Compute Blade Built-in LAN Switch Module Software Manual. MIB Reference. Ver and Ver and 11.6 compatible BSLANSW-S006X-50 HITACHI

Transcription

1 Compute Blade Built-in L Switch Module Software Manual MIB Reference Ver and Ver and 11.6 compatible BSLSW-S006X-50 HITCHI

2 pplicable product This manual describes model Compute Blade Built in L Switch Module. It also describes Built in L Switch Module software Ver and Ver.10.7 and 11.6 functions. Software functions supported by software OS-L3 and OS-L3S is also described The BladeSymphony server name has been changed to Hitachi Compute Blade. If you are using BladeSymphony based server products, substitute references to Hitachi Compute Blade with BladeSymphony. This manual describes as substitution product code GV-BE2LSW1X1-Y for GV-BE2LSW1XR-Y and GV-BE2LSW2X1-Y for GV-BE2LSW2XR-Y. If you use OS-L3S, please add the prefix of 0/ to the interface number of gigabitethernet to be specified by some commands Caution when exporting The necessary procedures are to be adopted when exporting this product after first confirming the regulations of the Foreign Exchange and Foreign Trade Law, U.S. export control related regulations, etc. If any questions remains, please consult with our sales department. Trademarks Cisco is a registered trademark of U.S. Cisco Systems, Inc. in the U.S. and other countries. Ethernet is a product name of the Xerox Corp. IPX is a trademark of ovell,inc. Microsoft is a registered trademark of the Microsoft Corp. in the U.S. and other countries. Octpower is a trademark of EC Corporation. UIX is a registered trademark in the U.S. and other countries exclusively licensed by X/Open Company Limited. Windows is a registered trademark of the Microsoft Corp. in the U.S. and other countries. Other company names and product names are trademarks or registered trademarks of their respective companies. Thoroughly read and store this manual Read and thoroughly understand safety-related explanations before using this product. Keep this manual in a location close at hand for easy reference. ote The contents of this manual may be modified at any time for improvement without notice. Issue date Jan (8th edition) BSLSW-S006X-50 Copyright Copyright (c) Hitachi, Ltd ll rights reserved.

3 Summary of amendments 8th edition 8th edition Integrated the description of all switch model. Location Changes 1 Summary of Supported MIBs Some objests related to ax3650s are added to 1.1 MIB System Diagram. MIB list in 2 Standard MIBs (RFC-compliant and IETF Draft MIBs) is corrected. 3 Private MIBs MIB list in 3 Private MIBs is corrected. 4 Supported MIB Traps 4.4 Supported Trap-PDU Parameters[CB 2000][OS-L3S] is added. In addition to the above changes, minor editorial corrections have been made. 7th edition ddtion of some product code. 6th edition The BladeSymphony server name has been changed to Hitachi Compute Blade. 5th edition o Change 4th edition Location Changes 4 Supported MIB Traps The model name was named to the head of the trap name. Example axstrap -> ax3630strap axstrap -> ax3640strap The following is the neme before the change. axsxrpstatetransitiontrap axsgsrpstatetransitiontrap axsl2ldlinkdown axsl2ldlinkup axsl2ldloopdetection axsbroadcaststormdetecttrap axsmulticaststormdetecttrap axsunicaststormdetecttrap axsbroadcaststormportinactivatetrap axsmulticaststormportinactivatetrap axsunicaststormportinactivatetrap axsbroadcaststormrecovertrap axsmulticaststormrecovertrap axsunicaststormrecovertrap axsefmoamudldportinactivatetrap axsefmoamloopdetectportinactivatetrap In addition to the above changes, minor editorial corrections have been made.

4 [Ver. 10.7] Location Changes qbridgemib Group The following were implemented. dot1qtpfdbtable dot1qtpfdbentry dot1qtpfdbddress dot1qtpfdbport dot1qtpfdbstatus 3.7 axsl2ldmib Group (L2 Loop Detection Information MIB) This section was added. 4.1 Supported Trap and Issue Timing Description of traps concerning the newly supported L2 loop detection function is added. In "Table 4-1: Supported Trap and Issue Timing", [Implementation] is deleted from "o. 40 ax3630sirfanstoptrap" and "o. 40 ax3630sirfanstoptrap". 4.2 Supported Trap-PDU Parameters[CB 320] Description of traps concerning the newly supported L2 loop detection function is added. [Ver ] Location Changes 1.1 MIB System Diagram pim MIB (61) was added. 1.2 MIB List pim MIB group was added pimmib Group (IPv4 PIM MIB) This section was added interfaces Group (for Ethernet) ifdminstatus CCESS was changed from to R/W axsxrpmib Group (Ring Protocol Information) 3.14 ax3630sswitch Group (System Model Information MIB)[CB 320] 3.15 ax3630sdevice Group (System Chassis Information MIB)[CB 320] This section was added. 10Gbps L switch module was added to the model information on the system device of the ax3630s Switch group. 10Gbps L switch module was added to the case type of case information on the ax3630s Device group sflow Group (InMon Private MIB) This section was added. 4.1 Supported Trap and Issue Timing axsefmoamudldportinactivatetrap and axsefmoamloopdetectportinactivatetrap were added. The mounting existence of pethpseportonoffotification was changed from having to nothing. The mounting existence of pethmainpowerusageonotification was changed from having to nothing. The mounting existence of pethmainpowerusageoffotification was changed from having to nothing. 4.2 Supported Trap-PDU Parameters[CB 320] axsefmoamudldportinactivatetrap and axsefmoamloopdetectportinactivatetrap were added. In addition to the above changes, minor editorial corrections have been made. [Ver ] Unreleased

5 [Ver. 10.5] Unreleased [Ver. 10.4] Unreleased [Ver. 10.3] Unreleased [Ver. 10.2] o Change

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7 Introduction Introduction Intended products and software versions This manual describes models Compute Blade Built-in L Switch Module. It also describes the functions of Compute Blade Built-in L Switch Module s software Ver and 10.7 and Software functions supported by software OS-L3 and OS-L3S is also described. Please read the manual carefully and thoroughly understand the instructions and cautions contained herein before operating the device. Keep the manual in a location close at hand for easy reference when necessary. common function to all models is described in this manual as long as it doesn't refuse especially. When use Compute Blade 2000 and 500, please read the description of Compute Blade 320 to Compute Blade 2000 or 500. peculiar function to Compute Blade 2000 and 500 or either Compute Blade 320 is shown respectively by the following marks. [CB 2000]: It is a function that supports it by the model of Compute Blade 2000 and 500. It is a function not to support in the model of Compute Blade 320 or a description that doesn't correspond. [CB 320]: It is a function that supports it by the model of Compute Blade 320. It is a function not to support in the model of Compute Blade 2000 and 500, or a description that doesn't correspond. [OS-L3]: It is a function that supports it by OS-L3 for Compute Blade 320, 2000 and 500 L switch module. [OS-L3S]: It is a function that supports it by OS-L3S for Compute Blade 500 1Gbps(40 port) L switch module. Correction of this manual Contents in this manual may be corrected in the "Release note" and "Manual correction document" provided with software. Intended users pplicable users are system managers who develop and operate network systems using this system. In addition, an understanding of the following is assumed. Basic knowledge of network system management Sequence of manual perusal Manuals to be referenced according to the flow of tasks from installation and setup to daily operations are indicated below. I

8 Introduction Conventions: abbreviations C CK DSL LG SI RP S UX BGP lternating Current CKnowledge symmetric Digital Subscriber Line pplication Level Gateway merican ational Standards Institute ddress Resolution Protocol utonomous System uxiliary Border Gateway Protocol II

9 Introduction BGP4 Border Gateway Protocol - version 4 BGP4+ Multiprotocol Extensions for Border Gateway Protocol - version 4 bit/s bits per second, usually abbreviated as bps. BPDU Bridge Protocol Data Unit BRI Basic Rate Interface CDP Cisco Discovery Protocol CIDR Classless Inter-Domain Routing CIR Committed Information Rate CIST Common and Internal Spanning Tree CLP ConnectionLess etwork Protocol CLS ConnectionLess etwork System COS Connection Oriented etwork System CRC Cyclic Redundancy Check CSM/CD Carrier Sense Multiple ccess with Collision Detection CSP Complete Sequence umbers PDU CST Common Spanning Tree D Destination ddress DC Direct Current DCE Data Circuit terminating Equipment DHCP Dynamic Host Configuration Protocol DIS Draft International Standard/Designated Intermediate System DS Domain ame System DR Designated Router DSP Destination Service ccess Point DSCP Differentiated Services Code Point DTE Data Terminal Equipment DVMRP Distance Vector Multicast Routing Protocol Electronic Mail EP Extensible uthentication Protocol EPOL EP Over L EFM Ethernet in the First Mile ES End System F Fan Unit FCS Frame Check Sequence FDB Filtering DataBase FTTH Fiber To The Home GBIC GigaBit Interface Converter GSRP Gigabit Switch Redundancy Protocol HMC Keyed-Hashing for Message uthentication I Internet ssigned umbers uthority ICMP Internet Control Message Protocol ICMPv6 Internet Control Message Protocol version 6 ID Identifier IEC International Electrotechnical Commission IEEE Institute of Electrical and Electronics Engineers, Inc. IETF the Internet Engineering Task Force IGMP Internet Group Management Protocol IP Internet Protocol IPCP IP Control Protocol IPv4 Internet Protocol version 4 IPv6 Internet Protocol version 6 IPV6CP IP Version 6 Control Protocol IPX Internetwork Packet Exchange ISO International Organization for Standardization ISP Internet Service Provider IST Internal Spanning Tree L Local rea etwork LCP Link Control Protocol LED Light Emitting Diode LLC Logical Link Control LLDP Link Layer Discovery Protocol LLQ+3WFQ Low Latency Queueing + 3 Weighted Fair Queueing LSP Label Switched Path LSP Link State PDU LSR Label Switched Router MC Media ccess Control MC Memory Card MD5 Message Digest 5 MDI Medium Dependent Interface MDI-X Medium Dependent Interface crossover MIB Management Information Base MRU Maximum Receive Unit MSTI Multiple Spanning Tree Instance MSTP Multiple Spanning Tree Protocol III

10 Introduction MTU K S T CP DP ET L ID PDU SP SS TP ODP OM OSPF OUI PD PE PC PCI PDU PICS PID PIM PIM-DM PIM-SM PIM-SSM PoE PRI PS PSP QoS R RDIUS RDI REJ RFC RIP RIPng RMO RPF RQ RSTP S SD SDH SDU SEL SFD SFP SMTP SP SMP SP SP SPF SSP STP T TCCS+ TCP/IP TL ID TLV TOS TPID TTL UDLD UDP UPC UPC-RED V VL VRRP W Maximum Transfer Unit ot cknowledge etwork ccess Server etwork ddress Translation etwork Control Protocol eighbor Discovery Protocol etwork Entity Title ext-level ggregation Identifier etwork Protocol Data Unit etwork Service ccess Point ot So Stubby rea etwork Time Protocol Octpower uto Discovery Protocol Operations,dministration,and Maintenance Open Shortest Path First Organizationally Unique Identifier PDding Port ccess Entity Personal Computer Protocol Control Information Protocol Data Unit Protocol Implementation Conformance Statement Protocol IDentifier Protocol Independent Multicast Protocol Independent Multicast-Dense Mode Protocol Independent Multicast-Sparse Mode Protocol Independent Multicast-Source Specific Multicast Power over Ethernet Primary Rate Interface Power Supply Partial Sequence umbers PDU Quality of Service Router dvertisement Remote uthentication Dial In User Service Remote Defect Indication REJect Request For Comments Routing Information Protocol Routing Information Protocol next generation Remote etwork Monitoring MIB Reverse Path Forwarding ReQuest Rapid Spanning Tree Protocol Source ddress Secure Digital Synchronous Digital Hierarchy Service Data Unit SP SELector Start Frame Delimiter Small Form factor Pluggable Simple Mail Transfer Protocol Sub-etwork ccess Protocol Simple etwork Management Protocol Sequence umbers PDU Sub network Point of ttachment Shortest Path First Source Service ccess Point Spanning Tree Protocol Terminal dapter Terminal ccess Controller ccess Control System Plus Transmission Control Protocol/Internet Protocol Top-Level ggregation Identifier Type, Length, and Value Type Of Service Tag Protocol Identifier Time To Live Uni-Directional Link Detection User Datagram Protocol Usage Parameter Control Usage Parameter Control - Random Early Detection VL ccess gent Virtual L Virtual Router Redundancy Protocol Wide rea etwork IV

11 Introduction WDM WFQ WRED WS WWW XFP Wavelength Division Multiplexing Weighted Fair Queueing Weighted Random Early Detection Work Station World-Wide Web 10 gigabit small Form factor Pluggable Conventions: kb, MB, GB, and TB 1kB (kilobytes), 1MB (megabytes), 1GB (gigabytes) and 1TB (terabytes) indicate 1024 bytes, bytes, bytes and bytes, respectively. V

12 Introduction VI

13 Contents 1 Summary of Supported MIBs MIB System Diagram MIB List Method for cquiring the Private MIB Definition File MIB Description Format 12 2 Standard MIBs (RFC-compliant and IETF Draft MIBs) system Group (MIB-II) interfaces Group (MIB-II) interfaces Group (for Ethernet) interfaces Group (Other Cases) at Group (MIB-II) ip Group (MIB-II and IP Forward Table MIB) ip ipddrtable iproutetable ipettomediatable ipforward icmp Group (MIB-II) tcp Group (MIB-II and TCP MIB for IPv6) tcp ipv6tcpconntable udp Group (MIB-II and UDP MIB for IPv6) udp ipv6udptable dot3 Group (Ethernet Like MIB) snmp Group (MIB-II) ospf Group (OSPFv2 MIB) ospfgeneralgroup ospfreatable ospfstubreatable ospflsdbtable ospfrearangetable ospfhosttable ospfiftable ospfifmetrictable ospfvirtiftable ospfbrtable ospfvirtbrtable ospfextlsdbtable 52 i

14 Contents ospfreaggregatetable ospftrap bgp Group (BGP4 MIB) bgp bgppeertable bgp4pathttrtable rmon Group (Remote etwork Monitoring MIB) Ethernet Statistics Group History Control Group Ethernet History Group larm Group Event Group dot1dbridge Group dot1dbase Group dot1dstp Group dot1dtp Group pbridgemib Group qbridgemib Group ifmib Group (Interfaces Group MIB) ifmib (for Ethernet) ipv6mib Group (IPv6 MIB) ipv6mib ipv6iftable ipv6ifstatstable ipv6ddrprefixtable ipv6ddrtable ipv6routetable ipv6ettomediatable ipv6icmpmib Group (ICMPv6 MIB) vrrpmib Group vrrpoperations Group vrrpstatistics Group powerethernetmib Group (Power Ethernet MIB) pimmib Group (IPv4 PIM MIB) pimjoinpruneinterval piminterfacetable pimeighbortable ospfv3mib Group (OSPFv3 MIB) ospfv3generalgroup ospfv3reatable ospfv3slsdbtable ospfv3realsdbtable ospfv3linklsdbtable ospfv3iftable 111 ii

15 Contents ospfv3virtiftable ospfv3brtable ospfv3virtbrtable ospfv3reaggregatetable IEEE8023-LG-MIB Group dot3adgg Group dot3adggport Group dot3adtableslastchanged Group X MIB Group snmpmodules Group snmpframeworkmib Group (SMP FRMEWORK MIB) snmpmpdmib Group (SMP MPD MIB) snmptargetmib Group (SMP TRGET MIB) snmpotificationmib Group (SMP OTIFICTIO MIB) snmpproxymib Group (SMP PROXY MIB) snmpusmmib Group (SMP USER BSED SM MIB) snmpvacmmib Group (SMP VIEW BSED CM MIB) snmpcommunitymib Group (SMP COMMUITY MIB) Private MIBs axsstats Group (Statistics Information MIBs) axsifstats Group axsqos Group axsdhcp Group axsgsrpmib Group (GSRP Group Information) axsgsrpgrouptable Group axsgsrpvlangrouptable Group axsgsrpeighborgrouptable Group axsgsrpeighborvlangrouptable Group axsfdb Group (MC ddress Table Group MIB) axsvlan Group (VL Information MIB) axsvlanbridge Group (dot1dbase Information) axsvlantagtranslation Group (Tag Translation Information MIB) axsoadp Group (ODP Information MIB) axsoadpglobalinfo Group axsoadpportinfo Group axsoadpeighborinfo Group axsflow Group (FLOW Information MIB) axsccessfilterstats Group axsqosflowstats Group axsl2ldmib Group (L2 Loop Detection Information MIB) axsl2ldglobalinfo Group axsl2ldporttable Group 173 iii

16 Contents 3.8 axsospfmib Group (Multi-backbone OSPF Information MIB) axsospfgeneraltable axsospfreatable axsospfstubreatable axsospflsdbtable axsospfrearangetable axsospfiftable axsospfifmetrictable axsospfvirtiftable axsospfbrtable axsospfvirtbrtable axsospfextlsdbtable axsospfreaggregatetable axsospftrap axsospfv3mib Group (Multi-backbone OSPFv3 Information MIB) axsospfv3generaltable axsospfv3reatable axsospfv3slsdbtable axsospfv3realsdbtable axsospfv3linklsdbtable axsospfv3iftable axsospfv3virtiftable axsospfv3brtable axsospfv3virtbrtable axsospfv3reaggregatetable axsbootmanagement Group (System Booting Information MIB) axslogin Group (Login Information MIB) axslldp Group (LLDP Information MIB) axslldpconfiguration Group axslldpstats Group axslldplocalsystemdata Group axslldpremotesystemdata Group axslldpremoteorigininfodata Group axsxrpmib Group (Ring Protocol Information) axsxrpgrouptable Group axsxrpvlangrouptable Group ax3630sswitch Group (System Model Information MIB)[CB 320] ax3630sdevice Group (System Chassis Information MIB)[CB 320] Implementation Specifications (Chassis Information) of Group Implementation Specifications (Temperature Information) of ax3630schassis Group Implementation Specifications (Power Unit Information) of ax3630schassis Group Implementation Specifications (Fan Information) of ax3630schassis Group Implementation Specifications (External Power Unit Information) of ax3630schassis Group 223 iv

17 Contents Implementation Specifications (Built-in Power Supply Redundancy Module Information) of ax3630schassis Group Implementation Specifications (Interface Information) of ax3630sphysline Group ax3630smanagementmib Group (Changing System Status/Information)[CB 320] ax3630sfdbclearmib Group (MC ddress Table Clear MIB) ax3640sswitch Group (System Model Information MIB)[CB 2000] ax3640sdevice Group (System Chassis Information MIB)[CB 2000] Implementation Specifications (ax3640s Chassis Information) of Group Implementation Specifications (Temperature Information) of ax3640schassis Group Implementation Specifications (Power Unit Information) of ax3640schassis Group Implementation Specifications (Fan Information) of ax3640schassis Group Implementation Specifications (External Power Unit Information) of ax3640schassis Group Implementation Specifications (Built-in Power Supply Redundancy Module Information) of ax3640schassis Group Implementation Specifications (Interface Information) of ax3640sphysline Group ax3640smanagementmib Group (Changing System Status/Information)[CB 2000] ax3640sfdbclearmib Group (MC ddress Table Clear MIB) ax3650sswitch Group (System Model Information MIB)[CB 2000][OS-L3S] ax3650sdevice Group (System Chassis Information MIB)[CB 2000][OS-L3S] Implementation Specifications (ax3650s Chassis Information) of Group Implementation Specifications (Temperature Information) of ax3650schassis Group Implementation Specifications (Power Unit Information) of ax3650schassis Group Implementation Specifications (Fan Information) of ax3650schassis Group Implementation Specifications (Built-in Power Supply Redundancy Module Information) of ax3650schassis Group Implementation Specifications (Interface Information) of ax3650sphysline Group ax3650smanagementmib Group (Changing System Status/Information)[CB 2000][OS-L3S] ax3650sfdbclearmib Group (MC ddress Table Clear MIB) icmp Group (HP Private MIB) sflow Group (InMon Private MIB) Supported MIB Traps Supported Trap and Issue Timing Supported Trap-PDU Parameters[CB 320] Supported Trap-PDU Parameters[CB 2000] Supported Trap-PDU Parameters[CB 2000][OS-L3S] 284 ppendix 297 ppendix Private MIB ames and Object IDs 298 ppendix.1 Private MIB 298 ppendix.2 HP Private MIB 322 ppendix.3 InMon Private MIB 323 v

18 Contents Index 325 vi

19 1 Summary of Supported MIBs 1.1 MIB System Diagram 1.2 MIB List 1.3 Method for cquiring the Private MIB Definition File 1.4 MIB Description Format 1

20 1. Summary of Supported MIBs 1.1 MIB System Diagram The system diagram of MIBs supported by this system is given in (1/2) and (2/2). Figure 1-1: MIB System Diagram (1/2) 2

21 1. Summary of Supported MIBs Figure 1-2: MIB System Diagram (2/2) 3

22 1. Summary of Supported MIBs 1.2 MIB List Supported MIBs are shown in the table below. Table 1-1: MIB Group List MIB Group Function Support Standard MIBs system group MIB of information related to system. Y interfaces group MIB of information related to interface. Y at group MIB of information related to the RP table. Y ip group ip MIB of IP information. Y ipddrtable MIB of addressing table information related to IP addresses. Y iproutetable MIB of information related to IP routing tables. Y ipettomediatable MIB of information related to IP address conversion tables. Y ipforward MIB of information related to IP forwarding tables. Y icmp group MIB of ICMP information. Y tcp group tcp MIB of TCP information. Y ipv6tcpconntable MIB of TCP information related to IPv6. Y udp group udp MIB of UDP information. Y ipv6udptable MIB of UDP information related to IPv6. Y dot3 group MIB of information relating to Ethernet-like interface. Y snmp group MIB of SMP information. Y 4

23 1. Summary of Supported MIBs MIB Group Function Support Standard MIBs ospf group ospfgeneralgroup MIB of OSPF information. Y ospfreatable MIB of the table storing information related to the areas to which the router is connected. Y ospfstubreatable ospflsdbtable ospfrearangetable ospfhosttable ospfiftable ospfifmetrictable ospfvirtiftable ospfbrtable ospfvirtbrtable ospfextlsdbtable ospfreaggregatetable MIB of information advertised within the stub areas by area border router. MIB of the table storing information related to OSPF process's link state database (LSDB). MIB of the table related to information of the range of addresses in areas to which the router is connected. MIB information of hosts and metrics advertised by the router as host route. MIB of the table storing information of each interface to which the router is connected. MIB of the table storing information related to service-types metrics of each interface. MIB of the table storing information related to virtual interfaces to which the router is connected. MIB of the table storing information related to neighboring offices that are not virtual. MIB of the table storing virtual neighboring router information. MIB related to the OSPF process's link state database (LSDB) table. MIB of IP address tables designating IP addresses and IP subnet masks as pairs. Y Y Y Y Y Y Y Y Y Y ospftrap MIB related to trap. Y bgp group bgp MIB of BGP information. Y bgppeertable MIB related to bgp peer tables. Y bgppathttrtable MIB related to path information received from BGP4. Y rmon group Ethernet Statistics Group MIB of the table related to statistics information of Ethernet interfaces. Y History Control Group Ethernet History Group MIB of the history control table of Ethernet statistics information. MIB of the history table of Ethernet statistics information. Y Y larm Group MIB of information related to alarm tables. Y Host Group MIB of information related to Host groups. Host Top"" MIB of information related to HostTop tables. Matrix MIB of information related to Matrix groups. Filter MIB of information related to Filter groups. Packet Capture MIB of information related to PacketCapture groups. Event Group MIB of the table of events generated by RMO agent. Y 5

24 1. Summary of Supported MIBs MIB Group Function Support Standard MIBs dot1dbridge group dot1dbase group Bridge information. Y dot1dstp group Spanning tree protocol information. Y dot1dtp group Bridge forwarding information. Y dot1dstatic group Filtering information. pbridgemib group Priority control and multicast filtering information. Y qbridgemib group Virtual bridge information. Y ifmib group MIB related to interface extension information. Y ipv6mib group ipv6mib ipv6 general group MIB related to IPv6 interface information. Y ipv6iftable MIB of the table of network layer interfaces (V6). Y ipv6ifstatstable MIB related to IPv6 interface traffic statistics information. Y ipv6ddrprefixtable MIB of the table of IPv6 interface address prefixes. Y ipv6ddrtable MIB related to the interface address table. Y ipv6routetable MIB related to the IPv6 routing table. Y ipv6ettomediatable MIB related to the IPv6 address conversion table. Y ipv6icmpmib group MIB related to IPv6 ICMP. Y vrrpmib group vrrpoperations group MIB related to VRRP router configuration and control information. Y vrrpstatistics group MIB related to VRRP packet statistics information. Y vrrpotifications group MIB of information related to VRRP traps sent from VRRP routers. powerethernetmib group[cb320] pethpseporobjects group MIB related to power supply characteristics of the port on the power supply unit Y pethmainpseobjects group MIB related to attributes of the main power unit on the power supply unit Y pethotificationcontrol group MIB related to notification information of the power supply unit Y pimmib group pimjoinpruneinterval MIB relating to a PIM-SM Join/Prune message interval Y piminterfacetable MIB related to PIM interface table information Y pimeighbortable MIB related to PIM neighbor table information Y pimipmroutetable MIB related to PIM routing table information pimrptable MIB related to an RP information table for PIM version 1 pimrpsettable MIB related to an RP candidate information table pimipmrouteexthoptabl e pimcandidaterptable pimcomponenttable MIB related to PIM routing ext Hop table information MIB related to group information that will be advertised when it is an RP candidate MIB related to table information of a component that identifies a PIM domain 6

25 1. Summary of Supported MIBs MIB Group Function Support Standard MIBs ospfv3mib group ospfv3generalgroup MIB of OSPFv3 information. Y ospfv3reatable MIB of the table storing information related to the areas to which the router is connected. Y ospfv3slsdbtable ospfv3realsdbtable ospfv3linklsdbtable ospfv3iftable ospfv3virtiftable ospfv3brtable ospfv3virtbrtable ospfv3reaggregatetable MIB of the table related to information of the OSPFv3 S Scope link state database. MIB of the table storing information related to OSPFv3 reascope link state database. MIB of the table related to information of the OSPFv3 LinkScope link state database. MIB of the table storing information related to interfaces to which the router is connected. MIB of the table storing information related to virtual link interfaces to which the router is connected. MIB of the table storing information of neighboring offices that are not virtual. MIB of the table storing virtual neighboring router information. MIB of the IPv6 Prefix table designating Prefix and Prefix length as a pair. Y Y Y Y Y Y Y Y IEEE8023-LG-MIB group dot3adgg group Information related to the ggregator. Y dot3adggport group Link ggregation Control information related to all ggregation Ports. Y 802.1X MIB group MIB related to 802.1X. Y snmpmodules group snmpframeworkmib group MIB relating to SMP framework Y snmpmpdmib group MIB relating to SMP message and dispatcher Y snmptargetmib group MIB relating to SMP destination information Y snmpotificationmib group MIB relating to SMP notification information Y snmpproxymib group MIB relating to SMP proxy snmpusmmib group MIB relating to SMP user-based security model Y snmpvacmmib group snmpcommunitymib group MIB relating to SMP view-based access control model MIB relating to coexistence of SMPv1, v2c, and v3 Y Private MIB axsstats group axsifstats group MIB of interface statistics in mega units. Y axsqos group MIB related to QoS statistics information. Y axsdhcp group MIB of statistics information on DHCP server. Y axsgsrpmib group axsgsrpgrouptable group MIB of the table storing GSRP group information. Y axsgsrpvlangrouptable group axsgsrpeighborgrouptab le group axsgsrpeighborvlangrou ptable group MIB of the table storing GSRP VL group information. Table storing GSRP information of remote system. MIB of the table storing GSRP VL group information of remote system. Y Y Y axsfdb group axsfdbcountertable MIB of the information table on the number of learned MC address tables. Y 7

26 1. Summary of Supported MIBs MIB Group Function Support Private MIB axsvlan group axsvlanbridge group MIB related to Bridge-MIB for each VL. Y axsvlantagtranslation group MIB of the information table on Tag conversion function. Y axsoadp group axsoadpglobalinfo group MIB related to active status of the ODP function. Y axsoadpportinfo group MIB related to ODP port information. Y axsoadpeighborinfo group MIB related to ODP neighboring node. Y axsflow group axsccessfilterstats group MIB related to the packet count table information matching the flow detection condition/operation information set in the access list Y axsqosflowstats group MIB related to the packet count table information matching the flow detection condition/operation information set in the QoS flow list Y axsospfmib group axsospfgeneraltable MIB of the table storing OSPF information. Y axsospfdomainreatable axsospfstubreatable axsospflsdbtable axsospfrearangetable axsospfiftable axsospfifmetrictable axsospfvirtiftable axsospfbrtable axsospfvirtbrtable axsospfextlsdbtable axsospfreaggregatetabl e MIB of the table storing information related to the areas to which the router is connected. MIB of the table related to information advertised in the stub area by area border routers. MIB of the table storing information related to OSPF process's link state database (LSDB). MIB of the table related to information of the range of addresses in areas to which the router is connected. MIB of the table storing information of each interface to which the router is connected. MIB of the table storing information related to service-types metrics of each interface. MIB of the table storing information related to virtual interfaces to which the router is connected. MIB of the table storing information related to neighboring offices that are not virtual. MIB of the table storing virtual neighboring router information. MIB of the table related to OSPF process's link state database (LSDB). MIB of the table of IP addresses designating IP addresses and IP subnet masks as pairs. Y Y Y Y Y Y Y Y Y Y Y axsospftrap MIB related to trap. Y 8

27 1. Summary of Supported MIBs MIB Group Function Support Private MIB axsospfv3 group axsospfv3generaltable MIB of OSPFv3 information. Y axsospfv3reatable MIB of the table storing information related to the areas to which the router is connected. Y axsospfv3slsdbtable axsospfv3realsdbtable axsospfv3linklsdbtable axsospfv3iftable axsospfv3virtiftable axsospfv3brtable axsospfv3virtbrtable axsospfv3reaggregatet able MIB of the table related to information of the OSPFv3 S Scope link state database. MIB of the table storing information related to OSPFv3 reascope link state database. MIB of the table related to information of the OSPFv3 LinkScope link state database. MIB of the list storing information related to the interfaces to which the router is connected. MIB of the table storing information related to virtual interfaces to which the router is connected. MIB of the table storing information related to neighboring offices that are not virtual. MIB of the table storing virtual neighboring router information. MIB of the table of IPv6 Prefixes designating Prefix and Prefix length as a pair. Y Y Y Y Y Y Y Y axsbootmanagement group MIB related to booting of the system. Y axslogin group MIB related to login. Y axslldp group axslldpconfiguration group MIB of LLDP configuration Y axslldpstats group MIB of statistics information of LLDP. Y axslldplocalsystemdata group axslldpremotesystemdata group axslldpremoteorigininfod ata group MIB of LLDP information on this system. MIB of LLDP information on the neighbor system connected with this system. MIB of laxala original LLDP TLV information. Y Y Y 9

28 1. Summary of Supported MIBs MIB Group Function Support Private MIB axsxrpmib group axsxrpgrouptable group MIB related to Ring Protocol group information. Y axsxrpvlangrouptable group MIB related to Ring Protocol VL group information. Y ax3630sswitch group MIB of model information of system. Y ax3630sdevice ax3630schassis group MIB of chassis information of system. Y ax3630sphysline group MIB of system interface information Y ax3630smanagement ax3630sfdbclearmib group MIB for clearing MC address table information. Y ax3640sswitch group MIB of model information of system. Y ax3640sdevice ax3640schassis group MIB of chassis information of system. Y ax3640sphysline group MIB of system interface information Y ax3640smanagement ax3640sfdbclearmib group MIB for clearing MC address table information. Y ax3650sswitch group MIB of switch model information Y ax3650sdevice ax3650schassis group MIB of switch chassis information Y ax3650sphysline group MIB of switch interface information Y ax3650smanagement ax3650sfdbclearmib group MIB for clearing MC address table information Y icmp group (HP private MIB) Private MIB for HP Y sflow group (InMon private MIB) Private MIB for InMon Corp. Y icmp group (HP private MIB) Private MIB of the HP company. Y sflow group (InMon private MIB) Private MIB of the InMon company. Y (Legend) Y: Supported by this system. : ot supported by this system. 10

29 1. Summary of Supported MIBs 1.3 Method for cquiring the Private MIB Definition File Private MIB definition file (S.1) is provided with software. 11

30 1. Summary of Supported MIBs 1.4 MIB Description Format The following is an explanation of the description format of supported MIBs described in this manual. Identifier and implementation specifications by group are given for each MIB. Identifier This is the officially recognized description format of object identifiers. (Example) The description formats of identifier and object ID values of private MIB axsstats group are shown below. Identifier axsstats OBJECT IDETIFIER ::= {axsmib 1} Object ID value For details of object ID value of private MIB, see "ppendix Private MIB ames and Object IDs". Implementation specifications The table gives an explanation of the implementation specification of each MIB. The table items are explained, using the implementation specification of axsstats group as an example. Examples of the implementation specifications of the axsstats group are shown in the table below. Table 1-2: Implementation Specifications of axsstats Group o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsifstatstable {axsifstats 1} OT-CCES SIBLE Extended statistics information table of interface. 2 axsifstatsentry {axsifstatstable 1} OT-CCES SIBLE Entry of extended statistics information table of interface. IDEX {axsifstatsindex} 3 axsifstatsindex {axsifstatsentry 1} OT-CCES SIBLE Interface index of this system. Same as ifindex. : : : : : : : : : : : : : : : : : : Object Identifier Shows the name of the MIB object identifier. SYTX The meaning of SYTX used in private MIBs is indicated below. SYTX is only explained with private MIB implementation specifications. Table 1-3: Meaning of SYTX Used in Private MIBs o. SYTX Explanation of SYTX 1 Counter Integer which increases to (2 32-1) and returns to 0 again. 2 Counter32 Integer which increases to (2 32-1) and returns to 0 again. 3 Counter64 Integer which increases to (2 64-1) and returns to 0 again. 4 DisplayString Character string from 0 to 255 characters (each byte is a VT SCII value). 5 Gauge Integer of 0 or greater that can be increased or decreased ( ). 6 ITEGER Indicates integer information in the range of ( ). 7 Integer32 Indicates integer information in the range of ( ). 8 OCTET STRIG 0 or more character strings (in units of eight bits). Each byte is

31 1. Summary of Supported MIBs o. SYTX Explanation of SYTX 9 Ipddress 4-byte OCTET STRIG (stores 32-bit IP addresses). 10 Ipv6ddress 16-byte OCTET STRIG (stores 128-bit IPv6 addresses). 11 OBJECT IDETIFIER Stores fixed order list of sub-identifiers. 12 Macddress 802MC address represented in the regular order defined by IEEE802.1a. OCTET STRIG type. 13 RowStatus SYTX type that controls the generation or deletion of conceptual row entries. 14 TimeStamp Time stamp that measures the time from a given event in 1/100 second units. 15 TimeTicks Positive integer which represents the time from a given event in 1/100 seconds. 16 BITS amed bit string which represents 0 or more character strings (in units of eight bits) with 1 assigned to the corresponding bit. amed bit 0 corresponds to the highest bit, and the logical OR of each named bit is returned with GetResponse. Example) If named bits 0 and 6 are valid, the value returned with GetResponse will be 0x OT-CCESSIBLE Cannot be accessed. 18 PortList Bit map of a port. 1 is assigned to the bit corresponding to an effective port. In this system, 1 is assigned to the bit corresponding to the ifindex number of a port. 19 VlanIndex Indicates index number ( ) of VL. 20 VlanIdOrZero Indicates index number ( ) of VL. 21 SnmpdminString Character string that contains management information. DisplayString type. 22 InetddressType Type of Internet address 23 Inetddress Internet address. OCTET STRIG type. 24 OwnerString Character string from 0 up to 127. Represents the name of the owner of the resource allocated for management. DisplayString type. 25 BridgeId Bridge identifier used in a spanning tree. OCTET STRIG type. 26 Timeout STP timer in 1/100 second units 27 TruthValue Truth-value 28 InterfaceIndex ifindex number managed by the system. Integer within the range of (2 31-1) 29 Unsigned32 Integer-valued information within the range of (2 32-1) ccess : Shows that MIB access on the standard document is Read_Only. R/W: Shows that MIB access on the standard document is Read_Write. : Shows that MIB access on the standard document is Read_Write, but is Read_Only in this system. : Indicates that the MIB access in a specification document is accessible-for-notify. n Object cannot be acquired and set, but it can be read as the variable of a trap. : Shows that MIB access on the standard document is not-accessible. Implementation Specifications [Standard]: Describes the standard outline of the standard document. [Implementation]: Describes the implementation specifications in this system. Implemented : Shows MIB supported (responded) by this system. However, if the access column has "", no response to MIB is made. lso note that those responding differ depending on the function used. B: MIB supported (responded) by this system, but shows MIB that responds with a fixed value since this system cannot count with a statistical counter. 13

32 1. Summary of Supported MIBs : Shows MIB not supported (responded) by this system. 14

33 2 Standard MIBs (RFC-compliant and IETF Draft MIBs) This chapter gives an explanation of the implementation specifications of standard MIBs used in this system. 2.1 system Group (MIB-II) 2.2 interfaces Group (MIB-II) 2.3 at Group (MIB-II) 2.4 ip Group (MIB-II and IP Forward Table MIB) 2.5 icmp Group (MIB-II) 2.6 tcp Group (MIB-II and TCP MIB for IPv6) 2.7 udp Group (MIB-II and UDP MIB for IPv6) 2.8 dot3 Group (Ethernet Like MIB) 2.9 snmp Group (MIB-II) 2.10 ospf Group (OSPFv2 MIB) 2.11 bgp Group (BGP4 MIB) 2.12 rmon Group (Remote etwork Monitoring MIB) 2.13 dot1dbridge Group 2.14 ifmib Group (Interfaces Group MIB) 2.15 ipv6mib Group (IPv6 MIB) 2.16 ipv6icmpmib Group (ICMPv6 MIB) 2.17 vrrpmib Group 2.18 powerethernetmib Group (Power Ethernet MIB) 2.19 pimmib Group (IPv4 PIM MIB) 2.20 ospfv3mib Group (OSPFv3 MIB) 2.21 IEEE8023-LG-MIB Group X MIB Group 15

34 snmpmodules Group

35 2.1 system Group (MIB-II) 2.1 system Group (MIB-II) (1) Identifier system OBJECT IDETIFIER ::= {mib-2 1} Object ID value (2) Implementation specifications The table below shows the implementation specifications of system group. Table 2-1: Implementation Specifications of system Group o. Object Identifier ccess Implementation Specifications Implemented 1 sysdescr {system 1} [Standard] ame or version number of hardware, OS, and network OS. [Installation] Character string that contains company name, system type name, system model, software name, software type name, software version, and software abbreviation. (Example) X3600S "laxala X3600S X-xxxx-xx [X36xxS-xx] Switching Software Ver [OS-xx]" X-xxxx-xx: System type name X36xxS-xx: System model Switching Software: Software name Ver. 10.4: Software version OS-xx: Software abbreviation 2 sysobjectid {system 2} [Standard] uthorized ID of network management subsystem vendor. [Installation] Fixed value. Compute Blade 2000(X3640S) Compute Blade 320(X3630S) sysuptime {system 3} [Standard] Cumulative time after system starts (10ms counter). [Implementation] Cumulative time after the system is started 4 syscontact {system 4} R/W [Standard] Contact destination related to control node. [Implementation] Character string (60 characters or less) set by the user using the configuration command. Default: none (ULL). 5 sysame {system 5} R/W [Standard] ame of control node and domain name of control node. [Implementation] Character string (60 characters or less) set by the user using the configuration command. Default: none (ULL). 6 syslocation {system 6} R/W [Standard] Installation location of control node. [Implementation] Character string (60 characters or less) set by the user using the configuration command. Default: none (ULL). 7 sysservices {system 7} [Standard] Value that shows services. [Implementation] 78 fixed. 17

36 2.2 interfaces Group (MIB-II) 2.2 interfaces Group (MIB-II) interfaces Group (for Ethernet) The following is an explanation of the interfaces group listed below. 10BSE-T/100BSE-TX/1000BSE-T SERDES 10GBSE-R (1) Identifier interfaces OBJECT IDETIFIER ::= {mib-2 2} Object ID value (2) Implementation specifications The table below shows the implementation specifications of interfaces group for Ethernet. Table 2-2: Implementation Specifications of interfaces Group (with Ethernet) o. Object Identifier ccess Implementation Specifications Implemented 1 ifumber {interfaces 1} [Standard] The number of network interfaces installed in this system. The value of this object changes if the interface configuration is changed. 2 iftable {interfaces 2} [Standard] Table of Interface entity. 3 ifentry {iftable 1} [Standard] List of interface information belonging to sub-network layer. IDEX { ifindex } 4 ifindex {ifentry 1} [Standard] umber for identifying this interface. Continuous values ranging from 1 to ifumber. The value of this object changes if the interface configuration is changed. 5 ifdescr {ifentry 2} [Standard] Interface information. [Implementation] Fixed character sequence by each interface type. 6 iftype {ifentry 3} [Standard] Type of interface. [Implementation] Dependent on the interface. For ifindex of port: Ethernet-csmacd (6) For ifindex of VL: l2vlan (135) For ifindex of link aggregation: ieee8023adlag (161) 7 ifmtu {ifentry 4} [Standard] Maximum datagram size which is available for sending/receiving in this interface (octet). [Implementation] Dependent on the interface. For ifindex of port: Same as standard. For ifindex of VL: Minimum value among the Ethernet interface MTU value, system MTU information, and IP MTU information (only if it is set) belonging to the VL For ifindex of link aggregation: Same as VL information. 8 ifspeed {ifentry 5} [Standard] The current line speed of this interface (bit/s). [Implementation] Dependent on the interface. For ifindex of port: If configuration command "bandwidth" is not set, line speed of the interface is displayed. If it is set, the set value is displayed. For ifindex of VL: 0 fixed. For ifindex of link aggregation: Port at the highest line speed among the ports belonging to a channel group 18

37 2.2 interfaces Group (MIB-II) o. Object Identifier ccess Implementation Specifications Implemented 9 ifphysddress {ifentry 6} [Standard] Interface physical address under network layer. [Implementation] Dependent on the interface. For ifindex of port: Responded with the MC address represented by a canonical value. For ifindex of VL: Responds with a value that is a canonical expression of MC address assigned to the VL. For ifindex of link aggregation: Responds with a value that is a canonically expressed MC address of the channel group. 10 ifdminstatus {ifentry 7} R/W [Standard] Desired interface state. up (1) down (2), testing (3) [Implementation] Dependent on the interface. For ifindex of port: down (2) when shutdown is specified in the configuration. For ifindex of VL: down (2) when VL suspend is specified in the configuration. For ifindex of link aggregation: down (2) when shutdown of the channel group is specified in the configuration. 11 ifoperstatus {ifentry 8} [Standard] Current state of this interface. up (1) down (2), testing (3) [Implementation] Dependent on the interface. For ifindex of port: Same as standard. In the case of VL: Same as standard. In the case of link aggregation: Same as standard. 12 iflastchange {ifentry 9} [Standard] sysuptime when ifoperstatus of this interface was changed last (unit: 1/100 sec). [Implementation] Dependent on the interface. For ifindex of port: Same as standard. For ifindex of VL: Same as standard. For ifindex of link aggregation: Same as standard. 13 ifinoctets {ifentry 10} [Standard] umber of octets received on this interface including the bad packets. [Implementation] Dependent on the interface. For ifindex of port, the number of received octets in the frame length from D field to FCS field of MC header, including the bad packets. For ifindex of VL: 0 fixed. For ifindex of link aggregation, the number of received octets in the frame length from D field to FCS field of MC header, including the bad packets. 14 ifinucastpkts {ifentry 11} [Standard] umber of unicast packets notified to the upper layer protocol. [Implementation] Dependent on the interface. For ifindex of port: Same as standard. For ifindex of VL: 0 fixed. For ifindex of link aggregation: Same as standard. 15 ifinucastpkts {ifentry 12} [Standard] The number of non-unicast packets (broadcast, multicast packet) posted to upper layer protocol. [Implementation] Dependent on the interface. For ifindex of port: Same as standard. For ifindex of VL: 0 fixed. For ifindex of link aggregation: Same as standard. 19

38 2.2 interfaces Group (MIB-II) o. Object Identifier ccess Implementation Specifications Implemented 16 ifindiscards {ifentry 13} [Standard] The number of packets that do not have errors, but could not be handed to upper layer protocol (the number of received packets discarded for not having buffer, or for other reasons). [Implementation] Dependent on the interface. For ifindex of port: umber of events discarded due to receiving FIFO Overflow. For ifindex of VL: 0 fixed. For ifindex of link aggregation: umber of events discarded due to receiving FIFO Overflow. 17 ifinerrors {ifentry 14} [Standard] The number of packets discarded for containing errors. [Implementation] Dependent on the interface. For ifindex of port: The number of packets discarded for errors such as FCS error, short packet, exceeding maximum packet length, colliding packet, illegal packet format, and fractional bit, etc. For ifindex of VL: 0 fixed. For ifindex of link aggregation: The number of packets discarded for errors such as FCS error, short packet, exceeding maximum packet length, colliding packet, illegal packet format, and fractional bit, etc. 18 ifinunknownpro tos {ifentry 15} [Standard] The number of discarded packets that are received with unsupported protocol. [Implementation] Fixed to ifoutoctets {ifentry 16} [Standard] The number of packet octets sent by this system. [Implementation] Dependent on the interface. For ifindex of port: The number of sent octets in frame length from the D field of MC header to FCS. For ifindex of VL: 0 fixed. For ifindex of link aggregation: The number of sent octets in frame length from the D field of MC header to FCS. 20 ifoutucastpkts {ifentry 17} [Standard] umber of unicast packets transmitted by the upper layer. [Implementation] Dependent on the interface. For ifindex of port: 0 fixed. For ifindex of VL: 0 fixed. For ifindex of link aggregation: 0 fixed. B 21 ifoutucastpkts {ifentry 18} [Standard] The number of non-unicast packets sent by the upper layer. [Implementation] Dependent on the interface. For ifindex of port: The number of normal non-unicast packets sent by the upper layer (I/G bit of MC D='1' number of packets. MC packet is excluded. SMT is included). For ifindex of VL: 0 fixed. For ifindex of link aggregation: The number of normal non-unicast packets sent by the upper layer (I/G bit of MC D='1' number of packets. MC packet is excluded. SMT is included). 22 ifoutdiscards {ifentry 19} [Standard] The number of packets that do not have errors, but are discarded by the sending process (not enough send buffers, etc.). [Implementation] Dependent on the interface. For ifindex of port: umber of events discarded due to a transmitting FIFO Overflow (underrun). For ifindex of VL: 0 fixed. For ifindex of link aggregation: umber of events discarded due to a transmitting FIFO overflow (underrun). 23 ifouterrors {ifentry 20} [Standard] The number of packets that could not be sent because of errors. [Implementation] Dependent on the interface. For ifindex of port: 0 fixed. For ifindex of VL: 0 fixed. For ifindex of link aggregation: 0 fixed. 20

39 2.2 interfaces Group (MIB-II) o. Object Identifier ccess Implementation Specifications Implemented 24 ifoutqlen {ifentry 21} [Standard] Size of sending packet queue. [Implementation] Dependent on the interface. For ifindex of port: Same as standard. For ifindex of VL: 0 fixed. For ifindex of link aggregation: The total size of outgoing packet queue sizes of the ports belonging to the channel group. 25 ifspecific {ifentry 22} [Standard] Reference to MIB that defines the media characteristics of the interface. MIB Object ID depending on iftype. [Implementation] Dependent on the interface. For ifindex of port: Replies is replied when not normal. For ifindex of VL: 0.0 fixed. For ifindex of link aggregation: 0.0 fixed interfaces Group (Other Cases) The interfaces group for local loopback is explained below. (1) Identifier interfaces OBJECT IDETIFIER ::= {mib-2 2} Object ID value (2) Implementation specifications The Implementation specifications of the interfaces group in the case of local loopback are shown below. Table 2-3: Implementation Specifications of interfaces Group (Other Cases) o. Object Identifier ccess Implementation Specifications Implemented 1 ifumber {interfaces 1} [Standard] The number of network interfaces installed in this system. The value of this object changes if the interface configuration is changed. 2 iftable {interfaces 2} [Standard] Table of Interface entity. 3 ifentry {iftable 1} [Standard] List of interface information belonging to sub-network layer. IDEX { ifindex } 4 ifindex {ifentry 1} [Standard] umber for identifying this interface. Continuous values ranging from 1 to ifumber. The value of this object changes if the interface configuration is changed. 5 ifdescr {ifentry 2} [Standard] Interface information. [Implementation] Fixed character sequence by each interface type. 6 iftype {ifentry 3} [Standard] Type of interface. management port: CSM-CD(6) Local loopback: softwareloopback (24) 7 ifmtu {ifentry 4} [Standard] Maximum length of sending/receiving packet. [Implementation] Dependent on the interface. management port: Same as standard. Local loopback: fixed. 8 ifspeed {ifentry 5} [Standard] Estimate of current line speed of this interface (in bit(s)). [Implementation] Dependent on the interface. management port: Same as standard. Local loopback: 0 fixed. 21

40 2.2 interfaces Group (MIB-II) o. Object Identifier ccess Implementation Specifications Implemented 9 ifphysddress {ifentry 6} [Standard] Interface physical address under network layer. [Implementation] Dependent on the interface. management port: MC address represented by a canonical value. Local loopback: o value. 10 ifdminstatus {ifentry 7} [Standard] Desired interface state. up (1) down (2) testing (3) [Implementation] Dependent on the interface. It is Read_Only. management port: Default is up(1). down (2) when shutdown is specified in the configuration. Local loopback: up (1) fixed. 11 ifoperstatus {ifentry 8} [Standard] Current state of this interface. up (1) down (2) testing (3) [Implementation] Dependent on the interface. management port: up (1) or down (2) Local loopback: up (1) fixed. 12 iflastchange {ifentry 9} [Standard] sysuptime when ifoperstatus of this interface was changed last (unit: 1/100 sec). [Implementation] Dependent on the interface. management port: Same as standard. Local loopback: Same as standard. 13 ifinoctets {ifentry 10} [Standard] umber of octets received by this interface. [Implementation] Dependent on the interface. management port: The number of received octets in frame length from the D field of MC header to FCS. Local loopback: The total number of octets received in IP packet. 14 ifinucastpkts {ifentry 11} [Standard] umber of unicast packets notified to the upper layer protocol. [Implementation] Dependent on the interface. management port: The number of unicast packet posted to upper layer protocol. Local loopback: The number of unicast packet posted to upper layer protocol in IP packet. 15 ifinucastpkts {ifentry 12} [Standard] The number of non-unicast packets (broadcast, multicast packet) posted to upper layer protocol. [Implementation] Dependent on the interface. management port: The number of broadcast or multicast packets posted to upper layer protocol. Local loopback: The number of broadcast or multicast packets posted to upper layer protocol in IP packet. 16 ifindiscards {ifentry 13} [Standard] The number of packets that do not have errors, but could not be handed to upper layer protocol (the number of received packets discarded for not having buffer, or for other reasons). [Implementation] Dependent on the interface. management port: Discarded packets are counted. Local loopback: Discarded packets are counted. 17 ifinerrors {ifentry 14} [Standard] The number of packets discarded for containing errors. [Implementation] Dependent on the interface. management port: The number of packets discarded for errors such as FCS error, short packet, exceeding maximum packet length, colliding packet, illegal packet format, and fractional bit, etc. Local loopback: 0 fixed. 22

41 2.2 interfaces Group (MIB-II) o. Object Identifier ccess Implementation Specifications Implemented 18 ifinunknownprotos {ifentry 15} [Standard] The number of packets discarded after receiving packet with unsupported protocol. [Implementation] Dependent on the interface. management port: umber of discarded packets other than IP packets Local loopback: umber of discarded packets other than IP packets 19 ifoutoctets {ifentry 16} [Standard] The number of packet octets sent by this system. [Implementation] Dependent on the interface. management port: The number of sent octets in frame length from the D field of MC header to FCS. Local loopback: The total number of octets sent in IP packet. 20 ifoutucastpkts {ifentry 17} [Standard] umber of unicast packets transmitted by the upper layer. [Implementation] Dependent on the interface. management port: I/G bit of MC D='0' number of packets. Local loopback: The number of unicast packets sent by upper layer in IP packets. 21 ifoutucastpkts {ifentry 18} [Standard] The number of non-unicast packets sent by the upper layer. [Implementation] Dependent on the interface. management port: I/G bit of MC D='1' number of packets. Local loopback: The number of non-unicast packets sent by upper layer in IP packets. 22 ifoutdiscards {ifentry 19} [Standard] The number of packets that do not have errors, but are discarded by the sending process (not enough send buffers, etc.). [Implementation] Dependent on the interface. management port: Discarded packets are counted. Local loopback: Discarded packets are counted. 23 ifouterorr {ifentry 20} [Standard] The number of packets that could not be sent because of errors. [Implementation] Dependent on the interface. management port: umber of packets by which Underrun and byte count did mismatch, excessive collision, excessive delay or transmission time-out. Local loopback: 0 fixed. 24 ifoutqlen {ifentry 21} [Standard] Size of sending packet queue. [Implementation] Dependent on the interface. management port: umber of packets stacked in the sending waiting queue Local loopback: umber of packets stacked in the sending waiting queue 25 ifspecific {ifentry 22} [Standard] Reference to MIB that defines the media characteristics of the interface. MIB Object ID depending on iftype. [Implementation] Dependent on the interface. management port: 0.0 fixed. Local loopback: 0.0 fixed. 23

42 2.3 at Group (MIB-II) 2.3 at Group (MIB-II) (1) Identifier at OBJECT IDETIFIER ::= {mib-2 3} Object ID value (2) Implementation specifications The table below shows the implementation specifications of at group. Table 2-4: Implementation Specifications of at Group o. Object Identifier ccess Implementation Specifications Implemented 1 attable {at 1} [Standard] ddress conversion table is the table of etwork ddress corresponding to "Physical" address corresponding value. Some interfaces do not use conversion table to decide address corresponding value. In this case, the address conversion table is empty and the number of entries is zero. Corresponding relationship between network address and physical address is indicated. 2 atentry {attable 1} [Standard] Each entry is listed relative to one network address corresponding to the "Physical" address corresponding value. IDEX { atifindex, atetddress } 3 atifindex {atentry 1} [Standard] ifindex value corresponding interface. [Implementation] ifindex of interface with atphysddress. However, it is Read_Only. 4 atphysddress {atentry 2} [Standard] Physical address. [Implementation] MC address dependent on the media dependent RP table. 5 atetddress {atentry 3} [Standard] IP address corresponding to the media dependent atphysddress. 24

43 2.4 ip Group (MIB-II and IP Forward Table MIB) 2.4 ip Group (MIB-II and IP Forward Table MIB) ip (1) Identifier ip OBJECT IDETIFIER ::= {mib-2 4} Object ID value (2) Implementation specifications The table below shows the implementation specifications of ip group. Table 2-5: Implementation Specifications of ip Group o. Object Identifier ccess Implementation Specifications Implemented 1 ipforwarding {ip 1} [Standard] Whether IP relay function is available (whether functions as gateway). gateway (1) host (2) [Implementation] gateway (1) fixed. However, it is Read_Only. 2 ipdefaultttl {ip 2} [Standard] Default value set in TTL in IP header. However, it is Read_Only. 3 ipinreceives {ip 3} [Standard] Total number of IP datagram received from all interfaces. 0 fixed. B 4 ipinhdrerrors {ip 4} [Standard] umber of received datagram discarded for error of IP header. [Implementation] Counts IP packets such as IP header checksum error, version error, TTL over, abnormal header length, format error, etc. 0 fixed. B 5 ipinddrerrors {ip 5} [Standard] umber of packets discarded due to invalid destination address in IP header. [Implementation] Counts when destination address class is not, B, C, or D. lso counts when broadcast address is invalid ( or ). 6 ipforwdatagrams {ip 6} [Standard] umber of packets judged to need relay. 0 fixed. B 7 ipinunknownprotos {ip 7} [Standard] umber of IP datagram discarded due to protocol that cannot be recognized by own address IP packet received, or unsupported protocol. 8 ipindiscards {ip 8} [Standard] Total number of sent IP datagram discarded for reasons other than errors. [Implementation] umber of packets received when ifoperstatus not up. 9 ipindelivers {ip 9} [Standard] umber of IP datagram for which upper layer notified. [Implementation] umber of receive IP packets at local system address. 10 ipoutrequests {ip 10} [Standard] Total number of IP datagram for which upper layer requested IP packet send. [Implementation] umber of IP packets sent from local system. 11 ipoutdiscards {ip 11} [Standard] umber of IP datagram discarded for reasons other than error. [Implementation] umber of packets discarded due to send buffer shortage or congestion control when IP packets are sent. 0 fixed. B 12 ipoutoroutes {ip 12} [Standard] umber of IP datagram discarded due to unspecified sender. [Implementation] Counts when destination network is not in routing table when packets are relayed. 25

44 2.4 ip Group (MIB-II and IP Forward Table MIB) o. Object Identifier ccess Implementation Specifications Implemented 13 ipreasmtimeout {ip 13} [Standard] Maximum number of hold seconds for fragmented packet awaiting reassembly. 14 ipreasmreqds {ip 14} [Standard] umber of received IP datagram needing reassembly. 15 ipreasmoks {ip 15} [Standard] umber of received IP datagram for which reassembly succeeds. 16 ipreasmfails {ip 16} [Standard] umber of receive IP datagram for which reassembly fails. 17 ipfragoks {ip 17} [Standard] umber of IP datagram for which fragmentation succeeds. 18 ipfragfails {ip 18} [Standard] umber of IP datagram for which fragmentation fails. [Implementation] Counts when fragmentation not possible even though necessary because DF bit of IP header was on. Counts when fragmentation buffer acquisition fails. 19 ipfragcreates {ip 19} [Standard] umber of fragmented IP datagram created as a result of fragmentation ipddrtable (1) Identifier ip OBJECT IDETIFIER ::= {mib-2 4} ipddrtable OBJECT IDETIFIER ::= {ip 20} Object ID value (2) Implementation specifications The table below shows the implementation specifications of ipddrtable group. Table 2-6: Implementation Specifications of ipddrtable Group o. Object Identifier ccess Implementation Specifications Implemented 1 ipddrtable {ip 20} [Standard] Table of addressing information related to IP address of this entity (ddress information table by IP address). 2 ipddrentry {ipddrtable 1} [Standard] ddressing information list for one IP address of this entity. 3 ipdentddr {ipddrentry 1} [Standard] IP address. [Implementation] IP address of port. 4 ipdentifindex {ipddrentry 2} [Standard] Index value of interface applicable to this entry. Same value as ifindex. 5 ipdentetmask {ipddrentry 3} [Standard] Subnet mask related to IP address of this entry. 6 ipdentbcastddr {ipddrentry 4} [Standard] Lowest bit value of address when IP broadcast sent. 7 ipdentreasmmaxsize {ipddrentry 5} [Standard] Size of maximum IP packet which can be reassembled from IP fragmented input IP datagram received by interface. 26

45 2.4 ip Group (MIB-II and IP Forward Table MIB) iproutetable (1) Identifier ip OBJECT IDETIFIER ::= {mib-2 4} iproutetable OBJECT IDETIFIER ::= {ip 21} Object ID value (2) Implementation specifications The table below shows the implementation specifications of iproutetable group. Table 2-7: Implementation Specifications of iproutetable Group o. Object Identifier ccess Implementation Specifications Implemented 1 iproutetable {ip 21} [Standard] IP routing table of this entity. 2 iprouteentry {iproutetable 1} [Standard] Information on route to specific destination. 3 iproutedest {iprouteentry 1} [Standard] Destination IP address of this route. [Implementation] Destination network address in routing table. However, it is Read_Only. 4 iprouteifindex {iprouteentry 2} [Standard] Index value of interface where first hop of this route exists. However, it is Read_Only. There is a route that is not forwarded to the routing table. ipdentifindex of this route is 0. 5 iproutemetric1 {iprouteentry 3} [Standard] Primary routing metric of this route. [Implementation] umber of hops of routing table. However, it is Read_Only. 6 iproutemetric2 {iprouteentry 4} [Standard] lternative routing metric of this route. However, it is Read_Only. 7 iproutemetric3 {iprouteentry 5} [Standard] lternative routing metric of this route. [Implementation] -1 fixed since unused. However, it is Read_Only. 8 iproutemetric4 {iprouteentry 6} [Standard] lternative routing metric of this route. [Implementation] -1 fixed since unused. However, it is Read_Only. 9 iprouteexthop {iprouteentry 7} [Standard] ext hop IP address of this route (Becomes agent address, address on that interface if the route is connected with broadcast media). [Implementation] First hop IP address in routing table. However, it is Read_Only. Routes that do not forward exist in routing table. iprouteexthop of this route is iproutetype {iprouteentry 8} [Standard] Type of route. other (1) invalid (2) direct (3) indirect (4) However, it is Read_Only. 27

46 2.4 ip Group (MIB-II and IP Forward Table MIB) o. Object Identifier ccess Implementation Specifications Implemented 11 iprouteproto {iprouteentry 9} [Standard] Routing configuration that learned route. other (1) local (2) netmgmt (3) icmp (4) egp (5) ggp (6) hello (7) rip (8) is-is (9) es-is (10) ciscoigrp (11) bbnspfigp (12) ospf (13) bgp (14) 12 iproutege {iprouteentry 10} [Standard] Elapsed time after this route was updated (unit: second). However, it is Read_Only. 13 iproutemask {iprouteentry 11} [Standard] Subnet mask value related to iproutedest. However, it is Read_Only. 14 iproutemetric5 {iprouteentry 12} [Standard] lternative routing metric. [Implementation] -1 fixed. However, it is Read_Only. 15 iprouteinfo {iprouteentry 13} [Standard] Reference to MIB which defines specific routing protocol that can be trusted by route. [Implementation] {0.0} fixed ipettomediatable (1) Identifier ip OBJECT IDETIFIER ::= {mib-2 4} ipettomediatable OBJECT IDETIFIER ::= {ip 22} Object ID value (2) Implementation specifications The table below shows the implementation specifications of ipettomediatable group. Table 2-8: Implementation Specifications of ipettomediatable Group o. Object Identifier ccess Implementation Specifications Implemented 1 ipettomediatable {ip 22} [Standard] IP address conversion table used for mapping from IP address to physical address. 2 ipettomediaentry {ipettomediatable 1} [Standard] One IP address list corresponding to physical address. IDEX { ipettomediaifindex, ipettomediaetddress } 3 ipettomediaifindex {ipettomediaentry 1} [Standard] Interface ID number that becomes valid. However, it is Read_Only. 4 ipettomediaphysddress {ipettomediaentry 2} [Standard] Media dependent physical address. However, it is Read_Only. 5 ipettomediaetddress {ipettomediaentry 3} [Standard] IP address corresponding to the media dependent physical address. However, it is Read_Only. 28

47 2.4 ip Group (MIB-II and IP Forward Table MIB) o. Object Identifier ccess Implementation Specifications Implemented 6 ipettomediatype {ipettomediaentry 4} [Standard] Type of mapping. other (1) invalid (2) dynamic (3) static (4) However, it is Read_Only. 7 iproutingdiscards {ip 23} [Standard] umber of routing entries selected for discarding, even if valid. For example, number of entries discarded due to routing table buffer shortage. [Implementation] Fixed to 0. B ipforward The document related to the ipforward group is given below. RFC1354 (1) Identifier ip OBJECT IDETIFIER ::= {mib-2 4} ipforward OBJECT IDETIFIER ::= {ip 24} Object ID value (2) Implementation specifications The table below shows the implementation specifications of ipforward group. Table 2-9: Implementation Specifications of ipforward Group o. Object Identifier ccess Implementation Specifications Implemented 1 ipforwardumber {ipforward 1} [Standard] umber of forwarding table entries. 2 ipforwardtable {ipforward 2} [Standard] Table storing information on each route. 3 ipforwardentry {ipforwardtable 1} [Standard] Information list for each route. IDEX { ipforwarddest, ipforwardproto, ipforwardpolicy, ipforwardexthop } 4 ipforwarddest {ipforwardentry 1} [Standard] Destination address of this route. 5 ipforwardmask {ipforwardentry 2} [Standard] Mask for taking address and logical D. However, it is Read_Only. 6 ipforwardpolicy {ipforwardentry 3} [Standard] Condition for selecting one from multiple path route (normally TOS). [Implementation] Fixed to 0. B 7 ipforwardexthop {ipforwardentry 4} [Standard] ddress of next system in route. 8 ipforwardifindex {ipforwardentry 5} [Standard] Identifier in local interface connected with next hop of this route. However, it is Read_Only. 29

48 2.4 ip Group (MIB-II and IP Forward Table MIB) o. Object Identifier ccess Implementation Specifications Implemented 9 ipforwardtype {ipforwardentry 6} [Standard] Type of route. Other (1) Invalid (2) Local (3) Remote (4) However, it is Read_Only. 10 ipforwardproto {ipforwardentry 7} [Standard] Protocol that learned this route. other (1) local (2) netmgmt (3) icmp (4) egp (5) ggp (6) hello (7) rip (8) is-is (9) es-is (10) ciscoigrp (11) bbnspfigp (12) ospf (13) bgp (14) idpr (15) 11 ipforwardge {ipforwardentry 8} [Standard] Elapsed time after this route was learned or updated (unit: second). 12 ipforwardinfo {ipforwardentry 9} [Standard] dditional information by route protocol. [Implementation] {0.0} fixed. However, it is Read_Only. B 13 ipforwardexthops {ipforwardentry 10} [Standard] utonomous system number of next hop. However, it is Read_Only. 14 ipforwardmetric1 {ipforwardentry 11} [Standard] Metric for this route. However, it is Read_Only. 15 ipforwardmetric2 {ipforwardentry 12} [Standard] lternate route metric for this route. However, it is Read_Only. 16 ipforwardmetric3 {ipforwardentry 13} [Standard] lternate route metric for this route. [Implementation] -1 fixed. However, it is Read_Only. 17 ipforwardmetric4 {ipforwardentry 14} [Standard] Metric of alternative route for this route. [Implementation] -1 fixed. However, it is Read_Only. 18 ipforwardmetric5 {ipforwardentry 15} [Standard] Metric of alternative route for this route. [Implementation] -1 fixed. However, it is Read_Only. 30

49 2.5 icmp Group (MIB-II) 2.5 icmp Group (MIB-II) (1) Identifier icmp OBJECT IDETIFIER ::= {mib-2 5} Object ID value (2) Implementation specifications The table below shows the implementation specifications of icmp group. Table 2-10: Implementation Specifications of icmp Group o. Object Identifier ccess Implementation Specifications Implemented 1 icmpinmsgs {icmp 1} [Standard] umber of total ICMP messages this entity received. 2 icmpinerrors {icmp 2} [Standard] umber of ICMP message errors received (checksum error, frame length error, etc.). 3 icmpindestunreachs {icmp 3} [Standard] umber of ICMP Destination Unreachable messages received. 4 icmpintimeexcds {icmp 4} [Standard] umber of ICMP Time Exceed messages received 5 icmpinparmprobs {icmp 5} [Standard] umber of ICMP Parameter Problem messages received. 6 icmpinsrcquenchs {icmp 6} [Standard] umber of ICMP Source Quench messages received. 7 icmpinredirects {icmp 7} [Standard] umber of ICMP etwork Redirect messages received. 8 icmpinechos {icmp 8} [Standard] umber of ICMP Echo request messages received. 9 icmpinechoreps {icmp 9} [Standard] umber of ICMP Echo response messages received 10 icmpintimestamps {icmp 10} [Standard] umber of ICMP TimeStamp request messages received. 11 icmpintimestampreps {icmp 11} [Standard] umber of ICMP TimeStamp response messages received. 12 icmpinddrmasks {icmp 12} [Standard] umber of ICMP ddress Mask request messages received. 13 icmpinddrmaskreps {icmp 13} [Standard] umber of ICMP ddress Mask response messages received. 14 icmpoutmsgs {icmp 14} [Standard] Total number of ICMP messages tried to send (including errors). 15 icmpouterrors {icmp 15} [Standard] umber of ICMP messages not sent due to error. [Implementation] Counts only when no buffer. 16 icmpoutdestunreachs {icmp 16} [Standard] umber of ICMP Destination Unreachable messages sent. 17 icmpouttimeexcds {icmp 17} [Standard] umber of ICMP Time Exceeded messages sent. 18 icmpoutparmprobs {icmp 18} [Standard] umber of ICMP Parameter Problem messages sent. 31

50 2.5 icmp Group (MIB-II) o. Object Identifier ccess Implementation Specifications Implemented 19 icmpoutsrcquenchs {icmp 19} [Standard] umber of ICMP Source Quench messages sent. 20 icmpoutredirects {icmp 20} [Standard] umber of ICMP Redirect messages sent. 21 icmpoutechos {icmp 21} [Standard] umber of ICMP Echo request messages sent. 22 icmpoutechoreps {icmp 22} [Standard] umber of ICMP Echo response messages sent. 23 icmpouttimestamps {icmp 23} [Standard] umber of ICMP Timestamp request messages sent. 24 icmpouttimestampreps {icmp 24} [Standard] umber of ICMP Timestamp response messages sent. 25 icmpoutddrmasks {icmp 25} [Standard] umber of ICMP ddress Mask request messages sent. 26 icmpoutddrmaskreps {icmp 26} [Standard] umber of ICMP ddress Mask response messages sent. 32

51 2.6 tcp Group (MIB-II and TCP MIB for IPv6) 2.6 tcp Group (MIB-II and TCP MIB for IPv6) The document related to the tcp group is given below. RFC2452 (December 1998) tcp (1) Identifier tcp OBJECT IDETIFIER ::= {mib-2 6} Object ID value (2) Implementation specifications The table below shows the implementation specifications of tcp group. Table 2-11: tcp Group o. Object Identifier ccess Implementation Specifications Implemented 1 tcprtolgorithm {tcp 1} [Standard] lgorithm that determines timeout time used for resend. other (1) constant (2) rsre (3) vanj (4) B [Implementation] vanj (4) fixed. 2 tcprtomin {tcp 2} [Standard] Minimum value of timeout for resend (unit: millisecond(s)). [Implementation] 1000 fixed. B 3 tcprtomax {tcp 3} [Standard] Maximum value of timeout for resend (unit: millisecond(s)). [Implementation] fixed. B 4 tcpmaxconn {tcp 4} [Standard] Total number of supportable TCP connections. Responds -1 when maximum number of connections is dynamic. [Implementation] -1 fixed. B 5 tcpctiveopens {tcp 5} [Standard] umber of TCP connection status changes from CLOSE to SY-SET. 6 tcppassiveopens {tcp 6} [Standard] umber of TCP connection status changes from LISTE to SY-RCVD. 7 tcpttemptfails {tcp 7} [Standard] Total number of TCP connection status changes from SY-SET/SY-RCVD to CLOSE and number of TCP connection status changes from SY-RCVD to LISTE. 8 tcpestabresets {tcp 8} [Standard] umber of TCP connection status changes from ESTBLISHD, CLOSE-WIT to CLOSE. 9 tcpcurrestab {tcp 9} [Standard] Total number of TCP connections with ESTBLISHD, CLOSE-WIT status. 10 tcpinsegs {tcp 10} [Standard] Total number of receive segments containing error segments. 11 tcpoutsegs {tcp 11} [Standard] Total number of send segments. 12 tcpretranssegs {tcp 12} [Standard] Total number of resend segments. 33

52 2.6 tcp Group (MIB-II and TCP MIB for IPv6) o. Object Identifier ccess Implementation Specifications Implemented 13 tcpconntable {tcp 13} [Standard] Information table unique to TCP connection. 14 tcpconnentry {tcpconntable 1} [Standard] Entry information on specific TCP connection. IDEX { tcpconnlocalddress, tcpconnlocalport, tcpconnremddress, tcpconnremport } 15 tcpconnstate {tcpconnentry 1} [Standard] Status of TCP connection. closed (1) listen (2) synsent (3) synreceived (4) established (5) finwait1 (6) finwait2 (7) closewait (8) lastck (9) closing (10) timewait (11) deletetcb (12) However, it is Read_Only. 16 tcpconnlocalddress {tcpconnentry 2} [Standard] Local IP address of this TCP connection. 17 tcpconnlocalport {tcpconnentry 3} [Standard] Local port number of this TCP connection. 18 tcpconnremddress {tcpconnentry 4} [Standard] Remote IP address of this TCP connection. 19 tcpconnremport {tcpconnentry 5} [Standard] Remote port number of this TCP connection. 20 tcpinerrs {tcp 14} [Standard] Total number of error segments received. 21 tcpoutrsts {tcp 15} [Standard] umber of sends of segments with RST flag ipv6tcpconntable (1) Identifier tcp OBJECT IDETIFIER ::= {mib-2 6} ipv6tcpconntable OBJECT IDETIFIER ::= {tcp 16} Object ID value (2) Implementation specifications The table below shows the implementation specifications of ipv6tcpconntable group. 34

53 2.6 tcp Group (MIB-II and TCP MIB for IPv6) Table 2-12: Implementation Specifications of ipv6tcpconntable Group o. Object Identifier ccess Implementation Specifications Implemented 1 ipv6tcpconntable {tcp 16} [Standard] TCP connection table. 2 ipv6tcpconnentry {ipv6tcpconntable 1} [Standard] Table entry. IDEX { ipv6tcpconnlocalddress, ipv6tcpconnlocalport, ipv6tcpconnremddress, ipv6tcpconnremport, ipv6tcpconnifindex } 3 ipv6tcpconnlocalddress {ipv6tcpconnentry 1} [Standard] Local IP address of TCP connection. 4 ipv6tcpconnlocalport {ipv6tcpconnentry 2} [Standard] Local port number of TCP connection. 5 ipv6tcpconnremddress {ipv6tcpconnentry 3} [Standard] Remote IP address of TCP connection. 6 ipv6tcpconnremport {ipv6tcpconnentry 4} [Standard] Remote port number of TCP connection. 7 ipv6tcpconnifindex {ipv6tcpconnentry 5} [Standard] Local interface number of TCP connection. 8 ipv6tcpconnstate {ipv6tcpconnentry 6} [Standard] State of TCP connection. closed (1) listen (2) synsent (3) synreceived (4) established (5) finwait1 (6) finwait2 (7) closewait (8) lastck (9) closing (10) timewait (11) deletetcb (12) However, it is Read_Only. 35

54 2.7 udp Group (MIB-II and UDP MIB for IPv6) 2.7 udp Group (MIB-II and UDP MIB for IPv6) The document related to the udp group is given below. RFC2454 (December 1998) udp (1) Identifier udp OBJECT IDETIFIER ::= {mib-2 7} Object ID value (2) Implementation specifications The table below shows the implementation specifications of udp group. Table 2-13: udp Group o. Object Identifier ccess Implementation Specifications Implemented 1 udpindatagrams {udp 1} [Standard] umber of UDP datagram communicated to upper layer. 2 udpoports {udp 2} [Standard] Total number of received UDP datagram with no upper application in destination port. 3 udpinerrors {udp 3} [Standard] umber of UDP datagram that could not communicate to application for reasons other than udpoports. 4 udpoutdatagrams {udp 4} [Standard] Total number of UDP datagram which upper application sent. 5 udptable {udp 5} [Standard] UDP listener's information table. 6 udpentry {udptable 1} [Standard] umber of entries related to specific UDP listener. IDEX { udplocalddress, udplocalport } 7 udplocalddress {udpentry 1} [Standard] This UDP listener's local IP address. 8 udplocalport {udpentry 2} [Standard] This UDP listener's local port number ipv6udptable (1) Identifier udp OBJECT IDETIFIER ::= {mib-2 7} ipv6udptable OBJECT IDETIFIER ::= {udp 6} Object ID value (2) Implementation specifications The table below shows the implementation specifications of ipv6udptable group. 36

55 2.7 udp Group (MIB-II and UDP MIB for IPv6) Table 2-14: Implementation Specifications of ipv6udptable Group o. Object Identifier ccess Implementation Specifications Implemented 1 ipv6udptable {udp 6} [Standard] Table including the information of UDP listener. 2 ipv6udpentry {ipv6udptable 1} [Standard] Information on specific UDP listener. IDEX { ipv6udplocalddress, ipv6udplocalport, ipv6udpifindex } 3 ipv6udplocalddress {ipv6udpentry 1} [Standard] Local IPv6 address for UDP listener. 4 ipv6udplocalport {ipv6udpentry 2} [Standard] Local port number for UDP listener. 5 ipv6udpifindex {ipv6udpentry 3} [Standard] Local interface number for UDP listener. 37

56 2.8 dot3 Group (Ethernet Like MIB) 2.8 dot3 Group (Ethernet Like MIB) The document related to the dot3 group is given below. RFC1643 (1) Identifier dot3 OBJECT IDETIFIER ::= {transmission 7} Object ID value (2) Implementation specifications The table below shows the implementation specifications of dot3 group. Table 2-15: Implementation Specifications of dot3 Group o. Object Identifier ccess Implementation Specifications Implemented 1 dot3statstable {dot3 2} [Standard] statistics information table for Ethernet like interface connected to specific system. 2 dot3statsentry {dot3statstable 1} [Standard] statistics information list of specific interface for Ethernet like media. IDEX { dot3statsindex } 3 dot3statsindex {dot3statsentry 1} [Standard] Interface index value for Ethernet like media. 4 dot3statslignmenterrors {dot3statsentry 2} [Standard] umber of received frames not with correct frame length *, caught by FCS check. [Implementation] Fixed to 0. B 5 dot3statsfcserrors {dot3statsentry 3} [Standard] umber of received frames with correct frame length *, caught by FCS check. 6 dot3statssinglecollisionfra mes {dot3statsentry 4} [Standard] umber of successfully sent frames with only one collision. 7 dot3statsmultiplecollisionf rames {dot3statsentry 5} [Standard] umber of successfully sent frames with multiple collisions in specific interface. 8 dot3statssqetesterrors {dot3statsentry 6} [Standard] umber of SQE TEST ERROR message occurrences. [Implementation] Fixed to 0. B 9 dot3statsdeferredtransmissi ons {dot3statsentry 7} [Standard] umber of frames with delayed first send due to busy send route. 10 dot3statslatecollisions {dot3statsentry 8} [Standard] umber of times collision detected after 512 bits time elapses. 11 dot3statsexcessivecollision s {dot3statsentry 9} [Standard] umber of forwarding failures due to excessive collisions (16 times). 12 dot3statsinternalmactransm iterrors {dot3statsentry 10} [Standard] umber of times transmission failed due to transmission problem in MC sub-layer. [Implementation] Fixed to 0. B 13 dot3statscarriersenseerrors {dot3statsentry 11} [Standard] umber of times without carrier during send. 38

57 2.8 dot3 Group (Ethernet Like MIB) o. Object Identifier ccess Implementation Specifications Implemented 14 dot3statsframetoolongs {dot3statsentry 13} [Standard] umber of received frames exceeding the maximum allowed frame length * 15 dot3statsinternalmacreceiv eerrors {dot3statsentry 16} [Standard] umber of frames in which receive fails due to receive error in MC sub-layer. 16 dot3statsetherchipset {dot3statsentry 17} [Standard] Object identifier showing chip set used by interface. [Implementation] 0.0 fixed. B * The frame length is from the MC header to FCS. For the frame format, see "Configuration Settings, Vol. 1, MC/LLC Sub-layer Control". 39

58 2.9 snmp Group (MIB-II) 2.9 snmp Group (MIB-II) (1) Identifier snmp OBJECT IDETIFIER ::= {mib-2 11} Object ID value (2) Implementation specifications The table below shows the implementation specifications of snmp group. Table 2-16: snmp Group o. Object Identifier ccess Implementation Specifications Implemented 1 snmpinpkts {snmp 1} [Standard] Total number of SMP received messages. 2 snmpoutpkts {snmp 2} [Standard] Total number of SMP sent messages. 3 snmpinbadversions {snmp 3} [Standard] Total number of unsupported version received messages. 4 snmpinbadcommunity ames {snmp 4} [Standard] Total number of SMP received messages of unused community. 5 snmpinbadcommunityu ses {snmp 5} [Standard] Total number of received messages showing unauthorized operation in the community. 6 snmpinsparseerrs {snmp 6} [Standard] Total number of received messages with S.1 error. 7 snmpinbadtypes {snmp 7} [Standard] Total number of unknown PDU type received. 8 snmpintoobigs {snmp 8} [Standard] Total number of received PDUs with toobig error status. [Implementation] Fixed to 0. 9 snmpinosuchames {snmp 9} [Standard] Total number of received PDUs with nosuchame error status. [Implementation] Fixed to snmpinbadvalues {snmp 10} [Standard] Total number of received PDUs with badvalue error status. [Implementation] Fixed to snmpinreadonlys {snmp 11} [Standard] Total number of received PDUs with readonly error status. [Implementation] Fixed to snmpingenerrs {snmp 12} [Standard] Total number of received PDUs with generr error status. [Implementation] Fixed to snmpintotalreqvars {snmp 13} [Standard] Total number of MIB objects for which MIB was successfully collected. 14 snmpintotalsetvars {snmp 14} [Standard] Total number of MIB objects for which MIB was successfully set. 15 snmpingetrequests {snmp 15} [Standard] Total number of GetRequestPDUs received. 16 snmpingetexts {snmp 16} [Standard] Total number of GetextRequestPDUs received. 17 snmpinsetrequests {snmp 17} [Standard] Total number of SetRequestPDUs received. 40

59 2.9 snmp Group (MIB-II) o. Object Identifier ccess Implementation Specifications Implemented 18 snmpingetresponses {snmp 18} [Standard] Total number of GetResponsePDUs received. [Implementation] Fixed to snmpintraps {snmp 19} [Standard] Total number of trap PDUs received. [Implementation] Fixed to snmpouttoobigs {snmp 20} [Standard] Total number of sent PDUs with toobig error status. 21 snmpoutosuchames {snmp 21} [Standard] Total number of sent PDUs with nosuchame error status. 22 snmpoutbadvalues {snmp 22} [Standard] Total number of sent PDUs with badvalue error status. 23 snmpoutreadonlys {snmp 23} [Standard] Total number of sent PDUs with readonly error status. 24 snmpoutgenerrs {snmp 24} [Standard] Total number of sent PDUs with generr error status. 25 snmpoutgetrequests {snmp 25} [Standard] Total number of sent GetRequestPDUs. [Implementation] Fixed to snmpoutgetexts {snmp 26} [Standard] Total number of sent GetextRequestPDUs. [Implementation] Fixed to snmpoutsetrequests {snmp 27} [Standard] Total number of sent SetRequestPDUs. [Implementation] Fixed to snmpoutgetresponses {snmp 28} [Standard] Total number of sent GetResponsePDUs. 29 snmpouttraps {snmp 29} [Standard] Total number of sent trap PDUs. 30 snmpenableuthentraps {snmp 30} [Standard] Shows whether authentication-failure Trap can be issued. enable (1) disable (2) However, it is Read_Only. 31 snmpsilentdrops {snmp 31} [Standard] Total number of SMP received messages discarded because the size of the message to be replied exceeded the maximum message size. 41

60 2.10 ospf Group (OSPFv2 MIB) 2.10 ospf Group (OSPFv2 MIB) The document related to the ospf group is shown below. RFC ospfgeneralgroup (1) Identifier ospf OBJECT IDETIFIER ::= {mib-2 14} ospfgeneralgroup OBJECT IDETIFIER ::= {ospf 1} Object ID value (2) Implementation specifications The table below shows the implementation specifications of ospfgeneralgroup group. Table 2-17: Implementation Specifications of ospfgeneralgroup Group o. Object Identifier ccess Implementation Specifications Implemented 1 ospfrouterid {ospfgeneralgroup 1} [Standard] Router identifier in autonomous system. However, it is Read_Only. 2 ospfdminstat {ospfgeneralgroup 2} [Standard] OSPF maintenance status of router. enabled (1) disabled (2) However, it is Read_Only. 3 ospfversionumber {ospfgeneralgroup 3} [Standard] Version number of OSPF protocol. [Implementation] Same as standard (version2 fixed). 4 ospfreabdrrtrstatus {ospfgeneralgroup 4} [Standard] Shows whether router is area border router. true (1) false (2) 5 ospfsbdrrtrstatus {ospfgeneralgroup 5} [Standard] Shows whether router is S boundary router. true (1) false (2) However, it is Read_Only. 6 ospfexternlsacount {ospfgeneralgroup 6} [Standard] umber of external link state advertisements (LS) in link state database (LSDB). 7 ospfexternlsacksumsum {ospfgeneralgroup 7} [Standard] Total LS checksum of external LS in LSDB. 8 ospftossupport {ospfgeneralgroup 8} [Standard] Flag showing whether this router supports TOS base routing. true (1) false (2) [Implementation] false (2) fixed. However, it is Read_Only. 9 ospforiginateewlsas {ospfgeneralgroup 9} [Standard] umber of new LS originated. 10 ospfrxewlsas {ospfgeneralgroup 10} [Standard] umber of times receiving LS with new information. 42

61 2.10 ospf Group (OSPFv2 MIB) o. Object Identifier ccess Implementation Specifications Implemented 11 ospfextlsdblimit {ospfgeneralgroup 11} [Standard] Maximum number of entries for S external LSs that can be stored in LSDB. For -1, no limit. [Implementation] -1 fixed. However, it is Read_Only. 12 ospfmulticastextensions {ospfgeneralgroup 12} [Standard] Shows multicast forwarding algorithm of multicast extension version OSPF as bit map value. "0" is multicast forwarding non-support. [Implementation] Multicast forwarding unsupported (0) fixed. However, it is Read_Only. 13 ospfexitoverflowinterval {ospfgeneralgroup 13} [Standard] Time until entry becomes overflow status (unit: second(s)). [Implementation] Unused. 14 ospfdemandextensions {ospfgeneralgroup 14} [Standard] Demand routing support in this router. true (1) false (2) [Implementation] Unused ospfreatable (1) Identifier ospf OBJECT IDETIFIER ::= {mib-2 14} ospfreatable OBJECT IDETIFIER ::= {ospf 2} Object ID value (2) Implementation specifications The table below shows the implementation specifications of ospfreatable group. Table 2-18: Implementation Specifications of ospfreatable Group o. Object Identifier ccess Implementation Specifications Implemented 1 ospfreatable {ospf 2} [Standard] Table storing information on each area connected to router. 2 ospfreaentry {ospfreatable 1} [Standard] Information list on each area. IDEX { ospfreaid } 3 ospfreaid {ospfreaentry 1} [Standard] umber that identifies area. 4 ospfuthtype {ospfreaentry 2} [Standard] Type of authentication used in this area. one (0) simple password (1) md5 (2) However, it is Read_Only. 5 ospfimportsextern {ospfreaentry 3} [Standard] Flag showing whether this router takes S external link state advertisement (LS). importexternal (1) importoexternal (2) importssa (3) However, it is Read_Only. 6 ospfspfruns {ospfreaentry 4} [Standard] umber of times calculating routes in area using link state database (LSDB) of this area. 7 ospfreabdrrtrcount {ospfreaentry 5} [Standard] Total number of reachable area border routers in this area. 43

62 2.10 ospf Group (OSPFv2 MIB) o. Object Identifier ccess Implementation Specifications Implemented 8 ospfsbdrrtrcount {ospfreaentry 6} [Standard] Total number of reachable S boundary routers in this area. 9 ospfrealsacount {ospfreaentry 7} [Standard] umber of LSs in LSDB of this area, except S external LS. 10 ospfrealsacksumsum {ospfreaentry 8} [Standard] Total LS checksum of LS included in LSDB of this area. 11 ospfreasummary {ospfreaentry 9} [Standard] Variable values related to import control of summary LS to area. noreasummary (1) sendreasummary (2) [Implementation] sendreasummary (2) fixed. However, it is Read_Only. 12 ospfreastatus {ospfreaentry 10} [Standard] Shows the status of entry. [Implementation] active (1) fixed. However, it is Read_Only ospfstubreatable (1) Identifier ospf OBJECT IDETIFIER ::= {mib-2 14} ospfstubreatable OBJECT IDETIFIER ::= {ospf 3} Object ID value (2) Implementation specifications The table below shows the implementation specifications of ospfstubreatable group. Table 2-19: Implementation Specifications of ospfstubreatable Group o. Object Identifier ccess Implementation Specifications Implemented 1 ospfstubreatable {ospf 3} [Standard] Information table advertised in stub area by area border router. 2 ospfstubreaentry {ospfstubreatable 1} [Standard] Information list of each stub area. IDEX { ospfstubreaid, ospfstubtos } 3 ospfstubreaid {ospfstubreaentry 1} [Standard] Stub area ID. 4 ospfstubtos {ospfstubreaentry 2} [Standard] Service type of stub area. [Implementation] Same as standard (0 fixed). 5 ospfstubmetric {ospfstubreaentry 3} [Standard] Metric corresponding to service type in stub area. However, it is Read_Only. 6 ospfstubstatus {ospfstubreaentry 4} [Standard] Shows the status of entry. [Implementation] active (1) fixed. However, it is Read_Only. 7 ospfstubmetrictype {ospfstubreaentry 5} [Standard] Metric type advertised as default route. ospfmetric (1) comparablecost (2) noncomparable (3) However, it is Read_Only. 44

63 2.10 ospf Group (OSPFv2 MIB) ospflsdbtable (1) Identifier ospf OBJECT IDETIFIER ::= {mib-2 14} ospflsdbtable OBJECT IDETIFIER ::= {ospf 4} Object ID value (2) Implementation specifications The table below shows the implementation specifications of ospflsdbtable group. Table 2-20: Implementation Specifications of ospflsdbtable Group o. Object Identifier ccess Implementation Specifications Implemented 1 ospflsdbtable {ospf 4} [Standard] Table storing information on link state database (LSDB) of OSPF process. 2 ospflsdbentry {ospflsdbtable 1} [Standard] List of link state advertisements (LS). IDEX { ospflsdbreaid, ospflsdbtype, ospflsdblsid, ospflsdbrouterid } 3 ospflsdbreaid {ospflsdbentry 1} [Standard] rea ID of the area receiving this LS. 4 ospflsdbtype {ospflsdbentry 2} [Standard] Type of LS. router (1) etwork (2) Summary (3) S summary (4) S external link (5) Multicast (6) nssa external link (7) 5 ospflsdblsid {ospflsdbentry 3} [Standard] ID that identifies individual routing domain. 6 ospflsdbrouterid {ospflsdbentry 4} [Standard] ID of router created LS. 7 ospflsdbsequence {ospflsdbentry 5} [Standard] Sequence number of LS. 8 ospflsdbge {ospflsdbentry 6} [Standard] Elapsed time after this LS was created (unit: second(s)). 9 ospflsdbchecksum {ospflsdbentry 7} [Standard] Checksum of this LS. 10 ospflsdbdvertisement {ospflsdbentry 8} [Standard] Whole LS containing header ospfrearangetable (1) Identifier ospf OBJECT IDETIFIER ::= {mib-2 14} ospfrearangetable OBJECT IDETIFIER ::= {ospf 5} Object ID value

64 2.10 ospf Group (OSPFv2 MIB) (2) Implementation specifications The table below shows the implementation specifications of ospfrearangetable group. Table 2-21: Implementation Specifications of ospfrearangetable Group o. Object Identifier ccess Implementation Specifications Implemented 1 ospfrearangetable {ospf 5} [Standard] Table storing information within address range in area connected to router. 2 ospfrearangeentry {ospfrearangetable 1} [Standard] List storing information within address range in area connected to router. IDEX { ospfrearangereaid, ospfrearangeet } 3 ospfrearangereaid {ospfrearangeentry 1} [Standard] rea ID to which belongs. 4 ospfrearangeet {ospfrearangeentry 2} [Standard] IP address of net/subnet within this range. 5 ospfrearangemask {ospfrearangeentry 3} [Standard] Subnet mask used for ospfrearangeet. However, it is Read_Only. 6 ospfrearangestatus {ospfrearangeentry 4} [Standard] Shows the status of entry. [Implementation] active (1) fixed. However, it is Read_Only. 7 ospfrearangeeffect {ospfrearangeentry 5} [Standard] Range of advertised area. Subnet advertised outside the area (1) Subnet not advertised outside the area (2) However, it is Read_Only ospfhosttable (1) Identifier ospf OBJECT IDETIFIER ::= {mib-2 14} ospfhosttable OBJECT IDETIFIER ::= {ospf 6} Object ID value (2) Implementation specifications The table below shows the implementation specifications of ospfhosttable group. Table 2-22: Implementation Specifications of ospfhosttable Group o. Object Identifier ccess Implementation Specifications Implemented 1 ospfhosttable {ospf 6} [Standard] Host and metric table that router advertises as host route. [Implementation] Unused. 2 ospfhostentry {ospfhosttable 1} [Standard] Host and metric information list that router advertises as host route. IDEX { ospfhostipddress, ospfhosttos } [Implementation] Unused. 3 ospfhostipddress {ospfhostentry 1} [Standard] IP address of the host. [Implementation] Unused. 4 ospfhosttos {ospfhostentry 2} [Standard] Service type of this route. [Implementation] Unused. 5 ospfhostmetric {ospfhostentry 3} [Standard] Metric corresponding to service type. [Implementation] Unused. 46

65 2.10 ospf Group (OSPFv2 MIB) o. Object Identifier ccess Implementation Specifications Implemented 6 ospfhoststatus {ospfhostentry 4} [Standard] Shows the status of entry. [Implementation] Unused. 7 ospfhostreaid {ospfhostentry 5} [Standard] Host area to which belongs. Default is area including OSPF interface, or [Implementation] Unused ospfiftable (1) Identifier ospf OBJECT IDETIFIER ::= {mib-2 14} ospfiftable OBJECT IDETIFIER ::= {ospf 7} Object ID value (2) Implementation specifications The table below shows the implementation specifications of ospfiftable group. Table 2-23: Implementation Specifications of ospfiftable Group o. Object Identifier ccess Implementation Specifications Implemented 1 ospfiftable {ospf 7} [Standard] Table storing information on each interface connected to router. 2 ospfifentry {ospfiftable 1} [Standard] List storing information on each interface connected to router. IDEX { ospfifipddress, ospfddresslessif } 3 ospfifipddress {ospfifentry 1} [Standard] IP address of this OSPF interface. 4 ospfddresslessif {ospfifentry 2} [Standard] Identifier valid when this interface is address interface. 5 ospfifreaid {ospfifentry 3} [Standard] rea ID of the area to which this interface connects. However, it is Read_Only. 6 ospfiftype {ospfifentry 4} [Standard] Interface type. Broadcast (1) on-broadcast (2) Point-Point (3) Point-Multipoint (5) However, it is Read_Only. 7 ospfifdminstat {ospfifentry 5} [Standard] Control status of the interface. enabled (1) disabled (2) However, it is Read_Only. 8 ospfifrtrpriority {ospfifentry 6} [Standard] Priority of this interface. However, it is Read_Only. 9 ospfiftransitdelay {ospfifentry 7} [Standard] Time needed for sending link state update packet on this interface (unit: second(s)). However, it is Read_Only. 10 ospfifretransinterval {ospfifentry 8} [Standard] Resend interval of link state advertisement (LS) (unit: second(s)). However, it is Read_Only. 47

66 2.10 ospf Group (OSPFv2 MIB) o. Object Identifier ccess Implementation Specifications Implemented 11 ospfifhellointerval {ospfifentry 9} [Standard] Send interval of Hello packet (unit: second(s)). However, it is Read_Only. 12 ospfifrtrdeadinterval {ospfifentry 10} [Standard] Maximum allowable receiving interval of Hello packet (unit: second(s)). However, it is Read_Only. 13 ospfifpollinterval {ospfifentry 11} [Standard] Send interval of Hello packet to inactive neighbor office in non-broadcast multiple access network (unit: second(s)). However, it is Read_Only. 14 ospfifstate {ospfifentry 12} [Standard] Interface status. down (1) loopback (2) waiting (3) PtoP (4) DR (5) BDR (6) other (7) 15 ospfifdesignatedrouter {ospfifentry 13} [Standard] IP address of designated router. 16 ospfifbackupdesignatedr outer {ospfifentry 14} [Standard] IP address of backup designated router. 17 ospfifevents {ospfifentry 15} [Standard] umber of status changes or error occurrences in this interface. 18 ospfifuthkey {ospfifentry 16} [Standard] uthentication key in this interface. However, it is Read_Only. 19 ospfifstatus {ospfifentry 17} [Standard] Shows the status of entry. [Implementation] active (1) fixed. However, it is Read_Only. 20 ospfifmulticastforwarding {ospfifentry 18} [Standard] Multicast method in this interface. blocked (1) multicast (2) unicast (3) [Implementation] blocked (1) fixed. However, it is Read_Only. 21 ospfifdemand {ospfifentry 19} [Standard] Shows whether to perform Demand OSPF procedure in this interface. [Implementation] Unused. 22 ospfifuthtype {ospfifentry 20} [Standard] Interface authentication method. one (0) simple password (1) MD5 (2) One determined by I (3 to 255) [Implementation] Unused ospfifmetrictable (1) Identifier ospf OBJECT IDETIFIER ::= {mib-2 14} ospfifmetrictable OBJECT IDETIFIER ::= {ospf 8} Object ID value

67 2.10 ospf Group (OSPFv2 MIB) (2) Implementation specifications The table below shows the implementation specifications of ospfifmetrictable group. Table 2-24: Implementation Specifications of ospfifmetrictable Group o. Object Identifier ccess Implementation Specifications Implemented 1 ospfifmetrictable {ospf 8} [Standard] Table storing service type metric information on each interface. 2 ospfifmetricentry {ospfifmetrictable 1} [Standard] Information list of service type metric for each interface. IDEX { ospfifmetricipddress, ospfifmetricddresslessif, ospfifmetrictos } 3 ospfifmetricipddress {ospfmetricentry 1} [Standard] IP address of this OSPF interface. 4 ospfifmetricddresslessif {ospfmetricentry 2} [Standard] Identifier valid when this interface is address interface. 5 ospfifmetrictos {ospfmetricentry 3} [Standard] Service type of this interface. [Implementation] Fixed to 0. 6 ospfifmetricvalue {ospfmetricentry 4} [Standard] Metric of this service type in this interface. However, it is Read_Only. 7 ospfifmetricstatus {ospfmetricentry 5} [Standard] Status of this entry. [Implementation] active (1) fixed. However, it is Read_Only ospfvirtiftable (1) Identifier ospf OBJECT IDETIFIER ::= {mib-2 14} ospfvirtiftable OBJECT IDETIFIER ::= {ospf 9} Object ID value (2) Implementation specifications The table below shows the implementation specifications of ospfvirtiftable group. Table 2-25: Implementation Specifications of ospfvirtiftable Group o. Object Identifier ccess Implementation Specifications Implemented 1 ospfvirtiftable {ospf 9} [Standard] Table storing information on each virtual interface connected to router. 2 ospfvirtifentry {ospfvirtiftable 1} [Standard] Information list in each virtual interface. IDEX { ospfvirtifreaid, ospfvirtifeighbor } 3 ospfvirtifreaid {ospfvirtifentry 1} [Standard] rea ID of area through which this virtual link passes. 4 ospfvirtifeighbor {ospfvirtifentry 2} [Standard] Router ID of virtual neighboring router. 5 ospfvirtiftransitdelay {ospfvirtifentry 3} [Standard] Time needed for sending link state update packet on this interface (unit: second(s)). However, it is Read_Only. 49

68 2.10 ospf Group (OSPFv2 MIB) o. Object Identifier ccess Implementation Specifications Implemented 6 ospfvirtifretransinterval {ospfvirtifentry 4} [Standard] Resend interval of link state advertisement (LS) (unit: second(s)). However, it is Read_Only. 7 ospfvirtifhellointerval {ospfvirtifentry 5} [Standard] Send interval of Hello packet (unit: second(s)). However, it is Read_Only. 8 ospfvirtifrtrdeadinterval {ospfvirtifentry 6} [Standard] Maximum allowable receiving interval of Hello packet (unit: second(s)). However, it is Read_Only. 9 ospfvirtifstate {ospfvirtifentry 7} [Standard] Interface status. down (1) PtoP (4) 10 ospfvirtifevents {ospfvirtifentry 8} [Standard] umber of status changes or error occurrences in this interface. 11 ospfvirtifuthkey {ospfvirtifentry 9} [Standard] uthentication key in this interface. However, it is Read_Only. 12 ospfvirtifstatus {ospfvirtifentry 10} [Standard] Status of this entry. [Implementation] active (1) fixed. However, it is Read_Only. 13 ospfvirtifuthtype {ospfvirtifentry 11} R/W [Standard] uthentication method of virtual interface. [Implementation] Unused ospfbrtable (1) Identifier ospf OBJECT IDETIFIER ::= {mib-2 14} ospfbrtable OBJECT IDETIFIER ::= {ospf 10} Object ID value (2) Implementation specifications The table below shows the implementation specifications of ospfbrtable group. Table 2-26: Implementation Specifications of ospfbrtable Group o. Object Identifier ccess Implementation Specifications Implemented 1 ospfbrtable {ospf 10} [Standard] Table storing information on non-virtual neighboring office. 2 ospfbrentry {ospfbrtable 1} [Standard] Information list of each neighboring office. IDEX { ospfbripddr, ospfbrddresslessindex } 3 ospfbripddr {ospfbrentry 1} [Standard] IP address of neighboring router. 4 ospfbrddresslessindex {ospfbrentry 2} [Standard] Identifier valid when interface of neighboring router is address interface. 5 ospfbrrtrid {ospfbrentry 3} [Standard] Router ID of neighboring router. 50

69 2.10 ospf Group (OSPFv2 MIB) o. Object Identifier ccess Implementation Specifications Implemented 6 ospfbroptions {ospfbrentry 4} [Standard] Optional execution capacity of neighboring router. Bit 0: Service type base routing Bit 1: External area processing Bit 2: IP multicast routing Bit 3: rea related to SS 7 ospfbrpriority {ospfbrentry 5} [Standard] Priority of neighboring router. However, it is Read_Only. 8 ospfbrstate {ospfbrentry 6} [Standard] Status showing relation to this neighboring router. down (1) attempt (2) init (3) twoway (4) exchangestart (5) exchange (6) loading (7) full (8) 9 ospfbrevents {ospfbrentry 7} [Standard] umber of status changes or error occurrences related to neighboring router. 10 ospfbrlsretransqlen {ospfbrentry 8} [Standard] Current length of resend queue. 11 ospfbmabrstatus {ospfbrentry 9} [Standard] Status of this entry. [Implementation] active (1) fixed. Can be accessed only when ospfiftype is nbma. However, it is Read_Only. 12 ospfbmabrpermanence {ospfbrentry 10} [Standard] Method of routing with neighboring router. dynamic (1) permanent (2) However, it is Read_Only. 13 ospfbrhellosuppressed {ospfbrentry 11} [Standard] Shows whether Hello is suppressed to neighbor. [Implementation] Unused ospfvirtbrtable (1) Identifier ospf OBJECT IDETIFIER ::= {mib-2 14} ospfvirtbrtable OBJECT IDETIFIER ::= {ospf 11} Object ID value (2) Implementation specifications The table below shows the implementation specifications of ospfvirtbrtable group. Table 2-27: Implementation Specifications of ospfvirtbrtable Group o. Object Identifier ccess Implementation Specifications Implemented 1 ospfvirtbrtable {ospf 11} [Standard] Table storing virtual neighboring router data. 2 ospfvirtbrentry {ospfvirtbrtable 1} [Standard] Information list of each virtual neighboring router. IDEX { ospfvirtbrrea, ospfvirtbrrtrid } 51

70 2.10 ospf Group (OSPFv2 MIB) o. Object Identifier ccess Implementation Specifications Implemented 3 ospfvirtbrrea {ospfvirtbrentry 1} [Standard] rea ID of transit area. 4 ospfvirtbrrtrid {ospfvirtbrentry 2} [Standard] Router ID of virtual neighboring router. 5 ospfvirtbripddr {ospfvirtbrentry 3} [Standard] IP address of virtual neighboring router. 6 ospfvirtbroptions {ospfvirtbrentry 4} [Standard] Optional execution capacity of virtual neighboring router. Bit 1: Service type base routing Bit 2: IP multicast routing 7 ospfvirtbrstate {ospfvirtbrentry 5} [Standard] Status showing relation to this virtual neighboring router. down (1) attempt (2) init (3) twoway (4) exchangestart (5) exchange (6) loading (7) full (8) 8 ospfvirtbrevents {ospfvirtbrentry 6} [Standard] umber of status changes or error occurrences in this virtual link. 9 ospfvirtbrlsretransqlen {ospfvirtbrentry 7} [Standard] Current length of resend queue. 10 ospfvirtbrhellosuppressed {ospfvirtbrentry 8} [Standard] Shows whether Hello is suppressed to neighbor. [Implementation] Unused ospfextlsdbtable (1) Identifier ospf OBJECT IDETIFIER ::= {mib-2 14} ospfextlsdbtable OBJECT IDETIFIER ::= {ospf 12} Object ID value (2) Implementation specifications The table below shows the implementation specifications of ospfextlsdbtable group. Table 2-28: Implementation Specifications of ospfextlsdbtable Group o. Object Identifier ccess Implementation Specifications Implemented 1 ospfextlsdbtable {ospf 12} [Standard] Table of link state database (LSDB) of OSPF processing. 2 ospfextlsdbentry {ospfextlsdbtable 1} [Standard] List of link state advertisements (LS). IDEX { ospfextlsdbtype, ospfextlsdblsid, ospfextlsdbrouterid } 52

71 2.10 ospf Group (OSPFv2 MIB) o. Object Identifier ccess Implementation Specifications Implemented 3 ospfextlsdbtype {ospfextlsdbentry 1} [Standard] Type of LS. asexternallink (5) 4 ospfextlsdblsid {ospfextlsdbentry 2} [Standard] Link status ID. Link status ID is the field that includes either router ID or IP address. 5 ospfextlsdbrouterid {ospfextlsdbentry 3} [Standard] 32 bit number for distinguishing creation source router in autonomous system. 6 ospfextlsdbsequence {ospfextlsdbentry 4} [Standard] Sequence number of LS. 7 ospfextlsdbge {ospfextlsdbentry 5} [Standard] Elapsed time after LS was created (unit: second (s)). 8 ospfextlsdbchecksum {ospfextlsdbentry 6} [Standard] Checksum advertisement content not containing ge field. 9 ospfextlsdbdvertisement {ospfextlsdbentry 7} [Standard] Entire LS containing header ospfreaggregatetable (1) Identifier ospf OBJECT IDETIFIER ::= {mib-2 14} ospfreaggregatetable OBJECT IDETIFIER ::= {ospf 14} Object ID value (2) Implementation specifications The table below shows the implementation specifications of ospfreaggregatetable group. Table 2-29: Implementation Specifications of ospfreaggregatetable Group o. Object Identifier ccess Implementation Specifications Implemented 1 ospfreaggregatetable {ospf 14} [Standard] Table of IP address specifying IP address and IP subnet mask as pair. 2 ospfreaggregateentry {ospfreaggregatetable 1} [Standard] List of IP address specifying IP address and IP subnet mask as pair. IDEX { ospfreaggregatereaid, ospfreaggregatelsdbtype, ospfreaggregateet, ospfreaggregatemask } 3 ospfreaggregatereaid {ospfreaggregateentry 1} [Standard] ddress aggregate area. 4 ospfreaggregatelsdbtype {ospfreaggregateentry 2} [Standard] ddress aggregate type. This entry indicates the type of the link state database (LSDB) applied to the aggregation of this address. summarylink (3) nssaexternallink (7) 53

72 2.10 ospf Group (OSPFv2 MIB) o. Object Identifier ccess Implementation Specifications Implemented 5 ospfreaggregateet {ospfreaggregateentry 3} [Standard] IP address of network or subnet. 6 ospfreaggregatemask {ospfreaggregateentry 4} [Standard] Subnet mask related to network or subnet. 7 ospfreaggregatestatus {ospfreaggregateentry 5} [Standard] Status of this entry. [Implementation] active (1) fixed. However, it is Read_Only. 8 ospfreaggregateeffect {ospfreaggregateentry 6} [Standard] Shows whether subnet advertised within range will be opportunity for advertising aggregate address or subnet not advertised outside area. advertisematching (1) dootdvertisematching (2) However, it is Read_Only ospftrap (1) Identifier ospf OBJECT IDETIFIER ::= {mib-2 14} ospftrap OBJECT IDETIFIER ::= {ospf 16} Object ID value ospftrapcontrol OBJECT IDETIFIER ::= {ospftrap 1} Object ID value (2) Implementation specifications The table below shows the implementation specifications of ospftrap group. Table 2-30: Implementation Specifications of ospftrap Group o. Object Identifier ccess Implementation Specifications Implemented 1 ospftrapcontrol {ospftrap 1} [Standard] Trap-related information obtained. 2 ospfsettrap {ospftrapcontrol 1} [Standard] Bit map indicating the trap-allowable event. Each bit indicates object of ospftraps. 2 1 bit (0x ): ospfvirtifstatechange Up to 2 16 bit (0x ): ospfifstatechange However, 0x100fe fixed and Read_Only. 3 ospfconfigerrortype {ospftrapcontrol 2} [Standard] Error event of trap which occurred most recently. badversion (1) areamismatch (2) unknownbmabr (3) unknownvirtualbr (4) authtypemismatch (5) authfailure (6) netmaskmismatch (7) hellointervalmismatch (8) deadintervalmismatch (9) optionmismatch (10) [Implementation] Error event which occurred most recently regardless of whether trap is issued or not. When no error event occurred, it is set to 0. 54

73 2.10 ospf Group (OSPFv2 MIB) o. Object Identifier ccess Implementation Specifications Implemented 4 ospfpackettype {ospftrapcontrol 3} [Standard] Type of error packet used in most recent trap. hello (1) dbdescript (2) lsreq (3) lsupdate (4) lsck (5) [Implementation] Type of error packet which was used most recently regardless of whether trap is issued or not. When no error event occurred, it is set to 0. 5 ospfpacketsrc {ospftrapcontrol 4} [Standard] Source address of error packet used in most recent trap. [Implementation] Source address of the error packet which was used most recently regardless of whether trap is issued or not. When no error event occurred, it is set to ospftraps {ospftrap 2} [Standard] Trap advertisement. 55

74 2.11 bgp Group (BGP4 MIB) 2.11 bgp Group (BGP4 MIB) The document related to the bgp group is shown below. RFC bgp (1) Identifier bgp OBJECT IDETIFIER ::= {mib-2 15} Object ID value (2) Implementation specifications The table below shows the implementation specifications of bgp group. Table 2-31: Implementation Specifications of bgp Group o. Object Identifier ccess Implementation Specifications Implemented 1 bgpversion {bgp 1} [Standard] Expresses supported version in bit map format. Lowest bit in octet assumed to be bit 0; supported version number -1 bit set. 2 bgplocals {bgp 2} [Standard] utonomous system number of local bgppeertable (1) Identifier bgp OBJECT IDETIFIER ::= {mib-2 15} bgppeertable OBJECT IDETIFIER ::= {bgp 3} Object ID value (2) Implementation specifications The table below shows the implementation specifications of bgppeertable. Table 2-32: Implementation Specifications of bgppeertable o. Object Identifier ccess Implementation Specifications Implemented 1 bgppeertable {bgp 3} [Standard] bgp peer table. 2 bgppeerentry {bgppeertable 1} [Standard] Table of information on bgp peer connection. IDEX { bgppeerremoteddr } 3 bgppeeridentifier {bgppeerentry 1} [Standard] BGP identifier of bgp peer in this entry. 4 bgppeerstate {bgppeerentry 2} [Standard] Status of connection with BGP peer. idle (1) connect (2) active (3) opensent (4) openconfirm (5) established (6) 56

75 2.11 bgp Group (BGP4 MIB) o. Object Identifier ccess Implementation Specifications Implemented 5 bgppeerdminstatus {bgppeerentry 3} [Standard] Desired status of BGP peer connection. Shifts to start by creating BGPstart event; shifts to stop by creating BGPstop event. stop (1) start (2) [Implementation] start (2) fixed. However, it is Read_Only. 6 bgppeeregotiatedver sion {bgppeerentry 4} [Standard] Version of BGP negotiated between peers. 7 bgppeerlocalddr {bgppeerentry 5} [Standard] Local IP address of BGP connection of this entry. 8 bgppeerlocalport {bgppeerentry 6} [Standard] Local port number in TCP connection between peers. 9 bgppeerremoteddr {bgppeerentry 7} [Standard] Remote IP address of BGP connection of this entry. 10 bgppeerremoteport {bgppeerentry 8} [Standard] Remote port number in TCP connection between peers. 11 bgppeerremotes {bgppeerentry 9} [Standard] Remote autonomous system number. 12 bgppeerinupdates {bgppeerentry 10} [Standard] umber of BGP UPDTE messages received by this connection. 13 bgppeeroutupdates {bgppeerentry 11} [Standard] umber of BGP UPDTE messages sent by this connection. 14 bgppeerintotalmessa ges {bgppeerentry 12} [Standard] umber of messages received from remote peer by this connection. 15 bgppeerouttotalmess ages {bgppeerentry 13} [Standard] umber of messages sent to remote peer by this connection. 16 bgppeerlasterror {bgppeerentry 14} [Standard] Last error code and sub-code understood by peer in this connection. 17 bgppeerfsmestablishe dtransitions {bgppeerentry 15} [Standard] umber of times FSM becomes Established status. 18 bgppeerfsmestablishe dtime {bgppeerentry 16} [Standard] Time since entering Established status or since it was in Established status last time (unit: second(s)). 19 bgppeerconnectretry Interval {bgppeerentry 17} [Standard] ConnectRetry timer value. However, it is Read_Only. 20 bgppeerholdtime {bgppeerentry 18} [Standard] Peer and established HOLD timer value. 21 bgppeerkeeplive {bgppeerentry 19} [Standard] Peer and established Keeplive timer value. 22 bgppeerholdtimecon figured {bgppeerentry 20} [Standard] Hold timer value configured for this peer of this BGP speaker. However, it is Read_Only. 23 bgppeerkeepliveco nfigured {bgppeerentry 21} [Standard] keeplive timer value configured for this peer of this BGP speaker. However, it is Read_Only. 57

76 2.11 bgp Group (BGP4 MIB) o. Object Identifier ccess Implementation Specifications Implemented 24 bgppeerminsorigin ationinterval {bgppeerentry 22} [Standard] MinSOriginationInterval timer value (unit: second(s)). [Implementation] UPDTE message advertisement interval. Only External peer can be accessed. However, it is Read_Only. 25 bgppeerminroutedv ertisementinterval {bgppeerentry 23} [Standard] MinRoutedvertisementInterval timer value (unit: second(s)). [Implementation] UPDTE message advertisement interval. Only Internal peer can be accessed. However, it is Read_Only. 26 bgppeerinupdateelap sedtime {bgppeerentry 24} [Standard] Elapsed time since last update message received. 27 bgpidentifier {bgp 4} [Standard] BGP identifier of local system bgp4pathttrtable (1) Identifier bgp OBJECT IDETIFIER ::= {mib-2 15} bgp4pathttrtable OBJECT IDETIFIER ::= {bgp 6} Object ID value (2) Implementation specifications The table below shows the implementation specifications of bgp4pathttrtable. Table 2-33: Implementation Specifications of bgp4pathttrtable o. Object Identifier ccess Implementation Specifications Implemented 1 bgp4pathttrtable {bgp 6} [Standard] Table of path information to destination network received from all BGP4. 2 bgp4pathttrentry {bgp4pathttrtable 1} [Standard] List of path information to destination network. IDEX { bgp4pathttripddrprefix, bgp4pathttripddrprefixlen, bpg4pathttrpeer } 3 bgp4pathttrpeer {bgp4pathttrentry 1} [Standard] IP address of peer that learned path information. 4 bgp4pathttripddrprefixlen {bgp4pathttrentry 2} [Standard] Bit length of IP address of etwork Layer Reachability Information field. 5 bgp4pathttripddrprefix {bgp4pathttrentry 3} [Standard] IP address of etwork Layer Reachability Information field. 6 bgp4pathttrorigin {bgp4pathttrentry 4} [Standard] Origin of path information creation. igp (1) egp (2) incomplete (3) 7 bgp4pathttrspathsegment {bgp4pathttrentry 5} [Standard] Row of S path segment. 8 bgp4pathttrexthop {bgp4pathttrentry 6} [Standard] ddress of next border router in route. 58

77 2.11 bgp Group (BGP4 MIB) o. Object Identifier ccess Implementation Specifications Implemented 9 bgp4pathttrmultiexitdisc {bgp4pathttrentry 7} [Standard] Multi Exit attribute. -1 means no attribute. 10 bgp4pathttrlocalpref {bgp4pathttrentry 8} [Standard] Priority of creation origin BGP4 speaker. -1 means no attribute. 11 bgp4pathttrtomicggregate {bgp4pathttrentry 9} [Standard] tomicggregate attribute. lessspecificrrouteotselected (1) lessspecificrouteselected (2) 12 bgp4pathttrggregators {bgp4pathttrentry 10} [Standard] S number of last BGP4 speaker that aggregated routes. 13 bgp4pathttrggregatorddr {bgp4pathttrentry 11} [Standard] IP address of last BGP4 speaker that aggregated routes means no attribute. 14 bgp4pathttrcalclocalpref {bgp4pathttrentry 12} [Standard] Priority calculated for advertised route according to receive BGP4 speaker. -1 means no attribute. 15 bgp4pathttrbest {bgp4pathttrentry 13} [Standard] Shows whether this route was selected as best route of BGP4. false (1) true (2) 16 bgp4pathttrunknown {bgp4pathttrentry 14} [Standard] One or more path attributes that this BGP4 speaker cannot understand. 59

78 2.12 rmon Group (Remote etwork Monitoring MIB) 2.12 rmon Group (Remote etwork Monitoring MIB) The document related to the rmon group is given below. RFC Ethernet Statistics Group (1) Identifier rmon OBJECT IDETIFIER ::= {mib-2 16} statistics OBJECT IDETIFIER ::= {rmon 1} Object ID values etherstatstable OBJECT IDETIFIER ::= {statistics 1} Object ID values (2) Implementation specifications The table below shows the implementation specifications of Ethernet Statistics group. Table 2-34: Implementation Specifications of Ethernet Statistics Group o. Object Identifier ccess Implementation Specifications Implemented 1 etherstatstable {statistics 1} [Standard] Shows table on statistics information in Ethernet interface. 2 etherstatsentry {etherstatstable 1} [Standard] Shows entry that puts statistics information on specific Ethernet interface in memory. IDEX { etherstatsindex } 3 etherstatsindex {etherstatsentry 1} [Standard] Index value that shows specific etherstats entry. Range of values: 1 to etherstatsdatasource {etherstatsentry 2} [Standard] Shows interface object ID of this information. Object instance: ifindex of MIB-II interfaces group. However, it is Read_Only. 5 etherstatsdropevents {etherstatsentry 3} [Standard] umber of packet drop events due to resource shortage. umber of detected drops, not actual drops. 6 etherstatsoctets {etherstatsentry 4} [Standard] umber of octets (bytes) received in network including bad packets. [Implementation] umber of octets (bytes) sent and received in network including bad packets. For calculating the number of octets, the range between MC header and FCS in the frame length is used. 7 etherstatspkts {etherstatsentry 5} [Standard] Total number of packets received including bad packets, broadcast packets, and multicast packets. [Implementation] Total number of packets sent and received including bad packets, broadcast packets, and multicast packets. 8 etherstatsbroadcastpkts {etherstatsentry 6} [Standard] umber of broadcast packets received not including bad and multicast packets. [Implementation] umber of broadcast packets sent and received not including bad and multicast packets. 60

79 2.12 rmon Group (Remote etwork Monitoring MIB) o. Object Identifier ccess Implementation Specifications Implemented 9 etherstatsmulticastpkts {etherstatsentry 7} [Standard] umber of multicast packets received not including bad and broadcast packets. [Implementation] umber of multicast packets sent and received not including bad and broadcast packets. Pause packet [CB 2000] : not including. [CB 320] : including. 10 etherstatscrclignerro rs {etherstatsentry 8} [Standard] umber of FCS error packets received. [Implementation] gigabitethernet: umber of received packets with FCS errors for the frame length smaller than the receivable frame length that is 64 bytes or above or received packets larger than the receivable frame. tengigabitethernet: umber of received packets with FCS errors for the frame length smaller than the receivable frame length that is 64 bytes or above or received alignment error packets with all lengths. 11 etherstatsundersizepkts {etherstatsentry 9} 12 etherstatsoversizepkts {etherstatsentry 10} [Standard] umber of short packets (frame length smaller than 64 octets) received. [Standard] umber of oversized packets (frame length larger than 1518 octets) received. [Implementation] umber of oversized packets (larger than the maximum frame length) received. 13 etherstatsfragments {etherstatsentry 11} [Standard] mong short packets (frame length smaller than 64 octets) received, packets with FCS error or lignment error. [Implementation] mong short packets (frame length smaller than 64 octets) received, packets with FCS error 14 etherstatsjabbers {etherstatsentry 12} [Standard] mong oversized packets (larger than the maximum frame length) received, packets with FCS error or lignment error. [Implementation] gigabitethernet: 0 fixed. tengigabitethernet:oversized packets (larger than the maximum data length), FCS error. 15 etherstatscollisions {etherstatsentry 13} [Standard] umber of collisions. 16 etherstatspkts64octets {etherstatsentry 14} [Standard] umber of packets of 64 octets length frame received. [Implementation] umber of packets of 64 octets length frame sent and received. 17 etherstatspkts65to127o ctets {etherstatsentry 15} [Standard] umber of packets of 65 to 127 octets length frame received. [Implementation] umber of packets of 65 to 127 octets length frame sent and received. 18 etherstatspkts128to255 Octets {etherstatsentry 16} [Standard] umber of packets of 128 to 255 octets length frame received. [Implementation] umber of packets of 128 to 255 octets length frame sent and received. 19 etherstatspkts256to511 Octets {etherstatsentry 17} [Standard] umber of packets of 256 to 511 octets length frame received. [Implementation] umber of packets of 256 to 511 octets length frame sent and received. 20 etherstatspkts512to1023 Octets {etherstatsentry 18} [Standard] umber of packets of 512 to 1023 octets length frame received. [Implementation] umber of packets of 512 to 1023 octets length frame sent and received. 21 etherstatspkts1024to151 8Octets {etherstatsentry 19} [Standard] umber of packets of 1024 to 1518 octets length frame received. [Implementation] umber of packets of 1024 to 1518 octets length frame sent and received. 61

80 2.12 rmon Group (Remote etwork Monitoring MIB) o. Object Identifier ccess Implementation Specifications Implemented 22 etherstatsowner {etherstatsentry 20} [Standard] Owner that allocated entity and resources which configure entry. [Implementation] Responds with "system" and character string. However, it is Read_Only. 23 etherstatsstatus {etherstatsentry 21} [Standard] Entry status. valid (1) createrequest (2) undercreation (3) invalid (4) [Implementation] valid (1) fixed. However, it is Read_Only. ote: The frame length is from the MC header to FCS. For the frame format, see "Configuration Settings, Vol. 1, MC/LLC Sub-layer Control" History Control Group (1) Identifier rmon OBJECT IDETIFIER ::= {mib-2 16} history OBJECT IDETIFIER ::= {rmon 2} Object ID values historycontroltable OBJECT IDETIFIER ::= {history 1} Object ID values (2) Implementation specifications The table below shows the implementation specifications of History Control group. Table 2-35: Implementation Specifications of History Control Group o. Object Identifier ccess Implementation Specifications Implemented 1 historycontroltable {history 1} [Standard] History control table of Ethernet statistics information. 2 historycontrolentry {historycontroltable 1} [Standard] List of history control tables of Ethernet statistics information. IDEX { historycontrolindex } However, up to 32 entries. 3 historycontrolindex {historycontrolentry 1} [Standard] Index value showing specific historycontrol entry. Range of values: 1 to R/W [Standard] Shows interface object ID of this information. Object 4 historycontroldatasource {historycontrolentry 2} * instance: ifindex of MIB-II interfaces group. 5 historycontrolbucketsrequest ed {historycontrolentry 3} * R/W [Standard] umber of data demands placed in etherhistorytable memory (default: 50). Range of values: 1 to historycontrolbucketsgranted {historycontrolentry 4} [Standard] umber of data approvals placed in etherhistorytable memory. Range of values: 1 to [Implementation] Same value as historycontrolbucketsrequested. However, if historycontrolbucketsrequested is 50 or more, 50 is fixed. R/W [Standard] Sampling interval of data placed in etherhistorytable 7 historycontrolinterval {historycontrolentry 5} * memory (unit: second(s)). Range of values: 1 to 3600 (default: 1800) 62

81 2.12 rmon Group (Remote etwork Monitoring MIB) o. Object Identifier ccess Implementation Specifications Implemented R/W [Standard] Owner that allocates entity and resources which 8 historycontrolowner {historycontrolentry 6} * configure entry. [Implementation] Character string of 24 characters or less can be read and written. 9 historycontrolstatus {historycontrolentry 7} R/W [Standard] Entry status. valid (1) createrequest (2) undercreation (3) invalid (4) [Implementation] When adding to this entry, first Set createrequest (2). Set MIB in entry and Set valid (1) at end. When deleting, Set invalid (4). When Get is given after createrequest (2) is Set, response is undercreation (3), and when Get is given after valid (1) is Set, response is valid (1). valid (1): It is possible to acquire statistics information of interfaces that can be acquired with historycontroldatasource and sampling is possible during the historycontrolinterval. invalid (4): Statistical information of interface cannot be acquired. Sampling is also not possible during historyinterval. * Configuration command rmon collection history is also available for setting Ethernet History Group (1) Identifier rmon OBJECT IDETIFIER ::= {mib-2 16} history OBJECT IDETIFIER ::= {rmon 2} Object ID values etherhistorytable OBJECT IDETIFIER ::= {history 2} Object ID values (2) Implementation specifications The table below shows the implementation specifications of Ethernet History group. Table 2-36: Implementation Specifications of Ethernet History Group o. Object Identifier ccess Implementation Specifications Implemented 1 etherhistorytable {history 2} [Standard] History table of Ethernet statistics information. 2 etherhistoryentry {etherhistorytable 1} [Standard] List of history tables of Ethernet statistics information. IDEX { etherhistoryindex, etherhistorysampleindex } 3 etherhistoryindex {etherhistoryentry 1} [Standard] Same as index value of historycontrolindex. Range of values: 1 to etherhistorysampleindex {etherhistoryentry 2} [Standard] With unique value among values of same etherhistoryindex, values set from 1 in order. Range of values: 1 to etherhistoryintervalstart {etherhistoryentry 3} [Standard] cquisition start time for statistics information (unit: 1/100 sec). 63

82 2.12 rmon Group (Remote etwork Monitoring MIB) o. Object Identifier ccess Implementation Specifications Implemented 6 etherhistorydropevents {etherhistoryentry 4} [Standard] umber of times packet drops detected during sampling. 7 etherhistoryoctets {etherhistoryentry 5} [Standard] umber of octets (in byte(s)) received in specific time. Includes bad packets. [Implementation] umber of octets (in byte(s)) sent/received in specific time. For calculating the number of octets, the range between MC header and FCS in the frame length is used. 8 etherhistorypkts {etherhistoryentry 6} [Standard] Total packets received in specific time. Includes bad packets, broadcast packets, multicast packets. [Implementation] Total packets sent/received in specific time. 9 etherhistorybroadcastpkt s {etherhistoryentry 7} [Standard] umber of broadcast packets received in specific time. bad and multicast packets not included. [Implementation] umber of broadcast packets sent/received in specific time. 10 etherhistorymulticastpkts {etherhistoryentry 8} [Standard] umber of multicast packets received in specific time. bad and broadcast packets not included. [Implementation] umber of multicast packets sent/received in specific time Pause packet [CB 2000] : not including. [CB 320] : including. 11 etherhistorycrcligner rors {etherhistoryentry 9} [Standard] umber of FCS error packets received in specific time. 12 etherhistoryundersizepkt s {etherhistoryentry 10} [Standard] umber of short packets (frame length smaller than 64 octets) received for the specified duration of time. 13 etherhistoryoversizepkts {etherhistoryentry 11} [Standard] umber of oversized packets (frame length larger than 1518 octets) received within a particular time [Implementation] umber of oversized packets (larger than the maximum frame length) received within a particular time 14 etherhistoryfragments {etherhistoryentry 12} [Standard] mong short packets (frame length smaller than 64 octets) received within the specified duration of time, packets with FCS error or lignment error. 15 etherhistoryjabbers {etherhistoryentry 13} [Standard] mong oversized packets (larger than the maximum frame length) received within the specified duration of time, packets with FCS error or lignment error. [Implementation] mong oversized packets (larger than the maximum frame length) received within the specified duration of time, packets with FCS error or lignment error. 16 etherhistorycollisions {etherhistoryentry 14} [Standard] umber of collisions in specific time. 17 etherhistoryutilization {etherhistoryentry 15} [Standard] Estimates usage of physical layer. Range of values: 0 to [Implementation] Shows usage. Usage of half duplex line is calculated as {number of packets ( ) + (number of octets 0.8)} / {time interval line speed} Usage of full duplex line is calculated as {number of packets ( ) + (number of octets 0.8)} / {time interval line speed} 2} ote: The frame length is from the MC header to FCS. For the frame format, see "Configuration Settings, Vol. 1, MC/LLC Sub-layer Control". 64

83 2.12 rmon Group (Remote etwork Monitoring MIB) larm Group (1) Identifier rmon OBJECT IDETIFIER ::= {mib-2 16} alarm OBJECT IDETIFIER ::= {rmon 3} Object ID values alarmtable OBJECT IDETIFIER ::= {alarm 1} Object ID values (2) Implementation specifications The table below shows the implementation specifications of larm group. Table 2-37: Implementation Specifications of larm Group o. Object Identifier ccess Implementation Specifications Implemented 1 alarmtable {alarm 1} [Standard] larm table. 2 alarmentry {alarmtable 1} [Standard] List of alarm tables. IDEX { alarmindex } However, up to 128 entries. 3 alarmindex {alarmentry 1} [Standard] Identifier that discriminates line entries in alarmtable. Range of values: 1 to R/W [Standard] Interval for comparing with threshold (unit: second(s)). 4 alarminterval {alarmentry 2} *1 Setting range: 1 to (2 32-1) *2 5 alarmvariable R/W [Standard] Object identifier of sampled MIB. {alarmentry 3} *1 R/W [Standard] Specifies the method for comparing the value with the 6 alarmsampletype {alarmentry 4} *1 threshold value. absolutevalue (1) deltavalue (2) 7 alarmvalue {alarmentry 5} [Standard] Statistical value of previous sampling. R/W [Standard] Timing of first alarm generation. 8 alarmstartuplarm {alarmentry 6} *1 risinglarm (1) fallinglarm (2) rising Or fallinglarm (3) 9 alarmrisingthreshold R/W [Standard] Rising threshold for sampled statistic. {alarmentry 7} *1 *2 10 alarmfallingthreshold {alarmentry 8} *1 R/W [Standard] Falling threshold for sampled statistic. *2 R/W [Standard] Index number of event group used when rising threshold 11 alarmrisingeventindex {alarmentry 9} *1 exceeded. Setting range: 0 to R/W [Standard] Index number of event group used when falling threshold 12 alarmfallingeventindex {alarmentry 10} *1 exceeded. Setting range: 0 to

84 2.12 rmon Group (Remote etwork Monitoring MIB) o. Object Identifier ccess Implementation Specifications Implemented R/W [Standard] Owner that allocated entity and resources which configure 13 alarmowner {alarmentry 11} *1 entry. [Implementation] Character string of 24 characters or less can be read and written. 14 alarmstatus {alarmentry 12} R/W [Standard] Indicates the state of entry. [Implementation] When adding to this entry, first Set createrequest (2). Set MIB in entry and Set valid (1) at end. When deleting, Set invalid (4). When Get is given after createrequest (2) is Set, response is undercreation (3), and when Get is given after valid (1) is Set, response is valid (1). valid (1): Sampling of object information set in alarmvariable is possible during alarminterval. invalid (4): Objects set in alarmvariable do not exist. Or, sampling was not possible during alarminterval. *1 Can be set by configuration command rmon alarm as well. *2 Setting with the configuration displays , and the displayed value is incremented by one with the setting value increases. If " " is set, "-1" is displayed Event Group (1) Identifier rmon OBJECT IDETIFIER ::= {mib-2 16} event OBJECT IDETIFIER ::= {rmon 9} Object ID values eventtable OBJECT IDETIFIER ::= {event 1} Object ID values (2) Implementation specifications The table below shows the implementation specifications of Event group. Table 2-38: Implementation Specifications of Event Group o. Object Identifier ccess Implementation Specifications Implemented 1 eventtable {event 1} [Standard] Event table generated by agent RMO 2 evententry {eventtable 1} [Standard] Event list generated by agent RMO. IDEX { eventindex } However, up to 16 entries. 3 eventindex {evententry 1} [Standard] Index value of evententry list. Equal to logeventindex of logentry list. Setting range: 1 to R/W [Standard] Explanation of this list. Character string of 127 characters or 4 eventdescription {evententry 2} * less. [Implementation] Character string of 79 characters or less. R/W [Standard] otification method of event. 5 eventtype {evententry 3} * none (1) log (2) snmp-trap (3) log-and-trap (4) 66

85 2.12 rmon Group (Remote etwork Monitoring MIB) o. Object Identifier ccess Implementation Specifications Implemented R/W [Standard] Community name of Trap issued when Trap specified for 6 eventcommunity {evententry 4} * eventtype. Character string of 127 characters or less. [Implementation] Character string of 60 characters or less. 7 eventlasttimesent {evententry 5} [Standard] sysuptime value when event was generated at end (unit: 1/100 sec). R/W [Standard] Owner that allocates entity and resources which configure entry. 8 eventowner {evententry 6} * Max. 127 characters. [Implementation] Character string of 24 characters or less can be read and written. 9 eventstatus {evententry 7} R/W [Standard] Status of this entry. valid (1) createrequest (2) undercreation (3) invalid (4) [Implementation] When adding to this entry, first Set createrequest (2). Set MIB in entry and Set valid (1) at end. When deleting, Set invalid (4). When Get is given after createrequest (2) is Set, response is undercreation (3), and when Get is given after valid (1) is Set, response is valid (1). 10 logtable {event 2} [Standard] Logged event table. 11 logentry {logtable 1} [Standard] Logged event list. IDEX { logeventindex, logindex } However, up to 128 entries. 12 logeventindex {logentry 1} [Standard] Index showing the event that generated this log. This value shows the event with same value as eventindex. Range of values: 1 to logindex {logentry 2} [Standard] Index of the log for same event. Range of values: 1 to logtime {logentry 3} [Standard] sysuptime value when this log list generated. 15 logdescription {logentry 4} [Standard] Comment concerning the event that was at the origin of this log list. Character string of up to 255 characters [Implementation] Responds by character string of 72 characters or less. *1 Can be set by configuration command rmon event as well. 67

86 2.13 dot1dbridge Group 2.13 dot1dbridge Group The document related to the dot1dbridge group is given below. RFC1493.txt RFC1525.txt RFC dot1dbase Group (1) Identifier dot1dbridge OBJECT IDETIFIER ::= {mib-2 17} dot1dbase OBJECT IDETIFIER ::= {dot1dbridge 1} Object ID values (2) Implementation specifications The table below shows the implementation specifications of dot1dbase group. Table 2-39: Implementation Specifications of dot1dbase Group o. Object Identifier ccess Implementation Specifications Implemented 1 dot1dbasebridgeddress {dot1dbase 1} [Standard] Bridge MC address. 2 dot1dbaseumports {dot1dbase 2} [Standard] Bridge port number. 3 dot1dbasetype {dot1dbase 3} [Standard] Bridge type executable by bridge. unknown (1) transparent-only (2) sourceroute-only (3) srt (4) [Implementation] transparent-only (2) fixed. 4 dot1dbaseporttable {dot1dbase 4} [Standard] Table of various port information of the bridge. 5 dot1dbaseportentry {dot1dbaseporttable 1} [Standard] List of various port information of the bridge. IDEX { dot1dbaseport } 6 dot1dbaseport {dot1dbaseportentry 1} [Standard] Port number of port (1 to 65535). 7 dot1dbaseportifindex {dot1dbaseportentry 2} [Standard] Value of the object instance defined in MIB-II by interfaces for this port. 8 dot1dbaseportcircuit {dot1dbaseportentry 3} [Standard] Identifiers of the ports with the same instance value set by dot1dbaseportifindex. [Implementation] {0.0} fixed. 9 dot1dbaseportdelayexce ededdiscards {dot1dbaseportentry 4} [Standard] Total number of frames discarded by transit delay. [Implementation] Fixed to dot1dbaseportmtuexceed eddiscards {dot1dbaseportentry 5} [Standard] Total number of frames discarded by data overflow. 68

87 2.13 dot1dbridge Group dot1dstp Group (1) Identifier dot1dbridge OBJECT IDETIFIER ::= {mib-2 17} dot1dstp OBJECT IDETIFIER ::= {dot1dbridge 2} Object ID value (2) Implementation specifications The table below shows the implementation specifications of dot1dstp group. Table 2-40: Implementation Specifications of dot1dstp Group o. Object Identifier ccess Implementation Specifications Implemented 1 dot1dstpprotocolspecifica tion {dot1dstp 1} [Standard] Spanning tree version executed by the bridge. unknown (1) declb100 (2) ieee8021d (3) [Implementation] 3 fixed. 2 dot1dstppriority {dot1dstp 2} [Standard] Bridge priority value (0 to 65535). 3 dot1dstptimesincetopolo gychange {dot1dstp 3} [Standard] Elapsed time since occurrence of topology change (unit: 1/100 sec). 4 dot1dstptopchanges {dot1dstp 4} [Standard] umber of topology changes. 5 dot1dstpdesignatedroot {dot1dstp 5} [Standard] Value of root bridge identifier retained by the bridge. 6 dot1dstprootcost {dot1dstp 6} [Standard] Value of route path cost retained by the bridge. 7 dot1dstprootport {dot1dstp 7} [Standard] Value of route port retained by the bridge. Zero is displayed if route port does not exist. 8 dot1dstpmaxge {dot1dstp 8} [Standard] Maximum age retained by the bridge (unit: 1/100 sec). 9 dot1dstphellotime {dot1dstp 9} [Standard] Hello time retained by the bridge (unit: 1/100 sec). 10 dot1dstpholdtime {dot1dstp 10} [Standard] Hold time retained by the bridge (unit: 1/100 sec). 11 dot1dstpforwarddelay {dot1dstp 11} 12 dot1dstpbridgemaxge {dot1dstp 12} [Standard] Transfer delay time retained by the bridge (unit: 1/100 sec). [Standard] Maximum age set in the bridge (600 to 4000, unit: 1/100 sec). 13 dot1dstpbridgehellotime {dot1dstp 13} [Standard] Hello time set in the bridge (100 to 1000, unit: 1/100 sec). 14 dot1dstpbridgeforwardde lay {dot1dstp 14} [Standard] Transfer delay time set in the bridge (400 to 3000, unit: 1/ 100 sec). 15 dot1dstpporttable {dot1dstp 15} [Standard] Table of port information for spanning tree protocol. 69

88 2.13 dot1dbridge Group o. Object Identifier ccess Implementation Specifications Implemented 16 dot1dstpportentry {dot1dstpporttable 1} [Standard] List of information by port relating to spanning tree protocol status. IDEX { ifindex } 17 dot1dstpport {dot1dstpportentry 1} 18 dot1dstpportpriority {dot1dstpportentry 2} [Standard] Port number of ports subject to spanning tree (1 to 65535). [Standard] Priority of port (0 to 255). 19 dot1dstpportstate {dot1dstpportentry 3} [Standard] Current port status. disabled (1) blocking (2) listening (3) learning (4) forwarding (5) broken (6) 20 dot1dstpportenable {dot1dstpportentry 4} [Standard] Port enabled/disabled status. enabled (1) disabled (2) 21 dot1dstpportpathcost {dot1dstpportentry 5} [Standard] Port path cost (1 to 65535). [Implementation] 0 to Zero is displayed if the port link is down. 22 dot1dstpportdesignatedr oot {dot1dstpportentry 6} [Standard] Root bridge identifier in configuration BPDU. 23 dot1dstpportdesignatedc ost {dot1dstpportentry 7} [Standard] Designated port path cost. 24 dot1dstpportdesignatedbr idge {dot1dstpportentry 8} [Standard] Bridge identifier of the designated bridge. 25 dot1dstpportdesignatedpo rt {dot1dstpportentry 9} [Standard] Port identifier of the designated bridge. SIZE (2) 26 dot1dstpportforwardtrans itions {dot1dstpportentry 10} [Standard] umber of transitions of the port from learn status to transfer status dot1dtp Group (1) Identifier dot1dbridge OBJECT IDETIFIER ::= {mib-2 17} dot1dtp OBJECT IDETIFIER ::= {dot1dbridge 4} Object ID values (2) Implementation specifications The table below shows the implementation specifications of dot1dtp group. 70

89 2.13 dot1dbridge Group Table 2-41: Implementation Specifications of dot1dtp Group o. Object Identifier ccess Implementation Specifications Implemented 1 dot1dtplearnedentrydisca rds {dot1dtp 1} [Standard] umber of forwarding information discarded due to the lack of space to store it in the forwarding database. [Implementation] Fixed to 0. 2 dot1dtpgingtime {dot1dtp 2} [Standard] Timeout period to age out dynamically learned forwarding information (10 to , unit: second(s)). However, 0 if aging is not provided in the configuration. 3 dot1dtpfdbtable {dot1dtp 3} [Standard] Table of unicast entry information having filtering information. [Implementation] Unused. 4 dot1dtpfdbentry {dot1dtpfdbtable 1} [Standard] Unicast MC address information having filtering information. IDEX { dot1dtpfdbddress } [Implementation] Unused. 5 dot1dtpfdbddress {dot1dtpfdbentry 1} [Standard] Unicast MC address information having filtering information. [Implementation] Unused. 6 dot1dtpfdbport {dot1dtpfdbentry 2} [Standard] Port number of ports transmitting frames having the same destination address as the instance value compatible with dot1dtpfdbddress. [Implementation] Unused. 7 dot1dtpfdbstatus {dot1dtpfdbentry 3} [Standard] MC address table state other (1) invalid (2) learned (3) self (4) mgmt (5) [Implementation] Unused. 8 dot1dtpporttable {dot1dtp 4} [Standard] Table of information of all ports. 9 dot1dtpportentry {dot1dtpporttable 1} [Standard] List of information of all ports. IDEX { dot1dtpport } 10 dot1dtpport {dot1dtpportentry 1} [Standard] Port number indicating the port to which management information including this entry applies (1 to 65535). 11 dot1dtpportmaxinfo {dot1dtpportentry 2} [Standard] Maximum size of the send and receive information field of this port. 12 dot1dtpportinframes {dot1dtpportentry 3} [Standard] umber of received frames of this port. 13 dot1dtpportoutframes {dot1dtpportentry 4} [Standard] umber of transmitted frames of this port. 14 dot1dtpportindiscards {dot1dtpportentry 5} [Standard] umber of effective received frames discarded. 15 dot1dtphcporttable {dot1dtp 5} [Standard] Table of high capacity port information. 16 dot1dtphcportentry {dot1dtphcporttable 1} [Standard] List of high capacity port information. IDEX { dot1dtpport } 17 dot1dtphcportinframes {dot1dtphcportentry 1} [Standard] umber of frames received by high capacity ports. 71

90 2.13 dot1dbridge Group o. Object Identifier ccess Implementation Specifications Implemented 18 dot1dtphcportoutframes {dot1dtphcportentry 2} [Standard] umber of frames transmitted by high capacity ports. 19 dot1dtphcportindiscards {dot1dtphcportentry 3} [Standard] umber of frames received and discarded by high capacity ports. 20 dot1dtpportoverflowtable {dot1dtp 6} [Standard] Table of overflow information of high capacity ports. 21 dot1dtpportoverflowentry {dot1dtpportoverflowtabl e 1} [Standard] List of overflow information of high capacity ports. IDEX { dot1dtpport } 22 dot1dtpportinoverflowfra mes {dot1dtpportoverflowentr y 1} [Standard] Overflow count of dot1dtpportinframes counter. 23 dot1dtpportoutoverflowf rames {dot1dtpportoverflowentr y 2} [Standard] Overflow count of dot1dtpportoutframes counter. 24 dot1dtpportinoverflowdis cards {dot1dtpportoverflowentr y 3} [Standard] Overflow count of dot1dtpportindiscards counter pbridgemib Group (1) Identifier dot1dbridge OBJECT IDETIFIER ::= {mib-2 17} pbridgemib OBJECT IDETIFIER ::= {dot1dbridge 6} Object ID values pbridgemibobjects OBJECT IDETIFIER ::= {pbridgemib 1} dot1dextbase OBJECT IDETIFIER ::= {pbridgemibobjects 1} dot1dpriority OBJECT IDETIFIER ::= {pbridgemibobjects 2} dot1dgarp OBJECT IDETIFIER ::= {pbridgemibobjects 3} dot1dgmrp OBJECT IDETIFIER ::= {pbridgemibobjects 4} pbridgeconformance OBJECT IDETIFIER ::= {pbridgemib 2} pbridgegroups OBJECT IDETIFIER ::= {pbridgeconformance 1} pbridgecompliances OBJECT IDETIFIER ::= {pbridgeconformance 2} (2) Implementation specifications The table below shows the implementation specifications of pbridgemib group. 72

91 2.13 dot1dbridge Group Table 2-42: Implementation Specifications of pbridgemib Group o. Object Identifier ccess Implementation Specifications Implemented 1 dot1ddevicecapabilities {dot1dextbase 1} [Standard] IEEE 802.1D and 802.1Q options installed in the system. dot1dextendedfilteringservices (0) dot1dtrafficclasses (1) dot1qstaticentryindividualport (2) dot1qivlcapable (3) dot1qsvlcapable (4) dot1qhybridcapable (5) dot1qconfigurablepvidtagging (6) dot1dlocalvlancapable (7) [Implementation] dot1dtrafficclasses (1) dot1qivlcapable (3) dot1qconfigurablepvidtagging (6) Displayed as a character by the manager. 2 dot1dtrafficclassesenabled {dot1dextbase 2} [Standard] Bridge traffic class support status. true (1) false (2) [Implementation] true (1) 3 dot1dgmrpstatus {dot1dextbase 3} [Standard] Status of GMRP. enabled (1) disabled (2) [Implementation] disabled (2) 4 dot1dportcapabilitiestable {dot1dextbase 4} [Standard] Table of port capability information. 5 dot1dportcapabilitiesentry {dot1dportcapabilitiestable 1} [Standard] List of port capability information. 6 dot1dportcapabilities {dot1dportcapabilitiesentry 1} [Standard] Port IEEE 802.1D and 802.1Q status. dot1qdot1qtagging (0) dot1qconfigurablecceptableframetypes (1) dot1qingressfiltering (2) [Implementation] dot1qingressfiltering (2) Displayed as a character by the manager. 7 dot1dportprioritytable {dot1dpriority 1} [Standard] Table of port priority information. 8 dot1dportpriorityentry {dot1dportprioritytable 1} [Standard] List of port priority information. 9 dot1dportdefaultuserpriorit y {dot1dportpriorityentry 1} 10 dot1dportumtrafficclasse s {dot1dportpriorityentry 2} [Standard] Port default ingress user priority (0 to 7). [Implementation] 0 [Standard] Port ingress traffic class number (1 to 8). [Implementation] 1 11 dot1dtrafficclasstable {dot1dpriority 3} [Standard] Table of traffic class information. 12 dot1dtrafficclassentry {dot1dtrafficclasstable 1} [Standard] List of traffic class information. IDEX { dot1dbaseport, dot1dtrafficclasspriority } 13 dot1dtrafficclasspriority {dot1dtrafficclassentry 1} 14 dot1dtrafficclass {dot1dtrafficclassentry 2} [Standard] Traffic class priority (0 to 7). [Standard] Traffic class (0 to 7). 73

92 2.13 dot1dbridge Group qbridgemib Group (1) Identifier dot1dbridge OBJECT IDETIFIER ::= {mib-2 17} qbridgemib OBJECT IDETIFIER ::= {dot1dbridge 7} Object ID values qbridgemibobjects OBJECT IDETIFIER ::= {qbridgemib 1} dot1qbase OBJECT IDETIFIER ::= {qbridgemibobjects 1} dot1qtp OBJECT IDETIFIER ::= {qbridgemibobjects 2} dot1qstatic OBJECT IDETIFIER ::= {qbridgemibobjects 3} dot1qvlan OBJECT IDETIFIER ::= {qbridgemibobjects 4} qbridgeconformance OBJECT IDETIFIER ::= {qbridgemib 2} qbridgegroups OBJECT IDETIFIER ::= {qbridgeconformance 1} qbridgecompliances OBJECT IDETIFIER ::= {qbridgeconformance 2} dot1dportpair OBJECT IDETIFIER ::= {dot1dbridge 10} (2) Implementation specifications The table below shows the implementation specifications of qbridgemib group. Table 2-43: Implementation Specifications of qbridgemib Group o. Object Identifier ccess Implementation Specifications Implemented 1 dot1qvlanversionumber {dot1qbase 1} [Standard] IEEE 802.1Q version number. version1 (1) [Implementation] 1 2 dot1qmaxvlanid {dot1qbase 2} [Standard] IEEE 802.1Q VL ID maximum number. [Implementation] dot1qmaxsupportedvlans {dot1qbase 3} [Standard] IEEE 802.1Q VL maximum number. [Implementation] dot1qumvlans {dot1qbase 4} [Standard] IEEE 802.1Q VL current number. 5 dot1qgvrpstatus {dot1qbase 5} [Standard] GVRP management status. [Implementation] disabled (2) 6 dot1qfdbtable {dot1qtp 1} [Standard] Table of MC address table 7 dot1qfdbentry {dot1qfdbtable 1} [Standard] MC address table list IDEX { dot1qfdbid } 8 dot1qfdbid {dot1qfdbentry 1} [Standard] MC address table identifier 9 dot1qfdbdynamiccount {dot1qfdbentry 2} [Standard] umber of dynamic entries in MC address table [Implementation] Fixed to dot1qtpfdbtable {dot1qtp 2} [Standard] Table of transparent MC address table information. * 11 dot1qtpfdbentry {dot1qtpfdbtable 1} [Standard] List of transparent MC address table information. IDEX { dot1qfdbid, dot1qtpfdbddress } * 12 dot1qtpfdbddress {dot1qtpfdbentry 1} [Standard] Unicast MC addresses in the transparent MC address table * 13 dot1qtpfdbport {dot1qtpfdbentry 2} [Standard] Port number in the transparent MC address table (0 to 65535). * 74

93 2.13 dot1dbridge Group o. Object Identifier ccess Implementation Specifications Implemented 14 dot1qtpfdbstatus {dot1qtpfdbentry 3} [Standard] MC address table state other (1) invalid (2) learned (3) self (4) mgmt (5) [Implementation] For dynamic entry, returns learned (3). [Implementation] For any other entry, returns mgmt (5). * 15 dot1qtpgrouptable {dot1qtp 3} [Standard] Table of transparent group information. [Implementation] Unused. 16 dot1qtpgroupentry {dot1qtpgrouptable 1} [Standard] List of transparent group information. IDEX { dot1qvlanindex, dot1qtpgroupddress } [Implementation] Unused. 17 dot1qtpgroupddress {dot1qtpgroupentry 1} [Standard] Destination MC addresses in transparent groups. [Implementation] Unused. 18 dot1qtpgroupegressports {dot1qtpgroupentry 2} [Standard] ll sets of ingress ports in transparent groups. [Implementation] Unused. 19 dot1qtpgrouplearnt {dot1qtpgroupentry 3} [Standard] Learned port sub-sets in transparent groups. [Implementation] Unused. 20 dot1qforwardlltable {dot1qtp 4} [Standard] Table of forwarding information of all VLs transferring multicast. [Implementation] Unused. 21 dot1qforwardllentry {dot1qforwardlltable 1} [Standard] List of forwarding information of all VLs transferring multicast. IDEX { dot1qvlanindex } [Implementation] Unused. 22 dot1qforwardllports {dot1qforwardllentry 1} [Standard] ll sets of ports of all VLs transferring multicast group addresses. [Implementation] Unused. 23 dot1qforwardllstaticports {dot1qforwardllentry 2} [Standard] Sets of static ports of all VLs transferring multicast group addresses. [Implementation] Unused. 24 dot1qforwardllforbiddenp orts {dot1qforwardllentry 3} [Standard] Sets of ports of all VLs not transferring multicast group addresses. [Implementation] Unused. 25 dot1qforwardunregisteredta ble {dot1qtp 5} [Standard] Table of forwarding information of VLs transferring unregistered multicast group addresses. 26 dot1qforwardunregistereden try {dot1qforwardunregisteredt able 1} [Standard] List of forwarding information of VLs transferring unregistered multicast group addresses. IDEX { dot1qvlanindex } 27 dot1qforwardunregisteredpo rts {dot1qforwardunregisterede ntry 1} [Standard] ll sets of ports of VLs transferring unregistered multicast group addresses. 28 dot1qforwardunregisteredst aticports {dot1qforwardunregisterede ntry 2} [Standard] Sets of static ports of VLs transferring unregistered multicast group addresses. 29 dot1qforwardunregisteredfo rbiddenports {dot1qforwardunregisterede ntry 3} [Standard] Sets of static ports of VLs not transferring unregistered multicast groups. 75

94 2.13 dot1dbridge Group o. Object Identifier ccess Implementation Specifications Implemented 30 dot1qstaticunicasttable {dot1qstatic 1} [Standard] Table of filtering information of static unicast MC addresses. 31 dot1qstaticunicastentry {dot1qstaticunicasttable 1} [Standard] List of filtering information of static unicast MC addresses. IDEX dot1qfdbid dot1qstaticunicastddress, dot1qstaticunicastreceiveport } 32 dot1qstaticunicastddress {dot1qstaticunicastentry 1} [Standard] Destination MC addresses of static unicast addresses. 33 dot1qstaticunicastreceivepo rt {dot1qstaticunicastentry 2} [Standard] umber of port receiving static unicast addresses (0 to 65535). [Implementation] 0 34 dot1qstaticunicastllowedt ogoto {dot1qstaticunicastentry 3} [Standard] Sets of ports flooding static unicast addresses. 35 dot1qstaticunicaststatus {dot1qstaticunicastentry 4} [Standard] Entry status of static unicast addresses. other (1) invalid (2) permanent (3) deleteonreset (4) deleteontimeout (5) [Implementation] permanent (3) fixed. 36 dot1qstaticmulticasttable {dot1qstatic 2} [Standard] Table of filtering information of VLs transferring static multicast and broadcast MC addresses. 37 dot1qstaticmulticastentry {dot1qstaticmulticasttable 1} [Standard] List of filtering information of VLs transferring static multicast and broadcast MC addresses. IDEX dot1qvlanindex dot1qstaticmulticastddress, dot1qstaticmulticastreceiveport } 38 dot1qstaticmulticastddress {dot1qstaticmulticastentry 1} [Standard] Static multicast or broadcast destination MC addresses. 39 dot1qstaticmulticastreceive Port {dot1qstaticmulticastentry 2} [Standard] umber of port receiving static multicast or broadcast MC addresses. (0 to 65535) 40 dot1qstaticmulticaststaticeg ressports {dot1qstaticmulticastentry 3} [Standard] Sets of ports transferring static multicast or broadcast MC addresses. 41 dot1qstaticmulticastforbidde negressports {dot1qstaticmulticastentry 4} [Standard] Sets of ports not transferring static multicast or broadcast MC addresses. 76

95 2.13 dot1dbridge Group o. Object Identifier ccess Implementation Specifications Implemented 42 dot1qstaticmulticaststatus {dot1qstaticmulticastentry 5} [Standard] Static multicast or broadcast entry status. other (1) invalid (2) permanent (3) deleteonreset (4) deleteontimeout (5) [Implementation] permanent (3) fixed. 43 dot1qvlanumdeletes {dot1qvlan 1} [Standard] umber of deleted VL entries. 44 dot1qvlancurrenttable {dot1qvlan 2} [Standard] Table of current VL configuration information. [Implementation] Unused. 45 dot1qvlancurrententry {dot1qvlancurrenttable 1} [Standard] List of current VL configuration information. IDEX { dot1qvlantimemark, dot1qvlanindex } [Implementation] Unused. 46 dot1qvlantimemark {dot1qvlancurrententry 1} [Standard] Entry time filter. [Implementation] Unused. 47 dot1qvlanindex {dot1qvlancurrententry 2} [Standard] VL ID. [Implementation] Unused. 48 dot1qvlanfdbid {dot1qvlancurrententry 3} [Standard] MC address table ID used by VL. [Implementation] Unused. 49 dot1qvlancurrentegressport s {dot1qvlancurrententry 4} [Standard] Sets of ports of VLs transmitting tagged or untagged frame traffic. [Implementation] Unused. 50 dot1qvlancurrentuntaggedp orts {dot1qvlancurrententry 5} [Standard] Sets of ports of VLs transmitting untagged frame traffic. [Implementation] Unused. 51 dot1qvlanstatus {dot1qvlancurrententry 6} [Standard] VL Status. other (1) permanent (2) dynamicgvrp (3) [Implementation] Unused. 52 dot1qvlancreationtime {dot1qvlancurrententry 7} [Standard] sysuptime value at the time of VL creation. [Implementation] Unused. 53 dot1qvlanstatictable {dot1qvlan 3} [Standard] Table of VL static configuration information. 54 dot1qvlanstaticentry {dot1qvlanstatictable 1} [Standard] List of VL static configuration information. IDEX { dot1qvlanindex } 55 dot1qvlanstaticame {dot1qvlanstaticentry 1} [Standard] VL static identifier name. 56 dot1qvlanstaticegressports {dot1qvlanstaticentry 2} [Standard] Sets of ports on the VL static egress list. 57 dot1qvlanforbiddenegressp orts {dot1qvlanstaticentry 3} [Standard] Sets of ports in which the entry to the egress list of VL is prohibited. 58 dot1qvlanstaticuntaggedpor ts {dot1qvlanstaticentry 4} [Standard] Sets of untagged ports transmitting VL egress packets. 59 dot1qvlanstaticrowstatus {dot1qvlanstaticentry 5} [Standard] Entry status. 77

96 2.13 dot1dbridge Group o. Object Identifier ccess Implementation Specifications Implemented 60 dot1qextfreelocalvlanind ex {dot1qvlan 4} [Standard] VL index that can be used next (0 or 4096 to ). [Implementation] 0 or dot1qportvlantable {dot1qvlan 5} [Standard] Table of port VL configuration information. 62 dot1qportvlanentry {dot1qportvlantable 1} [Standard] List of port VL configuration information. 63 dot1qpvid {dot1qportvlanentry 1} [Standard] PVID VL assigned to untagged or priority tagged frames. 64 dot1qportcceptableframet ypes {dot1qportvlanentry 2} [Standard] Determines the type of frame that can be received by the port. admitll (1) admitonlyvlantagged (2) [Implementation] admitll (1). 65 dot1qportingressfiltering {dot1qportvlanentry 3} [Standard] Filters frames entering the port. 66 Dot1qPortGvrpStatus {dot1qportvlanentry 4} [Standard] Port GVRP status. [Implementation] disabled (2) 67 Dot1qPortGvrpFailedRegistr ations {dot1qportvlanentry 5} [Standard] Total port GVRP failed registration count. [Implementation] Unused. 68 dot1qportgvrplastpduorigin {dot1qportvlanentry 6} [Standard] Source MC address of the last GVRP received by the port. [Implementation] Unused. 69 dot1qportvlanstatisticstable {dot1qvlan 6} [Standard] Port VL statistics information table. 70 dot1qportvlanstatisticsentry {dot1qportvlanstatisticstabl e 1} [Standard] Port VL statistics information list. IDEX { dot1dbaseport, dot1qvlanindex } 71 dot1qtpvlanportinframes {dot1qportvlanstatisticsentr y 1} [Standard] umber of effective frames received by the VL port. [Implementation] Fixed to 0. B 72 dot1qtpvlanportoutframes {dot1qportvlanstatisticsentr y 2} [Standard] umber of effective frames transmitted by the VL port. [Implementation] Fixed to 0. B 73 dot1qtpvlanportindiscards {dot1qportvlanstatisticsentr y 3} [Standard] umber of effective frames received and discarded by the VL port. [Implementation] Fixed to 0. B 74 dot1qtpvlanportinoverflow Frames {dot1qportvlanstatisticsentr y 4} [Standard] Overflow count of dot1qtpvlanportinframes counter. [Implementation] Fixed to 0. B 75 dot1qtpvlanportoutoverflo wframes {dot1qportvlanstatisticsentr y 5} [Standard] Overflow count of dot1qtpvlanportoutframes counter. [Implementation] Fixed to 0. B 76 dot1qtpvlanportinoverflow Discards {dot1qportvlanstatisticsentr y 6} [Standard] Overflow count of dot1qtpvlanportindiscardsd counter. [Implementation] Fixed to 0. B 78

97 2.13 dot1dbridge Group o. Object Identifier ccess Implementation Specifications Implemented 77 dot1qportvlanhcstatisticsta ble {dot1qvlan 7} [Standard] Table of port VL high capacity statistics information. 78 dot1qportvlanhcstatisticse ntry {dot1qportvlanhcstatisticst able 1} [Standard] List of port VL high capacity statistics information. IDEX { dot1dbaseport, dot1qvlanindex } 79 dot1qtpvlanporthcinframe s {dot1qportvlanhcstatisticse ntry 1} [Standard] umber of effective frames received by the VL port. [Implementation] Fixed to 0. B 80 dot1qtpvlanporthcoutfra mes {dot1qportvlanhcstatisticse ntry 2} [Standard] umber of effective frames transmitted by the VL port. [Implementation] Fixed to 0. B 81 dot1qtpvlanporthcindiscar ds {dot1qportvlanhcstatisticse ntry 3} [Standard] umber of effective frames received and discarded by the VL port. [Implementation] Fixed to 0. B 82 dot1qlearningconstraintstab le {dot1qvlan 8} [Standard] Learning constraint table. 83 dot1qlearningconstraintsent ry {dot1qlearningconstraintsta ble 1} [Standard] Learning constraint list. IDEX { dot1qconstraintvlan, dot1qconstraintset } 84 dot1qconstraintvlan {dot1qlearningconstraintse ntry 1} [Standard] VLs constrained by entries. 85 dot1qconstraintset {dot1qlearningconstraintse ntry 2} [Standard] Constraint set identifier (0 to 65535). 86 dot1qconstrainttype {dot1qlearningconstraintse ntry 3} [Standard] Constraint type. independent (1) shared (2) [Implementation] independent (1) fixed. 87 dot1qconstraintstatus {dot1qlearningconstraintse ntry 4} [Standard] Constraint status. 88 dot1qconstraintsetdefault {dot1qvlan 9} [Standard] Constraint set default value (0 to 65535). [Implementation] 0 89 dot1qconstrainttypedefault {dot1qvlan 10} [Standard] Constraint set type. independent (1) shared (2) [Implementation] independent (1) fixed. * : When the clear mac-address-table command is acquired immediately after execution, the clearness of mac-address-table information might not be reflected. 79

98 2.14 ifmib Group (Interfaces Group MIB) 2.14 ifmib Group (Interfaces Group MIB) The document related to the ifmib group is given below. RFC2233 (ovember 1997) ifmib (for Ethernet) The following is an explanation of the ifmib group shown below. 10BSE-T/100BSE-TX/1000BSE-T SERDES 10GBSE-R (1) Identifier ifmib OBJECT IDETIFIER ::= {mib-2 31} ifmibobjects OBJECT IDETIFIER ::= {ifmib 1} Object ID values (2) Implementation specifications The table below shows the implementation specifications of ifmib groups for Ethernet. Table 2-44: Implementation Specifications of ifmib Group (for Ethernet) o. Object Identifier ccess Implementation Specifications Implemented 1 ifxtable {ifmibobjects 1} [Standard] Table of additional objects related to the interface entity. 2 ifxentry {ifxtable 1} [Standard] dditional list of the interface information. UGMETS {ifentry} 3 ifame {ifxentry 1} [Standard] Interface name. [Implementation] Interface name set in the configuration 4 ifinmulticastpkts {ifxentry 2} [Standard] umber of multicast packets notified to the upper layer protocol. [Implementation] Dependent on the interface. For ifindex of port: Same as standard. For ifindex of VL: 0 fixed. For ifindex of link aggregation: Same as standard. 5 ifinbroadcastpkts {ifxentry 3} [Standard] umber of broadcast packets notified to the upper layer protocol. [Implementation] Dependent on the interface. For ifindex of port: Same as standard. For ifindex of VL: 0 fixed. For ifindex of link aggregation: Same as standard. 6 ifoutmulticastpkts {ifxentry 4} [Standard] umber of multicast packets transmitted by the upper layer. [Implementation] Dependent on the interface. For ifindex of port: Same as standard. For ifindex of VL: 0 fixed. For ifindex of link aggregation: Same as standard. 7 ifoutbroadcastpkts {ifxentry 5} [Standard] umber of broadcast packets transmitted by the upper layer. [Implementation] Dependent on the interface. For ifindex of port: Same as standard. For ifindex of VL: 0 fixed. For ifindex of link aggregation: Same as standard. 80

99 2.14 ifmib Group (Interfaces Group MIB) o. Object Identifier ccess Implementation Specifications Implemented 8 ifhcinoctets {ifxentry 6} [Standard] umber of octets received by this interface. The 64-bit version of ifinoctets. [Implementation] Dependent on the interface. For ifindex of port: Total number of received octets in frame length from the D field of MC header to FCS. For ifindex of VL: 0 fixed. For ifindex of link aggregation: The number of received octets in frame length from the D field of MC header to FCS. 9 ifhcinucastpkts {ifxentry 7} [Standard] umber of unicast packets notified to the upper layer protocol. The 64-bit version of ifinucastpkts. [Implementation] Dependent on the interface. For ifindex of port: Same as standard. For ifindex of VL: 0 fixed. For ifindex of link aggregation: Same as standard. 10 ifhcinmulticastpkts {ifxentry 8} [Standard] umber of multicast packets notified to the upper layer protocol. The 64-bit version of ifinmulticastpkts. [Implementation] Dependent on the interface. For ifindex of port: Same as standard. For ifindex of VL: 0 fixed. For ifindex of link aggregation: Same as standard. 11 ifhcinbroadcastpkts {ifxentry 9} [Standard] umber of broadcast packets notified to the upper layer protocol. The 64-bit version of ifinbroadcastpkts. [Implementation] Dependent on the interface. For ifindex of port: Same as standard. For ifindex of VL: 0 fixed. For ifindex of link aggregation: Same as standard. 12 ifhcoutoctets {ifxentry 10} [Standard] umber of octets transmitted by this interface. The 64-bit version of ifoutoctets. [Implementation] Dependent on the interface. For ifindex of port: Total number of sent octets from the D field of MC header to FCS. For ifindex of VL: 0 fixed. For ifindex of link aggregation: umber of sent octets from D field of MC header to FCS. 13 ifhcoutucastpkts {ifxentry 11} [Standard] umber of unicast packets transmitted by the upper layer. The 64-bit version of ifoutucastpkts. [Implementation] Dependent on the interface. For ifindex of port: 0 fixed. For ifindex of VL: 0 fixed. For ifindex of link aggregation: 0 fixed. B 14 ifhcoutmulticastpk ts {ifxentry 12} [Standard] umber of multicast packets transmitted by the upper layer. The 64-bit version of ifoutmulticastpkts. [Implementation] Dependent on the interface. For ifindex of port: Same as standard. For ifindex of VL: 0 fixed. For ifindex of link aggregation: Same as standard. 15 ifhcoutbroadcastpk ts {ifxentry 13} [Standard] umber of broadcast packets transmitted by the upper layer. The 64-bit version of ifoutbroadcastpkts. [Implementation] Dependent on the interface. For ifindex of port: Same as standard. For ifindex of VL: 0 fixed. For ifindex of link aggregation: Same as standard. 81

100 2.14 ifmib Group (Interfaces Group MIB) o. Object Identifier ccess Implementation Specifications Implemented 16 iflinkupdowntrap Enable {ifxentry 14} [Standard] Indicates whether this interface will notify the trap by using LinkUp/LinkDown. enable (1) disable (2) [Implementation] Dependent on the interface. For ifindex of port: Same as standard. For ifindex of VL: Same as standard. For ifindex of link aggregation: Same as standard. 17 ifhighspeed {ifxentry 15} [Standard] The current line speed of this interface (Mbit/s). Figures smaller than Mbit/s are rounded up. [Implementation] Dependent on the interface. For ifindex of port: If configuration command "bandwidth" is not set, line speed of the interface is displayed. If it is set, the set value is displayed. For ifindex of VL: 0 fixed. For ifindex of link aggregation: Port at the highest line speed among the ports belonging to a channel group 18 ifpromiscuousmode {ifxentry 16} [Standard] Receiving mode true (1) false (2) [Implementation] Dependent on the interface. For ifindex of port: true (1) when brouter is set, false (2) when brouter is not set. For ifindex of VL: false (2). For ifindex of link aggregation: false (2). 19 ifconnectorpresent {ifxentry 17} [Standard] Being connected with the physical line. true (1) false (2) [Implementation] Dependent on the interface. For ifindex of port: true (1). For ifindex of VL: false (2). For ifindex of link aggregation: false (2). 20 iflias {ifxentry 18} [Standard] lias name defined by the network manager. [Implementation] Supplementary explanation given in each interface in the configuration. 21 ifcounterdiscontinui tytime {ifxentry 19} [Standard] sysuptime when the counter information is discontinued. [Implementation] Dependent on the interface. For ifindex of port: 0 fixed. For ifindex of VL: 0 fixed. For ifindex of link aggregation: 0 fixed. B 82

101 2.15 ipv6mib Group (IPv6 MIB) 2.15 ipv6mib Group (IPv6 MIB) The document related to the ipv6mib group is given below. RFC2465 (December 1998) ipv6mib (1) Identifier ipv6mib OBJECT IDETIFIER ::= {mib-2 55} ipv6mibobjects OBJECT IDETIFIER ::= {ipv6mib 1} Object ID values ipv6forwarding OBJECT IDETIFIER ::= {ipv6mibobjects 1} Object ID values (2) Implementation specifications The table below shows the implementation specifications of ipv6mib. Table 2-45: Implementation Specifications of ipv6mib o. Object Identifier ccess Implementation Specifications Implemented 1 ipv6forwarding {ipv6mibobjects 1} [Standard] Sets or does not set an IPv6 relay function. forwarding (1) notforwarding (2) However, it is Read_Only. 2 ipv6defaulthoplimit {ipv6mibobjects 2} [Standard] Default value set to the Hop Limit field in an IPv6 header. DEFVL {64} [Implementation] 64 fixed. However, it is Read_Only. 3 ipv6interfaces {ipv6mibobjects 3} [Standard] Total number of IPv6 interfaces. 4 ipv6iftablelastchange {ipv6mibobjects 4} [Standard] sysuptime value to which ipv6iftable was most recently updated ipv6iftable (1) Identifier ipv6mib OBJECT IDETIFIER ::= {mib-2 55} ipv6mibobjects OBJECT IDETIFIER ::= {ipv6mib 1} Object ID values ipv6iftable OBJECT IDETIFIER ::= {ipv6mibobjects 5} Object ID values (2) Implementation specifications The table below shows the implementation specifications of ipv6iftable. 83

102 2.15 ipv6mib Group (IPv6 MIB) Table 2-46: Implementation Specifications of ipv6iftable o. Object Identifier ccess Implementation Specifications Implemented 1 ipv6iftable {ipv6mibobjects 5} [Standard] Table of network layer interface (V6). 2 ipv6ifentry {ipv6iftable 1} [Standard] Entry of network layer interface (V6). IDEX { ipv6ifindex } 3 ipv6ifindex {ipv6ifentry 1} [Standard] Index number of IPv6 interface. 4 ipv6ifdescr {ipv6ifentry 2} [Standard] Information (character) of IPv6 interface. However, it is Read_Only. 5 ipv6iflowerlayer {ipv6ifentry 3} [Standard] ObjectID indicating the layer just under network interface layer. 6 ipv6ifeffectivemtu {ipv6ifentry 4} [Standard] MTU length (octet length) that can be sent and received using the corresponding interface. 7 ipv6ifreasmmaxsize {ipv6ifentry 5} [Standard] Maximum IPv6 datagram length in which the datagram received using the corresponding interface can be reassembled. [Implementation] fixed. 8 ipv6ifidentifier {ipv6ifentry 6} [Standard] ddress token of the corresponding interface. The address token can be acquired by the UP of the corresponding interface. However, it is Read_Only. 9 ipv6ifidentifierlength {ipv6ifentry 7} [Standard] Bit length of address token in the corresponding interface. [Implementation] 64 fixed. However, it is Read_Only. 10 ipv6ifphysicalddress {ipv6ifentry 8} [Standard] Physical address of corresponding interface. 11 ipv6ifdminstatus {ipv6ifentry 9} [Standard] ctive state of corresponding interface. up (1) down (2) However, it is Read_Only. 12 ipv6ifoperstatus {ipv6ifentry 10} [Standard] Operating state of corresponding interface. up (1) down (2) noifidentifier (3) unknown (4) notpresent (5) [Implementation] Returns up (1), down (2), or testing (3). 13 ipv6iflastchange {ipv6ifentry 11} [Standard] sysuptime value when the operating state of the corresponding interface was most recently changed ipv6ifstatstable (1) Identifier ipv6mib OBJECT IDETIFIER ::= {mib-2 55} ipv6mibobjects OBJECT IDETIFIER ::= {ipv6mib 1} Object ID values ipv6ifstatstable OBJECT IDETIFIER ::= {ipv6mibobjects 6} Object ID values

103 2.15 ipv6mib Group (IPv6 MIB) (2) Implementation specifications The table below shows the implementation specifications of ipv6ifstatstable. Table 2-47: Implementation Specifications of ipv6ifstatstable o. Object Identifier ccess Implementation Specifications Implemented 1 ipv6ifstatstable {ipv6mibobjects 6} [Standard] Statistics information table of IPv6 interface traffic. 2 ipv6ifstatsentry {ipv6ifstatstable 1} [Standard] Statistics information entry of IPv6 interface traffic. IDEX { ipv6ifindex } 3 ipv6ifstatsinreceives {ipv6ifstatsentry 1} [Standard] Total number of received datagram items. 0 fixed. B 4 ipv6ifstatsinhdrerrors {ipv6ifstatsentry 2} [Standard] umber of received datagram items discarded due to the error of an IPv6 header. 0 fixed. B 5 ipv6ifstatsintoobigerrors {ipv6ifstatsentry 3} [Standard] umber of received datagram items that could not be relayed because the MTU length was exceeded. 6 ipv6ifstatsinoroutes {ipv6ifstatsentry 4} [Standard] umber of received datagram items discarded because the corresponding route does not exist. 7 ipv6ifstatsinddrerrors {ipv6ifstatsentry 5} [Standard] umber of received datagram items discarded because an IPv6 address is invalid. 8 ipv6ifstatsinunknownprot os {ipv6ifstatsentry 6} [Standard] umber of received datagram items discarded because of an unsupported protocol. 9 ipv6ifstatsintruncatedpkt s {ipv6ifstatsentry 7} [Standard] umber of received datagram items discarded because of incomplete data. 10 ipv6ifstatsindiscards {ipv6ifstatsentry 8} [Standard] umber of received datagram items in which no problem exists, but were discarded because of insufficient resources. 0 fixed. B 11 ipv6ifstatsindelivers {ipv6ifstatsentry 9} [Standard] umber of datagram items (including ICMP) reported to the IPv6 upper layer. 12 ipv6ifstatsoutforwdatagr ams {ipv6ifstatsentry 10} [Standard] umber of datagram items that were relayed for transmission. 0 fixed. B 13 ipv6ifstatsoutrequests {ipv6ifstatsentry 11} [Standard] umber of datagram items (including ICMP) to be transmitted from a source IPv6 protocol. 14 ipv6ifstatsoutdiscards {ipv6ifstatsentry 12} [Standard] umber of transmitted datagram items in which no problem exists, but were discarded because of insufficient resources. 0 fixed. B 15 ipv6ifstatsoutfragoks {ipv6ifstatsentry 13} [Standard] umber of datagram items that succeeded in fragmentation 1 using an output interface. 16 ipv6ifstatsoutfragfails {ipv6ifstatsentry 14} [Standard] umber of transmitted datagram items that failed in fragmentation. 17 ipv6ifstatsoutfragcreates {ipv6ifstatsentry 15} [Standard] umber of transmitted datagram fragments produced as a result of fragmentation. 85

104 2.15 ipv6mib Group (IPv6 MIB) o. Object Identifier ccess Implementation Specifications Implemented 18 ipv6ifstatsreasmreqds {ipv6ifstatsentry 16} [Standard] umber of datagram fragments requiring the reassembling in an interface. 19 ipv6ifstatsreasmoks {ipv6ifstatsentry 17} [Standard] umber of datagram items that succeeded in reassembling. 20 ipv6ifstatsreasmfails {ipv6ifstatsentry 18} [Standard] umber of times that failed in reassembling. 21 ipv6ifstatsinmcastpkts {ipv6ifstatsentry 19} [Standard] umber of received multicast packets. 0 fixed. B 22 ipv6ifstatsoutmcastpkts {ipv6ifstatsentry 20} [Standard] umber of transmitted multicast packets. 0 fixed. B ipv6ddrprefixtable (1) Identifier ipv6mib OBJECT IDETIFIER ::= {mib-2 55} ipv6mibobjects OBJECT IDETIFIER ::= {ipv6mib 1} Object ID values ipv6ddrprefixtable OBJECT IDETIFIER ::= {ipv6mibobjects 7} Object ID values (2) Implementation specifications The table below shows the implementation specifications of ipv6ddrprefixtable. The prefix information supported by the MIB is the prefix information distributed by R (router advertisement). Table 2-48: Implementation Specifications of ipv6ddrprefixtable o. Object Identifier ccess Implementation Specifications Implemented 1 ipv6ddrprefixtable {ipv6mibobjects 7} [Standard] Table of address prefix in IPv6 interface. 2 ipv6ddrprefixentry {ipv6ddrprefixtable 1} [Standard] Entry of address prefix. IDEX { ipv6ifindex, ipv6ddrprefix, ipv6ddrprefixlength } 3 ipv6ddrprefix {ipv6ddrprefixentry 1} [Standard] prefix of this interface. 4 ipv6ddrprefixlength {ipv6ddrprefixentry 2} [Standard] Length of prefix (unit: bit). 5 ipv6ddrprefixonlinkflag {ipv6ddrprefixentry 3} [Standard] utonomous address flag. true (1) false (2) 6 ipv6ddrprefixutonomousflag {ipv6ddrprefixentry 4} [Standard] utonomous address flag. true (1) false (2) 86

105 2.15 ipv6mib Group (IPv6 MIB) o. Object Identifier ccess Implementation Specifications Implemented 7 ipv6ddrprefixdvpreferredlifetime {ipv6ddrprefixentry 5} [Standard] Preferred lifetime (unit: second(s)). 8 ipv6ddrprefixdvvalidlifetime {ipv6ddrprefixentry 6} [Standard] Valid lifetime (unit: second(s)) ipv6ddrtable (1) Identifier ipv6mib OBJECT IDETIFIER ::= {mib-2 55} ipv6mibobjects OBJECT IDETIFIER ::= {ipv6mib 1} Object ID values ipv6ddrtable OBJECT IDETIFIER ::= {ipv6mibobjects 8} Object ID values (2) Implementation specifications The table below shows the implementation specifications of ipv6ddrtable. Table 2-49: Implementation Specifications of ipv6ddrtable o. Object Identifier ccess Implementation Specifications Implemented 1 ipv6ddrtable {ipv6mibobjects 8} [Standard] Interface address table. 2 ipv6ddrentry {ipv6ddrtable 1} [Standard] Interface address entry. IDEX { ipv6ifindex, ipv6ddrddress } 3 ipv6ddrddress {ipv6ddrentry 1} [Standard] IPv6 address. 4 ipv6ddrpfxlength {ipv6ddrentry 2} [Standard] prefix length. 5 ipv6ddrtype {ipv6ddrentry 3} [Standard] ddress type. stateless (1) stateful (2) unknown (3) 6 ipv6ddrnycastflag {ipv6ddrentry 4} [Standard] Flag indicating whether this IPv6 address is an nycast address or not. true (1) false (2) 7 ipv6ddrstatus {ipv6ddrentry 5} [Standard] ddress status. preferred (1) deprecated (2) invalid (3) inaccessible (4) unknown (5) 8 ipv6routeumber {ipv6mibobjects 9} [Standard] Total number of valid V6 routing entries. 9 ipv6discardedroutes {ipv6mibobjects 10} [Standard] Total number of V6 routing entries that are valid, but were discarded. 87

106 2.15 ipv6mib Group (IPv6 MIB) ipv6routetable (1) Identifier ipv6mib OBJECT IDETIFIER ::= {mib-2 55} ipv6mibobjects OBJECT IDETIFIER ::= {ipv6mib 1} Object ID values ipv6routetable OBJECT IDETIFIER ::= {ipv6mibobjects 11} Object ID values (2) Implementation specifications The table below shows the implementation specifications of ipv6routetable. Table 2-50: Implementation Specifications of ipv6routetable o. Object Identifier ccess Implementation Specifications Implemented 1 ipv6routetable {ipv6mibobjects 11} [Standard] IPv6 routing table. 2 ipv6routeentry {ipv6routetable 1} [Standard] IPv6 routing entry. IDEX { ipv6routedest, ipv6routepfxlength, ipv6routeindex } 3 ipv6routedest {ipv6routeentry 1} [Standard] V6Dest address. 4 ipv6routepfxlength {ipv6routeentry 2} [Standard] prefix length (bit length). 5 ipv6routeindex {ipv6routeentry 3} [Standard] Index of route. [Implementation] 1 fixed. 6 ipv6routeifindex {ipv6routeentry 4} [Standard] IPv6 interface index. 7 ipv6routeexthop {ipv6routeentry 5} [Standard] ext hop. Set to "::0" when no next hop exists. 8 ipv6routetype {ipv6routeentry 6} [Standard] Type of route. other (1) discard (2) local (3) remote (4) 9 ipv6routeprotocol {ipv6routeentry 7} [Standard] Routing mechanism in which this route was learned. other (1) local (2) netmgmt (3) ndisc (4) rip (5) ospf (6) bgp (7) idrp (8) igrp (9) [Implementation] ll routes except those below: other (1) Direct routes: local (2) Static routes: netmgmt (3) RIPng routes: rip (5) OSPFv3 routes: ospf (6) BGP4+ routes: bgp (7) 88

107 2.15 ipv6mib Group (IPv6 MIB) o. Object Identifier ccess Implementation Specifications Implemented 10 ipv6routepolicy {ipv6routeentry 8} [Standard] Route policy. [Implementation] Fixed to 0. B 11 ipv6routege {ipv6routeentry 9} [Standard] Time passed, since ipv6routege was most recently updated (unit: second(s)). 12 ipv6routeexthoprdi {ipv6routeentry 10} [Standard] RDI of next hop. [Implementation] Fixed to 0. B 13 ipv6routemetric {ipv6routeentry 11} [Standard] Routing metric. 14 ipv6routeweight {ipv6routeentry 12} [Standard] Priority of route (the lower the value the higher its priority). [Implementation] Fixed to 0. B 15 ipv6routeinfo {ipv6routeentry 13} [Standard] Reference to routing protocol MIB in which this router was learned. [Implementation] {0.0} fixed. 16 ipv6routevalid {ipv6routeentry 14} [Standard] Flag indicating whether this IPv6 router is valid or not. DEFVL {true} [Implementation] true fixed. However, it is Read_Only ipv6ettomediatable (1) Identifier ipv6mib OBJECT IDETIFIER ::= {mib-2 55} ipv6mibobjects OBJECT IDETIFIER ::= {ipv6mib 1} Object ID values ipv6ettomediatable OBJECT IDETIFIER ::= {ipv6mibobjects 12} Object ID values (2) Implementation specifications The table below shows the implementation specifications of ipv6ettomediatable. Table 2-51: Implementation Specifications of ipv6ettomediatable o. Object Identifier ccess Implementation Specifications Implemented 1 ipv6ettomediatable {ipv6mibobjects 12} [Standard] IPv6 address conversion table. 2 ipv6ettomediaentry {ipv6ettomediatable 1} [Standard] Entry (including one IPv6 address) corresponding to the physical address. IDEX { ipv6ifindex, ipv6ettomediaetddress } 3 ipv6ettomediaetddress {ipv6ettomediaentry 1} [Standard] IPv6 address corresponding to the media dependent physical address. 4 ipv6ettomediaphysddress {ipv6ettomediaentry 2} [Standard] Media dependent physical address. 5 ipv6ettomediatype {ipv6ettomediaentry 3} [Standard] Type of mapping. other (1) dynamic (2) static (3) local (4) 89

108 2.15 ipv6mib Group (IPv6 MIB) o. Object Identifier ccess Implementation Specifications Implemented 6 ipv6ifettomediastate {ipv6ettomediaentry 4} [Standard] Reachable state of each entry in DP table. reachable (1) stale (2) delay (3) probe (4) invalid (5) unknown (6) 7 ipv6ifettomedialastupdated {ipv6ettomediaentry 5} [Standard] sysuptime when each entry in an DP table was most recently updated. [Implementation] Fixed to 0. 8 ipv6ettomediavalid {ipv6ettomediaentry 6} [Standard] Flag indicating whether this entry is valid or not. DEFVL {true} [Implementation] true fixed. However, it is Read_Only. 90

109 2.16 ipv6icmpmib Group (ICMPv6 MIB) 2.16 ipv6icmpmib Group (ICMPv6 MIB) The document related to the ipv6icmpmib group is given below. RFC2466 (December 1998) (1) Identifier ipv6icmpmib MODULE-IDETITY ::= {mib-2 56} ipv6icmpmibobjects OBJECT IDETIFIER ::= {ipv6icmpmib 1} Object ID values (2) Implementation specifications The table below shows the implementation specifications of ipv6icmpmib group. Table 2-52: Implementation Specifications of ipv6icmpmib Group o. Object Identifier ccess Implementation Specifications Implemented 1 ipv6ificmptable {ipv6icmpmibobjects 1} [Standard] Statistics information of IPv6 ICMP. 2 ipv6ificmpentry {ipv6ificmptable 1} [Standard] Statistics information entry of ICMPv6. IDEX { ipv6ifentry } 3 ipv6ificmpinmsgs {ipv6ificmpentry 1} [Standard] Total number of ICMP messages (including an error) received using this interface. 4 ipv6ificmpinerrors {ipv6ificmpentry 2} [Standard] Total number of messages in which an error was detected using the received ICMP message. 5 ipv6ificmpindestunreachs {ipv6ificmpentry 3} [Standard] umber of received DestUnreachs messages. 6 ipv6ificmpindminprohibs {ipv6ificmpentry 4} [Standard] Total number of received dminprohibit messages in DestUnreachs. 7 ipv6ificmpintimeexcds {ipv6ificmpentry 5} [Standard] umber of received TimeExceed messages. 8 ipv6ificmpinparmproblems {ipv6ificmpentry 6} [Standard] umber of received ParmProblem messages. 9 ipv6ificmpinpkttoobigs {ipv6ificmpentry 7} [Standard] umber of received PktTooBig messages. 10 ipv6ificmpinechos {ipv6ificmpentry 8} [Standard] umber of received Echo messages. 11 ipv6ificmpinechoreplies {ipv6ificmpentry 9} [Standard] umber of received EchoReply messages. 12 ipv6ificmpinroutersolicits {ipv6ificmpentry 10} [Standard] umber of received RouterSolicit messages. 13 ipv6ificmpinrouterdvertise ments {ipv6ificmpentry 11} [Standard] umber of received Routerdvertisement messages. 14 ipv6ificmpineighborsolicits {ipv6ificmpentry 12} [Standard] umber of received eighborsolicit messages. 91

110 2.16 ipv6icmpmib Group (ICMPv6 MIB) o. Object Identifier ccess Implementation Specifications Implemented 15 ipv6ificmpineighbordvert isements {ipv6ificmpentry 13} [Standard] umber of received eighbor dvertisement messages. 16 ipv6ificmpinredirects {ipv6ificmpentry 14} [Standard] umber of received Redirect messages. 17 ipv6ificmpingroupmembqu eries {ipv6ificmpentry 15} [Standard] umber of received GroupMemberQuery messages. 18 ipv6ificmpingroupmembres ponses {ipv6ificmpentry 16} [Standard] umber of received GroupMemberResponse messages. 19 ipv6ificmpingroupmembred uctions {ipv6ificmpentry 17} [Standard] umber of received GroupMemberReduction messages. 20 ipv6ificmpoutmsgs {ipv6ificmpentry 18} [Standard] Total number of ICMP messages (including an error) transmitted using this interface. 21 ipv6ificmpouterrors {ipv6ificmpentry 19} [Standard] Total number of messages in which an error was detected using the transmitted ICMP message. Moreover, it indicates the number of packets that result in errors when an IPv4 over IPv6 tunnel is set up in an interface with an MTU length shorter than ipv6ificmpoutdestunreachs {ipv6ificmpentry 20} [Standard] umber of transmitted DestUnreachs messages. 23 ipv6ificmpoutdminprohibs {ipv6ificmpentry 21} [Standard] Total number of transmitted dminprohibit messages in DestUnreachs. 24 ipv6ificmpouttimeexcds {ipv6ificmpentry 22} [Standard] umber of transmitted TimeExceed messages. 25 ipv6ificmpoutparmproblems {ipv6ificmpentry 23} [Standard] umber of transmitted ParmProblem messages. 26 ipv6ificmpoutpkttoobigs {ipv6ificmpentry 24} [Standard] umber of transmitted PktTooBig messages. 27 ipv6ificmpoutechos {ipv6ificmpentry 25} [Standard] umber of transmitted Echo messages. 28 ipv6ificmpoutechoreplies {ipv6ificmpentry 26} [Standard] umber of transmitted EchoReply messages. 29 ipv6ificmpoutroutersolicits {ipv6ificmpentry 27} [Standard] umber of transmitted RouterSolicit messages. 30 ipv6ificmpoutrouterdverti sements {ipv6ificmpentry 28} [Standard] umber of transmitted Routerdvertisement messages. 31 ipv6ificmpouteighborsolici ts {ipv6ificmpentry 29} [Standard] umber of transmitted eighborsolicit messages. 32 ipv6ificmpouteighbordve rtisements {ipv6ificmpentry 30} [Standard] umber of transmitted eighbor dvertisement messages. 33 ipv6ificmpoutredirects {ipv6ificmpentry 31} [Standard] umber of transmitted Redirect messages. 92

111 2.16 ipv6icmpmib Group (ICMPv6 MIB) o. Object Identifier ccess Implementation Specifications Implemented 34 ipv6ificmpoutgroupmembq ueries {ipv6ificmpentry 32} [Standard] umber of transmitted GroupMemberQuery messages. 35 ipv6ificmpoutgroupmembr esponses {ipv6ificmpentry 33} [Standard] umber of transmitted GroupMemberResponse messages. 36 ipv6ificmpoutgroupmembr eductions {ipv6ificmpentry 34} [Standard] umber of transmitted GroupMemberReduction messages. 93

112 2.17 vrrpmib Group 2.17 vrrpmib Group The document related to the vrrpmib group is given below. RFC2787(March 2000) draft-ietf-vrrp-unified-mib vrrpoperations Group (1) Identifier vrrpmib OBJECT IDETIFIER ::= {mib-2 68} vrrpoperations OBJECT IDETIFIER ::= {vrrpmib 1} Object ID values (2) Implementation specifications The table below shows the implementation specifications of vrrpoperations group. Table 2-53: Implementation Specifications of vrrpoperations Group o. Object Identifier ccess Implementation Specifications Implemented 1 vrrpodeversion {vrrpoperations 1} [Standard] VRRP version supported by this system. However, it is Read_Only. 2 vrrpotificationcntl {vrrpoperations 2} [Standard] Issuance of SMP extended trap for vrrp. enabled (1) disabled (2) However, it is Read_Only. 3 vrrpopertable {vrrpoperations 3} [Standard] Operation table for VRRP router. 4 vrrpoperentry {vrrpopertable 1} [Standard] Entry of vrrpoper table. IDEX { ifindex, vrrpopervrid } 5 vrrpopervrid {vrrpoperentry 1} [Standard] ID of virtual router. 6 vrrpopervirtualmacddr {vrrpoperentry 2} [Standard] Virtual MC address of virtual router. 7 vrrpoperstate {vrrpoperentry 3} [Standard] Current VRRP operation status. initialize (1) backup (2) master (3) However, it is Read_Only. 8 vrrpoperdminstate {vrrpoperentry 4} [Standard] enable/disable status of VRRP function. up (1) down (2) However, it is Read_Only. 9 vrrpoperpriority {vrrpoperentry 5} [Standard] Priority of virtual router. However, it is Read_Only. 10 vrrpoperipddrcount {vrrpoperentry 6} [Standard] IP address count of virtual router. [Implementation] 1 fixed. 11 vrrpopermasteripddr {vrrpoperentry 7} [Standard] Real IP address of Master router. 94

113 2.17 vrrpmib Group o. Object Identifier ccess Implementation Specifications Implemented 12 vrrpoperprimaryipddr {vrrpoperentry 8} [Standard] Real IP address to be used by virtual router. However, it is Read_Only. 13 vrrpoperuthtype {vrrpoperentry 9} [Standard] uthentication type of VRRP protocol exchanged between virtual routers. nouthentication (1): VRRP protocol exchanges are not authenticated. simpletextpassword (2): Exchanges are authenticated by a clear text password. iputhenticationheader (3): Exchanges are authenticated using the IP authentication header. [Implementation] Without authentication or text only. However, it is Read_Only. 14 vrrpoperuthkey {vrrpoperentry 10} [Standard] uthentication key set by vrrpoperuthtype value. [Implementation] The authentication key is not returned. 15 vrrpoperdvertisementinter val {vrrpoperentry 11} [Standard] Send interval of VRRP packet (unit: second(s)). However, it is Read_Only. 16 vrrpoperpreemptmode {vrrpoperentry 12} [Standard] Controls whether high priority virtual router acts as low priority virtual router. However, it is Read_Only. 17 vrrpopervirtualrouterupti me {vrrpoperentry 13} [Standard] Starting time of virtual router operation. However, it is Read_Only. 18 vrrpoperprotocol {vrrpoperentry 14} [Standard] Operation protocol of virtual router. ip (1) bridge (2) decnet (3) other (4) [Implementation] ip (1) fixed. However, it is Read_Only. 19 vrrpoperrowstatus {vrrpoperentry 15} [Standard] ccess status of vrrpopertable. However, it is Read_Only. 20 vrrpssoipddrtable {vrrpoperations 4} [Standard] IP address table of virtual router. 21 vrrpssoipddrentry {vrrpssoipddrtable 1} [Standard] Entry of vrrpssoipddr table. IDEX { ifindex, vrrpopervrid, vrrpssoipddr } 22 vrrpssoipddr {vrrpssoipddrentry 1} [Standard] IP address of virtual router. 23 vrrpssoipddrrowstatus {vrrpssoipddrentry 2} [Standard] ccess status of vrrpssoipddrtable. active (1) createndgo (4) [Implementation] active (1) fixed. However, it is Read_Only. 24 vrrptrappacketsrc {vrrpoperations 5} [Standard] IP address. 25 vrrptraputherrortype {vrrpoperations 6} [Standard] uthentication type unmatching cause invaliduthtype (1) authtypemismatch (2) authfailure (3) 26 vrrpoperationstable {vrrpoperations 7} [Standard] Operation table for VRRP router. 95

114 2.17 vrrpmib Group o. Object Identifier ccess Implementation Specifications Implemented 27 vrrpoperationsentry {vrrpoperationstable 1} [Standard] Entry of vrrpoper table. IDEX { vrrpoperationinetddrtype, vrrpoperationsvrid, ifindex } 28 vrrpoperationsinetddrtyp e {vrrpoperationsentry 1} [Standard] Current type ipv4 (1) ipv6 (2) 29 vrrpoperationsvrid {vrrpoperationsentry 2} [Standard] ID of virtual router. 30 vrrpoperationsvirtualmac ddr {vrrpoperationsentry 3} [Standard] Virtual MC address of virtual router. 31 vrrpoperationsstate {vrrpoperationsentry 4} [Standard] Current VRRP operation status. initialize (1) backup (2) master (3) 32 vrrpoperationspriority {vrrpoperationsentry 5} [Standard] Priority of virtual router. However, it is Read_Only. 33 vrrpoperationsversion {vrrpoperationsentry 6} [Standard] Version of VRRP being executed vrrpv2 (1) vrrpv3 (2) However, it is Read_Only. 34 vrrpoperationsddrcount {vrrpoperationsentry 7} [Standard] IP address count of virtual router. [Implementation] 1 fixed. 35 vrrpoperationsmasteripdd r {vrrpoperationsentry 9} [Standard] Real IP address of Master router. 36 vrrpoperationsprimaryipd dr {vrrpoperationsentry 10} [Standard] Real IP address to be used by virtual router. However, it is Read_Only. 37 vrrpoperationsdvinterval {vrrpoperationsentry 11} [Standard] Send interval of VRRP packet (unit: 1/100 sec). 1 to [Implementation] 100 to However, it is Read_Only. 38 vrrpoperationspreemptmod e {vrrpoperationsentry 12} [Standard] Controls whether high priority virtual router acts as low priority virtual router. However, it is Read_Only. 39 vrrpoperationscceptmode {vrrpoperationsentry 13} [Standard] Controls whether packets to the virtual IP are received by the user who is not the address owner. However, it is Read_Only. 40 vrrpoperationsuptime {vrrpoperationsentry 14} [Standard] Starting time of virtual router operation. 41 vrrpoperationsrowstatus {vrrpoperationsentry 15} [Standard] ccess status of vrrpopertable. However, it is Read_Only. 42 vrrpssociatedipddrtable {vrrpoperations 8} [Standard] IP address table of virtual router. 96

115 2.17 vrrpmib Group o. Object Identifier ccess Implementation Specifications Implemented 43 vrrpssociatedipddrentry {vrrpssociatedipddrtabl e 1} [Standard] Entry of vrrpssoipddr table. IDEX { vrrpssociatedinetddrtype, vrrpoperationsvrid, ifindex, vrrpssociatedipddr } 44 vrrpssociatedinetddrtyp e {vrrpssociatedipddrentr y2} [Standard] ddress type of vrrpssociatedipddr ipv4 (1) ipv6 (2) 45 vrrpssociatedipddr {vrrpssociatedipddrentr y 3} [Standard] IP address of virtual router. 46 vrrpssociatedipddrrows tatus {vrrpssociatedipddrentr y 4} [Standard] ccess status of vrrpssoipddrtable. active (1) createndgo (4) createndwait (5) [Implementation] active (1) fixed. However, it is Read_Only. 47 vrrptrapewmasterreason {vrrpoperations 9} [Standard] Timing of transition to master priority (0) prempted (1) masterpresponse (2) 48 vrrptrapprotoerrreason {vrrpoperations 10} [Standard] Reason for discarding the advertisement packet hoplimiterror (0) versionerror (1) checksumerror (2) vriderror (3) vrrpstatistics Group (1) Identifier vrrpmib OBJECT IDETIFIER ::= {mib-2 68} vrrpstatistics OBJECT IDETIFIER ::= {vrrpmib 2} Object ID values (2) Implementation specifications The table below shows the implementation specifications of vrrpstatistics group. Table 2-54: Implementation Specifications of vrrpstatistics Group o. Object Identifier ccess Implementation Specifications Implemented 1 vrrprouterchecksumerrors {vrrpstatistics 1} [Standard] Total received count of VRRP packet with illegal checksum. 2 vrrprouterversionerrors {vrrpstatistics 2} [Standard] Total received count of VRRP packet with illegal version. 3 vrrproutervriderrors {vrrpstatistics 3} [Standard] Total received count of VRRP packet with illegal VRID of virtual router. 97

116 2.17 vrrpmib Group o. Object Identifier ccess Implementation Specifications Implemented 4 vrrprouterstatstable {vrrpstatistics 4} [Standard] Statistics information table of virtual router. 5 vrrprouterstatsentry {vrrprouterstatstable 1} [Standard] Entry of vrrprouterstats table. IDEX { ifindex, vrrpopervrid } 6 vrrpstatsbecomemaster {vrrprouterstatsentry 1} [Standard] Moved count to Master. 7 vrrpstatsdvertisercvd {vrrprouterstatsentry 2} [Standard] Total received count of VRRP DVERTISEMET packet. 8 vrrpstatsdvertiseintervalerro rs {vrrprouterstatsentry 3} [Standard] Total received count of VRRP DVERTISEMET received by illegal DVERTISEMET interval. 9 vrrpstatsuthfailures {vrrprouterstatsentry 4} [Standard] Total received count of VRRP authentication error packet. 10 vrrpstatsipttlerrors {vrrprouterstatsentry 5} [Standard] Total received count of VRRP packets with illegal TTL. 11 vrrpstatspriorityzeropktsrcvd {vrrprouterstatsentry 6} [Standard] Total received count of VRRP packets with 0 priority. 12 vrrpstatspriorityzeropktssent {vrrprouterstatsentry 7} [Standard] Total sending count of VRRP packets with 0 priority. 13 vrrpstatsinvalidtypepktsrcvd {vrrprouterstatsentry 8} [Standard] Total received count of VRRP packets with illegal Type field. 14 vrrpstatsddresslisterrors {vrrprouterstatsentry 9} [Standard] Total received count of packets with illegal IP address of virtual router. 15 vrrpstatsinvaliduthtype {vrrprouterstatsentry 10} [Standard] Total received count of packets with illegal authentication type. 16 vrrpstatsuthtypemismatch {vrrprouterstatsentry 11} [Standard] Total received count of packets with illegal authentication type. 17 vrrpstatspacketlengtherrors {vrrprouterstatsentry 12} [Standard] Total received count of packets with illegal length value. 18 vrrprouterstatisticstable {vrrpstatistics 5} [Standard] Statistics information table of virtual router. 19 vrrprouterstatisticsentry {vrrprouterstatisticstable 1} [Standard] Entry of vrrprouterstatistics table. IDEX { vrrpoperationsipversion, vrrpoperationsvrid, ifindex } 20 vrrpstatisticsbecomemaster {vrrprouterstatisticsentry 1} [Standard] Moved count to Master. 21 vrrpstatisticsdvertisercvd {vrrprouterstatisticsentry 2} [Standard] Total received count of VRRP DVERTISEMET packet. 98

117 2.17 vrrpmib Group o. Object Identifier ccess Implementation Specifications Implemented 22 vrrpstatisticsdvintervalerrors {vrrprouterstatisticsentry 3} [Standard] Total received count of VRRP DVERTISEMET received by illegal DVERTISEMET interval. 23 vrrpstatisticsipttlerrors {vrrprouterstatisticsentry 4} [Standard] Total received count of VRRP packets with illegal TTL. 24 vrrpstatisticsprizeropktsrcvd {vrrprouterstatisticsentry 5} [Standard] Total received count of VRRP packets with 0 priority. 25 vrrpstatisticsprizeropktssent {vrrprouterstaitsticsentry 6} [Standard] Total sending count of VRRP packets with 0 priority. 26 vrrpstatisticsinvldtypepktsrc vd {vrrprouterstatisticsentry 7} [Standard] Total received count of VRRP packets with illegal Type field. 27 vrrpstatisticsddresslisterrors {vrrprouterstatisticsentry 8} [Standard] Total received count of packets with illegal IP address of virtual router. 28 vrrpstatisticspacketlengtherro rs {vrrprouterstatisticsentry 11} [Standard] Total received count of packets with illegal length value. 29 vrrpstatisticsdiscontinuitytim e {vrrprouterstatisticsentry 12} [Standard] ewest operation start time 30 vrrpstatisticsrefreshrate {vrrprouterstatisticsentry 13} [Standard] Minimum polling interval 31 vrrpstatisticsinvaliduthtype {vrrprouterstatisticsentry 14} [Standard] Total number of packets received with illegal packet authentication type. 99

118 2.18 powerethernetmib Group (Power Ethernet MIB) 2.18 powerethernetmib Group (Power Ethernet MIB) The document related to the powerethernetmib group is given below. RFC3621 ( The Definitions of Managed Objects for the Power Sourcing Equipment) (1) Identifier powerethernetmib OBJECT IDETIFIER ::= {mib-2 105} pethobjects OBJECT IDETIFIER ::= {powerethernetmib 1} Object ID value pethpseportobjects OBJECT IDETIFIER ::= {pethobjects 1} Object ID value pethmainpseobjects OBJECT IDETIFIER ::= {pethobjects 3} Object ID value pethotificationcontrol OBJECT IDETIFIER ::= {pethobjects 4} Object ID value (2) Implementation specifications The table below shows the implementation specifications of pethpseportobjects group. Table 2-55: Implementation Specifications of pethpseportobjects o. Object Identifier ccess Implementation Specifications Implemented 1 pethpseporttable {pethobjects 1} [Standard] Displays/controls the power supply characteristics of the port on the power unit. 2 pethpseportentry {pethpseporttable 1} [Standard] List of various port information of the power unit IDEX { pethpseportgroupindex } 3 pethpseportgroupindex {pethpseportentry 1} [Standard] Identifier indicating the group containing the port to be connected [Implementation] 1 fixed. 4 pethpseportindex {pethpseportentry 2} [Standard] Identifier of the port in pethpseportgroupindex 5 pethpseportdminenable {pethpseportentry 3} [Standard] Indicates valid/invalid status of the power unit function. true (1): Enabled false (2): Disabled 6 pethpseportpowerpairscont rolbility {pethpseportentry 4} [Standard] Indicates switchover enabled/disabled of the pair for power supply. true (1): Enabled false (2): Disabled [Implementation] false (2) disabling switchover is displayed in a fixed manner because the pair type to be powered on is fixed to pattern. 7 pethpseportpowerpairs {pethpseportentry 5} [Standard] Type of pair for power supply signal (1): Data transfer pair used. (Pattern ) spare (2): Reserved pair used. (Pattern B) [Implementation] signal (1) is displayed in a fixed manner because the pair type to be powered on is fixed to pattern. 100

119 2.18 powerethernetmib Group (Power Ethernet MIB) o. Object Identifier ccess Implementation Specifications Implemented 8 pethpseportdetectionstatus {pethpseportentry 6} [Standard] Power receiving unit detection status disabled (1): DISBLED status deliveringpower (3): POWER_O status fault (4): TEST_ERROR status test (5): TEST_MODE status otherfault (6): IDLE status due to an error searching (2): Other status 9 pethpseportpowerpriority {pethpseportentry 7} [Standard] Port priority viewed from power supply management critical (1) high (2) low (3) However, it is invalid if pethpseportdetectionstatus is disabled (1). 10 pethpseportmpsbsentcou nter {pethpseportentry 8} [Standard] Counter incremented upon direct transition from the POWER O status to the IDLE status because of power receiving unit no-response timeout Counted with Underload that occurs upon Port removal. 11 pethpseporttype {pethpseportentry 9} [Standard] Type of system connected to the port [Implementation] ULL Fixed. 12 pethpseportpowerclassifica tions {pethpseportentry 10} [Standard] Type of port power supply class Valid only if pethpseportdetectionstatus is deliveringpower (3). class0 (1) class1 (2) class2 (3) class3 (4) class4 (5) 13 pethpseportinvalidsignatur ecounter {pethpseportentry 11} [Standard] Counter incremented upon transition to the SIGTURE_IVLID status. Counted when Class identification fails. 14 pethpseportpowerdeniedco unter {pethpseportentry 12} [Standard] Counter incremented upon transition to the POWER_DEIED status. Counted upon forced stop by priority control. 15 pethpseportoverloadcount er {pethpseportentry 13} [Standard] Counter incremented upon transition to the ERROR_DELY_OVER status. Counted when overload occurs due to an error of the remote system. 16 pethpseportshortcounter {pethpseportentry 14} [Standard] Counter incremented upon transition to the ERROR_DELY_SHORT status. Counted when short occurs. The table below shows the implementation specifications of pethmainpseobjects group. Table 2-56: Implementation specifications of pethmainpseobjects o. Object Identifier ccess Implementation Specifications Implemented 1 pethmainpsetable {pethmainpseobjects 1} [Standard] Table of main power unit information of the power unit 2 pethmainpseentry {pethmainpsetable 1} [Standard] List of main power unit information of the power unit IDEX { pethmainpsegroupindex } 101

120 2.18 powerethernetmib Group (Power Ethernet MIB) o. Object Identifier ccess Implementation Specifications Implemented 3 pethmainpsegroupindex {pethmainpseentry 1} [Standard] Identifier of the power unit group connected (1 to ). 4 pethmainpsepower {pethmainpseentry 2} [Standard] Total power of the power unit (Watt, 1 to 65535). 5 pethmainpseoperstatus {pethmainpseentry 3} [Standard] Control status of the main power unit on (1) off (2) faulty (3) [Implementation] on (1) fixed. 6 pethmainpseconsumption Power {pethmainpseentry 4} [Standard] Power consumption (Watt, 0 to 65535) 7 pethmainpseusagethresh old {pethmainpseentry 5} [Standard] Threshold value of power consumption (percentage, 1 to 99). n alarm is reported if the threshold is exceeded. [Implementation] 92 fixed. The table below shows the implementation specifications of pethotificationcontrol group. Table 2-57: Implementation Specifications of pethotificationcontrol o. Object Identifier ccess Implementation Specifications Implemented 1 pethotificationcontroltable {pethotificationcontrol 1} [Standard] Displays/controls the notification information of the power unit. 2 pethotificationcontrolentry {pethotificationcontroltable 1} [Standard] Entry of notification event information 3 pethotificationcontrolgroupindex {pethotificationcontrolentry 1} [Standard] Entry of notification information group (1 to ). 4 pethotificationcontrolenable {pethotificationcontrolentry 2} [Standard] otification function control enabled/disabled true (1): Enabled false (2): Disabled 102

121 2.19 pimmib Group (IPv4 PIM MIB) 2.19 pimmib Group (IPv4 PIM MIB) The document related to the pimmib group is given below. RFC2934 (October 2000) otes This MIB is valid only when PIM-SM is used as a multicast route control protocol pimjoinpruneinterval (1) Identifier pimmib OBJECT IDETIFIER ::= {experimental 61} pimmibobjects OBJECT IDETIFIER ::= {pimmib 1} pim OBJECT IDETIFIER ::= {pimmibobjects 1} Object ID value pimjoinpruneinterval OBJECT IDETIFIER ::= {pim 1} Object ID value (2) Implementation specifications The table below shows the implementation specifications of pimjoinpruneinterval. Table 2-58: Implementation Specifications of pimjoinpruneinterval o. Object Identifier ccess Implementation Specifications Implemented 1 pimjoinpruneinterval {pim 1} [Standard] Default value of a PIM-SM Join/Prune message interval (unit: second(s)). [Implementation] 60 fixed piminterfacetable (1) Identifier pimmib OBJECT IDETIFIER ::= {experimental 61} pimmibobjects OBJECT IDETIFIER ::= {pimmib 1} pim OBJECT IDETIFIER ::= {pimmibobjects 1} Object ID value piminterfacetable OBJECT IDETIFIER ::= {pim 2} Object ID value (2) Implementation specifications The table below shows the implementation specifications of piminterfacetable. Table 2-59: Implementation Specifications of piminterfacetable o. Object Identifier ccess Implementation Specifications Implemented 1 piminterfacetable {pim 2} [Standard] PIM interface table. 2 piminterfaceentry {piminterfacetable 1} [Standard] Entry of a PIM interface table. IDEX { piminterfaceifindex } 103

122 2.19 pimmib Group (IPv4 PIM MIB) o. Object Identifier ccess Implementation Specifications Implemented 3 piminterfaceifindex {piminterfaceentry 1} [Standard] ifindex value of a PIM interface table. 4 piminterfaceddress {piminterfaceentry 2} [Standard] IP address of a PIM interface. 5 piminterfaceetmask {piminterfaceentry 3} [Standard] etwork mask of the IP address of a PIM interface 6 piminterfacemode {piminterfaceentry 4} [Standard] Mode of a PIM interface. dense (1) sparse (2) sparsedense (3) DEFVL {dense} [Implementation] sparse (2) fixed. 7 piminterfacedr {piminterfaceentry 5} [Standard] Designated Router address of a PIM interface is returned if the interface is point-to-point-connected. 8 piminterfacehellointerval {piminterfaceentry 6} [Standard] Hello message send interval of a PIM interface (unit: second(s)). DEFVL {30} 9 piminterfacestatus {piminterfaceentry 7} [Standard] RowStatus [Implementation] active (1) fixed. 10 piminterfacejoinpruneinterval {piminterfaceentry 8} [Standard] Join/Prune message send interval of a PIM interface (unit: second(s)). 11 piminterfacecbsrpreference {piminterfaceentry 9} [Standard] Preference value of this interface as a BSR candidate. -1 if the interface is not a BSR candidate. DEFVL {0} [Implementation] -1 fixed pimeighbortable (1) Identifier pimmib OBJECT IDETIFIER ::= {experimental 61} pimmibobjects OBJECT IDETIFIER ::= {pimmib 1} pim OBJECT IDETIFIER ::= {pimmibobjects 1} Object ID value pimeighbortable OBJECT IDETIFIER ::= {pim 3} Object ID value (2) Implementation specifications The table below shows the implementation specifications of pimeighbortable. Table 2-60: Implementation Specifications of pimeighbortable o. Object Identifier ccess Implementation Specifications Implemented 1 pimeighbortable {pim 3} [Standard] PIM neighboring router table. 2 pimeighborentry {pimeighbortable 1} [Standard] PIM neighboring router table entry. IDEX { pimeighborddress } 104

123 2.19 pimmib Group (IPv4 PIM MIB) o. Object Identifier ccess Implementation Specifications Implemented 3 pimeighborddress {pimeighborentry 1} [Standard] IP address of a PIM neighboring router. 4 pimeighborifindex {pimeighborentry 2} [Standard] ifindex value of the interface that reaches a PIM neighboring router. 5 pimeighboruptime {pimeighborentry 3} [Standard] Elapsed time since a PIM neighboring router has been learned (unit: 10ms). 6 pimeighborexpirytime {pimeighborentry 4} [Standard] Remaining time to live for a PIM neighboring router (unit: 10ms). 7 pimeighbormode {pimeighborentry 5} [Standard] PIM mode of a PIM neighboring router dense (1) sparse (2) [Implementation] sparse (2) fixed. 105

124 2.20 ospfv3mib Group (OSPFv3 MIB) 2.20 ospfv3mib Group (OSPFv3 MIB) The document related to the ospfv3mib group is given below. draft-ietf-ospf-ospfv3-mib-03.txt (ovember 2000) ospfv3generalgroup (1) Identifier ospfv3mib OBJECT IDETIFIER ::= {experimental 102} ospfv3 OBJECT IDETIFIER ::= {ospfv3mib 1} ospfv3generalgroup OBJECT IDETIFIER ::= {ospfv3 1} Object ID values (2) Implementation specifications The table below shows the implementation specifications of ospfv3generalgroup. Table 2-61: Implementation Specifications of ospfv3generalgroup o. Object Identifier ccess Implementation Specifications Implemented 1 ospfv3routerid {ospfv3generalgroup 1} [Standard] Router identifier in autonomous system. However, it is Read_Only. 2 ospfv3dminstat {ospfv3generalgroup 2} [Standard] OSPFv3 control status of router. enabled (1) disabled (2) However, it is Read_Only. 3 ospfv3versionumber {ospfv3generalgroup 3} [Standard] Version number of OSPFv3 protocol. [Implementation] Same as standard (version3 fixed). 4 ospfv3reabdrrtrstatus {ospfv3generalgroup 4} [Standard] Shows whether router is area border router. true (1) false (2) 5 ospfv3sbdrrtrstatus {ospfv3generalgroup 5} [Standard] Shows whether router is S boundary router. true (1) false (2) However, it is Read_Only. 6 ospfv3sscopelsacount {ospfv3generalgroup 6} [Standard] umber of external link state advertisements (LS) in link state database (LSDB). 7 ospfv3sscopelsacksumsum {ospfv3generalgroup 7} [Standard] Total LS checksum of sscope LS in LSDB. 8 ospfv3originateewlsas {ospfv3generalgroup 8} [Standard] umber of new LS originated. 9 ospfv3rxewlsas {ospfv3generalgroup 9} [Standard] umber of times receiving LS with new information. 10 ospfv3extrealsdblimit {ospfv3generalgroup 10} [Standard] Maximum number of entries for S external LSs that can be stored in LSDB. For -1, no limit. [Implementation] -1 fixed. However, it is Read_Only. 106

125 2.20 ospfv3mib Group (OSPFv3 MIB) o. Object Identifier ccess Implementation Specifications Implemented 11 ospfv3multicastextensions {ospfv3generalgroup 11} [Standard] Shows multicast forwarding algorithm of multicast extension version OSPFV3 as bit map value. "0" is multicast forwarding non-support. [Implementation] Multicast forwarding unsupported (0) fixed. However, it is Read_Only. 12 ospfv3exitoverflowinterval {ospfv3generalgroup 12} [Standard] Time until router becomes overflow status (unit: second(s)). [Implementation] Unused * 13 ospfv3demandextensions {ospfv3generalgroup 13} [Standard] Demand routing support in this router. true (1) false (2) [Implementation] false (2) fixed. However, it is Read_Only. 14 ospfv3trafficengineeringsupp ort {ospfv3generalgroup 14} [Standard] Traffic engineering expansion support in this router. true (1) false (2) [Implementation] false (2) fixed. However, it is Read_Only. * ot installed because the extended functions are not supported ospfv3reatable (1) Identifier ospfv3mib OBJECT IDETIFIER ::= {experimental 102} ospfv3 OBJECT IDETIFIER ::= {ospfv3mib 1} ospfv3reatable OBJECT IDETIFIER ::= {ospfv3 2} Object ID values (2) Implementation specifications The table below shows the implementation specifications of ospfv3reatable. Table 2-62: Implementation Specifications of ospfv3reatable o. Object Identifier ccess Implementation Specifications Implemented 1 ospfv3reatable {ospfv3 2} [Standard] Table storing information on each area connected to router. 2 ospfv3reaentry {ospfv3reatable 1} [Standard] Information list on each area. IDEX { ospfv3reaid } 3 ospfv3reaid {ospfv3reaentry 1} [Standard] umber that identifies area. 4 ospfv3importsextern {ospfv3reaentry 2} [Standard] Flag showing whether this router takes S external link state advertisement (LS). importexternal (1) importoexternal (2) importssa (3) However, it is Read_Only. 5 ospfv3spfruns {ospfv3reaentry 3} [Standard] umber of times calculating routes in area using link state database (LSDB) of this area. 6 ospfv3reabdrrtrcount {ospfv3reaentry 4} [Standard] Total number of reachable area border routers in this area. 107

126 2.20 ospfv3mib Group (OSPFv3 MIB) o. Object Identifier ccess Implementation Specifications Implemented 7 ospfv3sbdrrtrcount {ospfv3reaentry 5} [Standard] Total number of reachable S boundary routers in this area. 8 ospfv3reascopelsacount {ospfv3reaentry 6} [Standard] umber of reascope LSs in LSDB of this area. 9 ospfv3reascopelsacksu msum {ospfv3reaentry 7} [Standard] Total LS check sum of reascopelss included in LSDB of this area. 10 ospfv3reasummary {ospfv3reaentry 8} [Standard] Variable values related to import control of summary LS to area. noreasummary (1) sendreasummary (2) [Implementation] sendreasummary (2) fixed. However, it is Read_Only. 11 ospfv3reastatus {ospfv3reaentry 9} [Standard] Shows the status of entry. [Implementation] active (1) fixed. However, it is Read_Only. 12 ospfv3stubmetric {ospfv3reaentry 10} [Standard] Default route metric value advertising in Stub or SS area. However, it is Read_Only. 13 ospfv3reassatranslator Role {ospfv3reaentry 11} [Standard] Role as SS translator of SS border router. [Implementation] Unused * 14 ospfv3reassatranslators tate {ospfv3reaentry 12} [Standard] SS translator status. [Implementation] Unused * 15 ospfv3reassatranslators tabilityinterval {ospfv3reaentry 13} [Standard] Stability Interval of SS translator. [Implementation] Unused * 16 ospfv3reassatranslator Events {ospfv3reaentry 14} [Standard] Event count of SS translator. [Implementation] Unused * * ot installed because SS is not supported ospfv3slsdbtable (1) Identifier ospfv3mib OBJECT IDETIFIER ::= {experimental 102} ospfv3 OBJECT IDETIFIER ::= {ospfv3mib 1} ospfv3slsdbtable OBJECT IDETIFIER ::= {ospfv3 3} Object ID values (2) Implementation specifications The table below shows the implementation specifications of ospfv3slsdbtable. 108

127 2.20 ospfv3mib Group (OSPFv3 MIB) Table 2-63: Implementation Specifications of ospfv3slsdbtable o. Object Identifier ccess Implementation Specifications Implemented 1 ospfv3slsdbtable {ospfv3 3} [Standard] Table for storing data relating to OSPFv3 S Scope link status database. 2 ospfv3slsdbentry {ospfv3slsdbtable 1} [Standard] List of link state advertisements (LS). IDEX { ospfv3slsdbtype, ospfv3slsdbrouterid, ospfv3slsdblsid } 3 ospfv3slsdbtype {ospfv3slsdbentry 1} [Standard] Type of LS. asexternal (0x4005) 4 ospfv3slsdbrouterid {ospfv3slsdbentry 2} [Standard] ID of router created LS. 5 ospfv3slsdblsid {ospfv3slsdbentry 3} [Standard] ID that identifies individual LS. 6 ospfv3slsdbsequence {ospfv3slsdbentry 4} [Standard] Sequence number of LS. 7 ospfv3slsdbge {ospfv3slsdbentry 5} [Standard] Elapsed time after this LS was created (unit: second(s)). 8 ospfv3slsdbchecksum {ospfv3slsdbentry 6} [Standard] Checksum of this LS. 9 ospfv3slsdbdvertisement {ospfv3slsdbentry 7} [Standard] Whole LS containing header ospfv3realsdbtable (1) Identifier ospfv3mib OBJECT IDETIFIER ::= {experimental 102} ospfv3 OBJECT IDETIFIER ::= {ospfv3mib 1} ospfv3realsdbtable OBJECT IDETIFIER ::= {ospfv3 4} Object ID values (2) Implementation specifications The table below shows the implementation specifications of ospfv3realsdbtable. Table 2-64: Implementation Specifications of ospfv3realsdbtable o. Object Identifier ccess Implementation Specifications Implemented 1 ospfv3realsdbtable {ospfv3 4} [Standard] Table for storing data relating to OSPFv3 reascope link status database. 2 ospfv3realsdbentry {ospfv3realsdbtable 1} [Standard] List of link state advertisements (LS). IDEX { ospfv3realsdbreaid, ospfv3realsdbtype, ospfv3realsdbrouterid, ospfv3realsdblsid } 109

128 2.20 ospfv3mib Group (OSPFv3 MIB) o. Object Identifier ccess Implementation Specifications Implemented 3 ospfv3realsdbreaid {ospfv3realsdbentry 1} [Standard] rea ID of the area receiving this LS. 4 ospfv3realsdbtype {ospfv3realsdbentry 2} [Standard] Type of LS. router (8193=0x2001) network (8194 = 0x2002) interreaprefix (8195=0x2003) interrearouter (8196=0x2004) multicast (8198 = 0x2006) nssa external link (8199 = 0x2007) intrareaprefix (8201=0x2009) 5 ospfv3realsdbrouterid {ospfv3realsdbentry 3} [Standard] ID of router created LS. 6 ospfv3realsdblsid {ospfv3realsdbentry 4} [Standard] ID that identifies individual LS. 7 ospfv3realsdbsequence {ospfv3realsdbentry 5} [Standard] Sequence number of LS. 8 ospfv3realsdbge {ospfv3realsdbentry 6} [Standard] Elapsed time after this LS was created (unit: second(s)). 9 ospfv3realsdbchecksum {ospfv3realsdbentry 7} [Standard] Checksum of this LS. 10 ospfv3realsdbdvertisement {ospfv3realsdbentry 8} [Standard] Whole LS containing header ospfv3linklsdbtable (1) Identifier ospfv3mib OBJECT IDETIFIER ::= {experimental 102} ospfv3 OBJECT IDETIFIER ::= {ospfv3mib 1} ospfv3linklsdbtable OBJECT IDETIFIER ::= {ospfv3 5} Object ID values (2) Implementation specifications The table below shows the implementation specifications of ospfv3linklsdbtable. Table 2-65: Implementation Specifications of ospfv3linklsdbtable o. Object Identifier ccess Implementation Specifications Implemented 1 ospfv3linklsdbtable {ospfv3 5} [Standard] Table for storing data relating to OSPFv3 LinkScope Scope link status database. 2 ospfv3linklsdbentry {ospfv3linklsdbtable 1} [Standard] List of link state advertisements (LS). IDEX { ospfv3linklsdbifindex, ospfv3linklsdbtype, ospfv3linklsdbrouterid, ospfv3linklsdblsid } 3 ospfv3linklsdbifindex {ospfv3linklsdbentry 1} [Standard] Link ID that received LS. 110

129 2.20 ospfv3mib Group (OSPFv3 MIB) o. Object Identifier ccess Implementation Specifications Implemented 4 ospfv3linklsdbtype {ospfv3linklsdbentry 2} [Standard] Type of LS. Link (0x0008) 5 ospfv3linklsdbrouterid {ospfv3linklsdbentry 3} [Standard] ID of router created LS. 6 ospfv3linklsdblsid {ospfv3linklsdbentry 4} [Standard] ID that identifies individual LS. 7 ospfv3linklsdbsequence {ospfv3linklsdbentry 5} [Standard] Sequence number of LS. 8 ospfv3linklsdbge {ospfv3linklsdbentry 6} [Standard] Elapsed time after this LS was created (unit: second(s)). 9 ospfv3linklsdbchecksum {ospfv3linklsdbentry 7} [Standard] Checksum of this LS. 10 ospfv3linklsdbdvertisement {ospfv3linklsdbentry 8} [Standard] Whole LS containing header ospfv3iftable (1) Identifier ospfv3mib OBJECT IDETIFIER ::= {experimental 102} ospfv3 OBJECT IDETIFIER ::= {ospfv3mib 1} ospfv3iftable OBJECT IDETIFIER ::= {ospfv3 7} Object ID values (2) Implementation specifications The table below shows the implementation specifications of ospfv3iftable. Table 2-66: Implementation Specifications of ospfv3iftable o. Object Identifier ccess Implementation Specifications Implemented 1 ospfv3iftable {ospfv3 7} [Standard] Table storing information on each interface connected to router. 2 ospfv3ifentry {ospfv3iftable 1} [Standard] List storing information on each interface connected to router. IDEX { ospfv3ifindex } 3 ospfv3ifindex {ospfv3ifentry 1} [Standard] Interface index of this OSPFv3 interface. 4 ospfv3ifreaid {ospfv3ifentry 2} [Standard] rea ID of the area to which this interface connects. However, it is Read_Only. 5 ospfv3iftype {ospfv3ifentry 3} [Standard] Interface type. Broadcast (1) on-broadcast (2) Point-Point (3) Point-Multipoint (5) However, it is Read_Only. 111

130 2.20 ospfv3mib Group (OSPFv3 MIB) o. Object Identifier ccess Implementation Specifications Implemented 6 ospfv3ifdminstat {ospfv3ifentry 4} [Standard] Control status of the interface. enabled (1) disabled (2) However, it is Read_Only. 7 ospfv3ifrtrpriority {ospfv3ifentry 5} [Standard] Priority of this interface. However, it is Read_Only. 8 ospfv3iftransitdelay {ospfv3ifentry 6} [Standard] Time needed for sending link state update packet on this interface (unit: second(s)). However, it is Read_Only. 9 ospfv3ifretransinterval {ospfv3ifentry 7} [Standard] Resend interval of link state advertisement (LS) (unit: second(s)). However, it is Read_Only. 10 ospfv3ifhellointerval {ospfv3ifentry 8} [Standard] Send interval of Hello packet (unit: second(s)). However, it is Read_Only. 11 ospfv3ifrtrdeadinterval {ospfv3ifentry 9} [Standard] Maximum allowable receiving interval of Hello packet (unit: second(s)). However, it is Read_Only. 12 ospfv3ifpollinterval {ospfv3ifentry 10} [Standard] Send interval of Hello packet to inactive neighbor office in non-broadcast multiple access network (unit: second(s)). However, it is Read_Only. 13 ospfv3ifstate {ospfv3ifentry 11} [Standard] Interface status. down (1) loopback (2) waiting (3) PtoP (4) DR (5) BDR (6) other (7) 14 ospfv3ifdesignatedrouter {ospfv3ifentry 12} [Standard] Router ID of designated router. 15 ospfv3ifbackupdesignatedr outer {ospfv3ifentry 14} [Standard] Router ID of backup designated router. 16 ospfv3ifevents {ospfv3ifentry 15} [Standard] Frequency of status change or error occurrence in this interface. 17 ospfv3ifstatus {ospfv3ifentry 17} [Standard] Shows the status of entry. [Implementation] active (1) fixed. However, it is Read_Only. 18 ospfv3ifmulticastforwarding {ospfv3ifentry 18} [Standard] Multicast method in this interface. blocked (1) multicast (2) unicast (3) [Implementation] blocked (1) fixed. However, it is Read_Only. 19 ospfv3ifdemand {ospfv3ifentry 19} [Standard] Shows whether to perform Demand OSPFv3 procedure in this interface. true (1) false (2) [Implementation] false (2) fixed. However, it is Read_Only. 20 ospfv3ifmetricvalue {ospfv3ifentry 20} [Standard] Metric of this interface. However, it is Read_Only. 112

131 2.20 ospfv3mib Group (OSPFv3 MIB) o. Object Identifier ccess Implementation Specifications Implemented 21 ospfv3iflinkscopelsacount {ospfv3ifentry 21} [Standard] umber of LinkScope link state advertisements (LS) in link state database (LSDB). 22 ospfv3iflinklsacksumsum {ospfv3ifentry 22} [Standard] Total LS checksum of LinkScope LS in LSDB. 23 ospfv3ifinstid {ospfv3ifentry 23} [Standard] InstanceID of this OSPFv3 interface. However, it is Read_Only ospfv3virtiftable (1) Identifier ospfv3mib OBJECT IDETIFIER ::= {experimental 102} ospfv3 OBJECT IDETIFIER ::= {ospfv3mib 1} ospfv3virtiftable OBJECT IDETIFIER ::= {ospfv3 8} Object ID values (2) Implementation specifications The table below shows the implementation specifications of ospfv3virtiftable. Table 2-67: Implementation Specifications of ospfv3virtiftable o. Object Identifier ccess Implementation Specifications Implemented 1 ospfv3virtiftable {ospfv3 8} [Standard] Table storing information in virtual interface connected to router. 2 ospfv3virtifentry {ospfv3virtiftable 1} [Standard] Interface information list of each virtual link. IDEX { ospfv3virtifreaid, ospfv3virtifeighbor } 3 ospfv3virtifreaid {ospfv3virtifentry 1} [Standard] rea ID of area through which this virtual link passes. 4 ospfv3virtifeighbor {ospfv3virtifentry 2} [Standard] Router ID of virtual neighboring router. 5 ospfv3virtifindex {ospfv3virtifentry 3} [Standard] Interface index of this interface. However, it is Read_Only. 6 ospfv3virtiftransitdelay {ospfv3virtifentry 4} [Standard] Time needed for sending link state update packet on this interface (unit: second(s)). However, it is Read_Only. 7 ospfv3virtifretransinterval {ospfv3virtifentry 5} [Standard] Resend interval of link state advertisement (LS) (unit: second(s)). However, it is Read_Only. 8 ospfv3virtifhellointerval {ospfv3virtifentry 6} [Standard] Send interval of Hello packet (unit: second(s)). However, it is Read_Only. 9 ospfv3virtifrtrdeadinterval {ospfv3virtifentry 7} [Standard] Maximum allowable receiving interval of Hello packet (unit: second(s)). However, it is Read_Only. 10 ospfv3virtifstate {ospfv3virtifentry 8} [Standard] Interface status. down (1) PtoP (4) 113

132 2.20 ospfv3mib Group (OSPFv3 MIB) o. Object Identifier ccess Implementation Specifications Implemented 11 ospfv3virtifevents {ospfv3virtifentry 9} [Standard] Frequency of status change or error occurrence in this interface. 12 ospfv3virtifstatus {ospfv3virtifentry 10} [Standard] Status of this entry. [Implementation] active (1) fixed. However, it is Read_Only. 13 ospfv3virtiflinkscopelsaco unt {ospfv3virtifentry 11} [Standard] umber of LinkScope link state advertisements (LS) in link state database (LSDB). 14 ospfv3virtiflinklsacksums um {ospfv3virtifentry 12} [Standard] Total LS checksum of LinkScope LS in LSDB ospfv3brtable (1) Identifier ospfv3mib OBJECT IDETIFIER ::= {experimental 102} ospfv3 OBJECT IDETIFIER ::= {ospfv3mib 1} ospfv3brtable OBJECT IDETIFIER ::= {ospfv3 9} Object ID values (2) Implementation specifications The table below shows the implementation specifications of ospfv3brtable. Table 2-68: Implementation Specifications of ospfv3brtable o. Object Identifier ccess Implementation Specifications Implemented 1 ospfv3brtable {ospfv3 9} [Standard] Table storing information on non-virtual neighboring office. 2 ospfv3brentry {ospfv3brtable 1} [Standard] Information list of each neighboring office. IDEX { ospfv3brifindex, ospfv3bripv6ddr } 3 ospfv3brifindex {ospfv3brentry 1} [Standard] Local LinkID of link connected to neighboring routers. 4 ospfv3bripv6ddr {ospfv3brentry 2} [Standard] IPv6 address of neighboring router. 5 ospfv3brrtrid {ospfv3brentry 3} [Standard] Router ID of neighboring router. 6 ospfv3broptions {ospfv3brentry 4} [Standard] Option field of neighboring routers. 7 ospfv3brpriority {ospfv3brentry 5} [Standard] Priority of neighboring router. However, it is Read_Only. 8 ospfv3brstate {ospfv3brentry 6} [Standard] Status showing relation to this neighboring router. down (1) attempt (2) init (3) twoway (4) exchangestart (5) exchange (6) loading (7) full (8) 114

133 2.20 ospfv3mib Group (OSPFv3 MIB) o. Object Identifier ccess Implementation Specifications Implemented 9 ospfv3brevents {ospfv3brentry 7} [Standard] Frequency of status change or error occurrence related to neighboring router. 10 ospfv3brlsretransqlen {ospfv3brentry 8} [Standard] Current length of resend queue. 11 ospfv3bmabrstatus {ospfv3brentry 9} [Standard] Shows valid/invalid status of this entry. [Implementation] Unused * 12 ospfv3bmabrpermanence {ospfv3brentry 10} [Standard] Method for recognizing neighboring routers. dynamic (1) permanent (2) [Implementation] Unused * 13 ospfv3brhellosuppressed {ospfv3brentry 11} [Standard] Shows whether Hello is suppressed to neighbor. 14 ospfv3brifid {ospfv3brentry 12} [Standard] Interface ID of neighboring router advertising in this link by Hello packet. * ot installed because BM is not supported ospfv3virtbrtable (1) Identifier ospfv3mib OBJECT IDETIFIER ::= {experimental 102} ospfv3 OBJECT IDETIFIER ::= {ospfv3mib 1} ospfv3virtbrtable OBJECT IDETIFIER ::= {ospfv3 10} Object ID values (2) Implementation specifications The table below shows the implementation specifications of ospfv3virtbrtable. Table 2-69: Implementation Specifications of ospfv3virtbrtable o. Object Identifier ccess Implementation Specifications Implemented 1 ospfv3virtbrtable {ospfv3 10} [Standard] Table storing virtual neighboring router data. 2 ospfv3virtbrentry {ospfv3virtbrtable 1} [Standard] Information list of each virtual neighboring router. IDEX { ospfv3virtbrrea, ospfv3virtbrrtrid } 3 ospfv3virtbrrea {ospfv3virtbrentry 1} [Standard] rea ID of transit area. 4 ospfv3virtbrrtrid {ospfv3virtbrentry 2} [Standard] Router ID of virtual neighboring router. 5 ospfv3virtbrifindex {ospfv3virtbrentry 3} [Standard] Local LinkID of link connected to neighboring routers. 6 ospfv3virtbripv6ddr {ospfv3virtbrentry 4} [Standard] IPv6 address of virtual neighboring router 7 ospfv3virtbroptions {ospfv3virtbrentry 5} [Standard] Option field of virtual neighboring routers. 115

134 2.20 ospfv3mib Group (OSPFv3 MIB) o. Object Identifier ccess Implementation Specifications Implemented 8 ospfv3virtbrstate {ospfv3virtbrentry 6} [Standard] Status showing relation to this virtual neighboring router. down (1) attempt (2) init (3) twoway (4) exchangestart (5) exchange (6) loading (7) full (8) 9 ospfv3virtbrevents {ospfv3virtbrentry 7} [Standard] Frequency of status change or error occurrence in this virtual link. 10 ospfv3virtbrlsretrans QLen {ospfv3virtbrentry 8} [Standard] Current length of resend queue. 11 ospfv3virtbrhellosupp ressed {ospfv3virtbrentry 9} [Standard] Shows whether Hello is suppressed to neighbor. 12 ospfv3virtbrifid {ospfv3virtbrentry 10} [Standard] Interface ID of neighboring router advertising in this link by Hello packet ospfv3reaggregatetable (1) Identifier ospfv3mib OBJECT IDETIFIER ::= {experimental 102} ospfv3 OBJECT IDETIFIER ::= {ospfv3mib 1} ospfv3reaggregatetable OBJECT IDETIFIER ::= {ospfv3 11} Object ID values (2) Implementation specifications The table below shows the implementation specifications of ospfv3reaggregatetable. Table 2-70: Implementation Specifications of ospfv3reaggregatetable o. Object Identifier ccess Implementation Specifications Implemented 1 ospfv3reaggregatetable {ospfv3 11} [Standard] Table of IPv6 with Prefix and Prefix Length specified as a pair. 2 ospfv3reaggregateentry {ospfv3reaggregatetable 1} [Standard] List of IPv6 with Prefix and Prefix Length specified as a pair. IDEX { ospfv3reaggregatereaid, ospfv3reaggregatelsdbtype, ospfv3reaggregateindex } 3 ospfv3reaggregatereaid {ospfv3reaggregateentry 1} [Standard] ddress aggregate area. 116

135 2.20 ospfv3mib Group (OSPFv3 MIB) o. Object Identifier ccess Implementation Specifications Implemented 4 ospfv3reaggregaterealsdb Type {ospfv3reaggregateentry 2} [Standard] ddress aggregate type. This entry indicates the type of the link state database (LSDB) applied to the aggregation of this address. interreaprefixlsa (0x2003) nssaexternallsa (0x2007) 5 ospfv3reaggregateindex {ospfv3reaggregateentry 3} [Standard] ggregate table identifier. 6 ospfv3reaggregateprefix {ospfv3reaggregateentry 4} [Standard] IPv6 Prefix. However, it is Read_Only. 7 ospfv3reaggregateprefixlen {ospfv3reaggregateentry 5} [Standard] IPv6 Prefix length. However, it is Read_Only. 8 ospfv3reaggregatestatus {ospfv3reaggregateentry 6} [Standard] Shows the status of entry. [Implementation] active (1) fixed. However, it is Read_Only. 9 ospfv3reaggregateeffect {ospfv3reaggregateentry 7} [Standard] Shows whether subnet advertised within range will be opportunity for advertising aggregate address or subnet not advertised outside area. advertisematching (1) dootdvertisematching (2) However, it is Read_Only. 117

136 2.21 IEEE8023-LG-MIB Group 2.21 IEEE8023-LG-MIB Group The document related to the IEEE8023-LG-MIB group is given below. IEEE8023-LG-MIB.txt dot3adgg Group (1) Identifier member-body OBJECT IDETIFIER ::= {iso 2} us OBJECT IDETIFIER ::= {member-body 840} ieee802dot3 OBJECT IDETIFIER ::= {us 10006} snmpmibs OBJECT IDETIFIER ::= {ieee802dot3 300} lagmib OBJECT IDETIFIER ::= {snmpmibs 43} lagmibobjects OBJECT IDETIFIER ::= {lagmib 1} dot3adgg OBJECT IDETIFIER ::= {lagmibobjects 1} Object ID values (2) Implementation specifications The table below shows the implementation specifications of dot3adgg group. Table 2-71: Implementation Specifications of dot3adgg Group o. Object Identifier ccess Implementation Specifications Implemented 1 dot3adggtable {dot3adgg 1} [Standard] Table for the ggregator in the system. 2 dot3adggentry {dot3adggtable 1} [Standard] ggregator parameter list. IDEX { ifindex } 3 dot3adggindex {dot3adggentry 1} [Standard] umber for identifying this interface. 4 dot3adggmcddress {dot3adggentry 2} [Standard] MC address assigned to the ggregator. 5 dot3adggctorsystempriority {dot3adggentry 3} [Standard] Priority value for ctor system ID. 6 dot3adggctorsystemid {dot3adggentry 4} [Standard] Unique identifier for the system. 7 dot3adggggregateorindividu al {dot3adggentry 5} [Standard] Indicates whether the ggregator is executing Link ggregation or handling as individual links. 8 dot3adggctordminkey {dot3adggentry 6} [Standard] Value of the Key for administration of current ggregator. 9 dot3adggctoroperkey {dot3adggentry 7} [Standard] Value of the Key for operation of current ggregator. 10 dot3adggpartnersystemid {dot3adggentry 8} [Standard] Unique identifier and MC address for current ggregator protocol partners. 11 dot3adggpartnersystempriority {dot3adggentry 9} [Standard] Priority value is indicated for partner system ID. 12 dot3adggpartneroperkey {dot3adggentry 10} [Standard] Value of the key for the operation of current protocol partners of the ggregator. 118

137 2.21 IEEE8023-LG-MIB Group o. Object Identifier ccess Implementation Specifications Implemented 13 dot3adggcollectormaxdelay {dot3adggentry 11} [Standard] Maximum delay time until received frames are delivered from ggregatorparser to MCClient by FrameCollector or until frames are discarded (unit: 10 microseconds). 14 dot3adggportlisttable {dot3adgg 2} [Standard] List of ggregation Ports connected to the ggregator. 15 dot3adggportlistentry {dot3adggportlisttable 1} [Standard] List of ports connected to the ggregator. 16 dot3adggportlistports {dot3adggportlistentry 1} [Standard] ll sets of ports connected to the ggregator dot3adggport Group (1) Identifier member-body OBJECT IDETIFIER ::= {iso 2} us OBJECT IDETIFIER ::= {member-body 840} ieee802dot3 OBJECT IDETIFIER ::= {us 10006} snmpmibs OBJECT IDETIFIER ::= {ieee802dot3 300} lagmib OBJECT IDETIFIER ::= {snmpmibs 43} lagmibobjects OBJECT IDETIFIER ::= {lagmib 1} dot3adggport OBJECT IDETIFIER ::= {lagmibobjects 2} Object ID values (2) Implementation specifications The table below shows the implementation specifications of dot3adggport group. Table 2-72: Implementation Specifications of dot3adggport Group o. Object Identifier ccess Implementation Specifications Implemented 1 dot3adggporttable {dot3adggport 1} [Standard] Link ggregation Control setting information for all aggregation ports. 2 dot3adggportentry {dot3adggporttable 1} [Standard] List of link ggregation Control setting parameters for each aggregation port. 3 dot3adggportindex {dot3adggportentry 1} [Standard] umber for identifying this interface. 4 dot3adggportctorsystempri ority {dot3adggportentry 2} [Standard] Priority value for ctor system ID. 5 dot3adggportctorsystemid {dot3adggportentry 3} [Standard] MC address that determines the value of the system ID in systems having aggregation ports. 6 dot3adggportctordminke y {dot3adggportentry 4} [Standard] Key for administration of ggregationport. 7 dot3adggportctoroperkey {dot3adggportentry 5} [Standard] Value of the key for operation of aggregation ports. 8 dot3adggportpartnerdmins ystempriority {dot3adggportentry 6} [Standard] Priority value for administration of Partner system ID. 119

138 2.21 IEEE8023-LG-MIB Group o. Object Identifier ccess Implementation Specifications Implemented 9 dot3adggportpartneropersys tempriority {dot3adggportentry 7} [Standard] Priority value for operation of partner system ID. 10 dot3adggportpartnerdmins ystemid {dot3adggportentry 8} [Standard] Value for administration of ggregationport protocol partner system ID. [Implementation] fixed. 11 dot3adggportpartneropersys temid {dot3adggportentry 9} [Standard] Value of key for administration of protocol partners. 12 dot3adggportpartnerdmink ey {dot3adggportentry 10} [Standard] Value of key for administration of current ggregator protocol partners. [Implementation] Fixed to dot3adggportpartneroperkey {dot3adggportentry 11} [Standard] Value of key for operation of protocol partners. 14 dot3adggportselectedggid {dot3adggportentry 12} [Standard] Value of ggregator identifier of ggregationports. 15 dot3adggportttachedggid {dot3adggportentry 13} [Standard] Value of identifier of ggregator in which ggregationports are currently installed. 16 dot3adggportctorport {dot3adggportentry 14} [Standard] Port number assigned to ggregationports. 17 dot3adggportctorportpriorit y {dot3adggportentry 15} [Standard] Priority value assigned to ggregationports. 18 dot3adggportpartnerdminp ort {dot3adggportentry 16} [Standard] Value of identifier of ggregator in which ggregationports are currently installed. [Implementation] Fixed to dot3adggportpartneroperport {dot3adggportentry 17} [Standard] Port number for operation assigned to ggregationports by ggregationport protocol partners. 20 dot3adggportpartnerdminp ortpriority {dot3adggportentry 18} [Standard] Port priority value for management of protocol partners. [Implementation] Fixed to dot3adggportpartneroperport Priority {dot3adggportentry 19} [Standard] Priority value assigned to ggregationports by partners. 22 dot3adggportctordminsta te {dot3adggportentry 20} [Standard] ctor_state value for management sent at LCPDUs by ctor. Displayed as a character by the manager. 23 dot3adggportctoroperstate {dot3adggportentry 21} [Standard] ctor_state value for operation sent at LCPDUs by ctor. Displayed as a character by the manager. 24 dot3adggportpartnerdminst ate {dot3adggportentry 22} [Standard] ctor_state value for administration of protocol partners. [Implementation] ( ) 2 fixed. Displayed as a character by the manager. 25 dot3adggportpartneroperstat e {dot3adggportentry 23} [Standard] ctor_state value sent most recently at LCPDU by protocol partners. Displayed as a character by the manager. 120

139 2.21 IEEE8023-LG-MIB Group o. Object Identifier ccess Implementation Specifications Implemented 26 dot3adggportggregateorind ividual {dot3adggportentry 24} [Standard] Indicates whether ggregationports can ggregate or can only operate as individual links. 27 dot3adggportstatstable {dot3adggport 2} [Standard] Table of information of Link ggregation for all ports. 28 dot3adggportstatsentry {dot3adggportstatstable 1} [Standard] List of statistical data of Link ggregation control protocol for each port. 29 dot3adggportstatslcpdus Rx {dot3adggportstatsentry 1} [Standard] umber of valid LCPDUs received at ggregationports. 30 dot3adggportstatsmarkerpd UsRx {dot3adggportstatsentry 2} [Standard] umber of valid MarkerPDUs received at ggregationports. 31 dot3adggportstatsmarkerres ponsepdusrx {dot3adggportstatsentry 3} [Standard] umber of valid MarkerResponsePDUs received at ggregationports. 32 dot3adggportstatsunknownr x {dot3adggportstatsentry 4} [Standard] umber of frames delivered by Slow Protocols Ethernet type value (88-09) with unknown PDU included or frames addressed to group MC ddress (0180.C ) of Slow Protocols but not delivered by Slow Protocols Ethernet type. 33 dot3adggportstatsillegalrx {dot3adggportstatsentry 5} [Standard] umber of received frames delivered by Slow Protocols Ethernet type value (88-09) but including an invalid format PDU or including illegal Protocol Subtype value. 34 dot3adggportstatslcpdus Tx {dot3adggportstatsentry 6} [Standard] umber of LCPDUs sent by ggregationports. 35 dot3adggportstatsmarkerpd UsTx {dot3adggportstatsentry 7} [Standard] umber of MarkerPDUs sent by ggregationports. [Implementation] Fixed to dot3adggportstatsmarkerres ponsepdustx {dot3adggportstatsentry 8} [Standard] umber of MarkerResponsePDUs sent by ggregationports. 37 dot3adggportdebugtable {dot3adggport 3} [Standard] Table including link aggregation debug information for all ports. 38 dot3adggportdebugentry {dot3adggportdebugtable 1} [Standard] List of port debug parameters. 39 dot3adggportdebugrxstate {dot3adggportdebugentry 1} [Standard] Status of Receive state machine in ggregationports. currentrx (1) expired (2) defaulted (3) initialize (4) lacpdisabled (5) portdisabled (6) 40 dot3adggportdebuglastrxti me {dot3adggportdebugentry 2} [Standard] Value of atimesincesystemreset when the last time ggregationports received LCPDUs. 121

140 2.21 IEEE8023-LG-MIB Group o. Object Identifier ccess Implementation Specifications Implemented 41 dot3adggportdebugmuxstate {dot3adggportdebugentry 3} [Standard] Status of Mux state machine for ggregationports. detached (1) waiting (2) attached (3) collecting (4) distributing (5) collectingdistributing (6) 42 dot3adggportdebugmuxreas on {dot3adggportdebugentry 4} [Standard] Reason for the most recent change in the status of the Mux state machine. 43 dot3adggportdebugctorch urnstate {dot3adggportdebugentry 5} [Standard] Status of ctorchurndetection state machine for ggregationports. 44 dot3adggportdebugpartnerc hurnstate {dot3adggportdebugentry 6} [Standard] Status of PartnerChurnDetection state machine for ggregationports. 45 dot3adggportdebugctorch urncount {dot3adggportdebugentry 7} [Standard] Frequency of ctorchurn state machine switched to CTOR_CHUR status. 46 dot3adggportdebugpartnerc hurncount {dot3adggportdebugentry 8} [Standard] umber of times PartnerChurn state machine switched to PRTER_CHUR status. 47 dot3adggportdebugctorsyn ctransitioncount {dot3adggportdebugentry 9} [Standard] umber of times ctor Mux state machine switched to I_SYC status. 48 dot3adggportdebugpartners ynctransitioncount {dot3adggportdebugentry 10} [Standard] Frequency of Partner Mux state machine switched to I_SYC status. 49 dot3adggportdebugctorcha ngecount {dot3adggportdebugentry 11} [Standard] umber of times ctor LG ID recognition for ggregationports changed. 50 dot3adggportdebugpartnerc hangecount {dot3adggportdebugentry 12} [Standard] umber of times Partner LG ID recognition for ggregationports changed dot3adtableslastchanged Group (1) Identifier member-body OBJECT IDETIFIER ::= {iso 2} us OBJECT IDETIFIER ::= {member-body 840} ieee802dot3 OBJECT IDETIFIER ::= {us 10006} snmpmibs OBJECT IDETIFIER ::= {ieee802dot3 300} lagmib OBJECT IDETIFIER ::= {snmpmibs 43} lagmibobjects OBJECT IDETIFIER ::= {lagmib 1} dot3adtableslastchanged OBJECT IDETIFIER ::= {lagmibobjects 3} Object ID values (2) Implementation specifications The table below shows the implementation specifications of dot3adtableslastchanged group. 122

141 2.21 IEEE8023-LG-MIB Group Table 2-73: Implementation Specifications of dot3adtableslastchanged Group o. Object Identifier ccess Implementation Specifications Implemented 1 dot3adtableslastchanged { lagmibobjects 3 } [Standard] Most recent time when a change to dot3adggtable, dot3adggportlisttable, or dot3adggporttable occurred. 123

142 X MIB Group X MIB Group (1) Identifier std OBJECT IDETIFIER ::= {iso 0} iso8802 OBJECT IDETIFIER ::= {std 8802} ieee802dot1 OBJECT IDETIFIER ::= {iso8802 1} ieee802dot1mibs OBJECT IDETIFIER ::= {ieee802dot1 1} ieee8021paemib OBJECT IDETIFIER ::= {ieee802dot1mibs 1} paemibobjects OBJECT IDETIFIER ::= {ieee8021paemib 1} dot1xpaesystem OBJECT IDETIFIER ::= {paemibobjects 1} Object ID value dot1xpaeuthenticator OBJECT IDETIFIER ::= {paemibobjects 2} Object ID value dot1xpaesupplicant OBJECT IDETIFIER ::= {paemibobjects 3} Object ID value dot1xpaeconformance OBJECT IDETIFIER ::= {ieee8021paemib 2} dot1xpaegroups OBJECT IDETIFIER ::= {dot1xpaeconformance 1} Object ID value dot1xpaecompliances OBJECT IDETIFIER ::= {dot1xpaeconformance 2} Object ID value (2) Implementation specifications The table below shows the implementation specifications of 802.1X MIB group. Table 2-74: Implementation Specifications of 802.1X MIB Group o. Object Identifier ccess Implementation Specifications Implemented 1 dot1xpaesystemuthcontr ol {dot1xpaesystem 1} [Standard] enable/disable status of PE (Port ccess Entity) management in the entire system (ITEGER). enabled (1) disabled (2) 2 dot1xpaeporttable {dot1xpaesystem 2} [Standard] Table containing system level information for each PE port. 3 dot1xpaeportentry {dot1xpaeporttable 1} [Standard] Information list for each port. IDEX { dot1xpaeportumber } 4 dot1xpaeportumber {dot1xpaeportentry 1} [Standard] PE port number. Used as index for identifying the table. ifindex added to the interface shown below. Ethernet physical port VL group Link aggregation group lthough nonstandard, the value in VL authentication (dynamic) is as follows. Maximum value of ifindex of VL group +1 5 dot1xpaeportprotocolversi on {dot1xpaeportentry 2} [Standard] Protocol version. [Implementation] 0x01 fixed. 124

143 X MIB Group o. Object Identifier ccess Implementation Specifications Implemented 6 dot1xpaeportcapabilities {dot1xpaeportentry 3} [Standard] PE function supported by the port (BITS). dot1xpaeportuthcapable (0) dot1xpaeportsuppcapable (1) [Implementation] dot1xpaeportuthcapable (0) fixed. 7 dot1xpaeportinitialize {dot1xpaeportentry 4} [Standard] Initialization control for the port. Port is initialized when this attribute becomes "TRUE". When initialization is completed, attribute returns to "FLSE". 8 dot1xpaeportreauthenticat e {dot1xpaeportentry 5} [Standard] Re-authentication control for the port. When this attribute is set to "TRUE", uthenticator PE state machine for the port makes re-authentication of Supplicant. This attribute has no influence when set to "FLSE". This attribute returns to "FLSE" whenever read. 9 dot1xuthconfigtable {dot1xpaeuthenticator 1} [Standard] Configuration object table for uthenticator PE of each port. This table contains the list of the ports for which access may possibly be authorized. 10 dot1xuthconfigentry {dot1xuthconfigtable 1} [Standard] Configuration information list for uthenticator PE. IDEX { dot1xpaeportumber } 11 dot1xuthpaestate {dot1xuthconfigentry 1} [Standard] Current value of uthenticator PE state machine. initialize (1) disconnected (2) connecting (3) authenticating (4) authenticated (5) aborting (6) held (7) forceuth (8) forceunauth (9) 12 dot1xuthbackenduthsta te {dot1xuthconfigentry 2} [Standard] Current value of backend authentication state machine. request (1) response (2) success (3) fail (4) timeout (5) idle (6) initialize (7) 13 dot1xuthdmincontrolle ddirections {dot1xuthconfigentry 3} [Standard] Current value of the administratively-controlled direction parameter for the port. [Implementation] both (0) fixed. 14 dot1xuthopercontrolled Directions {dot1xuthconfigentry 4} [Standard] Current value of the operationally-controlled direction parameter for the port. [Implementation] both (0) fixed. 15 dot1xuthuthcontrolledp ortstatus {dot1xuthconfigentry 5} [Standard] Current value of the status parameter of the controlling port for the port. 16 dot1xuthuthcontrolledp ortcontrol {dot1xuthconfigentry 6} [Standard] Current value of the control parameter of the controlling port for the port. 125

144 X MIB Group o. Object Identifier ccess Implementation Specifications Implemented 17 dot1xuthquietperiod {dot1xuthconfigentry 7} [Standard] Value of current constant quietperiod used by uthenticator PE state machine (unit: seconds). DEFVL{60} [Implementation] Same as standard (0 to 65535). 18 dot1xuthtxperiod {dot1xuthconfigentry 8} [Standard] Value of current constant txperiod used by uthenticator PE state machine (unit: seconds). DEFVL {30} [Implementation] Same as standard (1 to 65535). 19 dot1xuthsupptimeout {dot1xuthconfigentry 9} [Standard] Value of current constant supptimeout used by backend uthentication state machine (unit: seconds). DEFVL {30} [Implementation] Same as standard (1 to 65535). 20 dot1xuthservertimeout {dot1xuthconfigentry 10} [Standard] Value of current constant servertimeout used by backend uthentication state machine (unit: seconds). DEFVL{30} 21 dot1xuthmaxreq {dot1xuthconfigentry 11} [Standard] Value of current constant maxreq used by backend uthentication state machine. DEFVL {2} [Implementation] Same as standard (1 to 10). 22 dot1xuthreuthperiod {dot1xuthconfigentry 12} [Standard] Value of current constant reuthperiod used by re-authentication timer state machine (unit: seconds). DEFVL {3600} [Implementation] 0 or 1 to (default:3600) If 0, this system does not autonomously send EOPL-Request/ Identity for re-authentication. 23 dot1xuthreuthenabled {dot1xuthconfigentry 13} [Standard] enable/disable control used by re-authentication timer state machine. DEFVL {false(2)} 24 dot1xuthkeytxenabled {dot1xuthconfigentry 14} [Standard] Current value of constant KeyTransmissionEnabled used by uthenticator PE state machine. [Implementation] false (2) fixed. 25 dot1xuthstatstable {dot1xpaeuthenticator 2} [Standard] Statistical data object table of uthenticator PE related to each port. This table contains the list of the ports for which access may possibly be authorized. 26 dot1xuthstatsentry {dot1xuthstatstable 1} [Standard] Statistics information for uthenticator PE. IDEX { dot1xpaeportumber } 27 dot1xutheapolframesrx {dot1xuthstatsentry 1} [Standard] umber of all valid-type EPOL frames received by uthenticator. 28 dot1xutheapolframestx {dot1xuthstatsentry 2} [Standard] umber of all-type EPOL frames sent by uthenticator. 29 dot1xutheapolstartframe srx {dot1xuthstatsentry 3} [Standard] umber of EPOL Start frames received by uthenticator. 30 dot1xutheapollogofffra mesrx {dot1xuthstatsentry 4} [Standard] umber of EPOL Logoff frames received by uthenticator. 31 dot1xutheapolrespidfra mesrx {dot1xuthstatsentry 5} [Standard] umber of EP Response/Identity frames received by uthenticator. 126

145 X MIB Group o. Object Identifier ccess Implementation Specifications Implemented 32 dot1xutheapolrespframe srx {dot1xuthstatsentry 6} [Standard] umber of valid EP Response frames other than EP Response/Identity frame received by uthenticator. 33 dot1xutheapolreqidfram estx {dot1xuthstatsentry 7} [Standard] umber of EP Request/Identity frames sent by uthenticator. 34 dot1xutheapolreqframes Tx {dot1xuthstatsentry 8} [Standard] umber of EP Request frames other than EP Request/ Identity frame sent by uthenticator. 35 dot1xuthinvalideapolfra mesrx {dot1xuthstatsentry 9} [Standard] umber of EPOL frames received by uthenticator of which frame type was not approved. 36 dot1xutheaplengtherror FramesRx {dot1xuthstatsentry 10} [Standard] umber of EPOL frames received by uthenticator that Packet Body Length is invalid. 37 dot1xuthlasteapolframe Version {dot1xuthstatsentry 11} [Standard] Protocol version o. of the EPOL frame received by uthenticator most recently. 38 dot1xuthlasteapolframe Source {dot1xuthstatsentry 12} [Standard] Source MC ddress of the EPOL frame received by uthenticator most recently. 39 dot1xuthdiagtable {dot1xpaeuthenticator 3} [Standard] Diagnosis object table for uthenticator PE of each port. This table contains the list of the ports for which access may possibly be authorized. 40 dot1xuthdiagentry {dot1xuthdiagtable 1} [Standard] Diagnosis information list for uthenticator PE. IDEX { dot1xpaeportumber } 41 dot1xuthentersconnectin g {dot1xuthdiagentry 1} [Standard] How often uthenticator PE state machine transited from other status to COECTIG status. 42 dot1xutheaplogoffswhil econnecting {dot1xuthdiagentry 2} [Standard] How often uthenticator PE state machine transited to DISCOECTED status as a result of receiving EPOL Logoff message while in COECTIG state. 43 dot1xuthentersuthentica ting {dot1xuthdiagentry 3} [Standard] How often uthenticator PE state machine transited to UTHETICTIG status as a result of receiving EP Response/ Identity message from Supplicant while in COECTIG state. 44 dot1xuthuthsuccesswhi leuthenticating {dot1xuthdiagentry 4} [Standard] How often uthenticator PE state machine transited to UTHETICTED status while in UTHETICTIG status, as a result that the backend authentication state machine indicated authentication of Supplicant was successfully completed (authsuccess = TRUE). 45 dot1xuthuthtimeoutsw hileuthenticating {dot1xuthdiagentry 5} [Standard] How often uthenticator PE state machine transited to BORTIG status while in UTHETICTIG status, as a result that the backend authentication state machine indicated authentication timed out (authtimeout = TRUE). 46 dot1xuthuthfailwhile uthenticating {dot1xuthdiagentry 6} [Standard] How often uthenticator PE state machine transited to HELD status while in UTHETICTIG status, as a result that the backend authentication state machine indicated authentication failed (authfail = TRUE). 127

146 X MIB Group o. Object Identifier ccess Implementation Specifications Implemented 47 dot1xuthuthreauthswhi leuthenticating {dot1xuthdiagentry 7} [Standard] How often uthenticator PE state machine transited to BORTIG while in UTHETICTIG status as a result of re-authentication request (reuthenticate = TRUE). 48 dot1xuthutheapstartsw hileuthenticating {dot1xuthdiagentry 8} [Standard] How often uthenticator PE state machine transited to BORTIG status as a result of receiving EPOL Start message from Supplicant while in UTHETICTIG state. 49 dot1xuthutheaplogoff Whileuthenticating {dot1xuthdiagentry 9} [Standard] How often uthenticator PE state machine transited to BORTIG status as a result of receiving EPOL Logoff message from Supplicant while in UTHETICTIG state. 50 dot1xuthuthreauthswhi leuthenticated {dot1xuthdiagentry 10} [Standard] How often uthenticator PE state machine transited to COECTIG status while in UTHETICTIG status as a result of re-authentication request (reuthenticate = TRUE). 51 dot1xuthutheapstartsw hileuthenticated {dot1xuthdiagentry 11} [Standard] How often uthenticator PE state machine transited to COECTIG status as a result of receiving EPOL Start message from Supplicant while in UTHETICTED status. 52 dot1xuthutheaplogoff Whileuthenticated {dot1xuthdiagentry 12} [Standard] How often uthenticator PE state machine transited to DISCOECTED status as a result of receiving EPOL Logoff message from Supplicant while in UTHETICTED status. 53 dot1xuthbackendrespons es {dot1xuthdiagentry 13} [Standard] How often backend authentication state machine sent first ccess Request packet to the authentication server (that is, backend authentication state machine executed sendresptoserver while in RESPOSE status). 54 dot1xuthbackendccess Challenges {dot1xuthdiagentry 14} [Standard] How often the backend authentication state machine received first ccess Challenge packet from the authentication server (that is, areq became "TRUE", causing RESPOSE status terminated). 55 dot1xuthbackendotherre queststosupplicant {dot1xuthdiagentry 15} [Standard] How often the backend authentication state machine sent EP Request (other than Identity, otification, Failure, or Success message) to Supplicant (that is, backend authentication state machine executed txreq while in REQUEST status). This indicates that uthenticator will select EP method. 56 dot1xuthbackendonak ResponsesFromSupplicant {dot1xuthdiagentry 16} [Standard] How often the backend authentication state machine received response to first EP Request or some response other than EP K from Supplicant (that is, rxresp became "TRUE" and the backend authentication state machine transited from REQUEST to RESPOSE. Response is not EP K). This indicates that Supplicant can return response for EP method selected by uthenticator. 57 dot1xuthbackenduthsu ccesses {dot1xuthdiagentry 17} [Standard] How often the backend authentication state machine received EP Success message from the authentication server (that is, asuccess became "TRUE" and backend authentication state machine transited from RESPOSE to SUCCESS). This indicates that Supplicant was authenticated by the authentication server. 128

147 X MIB Group o. Object Identifier ccess Implementation Specifications Implemented 58 dot1xuthbackenduthfai ls {dot1xuthdiagentry 18} [Standard] How often the backend authentication state machine received EP Failure message from the authentication server (that is, afail became "TRUE" and backend authentication state machine transited from RESPOSE to FIL). This indicates that Supplicant was not authenticated by the authentication server. 59 dot1xuthsessionstatstabl e {dot1xpaeuthenticator 4} [Standard] Session statistical data object table for uthenticator PE of each port. This table contains the list of the ports for which access may possibly be authorized. 60 dot1xuthsessionstatsentr y {dot1xuthsessionstatstab le 1} [Standard] Session statistics information list for uthenticator PE. It is possible to look up the value collected in each ongoing session, or final value for the last valid session in each port not currently active. IDEX { dot1xpaeportumber } 61 dot1xuthsessionoctetsrx {dot1xuthsessionstatsent ry 1} [Standard] umber of octets of the user data frame received on the port during session. [Implementation] Fixed to dot1xuthsessionoctetstx {dot1xuthsessionstatsent ry 2} [Standard] umber of octets of the user data frame sent on the port during session. [Implementation] Fixed to dot1xuthsessionframesr x {dot1xuthsessionstatsent ry 3} [Standard] umber of user data frames received on the port during session. [Implementation] Fixed to dot1xuthsessionframest x {dot1xuthsessionstatsent ry 4} [Standard] umber of user data frames sent on the port during session. [Implementation] Fixed to dot1xuthsessionid {dot1xuthsessionstatsent ry 5} [Standard] Unique identifier for the session. In the format of displayable SCII character string consisting of 3 or more characters. 66 dot1xuthsessionuthenti cmethod {dot1xuthsessionstatsent ry 6} [Standard] uthentication method used to establish the session (ITEGER). remoteuthserver (1) localuthserver (2) [Implementation] Valid only in the state that the session is established, and the value is remoteuthserver (1) fixed. Invalid when the session is disabled, and the value is (0). 67 dot1xuthsessiontime {dot1xuthsessionstatsent ry 7} [Standard] Duration of the session (unit: seconds). 68 dot1xuthsessionterminat ecause {dot1xuthsessionstatsent ry 8} [Standard] Reason for termination of the session. supplicantlogoff (1) portfailure (2) supplicantrestart (3) reauthfailed (4) authcontrolforceunauth (5) portreinit (6) portdmindisabled (7) notterminatedyet (999) Because no cause for terminating the session, however, value is 0 when no session has been established. 129

148 X MIB Group o. Object Identifier ccess Implementation Specifications Implemented 69 dot1xuthsessionuseram e {dot1xuthsessionstatsent ry 9} [Standard] User name for identifying Supplicant PE. [Implementation] Implemented. 70 dot1xsuppconfigtable {dot1xpaesupplicant 1} [Standard] Configuration object table for Supplicant PE of each port. This table contains the list of the ports for which access may possibly be authorized if access is made from the remote system. [Implementation] Unused. 71 dot1xsuppconfigentry {dot1xsuppconfigtable 1} [Standard] Configuration information list for Supplicant PE. IDEX { dot1xpaeportumber } [Implementation] Unused. 72 dot1xsupppaestate {dot1xsuppconfigentry 1} [Standard] Current status of Supplicant PE state machine. disconnected (1) logoff (2) connecting (3) authenticating (4) authenticated (5) acquired (6) held (7) [Implementation] Unused. 73 dot1xsuppheldperiod {dot1xsuppconfigentry 2} R/W [Standard] Value of current constant heldperiod used by Supplicant PE state machine (unit: seconds). DEFVL {60} [Implementation] Unused. 74 dot1xsupputhperiod {dot1xsuppconfigentry 3} R/W [Standard] Value of current constant authperiod used by Supplicant PE state machine (unit: seconds). DEFVL {30} [Implementation] Unused. 75 dot1xsuppstartperiod {dot1xsuppconfigentry 4} R/W [Standard] Value of current constant startperiod used by Supplicant PE state machine (unit: seconds). DEFVL {30} [Implementation] Unused. 76 dot1xsuppmaxstart {dot1xsuppconfigentry 5} R/W [Standard] Value of current constant maxstart used by Supplicant PE state machine. DEFVL {3} [Implementation] Unused. 77 dot1xsuppstatstable {dot1xpaesupplicant 2} [Standard] Statistics object table for Supplicant PE of each port. This table contains the list of the ports for which access may possibly be authorized if access is made from the remote system. [Implementation] Unused. 78 dot1xsuppstatsentry {dot1xsuppstatstable 1} [Standard] Statistics information list for Supplicant PE. IDEX { dot1xpaeportumber } [Implementation] Unused. 79 dot1xsuppeapolframesrx {dot1xsuppstatsentry 1} [Standard] umber of all-type EPOL frames received by Supplicant. [Implementation] Unused. 80 dot1xsuppeapolframestx {dot1xsuppstatsentry 2} [Standard] umber of all-type EPOL frames sent by Supplicant. [Implementation] Unused. 81 dot1xsuppeapolstartframe stx {dot1xsuppstatsentry 3} [Standard] umber of EPOL Start frames sent by Supplicant. [Implementation] Unused. 82 dot1xsuppeapollogofffra mestx {dot1xsuppstatsentry 4} [Standard] umber of EPOL Logoff frames sent by Supplicant. [Implementation] Unused. 130

149 X MIB Group o. Object Identifier ccess Implementation Specifications Implemented 83 dot1xsuppeapolrespidfra mestx {dot1xsuppstatsentry 5} [Standard] umber of EP Request/Identity frames sent by Supplicant. [Implementation] Unused. 84 dot1xsuppeapolrespframe stx {dot1xsuppstatsentry 6} [Standard] umber of valid EP Response frames (other than Response/Identity frame) sent by Supplicant. [Implementation] Unused. 85 dot1xsuppeapolreqidfram esrx {dot1xsuppstatsentry 7} [Standard] umber of EP Request/Identity frames received by Supplicant. [Implementation] Unused. 86 dot1xsuppeapolreqframes Rx {dot1xsuppstatsentry 8} [Standard] umber of EP Request frames (other than Request/ Identity frame) received by Supplicant. [Implementation] Unused. 87 dot1xsuppinvalideapolfra mesrx {dot1xsuppstatsentry 9} [Standard] umber of EPOL frames received by Supplicant of which frame type was not approved. [Implementation] Unused. 88 dot1xsuppeaplengtherror FramesRx {dot1xsuppstatsentry 10} [Standard] umber of EPOL frames received by Supplicant of which Packet Body Length is invalid. [Implementation] Unused. 89 dot1xsupplasteapolframe Version {dot1xsuppstatsentry 11} [Standard] Protocol version o. of the EPOL frame received by Supplicant most recently. [Implementation] Unused. 90 dot1xsupplasteapolframe Source {dot1xsuppstatsentry 12} [Standard] Source MC ddress of the EPOL frame received by Supplicant most recently. [Implementation] Unused. 131

150 2.23 snmpmodules Group 2.23 snmpmodules Group snmpframeworkmib Group (SMP FRMEWORK MIB) The document relating to the snmpframeworkmib group is given below. RFC3411 (December 2002) (1) Identifier snmpframeworkmib MODULE-IDETITY ::= {snmpmodules 10} snmpframeworkmibobjects OBJECT IDETIFIER ::= {snmpframeworkmib 2} Object ID value snmpengine OBJECT IDETIFIER ::= {snmpframeworkmibobjects 1} Object ID value (2) Implementation specifications The table below shows the implementation specifications of the snmpframeworkmib group. Table 2-75: Implementation Specifications of snmpframeworkmib Group o. Object Identifier ccess Implementation Specifications Implemented 1 snmpengineid {snmpengine 1} [Standard] ID for SMP engine management However, all zeroes, all 0xff, and null (0-byte length) are not permitted. [Implementation] Setting by configuration command snmp-server engineid local or automatic creation by the agent Setting by configuration command snmp-server engineid local 1st to 4th octets: Bit ORed with the company code and 0x th octet: Fixed to 4. 6th to 32nd octets: Character string set by the configuration command (up to 27 characters) utomatic creation by the agent 1st to 4th octets: Bit ORed with the company code and 0x th octet: Fixed to th to 9th octets: Random number 10th to 13th octets: Current time 2 snmpengineboots {snmpengine 2} [Standard] umber of (re-)initialization times after snmpengineid is set last 3 snmpenginetime {snmpengine 3} [Standard] Elapsed time after snmpengineboots was incremented (unit: second(s)). However, when the maximum value is exceeded, the value is reset to 0 and snmpengineboots is incremented. 4 snmpenginemaxmessagesize {snmpengine 4} [Standard] Maximum size of the message that can be sent or received by the snmp engine [Implementation] 2048 fixed snmpmpdmib Group (SMP MPD MIB) The document relating to the snmpmpdmib group is given below. RFC3412 (December 2002) 132

151 2.23 snmpmodules Group (1) Identifier snmpmpdmib MODULE-IDETITY ::= {snmpmodules 11} snmpmpdmibobjects OBJECT IDETIFIER ::= {snmpmpdmib 2} Object ID value snmpmpdstats OBJECT IDETIFIER ::= {snmpmpdmibobjects 1} Object ID value (2) Implementation specifications The table below shows the implementation specifications of the snmpmpdmib group. Table 2-76: Implementation Specifications of snmpmpdmib Group o. Object Identifier ccess Implementation Specifications Implemented 1 snmpunknownsecuritymodels {snmpmpdstats 1} [Standard] Total number of received packets discarded due to unsupported securitymodel 2 snmpinvalidmsgs {snmpmpdstats 2} [Standard] Total number of received packets discarded due to illegal message 3 snmpunknownpduhandlers {snmpmpdstats 3} [Standard] Total number of received packets discarded because PDU that could not be handled by the application was contained snmptargetmib Group (SMP TRGET MIB) The document relating to the snmptargetmib group is given below. RFC3413 (December 2002) (1) Identifier snmptargetmib MODULE-IDETITY ::= {snmpmodules 12} snmptargetobjects OBJECT IDETIFIER ::= {snmptargetmib 1} Object ID value (2) Implementation specifications The table below shows the implementation specifications of the snmptargetmib group. Table 2-77: Implementation Specifications of snmptargetmib Group o. Object Identifier ccess Implementation Specifications Implemented 1 snmptargetspinlock {snmptargetobjects 1} [Standard] Used for lock operation when multiple managers request for the change of the SMP-TRGET-MIB module table entry. However, it is Read_Only. 2 snmptargetddrtable {snmptargetobjects 2} [Standard] Transport address table used for creation of the SMP message 3 snmptargetddrentry {snmptargetddrtable 1} [Standard] Transport address entry used for creation of the SMP message IDEX { IMPLIED snmptargetddrame } 133

152 2.23 snmpmodules Group o. Object Identifier ccess Implementation Specifications Implemented 4 snmptargetddrame {snmptargetddrentry 1} [Standard] ame of snmptargetddentry Corresponds to configuration command snmp-server host <manager-address>. 5 snmptargetddrtdomain {snmptargetddrentry 2} [Standard] snmptargetddrtddress object address transmission type However, it is Read_Only. Corresponds to the type of <manager-address> for configuration command snmp-server host. 6 snmptargetddrtddress {snmptargetddrentry 3} [Standard] Transport address. The format of this address is indicated by snmptargetddrtdomain. However, it is Read_Only. Corresponds to configuration command snmp-server host <manager-address>. 7 snmptargetddrtimeout {snmptargetddrentry 4} [Standard] Timeout value for communication with the transport address defined by this entry (unit: 10ms). Default = 1500 [Implementation] Fixed to 0. 8 snmptargetddrretrycou nt {snmptargetddrentry 5} [Standard] Default retries when the response for the sent message does not arrive Default = 3 [Implementation] Fixed to 0. 9 snmptargetddrtaglist {snmptargetddrentry 6} [Standard] List of snmpotifytag Default = "". [Implementation] "TRP" fixed. 10 snmptargetddrparams {snmptargetddrentry 7} [Standard] Entry of snmptargetparamstable However, it is Read_Only. Corresponds to configuration command snmp-server host <manager-address>. 11 snmptargetddrstoragety pe {snmptargetddrentry 8} [Standard] Saving format of this entry. Default = nonvolatile [Implementation] readonly (5) fixed. 12 snmptargetddrrowstatu s {snmptargetddrentry 9} [Standard] State of this entry. If a new entry is added, notready (3) is set until snmptargetddrtdomain, snmptargetddrtddress, and snmptargetddrparams are set. However, if this object is active (1), snmptargetddrtdomain and snmptargetddrtddress must not be changed. [Implementation] active (1) fixed. This entry corresponds to configuration command snmp-server host. 13 snmptargetparamstable {snmptargetobjects 3} [Standard] SMP target information table used for creation of the SMP message 14 snmptargetparamsentry {snmptargetparamstable 1} [Standard] SMP target information entry used for creation of the SMP message IDEX { IMPLIED snmptargetparamsame } 15 snmptargetparamsame {snmptargetparamsentry 1} [Standard] ame of snmptargetparamsentry Corresponds to configuration command snmp-server host <manager-address>. 134

153 2.23 snmpmodules Group o. Object Identifier ccess Implementation Specifications Implemented 16 snmptargetparamsmpmo del {snmptargetparamsentry 2} [Standard] Message handling model used for creation of the SMP message 0 to 255 are managed by I. 0: SMPv1 1: SMPv2C 2: SMPv2u, SMPv2* 3: SMPv3 256 and above are the company's original. [Implementation] SMPv3 (3) fixed. 17 snmptargetparamssecurit ymodel {snmptargetparamsentry 3} [Standard] Security model for creation of the SMP message 1 to 255 are managed by I. 0: o particular model provided 1: SMPv1 2: SMPv2C 3: User-Based Security Model (USM) 256 and above are the company's original. [Implementation] USM (3) fixed. 18 snmptargetparamssecurit yame {snmptargetparamsentry 4} [Standard] securityame indicating the technique used for creation of the SMP message However, it is Read_Only. Corresponds to configuration command snmp-server host <community-string>. 19 snmptargetparamssecurit ylevel {snmptargetparamsentry 5} [Standard] Security level for creation of the SMP message nouthopriv (1): o authentication, no privacy authopriv (2): uthentication provided, no privacy authpriv (3): uthentication and privacy provided However, it is Read_Only. Corresponds to selection of {noauth auth priv} for configuration command snmp-server host. 20 snmptargetparamsstorage Type {snmptargetparamsentry 6} [Standard] Saving format of this entry. [Implementation] readonly (5) fixed. 21 snmptargetparamsrowsta tus {snmptargetparamsentry 7} [Standard] State of this entry. If a new entry is added, notready (3) is set until snmptargetparamsmpmodel, snmptargetparamssecuritymodel, snmptargetparamssecurityame, and snmptargetparamssecuritylevels are set. However, if this object is active (1), snmptargetparamsmpmodel, snmptargetparamssecuritymodel, snmptargetparamssecurityame, and snmptargetparamssecuritylevel must not be changed. [Implementation] active (1) fixed. Corresponds to configuration command snmp-server host. 22 snmpunavailablecontexts {snmptargetobjects 4} [Standard] Total number of received packets discarded because context in the message was unusable 23 snmpunknowncontexts {snmptargetobjects 5} [Standard] Total number of received packets discarded because context in the message was not understandable snmpotificationmib Group (SMP OTIFICTIO MIB) The document relating to the snmpotificationmib group is given below. RFC3413 (December 2002) 135

154 2.23 snmpmodules Group (1) Identifier snmpotificationmib MODULE-IDETITY ::= {snmpmodules 13} snmpotifyobjects OBJECT IDETIFIER ::= {snmpotificationmib 1} Object ID value (2) Implementation specifications The table below shows the implementation specifications of the snmpotificationmib group. Table 2-78: Implementation Specifications of snmpotificationmib Group o. Object Identifier ccess Implementation Specifications Implemented 1 snmpotifytable {snmpotifyobjects 1} [Standard] Table for identifying the type of otification sent to the management target receiving otification or to the selected management target 2 snmpotifyentry {snmpotifytable 1} [Standard] Entry for identifying the type of otification sent to the management target group receiving otification or to the selected management target IDEX { IMPLIED snmpotifyame } 3 snmpotifyame {snmpotifyentry 1} [Standard] ame of snmpotifyentry [Implementation] "TRP" fixed. 4 snmpotifytag {snmpotifyentry 2} [Standard] Tag value for identifying the entry of snmptargetddrtable Default = "". [Implementation] "TRP" fixed. 5 snmpotifytype {snmpotifyentry 3} [Standard] Type of otification Default = trap (1) trap (1) inform (2) [Implementation] trap (1) fixed. 6 snmpotifystoragetype {snmpotifyentry 4} [Standard] Saving format of this entry. Default = nonvolatile [Implementation] readonly (5) fixed. 7 snmpotifyrowstatus {snmpotifyentry 5} [Standard] State of this entry. [Implementation] active (1) fixed. 8 snmpotifyfilterprofiletable {snmpotifyobjects 2} [Standard] Table that links the otification filter definition to a particular target parameter 9 snmpotifyfilterprofileentry {snmpotifyfilterprofiletable 1} [Standard] Filter definition entry used for creation of otification IDEX { IMPLIED snmptargetparamsame } 10 snmpotifyfilterprofileame {snmpotifyfilterprofileentry 1} [Standard] ame of filter definition ssociated with snmptargetparamstable. However, it is Read_Only. Corresponds to configuration command snmp-server host <manager-address>. 11 snmpotifyfilterprofilestorag etype {snmpotifyfilterprofileentry 2} [Standard] Saving format of this entry. Default = nonvolatile [Implementation] readonly (5) fixed. 136

155 2.23 snmpmodules Group o. Object Identifier ccess Implementation Specifications Implemented 12 snmpotifyfilterprofilerowst atus {snmpotifyfilterprofileentry 3} [Standard] State of this entry. If a new entry is added, notready (3) is set until snmpotifyfilterprofileame is set. [Implementation] active (1) fixed. Corresponds to configuration command snmp-server host. 13 snmpotifyfiltertable {snmpotifyobjects 3} [Standard] Table of filter definition used to determine whether the management target receives otification 14 snmpotifyfilterentry {snmpotifyfiltertable 1} [Standard] Entry of filter definition used to determine whether the management target receives otification IDEX { snmpotifyfilterprofileame, IMPLIED snmpotifyfiltersubtree } 15 snmpotifyfiltersubtree {snmpotifyfilterentry 1} [Standard] MIB sub-tree that defines the sub-tree family to be included in or excluded from the filter definition when combined with the instance corresponding to snmpotifyfiltermask Corresponds to the trap sending mode of configuration command snmp-server host. 16 snmpotifyfiltermask {snmpotifyfilterentry 2} [Standard] Bit mask that defines the sub-tree family to be included in or excluded from the filter definition when combined with the instance corresponding to snmpotifyfiltersubtree '1': Matches exactly. '0': Wild character If the object length is 0, all-1 is applied for padding with this extension rule. The filter sub-tree family is uniquely identified by the instance corresponding to snmpotifyfiltersubtree. Default = "H. However, it is Read_Only. Corresponds to the trap sending mode of configuration command snmp-server host. 17 snmpotifyfiltertype {snmpotifyfilterentry 3} [Standard] This object indicates whether the filter sub-tree family defined by this entry is included in the filter. Default = included included (1) excluded (2) However, it is Read_Only. Corresponds to the trap sending mode of configuration command snmp-server host. 18 snmpotifyfilterstoragetype {snmpotifyfilterentry 4} [Standard] Saving format of this entry. Default = nonvolatile [Implementation] readonly (5) fixed. 19 snmpotifyfilterrowstatus {snmpotifyfilterentry 5} [Standard] State of this entry. [Implementation] active (1) fixed. Corresponds to the trap sending mode of configuration command snmp-server host snmpproxymib Group (SMP PROXY MIB) The document relating to the snmpproxymib group is given below. RFC3413 (December 2002) (1) Identifier snmpproxymib MODULE-IDETITY ::= {snmpmodules 14} snmpproxyobjects OBJECT IDETIFIER ::= {snmpproxymib 1} Object ID value

156 2.23 snmpmodules Group (2) Implementation specifications The table below shows the implementation specifications of the snmpproxymib group. Table 2-79: Implementation Specifications of snmpproxymib Group o. Object Identifier ccess Implementation Specifications Implemented 1 snmpproxytable {snmpproxyobjects 2} [Standard] Table of conversion parameter used by the proxy forwarder application [Implementation] ot supported. 2 snmpproxyentry {snmpproxytable 1} [Standard] Entry of conversion parameter used by the proxy forwarder application IDEX { IMPLIED snmpproxyame } [Implementation] ot supported. 3 snmpproxyame {snmpproxyentry 1} [Standard] ame of snmpproxyentry (1 to 32 characters) [Implementation] ot supported. 4 snmpproxytype {snmpproxyentry 2} R/C [Standard] Type of message forwarded with the conversion parameter defined by this entry read (1) write (2) trap (3) inform (4) [Implementation] ot supported. 5 snmpproxycontextenginei D {snmpproxyentry 3} R/C [Standard] contextengineid contained in the message forwarded with the conversion parameter defined by this entry [Implementation] ot supported. 6 snmpproxycontextame {snmpproxyentry 4} R/C [Standard] contextame contained in the message forwarded with the conversion parameter defined by this entry [Implementation] ot supported. 7 snmpproxytargetparamsin {snmpproxyentry 5} R/C [Standard] Entry of snmptargetparamstable is identified. [Implementation] ot supported. 8 snmpproxysingletargetout {snmpproxyentry 6} R/C [Standard] The management target defined by snmptargetddrtable is identified. [Implementation] ot supported. 9 snmpproxymultipletargeto ut {snmpproxyentry 7} R/C [Standard] The management target defined by snmptargetddrtable is identified. [Implementation] ot supported. 10 snmpproxystoragetype {snmpproxyentry 8} R/C [Standard] Saving format of this entry. [Implementation] ot supported. 11 snmpproxyrowstatus {snmpproxyentry 9} R/C [Standard] State of this entry. [Implementation] ot supported snmpusmmib Group (SMP USER BSED SM MIB) The document relating to the snmpusmmib group is given below. RFC3414 (December 2002) (1) Identifier snmpusmmib MODULE-IDETITY ::= {snmpmodules 15} usmmibobjects OBJECT IDETIFIER ::= {snmpusmmib 1} Object ID value usmstats OBJECT IDETIFIER ::= {usmmibobjects 1} Object ID value

157 2.23 snmpmodules Group usmuser OBJECT IDETIFIER ::= {usmmibobjects 2} Object ID value (2) Implementation specifications The table below shows the implementation specifications of the snmpusmmib group. Table 2-80: Implementation Specifications of snmpusmmib Group o. Object Identifier ccess Implementation Specifications Implemented 1 usmstatsunsupportedsecle vels {usmstats 1} [Standard] Total number of received packets discarded due to illegal security level 2 usmstatsotintimewindo ws {usmstats 2} [Standard] Total number of received packets discarded because WindowTime was out of range 3 usmstatsunknownusera mes {usmstats 3} [Standard] Total number of received packets discarded due to illegal user 4 usmstatsunknownenginei Ds {usmstats 4} [Standard] Total number of received packets discarded because snmpengineid not recognized was referenced 5 usmstatswrongdigests {usmstats 5} [Standard] Total number of received packets discarded because the expected digest value was not contained 6 usmstatsdecryptionerrors {usmstats 6} [Standard] Total number of received packets discarded because decryption failed 7 usmuserspinlock {usmuser 1} [Standard] Used for lock operation to change the secret of usmusertable. However, it is Read_Only. 8 usmusertable {usmuser 2} [Standard] User table configured in LCD (Local Configuration Datastore) of the SMP engine 9 usmuserentry {usmusertable 1} [Standard] Entry of the user table configured in LCD (Local Configuration Datastore) of the SMP engine IDEX { usmuserengineid, usmuserame } 10 usmuserengineid {usmuserentry 1} [Standard] ID for SMP engine management Corresponds to configuration command snmp-server engineid local. 11 usmuserame {usmuserentry 2} [Standard] Legible name indicating the user This is the security ID on which USM depends. Corresponds to configuration command snmp-server user <user-name>. 12 usmusersecurityame {usmuserentry 3} [Standard] Legible name indicating the user whose format does not depend on the security model. Same value as usmuserame. Corresponds to configuration command snmp-server user <user-name>. 13 usmuserclonefrom {usmuserentry 4} [Standard] Pointer to another entry as the duplication source for addition of a new entry If this object is read, the object ID of 0.0 is returned. However, it is Read_Only. 14 usmuseruthprotocol {usmuserentry 5} [Standard] uthentication protocol of the SMP engine indicated by usmuserengineid However, it is Read_Only. Corresponds to selection of {md5 sha} for the auth parameter of configuration command snmp-server user. 139

158 2.23 snmpmodules Group o. Object Identifier ccess Implementation Specifications Implemented 15 usmuseruthkeychange {usmuserentry 6} [Standard] Object that creates the authentication key of the snmp engine indicated by usmuserengineid Set when usmuserame of the requesting user is different from usmuserame of this entry. If this object is read, a character string with length 0 is returned. Default = "H. [Implementation] "" fixed. 16 usmuserownuthkeycha nge {usmuserentry 7} [Standard] Object that creates the authentication key of the snmp engine indicated by usmuserengineid Set when usmuserame of the requesting user is equivalent to usmuserame of this entry. If this object is read, a character string with length 0 is returned. Default = "H. [Implementation] "" fixed. 17 usmuserprivprotocol {usmuserentry 8} [Standard] Used by the privacy protocol of the SMP engine indicated by usmuserengineid. Default = usmoprivprotocol However, it is Read_Only. Corresponds to des of the priv parameter configuration command snmp-server user. 18 usmuserprivkeychange {usmuserentry 9} [Standard] Object that creates the encryption key indicated by usmuserengineid Set when usmuserame of the requesting user is different from usmuserame of this entry. If this object is read, a character string with length 0 is returned. Default = "H. [Implementation] "" fixed. 19 usmuserownprivkeychan ge {usmuserentry 10} [Standard] Object that creates the encryption key indicated by usmuserengineid Set when usmuserame of the requesting user is equivalent to usmuserame of this entry. If this object is read, a character string with length 0 is returned. Default = "H. [Implementation] "" fixed. 20 usmuserpublic {usmuserentry 11} [Standard] Value created in the process changing the user authentication key or encryption key Usable later to check to see if the key change is valid. Default = "H. [Implementation] "" fixed. 21 usmuserstoragetype {usmuserentry 12} [Standard] Saving format of this entry. [Implementation] readonly (5) fixed. 22 usmuserstatus {usmuserentry 13} [Standard] State of this entry. [Implementation] active (1) fixed snmpvacmmib Group (SMP VIEW BSED CM MIB) The document relating to the snmpvacmmib group is given below. RFC3415 (December 2002) (1) Identifier snmpvacmmib MODULE-IDETITY ::= {snmpmodules 16} vacmmibobjects OBJECT IDETIFIER ::= {snmpvacmmib 1} Object ID value vacmmibviews OBJECT IDETIFIER ::= {vacmmibobjects 5} Object ID value

159 2.23 snmpmodules Group (2) Implementation specifications The table below shows the implementation specifications of the snmpvacmmib group. Table 2-81: Implementation Specifications of snmpvacmmib Group o. Object Identifier ccess Implementation Specifications Implemented 1 vacmcontexttable {vacmmibobjects 1} [Standard] Context table that is locally usable 2 vacmcontextentry {vacmcontexttable 1} [Standard] Entry of the context table that is locally usable IDEX { vacmcontextame } 3 vacmcontextame {vacmcontextentry 1} [Standard] Legible name indicating a particular context of a particular SMP entity contextame that is null indicates the default context. [Implementation] Default context fixed. 4 vacmsecuritytogrouptable {vacmmibobjects 2} [Standard] Table used to define the operator group access control policy 5 vacmsecuritytogroupentry {vacmsecuritytogrouptabl e 1} [Standard] Entry used to define the operator group access control policy Indicates groupame as a pair of securitymodel and securityame. IDEX { vacmsecuritymodel, vacmsecurityame } 6 vacmsecuritymodel {vacmsecuritytogroupentr y 1} [Standard] Security model of vacmsecurityame referenced by this entry 0 cannot be specified. 1 to 255 are managed by I. 0: o particular model provided 1: SMPv1 2: SMPv2C 3: User-Based Security Model (USM) 256 and above are the company's original. [Implementation] USM (3) fixed. 7 vacmsecurityame {vacmsecuritytogroupentr y 2} [Standard] securityame of this entry. Used for association with groupame from this entry. Corresponds to configuration command snmp-server user <user-name>. 8 vacmgroupame {vacmsecuritytogroupentr y 3} [Standard] ame of group to which this entry belongs However, it is Read_Only. Corresponds to configuration command snmp-server user <group-name>. 9 vacmsecuritytogroupstora getype {vacmsecuritytogroupentr y 4} [Standard] Saving format of this entry. Default = nonvolatile [Implementation] readonly (5) fixed. 10 vacmsecuritytogroupstatu s {vacmsecuritytogroupentr y 5} [Standard] State of this entry. If a new entry is added, notready (3) is set until vacmgroupame is set. [Implementation] active (1) fixed. Corresponds to configuration command snmp-server user. 11 vacmccesstable {vacmmibobjects 4} [Standard] Group access right table 141

160 2.23 snmpmodules Group o. Object Identifier ccess Implementation Specifications Implemented 12 vacmccessentry {vacmccesstable 1} [Standard] Group access right entry IDEX { vacmgroupame, vacmccesscontextprefix, vacmccesssecuritymodel, vacmccesssecuritylevel } 13 vacmccesscontextprefix {vacmccessentry 1} [Standard] Value to be compared with to acquire the access right with this entry [Implementation] "" fixed. 14 vacmccesssecuritymodel {vacmccessentry 2} [Standard] securitymodel that is necessary to acquire the access right of this entry 1 to 255 are managed by I. 0: o particular model provided 1: SMPv1 2: SMPv2C 3: User-Based Security Model (USM) 256 and above are the company's original. [Implementation] USM (3) fixed. 15 vacmccesssecuritylevel {vacmccessentry 3} [Standard] Security level that is necessary to acquire the access right of this entry nouthopriv (1): o authentication, no privacy authopriv (2): uthentication provided, no privacy authpriv (3): uthentication and privacy provided Corresponds to selection of {noauth auth priv} for configuration command snmp-server group. 16 vacmccesscontextmatch {vacmccessentry 4} [Standard] exact (1): ll line entries with contextame exactly matching vacmccesscontextprefix are selected. prefix (2): ll line entries with the first character of contextame exactly matching vacmccesscontextprefix are selected. Default = exact [Implementation] exact (1) fixed. 17 vacmccessreadviewam e {vacmccessentry 5} [Standard] vacmviewtreefamilyviewame of the MIB view for which this entry authenticates the read access Default = "H. However, it is Read_Only. Corresponds to <view-name> for the read parameter of configuration command snmp-server group. 18 vacmccesswriteviewam e {vacmccessentry 6} [Standard] vacmviewtreefamilyviewame of the MIB view for which this entry authenticates the write access Default = "H. However, it is Read_Only. Corresponds to <view-name> for the write parameter of configuration command snmp-server group. 19 vacmccessotifyviewa me {vacmccessentry 7} [Standard] vacmviewtreefamilyviewame of the MIB view for which this entry authenticates the notifications access Default = "H. However, it is Read_Only. Corresponds to <view-name> for the notify parameter of configuration command snmp-server group. 20 vacmccessstoragetype {vacmccessentry 8} [Standard] Saving format of this entry. Default = nonvolatile [Implementation] readonly (5) fixed. 21 vacmccessstatus {vacmccessentry 9} [Standard] State of this entry. [Implementation] active (1) fixed. Corresponds to configuration command snmp-server group. 142

161 2.23 snmpmodules Group o. Object Identifier ccess Implementation Specifications Implemented 22 vacmviewspinlock {vacmmibviews 1} [Standard] Recommended lock to permit cooperation with the SMP command generator application for the SET operation of view creation or change This is the recommended lock and not forced. However, it is Read_Only. 23 vacmviewtreefamilytable {vacmmibviews 2} [Standard] Local storage table for MIB view sub-tree family information Inclusion and exclusion of all view sub-trees are defined by this table. 24 vacmviewtreefamilyentry {vacmviewtreefamilytabl e 1} [Standard] Local storage entry for MIB view sub-tree family information IDEX { vacmviewtreefamilyviewame, vacmviewtreefamilysubtree } 25 vacmviewtreefamilyview ame {vacmviewtreefamilyentr y 1} [Standard] Visually legible view sub-tree family name Corresponds to configuration command snmp-server view <view-name>. 26 vacmviewtreefamilysubtr ee {vacmviewtreefamilyentr y 2} [Standard] MIB sub-tree that defines the view sub-tree family Corresponds to configuration command snmp-server view <oid-tree>. 27 vacmviewtreefamilymask {vacmviewtreefamilyentr y 3} [Standard] Mask value of vacmviewtreefamilysubtree 1: Exact match must occur. 0: Indicates 'wildcard'. If the length of this object is 0, all '1' mask is used. However, it is Read_Only. Corresponds to wildcard specification (*) for configuration command snmp-server view <oid-tree>. 28 vacmviewtreefamilytype {vacmviewtreefamilyentr y 4} [Standard] Indicates inclusion or exclusion of the MIB view. Default = included included (1) excluded (2) However, it is Read_Only. Corresponds to selection of {included excluded} for configuration command snmp-server view. 29 vacmviewtreefamilystora getype {vacmviewtreefamilyentr y 5} [Standard] Saving format of this entry. Default = nonvolatile [Implementation] readonly (5) fixed. 30 vacmviewtreefamilystatus {vacmviewtreefamilyentr y 6} [Standard] State of this entry. [Implementation] active (1) fixed. Corresponds to configuration command snmp-server view snmpcommunitymib Group (SMP COMMUITY MIB) The document relating to the snmpcommunitymib group is given below. RFC3584 (ugust 2003) (1) Identifier snmpcommunitymib MODULE-IDETITY ::= {snmpmodules 18} snmpcommunitymibobjects OBJECT IDETIFIER ::= {snmpcommunitymib 1} 143

162 2.23 snmpmodules Group Object ID value (2) Implementation specifications The table below shows the implementation specifications of the snmpcommunitymib group. Table 2-82: Implementation Specifications of snmpcommunitymib Group o. Object Identifier ccess Implementation Specifications Implemented 1 snmpcommunitytable {snmpcommunitymibobje cts 1} [Standard] Table of community string configured in LCD of the SMP engine [Implementation] ot supported. 2 snmpcommunityentry {snmpcommunitytable 1} [Standard] Entry of community string configured in LCD of the SMP engine IDEX { IMPLIED snmpcommunityindex } [Implementation] ot supported. 3 snmpcommunityindex {snmpcommunityentry 1} [Standard] Index of this entry (0 to 32 characters) [Implementation] ot supported. 4 snmpcommunityame {snmpcommunityentry 2} R/C [Standard] Community name of this entry. Size limitation is not provided for this object. [Implementation] ot supported. 5 snmpcommunitysecurity ame {snmpcommunityentry 3} R/C [Standard] String corresponding to snmpcommunityame in the format independent of the security model [Implementation] ot supported. 6 snmpcommunitycontexten gineid {snmpcommunityentry 4} R/C [Standard] contextengineid indicating the storage location for the management information context indicated by the instance corresponding to snmpcommunityame [Implementation] ot supported. 7 snmpcommunitycontexta me {snmpcommunityentry 5} R/C [Standard] Management information context indicated by the instance corresponding to snmpcommunityame (0 to 32 characters) [Implementation] ot supported. 8 snmpcommunitytransportt ag {snmpcommunityentry 6} R/C [Standard] Tag value for identifying the set of transport endpoints [Implementation] ot supported. 9 snmpcommunitystoragety pe {snmpcommunityentry 7} R/C [Standard] Saving format of this entry. [Implementation] ot supported. 10 snmpcommunitystatus {snmpcommunityentry 8} R/C [Standard] State of this entry. [Implementation] ot supported. 11 snmptargetddrexttable {snmpcommunitymibobje cts 2} [Standard] Table of the mask and mms value linked to snmptargetddrtable [Implementation] ot supported. 12 snmptargetddrextentry {snmptargetddrexttable 1} [Standard] Entry of the mask and mms value linked to snmptargetddrtable UGMETS {snmptargetddrentry} [Implementation] ot supported. 13 snmptargetddrtmask {snmptargetddrextentry 1} R/C [Standard] Mask value linked to the entry of snmptargetddrtable (0 to 255 characters) 1: Indicates the bit of the transport address matching the bit of snmptargetddrtddress. 0: Indicates the bit of the transport address not matching the bit of snmptargetddrtddress. [Implementation] ot supported. 144

163 2.23 snmpmodules Group o. Object Identifier ccess Implementation Specifications Implemented 14 snmptargetddrmms {snmptargetddrextentry 2} R/C [Standard] Maximum size value of the message linked to the entry of snmptargetddrtable Range of values: 0 or 484 to [Implementation] ot supported. 15 snmptrapddress {snmpcommunitymibobje cts 3} [Standard] Value of the agent-addr field of trap PDU forwarded by Proxy Forwarding pplications using the SMP version other than SMPv1 [Implementation] ot supported. 16 snmptrapcommunity {snmpcommunitymibobje cts 4} [Standard] Value of the community string field of the SMPv1 message containing trap PDU forwarded by Proxy Forwarding pplications using the SMP version other than SMPv1 [Implementation] ot supported. 145

164 2.23 snmpmodules Group 146

165 3 Private MIBs This chapter provides an explanation of the implementation specifications of private MIBs used in this system. 3.1 axsstats Group (Statistics Information MIBs) 3.2 axsgsrpmib Group (GSRP Group Information) 3.3 axsfdb Group (MC ddress Table Group MIB) 3.4 axsvlan Group (VL Information MIB) 3.5 axsoadp Group (ODP Information MIB) 3.6 axsflow Group (FLOW Information MIB) 3.7 axsl2ldmib Group (L2 Loop Detection Information MIB) 3.8 axsospfmib Group (Multi-backbone OSPF Information MIB) 3.9 axsospfv3mib Group (Multi-backbone OSPFv3 Information MIB) 3.10 axsbootmanagement Group (System Booting Information MIB) 3.11 axslogin Group (Login Information MIB) 3.12 axslldp Group (LLDP Information MIB) 3.13 axsxrpmib Group (Ring Protocol Information) 3.14 ax3630sswitch Group (System Model Information MIB)[CB 320] 3.15 ax3630sdevice Group (System Chassis Information MIB)[CB 320] 3.16 ax3630smanagementmib Group (Changing System Status/Information)[CB 320] 3.17 ax3640sswitch Group (System Model Information MIB)[CB 2000] 3.18 ax3640sdevice Group (System Chassis Information MIB)[CB 2000] 3.19 ax3640smanagementmib Group (Changing System Status/Information)[CB 2000] 3.20 ax3650sswitch Group (System Model Information MIB)[CB 2000][OS-L3S] 3.21 ax3650sdevice Group (System Chassis Information MIB)[CB 2000][OS-L3S] 3.22 ax3650smanagementmib Group (Changing System Status/Information)[CB 2000][OS-L3S] 3.23 icmp Group (HP Private MIB) 147

166 sflow Group (InMon Private MIB)

167 3.1 axsstats Group (Statistics Information MIBs) 3.1 axsstats Group (Statistics Information MIBs) axsifstats Group (1) Identifier axsstats OBJECT IDETIFIER ::= {axsmib 1} axsifstats OBJECT IDETIFIER ::= {axsstats 4} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsifstats group. Table 3-1: Implementation Specifications of axsifstats Group o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsifstatstable {axsifstats 1} OT-CCE SSIBLE Extended statistics information table of interface. 2 axsifstatsentry {axsifstatstable 1} OT-CCE SSIBLE Entry of extended statistics information table of interface. IDEX {axsifstatsindex} 3 axsifstatsindex {axsifstatsentry 1} OT-CCE SSIBLE Interface index of this system. Same as ifindex. 4 axsifstatsame {axsifstatsentry 2} 5 axsifstatsinmegaoctets {axsifstatsentry 3} 6 axsifstatsinucastmegapkts {axsifstatsentry 4} 7 axsifstatsinmulticastmegapkts {axsifstatsentry 5} 8 axsifstatsinbroadcastmegapkts {axsifstatsentry 6} 9 axsifstatsoutmegaoctets {axsifstatsentry 7} 10 axsifstatsoutucastmegapkts {axsifstatsentry 8} 11 axsifstatsoutmulticastmegapkts {axsifstatsentry 9} 12 axsifstatsoutbroadcastmegapkts {axsifstatsentry 10} 13 axsifstatshighspeed {axsifstatsentry 11} DisplayString ame of interface. Same as ifdescr. Counter Total number of received octets (Unit: Mega). Less than Mega are discarded. For calculating the number of octets, the range between MC header and FCS in the frame length is used. Counter umber of unicast packets received (Unit: Mega). Less than Mega are discarded. Counter umber of multicast packets received (Unit: Mega). Less than Mega are discarded. Counter umber of broadcast packets received (Unit: Mega). Less than Mega are discarded. Counter Total number of transmitted octets (Unit: Mega). Less than Mega are discarded. For calculating the number of octets, the range between MC header and FCS in the frame length is used. Counter umber of packets transmitted as unicast (Unit: Mega). Less than Mega are discarded. 0 fixed. Counter umber of packets transmitted as multicast (Unit: Mega). Less than Mega are discarded. Counter umber of packets transmitted as broadcast (Unit: Mega). Less than Mega are discarded. Counter Line speed (Unit: Mbit/s). Less than Mbit/s are discarded. If configuration command "bandwidth" is not set, line speed of the interface is displayed, and if set, the value specified for "bandwidth" is displayed. B 149

168 3.1 axsstats Group (Statistics Information MIBs) axsqos Group (1) Identifier axsstats OBJECT IDETIFIER ::= {axsmib 1} axsqos OBJECT IDETIFIER ::= {axsstats 6} axsethertxqos OBJECT IDETIFIER ::= {axsqos 1} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsethertxqos group. Table 3-2: Implementation Specifications of axsethertxqos Group (Ethernet Interface QoS Statistics Information) o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsethertxqosstatstable {axsethertxqos 1} OT-CCE SSIBLE Table information of QoS statistics information. 2 axsethertxqosstatsentry {axsethertxqosstatstable 1} OT-CCE SSIBLE Entry on QoS statistics information for each Ethernet interface. IDEX { axsethertxqosstatsindex } 3 axsethertxqosstatsindex {axsethertxqosstatsentry 1} OT-CCE SSIBLE Indicates the index value that identifies the entry of this table (indicates the ifindex value of Ethernet interface). Value of 1 to ifumber. 4 axsethertxqosstatsmaxqnum {axsethertxqosstatsentry 2} 5 axsethertxqosstatslimitqlen {axsethertxqosstatsentry 3} 6 axsethertxqosstatstotaloutf rames {axsethertxqosstatsentry 4} 7 axsethertxqosstatstotaloutb yteshigh {axsethertxqosstatsentry 5} 8 axsethertxqosstatstotaloutb yteslow {axsethertxqosstatsentry 6} 9 axsethertxqosstatstotaldisc ardframes {axsethertxqosstatsentry 7} ITEGER Indicates the maximum value of the number of queues in the corresponding interface. ITEGER Indicates the limit value of the output priority queue length of the corresponding interface. Counter Indicates the total number of transmitted frames of the corresponding interface. 0 fixed Counter Indicates the total number of transmitted bytes (upper 4 bytes) of the corresponding interface. 0 fixed Counter Indicates the total number of transmitted bytes (lower 4 bytes) of the corresponding interface. 0 fixed Counter Indicates the total number of discarded frames of the corresponding interface. B B B 10 axsethertxqosstatsqueuetab le {axsethertxqos 2} OT-CCE SSIBLE Table information of QoS statistics information for each output priority queue of the corresponding interface. 11 axsethertxqosstatsqueueentr y {axsethertxqosstatsqueueta ble 1} OT-CCE SSIBLE Entry on the QoS statistics information for each output priority queue of the corresponding interface. IDEX { axsethertxqosstatsqueueindex, axsethertxqosstatsqueuequeindex } 12 axsethertxqosstatsqueueind ex {axsethertxqosstatsqueueen try 1} OT-CCE SSIBLE Indicates the index value that identifies the entry of this table (indicates the ifindex value of Ethernet interface). Value of 1 to ifumber. 150

169 3.1 axsstats Group (Statistics Information MIBs) o. Object Identifier SYTX ccess Implementation Specifications Implemented 13 axsethertxqosstatsqueueque Index {axsethertxqosstatsqueueen try 2} OT-CCE SSIBLE Indicates the index value that identifies the entry of this table. Value of 1 to axsethertxqosstatsmaxqnum. 14 axsethertxqosstatsqueueqle n {axsethertxqosstatsqueueen try 3} 15 axsethertxqosstatsqueuema xqlen {axsethertxqosstatsqueueen try 4} 16 axsethertxqosstatsqueuedis cardframesclass1 {axsethertxqosstatsqueueen try 5} 17 axsethertxqosstatsqueuedis cardframesclass2 {axsethertxqosstatsqueueen try 6} 18 axsethertxqosstatsqueuedis cardframesclass3 {axsethertxqosstatsqueueen try 7} 19 axsethertxqosstatsqueuedis cardframesclass4 {axsethertxqosstatsqueueen try 8} ITEGER Indicates the queue length of output priority during information collection. ITEGER Indicates the queue length of the maximum output priority of the corresponding interface after this statistics information is cleared or initialized. 0 fixed Counter64 Indicates discarded frames at queuing priority 1 of the corresponding output priority queue. 0 fixed Counter64 Indicates discarded frames at queuing priority 2 of the corresponding output priority queue. 0 fixed Counter64 Indicates discarded frames at queuing priority 3 of the corresponding output priority queue. 0 fixed Counter64 Indicates discarded frames at queuing priority 4 of the corresponding output priority queue. 0 fixed B B B B B axsdhcp Group (1) Identifier axsstats OBJECT IDETIFIER ::= {axsmib 1} axsdhcp OBJECT IDETIFIER ::= {axsstats 10} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsdhcp group. Table 3-3: Implementation Specifications of axsdhcp Group o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsdhcp {axsstats 10} OT-CCE SSIBLE Statistics information on DHCP server 2 axsdhcpddrvalue {axsdhcp 1} 3 axsdhcpfreeddrvalue {axsdhcp 2} ITEGER umber of IP addresses to be assigned. ITEGER umber of IP addresses not assigned. 151

170 3.2 axsgsrpmib Group (GSRP Group Information) 3.2 axsgsrpmib Group (GSRP Group Information) axsgsrpgrouptable Group (1) Identifier axsgsrp OBJECT IDETIFIER ::= {axsmib 4} axsgsrpgrouptable OBJECT IDETIFIER ::= {axsgsrp 1} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsgsrpgrouptable group. Table 3-4: Implementation Specifications of axsgsrpgrouptable Group o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsgsrpgrouptable {axsgsrp 1} OT-CCE SSIBLE Table storing GSRP group information. 2 axsgsrpgroupentry {axsgsrpgrouptable 1} OT-CCE SSIBLE List of GSRP group information. IDEX { axsgsrpgroupid } 3 axsgsrpgroupid {axsgsrpgroupentry 1} ITEGER GSRP group identifier. 4 axsgsrpgrouprowstatus {axsgsrpgroupentry 2} RowStatus Indicates valid/invalid status of this entry. Valid (1) fixed. 5 axsgsrpmacddress {axsgsrpgroupentry 3} Macddress MC address of the system 6 axsgsrpdvertiseholdtime {axsgsrpgroupentry 4} 7 axsgsrpdvertiseinterval {axsgsrpgroupentry 5} 8 axsgsrpselectionpattern {axsgsrpgroupentry 6} 9 axsgsrplayer3redundancy {axsgsrpgroupentry 7} ITEGER Retaining time of dvertise frame (unit: millisecond(s)). ITEGER Sending interval of dvertise frame (unit: millisecond(s)). ITEGER Master/backup selection pattern. Ports-Priority-MC (1) Priority-Ports-MC (2) ITEGER Layer 3 redundancy switch status. Off (1) On (2) axsgsrpvlangrouptable Group (1) Identifier axsgsrp OBJECT IDETIFIER ::= {axsmib 4} axsgsrpvlangrouptable OBJECT IDETIFIER ::= {axsgsrp 2} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsgsrpvlangrouptable group. 152

171 3.2 axsgsrpmib Group (GSRP Group Information) Table 3-5: Implementation Specifications of axsgsrpvlangrouptable Group o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsgsrpvlangrouptable {axsgsrp 2} OT-CCE SSIBLE Table storing GSRP VL group information. 2 axsgsrpvlangroupentry {axsgsrpvlangrouptable 1} OT-CCE SSIBLE List of GSRP VL group information. IDEX { axsgsrpgroupid, axsgsrpvlangroupid } 3 axsgsrpvlangroupid {axsgsrpvlangroupentry 1} ITEGER GSRP VL group number (1 to 64) 4 axsgsrpvlangrouprowstatus {axsgsrpvlangroupentry 2} 5 axsgsrpstate {axsgsrpvlangroupentry 3} RowStatus Indicates valid/invalid status of this entry. Valid (1) fixed. ITEGER GSRP group status. BackUp (1) BackUp (Waiting) (2) Master (3) BackUp (o eighbor) (4) BackUp (Lock) (5) 6 axsgsrppriority {axsgsrpvlangroupentry 4} 7 axsgsrpctiveports {axsgsrpvlangroupentry 5} ITEGER Configured priority. ITEGER umber of active ports. 8 axsgsrptransitiontomasterco unts {axsgsrpvlangroupentry 6} 9 axsgsrptransitionfrommaster Counts {axsgsrpvlangroupentry 7} 10 axsgsrplasttransitiontime {axsgsrpvlangroupentry 8} ITEGER umber of transitions from backup status to master status. ITEGER umber of transitions from master status to backup status. TimeStamp Time of last transition from master to backup status or backup to master status. 11 axsgsrpvirtualmacddress {axsgsrpvlangroupentry 9} Macddress Virtual MC address of GSRP VL group axsgsrpeighborgrouptable Group (1) Identifier axsgsrp OBJECT IDETIFIER ::= {axsmib 4} axsgsrpeighborgrouptable OBJECT IDETIFIER ::= {axsgsrp 3} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsgsrpeighborgrouptable group. Table 3-6: Implementation Specifications of axsgsrpeighborgrouptable Group o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsgsrpeighborgrouptable {axsgsrp 3} OT-CCE SSIBLE Table storing GSRP group information of remote system. 2 axsgsrpeighborgroupentry {axsgsrpeighborgrouptable 1} OT-CCE SSIBLE List of GSRP group information of remote system. IDEX { axsgsrpeighborgroupid, axsgsrpeighbormacddress } 153

172 3.2 axsgsrpmib Group (GSRP Group Information) o. Object Identifier SYTX ccess Implementation Specifications Implemented 3 axsgsrpeighborgroupid {axsgsrpeighborgroupentry 1} 4 axsgsrpeighbormacddress {axsgsrpeighborgroupentry 2} ITEGER GSRP group identifier of remote system. Macddress MC address of remote system. 5 axsgsrpeighbordvertiseholdtime {axsgsrpeighborgroupentry 3} 6 axsgsrpeighbordvertiseinterval {axsgsrpeighborgroupentry 4} 7 axsgsrpeighborselectionpattern {axsgsrpeighborgroupentry 5} ITEGER dvertise frame hold time of remote system (unit: millisecond(s)). ITEGER dvertise frame sending interval of remote system (unit: millisecond(s)). ITEGER Master/backup selection pattern of remote system. Port-Priority-MC (1) Priority-Port-MC (2) axsgsrpeighborvlangrouptable Group (1) Identifier axsgsrp OBJECT IDETIFIER ::= {axsmib 4} axsgsrpeighborvlangrouptable OBJECT IDETIFIER ::= {axsgsrp 4} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsgsrpeighborvlangrouptable group. Table 3-7: Implementation Specifications of axsgsrpeighborvlangrouptable Group o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsgsrpeighborvlangrouptable {axsgsrp 4} OT-CCE SSIBLE Table storing GSRP VL group information of remote system. 2 axsgsrpeighborvlangroupentry {axsgsrpeighborgrouptable 1} OT-CCE SSIBLE List of GSRP VL group information of remote system. IDEX { axsgsrpeighborgroupid, axsgsrpeighborvlangroupid, axsgsrpeighbormacddress } 3 axsgsrpeighborvlangroupid {axsgsrpeighborvlangroupentry 1} 4 axsgsrpeighborstate {axsgsrpeighborvlangroupentry 2} ITEGER GSRP VL group number of remote system (1 to 64). ITEGER Indicates GSRP group status of remote system. BackUp (1) BackUp (Waiting) (2) Master (3) BackUp (o eighbor) (4) BackUp (Lock) (5) 5 axsgsrpeighborpriority {axsgsrpeighborvlangroupentry 3} ITEGER Configured priority of remote system. 6 axsgsrpeighborctiveports {axsgsrpeighborvlangroupentry 4} ITEGER umber of active ports of remote system. 154

173 3.3 axsfdb Group (MC ddress Table Group MIB) 3.3 axsfdb Group (MC ddress Table Group MIB) (1) Identifier axsmib OBJECT IDETIFIER ::= {axsex 1} axsfdb OBJECT IDETIFIER ::= {axsmib 5} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsfdb group. Table 3-8: Implementation Specifications of axsfdb Group o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsfdbcountertable {axsfdb 1} OT-CCES SIBLE Information table on the number of learned MC address tables 2 axsfdbcounterentry {axsfdbcountertable 1} OT-CCES SIBLE Entry of information table on the number of learned MC address tables IDEX { axsfdbcounterifindex, axsfdbcounterlineindex } 3 axsfdbcounterifindex {axsfdbcounterentry 1} OT-CCES SIBLE Indicates the position information of a IF installation slot. 4 axsfdbcounterlineindex {axsfdbcounterentry 2} OT-CCES SIBLE Indicates the position information of a Line mounted slot. 5 axsfdbcountercounts {axsfdbcounterentry 3} 6 axsfdbcountertype {axsfdbcounterentry 4} 7 axsfdbcounterlimits {axsfdbcounterentry 5} Counter32 umber of MC address table entries learned on this port. ITEGER Setting on whether learning limitation is provided, and behavior of non-learning frames when the maximum number of MC address tables is exceeded during setting. Unlimited (0) Limited and Forward (1) Limited and Discard (2) Counter32 Maximum number of MC address table entries which can be learned on this port. * 0 : Learning prohibited 1 to : umber set by configuration command mac-address-table static * 0 fixed when axsfdbcountertype is Unlimited (0). 155

174 3.4 axsvlan Group (VL Information MIB) 3.4 axsvlan Group (VL Information MIB) Port numbers to be used in this group are those which identify all of physical port numbers and channel group numbers uniquely and they are obtained in the format below. Port number of physical port Physical ports are uniquely identified. Port number: Physical port number Port number of channel group The port number is calculated as shown below from the channel group number of link aggregation. Port number: 64 (fixed value) + Channel group number axsvlanbridge Group (dot1dbase Information) (1) axsvbbasetable group (a) Identifier axsvlan OBJECT IDETIFIER ::= {axsmib 6} Object ID value axsvlanbridge OBJECT IDETIFIER ::= {axsvlan 1} Object ID value axsvlanbridgebase OBJECT IDETIFIER ::= {axsvlanbridge 1} Object ID value (b) Implementation specifications The table below shows the implementation specifications of axsvbbasetable group. Table 3-9: Implementation Specifications of axsvbbasetable Group o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsvbbasetable {axsvlanbridgebase 1} OT-CCES SIBLE dot1dbase information table for each VL. 2 axsvbbaseentry {axsvbbasetable 1} OT-CCES SIBLE Information entry for each VL ID of axsvbbasetable. IDEX { axsvbbaseindex } 3 axsvbbaseindex {axsvbbaseentry 1} VlanIndex VL ID 4 axsvbbasebridgeddress {axsvbbaseentry 2} Macddress MC address of VL. When using MC function for each VL: MC address of each VL When MC function is not used: MC address of the system 5 axsvbbaseumports {axsvbbaseentry 3} ITEGER umber of ports specified for VL. 6 axsvbbasetype {axsvbbaseentry 4} ITEGER Type of bridging allowed for VL. unknown (1) transparent-only (2) sourceroute-only (3) srt (4) For this system, transparent-only (2) fixed. B 7 axsvbbasevlanifindex {axsvbbaseentry 5} ITEGER ifindex value of VL interface. 156

175 3.4 axsvlan Group (VL Information MIB) o. Object Identifier SYTX ccess Implementation Specifications Implemented 8 axsvbbasevlantype {axsvbbaseentry 6} 9 axsvbbasevlanid {axsvbbaseentry 7} 10 axsvbbasessociatedprimary Vlan {axsvbbaseentry 8} 11 axsvbbaseifstatus {axsvbbaseentry 9} 12 axsvbbaselastchange {axsvbbaseentry 10} 13 axsvbbaseprivatevlantype {axsvbbaseentry 11} ITEGER VL type port-based (1) mac-based (2) protocol-based (3) VlanIdOrZero VID value of VL-TG corresponding to VL. VlanIdOrZero If this VL uses private VL function and is set as Secondary VL, VL ID of Primary VL corresponding to this VL is returned. If this VL does not use private VL function or is not set as Secondary VL, or Primary VL corresponding to this VL is not set, 0 is returned. This system always returns (0). ITEGER Interface status for upper layer protocol of VL. Up (1) Down (2) TimeTicks sysuptime value when VL topology is changed. ITEGER Private VL type of VL. Returns normal (1) if private VL function is not used. normal (1) primary (2) isolated (3) community (4) This system returns the fixed value (1). (2) axsvbbaseporttable group (a) Identifier axsvlan OBJECT IDETIFIER ::= {axsmib 6} Object ID value axsvlanbridge OBJECT IDETIFIER ::= {axsvlan 1} Object ID value axsvlanbridgebase OBJECT IDETIFIER ::= {axsvlanbridge 1} Object ID value (b) Implementation specifications The table below shows the implementation specifications of axsvbbaseporttable group. Table 3-10: Implementation Specifications of axsvbbaseporttable Group o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsvbbaseporttable {axsvlanbridgebase 2} OT-CCES SIBLE dot1dbaseporttable information table for each VL. 2 axsvbbaseportentry {axsvbbaseporttable 1} OT-CCES SIBLE Configuration entry of axsvbbaseporttable IDEX { axsvbbaseportindex, axsvbbaseport } 3 axsvbbaseportindex {axsvbbaseportentry 1} VlanIndex VL ID 157

176 3.4 axsvlan Group (VL Information MIB) o. Object Identifier SYTX ccess Implementation Specifications Implemented 4 axsvbbaseport {axsvbbaseportentry 2} 5 axsvbbaseportifindex {axsvbbaseportentry 3} ITEGER Port number of port specified for VL (1 to 65535). This port number is applicable to the physical port and channel group. ITEGER ifindex value corresponding to the port specified for VL. 6 axsvbbaseportcircuit {axsvbbaseportentry 4} OBJECT IDETIFIER Identifier to identify the port when axsvbaseportifindex takes the same value for any other port specified for VL. This system returns the fixed value 0.0. B 7 axsvbbaseportdelayexceeded Discards {axsvbbaseportentry 5} 8 axsvbbaseportmtuexceededd iscards {axsvbbaseportentry 6} 9 axsvbbaseportstate {axsvbbaseportentry 7} 10 axsvbbaseporttaggedstate {axsvbbaseportentry 8} 11 axsvbbaseporttranslatedtagi D {axsvbbaseportentry 9} Counter Total number of frames discarded due to transit delay occurring in the port specified for VL. This system always returns 0. Counter Total number of frames discarded due to data overflow occurring in the port specified for VL. This system always returns 0. ITEGER STP port status of the port specified for VL. disable (1) blocking (2) listening (3) learning (4) forwarding (5) broken (6) fix-forwarding (7) This system returns either disable (1), blocking (2), listening (3), learning (4), forwarding (5), or fix-forwarding (7). ITEGER VL-TG setting status of the port specified for VL o setting made (1) Setting made (2) VlanIdOrZero Translated ID (1 to 4094) of VL specified for this port when TG translation function is set. Returns 0 if TG translation function is not set. B B (3) axsvbstptable group (a) Identifier axsvlan OBJECT IDETIFIER ::= {axsmib 6} Object ID value axsvlanbridge OBJECT IDETIFIER ::= {axsvlan 1} Object ID value axsvlanbridgestp OBJECT IDETIFIER ::= {axsvlanbridge 2} Object ID value (b) Implementation specifications The table below shows the implementation specifications of axsvbstptable group. 158

177 3.4 axsvlan Group (VL Information MIB) Table 3-11: Implementation Specifications of axsvbstptable Group o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsvbstptable {axsvlanbridgestp 1} OT-CCE SSIBLE dot1dstptable information table for each VL. This table is applicable for spanning tree information for each PVST+ VL. 2 axsvbstpentry {axsvbstptable 1} OT-CCE SSIBLE Configuration entry of axsvbstptable. IDEX { axsvbstpindex } 3 axsvbstpindex {axsvbstpentry 1} VlanIndex VL ID 4 axsvbstpprotocolspecificat ion {axsvbstpentry 2} 5 axsvbstppriority {axsvbstpentry 3} 6 axsvbstptimesincetopolo gychange {axsvbstpentry 4} 7 axsvbstptopchanges {axsvbstpentry 5} 8 axsvbstpdesignatedroot {axsvbstpentry 6} 9 axsvbstprootcost {axsvbstpentry 7} ITEGER Protocol type of spanning tree for each VL. unknown (1) declb100 (2) ieee8021d (3) ieee8021w (4) This system returns ieee8021d (3) or ieee8021w (4). ITEGER Priority value (0 to 65535) of spanning tree for each VL. TimeTicks Elapsed time since occurrence of topology change (unit: 1/100 sec). Counter umber of times spanning tree topology for each VL changed. BridgeId Root bridge identifier of spanning tree for each VL. ITEGER Root path cost value of spanning tree for each VL. 10 axsvbstprootport {axsvbstpentry 8} ITEGER Root port value of spanning tree for each VL. 11 axsvbstpmaxge {axsvbstpentry 9} 12 axsvbstphellotime {axsvbstpentry 10} 13 axsvbstpholdtime {axsvbstpentry 11} 14 axsvbstpforwarddelay {axsvbstpentry 12} 15 axsvbstpbridgemaxge {axsvbstpentry 13} 16 axsvbstpbridgehellotime {axsvbstpentry 14} 17 axsvbstpbridgeforwarddel ay {axsvbstpentry 15} Timeout Maximum aging time of spanning tree for each VL (unit: 1/100 sec). Timeout Hello time of spanning tree for each VL (unit: 1/100 sec). ITEGER Hold time of spanning tree for each VL (unit: 1/100 sec). Timeout Transfer delay time of spanning tree for each VL (unit: 1/100 sec). Timeout Maximum aging time (value: 600 to 4000, unit: 1/ 100 sec) used by spanning tree for each VL when it operates as root bridge. Timeout Hello time (value: 100 to 1000, unit: 1/100 sec) used by spanning tree for each VL when it operates as root bridge. Timeout Transfer delay time (value: 400 to 3000, unit: 1/ 100 sec) used by spanning tree for each VL when it operates as root bridge. (4) axsvbstpporttable group (a) Identifier axsvlan OBJECT IDETIFIER ::= {axsmib 6} Object ID value

178 3.4 axsvlan Group (VL Information MIB) axsvlanbridge OBJECT IDETIFIER ::= {axsvlan 1} Object ID value axsvlanbridgestp OBJECT IDETIFIER ::= {axsvlanbridge 2} Object ID value (b) Implementation specifications The table below shows the implementation specifications of axsvbstpporttable group. Table 3-12: Implementation Specifications of axsvbstpporttable Group o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsvbstpporttable {axsvlanbridgestp 2} OT-CCE SSIBLE dot1dstpporttable information table for each VL. This table is applicable for spanning tree port information for each PVST+ VL. 2 axsvbstpportentry {axsvbstpporttable 1} OT-CCE SSIBLE Configuration entry of axsvbstpporttable. IDEX { axsvbstpportindex, axsvbstpport } 3 axsvbstpportindex {axsvbstpportentry 1} VlanIndex VL ID 4 axsvbstpport {axsvbstpportentry 2} ITEGER Port number (1 to 65535) corresponding to this configuration entry. This port number is applicable to the physical port and channel group. 5 axsvbstpportpriority {axsvbstpportentry 3} ITEGER Priority (0 to 255) of this port for each VL. 6 axsvbstpportstate {axsvbstpportentry 4} 7 axsvbstpportenable {axsvbstpportentry 5} 8 axsvbstpportpathcost {axsvbstpportentry 6} 9 axsvbstpportdesignatedroo t {axsvbstpportentry 7} 10 axsvbstpportdesignatedcos t {axsvbstpportentry 8} 11 axsvbstpportdesignatedbri dge {axsvbstpportentry 9} ITEGER Current status of this port for each VL. disabled (1) blocking (2) listening (3) learning (4) forwarding (5) broken (6) This system returns any one of disable (1), blocking (2), listening (3), learning (4), or forwarding (5). ITEGER Indicates whether spanning tree for each VL is enabled in this port. enabled (1) disabled (2) ITEGER Path cost value (1 to ) of this port for each VL. BridgeId Value of root bridge identifier for each VL stored in BPDU which this port received from the specified bridge. ITEGER Path cost value of the designated port for each VL which is connected to this port. BridgeId Bridge identifier of the bridge for each VL which this port considers as specified bridge. 160

179 3.4 axsvlan Group (VL Information MIB) o. Object Identifier SYTX ccess Implementation Specifications Implemented 12 axsvbstpportdesignatedport {axsvbstpportentry 10 } OCTET STRIG (SIZE(2)) Port identifier of the specified bridge for each VL which is connected to this port. 13 axsvbstpportforwardtransit ions {axsvbstpportentry 11} Counter How often this port transited from learning status to forwarding status for each VL. (5) axsvbtptable group (a) Identifier axsvlan OBJECT IDETIFIER ::= {axsmib 6} Object ID value axsvlanbridge OBJECT IDETIFIER ::= {axsvlan 1} Object ID value axsvlanbridgetp OBJECT IDETIFIER ::= {axsvlanbridge 4} Object ID value (b) Implementation specifications The table below shows the implementation specifications of axsvbtptable group. Table 3-13: Implementation Specifications of axsvbtptable Group o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsvbtptable {axsvlanbridgetp 1} OT-CCE SSIBLE dot1dtp information table for each VL. 2 axsvbtpentry {axsvbtptable 1} OT-CCE SSIBLE Configuration entry of axsvbtptable. IDEX { axsvbtpindex } 3 axsvbtpindex {axsvbtpentry 1} VlanIndex VL ID 4 axsvbtplearnedentrydiscards {axsvbtpentry 2} 5 axsvbtpgingtime {axsvbtpentry 3} Counter umber of entries discarded because there was no free space in the MC address table This system always returns (0). ITEGER Timeout period for aging out the MC address table entries which were learned dynamically (unit: second(s)). For aging mode: (10 to ) For non-aging mode: 0 B (6) axsvbtpfdbtable group (a) Identifier axsvlan OBJECT IDETIFIER ::= {axsmib 6} Object ID value axsvlanbridge OBJECT IDETIFIER ::= {axsvlan 1} Object ID value axsvlanbridgetp OBJECT IDETIFIER ::= {axsvlanbridge 4} Object ID value (b) Implementation specifications The table below shows the implementation specifications of axsvbtpfdbtable group. 161

180 3.4 axsvlan Group (VL Information MIB) Table 3-14: Implementation Specifications of axsvbtpfdbtable Group o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsvbtpfdbtable {axsvlanbridgetp 2} OT-CCES SIBLE dot1dtpfdb Table information table for each VL. This table makes no response to GetextRequest, and returns the following MIB objects. 2 axsvbtpfdbentry {axsvbtpfdbtable 1} OT-CCES SIBLE Configuration entry of axsvbtpfdbtable. IDEX { axsvbtpfdbindex, axsvbtpfdbddress } 3 axsvbtpfdbindex {axsvbtpentry 1} VlanIndex VL ID 4 axsvbtpfdbddress {axsvbtpentry 2} 5 axsvbtpfdbport {axsvbtpentry 3} 6 axsvbtpfdbstatus {axsvbtpentry 4} Macddress Unicast MC address of the MC address table entry. ITEGER Port number of the port which received the frame having MC address indicated by axsvbtpfdbddress as source address. 0 indicates that port number is not learned. ITEGER MC address table state other (1) invalid (2) learned (3) self (4) mgmt (5) For dynamic entry, returns learned (3). For static entry, returns mgmt (5). (7) axsvbtpporttable group (a) Identifier axsvlan OBJECT IDETIFIER ::= {axsmib 6} Object ID value axsvlanbridge OBJECT IDETIFIER ::= {axsvlan 1} Object ID value axsvlanbridgetp OBJECT IDETIFIER ::= {axsvlanbridge 4} Object ID value (b) Implementation specifications The table below shows the implementation specifications of axsvbtpporttable group. Table 3-15: Implementation Specifications of axsvbtpporttable Group o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsvbtpporttable {axsvlanbridgetp 3} OT-CCES SIBLE dot1dtpporttable information table for each VL. 2 axsvbtpportentry {axsvbtpporttable 1} OT-CCES SIBLE axsvbtpporttable information entry for each port IDEX { axsvbtpportindex, axsvbtpport } 3 axsvbtpportindex {axsvbtpportentry 1} VlanIndex VL ID 162

181 3.4 axsvlan Group (VL Information MIB) o. Object Identifier SYTX ccess Implementation Specifications Implemented 4 axsvbtpport {axsvbtpportentry 2} 5 axsvbtpportmaxinfo {axsvbtpportentry 3} 6 axsvbtpportinframes {axsvbtpportentry 4} 7 axsvbtpportoutframes {axsvbtpportentry 5} 8 axsvbtpportindiscards {axsvbtpportentry 6} ITEGER Port number (1 to 65535) indicating the port which management information contained in this entry corresponds to. This port number is applicable to the physical port and channel group. ITEGER Maximum IFO field size of this port for each VL (MC header and FCS not included). Counter umber of frames received at this port for each VL. This system always returns (0). Counter umber of frames sent from this port for each VL. This system always returns (0). Counter umber of frames discarded at this port for each VL. This system always returns (0). B B B (8) axsvbstatictable group (a) Identifier axsvlan OBJECT IDETIFIER ::= {axsmib 6} Object ID value axsvlanbridge OBJECT IDETIFIER ::= {axsvlan 1} Object ID value axsvlanbridgestatic OBJECT IDETIFIER ::= {axsvlanbridge 5} Object ID value (b) Implementation specifications The table below shows the implementation specifications of axsvbstatictable group. Table 3-16: Implementation Specifications of axsvbstatictable Group o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsvbstatictable {axsvlanbridgestatic 1} OT-CCE SSIBLE dot1dstatictable information table for each VL. This table makes no response to GetextRequest, and returns the following MIB objects. 2 axsvbstaticentry {axsvbstatictable 1} OT-CCE SSIBLE Configuration entry of axsvbstatictable. IDEX { axsvbstaticindex, axsvbstaticddress } 3 axsvbstaticindex {axsvbstaticentry 1} VlanIndex VL ID 4 axsvbstaticddress {axsvbstaticentry 2} 5 axsvbstaticreceiveport {axsvbstaticentry 3} Macddress ny one of unicast MC address, group MC address, or broadcast MC address. ITEGER Port number of the receiving port to which this entry is applied. 0 if applied to all receiving ports. This system always returns (0). 163

182 3.4 axsvlan Group (VL Information MIB) o. Object Identifier SYTX ccess Implementation Specifications Implemented 6 axsvbstaticllowedtogoto {axsvbstaticentry 4} OCTET STRIG Bit map of the port which indicates the destination port when transferring the frame destined to MC address contained in this entry. 7 axsvbstaticstatus {axsvbstaticentry 5} ITEGER Indicates the status of this entry. other (1) invalid (2) permanent (3) deleteonreset (4) deleteontimeout (5) This system returns permanent (3) for static entry, and deleteonreset (4) for IGMP/MLD snooping entry. (9) axsvlanbridge (other) group (a) Identifier axsvlan OBJECT IDETIFIER ::= {axsmib 6} Object ID value axsvlanbridge OBJECT IDETIFIER ::= {axsvlan 1} Object ID value (b) Implementation specifications The table below shows the implementation specifications of axsvlanbridge (other) group. Table 3-17: Implementation Specifications of axsvlanbridge (Other) Group o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsvlanbridgemaxvlans {axsvlanbridge 101} 2 axsvlanbridgemaxspans {axsvlanbridge 102} VlanIndex Maximum value of VL ID of this system. This system returns the fixed value (4094). VlanIndex Maximum value of VL ID of VL for which spanning tree operates in this system. This system returns the fixed value (4094) axsvlantagtranslation Group (Tag Translation Information MIB) (1) Identifier axsvlan OBJECT IDETIFIER ::= {axsmib 6} Object ID value axsvlantagtranslation OBJECT IDETIFIER ::= {axsvlan 10} Object ID value axsvlantagtranslationtable OBJECT IDETIFIER ::= {axsvlantagtranslation 1} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsvlantagtranslation. 164

183 3.4 axsvlan Group (VL Information MIB) Table 3-18: Implementation Specifications of axsvlantagtranslation Group o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsvlantagtranslationtable {axsvlantagtranslation 1} OT-CCE SSIBLE Information table on Tag translation function. 2 axsvlantagtranslationentry {axsvlantagtranslationtable 1} OT-CCE SSIBLE Entry of the information table on Tag translation function. IDEX { axsvlantagtranslationvlanid, axsvlantagtranslationtranslatedid } 3 axsvlantagtranslationvlanid {axsvlantagtranslationentry 1} OT-CCE SSIBLE VL ID (1 to 4094) in which a Tag conversion function is set. 4 axsvlantagtranslationtranslatedid {axsvlantagtranslationentry 2} OT-CCE SSIBLE Translated ID (1 to 4094) set using Tag conversion function. 5 axsvlantagtranslationports {axsvlantagtranslationentry 3} PortList Port list in which the same Translated ID is set in the same VL using a Tag translation function. 165

184 3.5 axsoadp Group (ODP Information MIB) 3.5 axsoadp Group (ODP Information MIB) axsoadpglobalinfo Group (1) Identifier axsoadp OBJECT IDETIFIER ::= {axsmib 7} Object ID value axsoadpmibobjects OBJECT IDETIFIER ::= {axsoadp 1} Object ID value axsoadpglobalinfo OBJECT IDETIFIER ::= {axsoadpmibobjects 1} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsoadpglobalinfo group. Table 3-19: Implementation Specifications of axsoadpglobalinfo Group o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsoadpglobalctive {axsoadpglobalinfo 1} 2 axsoadpglobalcdpctive {axsoadpglobalinfo 2} TruthValue ctive state of the ODP function. Status on whether configuration command oadp run is set run (1) run not set (2) TruthValue ctive state of the CDP receiving function. Status on whether configuration command oadp cdp-listener is set cdp-listener (1) cdp-listener not specified (2) 3 axsoadpglobalmessageinterval {axsoadpglobalinfo 3} ITEGER (5..254) ODP frame sending interval. Value set by configuration command oadp interval-time (unit: second(s)). 4 axsoadpglobalholdtime {axsoadpglobalinfo 4} ITEGER ( ) Time in which the neighbor system holds the LLDP frame transmitted from this system. Value set by configuration command oadp hold-time (unit: second(s)). 5 axsoadpglobalcachelastchange {axsoadpglobalinfo 5} TimeTicks sysuptime value when axsoadpeighbortable information was updated. 6 axsoadpglobalame {axsoadpglobalinfo 6} DisplayString (SIZE(0..255)) System identifier of this system. 7 axsoadpglobalametype {axsoadpglobalinfo 7} ITEGER Type of axsoadpglobalame. other (1) sysame (2) serialumber (3) MCaddress (4) axsoadpportinfo Group (1) Identifier axsoadp OBJECT IDETIFIER ::= {axsmib 7} Object ID value

185 3.5 axsoadp Group (ODP Information MIB) axsoadpmibobjects OBJECT IDETIFIER ::= {axsoadp 1} Object ID value axsoadpportinfo OBJECT IDETIFIER ::= {axsoadpmibobjects 2} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsoadpportinfo group. Table 3-20: Implementation Specifications of axsoadpportinfo Group o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsoadpportconfigtable {axsoadpportinfo 1} SEQUECE OF OadpPortConf igentry Table related to ODP port information. 2 axsoadpportconfigentry {axsoadpportconfigtable 1} OadpPortConf igentry Entry on ODP port information (for each port). IDEX { axsoadpportconfigifindex } 3 axsoadpportconfigifindex {axsoadpportconfigentry 1} 4 axsoadpportconfigctive {axsoadpportconfigentry 2} InterfaceIndex Port identification index. Same as ifindex. pplicable to ifindex-assigned physical port and channel group. TruthValue ctive status of the corresponding port. enable (1) disable (2) axsoadpeighborinfo Group (1) Identifier axsoadp OBJECT IDETIFIER ::= {axsmib 7} Object ID value axsoadpmibobjects OBJECT IDETIFIER ::= {axsoadp 1} Object ID value axsoadpeighborinfo OBJECT IDETIFIER ::= {axsoadpmibobjects 3} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsoadpeighborinfo group. Table 3-21: Implementation Specifications of axsoadpeighborinfo Group o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsoadpeighbortable {axsoadpeighborinfo 1} SEQUECE OF Oadpeighbor Entry Table related to ODP neighboring node. 2 axsoadpeighborentry {axsoadpeighbortable 1} Oadpeighbor Entry Entry related to ODP neighboring node (for each neighbor information). IDEX { axsoadpifindex, axsoadptagid, axsoadpeighborindex, axsoadpeighbortagid } 3 axsoadpifindex {axsoadpeighborentry 1} InterfaceIndex ifindex of the receiving interface. 167

186 3.5 axsoadp Group (ODP Information MIB) o. Object Identifier SYTX ccess Implementation Specifications Implemented 4 axsoadptagid {axsoadpeighborentry 2} ITEGER ( ) IEEE802.1Q tag ID (VID) appended to MC frame. 5 axsoadpeighborindex {axsoadpeighborentry 3} ITEGER umber to uniquely identify the neighboring node (1 to ). 6 axsoadpeighbortagid {axsoadpeighborentry 4} ITEGER ( ) Value set for TagID TLV in ODP PDU sent from the neighboring node. For CDP, always 0. 7 axsoadpeighborvendortyp e {axsoadpeighborentry 5} 8 axsoadpeighborsmpgen tddresstype {axsoadpeighborentry 6} 9 axsoadpeighborsmpgen tddress {axsoadpeighborentry 7} ITEGER Protocol type used to find the neighboring node. other (1) ODP (2) CDP (3) ITEGER Type of agent address to obtain information with SMP. ipv4 (1) ipv6 (20) other-notsupported (65535) DisplayString gent address for obtaining information with SMP, made into DisplayString. If there is no address information (axsoadpeighborsmpgentddresstype is other-notsupported), ULL character. 10 axsoadpeighbordescr {axsoadpeighborentry 8} DisplayString (SIZE(0..255)) Character string equivalent to sysdescr of neighboring node. 11 axsoadpeighbordeviceid {axsoadpeighborentry 9} DisplayString (SIZE(0..255)) System identifier of neighboring node. For ODP, character string defined by axsoadpglobalame is stored. 12 axsoadpeighborslotport {axsoadpeighborentry 10} DisplayString (SIZE(0..255)) Character string to uniquely identify the sending interface of neighboring node. (IF number/port number) 13 axsoadpeighborifindex {axsoadpeighborentry 11} 14 axsoadpeighborifspeed {axsoadpeighborentry 12} InterfaceIndex ifindex of the sending interface of neighboring node. For CDP, always 0. Gauge ifspeed of the sending interface of neighboring node. For CDP, always axsoadpeighbordevicetype {axsoadpeighborentry 13} DisplayString (SIZE(0..255)) System name of neighboring node. 16 axsoadpeighborservice {axsoadpeighborentry 14} OCTET STRIG (SIZE(0..4)) Function (value of OR) to be provided by neighboring node. Router (0x01) Transparent Bridge (0x02) Source-route Bridge (0x04) Switch (0x08) Host (0x10) IGMP report not forwarded (0x20) Repeater (0x40) 17 axsoadpeighborvtpmgmt Domain {axsoadpeighborentry 15} DisplayString (SIZE(0..32)) VTP Management Domain related to the sending interface of neighboring node. 18 axsoadpeighborativevl {axsoadpeighborentry 16} ITEGER ( ) ative VL ID relating to the sending interface of neighboring node. 168

187 3.5 axsoadp Group (ODP Information MIB) o. Object Identifier SYTX ccess Implementation Specifications Implemented 19 axsoadpeighborduplex {axsoadpeighborentry 17} ITEGER Duplex information of the sending interface of neighboring node. unknown (1) HLF (2) FULL (3) 20 axsoadpeighborppliancei D {axsoadpeighborentry 18} 21 axsoadpeighborvlanid {axsoadpeighborentry 19} Gauge (0..255) Gauge ( ) ppliance ID of the neighboring node. VL ID for VoIP of the neighboring node. 22 axsoadpeighborpowercons umption {axsoadpeighborentry 20} 23 axsoadpeighbormtu {axsoadpeighborentry 21} Gauge VoIP power consumption of the neighboring node (unit: milliwatt). Gauge MTU of the sending interface of neighboring node. 24 axsoadpeighborsysame {axsoadpeighborentry 22} 25 axsoadpeighborsysobjecti D {axsoadpeighborentry 23} DisplayString (SIZE(0..255)) OBJECT IDETIFIER sysame of neighboring node. sysobjectid of neighboring node. 26 axsoadpeighborsecondary SMPgentddressType {axsoadpeighborentry 24} 27 axsoadpeighborsecondary SMPgentddress {axsoadpeighborentry 25} ITEGER Type of agent secondary address to obtain information with SMP. ipv4 (1) ipv6 (20) other-notsupported (65535) DisplayString gent secondary address for obtaining information with SMP, made into DisplayString. If there is no address information (axsoadpeighborsecondarysmpgentd dresstype is other-notsupported), ULL character. 28 axsoadpeighborphyslocatio n {axsoadpeighborentry 26} DisplayString (SIZE(0..255)) syslocation of neighboring node. 29 axsoadpeighborcachelastc hange {axsoadpeighborentry 27} 30 axsoadpeighborifhighspee d {axsoadpeighborentry 28} TimeTicks sysuptime when axsoadpeighborentry related to neighboring node was updated. Gauge ifhighspeed of the sending interface of neighboring node. For CDP, always

188 3.6 axsflow Group (FLOW Information MIB) 3.6 axsflow Group (FLOW Information MIB) axsccessfilterstats Group (1) Identifier axsflow OBJECT IDETIFIER ::= {axsmib 8} axsccessfilterstats OBJECT IDETIFIER ::= {axsflow 9} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsccessfilterstats group. Table 3-22: Implementation Specifications of axsccessfilterstats Group o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsccessfilterstatsintable {axsccessfilterstats 1} SEQUECE OF axsccessfilt erstatsinentry Table information of the packet count matching the flow detection condition/ operation information set in the access list 2 axsccessfilterstatsinentry {axsccessfilterstatsintable 1} axsccessfilt erstatsinentry Entry on the packet count matching the flow detection condition/operation information set in the access list IDEX { axsccessfilterstatsinifindex, axsccessfilterstatsinifindextype, axsccessfilterstatsinlistindex, axsccessfilterstatsinsequenceumber} 3 axsccessfilterstatsinifindex {axsccessfilterstatsinentry 1} 4 axsccessfilterstatsinifindexty pe {axsccessfilterstatsinentry 2} 5 axsccessfilterstatsinlistindex {axsccessfilterstatsinentry 3} 6 axsccessfilterstatsinsequence umber {axsccessfilterstatsinentry 4} 7 axsccessfilterstatsinlistame {axsccessfilterstatsinentry 5} 8 axsccessfilterstatsinmatchedp ackets {axsccessfilterstatsinentry 6} ITEGER Index value that identifies the entry of this table (same as ifindex). ITEGER Type of interface. Ethernet interface specification (1) VL interface specification (2) Unsigned32 Index value of the access list that identifies the entry of this table. Unsigned32 Sequence number of the flow detection condition/operation information set for the access list identifier DisplayString ccess list identifier corresponding to the access list index Counter64 umber of packets matching the flow detection condition of the access list If axsccessfilterstatsinsequenceumber is , the number of packets discarded because they did not match any flow detection condition of the access list is indicated. 0 if disabled. * 9 axsccessfilterstatsouttable {axsccessfilterstats 2} SEQUECE OF xsccessfilt erstatsoutentr y Table information of the packet count matching the flow detection condition/ operation information set out the access list [CB 2000] [CB 320] 170

189 3.6 axsflow Group (FLOW Information MIB) o. Object Identifier SYTX ccess Implementation Specifications Implemented 10 axsccessfilterstatsoutentry {axsccessfilterstatsouttable 1} xsccessfilt erstatsoutentr y Entry on the packet count matching the flow detection condition/operation information set out the access list IDEX { axsccessfilterstatsoutifindex, axsccessfilterstatsoutifindextype, axsccessfilterstatsoutlistindex, axsccessfilterstatsoutsequenceumber } [CB 2000] [CB 320] 11 axsccessfilterstatsoutifindex {axsccessfilterstatsoutentry 1} 12 axsccessfilterstatsoutifindext ype {axsccessfilterstatsoutentry 2} 13 axsccessfilterstatsoutlistinde x {axsccessfilterstatsoutentry 3} 14 axsccessfilterstatsoutsequenc eumber {axsccessfilterstatsoutentry 4} 15 axsccessfilterstatsoutlistam e {axsccessfilterstatsoutentry 5} 16 axsccessfilterstatsoutmatched Packets {axsccessfilterstatsoutentry 6} ITEGER Index value that identifies the entry of this table (same as ifindex). ITEGER Type of interface. Ethernet interface specification (1) VL interface specification (2) Unsigned32 Index value of the access list that identifies the entry of this table. Unsigned32 Sequence number of the flow detection condition/operation information set for the access list identifier DisplayString ccess list identifier corresponding to the access list index Counter64 umber of packets matching the flow detection condition of the access list If axsccessfilterstatsoutsequenceumber is , the number of packets discarded because they did not match any flow detection condition of the access list is indicated. 0 if disabled. [CB 2000] [CB 320] [CB 2000] [CB 320] [CB 2000] [CB 320] [CB 2000] [CB 320] [CB 2000] [CB 320] * [CB 2000] [CB 320] * lthough SYTX is Counter64, the count returns to 0 after is exceeded axsqosflowstats Group (1) Identifier axsflow OBJECT IDETIFIER ::= {axsmib 8} axsqosflowstats OBJECT IDETIFIER ::= {axsflow 11} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsqosflowstats group. 171

190 3.6 axsflow Group (FLOW Information MIB) Table 3-23: Implementation Specifications of axsqosflowstats Group o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsqosflowstatsintable {axsqosflowstats 1} SEQUECE OF axsqosflows tatsinentry Packet count table information matching the QoS flow detection condition/operation information set in the QoS flow list 2 axsqosflowstatsinentry {axsqosflowstatsintable 1} axsqosflows tatsinentry Entry on the packet count matching the QoS flow detection condition/operation information set in the QoS flow list IDEX { axsqosflowstatsinifindex, axsqosflowstatsinifindextype, axsqosflowstatsinlistindex, axsqosflowstatsinsequenceumber } 3 axsqosflowstatsinifindex {axsqosflowstatsinentry 1} 4 axsqosflowstatsinifindextyp e {axsqosflowstatsinentry 2} 5 axsqosflowstatsinlistindex {axsqosflowstatsinentry 3} 6 axsqosflowstatsinsequence umber {axsqosflowstatsinentry 4} 7 axsqosflowstatsinlistame {axsqosflowstatsinentry 5} 8 axsqosflowstatsinmatchedpa ckets {axsqosflowstatsinentry 6} 9 axsqosflowstatsinmatchedpa cketsminunder {axsqosflowstatsinentry 7} 10 axsqosflowstatsinmatchedpa cketsminover {axsqosflowstatsinentry 8} 11 axsqosflowstatsinmatchedpa cketsmaxunder {axsqosflowstatsinentry 9} 12 axsqosflowstatsinmatchedpa cketsmaxover {axsqosflowstatsinentry 10} ITEGER Index value that identifies the entry of this table (same as ifindex). ITEGER Type of interface. Ethernet interface specification (1) VL interface specification (2) Unsigned32 QoS flow list index value that identifies the entry of this table. Unsigned32 Sequence number of the flow detection condition/operation information set for the QoS flow list name DisplayString QoS flow list name corresponding to the QoS flow list index Counter64 umber of packets matching the flow detection condition of the QoS flow list Returns to 0 if the bandwidth monitoring function is used. Counter64 umber of packets matching the flow detection condition of the QoS flow list and following minimum bandwidth monitoring Returns to 0 if minimum bandwidth monitoring is not used. Counter64 umber of packets matching the flow detection condition of the QoS flow list but violating minimum bandwidth monitoring Returns to 0 if minimum bandwidth monitoring is not used. Counter64 umber of packets matching the flow detection condition of the QoS flow list and following maximum bandwidth control Returns to 0 if maximum bandwidth control is not used. Counter64 umber of packets matching the flow detection condition of the QoS flow list but violating maximum bandwidth control Returns to 0 if maximum bandwidth control is not used. * * * * * * lthough SYTX is Counter64, the count returns to 0 after is exceeded. 172

191 3.7 axsl2ldmib Group (L2 Loop Detection Information MIB) 3.7 axsl2ldmib Group (L2 Loop Detection Information MIB) axsl2ldglobalinfo Group (1) Identifier axsl2ld OBJECT IDETIFIER ::= {axsmib 10} axsl2ldglobalinfo OBJECT IDETIFIER ::= {axsl2ld 1} Object ID value axsl2ldversion OBJECT IDETIFIER ::= {axsl2ldglobalinfo 1} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsl2ldglobalinfo group. Table 3-24: Implementation Specifications of axsl2ldglobalinfo group. o. Object Identifier SYTX cc ess Implementation Specifications Implemented 1 axsl2ldversion {axsl2ldglobalinfo 1} 2 axsl2ldloopdetectionid {axsl2ldglobalinfo 2} 3 axsl2ldintervaltime {axsl2ldglobalinfo 3} 4 axsl2ldoutputrate {axsl2ldglobalinfo 4} 5 axsl2ldthreshold {axsl2ldglobalinfo 5} 6 axsl2ldholdtime {axsl2ldglobalinfo 6} 7 axsl2ldutorestoretime {axsl2ldglobalinfo 7} 8 axsl2ldconfigurationvlanportcou nts {axsl2ldglobalinfo 8} 9 axsl2ldcapacityvlanportcounts {axsl2ldglobalinfo 9} ITEGER Version of the L2 loop detection program. Version 1 (1) ITEGER L2 loop detection ID. Fixed to 0. ITEGER Transmission interval (seconds) of L2 loop detection frames. ITEGER Transmission rate (packet/s) of L2 loop detection frames. ITEGER umber of detections repeated until the port become inactive. ITEGER Retention period (seconds) of detection count. ITEGER Time period (seconds) from when the port is inactivated to when it becomes active automatically. ITEGER The number of VL ports for which transmission rate of L2 loop detection frames is set. ITEGER The number of VL ports which can send frames at the transmission rate (packet/s) of L2 loop detection frames axsl2ldporttable Group (1) Identifier axsl2ld OBJECT IDETIFIER ::= {axsmib 10} axsl2ldporttable OBJECT IDETIFIER ::= {axsl2ld 2} Object ID value

192 3.7 axsl2ldmib Group (L2 Loop Detection Information MIB) (2) Implementation specifications The table below shows the implementation specifications of axsl2ldporttable group. Table 3-25: Implementation specifications of axsl2ldporttable group. o. Object Identifier SYTX ccess Implementation Specifications Impleme nted 1 axsl2ldporttable {axsl2ld 2} OT-CCESSI BLE Table to store the port information of L2 loop detection. 2 axsl2ldportentry {axsl2ldporttable 1} OT-CCESSI BLE list of the L2 loop detection port information. IDEX { axsl2ldportindex, axsl2ldportifindex } 3 axsl2ldportindex {axsl2ldportentry 1} 4 axsl2ldportifindex {axsl2ldportentry 2} ITEGER Fixed to 1. ITEGER ifindex of the port. * 5 axsl2ldportstatus {axsl2ldportentry 3} 6 axsl2ldporttype {axsl2ldportentry 4} 7 axsl2ldportdetectcount {axsl2ldportentry 5} 8 axsl2ldportutorestoringtimer {axsl2ldportentry 6} 9 axsl2ldportsourceportifindex {axsl2ldportentry 7} 10 axsl2ldportdestinationportifindex {axsl2ldportentry 8} 11 axsl2ldportsourcevlan {axsl2ldportentry 9} 12 axsl2ldporthcinframes {axsl2ldportentry 10} 13 axsl2ldporthcoutframes {axsl2ldportentry 11} 14 axsl2ldporthcindiscards {axsl2ldportentry 12} 15 axsl2ldportinactivecount {axsl2ldportentry 13} 16 axsl2ldportlastinactivetime {axsl2ldportentry 14} 17 axsl2ldportlastinframestime {axsl2ldportentry 15} ITEGER Status of the port. Up (1): Port is in "up" state. Down (2): Port is in "down" state. Down (loop) (3): Port is in "down" state caused by the L2 loop detection function. ITEGER Port type. trap (1): Detection port send-inact (2): Send-and-inactivate port send (3): Send port uplink (4): Uplink port exception (5): Exception port ITEGER L2 loop detection count. The number of L2 loop detection frames received within the retention period. ITEGER utomatic recovery time (seconds). 0 (zero) when the port is active. ITEGER ifindex of the transmission port from which the last L2 loop detection frame was received. * ITEGER ifindex of the port which received the last L2 loop detection frame. * ITEGER VL ID from which the last L2 loop detection frame was received. Counter64 The number of received L2 loop detection frames. Counter64 The number of sent L2 loop detection frames. Counter64 The number of L2 loop detection frames received and then discarded. ITEGER The number of times the port was inactivated. TimeStamp Last time when the port was inactivated. TimeStamp Last time when an L2 loop detection frame was received. 174

193 3.7 axsl2ldmib Group (L2 Loop Detection Information MIB) * For a port of link aggregation, ifindex of the link aggregation is used. 175

194 3.8 axsospfmib Group (Multi-backbone OSPF Information MIB) 3.8 axsospfmib Group (Multi-backbone OSPF Information MIB) axsospfgeneraltable (1) Identifier axsospf OBJECT IDETIFIER ::= {axsmib 14} axsospfgeneraltable OBJECT IDETIFIER ::= {axsospf 1} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsospfgeneraltable. Table 3-26: Implementation Specifications of axsospfgeneraltable o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsospfgeneraltable {axsospf 1} OT-CCES SIBLE Table storing OSPF information. 2 axsospfgeneralentry {axsospfgeneraltable 1} OT-CCES SIBLE List of OSPF information. IDEX { axsospfgeneraldomainumber } 3 axsospfgeneraldomainumber {axsospfgeneralentry 1} 4 axsospfrouterid {axsospfgeneralentry 2} ITEGER OSPF domain number. Ipddress Router identifier of router. 5 axsospfdminstat {axsospfgeneralentry 3} ITEGER OSPF management status of router. enabled (1) disabled (2) 6 axsospfversionumber {axsospfgeneralentry 4} ITEGER Version number of OSPF protocol. 2 fixed. 7 axsospfreabdrrtrstatus {axsospfgeneralentry 5} 8 axsospfsbdrrtrstatus {axsospfgeneralentry 6} 9 axsospfexternlsacount {axsospfgeneralentry 7} 10 axsospfexternlsacksumsum {axsospfgeneralentry 8} 11 axsospftossupport {axsospfgeneralentry 9} ITEGER Indicates whether the router is an area boarder router. true (1) false (2) ITEGER Indicates whether the router is an S boundary router. true (1) false (2) Gauge umber of external link state advertisements (LS) in link state database (LSDB). ITEGER Total LS checksum of external LS in LSDB. ITEGER Flag indicating whether the router supports the TOS base routing. false (2) fixed. true (1) false (2) 12 axsospforiginateewlsas {axsospfgeneralentry 10} Counter umber of newly created LSs. 13 axsospfrxewlsas {axsospfgeneralentry 11} Counter umber of receiving LS with new information. 176

195 3.8 axsospfmib Group (Multi-backbone OSPF Information MIB) o. Object Identifier SYTX ccess Implementation Specifications Implemented 14 axsospfextlsdblimit {axsospfgeneralentry 12} 15 axsospfmulticastextensions {axsospfgeneralentry 13} ITEGER Maximum number of entries in S external LS that can be stored in LSDB. For -1, no limit. Fixed to -1. ITEGER Indicates the multicast forwarding algorithm of multicast extension version OSPF using a bit map value. "0" is multicast forwarding non-support. However, fixed to multicast forwarding non-support (0) axsospfreatable (1) Identifier axsospf OBJECT IDETIFIER ::= {axsmib 14} axsospfreatable OBJECT IDETIFIER ::= {axsospf 2} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsospfreatable. Table 3-27: Implementation Specifications of axsospfreatable o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsospfreatable {axsospf 2} OT-CCE SSIBLE Table storing information related to each area where router is connected. 2 axsospfreaentry {axsospfreatable 1} OT-CCE SSIBLE List of information of each area. IDEX { axsospfreadomainumber, axsospfreaid } 3 axsospfreadomainumber {axsospfreaentry 1} 4 axsospfreaid {axsospfreaentry 2} ITEGER OSPF domain number. Ipddress umber identifying area. 5 axsospfuthtype {axsospfreaentry 3} 6 axsospfimportsextern {axsospfreaentry 4} 7 axsospfspfruns {axsospfreaentry 5} 8 axsospfreabdrrtrcount {axsospfreaentry 6} 9 axsospfsbdrrtrcount {axsospfreaentry 7} 10 axsospfrealsacount {axsospfreaentry 8} ITEGER Type of authentication employed in the area. one (0) simple password (1) md5(2) ITEGER Flag indicating whether the router retrieves S external link state advertisements (LS). importexternal (1) importoexternal (2) importssa (3) Counter umber of times calculating routes in area using link state database (LSDB) of this area Gauge Total number of border routers that can be reached in this area. Gauge Total number of S boundary routers that can be reached in this area. Gauge umber of LSs in LSDB of this area, not including S external LS. 177

196 3.8 axsospfmib Group (Multi-backbone OSPF Information MIB) o. Object Identifier SYTX ccess Implementation Specifications Implemented 11 axsospfrealsacksumsum {axsospfreaentry 9} 12 axsospfreasummary {axsospfreaentry 10} 13 axsospfreastatus {axsospfreaentry 11} ITEGER Total LS checksum of LS included in LSDB of this area. ITEGER Variable value on the import control of summary LS to stub area. However, fixed to sendreasummary (2). noreasummary (1) sendreasummary (2) ITEGER Indicates the status of entry. active (1) fixed axsospfstubreatable (1) Identifier axsospf OBJECT IDETIFIER ::= {axsmib 14} axsospfstubreatable OBJECT IDETIFIER ::= {axsospf 3} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsospfstubreatable. Table 3-28: Implementation Specifications of axsospfstubreatable o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsospfstubreatable {axsospf 3} OT-CCE SSIBLE Table of information advertised in stub area using area border router. 2 axsospfstubreaentry {axsospfstubreatable 1} OT-CCE SSIBLE List of information of each stub area. IDEX { axsospfstubdomainumber, axsospfstubreaid, axsospfstubtos } 3 axsospfstubdomainumber {axsospfstubreaentry 1} 4 axsospfstubreaid {axsospfstubreaentry 2} ITEGER OSPF domain number. Ipddress ID of stub area. 5 axsospfstubtos {axsospfstubreaentry 3} 6 axsospfstubmetric {axsospfstubreaentry 4} 7 axsospfstubstatus {axsospfstubreaentry 5} 8 axsospfstubmetrictype {axsospfstubreaentry 6} ITEGER Type of service in the stub area. However, 0 fixed. ITEGER Metric corresponding to the service type in the stub area. ITEGER Indicates the status of entry. active (1) fixed. ITEGER Indicates the type of the metric advertised as a default route. ospfmetric (1) comparablecost (2) noncomparable (3) axsospflsdbtable (1) Identifier axsospf OBJECT IDETIFIER ::= {axsmib 14} 178

197 3.8 axsospfmib Group (Multi-backbone OSPF Information MIB) axsospflsdbtable OBJECT IDETIFIER ::= {axsospf 4} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsospflsdbtable. Table 3-29: Implementation Specifications of axsospflsdbtable o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsospflsdbtable {axsospf 4} OT-CCE SSIBLE Table storing information related to the link state database (LSDB) of OSPF process. 2 axsospflsdbentry {axsospflsdbtable 1} OT-CCE SSIBLE List of link state advertisements (LS). IDEX { axsospflsdbdomainumber, axsospflsdbreaid, axsospflsdbtype, axsospflsdblsid, axsospflsdbrouterid } 3 axsospflsdbdomainumber {axsospflsdbentry 1} 4 axsospflsdbreaid {axsospflsdbentry 2} ITEGER OSPF domain number. Ipddress rea ID of the reception source area of this LS. 5 axsospflsdbtype {axsospflsdbentry 3} ITEGER Type of LS. router (1) etwork (2) Summary (3) S summary (4) S external link (5) Multicast (6) nssa external link (7) 6 axsospflsdblsid {axsospflsdbentry 4} 7 axsospflsdbrouterid {axsospflsdbentry 5} 8 axsospflsdbsequence {axsospflsdbentry 6} Ipddress ID identifying each routing domain. Ipddress ID of router which created LS. ITEGER Sequence number of LS. 9 axsospflsdbge {axsospflsdbentry 7} ITEGER Elapsed time after this LS was created (unit: second(s)). 10 axsospflsdbchecksum {axsospflsdbentry 8} ITEGER Checksum of this LS. 11 axsospflsdbdvertisement {axsospflsdbentry 9} OCTET STRIG Entire LS including header axsospfrearangetable (1) Identifier axsospf OBJECT IDETIFIER ::= {axsmib 14} axsospfrearangetable OBJECT IDETIFIER ::= {axsospf 5} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsospfrearangetable. 179

198 3.8 axsospfmib Group (Multi-backbone OSPF Information MIB) Table 3-30: Implementation Specifications of axsospfrearangetable o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsospfrearangetable {axsospf 5} OT-CCE SSIBLE Table storing information related to the range of address in the area where router is connected. 2 axsospfrearangeentry {axsospfrearangetable 1} OT-CCE SSIBLE List storing information related to the range of address in the area where router is connected. IDEX { axsospfdomainumber, axsospfrearangereaid, axsospfrearangeet } 3 axsospfrearangedomainu mber {axsospfrearangeentry 1} 4 axsospfrearangereaid {axsospfrearangeentry 2} 5 axsospfrearangeet {axsospfrearangeentry 3} ITEGER OSPF domain number. Ipddress ID of area. Ipddress IP address of net and subnet in this range. 6 axsospfrearangemask {axsospfrearangeentry 4} 7 axsospfrearangestatus {axsospfrearangeentry 5} 8 axsospfrearangeeffect {axsospfrearangeentry 6} Ipddress Subnet mask to be attached to axsospfrearangeet. ITEGER Indicates the status of entry. active (1) fixed. ITEGER Indicates the range of advertised area. Subnet advertised outside the area (1) Subnet not advertised outside the area (2) axsospfiftable (1) Identifier axsospf OBJECT IDETIFIER ::= {axsmib 14} axsospfiftable OBJECT IDETIFIER ::= {axsospf 7} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsospfiftable. Table 3-31: Implementation Specifications of axsospfiftable o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsospfiftable {axsospf 7} OT-CC ESSIBLE Table storing information of each interface where router is connected. 2 axsospfifentry {axsospfiftable 1} OT-CC ESSIBLE List storing information of each interface where router is connected. IDEX { axsospfifdomainumber, axsospfifipddress, axsospfddresslessif } 3 axsospfifdomainumber {axsospfifentry 1} 4 axsospfifipddress {axsospfifentry 2} ITEGER OSPF domain number. Ipddress IP address of this OSPF interface. 5 axsospfddresslessif {axsospfifentry 3} ITEGER Identifier of interface that is valid when this interface is an address-less interface. 180

199 3.8 axsospfmib Group (Multi-backbone OSPF Information MIB) o. Object Identifier SYTX ccess Implementation Specifications Implemented 6 axsospfifreaid {axsospfifentry 4} Ipddress rea ID of area where this interface is connected. 7 axsospfiftype {axsospfifentry 5} 8 axsospfifdminstat {axsospfifentry 6} ITEGER Type of interface. Broadcast (1) on-broadcast (2) Point-Point (3) Point-Multipoint (5) ITEGER Management status of interface. enabled (1) disabled (2) 9 axsospfifrtrpriority {axsospfifentry 7} ITEGER Priority of this interface. 10 axsospfiftransitdelay {axsospfifentry 8} 11 axsospfifretransinterval {axsospfifentry 9} ITEGER Time needed for sending link state update packet on this interface (unit: second(s)). ITEGER Resend interval of link state advertisement (LS) (unit: second(s)). 12 axsospfifhellointerval {axsospfifentry 10} ITEGER Send interval of Hello packet (unit: second(s)). 13 axsospfifrtrdeadinterval {axsospfifentry 11} 14 axsospfifpollinterval {axsospfifentry 12} 15 axsospfifstate {axsospfifentry 13} ITEGER Maximum allowable receiving interval of Hello packet (unit: second(s)). ITEGER Send interval of Hello packet to inactive neighbor office in non-broadcast multiple access network (unit: second(s)). ITEGER State of interface. down (1) loopback (2) waiting (3) PtoP (4) DR (5) BDR (6) other (7) 16 axsospfifdesignatedrouter {axsospfifentry 14} 17 axsospfifbackupdesignatedro uter {axsospfifentry 15} Ipddress IP address of designated router. Ipddress IP address of backup designated router. 18 axsospfifevents {axsospfifentry 16} Counter How often the status changed or error occurred in this interface. 19 axsospfifuthkey {axsospfifentry 17} OCTET STRIG uthentication key in this interface. 20 axsospfifstatus {axsospfifentry 18} 21 axsospfifmulticastforwarding {axsospfifentry 19} ITEGER Indicates the status of entry. active (1) fixed. ITEGER Multicasting method in this interface. blocked (1) fixed. blocked (1) multicast (2) unicast (3) axsospfifmetrictable (1) Identifier axsospf OBJECT IDETIFIER ::= {axsmib 14} 181

200 3.8 axsospfmib Group (Multi-backbone OSPF Information MIB) axsospfifmetrictable OBJECT IDETIFIER ::= {axsospf 8} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsospfifmetrictable. Table 3-32: Implementation Specifications of axsospfifmetrictable o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsospfifmetrictable {axsospf 8} OT-CC ESSIBLE Table storing service type metric information of each interface. 2 axsospfifmetricentry {axsospfifmetrictable 1} OT-CC ESSIBLE List of information of the service type metric of each interface. IDEX { axsospfifmetricdomainumber, axsospfifmetricipddress, axsospfifmetricddresslessif, axsospfifmetrictos } 3 axsospfifmetricdomainumber {axsospfmetricentry 1} 4 axsospfifmetricipddress {axsospfmetricentry 2} ITEGER OSPF domain number. Ipddress IP address of this OSPF interface. 5 axsospfifmetricddresslessif {axsospfmetricentry 3} 6 axsospfifmetrictos {axsospfmetricentry 4} ITEGER Identifier of interface that is valid when this interface is an address-less interface. ITEGER Service type of this interface. 0 fixed. 7 axsospfifmetricvalue {axsospfmetricentry 5} ITEGER Service type metric of this interface. 8 axsospfifmetricstatus {axsospfmetricentry 6} ITEGER Indicates the status of entry. active (1) fixed axsospfvirtiftable (1) Identifier axsospf OBJECT IDETIFIER ::= {axsmib 14} axsospfvirtiftable OBJECT IDETIFIER ::= {axsospf 9} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsospfvirtiftable. Table 3-33: Implementation Specifications of axsospfvirtiftable o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsospfvirtiftable {axsospf 9} OT-CCE SSIBLE Table storing information of virtual interface where router is connected. 2 axsospfvirtifentry {axsospfvirtiftable 1} OT-CCE SSIBLE List of information of each virtual interface. IDEX { axsospfvirtifdomainumber, axsospfvirtifreaid, axsospfvirtifeighbor } 3 axsospfvirtifdomainumber {axsospfvirtifentry 1} ITEGER OSPF domain number. 182

201 3.8 axsospfmib Group (Multi-backbone OSPF Information MIB) o. Object Identifier SYTX ccess Implementation Specifications Implemented 4 axsospfvirtifreaid {axsospfvirtifentry 2} Ipddress rea ID of area through which the virtual link passes. 5 axsospfvirtifeighbor {axsospfvirtifentry 3} Ipddress Router ID of virtual neighboring router. 6 axsospfvirtiftransitdelay {axsospfvirtifentry 4} 7 axsospfvirtifretransinterval {axsospfvirtifentry 5} ITEGER Time needed for sending link state update packet on this interface (unit: second(s)). ITEGER Resend interval of link state advertisement (LS) (unit: second(s)). 8 axsospfvirtifhellointerval {axsospfvirtifentry 6} ITEGER Send interval of Hello packet (unit: second(s)). 9 axsospfvirtifrtrdeadinterval {axsospfvirtifentry 7} 10 axsospfvirtifstate {axsospfvirtifentry 8} 11 axsospfvirtifevents {axsospfvirtifentry 9} ITEGER Maximum allowable receiving interval of Hello packet (unit: second(s)). ITEGER State of interface. down (1) PtoP (4) Counter How often the status changed or error occurred in this interface. 12 axsospfvirtifuthkey {axsospfvirtifentry 10} OCTET STRIG uthentication key in this interface. 13 axsospfvirtifstatus {axsospfvirtifentry 11} ITEGER Indicates the status of entry. active (1) fixed axsospfbrtable (1) Identifier axsospf OBJECT IDETIFIER ::= {axsmib 14} axsospfbrtable OBJECT IDETIFIER ::= {axsospf 10} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsospfbrtable. Table 3-34: Implementation Specifications of axsospfbrtable o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsospfbrtable {axsospf 10} OT-CCE SSIBLE Table storing information of non-virtual neighboring office. 2 axsospfbrentry {axsospfbrtable 1} OT-CCE SSIBLE List of information of each neighboring office. IDEX { axsospfbrdomainumber, axsospfbripddr, axsospfbrddresslessindex } 3 axsospfbrdomainumber {axsospfbrentry 1} 4 axsospfbripddr {axsospfbrentry 2} ITEGER OSPF domain number. Ipddress IP address of neighboring router. 5 axsospfbrddresslessindex {axsospfbrentry 3} ITEGER Identifier of interface that is valid when the interface of neighboring router is an address interface. 6 axsospfbrrtrid {axsospfbrentry 4} Ipddress Router ID of neighboring router. 183

202 3.8 axsospfmib Group (Multi-backbone OSPF Information MIB) o. Object Identifier SYTX ccess Implementation Specifications Implemented 7 axsospfbroptions {axsospfbrentry 5} ITEGER Optional execution capacity of neighboring router. Bit 0: Service type base routing Bit 1: External area processing Bit 2: IP multicast routing Bit 3: rea related to SS 8 axsospfbrpriority {axsospfbrentry 6} ITEGER Priority of neighboring router. 9 axsospfbrstate {axsospfbrentry 7} 10 axsospfbrevents {axsospfbrentry 8} ITEGER State indicating the relation with this neighboring router. down (1) attempt (2) init (3) twoway (4) exchangestart (5) exchange (6) loading (7) full (8) Counter How often the status changed or error occurred concerning relationship with the neighboring router. 11 axsospfbrlsretransqlen {axsospfbrentry 9} Gauge Current length of retransmission queue. 12 axsospfbmabrstatus {axsospfbrentry 10} 13 axsospfbmabrpermanence {axsospfbrentry 11} ITEGER Indicates the status of entry. active (1) fixed. Can be accessed only when axsospfiftype is nbma. ITEGER Method for routing with neighboring router. dynamic (1) permanent (2) axsospfvirtbrtable (1) Identifier axsospf OBJECT IDETIFIER ::= {axsmib 14} axsospfvirtbrtable OBJECT IDETIFIER ::= {axsospf 11} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsospfvirtbrtable. Table 3-35: Implementation Specifications of axsospfvirtbrtable o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsospfvirtbrtable {axsospf 11} OT-CC ESSIBLE Table storing information of virtual neighboring router. 2 axsospfvirtbrentry {axsospfvirtbrtable 1} OT-CC ESSIBLE List of information of each virtual neighboring router. IDEX { axsospfvirtbrdomainumber, axsospfvirtbrrea, axsospfvirtbrrtrid } 3 axsospfvirtbrdomainumber {axsospfvirtbrentry 1} ITEGER OSPF domain number. 184

203 3.8 axsospfmib Group (Multi-backbone OSPF Information MIB) o. Object Identifier SYTX ccess Implementation Specifications Implemented 4 axsospfvirtbrrea {axsospfvirtbrentry 2} 5 axsospfvirtbrrtrid {axsospfvirtbrentry 3} 6 axsospfvirtbripddr {axsospfvirtbrentry 4} Ipddress rea ID of transit area. Ipddress Router ID of virtual neighboring router. Ipddress IP address of virtual neighboring router. 7 axsospfvirtbroptions {axsospfvirtbrentry 5} 8 axsospfvirtbrstate {axsospfvirtbrentry 6} 9 axsospfvirtbrevents {axsospfvirtbrentry 7} ITEGER Optional execution capacity of virtual neighboring router. Bit 1: Service type base routing Bit 2: IP multicast routing ITEGER State indicating the relation with this virtual neighboring router. down (1) attempt (2) init (3) twoway (4) exchangestart (5) exchange (6) loading (7) full (8) Counter How often the status of this virtual link changed or error occurred. 10 axsospfvirtbrlsretransqlen {axsospfvirtbrentry 8} Gauge Current length of retransmission queue axsospfextlsdbtable (1) Identifier axsospf OBJECT IDETIFIER ::= {axsmib 14} axsospfextlsdbtable OBJECT IDETIFIER ::= {axsospf 12} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsospfextlsdbtable. Table 3-36: Implementation Specifications of axsospfextlsdbtable o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsospfextlsdbtable {axsospf 12} OT-CC ESSIBLE Table of link state database (LSDB) of OSPF processing. 2 axsospfextlsdbentry {axsospfextlsdbtable 1} OT-CC ESSIBLE List of link state advertisements (LS). IDEX { axsospfextlsdbdomainumber, axsospfextlsdbtype, axsospfextlsdblsid, axsospfextlsdbrouterid } 3 axsospfextlsdbdomainumber {axsospfextlsdbentry 1} ITEGER OSPF domain number. 4 axsospfextlsdbtype {axsospfextlsdbentry 2} 5 axsospfextlsdblsid {axsospfextlsdbentry 3} ITEGER Type of LS. asexternallink (5) Ipddress Link status ID. Link status ID is the field that includes either router ID or IP address. 185

204 3.8 axsospfmib Group (Multi-backbone OSPF Information MIB) o. Object Identifier SYTX ccess Implementation Specifications Implemented 6 axsospfextlsdbrouterid {axsospfextlsdbentry 4} Ipddress 32-bit number for uniquely identifying the creation source router in an autonomous system. 7 axsospfextlsdbsequence {axsospfextlsdbentry 5} ITEGER Sequence number of LS. 8 axsospfextlsdbge {axsospfextlsdbentry 6} 9 axsospfextlsdbchecksum {axsospfextlsdbentry 7} ITEGER Elapsed time after the LS was created (unit: second(s)). ITEGER Checksum of advertisement contents not including an ge field. 10 axsospfextlsdbdvertisement {axsospfextlsdbentry 8} OCTET STRIG Completely full LS including a header axsospfreaggregatetable (1) Identifier axsospf OBJECT IDETIFIER ::= {axsmib 14} axsospfreaggregatetable OBJECT IDETIFIER ::= {axsospf 14} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsospfreaggregatetable. Table 3-37: Implementation Specifications of axsospfreaggregatetable o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsospfreaggregatetable {axsospf 14} OT-CC ESSIBLE Table of IP address with the IP address and IP subnet mask specified as a pair 2 axsospfreaggregateentry {axsospfreaggregatetable 1} OT-CC ESSIBLE List of IP address with the IP address and IP subnet mask specified as a pair. IDEX {axsospfreaggregatedomainumber, axsospfreaggregatereaid, axsospfreaggregatelsdbtype, axsospfreaggregateet, axsospfreaggregatemask } 3 axsospfreaggregatedomain umber {axsospfreaggregateentry 1} 4 axsospfreaggregatereaid {axsospfreaggregateentry 2} ITEGER OSPF domain number. Ipddress rea where addresses are aggregated. 5 axsospfreaggregatelsdbtyp e {axsospfreaggregateentry 3} ITEGER Type of address aggregation. This entry indicates the type of the link state database (LSDB) applied to the aggregation of this address. summarylink (3) nssaexternallink (7) 6 axsospfreaggregateet {axsospfreaggregateentry 4} 7 axsospfreaggregatemask {axsospfreaggregateentry 5} Ipddress IP address of network or subnet. Ipddress Subnet mask related to network or subnet. 186

205 3.8 axsospfmib Group (Multi-backbone OSPF Information MIB) o. Object Identifier SYTX ccess Implementation Specifications Implemented 8 axsospfreaggregatestatus {axsospfreaggregateentry 6} 9 axsospfreaggregateeffect {axsospfreaggregateentry 7} ITEGER Indicates the status of entry. active (1) fixed. ITEGER Indicates that the subnet included in the range advertises the aggregated address or is used as a subnet that is not advertised outside the area. advertisematching (1) dootdvertisematching (2) axsospftrap (1) Identifier axsospf OBJECT IDETIFIER ::= {axsmib 14} axsospftrap OBJECT IDETIFIER ::= {axsospf 16} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsospftrap group. Table 3-38: Implementation Specifications of axsospfreaggregatetable o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsospftrapcontroltable {axsospftrap 1} OT-CC ESSIBLE Trap-related information obtained. 2 axsospftrapcontrolentry {axsospftrapcontroltable 1} OT-CC ESSIBLE List of trap-related information obtained. IDEX { axsospftrapdomainumber } 3 axsospftrapdomainumber {axsospftrapcontrolentry 1} ITEGER OSPF domain number. 4 axsospfsettrap {axsospftrapcontrolentry 2} OCTET STRIG (SIZE(4)) Bit map indicating the trap-allowable event. Each bit indicates object of axsospftraps (0x100fe fixed). 2 1 bit (0x ): axsospfvirtifstatechange to 2 16 bit (0x ): axsospfifstatechange 5 axsospfconfigerrortype {axsospftrapcontrolentry 3} 6 axsospfpackettype {axsospftrapcontrolentry 4} ITEGER Error event which occurred most recently. noerror (0) badversion (1) areamismatch (2) unknownbmabr (3) unknownvirtualbr (4) authtypemismatch (5) authfailure (6) netmaskmismatch (7) hellointervalmismatch (8) deadintervalmismatch (9) optionmismatch (10) ITEGER Type of latest error packet. noerror (0) hello (1) dbdescript (2) lsreq (3) lsupdate (4) lsck (5) 187

206 3.8 axsospfmib Group (Multi-backbone OSPF Information MIB) o. Object Identifier SYTX ccess Implementation Specifications Implemented 7 axsospfpacketsrc {axsospftrapcontrolentry 5} Ipddress Source address of latest error packet if no error event occurs. 8 axsospftraps {axsospftrap 2} OT-CC ESSIBLE Trap advertisement 188

207 3.9 axsospfv3mib Group (Multi-backbone OSPFv3 Information MIB) 3.9 axsospfv3mib Group (Multi-backbone OSPFv3 Information MIB) axsospfv3generaltable (1) Identifier axsospfv3 OBJECT IDETIFIER ::= {axsmib 15} axsospfv3generaltable OBJECT IDETIFIER ::= {axsospfv3 1} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsospfv3generaltable. Table 3-39: Implementation Specifications of axsospfv3generaltable o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsospfv3generaltable {axsospfv3 1} OT-CC ESSIBLE Table storing OSPFv3 information. 2 axsospfv3generalentry {axsospfv3generaltable 1} OT-CC ESSIBLE List of OSPFv3 information. IDEX { axsospfv3generaldomainumber } 3 axsospfv3generaldomainumber {axsospfv3generalentry 1} 4 axsospfv3routerid {axsospfv3generalentry 2} ITEGER OSPFv3 domain number. Ipddress Router identifier of router. 5 axsospfv3dminstat {axsospfv3generalentry 3} 6 axsospfv3versionumber {axsospfv3generalentry 4} 7 axsospfv3reabdrrtrstatus {axsospfv3generalentry 5} 8 axsospfv3sbdrrtrstatus {axsospfv3generalentry 6} 9 axsospfv3sscopelsacount {axsospfv3generalentry 7} 10 axsospfv3sscopelsacksumsum {axsospfv3generalentry 8} ITEGER OSPFv3 management status of router. enabled (1) disabled (2) ITEGER Version number of OSPFv3 protocol. Fixed to 3. ITEGER Indicates whether the router is an area boarder router. true (1) false (2) ITEGER Indicates whether the router is an S boundary router. true (1) false (2) Gauge umber of external link state advertisements (LS) in link state database (LSDB). ITEGER Total LS checksum of sscopels in LSDB. 11 axsospfv3originateewlsas {axsospfv3generalentry 9} Counter umber of newly created LSs. 12 axsospfv3rxewlsas {axsospfv3generalentry 10} 13 axsospfv3extrealsdblimit {axsospfv3generalentry 11} Counter umber of receiving LS with new information. ITEGER Maximum number of entries in S external LS that can be stored in LSDB. For -1, no limit. Fixed to

208 3.9 axsospfv3mib Group (Multi-backbone OSPFv3 Information MIB) o. Object Identifier SYTX ccess Implementation Specifications Implemented 14 axsospfv3multicastextensions {axsospfv3generalentry 12} 15 axsospfv3demandextensions {axsospfv3generalentry 14} 16 axsospfv3trafficengineeringsupp ort {axsospfv3generalentry 15} ITEGER Indicates the multicast forwarding algorithm of multicast extension version OSPFv3 using a bit map value. "0" is multicast forwarding non-support. However, fixed to multicast forwarding non-support (0). ITEGER Support of Demand routing through this router. false (2) fixed. ITEGER Support of traffic engineering extension through this router. false (2) fixed axsospfv3reatable (1) Identifier axsospfv3 OBJECT IDETIFIER ::= {axsmib 15} axsospfv3reatable OBJECT IDETIFIER ::= {axsospfv3 2} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsospfv3reatable. Table 3-40: Implementation Specifications of axsospfv3reatable o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsospfv3reatable {axsospfv3 2} OT-CC ESSIBLE Table storing information related to each area where router is connected. 2 axsospfv3reaentry {axsospfv3reatable 1} OT-CC ESSIBLE List of information of each area. IDEX { axsospfv3readomainumber, axsospfv3reaid } 3 axsospfv3readomainumber {axsospfv3reaentry 1} 4 axsospfv3reaid {axsospfv3reaentry 2} ITEGER OSPFv3 domain number. Ipddress umber identifying area. 5 axsospfv3importsextern {axsospfv3reaentry 3} 6 axsospfv3spfruns {axsospfv3reaentry 4} 7 axsospfv3reabdrrtrcount {axsospfv3reaentry 5} 8 axsospfv3sbdrrtrcount {axsospfv3reaentry 6} 9 axsospfv3reascopelsacount {axsospfv3reaentry 7} 10 axsospfv3reascopelsacksum Sum {axsospfv3reaentry 8} ITEGER Flag indicating whether the router retrieves S external link state advertisements (LS). importexternal (1) importoexternal (2) importssa (3) Counter umber of times calculating routes in area using link state database (LSDB) of this area Gauge Total number of border routers that can be reached in this area. Gauge Total number of S boundary routers that can be reached in this area. Gauge umber of reascope LSs in the LSDB of this area. ITEGER Total of LS checksums of reascopelss in the LSDB of this area. 190

209 3.9 axsospfv3mib Group (Multi-backbone OSPFv3 Information MIB) o. Object Identifier SYTX ccess Implementation Specifications Implemented 11 axsospfv3reasummary {axsospfv3reaentry 9} 12 axsospfv3reastatus {axsospfv3reaentry 10} 13 axsospfv3stubmetric {axsospfv3reaentry 11} ITEGER Variable value on the import control of summary LS to stub area. However, fixed to sendreasummary (2). noreasummary (1) sendreasummary (2) ITEGER Indicates the status of entry. active (1) fixed. ITEGER Default route metrics value to be advertised to stub or SS area axsospfv3slsdbtable (1) Identifier axsospfv3 OBJECT IDETIFIER ::= {axsmib 15} axsospfv3slsdbtable OBJECT IDETIFIER ::= {axsospfv3 3} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsospfv3slsdbtable. Table 3-41: Implementation Specifications of axsospfv3slsdbtable o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsospfv3slsdbtable {axsospfv3 3} OT-CC ESSIBLE Table storing information related to S Scope link status database of the OSPFv3 process. 2 axsospfv3slsdbentry {axsospfv3slsdbtable 1} OT-CC ESSIBLE List of link state advertisements (LS). IDEX { axsospfv3slsdbdomainumber, axsospfv3slsdbtype, axsospfv3slsdbrouterid, axsospfv3slsdblsid } 3 axsospfv3slsdbdomainumber {axsospfv3slsdbentry 1} ITEGER OSPFv3 domain number. 4 axsospfv3slsdbtype {axsospfv3slsdbentry 2} ITEGER Type of LS. asexternal (0x4005) 5 axsospfv3slsdbrouterid {axsospfv3slsdbentry 3} 6 axsospfv3slsdblsid {axsospfv3slsdbentry 4} 7 axsospfv3slsdbsequence {axsospfv3slsdbentry 5} Ipddress ID of router which created LS. Ipddress ID to identify each individual LS. ITEGER Sequence number of LS. 8 axsospfv3slsdbge {axsospfv3slsdbentry 6} ITEGER Elapsed time after this LS was created (unit: second(s)). 9 axsospfv3slsdbchecksum {axsospfv3slsdbentry 7} ITEGER Checksum of this LS. 10 axsospfv3slsdbdvertisement {axsospfv3slsdbentry 8} OCTET STRIG Entire LS including header. 191

210 3.9 axsospfv3mib Group (Multi-backbone OSPFv3 Information MIB) axsospfv3realsdbtable (1) Identifier axsospfv3 OBJECT IDETIFIER ::= {axsmib 15} axsospfv3realsdbtable OBJECT IDETIFIER ::= {axsospfv3 4} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsospfv3realsdbtable. Table 3-42: Implementation Specifications of axsospfv3realsdbtable o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsospfv3realsdbtable {axsospfv3 4} OT-CC ESSIBLE Table storing information related to reascope link status database of the OSPFv3 process. 2 axsospfv3realsdbentry {axsospfv3realsdbtable 1} OT-CC ESSIBLE List of link state advertisements (LS). IDEX { axsospfv3realsdbdomainumber, axsospfv3realsdbreaid, axsospfv3realsdbtype, axsospfv3realsdbrouterid, axsospfv3realsdblsid } 3 axsospfv3realsdbdomainumber {axsospfv3realsdbentry 1} ITEGER OSPFv3 domain number. 4 axsospfv3realsdbreaid {axsospfv3realsdbentry 2} 5 axsospfv3realsdbtype {axsospfv3realsdbentry 3} Ipddress rea ID of the reception source area of this LS. ITEGER Type of LS. router (8193=0x2001) network (8194 = 0x2002) interreaprefix (8195=0x2003) interrearouter (8196=0x2004) multicast (8198 = 0x2006) nssa external link (8199 = 0x2007) intrareaprefix (8201=0x2009) 6 axsospfv3realsdbrouterid {axsospfv3realsdbentry 4} 7 axsospfv3realsdblsid {axsospfv3realsdbentry 5} 8 axsospfv3realsdbsequence {axsospfv3realsdbentry 6} Ipddress ID of router which created LS. Ipddress ID to identify each individual LS. ITEGER Sequence number of LS. 9 axsospfv3realsdbge {axsospfv3realsdbentry 7} ITEGER Elapsed time after this LS was created (unit: second(s)). 10 axsospfv3realsdbchecksum {axsospfv3realsdbentry 8} ITEGER Checksum of this LS. 11 axsospfv3realsdbdvertisement {axsospfv3realsdbentry 9} OCTET STRIG Entire LS including header axsospfv3linklsdbtable (1) Identifier axsospfv3 OBJECT IDETIFIER ::= {axsmib 15} axsospfv3linklsdbtable OBJECT IDETIFIER ::= {axsospfv3 5} 192

211 3.9 axsospfv3mib Group (Multi-backbone OSPFv3 Information MIB) Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsospfv3linklsdbtable. Table 3-43: Implementation Specifications of axsospfv3linklsdbtable o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsospfv3linklsdbtable {axsospfv3 5} OT-CC ESSIBLE Table storing information related to LinkScope link status database of the OSPFv3 process. 2 axsospfv3linklsdbentry {axsospfv3linklsdbtable 1 } OT-CC ESSIBLE List of link state advertisements (LS). IDEX { axsospfv3linklsdbdomainumber, axsospfv3linklsdbifindex, axsospfv3linklsdbtype, axsospfv3linklsdbrouterid, axsospfv3linklsdblsid } 3 axsospfv3linklsdbdomainumber {axsospfv3linklsdbentry 1} 4 axsospfv3linklsdbifindex {axsospfv3linklsdbentry 2} ITEGER OSPFv3 domain number. ITEGER Identifier of link that received LS. 5 axsospfv3linklsdbtype {axsospfv3linklsdbentry 3} ITEGER Type of LS. Link (0x0008) 6 axsospfv3linklsdbrouterid {axsospfv3linklsdbentry 4} 7 axsospfv3linklsdblsid {axsospfv3linklsdbentry 5} 8 axsospfv3linklsdbsequence {axsospfv3linklsdbentry 6} Ipddress ID of router which created LS. Ipddress ID to identify each individual LS. ITEGER Sequence number of LS. 9 axsospfv3linklsdbge {axsospfv3linklsdbentry 7} ITEGER Elapsed time after this LS was created (unit: second(s)). 10 axsospfv3linklsdbchecksum {axsospfv3linklsdbentry 8} ITEGER Checksum of this LS. 11 axsospfv3linklsdbdvertisement {axsospfv3linklsdbentry 9} OCTET STRIG Entire LS including header axsospfv3iftable (1) Identifier axsospfv3 OBJECT IDETIFIER ::= {axsmib 15} axsospfv3iftable OBJECT IDETIFIER ::= {axsospfv3 7} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsospfv3iftable. 193

212 3.9 axsospfv3mib Group (Multi-backbone OSPFv3 Information MIB) Table 3-44: Implementation Specifications of axsospfv3iftable o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsospfv3iftable {axsospfv3 7} OT-CC ESSIBLE Table storing information of each interface where router is connected. 2 axsospfv3ifentry {axsospfv3iftable 1} OT-CC ESSIBLE List storing information of each interface where router is connected. IDEX { axsospfv3ifdomainumber, axsospfv3ifindex } 3 axsospfv3ifdomainumber {axsospfv3ifentry 1} 4 axsospfv3ifindex {axsospfv3ifentry 2} ITEGER OSPFv3 domain number. ITEGER Interface Index of this OSPFv3 interface. 5 axsospfv3ifreaid {axsospfv3ifentry 3} 6 axsospfv3iftype {axsospfv3ifentry 4} 7 axsospfv3ifdminstat {axsospfv3ifentry 5} Ipddress rea ID of area where this interface is connected. ITEGER Type of interface. Broadcast (1) on-broadcast (2) Point-Point (3) Point-Multipoint (5) ITEGER Management status of interface. enabled (1) disabled (2) 8 axsospfv3ifrtrpriority {axsospfv3ifentry 6} ITEGER Priority of this interface. 9 axsospfv3iftransitdelay {axsospfv3ifentry 7} 10 axsospfv3ifretransinterval {axsospfv3ifentry 8} ITEGER Time needed for sending link state update packet on this interface (unit: second(s)). ITEGER Resend interval of link state advertisement (LS) (unit: second(s)). 11 axsospfv3ifhellointerval {axsospfv3ifentry 9} ITEGER Send interval of Hello packet (unit: second(s)). 12 axsospfv3ifrtrdeadinterval {axsospfv3ifentry 10} 13 axsospfv3ifpollinterval {axsospfv3ifentry 11} 14 axsospfv3ifstate {axsospfv3ifentry 12} ITEGER Maximum allowable receiving interval of Hello packet (unit: second(s)). ITEGER Send interval of Hello packet to inactive neighbor office in non-broadcast multiple access network (unit: second(s)). ITEGER State of interface. down (1) loopback (2) waiting (3) PtoP (4) DR (5) BDR (6) other (7) 15 axsospfv3ifdesignatedrouter {axsospfv3ifentry 13} 16 axsospfv3ifbackupdesignatedr outer {axsospfv3ifentry 15} Ipddress Router ID of designated router. Ipddress Router ID of backup designated router. 17 axsospfv3ifevents {axsospfv3ifentry 16} 18 axsospfv3ifstatus {axsospfv3ifentry 18} Counter How often the status changed or error occurred in this interface. ITEGER Indicates the status of entry. active (1) fixed. 194

213 3.9 axsospfv3mib Group (Multi-backbone OSPFv3 Information MIB) o. Object Identifier SYTX ccess Implementation Specifications Implemented 19 axsospfv3ifmulticastforwarding {axsospfv3ifentry 19} 20 axsospfv3ifdemand {axsospfv3ifentry 20} ITEGER Multicasting method in this interface. blocked (1) fixed. blocked (1) multicast (2) unicast (3) ITEGER Indicates whether or not the Demand OSPFv3 procedure is to be executed at this interface. false (2) fixed. true (1) false (2) 21 axsospfv3ifmetricvalue {axsospfv3ifentry 21} ITEGER Metrics of this interface. 22 axsospfv3iflinkscopelsacount {axsospfv3ifentry 22} 23 axsospfv3iflinklsacksumsum {axsospfv3ifentry 23} ITEGER umber of LinkScope link state advertisements (LS) in link state database (LSDB). ITEGER Total of LS checksums of LinkScope LSs in the LSDB. 24 axsospfv3ifinstid {axsospfv3ifentry 24} ITEGER InstanceID of this OSPFV3 interface axsospfv3virtiftable (1) Identifier axsospfv3 OBJECT IDETIFIER ::= {axsmib 15} axsospfv3virtiftable OBJECT IDETIFIER ::= {axsospfv3 8} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsospfv3virtiftable. Table 3-45: Implementation Specifications of axsospfv3virtiftable o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsospfv3virtiftable {axsospfv3 8} OT-CC ESSIBLE Table storing information of virtual interface where router is connected. 2 axsospfv3virtifentry {axsospfv3virtiftable 1} OT-CC ESSIBLE List of information of each virtual interface. IDEX { axsospfv3virtifdomainumber, axsospfv3virtifreaid, axsospfv3virtifeighbor } 3 axsospfv3virtifdomainumber {axsospfv3virtifentry 1} ITEGER OSPFv3 domain number. 4 axsospfv3virtifreaid {axsospfv3virtifentry 2} Ipddress rea ID of area through which the virtual link passes. 5 axsospfv3virtifeighbor {axsospfv3virtifentry 3} 6 axsospfv3virtifindex {axsospfv3virtifentry 4} Ipddress Router ID of virtual neighboring router. ITEGER Interface Index of this interface. 7 axsospfv3virtiftransitdelay {axsospfv3virtifentry 5} 8 axsospfv3virtifretransinterval {axsospfv3virtifentry 6} ITEGER Time needed for sending link state update packet on this interface (unit: second(s)). ITEGER Resend interval of link state advertisement (LS) (unit: second(s)). 195

214 3.9 axsospfv3mib Group (Multi-backbone OSPFv3 Information MIB) o. Object Identifier SYTX ccess Implementation Specifications Implemented 9 axsospfv3virtifhellointerval {axsospfv3virtifentry 7} 10 axsospfv3virtifrtrdeadinterval {axsospfv3virtifentry 8} 11 axsospfv3virtifstate {axsospfv3virtifentry 9} 12 axsospfv3virtifevents {axsospfv3virtifentry 10} 13 axsospfv3virtifstatus {axsospfv3virtifentry 11} 14 axsospfv3virtiflinkscopelsacount {axsospfv3virtifentry 12} 15 axsospfv3virtiflinklsacksumsum {axsospfv3virtifentry 13} ITEGER Send interval of Hello packet (unit: second(s)). ITEGER Maximum allowable receiving interval of Hello packet (unit: second(s)). ITEGER State of interface. down (1) PtoP (4) Counter How often the status changed or error occurred in this interface. ITEGER Indicates the status of entry. active (1) fixed. ITEGER umber of LinkScope link state advertisements (LS) in link state database (LSDB). ITEGER Total of LS checksums of LinkScope LSs in the LSDB axsospfv3brtable (1) Identifier axsospfv3 OBJECT IDETIFIER ::= {axsmib 15} axsospfv3brtable OBJECT IDETIFIER ::= {axsospfv3 9} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsospfv3brtable. Table 3-46: Implementation Specifications of axsospfv3brtable o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsospfv3brtable {axsospfv3 9} OT-CC ESSIBLE Table storing information of non-virtual neighboring office. 2 axsospfv3brentry {axsospfv3brtable 1} OT-CC ESSIBLE List of information of each neighboring office. IDEX { axsospfv3brdomainumber, axsospfv3ifindex, axsospfbripv6ddr } 3 axsospfv3brdomainumber {axsospfv3brentry 1} ITEGER OSPFv3 domain number. 4 axsospfv3brifindex {axsospfv3brentry 2} ITEGER Local LinkID of the link to which neighboring router is connected. 5 axsospfv3bripv6ddr {axsospfv3brentry 3} Ipv6ddre ss IPv6 address of neighboring router. 6 axsospfv3brrtrid {axsospfv3brentry 4} 7 axsospfv3broptions {axsospfv3brentry 5} 8 axsospfv3brpriority {axsospfv3brentry 6} Ipddress Router ID of neighboring router. ITEGER Option field of neighboring router. ITEGER Priority of neighboring router. 196

215 3.9 axsospfv3mib Group (Multi-backbone OSPFv3 Information MIB) o. Object Identifier SYTX ccess Implementation Specifications Implemented 9 axsospfv3brstate {axsospfv3brentry 7} 10 axsospfv3brevents {axsospfv3brentry 8} ITEGER State indicating the relation with this neighboring router. down (1) attempt (2) init (3) twoway (4) exchangestart (5) exchange (6) loading (7) full (8) Counter How often the status changed or error occurred concerning the relationship with the neighboring router. 11 axsospfv3brlsretransqlen {axsospfv3brentry 9} Gauge Current length of retransmission queue. 12 axsospfv3brhellosuppressed {axsospfv3brentry 12} 13 axsospfv3brifid {axsospfv3brentry 13} ITEGER Indicates whether or not Hello is suppressed to the neighbor. ITEGER Interface ID of neighboring router advertising in this link by Hello packet axsospfv3virtbrtable (1) Identifier axsospfv3 OBJECT IDETIFIER ::= {axsmib 15} axsospfv3virtbrtable OBJECT IDETIFIER ::= {axsospfv3 10} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsospfv3virtbrtable. Table 3-47: Implementation Specifications of axsospfv3virtbrtable o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsospfv3virtbrtable {axsospfv3 10} OT-CCE SSIBLE Table storing information of virtual neighboring router. 2 axsospfv3virtbrentry {axsospfvirtv3brtable 1} OT-CCE SSIBLE List of information of each virtual neighboring router. IDEX { axsospfv3virtbrdomainumber, axsospfv3virtbrrea, axsospfv3virtbrrtrid } 3 axsospfv3virtbrdomainumber {axsospfv3virtbrentry 1} 4 axsospfv3virtbrrea {axsospfv3virtbrentry 2} 5 axsospfv3virtbrrtrid {axsospfv3virtbrentry 3} ITEGER OSPFv3 domain number. Ipddress rea ID of transit area. Ipddress Router ID of virtual neighboring router. 6 axsospfv3virtbrifindex {axsospfv3virtbrentry 4} ITEGER Local LinkID of the link to which neighboring router is connected. 7 axsospfv3virtbripv6ddr {axsospfv3virtbrentry 5} Ipv6ddress IPv6 address of virtual neighboring router. 197

216 3.9 axsospfv3mib Group (Multi-backbone OSPFv3 Information MIB) o. Object Identifier SYTX ccess Implementation Specifications Implemented 8 axsospfv3virtbroptions {axsospfv3virtbrentry 6} 9 axsospfv3virtbrstate {axsospfv3virtbrentry 7} 10 axsospfv3virtbrevents {axsospfv3virtbrentry 8} ITEGER Option field of the virtual neighboring router. ITEGER State indicating the relation with this virtual neighboring router. down (1) attempt (2) init (3) twoway (4) exchangestart (5) exchange (6) loading (7) full (8) Counter How often the status of this virtual link changed or error occurred. 11 axsospfv3virtbrlsretransqlen {axsospfv3virtbrentry 9} Gauge Current length of retransmission queue. 12 axsospfv3virtbrhellosuppressed {axsospfv3virtbrentry 10} 13 axsospfv3virtbrifid {axsospfv3virtbrentry 11} ITEGER Indicates whether or not Hello is suppressed to the neighbor. ITEGER Interface ID advertised to this link by the neighbor with Hello packet axsospfv3reaggregatetable (1) Identifier axsospfv3 OBJECT IDETIFIER ::= {axsmib 15} axsospfv3reaggregatetable OBJECT IDETIFIER ::= {axsospfv3 11} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsospfv3reaggregatetable. Table 3-48: Implementation Specifications of axsospfv3reaggretatetable o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsospfv3reaggregatetable {axsospfv3 11} OT-CCE SSIBLE Table of IPv6 Prefixes specified in a pair between Prefix and Prefix length. 2 axsospfv3reaggregateentry {axsospfv3reaggregatetable 1} OT-CCE SSIBLE List of IPv6 Prefixes specified in a pair between Prefix and Prefix length IDEX { axsospfv3reaggregatedomainumber, axsospfv3reaggregatereaid, axsospfv3reaggregatelsdbtype, axsospfv3reaggregateindex } 3 axsospfv3reaggregatedomain umber {axsospfv3reaggregateentry 1} 4 axsospfv3reaggregatereaid {axsospfv3reaggregateentry 2} ITEGER OSPFv3 domain number. Ipddress rea where addresses are aggregated. 198

217 3.9 axsospfv3mib Group (Multi-backbone OSPFv3 Information MIB) o. Object Identifier SYTX ccess Implementation Specifications Implemented 5 axsospfv3reaggregaterealsdb Type {axsospfv3reaggregateentry 3} ITEGER Type of address aggregation. This entry indicates the type of the link state database (LSDB) applied to the aggregation of this address. interreaprefixlsa (0x2003) nssaexternallink (0x2007) 6 axsospfv3reaggregateindex {axsospfv3reaggregateentry 4} 7 axsospfv3reaggregateprefix {axsospfv3reaggregateentry 5} 8 axsospfv3reaggregateprefixlen {axsospfv3reaggregateentry 6} ITEGER ggregate table identifier. Ipv6ddress IPv6 Prefix ITEGER IPv6 Prefix length 9 axsospfv3reaggregatestatus {axsospfv3reaggregateentry 7} 10 axsospfv3reaggregateeffect {axsospfv3reaggregateentry 8} ITEGER Indicates the status of entry. active (1) fixed. ITEGER Indicates that the subnet included in the range advertises the aggregated address or is used as a subnet that is not advertised outside the area. advertisematching (1) dootdvertisematching (2) 199

218 3.10 axsbootmanagement Group (System Booting Information MIB) 3.10 axsbootmanagement Group (System Booting Information MIB) (1) Identifier axsbootmanagement OBJECT IDETIFIER ::= {axsmib 51} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsbootmanagement. Table 3-49: Implementation Specifications of axsbootmanagement o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsbootreason {axsbootmanagement 1} ITEGER Cause for booting of the system power-on (1): power on reload (2): command system-fault (3): fault system-fault (4): WDT timeout reset (5): Hardware reset fail-over (6): SWP system-fault (7): default restart This system returns any one of power-on (1), reload (2), system-fault (3), reset (5), or default-restart (7). 200

219 3.11 axslogin Group (Login Information MIB) 3.11 axslogin Group (Login Information MIB) (1) Identifier axslogin OBJECT IDETIFIER ::= {axsmib 52} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axslogin. Table 3-50: Implementation Specifications of axslogin o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsloginame {axslogin 1} DisplayString Login user name. 2 axslogintime {axslogin 2} 3 axslogouttime {axslogin 3} DisplayString Indicates the time (YYYY/MM/DD, hh:mm:ss, time zone) when the user logged in with 26-byte character string. Displays the time in "YYYY/MM/DD hh:mm:ss XXXXXX" format. YYYY: Year MM: Month (01 to 12) DD: Day (01 to 31) hh: Hour (00 to 23) mm: Minute (00 to 59) ss: Second (00 to 59) XXXXXX: time zone 1-byte space character is put between DD and hh, and between ss and XXXXXX. Example: 2004/10/09 10:23:10 JST DisplayString Indicates the time (YYYY/MM/DD, hh:mm:ss, time zone) when the user logged out with 26-byte character string. Displays the time in "YYYY/MM/DD hh:mm:ss XXXXXX" format. YYYY: Year MM: Month (01 to 12) DD: Day (01 to 31) hh: Hour (00 to 23) mm: Minute (00 to 59) ss: Second (00 to 59) XXXXXX: time zone 1-byte space character is put between DD and hh, and between ss and XXXXXX. Example: 2004/10/09 10:23:10 JST 201

220 3.11 axslogin Group (Login Information MIB) o. Object Identifier SYTX ccess Implementation Specifications Implemented 4 axsloginfailuretime {axslogin 4} 5 axsloginlocation {axslogin 5} 6 axsloginline {axslogin 6} 7 axslogoutstatus {axslogin 7} DisplayString Indicates the time (YYYY/MM/DD, hh:mm:ss, time zone) when the user failed in login with 26-byte character string. Displays the time in "YYYY/MM/DD hh:mm:ss XXXXXX" format. YYYY: Year MM: Month (01 to 12) DD: Day (01 to 31) hh: Hour (00 to 23) mm: Minute (00 to 59) ss: Second (00 to 59) XXXXXX: time zone 1-byte space character is put between DD and hh, and between ss and XXXXXX. Example: 2004/10/09 10:23:10 JST DisplayString Indicates the connection method of the login user in the following format. For console: "console" For other cases: Displays "XXXX (YYYY)". - XXXX: IP address - YYYY: pplication (telnet, rlogin, ftp) Example: "console", " (telnet)", "2001:02C0:0001:0100:0000:0000:0000:0053 (telnet)" DisplayString Indicates the terminal identifier of the login user in the following format. For console: "console" For other cases: Displays "XXXX (YYYY)". - XXXX: Terminal - YYYY: pplication (telnet, rlogin, ftp) Example: "console", "ttyp1 (telnet)" ITEGER Cause for logout error (1): Logout caused by other than below (Example: System out due to internal error) success (2): Logout by command timeout (3): Logout by auto-logout disconnect (4): Logout due to disconnection of line force (5): Forced logout by other user This system returns the fixed value (2). 202

221 3.12 axslldp Group (LLDP Information MIB) 3.12 axslldp Group (LLDP Information MIB) axslldpconfiguration Group (1) Identifier axslldp OBJECT IDETIFIER ::= {axsmib 100} axslldpconfiguration OBJECT IDETIFIER ::= {axslldp 1} Object ID value axslldpmessagetxinterval OBJECT IDETIFIER ::= {axslldpconfiguration 1} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axslldpconfiguration group. Table 3-51: Implementation Specifications of axslldpconfiguration Group o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axslldpmessagetxinterval {axslldpconfiguration 1} Integer32 ( ) [Standard] LDPDU transmission interval. Value set by configuration command lldp interval-time (unit: second(s)). Default: 30 (seconds) 2 axslldpmessagetxholdmultiplier {axslldpconfiguration 2} Integer32 (2..10) [Standard] Time coefficient, which the neighbor system stores, on the LLDP frame transmitted by this system. The actually stored time is the product of axslldpmessagetxinterval and this MIB value. Value set by configuration command lldp hold-count Default: 4 3 axslldpreinitdelay {axslldpconfiguration 3} Integer32 (1..10) R/W [Standard] Delay time from when the port state is shifted to disable until it is reinitialized (unit: second(s)). Default: 1 (second) [Implementation] ot supported. 4 axslldptxdelay {axslldpconfiguration 4} Integer32 ( ) R/W [Standard] Delay time from when value of any one object in axslldplocalsystemdata group was changed until LDPDU was transmitted (unit: second(s)). The recommended value can be obtained by the expression below. axslldptxdelay = max (1, (0.25 axslldpmessagetxinterval)) Default: 8 (seconds) [Implementation] ot supported. 5 axslldpportconfigtable {axslldpconfiguration 6} SEQUEC E OF axslldpport ConfigEntry [Standard] Table on LDPDU transmission. 6 axslldpportconfigentry {axslldpportconfigtable 1} axslldpport ConfigEntry [Standard] Entry (for each port) on LDPDU transmission. IDEX { axslldpportconfigportum } 203

222 3.12 axslldp Group (LLDP Information MIB) o. Object Identifier SYTX ccess Implementation Specifications Implemented 7 axslldpportconfigportum {axslldpportconfigentry 2} 8 axslldpportconfigdminstatus {axslldpportconfigentry 3} 9 axslldpportconfigtlvstxenable {axslldpportconfigentry 4} 10 axslldpportconfigrowstatus {axslldpportconfigentry 5} Integer32 [Standard] Port identification index. Same as ifindex. ITEGER [Standard] Port state of this system on LDPDU transmission and reception. txonly (1) rxonly (2) txndrx (3) disabled (4) [Implementation] Only txndrx (3) and disabled (4) can be used. BITS [Standard] Transmission enable TLV on the relevant port. portdesc (4) sysame (5) sysdesc (6) syscap (7) [Implementation] Fixed to 0x0e (logical OR of portdesc (4), sysame (5), and sysdesc (6)). RowStatus [Standard] State of this entry. active (1): When axslldpportconfigdminstatus is txndrx notready (3): When axslldpportconfigdminstatus is disabled 11 axslldpconfigmanddrtable {axslldpconfiguration 7} SEQUEC E OF axslldpconf igmanddr Entry [Standard] Table on a port that transmits the management address of this system. [Implementation] ot supported. 12 axslldpconfigmanddrentry {axslldpconfigmanddrtable 1} axslldpconf igmanddr Entry [Standard] Entry indicating the set of a port that transmits the management address of this system. [Implementation] ot supported. 13 axslldpconfigmanddrportstxe nable {axslldpconfigmanddrentry 1} OCTET STRIG (SIZE(48)) R/W [Standard] The set of a port, which transmits the management address of this system, represented using a bit map. [Implementation] ot supported axslldpstats Group (1) Identifier axslldp OBJECT IDETIFIER ::= {axsmib 100} axslldpstats OBJECT IDETIFIER ::= {axslldp 2} Object ID value axslldpstatstable OBJECT IDETIFIER ::= {axslldpstats 1} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axslldpstats group. 204

223 3.12 axslldp Group (LLDP Information MIB) Table 3-52: Implementation Specifications of axslldpstats Group o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axslldpstatstable {axslldpstats 1} SEQUECE OF axslldpstats Entry [Standard] Table on LLDP statistics information. 2 axslldpstatsentry {axslldpstatstable 1} axslldpstats Entry [Standard] Entry (for each port) on LLDP statistics information. IDEX { axslldpstatsportum } 3 axslldpstatsportum {axslldpstatsentry 2} 4 axslldpstatsoperstatus {axslldpstatsentry 3} 5 axslldpstatsframesinerrors {axslldpstatsentry 4} 6 axslldpstatsframesintotal {axslldpstatsentry 5} 7 axslldpstatsframesouttotal {axslldpstatsentry 6} 8 axslldpstatstlvsinerrors {axslldpstatsentry 7} 9 axslldpstatstlvsdiscardedtotal {axslldpstatsentry 8} 10 axslldpstatscounterdiscontinuity Time {axslldpstatsentry 9} Integer32 [Standard] Port identification index. Same as ifindex. However, the port that has set configuration command lldp enable is the target. ITEGER [Standard] ctive status of the corresponding port. portup (1) portdown (2) Counter32 [Standard] umber of received illegal LDPDUs on the relevant port. Counter32 [Standard] Total number of received LDPDUs on the relevant port. Counter32 [Standard] Total number of sent LDPDUs on the relevant port. Counter32 [Standard] umber of received illegal TLVs on the relevant port. Counter32 [Standard] Total number of discarded TLVs on the relevant port. TimeStamp [Standard] Time in which the continuity of a statistical counter in the relevant port is lost. [Implementation] ot supported axslldplocalsystemdata Group (1) Identifier axslldp OBJECT IDETIFIER ::= {axsmib 100} axslldplocalsystemdata OBJECT IDETIFIER ::= {axslldp 3} Object ID value axslldplocchassistype ::= {axslldplocalsystemdata 1} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axslldplocalsystemdata group. 205

224 3.12 axslldp Group (LLDP Information MIB) Table 3-53: Implementation Specifications of axslldplocalsystemdata Group o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axslldplocchassistype {axslldplocalsystemdata 1} ITEGER [Standard] Chassis type on this system. entphysicallias (1) iflias (2) portentphysicallias (3) backplaneentphysicallias (4) macddress (5) networkddress (6) [Implementation] lways macddress (5). 2 axslldplocchassisid {axslldplocalsystemdata 2} OCTET STRIG (SIZE(1..255)) [Standard] Chassis ID (character string) on this system. [Implementation] MC address of system. 3 axslldplocsysame {axslldplocalsystemdata 3} OCTET STRIG (SIZE(0..255)) [Standard] System name (character string) on this system. Same as sysame of a system group. 4 axslldplocsysdesc {axslldplocalsystemdata 4} DisplayString (SIZE(0..255)) [Standard] System information (character string) on this system. Same as sysdesc of a system group. 5 axslldplocsyscapsupported {axslldplocalsystemdata 5} 6 axslldplocsyscapenabled {axslldplocalsystemdata 6} BITS [Standard] Function list of the system to be supported, represented using a bit map. repeater (0) bridge (1) accesspoint (2) router (3) telephone (4) wirelessstation (5) stationonly (6) [Implementation] ot supported. BITS [Standard] List of functions to be operated in the system, represented using a bit map. repeater (0) bridge (1) accesspoint (2) router (3) telephone (4) wirelessstation (5) stationonly (6) [Implementation] ot supported. 7 axslldplocporttable {axslldplocalsystemdata 7} SEQUECE OF axslldplocpor tentry [Standard] Table on the port of this system. 8 axslldplocportentry {axslldplocporttable 1} axslldplocpor tentry [Standard] Entry (for each port) on the port of this system. IDEX { axslldplocportum } 9 axslldplocportum {axslldplocportentry 1} Integer32 [Standard] Port identification index. Same as ifindex. However, the port that has set configuration command lldp enable is the target. 206

225 3.12 axslldp Group (LLDP Information MIB) o. Object Identifier SYTX ccess Implementation Specifications Implemented 10 axslldplocporttype {axslldplocportentry 2} ITEGER [Standard] Port type on the relevant port of this system. iflias (1) portentphysicallias (2) backplaneentphysicallias (3) macddress (4) networkddress (5) local (6) [Implementation] macddress (4) fixed. 11 axslldplocportid {axslldplocportentry 3} OCTET STRIG (SIZE(1..255)) [Standard] Port ID (character string) on the relevant port of this system. [Implementation] MC address of port. 12 axslldplocportdesc {axslldplocportentry 4} OCTET STRIG (SIZE(0..255)) [Standard] Port ID (character string) on the relevant port of this system. Same as ifdescr of a port. 13 axslldplocmanddrtable {axslldplocalsystemdata 8} SEQUECE OF axslldplocma nddrentry [Standard] Table on the management address of the system. [Implementation] ot supported. 14 axslldplocmanddrentry {axslldplocmanddrtable 1} axslldplocma nddrentry [Standard] Information on the management address for each chassis. IDEX { axslldplocmanddrtype, axslldplocmanddr } [Implementation] ot supported. 15 axslldplocmanddrtype {axslldplocmanddrentry 1} ddressfamil yumbers [Standard] Type of management address. [Implementation] ot supported. 16 axslldplocmanddr {axslldplocmanddrentry 2} OCTET STRIG (SIZE (1..31)) [Standard] Management address of the system. [Implementation] ot supported. 17 axslldplocmanddrifsubtype {axslldplocmanddrentry 3} ITEGER [Standard] Type of interface number. unknown (1) ifindex (2) systemportumber (3) [Implementation] ot supported. 18 axslldplocmanddrifid {axslldplocmanddrentry 4} OCTET STRIG (SIZE(4)) [Standard] Interface number corresponding to the management address. [Implementation] ot supported. 19 axslldplocmanddroid {axslldplocmanddrentry 5} OBJECT IDETIFIER [Standard] hardware or protocol related to the management address [Implementation] ot supported axslldpremotesystemdata Group (1) Identifier axslldp OBJECT IDETIFIER ::= {axsmib 100} axslldpremotesystemdata OBJECT IDETIFIER ::= {axslldp 4} Object ID value axslldpremtable ::= {axslldpremotesystemdata 1} Object ID value

226 3.12 axslldp Group (LLDP Information MIB) (2) Implementation specifications The table below shows the implementation specifications of axslldpremotesystemdata group. Table 3-54: Implementation Specifications of axslldpremotesystemdata Group o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axslldpremtable {axslldpremotesystemdata 1} SEQUECE OF axslldprementry [Standard] Table on neighboring system. 2 axslldprementry {axslldpremtable 1} 3 axslldpremtimemark {axslldprementry 1} 4 axslldpremlocalportum {axslldprementry 2} axslldprementry [Standard] Entry on neighboring system. IDEX { axslldpremtimemark, axslldpremlocalportum, axslldpremindex } [Implementation] IDEX { axslldpremlocalportum, axslldpremindex } * TimeFilter [Standard] Time from when the information of the relevant neighbor system is acquired. [Implementation] ot supported. Integer32 [Standard] Port identification index of this system that receives the information on a neighboring system. Same as ifindex. However, the port that has set configuration command lldp enable is the target. 5 axslldpremindex {axslldprementry 3} Integer32 ( ) [Standard] Index on neighboring system. 6 axslldpremremotechassistype {axslldprementry 4} ITEGER [Standard] Chassis type on neighboring system. entphysicallias (1) iflias (2) portentphysicallias (3) backplaneentphysicallias (4) macddress (5) networkddress (6) 7 axslldpremremotechassis {axslldprementry 5} OCTET STRIG (SIZE(1..255)) [Standard] Chassis ID (character string) on neighboring system. 8 axslldpremremoteporttype {axslldprementry 6} ITEGER [Standard] Port type on the relevant port of neighboring system. iflias (1) portentphysicallias (2) backplaneentphysicallias (3) macddress (4) networkddress (5) local (6) 9 axslldpremremoteport {axslldprementry 7} OCTET STRIG (SIZE(1..255)) [Standard] Port ID (character string) on the relevant port of neighboring system. 10 axslldpremportdesc {axslldprementry 8} OCTET STRIG (SIZE(0..255)) [Standard] Information (character string) on the relevant port of neighboring system. 208

227 3.12 axslldp Group (LLDP Information MIB) o. Object Identifier SYTX ccess Implementation Specifications Implemented 11 axslldpremsysame {axslldprementry 9} OCTET STRIG (SIZE(0..255)) [Standard] System name (character string) on neighboring system. 12 axslldpremsysdesc {axslldprementry 10} OCTET STRIG (SIZE(0..255)) [Standard] System information (character string) on neighboring system. 13 axslldpremsyscapsupported {axslldprementry 11} 14 axslldpremsyscapenabled {axslldprementry 12} BITS [Standard] Function list of the neighboring system to be supported, represented using a bit map. repeater (0) bridge (1) accesspoint (2) router (3) telephone (4) wirelessstation (5) stationonly (6) [Implementation] ot supported. BITS [Standard] List of functions to be operated in the neighboring system, represented using a bit map. repeater (0) bridge (1) accesspoint (2) router (3) telephone (4) wirelessstation (5) stationonly (6) [Implementation] ot supported. 15 axslldpremmanddrtable {axslldpremotesystemsdata 2} SEQUECE OF axslldpremman ddrentry [Standard] Table on the management address of a neighboring system that the relevant system learns. [Implementation] ot supported. 16 axslldpremmanddrentry {axslldpremmanddrtable 1} axslldpremman ddrentry [Standard] Table on the management address of neighboring system. IDEX { axslldpremtimemark, axslldpremlocalportum, axslldpremindex, axslldpremmanddrtype, axslldpremmanddr } [Implementation] ot supported. 17 axslldpremmanddrtype {axslldpremmanddrentry 1} ddressfamily umbers [Standard] Type of management address. [Implementation] ot supported. 18 axslldpremmanddr {axslldpremmanddrentry 2} OCTET STRIG (SIZE (1..31)) [Standard] Management address of neighboring system. [Implementation] ot supported. 19 axslldpremmanddrifsubtype {axslldpremmanddrentry 3} ITEGER [Standard] Type of interface number. unknown (1) ifindex (2) systemportumber (3) [Implementation] ot supported. 20 axslldpremmanddrifid {axslldpremmanddrentry 4} OCTET STRIG (SIZE(4)) [Standard] Interface number corresponding to the management address of neighboring system. [Implementation] ot supported. 209

228 3.12 axslldp Group (LLDP Information MIB) o. Object Identifier SYTX ccess Implementation Specifications Implemented 21 axslldpremmanddroid {axslldpremmanddrentry 5} OBJECT IDETIFIER [Standard] hardware or protocol related to the management address of the neighbouring system [Implementation] ot supported. 22 axslldpremorgdefinfotable {axslldpremotesystemsdata 3} SEQUECE OF axslldpremorg DefInfoEntry [Standard] Table on the vendor's own TLV of neighboring system. 23 axslldpremorgdefinfoentry {axslldpremorgdeftable 1} axslldpremorg DefInfoEntry [Standard] Entry on the vendor's own TLV of neighboring system. IDEX { axslldpremtimemark, axslldpremlocalportum, axslldpremindex, axslldpremorgdefoui, axslldpremorgdefsubtype, axslldpremorgdefindex } [Implementation] ot supported. 24 axslldpremorgdefinfooui {axslldpremorgdefentry 1} OCTET STRIG (SIZE(3)) [Standard] OUI on the vendor's own TLV of neighboring system. [Implementation] ot supported. 25 axslldpremorgdefinfosubtype {axslldpremorgdefentry 2} Integer32 (1..255) [Standard] Subtype on the vendor's own TLV of neighboring system. [Implementation] ot supported. 26 axslldpremorgdefinfoindex {axslldpremorgdefentry 3} Integer32 ( ) [Standard] ID on the vendor's own TLV of neighboring system. [Implementation] ot supported. 27 axslldpremorgdefinfo {axslldpremorgdefentry 4} OCTET STRIG (SIZE(0..507)) [Standard] Information on the vendor's own TLV of neighboring system. [Implementation] ot supported. * lthough the standard includes axslldpremtimemark, it is not supported and therefore it is excluded axslldpremoteorigininfodata Group (1) Identifier axslldp OBJECT IDETIFIER ::= {axsmib 100} axslldpremoteorigininfodata OBJECT IDETIFIER ::= {axslldp 20} Object ID value axslldpremorigininfotable OBJECT IDETIFIER ::= {axslldpremoteorigininfodata 1} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axslldpremoteorigininfodata group. 210

229 3.12 axslldp Group (LLDP Information MIB) Table 3-55: Implementation Specifications of axslldpremoteorigininfodata Group o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axslldpremorigininfotable {axslldpremoteorigininfodata 1} SEQUECE OF axslldpremor igininfotable Table on laxala original TLV of neighboring system. 2 axslldpremorigininfoentry {axslldpremorigininfotable 1} axslldpremor igininfoentry Entry on neighboring system. IDEX { axslldpremorigininfolocalportum, axslldpremorigininfoindex } 3 axslldpremorigininfoportum {axslldpremorigininfoentry 1} Integer32 Port identification index of this system that receives the information on a neighboring system. Same as ifindex. 4 axslldpremorigininfoindex {axslldpremorigininfoentry 2} ITEGER Index on neighboring system. 5 axslldpremorigininfolowervlanli st {axslldpremorigininfoentry 3} OCTET STRIG (SIZE(256)) Bit map indicating the VL ID (VL 1 to 2047) valid for the designated port of the neighboring system (the first bit (bit 2 7 of byte 0) indicates presence/absence of untagged definition, and the following bits indicate validity/invalidity of VL 1 to 2047). bit is 0: The corresponding VL is invalid. bit is 1: The corresponding VL is valid. 6 axslldpremorigininfohighervlanl ist {axslldpremorigininfoentry 4} OCTET STRIG (SIZE(256)) Bit map indicating VL ID (VL 2048 to 4095) valid for the designated port of the neighboring system (bits indicate validity/invalidity of VL 2048 to 4095 sequentially, in such a way that the first bit (bit 2 7 of byte 0) indicates validity/invalidity of VL 2048, next bit VL 2049,...). bit is 0: The corresponding VL is invalid. bit is 1: The corresponding VL is valid. 7 axslldpremorigininfoipv4ddress {axslldpremorigininfoentry 5} OCTET STRIG (SIZE(0..15)) When only untagged is set in axslldpremorigininfolowervlanlist IPv4 address (character string) assigned to the relevant port of a neighboring system. For except described above IPv4 address (character string) assigned to VL having the lowest ID, among the VLs that is valid in the relevant port of a neighboring system and to which an IPv4 address is assigned. 8 axslldpremorigininfoipv4porttyp e {axslldpremorigininfoentry 6} ITEGER Port type of the relevant port in neighbor system. Bridge port (0): port in which IP address is not defined or port contained in VL to which an IP address is assigned Router port (1): Ports other than described above 211

230 3.12 axslldp Group (LLDP Information MIB) o. Object Identifier SYTX ccess Implementation Specifications Implemented 9 axslldpremorigininfoipv4vlanid {axslldpremorigininfoentry 7} ITEGER When axslldpremorigininfoipv4porttype is bridge port Lowest ID among the VL IDs to which an IPv4 address is assigned. When axslldpremorigininfoipv4porttype is router port 0 fixed. 10 axslldpremorigininfoipv6ddress {axslldpremorigininfoentry 8} OCTET STRIG (SIZE(0..45)) When only untagged is set in axslldpremorigininfolowervlanlist IPv6 address (character string) assigned to the relevant port of a neighboring system. For except described above IPv6 address (character string) assigned to VL having the lowest ID, among the VLs that is valid in the relevant port of a neighboring system and to which an IPv6 address is assigned. 11 axslldpremorigininfoipv6porttyp e {axslldpremorigininfoentry 9} 12 axslldpremorigininfoipv6vlanid {axslldpremorigininfoentry 10} ITEGER Port type of the relevant port in neighbor system. Bridge port (0): port in which IP address is not defined or port contained in VL to which an IP address is assigned Router port (1): Ports other than described above ITEGER When axslldpremorigininfoipv6porttype is bridge port Lowest ID among the VL IDs to which an IPv6 address is assigned. When axslldpremorigininfoipv6porttype is router port 0 fixed. 212

231 3.13 axsxrpmib Group (Ring Protocol Information) 3.13 axsxrpmib Group (Ring Protocol Information) axsxrpgrouptable Group (1) Identifier axsxrp OBJECT IDETIFIER ::= {axsmib 200} axsxrpgrouptable OBJECT IDETIFIER ::= {axsxrp 1} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsxrpgrouptable group. Table 3-56: Implementation Specifications of axsxrpgrouptable Group o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsxrpgrouptable {axsxrp 1} OT-CC ESSIBLE Table storing Ring Protocol group information. 2 axsxrpgroupentry {axsxrpgrouptable 1} OT-CC ESSIBLE List of Ring Protocol group information. IDEX { axsxrpgroupringid } 3 axsxrpgroupringid {axsxrpgroupentry 1} ITEGER Ring ID (1 to 65535). 4 axsxrpgrouprowstatus {axsxrpgroupentry 2} 5 axsxrpgroupmode {axsxrpgroupentry 3} 6 axsxrpgroupringttribute {axsxrpgroupentry 4} 7 axsxrpgroupmonitoringstate {axsxrpgroupentry 5} RowStatus Valid/invalid status of this entry. Valid (1) fixed. ITEGER Operation mode for each ring ID. no config (1): Configuration command mode is not set. master (2): Master node transit (3): Transit node ITEGER ttribute of this system in the shared link non-monitoring ring when multi-ring configuration. no config (1): o attribute rift-ring (2): ode consisting of shared link non-monitoring ring rift-ring-edge 1 (3): ode 1 which becomes termination of shared link non-monitoring ring. rift-ring-edge 2 (4): ode 2 which becomes termination of shared link non-monitoring ring. ITEGER Operation and monitoring status of the ring. init (1): During initialization disable (2): Disabled fault monitoring (3): During fault monitoring recovery monitoring (4): During recovery monitoring flush monitoring (5): During flush control frame monitoring not operating (6): Operation disabled 8 axsxrpgroupringport1 {axsxrpgroupentry 6} ITEGER ifindex of ring port 1 (port with smaller ifindex). 9 axsxrpgroupringport1shared {axsxrpgroupentry 7} ITEGER Shared status of ring port 1 no config (1) shared-edge (2) shared (3) 213

232 3.13 axsxrpmib Group (Ring Protocol Information) o. Object Identifier SYTX ccess Implementation Specifications Implemented 10 axsxrpgroupringport2 {axsxrpgroupentry 8} ITEGER ifindex of ring port 2 (port with greater ifindex). 11 axsxrpgroupringport2shared {axsxrpgroupentry 9} 12 axsxrpgrouptransitiontofau ltcounts {axsxrpgroupentry 10} 13 axsxrpgrouptransitiontoor malcounts {axsxrpgroupentry 11} 14 axsxrpgrouplasttransitionti me {axsxrpgroupentry 12} ITEGER Shared status of ring port 2 no config (1) shared-edge (2) shared (3) Counter umber of transitions from fault monitoring status to recovery monitoring status. Counter umber of transitions from recovery monitoring status to fault monitoring status. TimeStamp Most recent time when transition from recovery monitoring status to fault monitoring status occurred and vice versa axsxrpvlangrouptable Group (1) Identifier axsxrp OBJECT IDETIFIER ::= {axsmib 200} axsxrpvlangrouptable OBJECT IDETIFIER ::= {axsxrp 2} Object ID value (2) Implementation specifications The table below shows the implementation specifications of axsxrpvlangrouptable group. Table 3-57: Implementation Specifications of axsxrpvlangrouptable Group o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 axsxrpvlangrouptable {axsxrp 2} OT-CC ESSIBLE Table storing Ring Protocol VL group information. 2 axsxrpvlangroupentry {axsxrpvlangrouptable 1} OT-CC ESSIBLE List of VL group ring port information. IDEX { axsxrpvlangroupringid, axsxrpvlangroupid } 3 axsxrpvlangroupringid {axsxrpvlangroupentry 1} 4 axsxrpvlangroupid {axsxrpvlangroupentry 2} ITEGER Ring ID (1 to 65535). ITEGER VL group ID. 5 axsxrpvlangroupringport1 {axsxrpvlangroupentry 3} 6 axsxrpvlangroupringport1role {axsxrpvlangroupentry 4} 7 axsxrpvlangroupringport1ope rstate {axsxrpvlangroupentry 5} 8 axsxrpvlangroupringport2 {axsxrpvlangroupentry 6} ITEGER ifindex of ring port 1 (port with smaller ifindex). ITEGER Role of ring port 1 primary (1): Primary port of master node secondary (2): Secondary port of master node other (3) ITEGER Current status of ring port 1 forwarding (1) blocking (2) other (3) ITEGER ifindex of ring port 2 (port with greater ifindex). 214

233 3.13 axsxrpmib Group (Ring Protocol Information) o. Object Identifier SYTX ccess Implementation Specifications Implemented 9 axsxrpvlangroupringport2role {axsxrpvlangroupentry 7} 10 axsxrpvlangroupringport2ope rstate {axsxrpvlangroupentry 8} ITEGER Role of ring port 2 primary (1): Primary port of master node secondary (2): Secondary port of master node other (3) ITEGER Current status of ring port 2 forwarding (1) blocking (2) other (3) 215

234 3.14 ax3630sswitch Group (System Model Information MIB)[CB 320] 3.14 ax3630sswitch Group (System Model Information MIB)[CB 320] (1) Identifier ax3630smib OBJECT IDETIFIER ::= {axsex 7} ax3630sswitch OBJECT IDETIFIER ::= {ax3630smib 1} Object ID value ax3630ssoftware OBJECT IDETIFIER ::= {ax3630sswitch 2} Object ID value ax3630ssystemmsg OBJECT IDETIFIER ::= {ax3630sswitch 3} Object ID value ax3630ssnmpgent OBJECT IDETIFIER ::= {ax3630sswitch 4} Object ID value ax3630slicense OBJECT IDETIFIER ::= {ax3630sswitch 6} Object ID value (2) Implementation specifications The table below shows the implementation specifications of ax3630sswitch group. Table 3-58: Implementation Specifications of ax3630sswitch Group o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 ax3630smodeltype {ax3630sswitch 1} 2 ax3630ssoftwareame {ax3630ssoftware 1} 3 ax3630ssoftwarebbreviation {ax3630ssoftware 2} 4 ax3630ssoftwareversion {ax3630ssoftware 3} 5 ax3630ssystemmsgtext {ax3630ssystemmsg 1} ITEGER Model information of system (numerical value). Compute Blade 320 GG-BE9LSWM1(550) Compute Blade 320 XG-BE9LSWM1(551) Compute Blade 320 GG-BE9LSWM2(552) Compute Blade 320 XG-BE9LSWM2(553) DisplayString The type name of software in operation (maximum 16 characters). DisplayString The abbreviation of software in operation (maximum 16 characters). DisplayString The version of software in operation (maximum 16 characters). DisplayString Latest log information (character string) in operational log. Latest entry information of system message log (maximum 256 characters). For the log format, refer to "Message Log Reference, Format of Operation Log". 6 ax3630ssystemmsgtype {ax3630ssystemmsg 2} OCTET STRIG The type of an event is indicated in one byte. n event was generated (01) n event was restored (02) 216

235 3.14 ax3630sswitch Group (System Model Information MIB)[CB 320] o. Object Identifier SYTX ccess Implementation Specifications Implemented 7 ax3630ssystemmsgtimestamp {ax3630ssystemmsg 3} DisplayString The generation time (month/day/hour/ minute/second) of an event is indicated using a character string of 14 bytes. Display as "MM/DD hh:mm:ss". MM: Month (01 to 12) DD: Day (01 to 31) hh: Hour (00 to 23) mm: Minute (00 to 59) ss: Second (00 to 59) 1-byte space character is put between DD and hh. 8 ax3630ssystemmsglevel {ax3630ssystemmsg 4} OCTET STRIG The level of the latest system message log is indicated in one byte. Fatal failure (9) Critical failure (8) Software failure (7) etwork system failure (4) Warning (3) Reserved (2) Reserved (1) 9 ax3630ssystemmsgeventpoint {ax3630ssystemmsg 5} 10 ax3630ssystemmsgeventinterfa ceid {ax3630ssystemmsg 6} DisplayString The code in the part where the failure of a system message occurs is indicated using a character string not exceeding eight bytes. For details of location of event occurrence, see "Message Log Reference,1,2,5 (3) Location of event occurrence". DisplayString The interface identifier of a system message is indicated using a character string (maximum 40 characters). For details of identifier, see "Message Log Reference, (4) Identifier of event-occurring interface". 11 ax3630ssystemmsgeventcode {ax3630ssystemmsg 7} OCTET STRIG The message identifier code of a system message is indicated in 4 bytes (0x to 0xFFFFFFFF). For details of code, refer to "Message Log Reference, (5) Message identifier and additional information". 12 ax3630ssystemmsgdditionalc ode {ax3630ssystemmsg 8} OCTET STRIG The additional information of a system message is indicated in 6 bytes (0x to 0xFFFFFFFFFFFF). The contents of a code is not opened to the public because the code is used for maintenance. 13 ax3630ssnmpsendreceivesize {ax3630ssnmpgent 1} 14 ax3630ssnmpreceivedelay {ax3630ssnmpgent 2} 15 ax3630ssnmpcontinuoussend {ax3630ssnmpgent 3} 16 ax3630ssnmpobjectmaxumbe r {ax3630ssnmpgent 4} ITEGER Size of SMP packet which agent can transmit and receive (unit: byte). ITEGER Recommended receive delay interval of SMP packet (unit: millisecond). ITEGER Recommended number of continuously transmitted SMP packets. ITEGER umber of objects for each recommended 1SMP packet. 17 ax3630slicenseumber {ax3630slicense 1} ITEGER umber of set license serial numbers. 217

236 3.14 ax3630sswitch Group (System Model Information MIB)[CB 320] o. Object Identifier SYTX ccess Implementation Specifications Implemented 18 ax3630slicensetable {ax3630slicense 2} OT-CCES SIBLE Table of license information. 19 ax3630slicenseentry {ax3630slicensetable 1} OT-CCES SIBLE Entry of license information. IDEX { ax3630slicenseindex } 20 ax3630slicenseindex {ax3630slicenseentry 1} ITEGER Unique index number assigned for each serial number. umber of 1 to ax3630slicenseumber. 21 ax3630slicenseserialumber {ax3630slicenseentry 2} DisplayString Serial number. 22 ax3630slicenseoptionumber {ax3630slicenseentry 3} ITEGER umber of the option licenses related to serial number. 23 ax3630slicenseoptiontable {ax3630slicense 3} OT-CCES SIBLE Table of the option license information related to serial number. 24 ax3630slicenseoptionentry {ax3630slicenseoptiontable 1} OT-CCES SIBLE Entry of the option license information related to serial number. IDEX { ax3630slicenseoptionindex, ax3630slicenseoptionumberindex } 25 ax3630slicenseoptionindex {ax3630slicenseoptionentry 1} 26 ax3630slicenseoptionumberin dex {ax3630slicenseoptionentry 2} 27 ax3630slicenseoptionsoftware ame {ax3630slicenseoptionentry 3} 28 ax3630slicenseoptionsoftware bbreviation {ax3630slicenseoptionentry 4} ITEGER Unique index number assigned for each serial number. Same number as ax3630slicenseindex. ITEGER Index number of the option license information related to serial number. umber of 1 to ax3630slicenseoptionumber. DisplayString Software name of the option license information related to serial number. DisplayString Software abbreviation of the option license information related to serial number. 218

237 3.15 ax3630sdevice Group (System Chassis Information MIB)[CB 320] 3.15 ax3630sdevice Group (System Chassis Information MIB)[CB 320] Implementation Specifications (Chassis Information) of Group (1) Identifier ax3630sdevice OBJECT IDETIFIER ::= {ax3630smib 2} ax3630schassis OBJECT IDETIFIER ::= {ax3630sdevice 1} ax3630schassismaxumber OBJECT IDETIFIER ::= {ax3630schassis 1} Object ID value ax3630schassistable OBJECT IDETIFIER ::= {ax3630schassis 2} Object ID value (2) Implementation specifications The table below shows the implementation specifications (chassis information) of ax3630schassis group. Table 3-59: Implementation Specifications of ax3630schassis Group (Chassis Information) o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 ax3630schassismaxumber {ax3630schassis 1} ITEGER Maximum number of cluster chassis that can be connected to this system. For Compute Blade 320 GG-BE9LSWM1 0 fixed. For Compute Blade 320 GG-BE9LSWM2 0 fixed. 2 ax3630schassistable {ax3630schassis 2} OT-CC ESSIBLE Table of chassis information. 3 ax3630schassisentry {ax3630schassistable 1} OT-CC ESSIBLE Information entry on specific chassis. IDEX { ax3630schassisindex } 4 ax3630schassisindex {ax3630schassisentry 1} OT-CC ESSIBLE umber identifying ax3630schassisentry. Fixed to 1. 5 ax3630schassistype {ax3630schassisentry 2} 6 ax3630schassisstatus {ax3630schassisentry 3} 7 ax3630sstsledstatus {ax3630schassisentry 4} ITEGER Type of chassis. Compute Blade 320 GG-BE9LSWM1(550) Compute Blade 320 XG-BE9LSWM1(551) Compute Blade 320 GG-BE9LSWM2(552) Compute Blade 320 XG-BE9LSWM2(553) ITEGER The current status of chassis. Operation (2) fixed. ITEGER STS LED state of the system. Blinks in green (1) Lights in green (2) Blinks in red (3) Lights in red (4) Goes off (6) 8 ax3630scpuame {ax3630schassisentry 5} DisplayStr ing CPU name (maximum 16 characters). Example: "MD K5" 9 ax3630scpuclock {ax3630schassisentry 6} ITEGER CPU clock (unit: MHz). Example:

238 3.15 ax3630sdevice Group (System Chassis Information MIB)[CB 320] o. Object Identifier SYTX ccess Implementation Specifications Implemented 10 ax3630smemorytotalsize {ax3630schassisentry 7} 11 ax3630smemoryusedsize {ax3630schassisentry 8} ITEGER Installed memory size (unit: kb). ITEGER Used memory size (unit: kb). 12 ax3630smemoryfreesize {ax3630schassisentry 9} ITEGER The size of the memory not used is indicated using a numeric value (unit: kb). 13 ax3630sromversion {ax3630schassisentry 10} DisplayStr ing Version of installed ROM (character string). Example: "ROM Rev0 BIOS Rev.:R1.02.E4" 14 ax3630scpuload1m {ax3630schassisentry 11} ITEGER One-minute CPU usage (0 to 100). 15 ax3630sflashtotalsize {ax3630schassisentry 12} 16 ax3630sflashusedsize {ax3630schassisentry 13} 17 ax3630sflashfreesize {ax3630schassisentry 14} 18 ax3630ssdcardstatus {ax3630schassisentry 15} 19 ax3630ssdcardtotalsize {ax3630schassisentry 16} 20 ax3630ssdcardusedsize {ax3630schassisentry 17} 21 ax3630ssdcardfreesize {ax3630schassisentry 18} 22 ax3630sphyslineumber {ax3630schassisentry 19} 23 ax3630stemperaturestatusumbe r {ax3630schassisentry 20} 24 ax3630spowerunitumber {ax3630schassisentry 21} 25 ax3630sredundantpsumber {ax3630schassisentry 22} 26 ax3630sfanumber {ax3630schassisentry 23} 27 ax3630stotalccumruntime{ax3 630sChassisEntry 24} 28 ax3630scriticalccumruntime {ax3630schassisentry 25} ITEGER The total of the file system volume in use and the unused volume on the built-in flash memory (unit: kb). ITEGER File system volume in use on the built-in flash memory (unit: kb). ITEGER File system volume not in use on the built-in flash memory (unit: kb). ITEGER MC connection status. Connected (2) ot connected (32) ITEGER Total capacity of MC (unit: kb) Returns -1 when the MC is not connected. ITEGER Used capacity of MC (unit: kb) Returns -1 when the MC is not connected. ITEGER Remaining capacity of MC (unit: kb) Returns -1 when the MC is not connected. ITEGER umber of ports that can be connected to this chassis ITEGER umber of largest temperature monitoring parts on this chassis ITEGER umber of power supplies that can be installed in this chassis. For Compute Blade 320 GG-BE9LSWM1 0 fixed. For Compute Blade 320 GG-BE9LSWM2 0 fixed. ITEGER umber of external power units that can be installed in this chassis. For Compute Blade 320 GG-BE9LSWM1 0 fixed. For Compute Blade 320 GG-BE9LSWM2 0 fixed. ITEGER umber of main fans in this chassis. For Compute Blade 320 GG-BE9LSWM1 0 fixed. For Compute Blade 320 GG-BE9LSWM2 0 fixed. ITEGER Cumulative running time after system operation is started. ITEGER Running time in the environment at 40ºC or above. 220

239 3.15 ax3630sdevice Group (System Chassis Information MIB)[CB 320] o. Object Identifier SYTX ccess Implementation Specifications Implemented 29 ax3630smoduleslotumber {ax3630schassisentry 26} 30 ax3630smgmtportstatus { ax3630schassis Entry 27} ITEGER umber of internal redundancy power modules that can be installed in this chassis. For Compute Blade 320 GG-BE9LSWM1 0 fixed. For Compute Blade 320 GG-BE9LSWM2 0 fixed. ITEGER The state of the management port is shown. other(1) operating. (2) Trouble(4) State of disable(6) maintaining(7) Unused(10) It responds by -1 when the state of the management port is an uncertainty Implementation Specifications (Temperature Information) of ax3630schassis Group (1) Identifier ax3630schassis OBJECT IDETIFIER ::= {ax3630sdevice 1} ax3630stemperaturestatustable OBJECT IDETIFIER ::= {ax3630schassis 3} Object ID value (2) Implementation specifications The table below shows the implementation specifications (temperature information) of ax3630schassis group. Table 3-60: Implementation Specifications of ax3630schassis Group (Temperature Information) o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 ax3630stemperaturestatustable {ax3630schassis 3} OT-CCES SIBLE Temperature state table 2 ax3630stemperaturestatusentry {ax3630stemperaturestatustable 1} OT-CCES SIBLE Temperature state entry IDEX { ax3630schassisindex, ax3630stemperaturestatusindex } 3 ax3630stemperaturestatusindex {ax3630stemperaturestatusentry 1} OT-CCES SIBLE Unique index number assigned for each temperature monitoring part 4 ax3630stemperaturestatusdescr {ax3630stemperaturestatusentry 2} 5 ax3630stemperaturestatusvalue {ax3630stemperaturestatusentry 3} 6 ax3630stemperaturethreshold {ax3630stemperaturestatusentry 4} 7 ax3630stemperaturestate {ax3630stemperaturestatusentry 5} DisplayString Description of this temperature monitoring part "Main board Temperature": Board temperature Integer32 The current temperature of the temperature monitoring part Integer32 Temperature of this temperature monitoring part where a system is put into the stop state. ITEGER The current temperature state of this temperature monitoring part ormal (1) Caution (2) bnormal (4) 221

240 3.15 ax3630sdevice Group (System Chassis Information MIB)[CB 320] Implementation Specifications (Power Unit Information) of ax3630schassis Group (1) Identifier ax3630schassis OBJECT IDETIFIER ::= {ax3630sdevice 1} ax3630spowerunittable OBJECT IDETIFIER ::= {ax3630schassis 4} Object ID value (2) Implementation specifications The table below shows the implementation specifications (power unit information) of ax3630schassis group. Table 3-61: Implementation Specifications of ax3630schassis Group (Power Unit Information) o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 ax3630spowerunittable {ax3630schassis 4} OT-CC ESSIBLE Table of power information. 2 ax3630spowerunitentry {ax3630spowerunittable 1} OT-CC ESSIBLE Entry of power information. IDEX { ax3630schassisindex, ax3630spowerunitindex } 3 ax3630spowerunitindex {ax3630spowerunitentry 1} OT-CC ESSIBLE Index indicating the power position. Value of 1 to ax3630spowerunitumber. X3630S: Up to 2 4 ax3630spowerconnectstatus {ax3630spowerunitentry 2} 5 ax3630spowersupplystatus {ax3630spowerunitentry 3} ITEGER Installation status of the power supply. Installed (2) ot installed (32) ITEGER ctive state of power supply. In operation (2) In failure (4) Returns -1 when power is not installed Implementation Specifications (Fan Information) of ax3630schassis Group (1) Identifier ax3630schassis OBJECT IDETIFIER ::= {ax3630sdevice 1} ax3630sfantable OBJECT IDETIFIER ::= {ax3630schassis 5} Object ID value (2) Implementation specifications The table below shows the implementation specifications (fan information) of ax3630schassis group. Table 3-62: Implementation Specifications of ax3630schassis Group (Fan Information) o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 ax3630sfantable {ax3630schassis 5} OT-CC ESSIBLE Table of fan information. 2 ax3630sfanentry {ax3630sfantable 1} OT-CC ESSIBLE Entry of fan information. IDEX { ax3630schassisindex, ax3630sfanindex } 222

241 3.15 ax3630sdevice Group (System Chassis Information MIB)[CB 320] o. Object Identifier SYTX ccess Implementation Specifications Implemented 3 ax3630sfanindex {ax3630sfanentry 1} OT-CC ESSIBLE Index indicating the main fan position. Value of 1 to ax3630spowerunitumber. For X3630S: 1 to 4 4 ax3630sfanstatus {ax3630sfanentry 2} ITEGER ctive state of main fan. In operation (2) During high-speed rotation (3) In failure (4) Implementation Specifications (External Power Unit Information) of ax3630schassis Group (1) Identifier ax3630schassis OBJECT IDETIFIER ::= {ax3630sdevice 1} ax3630sredundantpstable OBJECT IDETIFIER ::= {ax3630schassis 6} Object ID value (2) Implementation specifications The table below shows the implementation specifications (external power unit information) of ax3630schassis group. Table 3-63: Implementation Specifications of ax3630schassis Group (External Power Unit Information) o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 ax3630sredundantpstable {ax3630schassis 6} OT-CC ESSIBLE Table of external power unit information. 2 ax3630sredundantpsentry {ax3630sredundantpstable 1} OT-CC ESSIBLE Entry of external power unit information. IDEX { ax3630schassisindex, ax3630sredundantpsindex } 3 ax3630sredundantpsindex {ax3630sredundantpsentry 1} OT-CC ESSIBLE Index indicating the external power supply position. Value of 1 to ax3630sredundantpsumber. For X3630S: 1 4 ax3630sredundantpsconnectstatus {ax3630sredundantpsentry 2} 5 ax3630sredundantpsstatus {ax3630sredundantpsentry 3} ITEGER Installation status of the external power supply. Installed (2) ot installed (32) ITEGER ctive state of external power supply. In operation (2) In failure (4) Returns -1 when the external power unit is not installed Implementation Specifications (Built-in Power Supply Redundancy Module Information) of ax3630schassis Group (1) Identifier ax3630schassis OBJECT IDETIFIER ::= {ax3630sdevice 1} ax3630smoduleslottable OBJECT IDETIFIER ::= {ax3630schassis 7} Object ID value

242 3.15 ax3630sdevice Group (System Chassis Information MIB)[CB 320] (2) Implementation specifications The table below shows the implementation specifications (built-in power supply redundancy module information) of ax3630schassis group. Table 3-64: Implementation Specifications of ax3630schassis Group (Built-in Power Supply Redundancy Module Information) o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 ax3630smoduleslottable {ax3630schassis 7} OT-CC ESSIBLE Table of built-in power supply redundancy module information Information of the power supply or fan installed on this module slot is acquired using ax3630spowerunittable or ax3630sfantable. The relationship between the index of each table and installed position is shown below. ax3630spowerunittable (ax3630spowerunitindex) 1: Rear-right power module unit 2: Rear-left power module unit ax3630sfantable (ax3630sfanindex) 1: Rear-right fan module unit right side 2: Rear-right fan module unit left side 3: Rear-left fan module unit right side 4: Rear-left fan module unit left side 2 ax3630smoduleslotentry {ax3630smoduleslottable 1} OT-CC ESSIBLE Entry of built-in power supply redundancy module information IDEX { ax3630schassisindex, ax3630smoduleslotindex } 3 ax3630smoduleslotindex {ax3630smoduleslotentry 1} OT-CC ESSIBLE Index indicating the position. Value of 1 to ax3630smoduleslotumber 4 ax3630smoduleslotstatus {ax3630smoduleslotentry 2} 5 ax3630smoduleslottype {ax3630smoduleslotentry 3} ITEGER Installation status of built-in powersupply redundancy module. Installed (2) In failure (4) ot installed (32) ITEGER Type of built-in power supply redundancy module Power module C power supply (1) Power module DC power supply (2) Fan module (3) Returns -1 when the external power unit is not installed Implementation Specifications (Interface Information) of ax3630sphysline Group (1) Identifier ax3630sphysline OBJECT IDETIFIER ::= {ax3630sdevice 2} ax3630sphyslinetable OBJECT IDETIFIER ::= {ax3630sphysline 1} Object ID value (2) Implementation specifications The table below shows the implementation specifications (interface information) of ax3630sphysline group. 224

243 3.15 ax3630sdevice Group (System Chassis Information MIB)[CB 320] Table 3-65: Implementation Specifications of ax3630sphysline Group (Interface Information) o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 ax3630sphyslinetable {ax3630sphysline 1} OT-CC ESSIBLE Table of interface information 2 ax3630sphyslineentry {ax3630sphyslinetable 1} OT-CC ESSIBLE Information entry on interface IDEX { ax3630schassisindex, ax3630sphyslineindex } 3 ax3630sphyslineindex {ax3630sphyslineentry 1} OT-CC ESSIBLE Information on a port number. Value of 1 to ax3630sphysiflineumber 4 ax3630sphyslineconnectortype {ax3630sphyslineentry 2} 5 ax3630sphyslineoperstatus {ax3630sphyslineentry 3} 6 ax3630sphyslineifindexumber {ax3630sphyslineentry 4} 7 ax3630sphyslinetransceiverstatu s {ax3630sphyslineentry 5} ITEGER Interface type for the transceiver which can be replaced. other (1) type1000bse-lx (301) type1000bse-sx (302) type1000bse-lh (303) type1000bse-bx10-d (304) type1000bse-bx10-u (305) type1000bse-bx40-d (306) type1000bse-bx40-u (307) type1000bse-sx2(308) type10gbse-sr (401) type10gbse-lr (402) type10gbse-er (403) other (1) is returned for the following: The interface status is other, "initializing", or "in failure". The type and implementation status of a transceiver which can be replaced is other than "implemented". ITEGER State of interface. other (1) In operation (2) During initialization (3) In failure (4) Operation stopped by configuration (6) During maintenance (7) In operation (during line failure occurrence) (8) During line test (9) Unused (configuration not set) (10) ITEGER umber of ifindexes contained in the interface. ITEGER The type and implementation status of a transceiver which can be replaced. "other" is returned when the interface status is "initializing", or "in failure". "other" or the transceiver not replaceable (1) SFP installed (20) SFP not installed (21) Unsupported SFP installed (22) SFP installation unknown (23) XFP installed (30) XFP not installed (31) Unsupported XFP installed (32) XFP installation unknown (33) 225

244 3.16 ax3630smanagementmib Group (Changing System Status/Information)[CB 320] 3.16 ax3630smanagementmib Group (Changing System Status/Information)[CB 320] ax3630sfdbclearmib Group (MC ddress Table Clear MIB) (1) Identifier ax3630smib OBJECT IDETIFIER ::= {axsex 7} Object ID value ax3630smanagementmib OBJECT IDETIFIER ::= {ax3630smib 3} Object ID value ax3630soperationcommand OBJECT IDETIFIER ::= {ax3630smanagementmib 1} Object ID value (2) Implementation specifications The table below shows the implementation specifications of ax3630sfdbclearmib group. Table 3-66: Implementation Specifications of ax3630smanagementmib Group o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 ax3630sfdbclearmib {ax3630soperationcommand 1} OT-CC ESSIBLE MIB group for clearing MC address table information. 2 ax3630sfdbclearset {ax3630sfdbclearmib 1} 3 ax3630sfdbclearreqtime {ax3630sfdbclearmib 2} 4 ax3630sfdbclearsuccesstime {ax3630sfdbclearmib 3} ITEGER R/W MC address table clear information Initial value (0) clear processing (1) clear failure (2) clear success (3) For Set, set to 1. TimeTicks Time (sysuptime) when the clear request of MC address table information was accepted most recently TimeTicks Time (sysuptime) when MC address table information was cleared most recently 226

245 3.17 ax3640sswitch Group (System Model Information MIB)[CB 2000] 3.17 ax3640sswitch Group (System Model Information MIB)[CB 2000] (1) Identifier ax3640smib OBJECT IDETIFIER ::= {axsex 11} ax3640sswitch OBJECT IDETIFIER ::= {ax3640smib 1} Object ID value ax3640ssoftware OBJECT IDETIFIER ::= {ax3640sswitch 2} Object ID value ax3640ssystemmsg OBJECT IDETIFIER ::= {ax3640sswitch 3} Object ID value ax3640ssnmpgent OBJECT IDETIFIER ::= {ax3640sswitch 4} Object ID value ax3640slicense OBJECT IDETIFIER ::= {ax3640sswitch 6} Object ID value (2) Implementation specifications The table below shows the implementation specifications of ax3640sswitch group. Table 3-67: Implementation Specifications of ax3640sswitch Group o. Object Identifier SYTX cces s Implementation Specifications Imple mente d 1 ax3640smodeltype {ax3640sswitch 1} 2 ax3640ssoftwareame {ax3640ssoftware 1} 3 ax3640ssoftwarebbreviation {ax3640ssoftware 2} 4 ax3640ssoftwareversion {ax3640ssoftware 3} 5 ax3640ssystemmsgtext {ax3640ssystemmsg 1} ITEGER Model information of system (numerical value). GVX-BE2LSW1X1(1050) GVX-BE2LSW2X1(1051) DisplayString The type name of software in operation (maximum 16 characters). DisplayString The abbreviation of software in operation (maximum 16 characters). DisplayString The version of software in operation (maximum 16 characters). DisplayString Latest log information (character string) in operational log. Latest entry information of system message log (maximum 256 characters). For the log format, refer to "Message Log Reference, Format of Operation Log". 6 ax3640ssystemmsgtype {ax3640ssystemmsg 2} OCTET STRIG The type of an event is indicated in one byte. n event was generated (01) n event was restored (02) 7 ax3640ssystemmsgtimestamp {ax3640ssystemmsg 3} DisplayString The generation time (month/day/hour/minute/ second) of an event is indicated using a character string of 14 bytes. Display as "MM/DD hh:mm:ss". MM: Month (01 to 12) DD: Day (01 to 31) hh: Hour (00 to 23) mm: Minute (00 to 59) ss: Second (00 to 59) 1-byte space character is put between DD and hh. 227

246 3.17 ax3640sswitch Group (System Model Information MIB)[CB 2000] o. Object Identifier SYTX cces s Implementation Specifications Imple mente d 8 ax3640ssystemmsglevel {ax3640ssystemmsg 4} OCTET STRIG The level of the latest system message log is indicated in one byte. Fatal failure (9) Critical failure (8) Software failure (7) etwork system failure (4) Warning (3) Reserved (2) Reserved (1) 9 ax3640ssystemmsgeventpoint {ax3640ssystemmsg 5} 10 ax3640ssystemmsgeventinterfacei D {ax3640ssystemmsg 6} DisplayString The code in the part where the failure of a system message occurs is indicated using a character string not exceeding eight bytes. For details of location of event occurrence, see "Message Log Reference,1,2,5 (3) Location of event occurrence". DisplayString The interface identifier of a system message is indicated using a character string (maximum 40 characters). For details of identifier, see "Message Log Reference, (4) Identifier of event-occurring interface". 11 ax3640ssystemmsgeventcode {ax3640ssystemmsg 7} OCTET STRIG The message identifier code of a system message is indicated in 4 bytes (0x to 0xFFFFFFFF). For details of code, refer to "Message Log Reference, (5) Message identifier and additional information". 12 ax3640ssystemmsgdditionalcode {ax3640ssystemmsg 8} OCTET STRIG The additional information of a system message is indicated in 6 bytes (0x to 0xFFFFFFFFFFFF). The contents of a code is not opened to the public because the code is used for maintenance. 13 ax3640ssnmpsendreceivesize {ax3640ssnmpgent 1} 14 ax3640ssnmpreceivedelay {ax3640ssnmpgent 2} 15 ax3640ssnmpcontinuoussend {ax3640ssnmpgent 3} 16 ax3640ssnmpobjectmaxumber {ax3640ssnmpgent 4} ITEGER Size of SMP packet which agent can transmit and receive (unit: byte). ITEGER Recommended receive delay interval of SMP packet (unit: millisecond). ITEGER Recommended number of continuously transmitted SMP packets. ITEGER umber of objects for each recommended 1SMP packet. 17 ax3640slicenseumber {ax3640slicense 1} ITEGER umber of set license serial numbers. 18 ax3640slicensetable {ax3640slicense 2} OT-CCES SIBLE Table of license information. 19 ax3640slicenseentry {ax3640slicensetable 1} OT-CCES SIBLE Entry of license information. IDEX { ax3640slicenseindex } 20 ax3640slicenseindex {ax3640slicenseentry 1} ITEGER Unique index number assigned for each serial number. umber of 1 to ax3640slicenseumber. 21 ax3640slicenseserialumber {ax3640slicenseentry 2} DisplayString Serial number. 22 ax3640slicenseoptionumber {ax3640slicenseentry 3} ITEGER umber of the option licenses related to serial number. 228

247 3.17 ax3640sswitch Group (System Model Information MIB)[CB 2000] o. Object Identifier SYTX cces s Implementation Specifications Imple mente d 23 ax3640slicenseoptiontable {ax3640slicense 3} OT-CCES SIBLE Table of the option license information related to serial number. 24 ax3640slicenseoptionentry {ax3640slicenseoptiontable 1} OT-CCES SIBLE Entry of the option license information related to serial number. IDEX { ax3640slicenseoptionindex, ax3640slicenseoptionumberindex } 25 ax3640slicenseoptionindex {ax3640slicenseoptionentry 1} 26 ax3640slicenseoptionumberindex {ax3640slicenseoptionentry 2} 27 ax3640slicenseoptionsoftwaream e {ax3640slicenseoptionentry 3} 28 ax3640slicenseoptionsoftwarebbr eviation {ax3640slicenseoptionentry 4} ITEGER Unique index number assigned for each serial number. Same number as ax3640slicenseindex. ITEGER Index number of the option license information related to serial number. umber of 1 to ax3640slicenseoptionumber. DisplayString Software name of the option license information related to serial number. DisplayString Software abbreviation of the option license information related to serial number. 229

248 3.18 ax3640sdevice Group (System Chassis Information MIB)[CB 2000] 3.18 ax3640sdevice Group (System Chassis Information MIB)[CB 2000] Implementation Specifications (ax3640s Chassis Information) of Group (1) Identifier ax3640sdevice OBJECT IDETIFIER ::= {ax3640smib 2} ax3640schassis OBJECT IDETIFIER ::= {ax3640sdevice 1} ax3640schassismaxumber OBJECT IDETIFIER ::= {ax3640schassis 1} Object ID value ax3640schassistable OBJECT IDETIFIER ::= {ax3640schassis 2} Object ID value (2) Implementation specifications The table below shows the implementation specifications (chassis information) of ax3640schassis group. Table 3-68: Implementation Specifications of ax3640schassis Group (Chassis Information) o. Object Identifier SYTX cces s Implementation Specifications Imple mente d 1 ax3640schassismaxumber {ax3640schassis 1} ITEGER Maximum number of cluster chassis that can be connected to this system. For Compute Blade 2000 GVX-BE2LSW1X1 0 fixed. For Compute Blade 2000 GVX-BE2LSW2X1 0 fixed. 2 ax3640schassistable {ax3640schassis 2} OT-CCES SIBLE Table of chassis information. 3 ax3640schassisentry {ax3640schassistable 1} OT-CCES SIBLE Information entry on specific chassis. IDEX { ax3640schassisindex } 4 ax3640schassisindex {ax3640schassisentry 1} OT-CCES SIBLE umber identifying ax3640schassisentry. Fixed to 1. 5 ax3640schassistype {ax3640schassisentry 2} 6 ax3640schassisstatus {ax3640schassisentry 3} 7 ax3640sstsledstatus {ax3640schassisentry 4} 8 ax3640scpuame {ax3640schassisentry 5} 9 ax3640scpuclock {ax3640schassisentry 6} ITEGER Type of chassis. GVX-BE2LSW1X1(1050) GVX-BE2LSW2X1(1051) ITEGER The current status of chassis. Operation (2) fixed. ITEGER STS LED state of the system. Blinks in green (1) Lights in green (2) Blinks in red (3) Lights in red (4) Goes off (6) DisplayString CPU name (maximum 16 characters). Example: "MD K5" ITEGER CPU clock (unit: MHz). Example:

249 3.18 ax3640sdevice Group (System Chassis Information MIB)[CB 2000] o. Object Identifier SYTX cces s Implementation Specifications Imple mente d 10 ax3640smemorytotalsize {ax3640schassisentry 7} 11 ax3640smemoryusedsize {ax3640schassisentry 8} ITEGER Installed memory size (unit: kb). ITEGER Used memory size (unit: kb). 12 ax3640smemoryfreesize {ax3640schassisentry 9} 13 ax3640sromversion {ax3640schassisentry 10} ITEGER The size of the memory not used is indicated using a numeric value (unit: kb). DisplayString Version of installed ROM (character string). Example: "ROM Rev0 BIOS Rev.:R1.02.E4" 14 ax3640scpuload1m {ax3640schassisentry 11} ITEGER One-minute CPU usage (0 to 100). 15 ax3640sflashtotalsize {ax3640schassisentry 12} 16 ax3640sflashusedsize {ax3640schassisentry 13} 17 ax3640sflashfreesize {ax3640schassisentry 14} 18 ax3640ssdcardstatus {ax3640schassisentry 15} 19 ax3640ssdcardtotalsize {ax3640schassisentry 16} 20 ax3640ssdcardusedsize {ax3640schassisentry 17} 21 ax3640ssdcardfreesize {ax3640schassisentry 18} 22 ax3640sphyslineumber {ax3640schassisentry 19} 23 ax3640stemperaturestatusumber {ax3640schassisentry 20} 24 ax3640spowerunitumber {ax3640schassisentry 21} 25 ax3640sredundantpsumber {ax3640schassisentry 22} 26 ax3640sfanumber {ax3640schassisentry 23} 27 ax3640stotalccumruntime {ax3640schassisentry 24} ITEGER The total of the file system volume in use and the unused volume on the built-in flash memory (unit: kb). ITEGER File system volume in use on the built-in flash memory (unit: kb). ITEGER File system volume not in use on the built-in flash memory (unit: kb). ITEGER MC connection status. Connected (2) ot connected (32) ITEGER Total capacity of MC (unit: kb) Returns -1 when the MC is not connected. ITEGER Used capacity of MC (unit: kb) Returns -1 when the MC is not connected. ITEGER Remaining capacity of MC (unit: kb) Returns -1 when the MC is not connected. ITEGER umber of ports that can be connected to this chassis ITEGER umber of largest temperature monitoring parts on this chassis ITEGER umber of power supplies that can be installed in this chassis. For Compute Blade 2000 GVX-BE2LSW1X1 0 fixed. For Compute Blade 2000 GVX-BE2LSW2X1 0 fixed. ITEGER umber of external power units that can be installed in this chassis. For Compute Blade 2000 GVX-BE2LSW1X1 0 fixed. For Compute Blade 2000 GVX-BE2LSW2X1 0 fixed. ITEGER umber of main fans in this chassis. For Compute Blade 2000 GVX-BE2LSW1X1 0 fixed. For Compute Blade 2000 GVX-BE2LSW2X1 0 fixed. ITEGER Cumulative running time after system operation is started. 231

250 3.18 ax3640sdevice Group (System Chassis Information MIB)[CB 2000] o. Object Identifier SYTX cces s Implementation Specifications Imple mente d 28 ax3640scriticalccumruntime {ax3640schassisentry 25} 29 ax3640smoduleslotumber {ax3640schassisentry 26} 30 ax3640smgmtportstatus {ax3640schassis Entry 27} ITEGER Running time in the environment at 40ºC or above. ITEGER umber of internal redundancy power modules that can be installed in this chassis. For Compute Blade 2000 GVX-BE2LSW1X1 0 fixed. For Compute Blade 2000 GVX-BE2LSW2X1 0 fixed. ITEGER The state of the management port is shown. other(1) operating. (2) Trouble(4) State of disable(6) maintaining(7) Unused(10) It responds by -1 when the state of the management port is an uncertainty Implementation Specifications (Temperature Information) of ax3640schassis Group (1) Identifier ax3640schassis OBJECT IDETIFIER ::= {ax3640sdevice 1} ax3640stemperaturestatustable OBJECT IDETIFIER ::= {ax3640schassis 3} Object ID value (2) Implementation specifications The table below shows the implementation specifications (temperature information) of ax3640schassis group. Table 3-69: Implementation Specifications of ax3640schassis Group (Temperature Information) o. Object Identifier SYTX cces s Implementation Specifications Imple mente d 1 ax3640stemperaturestatustable {ax3640schassis 3} OT-CCES SIBLE Temperature state table 2 ax3640stemperaturestatusentry {ax3640stemperaturestatustable 1} OT-CCES SIBLE Temperature state entry IDEX { ax3640schassisindex, ax3640stemperaturestatusindex } 3 ax3640stemperaturestatusindex {ax3640stemperaturestatusentry 1} OT-CCES SIBLE Unique index number assigned for each temperature monitoring part 4 ax3640stemperaturestatusdescr {ax3640stemperaturestatusentry 2} 5 ax3640stemperaturestatusvalue {ax3640stemperaturestatusentry 3} DisplayString Description of this temperature monitoring part "Main board Temperature": Board temperature Integer32 The current temperature of the temperature monitoring part 232

251 3.18 ax3640sdevice Group (System Chassis Information MIB)[CB 2000] o. Object Identifier SYTX cces s Implementation Specifications Imple mente d 6 ax3640stemperaturethreshold {ax3640stemperaturestatusentry 4} 7 ax3640stemperaturestate {ax3640stemperaturestatusentry 5} Integer32 Temperature of this temperature monitoring part where a system is put into the stop state. ITEGER The current temperature state of this temperature monitoring part ormal (1) Caution (2) bnormal (4) Implementation Specifications (Power Unit Information) of ax3640schassis Group (1) Identifier ax3640schassis OBJECT IDETIFIER ::= {ax3640sdevice 1} ax3640spowerunittable OBJECT IDETIFIER ::= {ax3640schassis 4} Object ID value (2) Implementation specifications The table below shows the implementation specifications (power unit information) of ax3640schassis group. Table 3-70: Implementation Specifications of ax3640schassis Group (Power Unit Information) o. Object Identifier SYTX cces s Implementation Specifications Imple mente d 1 ax3640spowerunittable {ax3640schassis 4} OT-CCES SIBLE Table of power information. 2 ax3640spowerunitentry {ax3640spowerunittable 1} OT-CCES SIBLE Entry of power information. IDEX { ax3640schassisindex, ax3640spowerunitindex } 3 ax3640spowerunitindex {ax3640spowerunitentry 1} OT-CCES SIBLE Index indicating the power position. Value of 1 to ax3640spowerunitumber. X3640S: Up to 2 4 ax3640spowerconnectstatus {ax3640spowerunitentry 2} 5 ax3640spowersupplystatus {ax3640spowerunitentry 3} ITEGER Installation status of the power supply. Installed (2) ot installed (32) ITEGER ctive state of power supply. In operation (2) In failure (4) Returns -1 when power is not installed Implementation Specifications (Fan Information) of ax3640schassis Group (1) Identifier ax3640schassis OBJECT IDETIFIER ::= {ax3640sdevice 1} ax3640sfantable OBJECT IDETIFIER ::= {ax3640schassis 5} Object ID value

252 3.18 ax3640sdevice Group (System Chassis Information MIB)[CB 2000] (2) Implementation specifications The table below shows the implementation specifications (fan information) of ax3640schassis group. Table 3-71: Implementation Specifications of ax3640schassis Group (Fan Information) o. Object Identifier SYTX cces s Implementation Specifications Imple mente d 1 ax3640sfantable {ax3640schassis 5} OT-CCES SIBLE Table of fan information. 2 ax3640sfanentry {ax3640sfantable 1} OT-CCES SIBLE Entry of fan information. IDEX { ax3640schassisindex, ax3640sfanindex } 3 ax3640sfanindex {ax3640sfanentry 1} OT-CCES SIBLE Index indicating the main fan position. Value of 1 to ax3640spowerunitumber. For X3640S: 1 to 4 4 ax3640sfanstatus {ax3640sfanentry 2} ITEGER ctive state of main fan. In operation (2) During high-speed rotation (3) In failure (4) Implementation Specifications (External Power Unit Information) of ax3640schassis Group (1) Identifier ax3640schassis OBJECT IDETIFIER ::= {ax3640sdevice 1} ax3640sredundantpstable OBJECT IDETIFIER ::= {ax3640schassis 6} Object ID value (2) Implementation specifications The table below shows the implementation specifications (external power unit information) of ax3640schassis group. Table 3-72: Implementation Specifications of ax3640schassis Group (External Power Unit Information) o. Object Identifier SYTX cces s Implementation Specifications Imple mente d 1 ax3640sredundantpstable {ax3640schassis 6} OT-CCES SIBLE Table of external power unit information. 2 ax3640sredundantpsentry {ax3640sredundantpstable 1} OT-CCES SIBLE Entry of external power unit information. IDEX { ax3640schassisindex, ax3640sredundantpsindex } 3 ax3640sredundantpsindex {ax3640sredundantpsentry 1} OT-CCES SIBLE Index indicating the external power supply position. Value of 1 to ax3640sredundantpsumber. For X3640S: 1 234

253 3.18 ax3640sdevice Group (System Chassis Information MIB)[CB 2000] o. Object Identifier SYTX cces s Implementation Specifications Imple mente d 4 ax3640sredundantpsconnectstatus {ax3640sredundantpsentry 2} 5 ax3640sredundantpsstatus {ax3640sredundantpsentry 3} ITEGER Installation status of the external power supply. Installed (2) ot installed (32) ITEGER ctive state of external power supply. In operation (2) In failure (4) Returns -1 when the external power unit is not installed Implementation Specifications (Built-in Power Supply Redundancy Module Information) of ax3640schassis Group (1) Identifier ax3640schassis OBJECT IDETIFIER ::= {ax3640sdevice 1} ax3640smoduleslottable OBJECT IDETIFIER ::= {ax3640schassis 7} Object ID value (2) Implementation specifications The table below shows the implementation specifications (built-in power supply redundancy module information) of ax3640schassis group. Table 3-73: Implementation Specifications of ax3640schassis Group (Built-in Power Supply Redundancy Module Information) o. Object Identifier SYTX cces s Implementation Specifications Imple mente d 1 ax3640smoduleslottable {ax3640schassis 7} OT-CCES SIBLE Table of built-in power supply redundancy module information Information of the power supply or fan installed on this module slot is acquired using ax3640spowerunittable or ax3640sfantable. The relationship between the index of each table and installed position is shown below. ax3640spowerunittable (ax3640spowerunitindex) 1: Rear-right power module unit 2: Rear-left power module unit ax3640sfantable (ax3640sfanindex) 1: Rear-right fan module unit right side 2: Rear-right fan module unit left side 3: Rear-left fan module unit right side 4: Rear-left fan module unit left side 2 ax3640smoduleslotentry {ax3640smoduleslottable 1} OT-CCES SIBLE Entry of built-in power supply redundancy module information IDEX { ax3640schassisindex, ax3640smoduleslotindex } 3 ax3640smoduleslotindex {ax3640smoduleslotentry 1} OT-CCES SIBLE Index indicating the position. Value of 1 to ax3640smoduleslotumber 235

254 3.18 ax3640sdevice Group (System Chassis Information MIB)[CB 2000] o. Object Identifier SYTX cces s Implementation Specifications Imple mente d 4 ax3640smoduleslotstatus {ax3640smoduleslotentry 2} 5 ax3640smoduleslottype {ax3640smoduleslotentry 3} ITEGER Installation status of built-in powersupply redundancy module. Installed (2) In failure (4) ot installed (32) ITEGER Type of built-in power supply redundancy module Power module C power supply (1) Power module DC power supply (2) Fan module (3) Returns -1 when the external power unit is not installed Implementation Specifications (Interface Information) of ax3640sphysline Group (1) Identifier ax3640sphysline OBJECT IDETIFIER ::= {ax3640sdevice 5} ax3640sphyslinetable OBJECT IDETIFIER ::= {ax3640sphysline 1} Object ID value (2) Implementation specifications The table below shows the implementation specifications (interface information) of ax3640sphysline group. Table 3-74: Implementation Specifications of ax3640sphysline Group (Interface Information) o. Object Identifier SYTX cces s Implementation Specifications Imple mente d 1 ax3640sphyslinetable {ax3640sphysline 1} OT-CCES SIBLE Table of interface information 2 ax3640sphyslineentry {ax3640sphyslinetable 1} OT-CCES SIBLE Information entry on interface IDEX { ax3640schassisindex, ax3640sphyslineindex } 3 ax3640sphyslineindex {ax3640sphyslineentry 1} OT-CCES SIBLE Information on a port number. Value of 1 to ax3640sphysiflineumber 236

255 3.18 ax3640sdevice Group (System Chassis Information MIB)[CB 2000] o. Object Identifier SYTX cces s Implementation Specifications Imple mente d 4 ax3640sphyslineconnectortype {ax3640sphyslineentry 2} 5 ax3640sphyslineoperstatus {ax3640sphyslineentry 3} ITEGER Interface type for the transceiver which can be replaced. other (1) type1000bse-lx (301) type1000bse-sx (302) type1000bse-lh (303) type1000bse-bx10-d (304) type1000bse-bx10-u (305) type1000bse-bx40-d (306) type1000bse-bx40-u (307) type1000bse-sx2(308) type10gbse-sr (401) type10gbse-lr (402) type10gbse-er (403) other (1) is returned for the following: The interface status is other, "initializing", or "in failure". The type and implementation status of a transceiver which can be replaced is other than "implemented". ITEGER State of interface. other (1) In operation (2) During initialization (3) In failure (4) Operation stopped by configuration (6) During maintenance (7) In operation (during line failure occurrence) (8) During line test (9) Unused (configuration not set) (10) 6 ax3640sphyslineifindexumber {ax3640sphyslineentry 4} ITEGER umber of ifindexes contained in the interface. 7 ax3640sphyslinetransceiverstatus {ax3640sphyslineentry 5} ITEGER The type and implementation status of a transceiver which can be replaced. "other" is returned when the interface status is "initializing", or "in failure". "other" or the transceiver not replaceable (1) SFP installed (20) SFP not installed (21) Unsupported SFP installed (22) SFP installation unknown (23) XFP installed (30) XFP not installed (31) Unsupported XFP installed (32) XFP installation unknown (33) 237

256 3.19 ax3640smanagementmib Group (Changing System Status/Information)[CB 2000] 3.19 ax3640smanagementmib Group (Changing System Status/Information)[CB 2000] ax3640sfdbclearmib Group (MC ddress Table Clear MIB) (1) Identifier ax3640smib OBJECT IDETIFIER ::= {axsex 11} Object ID value ax3640smanagementmib OBJECT IDETIFIER ::= {ax3640smib 3} Object ID value ax3640soperationcommand OBJECT IDETIFIER ::= {ax3640smanagementmib 1} Object ID value (2) Implementation specifications The table below shows the implementation specifications of ax3640sfdbclearmib group. Table 3-75: Implementation Specifications of ax3640smanagementmib Group o. Object Identifier SYTX cces s Implementation Specifications Imple mente d 1 ax3640sfdbclearmib {ax3640soperationcommand 1} OT-CCES SIBLE MIB group for clearing MC address table information. 2 ax3640sfdbclearset {ax3640sfdbclearmib 1} 3 ax3640sfdbclearreqtime {ax3640sfdbclearmib 2} 4 ax3640sfdbclearsuccesstime {ax3640sfdbclearmib 3} ITEGER R/W MC address table clear information Initial value (0) clear processing (1) clear failure (2) clear success (3) For Set, set to 1. TimeTicks Time (sysuptime) when the clear request of MC address table information was accepted most recently TimeTicks Time (sysuptime) when MC address table information was cleared most recently 238

257 3.20 ax3650sswitch Group (System Model Information MIB)[CB 2000][OS-L3S] 3.20 ax3650sswitch Group (System Model Information MIB)[CB 2000][OS-L3S] (1) Identifier ax3650smib OBJECT IDETIFIER ::= {axsex 15} ax3650sswitch OBJECT IDETIFIERsMib 1} Object ID value ax3650ssoftware OBJECT IDETIFIER ::= {ax3650sswitch 2} Object ID value ax3650ssystemmsg OBJECT IDETIFIER ::= {ax3650sswitch 3} Object ID value ax3650ssnmpgent OBJECT IDETIFIER ::= {ax3650sswitch 4} Object ID value ax3650slicense OBJECT IDETIFIER ::= {ax3650sswitch 6} Object ID value (2) Implementation specifications The table below shows the implementation specifications of ax3650sswitch group. Table 3-76: Implementation Specifications of ax3650sswitch Group o. Object Identifier SYTX cces s Implementation Specifications Imple mente d 1 ax3650smodeltype {ax3650sswitch 1} 2 ax3650ssoftwareame {ax3650ssoftware 1} 3 ax3650ssoftwarebbreviation {ax3650ssoftware 2} 4 ax3650ssoftwareversion {ax3650ssoftware 3} 5 ax3650ssystemmsgtext {ax3650ssystemmsg 1} ITEGER Model information of system (numerical value). GGX-BE3LSW4X1(1152) DisplayString The type name of software in operation (maximum 16 characters). DisplayString The abbreviation of software in operation (maximum 16 characters). DisplayString The version of software in operation (maximum 16 characters). DisplayString Latest log information (character string) in operational log. Latest entry information of system message log (maximum 256 characters). For the log format, refer to "Message Log Reference, Format of Operation Log". 6 ax3650ssystemmsgtype {ax3650ssystemmsg 2} OCTET STRIG The type of an event is indicated in one byte. n event was generated (01) n event was restored (02) 7 ax3650ssystemmsgtimestamp {ax3650ssystemmsg 3} DisplayString The generation time (month/day/hour/minute/ second) of an event is indicated using a character string of 14 bytes. Display as "MM/DD hh:mm:ss". MM: Month (01 to 12) DD: Day (01 to 31) hh: Hour (00 to 23) mm: Minute (00 to 59) ss: Second (00 to 59) 1-byte space character is put between DD and hh. 239

258 3.20 ax3650sswitch Group (System Model Information MIB)[CB 2000][OS-L3S] o. Object Identifier SYTX cces s Implementation Specifications Imple mente d 8 ax3650ssystemmsglevel {ax3650ssystemmsg 4} OCTET STRIG The level of the latest system message log is indicated in one byte. Fatal failure (9) Critical failure (8) Software failure (7) etwork system failure (4) Warning (3) Reserved (2) Reserved (1) 9 ax3650ssystemmsgeventpoint {ax3650ssystemmsg 5} 10 ax3650ssystemmsgeventinterfacei D {ax3650ssystemmsg 6} DisplayString The code in the part where the failure of a system message occurs is indicated using a character string not exceeding eight bytes. For details of location of event occurrence, see "Message Log Reference,1,2,5 (3) Location of event occurrence". DisplayString The interface identifier of a system message is indicated using a character string (maximum 40 characters). For details of identifier, see "Message Log Reference, (4) Identifier of event-occurring interface". 11 ax3650ssystemmsgeventcode {ax3650ssystemmsg 7} OCTET STRIG The message identifier code of a system message is indicated in 4 bytes (0x to 0xFFFFFFFF). For details of code, refer to "Message Log Reference, (5) Message identifier and additional information". 12 ax3650ssystemmsgdditionalcode {ax3650ssystemmsg 8} OCTET STRIG The additional information of a system message is indicated in 6 bytes (0x to 0xFFFFFFFFFFFF). The contents of a code is not opened to the public because the code is used for maintenance. 13 ax3650ssnmpsendreceivesize {ax3650ssnmpgent 1} 14 ax3650ssnmpreceivedelay {ax3650ssnmpgent 2} 15 ax3650ssnmpcontinuoussend {ax3650ssnmpgent 3} 16 ax3650ssnmpobjectmaxumber {ax3650ssnmpgent 4} ITEGER Size of SMP packet which agent can transmit and receive (unit: byte). ITEGER Recommended receive delay interval of SMP packet (unit: millisecond). ITEGER Recommended number of continuously transmitted SMP packets. ITEGER umber of objects for each recommended 1SMP packet. 17 ax3650slicenseumber {ax3650slicense 1} ITEGER umber of set license serial numbers. 18 ax3650slicensetable {ax3650slicense 2} OT-CCES SIBLE Table of license information. 19 ax3650slicenseentry {ax3650slicensetable 1} OT-CCES SIBLE Entry of license information. IDEX { ax3650slicenseindex } 20 ax3650slicenseindex {ax3650slicenseentry 1} ITEGER Unique index number assigned for each serial number. umber of 1 to ax3650slicenseumber. 21 ax3650slicenseserialumber {ax3650slicenseentry 2} DisplayString Serial number. 22 ax3650slicenseoptionumber {ax3650slicenseentry 3} ITEGER umber of the option licenses related to serial number. 240

259 3.20 ax3650sswitch Group (System Model Information MIB)[CB 2000][OS-L3S] o. Object Identifier SYTX cces s Implementation Specifications Imple mente d 23 ax3650slicenseoptiontable {ax3650slicense 3} OT-CCES SIBLE Table of the option license information related to serial number. 24 ax3650slicenseoptionentry {ax3650slicenseoptiontable 1} OT-CCES SIBLE Entry of the option license information related to serial number. IDEX { ax3650slicenseoptionindex, ax3650slicenseoptionumberindex } 25 ax3650slicenseoptionindex {ax3650slicenseoptionentry 1} 26 ax3650slicenseoptionumberindex {ax3650slicenseoptionentry 2} 27 ax3650slicenseoptionsoftwaream e {ax3650slicenseoptionentry 3} 28 ax3650slicenseoptionsoftwarebbr eviation {ax3650slicenseoptionentry 4} ITEGER Unique index number assigned for each serial number. Same number as ax3650slicenseindex. ITEGER Index number of the option license information related to serial number. umber of 1 to ax3650slicenseoptionumber. DisplayString Software name of the option license information related to serial number. DisplayString Software abbreviation of the option license information related to serial number. 241

260 3.21 ax3650sdevice Group (System Chassis Information MIB)[CB 2000][OS-L3S] 3.21 ax3650sdevice Group (System Chassis Information MIB)[CB 2000][OS-L3S] Implementation Specifications (ax3650s Chassis Information) of Group (1) Identifier ax3650sdevice OBJECT IDETIFIER ::= {ax3650smib 2} ax3650schassis OBJECT IDETIFIER ::= {ax3650sdevice 1} ax3650schassismaxumber OBJECT IDETIFIER ::= {ax3650schassis 1} Object ID value ax3650schassistable OBJECT IDETIFIER ::= {ax3650schassis 2} Object ID value (2) Implementation specifications The table below shows the implementation specifications (chassis information) of ax3650schassis group. Table 3-77: Implementation Specifications of ax3650schassis Group (Chassis Information) o. Object Identifier SYTX cces s Implementation Specifications Imple mente d 1 ax3650schassismaxumber {ax3650schassis 1} ITEGER Maximum number of cluster chassis that can be connected to this system. For Compute Blade 500 GGX-BE3LSW4X1 0 fixed. 2 ax3650schassistable {ax3650schassis 2} OT-CCES SIBLE Table of chassis information. 3 ax3650schassisentry {ax3650schassistable 1} OT-CCES SIBLE Information entry on specific chassis. IDEX { ax3650schassisindex } 4 ax3650schassisindex {ax3650schassisentry 1} OT-CCES SIBLE umber identifying ax3650schassisentry. Fixed to 1. 5 ax3650schassistype {ax3650schassisentry 2} 6 ax3650schassisstatus {ax3650schassisentry 3} 7 ax3650sstsledstatus {ax3650schassisentry 4} 8 ax3650scpuame {ax3650schassisentry 5} 9 ax3650scpuclock {ax3650schassisentry 6} ITEGER Type of chassis. GVX-BE2LSW1X1(1050) GVX-BE2LSW2X1(1051) ITEGER The current status of chassis. Operation (2) fixed. ITEGER STS LED state of the system. Blinks in green (1) Lights in green (2) Blinks in red (3) Lights in red (4) Goes off (6) DisplayString CPU name (maximum 16 characters). Example: "MD K5" ITEGER CPU clock (unit: MHz). Example: ax3650smemorytotalsize {ax3650schassisentry 7} ITEGER Installed memory size (unit: kb). 242

261 3.21 ax3650sdevice Group (System Chassis Information MIB)[CB 2000][OS-L3S] o. Object Identifier SYTX cces s Implementation Specifications Imple mente d 11 ax3650smemoryusedsize {ax3650schassisentry 8} ITEGER Used memory size (unit: kb). 12 ax3650smemoryfreesize {ax3650schassisentry 9} 13 ax3650sromversion {ax3650schassisentry 10} ITEGER The size of the memory not used is indicated using a numeric value (unit: kb). DisplayString Version of installed ROM (character string). Example: "ROM Rev0 BIOS Rev.:R1.02.E4" 14 ax3650scpuload1m {ax3650schassisentry 11} ITEGER One-minute CPU usage (0 to 100). 15 ax3650sflashtotalsize {ax3650schassisentry 12} 16 ax3650sflashusedsize {ax3650schassisentry 13} 17 ax3650sflashfreesize {ax3650schassisentry 14} 18 ax3650ssdcardstatus {ax3650schassisentry 15} 19 ax3650ssdcardtotalsize {ax3650schassisentry 16} 20 ax3650ssdcardusedsize {ax3650schassisentry 17} 21 ax3650ssdcardfreesize {ax3650schassisentry 18} 22 ax3650sphyslineumber {ax3650schassisentry 19} 23 ax3650stemperaturestatusumber {ax3650schassisentry 20} 24 ax3650spowerunitumber {ax3650schassisentry 21} 25 ax3650sredundantpsumber {ax3650schassisentry 22} 26 ax3650sfanumber {ax3650schassisentry 23} 27 ax3650stotalccumruntime {ax3650schassisentry 24} ITEGER The total of the file system volume in use and the unused volume on the built-in flash memory (unit: kb). ITEGER File system volume in use on the built-in flash memory (unit: kb). ITEGER File system volume not in use on the built-in flash memory (unit: kb). ITEGER MC connection status. Connected (2) ot connected (32) ITEGER Total capacity of MC (unit: kb) Returns -1 when the MC is not connected. ITEGER Used capacity of MC (unit: kb) Returns -1 when the MC is not connected. ITEGER Remaining capacity of MC (unit: kb) Returns -1 when the MC is not connected. ITEGER umber of ports that can be connected to this chassis ITEGER umber of largest temperature monitoring parts on this chassis ITEGER umber of power supplies that can be installed in this chassis. For Compute Blade 2000 GVX-BE2LSW1X1 0 fixed. For Compute Blade 2000 GVX-BE2LSW2X1 0 fixed. ITEGER umber of external power units that can be installed in this chassis. For Compute Blade 2000 GVX-BE2LSW1X1 0 fixed. For Compute Blade 2000 GVX-BE2LSW2X1 0 fixed. ITEGER umber of main fans in this chassis. For Compute Blade 2000 GVX-BE2LSW1X1 0 fixed. For Compute Blade 2000 GVX-BE2LSW2X1 0 fixed. ITEGER Cumulative running time after system operation is started. 243

262 3.21 ax3650sdevice Group (System Chassis Information MIB)[CB 2000][OS-L3S] o. Object Identifier SYTX cces s Implementation Specifications Imple mente d 28 ax3650scriticalccumruntime {ax3650schassisentry 25} 29 ax3650smoduleslotumber {ax3650schassisentry 26} ITEGER Running time in the environment at 40ºC or above. ITEGER umber of internal redundancy power modules that can be installed in this chassis. For Compute Blade 2000 GVX-BE2LSW1X1 0 fixed. For Compute Blade 2000 GVX-BE2LSW2X1 0 fixed Implementation Specifications (Temperature Information) of ax3650schassis Group (1) Identifier ax3650schassis OBJECT IDETIFIER ::= {ax3650sdevice 1} ax3650stemperaturestatustable OBJECT IDETIFIER ::= {ax3650schassis 3} Object ID value (2) Implementation specifications The table below shows the implementation specifications (temperature information) of ax3650schassis group. Table 3-78: Implementation Specifications of ax3650schassis Group (Temperature Information) o. Object Identifier SYTX cces s Implementation Specifications Imple mente d 1 ax3650stemperaturestatustable {ax3650schassis 3} OT-CCES SIBLE Temperature state table 2 ax3650stemperaturestatusentry {ax3650stemperaturestatustable 1} OT-CCES SIBLE Temperature state entry IDEX { ax3650schassisindex, ax3650stemperaturestatusindex } 3 ax3650stemperaturestatusindex {ax3650stemperaturestatusentry 1} OT-CCES SIBLE Unique index number assigned for each temperature monitoring part 4 ax3650stemperaturestatusdescr {ax3650stemperaturestatusentry 2} 5 ax3650stemperaturestatusvalue {ax3650stemperaturestatusentry 3} 6 ax3650stemperaturethreshold {ax3650stemperaturestatusentry 4} 7 ax3650stemperaturestate {ax3650stemperaturestatusentry 5} DisplayString Description of this temperature monitoring part "Main board Temperature": Board temperature Integer32 The current temperature of the temperature monitoring part Integer32 Temperature of this temperature monitoring part where a system is put into the stop state. ITEGER The current temperature state of this temperature monitoring part ormal (1) Caution (2) bnormal (4) 244

263 3.21 ax3650sdevice Group (System Chassis Information MIB)[CB 2000][OS-L3S] Implementation Specifications (Power Unit Information) of ax3650schassis Group (1) Identifier ax3650schassis OBJECT IDETIFIER ::= {ax3650sdevice 1} ax3650spowerunittable OBJECT IDETIFIER ::= {ax3650schassis 4} Object ID value (2) Implementation specifications The table below shows the implementation specifications (power unit information) of ax3650schassis group. Table 3-79: Implementation Specifications of ax3650schassis Group (Power Unit Information) o. Object Identifier SYTX cces s Implementation Specifications Imple mente d 1 ax3650spowerunittable {ax3650schassis 4} OT-CCES SIBLE Table of power information. 2 ax3650spowerunitentry {ax3650spowerunittable 1} OT-CCES SIBLE Entry of power information. IDEX { ax3650schassisindex, ax3650spowerunitindex } 3 ax3650spowerunitindex {ax3650spowerunitentry 1} OT-CCES SIBLE Index indicating the power position. Value of 1 to ax3650spowerunitumber. X3640S: Up to 2 4 ax3650spowerconnectstatus {ax3650spowerunitentry 2} 5 ax3650spowersupplystatus {ax3650spowerunitentry 3} 6 ax3650spowerslottype {ax3650spowerunitentry 4} ITEGER Installation status of the power supply. Installed (2) ot installed (32) ITEGER ctive state of power supply. In operation (2) In failure (4) Returns -1 when power is not installed. ITEGER Type of power supply. C power supply (1) Returns -1 when power supply is not installed Implementation Specifications (Fan Information) of ax3650schassis Group (1) Identifier ax3650schassis OBJECT IDETIFIER ::= {ax3650sdevice 1} ax3650sfantable OBJECT IDETIFIER ::= {ax3650schassis 5} Object ID value (2) Implementation specifications The table below shows the implementation specifications (fan information) of ax3650schassis group. 245

264 3.21 ax3650sdevice Group (System Chassis Information MIB)[CB 2000][OS-L3S] Table 3-80: Implementation Specifications of ax3650schassis Group (Fan Information) o. Object Identifier SYTX cces s Implementation Specifications Imple mente d 1 ax3650sfantable {ax3650schassis 5} OT-CCES SIBLE Table of fan information. 2 ax3650sfanentry {ax3650sfantable 1} OT-CCES SIBLE Entry of fan information. IDEX { ax3650schassisindex, ax3650sfanindex } 3 ax3650sfanindex {ax3650sfanentry 1} OT-CCES SIBLE Index indicating the main fan position. Value of 1 to ax3650spowerunitumber. For X3640S: 1 to 4 4 ax3650sfanstatus {ax3650sfanentry 2} ITEGER ctive state of main fan. In operation (2) During high-speed rotation (3) In failure (4) Implementation Specifications (Built-in Power Supply Redundancy Module Information) of ax3650schassis Group (1) Identifier ax3650schassis OBJECT IDETIFIER ::= {ax3650sdevice 1} ax3650smoduleslottable OBJECT IDETIFIER ::= {ax3650schassis 7} Object ID value (2) Implementation specifications The table below shows the implementation specifications (built-in power supply redundancy module information) of ax3650schassis group. 246

265 3.21 ax3650sdevice Group (System Chassis Information MIB)[CB 2000][OS-L3S] Table 3-81: Implementation Specifications of ax3650schassis Group (Built-in Power Supply Redundancy Module Information) o. Object Identifier SYTX cces s Implementation Specifications Imple mente d 1 ax3650smoduleslottable {ax3650schassis 7} OT-CCES SIBLE Table of built-in power supply redundancy module information Information of the power supply or fan installed on this module slot is acquired using ax3650spowerunittable or ax3650sfantable. The relationship between the index of each table and installed position is shown below. ax3650spowerunittable (ax3650spowerunitindex) 1: Rear-right power module unit 2: Rear-left power module unit ax3650sfantable (ax3650sfanindex) 1: Rear-right fan module unit right side 2: Rear-right fan module unit left side 3: Rear-left fan module unit right side 4: Rear-left fan module unit left side 2 ax3650smoduleslotentry {ax3650smoduleslottable 1} OT-CCES SIBLE Entry of built-in power supply redundancy module information IDEX { ax3650schassisindex, ax3650smoduleslotindex } 3 ax3650smoduleslotindex {ax3650smoduleslotentry 1} OT-CCES SIBLE Index indicating the position. Value of 1 to ax3650smoduleslotumber 4 ax3650smoduleslotstatus {ax3650smoduleslotentry 2} 5 ax3650smoduleslottype {ax3650smoduleslotentry 3} ITEGER Installation status of built-in powersupply redundancy module. Installed (2) In failure (4) ot installed (32) ITEGER Type of built-in power supply redundancy module Power module C power supply (1) Returns -1 when the external power unit is not installed Implementation Specifications (Interface Information) of ax3650sphysline Group (1) Identifier ax3650sphysline OBJECT IDETIFIER ::= {ax3650sdevice 2} ax3650sphyslinetable OBJECT IDETIFIER ::= {ax3650sphysline 1} Object ID value (2) Implementation specifications The table below shows the implementation specifications (interface information) of ax3650sphysline group. 247

266 3.21 ax3650sdevice Group (System Chassis Information MIB)[CB 2000][OS-L3S] Table 3-82: Implementation Specifications of ax3650sphysline Group (Interface Information) o. Object Identifier SYTX cces s Implementation Specifications Imple mente d 1 ax3650sphyslinetable {ax3650sphysline 1} OT-CCES SIBLE Table of interface information 2 ax3650sphyslineentry {ax3650sphyslinetable 1} OT-CCES SIBLE Information entry on interface IDEX { ax3650schassisindex, ax3650sphyslineindex } 3 ax3650sphyslineindex {ax3650sphyslineentry 1} OT-CCES SIBLE Information on a port number. Value of 1 to ax3650sphysiflineumber 4 ax3650sphyslineconnectortype {ax3650sphyslineentry 2} 5 ax3650sphyslineoperstatus {ax3650sphyslineentry 3} ITEGER Interface type for the transceiver which can be replaced. other (1) type100bse-fx (201) type1000bse-lx (301) type1000bse-sx (302) type1000bse-lh (303) type1000bse-bx10-d (304) type1000bse-bx10-u (305) type1000bse-bx40-d (306) type1000bse-bx40-u (307) type1000bse-sx2(308) type1000bse-utp(309) type10gbse-sr (401) type10gbse-lr (402) type10gbse-er (403) type10gbse-cu1m (405) type10gbse-cu2m (406) type10gbse-cu3m (407) other (1) is returned for the following: The interface status is other, "initializing", or "in failure". The type and implementation status of a transceiver which can be replaced is other than "implemented". ITEGER State of interface. other (1) In operation (2) During initialization (3) In failure (4) Operation stopped by configuration (6) During maintenance (7) In operation (during line failure occurrence) (8) During line test (9) Unused (configuration not set) (10) 248

267 3.21 ax3650sdevice Group (System Chassis Information MIB)[CB 2000][OS-L3S] o. Object Identifier SYTX cces s Implementation Specifications Imple mente d 6 ax3650sphyslineifindexumber {ax3650sphyslineentry 4} ITEGER umber of ifindexes contained in the interface. 7 ax3650sphyslinetransceiverstatus {ax3650sphyslineentry 5} ITEGER The type and implementation status of a transceiver which can be replaced. "other" is returned when the interface status is "initializing", or "in failure". "other" or the transceiver not replaceable (1) SFP installed (20) SFP not installed (21) Unsupported SFP installed (22) SFP installation unknown (23) XFP installed (30) XFP not installed (31) Unsupported XFP installed (32) XFP installation unknown (33) 249

268 3.22 ax3650smanagementmib Group (Changing System Status/Information)[CB 2000][OS-L3S] 3.22 ax3650smanagementmib Group (Changing System Status/Information)[CB 2000][OS-L3S] ax3650sfdbclearmib Group (MC ddress Table Clear MIB) (1) Identifier ax3650smib OBJECT IDETIFIER ::= {axsex 15} Object ID value ax3650smanagementmib OBJECT IDETIFIER ::= {ax3650smib 3} Object ID value ax3650soperationcommand OBJECT IDETIFIER ::= {ax3650smanagementmib 1} Object ID value (2) Implementation specifications The table below shows the implementation specifications of ax3650sfdbclearmib group. Table 3-83: Implementation Specifications of ax3650smanagementmib Group o. Object Identifier SYTX cces s Implementation Specifications Imple mente d 1 ax3650sfdbclearmib {ax3650soperationcommand 1} OT-CCES SIBLE MIB group for clearing MC address table information. 2 ax3650sfdbclearset {ax3650sfdbclearmib 1} 3 ax3650sfdbclearreqtime {ax3650sfdbclearmib 2} 4 ax3650sfdbclearsuccesstime {ax3650sfdbclearmib 3} ITEGER R/W MC address table clear information Initial value (0) clear processing (1) clear failure (2) clear success (3) For Set, set to 1. TimeTicks Time (sysuptime) when the clear request of MC address table information was accepted most recently TimeTicks Time (sysuptime) when MC address table information was cleared most recently 250

269 3.23 icmp Group (HP Private MIB) 3.23 icmp Group (HP Private MIB) (1) Identifier hp OBJECT IDETIFIER ::= {enterprises 11} nm OBJECT IDETIFIER ::= {hp 2} icmp OBJECT IDETIFIER ::= {nm 7} Object ID value (2) Implementation specifications The table below shows the implementation specifications of icmp group. Table 3-84: Implementation Specifications of icmp Group o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 icmpechoreq {icmp 1} ITEGER Time required to receive ICMP Echo Reply packet (unit: millisecond). IDEX {PacketSize, TimeOut, IPddress} PacketSize: 32 to 2048 TimeOut: 1 to 60 (in second(s)) IP ddress: IP address to be treated ny one of the following values is returned when an ICMP Echo Reply packet is not received correctly. -1: Internal error -2: Timeout -3: Illegal ICMP Echo Reply value -4: Transmission packet size error -5: Illegal set timeout value 251

270 3.24 sflow Group (InMon Private MIB) 3.24 sflow Group (InMon Private MIB) (1) Identifier InMon OBJECT IDETIFIER ::= {enterprises 4300} sflowmib OBJECT IDETIFIER ::= {InMon 1} sflowgent OBJECT IDETIFIER ::= {sflowmib 1} Object ID value (2) Implementation specifications The table below shows the implementation specifications of sflow group. Table 3-85: Implementation Specifications of sflow Group o. Object Identifier SYTX ccess Implementation Specifications Implemented 1 sflowversion {sflowgent 1} Snmpdmin String [Standard] The character string of sflow version. "Indicated in the format of "<MIB Version>;<Organization>;<Software Revision>". However, fixed to "1.2;;". 2 sflowgentddresstype {sflowgent 2} InetddressT ype [Standard] IP address type of an agent that collects statistics information. ipv4 (1) ipv6 (2) *1 3 sflowgentddress {sflowgent 3} Inetddress [Standard] IP address (IPv4 and IPv6) of an agent that collects statistics information. *1*2 4 sflowtable {sflowgent 4} OT-CCE SSIBLE [Standard] Table storing information on sflow datagram. 5 sflowentry {sflowtable 1} OT-CCE SSIBLE [Standard] Information list of sflow datagram. IDEX { sflowdatasource } 6 sflowdatasource {sflowentry 1} OBJECT IDETIFIER [Standard] Information source of sflow datagram. Upper one byte: Type of the information source 0 = ifindex 1 = smonvlandatasource Lower three bytes: Index value 7 sflowowner {sflowentry 2} 8 sflowtimeout {sflowentry 3} 9 sflowpacketsamplingrate {sflowentry 4} OwnerString [Standard] Owner that utilizes sflow sampler. However, fixed to " ". Integer32 [Standard] Time until the sampler stops after it has been released (unit: second). However, fixed to 0. Integer32 [Standard] Sampling interval of sflow datagram. *1 252

271 3.24 sflow Group (InMon Private MIB) o. Object Identifier SYTX ccess Implementation Specifications Implemented 10 sflowcountersamplinginterval {sflowentry 5} 11 sflowmaximumheadersize {sflowentry 6} 12 sflowmaximumdatagramsize {sflowentry 7} Integer32 [Standard] Transmission interval of a counter sample to the collector. Integer32 [Standard] Maximum number of bytes copied from the top of a sample packet. Integer32 [Standard] umber of the maximum data bytes that can be sent as sample datagram. *1 *1 *1 13 sflowcollectorddresstype {sflowentry 8} InetddressT ype [Standard] IP address type of the collector. ipv4 (1) ipv6 (2) *1 14 sflowcollectorddress {sflowentry 9} 15 sflowcollectorport {sflowentry 10} 16 sflowdatagramversion {sflowentry 11} Inetddress [Standard] IP address of the collector. Integer32 [Standard] Destination port of sflow datagram. Integer32 [Standard] Version of sflow datagram. Version=2, 4 are supported. *1*3 *1 *1 *1 Can be set by a configuration command. See " Configuration Commands, Vol. 1". *2 The IPv4 address is notified when an IPv4 address and IPv6 address are set. *3 If you set more than one collector, the information on the collector that has the smallest IP address is applied. 253

272 3.24 sflow Group (InMon Private MIB) 254

273 4 Supported MIB Traps This chapter provides an explanation of supported MIB traps. 4.1 Supported Trap and Issue Timing 4.2 Supported Trap-PDU Parameters[CB 320] 4.3 Supported Trap-PDU Parameters[CB 2000] 4.4 Supported Trap-PDU Parameters[CB 2000][OS-L3S] 255

274 4. Supported MIB Traps 4.1 Supported Trap and Issue Timing Supported traps and issue timing are given in the table below. Traps other than coldstart are not sent until the coldstart trap is issued after the system restart. Even if an event to issue the corresponding trap occurs before the coldstart trap issue timing, the trap is not sent when the coldstart trap is sent. Table 4-1: Supported Trap and Issue Timing o. Trap Type Meaning Cause of Issuance Implemented 1 coldstart change may have occurred in an object in the reinitializing system 2 warmstart n object in the reinitializing system is not changed Issued for the following causes 1 to 4: 1. When the system is started 2. When the agent is re-initialized to configuration changes (when the interface or protocol is changed) 3. When the running configuration is changed by the copy command 4. When the time is changed by the set clock command When re-initialization not changing objects in the system is executed (only when SMP configuration is changed) 3 linkdown Line failure detection When the interface operating state changes from CTIVE (communication possible) to DISBLE (communication not possible) 4 linkup Line failure recovery When the interface operating state changes from DISBLE (communication not possible) to CTIVE (communication possible) 5 authenticationfail ure uthentication error When receiving SMP packets from an invalid community (when authentication error occurs) 6 egpeighborloss Link with neighboring router is disconnected by the EGP protocol. - 7 bgpestablished BGP link established When the FSM (Finite State Machine) is in the "Establish" state by the BPG protocol 8 bgpbackwardtra nsitions BGP link disconnection When the FSM is in the "closed" state by the BGP protocol 9 risinglarm Over upper threshold When exceeding the upper threshold of the RMO alarm 10 fallinglarm Below lower threshold When going below the lower threshold of the RMO alarm 11 vrrptrapewmas ter Virtual router master notification When a virtual router changes to master status 12 vrrptraputhfail ure VRRP packet authentication error When the authentication type of received packets is different When authentication of received packets failed 13 vrrptrapprotoerr or VRRP protocol error When the error below is detected in the received packet Hop limit error Version error Checksum error VRRPID error 256

275 4. Supported MIB Traps o. Trap Type Meaning Cause of Issuance Implemented 14 ospfvirtbrstate Change Transition of neighboring state of virtual link Issued for the following causes 1 to 5 of transition of neighboring state in virtual link. However, not issued for neighboring Down due to transition of virtual link to Down state. 1. When the status changes to Full (neighbor established) 2. When the status of ExStart or above changes back to Down 3. When Full changes back to ExStart (re-establishing the neighbor started) 4. When Full changes back to 2way (designated router changed) 5. When Full changes back to Init (this system is not recognized in the Hello packet received from the neighboring router) 15 ospfbrstatecha nge Transition of OSPF neighboring state On an interface other than the virtual link, the report is issued at the timing of the same neighbor status change as ospfvirtbrstatechange. However, not issued for neighboring Down due to transition of OSPF interface to Down state. 16 ospfvirtifstatech ange Transition of interface state of virtual link Issued for the following causes 1 to 2 of transition of interface state. 1. When the virtual link is Up (OSPF operation is started on the virtual link) 2. When the virtual link is Down (OSPF operation is stopped for the reason such as some failure occurred in the transit area or the configuration of the virtual link is deleted) 17 ospfifstatechang e Transition of OSPF interface state Issued for interface transition timing 1 to 3 below. 1. When point-to-point type OSPF interface is Up. 2. When the DR, Backup, or DROther status is attained on the broadcast type interface 3. When OSPF interface (excluding virtual link) is Down (down physically or configuration of OSPF interface is deleted). 18 ospfvirtifconfig Error Configuration error in the packet received on the virtual link Issued for the following causes 1 to 3 of receiving of error packet. 1. When Version number of OSPF header is not 2 2. When the source is not the virtual neighbor specified in the configuration 3. When each parameter (HelloInterval, RouterDeadInterval) does not match for the Hello packet 19 ospfifconfigerror Configuration error in the packet received on OSPF interface Issued for the following causes 1 to 3 of receiving of error packet. 1. When Version number of OSPF header is not 2 2. When the area ID of OSPF header does not match that defined for the interface which received OSPF packet. 3. When each parameter (HelloInterval, RouterDeadInterval, net mask) does not match for the Hello packet 20 ospfvirtifuthfai lure uthentication error in the packet received on the virtual link Issued when authentication method of OSPF packet received on the virtual link does not match, or its authentication failure is detected. 21 ospfifuthfailure uthentication error in the packet received on OSPF interface Issued when authentication method of OSPF packet received on the interface other than virtual link does not match, or failure of authentication is detected. 22 pethpseportonof fotification [CB 320] PD power supply status Issued when power supply status to PD changes. 23 pethmainpoweru sageonotificatio n [CB 320] Power threshold excess notification otified when total power consumption of the system exceeds the threshold. 257

276 4. Supported MIB Traps o. Trap Type Meaning Cause of Issuance Implemented 24 pethmainpoweru sageoffotificati on [CB 320] Power threshold deficiency notification otified when total power consumption of the system is below the threshold. 25 ax3630ssystemm sgtrap [CB 320] ax3640ssystemm sgtrap [CB 2000] System message output When a system message is output 26 ax3630stemperat uretrap [CB 320] ax3640stemperat uretrap [CB 2000] Change in temperature state When the temperature monitored by RM changes to normal, caution, warning or abnormal status 27 ax3630sxrpstat etransitiontrap [CB 320] ax3640sxrpstat etransitiontrap [CB 2000] Transition of the ring state of Ring Protocol When the ring state (fault monitoring and recovery monitoring) of Ring Protocol transits between these two states. 28 ax3630sgsrpstate TransitionTrap [CB 320] ax3640sgsrpstate TransitionTrap [CB 2000] otification of transition of GSRP VL group status t the time of a change in GSRP VL group status (master, backup, backup (standby for master state), backup (adjacency unknown), backup (fixed). However, transition between backup and backup (standby for master state) is excluded. 29 ax3630sl2ldlink Down [CB 320] ax3640sl2ldlink Down [CB 2000] Transition of the line status to DISBLE due to an L2 loop detected When the operation status of the interface is changed from CTIVE (communication enabled) to DISBLE (communication disabled) by the L2 loop detection function. 30 ax3630sl2ldlink Up [CB 320] ax3640sl2ldlink Up [CB 2000] Transition of the line status to CTIVE caused by the automatic recovery function of the L2 loop detection When the operation status of the interface is changed from DISBLE (communication disabled) to CTIVE (communication enabled) by the automatic recovery function of the L2 loop detection. 31 ax3630sl2ldloop Detection [CB 320] ax3640sl2ldloop Detection [CB 2000] L2 loop detected When an L2 loop is detected. Issued every 60 seconds if the L2 loop state continues. 32 axsospfvirtbrst atechange Transition of neighboring state of virtual link Issued for the following causes 1 to 5 of transition of neighboring state in virtual link. However, not issued for neighboring Down due to transition of virtual link to Down state. 1. When the status changes to Full (neighbor established) 2. When the status of ExStart or above changes back to Down 3. When Full changes back to ExStart (re-establishing the neighbor started) 4. When Full changes back to 2way (designated router changed) 5. When Full changes back to Init (this system is not recognized in the Hello packet received from the neighboring router) 258

277 4. Supported MIB Traps o. Trap Type Meaning Cause of Issuance Implemented 33 axsospfbrstate Change Transition of OSPF neighboring state On an interface other than the virtual link, the report is issued at the timing of the same neighbor status change as ospfvirtbrstatechange. However, not issued for neighboring Down due to transition of OSPF interface to Down state. 34 axsospfvirtifstat echange Transition of interface state of virtual link Issued for the following causes 1 to 2 of transition of interface state. 1. When the virtual link is Up (OSPF operation is started on the virtual link) 2. When the virtual link is Down (OSPF operation is stopped for the reason such as some failure occurred in the transit area or the configuration of the virtual link is deleted) 35 axsospfifstatech ange Transition of OSPF interface state Issued for interface transition timing 1 to 3 below. 1. When point-to-point type OSPF interface is Up. 2. When the DR, Backup, or DROther status is attained on the broadcast type interface 3. When OSPF interface (excluding virtual link) is Down (down physically or configuration of OSPF interface is deleted) 36 axsospfvirtifcon figerror Configuration error in the packet received on the virtual link Issued for the following causes 1 to 3 of receiving of error packet. 1. When Version number of OSPF header is not 2 2. When the source is not the virtual neighbor specified in the configuration 3. When each parameter (HelloInterval, RouterDeadInterval) does not match for the Hello packet 37 axsospfifconfige rror Configuration error in the packet received on OSPF interface Issued for the following causes 1 to 3 of receiving of error packet. 1. When Version number of OSPF header is not 2 2. When the area ID of OSPF header does not match that defined for the interface which received OSPF packet. 3. When each parameter (HelloInterval, RouterDeadInterval, net mask) does not match for the Hello packet 38 axsospfvirtifut hfailure uthentication error in the packet received on the virtual link Issued when authentication method of OSPF packet received on the virtual link does not match, or failure of authentication is detected. 39 axsospfifuthfai lure uthentication error in the packet received on OSPF interface Issued when authentication method of OSPF packet received on the interface other than virtual link does not match, or failure of authentication is detected. 40 ax3630sirfanst optrap [CB 320] ax3640sirfanst optrap [CB 2000] Fan breaks down When breakdown of the fan is detected 41 ax3630spowersu pplyfailuretrap [CB 320] ax3640spowersu pplyfailuretrap [CB 2000] Power supply breaks down When trouble occurs in any one of power supplies installed When power supply is removed from the system 42 ax3630sloginsuc cesstrap [CB 320] ax3640sloginsuc cesstrap [CB 2000] User of the system logged in successfully When login with console, telnet, or ftp is successful 259

278 4. Supported MIB Traps o. Trap Type Meaning Cause of Issuance Implemented 43 ax3630sloginfail uretrap [CB 320] ax3640sloginfail uretrap [CB 2000] User of the system failed in login Sent each time authentication fails for login with console, telnet, or ftp. ot sent for disconnection due to remote access restriction or timeout or forced disconnection while "login:" or "Password:" prompt is displayed (this is also true for when only Enter key is pressed while "login:" prompt is displayed). 44 ax3630slogouttr ap [CB 320] ax3640slogouttr ap [CB 2000] User of the system logged out When logout with console, telnet, or ftp is successful 45 ax3630smemory UsageTrap [CB 320] ax3640smemory UsageTrap [CB 2000] vailable memory becomes insufficient When the amount of available memory exceeded lower limit 46 axsoadpeighbor CachelastChange Trap Information related to ODP neighboring node is updated. When information related to ODP neighboring node is updated 47 ax3630sframeerr orreceivetrap [CB 320] ax3640sframeerr orreceivetrap [CB 2000] frame receiving error occurred When a frame receiving error occurred. Detection of this error can be set by configuration command frame-error-notice. 48 ax3630sframeerr orsendtrap [CB 320] ax3640sframeerr orsendtrap [CB 2000] frame sending error occurred When a frame sending error occurred. Detection of this error can be set by configuration command frame-error-notice. 49 ax3630sbroadcast StormDetectTrap [CB 320] ax3640sbroadcast StormDetectTrap [CB 2000] Storm detected When occurrence of broadcast storm is detected (port not deactivated). Detection of this error can be set by configuration command storm-control. 50 ax3630smulticast StormDetectTrap [CB 320] ax3640smulticast StormDetectTrap [CB 2000] Storm detected When occurrence of multicast storm is detected (port not deactivated). Detection of this error can be set by configuration command storm-control. 51 ax3630sunicastst ormdetecttrap [CB 320] ax3640sunicastst ormdetecttrap [CB 2000] Storm detected When occurrence of unicast storm is detected (port not deactivated). Detection of this error can be set by configuration command storm-control. 52 ax3630sbroadcast StormPortInactiva tetrap [CB 320] ax3640sbroadcast StormPortInactiva tetrap [CB 2000] Port deactivated by storm detection When occurrence of broadcast storm is detected and the port is deactivated. Detection of this error can be set by configuration command storm-control. 260

279 4. Supported MIB Traps o. Trap Type Meaning Cause of Issuance Implemented 53 ax3630smulticast StormPortInactiva tetrap [CB 320] ax3640smulticast StormPortInactiva tetrap [CB 2000] Port deactivated by storm detection When occurrence of multicast storm is detected and the port is deactivated. Detection of this error can be set by configuration command storm-control. 54 ax3630sunicastst ormportinactivate Trap [CB 320] ax3640sunicastst ormportinactivate Trap [CB 2000] Port deactivated by storm detection When occurrence of unicast storm is detected and the port is deactivated. Detection of this error can be set by configuration command storm-control. 55 ax3630sbroadcast StormRecoverTra p [CB 320] ax3640sbroadcast StormRecoverTra p [CB 2000] Storm terminated When termination of broadcast storm is detected. Detection of this error can be set by configuration command storm-control. 56 ax3630smulticast StormRecoverTra p [CB 320] ax3640smulticast StormRecoverTra p [CB 2000] Storm terminated When termination of multicast storm is detected. Detection of this error can be set by configuration command storm-control. 57 ax3630sunicastst ormrecovertrap [CB 320] ax3640sunicastst ormrecovertrap [CB 2000] Storm terminated When termination of unicast storm is detected. Detection of this error can be set by configuration command storm-control. 58 ax3630sefmoam UdldPortInactivat etrap [CB 320] ax3640sefmoam UdldPortInactivat etrap [CB 2000] Port deactivated by the detection of one-way link failure When a one-way link failure is detected and the port is deactivated. Detection of this error can be set by configuration command efmoam active. 59 ax3630sefmoam LoopDetectPortIn activatetrap [CB 320] ax3640sefmoam LoopDetectPortIn activatetrap [CB 2000] Port deactivated by loop detection When the loop state is detected and the port is deactivated. Detection of this error can be set by configuration command efmoam active. (Legend) : This indicates Traps supported (responded) by this system : This indicates Traps not supported (responded) by this system. - : ot pplicable. 261

280 4. Supported MIB Traps 4.2 Supported Trap-PDU Parameters[CB 320] Supported trap-pdu parameters for SMPv1 are shown in "Table 4-2: Parameters in Supported Trap-PDU (SMPv1)", and for SMPv2 in "Table 4-3: Parameters in Supported Trap-PDU (SMPv2c/SMPv3)" respectively. Table 4-2: Parameters in Supported Trap-PDU (SMPv1) o. Type Trap PDU Data Value enterprise agentaddr generictrap specifictrap time-stamp variable-bindings 1 coldstart sysobjectid of this system warmstart sysobjectid of this system linkdown sysobjectid of this system linkup sysobjectid of this system authentication Failure sysobjectid of this system bgpestablished bgptraps Particular IP 0 0 Value of address * sysuptime Particular IP 1 0 Value of address * sysuptime Particular IP 2 0 Value of address * sysuptime Particular IP 3 0 Value of address * sysuptime Particular IP 4 0 Value of address * sysuptime Particular IP 6 1 Value of address * sysuptime one one ifindex If the configuration command "snmp-server traps" has the parameter "link_trap_bind_info" set to "private", the following MIBs are applied. ifindex ifdescr iftype ifindex If the configuration command "snmp-server traps" has the parameter "link_trap_bind_info" set to "private", the following MIBs are applied. ifindex ifdescr iftype one bgppeerlasterror bgppeerstate 7 bgpbackwardtransiti ons bgptraps Particular IP 6 2 Value of address * sysuptime bgppeerlasterror bgppeerstate 8 risinglarm rmon Particular IP 6 1 Value of address * sysuptime alarmindex alarmvariable alarmsampletype alarmvalue alarmrisingthreshold 262

281 4. Supported MIB Traps o. Type Trap PDU Data Value enterprise agentaddr generictrap specifictrap time-stamp variable-bindings 9 fallinglarm rmon vrrptrapewmaster vrrpmib vrrptraputhfailure vrrpmib vrrptrapprotoerror vrrpmib Particular IP 6 2 Value of address * sysuptime Particular IP 6 1 Value of address * sysuptime Particular IP 6 2 Value of address * sysuptime Particular IP 6 3 Value of address * sysuptime alarmindex alarmvariable alarmsampletype alarmvalue alarmfallingthreshold vrrpoperationsmasterip ddr vrrptrapewmasterreaso n vrrptrappacketsrc vrrptraputherrortype vrrptrapprotoerrreason 13 ospfvirtifstatechang e ospftraps Particular IP 6 1 Value of address * sysuptime ospfrouterid ospfvirtifreaid ospfvirtifeighbor ospfvirtifstate 14 ospfbrstatechange ospftraps Particular IP 6 2 Value of address * sysuptime ospfrouterid ospfbripddr ospfbrddresslessindex ospfbrrtrid ospfbrstate 15 ospfvirtbrstatecha nge ospftraps Particular IP 6 3 Value of address * sysuptime ospfrouterid ospfvirtbrrea ospfvirtbrrtrid ospfvirtbrstate 16 ospfifconfigerror ospftraps ospfvirtifconfigerror ospftraps ospfifuthfailure ospftraps ospfvirtifuthfailure ospftraps ospfifstatechange ospftraps Particular IP 6 4 Value of address * sysuptime Particular IP 6 5 Value of address * sysuptime Particular IP 6 6 Value of address * sysuptime Particular IP 6 7 Value of address * sysuptime Particular IP 6 16 Value of address * sysuptime ospfrouterid ospfifipddress ospfddresslessif ospfpacketsrc ospfconfigerrortype ospfpackettype ospfrouterid ospfvirtifreaid ospfvirtifeighbor ospfconfigerrortype ospfpackettype ospfrouterid ospfifipddress ospfddresslessif ospfpacketsrc ospfconfigerrortype ospfpackettype ospfrouterid ospfvirtifreaid ospfvirtifeighbor ospfconfigerrortype ospfpackettype ospfrouterid ospfifipddress ospfddresslessif ospfifstate 263

282 4. Supported MIB Traps o. Type Trap PDU Data Value enterprise agentaddr generictrap specifictrap time-stamp variable-bindings 21 pethpseportonoffot ification powerethernet MIB Particular IP 6 1 Value of address * sysuptime pethpseportdetectionstatu s 22 pethmainpowerusage Onotification powerethernet MIB Particular IP 6 2 Value of address * sysuptime pethmainpseconsumption Power 23 pethmainpowerusage Offotification powerethernet MIB Particular IP 6 3 Value of address * sysuptime pethmainpseconsumption Power 24 ax3630ssystemmsgt rap sysobjectid of this system Particular IP 6 1 Value of address * sysuptime ax3630ssystemmsgtype ax3630ssystemmsgtimes tamp ax3630ssystemmsglevel ax3630ssystemmsgevent Point ax3630ssystemmsgeventi nterfaceid ax3630ssystemmsgevent Code ax3630ssystemmsgdditi onalcode ax3630ssystemmsgtext 25 ax3630stemperature Trap sysobjectid of this system Particular IP 6 4 Value of address * sysuptime ax3630schassisindex ax3630stemperaturestatu sindex ax3630stemperaturestatu sdescr ax3630stemperaturestatu svalue ax3630stemperaturestate 26 ax3630sxrpstatetra nsitiontrap sysobjectid of this system Particular IP 6 36 Value of address * sysuptime axsxrpgroupringid axsxrpgroupmode axsxrpgroupringttrib ute axsxrpgroupmonitoring State 27 ax3630sgsrpstatetra nsitiontrap sysobjectid of this system Particular IP 6 6 Value of address * sysuptime axsgsrpgroupid axsgsrpvlangroupid axsgsrpstate 28 ax3630sl2ldlinkdo wn sysobjectid of this system Particular IP 6 51 Value of address * sysuptime axsl2ldportifindex axsl2ldportsourceportifi ndex axsl2ldportdestinationpo rtifindex axsl2ldportsourcevlan 29 ax3630sl2ldlinkup sysobjectid of this system Particular IP 6 52 Value of address * sysuptime axsl2ldportifindex 264

283 4. Supported MIB Traps o. Type Trap PDU Data Value enterprise agentaddr generictrap specifictrap time-stamp variable-bindings 30 ax3630sl2ldloopdet ection sysobjectid of this system Particular IP 6 53 Value of address * sysuptime axsl2ldportindex axsl2ldportifindex axsl2ldportsourceportifi ndex axsl2ldportsourcevlan 31 axsospfvirtifstatech ange axsospftraps Particular IP 6 1 Value of address * sysuptime axsospfvirtifdomainu mber axsospfrouterid axsospfvirtifreaid axsospfvirtifeighbor axsospfvirtifstate 32 axsospfbrstatecha nge axsospftraps Particular IP 6 2 Value of address * sysuptime axsospfbrdomainumb er axsospfrouterid axsospfbripddr axsospfbrddresslessi ndex axsospfbrrtrid axsospfbrstate 33 axsospfvirtbrstate Change axsospftraps Particular IP 6 3 Value of address * sysuptime axsospfvirtbrdomain umber axsospfrouterid axsospfvirtbrrea axsospfvirtbrrtrid axsospfvirtbrstate 34 axsospfifconfigerror axsospftraps Particular IP 6 4 Value of address * sysuptime axsospfifdomainumber axsospfrouterid axsospfifipddress axsospfddresslessif axsospfpacketsrc axsospfconfigerrortype axsospfpackettype 35 axsospfvirtifconfig Error axsospftraps Particular IP 6 5 Value of address * sysuptime axsospfvirtifdomainu mber axsospfrouterid axsospfvirtifreaid axsospfvirtifeighbor axsospfconfigerrortype axsospfpackettype 36 axsospfifuthfailure axsospftraps Particular IP 6 6 Value of address * sysuptime axsospfifdomainumber axsospfrouterid axsospfifipddress axsospfddresslessif axsospfpacketsrc axsospfconfigerrortype axsospfpackettype 37 axsospfvirtifuthfai lure axsospftraps Particular IP 6 7 Value of address * sysuptime axsospfvirtifdomainu mber axsospfrouterid axsospfvirtifreaid axsospfvirtifeighbor axsospfconfigerrortype axsospfpackettype 265

284 4. Supported MIB Traps o. Type Trap PDU Data Value enterprise agentaddr generictrap specifictrap time-stamp variable-bindings 38 axsospfifstatechang e axsospftraps Particular IP 6 16 Value of address * sysuptime axsospfifdomainumber axsospfrouterid axsospfifipddress axsospfddresslessif axsospfifstate 39 ax3630sirfanstopt rap sysobjectid of this system Particular IP 6 8 Value of address * sysuptime one 40 ax3630spowersupply FailureTrap sysobjectid of this system Particular IP 6 9 Value of address * sysuptime one 41 ax3630sloginsuccess Trap sysobjectid of this system Particular IP 6 10 Value of address * sysuptime axsloginame axslogintime axsloginlocation axsloginline 42 ax3630sloginfailure Trap sysobjectid of this system Particular IP 6 11 Value of address * sysuptime axsloginame axsloginfailuretime axsloginlocation axsloginline 43 ax3630slogouttrap sysobjectid of this system Particular IP 6 12 Value of address * sysuptime axsloginame axslogintime axslogouttime axsloginlocation axsloginline axslogoutstatus 44 ax3630smemoryusag etrap sysobjectid of this system Particular IP 6 13 Value of address * sysuptime one 45 axsoadpeighborcac helastchangetrap axsoadpmib otifications Particular IP 6 1 Value of address * sysuptime axsoadpeighborcachel astchange 46 ax3630sframeerrorr eceivetrap sysobjectid of this system Particular IP 6 18 Value of address * sysuptime ifindex 47 ax3630sframeerrors endtrap sysobjectid of this system Particular IP 6 19 Value of address * sysuptime ifindex 48 ax3630sbroadcaststo rmdetecttrap sysobjectid of this system Particular IP 6 20 Value of address * sysuptime ifindex 49 ax3630smulticaststor mdetecttrap sysobjectid of this system Particular IP 6 21 Value of address * sysuptime ifindex 266

285 4. Supported MIB Traps o. Type Trap PDU Data Value enterprise agentaddr generictrap specifictrap time-stamp variable-bindings 50 ax3630sunicaststorm DetectTrap sysobjectid of this system Particular IP 6 22 Value of address * sysuptime ifindex 51 ax3630sbroadcaststo rmportinactivatetrap sysobjectid of this system Particular IP 6 23 Value of address * sysuptime ifindex 52 ax3630smulticaststor mportinactivatetrap sysobjectid of this system Particular IP 6 24 Value of address * sysuptime ifindex 53 ax3630sunicaststorm PortInactivateTrap sysobjectid of this system Particular IP 6 25 Value of address * sysuptime ifindex 54 ax3630sbroadcaststo rmrecovertrap sysobjectid of this system Particular IP 6 26 Value of address * sysuptime ifindex 55 ax3630smulticaststor mrecovertrap sysobjectid of this system Particular IP 6 27 Value of address * sysuptime ifindex 56 ax3630sunicaststorm RecoverTrap sysobjectid of this system Particular IP 6 28 Value of address * sysuptime ifindex 57 ax3630sefmoamudld PortInactivateTrap sysobjectid of this system Particular IP 6 29 Value of address * sysuptime ifindex 58 ax3630sefmoamloop DetectPortInactivateT rap sysobjectid of this system Particular IP 6 30 Value of address * sysuptime ifindex * agent-addr is set according to the priority shown below. 1. IPv4 address set by configuration command snmp-server traps agent-address. 2. IPv4 address set for the loopback interface. 3. IPv4 address of the interface with an IPv4 address set and having the youngest ifindex number. However, the target interface is VL. 4. If neither 1, 2, nor 3 is set, " " is set. 267

286 4. Supported MIB Traps Table 4-3: Parameters in Supported Trap-PDU (SMPv2c/SMPv3) o. Type Trap PDU Data Value Variable-Binding [1](SysUpTime.0) Variable-Binding [2](SnmpTrapOID.0) Variable-Binding [3 -] 1 coldstart Value of sysuptime coldstart ( ) 2 warmstart Value of sysuptime warmstart ( ) 3 linkdown Value of sysuptime linkdown ( ) 4 linkup Value of sysuptime linkup ( ) one one ifindex If the configuration command "snmp-server traps" has the parameter "link_trap_bind_info" set to "private", the following MIBs are applied. ifindex ifdescr iftype ifindex If the configuration command "snmp-server traps" has the parameter "link_trap_bind_info" set to "private", the following MIBs are applied. ifindex ifdescr iftype 5 authentication Failure Value of sysuptime authentication Failure ( ) one 6 bgpestablished Value of sysuptime bgpestablished ( ) bgppeerlasterror bgppeerstate 7 bgpbackwardtra nsitions Value of sysuptime bgpbackwardtransitions ( ) bgppeerlasterror bgppeerstate 8 risinglarm Value of sysuptime risinglarm ( ) 9 fallinglarm Value of sysuptime fallinglarm ( ) alarmindex alarmvariable alarmsampletype alarmvalue alarmrisingthreshold alarmindex alarmvariable alarmsampletype alarmvalue alarmfallingthreshold 10 vrrptrapewmas ter Value of sysuptime vrrptrapewmaster ( ) vrrpoperationsmasteripddr vrrptrapewmasterreason 11 vrrptraputhfail ure Value of sysuptime vrrptraputhfailure ( ) vrrptrappacketsrc vrrptraputherrortype 12 vrrptrapprotoerr or Value of sysuptime vrrptrapprotoerror ( ) vrrptrapprotoerrreason 13 ospfvirtifstatech ange Value of sysuptime ospfvirtifstatechange ( ) ospfrouterid ospfvirtifreaid ospfvirtifeighbor ospfvirtifstate 268

287 4. Supported MIB Traps o. Type Trap PDU Data Value Variable-Binding [1](SysUpTime.0) Variable-Binding [2](SnmpTrapOID.0) Variable-Binding [3 -] 14 ospfbrstatecha nge Value of sysuptime ospfbrstatechange ( ) ospfrouterid ospfbripddr ospfbrddresslessindex ospfbrrtrid ospfbrstate 15 ospfvirtbrstate Change Value of sysuptime ospfvirtbrstatechange ( ) ospfrouterid ospfvirtbrrea ospfvirtbrrtrid ospfvirtbrstate 16 ospfifconfigerro r Value of sysuptime ospfifconfigerror ( ) ospfrouterid ospfifipddress ospfddresslessif ospfpacketsrc ospfconfigerrortype ospfpackettype 17 ospfvirtifconfig Error Value of sysuptime ospfvirtifconfigerror ( ) ospfrouterid ospfvirtifreaid ospfvirtifeighbor ospfconfigerrortype ospfpackettype 18 ospfifuthfailure Value of sysuptime ospfifuthfailure ( ) ospfrouterid ospfifipddress ospfddresslessif ospfpacketsrc ospfconfigerrortype ospfpackettype 19 ospfvirtifuthfa ilure Value of sysuptime ospfvirtifuthfailure ( ) ospfrouterid ospfvirtifreaid ospfvirtifeighbor ospfconfigerrortype ospfpackettype 20 ospfifstatechang e Value of sysuptime ospfifstatechange ( ) ospfrouterid ospfifipddress ospfddresslessif ospfifstate 21 pethpseportonof fotification Value of sysuptime pethpseportonoffotification ( ) pethpseportdetectionstatus 22 pethmainpoweru sageonotificati on Value of sysuptime pethmainpowerusageonotif ication ( ) pethmainpseconsumptionpower 23 pethmainpoweru sageoffotificati on Value of sysuptime pethmainpowerusageoffotif ication ( ) pethmainpseconsumptionpower 24 ax3630ssystemm sgtrap Value of sysuptime ax3630ssystemmsgtrap ( ) ax3630ssystemmsgtype ax3630ssystemmsgtimestamp ax3630ssystemmsglevel ax3630ssystemmsgeventpoint ax3630ssystemmsgeventinterfaceid ax3630ssystemmsgeventcode ax3630ssystemmsgdditionalcode ax3630ssystemmsgtext 269

288 4. Supported MIB Traps o. Type Trap PDU Data Value Variable-Binding [1](SysUpTime.0) Variable-Binding [2](SnmpTrapOID.0) Variable-Binding [3 -] 25 ax3630stemperat uretrap Value of sysuptime ax3630stemperaturetrap ( ) ax3630schassisindex ax3630stemperaturestatusindex ax3630stemperaturestatusdescr ax3630stemperaturestatusvalue ax3630stemperaturestate 26 ax3630sxrpstat etransitiontrap Value of sysuptime ax3630sxrpstatetransitiont rap ( ) axsxrpgroupringid axsxrpgroupmode axsxrpgroupringttribute axsxrpgroupmonitoringstate 27 ax3630sgsrpstat etransitiontrap Value of sysuptime ax3630sgsrpstatetransitiontr ap ( ) axsgsrpgroupid axsgsrpvlangroupid axsgsrpstate 28 ax3630sl2ldlink Down Value of sysuptime ax3630sl2ldlinkdown ( ) axsl2ldportifindex axsl2ldportsourceportifindex axsl2ldportdestinationportifindex axsl2ldportsourcevlan 29 ax3640sl2ldlink Up Value of sysuptime ax3640sl2ldlinkup ( ) axsl2ldportifindex 30 ax3640sl2ldloo pdetection Value of sysuptime ax3640sl2ldloopdetection ( ) axsl2ldportindex axsl2ldportifindex axsl2ldportsourceportifindex axsl2ldportsourcevlan 31 axsospfvirtifstat echange Value of sysuptime axsospfvirtifstatechange ( ) axsospfvirtifdomainumber axsospfrouterid axsospfvirtifreaid axsospfvirtifeighbor axsospfvirtifstate 32 axsospfbrstate Change Value of sysuptime axsospfbrstatechange ( ) axsospfbrdomainumber axsospfrouterid axsospfbripddr axsospfbrddresslessindex axsospfbrrtrid axsospfbrstate 33 axsospfvirtbrs tatechange Value of sysuptime axsospfvirtbrstatechange ( ) axsospfvirtbrdomainumber axsospfrouterid axsospfvirtbrrea axsospfvirtbrrtrid axsospfvirtbrstate 34 axsospfifconfig Error Value of sysuptime axsospfifconfigerror ( ) axsospfifdomainumber axsospfrouterid axsospfifipddress axsospfddresslessif axsospfpacketsrc axsospfconfigerrortype axsospfpackettype 35 axsospfvirtifcon figerror Value of sysuptime axsospfvirtifconfigerror ( ) axsospfvirtifdomainumber axsospfrouterid axsospfvirtifreaid axsospfvirtifeighbor axsospfconfigerrortype axsospfpackettype 270

289 4. Supported MIB Traps o. Type Trap PDU Data Value Variable-Binding [1](SysUpTime.0) Variable-Binding [2](SnmpTrapOID.0) Variable-Binding [3 -] 36 axsospfifuthfai lure Value of sysuptime axsospfifuthfailure ( ) axsospfifdomainumber axsospfrouterid axsospfifipddress axsospfddresslessif axsospfpacketsrc axsospfconfigerrortype axsospfpackettype 37 axsospfvirtifut hfailure Value of sysuptime axsospfvirtifuthfailure ( ) axsospfvirtifdomainumber axsospfrouterid axsospfvirtifreaid axsospfvirtifeighbor axsospfconfigerrortype axsospfpackettype 38 axsospfifstatech ange Value of sysuptime axsospfifstatechange ( ) axsospfifdomainumber axsospfrouterid axsospfifipddress axsospfddresslessif axsospfifstate 39 ax3630sirfanst optrap Value of sysuptime ax3630sirfanstoptrap ( ) one 40 ax3630spowersu pplyfailuretrap Value of sysuptime ax3630spowersupplyfailuret rap ( ) one 41 ax3630sloginsuc cesstrap Value of sysuptime ax3630sloginsuccesstrap ( ) axsloginame axslogintime axsloginlocation axsloginline 42 ax3630sloginfai luretrap Value of sysuptime ax3630sloginfailuretrap ( ) axsloginame axsloginfailuretime axsloginlocation axsloginline 43 ax3630slogouttr ap Value of sysuptime ax3630slogouttrap ( ) axsloginame axslogintime axslogouttime axsloginlocation axsloginline axslogoutstatus 44 ax3630smemory UsageTrap Value of sysuptime ax3630smemoryusagetrap ( ) one 45 axsoadpeighbo rcachelastchang etrap Value of sysuptime axsoadpeighborcachelastch angetrap ( ) axsoadpeighborcachelastchange 46 ax3630sframeerr orreceivetrap Value of sysuptime ax3630sframeerrorreceivetr ap ( ) ifindex 47 ax3630sframeerr orsendtrap Value of sysuptime ax3630sframeerrorsendtrap ( ) ifindex 271

290 4. Supported MIB Traps o. Type Trap PDU Data Value Variable-Binding [1](SysUpTime.0) Variable-Binding [2](SnmpTrapOID.0) Variable-Binding [3 -] 48 ax3630sbroadcas tstormdetecttrap Value of sysuptime ax3630sbroadcaststormdetect Trap ( ) ifindex 49 ax3630smulticast StormDetectTrap Value of sysuptime ax3630smulticaststormdetect Trap ( ) ifindex 50 ax3630sunicastst ormdetecttrap Value of sysuptime ax3630sunicaststormdetecttr ap ( ) ifindex 51 ax3630sbroadcas tstormportinactiv atetrap Value of sysuptime ax3630sbroadcaststormportin activatetrap ( ) ifindex 52 ax3630smulticast StormPortInactiv atetrap Value of sysuptime ax3630smulticaststormportin activatetrap ( ) ifindex 53 ax3630sunicastst ormportinactivate Trap Value of sysuptime ax3630sunicaststormportinac tivatetrap ( ) ifindex 54 ax3630sbroadcas tstormrecovertr ap Value of sysuptime ax3630sbroadcaststormrecov ertrap ( ) ifindex 55 ax3630smulticast StormRecoverTra p Value of sysuptime ax3630smulticaststormrecov ertrap ( ) ifindex 56 ax3630sunicastst ormrecovertrap Value of sysuptime ax3630sunicaststormrecover Trap ( ) ifindex 57 ax3630sefmoam UdldPortInactivat etrap Value of sysuptime ax3630sefmoamudldportinac tivatetrap ( ) ifindex 58 ax3630sefmoam LoopDetectPortIn activatetrap Value of sysuptime ax3630sefmoamloopdetectp ortinactivatetrap ( ) ifindex 272

291 4. Supported MIB Traps 4.3 Supported Trap-PDU Parameters[CB 2000] Supported trap-pdu parameters for SMPv1 are shown in "Table 4-4: Parameters in Supported Trap-PDU (SMPv1)", and for SMPv2 in "Table 4-5: Parameters in Supported Trap-PDU (SMPv2c/SMPv3)" respectively. Table 4-4: Parameters in Supported Trap-PDU (SMPv1) o. Type Trap PDU Data Value enterprise agentaddr generictrap specifictrap time-stamp variable-bindings 1 coldstart sysobjectid of this system warmstart sysobjectid of this system linkdown sysobjectid of this system linkup sysobjectid of this system authentication Failure sysobjectid of this system bgpestablished bgptraps Particular IP 0 0 Value of address * sysuptime Particular IP 1 0 Value of address * sysuptime Particular IP 2 0 Value of address * sysuptime Particular IP 3 0 Value of address * sysuptime Particular IP 4 0 Value of address * sysuptime Particular IP 6 1 Value of address * sysuptime one one ifindex If the configuration command "snmp-server traps" has the parameter "link_trap_bind_info" set to "private", the following MIBs are applied. ifindex ifdescr iftype ifindex If the configuration command "snmp-server traps" has the parameter "link_trap_bind_info" set to "private", the following MIBs are applied. ifindex ifdescr iftype one bgppeerlasterror bgppeerstate 7 bgpbackwardtransiti ons bgptraps Particular IP 6 2 Value of address * sysuptime bgppeerlasterror bgppeerstate 8 risinglarm rmon Particular IP 6 1 Value of address * sysuptime alarmindex alarmvariable alarmsampletype alarmvalue alarmrisingthreshold 273

292 4. Supported MIB Traps o. Type Trap PDU Data Value enterprise agentaddr generictrap specifictrap time-stamp variable-bindings 9 fallinglarm rmon vrrptrapewmaster vrrpmib vrrptraputhfailure vrrpmib vrrptrapprotoerror vrrpmib Particular IP 6 2 Value of address * sysuptime Particular IP 6 1 Value of address * sysuptime Particular IP 6 2 Value of address * sysuptime Particular IP 6 3 Value of address * sysuptime alarmindex alarmvariable alarmsampletype alarmvalue alarmfallingthreshold vrrpoperationsmasterip ddr vrrptrapewmasterreaso n vrrptrappacketsrc vrrptraputherrortype vrrptrapprotoerrreason 13 ospfvirtifstatechang e ospftraps Particular IP 6 1 Value of address * sysuptime ospfrouterid ospfvirtifreaid ospfvirtifeighbor ospfvirtifstate 14 ospfbrstatechange ospftraps Particular IP 6 2 Value of address * sysuptime ospfrouterid ospfbripddr ospfbrddresslessindex ospfbrrtrid ospfbrstate 15 ospfvirtbrstatecha nge ospftraps Particular IP 6 3 Value of address * sysuptime ospfrouterid ospfvirtbrrea ospfvirtbrrtrid ospfvirtbrstate 16 ospfifconfigerror ospftraps ospfvirtifconfigerror ospftraps ospfifuthfailure ospftraps ospfvirtifuthfailure ospftraps ospfifstatechange ospftraps Particular IP 6 4 Value of address * sysuptime Particular IP 6 5 Value of address * sysuptime Particular IP 6 6 Value of address * sysuptime Particular IP 6 7 Value of address * sysuptime Particular IP 6 16 Value of address * sysuptime ospfrouterid ospfifipddress ospfddresslessif ospfpacketsrc ospfconfigerrortype ospfpackettype ospfrouterid ospfvirtifreaid ospfvirtifeighbor ospfconfigerrortype ospfpackettype ospfrouterid ospfifipddress ospfddresslessif ospfpacketsrc ospfconfigerrortype ospfpackettype ospfrouterid ospfvirtifreaid ospfvirtifeighbor ospfconfigerrortype ospfpackettype ospfrouterid ospfifipddress ospfddresslessif ospfifstate 274

293 4. Supported MIB Traps o. Type Trap PDU Data Value enterprise agentaddr generictrap specifictrap time-stamp variable-bindings 21 ax3640ssystemmsgt rap sysobjectid of this system Particular IP 6 1 Value of address * sysuptime ax3640ssystemmsgtype ax3640ssystemmsgtimes tamp ax3640ssystemmsglevel ax3640ssystemmsgevent Point ax3640ssystemmsgeventi nterfaceid ax3640ssystemmsgevent Code ax3640ssystemmsgdditi onalcode ax3640ssystemmsgtext 22 ax3640stemperature Trap sysobjectid of this system Particular IP 6 4 Value of address * sysuptime ax3640schassisindex ax3640stemperaturestatu sindex ax3640stemperaturestatu sdescr ax3640stemperaturestatu svalue ax3640stemperaturestate 23 ax3640sxrpstatetra nsitiontrap sysobjectid of this system Particular IP 6 36 Value of address * sysuptime axsxrpgroupringid axsxrpgroupmode axsxrpgroupringttrib ute axsxrpgroupmonitoring State 24 ax3640sgsrpstatetra nsitiontrap sysobjectid of this system Particular IP 6 6 Value of address * sysuptime axsgsrpgroupid axsgsrpvlangroupid axsgsrpstate 25 ax3640sl2ldlinkdo wn sysobjectid of this system Particular IP 6 51 Value of address * sysuptime axsl2ldportifindex axsl2ldportsourceportifi ndex axsl2ldportdestinationpo rtifindex axsl2ldportsourcevlan 26 ax3640sl2ldlinkup sysobjectid of this system Particular IP 6 52 Value of address * sysuptime axsl2ldportifindex 27 ax3640sl2ldloopdet ection sysobjectid of this system Particular IP 6 53 Value of address * sysuptime axsl2ldportindex axsl2ldportifindex axsl2ldportsourceportifi ndex axsl2ldportsourcevlan 28 axsospfvirtifstatech ange axsospftraps Particular IP 6 1 Value of address * sysuptime axsospfvirtifdomainu mber axsospfrouterid axsospfvirtifreaid axsospfvirtifeighbor axsospfvirtifstate 275

294 4. Supported MIB Traps o. Type Trap PDU Data Value enterprise agentaddr generictrap specifictrap time-stamp variable-bindings 29 axsospfbrstatecha nge axsospftraps Particular IP 6 2 Value of address * sysuptime axsospfbrdomainumb er axsospfrouterid axsospfbripddr axsospfbrddresslessi ndex axsospfbrrtrid axsospfbrstate 30 axsospfvirtbrstate Change axsospftraps Particular IP 6 3 Value of address * sysuptime axsospfvirtbrdomain umber axsospfrouterid axsospfvirtbrrea axsospfvirtbrrtrid axsospfvirtbrstate 31 axsospfifconfigerror axsospftraps Particular IP 6 4 Value of address * sysuptime axsospfifdomainumber axsospfrouterid axsospfifipddress axsospfddresslessif axsospfpacketsrc axsospfconfigerrortype axsospfpackettype 32 axsospfvirtifconfig Error axsospftraps Particular IP 6 5 Value of address * sysuptime axsospfvirtifdomainu mber axsospfrouterid axsospfvirtifreaid axsospfvirtifeighbor axsospfconfigerrortype axsospfpackettype 33 axsospfifuthfailure axsospftraps Particular IP 6 6 Value of address * sysuptime axsospfifdomainumber axsospfrouterid axsospfifipddress axsospfddresslessif axsospfpacketsrc axsospfconfigerrortype axsospfpackettype 34 axsospfvirtifuthfai lure axsospftraps Particular IP 6 7 Value of address * sysuptime axsospfvirtifdomainu mber axsospfrouterid axsospfvirtifreaid axsospfvirtifeighbor axsospfconfigerrortype axsospfpackettype 35 axsospfifstatechang e axsospftraps Particular IP 6 16 Value of address * sysuptime axsospfifdomainumber axsospfrouterid axsospfifipddress axsospfddresslessif axsospfifstate 36 ax3640sirfanstopt rap sysobjectid of this system Particular IP 6 8 Value of address * sysuptime one 37 ax3640spowersupply FailureTrap sysobjectid of this system Particular IP 6 9 Value of address * sysuptime one 276

295 4. Supported MIB Traps o. Type Trap PDU Data Value enterprise agentaddr generictrap specifictrap time-stamp variable-bindings 38 ax3640sloginsuccess Trap sysobjectid of this system Particular IP 6 10 Value of address * sysuptime axsloginame axslogintime axsloginlocation axsloginline 39 ax3640sloginfailure Trap sysobjectid of this system Particular IP 6 11 Value of address * sysuptime axsloginame axsloginfailuretime axsloginlocation axsloginline 40 ax3640slogouttrap sysobjectid of this system Particular IP 6 12 Value of address * sysuptime axsloginame axslogintime axslogouttime axsloginlocation axsloginline axslogoutstatus 41 ax3640smemoryusag etrap sysobjectid of this system Particular IP 6 13 Value of address * sysuptime one 42 axsoadpeighborcac helastchangetrap axsoadpmib otifications Particular IP 6 1 Value of address * sysuptime axsoadpeighborcachel astchange 43 ax3640sframeerrorr eceivetrap sysobjectid of this system Particular IP 6 18 Value of address * sysuptime ifindex 44 ax3640sframeerrors endtrap sysobjectid of this system Particular IP 6 19 Value of address * sysuptime ifindex 45 ax3640sbroadcaststo rmdetecttrap sysobjectid of this system Particular IP 6 20 Value of address * sysuptime ifindex 46 ax3640smulticaststor mdetecttrap sysobjectid of this system Particular IP 6 21 Value of address * sysuptime ifindex 47 ax3640sunicaststorm DetectTrap sysobjectid of this system Particular IP 6 22 Value of address * sysuptime ifindex 48 ax3640sbroadcaststo rmportinactivatetrap sysobjectid of this system Particular IP 6 23 Value of address * sysuptime ifindex 49 ax3640smulticaststor mportinactivatetrap sysobjectid of this system Particular IP 6 24 Value of address * sysuptime ifindex 277

296 4. Supported MIB Traps o. Type Trap PDU Data Value enterprise agentaddr generictrap specifictrap time-stamp variable-bindings 50 ax3640sunicaststorm PortInactivateTrap sysobjectid of this system Particular IP 6 25 Value of address * sysuptime ifindex 51 ax3640sbroadcaststo rmrecovertrap sysobjectid of this system Particular IP 6 26 Value of address * sysuptime ifindex 52 ax3640smulticaststor mrecovertrap sysobjectid of this system Particular IP 6 27 Value of address * sysuptime ifindex 53 ax3640sunicaststorm RecoverTrap sysobjectid of this system Particular IP 6 28 Value of address * sysuptime ifindex 54 ax3640sefmoamudld PortInactivateTrap sysobjectid of this system Particular IP 6 29 Value of address * sysuptime ifindex 55 ax3640sefmoamloop DetectPortInactivateT rap sysobjectid of this system Particular IP 6 30 Value of address * sysuptime ifindex * agent-addr is set according to the priority shown below. 1. IPv4 address set by configuration command snmp-server traps agent-address. 2. IPv4 address set for the loopback interface. 3. IPv4 address of the interface with an IPv4 address set and having the youngest ifindex number. However, the target interface is VL. 4. If neither 1, 2, nor 3 is set, " " is set. Table 4-5: Parameters in Supported Trap-PDU (SMPv2c/SMPv3) o. Type Trap PDU Data Value Variable-Binding [1](SysUpTime.0) Variable-Binding [2](SnmpTrapOID.0) Variable-Binding [3 -] 1 coldstart Value of sysuptime coldstart ( ) 2 warmstart Value of sysuptime warmstart ( ) 3 linkdown Value of sysuptime linkdown ( ) one one ifindex If the configuration command "snmp-server traps" has the parameter "link_trap_bind_info" set to "private", the following MIBs are applied. ifindex ifdescr iftype 278

297 4. Supported MIB Traps o. Type Trap PDU Data Value Variable-Binding [1](SysUpTime.0) Variable-Binding [2](SnmpTrapOID.0) Variable-Binding [3 -] 4 linkup Value of sysuptime linkup ( ) ifindex If the configuration command "snmp-server traps" has the parameter "link_trap_bind_info" set to "private", the following MIBs are applied. ifindex ifdescr iftype 5 authentication Failure Value of sysuptime authentication Failure ( ) one 6 bgpestablished Value of sysuptime bgpestablished ( ) bgppeerlasterror bgppeerstate 7 bgpbackwardtra nsitions Value of sysuptime bgpbackwardtransitions ( ) bgppeerlasterror bgppeerstate 8 risinglarm Value of sysuptime risinglarm ( ) 9 fallinglarm Value of sysuptime fallinglarm ( ) alarmindex alarmvariable alarmsampletype alarmvalue alarmrisingthreshold alarmindex alarmvariable alarmsampletype alarmvalue alarmfallingthreshold 10 vrrptrapewmas ter Value of sysuptime vrrptrapewmaster ( ) vrrpoperationsmasteripddr vrrptrapewmasterreason 11 vrrptraputhfail ure Value of sysuptime vrrptraputhfailure ( ) vrrptrappacketsrc vrrptraputherrortype 12 vrrptrapprotoerr or Value of sysuptime vrrptrapprotoerror ( ) vrrptrapprotoerrreason 13 ospfvirtifstatech ange Value of sysuptime ospfvirtifstatechange ( ) ospfrouterid ospfvirtifreaid ospfvirtifeighbor ospfvirtifstate 14 ospfbrstatecha nge Value of sysuptime ospfbrstatechange ( ) ospfrouterid ospfbripddr ospfbrddresslessindex ospfbrrtrid ospfbrstate 15 ospfvirtbrstate Change Value of sysuptime ospfvirtbrstatechange ( ) ospfrouterid ospfvirtbrrea ospfvirtbrrtrid ospfvirtbrstate 16 ospfifconfigerro r Value of sysuptime ospfifconfigerror ( ) ospfrouterid ospfifipddress ospfddresslessif ospfpacketsrc ospfconfigerrortype ospfpackettype 279

298 4. Supported MIB Traps o. Type Trap PDU Data Value Variable-Binding [1](SysUpTime.0) Variable-Binding [2](SnmpTrapOID.0) Variable-Binding [3 -] 17 ospfvirtifconfig Error Value of sysuptime ospfvirtifconfigerror ( ) ospfrouterid ospfvirtifreaid ospfvirtifeighbor ospfconfigerrortype ospfpackettype 18 ospfifuthfailure Value of sysuptime ospfifuthfailure ( ) ospfrouterid ospfifipddress ospfddresslessif ospfpacketsrc ospfconfigerrortype ospfpackettype 19 ospfvirtifuthfa ilure Value of sysuptime ospfvirtifuthfailure ( ) ospfrouterid ospfvirtifreaid ospfvirtifeighbor ospfconfigerrortype ospfpackettype 20 ospfifstatechang e Value of sysuptime ospfifstatechange ( ) ospfrouterid ospfifipddress ospfddresslessif ospfifstate 21 pethpseportonof fotification Value of sysuptime pethpseportonoffotification ( ) pethpseportdetectionstatus 22 pethmainpoweru sageonotificati on Value of sysuptime pethmainpowerusageonotif ication ( ) pethmainpseconsumptionpower 23 pethmainpoweru sageoffotificati on Value of sysuptime pethmainpowerusageoffotif ication ( ) pethmainpseconsumptionpower 24 ax3640ssystemm sgtrap Value of sysuptime ax3640ssystemmsgtrap ( ) ax3640ssystemmsgtype ax3640ssystemmsgtimestamp ax3640ssystemmsglevel ax3640ssystemmsgeventpoint ax3640ssystemmsgeventinterfaceid ax3640ssystemmsgeventcode ax3640ssystemmsgdditionalcode ax3640ssystemmsgtext 25 ax3640stemperat uretrap Value of sysuptime ax3640stemperaturetrap ( ) ax3640schassisindex ax3640stemperaturestatusindex ax3640stemperaturestatusdescr ax3640stemperaturestatusvalue ax3640stemperaturestate 26 ax3640sxrpstat etransitiontrap Value of sysuptime ax3640sxrpstatetransitiont rap ( ) axsxrpgroupringid axsxrpgroupmode axsxrpgroupringttribute axsxrpgroupmonitoringstate 27 ax3640sgsrpstat etransitiontrap Value of sysuptime ax3640sgsrpstatetransitiontr ap ( ) axsgsrpgroupid axsgsrpvlangroupid axsgsrpstate 280

299 4. Supported MIB Traps o. Type Trap PDU Data Value Variable-Binding [1](SysUpTime.0) Variable-Binding [2](SnmpTrapOID.0) Variable-Binding [3 -] 28 axsospfvirtifstat echange Value of sysuptime axsospfvirtifstatechange ( ) axsospfvirtifdomainumber axsospfrouterid axsospfvirtifreaid axsospfvirtifeighbor axsospfvirtifstate 29 axsospfbrstate Change Value of sysuptime axsospfbrstatechange ( ) axsospfbrdomainumber axsospfrouterid axsospfbripddr axsospfbrddresslessindex axsospfbrrtrid axsospfbrstate 30 axsospfvirtbrs tatechange Value of sysuptime axsospfvirtbrstatechange ( ) axsospfvirtbrdomainumber axsospfrouterid axsospfvirtbrrea axsospfvirtbrrtrid axsospfvirtbrstate 31 axsospfifconfig Error Value of sysuptime axsospfifconfigerror ( ) axsospfifdomainumber axsospfrouterid axsospfifipddress axsospfddresslessif axsospfpacketsrc axsospfconfigerrortype axsospfpackettype 32 axsospfvirtifcon figerror Value of sysuptime axsospfvirtifconfigerror ( ) axsospfvirtifdomainumber axsospfrouterid axsospfvirtifreaid axsospfvirtifeighbor axsospfconfigerrortype axsospfpackettype 33 axsospfifuthfai lure Value of sysuptime axsospfifuthfailure ( ) axsospfifdomainumber axsospfrouterid axsospfifipddress axsospfddresslessif axsospfpacketsrc axsospfconfigerrortype axsospfpackettype 34 axsospfvirtifut hfailure Value of sysuptime axsospfvirtifuthfailure ( ) axsospfvirtifdomainumber axsospfrouterid axsospfvirtifreaid axsospfvirtifeighbor axsospfconfigerrortype axsospfpackettype 35 axsospfifstatech ange Value of sysuptime axsospfifstatechange ( ) axsospfifdomainumber axsospfrouterid axsospfifipddress axsospfddresslessif axsospfifstate 36 ax3640sirfanst optrap Value of sysuptime ax3640sirfanstoptrap ( ) one 37 ax3640spowersu pplyfailuretrap Value of sysuptime ax3640spowersupplyfailuret rap ( ) one 281

300 4. Supported MIB Traps o. Type Trap PDU Data Value Variable-Binding [1](SysUpTime.0) Variable-Binding [2](SnmpTrapOID.0) Variable-Binding [3 -] 38 ax3640sloginsuc cesstrap Value of sysuptime ax3640sloginsuccesstrap ( ) axsloginame axslogintime axsloginlocation axsloginline 39 ax3640sloginfai luretrap Value of sysuptime ax3640sloginfailuretrap ( ) axsloginame axsloginfailuretime axsloginlocation axsloginline 40 ax3640slogouttr ap Value of sysuptime ax3640slogouttrap ( ) axsloginame axslogintime axslogouttime axsloginlocation axsloginline axslogoutstatus 41 ax3640smemory UsageTrap Value of sysuptime ax3640smemoryusagetrap ( ) one 42 axsoadpeighbo rcachelastchang etrap Value of sysuptime axsoadpeighborcachelastch angetrap ( ) axsoadpeighborcachelastchange 43 ax3640sframeerr orreceivetrap Value of sysuptime ax3640sframeerrorreceivetr ap ( ) ifindex 44 ax3640sframeerr orsendtrap Value of sysuptime ax3640sframeerrorsendtrap ( ) ifindex 45 ax3640sbroadcas tstormdetecttrap Value of sysuptime ax3640sbroadcaststormdetect Trap ( ) ifindex 46 ax3640smulticast StormDetectTrap Value of sysuptime ax3640smulticaststormdetect Trap ( ) ifindex 47 ax3640sunicastst ormdetecttrap Value of sysuptime ax3640sunicaststormdetecttr ap ( ) ifindex 48 ax3640sbroadcas tstormportinactiv atetrap Value of sysuptime ax3640sbroadcaststormportin activatetrap ( ) ifindex 282

301 4. Supported MIB Traps o. Type Trap PDU Data Value Variable-Binding [1](SysUpTime.0) Variable-Binding [2](SnmpTrapOID.0) Variable-Binding [3 -] 49 ax3640smulticast StormPortInactiv atetrap Value of sysuptime ax3640smulticaststormportin activatetrap ( ) ifindex 50 ax3640sunicastst ormportinactivate Trap Value of sysuptime ax3640sunicaststormportinac tivatetrap ( ) ifindex 51 ax3640sbroadcas tstormrecovertr ap Value of sysuptime ax3640sbroadcaststormrecov ertrap ( ) ifindex 52 ax3640smulticast StormRecoverTra p Value of sysuptime ax3640smulticaststormrecov ertrap ( ) ifindex 53 ax3640sunicastst ormrecovertrap Value of sysuptime ax3640sunicaststormrecover Trap ( ) ifindex 54 ax3640sefmoam UdldPortInactivat etrap Value of sysuptime ax3640sefmoamudldportinac tivatetrap ( ) ifindex 55 ax3640sefmoam LoopDetectPortIn activatetrap Value of sysuptime ax3640sefmoamloopdetectp ortinactivatetrap ( ) ifindex 283

302 4. Supported MIB Traps 4.4 Supported Trap-PDU Parameters[CB 2000][OS-L3S] The parameters of the Trap-PDU and InformRequest-PDU (SMPv2C/SMPv3) for SMPv1 are shown in Table 4-6: List of supported parameters of the Trap-PDU (for SMPv1), and those for SMPv2C/SMPv3 are shown in Table 4-7: List of supported parameters of Trap-PDU and InformRequest-PDU (for SMPv2C/SMPv3). Table 4-6: List of supported parameters of the Trap-PDU (for SMPv1) # Type Trap-PDU data value enterprise agentaddr generictrap specifictrap time-stamp variable-bindings 1 coldstart sysobjectid of the Switch warmstart sysobjectid of the Switch linkdown sysobjectid of the Switch linkup sysobjectid of the Switch authentication Failure sysobjectid of the Switch bgpestablished bgptraps Specific IP 0 0 sysuptime address # value Specific IP 1 0 sysuptime address # value Specific IP 2 0 sysuptime address # value Specific IP 3 0 sysuptime address # value Specific IP 4 0 sysuptime address # value Specific IP 6 1 sysuptime address # value one one ifindex However, the following MIBs are obtained when private is set for a link_trap_bind_i nfo parameter by using the snmp-server-trap s configuration command: ifindex ifdescr iftype ifindex However, the following MIBs are obtained when private is set for a link_trap_bind_i nfo parameter by using the snmp-server-trap s configuration command: ifindex ifdescr iftype one bgppeerlasterror bgppeerstate 284

303 4. Supported MIB Traps # Type Trap-PDU data value enterprise agentaddr generictrap specifictrap time-stamp variable-bindings 7 bgpbackwardtransiti on bgptraps Specific IP 6 2 sysuptime address # value bgppeerlasterror bgppeerstate 8 risinglarm rmon fallinglarm rmon vrrptrapewmaster vrrpmib vrrptraputhfailure vrrpmib vrrptrapprotoerror vrrpmib Specific IP 6 1 sysuptime address # value Specific IP 6 2 sysuptime address # value Specific IP 6 1 sysuptime address # value Specific IP 6 2 sysuptime address # value Specific IP 6 3 sysuptime address # value alarmindex alarmvariable alarmsampletype alarmvalue alarmrisingthreshold alarmindex alarmvariable alarmsampletype alarmvalue alarmfallingthreshold vrrpoperationsmasteri pddr vrrptrapewmasterre ason vrrptrappacketsrc vrrptraputherrortyp e vrrptrapprotoerrreaso n 13 ospfvirtifstatechang e ospftraps Specific IP 6 1 sysuptime address # value ospfrouterid ospfvirtifreaid ospfvirtifeighbor ospfvirtifstate 14 ospfbrstatechange ospftraps Specific IP 6 2 sysuptime address # value ospfrouterid ospfbripddr ospfbrddresslessin dex ospfbrrtrid ospfbrstate 15 ospfvirtbrstatecha nge ospftraps Specific IP 6 3 sysuptime address # value ospfrouterid ospfvirtbrrea ospfvirtbrrtrid ospfvirtbrstate 16 ospfifconfigerror ospftraps Specific IP 6 4 sysuptime address # value ospfrouterid ospfifipddress ospfddresslessif ospfpacketsrc ospfconfigerrortype ospfpackettype 17 ospfvirtifconfigerro r ospftraps Specific IP 6 5 sysuptime address # value ospfrouterid ospfvirtifreaid ospfvirtifeighbor ospfconfigerrortype ospfpackettype 285

304 4. Supported MIB Traps # Type Trap-PDU data value enterprise agentaddr generictrap specifictrap time-stamp variable-bindings 18 ospfifuthfailure ospftraps ospfvirtifuthfailure ospftraps ospfifstatechange ospftraps Specific IP 6 6 sysuptime address # value Specific IP 6 7 sysuptime address # value Specific IP 6 16 sysuptime address # value ospfrouterid ospfifipddress ospfddresslessif ospfpacketsrc ospfconfigerrortype ospfpackettype ospfrouterid ospfvirtifreaid ospfvirtifeighbor ospfconfigerrortype ospfpackettype ospfrouterid ospfifipddress ospfddresslessif ospfifstate 21 dot1agcfmfaultlar m ieee8021cfm Mib Specific IP 6 1 sysuptime address # value dot1agcfmmdindex dot1agcfmmaindex dot1agcfmmepidentifi er 22 ax3650ssystemmsgt rap sysobjectid of the Switch Specific IP 6 1 sysuptime address # value ax3650ssystemmsgty pe ax3650ssystemmsgti mestamp ax3650ssystemmsglev el ax3650ssystemmsgeve ntpoint ax3650ssystemmsgeve ntinterfaceid ax3650ssystemmsgeve ntcode ax3650ssystemmsgd ditionalcode ax3650ssystemmsgtex t 23 ax3650stemperature Trap sysobjectid of the Switch Specific IP 6 4 sysuptime address # value ax3650schassisindex ax3650stemperaturest atusindex ax3650stemperaturest atusdescr ax3650stemperaturest atusvalue ax3650stemperaturest ate 24 ax3650sxrpstatetra nsitiontrap sysobjectid of the Switch Specific IP 6 36 sysuptime address # value axsxrpgroupringid axsxrpgroupmode axsxrpgroupringttr ibute axsxrpgroupmonitori ngstate 25 ax3650sxrpmultifa ultdetectionstarttrap sysobjectid of the Switch Specific IP 6 41 sysuptime address # value axsxrpgroupringid axsxrpgroupmode axsxrpgroupringttr ibute 286

305 4. Supported MIB Traps # Type Trap-PDU data value enterprise agentaddr generictrap specifictrap time-stamp variable-bindings 26 ax3650sxrpmultifa ultdetectionstatetran sitiontrap sysobjectid of the Switch Specific IP 6 42 sysuptime address # value axsxrpgroupringid axsxrpgroupmode axsxrpgroupringttr ibute axsxrpgroupmultifa ultdetectionstate 27 ax3650sgsrpstatetra nsitiontrap sysobjectid of the Switch Specific IP 6 6 sysuptime address # value axsgsrpgroupid axsgsrpvlangroupid axsgsrpstate 28 ax3650sl2ldlinkdo wn sysobjectid of the Switch Specific IP 6 51 sysuptime address # value axsl2ldportifindex axsl2ldportsourceport Ifindex axsl2ldportdestination PortIfindex axsl2ldportsourcevlan 29 ax3650sl2ldlinkup sysobjectid of the Switch Specific IP 6 52 sysuptime address # value axsl2ldportifindex 30 ax3650sl2ldloopdet ection sysobjectid of the Switch Specific IP 6 53 sysuptime address # value axsl2ldportindex axsl2ldportifindex axsl2ldportsourceport Ifindex axsl2ldportsourcevlan 31 axsospfvirtifstatech ange axsospftraps Specific IP 6 1 sysuptime address # value axsospfvirtifdomain umber axsospfrouterid axsospfvirtifreaid axsospfvirtifeighbor axsospfvirtifstate 32 axsospfbrstatecha nge axsospftraps Specific IP 6 2 sysuptime address # value axsospfbrdomainu mber axsospfrouterid axsospfbripddr axsospfbrddressles sindex axsospfbrrtrid axsospfbrstate 33 axsospfvirtbrstate Change axsospftraps Specific IP 6 3 sysuptime address # value axsospfvirtbrdomai number axsospfrouterid axsospfvirtbrrea axsospfvirtbrrtrid axsospfvirtbrstate 34 axsospfifconfigerror axsospftraps Specific IP 6 4 sysuptime address # value axsospfifdomainum ber axsospfrouterid axsospfifipddress axsospfddresslessif axsospfpacketsrc axsospfconfigerrorty pe axsospfpackettype 287

306 4. Supported MIB Traps # Type Trap-PDU data value enterprise agentaddr generictrap specifictrap time-stamp variable-bindings 35 axsospfvirtifconfig Error axsospftraps Specific IP 6 5 sysuptime address # value axsospfvirtifdomain umber axsospfrouterid axsospfvirtifreaid axsospfvirtifeighbor axsospfconfigerrorty pe axsospfpackettype 36 axsospfifuthfailure axsospftraps Specific IP 6 6 sysuptime address # value axsospfifdomainum ber axsospfrouterid axsospfifipddress axsospfddresslessif axsospfpacketsrc axsospfconfigerrorty pe axsospfpackettype 37 axsospfvirtifuthfai lure axsospftraps Specific IP 6 7 sysuptime address # value axsospfvirtifdomain umber axsospfrouterid axsospfvirtifreaid axsospfvirtifeighbor axsospfconfigerrorty pe axsospfpackettype 38 axsospfifstatechang e axsospftraps Specific IP 6 16 sysuptime address # value axsospfifdomainum ber axsospfrouterid axsospfifipddress axsospfddresslessif axsospfifstate 39 axsstaticgatewaystat echange axsstatictrap Specific IP 6 1 sysuptime address # value axsstaticgatewayddr axsstaticgatewaystate 40 axsstaticipv6gatewa ystatechange axsstatictrap Specific IP 6 2 sysuptime address # value axsstaticipv6ifindex axsstaticipv6gateway ddr axsstaticipv6gateways tate 41 ax3650sloginsucces strap sysobjectid of the Switch Specific IP 6 10 sysuptime address # value axsloginame axslogintime axsloginlocation axsloginline 42 ax3650sloginfailure Trap sysobjectid of the Switch Specific IP 6 11 sysuptime address # value axsloginame axsloginfailuretime axsloginlocation axsloginline 43 ax3650slogouttrap sysobjectid of the Switch Specific IP 6 12 sysuptime address # value axsloginame axslogintime axslogouttime axsloginlocation axsloginline axslogoutstatus 288

307 4. Supported MIB Traps # Type Trap-PDU data value enterprise agentaddr generictrap specifictrap time-stamp variable-bindings 44 ax3650smemoryusag etrap sysobjectid of the Switch Specific IP 6 13 sysuptime address # value one 45 axsoadpeighborcac helastchangetrap axsoadpmib otifications Specific IP 6 1 sysuptime address # value axsoadpeighborcach elastchange 46 ax3650sframeerrorr eceivetrap sysobjectid of the Switch Specific IP 6 18 sysuptime address # value ifindex 47 ax3650sframeerrors endtrap sysobjectid of the Switch Specific IP 6 19 sysuptime address # value ifindex 48 ax3650sbroadcaststo rmdetecttrap sysobjectid of the Switch Specific IP 6 20 sysuptime address # value ifindex 49 ax3650smulticaststor mdetecttrap sysobjectid of the Switch Specific IP 6 21 sysuptime address # value ifindex 50 ax3650sunicaststorm DetectTrap sysobjectid of the Switch Specific IP 6 22 sysuptime address # value ifindex 51 ax3650sbroadcaststo rmportinactivatetrap sysobjectid of the Switch Specific IP 6 23 sysuptime address # value ifindex 52 ax3650smulticaststor mportinactivatetrap sysobjectid of the Switch Specific IP 6 24 sysuptime address # value ifindex 53 ax3650sunicaststorm PortInactivateTrap sysobjectid of the Switch Specific IP 6 25 sysuptime address # value ifindex 54 ax3650sbroadcaststo rmrecovertrap sysobjectid of the Switch Specific IP 6 26 sysuptime address # value ifindex 55 ax3650smulticaststor mrecovertrap sysobjectid of the Switch Specific IP 6 27 sysuptime address # value ifindex 289

308 4. Supported MIB Traps # Type Trap-PDU data value enterprise agentaddr generictrap specifictrap time-stamp variable-bindings 56 ax3650sunicaststorm RecoverTrap sysobjectid of the Switch Specific IP 6 28 sysuptime address # value ifindex # The value of agent-addr is set according to the following priorities: 1. The IPv4 address set by using the snmp-server traps agent-address configuration command 2. The IPv4 address that is set to a loopback interface 3. The IPv4 address of an interface in which an IPv4 address is set and that has the lowest ifindex. The target interface is VL is set if none of the IPv4 addresses described in 1 to 3 is set. Table 4-7: List of supported parameters of Trap-PDU and InformRequest-PDU (for SMPv2C/SMPv3) # Type Trap-PDU and InformRequest-PDU data value Variable-Binding [1](SysUpTime.0) Variable-Binding [2](SnmpTrapOID.0) Variable-Binding [3-] 1 coldstart sysuptime value coldstart ( ) 2 warmstart sysuptime value warmstart ( ) 3 linkdown sysuptime value linkdown ( ) 4 linkup sysuptime value linkup ( ) one one ifindex ifdminstatus ifoperstatus However, the following MIBs are obtained when private is set for a link_trap_bind_info parameter by using the snmp-server-traps configuration command: ifindex ifdescr iftype ifindex ifdminstatus ifoperstatus However, the following MIBs are obtained when private is set for a link_trap_bind_info parameter by using the snmp-server-traps configuration command: ifindex ifdescr iftype 5 authentication Failure sysuptime value authentication Failure ( ) one 6 bgpestablished sysuptime value bgpestablished ( ) bgppeerlasterror bgppeerstate 290

309 4. Supported MIB Traps # Type Trap-PDU and InformRequest-PDU data value Variable-Binding [1](SysUpTime.0) Variable-Binding [2](SnmpTrapOID.0) Variable-Binding [3-] 7 bgpbackwardtra nsition sysuptime value bgpbackwardtransition ( ) bgppeerlasterror bgppeerstate 8 risinglarm sysuptime value risinglarm ( ) 9 fallinglarm sysuptime value fallinglarm ( ) alarmindex alarmvariable alarmsampletype alarmvalue alarmrisingthreshold alarmindex alarmvariable alarmsampletype alarmvalue alarmfallingthreshold 10 vrrptrapewmas ter sysuptime value vrrptrapewmaster ( ) vrrpoperationsmasteripddr vrrptrapewmasterreason 11 vrrptraputhfail ure sysuptime value vrrptraputhfailure ( ) vrrptrappacketsrc vrrptraputherrortype 12 vrrptrapprotoerr or sysuptime value vrrptrapprotoerror ( ) vrrptrapprotoerrreason 13 ospfvirtifstatech ange sysuptime value ospfvirtifstatechange ( ) ospfrouterid ospfvirtifreaid ospfvirtifeighbor ospfvirtifstate 14 ospfbrstatecha nge sysuptime value ospfbrstatechange ( ) ospfrouterid ospfbripddr ospfbrddresslessindex ospfbrrtrid ospfbrstate 15 ospfvirtbrstate Change sysuptime value ospfvirtbrstatechange ( ) ospfrouterid ospfvirtbrrea ospfvirtbrrtrid ospfvirtbrstate 16 ospfifconfigerro r sysuptime value ospfifconfigerror ( ) ospfrouterid ospfifipddress ospfddresslessif ospfpacketsrc ospfconfigerrortype ospfpackettype 17 ospfvirtifconfig Error sysuptime value ospfvirtifconfigerror ( ) ospfrouterid ospfvirtifreaid ospfvirtifeighbor ospfconfigerrortype ospfpackettype 18 ospfifuthfailur e sysuptime value ospfifuthfailure ( ) ospfrouterid ospfifipddress ospfddresslessif ospfpacketsrc ospfconfigerrortype ospfpackettype 291

310 4. Supported MIB Traps # Type Trap-PDU and InformRequest-PDU data value Variable-Binding [1](SysUpTime.0) Variable-Binding [2](SnmpTrapOID.0) Variable-Binding [3-] 19 ospfvirtifuthfa ilure sysuptime value ospfvirtifuthfailure ( ) ospfrouterid ospfvirtifreaid ospfvirtifeighbor ospfconfigerrortype ospfpackettype 20 ospfifstatechang e sysuptime value ospfifstatechange ( ) ospfrouterid ospfifipddress ospfddresslessif ospfifstate 21 dot1agcfmfault larm sysuptime value dot1agcfmfaultlarm ( ) dot1agcfmmdindex dot1agcfmmaindex dot1agcfmmepidentifier 22 ax3650ssystemm sgtrap sysuptime value ax3650ssystemmsgtrap ( ) ax3650ssystemmsgtype ax3650ssystemmsgtimestamp ax3650ssystemmsglevel ax3650ssystemmsgeventpoint ax3650ssystemmsgeventinterfaceid ax3650ssystemmsgeventcode ax3650ssystemmsgdditionalcode ax3650ssystemmsgtext 23 ax3650stemperat uretrap sysuptime value ax3650stemperaturetrap ( ) ax3650schassisindex ax3650stemperaturestatusindex ax3650stemperaturestatusdescr ax3650stemperaturestatusvalue ax3650stemperaturestate 24 ax3650sxrpstat etransitiontrap sysuptime value ax3650sxrpstatetransitiont rap ( ) axsxrpgroupringid axsxrpgroupmode axsxrpgroupringttribute axsxrpgroupmonitoringstate 25 ax3650sxrpmul tifaultdetections tarttrap sysuptime value ax3650sxrpmultifaultdetect ionstarttrap ( ) axsxrpgroupringid axsxrpgroupmode axsxrpgroupringttribute 26 ax3650sxrpmul tifaultdetections tatetransitiontra p sysuptime value ax3650sxrpmultifaultdetect ionstatetransitiontrap ( ) axsxrpgroupringid axsxrpgroupmode axsxrpgroupringttribute axsxrpgroupmultifaultdetectionstate 27 ax3650sgsrpstat etransitiontrap sysuptime value ax3650sgsrpstatetransitiont rap ( ) axsgsrpgroupid axsgsrpvlangroupid axsgsrpstate 28 ax3650sl2ldlink Down sysuptime value ax3650sl2ldlinkdown ( ) axsl2ldportifindex axsl2ldportsourceportifindex axsl2ldportdestinationportifindex axsl2ldportsourcevlan 29 ax3650sl2ldlink Up sysuptime value ax3650sl2ldlinkup ( ) axsl2ldportifindex 292

311 4. Supported MIB Traps # Type Trap-PDU and InformRequest-PDU data value Variable-Binding [1](SysUpTime.0) Variable-Binding [2](SnmpTrapOID.0) Variable-Binding [3-] 30 ax3650sl2ldloo pdetection sysuptime value ax3650sl2ldloopdetection ( ) axsl2ldportindex axsl2ldportifindex axsl2ldportsourceportifindex axsl2ldportsourcevlan 31 axsospfvirtifstat echange sysuptime value axsospfvirtifstatechange ( ) axsospfvirtifdomainumber axsospfrouterid axsospfvirtifreaid axsospfvirtifeighbor axsospfvirtifstate 32 axsospfbrstate Change sysuptime value axsospfbrstatechange ( ) axsospfbrdomainumber axsospfrouterid axsospfbripddr axsospfbrddresslessindex axsospfbrrtrid axsospfbrstate 33 axsospfvirtbrs tatechange sysuptime value axsospfvirtbrstatechange ( ) axsospfvirtbrdomainumber axsospfrouterid axsospfvirtbrrea axsospfvirtbrrtrid axsospfvirtbrstate 34 axsospfifconfig Error sysuptime value axsospfifconfigerror ( ) axsospfifdomainumber axsospfrouterid axsospfifipddress axsospfddresslessif axsospfpacketsrc axsospfconfigerrortype axsospfpackettype 35 axsospfvirtifco nfigerror sysuptime value axsospfvirtifconfigerror ( ) axsospfvirtifdomainumber axsospfrouterid axsospfvirtifreaid axsospfvirtifeighbor axsospfconfigerrortype axsospfpackettype 36 axsospfifuthfa ilure sysuptime value axsospfifuthfailure ( ) axsospfifdomainumber axsospfrouterid axsospfifipddress axsospfddresslessif axsospfpacketsrc axsospfconfigerrortype axsospfpackettype 37 axsospfvirtifut hfailure sysuptime value axsospfvirtifuthfailure ( ) axsospfvirtifdomainumber axsospfrouterid axsospfvirtifreaid axsospfvirtifeighbor axsospfconfigerrortype axsospfpackettype 38 axsospfifstatech ange sysuptime value axsospfifstatechange ( ) axsospfifdomainumber axsospfrouterid axsospfifipddress axsospfddresslessif axsospfifstate 293

312 4. Supported MIB Traps # Type Trap-PDU and InformRequest-PDU data value Variable-Binding [1](SysUpTime.0) Variable-Binding [2](SnmpTrapOID.0) Variable-Binding [3-] 39 axsstaticgateway StateChange sysuptime value axsstaticgatewaystatechange ( ) axsstaticgatewayddr axsstaticgatewaystate 40 axsstaticipv6gat ewaystatechange sysuptime value axsstaticipv6gatewaystatech ange ( ) axsstaticipv6ifindex axsstaticipv6gatewayddr axsstaticipv6gatewaystate 41 ax3650sloginsu ccesstrap sysuptime value ax3650sloginsuccesstrap ( ) axsloginame axslogintime axsloginlocation axsloginline 42 ax3650sloginfai luretrap sysuptime value ax3650sloginfailuretrap ( ) axsloginame axsloginfailuretime axsloginlocation axsloginline 43 ax3650slogouttr ap sysuptime value ax3650slogouttrap ( ) axsloginame axslogintime axslogouttime axsloginlocation axsloginline axslogoutstatus 44 ax3650smemory UsageTrap sysuptime value ax3650smemoryusagetrap ( ) one 45 axsoadpeighbo rcachelastchang etrap sysuptime value axsoadpeighborcachelastc hangetrap ( ) axsoadpeighborcachelastchange 46 ax3650sframeerr orreceivetrap sysuptime value ax3650sframeerrorreceivetr ap ( ) ifindex 47 ax3650sframeerr orsendtrap sysuptime value ax3650sframeerrorsendtrap ( ) ifindex 48 ax3650sbroadcas tstormdetecttra p sysuptime value ax3650sbroadcaststormdetec ttrap ( ) ifindex 49 ax3650smulticast StormDetectTrap sysuptime value ax3650smulticaststormdetect Trap ( ) ifindex 294

313 4. Supported MIB Traps # Type Trap-PDU and InformRequest-PDU data value Variable-Binding [1](SysUpTime.0) Variable-Binding [2](SnmpTrapOID.0) Variable-Binding [3-] 50 ax3650sunicasts tormdetecttrap sysuptime value ax3650sunicaststormdetectt rap ( ) ifindex 51 ax3650sbroadcas tstormportinactiv atetrap sysuptime value ax3650sbroadcaststormportin activatetrap ( ) ifindex 52 ax3650smulticast StormPortInactiv atetrap sysuptime value ax3650smulticaststormportin activatetrap ( ) ifindex 53 ax3650sunicasts tormportinactivat etrap sysuptime value ax3650sunicaststormportinac tivatetrap ( ) ifindex 54 ax3650sbroadcas tstormrecovertr ap sysuptime value ax3650sbroadcaststormreco vertrap ( ) ifindex 55 ax3650smulticast StormRecoverTra p sysuptime value ax3650smulticaststormrecov ertrap ( ) ifindex 56 ax3650sunicasts tormrecovertrap sysuptime value ax3650sunicaststormrecover Trap ( ) ifindex 295

314 4. Supported MIB Traps 296

315 ppendix ppendix Private MIB ames and Object IDs 297

316 ppendix Private MIB ames and Object IDs ppendix Private MIB ames and Object IDs The correspondence between MIB names and object IDs of private MIB, HP private MIB, and InMon private MIB used in this system is given below. ppendix.1 Private MIB The correspondence between private MIB names and object IDs is given in the table below. (1) axsstats group The correspondence between MIB names of axsstats group and object IDs is given below. Table -1: Correspondence between MIB ames of axsstats Group and Object IDs MIB ame Object ID axsstats axsifstats axsifstatstable axsifstatsentry axsifstatsindex axsifstatsame axsifstatsinmegaoctets axsifstatsinucastmegapkts axsifstatsinmulticastmegapkts axsifstatsinbroadcastmegapkts axsifstatsoutmegaoctets axsifstatsoutucastmegapkts axsifstatsoutmulticastmegapkts axsifstatsoutbroadcastmegapkts axsifstatshighspeed axsqos axsethertxqos axsethertxqosstatstable axsethertxqosstatsentry axsethertxqosstatsindex axsethertxqosstatsmaxqnum axsethertxqosstatslimitqlen axsethertxqosstatstotaloutframes axsethertxqosstatstotaloutbyteshigh axsethertxqosstatstotaloutbyteslow axsethertxqosstatstotaldiscardframes axsethertxqosstatsqueuetable axsethertxqosstatsqueueentry axsethertxqosstatsqueueindex

317 ppendix Private MIB ames and Object IDs MIB ame Object ID axsethertxqosstatsqueuequeindex axsethertxqosstatsqueueqlen axsethertxqosstatsqueuemaxqlen axsethertxqosstatsqueuediscardframesclass axsethertxqosstatsqueuediscardframesclass axsethertxqosstatsqueuediscardframesclass axsethertxqosstatsqueuediscardframesclass axsdhcp axsdhcpddrvalue axsdhcpfreeddrvalue (2) axsgsrpmib group The correspondence between MIB names of axsgsrpmib group and object IDs is given below. Table -2: Correspondence between MIB ames of axsgsrpmib Group and Object IDs MIB ame Object ID axsgsrp axsgsrpgrouptable axsgsrpgroupentry axsgsrpgroupid axsgsrpgrouprowstatus axsgsrpmacddress axsgsrpdvertiseholdtime axsgsrpdvertiseinterval axsgsrpselectionpattern axsgsrplayer3redundancy axsgsrpvlangrouptable axsgsrpvlangroupentry axsgsrpvlangroupid axsgsrpvlangrouprowstatus axsgsrpstate axsgsrppriority axsgsrpctiveports axsgsrptransitiontomastercounts axsgsrptransitionfrommastercounts axsgsrplasttransitiontime axsgsrpvirtualmacddress axsgsrpeighborgrouptable axsgsrpeighborgroupentry axsgsrpeighborgroupid axsgsrpeighbormacddress

318 ppendix Private MIB ames and Object IDs MIB ame Object ID axsgsrpeighbordvertiseholdtime axsgsrpeighbordvertiseinterval axsgsrpeighborselectionpattern axsgsrpeighborvlangrouptable axsgsrpeighborvlangroupentry axsgsrpeighborvlangroupid axsgsrpeighborstate axsgsrpeighborpriority axsgsrpeighborctiveports (3) axsfdb group The correspondence between MIB names of axsfdb group and object IDs is given below. Table -3: Correspondence between MIB ames of axsfdb Group and Object IDs MIB ame Object ID axsfdb axsfdbcountertable axsfdbcounterentry axsfdbcounterifindex axsfdbcounterlineindex axsfdbcountercounts axsfdbcountertype axsfdbcounterlimits (4) axsvlan group The correspondence between MIB names of axsvlan group and object IDs is given below. Table -4: Correspondence between MIB ames of axsvlan Group and Object IDs MIB ame Object ID axsvlan axsvlanbridge axsvlanbridgebase axsvbbasetable axsvbbaseentry axsvbbaseindex axsvbbasebridgeddress axsvbbaseumports axsvbbasetype axsvbbasevlanifindex axsvbbasevlantype axsvbbasevlanid

319 ppendix Private MIB ames and Object IDs MIB ame Object ID axsvbbasessociatedprimaryvlan axsvbbaseifstatus axsvbbaselastchange axsvbbaseprivatevlantype axsvbbaseporttable axsvbbaseportentry axsvbbaseportindex axsvbbaseport axsvbbaseportifindex axsvbbaseportcircuit axsvbbaseportdelayexceededdiscards axsvbbaseportmtuexceededdiscards axsvbbaseportstate axsvbbaseporttaggedstate axsvbbaseporttranslatedtagid axsvlanbridgestp axsvbstptable axsvbstpentry axsvbstpindex axsvbstpprotocolspecification axsvbstppriority axsvbstptimesincetopologychange axsvbstptopchanges axsvbstpdesignatedroot axsvbstprootcost axsvbstprootport axsvbstpmaxge axsvbstphellotime axsvbstpholdtime axsvbstpforwarddelay axsvbstpbridgemaxge axsvbstpbridgehellotime axsvbstpbridgeforwarddelay axsvbstpporttable axsvbstpportentry axsvbstpportindex axsvbstpport axsvbstpportpriority axsvbstpportstate axsvbstpportenable

320 ppendix Private MIB ames and Object IDs MIB ame Object ID axsvbstpportpathcost axsvbstpportdesignatedroot axsvbstpportdesignatedcost axsvbstpportdesignatedbridge axsvbstpportdesignatedport axsvbstpportforwardtransitions axsvlanbridgetp axsvbtptable axsvbtpentry axsvbtpindex axsvbtplearnedentrydiscards axsvbtpgingtime axsvbtpfdbtable axsvbtpfdbentry axsvbtpfdbindex axsvbtpfdbddress axsvbtpfdbport axsvbtpfdbstatus axsvbtpporttable axsvbtpportentry axsvbtpportindex axsvbtpport axsvbtpportmaxinfo axsvbtpportinframes axsvbtpportoutframes axsvbtpportindiscards axsvlanbridgestatic axsvbstatictable axsvbstaticentry axsvbstaticindex axsvbstaticddress axsvbstaticreceiveport axsvbstaticllowedtogoto axsvbstaticstatus axsvlanbridgemaxvlans axsvlanbridgemaxspans axsvlantagtranslation axsvlantagtranslationtable axsvlantagtranslationentry axsvlantagtranslationvlanid

321 ppendix Private MIB ames and Object IDs MIB ame Object ID axsvlantagtranslationtranslatedid axsvlantagtranslationports (5) axsoadp group The correspondence between MIB names of axsoadp group and object IDs is given below. Table -5: Correspondence between MIB ames of axsoadp Group and Object IDs MIB ame Object ID axsoadp axsoadpmibobjects axsoadpglobalinfo axsoadpglobalctive axsoadpglobalcdpctive axsoadpglobalmessageinterval axsoadpglobalholdtime axsoadpglobalcachelastchange axsoadpglobalame axsoadpglobalametype axsoadpportinfo axsoadpportconfigtable axsoadpportconfigentry axsoadpportconfigifindex axsoadpportconfigctive axsoadpeighborinfo axsoadpeighbortable axsoadpeighborentry axsoadpifindex axsoadptagid axsoadpeighborindex axsoadpeighbortagid axsoadpeighborvendortype axsoadpeighborsmpgentddresstype axsoadpeighborsmpgentddress axsoadpeighbordescr axsoadpeighbordeviceid axsoadpeighborslotport axsoadpeighborifindex axsoadpeighborifspeed axsoadpeighbordevicetype axsoadpeighborservice axsoadpeighborvtpmgmtdomain

322 ppendix Private MIB ames and Object IDs MIB ame Object ID axsoadpeighborativevl axsoadpeighborduplex axsoadpeighborpplianceid axsoadpeighborvlanid axsoadpeighborpowerconsumption axsoadpeighbormtu axsoadpeighborsysame axsoadpeighborsysobjectid axsoadpeighborsecondarysmpgentddresstype axsoadpeighborsecondarysmpgentddress axsoadpeighborphyslocation axsoadpeighborcachelastchange axsoadpeighborifhighspeed (6) axsflow group The correspondence between MIB names of axsflow group and object IDs is given below. Table -6: Correspondence between MIB ames of axsflow Group and Object IDs MIB ame Object ID axsccessfilterstats axsccessfilterstatsintable axsccessfilterstatsinentry axsccessfilterstatsinifindex axsccessfilterstatsinifindextype axsccessfilterstatsinlistindex axsccessfilterstatsinsequenceumber axsccessfilterstatsinlistame axsccessfilterstatsinmatchedpackets axsqosflowstats axsqosflowstatsintable axsqosflowstatsinentry axsqosflowstatsinifindex axsqosflowstatsinifindextype axsqosflowstatsinlistindex axsqosflowstatsinsequenceumber axsqosflowstatsinlistame axsqosflowstatsinmatchedpackets axsqosflowstatsinmatchedpacketsminunder axsqosflowstatsinmatchedpacketsminover axsqosflowstatsinmatchedpacketsmaxunder axsqosflowstatsinmatchedpacketsmaxover

323 ppendix Private MIB ames and Object IDs (7) axsl2ld group The correspondence between MIB names of axsl2ld group and object IDs is given below. Table -7: Correspondence between MIB ames of axsl2ld Group and Object IDs MIB ame Object ID axsl2ld axsl2ldglobalinfo axsl2ldversion axsl2ldloopdetectionid axsl2ldintervaltime axsl2ldoutputrate axsl2ldthreshold axsl2ldholdtime axsl2ldutorestoretime axsl2ldconfigurationvlanportcounts axsl2ldcapacityvlanportcounts axsl2ldporttable axsl2ldportentry axsl2ldportindex axsl2ldportifindex axsl2ldportstatus axsl2ldporttype axsl2ldportdetectcount axsl2ldportutorestoringtimer axsl2ldportsourceportifindex axsl2ldportdestinationportifindex axsl2ldportsourcevlan axsl2ldporthcinframes axsl2ldporthcoutframes axsl2ldporthcindiscards axsl2ldportinactivecount axsl2ldportlastinactivetime axsl2ldportlastinframestime (8) axsospf group The correspondence between MIB names of axsospf group and object IDs is given below. Table -8: Correspondence between MIB ames of axsospf Group and Object IDs MIB ame Object ID axsospf axsospfgeneraltable axsospfgeneralentry

324 ppendix Private MIB ames and Object IDs MIB ame Object ID axsospfgeneraldomainumber axsospfrouterid axsospfdminstat axsospfversionumber axsospfreabdrrtrstatus axsospfsbdrrtrstatus axsospfexternlsacount axsospfexternlsacksumsum axsospftossupport axsospforiginateewlsas axsospfrxewlsas axsospfextlsdblimit axsospfmulticastextensions axsospfreatable axsospfreaentry axsospfreadomainumber axsospfreaid axsospfuthtype axsospfimportsextern axsospfspfruns axsospfreabdrrtrcount axsospfsbdrrtrcount axsospfrealsacount axsospfrealsacksumsum axsospfreasummary axsospfreastatus axsospfstubreatable axsospfstubreaentry axsospfstubdomainumber axsospfstubreaid axsospfstubtos axsospfstubmetric axsospfstubstatus axsospfstubmetrictype axsospflsdbtable axsospflsdbentry axsospflsdbdomainumber axsospflsdbreaid axsospflsdbtype axsospflsdblsid

325 ppendix Private MIB ames and Object IDs MIB ame Object ID axsospflsdbrouterid axsospflsdbsequence axsospflsdbge axsospflsdbchecksum axsospflsdbdvertisement axsospfrearangetable axsospfrearangeentry axsospfrearangedomainumber axsospfrearangereaid axsospfrearangeet axsospfrearangemask axsospfrearangestatus axsospfrearangeeffect axsospfiftable axsospfifentry axsospfifdomainumber axsospfifipddress axsospfddresslessif axsospfifreaid axsospfiftype axsospfifdminstat axsospfifrtrpriority axsospfiftransitdelay axsospfifretransinterval axsospfifhellointerval axsospfifrtrdeadinterval axsospfifpollinterval axsospfifstate axsospfifdesignatedrouter axsospfifbackupdesignatedrouter axsospfifevents axsospfifuthkey axsospfifstatus axsospfifmulticastforwarding axsospfifmetrictable axsospfifmetricentry axsospfifmetricdomainumber axsospfifmetricipddress axsospfifmetricddresslessif axsospfifmetrictos

326 ppendix Private MIB ames and Object IDs MIB ame Object ID axsospfifmetricvalue axsospfifmetricstatus axsospfvirtiftable axsospfvirtifentry axsospfvirtifdomainumber axsospfvirtifreaid axsospfvirtifeighbor axsospfvirtiftransitdelay axsospfvirtifretransinterval axsospfvirtifhellointerval axsospfvirtifrtrdeadinterval axsospfvirtifstate axsospfvirtifevents axsospfvirtifuthkey axsospfvirtifstatus axsospfbrtable axsospfbrentry axsospfbrdomainumber axsospfbripddr axsospfbrddresslessindex axsospfbrrtrid axsospfbroptions axsospfbrpriority axsospfbrstate axsospfbrevents axsospfbrlsretransqlen axsospfbmabrstatus axsospfbmabrpermanence axsospfvirtbrtable axsospfvirtbrentry axsospfvirtbrdomainumber axsospfvirtbrrea axsospfvirtbrrtrid axsospfvirtbripddr axsospfvirtbroptions axsospfvirtbrstate axsospfvirtbrevents axsospfvirtbrlsretransqlen axsospfextlsdbtable axsospfextlsdbentry

327 ppendix Private MIB ames and Object IDs MIB ame Object ID axsospfextlsdbdomainumber axsospfextlsdbtype axsospfextlsdblsid axsospfextlsdbrouterid axsospfextlsdbsequence axsospfextlsdbge axsospfextlsdbchecksum axsospfextlsdbdvertisement axsospfreaggregatetable axsospfreaggregateentry axsospfreaggregatedomainumber axsospfreaggregatereaid axsospfreaggregatelsdbtype axsospfreaggregateet axsospfreaggregatemask axsospfreaggregatestatus axsospfreaggregateeffect axsospftrap axsospftrapcontroltable axsospftrapcontrolentry axsospftrapdomainumber axsospfsettrap axsospfconfigerrortype axsospfpackettype axsospfpacketsrc axsospftraps (9) axsospfv3mib group The correspondence between MIB names of axsospfv3mib group and object IDs is given below. Table -9: Correspondence between MIB ames of axsospfv3mib Group and Object IDs MIB ame Object ID axsospfv axsospfv3generaltable axsospfv3generalentry axsospfv3generaldomainumber axsospfv3routerid axsospfv3dminstat axsospfv3versionumber axsospfv3reabdrrtrstatus axsospfv3sbdrrtrstatus

328 ppendix Private MIB ames and Object IDs MIB ame Object ID axsospfv3sscopelsacount axsospfv3sscopelsacksumsum axsospfv3originateewlsas axsospfv3rxewlsas axsospfv3extrealsdblimit axsospfv3multicastextensions axsospfv3demandextensions axsospfv3trafficengineeringsupport axsospfv3reatable axsospfv3reaentry axsospfv3readomainumber axsospfv3reaid axsospfv3importsextern axsospfv3spfruns axsospfv3reabdrrtrcount axsospfv3sbdrrtrcount axsospfv3reascopelsacount axsospfv3reascopelsacksumsum axsospfv3reasummary axsospfv3reastatus axsospfv3stubmetric axsospfv3slsdbtable axsospfv3slsdbentry axsospfv3slsdbdomainumber axsospfv3slsdbtype axsospfv3slsdbrouterid axsospfv3slsdblsid axsospfv3slsdbsequence axsospfv3slsdbge axsospfv3slsdbchecksum axsospfv3slsdbdvertisement axsospfv3realsdbtable axsospfv3realsdbentry axsospfv3realsdbdomainumber axsospfv3realsdbreaid axsospfv3realsdbtype axsospfv3realsdbrouterid axsospfv3realsdblsid axsospfv3realsdbsequence axsospfv3realsdbge

329 ppendix Private MIB ames and Object IDs MIB ame Object ID axsospfv3realsdbchecksum axsospfv3realsdbdvertisement axsospfv3linklsdbtable axsospfv3linklsdbentry axsospfv3linklsdbdomainumber axsospfv3linklsdbifindex axsospfv3linklsdbtype axsospfv3linklsdbrouterid axsospfv3linklsdblsid axsospfv3linklsdbsequence axsospfv3linklsdbge axsospfv3linklsdbchecksum axsospfv3linklsdbdvertisement axsospfv3iftable axsospfv3ifentry axsospfv3ifdomainumber axsospfv3ifindex axsospfv3ifreaid axsospfv3iftype axsospfv3ifdminstat axsospfv3ifrtrpriority axsospfv3iftransitdelay axsospfv3ifretransinterval axsospfv3ifhellointerval axsospfv3ifrtrdeadinterval axsospfv3ifpollinterval axsospfv3ifstate axsospfv3ifdesignatedrouter axsospfv3ifbackupdesignatedrouter axsospfv3ifevents axsospfv3ifstatus axsospfv3ifmulticastforwarding axsospfv3ifdemand axsospfv3ifmetricvalue axsospfv3iflinkscopelsacount axsospfv3iflinklsacksumsum axsospfv3ifinstid axsospfv3virtiftable axsospfv3virtifentry axsospfv3virtifdomainumber

330 ppendix Private MIB ames and Object IDs MIB ame Object ID axsospfv3virtifreaid axsospfv3virtifeighbor axsospfv3virtifindex axsospfv3virtiftransitdelay axsospfv3virtifretransinterval axsospfv3virtifhellointerval axsospfv3virtifrtrdeadinterval axsospfv3virtifstate axsospfv3virtifevents axsospfv3virtifstatus axsospfv3virtiflinkscopelsacount axsospfv3virtiflinklsacksumsum axsospfv3brtable axsospfv3brentry axsospfv3brdomainumber axsospfv3brifindex axsospfv3bripv6ddr axsospfv3brrtrid axsospfv3broptions axsospfv3brpriority axsospfv3brstate axsospfv3brevents axsospfv3brlsretransqlen axsospfv3brhellosuppressed axsospfv3brifid axsospfv3virtbrtable axsospfv3virtbrentry axsospfv3virtbrdomainumber axsospfv3virtbrrea axsospfv3virtbrrtrid axsospfv3virtbrifindex axsospfv3virtbripv6ddr axsospfv3virtbroptions axsospfv3virtbrstate axsospfv3virtbrevents axsospfv3virtbrlsretransqlen axsospfv3virtbrhellosuppressed axsospfv3virtbrifid axsospfv3reaggregatetable axsospfv3reaggregateentry

331 ppendix Private MIB ames and Object IDs MIB ame Object ID axsospfv3reaggregatedomainumber axsospfv3reaggregatereaid axsospfv3reaggregaterealsdbtype axsospfv3reaggregateindex axsospfv3reaggregateprefix axsospfv3reaggregateprefixlen axsospfv3reaggregatestatus axsospfv3reaggregateeffect (10) axsbootmanagement group The correspondence between MIB names of axsbootmanagement group and object IDs is given below. Table -10: Correspondence between MIB ames of axsbootmanagement Group and Object IDs MIB ame Object ID axsbootmanagement axsbootreason (11) axslogin group The correspondence between MIB names of axslogin group and object IDs is given below. Table -11: Correspondence between MIB ames of axslogin Group and Object IDs MIB ame Object ID axslogin axsloginame axslogintime axslogouttime axsloginfailuretime axsloginlocation axsloginline axslogoutstatus (12) axslldp group The correspondence between MIB names of axslldp group and object IDs is given below. Table -12: Correspondence between MIB ames of axslldp Group and Object IDs MIB ame Object ID axslldp axslldpconfiguration axslldpmessagetxinterval axslldpmessagetxholdmultiplier axslldpreinitdelay

332 ppendix Private MIB ames and Object IDs MIB ame Object ID axslldptxdelay axslldpportconfigtable axslldpportconfigentry axslldpportconfigportum axslldpportconfigdminstatus axslldpportconfigtlvstxenable axslldpportconfigrowstatus axslldpconfigmanddrtable axslldpconfigmanddrentry axslldpconfigmanddrportstxenable axslldpstats axslldpstatstable axslldpstatsentry axslldpstatsportum axslldpstatsoperstatus axslldpstatsframesinerrors axslldpstatsframesintotal axslldpstatsframesouttotal axslldpstatstlvsinerrors axslldpstatstlvsdiscardedtotal axslldpstatscounterdiscontinuitytime axslldplocalsystemdata axslldplocchassistype axslldplocchassisid axslldplocsysame axslldplocsysdesc axslldplocsyscapsupported axslldplocsyscapenabled axslldplocporttable axslldplocportentry axslldplocportum axslldplocporttype axslldplocportid axslldplocportdesc axslldplocmanddrtable axslldplocmanddrentry axslldplocmanddrtype axslldplocmanddr axslldplocmanddrifsubtype axslldplocmanddrifid

333 ppendix Private MIB ames and Object IDs MIB ame Object ID axslldplocmanddroid axslldpremotesystemdata axslldpremtable axslldprementry axslldpremtimemark axslldpremlocalportum axslldpremindex axslldpremremotechassistype axslldpremremotechassis axslldpremremoteporttype axslldpremremoteport axslldpremportdesc axslldpremsysame axslldpremsysdesc axslldpremsyscapsupported axslldpremsyscapenabled axslldpremmanddrtable axslldpremmanddrentry axslldpremmanddrtype axslldpremmanddr axslldpremmanddrifsubtype axslldpremmanddrifid axslldpremmanddroid axslldpremorgdefinfotable axslldpremorgdefinfoentry axslldpremorgdefinfooui axslldpremorgdefinfosubtype axslldpremorgdefinfoindex axslldpremorgdefinfo axslldpremoteorigininfodata axslldpremorigininfotable axslldpremorigininfoentry axslldpremorigininfoportum axslldpremorigininfoindex axslldpremorigininfolowervlanlist axslldpremorigininfohighervlanlist axslldpremorigininfoipv4ddress axslldpremorigininfoipv4porttype axslldpremorigininfoipv4vlanid axslldpremorigininfoipv6ddress

334 ppendix Private MIB ames and Object IDs MIB ame Object ID axslldpremorigininfoipv6porttype axslldpremorigininfoipv6vlanid (13) axsxrpmib group The correspondence between MIB names of axsxrpmib group and object IDs is given below. Table -13: Correspondence between MIB ames of axsxrpmib Group and Object IDs MIB ame Object ID axsxrp axsxrpgrouptable axsxrpgroupentry axsxrpgroupringid axsxrpgrouprowstatus axsxrpgroupmode axsxrpgroupringttribute axsxrpgroupmonitoringstate axsxrpgroupringport axsxrpgroupringport1shared axsxrpgroupringport axsxrpgroupringport2shared axsxrpgrouptransitiontofaultcounts axsxrpgrouptransitiontoormalcounts axsxrpgrouplasttransitiontime axsxrpvlangrouptable axsxrpvlangroupentry axsxrpvlangroupringid axsxrpvlangroupid axsxrpvlangroupringport axsxrpvlangroupringport1role axsxrpvlangroupringport1operstate axsxrpvlangroupringport axsxrpvlangroupringport2role axsxrpvlangroupringport2operstate (14) ax3630sswitch group The correspondence between MIB names of ax3630sswitch group and object IDs is given below. Table -14: Correspondence between MIB ames of ax3630sswitch Group and Object IDs MIB ame Object ID ax3630sswitch ax3630smodeltype

335 ppendix Private MIB ames and Object IDs MIB ame Object ID ax3630ssoftware ax3630ssoftwareame ax3630ssoftwarebbreviation ax3630ssoftwareversion ax3630ssystemmsg ax3630ssystemmsgtext ax3630ssystemmsgtype ax3630ssystemmsgtimestamp ax3630ssystemmsglevel ax3630ssystemmsgeventpoint ax3630ssystemmsgeventinterfaceid ax3630ssystemmsgeventcode ax3630ssystemmsgdditionalcode ax3630ssnmpgent ax3630ssnmpsendreceivesize ax3630ssnmpreceivedelay ax3630ssnmpcontinuoussend ax3630ssnmpobjectmaxumber ax3630slicense ax3630slicenseumber ax3630slicensetable ax3630slicenseentry ax3630slicenseindex ax3630slicenseserialumber ax3630slicenseoptionumber ax3630slicenseoptiontable ax3630slicenseoptionentry ax3630slicenseoptionindex ax3630slicenseoptionumberindex ax3630slicenseoptionsoftwareame ax3630slicenseoptionsoftwarebbreviation (15) ax3630sdevice group The correspondence between MIB names of ax3630sdevice group and object IDs is given below. Table -15: Correspondence between MIB ames of ax3630sdevice Group and Object IDs MIB ame Object ID ax3630sdevice ax3630schassis ax3630schassismaxumber ax3630schassistable

336 ppendix Private MIB ames and Object IDs MIB ame Object ID ax3630schassisentry ax3630schassisindex ax3630schassistype ax3630schassisstatus ax3630sstsledstatus ax3630scpuame ax3630scpuclock ax3630smemorytotalsize ax3630smemoryusedsize ax3630smemoryfreesize ax3630sromversion ax3630scpuload1m ax3630sflashtotalsize ax3630sflashusedsize ax3630sflashfreesize ax3630ssdcardstatus ax3630ssdcardtotalsize ax3630ssdcardusedsize ax3630ssdcardfreesize ax3630sphyslineumber ax3630stemperaturestatusumber ax3630spowerunitumber ax3630sredundantpsumber ax3630sfanumber ax3630stotalccumruntime ax3630scriticalccumruntime ax3630smoduleslotumber ax3630stemperaturestatustable ax3630stemperaturestatusentry ax3630stemperaturestatusindex ax3630stemperaturestatusdescr ax3630stemperaturestatusvalue ax3630stemperaturethreshold ax3630stemperaturestate ax3630spowerunittable ax3630spowerunitentry ax3630spowerunitindex ax3630spowerconnectstatus ax3630spowersupplystatus ax3630sfantable

337 ppendix Private MIB ames and Object IDs MIB ame Object ID ax3630sfanentry ax3630sfanindex ax3630sfanstatus ax3630sredundantpstable ax3630sredundantpsentry ax3630sredundantpsindex ax3630sredundantpsconnectstatus ax3630sredundantpsstatus ax3630smoduleslottable ax3630smoduleslotentry ax3630smoduleslotindex ax3630smoduleslotstatus ax3630smoduleslottype ax3630sphysline ax3630sphyslinetable ax3630sphyslineentry ax3630sphyslineindex ax3630sphyslineconnectortype ax3630sphyslineoperstatus ax3630sphyslineifindexumber ax3630sphyslinetransceiverstatus (16) ax3630smanagementmib group The correspondence between MIB names of ax3630smanagementmib group and object IDs is given below. Table -16: Correspondence between MIB ames of ax3630smanagementmib Group and Object IDs MIB ame Object ID ax3630smanagementmib ax3630soperationcommand ax3630sfdbclearmib ax3630sfdbclearset ax3630sfdbclearreqtime ax3630sfdbclearsuccesstime (17) ax3640sswitch group The correspondence between MIB names of ax3640sswitch group and object IDs is given below. Table -17: Correspondence between MIB ames of ax3640sswitch Group and Object IDs MIB ame Object ID ax3640sswitch ax3640smodeltype

338 ppendix Private MIB ames and Object IDs MIB ame Object ID ax3640ssoftware ax3640ssoftwareame ax3640ssoftwarebbreviation ax3640ssoftwareversion ax3640ssystemmsg ax3640ssystemmsgtext ax3640ssystemmsgtype ax3640ssystemmsgtimestamp ax3640ssystemmsglevel ax3640ssystemmsgeventpoint ax3640ssystemmsgeventinterfaceid ax3640ssystemmsgeventcode ax3640ssystemmsgdditionalcode ax3640ssnmpgent ax3640ssnmpsendreceivesize ax3640ssnmpreceivedelay ax3640ssnmpcontinuoussend ax3640ssnmpobjectmaxumber ax3640slicense ax3640slicenseumber ax3640slicensetable ax3640slicenseentry ax3640slicenseindex ax3640slicenseserialumber ax3640slicenseoptionumber ax3640slicenseoptiontable ax3640slicenseoptionentry ax3640slicenseoptionindex ax3640slicenseoptionumberindex ax3640slicenseoptionsoftwareame ax3640slicenseoptionsoftwarebbreviation (18) ax3640sdevice group The correspondence between MIB names of ax3640sdevice group and object IDs is given below. Table -18: Correspondence between MIB ames of ax3640sdevice Group and Object IDs MIB ame Object ID ax3640sdevice ax3640schassis ax3640schassismaxumber ax3640schassistable

339 ppendix Private MIB ames and Object IDs MIB ame Object ID ax3640schassisentry ax3640schassisindex ax3640schassistype ax3640schassisstatus ax3640sstsledstatus ax3640scpuame ax3640scpuclock ax3640smemorytotalsize ax3640smemoryusedsize ax3640smemoryfreesize ax3640sromversion ax3640scpuload1m ax3640sflashtotalsize ax3640sflashusedsize ax3640sflashfreesize ax3640ssdcardstatus ax3640ssdcardtotalsize ax3640ssdcardusedsize ax3640ssdcardfreesize ax3640sphyslineumber ax3640stemperaturestatusumber ax3640spowerunitumber ax3640sredundantpsumber ax3640sfanumber ax3640stotalccumruntime ax3640scriticalccumruntime ax3640smoduleslotumber ax3640stemperaturestatustable ax3640stemperaturestatusentry ax3640stemperaturestatusindex ax3640stemperaturestatusdescr ax3640stemperaturestatusvalue ax3640stemperaturethreshold ax3640stemperaturestate ax3640spowerunittable ax3640spowerunitentry ax3640spowerunitindex ax3640spowerconnectstatus ax3640spowersupplystatus ax3640sfantable

340 ppendix Private MIB ames and Object IDs MIB ame Object ID ax3640sfanentry ax3640sfanindex ax3640sfanstatus ax3640sredundantpstable ax3640sredundantpsentry ax3640sredundantpsindex ax3640sredundantpsconnectstatus ax3640sredundantpsstatus ax3640smoduleslottable ax3640smoduleslotentry ax3640smoduleslotindex ax3640smoduleslotstatus ax3640smoduleslottype ax3640sphysline ax3640sphyslinetable ax3640sphyslineentry ax3640sphyslineindex ax3640sphyslineconnectortype ax3640sphyslineoperstatus ax3640sphyslineifindexumber ax3640sphyslinetransceiverstatus (19) ax3640smanagementmib group The correspondence between MIB names of ax3640smanagementmib group and object IDs is given below. Table -19: Correspondence between MIB ames of ax3640smanagementmib Group and Object IDs MIB ame Object ID ax3640smanagementmib ax3640soperationcommand ax3640sfdbclearmib ax3640sfdbclearset ax3640sfdbclearreqtime ax3640sfdbclearsuccesstime ppendix.2 HP Private MIB The correspondence between HP private MIB names and object IDs is given in the table below. Table -20: Correspondence between HP Private MIB ames and Object IDs MIB ame Object ID icmp icmpechoreq

341 ppendix Private MIB ames and Object IDs ppendix.3 InMon Private MIB The correspondence between InMon private MIB names and object IDs is given in the table below. Table -21: Correspondence between InMon Private MIB ames and Object IDs MIB ame Object ID sflowmib sflowgent sflowversion sflowgentddresstype sflowgentddress sflowtable sflowentry sflowdatasource sflowowner sflowtimeout sflowpacketsamplingrate sflowcountersamplinginterval sflowmaximumheadersize sflowmaximumdatagramsize sflowcollectorddresstype sflowcollectorddress sflowcollectorport sflowdatagramversion

342 ppendix Private MIB ames and Object IDs 324

343 Index umerics 802.1X MIB Group 124 ccess 13 larm Group 65 at Group (MIB-II) 24 ax3630sdevice Group (System Chassis Information MIB)[CB 320] 219 ax3630sfdbclearmib Group (MC ddress Table Clear MIB) 226 ax3630smanagementmib Group (Changing System Status/ Information)[CB 320] 226 ax3630sswitch Group (System Model Information MIB)[CB 320] 216 ax3640sdevice Group (System Chassis Information MIB)[CB 2000] 230, 242 ax3640sfdbclearmib Group (MC ddress Table Clear MIB) 238, 250 ax3640smanagementmib Group (Changing System Status/ Information)[CB 2000] 238, 250 ax3640sswitch Group (System Model Information MIB)[CB 2000] 227, 239 axsccessfilterstats Group 170 axsxrpgrouptable Group 213 axsxrpmib Group (Ring Protocol Information) 213 axsxrpvlangrouptable Group 214 axsbootmanagement Group (System Booting Information MIB) 200 axsdhcp Group 151 axsfdb Group (MC ddress Table Group MIB) 155 axsflow Group (FLOW Information MIB) 170 axsgsrpgrouptable Group 152 axsgsrpmib Group (GSRP Group Information) 152 axsgsrpeighborgrouptable Group 153 axsgsrpeighborvlangrouptable Group 154 axsgsrpvlangrouptable Group 152 axsifstats Group 149 axsl2ldglobalinfo Group 173 axsl2ldmib Group (L2 Loop Detection Information MIB) 173 axsl2ldporttable Group 173 axslldp Group (LLDP Information MIB) 203 axslldpconfiguration Group 203 axslldplocalsystemdata Group 205 axslldpremoteorigininfodata Group 210 axslldpremotesystemdata Group 207 axslldpstats Group 204 axslogin Group (Login Information MIB) 201 axsoadp Group (ODP Information MIB) 166 axsoadpglobalinfo Group 166 axsoadpeighborinfo Group 167 axsoadpportinfo Group 166 axsospfreaggregatetable 186 axsospfrearangetable 179 axsospfreatable 177 axsospfextlsdbtable 185 axsospfgeneraltable 176 axsospfifmetrictable 181 axsospfiftable 180 axsospflsdbtable 178 axsospfmib Group (Multi-backbone OSPF Information MIB) 176 axsospfbrtable 183 axsospfstubreatable 178 axsospftrap 187 axsospfv3reaggregatetable 198 axsospfv3realsdbtable 192 axsospfv3reatable 190 axsospfv3slsdbtable 191 axsospfv3generaltable 189 axsospfv3iftable 193 axsospfv3linklsdbtable 192 axsospfv3mib Group (Multi-backbone OSPFv3 Information MIB) 189 axsospfv3brtable 196 axsospfv3virtiftable 195 axsospfv3virtbrtable 197 axsospfvirtiftable 182 axsospfvirtbrtable 184 axsqos Group 150 axsqosflowstats Group 171 axsstats Group (Statistics Information MIBs) 149 axsvbbaseporttable group 157 axsvbbasetable group 156 axsvbstatictable group 163 axsvbstpporttable group 159 axsvbstptable group 158 axsvbtpfdbtable group 161 axsvbtpporttable group 162 axsvbtptable group 161 axsvlan Group (VL Information MIB) 156 axsvlanbridge (other) group

344 Index axsvlanbridge Group (dot1dbase Information) 156 axsvlantagtranslation Group (Tag Translation Information MIB) 164 B bgp 56 bgp Group (BGP4 MIB) 56 bgp4pathttrtable 58 bgppeertable 56 C Correspondence between HP private MIB names and object IDs 322 Correspondence between InMon private MIB names and object IDs 323 Correspondence between MIB names of ax3630sdevice group and object IDs 317 Correspondence between MIB names of ax3630smanagementmib group and object IDs 319 Correspondence between MIB names of ax3630sswitch group and object IDs 316 Correspondence between MIB ames of ax3640sdevice Group and Object IDs 320 Correspondence between MIB ames of ax3640smanagementmib Group and Object IDs 322 Correspondence between MIB ames of ax3640sswitch Group and Object IDs 319 Correspondence between MIB names of axsxrpmib group and object IDs 316 Correspondence between MIB names of axsbootmanagement group and object IDs 313 Correspondence between MIB names of axsfdb group and object IDs 300 Correspondence between MIB names of axsflow group and object IDs 304 Correspondence between MIB names of axsgsrpmib group and object IDs 299 Correspondence between MIB ames of axsl2ld Group and Object IDs 305 Correspondence between MIB names of axslldp group and object IDs 313 Correspondence between MIB names of axslogin group and object IDs 313 Correspondence between MIB names of axsoadp group and object IDs 303 Correspondence between MIB names of axsospf group and object IDs 305 Correspondence between MIB names of axsospfv3mib group and object IDs 309 Correspondence between MIB names of axsstats group and object IDs 298 Correspondence between MIB names of axsvlan group and object IDs 300 D dot1dbase Group 68 dot1dbridge Group 68 dot1dstp Group 69 dot1dtp Group 70 dot3 Group (Ethernet Like MIB) 38 dot3adgg Group 118 dot3adggport Group 119 dot3adtableslastchanged Group 122 E Ethernet History Group 63 Ethernet Statistics Group 60 Event group 66 H History Control Group 62 HP private MIB 322 I icmp Group (HP Private MIB) 251 icmp Group (MIB-II) 31 Identifier 12 IEEE8023-LG-MIB Group 118 ifmib (for Ethernet) 80 ifmib Group (Interfaces Group MIB) 80 Implementation Specifications (ax3640s Chassis Information) of Group 230, 242 Implementation Specifications (Built-in Power Supply Redundancy Module Information) of ax3630schassis Group 223 Implementation Specifications (Built-in Power Supply Redundancy Module Information) of ax3640schassis Group 235, 246 Implementation Specifications (Chassis Information) of Group 219 Implementation Specifications (External Power Unit Information) of ax3630schassis Group 223 Implementation Specifications (External Power Unit Information) of ax3640schassis Group 234 Implementation Specifications (Fan Information) of ax3630schassis Group

345 Index Implementation Specifications (Fan Information) of ax3640schassis Group 233, 245 Implementation Specifications (Interface Information) of ax3630sphysline Group 224 Implementation Specifications (Interface Information) of ax3640sphysline Group 236, 247 Implementation Specifications (Power Unit Information) of ax3630schassis Group 222 Implementation Specifications (Power Unit Information) of ax3640schassis Group 233, 245 Implementation Specifications (Temperature Information) of ax3630schassis Group 221 Implementation Specifications (Temperature Information) of ax3640schassis Group 232, 244 Implemented 13 InMon private MIBs 323 interfaces Group (for Ethernet) 18 interfaces Group (MIB-II) 18 interfaces Group (Other Cases) 21 ip 25 ip Group (MIB-II and IP Forward Table MIB) 25 ipddrtable 26 ipforward 29 ipettomediatable 28 iproutetable 27 ipv6ddrprefixtable 86 ipv6ddrtable 87 ipv6icmpmib Group (ICMPv6 MIB) 91 ipv6ifstatstable 84 ipv6iftable 83 ipv6mib 83 ipv6mib Group (IPv6 MIB) 83 ipv6ettomediatable 89 ipv6routetable 88 ipv6tcpconntable 34 ipv6udptable 36 M Method for acquiring the private MIB definition file 11 MIB description format 12 MIB list 4 MIB system diagram 2 O Object identifier 12 ospf Group (OSPFv2 MIB) 42 ospfreaggregatetable 53 ospfrearangetable 45 ospfreatable 43 ospfextlsdbtable 52 ospfgeneralgroup 42 ospfhosttable 46 ospfifmetrictable 48 ospfiftable 47 ospflsdbtable 45 ospfbrtable 50 ospfstubreatable 44 ospftrap 54 ospfv3reaggregatetable 116 ospfv3realsdbtable 109 ospfv3reatable 107 ospfv3slsdbtable 108 ospfv3generalgroup 106 ospfv3iftable 111 ospfv3linklsdbtable 110 ospfv3mib Group (OSPFv3 MIB) 106 ospfv3brtable 114 ospfv3virtiftable 113 ospfv3virtbrtable 115 ospfvirtiftable 49 ospfvirtbrtable 51 P pbridgemib Group 72 piminterfacetable 103 pimjoinpruneinterval 103 pimmib Group (IPv4 PIM MIB) 103 pimeighbortable 104 powerethernetmib Group (Power Ethernet MIB) 100 Private MIB names and object IDs 298 Private MIBs 147, 298 Q qbridgemib Group 74 R rmon Group (Remote etwork Monitoring MIB) 60 S sflow Group (InMon Private MIB) 252 snmp Group (MIB-II) 40 snmpmodules Group 132 Standard MIBs (RFC-compliant and IETF draft MIB) 15 Summary of supported MIBs 1 Supported MIB Traps 255 Supported Trap and Issue Timing 256 Supported Trap-PDU Parameters[CB 2000] 273,

346 Index Supported Trap-PDU Parameters[CB 320] 262 SYTX 12 system Group (MIB-II) 17 T tcp 33 tcp Group (MIB-II and TCP MIB for IPv6) 33 U udp 36 udp Group (MIB-II and UDP MIB for IPv6) 36 V vrrpmib Group 94 vrrpoperations Group 94 vrrpstatistics Group 97 MK-99COM