Compute Blade Built-in LAN Switch Module Software Manual MIB Reference · 2019-04-23 · Compute...

Compute Blade Built-in LAN Switch Module

Software Manual

MIB ReferenceVer. 10.5 and Ver. 10.7 and 11.6 compatible

BSLANSW-S006X-50

MK-99COM093-01

HITACHI

Applicable product

This manual describes model Compute Blade Built in LAN Switch Module. It also describes Built in LAN Switch Module software Ver. 10.5 and Ver.10.7 and 11.6 functions. Software functions supported by software OS-L3A and OS-L3SA 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-L3SA, 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 Novell,Inc.Microsoft is a registered trademark of the Microsoft Corp. in the U.S. and other countries.Octpower is a trademark of NEC Corporation.UNIX 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.

Note

The contents of this manual may be modified at any time for improvement without notice.

Issue date

Jan. 2014 (8th edition) BSLANSW-S006X-50

Copyright

Copyright (c) Hitachi, Ltd. 2006 - 2014. All rights reserved.

Summary of amendments

8th edition

Integrated the description of all switch model.

8th edition

In addition to the above changes, minor editorial corrections have been made.7th edition

Addtion of some product code.

6th edition

The BladeSymphony server name has been changed to Hitachi Compute Blade.

5th edition

No Change

4th edition

In addition to the above changes, minor editorial corrections have been made.

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-L3SA] is added.

Location Changes

4 Supported MIB Traps • The model name was named to the head of the trap name.

ExampleaxsTrap -> ax3630sTrapaxsTrap -> ax3640sTrap

The following is the neme before the change.• axsAxrpStateTransitionTrap• axsGsrpStateTransitionTrap• axsL2ldLinkDown• axsL2ldLinkUp• axsL2ldLoopDetection• axsBroadcastStormDetectTrap• axsMulticastStormDetectTrap• axsUnicastStormDetectTrap• axsBroadcastStormPortInactivateTrap• axsMulticastStormPortInactivateTrap• axsUnicastStormPortInactivateTrap• axsBroadcastStormRecoverTrap• axsMulticastStormRecoverTrap• axsUnicastStormRecoverTrap• axsEfmoamUdldPortInactivateTrap• axsEfmoamLoopDetectPortInactivateTrap

[Ver. 10.7]

[Ver. 10.5.A.A]

In addition to the above changes, minor editorial corrections have been made.

[Ver. 10.5.A]

Unreleased

Location Changes

2.13.5 qBridgeMIB Group • The following were implemented.

dot1qTpFdbTabledot1qTpFdbEntrydot1qTpFdbAddressdot1qTpFdbPortdot1qTpFdbStatus

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 isadded.

• In "Table 4-1: Supported Trap and Issue Timing", [Implementation] is deleted from "No. 40 ax3630sAirFanStopTrap" and "No. 40 ax3630sAirFanStopTrap".

4.2 Supported Trap-PDU Parameters[CB 320] • Description of traps concerning the newly supported L2 loop detection function isadded.

Location Changes

1.1 MIB System Diagram • pim MIB (61) was added.

1.2 MIB List • pim MIB group was added.

2.19 pimMIB Group (IPv4 PIM MIB) • This section was added.

2.2.1 interfaces Group (for Ethernet) • ifAdminStatus ACCESS was changed from R/NW to R/W.

3.13 axsAxrpMIB Group (Ring Protocol Information)

• This section was added.

3.14 ax3630sSwitch Group (System Model Information MIB)[CB 320]

• 10Gbps LAN switch module was added to the model information on the systemdevice of the ax3630s Switch group.

3.15 ax3630sDevice Group (System Chassis Information MIB)[CB 320]

• 10Gbps LAN switch module was added to the case type of case information on theax3630s Device group.

3.24 sFlow Group (InMon Private MIB) • This section was added.

4.1 Supported Trap and Issue Timing • axsEfmoamUdldPortInactivateTrap and axsEfmoamLoopDetectPortInactivateTrapwere added.

• The mounting existence of pethPsePortOnOffNotification was changed from havingto nothing.

• The mounting existence of pethMainPowerUsageOnNotification was changed fromhaving to nothing.

• The mounting existence of pethMainPowerUsageOffNotification was changed fromhaving to nothing.

4.2 Supported Trap-PDU Parameters[CB 320] • axsEfmoamUdldPortInactivateTrap and axsEfmoamLoopDetectPortInactivateTrapwere added.

[Ver. 10.5]

Unreleased

[Ver. 10.4]

Unreleased

[Ver. 10.3]

Unreleased

[Ver. 10.2]

No Change

Introduction

Introduction

Intended products and software versionsThis manual describes models Compute Blade Built-in LAN Switch Module. It also describes the functions of Compute Blade

Built-in LAN Switch Module’s software Ver. 10.5 and 10.7 and 11.6. Software functions supported by software OS-L3A and

OS-L3SA 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.

A 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.

A 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-L3A]:It is a function that supports it by OS-L3A for Compute Blade 320, 2000 and 500 LAN switch module.[OS-L3SA]:It is a function that supports it by OS-L3SA for Compute Blade 500 1Gbps(40 port) LAN switch module.

Correction of this manualContents in this manual may be corrected in the "Release note" and "Manual correction document" provided with software.

Intended usersApplicable 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 perusalManuals to be referenced according to the flow of tasks from installation and setup to daily operations are indicated below.

I

Introduction

Conventions: abbreviations AC Alternating CurrentACK ACKnowledgeADSL Asymmetric Digital Subscriber LineALG Application Level GatewayANSI American National Standards InstituteARP Address Resolution ProtocolAS Autonomous SystemAUX AuxiliaryBGP Border Gateway Protocol

II

Introduction

BGP4 Border Gateway Protocol - version 4BGP4+ Multiprotocol Extensions for Border Gateway Protocol - version 4bit/s bits per second, usually abbreviated as bps.BPDU Bridge Protocol Data UnitBRI Basic Rate InterfaceCDP Cisco Discovery ProtocolCIDR Classless Inter-Domain RoutingCIR Committed Information RateCIST Common and Internal Spanning TreeCLNP ConnectionLess Network ProtocolCLNS ConnectionLess Network SystemCONS Connection Oriented Network SystemCRC Cyclic Redundancy CheckCSMA/CD Carrier Sense Multiple Access with Collision DetectionCSNP Complete Sequence Numbers PDUCST Common Spanning TreeDA Destination AddressDC Direct CurrentDCE Data Circuit terminating EquipmentDHCP Dynamic Host Configuration ProtocolDIS Draft International Standard/Designated Intermediate SystemDNS Domain Name SystemDR Designated RouterDSAP Destination Service Access PointDSCP Differentiated Services Code PointDTE Data Terminal EquipmentDVMRP Distance Vector Multicast Routing ProtocolE-Mail Electronic MailEAP Extensible Authentication ProtocolEAPOL EAP Over LANEFM Ethernet in the First MileES End SystemFAN Fan UnitFCS Frame Check SequenceFDB Filtering DataBaseFTTH Fiber To The HomeGBIC GigaBit Interface ConverterGSRP Gigabit Switch Redundancy ProtocolHMAC Keyed-Hashing for Message AuthenticationIANA Internet Assigned Numbers AuthorityICMP Internet Control Message ProtocolICMPv6 Internet Control Message Protocol version 6ID IdentifierIEC International Electrotechnical CommissionIEEE Institute of Electrical and Electronics Engineers, Inc.IETF the Internet Engineering Task ForceIGMP Internet Group Management ProtocolIP Internet ProtocolIPCP IP Control ProtocolIPv4 Internet Protocol version 4IPv6 Internet Protocol version 6IPV6CP IP Version 6 Control ProtocolIPX Internetwork Packet ExchangeISO International Organization for StandardizationISP Internet Service ProviderIST Internal Spanning TreeLAN Local Area NetworkLCP Link Control ProtocolLED Light Emitting DiodeLLC Logical Link ControlLLDP Link Layer Discovery ProtocolLLQ+3WFQ Low Latency Queueing + 3 Weighted Fair QueueingLSP Label Switched PathLSP Link State PDULSR Label Switched RouterMAC Media Access ControlMC Memory CardMD5 Message Digest 5MDI Medium Dependent InterfaceMDI-X Medium Dependent Interface crossoverMIB Management Information BaseMRU Maximum Receive UnitMSTI Multiple Spanning Tree InstanceMSTP Multiple Spanning Tree Protocol

III

Introduction

MTU Maximum Transfer UnitNAK Not AcKnowledgeNAS Network Access ServerNAT Network Address TranslationNCP Network Control ProtocolNDP Neighbor Discovery ProtocolNET Network Entity TitleNLA ID Next-Level Aggregation IdentifierNPDU Network Protocol Data UnitNSAP Network Service Access PointNSSA Not So Stubby AreaNTP Network Time ProtocolOADP Octpower Auto Discovery ProtocolOAM Operations,Administration,and MaintenanceOSPF Open Shortest Path FirstOUI Organizationally Unique IdentifierPAD PADdingPAE Port Access EntityPC Personal ComputerPCI Protocol Control InformationPDU Protocol Data UnitPICS Protocol Implementation Conformance StatementPID Protocol IDentifierPIM Protocol Independent MulticastPIM-DM Protocol Independent Multicast-Dense ModePIM-SM Protocol Independent Multicast-Sparse ModePIM-SSM Protocol Independent Multicast-Source Specific MulticastPoE Power over EthernetPRI Primary Rate InterfacePS Power SupplyPSNP Partial Sequence Numbers PDUQoS Quality of ServiceRA Router AdvertisementRADIUS Remote Authentication Dial In User ServiceRDI Remote Defect IndicationREJ REJectRFC Request For CommentsRIP Routing Information ProtocolRIPng Routing Information Protocol next generationRMON Remote Network Monitoring MIBRPF Reverse Path ForwardingRQ ReQuestRSTP Rapid Spanning Tree ProtocolSA Source AddressSD Secure DigitalSDH Synchronous Digital HierarchySDU Service Data UnitSEL NSAP SELectorSFD Start Frame DelimiterSFP Small Form factor PluggableSMTP Simple Mail Transfer ProtocolSNAP Sub-Network Access ProtocolSNMP Simple Network Management ProtocolSNP Sequence Numbers PDUSNPA Sub network Point of AttachmentSPF Shortest Path FirstSSAP Source Service Access PointSTP Spanning Tree ProtocolTA Terminal AdapterTACACS+ Terminal Access Controller Access Control System PlusTCP/IP Transmission Control Protocol/Internet ProtocolTLA ID Top-Level Aggregation IdentifierTLV Type, Length, and ValueTOS Type Of ServiceTPID Tag Protocol IdentifierTTL Time To LiveUDLD Uni-Directional Link DetectionUDP User Datagram ProtocolUPC Usage Parameter ControlUPC-RED Usage Parameter Control - Random Early DetectionVAA VLAN Access AgentVLAN Virtual LANVRRP Virtual Router Redundancy ProtocolWAN Wide Area Network

IV

Introduction

WDM Wavelength Division MultiplexingWFQ Weighted Fair QueueingWRED Weighted Random Early DetectionWS Work StationWWW World-Wide WebXFP 10 gigabit small Form factor Pluggable

Conventions: kB, MB, GB, and TB1kB (kilobytes), 1MB (megabytes), 1GB (gigabytes) and 1TB (terabytes) indicate 1024 bytes, 10242 bytes, 10243 bytes and

10244 bytes, respectively.

V

Introduction

VI

Contents

1 Summary of Supported MIBs 1

1.1 MIB System Diagram 2

1.2 MIB List 4

1.3 Method for Acquiring the Private MIB Definition File 11

1.4 MIB Description Format 12

2 Standard MIBs (RFC-compliant and IETF Draft MIBs) 15

2.1 system Group (MIB-II) 17

2.2 interfaces Group (MIB-II) 18

2.2.1 interfaces Group (for Ethernet) 18

2.2.2 interfaces Group (Other Cases) 21

2.3 at Group (MIB-II) 24

2.4 ip Group (MIB-II and IP Forward Table MIB) 25

2.4.1 ip 25

2.4.2 ipAddrTable 26

2.4.3 ipRouteTable 27

2.4.4 ipNetToMediaTable 28

2.4.5 ipForward 29

2.5 icmp Group (MIB-II) 31

2.6 tcp Group (MIB-II and TCP MIB for IPv6) 33

2.6.1 tcp 33

2.6.2 ipv6TcpConnTable 34

2.7 udp Group (MIB-II and UDP MIB for IPv6) 36

2.7.1 udp 36

2.7.2 ipv6UdpTable 36

2.8 dot3 Group (Ethernet Like MIB) 38

2.9 snmp Group (MIB-II) 40

2.10 ospf Group (OSPFv2 MIB) 42

2.10.1 ospfGeneralGroup 42

2.10.2 ospfAreaTable 43

2.10.3 ospfStubAreaTable 44

2.10.4 ospfLsdbTable 45

2.10.5 ospfAreaRangeTable 45

2.10.6 ospfHostTable 46

2.10.7 ospfIfTable 47

2.10.8 ospfIfMetricTable 48

2.10.9 ospfVirtIfTable 49

2.10.10 ospfNbrTable 50

2.10.11 ospfVirtNbrTable 51

2.10.12 ospfExtLsdbTable 52

i

Contents

2.10.13 ospfAreaAggregateTable 53

2.10.14 ospfTrap 54

2.11 bgp Group (BGP4 MIB) 56

2.11.1 bgp 56

2.11.2 bgpPeerTable 56

2.11.3 bgp4PathAttrTable 58

2.12 rmon Group (Remote Network Monitoring MIB) 60

2.12.1 Ethernet Statistics Group 60

2.12.2 History Control Group 62

2.12.3 Ethernet History Group 63

2.12.4 Alarm Group 65

2.12.5 Event Group 66

2.13 dot1dBridge Group 68

2.13.1 dot1dBase Group 68

2.13.2 dot1dStp Group 69

2.13.3 dot1dTp Group 70

2.13.4 pBridgeMIB Group 72

2.13.5 qBridgeMIB Group 74

2.14 ifMIB Group (Interfaces Group MIB) 80

2.14.1 ifMIB (for Ethernet) 80

2.15 ipv6MIB Group (IPv6 MIB) 83

2.15.1 ipv6MIB 83

2.15.2 ipv6IfTable 83

2.15.3 ipv6IfStatsTable 84

2.15.4 ipv6AddrPrefixTable 86

2.15.5 ipv6AddrTable 87

2.15.6 ipv6RouteTable 88

2.15.7 ipv6NetToMediaTable 89

2.16 ipv6IcmpMIB Group (ICMPv6 MIB) 91

2.17 vrrpMIB Group 94

2.17.1 vrrpOperations Group 94

2.17.2 vrrpStatistics Group 97

2.18 powerEthernetMIB Group (Power Ethernet MIB) 100

2.19 pimMIB Group (IPv4 PIM MIB) 103

2.19.1 pimJoinPruneInterval 103

2.19.2 pimInterfaceTable 103

2.19.3 pimNeighborTable 104

2.20 ospfv3MIB Group (OSPFv3 MIB) 106

2.20.1 ospfv3GeneralGroup 106

2.20.2 ospfv3AreaTable 107

2.20.3 ospfv3AsLsdbTable 108

2.20.4 ospfv3AreaLsdbTable 109

2.20.5 ospfv3LinkLsdbTable 110

2.20.6 ospfv3IfTable 111

ii

Contents

2.20.7 ospfv3VirtIfTable 113

2.20.8 ospfv3NbrTable 114

2.20.9 ospfv3VirtNbrTable 115

2.20.10 ospfv3AreaAggregateTable 116

2.21 IEEE8023-LAG-MIB Group 118

2.21.1 dot3adAgg Group 118

2.21.2 dot3adAggPort Group 119

2.21.3 dot3adTablesLastChanged Group 122

2.22 802.1X MIB Group 124

2.23 snmpModules Group 132

2.23.1 snmpFrameworkMIB Group (SNMP FRAMEWORK MIB) 132

2.23.2 snmpMPDMIB Group (SNMP MPD MIB) 132

2.23.3 snmpTargetMIB Group (SNMP TARGET MIB) 133

2.23.4 snmpNotificationMIB Group (SNMP NOTIFICATION MIB) 135

2.23.5 snmpProxyMIB Group (SNMP PROXY MIB) 137

2.23.6 snmpUsmMIB Group (SNMP USER BASED SM MIB) 138

2.23.7 snmpVacmMIB Group (SNMP VIEW BASED ACM MIB) 140

2.23.8 snmpCommunityMIB Group (SNMP COMMUNITY MIB) 143

3 Private MIBs 147

3.1 axsStats Group (Statistics Information MIBs) 149

3.1.1 axsIfStats Group 149

3.1.2 axsQoS Group 150

3.1.3 axsDHCP Group 151

3.2 axsGsrpMIB Group (GSRP Group Information) 152

3.2.1 axsGsrpGroupTable Group 152

3.2.2 axsGsrpVlanGroupTable Group 152

3.2.3 axsGsrpNeighborGroupTable Group 153

3.2.4 axsGsrpNeighborVlanGroupTable Group 154

3.3 axsFdb Group (MAC Address Table Group MIB) 155

3.4 axsVlan Group (VLAN Information MIB) 156

3.4.1 axsVlanBridge Group (dot1dBase Information) 156

3.4.2 axsVlanTagTranslation Group (Tag Translation Information MIB) 164

3.5 axsOadp Group (OADP Information MIB) 166

3.5.1 axsOadpGlobalInfo Group 166

3.5.2 axsOadpPortInfo Group 166

3.5.3 axsOadpNeighborInfo Group 167

3.6 axsFlow Group (FLOW Information MIB) 170

3.6.1 axsAccessFilterStats Group 170

3.6.2 axsQosFlowStats Group 171

3.7 axsL2ldMIB Group (L2 Loop Detection Information MIB) 173

3.7.1 axsL2ldGlobalInfo Group 173

3.7.2 axsL2ldPortTable Group 173

iii

Contents

3.8 axsOspfMIB Group (Multi-backbone OSPF Information MIB) 176

3.8.1 axsOspfGeneralTable 176

3.8.2 axsOspfAreaTable 177

3.8.3 axsOspfStubAreaTable 178

3.8.4 axsOspfLsdbTable 178

3.8.5 axsOspfAreaRangeTable 179

3.8.6 axsOspfIfTable 180

3.8.7 axsOspfIfMetricTable 181

3.8.8 axsOspfVirtIfTable 182

3.8.9 axsOspfNbrTable 183

3.8.10 axsOspfVirtNbrTable 184

3.8.11 axsOspfExtLsdbTable 185

3.8.12 axsOspfAreaAggregateTable 186

3.8.13 axsOspfTrap 187

3.9 axsOspfv3MIB Group (Multi-backbone OSPFv3 Information MIB) 189

3.9.1 axsOspfv3GeneralTable 189

3.9.2 axsOspfv3AreaTable 190

3.9.3 axsOspfv3AsLsdbTable 191

3.9.4 axsOspfv3AreaLsdbTable 192

3.9.5 axsOspfv3LinkLsdbTable 192

3.9.6 axsOspfv3IfTable 193

3.9.7 axsOspfv3VirtIfTable 195

3.9.8 axsOspfv3NbrTable 196

3.9.9 axsOspfv3VirtNbrTable 197

3.9.10 axsOspfv3AreaAggregateTable 198

3.10 axsBootManagement Group (System Booting Information MIB) 200

3.11 axsLogin Group (Login Information MIB) 201

3.12 axslldp Group (LLDP Information MIB) 203

3.12.1 axslldpConfiguration Group 203

3.12.2 axslldpStats Group 204

3.12.3 axslldpLocalSystemData Group 205

3.12.4 axslldpRemoteSystemData Group 207

3.12.5 axslldpRemoteOriginInfoData Group 210

3.13 axsAxrpMIB Group (Ring Protocol Information) 213

3.13.1 axsAxrpGroupTable Group 213

3.13.2 axsAxrpVlanGroupTable Group 214

3.14 ax3630sSwitch Group (System Model Information MIB)[CB 320] 216

3.15 ax3630sDevice Group (System Chassis Information MIB)[CB 320] 219

3.15.1 Implementation Specifications (Chassis Information) of Group 219

3.15.2 Implementation Specifications (Temperature Information) of ax3630sChassis Group 221

3.15.3 Implementation Specifications (Power Unit Information) of ax3630sChassis Group 222

3.15.4 Implementation Specifications (Fan Information) of ax3630sChassis Group 222

3.15.5 Implementation Specifications (External Power Unit Information) of ax3630sChassis Group 223

iv

Contents

3.15.6 Implementation Specifications (Built-in Power Supply Redundancy Module Information) of ax3630sChassis Group 223

3.15.7 Implementation Specifications (Interface Information) of ax3630sPhysLine Group 224

3.16 ax3630sManagementMIB Group (Changing System Status/Information)[CB 320] 226

3.16.1 ax3630sFdbClearMIB Group (MAC Address Table Clear MIB) 226

3.17 ax3640sSwitch Group (System Model Information MIB)[CB 2000] 227

3.18 ax3640sDevice Group (System Chassis Information MIB)[CB 2000] 230

3.18.1 Implementation Specifications (ax3640s Chassis Information) of Group 230



3.18.4 Implementation Specifications (Fan Information) of ax3640sChassis Group 233

3.18.5 Implementation Specifications (External Power Unit Information) of ax3640sChassis Group 2343.18.6 Implementation Specifications (Built-in Power Supply Redundancy Module Information) of ax3640sChassis

Group 235


3.19 ax3640sManagementMIB Group (Changing System Status/Information)[CB 2000] 238


3.20 ax3650sSwitch Group (System Model Information MIB)[CB 2000][OS-L3SA] 239

3.21 ax3650sDevice Group (System Chassis Information MIB)[CB 2000][OS-L3SA] 242

3.21.1 Implementation Specifications (ax3650s Chassis Information) of Group 242



3.21.4 Implementation Specifications (Fan Information) of ax3650sChassis Group 2453.21.5 Implementation Specifications (Built-in Power Supply Redundancy Module Information) of ax3650sChassis

Group 246


3.22 ax3650sManagementMIB Group (Changing System Status/Information)[CB 2000][OS-L3SA] 250


3.23 icmp Group (HP Private MIB) 251

3.24 sFlow Group (InMon Private MIB) 252

4 Supported MIB Traps 255

4.1 Supported Trap and Issue Timing 256

4.2 Supported Trap-PDU Parameters[CB 320] 262

4.3 Supported Trap-PDU Parameters[CB 2000] 273

4.4 Supported Trap-PDU Parameters[CB 2000][OS-L3SA] 284

Appendix 297

Appendix A Private MIB Names and Object IDs 298

Appendix A.1 Private MIB 298

Appendix A.2 HP Private MIB 322

Appendix A.3 InMon Private MIB 323

v

Contents

Index 325

vi

1 Summary of Supported MIBs

1.1 MIB System Diagram

1.2 MIB List

1.3 Method for Acquiring the Private MIB Definition File

1.4 MIB Description Format

1

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


Figure 1-2: MIB System Diagram (2/2)

3


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 ARP table. Y

ip group ip MIB of IP information. Y

ipAddrTable MIB of addressing table information related to IP addresses.

Y

ipRouteTable MIB of information related to IP routing tables. Y

ipNetToMediaTable 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 SNMP information. Y

4


Standard MIBs

ospf group ospfGeneralGroup MIB of OSPF information. Y

ospfAreaTable MIB of the table storing information related to the areas to which the router is connected.

Y

ospfStubAreaTable MIB of information advertised within the stub areas by area border router.

Y

ospfLsdbTable MIB of the table storing information related to OSPF process's link state database (LSDB).

Y

ospfAreaRangeTable MIB of the table related to information of the range of addresses in areas to which the router is connected.

Y

ospfHostTable MIB information of hosts and metrics advertised by the router as host route.

N

ospfIfTable MIB of the table storing information of each interface to which the router is connected.

Y

ospfIfMetricTable MIB of the table storing information related to service-types metrics of each interface.

Y

ospfVirtIfTable MIB of the table storing information related to virtual interfaces to which the router is connected.

Y

ospfNbrTable MIB of the table storing information related to neighboring offices that are not virtual.

Y

ospfVirtNbrTable MIB of the table storing virtual neighboring router information.

Y

ospfExtLsdbTable MIB related to the OSPF process's link state database (LSDB) table.

Y

ospfAreaAggregateTable MIB of IP address tables designating IP addresses and IP subnet masks as pairs.

Y

ospfTrap MIB related to trap. Y

bgp group bgp MIB of BGP information. Y

bgpPeerTable MIB related to bgp peer tables. Y

bgpPathAttrTable 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 MIB of the history control table of Ethernet statistics information.

Y

Ethernet History Group MIB of the history table of Ethernet statistics information.

Y

Alarm Group MIB of information related to alarm tables. Y

Host Group MIB of information related to Host groups. N

Host Top"N" MIB of information related to HostTopN tables. N

Matrix MIB of information related to Matrix groups. N

Filter MIB of information related to Filter groups. N

Packet Capture MIB of information related to PacketCapture groups. N

Event Group MIB of the table of events generated by RMON agent. Y


5


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. N

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 ipv6MIBipv6 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

ipv6AddrPrefixTable MIB of the table of IPv6 interface address prefixes. Y

ipv6AddrTable MIB related to the interface address table. Y

ipv6RouteTable MIB related to the IPv6 routing table. Y

ipv6NetToMediaTable 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

vrrpNotifications group MIB of information related to VRRP traps sent from VRRP routers.

N

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

pethNotificationControl 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

pimNeighborTable MIB related to PIM neighbor table information Y

pimIpMRouteTable MIB related to PIM routing table information N

pimRPTable MIB related to an RP information table for PIM version 1

N

pimRPSetTable MIB related to an RP candidate information table N

pimIpMRouteNextHopTable

MIB related to PIM routing Next Hop table information N

pimCandidateRPTable MIB related to group information that will be advertised when it is an RP candidate

N

pimComponentTable MIB related to table information of a component that identifies a PIM domain

N


6


Standard MIBs

ospfv3MIB group ospfv3GeneralGroup MIB of OSPFv3 information. Y

ospfv3AreaTable MIB of the table storing information related to the areas to which the router is connected.

Y

ospfv3AsLsdbTable MIB of the table related to information of the OSPFv3 AS Scope link state database.

Y

ospfv3AreaLsdbTable MIB of the table storing information related to OSPFv3 AreaScope link state database.

Y

ospfv3LinkLsdbTable MIB of the table related to information of the OSPFv3 LinkScope link state database.

Y

ospfv3IfTable MIB of the table storing information related to interfaces to which the router is connected.

Y

ospfv3VirtIfTable MIB of the table storing information related to virtual link interfaces to which the router is connected.

Y

ospfv3NbrTable MIB of the table storing information of neighboring offices that are not virtual.

Y

ospfv3VirtNbrTable MIB of the table storing virtual neighboring router information.

Y

ospfv3AreaAggregateTable MIB of the IPv6 Prefix table designating Prefix and Prefix length as a pair.

Y

IEEE8023-LAG-MIB group

dot3adAgg group Information related to the Aggregator. Y

dot3adAggPort group Link Aggregation Control information related to all Aggregation Ports.

Y

802.1X MIB group MIB related to 802.1X. Y

snmpModules group snmpFrameworkMIB group MIB relating to SNMP framework Y

snmpMPDMIB group MIB relating to SNMP message and dispatcher Y

snmpTargetMIB group MIB relating to SNMP destination information Y

snmpNotificationMIB group

MIB relating to SNMP notification information Y

snmpProxyMIB group MIB relating to SNMP proxy N

snmpUsmMIB group MIB relating to SNMP user-based security model Y

snmpVacmMIB group MIB relating to SNMP view-based access control model

Y

snmpCommunityMIB group

MIB relating to coexistence of SNMPv1, v2C, and v3 N

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

MIB of the table storing GSRP VLAN group information.

Y

axsGsrpNeighborGroupTable group

Table storing GSRP information of remote system. Y

axsGsrpNeighborVlanGroupTable group

MIB of the table storing GSRP VLAN group information of remote system.

Y

axsFdb group axsFdbCounterTable MIB of the information table on the number of learned MAC address tables.

Y


7


Private MIB

axsVlan group axsVlanBridge group MIB related to Bridge-MIB for each VLAN. Y

axsVlanTagTranslation group

MIB of the information table on Tag conversion function.

Y

axsOadp group axsOadpGlobalInfo group MIB related to active status of the OADP function. Y

axsOadpPortInfo group MIB related to OADP port information. Y

axsOadpNeighborInfo group

MIB related to OADP neighboring node. Y

axsFlow group axsAccessFilterStats 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

axsOspfDomainAreaTable MIB of the table storing information related to the areas to which the router is connected.

Y

axsOspfStubAreaTable MIB of the table related to information advertised in the stub area by area border routers.

Y

axsOspfLsdbTable MIB of the table storing information related to OSPF process's link state database (LSDB).

Y

axsOspfAreaRangeTable MIB of the table related to information of the range of addresses in areas to which the router is connected.

Y

axsOspfIfTable MIB of the table storing information of each interface to which the router is connected.

Y

axsOspfIfMetricTable MIB of the table storing information related to service-types metrics of each interface.

Y

axsOspfVirtIfTable MIB of the table storing information related to virtual interfaces to which the router is connected.

Y

axsOspfNbrTable MIB of the table storing information related to neighboring offices that are not virtual.

Y

axsOspfVirtNbrTable MIB of the table storing virtual neighboring router information.

Y

axsOspfExtLsdbTable MIB of the table related to OSPF process's link state database (LSDB).

Y

axsOspfAreaAggregateTable

MIB of the table of IP addresses designating IP addresses and IP subnet masks as pairs.

Y

axsOspfTrap MIB related to trap. Y


8


Private MIB

axsOspfv3 group axsOspfv3GeneralTable MIB of OSPFv3 information. Y

axsOspfv3AreaTable MIB of the table storing information related to the areas to which the router is connected.

Y

axsOspfv3AsLsdbTable MIB of the table related to information of the OSPFv3 AS Scope link state database.

Y

axsOspfv3AreaLsdbTable MIB of the table storing information related to OSPFv3 AreaScope link state database.

Y

axsOspfv3LinkLsdbTable MIB of the table related to information of the OSPFv3 LinkScope link state database.

Y

axsOspfv3IfTable MIB of the list storing information related to the interfaces to which the router is connected.

Y

axsOspfv3VirtIfTable MIB of the table storing information related to virtual interfaces to which the router is connected.

Y

axsOspfv3NbrTable MIB of the table storing information related to neighboring offices that are not virtual.

Y

axsOspfv3VirtNbrTable MIB of the table storing virtual neighboring router information.

Y

axsOspfv3AreaAggregateTable

MIB of the table of IPv6 Prefixes designating Prefix and Prefix length as a pair.

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

MIB of LLDP information on this system. Y

axslldpRemoteSystemData group

MIB of LLDP information on the neighbor system connected with this system.

Y

axslldpRemoteOriginInfoData group

MIB of Alaxala original LLDP TLV information. Y


9


(Legend) Y: Supported by this system. N: Not supported by this system.

Private MIB

axsAxrpMIB group axsAxrpGroupTable group MIB related to Ring Protocol group information. Y

axsAxrpVlanGroupTable group

MIB related to Ring Protocol VLAN 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 MAC 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


MIB for clearing MAC 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


MIB for clearing MAC 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


10


1.3 Method for Acquiring the Private MIB Definition File

Private MIB definition file (ASN.1) is provided with software.

11


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.

IdentifierThis 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 IDENTIFIER ::= {axsMib 1}Object ID value 1.3.6.1.4.1.21839.2.2.1.1 For details of object ID value of private MIB, see "Appendix A Private MIB Names and Object IDs".

Implementation specificationsThe 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

Object IdentifierShows the name of the MIB object identifier.

SYNTAXThe meaning of SYNTAX used in private MIBs is indicated below. SYNTAX is only explained with private MIB implementation specifications.

Table 1-3: Meaning of SYNTAX Used in Private MIBs

No. Object Identifier SYNTAX Access Implementation Specifications Implemented

1 axsIfStatsTable{axsIfStats 1}

NOT-ACCESSIBLE

NA Extended statistics information table of interface. A

2 axsIfStatsEntry{axsIfStatsTable 1}

NOT-ACCESSIBLE

NA Entry of extended statistics information table of interface.INDEX {axsIfStatsIndex}

A

3 axsIfStatsIndex{axsIfStatsEntry 1}

NOT-ACCESSIBLE

NA Interface index of this system. Same as ifIndex. A

:::

:::

:::

:::

:::

:::

No. SYNTAX Explanation of SYNTAX

1 Counter Integer which increases to 0..4294967295(232-1) and returns to 0 again.

2 Counter32 Integer which increases to 0..4294967295(232-1) and returns to 0 again.

3 Counter64 Integer which increases to 0..18446744073709551615(264-1) and returns to 0 again.

4 DisplayString Character string from 0 to 255 characters (each byte is a NVT ASCII value).

5 Gauge Integer of 0 or greater that can be increased or decreased (0..4294967295).

6 INTEGER Indicates integer information in the range of -2147483648..2147483647(-231..231-1).

7 Integer32 Indicates integer information in the range of -2147483648..2147483647(-231..231-1).

8 OCTET STRING 0 or more character strings (in units of eight bits). Each byte is 0..255.

12


Access• R/O: Shows that MIB access on the standard document is Read_Only.• R/W: Shows that MIB access on the standard document is Read_Write.• R/NW: Shows that MIB access on the standard document is Read_Write, but is Read_Only in this system.• AN: Indicates that the MIB access in a specification document is accessible-for-notify. An Object cannot be

acquired and set, but it can be read as the variable of a trap.• NA: 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• A: Shows MIB supported (responded) by this system. However, if the access column has "NA", no response to

MIB is made. Also 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.

9 IpAddress 4-byte OCTET STRING (stores 32-bit IP addresses).

10 Ipv6Address 16-byte OCTET STRING (stores 128-bit IPv6 addresses).

11 OBJECT IDENTIFIER Stores fixed order list of sub-identifiers.

12 MacAddress 802MAC address represented in the regular order defined by IEEE802.1a. OCTET STRING type.

13 RowStatus SYNTAX 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 Named bit string which represents 0 or more character strings (in units of eight bits) with 1 assigned to the corresponding bit. Named 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 0x82.

17 NOT-ACCESSIBLE 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 (1..4095) of VLAN.

20 VlanIdOrZero Indicates index number (1..4095) of VLAN.

21 SnmpAdminString Character string that contains management information. DisplayString type.

22 InetAddressType Type of Internet address

23 InetAddress Internet address. OCTET STRING 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 STRING 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 1..2147483647(231-1)

29 Unsigned32 Integer-valued information within the range of 0..4294967295(232-1)

No. SYNTAX Explanation of SYNTAX

13


• N: Shows MIB not supported (responded) by this system.

14

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 Network 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-LAG-MIB Group

2.22 802.1X MIB Group

15

2.23 snmpModules Group

16



(1) Identifier system OBJECT IDENTIFIER ::= {mib-2 1}Object ID value 1.3.6.1.2.1.1

(2) Implementation specifications

The table below shows the implementation specifications of system group.

Table 2-1: Implementation Specifications of system Group

No. Object Identifier

Access Implementation Specifications Implemented

1 sysDescr{system 1}

R/O [Standard] Name 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)AX3600S

"Alaxala AX3600S AX-xxxx-xx [AX36xxS-xx] Switching Software Ver. 10.4 [OS-xx]"AX-xxxx-xx: System type nameAX36xxS-xx: System modelSwitching Software: Software nameVer. 10.4: Software versionOS-xx: Software abbreviation

A

2 sysObjectID{system 2}

R/O [Standard] Authorized ID of network management subsystem vendor.[Installation] Fixed value.Compute Blade 2000(AX3640S)

1.3.6.1.4.1.21839.1.2.11Compute Blade 320(AX3630S)

1.3.6.1.4.1.21839.1.2.7

A

3 sysUpTime{system 3}

R/O [Standard] Cumulative time after system starts (10ms counter).[Implementation] Cumulative time after the system is started

A

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 (NULL).

A

5 sysName{system 5}

R/W [Standard] Name 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 (NULL).

A

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 (NULL).

A

7 sysServices{system 7}

R/O [Standard] Value that shows services.[Implementation] 78 fixed.

A

17



2.2.1 interfaces Group (for Ethernet)The following is an explanation of the interfaces group listed below.

• 10BASE-T/100BASE-TX/1000BASE-T• SERDES• 10GBASE-R

(1) Identifier interfaces OBJECT IDENTIFIER ::= {mib-2 2}Object ID value 1.3.6.1.2.1.2


The table below shows the implementation specifications of interfaces group for Ethernet.

Table 2-2: Implementation Specifications of interfaces Group (with Ethernet)

No. Object Identifier Access Implementation Specifications Implemented

1 ifNumber{interfaces 1}

R/O [Standard] The number of network interfaces installed in this system.[Implementation] Same as standard. The value of this object changes if the interface configuration is changed.

A

2 ifTable{interfaces 2}

NA [Standard] Table of Interface entity.[Implementation] Same as standard.

A

3 ifEntry{ifTable 1}

NA [Standard] List of interface information belonging to sub-network layer.INDEX { ifIndex }[Implementation] Same as standard.

A

4 ifIndex{ifEntry 1}

R/O [Standard] Number for identifying this interface. Continuous values ranging from 1 to ifNumber.[Implementation] Same as standard. The value of this object changes if the interface configuration is changed.

A

5 ifDescr{ifEntry 2}

R/O [Standard] Interface information.[Implementation] Fixed character sequence by each interface type.

A

6 ifType{ifEntry 3}

R/O [Standard] Type of interface.[Implementation] Dependent on the interface.• For ifIndex of port: Ethernet-csmacd (6)• For ifIndex of VLAN: l2vlan (135)• For ifIndex of link aggregation: ieee8023adLag (161)

A

7 ifMtu{ifEntry 4}

R/O [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 VLAN: Minimum value among the Ethernet interface MTU

value, system MTU information, and IP MTU information (only if it is set)belonging to the VLAN

• For ifIndex of link aggregation: Same as VLAN information.

A

8 ifSpeed{ifEntry 5}

R/O [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 VLAN: 0 fixed.• For ifIndex of link aggregation: Port at the highest line speed among the

ports belonging to a channel group

A

18


9 ifPhysAddress{ifEntry 6}

R/O [Standard] Interface physical address under network layer.[Implementation] Dependent on the interface.• For ifIndex of port: Responded with the MAC address represented by a

canonical value.• For ifIndex of VLAN: Responds with a value that is a canonical expression

of MAC address assigned to the VLAN.• For ifIndex of link aggregation: Responds with a value that is a canonically

expressed MAC address of the channel group.

A

10 ifAdminStatus{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 VLAN: down (2) when VLAN suspend is specified in the

configuration.• For ifIndex of link aggregation: down (2) when shutdown of the channel

group is specified in the configuration.

A

11 ifOperStatus{ifEntry 8}

R/O [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 VLAN: Same as standard.• In the case of link aggregation: Same as standard.

A

12 ifLastChange{ifEntry 9}

R/O [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 VLAN: Same as standard.• For ifIndex of link aggregation: Same as standard.

A

13 ifInOctets{ifEntry 10}

R/O [Standard] Number 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

DA field to FCS field of MAC header, including the bad packets.• For ifIndex of VLAN: 0 fixed.• For ifIndex of link aggregation, the number of received octets in the frame

length from DA field to FCS field of MAC header, including the bad packets.

A

14 ifInUcastPkts{ifEntry 11}

R/O [Standard] Number of unicast packets notified to the upper layer protocol.[Implementation] Dependent on the interface.• For ifIndex of port: Same as standard.• For ifIndex of VLAN: 0 fixed.• For ifIndex of link aggregation: Same as standard.

A

15 ifInNUcastPkts{ifEntry 12}

R/O [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 VLAN: 0 fixed.• For ifIndex of link aggregation: Same as standard.

A


19


16 ifInDiscards{ifEntry 13}

R/O [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: Number of events discarded due to receiving FIFO

Overflow.• For ifIndex of VLAN: 0 fixed.• For ifIndex of link aggregation: Number of events discarded due to receiving

FIFO Overflow.

A

17 ifInErrors{ifEntry 14}

R/O [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 VLAN: 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.

A

18 ifInUnknownProtos{ifEntry 15}

R/O [Standard] The number of discarded packets that are received with unsupported protocol.[Implementation] Fixed to 0.

A

19 ifOutOctets{ifEntry 16}

R/O [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 DA

field of MAC header to FCS.• For ifIndex of VLAN: 0 fixed.• For ifIndex of link aggregation: The number of sent octets in frame length

from the DA field of MAC header to FCS.

A

20 ifOutUcastPkts{ifEntry 17}

R/O [Standard] Number of unicast packets transmitted by the upper layer.[Implementation] Dependent on the interface.• For ifIndex of port: 0 fixed.• For ifIndex of VLAN: 0 fixed.• For ifIndex of link aggregation: 0 fixed.

B

21 ifOutNUcastPkts{ifEntry 18}

R/O [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 MAC DA='1' number of packets. MAC packet isexcluded. SMT is included).

• For ifIndex of VLAN: 0 fixed.• For ifIndex of link aggregation: The number of normal non-unicast packets

sent by the upper layer (I/G bit of MAC DA='1' number of packets. MACpacket is excluded. SMT is included).

A

22 ifOutDiscards{ifEntry 19}

R/O [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: Number of events discarded due to a transmitting FIFO

Overflow (underrun).• For ifIndex of VLAN: 0 fixed.• For ifIndex of link aggregation: Number of events discarded due to a

transmitting FIFO overflow (underrun).

A

23 ifOutErrors{ifEntry 20}

R/O [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 VLAN: 0 fixed.• For ifIndex of link aggregation: 0 fixed.

A


20


2.2.2 interfaces Group (Other Cases)The interfaces group for local loopback is explained below.

(1) Identifier interfaces OBJECT IDENTIFIER ::= {mib-2 2}Object ID value 1.3.6.1.2.1.2


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)

24 ifOutQLen{ifEntry 21}

R/O [Standard] Size of sending packet queue.[Implementation] Dependent on the interface.• For ifIndex of port: Same as standard.• For ifIndex of VLAN: 0 fixed.• For ifIndex of link aggregation: The total size of outgoing packet queue sizes

of the ports belonging to the channel group.

A

25 ifSpecific{ifEntry 22}

R/O [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 1.3.6.1.2.1.10.7. 0.0 is replied when not normal.• For ifIndex of VLAN: 0.0 fixed.• For ifIndex of link aggregation: 0.0 fixed.

A


1 ifNumber{interfaces 1}

R/O [Standard] The number of network interfaces installed in this system.[Implementation] Same as standard. The value of this object changes if the interface configuration is changed.

A

2 ifTable{interfaces 2}

NA [Standard] Table of Interface entity.[Implementation] Same as standard.

A

3 ifEntry{ifTable 1}

NA [Standard] List of interface information belonging to sub-network layer.INDEX { ifIndex }[Implementation] Same as standard.

A

4 ifIndex{ifEntry 1}

R/O [Standard] Number for identifying this interface. Continuous values ranging from 1 to ifNumber.[Implementation] Same as standard. The value of this object changes if the interface configuration is changed.

A

5 ifDescr{ifEntry 2}

R/O [Standard] Interface information.[Implementation] Fixed character sequence by each interface type.

A

6 ifType{ifEntry 3}

R/O [Standard] Type of interface.[Implementation] Same as standard. management port: CSMA-CD(6)Local loopback: softwareLoopback (24)

A

7 ifMtu{ifEntry 4}

R/O [Standard] Maximum length of sending/receiving packet.[Implementation] Dependent on the interface.management port: Same as standard.Local loopback: 33188 fixed.

A

8 ifSpeed{ifEntry 5}

R/O [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.

A


21


9 ifPhysAddress{ifEntry 6}

R/O [Standard] Interface physical address under network layer.[Implementation] Dependent on the interface.management port: MAC address represented by a canonical value.Local loopback: No value.

A

10 ifAdminStatus{ifEntry 7}

R/NW [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.

A

11 ifOperStatus{ifEntry 8}

R/O [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.

A

12 ifLastChange{ifEntry 9}

R/O [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.

A

13 ifInOctets{ifEntry 10}

R/O [Standard] Number of octets received by this interface.[Implementation] Dependent on the interface.management port: The number of received octets in frame length from the

DA field of MAC header to FCS.Local loopback: The total number of octets received in IP packet.

A

14 ifInUcastPkts{ifEntry 11}

R/O [Standard] Number 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.

A

15 ifInNUcastPkts{ifEntry 12}

R/O [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.

A

16 ifInDiscards{ifEntry 13}

R/O [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.

A

17 ifInErrors{ifEntry 14}

R/O [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.

A


22


18 ifInUnknownProtos{ifEntry 15}

R/O [Standard] The number of packets discarded after receiving packet with unsupported protocol.[Implementation] Dependent on the interface.management port: Number of discarded packets other than IP packetsLocal loopback: Number of discarded packets other than IP packets

A

19 ifOutOctets{ifEntry 16}

R/O [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 DA

field of MAC header to FCS.Local loopback: The total number of octets sent in IP packet.

A

20 ifOutUcastPkts{ifEntry 17}

R/O [Standard] Number of unicast packets transmitted by the upper layer.[Implementation] Dependent on the interface.management port: I/G bit of MAC DA='0' number of packets.Local loopback: The number of unicast packets sent by upper layer in IP packets.

A

21 ifOutNUcastPkts{ifEntry 18}

R/O [Standard] The number of non-unicast packets sent by the upper layer.[Implementation] Dependent on the interface.management port: I/G bit of MAC DA='1' number of packets.Local loopback: The number of non-unicast packets sent by upper layer in IP packets.

A

22 ifOutDiscards{ifEntry 19}

R/O [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.

A

23 ifOutErorr{ifEntry 20}

R/O [Standard] The number of packets that could not be sent because of errors.[Implementation] Dependent on the interface.management port: Number of packets by which Underrun and byte count

did mismatch, excessive collision, excessive delay or transmission time-out.

Local loopback: 0 fixed.

A

24 ifOutQLen{ifEntry 21}

R/O [Standard] Size of sending packet queue.[Implementation] Dependent on the interface.management port: Number of packets stacked in the sending waiting queueLocal loopback: Number of packets stacked in the sending waiting queue

A

25 ifSpecific{ifEntry 22}

R/O [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.

A


23



(1) Identifier at OBJECT IDENTIFIER ::= {mib-2 3}Object ID value 1.3.6.1.2.1.3


The table below shows the implementation specifications of at group.

Table 2-4: Implementation Specifications of at Group

No. Object Identifier

Access Implementation Specifications Implemented

1 atTable{at 1}

NA [Standard] Address conversion table is the table of Network Address 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.[Implementation] Same as standard. Corresponding relationship between network address and physical address is indicated.

A

2 atEntry{atTable 1}

NA [Standard] Each entry is listed relative to one network address corresponding to the "Physical" address corresponding value.INDEX { atIfIndex, atNetAddress }[Implementation] Same as standard.

A

3 atIfIndex{atEntry 1}

R/NW [Standard] ifIndex value corresponding interface.[Implementation] ifIndex of interface with atPhysAddress. However, it is Read_Only.

A

4 atPhysAddress{atEntry 2}

R/O [Standard] Physical address.[Implementation] MAC address dependent on the media dependent ARP table.

A

5 atNetAddress{atEntry 3}

R/O [Standard] IP address corresponding to the media dependent atPhysAddress.[Implementation] Same as standard.

A

24



2.4.1 ip

(1) Identifier ip OBJECT IDENTIFIER ::= {mib-2 4}Object ID value 1.3.6.1.2.1.4


The table below shows the implementation specifications of ip group.

Table 2-5: Implementation Specifications of ip Group


1 ipForwarding{ip 1}

R/NW [Standard] Whether IP relay function is available (whether functions as gateway).• gateway (1)• host (2)

[Implementation] gateway (1) fixed. However, it is Read_Only.

A

2 ipDefaultTTL{ip 2}

R/NW [Standard] Default value set in TTL in IP header.[Implementation] Same as standard. However, it is Read_Only.

A

3 ipInReceives{ip 3}

R/O [Standard] Total number of IP datagram received from all interfaces.[Implementation] Same as standard. 0 fixed.

B

4 ipInHdrErrors{ip 4}

R/O [Standard] Number 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 ipInAddrErrors{ip 5}

R/O [Standard] Number of packets discarded due to invalid destination address in IP header.[Implementation] Counts when destination address class is not A, B, C, or D. Also counts when broadcast address is invalid (255.255.255.255 or 0.0.0.0).

A

6 ipForwDatagrams{ip 6}

R/O [Standard] Number of packets judged to need relay.[Implementation] Same as standard. 0 fixed.

B

7 ipInUnknownProtos{ip 7}

R/O [Standard] Number of IP datagram discarded due to protocol that cannot be recognized by own address IP packet received, or unsupported protocol.[Implementation] Same as standard.

A

8 ipInDiscards{ip 8}

R/O [Standard] Total number of sent IP datagram discarded for reasons other than errors.[Implementation] Number of packets received when ifOperStatus not up.

A

9 ipInDelivers{ip 9}

R/O [Standard] Number of IP datagram for which upper layer notified.[Implementation] Number of receive IP packets at local system address.

A

10 ipOutRequests{ip 10}

R/O [Standard] Total number of IP datagram for which upper layer requested IP packet send.[Implementation] Number of IP packets sent from local system.

A

11 ipOutDiscards{ip 11}

R/O [Standard] Number of IP datagram discarded for reasons other than error.[Implementation] Number of packets discarded due to send buffer shortage or congestion control when IP packets are sent. 0 fixed.

B

12 ipOutNoRoutes{ip 12}

R/O [Standard] Number of IP datagram discarded due to unspecified sender.[Implementation] Counts when destination network is not in routing table when packets are relayed.

A

25


2.4.2 ipAddrTable

(1) Identifier ip OBJECT IDENTIFIER ::= {mib-2 4} ipAddrTable OBJECT IDENTIFIER ::= {ip 20}Object ID value 1.3.6.1.2.1.4.20


The table below shows the implementation specifications of ipAddrTable group.

Table 2-6: Implementation Specifications of ipAddrTable Group

13 ipReasmTimeout{ip 13}

R/O [Standard] Maximum number of hold seconds for fragmented packet awaiting reassembly.[Implementation] Same as standard.

A

14 ipReasmReqds{ip 14}

R/O [Standard] Number of received IP datagram needing reassembly.[Implementation] Same as standard.

A

15 ipReasmOKs{ip 15}

R/O [Standard] Number of received IP datagram for which reassembly succeeds.[Implementation] Same as standard.

A

16 ipReasmFails{ip 16}

R/O [Standard] Number of receive IP datagram for which reassembly fails.[Implementation] Same as standard.

A

17 ipFragOKs{ip 17}

R/O [Standard] Number of IP datagram for which fragmentation succeeds.[Implementation] Same as standard.

A

18 ipFragFails{ip 18}

R/O [Standard] Number 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.

A

19 ipFragCreates{ip 19}

R/O [Standard] Number of fragmented IP datagram created as a result of fragmentation.[Implementation] Same as standard.

A


1 ipAddrTable{ip 20}

NA [Standard] Table of addressing information related to IP address of this entity (Address information table by IP address).[Implementation] Same as standard.

A

2 ipAddrEntry{ipAddrTable 1}

NA [Standard] Addressing information list for one IP address of this entity.[Implementation] Same as standard.

A

3 ipAdEntAddr{ipAddrEntry 1}

R/O [Standard] IP address.[Implementation] IP address of port.

A

4 ipAdEntIfIndex{ipAddrEntry 2}

R/O [Standard] Index value of interface applicable to this entry. Same value as ifIndex.[Implementation] Same as standard.

A

5 ipAdEntNetMask{ipAddrEntry 3}

R/O [Standard] Subnet mask related to IP address of this entry.[Implementation] Same as standard.

A

6 ipAdEntBcastAddr{ipAddrEntry 4}

R/O [Standard] Lowest bit value of address when IP broadcast sent.[Implementation] Same as standard.

A

7 ipAdEntReasmMaxSize{ipAddrEntry 5}

R/O [Standard] Size of maximum IP packet which can be reassembled from IP fragmented input IP datagram received by interface.[Implementation] Same as standard.

A


26


2.4.3 ipRouteTable

(1) Identifier ip OBJECT IDENTIFIER ::= {mib-2 4} ipRouteTable OBJECT IDENTIFIER ::= {ip 21}Object ID value 1.3.6.1.2.1.4.21


The table below shows the implementation specifications of ipRouteTable group.

Table 2-7: Implementation Specifications of ipRouteTable Group


1 ipRouteTable{ip 21}

NA [Standard] IP routing table of this entity.[Implementation] Same as standard.

A

2 ipRouteEntry{ipRouteTable 1}

NA [Standard] Information on route to specific destination.[Implementation] Same as standard.

A

3 ipRouteDest{ipRouteEntry 1}

R/NW [Standard] Destination IP address of this route.[Implementation] Destination network address in routing table. However, it is Read_Only.

A

4 ipRouteIfIndex{ipRouteEntry 2}

R/NW [Standard] Index value of interface where first hop of this route exists.[Implementation] Same as standard. However, it is Read_Only.There is a route that is not forwarded to the routing table. ipAdEntIfIndex of this route is 0.

A

5 ipRouteMetric1{ipRouteEntry 3}

R/NW [Standard] Primary routing metric of this route.[Implementation] Number of hops of routing table. However, it is Read_Only.

A


R/NW [Standard] Alternative routing metric of this route.[Implementation] Same as standard. However, it is Read_Only.

A


R/NW [Standard] Alternative routing metric of this route.[Implementation] -1 fixed since unused. However, it is Read_Only.

A


R/NW [Standard] Alternative routing metric of this route.[Implementation] -1 fixed since unused. However, it is Read_Only.

A

9 ipRouteNextHop{ipRouteEntry 7}

R/NW [Standard] Next 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. ipRouteNextHop of this route is 0.0.0.0.

A

10 ipRouteType{ipRouteEntry 8}

R/O [Standard] Type of route.• other (1)• invalid (2)• direct (3)• indirect (4)

[Implementation] Same as standard. However, it is Read_Only.

A

27


2.4.4 ipNetToMediaTable

(1) Identifier ip OBJECT IDENTIFIER ::= {mib-2 4} ipNetToMediaTable OBJECT IDENTIFIER ::= {ip 22}Object ID value 1.3.6.1.2.1.4.22


The table below shows the implementation specifications of ipNetToMediaTable group.

Table 2-8: Implementation Specifications of ipNetToMediaTable Group

11 ipRouteProto{ipRouteEntry 9}

R/O [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)

[Implementation] Same as standard.

A

12 ipRouteAge{ipRouteEntry 10}

R/NW [Standard] Elapsed time after this route was updated (unit: second).[Implementation] Same as standard. However, it is Read_Only.

A

13 ipRouteMask{ipRouteEntry 11}

R/NW [Standard] Subnet mask value related to ipRouteDest.[Implementation] Same as standard. However, it is Read_Only.

A


R/NW [Standard] Alternative routing metric.[Implementation] -1 fixed. However, it is Read_Only.

A

15 ipRouteInfo{ipRouteEntry 13}

R/O [Standard] Reference to MIB which defines specific routing protocol that can be trusted by route.[Implementation] {0.0} fixed.

A


1 ipNetToMediaTable{ip 22}

NA [Standard] IP address conversion table used for mapping from IP address to physical address.[Implementation] Same as standard.

A

2 ipNetToMediaEntry{ipNetToMediaTable 1}

NA [Standard] One IP address list corresponding to physical address.INDEX { ipNetToMediaIfIndex, ipNetToMediaNetAddress }[Implementation] Same as standard.

A

3 ipNetToMediaIfIndex{ipNetToMediaEntry 1}

R/NW [Standard] Interface ID number that becomes valid.[Implementation] Same as standard. However, it is Read_Only.

A

4 ipNetToMediaPhysAddress{ipNetToMediaEntry 2}

R/NW [Standard] Media dependent physical address.[Implementation] Same as standard. However, it is Read_Only.

A

5 ipNetToMediaNetAddress{ipNetToMediaEntry 3}

R/NW [Standard] IP address corresponding to the media dependent physical address.[Implementation] Same as standard. However, it is Read_Only.

A


28


2.4.5 ipForwardThe document related to the ipForward group is given below.

• RFC1354

(1) Identifier ip OBJECT IDENTIFIER ::= {mib-2 4} ipForward OBJECT IDENTIFIER ::= {ip 24}Object ID value 1.3.6.1.2.1.4.24


The table below shows the implementation specifications of ipForward group.

Table 2-9: Implementation Specifications of ipForward Group

6 ipNetToMediaType{ipNetToMediaEntry 4}

R/NW [Standard] Type of mapping.• other (1)• invalid (2)• dynamic (3)• static (4)


A

7 ipRoutingDiscards{ip 23}

R/O [Standard] Number 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


1 ipForwardNumber{ipForward 1}

R/O [Standard] Number of forwarding table entries.[Implementation] Same as standard.

A

2 ipForwardTable{ipForward 2}

NA [Standard] Table storing information on each route.[Implementation] Same as standard.

A

3 ipForwardEntry{ipForwardTable 1}

NA [Standard] Information list for each route.INDEX { ipForwardDest, ipForwardProto, ipForwardPolicy, ipForwardNextHop }[Implementation] Same as standard.

A

4 ipForwardDest{ipForwardEntry 1}

R/O [Standard] Destination address of this route.[Implementation] Same as standard.

A

5 ipForwardMask{ipForwardEntry 2}

R/NW [Standard] Mask for taking address and logical AND.[Implementation] Same as standard. However, it is Read_Only.

A

6 ipForwardPolicy{ipForwardEntry 3}

R/O [Standard] Condition for selecting one from multiple path route (normally TOS).[Implementation] Fixed to 0.

B

7 ipForwardNextHop{ipForwardEntry 4}

R/O [Standard] Address of next system in route.[Implementation] Same as standard.

A

8 ipForwardIfIndex{ipForwardEntry 5}

R/NW [Standard] Identifier in local interface connected with next hop of this route.[Implementation] Same as standard. However, it is Read_Only.

A


29


9 ipForwardType{ipForwardEntry 6}

R/NW [Standard] Type of route.• Other (1)• Invalid (2)• Local (3)• Remote (4)


A

10 ipForwardProto{ipForwardEntry 7}

R/O [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)


A

11 ipForwardAge{ipForwardEntry 8}

R/NW [Standard] Elapsed time after this route was learned or updated (unit: second).[Implementation] Same as standard.

A

12 ipForwardInfo{ipForwardEntry 9}

R/NW [Standard] Additional information by route protocol.[Implementation] {0.0} fixed. However, it is Read_Only.

B

13 ipForwardNextHopAS{ipForwardEntry 10}

R/NW [Standard] Autonomous system number of next hop.[Implementation] Same as standard. However, it is Read_Only.

A

14 ipForwardMetric1{ipForwardEntry 11}

R/NW [Standard] Metric for this route.[Implementation] Same as standard. However, it is Read_Only.

A


R/NW [Standard] Alternate route metric for this route.[Implementation] Same as standard. However, it is Read_Only.

A


R/NW [Standard] Alternate route metric for this route.[Implementation] -1 fixed. However, it is Read_Only.

A


R/NW [Standard] Metric of alternative route for this route.[Implementation] -1 fixed. However, it is Read_Only.

A


R/NW [Standard] Metric of alternative route for this route.[Implementation] -1 fixed. However, it is Read_Only.

A


30



(1) Identifier icmp OBJECT IDENTIFIER ::= {mib-2 5}Object ID value 1.3.6.1.2.1.5


The table below shows the implementation specifications of icmp group.

Table 2-10: Implementation Specifications of icmp Group


1 icmpInMsgs{icmp 1}

R/O [Standard] Number of total ICMP messages this entity received.[Implementation] Same as standard.

A

2 icmpInErrors{icmp 2}

R/O [Standard] Number of ICMP message errors received (checksum error, frame length error, etc.).[Implementation] Same as standard.

A

3 icmpInDestUnreachs{icmp 3}

R/O [Standard] Number of ICMP Destination Unreachable messages received.[Implementation] Same as standard.

A

4 icmpInTimeExcds{icmp 4}

R/O [Standard] Number of ICMP Time Exceed messages received[Implementation] Same as standard.

A

5 icmpInParmProbs{icmp 5}

R/O [Standard] Number of ICMP Parameter Problem messages received.[Implementation] Same as standard.

A

6 icmpInSrcQuenchs{icmp 6}

R/O [Standard] Number of ICMP Source Quench messages received.[Implementation] Same as standard.

A

7 icmpInRedirects{icmp 7}

R/O [Standard] Number of ICMP Network Redirect messages received.[Implementation] Same as standard.

A

8 icmpInEchos{icmp 8}

R/O [Standard] Number of ICMP Echo request messages received.[Implementation] Same as standard.

A

9 icmpInEchoReps{icmp 9}

R/O [Standard] Number of ICMP Echo response messages received[Implementation] Same as standard.

A

10 icmpInTimestamps{icmp 10}

R/O [Standard] Number of ICMP TimeStamp request messages received.[Implementation] Same as standard.

A

11 icmpInTimestampReps{icmp 11}

R/O [Standard] Number of ICMP TimeStamp response messages received.[Implementation] Same as standard.

A

12 icmpInAddrMasks{icmp 12}

R/O [Standard] Number of ICMP Address Mask request messages received.[Implementation] Same as standard.

A

13 icmpInAddrMaskReps{icmp 13}

R/O [Standard] Number of ICMP Address Mask response messages received.[Implementation] Same as standard.

A

14 icmpOutMsgs{icmp 14}

R/O [Standard] Total number of ICMP messages tried to send (including errors).[Implementation] Same as standard.

A

15 icmpOutErrors{icmp 15}

R/O [Standard] Number of ICMP messages not sent due to error.[Implementation] Counts only when no buffer.

A

16 icmpOutDestUnreachs{icmp 16}

R/O [Standard] Number of ICMP Destination Unreachable messages sent.[Implementation] Same as standard.

A

17 icmpOutTimeExcds{icmp 17}

R/O [Standard] Number of ICMP Time Exceeded messages sent.[Implementation] Same as standard.

A

18 icmpOutParmProbs{icmp 18}

R/O [Standard] Number of ICMP Parameter Problem messages sent.[Implementation] Same as standard.

A

31


19 icmpOutSrcQuenchs{icmp 19}

R/O [Standard] Number of ICMP Source Quench messages sent.[Implementation] Same as standard.

A

20 icmpOutRedirects{icmp 20}

R/O [Standard] Number of ICMP Redirect messages sent.[Implementation] Same as standard.

A

21 icmpOutEchos{icmp 21}

R/O [Standard] Number of ICMP Echo request messages sent.[Implementation] Same as standard.

A

22 icmpOutEchoReps{icmp 22}

R/O [Standard] Number of ICMP Echo response messages sent.[Implementation] Same as standard.

A

23 icmpOutTimestamps{icmp 23}

R/O [Standard] Number of ICMP Timestamp request messages sent.[Implementation] Same as standard.

A

24 icmpOutTimestampReps{icmp 24}

R/O [Standard] Number of ICMP Timestamp response messages sent.[Implementation] Same as standard.

A

25 icmpOutAddrMasks{icmp 25}

R/O [Standard] Number of ICMP Address Mask request messages sent.[Implementation] Same as standard.

A

26 icmpOutAddrMaskReps{icmp 26}

R/O [Standard] Number of ICMP Address Mask response messages sent.[Implementation] Same as standard.

A


32



The document related to the tcp group is given below.

• RFC2452 (December 1998)

2.6.1 tcp

(1) Identifier tcp OBJECT IDENTIFIER ::= {mib-2 6}Object ID value 1.3.6.1.2.1.6


The table below shows the implementation specifications of tcp group.

Table 2-11: tcp Group


1 tcpRtoAlgorithm{tcp 1}

R/O [Standard] Algorithm that determines timeout time used for resend.• other (1)• constant (2)• rsre (3)• vanj (4)

[Implementation] vanj (4) fixed.

B

2 tcpRtoMin{tcp 2}

R/O [Standard] Minimum value of timeout for resend (unit: millisecond(s)).[Implementation] 1000 fixed.

B

3 tcpRtoMax{tcp 3}

R/O [Standard] Maximum value of timeout for resend (unit: millisecond(s)).[Implementation] 64000 fixed.

B

4 tcpMaxConn{tcp 4}

R/O [Standard] Total number of supportable TCP connections. Responds -1 when maximum number of connections is dynamic.[Implementation] -1 fixed.

B

5 tcpActiveOpens{tcp 5}

R/O [Standard] Number of TCP connection status changes from CLOSE to SYN-SENT.[Implementation] Same as standard.

A

6 tcpPassiveOpens{tcp 6}

R/O [Standard] Number of TCP connection status changes from LISTEN to SYN-RCVD.[Implementation] Same as standard.

A

7 tcpAttemptFails{tcp 7}

R/O [Standard] Total number of TCP connection status changes from SYN-SENT/SYN-RCVD to CLOSE and number of TCP connection status changes from SYN-RCVD to LISTEN.[Implementation] Same as standard.

A

8 tcpEstabResets{tcp 8}

R/O [Standard] Number of TCP connection status changes from ESTABLISHD, CLOSE-WAIT to CLOSE.[Implementation] Same as standard.

A

9 tcpCurrEstab{tcp 9}

R/O [Standard] Total number of TCP connections with ESTABLISHD, CLOSE-WAIT status.[Implementation] Same as standard.

A

10 tcpInSegs{tcp 10}

R/O [Standard] Total number of receive segments containing error segments.[Implementation] Same as standard.

A

11 tcpOutSegs{tcp 11}

R/O [Standard] Total number of send segments.[Implementation] Same as standard.

A

12 tcpRetransSegs{tcp 12}

R/O [Standard] Total number of resend segments.[Implementation] Same as standard.

A

33


2.6.2 ipv6TcpConnTable

(1) Identifier tcp OBJECT IDENTIFIER ::= {mib-2 6} ipv6TcpConnTable OBJECT IDENTIFIER ::= {tcp 16}Object ID value 1.3.6.1.2.1.6.16


The table below shows the implementation specifications of ipv6TcpConnTable group.

13 tcpConnTable{tcp 13}

NA [Standard] Information table unique to TCP connection.[Implementation] Same as standard.

A

14 tcpConnEntry{tcpConnTable 1}

NA [Standard] Entry information on specific TCP connection.INDEX { tcpConnLocalAddress, tcpConnLocalPort, tcpConnRemAddress, tcpConnRemPort }[Implementation] Same as standard.

A

15 tcpConnState{tcpConnEntry 1}

R/NW [Standard] Status of TCP connection.• closed (1)• listen (2)• synSent (3)• synReceived (4)• established (5)• finWait1 (6)• finWait2 (7)• closeWait (8)• lastAck (9)• closing (10)• timeWait (11)• deleteTCB (12)


A

16 tcpConnLocalAddress{tcpConnEntry 2}

R/O [Standard] Local IP address of this TCP connection.[Implementation] Same as standard.

A

17 tcpConnLocalPort{tcpConnEntry 3}

R/O [Standard] Local port number of this TCP connection.[Implementation] Same as standard.

A

18 tcpConnRemAddress{tcpConnEntry 4}

R/O [Standard] Remote IP address of this TCP connection.[Implementation] Same as standard.

A

19 tcpConnRemPort{tcpConnEntry 5}

R/O [Standard] Remote port number of this TCP connection.[Implementation] Same as standard.

A

20 tcpInErrs{tcp 14}

R/O [Standard] Total number of error segments received.[Implementation] Same as standard.

A

21 tcpOutRsts{tcp 15}

R/O [Standard] Number of sends of segments with RST flag.[Implementation] Same as standard.

A


34


Table 2-12: Implementation Specifications of ipv6TcpConnTable Group


1 ipv6TcpConnTable{tcp 16}

NA [Standard] TCP connection table.[Implementation] Same as standard.

A

2 ipv6TcpConnEntry{ipv6TcpConnTable 1}

NA [Standard] Table entry.INDEX { ipv6TcpConnLocalAddress, ipv6TcpConnLocalPort, ipv6TcpConnRemAddress, ipv6TcpConnRemPort, ipv6TcpConnIfIndex }[Implementation] Same as standard.

A

3 ipv6TcpConnLocalAddress{ipv6TcpConnEntry 1}

NA [Standard] Local IP address of TCP connection.[Implementation] Same as standard.

A

4 ipv6TcpConnLocalPort{ipv6TcpConnEntry 2}

NA [Standard] Local port number of TCP connection.[Implementation] Same as standard.

A

5 ipv6TcpConnRemAddress{ipv6TcpConnEntry 3}

NA [Standard] Remote IP address of TCP connection.[Implementation] Same as standard.

A

6 ipv6TcpConnRemPort{ipv6TcpConnEntry 4}

NA [Standard] Remote port number of TCP connection.[Implementation] Same as standard.

A

7 ipv6TcpConnIfIndex{ipv6TcpConnEntry 5}

NA [Standard] Local interface number of TCP connection.[Implementation] Same as standard.

A

8 ipv6TcpConnState{ipv6TcpConnEntry 6}

R/NW [Standard] State of TCP connection.• closed (1)• listen (2)• synSent (3)• synReceived (4)• established (5)• finWait1 (6)• finWait2 (7)• closeWait (8)• lastAck (9)• closing (10)• timeWait (11)• deleteTCB (12)


A

35



The document related to the udp group is given below.


2.7.1 udp

(1) Identifier udp OBJECT IDENTIFIER ::= {mib-2 7}Object ID value 1.3.6.1.2.1.7


The table below shows the implementation specifications of udp group.

Table 2-13: udp Group

2.7.2 ipv6UdpTable

(1) Identifier udp OBJECT IDENTIFIER ::= {mib-2 7} ipv6UdpTable OBJECT IDENTIFIER ::= {udp 6}Object ID value 1.3.6.1.2.1.7.6


The table below shows the implementation specifications of ipv6UdpTable group.


1 udpInDatagrams{udp 1}

R/O [Standard] Number of UDP datagram communicated to upper layer.[Implementation] Same as standard.

A

2 udpNoPorts{udp 2}

R/O [Standard] Total number of received UDP datagram with no upper application in destination port.[Implementation] Same as standard.

A

3 udpInErrors{udp 3}

R/O [Standard] Number of UDP datagram that could not communicate to application for reasons other than udpNoPorts.[Implementation] Same as standard.

A

4 udpOutDatagrams{udp 4}

R/O [Standard] Total number of UDP datagram which upper application sent.[Implementation] Same as standard.

A

5 udpTable{udp 5}

NA [Standard] UDP listener's information table.[Implementation] Same as standard.

A

6 udpEntry{udpTable 1}

NA [Standard] Number of entries related to specific UDP listener.INDEX { udpLocalAddress, udpLocalPort }[Implementation] Same as standard.

A

7 udpLocalAddress{udpEntry 1}

R/O [Standard] This UDP listener's local IP address.[Implementation] Same as standard.

A

8 udpLocalPort{udpEntry 2}

R/O [Standard] This UDP listener's local port number.[Implementation] Same as standard.

A

36


Table 2-14: Implementation Specifications of ipv6UdpTable Group


1 ipv6UdpTable{udp 6}

NA [Standard] Table including the information of UDP listener.[Implementation] Same as standard.

A

2 ipv6UdpEntry{ipv6UdpTable 1}

NA [Standard] Information on specific UDP listener.INDEX { ipv6UdpLocalAddress, ipv6UdpLocalPort, ipv6UdpIfIndex }[Implementation] Same as standard.

A

3 ipv6UdpLocalAddress{ipv6UdpEntry 1}

NA [Standard] Local IPv6 address for UDP listener.[Implementation] Same as standard.

A

4 ipv6UdpLocalPort{ipv6UdpEntry 2}

NA [Standard] Local port number for UDP listener.[Implementation] Same as standard.

A

5 ipv6UdpIfIndex{ipv6UdpEntry 3}

R/O [Standard] Local interface number for UDP listener.[Implementation] Same as standard.

A

37



The document related to the dot3 group is given below.

• RFC1643

(1) Identifier dot3 OBJECT IDENTIFIER ::= {transmission 7}Object ID value 1.3.6.1.2.1.10.7


The table below shows the implementation specifications of dot3 group.

Table 2-15: Implementation Specifications of dot3 Group


1 dot3StatsTable{dot3 2}

NA [Standard] statistics information table for Ethernet like interface connected to specific system.[Implementation] Same as standard.

A

2 dot3StatsEntry{dot3StatsTable 1}

NA [Standard] statistics information list of specific interface for Ethernet like media.INDEX { dot3StatsIndex }[Implementation] Same as standard.

A

3 dot3StatsIndex{dot3StatsEntry 1}

R/O [Standard] Interface index value for Ethernet like media.[Implementation] Same as standard.

A

4 dot3StatsAlignmentErrors{dot3StatsEntry 2}

R/O [Standard] Number of received frames not with correct frame length*, caught by FCS check.[Implementation] Fixed to 0.

B

5 dot3StatsFCSErrors{dot3StatsEntry 3}

R/O [Standard] Number of received frames with correct frame length*, caught by FCS check.[Implementation] Same as standard.

A

6 dot3StatsSingleCollisionFrames{dot3StatsEntry 4}

R/O [Standard] Number of successfully sent frames with only one collision.[Implementation] Same as standard.

A

7 dot3StatsMultipleCollisionFrames{dot3StatsEntry 5}

R/O [Standard] Number of successfully sent frames with multiple collisions in specific interface.[Implementation] Same as standard.

A

8 dot3StatsSQETestErrors{dot3StatsEntry 6}

R/O [Standard] Number of SQE TEST ERROR message occurrences.[Implementation] Fixed to 0.

B

9 dot3StatsDeferredTransmissions{dot3StatsEntry 7}

R/O [Standard] Number of frames with delayed first send due to busy send route.[Implementation] Same as standard.

A

10 dot3StatsLateCollisions{dot3StatsEntry 8}

R/O [Standard] Number of times collision detected after 512 bits time elapses.[Implementation] Same as standard.

A

11 dot3StatsExcessiveCollisions{dot3StatsEntry 9}

R/O [Standard] Number of forwarding failures due to excessive collisions (16 times).[Implementation] Same as standard.

A

12 dot3StatsInternalMacTransmitErrors{dot3StatsEntry 10}

R/O [Standard] Number of times transmission failed due to transmission problem in MAC sub-layer.[Implementation] Fixed to 0.

B

13 dot3StatsCarrierSenseErrors{dot3StatsEntry 11}

R/O [Standard] Number of times without carrier during send.[Implementation] Same as standard.

A

38


* The frame length is from the MAC header to FCS. For the frame format, see "Configuration Settings, Vol. 1, 12.1.3 MAC/LLC Sub-layer Control".

14 dot3StatsFrameTooLongs{dot3StatsEntry 13}

R/O [Standard] Number of received frames exceeding the maximum allowed frame length *


A

15 dot3StatsInternalMacReceiveErrors{dot3StatsEntry 16}

R/O [Standard] Number of frames in which receive fails due to receive error in MAC sub-layer.[Implementation] Same as standard.

A

16 dot3StatsEtherChipSet{dot3StatsEntry 17}

R/O [Standard] Object identifier showing chip set used by interface.[Implementation] 0.0 fixed.

B


39



(1) Identifier snmp OBJECT IDENTIFIER ::= {mib-2 11}Object ID value 1.3.6.1.2.1.11


The table below shows the implementation specifications of snmp group.

Table 2-16: snmp Group


1 snmpInPkts{snmp 1}

R/O [Standard] Total number of SNMP received messages.[Implementation] Same as standard.

A

2 snmpOutPkts{snmp 2}

R/O [Standard] Total number of SNMP sent messages.[Implementation] Same as standard.

A

3 snmpInBadVersions{snmp 3}

R/O [Standard] Total number of unsupported version received messages.[Implementation] Same as standard.

A

4 snmpInBadCommunityNames{snmp 4}

R/O [Standard] Total number of SNMP received messages of unused community.[Implementation] Same as standard.

A

5 snmpInBadCommunityUses{snmp 5}

R/O [Standard] Total number of received messages showing unauthorized operation in the community.[Implementation] Same as standard.

A

6 snmpInASNParseErrs{snmp 6}

R/O [Standard] Total number of received messages with ASN.1 error.[Implementation] Same as standard.

A

7 snmpInBadTypes{snmp 7}

R/O [Standard] Total number of unknown PDU type received.[Implementation] Same as standard.

A

8 snmpInTooBigs{snmp 8}

R/O [Standard] Total number of received PDUs with tooBig error status.[Implementation] Fixed to 0.

A

9 snmpInNoSuchNames{snmp 9}

R/O [Standard] Total number of received PDUs with noSuchName error status.[Implementation] Fixed to 0.

A

10 snmpInBadValues{snmp 10}

R/O [Standard] Total number of received PDUs with badValue error status.[Implementation] Fixed to 0.

A

11 snmpInReadOnlys{snmp 11}

R/O [Standard] Total number of received PDUs with readOnly error status.[Implementation] Fixed to 0.

A

12 snmpInGenErrs{snmp 12}

R/O [Standard] Total number of received PDUs with genErr error status.[Implementation] Fixed to 0.

A

13 snmpInTotalReqVars{snmp 13}

R/O [Standard] Total number of MIB objects for which MIB was successfully collected.[Implementation] Same as standard.

A

14 snmpInTotalSetVars{snmp 14}

R/O [Standard] Total number of MIB objects for which MIB was successfully set.[Implementation] Same as standard.

A

15 snmpInGetRequests{snmp 15}

R/O [Standard] Total number of GetRequestPDUs received.[Implementation] Same as standard.

A

16 snmpInGetNexts{snmp 16}

R/O [Standard] Total number of GetNextRequestPDUs received.[Implementation] Same as standard.

A

17 snmpInSetRequests{snmp 17}

R/O [Standard] Total number of SetRequestPDUs received.[Implementation] Same as standard.

A

40


18 snmpInGetResponses{snmp 18}

R/O [Standard] Total number of GetResponsePDUs received.[Implementation] Fixed to 0.

A

19 snmpInTraps{snmp 19}

R/O [Standard] Total number of trap PDUs received.[Implementation] Fixed to 0.

A

20 snmpOutTooBigs{snmp 20}

R/O [Standard] Total number of sent PDUs with tooBig error status.[Implementation] Same as standard.

A

21 snmpOutNoSuchNames{snmp 21}

R/O [Standard] Total number of sent PDUs with noSuchName error status.[Implementation] Same as standard.

A

22 snmpOutBadValues{snmp 22}

R/O [Standard] Total number of sent PDUs with badValue error status.[Implementation] Same as standard.

A

23 snmpOutReadOnlys{snmp 23}

R/O [Standard] Total number of sent PDUs with readOnly error status.[Implementation] Same as standard.

A

24 snmpOutGenErrs{snmp 24}

R/O [Standard] Total number of sent PDUs with genErr error status.[Implementation] Same as standard.

A

25 snmpOutGetRequests{snmp 25}

R/O [Standard] Total number of sent GetRequestPDUs.[Implementation] Fixed to 0.

A

26 snmpOutGetNexts{snmp 26}

R/O [Standard] Total number of sent GetNextRequestPDUs.[Implementation] Fixed to 0.

A

27 snmpOutSetRequests{snmp 27}

R/O [Standard] Total number of sent SetRequestPDUs.[Implementation] Fixed to 0.

A

28 snmpOutGetResponses{snmp 28}

R/O [Standard] Total number of sent GetResponsePDUs.[Implementation] Same as standard.

A

29 snmpOutTraps{snmp 29}

R/O [Standard] Total number of sent trap PDUs.[Implementation] Same as standard.

A

30 snmpEnableAuthenTraps{snmp 30}

R/NW [Standard] Shows whether authentication-failure Trap can be issued.• enable (1)• disable (2)


A

31 snmpSilentDrops{snmp 31}

R/NW [Standard] Total number of SNMP received messages discarded because the size of the message to be replied exceeded the maximum message size.[Implementation] Same as standard.

A


41



The document related to the ospf group is shown below.

• RFC1850

2.10.1 ospfGeneralGroup

(1) Identifier ospf OBJECT IDENTIFIER ::= {mib-2 14} ospfGeneralGroup OBJECT IDENTIFIER ::= {ospf 1}Object ID value 1.3.6.1.2.1.14.1


The table below shows the implementation specifications of ospfGeneralGroup group.

Table 2-17: Implementation Specifications of ospfGeneralGroup Group


1 ospfRouterId{ospfGeneralGroup 1}

R/NW [Standard] Router identifier in autonomous system.[Implementation] Same as standard. However, it is Read_Only.

A

2 ospfAdminStat{ospfGeneralGroup 2}

R/NW [Standard] OSPF maintenance status of router.• enabled (1)• disabled (2)


A

3 ospfVersionNumber{ospfGeneralGroup 3}

R/O [Standard] Version number of OSPF protocol.[Implementation] Same as standard (version2 fixed).

A

4 ospfAreaBdrRtrStatus{ospfGeneralGroup 4}

R/O [Standard] Shows whether router is area border router.• true (1)• false (2)


A

5 ospfASBdrRtrStatus{ospfGeneralGroup 5}

R/NW [Standard] Shows whether router is AS boundary router.• true (1)• false (2)


A

6 ospfExternLsaCount{ospfGeneralGroup 6}

R/O [Standard] Number of external link state advertisements (LSA) in link state database (LSDB).[Implementation] Same as standard.

A

7 ospfExternLsaCksumSum{ospfGeneralGroup 7}

R/O [Standard] Total LS checksum of external LSA in LSDB.[Implementation] Same as standard.

A

8 ospfTOSSupport{ospfGeneralGroup 8}

R/NW [Standard] Flag showing whether this router supports TOS base routing.• true (1)• false (2)

[Implementation] false (2) fixed. However, it is Read_Only.

A

9 ospfOriginateNewLsas{ospfGeneralGroup 9}

R/O [Standard] Number of new LSA originated.[Implementation] Same as standard.

A

10 ospfRxNewLsas{ospfGeneralGroup 10}

R/O [Standard] Number of times receiving LSA with new information.[Implementation] Same as standard.

A

42


2.10.2 ospfAreaTable

(1) Identifier ospf OBJECT IDENTIFIER ::= {mib-2 14} ospfAreaTable OBJECT IDENTIFIER ::= {ospf 2}Object ID value 1.3.6.1.2.1.14.2


The table below shows the implementation specifications of ospfAreaTable group.

Table 2-18: Implementation Specifications of ospfAreaTable Group

11 ospfExtLsdbLimit{ospfGeneralGroup 11}

R/NW [Standard] Maximum number of entries for AS external LSAs that can be stored in LSDB. For -1, no limit.[Implementation] -1 fixed. However, it is Read_Only.

A

12 ospfMulticastExtensions{ospfGeneralGroup 12}

R/NW [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.

A

13 ospfExitOverflowInterval{ospfGeneralGroup 13}

R/O [Standard] Time until entry becomes overflow status (unit: second(s)).[Implementation] Unused.

N

14 ospfDemandExtensions{ospfGeneralGroup 14}

R/O [Standard] Demand routing support in this router.• true (1)• false (2)

[Implementation] Unused.

N


1 ospfAreaTable{ospf 2}

NA [Standard] Table storing information on each area connected to router.[Implementation] Same as standard.

A

2 ospfAreaEntry{ospfAreaTable 1}

NA [Standard] Information list on each area.INDEX { ospfAreaId }[Implementation] Same as standard.

A

3 ospfAreaId{ospfAreaEntry 1}

R/O [Standard] Number that identifies area.[Implementation] Same as standard.

A

4 ospfAuthType{ospfAreaEntry 2}

R/NW [Standard] Type of authentication used in this area.• None (0)• simple password (1)• md5 (2)


A

5 ospfImportAsExtern{ospfAreaEntry 3}

R/NW [Standard] Flag showing whether this router takes AS external link state advertisement (LSA).• importExternal (1)• importNoExternal (2)• importNssa (3)


A

6 ospfSpfRuns{ospfAreaEntry 4}

R/O [Standard] Number of times calculating routes in area using link state database (LSDB) of this area.[Implementation] Same as standard.

A

7 ospfAreaBdrRtrCount{ospfAreaEntry 5}

R/O [Standard] Total number of reachable area border routers in this area.[Implementation] Same as standard.

A


43


2.10.3 ospfStubAreaTable

(1) Identifier ospf OBJECT IDENTIFIER ::= {mib-2 14} ospfStubAreaTable OBJECT IDENTIFIER ::= {ospf 3}Object ID value 1.3.6.1.2.1.14.3


The table below shows the implementation specifications of ospfStubAreaTable group.

Table 2-19: Implementation Specifications of ospfStubAreaTable Group

8 ospfAsBdrRtrCount{ospfAreaEntry 6}

R/O [Standard] Total number of reachable AS boundary routers in this area.[Implementation] Same as standard.

A

9 ospfAreaLsaCount{ospfAreaEntry 7}

R/O [Standard] Number of LSAs in LSDB of this area, except AS external LSA.[Implementation] Same as standard.

A

10 ospfAreaLsaCksumSum{ospfAreaEntry 8}

R/O [Standard] Total LS checksum of LSA included in LSDB of this area.[Implementation] Same as standard.

A

11 ospfAreaSummary{ospfAreaEntry 9}

R/NW [Standard] Variable values related to import control of summary LSA to area.• noAreaSummary (1)• sendAreaSummary (2)

[Implementation] sendAreaSummary (2) fixed. However, it is Read_Only.

A

12 ospfAreaStatus{ospfAreaEntry 10}

R/NW [Standard] Shows the status of entry.[Implementation] active (1) fixed. However, it is Read_Only.

A


1 ospfStubAreaTable{ospf 3}

NA [Standard] Information table advertised in stub area by area border router.[Implementation] Same as standard.

A

2 ospfStubAreaEntry{ospfStubAreaTable 1}

NA [Standard] Information list of each stub area.INDEX { ospfStubAreaId, ospfStubTOS }[Implementation] Same as standard.

A

3 ospfStubAreaId{ospfStubAreaEntry 1}

R/O [Standard] Stub area ID.[Implementation] Same as standard.

A

4 ospfStubTOS{ospfStubAreaEntry 2}

R/O [Standard] Service type of stub area.[Implementation] Same as standard (0 fixed).

A

5 ospfStubMetric{ospfStubAreaEntry 3}

R/NW [Standard] Metric corresponding to service type in stub area.[Implementation] Same as standard. However, it is Read_Only.

A

6 ospfStubStatus{ospfStubAreaEntry 4}


A

7 ospfStubMetricType{ospfStubAreaEntry 5}

R/NW [Standard] Metric type advertised as default route.• ospfMetric (1)• comparableCost (2)• nonComparable (3)


A


44


2.10.4 ospfLsdbTable

(1) Identifier ospf OBJECT IDENTIFIER ::= {mib-2 14} ospfLsdbTable OBJECT IDENTIFIER ::= {ospf 4}Object ID value 1.3.6.1.2.1.14.4


The table below shows the implementation specifications of ospfLsdbTable group.

Table 2-20: Implementation Specifications of ospfLsdbTable Group

2.10.5 ospfAreaRangeTable

(1) Identifier ospf OBJECT IDENTIFIER ::= {mib-2 14} ospfAreaRangeTable OBJECT IDENTIFIER ::= {ospf 5}Object ID value 1.3.6.1.2.1.14.5


1 ospfLsdbTable{ospf 4}

NA [Standard] Table storing information on link state database (LSDB) of OSPF process.[Implementation] Same as standard.

A

2 ospfLsdbEntry{ospfLsdbTable 1}

NA [Standard] List of link state advertisements (LSA).INDEX { ospfLsdbAreaId, ospfLsdbType, ospfLsdbLsid, ospfLsdbRouterId }[Implementation] Same as standard.

A

3 ospfLsdbAreaId{ospfLsdbEntry 1}

R/O [Standard] Area ID of the area receiving this LSA.[Implementation] Same as standard.

A

4 ospfLsdbType{ospfLsdbEntry 2}

R/O [Standard] Type of LSA.• router (1)• Network (2)• Summary (3)• AS summary (4)• AS external link (5)• Multicast (6)• nssa external link (7)


A

5 ospfLsdbLsid{ospfLsdbEntry 3}

R/O [Standard] ID that identifies individual routing domain.[Implementation] Same as standard.

A

6 ospfLsdbRouterId{ospfLsdbEntry 4}

R/O [Standard] ID of router created LSA.[Implementation] Same as standard.

A

7 ospfLsdbSequence{ospfLsdbEntry 5}

R/O [Standard] Sequence number of LSA.[Implementation] Same as standard.

A

8 ospfLsdbAge{ospfLsdbEntry 6}

R/O [Standard] Elapsed time after this LSA was created (unit: second(s)).[Implementation] Same as standard.

A

9 ospfLsdbChecksum{ospfLsdbEntry 7}

R/O [Standard] Checksum of this LSA.[Implementation] Same as standard.

A

10 ospfLsdbAdvertisement{ospfLsdbEntry 8}

R/O [Standard] Whole LSA containing header.[Implementation] Same as standard.

A

45



The table below shows the implementation specifications of ospfAreaRangeTable group.

Table 2-21: Implementation Specifications of ospfAreaRangeTable Group

2.10.6 ospfHostTable

(1) Identifier ospf OBJECT IDENTIFIER ::= {mib-2 14} ospfHostTable OBJECT IDENTIFIER ::= {ospf 6}Object ID value 1.3.6.1.2.1.14.6


The table below shows the implementation specifications of ospfHostTable group.

Table 2-22: Implementation Specifications of ospfHostTable Group


1 ospfAreaRangeTable{ospf 5}

NA [Standard] Table storing information within address range in area connected to router.[Implementation] Same as standard.

A

2 ospfAreaRangeEntry{ospfAreaRangeTable 1}

NA [Standard] List storing information within address range in area connected to router.INDEX { ospfAreaRangeAreaId, ospfAreaRangeNet }[Implementation] Same as standard.

A

3 ospfAreaRangeAreaId{ospfAreaRangeEntry 1}

R/O [Standard] Area ID to which belongs.[Implementation] Same as standard.

A

4 ospfAreaRangeNet{ospfAreaRangeEntry 2}

R/O [Standard] IP address of net/subnet within this range.[Implementation] Same as standard.

A

5 ospfAreaRangeMask{ospfAreaRangeEntry 3}

R/NW [Standard] Subnet mask used for ospfAreaRangeNet.[Implementation] Same as standard. However, it is Read_Only.

A

6 ospfAreaRangeStatus{ospfAreaRangeEntry 4}


A

7 ospfAreaRangeEffect{ospfAreaRangeEntry 5}

R/NW [Standard] Range of advertised area.• Subnet advertised outside the area (1)• Subnet not advertised outside the area (2)


A


1 ospfHostTable{ospf 6}

NA [Standard] Host and metric table that router advertises as host route.[Implementation] Unused.

N

2 ospfHostEntry{ospfHostTable 1}

NA [Standard] Host and metric information list that router advertises as host route.INDEX { ospfHostIpAddress, ospfHostTOS }[Implementation] Unused.

N

3 ospfHostIpAddress{ospfHostEntry 1}

R/O [Standard] IP address of the host.[Implementation] Unused.

N

4 ospfHostTOS{ospfHostEntry 2}

R/O [Standard] Service type of this route.[Implementation] Unused.

N

5 ospfHostMetric{ospfHostEntry 3}

R/NW [Standard] Metric corresponding to service type.[Implementation] Unused.

N

46


2.10.7 ospfIfTable

(1) Identifier ospf OBJECT IDENTIFIER ::= {mib-2 14} ospfIfTable OBJECT IDENTIFIER ::= {ospf 7}Object ID value 1.3.6.1.2.1.14.7


The table below shows the implementation specifications of ospfIfTable group.

Table 2-23: Implementation Specifications of ospfIfTable Group

6 ospfHostStatus{ospfHostEntry 4}

R/NW [Standard] Shows the status of entry.[Implementation] Unused.

N

7 ospfHostAreaID{ospfHostEntry 5}

R/O [Standard] Host area to which belongs. Default is area including OSPF interface, or 0.0.0.0.[Implementation] Unused.

N


1 ospfIfTable{ospf 7}

NA [Standard] Table storing information on each interface connected to router.[Implementation] Same as standard.

A

2 ospfIfEntry{ospfIfTable 1}

NA [Standard] List storing information on each interface connected to router.INDEX { ospfIfIpAddress, ospfAddressLessIf }[Implementation] Same as standard.

A

3 ospfIfIpAddress{ospfIfEntry 1}

R/O [Standard] IP address of this OSPF interface.[Implementation] Same as standard.

A

4 ospfAddressLessIf{ospfIfEntry 2}

R/O [Standard] Identifier valid when this interface is address interface.[Implementation] Same as standard.

A

5 ospfIfAreaId{ospfIfEntry 3}

R/NW [Standard] Area ID of the area to which this interface connects.[Implementation] Same as standard. However, it is Read_Only.

A

6 ospfIfType{ospfIfEntry 4}

R/NW [Standard] Interface type.• Broadcast (1)• Non-broadcast (2)• Point-Point (3)• Point-Multipoint (5)


A

7 ospfIfAdminStat{ospfIfEntry 5}

R/NW [Standard] Control status of the interface.• enabled (1)• disabled (2)


A

8 ospfIfRtrPriority{ospfIfEntry 6}

R/NW [Standard] Priority of this interface.[Implementation] Same as standard. However, it is Read_Only.

A

9 ospfIfTransitDelay{ospfIfEntry 7}

R/NW [Standard] Time needed for sending link state update packet on this interface (unit: second(s)).[Implementation] Same as standard. However, it is Read_Only.

A

10 ospfIfRetransInterval{ospfIfEntry 8}

R/NW [Standard] Resend interval of link state advertisement (LSA) (unit: second(s)).[Implementation] Same as standard. However, it is Read_Only.

A


47


2.10.8 ospfIfMetricTable

(1) Identifier ospf OBJECT IDENTIFIER ::= {mib-2 14} ospfIfMetricTable OBJECT IDENTIFIER ::= {ospf 8}Object ID value 1.3.6.1.2.1.14.8

11 ospfIfHelloInterval{ospfIfEntry 9}

R/NW [Standard] Send interval of Hello packet (unit: second(s)).[Implementation] Same as standard. However, it is Read_Only.

A

12 ospfIfRtrDeadInterval{ospfIfEntry 10}

R/NW [Standard] Maximum allowable receiving interval of Hello packet (unit: second(s)).[Implementation] Same as standard. However, it is Read_Only.

A

13 ospfIfPollInterval{ospfIfEntry 11}

R/NW [Standard] Send interval of Hello packet to inactive neighbor office in non-broadcast multiple access network (unit: second(s)).[Implementation] Same as standard. However, it is Read_Only.

A

14 ospfIfState{ospfIfEntry 12}

R/O [Standard] Interface status.• down (1)• loopback (2)• waiting (3)• PtoP (4)• DR (5)• BDR (6)• other (7)


A

15 ospfIfDesignatedRouter{ospfIfEntry 13}

R/O [Standard] IP address of designated router.[Implementation] Same as standard.

A

16 ospfIfBackupDesignatedRouter{ospfIfEntry 14}

R/O [Standard] IP address of backup designated router.[Implementation] Same as standard.

A

17 ospfIfEvents{ospfIfEntry 15}

R/O [Standard] Number of status changes or error occurrences in this interface.[Implementation] Same as standard.

A

18 ospfIfAuthKey{ospfIfEntry 16}

R/NW [Standard] Authentication key in this interface.[Implementation] Same as standard. However, it is Read_Only.

A

19 ospfIfStatus{ospfIfEntry 17}


A

20 ospfIfMulticastForwarding{ospfIfEntry 18}

R/NW [Standard] Multicast method in this interface.• blocked (1)• multicast (2)• unicast (3)

[Implementation] blocked (1) fixed. However, it is Read_Only.

A

21 ospfIfDemand{ospfIfEntry 19}

R/O [Standard] Shows whether to perform Demand OSPF procedure in this interface.[Implementation] Unused.

N

22 ospfIfAuthType{ospfIfEntry 20}

R/O [Standard] Interface authentication method.• None (0)• simple password (1)• MD5 (2)• One determined by IANA (3 to 255)


N


48



The table below shows the implementation specifications of ospfIfMetricTable group.

Table 2-24: Implementation Specifications of ospfIfMetricTable Group

2.10.9 ospfVirtIfTable

(1) Identifier ospf OBJECT IDENTIFIER ::= {mib-2 14} ospfVirtIfTable OBJECT IDENTIFIER ::= {ospf 9}Object ID value 1.3.6.1.2.1.14.9


The table below shows the implementation specifications of ospfVirtIfTable group.

Table 2-25: Implementation Specifications of ospfVirtIfTable Group


1 ospfIfMetricTable{ospf 8}

NA [Standard] Table storing service type metric information on each interface.[Implementation] Same as standard.

A

2 ospfIfMetricEntry{ospfIfMetricTable 1}

NA [Standard] Information list of service type metric for each interface.INDEX { ospfIfMetricIpAddress, ospfIfMetricAddressLessIf, ospfIfMetricTOS }[Implementation] Same as standard.

A

3 ospfIfMetricIpAddress{ospfMetricEntry 1}

R/O [Standard] IP address of this OSPF interface.[Implementation] Same as standard.

A

4 ospfIfMetricAddressLessIf{ospfMetricEntry 2}

R/O [Standard] Identifier valid when this interface is address interface.[Implementation] Same as standard.

A

5 ospfIfMetricTOS{ospfMetricEntry 3}

R/O [Standard] Service type of this interface.[Implementation] Fixed to 0.

A

6 ospfIfMetricValue{ospfMetricEntry 4}

R/NW [Standard] Metric of this service type in this interface.[Implementation] Same as standard. However, it is Read_Only.

A

7 ospfIfMetricStatus{ospfMetricEntry 5}

R/NW [Standard] Status of this entry.[Implementation] active (1) fixed. However, it is Read_Only.

A


1 ospfVirtIfTable{ospf 9}

NA [Standard] Table storing information on each virtual interface connected to router.[Implementation] Same as standard.

A

2 ospfVirtIfEntry{ospfVirtIfTable 1}

NA [Standard] Information list in each virtual interface.INDEX { ospfVirtIfAreaId, ospfVirtIfNeighbor }[Implementation] Same as standard.

A

3 ospfVirtIfAreaId{ospfVirtIfEntry 1}

R/O [Standard] Area ID of area through which this virtual link passes.[Implementation] Same as standard.

A

4 ospfVirtIfNeighbor{ospfVirtIfEntry 2}

R/O [Standard] Router ID of virtual neighboring router.[Implementation] Same as standard.

A

5 ospfVirtIfTransitDelay{ospfVirtIfEntry 3}


A

49


2.10.10 ospfNbrTable

(1) Identifier ospf OBJECT IDENTIFIER ::= {mib-2 14} ospfNbrTable OBJECT IDENTIFIER ::= {ospf 10}Object ID value 1.3.6.1.2.1.14.10


The table below shows the implementation specifications of ospfNbrTable group.

Table 2-26: Implementation Specifications of ospfNbrTable Group

6 ospfVirtIfRetransInterval{ospfVirtIfEntry 4}


A

7 ospfVirtIfHelloInterval{ospfVirtIfEntry 5}


A

8 ospfVirtIfRtrDeadInterval{ospfVirtIfEntry 6}


A

9 ospfVirtIfState{ospfVirtIfEntry 7}

R/O [Standard] Interface status.• down (1)• PtoP (4)


A

10 ospfVirtIfEvents{ospfVirtIfEntry 8}

R/O [Standard] Number of status changes or error occurrences in this interface.[Implementation] Same as standard.

A

11 ospfVirtIfAuthKey{ospfVirtIfEntry 9}

R/NW [Standard] Authentication key in this interface.[Implementation] Same as standard. However, it is Read_Only.

A

12 ospfVirtIfStatus{ospfVirtIfEntry 10}


A

13 ospfVirtIfAuthType{ospfVirtIfEntry 11}

R/W [Standard] Authentication method of virtual interface.[Implementation] Unused.

N


1 ospfNbrTable{ospf 10}

NA [Standard] Table storing information on non-virtual neighboring office.[Implementation] Same as standard.

A

2 ospfNbrEntry{ospfNbrTable 1}

NA [Standard] Information list of each neighboring office.INDEX { ospfNbrIpAddr, ospfNbrAddressLessIndex }[Implementation] Same as standard.

A

3 ospfNbrIpAddr{ospfNbrEntry 1}

R/O [Standard] IP address of neighboring router.[Implementation] Same as standard.

A

4 ospfNbrAddressLessIndex{ospfNbrEntry 2}

R/O [Standard] Identifier valid when interface of neighboring router is address interface.[Implementation] Same as standard.

A

5 ospfNbrRtrId{ospfNbrEntry 3}

R/O [Standard] Router ID of neighboring router.[Implementation] Same as standard.

A


50


2.10.11 ospfVirtNbrTable

(1) Identifier ospf OBJECT IDENTIFIER ::= {mib-2 14} ospfVirtNbrTable OBJECT IDENTIFIER ::= {ospf 11}Object ID value 1.3.6.1.2.1.14.11


The table below shows the implementation specifications of ospfVirtNbrTable group.

Table 2-27: Implementation Specifications of ospfVirtNbrTable Group

6 ospfNbrOptions{ospfNbrEntry 4}

R/O [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: Area related to NSSA


A

7 ospfNbrPriority{ospfNbrEntry 5}

R/NW [Standard] Priority of neighboring router.[Implementation] Same as standard. However, it is Read_Only.

A

8 ospfNbrState{ospfNbrEntry 6}

R/O [Standard] Status showing relation to this neighboring router.• down (1)• attempt (2)• init (3)• twoWay (4)• exchangeStart (5)• exchange (6)• loading (7)• full (8)


A

9 ospfNbrEvents{ospfNbrEntry 7}

R/O [Standard] Number of status changes or error occurrences related to neighboring router.[Implementation] Same as standard.

A

10 ospfNbrLsRetransQLen{ospfNbrEntry 8}

R/O [Standard] Current length of resend queue.[Implementation] Same as standard.

A

11 ospfNbmaNbrStatus{ospfNbrEntry 9}

R/NW [Standard] Status of this entry.[Implementation] active (1) fixed. Can be accessed only when ospfIfType is nbma. However, it is Read_Only.

A

12 ospfNbmaNbrPermanence{ospfNbrEntry 10}

R/NW [Standard] Method of routing with neighboring router.• dynamic (1)• permanent (2)


A

13 ospfNbrHelloSuppressed{ospfNbrEntry 11}

R/O [Standard] Shows whether Hello is suppressed to neighbor.[Implementation] Unused.

N


1 ospfVirtNbrTable{ospf 11}

NA [Standard] Table storing virtual neighboring router data.[Implementation] Same as standard.

A

2 ospfVirtNbrEntry{ospfVirtNbrTable 1}

NA [Standard] Information list of each virtual neighboring router.INDEX { ospfVirtNbrArea, ospfVirtNbrRtrId }[Implementation] Same as standard.

A


51


2.10.12 ospfExtLsdbTable

(1) Identifier ospf OBJECT IDENTIFIER ::= {mib-2 14} ospfExtLsdbTable OBJECT IDENTIFIER ::= {ospf 12}Object ID value 1.3.6.1.2.1.14.12


The table below shows the implementation specifications of ospfExtLsdbTable group.

Table 2-28: Implementation Specifications of ospfExtLsdbTable Group

3 ospfVirtNbrArea{ospfVirtNbrEntry 1}

R/O [Standard] Area ID of transit area.[Implementation] Same as standard.

A

4 ospfVirtNbrRtrId{ospfVirtNbrEntry 2}


A

5 ospfVirtNbrIpAddr{ospfVirtNbrEntry 3}

R/O [Standard] IP address of virtual neighboring router.[Implementation] Same as standard.

A

6 ospfVirtNbrOptions{ospfVirtNbrEntry 4}

R/O [Standard] Optional execution capacity of virtual neighboring router.• Bit 1: Service type base routing• Bit 2: IP multicast routing


A

7 ospfVirtNbrState{ospfVirtNbrEntry 5}

R/O [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)


A

8 ospfVirtNbrEvents{ospfVirtNbrEntry 6}

R/O [Standard] Number of status changes or error occurrences in this virtual link.[Implementation] Same as standard.

A

9 ospfVirtNbrLsRetransQLen{ospfVirtNbrEntry 7}


A

10 ospfVirtNbrHelloSuppressed{ospfVirtNbrEntry 8}

R/O [Standard] Shows whether Hello is suppressed to neighbor.[Implementation] Unused.

N


1 ospfExtLsdbTable{ospf 12}

NA [Standard] Table of link state database (LSDB) of OSPF processing.[Implementation] Same as standard.

A

2 ospfExtLsdbEntry{ospfExtLsdbTable 1}

NA [Standard] List of link state advertisements (LSA).INDEX { ospfExtLsdbType, ospfExtLsdbLsid, ospfExtLsdbRouterId }[Implementation] Same as standard.

A


52


2.10.13 ospfAreaAggregateTable

(1) Identifier ospf OBJECT IDENTIFIER ::= {mib-2 14} ospfAreaAggregateTable OBJECT IDENTIFIER ::= {ospf 14}Object ID value 1.3.6.1.2.1.14.14


The table below shows the implementation specifications of ospfAreaAggregateTable group.

Table 2-29: Implementation Specifications of ospfAreaAggregateTable Group

3 ospfExtLsdbType{ospfExtLsdbEntry 1}

R/O [Standard] Type of LSA.• asExternalLink (5)


A

4 ospfExtLsdbLsid{ospfExtLsdbEntry 2}

R/O [Standard] Link status ID. Link status ID is the field that includes either router ID or IP address.[Implementation] Same as standard.

A

5 ospfExtLsdbRouterId{ospfExtLsdbEntry 3}

R/O [Standard] 32 bit number for distinguishing creation source router in autonomous system.[Implementation] Same as standard.

A

6 ospfExtLsdbSequence{ospfExtLsdbEntry 4}


A

7 ospfExtLsdbAge{ospfExtLsdbEntry 5}

R/O [Standard] Elapsed time after LSA was created (unit: second (s)).[Implementation] Same as standard.

A

8 ospfExtLsdbChecksum{ospfExtLsdbEntry 6}

R/O [Standard] Checksum advertisement content not containing Age field.[Implementation] Same as standard.

A

9 ospfExtLsdbAdvertisement{ospfExtLsdbEntry 7}

R/O [Standard] Entire LSA containing header.[Implementation] Same as standard.

A


1 ospfAreaAggregateTable{ospf 14}

NA [Standard] Table of IP address specifying IP address and IP subnet mask as pair.[Implementation] Same as standard.

A

2 ospfAreaAggregateEntry{ospfAreaAggregateTable 1}

NA [Standard] List of IP address specifying IP address and IP subnet mask as pair.INDEX { ospfAreaAggregateAreaID, ospfAreaAggregateLsdbType, ospfAreaAggregateNet, ospfAreaAggregateMask }[Implementation] Same as standard.

A

3 ospfAreaAggregateAreaID{ospfAreaAggregateEntry 1}

R/O [Standard] Address aggregate area.[Implementation] Same as standard.

A

4 ospfAreaAggregateLsdbType{ospfAreaAggregateEntry 2}

R/O [Standard] Address aggregate type. This entry indicates the type of the link state database (LSDB) applied to the aggregation of this address.• summaryLink (3)• nssaExternalLink (7)


A


53


2.10.14 ospfTrap

(1) Identifier ospf OBJECT IDENTIFIER ::= {mib-2 14} ospfTrap OBJECT IDENTIFIER ::= {ospf 16}Object ID value 1.3.6.1.2.1.14.16 ospfTrapControl OBJECT IDENTIFIER ::= {ospfTrap 1}Object ID value 1.3.6.1.2.1.14.16.1


The table below shows the implementation specifications of ospfTrap group.

Table 2-30: Implementation Specifications of ospfTrap Group

5 ospfAreaAggregateNet{ospfAreaAggregateEntry 3}

R/O [Standard] IP address of network or subnet.[Implementation] Same as standard.

A

6 ospfAreaAggregateMask{ospfAreaAggregateEntry 4}

R/O [Standard] Subnet mask related to network or subnet.[Implementation] Same as standard.

A

7 ospfAreaAggregateStatus{ospfAreaAggregateEntry 5}


A

8 ospfAreaAggregateEffect{ospfAreaAggregateEntry 6}

R/NW [Standard] Shows whether subnet advertised within range will be opportunity for advertising aggregate address or subnet not advertised outside area.• advertiseMatching (1)• doNotAdvertiseMatching (2)


A


1 ospfTrapControl{ospfTrap 1}

NA [Standard] Trap-related information obtained.[Implementation] Same as standard.

A

2 ospfSetTrap{ospfTrapControl 1}

R/NW [Standard] Bit map indicating the trap-allowable event. Each bit indicates object of ospfTraps.21 bit (0x00000002): ospfVirtIfStateChangeUp to 216 bit (0x00010000): ospfIfStateChange[Implementation] Same as standard. However, 0x100fe fixed and Read_Only.

A

3 ospfConfigErrorType{ospfTrapControl 2}

R/O [Standard] Error event of trap which occurred most recently.• badVersion (1)• areaMismatch (2)• unknownNbmaNbr (3)• unknownVirtualNbr (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.

A


54


4 ospfPacketType{ospfTrapControl 3}

R/O [Standard] Type of error packet used in most recent trap.• hello (1)• dbDescript (2)• lsReq (3)• lsUpdate (4)• lsAck (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.

A

5 ospfPacketSrc{ospfTrapControl 4}

R/O [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 0.0.0.0.

A

6 ospfTraps{ospfTrap 2}

NA [Standard] Trap advertisement.[Implementation] Same as standard.

A


55



The document related to the bgp group is shown below.

• RFC1657

2.11.1 bgp

(1) Identifier bgp OBJECT IDENTIFIER ::= {mib-2 15}Object ID value 1.3.6.1.2.1.15


The table below shows the implementation specifications of bgp group.

Table 2-31: Implementation Specifications of bgp Group

2.11.2 bgpPeerTable

(1) Identifier bgp OBJECT IDENTIFIER ::= {mib-2 15} bgpPeerTable OBJECT IDENTIFIER ::= {bgp 3}Object ID value 1.3.6.1.2.1.15.3


The table below shows the implementation specifications of bgpPeerTable.

Table 2-32: Implementation Specifications of bgpPeerTable


1 bgpVersion{bgp 1}

R/O [Standard] Expresses supported version in bit map format. Lowest bit in octet assumed to be bit 0; supported version number -1 bit set.[Implementation] Same as standard.

A

2 bgpLocalAs{bgp 2}

R/O [Standard] Autonomous system number of local.[Implementation] Same as standard.

A


1 bgpPeerTable{bgp 3}

NA [Standard] bgp peer table.[Implementation] Same as standard.

A

2 bgpPeerEntry{bgpPeerTable 1}

NA [Standard] Table of information on bgp peer connection.INDEX { bgpPeerRemoteAddr }[Implementation] Same as standard.

A

3 bgpPeerIdentifier{bgpPeerEntry 1}

R/O [Standard] BGP identifier of bgp peer in this entry.[Implementation] Same as standard.

A

4 bgpPeerState{bgpPeerEntry 2}

R/O [Standard] Status of connection with BGP peer.• idle (1)• connect (2)• active (3)• opensent (4)• openconfirm (5)• established (6)


A

56


5 bgpPeerAdminStatus{bgpPeerEntry 3}

R/NW [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.

A

6 bgpPeerNegotiatedVersion{bgpPeerEntry 4}

R/O [Standard] Version of BGP negotiated between peers.[Implementation] Same as standard.

A

7 bgpPeerLocalAddr{bgpPeerEntry 5}

R/O [Standard] Local IP address of BGP connection of this entry.[Implementation] Same as standard.

A

8 bgpPeerLocalPort{bgpPeerEntry 6}

R/O [Standard] Local port number in TCP connection between peers.[Implementation] Same as standard.

A

9 bgpPeerRemoteAddr{bgpPeerEntry 7}

R/O [Standard] Remote IP address of BGP connection of this entry.[Implementation] Same as standard.

A

10 bgpPeerRemotePort{bgpPeerEntry 8}

R/O [Standard] Remote port number in TCP connection between peers.[Implementation] Same as standard.

A

11 bgpPeerRemoteAs{bgpPeerEntry 9}

R/O [Standard] Remote autonomous system number.[Implementation] Same as standard.

A

12 bgpPeerInUpdates{bgpPeerEntry 10}

R/O [Standard] Number of BGP UPDATE messages received by this connection.[Implementation] Same as standard.

A

13 bgpPeerOutUpdates{bgpPeerEntry 11}

R/O [Standard] Number of BGP UPDATE messages sent by this connection.[Implementation] Same as standard.

A

14 bgpPeerInTotalMessages{bgpPeerEntry 12}

R/O [Standard] Number of messages received from remote peer by this connection.[Implementation] Same as standard.

A

15 bgpPeerOutTotalMessages{bgpPeerEntry 13}

R/O [Standard] Number of messages sent to remote peer by this connection.[Implementation] Same as standard.

A

16 bgpPeerLastError{bgpPeerEntry 14}

R/O [Standard] Last error code and sub-code understood by peer in this connection.[Implementation] Same as standard.

A

17 bgpPeerFsmEstablishedTransitions{bgpPeerEntry 15}

R/O [Standard] Number of times FSM becomes Established status.[Implementation] Same as standard.

A

18 bgpPeerFsmEstablishedTime{bgpPeerEntry 16}

R/O [Standard] Time since entering Established status or since it was in Established status last time (unit: second(s)).[Implementation] Same as standard.

A

19 bgpPeerConnectRetryInterval{bgpPeerEntry 17}

R/NW [Standard] ConnectRetry timer value.[Implementation] Same as standard. However, it is Read_Only.

A

20 bgpPeerHoldTime{bgpPeerEntry 18}

R/O [Standard] Peer and established HOLD timer value.[Implementation] Same as standard.

A

21 bgpPeerKeepAlive{bgpPeerEntry 19}

R/O [Standard] Peer and established KeepAlive timer value.[Implementation] Same as standard.

A

22 bgpPeerHoldTimeConfigured{bgpPeerEntry 20}

R/NW [Standard] Hold timer value configured for this peer of this BGP speaker.[Implementation] Same as standard. However, it is Read_Only.

A

23 bgpPeerKeepAliveConfigured{bgpPeerEntry 21}

R/NW [Standard] keepAlive timer value configured for this peer of this BGP speaker.[Implementation] Same as standard. However, it is Read_Only.

A


57


2.11.3 bgp4PathAttrTable

(1) Identifier bgp OBJECT IDENTIFIER ::= {mib-2 15} bgp4PathAttrTable OBJECT IDENTIFIER ::= {bgp 6}Object ID value 1.3.6.1.2.1.15.6


The table below shows the implementation specifications of bgp4PathAttrTable.

Table 2-33: Implementation Specifications of bgp4PathAttrTable

24 bgpPeerMinASOriginationInterval{bgpPeerEntry 22}

R/NW [Standard] MinASOriginationInterval timer value (unit: second(s)).[Implementation] UPDATE message advertisement interval.Only External peer can be accessed. However, it is Read_Only.

A

25 bgpPeerMinRouteAdvertisementInterval{bgpPeerEntry 23}

R/NW [Standard] MinRouteAdvertisementInterval timer value (unit: second(s)).[Implementation] UPDATE message advertisement interval.Only Internal peer can be accessed. However, it is Read_Only.

A

26 bgpPeerInUpdateElapsedTime{bgpPeerEntry 24}

R/O [Standard] Elapsed time since last update message received.[Implementation] Same as standard.

A

27 bgpIdentifier{bgp 4}

R/O [Standard] BGP identifier of local system.[Implementation] Same as standard.

A


1 bgp4PathAttrTable{bgp 6}

NA [Standard] Table of path information to destination network received from all BGP4.[Implementation] Same as standard.

A

2 bgp4PathAttrEntry{bgp4PathAttrTable 1}

NA [Standard] List of path information to destination network.INDEX { bgp4PathAttrIpAddrPrefix, bgp4PathAttrIpAddrPrefixLen, bpg4PathAttrPeer }[Implementation] Same as standard.

A

3 bgp4PathAttrPeer{bgp4PathAttrEntry 1}

R/O [Standard] IP address of peer that learned path information.[Implementation] Same as standard.

A

4 bgp4PathAttrIpAddrPrefixLen{bgp4PathAttrEntry 2}

R/O [Standard] Bit length of IP address of Network Layer Reachability Information field.[Implementation] Same as standard.

A

5 bgp4PathAttrIpAddrPrefix{bgp4PathAttrEntry 3}

R/O [Standard] IP address of Network Layer Reachability Information field.[Implementation] Same as standard.

A

6 bgp4PathAttrOrigin{bgp4PathAttrEntry 4}

R/O [Standard] Origin of path information creation.• igp (1)• egp (2)• incomplete (3)


A

7 bgp4PathAttrASPathSegment{bgp4PathAttrEntry 5}

R/O [Standard] Row of AS path segment.[Implementation] Same as standard.

A

8 bgp4PathAttrNextHop{bgp4PathAttrEntry 6}

R/O [Standard] Address of next border router in route.[Implementation] Same as standard.

A


58


9 bgp4PathAttrMultiExitDisc{bgp4PathAttrEntry 7}

R/O [Standard] Multi Exit attribute. -1 means no attribute.[Implementation] Same as standard.

A

10 bgp4PathAttrLocalPref{bgp4PathAttrEntry 8}

R/O [Standard] Priority of creation origin BGP4 speaker. -1 means no attribute.[Implementation] Same as standard.

A

11 bgp4PathAttrAtomicAggregate{bgp4PathAttrEntry 9}

R/O [Standard] AtomicAggregate attribute.• lessSpecificRrouteNotSelected (1)• lessSpecificRouteSelected (2)


A

12 bgp4PathAttrAggregatorAS{bgp4PathAttrEntry 10}

R/O [Standard] AS number of last BGP4 speaker that aggregated routes.[Implementation] Same as standard.

A

13 bgp4PathAttrAggregatorAddr{bgp4PathAttrEntry 11}

R/O [Standard] IP address of last BGP4 speaker that aggregated routes. 0.0.0.0 means no attribute.[Implementation] Same as standard.

A

14 bgp4PathAttrCalcLocalPref{bgp4PathAttrEntry 12}

R/O [Standard] Priority calculated for advertised route according to receive BGP4 speaker. -1 means no attribute.[Implementation] Same as standard.

A

15 bgp4PathAttrBest{bgp4PathAttrEntry 13}

R/O [Standard] Shows whether this route was selected as best route of BGP4.• false (1)• true (2)


A

16 bgp4PathAttrUnknown{bgp4PathAttrEntry 14}

R/O [Standard] One or more path attributes that this BGP4 speaker cannot understand.[Implementation] Same as standard.

A


59



The document related to the rmon group is given below.

• RFC1757

2.12.1 Ethernet Statistics Group

(1) Identifier rmon OBJECT IDENTIFIER ::= {mib-2 16} statistics OBJECT IDENTIFIER ::= {rmon 1}Object ID values 1.3.6.1.2.1.16.1 etherStatsTable OBJECT IDENTIFIER ::= {statistics 1}Object ID values 1.3.6.1.2.1.16.1.1


The table below shows the implementation specifications of Ethernet Statistics group.

Table 2-34: Implementation Specifications of Ethernet Statistics Group


1 etherStatsTable{statistics 1}

NA [Standard] Shows table on statistics information in Ethernet interface.[Implementation] Same as standard.

A

2 etherStatsEntry{etherStatsTable 1}

NA [Standard] Shows entry that puts statistics information on specific Ethernet interface in memory.INDEX { etherStatsIndex }[Implementation] Same as standard.

A

3 etherStatsIndex{etherStatsEntry 1}

R/O [Standard] Index value that shows specific etherStats entry. Range of values: 1 to 65535[Implementation] Same as standard.

A

4 etherStatsDataSource{etherStatsEntry 2}

R/NW [Standard] Shows interface object ID of this information. Object instance: ifIndex of MIB-II interfaces group.[Implementation] Same as standard. However, it is Read_Only.

A

5 etherStatsDropEvents{etherStatsEntry 3}

R/O [Standard] Number of packet drop events due to resource shortage. Number of detected drops, not actual drops.[Implementation] Same as standard.

A

6 etherStatsOctets{etherStatsEntry 4}

R/O [Standard] Number of octets (bytes) received in network including bad packets.[Implementation] Number of octets (bytes) sent and received in network including bad packets.For calculating the number of octets, the range between MAC header and FCS in the frame length is used.

A

7 etherStatsPkts{etherStatsEntry 5}

R/O [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.

A

8 etherStatsBroadcastPkts{etherStatsEntry 6}

R/O [Standard] Number of broadcast packets received not including bad and multicast packets.[Implementation] Number of broadcast packets sent and received not including bad and multicast packets.

A

60


9 etherStatsMulticastPkts{etherStatsEntry 7}

R/O [Standard] Number of multicast packets received not including bad and broadcast packets.[Implementation] Number of multicast packets sent and received not including bad and broadcast packets.

Pause packet[CB 2000] : not including.[CB 320] : including.

A

10 etherStatsCRCAlignErrors{etherStatsEntry 8}

R/O [Standard] Number of FCS error packets received.[Implementation]• gigabitethernet: Number of received packets with FCS errors for the

frame length smaller than the receivable frame length that is 64 bytesor above or received packets larger than the receivable frame.

• tengigabitethernet: Number of received packets with FCS errors forthe frame length smaller than the receivable frame length that is 64bytes or above or received alignment error packets with all lengths.

A

11 etherStatsUndersizePkts{etherStatsEntry 9}

R/O [Standard] Number of short packets (frame length smaller than 64 octets) received.[Implementation] Same as standard.

A

12 etherStatsOversizePkts{etherStatsEntry 10}

R/O [Standard] Number of oversized packets (frame length larger than 1518 octets) received.[Implementation] Number of oversized packets (larger than the maximum frame length) received.

A

13 etherStatsFragments{etherStatsEntry 11}

R/O [Standard] Among short packets (frame length smaller than 64 octets) received, packets with FCS error or Alignment error.[Implementation] Among short packets (frame length smaller than 64 octets) received, packets with FCS error

A

14 etherStatsJabbers{etherStatsEntry 12}

R/O [Standard] Among oversized packets (larger than the maximum frame length) received, packets with FCS error or Alignment error.[Implementation]• gigabitethernet: 0 fixed.• tengigabitethernet:oversized packets (larger than the maximum data

length), FCS error.

A

15 etherStatsCollisions{etherStatsEntry 13}

R/O [Standard] Number of collisions.[Implementation] Same as standard.

A

16 etherStatsPkts64Octets{etherStatsEntry 14}

R/O [Standard] Number of packets of 64 octets length frame received.[Implementation] Number of packets of 64 octets length frame sent and received.

A

17 etherStatsPkts65to127Octets{etherStatsEntry 15}

R/O [Standard] Number of packets of 65 to 127 octets length frame received.[Implementation] Number of packets of 65 to 127 octets length frame sent and received.

A



A



A



A



A


61


Note: The frame length is from the MAC header to FCS. For the frame format, see "Configuration Settings, Vol. 1, 12.1.3 MAC/LLC Sub-layer Control".

2.12.2 History Control Group

(1) Identifier rmon OBJECT IDENTIFIER ::= {mib-2 16} history OBJECT IDENTIFIER ::= {rmon 2}Object ID values 1.3.6.1.2.1.16.2 historyControlTable OBJECT IDENTIFIER ::= {history 1}Object ID values 1.3.6.1.2.1.16.2.1


The table below shows the implementation specifications of History Control group.

Table 2-35: Implementation Specifications of History Control Group

22 etherStatsOwner{etherStatsEntry 20}

R/NW [Standard] Owner that allocated entity and resources which configure entry.[Implementation] Responds with "system" and character string. However, it is Read_Only.

A

23 etherStatsStatus{etherStatsEntry 21}

R/NW [Standard] Entry status.• valid (1)• createRequest (2)• underCreation (3)• invalid (4)

[Implementation] valid (1) fixed. However, it is Read_Only.

A


1 historyControlTable{history 1}

NA [Standard] History control table of Ethernet statistics information.[Implementation] Same as standard.

A

2 historyControlEntry{historyControlTable 1}

NA [Standard] List of history control tables of Ethernet statistics information.INDEX { historyControlIndex }[Implementation] Same as standard. However, up to 32 entries.

A

3 historyControlIndex{historyControlEntry 1}

R/O [Standard] Index value showing specific historyControl entry. Range of values: 1 to 65535[Implementation] Same as standard.

A

4 historyControlDataSource{historyControlEntry 2}*

R/W [Standard] Shows interface object ID of this information. Object instance: ifIndex of MIB-II interfaces group.[Implementation] Same as standard.

A

5 historyControlBucketsRequested{historyControlEntry 3}*

R/W [Standard] Number of data demands placed in etherHistoryTable memory (default: 50). Range of values: 1 to 65535[Implementation] Same as standard.

A

6 historyControlBucketsGranted{historyControlEntry 4}

R/O [Standard] Number of data approvals placed in etherHistoryTable memory. Range of values: 1 to 65535[Implementation] Same value as historyControlBucketsRequested. However, if historyControlBucketsRequested is 50 or more, 50 is fixed.

A

7 historyControlInterval{historyControlEntry 5}*

R/W [Standard] Sampling interval of data placed in etherHistoryTable memory (unit: second(s)). Range of values: 1 to 3600 (default: 1800)[Implementation] Same as standard.

A


62


* Configuration command rmon collection history is also available for setting.

2.12.3 Ethernet History Group

(1) Identifier rmon OBJECT IDENTIFIER ::= {mib-2 16} history OBJECT IDENTIFIER ::= {rmon 2}Object ID values 1.3.6.1.2.1.16.2 etherHistoryTable OBJECT IDENTIFIER ::= {history 2}Object ID values 1.3.6.1.2.1.16.2.2


The table below shows the implementation specifications of Ethernet History group.

Table 2-36: Implementation Specifications of Ethernet History Group

8 historyControlOwner{historyControlEntry 6}*

R/W [Standard] Owner that allocates entity and resources which configure entry.[Implementation] Character string of 24 characters or less can be read and written.

A

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 historyControlDataSourceand sampling is possible during the historyControlInterval.

• invalid (4): Statistical information of interface cannot beacquired. Sampling is also not possible during historyInterval.

A


1 etherHistoryTable{history 2}

NA [Standard] History table of Ethernet statistics information.[Implementation] Same as standard.

A

2 etherHistoryEntry{etherHistoryTable 1}

NA [Standard] List of history tables of Ethernet statistics information.INDEX { etherHistoryIndex, etherHistorySampleIndex }[Implementation] Same as standard.

A

3 etherHistoryIndex{etherHistoryEntry 1}

R/O [Standard] Same as index value of historyControlIndex. Range of values: 1 to 65535[Implementation] Same as standard.

A

4 etherHistorySampleIndex{etherHistoryEntry 2}

R/O [Standard] With unique value among values of same etherHistoryIndex, values set from 1 in order. Range of values: 1 to 2147483647[Implementation] Same as standard.

A

5 etherHistoryIntervalStart{etherHistoryEntry 3}

R/O [Standard] Acquisition start time for statistics information (unit: 1/100 sec).[Implementation] Same as standard.

A


63


Note: The frame length is from the MAC header to FCS. For the frame format, see "Configuration Settings, Vol. 1, 12.1.3 MAC/LLC Sub-layer Control".

6 etherHistoryDropEvents{etherHistoryEntry 4}

R/O [Standard] Number of times packet drops detected during sampling.[Implementation] Same as standard.

A

7 etherHistoryOctets{etherHistoryEntry 5}

R/O [Standard] Number of octets (in byte(s)) received in specific time. Includes bad packets.[Implementation] Number of octets (in byte(s)) sent/received in specific time.For calculating the number of octets, the range between MAC header and FCS in the frame length is used.

A

8 etherHistoryPkts{etherHistoryEntry 6}

R/O [Standard] Total packets received in specific time. Includes bad packets, broadcast packets, multicast packets.[Implementation] Total packets sent/received in specific time.

A

9 etherHistoryBroadcastPkts{etherHistoryEntry 7}

R/O [Standard] Number of broadcast packets received in specific time. bad and multicast packets not included.[Implementation] Number of broadcast packets sent/received in specific time.

A

10 etherHistoryMulticastPkts{etherHistoryEntry 8}

R/O [Standard] Number of multicast packets received in specific time. bad and broadcast packets not included.[Implementation] Number of multicast packets sent/received in specific time

Pause packet[CB 2000] : not including.[CB 320] : including.

A

11 etherHistoryCRCAlignErrors{etherHistoryEntry 9}

R/O [Standard] Number of FCS error packets received in specific time.[Implementation] Same as standard.

A

12 etherHistoryUndersizePkts{etherHistoryEntry 10}

R/O [Standard] Number of short packets (frame length smaller than 64 octets) received for the specified duration of time.[Implementation] Same as standard.

A

13 etherHistoryOversizePkts{etherHistoryEntry 11}

R/O [Standard] Number of oversized packets (frame length larger than 1518 octets) received within a particular time[Implementation] Number of oversized packets (larger than the maximum frame length) received within a particular time

A

14 etherHistoryFragments{etherHistoryEntry 12}

R/O [Standard] Among short packets (frame length smaller than 64 octets) received within the specified duration of time, packets with FCS error or Alignment error.[Implementation] Same as standard.

A

15 etherHistoryJabbers{etherHistoryEntry 13}

R/O [Standard] Among oversized packets (larger than the maximum frame length) received within the specified duration of time, packets with FCS error or Alignment error.[Implementation] Among oversized packets (larger than the maximum frame length) received within the specified duration of time, packets with FCS error or Alignment error.

A

16 etherHistoryCollisions{etherHistoryEntry 14}

R/O [Standard] Number of collisions in specific time.[Implementation] Same as standard.

A

17 etherHistoryUtilization{etherHistoryEntry 15}

R/O [Standard] Estimates usage of physical layer. Range of values: 0 to 10000[Implementation] Shows usage.Usage of half duplex line is calculated as {number of packets × (9.6+6.4) + (number of octets × 0.8)} / {time interval × line speed} × 1000.Usage of full duplex line is calculated as {number of packets × (9.6+6.4) + (number of octets × 0.8)} / {time interval × line speed} × 2} × 1000.

A


64


2.12.4 Alarm Group

(1) Identifier rmon OBJECT IDENTIFIER ::= {mib-2 16} alarm OBJECT IDENTIFIER ::= {rmon 3}Object ID values 1.3.6.1.2.1.16.3 alarmTable OBJECT IDENTIFIER ::= {alarm 1}Object ID values 1.3.6.1.2.1.16.3.1


The table below shows the implementation specifications of Alarm group.

Table 2-37: Implementation Specifications of Alarm Group


1 alarmTable{alarm 1}

NA [Standard] Alarm table.[Implementation] Same as standard.

A

2 alarmEntry{alarmTable 1}

NA [Standard] List of alarm tables.INDEX { alarmIndex }[Implementation] Same as standard. However, up to 128 entries.

A

3 alarmIndex{alarmEntry 1}

R/O [Standard] Identifier that discriminates line entries in alarmTable. Range of values: 1 to 65535[Implementation] Same as standard.

A

4 alarmInterval{alarmEntry 2}*1

R/W [Standard] Interval for comparing with threshold (unit: second(s)). Setting range: 1 to (232-1)[Implementation] Same as standard.*2

A

5 alarmVariable{alarmEntry 3}*1

R/W [Standard] Object identifier of sampled MIB.[Implementation] Same as standard.

A

6 alarmSampleType{alarmEntry 4}*1

R/W [Standard] Specifies the method for comparing the value with the threshold value.• absoluteValue (1)• deltaValue (2)


A

7 alarmValue{alarmEntry 5}

R/O [Standard] Statistical value of previous sampling.[Implementation] Same as standard.

A

8 alarmStartupAlarm{alarmEntry 6}*1

R/W [Standard] Timing of first alarm generation.• risingAlarm (1)• fallingAlarm (2)• rising Or fallingAlarm (3)


A

9 alarmRisingThreshold{alarmEntry 7}*1

R/W [Standard] Rising threshold for sampled statistic.[Implementation] Same as standard.*2

A

10 alarmFallingThreshold{alarmEntry 8}*1

R/W [Standard] Falling threshold for sampled statistic.[Implementation] Same as standard.*2

A

11 alarmRisingEventIndex{alarmEntry 9}*1

R/W [Standard] Index number of event group used when rising threshold exceeded. Setting range: 0 to 65535.[Implementation] Same as standard.

A

12 alarmFallingEventIndex{alarmEntry 10}*1

R/W [Standard] Index number of event group used when falling threshold exceeded. Setting range: 0 to 65535.[Implementation] Same as standard.

A

65


*1 Can be set by configuration command rmon alarm as well.*2 Setting 2147483648 with the configuration displays -2147483648, and the displayed value is incremented by one with the setting value increases. If "4294967295" is set, "-1" is displayed.

2.12.5 Event Group

(1) Identifier rmon OBJECT IDENTIFIER ::= {mib-2 16} event OBJECT IDENTIFIER ::= {rmon 9}Object ID values 1.3.6.1.2.1.16.9 eventTable OBJECT IDENTIFIER ::= {event 1}Object ID values 1.3.6.1.2.1.16.9.1


The table below shows the implementation specifications of Event group.

Table 2-38: Implementation Specifications of Event Group

13 alarmOwner{alarmEntry 11}*1

R/W [Standard] Owner that allocated entity and resources which configure entry.[Implementation] Character string of 24 characters or less can be read and written.

A

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.

A


1 eventTable{event 1}

NA [Standard] Event table generated by agent RMON[Implementation] Same as standard.

A

2 eventEntry{eventTable 1}

NA [Standard] Event list generated by agent RMON.INDEX { eventIndex }[Implementation] Same as standard. However, up to 16 entries.

A

3 eventIndex{eventEntry 1}

R/O [Standard] Index value of eventEntry list. Equal to logEventIndex of logEntry list. Setting range: 1 to 65535[Implementation] Same as standard.

A

4 eventDescription{eventEntry 2}*

R/W [Standard] Explanation of this list. Character string of 127 characters or less.[Implementation] Character string of 79 characters or less.

A

5 eventType{eventEntry 3}*

R/W [Standard] Notification method of event.• none (1)• log (2)• snmp-trap (3)• log-and-trap (4)


A


66


*1 Can be set by configuration command rmon event as well.

6 eventCommunity{eventEntry 4}*

R/W [Standard] Community name of Trap issued when Trap specified for eventType. Character string of 127 characters or less.[Implementation] Character string of 60 characters or less.

A

7 eventLastTimeSent{eventEntry 5}

R/O [Standard] sysUpTime value when event was generated at end (unit: 1/100 sec).[Implementation] Same as standard.

A

8 eventOwner{eventEntry 6}*

R/W [Standard] Owner that allocates entity and resources which configure entry. Max. 127 characters.[Implementation] Character string of 24 characters or less can be read and written.

A

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).

A

10 logTable{event 2}

NA [Standard] Logged event table.[Implementation] Same as standard.

A

11 logEntry{logTable 1}

NA [Standard] Logged event list.INDEX { logEventIndex, logIndex }[Implementation] Same as standard. However, up to 128 entries.

A

12 logEventIndex{logEntry 1}

R/O [Standard] Index showing the event that generated this log. This value shows the event with same value as eventIndex. Range of values: 1 to 65535[Implementation] Same as standard.

A

13 logIndex{logEntry 2}

R/O [Standard] Index of the log for same event. Range of values: 1 to 2147483647[Implementation] Same as standard.

A

14 logTime{logEntry 3}

R/O [Standard] sysUpTime value when this log list generated.[Implementation] Same as standard.

A

15 logDescription{logEntry 4}

R/O [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.

A


67



The document related to the dot1dBridge group is given below.

• RFC1493.txt• RFC1525.txt• RFC2674

2.13.1 dot1dBase Group

(1) Identifier dot1dBridge OBJECT IDENTIFIER ::= {mib-2 17} dot1dBase OBJECT IDENTIFIER ::= {dot1dBridge 1}Object ID values 1.3.6.1.2.1.17.1


The table below shows the implementation specifications of dot1dBase group.

Table 2-39: Implementation Specifications of dot1dBase Group


1 dot1dBaseBridgeAddress{dot1dBase 1}

R/O [Standard] Bridge MAC address.[Implementation] Same as standard.

A

2 dot1dBaseNumPorts{dot1dBase 2}

R/O [Standard] Bridge port number.[Implementation] Same as standard.

A

3 dot1dBaseType{dot1dBase 3}

R/O [Standard] Bridge type executable by bridge.• unknown (1)• transparent-only (2)• sourceroute-only (3)• srt (4)

[Implementation] transparent-only (2) fixed.

A

4 dot1dBasePortTable{dot1dBase 4}

NA [Standard] Table of various port information of the bridge.[Implementation] Same as standard.

A

5 dot1dBasePortEntry{dot1dBasePortTable 1}

NA [Standard] List of various port information of the bridge.INDEX { dot1dBasePort }[Implementation] Same as standard.

A

6 dot1dBasePort{dot1dBasePortEntry 1}

R/O [Standard] Port number of port (1 to 65535).[Implementation] Same as standard.

A

7 dot1dBasePortIfIndex{dot1dBasePortEntry 2}

R/O [Standard] Value of the object instance defined in MIB-II by interfaces for this port.[Implementation] Same as standard.

A

8 dot1dBasePortCircuit{dot1dBasePortEntry 3}

R/O [Standard] Identifiers of the ports with the same instance value set by dot1dBasePortIfIndex.[Implementation] {0.0} fixed.

A

9 dot1dBasePortDelayExceededDiscards{dot1dBasePortEntry 4}

R/O [Standard] Total number of frames discarded by transit delay.[Implementation] Fixed to 0.

A

10 dot1dBasePortMtuExceededDiscards{dot1dBasePortEntry 5}

R/O [Standard] Total number of frames discarded by data overflow.[Implementation] Same as standard.

A

68


2.13.2 dot1dStp Group

(1) Identifier dot1dBridge OBJECT IDENTIFIER ::= {mib-2 17} dot1dStp OBJECT IDENTIFIER ::= {dot1dBridge 2}Object ID value 1.3.6.1.2.1.17.2


The table below shows the implementation specifications of dot1dStp group.

Table 2-40: Implementation Specifications of dot1dStp Group


1 dot1dStpProtocolSpecification{dot1dStp 1}

R/O [Standard] Spanning tree version executed by the bridge.• unknown (1)• decLb100 (2)• ieee8021d (3)

[Implementation] 3 fixed.

A

2 dot1dStpPriority{dot1dStp 2}

R/NW [Standard] Bridge priority value (0 to 65535).[Implementation] Same as standard.

A

3 dot1dStpTimeSinceTopologyChange{dot1dStp 3}

R/O [Standard] Elapsed time since occurrence of topology change (unit: 1/100 sec).[Implementation] Same as standard.

A

4 dot1dStpTopChanges{dot1dStp 4}

R/O [Standard] Number of topology changes.[Implementation] Same as standard.

A

5 dot1dStpDesignatedRoot{dot1dStp 5}

R/O [Standard] Value of root bridge identifier retained by the bridge.[Implementation] Same as standard.

A

6 dot1dStpRootCost{dot1dStp 6}

R/O [Standard] Value of route path cost retained by the bridge.[Implementation] Same as standard.

A

7 dot1dStpRootPort{dot1dStp 7}

R/O [Standard] Value of route port retained by the bridge.[Implementation] Same as standard. Zero is displayed if route port does not exist.

A

8 dot1dStpMaxAge{dot1dStp 8}

R/O [Standard] Maximum age retained by the bridge (unit: 1/100 sec).[Implementation] Same as standard.

A

9 dot1dStpHelloTime{dot1dStp 9}

R/O [Standard] Hello time retained by the bridge (unit: 1/100 sec).[Implementation] Same as standard.

A

10 dot1dStpHoldTime{dot1dStp 10}

R/O [Standard] Hold time retained by the bridge (unit: 1/100 sec).[Implementation] Same as standard.

A

11 dot1dStpForwardDelay{dot1dStp 11}

R/O [Standard] Transfer delay time retained by the bridge (unit: 1/100 sec).[Implementation] Same as standard.

A

12 dot1dStpBridgeMaxAge{dot1dStp 12}

R/NW [Standard] Maximum age set in the bridge (600 to 4000, unit: 1/100 sec).[Implementation] Same as standard.

A

13 dot1dStpBridgeHelloTime{dot1dStp 13}

R/NW [Standard] Hello time set in the bridge (100 to 1000, unit: 1/100 sec).[Implementation] Same as standard.

A

14 dot1dStpBridgeForwardDelay{dot1dStp 14}

R/NW [Standard] Transfer delay time set in the bridge (400 to 3000, unit: 1/100 sec).[Implementation] Same as standard.

A

15 dot1dStpPortTable{dot1dStp 15}

NA [Standard] Table of port information for spanning tree protocol.[Implementation] Same as standard.

A

69


2.13.3 dot1dTp Group

(1) Identifier dot1dBridge OBJECT IDENTIFIER ::= {mib-2 17} dot1dTp OBJECT IDENTIFIER ::= {dot1dBridge 4}Object ID values 1.3.6.1.2.1.17.4


The table below shows the implementation specifications of dot1dTp group.

16 dot1dStpPortEntry{dot1dStpPortTable 1}

NA [Standard] List of information by port relating to spanning tree protocol status.INDEX { ifIndex }[Implementation] Same as standard.

A

17 dot1dStpPort{dot1dStpPortEntry 1}

R/O [Standard] Port number of ports subject to spanning tree (1 to 65535).[Implementation] Same as standard.

A

18 dot1dStpPortPriority{dot1dStpPortEntry 2}

R/NW [Standard] Priority of port (0 to 255).[Implementation] Same as standard.

A

19 dot1dStpPortState{dot1dStpPortEntry 3}

R/O [Standard] Current port status.• disabled (1)• blocking (2)• listening (3)• learning (4)• forwarding (5)• broken (6)


A

20 dot1dStpPortEnable{dot1dStpPortEntry 4}

R/NW [Standard] Port enabled/disabled status.• enabled (1)• disabled (2)


A

21 dot1dStpPortPathCost{dot1dStpPortEntry 5}

R/NW [Standard] Port path cost (1 to 65535).[Implementation] 0 to 200000000. Zero is displayed if the port link is down.

A

22 dot1dStpPortDesignatedRoot{dot1dStpPortEntry 6}

R/O [Standard] Root bridge identifier in configuration BPDU.[Implementation] Same as standard.

A

23 dot1dStpPortDesignatedCost{dot1dStpPortEntry 7}

R/O [Standard] Designated port path cost.[Implementation] Same as standard.

A

24 dot1dStpPortDesignatedBridge{dot1dStpPortEntry 8}

R/O [Standard] Bridge identifier of the designated bridge.[Implementation] Same as standard.

A

25 dot1dStpPortDesignatedPort{dot1dStpPortEntry 9}

R/O [Standard] Port identifier of the designated bridge.• SIZE (2)


A

26 dot1dStpPortForwardTransitions{dot1dStpPortEntry 10}

R/O [Standard] Number of transitions of the port from learn status to transfer status.[Implementation] Same as standard.

A


70


Table 2-41: Implementation Specifications of dot1dTp Group


1 dot1dTpLearnedEntryDiscards{dot1dTp 1}

R/O [Standard] Number of forwarding information discarded due to the lack of space to store it in the forwarding database.[Implementation] Fixed to 0.

A

2 dot1dTpAgingTime{dot1dTp 2}

R/NW [Standard] Timeout period to age out dynamically learned forwarding information (10 to 1000000, unit: second(s)).[Implementation] Same as standard. However, 0 if aging is not provided in the configuration.

A

3 dot1dTpFdbTable{dot1dTp 3}

NA [Standard] Table of unicast entry information having filtering information.[Implementation] Unused.

N

4 dot1dTpFdbEntry{dot1dTpFdbTable 1}

NA [Standard] Unicast MAC address information having filtering information.INDEX { dot1dTpFdbAddress }[Implementation] Unused.

N

5 dot1dTpFdbAddress{dot1dTpFdbEntry 1}

R/O [Standard] Unicast MAC address information having filtering information.[Implementation] Unused.

N

6 dot1dTpFdbPort{dot1dTpFdbEntry 2}

R/O [Standard] Port number of ports transmitting frames having the same destination address as the instance value compatible with dot1dTpFdbAddress.[Implementation] Unused.

N

7 dot1dTpFdbStatus{dot1dTpFdbEntry 3}

R/O [Standard] MAC address table state• other (1)• invalid (2)• learned (3)• self (4)• mgmt (5)


N

8 dot1dTpPortTable{dot1dTp 4}

NA [Standard] Table of information of all ports.[Implementation] Same as standard.

N

9 dot1dTpPortEntry{dot1dTpPortTable 1}

NA [Standard] List of information of all ports.INDEX { dot1dTpPort }[Implementation] Same as standard.

A

10 dot1dTpPort{dot1dTpPortEntry 1}

R/O [Standard] Port number indicating the port to which management information including this entry applies (1 to 65535).[Implementation] Same as standard.

A

11 dot1dTpPortMaxInfo{dot1dTpPortEntry 2}

R/O [Standard] Maximum size of the send and receive information field of this port.[Implementation] Same as standard.

A

12 dot1dTpPortInFrames{dot1dTpPortEntry 3}

R/O [Standard] Number of received frames of this port.[Implementation] Same as standard.

A

13 dot1dTpPortOutFrames{dot1dTpPortEntry 4}

R/O [Standard] Number of transmitted frames of this port.[Implementation] Same as standard.

A

14 dot1dTpPortInDiscards{dot1dTpPortEntry 5}

R/O [Standard] Number of effective received frames discarded.[Implementation] Same as standard.

A

15 dot1dTpHCPortTable{dot1dTp 5}

NA [Standard] Table of high capacity port information.[Implementation] Same as standard.

A

16 dot1dTpHCPortEntry{dot1dTpHCPortTable 1}

NA [Standard] List of high capacity port information.INDEX { dot1dTpPort }[Implementation] Same as standard.

A

17 dot1dTpHCPortInFrames{dot1dTpHCPortEntry 1}

R/O [Standard] Number of frames received by high capacity ports.[Implementation] Same as standard.

A

71


2.13.4 pBridgeMIB Group

(1) Identifier dot1dBridge OBJECT IDENTIFIER ::= {mib-2 17} pBridgeMIB OBJECT IDENTIFIER ::= {dot1dBridge 6}Object ID values 1.3.6.1.2.1.17.6 pBridgeMIBObjects OBJECT IDENTIFIER ::= {pBridgeMIB 1}dot1dExtBase OBJECT IDENTIFIER ::= {pBridgeMIBObjects 1}dot1dPriority OBJECT IDENTIFIER ::= {pBridgeMIBObjects 2}dot1dGarp OBJECT IDENTIFIER ::= {pBridgeMIBObjects 3}dot1dGmrp OBJECT IDENTIFIER ::= {pBridgeMIBObjects 4}pBridgeConformance OBJECT IDENTIFIER ::= {pBridgeMIB 2}pBridgeGroups OBJECT IDENTIFIER ::= {pBridgeConformance 1}pBridgeCompliances OBJECT IDENTIFIER ::= {pBridgeConformance 2}


The table below shows the implementation specifications of pBridgeMIB group.

18 dot1dTpHCPortOutFrames{dot1dTpHCPortEntry 2}

R/O [Standard] Number of frames transmitted by high capacity ports.[Implementation] Same as standard.

A

19 dot1dTpHCPortInDiscards{dot1dTpHCPortEntry 3}

R/O [Standard] Number of frames received and discarded by high capacity ports.[Implementation] Same as standard.

A

20 dot1dTpPortOverflowTable{dot1dTp 6}

NA [Standard] Table of overflow information of high capacity ports.[Implementation] Same as standard.

A

21 dot1dTpPortOverflowEntry{dot1dTpPortOverflowTable 1}

NA [Standard] List of overflow information of high capacity ports.INDEX { dot1dTpPort }[Implementation] Same as standard.

A

22 dot1dTpPortInOverflowFrames{dot1dTpPortOverflowEntry 1}

R/O [Standard] Overflow count of dot1dTpPortInFrames counter.[Implementation] Same as standard.

A

23 dot1dTpPortOutOverflowFrames{dot1dTpPortOverflowEntry 2}

R/O [Standard] Overflow count of dot1dTpPortOutFrames counter.[Implementation] Same as standard.

A

24 dot1dTpPortInOverflowDiscards{dot1dTpPortOverflowEntry 3}

R/O [Standard] Overflow count of dot1dTpPortInDiscards counter.[Implementation] Same as standard.

A


72


Table 2-42: Implementation Specifications of pBridgeMIB Group


1 dot1dDeviceCapabilities{dot1dExtBase 1}

R/O [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.

A

2 dot1dTrafficClassesEnabled{dot1dExtBase 2}

R/NW [Standard] Bridge traffic class support status.• true (1)• false (2)

[Implementation] true (1)

A

3 dot1dGmrpStatus{dot1dExtBase 3}

R/NW [Standard] Status of GMRP.• enabled (1)• disabled (2)

[Implementation] disabled (2)

A

4 dot1dPortCapabilitiesTable{dot1dExtBase 4}

NA [Standard] Table of port capability information.[Implementation] Same as standard.

A

5 dot1dPortCapabilitiesEntry{dot1dPortCapabilitiesTable 1}

NA [Standard] List of port capability information.[Implementation] Same as standard.

A

6 dot1dPortCapabilities{dot1dPortCapabilitiesEntry 1}

R/O [Standard] Port IEEE 802.1D and 802.1Q status.• dot1qDot1qTagging (0)• dot1qConfigurableAcceptableFrameTypes (1)• dot1qIngressFiltering (2)

[Implementation] dot1qIngressFiltering (2)Displayed as a character by the manager.

A

7 dot1dPortPriorityTable{dot1dPriority 1}

NA [Standard] Table of port priority information.[Implementation] Same as standard.

A

8 dot1dPortPriorityEntry{dot1dPortPriorityTable 1}

NA [Standard] List of port priority information.[Implementation] Same as standard.

A

9 dot1dPortDefaultUserPriority{dot1dPortPriorityEntry 1}

R/NW [Standard] Port default ingress user priority (0 to 7).[Implementation] 0

A

10 dot1dPortNumTrafficClasses{dot1dPortPriorityEntry 2}

R/NW [Standard] Port ingress traffic class number (1 to 8).[Implementation] 1

A

11 dot1dTrafficClassTable{dot1dPriority 3}

NA [Standard] Table of traffic class information.[Implementation] Same as standard.

A

12 dot1dTrafficClassEntry{dot1dTrafficClassTable 1}

NA [Standard] List of traffic class information.INDEX { dot1dBasePort, dot1dTrafficClassPriority }[Implementation] Same as standard.

A

13 dot1dTrafficClassPriority{dot1dTrafficClassEntry 1}

NA [Standard] Traffic class priority (0 to 7).[Implementation] Same as standard.

A

14 dot1dTrafficClass{dot1dTrafficClassEntry 2}

R/NW [Standard] Traffic class (0 to 7).[Implementation] Same as standard.

A

73


2.13.5 qBridgeMIB Group

(1) Identifier dot1dBridge OBJECT IDENTIFIER ::= {mib-2 17} qBridgeMIB OBJECT IDENTIFIER ::= {dot1dBridge 7}Object ID values 1.3.6.1.2.1.17.7 qBridgeMIBObjects OBJECT IDENTIFIER ::= {qBridgeMIB 1}dot1qBase OBJECT IDENTIFIER ::= {qBridgeMIBObjects 1}dot1qTp OBJECT IDENTIFIER ::= {qBridgeMIBObjects 2}dot1qStatic OBJECT IDENTIFIER ::= {qBridgeMIBObjects 3}dot1qVlan OBJECT IDENTIFIER ::= {qBridgeMIBObjects 4}qBridgeConformance OBJECT IDENTIFIER ::= {qBridgeMIB 2}qBridgeGroups OBJECT IDENTIFIER ::= {qBridgeConformance 1}qBridgeCompliances OBJECT IDENTIFIER ::= {qBridgeConformance 2}dot1dPortPair OBJECT IDENTIFIER ::= {dot1dBridge 10}


The table below shows the implementation specifications of qBridgeMIB group.

Table 2-43: Implementation Specifications of qBridgeMIB Group


1 dot1qVlanVersionNumber{dot1qBase 1}

R/O [Standard] IEEE 802.1Q version number.• version1 (1)

[Implementation] 1

A

2 dot1qMaxVlanId{dot1qBase 2}

R/O [Standard] IEEE 802.1Q VLAN ID maximum number.[Implementation] 4094

A

3 dot1qMaxSupportedVlans{dot1qBase 3}

R/O [Standard] IEEE 802.1Q VLAN maximum number.[Implementation] 4094

A

4 dot1qNumVlans{dot1qBase 4}

R/O [Standard] IEEE 802.1Q VLAN current number.[Implementation] Same as standard.

A

5 dot1qGvrpStatus{dot1qBase 5}

R/NW [Standard] GVRP management status.[Implementation] disabled (2)

A

6 dot1qFdbTable{dot1qTp 1}

NA [Standard] Table of MAC address table[Implementation] Same as standard.

A

7 dot1qFdbEntry{dot1qFdbTable 1}

NA [Standard] MAC address table listINDEX { dot1qFdbId }[Implementation] Same as standard.

A

8 dot1qFdbId{dot1qFdbEntry 1}

NA [Standard] MAC address table identifier[Implementation] Same as standard.

A

9 dot1qFdbDynamicCount{dot1qFdbEntry 2}

R/O [Standard] Number of dynamic entries in MAC address table[Implementation] Fixed to 0.

A

10 dot1qTpFdbTable{dot1qTp 2}

NA [Standard] Table of transparent MAC address table information.[Implementation] Same as standard. *

A

11 dot1qTpFdbEntry{dot1qTpFdbTable 1}

NA [Standard] List of transparent MAC address table information.INDEX { dot1qFdbId, dot1qTpFdbAddress }[Implementation] Same as standard. *

A

12 dot1qTpFdbAddress{dot1qTpFdbEntry 1}

NA [Standard] Unicast MAC addresses in the transparent MAC address table[Implementation] Same as standard. *

A

13 dot1qTpFdbPort{dot1qTpFdbEntry 2}

R/O [Standard] Port number in the transparent MAC address table (0 to 65535).[Implementation] Same as standard. *

A

74


14 dot1qTpFdbStatus{dot1qTpFdbEntry 3}

R/O [Standard] MAC 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).*

A

15 dot1qTpGroupTable{dot1qTp 3}

NA [Standard] Table of transparent group information.[Implementation] Unused.

N

16 dot1qTpGroupEntry{dot1qTpGroupTable 1}

NA [Standard] List of transparent group information.INDEX { dot1qVlanIndex, dot1qTpGroupAddress }[Implementation] Unused.

N

17 dot1qTpGroupAddress{dot1qTpGroupEntry 1}

NA [Standard] Destination MAC addresses in transparent groups.[Implementation] Unused.

N

18 dot1qTpGroupEgressPorts{dot1qTpGroupEntry 2}

R/O [Standard] All sets of ingress ports in transparent groups.[Implementation] Unused.

N

19 dot1qTpGroupLearnt{dot1qTpGroupEntry 3}

R/O [Standard] Learned port sub-sets in transparent groups.[Implementation] Unused.

N

20 dot1qForwardAllTable{dot1qTp 4}

NA [Standard] Table of forwarding information of all VLANs transferring multicast.[Implementation] Unused.

N

21 dot1qForwardAllEntry{dot1qForwardAllTable 1}

NA [Standard] List of forwarding information of all VLANs transferring multicast.INDEX { dot1qVlanIndex }[Implementation] Unused.

N

22 dot1qForwardAllPorts{dot1qForwardAllEntry 1}

R/O [Standard] All sets of ports of all VLANs transferring multicast group addresses.[Implementation] Unused.

N

23 dot1qForwardAllStaticPorts{dot1qForwardAllEntry 2}

R/NW [Standard] Sets of static ports of all VLANs transferring multicast group addresses.[Implementation] Unused.

N

24 dot1qForwardAllForbiddenPorts{dot1qForwardAllEntry 3}

R/NW [Standard] Sets of ports of all VLANs not transferring multicast group addresses.[Implementation] Unused.

N

25 dot1qForwardUnregisteredTable{dot1qTp 5}

NA [Standard] Table of forwarding information of VLANs transferring unregistered multicast group addresses.[Implementation] Same as standard.

A

26 dot1qForwardUnregisteredEntry{dot1qForwardUnregisteredTable 1}

NA [Standard] List of forwarding information of VLANs transferring unregistered multicast group addresses.INDEX { dot1qVlanIndex }[Implementation] Same as standard.

A

27 dot1qForwardUnregisteredPorts{dot1qForwardUnregisteredEntry 1}

R/O [Standard] All sets of ports of VLANs transferring unregistered multicast group addresses.[Implementation] Same as standard.

A

28 dot1qForwardUnregisteredStaticPorts{dot1qForwardUnregisteredEntry 2}

R/NW [Standard] Sets of static ports of VLANs transferring unregistered multicast group addresses.[Implementation] Same as standard.

A

29 dot1qForwardUnregisteredForbiddenPorts{dot1qForwardUnregisteredEntry 3}

R/NW [Standard] Sets of static ports of VLANs not transferring unregistered multicast groups.[Implementation] Same as standard.

A


75


30 dot1qStaticUnicastTable{dot1qStatic 1}

NA [Standard] Table of filtering information of static unicast MAC addresses.[Implementation] Same as standard.

A

31 dot1qStaticUnicastEntry{dot1qStaticUnicastTable 1}

NA [Standard] List of filtering information of static unicast MAC addresses.INDEX dot1qFdbId dot1qStaticUnicastAddress, dot1qStaticUnicastReceivePort }[Implementation] Same as standard.

A

32 dot1qStaticUnicastAddress{dot1qStaticUnicastEntry 1}

NA [Standard] Destination MAC addresses of static unicast addresses.[Implementation] Same as standard.

A

33 dot1qStaticUnicastReceivePort{dot1qStaticUnicastEntry 2}

NA [Standard] Number of port receiving static unicast addresses (0 to 65535).[Implementation] 0

A

34 dot1qStaticUnicastAllowedToGoTo{dot1qStaticUnicastEntry 3}

R/NW [Standard] Sets of ports flooding static unicast addresses.[Implementation] Same as standard.

A

35 dot1qStaticUnicastStatus{dot1qStaticUnicastEntry 4}

R/NW [Standard] Entry status of static unicast addresses.• other (1)• invalid (2)• permanent (3)• deleteOnReset (4)• deleteOnTimeout (5)

[Implementation] permanent (3) fixed.

A

36 dot1qStaticMulticastTable{dot1qStatic 2}

NA [Standard] Table of filtering information of VLANs transferring static multicast and broadcast MAC addresses.[Implementation] Same as standard.

A

37 dot1qStaticMulticastEntry{dot1qStaticMulticastTable 1}

NA [Standard] List of filtering information of VLANs transferring static multicast and broadcast MAC addresses.INDEX dot1qVlanIndex dot1qStaticMulticastAddress, dot1qStaticMulticastReceivePort }[Implementation] Same as standard.

A

38 dot1qStaticMulticastAddress{dot1qStaticMulticastEntry 1}

NA [Standard] Static multicast or broadcast destination MAC addresses.[Implementation] Same as standard.

A

39 dot1qStaticMulticastReceivePort{dot1qStaticMulticastEntry 2}

NA [Standard] Number of port receiving static multicast or broadcast MAC addresses. (0 to 65535)[Implementation] Same as standard.

A

40 dot1qStaticMulticastStaticEgressPorts{dot1qStaticMulticastEntry 3}

R/NW [Standard] Sets of ports transferring static multicast or broadcast MAC addresses.[Implementation] Same as standard.

A

41 dot1qStaticMulticastForbiddenEgressPorts{dot1qStaticMulticastEntry 4}

R/NW [Standard] Sets of ports not transferring static multicast or broadcast MAC addresses.[Implementation] Same as standard.

A


76


42 dot1qStaticMulticastStatus{dot1qStaticMulticastEntry 5}

R/NW [Standard] Static multicast or broadcast entry status.• other (1)• invalid (2)• permanent (3)• deleteOnReset (4)• deleteOnTimeout (5)

[Implementation] permanent (3) fixed.

A

43 dot1qVlanNumDeletes{dot1qVlan 1}

R/O [Standard] Number of deleted VLAN entries.[Implementation] Same as standard.

A

44 dot1qVlanCurrentTable{dot1qVlan 2}

NA [Standard] Table of current VLAN configuration information.[Implementation] Unused.

N

45 dot1qVlanCurrentEntry{dot1qVlanCurrentTable 1}

NA [Standard] List of current VLAN configuration information.INDEX { dot1qVlanTimeMark, dot1qVlanIndex }[Implementation] Unused.

N

46 dot1qVlanTimeMark{dot1qVlanCurrentEntry 1}

NA [Standard] Entry time filter.[Implementation] Unused.

N

47 dot1qVlanIndex{dot1qVlanCurrentEntry 2}

NA [Standard] VLAN ID.[Implementation] Unused.

N

48 dot1qVlanFdbId{dot1qVlanCurrentEntry 3}

R/O [Standard] MAC address table ID used by VLAN.[Implementation] Unused.

N

49 dot1qVlanCurrentEgressPorts{dot1qVlanCurrentEntry 4}

R/O [Standard] Sets of ports of VLANs transmitting tagged or untagged frame traffic.[Implementation] Unused.

N

50 dot1qVlanCurrentUntaggedPorts{dot1qVlanCurrentEntry 5}

R/O [Standard] Sets of ports of VLANs transmitting untagged frame traffic.[Implementation] Unused.

N

51 dot1qVlanStatus{dot1qVlanCurrentEntry 6}

R/O [Standard] VLAN Status.• other (1)• permanent (2)• dynamicGvrp (3)


N

52 dot1qVlanCreationTime{dot1qVlanCurrentEntry 7}

R/O [Standard] sysUpTime value at the time of VLAN creation.[Implementation] Unused.

N

53 dot1qVlanStaticTable{dot1qVlan 3}

NA [Standard] Table of VLAN static configuration information.[Implementation] Same as standard.

A

54 dot1qVlanStaticEntry{dot1qVlanStaticTable 1}

NA [Standard] List of VLAN static configuration information.INDEX { dot1qVlanIndex }[Implementation] Same as standard.

A

55 dot1qVlanStaticName{dot1qVlanStaticEntry 1}

R/NW [Standard] VLAN static identifier name.[Implementation] Same as standard.

A

56 dot1qVlanStaticEgressPorts{dot1qVlanStaticEntry 2}

R/NW [Standard] Sets of ports on the VLAN static egress list.[Implementation] Same as standard.

A

57 dot1qVlanForbiddenEgressPorts{dot1qVlanStaticEntry 3}

R/NW [Standard] Sets of ports in which the entry to the egress list of VLAN is prohibited.[Implementation] Same as standard.

A

58 dot1qVlanStaticUntaggedPorts{dot1qVlanStaticEntry 4}

R/NW [Standard] Sets of untagged ports transmitting VLAN egress packets.[Implementation] Same as standard.

A

59 dot1qVlanStaticRowStatus{dot1qVlanStaticEntry 5}

R/NW [Standard] Entry status.[Implementation] Same as standard.

A


77


60 dot1qNextFreeLocalVlanIndex{dot1qVlan 4}

R/O [Standard] VLAN index that can be used next (0 or 4096 to 2147483647).[Implementation] 0 or 4096.

A

61 dot1qPortVlanTable{dot1qVlan 5}

NA [Standard] Table of port VLAN configuration information.[Implementation] Same as standard.

A

62 dot1qPortVlanEntry{dot1qPortVlanTable 1}

NA [Standard] List of port VLAN configuration information.[Implementation] Same as standard.

A

63 dot1qPvid{dot1qPortVlanEntry 1}

R/NW [Standard] PVID VLAN assigned to untagged or priority tagged frames.[Implementation] Same as standard.

A

64 dot1qPortAcceptableFrameTypes{dot1qPortVlanEntry 2}

R/NW [Standard] Determines the type of frame that can be received by the port.• admitAll (1)• admitOnlyVlanTagged (2)

[Implementation] admitAll (1).

A

65 dot1qPortIngressFiltering{dot1qPortVlanEntry 3}

R/NW [Standard] Filters frames entering the port.[Implementation] Same as standard.

A

66 Dot1qPortGvrpStatus{dot1qPortVlanEntry 4}

R/NW [Standard] Port GVRP status.[Implementation] disabled (2)

A

67 Dot1qPortGvrpFailedRegistrations{dot1qPortVlanEntry 5}

R/O [Standard] Total port GVRP failed registration count.[Implementation] Unused.

N

68 dot1qPortGvrpLastPduOrigin{dot1qPortVlanEntry 6}

R/O [Standard] Source MAC address of the last GVRP received by the port.[Implementation] Unused.

N

69 dot1qPortVlanStatisticsTable{dot1qVlan 6}

NA [Standard] Port VLAN statistics information table.[Implementation] Same as standard.

A

70 dot1qPortVlanStatisticsEntry{dot1qPortVlanStatisticsTable 1}

NA [Standard] Port VLAN statistics information list.INDEX { dot1dBasePort, dot1qVlanIndex }[Implementation] Same as standard.

A

71 dot1qTpVlanPortInFrames{dot1qPortVlanStatisticsEntry 1}

R/O [Standard] Number of effective frames received by the VLAN port.[Implementation] Fixed to 0.

B

72 dot1qTpVlanPortOutFrames{dot1qPortVlanStatisticsEntry 2}

R/O [Standard] Number of effective frames transmitted by the VLAN port.[Implementation] Fixed to 0.

B

73 dot1qTpVlanPortInDiscards{dot1qPortVlanStatisticsEntry 3}

R/O [Standard] Number of effective frames received and discarded by the VLAN port.[Implementation] Fixed to 0.

B

74 dot1qTpVlanPortInOverflowFrames{dot1qPortVlanStatisticsEntry 4}

R/O [Standard] Overflow count of dot1qTpVlanPortInFrames counter.[Implementation] Fixed to 0.

B

75 dot1qTpVlanPortOutOverflowFrames{dot1qPortVlanStatisticsEntry 5}

R/O [Standard] Overflow count of dot1qTpVlanPortOutFrames counter.[Implementation] Fixed to 0.

B

76 dot1qTpVlanPortInOverflowDiscards{dot1qPortVlanStatisticsEntry 6}

R/O [Standard] Overflow count of dot1qTpVlanPortInDiscardsd counter.[Implementation] Fixed to 0.

B


78


* : When the clear mac-address-table command is acquired immediately after execution, the clearness of mac-address-table information might not be reflected.

77 dot1qPortVlanHCStatisticsTable{dot1qVlan 7}

NA [Standard] Table of port VLAN high capacity statistics information.[Implementation] Same as standard.

A

78 dot1qPortVlanHCStatisticsEntry{dot1qPortVlanHCStatisticsTable 1}

NA [Standard] List of port VLAN high capacity statistics information.INDEX { dot1dBasePort, dot1qVlanIndex }[Implementation] Same as standard.

A

79 dot1qTpVlanPortHCInFrames{dot1qPortVlanHCStatisticsEntry 1}

R/O [Standard] Number of effective frames received by the VLAN port.[Implementation] Fixed to 0.

B

80 dot1qTpVlanPortHCOutFrames{dot1qPortVlanHCStatisticsEntry 2}

R/O [Standard] Number of effective frames transmitted by the VLAN port.[Implementation] Fixed to 0.

B

81 dot1qTpVlanPortHCInDiscards{dot1qPortVlanHCStatisticsEntry 3}

R/O [Standard] Number of effective frames received and discarded by the VLAN port.[Implementation] Fixed to 0.

B

82 dot1qLearningConstraintsTable{dot1qVlan 8}

NA [Standard] Learning constraint table.[Implementation] Same as standard.

A

83 dot1qLearningConstraintsEntry{dot1qLearningConstraintsTable 1}

NA [Standard] Learning constraint list.INDEX { dot1qConstraintVlan, dot1qConstraintSet }[Implementation] Same as standard.

A

84 dot1qConstraintVlan{dot1qLearningConstraintsEntry 1}

NA [Standard] VLANs constrained by entries.[Implementation] Same as standard.

A

85 dot1qConstraintSet{dot1qLearningConstraintsEntry 2}

NA [Standard] Constraint set identifier (0 to 65535).[Implementation] Same as standard.

A

86 dot1qConstraintType{dot1qLearningConstraintsEntry 3}

R/NW [Standard] Constraint type.• independent (1)• shared (2)

[Implementation] independent (1) fixed.

A

87 dot1qConstraintStatus{dot1qLearningConstraintsEntry 4}

R/NW [Standard] Constraint status.[Implementation] Same as standard.

A

88 dot1qConstraintSetDefault{dot1qVlan 9}

R/NW [Standard] Constraint set default value (0 to 65535).[Implementation] 0

A

89 dot1qConstraintTypeDefault{dot1qVlan 10}

R/NW [Standard] Constraint set type.• independent (1)• shared (2)

[Implementation] independent (1) fixed.

A


79



The document related to the ifMIB group is given below.

• RFC2233 (November 1997)

2.14.1 ifMIB (for Ethernet)The following is an explanation of the ifMIB group shown below.

• 10BASE-T/100BASE-TX/1000BASE-T• SERDES• 10GBASE-R

(1) Identifier ifMIB OBJECT IDENTIFIER ::= {mib-2 31} ifMIBObjects OBJECT IDENTIFIER ::= {ifMIB 1}Object ID values 1.3.6.1.2.1.31.1


The table below shows the implementation specifications of ifMIB groups for Ethernet.

Table 2-44: Implementation Specifications of ifMIB Group (for Ethernet)


1 ifXTable{ifMIBObjects 1}

NA [Standard] Table of additional objects related to the interface entity.[Implementation] Same as standard.

A

2 ifXEntry{ifXTable 1}

NA [Standard] Additional list of the interface information.AUGMENTS {ifEntry}[Implementation] Same as standard.

A

3 ifName{ifXEntry 1}

R/O [Standard] Interface name.[Implementation] Interface name set in the configuration

A

4 ifInMulticastPkts{ifXEntry 2}

R/O [Standard] Number of multicast packets notified to the upper layer protocol.[Implementation] Dependent on the interface.• For ifIndex of port: Same as standard.• For ifIndex of VLAN: 0 fixed.• For ifIndex of link aggregation: Same as standard.

A

5 ifInBroadcastPkts{ifXEntry 3}

R/O [Standard] Number of broadcast packets notified to the upper layer protocol.[Implementation] Dependent on the interface.• For ifIndex of port: Same as standard.• For ifIndex of VLAN: 0 fixed.• For ifIndex of link aggregation: Same as standard.

A

6 ifOutMulticastPkts{ifXEntry 4}

R/O [Standard] Number of multicast packets transmitted by the upper layer.[Implementation] Dependent on the interface.• For ifIndex of port: Same as standard.• For ifIndex of VLAN: 0 fixed.• For ifIndex of link aggregation: Same as standard.

A

7 ifOutBroadcastPkts{ifXEntry 5}

R/O [Standard] Number of broadcast packets transmitted by the upper layer.[Implementation] Dependent on the interface.• For ifIndex of port: Same as standard.• For ifIndex of VLAN: 0 fixed.• For ifIndex of link aggregation: Same as standard.

A

80


8 ifHCInOctets{ifXEntry 6}

R/O [Standard] Number 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 DA field of MAC header to FCS.• For ifIndex of VLAN: 0 fixed.• For ifIndex of link aggregation: The number of received octets in frame

length from the DA field of MAC header to FCS.

A

9 ifHCInUcastPkts{ifXEntry 7}

R/O [Standard] Number 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 VLAN: 0 fixed.• For ifIndex of link aggregation: Same as standard.

A

10 ifHCInMulticastPkts{ifXEntry 8}

R/O [Standard] Number 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 VLAN: 0 fixed.• For ifIndex of link aggregation: Same as standard.

A

11 ifHCInBroadcastPkts{ifXEntry 9}

R/O [Standard] Number 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 VLAN: 0 fixed.• For ifIndex of link aggregation: Same as standard.

A

12 ifHCOutOctets{ifXEntry 10}

R/O [Standard] Number 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 DA field of

MAC header to FCS.• For ifIndex of VLAN: 0 fixed.• For ifIndex of link aggregation: Number of sent octets from DA field of

MAC header to FCS.

A

13 ifHCOutUcastPkts{ifXEntry 11}

R/O [Standard] Number 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 VLAN: 0 fixed.• For ifIndex of link aggregation: 0 fixed.

B

14 ifHCOutMulticastPkts{ifXEntry 12}

R/O [Standard] Number 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 VLAN: 0 fixed.• For ifIndex of link aggregation: Same as standard.

A

15 ifHCOutBroadcastPkts{ifXEntry 13}

R/O [Standard] Number 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 VLAN: 0 fixed.• For ifIndex of link aggregation: Same as standard.

A


81


16 ifLinkUpDownTrapEnable{ifXEntry 14}

R/O [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 VLAN: Same as standard.• For ifIndex of link aggregation: Same as standard.

A

17 ifHighSpeed{ifXEntry 15}

R/O [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 isdisplayed.

• For ifIndex of VLAN: 0 fixed.• For ifIndex of link aggregation: Port at the highest line speed among the

ports belonging to a channel group

A

18 ifPromiscuousMode{ifXEntry 16}

R/O [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 VLAN: false (2).• For ifIndex of link aggregation: false (2).

A

19 ifConnectorPresent{ifXEntry 17}

R/O [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 VLAN: false (2).• For ifIndex of link aggregation: false (2).

A

20 ifAlias{ifXEntry 18}

R/O [Standard] Alias name defined by the network manager.[Implementation] Supplementary explanation given in each interface in the configuration.

A

21 ifCounterDiscontinuityTime{ifXEntry 19}

R/O [Standard] sysUpTime when the counter information is discontinued.[Implementation] Dependent on the interface.• For ifIndex of port: 0 fixed.• For ifIndex of VLAN: 0 fixed.• For ifIndex of link aggregation: 0 fixed.

B


82



The document related to the ipv6MIB group is given below.


2.15.1 ipv6MIB

(1) Identifier ipv6MIB OBJECT IDENTIFIER ::= {mib-2 55} ipv6MIBObjects OBJECT IDENTIFIER ::= {ipv6MIB 1}Object ID values 1.3.6.1.2.1.55.1 ipv6Forwarding OBJECT IDENTIFIER ::= {ipv6MIBObjects 1}Object ID values 1.3.6.1.2.1.55.1.1


The table below shows the implementation specifications of ipv6MIB.

Table 2-45: Implementation Specifications of ipv6MIB

2.15.2 ipv6IfTable

(1) Identifier ipv6MIB OBJECT IDENTIFIER ::= {mib-2 55} ipv6MIBObjects OBJECT IDENTIFIER ::= {ipv6MIB 1}Object ID values 1.3.6.1.2.1.55.1 ipv6IfTable OBJECT IDENTIFIER ::= {ipv6MIBObjects 5}Object ID values 1.3.6.1.2.1.55.1.5


The table below shows the implementation specifications of ipv6IfTable.


1 ipv6Forwarding{ipv6MIBObjects 1}

R/NW [Standard] Sets or does not set an IPv6 relay function.• forwarding (1)• notForwarding (2)


A

2 ipv6DefaultHopLimit{ipv6MIBObjects 2}

R/NW [Standard] Default value set to the Hop Limit field in an IPv6 header.DEFVAL {64}[Implementation] 64 fixed. However, it is Read_Only.

A

3 ipv6Interfaces{ipv6MIBObjects 3}

R/O [Standard] Total number of IPv6 interfaces.[Implementation] Same as standard.

A

4 ipv6IfTableLastChange{ipv6MIBObjects 4}

R/O [Standard] sysUpTime value to which ipv6IfTable was most recently updated.[Implementation] Same as standard.

A

83


Table 2-46: Implementation Specifications of ipv6IfTable

2.15.3 ipv6IfStatsTable

(1) Identifier ipv6MIB OBJECT IDENTIFIER ::= {mib-2 55} ipv6MIBObjects OBJECT IDENTIFIER ::= {ipv6MIB 1}Object ID values 1.3.6.1.2.1.55.1 ipv6IfStatsTable OBJECT IDENTIFIER ::= {ipv6MIBObjects 6}Object ID values 1.3.6.1.2.1.55.1.6


1 ipv6IfTable{ipv6MIBObjects 5}

NA [Standard] Table of network layer interface (V6).[Implementation] Same as standard.

A

2 ipv6IfEntry{ipv6IfTable 1}

NA [Standard] Entry of network layer interface (V6).INDEX { ipv6IfIndex }[Implementation] Same as standard.

A

3 ipv6IfIndex{ipv6IfEntry 1}

NA [Standard] Index number of IPv6 interface.[Implementation] Same as standard.

A

4 ipv6IfDescr{ipv6IfEntry 2}

R/NW [Standard] Information (character) of IPv6 interface.[Implementation] Same as standard. However, it is Read_Only.

A

5 ipv6IfLowerLayer{ipv6IfEntry 3}

R/O [Standard] ObjectID indicating the layer just under network interface layer.[Implementation] Same as standard.

A

6 ipv6IfEffectiveMtu{ipv6IfEntry 4}

R/O [Standard] MTU length (octet length) that can be sent and received using the corresponding interface.[Implementation] Same as standard.

A

7 ipv6IfReasmMaxSize{ipv6IfEntry 5}

R/O [Standard] Maximum IPv6 datagram length in which the datagram received using the corresponding interface can be reassembled.[Implementation] 65535 fixed.

A

8 ipv6IfIdentifier{ipv6IfEntry 6}

R/NW [Standard] Address token of the corresponding interface. The address token can be acquired by the UP of the corresponding interface.[Implementation] Same as standard. However, it is Read_Only.

A

9 ipv6IfIdentifierLength{ipv6IfEntry 7}

R/NW [Standard] Bit length of address token in the corresponding interface.[Implementation] 64 fixed. However, it is Read_Only.

A

10 ipv6IfPhysicalAddress{ipv6IfEntry 8}

R/O [Standard] Physical address of corresponding interface.[Implementation] Same as standard.

A

11 ipv6IfAdminStatus{ipv6IfEntry 9}

R/NW [Standard] Active state of corresponding interface.• up (1)• down (2)


A

12 ipv6IfOperStatus{ipv6IfEntry 10}

R/O [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).

A

13 ipv6IfLastChange{ipv6IfEntry 11}

R/O [Standard] sysUpTime value when the operating state of the corresponding interface was most recently changed.[Implementation] Same as standard.

A

84



The table below shows the implementation specifications of ipv6IfStatsTable.

Table 2-47: Implementation Specifications of ipv6IfStatsTable


1 ipv6IfStatsTable{ipv6MIBObjects 6}

NA [Standard] Statistics information table of IPv6 interface traffic.[Implementation] Same as standard.

A

2 ipv6IfStatsEntry{ipv6IfStatsTable 1}

NA [Standard] Statistics information entry of IPv6 interface traffic.INDEX { ipv6IfIndex }[Implementation] Same as standard.

A

3 ipv6IfStatsInReceives{ipv6IfStatsEntry 1}

R/O [Standard] Total number of received datagram items.[Implementation] Same as standard. 0 fixed.

B

4 ipv6IfStatsInHdrErrors{ipv6IfStatsEntry 2}

R/O [Standard] Number of received datagram items discarded due to the error of an IPv6 header.[Implementation] Same as standard. 0 fixed.

B

5 ipv6IfStatsInTooBigErrors{ipv6IfStatsEntry 3}

R/O [Standard] Number of received datagram items that could not be relayed because the MTU length was exceeded.[Implementation] Same as standard.

A

6 ipv6IfStatsInNoRoutes{ipv6IfStatsEntry 4}

R/O [Standard] Number of received datagram items discarded because the corresponding route does not exist.[Implementation] Same as standard.

A

7 ipv6IfStatsInAddrErrors{ipv6IfStatsEntry 5}

R/O [Standard] Number of received datagram items discarded because an IPv6 address is invalid.[Implementation] Same as standard.

A

8 ipv6IfStatsInUnknownProtos{ipv6IfStatsEntry 6}

R/O [Standard] Number of received datagram items discarded because of an unsupported protocol.[Implementation] Same as standard.

A

9 ipv6IfStatsInTruncatedPkts{ipv6IfStatsEntry 7}

R/O [Standard] Number of received datagram items discarded because of incomplete data.[Implementation] Same as standard.

A

10 ipv6IfStatsInDiscards{ipv6IfStatsEntry 8}

R/O [Standard] Number of received datagram items in which no problem exists, but were discarded because of insufficient resources.[Implementation] Same as standard. 0 fixed.

B

11 ipv6IfStatsInDelivers{ipv6IfStatsEntry 9}

R/O [Standard] Number of datagram items (including ICMP) reported to the IPv6 upper layer.[Implementation] Same as standard.

A

12 ipv6IfStatsOutForwDatagrams{ipv6IfStatsEntry 10}

R/O [Standard] Number of datagram items that were relayed for transmission.[Implementation] Same as standard. 0 fixed.

B

13 ipv6IfStatsOutRequests{ipv6IfStatsEntry 11}

R/O [Standard] Number of datagram items (including ICMP) to be transmitted from a source IPv6 protocol.[Implementation] Same as standard.

A

14 ipv6IfStatsOutDiscards{ipv6IfStatsEntry 12}

R/O [Standard] Number of transmitted datagram items in which no problem exists, but were discarded because of insufficient resources.[Implementation] Same as standard. 0 fixed.

B

15 ipv6IfStatsOutFragOKs{ipv6IfStatsEntry 13}

R/O [Standard] Number of datagram items that succeeded in fragmentation 1 using an output interface.[Implementation] Same as standard.

A

16 ipv6IfStatsOutFragFails{ipv6IfStatsEntry 14}

R/O [Standard] Number of transmitted datagram items that failed in fragmentation.[Implementation] Same as standard.

A

17 ipv6IfStatsOutFragCreates{ipv6IfStatsEntry 15}

R/O [Standard] Number of transmitted datagram fragments produced as a result of fragmentation.[Implementation] Same as standard.

A

85


2.15.4 ipv6AddrPrefixTable

(1) Identifier ipv6MIB OBJECT IDENTIFIER ::= {mib-2 55} ipv6MIBObjects OBJECT IDENTIFIER ::= {ipv6MIB 1}Object ID values 1.3.6.1.2.1.55.1 ipv6AddrPrefixTable OBJECT IDENTIFIER ::= {ipv6MIBObjects 7}Object ID values 1.3.6.1.2.1.55.1.7


The table below shows the implementation specifications of ipv6AddrPrefixTable.

The prefix information supported by the MIB is the prefix information distributed by RA (router advertisement).

Table 2-48: Implementation Specifications of ipv6AddrPrefixTable

18 ipv6IfStatsReasmReqds{ipv6IfStatsEntry 16}

R/O [Standard] Number of datagram fragments requiring the reassembling in an interface.[Implementation] Same as standard.

A

19 ipv6IfStatsReasmOKs{ipv6IfStatsEntry 17}

R/O [Standard] Number of datagram items that succeeded in reassembling.[Implementation] Same as standard.

A

20 ipv6IfStatsReasmFails{ipv6IfStatsEntry 18}

R/O [Standard] Number of times that failed in reassembling.[Implementation] Same as standard.

A

21 ipv6IfStatsInMcastPkts{ipv6IfStatsEntry 19}

R/O [Standard] Number of received multicast packets.[Implementation] Same as standard. 0 fixed.

B

22 ipv6IfStatsOutMcastPkts{ipv6IfStatsEntry 20}

R/O [Standard] Number of transmitted multicast packets.[Implementation] Same as standard. 0 fixed.

B


1 ipv6AddrPrefixTable{ipv6MIBObjects 7}

NA [Standard] Table of address prefix in IPv6 interface.[Implementation] Same as standard.

A

2 ipv6AddrPrefixEntry{ipv6AddrPrefixTable 1}

NA [Standard] Entry of address prefix.INDEX { ipv6IfIndex, ipv6AddrPrefix, ipv6AddrPrefixLength }[Implementation] Same as standard.

A

3 ipv6AddrPrefix{ipv6AddrPrefixEntry 1}

NA [Standard] prefix of this interface.[Implementation] Same as standard.

A

4 ipv6AddrPrefixLength{ipv6AddrPrefixEntry 2}

NA [Standard] Length of prefix (unit: bit).[Implementation] Same as standard.

A

5 ipv6AddrPrefixOnLinkFlag{ipv6AddrPrefixEntry 3}

R/O [Standard] Autonomous address flag.• true (1)• false (2)


A

6 ipv6AddrPrefixAutonomousFlag{ipv6AddrPrefixEntry 4}

R/O [Standard] Autonomous address flag.• true (1)• false (2)


A


86


2.15.5 ipv6AddrTable

(1) Identifier ipv6MIB OBJECT IDENTIFIER ::= {mib-2 55} ipv6MIBObjects OBJECT IDENTIFIER ::= {ipv6MIB 1}Object ID values 1.3.6.1.2.1.55.1 ipv6AddrTable OBJECT IDENTIFIER ::= {ipv6MIBObjects 8}Object ID values 1.3.6.1.2.1.55.1.8


The table below shows the implementation specifications of ipv6AddrTable.

Table 2-49: Implementation Specifications of ipv6AddrTable

7 ipv6AddrPrefixAdvPreferredLifetime{ipv6AddrPrefixEntry 5}

R/O [Standard] Preferred lifetime (unit: second(s)).[Implementation] Same as standard.

A

8 ipv6AddrPrefixAdvValidLifetime{ipv6AddrPrefixEntry 6}

R/O [Standard] Valid lifetime (unit: second(s)).[Implementation] Same as standard.

A


1 ipv6AddrTable{ipv6MIBObjects 8}

NA [Standard] Interface address table.[Implementation] Same as standard.

A

2 ipv6AddrEntry{ipv6AddrTable 1}

NA [Standard] Interface address entry.INDEX { ipv6IfIndex, ipv6AddrAddress }[Implementation] Same as standard.

A

3 ipv6AddrAddress{ipv6AddrEntry 1}

NA [Standard] IPv6 address.[Implementation] Same as standard.

A

4 ipv6AddrPfxLength{ipv6AddrEntry 2}

R/O [Standard] prefix length.[Implementation] Same as standard.

A

5 ipv6AddrType{ipv6AddrEntry 3}

R/O [Standard] Address type.• stateless (1)• stateful (2)• unknown (3)


A

6 ipv6AddrAnycastFlag{ipv6AddrEntry 4}

R/O [Standard] Flag indicating whether this IPv6 address is an Anycast address or not.• true (1)• false (2)


A

7 ipv6AddrStatus{ipv6AddrEntry 5}

R/O [Standard] Address status.• preferred (1)• deprecated (2)• invalid (3)• inaccessible (4)• unknown (5)


A

8 ipv6RouteNumber{ipv6MIBObjects 9}

R/O [Standard] Total number of valid V6 routing entries.[Implementation] Same as standard.

A

9 ipv6DiscardedRoutes{ipv6MIBObjects 10}

R/O [Standard] Total number of V6 routing entries that are valid, but were discarded.[Implementation] Same as standard.

A


87


2.15.6 ipv6RouteTable

(1) Identifier ipv6MIB OBJECT IDENTIFIER ::= {mib-2 55} ipv6MIBObjects OBJECT IDENTIFIER ::= {ipv6MIB 1}Object ID values 1.3.6.1.2.1.55.1 ipv6RouteTable OBJECT IDENTIFIER ::= {ipv6MIBObjects 11}Object ID values 1.3.6.1.2.1.55.1.11


The table below shows the implementation specifications of ipv6RouteTable.

Table 2-50: Implementation Specifications of ipv6RouteTable


1 ipv6RouteTable{ipv6MIBObjects 11}

NA [Standard] IPv6 routing table.[Implementation] Same as standard.

A

2 ipv6RouteEntry{ipv6RouteTable 1}

NA [Standard] IPv6 routing entry.INDEX { ipv6RouteDest, ipv6RoutePfxLength, ipv6RouteIndex }[Implementation] Same as standard.

A

3 ipv6RouteDest{ipv6RouteEntry 1}

NA [Standard] V6Dest address.[Implementation] Same as standard.

A

4 ipv6RoutePfxLength{ipv6RouteEntry 2}

NA [Standard] prefix length (bit length).[Implementation] Same as standard.

A

5 ipv6RouteIndex{ipv6RouteEntry 3}

NA [Standard] Index of route.[Implementation] 1 fixed.

A

6 ipv6RouteIfIndex{ipv6RouteEntry 4}

R/O [Standard] IPv6 interface index.[Implementation] Same as standard.

A

7 ipv6RouteNextHop{ipv6RouteEntry 5}

R/O [Standard] Next hop. Set to "::0" when no next hop exists.[Implementation] Same as standard.

A

8 ipv6RouteType{ipv6RouteEntry 6}

R/O [Standard] Type of route.• other (1)• discard (2)• local (3)• remote (4)


A

9 ipv6RouteProtocol{ipv6RouteEntry 7}

R/O [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]• All 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)

A

88


2.15.7 ipv6NetToMediaTable

(1) Identifier ipv6MIB OBJECT IDENTIFIER ::= {mib-2 55} ipv6MIBObjects OBJECT IDENTIFIER ::= {ipv6MIB 1}Object ID values 1.3.6.1.2.1.55.1 ipv6NetToMediaTable OBJECT IDENTIFIER ::= {ipv6MIBObjects 12}Object ID values 1.3.6.1.2.1.55.1.12


The table below shows the implementation specifications of ipv6NetToMediaTable.

Table 2-51: Implementation Specifications of ipv6NetToMediaTable

10 ipv6RoutePolicy{ipv6RouteEntry 8}

R/O [Standard] Route policy.[Implementation] Fixed to 0.

B

11 ipv6RouteAge{ipv6RouteEntry 9}

R/O [Standard] Time passed, since ipv6RouteAge was most recently updated (unit: second(s)).[Implementation] Same as standard.

A

12 ipv6RouteNextHopRDI{ipv6RouteEntry 10}

R/O [Standard] RDI of next hop.[Implementation] Fixed to 0.

B

13 ipv6RouteMetric{ipv6RouteEntry 11}

R/O [Standard] Routing metric.[Implementation] Same as standard.

A

14 ipv6RouteWeight{ipv6RouteEntry 12}

R/O [Standard] Priority of route (the lower the value the higher its priority).[Implementation] Fixed to 0.

B

15 ipv6RouteInfo{ipv6RouteEntry 13}

R/O [Standard] Reference to routing protocol MIB in which this router was learned.[Implementation] {0.0} fixed.

A

16 ipv6RouteValid{ipv6RouteEntry 14}

R/NW [Standard] Flag indicating whether this IPv6 router is valid or not.DEFVAL {true}[Implementation] true fixed. However, it is Read_Only.

A


1 ipv6NetToMediaTable{ipv6MIBObjects 12}

NA [Standard] IPv6 address conversion table.[Implementation] Same as standard.

A

2 ipv6NetToMediaEntry{ipv6NetToMediaTable 1}

NA [Standard] Entry (including one IPv6 address) corresponding to the physical address.INDEX { ipv6IfIndex, ipv6NetToMediaNetAddress }[Implementation] Same as standard.

A

3 ipv6NetToMediaNetAddress{ipv6NetToMediaEntry 1}

NA [Standard] IPv6 address corresponding to the media dependent physical address.[Implementation] Same as standard.

A

4 ipv6NetToMediaPhysAddress{ipv6NetToMediaEntry 2}

R/O [Standard] Media dependent physical address.[Implementation] Same as standard.

A

5 ipv6NetToMediaType{ipv6NetToMediaEntry 3}

R/O [Standard] Type of mapping.• other (1)• dynamic (2)• static (3)• local (4)


A


89


6 ipv6IfNetToMediaState{ipv6NetToMediaEntry 4}

R/O [Standard] Reachable state of each entry in NDP table.• reachable (1)• stale (2)• delay (3)• probe (4)• invalid (5)• unknown (6)


A

7 ipv6IfNetToMediaLastUpdated{ipv6NetToMediaEntry 5}

R/O [Standard] sysUptime when each entry in an NDP table was most recently updated.[Implementation] Fixed to 0.

A

8 ipv6NetToMediaValid{ipv6NetToMediaEntry 6}

R/NW [Standard] Flag indicating whether this entry is valid or not.DEFVAL {true}[Implementation] true fixed. However, it is Read_Only.

A


90



The document related to the ipv6IcmpMIB group is given below.


(1) Identifier ipv6IcmpMIB MODULE-IDENTITY ::= {mib-2 56} ipv6IcmpMIBObjects OBJECT IDENTIFIER ::= {ipv6IcmpMIB 1}Object ID values 1.3.6.1.2.1.56.1


The table below shows the implementation specifications of ipv6IcmpMIB group.

Table 2-52: Implementation Specifications of ipv6IcmpMIB Group


1 ipv6IfIcmpTable{ipv6IcmpMIBObjects 1}

NA [Standard] Statistics information of IPv6 ICMP.[Implementation] Same as standard.

A

2 ipv6IfIcmpEntry{ipv6IfIcmpTable 1}

NA [Standard] Statistics information entry of ICMPv6.INDEX { ipv6IfEntry }[Implementation] Same as standard.

A

3 ipv6IfIcmpInMsgs{ipv6IfIcmpEntry 1}

R/O [Standard] Total number of ICMP messages (including an error) received using this interface.[Implementation] Same as standard.

A

4 ipv6IfIcmpInErrors{ipv6IfIcmpEntry 2}

R/O [Standard] Total number of messages in which an error was detected using the received ICMP message.[Implementation] Same as standard.

A

5 ipv6IfIcmpInDestUnreachs{ipv6IfIcmpEntry 3}

R/O [Standard] Number of received DestUnreachs messages.[Implementation] Same as standard.

A

6 ipv6IfIcmpInAdminProhibs{ipv6IfIcmpEntry 4}

R/O [Standard] Total number of received AdminProhibit messages in DestUnreachs.[Implementation] Same as standard.

A

7 ipv6IfIcmpInTimeExcds{ipv6IfIcmpEntry 5}

R/O [Standard] Number of received TimeExceed messages.[Implementation] Same as standard.

A

8 ipv6IfIcmpInParmProblems{ipv6IfIcmpEntry 6}

R/O [Standard] Number of received ParmProblem messages.[Implementation] Same as standard.

A

9 ipv6IfIcmpInPktTooBigs{ipv6IfIcmpEntry 7}

R/O [Standard] Number of received PktTooBig messages.[Implementation] Same as standard.

A

10 ipv6IfIcmpInEchos{ipv6IfIcmpEntry 8}

R/O [Standard] Number of received Echo messages.[Implementation] Same as standard.

A

11 ipv6IfIcmpInEchoReplies{ipv6IfIcmpEntry 9}

R/O [Standard] Number of received EchoReply messages.[Implementation] Same as standard.

A

12 ipv6IfIcmpInRouterSolicits{ipv6IfIcmpEntry 10}

R/O [Standard] Number of received RouterSolicit messages.[Implementation] Same as standard.

A

13 ipv6IfIcmpInRouterAdvertisements{ipv6IfIcmpEntry 11}

R/O [Standard] Number of received RouterAdvertisement messages.[Implementation] Same as standard.

A

14 ipv6IfIcmpInNeighborSolicits{ipv6IfIcmpEntry 12}

R/O [Standard] Number of received NeighborSolicit messages.[Implementation] Same as standard.

A

91


15 ipv6IfIcmpInNeighborAdvertisements{ipv6IfIcmpEntry 13}

R/O [Standard] Number of received Neighbor Advertisement messages.[Implementation] Same as standard.

A

16 ipv6IfIcmpInRedirects{ipv6IfIcmpEntry 14}

R/O [Standard] Number of received Redirect messages.[Implementation] Same as standard.

A

17 ipv6IfIcmpInGroupMembQueries{ipv6IfIcmpEntry 15}

R/O [Standard] Number of received GroupMemberQuery messages.[Implementation] Same as standard.

A

18 ipv6IfIcmpInGroupMembResponses{ipv6IfIcmpEntry 16}

R/O [Standard] Number of received GroupMemberResponse messages.[Implementation] Same as standard.

A

19 ipv6IfIcmpInGroupMembReductions{ipv6IfIcmpEntry 17}

R/O [Standard] Number of received GroupMemberReduction messages.[Implementation] Same as standard.

A

20 ipv6IfIcmpOutMsgs{ipv6IfIcmpEntry 18}

R/O [Standard] Total number of ICMP messages (including an error) transmitted using this interface.[Implementation] Same as standard.

A

21 ipv6IfIcmpOutErrors{ipv6IfIcmpEntry 19}

R/O [Standard] Total number of messages in which an error was detected using the transmitted ICMP message.[Implementation] Same as standard. 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 1280.

A

22 ipv6IfIcmpOutDestUnreachs{ipv6IfIcmpEntry 20}

R/O [Standard] Number of transmitted DestUnreachs messages.[Implementation] Same as standard.

A

23 ipv6IfIcmpOutAdminProhibs{ipv6IfIcmpEntry 21}

R/O [Standard] Total number of transmitted AdminProhibit messages in DestUnreachs.[Implementation] Same as standard.

A

24 ipv6IfIcmpOutTimeExcds{ipv6IfIcmpEntry 22}

R/O [Standard] Number of transmitted TimeExceed messages.[Implementation] Same as standard.

A

25 ipv6IfIcmpOutParmProblems{ipv6IfIcmpEntry 23}

R/O [Standard] Number of transmitted ParmProblem messages.[Implementation] Same as standard.

A

26 ipv6IfIcmpOutPktTooBigs{ipv6IfIcmpEntry 24}

R/O [Standard] Number of transmitted PktTooBig messages.[Implementation] Same as standard.

A

27 ipv6IfIcmpOutEchos{ipv6IfIcmpEntry 25}

R/O [Standard] Number of transmitted Echo messages.[Implementation] Same as standard.

A

28 ipv6IfIcmpOutEchoReplies{ipv6IfIcmpEntry 26}

R/O [Standard] Number of transmitted EchoReply messages.[Implementation] Same as standard.

A

29 ipv6IfIcmpOutRouterSolicits{ipv6IfIcmpEntry 27}

R/O [Standard] Number of transmitted RouterSolicit messages.[Implementation] Same as standard.

A

30 ipv6IfIcmpOutRouterAdvertisements{ipv6IfIcmpEntry 28}

R/O [Standard] Number of transmitted RouterAdvertisement messages.[Implementation] Same as standard.

A

31 ipv6IfIcmpOutNeighborSolicits{ipv6IfIcmpEntry 29}

R/O [Standard] Number of transmitted NeighborSolicit messages.[Implementation] Same as standard.

A

32 ipv6IfIcmpOutNeighborAdvertisements{ipv6IfIcmpEntry 30}

R/O [Standard] Number of transmitted Neighbor Advertisement messages.[Implementation] Same as standard.

A

33 ipv6IfIcmpOutRedirects{ipv6IfIcmpEntry 31}

R/O [Standard] Number of transmitted Redirect messages.[Implementation] Same as standard.

A


92


34 ipv6IfIcmpOutGroupMembQueries{ipv6IfIcmpEntry 32}

R/O [Standard] Number of transmitted GroupMemberQuery messages.[Implementation] Same as standard.

A

35 ipv6IfIcmpOutGroupMembResponses{ipv6IfIcmpEntry 33}

R/O [Standard] Number of transmitted GroupMemberResponse messages.[Implementation] Same as standard.

A

36 ipv6IfIcmpOutGroupMembReductions{ipv6IfIcmpEntry 34}

R/O [Standard] Number of transmitted GroupMemberReduction messages.[Implementation] Same as standard.

A


93

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-04

2.17.1 vrrpOperations Group

(1) Identifier vrrpMIB OBJECT IDENTIFIER ::= {mib-2 68} vrrpOperations OBJECT IDENTIFIER ::= {vrrpMIB 1}Object ID values 1.3.6.1.2.1.68.1


The table below shows the implementation specifications of vrrpOperations group.

Table 2-53: Implementation Specifications of vrrpOperations Group


1 vrrpNodeVersion{vrrpOperations 1}

R/O [Standard] VRRP version supported by this system.[Implementation] Same as standard. However, it is Read_Only.

A

2 vrrpNotificationCntl{vrrpOperations 2}

R/NW [Standard] Issuance of SNMP extended trap for vrrp.• enabled (1)• disabled (2)


A

3 vrrpOperTable{vrrpOperations 3}

NA [Standard] Operation table for VRRP router.[Implementation] Same as standard.

A

4 vrrpOperEntry{vrrpOperTable 1}

NA [Standard] Entry of vrrpOper table.INDEX { ifIndex, vrrpOperVrId }[Implementation] Same as standard.

A

5 vrrpOperVrId{vrrpOperEntry 1}

NA [Standard] ID of virtual router.[Implementation] Same as standard.

A

6 vrrpOperVirtualMacAddr{vrrpOperEntry 2}

R/O [Standard] Virtual MAC address of virtual router.[Implementation] Same as standard.

A

7 vrrpOperState{vrrpOperEntry 3}

R/O [Standard] Current VRRP operation status.• initialize (1)• backup (2)• master (3)


A

8 vrrpOperAdminState{vrrpOperEntry 4}

R/NW [Standard] enable/disable status of VRRP function.• up (1)• down (2)


A

9 vrrpOperPriority{vrrpOperEntry 5}

R/NW [Standard] Priority of virtual router.[Implementation] Same as standard. However, it is Read_Only.

A

10 vrrpOperIpAddrCount{vrrpOperEntry 6}

R/O [Standard] IP address count of virtual router.[Implementation] 1 fixed.

A

11 vrrpOperMasterIpAddr{vrrpOperEntry 7}

R/O [Standard] Real IP address of Master router.[Implementation] Same as standard.

A

94

2.17 vrrpMIB Group

12 vrrpOperPrimaryIpAddr{vrrpOperEntry 8}

R/NW [Standard] Real IP address to be used by virtual router.[Implementation] Same as standard. However, it is Read_Only.

A

13 vrrpOperAuthType{vrrpOperEntry 9}

R/NW [Standard] Authentication type of VRRP protocol exchanged between virtual routers.• noAuthentication (1): VRRP protocol exchanges are not

authenticated.• simpleTextPassword (2): Exchanges are authenticated by a clear

text password.• ipAuthenticationHeader (3): Exchanges are authenticated using

the IP authentication header.

[Implementation] Without authentication or text only. However, it is Read_Only.

A

14 vrrpOperAuthKey{vrrpOperEntry 10}

R/NW [Standard] Authentication key set by vrrpOperAuthType value.[Implementation] The authentication key is not returned.

A

15 vrrpOperAdvertisementInterval{vrrpOperEntry 11}

R/NW [Standard] Send interval of VRRP packet (unit: second(s)).[Implementation] Same as standard. However, it is Read_Only.

A

16 vrrpOperPreemptMode{vrrpOperEntry 12}

R/NW [Standard] Controls whether high priority virtual router acts as low priority virtual router.[Implementation] Same as standard. However, it is Read_Only.

A

17 vrrpOperVirtualRouterUpTime{vrrpOperEntry 13}

R/O [Standard] Starting time of virtual router operation.[Implementation] Same as standard. However, it is Read_Only.

A

18 vrrpOperProtocol{vrrpOperEntry 14}

R/NW [Standard] Operation protocol of virtual router.• ip (1)• bridge (2)• decnet (3)• other (4)

[Implementation] ip (1) fixed. However, it is Read_Only.

A

19 vrrpOperRowStatus{vrrpOperEntry 15}

R/NW [Standard] Access status of vrrpOperTable.[Implementation] Same as standard. However, it is Read_Only.

A

20 vrrpAssoIpAddrTable{vrrpOperations 4}

NA [Standard] IP address table of virtual router.[Implementation] Same as standard.

A

21 vrrpAssoIpAddrEntry{vrrpAssoIpAddrTable 1}

NA [Standard] Entry of vrrpAssoIpAddr table.INDEX { ifIndex, vrrpOperVrId, vrrpAssoIpAddr }[Implementation] Same as standard.

A

22 vrrpAssoIpAddr{vrrpAssoIpAddrEntry 1}

NA [Standard] IP address of virtual router.[Implementation] Same as standard.

A

23 vrrpAssoIpAddrRowStatus{vrrpAssoIpAddrEntry 2}

R/NW [Standard] Access status of vrrpAssoIpAddrTable.• active (1)• createAndGo (4)

[Implementation] active (1) fixed. However, it is Read_Only.

A

24 vrrpTrapPacketSrc{vrrpOperations 5}

AN [Standard] IP address.[Implementation] Same as standard.

A

25 vrrpTrapAuthErrorType{vrrpOperations 6}

AN [Standard] Authentication type unmatching cause• invalidAuthType (1)• authTypeMismatch (2)• authFailure (3)


A

26 vrrpOperationsTable{vrrpOperations 7}

NA [Standard] Operation table for VRRP router.[Implementation] Same as standard.

A


95

2.17 vrrpMIB Group

27 vrrpOperationsEntry{vrrpOperationsTable 1}

NA [Standard] Entry of vrrpOper table.INDEX { vrrpOperationInetAddrType, vrrpOperationsVrId, ifIndex }[Implementation] Same as standard.

A

28 vrrpOperationsInetAddrType{vrrpOperationsEntry 1}

NA [Standard] Current type• ipv4 (1)• ipv6 (2)


A

29 vrrpOperationsVrId{vrrpOperationsEntry 2}

NA [Standard] ID of virtual router.[Implementation] Same as standard.

A

30 vrrpOperationsVirtualMacAddr{vrrpOperationsEntry 3}

R/O [Standard] Virtual MAC address of virtual router.[Implementation] Same as standard.

A

31 vrrpOperationsState{vrrpOperationsEntry 4}

R/O [Standard] Current VRRP operation status.• initialize (1)• backup (2)• master (3)


A

32 vrrpOperationsPriority{vrrpOperationsEntry 5}

R/NW [Standard] Priority of virtual router.[Implementation] Same as standard. However, it is Read_Only.

A

33 vrrpOperationsVersion{vrrpOperationsEntry 6}

R/NW [Standard] Version of VRRP being executed• vrrpv2 (1)• vrrpv3 (2)


A

34 vrrpOperationsAddrCount{vrrpOperationsEntry 7}

R/O [Standard] IP address count of virtual router.[Implementation] 1 fixed.

A

35 vrrpOperationsMasterIpAddr{vrrpOperationsEntry 9}

R/O [Standard] Real IP address of Master router.[Implementation] Same as standard.

A

36 vrrpOperationsPrimaryIpAddr{vrrpOperationsEntry 10}

R/NW [Standard] Real IP address to be used by virtual router.[Implementation] Same as standard. However, it is Read_Only.

A

37 vrrpOperationsAdvInterval{vrrpOperationsEntry 11}

R/NW [Standard] Send interval of VRRP packet (unit: 1/100 sec).1 to 4096.[Implementation] 100 to 25500. However, it is Read_Only.

A

38 vrrpOperationsPreemptMode{vrrpOperationsEntry 12}

R/NW [Standard] Controls whether high priority virtual router acts as low priority virtual router.[Implementation] Same as standard. However, it is Read_Only.

A

39 vrrpOperationsAcceptMode{vrrpOperationsEntry 13}

R/NW [Standard] Controls whether packets to the virtual IP are received by the user who is not the address owner.[Implementation] Same as standard. However, it is Read_Only.

A

40 vrrpOperationsUpTime{vrrpOperationsEntry 14}

R/O [Standard] Starting time of virtual router operation.[Implementation] Same as standard.

A

41 vrrpOperationsRowStatus{vrrpOperationsEntry 15}

R/NW [Standard] Access status of vrrpOperTable.[Implementation] Same as standard. However, it is Read_Only.

A

42 vrrpAssociatedIpAddrTable{vrrpOperations 8}

NA [Standard] IP address table of virtual router.[Implementation] Same as standard.

A


96

2.17 vrrpMIB Group

2.17.2 vrrpStatistics Group

(1) Identifier vrrpMIB OBJECT IDENTIFIER ::= {mib-2 68} vrrpStatistics OBJECT IDENTIFIER ::= {vrrpMIB 2}Object ID values 1.3.6.1.2.1.68.2


The table below shows the implementation specifications of vrrpStatistics group.

Table 2-54: Implementation Specifications of vrrpStatistics Group

43 vrrpAssociatedIpAddrEntry{vrrpAssociatedIpAddrTable 1}

NA [Standard] Entry of vrrpAssoIpAddr table.INDEX { vrrpAssociatedInetAddrType, vrrpOperationsVrId, ifIndex, vrrpAssociatedIpAddr }[Implementation] Same as standard.

A

44 vrrpAssociatedInetAddrType{vrrpAssociatedIpAddrEntry2}

NA [Standard] Address type of vrrpAssociatedIpAddr• ipv4 (1)• ipv6 (2)


A

45 vrrpAssociatedIpAddr{vrrpAssociatedIpAddrEntry 3}

NA [Standard] IP address of virtual router.[Implementation] Same as standard.

A

46 vrrpAssociatedIpAddrRowStatus{vrrpAssociatedIpAddrEntry 4}

R/NW [Standard] Access status of vrrpAssoIpAddrTable.• active (1)• createAndGo (4)• createAndWait (5)

[Implementation] active (1) fixed. However, it is Read_Only.

A

47 vrrpTrapNewMasterReason{vrrpOperations 9}

AN [Standard] Timing of transition to master• priority (0)• prempted (1)• masterNpResponse (2)


A

48 vrrpTrapProtoErrReason{vrrpOperations 10}

AN [Standard] Reason for discarding the advertisement packet• hopLimitError (0)• versionError (1)• checksumError (2)• vridError (3)


A


1 vrrpRouterChecksumErrors{vrrpStatistics 1}

R/O [Standard] Total received count of VRRP packet with illegal checksum.[Implementation] Same as standard.

A

2 vrrpRouterVersionErrors{vrrpStatistics 2}

R/O [Standard] Total received count of VRRP packet with illegal version.[Implementation] Same as standard.

A

3 vrrpRouterVrIdErrors{vrrpStatistics 3}

R/O [Standard] Total received count of VRRP packet with illegal VRID of virtual router.[Implementation] Same as standard.

A


97

2.17 vrrpMIB Group

4 vrrpRouterStatsTable{vrrpStatistics 4}

NA [Standard] Statistics information table of virtual router.[Implementation] Same as standard.

A

5 vrrpRouterStatsEntry{vrrpRouterStatsTable 1}

NA [Standard] Entry of vrrpRouterStats table.INDEX { ifIndex, vrrpOperVrId }[Implementation] Same as standard.

A

6 vrrpStatsBecomeMaster{vrrpRouterStatsEntry 1}

R/O [Standard] Moved count to Master.[Implementation] Same as standard.

A

7 vrrpStatsAdvertiseRcvd{vrrpRouterStatsEntry 2}

R/O [Standard] Total received count of VRRP ADVERTISEMENT packet.[Implementation] Same as standard.

A

8 vrrpStatsAdvertiseIntervalErrors{vrrpRouterStatsEntry 3}

R/O [Standard] Total received count of VRRP ADVERTISEMENT received by illegal ADVERTISEMENT interval.[Implementation] Same as standard.

A

9 vrrpStatsAuthFailures{vrrpRouterStatsEntry 4}

R/O [Standard] Total received count of VRRP authentication error packet.[Implementation] Same as standard.

A

10 vrrpStatsIpTtlErrors{vrrpRouterStatsEntry 5}

R/O [Standard] Total received count of VRRP packets with illegal TTL.[Implementation] Same as standard.

A

11 vrrpStatsPriorityZeroPktsRcvd{vrrpRouterStatsEntry 6}

R/O [Standard] Total received count of VRRP packets with 0 priority.[Implementation] Same as standard.

A

12 vrrpStatsPriorityZeroPktsSent{vrrpRouterStatsEntry 7}

R/O [Standard] Total sending count of VRRP packets with 0 priority.[Implementation] Same as standard.

A

13 vrrpStatsInvalidTypePktsRcvd{vrrpRouterStatsEntry 8}

R/O [Standard] Total received count of VRRP packets with illegal Type field.[Implementation] Same as standard.

A

14 vrrpStatsAddressListErrors{vrrpRouterStatsEntry 9}

R/O [Standard] Total received count of packets with illegal IP address of virtual router.[Implementation] Same as standard.

A

15 vrrpStatsInvalidAuthType{vrrpRouterStatsEntry 10}

R/O [Standard] Total received count of packets with illegal authentication type.[Implementation] Same as standard.

A

16 vrrpStatsAuthTypeMismatch{vrrpRouterStatsEntry 11}

R/O [Standard] Total received count of packets with illegal authentication type.[Implementation] Same as standard.

A

17 vrrpStatsPacketLengthErrors{vrrpRouterStatsEntry 12}

R/O [Standard] Total received count of packets with illegal length value.[Implementation] Same as standard.

A

18 vrrpRouterStatisticsTable{vrrpStatistics 5}

NA [Standard] Statistics information table of virtual router.[Implementation] Same as standard.

A

19 vrrpRouterStatisticsEntry{vrrpRouterStatisticsTable 1}

NA [Standard] Entry of vrrpRouterStatistics table.INDEX { vrrpOperationsIpVersion, vrrpOperationsVrId, ifIndex }[Implementation] Same as standard.

A

20 vrrpStatisticsBecomeMaster{vrrpRouterStatisticsEntry 1}

R/O [Standard] Moved count to Master.[Implementation] Same as standard.

A

21 vrrpStatisticsAdvertiseRcvd{vrrpRouterStatisticsEntry 2}

R/O [Standard] Total received count of VRRP ADVERTISEMENT packet.[Implementation] Same as standard.

A


98

2.17 vrrpMIB Group

22 vrrpStatisticsAdvIntervalErrors{vrrpRouterStatisticsEntry 3}

R/O [Standard] Total received count of VRRP ADVERTISEMENT received by illegal ADVERTISEMENT interval.[Implementation] Same as standard.

A

23 vrrpStatisticsIpTtlErrors{vrrpRouterStatisticsEntry 4}

R/O [Standard] Total received count of VRRP packets with illegal TTL.[Implementation] Same as standard.

A

24 vrrpStatisticsPriZeroPktsRcvd{vrrpRouterStatisticsEntry 5}

R/O [Standard] Total received count of VRRP packets with 0 priority.[Implementation] Same as standard.

A

25 vrrpStatisticsPriZeroPktsSent{vrrpRouterStaitsticsEntry 6}

R/O [Standard] Total sending count of VRRP packets with 0 priority.[Implementation] Same as standard.

A

26 vrrpStatisticsInvldTypePktsRcvd{vrrpRouterStatisticsEntry 7}

R/O [Standard] Total received count of VRRP packets with illegal Type field.[Implementation] Same as standard.

A

27 vrrpStatisticsAddressListErrors{vrrpRouterStatisticsEntry 8}

R/O [Standard] Total received count of packets with illegal IP address of virtual router.[Implementation] Same as standard.

A

28 vrrpStatisticsPacketLengthErrors{vrrpRouterStatisticsEntry 11}

R/O [Standard] Total received count of packets with illegal length value.[Implementation] Same as standard.

A

29 vrrpStatisticsDiscontinuityTime{vrrpRouterStatisticsEntry 12}

R/O [Standard] Newest operation start time[Implementation] Same as standard.

A

30 vrrpStatisticsRefreshRate{vrrpRouterStatisticsEntry 13}

R/O [Standard] Minimum polling interval[Implementation] Same as standard.

A

31 vrrpStatisticsInvalidAuthType{vrrpRouterStatisticsEntry 14}

R/O [Standard] Total number of packets received with illegal packet authentication type.[Implementation] Same as standard.

A


99



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 IDENTIFIER ::= {mib-2 105} pethObjects OBJECT IDENTIFIER ::= {powerEthernetMIB 1}Object ID value 1.3.6.1.2.1.105.1 pethPsePortObjects OBJECT IDENTIFIER ::= {pethObjects 1}Object ID value 1.3.6.1.2.1.105.1.1 pethMainPseObjects OBJECT IDENTIFIER ::= {pethObjects 3}Object ID value 1.3.6.1.2.1.105.1.3 pethNotificationControl OBJECT IDENTIFIER ::= {pethObjects 4}Object ID value 1.3.6.1.2.1.105.1.4


The table below shows the implementation specifications of pethPsePortObjects group.

Table 2-55: Implementation Specifications of pethPsePortObjects


1 pethPsePortTable{pethObjects 1}

NA [Standard] Displays/controls the power supply characteristics of the port on the power unit.[Implementation] Same as standard.

A

2 pethPsePortEntry{pethPsePortTable 1}

NA [Standard] List of various port information of the power unitINDEX { pethPsePortGroupIndex }[Implementation] Same as standard.

A

3 pethPsePortGroupIndex{pethPsePortEntry 1}

NA [Standard] Identifier indicating the group containing the port to be connected[Implementation] 1 fixed.

A

4 pethPsePortIndex{pethPsePortEntry 2}

NA [Standard] Identifier of the port in pethPsePortGroupIndex[Implementation] Same as standard.

A

5 pethPsePortAdminEnable{pethPsePortEntry 3}

R/NW [Standard] Indicates valid/invalid status of the power unit function.• true (1): Enabled• false (2): Disabled


A

6 pethPsePortPowerPairsControlAbility{pethPsePortEntry 4}

R/O [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 A.

A

7 pethPsePortPowerPairs{pethPsePortEntry 5}

R/NW [Standard] Type of pair for power supply• signal (1): Data transfer pair used. (Pattern A)• 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 A.

A

100


The table below shows the implementation specifications of pethMainPseObjects group.

Table 2-56: Implementation specifications of pethMainPseObjects

8 pethPsePortDetectionStatus{pethPsePortEntry 6}

R/O [Standard] Power receiving unit detection status• disabled (1): DISABLED status• deliveringPower (3): POWER_ON status• fault (4): TEST_ERROR status• test (5): TEST_MODE status• otherFault (6): IDLE status due to an error• searching (2): Other status


A

9 pethPsePortPowerPriority{pethPsePortEntry 7}

R/NW [Standard] Port priority viewed from power supply management• critical (1)• high (2)• low (3)

[Implementation] Same as standard. However, it is invalid if pethPsePortDetectionStatus is disabled (1).

A

10 pethPsePortMPSAbsentCounter{pethPsePortEntry 8}

R/O [Standard] Counter incremented upon direct transition from the POWER ON status to the IDLE status because of power receiving unit no-response timeout[Implementation] Same as standard. Counted with Underload that occurs upon Port removal.

A

11 pethPsePortType{pethPsePortEntry 9}

R/NW [Standard] Type of system connected to the port[Implementation] NULL Fixed.

A

12 pethPsePortPowerClassifications{pethPsePortEntry 10}

R/O [Standard] Type of port power supply classValid only if pethPsePortDetectionStatus is deliveringPower (3).• class0 (1)• class1 (2)• class2 (3)• class3 (4)• class4 (5)


A

13 pethPsePortInvalidSignatureCounter{pethPsePortEntry 11}

R/O [Standard] Counter incremented upon transition to the SIGNATURE_INVALID status.[Implementation] Same as standard. Counted when Class identification fails.

A

14 pethPsePortPowerDeniedCounter{pethPsePortEntry 12}

R/O [Standard] Counter incremented upon transition to the POWER_DENIED status.[Implementation] Same as standard. Counted upon forced stop by priority control.

A

15 pethPsePortOverLoadCounter{pethPsePortEntry 13}

R/O [Standard] Counter incremented upon transition to the ERROR_DELAY_OVER status.[Implementation] Same as standard. Counted when overload occurs due to an error of the remote system.

A

16 pethPsePortShortCounter{pethPsePortEntry 14}

R/O [Standard] Counter incremented upon transition to the ERROR_DELAY_SHORT status.[Implementation] Same as standard. Counted when short occurs.

A


1 pethMainPseTable{pethMainPseObjects 1}

NA [Standard] Table of main power unit information of the power unit[Implementation] Same as standard.

A

2 pethMainPseEntry{pethMainPseTable 1}

NA [Standard] List of main power unit information of the power unitINDEX { pethMainPseGroupIndex }[Implementation] Same as standard.

A


101


The table below shows the implementation specifications of pethNotificationControl group.

Table 2-57: Implementation Specifications of pethNotificationControl

3 pethMainPseGroupIndex{pethMainPseEntry 1}

NA [Standard] Identifier of the power unit group connected (1 to 2147483647).[Implementation] Same as standard.

A

4 pethMainPsePower{pethMainPseEntry 2}

R/O [Standard] Total power of the power unit (Watt, 1 to 65535).[Implementation] Same as standard.

A

5 pethMainPseOperStatus{pethMainPseEntry 3}

R/O [Standard] Control status of the main power unit• on (1)• off (2)• faulty (3)

[Implementation] on (1) fixed.

A

6 pethMainPseConsumptionPower{pethMainPseEntry 4}

R/O [Standard] Power consumption (Watt, 0 to 65535)[Implementation] Same as standard.

A

7 pethMainPseUsageThreshold{pethMainPseEntry 5}

R/NW [Standard] Threshold value of power consumption (percentage, 1 to 99).An alarm is reported if the threshold is exceeded.[Implementation] 92 fixed.

A


1 pethNotificationControlTable{pethNotificationControl 1}

NA [Standard] Displays/controls the notification information of the power unit.[Implementation] Same as standard.

A

2 pethNotificationControlEntry{pethNotificationControlTable 1}

NA [Standard] Entry of notification event information[Implementation] Same as standard.

A

3 pethNotificationControlGroupIndex{pethNotificationControlEntry 1}

NA [Standard] Entry of notification information group (1 to 2147483647).[Implementation] Same as standard.

A

4 pethNotificationControlEnable{pethNotificationControlEntry 2}

R/NW [Standard] Notification function control enabled/disabled• true (1): Enabled• false (2): Disabled


A


102



The document related to the pimMIB group is given below.

• RFC2934 (October 2000)

NotesThis MIB is valid only when PIM-SM is used as a multicast route control protocol.

2.19.1 pimJoinPruneInterval

(1) Identifier pimMIB OBJECT IDENTIFIER ::= {experimental 61} pimMIBObjects OBJECT IDENTIFIER ::= {pimMIB 1} pim OBJECT IDENTIFIER ::= {pimMIBObjects 1}Object ID value 1.3.6.1.3.61.1.1 pimJoinPruneInterval OBJECT IDENTIFIER ::= {pim 1}Object ID value 1.3.6.1.3.61.1.1.1


The table below shows the implementation specifications of pimJoinPruneInterval.

Table 2-58: Implementation Specifications of pimJoinPruneInterval

2.19.2 pimInterfaceTable

(1) Identifier pimMIB OBJECT IDENTIFIER ::= {experimental 61} pimMIBObjects OBJECT IDENTIFIER ::= {pimMIB 1} pim OBJECT IDENTIFIER ::= {pimMIBObjects 1}Object ID value 1.3.6.1.3.61.1.1 pimInterfaceTable OBJECT IDENTIFIER ::= {pim 2}Object ID value 1.3.6.1.3.61.1.1.2


The table below shows the implementation specifications of pimInterfaceTable.

Table 2-59: Implementation Specifications of pimInterfaceTable


1 pimJoinPruneInterval{pim 1}

R/NW [Standard] Default value of a PIM-SM Join/Prune message interval (unit: second(s)).[Implementation] 60 fixed.

A


1 pimInterfaceTable{pim 2}

NA [Standard] PIM interface table.[Implementation] Same as standard.

A

2 pimInterfaceEntry{pimInterfaceTable 1}

NA [Standard] Entry of a PIM interface table.INDEX { pimInterfaceIfIndex }[Implementation] Same as standard.

A

103


2.19.3 pimNeighborTable

(1) Identifier pimMIB OBJECT IDENTIFIER ::= {experimental 61} pimMIBObjects OBJECT IDENTIFIER ::= {pimMIB 1} pim OBJECT IDENTIFIER ::= {pimMIBObjects 1}Object ID value 1.3.6.1.3.61.1.1 pimNeighborTable OBJECT IDENTIFIER ::= {pim 3}Object ID value 1.3.6.1.3.61.1.1.3


The table below shows the implementation specifications of pimNeighborTable.

Table 2-60: Implementation Specifications of pimNeighborTable

3 pimInterfaceIfIndex{pimInterfaceEntry 1}

NA [Standard] ifIndex value of a PIM interface table.[Implementation] Same as standard.

A

4 pimInterfaceAddress{pimInterfaceEntry 2}

R/O [Standard] IP address of a PIM interface.[Implementation] Same as standard.

A

5 pimInterfaceNetMask{pimInterfaceEntry 3}

R/O [Standard] Network mask of the IP address of a PIM interface[Implementation] Same as standard.

A

6 pimInterfaceMode{pimInterfaceEntry 4}

R/NW [Standard] Mode of a PIM interface.• dense (1)• sparse (2)• sparseDense (3)

DEFVAL {dense}[Implementation] sparse (2) fixed.

A

7 pimInterfaceDR{pimInterfaceEntry 5}

R/O [Standard] Designated Router address of a PIM interface. 0.0.0.0 is returned if the interface is point-to-point-connected.[Implementation] Same as standard.

A

8 pimInterfaceHelloInterval{pimInterfaceEntry 6}

R/NW [Standard] Hello message send interval of a PIM interface (unit: second(s)).DEFVAL {30}[Implementation] Same as standard.

A

9 pimInterfaceStatus{pimInterfaceEntry 7}

R/NW [Standard] RowStatus[Implementation] active (1) fixed.

A

10 pimInterfaceJoinPruneInterval{pimInterfaceEntry 8}

R/NW [Standard] Join/Prune message send interval of a PIM interface (unit: second(s)).[Implementation] Same as standard.

A

11 pimInterfaceCBSRPreference{pimInterfaceEntry 9}

R/NW [Standard] Preference value of this interface as a BSR candidate. -1 if the interface is not a BSR candidate.DEFVAL {0}[Implementation] -1 fixed.

A


1 pimNeighborTable{pim 3}

NA [Standard] PIM neighboring router table.[Implementation] Same as standard.

A

2 pimNeighborEntry{pimNeighborTable 1}

NA [Standard] PIM neighboring router table entry.INDEX { pimNeighborAddress }[Implementation] Same as standard.

A


104


3 pimNeighborAddress{pimNeighborEntry 1}

NA [Standard] IP address of a PIM neighboring router.[Implementation] Same as standard.

A

4 pimNeighborIfIndex{pimNeighborEntry 2}

R/O [Standard] ifIndex value of the interface that reaches a PIM neighboring router.[Implementation] Same as standard.

A

5 pimNeighborUpTime{pimNeighborEntry 3}

R/O [Standard] Elapsed time since a PIM neighboring router has been learned (unit: 10ms).[Implementation] Same as standard.

A

6 pimNeighborExpiryTime{pimNeighborEntry 4}

R/O [Standard] Remaining time to live for a PIM neighboring router (unit: 10ms).[Implementation] Same as standard.

A

7 pimNeighborMode{pimNeighborEntry 5}

R/O [Standard] PIM mode of a PIM neighboring router• dense (1)• sparse (2)

[Implementation] sparse (2) fixed.

A


105



The document related to the ospfv3MIB group is given below.

• draft-ietf-ospf-ospfv3-mib-03.txt (November 2000)

2.20.1 ospfv3GeneralGroup

(1) Identifier ospfv3MIB OBJECT IDENTIFIER ::= {experimental 102}ospfv3 OBJECT IDENTIFIER ::= {ospfv3MIB 1} ospfv3GeneralGroup OBJECT IDENTIFIER ::= {ospfv3 1}Object ID values 1.3.6.1.3.102.1.1


The table below shows the implementation specifications of ospfv3GeneralGroup.

Table 2-61: Implementation Specifications of ospfv3GeneralGroup


1 ospfv3RouterId{ospfv3GeneralGroup 1}

R/NW [Standard] Router identifier in autonomous system.[Implementation] Same as standard. However, it is Read_Only.

A

2 ospfv3AdminStat{ospfv3GeneralGroup 2}

R/NW [Standard] OSPFv3 control status of router.• enabled (1)• disabled (2)


A

3 ospfv3VersionNumber{ospfv3GeneralGroup 3}

R/O [Standard] Version number of OSPFv3 protocol.[Implementation] Same as standard (version3 fixed).

A

4 ospfv3AreaBdrRtrStatus{ospfv3GeneralGroup 4}

R/O [Standard] Shows whether router is area border router.• true (1)• false (2)


A

5 ospfv3ASBdrRtrStatus{ospfv3GeneralGroup 5}

R/NW [Standard] Shows whether router is AS boundary router.• true (1)• false (2)


A

6 ospfv3AsScopeLsaCount{ospfv3GeneralGroup 6}

R/O [Standard] Number of external link state advertisements (LSA) in link state database (LSDB).[Implementation] Same as standard.

A

7 ospfv3AsScopeLsaCksumSum{ospfv3GeneralGroup 7}

R/O [Standard] Total LS checksum of AsScope LSA in LSDB.[Implementation] Same as standard.

A

8 ospfv3OriginateNewLsas{ospfv3GeneralGroup 8}

R/O [Standard] Number of new LSA originated.[Implementation] Same as standard.

A

9 ospfv3RxNewLsas{ospfv3GeneralGroup 9}

R/O [Standard] Number of times receiving LSA with new information.[Implementation] Same as standard.

A

10 ospfv3ExtAreaLsdbLimit{ospfv3GeneralGroup 10}

R/NW [Standard] Maximum number of entries for AS external LSAs that can be stored in LSDB. For -1, no limit.[Implementation] -1 fixed. However, it is Read_Only.

A

106


* Not installed because the extended functions are not supported.

2.20.2 ospfv3AreaTable

(1) Identifier ospfv3MIB OBJECT IDENTIFIER ::= {experimental 102}ospfv3 OBJECT IDENTIFIER ::= {ospfv3MIB 1} ospfv3AreaTable OBJECT IDENTIFIER ::= {ospfv3 2}Object ID values 1.3.6.1.3.102.1.2


The table below shows the implementation specifications of ospfv3AreaTable.

Table 2-62: Implementation Specifications of ospfv3AreaTable

11 ospfv3MulticastExtensions{ospfv3GeneralGroup 11}

R/NW [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.

A

12 ospfv3ExitOverflowInterval{ospfv3GeneralGroup 12}

R/NW [Standard] Time until router becomes overflow status (unit: second(s)).[Implementation] Unused*

N

13 ospfv3DemandExtensions{ospfv3GeneralGroup 13}

R/NW [Standard] Demand routing support in this router.• true (1)• false (2)


A

14 ospfv3TrafficEngineeringSupport{ospfv3GeneralGroup 14}

R/NW [Standard] Traffic engineering expansion support in this router.• true (1)• false (2)


A


1 ospfv3AreaTable{ospfv3 2}

NA [Standard] Table storing information on each area connected to router.[Implementation] Same as standard.

A

2 ospfv3AreaEntry{ospfv3AreaTable 1}

NA [Standard] Information list on each area.INDEX { ospfv3AreaId }[Implementation] Same as standard.

A

3 ospfv3AreaId{ospfv3AreaEntry 1}

R/O [Standard] Number that identifies area.[Implementation] Same as standard.

A

4 ospfv3ImportAsExtern{ospfv3AreaEntry 2}

R/NW [Standard] Flag showing whether this router takes AS external link state advertisement (LSA).• importExternal (1)• importNoExternal (2)• importNssa (3)


A

5 ospfv3SpfRuns{ospfv3AreaEntry 3}

R/O [Standard] Number of times calculating routes in area using link state database (LSDB) of this area.[Implementation] Same as standard.

A

6 ospfv3AreaBdrRtrCount{ospfv3AreaEntry 4}

R/O [Standard] Total number of reachable area border routers in this area.[Implementation] Same as standard.

A


107


* Not installed because NSSA is not supported.

2.20.3 ospfv3AsLsdbTable

(1) Identifier ospfv3MIB OBJECT IDENTIFIER ::= {experimental 102}ospfv3 OBJECT IDENTIFIER ::= {ospfv3MIB 1} ospfv3AsLsdbTable OBJECT IDENTIFIER ::= {ospfv3 3}Object ID values 1.3.6.1.3.102.1.3


The table below shows the implementation specifications of ospfv3AsLsdbTable.

7 ospfv3AsBdrRtrCount{ospfv3AreaEntry 5}

R/O [Standard] Total number of reachable AS boundary routers in this area.[Implementation] Same as standard.

A

8 ospfv3AreaScopeLsaCount{ospfv3AreaEntry 6}

R/O [Standard] Number of AreaScope LSAs in LSDB of this area.[Implementation] Same as standard.

A

9 ospfv3AreaScopeLsaCksumSum{ospfv3AreaEntry 7}

R/O [Standard] Total LS check sum of AreaScopeLSAs included in LSDB of this area.[Implementation] Same as standard.

A

10 ospfv3AreaSummary{ospfv3AreaEntry 8}

R/NW [Standard] Variable values related to import control of summary LSA to area.• noAreaSummary (1)• sendAreaSummary (2)

[Implementation] sendAreaSummary (2) fixed. However, it is Read_Only.

A

11 ospfv3AreaStatus{ospfv3AreaEntry 9}


A

12 ospfv3StubMetric{ospfv3AreaEntry 10}

R/NW [Standard] Default route metric value advertising in Stub or NSSA area.[Implementation] Same as standard. However, it is Read_Only.

A

13 ospfv3AreaNssaTranslatorRole{ospfv3AreaEntry 11}

R/NW [Standard] Role as NSSA translator of NSSA border router.[Implementation] Unused*

N

14 ospfv3AreaNssaTranslatorState{ospfv3AreaEntry 12}

R/O [Standard] NSSA translator status.[Implementation] Unused*

N

15 ospfv3AreaNssaTranslatorStabilityInterval{ospfv3AreaEntry 13}

R/NW [Standard] Stability Interval of NSSA translator.[Implementation] Unused*

N

16 ospfv3AreaNssaTranslatorEvents{ospfv3AreaEntry 14}

R/O [Standard] Event count of NSSA translator.[Implementation] Unused*

N


108


Table 2-63: Implementation Specifications of ospfv3AsLsdbTable

2.20.4 ospfv3AreaLsdbTable

(1) Identifier ospfv3MIB OBJECT IDENTIFIER ::= {experimental 102}ospfv3 OBJECT IDENTIFIER ::= {ospfv3MIB 1} ospfv3AreaLsdbTable OBJECT IDENTIFIER ::= {ospfv3 4}Object ID values 1.3.6.1.3.102.1.4


The table below shows the implementation specifications of ospfv3AreaLsdbTable.

Table 2-64: Implementation Specifications of ospfv3AreaLsdbTable


1 ospfv3AsLsdbTable{ospfv3 3}

NA [Standard] Table for storing data relating to OSPFv3 AS Scope link status database.[Implementation] Same as standard.

A

2 ospfv3AsLsdbEntry{ospfv3AsLsdbTable 1}

NA [Standard] List of link state advertisements (LSA).INDEX { ospfv3AsLsdbType, ospfv3AsLsdbRouterId, ospfv3AsLsdbLsid }[Implementation] Same as standard.

A

3 ospfv3AsLsdbType{ospfv3AsLsdbEntry 1}

R/O [Standard] Type of LSA.• asExternal (0x4005)


A

4 ospfv3AsLsdbRouterId{ospfv3AsLsdbEntry 2}


A

5 ospfv3AsLsdbLsid{ospfv3AsLsdbEntry 3}

R/O [Standard] ID that identifies individual LSA.[Implementation] Same as standard.

A

6 ospfv3AsLsdbSequence{ospfv3AsLsdbEntry 4}


A

7 ospfv3AsLsdbAge{ospfv3AsLsdbEntry 5}


A

8 ospfv3AsLsdbChecksum{ospfv3AsLsdbEntry 6}


A

9 ospfv3AsLsdbAdvertisement{ospfv3AsLsdbEntry 7}


A


1 ospfv3AreaLsdbTable{ospfv3 4}

NA [Standard] Table for storing data relating to OSPFv3 AreaScope link status database.[Implementation] Same as standard.

A

2 ospfv3AreaLsdbEntry{ospfv3AreaLsdbTable 1}

NA [Standard] List of link state advertisements (LSA).INDEX { ospfv3AreaLsdbAreaId, ospfv3AreaLsdbType, ospfv3AreaLsdbRouterId, ospfv3AreaLsdbLsid }[Implementation] Same as standard.

A

109


2.20.5 ospfv3LinkLsdbTable

(1) Identifier ospfv3MIB OBJECT IDENTIFIER ::= {experimental 102}ospfv3 OBJECT IDENTIFIER ::= {ospfv3MIB 1} ospfv3LinkLsdbTable OBJECT IDENTIFIER ::= {ospfv3 5}Object ID values 1.3.6.1.3.102.1.5


The table below shows the implementation specifications of ospfv3LinkLsdbTable.

Table 2-65: Implementation Specifications of ospfv3LinkLsdbTable

3 ospfv3AreaLsdbAreaId{ospfv3AreaLsdbEntry 1}

R/O [Standard] Area ID of the area receiving this LSA.[Implementation] Same as standard.

A

4 ospfv3AreaLsdbType{ospfv3AreaLsdbEntry 2}

R/O [Standard] Type of LSA.• router (8193=0x2001)• network (8194 = 0x2002)• interAreaPrefix (8195=0x2003)• interAreaRouter (8196=0x2004)• multicast (8198 = 0x2006)• nssa external link (8199 = 0x2007)• intraAreaPrefix (8201=0x2009)


A

5 ospfv3AreaLsdbRouterId{ospfv3AreaLsdbEntry 3}


A

6 ospfv3AreaLsdbLsid{ospfv3AreaLsdbEntry 4}


A

7 ospfv3AreaLsdbSequence{ospfv3AreaLsdbEntry 5}


A

8 ospfv3AreaLsdbAge{ospfv3AreaLsdbEntry 6}


A

9 ospfv3AreaLsdbChecksum{ospfv3AreaLsdbEntry 7}


A

10 ospfv3AreaLsdbAdvertisement{ospfv3AreaLsdbEntry 8}


A


1 ospfv3LinkLsdbTable{ospfv3 5}

NA [Standard] Table for storing data relating to OSPFv3 LinkScope Scope link status database.[Implementation] Same as standard.

A

2 ospfv3LinkLsdbEntry{ospfv3LinkLsdbTable 1}

NA [Standard] List of link state advertisements (LSA).INDEX { ospfv3LinkLsdbIfIndex, ospfv3LinkLsdbType, ospfv3LinkLsdbRouterId, ospfv3LinkLsdbLsid }[Implementation] Same as standard.

A

3 ospfv3LinkLsdbIfIndex{ospfv3LinkLsdbEntry 1}

R/O [Standard] Link ID that received LSA.[Implementation] Same as standard.

A


110


2.20.6 ospfv3IfTable

(1) Identifier ospfv3MIB OBJECT IDENTIFIER ::= {experimental 102}ospfv3 OBJECT IDENTIFIER ::= {ospfv3MIB 1} ospfv3IfTable OBJECT IDENTIFIER ::= {ospfv3 7}Object ID values 1.3.6.1.3.102.1.7


The table below shows the implementation specifications of ospfv3IfTable.

Table 2-66: Implementation Specifications of ospfv3IfTable

4 ospfv3LinkLsdbType{ospfv3LinkLsdbEntry 2}

R/O [Standard] Type of LSA.• Link (0x0008)


A

5 ospfv3LinkLsdbRouterId{ospfv3LinkLsdbEntry 3}


A

6 ospfv3LinkLsdbLsid{ospfv3LinkLsdbEntry 4}


A

7 ospfv3LinkLsdbSequence{ospfv3LinkLsdbEntry 5}


A

8 ospfv3LinkLsdbAge{ospfv3LinkLsdbEntry 6}


A

9 ospfv3LinkLsdbChecksum{ospfv3LinkLsdbEntry 7}


A

10 ospfv3LinkLsdbAdvertisement{ospfv3LinkLsdbEntry 8}


A


1 ospfv3IfTable{ospfv3 7}

NA [Standard] Table storing information on each interface connected to router.[Implementation] Same as standard.

A

2 ospfv3IfEntry{ospfv3IfTable 1}

NA [Standard] List storing information on each interface connected to router.INDEX { ospfv3IfIndex }[Implementation] Same as standard.

A

3 ospfv3IfIndex{ospfv3IfEntry 1}

R/O [Standard] Interface index of this OSPFv3 interface.[Implementation] Same as standard.

A

4 ospfv3IfAreaId{ospfv3IfEntry 2}

R/NW [Standard] Area ID of the area to which this interface connects.[Implementation] Same as standard. However, it is Read_Only.

A

5 ospfv3IfType{ospfv3IfEntry 3}

R/NW [Standard] Interface type.• Broadcast (1)• Non-broadcast (2)• Point-Point (3)• Point-Multipoint (5)


A


111


6 ospfv3IfAdminStat{ospfv3IfEntry 4}

R/NW [Standard] Control status of the interface.• enabled (1)• disabled (2)


A

7 ospfv3IfRtrPriority{ospfv3IfEntry 5}

R/NW [Standard] Priority of this interface.[Implementation] Same as standard. However, it is Read_Only.

A

8 ospfv3IfTransitDelay{ospfv3IfEntry 6}


A

9 ospfv3IfRetransInterval{ospfv3IfEntry 7}


A

10 ospfv3IfHelloInterval{ospfv3IfEntry 8}


A

11 ospfv3IfRtrDeadInterval{ospfv3IfEntry 9}


A

12 ospfv3IfPollInterval{ospfv3IfEntry 10}

R/NW [Standard] Send interval of Hello packet to inactive neighbor office in non-broadcast multiple access network (unit: second(s)).[Implementation] Same as standard. However, it is Read_Only.

A

13 ospfv3IfState{ospfv3IfEntry 11}

R/O [Standard] Interface status.• down (1)• loopback (2)• waiting (3)• PtoP (4)• DR (5)• BDR (6)• other (7)


A

14 ospfv3IfDesignatedRouter{ospfv3IfEntry 12}

R/O [Standard] Router ID of designated router.[Implementation] Same as standard.

A

15 ospfv3IfBackupDesignatedRouter{ospfv3IfEntry 14}

R/O [Standard] Router ID of backup designated router.[Implementation] Same as standard.

A

16 ospfv3IfEvents{ospfv3IfEntry 15}

R/O [Standard] Frequency of status change or error occurrence in this interface.[Implementation] Same as standard.

A

17 ospfv3IfStatus{ospfv3IfEntry 17}


A

18 ospfv3IfMulticastForwarding{ospfv3IfEntry 18}

R/NW [Standard] Multicast method in this interface.• blocked (1)• multicast (2)• unicast (3)

[Implementation] blocked (1) fixed. However, it is Read_Only.

A

19 ospfv3IfDemand{ospfv3IfEntry 19}

R/NW [Standard] Shows whether to perform Demand OSPFv3 procedure in this interface.• true (1)• false (2)


A

20 ospfv3IfMetricValue{ospfv3IfEntry 20}

R/NW [Standard] Metric of this interface.[Implementation] Same as standard. However, it is Read_Only.

A


112


2.20.7 ospfv3VirtIfTable

(1) Identifier ospfv3MIB OBJECT IDENTIFIER ::= {experimental 102}ospfv3 OBJECT IDENTIFIER ::= {ospfv3MIB 1} ospfv3VirtIfTable OBJECT IDENTIFIER ::= {ospfv3 8}Object ID values 1.3.6.1.3.102.1.8


The table below shows the implementation specifications of ospfv3VirtIfTable.

Table 2-67: Implementation Specifications of ospfv3VirtIfTable

21 ospfv3IfLinkScopeLsaCount{ospfv3IfEntry 21}

R/O [Standard] Number of LinkScope link state advertisements (LSA) in link state database (LSDB).[Implementation] Same as standard.

A

22 ospfv3IfLinkLsaCksumSum{ospfv3IfEntry 22}

R/O [Standard] Total LS checksum of LinkScope LSA in LSDB.[Implementation] Same as standard.

A

23 ospfv3IfInstId{ospfv3IfEntry 23}

R/NW [Standard] InstanceID of this OSPFv3 interface.[Implementation] Same as standard. However, it is Read_Only.

A


1 ospfv3VirtIfTable{ospfv3 8}

NA [Standard] Table storing information in virtual interface connected to router.[Implementation] Same as standard.

A

2 ospfv3VirtIfEntry{ospfv3VirtIfTable 1}

NA [Standard] Interface information list of each virtual link.INDEX { ospfv3VirtIfAreaId, ospfv3VirtIfNeighbor }[Implementation] Same as standard.

A

3 ospfv3VirtIfAreaId{ospfv3VirtIfEntry 1}

R/O [Standard] Area ID of area through which this virtual link passes.[Implementation] Same as standard.

A

4 ospfv3VirtIfNeighbor{ospfv3VirtIfEntry 2}


A

5 ospfv3VirtIfIndex{ospfv3VirtIfEntry 3}

R/NW [Standard] Interface index of this interface.[Implementation] Same as standard. However, it is Read_Only.

A

6 ospfv3VirtIfTransitDelay{ospfv3VirtIfEntry 4}


A

7 ospfv3VirtIfRetransInterval{ospfv3VirtIfEntry 5}


A

8 ospfv3VirtIfHelloInterval{ospfv3VirtIfEntry 6}


A

9 ospfv3VirtIfRtrDeadInterval{ospfv3VirtIfEntry 7}


A

10 ospfv3VirtIfState{ospfv3VirtIfEntry 8}

R/O [Standard] Interface status.• down (1)• PtoP (4)


A


113


2.20.8 ospfv3NbrTable

(1) Identifier ospfv3MIB OBJECT IDENTIFIER ::= {experimental 102}ospfv3 OBJECT IDENTIFIER ::= {ospfv3MIB 1} ospfv3NbrTable OBJECT IDENTIFIER ::= {ospfv3 9}Object ID values 1.3.6.1.3.102.1.9


The table below shows the implementation specifications of ospfv3NbrTable.

Table 2-68: Implementation Specifications of ospfv3NbrTable

11 ospfv3VirtIfEvents{ospfv3VirtIfEntry 9}

R/O [Standard] Frequency of status change or error occurrence in this interface.[Implementation] Same as standard.

A

12 ospfv3VirtIfStatus{ospfv3VirtIfEntry 10}


A

13 ospfv3VirtIfLinkScopeLsaCount{ospfv3VirtIfEntry 11}

R/O [Standard] Number of LinkScope link state advertisements (LSA) in link state database (LSDB).[Implementation] Same as standard.

A

14 ospfv3VirtIfLinkLsaCksumSum{ospfv3VirtIfEntry 12}

R/O [Standard] Total LS checksum of LinkScope LSA in LSDB.[Implementation] Same as standard.

A


1 ospfv3NbrTable{ospfv3 9}

NA [Standard] Table storing information on non-virtual neighboring office.[Implementation] Same as standard.

A

2 ospfv3NbrEntry{ospfv3NbrTable 1}

NA [Standard] Information list of each neighboring office.INDEX { ospfv3NbrIfIndex, ospfv3NbrIpv6Addr }[Implementation] Same as standard.

A

3 ospfv3NbrIfIndex{ospfv3NbrEntry 1}

R/O [Standard] Local LinkID of link connected to neighboring routers.[Implementation] Same as standard.

A

4 ospfv3NbrIpv6Addr{ospfv3NbrEntry 2}

R/O [Standard] IPv6 address of neighboring router.[Implementation] Same as standard.

A

5 ospfv3NbrRtrId{ospfv3NbrEntry 3}

R/O [Standard] Router ID of neighboring router.[Implementation] Same as standard.

A

6 ospfv3NbrOptions{ospfv3NbrEntry 4}

R/O [Standard] Option field of neighboring routers.[Implementation] Same as standard.

A

7 ospfv3NbrPriority{ospfv3NbrEntry 5}

R/NW [Standard] Priority of neighboring router.[Implementation] Same as standard. However, it is Read_Only.

A

8 ospfv3NbrState{ospfv3NbrEntry 6}

R/O [Standard] Status showing relation to this neighboring router.• down (1)• attempt (2)• init (3)• twoWay (4)• exchangeStart (5)• exchange (6)• loading (7)• full (8)


A


114


* Not installed because NBMA is not supported.

2.20.9 ospfv3VirtNbrTable

(1) Identifier ospfv3MIB OBJECT IDENTIFIER ::= {experimental 102}ospfv3 OBJECT IDENTIFIER ::= {ospfv3MIB 1} ospfv3VirtNbrTable OBJECT IDENTIFIER ::= {ospfv3 10}Object ID values 1.3.6.1.3.102.1.10


The table below shows the implementation specifications of ospfv3VirtNbrTable.

Table 2-69: Implementation Specifications of ospfv3VirtNbrTable

9 ospfv3NbrEvents{ospfv3NbrEntry 7}

R/O [Standard] Frequency of status change or error occurrence related to neighboring router.[Implementation] Same as standard.

A

10 ospfv3NbrLsRetransQLen{ospfv3NbrEntry 8}


A

11 ospfv3NbmaNbrStatus{ospfv3NbrEntry 9}

R/NW [Standard] Shows valid/invalid status of this entry.[Implementation] Unused*

N

12 ospfv3NbmaNbrPermanence{ospfv3NbrEntry 10}

R/O [Standard] Method for recognizing neighboring routers.• dynamic (1)• permanent (2)

[Implementation] Unused*

N

13 ospfv3NbrHelloSuppressed{ospfv3NbrEntry 11}

R/O [Standard] Shows whether Hello is suppressed to neighbor.[Implementation] Same as standard.

A

14 ospfv3NbrIfId{ospfv3NbrEntry 12}

R/O [Standard] Interface ID of neighboring router advertising in this link by Hello packet.[Implementation] Same as standard.

A


1 ospfv3VirtNbrTable{ospfv3 10}

NA [Standard] Table storing virtual neighboring router data.[Implementation] Same as standard.

A

2 ospfv3VirtNbrEntry{ospfv3VirtNbrTable 1}

NA [Standard] Information list of each virtual neighboring router.INDEX { ospfv3VirtNbrArea, ospfv3VirtNbrRtrId }[Implementation] Same as standard.

A

3 ospfv3VirtNbrArea{ospfv3VirtNbrEntry 1}

R/O [Standard] Area ID of transit area.[Implementation] Same as standard.

A

4 ospfv3VirtNbrRtrId{ospfv3VirtNbrEntry 2}


A

5 ospfv3VirtNbrIfIndex{ospfv3VirtNbrEntry 3}

R/O [Standard] Local LinkID of link connected to neighboring routers.[Implementation] Same as standard.

A

6 ospfv3VirtNbrIpv6Addr{ospfv3VirtNbrEntry 4}

R/O [Standard] IPv6 address of virtual neighboring router[Implementation] Same as standard.

A

7 ospfv3VirtNbrOptions{ospfv3VirtNbrEntry 5}

R/O [Standard] Option field of virtual neighboring routers.[Implementation] Same as standard.

A


115


2.20.10 ospfv3AreaAggregateTable

(1) Identifier ospfv3MIB OBJECT IDENTIFIER ::= {experimental 102}ospfv3 OBJECT IDENTIFIER ::= {ospfv3MIB 1} ospfv3AreaAggregateTable OBJECT IDENTIFIER ::= {ospfv3 11}Object ID values 1.3.6.1.3.102.1.11


The table below shows the implementation specifications of ospfv3AreaAggregateTable.

Table 2-70: Implementation Specifications of ospfv3AreaAggregateTable

8 ospfv3VirtNbrState{ospfv3VirtNbrEntry 6}

R/O [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)


A

9 ospfv3VirtNbrEvents{ospfv3VirtNbrEntry 7}

R/O [Standard] Frequency of status change or error occurrence in this virtual link.[Implementation] Same as standard.

A

10 ospfv3VirtNbrLsRetransQLen{ospfv3VirtNbrEntry 8}


A

11 ospfv3VirtNbrHelloSuppressed{ospfv3VirtNbrEntry 9}

R/O [Standard] Shows whether Hello is suppressed to neighbor.[Implementation] Same as standard.

A

12 ospfv3VirtNbrIfId{ospfv3VirtNbrEntry 10}

R/O [Standard] Interface ID of neighboring router advertising in this link by Hello packet.[Implementation] Same as standard.

A


1 ospfv3AreaAggregateTable{ospfv3 11}

NA [Standard] Table of IPv6 with Prefix and Prefix Length specified as a pair.[Implementation] Same as standard.

A

2 ospfv3AreaAggregateEntry{ospfv3AreaAggregateTable 1}

NA [Standard] List of IPv6 with Prefix and Prefix Length specified as a pair.INDEX { ospfv3AreaAggregateAreaID, ospfv3AreaAggregateLsdbType, ospfv3AreaAggregateIndex }[Implementation] Same as standard.

A

3 ospfv3AreaAggregateAreaID{ospfv3AreaAggregateEntry 1}

R/O [Standard] Address aggregate area.[Implementation] Same as standard.

A


116


4 ospfv3AreaAggregateAreaLsdbType{ospfv3AreaAggregateEntry 2}

R/O [Standard] Address aggregate type. This entry indicates the type of the link state database (LSDB) applied to the aggregation of this address.• interAreaPrefixLsa (0x2003)• nssaExternalLsa (0x2007)


A

5 ospfv3AreaAggregateIndex{ospfv3AreaAggregateEntry 3}

R/O [Standard] Aggregate table identifier.[Implementation] Same as standard.

A

6 ospfv3AreaAggregatePrefix{ospfv3AreaAggregateEntry 4}

R/NW [Standard] IPv6 Prefix.[Implementation] Same as standard. However, it is Read_Only.

A

7 ospfv3AreaAggregatePrefixLen{ospfv3AreaAggregateEntry 5}

R/NW [Standard] IPv6 Prefix length.[Implementation] Same as standard. However, it is Read_Only.

A

8 ospfv3AreaAggregateStatus{ospfv3AreaAggregateEntry 6}


A

9 ospfv3AreaAggregateEffect{ospfv3AreaAggregateEntry 7}

R/NW [Standard] Shows whether subnet advertised within range will be opportunity for advertising aggregate address or subnet not advertised outside area.• advertiseMatching (1)• doNotAdvertiseMatching (2)


A


117



The document related to the IEEE8023-LAG-MIB group is given below.

• IEEE8023-LAG-MIB.txt

2.21.1 dot3adAgg Group

(1) Identifier member-body OBJECT IDENTIFIER ::= {iso 2}us OBJECT IDENTIFIER ::= {member-body 840}ieee802dot3 OBJECT IDENTIFIER ::= {us 10006}snmpmibs OBJECT IDENTIFIER ::= {ieee802dot3 300}lagMIB OBJECT IDENTIFIER ::= {snmpmibs 43}lagMIBObjects OBJECT IDENTIFIER ::= {lagMIB 1} dot3adAgg OBJECT IDENTIFIER ::= {lagMIBObjects 1}Object ID values 1.2.840.10006.300.43.1.1


The table below shows the implementation specifications of dot3adAgg group.

Table 2-71: Implementation Specifications of dot3adAgg Group


1 dot3adAggTable{dot3adAgg 1}

NA [Standard] Table for the Aggregator in the system.[Implementation] Same as standard.

A

2 dot3adAggEntry{dot3adAggTable 1}

NA [Standard] Aggregator parameter list.INDEX { ifIndex }[Implementation] Same as standard.

A

3 dot3adAggIndex{dot3adAggEntry 1}

NA [Standard] Number for identifying this interface. [Implementation] Same as standard.

A

4 dot3adAggMACAddress{dot3adAggEntry 2}

R/O [Standard] MAC address assigned to the Aggregator.[Implementation] Same as standard.

A

5 dot3adAggActorSystemPriority{dot3adAggEntry 3}

R/NW [Standard] Priority value for Actor system ID.[Implementation] Same as standard.

A

6 dot3adAggActorSystemID{dot3adAggEntry 4}

R/NW [Standard] Unique identifier for the system.[Implementation] Same as standard.

A

7 dot3adAggAggregateOrIndividual{dot3adAggEntry 5}

R/O [Standard] Indicates whether the Aggregator is executing Link Aggregation or handling as individual links.[Implementation] Same as standard.

A

8 dot3adAggActorAdminKey{dot3adAggEntry 6}

R/O [Standard] Value of the Key for administration of current Aggregator.[Implementation] Same as standard.

A

9 dot3adAggActorOperKey{dot3adAggEntry 7}

R/O [Standard] Value of the Key for operation of current Aggregator.[Implementation] Same as standard.

A

10 dot3adAggPartnerSystemID{dot3adAggEntry 8}

R/O [Standard] Unique identifier and MAC address for current Aggregator protocol partners.[Implementation] Same as standard.

A

11 dot3adAggPartnerSystemPriority{dot3adAggEntry 9}

R/O [Standard] Priority value is indicated for partner system ID.[Implementation] Same as standard.

A

12 dot3adAggPartnerOperKey{dot3adAggEntry 10}

R/O [Standard] Value of the key for the operation of current protocol partners of the Aggregator.[Implementation] Same as standard.

A

118


2.21.2 dot3adAggPort Group

(1) Identifier member-body OBJECT IDENTIFIER ::= {iso 2}us OBJECT IDENTIFIER ::= {member-body 840}ieee802dot3 OBJECT IDENTIFIER ::= {us 10006}snmpmibs OBJECT IDENTIFIER ::= {ieee802dot3 300}lagMIB OBJECT IDENTIFIER ::= {snmpmibs 43}lagMIBObjects OBJECT IDENTIFIER ::= {lagMIB 1} dot3adAggPort OBJECT IDENTIFIER ::= {lagMIBObjects 2}Object ID values 1.2.840.10006.300.43.1.2


The table below shows the implementation specifications of dot3adAggPort group.

Table 2-72: Implementation Specifications of dot3adAggPort Group

13 dot3adAggCollectorMaxDelay{dot3adAggEntry 11}

R/NW [Standard] Maximum delay time until received frames are delivered from AggregatorParser to MACClient by FrameCollector or until frames are discarded (unit: 10 microseconds).[Implementation] Same as standard.

A

14 dot3adAggPortListTable{dot3adAgg 2}

NA [Standard] List of Aggregation Ports connected to the Aggregator.[Implementation] Same as standard.

A

15 dot3adAggPortListEntry{dot3adAggPortListTable 1}

NA [Standard] List of ports connected to the Aggregator.[Implementation] Same as standard.

A

16 dot3adAggPortListPorts{dot3adAggPortListEntry 1}

R/O [Standard] All sets of ports connected to the Aggregator.[Implementation] Same as standard.

A


1 dot3adAggPortTable{dot3adAggPort 1}

NA [Standard] Link Aggregation Control setting information for all aggregation ports.[Implementation] Same as standard.

A

2 dot3adAggPortEntry{dot3adAggPortTable 1}

NA [Standard] List of link Aggregation Control setting parameters for each aggregation port.[Implementation] Same as standard.

A

3 dot3adAggPortIndex{dot3adAggPortEntry 1}

NA [Standard] Number for identifying this interface. [Implementation] Same as standard.

A

4 dot3adAggPortActorSystemPriority{dot3adAggPortEntry 2}

R/NW [Standard] Priority value for Actor system ID.[Implementation] Same as standard.

A

5 dot3adAggPortActorSystemID{dot3adAggPortEntry 3}

R/O [Standard] MAC address that determines the value of the system ID in systems having aggregation ports.[Implementation] Same as standard.

A

6 dot3adAggPortActorAdminKey{dot3adAggPortEntry 4}

R/NW [Standard] Key for administration of AggregationPort.[Implementation] Same as standard.

A

7 dot3adAggPortActorOperKey{dot3adAggPortEntry 5}

R/O [Standard] Value of the key for operation of aggregation ports.[Implementation] Same as standard.

A

8 dot3adAggPortPartnerAdminSystemPriority{dot3adAggPortEntry 6}

R/NW [Standard] Priority value for administration of Partner system ID.[Implementation] Same as standard.

A


119


9 dot3adAggPortPartnerOperSystemPriority{dot3adAggPortEntry 7}

R/O [Standard] Priority value for operation of partner system ID.[Implementation] Same as standard.

A

10 dot3adAggPortPartnerAdminSystemID{dot3adAggPortEntry 8}

R/NW [Standard] Value for administration of AggregationPort protocol partner system ID.[Implementation] 00 00 00 00 00 00 fixed.

A

11 dot3adAggPortPartnerOperSystemID{dot3adAggPortEntry 9}

R/O [Standard] Value of key for administration of protocol partners.[Implementation] Same as standard.

A

12 dot3adAggPortPartnerAdminKey{dot3adAggPortEntry 10}

R/NW [Standard] Value of key for administration of current Aggregator protocol partners.[Implementation] Fixed to 0.

A

13 dot3adAggPortPartnerOperKey{dot3adAggPortEntry 11}

R/O [Standard] Value of key for operation of protocol partners.[Implementation] Same as standard.

A

14 dot3adAggPortSelectedAggID{dot3adAggPortEntry 12}

R/O [Standard] Value of Aggregator identifier of AggregationPorts.[Implementation] Same as standard.

A

15 dot3adAggPortAttachedAggID{dot3adAggPortEntry 13}

R/O [Standard] Value of identifier of Aggregator in which AggregationPorts are currently installed.[Implementation] Same as standard.

A

16 dot3adAggPortActorPort{dot3adAggPortEntry 14}

R/O [Standard] Port number assigned to AggregationPorts.[Implementation] Same as standard.

A

17 dot3adAggPortActorPortPriority{dot3adAggPortEntry 15}

R/NW [Standard] Priority value assigned to AggregationPorts.[Implementation] Same as standard.

A

18 dot3adAggPortPartnerAdminPort{dot3adAggPortEntry 16}

R/NW [Standard] Value of identifier of Aggregator in which AggregationPorts are currently installed.[Implementation] Fixed to 0.

A

19 dot3adAggPortPartnerOperPort{dot3adAggPortEntry 17}

R/O [Standard] Port number for operation assigned to AggregationPorts by AggregationPort protocol partners.[Implementation] Same as standard.

A

20 dot3adAggPortPartnerAdminPortPriority{dot3adAggPortEntry 18}

R/NW [Standard] Port priority value for management of protocol partners.[Implementation] Fixed to 0.

A

21 dot3adAggPortPartnerOperPortPriority{dot3adAggPortEntry 19}

R/O [Standard] Priority value assigned to AggregationPorts by partners.[Implementation] Same as standard.

A

22 dot3adAggPortActorAdminState{dot3adAggPortEntry 20}

R/NW [Standard] Actor_State value for management sent at LACPDUs by Actor.[Implementation] Same as standard. Displayed as a character by the manager.

A

23 dot3adAggPortActorOperState{dot3adAggPortEntry 21}

R/O [Standard] Actor_State value for operation sent at LACPDUs by Actor.[Implementation] Same as standard. Displayed as a character by the manager.

A

24 dot3adAggPortPartnerAdminState{dot3adAggPortEntry 22}

R/NW [Standard] Actor_State value for administration of protocol partners.[Implementation] (01000100) 2 fixed. Displayed as a character by the manager.

A

25 dot3adAggPortPartnerOperState{dot3adAggPortEntry 23}

R/O [Standard] Actor_State value sent most recently at LACPDU by protocol partners.[Implementation] Same as standard. Displayed as a character by the manager.

A


120


26 dot3adAggPortAggregateOrIndividual{dot3adAggPortEntry 24}

R/O [Standard] Indicates whether AggregationPorts can Aggregate or can only operate as individual links.[Implementation] Same as standard.

A

27 dot3adAggPortStatsTable{dot3adAggPort 2}

NA [Standard] Table of information of Link Aggregation for all ports.[Implementation] Same as standard.

A

28 dot3adAggPortStatsEntry{dot3adAggPortStatsTable 1}

NA [Standard] List of statistical data of Link Aggregation control protocol for each port.[Implementation] Same as standard.

A

29 dot3adAggPortStatsLACPDUsRx{dot3adAggPortStatsEntry 1}

R/O [Standard] Number of valid LACPDUs received at AggregationPorts.[Implementation] Same as standard.

A

30 dot3adAggPortStatsMarkerPDUsRx{dot3adAggPortStatsEntry 2}

R/O [Standard] Number of valid MarkerPDUs received at AggregationPorts.[Implementation] Same as standard.

A

31 dot3adAggPortStatsMarkerResponsePDUsRx{dot3adAggPortStatsEntry 3}

R/O [Standard] Number of valid MarkerResponsePDUs received at AggregationPorts.[Implementation] Same as standard.

A

32 dot3adAggPortStatsUnknownRx{dot3adAggPortStatsEntry 4}

R/O [Standard] Number of frames delivered by Slow Protocols Ethernet type value (88-09) with unknown PDU included or frames addressed to group MAC Address (0180.C200.0002) of Slow Protocols but not delivered by Slow Protocols Ethernet type.[Implementation] Same as standard.

A

33 dot3adAggPortStatsIllegalRx{dot3adAggPortStatsEntry 5}

R/O [Standard] Number of received frames delivered by Slow Protocols Ethernet type value (88-09) but including an invalid format PDU or including illegal Protocol Subtype value.[Implementation] Same as standard.

A

34 dot3adAggPortStatsLACPDUsTx{dot3adAggPortStatsEntry 6}

R/O [Standard] Number of LACPDUs sent by AggregationPorts.[Implementation] Same as standard.

A

35 dot3adAggPortStatsMarkerPDUsTx{dot3adAggPortStatsEntry 7}

R/O [Standard] Number of MarkerPDUs sent by AggregationPorts.[Implementation] Fixed to 0.

A

36 dot3adAggPortStatsMarkerResponsePDUsTx{dot3adAggPortStatsEntry 8}

R/O [Standard] Number of MarkerResponsePDUs sent by AggregationPorts.[Implementation] Same as standard.

A

37 dot3adAggPortDebugTable{dot3adAggPort 3}

NA [Standard] Table including link aggregation debug information for all ports.[Implementation] Same as standard.

A

38 dot3adAggPortDebugEntry{dot3adAggPortDebugTable 1}

NA [Standard] List of port debug parameters.[Implementation] Same as standard.

A

39 dot3adAggPortDebugRxState{dot3adAggPortDebugEntry 1}

R/O [Standard] Status of Receive state machine in AggregationPorts.• currentRx (1)• expired (2)• defaulted (3)• initialize (4)• lacpDisabled (5)• portDisabled (6)


A

40 dot3adAggPortDebugLastRxTime{dot3adAggPortDebugEntry 2}

R/O [Standard] Value of aTimeSinceSystemReset when the last time AggregationPorts received LACPDUs.[Implementation] Same as standard.

A


121


2.21.3 dot3adTablesLastChanged Group

(1) Identifier member-body OBJECT IDENTIFIER ::= {iso 2}us OBJECT IDENTIFIER ::= {member-body 840}ieee802dot3 OBJECT IDENTIFIER ::= {us 10006}snmpmibs OBJECT IDENTIFIER ::= {ieee802dot3 300}lagMIB OBJECT IDENTIFIER ::= {snmpmibs 43}lagMIBObjects OBJECT IDENTIFIER ::= {lagMIB 1} dot3adTablesLastChanged OBJECT IDENTIFIER ::= {lagMIBObjects 3}Object ID values 1.2.840.10006.300.43.1.3


The table below shows the implementation specifications of dot3adTablesLastChanged group.

41 dot3adAggPortDebugMuxState{dot3adAggPortDebugEntry 3}

R/O [Standard] Status of Mux state machine for AggregationPorts.• detached (1)• waiting (2)• attached (3)• collecting (4)• distributing (5)• collectingDistributing (6)


A

42 dot3adAggPortDebugMuxReason{dot3adAggPortDebugEntry 4}

R/O [Standard] Reason for the most recent change in the status of the Mux state machine.[Implementation] Same as standard.

A

43 dot3adAggPortDebugActorChurnState{dot3adAggPortDebugEntry 5}

R/O [Standard] Status of ActorChurnDetection state machine for AggregationPorts.[Implementation] Same as standard.

A

44 dot3adAggPortDebugPartnerChurnState{dot3adAggPortDebugEntry 6}

R/O [Standard] Status of PartnerChurnDetection state machine for AggregationPorts.[Implementation] Same as standard.

A

45 dot3adAggPortDebugActorChurnCount{dot3adAggPortDebugEntry 7}

R/O [Standard] Frequency of ActorChurn state machine switched to ACTOR_CHURN status.[Implementation] Same as standard.

A

46 dot3adAggPortDebugPartnerChurnCount{dot3adAggPortDebugEntry 8}

R/O [Standard] Number of times PartnerChurn state machine switched to PARTNER_CHURN status.[Implementation] Same as standard.

A

47 dot3adAggPortDebugActorSyncTransitionCount{dot3adAggPortDebugEntry 9}

R/O [Standard] Number of times Actor Mux state machine switched to IN_SYNC status.[Implementation] Same as standard.

A

48 dot3adAggPortDebugPartnerSyncTransitionCount{dot3adAggPortDebugEntry 10}

R/O [Standard] Frequency of Partner Mux state machine switched to IN_SYNC status.[Implementation] Same as standard.

A

49 dot3adAggPortDebugActorChangeCount{dot3adAggPortDebugEntry 11}

R/O [Standard] Number of times Actor LAG ID recognition for AggregationPorts changed.[Implementation] Same as standard.

A

50 dot3adAggPortDebugPartnerChangeCount{dot3adAggPortDebugEntry 12}

R/O [Standard] Number of times Partner LAG ID recognition for AggregationPorts changed.[Implementation] Same as standard.

A


122


Table 2-73: Implementation Specifications of dot3adTablesLastChanged Group


1 dot3adTablesLastChanged{ lagMIBObjects 3 }

R/O [Standard] Most recent time when a change to dot3adAggTable, dot3adAggPortListTable, or dot3adAggPortTable occurred.[Implementation] Same as standard.

A

123



(1) Identifier std OBJECT IDENTIFIER ::= {iso 0}iso8802 OBJECT IDENTIFIER ::= {std 8802}ieee802dot1 OBJECT IDENTIFIER ::= {iso8802 1}ieee802dot1mibs OBJECT IDENTIFIER ::= {ieee802dot1 1}ieee8021paeMIB OBJECT IDENTIFIER ::= {ieee802dot1mibs 1}paeMIBObjects OBJECT IDENTIFIER ::= {ieee8021paeMIB 1} dot1xPaeSystem OBJECT IDENTIFIER ::= {paeMIBObjects 1}Object ID value 1.0.8802.1.1.1.1.1 dot1xPaeAuthenticator OBJECT IDENTIFIER ::= {paeMIBObjects 2}Object ID value 1.0.8802.1.1.1.1.2 dot1xPaeSupplicant OBJECT IDENTIFIER ::= {paeMIBObjects 3}Object ID value 1.0.8802.1.1.1.1.3 dot1xPaeConformance OBJECT IDENTIFIER ::= {ieee8021paeMIB 2}dot1xPaeGroups OBJECT IDENTIFIER ::= {dot1xPaeConformance 1}Object ID value 1.0.8802.1.1.1.2.1 dot1xPaeCompliances OBJECT IDENTIFIER ::= {dot1xPaeConformance 2}Object ID value 1.0.8802.1.1.1.2.2


The table below shows the implementation specifications of 802.1X MIB group.

Table 2-74: Implementation Specifications of 802.1X MIB Group


1 dot1xPaeSystemAuthControl{dot1xPaeSystem 1}

R/NW [Standard] enable/disable status of PAE (Port Access Entity) management in the entire system (INTEGER).• enabled (1)• disabled (2)


A

2 dot1xPaePortTable{dot1xPaeSystem 2}

NA [Standard] Table containing system level information for each PAE port.[Implementation] Same as standard.

A

3 dot1xPaePortEntry{dot1xPaePortTable 1}

NA [Standard] Information list for each port.INDEX { dot1xPaePortNumber }[Implementation] Same as standard.

A

4 dot1xPaePortNumber{dot1xPaePortEntry 1}

NA [Standard] PAE port number. Used as index for identifying the table.[Implementation] Same as standard. ifIndex added to the interface shown below.• Ethernet physical port• VLAN group• Link aggregation group

Although nonstandard, the value in VLAN authentication (dynamic) is as follows.• Maximum value of ifIndex of VLAN group +1

A

5 dot1xPaePortProtocolVersion{dot1xPaePortEntry 2}

R/O [Standard] Protocol version.[Implementation] 0x01 fixed.

A

124


6 dot1xPaePortCapabilities{dot1xPaePortEntry 3}

R/O [Standard] PAE function supported by the port (BITS).• dot1xPaePortAuthCapable (0)• dot1xPaePortSuppCapable (1)

[Implementation] dot1xPaePortAuthCapable (0) fixed.

A

7 dot1xPaePortInitialize{dot1xPaePortEntry 4}

R/NW [Standard] Initialization control for the port. Port is initialized when this attribute becomes "TRUE". When initialization is completed, attribute returns to "FALSE".[Implementation] Same as standard.

A

8 dot1xPaePortReauthenticate{dot1xPaePortEntry 5}

R/NW [Standard] Re-authentication control for the port. When this attribute is set to "TRUE", Authenticator PAE state machine for the port makes re-authentication of Supplicant. This attribute has no influence when set to "FALSE". This attribute returns to "FALSE" whenever read.[Implementation] Same as standard.

A

9 dot1xAuthConfigTable{dot1xPaeAuthenticator 1}

NA [Standard] Configuration object table for Authenticator PAE of each port. This table contains the list of the ports for which access may possibly be authorized.[Implementation] Same as standard.

A

10 dot1xAuthConfigEntry{dot1xAuthConfigTable 1}

NA [Standard] Configuration information list for Authenticator PAE.INDEX { dot1xPaePortNumber }[Implementation] Same as standard.

A

11 dot1xAuthPaeState{dot1xAuthConfigEntry 1}

R/O [Standard] Current value of Authenticator PAE state machine.• initialize (1)• disconnected (2)• connecting (3)• authenticating (4)• authenticated (5)• aborting (6)• held (7)• forceAuth (8)• forceUnauth (9)


A

12 dot1xAuthBackendAuthState{dot1xAuthConfigEntry 2}

R/O [Standard] Current value of backend authentication state machine.• request (1)• response (2)• success (3)• fail (4)• timeout (5)• idle (6)• initialize (7)


A

13 dot1xAuthAdminControlledDirections{dot1xAuthConfigEntry 3}

R/NW [Standard] Current value of the administratively-controlled direction parameter for the port.[Implementation] both (0) fixed.

A

14 dot1xAuthOperControlledDirections{dot1xAuthConfigEntry 4}

R/O [Standard] Current value of the operationally-controlled direction parameter for the port.[Implementation] both (0) fixed.

A

15 dot1xAuthAuthControlledPortStatus{dot1xAuthConfigEntry 5}

R/O [Standard] Current value of the status parameter of the controlling port for the port.[Implementation] Same as standard.

A

16 dot1xAuthAuthControlledPortControl{dot1xAuthConfigEntry 6}

R/NW [Standard] Current value of the control parameter of the controlling port for the port.[Implementation] Same as standard.

A


125


17 dot1xAuthQuietPeriod{dot1xAuthConfigEntry 7}

R/NW [Standard] Value of current constant quietPeriod used by Authenticator PAE state machine (unit: seconds).DEFVAL{60}[Implementation] Same as standard (0 to 65535).

A

18 dot1xAuthTxPeriod{dot1xAuthConfigEntry 8}

R/NW [Standard] Value of current constant txPeriod used by Authenticator PAE state machine (unit: seconds).DEFVAL {30}[Implementation] Same as standard (1 to 65535).

A

19 dot1xAuthSuppTimeout{dot1xAuthConfigEntry 9}

R/NW [Standard] Value of current constant suppTimeout used by backend Authentication state machine (unit: seconds).DEFVAL {30}[Implementation] Same as standard (1 to 65535).

A

20 dot1xAuthServerTimeout{dot1xAuthConfigEntry 10}

R/NW [Standard] Value of current constant serverTimeout used by backend Authentication state machine (unit: seconds).DEFVAL{30}[Implementation] Same as standard.

A

21 dot1xAuthMaxReq{dot1xAuthConfigEntry 11}

R/NW [Standard] Value of current constant maxReq used by backend Authentication state machine.DEFVAL {2}[Implementation] Same as standard (1 to 10).

A

22 dot1xAuthReAuthPeriod{dot1xAuthConfigEntry 12}

R/NW [Standard] Value of current constant reAuthperiod used by re-authentication timer state machine (unit: seconds).DEFVAL {3600}[Implementation] 0 or 1 to 65535 (default:3600)If 0, this system does not autonomously send EAOPL-Request/Identity for re-authentication.

A

23 dot1xAuthReAuthEnabled{dot1xAuthConfigEntry 13}

R/NW [Standard] enable/disable control used by re-authentication timer state machine.DEFVAL {false(2)}[Implementation] Same as standard.

A

24 dot1xAuthKeyTxEnabled{dot1xAuthConfigEntry 14}

R/NW [Standard] Current value of constant KeyTransmissionEnabled used by Authenticator PAE state machine.[Implementation] false (2) fixed.

A

25 dot1xAuthStatsTable{dot1xPaeAuthenticator 2}

NA [Standard] Statistical data object table of Authenticator PAE related to each port. This table contains the list of the ports for which access may possibly be authorized.[Implementation] Same as standard.

A

26 dot1xAuthStatsEntry{dot1xAuthStatsTable 1}

NA [Standard] Statistics information for Authenticator PAE.INDEX { dot1xPaePortNumber }[Implementation] Same as standard.

A

27 dot1xAuthEapolFramesRx{dot1xAuthStatsEntry 1}

R/O [Standard] Number of all valid-type EAPOL frames received by Authenticator.[Implementation] Same as standard.

A

28 dot1xAuthEapolFramesTx{dot1xAuthStatsEntry 2}

R/O [Standard] Number of all-type EAPOL frames sent by Authenticator.[Implementation] Same as standard.

A

29 dot1xAuthEapolStartFramesRx{dot1xAuthStatsEntry 3}

R/O [Standard] Number of EAPOL Start frames received by Authenticator.[Implementation] Same as standard.

A

30 dot1xAuthEapolLogoffFramesRx{dot1xAuthStatsEntry 4}

R/O [Standard] Number of EAPOL Logoff frames received by Authenticator.[Implementation] Same as standard.

A

31 dot1xAuthEapolRespIdFramesRx{dot1xAuthStatsEntry 5}

R/O [Standard] Number of EAP Response/Identity frames received by Authenticator.[Implementation] Same as standard.

A


126


32 dot1xAuthEapolRespFramesRx{dot1xAuthStatsEntry 6}

R/O [Standard] Number of valid EAP Response frames other than EAP Response/Identity frame received by Authenticator.[Implementation] Same as standard.

A

33 dot1xAuthEapolReqIdFramesTx{dot1xAuthStatsEntry 7}

R/O [Standard] Number of EAP Request/Identity frames sent by Authenticator.[Implementation] Same as standard.

A

34 dot1xAuthEapolReqFramesTx{dot1xAuthStatsEntry 8}

R/O [Standard] Number of EAP Request frames other than EAP Request/Identity frame sent by Authenticator.[Implementation] Same as standard.

A

35 dot1xAuthInvalidEapolFramesRx{dot1xAuthStatsEntry 9}

R/O [Standard] Number of EAPOL frames received by Authenticator of which frame type was not approved.[Implementation] Same as standard.

A

36 dot1xAuthEapLengthErrorFramesRx{dot1xAuthStatsEntry 10}

R/O [Standard] Number of EAPOL frames received by Authenticator that Packet Body Length is invalid.[Implementation] Same as standard.

A

37 dot1xAuthLastEapolFrameVersion{dot1xAuthStatsEntry 11}

R/O [Standard] Protocol version No. of the EAPOL frame received by Authenticator most recently.[Implementation] Same as standard.

A

38 dot1xAuthLastEapolFrameSource{dot1xAuthStatsEntry 12}

R/O [Standard] Source MAC Address of the EAPOL frame received by Authenticator most recently.[Implementation] Same as standard.

A

39 dot1xAuthDiagTable{dot1xPaeAuthenticator 3}

NA [Standard] Diagnosis object table for Authenticator PAE of each port. This table contains the list of the ports for which access may possibly be authorized.[Implementation] Same as standard.

A

40 dot1xAuthDiagEntry{dot1xAuthDiagTable 1}

NA [Standard] Diagnosis information list for Authenticator PAE.INDEX { dot1xPaePortNumber }[Implementation] Same as standard.

A

41 dot1xAuthEntersConnecting{dot1xAuthDiagEntry 1}

R/O [Standard] How often Authenticator PAE state machine transited from other status to CONNECTING status.[Implementation] Same as standard.

A

42 dot1xAuthEapLogoffsWhileConnecting{dot1xAuthDiagEntry 2}

R/O [Standard] How often Authenticator PAE state machine transited to DISCONNECTED status as a result of receiving EAPOL Logoff message while in CONNECTING state.[Implementation] Same as standard.

A

43 dot1xAuthEntersAuthenticating{dot1xAuthDiagEntry 3}

R/O [Standard] How often Authenticator PAE state machine transited to AUTHENTICATING status as a result of receiving EAP Response/Identity message from Supplicant while in CONNECTING state.[Implementation] Same as standard.

A

44 dot1xAuthAuthSuccessWhileAuthenticating{dot1xAuthDiagEntry 4}

R/O [Standard] How often Authenticator PAE state machine transited to AUTHENTICATED status while in AUTHENTICATING status, as a result that the backend authentication state machine indicated authentication of Supplicant was successfully completed (authSuccess = TRUE).[Implementation] Same as standard.

A

45 dot1xAuthAuthTimeoutsWhileAuthenticating{dot1xAuthDiagEntry 5}

R/O [Standard] How often Authenticator PAE state machine transited to ABORTING status while in AUTHENTICATING status, as a result that the backend authentication state machine indicated authentication timed out (authTimeout = TRUE).[Implementation] Same as standard.

A

46 dot1xAuthAuthFailWhileAuthenticating{dot1xAuthDiagEntry 6}

R/O [Standard] How often Authenticator PAE state machine transited to HELD status while in AUTHENTICATING status, as a result that the backend authentication state machine indicated authentication failed (authFail = TRUE).[Implementation] Same as standard.

A


127


47 dot1xAuthAuthReauthsWhileAuthenticating{dot1xAuthDiagEntry 7}

R/O [Standard] How often Authenticator PAE state machine transited to ABORTING while in AUTHENTICATING status as a result of re-authentication request (reAuthenticate = TRUE).[Implementation] Same as standard.

A

48 dot1xAuthAuthEapStartsWhileAuthenticating{dot1xAuthDiagEntry 8}

R/O [Standard] How often Authenticator PAE state machine transited to ABORTING status as a result of receiving EAPOL Start message from Supplicant while in AUTHENTICATING state.[Implementation] Same as standard.

A

49 dot1xAuthAuthEapLogoffWhileAuthenticating{dot1xAuthDiagEntry 9}

R/O [Standard] How often Authenticator PAE state machine transited to ABORTING status as a result of receiving EAPOL Logoff message from Supplicant while in AUTHENTICATING state.[Implementation] Same as standard.

A

50 dot1xAuthAuthReauthsWhileAuthenticated{dot1xAuthDiagEntry 10}

R/O [Standard] How often Authenticator PAE state machine transited to CONNECTING status while in AUTHENTICATING status as a result of re-authentication request (reAuthenticate = TRUE).[Implementation] Same as standard.

A

51 dot1xAuthAuthEapStartsWhileAuthenticated{dot1xAuthDiagEntry 11}

R/O [Standard] How often Authenticator PAE state machine transited to CONNECTING status as a result of receiving EAPOL Start message from Supplicant while in AUTHENTICATED status.[Implementation] Same as standard.

A

52 dot1xAuthAuthEapLogoffWhileAuthenticated{dot1xAuthDiagEntry 12}

R/O [Standard] How often Authenticator PAE state machine transited to DISCONNECTED status as a result of receiving EAPOL Logoff message from Supplicant while in AUTHENTICATED status.[Implementation] Same as standard.

A

53 dot1xAuthBackendResponses{dot1xAuthDiagEntry 13}

R/O [Standard] How often backend authentication state machine sent first Access Request packet to the authentication server (that is, backend authentication state machine executed sendRespToServer while in RESPONSE status).[Implementation] Same as standard.

A

54 dot1xAuthBackendAccessChallenges{dot1xAuthDiagEntry 14}

R/O [Standard] How often the backend authentication state machine received first Access Challenge packet from the authentication server (that is, aReq became "TRUE", causing RESPONSE status terminated).[Implementation] Same as standard.

A

55 dot1xAuthBackendOtherRequestsToSupplicant{dot1xAuthDiagEntry 15}

R/O [Standard] How often the backend authentication state machine sent EAP Request (other than Identity, Notification, Failure, or Success message) to Supplicant (that is, backend authentication state machine executed txReq while in REQUEST status). This indicates that Authenticator will select EAP method.[Implementation] Same as standard.

A

56 dot1xAuthBackendNonNakResponsesFromSupplicant{dot1xAuthDiagEntry 16}

R/O [Standard] How often the backend authentication state machine received response to first EAP Request or some response other than EAP NAK from Supplicant (that is, rxResp became "TRUE" and the backend authentication state machine transited from REQUEST to RESPONSE. Response is not EAP NAK). This indicates that Supplicant can return response for EAP method selected by Authenticator.[Implementation] Same as standard.

A

57 dot1xAuthBackendAuthSuccesses{dot1xAuthDiagEntry 17}

R/O [Standard] How often the backend authentication state machine received EAP Success message from the authentication server (that is, aSuccess became "TRUE" and backend authentication state machine transited from RESPONSE to SUCCESS). This indicates that Supplicant was authenticated by the authentication server.[Implementation] Same as standard.

A


128


58 dot1xAuthBackendAuthFails{dot1xAuthDiagEntry 18}

R/O [Standard] How often the backend authentication state machine received EAP Failure message from the authentication server (that is, aFail became "TRUE" and backend authentication state machine transited from RESPONSE to FAIL). This indicates that Supplicant was not authenticated by the authentication server.[Implementation] Same as standard.

A

59 dot1xAuthSessionStatsTable{dot1xPaeAuthenticator 4}

NA [Standard] Session statistical data object table for Authenticator PAE of each port. This table contains the list of the ports for which access may possibly be authorized.[Implementation] Same as standard.

A

60 dot1xAuthSessionStatsEntry{dot1xAuthSessionStatsTable 1}

NA [Standard] Session statistics information list for Authenticator PAE. 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.INDEX { dot1xPaePortNumber }[Implementation] Same as standard.

A

61 dot1xAuthSessionOctetsRx{dot1xAuthSessionStatsEntry 1}

R/O [Standard] Number of octets of the user data frame received on the port during session.[Implementation] Fixed to 0.

A

62 dot1xAuthSessionOctetsTx{dot1xAuthSessionStatsEntry 2}

R/O [Standard] Number of octets of the user data frame sent on the port during session.[Implementation] Fixed to 0.

A

63 dot1xAuthSessionFramesRx{dot1xAuthSessionStatsEntry 3}

R/O [Standard] Number of user data frames received on the port during session.[Implementation] Fixed to 0.

A

64 dot1xAuthSessionFramesTx{dot1xAuthSessionStatsEntry 4}

R/O [Standard] Number of user data frames sent on the port during session.[Implementation] Fixed to 0.

A

65 dot1xAuthSessionId{dot1xAuthSessionStatsEntry 5}

R/O [Standard] Unique identifier for the session. In the format of displayable ASCII character string consisting of 3 or more characters.[Implementation] Same as standard.

A

66 dot1xAuthSessionAuthenticMethod{dot1xAuthSessionStatsEntry 6}

R/O [Standard] Authentication method used to establish the session (INTEGER).• remoteAuthServer (1)• localAuthServer (2)

[Implementation] Valid only in the state that the session is established, and the value is remoteAuthServer (1) fixed. Invalid when the session is disabled, and the value is (0).

A

67 dot1xAuthSessionTime{dot1xAuthSessionStatsEntry 7}

R/O [Standard] Duration of the session (unit: seconds).[Implementation] Same as standard.

A

68 dot1xAuthSessionTerminateCause{dot1xAuthSessionStatsEntry 8}

R/O [Standard] Reason for termination of the session.• supplicantLogoff (1)• portFailure (2)• supplicantRestart (3)• reauthFailed (4)• authControlForceUnauth (5)• portReInit (6)• portAdminDisabled (7)• notTerminatedYet (999)

[Implementation] Same as standard. Because no cause for terminating the session, however, value is 0 when no session has been established.

A


129


69 dot1xAuthSessionUserName{dot1xAuthSessionStatsEntry 9}

R/O [Standard] User name for identifying Supplicant PAE.[Implementation] Implemented.

A

70 dot1xSuppConfigTable{dot1xPaeSupplicant 1}

NA [Standard] Configuration object table for Supplicant PAE 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.

N

71 dot1xSuppConfigEntry{dot1xSuppConfigTable 1}

NA [Standard] Configuration information list for Supplicant PAE.INDEX { dot1xPaePortNumber }[Implementation] Unused.

N

72 dot1xSuppPaeState{dot1xSuppConfigEntry 1}

R/O [Standard] Current status of Supplicant PAE state machine.• disconnected (1)• logoff (2)• connecting (3)• authenticating (4)• authenticated (5)• acquired (6)• held (7)


N

73 dot1xSuppHeldPeriod{dot1xSuppConfigEntry 2}

R/W [Standard] Value of current constant heldPeriod used by Supplicant PAE state machine (unit: seconds).DEFVAL {60}[Implementation] Unused.

N

74 dot1xSuppAuthPeriod{dot1xSuppConfigEntry 3}

R/W [Standard] Value of current constant authPeriod used by Supplicant PAE state machine (unit: seconds).DEFVAL {30}[Implementation] Unused.

N

75 dot1xSuppStartPeriod{dot1xSuppConfigEntry 4}

R/W [Standard] Value of current constant startPeriod used by Supplicant PAE state machine (unit: seconds).DEFVAL {30}[Implementation] Unused.

N

76 dot1xSuppMaxStart{dot1xSuppConfigEntry 5}

R/W [Standard] Value of current constant maxStart used by Supplicant PAE state machine.DEFVAL {3}[Implementation] Unused.

N

77 dot1xSuppStatsTable{dot1xPaeSupplicant 2}

NA [Standard] Statistics object table for Supplicant PAE 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.

N

78 dot1xSuppStatsEntry{dot1xSuppStatsTable 1}

NA [Standard] Statistics information list for Supplicant PAE.INDEX { dot1xPaePortNumber }[Implementation] Unused.

N

79 dot1xSuppEapolFramesRx{dot1xSuppStatsEntry 1}

R/O [Standard] Number of all-type EAPOL frames received by Supplicant.[Implementation] Unused.

N

80 dot1xSuppEapolFramesTx{dot1xSuppStatsEntry 2}

R/O [Standard] Number of all-type EAPOL frames sent by Supplicant.[Implementation] Unused.

N

81 dot1xSuppEapolStartFramesTx{dot1xSuppStatsEntry 3}

R/O [Standard] Number of EAPOL Start frames sent by Supplicant.[Implementation] Unused.

N

82 dot1xSuppEapolLogoffFramesTx{dot1xSuppStatsEntry 4}

R/O [Standard] Number of EAPOL Logoff frames sent by Supplicant.[Implementation] Unused.

N


130


83 dot1xSuppEapolRespIdFramesTx{dot1xSuppStatsEntry 5}

R/O [Standard] Number of EAP Request/Identity frames sent by Supplicant.[Implementation] Unused.

N

84 dot1xSuppEapolRespFramesTx{dot1xSuppStatsEntry 6}

R/O [Standard] Number of valid EAP Response frames (other than Response/Identity frame) sent by Supplicant.[Implementation] Unused.

N

85 dot1xSuppEapolReqIdFramesRx{dot1xSuppStatsEntry 7}

R/O [Standard] Number of EAP Request/Identity frames received by Supplicant.[Implementation] Unused.

N

86 dot1xSuppEapolReqFramesRx{dot1xSuppStatsEntry 8}

R/O [Standard] Number of EAP Request frames (other than Request/Identity frame) received by Supplicant.[Implementation] Unused.

N

87 dot1xSuppInvalidEapolFramesRx{dot1xSuppStatsEntry 9}

R/O [Standard] Number of EAPOL frames received by Supplicant of which frame type was not approved.[Implementation] Unused.

N

88 dot1xSuppEapLengthErrorFramesRx{dot1xSuppStatsEntry 10}

R/O [Standard] Number of EAPOL frames received by Supplicant of which Packet Body Length is invalid.[Implementation] Unused.

N

89 dot1xSuppLastEapolFrameVersion{dot1xSuppStatsEntry 11}

R/O [Standard] Protocol version No. of the EAPOL frame received by Supplicant most recently.[Implementation] Unused.

N

90 dot1xSuppLastEapolFrameSource{dot1xSuppStatsEntry 12}

R/O [Standard] Source MAC Address of the EAPOL frame received by Supplicant most recently.[Implementation] Unused.

N


131



2.23.1 snmpFrameworkMIB Group (SNMP FRAMEWORK MIB)The document relating to the snmpFrameworkMIB group is given below.


(1) Identifier snmpFrameworkMIB MODULE-IDENTITY ::= {snmpModules 10} snmpFrameworkMIBObjects OBJECT IDENTIFIER ::= {snmpFrameworkMIB 2}Object ID value 1.3.6.1.6.3.10.2 snmpEngine OBJECT IDENTIFIER ::= {snmpFrameworkMIBObjects 1}Object ID value 1.3.6.1.6.3.10.2.1


The table below shows the implementation specifications of the snmpFrameworkMIB group.

Table 2-75: Implementation Specifications of snmpFrameworkMIB Group

2.23.2 snmpMPDMIB Group (SNMP MPD MIB)The document relating to the snmpMPDMIB group is given below.



1 snmpEngineID{snmpEngine 1}

R/O [Standard] ID for SNMP engine managementHowever, 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 agentSetting by configuration command snmp-server engineID local

1st to 4th octets: Bit ORed with the company code and 0x80000000.5th octet: Fixed to 4.6th to 32nd octets: Character string set by the configuration command (up to 27 characters)

Automatic creation by the agent1st to 4th octets: Bit ORed with the company code and 0x80000000.5th octet: Fixed to 128.6th to 9th octets: Random number10th to 13th octets: Current time

A

2 snmpEngineBoots{snmpEngine 2}

R/O [Standard] Number of (re-)initialization times after snmpEngineID is set last[Implementation] Same as standard.

A

3 snmpEngineTime{snmpEngine 3}

R/O [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.[Implementation] Same as standard.

A

4 snmpEngineMaxMessageSize{snmpEngine 4}

R/O [Standard] Maximum size of the message that can be sent or received by the snmp engine[Implementation] 2048 fixed.

A

132


(1) Identifier snmpMPDMIB MODULE-IDENTITY ::= {snmpModules 11} snmpMPDMIBObjects OBJECT IDENTIFIER ::= {snmpMPDMIB 2}Object ID value 1.3.6.1.6.3.11.2 snmpMPDStats OBJECT IDENTIFIER ::= {snmpMPDMIBObjects 1}Object ID value 1.3.6.1.6.3.11.2.1


The table below shows the implementation specifications of the snmpMPDMIB group.

Table 2-76: Implementation Specifications of snmpMPDMIB Group

2.23.3 snmpTargetMIB Group (SNMP TARGET MIB)The document relating to the snmpTargetMIB group is given below.


(1) Identifier snmpTargetMIB MODULE-IDENTITY ::= {snmpModules 12} snmpTargetObjects OBJECT IDENTIFIER ::= {snmpTargetMIB 1}Object ID value 1.3.6.1.6.3.12.1


The table below shows the implementation specifications of the snmpTargetMIB group.

Table 2-77: Implementation Specifications of snmpTargetMIB Group


1 snmpUnknownSecurityModels{snmpMPDStats 1}

R/O [Standard] Total number of received packets discarded due to unsupported securityModel[Implementation] Same as standard.

A

2 snmpInvalidMsgs{snmpMPDStats 2}

R/O [Standard] Total number of received packets discarded due to illegal message[Implementation] Same as standard.

A

3 snmpUnknownPDUHandlers{snmpMPDStats 3}

R/O [Standard] Total number of received packets discarded because PDU that could not be handled by the application was contained[Implementation] Same as standard.

A


1 snmpTargetSpinLock{snmpTargetObjects 1}

R/NW [Standard] Used for lock operation when multiple managers request for the change of the SNMP-TARGET-MIB module table entry.[Implementation] Same as standard. However, it is Read_Only.

A

2 snmpTargetAddrTable{snmpTargetObjects 2}

NA [Standard] Transport address table used for creation of the SNMP message[Implementation] Same as standard.

A

3 snmpTargetAddrEntry{snmpTargetAddrTable 1}

NA [Standard] Transport address entry used for creation of the SNMP messageINDEX { IMPLIED snmpTargetAddrName }[Implementation] Same as standard.

A

133


4 snmpTargetAddrName{snmpTargetAddrEntry 1}

NA [Standard] Name of snmpTargetAddEntry[Implementation] Same as standard. Corresponds to configuration command snmp-server host <manager-address>.

A

5 snmpTargetAddrTDomain{snmpTargetAddrEntry 2}

R/NW [Standard] snmpTargetAddrTAddress object address transmission type[Implementation] Same as standard. However, it is Read_Only.Corresponds to the type of <manager-address> for configuration command snmp-server host.

A

6 snmpTargetAddrTAddress{snmpTargetAddrEntry 3}

R/NW [Standard] Transport address.The format of this address is indicated by snmpTargetAddrTDomain.[Implementation] Same as standard. However, it is Read_Only.Corresponds to configuration command snmp-server host <manager-address>.

A

7 snmpTargetAddrTimeout{snmpTargetAddrEntry 4}

R/NW [Standard] Timeout value for communication with the transport address defined by this entry (unit: 10ms).Default = 1500[Implementation] Fixed to 0.

A

8 snmpTargetAddrRetryCount{snmpTargetAddrEntry 5}

R/NW [Standard] Default retries when the response for the sent message does not arriveDefault = 3[Implementation] Fixed to 0.

A

9 snmpTargetAddrTagList{snmpTargetAddrEntry 6}

R/NW [Standard] List of snmpNotifyTagDefault = "".[Implementation] "TRAP" fixed.

A

10 snmpTargetAddrParams{snmpTargetAddrEntry 7}

R/NW [Standard] Entry of snmpTargetParamsTable[Implementation] Same as standard. However, it is Read_Only.Corresponds to configuration command snmp-server host <manager-address>.

A

11 snmpTargetAddrStorageType{snmpTargetAddrEntry 8}

R/NW [Standard] Saving format of this entry.Default = nonVolatile[Implementation] readOnly (5) fixed.

A

12 snmpTargetAddrRowStatus{snmpTargetAddrEntry 9}

R/NW [Standard] State of this entry.If a new entry is added, notReady (3) is set until snmpTargetAddrTDomain, snmpTargetAddrTAddress, and snmpTargetAddrParams are set. However, if this object is active (1), snmpTargetAddrTDomain and snmpTargetAddrTAddress must not be changed.[Implementation] active (1) fixed. This entry corresponds to configuration command snmp-server host.

A

13 snmpTargetParamsTable{snmpTargetObjects 3}

NA [Standard] SNMP target information table used for creation of the SNMP message[Implementation] Same as standard.

A

14 snmpTargetParamsEntry{snmpTargetParamsTable 1}

NA [Standard] SNMP target information entry used for creation of the SNMP messageINDEX { IMPLIED snmpTargetParamsName }[Implementation] Same as standard.

A

15 snmpTargetParamsName{snmpTargetParamsEntry 1}

NA [Standard] Name of snmpTargetParamsEntry[Implementation] Same as standard. Corresponds to configuration command snmp-server host <manager-address>.

A


134


2.23.4 snmpNotificationMIB Group (SNMP NOTIFICATION MIB)The document relating to the snmpNotificationMIB group is given below.


16 snmpTargetParamsMPModel{snmpTargetParamsEntry 2}

R/NW [Standard] Message handling model used for creation of the SNMP message0 to 255 are managed by IANA.• 0: SNMPv1• 1: SNMPv2C• 2: SNMPv2u, SNMPv2*• 3: SNMPv3

256 and above are the company's original.[Implementation] SNMPv3 (3) fixed.

A

17 snmpTargetParamsSecurityModel{snmpTargetParamsEntry 3}

R/NW [Standard] Security model for creation of the SNMP message1 to 255 are managed by IANA.• 0: No particular model provided• 1: SNMPv1• 2: SNMPv2C• 3: User-Based Security Model (USM)

256 and above are the company's original.[Implementation] USM (3) fixed.

A

18 snmpTargetParamsSecurityName{snmpTargetParamsEntry 4}

R/NW [Standard] securityName indicating the technique used for creation of the SNMP message[Implementation] Same as standard. However, it is Read_Only.Corresponds to configuration command snmp-server host <community-string>.

A

19 snmpTargetParamsSecurityLevel{snmpTargetParamsEntry 5}

R/NW [Standard] Security level for creation of the SNMP message• noAuthNoPriv (1): No authentication, no privacy• authNoPriv (2): Authentication provided, no privacy• authPriv (3): Authentication and privacy provided

[Implementation] Same as standard. However, it is Read_Only.Corresponds to selection of {noauth|auth|priv} for configuration command snmp-server host.

A

20 snmpTargetParamsStorageType{snmpTargetParamsEntry 6}

R/NW [Standard] Saving format of this entry.[Implementation] readOnly (5) fixed.

A

21 snmpTargetParamsRowStatus{snmpTargetParamsEntry 7}

R/NW [Standard] State of this entry.If a new entry is added, notReady (3) is set until snmpTargetParamsMPModel, snmpTargetParamsSecurityModel, snmpTargetParamsSecurityName, and snmpTargetParamsSecurityLevels are set. However, if this object is active (1), snmpTargetParamsMPModel, snmpTargetParamsSecurityModel, snmpTargetParamsSecurityName, and snmpTargetParamsSecurityLevel must not be changed.[Implementation] active (1) fixed. Corresponds to configuration command snmp-server host.

A

22 snmpUnavailableContexts{snmpTargetObjects 4}

R/O [Standard] Total number of received packets discarded because context in the message was unusable[Implementation] Same as standard.

A

23 snmpUnknownContexts{snmpTargetObjects 5}

R/O [Standard] Total number of received packets discarded because context in the message was not understandable[Implementation] Same as standard.

A


135


(1) Identifier snmpNotificationMIB MODULE-IDENTITY ::= {snmpModules 13} snmpNotifyObjects OBJECT IDENTIFIER ::= {snmpNotificationMIB 1}Object ID value 1.3.6.1.6.3.13.1


The table below shows the implementation specifications of the snmpNotificationMIB group.

Table 2-78: Implementation Specifications of snmpNotificationMIB Group


1 snmpNotifyTable{snmpNotifyObjects 1}

NA [Standard] Table for identifying the type of Notification sent to the management target receiving Notification or to the selected management target[Implementation] Same as standard.

A

2 snmpNotifyEntry{snmpNotifyTable 1}

NA [Standard] Entry for identifying the type of Notification sent to the management target group receiving Notification or to the selected management targetINDEX { IMPLIED snmpNotifyName }[Implementation] Same as standard.

A

3 snmpNotifyName{snmpNotifyEntry 1}

NA [Standard] Name of snmpNotifyEntry[Implementation] "TRAP" fixed.

A

4 snmpNotifyTag{snmpNotifyEntry 2}

R/NW [Standard] Tag value for identifying the entry of snmpTargetAddrTableDefault = "".[Implementation] "TRAP" fixed.

A

5 snmpNotifyType{snmpNotifyEntry 3}

R/NW [Standard] Type of NotificationDefault = trap (1)• trap (1)• inform (2)

[Implementation] trap (1) fixed.

A

6 snmpNotifyStorageType{snmpNotifyEntry 4}


A

7 snmpNotifyRowStatus{snmpNotifyEntry 5}

R/NW [Standard] State of this entry.[Implementation] active (1) fixed.

A

8 snmpNotifyFilterProfileTable{snmpNotifyObjects 2}

NA [Standard] Table that links the Notification filter definition to a particular target parameter[Implementation] Same as standard.

A

9 snmpNotifyFilterProfileEntry{snmpNotifyFilterProfileTable 1}

NA [Standard] Filter definition entry used for creation of NotificationINDEX { IMPLIED snmpTargetParamsName }[Implementation] Same as standard.

A

10 snmpNotifyFilterProfileName{snmpNotifyFilterProfileEntry 1}

R/NW [Standard] Name of filter definitionAssociated with snmpTargetParamsTable.[Implementation] Same as standard. However, it is Read_Only. Corresponds to configuration command snmp-server host <manager-address>.

A

11 snmpNotifyFilterProfileStorageType{snmpNotifyFilterProfileEntry 2}


A

136


2.23.5 snmpProxyMIB Group (SNMP PROXY MIB)The document relating to the snmpProxyMIB group is given below.


(1) Identifier snmpProxyMIB MODULE-IDENTITY ::= {snmpModules 14} snmpProxyObjects OBJECT IDENTIFIER ::= {snmpProxyMIB 1}Object ID value 1.3.6.1.6.3.14.1

12 snmpNotifyFilterProfileRowStatus{snmpNotifyFilterProfileEntry 3}

R/NW [Standard] State of this entry.If a new entry is added, notReady (3) is set until snmpNotifyFilterProfileName is set.[Implementation] active (1) fixed. Corresponds to configuration command snmp-server host.

A

13 snmpNotifyFilterTable{snmpNotifyObjects 3}

NA [Standard] Table of filter definition used to determine whether the management target receives Notification[Implementation] Same as standard.

A

14 snmpNotifyFilterEntry{snmpNotifyFilterTable 1}

NA [Standard] Entry of filter definition used to determine whether the management target receives NotificationINDEX { snmpNotifyFilterProfileName, IMPLIED snmpNotifyFilterSubtree }[Implementation] Same as standard.

A

15 snmpNotifyFilterSubtree{snmpNotifyFilterEntry 1}

NA [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 snmpNotifyFilterMask[Implementation] Same as standard. Corresponds to the trap sending mode of configuration command snmp-server host.

A

16 snmpNotifyFilterMask{snmpNotifyFilterEntry 2}

R/NW [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 snmpNotifyFilterSubtree• '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 snmpNotifyFilterSubtree.Default = "H.[Implementation] Same as standard. However, it is Read_Only. Corresponds to the trap sending mode of configuration command snmp-server host.

A

17 snmpNotifyFilterType{snmpNotifyFilterEntry 3}

R/NW [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)

[Implementation] Same as standard. However, it is Read_Only. Corresponds to the trap sending mode of configuration command snmp-server host.

A

18 snmpNotifyFilterStorageType{snmpNotifyFilterEntry 4}


A

19 snmpNotifyFilterRowStatus{snmpNotifyFilterEntry 5}

R/NW [Standard] State of this entry.[Implementation] active (1) fixed. Corresponds to the trap sending mode of configuration command snmp-server host.

A


137



The table below shows the implementation specifications of the snmpProxyMIB group.

Table 2-79: Implementation Specifications of snmpProxyMIB Group

2.23.6 snmpUsmMIB Group (SNMP USER BASED SM MIB)The document relating to the snmpUsmMIB group is given below.


(1) Identifier snmpUsmMIB MODULE-IDENTITY ::= {snmpModules 15} usmMIBObjects OBJECT IDENTIFIER ::= {snmpUsmMIB 1}Object ID value 1.3.6.1.6.3.15.1 usmStats OBJECT IDENTIFIER ::= {usmMIBObjects 1}Object ID value 1.3.6.1.6.3.15.1.1


1 snmpProxyTable{snmpProxyObjects 2}

NA [Standard] Table of conversion parameter used by the proxy forwarder application[Implementation] Not supported.

N

2 snmpProxyEntry{snmpProxyTable 1}

NA [Standard] Entry of conversion parameter used by the proxy forwarder applicationINDEX { IMPLIED snmpProxyName }[Implementation] Not supported.

N

3 snmpProxyName{snmpProxyEntry 1}

NA [Standard] Name of snmpProxyEntry (1 to 32 characters)[Implementation] Not supported.

N

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] Not supported.

N

5 snmpProxyContextEngineID{snmpProxyEntry 3}

R/C [Standard] contextEngineID contained in the message forwarded with the conversion parameter defined by this entry[Implementation] Not supported.

N

6 snmpProxyContextName{snmpProxyEntry 4}

R/C [Standard] contextName contained in the message forwarded with the conversion parameter defined by this entry[Implementation] Not supported.

N

7 snmpProxyTargetParamsIn{snmpProxyEntry 5}

R/C [Standard] Entry of snmpTargetParamsTable is identified.[Implementation] Not supported.

N

8 snmpProxySingleTargetOut{snmpProxyEntry 6}

R/C [Standard] The management target defined by snmpTargetAddrTable is identified.[Implementation] Not supported.

N

9 snmpProxyMultipleTargetOut{snmpProxyEntry 7}

R/C [Standard] The management target defined by snmpTargetAddrTable is identified.[Implementation] Not supported.

N

10 snmpProxyStorageType{snmpProxyEntry 8}

R/C [Standard] Saving format of this entry.[Implementation] Not supported.

N

11 snmpProxyRowStatus{snmpProxyEntry 9}

R/C [Standard] State of this entry.[Implementation] Not supported.

N

138


usmUser OBJECT IDENTIFIER ::= {usmMIBObjects 2}Object ID value 1.3.6.1.6.3.15.1.2


The table below shows the implementation specifications of the snmpUsmMIB group.

Table 2-80: Implementation Specifications of snmpUsmMIB Group


1 usmStatsUnsupportedSecLevels{usmStats 1}

R/O [Standard] Total number of received packets discarded due to illegal security level[Implementation] Same as standard.

A

2 usmStatsNotInTimeWindows{usmStats 2}

R/O [Standard] Total number of received packets discarded because WindowTime was out of range[Implementation] Same as standard.

A

3 usmStatsUnknownUserNames{usmStats 3}

R/O [Standard] Total number of received packets discarded due to illegal user[Implementation] Same as standard.

A

4 usmStatsUnknownEngineIDs{usmStats 4}

R/O [Standard] Total number of received packets discarded because snmpEngineID not recognized was referenced[Implementation] Same as standard.

A

5 usmStatsWrongDigests{usmStats 5}

R/O [Standard] Total number of received packets discarded because the expected digest value was not contained[Implementation] Same as standard.

A

6 usmStatsDecryptionErrors{usmStats 6}

R/O [Standard] Total number of received packets discarded because decryption failed[Implementation] Same as standard.

A

7 usmUserSpinLock{usmUser 1}

R/NW [Standard] Used for lock operation to change the secret of usmUserTable.[Implementation] Same as standard. However, it is Read_Only.

A

8 usmUserTable{usmUser 2}

NA [Standard] User table configured in LCD (Local Configuration Datastore) of the SNMP engine[Implementation] Same as standard.

A

9 usmUserEntry{usmUserTable 1}

NA [Standard] Entry of the user table configured in LCD (Local Configuration Datastore) of the SNMP engineINDEX { usmUserEngineID, usmUserName }[Implementation] Same as standard.

A

10 usmUserEngineID{usmUserEntry 1}

NA [Standard] ID for SNMP engine management[Implementation] Same as standard. Corresponds to configuration command snmp-server engineID local.

A

11 usmUserName{usmUserEntry 2}

NA [Standard] Legible name indicating the userThis is the security ID on which USM depends.[Implementation] Same as standard. Corresponds to configuration command snmp-server user <user-name>.

A

12 usmUserSecurityName{usmUserEntry 3}

R/O [Standard] Legible name indicating the user whose format does not depend on the security model. Same value as usmUserName.[Implementation] Same as standard. Corresponds to configuration command snmp-server user <user-name>.

A

13 usmUserCloneFrom{usmUserEntry 4}

R/NW [Standard] Pointer to another entry as the duplication source for addition of a new entryIf this object is read, the object ID of 0.0 is returned.[Implementation] Same as standard. However, it is Read_Only.

A

14 usmUserAuthProtocol{usmUserEntry 5}

R/NW [Standard] Authentication protocol of the SNMP engine indicated by usmUserEngineID[Implementation] Same as standard. However, it is Read_Only. Corresponds to selection of {md5|sha} for the auth parameter of configuration command snmp-server user.

A

139


2.23.7 snmpVacmMIB Group (SNMP VIEW BASED ACM MIB)The document relating to the snmpVacmMIB group is given below.


(1) Identifier snmpVacmMIB MODULE-IDENTITY ::= {snmpModules 16} vacmMIBObjects OBJECT IDENTIFIER ::= {snmpVacmMIB 1}Object ID value 1.3.6.1.6.3.16.1 vacmMIBViews OBJECT IDENTIFIER ::= {vacmMIBObjects 5}Object ID value 1.3.6.1.6.3.16.1.5

15 usmUserAuthKeyChange{usmUserEntry 6}

R/NW [Standard] Object that creates the authentication key of the snmp engine indicated by usmUserEngineIDSet when usmUserName of the requesting user is different from usmUserName of this entry.If this object is read, a character string with length 0 is returned.Default = "H.[Implementation] "" fixed.

A

16 usmUserOwnAuthKeyChange{usmUserEntry 7}

R/NW [Standard] Object that creates the authentication key of the snmp engine indicated by usmUserEngineIDSet when usmUserName of the requesting user is equivalent to usmUserName of this entry.If this object is read, a character string with length 0 is returned.Default = "H.[Implementation] "" fixed.

A

17 usmUserPrivProtocol{usmUserEntry 8}

R/NW [Standard] Used by the privacy protocol of the SNMP engine indicated by usmUserEngineID.Default = usmNoPrivProtocol[Implementation] Same as standard. However, it is Read_Only. Corresponds to des of the priv parameter configuration command snmp-server user.

A

18 usmUserPrivKeyChange{usmUserEntry 9}

R/NW [Standard] Object that creates the encryption key indicated by usmUserEngineIDSet when usmUserName of the requesting user is different from usmUserName of this entry.If this object is read, a character string with length 0 is returned.Default = "H.[Implementation] "" fixed.

A

19 usmUserOwnPrivKeyChange{usmUserEntry 10}

R/NW [Standard] Object that creates the encryption key indicated by usmUserEngineIDSet when usmUserName of the requesting user is equivalent to usmUserName of this entry.If this object is read, a character string with length 0 is returned.Default = "H.[Implementation] "" fixed.

A

20 usmUserPublic{usmUserEntry 11}

R/NW [Standard] Value created in the process changing the user authentication key or encryption keyUsable later to check to see if the key change is valid.Default = "H.[Implementation] "" fixed.

A

21 usmUserStorageType{usmUserEntry 12}

R/NW [Standard] Saving format of this entry.[Implementation] readOnly (5) fixed.

A

22 usmUserStatus{usmUserEntry 13}

R/NW [Standard] State of this entry.[Implementation] active (1) fixed.

A


140



The table below shows the implementation specifications of the snmpVacmMIB group.

Table 2-81: Implementation Specifications of snmpVacmMIB Group


1 vacmContextTable{vacmMIBObjects 1}

NA [Standard] Context table that is locally usable[Implementation] Same as standard.

A

2 vacmContextEntry{vacmContextTable 1}

NA [Standard] Entry of the context table that is locally usableINDEX { vacmContextName }[Implementation] Same as standard.

A

3 vacmContextName{vacmContextEntry 1}

R/O [Standard] Legible name indicating a particular context of a particular SNMP entitycontextName that is null indicates the default context.[Implementation] Default context fixed.

A

4 vacmSecurityToGroupTable{vacmMIBObjects 2}

NA [Standard] Table used to define the operator group access control policy[Implementation] Same as standard.

A

5 vacmSecurityToGroupEntry{vacmSecurityToGroupTable 1}

NA [Standard] Entry used to define the operator group access control policyIndicates groupName as a pair of securityModel and securityName.INDEX { vacmSecurityModel, vacmSecurityName }[Implementation] Same as standard.

A

6 vacmSecurityModel{vacmSecurityToGroupEntry 1}

NA [Standard] Security model of vacmSecurityName referenced by this entry0 cannot be specified.1 to 255 are managed by IANA.• 0: No particular model provided• 1: SNMPv1• 2: SNMPv2C• 3: User-Based Security Model (USM)


A

7 vacmSecurityName{vacmSecurityToGroupEntry 2}

NA [Standard] securityName of this entry. Used for association with groupName from this entry.[Implementation] Same as standard. Corresponds to configuration command snmp-server user <user-name>.

A

8 vacmGroupName{vacmSecurityToGroupEntry 3}

R/NW [Standard] Name of group to which this entry belongs[Implementation] Same as standard. However, it is Read_Only. Corresponds to configuration command snmp-server user <group-name>.

A

9 vacmSecurityToGroupStorageType{vacmSecurityToGroupEntry 4}


A

10 vacmSecurityToGroupStatus{vacmSecurityToGroupEntry 5}

R/NW [Standard] State of this entry.If a new entry is added, notReady (3) is set until vacmGroupName is set.[Implementation] active (1) fixed. Corresponds to configuration command snmp-server user.

A

11 vacmAccessTable{vacmMIBObjects 4}

NA [Standard] Group access right table[Implementation] Same as standard.

A

141


12 vacmAccessEntry{vacmAccessTable 1}

NA [Standard] Group access right entryINDEX { vacmGroupName, vacmAccessContextPrefix, vacmAccessSecurityModel, vacmAccessSecurityLevel }[Implementation] Same as standard.

A

13 vacmAccessContextPrefix{vacmAccessEntry 1}

NA [Standard] Value to be compared with to acquire the access right with this entry[Implementation] "" fixed.

A

14 vacmAccessSecurityModel{vacmAccessEntry 2}

NA [Standard] securityModel that is necessary to acquire the access right of this entry1 to 255 are managed by IANA.• 0: No particular model provided• 1: SNMPv1• 2: SNMPv2C• 3: User-Based Security Model (USM)


A

15 vacmAccessSecurityLevel{vacmAccessEntry 3}

NA [Standard] Security level that is necessary to acquire the access right of this entry• noAuthNoPriv (1): No authentication, no privacy• authNoPriv (2): Authentication provided, no privacy• authPriv (3): Authentication and privacy provided

[Implementation] Same as standard. Corresponds to selection of {noauth|auth|priv} for configuration command snmp-server group.

A

16 vacmAccessContextMatch{vacmAccessEntry 4}

R/NW [Standard]• exact (1): All line entries with contextName exactly matching

vacmAccessContextPrefix are selected.• prefix (2): All line entries with the first character of contextName

exactly matching vacmAccessContextPrefix are selected.

Default = exact[Implementation] exact (1) fixed.

A

17 vacmAccessReadViewName{vacmAccessEntry 5}

R/NW [Standard] vacmViewTreeFamilyViewName of the MIB view for which this entry authenticates the read accessDefault = "H.[Implementation] Same as standard. However, it is Read_Only. Corresponds to <view-name> for the read parameter of configuration command snmp-server group.

A

18 vacmAccessWriteViewName{vacmAccessEntry 6}

R/NW [Standard] vacmViewTreeFamilyViewName of the MIB view for which this entry authenticates the write accessDefault = "H.[Implementation] Same as standard. However, it is Read_Only. Corresponds to <view-name> for the write parameter of configuration command snmp-server group.

A

19 vacmAccessNotifyViewName{vacmAccessEntry 7}

R/NW [Standard] vacmViewTreeFamilyViewName of the MIB view for which this entry authenticates the notifications accessDefault = "H.[Implementation] Same as standard. However, it is Read_Only. Corresponds to <view-name> for the notify parameter of configuration command snmp-server group.

A

20 vacmAccessStorageType{vacmAccessEntry 8}


A

21 vacmAccessStatus{vacmAccessEntry 9}

R/NW [Standard] State of this entry.[Implementation] active (1) fixed. Corresponds to configuration command snmp-server group.

A


142


2.23.8 snmpCommunityMIB Group (SNMP COMMUNITY MIB)The document relating to the snmpCommunityMIB group is given below.

• RFC3584 (August 2003)

(1) Identifier snmpCommunityMIB MODULE-IDENTITY ::= {snmpModules 18} snmpCommunityMIBObjects OBJECT IDENTIFIER ::= {snmpCommunityMIB 1}

22 vacmViewSpinLock{vacmMIBViews 1}

R/NW [Standard] Recommended lock to permit cooperation with the SNMP command generator application for the SET operation of view creation or changeThis is the recommended lock and not forced.[Implementation] Same as standard. However, it is Read_Only.

A

23 vacmViewTreeFamilyTable{vacmMIBViews 2}

NA [Standard] Local storage table for MIB view sub-tree family informationInclusion and exclusion of all view sub-trees are defined by this table.[Implementation] Same as standard.

A

24 vacmViewTreeFamilyEntry{vacmViewTreeFamilyTable 1}

NA [Standard] Local storage entry for MIB view sub-tree family informationINDEX { vacmViewTreeFamilyViewName, vacmViewTreeFamilySubtree }[Implementation] Same as standard.

A

25 vacmViewTreeFamilyViewName{vacmViewTreeFamilyEntry 1}

NA [Standard] Visually legible view sub-tree family name[Implementation] Same as standard. Corresponds to configuration command snmp-server view <view-name>.

A

26 vacmViewTreeFamilySubtree{vacmViewTreeFamilyEntry 2}

NA [Standard] MIB sub-tree that defines the view sub-tree family[Implementation] Same as standard. Corresponds to configuration command snmp-server view <oid-tree>.

A

27 vacmViewTreeFamilyMask{vacmViewTreeFamilyEntry 3}

R/NW [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.[Implementation] Same as standard. However, it is Read_Only. Corresponds to wildcard specification (*) for configuration command snmp-server view <oid-tree>.

A

28 vacmViewTreeFamilyType{vacmViewTreeFamilyEntry 4}

R/NW [Standard] Indicates inclusion or exclusion of the MIB view.Default = included• included (1)• excluded (2)

[Implementation] Same as standard. However, it is Read_Only. Corresponds to selection of {included|excluded} for configuration command snmp-server view.

A

29 vacmViewTreeFamilyStorageType{vacmViewTreeFamilyEntry 5}


A

30 vacmViewTreeFamilyStatus{vacmViewTreeFamilyEntry 6}

R/NW [Standard] State of this entry.[Implementation] active (1) fixed. Corresponds to configuration command snmp-server view.

A


143


Object ID value 1.3.6.1.6.3.18.1


The table below shows the implementation specifications of the snmpCommunityMIB group.

Table 2-82: Implementation Specifications of snmpCommunityMIB Group


1 snmpCommunityTable{snmpCommunityMIBObjects 1}

NA [Standard] Table of community string configured in LCD of the SNMP engine[Implementation] Not supported.

N

2 snmpCommunityEntry{snmpCommunityTable 1}

NA [Standard] Entry of community string configured in LCD of the SNMP engineINDEX { IMPLIED snmpCommunityIndex }[Implementation] Not supported.

N

3 snmpCommunityIndex{snmpCommunityEntry 1}

NA [Standard] Index of this entry (0 to 32 characters)[Implementation] Not supported.

N

4 snmpCommunityName{snmpCommunityEntry 2}

R/C [Standard] Community name of this entry.Size limitation is not provided for this object.[Implementation] Not supported.

N

5 snmpCommunitySecurityName{snmpCommunityEntry 3}

R/C [Standard] String corresponding to snmpCommunityName in the format independent of the security model[Implementation] Not supported.

N

6 snmpCommunityContextEngineID{snmpCommunityEntry 4}

R/C [Standard] contextEngineID indicating the storage location for the management information context indicated by the instance corresponding to snmpCommunityName[Implementation] Not supported.

N

7 snmpCommunityContextName{snmpCommunityEntry 5}

R/C [Standard] Management information context indicated by the instance corresponding to snmpCommunityName (0 to 32 characters)[Implementation] Not supported.

N

8 snmpCommunityTransportTag{snmpCommunityEntry 6}

R/C [Standard] Tag value for identifying the set of transport endpoints[Implementation] Not supported.

N

9 snmpCommunityStorageType{snmpCommunityEntry 7}

R/C [Standard] Saving format of this entry.[Implementation] Not supported.

N

10 snmpCommunityStatus{snmpCommunityEntry 8}

R/C [Standard] State of this entry.[Implementation] Not supported.

N

11 snmpTargetAddrExtTable{snmpCommunityMIBObjects 2}

NA [Standard] Table of the mask and mms value linked to snmpTargetAddrTable[Implementation] Not supported.

N

12 snmpTargetAddrExtEntry{snmpTargetAddrExtTable 1}

NA [Standard] Entry of the mask and mms value linked to snmpTargetAddrTableAUGMENTS {snmpTargetAddrEntry}[Implementation] Not supported.

N

13 snmpTargetAddrTMask{snmpTargetAddrExtEntry 1}

R/C [Standard] Mask value linked to the entry of snmpTargetAddrTable (0 to 255 characters)• 1: Indicates the bit of the transport address matching the bit of

snmpTargetAddrTAddress.• 0: Indicates the bit of the transport address not matching the bit

of snmpTargetAddrTAddress.


N

144


14 snmpTargetAddrMMS{snmpTargetAddrExtEntry 2}

R/C [Standard] Maximum size value of the message linked to the entry of snmpTargetAddrTableRange of values: 0 or 484 to 2147483647[Implementation] Not supported.

N

15 snmpTrapAddress{snmpCommunityMIBObjects 3}

AN [Standard] Value of the agent-addr field of trap PDU forwarded by Proxy Forwarding Applications using the SNMP version other than SNMPv1[Implementation] Not supported.

N

16 snmpTrapCommunity{snmpCommunityMIBObjects 4}

AN [Standard] Value of the community string field of the SNMPv1 message containing trap PDU forwarded by Proxy Forwarding Applications using the SNMP version other than SNMPv1[Implementation] Not supported.

N


145


146

3 Private MIBsThis 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 (MAC Address Table Group MIB)

3.4 axsVlan Group (VLAN Information MIB)

3.5 axsOadp Group (OADP Information MIB)

3.6 axsFlow Group (FLOW 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)




3.16 ax3630sManagementMIB Group (Changing System Status/Information)[CB 320]




3.20 ax3650sSwitch Group (System Model Information MIB)[CB 2000][OS-L3SA]

3.21 ax3650sDevice Group (System Chassis Information MIB)[CB 2000][OS-L3SA]

3.22 ax3650sManagementMIB Group (Changing System Status/Information)[CB 2000][OS-L3SA]

3.23 icmp Group (HP Private MIB)

147

3.24 sFlow Group (InMon Private MIB)

148



3.1.1 axsIfStats Group

(1) Identifier axsStats OBJECT IDENTIFIER ::= {axsMib 1} axsIfStats OBJECT IDENTIFIER ::= {axsStats 4}Object ID value 1.3.6.1.4.1.21839.2.2.1.1.4


The table below shows the implementation specifications of axsIfStats group.

Table 3-1: Implementation Specifications of axsIfStats Group


1 axsIfStatsTable{axsIfStats 1}

NOT-ACCESSIBLE

NA Extended statistics information table of interface.

A

2 axsIfStatsEntry{axsIfStatsTable 1}

NOT-ACCESSIBLE

NA Entry of extended statistics information table of interface.INDEX {axsIfStatsIndex}

A

3 axsIfStatsIndex{axsIfStatsEntry 1}

NOT-ACCESSIBLE

NA Interface index of this system. Same as ifIndex.

A

4 axsIfStatsName{axsIfStatsEntry 2}

DisplayString R/O Name of interface.Same as ifDescr.

A

5 axsIfStatsInMegaOctets{axsIfStatsEntry 3}

Counter R/O Total number of received octets (Unit: Mega). Less than Mega are discarded.For calculating the number of octets, the range between MAC header and FCS in the frame length is used.

A

6 axsIfStatsInUcastMegaPkts{axsIfStatsEntry 4}

Counter R/O Number of unicast packets received (Unit: Mega). Less than Mega are discarded.

A

7 axsIfStatsInMulticastMegaPkts{axsIfStatsEntry 5}

Counter R/O Number of multicast packets received (Unit: Mega). Less than Mega are discarded.

A

8 axsIfStatsInBroadcastMegaPkts{axsIfStatsEntry 6}

Counter R/O Number of broadcast packets received (Unit: Mega). Less than Mega are discarded.

A

9 axsIfStatsOutMegaOctets{axsIfStatsEntry 7}

Counter R/O Total number of transmitted octets (Unit: Mega). Less than Mega are discarded.For calculating the number of octets, the range between MAC header and FCS in the frame length is used.

A

10 axsIfStatsOutUcastMegaPkts{axsIfStatsEntry 8}

Counter R/O Number of packets transmitted as unicast (Unit: Mega). Less than Mega are discarded. 0 fixed.

B

11 axsIfStatsOutMulticastMegaPkts{axsIfStatsEntry 9}

Counter R/O Number of packets transmitted as multicast (Unit: Mega). Less than Mega are discarded.

A

12 axsIfStatsOutBroadcastMegaPkts{axsIfStatsEntry 10}

Counter R/O Number of packets transmitted as broadcast (Unit: Mega). Less than Mega are discarded.

A

13 axsIfStatsHighSpeed{axsIfStatsEntry 11}

Counter R/O 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.

A

149


3.1.2 axsQoS Group

(1) Identifier axsStats OBJECT IDENTIFIER ::= {axsMib 1} axsQoS OBJECT IDENTIFIER ::= {axsStats 6} axsEtherTxQoS OBJECT IDENTIFIER ::= {axsQoS 1}Object ID value 1.3.6.1.4.1.21839.2.2.1.1.6.1


The table below shows the implementation specifications of axsEtherTxQoS group.

Table 3-2: Implementation Specifications of axsEtherTxQoS Group (Ethernet Interface QoS Statistics Information)


1 axsEtherTxQoSStatsTable{axsEtherTxQoS 1}

NOT-ACCESSIBLE

NA Table information of QoS statistics information.

A

2 axsEtherTxQoSStatsEntry{axsEtherTxQoSStatsTable 1}

NOT-ACCESSIBLE

NA Entry on QoS statistics information for each Ethernet interface.INDEX { axsEtherTxQoSStatsIndex }

A

3 axsEtherTxQoSStatsIndex{axsEtherTxQoSStatsEntry 1}

NOT-ACCESSIBLE

NA Indicates the index value that identifies the entry of this table (indicates the ifIndex value of Ethernet interface).Value of 1 to ifNumber.

A

4 axsEtherTxQoSStatsMaxQnum{axsEtherTxQoSStatsEntry 2}

INTEGER R/O Indicates the maximum value of the number of queues in the corresponding interface.

A

5 axsEtherTxQoSStatsLimitQlen{axsEtherTxQoSStatsEntry 3}

INTEGER R/O Indicates the limit value of the output priority queue length of the corresponding interface.

A

6 axsEtherTxQoSStatsTotalOutFrames{axsEtherTxQoSStatsEntry 4}

Counter R/O Indicates the total number of transmitted frames of the corresponding interface.• 0 fixed

B

7 axsEtherTxQoSStatsTotalOutBytesHigh{axsEtherTxQoSStatsEntry 5}

Counter R/O Indicates the total number of transmitted bytes (upper 4 bytes) of the corresponding interface.• 0 fixed

B

8 axsEtherTxQoSStatsTotalOutBytesLow{axsEtherTxQoSStatsEntry 6}

Counter R/O Indicates the total number of transmitted bytes (lower 4 bytes) of the corresponding interface.• 0 fixed

B

9 axsEtherTxQoSStatsTotalDiscardFrames{axsEtherTxQoSStatsEntry 7}

Counter R/O Indicates the total number of discarded frames of the corresponding interface.

A

10 axsEtherTxQoSStatsQueueTable{axsEtherTxQoS 2}

NOT-ACCESSIBLE

NA Table information of QoS statistics information for each output priority queue of the corresponding interface.

A

11 axsEtherTxQoSStatsQueueEntry{axsEtherTxQoSStatsQueueTable 1}

NOT-ACCESSIBLE

NA Entry on the QoS statistics information for each output priority queue of the corresponding interface.INDEX { axsEtherTxQoSStatsQueueIndex, axsEtherTxQoSStatsQueueQueIndex }

A

12 axsEtherTxQoSStatsQueueIndex{axsEtherTxQoSStatsQueueEntry 1}

NOT-ACCESSIBLE

NA Indicates the index value that identifies the entry of this table (indicates the ifIndex value of Ethernet interface).Value of 1 to ifNumber.

A

150


3.1.3 axsDHCP Group

(1) Identifier axsStats OBJECT IDENTIFIER ::= {axsMib 1} axsDHCP OBJECT IDENTIFIER ::= {axsStats 10}Object ID value 1.3.6.1.4.1.21839.2.2.1.1.10


The table below shows the implementation specifications of axsDHCP group.

Table 3-3: Implementation Specifications of axsDHCP Group

13 axsEtherTxQoSStatsQueueQueIndex{axsEtherTxQoSStatsQueueEntry 2}

NOT-ACCESSIBLE

NA Indicates the index value that identifies the entry of this table.Value of 1 to axsEtherTxQoSStatsMaxQnum.

A

14 axsEtherTxQoSStatsQueueQlen{axsEtherTxQoSStatsQueueEntry 3}

INTEGER R/O Indicates the queue length of output priority during information collection.

A

15 axsEtherTxQoSStatsQueueMaxQlen{axsEtherTxQoSStatsQueueEntry 4}

INTEGER R/O Indicates the queue length of the maximum output priority of the corresponding interface after this statistics information is cleared or initialized.• 0 fixed

B

16 axsEtherTxQoSStatsQueueDiscardFramesClass1{axsEtherTxQoSStatsQueueEntry 5}

Counter64 R/O Indicates discarded frames at queuing priority 1 of the corresponding output priority queue.• 0 fixed

B



B



B



B


1 axsDHCP{axsStats 10}

NOT-ACCESSIBLE

NA Statistics information on DHCP server A

2 axsDHCPAddrValue{axsDHCP 1}

INTEGER R/O Number of IP addresses to be assigned. A

3 axsDHCPFreeAddrValue{axsDHCP 2}

INTEGER R/O Number of IP addresses not assigned. A


151



3.2.1 axsGsrpGroupTable Group

(1) Identifier axsGsrp OBJECT IDENTIFIER ::= {axsMib 4} axsGsrpGroupTable OBJECT IDENTIFIER ::= {axsGsrp 1}Object ID value 1.3.6.1.4.1.21839.2.2.1.4.1


The table below shows the implementation specifications of axsGsrpGroupTable group.

Table 3-4: Implementation Specifications of axsGsrpGroupTable Group

3.2.2 axsGsrpVlanGroupTable Group

(1) Identifier axsGsrp OBJECT IDENTIFIER ::= {axsMib 4} axsGsrpVlanGroupTable OBJECT IDENTIFIER ::= {axsGsrp 2}Object ID value 1.3.6.1.4.1.21839.2.2.1.4.2


The table below shows the implementation specifications of axsGsrpVlanGroupTable group.


1 axsGsrpGroupTable{axsGsrp 1}

NOT-ACCESSIBLE

NA Table storing GSRP group information. A

2 axsGsrpGroupEntry{axsGsrpGroupTable 1}

NOT-ACCESSIBLE

NA List of GSRP group information.INDEX { axsGsrpGroupId }

A

3 axsGsrpGroupId{axsGsrpGroupEntry 1}

INTEGER NA GSRP group identifier. A

4 axsGsrpGroupRowStatus{axsGsrpGroupEntry 2}

RowStatus R/O Indicates valid/invalid status of this entry.Valid (1) fixed.

A

5 axsGsrpMacAddress{axsGsrpGroupEntry 3}

MacAddress R/O MAC address of the system A

6 axsGsrpAdvertiseHoldTime{axsGsrpGroupEntry 4}

INTEGER R/O Retaining time of Advertise frame (unit: millisecond(s)).

A

7 axsGsrpAdvertiseInterval{axsGsrpGroupEntry 5}

INTEGER R/O Sending interval of Advertise frame (unit: millisecond(s)).

A

8 axsGsrpSelectionPattern{axsGsrpGroupEntry 6}

INTEGER R/O Master/backup selection pattern.• Ports-Priority-MAC (1)• Priority-Ports-MAC (2)

A

9 axsGsrpLayer3Redundancy{axsGsrpGroupEntry 7}

INTEGER R/O Layer 3 redundancy switch status.• Off (1)• On (2)

A

152


Table 3-5: Implementation Specifications of axsGsrpVlanGroupTable Group

3.2.3 axsGsrpNeighborGroupTable Group

(1) Identifier axsGsrp OBJECT IDENTIFIER ::= {axsMib 4} axsGsrpNeighborGroupTable OBJECT IDENTIFIER ::= {axsGsrp 3}Object ID value 1.3.6.1.4.1.21839.2.2.1.4.3


The table below shows the implementation specifications of axsGsrpNeighborGroupTable group.

Table 3-6: Implementation Specifications of axsGsrpNeighborGroupTable Group


1 axsGsrpVlanGroupTable{axsGsrp 2}

NOT-ACCESSIBLE

NA Table storing GSRP VLAN group information. A

2 axsGsrpVlanGroupEntry{axsGsrpVlanGroupTable 1}

NOT-ACCESSIBLE

NA List of GSRP VLAN group information.INDEX { axsGsrpGroupId, axsGsrpVlanGroupId }

A

3 axsGsrpVlanGroupId{axsGsrpVlanGroupEntry 1}

INTEGER NA GSRP VLAN group number (1 to 64) A

4 axsGsrpVlanGroupRowStatus{axsGsrpVlanGroupEntry 2}

RowStatus R/O Indicates valid/invalid status of this entry.Valid (1) fixed.

A

5 axsGsrpState{axsGsrpVlanGroupEntry 3}

INTEGER R/O GSRP group status.• BackUp (1)• BackUp (Waiting) (2)• Master (3)• BackUp (No Neighbor) (4)• BackUp (Lock) (5)

A

6 axsGsrpPriority{axsGsrpVlanGroupEntry 4}

INTEGER R/O Configured priority. A

7 axsGsrpActivePorts{axsGsrpVlanGroupEntry 5}

INTEGER R/O Number of active ports. A

8 axsGsrpTransitionToMasterCounts{axsGsrpVlanGroupEntry 6}

INTEGER R/O Number of transitions from backup status to master status.

A

9 axsGsrpTransitionFromMasterCounts{axsGsrpVlanGroupEntry 7}

INTEGER R/O Number of transitions from master status to backup status.

A

10 axsGsrpLastTransitionTime{axsGsrpVlanGroupEntry 8}

TimeStamp R/O Time of last transition from master to backup status or backup to master status.

A

11 axsGsrpVirtualMacAddress{axsGsrpVlanGroupEntry 9}

MacAddress R/O Virtual MAC address of GSRP VLAN group. A


1 axsGsrpNeighborGroupTable{axsGsrp 3}

NOT-ACCESSIBLE

NA Table storing GSRP group information of remote system.

A

2 axsGsrpNeighborGroupEntry{axsGsrpNeighborGroupTable 1}

NOT-ACCESSIBLE

NA List of GSRP group information of remote system.INDEX { axsGsrpNeighborGroupId, axsGsrpNeighborMacAddress }

A

153


3.2.4 axsGsrpNeighborVlanGroupTable Group

(1) Identifier axsGsrp OBJECT IDENTIFIER ::= {axsMib 4} axsGsrpNeighborVlanGroupTable OBJECT IDENTIFIER ::= {axsGsrp 4}Object ID value 1.3.6.1.4.1.21839.2.2.1.4.4


The table below shows the implementation specifications of axsGsrpNeighborVlanGroupTable group.

Table 3-7: Implementation Specifications of axsGsrpNeighborVlanGroupTable Group

3 axsGsrpNeighborGroupId{axsGsrpNeighborGroupEntry 1}

INTEGER NA GSRP group identifier of remote system. A

4 axsGsrpNeighborMacAddress{axsGsrpNeighborGroupEntry 2}

MacAddress NA MAC address of remote system. A

5 axsGsrpNeighborAdvertiseHoldTime{axsGsrpNeighborGroupEntry 3}

INTEGER R/O Advertise frame hold time of remote system (unit: millisecond(s)).

A

6 axsGsrpNeighborAdvertiseInterval{axsGsrpNeighborGroupEntry 4}

INTEGER R/O Advertise frame sending interval of remote system (unit: millisecond(s)).

A

7 axsGsrpNeighborSelectionPattern{axsGsrpNeighborGroupEntry 5}

INTEGER R/O Master/backup selection pattern of remote system.• Port-Priority-MAC (1)• Priority-Port-MAC (2)

A


1 axsGsrpNeighborVlanGroupTable{axsGsrp 4}

NOT-ACCESSIBLE

NA Table storing GSRP VLAN group information of remote system.

A

2 axsGsrpNeighborVlanGroupEntry{axsGsrpNeighborGroupTable 1}

NOT-ACCESSIBLE

NA List of GSRP VLAN group information of remote system.INDEX { axsGsrpNeighborGroupId, axsGsrpNeighborVlanGroupId, axsGsrpNeighborMacAddress }

A

3 axsGsrpNeighborVlanGroupId{axsGsrpNeighborVlanGroupEntry 1}

INTEGER NA GSRP VLAN group number of remote system (1 to 64).

A

4 axsGsrpNeighborState{axsGsrpNeighborVlanGroupEntry 2}

INTEGER R/O Indicates GSRP group status of remote system.• BackUp (1)• BackUp (Waiting) (2)• Master (3)• BackUp (No Neighbor) (4)• BackUp (Lock) (5)

A

5 axsGsrpNeighborPriority{axsGsrpNeighborVlanGroupEntry 3}

INTEGER R/O Configured priority of remote system. A

6 axsGsrpNeighborActivePorts{axsGsrpNeighborVlanGroupEntry 4}

INTEGER R/O Number of active ports of remote system.

A


154



(1) Identifier axsMib OBJECT IDENTIFIER ::= {axsEx 1} axsFdb OBJECT IDENTIFIER ::= {axsMib 5}Object ID value 1.3.6.1.4.1.21839.2.2.1.5


The table below shows the implementation specifications of axsFdb group.

Table 3-8: Implementation Specifications of axsFdb Group

* 0 fixed when axsFdbCounterType is Unlimited (0).


1 axsFdbCounterTable{axsFdb 1}

NOT-ACCESSIBLE

NA Information table on the number of learned MAC address tables

A

2 axsFdbCounterEntry{axsFdbCounterTable 1}

NOT-ACCESSIBLE

NA Entry of information table on the number of learned MAC address tablesINDEX { axsFdbCounterNifIndex, axsFdbCounterLineIndex }

A

3 axsFdbCounterNifIndex{axsFdbCounterEntry 1}

NOT-ACCESSIBLE

NA Indicates the position information of a NIF installation slot.

A

4 axsFdbCounterLineIndex{axsFdbCounterEntry 2}

NOT-ACCESSIBLE

NA Indicates the position information of a Line mounted slot.

A

5 axsFdbCounterCounts{axsFdbCounterEntry 3}

Counter32 R/O Number of MAC address table entries learned on this port.

A

6 axsFdbCounterType{axsFdbCounterEntry 4}

INTEGER R/O Setting on whether learning limitation is provided, and behavior of non-learning frames when the maximum number of MAC address tables is exceeded during setting.• Unlimited (0)• Limited and Forward (1)• Limited and Discard (2)

A

7 axsFdbCounterLimits{axsFdbCounterEntry 5}

Counter32 R/O Maximum number of MAC address table entries which can be learned on this port.*

• 0 : Learning prohibited• 1 to 100000: Number set by configuration

command mac-address-table static

A

155



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 portPhysical ports are uniquely identified.Port number: Physical port number

• Port number of channel groupThe port number is calculated as shown below from the channel group number of link aggregation.Port number: 64 (fixed value) + Channel group number + 1

3.4.1 axsVlanBridge Group (dot1dBase Information)

(1) axsVBBaseTable group

(a) Identifier axsVlan OBJECT IDENTIFIER ::= {axsMib 6}Object ID value 1.3.6.1.4.1.21839.2.2.1.6 axsVlanBridge OBJECT IDENTIFIER ::= {axsVlan 1}Object ID value 1.3.6.1.4.1.21839.2.2.1.6.1 axsVlanBridgeBase OBJECT IDENTIFIER ::= {axsVlanBridge 1}Object ID value 1.3.6.1.4.1.21839.2.2.1.6.1.1

(b) Implementation specifications

The table below shows the implementation specifications of axsVBBaseTable group.

Table 3-9: Implementation Specifications of axsVBBaseTable Group


1 axsVBBaseTable{axsVlanBridgeBase 1}

NOT-ACCESSIBLE

NA dot1dBase information table for each VLAN. A

2 axsVBBaseEntry{axsVBBaseTable 1}

NOT-ACCESSIBLE

NA Information entry for each VLAN ID of axsVBBaseTable.INDEX { axsVBBaseIndex }

A

3 axsVBBaseIndex{axsVBBaseEntry 1}

VlanIndex R/O VLAN ID A

4 axsVBBaseBridgeAddress{axsVBBaseEntry 2}

MacAddress R/O MAC address of VLAN.• When using MAC function for each

VLAN: MAC address of each VLAN• When MAC function is not used: MAC

address of the system

A

5 axsVBBaseNumPorts{axsVBBaseEntry 3}

INTEGER R/O Number of ports specified for VLAN. A

6 axsVBBaseType{axsVBBaseEntry 4}

INTEGER R/O Type of bridging allowed for VLAN.• unknown (1)• transparent-only (2)• sourceroute-only (3)• srt (4)

For this system, transparent-only (2) fixed.

B

7 axsVBBaseVlanIfIndex{axsVBBaseEntry 5}

INTEGER R/O ifIndex value of VLAN interface. A

156


(2) axsVBBasePortTable group

(a) Identifier axsVlan OBJECT IDENTIFIER ::= {axsMib 6}Object ID value 1.3.6.1.4.1.21839.2.2.1.6 axsVlanBridge OBJECT IDENTIFIER ::= {axsVlan 1}Object ID value 1.3.6.1.4.1.21839.2.2.1.6.1 axsVlanBridgeBase OBJECT IDENTIFIER ::= {axsVlanBridge 1}Object ID value 1.3.6.1.4.1.21839.2.2.1.6.1.1


The table below shows the implementation specifications of axsVBBasePortTable group.

Table 3-10: Implementation Specifications of axsVBBasePortTable Group

8 axsVBBaseVlanType{axsVBBaseEntry 6}

INTEGER R/O VLAN type• port-based (1)• mac-based (2)• protocol-based (3)

A

9 axsVBBaseVlanID{axsVBBaseEntry 7}

VlanIdOrZero R/O VID value of VLAN-TAG corresponding to VLAN.

A

10 axsVBBaseAssociatedPrimaryVlan{axsVBBaseEntry 8}

VlanIdOrZero R/O If this VLAN uses private VLAN function and is set as Secondary VLAN, VLAN ID of Primary VLAN corresponding to this VLAN is returned.If this VLAN does not use private VLAN function or is not set as Secondary VLAN, or Primary VLAN corresponding to this VLAN is not set, 0 is returned.This system always returns (0).

A

11 axsVBBaseIfStatus{axsVBBaseEntry 9}

INTEGER R/O Interface status for upper layer protocol of VLAN.• Up (1)• Down (2)

A

12 axsVBBaseLastChange{axsVBBaseEntry 10}

TimeTicks R/O sysUpTime value when VLAN topology is changed.

A

13 axsVBBasePrivateVlanType{axsVBBaseEntry 11}

INTEGER R/O Private VLAN type of VLAN. Returns normal (1) if private VLAN function is not used.• normal (1)• primary (2)• isolated (3)• community (4)

This system returns the fixed value (1).

A


1 axsVBBasePortTable{axsVlanBridgeBase 2}

NOT-ACCESSIBLE

NA dot1dBasePortTable information table for each VLAN.

A

2 axsVBBasePortEntry{axsVBBasePortTable 1}

NOT-ACCESSIBLE

NA Configuration entry of axsVBBasePortTableINDEX { axsVBBasePortIndex, axsVBBasePort }

A

3 axsVBBasePortIndex{axsVBBasePortEntry 1}



157


(3) axsVBStpTable group

(a) Identifier axsVlan OBJECT IDENTIFIER ::= {axsMib 6}Object ID value 1.3.6.1.4.1.21839.2.2.1.6 axsVlanBridge OBJECT IDENTIFIER ::= {axsVlan 1}Object ID value 1.3.6.1.4.1.21839.2.2.1.6.1 axsVlanBridgeStp OBJECT IDENTIFIER ::= {axsVlanBridge 2}Object ID value 1.3.6.1.4.1.21839.2.2.1.6.1.2


The table below shows the implementation specifications of axsVBStpTable group.

4 axsVBBasePort{axsVBBasePortEntry 2}

INTEGER R/O Port number of port specified for VLAN (1 to 65535).This port number is applicable to the physical port and channel group.

A

5 axsVBBasePortIfIndex{axsVBBasePortEntry 3}

INTEGER R/O ifIndex value corresponding to the port specified for VLAN.

A

6 axsVBBasePortCircuit{axsVBBasePortEntry 4}

OBJECT IDENTIFIER

R/O Identifier to identify the port when axsVBasePortIfIndex takes the same value for any other port specified for VLAN.This system returns the fixed value 0.0.

B

7 axsVBBasePortDelayExceededDiscards{axsVBBasePortEntry 5}

Counter R/O Total number of frames discarded due to transit delay occurring in the port specified for VLAN.This system always returns 0.

B

8 axsVBBasePortMtuExceededDiscards{axsVBBasePortEntry 6}

Counter R/O Total number of frames discarded due to data overflow occurring in the port specified for VLAN.This system always returns 0.

B

9 axsVBBasePortState{axsVBBasePortEntry 7}

INTEGER R/O STP port status of the port specified for VLAN.• 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).

A

10 axsVBBasePortTaggedState{axsVBBasePortEntry 8}

INTEGER R/O VLAN-TAG setting status of the port specified for VLAN• No setting made (1)• Setting made (2)

A

11 axsVBBasePortTranslatedTagID{axsVBBasePortEntry 9}

VlanIdOrZero R/O Translated ID (1 to 4094) of VLAN specified for this port when TAG translation function is set.Returns 0 if TAG translation function is not set.

A


158


Table 3-11: Implementation Specifications of axsVBStpTable Group

(4) axsVBStpPortTable group

(a) Identifier axsVlan OBJECT IDENTIFIER ::= {axsMib 6}Object ID value 1.3.6.1.4.1.21839.2.2.1.6


1 axsVBStpTable{axsVlanBridgeStp 1}

NOT-ACCESSIBLE

NA dot1dStpTable information table for each VLAN.This table is applicable for spanning tree information for each PVST+ VLAN.

A

2 axsVBStpEntry{axsVBStpTable 1}

NOT-ACCESSIBLE

NA Configuration entry of axsVBStpTable.INDEX { axsVBStpIndex }

A

3 axsVBStpIndex{axsVBStpEntry 1}


4 axsVBStpProtocolSpecification{axsVBStpEntry 2}

INTEGER R/O Protocol type of spanning tree for each VLAN.• unknown (1)• decLb100 (2)• ieee8021d (3)• ieee8021w (4)

This system returns ieee8021d (3) or ieee8021w (4).

A

5 axsVBStpPriority{axsVBStpEntry 3}

INTEGER R/O Priority value (0 to 65535) of spanning tree for each VLAN.

A

6 axsVBStpTimeSinceTopologyChange{axsVBStpEntry 4}

TimeTicks R/O Elapsed time since occurrence of topology change (unit: 1/100 sec).

A

7 axsVBStpTopChanges{axsVBStpEntry 5}

Counter R/O Number of times spanning tree topology for each VLAN changed.

A

8 axsVBStpDesignatedRoot{axsVBStpEntry 6}

BridgeId R/O Root bridge identifier of spanning tree for each VLAN.

A

9 axsVBStpRootCost{axsVBStpEntry 7}

INTEGER R/O Root path cost value of spanning tree for each VLAN.

A

10 axsVBStpRootPort{axsVBStpEntry 8}

INTEGER R/O Root port value of spanning tree for each VLAN. A

11 axsVBStpMaxAge{axsVBStpEntry 9}

Timeout R/O Maximum aging time of spanning tree for each VLAN (unit: 1/100 sec).

A

12 axsVBStpHelloTime{axsVBStpEntry 10}

Timeout R/O Hello time of spanning tree for each VLAN (unit: 1/100 sec).

A

13 axsVBStpHoldTime{axsVBStpEntry 11}

INTEGER R/O Hold time of spanning tree for each VLAN (unit: 1/100 sec).

A

14 axsVBStpForwardDelay{axsVBStpEntry 12}

Timeout R/O Transfer delay time of spanning tree for each VLAN (unit: 1/100 sec).

A

15 axsVBStpBridgeMaxAge{axsVBStpEntry 13}

Timeout R/O Maximum aging time (value: 600 to 4000, unit: 1/100 sec) used by spanning tree for each VLAN when it operates as root bridge.

A

16 axsVBStpBridgeHelloTime{axsVBStpEntry 14}

Timeout R/O Hello time (value: 100 to 1000, unit: 1/100 sec) used by spanning tree for each VLAN when it operates as root bridge.

A

17 axsVBStpBridgeForwardDelay{axsVBStpEntry 15}

Timeout R/O Transfer delay time (value: 400 to 3000, unit: 1/100 sec) used by spanning tree for each VLAN when it operates as root bridge.

A

159


axsVlanBridge OBJECT IDENTIFIER ::= {axsVlan 1}Object ID value 1.3.6.1.4.1.21839.2.2.1.6.1 axsVlanBridgeStp OBJECT IDENTIFIER ::= {axsVlanBridge 2}Object ID value 1.3.6.1.4.1.21839.2.2.1.6.1.2


The table below shows the implementation specifications of axsVBStpPortTable group.

Table 3-12: Implementation Specifications of axsVBStpPortTable Group


1 axsVBStpPortTable{axsVlanBridgeStp 2}

NOT-ACCESSIBLE

NA dot1dStpPortTable information table for each VLAN.This table is applicable for spanning tree port information for each PVST+ VLAN.

A

2 axsVBStpPortEntry{axsVBStpPortTable 1}

NOT-ACCESSIBLE

NA Configuration entry of axsVBStpPortTable.INDEX { axsVBStpPortIndex, axsVBStpPort }

A

3 axsVBStpPortIndex{axsVBStpPortEntry 1}


4 axsVBStpPort{axsVBStpPortEntry 2}

INTEGER R/O Port number (1 to 65535) corresponding to this configuration entry.This port number is applicable to the physical port and channel group.

A

5 axsVBStpPortPriority{axsVBStpPortEntry 3}

INTEGER R/O Priority (0 to 255) of this port for each VLAN. A

6 axsVBStpPortState{axsVBStpPortEntry 4}

INTEGER R/O Current status of this port for each VLAN.• 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).

A

7 axsVBStpPortEnable{axsVBStpPortEntry 5}

INTEGER R/O Indicates whether spanning tree for each VLAN is enabled in this port.• enabled (1)• disabled (2)

A

8 axsVBStpPortPathCost{axsVBStpPortEntry 6}

INTEGER R/O Path cost value (1 to 200000000) of this port for each VLAN.

A

9 axsVBStpPortDesignatedRoot{axsVBStpPortEntry 7}

BridgeId R/O Value of root bridge identifier for each VLAN stored in BPDU which this port received from the specified bridge.

A

10 axsVBStpPortDesignatedCost{axsVBStpPortEntry 8}

INTEGER R/O Path cost value of the designated port for each VLAN which is connected to this port.

A

11 axsVBStpPortDesignatedBridge{axsVBStpPortEntry 9}

BridgeId R/O Bridge identifier of the bridge for each VLAN which this port considers as specified bridge.

A

160


(5) axsVBTpTable group

(a) Identifier axsVlan OBJECT IDENTIFIER ::= {axsMib 6}Object ID value 1.3.6.1.4.1.21839.2.2.1.6 axsVlanBridge OBJECT IDENTIFIER ::= {axsVlan 1}Object ID value 1.3.6.1.4.1.21839.2.2.1.6.1 axsVlanBridgeTp OBJECT IDENTIFIER ::= {axsVlanBridge 4}Object ID value 1.3.6.1.4.1.21839.2.2.1.6.1.4


The table below shows the implementation specifications of axsVBTpTable group.

Table 3-13: Implementation Specifications of axsVBTpTable Group

(6) axsVBTpFdbTable group



The table below shows the implementation specifications of axsVBTpFdbTable group.

12 axsVBStpPortDesignatedPort{axsVBStpPortEntry 10 }

OCTET STRING(SIZE(2))

R/O Port identifier of the specified bridge for each VLAN which is connected to this port.

A

13 axsVBStpPortForwardTransitions{axsVBStpPortEntry 11}

Counter R/O How often this port transited from learning status to forwarding status for each VLAN.

A


1 axsVBTpTable{axsVlanBridgeTp 1}

NOT-ACCESSIBLE

NA dot1dTp information table for each VLAN. A

2 axsVBTpEntry{axsVBTpTable 1}

NOT-ACCESSIBLE

NA Configuration entry of axsVBTpTable.INDEX { axsVBTpIndex }

A

3 axsVBTpIndex{axsVBTpEntry 1}


4 axsVBTpLearnedEntryDiscards{axsVBTpEntry 2}

Counter R/O Number of entries discarded because there was no free space in the MAC address tableThis system always returns (0).

B

5 axsVBTpAgingTime{axsVBTpEntry 3}

INTEGER R/O Timeout period for aging out the MAC address table entries which were learned dynamically (unit: second(s)).• For aging mode: (10 to 1000000)• For non-aging mode: 0

N


161


Table 3-14: Implementation Specifications of axsVBTpFdbTable Group

(7) axsVBTpPortTable group



The table below shows the implementation specifications of axsVBTpPortTable group.

Table 3-15: Implementation Specifications of axsVBTpPortTable Group


1 axsVBTpFdbTable{axsVlanBridgeTp 2}

NOT-ACCESSIBLE

NA dot1dTpFdb Table information table for each VLAN. This table makes no response to GetNextRequest, and returns the following MIB objects.

A

2 axsVBTpFdbEntry{axsVBTpFdbTable 1}

NOT-ACCESSIBLE

NA Configuration entry of axsVBTpFdbTable.INDEX { axsVBTpFdbIndex, axsVBTpFdbAddress }

A

3 axsVBTpFdbIndex{axsVBTpEntry 1}


4 axsVBTpFdbAddress{axsVBTpEntry 2}

MacAddress R/O Unicast MAC address of the MAC address table entry.

A

5 axsVBTpFdbPort{axsVBTpEntry 3}

INTEGER R/O Port number of the port which received the frame having MAC address indicated by axsVBTpFdbAddress as source address.0 indicates that port number is not learned.

A

6 axsVBTpFdbStatus{axsVBTpEntry 4}

INTEGER R/O MAC 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).

A


1 axsVBTpPortTable{axsVlanBridgeTp 3}

NOT-ACCESSIBLE

NA dot1dTpPortTable information table for each VLAN.

A

2 axsVBTpPortEntry{axsVBTpPortTable 1}

NOT-ACCESSIBLE

NA axsVBTpPortTable information entry for each portINDEX { axsVBTpPortIndex, axsVBTpPort }

A

3 axsVBTpPortIndex{axsVBTpPortEntry 1}


162


(8) axsVBStaticTable group

(a) Identifier axsVlan OBJECT IDENTIFIER ::= {axsMib 6}Object ID value 1.3.6.1.4.1.21839.2.2.1.6 axsVlanBridge OBJECT IDENTIFIER ::= {axsVlan 1}Object ID value 1.3.6.1.4.1.21839.2.2.1.6.1 axsVlanBridgeStatic OBJECT IDENTIFIER ::= {axsVlanBridge 5}Object ID value 1.3.6.1.4.1.21839.2.2.1.6.1.5


The table below shows the implementation specifications of axsVBStaticTable group.

Table 3-16: Implementation Specifications of axsVBStaticTable Group

4 axsVBTpPort{axsVBTpPortEntry 2}

INTEGER R/O 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.

A

5 axsVBTpPortMaxInfo{axsVBTpPortEntry 3}

INTEGER R/O Maximum INFO field size of this port for each VLAN (MAC header and FCS not included).

A

6 axsVBTpPortInFrames{axsVBTpPortEntry 4}

Counter R/O Number of frames received at this port for each VLAN.This system always returns (0).

B

7 axsVBTpPortOutFrames{axsVBTpPortEntry 5}

Counter R/O Number of frames sent from this port for each VLAN.This system always returns (0).

B

8 axsVBTpPortInDiscards{axsVBTpPortEntry 6}

Counter R/O Number of frames discarded at this port for each VLAN.This system always returns (0).

B


1 axsVBStaticTable{axsVlanBridgeStatic 1}

NOT-ACCESSIBLE

NA dot1dStaticTable information table for each VLAN.This table makes no response to GetNextRequest, and returns the following MIB objects.

A

2 axsVBStaticEntry{axsVBStaticTable 1}

NOT-ACCESSIBLE

NA Configuration entry of axsVBStaticTable.INDEX { axsVBStaticIndex, axsVBStaticAddress }

A

3 axsVBStaticIndex{axsVBStaticEntry 1}


4 axsVBStaticAddress{axsVBStaticEntry 2}

MacAddress R/O Any one of unicast MAC address, group MAC address, or broadcast MAC address.

A

5 axsVBStaticReceivePort{axsVBStaticEntry 3}

INTEGER R/O Port number of the receiving port to which this entry is applied.0 if applied to all receiving ports.This system always returns (0).

A


163


(9) axsVlanBridge (other) group

(a) Identifier axsVlan OBJECT IDENTIFIER ::= {axsMib 6}Object ID value 1.3.6.1.4.1.21839.2.2.1.6 axsVlanBridge OBJECT IDENTIFIER ::= {axsVlan 1}Object ID value 1.3.6.1.4.1.21839.2.2.1.6.1


The table below shows the implementation specifications of axsVlanBridge (other) group.

Table 3-17: Implementation Specifications of axsVlanBridge (Other) Group

3.4.2 axsVlanTagTranslation Group (Tag Translation Information MIB)

(1) Identifier axsVlan OBJECT IDENTIFIER ::= {axsMib 6}Object ID value 1.3.6.1.4.1.21839.2.2.1.6 axsVlanTagTranslation OBJECT IDENTIFIER ::= {axsVlan 10}Object ID value 1.3.6.1.4.1.21839.2.2.1.6.10 axsVlanTagTranslationTable OBJECT IDENTIFIER ::= {axsVlanTagTranslation 1}Object ID value 1.3.6.1.4.1.21839.2.2.1.6.10.1


The table below shows the implementation specifications of axsVlanTagTranslation.

6 axsVBStaticAllowedToGoTo{axsVBStaticEntry 4}

OCTET STRING

R/O Bit map of the port which indicates the destination port when transferring the frame destined to MAC address contained in this entry.

A

7 axsVBStaticStatus{axsVBStaticEntry 5}

INTEGER R/O 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.

A


1 axsVlanBridgeMaxVlans{axsVlanBridge 101}

VlanIndex R/O Maximum value of VLAN ID of this system.This system returns the fixed value (4094).

A

2 axsVlanBridgeMaxSpans{axsVlanBridge 102}

VlanIndex R/O Maximum value of VLAN ID of VLAN for which spanning tree operates in this system.This system returns the fixed value (4094).

A


164


Table 3-18: Implementation Specifications of axsVlanTagTranslation Group


1 axsVlanTagTranslationTable{axsVlanTagTranslation 1}

NOT-ACCESSIBLE

NA Information table on Tag translation function.

A

2 axsVlanTagTranslationEntry{axsVlanTagTranslationTable 1}

NOT-ACCESSIBLE

NA Entry of the information table on Tag translation function.INDEX { axsVlanTagTranslationVlanId, axsVlanTagTranslationTranslatedId }

A

3 axsVlanTagTranslationVlanId{axsVlanTagTranslationEntry 1}

NOT-ACCESSIBLE

NA VLAN ID (1 to 4094) in which a Tag conversion function is set.

A

4 axsVlanTagTranslationTranslatedId{axsVlanTagTranslationEntry 2}

NOT-ACCESSIBLE

NA Translated ID (1 to 4094) set using Tag conversion function.

A

5 axsVlanTagTranslationPorts{axsVlanTagTranslationEntry 3}

PortList R/O Port list in which the same Translated ID is set in the same VLAN using a Tag translation function.

A

165



3.5.1 axsOadpGlobalInfo Group

(1) Identifier axsOadp OBJECT IDENTIFIER ::= {axsMib 7}Object ID value 1.3.6.1.4.1.21839.2.2.1.7 axsOadpMIBObjects OBJECT IDENTIFIER ::= {axsOadp 1}Object ID value 1.3.6.1.4.1.21839.2.2.1.7.1 axsOadpGlobalInfo OBJECT IDENTIFIER ::= {axsOadpMIBObjects 1}Object ID value 1.3.6.1.4.1.21839.2.2.1.7.1.1


The table below shows the implementation specifications of axsOadpGlobalInfo group.

Table 3-19: Implementation Specifications of axsOadpGlobalInfo Group

3.5.2 axsOadpPortInfo Group

(1) Identifier axsOadp OBJECT IDENTIFIER ::= {axsMib 7}Object ID value 1.3.6.1.4.1.21839.2.2.1.7


1 axsOadpGlobalActive{axsOadpGlobalInfo 1}

TruthValue R/O Active state of the OADP function. Status on whether configuration command oadp run is set• run (1)• run not set (2)

A

2 axsOadpGlobalCdpActive{axsOadpGlobalInfo 2}

TruthValue R/O Active state of the CDP receiving function.Status on whether configuration command oadp cdp-listener is set• cdp-listener (1)• cdp-listener not specified (2)

A

3 axsOadpGlobalMessageInterval{axsOadpGlobalInfo 3}

INTEGER(5..254)

R/O OADP frame sending interval. Value set by configuration command oadp interval-time (unit: second(s)).

A

4 axsOadpGlobalHoldTime{axsOadpGlobalInfo 4}

INTEGER(10..255)

R/O 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)).

A

5 axsOadpGlobalCacheLastChange{axsOadpGlobalInfo 5}

TimeTicks R/O sysUpTime value when axsOadpNeighborTable information was updated.

A

6 axsOadpGlobalName{axsOadpGlobalInfo 6}

DisplayString(SIZE(0..255))

R/O System identifier of this system. A

7 axsOadpGlobalNameType{axsOadpGlobalInfo 7}

INTEGER R/O Type of axsOadpGlobalName.• other (1)• sysName (2)• serialNumber (3)• MACaddress (4)

A

166


axsOadpMIBObjects OBJECT IDENTIFIER ::= {axsOadp 1}Object ID value 1.3.6.1.4.1.21839.2.2.1.7.1 axsOadpPortInfo OBJECT IDENTIFIER ::= {axsOadpMIBObjects 2}Object ID value 1.3.6.1.4.1.21839.2.2.1.7.1.2


The table below shows the implementation specifications of axsOadpPortInfo group.

Table 3-20: Implementation Specifications of axsOadpPortInfo Group

3.5.3 axsOadpNeighborInfo Group

(1) Identifier axsOadp OBJECT IDENTIFIER ::= {axsMib 7}Object ID value 1.3.6.1.4.1.21839.2.2.1.7 axsOadpMIBObjects OBJECT IDENTIFIER ::= {axsOadp 1}Object ID value 1.3.6.1.4.1.21839.2.2.1.7.1 axsOadpNeighborInfo OBJECT IDENTIFIER ::= {axsOadpMIBObjects 3}Object ID value 1.3.6.1.4.1.21839.2.2.1.7.1.3


The table below shows the implementation specifications of axsOadpNeighborInfo group.

Table 3-21: Implementation Specifications of axsOadpNeighborInfo Group


1 axsOadpPortConfigTable{axsOadpPortInfo 1}

SEQUENCE OF OadpPortConfigEntry

NA Table related to OADP port information. A

2 axsOadpPortConfigEntry{axsOadpPortConfigTable 1}

OadpPortConfigEntry

NA Entry on OADP port information (for each port).INDEX { axsOadpPortConfigIfIndex }

A

3 axsOadpPortConfigIfIndex{axsOadpPortConfigEntry 1}

InterfaceIndex R/O Port identification index. Same as ifIndex. Applicable to ifIndex-assigned physical port and channel group.

A

4 axsOadpPortConfigActive{axsOadpPortConfigEntry 2}

TruthValue R/O Active status of the corresponding port.• enable (1)• disable (2)

A


1 axsOadpNeighborTable{axsOadpNeighborInfo 1}

SEQUENCE OF OadpNeighborEntry

NA Table related to OADP neighboring node. A

2 axsOadpNeighborEntry{axsOadpNeighborTable 1}

OadpNeighborEntry

NA Entry related to OADP neighboring node (for each neighbor information).INDEX { axsOadpIfIndex, axsOadpTagID, axsOadpNeighborIndex, axsOadpNeighborTagID }

A

3 axsOadpIfIndex{axsOadpNeighborEntry 1}

InterfaceIndex R/O ifIndex of the receiving interface. A

167


4 axsOadpTagID{axsOadpNeighborEntry 2}

INTEGER(0..4095)

R/O IEEE802.1Q tag ID (VID) appended to MAC frame.

A

5 axsOadpNeighborIndex{axsOadpNeighborEntry 3}

INTEGER R/O Number to uniquely identify the neighboring node (1 to 231-1).

A

6 axsOadpNeighborTagID{axsOadpNeighborEntry 4}

INTEGER(0..4095)

R/O Value set for TagID TLV in OADP PDU sent from the neighboring node. For CDP, always 0.

A

7 axsOadpNeighborVendorType{axsOadpNeighborEntry 5}

INTEGER R/O Protocol type used to find the neighboring node.• other (1)• OADP (2)• CDP (3)

A

8 axsOadpNeighborSNMPAgentAddressType{axsOadpNeighborEntry 6}

INTEGER R/O Type of agent address to obtain information with SNMP.• ipv4 (1)• ipv6 (20)• other-notSupported (65535)

A

9 axsOadpNeighborSNMPAgentAddress{axsOadpNeighborEntry 7}

DisplayString R/O Agent address for obtaining information with SNMP, made into DisplayString. If there is no address information (axsOadpNeighborSNMPAgentAddressType is other-notSupported), NULL character.

A

10 axsOadpNeighborDescr{axsOadpNeighborEntry 8}


R/O Character string equivalent to sysDescr of neighboring node.

A

11 axsOadpNeighborDeviceID{axsOadpNeighborEntry 9}


R/O System identifier of neighboring node. For OADP, character string defined by axsOadpGlobalName is stored.

A

12 axsOadpNeighborSlotPort{axsOadpNeighborEntry 10}


R/O Character string to uniquely identify the sending interface of neighboring node. (NIF number/Port number)

A

13 axsOadpNeighborIfIndex{axsOadpNeighborEntry 11}

InterfaceIndex R/O ifIndex of the sending interface of neighboring node. For CDP, always 0.

A

14 axsOadpNeighborIfSpeed{axsOadpNeighborEntry 12}

Gauge R/O ifSpeed of the sending interface of neighboring node. For CDP, always 0.

A

15 axsOadpNeighborDeviceType{axsOadpNeighborEntry 13}


R/O System name of neighboring node. A

16 axsOadpNeighborService{axsOadpNeighborEntry 14}

OCTET STRING(SIZE(0..4))

R/O 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)

A

17 axsOadpNeighborVTPMgmtDomain{axsOadpNeighborEntry 15}


R/O VTP Management Domain related to the sending interface of neighboring node.

A

18 axsOadpNeighborNativeVLAN{axsOadpNeighborEntry 16}

INTEGER(0..4095)

R/O Native VLAN ID relating to the sending interface of neighboring node.

A


168


19 axsOadpNeighborDuplex{axsOadpNeighborEntry 17}

INTEGER R/O Duplex information of the sending interface of neighboring node.• unknown (1)• HALF (2)• FULL (3)

A

20 axsOadpNeighborApplianceID{axsOadpNeighborEntry 18}

Gauge(0..255)

R/O Appliance ID of the neighboring node. A

21 axsOadpNeighborVlanID{axsOadpNeighborEntry 19}

Gauge(0..4095)

R/O VLAN ID for VoIP of the neighboring node. A

22 axsOadpNeighborPowerConsumption{axsOadpNeighborEntry 20}

Gauge R/O VoIP power consumption of the neighboring node (unit: milliwatt).

A

23 axsOadpNeighborMTU{axsOadpNeighborEntry 21}

Gauge R/O MTU of the sending interface of neighboring node.

A

24 axsOadpNeighborSysName{axsOadpNeighborEntry 22}


R/O sysName of neighboring node. A

25 axsOadpNeighborSysObjectID{axsOadpNeighborEntry 23}

OBJECT IDENTIFIER

R/O sysObjectID of neighboring node. A

26 axsOadpNeighborSecondarySNMPAgentAddressType{axsOadpNeighborEntry 24}

INTEGER R/O Type of agent secondary address to obtain information with SNMP.• ipv4 (1)• ipv6 (20)• other-notSupported (65535)

A

27 axsOadpNeighborSecondarySNMPAgentAddress{axsOadpNeighborEntry 25}

DisplayString R/O Agent secondary address for obtaining information with SNMP, made into DisplayString. If there is no address information(axsOadpNeighborSecondarySNMPAgentAddressType is other-notSupported), NULL character.

A

28 axsOadpNeighborPhysLocation{axsOadpNeighborEntry 26}


R/O sysLocation of neighboring node. A

29 axsOadpNeighborCacheLastChange{axsOadpNeighborEntry 27}

TimeTicks R/O sysUpTime when axsOadpNeighborEntry related to neighboring node was updated.

A

30 axsOadpNeighborIfHighSpeed{axsOadpNeighborEntry 28}

Gauge R/O ifHighSpeed of the sending interface of neighboring node. For CDP, always 0.

A


169



3.6.1 axsAccessFilterStats Group

(1) Identifier axsFlow OBJECT IDENTIFIER ::= {axsMib 8} axsAccessFilterStats OBJECT IDENTIFIER ::= {axsFlow 9}Object ID value 1.3.6.1.4.1.21839.2.2.1.8.9


The table below shows the implementation specifications of axsAccessFilterStats group.

Table 3-22: Implementation Specifications of axsAccessFilterStats Group


1 axsAccessFilterStatsInTable{axsAccessFilterStats 1}

SEQUENCE OF axsAccessFilterStatsInEntry

NA Table information of the packet count matching the flow detection condition/operation information set in the access list

A

2 axsAccessFilterStatsInEntry{axsAccessFilterStatsInTable 1}

axsAccessFilterStatsInEntry

NA Entry on the packet count matching the flow detection condition/operation information set in the access listINDEX{ axsAccessFilterStatsInifIndex,axsAccessFilterStatsInifIndexType,axsAccessFilterStatsInListIndex,axsAccessFilterStatsInSequenceNumber}

A

3 axsAccessFilterStatsInifIndex{axsAccessFilterStatsInEntry 1}

INTEGER NA Index value that identifies the entry of this table (same as ifIndex).

A

4 axsAccessFilterStatsInifIndexType{axsAccessFilterStatsInEntry 2}

INTEGER NA Type of interface.• Ethernet interface specification (1)• VLAN interface specification (2)

A

5 axsAccessFilterStatsInListIndex{axsAccessFilterStatsInEntry 3}

Unsigned32 NA Index value of the access list that identifies the entry of this table.

A

6 axsAccessFilterStatsInSequenceNumber{axsAccessFilterStatsInEntry 4}

Unsigned32 NA Sequence number of the flow detection condition/operation information set for the access list identifier

A

7 axsAccessFilterStatsInListName{axsAccessFilterStatsInEntry 5}

DisplayString R/O Access list identifier corresponding to the access list index

A

8 axsAccessFilterStatsInMatchedPackets{axsAccessFilterStatsInEntry 6}

Counter64 R/O Number of packets matching the flow detection condition of the access listIf axsAccessFilterStatsInSequenceNumber is 4294967295, the number of packets discarded because they did not match any flow detection condition of the access list is indicated.0 if disabled.

A*

9 axsAccessFilterStatsOutTable{axsAccessFilterStats 2}

SEQUENCE OF AxsAccessFilterStatsOutEntry

NA Table information of the packet count matching the flow detection condition/operation information set out the access list

A[CB 2000]

N[CB 320]

170


* Although SYNTAX is Counter64, the count returns to 0 after 4294967295 is exceeded.

3.6.2 axsQosFlowStats Group

(1) Identifier axsFlow OBJECT IDENTIFIER ::= {axsMib 8} axsQosFlowStats OBJECT IDENTIFIER ::= {axsFlow 11}Object ID value 1.3.6.1.4.1.21839.2.2.1.8.11


The table below shows the implementation specifications of axsQosFlowStats group.

10 axsAccessFilterStatsOutEntry{axsAccessFilterStatsOutTable 1}

AxsAccessFilterStatsOutEntry

NA Entry on the packet count matching the flow detection condition/operation information set out the access listINDEX{ axsAccessFilterStatsOutifIndex,axsAccessFilterStatsOutifIndexType,axsAccessFilterStatsOutListIndex,axsAccessFilterStatsOutSequenceNumber }

A[CB 2000]

N[CB 320]

11 axsAccessFilterStatsOutifIndex{axsAccessFilterStatsOutEntry 1}


A[CB 2000]

N[CB 320]

12 axsAccessFilterStatsOutifIndexType{axsAccessFilterStatsOutEntry 2}


A[CB 2000]

N[CB 320]

13 axsAccessFilterStatsOutListIndex{axsAccessFilterStatsOutEntry 3}

Unsigned32 NA Index value of the access list that identifies the entry of this table.

A[CB 2000]

N[CB 320]

14 axsAccessFilterStatsOutSequenceNumber{axsAccessFilterStatsOutEntry 4}

Unsigned32 NA Sequence number of the flow detection condition/operation information set for the access list identifier

A[CB 2000]

N[CB 320]

15 axsAccessFilterStatsOutListName{axsAccessFilterStatsOutEntry 5}

DisplayString R/O Access list identifier corresponding to the access list index

A[CB 2000]

N[CB 320]

16 axsAccessFilterStatsOutMatchedPackets{axsAccessFilterStatsOutEntry 6}

Counter64 R/O Number of packets matching the flow detection condition of the access listIf axsAccessFilterStatsOutSequenceNumber is 4294967295, the number of packets discarded because they did not match any flow detection condition of the access list is indicated.0 if disabled.

A*

[CB 2000]N

[CB 320]


171


Table 3-23: Implementation Specifications of axsQosFlowStats Group

* Although SYNTAX is Counter64, the count returns to 0 after 4294967295 is exceeded.


1 axsQosFlowStatsInTable{axsQosFlowStats 1}

SEQUENCE OF axsQosFlowStatsInEntry

NA Packet count table information matching the QoS flow detection condition/operation information set in the QoS flow list

A

2 axsQosFlowStatsInEntry{axsQosFlowStatsInTable 1}

axsQosFlowStatsInEntry

NA Entry on the packet count matching the QoS flow detection condition/operation information set in the QoS flow listINDEX{ axsQosFlowStatsInifIndex,axsQosFlowStatsInifIndexType,axsQosFlowStatsInListIndex,axsQosFlowStatsInSequenceNumber }

A

3 axsQosFlowStatsInifIndex{axsQosFlowStatsInEntry 1}


A

4 axsQosFlowStatsInifIndexType{axsQosFlowStatsInEntry 2}


A

5 axsQosFlowStatsInListIndex{axsQosFlowStatsInEntry 3}

Unsigned32 NA QoS flow list index value that identifies the entry of this table.

A

6 axsQosFlowStatsInSequenceNumber{axsQosFlowStatsInEntry 4}

Unsigned32 NA Sequence number of the flow detection condition/operation information set for the QoS flow list name

A

7 axsQosFlowStatsInListName{axsQosFlowStatsInEntry 5}

DisplayString R/O QoS flow list name corresponding to the QoS flow list index

A

8 axsQosFlowStatsInMatchedPackets{axsQosFlowStatsInEntry 6}

Counter64 R/O Number of packets matching the flow detection condition of the QoS flow listReturns to 0 if the bandwidth monitoring function is used.

A*

9 axsQosFlowStatsInMatchedPacketsMinUnder{axsQosFlowStatsInEntry 7}

Counter64 R/O Number of packets matching the flow detection condition of the QoS flow list and following minimum bandwidth monitoringReturns to 0 if minimum bandwidth monitoring is not used.

A*

10 axsQosFlowStatsInMatchedPacketsMinOver{axsQosFlowStatsInEntry 8}

Counter64 R/O Number of packets matching the flow detection condition of the QoS flow list but violating minimum bandwidth monitoringReturns to 0 if minimum bandwidth monitoring is not used.

A*

11 axsQosFlowStatsInMatchedPacketsMaxUnder{axsQosFlowStatsInEntry 9}

Counter64 R/O Number of packets matching the flow detection condition of the QoS flow list and following maximum bandwidth controlReturns to 0 if maximum bandwidth control is not used.

A*

12 axsQosFlowStatsInMatchedPacketsMaxOver{axsQosFlowStatsInEntry 10}

Counter64 R/O Number of packets matching the flow detection condition of the QoS flow list but violating maximum bandwidth controlReturns to 0 if maximum bandwidth control is not used.

A*

172



3.7.1 axsL2ldGlobalInfo Group

(1) Identifier axsL2ld OBJECT IDENTIFIER ::= {axsMib 10} axsL2ldGlobalInfo OBJECT IDENTIFIER ::= {axsL2ld 1}Object ID value 1.3.6.1.4.1.21839.2.2.1.10.1 axsL2ldVersion OBJECT IDENTIFIER ::= {axsL2ldGlobalInfo 1}Object ID value 1.3.6.1.4.1.21839.2.2.1.10.1.1


The table below shows the implementation specifications of axsL2ldGlobalInfo group.

Table 3-24: Implementation Specifications of axsL2ldGlobalInfo group.

3.7.2 axsL2ldPortTable Group

(1) Identifier axsL2ld OBJECT IDENTIFIER ::= {axsMib 10} axsL2ldPortTable OBJECT IDENTIFIER ::= {axsL2ld 2}Object ID value 1.3.6.1.4.1.21839.2.2.1.10.2

No.

Object Identifier SYNTAX Access

Implementation Specifications Implemented

1 axsL2ldVersion{axsL2ldGlobalInfo 1}

INTEGER R/O Version of the L2 loop detection program.• Version 1 (1)

A

2 axsL2ldLoopDetectionId{axsL2ldGlobalInfo 2}

INTEGER R/O L2 loop detection ID.• Fixed to 0.

A

3 axsL2ldIntervalTime{axsL2ldGlobalInfo 3}

INTEGER R/O Transmission interval (seconds) of L2 loop detection frames.

A

4 axsL2ldOutputRate{axsL2ldGlobalInfo 4}

INTEGER R/O Transmission rate (packet/s) of L2 loop detection frames.

A

5 axsL2ldThreshold{axsL2ldGlobalInfo 5}

INTEGER R/O Number of detections repeated until the port become inactive.

A

6 axsL2ldHoldTime{axsL2ldGlobalInfo 6}

INTEGER R/O Retention period (seconds) of detection count.

A

7 axsL2ldAutoRestoreTime{axsL2ldGlobalInfo 7}

INTEGER R/O Time period (seconds) from when the port is inactivated to when it becomes active automatically.

A

8 axsL2ldConfigurationVlanPortCounts{axsL2ldGlobalInfo 8}

INTEGER R/O The number of VLAN ports for which transmission rate of L2 loop detection frames is set.

A

9 axsL2ldCapacityVlanPortCounts{axsL2ldGlobalInfo 9}

INTEGER R/O The number of VLAN ports which can send frames at the transmission rate (packet/s) of L2 loop detection frames.

A

173



The table below shows the implementation specifications of axsL2ldPortTable group.

Table 3-25: Implementation specifications of axsL2ldPortTable group.

No.

Object Identifier SYNTAX Access Implementation Specifications Implemented

1 axsL2ldPortTable{axsL2ld 2}

NOT-ACCESSIBLE

NA Table to store the port information of L2 loop detection.

A

2 axsL2ldPortEntry{axsL2ldPortTable 1}

NOT-ACCESSIBLE

NA A list of the L2 loop detection port information.INDEX { axsL2ldPortIndex, axsL2ldPortIfIndex }

A

3 axsL2ldPortIndex{axsL2ldPortEntry 1}

INTEGER R/O Fixed to 1. A

4 axsL2ldPortIfIndex{axsL2ldPortEntry 2}

INTEGER R/O ifIndex of the port.* A

5 axsL2ldPortStatus{axsL2ldPortEntry 3}

INTEGER R/O 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.

A

6 axsL2ldPortType{axsL2ldPortEntry 4}

INTEGER R/O 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

A

7 axsL2ldPortDetectCount{axsL2ldPortEntry 5}

INTEGER R/O L2 loop detection count. The number of L2 loop detection frames received within the retention period.

A

8 axsL2ldPortAutoRestoringTimer{axsL2ldPortEntry 6}

INTEGER R/O Automatic recovery time (seconds).0 (zero) when the port is active.

A

9 axsL2ldPortSourcePortIfindex{axsL2ldPortEntry 7}

INTEGER R/O ifIndex of the transmission port from which the last L2 loop detection frame was received. *

A

10 axsL2ldPortDestinationPortIfindex{axsL2ldPortEntry 8}

INTEGER R/O ifIndex of the port which received the last L2 loop detection frame. *

A

11 axsL2ldPortSourceVlan{axsL2ldPortEntry 9}

INTEGER R/O VLAN ID from which the last L2 loop detection frame was received.

A

12 axsL2ldPortHCInFrames{axsL2ldPortEntry 10}

Counter64 R/O The number of received L2 loop detection frames.

A

13 axsL2ldPortHCOutFrames{axsL2ldPortEntry 11}

Counter64 R/O The number of sent L2 loop detection frames.

A

14 axsL2ldPortHCInDiscards{axsL2ldPortEntry 12}

Counter64 R/O The number of L2 loop detection frames received and then discarded.

A

15 axsL2ldPortInactiveCount{axsL2ldPortEntry 13}

INTEGER R/O The number of times the port was inactivated.

A

16 axsL2ldPortLastInactiveTime{axsL2ldPortEntry 14}

TimeStamp R/O Last time when the port was inactivated.

A

17 axsL2ldPortLastInFramesTime{axsL2ldPortEntry 15}

TimeStamp R/O Last time when an L2 loop detection frame was received.

A

174


* For a port of link aggregation, ifIndex of the link aggregation is used.

175



3.8.1 axsOspfGeneralTable

(1) Identifier axsOspf OBJECT IDENTIFIER ::= {axsMib 14} axsOspfGeneralTable OBJECT IDENTIFIER ::= {axsOspf 1}Object ID value 1.3.6.1.4.1.21839.2.2.1.14.1


The table below shows the implementation specifications of axsOspfGeneralTable.

Table 3-26: Implementation Specifications of axsOspfGeneralTable


1 axsOspfGeneralTable{axsOspf 1}

NOT-ACCESSIBLE

NA Table storing OSPF information. A

2 axsOspfGeneralEntry{axsOspfGeneralTable 1}

NOT-ACCESSIBLE

NA List of OSPF information.INDEX { axsOspfGeneralDomainNumber }

A

3 axsOspfGeneralDomainNumber{axsOspfGeneralEntry 1}

INTEGER R/O OSPF domain number. A

4 axsOspfRouterId{axsOspfGeneralEntry 2}

IpAddress R/O Router identifier of router. A

5 axsOspfAdminStat{axsOspfGeneralEntry 3}

INTEGER R/O OSPF management status of router.• enabled (1)• disabled (2)

A

6 axsOspfVersionNumber{axsOspfGeneralEntry 4}

INTEGER R/O Version number of OSPF protocol. 2 fixed. A

7 axsOspfAreaBdrRtrStatus{axsOspfGeneralEntry 5}

INTEGER R/O Indicates whether the router is an area boarder router.• true (1)• false (2)

A

8 axsOspfASBdrRtrStatus{axsOspfGeneralEntry 6}

INTEGER R/O Indicates whether the router is an AS boundary router.• true (1)• false (2)

A

9 axsOspfExternLsaCount{axsOspfGeneralEntry 7}

Gauge R/O Number of external link state advertisements (LSA) in link state database (LSDB).

A

10 axsOspfExternLsaCksumSum{axsOspfGeneralEntry 8}

INTEGER R/O Total LS checksum of external LSA in LSDB.

A

11 axsOspfTOSSupport{axsOspfGeneralEntry 9}

INTEGER R/O Flag indicating whether the router supports the TOS base routing. false (2) fixed.• true (1)• false (2)

A

12 axsOspfOriginateNewLsas{axsOspfGeneralEntry 10}

Counter R/O Number of newly created LSAs. A

13 axsOspfRxNewLsas{axsOspfGeneralEntry 11}

Counter R/O Number of receiving LSA with new information.

A

176


3.8.2 axsOspfAreaTable

(1) Identifier axsOspf OBJECT IDENTIFIER ::= {axsMib 14} axsOspfAreaTable OBJECT IDENTIFIER ::= {axsOspf 2}Object ID value 1.3.6.1.4.1.21839.2.2.1.14.2


The table below shows the implementation specifications of axsOspfAreaTable.

Table 3-27: Implementation Specifications of axsOspfAreaTable

14 axsOspfExtLsdbLimit{axsOspfGeneralEntry 12}

INTEGER R/O Maximum number of entries in AS external LSA that can be stored in LSDB. For -1, no limit. Fixed to -1.

A

15 axsOspfMulticastExtensions{axsOspfGeneralEntry 13}

INTEGER R/O 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).

A


1 axsOspfAreaTable{axsOspf 2}

NOT-ACCESSIBLE

NA Table storing information related to each area where router is connected.

A

2 axsOspfAreaEntry{axsOspfAreaTable 1}

NOT-ACCESSIBLE

NA List of information of each area.INDEX { axsOspfAreaDomainNumber, axsOspfAreaId }

A

3 axsOspfAreaDomainNumber{axsOspfAreaEntry 1}


4 axsOspfAreaId{axsOspfAreaEntry 2}

IpAddress R/O Number identifying area. A

5 axsOspfAuthType{axsOspfAreaEntry 3}

INTEGER R/O Type of authentication employed in the area.• None (0)• simple password (1)• md5(2)

A

6 axsOspfImportAsExtern{axsOspfAreaEntry 4}

INTEGER R/O Flag indicating whether the router retrieves AS external link state advertisements (LSA).• importExternal (1)• importNoExternal (2)• importNssa (3)

A

7 axsOspfSpfRuns{axsOspfAreaEntry 5}

Counter R/O Number of times calculating routes in area using link state database (LSDB) of this area

A

8 axsOspfAreaBdrRtrCount{axsOspfAreaEntry 6}

Gauge R/O Total number of border routers that can be reached in this area.

A

9 axsOspfAsBdrRtrCount{axsOspfAreaEntry 7}

Gauge R/O Total number of AS boundary routers that can be reached in this area.

A

10 axsOspfAreaLsaCount{axsOspfAreaEntry 8}

Gauge R/O Number of LSAs in LSDB of this area, not including AS external LSA.

A


177


3.8.3 axsOspfStubAreaTable

(1) Identifier axsOspf OBJECT IDENTIFIER ::= {axsMib 14} axsOspfStubAreaTable OBJECT IDENTIFIER ::= {axsOspf 3}Object ID value 1.3.6.1.4.1.21839.2.2.1.14.3


The table below shows the implementation specifications of axsOspfStubAreaTable.

Table 3-28: Implementation Specifications of axsOspfStubAreaTable

3.8.4 axsOspfLsdbTable

(1) Identifier axsOspf OBJECT IDENTIFIER ::= {axsMib 14}

11 axsOspfAreaLsaCksumSum{axsOspfAreaEntry 9}

INTEGER R/O Total LS checksum of LSA included in LSDB of this area.

A

12 axsOspfAreaSummary{axsOspfAreaEntry 10}

INTEGER R/O Variable value on the import control of summary LSA to stub area. However, fixed to sendAreaSummary (2).• noAreaSummary (1)• sendAreaSummary (2)

A

13 axsOspfAreaStatus{axsOspfAreaEntry 11}

INTEGER R/O Indicates the status of entry.active (1) fixed.

A


1 axsOspfStubAreaTable{axsOspf 3}

NOT-ACCESSIBLE

NA Table of information advertised in stub area using area border router.

A

2 axsOspfStubAreaEntry{axsOspfStubAreaTable 1}

NOT-ACCESSIBLE

NA List of information of each stub area.INDEX { axsOspfStubDomainNumber, axsOspfStubAreaId, axsOspfStubTOS }

A

3 axsOspfStubDomainNumber{axsOspfStubAreaEntry 1}


4 axsOspfStubAreaId{axsOspfStubAreaEntry 2}

IpAddress R/O ID of stub area. A

5 axsOspfStubTOS{axsOspfStubAreaEntry 3}

INTEGER R/O Type of service in the stub area. However, 0 fixed.

A

6 axsOspfStubMetric{axsOspfStubAreaEntry 4}

INTEGER R/O Metric corresponding to the service type in the stub area.

A

7 axsOspfStubStatus{axsOspfStubAreaEntry 5}


A

8 axsOspfStubMetricType{axsOspfStubAreaEntry 6}

INTEGER R/O Indicates the type of the metric advertised as a default route.• ospfMetric (1)• comparableCost (2)• nonComparable (3)

A


178


axsOspfLsdbTable OBJECT IDENTIFIER ::= {axsOspf 4}Object ID value 1.3.6.1.4.1.21839.2.2.1.14.4


The table below shows the implementation specifications of axsOspfLsdbTable.

Table 3-29: Implementation Specifications of axsOspfLsdbTable

3.8.5 axsOspfAreaRangeTable

(1) Identifier axsOspf OBJECT IDENTIFIER ::= {axsMib 14} axsOspfAreaRangeTable OBJECT IDENTIFIER ::= {axsOspf 5}Object ID value 1.3.6.1.4.1.21839.2.2.1.14.5


The table below shows the implementation specifications of axsOspfAreaRangeTable.


1 axsOspfLsdbTable{axsOspf 4}

NOT-ACCESSIBLE

NA Table storing information related to the link state database (LSDB) of OSPF process.

A

2 axsOspfLsdbEntry{axsOspfLsdbTable 1}

NOT-ACCESSIBLE

NA List of link state advertisements (LSA).INDEX { axsOspfLsdbDomainNumber, axsOspfLsdbAreaId, axsOspfLsdbType, axsOspfLsdbLsid, axsOspfLsdbRouterId }

A

3 axsOspfLsdbDomainNumber{axsOspfLsdbEntry 1}


4 axsOspfLsdbAreaId{axsOspfLsdbEntry 2}

IpAddress R/O Area ID of the reception source area of this LSA. A

5 axsOspfLsdbType{axsOspfLsdbEntry 3}

INTEGER R/O Type of LSA.• router (1)• Network (2)• Summary (3)• AS summary (4)• AS external link (5)• Multicast (6)• nssa external link (7)

A

6 axsOspfLsdbLsid{axsOspfLsdbEntry 4}

IpAddress R/O ID identifying each routing domain. A

7 axsOspfLsdbRouterId{axsOspfLsdbEntry 5}

IpAddress R/O ID of router which created LSA. A

8 axsOspfLsdbSequence{axsOspfLsdbEntry 6}

INTEGER R/O Sequence number of LSA. A

9 axsOspfLsdbAge{axsOspfLsdbEntry 7}

INTEGER R/O Elapsed time after this LSA was created (unit: second(s)).

A

10 axsOspfLsdbChecksum{axsOspfLsdbEntry 8}

INTEGER R/O Checksum of this LSA. A

11 axsOspfLsdbAdvertisement{axsOspfLsdbEntry 9}

OCTET STRING

R/O Entire LSA including header. A

179


Table 3-30: Implementation Specifications of axsOspfAreaRangeTable

3.8.6 axsOspfIfTable

(1) Identifier axsOspf OBJECT IDENTIFIER ::= {axsMib 14} axsOspfIfTable OBJECT IDENTIFIER ::= {axsOspf 7}Object ID value 1.3.6.1.4.1.21839.2.2.1.14.7


The table below shows the implementation specifications of axsOspfIfTable.

Table 3-31: Implementation Specifications of axsOspfIfTable


1 axsOspfAreaRangeTable{axsOspf 5}

NOT-ACCESSIBLE

NA Table storing information related to the range of address in the area where router is connected.

A

2 axsOspfAreaRangeEntry{axsOspfAreaRangeTable 1}

NOT-ACCESSIBLE

NA List storing information related to the range of address in the area where router is connected.INDEX { axsOspfDomainNumber, axsOspfAreaRangeAreaId, axsOspfAreaRangeNet }

A

3 axsOspfAreaRangeDomainNumber{axsOspfAreaRangeEntry 1}


4 axsOspfAreaRangeAreaId{axsOspfAreaRangeEntry 2}

IpAddress R/O ID of area. A

5 axsOspfAreaRangeNet{axsOspfAreaRangeEntry 3}

IpAddress R/O IP address of net and subnet in this range. A

6 axsOspfAreaRangeMask{axsOspfAreaRangeEntry 4}

IpAddress R/O Subnet mask to be attached to axsOspfAreaRangeNet.

A

7 axsOspfAreaRangeStatus{axsOspfAreaRangeEntry 5}


A

8 axsOspfAreaRangeEffect{axsOspfAreaRangeEntry 6}

INTEGER R/O Indicates the range of advertised area.• Subnet advertised outside the area (1)• Subnet not advertised outside the area (2)

A


1 axsOspfIfTable{axsOspf 7}

NOT-ACCESSIBLE

NA Table storing information of each interface where router is connected.

A

2 axsOspfIfEntry{axsOspfIfTable 1}

NOT-ACCESSIBLE

NA List storing information of each interface where router is connected.INDEX { axsOspfIfDomainNumber, axsOspfIfIpAddress, axsOspfAddressLessIf }

A

3 axsOspfIfDomainNumber{axsOspfIfEntry 1}


4 axsOspfIfIpAddress{axsOspfIfEntry 2}

IpAddress R/O IP address of this OSPF interface. A

5 axsOspfAddressLessIf{axsOspfIfEntry 3}

INTEGER R/O Identifier of interface that is valid when this interface is an address-less interface.

A

180


3.8.7 axsOspfIfMetricTable

(1) Identifier axsOspf OBJECT IDENTIFIER ::= {axsMib 14}

6 axsOspfIfAreaId{axsOspfIfEntry 4}

IpAddress R/O Area ID of area where this interface is connected. A

7 axsOspfIfType{axsOspfIfEntry 5}

INTEGER R/O Type of interface.• Broadcast (1)• Non-broadcast (2)• Point-Point (3)• Point-Multipoint (5)

A

8 axsOspfIfAdminStat{axsOspfIfEntry 6}

INTEGER R/O Management status of interface.• enabled (1)• disabled (2)

A

9 axsOspfIfRtrPriority{axsOspfIfEntry 7}

INTEGER R/O Priority of this interface. A

10 axsOspfIfTransitDelay{axsOspfIfEntry 8}

INTEGER R/O Time needed for sending link state update packet on this interface (unit: second(s)).

A

11 axsOspfIfRetransInterval{axsOspfIfEntry 9}

INTEGER R/O Resend interval of link state advertisement (LSA) (unit: second(s)).

A

12 axsOspfIfHelloInterval{axsOspfIfEntry 10}

INTEGER R/O Send interval of Hello packet (unit: second(s)). A

13 axsOspfIfRtrDeadInterval{axsOspfIfEntry 11}

INTEGER R/O Maximum allowable receiving interval of Hello packet (unit: second(s)).

A

14 axsOspfIfPollInterval{axsOspfIfEntry 12}

INTEGER R/O Send interval of Hello packet to inactive neighbor office in non-broadcast multiple access network (unit: second(s)).

A

15 axsOspfIfState{axsOspfIfEntry 13}

INTEGER R/O State of interface.• down (1)• loopback (2)• waiting (3)• PtoP (4)• DR (5)• BDR (6)• other (7)

A

16 axsOspfIfDesignatedRouter{axsOspfIfEntry 14}

IpAddress R/O IP address of designated router. A

17 axsOspfIfBackupDesignatedRouter{axsOspfIfEntry 15}

IpAddress R/O IP address of backup designated router. A

18 axsOspfIfEvents{axsOspfIfEntry 16}

Counter R/O How often the status changed or error occurred in this interface.

A

19 axsOspfIfAuthKey{axsOspfIfEntry 17}

OCTET STRING

R/O Authentication key in this interface. A

20 axsOspfIfStatus{axsOspfIfEntry 18}


A

21 axsOspfIfMulticastForwarding{axsOspfIfEntry 19}

INTEGER R/O Multicasting method in this interface. blocked (1) fixed.• blocked (1)• multicast (2)• unicast (3)

A


181


axsOspfIfMetricTable OBJECT IDENTIFIER ::= {axsOspf 8}Object ID value 1.3.6.1.4.1.21839.2.2.1.14.8


The table below shows the implementation specifications of axsOspfIfMetricTable.

Table 3-32: Implementation Specifications of axsOspfIfMetricTable

3.8.8 axsOspfVirtIfTable

(1) Identifier axsOspf OBJECT IDENTIFIER ::= {axsMib 14} axsOspfVirtIfTable OBJECT IDENTIFIER ::= {axsOspf 9}Object ID value 1.3.6.1.4.1.21839.2.2.1.14.9


The table below shows the implementation specifications of axsOspfVirtIfTable.

Table 3-33: Implementation Specifications of axsOspfVirtIfTable


1 axsOspfIfMetricTable{axsOspf 8}

NOT-ACCESSIBLE

NA Table storing service type metric information of each interface.

A

2 axsOspfIfMetricEntry{axsOspfIfMetricTable 1}

NOT-ACCESSIBLE

NA List of information of the service type metric of each interface.INDEX { axsOspfIfMetricDomainNumber, axsOspfIfMetricIpAddress, axsOspfIfMetricAddressLessIf, axsOspfIfMetricTOS }

A

3 axsOspfIfMetricDomainNumber{axsOspfMetricEntry 1}


4 axsOspfIfMetricIpAddress{axsOspfMetricEntry 2}

IpAddress R/O IP address of this OSPF interface. A

5 axsOspfIfMetricAddressLessIf{axsOspfMetricEntry 3}

INTEGER R/O Identifier of interface that is valid when this interface is an address-less interface.

A

6 axsOspfIfMetricTOS{axsOspfMetricEntry 4}

INTEGER R/O Service type of this interface.0 fixed.

A

7 axsOspfIfMetricValue{axsOspfMetricEntry 5}

INTEGER R/O Service type metric of this interface. A

8 axsOspfIfMetricStatus{axsOspfMetricEntry 6}


A


1 axsOspfVirtIfTable{axsOspf 9}

NOT-ACCESSIBLE

NA Table storing information of virtual interface where router is connected.

A

2 axsOspfVirtIfEntry{axsOspfVirtIfTable 1}

NOT-ACCESSIBLE

NA List of information of each virtual interface.INDEX { axsOspfVirtIfDomainNumber, axsOspfVirtIfAreaId, axsOspfVirtIfNeighbor }

A

3 axsOspfVirtIfDomainNumber{axsOspfVirtIfEntry 1}


182


3.8.9 axsOspfNbrTable

(1) Identifier axsOspf OBJECT IDENTIFIER ::= {axsMib 14} axsOspfNbrTable OBJECT IDENTIFIER ::= {axsOspf 10}Object ID value 1.3.6.1.4.1.21839.2.2.1.14.10


The table below shows the implementation specifications of axsOspfNbrTable.

Table 3-34: Implementation Specifications of axsOspfNbrTable

4 axsOspfVirtIfAreaId{axsOspfVirtIfEntry 2}

IpAddress R/O Area ID of area through which the virtual link passes.

A

5 axsOspfVirtIfNeighbor{axsOspfVirtIfEntry 3}

IpAddress R/O Router ID of virtual neighboring router. A

6 axsOspfVirtIfTransitDelay{axsOspfVirtIfEntry 4}


A

7 axsOspfVirtIfRetransInterval{axsOspfVirtIfEntry 5}


A

8 axsOspfVirtIfHelloInterval{axsOspfVirtIfEntry 6}


9 axsOspfVirtIfRtrDeadInterval{axsOspfVirtIfEntry 7}


A

10 axsOspfVirtIfState{axsOspfVirtIfEntry 8}

INTEGER R/O State of interface.• down (1)• PtoP (4)

A

11 axsOspfVirtIfEvents{axsOspfVirtIfEntry 9}


A

12 axsOspfVirtIfAuthKey{axsOspfVirtIfEntry 10}

OCTET STRING

R/O Authentication key in this interface. A

13 axsOspfVirtIfStatus{axsOspfVirtIfEntry 11}


A


1 axsOspfNbrTable{axsOspf 10}

NOT-ACCESSIBLE

NA Table storing information of non-virtual neighboring office.

A

2 axsOspfNbrEntry{axsOspfNbrTable 1}

NOT-ACCESSIBLE

NA List of information of each neighboring office.INDEX { axsOspfNbrDomainNumber, axsOspfNbrIpAddr, axsOspfNbrAddressLessIndex }

A

3 axsOspfNbrDomainNumber{axsOspfNbrEntry 1}


4 axsOspfNbrIpAddr{axsOspfNbrEntry 2}

IpAddress R/O IP address of neighboring router. A

5 axsOspfNbrAddressLessIndex{axsOspfNbrEntry 3}

INTEGER R/O Identifier of interface that is valid when the interface of neighboring router is an address interface.

A

6 axsOspfNbrRtrId{axsOspfNbrEntry 4}

IpAddress R/O Router ID of neighboring router. A


183


3.8.10 axsOspfVirtNbrTable

(1) Identifier axsOspf OBJECT IDENTIFIER ::= {axsMib 14} axsOspfVirtNbrTable OBJECT IDENTIFIER ::= {axsOspf 11}Object ID value 1.3.6.1.4.1.21839.2.2.1.14.11


The table below shows the implementation specifications of axsOspfVirtNbrTable.

Table 3-35: Implementation Specifications of axsOspfVirtNbrTable

7 axsOspfNbrOptions{axsOspfNbrEntry 5}

INTEGER R/O Optional execution capacity of neighboring router.• Bit 0: Service type base routing• Bit 1: External area processing• Bit 2: IP multicast routing• Bit 3: Area related to NSSA

A

8 axsOspfNbrPriority{axsOspfNbrEntry 6}

INTEGER R/O Priority of neighboring router. A

9 axsOspfNbrState{axsOspfNbrEntry 7}

INTEGER R/O State indicating the relation with this neighboring router.• down (1)• attempt (2)• init (3)• twoWay (4)• exchangeStart (5)• exchange (6)• loading (7)• full (8)

A

10 axsOspfNbrEvents{axsOspfNbrEntry 8}

Counter R/O How often the status changed or error occurred concerning relationship with the neighboring router.

A

11 axsOspfNbrLsRetransQLen{axsOspfNbrEntry 9}

Gauge R/O Current length of retransmission queue. A

12 axsOspfNbmaNbrStatus{axsOspfNbrEntry 10}

INTEGER R/O Indicates the status of entry.active (1) fixed.Can be accessed only when axsOspfIfType is nbma.

A

13 axsOspfNbmaNbrPermanence{axsOspfNbrEntry 11}

INTEGER R/O Method for routing with neighboring router.• dynamic (1)• permanent (2)

A


1 axsOspfVirtNbrTable{axsOspf 11}

NOT-ACCESSIBLE

NA Table storing information of virtual neighboring router.

A

2 axsOspfVirtNbrEntry{axsOspfVirtNbrTable 1}

NOT-ACCESSIBLE

NA List of information of each virtual neighboring router.INDEX { axsOspfVirtNbrDomainNumber, axsOspfVirtNbrArea, axsOspfVirtNbrRtrId }

A

3 axsOspfVirtNbrDomainNumber{axsOspfVirtNbrEntry 1}



184


3.8.11 axsOspfExtLsdbTable

(1) Identifier axsOspf OBJECT IDENTIFIER ::= {axsMib 14} axsOspfExtLsdbTable OBJECT IDENTIFIER ::= {axsOspf 12}Object ID value 1.3.6.1.4.1.21839.2.2.1.14.12


The table below shows the implementation specifications of axsOspfExtLsdbTable.

Table 3-36: Implementation Specifications of axsOspfExtLsdbTable

4 axsOspfVirtNbrArea{axsOspfVirtNbrEntry 2}

IpAddress R/O Area ID of transit area. A

5 axsOspfVirtNbrRtrId{axsOspfVirtNbrEntry 3}


6 axsOspfVirtNbrIpAddr{axsOspfVirtNbrEntry 4}

IpAddress R/O IP address of virtual neighboring router. A

7 axsOspfVirtNbrOptions{axsOspfVirtNbrEntry 5}

INTEGER R/O Optional execution capacity of virtual neighboring router.• Bit 1: Service type base routing• Bit 2: IP multicast routing

A

8 axsOspfVirtNbrState{axsOspfVirtNbrEntry 6}

INTEGER R/O 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)

A

9 axsOspfVirtNbrEvents{axsOspfVirtNbrEntry 7}

Counter R/O How often the status of this virtual link changed or error occurred.

A

10 axsOspfVirtNbrLsRetransQLen{axsOspfVirtNbrEntry 8}



1 axsOspfExtLsdbTable{axsOspf 12}

NOT-ACCESSIBLE

NA Table of link state database (LSDB) ofOSPF processing.

A

2 axsOspfExtLsdbEntry{axsOspfExtLsdbTable 1}

NOT-ACCESSIBLE

NA List of link state advertisements (LSA).INDEX { axsOspfExtLsdbDomainNumber, axsOspfExtLsdbType, axsOspfExtLsdbLsid, axsOspfExtLsdbRouterId }

A

3 axsOspfExtLsdbDomainNumber{axsOspfExtLsdbEntry 1}


4 axsOspfExtLsdbType{axsOspfExtLsdbEntry 2}

INTEGER R/O Type of LSA.• asExternalLink (5)

A

5 axsOspfExtLsdbLsid{axsOspfExtLsdbEntry 3}

IpAddress R/O Link status ID. Link status ID is the field that includes either router ID or IP address.

A


185


3.8.12 axsOspfAreaAggregateTable

(1) Identifier axsOspf OBJECT IDENTIFIER ::= {axsMib 14} axsOspfAreaAggregateTable OBJECT IDENTIFIER ::= {axsOspf 14}Object ID value 1.3.6.1.4.1.21839.2.2.1.14.14


The table below shows the implementation specifications of axsOspfAreaAggregateTable.

Table 3-37: Implementation Specifications of axsOspfAreaAggregateTable

6 axsOspfExtLsdbRouterId{axsOspfExtLsdbEntry 4}

IpAddress R/O 32-bit number for uniquely identifying the creation source router in an autonomous system.

A

7 axsOspfExtLsdbSequence{axsOspfExtLsdbEntry 5}


8 axsOspfExtLsdbAge{axsOspfExtLsdbEntry 6}

INTEGER R/O Elapsed time after the LSA was created (unit: second(s)).

A

9 axsOspfExtLsdbChecksum{axsOspfExtLsdbEntry 7}

INTEGER R/O Checksum of advertisement contents not including an Age field.

A

10 axsOspfExtLsdbAdvertisement{axsOspfExtLsdbEntry 8}

OCTET STRING

R/O Completely full LSA including a header. A


1 axsOspfAreaAggregateTable{axsOspf 14}

NOT-ACCESSIBLE

NA Table of IP address with the IP address and IP subnet mask specified as a pair

A

2 axsOspfAreaAggregateEntry{axsOspfAreaAggregateTable 1}

NOT-ACCESSIBLE

NA List of IP address with the IP address and IP subnet mask specified as a pair.INDEX {axsOspfAreaAggregateDomainNumber, axsOspfAreaAggregateAreaID, axsOspfAreaAggregateLsdbType, axsOspfAreaAggregateNet, axsOspfAreaAggregateMask }

A

3 axsOspfAreaAggregateDomainNumber{axsOspfAreaAggregateEntry 1}


4 axsOspfAreaAggregateAreaID{axsOspfAreaAggregateEntry 2}

IpAddress R/O Area where addresses are aggregated. A

5 axsOspfAreaAggregateLsdbType{axsOspfAreaAggregateEntry 3}

INTEGER R/O 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)

A

6 axsOspfAreaAggregateNet{axsOspfAreaAggregateEntry 4}

IpAddress R/O IP address of network or subnet. A

7 axsOspfAreaAggregateMask{axsOspfAreaAggregateEntry 5}

IpAddress R/O Subnet mask related to network or subnet. A


186


3.8.13 axsOspfTrap

(1) Identifier axsOspf OBJECT IDENTIFIER ::= {axsMib 14} axsOspfTrap OBJECT IDENTIFIER ::= {axsOspf 16}Object ID value 1.3.6.1.4.1.21839.2.2.1.14.16


The table below shows the implementation specifications of axsOspfTrap group.

Table 3-38: Implementation Specifications of axsOspfAreaAggregateTable

8 axsOspfAreaAggregateStatus{axsOspfAreaAggregateEntry 6}


A

9 axsOspfAreaAggregateEffect{axsOspfAreaAggregateEntry 7}

INTEGER R/O 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)• doNotAdvertiseMatching (2)

A


1 axsOspfTrapControlTable{axsOspfTrap 1}

NOT-ACCESSIBLE

NA Trap-related information obtained. A

2 axsOspfTrapControlEntry{axsOspfTrapControlTable 1}

NOT-ACCESSIBLE

NA List of trap-related information obtained.INDEX { axsOspfTrapDomainNumber }

A

3 axsOspfTrapDomainNumber{axsOspfTrapControlEntry 1}


4 axsOspfSetTrap{axsOspfTrapControlEntry 2}


R/O Bit map indicating the trap-allowable event. Each bit indicates object of axsOspfTraps (0x100fe fixed).21 bit (0x00000002):axsOspfVirtIfStateChange to216 bit (0x00010000):axsOspfIfStateChange

A

5 axsOspfConfigErrorType{axsOspfTrapControlEntry 3}

INTEGER R/O Error event which occurred most recently.• noError (0)• badVersion (1)• areaMismatch (2)• unknownNbmaNbr (3)• unknownVirtualNbr (4)• authTypeMismatch (5)• authFailure (6)• netMaskMismatch (7)• helloIntervalMismatch (8)• deadIntervalMismatch (9)• optionMismatch (10)

A

6 axsOspfPacketType{axsOspfTrapControlEntry 4}

INTEGER R/O Type of latest error packet.• noError (0)• hello (1)• dbDescript (2)• lsReq (3)• lsUpdate (4)• lsAck (5)

A


187


7 axsOspfPacketSrc{axsOspfTrapControlEntry 5}

IpAddress R/O Source address of latest error packet. 0.0.0.0 if no error event occurs.

A

8 axsOspfTraps{axsOspfTrap 2}

NOT-ACCESSIBLE

NA Trap advertisement A


188



3.9.1 axsOspfv3GeneralTable

(1) Identifier axsOspfv3 OBJECT IDENTIFIER ::= {axsMib 15} axsOspfv3GeneralTable OBJECT IDENTIFIER ::= {axsOspfv3 1}Object ID value 1.3.6.1.4.1.21839.2.2.1.15.1


The table below shows the implementation specifications of axsOspfv3GeneralTable.

Table 3-39: Implementation Specifications of axsOspfv3GeneralTable


1 axsOspfv3GeneralTable{axsOspfv3 1}

NOT-ACCESSIBLE

NA Table storing OSPFv3 information. A

2 axsOspfv3GeneralEntry{axsOspfv3GeneralTable 1}

NOT-ACCESSIBLE

NA List of OSPFv3 information.INDEX{ axsOspfv3GeneralDomainNumber }

A

3 axsOspfv3GeneralDomainNumber{axsOspfv3GeneralEntry 1}

INTEGER R/O OSPFv3 domain number. A

4 axsOspfv3RouterId{axsOspfv3GeneralEntry 2}

IpAddress R/O Router identifier of router. A

5 axsOspfv3AdminStat{axsOspfv3GeneralEntry 3}

INTEGER R/O OSPFv3 management status of router.• enabled (1)• disabled (2)

A

6 axsOspfv3VersionNumber{axsOspfv3GeneralEntry 4}

INTEGER R/O Version number of OSPFv3 protocol. Fixed to 3.

A

7 axsOspfv3AreaBdrRtrStatus{axsOspfv3GeneralEntry 5}

INTEGER R/O Indicates whether the router is an area boarder router.• true (1)• false (2)

A

8 axsOspfv3ASBdrRtrStatus{axsOspfv3GeneralEntry 6}

INTEGER R/O Indicates whether the router is an AS boundary router.• true (1)• false (2)

A

9 axsOspfv3AsScopeLsaCount{axsOspfv3GeneralEntry 7}

Gauge R/O Number of external link state advertisements (LSA) in link state database (LSDB).

A

10 axsOspfv3AsScopeLsaCksumSum{axsOspfv3GeneralEntry 8}

INTEGER R/O Total LS checksum of AsScopeLSA in LSDB.

A

11 axsOspfv3OriginateNewLsas{axsOspfv3GeneralEntry 9}

Counter R/O Number of newly created LSAs. A

12 axsOspfv3RxNewLsas{axsOspfv3GeneralEntry 10}

Counter R/O Number of receiving LSA with new information.

A

13 axsOspfv3ExtAreaLsdbLimit{axsOspfv3GeneralEntry 11}

INTEGER R/O Maximum number of entries in AS external LSA that can be stored in LSDB. For -1, no limit. Fixed to -1.

A

189


3.9.2 axsOspfv3AreaTable

(1) Identifier axsOspfv3 OBJECT IDENTIFIER ::= {axsMib 15} axsOspfv3AreaTable OBJECT IDENTIFIER ::= {axsOspfv3 2}Object ID value 1.3.6.1.4.1.21839.2.2.1.15.2


The table below shows the implementation specifications of axsOspfv3AreaTable.

Table 3-40: Implementation Specifications of axsOspfv3AreaTable

14 axsOspfv3MulticastExtensions{axsOspfv3GeneralEntry 12}

INTEGER R/O 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).

A

15 axsOspfv3DemandExtensions{axsOspfv3GeneralEntry 14}

INTEGER R/O Support of Demand routing through this router.false (2) fixed.

A

16 axsOspfv3TrafficEngineeringSupport{axsOspfv3GeneralEntry 15}

INTEGER R/O Support of traffic engineering extension through this router. false (2) fixed.

A


1 axsOspfv3AreaTable{axsOspfv3 2}

NOT-ACCESSIBLE

NA Table storing information related to each area where router is connected.

A

2 axsOspfv3AreaEntry{axsOspfv3AreaTable 1}

NOT-ACCESSIBLE

NA List of information of each area.INDEX { axsOspfv3AreaDomainNumber, axsOspfv3AreaId }

A

3 axsOspfv3AreaDomainNumber{axsOspfv3AreaEntry 1}


4 axsOspfv3AreaId{axsOspfv3AreaEntry 2}

IpAddress R/O Number identifying area. A

5 axsOspfv3ImportAsExtern{axsOspfv3AreaEntry 3}

INTEGER R/O Flag indicating whether the router retrieves AS external link state advertisements (LSA).• importExternal (1)• importNoExternal (2)• importNssa (3)

A

6 axsOspfv3SpfRuns{axsOspfv3AreaEntry 4}

Counter R/O Number of times calculating routes in area using link state database (LSDB) of this area

A

7 axsOspfv3AreaBdrRtrCount{axsOspfv3AreaEntry 5}

Gauge R/O Total number of border routers that can be reached in this area.

A

8 axsOspfv3AsBdrRtrCount{axsOspfv3AreaEntry 6}

Gauge R/O Total number of AS boundary routers that can be reached in this area.

A

9 axsOspfv3AreaScopeLsaCount{axsOspfv3AreaEntry 7}

Gauge R/O Number of AreaScope LSAs in the LSDB of this area.

A

10 axsOspfv3AreaScopeLsaCksumSum{axsOspfv3AreaEntry 8}

INTEGER R/O Total of LS checksums of AreaScopeLSAs in the LSDB of this area.

A


190


3.9.3 axsOspfv3AsLsdbTable

(1) Identifier axsOspfv3 OBJECT IDENTIFIER ::= {axsMib 15} axsOspfv3AsLsdbTable OBJECT IDENTIFIER ::= {axsOspfv3 3}Object ID value 1.3.6.1.4.1.21839.2.2.1.15.3


The table below shows the implementation specifications of axsOspfv3AsLsdbTable.

Table 3-41: Implementation Specifications of axsOspfv3AsLsdbTable

11 axsOspfv3AreaSummary{axsOspfv3AreaEntry 9}

INTEGER R/O Variable value on the import control of summary LSA to stub area. However, fixed to sendAreaSummary (2).• noAreaSummary (1)• sendAreaSummary (2)

A

12 axsOspfv3AreaStatus{axsOspfv3AreaEntry 10}


A

13 axsOspfv3StubMetric{axsOspfv3AreaEntry 11}

INTEGER R/O Default route metrics value to be advertised to stub or NSSA area.

A


1 axsOspfv3AsLsdbTable{axsOspfv3 3}

NOT-ACCESSIBLE

NA Table storing information related to AS Scope link status database of the OSPFv3 process.

A

2 axsOspfv3AsLsdbEntry{axsOspfv3AsLsdbTable 1}

NOT-ACCESSIBLE

NA List of link state advertisements (LSA).INDEX { axsOspfv3AsLsdbDomainNumber, axsOspfv3AsLsdbType, axsOspfv3AsLsdbRouterId, axsOspfv3AsLsdbLsid }

A

3 axsOspfv3AsLsdbDomainNumber{axsOspfv3AsLsdbEntry 1}


4 axsOspfv3AsLsdbType{axsOspfv3AsLsdbEntry 2}

INTEGER R/O Type of LSA.• asExternal (0x4005)

A

5 axsOspfv3AsLsdbRouterId{axsOspfv3AsLsdbEntry 3}


6 axsOspfv3AsLsdbLsid{axsOspfv3AsLsdbEntry 4}

IpAddress R/O ID to identify each individual LSA. A

7 axsOspfv3AsLsdbSequence{axsOspfv3AsLsdbEntry 5}


8 axsOspfv3AsLsdbAge{axsOspfv3AsLsdbEntry 6}


A

9 axsOspfv3AsLsdbChecksum{axsOspfv3AsLsdbEntry 7}


10 axsOspfv3AsLsdbAdvertisement{axsOspfv3AsLsdbEntry 8}

OCTET STRING



191


3.9.4 axsOspfv3AreaLsdbTable

(1) Identifier axsOspfv3 OBJECT IDENTIFIER ::= {axsMib 15} axsOspfv3AreaLsdbTable OBJECT IDENTIFIER ::= {axsOspfv3 4}Object ID value 1.3.6.1.4.1.21839.2.2.1.15.4


The table below shows the implementation specifications of axsOspfv3AreaLsdbTable.

Table 3-42: Implementation Specifications of axsOspfv3AreaLsdbTable

3.9.5 axsOspfv3LinkLsdbTable

(1) Identifier axsOspfv3 OBJECT IDENTIFIER ::= {axsMib 15} axsOspfv3LinkLsdbTable OBJECT IDENTIFIER ::= {axsOspfv3 5}


1 axsOspfv3AreaLsdbTable{axsOspfv3 4}

NOT-ACCESSIBLE

NA Table storing information related to AreaScope link status database of the OSPFv3 process.

A

2 axsOspfv3AreaLsdbEntry{axsOspfv3AreaLsdbTable 1}

NOT-ACCESSIBLE

NA List of link state advertisements (LSA).INDEX { axsOspfv3AreaLsdbDomainNumber, axsOspfv3AreaLsdbAreaId, axsOspfv3AreaLsdbType, axsOspfv3AreaLsdbRouterId, axsOspfv3AreaLsdbLsid }

A

3 axsOspfv3AreaLsdbDomainNumber{axsOspfv3AreaLsdbEntry 1}


4 axsOspfv3AreaLsdbAreaId{axsOspfv3AreaLsdbEntry 2}

IpAddress R/O Area ID of the reception source area of this LSA.

A

5 axsOspfv3AreaLsdbType{axsOspfv3AreaLsdbEntry 3}

INTEGER R/O Type of LSA.• router (8193=0x2001)• network (8194 = 0x2002)• interAreaPrefix (8195=0x2003)• interAreaRouter (8196=0x2004)• multicast (8198 = 0x2006)• nssa external link (8199 = 0x2007)• intraAreaPrefix (8201=0x2009)

A

6 axsOspfv3AreaLsdbRouterId{axsOspfv3AreaLsdbEntry 4}


7 axsOspfv3AreaLsdbLsid{axsOspfv3AreaLsdbEntry 5}


8 axsOspfv3AreaLsdbSequence{axsOspfv3AreaLsdbEntry 6}


9 axsOspfv3AreaLsdbAge{axsOspfv3AreaLsdbEntry 7}


A

10 axsOspfv3AreaLsdbChecksum{axsOspfv3AreaLsdbEntry 8}


11 axsOspfv3AreaLsdbAdvertisement{axsOspfv3AreaLsdbEntry 9}

OCTET STRING


192


Object ID value 1.3.6.1.4.1.21839.2.2.1.15.5


The table below shows the implementation specifications of axsOspfv3LinkLsdbTable.

Table 3-43: Implementation Specifications of axsOspfv3LinkLsdbTable

3.9.6 axsOspfv3IfTable

(1) Identifier axsOspfv3 OBJECT IDENTIFIER ::= {axsMib 15} axsOspfv3IfTable OBJECT IDENTIFIER ::= {axsOspfv3 7}Object ID value 1.3.6.1.4.1.21839.2.2.1.15.7


The table below shows the implementation specifications of axsOspfv3IfTable.


1 axsOspfv3LinkLsdbTable{axsOspfv3 5}

NOT-ACCESSIBLE

NA Table storing information related to LinkScope link status database of the OSPFv3 process.

A

2 axsOspfv3LinkLsdbEntry{axsOspfv3LinkLsdbTable 1 }

NOT-ACCESSIBLE

NA List of link state advertisements (LSA).INDEX { axsOspfv3LinkLsdbDomainNumber, axsOspfv3LinkLsdbIfIndex, axsOspfv3LinkLsdbType, axsOspfv3LinkLsdbRouterId, axsOspfv3LinkLsdbLsid }

A

3 axsOspfv3LinkLsdbDomainNumber{axsOspfv3LinkLsdbEntry 1}


4 axsOspfv3LinkLsdbIfIndex{axsOspfv3LinkLsdbEntry 2}

INTEGER R/O Identifier of link that received LSA. A

5 axsOspfv3LinkLsdbType{axsOspfv3LinkLsdbEntry 3}

INTEGER R/O Type of LSA.• Link (0x0008)

A

6 axsOspfv3LinkLsdbRouterId{axsOspfv3LinkLsdbEntry 4}


7 axsOspfv3LinkLsdbLsid{axsOspfv3LinkLsdbEntry 5}


8 axsOspfv3LinkLsdbSequence{axsOspfv3LinkLsdbEntry 6}


9 axsOspfv3LinkLsdbAge{axsOspfv3LinkLsdbEntry 7}


A

10 axsOspfv3LinkLsdbChecksum{axsOspfv3LinkLsdbEntry 8}


11 axsOspfv3LinkLsdbAdvertisement{axsOspfv3LinkLsdbEntry 9}

OCTET STRING


193


Table 3-44: Implementation Specifications of axsOspfv3IfTable


1 axsOspfv3IfTable{axsOspfv3 7}

NOT-ACCESSIBLE

NA Table storing information of each interface where router is connected.

A

2 axsOspfv3IfEntry{axsOspfv3IfTable 1}

NOT-ACCESSIBLE

NA List storing information of each interface where router is connected.INDEX { axsOspfv3IfDomainNumber, axsOspfv3IfIndex }

A

3 axsOspfv3IfDomainNumber{axsOspfv3IfEntry 1}


4 axsOspfv3IfIndex{axsOspfv3IfEntry 2}

INTEGER R/O Interface Index of this OSPFv3 interface. A

5 axsOspfv3IfAreaId{axsOspfv3IfEntry 3}

IpAddress R/O Area ID of area where this interface is connected.

A

6 axsOspfv3IfType{axsOspfv3IfEntry 4}

INTEGER R/O Type of interface.• Broadcast (1)• Non-broadcast (2)• Point-Point (3)• Point-Multipoint (5)

A

7 axsOspfv3IfAdminStat{axsOspfv3IfEntry 5}

INTEGER R/O Management status of interface.• enabled (1)• disabled (2)

A

8 axsOspfv3IfRtrPriority{axsOspfv3IfEntry 6}

INTEGER R/O Priority of this interface. A

9 axsOspfv3IfTransitDelay{axsOspfv3IfEntry 7}


A

10 axsOspfv3IfRetransInterval{axsOspfv3IfEntry 8}


A

11 axsOspfv3IfHelloInterval{axsOspfv3IfEntry 9}


12 axsOspfv3IfRtrDeadInterval{axsOspfv3IfEntry 10}


A

13 axsOspfv3IfPollInterval{axsOspfv3IfEntry 11}

INTEGER R/O Send interval of Hello packet to inactive neighbor office in non-broadcast multiple access network (unit: second(s)).

A

14 axsOspfv3IfState{axsOspfv3IfEntry 12}

INTEGER R/O State of interface.• down (1)• loopback (2)• waiting (3)• PtoP (4)• DR (5)• BDR (6)• other (7)

A

15 axsOspfv3IfDesignatedRouter{axsOspfv3IfEntry 13}

IpAddress R/O Router ID of designated router. A

16 axsOspfv3IfBackupDesignatedRouter{axsOspfv3IfEntry 15}

IpAddress R/O Router ID of backup designated router. A

17 axsOspfv3IfEvents{axsOspfv3IfEntry 16}


A

18 axsOspfv3IfStatus{axsOspfv3IfEntry 18}


A

194


3.9.7 axsOspfv3VirtIfTable

(1) Identifier axsOspfv3 OBJECT IDENTIFIER ::= {axsMib 15} axsOspfv3VirtIfTable OBJECT IDENTIFIER ::= {axsOspfv3 8}Object ID value 1.3.6.1.4.1.21839.2.2.1.15.8


The table below shows the implementation specifications of axsOspfv3VirtIfTable.

Table 3-45: Implementation Specifications of axsOspfv3VirtIfTable

19 axsOspfv3IfMulticastForwarding{axsOspfv3IfEntry 19}

INTEGER R/O Multicasting method in this interface. blocked (1) fixed.• blocked (1)• multicast (2)• unicast (3)

A

20 axsOspfv3IfDemand{axsOspfv3IfEntry 20}

INTEGER R/O Indicates whether or not the Demand OSPFv3 procedure is to be executed at this interface.false (2) fixed.• true (1)• false (2)

A

21 axsOspfv3IfMetricValue{axsOspfv3IfEntry 21}

INTEGER R/O Metrics of this interface. A

22 axsOspfv3IfLinkScopeLsaCount{axsOspfv3IfEntry 22}

INTEGER R/O Number of LinkScope link state advertisements (LSA) in link state database (LSDB).

A

23 axsOspfv3IfLinkLsaCksumSum{axsOspfv3IfEntry 23}

INTEGER R/O Total of LS checksums of LinkScope LSAs in the LSDB.

A

24 axsOspfv3IfInstId{axsOspfv3IfEntry 24}

INTEGER R/O InstanceID of this OSPFV3 interface. A


1 axsOspfv3VirtIfTable{axsOspfv3 8}

NOT-ACCESSIBLE

NA Table storing information of virtual interface where router is connected.

A

2 axsOspfv3VirtIfEntry{axsOspfv3VirtIfTable 1}

NOT-ACCESSIBLE

NA List of information of each virtual interface.INDEX { axsOspfv3VirtIfDomainNumber, axsOspfv3VirtIfAreaId, axsOspfv3VirtIfNeighbor }

A

3 axsOspfv3VirtIfDomainNumber{axsOspfv3VirtIfEntry 1}


4 axsOspfv3VirtIfAreaId{axsOspfv3VirtIfEntry 2}

IpAddress R/O Area ID of area through which the virtual link passes.

A

5 axsOspfv3VirtIfNeighbor{axsOspfv3VirtIfEntry 3}


6 axsOspfv3VirtIfIndex{axsOspfv3VirtIfEntry 4}

INTEGER R/O Interface Index of this interface. A

7 axsOspfv3VirtIfTransitDelay{axsOspfv3VirtIfEntry 5}


A

8 axsOspfv3VirtIfRetransInterval{axsOspfv3VirtIfEntry 6}


A


195


3.9.8 axsOspfv3NbrTable

(1) Identifier axsOspfv3 OBJECT IDENTIFIER ::= {axsMib 15} axsOspfv3NbrTable OBJECT IDENTIFIER ::= {axsOspfv3 9}Object ID value 1.3.6.1.4.1.21839.2.2.1.15.9


The table below shows the implementation specifications of axsOspfv3NbrTable.

Table 3-46: Implementation Specifications of axsOspfv3NbrTable

9 axsOspfv3VirtIfHelloInterval{axsOspfv3VirtIfEntry 7}

INTEGER R/O Send interval of Hello packet (unit: second(s)).

A

10 axsOspfv3VirtIfRtrDeadInterval{axsOspfv3VirtIfEntry 8}


A

11 axsOspfv3VirtIfState{axsOspfv3VirtIfEntry 9}

INTEGER R/O State of interface.• down (1)• PtoP (4)

A

12 axsOspfv3VirtIfEvents{axsOspfv3VirtIfEntry 10}


A

13 axsOspfv3VirtIfStatus{axsOspfv3VirtIfEntry 11}


A

14 axsOspfv3VirtIfLinkScopeLsaCount{axsOspfv3VirtIfEntry 12}

INTEGER R/O Number of LinkScope link state advertisements (LSA) in link state database (LSDB).

A

15 axsOspfv3VirtIfLinkLsaCksumSum{axsOspfv3VirtIfEntry 13}

INTEGER R/O Total of LS checksums of LinkScope LSAs in the LSDB.

A


1 axsOspfv3NbrTable{axsOspfv3 9}

NOT-ACCESSIBLE

NA Table storing information of non-virtual neighboring office.

A

2 axsOspfv3NbrEntry{axsOspfv3NbrTable 1}

NOT-ACCESSIBLE

NA List of information of each neighboring office.INDEX { axsOspfv3NbrDomainNumber, axsOspfv3IfIndex, axsOspfNbrIpv6Addr }

A

3 axsOspfv3NbrDomainNumber{axsOspfv3NbrEntry 1}


4 axsOspfv3NbrIfIndex{axsOspfv3NbrEntry 2}

INTEGER R/O Local LinkID of the link to which neighboring router is connected.

A

5 axsOspfv3NbrIpv6Addr{axsOspfv3NbrEntry 3}

Ipv6Address

R/O IPv6 address of neighboring router. A

6 axsOspfv3NbrRtrId{axsOspfv3NbrEntry 4}

IpAddress R/O Router ID of neighboring router. A

7 axsOspfv3NbrOptions{axsOspfv3NbrEntry 5}

INTEGER R/O Option field of neighboring router. A

8 axsOspfv3NbrPriority{axsOspfv3NbrEntry 6}

INTEGER R/O Priority of neighboring router. A


196


3.9.9 axsOspfv3VirtNbrTable

(1) Identifier axsOspfv3 OBJECT IDENTIFIER ::= {axsMib 15} axsOspfv3VirtNbrTable OBJECT IDENTIFIER ::= {axsOspfv3 10}Object ID value 1.3.6.1.4.1.21839.2.2.1.15.10


The table below shows the implementation specifications of axsOspfv3VirtNbrTable.

Table 3-47: Implementation Specifications of axsOspfv3VirtNbrTable

9 axsOspfv3NbrState{axsOspfv3NbrEntry 7}

INTEGER R/O State indicating the relation with this neighboring router.• down (1)• attempt (2)• init (3)• twoWay (4)• exchangeStart (5)• exchange (6)• loading (7)• full (8)

A

10 axsOspfv3NbrEvents{axsOspfv3NbrEntry 8}

Counter R/O How often the status changed or error occurred concerning the relationship with the neighboring router.

A

11 axsOspfv3NbrLsRetransQLen{axsOspfv3NbrEntry 9}


12 axsOspfv3NbrHelloSuppressed{axsOspfv3NbrEntry 12}

INTEGER R/O Indicates whether or not Hello is suppressed to the neighbor.

A

13 axsOspfv3NbrIfId{axsOspfv3NbrEntry 13}

INTEGER R/O Interface ID of neighboring router advertising in this link by Hello packet.

A


1 axsOspfv3VirtNbrTable{axsOspfv3 10}

NOT-ACCESSIBLE

NA Table storing information of virtual neighboring router.

A

2 axsOspfv3VirtNbrEntry{axsOspfVirtv3NbrTable 1}

NOT-ACCESSIBLE

NA List of information of each virtual neighboring router.INDEX { axsOspfv3VirtNbrDomainNumber, axsOspfv3VirtNbrArea, axsOspfv3VirtNbrRtrId }

A

3 axsOspfv3VirtNbrDomainNumber{axsOspfv3VirtNbrEntry 1}


4 axsOspfv3VirtNbrArea{axsOspfv3VirtNbrEntry 2}

IpAddress R/O Area ID of transit area. A

5 axsOspfv3VirtNbrRtrId{axsOspfv3VirtNbrEntry 3}


6 axsOspfv3VirtNbrIfIndex{axsOspfv3VirtNbrEntry 4}

INTEGER R/O Local LinkID of the link to which neighboring router is connected.

A

7 axsOspfv3VirtNbrIpv6Addr{axsOspfv3VirtNbrEntry 5}

Ipv6Address R/O IPv6 address of virtual neighboring router. A


197


3.9.10 axsOspfv3AreaAggregateTable

(1) Identifier axsOspfv3 OBJECT IDENTIFIER ::= {axsMib 15} axsOspfv3AreaAggregateTable OBJECT IDENTIFIER ::= {axsOspfv3 11}Object ID value 1.3.6.1.4.1.21839.2.2.1.15.11


The table below shows the implementation specifications of axsOspfv3AreaAggregateTable.

Table 3-48: Implementation Specifications of axsOspfv3AreaAggretateTable

8 axsOspfv3VirtNbrOptions{axsOspfv3VirtNbrEntry 6}

INTEGER R/O Option field of the virtual neighboring router.

A

9 axsOspfv3VirtNbrState{axsOspfv3VirtNbrEntry 7}

INTEGER R/O 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)

A

10 axsOspfv3VirtNbrEvents{axsOspfv3VirtNbrEntry 8}

Counter R/O How often the status of this virtual link changed or error occurred.

A

11 axsOspfv3VirtNbrLsRetransQLen{axsOspfv3VirtNbrEntry 9}


12 axsOspfv3VirtNbrHelloSuppressed{axsOspfv3VirtNbrEntry 10}

INTEGER R/O Indicates whether or not Hello is suppressed to the neighbor.

A

13 axsOspfv3VirtNbrIfId{axsOspfv3VirtNbrEntry 11}

INTEGER R/O Interface ID advertised to this link by the neighbor with Hello packet.

A


1 axsOspfv3AreaAggregateTable{axsOspfv3 11}

NOT-ACCESSIBLE

NA Table of IPv6 Prefixes specified in a pair between Prefix and Prefix length.

A

2 axsOspfv3AreaAggregateEntry{axsOspfv3AreaAggregateTable 1}

NOT-ACCESSIBLE

NA List of IPv6 Prefixes specified in a pair between Prefix and Prefix lengthINDEX{ axsOspfv3AreaAggregateDomainNumber, axsOspfv3AreaAggregateAreaID, axsOspfv3AreaAggregateLsdbType, axsOspfv3AreaAggregateIndex }

A

3 axsOspfv3AreaAggregateDomainNumber{axsOspfv3AreaAggregateEntry 1}


4 axsOspfv3AreaAggregateAreaID{axsOspfv3AreaAggregateEntry 2}

IpAddress R/O Area where addresses are aggregated. A


198


5 axsOspfv3AreaAggregateAreaLsdbType{axsOspfv3AreaAggregateEntry 3}

INTEGER R/O Type of address aggregation. This entry indicates the type of the link state database (LSDB) applied to the aggregation of this address.• interAreaPrefixLsa (0x2003)• nssaExternalLink (0x2007)

A

6 axsOspfv3AreaAggregateIndex{axsOspfv3AreaAggregateEntry 4}

INTEGER R/O Aggregate table identifier. A

7 axsOspfv3AreaAggregatePrefix{axsOspfv3AreaAggregateEntry 5}

Ipv6Address R/O IPv6 Prefix A

8 axsOspfv3AreaAggregatePrefixLen{axsOspfv3AreaAggregateEntry 6}

INTEGER R/O IPv6 Prefix length A

9 axsOspfv3AreaAggregateStatus{axsOspfv3AreaAggregateEntry 7}


A

10 axsOspfv3AreaAggregateEffect{axsOspfv3AreaAggregateEntry 8}

INTEGER R/O 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)• doNotAdvertiseMatching (2)

A


199



(1) Identifier axsBootManagement OBJECT IDENTIFIER ::= {axsMib 51}Object ID value 1.3.6.1.4.1.21839.2.2.1.51


The table below shows the implementation specifications of axsBootManagement.

Table 3-49: Implementation Specifications of axsBootManagement


1 axsBootReason{axsBootManagement 1}

INTEGER R/O 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): SWAP• 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).

A

200



(1) Identifier axsLogin OBJECT IDENTIFIER ::= {axsMib 52}Object ID value 1.3.6.1.4.1.21839.2.2.1.52


The table below shows the implementation specifications of axsLogin.

Table 3-50: Implementation Specifications of axsLogin


1 axsLoginName{axsLogin 1}

DisplayString NA Login user name. A

2 axsLoginTime{axsLogin 2}

DisplayString NA 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

A

3 axsLogoutTime{axsLogin 3}

DisplayString NA 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


A

201


4 axsLoginFailureTime{axsLogin 4}

DisplayString NA 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


A

5 axsLoginLocation{axsLogin 5}

DisplayString NA 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: Application (telnet, rlogin, ftp)

Example: "console", "192.168.1.1 (telnet)", "2001:02C0:0001:0100:0000:0000:0000:0053 (telnet)"

A

6 axsLoginLine{axsLogin 6}

DisplayString NA Indicates the terminal identifier of the login user in the following format.• For console:

"console"• For other cases:

Displays "XXXX (YYYY)".- XXXX: Terminal- YYYY: Application (telnet, rlogin, ftp)

Example: "console", "ttyp1 (telnet)"

A

7 axsLogoutStatus{axsLogin 7}

INTEGER NA 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).

A


202



3.12.1 axslldpConfiguration Group

(1) Identifier axslldp OBJECT IDENTIFIER ::= {axsMib 100} axslldpConfiguration OBJECT IDENTIFIER ::= {axslldp 1}Object ID value 1.3.6.1.4.1.21839.2.2.1.100.1 axslldpMessageTxInterval OBJECT IDENTIFIER ::= {axslldpConfiguration 1}Object ID value 1.3.6.1.4.1.21839.2.2.1.100.1.1


The table below shows the implementation specifications of axslldpConfiguration group.

Table 3-51: Implementation Specifications of axslldpConfiguration Group


1 axslldpMessageTxInterval{axslldpConfiguration 1}

Integer32(5..32768)

R/NW [Standard] LDPDU transmission interval. Value set by configuration command lldp interval-time (unit: second(s)).Default: 30 (seconds)[Implementation] Same as standard.

A

2 axslldpMessageTxHoldMultiplier{axslldpConfiguration 2}

Integer32(2..10)

R/NW [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-countDefault: 4[Implementation] Same as standard.

A

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] Not supported.

N

4 axslldpTxDelay{axslldpConfiguration 4}

Integer32(1..8192)

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] Not supported.

N

5 axslldpPortConfigTable{axslldpConfiguration 6}

SEQUENCE OF axslldpPortConfigEntry

NA [Standard] Table on LDPDU transmission.[Implementation] Same as standard.

A

6 axslldpPortConfigEntry{axslldpPortConfigTable 1}

axslldpPortConfigEntry

NA [Standard] Entry (for each port) on LDPDU transmission.INDEX { axslldpPortConfigPortNum }[Implementation] Same as standard.

A

203


3.12.2 axslldpStats Group

(1) Identifier axslldp OBJECT IDENTIFIER ::= {axsMib 100} axslldpStats OBJECT IDENTIFIER ::= {axslldp 2}Object ID value 1.3.6.1.4.1.21839.2.2.1.100.2 axslldpStatsTable OBJECT IDENTIFIER ::= {axslldpStats 1}Object ID value 1.3.6.1.4.1.21839.2.2.1.100.2.1


The table below shows the implementation specifications of axslldpStats group.

7 axslldpPortConfigPortNum{axslldpPortConfigEntry 2}

Integer32 NA [Standard] Port identification index. Same as ifIndex. [Implementation] Same as standard.

A

8 axslldpPortConfigAdminStatus{axslldpPortConfigEntry 3}

INTEGER R/NW [Standard] Port state of this system on LDPDU transmission and reception.• txOnly (1)• rxOnly (2)• txAndRx (3)• disabled (4)

[Implementation] Only txAndRx (3) and disabled (4) can be used.

A

9 axslldpPortConfigTLVsTxEnable{axslldpPortConfigEntry 4}

BITS R/NW [Standard] Transmission enable TLV on the relevant port.• portDesc (4)• sysName (5)• sysDesc (6)• sysCap (7)

[Implementation] Fixed to 0x0e (logical OR of portDesc (4), sysName (5), and sysDesc (6)).

A

10 axslldpPortConfigRowStatus{axslldpPortConfigEntry 5}

RowStatus R/O [Standard] State of this entry.• active (1): When

axslldpPortConfigAdminStatus istxAndRx

• notReady (3): WhenaxslldpPortConfigAdminStatus is disabled


A

11 axslldpConfigManAddrTable{axslldpConfiguration 7}

SEQUENCE OF axslldpConfigManAddrEntry

NA [Standard] Table on a port that transmits the management address of this system.[Implementation] Not supported.

N

12 axslldpConfigManAddrEntry{axslldpConfigManAddrTable 1}

axslldpConfigManAddrEntry

NA [Standard] Entry indicating the set of a port that transmits the management address of this system.[Implementation] Not supported.

N

13 axslldpConfigManAddrPortsTxEnable{axslldpConfigManAddrEntry 1}


R/W [Standard] The set of a port, which transmits the management address of this system, represented using a bit map.[Implementation] Not supported.

N


204


Table 3-52: Implementation Specifications of axslldpStats Group

3.12.3 axslldpLocalSystemData Group

(1) Identifier axslldp OBJECT IDENTIFIER ::= {axsMib 100} axslldpLocalSystemData OBJECT IDENTIFIER ::= {axslldp 3}Object ID value 1.3.6.1.4.1.21839.2.2.1.100.3 axslldpLocChassisType ::= {axslldpLocalSystemData 1}Object ID value 1.3.6.1.4.1.21839.2.2.1.100.3.1


The table below shows the implementation specifications of axslldpLocalSystemData group.


1 axslldpStatsTable{axslldpStats 1}

SEQUENCE OF axslldpStatsEntry

NA [Standard] Table on LLDP statistics information.[Implementation] Same as standard.

A

2 axslldpStatsEntry{axslldpStatsTable 1}

axslldpStatsEntry

NA [Standard] Entry (for each port) on LLDP statistics information.INDEX { axslldpStatsPortNum }[Implementation] Same as standard.

A

3 axslldpStatsPortNum{axslldpStatsEntry 2}

Integer32 NA [Standard] Port identification index. Same as ifIndex. [Implementation] Same as standard. However, the port that has set configuration command lldp enable is the target.

A

4 axslldpStatsOperStatus{axslldpStatsEntry 3}

INTEGER R/O [Standard] Active status of the corresponding port.• portUp (1)• portDown (2)


A

5 axslldpStatsFramesInErrors{axslldpStatsEntry 4}

Counter32 R/O [Standard] Number of received illegal LDPDUs on the relevant port.[Implementation] Same as standard.

A

6 axslldpStatsFramesInTotal{axslldpStatsEntry 5}

Counter32 R/O [Standard] Total number of received LDPDUs on the relevant port.[Implementation] Same as standard.

A

7 axslldpStatsFramesOutTotal{axslldpStatsEntry 6}

Counter32 R/O [Standard] Total number of sent LDPDUs on the relevant port.[Implementation] Same as standard.

A

8 axslldpStatsTLVsInErrors{axslldpStatsEntry 7}

Counter32 R/O [Standard] Number of received illegal TLVs on the relevant port.[Implementation] Same as standard.

A

9 axslldpStatsTLVsDiscardedTotal{axslldpStatsEntry 8}

Counter32 R/O [Standard] Total number of discarded TLVs on the relevant port.[Implementation] Same as standard.

A

10 axslldpStatsCounterDiscontinuityTime{axslldpStatsEntry 9}

TimeStamp R/O [Standard] Time in which the continuity of a statistical counter in the relevant port is lost.[Implementation] Not supported.

N

205


Table 3-53: Implementation Specifications of axslldpLocalSystemData Group


1 axslldpLocChassisType{axslldpLocalSystemData 1}

INTEGER R/O [Standard] Chassis type on this system.• entPhysicalAlias (1)• ifAlias (2)• portEntPhysicalAlias (3)• backplaneEntPhysicalAlias (4)• macAddress (5)• networkAddress (6)

[Implementation] Always macAddress (5).

A

2 axslldpLocChassisId{axslldpLocalSystemData 2}


R/O [Standard] Chassis ID (character string) on this system.[Implementation] MAC address of system.

A

3 axslldpLocSysName{axslldpLocalSystemData 3}


R/O [Standard] System name (character string) on this system. Same as sysName of a system group.[Implementation] Same as standard.

A

4 axslldpLocSysDesc{axslldpLocalSystemData 4}


R/O [Standard] System information (character string) on this system. Same as sysDesc of a system group.[Implementation] Same as standard.

A

5 axslldpLocSysCapSupported{axslldpLocalSystemData 5}

BITS R/O [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)


N

6 axslldpLocSysCapEnabled{axslldpLocalSystemData 6}

BITS R/O [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)


N

7 axslldpLocPortTable{axslldpLocalSystemData 7}

SEQUENCE OF axslldpLocPortEntry

NA [Standard] Table on the port of this system.[Implementation] Same as standard.

A

8 axslldpLocPortEntry{axslldpLocPortTable 1}

axslldpLocPortEntry

NA [Standard] Entry (for each port) on the port of this system.INDEX { axslldpLocPortNum }[Implementation] Same as standard.

A

9 axslldpLocPortNum{axslldpLocPortEntry 1}

Integer32 NA [Standard] Port identification index. Same as ifIndex. [Implementation] Same as standard. However, the port that has set configuration command lldp enable is the target.

A

206


3.12.4 axslldpRemoteSystemData Group

(1) Identifier axslldp OBJECT IDENTIFIER ::= {axsMib 100} axslldpRemoteSystemData OBJECT IDENTIFIER ::= {axslldp 4}Object ID value 1.3.6.1.4.1.21839.2.2.1.100.4 axslldpRemTable ::= {axslldpRemoteSystemData 1}Object ID value 1.3.6.1.4.1.21839.2.2.1.100.4.1

10 axslldpLocPortType{axslldpLocPortEntry 2}

INTEGER R/O [Standard] Port type on the relevant port of this system.• ifAlias (1)• portEntPhysicalAlias (2)• backplaneEntPhysicalAlias (3)• macAddress (4)• networkAddress (5)• local (6)

[Implementation] macAddress (4) fixed.

A

11 axslldpLocPortId{axslldpLocPortEntry 3}


R/O [Standard] Port ID (character string) on the relevant port of this system.[Implementation] MAC address of port.

A

12 axslldpLocPortDesc{axslldpLocPortEntry 4}


R/O [Standard] Port ID (character string) on the relevant port of this system. Same as ifDescr of a port.[Implementation] Same as standard.

A

13 axslldpLocManAddrTable{axslldpLocalSystemData 8}

SEQUENCE OF axslldpLocManAddrEntry

NA [Standard] Table on the management address of the system.[Implementation] Not supported.

N

14 axslldpLocManAddrEntry{axslldpLocManAddrTable 1}

axslldpLocManAddrEntry

NA [Standard] Information on the management address for each chassis.INDEX { axslldpLocManAddrType, axslldpLocManAddr }[Implementation] Not supported.

N

15 axslldpLocManAddrType{axslldpLocManAddrEntry 1}

AddressFamilyNumbers

NA [Standard] Type of management address.[Implementation] Not supported.

N

16 axslldpLocManAddr{axslldpLocManAddrEntry 2}

OCTET STRING(SIZE (1..31))

NA [Standard] Management address of the system.[Implementation] Not supported.

N

17 axslldpLocManAddrIfSubtype{axslldpLocManAddrEntry 3}

INTEGER R/O [Standard] Type of interface number.• unknown (1)• ifIndex (2)• systemPortNumber (3)


N

18 axslldpLocManAddrIfId{axslldpLocManAddrEntry 4}


R/O [Standard] Interface number corresponding to the management address.[Implementation] Not supported.

N

19 axslldpLocManAddrOID{axslldpLocManAddrEntry 5}

OBJECT IDENTIFIER

R/O [Standard] Object ID of hardware or protocol related to the management address[Implementation] Not supported.

N


207



The table below shows the implementation specifications of axslldpRemoteSystemData group.

Table 3-54: Implementation Specifications of axslldpRemoteSystemData Group


1 axslldpRemTable{axslldpRemoteSystemData 1}

SEQUENCE OF axslldpRemEntry

NA [Standard] Table on neighboring system.[Implementation] Same as standard.

A

2 axslldpRemEntry{axslldpRemTable 1}

axslldpRemEntry NA [Standard] Entry on neighboring system.INDEX { axslldpRemTimeMark, axslldpRemLocalPortNum, axslldpRemIndex }[Implementation]INDEX { axslldpRemLocalPortNum, axslldpRemIndex }*

A

3 axslldpRemTimeMark{axslldpRemEntry 1}

TimeFilter NA [Standard] Time from when the information of the relevant neighbor system is acquired.[Implementation] Not supported.

N

4 axslldpRemLocalPortNum{axslldpRemEntry 2}

Integer32 NA [Standard] Port identification index of this system that receives the information on a neighboring system. Same as ifIndex. [Implementation] Same as standard. However, the port that has set configuration command lldp enable is the target.

A

5 axslldpRemIndex{axslldpRemEntry 3}

Integer32(1..2147483647)

NA [Standard] Index on neighboring system.[Implementation] Same as standard.

A

6 axslldpRemRemoteChassisType{axslldpRemEntry 4}

INTEGER R/O [Standard] Chassis type on neighboring system.• entPhysicalAlias (1)• ifAlias (2)• portEntPhysicalAlias (3)• backplaneEntPhysicalAlias (4)• macAddress (5)• networkAddress (6)


A

7 axslldpRemRemoteChassis{axslldpRemEntry 5}


R/O [Standard] Chassis ID (character string) on neighboring system.[Implementation] Same as standard.

A

8 axslldpRemRemotePortType{axslldpRemEntry 6}

INTEGER R/O [Standard] Port type on the relevant port of neighboring system.• ifAlias (1)• portEntPhysicalAlias (2)• backplaneEntPhysicalAlias (3)• macAddress (4)• networkAddress (5)• local (6)


A

9 axslldpRemRemotePort{axslldpRemEntry 7}


R/O [Standard] Port ID (character string) on the relevant port of neighboring system.[Implementation] Same as standard.

A

10 axslldpRemPortDesc{axslldpRemEntry 8}


R/O [Standard] Information (character string) on the relevant port of neighboring system.[Implementation] Same as standard.

A

208


11 axslldpRemSysName{axslldpRemEntry 9}


R/O [Standard] System name (character string) on neighboring system.[Implementation] Same as standard.

A

12 axslldpRemSysDesc{axslldpRemEntry 10}


R/O [Standard] System information (character string) on neighboring system.[Implementation] Same as standard.

A

13 axslldpRemSysCapSupported{axslldpRemEntry 11}

BITS R/O [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)


N

14 axslldpRemSysCapEnabled{axslldpRemEntry 12}

BITS R/O [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)


N

15 axslldpRemManAddrTable{axslldpRemoteSystemsData 2}

SEQUENCE OF axslldpRemManAddrEntry

NA [Standard] Table on the management address of a neighboring system that the relevant system learns.[Implementation] Not supported.

N

16 axslldpRemManAddrEntry{axslldpRemManAddrTable 1}

axslldpRemManAddrEntry

NA [Standard] Table on the management address of neighboring system.INDEX { axslldpRemTimeMark, axslldpRemLocalPortNum, axslldpRemIndex, axslldpRemManAddrType, axslldpRemManAddr }[Implementation] Not supported.

N

17 axslldpRemManAddrType{axslldpRemManAddrEntry 1}

AddressFamilyNumbers

NA [Standard] Type of management address.[Implementation] Not supported.

N

18 axslldpRemManAddr{axslldpRemManAddrEntry 2}

OCTET STRING(SIZE (1..31))

NA [Standard] Management address of neighboring system.[Implementation] Not supported.

N

19 axslldpRemManAddrIfSubtype{axslldpRemManAddrEntry 3}

INTEGER R/O [Standard] Type of interface number.• unknown (1)• ifIndex (2)• systemPortNumber (3)


N

20 axslldpRemManAddrIfId{axslldpRemManAddrEntry 4}


R/O [Standard] Interface number corresponding to the management address of neighboring system.[Implementation] Not supported.

N


209


* Although the standard includes axslldpRemTimeMark, it is not supported and therefore it is excluded.

3.12.5 axslldpRemoteOriginInfoData Group

(1) Identifier axslldp OBJECT IDENTIFIER ::= {axsMib 100} axslldpRemoteOriginInfoData OBJECT IDENTIFIER ::= {axslldp 20}Object ID value 1.3.6.1.4.1.21839.2.2.1.100.20 axslldpRemOriginInfoTable OBJECT IDENTIFIER ::= {axslldpRemoteOriginInfoData 1}Object ID value 1.3.6.1.4.1.21839.2.2.1.100.20.1


The table below shows the implementation specifications of axslldpRemoteOriginInfoData group.

21 axslldpRemManAddrOID{axslldpRemManAddrEntry 5}

OBJECT IDENTIFIER

R/O [Standard] Object ID of hardware or protocol related to the management address of the neighbouring system[Implementation] Not supported.

N

22 axslldpRemOrgDefInfoTable{axslldpRemoteSystemsData 3}

SEQUENCE OF axslldpRemOrgDefInfoEntry

NA [Standard] Table on the vendor's own TLV of neighboring system.[Implementation] Same as standard.

N

23 axslldpRemOrgDefInfoEntry{axslldpRemOrgDefTable 1}

axslldpRemOrgDefInfoEntry

NA [Standard] Entry on the vendor's own TLV of neighboring system.INDEX { axslldpRemTimeMark, axslldpRemLocalPortNum, axslldpRemIndex, axslldpRemOrgDefOUI, axslldpRemOrgDefSubtype, axslldpRemOrgDefIndex }[Implementation] Not supported.

N

24 axslldpRemOrgDefInfoOUI{axslldpRemOrgDefEntry 1}


NA [Standard] OUI on the vendor's own TLV of neighboring system.[Implementation] Not supported.

N

25 axslldpRemOrgDefInfoSubtype{axslldpRemOrgDefEntry 2}

Integer32(1..255)

NA [Standard] Subtype on the vendor's own TLV of neighboring system.[Implementation] Not supported.

N

26 axslldpRemOrgDefInfoIndex{axslldpRemOrgDefEntry 3}

Integer32(1..2147483647)

NA [Standard] ID on the vendor's own TLV of neighboring system.[Implementation] Not supported.

N

27 axslldpRemOrgDefInfo{axslldpRemOrgDefEntry 4}


R/O [Standard] Information on the vendor's own TLV of neighboring system.[Implementation] Not supported.

N


210


Table 3-55: Implementation Specifications of axslldpRemoteOriginInfoData Group


1 axslldpRemOriginInfoTable{axslldpRemoteOriginInfoData 1}

SEQUENCE OF axslldpRemOriginInfoTable

NA Table on Alaxala original TLV of neighboring system.

A

2 axslldpRemOriginInfoEntry{axslldpRemOriginInfoTable 1}

axslldpRemOriginInfoEntry

NA Entry on neighboring system.INDEX{ axslldpRemOriginInfoLocalPortNum,axslldpRemOriginInfoIndex }

A

3 axslldpRemOriginInfoPortNum{axslldpRemOriginInfoEntry 1}

Integer32 NA Port identification index of this system that receives the information on a neighboring system. Same as ifIndex.

A

4 axslldpRemOriginInfoIndex{axslldpRemOriginInfoEntry 2}

INTEGER NA Index on neighboring system. A

5 axslldpRemOriginInfoLowerVlanList{axslldpRemOriginInfoEntry 3}


R/O Bit map indicating the VLAN ID (VLAN 1 to 2047) valid for the designated port of the neighboring system (the first bit (bit 27 of byte 0) indicates presence/absence of untagged definition, and the following bits indicate validity/invalidity of VLAN 1 to 2047).• bit is 0: The corresponding VLAN is

invalid.• bit is 1: The corresponding VLAN is

valid.

A

6 axslldpRemOriginInfoHigherVlanList{axslldpRemOriginInfoEntry 4}


R/O Bit map indicating VLAN ID (VLAN 2048 to 4095) valid for the designated port of the neighboring system (bits indicate validity/invalidity of VLAN 2048 to 4095 sequentially, in such a way that the first bit (bit 27 of byte 0) indicates validity/invalidity of VLAN 2048, next bit VLAN 2049,...).• bit is 0: The corresponding VLAN is

invalid.• bit is 1: The corresponding VLAN is

valid.

A

7 axslldpRemOriginInfoIPv4Address{axslldpRemOriginInfoEntry 5}


R/O When only untagged is set inaxslldpRemOriginInfoLowerVlanList

IPv4 address (character string) assigned to the relevant port of a neighboring system.

For except described aboveIPv4 address (character string) assigned to VLAN having the lowest ID, among the VLANs that is valid in the relevant port of a neighboring system and to which an IPv4 address is assigned.

A

8 axslldpRemOriginInfoIPv4PortType{axslldpRemOriginInfoEntry 6}

INTEGER R/O Port type of the relevant port in neighbor system.• Bridge port (0): port in which IP

address is not defined or portcontained in VLAN to which an IPaddress is assigned

• Router port (1): Ports other thandescribed above

A

211


9 axslldpRemOriginInfoIPv4VlanId{axslldpRemOriginInfoEntry 7}

INTEGER R/O WhenaxslldpRemOriginInfoIPv4PortType isbridge port

Lowest ID among the VLAN IDs to which an IPv4 address is assigned.

WhenaxslldpRemOriginInfoIPv4PortType isrouter port

0 fixed.

A

10 axslldpRemOriginInfoIPv6Address{axslldpRemOriginInfoEntry 8}


R/O When only untagged is set inaxslldpRemOriginInfoLowerVlanList

IPv6 address (character string) assigned to the relevant port of a neighboring system.

For except described aboveIPv6 address (character string) assigned to VLAN having the lowest ID, among the VLANs that is valid in the relevant port of a neighboring system and to which an IPv6 address is assigned.

A

11 axslldpRemOriginInfoIPv6PortType{axslldpRemOriginInfoEntry 9}

INTEGER R/O Port type of the relevant port in neighbor system.• Bridge port (0): port in which IP

address is not defined or portcontained in VLAN to which an IPaddress is assigned

• Router port (1): Ports other thandescribed above

A

12 axslldpRemOriginInfoIPv6VlanId{axslldpRemOriginInfoEntry 10}

INTEGER R/O WhenaxslldpRemOriginInfoIPv6PortType isbridge port

Lowest ID among the VLAN IDs to which an IPv6 address is assigned.

WhenaxslldpRemOriginInfoIPv6PortType isrouter port

0 fixed.

A


212



3.13.1 axsAxrpGroupTable Group

(1) Identifier axsAxrp OBJECT IDENTIFIER ::= {axsMib 200} axsAxrpGroupTable OBJECT IDENTIFIER ::= {axsAxrp 1}Object ID value 1.3.6.1.4.1.21839.2.2.1.200.1


The table below shows the implementation specifications of axsAxrpGroupTable group.

Table 3-56: Implementation Specifications of axsAXrpGroupTable Group


1 axsAxrpGroupTable{axsAxrp 1}

NOT-ACCESSIBLE

NA Table storing Ring Protocol group information. A

2 axsAxrpGroupEntry{axsAxrpGroupTable 1}

NOT-ACCESSIBLE

NA List of Ring Protocol group information.INDEX { axsAxrpGroupRingId }

A

3 axsAxrpGroupRingId{axsAxrpGroupEntry 1}

INTEGER NA Ring ID (1 to 65535). A

4 axsAxrpGroupRowStatus{axsAxrpGroupEntry 2}

RowStatus R/O Valid/invalid status of this entry.Valid (1) fixed.

A

5 axsAxrpGroupMode{axsAxrpGroupEntry 3}

INTEGER R/O Operation mode for each ring ID.• no config (1): Configuration command mode

is not set.• master (2): Master node• transit (3): Transit node

A

6 axsAxrpGroupRingAttribute{axsAxrpGroupEntry 4}

INTEGER R/O Attribute of this system in the shared link non-monitoring ring when multi-ring configuration.• no config (1): No attribute• rift-ring (2): Node consisting of shared link

non-monitoring ring• rift-ring-edge 1 (3): Node 1 which becomes

termination of shared link non-monitoringring.

• rift-ring-edge 2 (4): Node 2 which becomestermination of shared link non-monitoringring.

A

7 axsAxrpGroupMonitoringState{axsAxrpGroupEntry 5}

INTEGER R/O 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

A

8 axsAxrpGroupRingport1{axsAxrpGroupEntry 6}

INTEGER R/O ifIndex of ring port 1 (port with smaller ifIndex). A

9 axsAxrpGroupRingport1Shared{axsAxrpGroupEntry 7}

INTEGER R/O Shared status of ring port 1• no config (1)• shared-edge (2)• shared (3)

A

213


3.13.2 axsAxrpVlanGroupTable Group

(1) Identifier axsAxrp OBJECT IDENTIFIER ::= {axsMib 200} axsAxrpVlanGroupTable OBJECT IDENTIFIER ::= {axsAxrp 2}Object ID value 1.3.6.1.4.1.21839.2.2.1.200.2


The table below shows the implementation specifications of axsAxrpVlanGroupTable group.

Table 3-57: Implementation Specifications of axsAXrpVlanGroupTable Group

10 axsAxrpGroupRingport2{axsAxrpGroupEntry 8}

INTEGER R/O ifIndex of ring port 2 (port with greater ifIndex). A

11 axsAxrpGroupRingport2Shared{axsAxrpGroupEntry 9}

INTEGER R/O Shared status of ring port 2• no config (1)• shared-edge (2)• shared (3)

A

12 axsAxrpGroupTransitionToFaultCounts{axsAxrpGroupEntry 10}

Counter R/O Number of transitions from fault monitoring status to recovery monitoring status.

A

13 axsAxrpGroupTransitionToNormalCounts{axsAxrpGroupEntry 11}

Counter R/O Number of transitions from recovery monitoring status to fault monitoring status.

A

14 axsAxrpGroupLastTransitionTime{axsAxrpGroupEntry 12}

TimeStamp R/O Most recent time when transition from recovery monitoring status to fault monitoring status occurred and vice versa.

A


1 axsAxrpVlanGroupTable{axsAxrp 2}

NOT-ACCESSIBLE

NA Table storing Ring Protocol VLAN group information.

A

2 axsAxrpVlanGroupEntry{axsAxrpVlanGroupTable 1}

NOT-ACCESSIBLE

NA List of VLAN group ring port information. INDEX { axsAxrpVlanGroupRingId, axsAxrpVlanGroupId }

A

3 axsAxrpVlanGroupRingId{axsAxrpVlanGroupEntry 1}

INTEGER NA Ring ID (1 to 65535). A

4 axsAxrpVlanGroupId{axsAxrpVlanGroupEntry 2}

INTEGER NA VLAN group ID. A

5 axsAxrpVlanGroupRingport1{axsAxrpVlanGroupEntry 3}

INTEGER R/O ifIndex of ring port 1 (port with smaller ifIndex).

A

6 axsAxrpVlanGroupRingport1Role{axsAxrpVlanGroupEntry 4}

INTEGER R/O Role of ring port 1• primary (1): Primary port of master node• secondary (2): Secondary port of master

node• other (3)

A

7 axsAxrpVlanGroupRingport1OperState{axsAxrpVlanGroupEntry 5}

INTEGER R/O Current status of ring port 1• forwarding (1)• blocking (2)• other (3)

A

8 axsAxrpVlanGroupRingport2{axsAxrpVlanGroupEntry 6}

INTEGER R/O ifIndex of ring port 2 (port with greater ifIndex).

A


214


9 axsAxrpVlanGroupRingport2Role{axsAxrpVlanGroupEntry 7}

INTEGER R/O Role of ring port 2• primary (1): Primary port of master node• secondary (2): Secondary port of master

node• other (3)

A

10 axsAxrpVlanGroupRingport2OperState{axsAxrpVlanGroupEntry 8}

INTEGER R/O Current status of ring port 2• forwarding (1)• blocking (2)• other (3)

A


215



(1) Identifier ax3630sMib OBJECT IDENTIFIER ::= {axsEx 7} ax3630sSwitch OBJECT IDENTIFIER ::= {ax3630sMib 1}Object ID value 1.3.6.1.4.1.21839.2.2.7.1 ax3630sSoftware OBJECT IDENTIFIER ::= {ax3630sSwitch 2}Object ID value 1.3.6.1.4.1.21839.2.2.7.1.2 ax3630sSystemMsg OBJECT IDENTIFIER ::= {ax3630sSwitch 3}Object ID value 1.3.6.1.4.1.21839.2.2.7.1.3 ax3630sSnmpAgent OBJECT IDENTIFIER ::= {ax3630sSwitch 4}Object ID value 1.3.6.1.4.1.21839.2.2.7.1.4 ax3630sLicense OBJECT IDENTIFIER ::= {ax3630sSwitch 6}Object ID value 1.3.6.1.4.1.21839.2.2.7.1.6


The table below shows the implementation specifications of ax3630sSwitch group.

Table 3-58: Implementation Specifications of ax3630sSwitch Group


1 ax3630sModelType{ax3630sSwitch 1}

INTEGER R/O Model information of system (numerical value).• Compute Blade 320

GG-BE9LSWM1(550)• Compute Blade 320

XG-BE9LSWM1(551)• Compute Blade 320


XG-BE9LSWM2(553)

A

2 ax3630sSoftwareName{ax3630sSoftware 1}

DisplayString R/O The type name of software in operation (maximum 16 characters).

A

3 ax3630sSoftwareAbbreviation{ax3630sSoftware 2}

DisplayString R/O The abbreviation of software in operation (maximum 16 characters).

A

4 ax3630sSoftwareVersion{ax3630sSoftware 3}

DisplayString R/O The version of software in operation (maximum 16 characters).

A

5 ax3630sSystemMsgText{ax3630sSystemMsg 1}

DisplayString R/O 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, 1.2.3 Format of Operation Log".

A

6 ax3630sSystemMsgType{ax3630sSystemMsg 2}

OCTET STRING

R/O The type of an event is indicated in one byte.• An event was generated (01)• An event was restored (02)

A

216


7 ax3630sSystemMsgTimeStamp{ax3630sSystemMsg 3}

DisplayString R/O 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.

A

8 ax3630sSystemMsgLevel{ax3630sSystemMsg 4}

OCTET STRING

R/O The level of the latest system message log is indicated in one byte.• Fatal failure (9)• Critical failure (8)• Software failure (7)• Network system failure (4)• Warning (3)• Reserved (2)• Reserved (1)

A

9 ax3630sSystemMsgEventPoint{ax3630sSystemMsg 5}

DisplayString R/O 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".

A

10 ax3630sSystemMsgEventInterfaceID{ax3630sSystemMsg 6}

DisplayString R/O The interface identifier of a system message is indicated using a character string (maximum 40 characters).For details of identifier, see "Message Log Reference, 1.2.5 (4) Identifier of event-occurring interface".

A

11 ax3630sSystemMsgEventCode{ax3630sSystemMsg 7}

OCTET STRING

R/O The message identifier code of a system message is indicated in 4 bytes (0x00000000 to 0xFFFFFFFF).For details of code,refer to "Message Log Reference, 1.2.5 (5) Message identifier and additional information".

A

12 ax3630sSystemMsgAdditionalCode{ax3630sSystemMsg 8}

OCTET STRING

R/O The additional information of a system message is indicated in 6 bytes (0x000000000000 to 0xFFFFFFFFFFFF).The contents of a code is not opened to the public because the code is used for maintenance.

A

13 ax3630sSnmpSendReceiveSize{ax3630sSnmpAgent 1}

INTEGER R/O Size of SNMP packet which agent can transmit and receive (unit: byte).

A

14 ax3630sSnmpReceiveDelay{ax3630sSnmpAgent 2}

INTEGER R/O Recommended receive delay interval of SNMP packet (unit: millisecond).

A

15 ax3630sSnmpContinuousSend{ax3630sSnmpAgent 3}

INTEGER R/O Recommended number of continuously transmitted SNMP packets.

A

16 ax3630sSnmpObjectMaxNumber{ax3630sSnmpAgent 4}

INTEGER R/O Number of objects for each recommended 1SNMP packet.

A

17 ax3630sLicenseNumber{ax3630sLicense 1}

INTEGER R/O Number of set license serial numbers. A


217


18 ax3630sLicenseTable{ax3630sLicense 2}

NOT-ACCESSIBLE

NA Table of license information. A

19 ax3630sLicenseEntry{ax3630sLicenseTable 1}

NOT-ACCESSIBLE

NA Entry of license information.INDEX { ax3630sLicenseIndex }

A

20 ax3630sLicenseIndex{ax3630sLicenseEntry 1}

INTEGER NA Unique index number assigned for each serial number.Number of 1 to ax3630sLicenseNumber.

A

21 ax3630sLicenseSerialNumber{ax3630sLicenseEntry 2}

DisplayString R/O Serial number. A

22 ax3630sLicenseOptionNumber{ax3630sLicenseEntry 3}

INTEGER R/O Number of the option licenses related to serial number.

A

23 ax3630sLicenseOptionTable{ax3630sLicense 3}

NOT-ACCESSIBLE

NA Table of the option license information related to serial number.

A

24 ax3630sLicenseOptionEntry{ax3630sLicenseOptionTable 1}

NOT-ACCESSIBLE

NA Entry of the option license information related to serial number.INDEX{ ax3630sLicenseOptionIndex,ax3630sLicenseOptionNumberIndex }

A

25 ax3630sLicenseOptionIndex{ax3630sLicenseOptionEntry 1}

INTEGER NA Unique index number assigned for each serial number.Same number as ax3630sLicenseIndex.

A

26 ax3630sLicenseOptionNumberIndex{ax3630sLicenseOptionEntry 2}

INTEGER NA Index number of the option license information related to serial number.Number of 1 to ax3630sLicenseOptionNumber.

A

27 ax3630sLicenseOptionSoftwareName{ax3630sLicenseOptionEntry 3}

DisplayString R/O Software name of the option license information related to serial number.

A

28 ax3630sLicenseOptionSoftwareAbbreviation{ax3630sLicenseOptionEntry 4}

DisplayString R/O Software abbreviation of the option license information related to serial number.

A


218



3.15.1 Implementation Specifications (Chassis Information) of Group

(1) Identifier ax3630sDevice OBJECT IDENTIFIER ::= {ax3630sMib 2}ax3630sChassis OBJECT IDENTIFIER ::= {ax3630sDevice 1} ax3630sChassisMaxNumber OBJECT IDENTIFIER ::= {ax3630sChassis 1}Object ID value 1.3.6.1.4.1.21839.2.2.7.2.1.1 ax3630sChassisTable OBJECT IDENTIFIER ::= {ax3630sChassis 2}Object ID value 1.3.6.1.4.1.21839.2.2.7.2.1.2


The table below shows the implementation specifications (chassis information) of ax3630sChassis group.

Table 3-59: Implementation Specifications of ax3630sChassis Group (Chassis Information)


1 ax3630sChassisMaxNumber{ax3630sChassis 1}

INTEGER R/O 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.

A

2 ax3630sChassisTable{ax3630sChassis 2}

NOT-ACCESSIBLE

NA Table of chassis information. A

3 ax3630sChassisEntry{ax3630sChassisTable 1}

NOT-ACCESSIBLE

NA Information entry on specific chassis.INDEX { ax3630sChassisIndex }

A

4 ax3630sChassisIndex{ax3630sChassisEntry 1}

NOT-ACCESSIBLE

NA Number identifying ax3630sChassisEntry.Fixed to 1.

A

5 ax3630sChassisType{ax3630sChassisEntry 2}

INTEGER R/O Type of chassis.• Compute Blade 320


XG-BE9LSWM1(551)• Compute Blade 320


XG-BE9LSWM2(553)

A

6 ax3630sChassisStatus{ax3630sChassisEntry 3}

INTEGER R/O The current status of chassis.Operation (2) fixed.

A

7 ax3630sStsLedStatus{ax3630sChassisEntry 4}

INTEGER R/O 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)

A

8 ax3630sCpuName{ax3630sChassisEntry 5}

DisplayString

R/O CPU name (maximum 16 characters).Example: "AMD K5"

A

9 ax3630sCpuClock{ax3630sChassisEntry 6}

INTEGER R/O CPU clock (unit: MHz).Example: 200

A

219


10 ax3630sMemoryTotalSize{ax3630sChassisEntry 7}

INTEGER R/O Installed memory size (unit: kB). A

11 ax3630sMemoryUsedSize{ax3630sChassisEntry 8}

INTEGER R/O Used memory size (unit: kB). A

12 ax3630sMemoryFreeSize{ax3630sChassisEntry 9}

INTEGER R/O The size of the memory not used is indicated using a numeric value (unit: kB).

A

13 ax3630sRomVersion{ax3630sChassisEntry 10}

DisplayString

R/O Version of installed ROM (character string).Example: "ROM 01-01 Rev0 BIOS Rev.:R1.02.E4"

A

14 ax3630sCpuLoad1m{ax3630sChassisEntry 11}

INTEGER R/O One-minute CPU usage (0 to 100). A

15 ax3630sFlashTotalSize{ax3630sChassisEntry 12}

INTEGER R/O The total of the file system volume in use and the unused volume on the built-in flash memory (unit: kB).

A

16 ax3630sFlashUsedSize{ax3630sChassisEntry 13}

INTEGER R/O File system volume in use on the built-in flash memory (unit: kB).

A

17 ax3630sFlashFreeSize{ax3630sChassisEntry 14}

INTEGER R/O File system volume not in use on the built-in flash memory (unit: kB).

A

18 ax3630sSdCardStatus{ax3630sChassisEntry 15}

INTEGER R/O MC connection status.• Connected (2)• Not connected (32)

A

19 ax3630sSdCardTotalSize{ax3630sChassisEntry 16}

INTEGER R/O Total capacity of MC (unit: kB)Returns -1 when the MC is not connected.

A

20 ax3630sSdCardUsedSize{ax3630sChassisEntry 17}

INTEGER R/O Used capacity of MC (unit: kB)Returns -1 when the MC is not connected.

A

21 ax3630sSdCardFreeSize{ax3630sChassisEntry 18}

INTEGER R/O Remaining capacity of MC (unit: kB)Returns -1 when the MC is not connected.

A

22 ax3630sPhysLineNumber{ax3630sChassisEntry 19}

INTEGER R/O Number of ports that can be connected to this chassis

A

23 ax3630sTemperatureStatusNumber{ax3630sChassisEntry 20}

INTEGER R/O Number of largest temperature monitoring parts on this chassis

A

24 ax3630sPowerUnitNumber{ax3630sChassisEntry 21}

INTEGER R/O Number of power supplies that can be installed in this chassis.• For Compute Blade 320 GG-BE9LSWM1


0 fixed.

A

25 ax3630sRedundantPsNumber{ax3630sChassisEntry 22}

INTEGER R/O Number of external power units that can be installed in this chassis.• For Compute Blade 320 GG-BE9LSWM1


0 fixed.

A

26 ax3630sFanNumber{ax3630sChassisEntry 23}

INTEGER R/O Number of main fans in this chassis.• For Compute Blade 320 GG-BE9LSWM1


0 fixed.

A

27 ax3630sTotalAccumRunTime{ax3630sChassisEntry 24}

INTEGER R/O Cumulative running time after system operation is started.

A

28 ax3630sCriticalAccumRunTime{ax3630sChassisEntry 25}

INTEGER R/O Running time in the environment at 40ºC or

above.

A


220


3.15.2 Implementation Specifications (Temperature Information) of ax3630sChassis Group

(1) Identifier ax3630sChassis OBJECT IDENTIFIER ::= {ax3630sDevice 1} ax3630sTemperatureStatusTable OBJECT IDENTIFIER ::= {ax3630sChassis 3}Object ID value 1.3.6.1.4.1.21839.2.2.7.2.1.3


The table below shows the implementation specifications (temperature information) of ax3630sChassis group.

Table 3-60: Implementation Specifications of ax3630sChassis Group (Temperature Information)

29 ax3630sModuleSlotNumber{ax3630sChassisEntry 26}

INTEGER R/O Number of internal redundancy power modules that can be installed in this chassis.• For Compute Blade 320 GG-BE9LSWM1


0 fixed.

A

30 ax3630sMgmtPortStatus{ax3630sChassis Entry 27}

INTEGER R/O 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.

A


1 ax3630sTemperatureStatusTable{ax3630sChassis 3}

NOT-ACCESSIBLE

NA Temperature state table A

2 ax3630sTemperatureStatusEntry{ax3630sTemperatureStatusTable 1}

NOT-ACCESSIBLE

NA Temperature state entryINDEX{ ax3630sChassisIndex,ax3630sTemperatureStatusIndex }

A

3 ax3630sTemperatureStatusIndex{ax3630sTemperatureStatusEntry 1}

NOT-ACCESSIBLE

NA Unique index number assigned for each temperature monitoring part

A

4 ax3630sTemperatureStatusDescr{ax3630sTemperatureStatusEntry 2}

DisplayString R/O Description of this temperature monitoring part• "Main board Temperature": Board

temperature

A

5 ax3630sTemperatureStatusValue{ax3630sTemperatureStatusEntry 3}

Integer32 R/O The current temperature of the temperature monitoring part

A

6 ax3630sTemperatureThreshold{ax3630sTemperatureStatusEntry 4}

Integer32 R/O Temperature of this temperature monitoring part where a system is put into the stop state.

A

7 ax3630sTemperatureState{ax3630sTemperatureStatusEntry 5}

INTEGER R/O The current temperature state of this temperature monitoring part• Normal (1)• Caution (2)• Abnormal (4)

A


221


3.15.3 Implementation Specifications (Power Unit Information) of ax3630sChassis Group

(1) Identifier ax3630sChassis OBJECT IDENTIFIER ::= {ax3630sDevice 1} ax3630sPowerUnitTable OBJECT IDENTIFIER ::= {ax3630sChassis 4}Object ID value 1.3.6.1.4.1.21839.2.2.7.2.1.4


The table below shows the implementation specifications (power unit information) of ax3630sChassis group.

Table 3-61: Implementation Specifications of ax3630sChassis Group (Power Unit Information)

3.15.4 Implementation Specifications (Fan Information) of ax3630sChassis Group

(1) Identifier ax3630sChassis OBJECT IDENTIFIER ::= {ax3630sDevice 1} ax3630sFanTable OBJECT IDENTIFIER ::= {ax3630sChassis 5}Object ID value 1.3.6.1.4.1.21839.2.2.7.2.1.5


The table below shows the implementation specifications (fan information) of ax3630sChassis group.

Table 3-62: Implementation Specifications of ax3630sChassis Group (Fan Information)


1 ax3630sPowerUnitTable{ax3630sChassis 4}

NOT-ACCESSIBLE

NA Table of power information. N

2 ax3630sPowerUnitEntry{ax3630sPowerUnitTable 1}

NOT-ACCESSIBLE

NA Entry of power information.INDEX { ax3630sChassisIndex, ax3630sPowerUnitIndex }

N

3 ax3630sPowerUnitIndex{ax3630sPowerUnitEntry 1}

NOT-ACCESSIBLE

NA Index indicating the power position.Value of 1 to ax3630sPowerUnitNumber.• AX3630S: Up to 2

N

4 ax3630sPowerConnectStatus{ax3630sPowerUnitEntry 2}

INTEGER R/O Installation status of the power supply.• Installed (2)• Not installed (32)

N

5 ax3630sPowerSupplyStatus{ax3630sPowerUnitEntry 3}

INTEGER R/O Active state of power supply.• In operation (2)• In failure (4)

Returns -1 when power is not installed.

N


1 ax3630sFanTable{ax3630sChassis 5}

NOT-ACCESSIBLE

NA Table of fan information. N

2 ax3630sFanEntry{ax3630sFanTable 1}

NOT-ACCESSIBLE

NA Entry of fan information.INDEX { ax3630sChassisIndex, ax3630sFanIndex }

N

222


3.15.5 Implementation Specifications (External Power Unit Information) of ax3630sChassis Group

(1) Identifier ax3630sChassis OBJECT IDENTIFIER ::= {ax3630sDevice 1} ax3630sRedundantPsTable OBJECT IDENTIFIER ::= {ax3630sChassis 6}Object ID value 1.3.6.1.4.1.21839.2.2.7.2.1.6


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)

3.15.6 Implementation Specifications (Built-in Power Supply Redundancy Module Information) of ax3630sChassis Group

(1) Identifier ax3630sChassis OBJECT IDENTIFIER ::= {ax3630sDevice 1} ax3630sModuleSlotTable OBJECT IDENTIFIER ::= {ax3630sChassis 7}Object ID value 1.3.6.1.4.1.21839.2.2.7.2.1.7

3 ax3630sFanIndex{ax3630sFanEntry 1}

NOT-ACCESSIBLE

NA Index indicating the main fan position.Value of 1 to ax3630sPowerUnitNumber.• For AX3630S: 1 to 4

N

4 ax3630sFanStatus{ax3630sFanEntry 2}

INTEGER R/O Active state of main fan.• In operation (2)• During high-speed rotation (3)• In failure (4)

N


1 ax3630sRedundantPsTable{ax3630sChassis 6}

NOT-ACCESSIBLE

NA Table of external power unit information. N

2 ax3630sRedundantPsEntry{ax3630sRedundantPsTable 1}

NOT-ACCESSIBLE

NA Entry of external power unit information.INDEX { ax3630sChassisIndex, ax3630sRedundantPsIndex }

N

3 ax3630sRedundantPsIndex{ax3630sRedundantPsEntry 1}

NOT-ACCESSIBLE

NA Index indicating the external power supply position.Value of 1 to ax3630sRedundantPsNumber.• For AX3630S: 1

N

4 ax3630sRedundantPsConnectStatus{ax3630sRedundantPsEntry 2}

INTEGER R/O Installation status of the external power supply.• Installed (2)• Not installed (32)

N

5 ax3630sRedundantPsStatus{ax3630sRedundantPsEntry 3}

INTEGER R/O Active state of external power supply.• In operation (2)• In failure (4)

Returns -1 when the external power unit is not installed.

N


223



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)

3.15.7 Implementation Specifications (Interface Information) of ax3630sPhysLine Group

(1) Identifier ax3630sPhysLine OBJECT IDENTIFIER ::= {ax3630sDevice 2} ax3630sPhysLineTable OBJECT IDENTIFIER ::= {ax3630sPhysLine 1}Object ID value 1.3.6.1.4.1.21839.2.2.7.2.2.1


The table below shows the implementation specifications (interface information) of ax3630sPhysLine group.


1 ax3630sModuleSlotTable{ax3630sChassis 7}

NOT-ACCESSIBLE

NA Table of built-in power supply redundancy module informationInformation 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 unit2: Rear-left power module unit

• ax3630sFanTable (ax3630sFanIndex)1: Rear-right fan module unit right side2: Rear-right fan module unit left side3: Rear-left fan module unit right side4: Rear-left fan module unit left side

N

2 ax3630sModuleSlotEntry{ax3630sModuleSlotTable 1}

NOT-ACCESSIBLE

NA Entry of built-in power supply redundancy module informationINDEX { ax3630sChassisIndex, ax3630sModuleSlotIndex }

N

3 ax3630sModuleSlotIndex{ax3630sModuleSlotEntry 1}

NOT-ACCESSIBLE

NA Index indicating the position.Value of 1 to ax3630sModuleSlotNumber

N

4 ax3630sModuleSlotStatus{ax3630sModuleSlotEntry 2}

INTEGER R/O Installation status of built-in powersupply redundancy module.• Installed (2)• In failure (4)• Not installed (32)

N

5 ax3630sModuleSlotType{ax3630sModuleSlotEntry 3}

INTEGER R/O Type of built-in power supply redundancy module• Power module AC power supply (1)• Power module DC power supply (2)• Fan module (3)


N

224


Table 3-65: Implementation Specifications of ax3630sPhysLine Group (Interface Information)


1 ax3630sPhysLineTable{ax3630sPhysLine 1}

NOT-ACCESSIBLE

NA Table of interface information A

2 ax3630sPhysLineEntry{ax3630sPhysLineTable 1}

NOT-ACCESSIBLE

NA Information entry on interfaceINDEX { ax3630sChassisIndex, ax3630sPhysLineIndex }

A

3 ax3630sPhysLineIndex{ax3630sPhysLineEntry 1}

NOT-ACCESSIBLE

NA Information on a port number.Value of 1 to ax3630sPhysNifLineNumber

A

4 ax3630sPhysLineConnectorType{ax3630sPhysLineEntry 2}

INTEGER R/O Interface type for the transceiver which can be replaced.• other (1)• type1000BASE-LX (301)• type1000BASE-SX (302)• type1000BASE-LH (303)• type1000BASE-BX10-D (304)• type1000BASE-BX10-U (305)• type1000BASE-BX40-D (306)• type1000BASE-BX40-U (307)• type1000BASE-SX2(308)• type10GBASE-SR (401)• type10GBASE-LR (402)• type10GBASE-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 otherthan "implemented".

A

5 ax3630sPhysLineOperStatus{ax3630sPhysLineEntry 3}

INTEGER R/O 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)

A

6 ax3630sPhysLineIfIndexNumber{ax3630sPhysLineEntry 4}

INTEGER R/O Number of ifIndexes contained in the interface.

A

7 ax3630sPhysLineTransceiverStatus{ax3630sPhysLineEntry 5}

INTEGER R/O 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)

A

225



3.16.1 ax3630sFdbClearMIB Group (MAC Address Table Clear MIB)

(1) Identifier ax3630sMib OBJECT IDENTIFIER ::= {axsEx 7}Object ID value 1.3.6.1.4.1.21839.2.2.7 ax3630sManagementMIB OBJECT IDENTIFIER ::= {ax3630sMib 3}Object ID value 1.3.6.1.4.1.21839.2.2.7.3 ax3630sOperationCommand OBJECT IDENTIFIER ::= {ax3630sManagementMIB 1}Object ID value 1.3.6.1.4.1.21839.2.2.7.3.1


The table below shows the implementation specifications of ax3630sFdbClearMIB group.

Table 3-66: Implementation Specifications of ax3630sManagementMIB Group


1 ax3630sFdbClearMIB{ax3630sOperationCommand 1}

NOT-ACCESSIBLE

NA MIB group for clearing MAC address table information.

A

2 ax3630sFdbClearSet{ax3630sFdbClearMIB 1}

INTEGER R/W MAC address table clear information• Initial value (0)• clear processing (1)• clear failure (2)• clear success (3)

For Set, set to 1.

A

3 ax3630sFdbClearReqTime{ax3630sFdbClearMIB 2}

TimeTicks R/O Time (sysUpTime) when the clear request of MAC address table information was accepted most recently

A

4 ax3630sFdbClearSuccessTime{ax3630sFdbClearMIB 3}

TimeTicks R/O Time (sysUpTime) when MAC address table information was cleared most recently

A

226



(1) Identifier ax3640sMib OBJECT IDENTIFIER ::= {axsEx 11} ax3640sSwitch OBJECT IDENTIFIER ::= {ax3640sMib 1}Object ID value 1.3.6.1.4.1.21839.2.2.11.1 ax3640sSoftware OBJECT IDENTIFIER ::= {ax3640sSwitch 2}Object ID value 1.3.6.1.4.1.21839.2.2.11.1.2 ax3640sSystemMsg OBJECT IDENTIFIER ::= {ax3640sSwitch 3}Object ID value 1.3.6.1.4.1.21839.2.2.11.1.3 ax3640sSnmpAgent OBJECT IDENTIFIER ::= {ax3640sSwitch 4}Object ID value 1.3.6.1.4.1.21839.2.2.11.1.4 ax3640sLicense OBJECT IDENTIFIER ::= {ax3640sSwitch 6}Object ID value 1.3.6.1.4.1.21839.2.2.11.1.6




No.


Implementation Specifications Implemente

d


INTEGER R/O Model information of system (numerical value).• GVX-BE2LSW1X1(1050)• GVX-BE2LSW2X1(1051)

A



A



A



A



A


OCTET STRING


A




A

227



OCTET STRING


A



A



A


OCTET STRING


A


OCTET STRING


A



A



A



A



A




NOT-ACCESSIBLE



NOT-ACCESSIBLE


A



A





A

No.



d

228



NOT-ACCESSIBLE


A


NOT-ACCESSIBLE


A



A



A



A



A

No.



d

229



3.18.1 Implementation Specifications (ax3640s Chassis Information) of Group





No.



d


INTEGER R/O 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.

A


NOT-ACCESSIBLE



NOT-ACCESSIBLE


A


NOT-ACCESSIBLE


A


INTEGER R/O Type of chassis.• GVX-BE2LSW1X1(1050)• GVX-BE2LSW2X1(1051)

A



A



A


DisplayString R/O CPU name (maximum 16 characters).Example: "AMD K5"

A



A

230








A


DisplayString R/O Version of installed ROM (character string).Example: "ROM 01-01 Rev0 BIOS Rev.:R1.02.E4"

A





A



A



A



A



A



A



A



A



A


INTEGER R/O Number of power supplies that can be installed in this chassis.• For Compute Blade 2000



A


INTEGER R/O Number of external power units that can be installed in this chassis.• For Compute Blade 2000



A


INTEGER R/O Number of main fans in this chassis.• For Compute Blade 2000



A



A

No.



d

231









above.

A


INTEGER R/O Number of internal redundancy power modules that can be installed in this chassis.• For Compute Blade 2000



A

30 ax3640sMgmtPortStatus{ax3640sChassis Entry 27}

INTEGER R/O 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.

A

No.



d


NOT-ACCESSIBLE



NOT-ACCESSIBLE


A


NOT-ACCESSIBLE


A



temperature

A



A

No.



d

232











A



A

No.



d


NOT-ACCESSIBLE



NOT-ACCESSIBLE


N


NOT-ACCESSIBLE


N



N




N

No.



d

233





3.18.5 Implementation Specifications (External Power Unit Information) of ax3640sChassis Group

(1) Identifier ax3640sChassis OBJECT IDENTIFIER ::= {ax3640sDevice 1} ax3640sRedundantPsTable OBJECT IDENTIFIER ::= {ax3640sChassis 6}Object ID value 1.3.6.1.4.1.21839.2.2.11.2.1.6


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)

No.



d


NOT-ACCESSIBLE



NOT-ACCESSIBLE


N


NOT-ACCESSIBLE


N



N

No.



d

1 ax3640sRedundantPsTable{ax3640sChassis 6}

NOT-ACCESSIBLE

NA Table of external power unit information. N

2 ax3640sRedundantPsEntry{ax3640sRedundantPsTable 1}

NOT-ACCESSIBLE

NA Entry of external power unit information.INDEX { ax3640sChassisIndex, ax3640sRedundantPsIndex }

N

3 ax3640sRedundantPsIndex{ax3640sRedundantPsEntry 1}

NOT-ACCESSIBLE

NA Index indicating the external power supply position.Value of 1 to ax3640sRedundantPsNumber.• For AX3640S: 1

N

234







4 ax3640sRedundantPsConnectStatus{ax3640sRedundantPsEntry 2}

INTEGER R/O Installation status of the external power supply.• Installed (2)• Not installed (32)

N

5 ax3640sRedundantPsStatus{ax3640sRedundantPsEntry 3}

INTEGER R/O Active state of external power supply.• In operation (2)• In failure (4)


N

No.



d


NOT-ACCESSIBLE




N


NOT-ACCESSIBLE


N


NOT-ACCESSIBLE


N

No.



d

235









N


INTEGER R/O Type of built-in power supply redundancy module• Power module AC power supply (1)• Power module DC power supply (2)• Fan module (3)


N

No.



d


NOT-ACCESSIBLE



NOT-ACCESSIBLE


A


NOT-ACCESSIBLE


A

No.



d

236



INTEGER R/O Interface type for the transceiver which can be replaced.• other (1)• type1000BASE-LX (301)• type1000BASE-SX (302)• type1000BASE-LH (303)• type1000BASE-BX10-D (304)• type1000BASE-BX10-U (305)• type1000BASE-BX40-D (306)• type1000BASE-BX40-U (307)• type1000BASE-SX2(308)• type10GBASE-SR (401)• type10GBASE-LR (402)• type10GBASE-ER (403)




A


INTEGER R/O 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)

A


INTEGER R/O Number of ifIndexes contained in the interface. A


INTEGER R/O 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)

A

No.



d

237








No.



d


NOT-ACCESSIBLE


A



For Set, set to 1.

A



A



A

238



(1) Identifier ax3650sMib OBJECT IDENTIFIER ::= {axsEx 15} ax3650sSwitch OBJECT IDENTIFIERsMib 1}Object ID value 1.3.6.1.4.1.21839.2.2.15.1 ax3650sSoftware OBJECT IDENTIFIER ::= {ax3650sSwitch 2}Object ID value 1.3.6.1.4.1.21839.2.2.15.1.2 ax3650sSystemMsg OBJECT IDENTIFIER ::= {ax3650sSwitch 3}Object ID value 1.3.6.1.4.1.21839.2.2.15.1.3 ax3650sSnmpAgent OBJECT IDENTIFIER ::= {ax3650sSwitch 4}Object ID value 1.3.6.1.4.1.21839.2.2.15.1.4 ax3650sLicense OBJECT IDENTIFIER ::= {ax3650sSwitch 6}Object ID value 1.3.6.1.4.1.21839.2.2.15.1.6




No.



d


INTEGER R/O Model information of system (numerical value).• GGX-BE3LSW4X1(1152)

A



A



A



A



A


OCTET STRING


A




A

239



OCTET STRING


A



A



A


OCTET STRING


A


OCTET STRING


A



A



A



A



A




NOT-ACCESSIBLE



NOT-ACCESSIBLE


A



A





A

No.



d

240



NOT-ACCESSIBLE


A


NOT-ACCESSIBLE


A



A



A



A



A

No.



d

241



3.21.1 Implementation Specifications (ax3650s Chassis Information) of Group





No.



d


INTEGER R/O Maximum number of cluster chassis that can be connected to this system.• For Compute Blade 500

GGX-BE3LSW4X1 0 fixed.

A


NOT-ACCESSIBLE



NOT-ACCESSIBLE


A


NOT-ACCESSIBLE


A


INTEGER R/O Type of chassis.• GVX-BE2LSW1X1(1050)• GVX-BE2LSW2X1(1051)

A



A



A


DisplayString R/O CPU name (maximum 16 characters).Example: "AMD K5"

A



A



242






A


DisplayString R/O Version of installed ROM (character string).Example: "ROM 01-01 Rev0 BIOS Rev.:R1.02.E4"

A





A



A



A



A



A



A



A



A



A


INTEGER R/O Number of power supplies that can be installed in this chassis.• For Compute Blade 2000



A


INTEGER R/O Number of external power units that can be installed in this chassis.• For Compute Blade 2000



A


INTEGER R/O Number of main fans in this chassis.• For Compute Blade 2000



A



A

No.



d

243









above.

A


INTEGER R/O Number of internal redundancy power modules that can be installed in this chassis.• For Compute Blade 2000



A

No.



d


NOT-ACCESSIBLE



NOT-ACCESSIBLE


A


NOT-ACCESSIBLE


A



temperature

A



A



A



A

No.



d

244











No.



d


NOT-ACCESSIBLE



NOT-ACCESSIBLE


N


NOT-ACCESSIBLE


N



N




N

6 ax3650sPowerSlotType{ax3650sPowerUnitEntry 4}

INTEGER R/O Type of power supply.• AC power supply (1)

Returns -1 when power supply is not installed.

N

245







No.



d


NOT-ACCESSIBLE



NOT-ACCESSIBLE


N


NOT-ACCESSIBLE


N



N

246







No.



d


NOT-ACCESSIBLE




N


NOT-ACCESSIBLE


N


NOT-ACCESSIBLE


N



N


INTEGER R/O Type of built-in power supply redundancy module• Power module AC power supply (1)


N

247



No.



d


NOT-ACCESSIBLE



NOT-ACCESSIBLE


A


NOT-ACCESSIBLE


A


INTEGER R/O Interface type for the transceiver which can be replaced.• other (1)• type100BASE-FX (201)• type1000BASE-LX (301)• type1000BASE-SX (302)• type1000BASE-LH (303)• type1000BASE-BX10-D (304)• type1000BASE-BX10-U (305)• type1000BASE-BX40-D (306)• type1000BASE-BX40-U (307)• type1000BASE-SX2(308)• type1000BASE-UTP(309)• type10GBASE-SR (401)• type10GBASE-LR (402)• type10GBASE-ER (403)• type10GBASE-CU1M (405)• type10GBASE-CU2M (406)• type10GBASE-CU3M (407)




A


INTEGER R/O 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)

A

248



INTEGER R/O Number of ifIndexes contained in the interface. A


INTEGER R/O 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)

A

No.



d

249








No.



d


NOT-ACCESSIBLE


A



For Set, set to 1.

A



A



A

250



(1) Identifier hp OBJECT IDENTIFIER ::= {enterprises 11}nm OBJECT IDENTIFIER ::= {hp 2} icmp OBJECT IDENTIFIER ::= {nm 7}Object ID value 1.3.6.1.4.1.11.2.7


The table below shows the implementation specifications of icmp group.

Table 3-84: Implementation Specifications of icmp Group


1 icmpEchoReq{icmp 1}

INTEGER R/O Time required to receive ICMP Echo Reply packet (unit: millisecond).INDEX {PacketSize, TimeOut, IPAddress}• PacketSize: 32 to 2048• TimeOut: 1 to 60 (in second(s))• IP Address: IP address to be treated

Any 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

A

251



(1) Identifier InMon OBJECT IDENTIFIER ::= {enterprises 4300}sFlowMIB OBJECT IDENTIFIER ::= {InMon 1} sFlowAgent OBJECT IDENTIFIER ::= {sFlowMIB 1}Object ID value 1.3.6.1.4.1.4300.1.1


The table below shows the implementation specifications of sFlow group.

Table 3-85: Implementation Specifications of sFlow Group


1 sFlowVersion{sFlowAgent 1}

SnmpAdminString

R/O [Standard] The character string of sFlow version."Indicated in the format of "<MIB Version>;<Organization>;<Software Revision>".[Implementation] Same as standard. However, fixed to "1.2;;".

A

2 sFlowAgentAddressType{sFlowAgent 2}

InetAddressType

R/O [Standard] IP address type of an agent that collects statistics information.• ipv4 (1)• ipv6 (2)


A*1

3 sFlowAgentAddress{sFlowAgent 3}

InetAddress R/O [Standard] IP address (IPv4 and IPv6) of an agent that collects statistics information.[Implementation] Same as standard.

A*1*2

4 sFlowTable{sFlowAgent 4}

NOT-ACCESSIBLE

NA [Standard] Table storing information on sFlow datagram.[Implementation] Same as standard.

A

5 sFlowEntry{sFlowTable 1}

NOT-ACCESSIBLE

NA [Standard] Information list of sFlow datagram.INDEX { sFlowDataSource }[Implementation] Same as standard.

A

6 sFlowDataSource{sFlowEntry 1}

OBJECT IDENTIFIER

R/O [Standard] Information source of sFlow datagram.• Upper one byte: Type of the information

source0 = ifIndex1 = smonVlanDataSource

• Lower three bytes: Index value


A

7 sFlowOwner{sFlowEntry 2}

OwnerString R/NW [Standard] Owner that utilizes sFlow sampler.[Implementation] Same as standard. However, fixed to " ".

A

8 sFlowTimeout{sFlowEntry 3}

Integer32 R/NW [Standard] Time until the sampler stops after it has been released (unit: second).[Implementation] Same as standard. However, fixed to 0.

A

9 sFlowPacketSamplingRate{sFlowEntry 4}

Integer32 R/NW [Standard] Sampling interval of sFlow datagram.[Implementation] Same as standard.

A*1

252


*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.

10 sFlowCounterSamplingInterval{sFlowEntry 5}

Integer32 R/NW [Standard] Transmission interval of a counter sample to the collector.[Implementation] Same as standard.

A*1

11 sFlowMaximumHeaderSize{sFlowEntry 6}

Integer32 R/NW [Standard] Maximum number of bytes copied from the top of a sample packet.[Implementation] Same as standard.

A*1

12 sFlowMaximumDatagramSize{sFlowEntry 7}

Integer32 R/NW [Standard] Number of the maximum data bytes that can be sent as sample datagram.[Implementation] Same as standard.

A*1

13 sFlowCollectorAddressType{sFlowEntry 8}

InetAddressType

R/NW [Standard] IP address type of the collector.• ipv4 (1)• ipv6 (2)


A*1

14 sFlowCollectorAddress{sFlowEntry 9}

InetAddress R/NW [Standard] IP address of the collector.[Implementation] Same as standard.

A*1*3

15 sFlowCollectorPort{sFlowEntry 10}

Integer32 R/NW [Standard] Destination port of sFlow datagram.[Implementation] Same as standard.

A*1

16 sFlowDatagramVersion{sFlowEntry 11}

Integer32 R/NW [Standard] Version of sFlow datagram. Version=2, 4 are supported.[Implementation] Same as standard.

A*1


253


254

4 Supported MIB TrapsThis chapter provides an explanation of supported MIB traps.

4.1 Supported Trap and Issue Timing

4.2 Supported Trap-PDU Parameters[CB 320]


4.4 Supported Trap-PDU Parameters[CB 2000][OS-L3SA]

255

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

No. Trap Type Meaning Cause of Issuance Implemented

1 coldStart A change may have occurred in an object in the reinitializing system

Issued for the following causes 1 to 4:1. When the system is started2. 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

command4. When the time is changed by the set clock command

A

2 warmStart An object in the reinitializing system is not changed

When re-initialization not changing objects in the system is executed (only when SNMP configuration is changed)

A

3 linkDown Line failure detection When the interface operating state changes from ACTIVE (communication possible) to DISABLE (communication not possible)

A

4 linkUp Line failure recovery When the interface operating state changes from DISABLE (communication not possible) to ACTIVE (communication possible)

A

5 authenticationFailure

Authentication error When receiving SNMP packets from an invalid community (when authentication error occurs)

A

6 egpNeighborLoss Link with neighboring router is disconnected by the EGP protocol.

- N

7 bgpEstablished BGP link established When the FSM (Finite State Machine) is in the "Establish" state by the BPG protocol

A

8 bgpBackwardTransitions

BGP link disconnection

When the FSM is in the "closed" state by the BGP protocol A

9 risingAlarm Over upper threshold When exceeding the upper threshold of the RMON alarm A

10 fallingAlarm Below lower threshold When going below the lower threshold of the RMON alarm A

11 vrrpTrapNewMaster

Virtual router master notification

When a virtual router changes to master status A

12 vrrpTrapAuthFailure

VRRP packet authentication error

• When the authentication type of received packets is different• When authentication of received packets failed

A

13 vrrpTrapProtoError

VRRP protocol error When the error below is detected in the received packet• Hop limit error• Version error• Checksum error• VRRPID error

A

256


14 ospfVirtNbrStateChange

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 Down3. 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 theneighboring router)

A

15 ospfNbrStateChange

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 ospfVirtNbrStateChange. However, not issued for neighboring Down due to transition of OSPF interface to Down state.

A

16 ospfVirtIfStateChange

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 transitarea or the configuration of the virtual link is deleted)

A

17 ospfIfStateChange

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 interface3. When OSPF interface (excluding virtual link) is Down

(down physically or configuration of OSPF interface isdeleted).

A

18 ospfVirtIfConfigError

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 22. When the source is not the virtual neighbor specified in the

configuration3. When each parameter (HelloInterval, RouterDeadInterval)

does not match for the Hello packet

A

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 22. 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

A

20 ospfVirtIfAuthFailure

Authentication 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.

A

21 ospfIfAuthFailure Authentication 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.

A

22 pethPsePortOnOffNotification[CB 320]

PD power supply status

Issued when power supply status to PD changes. N

23 pethMainPowerUsageOnNotification[CB 320]

Power threshold excess notification

Notified when total power consumption of the system exceeds the threshold.

N


257


24 pethMainPowerUsageOffNotification[CB 320]

Power threshold deficiency notification

Notified when total power consumption of the system is below the threshold.

N

25 ax3630sSystemMsgTrap[CB 320]ax3640sSystemMsgTrap[CB 2000]

System message output

When a system message is output A

26 ax3630sTemperatureTrap[CB 320]ax3640sTemperatureTrap[CB 2000]

Change in temperature state

When the temperature monitored by RM changes to normal, caution, warning or abnormal status

A

27 ax3630sAxrpStateTransitionTrap[CB 320]ax3640sAxrpStateTransitionTrap[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.

A

28 ax3630sGsrpStateTransitionTrap[CB 320]ax3640sGsrpStateTransitionTrap[CB 2000]

Notification of transition of GSRP VLAN group status

At the time of a change in GSRP VLAN 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.

A

29 ax3630sL2ldLinkDown[CB 320]ax3640sL2ldLinkDown[CB 2000]

Transition of the line status to DISABLE due to an L2 loop detected

When the operation status of the interface is changed from ACTIVE (communication enabled) to DISABLE (communication disabled) by the L2 loop detection function.

A

30 ax3630sL2ldLinkUp[CB 320]ax3640sL2ldLinkUp[CB 2000]

Transition of the line status to ACTIVE caused by the automatic recovery function of the L2 loop detection

When the operation status of the interface is changed from DISABLE (communication disabled) to ACTIVE (communication enabled) by the automatic recovery function of the L2 loop detection .

A

31 ax3630sL2ldLoopDetection[CB 320]ax3640sL2ldLoopDetection[CB 2000]

L2 loop detected When an L2 loop is detected.Issued every 60 seconds if the L2 loop state continues.

A

32 axsOspfVirtNbrStateChange

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 Down3. 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 theneighboring router)

A


258


33 axsOspfNbrStateChange

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 ospfVirtNbrStateChange. However, not issued for neighboring Down due to transition of OSPF interface to Down state.

A

34 axsOspfVirtIfStateChange

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 transitarea or the configuration of the virtual link is deleted)

A

35 axsOspfIfStateChange

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 interface3. When OSPF interface (excluding virtual link) is Down

(down physically or configuration of OSPF interface isdeleted)

A

36 axsOspfVirtIfConfigError

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 22. When the source is not the virtual neighbor specified in the

configuration3. When each parameter (HelloInterval, RouterDeadInterval)

does not match for the Hello packet

A

37 axsOspfIfConfigError

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 22. 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

A

38 axsOspfVirtIfAuthFailure

Authentication 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.

A

39 axsOspfIfAuthFailure

Authentication 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.

A

40 ax3630sAirFanStopTrap[CB 320]ax3640sAirFanStopTrap[CB 2000]

Fan breaks down When breakdown of the fan is detected N

41 ax3630sPowerSupplyFailureTrap[CB 320]ax3640sPowerSupplyFailureTrap[CB 2000]

Power supply breaks down

• When trouble occurs in any one of power supplies installed• When power supply is removed from the system

N

42 ax3630sLoginSuccessTrap[CB 320]ax3640sLoginSuccessTrap[CB 2000]

User of the system logged in successfully

When login with console, telnet, or ftp is successful A


259


43 ax3630sLoginFailureTrap[CB 320]ax3640sLoginFailureTrap[CB 2000]

User of the system failed in login

• Sent each time authentication fails for login with console,telnet, or ftp.

• Not sent for disconnection due to remote access restriction ortimeout or forced disconnection while "login:" or"Password:" prompt is displayed (this is also true for whenonly Enter key is pressed while "login:" prompt is displayed).

A

44 ax3630sLogoutTrap[CB 320]ax3640sLogoutTrap[CB 2000]

User of the system logged out

When logout with console, telnet, or ftp is successful A

45 ax3630sMemoryUsageTrap[CB 320]ax3640sMemoryUsageTrap[CB 2000]

Available memory becomes insufficient

When the amount of available memory exceeded lower limit A

46 axsOadpNeighborCachelastChangeTrap

Information related to OADP neighboring node is updated.

When information related to OADP neighboring node is updated A

47 ax3630sFrameErrorReceiveTrap[CB 320]ax3640sFrameErrorReceiveTrap[CB 2000]

A frame receiving error occurred

When a frame receiving error occurred. Detection of this error can be set by configuration command frame-error-notice.

A

48 ax3630sFrameErrorSendTrap[CB 320]ax3640sFrameErrorSendTrap[CB 2000]

A frame sending error occurred

When a frame sending error occurred. Detection of this error can be set by configuration command frame-error-notice.

A

49 ax3630sBroadcastStormDetectTrap[CB 320]ax3640sBroadcastStormDetectTrap[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.

A

50 ax3630sMulticastStormDetectTrap[CB 320]ax3640sMulticastStormDetectTrap[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.

A

51 ax3630sUnicastStormDetectTrap[CB 320]ax3640sUnicastStormDetectTrap[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.

A

52 ax3630sBroadcastStormPortInactivateTrap[CB 320]ax3640sBroadcastStormPortInactivateTrap[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.

A


260


(Legend)A: This indicates Traps supported (responded) by this systemN: This indicates Traps not supported (responded) by this system.- : Not Applicable.

53 ax3630sMulticastStormPortInactivateTrap[CB 320]ax3640sMulticastStormPortInactivateTrap[CB 2000]


When occurrence of multicast storm is detected and the port is deactivated. Detection of this error can be set by configuration command storm-control.

A

54 ax3630sUnicastStormPortInactivateTrap[CB 320]ax3640sUnicastStormPortInactivateTrap[CB 2000]


When occurrence of unicast storm is detected and the port is deactivated. Detection of this error can be set by configuration command storm-control.

A

55 ax3630sBroadcastStormRecoverTrap[CB 320]ax3640sBroadcastStormRecoverTrap[CB 2000]

Storm terminated When termination of broadcast storm is detected. Detection of this error can be set by configuration command storm-control.

A

56 ax3630sMulticastStormRecoverTrap[CB 320]ax3640sMulticastStormRecoverTrap[CB 2000]

Storm terminated When termination of multicast storm is detected. Detection of this error can be set by configuration command storm-control.

A

57 ax3630sUnicastStormRecoverTrap[CB 320]ax3640sUnicastStormRecoverTrap[CB 2000]

Storm terminated When termination of unicast storm is detected. Detection of this error can be set by configuration command storm-control.

A

58 ax3630sEfmoamUdldPortInactivateTrap[CB 320]ax3640sEfmoamUdldPortInactivateTrap[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.

A

59 ax3630sEfmoamLoopDetectPortInactivateTrap[CB 320]ax3640sEfmoamLoopDetectPortInactivateTrap[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.

A


261



Supported trap-PDU parameters for SNMPv1 are shown in "Table 4-2: Parameters in Supported Trap-PDU (SNMPv1)", and for SNMPv2 in "Table 4-3: Parameters in Supported Trap-PDU (SNMPv2c/SNMPv3)" respectively.

Table 4-2: Parameters in Supported Trap-PDU (SNMPv1)

No. Type Trap PDU Data Value

enterprise agentaddr generic-trap

specific-trap

time-stamp variable-bindings

1 coldStart sysObjectID of this system1.3.6.1.4.1.21839.1.2.7

Particular IP address*

0 0 Value of sysUpTime

None

2 warmStart sysObjectID of this system1.3.6.1.4.1.21839.1.2.7



None

3 linkDown sysObjectID of this system1.3.6.1.4.1.21839.1.2.7



ifIndexIf the configuration command "snmp-server traps" has the parameter "link_trap_bind_info" set to "private", the following MIBs are applied.ifIndexifDescrifType

4 linkUp sysObjectID of this system1.3.6.1.4.1.21839.1.2.7




5 authentication Failure sysObjectID of this system1.3.6.1.4.1.21839.1.2.7



None

6 bgpEstablished Object ID of bgpTraps1.3.6.1.2.1.15.7



bgpPeerLastErrorbgpPeerState


Object ID of bgpTraps1.3.6.1.2.1.15.7




8 risingAlarm Object ID of rmon1.3.6.1.2.1.16



alarmIndexalarmVariablealarmSampleTypealarmValuealarmRisingThreshold

262


9 fallingAlarm Object ID of rmon1.3.6.1.2.1.16



alarmIndexalarmVariablealarmSampleTypealarmValuealarmFallingThreshold

10 vrrpTrapNewMaster Object ID of vrrpMIB1.3.6.1.2.1.68



vrrpOperationsMasterIpAddrvrrpTrapNewMasterReason

11 vrrpTrapAuthFailure Object ID of vrrpMIB1.3.6.1.2.1.68



vrrpTrapPacketSrcvrrpTrapAuthErrorType

12 vrrpTrapProtoError Object ID of vrrpMIB1.3.6.1.2.1.68



vrrpTrapProtoErrReason


Object ID of ospfTraps1.3.6.1.2.1.14.16.2



ospfRouterIdospfVirtIfAreaIdospfVirtIfNeighborospfVirtIfState

14 ospfNbrStateChange Object ID of ospfTraps1.3.6.1.2.1.14.16.2



ospfRouterIdospfNbrIpAddrospfNbrAddressLessIndexospfNbrRtrIdospfNbrState





ospfRouterIdospfVirtNbrAreaospfVirtNbrRtrIdospfVirtNbrState

16 ospfIfConfigError Object ID of ospfTraps1.3.6.1.2.1.14.16.2



ospfRouterIdospfIfIpAddressospfAddressLessIfospfPacketSrcospfConfigErrorTypeospfPacketType

17 ospfVirtIfConfigError Object ID of ospfTraps1.3.6.1.2.1.14.16.2



ospfRouterIdospfVirtIfAreaIdospfVirtIfNeighborospfConfigErrorTypeospfPacketType

18 ospfIfAuthFailure Object ID of ospfTraps1.3.6.1.2.1.14.16.2




19 ospfVirtIfAuthFailure Object ID of ospfTraps1.3.6.1.2.1.14.16.2




20 ospfIfStateChange Object ID of ospfTraps1.3.6.1.2.1.14.16.2



ospfRouterIdospfIfIpAddressospfAddressLessIfospfIfState



specific-trap


263


21 pethPsePortOnOffNotification

Object ID of powerEthernetMIB1.3.6.1.2.1.105



pethPsePortDetectionStatus

22 pethMainPowerUsageOnNotification




pethMainPseConsumptionPower

23 pethMainPowerUsageOffNotification





24 ax3630sSystemMsgTrap

sysObjectID of this system1.3.6.1.4.1.21839.1.2.7



ax3630sSystemMsgTypeax3630sSystemMsgTimeStampax3630sSystemMsgLevelax3630sSystemMsgEventPointax3630sSystemMsgEventInterfaceIDax3630sSystemMsgEventCodeax3630sSystemMsgAdditionalCodeax3630sSystemMsgText

25 ax3630sTemperatureTrap




ax3630sChassisIndexax3630sTemperatureStatusIndexax3630sTemperatureStatusDescrax3630sTemperatureStatusValueax3630sTemperatureState

26 ax3630sAxrpStateTransitionTrap




axsAxrpGroupRingIdaxsAxrpGroupModeaxsAxrpGroupRingAttributeaxsAxrpGroupMonitoringState

27 ax3630sGsrpStateTransitionTrap




axsGsrpGroupIdaxsGsrpVlanGroupIdaxsGsrpState

28 ax3630sL2ldLinkDown




axsL2ldPortIfIndexaxsL2ldPortSourcePortIfindexaxsL2ldPortDestinationPortIfindexaxsL2ldPortSourceVlan

29 ax3630sL2ldLinkUp sysObjectID of this system1.3.6.1.4.1.21839.1.2.7



axsL2ldPortIfIndex



specific-trap


264


30 ax3630sL2ldLoopDetection




axsL2ldPortIndexaxsL2ldPortIfIndexaxsL2ldPortSourcePortIfindexaxsL2ldPortSourceVlan


Object ID of axsOspfTraps1.3.6.1.4.1.21839.2.2.1.14.16.2



axsOspfVirtIfDomainNumberaxsOspfRouterIdaxsOspfVirtIfAreaIdaxsOspfVirtIfNeighboraxsOspfVirtIfState





axsOspfNbrDomainNumberaxsOspfRouterIdaxsOspfNbrIpAddraxsOspfNbrAddressLessIndexaxsOspfNbrRtrIdaxsOspfNbrState





axsOspfVirtNbrDomainNumberaxsOspfRouterIdaxsOspfVirtNbrAreaaxsOspfVirtNbrRtrIdaxsOspfVirtNbrState

34 axsOspfIfConfigError Object ID of axsOspfTraps1.3.6.1.4.1.21839.2.2.1.14.16.2



axsOspfIfDomainNumberaxsOspfRouterIdaxsOspfIfIpAddressaxsOspfAddressLessIfaxsOspfPacketSrcaxsOspfConfigErrorTypeaxsOspfPacketType





axsOspfVirtIfDomainNumberaxsOspfRouterIdaxsOspfVirtIfAreaIdaxsOspfVirtIfNeighboraxsOspfConfigErrorTypeaxsOspfPacketType

36 axsOspfIfAuthFailure Object ID of axsOspfTraps1.3.6.1.4.1.21839.2.2.1.14.16.2











specific-trap


265






axsOspfIfDomainNumberaxsOspfRouterIdaxsOspfIfIpAddressaxsOspfAddressLessIfaxsOspfIfState

39 ax3630sAirFanStopTrap




None

40 ax3630sPowerSupplyFailureTrap




None

41 ax3630sLoginSuccessTrap




axsLoginNameaxsLoginTimeaxsLoginLocationaxsLoginLine

42 ax3630sLoginFailureTrap




axsLoginNameaxsLoginFailureTimeaxsLoginLocationaxsLoginLine

43 ax3630sLogoutTrap sysObjectID of this system1.3.6.1.4.1.21839.1.2.7



axsLoginNameaxsLoginTimeaxsLogoutTimeaxsLoginLocationaxsLoginLineaxsLogoutStatus

44 ax3630sMemoryUsageTrap




None


Object ID of axsOadpMIBNotifications1.3.6.1.4.1.21839.2.2.1.7.2



axsOadpNeighborCacheLastChange

46 ax3630sFrameErrorReceiveTrap




ifIndex

47 ax3630sFrameErrorSendTrap




ifIndex

48 ax3630sBroadcastStormDetectTrap




ifIndex

49 ax3630sMulticastStormDetectTrap




ifIndex



specific-trap


266


*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 VLAN.4. If neither 1, 2, nor 3 is set, "0.0.0.0" is set.

50 ax3630sUnicastStormDetectTrap




ifIndex

51 ax3630sBroadcastStormPortInactivateTrap




ifIndex

52 ax3630sMulticastStormPortInactivateTrap




ifIndex

53 ax3630sUnicastStormPortInactivateTrap




ifIndex

54 ax3630sBroadcastStormRecoverTrap




ifIndex

55 ax3630sMulticastStormRecoverTrap




ifIndex

56 ax3630sUnicastStormRecoverTrap




ifIndex

57 ax3630sEfmoamUdldPortInactivateTrap




ifIndex

58 ax3630sEfmoamLoopDetectPortInactivateTrap




ifIndex



specific-trap


267


Table 4-3: Parameters in Supported Trap-PDU (SNMPv2c/SNMPv3)


Variable-Binding [1](SysUpTime.0)

Variable-Binding [2](SnmpTrapOID.0)

Variable-Binding [3 -]

1 coldStart Value of sysUpTime Object ID of coldStart(1.3.6.1.6.3.1.1.5.1)

None

2 warmStart Value of sysUpTime Object ID of warmStart(1.3.6.1.6.3.1.1.5.2)

None

3 linkDown Value of sysUpTime Object ID of linkDown(1.3.6.1.6.3.1.1.5.3)


4 linkUp Value of sysUpTime Object ID of linkUp(1.3.6.1.6.3.1.1.5.4)


5 authentication Failure

Value of sysUpTime Object ID of authentication Failure(1.3.6.1.6.3.1.1.5.5)

None

6 bgpEstablished Value of sysUpTime Object ID of bgpEstablished(1.3.6.1.2.1.15.7.1)



Value of sysUpTime Object ID of bgpBackwardTransitions(1.3.6.1.2.1.15.7.2)


8 risingAlarm Value of sysUpTime Object ID of risingAlarm(1.3.6.1.2.1.16.0.1)


9 fallingAlarm Value of sysUpTime Object ID of fallingAlarm(1.3.6.1.2.1.16.0.2)



Value of sysUpTime Object ID of vrrpTrapNewMaster(1.3.6.1.2.1.68.0.1)



Value of sysUpTime Object ID of vrrpTrapAuthFailure(1.3.6.1.2.1.68.0.2)



Value of sysUpTime Object ID of vrrpTrapProtoError(1.3.6.1.2.1.68.0.3)



Value of sysUpTime Object ID of ospfVirtIfStateChange(1.3.6.1.2.1.14.16.2.1)


268



Value of sysUpTime Object ID of ospfNbrStateChange(1.3.6.1.2.1.14.16.2.2)



Value of sysUpTime Object ID of ospfVirtNbrStateChange(1.3.6.1.2.1.14.16.2.3)


16 ospfIfConfigError

Value of sysUpTime Object ID of ospfIfConfigError(1.3.6.1.2.1.14.16.2.4)



Value of sysUpTime Object ID of ospfVirtIfConfigError(1.3.6.1.2.1.14.16.2.5)


18 ospfIfAuthFailure Value of sysUpTime Object ID of ospfIfAuthFailure(1.3.6.1.2.1.14.16.2.6)



Value of sysUpTime Object ID of ospfVirtIfAuthFailure(1.3.6.1.2.1.14.16.2.7)



Value of sysUpTime Object ID of ospfIfStateChange(1.3.6.1.2.1.14.16.2.16)



Value of sysUpTime Object ID of pethPsePortOnOffNotification(1.3.6.1.2.1.105.0.1)



Value of sysUpTime Object ID of pethMainPowerUsageOnNotification(1.3.6.1.2.1.105.0.2)



Value of sysUpTime Object ID of pethMainPowerUsageOffNotification(1.3.6.1.2.1.105.0.3)



Value of sysUpTime Object ID of ax3630sSystemMsgTrap(1.3.6.1.4.1.21839.1.2.7.0.1)






269



Value of sysUpTime Object ID of ax3630sTemperatureTrap(1.3.6.1.4.1.21839.1.2.7.0.4)



Value of sysUpTime Object ID of ax3630sAxrpStateTransitionTrap(1.3.6.1.4.1.21839.1.2.7.0.36)



Value of sysUpTime Object ID of ax3630sGsrpStateTransitionTrap(1.3.6.1.4.1.21839.1.2.7.0.6)



Value of sysUpTime Object ID of ax3630sL2ldLinkDown(1.3.6.1.4.1.21839.1.2.7.0.51)


29 ax3640sL2ldLinkUp

Value of sysUpTime Object ID of ax3640sL2ldLinkUp(1.3.6.1.4.1.21839.1.2.7.0.52)

axsL2ldPortIfIndex


Value of sysUpTime Object ID of ax3640sL2ldLoopDetection(1.3.6.1.4.1.21839.1.2.7.0.53)



Value of sysUpTime Object ID of axsOspfVirtIfStateChange(1.3.6.1.4.1.21839.2.2.1.14.16.2.0.1)



Value of sysUpTime Object ID of axsOspfNbrStateChange(1.3.6.1.4.1.21839.2.2.1.14.16.2.0.2)



Value of sysUpTime Object ID of axsOspfVirtNbrStateChange(1.3.6.1.4.1.21839.2.2.1.14.16.2.0.3)



Value of sysUpTime Object ID of axsOspfIfConfigError(1.3.6.1.4.1.21839.2.2.1.14.16.2.0.4)



Value of sysUpTime Object ID of axsOspfVirtIfConfigError(1.3.6.1.4.1.21839.2.2.1.14.16.2.0.5)






270



Value of sysUpTime Object ID of axsOspfIfAuthFailure(1.3.6.1.4.1.21839.2.2.1.14.16.2.0.6)



Value of sysUpTime Object ID of axsOspfVirtIfAuthFailure(1.3.6.1.4.1.21839.2.2.1.14.16.2.0.7)



Value of sysUpTime Object ID of axsOspfIfStateChange(1.3.6.1.4.1.21839.2.2.1.14.16.2.0.16)



Value of sysUpTime Object ID of ax3630sAirFanStopTrap(1.3.6.1.4.1.21839.1.2.7.0.8)

None


Value of sysUpTime Object ID of ax3630sPowerSupplyFailureTrap(1.3.6.1.4.1.21839.1.2.7.0.9)

None


Value of sysUpTime Object ID of ax3630sLoginSuccessTrap(1.3.6.1.4.1.21839.1.2.7.0.10)



Value of sysUpTime Object ID of ax3630sLoginFailureTrap(1.3.6.1.4.1.21839.1.2.7.0.11)


43 ax3630sLogoutTrap

Value of sysUpTime Object ID of ax3630sLogoutTrap(1.3.6.1.4.1.21839.1.2.7.0.12)



Value of sysUpTime Object ID of ax3630sMemoryUsageTrap(1.3.6.1.4.1.21839.1.2.7.0.13)

None


Value of sysUpTime Object ID of axsOadpNeighborCachelastChangeTrap(1.3.6.1.4.1.21839.2.2.1.7.2.0.1)



Value of sysUpTime Object ID of ax3630sFrameErrorReceiveTrap(1.3.6.1.4.1.21839.1.2.7.0.18)

ifIndex


Value of sysUpTime Object ID of ax3630sFrameErrorSendTrap(1.3.6.1.4.1.21839.1.2.7.0.19)

ifIndex





271



Value of sysUpTime Object ID of ax3630sBroadcastStormDetectTrap(1.3.6.1.4.1.21839.1.2.7.0.20)

ifIndex


Value of sysUpTime Object ID of ax3630sMulticastStormDetectTrap(1.3.6.1.4.1.21839.1.2.7.0.21)

ifIndex


Value of sysUpTime Object ID of ax3630sUnicastStormDetectTrap(1.3.6.1.4.1.21839.1.2.7.0.22)

ifIndex


Value of sysUpTime Object ID of ax3630sBroadcastStormPortInactivateTrap(1.3.6.1.4.1.21839.1.2.7.0.23)

ifIndex


Value of sysUpTime Object ID of ax3630sMulticastStormPortInactivateTrap(1.3.6.1.4.1.21839.1.2.7.0.24)

ifIndex


Value of sysUpTime Object ID of ax3630sUnicastStormPortInactivateTrap(1.3.6.1.4.1.21839.1.2.7.0.25)

ifIndex


Value of sysUpTime Object ID of ax3630sBroadcastStormRecoverTrap(1.3.6.1.4.1.21839.1.2.7.0.26)

ifIndex


Value of sysUpTime Object ID of ax3630sMulticastStormRecoverTrap(1.3.6.1.4.1.21839.1.2.7.0.27)

ifIndex


Value of sysUpTime Object ID of ax3630sUnicastStormRecoverTrap(1.3.6.1.4.1.21839.1.2.7.0.28)

ifIndex


Value of sysUpTime Object ID of ax3630sEfmoamUdldPortInactivateTrap(1.3.6.1.4.1.21839.1.2.7.0.29)

ifIndex


Value of sysUpTime Object ID of ax3630sEfmoamLoopDetectPortInactivateTrap(1.3.6.1.4.1.21839.1.2.7.0.30)

ifIndex





272



Supported trap-PDU parameters for SNMPv1 are shown in "Table 4-4: Parameters in Supported Trap-PDU (SNMPv1)", and for SNMPv2 in "Table 4-5: Parameters in Supported Trap-PDU (SNMPv2c/SNMPv3)" respectively.

Table 4-4: Parameters in Supported Trap-PDU (SNMPv1)



specific-trap


1 coldStart sysObjectID of this system1.3.6.1.4.1.21839.1.2.11



None

2 warmStart sysObjectID of this system1.3.6.1.4.1.21839.1.2.11



None

3 linkDown sysObjectID of this system1.3.6.1.4.1.21839.1.2.11




4 linkUp sysObjectID of this system1.3.6.1.4.1.21839.1.2.11




5 authentication Failure sysObjectID of this system1.3.6.1.4.1.21839.1.2.11



None














273




































17 ospfVirtIfConfigError Object ID of ospfTraps1.3.6.1.2.1.14.16.2


















specific-trap


274



























26 ax3640sL2ldLinkUp sysObjectID of this system1.3.6.1.4.1.21839.1.2.11



axsL2ldPortIfIndex













specific-trap


275







































None





None



specific-trap


276












40 ax3640sLogoutTrap sysObjectID of this system1.3.6.1.4.1.21839.1.2.11








None










ifIndex





ifIndex





ifIndex





ifIndex





ifIndex





ifIndex





ifIndex



specific-trap


277


*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 VLAN.4. If neither 1, 2, nor 3 is set, "0.0.0.0" is set.

Table 4-5: Parameters in Supported Trap-PDU (SNMPv2c/SNMPv3)





ifIndex





ifIndex





ifIndex





ifIndex





ifIndex





ifIndex





1 coldStart Value of sysUpTime Object ID of coldStart(1.3.6.1.6.3.1.1.5.1)

None

2 warmStart Value of sysUpTime Object ID of warmStart(1.3.6.1.6.3.1.1.5.2)

None

3 linkDown Value of sysUpTime Object ID of linkDown(1.3.6.1.6.3.1.1.5.3)




specific-trap


278


4 linkUp Value of sysUpTime Object ID of linkUp(1.3.6.1.6.3.1.1.5.4)



Value of sysUpTime Object ID of authentication Failure(1.3.6.1.6.3.1.1.5.5)

None

6 bgpEstablished Value of sysUpTime Object ID of bgpEstablished(1.3.6.1.2.1.15.7.1)



Value of sysUpTime Object ID of bgpBackwardTransitions(1.3.6.1.2.1.15.7.2)


8 risingAlarm Value of sysUpTime Object ID of risingAlarm(1.3.6.1.2.1.16.0.1)


9 fallingAlarm Value of sysUpTime Object ID of fallingAlarm(1.3.6.1.2.1.16.0.2)



Value of sysUpTime Object ID of vrrpTrapNewMaster(1.3.6.1.2.1.68.0.1)



Value of sysUpTime Object ID of vrrpTrapAuthFailure(1.3.6.1.2.1.68.0.2)



Value of sysUpTime Object ID of vrrpTrapProtoError(1.3.6.1.2.1.68.0.3)



Value of sysUpTime Object ID of ospfVirtIfStateChange(1.3.6.1.2.1.14.16.2.1)



Value of sysUpTime Object ID of ospfNbrStateChange(1.3.6.1.2.1.14.16.2.2)



Value of sysUpTime Object ID of ospfVirtNbrStateChange(1.3.6.1.2.1.14.16.2.3)



Value of sysUpTime Object ID of ospfIfConfigError(1.3.6.1.2.1.14.16.2.4)






279



Value of sysUpTime Object ID of ospfVirtIfConfigError(1.3.6.1.2.1.14.16.2.5)


18 ospfIfAuthFailure Value of sysUpTime Object ID of ospfIfAuthFailure(1.3.6.1.2.1.14.16.2.6)



Value of sysUpTime Object ID of ospfVirtIfAuthFailure(1.3.6.1.2.1.14.16.2.11)



Value of sysUpTime Object ID of ospfIfStateChange(1.3.6.1.2.1.14.16.2.16)



Value of sysUpTime Object ID of pethPsePortOnOffNotification(1.3.6.1.2.1.105.0.1)



Value of sysUpTime Object ID of pethMainPowerUsageOnNotification(1.3.6.1.2.1.105.0.2)



Value of sysUpTime Object ID of pethMainPowerUsageOffNotification(1.3.6.1.2.1.105.0.3)



Value of sysUpTime Object ID of ax3640sSystemMsgTrap(1.3.6.1.4.1.21839.1.2.11.0.1)



Value of sysUpTime Object ID of ax3640sTemperatureTrap(1.3.6.1.4.1.21839.1.2.11.0.4)



Value of sysUpTime Object ID of ax3640sAxrpStateTransitionTrap(1.3.6.1.4.1.21839.1.2.11.0.36)



Value of sysUpTime Object ID of ax3640sGsrpStateTransitionTrap(1.3.6.1.4.1.21839.1.2.11.0.6)






280



Value of sysUpTime Object ID of axsOspfVirtIfStateChange(1.3.6.1.4.1.21839.2.2.1.14.16.2.0.1)



Value of sysUpTime Object ID of axsOspfNbrStateChange(1.3.6.1.4.1.21839.2.2.1.14.16.2.0.2)



Value of sysUpTime Object ID of axsOspfVirtNbrStateChange(1.3.6.1.4.1.21839.2.2.1.14.16.2.0.3)



Value of sysUpTime Object ID of axsOspfIfConfigError(1.3.6.1.4.1.21839.2.2.1.14.16.2.0.4)



Value of sysUpTime Object ID of axsOspfVirtIfConfigError(1.3.6.1.4.1.21839.2.2.1.14.16.2.0.5)



Value of sysUpTime Object ID of axsOspfIfAuthFailure(1.3.6.1.4.1.21839.2.2.1.14.16.2.0.6)



Value of sysUpTime Object ID of axsOspfVirtIfAuthFailure(1.3.6.1.4.1.21839.2.2.1.14.16.2.0.7)



Value of sysUpTime Object ID of axsOspfIfStateChange(1.3.6.1.4.1.21839.2.2.1.14.16.2.0.16)



Value of sysUpTime Object ID of ax3640sAirFanStopTrap(1.3.6.1.4.1.21839.1.2.11.0.8)

None


Value of sysUpTime Object ID of ax3640sPowerSupplyFailureTrap(1.3.6.1.4.1.21839.1.2.11.0.9)

None





281



Value of sysUpTime Object ID of ax3640sLoginSuccessTrap(1.3.6.1.4.1.21839.1.2.11.0.10)



Value of sysUpTime Object ID of ax3640sLoginFailureTrap(1.3.6.1.4.1.21839.1.2.11.0.11)



Value of sysUpTime Object ID of ax3640sLogoutTrap(1.3.6.1.4.1.21839.1.2.11.0.12)



Value of sysUpTime Object ID of ax3640sMemoryUsageTrap(1.3.6.1.4.1.21839.1.2.11.0.13)

None


Value of sysUpTime Object ID of axsOadpNeighborCachelastChangeTrap(1.3.6.1.4.1.21839.2.2.1.7.2.0.1)



Value of sysUpTime Object ID of ax3640sFrameErrorReceiveTrap(1.3.6.1.4.1.21839.1.2.11.0.18)

ifIndex


Value of sysUpTime Object ID of ax3640sFrameErrorSendTrap(1.3.6.1.4.1.21839.1.2.11.0.19)

ifIndex


Value of sysUpTime Object ID of ax3640sBroadcastStormDetectTrap(1.3.6.1.4.1.21839.1.2.11.0.20)

ifIndex


Value of sysUpTime Object ID of ax3640sMulticastStormDetectTrap(1.3.6.1.4.1.21839.1.2.11.0.21)

ifIndex


Value of sysUpTime Object ID of ax3640sUnicastStormDetectTrap(1.3.6.1.4.1.21839.1.2.11.0.22)

ifIndex


Value of sysUpTime Object ID of ax3640sBroadcastStormPortInactivateTrap(1.3.6.1.4.1.21839.1.2.11.0.23)

ifIndex





282



Value of sysUpTime Object ID of ax3640sMulticastStormPortInactivateTrap(1.3.6.1.4.1.21839.1.2.11.0.24)

ifIndex


Value of sysUpTime Object ID of ax3640sUnicastStormPortInactivateTrap(1.3.6.1.4.1.21839.1.2.11.0.25)

ifIndex


Value of sysUpTime Object ID of ax3640sBroadcastStormRecoverTrap(1.3.6.1.4.1.21839.1.2.11.0.26)

ifIndex


Value of sysUpTime Object ID of ax3640sMulticastStormRecoverTrap(1.3.6.1.4.1.21839.1.2.11.0.27)

ifIndex


Value of sysUpTime Object ID of ax3640sUnicastStormRecoverTrap(1.3.6.1.4.1.21839.1.2.11.0.28)

ifIndex


Value of sysUpTime Object ID of ax3640sEfmoamUdldPortInactivateTrap(1.3.6.1.4.1.21839.1.2.11.0.29)

ifIndex


Value of sysUpTime Object ID of ax3640sEfmoamLoopDetectPortInactivateTrap(1.3.6.1.4.1.21839.1.2.11.0.30)

ifIndex





283


4.4 Supported Trap-PDU Parameters[CB 2000][OS-L3SA]

The parameters of the Trap-PDU and InformRequest-PDU (SNMPv2C/SNMPv3) for SNMPv1 are shown in Table 4-6: List of supported parameters of the Trap-PDU (for SNMPv1), and those for SNMPv2C/SNMPv3 are shown in Table 4-7: List of supported parameters of Trap-PDU and InformRequest-PDU (for SNMPv2C/SNMPv3).

Table 4-6: List of supported parameters of the Trap-PDU (for SNMPv1)

# Type Trap-PDU data value


specific-trap


1 coldStart sysObjectID of the Switch1.3.6.1.4.1.21839.1.2.15

Specific IP address#

0 0 sysUpTime value

None

2 warmStart sysObjectID of the Switch1.3.6.1.4.1.21839.1.2.15


1 0 sysUpTime value

None

3 linkDown sysObjectID of the Switch1.3.6.1.4.1.21839.1.2.15


2 0 sysUpTime value

ifIndexHowever, the following MIBs are obtained when private is set for a link_trap_bind_info parameter by using the snmp-server-traps configuration command:ifIndexifDescrifType

4 linkUp sysObjectID of the Switch1.3.6.1.4.1.21839.1.2.15


3 0 sysUpTime value

ifIndexHowever, the following MIBs are obtained when private is set for a link_trap_bind_info parameter by using the snmp-server-traps configuration command:ifIndexifDescrifType

5 authentication Failure sysObjectID of the Switch1.3.6.1.4.1.21839.1.2.15


4 0 sysUpTime value

None



6 1 sysUpTime value


284


7 bgpBackwardTransition



6 2 sysUpTime value




6 1 sysUpTime value




6 2 sysUpTime value




6 1 sysUpTime value




6 2 sysUpTime value




6 3 sysUpTime value





6 1 sysUpTime value




6 2 sysUpTime value





6 3 sysUpTime value




6 4 sysUpTime value





6 5 sysUpTime value




specific-trap


285




6 6 sysUpTime value




6 7 sysUpTime value




6 16 sysUpTime value


21 dot1agCfmFaultAlarm

Object ID of ieee8021CfmMib1.3.111.2.802.1.1.8


6 1 sysUpTime value

dot1agCfmMdIndexdot1agCfmMaIndexdot1agCfmMepIdentifier


sysObjectID of the Switch1.3.6.1.4.1.21839.1.2.15


6 1 sysUpTime value





6 4 sysUpTime value







25 ax3650sAxrpMultiFaultDetectionStartTrap




axsAxrpGroupRingIdaxsAxrpGroupModeaxsAxrpGroupRingAttribute



specific-trap


286


26 ax3650sAxrpMultiFaultDetectionStateTransitionTrap




axsAxrpGroupRingIdaxsAxrpGroupModeaxsAxrpGroupRingAttributeaxsAxrpGroupMultiFaultDetectionState




6 6 sysUpTime value







29 ax3650sL2ldLinkUp sysObjectID of the Switch1.3.6.1.4.1.21839.1.2.15



axsL2ldPortIfIndex









6 1 sysUpTime value





6 2 sysUpTime value





6 3 sysUpTime value




6 4 sysUpTime value




specific-trap


287





6 5 sysUpTime value




6 6 sysUpTime value





6 7 sysUpTime value







39 axsStaticGatewayStateChange

Object ID of axsStaticTrap1.3.6.1.4.1.21839.2.2.1.38.2


6 1 sysUpTime value

axsStaticGatewayAddraxsStaticGatewayState

40 axsStaticIpv6GatewayStateChange

Object ID of axsStaticTrap1.3.6.1.4.1.21839.2.2.1.38.2


6 2 sysUpTime value

axsStaticIpv6IfindexaxsStaticIpv6GatewayAddraxsStaticIpv6GatewayState











43 ax3650sLogoutTrap sysObjectID of the Switch1.3.6.1.4.1.21839.1.2.15






specific-trap


288






None




6 1 sysUpTime value






ifIndex





ifIndex





ifIndex





ifIndex





ifIndex





ifIndex





ifIndex





ifIndex





ifIndex





ifIndex



specific-trap


289


#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 command2. The IPv4 address that is set to a loopback interface3. The IPv4 address of an interface in which an IPv4 address is set and that has the lowest ifIndex. The target

interface is VLAN.4. 0.0.0.0 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 SNMPv2C/SNMPv3)





ifIndex

# Type Trap-PDU and InformRequest-PDU data value



Variable-Binding [3-]

1 coldStart sysUpTime value Object ID of coldStart(1.3.6.1.6.3.1.1.5.1)

None

2 warmStart sysUpTime value Object ID of warmStart(1.3.6.1.6.3.1.1.5.2)

None

3 linkDown sysUpTime value Object ID of linkDown(1.3.6.1.6.3.1.1.5.3)

ifIndexifAdminStatusifOperStatusHowever, the following MIBs are obtained when private is set for a link_trap_bind_info parameter by using the snmp-server-traps configuration command:ifIndexifDescrifType

4 linkUp sysUpTime value Object ID of linkUp(1.3.6.1.6.3.1.1.5.4)

ifIndexifAdminStatusifOperStatusHowever, the following MIBs are obtained when private is set for a link_trap_bind_info parameter by using the snmp-server-traps configuration command:ifIndexifDescrifType


sysUpTime value Object ID of authentication Failure(1.3.6.1.6.3.1.1.5.5)

None

6 bgpEstablished sysUpTime value Object ID of bgpEstablished(1.3.6.1.2.1.15.7.1)




specific-trap


290


7 bgpBackwardTransition

sysUpTime value Object ID of bgpBackwardTransition(1.3.6.1.2.1.15.7.2)


8 risingAlarm sysUpTime value Object ID of risingAlarm(1.3.6.1.2.1.16.0.1)


9 fallingAlarm sysUpTime value Object ID of fallingAlarm(1.3.6.1.2.1.16.0.2)



sysUpTime value Object ID of vrrpTrapNewMaster(1.3.6.1.2.1.68.0.1)



sysUpTime value Object ID of vrrpTrapAuthFailure(1.3.6.1.2.1.68.0.2)



sysUpTime value Object ID of vrrpTrapProtoError(1.3.6.1.2.1.68.0.3)



sysUpTime value Object ID of ospfVirtIfStateChange(1.3.6.1.2.1.14.16.2.1)



sysUpTime value Object ID of ospfNbrStateChange(1.3.6.1.2.1.14.16.2.2)



sysUpTime value Object ID of ospfVirtNbrStateChange(1.3.6.1.2.1.14.16.2.3)



sysUpTime value Object ID of ospfIfConfigError(1.3.6.1.2.1.14.16.2.4)



sysUpTime value Object ID of ospfVirtIfConfigError(1.3.6.1.2.1.14.16.2.5)


18 ospfIfAuthFailure

sysUpTime value Object ID of ospfIfAuthFailure(1.3.6.1.2.1.14.16.2.6)






291



sysUpTime value Object ID of ospfVirtIfAuthFailure(1.3.6.1.2.1.14.16.2.7)



sysUpTime value Object ID of ospfIfStateChange(1.3.6.1.2.1.14.16.2.16)


21 dot1agCfmFaultAlarm

sysUpTime value Object ID of dot1agCfmFaultAlarm(1.3.111.2.802.1.1.8.0.1)

dot1agCfmMdIndexdot1agCfmMaIndexdot1agCfmMepIdentifier


sysUpTime value Object ID of ax3650sSystemMsgTrap(1.3.6.1.4.1.21839.1.2.15.0.1)



sysUpTime value Object ID of ax3650sTemperatureTrap(1.3.6.1.4.1.21839.1.2.15.0.4)



sysUpTime value Object ID of ax3650sAxrpStateTransitionTrap(1.3.6.1.4.1.21839.1.2.15.0.36)


25 ax3650sAxrpMultiFaultDetectionStartTrap

sysUpTime value Object ID of ax3650sAxrpMultiFaultDetectionStartTrap(1.3.6.1.4.1.21839.1.2.15.0.41)

axsAxrpGroupRingIdaxsAxrpGroupModeaxsAxrpGroupRingAttribute

26 ax3650sAxrpMultiFaultDetectionStateTransitionTrap

sysUpTime value Object ID of ax3650sAxrpMultiFaultDetectionStateTransitionTrap(1.3.6.1.4.1.21839.1.2.15.0.42)

axsAxrpGroupRingIdaxsAxrpGroupModeaxsAxrpGroupRingAttributeaxsAxrpGroupMultiFaultDetectionState


sysUpTime value Object ID of ax3650sGsrpStateTransitionTrap(1.3.6.1.4.1.21839.1.2.15.0.6)



sysUpTime value Object ID of ax3650sL2ldLinkDown(1.3.6.1.4.1.21839.1.2.15.0.51)


29 ax3650sL2ldLinkUp

sysUpTime value Object ID of ax3650sL2ldLinkUp(1.3.6.1.4.1.21839.1.2.15.0.52)

axsL2ldPortIfIndex





292



sysUpTime value Object ID of ax3650sL2ldLoopDetection(1.3.6.1.4.1.21839.1.2.15.0.53)



sysUpTime value Object ID of axsOspfVirtIfStateChange(1.3.6.1.4.1.21839.2.2.1.14.16.2.0.1)



sysUpTime value Object ID of axsOspfNbrStateChange(1.3.6.1.4.1.21839.2.2.1.14.16.2.0.2)



sysUpTime value Object ID of axsOspfVirtNbrStateChange(1.3.6.1.4.1.21839.2.2.1.14.16.2.0.3)



sysUpTime value Object ID of axsOspfIfConfigError(1.3.6.1.4.1.21839.2.2.1.14.16.2.0.4)



sysUpTime value Object ID of axsOspfVirtIfConfigError(1.3.6.1.4.1.21839.2.2.1.14.16.2.0.5)



sysUpTime value Object ID of axsOspfIfAuthFailure(1.3.6.1.4.1.21839.2.2.1.14.16.2.0.6)



sysUpTime value Object ID of axsOspfVirtIfAuthFailure(1.3.6.1.4.1.21839.2.2.1.14.16.2.0.7)



sysUpTime value Object ID of axsOspfIfStateChange(1.3.6.1.4.1.21839.2.2.1.14.16.2.0.16)






293


39 axsStaticGatewayStateChange

sysUpTime value Object ID of axsStaticGatewayStateChange(1.3.6.1.4.1.21839.2.2.1.38.2.0.1)

axsStaticGatewayAddraxsStaticGatewayState

40 axsStaticIpv6GatewayStateChange

sysUpTime value Object ID of axsStaticIpv6GatewayStateChange(1.3.6.1.4.1.21839.2.2.1.38.2.0.2)

axsStaticIpv6IfindexaxsStaticIpv6GatewayAddraxsStaticIpv6GatewayState


sysUpTime value Object ID of ax3650sLoginSuccessTrap(1.3.6.1.4.1.21839.1.2.15.0.10)



sysUpTime value Object ID of ax3650sLoginFailureTrap(1.3.6.1.4.1.21839.1.2.15.0.11)



sysUpTime value Object ID of ax3650sLogoutTrap(1.3.6.1.4.1.21839.1.2.15.0.12)



sysUpTime value Object ID of ax3650sMemoryUsageTrap(1.3.6.1.4.1.21839.1.2.15.0.13)

None


sysUpTime value Object ID of axsOadpNeighborCachelastChangeTrap(1.3.6.1.4.1.21839.2.2.1.7.2.0.1)



sysUpTime value Object ID of ax3650sFrameErrorReceiveTrap(1.3.6.1.4.1.21839.1.2.15.0.18)

ifIndex


sysUpTime value Object ID of ax3650sFrameErrorSendTrap(1.3.6.1.4.1.21839.1.2.15.0.19)

ifIndex


sysUpTime value Object ID of ax3650sBroadcastStormDetectTrap(1.3.6.1.4.1.21839.1.2.15.0.20)

ifIndex


sysUpTime value Object ID of ax3650sMulticastStormDetectTrap(1.3.6.1.4.1.21839.1.2.15.0.21)

ifIndex





294



sysUpTime value Object ID of ax3650sUnicastStormDetectTrap(1.3.6.1.4.1.21839.1.2.15.0.22)

ifIndex


sysUpTime value Object ID of ax3650sBroadcastStormPortInactivateTrap(1.3.6.1.4.1.21839.1.2.15.0.23)

ifIndex


sysUpTime value Object ID of ax3650sMulticastStormPortInactivateTrap(1.3.6.1.4.1.21839.1.2.15.0.24)

ifIndex


sysUpTime value Object ID of ax3650sUnicastStormPortInactivateTrap(1.3.6.1.4.1.21839.1.2.15.0.25)

ifIndex


sysUpTime value Object ID of ax3650sBroadcastStormRecoverTrap(1.3.6.1.4.1.21839.1.2.15.0.26)

ifIndex


sysUpTime value Object ID of ax3650sMulticastStormRecoverTrap(1.3.6.1.4.1.21839.1.2.15.0.27)

ifIndex


sysUpTime value Object ID of ax3650sUnicastStormRecoverTrap(1.3.6.1.4.1.21839.1.2.15.0.28)

ifIndex





295


296

Appendix

Appendix A Private MIB Names and Object IDs

297


Appendix A Private MIB Names and Object IDsThe correspondence between MIB names and object IDs of private MIB, HP private MIB, and InMon private MIB used in this system is given below.

Appendix A.1 Private MIBThe 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 A-1: Correspondence between MIB Names of axsStats Group and Object IDs

MIB Name Object ID

axsStats 1.3.6.1.4.1.21839.2.2.1.1

axsIfStats 1.3.6.1.4.1.21839.2.2.1.1.4

axsIfStatsTable 1.3.6.1.4.1.21839.2.2.1.1.4.1

axsIfStatsEntry 1.3.6.1.4.1.21839.2.2.1.1.4.1.1

axsIfStatsIndex 1.3.6.1.4.1.21839.2.2.1.1.4.1.1.1

axsIfStatsName 1.3.6.1.4.1.21839.2.2.1.1.4.1.1.2

axsIfStatsInMegaOctets 1.3.6.1.4.1.21839.2.2.1.1.4.1.1.3

axsIfStatsInUcastMegaPkts 1.3.6.1.4.1.21839.2.2.1.1.4.1.1.4

axsIfStatsInMulticastMegaPkts 1.3.6.1.4.1.21839.2.2.1.1.4.1.1.5

axsIfStatsInBroadcastMegaPkts 1.3.6.1.4.1.21839.2.2.1.1.4.1.1.6

axsIfStatsOutMegaOctets 1.3.6.1.4.1.21839.2.2.1.1.4.1.1.7

axsIfStatsOutUcastMegaPkts 1.3.6.1.4.1.21839.2.2.1.1.4.1.1.8

axsIfStatsOutMulticastMegaPkts 1.3.6.1.4.1.21839.2.2.1.1.4.1.1.9

axsIfStatsOutBroadcastMegaPkts 1.3.6.1.4.1.21839.2.2.1.1.4.1.1.10

axsIfStatsHighSpeed 1.3.6.1.4.1.21839.2.2.1.1.4.1.1.11

axsQoS 1.3.6.1.4.1.21839.2.2.1.1.6

axsEtherTxQoS 1.3.6.1.4.1.21839.2.2.1.1.6.1

axsEtherTxQoSStatsTable 1.3.6.1.4.1.21839.2.2.1.1.6.1.1

axsEtherTxQoSStatsEntry 1.3.6.1.4.1.21839.2.2.1.1.6.1.1.1

axsEtherTxQoSStatsIndex 1.3.6.1.4.1.21839.2.2.1.1.6.1.1.1.1

axsEtherTxQoSStatsMaxQnum 1.3.6.1.4.1.21839.2.2.1.1.6.1.1.1.2

axsEtherTxQoSStatsLimitQlen 1.3.6.1.4.1.21839.2.2.1.1.6.1.1.1.3

axsEtherTxQoSStatsTotalOutFrames 1.3.6.1.4.1.21839.2.2.1.1.6.1.1.1.4

axsEtherTxQoSStatsTotalOutBytesHigh 1.3.6.1.4.1.21839.2.2.1.1.6.1.1.1.5

axsEtherTxQoSStatsTotalOutBytesLow 1.3.6.1.4.1.21839.2.2.1.1.6.1.1.1.6

axsEtherTxQoSStatsTotalDiscardFrames 1.3.6.1.4.1.21839.2.2.1.1.6.1.1.1.7

axsEtherTxQoSStatsQueueTable 1.3.6.1.4.1.21839.2.2.1.1.6.1.2

axsEtherTxQoSStatsQueueEntry 1.3.6.1.4.1.21839.2.2.1.1.6.1.2.1

axsEtherTxQoSStatsQueueIndex 1.3.6.1.4.1.21839.2.2.1.1.6.1.2.1.1

298


(2) axsGsrpMIB group

The correspondence between MIB names of axsGsrpMIB group and object IDs is given below.

Table A-2: Correspondence between MIB Names of axsGsrpMIB Group and Object IDs

axsEtherTxQoSStatsQueueQueIndex 1.3.6.1.4.1.21839.2.2.1.1.6.1.2.1.2

axsEtherTxQoSStatsQueueQlen 1.3.6.1.4.1.21839.2.2.1.1.6.1.2.1.3

axsEtherTxQoSStatsQueueMaxQlen 1.3.6.1.4.1.21839.2.2.1.1.6.1.2.1.4

axsEtherTxQoSStatsQueueDiscardFramesClass1 1.3.6.1.4.1.21839.2.2.1.1.6.1.2.1.5




axsDHCP 1.3.6.1.4.1.21839.2.2.1.1.10

axsDHCPAddrValue 1.3.6.1.4.1.21839.2.2.1.1.10.1

axsDHCPFreeAddrValue 1.3.6.1.4.1.21839.2.2.1.1.10.2

MIB Name Object ID

axsGsrp 1.3.6.1.4.1.21839.2.2.1.4

axsGsrpGroupTable 1.3.6.1.4.1.21839.2.2.1.4.1

axsGsrpGroupEntry 1.3.6.1.4.1.21839.2.2.1.4.1.1

axsGsrpGroupId 1.3.6.1.4.1.21839.2.2.1.4.1.1.1

axsGsrpGroupRowStatus 1.3.6.1.4.1.21839.2.2.1.4.1.1.2

axsGsrpMacAddress 1.3.6.1.4.1.21839.2.2.1.4.1.1.3

axsGsrpAdvertiseHoldTime 1.3.6.1.4.1.21839.2.2.1.4.1.1.4

axsGsrpAdvertiseInterval 1.3.6.1.4.1.21839.2.2.1.4.1.1.5

axsGsrpSelectionPattern 1.3.6.1.4.1.21839.2.2.1.4.1.1.6

axsGsrpLayer3Redundancy 1.3.6.1.4.1.21839.2.2.1.4.1.1.7

axsGsrpVlanGroupTable 1.3.6.1.4.1.21839.2.2.1.4.2

axsGsrpVlanGroupEntry 1.3.6.1.4.1.21839.2.2.1.4.2.1

axsGsrpVlanGroupId 1.3.6.1.4.1.21839.2.2.1.4.2.1.1

axsGsrpVlanGroupRowStatus 1.3.6.1.4.1.21839.2.2.1.4.2.1.2

axsGsrpState 1.3.6.1.4.1.21839.2.2.1.4.2.1.3

axsGsrpPriority 1.3.6.1.4.1.21839.2.2.1.4.2.1.4

axsGsrpActivePorts 1.3.6.1.4.1.21839.2.2.1.4.2.1.5

axsGsrpTransitionToMasterCounts 1.3.6.1.4.1.21839.2.2.1.4.2.1.6

axsGsrpTransitionFromMasterCounts 1.3.6.1.4.1.21839.2.2.1.4.2.1.7

axsGsrpLastTransitionTime 1.3.6.1.4.1.21839.2.2.1.4.2.1.8

axsGsrpVirtualMacAddress 1.3.6.1.4.1.21839.2.2.1.4.2.1.9

axsGsrpNeighborGroupTable 1.3.6.1.4.1.21839.2.2.1.4.3

axsGsrpNeighborGroupEntry 1.3.6.1.4.1.21839.2.2.1.4.3.1

axsGsrpNeighborGroupId 1.3.6.1.4.1.21839.2.2.1.4.3.1.1

axsGsrpNeighborMacAddress 1.3.6.1.4.1.21839.2.2.1.4.3.1.2

MIB Name Object ID

299


(3) axsFdb group

The correspondence between MIB names of axsFdb group and object IDs is given below.

Table A-3: Correspondence between MIB Names of axsFdb Group and Object IDs

(4) axsVlan group

The correspondence between MIB names of axsVlan group and object IDs is given below.

Table A-4: Correspondence between MIB Names of axsVlan Group and Object IDs

axsGsrpNeighborAdvertiseHoldTime 1.3.6.1.4.1.21839.2.2.1.4.3.1.3

axsGsrpNeighborAdvertiseInterval 1.3.6.1.4.1.21839.2.2.1.4.3.1.4

axsGsrpNeighborSelectionPattern 1.3.6.1.4.1.21839.2.2.1.4.3.1.5

axsGsrpNeighborVlanGroupTable 1.3.6.1.4.1.21839.2.2.1.4.4

axsGsrpNeighborVlanGroupEntry 1.3.6.1.4.1.21839.2.2.1.4.4.1

axsGsrpNeighborVlanGroupId 1.3.6.1.4.1.21839.2.2.1.4.4.1.1

axsGsrpNeighborState 1.3.6.1.4.1.21839.2.2.1.4.4.1.2

axsGsrpNeighborPriority 1.3.6.1.4.1.21839.2.2.1.4.4.1.3

axsGsrpNeighborActivePorts 1.3.6.1.4.1.21839.2.2.1.4.4.1.4

MIB Name Object ID

axsFdb 1.3.6.1.4.1.21839.2.2.1.5

axsFdbCounterTable 1.3.6.1.4.1.21839.2.2.1.5.1

axsFdbCounterEntry 1.3.6.1.4.1.21839.2.2.1.5.1.1

axsFdbCounterNifIndex 1.3.6.1.4.1.21839.2.2.1.5.1.1.1

axsFdbCounterLineIndex 1.3.6.1.4.1.21839.2.2.1.5.1.1.2

axsFdbCounterCounts 1.3.6.1.4.1.21839.2.2.1.5.1.1.3

axsFdbCounterType 1.3.6.1.4.1.21839.2.2.1.5.1.1.4

axsFdbCounterLimits 1.3.6.1.4.1.21839.2.2.1.5.1.1.5

MIB Name Object ID

axsVlan 1.3.6.1.4.1.21839.2.2.1.6

axsVlanBridge 1.3.6.1.4.1.21839.2.2.1.6.1

axsVlanBridgeBase 1.3.6.1.4.1.21839.2.2.1.6.1.1

axsVBBaseTable 1.3.6.1.4.1.21839.2.2.1.6.1.1.1

axsVBBaseEntry 1.3.6.1.4.1.21839.2.2.1.6.1.1.1.1

axsVBBaseIndex 1.3.6.1.4.1.21839.2.2.1.6.1.1.1.1.1

axsVBBaseBridgeAddress 1.3.6.1.4.1.21839.2.2.1.6.1.1.1.1.2

axsVBBaseNumPorts 1.3.6.1.4.1.21839.2.2.1.6.1.1.1.1.3

axsVBBaseType 1.3.6.1.4.1.21839.2.2.1.6.1.1.1.1.4

axsVBBaseVlanIfIndex 1.3.6.1.4.1.21839.2.2.1.6.1.1.1.1.5

axsVBBaseVlanType 1.3.6.1.4.1.21839.2.2.1.6.1.1.1.1.6

axsVBBaseVlanID 1.3.6.1.4.1.21839.2.2.1.6.1.1.1.1.7

MIB Name Object ID

300


axsVBBaseAssociatedPrimaryVlan 1.3.6.1.4.1.21839.2.2.1.6.1.1.1.1.8

axsVBBaseIfStatus 1.3.6.1.4.1.21839.2.2.1.6.1.1.1.1.9

axsVBBaseLastChange 1.3.6.1.4.1.21839.2.2.1.6.1.1.1.1.10

axsVBBasePrivateVlanType 1.3.6.1.4.1.21839.2.2.1.6.1.1.1.1.11

axsVBBasePortTable 1.3.6.1.4.1.21839.2.2.1.6.1.1.2

axsVBBasePortEntry 1.3.6.1.4.1.21839.2.2.1.6.1.1.2.1

axsVBBasePortIndex 1.3.6.1.4.1.21839.2.2.1.6.1.1.2.1.1

axsVBBasePort 1.3.6.1.4.1.21839.2.2.1.6.1.1.2.1.2

axsVBBasePortIfIndex 1.3.6.1.4.1.21839.2.2.1.6.1.1.2.1.3

axsVBBasePortCircuit 1.3.6.1.4.1.21839.2.2.1.6.1.1.2.1.4

axsVBBasePortDelayExceededDiscards 1.3.6.1.4.1.21839.2.2.1.6.1.1.2.1.5

axsVBBasePortMtuExceededDiscards 1.3.6.1.4.1.21839.2.2.1.6.1.1.2.1.6

axsVBBasePortState 1.3.6.1.4.1.21839.2.2.1.6.1.1.2.1.7

axsVBBasePortTaggedState 1.3.6.1.4.1.21839.2.2.1.6.1.1.2.1.8

axsVBBasePortTranslatedTagID 1.3.6.1.4.1.21839.2.2.1.6.1.1.2.1.9

axsVlanBridgeStp 1.3.6.1.4.1.21839.2.2.1.6.1.2

axsVBStpTable 1.3.6.1.4.1.21839.2.2.1.6.1.2.1

axsVBStpEntry 1.3.6.1.4.1.21839.2.2.1.6.1.2.1.1

axsVBStpIndex 1.3.6.1.4.1.21839.2.2.1.6.1.2.1.1.1

axsVBStpProtocolSpecification 1.3.6.1.4.1.21839.2.2.1.6.1.2.1.1.2

axsVBStpPriority 1.3.6.1.4.1.21839.2.2.1.6.1.2.1.1.3

axsVBStpTimeSinceTopologyChange 1.3.6.1.4.1.21839.2.2.1.6.1.2.1.1.4

axsVBStpTopChanges 1.3.6.1.4.1.21839.2.2.1.6.1.2.1.1.5

axsVBStpDesignatedRoot 1.3.6.1.4.1.21839.2.2.1.6.1.2.1.1.6

axsVBStpRootCost 1.3.6.1.4.1.21839.2.2.1.6.1.2.1.1.7

axsVBStpRootPort 1.3.6.1.4.1.21839.2.2.1.6.1.2.1.1.8

axsVBStpMaxAge 1.3.6.1.4.1.21839.2.2.1.6.1.2.1.1.9

axsVBStpHelloTime 1.3.6.1.4.1.21839.2.2.1.6.1.2.1.1.10

axsVBStpHoldTime 1.3.6.1.4.1.21839.2.2.1.6.1.2.1.1.11

axsVBStpForwardDelay 1.3.6.1.4.1.21839.2.2.1.6.1.2.1.1.12

axsVBStpBridgeMaxAge 1.3.6.1.4.1.21839.2.2.1.6.1.2.1.1.13

axsVBStpBridgeHelloTime 1.3.6.1.4.1.21839.2.2.1.6.1.2.1.1.14

axsVBStpBridgeForwardDelay 1.3.6.1.4.1.21839.2.2.1.6.1.2.1.1.15

axsVBStpPortTable 1.3.6.1.4.1.21839.2.2.1.6.1.2.2

axsVBStpPortEntry 1.3.6.1.4.1.21839.2.2.1.6.1.2.2.1

axsVBStpPortIndex 1.3.6.1.4.1.21839.2.2.1.6.1.2.2.1.1

axsVBStpPort 1.3.6.1.4.1.21839.2.2.1.6.1.2.2.1.2

axsVBStpPortPriority 1.3.6.1.4.1.21839.2.2.1.6.1.2.2.1.3

axsVBStpPortState 1.3.6.1.4.1.21839.2.2.1.6.1.2.2.1.4

axsVBStpPortEnable 1.3.6.1.4.1.21839.2.2.1.6.1.2.2.1.5

MIB Name Object ID

301


axsVBStpPortPathCost 1.3.6.1.4.1.21839.2.2.1.6.1.2.2.1.6

axsVBStpPortDesignatedRoot 1.3.6.1.4.1.21839.2.2.1.6.1.2.2.1.7

axsVBStpPortDesignatedCost 1.3.6.1.4.1.21839.2.2.1.6.1.2.2.1.8

axsVBStpPortDesignatedBridge 1.3.6.1.4.1.21839.2.2.1.6.1.2.2.1.9

axsVBStpPortDesignatedPort 1.3.6.1.4.1.21839.2.2.1.6.1.2.2.1.10

axsVBStpPortForwardTransitions 1.3.6.1.4.1.21839.2.2.1.6.1.2.2.1.11

axsVlanBridgeTp 1.3.6.1.4.1.21839.2.2.1.6.1.4

axsVBTpTable 1.3.6.1.4.1.21839.2.2.1.6.1.4.1

axsVBTpEntry 1.3.6.1.4.1.21839.2.2.1.6.1.4.1.1

axsVBTpIndex 1.3.6.1.4.1.21839.2.2.1.6.1.4.1.1.1

axsVBTpLearnedEntryDiscards 1.3.6.1.4.1.21839.2.2.1.6.1.4.1.1.2

axsVBTpAgingTime 1.3.6.1.4.1.21839.2.2.1.6.1.4.1.1.3

axsVBTpFdbTable 1.3.6.1.4.1.21839.2.2.1.6.1.4.2

axsVBTpFdbEntry 1.3.6.1.4.1.21839.2.2.1.6.1.4.2.1

axsVBTpFdbIndex 1.3.6.1.4.1.21839.2.2.1.6.1.4.2.1.1

axsVBTpFdbAddress 1.3.6.1.4.1.21839.2.2.1.6.1.4.2.1.2

axsVBTpFdbPort 1.3.6.1.4.1.21839.2.2.1.6.1.4.2.1.3

axsVBTpFdbStatus 1.3.6.1.4.1.21839.2.2.1.6.1.4.2.1.4

axsVBTpPortTable 1.3.6.1.4.1.21839.2.2.1.6.1.4.3

axsVBTpPortEntry 1.3.6.1.4.1.21839.2.2.1.6.1.4.3.1

axsVBTpPortIndex 1.3.6.1.4.1.21839.2.2.1.6.1.4.3.1.1

axsVBTpPort 1.3.6.1.4.1.21839.2.2.1.6.1.4.3.1.2

axsVBTpPortMaxInfo 1.3.6.1.4.1.21839.2.2.1.6.1.4.3.1.3

axsVBTpPortInFrames 1.3.6.1.4.1.21839.2.2.1.6.1.4.3.1.4

axsVBTpPortOutFrames 1.3.6.1.4.1.21839.2.2.1.6.1.4.3.1.5

axsVBTpPortInDiscards 1.3.6.1.4.1.21839.2.2.1.6.1.4.3.1.6

axsVlanBridgeStatic 1.3.6.1.4.1.21839.2.2.1.6.1.5

axsVBStaticTable 1.3.6.1.4.1.21839.2.2.1.6.1.5.1

axsVBStaticEntry 1.3.6.1.4.1.21839.2.2.1.6.1.5.1.1

axsVBStaticIndex 1.3.6.1.4.1.21839.2.2.1.6.1.5.1.1.1

axsVBStaticAddress 1.3.6.1.4.1.21839.2.2.1.6.1.5.1.1.2

axsVBStaticReceivePort 1.3.6.1.4.1.21839.2.2.1.6.1.5.1.1.3

axsVBStaticAllowedToGoTo 1.3.6.1.4.1.21839.2.2.1.6.1.5.1.1.4

axsVBStaticStatus 1.3.6.1.4.1.21839.2.2.1.6.1.5.1.1.5

axsVlanBridgeMaxVlans 1.3.6.1.4.1.21839.2.2.1.6.1.101

axsVlanBridgeMaxSpans 1.3.6.1.4.1.21839.2.2.1.6.1.102

axsVlanTagTranslation 1.3.6.1.4.1.21839.2.2.1.6.10

axsVlanTagTranslationTable 1.3.6.1.4.1.21839.2.2.1.6.10.1

axsVlanTagTranslationEntry 1.3.6.1.4.1.21839.2.2.1.6.10.1.1

axsVlanTagTranslationVlanId 1.3.6.1.4.1.21839.2.2.1.6.10.1.1.1

MIB Name Object ID

302


(5) axsOadp group

The correspondence between MIB names of axsOadp group and object IDs is given below.

Table A-5: Correspondence between MIB Names of axsOadp Group and Object IDs

axsVlanTagTranslationTranslatedId 1.3.6.1.4.1.21839.2.2.1.6.10.1.1.2

axsVlanTagTranslationPorts 1.3.6.1.4.1.21839.2.2.1.6.10.1.1.3

MIB Name Object ID

axsOadp 1.3.6.1.4.1.21839.2.2.1.7

axsOadpMIBObjects 1.3.6.1.4.1.21839.2.2.1.7.1

axsOadpGlobalInfo 1.3.6.1.4.1.21839.2.2.1.7.1.1

axsOadpGlobalActive 1.3.6.1.4.1.21839.2.2.1.7.1.1.1

axsOadpGlobalCdpActive 1.3.6.1.4.1.21839.2.2.1.7.1.1.2

axsOadpGlobalMessageInterval 1.3.6.1.4.1.21839.2.2.1.7.1.1.3

axsOadpGlobalHoldTime 1.3.6.1.4.1.21839.2.2.1.7.1.1.4

axsOadpGlobalCacheLastChange 1.3.6.1.4.1.21839.2.2.1.7.1.1.5

axsOadpGlobalName 1.3.6.1.4.1.21839.2.2.1.7.1.1.6

axsOadpGlobalNameType 1.3.6.1.4.1.21839.2.2.1.7.1.1.7

axsOadpPortInfo 1.3.6.1.4.1.21839.2.2.1.7.1.2

axsOadpPortConfigTable 1.3.6.1.4.1.21839.2.2.1.7.1.2.1

axsOadpPortConfigEntry 1.3.6.1.4.1.21839.2.2.1.7.1.2.1.1

axsOadpPortConfigIfIndex 1.3.6.1.4.1.21839.2.2.1.7.1.2.1.1.1

axsOadpPortConfigActive 1.3.6.1.4.1.21839.2.2.1.7.1.2.1.1.2

axsOadpNeighborInfo 1.3.6.1.4.1.21839.2.2.1.7.1.3

axsOadpNeighborTable 1.3.6.1.4.1.21839.2.2.1.7.1.3.1

axsOadpNeighborEntry 1.3.6.1.4.1.21839.2.2.1.7.1.3.1.1

axsOadpIfIndex 1.3.6.1.4.1.21839.2.2.1.7.1.3.1.1.1

axsOadpTagID 1.3.6.1.4.1.21839.2.2.1.7.1.3.1.1.2

axsOadpNeighborIndex 1.3.6.1.4.1.21839.2.2.1.7.1.3.1.1.3

axsOadpNeighborTagID 1.3.6.1.4.1.21839.2.2.1.7.1.3.1.1.4

axsOadpNeighborVendorType 1.3.6.1.4.1.21839.2.2.1.7.1.3.1.1.5

axsOadpNeighborSNMPAgentAddressType 1.3.6.1.4.1.21839.2.2.1.7.1.3.1.1.6

axsOadpNeighborSNMPAgentAddress 1.3.6.1.4.1.21839.2.2.1.7.1.3.1.1.7

axsOadpNeighborDescr 1.3.6.1.4.1.21839.2.2.1.7.1.3.1.1.8

axsOadpNeighborDeviceID 1.3.6.1.4.1.21839.2.2.1.7.1.3.1.1.9

axsOadpNeighborSlotPort 1.3.6.1.4.1.21839.2.2.1.7.1.3.1.1.10

axsOadpNeighborIfIndex 1.3.6.1.4.1.21839.2.2.1.7.1.3.1.1.11

axsOadpNeighborIfSpeed 1.3.6.1.4.1.21839.2.2.1.7.1.3.1.1.12

axsOadpNeighborDeviceType 1.3.6.1.4.1.21839.2.2.1.7.1.3.1.1.13

axsOadpNeighborService 1.3.6.1.4.1.21839.2.2.1.7.1.3.1.1.14

axsOadpNeighborVTPMgmtDomain 1.3.6.1.4.1.21839.2.2.1.7.1.3.1.1.15

MIB Name Object ID

303


(6) axsFlow group

The correspondence between MIB names of axsFlow group and object IDs is given below.

Table A-6: Correspondence between MIB Names of axsFlow Group and Object IDs

axsOadpNeighborNativeVLAN 1.3.6.1.4.1.21839.2.2.1.7.1.3.1.1.16

axsOadpNeighborDuplex 1.3.6.1.4.1.21839.2.2.1.7.1.3.1.1.17

axsOadpNeighborApplianceID 1.3.6.1.4.1.21839.2.2.1.7.1.3.1.1.18

axsOadpNeighborVlanID 1.3.6.1.4.1.21839.2.2.1.7.1.3.1.1.19

axsOadpNeighborPowerConsumption 1.3.6.1.4.1.21839.2.2.1.7.1.3.1.1.20

axsOadpNeighborMTU 1.3.6.1.4.1.21839.2.2.1.7.1.3.1.1.21

axsOadpNeighborSysName 1.3.6.1.4.1.21839.2.2.1.7.1.3.1.1.22

axsOadpNeighborSysObjectID 1.3.6.1.4.1.21839.2.2.1.7.1.3.1.1.23

axsOadpNeighborSecondarySNMPAgentAddressType 1.3.6.1.4.1.21839.2.2.1.7.1.3.1.1.24

axsOadpNeighborSecondarySNMPAgentAddress 1.3.6.1.4.1.21839.2.2.1.7.1.3.1.1.25

axsOadpNeighborPhysLocation 1.3.6.1.4.1.21839.2.2.1.7.1.3.1.1.26

axsOadpNeighborCacheLastChange 1.3.6.1.4.1.21839.2.2.1.7.1.3.1.1.27

axsOadpNeighborIfHighSpeed 1.3.6.1.4.1.21839.2.2.1.7.1.3.1.1.28

MIB Name Object ID

axsAccessFilterStats 1.3.6.1.4.1.21839.2.2.1.8.9

axsAccessFilterStatsInTable 1.3.6.1.4.1.21839.2.2.1.8.9.1

axsAccessFilterStatsInEntry 1.3.6.1.4.1.21839.2.2.1.8.9.1.1

axsAccessFilterStatsInifIndex 1.3.6.1.4.1.21839.2.2.1.8.9.1.1.1

axsAccessFilterStatsInifIndexType 1.3.6.1.4.1.21839.2.2.1.8.9.1.1.2

axsAccessFilterStatsInListIndex 1.3.6.1.4.1.21839.2.2.1.8.9.1.1.3

axsAccessFilterStatsInSequenceNumber 1.3.6.1.4.1.21839.2.2.1.8.9.1.1.4

axsAccessFilterStatsInListName 1.3.6.1.4.1.21839.2.2.1.8.9.1.1.5

axsAccessFilterStatsInMatchedPackets 1.3.6.1.4.1.21839.2.2.1.8.9.1.1.6

axsQosFlowStats 1.3.6.1.4.1.21839.2.2.1.8.11

axsQosFlowStatsInTable 1.3.6.1.4.1.21839.2.2.1.8.11.1

axsQosFlowStatsInEntry 1.3.6.1.4.1.21839.2.2.1.8.11.1.1

axsQosFlowStatsInifIndex 1.3.6.1.4.1.21839.2.2.1.8.11.1.1.1

axsQosFlowStatsInifIndexType 1.3.6.1.4.1.21839.2.2.1.8.11.1.1.2

axsQosFlowStatsInListIndex 1.3.6.1.4.1.21839.2.2.1.8.11.1.1.3

axsQosFlowStatsInSequenceNumber 1.3.6.1.4.1.21839.2.2.1.8.11.1.1.4

axsQosFlowStatsInListName 1.3.6.1.4.1.21839.2.2.1.8.11.1.1.5

axsQosFlowStatsInMatchedPackets 1.3.6.1.4.1.21839.2.2.1.8.11.1.1.6

axsQosFlowStatsInMatchedPacketsMinUnder 1.3.6.1.4.1.21839.2.2.1.8.11.1.1.7

axsQosFlowStatsInMatchedPacketsMinOver 1.3.6.1.4.1.21839.2.2.1.8.11.1.1.8

axsQosFlowStatsInMatchedPacketsMaxUnder 1.3.6.1.4.1.21839.2.2.1.8.11.1.1.9

axsQosFlowStatsInMatchedPacketsMaxOver 1.3.6.1.4.1.21839.2.2.1.8.11.1.1.10

MIB Name Object ID

304


(7) axsL2ld group

The correspondence between MIB names of axsL2ld group and object IDs is given below.

Table A-7: Correspondence between MIB Names of axsL2ld Group and Object IDs

(8) axsOspf group

The correspondence between MIB names of axsOspf group and object IDs is given below.

Table A-8: Correspondence between MIB Names of axsOspf Group and Object IDs

MIB Name Object ID

axsL2ld 1.3.6.1.4.1.21839.2.2.1.10

axsL2ldGlobalInfo 1.3.6.1.4.1.21839.2.2.1.10.1

axsL2ldVersion 1.3.6.1.4.1.21839.2.2.1.10.1.1

axsL2ldLoopDetectionId 1.3.6.1.4.1.21839.2.2.1.10.1.2

axsL2ldIntervalTime 1.3.6.1.4.1.21839.2.2.1.10.1.3

axsL2ldOutputRate 1.3.6.1.4.1.21839.2.2.1.10.1.4

axsL2ldThreshold 1.3.6.1.4.1.21839.2.2.1.10.1.5

axsL2ldHoldTime 1.3.6.1.4.1.21839.2.2.1.10.1.6

axsL2ldAutoRestoreTime 1.3.6.1.4.1.21839.2.2.1.10.1.7

axsL2ldConfigurationVlanPortCounts 1.3.6.1.4.1.21839.2.2.1.10.1.8

axsL2ldCapacityVlanPortCounts 1.3.6.1.4.1.21839.2.2.1.10.1.9

axsL2ldPortTable 1.3.6.1.4.1.21839.2.2.1.10.2

axsL2ldPortEntry 1.3.6.1.4.1.21839.2.2.1.10.2.1

axsL2ldPortIndex 1.3.6.1.4.1.21839.2.2.1.10.2.1.1

axsL2ldPortIfIndex 1.3.6.1.4.1.21839.2.2.1.10.2.1.2

axsL2ldPortStatus 1.3.6.1.4.1.21839.2.2.1.10.2.1.3

axsL2ldPortType 1.3.6.1.4.1.21839.2.2.1.10.2.1.4

axsL2ldPortDetectCount 1.3.6.1.4.1.21839.2.2.1.10.2.1.5

axsL2ldPortAutoRestoringTimer 1.3.6.1.4.1.21839.2.2.1.10.2.1.6

axsL2ldPortSourcePortIfindex 1.3.6.1.4.1.21839.2.2.1.10.2.1.7

axsL2ldPortDestinationPortIfindex 1.3.6.1.4.1.21839.2.2.1.10.2.1.8

axsL2ldPortSourceVlan 1.3.6.1.4.1.21839.2.2.1.10.2.1.9

axsL2ldPortHCInFrames 1.3.6.1.4.1.21839.2.2.1.10.2.1.10

axsL2ldPortHCOutFrames 1.3.6.1.4.1.21839.2.2.1.10.2.1.11

axsL2ldPortHCInDiscards 1.3.6.1.4.1.21839.2.2.1.10.2.1.12

axsL2ldPortInactiveCount 1.3.6.1.4.1.21839.2.2.1.10.2.1.13

axsL2ldPortLastInactiveTime 1.3.6.1.4.1.21839.2.2.1.10.2.1.14

axsL2ldPortLastInFramesTime 1.3.6.1.4.1.21839.2.2.1.10.2.1.15

MIB Name Object ID

axsOspf 1.3.6.1.4.1.21839.2.2.1.14

axsOspfGeneralTable 1.3.6.1.4.1.21839.2.2.1.14.1

axsOspfGeneralEntry 1.3.6.1.4.1.21839.2.2.1.14.1.1

305


axsOspfGeneralDomainNumber 1.3.6.1.4.1.21839.2.2.1.14.1.1.1

axsOspfRouterId 1.3.6.1.4.1.21839.2.2.1.14.1.1.2

axsOspfAdminStat 1.3.6.1.4.1.21839.2.2.1.14.1.1.3

axsOspfVersionNumber 1.3.6.1.4.1.21839.2.2.1.14.1.1.4

axsOspfAreaBdrRtrStatus 1.3.6.1.4.1.21839.2.2.1.14.1.1.5

axsOspfASBdrRtrStatus 1.3.6.1.4.1.21839.2.2.1.14.1.1.6

axsOspfExternLsaCount 1.3.6.1.4.1.21839.2.2.1.14.1.1.7

axsOspfExternLsaCksumSum 1.3.6.1.4.1.21839.2.2.1.14.1.1.8

axsOspfTOSSupport 1.3.6.1.4.1.21839.2.2.1.14.1.1.9

axsOspfOriginateNewLsas 1.3.6.1.4.1.21839.2.2.1.14.1.1.10

axsOspfRxNewLsas 1.3.6.1.4.1.21839.2.2.1.14.1.1.11

axsOspfExtLsdbLimit 1.3.6.1.4.1.21839.2.2.1.14.1.1.12

axsOspfMulticastExtensions 1.3.6.1.4.1.21839.2.2.1.14.1.1.13

axsOspfAreaTable 1.3.6.1.4.1.21839.2.2.1.14.2

axsOspfAreaEntry 1.3.6.1.4.1.21839.2.2.1.14.2.1

axsOspfAreaDomainNumber 1.3.6.1.4.1.21839.2.2.1.14.2.1.1

axsOspfAreaId 1.3.6.1.4.1.21839.2.2.1.14.2.1.2

axsOspfAuthType 1.3.6.1.4.1.21839.2.2.1.14.2.1.3

axsOspfImportAsExtern 1.3.6.1.4.1.21839.2.2.1.14.2.1.4

axsOspfSpfRuns 1.3.6.1.4.1.21839.2.2.1.14.2.1.5

axsOspfAreaBdrRtrCount 1.3.6.1.4.1.21839.2.2.1.14.2.1.6

axsOspfAsBdrRtrCount 1.3.6.1.4.1.21839.2.2.1.14.2.1.7

axsOspfAreaLsaCount 1.3.6.1.4.1.21839.2.2.1.14.2.1.8

axsOspfAreaLsaCksumSum 1.3.6.1.4.1.21839.2.2.1.14.2.1.9

axsOspfAreaSummary 1.3.6.1.4.1.21839.2.2.1.14.2.1.10

axsOspfAreaStatus 1.3.6.1.4.1.21839.2.2.1.14.2.1.11

axsOspfStubAreaTable 1.3.6.1.4.1.21839.2.2.1.14.3

axsOspfStubAreaEntry 1.3.6.1.4.1.21839.2.2.1.14.3.1

axsOspfStubDomainNumber 1.3.6.1.4.1.21839.2.2.1.14.3.1.1

axsOspfStubAreaId 1.3.6.1.4.1.21839.2.2.1.14.3.1.2

axsOspfStubTOS 1.3.6.1.4.1.21839.2.2.1.14.3.1.3

axsOspfStubMetric 1.3.6.1.4.1.21839.2.2.1.14.3.1.4

axsOspfStubStatus 1.3.6.1.4.1.21839.2.2.1.14.3.1.5

axsOspfStubMetricType 1.3.6.1.4.1.21839.2.2.1.14.3.1.6

axsOspfLsdbTable 1.3.6.1.4.1.21839.2.2.1.14.4

axsOspfLsdbEntry 1.3.6.1.4.1.21839.2.2.1.14.4.1

axsOspfLsdbDomainNumber 1.3.6.1.4.1.21839.2.2.1.14.4.1.1

axsOspfLsdbAreaId 1.3.6.1.4.1.21839.2.2.1.14.4.1.2

axsOspfLsdbType 1.3.6.1.4.1.21839.2.2.1.14.4.1.3

axsOspfLsdbLsid 1.3.6.1.4.1.21839.2.2.1.14.4.1.4

MIB Name Object ID

306


axsOspfLsdbRouterId 1.3.6.1.4.1.21839.2.2.1.14.4.1.5

axsOspfLsdbSequence 1.3.6.1.4.1.21839.2.2.1.14.4.1.6

axsOspfLsdbAge 1.3.6.1.4.1.21839.2.2.1.14.4.1.7

axsOspfLsdbChecksum 1.3.6.1.4.1.21839.2.2.1.14.4.1.8

axsOspfLsdbAdvertisement 1.3.6.1.4.1.21839.2.2.1.14.4.1.9

axsOspfAreaRangeTable 1.3.6.1.4.1.21839.2.2.1.14.5

axsOspfAreaRangeEntry 1.3.6.1.4.1.21839.2.2.1.14.5.1

axsOspfAreaRangeDomainNumber 1.3.6.1.4.1.21839.2.2.1.14.5.1.1

axsOspfAreaRangeAreaId 1.3.6.1.4.1.21839.2.2.1.14.5.1.2

axsOspfAreaRangeNet 1.3.6.1.4.1.21839.2.2.1.14.5.1.3

axsOspfAreaRangeMask 1.3.6.1.4.1.21839.2.2.1.14.5.1.4

axsOspfAreaRangeStatus 1.3.6.1.4.1.21839.2.2.1.14.5.1.5

axsOspfAreaRangeEffect 1.3.6.1.4.1.21839.2.2.1.14.5.1.6

axsOspfIfTable 1.3.6.1.4.1.21839.2.2.1.14.7

axsOspfIfEntry 1.3.6.1.4.1.21839.2.2.1.14.7.1

axsOspfIfDomainNumber 1.3.6.1.4.1.21839.2.2.1.14.7.1.1

axsOspfIfIpAddress 1.3.6.1.4.1.21839.2.2.1.14.7.1.2

axsOspfAddressLessIf 1.3.6.1.4.1.21839.2.2.1.14.7.1.3

axsOspfIfAreaId 1.3.6.1.4.1.21839.2.2.1.14.7.1.4

axsOspfIfType 1.3.6.1.4.1.21839.2.2.1.14.7.1.5

axsOspfIfAdminStat 1.3.6.1.4.1.21839.2.2.1.14.7.1.6

axsOspfIfRtrPriority 1.3.6.1.4.1.21839.2.2.1.14.7.1.7

axsOspfIfTransitDelay 1.3.6.1.4.1.21839.2.2.1.14.7.1.8

axsOspfIfRetransInterval 1.3.6.1.4.1.21839.2.2.1.14.7.1.9

axsOspfIfHelloInterval 1.3.6.1.4.1.21839.2.2.1.14.7.1.10

axsOspfIfRtrDeadInterval 1.3.6.1.4.1.21839.2.2.1.14.7.1.11

axsOspfIfPollInterval 1.3.6.1.4.1.21839.2.2.1.14.7.1.12

axsOspfIfState 1.3.6.1.4.1.21839.2.2.1.14.7.1.13

axsOspfIfDesignatedRouter 1.3.6.1.4.1.21839.2.2.1.14.7.1.14

axsOspfIfBackupDesignatedRouter 1.3.6.1.4.1.21839.2.2.1.14.7.1.15

axsOspfIfEvents 1.3.6.1.4.1.21839.2.2.1.14.7.1.16

axsOspfIfAuthKey 1.3.6.1.4.1.21839.2.2.1.14.7.1.17

axsOspfIfStatus 1.3.6.1.4.1.21839.2.2.1.14.7.1.18

axsOspfIfMulticastForwarding 1.3.6.1.4.1.21839.2.2.1.14.7.1.19

axsOspfIfMetricTable 1.3.6.1.4.1.21839.2.2.1.14.8

axsOspfIfMetricEntry 1.3.6.1.4.1.21839.2.2.1.14.8.1

axsOspfIfMetricDomainNumber 1.3.6.1.4.1.21839.2.2.1.14.8.1.1

axsOspfIfMetricIpAddress 1.3.6.1.4.1.21839.2.2.1.14.8.1.2

axsOspfIfMetricAddressLessIf 1.3.6.1.4.1.21839.2.2.1.14.8.1.3

axsOspfIfMetricTOS 1.3.6.1.4.1.21839.2.2.1.14.8.1.4

MIB Name Object ID

307


axsOspfIfMetricValue 1.3.6.1.4.1.21839.2.2.1.14.8.1.5

axsOspfIfMetricStatus 1.3.6.1.4.1.21839.2.2.1.14.8.1.6

axsOspfVirtIfTable 1.3.6.1.4.1.21839.2.2.1.14.9

axsOspfVirtIfEntry 1.3.6.1.4.1.21839.2.2.1.14.9.1

axsOspfVirtIfDomainNumber 1.3.6.1.4.1.21839.2.2.1.14.9.1.1

axsOspfVirtIfAreaId 1.3.6.1.4.1.21839.2.2.1.14.9.1.2

axsOspfVirtIfNeighbor 1.3.6.1.4.1.21839.2.2.1.14.9.1.3

axsOspfVirtIfTransitDelay 1.3.6.1.4.1.21839.2.2.1.14.9.1.4

axsOspfVirtIfRetransInterval 1.3.6.1.4.1.21839.2.2.1.14.9.1.5

axsOspfVirtIfHelloInterval 1.3.6.1.4.1.21839.2.2.1.14.9.1.6

axsOspfVirtIfRtrDeadInterval 1.3.6.1.4.1.21839.2.2.1.14.9.1.7

axsOspfVirtIfState 1.3.6.1.4.1.21839.2.2.1.14.9.1.8

axsOspfVirtIfEvents 1.3.6.1.4.1.21839.2.2.1.14.9.1.9

axsOspfVirtIfAuthKey 1.3.6.1.4.1.21839.2.2.1.14.9.1.10

axsOspfVirtIfStatus 1.3.6.1.4.1.21839.2.2.1.14.9.1.11

axsOspfNbrTable 1.3.6.1.4.1.21839.2.2.1.14.10

axsOspfNbrEntry 1.3.6.1.4.1.21839.2.2.1.14.10.1

axsOspfNbrDomainNumber 1.3.6.1.4.1.21839.2.2.1.14.10.1.1

axsOspfNbrIpAddr 1.3.6.1.4.1.21839.2.2.1.14.10.1.2

axsOspfNbrAddressLessIndex 1.3.6.1.4.1.21839.2.2.1.14.10.1.3

axsOspfNbrRtrId 1.3.6.1.4.1.21839.2.2.1.14.10.1.4

axsOspfNbrOptions 1.3.6.1.4.1.21839.2.2.1.14.10.1.5

axsOspfNbrPriority 1.3.6.1.4.1.21839.2.2.1.14.10.1.6

axsOspfNbrState 1.3.6.1.4.1.21839.2.2.1.14.10.1.7

axsOspfNbrEvents 1.3.6.1.4.1.21839.2.2.1.14.10.1.8

axsOspfNbrLsRetransQLen 1.3.6.1.4.1.21839.2.2.1.14.10.1.9

axsOspfNbmaNbrStatus 1.3.6.1.4.1.21839.2.2.1.14.10.1.10

axsOspfNbmaNbrPermanence 1.3.6.1.4.1.21839.2.2.1.14.10.1.11

axsOspfVirtNbrTable 1.3.6.1.4.1.21839.2.2.1.14.11

axsOspfVirtNbrEntry 1.3.6.1.4.1.21839.2.2.1.14.11.1

axsOspfVirtNbrDomainNumber 1.3.6.1.4.1.21839.2.2.1.14.11.1.1

axsOspfVirtNbrArea 1.3.6.1.4.1.21839.2.2.1.14.11.1.2

axsOspfVirtNbrRtrId 1.3.6.1.4.1.21839.2.2.1.14.11.1.3

axsOspfVirtNbrIpAddr 1.3.6.1.4.1.21839.2.2.1.14.11.1.4

axsOspfVirtNbrOptions 1.3.6.1.4.1.21839.2.2.1.14.11.1.5

axsOspfVirtNbrState 1.3.6.1.4.1.21839.2.2.1.14.11.1.6

axsOspfVirtNbrEvents 1.3.6.1.4.1.21839.2.2.1.14.11.1.7

axsOspfVirtNbrLsRetransQLen 1.3.6.1.4.1.21839.2.2.1.14.11.1.8

axsOspfExtLsdbTable 1.3.6.1.4.1.21839.2.2.1.14.12

axsOspfExtLsdbEntry 1.3.6.1.4.1.21839.2.2.1.14.12.1

MIB Name Object ID

308


(9) axsOspfv3MIB group

The correspondence between MIB names of axsOspfv3MIB group and object IDs is given below.

Table A-9: Correspondence between MIB Names of axsOspfv3MIB Group and Object IDs

axsOspfExtLsdbDomainNumber 1.3.6.1.4.1.21839.2.2.1.14.12.1.1

axsOspfExtLsdbType 1.3.6.1.4.1.21839.2.2.1.14.12.1.2

axsOspfExtLsdbLsid 1.3.6.1.4.1.21839.2.2.1.14.12.1.3

axsOspfExtLsdbRouterId 1.3.6.1.4.1.21839.2.2.1.14.12.1.4

axsOspfExtLsdbSequence 1.3.6.1.4.1.21839.2.2.1.14.12.1.5

axsOspfExtLsdbAge 1.3.6.1.4.1.21839.2.2.1.14.12.1.6

axsOspfExtLsdbChecksum 1.3.6.1.4.1.21839.2.2.1.14.12.1.7

axsOspfExtLsdbAdvertisement 1.3.6.1.4.1.21839.2.2.1.14.12.1.8

axsOspfAreaAggregateTable 1.3.6.1.4.1.21839.2.2.1.14.14

axsOspfAreaAggregateEntry 1.3.6.1.4.1.21839.2.2.1.14.14.1

axsOspfAreaAggregateDomainNumber 1.3.6.1.4.1.21839.2.2.1.14.14.1.1

axsOspfAreaAggregateAreaID 1.3.6.1.4.1.21839.2.2.1.14.14.1.2

axsOspfAreaAggregateLsdbType 1.3.6.1.4.1.21839.2.2.1.14.14.1.3

axsOspfAreaAggregateNet 1.3.6.1.4.1.21839.2.2.1.14.14.1.4

axsOspfAreaAggregateMask 1.3.6.1.4.1.21839.2.2.1.14.14.1.5

axsOspfAreaAggregateStatus 1.3.6.1.4.1.21839.2.2.1.14.14.1.6

axsOspfAreaAggregateEffect 1.3.6.1.4.1.21839.2.2.1.14.14.1.7

axsOspfTrap 1.3.6.1.4.1.21839.2.2.1.14.16

axsOspfTrapControlTable 1.3.6.1.4.1.21839.2.2.1.14.16.1

axsOspfTrapControlEntry 1.3.6.1.4.1.21839.2.2.1.14.16.1.1

axsOspfTrapDomainNumber 1.3.6.1.4.1.21839.2.2.1.14.16.1.1.1

axsOspfSetTrap 1.3.6.1.4.1.21839.2.2.1.14.16.1.1.2

axsOspfConfigErrorType 1.3.6.1.4.1.21839.2.2.1.14.16.1.1.3

axsOspfPacketType 1.3.6.1.4.1.21839.2.2.1.14.16.1.1.4

axsOspfPacketSrc 1.3.6.1.4.1.21839.2.2.1.14.16.1.1.5

axsOspfTraps 1.3.6.1.4.1.21839.2.2.1.14.16.2

MIB Name Object ID

axsOspfv3 1.3.6.1.4.1.21839.2.2.1.15

axsOspfv3GeneralTable 1.3.6.1.4.1.21839.2.2.1.15.1

axsOspfv3GeneralEntry 1.3.6.1.4.1.21839.2.2.1.15.1.1

axsOspfv3GeneralDomainNumber 1.3.6.1.4.1.21839.2.2.1.15.1.1.1

axsOspfv3RouterId 1.3.6.1.4.1.21839.2.2.1.15.1.1.2

axsOspfv3AdminStat 1.3.6.1.4.1.21839.2.2.1.15.1.1.3

axsOspfv3VersionNumber 1.3.6.1.4.1.21839.2.2.1.15.1.1.4

axsOspfv3AreaBdrRtrStatus 1.3.6.1.4.1.21839.2.2.1.15.1.1.5

axsOspfv3ASBdrRtrStatus 1.3.6.1.4.1.21839.2.2.1.15.1.1.6

MIB Name Object ID

309


axsOspfv3AsScopeLsaCount 1.3.6.1.4.1.21839.2.2.1.15.1.1.7

axsOspfv3AsScopeLsaCksumSum 1.3.6.1.4.1.21839.2.2.1.15.1.1.8

axsOspfv3OriginateNewLsas 1.3.6.1.4.1.21839.2.2.1.15.1.1.9

axsOspfv3RxNewLsas 1.3.6.1.4.1.21839.2.2.1.15.1.1.10

axsOspfv3ExtAreaLsdbLimit 1.3.6.1.4.1.21839.2.2.1.15.1.1.11

axsOspfv3MulticastExtensions 1.3.6.1.4.1.21839.2.2.1.15.1.1.12

axsOspfv3DemandExtensions 1.3.6.1.4.1.21839.2.2.1.15.1.1.14

axsOspfv3TrafficEngineeringSupport 1.3.6.1.4.1.21839.2.2.1.15.1.1.15

axsOspfv3AreaTable 1.3.6.1.4.1.21839.2.2.1.15.2

axsOspfv3AreaEntry 1.3.6.1.4.1.21839.2.2.1.15.2.1

axsOspfv3AreaDomainNumber 1.3.6.1.4.1.21839.2.2.1.15.2.1.1

axsOspfv3AreaId 1.3.6.1.4.1.21839.2.2.1.15.2.1.2

axsOspfv3ImportAsExtern 1.3.6.1.4.1.21839.2.2.1.15.2.1.3

axsOspfv3SpfRuns 1.3.6.1.4.1.21839.2.2.1.15.2.1.4

axsOspfv3AreaBdrRtrCount 1.3.6.1.4.1.21839.2.2.1.15.2.1.5

axsOspfv3AsBdrRtrCount 1.3.6.1.4.1.21839.2.2.1.15.2.1.6

axsOspfv3AreaScopeLsaCount 1.3.6.1.4.1.21839.2.2.1.15.2.1.7

axsOspfv3AreaScopeLsaCksumSum 1.3.6.1.4.1.21839.2.2.1.15.2.1.8

axsOspfv3AreaSummary 1.3.6.1.4.1.21839.2.2.1.15.2.1.9

axsOspfv3AreaStatus 1.3.6.1.4.1.21839.2.2.1.15.2.1.10

axsOspfv3StubMetric 1.3.6.1.4.1.21839.2.2.1.15.2.1.11

axsOspfv3AsLsdbTable 1.3.6.1.4.1.21839.2.2.1.15.3

axsOspfv3AsLsdbEntry 1.3.6.1.4.1.21839.2.2.1.15.3.1

axsOspfv3AsLsdbDomainNumber 1.3.6.1.4.1.21839.2.2.1.15.3.1.1

axsOspfv3AsLsdbType 1.3.6.1.4.1.21839.2.2.1.15.3.1.2

axsOspfv3AsLsdbRouterId 1.3.6.1.4.1.21839.2.2.1.15.3.1.3

axsOspfv3AsLsdbLsid 1.3.6.1.4.1.21839.2.2.1.15.3.1.4

axsOspfv3AsLsdbSequence 1.3.6.1.4.1.21839.2.2.1.15.3.1.5

axsOspfv3AsLsdbAge 1.3.6.1.4.1.21839.2.2.1.15.3.1.6

axsOspfv3AsLsdbChecksum 1.3.6.1.4.1.21839.2.2.1.15.3.1.7

axsOspfv3AsLsdbAdvertisement 1.3.6.1.4.1.21839.2.2.1.15.3.1.8

axsOspfv3AreaLsdbTable 1.3.6.1.4.1.21839.2.2.1.15.4

axsOspfv3AreaLsdbEntry 1.3.6.1.4.1.21839.2.2.1.15.4.1

axsOspfv3AreaLsdbDomainNumber 1.3.6.1.4.1.21839.2.2.1.15.4.1.1

axsOspfv3AreaLsdbAreaId 1.3.6.1.4.1.21839.2.2.1.15.4.1.2

axsOspfv3AreaLsdbType 1.3.6.1.4.1.21839.2.2.1.15.4.1.3

axsOspfv3AreaLsdbRouterId 1.3.6.1.4.1.21839.2.2.1.15.4.1.4

axsOspfv3AreaLsdbLsid 1.3.6.1.4.1.21839.2.2.1.15.4.1.5

axsOspfv3AreaLsdbSequence 1.3.6.1.4.1.21839.2.2.1.15.4.1.6

axsOspfv3AreaLsdbAge 1.3.6.1.4.1.21839.2.2.1.15.4.1.7

MIB Name Object ID

310


axsOspfv3AreaLsdbChecksum 1.3.6.1.4.1.21839.2.2.1.15.4.1.8

axsOspfv3AreaLsdbAdvertisement 1.3.6.1.4.1.21839.2.2.1.15.4.1.9

axsOspfv3LinkLsdbTable 1.3.6.1.4.1.21839.2.2.1.15.5

axsOspfv3LinkLsdbEntry 1.3.6.1.4.1.21839.2.2.1.15.5.1

axsOspfv3LinkLsdbDomainNumber 1.3.6.1.4.1.21839.2.2.1.15.5.1.1

axsOspfv3LinkLsdbIfIndex 1.3.6.1.4.1.21839.2.2.1.15.5.1.2

axsOspfv3LinkLsdbType 1.3.6.1.4.1.21839.2.2.1.15.5.1.3

axsOspfv3LinkLsdbRouterId 1.3.6.1.4.1.21839.2.2.1.15.5.1.4

axsOspfv3LinkLsdbLsid 1.3.6.1.4.1.21839.2.2.1.15.5.1.5

axsOspfv3LinkLsdbSequence 1.3.6.1.4.1.21839.2.2.1.15.5.1.6

axsOspfv3LinkLsdbAge 1.3.6.1.4.1.21839.2.2.1.15.5.1.7

axsOspfv3LinkLsdbChecksum 1.3.6.1.4.1.21839.2.2.1.15.5.1.8

axsOspfv3LinkLsdbAdvertisement 1.3.6.1.4.1.21839.2.2.1.15.5.1.9

axsOspfv3IfTable 1.3.6.1.4.1.21839.2.2.1.15.7

axsOspfv3IfEntry 1.3.6.1.4.1.21839.2.2.1.15.7.1

axsOspfv3IfDomainNumber 1.3.6.1.4.1.21839.2.2.1.15.7.1.1

axsOspfv3IfIndex 1.3.6.1.4.1.21839.2.2.1.15.7.1.2

axsOspfv3IfAreaId 1.3.6.1.4.1.21839.2.2.1.15.7.1.3

axsOspfv3IfType 1.3.6.1.4.1.21839.2.2.1.15.7.1.4

axsOspfv3IfAdminStat 1.3.6.1.4.1.21839.2.2.1.15.7.1.5

axsOspfv3IfRtrPriority 1.3.6.1.4.1.21839.2.2.1.15.7.1.6

axsOspfv3IfTransitDelay 1.3.6.1.4.1.21839.2.2.1.15.7.1.7

axsOspfv3IfRetransInterval 1.3.6.1.4.1.21839.2.2.1.15.7.1.8

axsOspfv3IfHelloInterval 1.3.6.1.4.1.21839.2.2.1.15.7.1.9

axsOspfv3IfRtrDeadInterval 1.3.6.1.4.1.21839.2.2.1.15.7.1.10

axsOspfv3IfPollInterval 1.3.6.1.4.1.21839.2.2.1.15.7.1.11

axsOspfv3IfState 1.3.6.1.4.1.21839.2.2.1.15.7.1.12

axsOspfv3IfDesignatedRouter 1.3.6.1.4.1.21839.2.2.1.15.7.1.13

axsOspfv3IfBackupDesignatedRouter 1.3.6.1.4.1.21839.2.2.1.15.7.1.15

axsOspfv3IfEvents 1.3.6.1.4.1.21839.2.2.1.15.7.1.16

axsOspfv3IfStatus 1.3.6.1.4.1.21839.2.2.1.15.7.1.18

axsOspfv3IfMulticastForwarding 1.3.6.1.4.1.21839.2.2.1.15.7.1.19

axsOspfv3IfDemand 1.3.6.1.4.1.21839.2.2.1.15.7.1.20

axsOspfv3IfMetricValue 1.3.6.1.4.1.21839.2.2.1.15.7.1.21

axsOspfv3IfLinkScopeLsaCount 1.3.6.1.4.1.21839.2.2.1.15.7.1.22

axsOspfv3IfLinkLsaCksumSum 1.3.6.1.4.1.21839.2.2.1.15.7.1.23

axsOspfv3IfInstId 1.3.6.1.4.1.21839.2.2.1.15.7.1.24

axsOspfv3VirtIfTable 1.3.6.1.4.1.21839.2.2.1.15.8

axsOspfv3VirtIfEntry 1.3.6.1.4.1.21839.2.2.1.15.8.1

axsOspfv3VirtIfDomainNumber 1.3.6.1.4.1.21839.2.2.1.15.8.1.1

MIB Name Object ID

311


axsOspfv3VirtIfAreaId 1.3.6.1.4.1.21839.2.2.1.15.8.1.2

axsOspfv3VirtIfNeighbor 1.3.6.1.4.1.21839.2.2.1.15.8.1.3

axsOspfv3VirtIfIndex 1.3.6.1.4.1.21839.2.2.1.15.8.1.4

axsOspfv3VirtIfTransitDelay 1.3.6.1.4.1.21839.2.2.1.15.8.1.5

axsOspfv3VirtIfRetransInterval 1.3.6.1.4.1.21839.2.2.1.15.8.1.6

axsOspfv3VirtIfHelloInterval 1.3.6.1.4.1.21839.2.2.1.15.8.1.7

axsOspfv3VirtIfRtrDeadInterval 1.3.6.1.4.1.21839.2.2.1.15.8.1.8

axsOspfv3VirtIfState 1.3.6.1.4.1.21839.2.2.1.15.8.1.9

axsOspfv3VirtIfEvents 1.3.6.1.4.1.21839.2.2.1.15.8.1.10

axsOspfv3VirtIfStatus 1.3.6.1.4.1.21839.2.2.1.15.8.1.11

axsOspfv3VirtIfLinkScopeLsaCount 1.3.6.1.4.1.21839.2.2.1.15.8.1.12

axsOspfv3VirtIfLinkLsaCksumSum 1.3.6.1.4.1.21839.2.2.1.15.8.1.13

axsOspfv3NbrTable 1.3.6.1.4.1.21839.2.2.1.15.9

axsOspfv3NbrEntry 1.3.6.1.4.1.21839.2.2.1.15.9.1

axsOspfv3NbrDomainNumber 1.3.6.1.4.1.21839.2.2.1.15.9.1.1

axsOspfv3NbrIfIndex 1.3.6.1.4.1.21839.2.2.1.15.9.1.2

axsOspfv3NbrIpv6Addr 1.3.6.1.4.1.21839.2.2.1.15.9.1.3

axsOspfv3NbrRtrId 1.3.6.1.4.1.21839.2.2.1.15.9.1.4

axsOspfv3NbrOptions 1.3.6.1.4.1.21839.2.2.1.15.9.1.5

axsOspfv3NbrPriority 1.3.6.1.4.1.21839.2.2.1.15.9.1.6

axsOspfv3NbrState 1.3.6.1.4.1.21839.2.2.1.15.9.1.7

axsOspfv3NbrEvents 1.3.6.1.4.1.21839.2.2.1.15.9.1.8

axsOspfv3NbrLsRetransQLen 1.3.6.1.4.1.21839.2.2.1.15.9.1.9

axsOspfv3NbrHelloSuppressed 1.3.6.1.4.1.21839.2.2.1.15.9.1.12

axsOspfv3NbrIfId 1.3.6.1.4.1.21839.2.2.1.15.9.1.13

axsOspfv3VirtNbrTable 1.3.6.1.4.1.21839.2.2.1.15.10

axsOspfv3VirtNbrEntry 1.3.6.1.4.1.21839.2.2.1.15.10.1

axsOspfv3VirtNbrDomainNumber 1.3.6.1.4.1.21839.2.2.1.15.10.1.1

axsOspfv3VirtNbrArea 1.3.6.1.4.1.21839.2.2.1.15.10.1.2

axsOspfv3VirtNbrRtrId 1.3.6.1.4.1.21839.2.2.1.15.10.1.3

axsOspfv3VirtNbrIfIndex 1.3.6.1.4.1.21839.2.2.1.15.10.1.4

axsOspfv3VirtNbrIpv6Addr 1.3.6.1.4.1.21839.2.2.1.15.10.1.5

axsOspfv3VirtNbrOptions 1.3.6.1.4.1.21839.2.2.1.15.10.1.6

axsOspfv3VirtNbrState 1.3.6.1.4.1.21839.2.2.1.15.10.1.7

axsOspfv3VirtNbrEvents 1.3.6.1.4.1.21839.2.2.1.15.10.1.8

axsOspfv3VirtNbrLsRetransQLen 1.3.6.1.4.1.21839.2.2.1.15.10.1.9

axsOspfv3VirtNbrHelloSuppressed 1.3.6.1.4.1.21839.2.2.1.15.10.1.10

axsOspfv3VirtNbrIfId 1.3.6.1.4.1.21839.2.2.1.15.10.1.11

axsOspfv3AreaAggregateTable 1.3.6.1.4.1.21839.2.2.1.15.11

axsOspfv3AreaAggregateEntry 1.3.6.1.4.1.21839.2.2.1.15.11.1

MIB Name Object ID

312


(10) axsBootManagement group

The correspondence between MIB names of axsBootManagement group and object IDs is given below.

Table A-10: Correspondence between MIB Names of axsBootManagement Group and Object IDs

(11) axsLogin group

The correspondence between MIB names of axsLogin group and object IDs is given below.

Table A-11: Correspondence between MIB Names of axsLogin Group and Object IDs

(12) axslldp group

The correspondence between MIB names of axslldp group and object IDs is given below.

Table A-12: Correspondence between MIB Names of axslldp Group and Object IDs

axsOspfv3AreaAggregateDomainNumber 1.3.6.1.4.1.21839.2.2.1.15.11.1.1

axsOspfv3AreaAggregateAreaID 1.3.6.1.4.1.21839.2.2.1.15.11.1.2

axsOspfv3AreaAggregateAreaLsdbType 1.3.6.1.4.1.21839.2.2.1.15.11.1.3

axsOspfv3AreaAggregateIndex 1.3.6.1.4.1.21839.2.2.1.15.11.1.4

axsOspfv3AreaAggregatePrefix 1.3.6.1.4.1.21839.2.2.1.15.11.1.5

axsOspfv3AreaAggregatePrefixLen 1.3.6.1.4.1.21839.2.2.1.15.11.1.6

axsOspfv3AreaAggregateStatus 1.3.6.1.4.1.21839.2.2.1.15.11.1.7

axsOspfv3AreaAggregateEffect 1.3.6.1.4.1.21839.2.2.1.15.11.1.8

MIB Name Object ID

axsBootManagement 1.3.6.1.4.1.21839.2.2.1.51

axsBootReason 1.3.6.1.4.1.21839.2.2.1.51.1

MIB Name Object ID

axsLogin 1.3.6.1.4.1.21839.2.2.1.52

axsLoginName 1.3.6.1.4.1.21839.2.2.1.52.1

axsLoginTime 1.3.6.1.4.1.21839.2.2.1.52.2

axsLogoutTime 1.3.6.1.4.1.21839.2.2.1.52.3

axsLoginFailureTime 1.3.6.1.4.1.21839.2.2.1.52.4

axsLoginLocation 1.3.6.1.4.1.21839.2.2.1.52.5

axsLoginLine 1.3.6.1.4.1.21839.2.2.1.52.6

axsLogoutStatus 1.3.6.1.4.1.21839.2.2.1.52.7

MIB Name Object ID

axslldp 1.3.6.1.4.1.21839.2.2.1.100

axslldpConfiguration 1.3.6.1.4.1.21839.2.2.1.100.1

axslldpMessageTxInterval 1.3.6.1.4.1.21839.2.2.1.100.1.1

axslldpMessageTxHoldMultiplier 1.3.6.1.4.1.21839.2.2.1.100.1.2

axslldpReinitDelay 1.3.6.1.4.1.21839.2.2.1.100.1.3

MIB Name Object ID

313


axslldpTxDelay 1.3.6.1.4.1.21839.2.2.1.100.1.4

axslldpPortConfigTable 1.3.6.1.4.1.21839.2.2.1.100.1.6

axslldpPortConfigEntry 1.3.6.1.4.1.21839.2.2.1.100.1.6.1

axslldpPortConfigPortNum 1.3.6.1.4.1.21839.2.2.1.100.1.6.1.2

axslldpPortConfigAdminStatus 1.3.6.1.4.1.21839.2.2.1.100.1.6.1.3

axslldpPortConfigTLVsTxEnable 1.3.6.1.4.1.21839.2.2.1.100.1.6.1.4

axslldpPortConfigRowStatus 1.3.6.1.4.1.21839.2.2.1.100.1.6.1.5

axslldpConfigManAddrTable 1.3.6.1.4.1.21839.2.2.1.100.1.7

axslldpConfigManAddrEntry 1.3.6.1.4.1.21839.2.2.1.100.1.7.1

axslldpConfigManAddrPortsTxEnable 1.3.6.1.4.1.21839.2.2.1.100.1.7.1.1

axslldpStats 1.3.6.1.4.1.21839.2.2.1.100.2

axslldpStatsTable 1.3.6.1.4.1.21839.2.2.1.100.2.1

axslldpStatsEntry 1.3.6.1.4.1.21839.2.2.1.100.2.1.1

axslldpStatsPortNum 1.3.6.1.4.1.21839.2.2.1.100.2.1.1.2

axslldpStatsOperStatus 1.3.6.1.4.1.21839.2.2.1.100.2.1.1.3

axslldpStatsFramesInErrors 1.3.6.1.4.1.21839.2.2.1.100.2.1.1.4

axslldpStatsFramesInTotal 1.3.6.1.4.1.21839.2.2.1.100.2.1.1.5

axslldpStatsFramesOutTotal 1.3.6.1.4.1.21839.2.2.1.100.2.1.1.6

axslldpStatsTLVsInErrors 1.3.6.1.4.1.21839.2.2.1.100.2.1.1.7

axslldpStatsTLVsDiscardedTotal 1.3.6.1.4.1.21839.2.2.1.100.2.1.1.8

axslldpStatsCounterDiscontinuityTime 1.3.6.1.4.1.21839.2.2.1.100.2.1.1.9

axslldpLocalSystemData 1.3.6.1.4.1.21839.2.2.1.100.3

axslldpLocChassisType 1.3.6.1.4.1.21839.2.2.1.100.3.1

axslldpLocChassisId 1.3.6.1.4.1.21839.2.2.1.100.3.2

axslldpLocSysName 1.3.6.1.4.1.21839.2.2.1.100.3.3

axslldpLocSysDesc 1.3.6.1.4.1.21839.2.2.1.100.3.4

axslldpLocSysCapSupported 1.3.6.1.4.1.21839.2.2.1.100.3.5

axslldpLocSysCapEnabled 1.3.6.1.4.1.21839.2.2.1.100.3.6

axslldpLocPortTable 1.3.6.1.4.1.21839.2.2.1.100.3.7

axslldpLocPortEntry 1.3.6.1.4.1.21839.2.2.1.100.3.7.1

axslldpLocPortNum 1.3.6.1.4.1.21839.2.2.1.100.3.7.1.1

axslldpLocPortType 1.3.6.1.4.1.21839.2.2.1.100.3.7.1.2

axslldpLocPortId 1.3.6.1.4.1.21839.2.2.1.100.3.7.1.3

axslldpLocPortDesc 1.3.6.1.4.1.21839.2.2.1.100.3.7.1.4

axslldpLocManAddrTable 1.3.6.1.4.1.21839.2.2.1.100.3.8

axslldpLocManAddrEntry 1.3.6.1.4.1.21839.2.2.1.100.3.8.1

axslldpLocManAddrType 1.3.6.1.4.1.21839.2.2.1.100.3.8.1.1

axslldpLocManAddr 1.3.6.1.4.1.21839.2.2.1.100.3.8.1.2

axslldpLocManAddrIfSubtype 1.3.6.1.4.1.21839.2.2.1.100.3.8.1.3

axslldpLocManAddrIfId 1.3.6.1.4.1.21839.2.2.1.100.3.8.1.4

MIB Name Object ID

314


axslldpLocManAddrOID 1.3.6.1.4.1.21839.2.2.1.100.3.8.1.5

axslldpRemoteSystemData 1.3.6.1.4.1.21839.2.2.1.100.4

axslldpRemTable 1.3.6.1.4.1.21839.2.2.1.100.4.1

axslldpRemEntry 1.3.6.1.4.1.21839.2.2.1.100.4.1.1

axslldpRemTimeMark 1.3.6.1.4.1.21839.2.2.1.100.4.1.1.1

axslldpRemLocalPortNum 1.3.6.1.4.1.21839.2.2.1.100.4.1.1.2

axslldpRemIndex 1.3.6.1.4.1.21839.2.2.1.100.4.1.1.3

axslldpRemRemoteChassisType 1.3.6.1.4.1.21839.2.2.1.100.4.1.1.4

axslldpRemRemoteChassis 1.3.6.1.4.1.21839.2.2.1.100.4.1.1.5

axslldpRemRemotePortType 1.3.6.1.4.1.21839.2.2.1.100.4.1.1.6

axslldpRemRemotePort 1.3.6.1.4.1.21839.2.2.1.100.4.1.1.7

axslldpRemPortDesc 1.3.6.1.4.1.21839.2.2.1.100.4.1.1.8

axslldpRemSysName 1.3.6.1.4.1.21839.2.2.1.100.4.1.1.9

axslldpRemSysDesc 1.3.6.1.4.1.21839.2.2.1.100.4.1.1.10

axslldpRemSysCapSupported 1.3.6.1.4.1.21839.2.2.1.100.4.1.1.11

axslldpRemSysCapEnabled 1.3.6.1.4.1.21839.2.2.1.100.4.1.1.12

axslldpRemManAddrTable 1.3.6.1.4.1.21839.2.2.1.100.4.2

axslldpRemManAddrEntry 1.3.6.1.4.1.21839.2.2.1.100.4.2.1

axslldpRemManAddrType 1.3.6.1.4.1.21839.2.2.1.100.4.2.1.1

axslldpRemManAddr 1.3.6.1.4.1.21839.2.2.1.100.4.2.1.2

axslldpRemManAddrIfSubtype 1.3.6.1.4.1.21839.2.2.1.100.4.2.1.3

axslldpRemManAddrIfId 1.3.6.1.4.1.21839.2.2.1.100.4.2.1.4

axslldpRemManAddrOID 1.3.6.1.4.1.21839.2.2.1.100.4.2.1.5

axslldpRemOrgDefInfoTable 1.3.6.1.4.1.21839.2.2.1.100.4.3

axslldpRemOrgDefInfoEntry 1.3.6.1.4.1.21839.2.2.1.100.4.3.1

axslldpRemOrgDefInfoOUI 1.3.6.1.4.1.21839.2.2.1.100.4.3.1.1

axslldpRemOrgDefInfoSubtype 1.3.6.1.4.1.21839.2.2.1.100.4.3.1.2

axslldpRemOrgDefInfoIndex 1.3.6.1.4.1.21839.2.2.1.100.4.3.1.3

axslldpRemOrgDefInfo 1.3.6.1.4.1.21839.2.2.1.100.4.3.1.4

axslldpRemoteOriginInfoData 1.3.6.1.4.1.21839.2.2.1.100.20

axslldpRemOriginInfoTable 1.3.6.1.4.1.21839.2.2.1.100.20.1

axslldpRemOriginInfoEntry 1.3.6.1.4.1.21839.2.2.1.100.20.1.1

axslldpRemOriginInfoPortNum 1.3.6.1.4.1.21839.2.2.1.100.20.1.1.1

axslldpRemOriginInfoIndex 1.3.6.1.4.1.21839.2.2.1.100.20.1.1.2

axslldpRemOriginInfoLowerVlanList 1.3.6.1.4.1.21839.2.2.1.100.20.1.1.3

axslldpRemOriginInfoHigherVlanList 1.3.6.1.4.1.21839.2.2.1.100.20.1.1.4

axslldpRemOriginInfoIPv4Address 1.3.6.1.4.1.21839.2.2.1.100.20.1.1.5

axslldpRemOriginInfoIPv4PortType 1.3.6.1.4.1.21839.2.2.1.100.20.1.1.6

axslldpRemOriginInfoIPv4VlanId 1.3.6.1.4.1.21839.2.2.1.100.20.1.1.7

axslldpRemOriginInfoIPv6Address 1.3.6.1.4.1.21839.2.2.1.100.20.1.1.8

MIB Name Object ID

315


(13) axsAxrpMIB group

The correspondence between MIB names of axsAxrpMIB group and object IDs is given below.

Table A-13: Correspondence between MIB Names of axsAxrpMIB Group and Object IDs

(14) ax3630sSwitch group

The correspondence between MIB names of ax3630sSwitch group and object IDs is given below.

Table A-14: Correspondence between MIB Names of ax3630sSwitch Group and Object IDs

axslldpRemOriginInfoIPv6PortType 1.3.6.1.4.1.21839.2.2.1.100.20.1.1.9

axslldpRemOriginInfoIPv6VlanId 1.3.6.1.4.1.21839.2.2.1.100.20.1.1.10

MIB Name Object ID

axsAxrp 1.3.6.1.4.1.21839.2.2.1.200

axsAxrpGroupTable 1.3.6.1.4.1.21839.2.2.1.200.1

axsAxrpGroupEntry 1.3.6.1.4.1.21839.2.2.1.200.1.1

axsAxrpGroupRingId 1.3.6.1.4.1.21839.2.2.1.200.1.1.1

axsAxrpGroupRowStatus 1.3.6.1.4.1.21839.2.2.1.200.1.1.2

axsAxrpGroupMode 1.3.6.1.4.1.21839.2.2.1.200.1.1.3

axsAxrpGroupRingAttribute 1.3.6.1.4.1.21839.2.2.1.200.1.1.4

axsAxrpGroupMonitoringState 1.3.6.1.4.1.21839.2.2.1.200.1.1.5

axsAxrpGroupRingport1 1.3.6.1.4.1.21839.2.2.1.200.1.1.6

axsAxrpGroupRingport1Shared 1.3.6.1.4.1.21839.2.2.1.200.1.1.7

axsAxrpGroupRingport2 1.3.6.1.4.1.21839.2.2.1.200.1.1.8

axsAxrpGroupRingport2Shared 1.3.6.1.4.1.21839.2.2.1.200.1.1.9

axsAxrpGroupTransitionToFaultCounts 1.3.6.1.4.1.21839.2.2.1.200.1.1.10

axsAxrpGroupTransitionToNormalCounts 1.3.6.1.4.1.21839.2.2.1.200.1.1.11

axsAxrpGroupLastTransitionTime 1.3.6.1.4.1.21839.2.2.1.200.1.1.12

axsAxrpVlanGroupTable 1.3.6.1.4.1.21839.2.2.1.200.2

axsAxrpVlanGroupEntry 1.3.6.1.4.1.21839.2.2.1.200.2.1

axsAxrpVlanGroupRingId 1.3.6.1.4.1.21839.2.2.1.200.2.1.1

axsAxrpVlanGroupId 1.3.6.1.4.1.21839.2.2.1.200.2.1.2

axsAxrpVlanGroupRingport1 1.3.6.1.4.1.21839.2.2.1.200.2.1.3

axsAxrpVlanGroupRingport1Role 1.3.6.1.4.1.21839.2.2.1.200.2.1.4

axsAxrpVlanGroupRingport1OperState 1.3.6.1.4.1.21839.2.2.1.200.2.1.5

axsAxrpVlanGroupRingport2 1.3.6.1.4.1.21839.2.2.1.200.2.1.6

axsAxrpVlanGroupRingport2Role 1.3.6.1.4.1.21839.2.2.1.200.2.1.7

axsAxrpVlanGroupRingport2OperState 1.3.6.1.4.1.21839.2.2.1.200.2.1.8

MIB Name Object ID

ax3630sSwitch 1.3.6.1.4.1.21839.2.2.7.1

ax3630sModelType 1.3.6.1.4.1.21839.2.2.7.1.1

MIB Name Object ID

316


(15) ax3630sDevice group

The correspondence between MIB names of ax3630sDevice group and object IDs is given below.

Table A-15: Correspondence between MIB Names of ax3630sDevice Group and Object IDs

ax3630sSoftware 1.3.6.1.4.1.21839.2.2.7.1.2

ax3630sSoftwareName 1.3.6.1.4.1.21839.2.2.7.1.2.1

ax3630sSoftwareAbbreviation 1.3.6.1.4.1.21839.2.2.7.1.2.2

ax3630sSoftwareVersion 1.3.6.1.4.1.21839.2.2.7.1.2.3

ax3630sSystemMsg 1.3.6.1.4.1.21839.2.2.7.1.3

ax3630sSystemMsgText 1.3.6.1.4.1.21839.2.2.7.1.3.1

ax3630sSystemMsgType 1.3.6.1.4.1.21839.2.2.7.1.3.2

ax3630sSystemMsgTimeStamp 1.3.6.1.4.1.21839.2.2.7.1.3.3

ax3630sSystemMsgLevel 1.3.6.1.4.1.21839.2.2.7.1.3.4

ax3630sSystemMsgEventPoint 1.3.6.1.4.1.21839.2.2.7.1.3.5

ax3630sSystemMsgEventInterfaceID 1.3.6.1.4.1.21839.2.2.7.1.3.6

ax3630sSystemMsgEventCode 1.3.6.1.4.1.21839.2.2.7.1.3.7

ax3630sSystemMsgAdditionalCode 1.3.6.1.4.1.21839.2.2.7.1.3.8

ax3630sSnmpAgent 1.3.6.1.4.1.21839.2.2.7.1.4

ax3630sSnmpSendReceiveSize 1.3.6.1.4.1.21839.2.2.7.1.4.1

ax3630sSnmpReceiveDelay 1.3.6.1.4.1.21839.2.2.7.1.4.2

ax3630sSnmpContinuousSend 1.3.6.1.4.1.21839.2.2.7.1.4.3

ax3630sSnmpObjectMaxNumber 1.3.6.1.4.1.21839.2.2.7.1.4.4

ax3630sLicense 1.3.6.1.4.1.21839.2.2.7.1.6

ax3630sLicenseNumber 1.3.6.1.4.1.21839.2.2.7.1.6.1

ax3630sLicenseTable 1.3.6.1.4.1.21839.2.2.7.1.6.2

ax3630sLicenseEntry 1.3.6.1.4.1.21839.2.2.7.1.6.2.1

ax3630sLicenseIndex 1.3.6.1.4.1.21839.2.2.7.1.6.2.1.1

ax3630sLicenseSerialNumber 1.3.6.1.4.1.21839.2.2.7.1.6.2.1.2

ax3630sLicenseOptionNumber 1.3.6.1.4.1.21839.2.2.7.1.6.2.1.3

ax3630sLicenseOptionTable 1.3.6.1.4.1.21839.2.2.7.1.6.3

ax3630sLicenseOptionEntry 1.3.6.1.4.1.21839.2.2.7.1.6.3.1

ax3630sLicenseOptionIndex 1.3.6.1.4.1.21839.2.2.7.1.6.3.1.1

ax3630sLicenseOptionNumberIndex 1.3.6.1.4.1.21839.2.2.7.1.6.3.1.2

ax3630sLicenseOptionSoftwareName 1.3.6.1.4.1.21839.2.2.7.1.6.3.1.3

ax3630sLicenseOptionSoftwareAbbreviation 1.3.6.1.4.1.21839.2.2.7.1.6.3.1.4

MIB Name Object ID

ax3630sDevice 1.3.6.1.4.1.21839.2.2.7.2

ax3630sChassis 1.3.6.1.4.1.21839.2.2.7.2.1

ax3630sChassisMaxNumber 1.3.6.1.4.1.21839.2.2.7.2.1.1

ax3630sChassisTable 1.3.6.1.4.1.21839.2.2.7.2.1.2

MIB Name Object ID

317


ax3630sChassisEntry 1.3.6.1.4.1.21839.2.2.7.2.1.2.1

ax3630sChassisIndex 1.3.6.1.4.1.21839.2.2.7.2.1.2.1.1

ax3630sChassisType 1.3.6.1.4.1.21839.2.2.7.2.1.2.1.2

ax3630sChassisStatus 1.3.6.1.4.1.21839.2.2.7.2.1.2.1.3

ax3630sStsLedStatus 1.3.6.1.4.1.21839.2.2.7.2.1.2.1.4

ax3630sCpuName 1.3.6.1.4.1.21839.2.2.7.2.1.2.1.5

ax3630sCpuClock 1.3.6.1.4.1.21839.2.2.7.2.1.2.1.6

ax3630sMemoryTotalSize 1.3.6.1.4.1.21839.2.2.7.2.1.2.1.7

ax3630sMemoryUsedSize 1.3.6.1.4.1.21839.2.2.7.2.1.2.1.8

ax3630sMemoryFreeSize 1.3.6.1.4.1.21839.2.2.7.2.1.2.1.9

ax3630sRomVersion 1.3.6.1.4.1.21839.2.2.7.2.1.2.1.10

ax3630sCpuLoad1m 1.3.6.1.4.1.21839.2.2.7.2.1.2.1.11

ax3630sFlashTotalSize 1.3.6.1.4.1.21839.2.2.7.2.1.2.1.12

ax3630sFlashUsedSize 1.3.6.1.4.1.21839.2.2.7.2.1.2.1.13

ax3630sFlashFreeSize 1.3.6.1.4.1.21839.2.2.7.2.1.2.1.14

ax3630sSdCardStatus 1.3.6.1.4.1.21839.2.2.7.2.1.2.1.15

ax3630sSdCardTotalSize 1.3.6.1.4.1.21839.2.2.7.2.1.2.1.16

ax3630sSdCardUsedSize 1.3.6.1.4.1.21839.2.2.7.2.1.2.1.17

ax3630sSdCardFreeSize 1.3.6.1.4.1.21839.2.2.7.2.1.2.1.18

ax3630sPhysLineNumber 1.3.6.1.4.1.21839.2.2.7.2.1.2.1.19

ax3630sTemperatureStatusNumber 1.3.6.1.4.1.21839.2.2.7.2.1.2.1.20

ax3630sPowerUnitNumber 1.3.6.1.4.1.21839.2.2.7.2.1.2.1.21

ax3630sRedundantPsNumber 1.3.6.1.4.1.21839.2.2.7.2.1.2.1.22

ax3630sFanNumber 1.3.6.1.4.1.21839.2.2.7.2.1.2.1.23

ax3630sTotalAccumRunTime 1.3.6.1.4.1.21839.2.2.7.2.1.2.1.24

ax3630sCriticalAccumRunTime 1.3.6.1.4.1.21839.2.2.7.2.1.2.1.25

ax3630sModuleSlotNumber 1.3.6.1.4.1.21839.2.2.7.2.1.2.1.26

ax3630sTemperatureStatusTable 1.3.6.1.4.1.21839.2.2.7.2.1.3

ax3630sTemperatureStatusEntry 1.3.6.1.4.1.21839.2.2.7.2.1.3.1

ax3630sTemperatureStatusIndex 1.3.6.1.4.1.21839.2.2.7.2.1.3.1.1

ax3630sTemperatureStatusDescr 1.3.6.1.4.1.21839.2.2.7.2.1.3.1.2

ax3630sTemperatureStatusValue 1.3.6.1.4.1.21839.2.2.7.2.1.3.1.3

ax3630sTemperatureThreshold 1.3.6.1.4.1.21839.2.2.7.2.1.3.1.4

ax3630sTemperatureState 1.3.6.1.4.1.21839.2.2.7.2.1.3.1.5

ax3630sPowerUnitTable 1.3.6.1.4.1.21839.2.2.7.2.1.4

ax3630sPowerUnitEntry 1.3.6.1.4.1.21839.2.2.7.2.1.4.1

ax3630sPowerUnitIndex 1.3.6.1.4.1.21839.2.2.7.2.1.4.1.1

ax3630sPowerConnectStatus 1.3.6.1.4.1.21839.2.2.7.2.1.4.1.2

ax3630sPowerSupplyStatus 1.3.6.1.4.1.21839.2.2.7.2.1.4.1.3

ax3630sFanTable 1.3.6.1.4.1.21839.2.2.7.2.1.5

MIB Name Object ID

318


(16) ax3630sManagementMIB group

The correspondence between MIB names of ax3630sManagementMIB group and object IDs is given below.

Table A-16: Correspondence between MIB Names of ax3630sManagementMIB Group and Object IDs

(17) ax3640sSwitch group

The correspondence between MIB names of ax3640sSwitch group and object IDs is given below.

Table A-17: Correspondence between MIB Names of ax3640sSwitch Group and Object IDs

ax3630sFanEntry 1.3.6.1.4.1.21839.2.2.7.2.1.5.1

ax3630sFanIndex 1.3.6.1.4.1.21839.2.2.7.2.1.5.1.1

ax3630sFanStatus 1.3.6.1.4.1.21839.2.2.7.2.1.5.1.2

ax3630sRedundantPsTable 1.3.6.1.4.1.21839.2.2.7.2.1.6

ax3630sRedundantPsEntry 1.3.6.1.4.1.21839.2.2.7.2.1.6.1

ax3630sRedundantPsIndex 1.3.6.1.4.1.21839.2.2.7.2.1.6.1.1

ax3630sRedundantPsConnectStatus 1.3.6.1.4.1.21839.2.2.7.2.1.6.1.2

ax3630sRedundantPsStatus 1.3.6.1.4.1.21839.2.2.7.2.1.6.1.3

ax3630sModuleSlotTable 1.3.6.1.4.1.21839.2.2.7.2.1.7

ax3630sModuleSlotEntry 1.3.6.1.4.1.21839.2.2.7.2.1.7.1

ax3630sModuleSlotIndex 1.3.6.1.4.1.21839.2.2.7.2.1.7.1.1

ax3630sModuleSlotStatus 1.3.6.1.4.1.21839.2.2.7.2.1.7.1.2

ax3630sModuleSlotType 1.3.6.1.4.1.21839.2.2.7.2.1.7.1.3

ax3630sPhysLine 1.3.6.1.4.1.21839.2.2.7.2.2

ax3630sPhysLineTable 1.3.6.1.4.1.21839.2.2.7.2.2.1

ax3630sPhysLineEntry 1.3.6.1.4.1.21839.2.2.7.2.2.1.1

ax3630sPhysLineIndex 1.3.6.1.4.1.21839.2.2.7.2.2.1.1.1

ax3630sPhysLineConnectorType 1.3.6.1.4.1.21839.2.2.7.2.2.1.1.2

ax3630sPhysLineOperStatus 1.3.6.1.4.1.21839.2.2.7.2.2.1.1.3

ax3630sPhysLineIfIndexNumber 1.3.6.1.4.1.21839.2.2.7.2.2.1.1.4

ax3630sPhysLineTransceiverStatus 1.3.6.1.4.1.21839.2.2.7.2.2.1.1.5

MIB Name Object ID

ax3630sManagementMIB 1.3.6.1.4.1.21839.2.2.7.3

ax3630sOperationCommand 1.3.6.1.4.1.21839.2.2.7.3.1

ax3630sFdbClearMIB 1.3.6.1.4.1.21839.2.2.7.3.1.1

ax3630sFdbClearSet 1.3.6.1.4.1.21839.2.2.7.3.1.1.1

ax3630sFdbClearReqTime 1.3.6.1.4.1.21839.2.2.7.3.1.1.2

ax3630sFdbClearSuccessTime 1.3.6.1.4.1.21839.2.2.7.3.1.1.3

MIB Name Object ID

ax3640sSwitch 1.3.6.1.4.1.21839.2.2.11.1

ax3640sModelType 1.3.6.1.4.1.21839.2.2.11.1.1

MIB Name Object ID

319


(18) ax3640sDevice group

The correspondence between MIB names of ax3640sDevice group and object IDs is given below.

Table A-18: Correspondence between MIB Names of ax3640sDevice Group and Object IDs

ax3640sSoftware 1.3.6.1.4.1.21839.2.2.11.1.2

ax3640sSoftwareName 1.3.6.1.4.1.21839.2.2.11.1.2.1

ax3640sSoftwareAbbreviation 1.3.6.1.4.1.21839.2.2.11.1.2.2

ax3640sSoftwareVersion 1.3.6.1.4.1.21839.2.2.11.1.2.3

ax3640sSystemMsg 1.3.6.1.4.1.21839.2.2.11.1.3

ax3640sSystemMsgText 1.3.6.1.4.1.21839.2.2.11.1.3.1

ax3640sSystemMsgType 1.3.6.1.4.1.21839.2.2.11.1.3.2

ax3640sSystemMsgTimeStamp 1.3.6.1.4.1.21839.2.2.11.1.3.3

ax3640sSystemMsgLevel 1.3.6.1.4.1.21839.2.2.11.1.3.4

ax3640sSystemMsgEventPoint 1.3.6.1.4.1.21839.2.2.11.1.3.5

ax3640sSystemMsgEventInterfaceID 1.3.6.1.4.1.21839.2.2.11.1.3.6

ax3640sSystemMsgEventCode 1.3.6.1.4.1.21839.2.2.11.1.3.7

ax3640sSystemMsgAdditionalCode 1.3.6.1.4.1.21839.2.2.11.1.3.8

ax3640sSnmpAgent 1.3.6.1.4.1.21839.2.2.11.1.4

ax3640sSnmpSendReceiveSize 1.3.6.1.4.1.21839.2.2.11.1.4.1

ax3640sSnmpReceiveDelay 1.3.6.1.4.1.21839.2.2.11.1.4.2

ax3640sSnmpContinuousSend 1.3.6.1.4.1.21839.2.2.11.1.4.3

ax3640sSnmpObjectMaxNumber 1.3.6.1.4.1.21839.2.2.11.1.4.4

ax3640sLicense 1.3.6.1.4.1.21839.2.2.11.1.6

ax3640sLicenseNumber 1.3.6.1.4.1.21839.2.2.11.1.6.1

ax3640sLicenseTable 1.3.6.1.4.1.21839.2.2.11.1.6.2

ax3640sLicenseEntry 1.3.6.1.4.1.21839.2.2.11.1.6.2.1

ax3640sLicenseIndex 1.3.6.1.4.1.21839.2.2.11.1.6.2.1.1

ax3640sLicenseSerialNumber 1.3.6.1.4.1.21839.2.2.11.1.6.2.1.2

ax3640sLicenseOptionNumber 1.3.6.1.4.1.21839.2.2.11.1.6.2.1.3

ax3640sLicenseOptionTable 1.3.6.1.4.1.21839.2.2.11.1.6.3

ax3640sLicenseOptionEntry 1.3.6.1.4.1.21839.2.2.11.1.6.3.1

ax3640sLicenseOptionIndex 1.3.6.1.4.1.21839.2.2.11.1.6.3.1.1

ax3640sLicenseOptionNumberIndex 1.3.6.1.4.1.21839.2.2.11.1.6.3.1.2

ax3640sLicenseOptionSoftwareName 1.3.6.1.4.1.21839.2.2.11.1.6.3.1.3

ax3640sLicenseOptionSoftwareAbbreviation 1.3.6.1.4.1.21839.2.2.11.1.6.3.1.4

MIB Name Object ID

ax3640sDevice 1.3.6.1.4.1.21839.2.2.11.2

ax3640sChassis 1.3.6.1.4.1.21839.2.2.11.2.1

ax3640sChassisMaxNumber 1.3.6.1.4.1.21839.2.2.11.2.1.1

ax3640sChassisTable 1.3.6.1.4.1.21839.2.2.11.2.1.2

MIB Name Object ID

320


ax3640sChassisEntry 1.3.6.1.4.1.21839.2.2.11.2.1.2.1

ax3640sChassisIndex 1.3.6.1.4.1.21839.2.2.11.2.1.2.1.1

ax3640sChassisType 1.3.6.1.4.1.21839.2.2.11.2.1.2.1.2

ax3640sChassisStatus 1.3.6.1.4.1.21839.2.2.11.2.1.2.1.3

ax3640sStsLedStatus 1.3.6.1.4.1.21839.2.2.11.2.1.2.1.4

ax3640sCpuName 1.3.6.1.4.1.21839.2.2.11.2.1.2.1.5

ax3640sCpuClock 1.3.6.1.4.1.21839.2.2.11.2.1.2.1.6

ax3640sMemoryTotalSize 1.3.6.1.4.1.21839.2.2.11.2.1.2.1.7

ax3640sMemoryUsedSize 1.3.6.1.4.1.21839.2.2.11.2.1.2.1.8

ax3640sMemoryFreeSize 1.3.6.1.4.1.21839.2.2.11.2.1.2.1.9

ax3640sRomVersion 1.3.6.1.4.1.21839.2.2.11.2.1.2.1.10

ax3640sCpuLoad1m 1.3.6.1.4.1.21839.2.2.11.2.1.2.1.11

ax3640sFlashTotalSize 1.3.6.1.4.1.21839.2.2.11.2.1.2.1.12

ax3640sFlashUsedSize 1.3.6.1.4.1.21839.2.2.11.2.1.2.1.13

ax3640sFlashFreeSize 1.3.6.1.4.1.21839.2.2.11.2.1.2.1.14

ax3640sSdCardStatus 1.3.6.1.4.1.21839.2.2.11.2.1.2.1.15

ax3640sSdCardTotalSize 1.3.6.1.4.1.21839.2.2.11.2.1.2.1.16

ax3640sSdCardUsedSize 1.3.6.1.4.1.21839.2.2.11.2.1.2.1.17

ax3640sSdCardFreeSize 1.3.6.1.4.1.21839.2.2.11.2.1.2.1.18

ax3640sPhysLineNumber 1.3.6.1.4.1.21839.2.2.11.2.1.2.1.19

ax3640sTemperatureStatusNumber 1.3.6.1.4.1.21839.2.2.11.2.1.2.1.20

ax3640sPowerUnitNumber 1.3.6.1.4.1.21839.2.2.11.2.1.2.1.21

ax3640sRedundantPsNumber 1.3.6.1.4.1.21839.2.2.11.2.1.2.1.22

ax3640sFanNumber 1.3.6.1.4.1.21839.2.2.11.2.1.2.1.23

ax3640sTotalAccumRunTime 1.3.6.1.4.1.21839.2.2.11.2.1.2.1.24

ax3640sCriticalAccumRunTime 1.3.6.1.4.1.21839.2.2.11.2.1.2.1.25

ax3640sModuleSlotNumber 1.3.6.1.4.1.21839.2.2.11.2.1.2.1.26

ax3640sTemperatureStatusTable 1.3.6.1.4.1.21839.2.2.11.2.1.3

ax3640sTemperatureStatusEntry 1.3.6.1.4.1.21839.2.2.11.2.1.3.1

ax3640sTemperatureStatusIndex 1.3.6.1.4.1.21839.2.2.11.2.1.3.1.1

ax3640sTemperatureStatusDescr 1.3.6.1.4.1.21839.2.2.11.2.1.3.1.2

ax3640sTemperatureStatusValue 1.3.6.1.4.1.21839.2.2.11.2.1.3.1.3

ax3640sTemperatureThreshold 1.3.6.1.4.1.21839.2.2.11.2.1.3.1.4

ax3640sTemperatureState 1.3.6.1.4.1.21839.2.2.11.2.1.3.1.5

ax3640sPowerUnitTable 1.3.6.1.4.1.21839.2.2.11.2.1.4

ax3640sPowerUnitEntry 1.3.6.1.4.1.21839.2.2.11.2.1.4.1

ax3640sPowerUnitIndex 1.3.6.1.4.1.21839.2.2.11.2.1.4.1.1

ax3640sPowerConnectStatus 1.3.6.1.4.1.21839.2.2.11.2.1.4.1.2

ax3640sPowerSupplyStatus 1.3.6.1.4.1.21839.2.2.11.2.1.4.1.3

ax3640sFanTable 1.3.6.1.4.1.21839.2.2.11.2.1.5

MIB Name Object ID

321


(19) ax3640sManagementMIB group

The correspondence between MIB names of ax3640sManagementMIB group and object IDs is given below.

Table A-19: Correspondence between MIB Names of ax3640sManagementMIB Group and Object IDs

Appendix A.2 HP Private MIBThe correspondence between HP private MIB names and object IDs is given in the table below.

Table A-20: Correspondence between HP Private MIB Names and Object IDs

ax3640sFanEntry 1.3.6.1.4.1.21839.2.2.11.2.1.5.1

ax3640sFanIndex 1.3.6.1.4.1.21839.2.2.11.2.1.5.1.1

ax3640sFanStatus 1.3.6.1.4.1.21839.2.2.11.2.1.5.1.2

ax3640sRedundantPsTable 1.3.6.1.4.1.21839.2.2.11.2.1.6

ax3640sRedundantPsEntry 1.3.6.1.4.1.21839.2.2.11.2.1.6.1

ax3640sRedundantPsIndex 1.3.6.1.4.1.21839.2.2.11.2.1.6.1.1

ax3640sRedundantPsConnectStatus 1.3.6.1.4.1.21839.2.2.11.2.1.6.1.2

ax3640sRedundantPsStatus 1.3.6.1.4.1.21839.2.2.11.2.1.6.1.3

ax3640sModuleSlotTable 1.3.6.1.4.1.21839.2.2.11.2.1.7

ax3640sModuleSlotEntry 1.3.6.1.4.1.21839.2.2.11.2.1.7.1

ax3640sModuleSlotIndex 1.3.6.1.4.1.21839.2.2.11.2.1.7.1.1

ax3640sModuleSlotStatus 1.3.6.1.4.1.21839.2.2.11.2.1.7.1.2

ax3640sModuleSlotType 1.3.6.1.4.1.21839.2.2.11.2.1.7.1.3

ax3640sPhysLine 1.3.6.1.4.1.21839.2.2.11.2.5

ax3640sPhysLineTable 1.3.6.1.4.1.21839.2.2.11.2.5.1

ax3640sPhysLineEntry 1.3.6.1.4.1.21839.2.2.11.2.5.1.1

ax3640sPhysLineIndex 1.3.6.1.4.1.21839.2.2.11.2.5.1.1.1

ax3640sPhysLineConnectorType 1.3.6.1.4.1.21839.2.2.11.2.5.1.1.2

ax3640sPhysLineOperStatus 1.3.6.1.4.1.21839.2.2.11.2.5.1.1.3

ax3640sPhysLineIfIndexNumber 1.3.6.1.4.1.21839.2.2.11.2.5.1.1.4

ax3640sPhysLineTransceiverStatus 1.3.6.1.4.1.21839.2.2.11.2.5.1.1.5

MIB Name Object ID

ax3640sManagementMIB 1.3.6.1.4.1.21839.2.2.11.3

ax3640sOperationCommand 1.3.6.1.4.1.21839.2.2.11.3.1

ax3640sFdbClearMIB 1.3.6.1.4.1.21839.2.2.11.3.1.1

ax3640sFdbClearSet 1.3.6.1.4.1.21839.2.2.11.3.1.1.1

ax3640sFdbClearReqTime 1.3.6.1.4.1.21839.2.2.11.3.1.1.2

ax3640sFdbClearSuccessTime 1.3.6.1.4.1.21839.2.2.11.3.1.1.3

MIB Name Object ID

icmp 1.3.6.1.4.1.11.2.7

icmpEchoReq 1.3.6.1.4.1.11.2.7.1

MIB Name Object ID

322


Appendix A.3 InMon Private MIBThe correspondence between InMon private MIB names and object IDs is given in the table below.

Table A-21: Correspondence between InMon Private MIB Names and Object IDs

MIB Name Object ID

sFlowMIB 1.3.6.1.4.1.4300.1

sFlowAgent 1.3.6.1.4.1.4300.1.1

sFlowVersion 1.3.6.1.4.1.4300.1.1.1

sFlowAgentAddressType 1.3.6.1.4.1.4300.1.1.2

sFlowAgentAddress 1.3.6.1.4.1.4300.1.1.3

sFlowTable 1.3.6.1.4.1.4300.1.1.4

sFlowEntry 1.3.6.1.4.1.4300.1.1.4.1

sFlowDataSource 1.3.6.1.4.1.4300.1.1.4.1.1

sFlowOwner 1.3.6.1.4.1.4300.1.1.4.1.2

sFlowTimeout 1.3.6.1.4.1.4300.1.1.4.1.3

sFlowPacketSamplingRate 1.3.6.1.4.1.4300.1.1.4.1.4

sFlowCounterSamplingInterval 1.3.6.1.4.1.4300.1.1.4.1.5

sFlowMaximumHeaderSize 1.3.6.1.4.1.4300.1.1.4.1.6

sFlowMaximumDatagramSize 1.3.6.1.4.1.4300.1.1.4.1.7

sFlowCollectorAddressType 1.3.6.1.4.1.4300.1.1.4.1.8

sFlowCollectorAddress 1.3.6.1.4.1.4300.1.1.4.1.9

sFlowCollectorPort 1.3.6.1.4.1.4300.1.1.4.1.10

sFlowDatagramVersion 1.3.6.1.4.1.4300.1.1.4.1.11

323


324

Index

Numerics

802.1X MIB Group 124

A

Access 13Alarm Group 65at Group (MIB-II) 24ax3630sDevice Group (System Chassis Information MIB)[CB 320] 219ax3630sFdbClearMIB Group (MAC Address Table Clear MIB) 226ax3630sManagementMIB Group (Changing System Status/Information)[CB 320] 226ax3630sSwitch Group (System Model Information MIB)[CB 320] 216ax3640sDevice Group (System Chassis Information MIB)[CB 2000] 230, 242ax3640sFdbClearMIB Group (MAC Address Table Clear MIB) 238, 250ax3640sManagementMIB Group (Changing System Status/Information)[CB 2000] 238, 250ax3640sSwitch Group (System Model Information MIB)[CB 2000] 227, 239axsAccessFilterStats Group 170axsAxrpGroupTable Group 213axsAxrpMIB Group (Ring Protocol Information) 213axsAxrpVlanGroupTable Group 214axsBootManagement Group (System Booting Information MIB) 200axsDHCP Group 151axsFdb Group (MAC Address Table Group MIB) 155axsFlow Group (FLOW Information MIB) 170axsGsrpGroupTable Group 152axsGsrpMIB Group (GSRP Group Information) 152axsGsrpNeighborGroupTable Group 153axsGsrpNeighborVlanGroupTable Group 154axsGsrpVlanGroupTable Group 152axsIfStats Group 149axsL2ldGlobalInfo Group 173axsL2ldMIB Group (L2 Loop Detection Information MIB) 173axsL2ldPortTable Group 173axslldp Group (LLDP Information MIB) 203axslldpConfiguration Group 203axslldpLocalSystemData Group 205axslldpRemoteOriginInfoData Group 210

axslldpRemoteSystemData Group 207axslldpStats Group 204axsLogin Group (Login Information MIB) 201axsOadp Group (OADP Information MIB) 166axsOadpGlobalInfo Group 166axsOadpNeighborInfo Group 167axsOadpPortInfo Group 166axsOspfAreaAggregateTable 186axsOspfAreaRangeTable 179axsOspfAreaTable 177axsOspfExtLsdbTable 185axsOspfGeneralTable 176axsOspfIfMetricTable 181axsOspfIfTable 180axsOspfLsdbTable 178axsOspfMIB Group (Multi-backbone OSPF Information MIB) 176axsOspfNbrTable 183axsOspfStubAreaTable 178axsOspfTrap 187axsOspfv3AreaAggregateTable 198axsOspfv3AreaLsdbTable 192axsOspfv3AreaTable 190axsOspfv3AsLsdbTable 191axsOspfv3GeneralTable 189axsOspfv3IfTable 193axsOspfv3LinkLsdbTable 192axsOspfv3MIB Group (Multi-backbone OSPFv3 Information MIB) 189axsOspfv3NbrTable 196axsOspfv3VirtIfTable 195axsOspfv3VirtNbrTable 197axsOspfVirtIfTable 182axsOspfVirtNbrTable 184axsQoS Group 150axsQosFlowStats Group 171axsStats Group (Statistics Information MIBs) 149axsVBBasePortTable group 157axsVBBaseTable group 156axsVBStaticTable group 163axsVBStpPortTable group 159axsVBStpTable group 158axsVBTpFdbTable group 161axsVBTpPortTable group 162axsVBTpTable group 161axsVlan Group (VLAN Information MIB) 156axsVlanBridge (other) group 164

325

Index

axsVlanBridge Group (dot1dBase Information) 156axsVlanTagTranslation Group (Tag Translation Information MIB) 164

B

bgp 56bgp Group (BGP4 MIB) 56bgp4PathAttrTable 58bgpPeerTable 56

C

Correspondence between HP private MIB names and object IDs 322Correspondence between InMon private MIB names and object IDs 323Correspondence between MIB names of ax3630sDevice group and object IDs 317Correspondence between MIB names of ax3630sManagementMIB group and object IDs 319Correspondence between MIB names of ax3630sSwitch group and object IDs 316Correspondence between MIB Names of ax3640sDevice Group and Object IDs 320Correspondence between MIB Names of ax3640sManagementMIB Group and Object IDs 322Correspondence between MIB Names of ax3640sSwitch Group and Object IDs 319Correspondence between MIB names of axsAxrpMIB group and object IDs 316Correspondence between MIB names of axsBootManagement group and object IDs 313Correspondence between MIB names of axsFdb group and object IDs 300Correspondence between MIB names of axsFlow group and object IDs 304Correspondence between MIB names of axsGsrpMIB group and object IDs 299Correspondence between MIB Names of axsL2ld Group and Object IDs 305Correspondence between MIB names of axslldp group and object IDs 313Correspondence between MIB names of axsLogin group and object IDs 313Correspondence between MIB names of axsOadp group and object IDs 303Correspondence between MIB names of axsOspf group and object IDs 305Correspondence between MIB names of axsOspfv3MIB group and object IDs 309

Correspondence between MIB names of axsStats group and object IDs 298Correspondence between MIB names of axsVlan group and object IDs 300

D

dot1dBase Group 68dot1dBridge Group 68dot1dStp Group 69dot1dTp Group 70dot3 Group (Ethernet Like MIB) 38dot3adAgg Group 118dot3adAggPort Group 119dot3adTablesLastChanged Group 122

E

Ethernet History Group 63Ethernet Statistics Group 60Event group 66

H

History Control Group 62HP private MIB 322

I

icmp Group (HP Private MIB) 251icmp Group (MIB-II) 31Identifier 12IEEE8023-LAG-MIB Group 118ifMIB (for Ethernet) 80ifMIB Group (Interfaces Group MIB) 80Implementation Specifications (ax3640s Chassis Information) of Group 230, 242Implementation Specifications (Built-in Power Supply Redundancy Module Information) of ax3630sChassis Group 223Implementation Specifications (Built-in Power Supply Redundancy Module Information) of ax3640sChassis Group 235, 246Implementation Specifications (Chassis Information) of Group 219Implementation Specifications (External Power Unit Information) of ax3630sChassis Group 223Implementation Specifications (External Power Unit Information) of ax3640sChassis Group 234Implementation Specifications (Fan Information) of ax3630sChassis Group 222

326

Index

Implementation Specifications (Fan Information) of ax3640sChassis Group 233, 245Implementation Specifications (Interface Information) of ax3630sPhysLine Group 224Implementation Specifications (Interface Information) of ax3640sPhysLine Group 236, 247Implementation Specifications (Power Unit Information) of ax3630sChassis Group 222Implementation Specifications (Power Unit Information) of ax3640sChassis Group 233, 245Implementation Specifications (Temperature Information) of ax3630sChassis Group 221Implementation Specifications (Temperature Information) of ax3640sChassis Group 232, 244Implemented 13InMon private MIBs 323interfaces Group (for Ethernet) 18interfaces Group (MIB-II) 18interfaces Group (Other Cases) 21ip 25ip Group (MIB-II and IP Forward Table MIB) 25ipAddrTable 26ipForward 29ipNetToMediaTable 28ipRouteTable 27ipv6AddrPrefixTable 86ipv6AddrTable 87ipv6IcmpMIB Group (ICMPv6 MIB) 91ipv6IfStatsTable 84ipv6IfTable 83ipv6MIB 83ipv6MIB Group (IPv6 MIB) 83ipv6NetToMediaTable 89ipv6RouteTable 88ipv6TcpConnTable 34ipv6UdpTable 36

M

Method for acquiring the private MIB definition file 11MIB description format 12MIB list 4MIB system diagram 2

O

Object identifier 12ospf Group (OSPFv2 MIB) 42ospfAreaAggregateTable 53ospfAreaRangeTable 45ospfAreaTable 43

ospfExtLsdbTable 52ospfGeneralGroup 42ospfHostTable 46ospfIfMetricTable 48ospfIfTable 47ospfLsdbTable 45ospfNbrTable 50ospfStubAreaTable 44ospfTrap 54ospfv3AreaAggregateTable 116ospfv3AreaLsdbTable 109ospfv3AreaTable 107ospfv3AsLsdbTable 108ospfv3GeneralGroup 106ospfv3IfTable 111ospfv3LinkLsdbTable 110ospfv3MIB Group (OSPFv3 MIB) 106ospfv3NbrTable 114ospfv3VirtIfTable 113ospfv3VirtNbrTable 115ospfVirtIfTable 49ospfVirtNbrTable 51

P

pBridgeMIB Group 72pimInterfaceTable 103pimJoinPruneInterval 103pimMIB Group (IPv4 PIM MIB) 103pimNeighborTable 104powerEthernetMIB Group (Power Ethernet MIB) 100Private MIB names and object IDs 298Private MIBs 147, 298

Q

qBridgeMIB Group 74

R

rmon Group (Remote Network Monitoring MIB) 60

S

sFlow Group (InMon Private MIB) 252snmp Group (MIB-II) 40snmpModules Group 132Standard MIBs (RFC-compliant and IETF draft MIB) 15Summary of supported MIBs 1Supported MIB Traps 255Supported Trap and Issue Timing 256Supported Trap-PDU Parameters[CB 2000] 273, 284

327

Index

Supported Trap-PDU Parameters[CB 320] 262SYNTAX 12system Group (MIB-II) 17

T

tcp 33tcp Group (MIB-II and TCP MIB for IPv6) 33

U

udp 36udp Group (MIB-II and UDP MIB for IPv6) 36

V

vrrpMIB Group 94vrrpOperations Group 94vrrpStatistics Group 97 MK-99COM093-01

328

Compute Blade Built-in LAN Switch Module Software Manual MIB Reference · 2019-04-23 · Compute...

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