bethlehem::1/Nov/2001] Release 1.12 -- 1)Add restart option under sysinfo. -- 2)Add module MIB for switch module, a table of port properties and variables -- for Ingress & Egress limiting per port. -- [Tim Beale, Chris Rodgers, Lindsay Sandford::21/Nov/2001] Release 1.13 -- 1)Add cpu utilisation variables under sysinfo. -- 2)Add arIfXTable containing decaying averages under arInterfaces -- 3)Add module for Ping, a table of ping parameters and variables for ping statistics -- [Andreja Milenkovic::14/Jan/2002] Release 1.14 -- 1)Add sysObjectId and board values for at-RapierG6 family routerSwitches. -- [Andreja Milenkovic::31/Jan/2002] Release 1.15 -- Clean up compiler warnings. -- [Tony van der Peet::19/Feb/2002] Release 1.16 -- 1)Add sysObjectIds for all Rapier models. -- [Tony van der Peet::6/Mar/2002] Release 1.17 -- 1)Add sysObjectIds for all new router models. -- 2)Fix up some board IDs spellings. -- [Andreja Milenkovic::19/Mar/2002] Release 1.18 -- 1)Add sysObjectId and board values for SwitchBlade. -- [Tony van der Peet::15/May/2002] Release 1.19 -- 1)Add sysObjectIds for Claymore (98xx) switches. -- 2)Add fanAndPs variables and add values for existing variables -- to support SwitchBlade PS monitoring. -- 3)Add sysTemperature group, including generalTemperature group for generic -- temperature monitoring and sbTemperature group for SwitchBlade temperature -- monitoring. -- [Tony van der Peet,Andreja Milenkovic::15/May/2002] Release 1.20 -- 1)Add sysObjectId for DC variant of AR740. -- 2)Fix typo in definition for pprNsm0424BRI. -- 3)Add board OID for SwitchBlade 8 GBIC card. -- 4)Added new module DHCP - stage 1 support includes range table (read only) and a trap -- when the range is exhausted. -- 5)Added a group in the switch module for specific error counters. These variable will be -- implemented only in some devices and for some releases. -- [Tony van der Peet::4/Sep/2002] Release 1.21 -- 1)Add sysObjectIds for AR410v2, AR410v3, AR725DC, AR745DC. -- 1)Add board OIDs for AR410v2, AR410v3, AR725DC, AR745DC, NSM048DS3. -- [Hayden Dakers::18/September/2002] Release 1.22 -- 1)Add cpuUtilisationMaxLast5Minutes and cpuUtilisationAvgLast5Minutes -- 2)Add fileNumbers under file module. -- 3)Added atContactDetails under sysInfo. -- 4)Add board OID for SwitchBlade 4 Slot Chassis Bandwidth Expander. -- [Tony van der Peet, Andreja Milenkovic, Nyetsan Yong, Graeme Thomson::10/January/2003] Release 1.23 -- 1)Add bbrNvs group under sysinfo to provide a trap for BBR reinitialisation at boot. -- 2)Change description of loadStatus to describe possibility of setting loadStatus to idle when it is -- already idle without generating an error. -- 3)Changed access of InstallEntry variables to read-only, since read-write access is not implemented -- for security reasons. -- 4)Changed length of licencePassword variable from 0..255 to 12, to reflect actual allowed length. -- 5)Added new module, LB (load balancer). -- 6)Add sysObjectIds for AT-8724XL, AT-8748XL, AT-8724XL-DC and AT-8748XL-DC. -- 7)Add board IDs for AT-8724XL, AT-8748XL, AT-8724XL-DC and AT-8748XL-DC. -- 8)Add new module, DS3. -- [Andreja Milenkovic::21/Feb/2003] Release 1.24 -- 1)Add sysObjectIds and board OIDs for at-AR450, at-9816GB-DC, at-9812T-DC, at-8824, at-8846. -- [Tony van der Peet::17/Apr/2003] Release 1.25 -- 1)Fix typo in priChanChannelIndex which read 1..3 and should have been 1..31. -- 2)Fix comment for last revision which stated Release 1.23. -- [Andreja Milenkovic::01/May/2003] Release 1.26 -- 1)Add sysObjectIds and board OIDs for 8724XL-80, 8748XL-80, at-8824-DC, at-8846-DC. -- [Andreja Milenkovic,Ichiro::8/Aug/2003] Release 1.27 -- 1)Added board OIDs for Claymore (98xx) switches. -- 2)Changed index of ds3TrapEntry from dsx3LineIndex to ifIndex. -- [Andreja Milenkovic, Andrew Firth::17/Oct/2003] Release 1.28 -- 1)Added sysObjectIds and board OIDs for at-8948 switches. -- 2)Updated descriptions for variables -- sbTempSettableThresholdStatus and sbTempSettableThreshold. -- [Andreja Milenkovic, Sammy Zhu, Wenhua Wei, Elizabeth Kennett, Martin Hill, Sean Lin, Tony van der Peet::29/Apr/2004] Release 1.29 -- 1)Add board OIDs for at-SB4412GT and at-SB4541 cards. -- 2)Add fanAndPsMainMonitoringStatus. -- 3)Add fanAndPsMainMonitoringStatusTrap. -- 4)Add new status (warning) for variable fanAndPsMainFanStatus. -- 5)Add fanAndPsPsuStatusTable to display power suppliers for at-8948 switches. -- 6)Add fanAndPsAccelFanStatus for an accelerator card. -- 7)Add acceleratorTemperature to sysTemperature for an accelerator card. -- 8)Add freeMemory and realTimeClockStatus to sysinfo. -- 9)Add instRelExists and instPstExists to installEntry. -- 10)Add current to instIndex. -- 11)Add bootConfigFileExists and currentConfigFile to install. -- 12)Add configFileExistTrap. -- 13)Add 41 port counters swiPortRxOctets ... swiPortHWMultiTxDrops to swiPortEntry. -- 14)Add OID for at-8624T2M, and board IDs for pprAt8624T2M and pprA46Tx. -- [Andreja Milenkovic,Mark Wutzke, Simeon Pilgrim::13/Jul/2004] Release 1.30 -- 1)Add sysObjectIds and board OIDs for Rapier24i-DC-NEBS, 8724XL-DC-NEBS, -- AT-9924T, AT-9924SP and AT-9924T-4SP. -- [John Thompson::07/Sep/2004, Chris Packham::27/Oct/2004] Release 1.31 -- 1)Add sysObjectIds and board OIDs for AT-9924T-EMC. -- 2)Add sysObjectIds and board OIDs for AR-AR44xS. -- [Theuns Verwoerd::9/Nov/2004, Tony van der Peet::28/Jan/2005] Release 1.32 -- 1)Add board OIDs for PWR02(R) variants. -- 2)Add swiIntrusionDetectionTrap. This trap was implemented in 2001, but never -- documented in the MIB until now. -- [Hamish Kellahan::24/Nov/2004] Release 1.32 -- 1)Add sysObjectId and board OID for AT-8724MLB. -- [Andrew Firth::31/Jan/2005] Release 1.33 -- 1)Add sysObjectId and board OID for AT-8624POE. -- [Amal Sirisena::22/Feb/2005] Release 1.34 -- 1)Added sysObjectIds and board OIDs for AR55xS. -- 1)Add board OIDs for PWR02(R) variants. -- 2)Add swiIntrusionDetectionTrap. This trap was implemented in 2001, but never -- documented in the MIB until now. -- [Andrew Firth::31/Jan/2005] Release 1.33 -- 1)Add sysObjectId and board OID for AT-8624POE. -- [Phillip Chung::12/May/2005] Release 1.34 -- 1)Add board OID for SwitchBlade G24 SFP line card. -- [Andrew Firth::24/May/2005] Release 1.35 -- 1)Add sysObjectId and board OID for AT-8648/2SP. -- [Angus Salkeld::4/Oct/2005] Release 1.36 -- 1)Add sysObjectIds and board OIDs for AT-9924Ts and XUMs. DEFINITIONS ::= BEGIN IMPORTS enterprises, IpAddress, Counter FROM RFC1155-SMI DisplayString, ifIndex FROM RFC1213-MIB TRAP-TYPE FROM RFC-1215 OBJECT-TYPE FROM RFC-1212 TruthValue FROM SNMPv2-TC; -- Textual convention for an interface index type which may not reference an actual member of ifTable, in which case the value -- zero should be used. InterfaceIndexOrZero ::= INTEGER (0..2147483647) -- define the top of the alliedTelesyn MIB. alliedTelesyn OBJECT IDENTIFIER ::= { enterprises 207 } products OBJECT IDENTIFIER ::= { alliedTelesyn 1 } mibObject OBJECT IDENTIFIER ::= { alliedTelesyn 8 } bridgeRouter OBJECT IDENTIFIER ::= { products 1 } centreCOM-AR300Router OBJECT IDENTIFIER ::= { bridgeRouter 8 } centreCOM-AR720Router OBJECT IDENTIFIER ::= { bridgeRouter 11 } centreCOM-AR300LRouter OBJECT IDENTIFIER ::= { bridgeRouter 12 } centreCOM-AR310Router OBJECT IDENTIFIER ::= { bridgeRouter 13 } centreCOM-AR300LURouter OBJECT IDENTIFIER ::= { bridgeRouter 14 } centreCOM-AR300URouter OBJECT IDENTIFIER ::= { bridgeRouter 15 } centreCOM-AR310URouter OBJECT IDENTIFIER ::= { bridgeRouter 16 } centreCOM-AR350Router OBJECT IDENTIFIER ::= { bridgeRouter 17 } centreCOM-AR370Router OBJECT IDENTIFIER ::= { bridgeRouter 18 } centreCOM-AR330Router OBJECT IDENTIFIER ::= { bridgeRouter 19 } centreCOM-AR395Router OBJECT IDENTIFIER ::= { bridgeRouter 20 } centreCOM-AR390Router OBJECT IDENTIFIER ::= { bridgeRouter 21 } centreCOM-AR370URouter OBJECT IDENTIFIER ::= { bridgeRouter 22 } centreCOM-AR740Router OBJECT IDENTIFIER ::= { bridgeRouter 23 } centreCOM-AR140SRouter OBJECT IDENTIFIER ::= { bridgeRouter 24 } centreCOM-AR140URouter OBJECT IDENTIFIER ::= { bridgeRouter 25 } centreCOM-AR320Router OBJECT IDENTIFIER ::= { bridgeRouter 26 } centreCOM-AR130SRouter OBJECT IDENTIFIER ::= { bridgeRouter 27 } centreCOM-AR130URouter OBJECT IDENTIFIER ::= { bridgeRouter 28 } centreCOM-AR160Router OBJECT IDENTIFIER ::= { bridgeRouter 29 } at-AR740RouterDC OBJECT IDENTIFIER ::= { bridgeRouter 43 } centreCOM-AR120Router OBJECT IDENTIFIER ::= { bridgeRouter 44 } at-AR410Router OBJECT IDENTIFIER ::= { bridgeRouter 47 } at-AR725Router OBJECT IDENTIFIER ::= { bridgeRouter 48 } at-AR745Router OBJECT IDENTIFIER ::= { bridgeRouter 49 } at-AR410v2Router OBJECT IDENTIFIER ::= { bridgeRouter 50 } at-AR410v3Router OBJECT IDENTIFIER ::= { bridgeRouter 51 } at-AR725RouterDC OBJECT IDENTIFIER ::= { bridgeRouter 52 } at-AR745RouterDC OBJECT IDENTIFIER ::= { bridgeRouter 53 } at-AR450Router OBJECT IDENTIFIER ::= { bridgeRouter 54 } at-AR450DualRouter OBJECT IDENTIFIER ::= { bridgeRouter 55 } at-AR440Router OBJECT IDENTIFIER ::= { bridgeRouter 59 } at-AR441Router OBJECT IDENTIFIER ::= { bridgeRouter 60 } at-AR442Router OBJECT IDENTIFIER ::= { bridgeRouter 61 } at-AR443Router OBJECT IDENTIFIER ::= { bridgeRouter 62 } at-AR444Router OBJECT IDENTIFIER ::= { bridgeRouter 63 } at-AR420Router OBJECT IDENTIFIER ::= { bridgeRouter 64 } at-AR415SRouter OBJECT IDENTIFIER ::= { bridgeRouter 71 } at-AR415SRouterDC OBJECT IDENTIFIER ::= { bridgeRouter 72 } at-AR550Router OBJECT IDENTIFIER ::= { bridgeRouter 73 } at-AR551Router OBJECT IDENTIFIER ::= { bridgeRouter 74 } at-AR552Router OBJECT IDENTIFIER ::= { bridgeRouter 75 } routerSwitch OBJECT IDENTIFIER ::= { products 14 } at-Rapier24 OBJECT IDENTIFIER ::= { routerSwitch 1 } at-Rapier16fSC OBJECT IDENTIFIER ::= { routerSwitch 2 } at-Rapier16fVF OBJECT IDENTIFIER ::= { routerSwitch 3 } -- deprecated - product has never been built at-Rapier16fMT OBJECT IDENTIFIER ::= { routerSwitch 4 } at-Rapier48 OBJECT IDENTIFIER ::= { routerSwitch 5 } at-Rapier8t8fSC OBJECT IDENTIFIER ::= { routerSwitch 6 } at-Rapier8t8fSCi OBJECT IDENTIFIER ::= { routerSwitch 7 } at-Rapier8t8fMT OBJECT IDENTIFIER ::= { routerSwitch 8 } at-Rapier8t8fMTi OBJECT IDENTIFIER ::= { routerSwitch 9 } at-Rapier8fSC OBJECT IDENTIFIER ::= { routerSwitch 10 } at-Rapier8fSCi OBJECT IDENTIFIER ::= { routerSwitch 11 } at-Rapier8fMT OBJECT IDENTIFIER ::= { routerSwitch 12 } at-Rapier8fMTi OBJECT IDENTIFIER ::= { routerSwitch 13 } at-Rapier16fMTi OBJECT IDENTIFIER ::= { routerSwitch 14 } at-RapierG6 OBJECT IDENTIFIER ::= { routerSwitch 15 } at-RapierG6SX OBJECT IDENTIFIER ::= { routerSwitch 16 } at-RapierG6LX OBJECT IDENTIFIER ::= { routerSwitch 17 } at-RapierG6MT OBJECT IDENTIFIER ::= { routerSwitch 18 } at-Rapier16fSCi OBJECT IDENTIFIER ::= { routerSwitch 19 } at-Rapier24i OBJECT IDENTIFIER ::= { routerSwitch 20 } at-Rapier48i OBJECT IDENTIFIER ::= { routerSwitch 21 } at-Switchblade4AC OBJECT IDENTIFIER ::= { routerSwitch 22 } at-Switchblade4DC OBJECT IDENTIFIER ::= { routerSwitch 23 } at-Switchblade8AC OBJECT IDENTIFIER ::= { routerSwitch 24 } at-Switchblade8DC OBJECT IDENTIFIER ::= { routerSwitch 25 } at-9816GF OBJECT IDENTIFIER ::= { routerSwitch 26 } at-9812TF OBJECT IDENTIFIER ::= { routerSwitch 27 } at-9816GB OBJECT IDENTIFIER ::= { routerSwitch 28 } at-9812T OBJECT IDENTIFIER ::= { routerSwitch 29 } at-8724XL OBJECT IDENTIFIER ::= { routerSwitch 30 } at-8748XL OBJECT IDENTIFIER ::= { routerSwitch 31 } at-8724XLDC OBJECT IDENTIFIER ::= { routerSwitch 32 } at-8748XLDC OBJECT IDENTIFIER ::= { routerSwitch 33 } at-9816GB-DC OBJECT IDENTIFIER ::= { routerSwitch 34 } at-9812T-DC OBJECT IDENTIFIER ::= { routerSwitch 35 } at-8824 OBJECT IDENTIFIER ::= { routerSwitch 36 } at-8848 OBJECT IDENTIFIER ::= { routerSwitch 37 } at-8824-DC OBJECT IDENTIFIER ::= { routerSwitch 38 } at-8848-DC OBJECT IDENTIFIER ::= { routerSwitch 39 } at-8624XL-80 OBJECT IDENTIFIER ::= { routerSwitch 41 } at-8724XL-80 OBJECT IDENTIFIER ::= { routerSwitch 42 } at-8748XL-80 OBJECT IDENTIFIER ::= { routerSwitch 43 } at-8948EX OBJECT IDENTIFIER ::= { routerSwitch 44 } at-8948MX OBJECT IDENTIFIER ::= { routerSwitch 45 } at-8624T2M OBJECT IDENTIFIER ::= { routerSwitch 46 } at-Rapier24i-DC-NEBS OBJECT IDENTIFIER ::= { routerSwitch 47 } at-8724XL-DC-NEBS OBJECT IDENTIFIER ::= { routerSwitch 48 } at-9924T OBJECT IDENTIFIER ::= { routerSwitch 49 } at-9924SP OBJECT IDENTIFIER ::= { routerSwitch 50 } at-9924T-4SP OBJECT IDENTIFIER ::= { routerSwitch 51 } at-9924TEMC OBJECT IDENTIFIER ::= { routerSwitch 53 } at-8724MLB OBJECT IDENTIFIER ::= { routerSwitch 55 } at-8624POE OBJECT IDENTIFIER ::= { routerSwitch 56 } at-9924Ts OBJECT IDENTIFIER ::= { routerSwitch 57 } at-86482SP OBJECT IDENTIFIER ::= { routerSwitch 58 } brouterMib OBJECT IDENTIFIER ::= { mibObject 4 } atRouter OBJECT IDENTIFIER ::= { brouterMib 4 } -- groups in ATROUTER objects OBJECT IDENTIFIER ::= { atRouter 1 } traps OBJECT IDENTIFIER ::= { atRouter 2 } sysinfo OBJECT IDENTIFIER ::= { atRouter 3 } modules OBJECT IDENTIFIER ::= { atRouter 4 } arInterfaces OBJECT IDENTIFIER ::= { atRouter 5 } -- this used to be interfaces, but this clashes with interfaces group in MIB-II protocols OBJECT IDENTIFIER ::= { atRouter 6 } -- objects for AT router boards OBJECT IDENTIFIER ::= { objects 1 } -- each AT router or L3 switch is made up of a number of boards. each board has its own -- object ID, given here. pprIcmAr023 OBJECT IDENTIFIER ::= { boards 39 } pprIcmAr021s OBJECT IDENTIFIER ::= { boards 40 } pprIcmAr022 OBJECT IDENTIFIER ::= { boards 41 } pprIcmAr025 OBJECT IDENTIFIER ::= { boards 45 } pprIcmAr024 OBJECT IDENTIFIER ::= { boards 46 } pprAr300 OBJECT IDENTIFIER ::= { boards 49 } pprAr300L OBJECT IDENTIFIER ::= { boards 52 } pprAr310 OBJECT IDENTIFIER ::= { boards 53 } pprAr120 OBJECT IDENTIFIER ::= { boards 54 } pprAr300Lu OBJECT IDENTIFIER ::= { boards 55 } pprAr300u OBJECT IDENTIFIER ::= { boards 56 } pprAr310u OBJECT IDENTIFIER ::= { boards 57 } pprAr350 OBJECT IDENTIFIER ::= { boards 58 } pprIcmAr021u OBJECT IDENTIFIER ::= { boards 59 } pprAr720 OBJECT IDENTIFIER ::= { boards 63 } pprAr010 OBJECT IDENTIFIER ::= { boards 67 } pprAr012 OBJECT IDENTIFIER ::= { boards 68 } pprAr011 OBJECT IDENTIFIER ::= { boards 69 } pprAr370 OBJECT IDENTIFIER ::= { boards 70 } pprAr330 OBJECT IDENTIFIER ::= { boards 71 } pprAr395 OBJECT IDENTIFIER ::= { boards 72 } pprAr390 OBJECT IDENTIFIER ::= { boards 73 } pprAr370u OBJECT IDENTIFIER ::= { boards 75 } pprIcmAr020 OBJECT IDENTIFIER ::= { boards 76 } pprAr740 OBJECT IDENTIFIER ::= { boards 79 } pprAr140s OBJECT IDENTIFIER ::= { boards 80 } pprAr140u OBJECT IDENTIFIER ::= { boards 81 } pprAr160su OBJECT IDENTIFIER ::= { boards 82 } pprAr320 OBJECT IDENTIFIER ::= { boards 83 } pprAr130s OBJECT IDENTIFIER ::= { boards 85 } pprAr130u OBJECT IDENTIFIER ::= { boards 86 } pprRapier24 OBJECT IDENTIFIER ::= { boards 87 } pprNsm0404Pic OBJECT IDENTIFIER ::= { boards 88 } pprA35SXSC OBJECT IDENTIFIER ::= { boards 89 } pprA35LXSC OBJECT IDENTIFIER ::= { boards 90 } pprA36MTRJ OBJECT IDENTIFIER ::= { boards 91 } pprA37VF45 OBJECT IDENTIFIER ::= { boards 92 } pprA38LC OBJECT IDENTIFIER ::= { boards 93 } pprA39Tx OBJECT IDENTIFIER ::= { boards 94 } pprAr740DC OBJECT IDENTIFIER ::= { boards 95 } pprNsm0418BRI OBJECT IDENTIFIER ::= { boards 96 } pprRapier16fSC OBJECT IDENTIFIER ::= { boards 97 } ppr8624xl80 OBJECT IDENTIFIER ::= { boards 98 } pprRapier16fMT OBJECT IDENTIFIER ::= { boards 99 } pprRapier16fMTi OBJECT IDENTIFIER ::= { boards 100 } pprRapier8t8fSC OBJECT IDENTIFIER ::= { boards 101 } pprRapier8t8fSCi OBJECT IDENTIFIER ::= { boards 102 } pprRapier8t8fMT OBJECT IDENTIFIER ::= { boards 103 } pprRapier8t8fMTi OBJECT IDENTIFIER ::= { boards 104 } pprRapier8fSC OBJECT IDENTIFIER ::= { boards 105 } pprRapier8fSCi OBJECT IDENTIFIER ::= { boards 106 } pprRapier8fMT OBJECT IDENTIFIER ::= { boards 107 } pprRapier8fMTi OBJECT IDENTIFIER ::= { boards 108 } pprRapierG6 OBJECT IDENTIFIER ::= { boards 110 } pprRapierG6SX OBJECT IDENTIFIER ::= { boards 111 } pprRapierG6LX OBJECT IDENTIFIER ::= { boards 112 } pprRapierG6MT OBJECT IDENTIFIER ::= { boards 113 } pprRapier16fSCi OBJECT IDENTIFIER ::= { boards 114 } pprRapier24i OBJECT IDENTIFIER ::= { boards 115 } pprAr824 OBJECT IDENTIFIER ::= { boards 116 } pprAr816fSC OBJECT IDENTIFIER ::= { boards 117 } pprAr816fSCi OBJECT IDENTIFIER ::= { boards 118 } pprAr816fMT OBJECT IDENTIFIER ::= { boards 119 } pprAr816fMTi OBJECT IDENTIFIER ::= { boards 120 } pprAr88t8fSC OBJECT IDENTIFIER ::= { boards 121 } pprAr88t8fSCi OBJECT IDENTIFIER ::= { boards 122 } pprAr88t8fMT OBJECT IDENTIFIER ::= { boards 123 } pprAr88t8fMTi OBJECT IDENTIFIER ::= { boards 124 } pprAr88fSC OBJECT IDENTIFIER ::= { boards 125 } pprAr88fSCi OBJECT IDENTIFIER ::= { boards 126 } pprAr88fMT OBJECT IDENTIFIER ::= { boards 127 } pprAr88fMTi OBJECT IDENTIFIER ::= { boards 128 } pprAr824i OBJECT IDENTIFIER ::= { boards 129 } pprAt8724XL OBJECT IDENTIFIER ::= { boards 130 } pprAt8748XL OBJECT IDENTIFIER ::= { boards 131 } pprAt8724XLDC OBJECT IDENTIFIER ::= { boards 132 } pprAt8748XLDC OBJECT IDENTIFIER ::= { boards 133 } pprAt8824 OBJECT IDENTIFIER ::= { boards 134 } pprAt8824DC OBJECT IDENTIFIER ::= { boards 135 } ppr8724XLDC OBJECT IDENTIFIER ::= { boards 141 } ppr8748XLDC OBJECT IDENTIFIER ::= { boards 142 } pprRapier24iDC-NEBS OBJECT IDENTIFIER ::= { boards 144 } pprAt8724XLDC-NEBS OBJECT IDENTIFIER ::= { boards 146 } pprAt8848DC OBJECT IDENTIFIER ::= { boards 147 } pprRapier48 OBJECT IDENTIFIER ::= { boards 148 } pprAt8848 OBJECT IDENTIFIER ::= { boards 149 } pprRapier48i OBJECT IDENTIFIER ::= { boards 150 } pprNsm0424BRI OBJECT IDENTIFIER ::= { boards 151 } pprIcmAR026 OBJECT IDENTIFIER ::= { boards 153 } ppr9816GF OBJECT IDENTIFIER ::= { boards 157 } ppr9812TF OBJECT IDENTIFIER ::= { boards 158 } pprSbChassis4AC OBJECT IDENTIFIER ::= { boards 159 } pprSbChassis4DC OBJECT IDENTIFIER ::= { boards 160 } pprSbChassis8AC OBJECT IDENTIFIER ::= { boards 161 } pprSbChassis8DC OBJECT IDENTIFIER ::= { boards 162 } pprSbChassis16AC OBJECT IDENTIFIER ::= { boards 163 } pprSbChassis16DC OBJECT IDENTIFIER ::= { boards 164 } pprSbControl OBJECT IDENTIFIER ::= { boards 165 } pprSbControlDTM OBJECT IDENTIFIER ::= { boards 166 } pprSb48t OBJECT IDENTIFIER ::= { boards 167 } pprSb96t OBJECT IDENTIFIER ::= { boards 168 } pprSb32fSC OBJECT IDENTIFIER ::= { boards 169 } pprSb32fMT OBJECT IDENTIFIER ::= { boards 170 } pprSb8fRJ OBJECT IDENTIFIER ::= { boards 172 } pprSb8fSXSC OBJECT IDENTIFIER ::= { boards 173 } pprSb8fSXMT OBJECT IDENTIFIER ::= { boards 174 } pprSb8fLXSC OBJECT IDENTIFIER ::= { boards 175 } pprSb8fLXMT OBJECT IDENTIFIER ::= { boards 176 } pprAr410 OBJECT IDENTIFIER ::= { boards 177 } pprA40SC OBJECT IDENTIFIER ::= { boards 178 } pprA40MTRJ OBJECT IDENTIFIER ::= { boards 179 } pprA41SC OBJECT IDENTIFIER ::= { boards 180 } pprA41MTRJ OBJECT IDENTIFIER ::= { boards 181 } pprAr725 OBJECT IDENTIFIER ::= { boards 182 } pprAr745 OBJECT IDENTIFIER ::= { boards 183 } pprSb8GBIC OBJECT IDENTIFIER ::= { boards 184 } pprA42GBIC OBJECT IDENTIFIER ::= { boards 185 } ppr9816GB OBJECT IDENTIFIER ::= { boards 186 } ppr9812T OBJECT IDENTIFIER ::= { boards 187 } pprNsm048DS3 OBJECT IDENTIFIER ::= { boards 188 } pprAr450 OBJECT IDENTIFIER ::= { boards 191 } pprAr450Dual OBJECT IDENTIFIER ::= { boards 192 } pprSbExpander OBJECT IDENTIFIER ::= { boards 193 } pprAr725DC OBJECT IDENTIFIER ::= { boards 194 } pprAr745DC OBJECT IDENTIFIER ::= { boards 195 } pprAr410v2 OBJECT IDENTIFIER ::= { boards 196 } pprAr410v3 OBJECT IDENTIFIER ::= { boards 197 } pprIcmAr027 OBJECT IDENTIFIER ::= { boards 198 } ppr8948EX OBJECT IDENTIFIER ::= { boards 202 } ppr8948MX OBJECT IDENTIFIER ::= { boards 203 } ppr9816GBDC OBJECT IDENTIFIER ::= { boards 204 } ppr9812TDC OBJECT IDENTIFIER ::= { boards 205 } pprIcmAr021v2s OBJECT IDENTIFIER ::= { boards 206 } pprA50 OBJECT IDENTIFIER ::= { boards 207 } pprA51 OBJECT IDENTIFIER ::= { boards 208 } pprA52 OBJECT IDENTIFIER ::= { boards 209 } pprA53 OBJECT IDENTIFIER ::= { boards 210 } pprFanA01 OBJECT IDENTIFIER ::= { boards 212 } pprAtPwr01AC OBJECT IDENTIFIER ::= { boards 213 } pprAtPwr01DC OBJECT IDENTIFIER ::= { boards 214 } pprAtFan01 OBJECT IDENTIFIER ::= { boards 215 } pprSb24RJ OBJECT IDENTIFIER ::= { boards 216 } pprSb1XFP OBJECT IDENTIFIER ::= { boards 217 } ppr9924T OBJECT IDENTIFIER ::= { boards 218 } ppr9924SP OBJECT IDENTIFIER ::= { boards 219 } ppr9924TEMC OBJECT IDENTIFIER ::= { boards 220 } ppr9924T4SP OBJECT IDENTIFIER ::= { boards 221 } pprAR440 OBJECT IDENTIFIER ::= { boards 227 } pprAR441 OBJECT IDENTIFIER ::= { boards 228 } pprAR442 OBJECT IDENTIFIER ::= { boards 229 } pprAR443 OBJECT IDENTIFIER ::= { boards 230 } pprAR444 OBJECT IDENTIFIER ::= { boards 231 } pprAR420 OBJECT IDENTIFIER ::= { boards 232 } pprAt8624T2M OBJECT IDENTIFIER ::= { boards 239 } pprA46Tx OBJECT IDENTIFIER ::= { boards 240 } pprAR550 OBJECT IDENTIFIER ::= { boards 241 } pprAR551 OBJECT IDENTIFIER ::= { boards 242 } pprAR552 OBJECT IDENTIFIER ::= { boards 243 } pprC8724MLB OBJECT IDENTIFIER ::= { boards 248 } pprAt86482SP OBJECT IDENTIFIER ::= { boards 252 } pprAt8624POE OBJECT IDENTIFIER ::= { boards 253 } pprAtPwr01RAC OBJECT IDENTIFIER ::= { boards 254 } pprAtFan01R OBJECT IDENTIFIER ::= { boards 255 } ppr9924Ts OBJECT IDENTIFIER ::= { boards 256 } pprAtPwr02AC OBJECT IDENTIFIER ::= { boards 264 } pprAtPwr02RAC OBJECT IDENTIFIER ::= { boards 265 } pprAtXum10G OBJECT IDENTIFIER ::= { boards 266 } pprAtXum12T OBJECT IDENTIFIER ::= { boards 267 } pprAtXum12SFP OBJECT IDENTIFIER ::= { boards 268 } pprSb24SFP OBJECT IDENTIFIER ::= { boards 269 } pprAR415S OBJECT IDENTIFIER ::= { boards 276 } pprAR415SDC OBJECT IDENTIFIER ::= { boards 277 } release OBJECT IDENTIFIER ::= { objects 2 } iftypes OBJECT IDENTIFIER ::= { objects 3 } ifaceEth OBJECT IDENTIFIER ::= { iftypes 1 } ifaceSyn OBJECT IDENTIFIER ::= { iftypes 2 } ifaceAsyn OBJECT IDENTIFIER ::= { iftypes 3 } ifaceBri OBJECT IDENTIFIER ::= { iftypes 4 } ifacePri OBJECT IDENTIFIER ::= { iftypes 5 } ifacePots OBJECT IDENTIFIER ::= { iftypes 6 } ifaceGBIC OBJECT IDENTIFIER ::= { iftypes 7 } chips OBJECT IDENTIFIER ::= { objects 4 } chip68020Cpu OBJECT IDENTIFIER ::= { chips 1 } chip68340Cpu OBJECT IDENTIFIER ::= { chips 2 } chip68302Cpu OBJECT IDENTIFIER ::= { chips 3 } chip68360Cpu OBJECT IDENTIFIER ::= { chips 4 } chip860TCpu OBJECT IDENTIFIER ::= { chips 5 } chipRtc1 OBJECT IDENTIFIER ::= { chips 21 } chipRtc2 OBJECT IDENTIFIER ::= { chips 22 } chipRtc3 OBJECT IDENTIFIER ::= { chips 23 } chipRtc4 OBJECT IDENTIFIER ::= { chips 24 } chipRam1mb OBJECT IDENTIFIER ::= { chips 31 } chipRam2mb OBJECT IDENTIFIER ::= { chips 32 } chipRam3mb OBJECT IDENTIFIER ::= { chips 33 } chipRam4mb OBJECT IDENTIFIER ::= { chips 34 } chipRam6mb OBJECT IDENTIFIER ::= { chips 36 } chipRam8mb OBJECT IDENTIFIER ::= { chips 38 } chipRam12mb OBJECT IDENTIFIER ::= { chips 42 } chipRam16mb OBJECT IDENTIFIER ::= { chips 46 } chipRam20mb OBJECT IDENTIFIER ::= { chips 50 } chipRam32mb OBJECT IDENTIFIER ::= { chips 62 } chipFlash1mb OBJECT IDENTIFIER ::= { chips 71 } chipFlash2mb OBJECT IDENTIFIER ::= { chips 72 } chipFlash3mb OBJECT IDENTIFIER ::= { chips 73 } chipFlash4mb OBJECT IDENTIFIER ::= { chips 74 } chipFlash6mb OBJECT IDENTIFIER ::= { chips 76 } chipFlash8mb OBJECT IDENTIFIER ::= { chips 78 } chipPem OBJECT IDENTIFIER ::= { chips 120 } -- System information (sysinfo groups) -- This part of the MIB contains generic system information. Currently defined groups and variables include: -- { sysinfo 1 } fanAndPs -- { sysinfo 2 } restart -- { sysinfo 3 } cpu -- { sysinfo 4 } sysTemperature -- { sysinfo 5 } atrContactDetails -- { sysinfo 6 } bbrNvs -- { sysinfo 9 } hostId -- fanAndPs - this group contains information about the Fan, Power Supply and -- Temperature status of the router. Some of the variables and their values -- borrow from the fstswitch MIB. -- This group was added on 21/Jun/2001 by Tony van der Peet on request from ATKK. fanAndPs OBJECT IDENTIFIER ::= { sysinfo 1 } fanAndPsRpsConnectionStatus OBJECT-TYPE SYNTAX INTEGER { non-supported(0), connected(1), not-connected(2), not-monitoring(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the Redundant Power Supply (RPS) connection, ie, whether an RPS is actually connected or not, regardless of whether the RPS is on or not. not-supported means that an RPS is not supported in this hardware platform, connected means that the RPS is connected, not-connected means that the RPS is not connected, and not-monitoring means that the status of the RPS is not being monitored presently. RPS monitoring can be turned on via the variable fanAndPsRpsMonitoringStatus, or by the command SET SYSTEM RPSMONITOR=ON." ::= { fanAndPs 1 } fanAndPsMainPSUStatus OBJECT-TYPE SYNTAX INTEGER { on(1), off(2), faulty(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the main Power Supply. on means that the power supply is present and fully operational. off means that the power supply is totally off (and obviously only applies to systems with a redundant power supply). faulty means that the main power supply is delivering power but that a component of the power supply is faulty. This applies to systems like SwitchBlade which have 3 power supplies but do not provide individual power supply monitoring. Also, in the case of SwitchBlade, power supply status includes the status of the fans in the power supply." ::= { fanAndPs 2 } fanAndPsRedundantPSUStatus OBJECT-TYPE SYNTAX INTEGER { non-supported(0), on(1), off(2), not-monitoring(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the redundant Power Supply. non-supported means this device does not support redundant power supplies, on means that the redundant power supply is connected and able to supply system power if required, off means that the redundant power supply is either not connected or is connected and is not able to supply system power if required, and not-monitoring means that the status of the RPS is not being monitored presently. RPS monitoring can be turned on via the variable fanAndPsRpsMonitoringStatus, or by the command SET SYSTEM RPSMONITOR=ON." ::= { fanAndPs 3 } fanAndPsRpsMonitoringStatus OBJECT-TYPE SYNTAX INTEGER { non-supported(0), on(1), off(2) } ACCESS read-write STATUS mandatory DESCRIPTION "The current status of redundant power supply monitoring. The monitoring of the redundant power supply and its fan must be enabled by command or by setting this variable to on. The value non-supported means that this device does not support redundant power supplies. Only the values on or off may be written to this variable. If this variables reads as non-supported, an attempt to write to this variable will result in a bad value error." ::= { fanAndPs 4 } fanAndPsMainFanStatus OBJECT-TYPE SYNTAX INTEGER { non-supported(0), ok(1), not-ok(2), warning(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the main Power Supply fan. non-supported means that this device does not support monitoring on the main power supply fan, or that there is no main power supply fan. The warning means the fan's speed is outside 30% of the expected speed." ::= { fanAndPs 5 } fanAndPsRedundantFanStatus OBJECT-TYPE SYNTAX INTEGER { non-supported(0), ok(1), not-ok(2), not-monitoring(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the redundant Power Supply Fan. non-supported means this device does not support redundant power supplies, ok means that the redundant power supply fan is running, not-ok means that the redundant power supply fan is not running, and not-monitoring means that the status of the RPS is not being monitored presently. RPS monitoring can be turned on via the variable fanAndPsRpsMonitoringStatus, or by the command SET SYSTEM RPSMONITOR=ON." ::= { fanAndPs 6 } fanAndPsTemperatureStatus OBJECT-TYPE SYNTAX INTEGER { ok(1), not-ok(2) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of temperature in this device. ok means that the device is not capable of monitoring temperature or that the temperature is OK, not-ok means that the temperature is being monitored and is currently out of the range 0C - 45C." ::= { fanAndPs 7 } fanAndPsFanTrayPresent OBJECT-TYPE SYNTAX INTEGER { non-supported(0), present(1), not-present(2) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the presence of the fan tray in this system. Systems which do not support a fan tray return the value non-supported. Upon removal of the fan tray there is a short period (20s) before the value of this variable is changed to not-present. This is to allow for scheduled replacement and/or cleaning of the fan tray." ::= { fanAndPs 8 } fanAndPsFanTrayStatus OBJECT-TYPE SYNTAX INTEGER { non-supported(0), ok(1), not-ok(2) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the fan tray in this system. Systems which do not support a fan tray return the value non-supported. The value ok is returned if all fans in the fan tray are running at full speed. The value not-ok is returned if one of more of the fan tray fans is running slow or has stalled." ::= { fanAndPs 9 } fanAndPsMainMonitoringStatus OBJECT-TYPE SYNTAX INTEGER { non-supported(0), ok(1), not-ok(2) } ACCESS read-only STATUS mandatory DESCRIPTION "The current status of main power supply monitoring. The monitoring of the main power supply and its fan is always enabled by those systems that support it. Systems which do not support main power supply or fan monitoring report a value of not-supported. The value ok is returned for those systems that do support main power supply and fan monitoring, and where the monitoring operation is reporting valid information (refer to fanAndPsMainFanStatus for the current status of the system). When main power supply and fan monitoring is failing, the value not-ok is returned." ::= { fanAndPs 10 } -- fanAndPsPsuStatusTable - AT8948 specific power supply monitoring. -- Added on by Elizabeth Kennett/Wenhua Wei for AT8948 project. fanAndPsPsuStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF FanAndPsPsuStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The table of AT8948 fanAndPsPsuStatusTable. Each entry in the table represents the status of one of the power supplies in AT8948 system. Each power supply has its own board ID." ::= { fanAndPs 11 } fanAndPsPsuStatusEntry OBJECT-TYPE SYNTAX FanAndPsPsuStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry of AT8948 fanAndPsPsuStatusTable, indexed by fanAndPsPsuNumber field." INDEX { fanAndPsPsuNumber } ::= { fanAndPsPsuStatusTable 1 } FanAndPsPsuStatusEntry ::= SEQUENCE { fanAndPsPsuNumber INTEGER, fanAndPsPsuPresent INTEGER, fanAndPsPsuType INTEGER, fanAndPsPsuFan INTEGER, fanAndPsPsuTemperature INTEGER, fanAndPsPsuPower INTEGER } fanAndPsPsuNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The PSU board identity for which this entry holds. If the system consists only of a single PSU board, only one entry will appear in the table, whose index is 1." ::= { fanAndPsPsuStatusEntry 1 } fanAndPsPsuPresent OBJECT-TYPE SYNTAX INTEGER{ yes(0), no (1) } ACCESS read-only STATUS mandatory DESCRIPTION "The PSU present state, displayed as 'yes' if present, or 'no' if absent." ::= { fanAndPsPsuStatusEntry 2 } fanAndPsPsuType OBJECT-TYPE SYNTAX INTEGER{ ac(0), dc(1), fan(2), not-present(3), not-supported(4) } ACCESS read-only STATUS mandatory DESCRIPTION "The PSU type, displayed as AC, or DC, or FAN, or NOT PRESENT." ::= { fanAndPsPsuStatusEntry 3 } fanAndPsPsuFan OBJECT-TYPE SYNTAX INTEGER{ ok(0), fail(1), not-present(2), not-supported(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The PSU fan status, displayed as OK, or FAIL, or NOT PRESENT." ::= { fanAndPsPsuStatusEntry 4 } fanAndPsPsuTemperature OBJECT-TYPE SYNTAX INTEGER{ good(0), high(1), not-present(2), not-supported(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The PSU temperature, displayed as GOOD, or HIGH, or NOT PRESENT, or NOT SUPPORTED." ::= { fanAndPsPsuStatusEntry 5 } fanAndPsPsuPower OBJECT-TYPE SYNTAX INTEGER{ good(0), bad(1), not-present(2), not-supported(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The PSU power status, displayed as GOOD, or BAD, or NOT PRESENT or NOT SUPPORTED." ::= { fanAndPsPsuStatusEntry 6 } fanAndPsAccelFanStatus OBJECT-TYPE SYNTAX INTEGER { non-supported(0), ok(1), not-ok(2) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the accelerator card fans. Non-supported means this device does not support monitoring of the accelerator card fans." ::= { fanAndPs 12 } -- fanAndPs traps - traps exist for changes to power supply status, fan status -- and temperature status. fanAndPsRpsConnectionTrap TRAP-TYPE ENTERPRISE fanAndPs VARIABLES { fanAndPsRpsConnectionStatus } DESCRIPTION "Generated when the RPS connection status changes." ::= 1 fanAndPsMainPSUStatusTrap TRAP-TYPE ENTERPRISE fanAndPs VARIABLES { fanAndPsMainPSUStatus } DESCRIPTION "Generated when the main power supply status changes." ::= 2 fanAndPsRedundantPSUStatusTrap TRAP-TYPE ENTERPRISE fanAndPs VARIABLES { fanAndPsRedundantPSUStatus } DESCRIPTION "Generated when the RPS status changes." ::= 3 fanAndPsMainFanStatusTrap TRAP-TYPE ENTERPRISE fanAndPs VARIABLES { fanAndPsMainFanStatus } DESCRIPTION "Generated when the main fan changes status." ::= 4 fanAndPsRedundantFanStatusTrap TRAP-TYPE ENTERPRISE fanAndPs VARIABLES { fanAndPsRedundantFanStatus } DESCRIPTION "Generated when the redundant fan changes status." ::= 5 fanAndPsTemperatureStatusTrap TRAP-TYPE ENTERPRISE fanAndPs VARIABLES { fanAndPsTemperatureStatus } DESCRIPTION "Generated when the temperature changes status." ::= 6 fanAndPsFanTrayPresentTrap TRAP-TYPE ENTERPRISE fanAndPs VARIABLES { fanAndPsFanTrayPresent } DESCRIPTION "Generated when the fan tray presence status changes." ::= 7 fanAndPsFanTrayStatusTrap TRAP-TYPE ENTERPRISE fanAndPs VARIABLES { fanAndPsFanTrayStatus } DESCRIPTION "Generated when the fan tray status changes." ::= 8 fanAndPsMainMonitoringStatusTrap TRAP-TYPE ENTERPRISE fanAndPs VARIABLES { fanAndPsMainMonitoringStatus } DESCRIPTION "Generated when the main power supply monitoring status changes." ::= 9 fanAndPsAccelFanStatusTrap TRAP-TYPE ENTERPRISE fanAndPs VARIABLES { fanAndPsAccelFanStatus } DESCRIPTION "Generated when the accelerator fans' status changes." ::= 10 -- Add the option to restart the router/switch either cold or warm. restart OBJECT-TYPE SYNTAX INTEGER { restart-none(0), restart-warm(1), restart-cold(2) } ACCESS write-only STATUS mandatory DESCRIPTION "A router/switch restart request. A management station can remotely instruct an ATI router/switch to action a warm or cold restart. Once all the appropriate internal checks have been made, the router/switch will acknowledge the request via normal SNMP channels. The restart instruction will be actioned after waiting for a period of 5 seconds, this is because the SNMP acknowledgement packet needs time to reach the management station. Once the request has been actioned, it can not be cancelled and communication with the router/switch will be lost during system initialisation." ::= { sysinfo 2 } -- cpu - this group contains information about the cpu utilisation over different -- periods of time. -- This group was added on 21/Nov/2001 by summer students on request from Telecom Italia. cpu OBJECT IDENTIFIER ::= { sysinfo 3 } cpuUtilisationMax OBJECT-TYPE SYNTAX INTEGER (0..100) ACCESS read-only STATUS mandatory DESCRIPTION "Maximum CPU utilisation since the router was last restarted. Expressed as a percentage." ::= { cpu 1 } cpuUtilisationAvg OBJECT-TYPE SYNTAX INTEGER (0..100) ACCESS read-only STATUS mandatory DESCRIPTION "Average CPU utilisation since the router was last restarted. Expressed as a percentage." ::= { cpu 2 } cpuUtilisationAvgLastMinute OBJECT-TYPE SYNTAX INTEGER (0..100) ACCESS read-only STATUS mandatory DESCRIPTION "Average CPU utilisation over the past minute. Expressed as a percentage." ::= { cpu 3 } cpuUtilisationAvgLast10Seconds OBJECT-TYPE SYNTAX INTEGER (0..100) ACCESS read-only STATUS mandatory DESCRIPTION "Average CPU utilisation over the past ten seconds. Expressed as a percentage." ::= { cpu 4 } cpuUtilisationAvgLastSecond OBJECT-TYPE SYNTAX INTEGER (0..100) ACCESS read-only STATUS mandatory DESCRIPTION "Average CPU utilisation over the past second. Expressed as a percentage." ::= { cpu 5 } cpuUtilisationMaxLast5Minutes OBJECT-TYPE SYNTAX INTEGER (0..100) ACCESS read-only STATUS mandatory DESCRIPTION "Maximum CPU utilisation over the last 5 minutes. Expressed as a percentage." ::= { cpu 6 } cpuUtilisationAvgLast5Minutes OBJECT-TYPE SYNTAX INTEGER (0..100) ACCESS read-only STATUS mandatory DESCRIPTION "Average CPU utilisation over the past 5 minutes. Expressed as a percentage." ::= { cpu 7 } -- sysTemperature - this group contains information about the temperature monitoring -- in the system. under this group is a general group, containing generic temperature -- monitoring variables, and one or more specific groups, which contain variables specific -- to particular products. sysTemperature OBJECT IDENTIFIER ::= { sysinfo 4 } -- This group displays generic system temperature information - the actual -- temperature, the fixed temperature threshold and an indication the -- temperature has fallen below the threshold. A particular product may support -- this information or not. If not the product may have a specific entry for -- its particular temperature information. A product may also support the -- generic information and additional specific information. generalTemperature OBJECT IDENTIFIER ::= { sysTemperature 1 } -- Added on 26/Apr/2002 by Tony van der Peet on behalf of Elizabeth Kennett for Claymore project. generalTemperatureSupported OBJECT-TYPE SYNTAX INTEGER { not-supported(0), supported(1) } ACCESS read-only STATUS mandatory DESCRIPTION "The value supported indicates general temperature is displayed by the device. The value not-supported indicates the device displays specific temperature information or none at all." ::= { generalTemperature 1 } generalTemperatureActualTemp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The current temperature of product's base board, in degrees Celsius. A device which doesn't support this group will return the value 0 for this variable." ::= { generalTemperature 2 } generalTemperatureStatus OBJECT-TYPE SYNTAX INTEGER { ok(1), not-ok(2) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of temperature in this device. ok indicates the temperature is below the threshold temperature or the device is not capable of monitoring temperature. not-ok indicates the temperature is being monitored and is currently above the threshold temperature (displayed in generalTemperatureThreshold)." ::= { generalTemperature 3 } generalTemperatureThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The temperature threshold for the device. If the temperature of the device rises above this threshold generalTemeratureStatus will indicate a not-ok status." ::= { generalTemperature 4 } -- generalTemperature trap - a trap monitoring changes in the temperature status. generalTemperatureStatusTrap TRAP-TYPE ENTERPRISE generalTemperature VARIABLES { generalTemperatureStatus, generalTemperatureActualTemp, generalTemperatureThreshold } DESCRIPTION "Generated when the temperature status of the device changes." ::= 1 -- sbTemperature - SwitchBlade specific temperature monitoring. -- Added on 26/Apr/2002 by Tony van der Peet on behalf of Paul Wang for SwitchBlade project. sbTemperature OBJECT IDENTIFIER ::= { sysTemperature 2 } sbTempTable OBJECT-TYPE SYNTAX SEQUENCE OF SbTempEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The table of SwitchBlade sysTemperature. Each entry in the table represents temperature monitoring from one of the CPU cards which may be present in the SwitchBlade system." ::= { sbTemperature 1 } sbTempEntry OBJECT-TYPE SYNTAX SbTempEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry of SwitchBlade sysTemperature" INDEX { sbTempIndex } ::= { sbTempTable 1 } SbTempEntry ::= SEQUENCE { sbTempIndex INTEGER, sbTempActualTemperature INTEGER, sbTempFixedThresholdStatus INTEGER, sbTempSettableThresholdStatus INTEGER, sbTempSettableThreshold INTEGER } sbTempIndex OBJECT-TYPE SYNTAX INTEGER { master(1), slave(2) } ACCESS read-only STATUS mandatory DESCRIPTION "The board for which this temperature entry holds. If the system consists only of a single CPU board, only one entry will appear in the table, whose index is master(1)." ::= { sbTempEntry 1 } sbTempActualTemperature OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The actual SwitchBlade temperature. This temperature is measured within the SwitchBlade CPU, and is sampled at 1 second intervals." ::= { sbTempEntry 2 } sbTempFixedThresholdStatus OBJECT-TYPE SYNTAX INTEGER { normal(1), crossover(2) } ACCESS read-only STATUS mandatory DESCRIPTION "The temperature status with regard to the fixed temperature threshold. The value of the fixed temperature threshold is set at 90 degrees C. This variable represents whether the actual temperature is above the threshold (value is crossover(2)) or below the threshold (value is normal(1)). If the temperature is exactly the same as the fixed temperature threshold, the value of this variable reads as normal(1)." ::= { sbTempEntry 3 } sbTempSettableThresholdStatus OBJECT-TYPE SYNTAX INTEGER { normal(1), crossover(2), undefined(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The temperature status with regard to the settable temperature threshold. The value of the settable temperature threshold is set by management intervention. This variable represents whether the actual temperature is above the threshold (value is crossover(2)) or below the threshold (value is normal(1)). When the value of this variable is undefined(3), no settable threshold has been specified and the value of sbTempSettableThreshold is not used." ::= { sbTempEntry 4 } sbTempSettableThreshold OBJECT-TYPE SYNTAX INTEGER (30..100) ACCESS read-write STATUS mandatory DESCRIPTION "The value of the settable temperature threshold. This can be set independently for each temperature entry. The value of this threshold is only valid when sbTempSettableThresholdStatus is not set to undefined(3)." ::= { sbTempEntry 5 } sbTempFixedThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The value of the fixed temperature threshold. This value is fixed for both CPU cards, and cannot be set." ::= { sbTemperature 2 } sbTempFixedThresholdTrap TRAP-TYPE ENTERPRISE sbTemperature VARIABLES { sbTempFixedThresholdStatus, sbTempActualTemperature, sbTempFixedThreshold } DESCRIPTION "Trap occurs when fixed threshold status changes. The actual temperature and the fixed threshold are also given." ::= 1 sbTempSettableThresholdTrap TRAP-TYPE ENTERPRISE sbTemperature VARIABLES { sbTempSettableThresholdStatus, sbTempActualTemperature, sbTempSettableThreshold } DESCRIPTION "Trap occurs when settable threshold status changes. The actual temperature and the settable threshold are also given." ::= 2 atContactDetails OBJECT-TYPE SYNTAX DisplayString (SIZE(0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "The contact details for Allied Telesyn inc." ::= { sysinfo 5 } -- acceleratorTemperature - Accelerator card specific temperature monitoring. -- Added by Elizabeth Kennett for AT8948 project. acceleratorTemperature OBJECT IDENTIFIER ::= { sysTemperature 3 } acceleratorTemperatureSupported OBJECT-TYPE SYNTAX INTEGER { not-supported(0), supported(1) } ACCESS read-only STATUS mandatory DESCRIPTION "The value supported indicates whether accelerator card temperature is displayed by the device. The value not-supported indicates the device does not display specific accelerator card temperature information." ::= { acceleratorTemperature 1 } acceleratorTemperatureActualTemp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The current temperature of product's base board, in degrees Celsius. A device which doesn't support this group will return the value 0 for this variable." ::= { acceleratorTemperature 2 } acceleratorTemperatureStatus OBJECT-TYPE SYNTAX INTEGER { ok(1), not-ok(2) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of temperature in this device. ok indicates the temperature is below the threshold temperature or the device is not capable of monitoring temperature. not-ok indicates the temperature is being monitored and is currently above the threshold temperature (displayed in generalTemperatureThreshold)." ::= { acceleratorTemperature 3 } acceleratorTemperatureThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The temperature threshold for the device. If the temperature of the device rises above this threshold generalTemeratureStatus will indicate a not-ok status." ::= { acceleratorTemperature 4 } -- acceleratorTemperature trap - a trap monitoring changes in the temperature status. acceleratorTemperatureStatusTrap TRAP-TYPE ENTERPRISE acceleratorTemperature VARIABLES { acceleratorTemperatureStatus } DESCRIPTION "Generated when the temperature status of the device changes." ::= 1 -- bbrNvs - this group contains information about the battery backed RAM non-volatile storage -- in the router. -- This group was added on 6/Nov/2002 by Dezhi Luo on request from ATKK. bbrNvs OBJECT IDENTIFIER ::= { sysinfo 6 } bbrNvsReinitialiseTrap TRAP-TYPE ENTERPRISE bbrNvs DESCRIPTION "Generated at boot when the device detects that the BBR has been corrupted and reinitialised. This can happen if the device's BBR battery has run down, and the device has been powered off, then on." ::= 1 -- memory - this group contains information about the current memory status -- of the router. -- This group was added on 6/Jan/2004 by Sean Lin on request from ATKK for Yahoo!BB memory OBJECT IDENTIFIER ::= { sysinfo 7 } freeMemory OBJECT-TYPE SYNTAX INTEGER (0..100) ACCESS read-only STATUS mandatory DESCRIPTION "Percentage of free memory still available on device" ::= { memory 1 } totalBuffers OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Total number of buffers available on device" ::= { memory 2 } realTimeClockStatus OBJECT-TYPE SYNTAX INTEGER { invalid(0), normal(1) } ACCESS read-only STATUS mandatory DESCRIPTION "Shows the status of the real time clock" ::= { sysinfo 8 } hostId OBJECT-TYPE SYNTAX INTEGER (0..32) ACCESS read-write STATUS mandatory DESCRIPTION "Host Identifier of this device" ::= { sysinfo 9 } -- Router interfaces tables. -- A router consists of a number of "boards". Each board may have a -- number of "positions", each of which contains a single router -- interface. Each boards may also have a number of "slots", which are -- places which can take other boards. Thus the physical construction -- of a router may be seen as a tree whose nodes are boards and -- interfaces, and whose links are positions and slots. -- For example, an AR720 with a single Ethernet ICM in Bay 1 has the -- following tree: -- Bd:AR720 base board -- === P1 === Int: Asyn0 -- === P2 === Int: Asyn1 -- === P3 === Int: Eth0 -- === S1 (Bay0) === -- === S2 (Bay1) === Bd:Ethernet ICM === P1 === Int: Eth1 -- === S3 (MAC) === -- The function of the interface MIB tables is to represent this tree -- and to map elements in this tree to other MIB variables. Note that -- any given board has a fixed configuration of positions and slots, -- it is what is contained in the slots that give different hardware -- configurations. -- The highest index of boards in this router. Boards will have indices -- from 1 to the value of this object. There may be gaps in the -- sequence if the router has hot-swap capability. If the router has no -- hot-swap capability, or no swapping has taken place since boot, the -- sequence of boards will have no gaps. arBoardMaxIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum index of boards in the board table. Index 1 is reserved for the main system board of the router." ::= { arInterfaces 1 } -- Router boards table. This table describes all of the physical boards -- present in this router. A board is defined as a separate circuit -- board with its own serial number. arBoardTable OBJECT-TYPE SYNTAX SEQUENCE OF ArBoardEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The table of boards in the AR router." ::= { arInterfaces 2 } arBoardEntry OBJECT-TYPE SYNTAX ArBoardEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry in the board table. Each entry consists of information about one board in the router." INDEX { arBoardIndex } ::= { arBoardTable 1 } ArBoardEntry ::= SEQUENCE { arBoardIndex INTEGER, arBoardId OBJECT IDENTIFIER, arBoardName DisplayString, arBoardRevision DisplayString, arBoardSerialNumber DisplayString, arBoardTotalSlots INTEGER, arBoardTotalPositions INTEGER } arBoardIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the board in the board table. Index 1 is reserved for the main system board of the router. Other boards will take index numbers as they are initialised at router startup, or for routers with hot-swap capability, as boards are added to and removed from the router." ::= { arBoardEntry 1 } arBoardId OBJECT-TYPE SYNTAX OBJECT IDENTIFIER ACCESS read-only STATUS mandatory DESCRIPTION "The type of board in this board entry. The values of this object are taken from the pprXxx object IDs under the boards sub-tree." ::= { arBoardEntry 2 } arBoardName OBJECT-TYPE SYNTAX DisplayString (SIZE(0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "The name of the board in this board entry. This is a readable string which identifies the board to the manager." ::= { arBoardEntry 3 } arBoardRevision OBJECT-TYPE SYNTAX DisplayString (SIZE(0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "The manufacturing revision of the board in this board entry. This string has the format Xm-n, where X is P for prototype, or M for manufacturing, m is the major revision number for this board, and n is the field upgrade revision number for this board." ::= { arBoardEntry 4 } arBoardSerialNumber OBJECT-TYPE SYNTAX DisplayString (SIZE(0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "The serial number of the board in this board entry. Serial numbers are strings of decimal numbers up to 10 digits in length. Each and every serial number is globally unique. It is possible for the serial number of a board to be invalid. In this case the value returned for this object will be '*** Invalid ***'" ::= { arBoardEntry 5 } arBoardTotalSlots OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of slots on this board. Each slot from 1 to the value of this object may be empty or occupied by another board. By searching the arSlotTable with this board's board index and all values of slot index from 1 to the value of this object, a tree of the boards in this router can be built. The value 0 for this object means that it has no slots." ::= { arBoardEntry 6 } arBoardTotalPositions OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of positions on this board. Each position from 1 to the value of this object contains a single router interface. Note that positions are different from slots. An position contains an actual interface while a slot contains a different board which itself may contain interfaces in its positions." ::= { arBoardEntry 7 } -- Router board slot table. This table is indexed by board index and -- slot index and gives the board index of the board occupying the -- given slot in the given board. arSlotTable OBJECT-TYPE SYNTAX SEQUENCE OF ArSlotEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The table of slots in the router, indexed by board index and slot index." ::= { arInterfaces 3 } arSlotEntry OBJECT-TYPE SYNTAX ArSlotEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry in the board slot table." INDEX { arSlotBoardIndex, arSlotSlotIndex } ::= { arSlotTable 1 } ArSlotEntry ::= SEQUENCE { arSlotBoardIndex INTEGER, arSlotSlotIndex INTEGER, arSlotHeldBoardIndex INTEGER, arSlotDescription DisplayString } arSlotBoardIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the board for this slot entry. Index 1 is reserved for the main system board of the router." ::= { arSlotEntry 1 } arSlotSlotIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the slot for this slot entry. Indices start from 1 and are specific to each different board type. There are no gaps in the sequence of slot indices. The maximum value for slot index is given by the value of arBoardTotalSlots for this board." ::= { arSlotEntry 2 } arSlotHeldBoardIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the board held in the slot for this slot entry. This is an index into the arBoardTable. A value of 0 for this object means that the slot is not populated." ::= { arSlotEntry 3 } arSlotDescription OBJECT-TYPE SYNTAX DisplayString (SIZE(0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "A description for this slot entry. This is a textual description which gives the manager a clue as to what the slot for this entry is. For example, the slots on an AR 720 have descriptions 'Bay0', 'Bay1' and 'MAC'." ::= { arSlotEntry 4 } -- Router interfaces table. This table has an entry for each physical -- interface on the router. The indices for this table are the router -- board index and a board position index. arInterfaceTable OBJECT-TYPE SYNTAX SEQUENCE OF ArInterfaceEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The table of physical interfaces in the AR router." ::= { arInterfaces 4 } arInterfaceEntry OBJECT-TYPE SYNTAX ArInterfaceEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry in the interface table. Each entry consists of information about one interface in the router, and is indexed by the board index and the position of the interface on the board." INDEX { arInterfaceBoardIndex, arInterfacePosition } ::= { arInterfaceTable 1 } ArInterfaceEntry ::= SEQUENCE { arInterfaceBoardIndex INTEGER, arInterfacePosition INTEGER, arInterfaceIfIndex InterfaceIndexOrZero, arInterfaceName DisplayString, arInterfaceFullName DisplayString } arInterfaceBoardIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the board in the board table which contains this interface. Index 1 is reserved for the main system board of the router." ::= { arInterfaceEntry 1 } arInterfacePosition OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The position of the interface on the board. Each board type will have well-known positions which are the interfaces provided by the board. The number of positions on a given board is given by the object arBoardTotalPositions for this board." ::= { arInterfaceEntry 2 } arInterfaceIfIndex OBJECT-TYPE SYNTAX InterfaceIndexOrZero ACCESS read-only STATUS mandatory DESCRIPTION "The ifIndex for the interface represented by this entry of the interfaces table. This is the ifIndex of the ifEntry used to represent the physical interface. The value 0 is used for interfaces which don't have an ifIndex." ::= { arInterfaceEntry 3 } arInterfaceName OBJECT-TYPE SYNTAX DisplayString (SIZE(0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "The name of this interface. This is the name that the manager can use to refer to this interface in entering router commands." ::= { arInterfaceEntry 4 } arInterfaceFullName OBJECT-TYPE SYNTAX DisplayString (SIZE(0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "The fully qualified name for this interface. This identifies the path that must be followed to reach the interface. This name can be used in router commands. In routers don't support fully qualified names, this is the same as arInterfaceName." ::= { arInterfaceEntry 5 } -- ================================================================================= -- Router interface extension table. This table extends ifTable to allow interface variables -- not covered in the standard MIB. Current variables include: -- 1. 512s moving averages of interface throughput, bps and pps. arIfXTable OBJECT-TYPE SYNTAX SEQUENCE OF ArIfXEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The table of interface statistics for the AR router. This table extends the ifTable." ::= { arInterfaces 5 } arIfXEntry OBJECT-TYPE SYNTAX ArIfXEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry in the interface extension table. Each entry consists of extra interface information not covered in standard MIBs. The index for this table is ifIndex, the same as for ifTable." INDEX { arIfXIndex } ::= { arIfXTable 1 } ArIfXEntry ::= SEQUENCE { arIfXIndex INTEGER, arIfXAverageInputBitsSecond INTEGER, arIfXAverageInputPacketsSecond INTEGER, arIfXAverageOutputBitsSecond INTEGER, arIfXAverageOutputPacketsSecond INTEGER } arIfXIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the ifTable." ::= { arIfXEntry 1 } arIfXAverageInputBitsSecond OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The average number of bits received per second on all interfaces over the past 8.5 minutes. The average is calculated by an 8.5 minute (512s) decaying average, which is updated every 4 seconds using the following formula: X' = 127/128X + 1/128i where X' is the new average X is the old average i is the most recent poll result The times and multiplier factors have been chosen to give the simplest possible calculation using bit shifting operations." ::= { arIfXEntry 2 } arIfXAverageInputPacketsSecond OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The average number of packets received per second on all interfaces over the past 8.5 minutes. See the description for arIfXAverageInputBitsSecond for details of the way in which the average is calculated." ::= { arIfXEntry 3 } arIfXAverageOutputBitsSecond OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The average number of bits sent per second on all interfaces over the past 8.5 minutes. See the description for arIfXAverageInputBitsSecond for details of the way in which the average is calculated." ::= { arIfXEntry 4 } arIfXAverageOutputPacketsSecond OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The average number of bits sent per second on all interfaces over the past 8.5 minutes. See the description for arIfXAverageInputBitsSecond for details of the way in which the average is calculated." ::= { arIfXEntry 5 } -- Start of module MIBs. Each MIB under here represents a particular module in the router software. -- ========== ETH module ========== -- ========== ETH module ========== -- ========== ETH module ========== -- The Ethernet module. This group consists of a table of Ethernet -- interfaces indexed by ifIndex which provide MIB objects not given in a -- convenient form by other standard MIBs. ethernet OBJECT IDENTIFIER ::= { modules 23 } -- The index off the modules subtree is from modules.h. -- The Ethernet interface table. Each entry is a single Ethernet interface -- on the router. ethIntTable OBJECT-TYPE SYNTAX SEQUENCE OF EthIntEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The table of Ethernet interfaces." ::= { ethernet 1 } ethIntEntry OBJECT-TYPE SYNTAX EthIntEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry in the Ethernet interfaces table." INDEX { ethIntIndex } ::= { ethIntTable 1 } EthIntEntry ::= SEQUENCE { ethIntIndex INTEGER, ethIntBoardIndex INTEGER, ethIntBoardPosition INTEGER, ethIntDuplexMode INTEGER } ethIntIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The ifIndex of the Ethernet interface." ::= { ethIntEntry 1 } ethIntBoardIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index in the arBoardTable of the board on which this Ethernet interface resides. If this Ethernet interface is not found, the value of this object is 0." ::= { ethIntEntry 2 } ethIntBoardPosition OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The position on this Ethernet interface's board of this Ethernet interface. If this Ethernet interface is not found, the value of this object is 0." ::= { ethIntEntry 3 } ethIntDuplexMode OBJECT-TYPE SYNTAX INTEGER { full-duplex (1), half-duplex (2), unknown (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The duplex mode of this Ethernet interface. The value unknown is returned when the interface cannot or has not yet made a determination of its duplex mode, or when the interface cannot be found." ::= { ethIntEntry 4 } -- ========== FLASH module ========== -- ========== FLASH module ========== -- ========== FLASH module ========== -- The FLASH group. flash OBJECT IDENTIFIER ::= { modules 31 } flashGetFailure OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of flash get operations that have failed." ::= { flash 1 } flashOpenFailure OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of flash open operations that have failed." ::= { flash 2 } flashReadFailure OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of flash read operations that have failed." ::= { flash 3 } flashCloseFailure OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of flash close operations that have failed." ::= { flash 4 } flashCompleteFailure OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of flash complete operations that have failed." ::= { flash 5 } flashWriteFailure OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of flash write operations that have failed." ::= { flash 6 } flashCreateFailure OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of flash create operations that have failed." ::= { flash 7 } flashPutFailure OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of flash put operations that have failed." ::= { flash 8 } flashDeleteFailure OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of flash delete operations that have failed." ::= { flash 9 } flashCheckFailure OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of flash check operations that have failed." ::= { flash 10 } flashEraseFailure OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of flash erase operations that have failed." ::= { flash 11 } flashCompactFailure OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of flash compaction operations that have failed." ::= { flash 12 } flashVerifyFailure OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of flash verify operations that have failed." ::= { flash 13 } flashFailureTrap TRAP-TYPE ENTERPRISE flash VARIABLES { flashGetFailure, flashOpenFailure, flashReadFailure, flashCloseFailure, flashCompleteFailure, flashWriteFailure, flashCreateFailure, flashPutFailure, flashDeleteFailure, flashCheckFailure, flashEraseFailure, flashCompactFailure, flashVerifyFailure } DESCRIPTION "A flash failure trap is generated when any of the above flash counter is incremented and the failure type is sent in the trap." ::= 1 -- ========== CC module ========== -- ========== CC module ========== -- ========== CC module ========== -- The ISDN Call Control group. This group consists of: -- 1. the call details table -- 2. the CLI list table -- 3. the active calls table -- 4. the call log table -- 5. the attachment table -- 6. the B channel allocation table cc OBJECT IDENTIFIER ::= { modules 37 } -- The index off the modules subtree is from modules.h. -- The ISDN call details table. This consists of a number of entries containing -- configuration information for ISDN calls. ccDetailsTable OBJECT-TYPE SYNTAX SEQUENCE OF CcDetailsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The table of call details parameters." ::= { cc 1 } ccDetailsEntry OBJECT-TYPE SYNTAX CcDetailsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry of ISDN call details. This contains the parameters of a single ISDN call details." INDEX { ccDetailsIndex } ::= { ccDetailsTable 1 } CcDetailsEntry ::= SEQUENCE { ccDetailsIndex INTEGER, ccDetailsName DisplayString, ccDetailsRemoteName DisplayString, ccDetailsCalledNumber DisplayString, ccDetailsCallingNumber DisplayString, ccDetailsAlternateNumber DisplayString, ccDetailsEnabled INTEGER, ccDetailsDirection INTEGER, ccDetailsPrecedence INTEGER, ccDetailsHoldupTime INTEGER, ccDetailsPreferredIfIndex InterfaceIndexOrZero, ccDetailsRequiredIfIndex InterfaceIndexOrZero, ccDetailsPriority INTEGER, ccDetailsRetryT1 INTEGER, ccDetailsRetryN1 INTEGER, ccDetailsRetryT2 INTEGER, ccDetailsRetryN2 INTEGER, ccDetailsKeepup INTEGER, ccDetailsOutSetupCli INTEGER, ccDetailsOutSetupUser INTEGER, ccDetailsOutSetupCalledSub INTEGER, ccDetailsOutSubaddress DisplayString, ccDetailsCallback INTEGER, ccDetailsCallbackDelay INTEGER, ccDetailsInSetupCalledSubSearch INTEGER, ccDetailsInSetupUserSearch INTEGER, ccDetailsInSetupCliSearch INTEGER, ccDetailsInSetupCliSearchList INTEGER, ccDetailsInAnyFlag INTEGER, ccDetailsInSetupCalledSubCheck INTEGER, ccDetailsInSetupUserCheck INTEGER, ccDetailsInSetupCliCheck INTEGER, ccDetailsInSetupCliCheckList INTEGER, ccDetailsUserType INTEGER, ccDetailsLoginType INTEGER, ccDetailsUsername INTEGER, ccDetailsPassword INTEGER, ccDetailsBumpDelay INTEGER, ccDetailsDataRate INTEGER, ccDetailsPppTemplate INTEGER, ccDetailsUserModule INTEGER, ccDetailsNumberAttachments INTEGER } ccDetailsIndex OBJECT-TYPE SYNTAX INTEGER (1..128) ACCESS read-only STATUS mandatory DESCRIPTION "The index of the call details entry in the call details table. When an entry is created in this table, the index does not have to be written. However, to reference the values that are written, an unused index must be found by reading the index values of the table until a no such object error is returned. Attempting to create a row by using an already used index will result in simply changing the parameters of an existing call details entry." ::= { ccDetailsEntry 1 } ccDetailsName OBJECT-TYPE SYNTAX DisplayString (SIZE (0..15)) ACCESS read-write STATUS mandatory DESCRIPTION "The name of the ISDN call details. This must be unique for all ISDN call details, when comparisons are done ignoring the case of letters. Valid characters in the ISDN call name include 0-9, a-z, A-Z and '_'. A name consisting of all digits is not valid. Setting this object is mandatory on row creation. However, this object cannot be set for an existing call. This is because for the command line interface calls are identified by name. There is one exception. Setting ccDetailsName to an empty string will cause the call details to be deleted." ::= { ccDetailsEntry 2 } ccDetailsRemoteName OBJECT-TYPE SYNTAX DisplayString (SIZE (0..15)) ACCESS read-write STATUS mandatory DESCRIPTION "The remote ISDN call name. This name can be referenced by certain other call details parameters related with setting up the Q.931 SETUP message for outgoing calls, or searching for calls for incoming calls. Valid characters in the ISDN remote call name include 0-9, a-z, A-Z and '_'. A remote name consisting of all digits is valid." DEFVAL { "" } ::= { ccDetailsEntry 3 } ccDetailsCalledNumber OBJECT-TYPE SYNTAX DisplayString (SIZE (0..31)) ACCESS read-write STATUS mandatory DESCRIPTION "The number called when this call details is activated. The number should include all telephone network access codes, country codes and area codes required to make a call from the particular ISDN interface. Setting this object is mandatory on row creation." ::= { ccDetailsEntry 4 } ccDetailsCallingNumber OBJECT-TYPE SYNTAX DisplayString (SIZE (0..31)) ACCESS read-write STATUS mandatory DESCRIPTION "The number used as the calling number when this call is activated. The calling number can optionally be placed in the outgoing SETUP message." DEFVAL { "" } ::= { ccDetailsEntry 5 } ccDetailsAlternateNumber OBJECT-TYPE SYNTAX DisplayString (SIZE (0..31)) ACCESS read-write STATUS mandatory DESCRIPTION "The number called when all retries with the main called number have failed. In this event, the router tries once with the alternate number, then checks the ccDetailsKeepup object to determine whether to try again with the main number." DEFVAL { "" } ::= { ccDetailsEntry 6 } ccDetailsEnabled OBJECT-TYPE SYNTAX INTEGER { disabled (1), enabled (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Whether this ISDN call is enabled or disabled for incoming and outgoing calls. If the call details entry is disabled, all existing active calls based on this call details entry are left active." DEFVAL { enabled } ::= { ccDetailsEntry 7 } ccDetailsDirection OBJECT-TYPE SYNTAX INTEGER { in-only (1), out-only (2), both (3) } ACCESS read-write STATUS mandatory DESCRIPTION "The direction for which calls may be made or received using this call details entry." DEFVAL { both } ::= { ccDetailsEntry 8 } ccDetailsPrecedence OBJECT-TYPE SYNTAX INTEGER { in (1), out (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The precedence of this call details entry in the event of call collision. Call collision occurs when an incoming call for a given details entry is detected while an outgoing call is waiting to complete. This object configures whether the router treats the incoming or outgoing call as having precedence. Since the device at the other end will also probably be experiencing a call collision, the precedence should be configured to the opposite value at the other end. Setting this object is mandatory on row creation." ::= { ccDetailsEntry 9 } ccDetailsHoldupTime OBJECT-TYPE SYNTAX INTEGER (0..7200) ACCESS read-write STATUS mandatory DESCRIPTION "The time, in seconds, that active calls created from this call details should be held up after initial activation. The call will be held up for at least this time, unless cleared from the network. Thus, for example, PPP idle timeouts will not bring the call down." DEFVAL { 0 } ::= { ccDetailsEntry 10 } ccDetailsPreferredIfIndex OBJECT-TYPE SYNTAX InterfaceIndexOrZero ACCESS read-write STATUS mandatory DESCRIPTION "The ifIndex of an ISDN interface on this router which is the preferred ISDN interface on which to make an outgoing call using this call details entry. The ifIndex, if not 0, should reference the ifEntry which contains information about the entire ISDN interface, at the lowest layer. If a channel is not available on this interface, the call can try other interfaces in order to make the call. This object is not used on incoming calls. If the value of this object is set to 0, no interface will be preferred over any other. If the value of this object does not reference the ifEntry for the entire ISDN interface, no interface will be preferred." DEFVAL { 0 } ::= { ccDetailsEntry 11 } ccDetailsRequiredIfIndex OBJECT-TYPE SYNTAX InterfaceIndexOrZero ACCESS read-write STATUS mandatory DESCRIPTION "The ifIndex of an ISDN interface on this router which is the required ISDN interface on which to make an outgoing call using this call details entry. The ifIndex, if not 0, must reference the ifEntry which contains information about the entire ISDN interface, at the lowest layer. If a channel is not available on this interface, the call fails. This object is not used on incoming calls. If the value of this object is set to 0, no interface will be required. If the value of this object does not reference the ifEntry for the entire ISDN interface, no interface will be required." DEFVAL { 0 } ::= { ccDetailsEntry 12 } ccDetailsPriority OBJECT-TYPE SYNTAX INTEGER (0..99) ACCESS read-write STATUS mandatory DESCRIPTION "The priority of calls generated from this call details entry. The priority determines whether calls can be bumped for higher priority calls. The value of priority falls into ranges: 0-19 - call bumped by incoming or outgoing, voice or data calls 20-39 - call bumped by outgoing voice and incoming or outgoing data calls 40-59 - call bumped by emergency voice calls or incoming or outgoing data calls 60-99 - call bumped by emergency voice calls or outgoing data calls. Note that when the call is bumped by a data call, the data call must have higher priority than the call being bumped." DEFVAL { 50 } ::= { ccDetailsEntry 13 } -- Retry parameters. ISDN calls can be automatically retries in the event of a failure to establish the call. Parameters -- exist to set up groups of retries (N1 retries with time T1 between each retry) and groups of groups of retries (N2 retry -- groups with time T2 between groups). ccDetailsRetryT1 OBJECT-TYPE SYNTAX INTEGER (5..120) ACCESS read-write STATUS mandatory DESCRIPTION "The time in seconds between retries of calls generated from this call details entry." DEFVAL { 30 } ::= { ccDetailsEntry 14 } ccDetailsRetryN1 OBJECT-TYPE SYNTAX INTEGER (0..10) ACCESS read-write STATUS mandatory DESCRIPTION "The number of retries in a retry group for calls generated from this call details entry. Note that the default value means that by default the call will not be retried." DEFVAL { 0 } ::= { ccDetailsEntry 15 } ccDetailsRetryT2 OBJECT-TYPE SYNTAX INTEGER (300..1200) ACCESS read-write STATUS mandatory DESCRIPTION "The time in seconds between retry groups for retries of calls generated from this call details entry." DEFVAL { 600 } ::= { ccDetailsEntry 16 } ccDetailsRetryN2 OBJECT-TYPE SYNTAX INTEGER (0..5) ACCESS read-write STATUS mandatory DESCRIPTION "The number of retry groups for calls generated from this call details entry. Note that the default value means that by default no retry groups will be attempted." DEFVAL { 0 } ::= { ccDetailsEntry 17 } ccDetailsKeepup OBJECT-TYPE SYNTAX INTEGER { no (1), yes (2) } ACCESS read-write STATUS mandatory DESCRIPTION "A flag indicating whether calls generated from this call details entry should be kept up always. Inspection of this flag takes place when a call is cleared from an external source. If set to 'yes', the call will be retried." DEFVAL { no } ::= { ccDetailsEntry 18 } ccDetailsOutSetupCli OBJECT-TYPE SYNTAX INTEGER { off (1), calling (2), interface (3), nonumber (4) } ACCESS read-write STATUS mandatory DESCRIPTION "The CLI information placed into outgoing SETUP messages when this call details is used to generate an outgoing call. The value 'off' means that no CLI information in placed in the SETUP message. The value 'calling' means that the calling number from the call details entry is placed in the SETUP message. The value 'interface' means that the Q.931 interface number for the interface and DLC on which the call is made is placed in the SETUP message. The value 'nonumber' means that the CLI information element is placed in the SETUP message with no number information. The network will fill the number in." DEFVAL { off } ::= { ccDetailsEntry 19 } ccDetailsOutSetupUser OBJECT-TYPE SYNTAX INTEGER { off (1), local (2), remote (3) } ACCESS read-write STATUS mandatory DESCRIPTION "The user-user information placed into outgoing SETUP messages when this call details is used to generate an outgoing call. The value 'off' means that no user-user information in placed in the SETUP message. The value 'local' means that the call name from the call details entry is placed in the SETUP message. The value 'remote' means that the remote call name from the call details entry is placed in the SETUP message." DEFVAL { off } ::= { ccDetailsEntry 20 } ccDetailsOutSetupCalledSub OBJECT-TYPE SYNTAX INTEGER { off (1), local (2), remote (3) } ACCESS read-write STATUS mandatory DESCRIPTION "The called subaddress information placed into outgoing SETUP messages when this call details is used to generate an outgoing call. The value 'off' means that no called subaddress information in placed in the SETUP message. The value 'local' means that the call name from the call details entry is placed in the SETUP message. The value 'remote' means that the remote call name from the call details entry is placed in the SETUP message. Note that the action of this object is overridden by the value of the object ccDetailsOutSubaddress." DEFVAL { off } ::= { ccDetailsEntry 21 } ccDetailsOutSubaddress OBJECT-TYPE SYNTAX DisplayString (SIZE(0..31)) ACCESS read-write STATUS mandatory DESCRIPTION "This object gives a way to override the called subaddress information placed into outgoing SETUP messages when this call details is used to generate an outgoing call, as given by the ccDetailsOutSetupCalledSub object. The object is an arbitrary string of ASCII characters, from 0 to 31 characters long." DEFVAL { "" } ::= { ccDetailsEntry 22 } ccDetailsCallback OBJECT-TYPE SYNTAX INTEGER { no (1), yes (2) } ACCESS read-write STATUS mandatory DESCRIPTION "A flag indicating whether or not to call back the caller when an incoming call is generated from this call details entry. If set to 'yes', the incoming call will be cleared, and after a short delay, an outgoing call will be activated for this call details entry." DEFVAL { no } ::= { ccDetailsEntry 23 } ccDetailsCallbackDelay OBJECT-TYPE SYNTAX INTEGER (0..100) ACCESS read-write STATUS mandatory DESCRIPTION "The time, in tenths of a second, which the router will wait after clearing an incoming call whose call details entry specified that the caller should be called back before making the return call. The purpose of this object is to allow the user to specify a delay in callback which will allow the network to properly clear the call at both this end and the remote end." DEFVAL { 41 } ::= { ccDetailsEntry 24 } ccDetailsInSetupCalledSubSearch OBJECT-TYPE SYNTAX INTEGER { off (1), local (2), remote (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Determines whether this call details entry is used in a search of call details for an incoming call based on the contents of the called subaddress information in the incoming SETUP message. The value 'off' means that this call details entry is not used in the search. The value 'local' means that the call details entry is used in the search and the called subaddress information is compared with the call details entry name. The value 'remote' means that the call details entry is used in the search and the called subaddress information is compared with the call details entry remote name. A number of searches are carried out until a matching call is found. First a search against the called subaddress in the SETUP message, then a search against the user-user information in the SETUP message, then a search against the calling number information in the SETUP message, then a search for any call that is configured to respond to any incoming call." DEFVAL { off } ::= { ccDetailsEntry 25 } ccDetailsInSetupUserSearch OBJECT-TYPE SYNTAX INTEGER { off (1), local (2), remote (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Determines whether this call details entry is used in a search of call details for an incoming call based on the contents of the user-user information in the incoming SETUP message. The value 'off' means that this call details entry is not used in the search. The value 'local' means that the call details entry is used in the search and the user-user information is compared with the call details entry name. The value 'remote' means that the call details entry is used in the search and the user-user information is compared with the call details entry remote name. A number of searches are carried out until a matching call is found. First a search against the called subaddress in the SETUP message, then a search against the user-user information in the SETUP message, then a search against the calling number information in the SETUP message, then a search for any call that is configured to respond to any incoming call." DEFVAL { off } ::= { ccDetailsEntry 26 } ccDetailsInSetupCliSearch OBJECT-TYPE SYNTAX INTEGER { off (1), on (2), list (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Determines whether this call details entry is used in a search of call details for an incoming call based on the contents of the calling number information in the incoming SETUP message. The value 'off' means that this call details entry is not used in the search. The value 'on' means that the call details entry is used in the search and the calling number information is compared with the call details entry called number. The value 'list' means that the call details entry is used in the search and the calling number information is compared with the numbers on the CLI list reference by the object ccDetailsInSetupCliSearchList. The value 'list' cannot be set by an SNMP management entity. Rather the ccDetailsInSetupCliSearchList object should be set to a non-zero value, which will automatically set this object to 'list'. A number of searches are carried out until a matching call is found. First a search against the called subaddress in the SETUP message, then a search against the user-user information in the SETUP message, then a search against the calling number information in the SETUP message, then a search for any call that is configured to respond to any incoming call." DEFVAL { off } ::= { ccDetailsEntry 27 } ccDetailsInSetupCliSearchList OBJECT-TYPE SYNTAX INTEGER (0..100) ACCESS read-write STATUS mandatory DESCRIPTION "If the ccDetailsInSetupCliSearch object is set to 'list', this object gives the index of the CLI list to search. The value of CLI list indices is 1..100. The value 0 is returned when the ccDetailsInSetupCliSearch object is not set to 'list'. If the value of this object is set to 0 via SNMP, then the ccDetailsInSetupCliSearch object will be internally set to 'off'. Subsequently setting the value of this object to a non-zero value will set the ccDetailsInSetupCliSearch object to 'list'. Note that when using the command line interface, CLI list indices range from 0 to 99, but when using SNMP they range from 1 to 100. This is because SNMP will not allow a table index to have the value 0, and the command line usage of indices from 0 to 99 is too well established to change." DEFVAL { 0 } ::= { ccDetailsEntry 28 } ccDetailsInAnyFlag OBJECT-TYPE SYNTAX INTEGER { no (1), yes (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Determines whether this call details entry will match any incoming call. After all searched for incoming calls have been carried out based on called subaddress, user-user information and calling number, a search is carried out for the first call found with this flag set to 'yes'." DEFVAL { no } ::= { ccDetailsEntry 29 } ccDetailsInSetupCalledSubCheck OBJECT-TYPE SYNTAX INTEGER { off (1), local (2), remote (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Determines whether to perform a check when an incoming call matches this call details entry based on the contents of the called subaddress information in the incoming SETUP message. The value 'off' means that the check is not carried out. The value 'local' means that the check is carried out and the called subaddress information is compared with the call details entry name. The value 'remote' means that the check is carried out and the called subaddress information is compared with the call details entry remote name. A number of checks are optionally carried out once a matching call is found. The first check is against the called subaddress in the SETUP message, then against the user-user information in the SETUP message, then against the calling number information in the SETUP message." DEFVAL { off } ::= { ccDetailsEntry 30 } ccDetailsInSetupUserCheck OBJECT-TYPE SYNTAX INTEGER { off (1), local (2), remote (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Determines whether to perform a check when an incoming call matches this call details entry based on the contents of the user-user information in the incoming SETUP message. The value 'off' means that the check is not carried out. The value 'local' means that the check is carried out and the user-user information is compared with the call details entry name. The value 'remote' means that the check is carried out and the user-user information is compared with the call details entry remote name. A number of checks are optionally carried out once a matching call is found. The first check is against the called subaddress in the SETUP message, then against the user-user information in the SETUP message, then against the calling number information in the SETUP message." DEFVAL { off } ::= { ccDetailsEntry 31 } ccDetailsInSetupCliCheck OBJECT-TYPE SYNTAX INTEGER { off (1), present (2), required (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Determines whether to perform a check and which check to perform when an incoming call matches this call details entry based on the contents of the calling number information in the incoming SETUP message. The value 'off' means that the check is not carried out. The value 'present' means that the check is carried out only if calling number information is present. The value 'required' means that the calling number must be present for the check to pass. When the check is carried out, the calling number information is compared with the numbers in the CLI list referenced by the object ccDetailsInSetupCliCheckList. A number of checks are optionally carried out once a matching call is found. The first check is against the called subaddress in the SETUP message, then against the user-user information in the SETUP message, then against the calling number information in the SETUP message." DEFVAL { off } ::= { ccDetailsEntry 32 } ccDetailsInSetupCliCheckList OBJECT-TYPE SYNTAX INTEGER (0..100) ACCESS read-write STATUS mandatory DESCRIPTION "If the ccDetailsInSetupCliCheck object is set to 'present' or 'required', this object gives the index of the CLI list to check against. The value of CLI list indices is 1..100. The value 0 means that no list to check against is defined and the check immediately fails. Note that when using the command line interface, CLI list indices range from 0 to 99, but when using SNMP they range from 1 to 100. This is because SNMP will not allow a table index to have the value 0, and the command line usage of indices from 0 to 99 is too well established to change." DEFVAL { 0 } ::= { ccDetailsEntry 33 } ccDetailsUserType OBJECT-TYPE SYNTAX INTEGER { attach (1), ppp (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The type of user of this call. The value 'attach' means that users have to attach to this call before the call can be used for outgoing or incoming calls. The value 'ppp' means that for incoming calls only dynamic PPP interfaces will be created whenever this call details entry is matched." DEFVAL { attach } ::= { ccDetailsEntry 34 } ccDetailsLoginType OBJECT-TYPE SYNTAX INTEGER { none (1), userdb (2), radius (3), pap-tacacs (4), chap (5), pap-radius (6), tacacs (7), all (8) } ACCESS read-write STATUS mandatory DESCRIPTION "The type of login for calls generated using this call details entry, for incoming calls only. Incoming calls can be configured to go through a logging in phase before the call is brought up. This object defines which login types are used. The value 'none' means don't do a login phase. The value 'userdb' means use the user database on the router to check login parameters. The value 'radius' means use the router's configured RADIUS servers to check the login parameters. The values 'pap-tacacs', 'chap' and 'pap-radius' apply only when the user is 'ppp' and determine how the dynamic PPP interface are configured for authentication. The value 'pap-tacacs' means use PAP to authenticate and use the TACACS server to check the login parameters. The value 'pap-radius' means use PAP to authenticate and use the RADIUS server to check the login parameters. The value 'chap' means use CHAP to authenticate. The value 'tacacs' means use the TACACS server to check login parameters. The value 'all' means use the user database, TACACS and RADIUS to check the login parameters. The login parameters for values 'userdb', 'radius', 'tacacs' and 'all' are determined by the ccDetailsUsername and ccDetailsPassword objects." DEFVAL { none } ::= { ccDetailsEntry 35 } ccDetailsUsername OBJECT-TYPE SYNTAX INTEGER { none (1), cli (2), calledsub (3), useruser (4), callname (5) } ACCESS read-write STATUS mandatory DESCRIPTION "The source of the username when the ccDetailsLoginType object has a value of 'userdb', 'radius', 'tacacs' or 'all'. The value 'none' means no username is defined. The value 'cli' means take the username from the calling number information in the SETUP message. The value 'calledsub' means take the username from the called subaddress information in the SETUP message. The value 'useruser' means take the username from the user-user information in the SETUP message. The value 'callname' means take the username from the call details entry name." DEFVAL { none } ::= { ccDetailsEntry 36 } ccDetailsPassword OBJECT-TYPE SYNTAX INTEGER { none (1), cli (2), calledsub (3), useruser (4), callname (5) } ACCESS read-write STATUS mandatory DESCRIPTION "The source of the password when the ccDetailsLoginType object has a value of 'userdb', 'radius', 'tacacs' or 'all'. The value 'none' means no password is defined. The value 'cli' means take the password from the calling number information in the SETUP message. The value 'calledsub' means take the password from the called subaddress information in the SETUP message. The value 'useruser' means take the password from the user-user information in the SETUP message. The value 'callname' means take the password from the call details entry name." DEFVAL { none } ::= { ccDetailsEntry 37 } ccDetailsBumpDelay OBJECT-TYPE SYNTAX INTEGER (0..100) ACCESS read-write STATUS mandatory DESCRIPTION "The time, in tenths of a second, which the router will wait after clearing an existing call which has been bumped to make way for a call based on this call details entry." DEFVAL { 5 } ::= { ccDetailsEntry 38 } ccDetailsDataRate OBJECT-TYPE SYNTAX INTEGER { rate-64k (1), rate-56k (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The data rate to use for active calls based on this call details entry. The actual data rate for outgoing calls is determined by both this object and the data rate parameter for the Q.931 interface chosen for the call. If either this object or the interface object specify a rate of 56k, then 56k will be the rate for the call. Otherwise, the default rate of 64k will be used. This allows interoperability between ISDNs which only allow 56k of data on a B channel." DEFVAL { rate-64k } ::= { ccDetailsEntry 39 } ccDetailsPppTemplate OBJECT-TYPE SYNTAX INTEGER (1..33) ACCESS read-write STATUS mandatory DESCRIPTION "The PPP template to use when creating dynamic PPP interfaces for calls generated from this call details entry. The value 33 represents a default PPP template, the values 1 to 32 represent PPP templates that are currently defined in the router. Note that when using the command line interface, PPP template indices range from 0 to 31, but when using SNMP they range from 1 to 32. This is because SNMP will not allow a table index to have the value 0. While there is no PPP template table accessible via SNMP, if there was, the indices of the table would have to range from 1 to 32." DEFVAL { 33 } ::= { ccDetailsEntry 40 } ccDetailsUserModule OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The module ID of the user module currently attached to this ISDN call details entry." ::= { ccDetailsEntry 41 } ccDetailsNumberAttachments OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of attachments from the user module currently attached to this call details entry. The ccAttachmentsTable gives the actual attachments for each call details entry." ::= { ccDetailsEntry 42 } -- The ISDN CLI list table. This consists of a number of entries containing numbers for matching against CLI information. ccCliListTable OBJECT-TYPE SYNTAX SEQUENCE OF CcCliListEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The table of CLI list entries." ::= { cc 2 } ccCliListEntry OBJECT-TYPE SYNTAX CcCliListEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry in the CLI list table. This contains a single number, as well as index information." INDEX { ccCliListListIndex, ccCliListEntryIndex } ::= { ccCliListTable 1 } CcCliListEntry ::= SEQUENCE { ccCliListListIndex INTEGER, ccCliListEntryIndex INTEGER, ccCliListNumber DisplayString } ccCliListListIndex OBJECT-TYPE SYNTAX INTEGER (1..100) ACCESS read-only STATUS mandatory DESCRIPTION "The index of the CLI list. CLI lists from 1 to 100 are defined in the router." ::= { ccCliListEntry 1 } ccCliListEntryIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the CLI list entry within the CLI list. The minimum CLI list entry is 1. CLI lists are unlimited in length, although internal memory requirements could result in failure to create a given entry. When creating a row in this table, the entry index should be set to index the first empty row. Only one CLI list row in a given list should be created in any one SNMP message. Attempting to create more than one row will result in failure." ::= { ccCliListEntry 2 } ccCliListNumber OBJECT-TYPE SYNTAX DisplayString (SIZE (0..31)) ACCESS read-write STATUS mandatory DESCRIPTION "The number for this CLI list entry. Setting the number to a zero length string removes the entry from the CLI list, with consequent reshuffling of CLI entry indices. Thus the easiest way to delete an entire CLI list is to repeatedly set the first element in the list to a zero length string. A failure to SET will occur when this is attempted on an empty list." ::= { ccCliListEntry 3 } -- The active calls table. This consists of a number of entries containing details of actual active calls. Active calls are -- created by internal router processes, so this is a read-only table. ccActiveCallTable OBJECT-TYPE SYNTAX SEQUENCE OF CcActiveCallEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The table of ISDN active calls." ::= { cc 3 } ccActiveCallEntry OBJECT-TYPE SYNTAX CcActiveCallEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry in the active call table." INDEX { ccActiveCallIndex } ::= { ccActiveCallTable 1 } CcActiveCallEntry ::= SEQUENCE { ccActiveCallIndex INTEGER, ccActiveCallDetailsIndex INTEGER, ccActiveCallIfIndex InterfaceIndexOrZero, ccActiveCallDataRate INTEGER, ccActiveCallState INTEGER, ccActiveCallDirection INTEGER, ccActiveCallUserModule INTEGER, ccActiveCallUserInstance INTEGER, ccActiveCallBchannelIndex INTEGER } ccActiveCallIndex OBJECT-TYPE SYNTAX INTEGER (1..128) ACCESS read-only STATUS mandatory DESCRIPTION "The index of the active call. There are 128 possible active calls in the router simultaneously." ::= { ccActiveCallEntry 1 } ccActiveCallDetailsIndex OBJECT-TYPE SYNTAX INTEGER (1..128) ACCESS read-only STATUS mandatory DESCRIPTION "The index of the call details entry which generated this active call. Thus the index into the ccDetailsTable for this call." ::= { ccActiveCallEntry 2 } ccActiveCallIfIndex OBJECT-TYPE SYNTAX InterfaceIndexOrZero ACCESS read-only STATUS mandatory DESCRIPTION "The interface index of the interface on which this active call is being made or received. A value of zero indicates that the active has not yet had an interface assigned to it. The ifEntry indexed by this object is the ifEntry for the entire ISDN interface, not the ifEntry for the active call's B channel." ::= { ccActiveCallEntry 3 } ccActiveCallDataRate OBJECT-TYPE SYNTAX INTEGER { rate-64k (1), rate-56k (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The data rate in use for this active call. This is determined by the call details setting of data rate, the ISDN interface setting for data rate, and the contents of the bearer capability information in the incoming SETUP message." ::= { ccActiveCallEntry 4 } ccActiveCallState OBJECT-TYPE SYNTAX INTEGER { null (1), off (2), try (3), on (4), wait (5), await1 (6) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of this active call. The value 'null' indicates that this active call does not actually exist, in other words it is in the process of being created or destroyed. The value 'off' means that the active call is just being activated. The value 'try' means that the active call is attempting to establish. The value 'on' means that the active call is established. The value 'wait' means that the active call is waiting to retry. The value 'await1' means that the active call is waiting for authentication to succeed before becoming established." ::= { ccActiveCallEntry 5 } ccActiveCallDirection OBJECT-TYPE SYNTAX INTEGER { in (1), out (2), undefined (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The direction of this active call. The value 'in' indicates that this active call is an incoming call, the value 'out' indicates that the active call is an outgoing call. The value 'undefined' indicates that the active call has just been created and a direction has not been assigned to it yet." ::= { ccActiveCallEntry 6 } ccActiveCallUserModule OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The module ID of the user module attached to this ISDN active call." ::= { ccActiveCallEntry 7 } ccActiveCallUserInstance OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The instance of the user module attached to this ISDN active call." ::= { ccActiveCallEntry 8 } ccActiveCallBchannelIndex OBJECT-TYPE SYNTAX INTEGER (0..31) ACCESS read-only STATUS mandatory DESCRIPTION "The B channel number for this active entry. BRI interfaces have B channels in the range 1..2, PRI interfaces have B channels in the range 1..31, excluding a channel which is the D channel. A value of 0 for this entry means that either a B channel is not currently allocated for this call, or that more than one B channel is allocated. In the second case, the management client will have to walk the B channel allocation table looking for channels with the same active call index as this call's." ::= { ccActiveCallEntry 9 } -- The call log table. This consists of a number of entries containing log details of ISDN calls. This is a read-only table. ccCallLogTable OBJECT-TYPE SYNTAX SEQUENCE OF CcCallLogEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The table of ISDN call log entries." ::= { cc 4 } ccCallLogEntry OBJECT-TYPE SYNTAX CcCallLogEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry in the ISDN call log table." INDEX { ccCallLogIndex } ::= { ccCallLogTable 1 } CcCallLogEntry ::= SEQUENCE { ccCallLogIndex INTEGER, ccCallLogName DisplayString, ccCallLogState INTEGER, ccCallLogTimeStarted DisplayString, ccCallLogDirection INTEGER, ccCallLogDuration INTEGER, ccCallLogRemoteNumber DisplayString } ccCallLogIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the call log entry. Since the call log table is dynamic, there is no guarantee that this index will continue to refer to the same log entry over time." ::= { ccCallLogEntry 1 } ccCallLogName OBJECT-TYPE SYNTAX DisplayString (SIZE(0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "The name of the call details entry which generated the active call for which this is the log entry." ::= { ccCallLogEntry 2 } ccCallLogState OBJECT-TYPE SYNTAX INTEGER { initial (1), active (2), disconnected (3), cleared (4) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of the log entry. The value 'initial' means that the call is being established. The value 'active' means that the call is currently established. The value 'disconnected' means that the call was disconnected after being established for some time. The value 'cleared' means that the call was cleared abormally while in the establishment phase." ::= { ccCallLogEntry 3 } ccCallLogTimeStarted OBJECT-TYPE SYNTAX DisplayString (SIZE(0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "A string in the format 'dd-mmm-yyyy hh:mm:ss' which gives the start time of the call for which this is the log entry. If the call never reached or has not yet reached the active state, this object will be a zero-length string." ::= { ccCallLogEntry 4 } ccCallLogDirection OBJECT-TYPE SYNTAX INTEGER { in (1), out (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The direction of the call for which this is the log entry." ::= { ccCallLogEntry 5 } ccCallLogDuration OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The duration in seconds, of the call for which this is the log entry. A value of 0 in this field means either that the call has just started, that the call was cleared before becoming established, or that the call is still active. In other words, a non-zero value is present in this object only for calls which reach establishment and have since been cleared." ::= { ccCallLogEntry 6 } ccCallLogRemoteNumber OBJECT-TYPE SYNTAX DisplayString (SIZE(0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "For incoming calls, the calling number, if this was made available in the SETUP message. For outgoing calls, the number dialed. If the number was not available, this object is a zero length string." ::= { ccCallLogEntry 7 } -- The call details attachment table. This is a table indexed by call detail index and list index of all the attachments from -- the user module. Since attachments are generated internally by other processes, this is a read-only table. ccAttachmentTable OBJECT-TYPE SYNTAX SEQUENCE OF CcAttachmentEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The table of call detail attachment entries." ::= { cc 5 } ccAttachmentEntry OBJECT-TYPE SYNTAX CcAttachmentEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry in the attachment table." INDEX { ccAttachmentDetailsIndex, ccAttachmentEntryIndex } ::= { ccAttachmentTable 1 } CcAttachmentEntry ::= SEQUENCE { ccAttachmentDetailsIndex INTEGER, ccAttachmentEntryIndex INTEGER, ccAttachmentActiveCallIndex INTEGER, ccAttachmentUserInstance INTEGER } ccAttachmentDetailsIndex OBJECT-TYPE SYNTAX INTEGER (1..128) ACCESS read-only STATUS mandatory DESCRIPTION "The index of the call details entry to which this attachment entry belongs." ::= { ccAttachmentEntry 1 } ccAttachmentEntryIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of the attachment entry within the attachment list." ::= { ccAttachmentEntry 2 } ccAttachmentActiveCallIndex OBJECT-TYPE SYNTAX INTEGER (0..128) ACCESS read-only STATUS mandatory DESCRIPTION "The index of the active call for this attachment. A value of 0 indicates that there is currently no active call for this attachment. A value of 1 to 128 references the active call currently in place for this attachment." ::= { ccAttachmentEntry 3 } ccAttachmentUserInstance OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The instance of the user module attached to the ISDN active call for this attachment. This object should return the same value as the object ccActiveCallUserInstance for the active call indexed by ccAttachmentActiveCallIndex, if this is not 0." ::= { ccAttachmentEntry 4 } -- The B channel attachment table. This is a table indexed by ISDN interface ifIndex and B channel index of all the -- attachments to ISDN B channels. Since attachments are generated internally by other processes, this is a read-only table. ccBchannelTable OBJECT-TYPE SYNTAX SEQUENCE OF CcBchannelEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The table of B channel attachment entries." ::= { cc 6 } ccBchannelEntry OBJECT-TYPE SYNTAX CcBchannelEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry in the B channel attachment table." INDEX { ccBchannelIfIndex, ccBchannelChannelIndex } ::= { ccBchannelTable 1 } CcBchannelEntry ::= SEQUENCE { ccBchannelIfIndex INTEGER, ccBchannelChannelIndex INTEGER, ccBchannelAllocated INTEGER, ccBchannelCallType INTEGER, ccBchannelActiveCallIndex INTEGER, ccBchannelPriority INTEGER, ccBchannelDirection INTEGER } ccBchannelIfIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The interface index of the interface which this B channel entry is on. The ifEntry indexed by this object is the ifEntry for the entire ISDN interface, not the ifEntry for the active call's B channel." ::= { ccBchannelEntry 1 } ccBchannelChannelIndex OBJECT-TYPE SYNTAX INTEGER (1..31) ACCESS read-only STATUS mandatory DESCRIPTION "The B channel number for this B channel entry. BRI interfaces have B channels in the range 1..2, PRI interfaces have B channels in the range 1..31, excluding a channel which is the D channel." ::= { ccBchannelEntry 2 } ccBchannelAllocated OBJECT-TYPE SYNTAX INTEGER { no (1), yes (2) } ACCESS read-only STATUS mandatory DESCRIPTION "A flag indicating whether this B channel is actually allocated to a call or not." ::= { ccBchannelEntry 3 } ccBchannelCallType OBJECT-TYPE SYNTAX INTEGER { undefined (1), data (2), voice (3), x25 (4) } ACCESS read-only STATUS mandatory DESCRIPTION "The type of call on this B channel. If the B channel is not allocated, the call type will be undefined." ::= { ccBchannelEntry 4 } ccBchannelActiveCallIndex OBJECT-TYPE SYNTAX INTEGER (0..128) ACCESS read-only STATUS mandatory DESCRIPTION "The index of the active call which is currently attached to this B channel. If the value of this object is 0 the channel is either not allocated, or is not allocated to a data call." ::= { ccBchannelEntry 5 } ccBchannelPriority OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The priority of the call which has this B channel allocated to it. This is in the range 0..99 for data calls, 150 for voice calls and 200 for emergency voice calls. A B channel which is not allocated will have a priority of 0." ::= { ccBchannelEntry 6 } ccBchannelDirection OBJECT-TYPE SYNTAX INTEGER { in (1), out (2), unallocated (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The direction of the call which has this B channel allocated to it. If this B channel is not allocated the value will be 'unallocated'." ::= { ccBchannelEntry 7 } -- ========== BRI module ========== -- ========== BRI module ========== -- ========== BRI module ========== -- The BRI module. This group consists of a table of BRI interfaces indexed -- by ifIndex which provide MIB objects not given in a convenient form by -- other standard MIBs. There is also a BRI channel MIB indexed by ifIndex -- and channel index which gives information about the channels on the -- interface. bri OBJECT IDENTIFIER ::= { modules 41 } -- The index off the modules subtree is from modules.h. -- The BRI interface table. Each entry is a BRI interface on the router. briIntTable OBJECT-TYPE SYNTAX SEQUENCE OF BriIntEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The table of BRI interfaces." ::= { bri 1 } briIntEntry OBJECT-TYPE SYNTAX BriIntEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry in the BRI interfaces table." INDEX { briIntIndex } ::= { briIntTable 1 } BriIntEntry ::= SEQUENCE { briIntIndex INTEGER, briIntBoardIndex INTEGER, briIntBoardPosition INTEGER, briIntMode INTEGER, briIntTdmChannelMap INTEGER, briIntIsdnChannelMap INTEGER } briIntIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The ifIndex of the BRI interface." ::= { briIntEntry 1 } briIntBoardIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index in the arBoardTable of the board on which this BRI interface resides." ::= { briIntEntry 2 } briIntBoardPosition OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The position on this BRI interface's board of this BRI interface." ::= { briIntEntry 3 } briIntMode OBJECT-TYPE SYNTAX INTEGER { isdn (1), tdm (2), mixed (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The mode of operation of this BRI interface. The value isdn means that the entire interface is operating as an ISDN interface, the value tdm means that the entire interface is operating as TDM groups and the value mixed means that some channels in the interface are dedicated to ISDN and some to TDM groups." ::= { briIntEntry 4 } briIntTdmChannelMap OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "A bit map of the channels in the BRI interface which are dedicated to TDM. Channel B1 has channel map value of 1, channel B2 has a channel map value of 2." ::= { briIntEntry 5 } briIntIsdnChannelMap OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "A bit map of the channels in the BRI interface which are dedicated to ISDN. Channel B1 has channel map value of 1, channel B2 has a channel map value of 2." ::= { briIntEntry 6 } -- The BRI channel table. Each entry is a channel on a BRI interface. briChanTable OBJECT-TYPE SYNTAX SEQUENCE OF BriChanEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The table of channels on BRI interfaces." ::= { bri 2 } briChanEntry OBJECT-TYPE SYNTAX BriChanEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry in the BRI channels table." INDEX { briChanIntIndex, briChanChannelIndex } ::= { briChanTable 1 } BriChanEntry ::= SEQUENCE { briChanIntIndex INTEGER, briChanChannelIndex INTEGER, briChanMode INTEGER, briChanState INTEGER } briChanIntIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The ifIndex of the BRI interface." ::= { briChanEntry 1 } briChanChannelIndex OBJECT-TYPE SYNTAX INTEGER (1..3) ACCESS read-only STATUS mandatory DESCRIPTION "The channel index of the BRI channel. Channel B1 has index 1, channel B2 has index 2 and the D channel has index 3." ::= { briChanEntry 2 } briChanMode OBJECT-TYPE SYNTAX INTEGER { isdn (1), tdm (2), none (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The mode of this BRI channel. The value isdn means that the channel is reserved for use in ISDN calls. The value tdm means that the channel is reserved for use by TDM. For the D channel, this object will always have the value isdn." ::= { briChanEntry 3 } briChanState OBJECT-TYPE SYNTAX INTEGER { inactive (1), active (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of this BRI channel. The value inactive means that the channel does not currently have an active user, either an ISDN call or an active TDM group. The value active means that the channel is in use, either by an ISDN call or an active TDM group. For the D channel, this object will have the value active if LAPD is using the D channel (either for call control or X.25), or the value inactive otherwise." ::= { briChanEntry 4 } -- ========== PRI module ========== -- ========== PRI module ========== -- ========== PRI module ========== -- The PRI module. This group consists of a table of PRI interfaces indexed -- by ifIndex which provide MIB objects not given in a convenient form by -- other standard MIBs. There is also a PRI channel MIB indexed by ifIndex -- and channel index which gives information about the channels on the -- interface. pri OBJECT IDENTIFIER ::= { modules 42 } -- The index off the modules subtree is from modules.h. -- The PRI interface table. Each entry is a PRI interface on the router. priIntTable OBJECT-TYPE SYNTAX SEQUENCE OF PriIntEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The table of PRI interfaces." ::= { pri 1 } priIntEntry OBJECT-TYPE SYNTAX PriIntEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry in the PRI interfaces table." INDEX { priIntIndex } ::= { priIntTable 1 } PriIntEntry ::= SEQUENCE { priIntIndex INTEGER, priIntBoardIndex INTEGER, priIntBoardPosition INTEGER, priIntMode INTEGER, priIntTdmChannelMap INTEGER, priIntIsdnChannelMap INTEGER, priIntType INTEGER } priIntIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The ifIndex of the PRI interface." ::= { priIntEntry 1 } priIntBoardIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index in the arBoardTable of the board on which this PRI interface resides." ::= { priIntEntry 2 } priIntBoardPosition OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The position on this PRI interface's board of this PRI interface." ::= { priIntEntry 3 } priIntMode OBJECT-TYPE SYNTAX INTEGER { isdn (1), tdm (2), mixed (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The mode of operation of this PRI interface. The value isdn means that the entire interface is operating as an ISDN interface, the value tdm means that the entire interface is operating as TDM groups and the value mixed means that some channels in the interface are dedicated to ISDN and some to TDM groups." ::= { priIntEntry 4 } priIntTdmChannelMap OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "A bit map of the channels in the PRI interface which are dedicated to TDM. PRI channels are numbered from 0 to 31, 0 is unused, 16 (E1) or 24 (T1) is the D channel. The map values are 2 to the power of the channel number." ::= { priIntEntry 5 } priIntIsdnChannelMap OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "A bit map of the channels in the PRI interface which are dedicated to ISDN. PRI channels are numbered from 0 to 31, 0 is unused, 16 (E1) or 24 (T1) is the D channel. The map values are 2 to the power of the channel number." ::= { priIntEntry 6 } priIntType OBJECT-TYPE SYNTAX INTEGER { e1 (1), t1 (2), unknown (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The type of primary rate interface. E1 has 30 B + D channel, T1 has 23 B + D channel. If the value unknown is returned for this object, the exact PRI type has not yet been determined." ::= { priIntEntry 7 } -- The PRI channel table. Each entry is a channel on a PRI interface. priChanTable OBJECT-TYPE SYNTAX SEQUENCE OF PriChanEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The table of channels on PRI interfaces." ::= { pri 2 } priChanEntry OBJECT-TYPE SYNTAX PriChanEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry in the PRI channels table." INDEX { priChanIntIndex, priChanChannelIndex } ::= { priChanTable 1 } PriChanEntry ::= SEQUENCE { priChanIntIndex INTEGER, priChanChannelIndex INTEGER, priChanMode INTEGER, priChanState INTEGER } priChanIntIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The ifIndex of the PRI interface." ::= { priChanEntry 1 } priChanChannelIndex OBJECT-TYPE SYNTAX INTEGER (1..31) ACCESS read-only STATUS mandatory DESCRIPTION "The channel index of the PRI channel. Valid channels have indices from 1 to 31. The D channel on an E1 interface has index 16, the D channel on a T1 interface has index 24." ::= { priChanEntry 2 } priChanMode OBJECT-TYPE SYNTAX INTEGER { isdn (1), tdm (2), neither (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The mode of this PRI channel. The value isdn means that the channel is reserved for use in ISDN calls. The value tdm means that the channel is reserved for use by TDM. For the D channel, this object will usually have the value isdn. An exception is if the interface is running common D channel mode and the D channel is reserved for TDM." ::= { priChanEntry 3 } priChanState OBJECT-TYPE SYNTAX INTEGER { inactive (1), active (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of this PRI channel. The value inactive means that the channel does not currently have an active user, either an ISDN call or an active TDM group. The value active means that the channel is in use, either by an ISDN call or an active TDM group." ::= { priChanEntry 4 } -- ========== LOAD module ========== -- ========== LOAD module ========== -- ========== LOAD module ========== -- The load group. This consists of a static and dynamic entry of load -- information and a load status variable. loader OBJECT IDENTIFIER ::= { modules 48 } -- The index off the modules subtree is from modules.h. -- The load table. This consists of a static and dynamic entry of load -- information. The static information will be used if there is no dynamic -- information available. loadTable OBJECT-TYPE SYNTAX SEQUENCE OF LoadEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The table of load parameters, dynamic and static." ::= { loader 1 } loadEntry OBJECT-TYPE SYNTAX LoadEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry of load parameters. This contains the parameters required to perform a load from the router." INDEX { loadIndex } ::= { loadTable 1 } LoadEntry ::= SEQUENCE { loadIndex INTEGER, loadServer IpAddress, loadDestination INTEGER, loadFilename DisplayString, loadDelay INTEGER } loadIndex OBJECT-TYPE SYNTAX INTEGER { static(1), dynamic(2) } ACCESS read-write STATUS mandatory DESCRIPTION "There are two sets of load information, dynamic and static. The dynamic information is used once, then cleared. The static information is used whenever the dynamic information is not available. The dynamic information is also used to indicate the current load parameters when a load is in progress." ::= { loadEntry 1 } loadServer OBJECT-TYPE SYNTAX IpAddress ACCESS read-write STATUS mandatory DESCRIPTION "The IP address from which load will load." ::= { loadEntry 2 } loadDestination OBJECT-TYPE SYNTAX INTEGER { undefined(1), nvs(2), flash(3) } ACCESS read-write STATUS mandatory DESCRIPTION "The destination of the file loaded, either flash or nvs memory, or undefined." ::= { loadEntry 3 } loadFilename OBJECT-TYPE SYNTAX DisplayString (SIZE (0..255)) ACCESS read-write STATUS mandatory DESCRIPTION "The file name of the file being loaded." ::= { loadEntry 4 } loadDelay OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "A delay in seconds between the initiation of the load and the start of the load. This allows for time to set up TFTP servers in cases where the terminal and TFTP server are using the same piece of equipment but will not work simultaneously." ::= { loadEntry 5 } -- The load status value. This is used to start and reset a load, and to -- report on the progress of a load. loadStatus OBJECT-TYPE SYNTAX INTEGER { idle(1), -- loader is doing nothing wait(2), -- loader is waiting to start loading(3), -- loader is loading a file complete(4), -- loader has successfully completed a load reset(5), -- loader was aborted actionstart(6), -- cause a load to start actionstop(7) -- cause a load to stop } ACCESS read-write STATUS mandatory DESCRIPTION "Status and action object for the load module. The values 1 to 5 are read-only values and reflect the state of the load module. Values 4 and 5 (complete and reset) are 'read-once', that is, if their values are read, either by SNMP or by manager console command, then they will be changed back to idle(1). The action values (6 and 7) cause a start and stop of the load process respectively. Starting the load can only occur if this field has the values 1, 4, or 5. Stopping the load can only occur is this field has the values 2 or 3. Reading the value of the loadStatus after one of actionstart or actionstop has been set will give one of the values 1 to 5. Note: A single exception to the above rules is that if the value of loadStatus is idle(1), then a write of 1 to this variable will succeed without generating an error. This exception is to allow certain SNMP test suites to test this variable without throwing up errors." ::= { loader 2 } -- ========== INSTALL module ========== -- ========== INSTALL module ========== -- ========== INSTALL module ========== -- The install group. This group contains information relating to the install module in the -- router. install OBJECT IDENTIFIER ::= { modules 49 } -- The index off the modules subtree is from modules.h. -- The install table. This table controls the software release and patch -- running in the router. installTable OBJECT-TYPE SYNTAX SEQUENCE OF InstallEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The list of install configurations for the router." ::= { install 1 } installEntry OBJECT-TYPE SYNTAX InstallEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the list of install configurations." INDEX { instIndex } ::= { installTable 1 } InstallEntry ::= SEQUENCE { instIndex INTEGER, instRelDevice INTEGER, instRelName DisplayString, instRelMajor INTEGER, instRelMinor INTEGER, instPatDevice INTEGER, instPatName DisplayString, instRelInterim INTEGER, instRelExists INTEGER, instPatExists INTEGER } instIndex OBJECT-TYPE SYNTAX INTEGER { temporary(1), preferred(2), default(3), current(4) } ACCESS read-only STATUS mandatory DESCRIPTION "The index for the install table. There are four install configurations defined in the router, default, preferred, temporary and current. The router will attempt to use these in the order temporary, preferred, default when it boots. An install that is undefined will be skipped, an install which points to a file which is not present will be skipped. When the temporary install is used, the information is deleted. The current configuration shows what the router currently has installed." ::= { installEntry 1 } instRelDevice OBJECT-TYPE SYNTAX INTEGER { none(1), eprom(2), flash(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The device for the release in the install. If the device is flash the file for the release is given in instRelName. Devices none(1) or flash(3) are invalid for the default(3) release." ::= { installEntry 2 } instRelName OBJECT-TYPE SYNTAX DisplayString (SIZE (0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "The file name for the release in the install, if the instRelDevice is flash(3). If the instRelDevice is none(1) or eprom(2), this object should be a null string." ::= { installEntry 3 } instRelMajor OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The major release number for this install. This information is obtained by the router when the other elements in the row are set and is thus not directly set by management. If the release number is a.b.c, the major release number is a." ::= { installEntry 4 } instRelMinor OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The minor release number for this install. This information is obtained by the router when the other elements in the row are set and is thus not directly set by management. If the release number is a.b.c, the major release number is b." ::= { installEntry 5 } instPatDevice OBJECT-TYPE SYNTAX INTEGER { none(1), flash(3), nvs(4) } ACCESS read-only STATUS mandatory DESCRIPTION "The device for the patch in the install. The file for the patch is given in instPatName unless the device is none(1)." ::= { installEntry 6 } instPatName OBJECT-TYPE SYNTAX DisplayString (SIZE (0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "The file name for the patch in the install." ::= { installEntry 7 } instRelInterim OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The interim release number for this install. This information is obtained by the router when the other elements in the row are set and is thus not directly set by management. If the release number is a.b.c, the major release number is c. If the release number is a.b, the interim release number is 0." ::= { installEntry 8 } instRelExists OBJECT-TYPE SYNTAX INTEGER { true(1), false(2) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates if the release file exists or not. true(1) means it exists, false(2) means it doesn't." ::= { installEntry 9 } instPatExists OBJECT-TYPE SYNTAX INTEGER { true(1), false(2) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates if the patch file exists or not. true(1) means it exists, false(2) means it doesn't" ::= { installEntry 10 } -- The install history table. Each element is a descriptive line that tells -- of part of the install history of the last router reboot. installHistoryTable OBJECT-TYPE SYNTAX SEQUENCE OF InstallHistoryEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The table of descriptions of events in the install history of the router." ::= { install 2 } installHistoryEntry OBJECT-TYPE SYNTAX InstallHistoryEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single line describing part of the install history of the router." INDEX { instHistIndex } ::= { installHistoryTable 1 } InstallHistoryEntry ::= SEQUENCE { instHistIndex INTEGER, instHistLine DisplayString } instHistIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of this event in the install history. Indices run from 1 to the maximum number. The maximum number is not available as a managed object so this table will have to be traversed in order to find out how large it is." ::= { installHistoryEntry 1 } instHistLine OBJECT-TYPE SYNTAX DisplayString (SIZE (0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "A line of text describing a single event in the install history of the router." ::= { installHistoryEntry 2 } -- The configuration file configFile OBJECT-TYPE SYNTAX DisplayString (SIZE (0..255)) ACCESS read-write STATUS mandatory DESCRIPTION "The name of the file that the router will configure from at boot. The format of the name is the same as that for fileName described above. If the configuration file name is a zero length string, then there is no configuration file defined in the router." ::= { install 3 } -- The release licence table. This table contains licences for releases of -- router software stored in flash. licenceTable OBJECT-TYPE SYNTAX SEQUENCE OF LicenceEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The list of release licences in the router." ::= { install 4 } licenceEntry OBJECT-TYPE SYNTAX LicenceEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the list of release licences." INDEX { licenceIndex } ::= { licenceTable 1 } LicenceEntry ::= SEQUENCE { licenceIndex INTEGER, licenceStatus INTEGER, licenceRelease DisplayString, licenceMajor INTEGER, licenceMinor INTEGER, licencePassword DisplayString, licenceExpiry DisplayString, licenceInterim INTEGER } licenceIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "A unique licence index. Licence indices are recalculated every time the router reboots to reflect the current licences on the router. As licences are added, new indices are allocated to the new licences." ::= { licenceEntry 1 } licenceStatus OBJECT-TYPE SYNTAX INTEGER { ok(1), -- file exists and is OK deleting(2) -- delete the file when this value written } ACCESS read-write STATUS mandatory DESCRIPTION "The status of the file. When read, this object will always return a value of ok(1), since the object will not exist if the value is deleting(2). Write the value deleting(2) to this object to delete the file." ::= { licenceEntry 2 } licenceRelease OBJECT-TYPE SYNTAX DisplayString (SIZE (0..255)) ACCESS read-write STATUS mandatory DESCRIPTION "The file name for the release whose licence this is." ::= { licenceEntry 3 } licenceMajor OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The major release number for the release whose licence this is." ::= { licenceEntry 4 } licenceMinor OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The minor release number for the release whose licence this is." ::= { licenceEntry 5 } licencePassword OBJECT-TYPE SYNTAX DisplayString (SIZE (12)) ACCESS read-write STATUS mandatory DESCRIPTION "The password for this release. The password is a string of hex digits." ::= { licenceEntry 6 } licenceExpiry OBJECT-TYPE SYNTAX DisplayString (SIZE (0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "A human-readable string that gives the expiry date of this licence." ::= { licenceEntry 7 } licenceInterim OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The interim release number for the release whose licence this is." ::= { licenceEntry 8 } -- The create configuration file createConfigFile OBJECT-TYPE SYNTAX DisplayString (SIZE (0..255)) ACCESS read-write STATUS mandatory DESCRIPTION "The name of a file to create containing the current router configuration. A read from this variable will return the same as the variable configFile. Thus to save the current configuration in the current configuration file, read createConfigFile first, then write the result back to createConfigFile. If this variable is written with the name of an existing file, the file will be replaced with the current configuration." ::= { install 5 } -- configuration file exists? configFileExist OBJECT-TYPE SYNTAX INTEGER { true(1), false(2) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates if the boot configuration file exists or not. true(1) means it exists, false(2) means it doesn't" ::= { install 6 } configFileExistTrap TRAP-TYPE ENTERPRISE install VARIABLES { configFileExist } DESCRIPTION "This trap is generated when the boot file is detected as missing" ::= 1 -- The current configuration file currentConfigFile OBJECT-TYPE SYNTAX DisplayString (SIZE (0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "The name of the file that the router is currently configured with. The format of the name is the same as that for fileName described above. If the current configuration file name is a zero length string, then there is no current configuration file defined in the router." ::= { install 7 } -- ========== TRIGGER module ========== -- ========== TRIGGER module ========== -- ========== TRIGGER module ========== -- The trigger group. This group contains information pertinent to triggers in the router. trigger OBJECT IDENTIFIER ::= { modules 53 } -- The index off the modules subtree is from modules.h. -- The last trigger activated on the router. triggerLastTriggerActivated OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The trigger number of the most recent trigger activated on this router. This is also the variable sent in the trigger trap below. If no triggers have been activated yet since the last restart of this router, this variable will read as 0." ::= { trigger 1 } triggerTrap TRAP-TYPE ENTERPRISE trigger VARIABLES { triggerLastTriggerActivated } DESCRIPTION "A trigger trap is generated a trigger is activated. The number of the trigger activated is given by the variable triggerLastTriggerActivated." ::= 1 -- ========== FILE module ========== -- ========== FILE module ========== -- ========== FILE module ========== -- The file group. This group contains information pertinent to the file system in the -- router. file OBJECT IDENTIFIER ::= { modules 56 } -- The index off the modules subtree is from modules.h. -- The file table fileTable OBJECT-TYPE SYNTAX SEQUENCE OF FileEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of all the files in the router's non-volatile storage." ::= { file 1 } fileEntry OBJECT-TYPE SYNTAX FileEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the list of files containing information about a single file in the router." INDEX { fileIndex } ::= { fileTable 1 } FileEntry ::= SEQUENCE { fileIndex INTEGER, fileName DisplayString, fileDevice INTEGER, fileCreationTime DisplayString, fileStatus INTEGER, fileSize INTEGER } fileIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "A unique file index. File indices are recalculated every time the router reboots to reflect the current files on the router. As files are added, new indices are allocated to the new files." ::= { fileEntry 1 } fileName OBJECT-TYPE SYNTAX DisplayString (SIZE (0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "The name of the file, in the form . The name is up to eight characters long, the type is up to three characters long." ::= { fileEntry 2 } fileDevice OBJECT-TYPE SYNTAX INTEGER { flash(1), nvs(2) } ACCESS read-only STATUS mandatory DESCRIPTION "The device on which the file resides." ::= { fileEntry 3 } fileCreationTime OBJECT-TYPE SYNTAX DisplayString (SIZE (0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "The creation date and time for the file, in the format ." ::= { fileEntry 4 } fileStatus OBJECT-TYPE SYNTAX INTEGER { ok(1), -- file exists and is OK deleting(2) -- delete the file when this value written } ACCESS read-write STATUS mandatory DESCRIPTION "The status of the file. When read, this object will always return a value of ok(1), since the object will not exist if the value is deleting(2). Write the value deleting(2) to this object to delete the file." ::= { fileEntry 5 } fileSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The size, in bytes, of the file." ::= { fileEntry 6 } fileNumbers OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total number of files in FLASH and NVS." ::= { file 2 } -- ========== PING module ========== -- ========== PING module ========== -- ========== PING module ========== -- The ping group. This consists of a static and dynamic entry of ping -- information. -- This group was added on 30/Nov/2001 by Summer students on request from Telecom Italia. ping OBJECT IDENTIFIER ::= { modules 58 } -- The index off the modules subtree is from modules.h. -- The ping table. This consists of a static and dynamic entry of ping -- information. The static information is used when initiating a ping operation -- unless the dynamic information has been written with different values since -- the completion of the last ping. -- The pingStatus is used to start and stop a ping and inform as to whether a -- ping is currently active. -- The pingStatistics are the results from a ping carried out. -- A trap can be generated on completion of the ping. Generation of a trap is -- controlled by a variable in the ping table. -- The router or switch implementing this group can only support one concurrent -- ping operation controlled by SNMP at a time. Future support may include the ability -- to have more than one ping controlled by SNMP at a time. pingTable OBJECT-TYPE SYNTAX SEQUENCE OF PingEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The table of ping parameters, dynamic and static." ::= { ping 1 } pingEntry OBJECT-TYPE SYNTAX PingEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry of ping parameters. This contains the parameters required to perform a ping from the router. The ping specified by the dynamic parameters, can be initiated or stopped at any time by altering the pingStatus accordingly." INDEX { pingIndex } ::= { pingTable 1 } PingEntry ::= SEQUENCE { pingIndex INTEGER, pingProtocol INTEGER, pingAddress OCTET STRING, pingNumberOfPackets INTEGER, pingPacketSize INTEGER, pingTimeout INTEGER, pingDelay INTEGER, pingTrapOnCompletion INTEGER, pingTypeOfService INTEGER, pingPattern Unsigned32 } pingIndex OBJECT-TYPE SYNTAX INTEGER { static(1), dynamic(2) } ACCESS read-only STATUS mandatory DESCRIPTION "There are two sets of ping information, dynamic and static. The dynamic information is used only once, for the next ping, then automatically replaced with the static information. The static information is used whenever specific dynamic information is not specified. The dynamic information indicates the current ping parameters when a ping is in progress. If static information is not specified, defaults are used. Static information can be changed at any time, but dynamic information cannot be changed while a ping is in progress. A change to the static information when a ping is not currently active, also updates the dynamic information." ::= { pingEntry 1 } pingProtocol OBJECT-TYPE SYNTAX INTEGER { undefined(0), apple(1), ip(2), ipx(3), osi(4) } ACCESS read-write STATUS mandatory DESCRIPTION "The protocol that the ping will use. The protocol must match the destination address. Ping supports both IP, IPX, Appletalk, and OSI addresses. The protocol must be specified before the address is set, because when the protocol is changed, address is reset to undefined. The default value for this variable is undefined(0)." ::= { pingEntry 2 } pingAddress OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-write STATUS mandatory DESCRIPTION "The address specifies the destination address for ping packets for Appletalk, IP, IPX and OSI networks, respectively. The address format must match the protocol being used. The protocol must be specified before the address is set, because changing the protocol resets the address to undefined. The default value for this variable is an undefined address which is coded as a zero length octet string." ::= { pingEntry 3 } pingNumberOfPackets OBJECT-TYPE SYNTAX INTEGER (0..2147483647) ACCESS read-write STATUS mandatory DESCRIPTION "The number of ping packets to transmit." ::= { pingEntry 4 } pingPacketSize OBJECT-TYPE SYNTAX INTEGER (0..1500) ACCESS read-write STATUS mandatory DESCRIPTION "The packet size parameter specifies the length in bytes, of data to include in the data portion of the ping packet. The protocol packet header size and the size of headers for the particular link protocol in use have to be added to the packet size to get the total size of the ping packet. The maximum pingPacketSize can be set to is 1500." ::= { pingEntry 5 } pingTimeout OBJECT-TYPE SYNTAX INTEGER (0..2147483647) ACCESS read-write STATUS mandatory DESCRIPTION "Timeout specifies the amount of time, in seconds, to wait for a response to a ping packet." ::= { pingEntry 6 } pingDelay OBJECT-TYPE SYNTAX INTEGER (0..2147483647) ACCESS read-write STATUS mandatory DESCRIPTION "The delay parameter specifies the time interval, in seconds, between ping packets." ::= { pingEntry 7 } pingTrapOnCompletion OBJECT-TYPE SYNTAX TruthValue ACCESS read-write STATUS mandatory DESCRIPTION "Specifies whether a trap should be issued on completion of the sequence of pings." ::= { pingEntry 8 } pingTypeOfService OBJECT-TYPE SYNTAX INTEGER (0..255) ACCESS read-write STATUS mandatory DESCRIPTION "The Type Of Service (TOS) parameter is only valid for IP addresses, and specifies the TOS field in the IP header of the ping packet, as a decimal in the range 0 to 255." ::= { pingEntry 9 } pingPattern OBJECT-TYPE SYNTAX Unsigned32 ACCESS read-write STATUS mandatory DESCRIPTION "The pattern parameter specifies the data pattern to use in the data portion of the ping packet." ::= { pingEntry 10 } -- The ping status value. This is used to start and stop a ping, report on the -- status of the ping (running or stopped). pingStatus OBJECT-TYPE SYNTAX INTEGER { start-running(1), -- If status is '2' (stopped), set to '1' to start stop-stopped(2) -- If status is '1' (running), set to '2' to stop } ACCESS read-write STATUS mandatory DESCRIPTION "Status and action object for the ping module. A status of '1' indicates that the ping is currently running, the status can be set to '2' to stop the ping. A status of '2' indicates that the ping is currently stopped, the pingStatus can be set to '1' to start the ping. The parameters for the ping can be altered in the pingTable. The destination ping address and protocol have defaults of undefined and must be specified before a ping can be started. The ping statistics are reset to defaults when a ping is started, and updated when the ping stops. Dynamic pingTable information is used only once, for the next ping. Static pingTable information is used for all pings by default, whenever the respective dynamic settings are not specified." ::= { ping 2 } -- This contains the statistic results from a ping. pingStatistics OBJECT IDENTIFIER ::= { ping 3 } pingSentPackets OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of ping packets sent to the target in the last ping. The default before the completion of a ping is zero." ::= { pingStatistics 1 } pingReceivedPackets OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of packets received from the target in the last ping. The default before the completion of a ping is zero." ::= { pingStatistics 2 } pingMinimumRoundTripTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The quickest round trip time taken by any of the ping packets in milliseconds in the last ping. The default before the completion of a ping is zero." ::= { pingStatistics 3 } pingAverageRoundTripTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The average round trip time taken by the ping packets in milliseconds in the last ping. The default before the completion of a ping is zero." ::= { pingStatistics 4 } pingMaximumRoundTripTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The slowest round trip time taken by any of the ping packets in milliseconds in the last ping. The default before the completion of a ping is zero." ::= { pingStatistics 5 } -- ping TRAPs. pingTrap TRAP-TYPE ENTERPRISE ping DESCRIPTION "A ping trap is generated when a ping has completed. Traps are only generated if the variable pingTrapOnCompletion is set to true(1) in the dynamic ping entry. A trap is still generated if the ping is stopped prematurely by setting the variable pingStatus to stop/stopped(2)." ::= 1 -- ========== DHCP module ========== -- ========== DHCP module ========== -- ========== DHCP module ========== -- The DHCP (Dynamic Host Configuration Protocol) module. This group provides -- management information for DHCP, which will be implemented in a number of -- stages. -- stage 1, May/2002, Tony van der Peet -- No DHCP MIB has been found in an RFC, so DHCP has to be supported -- in the enterprise MIB. Basic request is for a TRAP when a DHCP -- host range is exhausted. Some basic variables for the range -- information are provided in order to allow lookup of the exhausted -- range. Also provided are variables for the express purpose of -- adding to the TRAP message. dhcp OBJECT IDENTIFIER ::= { modules 70 } -- The index off the modules subtree is from modules.h. -- The DHCP range table. Each entry in the table gives information about a -- single DHCP range currently configured in the switch/router. dhcpRangeTable OBJECT-TYPE SYNTAX SEQUENCE OF DhcpRangeEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The table of DHCP ranges." ::= { dhcp 1 } dhcpRangeEntry OBJECT-TYPE SYNTAX DhcpRangeEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry of the DHCP range table. This contains information about a single DHCP range configured on this device." INDEX { dhcpRangeIndex } ::= { dhcpRangeTable 1 } DhcpRangeEntry ::= SEQUENCE { dhcpRangeIndex INTEGER, dhcpRangeName DisplayString, dhcpRangeBaseAddress IpAddress, dhcpRangeNumberOfAddresses INTEGER, dhcpRangeGateway IpAddress } dhcpRangeIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index of this DHCP range. DHCP ranges are stored in a list which is ordered by range name. The index gives the place in the list. Note that if ranges are added or deleted, the index for a given range will change. Since this table is read-only, this will not have an undue effect, but if in future this table is made read-write, a mechanism will have to be created to lock the indices of the range table while SET operations are proceeding." ::= { dhcpRangeEntry 1 } dhcpRangeName OBJECT-TYPE SYNTAX DisplayString (SIZE (1..15)) ACCESS read-only STATUS mandatory DESCRIPTION "The name given to identify this DHCP range. This is the ultimate method for uniquely identifying this range. Names are compared without regard to case, for example >range1< will be treated as the same as >RANGE1<." ::= { dhcpRangeEntry 2 } dhcpRangeBaseAddress OBJECT-TYPE SYNTAX IpAddress ACCESS read-only STATUS mandatory DESCRIPTION "The base address of this range. This address defines the lower bound of the range of IP addresses which can be allocated to devices requesting an IP address via DHCP." ::= { dhcpRangeEntry 3 } dhcpRangeNumberOfAddresses OBJECT-TYPE SYNTAX INTEGER (1..256) ACCESS read-only STATUS mandatory DESCRIPTION "The number of IP address in this range. This number defines the upper bound of the range of IP addresses which can be allocated to devices requesting an IP address via DHCP." ::= { dhcpRangeEntry 4 } dhcpRangeGateway OBJECT-TYPE SYNTAX IpAddress ACCESS read-only STATUS mandatory DESCRIPTION "The IP address of the BOOTP relay agent which will be relaying DHCP requests for this range. If this address is 0.0.0.0, then there will be no BOOTP relay agent and the range will be allocated to devices directly connected to this device." ::= { dhcpRangeEntry 5 } -- DHCP traps. -- DHCP trap variables. special variables set up to act as reference points for -- variables sent in TRAPs. dhcpTrapVariable OBJECT IDENTIFIER ::= { dhcp 2 } dhcpRangeExhaustedGateway OBJECT-TYPE SYNTAX IpAddress ACCESS read-only STATUS mandatory DESCRIPTION "Whenever a DHCP client attempts to lease an IP address and the DHCP server cannot provide an address, this variable is set to the gateway address of the DHCP request. The gateway address is the IP address of the gateway acting as a BOOTP relay agent for the request. If there is no gateway, the address will be 0.0.0.0. If the gateway address is non-zero, the DHCP range from which the allocation should have been made will able to be identified by lookup in the DHCP range table." ::= { dhcpTrapVariable 1 } dhcpRangeExhaustedInterface OBJECT-TYPE SYNTAX IpAddress ACCESS read-only STATUS mandatory DESCRIPTION "Whenever a DHCP client attempts to lease an IP address and the DHCP server cannot provide an address, this variable is set to the IP address of the interface which received the DHCP request. If the gateway address associated with the failed DHCP request is 0.0.0.0, the interface address will be able to be used to lookup the range that was exhausted and from which the allocation should have been made." ::= { dhcpTrapVariable 2 } dhcpRangeExhaustedTrap TRAP-TYPE ENTERPRISE dhcp VARIABLES { dhcpRangeExhaustedGateway, dhcpRangeExhaustedInterface } DESCRIPTION "This trap is generated when a DHCP client makes a request for an IP address and the request cannot be satisfied because all addresses in the range are already allocated to other devices." ::= 1 -- The DHCP client status table. Each entry in the table gives information about -- ip addresses currently configured on created ranges on the switch/router. -- Information shown are the client ip address, clientID, ClientState, ClientType, -- ClientExpiry -- This group was added on 6/Jan/2004 by Sean Lin on request from ATKK for Yahoo!BB dhcpClientTable OBJECT-TYPE SYNTAX SEQUENCE OF DhcpClientEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The table of defined DHCP range client addresses." ::= { dhcp 3 } dhcpClientEntry OBJECT-TYPE SYNTAX DhcpClientEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry of the DHCP range client table. This contains information about a single DHCP range client address." INDEX { dhcpRangeIndex, dhcpClientIpAddress } ::= { dhcpClientTable 1 } DhcpClientEntry ::= SEQUENCE { dhcpClientIpAddress IpAddress, dhcpClientID OCTET STRING, dhcpClientState INTEGER, dhcpClientType INTEGER, dhcpClientExpiry OCTET STRING } dhcpClientIpAddress OBJECT-TYPE SYNTAX IpAddress ACCESS read-only STATUS mandatory DESCRIPTION "An IP address from the range of available addresses." ::= { dhcpClientEntry 1 } dhcpClientID OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS mandatory DESCRIPTION "The hardware address of the client, if any, that has been assigned the IP address." ::= { dhcpClientEntry 2 } dhcpClientState OBJECT-TYPE SYNTAX INTEGER {unused (0), reclaiming (1), inuse (2), offered (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The state of the IP address; one of unused, inuse or reclaim." ::= { dhcpClientEntry 3 } dhcpClientType OBJECT-TYPE SYNTAX INTEGER {auto (1), dyn (2), static (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The type of allocation mechanism applied to the IP address; one of static, auto or dyn." ::= { dhcpClientEntry 4 } dhcpClientExpiry OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS mandatory DESCRIPTION "The expiry date for dynamically allocated IP address." ::= { dhcpClientEntry 5 } -- ========== FIREWALL module ========== -- ========== FIREWALL module ========== -- ========== FIREWALL module ========== -- The firewall group. This consists of a single variable which is the last -- TRAP message sent. firewall OBJECT IDENTIFIER ::= { modules 77 } -- The index off the modules subtree is from modules.h. -- The last TRAP message sent from the firewall. firewallTrapMessage OBJECT-TYPE SYNTAX DisplayString (SIZE (0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "The last message sent in a firewall TRAP. This variable is really just a placeholder for the object sent in the firewall TRAP, but can be read independently if required. Note however that a new TRAP will cause this variable to be overwritten." ::= { firewall 1 } firewallTrap TRAP-TYPE ENTERPRISE firewall VARIABLES { firewallTrapMessage } DESCRIPTION "A firewall trap is generated when the firewall detects an intrusion or attack and notifies the router manager. Firewall trap notifications are enabled with the command ENABLE FIREWALL NOTIFY=SNMP." ::= 1 -- ========== SWITCH module ========== -- ========== SWITCH module ========== -- ========== SWITCH module ========== -- The switch group. swi OBJECT IDENTIFIER ::= { modules 87 } -- The index off the modules subtree is from modules.h. -- The branch is named 'swi' because it is the common internal module name, -- also to reduce the chance of naming conflicts with other MIB objects. swiPortTable OBJECT-TYPE SYNTAX SEQUENCE OF SwiPortEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Table of port properties." ::= { swi 1 } swiPortEntry OBJECT-TYPE SYNTAX SwiPortEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the port information table." INDEX { swiPortNumber } ::= { swiPortTable 1 } SwiPortEntry ::= SEQUENCE { swiPortNumber INTEGER, swiPortIngressLimit INTEGER, swiPortEgressLimit INTEGER } swiPortNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This object identifies the port of the switch." ::= { swiPortEntry 1 } swiPortIngressLimit OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The Ingress Bandwidth Limit applied to the port. A value of zero indicates that no limit is set." ::= { swiPortEntry 20 } swiPortEgressLimit OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The Egress Bandwidth Limit applied to the port. A value of zero indicates that no limit is set." ::= { swiPortEntry 21 } -- The following table lists the various switch port counters for the -- swi56xx based products. swi56xxPortCounterTable OBJECT-TYPE SYNTAX SEQUENCE OF Swi56xxPortCounterEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Table of swi56xx port counter properties." ::= { swi 2 } swi56xxPortCounterEntry OBJECT-TYPE SYNTAX Swi56xxPortCounterEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the port information table." INDEX { swi56xxPortNumber } ::= { swi56xxPortCounterTable 1 } Swi56xxPortCounterEntry ::= SEQUENCE { swi56xxPortNumber INTEGER, swi56xxRxTx64kPkts Counter, swi56xxRxTx65To127kPkts Counter, swi56xxRxTx128To255kPkts Counter, swi56xxRxTx256To511kPkts Counter, swi56xxRxTx512To1023kPkts Counter, swi56xxRxTx1024ToMaxPktSzPkts Counter, swi56xxRxTx519To1522kPkts Counter, swi56xxPortRxOctets Counter, swi56xxPortRxPkts Counter, swi56xxPortRxFCSErrors Counter, swi56xxPortRxMulticastPkts Counter, swi56xxPortRxBroadcastPkts Counter, swi56xxPortRxPauseMACCtlFrms Counter, swi56xxPortRxOversizePkts Counter, swi56xxPortRxFragments Counter, swi56xxPortRxJabbers Counter, swi56xxPortRxMACControlFrms Counter, swi56xxPortRxUnsupportOpcode Counter, swi56xxPortRxAlignmentErrors Counter, swi56xxPortRxOutOfRngeLenFld Counter, swi56xxPortRxSymErDurCarrier Counter, swi56xxPortRxCarrierSenseErr Counter, swi56xxPortRxUndersizePkts Counter, swi56xxPortRxIpInHdrErrors Counter, swi56xxPortTxOctets Counter, swi56xxPortTxPkts Counter, swi56xxPortTxFCSErrors Counter, swi56xxPortTxMulticastPkts Counter, swi56xxPortTxBroadcastPkts Counter, swi56xxPortTxPauseMACCtlFrms Counter, swi56xxPortTxOversizePkts Counter, swi56xxPortTxFragments Counter, swi56xxPortTxJabbers Counter, swi56xxPortTxPauseCtrlFrms Counter, swi56xxPortTxFrameWDeferrdTx Counter, swi56xxPortTxFrmWExcesDefer Counter, swi56xxPortTxSingleCollsnFrm Counter, swi56xxPortTxMultCollsnFrm Counter, swi56xxPortTxLateCollsns Counter, swi56xxPortTxExcessivCollsns Counter, swi56xxPortTxCollisionFrames Counter, swi56xxPortMiscDropEvents Counter, swi56xxPortMiscTaggedPktTx Counter, swi56xxPortMiscTotalPktTxAbort Counter, swi56xxPortHWMultiTTLexpired Counter, swi56xxPortHWMultiBridgedFrames Counter, swi56xxPortHWMultiRxDrops Counter, swi56xxPortHWMultiTxDrops Counter } swi56xxPortNumber OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This object identifies the port of the switch." ::= { swi56xxPortCounterEntry 1 } swi56xxRxTx64kPkts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of 64kB packets received and transmitted." ::= { swi56xxPortCounterEntry 2 } swi56xxRxTx65To127kPkts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of 65kB To 127kB packets received and transmitted." ::= { swi56xxPortCounterEntry 3 } swi56xxRxTx128To255kPkts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of 128kB To 255kB packets received and transmitted." ::= { swi56xxPortCounterEntry 4 } swi56xxRxTx256To511kPkts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of 256kB To 511kB packets received and transmitted." ::= { swi56xxPortCounterEntry 5 } swi56xxRxTx512To1023kPkts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of 512kB To 1023kB packets received and transmitted." ::= { swi56xxPortCounterEntry 6 } swi56xxRxTx1024ToMaxPktSzPkts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of 1024kB To MaxPktSz packets received and transmitted." ::= { swi56xxPortCounterEntry 7 } swi56xxRxTx519To1522kPkts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of 519kB To 1522kB packets received and transmitted." ::= { swi56xxPortCounterEntry 8 } swi56xxPortRxOctets OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of octets received." ::= { swi56xxPortCounterEntry 9 } swi56xxPortRxPkts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of packets received." ::= { swi56xxPortCounterEntry 10 } swi56xxPortRxFCSErrors OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of frames received containing a Frame Check Sequence error." ::= { swi56xxPortCounterEntry 11 } swi56xxPortRxMulticastPkts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of multicast packets received." ::= { swi56xxPortCounterEntry 12 } swi56xxPortRxBroadcastPkts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of broadcast packets received." ::= { swi56xxPortCounterEntry 13 } swi56xxPortRxPauseMACCtlFrms OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of valid PAUSE MAC Control frames received." ::= { swi56xxPortCounterEntry 14 } swi56xxPortRxOversizePkts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of oversize packets received." ::= { swi56xxPortCounterEntry 15 } swi56xxPortRxFragments OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of fragments received." ::= { swi56xxPortCounterEntry 16 } swi56xxPortRxJabbers OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of jabber frames received." ::= { swi56xxPortCounterEntry 17 } swi56xxPortRxMACControlFrms OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of MAC Control frames (Pause and Unsupported) received." ::= { swi56xxPortCounterEntry 18 } swi56xxPortRxUnsupportOpcode OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of MAC Control frames with unsupported opcode (i.e. not Pause) received." ::= { swi56xxPortCounterEntry 19 } swi56xxPortRxAlignmentErrors OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of frames with alignment errors received." ::= { swi56xxPortCounterEntry 20 } swi56xxPortRxOutOfRngeLenFld OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of packets with length out of range received." ::= { swi56xxPortCounterEntry 21 } swi56xxPortRxSymErDurCarrier OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of frames with invalid data symbols received." ::= { swi56xxPortCounterEntry 22 } swi56xxPortRxCarrierSenseErr OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of false carrier conditions between frames received." ::= { swi56xxPortCounterEntry 23 } swi56xxPortRxUndersizePkts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of undersized packets received." ::= { swi56xxPortCounterEntry 24 } swi56xxPortRxIpInHdrErrors OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "swiPortRxIpInHdrErrors" ::= { swi56xxPortCounterEntry 25 } swi56xxPortTxOctets OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of octets transmitted." ::= { swi56xxPortCounterEntry 26 } swi56xxPortTxPkts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of packets transmitted." ::= { swi56xxPortCounterEntry 27 } swi56xxPortTxFCSErrors OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of frames containing a Frame Check Sequence error transmitted." ::= { swi56xxPortCounterEntry 28 } swi56xxPortTxMulticastPkts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of multicast packets transmitted." ::= { swi56xxPortCounterEntry 29 } swi56xxPortTxBroadcastPkts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of broadcast packets transmitted." ::= { swi56xxPortCounterEntry 30 } swi56xxPortTxPauseMACCtlFrms OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of valid PAUSE MAC Control frames transmitted." ::= { swi56xxPortCounterEntry 31 } swi56xxPortTxOversizePkts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of oversize packets transmitted." ::= { swi56xxPortCounterEntry 32 } swi56xxPortTxFragments OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of fragments transmitted." ::= { swi56xxPortCounterEntry 33 } swi56xxPortTxJabbers OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of jabber frames transmitted." ::= { swi56xxPortCounterEntry 34 } swi56xxPortTxPauseCtrlFrms OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of Pause control frames transmitted." ::= { swi56xxPortCounterEntry 35 } swi56xxPortTxFrameWDeferrdTx OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of frames deferred once before successful transmission." ::= { swi56xxPortCounterEntry 36 } swi56xxPortTxFrmWExcesDefer OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of frame aborted after too many deferrals." ::= { swi56xxPortCounterEntry 37 } swi56xxPortTxSingleCollsnFrm OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of frames which experienced exactly one collision." ::= { swi56xxPortCounterEntry 38 } swi56xxPortTxMultCollsnFrm OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of frames which experienced 2 to 15 collisions (including late collisions)." ::= { swi56xxPortCounterEntry 39 } swi56xxPortTxLateCollsns OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of frames which experienced late collisions." ::= { swi56xxPortCounterEntry 40 } swi56xxPortTxExcessivCollsns OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of frames aborted before transmission after 16 collisions." ::= { swi56xxPortCounterEntry 41 } swi56xxPortTxCollisionFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The total number of collisions." ::= { swi56xxPortCounterEntry 42 } swi56xxPortMiscDropEvents OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of packets discarded at ingress port." ::= { swi56xxPortCounterEntry 43 } swi56xxPortMiscTaggedPktTx OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of VLAN tagged packets transmitted." ::= { swi56xxPortCounterEntry 44 } swi56xxPortMiscTotalPktTxAbort OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of Layer 2 and 3 packets aborted during transmission." ::= { swi56xxPortCounterEntry 45 } swi56xxPortHWMultiTTLexpired OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Number of multicast TTL expired frames." ::= { swi56xxPortCounterEntry 46 } swi56xxPortHWMultiBridgedFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Number of multicast bridged frames" ::= { swi56xxPortCounterEntry 47 } swi56xxPortHWMultiRxDrops OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Number of multicast frames dropped at reception" ::= { swi56xxPortCounterEntry 48 } swi56xxPortHWMultiTxDrops OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "NNumber of multicast frames dropped at transmission" ::= { swi56xxPortCounterEntry 49 } -- A MIB group set up to contain odds and ends of debugging variables in the SWI module. swiDebugVariables OBJECT IDENTIFIER ::= { swi 3 } swiDebugMemoryParityErrors OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "For switches based on certain switch chips, the number of parity errors that have been detected in packet memory associated with the switch. If the device does not include the counting of memory parity errors, this variable will return 0." ::= { swiDebugVariables 1 } swiIntrusionDetectionTrap TRAP-TYPE ENTERPRISE swi VARIABLES { ifIndex } DESCRIPTION "An intrusion detection trap is generated when a port has intrusion detection enabled, and the action taken when intrusion is detected is to generate a trap. Intrusion is detected when the number of MAC addresses learned on the port exceeds the configured learn limit. The ifIndex of the port is included in the trap." ::= 6 -- ========== LB module ========== -- ========== LB module ========== -- ========== LB module ========== -- The loadbal group. This group contains the current configuration and status -- of the routers' load balancing operation. -- The variables in this sub-tree are only valid in releases which support -- load balancing. The first release with load balancing code is 2.5.1, Dec/2002. lb OBJECT IDENTIFIER ::= { modules 104 } -- The index off the modules subtree is from modules.h. -- lbShowGlobalTable lbShowGlobalTable OBJECT-TYPE SYNTAX SEQUENCE OF LbShowGlobalEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "General configuration and status of all of the virtual balancers configured on the router." ::= { lb 1 } lbShowGlobalEntry OBJECT-TYPE SYNTAX LbShowGlobalEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the global table." INDEX { lbGlobalIndex } ::= { lbShowGlobalTable 1 } LbShowGlobalEntry ::= SEQUENCE { lbGlobalIndex INTEGER, lbAffinityTimeOut INTEGER, lbOrphanTimeOut INTEGER, lbCriticalRst INTEGER, lbTotalResources INTEGER, lbTotalResPools INTEGER, lbTotalVirtBals INTEGER, lbCurrentConnections INTEGER } lbGlobalIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index for the global table." ::= { lbShowGlobalEntry 1 } lbAffinityTimeOut OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The length of time in seconds that a resource can be associated to a source IP address or Cookie after the connection has been closed." ::= { lbShowGlobalEntry 2 } lbOrphanTimeOut OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The length of time in seconds that a connection can exist without having any data traversing it, before being declared an orphan and closed by the router." ::= { lbShowGlobalEntry 3 } lbCriticalRst OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The ratio of total messages received from a resource that can be TCP RST messages represented as a percentage." ::= { lbShowGlobalEntry 4 } lbTotalResources OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total number of resources configured on the router." ::= { lbShowGlobalEntry 5 } lbTotalResPools OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total number of resource pools configured on the router." ::= { lbShowGlobalEntry 6 } lbTotalVirtBals OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total number of virtual balancers configured on the router." ::= { lbShowGlobalEntry 7 } lbCurrentConnections OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Displays the current total number of connections to all resources in every resource pool on the router." ::= { lbShowGlobalEntry 8 } -- The lbShowRes table lbShowResTable OBJECT-TYPE SYNTAX SEQUENCE OF LbShowResEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list about the general information about for a given resource." ::= { lb 2 } lbShowResEntry OBJECT-TYPE SYNTAX LbShowResEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the resource table." INDEX { lbResIndex } ::= { lbShowResTable 1 } LbShowResEntry ::= SEQUENCE { lbResIndex INTEGER, lbResource DisplayString, lbResIp IpAddress, lbResPort INTEGER, lbResState DisplayString, lbResWeight INTEGER, lbResTotalConnections INTEGER, lbResCurrentConnections INTEGER } lbResIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index for the resource table." ::= { lbShowResEntry 1 } lbResource OBJECT-TYPE SYNTAX DisplayString (SIZE (0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "The name of the resource." ::= { lbShowResEntry 2 } lbResIp OBJECT-TYPE SYNTAX IpAddress ACCESS read-only STATUS mandatory DESCRIPTION "The IP address that a virtual balancer uses to accesses the resource." ::= { lbShowResEntry 3 } lbResPort OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The port that the service that the resource offer is accessed on." ::= { lbShowResEntry 4 } lbResState OBJECT-TYPE SYNTAX DisplayString (SIZE (0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "The current state of the resource, either UP, DOWN, or CLOSING." ::= { lbShowResEntry 5 } lbResWeight OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The weight that the virtual balancer will apply to the resource when selecting resources to try a connection to from a resource pool using either the WEIGHTEDLEASTCONNECT or WEIGHTEDLOTTERY selection algorithms." ::= { lbShowResEntry 6 } lbResTotalConnections OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total number of successful connections that have been made to this resource while it has been in the UP state." ::= { lbShowResEntry 7 } lbResCurrentConnections OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total number of connections currently made to the resource." ::= { lbShowResEntry 8 } -- The lbShowResPool table lbShowResPoolTable OBJECT-TYPE SYNTAX SEQUENCE OF LbShowResPoolEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list about the general information about for a given resource pool." ::= { lb 3 } lbShowResPoolEntry OBJECT-TYPE SYNTAX LbShowResPoolEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the resource pool table." INDEX { lbResPoolIndex, lbResPoolResourceIndex } ::= { lbShowResPoolTable 1 } LbShowResPoolEntry ::= SEQUENCE { lbResPoolIndex INTEGER, lbResPoolResourceIndex INTEGER, lbResPool DisplayString, lbResPoolSelectionAlg DisplayString, lbResPoolFailOnLast DisplayString, lbResPoolTotalConnections DisplayString, lbResPoolResources DisplayString } lbResPoolIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index for the resource pool table." ::= { lbShowResPoolEntry 1 } lbResPoolResourceIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index for the resource table." ::= { lbShowResPoolEntry 2 } lbResPool OBJECT-TYPE SYNTAX DisplayString (SIZE (0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "The name of the resource pool." ::= { lbShowResPoolEntry 3 } lbResPoolSelectionAlg OBJECT-TYPE SYNTAX DisplayString (SIZE (0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "The selection algorithm that ius employed by this resource pool when a resource has been selected for a connection. The options are ROUNDROBIN, WEIGHTEDLEASTCONNECT, WEIGHTEDLOTTERY and FASTESTRESPONSE." ::= { lbShowResPoolEntry 4 } lbResPoolFailOnLast OBJECT-TYPE SYNTAX DisplayString (SIZE (0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "Indicates whether or not the resource pool will fail a resource if it is the last resource in the resource pool." ::= { lbShowResPoolEntry 5 } lbResPoolTotalConnections OBJECT-TYPE SYNTAX DisplayString (SIZE (0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "The total number of successful connections that have been made to the resources in the resource pool over the lifetime of the resource pool." ::= { lbShowResPoolEntry 6 } lbResPoolResources OBJECT-TYPE SYNTAX DisplayString (SIZE (0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "The name of the resource that is currently allocated to the resource pool." ::= { lbShowResPoolEntry 7 } -- The lbShowVirtBal table lbShowVirtBalTable OBJECT-TYPE SYNTAX SEQUENCE OF LbShowVirtBalEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list about the general information about for a given virtual balancer." ::= { lb 4 } lbShowVirtBalEntry OBJECT-TYPE SYNTAX LbShowVirtBalEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the virtual balancer table." INDEX { lbVirtBalIndex } ::= { lbShowVirtBalTable 1 } LbShowVirtBalEntry ::= SEQUENCE { lbVirtBalIndex INTEGER, lbVirtBal DisplayString, lbVirtBalPublicIp IpAddress, lbVirtBalPublicPort INTEGER, lbVirtBalState DisplayString, lbVirtBalResPool DisplayString, lbVirtBalType DisplayString, lbVirtBalTotalConnections INTEGER, lbVirtBalAffinity DisplayString, lbVirtBalHttpErrorCode DisplayString } lbVirtBalIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index for the virtual balancer table." ::= { lbShowVirtBalEntry 1 } lbVirtBal OBJECT-TYPE SYNTAX DisplayString (SIZE (0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "The name of the virtual balancer." ::= { lbShowVirtBalEntry 2 } lbVirtBalPublicIp OBJECT-TYPE SYNTAX IpAddress ACCESS read-only STATUS mandatory DESCRIPTION "The IP address on which the virtual balancer will receive requests for the service provided by the resource pool associated with it." ::= { lbShowVirtBalEntry 3 } lbVirtBalPublicPort OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The port on which the virtual balancer will receive requests for the service provided by the resource pool associated with it." ::= { lbShowVirtBalEntry 4 } lbVirtBalState OBJECT-TYPE SYNTAX DisplayString (SIZE (0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "The current state of the virtual balancer, can either be UP, CLOSING, or DOWN." ::= { lbShowVirtBalEntry 5 } lbVirtBalResPool OBJECT-TYPE SYNTAX DisplayString (SIZE (0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "The name of the resource pool that is associated with the virtual balancer." ::= { lbShowVirtBalEntry 6 } lbVirtBalType OBJECT-TYPE SYNTAX DisplayString (SIZE (0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "The type of load balancer that this virtual balancer currently is, can be either TCP, HTTP, or ROUTE." ::= { lbShowVirtBalEntry 7 } lbVirtBalTotalConnections OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total number of stateful connections currently running through this virtual balancer." ::= { lbShowVirtBalEntry 8 } lbVirtBalAffinity OBJECT-TYPE SYNTAX DisplayString (SIZE (0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "Indicates whether or not entries will be made in a virtual balancers' affinity table for each stateful connection to a resource in its' resource pool (TCP and ROUTE type) or for cookies received from clients (HTTP type)." ::= { lbShowVirtBalEntry 9 } lbVirtBalHttpErrorCode OBJECT-TYPE SYNTAX DisplayString (SIZE (0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "A list of the HTTP server error status code added." ::= { lbShowVirtBalEntry 10 } -- The lbShowAff table lbShowAffTable OBJECT-TYPE SYNTAX SEQUENCE OF LbShowAffEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of affinity tables for all configured virtual balancers on the router." ::= { lb 5 } lbShowAffEntry OBJECT-TYPE SYNTAX LbShowAffEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the affinity table." INDEX { lbAffIndex } ::= { lbShowAffTable 1 } LbShowAffEntry ::= SEQUENCE { lbAffIndex INTEGER, lbAffVirtBal DisplayString, lbAffClientIp IpAddress, lbAffCookie DisplayString, lbAffResource DisplayString, lbAffExpiry INTEGER } lbAffIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index for the affinity table." ::= { lbShowAffEntry 1 } lbAffVirtBal OBJECT-TYPE SYNTAX DisplayString (SIZE (0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "The name of the virtual balancer whose affinity table is being displayed." ::= { lbShowAffEntry 2 } lbAffClientIp OBJECT-TYPE SYNTAX IpAddress ACCESS read-only STATUS mandatory DESCRIPTION "The IP address that has affinity to the given resource." ::= { lbShowAffEntry 3 } lbAffCookie OBJECT-TYPE SYNTAX DisplayString (SIZE (0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "The cookie that has affinity to the given resource." ::= { lbShowAffEntry 4 } lbAffResource OBJECT-TYPE SYNTAX DisplayString (SIZE (0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "The name of the resource that the Client IP/Cookie has an affinity for." ::= { lbShowAffEntry 5 } lbAffExpiry OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The amount of seconds left before this entry expires, and is removed from the affinity table." ::= { lbShowAffEntry 6 } -- The lbShowCon table lbShowConTable OBJECT-TYPE SYNTAX SEQUENCE OF LbShowConEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list about all of the TCP connections currently open to a given virtual balancer." ::= { lb 6 } lbShowConEntry OBJECT-TYPE SYNTAX LbShowConEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the connections table." INDEX { lbConIndex } ::= { lbShowConTable 1 } LbShowConEntry ::= SEQUENCE { lbConIndex INTEGER, lbConVirtBal DisplayString, lbConClientIp IpAddress, lbConPort INTEGER, lbConResource DisplayString } lbConIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index for the connections table." ::= { lbShowConEntry 1 } lbConVirtBal OBJECT-TYPE SYNTAX DisplayString (SIZE (0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "The name of the virtual balancer the listed connections are to." ::= { lbShowConEntry 2 } lbConClientIp OBJECT-TYPE SYNTAX IpAddress ACCESS read-only STATUS mandatory DESCRIPTION "The IP address of that originated the connection." ::= { lbShowConEntry 3 } lbConPort OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The port on the originating system that represents the other end of the connection." ::= { lbShowConEntry 4 } lbConResource OBJECT-TYPE SYNTAX DisplayString (SIZE (0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "The name of the resource that the connection has been made to." ::= { lbShowConEntry 5 } -- ========== DS3 module ========== -- ========== DS3 module ========== -- ========== DS3 module ========== -- The DS3 group. ds3module OBJECT IDENTIFIER ::= { modules 109 } -- The index off the modules subtree is from modules.h. ds3TrapTable OBJECT-TYPE SYNTAX SEQUENCE OF Ds3TrapEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The ATR enterprise DS3 trap table." ::= { ds3module 1 } ds3TrapEntry OBJECT-TYPE SYNTAX Ds3TrapEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the ATR enterprise DS3 trap table." INDEX { ifIndex } ::= { ds3TrapTable 1 } Ds3TrapEntry ::= SEQUENCE { ds3TcaTrapEnable INTEGER, ds3TrapError INTEGER, ds3TrapLoc INTEGER, ds3TrapInterval INTEGER } ds3TcaTrapEnable OBJECT-TYPE SYNTAX INTEGER { enabled (1), disabled (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Indicates whether the threshold crossing alert traps should be generated for this interface." DEFVAL { disabled } ::= { ds3TrapEntry 1 } -- All ATR specific DS3 traps ds3TrapError OBJECT-TYPE SYNTAX INTEGER {ds3NoError (1), ds3PES (2), ds3PSES (3), ds3SEFs (4), ds3UAS (5), ds3LCVs (6), ds3PCVs (7), ds3LESs (8), ds3CCVs (9), ds3CESs (10), ds3CSESs (11) } ACCESS read-only STATUS mandatory DESCRIPTION "This variable shows which kind of parameter or primitive caused the trap. This variable is really just a placeholder for the object sent in the DS3 TRAP, but can be read independently if required. The variable will hold the value at the latest trap. A value of ds3NoError shows no trap has occured" DEFVAL { ds3NoError } ::= { ds3TrapEntry 2 } ds3TrapLoc OBJECT-TYPE SYNTAX INTEGER {ds3NoLoc (1), ds3Near (2), ds3Far (3) } ACCESS read-only STATUS mandatory DESCRIPTION "This variable shows whether the trap was caused by a problem at the local or remote end. This variable is really just a placeholder for the object sent in the DS3 TRAP, but can be read independently if required. The variable will hold the value at the latest trap. A value of ds3NoLoc shows no trap had occured." DEFVAL { ds3NoLoc } ::= { ds3TrapEntry 3 } ds3TrapInterval OBJECT-TYPE SYNTAX INTEGER {ds3NoInt (1), ds3Fifteen (2), ds3Twentyfour (3) } ACCESS read-only STATUS mandatory DESCRIPTION "This variable shows whether the counter which has crossed the threshold is a twenty four hour or fifteen minute counter. This variable is really just a placeholder for the object sent in the DS3 TRAP, but can be read independently if required. The variable will hold the value at the latest trap. A value of ds3NoInt shows no trap has occured." DEFVAL { ds3NoInt } ::= { ds3TrapEntry 4 } tcaTrap TRAP-TYPE ENTERPRISE ds3module VARIABLES { ds3TrapError, ds3TrapLoc, ds3TrapInterval } DESCRIPTION "A DS3 trap is generated when a threshold crossing alert occurs. This happens when an error count exceeds a pre determined value. The values are counted over 15 minute and 24 hour periods. Once a trap has occured in a given period it may not occur again within the same period." ::= 1 END