PROTEON-MIB DEFINITIONS ::= BEGIN -- -- COMMON ROUTING SOFTWARE MIB -- -- This MIB defines the system-wide network management -- functionality available on the IBM Nways family of -- products which use the common router software. -- -- This MIB was initially defined by Proteon and maintains -- the structure and OID assignments required by the common -- routing software. However, informational sections have -- been enhanced or clarified, where needed, and any errors -- have been corrected. -- -- This MIB is defined in the SNMP version 1 SMI format. -- -- June 23, 1998 -- -- Contact Information: -- Randy Worzella -- IBM Corp. -- G420/664 -- Research Triangle Park, NC 27709 -- -- phone: 919-254-2202 -- email: worzella@ralvm29.vnet.ibm.com -- IMPORTS enterprises, Counter, TimeTicks FROM RFC1155-SMI ifIndex, DisplayString FROM RFC1213-MIB OBJECT-TYPE FROM RFC-1212 TRAP-TYPE FROM RFC-1215; proteon OBJECT IDENTIFIER ::= { enterprises 1 } proAdmin OBJECT IDENTIFIER ::= { proteon 1 } proSystem OBJECT IDENTIFIER ::= { proteon 6 } -- Admin groups proSysObjId OBJECT IDENTIFIER ::= { proAdmin 1 } proStatus OBJECT IDENTIFIER ::= { proAdmin 2 } proPriv OBJECT IDENTIFIER ::= { proAdmin 5 } -- System groups proResource OBJECT IDENTIFIER ::= { proSystem 1 } proEls OBJECT IDENTIFIER ::= { proSystem 2 } proTemp OBJECT IDENTIFIER ::= { proSystem 3 } proConfig OBJECT IDENTIFIER ::= { proSystem 4 } -- Resource groups proResMemory OBJECT IDENTIFIER ::= { proResource 1 } proResBuffers OBJECT IDENTIFIER ::= { proResource 2 } proResMemHeap OBJECT IDENTIFIER ::= { proResMemory 1 } proResMemBuf OBJECT IDENTIFIER ::= { proResMemory 2 } proResBufGlobal OBJECT IDENTIFIER ::= { proResBuffers 1 } -- ELS trap objects -- -- The following objects are used when generating an elsTrap -- in the old format, which is no longer supported. -- -- Note that these objects are marked as deprecated and will be -- removed in an upcoming release. proElsTrapSeqs OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS deprecated DESCRIPTION "ELS trap sequence number" ::= { proSysObjId 1 } proElsTrapSubSystem OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS deprecated DESCRIPTION "ELS trap subsystem number" ::= { proSysObjId 2 } proElsTrapEvent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS deprecated DESCRIPTION "ELS trap event number" ::= { proSysObjId 3 } proElsTrapVar1 OBJECT IDENTIFIER ::= { proSysObjId 5 } proElsTrapVar2 OBJECT IDENTIFIER ::= { proSysObjId 6 } proElsTrapVar3 OBJECT IDENTIFIER ::= { proSysObjId 7 } proElsTrapVar4 OBJECT IDENTIFIER ::= { proSysObjId 8 } proElsTrapVar5 OBJECT IDENTIFIER ::= { proSysObjId 9 } proElsTrapVar6 OBJECT IDENTIFIER ::= { proSysObjId 10 } proElsTrapVar7 OBJECT IDENTIFIER ::= { proSysObjId 11 } proElsTrapVar8 OBJECT IDENTIFIER ::= { proSysObjId 12 } proElsTrapVar9 OBJECT IDENTIFIER ::= { proSysObjId 13 } -- ELS groups proElsGeneric OBJECT IDENTIFIER ::= { proEls 1 } -- Textual conventions -- -- Each ELS log message is classified by a log-level. This allows -- the user to configure logging of a class of messages. The -- following are the possible values for the log levels as -- defined by ELS, with the exception of other(1), which -- is defined for the purpose of the this MIB. This -- other(1) value is returned when a GET is performed on the -- following MIB variables: -- -- proElsSubSysDisplayEnable -- proElsSubSysTrapEnable -- proElsSubSysDisplayDisable -- proElsSubSysTrapDisable -- -- This is due to the fact that these four variables are -- intended only to be SET. See the dpecific DESCRIPTION -- clauses of these variables for more details. -- ProElsMsgLogLevel ::= INTEGER { other(1), -- See above explanation proMsgLevelUIError(2), -- Unusual internal error proMsgLevelCIError(3), -- Common internal error proMsgLevelUEError(4), -- Unusual external error proMsgLevelCEError(5), -- Common external error proMsgLevelError(6), -- Includes all above error levels proMsgLevelUInfo(7), -- Unusual informational comment proMsgLevelCInfo(8), -- Common informational comment proMsgLevelInfo(9), -- Includes all above comment levels proMsgLevelPTrace(10), -- Per packet trace message proMsgLevelUTrace(11), -- Unusual operation trace message proMsgLevelCTrace(12), -- Common operation trace message proMsgLevelTrace(13), -- Includes all above trace levels proMsgLevelAlways(14), -- Messages that are defined as always active proMsgLevelStandard(15), -- Includes all above error and informational comment levels proMsgLevelAll(16) -- Includes all levels } -- -- The following values are used to indicate if logging is disabled -- or enabled for a particular subsystem or an event. ProElsLogStatus ::= INTEGER { proElsLogDisabled(1), proElsLogEnabled(2) } -- -- sysObjectID values -- -- The following are the sysObjectID values for the various -- devices. They are not used for any IBM products. proSysObjIdP4100 OBJECT IDENTIFIER ::= { proSysObjId 41 } proSysObjIdP4200 OBJECT IDENTIFIER ::= { proSysObjId 42 } proSysObjIdDNX300 OBJECT IDENTIFIER ::= { proSysObjId 43 } proSysObjIdCNX400 OBJECT IDENTIFIER ::= { proSysObjId 44 } proSysObjIdCNX600 OBJECT IDENTIFIER ::= { proSysObjId 46 } proSysObjIdRBX200 OBJECT IDENTIFIER ::= { proSysObjId 47 } proSysObjIdCNX500 OBJECT IDENTIFIER ::= { proSysObjId 49 } proSysObjIdRBX250 OBJECT IDENTIFIER ::= { proSysObjId 50 } proSysObjIdBOSS3Slot OBJECT IDENTIFIER ::= { proSysObjId 53 } proSysObjIdBOSSs90 OBJECT IDENTIFIER ::= { proSysObjId 54 } -- -- Restart action object -- -- On 2210 and 2212, this action is equivalent to issuing RESTART -- from the OPCON menu. -- -- One 2216 and the 8210/blade, this action is equivalent -- to issuing RELOAD from the OPCON menu, since these platforms -- do not support the concept of restart at this time. -- proActionReset OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "This object, when read, returns a value of zero. A set of this object causes the router to be reset. The value represents the delay (in seconds) before the reset will take affect. This object should only be SET to 0 or a positive number" ::= { proPriv 2 } -- -- Reload action object -- -- On 2210 and 2212, this action is equivalent to issuing RELOAD -- from the OPCON menu. -- -- One 2216 and the 8210/blade, this action is equivalent -- to issuing RELOAD from the OPCON menu and for these platforms -- is currently identical to proActionReset. -- proActionReload OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "This object, when read, returns a value of zero. A set of this object causes the router to be reloaded. The value represents the delay (in seconds) before the reload will take affect. This object should only be SET to 0 or a positive number" ::= { proPriv 4 } -- -- Status group -- -- This group provides general status info on the device. -- -- This group is currently only supported on the IBM 2210. -- proStatusReloadTime OBJECT-TYPE SYNTAX TimeTicks ACCESS read-only STATUS mandatory DESCRIPTION "The time (in hundredths of a second) since the last time the router software was reloaded." ::= { proStatus 1 } proStatusStarts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of times the router has started since the last reload." ::= { proStatus 2 } proStatusCrashes OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of times the router has crashed since the last reload. Only those crashes that caused the router to deliberately restart due to a software error are counted by this object." ::= { proStatus 3 } proStatusCrashMsg OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The last crash message. The message will indicate if the router has not crashed since the last reload." ::= { proStatus 4 } -- -- Resource group -- -- Memory group (Heap) -- -- Heap memory is the memory used to dynamically allocate -- data structures and data/packet buffers. -- This group provides heap memory statistics. -- -- These variables provide the same information as the T5 -- "mem" command, for example: -- -- Total Reserve Never Perm Temp Prev -- Alloc Alloc Alloc Alloc -- Heap memory 5530707 26600 4519155 905192 88760 17600 -- proResMemHeapTotal OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total number of bytes of heap memory available for allocation." ::= { proResMemHeap 1 } proResMemHeapReserve OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The minimum amount of memory needed by the currently configured protocols and features." ::= { proResMemHeap 2 } proResMemHeapNeverAlloc OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The memory that has never been allocated." ::= { proResMemHeap 3 } proResMemHeapPermAlloc OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The memory that is permanently allocated to router tasks." ::= { proResMemHeap 4 } proResMemHeapTempAlloc OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The memory that is temporarily allocated to router tasks." ::= { proResMemHeap 5 } proResMemHeapPrevAlloc OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The memory that was temporarily allocated and returned to the free pool." ::= { proResMemHeap 6 } -- Memory group (Buffer) -- -- Buffer memory is the memory used to dynamically allocate -- data buffers. -- This group provides buffer memory statistics. -- -- NOTE: These four MIB variables always indicate zero -- because a distinct pool is not longer maintained -- for buffers. The buffer memory is obtained from -- the heap and reflected in the statistics of the -- proResMemHeap* MIB variables above. -- proResMemBufTotal OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total number of bytes of buffer memory available for allocation." ::= { proResMemBuf 1 } proResMemBufReserve OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The minimum amount of memory needed by the currently configured protocols and features." ::= { proResMemBuf 2 } proResMemBufNeverAlloc OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The memory that has never been allocated." ::= { proResMemBuf 3 } proResMemBufPermAlloc OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The memory that is permanently allocated to router tasks." ::= { proResMemBuf 4 } -- Buffer group (Global) -- -- This group provides statistics on global buffers available -- in the configured system. -- -- These variables provide the same information as the T5 -- "mem" command, for example: -- -- Number of global buffers: Total = 200, Free = 200, Fair = 38, Low = 40 -- proResBufGlobalTotal OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total number of global buffers in the system." ::= { proResBufGlobal 1 } proResBufGlobalFree OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total number of free buffers in the system." ::= { proResBufGlobal 2 } proResBufGlobalFair OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The 'fair' number of buffers for each interface." ::= { proResBufGlobal 3 } proResBufGlobalLow OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The low mark for free buffers. If the value of proResBufGlobalFree is less than this object then freed buffers will not be placed on any queue that has more than the 'fair' number of buffers on it." ::= { proResBufGlobal 4 } -- Buffer Table -- -- This group provides statistics on packet buffers assigned -- to each interface. -- -- These variables provide the same information as the T5 -- "buf" command, for example: -- -- Input Buffers Buffer sizes Bytes -- Nt Interface Req Alloc Low Curr Hdr Wrap Data Trail Total Alloc -- 0 TKR/0 40 40 7 40 85 92 2052 7 2236 89440 -- 1 X25/0 24 24 4 0 84 92 1500 12 1688 40512 -- 2 X25/1 24 24 4 0 84 92 1500 12 1688 40512 -- proResBufTable OBJECT-TYPE SYNTAX SEQUENCE OF ProResBufTableEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The per-port buffer table." ::= { proResBuffers 2 } proResBufTableEntry OBJECT-TYPE SYNTAX ProResBufTableEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry indicating the buffers allocated per interface." INDEX { ifIndex } ::= { proResBufTable 1 } ProResBufTableEntry ::= SEQUENCE { proResInputBufsReq INTEGER, proResInputBufsAlloc INTEGER, proResInputBufsLow INTEGER, proResInputBufsCurrent INTEGER, proResInputBufsSize INTEGER, proResInputBufsTotalBytes INTEGER } proResInputBufsReq OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of buffers requested for this interface." ::= { proResBufTableEntry 1 } proResInputBufsAlloc OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of buffers allocated for this interface." ::= { proResBufTableEntry 2 } proResInputBufsLow OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The low water mark for number of buffers." ::= { proResBufTableEntry 3 } proResInputBufsCurrent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The current number of buffers for this device. A value of zero indicates that the device is disabled. If, on receipt of a packet, the value of this object is less than proResInputBufsLow than the packet is eligible for flow control." ::= { proResBufTableEntry 4 } proResInputBufsSize OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The size, in bytes, of each buffer allocated to this interface." ::= { proResBufTableEntry 5 } proResInputBufsTotalBytes OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total number of bytes allocated to this interface. This is obtained by multiplying proResInputBufsAlloc by proResInputBufsSize." ::= { proResBufTableEntry 6 } -- -- Event Logging System (ELS) groups -- -- The following groups provide ELS subsystem information and control. -- Depending on the variable, the SET operation may affect either the -- operational parameter currently in use by ELS, or it may affect -- the configuration. In the latter case, the change will not -- become effective until the new configuration is loaded, either -- via a reload or a restart of the device. -- -- The individual variable descriptions will indicate whether it -- is related to the operational parameters or the configuration -- parameters. -- -- -- ELS generic group -- -- The ELS system-wide objects -- proElsPin OBJECT-TYPE SYNTAX INTEGER (0..65535) ACCESS read-write STATUS mandatory DESCRIPTION "The number of ELS enterprise specific traps which may be generated per second. A value of zero indicates no limit. This object reflects the operational pin value currently in use by ELS. A SET of this object immediately affects ELS. This variable should only be SET to a value in the range 0 to 65535." ::= { proElsGeneric 1 } proElsDropped OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of ELS enterprise specific traps which were not sent because the pin had been reached." ::= { proElsGeneric 2 } proElsTimestamp OBJECT-TYPE SYNTAX INTEGER { proTSOff(1), proTSSysUpTime(2), proTSTimeOfDay(3) } ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates whether ELS messages should be timestamped and, if yes, the timebase to use. Setting the object to proTSOff(1) disables timestamping. Setting the object to proTSSysUpTime(2) uses the sysUpTime value as the timestamp. Setting the object to proTSTimeOfDay(3) uses the real-time clock value as the timestamp. This object reflects the operational timestamp value currently in use by ELS. A SET of this object immediately affects ELS." ::= { proElsGeneric 3 } proElsAction OBJECT-TYPE SYNTAX INTEGER { other(1), proElsActionClear(2), proElsActionDefault(3) } ACCESS read-write STATUS mandatory DESCRIPTION "A read of this object always returns the value other(1). Setting the object to elsActionClear(2) clears all ELS configuration. Specifically, this clears all ELS related sram records. This action is the same as entering the command at the ELS config menu in the gateway console. Setting the object to proElsActionDefault(3) turns off logging of ELS events to both the console and SNMP traps for all configured subsystems. Note that it only affects subsystem configuration and not individual event or group configuration. A SET of this object affects the configuration values defined for ELS, but not the current operational parameters. Therefore, these changes will only become active when the configuration is updated." ::= { proElsGeneric 4 } -- -- The IBM Nways family of products only send traps -- in the "new" format, noted as proElsTrapVersionV2(2) -- below. -- proElsTrapVersion OBJECT-TYPE SYNTAX INTEGER { proElsTrapVersionV1(1), -- No longer supported proElsTrapVersionV2(2) -- Default } ACCESS read-write STATUS mandatory DESCRIPTION "The format of the ELS trap has been changed so that the trap info is more useful to a majority of net managers. It now contains the fully constructed ELS message text, as opposed to the values that are presented in the text. See the ELS enterprise specific trap definition for more information." ::= { proElsGeneric 5 } -- -- ELS Subsystem group -- -- This group describes and controls each ELS configured subsystem. -- proElsSubSysTable OBJECT-TYPE SYNTAX SEQUENCE OF ProElsSubSysTableEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The ELS sub-system table." ::= { proEls 2 } proElsSubSysTableEntry OBJECT-TYPE SYNTAX ProElsSubSysTableEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry corresponding to a specific subsystem." INDEX { proElsSubSysIndex } ::= { proElsSubSysTable 1 } ProElsSubSysTableEntry ::= SEQUENCE { proElsSubSysIndex INTEGER, proElsSubSysDescr DisplayString, proElsSubSysNumEvents INTEGER, proElsSubSysDisplayEnable ProElsMsgLogLevel, proElsSubSysDisplayDisable ProElsMsgLogLevel, proElsSubSysTrapEnable ProElsMsgLogLevel, proElsSubSysTrapDisable ProElsMsgLogLevel, proElsSubSysCurrDisplayLevel INTEGER, proElsSubSysCurrTrapLevel INTEGER } proElsSubSysIndex OBJECT-TYPE SYNTAX INTEGER { proElsSubSysIndexGw(1), -- GW proElsSubSysIndexFlt(2), -- FLT proElsSubSysIndexBrs(3), -- BRS proElsSubSysIndexArp(5), -- ARP proElsSubSysIndexIp(10), -- IP proElsSubSysIndexIcmp(11), -- ICMP proElsSubSysIndexTcp(12), -- TCP proElsSubSysIndexUdp(13), -- UDP proElsSubSysIndexBtp(14), -- BTP proElsSubSysIndexRip(15), -- RIP proElsSubSysIndexSpf(17), -- OSPF proElsSubSysIndexMspf(18), -- MSPF proElsSubSysIndexTftp(19), -- TFTP proElsSubSysIndexSnmp(21), -- SNMP proElsSubSysIndexDvm(22), -- DVM proElsSubSysIndexDn(25), -- DN proElsSubSysIndexXn(30), -- XN proElsSubSysIndexIpx(35), -- IPX proElsSubSysIndexIso(40), -- ISO proElsSubSysIndexEsis(41), -- ESIS proElsSubSysIndexIsis(42), -- ISIS proElsSubSysIndexDnav(43), -- DNAV proElsSubSysIndexAp2(53), -- AP2 proElsSubSysIndexZip2(54), -- ZIP2 proElsSubSysIndexR2mp(56), -- R2MP proElsSubSysIndexVin(60), -- VIN proElsSubSysIndexSrt(72), -- SRT proElsSubSysIndexStp(73), -- STP proElsSubSysIndexBr(74), -- BR proElsSubSysIndexSrly(75), -- SRLY proElsSubSysIndexEth(81), -- ETH proElsSubSysIndexSl(83), -- SL proElsSubSysIndexTkr(84), -- TKR proElsSubSysIndexX25(85), -- X25 proElsSubSysIndexFddi(88), -- FDDI proElsSubSysIndexSdlc(90), -- SDLC proElsSubSysIndexFr(92), -- FR proElsSubSysIndexPpp(95), -- PPP proElsSubSysIndexX251(96), -- X251 proElsSubSysIndexX252(97), -- X252 proElsSubSysIndexX253(98), -- X253 proElsSubSysIndexIsdn(99), -- ISDN proElsSubSysIndexIppn(100), -- IPPN proElsSubSysIndexWrs(101), -- WRS proElsSubSysIndexLnm(102), -- LNM proElsSubSysIndexLlc(103), -- LLC proElsSubSysIndexBgp(104), -- BGP proElsSubSysIndexMcf(105), -- MCF proElsSubSysIndexDls(107), -- DLS proElsSubSysIndexV25b(108), -- V25B proElsSubSysIndexEzstrt(109), -- EZSTRT proElsSubSysIndexAi(110), -- AI proElsSubSysIndexBan(111), -- BAN proElsSubSysIndexEnv(112), -- ENV proElsSubSysIndexCmp(113), -- CMP proElsSubSysIndexNbs(114), -- NBS proElsSubSysIndexAtm(115), -- ATM proElsSubSysIndexLec(116), -- LEC proElsSubSysIndexAppn(117), -- APPN proElsSubSysIndexIlmi(119), -- ILMI proElsSubSysIndexSaal(120), -- SAAL proElsSubSysIndexSvc(121), -- SVC proElsSubSysIndexLes(123), -- LES proElsSubSysIndexLecs(124), -- LECS proElsSubSysIndexEvlog(126), -- EVLOG proElsSubSysIndexNot(127), -- NOT proElsSubSysIndexMars(128), -- MARS proElsSubSysIndexMcs(129), -- MCS proElsSubSysIndexIlec(130), -- ILEC proElsSubSysIndexNhrp(131), -- NHRP proElsSubSysIndexXtp(132), -- XTP proElsSubSysIndexEsc(133), -- ESCON proElsSubSysIndexBbcm(134), -- BBCM proElsSubSysIndexLcs(135), -- LCS proElsSubSysIndexLsa(136), -- LSA proElsSubSysIndexMpc(137), -- MPC proElsSubSysIndexRsvp(138), -- RSVP proElsSubSysIndexVcrm(139), -- VCRM proElsSubSysIndexScsp(140), -- SCSP proElsSubSysIndexAllc(141), -- ALLC proElsSubSysIndexNdr(142), -- NDR proElsSubSysIndexV34(143), -- V34 proElsSubSysIndexDout(144), -- DIALOUT proElsSubSysIndexMlp(145), -- MLP proElsSubSysIndexDhcp(146), -- DHCP proElsSubSysIndexSec(147), -- SEC proElsSubSysIndexEncr(148), -- ENC proElsSubSysIndexPm(149), -- PM proElsSubSysIndexVlan(150), -- VLAN proElsSubSysIndexDgw(151), -- DGW proElsSubSysIndexQllc(152), -- QLLC proElsSubSysIndexAris(153), -- ARIS proElsSubSysIndexGsmp(154) -- GSMP } ACCESS read-only STATUS mandatory DESCRIPTION "This object is used to identify a specific subsystem." ::= { proElsSubSysTableEntry 1 } proElsSubSysDescr OBJECT-TYPE SYNTAX DisplayString (SIZE (0..16)) ACCESS read-only STATUS mandatory DESCRIPTION "This is a textual string indicating the name of the subsystem." ::= { proElsSubSysTableEntry 2 } proElsSubSysNumEvents OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of events defined for this subsystem." ::= { proElsSubSysTableEntry 3 } proElsSubSysDisplayEnable OBJECT-TYPE SYNTAX ProElsMsgLogLevel ACCESS read-write STATUS mandatory DESCRIPTION "A read of this object always returns the value other(1). To check the current value, use the proElsSubSysCurrDisplayLevel variable. A SET of this object to one of the other enumerated values has the effect of enabling ELS events of the specified level to the console. For 2210 platform, this SET changes the configuration parameters and also immediately affects the operational parameters in use by ELS. For other platforms, this SET only affects the configuration parameters and not the current operational parameters in use by ELS. So in order for these changes to take effect, the configuration must be updated." ::= { proElsSubSysTableEntry 4 } proElsSubSysDisplayDisable OBJECT-TYPE SYNTAX ProElsMsgLogLevel ACCESS read-write STATUS mandatory DESCRIPTION "A read of this object always returns the value other(1). To check the current value, use the proElsSubSysCurrDisplayLevel variable. A SET of this object to one of the other enumerated values has the effect of disabling ELS events of the specified level to the console. For 2210 platform, this SET changes the configuration parameters and also immediately affects the operational parameters in use by ELS. For other platforms, this SET only affects the configuration parameters and not the current operational parameters in use by ELS. So in order for these changes to take effect, the configuration must be updated." ::= { proElsSubSysTableEntry 5 } proElsSubSysTrapEnable OBJECT-TYPE SYNTAX ProElsMsgLogLevel ACCESS read-write STATUS mandatory DESCRIPTION "A read of this object always returns the value other(1). To check the current value, use the proElsSubSysCurrTrapLevel variable. A SET of this object to one of the other enumerated values has the effect of enabling ELS events of the specified level to be sent via an SNMP trap. For 2210 platform, this SET changes the configuration parameters and also immediately affects the operational parameters in use by ELS. For other platforms, this SET only affects the configuration parameters and not the current operational parameters in use by ELS. So in order for these changes to take effect, the configuration must be updated." ::= { proElsSubSysTableEntry 6 } proElsSubSysTrapDisable OBJECT-TYPE SYNTAX ProElsMsgLogLevel ACCESS read-write STATUS mandatory DESCRIPTION "A read of this object always returns the value other(1). To check the current value, use the proElsSubSysCurrTrapLevel variable. A SET of this object to one of the other enumerated values has the effect of disabling ELS events of the specified level to be sent via an SNMP trap. For 2210 platform, this SET changes the configuration parameters and also immediately affects the operational parameters in use by ELS. For other platforms, this SET only affects the configuration parameters and not the current operational parameters in use by ELS. So in order for these changes to take effect, the configuration must be updated." ::= { proElsSubSysTableEntry 7 } proElsSubSysCurrDisplayLevel OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The current event log levels that are enabled for display to console. This information reflects the configuration values not the current operational parameters in use by ELS. The value represents a bit string having a bit defined for each of the values defined in the ProElsMsgLogLevel textual convention (excluding the other(1) value, which is not relevant here.) The bit string is interpretted as follows: Bit 15 Bit 1 .............................................. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .............................................. 1 1 1 1 1 1 1 9 8 7 6 5 4 3 2 <== proElsMsgLogLevel 6 5 4 3 2 1 0 value For example: proMsgLevelUIError(2), bit 1 proMsgLevelCIError(3), bit 2 etc. Note also that the levels: proMsgLevelError proMsgLevelInfo proMsgLevelTrace proMsgLevelStandard proMsgLevelAll are aggregates of other logging levels. So, for example, turning on proMsgLogLevelError(6) will turn on (set the bits) for all sub-levels in this category (i.e values 2,3,4 and 5). Although this MIB variable can take on many values based on what combination of levels is enabled, the following represents the values of this MIB variable assuming just the given level is enabled: Level Set Value ========= ===== proMsgLevelUIError(2) 1 proMsgLevelCIError(3) 2 proMsgLevelUEError(4) 4 proMsgLevelCEError(5) 8 proMsgLevelError(6) 15 proMsgLevelUInfo(7) 16 proMsgLevelCInfo(8) 32 proMsgLevelInfo(9) 48 proMsgLevelPTrace(10) 256 proMsgLevelUTrace(11) 512 proMsgLevelCTrace(12) 1024 proMsgLevelTrace(13) 1792 proMsgLevelAlways(14) 32768 proMsgLevelStandard(15) 31 proMsgLevelAll(16) 61439 No level set 0 A value of 0 means no ELS logging is enabled." ::= { proElsSubSysTableEntry 8 } proElsSubSysCurrTrapLevel OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The current event log levels that are enabled for sending via SNMP trap. This information reflects the configuration values not the current operational parameters in use by ELS. The value represents a bit string having a bit defined for each of the values defined in the ProElsMsgLogLevel textual convention (excluding the other(1) value, which is not relevant here.) The bit string is interpretted as follows: Bit 15 Bit 1 .............................................. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .............................................. 1 1 1 1 1 1 1 9 8 7 6 5 4 3 2 <== proElsMsgLogLevel 6 5 4 3 2 1 0 value For example: proMsgLevelUIError(2), bit 1 proMsgLevelCIError(3), bit 2 etc. Note also that the levels: proMsgLevelError proMsgLevelInfo proMsgLevelTrace proMsgLevelStandard proMsgLevelAll are aggregates of other logging levels. So, for example, turning on proMsgLogLevelError(6) will turn on (set the bits) for all sub-levels in this category (i.e values 2,3,4 and 5). Although this MIB variable can take on many values based on what combination of levels is enabled, the following represents the values of this MIB variable assuming just the given level is enabled: Level Set Value ========= ===== proMsgLevelUIError(2) 1 proMsgLevelCIError(3) 2 proMsgLevelUEError(4) 4 proMsgLevelCEError(5) 8 proMsgLevelError(6) 15 proMsgLevelUInfo(7) 16 proMsgLevelCInfo(8) 32 proMsgLevelInfo(9) 48 proMsgLevelPTrace(10) 256 proMsgLevelUTrace(11) 512 proMsgLevelCTrace(12) 1024 proMsgLevelTrace(13) 1792 proMsgLevelAlways(14) 32768 proMsgLevelStandard(15) 31 proMsgLevelAll(16) 61439 No level set 0 A value of 0 means no ELS logging is enabled." ::= { proElsSubSysTableEntry 9 } -- -- ELS Subsystem Events group -- -- This group describes and controls each event for each configured subsystem. -- proElsSubSysEventTable OBJECT-TYPE SYNTAX SEQUENCE OF ProElsSubSysEventTableEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The ELS Sub system event table." ::= { proEls 3 } proElsSubSysEventTableEntry OBJECT-TYPE SYNTAX ProElsSubSysEventTableEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry corresponding to a specific event in the particular subsystem." INDEX { proElsSubSysIndex, proElsSubSysEventIndex } ::= { proElsSubSysEventTable 1 } ProElsSubSysEventTableEntry ::= SEQUENCE { proElsSubSysEventIndex INTEGER, proElsSubSysEventMsg DisplayString, proElsSubSysEventCount INTEGER, proElsSubSysEventLogLevel ProElsMsgLogLevel, proElsSubSysEventLogToConsole ProElsLogStatus, proElsSubSysEventLogToTrap ProElsLogStatus } proElsSubSysEventIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The identifier of the event message for a given subsystem." ::= { proElsSubSysEventTableEntry 1 } proElsSubSysEventMsg OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The unformatted textual description for the message. It provides the message text related to this event and indiates where specific information will be filled in when the message is displayed on the console or sent in an SNMP trap. For example, the text for the IP.008 event is: no rte %I -> %I dsc When sent in an SNMP trap, the variable binding of the trap has this text with the specific IP addresses fillled in. The format of this string is one of the two following formats: If ELS timestamping is enabled: hr:min:sec subsys_name.event_num: message_text For example - 09:32:56 IP.008: no rte 9.7.1.8 -> 9.7.4.3 dsc If ELS timestamping is disabled: subsys_name.event_num: message_text For example - IP.008: no rte 9.7.1.8 -> 9.7.4.3 dsc" ::= { proElsSubSysEventTableEntry 2 } proElsSubSysEventCount OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of times this event has occurred. This number will increment even if the event is not enabled to be displayed on the console or sent in an SNMP trap." ::= { proElsSubSysEventTableEntry 3 } proElsSubSysEventLogLevel OBJECT-TYPE SYNTAX ProElsMsgLogLevel ACCESS read-only STATUS mandatory DESCRIPTION "The pre-defined setting that classifies this message." ::= { proElsSubSysEventTableEntry 4 } proElsSubSysEventLogToConsole OBJECT-TYPE SYNTAX ProElsLogStatus ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates whether this event should be logged to the console. For 2210 platform, this SET changes the configuration parameters and also immediately affects the operational parameters in use by ELS. For other platforms, this SET only affects the configuration parameters and not the current operational parameters in use by ELS. So in order for these changes to take effect, the configuration must be updated." ::= { proElsSubSysEventTableEntry 5 } proElsSubSysEventLogToTrap OBJECT-TYPE SYNTAX ProElsLogStatus ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates whether this event should be sent as an SNMP trap. For 2210 platform, this SET changes the configuration parameters and also immediately affects the operational parameters in use by ELS. For other platforms, this SET only affects the configuration parameters and not the current operational parameters in use by ELS. So in order for these changes to take effect, the configuration must be updated." ::= { proElsSubSysEventTableEntry 6 } -- Traps -- ELS Trap -- -- The following trap is generated when an ELS event occurs -- and the corresponding event is enabled for trap generation. -- -- The following two trap definitions are used only by Proteon -- products, because the ENTERPRISE field is proteon. -- The IBM Nways family of products provide an ELS trap -- definition in their associated product specific MIBs. The -- format is the same as that defined in proElsTrapV2, except -- that the ENTERPRISE field identifies the specific product. -- See the associated product specific MIB for more details. -- proElsTrapV1 TRAP-TYPE ENTERPRISE proteon -- actually sysObjectID VARIABLES { proElsTrapSeqs, proElsTrapSubSystem, proElsTrapEvent } DESCRIPTION "An ELS trap event." ::= 1 proElsTrapV2 TRAP-TYPE ENTERPRISE proteon -- actually sysObjectID VARIABLES { proElsSubSysEventMsg } DESCRIPTION "An ELS trap event. proElsSubSysEventMsg provides a textual description of the event." ::= 2 --- Proteon Temperature Group --- --- The Temperature Group is optional. This group will be made --- available only on those routers that have thermometer capability. --- This group will not be exported on routers that do not have --- thermometer support. -- -- Currently, this temperature group is only supported by the new -- model 2210 hardware, at release V1R3 or later. -- proTempScale OBJECT-TYPE SYNTAX INTEGER { celsius(1), fahrenheit(2) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates the scale used when reporting temperature values. If Celsius(1), all temperature values are in degrees Celsius. If Fahrenheit(2), all temperature values are in degrees Fahrenheit." ::= {proTemp 1} proMaxHwTemp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the maximum temperature that the thermometer system can record. This attribute is used as an upper bound for all temperature ranges." ::= {proTemp 2} proMinHwTemp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the minimum temperature that the thermometer system can record. This attribute is used as a lower bound for all temperature ranges." ::= {proTemp 3} proTempPollPeriod OBJECT-TYPE SYNTAX INTEGER( 10..600 ) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute determines how often the thermometer system will recalculate the current temperature and any temperature range checks. This value represents time in seconds between temperature recalculations." DEFVAL {60} ::= {proTemp 4} proCurrentTemp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The current ambient temperature of the system. This value is recalculated by the system once per proTempPollPeriod." ::= { proTemp 5} proLowTempThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The temperature that will cause a Low Temperature Condition to become true. The Low Temperature Condition will become true when: proCurrentTemp <= proLowTempThreshold. The low temperature condition will reset when: proCurrentTemp > (proLowTempThreshold + proTempHysteresis). This range is checked one per proTempPollPeriod." ::= {proTemp 6} proHighTempThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The temperature that will cause a High Temperature Condition to become true. The High Temperature Condition will become true when: proCurrentTemp >= proHighTempThreshold. The high temperature condition will reset when: proCurrentTemp < (proHighTempThreshold - proTempHysteresis). This range is checked one per proTempPollPeriod." ::= {proTemp 7} proTempHysteresis OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of degrees that the current ambient temperature must drop below proHighTempThreshold or above proLowTempTheshold before the threshold's condition is deactivated." DEFVAL {5} ::= {proTemp 8} proHighTempCondition OBJECT-TYPE SYNTAX INTEGER { off(1), on(2) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates whether a High Temperature Condition is active. This attribute will be set ON(2) if a High Temperature Condition is active." ::= {proTemp 9} proLowTempCondition OBJECT-TYPE SYNTAX INTEGER { off(1), on(2) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates whether a Low Temperature Condition is active. This attribute will be set ON(2) if a Low Temperature Condition is active." ::= {proTemp 10} proHighestTemp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This is the highest temperature recorded by the router since last reset." ::= {proTemp 11} proHighTempTime OBJECT-TYPE SYNTAX TimeTicks ACCESS read-only STATUS mandatory DESCRIPTION "This is the time (in hundreds of seconds) that has elapsed since proHighestTemp was last recorded." ::= {proTemp 12} proLowestTemp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This is the lowest temperature recorded by the router since last reset." ::= {proTemp 13} proLowTempTime OBJECT-TYPE SYNTAX TimeTicks ACCESS read-only STATUS mandatory DESCRIPTION "This is the time (in hundreds of seconds) that has elapsed since proLowestTemp was last recorded." ::= {proTemp 14} -- Config groups proCfgLoad OBJECT IDENTIFIER ::= { proConfig 1 } --- Proteon Load Configuration Group --- --- This group describes the contents of the particular load --- the router is running. This information can be used to --- determine which subsystems are able to be configured. -- -- Currently, this config load group is only supported by the -- 2210. -- proCfgProtocols OBJECT-TYPE SYNTAX DisplayString (SIZE(0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "This object returns an ASCII string containing the short names of all protocol types supported in the current load." ::= { proCfgLoad 1 } proCfgDatalinks OBJECT-TYPE SYNTAX DisplayString (SIZE(0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "This object returns an ASCII string containing the short names of all datalink/MAC types supported in the current load." ::= { proCfgLoad 2 } proCfgFeatures OBJECT-TYPE SYNTAX DisplayString (SIZE(0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "This object returns an ASCII string containing the short names of all router features supported in the current load." ::= { proCfgLoad 3 } END