-- ------------------------------------------------ -- Version Number:20040624001 -- Desc:Problem description -- ES4624C-17-00099: private mib->aclMgt->aclpAceTable->aclpAceEnTry->aclpAceTos,aclpAcePrec,acllpAceDscp range error -- Root cause -- ===== State: Opened by:steven_zhang at 6/15/2004 1:49:51 PM ===== -- -- load:2.1.0.0 -- diag:2.0.2.1 -- runtime:1.0.1.14 -- -- sorry, I have made a mistake, I forgot the mib value should include the value any, so the aclpAceTos,aclpAcePrec,acllpAceDscp should just as before,0-8,0-8,0-64, 8 and 64 means any. -- -- ===== State: Submitted by:steven_zhang at 4/6/2004 2:35:27 PM ===== -- -- aclpAceTos,aclpAcePrec range should be 0-7 -- acllpAceDscp range should be 0-63 -- -- ===== State: Submitted by:steven_zhang at 4/5/2004 11:53:02 AM ===== -- -- Create EPR From TRR (TRR-ES4624C-17-040304-01) -- ===== Test Problem ===== -- aclpAceTos range is 0-8 -- ===== Expected Result ===== -- aclpAceTos range should be 0-16 -- ===== Test Procedure ===== -- view private mib->aclMgt->aclpAceTable->aclpAceEnTry->aclpAceTos range -- ===== Other ===== -- Resolution -- modify mib and leaf the correct the range -- after double check with pttch -- aclIpAceTos range should be 0-16 -- aclIpAcePrec range should be 0-8 -- aclIpAceDscp range should be 0-64 -- Modify files -- Smc8612xl3.mib, Smc8612xl3Version.txt -- Dcrs5512g.mib, Dcrs5512gVersion.txt, -- Es4612.mib, Es4612Version.txt -- Smc8624tl3.mib, Smc8624tl3Version.txt, -- leaf_es3626a.h -- Profile:ES4612-CO_V2.2.3.2_profile -- ------------------------------------------------ ES4612-MIB DEFINITIONS ::= BEGIN IMPORTS MODULE-IDENTITY, OBJECT-TYPE, Unsigned32, Integer32, Counter32,IpAddress, NOTIFICATION-TYPE, enterprises,Gauge32, TimeTicks FROM SNMPv2-SMI DisplayString, RowStatus, MacAddress, TruthValue, TEXTUAL-CONVENTION, DateAndTime FROM SNMPv2-TC PortList FROM Q-BRIDGE-MIB SnmpAdminString FROM SNMP-FRAMEWORK-MIB EnabledStatus, dot1dTrafficClassPriority, dot1dTrafficClass FROM P-BRIDGE-MIB BridgeId, Timeout, dot1dStpPort FROM BRIDGE-MIB vrrpOperVrId FROM VRRP-MIB InterfaceIndex, ifIndex, InterfaceIndexOrZero FROM IF-MIB; accton OBJECT IDENTIFIER ::= { enterprises 259 } snmpMgt OBJECT IDENTIFIER ::= { accton 6 } cheetahSwitchMgt OBJECT IDENTIFIER ::= { snmpMgt 10 } es4612MIB MODULE-IDENTITY LAST-UPDATED "200109060000Z" ORGANIZATION "Accton Technology Corp." CONTACT-INFO "Accton Technology Corp. Customer Service Postal: No. 1 Creation Rd. III, Science-based Industrial Park, Hsinchu 300-77, Taiwan, R.O.C. Tel: +886-3-5770270 E-mail: sales_ec@edge-core.com" DESCRIPTION "The MIB module for ES4612." REVISION "200109060000Z" DESCRIPTION "Initial version of this MIB." ::= { cheetahSwitchMgt 57 } es4612MIBObjects OBJECT IDENTIFIER ::= { es4612MIB 1 } es4612MIBNotifications OBJECT IDENTIFIER ::= { es4612MIB 2 } es4612MIBConformance OBJECT IDENTIFIER ::= { es4612MIB 3 } --supported groups switchMgt OBJECT IDENTIFIER ::= { es4612MIBObjects 1 } portMgt OBJECT IDENTIFIER ::= { es4612MIBObjects 2 } trunkMgt OBJECT IDENTIFIER ::= { es4612MIBObjects 3 } lacpMgt OBJECT IDENTIFIER ::= { es4612MIBObjects 4 } staMgt OBJECT IDENTIFIER ::= { es4612MIBObjects 5 } restartMgt OBJECT IDENTIFIER ::= { es4612MIBObjects 7 } mirrorMgt OBJECT IDENTIFIER ::= { es4612MIBObjects 8 } igmpSnoopMgt OBJECT IDENTIFIER ::= { es4612MIBObjects 9 } ipMgt OBJECT IDENTIFIER ::= { es4612MIBObjects 10 } bcastStormMgt OBJECT IDENTIFIER ::= { es4612MIBObjects 11 } vlanMgt OBJECT IDENTIFIER ::= { es4612MIBObjects 12 } priorityMgt OBJECT IDENTIFIER ::= { es4612MIBObjects 13 } trapDestMgt OBJECT IDENTIFIER ::= { es4612MIBObjects 14 } qosMgt OBJECT IDENTIFIER ::= { es4612MIBObjects 16 } securityMgt OBJECT IDENTIFIER ::= { es4612MIBObjects 17 } layer3Mgt OBJECT IDENTIFIER ::= { es4612MIBObjects 18 } sysLogMgt OBJECT IDENTIFIER ::= { es4612MIBObjects 19 } lineMgt OBJECT IDENTIFIER ::= { es4612MIBObjects 20 } sysTimeMgt OBJECT IDENTIFIER ::= { es4612MIBObjects 23 } fileMgt OBJECT IDENTIFIER ::= { es4612MIBObjects 24 } dnsMgt OBJECT IDENTIFIER ::= { es4612MIBObjects 26 } hsrpMgt OBJECT IDENTIFIER ::= { es4612MIBObjects 29 } mvrMgt OBJECT IDENTIFIER ::= { es4612MIBObjects 44 } -- ------------------------------------------------------------- -- Textual Conventions -- ------------------------------------------------------------- ValidStatus ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "A simple status value for the object to create and destroy a table entry. This is a simplified variant of RowStatus as it supports only two values. Setting it to valid(1) creates an entry. Setting it to invalid(2) destroys an entry." SYNTAX INTEGER { valid(1), invalid(2) } -- The Area ID, in OSPF, has the same format as an IP Address, -- but has the function of defining a summarization point for -- Link State Advertisements OspfAreaID ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "An OSPF Area Identifier." SYNTAX IpAddress -- The OSPF Metric is defined as an unsigned value in the range OspfBigMetric ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The OSPF External Metric." SYNTAX Integer32 (0..'FFFFFE'h) --for hsrpMgt start HsrpState ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The current state of the HSRP protocol for a given HSRP group entry." SYNTAX INTEGER { initial(1), learn(2), listen(3), speak(4), standby(5), active(6) } --for hsrpMgt end StaPathCostMode ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The path cost mode of a spanning tree algorithm, short(1) indicates that we retrieve/configure the spanning tree path cost as a 16 bit value and long(2) indicates that we retrieve/configure the spanning tree path cost as a 32 bit value." SYNTAX INTEGER { short(1), long(2) } -- -- switchMgt -- switchManagementVlan OBJECT-TYPE SYNTAX INTEGER (1..4094) MAX-ACCESS read-write STATUS current DESCRIPTION "The VLAN on which management is done." ::= { switchMgt 1 } switchNumber OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The total number of switches present on this system." ::= { switchMgt 2 } switchInfoTable OBJECT-TYPE SYNTAX SEQUENCE OF SwitchInfoEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Table of descriptive and status information about switches in this system." ::= { switchMgt 3 } switchInfoEntry OBJECT-TYPE SYNTAX SwitchInfoEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry in the table, containing information about a single switch in this system." INDEX { swUnitIndex } ::= { switchInfoTable 1 } SwitchInfoEntry ::= SEQUENCE { swUnitIndex Integer32, swHardwareVer DisplayString, swMicrocodeVer DisplayString, swLoaderVer DisplayString, swBootRomVer DisplayString, swOpCodeVer DisplayString, swPortNumber Integer32, swPowerStatus INTEGER, swRoleInSystem INTEGER, swSerialNumber DisplayString, swExpansionSlot1 INTEGER, swExpansionSlot2 INTEGER, swServiceTag DisplayString, swModelNumber DisplayString } swUnitIndex OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "This object identifies the switch within the system for which this entry contains information. This value can never be greater than switchNumber." ::= { switchInfoEntry 1 } swHardwareVer OBJECT-TYPE SYNTAX DisplayString (SIZE(0..20)) MAX-ACCESS read-only STATUS current DESCRIPTION "Hardware version of the main board." ::= { switchInfoEntry 2 } swMicrocodeVer OBJECT-TYPE SYNTAX DisplayString (SIZE(0..20)) MAX-ACCESS read-only STATUS current DESCRIPTION "Microcode version of the main board." ::= { switchInfoEntry 3 } swLoaderVer OBJECT-TYPE SYNTAX DisplayString (SIZE(0..20)) MAX-ACCESS read-only STATUS current DESCRIPTION "Loader version of the main board." ::= { switchInfoEntry 4 } swBootRomVer OBJECT-TYPE SYNTAX DisplayString (SIZE(0..20)) MAX-ACCESS read-only STATUS current DESCRIPTION "Boot ROM code version of the main board." ::= { switchInfoEntry 5 } swOpCodeVer OBJECT-TYPE SYNTAX DisplayString (SIZE(0..20)) MAX-ACCESS read-only STATUS current DESCRIPTION "Operation code version of the main board." ::= { switchInfoEntry 6 } swPortNumber OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The total port number of this switch (including expansion slot)." ::= { switchInfoEntry 7 } swPowerStatus OBJECT-TYPE SYNTAX INTEGER { internalPower(1), redundantPower(2), internalAndRedundantPower(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the switch using internalPower(1), redundantPower(2) or both(3)" ::= { switchInfoEntry 8 } swRoleInSystem OBJECT-TYPE SYNTAX INTEGER { master(1), backupMaster(2), slave(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the switch is master(1), backupMaster(2) or slave(3) in this system." ::= { switchInfoEntry 9 } swSerialNumber OBJECT-TYPE SYNTAX DisplayString (SIZE(0..80)) MAX-ACCESS read-only STATUS current DESCRIPTION "Serial number of the switch." ::= { switchInfoEntry 10 } swExpansionSlot1 OBJECT-TYPE SYNTAX INTEGER { notPresent(1), other(2), hundredBaseFxScMmf(3), hundredBaseFxScSmf(4), hundredBaseFxMtrjMmf(5), thousandBaseSxScMmf(6), thousandBaseSxMtrjMmf(7), thousandBaseXGbic(8), thousandBaseLxScSmf(9), thousandBaseT(10), stackingModule(11), thousandBaseSfp(12) } MAX-ACCESS read-only STATUS current DESCRIPTION "Type of expansion module in this switch slot 1." ::= { switchInfoEntry 11 } swExpansionSlot2 OBJECT-TYPE SYNTAX INTEGER { notPresent(1), other(2), hundredBaseFxScMmf(3), hundredBaseFxScSmf(4), hundredBaseFxMtrjMmf(5), thousandBaseSxScMmf(6), thousandBaseSxMtrjMmf(7), thousandBaseXGbic(8), thousandBaseLxScSmf(9), thousandBaseT(10), stackingModule(11), thousandBaseSfp(12) } MAX-ACCESS read-only STATUS current DESCRIPTION "Type of expansion module in this switch slot 2." ::= { switchInfoEntry 12 } swServiceTag OBJECT-TYPE SYNTAX DisplayString (SIZE(0..80)) MAX-ACCESS read-only STATUS current DESCRIPTION "Service tag serial-number of the switch." ::= { switchInfoEntry 13 } swModelNumber OBJECT-TYPE SYNTAX DisplayString (SIZE(0..15)) MAX-ACCESS read-only STATUS current DESCRIPTION "Model number of the switch." ::= { switchInfoEntry 14 } switchOperState OBJECT-TYPE SYNTAX INTEGER { other(1), unknown(2), ok(3), noncritical(4), critical(5), nonrecoverable(6) } MAX-ACCESS read-only STATUS current DESCRIPTION "Global operation state of the switch." ::= { switchMgt 4 } switchProductId OBJECT IDENTIFIER ::= { switchMgt 5 } swProdName OBJECT-TYPE SYNTAX DisplayString (SIZE(0..127)) MAX-ACCESS read-only STATUS current DESCRIPTION "" ::= { switchProductId 1 } swProdManufacturer OBJECT-TYPE SYNTAX DisplayString (SIZE(0..127)) MAX-ACCESS read-only STATUS current DESCRIPTION "" ::= { switchProductId 2 } swProdDescription OBJECT-TYPE SYNTAX DisplayString (SIZE(0..127)) MAX-ACCESS read-only STATUS current DESCRIPTION "" ::= { switchProductId 3 } swProdVersion OBJECT-TYPE SYNTAX DisplayString (SIZE(0..127)) MAX-ACCESS read-only STATUS current DESCRIPTION "" ::= { switchProductId 4 } swProdUrl OBJECT-TYPE SYNTAX DisplayString (SIZE(0..127)) MAX-ACCESS read-only STATUS current DESCRIPTION "" ::= { switchProductId 5 } swIdentifier OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-only STATUS current DESCRIPTION "A unique identifier of which switch in the chassis is currently being looked at." ::= { switchProductId 6 } swChassisServiceTag OBJECT-TYPE SYNTAX DisplayString (SIZE(0..80)) MAX-ACCESS read-only STATUS current DESCRIPTION "The service tag of the chassis this switch resides in." ::= { switchProductId 7 } switchIndivPowerTable OBJECT-TYPE SYNTAX SEQUENCE OF SwitchIndivPowerEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Table about statuses of individual powers." ::= { switchMgt 6 } switchIndivPowerEntry OBJECT-TYPE SYNTAX SwitchIndivPowerEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Table about statuses of individual powers." INDEX { swIndivPowerUnitIndex, swIndivPowerIndex } ::= { switchIndivPowerTable 1 } SwitchIndivPowerEntry ::= SEQUENCE { swIndivPowerUnitIndex Integer32, swIndivPowerIndex INTEGER, swIndivPowerStatus INTEGER } swIndivPowerUnitIndex OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS accessible-for-notify STATUS current DESCRIPTION "This is defined as swUnitIndex." ::= { switchIndivPowerEntry 1 } swIndivPowerIndex OBJECT-TYPE SYNTAX INTEGER (1..2) MAX-ACCESS accessible-for-notify STATUS current DESCRIPTION "1 means internal power. 2 means external power." ::= { switchIndivPowerEntry 2 } swIndivPowerStatus OBJECT-TYPE SYNTAX INTEGER { notPresent(1), green(2), red(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "notPresent(1) means not present. green(2) means up. red(3) means down." ::= { switchIndivPowerEntry 3 } switchJumboFrameStatus OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "enable(1) means the Jumbo Frame has enabled, disabled(2) means the Jumbo Frame has disabled." ::= { switchMgt 7 } amtrMgt OBJECT IDENTIFIER ::= { switchMgt 8 } -- Address Management amtrMacAddrAgingStatus OBJECT-TYPE SYNTAX EnabledStatus MAX-ACCESS read-write STATUS current DESCRIPTION "If this is enabled(1), the MAC address table will age out according to its timer. If this is disabled(2), the MAC address table will not age out." ::= { amtrMgt 3 } --switchFanTable switchFanTable OBJECT-TYPE SYNTAX SEQUENCE OF SwitchFanEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The table of Fan Status." ::= { switchMgt 9 } switchFanEntry OBJECT-TYPE SYNTAX SwitchFanEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A conceptual row of the switchFanTable." INDEX { switchUnitIndex, switchFanIndex } ::= { switchFanTable 1 } SwitchFanEntry ::= SEQUENCE { switchUnitIndex Integer32, switchFanIndex Integer32, switchFanStatus INTEGER } switchUnitIndex OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS accessible-for-notify STATUS current DESCRIPTION "the unit of the switch for stackable device." ::= { switchFanEntry 1 } switchFanIndex OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS accessible-for-notify STATUS current DESCRIPTION "The unit number of the fan." ::= { switchFanEntry 2 } switchFanStatus OBJECT-TYPE SYNTAX INTEGER { ok(1), failure(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicating the status of the fan, 1:ok; 2:failure." ::= { switchFanEntry 3 } -- -- portMgt -- portTable OBJECT-TYPE SYNTAX SEQUENCE OF PortEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Table of descriptive and status information about configuration of each switch port (including expansion slot) in this system. This table also contains information about each trunk (similar to Cisco's EtherChannel)." ::= { portMgt 1 } portEntry OBJECT-TYPE SYNTAX PortEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry in the table, containing information about configuration in one switch port of the switch." INDEX { portIndex } ::= { portTable 1 } PortEntry ::= SEQUENCE { portIndex Integer32, portName DisplayString, portType INTEGER, portSpeedDpxCfg INTEGER, portFlowCtrlCfg INTEGER, portCapabilities BITS, portAutonegotiation INTEGER, portSpeedDpxStatus INTEGER, portFlowCtrlStatus INTEGER, portTrunkIndex Integer32, portComboForcedMode INTEGER } portIndex OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "This is defined as ifIndex in the IF-MIB." ::= { portEntry 1 } portName OBJECT-TYPE SYNTAX DisplayString (SIZE(0..64)) MAX-ACCESS read-write STATUS current DESCRIPTION "Indicates the port name. This is same as ifAlias in the IF-MIB (RFC2863 or later)." ::= { portEntry 2 } portType OBJECT-TYPE SYNTAX INTEGER { other(1), hundredBaseTX(2), hundredBaseFX(3), thousandBaseSX(4), thousandBaseLX(5), thousandBaseT(6), thousandBaseGBIC(7), thousandBaseSfp(8) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the port type." ::= { portEntry 3 } portSpeedDpxCfg OBJECT-TYPE SYNTAX INTEGER { reserved(1), halfDuplex10(2), fullDuplex10(3), halfDuplex100(4), fullDuplex100(5), halfDuplex1000(6), fullDuplex1000(7) } MAX-ACCESS read-write STATUS current DESCRIPTION "Set the port speed and duplex mode as follows: halfDuplex10(2) - 10Mbps and half duplex mode fullDuplex10(3) - 10Mbps and full duplex mode halfDuplex100(4) - 100Mbps and half duplex mode fullDuplex100(5) - 100Mbps and full duplex mode halfDuplex1000(6) - 1000Mbps and half duplex mode fullDuplex1000(7) - 1000Mbps and full duplex mode hundredBaseTX port can be set as halfDuplex10(2) fullDuplex10(3) halfDuplex100(4) fullDuplex100(5) hundredBaseFX port can be set as halfDuplex100(4) fullDuplex100(5) thousandBaseSX port can be set as halfDuplex1000(6) fullDuplex1000(7) The actual operating speed and duplex of the port is given by portSpeedDpxStatus." DEFVAL { halfDuplex10 } ::= { portEntry 4 } portFlowCtrlCfg OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2), backPressure(3), dot3xFlowControl(4) } MAX-ACCESS read-write STATUS current DESCRIPTION "(1) Flow control mechanism is enabled. If the port type is hundredBaseTX or thousandBaseSX: When the port is operating in halfDuplex mode, the port uses backPressure flow control mechanism. When the port is operating in fullDuplex mode, the port uses IEEE 802.3x flow control mechanism. If the port type is hundredBaseFX: When the port is operating in halfDuplex mode, the port uses backPressure flow control mechanism. When the port is operating in fullDuplex mode, Flow control mechanism will not function. (2) Flow control mechanism is disabled. (3) Flow control mechanism is backPressure. when the port is in fullDuplex mode.This flow control mechanism will not function. (4) Flow control mechanism is IEEE 802.3x flow control. when the port is in halfDuplex mode.This flow control mechanism will not function. hundredBaseTX and thousandBaseSX port can be set as: enabled(1), disabled(2), backPressure(3), dot3xFlowControl(4). hundredBaseFX port can be set as: enabled(1), disabled(2), backPressure(3). The actual flow control mechanism is used given by portFlowCtrlStatus." DEFVAL { enabled } ::= { portEntry 5 } portCapabilities OBJECT-TYPE SYNTAX BITS { portCap10half(0), portCap10full(1), portCap100half(2), portCap100full(3), portCap1000half(4), portCap1000full(5), reserved6(6), reserved7(7), reserved8(8), reserved9(9), reserved10(10), reserved11(11), reserved12(12), reserved13(13), portCapSym(14), portCapFlowCtrl(15) } MAX-ACCESS read-write STATUS current DESCRIPTION "Port capabilities." ::= { portEntry 6 } portAutonegotiation OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "Whether autonegotiation is enabled." ::= { portEntry 7 } portSpeedDpxStatus OBJECT-TYPE SYNTAX INTEGER { error(1), halfDuplex10(2), fullDuplex10(3), halfDuplex100(4), fullDuplex100(5), halfDuplex1000(6), fullDuplex1000(7) } MAX-ACCESS read-only STATUS current DESCRIPTION "The operating speed and duplex mode of the switched port. If this index is a trunk, the speed is the speed of its individual members. If this index is a trunk and the result is inconsistent among its member ports, this value is error(1)." ::= { portEntry 8 } portFlowCtrlStatus OBJECT-TYPE SYNTAX INTEGER { error(1), backPressure(2), dot3xFlowControl(3), none(4) } MAX-ACCESS read-only STATUS current DESCRIPTION "(2) BackPressure flow control machanism is used. (3) IEEE 802.3 flow control machanism is used. (4) Flow control mechanism is disabled. If this index is a trunk and the result is inconsistent among its member ports, this value is error(1)." ::= { portEntry 9 } portTrunkIndex OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The trunk to which this port belongs. A value of 0 means that this port does not belong to any trunk. A value greater than zero means that this port belongs to trunk at trunkIndex, defined by the corresponding trunkPorts." ::= { portEntry 10 } portComboForcedMode OBJECT-TYPE SYNTAX INTEGER { none(1), copperForced(2), copperPreferredAuto(3), sfpForced(4), sfpPreferredAuto(5) } MAX-ACCESS read-write STATUS current DESCRIPTION "This determines the forced mode of a combo port. For a non-combo port, this variable has a value of none(1), and setting this variable to none(1) has no effect. For a combo port, this has its own valid values not equal to none(1), and setting this variable to none(1) is not allowed." ::= { portEntry 12} portVlanTrunkingTable OBJECT-TYPE SYNTAX SEQUENCE OF PortVlanTrunkingEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Configures vlan trunking feature." ::= { portMgt 7 } portVlanTrunkingEntry OBJECT-TYPE SYNTAX PortVlanTrunkingEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Configures vlan trunking feature." INDEX { portVlanTrunkingIfIndex } ::= { portVlanTrunkingTable 1 } PortVlanTrunkingEntry ::= SEQUENCE { portVlanTrunkingIfIndex Integer32, portVlanTrunkingStatus EnabledStatus } portVlanTrunkingIfIndex OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "The port and trunk interface of the portVlanTrunkingTable. The interface identified by a particular value of this index is the same interface identified by the same value of ifIndex in the IF-MIB." ::= { portVlanTrunkingEntry 1 } portVlanTrunkingStatus OBJECT-TYPE SYNTAX EnabledStatus MAX-ACCESS read-write STATUS current DESCRIPTION "Whether vlan trunking is enabled." ::= { portVlanTrunkingEntry 2 } -- -- trunkMgt -- trunkMaxId OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-only STATUS current DESCRIPTION "The maximum number for a trunk identifier." ::= { trunkMgt 1 } trunkValidNumber OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-only STATUS current DESCRIPTION "The number of valid trunks." ::= { trunkMgt 2 } trunkTable OBJECT-TYPE SYNTAX SEQUENCE OF TrunkEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Table of descriptive and status information about configuration of each trunk, similar to Cisco EtherChannel." ::= { trunkMgt 3 } trunkEntry OBJECT-TYPE SYNTAX TrunkEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry in the table, containing information about configuration in one trunk of the switch." INDEX { trunkIndex } ::= { trunkTable 1 } TrunkEntry ::= SEQUENCE { trunkIndex Integer32, trunkPorts PortList, trunkCreation INTEGER, trunkStatus INTEGER } trunkIndex OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "This object identifies the trunk within the switch for which this entry contains information." ::= { trunkEntry 1 } trunkPorts OBJECT-TYPE SYNTAX PortList MAX-ACCESS read-create STATUS current DESCRIPTION "The complete set of ports currently associated with this trunk." ::= { trunkEntry 2 } trunkCreation OBJECT-TYPE SYNTAX INTEGER { static(1), lacp(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "A value of static(1) means a statically configured trunk. A value of lacp(2) means an LACP-configured trunk." ::= { trunkEntry 3 } trunkStatus OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2) } MAX-ACCESS read-create STATUS current DESCRIPTION "Writing this to valid(1) creates an entry. Writing this to invalid(2) destroys an entry." ::= { trunkEntry 4 } --- --- lacpMgt --- lacpPortTable OBJECT-TYPE SYNTAX SEQUENCE OF LacpPortEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Table for LACP port configuration." ::= { lacpMgt 1 } lacpPortEntry OBJECT-TYPE SYNTAX LacpPortEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Entry for LACP port configuration." INDEX { lacpPortIndex } ::= { lacpPortTable 1 } LacpPortEntry ::= SEQUENCE { lacpPortIndex Integer32, lacpPortStatus INTEGER } lacpPortIndex OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "This is defined as ifIndex in the IF-MIB." ::= { lacpPortEntry 1 } lacpPortStatus OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "Whether 802.3ad LACP is enabled." ::= { lacpPortEntry 2 } -- -- staMgt -- -- Management for Spanning Tree Algorithm (STA). -- This has variables not already defined in the implemented -- standard MIB(s). staSystemStatus OBJECT-TYPE SYNTAX EnabledStatus MAX-ACCESS read-write STATUS current DESCRIPTION "Global spanning tree status. (1) Spanning tree protocol is enabled. (2) Spanning tree protocol is disabled." DEFVAL { enabled } ::= { staMgt 1 } staPortTable OBJECT-TYPE SYNTAX SEQUENCE OF StaPortEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The table manages port settings for Spanning Tree Protocol 802.1d, 802.1w or 802.1s depending on the value specified by staProtocolType." REFERENCE "IEEE 802.1d, IEEE 802.1w, IEEE 802.1s." ::= { staMgt 2 } staPortEntry OBJECT-TYPE SYNTAX StaPortEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The conceptual entry of staPortTable." INDEX { staPortIndex } ::= { staPortTable 1 } StaPortEntry ::= SEQUENCE { staPortIndex Integer32, staPortFastForward EnabledStatus, -- for MST, RSTP staPortProtocolMigration TruthValue, staPortAdminEdgePort TruthValue, staPortOperEdgePort TruthValue, staPortAdminPointToPoint INTEGER, staPortOperPointToPoint TruthValue, staPortLongPathCost Integer32, staPortSystemStatus EnabledStatus } staPortIndex OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "The port and the trunk (excluding trunk member ports) interface of the staPortTable. The interface identified by a particular value of this index is the same interface as identified by the same value of dot1dStpPort in the BRIDGE-MIB." ::= { staPortEntry 1 } staPortFastForward OBJECT-TYPE SYNTAX EnabledStatus MAX-ACCESS read-write STATUS current DESCRIPTION "Whether fast forwarding is enabled." ::= { staPortEntry 2 } -- for MSTP RSTP staPortProtocolMigration OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "When operating in RSTP (version 2) mode, writing true(1) to this object forces this port to transmit RSTP BPDUs. Any other operation on this object has no effect and it always returns false(2) when read." REFERENCE "IEEE 802.1w clause 14.8.2.4, 17.18.10, 17.26" ::= { staPortEntry 3 } staPortAdminEdgePort OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "The administrative value of the edge port parameter. A value of true(1) indicates that this port should be assumed as an edge-port and a value of false(2) indicates that this port should be assumed as a non-edge-port." REFERENCE "IEEE 802.1t clause 14.8.2, 18.3.3" ::= { staPortEntry 4 } staPortOperEdgePort OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "The operational value of the edge port parameter. The object is initialized to the value of staPortAdminEdgePort and is set false when a BPDU is received." REFERENCE "IEEE 802.1t clause 14.8.2, 18.3.4" ::= { staPortEntry 5 } staPortAdminPointToPoint OBJECT-TYPE SYNTAX INTEGER { forceTrue(0), forceFalse(1), auto(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "The administrative point-to-point status of the LAN segment attached to this port. A value of forceTrue(0) indicates that this port should always be treated as if it is connected to a point-to-point link. A value of forceFalse(1) indicates that this port should be treated as having a shared media connection. A value of auto(2) indicates that this port is considered to have a point-to-point link if it is an Aggregator and all of its members are aggregatable, or if the MAC entity is configured for full duplex operation, either through auto-negotiation or by management means." REFERENCE "IEEE 802.1w clause 6.4.3, 6.5, 14.8.2" ::= { staPortEntry 6 } staPortOperPointToPoint OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "The operational point-to-point status of the LAN segment attached to this port. This indicates whether a port is considered to have a point-to-point connection or not. The value is determined by management or by auto-detection, as described in the staPortAdminPointToPoint object." REFERENCE "IEEE 802.1w clause 6.4.3, 6.5, 14.8.2" ::= { staPortEntry 7 } staPortLongPathCost OBJECT-TYPE SYNTAX Integer32(1..200000000) MAX-ACCESS read-write STATUS current DESCRIPTION "The contribution of this port to the path cost (in 32 bits value) of paths towards the spanning tree root which include this port. This object is used to configure the spanning tree port path cost in the 32-bit value range when the staPathCostMethod is long(2). If the staPathCostMethod is short(1), this mib object is not instantiated." ::= { staPortEntry 8 } staPortSystemStatus OBJECT-TYPE SYNTAX EnabledStatus MAX-ACCESS read-write STATUS current DESCRIPTION "Per-port spanning tree status. (1) Spanning tree protocol is enabled. (2) Spanning tree protocol is disabled." DEFVAL { enabled } ::= { staPortEntry 9 } staProtocolType OBJECT-TYPE SYNTAX INTEGER { stp(1), rstp(2), mstp(3) } MAX-ACCESS read-write STATUS current DESCRIPTION "The version of Spanning Tree Protocol the bridge is currently running. The value 'stp(1)' indicates the Spanning Tree Protocol is as specified in IEEE 802.1D,'rstp(2)' indicates that the Rapid Spanning Tree Protocol is as specified in IEEE 802.1w, and the value 'mstp(3)' indicates that the Multiple Spanning Tree Protocol is as specified in IEEE 802.1s. New values may be defined in the future as new or updated versions of the protocol become available." REFERENCE "IEEE 802.1w clause 14.8.1, 17.12, 17.16.1" ::= { staMgt 3 } staTxHoldCount OBJECT-TYPE SYNTAX Integer32 (1..10) MAX-ACCESS read-write STATUS current DESCRIPTION "The value used by the Port Transmit state machine to limit the maximum transmission rate." REFERENCE "IEEE 802.1w clause 17.16.6" DEFVAL { 3 } ::= { staMgt 4 } staPathCostMethod OBJECT-TYPE SYNTAX StaPathCostMode MAX-ACCESS read-write STATUS current DESCRIPTION "Indicates the type of spanning tree path cost mode configured on the switch. This mode applies to all instances of the spanning tree protocol running on the switch. When the value of this MIB object is changed, the path cost of all ports will be reassigned to the default path cost values based on the new spanning tree path cost mode and the ports' speed. When the value of this MIB object is set to long(2), the staPortLongPathCost MIB object must be used to retrieve/configure the spanning tree port path cost as a 32-bit value. The set operation on dot1dStpPortPathCost in BRIDGE-MIB will be rejected. While retrieving the value of dot1dStpPortPathCost, the maximum value of 65535 will be returned if the value of staPortLongPathCost for the same instance exceeds 65535. When the value of this MIB object is set to short(1), the dot1dStpPortPathCost in BRIDGE-MIB must be used." DEFVAL { short } ::= { staMgt 5} -- -- xstMgt -- xstMgt OBJECT IDENTIFIER ::= { staMgt 6} mstName OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION "The name of the Multiple Spanning Tree region." ::= { xstMgt 1 } mstRevision OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The Revision number of the Multiple Spanning Tree region." ::= { xstMgt 2 } mstMaxHops OBJECT-TYPE SYNTAX Integer32(1..40) MAX-ACCESS read-write STATUS current DESCRIPTION "The max hop number counts of the Multiple Spanning Tree region." ::= { xstMgt 3 } xstInstanceCfgTable OBJECT-TYPE SYNTAX SEQUENCE OF XstInstanceCfgEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table is used to configure the property of a specific instance in Multiple Spanning Tree or Rapid Spanning Tree. If Rapid Spanning Tree protocol is in use, the mstInstanceEditIndex is always 0." ::= { xstMgt 4 } xstInstanceCfgEntry OBJECT-TYPE SYNTAX XstInstanceCfgEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A conceptual row containing the property of the RST or MST instance." INDEX { xstInstanceCfgIndex } ::= { xstInstanceCfgTable 1 } XstInstanceCfgEntry ::= SEQUENCE { xstInstanceCfgIndex Integer32, xstInstanceCfgPriority Integer32, xstInstanceCfgTimeSinceTopologyChange TimeTicks, xstInstanceCfgTopChanges Integer32, xstInstanceCfgDesignatedRoot BridgeId, xstInstanceCfgRootCost Integer32, xstInstanceCfgRootPort Integer32, xstInstanceCfgMaxAge Timeout, xstInstanceCfgHelloTime Timeout, xstInstanceCfgHoldTime Timeout, xstInstanceCfgForwardDelay Timeout, xstInstanceCfgBridgeMaxAge Timeout, xstInstanceCfgBridgeHelloTime Timeout, xstInstanceCfgBridgeForwardDelay Timeout, xstInstanceCfgTxHoldCount Integer32, xstInstanceCfgPathCostMethod StaPathCostMode } xstInstanceCfgIndex OBJECT-TYPE SYNTAX Integer32 (0..4094) MAX-ACCESS not-accessible STATUS current DESCRIPTION "An arbitrary integer within the range from 1 to the value of the maximum instance that uniquely identifies a spanning tree instance." ::= {xstInstanceCfgEntry 1 } xstInstanceCfgPriority OBJECT-TYPE SYNTAX Integer32 (0..61440) MAX-ACCESS read-write STATUS current DESCRIPTION "The priority of a specific spanning tree instance. The value assigned should be in the range 0-61440 in steps of 4096." ::= { xstInstanceCfgEntry 2 } xstInstanceCfgTimeSinceTopologyChange OBJECT-TYPE SYNTAX TimeTicks MAX-ACCESS read-only STATUS current DESCRIPTION "The time (in hundredths of a second) since the last topology change detected by the bridge entity in RST or MST." ::= { xstInstanceCfgEntry 3 } xstInstanceCfgTopChanges OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The total number of topology changes detected by this bridge in RST or MST since the management entity was last reset or initialized." ::= { xstInstanceCfgEntry 4 } xstInstanceCfgDesignatedRoot OBJECT-TYPE SYNTAX BridgeId MAX-ACCESS read-only STATUS current DESCRIPTION "The bridge identifier of the root of the spanning tree as determined by the Multiple Spanning Tree Protocol. (802.1s) or Rapid Spanning Tree Protocol ( 802.1w ) executed by this node. This value is used as the root identifier parameter in all configuration bridge PDUs originated by this node." REFERENCE "IEEE 802.1w." ::= { xstInstanceCfgEntry 5 } xstInstanceCfgRootCost OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The cost of the path to the root as seen from this bridge of the RST or MST." ::= { xstInstanceCfgEntry 6 } xstInstanceCfgRootPort OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of the port which offers the lowest cost path from this bridge to the root bridge of the RST or MST." ::= { xstInstanceCfgEntry 7 } xstInstanceCfgMaxAge OBJECT-TYPE SYNTAX Timeout MAX-ACCESS read-only STATUS current DESCRIPTION "The maximum age of Multiple Spanning Tree Protocol ( 802.1s ) or Rapid Spanning Tree Protocol ( 802.1w ) information learned from the network on any port before it is discarded, in units of hundredths of a second. This is the actual value that this bridge is currently using." ::= { xstInstanceCfgEntry 8 } xstInstanceCfgHelloTime OBJECT-TYPE SYNTAX Timeout MAX-ACCESS read-only STATUS current DESCRIPTION "The amount of time between the transmission of configuration bridge PDUs by this node on any port when it is the root of the specific spanning tree or trying to become so, in units of hundredths of a second. This is the actual value that this bridge is currently using in RST or MST." ::= { xstInstanceCfgEntry 9 } xstInstanceCfgHoldTime OBJECT-TYPE SYNTAX Timeout MAX-ACCESS read-only STATUS current DESCRIPTION "This time value determines the interval length during which no more than two configuration bridge PDUs shall be transmitted by this node, in units of hundredths of a second." ::= { xstInstanceCfgEntry 10 } xstInstanceCfgForwardDelay OBJECT-TYPE SYNTAX Timeout MAX-ACCESS read-only STATUS current DESCRIPTION "For RST or MST protocol, this time value, measured in units of hundredths of a second, controls how fast a port changes its spanning state when moving towards the forwarding state. The value determines how long the port stays in each of the listening and learning states, which precede the forwarding state. This value is also used, when a topology change has been detected and is underway, to age all dynamic entries in the forwarding database. This value is the current value being used by the bridge. xstInstanceCfgBridgeForwardDelay defines the value that this bridge and all others would start using if/when this bridge were to become the root." ::= { xstInstanceCfgEntry 11 } xstInstanceCfgBridgeMaxAge OBJECT-TYPE SYNTAX Timeout MAX-ACCESS read-only STATUS current DESCRIPTION "For RST or MST protocol, the time (in hundredths of second) that all bridges use for MaxAge when this bridge is acting as the root. Note that 802.1D-1990 specifies that the range for this parameter is related to the value of xstInstanceCfgBridgeHelloTime. The granularity of this timer is specified by 802.1D-1990 to be 1 second." REFERENCE "802.1D-1990." ::= { xstInstanceCfgEntry 12 } xstInstanceCfgBridgeHelloTime OBJECT-TYPE SYNTAX Timeout MAX-ACCESS read-only STATUS current DESCRIPTION "For RST or MST protocol,the time (in hundredths of a second) that all bridges use for HelloTime when this bridge is acting as the root. The granularity of this timer is specified by 802.1D-1990 to be 1 second." REFERENCE "802.1D-1990." ::= { xstInstanceCfgEntry 13 } xstInstanceCfgBridgeForwardDelay OBJECT-TYPE SYNTAX Timeout MAX-ACCESS read-only STATUS current DESCRIPTION "For RST or MST protocol, the time (in hundredths of a second) that all bridges use for ForwardDelay when this bridge is acting as the root. Note that 802.1D-1990 specifies that the range for this parameter is related to the value of xstInstanceCfgBridgeMaxAge. The granularity of this timer is specified by 802.1D-1990 to be 1 second." REFERENCE "802.1D-1990." ::= { xstInstanceCfgEntry 14 } xstInstanceCfgTxHoldCount OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "For RST or MST protocol, the value used by the port transmit state machine to limit the maximum transmission rate." ::= { xstInstanceCfgEntry 15 } xstInstanceCfgPathCostMethod OBJECT-TYPE SYNTAX StaPathCostMode MAX-ACCESS read-only STATUS current DESCRIPTION "For RST or MST protocol, this indicates the type of spanning tree path cost mode used by the switch. The mode applies to all instances of the Spanning Tree protocol running on the switch. When the value of this MIB object is changed, the path cost of all ports will be reassigned to the default path cost values based on the new spanning tree path cost mode and the ports' speed. When the value of this MIB object is set to long(2), the xstInstancePortPathCost MIB object must be used in order to retrieve/configure the spanning tree port path cost as a 32-bit value. The set operation on dot1dStpPortPathCost in BRIDGE-MIB will be rejected. While retrieving the value of dot1dStpPortPathCost, the maximum value of 65535 will be returned if the value of xstInstancePortPathCost for the same instance exceeds 65535. When the value of this MIB object is set to short(1), the dot1dStpPortPathCost in BRIDGE-MIB must be used." ::= { xstInstanceCfgEntry 16 } xstInstancePortTable OBJECT-TYPE SYNTAX SEQUENCE OF XstInstancePortEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The extension table for dot1dStpPortEntry to provide additional Spanning Tree information and configuration." ::= { xstMgt 5 } xstInstancePortEntry OBJECT-TYPE SYNTAX XstInstancePortEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The conceptual row for xstInstancePortTable." INDEX { xstInstancePortInstance, xstInstancePortPort } ::= { xstInstancePortTable 1 } XstInstancePortEntry ::= SEQUENCE { xstInstancePortInstance Integer32, xstInstancePortPort Integer32, xstInstancePortPriority Integer32, xstInstancePortState INTEGER, xstInstancePortEnable EnabledStatus, xstInstancePortPathCost Integer32, xstInstancePortDesignatedRoot BridgeId, xstInstancePortDesignatedCost Integer32, xstInstancePortDesignatedBridge BridgeId, xstInstancePortDesignatedPort OCTET STRING, xstInstancePortForwardTransitions Counter32, xstInstancePortPortRole INTEGER } xstInstancePortInstance OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "The instance of the MSTP." ::= { xstInstancePortEntry 1 } xstInstancePortPort OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "The port and the trunk (excluding trunk member ports) interface of the mstInstancePortTable. The interface identified by a particular value of this index is the same interface as identified by the same value of dot1dStpPort in the BRIDGE-MIB." ::= { xstInstancePortEntry 2 } xstInstancePortPriority OBJECT-TYPE SYNTAX Integer32(0..240) MAX-ACCESS read-write STATUS current DESCRIPTION "Defines the priority used for this port in the Spanning Tree Algorithm. If the path cost for all ports on a switch is the same, the port with the highest priority (i.e., lowest value) will be configured as an active link in the Spanning Tree. This makes a port with higher priority less likely to be blocked if the Spanning Tree Algorithm is detecting network loops. Where more than one port is assigned the highest priority, the port with lowest numeric identifier will be enabled." ::= { xstInstancePortEntry 3 } xstInstancePortState OBJECT-TYPE SYNTAX INTEGER { discarding(1), learning(2), forwarding(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "The port's current state as defined by application of the Spanning Tree Protocol. This state controls what action a port takes on reception of a frame: discarding(1): Port receives configuration messages, but does not forward packets. learning(2): Port has transmitted configuration messages for an interval set by the Forward Delay parameter without receiving contradictory information. Port address table is cleared, and the port begins learning addresses. forwarding(3): Port forwards packets, and continues learning addresses. For ports which are disabled (see xstInstancePortEnable), this object will have a value of discarding(1)." ::= { xstInstancePortEntry 4} xstInstancePortEnable OBJECT-TYPE SYNTAX EnabledStatus MAX-ACCESS read-only STATUS current DESCRIPTION "The enabled/disabled status of the port." ::= { xstInstancePortEntry 5 } xstInstancePortPathCost OBJECT-TYPE SYNTAX Integer32(1..200000000) MAX-ACCESS read-write STATUS current DESCRIPTION "The pathcost of the RST or MST in the range 1 to 200000000. This parameter is used to determine the best path between devices. Therefore, lower values should be assigned to ports attached to faster media, and higher values assigned to ports with slower media. (Path cost takes precedence over port priority)." ::= { xstInstancePortEntry 6 } xstInstancePortDesignatedRoot OBJECT-TYPE SYNTAX BridgeId MAX-ACCESS read-only STATUS current DESCRIPTION "The unique bridge identifier of the bridge recorded as the root in the configuration BPDUs transmitted by the designated bridge for the segment to which the port is attached." ::= { xstInstancePortEntry 7 } xstInstancePortDesignatedCost OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The path cost of the designated port of the segment connected to this port. This value is compared to the root path cost field in received bridge PDUs." ::= { xstInstancePortEntry 8 } xstInstancePortDesignatedBridge OBJECT-TYPE SYNTAX BridgeId MAX-ACCESS read-only STATUS current DESCRIPTION "The bridge identifier of the bridge which this port considers to be the designated bridge for this port's segment." ::= { xstInstancePortEntry 9 } xstInstancePortDesignatedPort OBJECT-TYPE SYNTAX OCTET STRING (SIZE (2)) MAX-ACCESS read-only STATUS current DESCRIPTION "The port identifier of the port on the designated bridge for this port's segment." ::= { xstInstancePortEntry 10 } xstInstancePortForwardTransitions OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of times this port has transitioned from the learning state to the forwarding state." ::= { xstInstancePortEntry 11 } xstInstancePortPortRole OBJECT-TYPE SYNTAX INTEGER { disabled(1), root(2), designated(3), alternate(4), backup(5), master(6) } MAX-ACCESS read-only STATUS current DESCRIPTION "The role of the port in the RST or MST protocol: (1) The port has no role within the spanning tree (2) The port is part of the active topology connecting the bridge to the root bridge (i.e., root port) (3) The port is connecting a LAN through the bridge to the root bridge (i.e., designated port) (4) The port may provide connectivity if other bridges, bridge ports, or LANs fail or are removed. (5) The port provides backup if other bridges, bridge ports, or LANs fail or are removed. (6) For MST protocol only, indicates whether this instance is in a master role." ::= { xstInstancePortEntry 12 } mstInstanceEditTable OBJECT-TYPE SYNTAX SEQUENCE OF MstInstanceEditEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The Multiple Spanning Tree region instance vlan configuration table. Please read the actual instance vlan mapped in the mstInstanceOperTable." ::= { xstMgt 6 } mstInstanceEditEntry OBJECT-TYPE SYNTAX MstInstanceEditEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A conceptual row containing the status of the MSTP instance." INDEX { mstInstanceEditIndex } ::= { mstInstanceEditTable 1 } MstInstanceEditEntry ::= SEQUENCE { mstInstanceEditIndex Integer32, mstInstanceEditVlansMap OCTET STRING, mstInstanceEditVlansMap2k OCTET STRING, mstInstanceEditVlansMap3k OCTET STRING, mstInstanceEditVlansMap4k OCTET STRING, mstInstanceEditRemainingHops Integer32 } mstInstanceEditIndex OBJECT-TYPE SYNTAX Integer32 (0..4094) MAX-ACCESS not-accessible STATUS current DESCRIPTION "An arbitrary integer within the range from 1 to the value of the maximum instance that uniquely identifies a spanning tree instance." ::= {mstInstanceEditEntry 1 } mstInstanceEditVlansMap OBJECT-TYPE SYNTAX OCTET STRING (SIZE (0..128)) MAX-ACCESS read-create STATUS current DESCRIPTION "A string of octets containing one bit per VLAN. The first octet corresponds to VLANs with vlanIndex values of 0 through 7; the second octet to VLANs 8 through 15; etc., The most significant bit of each octet corresponds to the lowest value vlanIndex in that octet. For each VLAN, if it is mapped to this MSTP instance, then the bit corresponding to that VLAN is set to '1'. To create a row, write any of mstInstanceEditVlansMap, mstInstanceEditVlansMap2k, mstInstanceEditVlansMap3k or mstInstanceEditVlansMap4k, to a non-empty list. To destroy a row, write all of these four variables to an empty list." ::= {mstInstanceEditEntry 2 } mstInstanceEditVlansMap2k OBJECT-TYPE SYNTAX OCTET STRING (SIZE (0..128)) MAX-ACCESS read-create STATUS current DESCRIPTION "A string of octets containing one bit per VLAN for VLANS with vlanIndex values of 1024 through 2047. The first octet corresponds to VLANs with vlanIndex values of 1024 through 1031; the second octet to VLANs 1032 through 1039; etc. The most significant bit of each octet corresponds to the lowest value vlanIndex in that octet. For each VLAN, if it is mapped to this MSTP instance, then the bit corresponding to that VLAN is set to '1'. To create a row, write any of mstInstanceEditVlansMap, mstInstanceEditVlansMap2k, mstInstanceEditVlansMap3k or mstInstanceEditVlansMap4k, to a non-empty list. To destroy a row, write all of these four variables to an empty list." ::= {mstInstanceEditEntry 3 } mstInstanceEditVlansMap3k OBJECT-TYPE SYNTAX OCTET STRING (SIZE (0..128)) MAX-ACCESS read-create STATUS current DESCRIPTION "A string of octets containing one bit per VLAN for VLANS with vlanIndex values of 2048 through 3071. The first octet corresponds to VLANs with vlanIndex values of 2048 through 2055; the second octet to VLANs 2056 through 2063; etc. The most significant bit of each octet corresponds to the lowest value vlanIndex in that octet. For each VLAN, if it is mapped to this MSTP instance, then the bit corresponding to that VLAN is set to '1'. To create a row, write any of mstInstanceEditVlansMap, mstInstanceEditVlansMap2k, mstInstanceEditVlansMap3k or mstInstanceEditVlansMap4k, to a non-empty list. To destroy a row, write all of these four variables to an empty list." ::= {mstInstanceEditEntry 4 } mstInstanceEditVlansMap4k OBJECT-TYPE SYNTAX OCTET STRING (SIZE (0..128)) MAX-ACCESS read-create STATUS current DESCRIPTION "A string of octets containing one bit per VLAN for VLANS with vlanIndex values of 3072 through 4095. The first octet corresponds to VLANs with vlanIndex values of 3072 through 3079; the second octet to VLANs 3080 through 3087; etc. The most significant bit of each octet corresponds to the lowest value vlanIndex in that octet. For each VLAN, if it is mapped to this MSTP instance, then the bit corresponding to that VLAN is set to '1'. To create a row, write any of mstInstanceEditVlansMap, mstInstanceEditVlansMap2k, mstInstanceEditVlansMap3k or mstInstanceEditVlansMap4k, to a non-empty list. To destroy a row, write all of these four variables to an empty list." ::= {mstInstanceEditEntry 5 } mstInstanceEditRemainingHops OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The remaining hop count for this MST instance." ::= { mstInstanceEditEntry 6 } --mstInstanceOperTable mstInstanceOperTable OBJECT-TYPE SYNTAX SEQUENCE OF MstInstanceOperEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The Multiple Spanning Tree region instance vlan mapped table." ::= { xstMgt 7 } mstInstanceOperEntry OBJECT-TYPE SYNTAX MstInstanceOperEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A conceptual row containing the status of the MSTP instance." INDEX { mstInstanceOperIndex } ::= { mstInstanceOperTable 1 } MstInstanceOperEntry ::= SEQUENCE { mstInstanceOperIndex Integer32, mstInstanceOperVlansMap OCTET STRING, mstInstanceOperVlansMap2k OCTET STRING, mstInstanceOperVlansMap3k OCTET STRING, mstInstanceOperVlansMap4k OCTET STRING } mstInstanceOperIndex OBJECT-TYPE SYNTAX Integer32 (0..4094) MAX-ACCESS not-accessible STATUS current DESCRIPTION "An arbitrary integer within the range from 1 to the value of the maximum instance that uniquely identifies a spanning tree instance." ::= {mstInstanceOperEntry 1 } mstInstanceOperVlansMap OBJECT-TYPE SYNTAX OCTET STRING (SIZE (0..128)) MAX-ACCESS read-only STATUS current DESCRIPTION "A string of octets containing one bit per VLAN. The first octet corresponds to VLANs with vlanIndex values of 0 through 7; the second octet to VLANs 8 through 15; etc., The most significant bit of each octet corresponds to the lowest value vlanIndex in that octet. For each VLAN, if it is mapped to this MSTP instance, then the bit corresponding to that VLAN is set to '1'." ::= {mstInstanceOperEntry 2 } mstInstanceOperVlansMap2k OBJECT-TYPE SYNTAX OCTET STRING (SIZE (0..128)) MAX-ACCESS read-only STATUS current DESCRIPTION "A string of octets containing one bit per VLAN for VLANS with vlanIndex values of 1024 through 2047. The first octet corresponds to VLANs with vlanIndex values of 1024 through 1031; the second octet to VLANs 1032 through 1039; etc. The most significant bit of each octet corresponds to the lowest value vlanIndex in that octet. For each VLAN, if it is mapped to this MSTP instance, then the bit corresponding to that VLAN is set to '1'." ::= {mstInstanceOperEntry 3 } mstInstanceOperVlansMap3k OBJECT-TYPE SYNTAX OCTET STRING (SIZE (0..128)) MAX-ACCESS read-only STATUS current DESCRIPTION "A string of octets containing one bit per VLAN for VLANS with vlanIndex values of 2048 through 3071. The first octet corresponds to VLANs with vlanIndex values of 2048 through 2055; the second octet to VLANs 2056 through 2063; etc. The most significant bit of each octet corresponds to the lowest value vlanIndex in that octet. For each VLAN, if it is mapped to this MSTP instance, then the bit corresponding to that VLAN is set to '1'." ::= {mstInstanceOperEntry 4 } mstInstanceOperVlansMap4k OBJECT-TYPE SYNTAX OCTET STRING (SIZE (0..128)) MAX-ACCESS read-only STATUS current DESCRIPTION "A string of octets containing one bit per VLAN for VLANS with vlanIndex values of 3072 through 4095. The first octet corresponds to VLANs with vlanIndex values of 3072 through 3079; the second octet to VLANs 3080 through 3087; etc. The most significant bit of each octet corresponds to the lowest value vlanIndex in that octet. For each VLAN, if it is mapped to this MSTP instance, then the bit corresponding to that VLAN is set to '1'." ::= {mstInstanceOperEntry 5 } -- -- restartMgt -- restartOpCodeFile OBJECT-TYPE SYNTAX DisplayString (SIZE(0..127)) MAX-ACCESS read-write STATUS current DESCRIPTION "Name of op-code file for start-up." ::= { restartMgt 1 } restartConfigFile OBJECT-TYPE SYNTAX DisplayString (SIZE(0..127)) MAX-ACCESS read-write STATUS current DESCRIPTION "Name of configuration file for start-up." ::= { restartMgt 2 } restartControl OBJECT-TYPE SYNTAX INTEGER { running(1), warmBoot(2), coldBoot(3) } MAX-ACCESS read-write STATUS current DESCRIPTION "Setting this object to warmBoot(2) causes the device to restart the application software with current configuration parameters saved in non-volatile memory. Setting this object to coldBoot(3) causes the device to reinitialize configuration parameters in non-volatile memory to default values and restart the application software. When the device is running normally, this variable has a value of running(1)." ::= { restartMgt 3 } -- -- mirrorMgt -- mirrorTable OBJECT-TYPE SYNTAX SEQUENCE OF MirrorEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Table of descriptive and status information about switches in this system." ::= { mirrorMgt 1 } mirrorEntry OBJECT-TYPE SYNTAX MirrorEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry in the table, containing information about a single switch in this system. " INDEX { mirrorDestinationPort, mirrorSourcePort } ::= { mirrorTable 1 } MirrorEntry ::= SEQUENCE { mirrorDestinationPort Integer32, mirrorSourcePort Integer32, mirrorType INTEGER, mirrorStatus INTEGER } mirrorDestinationPort OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "Destination port for mirrored packets. This is defined as ifIndex in the IF-MIB." ::= { mirrorEntry 1 } mirrorSourcePort OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "Source port for mirrored packets. This is defined as ifIndex in the IF-MIB." ::= { mirrorEntry 2 } mirrorType OBJECT-TYPE SYNTAX INTEGER { rx(1), tx(2), both(3) } MAX-ACCESS read-create STATUS current DESCRIPTION "If this value is rx(1), receive packets will be mirrored. If this value is tx(2), transmit packets will be mirrored. If this value is both(3), both receive and transmit packets." ::= { mirrorEntry 3 } mirrorStatus OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2) } MAX-ACCESS read-create STATUS current DESCRIPTION "Writing this to valid(1) creates an entry. Writing this to invalid(2) destroys an entry." ::= { mirrorEntry 4 } -- -- igmpSnoopMgt -- igmpSnoopStatus OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "Parameter to enable or disable IGMP snooping on the device. When enabled, the device will examine IGMP packets and set up filters for IGMP ports. " DEFVAL { enabled } ::= { igmpSnoopMgt 1 } igmpSnoopQuerier OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "Whether to act as querier." DEFVAL { enabled } ::= { igmpSnoopMgt 2 } igmpSnoopQueryCount OBJECT-TYPE SYNTAX INTEGER (2..10) MAX-ACCESS read-write STATUS current DESCRIPTION "Maximum number of queries that have not been heard on the system before the system starts taking action to solicit reports." DEFVAL { 2 } ::= { igmpSnoopMgt 3 } igmpSnoopQueryInterval OBJECT-TYPE SYNTAX INTEGER (60..125) MAX-ACCESS read-write STATUS current DESCRIPTION "Query interval." DEFVAL { 125 } ::= { igmpSnoopMgt 4 } igmpSnoopQueryMaxResponseTime OBJECT-TYPE SYNTAX INTEGER (5..25) MAX-ACCESS read-write STATUS current DESCRIPTION "Timeout value (seconds) between IGMP reports received on a port for an IP Multicast Address that can pass before the system sends an IGMP Query out the port and removes it from the list." DEFVAL { 10 } ::= { igmpSnoopMgt 5 } igmpSnoopQueryTimeout OBJECT-TYPE SYNTAX INTEGER (300..500) MAX-ACCESS read-write STATUS current DESCRIPTION "Query time-out." DEFVAL { 300 } ::= { igmpSnoopMgt 6 } igmpSnoopVersion OBJECT-TYPE SYNTAX INTEGER (1..2) MAX-ACCESS read-write STATUS current DESCRIPTION "Version." DEFVAL { 2 } ::= { igmpSnoopMgt 7 } igmpSnoopRouterCurrentTable OBJECT-TYPE SYNTAX SEQUENCE OF IgmpSnoopRouterCurrentEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Table for current router ports." ::= { igmpSnoopMgt 8 } igmpSnoopRouterCurrentEntry OBJECT-TYPE SYNTAX IgmpSnoopRouterCurrentEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Entry for current router ports." INDEX { igmpSnoopRouterCurrentVlanIndex } ::= { igmpSnoopRouterCurrentTable 1 } IgmpSnoopRouterCurrentEntry ::= SEQUENCE { igmpSnoopRouterCurrentVlanIndex Unsigned32, igmpSnoopRouterCurrentPorts PortList, igmpSnoopRouterCurrentStatus PortList } igmpSnoopRouterCurrentVlanIndex OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "This is defined as dot1qVlanIndex in the Q-BRIDGE-MIB." ::= { igmpSnoopRouterCurrentEntry 1 } igmpSnoopRouterCurrentPorts OBJECT-TYPE SYNTAX PortList MAX-ACCESS read-only STATUS current DESCRIPTION "The set of ports which are current router ports. Within this list, some router ports are static router ports. Please refer to igmpSnoopRouterStaticTable." ::= { igmpSnoopRouterCurrentEntry 2 } igmpSnoopRouterCurrentStatus OBJECT-TYPE SYNTAX PortList MAX-ACCESS read-only STATUS current DESCRIPTION "The set of ports which are static router ports." ::= { igmpSnoopRouterCurrentEntry 3 } igmpSnoopRouterStaticTable OBJECT-TYPE SYNTAX SEQUENCE OF IgmpSnoopRouterStaticEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Table for static router ports." ::= { igmpSnoopMgt 9 } igmpSnoopRouterStaticEntry OBJECT-TYPE SYNTAX IgmpSnoopRouterStaticEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Entry for static router ports." INDEX { igmpSnoopRouterStaticVlanIndex } ::= { igmpSnoopRouterStaticTable 1 } IgmpSnoopRouterStaticEntry ::= SEQUENCE { igmpSnoopRouterStaticVlanIndex Unsigned32, igmpSnoopRouterStaticPorts PortList, igmpSnoopRouterStaticStatus INTEGER } igmpSnoopRouterStaticVlanIndex OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "This is defined as dot1qVlanIndex in the Q-BRIDGE-MIB." ::= { igmpSnoopRouterStaticEntry 1 } igmpSnoopRouterStaticPorts OBJECT-TYPE SYNTAX PortList MAX-ACCESS read-create STATUS current DESCRIPTION "The set of ports which are static router ports." ::= { igmpSnoopRouterStaticEntry 2 } igmpSnoopRouterStaticStatus OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2) } MAX-ACCESS read-create STATUS current DESCRIPTION "Writing this to valid(1) creates an entry. Writing this to invalid(2) destroys an entry." ::= { igmpSnoopRouterStaticEntry 3 } igmpSnoopMulticastCurrentTable OBJECT-TYPE SYNTAX SEQUENCE OF IgmpSnoopMulticastCurrentEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Table for current multicast addresses." ::= { igmpSnoopMgt 10 } igmpSnoopMulticastCurrentEntry OBJECT-TYPE SYNTAX IgmpSnoopMulticastCurrentEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Entry for current multicast addresses." INDEX { igmpSnoopMulticastCurrentVlanIndex, igmpSnoopMulticastCurrentIpAddress } ::= { igmpSnoopMulticastCurrentTable 1 } IgmpSnoopMulticastCurrentEntry ::= SEQUENCE { igmpSnoopMulticastCurrentVlanIndex Unsigned32, igmpSnoopMulticastCurrentIpAddress IpAddress, igmpSnoopMulticastCurrentPorts PortList, igmpSnoopMulticastCurrentStatus PortList } igmpSnoopMulticastCurrentVlanIndex OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "This is defined as dot1qVlanIndex in the Q-BRIDGE-MIB." ::= { igmpSnoopMulticastCurrentEntry 1 } igmpSnoopMulticastCurrentIpAddress OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS not-accessible STATUS current DESCRIPTION "IP address of multicast group." ::= { igmpSnoopMulticastCurrentEntry 2 } igmpSnoopMulticastCurrentPorts OBJECT-TYPE SYNTAX PortList MAX-ACCESS read-only STATUS current DESCRIPTION "The set of ports which are members." ::= { igmpSnoopMulticastCurrentEntry 3 } igmpSnoopMulticastCurrentStatus OBJECT-TYPE SYNTAX PortList MAX-ACCESS read-only STATUS current DESCRIPTION "The set of ports which are static members." ::= { igmpSnoopMulticastCurrentEntry 4 } igmpSnoopMulticastStaticTable OBJECT-TYPE SYNTAX SEQUENCE OF IgmpSnoopMulticastStaticEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Table for static multicast addresses." ::= { igmpSnoopMgt 11 } igmpSnoopMulticastStaticEntry OBJECT-TYPE SYNTAX IgmpSnoopMulticastStaticEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Entry for static multicast addresses." INDEX { igmpSnoopMulticastStaticVlanIndex, igmpSnoopMulticastStaticIpAddress } ::= { igmpSnoopMulticastStaticTable 1 } IgmpSnoopMulticastStaticEntry ::= SEQUENCE { igmpSnoopMulticastStaticVlanIndex Unsigned32, igmpSnoopMulticastStaticIpAddress IpAddress, igmpSnoopMulticastStaticPorts PortList, igmpSnoopMulticastStaticStatus INTEGER } igmpSnoopMulticastStaticVlanIndex OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "This is defined as dot1qVlanIndex in the Q-BRIDGE-MIB." ::= { igmpSnoopMulticastStaticEntry 1 } igmpSnoopMulticastStaticIpAddress OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS not-accessible STATUS current DESCRIPTION "IP address of multicast group." ::= { igmpSnoopMulticastStaticEntry 2 } igmpSnoopMulticastStaticPorts OBJECT-TYPE SYNTAX PortList MAX-ACCESS read-create STATUS current DESCRIPTION "The set of ports which are members." ::= { igmpSnoopMulticastStaticEntry 3 } igmpSnoopMulticastStaticStatus OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2) } MAX-ACCESS read-create STATUS current DESCRIPTION "Writing this to valid(1) creates an entry. Writing this to invalid(2) destroys an entry." ::= { igmpSnoopMulticastStaticEntry 4 } -- -- The Probe Configuration Group -- -- This group controls the configuration of various operating -- parameters of the probe. netDefaultGateway OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS read-write STATUS current DESCRIPTION "The IP Address of the default gateway. If this value is undefined or unknown, it shall have the value 0.0.0.0." ::= { ipMgt 2 } ipHttpState OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "Whether HTTP is enabled." ::= { ipMgt 3 } ipHttpPort OBJECT-TYPE SYNTAX INTEGER (1..65535) MAX-ACCESS read-write STATUS current DESCRIPTION "The port number for HTTP." ::= { ipMgt 4 } ipDhcpRestart OBJECT-TYPE SYNTAX INTEGER { restart(1), noRestart(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "Write it to restart(1) to restart DHCP. When read, this value always returns noRestart(2)." ::= { ipMgt 5 } ipHttpsState OBJECT-TYPE SYNTAX EnabledStatus MAX-ACCESS read-write STATUS current DESCRIPTION "Whether HTTPS is enabled." ::= { ipMgt 6 } ipHttpsPort OBJECT-TYPE SYNTAX Integer32 (1..65535) MAX-ACCESS read-write STATUS current DESCRIPTION "The port number for HTTPS." ::= { ipMgt 7 } iPAddrTable OBJECT-TYPE SYNTAX SEQUENCE OF IPAddrEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A table of iPAddrEntry." ::= { ipMgt 16 } iPAddrEntry OBJECT-TYPE SYNTAX IPAddrEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A set of configuration parameters for a particular network interface on this device. If the device has no network interface, this table is empty. The index is composed of the ifIndex assigned to the corresponding interface." INDEX { iPAddrIPAddress, iPAddrSubnetMask } ::= { iPAddrTable 1 } IPAddrEntry ::= SEQUENCE { iPAddrIPAddress IpAddress, iPAddrSubnetMask IpAddress, iPAddrIfIndex Integer32, iPAddrPrimaryInterface INTEGER, iPAddrUnnumbered INTEGER, iPAddrStatus RowStatus } iPAddrIPAddress OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS not-accessible STATUS current DESCRIPTION "The IP address of this Net interface. The default value for this object is 0.0.0.0. If either the IPAddrIPAddress or IPAddrSubnetMask is 0.0.0.0, then when the device boots, it may use BOOTP to try to figure out what these values should be. If BOOTP fails, before the device can talk on the network, this value must be configured (e.g., through a terminal attached to the device)." ::= { iPAddrEntry 1 } iPAddrSubnetMask OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS not-accessible STATUS current DESCRIPTION "The subnet mask of this Net interface. The default value for this object is 0.0.0.0. If either the IPAddrIPAddress or IPAddrSubnetMask are 0.0.0.0, then when the device boots, it may use BOOTP to try to figure out what these values should be. If BOOTP fails, before the device can talk on the network, this value must be configured (e.g., through a terminal attached to the device)." ::= { iPAddrEntry 2 } iPAddrIfIndex OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-create STATUS current DESCRIPTION "The VLAN interface being used by this table entry. Only the VLAN interfaces which have an IP configured will appear in the table." ::= { iPAddrEntry 3 } iPAddrPrimaryInterface OBJECT-TYPE SYNTAX INTEGER { primary(1), secondary(2) } MAX-ACCESS read-create STATUS current DESCRIPTION "Whether this is a primary interface." ::= { iPAddrEntry 4 } iPAddrUnnumbered OBJECT-TYPE SYNTAX INTEGER { unnumbered(1), notUnnumbered(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Whether this is an unnumbered interface." ::= { iPAddrEntry 5 } iPAddrStatus OBJECT-TYPE SYNTAX RowStatus MAX-ACCESS read-create STATUS current DESCRIPTION "The status of this conceptual row entry. This object isused to manage the creation and deletion of conceptual rows. The status column has six defined values: - 'active', which indicates that the conceptual row is available for use by the managed device; - 'notInService', which indicates that the conceptual row exists in the agent, but is unavailable for use by the managed device (see NOTE below); - 'notReady', which indicates that the conceptual row exists in the agent, but is missing information necessary in order to be available for use by the managed device; - 'createAndGo', which is supplied by a management station wishing to create a new instance of a conceptual row and to have its status automatically set to active, making it available for use by the managed device; - 'createAndWait', which is supplied by a management station wishing to create a new instance of a conceptual row (but not make it available for use by the managed device); and, - 'destroy', which is supplied by a management station wishing to delete all of the instances associated with an existing conceptual row. Whereas five of the six values (all except 'notReady') may be specified in a management protocol set operation, only three values will be returned in response to a management protocol retrieval operation: 'notReady', 'notInService' or 'active'. That is, when queried, an existing conceptual row has only three states: it is either available for use by the managed device (the status column has value 'active'); it is not available for use by the managed device, though the agent has sufficient information to make it so (the status column has value 'notInService'); or, it is not available for use by the managed device, and an attempt to make it so would fail because the agent has insufficient information (the state column has value 'notReady'). For a detailed description of this object, please refer to SNMPv2-TC MIB." ::= { iPAddrEntry 6 } dhcpMgt OBJECT IDENTIFIER ::= { ipMgt 11 } dhcpClient OBJECT IDENTIFIER ::= { dhcpMgt 1 } dhcpcOptions OBJECT IDENTIFIER ::= { dhcpClient 1 } dhcpcInterfaceTable OBJECT-TYPE SYNTAX SEQUENCE OF DhcpcInterfaceTable MAX-ACCESS not-accessible STATUS current DESCRIPTION "Table for DHCP client information listed by interface. Depending on the nature of the product, this table may have only one entry(e.g. for the management VLAN), or may have many entries(e.g. for all ports, or for all static VLANs)." ::= { dhcpcOptions 1 } dhcpcInterfaceEntry OBJECT-TYPE SYNTAX DhcpcInterfaceTable MAX-ACCESS not-accessible STATUS current DESCRIPTION "Entry for DHCP client information listed by interface." INDEX { dhcpcIfIndex } ::= { dhcpcInterfaceTable 1 } DhcpcInterfaceTable ::= SEQUENCE { dhcpcIfIndex Integer32, dhcpcIfClientIdMode INTEGER, dhcpcIfClientId OCTET STRING } dhcpcIfIndex OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "This is defined by ifIndex in the IF-MIB.(static vlan if index)" ::= { dhcpcInterfaceEntry 1 } dhcpcIfClientIdMode OBJECT-TYPE SYNTAX INTEGER { notSpecify(1), text(2), hex(3) } MAX-ACCESS read-write STATUS current DESCRIPTION "Whether the Client ID is in text mode or in Hex mode." ::= { dhcpcInterfaceEntry 2 } dhcpcIfClientId OBJECT-TYPE SYNTAX OCTET STRING (SIZE(0..32)) MAX-ACCESS read-write STATUS current DESCRIPTION "The value that the DHCP client sets in the client_id option of DHCPDISCOVER and DHCPREQUEST messages. This value may be used by DHCP servers to uniquely identify the client." ::= { dhcpcInterfaceEntry 3 } dhcpRelay OBJECT IDENTIFIER ::= { dhcpMgt 2 } --dhcpRelayServerAddrTable dhcpRelayServerAddrTable OBJECT-TYPE SYNTAX SEQUENCE OF DhcpRelayServerAddrEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The role of DHCP Relay Agent is to forward requests and replies between server and client when they are not in the same subnet. To enable DHCP Relay service user needs to specify Relay Server ip address and then restart DHCP Relay. This Table is to specify Relay Server ip address, the maximum numbers of server ip address user can specify is 5. To Restart DHCP Relay, please use the dhcpRelayRestart variable." ::= { dhcpRelay 2 } dhcpRelayServerAddrEntry OBJECT-TYPE SYNTAX DhcpRelayServerAddrEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A conceptual row of dhcpRelayServerAddrTable." INDEX { dhcpRelayServerAddrIfIndex,dhcpRelayServerAddrIndex } ::= { dhcpRelayServerAddrTable 1 } DhcpRelayServerAddrEntry ::= SEQUENCE { dhcpRelayServerAddrIfIndex Integer32, dhcpRelayServerAddrIndex Integer32, dhcpRelayServerAddrServerIp IpAddress } dhcpRelayServerAddrIfIndex OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "The VLAN interface being used by this table entry." ::= { dhcpRelayServerAddrEntry 1 } dhcpRelayServerAddrIndex OBJECT-TYPE SYNTAX Integer32 (0..5) MAX-ACCESS not-accessible STATUS current DESCRIPTION "The Index of the Relay server IP address." ::= { dhcpRelayServerAddrEntry 2 } dhcpRelayServerAddrServerIp OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS read-write STATUS current DESCRIPTION "The IP address of the relay server." ::= { dhcpRelayServerAddrEntry 3 } --dhcpRelayRestart dhcpRelayRestart OBJECT-TYPE SYNTAX INTEGER { restart(1), noRestart(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "Set to restart(1) to restart DCHP Relay. Always get noRestart(2) when you read this variable." ::= { dhcpRelay 3 } -- -- dhcpServerMgt -- dhcpServerMgt OBJECT IDENTIFIER ::= { dhcpMgt 3 } --dhcpPoolTable dhcpPoolTable OBJECT-TYPE SYNTAX SEQUENCE OF DhcpPoolEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A dhcp pool is a collection of user configuration such as option config-lease time or dns-server IPs, a network address for network pool, or a host IP plus a hardware address pair for host pool. However, a dhcp pool only can either be a network pool or a host pool, or none of them (such as that pool only containing option config no network address config or a host ip config as well)" ::= { dhcpServerMgt 1 } dhcpPoolEntry OBJECT-TYPE SYNTAX DhcpPoolEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A conceptual row of dhcpPoolTable." INDEX { dhcpPoolPoolName } ::= { dhcpPoolTable 1 } DhcpPoolEntry ::= SEQUENCE { dhcpPoolPoolName DisplayString, dhcpPoolPoolType INTEGER, dhcpPoolPoolAddress IpAddress, dhcpPoolSubnetMask IpAddress, dhcpPoolHardwareType INTEGER, dhcpPoolMacAddress OCTET STRING, dhcpPoolstatus ValidStatus } dhcpPoolPoolName OBJECT-TYPE SYNTAX DisplayString(SIZE(1..8)) MAX-ACCESS not-accessible STATUS current DESCRIPTION "PoolName, simply specify a string which string size NO MORE THAN 8" ::= { dhcpPoolEntry 1 } dhcpPoolPoolType OBJECT-TYPE SYNTAX INTEGER { notSpecify(1), netWork(2), host(3) } MAX-ACCESS read-create STATUS current DESCRIPTION "Pool Type: notSpecify(1); netWork(2);host(3)" ::= { dhcpPoolEntry 2 } dhcpPoolPoolAddress OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS read-create STATUS current DESCRIPTION "Pool Address" ::= { dhcpPoolEntry 3 } dhcpPoolSubnetMask OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS read-create STATUS current DESCRIPTION "Subnet Mask" ::= { dhcpPoolEntry 4 } dhcpPoolHardwareType OBJECT-TYPE SYNTAX INTEGER { notSpecify(1), ethernet(2), ieee802(3), fddi(4) } MAX-ACCESS read-create STATUS current DESCRIPTION "Hardware type: notSpecify(1); ethernet(2); ieee802(3); fddi(4)" ::= { dhcpPoolEntry 5 } dhcpPoolMacAddress OBJECT-TYPE SYNTAX OCTET STRING(SIZE(6)) MAX-ACCESS read-create STATUS current DESCRIPTION "MAC address" ::= { dhcpPoolEntry 6 } dhcpPoolstatus OBJECT-TYPE SYNTAX ValidStatus MAX-ACCESS read-create STATUS current DESCRIPTION "Setting this to valid(1) creates an entry. Setting this to invalid(2) destroys an entry." ::= { dhcpPoolEntry 7 } --dhcpPoolOptionTable dhcpPoolOptionTable OBJECT-TYPE SYNTAX SEQUENCE OF DhcpPoolOptionEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This is the Option table of the dhcpPoolTable, user can specify Options configuration in this table" ::= { dhcpServerMgt 2 } dhcpPoolOptionEntry OBJECT-TYPE SYNTAX DhcpPoolOptionEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A conceptual row of dhcpPoolOptionTable." INDEX { dhcpPoolOptionPoolName } ::= { dhcpPoolOptionTable 1 } DhcpPoolOptionEntry ::= SEQUENCE { dhcpPoolOptionPoolName DisplayString, dhcpPoolOptionNextServer IpAddress, dhcpPoolOptionNetbiosNodeType INTEGER, dhcpPoolOptionDomainName DisplayString, dhcpPoolOptionBootFile DisplayString, dhcpPoolOptionLeaseTime Integer32, dhcpPoolOptionCidMode INTEGER, dhcpPoolOptionCidBuffer OCTET STRING } dhcpPoolOptionPoolName OBJECT-TYPE SYNTAX DisplayString(SIZE(1..8)) MAX-ACCESS not-accessible STATUS current DESCRIPTION "PoolName, simply specify a string which string size NO MORE THAN 8" ::= { dhcpPoolOptionEntry 1 } dhcpPoolOptionNextServer OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS read-write STATUS current DESCRIPTION "Specifies the IP address of the next server in the boot process, which is typically a Trivial File Transfer Protocol(TFTP) server. One IP address is required." ::= { dhcpPoolOptionEntry 2 } dhcpPoolOptionNetbiosNodeType OBJECT-TYPE SYNTAX INTEGER { none(1), b-node(2), p-node(3), m-node(4), h-node(5) } MAX-ACCESS read-write STATUS current DESCRIPTION "Specifies the NetBIOS node type. Valid types are: none(1) b-node(2) - Broadcast p-node(3) - Peer-to-peer m-node(4) - Mixed h-node(5) - Hybrid." ::= { dhcpPoolOptionEntry 3 } dhcpPoolOptionDomainName OBJECT-TYPE SYNTAX DisplayString(SIZE(0..128)) MAX-ACCESS read-write STATUS current DESCRIPTION "Specifies the domain name string." ::= { dhcpPoolOptionEntry 4 } dhcpPoolOptionBootFile OBJECT-TYPE SYNTAX DisplayString(SIZE(0..128)) MAX-ACCESS read-write STATUS current DESCRIPTION "To specify the name of the default boot image." ::= { dhcpPoolOptionEntry 5 } dhcpPoolOptionLeaseTime OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "To configure the duration of the lease of an IP address that is assigned from a DHCP Server to a DHCP client." ::= { dhcpPoolOptionEntry 6 } dhcpPoolOptionCidMode OBJECT-TYPE SYNTAX INTEGER { notSpecify(1), text(2), hex(3) } MAX-ACCESS read-write STATUS current DESCRIPTION "Set this variable to text(2) of hex(3) to specify the mode of the Client Id, which is useful for CLI to determine the display way of the Client Id. You will get default value 'notSpecify(1)'when this variable had never been set. Setting this to notSpecify(1) is a invalid operation." ::= { dhcpPoolOptionEntry 7 } dhcpPoolOptionCidBuffer OBJECT-TYPE SYNTAX OCTET STRING(SIZE(0..128)) MAX-ACCESS read-write STATUS current DESCRIPTION " Content of Client Id. You MUST specify the dhcpPoolOptionCidMode before setting this variable." ::= { dhcpPoolOptionEntry 8 } --dhcpPoolOptionDnsSerTable dhcpPoolOptionDnsSerTable OBJECT-TYPE SYNTAX SEQUENCE OF DhcpPoolOptionDnsSerEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "To specify the DNS IP servers available to a DHCP client, you can specify up to two addresses for each DHCP pool." ::= { dhcpServerMgt 3 } dhcpPoolOptionDnsSerEntry OBJECT-TYPE SYNTAX DhcpPoolOptionDnsSerEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A conceptual row of dhcpPoolOptionDnsSerTable." INDEX { dhcpPoolOptionDnsSerPoolName,dhcpPoolOptionDnsSerIndex} ::= { dhcpPoolOptionDnsSerTable 1 } DhcpPoolOptionDnsSerEntry ::= SEQUENCE { dhcpPoolOptionDnsSerPoolName DisplayString, dhcpPoolOptionDnsSerIndex Integer32, dhcpPoolOptionDnsSerIpAddress IpAddress } dhcpPoolOptionDnsSerPoolName OBJECT-TYPE SYNTAX DisplayString(SIZE(1..8)) MAX-ACCESS not-accessible STATUS current DESCRIPTION "PoolName, simply specify a string which string size NO MORE THAN 8" ::= { dhcpPoolOptionDnsSerEntry 1 } dhcpPoolOptionDnsSerIndex OBJECT-TYPE SYNTAX Integer32(1..2) MAX-ACCESS not-accessible STATUS current DESCRIPTION "Index of the DNS server." ::= { dhcpPoolOptionDnsSerEntry 2 } dhcpPoolOptionDnsSerIpAddress OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS read-write STATUS current DESCRIPTION "Ip address of the DNS server." ::= { dhcpPoolOptionDnsSerEntry 3 } --dhcpPoolOptDefaultRouterTable dhcpPoolOptDefaultRouterTable OBJECT-TYPE SYNTAX SEQUENCE OF DhcpPoolOptDefaultRouterEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Specifices the default router list for a DHCP Client, you can specify up to two addresses for each DHCP pool." ::= { dhcpServerMgt 4 } dhcpPoolOptDefaultRouterEntry OBJECT-TYPE SYNTAX DhcpPoolOptDefaultRouterEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A conceptual row of dhcpPoolOptDefaultRouterTable." INDEX { dhcpPoolOptDefaultRouterPoolName,dhcpPoolOptDefaultRouterIndex} ::= { dhcpPoolOptDefaultRouterTable 1 } DhcpPoolOptDefaultRouterEntry ::= SEQUENCE { dhcpPoolOptDefaultRouterPoolName DisplayString, dhcpPoolOptDefaultRouterIndex Integer32, dhcpPoolOptDefaultRouterIpAddress IpAddress } dhcpPoolOptDefaultRouterPoolName OBJECT-TYPE SYNTAX DisplayString(SIZE(1..8)) MAX-ACCESS not-accessible STATUS current DESCRIPTION "PoolName, simply specify a string which string size NO MORE THAN 8" ::= { dhcpPoolOptDefaultRouterEntry 1 } dhcpPoolOptDefaultRouterIndex OBJECT-TYPE SYNTAX Integer32 (1..2) MAX-ACCESS not-accessible STATUS current DESCRIPTION "Index of the default router." ::= { dhcpPoolOptDefaultRouterEntry 2 } dhcpPoolOptDefaultRouterIpAddress OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS read-write STATUS current DESCRIPTION "Specifies the IP address of a router. One IP address is required." ::= { dhcpPoolOptDefaultRouterEntry 3 } --dhcpPoolOptNetbiosServerTable dhcpPoolOptNetbiosServerTable OBJECT-TYPE SYNTAX SEQUENCE OF DhcpPoolOptNetbiosServerEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "To configure the NetBIOS WINS name servers that are available to DHCP clients. You can specify up to eight addressed for each DHCP pool." ::= { dhcpServerMgt 5 } dhcpPoolOptNetbiosServerEntry OBJECT-TYPE SYNTAX DhcpPoolOptNetbiosServerEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A conceptual row of dhcpPoolOptNetbiosServerTable." INDEX { dhcpPoolOptNetbiosServerPoolName,dhcpPoolOptNetbiosServerIndex} ::= { dhcpPoolOptNetbiosServerTable 1 } DhcpPoolOptNetbiosServerEntry ::= SEQUENCE { dhcpPoolOptNetbiosServerPoolName DisplayString, dhcpPoolOptNetbiosServerIndex Integer32, dhcpPoolOptNetbiosServerIpAddress IpAddress } dhcpPoolOptNetbiosServerPoolName OBJECT-TYPE SYNTAX DisplayString(SIZE(1..8)) MAX-ACCESS not-accessible STATUS current DESCRIPTION "PoolName, simply specify a string which string size NO MORE THAN 8" ::= { dhcpPoolOptNetbiosServerEntry 1 } dhcpPoolOptNetbiosServerIndex OBJECT-TYPE SYNTAX Integer32(1..8) MAX-ACCESS not-accessible STATUS current DESCRIPTION "Index of the Netbios name Server." ::= { dhcpPoolOptNetbiosServerEntry 2 } dhcpPoolOptNetbiosServerIpAddress OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS read-write STATUS current DESCRIPTION "Specifies the IP address of the NetBIOS WINS name server. One IP address is required." ::= { dhcpPoolOptNetbiosServerEntry 3 } --dhcpServerExcludedIpAddrTable dhcpServerExcludedIpAddrTable OBJECT-TYPE SYNTAX SEQUENCE OF DhcpServerExcludedIpAddrEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "To specify IP addresses that a DHCP Server shuld not assign to DHCP clients." ::= { dhcpServerMgt 6 } dhcpServerExcludedIpAddrEntry OBJECT-TYPE SYNTAX DhcpServerExcludedIpAddrEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A conceptual row of dhcpServerExcludedIpAddrTable." INDEX { dhcpServerExcludedIpAddrLowIp,dhcpServerExcludedIpAddrHiIp} ::= { dhcpServerExcludedIpAddrTable 1 } DhcpServerExcludedIpAddrEntry ::= SEQUENCE { dhcpServerExcludedIpAddrLowIp IpAddress, dhcpServerExcludedIpAddrHiIp IpAddress, dhcpServerExcludedIpAddrStatus ValidStatus } dhcpServerExcludedIpAddrLowIp OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS not-accessible STATUS current DESCRIPTION "The excluded IP address, or first IP address in an excluded address range." ::= { dhcpServerExcludedIpAddrEntry 1 } dhcpServerExcludedIpAddrHiIp OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS not-accessible STATUS current DESCRIPTION "The last IP address in the excluded address range." ::= { dhcpServerExcludedIpAddrEntry 2 } dhcpServerExcludedIpAddrStatus OBJECT-TYPE SYNTAX ValidStatus MAX-ACCESS read-create STATUS current DESCRIPTION "Setting this to valid(1) creates an entry. Setting this to invalid(2) destroys an entry." ::= { dhcpServerExcludedIpAddrEntry 3 } --dhcpServerLeaseBindingTable dhcpServerLeaseBindingTable OBJECT-TYPE SYNTAX SEQUENCE OF DhcpServerLeaseBindingEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "To configure the address bindings on the DHCP server." ::= { dhcpServerMgt 7 } dhcpServerLeaseBindingEntry OBJECT-TYPE SYNTAX DhcpServerLeaseBindingEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A conceptual row of dhcpServerLeaseBindingTable." INDEX { dhcpServerLeaseBindingIp } ::= { dhcpServerLeaseBindingTable 1 } DhcpServerLeaseBindingEntry ::= SEQUENCE { dhcpServerLeaseBindingIp IpAddress, dhcpServerLeaseBindingMac OCTET STRING, dhcpServerLeaseBindingLeaseTime Integer32, dhcpServerLeaseBindingStartTime DisplayString, dhcpServerLeaseBindingStatus ValidStatus } dhcpServerLeaseBindingIp OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS not-accessible STATUS current DESCRIPTION "The IP address of the host as recorded on the DHCP Server." ::= { dhcpServerLeaseBindingEntry 1 } dhcpServerLeaseBindingMac OBJECT-TYPE SYNTAX OCTET STRING (SIZE(6)) MAX-ACCESS read-only STATUS current DESCRIPTION "The MAC address of the host as recorded on the DHCP Server." ::= { dhcpServerLeaseBindingEntry 2 } dhcpServerLeaseBindingLeaseTime OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The lease expiration date of the IP address of the host." ::= { dhcpServerLeaseBindingEntry 3 } dhcpServerLeaseBindingStartTime OBJECT-TYPE SYNTAX DisplayString (SIZE(20)) MAX-ACCESS read-only STATUS current DESCRIPTION "Show current system real time in sec." ::= { dhcpServerLeaseBindingEntry 4 } dhcpServerLeaseBindingStatus OBJECT-TYPE SYNTAX ValidStatus MAX-ACCESS read-create STATUS current DESCRIPTION "Setting this to valid(1) creates an entry. Setting this to invalid(2) destroys an entry." ::= { dhcpServerLeaseBindingEntry 5 } dhcpServerServiceStatus OBJECT-TYPE SYNTAX EnabledStatus MAX-ACCESS read-write STATUS current DESCRIPTION "Setting this to 1 to enable the dhcp server service. Setting this to 2 to disable the dhcp server service." ::= { dhcpServerMgt 8 } -- -- bcastStormMgt -- bcastStormTable OBJECT-TYPE SYNTAX SEQUENCE OF BcastStormEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Table of descriptive and status information about configuration of each switch ports(including expansion slot) in this system." ::= { bcastStormMgt 1 } bcastStormEntry OBJECT-TYPE SYNTAX BcastStormEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry in the table, containing information about configuration in one switch port of the switch." INDEX { bcastStormIfIndex } ::= { bcastStormTable 1 } BcastStormEntry ::= SEQUENCE { bcastStormIfIndex Integer32, bcastStormStatus INTEGER, bcastStormSampleType INTEGER, bcastStormPktRate INTEGER, bcastStormOctetRate INTEGER, bcastStormPercent INTEGER } bcastStormIfIndex OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "This is defined as ifIndex in the IF-MIB." ::= { bcastStormEntry 1 } bcastStormStatus OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "Whether broadcast storm protection is enabled." ::= { bcastStormEntry 2 } bcastStormSampleType OBJECT-TYPE SYNTAX INTEGER { pkt-rate(1), octet-rate(2), percent(3) } MAX-ACCESS read-write STATUS current DESCRIPTION "Sample type. If this is pkt-rate(1), then bcastStormPktRate is valid. If this is octet-rate(2), then bcastStormOctetRate is valid. If this is percent(3), then bcastStormPercent is valid." ::= { bcastStormEntry 3 } bcastStormPktRate OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-write STATUS current DESCRIPTION "Broadcast storm threshold as packets per second." ::= { bcastStormEntry 4 } bcastStormOctetRate OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-write STATUS current DESCRIPTION "Broadcast storm threshold as octets per second." ::= { bcastStormEntry 5 } bcastStormPercent OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-write STATUS current DESCRIPTION "Broadcast storm threshold as percentage of bandwidth." ::= { bcastStormEntry 6 } -- -- vlanMgt -- vlanTable OBJECT-TYPE SYNTAX SEQUENCE OF VlanEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Table for VLAN configuration." ::= { vlanMgt 1 } vlanEntry OBJECT-TYPE SYNTAX VlanEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Entry for VLAN configuration." INDEX { vlanIndex } ::= { vlanTable 1 } VlanEntry ::= SEQUENCE { vlanIndex Unsigned32, vlanAddressMethod INTEGER } vlanIndex OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "Same is dot1qVlanIndex in the Q-BRIDGE-MIB. This table has only one entry - the entry for the VLAN of the management interface." ::= { vlanEntry 1 } vlanAddressMethod OBJECT-TYPE SYNTAX INTEGER { user(1), bootp(2), dhcp(3) } MAX-ACCESS read-write STATUS current DESCRIPTION "Method to get the IP address." ::= { vlanEntry 2 } vlanPortTable OBJECT-TYPE SYNTAX SEQUENCE OF VlanPortEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Table for port configuration in VLAN." ::= { vlanMgt 2 } vlanPortEntry OBJECT-TYPE SYNTAX VlanPortEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Entry for port configuration in VLAN." INDEX { vlanPortIndex } ::= { vlanPortTable 1 } VlanPortEntry ::= SEQUENCE { vlanPortIndex Integer32, vlanPortMode INTEGER } vlanPortIndex OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "This is defined as ifIndex in the IF-MIB." ::= { vlanPortEntry 1 } vlanPortMode OBJECT-TYPE SYNTAX INTEGER { hybrid(1), dot1qTrunk(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "This variable sets the 802.1Q VLAN mode. Setting it to hybrid(1) sets a hybrid link. Setting it to dot1qTrunk(2) sets a trunk link." ::= { vlanPortEntry 2 } -- -- priorityMgt -- prioIpPrecDscpStatus OBJECT-TYPE SYNTAX INTEGER { disabled(1), precedence(2), dscp(3) } MAX-ACCESS read-write STATUS current DESCRIPTION "Whether IP precedence or DSCP look-up is enabled." ::= { priorityMgt 1 } prioIpPrecTable OBJECT-TYPE SYNTAX SEQUENCE OF PrioIpPrecEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Table for IP precedence priority mapping." ::= { priorityMgt 2 } prioIpPrecEntry OBJECT-TYPE SYNTAX PrioIpPrecEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Entry for IP precendence priority mapping." INDEX { prioIpPrecPort, prioIpPrecValue } ::= { prioIpPrecTable 1 } PrioIpPrecEntry ::= SEQUENCE { prioIpPrecPort Integer32, prioIpPrecValue Integer32, prioIpPrecCos INTEGER } prioIpPrecPort OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "This is defined as ifIndex in the IF-MIB." ::= { prioIpPrecEntry 2 } prioIpPrecValue OBJECT-TYPE SYNTAX Integer32 (0..7) MAX-ACCESS not-accessible STATUS current DESCRIPTION "Precedence value for this entry." ::= { prioIpPrecEntry 3 } prioIpPrecCos OBJECT-TYPE SYNTAX INTEGER (0..7) MAX-ACCESS read-write STATUS current DESCRIPTION "Class of service for this entry." ::= { prioIpPrecEntry 4 } prioIpPrecRestoreDefault OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "This object is to restore IP Precedence settings of a port to default. To do this, write it to the value of ifIndex defined by the ifIndex in the IF-MIB. When read, this object always returns 0." ::= { priorityMgt 3 } prioIpDscpTable OBJECT-TYPE SYNTAX SEQUENCE OF PrioIpDscpEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Table for IP DSCP priority mapping." ::= { priorityMgt 4 } prioIpDscpEntry OBJECT-TYPE SYNTAX PrioIpDscpEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Entry for IP DSCP priority mapping." INDEX { prioIpDscpPort, prioIpDscpValue } ::= { prioIpDscpTable 1 } PrioIpDscpEntry ::= SEQUENCE { prioIpDscpPort Integer32, prioIpDscpValue Integer32, prioIpDscpCos INTEGER } prioIpDscpPort OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "This is defined as ifIndex in the IF-MIB." ::= { prioIpDscpEntry 1 } prioIpDscpValue OBJECT-TYPE SYNTAX Integer32 (0..63) MAX-ACCESS not-accessible STATUS current DESCRIPTION "DSCP value for this entry." ::= { prioIpDscpEntry 2 } prioIpDscpCos OBJECT-TYPE SYNTAX INTEGER (0..7) MAX-ACCESS read-write STATUS current DESCRIPTION "Class of service for this entry." ::= { prioIpDscpEntry 3 } prioIpDscpRestoreDefault OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "This object is to restore IP DSCP settings of a port to default. To do this, write it to the value of ifIndex defined by the ifIndex in the IF-MIB. When read, this object always returns 0." ::= { priorityMgt 5 } -- optional prioIpPortEnableStatus OBJECT-TYPE SYNTAX EnabledStatus MAX-ACCESS read-write STATUS current DESCRIPTION "Whether IP Port priority look-up is enabled." ::= { priorityMgt 6 } prioIpPortTable OBJECT-TYPE SYNTAX SEQUENCE OF PrioIpPortEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Table for IP port priority mapping." ::= { priorityMgt 7 } prioIpPortEntry OBJECT-TYPE SYNTAX PrioIpPortEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Entry for IP port priority mapping." INDEX { prioIpPortPhysPort,prioIpPortValue } ::= { prioIpPortTable 1 } PrioIpPortEntry ::= SEQUENCE { prioIpPortPhysPort Integer32, prioIpPortValue Integer32, prioIpPortCos Integer32, prioIpPortStatus ValidStatus } prioIpPortPhysPort OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "The port and the trunk (excluding trunk member) interface of the portTable. The interface identified by a particular value of this index is the same interface as identified by the same value of ifIndex in the IF-MIB." ::= { prioIpPortEntry 1 } prioIpPortValue OBJECT-TYPE SYNTAX Integer32 (1..65535) MAX-ACCESS not-accessible STATUS current DESCRIPTION "IP port for this value." ::= { prioIpPortEntry 2 } prioIpPortCos OBJECT-TYPE SYNTAX Integer32 (0..7) MAX-ACCESS read-create STATUS current DESCRIPTION "Class of service for this entry." ::= { prioIpPortEntry 3 } prioIpPortStatus OBJECT-TYPE SYNTAX ValidStatus MAX-ACCESS read-create STATUS current DESCRIPTION "Writing this to valid(1) creates an entry. Writing this to invalid(2) destroys an entry." ::= { prioIpPortEntry 4 } -- optional prioCopy OBJECT IDENTIFIER ::= { priorityMgt 8 } prioCopyIpPrec OBJECT-TYPE SYNTAX OCTET STRING MAX-ACCESS read-write STATUS current DESCRIPTION "Action to copy IP Precedence settings from a source port to many destination ports. The first four octets represent an integer for the source port, in high-to-low (big-endian) order. Starting from the 5th octet is destination port list in a form described by PortList in the Q-BRIDGE-MIB. Writing this object will perform copy. Reading this object will always get a zero-length octet string." ::= { prioCopy 1 } prioCopyIpDscp OBJECT-TYPE SYNTAX OCTET STRING MAX-ACCESS read-write STATUS current DESCRIPTION "Action to copy IP DSCP settings from a source port to many destination ports. The first four octets represent an integer for the source port, in high-to-low (big-endian) order. Starting from the 5th octet is destination port list in a form described by PortList in the Q-BRIDGE-MIB. Writing this object will perform copy. Reading this object will always get a zero-length octet string." ::= { prioCopy 2 } prioCopyIpPort OBJECT-TYPE SYNTAX OCTET STRING MAX-ACCESS read-write STATUS current DESCRIPTION "Action to copy IP Port settings from a source port to many destination ports. The first four octets represent an integer for the source port, in high-to-low (big-endian) order. Starting from the 5th octet is destination port list in a form described by PortList in the Q-BRIDGE-MIB. Writing this object will perform copy. Reading this object will always get a zero-length octet string." ::= { prioCopy 3 } prioQueueMode OBJECT-TYPE SYNTAX INTEGER { wrr(1), strict(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "The global status for the prioQueue. wrr(1),strict(2)" ::= { priorityMgt 10 } --prioWrrPortTable prioWrrPortTable OBJECT-TYPE SYNTAX SEQUENCE OF PrioWrrPortEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Table for per port weighted round robin (WRR)." ::= { priorityMgt 12 } prioWrrPortEntry OBJECT-TYPE SYNTAX PrioWrrPortEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Entry for per port weighted round robin (WRR)." INDEX { prioWrrPortIfIndex,prioWrrPortTrafficClass } ::= { prioWrrPortTable 1 } PrioWrrPortEntry ::= SEQUENCE { prioWrrPortIfIndex Integer32, prioWrrPortTrafficClass Integer32, prioWrrPortWeight Integer32 } prioWrrPortIfIndex OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "The port interface of the prioWrrPortEntry. The interface identified by a particular value of this index is the same interface as identified by the same value of ifIndex in the IF-MIB." ::= { prioWrrPortEntry 1 } prioWrrPortTrafficClass OBJECT-TYPE SYNTAX Integer32 (0..7) MAX-ACCESS not-accessible STATUS current DESCRIPTION "Traffic class for this entry, as defined in dot1dTrafficClass in the P-BRIDGE-MIB. The actual maximum depends on the hardware, and is equal to dot1dPortNumTrafficClasses-1." REFERENCE "MIB.IETF|Q-BRIDGE-MIB.dot1dTrafficClass." ::= { prioWrrPortEntry 2 } prioWrrPortWeight OBJECT-TYPE SYNTAX Integer32 (1..255) MAX-ACCESS read-write STATUS current DESCRIPTION "Weight for this entry." ::= { prioWrrPortEntry 3 } -- -- trapDestMgt -- trapDestTable OBJECT-TYPE SYNTAX SEQUENCE OF TrapDestEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of trap destination entries." ::= { trapDestMgt 1 } trapDestEntry OBJECT-TYPE SYNTAX TrapDestEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This entry includes a destination IP address to which to send traps for this community." INDEX { trapDestAddress } ::= { trapDestTable 1 } TrapDestEntry ::= SEQUENCE { trapDestAddress IpAddress, trapDestCommunity OCTET STRING, trapDestStatus INTEGER, trapDestVersion INTEGER, trapDestUdpPort Integer32 } trapDestAddress OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS not-accessible STATUS current DESCRIPTION "The address to send traps." ::= { trapDestEntry 1 } trapDestCommunity OBJECT-TYPE SYNTAX OCTET STRING (SIZE(0..127)) MAX-ACCESS read-create STATUS current DESCRIPTION "A community to which this destination address belongs." ::= { trapDestEntry 2 } trapDestStatus OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2) } MAX-ACCESS read-create STATUS current DESCRIPTION "Writing this to valid(1) creates an entry. Writing this to invalid(2) destroys an entry." ::= { trapDestEntry 3 } trapDestVersion OBJECT-TYPE SYNTAX INTEGER { version1(1), version2(2), version3(3) } MAX-ACCESS read-create STATUS current DESCRIPTION "This variables represent the version of the Trap we wish to send to trap Receiver. If the value is 1, mean we wish to send Version 1 trap. If the value is 2, mean we wish to send version 2 trap. If the value is 3, mean we wish to send version 3 trap." ::= { trapDestEntry 4} trapDestUdpPort OBJECT-TYPE SYNTAX Integer32 ( 1..65535) MAX-ACCESS read-create STATUS current DESCRIPTION "Determines the UDP port number of the trap that is to be sent to the trap Receiver." DEFVAL { 162 } ::= { trapDestEntry 5} -- -- securityMgt -- portSecurityMgt OBJECT IDENTIFIER ::= { securityMgt 2 } radiusMgt OBJECT IDENTIFIER ::= { securityMgt 4 } tacacsMgt OBJECT IDENTIFIER ::= { securityMgt 5 } sshMgt OBJECT IDENTIFIER ::= { securityMgt 6 } aclMgt OBJECT IDENTIFIER ::= { securityMgt 7 } ipFilterMgt OBJECT IDENTIFIER ::= { securityMgt 9 } -- PortSecurityMgt -- Management for Port Security. A secure port only allowes -- secure MAC addresses to come in. portSecPortTable OBJECT-TYPE SYNTAX SEQUENCE OF PortSecPortEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The Port Security(MAC bindind) Table" ::= { portSecurityMgt 1 } portSecPortEntry OBJECT-TYPE SYNTAX PortSecPortEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The entry of portSecPortTable" INDEX { portSecPortIndex } ::= { portSecPortTable 1 } PortSecPortEntry ::= SEQUENCE { portSecPortIndex Integer32, portSecPortStatus EnabledStatus, portSecAction INTEGER, portSecMaxMacCount Integer32 } portSecPortIndex OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "The port and the trunk (excluding trunk members) interface of the portTable. The interface identified by a particular value of this index is the same interface as identified by the same value of ifIndex in the IF-MIB." ::= { portSecPortEntry 1 } portSecPortStatus OBJECT-TYPE SYNTAX EnabledStatus MAX-ACCESS read-write STATUS current DESCRIPTION "Set enabled(1) to enable port security and set disabled(2) to disable port security." ::= { portSecPortEntry 2 } portSecAction OBJECT-TYPE SYNTAX INTEGER { none(1), trap(2), shutdown(3), trapAndShutdown(4) } MAX-ACCESS read-write STATUS current DESCRIPTION "The corresponding actions that will take place when a port is under intruded, when this variable is set to none(1), no action will perform, when this variable is set to trap(2), a swPortSecurityTrap trap will send, when this variable is set to shutdown(3), the port will shutdown, when this variable is set to trapAndShutdown(4), a swPortSecurityTrap will send and the port will shutdown." ::= { portSecPortEntry 3 } portSecMaxMacCount OBJECT-TYPE SYNTAX Integer32(0..20) MAX-ACCESS read-write STATUS current DESCRIPTION "The maximun number of MAC addresses that will be learned and locked. When we change the value of this variable, if the portSecPortStatus is enabled, we will discard all secure MAC and begin to learn again, until the number of MAC has reached this value, and only the secure MAC addresses can enter this port. If the portSecPortStatus is disabled, we will begin to learn the MAC, and auto enabled the portSecPortStatus when the MAC has reached this value." ::= { portSecPortEntry 4 } -- -- radiusMgt -- -- radiusServerAddress OBJECT-TYPE -- SYNTAX IpAddress -- MAX-ACCESS read-write -- STATUS current -- DESCRIPTION "IP address of RADIUS server." -- ::= { radiusMgt 1 } radiusServerPortNumber OBJECT-TYPE SYNTAX INTEGER (1..65535) MAX-ACCESS read-write STATUS current DESCRIPTION "IP port number of RADIUS server." ::= { radiusMgt 2 } radiusServerKey OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION "Key for RADIUS. This variable can only be written. When this variable is read, it always returns a zero-length string." ::= { radiusMgt 3 } radiusServerRetransmit OBJECT-TYPE SYNTAX INTEGER (1..30) MAX-ACCESS read-write STATUS current DESCRIPTION "Maximum number of retransmissions for RADIUS." ::= { radiusMgt 4 } radiusServerTimeout OBJECT-TYPE SYNTAX INTEGER (1..65535) MAX-ACCESS read-write STATUS current DESCRIPTION "Timeout for RADIUS." ::= { radiusMgt 5 } --radiusMultipleServerTable radiusMultipleServerTable OBJECT-TYPE SYNTAX SEQUENCE OF RadiusMultipleServerEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The table for multiple RADIUS server." ::= { radiusMgt 7 } radiusMultipleServerEntry OBJECT-TYPE SYNTAX RadiusMultipleServerEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The conceptual row for radiusMultipleServerTable." INDEX { radiusMultipleServerIndex } ::= { radiusMultipleServerTable 1 } RadiusMultipleServerEntry ::= SEQUENCE { radiusMultipleServerIndex Integer32, radiusMultipleServerAddress IpAddress, radiusMultipleServerPortNumber Integer32, radiusMultipleServerKey DisplayString, radiusMultipleServerRetransmit Integer32, radiusMultipleServerTimeout Integer32, radiusMultipleServerStatus ValidStatus } radiusMultipleServerIndex OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "The RADIUS multiple server index." ::= { radiusMultipleServerEntry 1 } radiusMultipleServerAddress OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS read-create STATUS current DESCRIPTION "IP address of a multiple RADIUS server." ::= { radiusMultipleServerEntry 2 } radiusMultipleServerPortNumber OBJECT-TYPE SYNTAX Integer32 (1..65535) MAX-ACCESS read-create STATUS current DESCRIPTION "IP port number of a multiple RADIUS server." ::= { radiusMultipleServerEntry 3 } radiusMultipleServerKey OBJECT-TYPE SYNTAX DisplayString(SIZE(0..48)) MAX-ACCESS read-create STATUS current DESCRIPTION "Key for RADIUS. This variable can only be set. When this variable is read, it always returns a zero-length string." ::= { radiusMultipleServerEntry 4 } radiusMultipleServerRetransmit OBJECT-TYPE SYNTAX Integer32 (1..30) MAX-ACCESS read-create STATUS current DESCRIPTION "Maximum number of retransmissions for RADIUS." ::= { radiusMultipleServerEntry 5 } radiusMultipleServerTimeout OBJECT-TYPE SYNTAX Integer32 (1..65535) UNITS "seconds" MAX-ACCESS read-create STATUS current DESCRIPTION "Timeout for RADIUS." ::= { radiusMultipleServerEntry 6 } radiusMultipleServerStatus OBJECT-TYPE SYNTAX ValidStatus MAX-ACCESS read-create STATUS current DESCRIPTION "Setting this to valid(1) creates an entry. Setting this to invalid(2) destroys an entry." ::= { radiusMultipleServerEntry 8 } -- tacacsMgt -- Management for Terminal Access Controller Access Control System plus (TACACS+). tacacsServerAddress OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS read-write STATUS current DESCRIPTION "IP address of TACACS server." ::= { tacacsMgt 1 } tacacsServerPortNumber OBJECT-TYPE SYNTAX Integer32 (1..65535) MAX-ACCESS read-write STATUS current DESCRIPTION "IP port number of TACACS server." ::= { tacacsMgt 2 } tacacsServerKey OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION "Key for TACACS." ::= { tacacsMgt 3 } -- sshMgt -- Management for Secure Shell Configuration sshServerStatus OBJECT-TYPE SYNTAX EnabledStatus MAX-ACCESS read-write STATUS current DESCRIPTION "The status of Secure Shell Server, set this value to 1 to enable SSH server, set this value to 2 to disable the SSH server." ::= { sshMgt 1 } sshServerMajorVersion OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The major version of the SSH Server." ::= { sshMgt 2 } sshServerMinorVersion OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The minor version of the SSH Server." ::= { sshMgt 3 } sshTimeout OBJECT-TYPE SYNTAX INTEGER(1..120) MAX-ACCESS read-write STATUS current DESCRIPTION "The time interval that the router waits for the SSH client to respond. The range is 1-120." ::= { sshMgt 4 } sshAuthRetries OBJECT-TYPE SYNTAX INTEGER(1..5) MAX-ACCESS read-write STATUS current DESCRIPTION "The number of attempts after which the interface is reset. The range is 1-5." ::= { sshMgt 5 } sshConnInfoTable OBJECT-TYPE SYNTAX SEQUENCE OF SshConnInfoEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The table for Secure Shell Connection." ::= { sshMgt 6 } sshConnInfoEntry OBJECT-TYPE SYNTAX SshConnInfoEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The conceptual row for sshConnInfoTable." INDEX { sshConnID } ::= { sshConnInfoTable 1 } SshConnInfoEntry ::= SEQUENCE { sshConnID Integer32, sshConnMajorVersion Integer32, sshConnMinorVersion Integer32, sshConnStatus INTEGER, sshConnUserName OCTET STRING, sshDisconnect INTEGER, --for sshv2 start sshConnEncryptionTypeStr DisplayString --for sshv2 end } sshConnID OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "The connection ID of the Secure Shell Connection." ::= { sshConnInfoEntry 1 } sshConnMajorVersion OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The SSH major version." ::= { sshConnInfoEntry 2 } sshConnMinorVersion OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The SSH minor version." ::= { sshConnInfoEntry 3 } sshConnStatus OBJECT-TYPE SYNTAX INTEGER { negotiationStart(1), authenticationStart(2), sessionStart(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "The SSH connection State. negotiationStart(1) mean the SSH is in its negotiation start state, authenticationStart(2) mean the SSH is in authentication start state, sessionStart(3) mean the SSH is in session start State." ::= { sshConnInfoEntry 5 } sshConnUserName OBJECT-TYPE SYNTAX OCTET STRING MAX-ACCESS read-only STATUS current DESCRIPTION "The user name of the connection." ::= { sshConnInfoEntry 6 } sshDisconnect OBJECT-TYPE SYNTAX INTEGER { noDisconnect(1), disconnect(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "Set the variables to disconnect to disconnect the connection, when read, this variables always return noDisconnect(1)." ::= { sshConnInfoEntry 7 } sshConnEncryptionTypeStr OBJECT-TYPE SYNTAX DisplayString(SIZE(0..64)) MAX-ACCESS read-only STATUS current DESCRIPTION "The encryption type of the SSH." ::= { sshConnInfoEntry 8 } --ssh v2 sshKeySize OBJECT-TYPE SYNTAX INTEGER(512..896) MAX-ACCESS read-write STATUS current DESCRIPTION "The SSH server key size." ::= { sshMgt 7 } sshRsaHostKey1 OBJECT-TYPE SYNTAX DisplayString(SIZE(0..128)) MAX-ACCESS read-only STATUS current DESCRIPTION "The total length of RSA host key is 1024 characters, it is divided into 8 parts and store in 8 separated mib variables as below: sshRsaHostKey1: part 1 of the RSA host key (1-128) sshRsaHostKey2: part 2 of the RSA host key (129-256) sshRsaHostKey3: part 3 of the RSA host key (257-384) sshRsaHostKey4: part 4 of the RSA host key (385-512) sshRsaHostKey5: part 5 of the RSA host key (513-640) sshRsaHostKey6: part 6 of the RSA host key (641-768) sshRsaHostKey7: part 7 of the RSA host key (769-896) sshRsaHostKey8: part 8 of the RSA host key (897-1024) Please note that if the key string is less then 1024 characters, the remaining part of the string will filled by zero-length string. for example, if the length of the key is 129, we will get a string which length is 128 in sshRsaHostKey1, and a string which length is 1 in sshRsaHostKey2, moreover, sshRsaHostKey3 to sshRsaHostKey8 will all got zero-length string." ::= { sshMgt 8 } sshRsaHostKey2 OBJECT-TYPE SYNTAX DisplayString(SIZE(0..128)) MAX-ACCESS read-only STATUS current DESCRIPTION "The total length of RSA host key is 1024 characters, it is divided into 8 parts and store in 8 separated mib variables as below: sshRsaHostKey1: part 1 of the RSA host key (1-128) sshRsaHostKey2: part 2 of the RSA host key (129-256) sshRsaHostKey3: part 3 of the RSA host key (257-384) sshRsaHostKey4: part 4 of the RSA host key (385-512) sshRsaHostKey5: part 5 of the RSA host key (513-640) sshRsaHostKey6: part 6 of the RSA host key (641-768) sshRsaHostKey7: part 7 of the RSA host key (769-896) sshRsaHostKey8: part 8 of the RSA host key (897-1024) Please note that if the key string is less then 1024 characters, the remaining part of the string will filled by zero-length string. for example, if the length of the key is 129, we will get a string which length is 128 in sshRsaHostKey1, and a string which length is 1 in sshRsaHostKey2, moreover, sshRsaHostKey3 to sshRsaHostKey8 will all got zero-length string." ::= { sshMgt 9 } sshRsaHostKey3 OBJECT-TYPE SYNTAX DisplayString(SIZE(0..128)) MAX-ACCESS read-only STATUS current DESCRIPTION "The total length of RSA host key is 1024 characters, it is divided into 8 parts and store in 8 separated mib variables as below: sshRsaHostKey1: part 1 of the RSA host key (1-128) sshRsaHostKey2: part 2 of the RSA host key (129-256) sshRsaHostKey3: part 3 of the RSA host key (257-384) sshRsaHostKey4: part 4 of the RSA host key (385-512) sshRsaHostKey5: part 5 of the RSA host key (513-640) sshRsaHostKey6: part 6 of the RSA host key (641-768) sshRsaHostKey7: part 7 of the RSA host key (769-896) sshRsaHostKey8: part 8 of the RSA host key (897-1024) Please note that if the key string is less then 1024 characters, the remaining part of the string will filled by zero-length string. for example, if the length of the key is 129, we will get a string which length is 128 in sshRsaHostKey1, and a string which length is 1 in sshRsaHostKey2, moreover, sshRsaHostKey3 to sshRsaHostKey8 will all got zero-length string." ::= { sshMgt 10 } sshRsaHostKey4 OBJECT-TYPE SYNTAX DisplayString(SIZE(0..128)) MAX-ACCESS read-only STATUS current DESCRIPTION "The total length of RSA host key is 1024 characters, it is divided into 8 parts and store in 8 separated mib variables as below: sshRsaHostKey1: part 1 of the RSA host key (1-128) sshRsaHostKey2: part 2 of the RSA host key (129-256) sshRsaHostKey3: part 3 of the RSA host key (257-384) sshRsaHostKey4: part 4 of the RSA host key (385-512) sshRsaHostKey5: part 5 of the RSA host key (513-640) sshRsaHostKey6: part 6 of the RSA host key (641-768) sshRsaHostKey7: part 7 of the RSA host key (769-896) sshRsaHostKey8: part 8 of the RSA host key (897-1024) Please note that if the key string is less then 1024 characters, the remaining part of the string will filled by zero-length string. for example, if the length of the key is 129, we will get a string which length is 128 in sshRsaHostKey1, and a string which length is 1 in sshRsaHostKey2, moreover, sshRsaHostKey3 to sshRsaHostKey8 will all got zero-length string." ::= { sshMgt 11 } sshRsaHostKey5 OBJECT-TYPE SYNTAX DisplayString(SIZE(0..128)) MAX-ACCESS read-only STATUS current DESCRIPTION "The total length of RSA host key is 1024 characters, it is divided into 8 parts and store in 8 separated mib variables as below: sshRsaHostKey1: part 1 of the RSA host key (1-128) sshRsaHostKey2: part 2 of the RSA host key (129-256) sshRsaHostKey3: part 3 of the RSA host key (257-384) sshRsaHostKey4: part 4 of the RSA host key (385-512) sshRsaHostKey5: part 5 of the RSA host key (513-640) sshRsaHostKey6: part 6 of the RSA host key (641-768) sshRsaHostKey7: part 7 of the RSA host key (769-896) sshRsaHostKey8: part 8 of the RSA host key (897-1024) Please note that if the key string is less then 1024 characters, the remaining part of the string will filled by zero-length string. for example, if the length of the key is 129, we will get a string which length is 128 in sshRsaHostKey1, and a string which length is 1 in sshRsaHostKey2, moreover, sshRsaHostKey3 to sshRsaHostKey8 will all got zero-length string." ::= { sshMgt 12 } sshRsaHostKey6 OBJECT-TYPE SYNTAX DisplayString(SIZE(0..128)) MAX-ACCESS read-only STATUS current DESCRIPTION "The total length of RSA host key is 1024 characters, it is divided into 8 parts and store in 8 separated mib variables as below: sshRsaHostKey1: part 1 of the RSA host key (1-128) sshRsaHostKey2: part 2 of the RSA host key (129-256) sshRsaHostKey3: part 3 of the RSA host key (257-384) sshRsaHostKey4: part 4 of the RSA host key (385-512) sshRsaHostKey5: part 5 of the RSA host key (513-640) sshRsaHostKey6: part 6 of the RSA host key (641-768) sshRsaHostKey7: part 7 of the RSA host key (769-896) sshRsaHostKey8: part 8 of the RSA host key (897-1024) Please note that if the key string is less then 1024 characters, the remaining part of the string will filled by zero-length string. for example, if the length of the key is 129, we will get a string which length is 128 in sshRsaHostKey1, and a string which length is 1 in sshRsaHostKey2, moreover, sshRsaHostKey3 to sshRsaHostKey8 will all got zero-length string." ::= { sshMgt 13 } sshRsaHostKey7 OBJECT-TYPE SYNTAX DisplayString(SIZE(0..128)) MAX-ACCESS read-only STATUS current DESCRIPTION "The total length of RSA host key is 1024 characters, it is divided into 8 parts and store in 8 separated mib variables as below: sshRsaHostKey1: part 1 of the RSA host key (1-128) sshRsaHostKey2: part 2 of the RSA host key (129-256) sshRsaHostKey3: part 3 of the RSA host key (257-384) sshRsaHostKey4: part 4 of the RSA host key (385-512) sshRsaHostKey5: part 5 of the RSA host key (513-640) sshRsaHostKey6: part 6 of the RSA host key (641-768) sshRsaHostKey7: part 7 of the RSA host key (769-896) sshRsaHostKey8: part 8 of the RSA host key (897-1024) Please note that if the key string is less then 1024 characters, the remaining part of the string will filled by zero-length string. for example, if the length of the key is 129, we will get a string which length is 128 in sshRsaHostKey1, and a string which length is 1 in sshRsaHostKey2, moreover, sshRsaHostKey3 to sshRsaHostKey8 will all got zero-length string." ::= { sshMgt 14 } sshRsaHostKey8 OBJECT-TYPE SYNTAX DisplayString(SIZE(0..128)) MAX-ACCESS read-only STATUS current DESCRIPTION "The total length of RSA host key is 1024 characters, it is divided into 8 parts and store in 8 separated mib variables as below: sshRsaHostKey1: part 1 of the RSA host key (1-128) sshRsaHostKey2: part 2 of the RSA host key (129-256) sshRsaHostKey3: part 3 of the RSA host key (257-384) sshRsaHostKey4: part 4 of the RSA host key (385-512) sshRsaHostKey5: part 5 of the RSA host key (513-640) sshRsaHostKey6: part 6 of the RSA host key (641-768) sshRsaHostKey7: part 7 of the RSA host key (769-896) sshRsaHostKey8: part 8 of the RSA host key (897-1024) Please note that if the key string is less then 1024 characters, the remaining part of the string will filled by zero-length string. for example, if the length of the key is 129, we will get a string which length is 128 in sshRsaHostKey1, and a string which length is 1 in sshRsaHostKey2, moreover, sshRsaHostKey3 to sshRsaHostKey8 will all got zero-length string." ::= { sshMgt 15 } sshDsaHostKey1 OBJECT-TYPE SYNTAX DisplayString(SIZE(0..128)) MAX-ACCESS read-only STATUS current DESCRIPTION "The total length of DSA host key is 1024 characters, it is divided into 8 parts and store in 8 separated mib variables as below: sshDsaHostKey1: part 1 of the DSA host key (1-128) sshDsaHostKey2: part 2 of the DSA host key (129-256) sshDsaHostKey3: part 3 of the DSA host key (257-384) sshDsaHostKey4: part 4 of the DSA host key (385-512) sshDsaHostKey5: part 5 of the DSA host key (513-640) sshDsaHostKey6: part 6 of the DSA host key (641-768) sshDsaHostKey7: part 7 of the DSA host key (769-896) sshDsaHostKey8: part 8 of the DSA host key (897-1024) Please note that if the key string is less then 1024 characters, the remaining part of the string will filled by zero-length string. for example, if the length of the key is 129, we will get a string which length is 128 in sshDsaHostKey1, and a string which length is 1 in sshDsaHostKey2, moreover, sshDsaHostKey3 to sshDsaHostKey8 will all got zero-length string." ::= { sshMgt 16 } sshDsaHostKey2 OBJECT-TYPE SYNTAX DisplayString(SIZE(0..128)) MAX-ACCESS read-only STATUS current DESCRIPTION "The total length of DSA host key is 1024 characters, it is divided into 8 parts and store in 8 separated mib variables as below: sshDsaHostKey1: part 1 of the DSA host key (1-128) sshDsaHostKey2: part 2 of the DSA host key (129-256) sshDsaHostKey3: part 3 of the DSA host key (257-384) sshDsaHostKey4: part 4 of the DSA host key (385-512) sshDsaHostKey5: part 5 of the DSA host key (513-640) sshDsaHostKey6: part 6 of the DSA host key (641-768) sshDsaHostKey7: part 7 of the DSA host key (769-896) sshDsaHostKey8: part 8 of the DSA host key (897-1024) Please note that if the key string is less then 1024 characters, the remaining part of the string will filled by zero-length string. for example, if the length of the key is 129, we will get a string which length is 128 in sshDsaHostKey1, and a string which length is 1 in sshDsaHostKey2, moreover, sshDsaHostKey3 to sshDsaHostKey8 will all got zero-length string." ::= { sshMgt 17 } sshDsaHostKey3 OBJECT-TYPE SYNTAX DisplayString(SIZE(0..128)) MAX-ACCESS read-only STATUS current DESCRIPTION "The total length of DSA host key is 1024 characters, it is divided into 8 parts and store in 8 separated mib variables as below: sshDsaHostKey1: part 1 of the DSA host key (1-128) sshDsaHostKey2: part 2 of the DSA host key (129-256) sshDsaHostKey3: part 3 of the DSA host key (257-384) sshDsaHostKey4: part 4 of the DSA host key (385-512) sshDsaHostKey5: part 5 of the DSA host key (513-640) sshDsaHostKey6: part 6 of the DSA host key (641-768) sshDsaHostKey7: part 7 of the DSA host key (769-896) sshDsaHostKey8: part 8 of the DSA host key (897-1024) Please note that if the key string is less then 1024 characters, the remaining part of the string will filled by zero-length string. for example, if the length of the key is 129, we will get a string which length is 128 in sshDsaHostKey1, and a string which length is 1 in sshDsaHostKey2, moreover, sshDsaHostKey3 to sshDsaHostKey8 will all got zero-length string." ::= { sshMgt 18 } sshDsaHostKey4 OBJECT-TYPE SYNTAX DisplayString(SIZE(0..128)) MAX-ACCESS read-only STATUS current DESCRIPTION "The total length of DSA host key is 1024 characters, it is divided into 8 parts and store in 8 separated mib variables as below: sshDsaHostKey1: part 1 of the DSA host key (1-128) sshDsaHostKey2: part 2 of the DSA host key (129-256) sshDsaHostKey3: part 3 of the DSA host key (257-384) sshDsaHostKey4: part 4 of the DSA host key (385-512) sshDsaHostKey5: part 5 of the DSA host key (513-640) sshDsaHostKey6: part 6 of the DSA host key (641-768) sshDsaHostKey7: part 7 of the DSA host key (769-896) sshDsaHostKey8: part 8 of the DSA host key (897-1024) Please note that if the key string is less then 1024 characters, the remaining part of the string will filled by zero-length string. for example, if the length of the key is 129, we will get a string which length is 128 in sshDsaHostKey1, and a string which length is 1 in sshDsaHostKey2, moreover, sshDsaHostKey3 to sshDsaHostKey8 will all got zero-length string." ::= { sshMgt 19 } sshDsaHostKey5 OBJECT-TYPE SYNTAX DisplayString(SIZE(0..128)) MAX-ACCESS read-only STATUS current DESCRIPTION "The total length of DSA host key is 1024 characters, it is divided into 8 parts and store in 8 separated mib variables as below: sshDsaHostKey1: part 1 of the DSA host key (1-128) sshDsaHostKey2: part 2 of the DSA host key (129-256) sshDsaHostKey3: part 3 of the DSA host key (257-384) sshDsaHostKey4: part 4 of the DSA host key (385-512) sshDsaHostKey5: part 5 of the DSA host key (513-640) sshDsaHostKey6: part 6 of the DSA host key (641-768) sshDsaHostKey7: part 7 of the DSA host key (769-896) sshDsaHostKey8: part 8 of the DSA host key (897-1024) Please note that if the key string is less then 1024 characters, the remaining part of the string will filled by zero-length string. for example, if the length of the key is 129, we will get a string which length is 128 in sshDsaHostKey1, and a string which length is 1 in sshDsaHostKey2, moreover, sshDsaHostKey3 to sshDsaHostKey8 will all got zero-length string." ::= { sshMgt 20 } sshDsaHostKey6 OBJECT-TYPE SYNTAX DisplayString(SIZE(0..128)) MAX-ACCESS read-only STATUS current DESCRIPTION "The total length of DSA host key is 1024 characters, it is divided into 8 parts and store in 8 separated mib variables as below: sshDsaHostKey1: part 1 of the DSA host key (1-128) sshDsaHostKey2: part 2 of the DSA host key (129-256) sshDsaHostKey3: part 3 of the DSA host key (257-384) sshDsaHostKey4: part 4 of the DSA host key (385-512) sshDsaHostKey5: part 5 of the DSA host key (513-640) sshDsaHostKey6: part 6 of the DSA host key (641-768) sshDsaHostKey7: part 7 of the DSA host key (769-896) sshDsaHostKey8: part 8 of the DSA host key (897-1024) Please note that if the key string is less then 1024 characters, the remaining part of the string will filled by zero-length string. for example, if the length of the key is 129, we will get a string which length is 128 in sshDsaHostKey1, and a string which length is 1 in sshDsaHostKey2, moreover, sshDsaHostKey3 to sshDsaHostKey8 will all got zero-length string." ::= { sshMgt 21 } sshDsaHostKey7 OBJECT-TYPE SYNTAX DisplayString(SIZE(0..128)) MAX-ACCESS read-only STATUS current DESCRIPTION "The total length of DSA host key is 1024 characters, it is divided into 8 parts and store in 8 separated mib variables as below: sshDsaHostKey1: part 1 of the DSA host key (1-128) sshDsaHostKey2: part 2 of the DSA host key (129-256) sshDsaHostKey3: part 3 of the DSA host key (257-384) sshDsaHostKey4: part 4 of the DSA host key (385-512) sshDsaHostKey5: part 5 of the DSA host key (513-640) sshDsaHostKey6: part 6 of the DSA host key (641-768) sshDsaHostKey7: part 7 of the DSA host key (769-896) sshDsaHostKey8: part 8 of the DSA host key (897-1024) Please note that if the key string is less then 1024 characters, the remaining part of the string will filled by zero-length string. for example, if the length of the key is 129, we will get a string which length is 128 in sshDsaHostKey1, and a string which length is 1 in sshDsaHostKey2, moreover, sshDsaHostKey3 to sshDsaHostKey8 will all got zero-length string." ::= { sshMgt 22 } sshDsaHostKey8 OBJECT-TYPE SYNTAX DisplayString(SIZE(0..128)) MAX-ACCESS read-only STATUS current DESCRIPTION "The total length of DSA host key is 1024 characters, it is divided into 8 parts and store in 8 separated mib variables as below: sshDsaHostKey1: part 1 of the DSA host key (1-128) sshDsaHostKey2: part 2 of the DSA host key (129-256) sshDsaHostKey3: part 3 of the DSA host key (257-384) sshDsaHostKey4: part 4 of the DSA host key (385-512) sshDsaHostKey5: part 5 of the DSA host key (513-640) sshDsaHostKey6: part 6 of the DSA host key (641-768) sshDsaHostKey7: part 7 of the DSA host key (769-896) sshDsaHostKey8: part 8 of the DSA host key (897-1024) Please note that if the key string is less then 1024 characters, the remaining part of the string will filled by zero-length string. for example, if the length of the key is 129, we will get a string which length is 128 in sshDsaHostKey1, and a string which length is 1 in sshDsaHostKey2, moreover, sshDsaHostKey3 to sshDsaHostKey8 will all got zero-length string." ::= { sshMgt 23 } sshHostKeyGenAction OBJECT-TYPE SYNTAX INTEGER { noGen(1), genRsaKey(2), genDsaKey(3), genBothKeys(4) } MAX-ACCESS read-write STATUS current DESCRIPTION "This variable is for host key generating. For the set behavior: set it to genRsaKey(2) to generate the RSA host key, genDsaKey(3) to generate the DSA host key, if genBothKeys(4) is set, both RSA and DSA host key are generated. For the get behavior: you will get genRsaKey(2), genDsaKey(3) or genBothKeys(4) when the key gen action is in progress. otherwise, you will get noGen(1)." ::= { sshMgt 24 } sshHostKeyGenStatus OBJECT-TYPE SYNTAX INTEGER { unknown(1), success(2), failure(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "The result of the last KeyGen status. if no Key gen action has been perform you will get unknown(1) status." ::= { sshMgt 25 } sshHostKeySaveAction OBJECT-TYPE SYNTAX INTEGER { noSave(1), save(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "To save host key from memory to flash. For the set behavior: set it to save(2) to perform the save operation. For the get behavior: you will get save(1) when the save action is in progress. otherwise, you will get noSave(1)." ::= { sshMgt 26 } sshHostKeySaveStatus OBJECT-TYPE SYNTAX INTEGER { unknown(1), success(2), failure(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "The result of the last savekey status. if no save action has been perform you will get unknown(1) status." ::= { sshMgt 27 } sshHostKeyDelAction OBJECT-TYPE SYNTAX INTEGER { noDel(1), delRsaKey(2), delDsaKey(3), delBothKeys(4) } MAX-ACCESS read-write STATUS current DESCRIPTION "To delete the host key. For the set behavior: set it to delRsaKey(2) to delete the RSA host key, delDsaKey(3) to delete the DSA host key, or delBothKeys(4) to delete both RSA and DSA host key. For the get behavior: you will get delRsaKey(2), delDsaKey(3) or delBothKeys(4) when the delete operation is in progress. otherwise, you will get noDel(1)." ::= { sshMgt 28 } sshUserTable OBJECT-TYPE SYNTAX SEQUENCE OF SshUserEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The conceptual table of all of sshUserEntry " ::= { sshMgt 29 } sshUserEntry OBJECT-TYPE SYNTAX SshUserEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The conceptual row for sshUserTable." INDEX { IMPLIED sshUserName} ::= { sshUserTable 1 } SshUserEntry ::= SEQUENCE { sshUserName DisplayString, sshUserRsaKey1 DisplayString, sshUserRsaKey2 DisplayString, sshUserRsaKey3 DisplayString, sshUserRsaKey4 DisplayString, sshUserRsaKey5 DisplayString, sshUserRsaKey6 DisplayString, sshUserRsaKey7 DisplayString, sshUserRsaKey8 DisplayString, sshUserDsaKey1 DisplayString, sshUserDsaKey2 DisplayString, sshUserDsaKey3 DisplayString, sshUserDsaKey4 DisplayString, sshUserDsaKey5 DisplayString, sshUserDsaKey6 DisplayString, sshUserDsaKey7 DisplayString, sshUserDsaKey8 DisplayString, sshUserKeyDelAction INTEGER } sshUserName OBJECT-TYPE SYNTAX DisplayString(SIZE(1..8)) MAX-ACCESS not-accessible STATUS current DESCRIPTION "User Name." ::= { sshUserEntry 1 } sshUserRsaKey1 OBJECT-TYPE SYNTAX DisplayString(SIZE(0..128)) MAX-ACCESS read-only STATUS current DESCRIPTION "The total length of RSA user key is 1024 characters, it is divided into 8 parts and store in 8 separated mib variables as below: sshUserRsaKey1: part 1 of the RSA user key (1-128) sshUserRsaKey2: part 2 of the RSA user key (129-256) sshUserRsaKey3: part 3 of the RSA user key (257-384) sshUserRsaKey4: part 4 of the RSA user key (385-512) sshUserRsaKey5: part 5 of the RSA user key (513-640) sshUserRsaKey6: part 6 of the RSA user key (641-768) sshUserRsaKey7: part 7 of the RSA user key (769-896) sshUserRsaKey8: part 8 of the RSA user key (897-1024) Please note that if the key string is less then 1024 characters, the remaining part of the string will filled by zero-length string. for example, if the length of the key is 129, we will get a string which length is 128 in sshUserRsaKey1, and a string which length is 1 in sshUserRsaKey2, moreover, sshUserRsaKey3 to sshUserRsaKey8 will all got zero-length string." ::= { sshUserEntry 2 } sshUserRsaKey2 OBJECT-TYPE SYNTAX DisplayString(SIZE(0..128)) MAX-ACCESS read-only STATUS current DESCRIPTION "The total length of RSA user key is 1024 characters, it is divided into 8 parts and store in 8 separated mib variables as below: sshUserRsaKey1: part 1 of the RSA user key (1-128) sshUserRsaKey2: part 2 of the RSA user key (129-256) sshUserRsaKey3: part 3 of the RSA user key (257-384) sshUserRsaKey4: part 4 of the RSA user key (385-512) sshUserRsaKey5: part 5 of the RSA user key (513-640) sshUserRsaKey6: part 6 of the RSA user key (641-768) sshUserRsaKey7: part 7 of the RSA user key (769-896) sshUserRsaKey8: part 8 of the RSA user key (897-1024) Please note that if the key string is less then 1024 characters, the remaining part of the string will filled by zero-length string. for example, if the length of the key is 129, we will get a string which length is 128 in sshUserRsaKey1, and a string which length is 1 in sshUserRsaKey2, moreover, sshUserRsaKey3 to sshUserRsaKey8 will all got zero-length string." ::= { sshUserEntry 3 } sshUserRsaKey3 OBJECT-TYPE SYNTAX DisplayString(SIZE(0..128)) MAX-ACCESS read-only STATUS current DESCRIPTION "The total length of RSA user key is 1024 characters, it is divided into 8 parts and store in 8 separated mib variables as below: sshUserRsaKey1: part 1 of the RSA user key (1-128) sshUserRsaKey2: part 2 of the RSA user key (129-256) sshUserRsaKey3: part 3 of the RSA user key (257-384) sshUserRsaKey4: part 4 of the RSA user key (385-512) sshUserRsaKey5: part 5 of the RSA user key (513-640) sshUserRsaKey6: part 6 of the RSA user key (641-768) sshUserRsaKey7: part 7 of the RSA user key (769-896) sshUserRsaKey8: part 8 of the RSA user key (897-1024) Please note that if the key string is less then 1024 characters, the remaining part of the string will filled by zero-length string. for example, if the length of the key is 129, we will get a string which length is 128 in sshUserRsaKey1, and a string which length is 1 in sshUserRsaKey2, moreover, sshUserRsaKey3 to sshUserRsaKey8 will all got zero-length string." ::= { sshUserEntry 4 } sshUserRsaKey4 OBJECT-TYPE SYNTAX DisplayString(SIZE(0..128)) MAX-ACCESS read-only STATUS current DESCRIPTION "The total length of RSA user key is 1024 characters, it is divided into 8 parts and store in 8 separated mib variables as below: sshUserRsaKey1: part 1 of the RSA user key (1-128) sshUserRsaKey2: part 2 of the RSA user key (129-256) sshUserRsaKey3: part 3 of the RSA user key (257-384) sshUserRsaKey4: part 4 of the RSA user key (385-512) sshUserRsaKey5: part 5 of the RSA user key (513-640) sshUserRsaKey6: part 6 of the RSA user key (641-768) sshUserRsaKey7: part 7 of the RSA user key (769-896) sshUserRsaKey8: part 8 of the RSA user key (897-1024) Please note that if the key string is less then 1024 characters, the remaining part of the string will filled by zero-length string. for example, if the length of the key is 129, we will get a string which length is 128 in sshUserRsaKey1, and a string which length is 1 in sshUserRsaKey2, moreover, sshUserRsaKey3 to sshUserRsaKey8 will all got zero-length string." ::= { sshUserEntry 5 } sshUserRsaKey5 OBJECT-TYPE SYNTAX DisplayString(SIZE(0..128)) MAX-ACCESS read-only STATUS current DESCRIPTION "The total length of RSA user key is 1024 characters, it is divided into 8 parts and store in 8 separated mib variables as below: sshUserRsaKey1: part 1 of the RSA user key (1-128) sshUserRsaKey2: part 2 of the RSA user key (129-256) sshUserRsaKey3: part 3 of the RSA user key (257-384) sshUserRsaKey4: part 4 of the RSA user key (385-512) sshUserRsaKey5: part 5 of the RSA user key (513-640) sshUserRsaKey6: part 6 of the RSA user key (641-768) sshUserRsaKey7: part 7 of the RSA user key (769-896) sshUserRsaKey8: part 8 of the RSA user key (897-1024) Please note that if the key string is less then 1024 characters, the remaining part of the string will filled by zero-length string. for example, if the length of the key is 129, we will get a string which length is 128 in sshUserRsaKey1, and a string which length is 1 in sshUserRsaKey2, moreover, sshUserRsaKey3 to sshUserRsaKey8 will all got zero-length string." ::= { sshUserEntry 6 } sshUserRsaKey6 OBJECT-TYPE SYNTAX DisplayString(SIZE(0..128)) MAX-ACCESS read-only STATUS current DESCRIPTION "The total length of RSA user key is 1024 characters, it is divided into 8 parts and store in 8 separated mib variables as below: sshUserRsaKey1: part 1 of the RSA user key (1-128) sshUserRsaKey2: part 2 of the RSA user key (129-256) sshUserRsaKey3: part 3 of the RSA user key (257-384) sshUserRsaKey4: part 4 of the RSA user key (385-512) sshUserRsaKey5: part 5 of the RSA user key (513-640) sshUserRsaKey6: part 6 of the RSA user key (641-768) sshUserRsaKey7: part 7 of the RSA user key (769-896) sshUserRsaKey8: part 8 of the RSA user key (897-1024) Please note that if the key string is less then 1024 characters, the remaining part of the string will filled by zero-length string. for example, if the length of the key is 129, we will get a string which length is 128 in sshUserRsaKey1, and a string which length is 1 in sshUserRsaKey2, moreover, sshUserRsaKey3 to sshUserRsaKey8 will all got zero-length string." ::= { sshUserEntry 7 } sshUserRsaKey7 OBJECT-TYPE SYNTAX DisplayString(SIZE(0..128)) MAX-ACCESS read-only STATUS current DESCRIPTION "The total length of RSA user key is 1024 characters, it is divided into 8 parts and store in 8 separated mib variables as below: sshUserRsaKey1: part 1 of the RSA user key (1-128) sshUserRsaKey2: part 2 of the RSA user key (129-256) sshUserRsaKey3: part 3 of the RSA user key (257-384) sshUserRsaKey4: part 4 of the RSA user key (385-512) sshUserRsaKey5: part 5 of the RSA user key (513-640) sshUserRsaKey6: part 6 of the RSA user key (641-768) sshUserRsaKey7: part 7 of the RSA user key (769-896) sshUserRsaKey8: part 8 of the RSA user key (897-1024) Please note that if the key string is less then 1024 characters, the remaining part of the string will filled by zero-length string. for example, if the length of the key is 129, we will get a string which length is 128 in sshUserRsaKey1, and a string which length is 1 in sshUserRsaKey2, moreover, sshUserRsaKey3 to sshUserRsaKey8 will all got zero-length string." ::= { sshUserEntry 8 } sshUserRsaKey8 OBJECT-TYPE SYNTAX DisplayString(SIZE(0..128)) MAX-ACCESS read-only STATUS current DESCRIPTION "The total length of RSA user key is 1024 characters, it is divided into 8 parts and store in 8 separated mib variables as below: sshUserRsaKey1: part 1 of the RSA user key (1-128) sshUserRsaKey2: part 2 of the RSA user key (129-256) sshUserRsaKey3: part 3 of the RSA user key (257-384) sshUserRsaKey4: part 4 of the RSA user key (385-512) sshUserRsaKey5: part 5 of the RSA user key (513-640) sshUserRsaKey6: part 6 of the RSA user key (641-768) sshUserRsaKey7: part 7 of the RSA user key (769-896) sshUserRsaKey8: part 8 of the RSA user key (897-1024) Please note that if the key string is less then 1024 characters, the remaining part of the string will filled by zero-length string. for example, if the length of the key is 129, we will get a string which length is 128 in sshUserRsaKey1, and a string which length is 1 in sshUserRsaKey2, moreover, sshUserRsaKey3 to sshUserRsaKey8 will all got zero-length string." ::= { sshUserEntry 9 } sshUserDsaKey1 OBJECT-TYPE SYNTAX DisplayString(SIZE(0..128)) MAX-ACCESS read-only STATUS current DESCRIPTION "The total length of DSA user key is 1024 characters, it is divided into 8 parts and store in 8 separated mib variables as below: sshUserRsaKey1: part 1 of the DSA user key (1-128) sshUserRsaKey2: part 2 of the DSA user key (129-256) sshUserRsaKey3: part 3 of the DSA user key (257-384) sshUserRsaKey4: part 4 of the DSA user key (385-512) sshUserRsaKey5: part 5 of the DSA user key (513-640) sshUserRsaKey6: part 6 of the DSA user key (641-768) sshUserRsaKey7: part 7 of the DSA user key (769-896) sshUserRsaKey8: part 8 of the DSA user key (897-1024) Please note that if the key string is less then 1024 characters, the remaining part of the string will filled by zero-length string. for example, if the length of the key is 129, we will get a string which length is 128 in sshUserDsaKey1, and a string which length is 1 in sshUserDsaKey2, moreover, sshUserDsaKey3 to sshUserDsaKey8 will all got zero-length string." ::= { sshUserEntry 10 } sshUserDsaKey2 OBJECT-TYPE SYNTAX DisplayString(SIZE(0..128)) MAX-ACCESS read-only STATUS current DESCRIPTION "The total length of DSA user key is 1024 characters, it is divided into 8 parts and store in 8 separated mib variables as below: sshUserRsaKey1: part 1 of the DSA user key (1-128) sshUserRsaKey2: part 2 of the DSA user key (129-256) sshUserRsaKey3: part 3 of the DSA user key (257-384) sshUserRsaKey4: part 4 of the DSA user key (385-512) sshUserRsaKey5: part 5 of the DSA user key (513-640) sshUserRsaKey6: part 6 of the DSA user key (641-768) sshUserRsaKey7: part 7 of the DSA user key (769-896) sshUserRsaKey8: part 8 of the DSA user key (897-1024) Please note that if the key string is less then 1024 characters, the remaining part of the string will filled by zero-length string. for example, if the length of the key is 129, we will get a string which length is 128 in sshUserDsaKey1, and a string which length is 1 in sshUserDsaKey2, moreover, sshUserDsaKey3 to sshUserDsaKey8 will all got zero-length string." ::= { sshUserEntry 11 } sshUserDsaKey3 OBJECT-TYPE SYNTAX DisplayString(SIZE(0..128)) MAX-ACCESS read-only STATUS current DESCRIPTION "The total length of DSA user key is 1024 characters, it is divided into 8 parts and store in 8 separated mib variables as below: sshUserRsaKey1: part 1 of the DSA user key (1-128) sshUserRsaKey2: part 2 of the DSA user key (129-256) sshUserRsaKey3: part 3 of the DSA user key (257-384) sshUserRsaKey4: part 4 of the DSA user key (385-512) sshUserRsaKey5: part 5 of the DSA user key (513-640) sshUserRsaKey6: part 6 of the DSA user key (641-768) sshUserRsaKey7: part 7 of the DSA user key (769-896) sshUserRsaKey8: part 8 of the DSA user key (897-1024) Please note that if the key string is less then 1024 characters, the remaining part of the string will filled by zero-length string. for example, if the length of the key is 129, we will get a string which length is 128 in sshUserDsaKey1, and a string which length is 1 in sshUserDsaKey2, moreover, sshUserDsaKey3 to sshUserDsaKey8 will all got zero-length string." ::= { sshUserEntry 12 } sshUserDsaKey4 OBJECT-TYPE SYNTAX DisplayString(SIZE(0..128)) MAX-ACCESS read-only STATUS current DESCRIPTION "The total length of DSA user key is 1024 characters, it is divided into 8 parts and store in 8 separated mib variables as below: sshUserRsaKey1: part 1 of the DSA user key (1-128) sshUserRsaKey2: part 2 of the DSA user key (129-256) sshUserRsaKey3: part 3 of the DSA user key (257-384) sshUserRsaKey4: part 4 of the DSA user key (385-512) sshUserRsaKey5: part 5 of the DSA user key (513-640) sshUserRsaKey6: part 6 of the DSA user key (641-768) sshUserRsaKey7: part 7 of the DSA user key (769-896) sshUserRsaKey8: part 8 of the DSA user key (897-1024) Please note that if the key string is less then 1024 characters, the remaining part of the string will filled by zero-length string. for example, if the length of the key is 129, we will get a string which length is 128 in sshUserDsaKey1, and a string which length is 1 in sshUserDsaKey2, moreover, sshUserDsaKey3 to sshUserDsaKey8 will all got zero-length string." ::= { sshUserEntry 13 } sshUserDsaKey5 OBJECT-TYPE SYNTAX DisplayString(SIZE(0..128)) MAX-ACCESS read-only STATUS current DESCRIPTION "The total length of DSA user key is 1024 characters, it is divided into 8 parts and store in 8 separated mib variables as below: sshUserRsaKey1: part 1 of the DSA user key (1-128) sshUserRsaKey2: part 2 of the DSA user key (129-256) sshUserRsaKey3: part 3 of the DSA user key (257-384) sshUserRsaKey4: part 4 of the DSA user key (385-512) sshUserRsaKey5: part 5 of the DSA user key (513-640) sshUserRsaKey6: part 6 of the DSA user key (641-768) sshUserRsaKey7: part 7 of the DSA user key (769-896) sshUserRsaKey8: part 8 of the DSA user key (897-1024) Please note that if the key string is less then 1024 characters, the remaining part of the string will filled by zero-length string. for example, if the length of the key is 129, we will get a string which length is 128 in sshUserDsaKey1, and a string which length is 1 in sshUserDsaKey2, moreover, sshUserDsaKey3 to sshUserDsaKey8 will all got zero-length string." ::= { sshUserEntry 14 } sshUserDsaKey6 OBJECT-TYPE SYNTAX DisplayString(SIZE(0..128)) MAX-ACCESS read-only STATUS current DESCRIPTION "The total length of DSA user key is 1024 characters, it is divided into 8 parts and store in 8 separated mib variables as below: sshUserRsaKey1: part 1 of the DSA user key (1-128) sshUserRsaKey2: part 2 of the DSA user key (129-256) sshUserRsaKey3: part 3 of the DSA user key (257-384) sshUserRsaKey4: part 4 of the DSA user key (385-512) sshUserRsaKey5: part 5 of the DSA user key (513-640) sshUserRsaKey6: part 6 of the DSA user key (641-768) sshUserRsaKey7: part 7 of the DSA user key (769-896) sshUserRsaKey8: part 8 of the DSA user key (897-1024) Please note that if the key string is less then 1024 characters, the remaining part of the string will filled by zero-length string. for example, if the length of the key is 129, we will get a string which length is 128 in sshUserDsaKey1, and a string which length is 1 in sshUserDsaKey2, moreover, sshUserDsaKey3 to sshUserDsaKey8 will all got zero-length string." ::= { sshUserEntry 15 } sshUserDsaKey7 OBJECT-TYPE SYNTAX DisplayString(SIZE(0..128)) MAX-ACCESS read-only STATUS current DESCRIPTION "The total length of DSA user key is 1024 characters, it is divided into 8 parts and store in 8 separated mib variables as below: sshUserRsaKey1: part 1 of the DSA user key (1-128) sshUserRsaKey2: part 2 of the DSA user key (129-256) sshUserRsaKey3: part 3 of the DSA user key (257-384) sshUserRsaKey4: part 4 of the DSA user key (385-512) sshUserRsaKey5: part 5 of the DSA user key (513-640) sshUserRsaKey6: part 6 of the DSA user key (641-768) sshUserRsaKey7: part 7 of the DSA user key (769-896) sshUserRsaKey8: part 8 of the DSA user key (897-1024) Please note that if the key string is less then 1024 characters, the remaining part of the string will filled by zero-length string. for example, if the length of the key is 129, we will get a string which length is 128 in sshUserDsaKey1, and a string which length is 1 in sshUserDsaKey2, moreover, sshUserDsaKey3 to sshUserDsaKey8 will all got zero-length string." ::= { sshUserEntry 16 } sshUserDsaKey8 OBJECT-TYPE SYNTAX DisplayString(SIZE(0..128)) MAX-ACCESS read-only STATUS current DESCRIPTION "The total length of DSA user key is 1024 characters, it is divided into 8 parts and store in 8 separated mib variables as below: sshUserRsaKey1: part 1 of the DSA user key (1-128) sshUserRsaKey2: part 2 of the DSA user key (129-256) sshUserRsaKey3: part 3 of the DSA user key (257-384) sshUserRsaKey4: part 4 of the DSA user key (385-512) sshUserRsaKey5: part 5 of the DSA user key (513-640) sshUserRsaKey6: part 6 of the DSA user key (641-768) sshUserRsaKey7: part 7 of the DSA user key (769-896) sshUserRsaKey8: part 8 of the DSA user key (897-1024) Please note that if the key string is less then 1024 characters, the remaining part of the string will filled by zero-length string. for example, if the length of the key is 129, we will get a string which length is 128 in sshUserDsaKey1, and a string which length is 1 in sshUserDsaKey2, moreover, sshUserDsaKey3 to sshUserDsaKey8 will all got zero-length string." ::= { sshUserEntry 17 } sshUserKeyDelAction OBJECT-TYPE SYNTAX INTEGER { noDel(1), delRsaKey(2), delDsaKey(3), delBothKeys(4) } MAX-ACCESS read-write STATUS current DESCRIPTION "To delete the user key. For the set behavior: set it to delRsaKey(2) to delete the RSA user key, delDsaKey(3) to delete the DSA user key, or delBothKeys(4) to delete both RSA and DSA user key. For the get behavior: you will get delRsaKey(2), delDsaKey(3) or delBothKeys(4) when the delete operation is in progress. otherwise, you will get noDel(1)." ::= { sshUserEntry 18 } -- -- aclMgt -- --aclIpAceTable aclIpAceTable OBJECT-TYPE SYNTAX SEQUENCE OF AclIpAceEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The conceptual table of all of aclIpAceEntry." ::= { aclMgt 1 } aclIpAceEntry OBJECT-TYPE SYNTAX AclIpAceEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The conceptual row for aclIpAceTable." INDEX { aclIpAceName, aclIpAceIndex } ::= { aclIpAceTable 1 } AclIpAceEntry ::= SEQUENCE { aclIpAceName DisplayString, aclIpAceIndex Integer32, aclIpAcePrecedence Integer32, aclIpAceAction INTEGER, aclIpAceSourceIpAddr IpAddress, aclIpAceSourceIpAddrBitmask IpAddress, aclIpAceDestIpAddr IpAddress, aclIpAceDestIpAddrBitmask IpAddress, aclIpAceProtocol Integer32, aclIpAcePrec Integer32, aclIpAceTos Integer32, aclIpAceDscp Integer32, aclIpAceSourcePortOp INTEGER, aclIpAceMinSourcePort Integer32, aclIpAceMaxSourcePort Integer32, aclIpAceSourcePortBitmask Integer32, aclIpAceDestPortOp INTEGER, aclIpAceMinDestPort Integer32, aclIpAceMaxDestPort Integer32, aclIpAceDestPortBitmask Integer32, aclIpAceControlCode Integer32, aclIpAceControlCodeBitmask Integer32, aclIpAceStatus RowStatus } aclIpAceName OBJECT-TYPE SYNTAX DisplayString (SIZE(1..15)) MAX-ACCESS not-accessible STATUS current DESCRIPTION "The name of an ACL. Within a feature a unique name is used to identify the list to which the entry belongs in the device." ::= { aclIpAceEntry 1 } aclIpAceIndex OBJECT-TYPE SYNTAX Integer32 (1..32) MAX-ACCESS not-accessible STATUS current DESCRIPTION "The unique index of an ACE within an ACL." ::= { aclIpAceEntry 2 } aclIpAcePrecedence OBJECT-TYPE SYNTAX Integer32 (0..32) MAX-ACCESS read-only STATUS current DESCRIPTION "Specifies the IP precedence value to be matched against. This object cannot not be configured when the status of the entry, aclIpAceStatus, is active(1)." ::= { aclIpAceEntry 3 } aclIpAceAction OBJECT-TYPE SYNTAX INTEGER { permit(1), deny(2) } MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates the action to be taken if a packet matches this ACE. This object cannot not be configured when the status of the entry, aclIpAceStatus, is active(1)." ::= { aclIpAceEntry 4 } aclIpAceSourceIpAddr OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS read-create STATUS current DESCRIPTION "The specified source IP address. The packet's source address is AND-ed with the value of aclIpAceSourceIpAddrBitmask and then compared against the value of this object. This object cannot be configured when the status of the entry, aclIpAceStatus, is active(1)." ::= { aclIpAceEntry 5 } aclIpAceSourceIpAddrBitmask OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS read-create STATUS current DESCRIPTION "The specified source IP address mask. The packet's destination address is AND-ed with the value of aclIpAceSourceIpAddr and then compared against the value of this object." ::= { aclIpAceEntry 6 } aclIpAceDestIpAddr OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS read-create STATUS current DESCRIPTION "The specified destination IP address. The packet's destination address is AND-ed with the value of aclIpAceDestIpAddrBitmask and then compared against the value of this object." ::= { aclIpAceEntry 7 } aclIpAceDestIpAddrBitmask OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS read-create STATUS current DESCRIPTION "The specified destination IP address mask." ::= { aclIpAceEntry 8 } aclIpAceProtocol OBJECT-TYPE SYNTAX Integer32 (0..256) MAX-ACCESS read-create STATUS current DESCRIPTION "The protocol number field in the IP header used to indicate the higher layer protocol as specified in RFC 1700. A value value of 0 matches every IP packet. The object=256, means 'any' For example : 0 is IP, 1 is ICMP, 2 is IGMP, 4 is IP in IP encapsulation, 6 is TCP, 9 is IGRP, 17 is UDP, 47 is GRE, 50 is ESP, 51 is AH, 88 is IGRP, 89 is OSPF, 94 is KA9Q/NOS compatible IP over IP, 103 is PIMv2, 108 is PCP. " ::= { aclIpAceEntry 9 } aclIpAcePrec OBJECT-TYPE SYNTAX Integer32 (0..8) MAX-ACCESS read-create STATUS current DESCRIPTION "Specifies the IP precedence value to be matched against. This object cannot be configured when the status of the entry, aclIpAceStatus, is active(1). The value of this object is ignored whenever the value of aclIpAcePrec object is 8." ::= { aclIpAceEntry 10 } aclIpAceTos OBJECT-TYPE SYNTAX Integer32 (0..16) MAX-ACCESS read-create STATUS current DESCRIPTION "Specifies the IP ToS facility value to be matched against. This object cannot be configured when the status of the entry, aclIpAceStatus, is active(1). The value of this object is ignored whenever the value of aclIpAcePrec object is 9." ::= { aclIpAceEntry 11 } aclIpAceDscp OBJECT-TYPE SYNTAX Integer32 (0..64) MAX-ACCESS read-create STATUS current DESCRIPTION "Specifies the DSCP value to be matched against. This object cannot be configured when the status of the entry, aclIpAceStatus, is active(1). The value of this object is ignored whenever the value of aclIpAcePrec object is 64." ::= { aclIpAceEntry 12 } aclIpAceSourcePortOp OBJECT-TYPE SYNTAX INTEGER { noOperator(1), equal(2), range(3) } MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates how a packet's source TCP/UDP port number is to be compared. noOperator(1), which is the default value, means no comparison is to be made with the source TCP/UDP port number." ::= { aclIpAceEntry 13 } aclIpAceMinSourcePort OBJECT-TYPE SYNTAX Integer32 (0..'FFFF'h) MAX-ACCESS read-create STATUS current DESCRIPTION "If the aclIpAceSourcePortOp is range(3), this indicates the lower bound of the TCP/UDP port number value range." ::= { aclIpAceEntry 14 } aclIpAceMaxSourcePort OBJECT-TYPE SYNTAX Integer32 (0..'FFFF'h) MAX-ACCESS read-create STATUS current DESCRIPTION "If the aclIpAceSourcePortOp is range(3), this indicates the upper bound of the TCP/UDP port number value range." ::= { aclIpAceEntry 15 } aclIpAceSourcePortBitmask OBJECT-TYPE SYNTAX Integer32 (0..'FFFF'h) MAX-ACCESS read-create STATUS current DESCRIPTION "If the aclIpAceSourcePortOp is equal(2), this indicates the bitmask of the aclIpAceMinSourcePort." ::= { aclIpAceEntry 16 } aclIpAceDestPortOp OBJECT-TYPE SYNTAX INTEGER { noOperator(1), equal(2), range(3) } MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates how a packet's destination TCP/UDP port number is to be compared. noOperator(1), which is the default value, means that no comparison is to be made with the destination TCP/UDP port number." ::= { aclIpAceEntry 17 } aclIpAceMinDestPort OBJECT-TYPE SYNTAX Integer32 (0..'FFFF'h) MAX-ACCESS read-create STATUS current DESCRIPTION "If the aclIpAceDestPortOp is range(3), this indicates the lower bound of the TCP/UDP port number value range." ::= { aclIpAceEntry 18 } aclIpAceMaxDestPort OBJECT-TYPE SYNTAX Integer32 (0..'FFFF'h) MAX-ACCESS read-create STATUS current DESCRIPTION "If the aclIpAceDestPortOp is range(3), this indicates the upper bound of the TCP/UDP port number value range." ::= { aclIpAceEntry 19 } aclIpAceDestPortBitmask OBJECT-TYPE SYNTAX Integer32 (0..'FFFF'h) MAX-ACCESS read-create STATUS current DESCRIPTION "If the aclIpAceDestPortOp is equal(2), this indicates the bitmask of the aclIpAceMinDestPort." ::= { aclIpAceEntry 20 } aclIpAceControlCode OBJECT-TYPE SYNTAX Integer32 (0..63) MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates how the control flags of TCP packets are to be compared. aceIpControlCode is AND-ed with aceIpControlCodeBitmask." ::= { aclIpAceEntry 21 } aclIpAceControlCodeBitmask OBJECT-TYPE SYNTAX Integer32 (0..63) MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates how the control flags of TCP packets are to be compared. It can be used to check multiple flags of the FIN, SYN, RST, PSH, ACK, URG by the sum of FIN=1, SYN=2, RST=4, PSH=8, ACK=16, URG=32." ::= { aclIpAceEntry 22 } aclIpAceStatus OBJECT-TYPE SYNTAX RowStatus MAX-ACCESS read-create STATUS current DESCRIPTION "The status of this conceptual row entry. This object isused to manage the creation and deletion of conceptual rows. The status column has six defined values: - 'active', which indicates that the conceptual row is available for use by the managed device; - 'notInService', which indicates that the conceptual row exists in the agent, but is unavailable for use by the managed device (see NOTE below); - 'notReady', which indicates that the conceptual row exists in the agent, but is missing information necessary in order to be available for use by the managed device; - 'createAndGo', which is supplied by a management station wishing to create a new instance of a conceptual row and to have its status automatically set to active, making it available for use by the managed device; - 'createAndWait', which is supplied by a management station wishing to create a new instance of a conceptual row (but not make it available for use by the managed device); and, - 'destroy', which is supplied by a management station wishing to delete all of the instances associated with an existing conceptual row. Whereas five of the six values (all except 'notReady') may be specified in a management protocol set operation, only three values will be returned in response to a management protocol retrieval operation: 'notReady', 'notInService' or 'active'. That is, when queried, an existing conceptual row has only three states: it is either available for use by the managed device (the status column has value 'active'); it is not available for use by the managed device, though the agent has sufficient information to make it so (the status column has value 'notInService'); or, it is not available for use by the managed device, and an attempt to make it so would fail because the agent has insufficient information (the state column has value 'notReady'). For a detailed description of this object, please refer to SNMPv2-TC MIB." ::= { aclIpAceEntry 23 } -- aclMacAceTable aclMacAceTable OBJECT-TYPE SYNTAX SEQUENCE OF AclMacAceEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The conceptual table of all of aclMacAceEntry." ::= { aclMgt 2 } aclMacAceEntry OBJECT-TYPE SYNTAX AclMacAceEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The conceptual row for aclMacAceTable. " INDEX { aclMacAceName, aclMacAceIndex } ::= { aclMacAceTable 1 } AclMacAceEntry ::= SEQUENCE { aclMacAceName DisplayString, aclMacAceIndex Integer32, aclMacAcePrecedence Integer32, aclMacAceAction INTEGER, aclMacAcePktformat INTEGER, aclMacAceSourceMacAddr OCTET STRING, aclMacAceSourceMacAddrBitmask OCTET STRING, aclMacAceDestMacAddr OCTET STRING, aclMacAceDestMacAddrBitmask OCTET STRING, aclMacAceVidOp INTEGER, aclMacAceMinVid Integer32, aclMacAceVidBitmask Integer32, aclMacAceMaxVid Integer32, aclMacAceEtherTypeOp INTEGER, aclMacAceEtherTypeBitmask Integer32, aclMacAceMinEtherType Integer32, aclMacAceMaxEtherType Integer32, aclMacAceStatus RowStatus } aclMacAceName OBJECT-TYPE SYNTAX DisplayString (SIZE(1..15)) MAX-ACCESS not-accessible STATUS current DESCRIPTION "The name of an ACL. Within a feature, a unique name is used to identify the list to which the entry belongs in the device." ::= { aclMacAceEntry 1 } aclMacAceIndex OBJECT-TYPE SYNTAX Integer32 (1..32) MAX-ACCESS not-accessible STATUS current DESCRIPTION "The unique index of an ACE within an ACL." ::= { aclMacAceEntry 2 } aclMacAcePrecedence OBJECT-TYPE SYNTAX Integer32 (0..32) MAX-ACCESS read-only STATUS current DESCRIPTION "Specifies the entry's precedence." ::= { aclMacAceEntry 3 } aclMacAceAction OBJECT-TYPE SYNTAX INTEGER { permit(1), deny(2) } MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates the action to be taken if a packet matches this ACE. This object cannot be configured when the status of the entry, aclMacAceStatus, is active(1)." ::= { aclMacAceEntry 4 } aclMacAcePktformat OBJECT-TYPE SYNTAX INTEGER { any(1), untagged-Eth2(2), untagged802Dot3(3), tagggedEth2(4), tagged802Dot3(5) } MAX-ACCESS read-create STATUS current DESCRIPTION "Used to check the packet format of the packets. This object cannot be configured when the status of the entry, aclMacAceStatus, is active(1)." ::= { aclMacAceEntry 5 } aclMacAceSourceMacAddr OBJECT-TYPE SYNTAX OCTET STRING (SIZE (6)) MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates the 48-bit destination MAC address. The specified source MAC of the packet The packet's source MAC address is AND-ed with the value of aceMacSourceMacAddrBitmask and then compared against the value of this object. This object cannot be configured when the status of the entry, aclMacAceStatus, is active(1)." ::= { aclMacAceEntry 6 } aclMacAceSourceMacAddrBitmask OBJECT-TYPE SYNTAX OCTET STRING (SIZE (6)) MAX-ACCESS read-create STATUS current DESCRIPTION "The specified source MAC address mask. This object cannot be configured when the status of the entry, aclMacAceStatus, is active(1)." ::= { aclMacAceEntry 7 } aclMacAceDestMacAddr OBJECT-TYPE SYNTAX OCTET STRING (SIZE (6)) MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates the 48-bit destination MAC address. The specified destination MAC of the packet. The packet's destination MAC address is AND-ed with the value of aceMacDestMacAddrBitmask and then compared against the value of this object. This object cannot be configured when the status of the entry, aclMacAceStatus, is active(1)." ::= { aclMacAceEntry 8 } aclMacAceDestMacAddrBitmask OBJECT-TYPE SYNTAX OCTET STRING (SIZE (6)) MAX-ACCESS read-create STATUS current DESCRIPTION "The specified destination MAC address mask. This object cannot be configured when the status of the entry, aclMacAceStatus, is active(1)." ::= { aclMacAceEntry 9 } aclMacAceVidOp OBJECT-TYPE SYNTAX INTEGER { noOperator(1), equal(2), range(3) } MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates how a packet's vid is to be compared. This object cannot be configured when the status of the entry, aclMacAceStatus, is active(1)." ::= { aclMacAceEntry 10 } aclMacAceMinVid OBJECT-TYPE SYNTAX Integer32 (1..4093) MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates the lower bound of the vid value range if the aclMacAceVidOp is range(3). This object cannot be configured when the status of the entry, aclMacAceStatus, is active(1)." ::= { aclMacAceEntry 11 } aclMacAceVidBitmask OBJECT-TYPE SYNTAX Integer32 (0..'0FFF'h) MAX-ACCESS read-create STATUS current DESCRIPTION "The bitmask of vid if the aclMacAceVidOp is equal, default value is 0xfff." ::= { aclMacAceEntry 12 } aclMacAceMaxVid OBJECT-TYPE SYNTAX Integer32 (1..4093) MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates the upper bound of the vid value range if the aclMacAceVidOp is range(3). This object cannot be configured when the status of the entry, aclMacAceStatus, is active(1)." ::= { aclMacAceEntry 13 } aclMacAceEtherTypeOp OBJECT-TYPE SYNTAX INTEGER { noOperator(1), equal(2), range(3) } MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates how a packet's ethertype is to be compared. This object cannot be configured when the status of the entry, aclMacAceStatus, is active(1)." ::= { aclMacAceEntry 14 } aclMacAceEtherTypeBitmask OBJECT-TYPE SYNTAX Integer32 (0..'FFFF'h) MAX-ACCESS read-create STATUS current DESCRIPTION "The bitmask of vid if the aclMacAceVidOp is equal(2) , default value is 0xFFFF." ::= { aclMacAceEntry 15 } aclMacAceMinEtherType OBJECT-TYPE SYNTAX Integer32 ('0600'h..'FFFF'h) MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates the lower bound of the vid value range if the aclMacAceEtherTypeOp is range(3). This object cannot be configured when the status of the entry, aclMacAceStatus, is active(1)." ::= { aclMacAceEntry 16 } aclMacAceMaxEtherType OBJECT-TYPE SYNTAX Integer32 ('0600'h..'FFFF'h) MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates the upper bound of the vid value range if the aclMacAceEtherTypeOp is range(3). This object cannot be configured when the status of the entry, aclMacAceStatus, is active(1)." ::= { aclMacAceEntry 17 } aclMacAceStatus OBJECT-TYPE SYNTAX RowStatus MAX-ACCESS read-create STATUS current DESCRIPTION "The status of this conceptual row entry. This object isused to manage the creation and deletion of conceptual rows. The status column has six defined values: - 'active', which indicates that the conceptual row is available for use by the managed device; - 'notInService', which indicates that the conceptual row exists in the agent, but is unavailable for use by the managed device (see NOTE below); - 'notReady', which indicates that the conceptual row exists in the agent, but is missing information necessary in order to be available for use by the managed device; - 'createAndGo', which is supplied by a management station wishing to create a new instance of a conceptual row and to have its status automatically set to active, making it available for use by the managed device; - 'createAndWait', which is supplied by a management station wishing to create a new instance of a conceptual row (but not make it available for use by the managed device); and, - 'destroy', which is supplied by a management station wishing to delete all of the instances associated with an existing conceptual row. Whereas five of the six values (all except 'notReady') may be specified in a management protocol set operation, only three values will be returned in response to a management protocol retrieval operation: 'notReady', 'notInService' or 'active'. That is, when queried, an existing conceptual row has only three states: it is either available for use by the managed device (the status column has value 'active'); it is not available for use by the managed device, though the agent has sufficient information to make it so (the status column has value 'notInService'); or, it is not available for use by the managed device, and an attempt to make it so would fail because the agent has insufficient information (the state column has value 'notReady'). For a detailed description of this object, please refer to SNMPv2-TC MIB." ::= { aclMacAceEntry 18 } --aclAclGroupTable aclAclGroupTable OBJECT-TYPE SYNTAX SEQUENCE OF AclAclGroupEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The conceptual table of aclAclGroupEntry." ::= { aclMgt 3 } aclAclGroupEntry OBJECT-TYPE SYNTAX AclAclGroupEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The conceptual row for aclAclGroupTable." INDEX { aclAclGroupIfIndex } ::= { aclAclGroupTable 1 } AclAclGroupEntry ::= SEQUENCE { aclAclGroupIfIndex Integer32, aclAclGroupIngressIpAcl DisplayString, aclAclGroupEgressIpAcl DisplayString, aclAclGroupIngressMacAcl DisplayString, aclAclGroupEgressMacAcl DisplayString } aclAclGroupIfIndex OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "The interface number specifying the ACL binding to." ::= { aclAclGroupEntry 1 } aclAclGroupIngressIpAcl OBJECT-TYPE SYNTAX DisplayString (SIZE(0..15)) MAX-ACCESS read-write STATUS current DESCRIPTION "Specifies the ingress IP ACL(standard or extended) binding to the interface." ::= { aclAclGroupEntry 2 } aclAclGroupEgressIpAcl OBJECT-TYPE SYNTAX DisplayString (SIZE(0..15)) MAX-ACCESS read-write STATUS current DESCRIPTION "Specifies the egress IP ACL(standard or extended) binding to the interface." ::= { aclAclGroupEntry 3 } aclAclGroupIngressMacAcl OBJECT-TYPE SYNTAX DisplayString (SIZE(0..15)) MAX-ACCESS read-write STATUS current DESCRIPTION "Specifies the ingress MAC ACL binding to the interface." ::= { aclAclGroupEntry 4 } aclAclGroupEgressMacAcl OBJECT-TYPE SYNTAX DisplayString (SIZE(0..15)) MAX-ACCESS read-write STATUS current DESCRIPTION "Specifies the egress MAC ACL binding to the interface." ::= { aclAclGroupEntry 5 } --aclIngressIpMaskTable aclIngressIpMaskTable OBJECT-TYPE SYNTAX SEQUENCE OF AclIngressIpMaskEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The conceptual table of aclIngressIpMaskEntry." ::= { aclMgt 4 } aclIngressIpMaskEntry OBJECT-TYPE SYNTAX AclIngressIpMaskEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The conceptual row for aclIngressIpMaskTable." INDEX { aclIngressIpMaskIndex } ::= { aclIngressIpMaskTable 1 } AclIngressIpMaskEntry ::= SEQUENCE { aclIngressIpMaskIndex Integer32, aclIngressIpMaskPrecedence Integer32, aclIngressIpMaskIsEnableTos EnabledStatus, aclIngressIpMaskIsEnableDscp EnabledStatus, aclIngressIpMaskIsEnablePrecedence EnabledStatus, aclIngressIpMaskIsEnableProtocol EnabledStatus, aclIngressIpMaskSourceIpAddrBitmask Unsigned32, aclIngressIpMaskDestIpAddrBitmask Unsigned32, aclIngressIpMaskSourcePortBitmask Integer32, aclIngressIpMaskDestPortBitmask Integer32, aclIngressIpMaskControlCodeBitmask Integer32, aclIngressIpMaskStatus RowStatus } aclIngressIpMaskIndex OBJECT-TYPE SYNTAX Integer32 (1..16) MAX-ACCESS not-accessible STATUS current DESCRIPTION "Indicates the bitmask of the source IP address. The relative bitmask must be created before the ACE binds to the interface. This object cannot be configured when the status of the entry, aclIngressIpMaskStatus, is active(1)." ::= { aclIngressIpMaskEntry 1 } aclIngressIpMaskPrecedence OBJECT-TYPE SYNTAX Integer32 (0..16) MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether to check the IP precedence against the packets, The relative bitmask must be created before the ACE binds to the interface in ingress direction. This object cannot be configured when the status of the entry, aclIngressIpMaskStatus, is active(1)." ::= { aclIngressIpMaskEntry 2 } aclIngressIpMaskIsEnableTos OBJECT-TYPE SYNTAX EnabledStatus MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates whether to check the IP ToS facility against the packets, The relative bitmask must be created before the ACE binds to the interface in ingress direction. This object cannot be configured when the status of the entry, aclIngressIpMaskStatus, is active(1)." ::= { aclIngressIpMaskEntry 3 } aclIngressIpMaskIsEnableDscp OBJECT-TYPE SYNTAX EnabledStatus MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates whether to check the IP DSCP against the packets. The relative bitmask must be created before the ACE binds to the interface in ingress direction. This object cannot be configured when the status of the entry, aclIngressIpMaskStatus, is active(1)." ::= { aclIngressIpMaskEntry 4 } aclIngressIpMaskIsEnablePrecedence OBJECT-TYPE SYNTAX EnabledStatus MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates whether to check the IP precednce against the packets. The relative bitmask must be created before the ACE binds to the interface in ingress direction. This object cannot be configured when the status of the entry, aclIngressIpMaskStatus, is active(1)." ::= { aclIngressIpMaskEntry 5 } aclIngressIpMaskIsEnableProtocol OBJECT-TYPE SYNTAX EnabledStatus MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates whether to check the IP protocol against the packets. The relative bitmask must be created before the ACE binds to the interface in ingress direction. This object cannot be configured when the status of the entry, aclIngressIpMaskStatus, is active(1)." ::= { aclIngressIpMaskEntry 6 } aclIngressIpMaskSourceIpAddrBitmask OBJECT-TYPE SYNTAX Unsigned32 (0..'FFFFFFFF'h) MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates the source IP bitmask to check against the packets, The relative bitmask must be created before the ACE binds to the interface in ingress direction. This object cannot be configured when the status of the entry, aclIngressIpMaskStatus, is active(1)." ::= { aclIngressIpMaskEntry 7 } aclIngressIpMaskDestIpAddrBitmask OBJECT-TYPE SYNTAX Unsigned32 (0..'FFFFFFFF'h) MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates the destination IP bitmask to check against the packets, The relative bitmask must be created before the ACE binds to the interface in ingress direction. This object cannot be configured when the status of the entry, aclIngressIpMaskStatus, is active(1)." ::= { aclIngressIpMaskEntry 8 } aclIngressIpMaskSourcePortBitmask OBJECT-TYPE SYNTAX Integer32 (0..'FFFF'h) MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates the source port bitmask to check against the TCP/UDP packets, The relative bitmask must be created before the ACE binds to the interface in ingress direction. This object cannot be configured when the status of the entry, aclIngressIpMaskStatus, is active(1)." ::= { aclIngressIpMaskEntry 9 } aclIngressIpMaskDestPortBitmask OBJECT-TYPE SYNTAX Integer32 (0..'FFFF'h) MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates the destination port bitmask to check against the TCP/UDP packets, The relative bitmask must be created before the ACE binds to the interface in ingress direction. This object cannot be configured when the status of the entry, aclIngressIpMaskStatus, is active(1)." ::= { aclIngressIpMaskEntry 10 } aclIngressIpMaskControlCodeBitmask OBJECT-TYPE SYNTAX Integer32 (0..63) MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates the control code bitmask to check against the TCP packets, The relative bitmask must be created before the ACE binds to the interface in ingress direction. This object cannot be configured when the status of the entry, aclIngressIpMaskStatus, is active(1)." ::= { aclIngressIpMaskEntry 11 } aclIngressIpMaskStatus OBJECT-TYPE SYNTAX RowStatus MAX-ACCESS read-create STATUS current DESCRIPTION "The status of this conceptual row entry. This object isused to manage the creation and deletion of conceptual rows. The status column has six defined values: - 'active', which indicates that the conceptual row is available for use by the managed device; - 'notInService', which indicates that the conceptual row exists in the agent, but is unavailable for use by the managed device (see NOTE below); - 'notReady', which indicates that the conceptual row exists in the agent, but is missing information necessary in order to be available for use by the managed device; - 'createAndGo', which is supplied by a management station wishing to create a new instance of a conceptual row and to have its status automatically set to active, making it available for use by the managed device; - 'createAndWait', which is supplied by a management station wishing to create a new instance of a conceptual row (but not make it available for use by the managed device); and, - 'destroy', which is supplied by a management station wishing to delete all of the instances associated with an existing conceptual row. Whereas five of the six values (all except 'notReady') may be specified in a management protocol set operation, only three values will be returned in response to a management protocol retrieval operation: 'notReady', 'notInService' or 'active'. That is, when queried, an existing conceptual row has only three states: it is either available for use by the managed device (the status column has value 'active'); it is not available for use by the managed device, though the agent has sufficient information to make it so (the status column has value 'notInService'); or, it is not available for use by the managed device, and an attempt to make it so would fail because the agent has insufficient information (the state column has value 'notReady'). For a detailed description of this object, please refer to SNMPv2-TC MIB." ::= { aclIngressIpMaskEntry 12 } --aclEgressIpMaskTable aclEgressIpMaskTable OBJECT-TYPE SYNTAX SEQUENCE OF AclEgressIpMaskEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The conceptual table of aclEgressIpMaskEntry." ::= { aclMgt 5 } aclEgressIpMaskEntry OBJECT-TYPE SYNTAX AclEgressIpMaskEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The conceptual row for aclEgressIpMaskTable." INDEX { aclEgressIpMaskIndex } ::= { aclEgressIpMaskTable 1 } AclEgressIpMaskEntry ::= SEQUENCE { aclEgressIpMaskIndex Integer32, aclEgressIpMaskPrecedence Integer32, aclEgressIpMaskIsEnableTos EnabledStatus, aclEgressIpMaskIsEnableDscp EnabledStatus, aclEgressIpMaskIsEnablePrecedence EnabledStatus, aclEgressIpMaskIsEnableProtocol EnabledStatus, aclEgressIpMaskSourceIpAddrBitmask Unsigned32, aclEgressIpMaskDestIpAddrBitmask Unsigned32, aclEgressIpMaskSourcePortBitmask Integer32, aclEgressIpMaskDestPortBitmask Integer32, aclEgressIpMaskControlCodeBitmask Integer32, aclEgressIpMaskStatus RowStatus } aclEgressIpMaskIndex OBJECT-TYPE SYNTAX Integer32 (1..16) MAX-ACCESS not-accessible STATUS current DESCRIPTION "The index of a mask entry within a mask table." ::= { aclEgressIpMaskEntry 1 } aclEgressIpMaskPrecedence OBJECT-TYPE SYNTAX Integer32 (0..16) MAX-ACCESS read-only STATUS current DESCRIPTION "The created precedence of an mask entry within the mask table." ::= { aclEgressIpMaskEntry 2 } aclEgressIpMaskIsEnableTos OBJECT-TYPE SYNTAX EnabledStatus MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates whether to check the IP ToS facility against the packets. The relative bitmask must be created before the ACE binds to the interface in egress direction. This object cannot be configured when the status of the entry, aclEgressIpMaskStatus, is active(1)." ::= { aclEgressIpMaskEntry 3 } aclEgressIpMaskIsEnableDscp OBJECT-TYPE SYNTAX EnabledStatus MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates whether to check the IP DSCP against the packets. The relative bitmask must be created before the ACE binds to the interface in egress direction. This object cannot be configured when the status of the entry, aclEgressIpMaskStatus, is active(1)." ::= { aclEgressIpMaskEntry 4 } aclEgressIpMaskIsEnablePrecedence OBJECT-TYPE SYNTAX EnabledStatus MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates whether to check the IP precedence against the packets. The relative bitmask must be created before the ACE binds to the interface in egress direction. This object cannot be configured when the status of the entry, aclEgressIpMaskStatus, is active(1)." ::= { aclEgressIpMaskEntry 5 } aclEgressIpMaskIsEnableProtocol OBJECT-TYPE SYNTAX EnabledStatus MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates whether to check the IP protocol against the packets. The relative bitmask must be created before the ACE binds to the interface in egress direction. This object cannot be configured when the status of the entry, aclEgressIpMaskStatus, is active(1)." ::= { aclEgressIpMaskEntry 6 } aclEgressIpMaskSourceIpAddrBitmask OBJECT-TYPE SYNTAX Unsigned32 (0..'FFFFFFFF'h) MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates the source IP bitmask to check against the packets. The relative bitmask must be created before the ACE binds to the interface in egress direction. This object cannot be configured when the status of the entry, aclEgressIpMaskStatus, is active(1)." ::= { aclEgressIpMaskEntry 7 } aclEgressIpMaskDestIpAddrBitmask OBJECT-TYPE SYNTAX Unsigned32 (0..'FFFFFFFF'h) MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates the destination IP bitmask to check against the packets. The relative bitmask must be created before the ACE binds to the interface in egress direction. This object cannot be configured when the status of the entry, aclEgressIpMaskStatus, is active(1)." ::= { aclEgressIpMaskEntry 8 } aclEgressIpMaskSourcePortBitmask OBJECT-TYPE SYNTAX Integer32 (0..'FFFF'h) MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates the source port bitmask to check against the TCP/UDP packets. The relative bitmask must be created before the ACE binds to the interface in egress direction. This object cannot be configured when the status of the entry, aclEgressIpMaskStatus, is active(1)." ::= { aclEgressIpMaskEntry 9 } aclEgressIpMaskDestPortBitmask OBJECT-TYPE SYNTAX Integer32 (0..'FFFF'h) MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates the destination port bitmask to check against the TCP/UDP packets. The relative bitmask must be created before the ACE binds to the interface in egress direction. This object cannot be configured when the status of the entry, aclEgressIpMaskStatus, is active(1)." ::= { aclEgressIpMaskEntry 10 } aclEgressIpMaskControlCodeBitmask OBJECT-TYPE SYNTAX Integer32 (0..63) MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates the control code bitmask to check against the TCP packets. The relative bitmask must be created before the ACE binds to the interface in egress direction. This object cannot be configured when the status of the entry, aclEgressIpMaskStatus, is active(1)." ::= { aclEgressIpMaskEntry 11 } aclEgressIpMaskStatus OBJECT-TYPE SYNTAX RowStatus MAX-ACCESS read-create STATUS current DESCRIPTION "The status of this conceptual row entry. This object isused to manage the creation and deletion of conceptual rows. The status column has six defined values: - 'active', which indicates that the conceptual row is available for use by the managed device; - 'notInService', which indicates that the conceptual row exists in the agent, but is unavailable for use by the managed device (see NOTE below); - 'notReady', which indicates that the conceptual row exists in the agent, but is missing information necessary in order to be available for use by the managed device; - 'createAndGo', which is supplied by a management station wishing to create a new instance of a conceptual row and to have its status automatically set to active, making it available for use by the managed device; - 'createAndWait', which is supplied by a management station wishing to create a new instance of a conceptual row (but not make it available for use by the managed device); and, - 'destroy', which is supplied by a management station wishing to delete all of the instances associated with an existing conceptual row. Whereas five of the six values (all except 'notReady') may be specified in a management protocol set operation, only three values will be returned in response to a management protocol retrieval operation: 'notReady', 'notInService' or 'active'. That is, when queried, an existing conceptual row has only three states: it is either available for use by the managed device (the status column has value 'active'); it is not available for use by the managed device, though the agent has sufficient information to make it so (the status column has value 'notInService'); or, it is not available for use by the managed device, and an attempt to make it so would fail because the agent has insufficient information (the state column has value 'notReady'). For a detailed description of this object, please refer to SNMPv2-TC MIB." ::= { aclEgressIpMaskEntry 12 } --aclIngressMacMaskTable aclIngressMacMaskTable OBJECT-TYPE SYNTAX SEQUENCE OF AclIngressMacMaskEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The conceptual table of aclIngressMacMaskEntry." ::= { aclMgt 6 } aclIngressMacMaskEntry OBJECT-TYPE SYNTAX AclIngressMacMaskEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The conceptual row for aclIngressMacMaskTable." INDEX { aclIngressMacMaskIndex } ::= { aclIngressMacMaskTable 1 } AclIngressMacMaskEntry ::= SEQUENCE { aclIngressMacMaskIndex Integer32, aclIngressMacMaskPrecedence Integer32, aclIngressMacMaskSourceMacAddrBitmask OCTET STRING, aclIngressMacMaskDestMacAddrBitmask OCTET STRING, aclIngressMacMaskVidBitmask Integer32, aclIngressMacMaskEtherTypeBitmask Integer32, aclIngressMacMaskIsEnablePktformat EnabledStatus, aclIngressMacMaskStatus RowStatus } aclIngressMacMaskIndex OBJECT-TYPE SYNTAX Integer32 (1..16) MAX-ACCESS not-accessible STATUS current DESCRIPTION "The index of an mask entry within an ingress mask table." ::= { aclIngressMacMaskEntry 1 } aclIngressMacMaskPrecedence OBJECT-TYPE SYNTAX Integer32 (0..16) MAX-ACCESS read-only STATUS current DESCRIPTION "The created order of an mask entry within an ingress mask table." ::= { aclIngressMacMaskEntry 2 } aclIngressMacMaskSourceMacAddrBitmask OBJECT-TYPE SYNTAX OCTET STRING (SIZE (6)) MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates the source MAC bitmask to check against the packets. The relative bitmask must be created before the ACE binds to the interface in ingress direction. This object cannot be configured when the status of the entry, aclIngressMacMaskStatus, is active(1)." ::= { aclIngressMacMaskEntry 3 } aclIngressMacMaskDestMacAddrBitmask OBJECT-TYPE SYNTAX OCTET STRING (SIZE (6)) MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates the destination MAC bitmask to check against the packets. The relative bitmask must be created before the ACE binds to the interface in ingress direction. This object cannot be configured when the status of the entry, aclIngressMacMaskStatus, is active(1)." ::= { aclIngressMacMaskEntry 4 } aclIngressMacMaskVidBitmask OBJECT-TYPE SYNTAX Integer32 (0..'0FFF'h) MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates the vid bitmask to check against the packets, The relative bitmask must be created before the ACE binds to the interface in ingress direction. This object cannot be configured when the status of the entry, aclIngressMacMaskStatus, is active(1)." ::= { aclIngressMacMaskEntry 5 } aclIngressMacMaskEtherTypeBitmask OBJECT-TYPE SYNTAX Integer32 (0..'FFFF'h) MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates the ethertype bitmask to check against the packets. The relative bitmask must be created before the ACE binds to the interface in ingress direction. This object cannot be configured when the status of the entry, aclIngressMacMaskStatus, is active(1)." ::= { aclIngressMacMaskEntry 6 } aclIngressMacMaskIsEnablePktformat OBJECT-TYPE SYNTAX EnabledStatus MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates whether to check the packet format against the packets. The relative bitmask must be created before the ACE binds to the interface in ingress direction. This object cannot be configured when the status of the entry, aclIngressMacMaskStatus, is active(1)." ::= { aclIngressMacMaskEntry 7 } aclIngressMacMaskStatus OBJECT-TYPE SYNTAX RowStatus MAX-ACCESS read-create STATUS current DESCRIPTION "The status of this conceptual row entry. This object isused to manage the creation and deletion of conceptual rows. The status column has six defined values: - 'active', which indicates that the conceptual row is available for use by the managed device; - 'notInService', which indicates that the conceptual row exists in the agent, but is unavailable for use by the managed device (see NOTE below); - 'notReady', which indicates that the conceptual row exists in the agent, but is missing information necessary in order to be available for use by the managed device; - 'createAndGo', which is supplied by a management station wishing to create a new instance of a conceptual row and to have its status automatically set to active, making it available for use by the managed device; - 'createAndWait', which is supplied by a management station wishing to create a new instance of a conceptual row (but not make it available for use by the managed device); and, - 'destroy', which is supplied by a management station wishing to delete all of the instances associated with an existing conceptual row. Whereas five of the six values (all except 'notReady') may be specified in a management protocol set operation, only three values will be returned in response to a management protocol retrieval operation: 'notReady', 'notInService' or 'active'. That is, when queried, an existing conceptual row has only three states: it is either available for use by the managed device (the status column has value 'active'); it is not available for use by the managed device, though the agent has sufficient information to make it so (the status column has value 'notInService'); or, it is not available for use by the managed device, and an attempt to make it so would fail because the agent has insufficient information (the state column has value 'notReady'). For a detailed description of this object, please refer to SNMPv2-TC MIB." ::= { aclIngressMacMaskEntry 8 } --aclEgressMacMaskTable aclEgressMacMaskTable OBJECT-TYPE SYNTAX SEQUENCE OF AclEgressMacMaskEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The conceptual table of aclEgressMacMaskEntry." ::= { aclMgt 7 } aclEgressMacMaskEntry OBJECT-TYPE SYNTAX AclEgressMacMaskEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The conceptual row for aclEgressMacMaskTable." INDEX { aclEgressMacMaskIndex } ::= { aclEgressMacMaskTable 1 } AclEgressMacMaskEntry ::= SEQUENCE { aclEgressMacMaskIndex Integer32, aclEgressMacMaskPrecedence Integer32, aclEgressMacMaskSourceMacAddrBitmask OCTET STRING, aclEgressMacMaskDestMacAddrBitmask OCTET STRING, aclEgressMacMaskVidBitmask Integer32, aclEgressMacMaskEtherTypeBitmask Integer32, aclEgressMacMaskIsEnablePktformat EnabledStatus, aclEgressMacMaskStatus RowStatus } aclEgressMacMaskIndex OBJECT-TYPE SYNTAX Integer32 (1..16) MAX-ACCESS not-accessible STATUS current DESCRIPTION "The index of a mask entry within an egress mask table." ::= { aclEgressMacMaskEntry 1 } aclEgressMacMaskPrecedence OBJECT-TYPE SYNTAX Integer32 (0..16) MAX-ACCESS read-only STATUS current DESCRIPTION "The created precedence of a mask entry within an egress mask table." ::= { aclEgressMacMaskEntry 2 } aclEgressMacMaskSourceMacAddrBitmask OBJECT-TYPE SYNTAX OCTET STRING (SIZE (6)) MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates the source MAC bitmask to check against the packets, The relative bitmask must be created before the ACE binds to the interface in ingress direction. This object cannot be configured when the status of the entry, aclEgressMacMaskStatus, is active(1)." ::= { aclEgressMacMaskEntry 3 } aclEgressMacMaskDestMacAddrBitmask OBJECT-TYPE SYNTAX OCTET STRING (SIZE (6)) MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates the destination MAC bitmask to check against the packets, The relative bitmask must be created before the ACE binds to the interface in ingress direction. This object cannot be configured when the status of the entry, aclEgressMacMaskStatus, is active(1)." ::= { aclEgressMacMaskEntry 4 } aclEgressMacMaskVidBitmask OBJECT-TYPE SYNTAX Integer32 (0..'0FFF'h) MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates the vid bitmask to check against the packets. The relative bitmask must be created before the ACE binds to the interface in ingress direction. This object cannot be configured when the status of the entry, aclEgressMacMaskStatus, is active(1)." ::= { aclEgressMacMaskEntry 5 } aclEgressMacMaskEtherTypeBitmask OBJECT-TYPE SYNTAX Integer32 (0..'FFFF'h) MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates the ethertype bitmask to check against the packets. The relative bitmask must be created before the ACE binds to the interface in ingress direction. This object cannot be configured when the status of the entry, aclEgressMacMaskStatus, is active(1)." ::= { aclEgressMacMaskEntry 6 } aclEgressMacMaskIsEnablePktformat OBJECT-TYPE SYNTAX EnabledStatus MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates whether to check the packet format against the packets. The relative bitmask must be created before the ACE binds to the interface in ingress direction. This object cannot be configured when the status of the entry, aclEgressMacMaskStatus, is active(1)." ::= { aclEgressMacMaskEntry 7 } aclEgressMacMaskStatus OBJECT-TYPE SYNTAX RowStatus MAX-ACCESS read-create STATUS current DESCRIPTION "The status of this conceptual row entry. This object isused to manage the creation and deletion of conceptual rows. The status column has six defined values: - 'active', which indicates that the conceptual row is available for use by the managed device; - 'notInService', which indicates that the conceptual row exists in the agent, but is unavailable for use by the managed device (see NOTE below); - 'notReady', which indicates that the conceptual row exists in the agent, but is missing information necessary in order to be available for use by the managed device; - 'createAndGo', which is supplied by a management station wishing to create a new instance of a conceptual row and to have its status automatically set to active, making it available for use by the managed device; - 'createAndWait', which is supplied by a management station wishing to create a new instance of a conceptual row (but not make it available for use by the managed device); and, - 'destroy', which is supplied by a management station wishing to delete all of the instances associated with an existing conceptual row. Whereas five of the six values (all except 'notReady') may be specified in a management protocol set operation, only three values will be returned in response to a management protocol retrieval operation: 'notReady', 'notInService' or 'active'. That is, when queried, an existing conceptual row has only three states: it is either available for use by the managed device (the status column has value 'active'); it is not available for use by the managed device, though the agent has sufficient information to make it so (the status column has value 'notInService'); or, it is not available for use by the managed device, and an attempt to make it so would fail because the agent has insufficient information (the state column has value 'notReady'). For a detailed description of this object, please refer to SNMPv2-TC MIB." ::= { aclEgressMacMaskEntry 8 } -- -- ipFilterMgt -- --ipFilterSnmpTable ipFilterSnmpTable OBJECT-TYPE SYNTAX SEQUENCE OF IpFilterSnmpEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of IP address entries." ::= { ipFilterMgt 1 } ipFilterSnmpEntry OBJECT-TYPE SYNTAX IpFilterSnmpEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This entry includes an IP address range which the system will allow them to connect to this device through SNMP." INDEX { ipFilterSnmpStartAddress } ::= { ipFilterSnmpTable 1 } IpFilterSnmpEntry ::= SEQUENCE { ipFilterSnmpStartAddress IpAddress, ipFilterSnmpEndAddress IpAddress, ipFilterSnmpStatus ValidStatus } ipFilterSnmpStartAddress OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS not-accessible STATUS current DESCRIPTION "The start-ip-address." ::= { ipFilterSnmpEntry 1 } ipFilterSnmpEndAddress OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS read-create STATUS current DESCRIPTION "The end-ip-address." ::= { ipFilterSnmpEntry 2 } ipFilterSnmpStatus OBJECT-TYPE SYNTAX ValidStatus MAX-ACCESS read-create STATUS current DESCRIPTION "Setting this to valid(1) creates an entry. Setting this to invalid(2) destroys an entry." ::= { ipFilterSnmpEntry 3 } --ipFilterHTTPTable ipFilterHTTPTable OBJECT-TYPE SYNTAX SEQUENCE OF IpFilterHTTPEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of IP address entries." ::= { ipFilterMgt 2 } ipFilterHTTPEntry OBJECT-TYPE SYNTAX IpFilterHTTPEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This entry includes an IP address range which the system will allow them to connect to this device through SNMP." INDEX { ipFilterHTTPStartAddress } ::= { ipFilterHTTPTable 1 } IpFilterHTTPEntry ::= SEQUENCE { ipFilterHTTPStartAddress IpAddress, ipFilterHTTPEndAddress IpAddress, ipFilterHTTPStatus ValidStatus } ipFilterHTTPStartAddress OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS not-accessible STATUS current DESCRIPTION "The start-ip-address." ::= { ipFilterHTTPEntry 1 } ipFilterHTTPEndAddress OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS read-create STATUS current DESCRIPTION "The end-ip-address." ::= { ipFilterHTTPEntry 2 } ipFilterHTTPStatus OBJECT-TYPE SYNTAX ValidStatus MAX-ACCESS read-create STATUS current DESCRIPTION "Setting this to valid(1) creates an entry. Setting this to invalid(2) destroys an entry." ::= { ipFilterHTTPEntry 3 } --ipFilterTelnetTable ipFilterTelnetTable OBJECT-TYPE SYNTAX SEQUENCE OF IpFilterTelnetEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of IP address entries." ::= { ipFilterMgt 3 } ipFilterTelnetEntry OBJECT-TYPE SYNTAX IpFilterTelnetEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This entry includes an IP address range which the system will allow them to connect to this device through SNMP." INDEX { ipFilterTelnetStartAddress } ::= { ipFilterTelnetTable 1 } IpFilterTelnetEntry ::= SEQUENCE { ipFilterTelnetStartAddress IpAddress, ipFilterTelnetEndAddress IpAddress, ipFilterTelnetStatus ValidStatus } ipFilterTelnetStartAddress OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS not-accessible STATUS current DESCRIPTION "The start-ip-address." ::= { ipFilterTelnetEntry 1 } ipFilterTelnetEndAddress OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS read-create STATUS current DESCRIPTION "The end-ip-address." ::= { ipFilterTelnetEntry 2 } ipFilterTelnetStatus OBJECT-TYPE SYNTAX ValidStatus MAX-ACCESS read-create STATUS current DESCRIPTION "Setting this to valid(1) creates an entry. Setting this to invalid(2) destroys an entry." ::= { ipFilterTelnetEntry 3 } -- -- sysLogMgt -- sysLogStatus OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "Whether system log is enabled." ::= { sysLogMgt 1 } sysLogHistoryFlashLevel OBJECT-TYPE SYNTAX INTEGER (0..7) MAX-ACCESS read-write STATUS current DESCRIPTION "Severity level for logging to flash." ::= { sysLogMgt 2 } sysLogHistoryRamLevel OBJECT-TYPE SYNTAX INTEGER (0..7) MAX-ACCESS read-write STATUS current DESCRIPTION "Severity level for logging to RAM." ::= { sysLogMgt 3 } remoteLogMgt OBJECT IDENTIFIER ::= { sysLogMgt 6 } remoteLogStatus OBJECT-TYPE SYNTAX EnabledStatus MAX-ACCESS read-write STATUS current DESCRIPTION "Whether the remote log system is enabled." ::= { remoteLogMgt 1 } remoteLogLevel OBJECT-TYPE SYNTAX Integer32 (0..7) MAX-ACCESS read-write STATUS current DESCRIPTION "Severity level for remote log." ::= { remoteLogMgt 2 } remoteLogFacilityType OBJECT-TYPE SYNTAX INTEGER { localUse0(16), localUse1(17), localUse2(18), localUse3(19), localUse4(20), localUse5(21), localUse6(22), localUse7(23) } MAX-ACCESS read-write STATUS current DESCRIPTION " The FacilityType for remote log." ::= { remoteLogMgt 3 } remoteLogServerTable OBJECT-TYPE SYNTAX SEQUENCE OF RemoteLogServerEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A Table for storing the remote log Server list." ::= { remoteLogMgt 4 } remoteLogServerEntry OBJECT-TYPE SYNTAX RemoteLogServerEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A conceptually row for remoteLogServerTable." INDEX { remoteLogServerIp } ::= { remoteLogServerTable 1 } RemoteLogServerEntry ::= SEQUENCE { remoteLogServerIp IpAddress, remoteLogServerStatus ValidStatus } remoteLogServerIp OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS not-accessible STATUS current DESCRIPTION "The IP address of the remote log Server." ::= { remoteLogServerEntry 1 } remoteLogServerStatus OBJECT-TYPE SYNTAX ValidStatus MAX-ACCESS read-create STATUS current DESCRIPTION "Setting this to valid(1) creates an entry. Setting this to invalid(2) destroys an entry." ::= { remoteLogServerEntry 2 } -- --smtpMgt -- smtpMgt OBJECT IDENTIFIER ::= { sysLogMgt 7 } smtpStatus OBJECT-TYPE SYNTAX EnabledStatus MAX-ACCESS read-write STATUS current DESCRIPTION "Set enabled(1) to enable the SMTP, set disabled(2) to disable the SMTP." ::= { smtpMgt 1 } smtpSeverityLevel OBJECT-TYPE SYNTAX Integer32 (0..7) MAX-ACCESS read-write STATUS current DESCRIPTION "specify the SMTP minimum severity level to send the event message." ::= { smtpMgt 2 } smtpSourceEMail OBJECT-TYPE SYNTAX DisplayString (SIZE(0..41)) MAX-ACCESS read-write STATUS current DESCRIPTION "SMTP source email address, the sender's mail address that appears in the 'From' field of the mail." ::= { smtpMgt 3 } --smtpServerIpTable smtpServerIpTable OBJECT-TYPE SYNTAX SEQUENCE OF SmtpServerIpEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The table of SMTP server Ip. The maximum servers to be added is 3." ::= { smtpMgt 4 } smtpServerIpEntry OBJECT-TYPE SYNTAX SmtpServerIpEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A conceptual row of the smtpServerIpTable." INDEX { smtpServerIp } ::= { smtpServerIpTable 1 } SmtpServerIpEntry ::= SEQUENCE { smtpServerIp IpAddress, smtpServerIpStatus ValidStatus } smtpServerIp OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS accessible-for-notify STATUS current DESCRIPTION " SMTP mail servers IP address." ::= { smtpServerIpEntry 1 } smtpServerIpStatus OBJECT-TYPE SYNTAX ValidStatus MAX-ACCESS read-create STATUS current DESCRIPTION "Setting this to valid(1) creates an entry. Setting this to invalid(2) destroys an entry." ::= { smtpServerIpEntry 2 } --smtpDestEMailTable smtpDestEMailTable OBJECT-TYPE SYNTAX SEQUENCE OF SmtpDestEMailEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The table of the destination e-mail address. The maximum numbers of destination email address to be added is 5." ::= { smtpMgt 5} smtpDestEMailEntry OBJECT-TYPE SYNTAX SmtpDestEMailEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A conceptual row of the smtpDestEMailTable." INDEX { smtpDestEMail } ::= { smtpDestEMailTable 1 } SmtpDestEMailEntry ::= SEQUENCE { smtpDestEMail DisplayString, smtpDestEMailStatus ValidStatus } smtpDestEMail OBJECT-TYPE SYNTAX DisplayString (SIZE(0..41)) MAX-ACCESS not-accessible STATUS current DESCRIPTION "SMTP destination e-mail address." ::= { smtpDestEMailEntry 1 } smtpDestEMailStatus OBJECT-TYPE SYNTAX ValidStatus MAX-ACCESS read-create STATUS current DESCRIPTION "Setting this to valid(1) creates an entry. Setting this to invalid(2) destroys an entry." ::= { smtpDestEMailEntry 2 } -- -- lineMgt -- consoleMgt OBJECT IDENTIFIER ::= { lineMgt 1 } telnetMgt OBJECT IDENTIFIER ::= { lineMgt 2 } --consoleMgt consoleDataBits OBJECT-TYPE SYNTAX INTEGER { databits7(1), databits8(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "Number of data bits." ::= { consoleMgt 1 } consoleParity OBJECT-TYPE SYNTAX INTEGER { partyNone(1), partyEven(2), partyOdd(3) } MAX-ACCESS read-write STATUS current DESCRIPTION "Define the generation of a parity bit." ::= { consoleMgt 2 } consoleStopBits OBJECT-TYPE SYNTAX INTEGER { stopbits1(1), stopbits2(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "The stop Bits of the console, valid value is stopbits1(1) or stopbits2(2)" ::= { consoleMgt 4 } consoleExecTimeout OBJECT-TYPE SYNTAX INTEGER (0..65535) MAX-ACCESS read-write STATUS current DESCRIPTION "In serial console, use the consoleExecTimeout variables to set the interval that the EXEC command interpreter waits until user input is detected, set the value to 0 to disable it." ::= { consoleMgt 5 } consolePasswordThreshold OBJECT-TYPE SYNTAX INTEGER (0..120) MAX-ACCESS read-write STATUS current DESCRIPTION "In serial console, use the consolePasswordThreshold variabes to set the password intrusion threshold, which limits the number of failed logon attempts allowed. Set it value to 0 to disable it." ::= { consoleMgt 6 } consoleSilentTime OBJECT-TYPE SYNTAX INTEGER (0..65535) MAX-ACCESS read-write STATUS current DESCRIPTION "In Console, Use the consoleSilentTime variable to set the amount of time the management console is inaccessible after the number of unsuccessful logon attempts exceeds the threshold set by the password-thresh command. Set it to 0 to disable it." ::= { consoleMgt 7 } consoleAdminBaudRate OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "Baud rate. Valid values are 2400, 4800, 9600, 19200, 38400, 57600, 115200. Setting this variable to 0 means autobaud. Please read the actual baud rate in the consoleOperBaudRate variable." ::= { consoleMgt 8 } consoleOperBaudRate OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The baud rate currently in use." ::= { consoleMgt 9 } -- telnetMgt telnetExecTimeout OBJECT-TYPE SYNTAX INTEGER (0..65535) MAX-ACCESS read-write STATUS current DESCRIPTION "In a telnet session, to set the interval that the EXEC command interpreter waits until user input is detected, use the telnetExecTimeout variables. " ::= { telnetMgt 1 } telnetPasswordThreshold OBJECT-TYPE SYNTAX INTEGER (0..120) MAX-ACCESS read-write STATUS current DESCRIPTION "In a telnet session, use the consolePasswordThreshold variabes to set the password intrusion threshold, which limits the number of failed logon attempts allowed. Set it value to 0 to disable it." ::= { telnetMgt 2 } telnetStatus OBJECT-TYPE SYNTAX EnabledStatus MAX-ACCESS read-write STATUS current DESCRIPTION "To enable or disable the telnet function. Any new telnet request will be rejected and all current telnet sessions will be terminated if this status is set to disabled(2)." DEFVAL { enabled } ::= { telnetMgt 4 } telnetPortNumber OBJECT-TYPE SYNTAX Integer32 (1..65535) MAX-ACCESS read-write STATUS current DESCRIPTION "The telnet session port number." DEFVAL { 23 } ::= { telnetMgt 5 } -- -- qosMgt -- -- Management for Quality of Service (QoS) for network traffic. -- rateLimitMgt -- optional rateLimitMgt OBJECT IDENTIFIER ::= { qosMgt 1 } rateLimitPortTable OBJECT-TYPE SYNTAX SEQUENCE OF RateLimitPortEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Table for rate limit of each port." ::= { rateLimitMgt 2 } rateLimitPortEntry OBJECT-TYPE SYNTAX RateLimitPortEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Entry for rate limit of each port." INDEX { rlPortIndex } ::= { rateLimitPortTable 1 } RateLimitPortEntry ::= SEQUENCE { rlPortIndex Integer32, rlPortInputLimit Integer32, rlPortOutputLimit Integer32, rlPortInputStatus EnabledStatus, rlPortOutputStatus EnabledStatus } rlPortIndex OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "The port and the trunk (including trunk member) interface of the portTable. The interface identified by a particular value of this index is the same interface as identified by the same value of ifIndex in the IF-MIB." ::= { rateLimitPortEntry 1 } -- non ACD rlPortInputLimit OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "Value of the input rate limit. Its unit is megabits per second. For a 100 Mb/s port, the range is 1 to 100. For a 1000 Mb/s port, the range is 1 to 1000." ::= { rateLimitPortEntry 2 } -- non ACD rlPortOutputLimit OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "Value of the output rate limit. Its unit is megabits per second. For a 100 Mb/s port, the range is 1 to 100. For a 1000 Mb/s port, the range is 1 to 1000." ::= { rateLimitPortEntry 3 } -- all need (both acd and non-acd) rlPortInputStatus OBJECT-TYPE SYNTAX EnabledStatus MAX-ACCESS read-write STATUS current DESCRIPTION "Whether input rate limit is enabled for this port." ::= { rateLimitPortEntry 6 } -- all need (both acd and non-acd) rlPortOutputStatus OBJECT-TYPE SYNTAX EnabledStatus MAX-ACCESS read-write STATUS current DESCRIPTION "Whether output rate limit is enabled for this port." ::= { rateLimitPortEntry 7 } -- --markerMgt -- markerMgt OBJECT IDENTIFIER ::= { qosMgt 2 } markerTable OBJECT-TYPE SYNTAX SEQUENCE OF MarkerEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The marker table." ::= { markerMgt 1 } markerEntry OBJECT-TYPE SYNTAX MarkerEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Entry for marker table." INDEX { markerIfIndex,markerAclName } ::= { markerTable 1 } MarkerEntry ::= SEQUENCE { markerIfIndex Integer32, markerAclName DisplayString, markerActionBitList BITS, markerDscp Integer32, markerPrecedence Integer32, markerPriority Integer32, markerStatus RowStatus } markerIfIndex OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "The interface index of the marker table. The interface identified by a particular value of this index is the same interface as identified by the same value of ifIndex in the IF-MIB." ::= { markerEntry 1 } markerAclName OBJECT-TYPE SYNTAX DisplayString (SIZE(1..15)) MAX-ACCESS not-accessible STATUS current DESCRIPTION "The name of an ACL. Within a feature the name is unique used to identifies the list to which the entry belongs in the device." ::= { markerEntry 2 } markerActionBitList OBJECT-TYPE SYNTAX BITS { dscp(0), precedence(1), priority(2) } MAX-ACCESS read-create STATUS current DESCRIPTION "The marker action bit list, in right to left order. for example: 0x3(11 in binary) means dscp(0) and precedence(1) 0x4(100 in binary) means priority(2)" ::= { markerEntry 3 } markerDscp OBJECT-TYPE SYNTAX Integer32(0..63) MAX-ACCESS read-create STATUS current DESCRIPTION "The Dscp value of the marker entry." ::= { markerEntry 4 } markerPrecedence OBJECT-TYPE SYNTAX Integer32(0..7) MAX-ACCESS read-create STATUS current DESCRIPTION "The precedence value of the marker entry." ::= { markerEntry 5 } markerPriority OBJECT-TYPE SYNTAX Integer32(0..7) MAX-ACCESS read-create STATUS current DESCRIPTION "The priority value of the marker entry." ::= { markerEntry 6 } markerStatus OBJECT-TYPE SYNTAX RowStatus MAX-ACCESS read-create STATUS current DESCRIPTION "The status of this marker conceptual row entry. This object is used to manage creation, deletion and modification of rows in this table. An entry may not exist in the active state unless all objects in the entry have an appropriate value. Once a row becomes active, value in any other column within such row cannot be modified. ip ace created by SNMP basically belong to ip extended ACL. Valid values are: active(1); notInService(2); notReady(3); createAndGo(4); createAndWait(5); destroy(6). Set this value to createAndGo(4) to ceate a new entry and make it active at once, set to createAndWait(5) means create a new entry but not active now, set to destroy(6) to delete an entry You may get one of the following value when you try to read this variable: active(1); notInService(2); notReady(3) representing the current status of this entry" ::= { markerEntry 7 } cosMgt OBJECT IDENTIFIER ::= { qosMgt 3 } --prioAclToCosMappingTable prioAclToCosMappingTable OBJECT-TYPE SYNTAX SEQUENCE OF PrioAclToCosMappingEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Table for Acl to Cos Mapping." ::= { cosMgt 1 } prioAclToCosMappingEntry OBJECT-TYPE SYNTAX PrioAclToCosMappingEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Entry for Acl to Cos Mapping." INDEX { prioAclToCosMappingIfIndex, prioAclToCosMappingAclName } ::= { prioAclToCosMappingTable 1 } PrioAclToCosMappingEntry ::= SEQUENCE { prioAclToCosMappingIfIndex Integer32, prioAclToCosMappingAclName DisplayString, prioAclToCosMappingCosValue Integer32, prioAclToCosMappingStatus RowStatus } prioAclToCosMappingIfIndex OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "The port interface of the prioAclToCosMappingEntry. The interface identified by a particular value of this index is the same interface as identified by the same value of ifIndex in the IF-MIB." ::= { prioAclToCosMappingEntry 1 } prioAclToCosMappingAclName OBJECT-TYPE SYNTAX DisplayString (SIZE(1..15)) MAX-ACCESS not-accessible STATUS current DESCRIPTION "The name of an IP ACL. Within a feature the name is unique used to identifies the list to which the entry belongs in the device." ::= { prioAclToCosMappingEntry 2 } prioAclToCosMappingCosValue OBJECT-TYPE SYNTAX Integer32 (0..7) MAX-ACCESS read-create STATUS current DESCRIPTION "Cos value of the prioAclToCosMappingTable." ::= { prioAclToCosMappingEntry 3 } prioAclToCosMappingStatus OBJECT-TYPE SYNTAX RowStatus MAX-ACCESS read-create STATUS current DESCRIPTION "The status of this acl to cos mapping conceptual row entry. This object is used to manage creation, deletion and modification of rows in this table. An entry may not exist in the active state unless all objects in the entry have an appropriate value. Once a row becomes active, value in any other column within such row cannot be modified. ip ace created by SNMP basically belong to ip extended ACL. Valid values are: active(1); notInService(2); notReady(3); createAndGo(4); createAndWait(5); destroy(6). Set this value to createAndGo(4) to ceate a new entry and make it active at once, set to createAndWait(5) means create a new entry but not active now, set to destroy(6) to delete an entry You may get one of the following value when you try to read this variable: active(1); notInService(2); notReady(3) representing the current status of this entry." ::= { prioAclToCosMappingEntry 4 } -- -- sysTimeMgt -- sntpMgt OBJECT IDENTIFIER ::= { sysTimeMgt 1 } sntpStatus OBJECT-TYPE SYNTAX EnabledStatus MAX-ACCESS read-write STATUS current DESCRIPTION "Set enabled(1) to enable the SNTP, set disabled(2) to disable the SNTP." ::= { sntpMgt 1 } sntpServiceMode OBJECT-TYPE SYNTAX INTEGER { unicast(1), anycast(3) } MAX-ACCESS read-write STATUS current DESCRIPTION "Service mode." ::= { sntpMgt 2 } sntpPollInterval OBJECT-TYPE SYNTAX Integer32(16..16384) MAX-ACCESS read-write STATUS current DESCRIPTION "Polling interval." ::= { sntpMgt 3 } sntpServerTable OBJECT-TYPE SYNTAX SEQUENCE OF SntpServerEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Table for SNTP servers" ::= { sntpMgt 4 } sntpServerEntry OBJECT-TYPE SYNTAX SntpServerEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Entry for SNTP servers." INDEX { sntpServerIndex } ::= { sntpServerTable 1 } SntpServerEntry ::= SEQUENCE { sntpServerIndex Integer32, sntpServerIpAddress IpAddress } sntpServerIndex OBJECT-TYPE SYNTAX Integer32 (1..3) MAX-ACCESS not-accessible STATUS current DESCRIPTION "The index of a server. This table has fixed size." ::= { sntpServerEntry 1 } sntpServerIpAddress OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS read-write STATUS current DESCRIPTION "The IP address of a server. Valid IP addresses must occupy contiguous indexes. All IP addresses after the last valid index is 0." ::= { sntpServerEntry 2 } sysCurrentTime OBJECT-TYPE SYNTAX DisplayString(SIZE(20)) MAX-ACCESS read-write STATUS current DESCRIPTION "It is a text string in the following form, based on Unix: 'Mmm _d hh:mm:ss yyyy'. 'Mmm' is the first three letters of the English name of the month. '_d' is the day of month. A single-digit day is preceded by the space. 'hh:mm:ss' is a 24-hour representations of hours, minutes, and seconds. A single-digit hour is preceded by a zero. 'yyyy' is the four-digit year. An example is: 'Jan 1 02:03:04 2002'." ::= { sysTimeMgt 2 } sysTimeZone OBJECT-TYPE SYNTAX DisplayString(SIZE(6)) MAX-ACCESS read-write STATUS current DESCRIPTION "It is a text string in the following form: '[s]hh:mm'. '[s]' is a plus-or-minus sign. For UTC, this is omitted. For a positive offset, this is '+'. For a negative offset, this is '-'. 'hh:mm' in the hour and minute offset from UTC. A single-digit hour is preceded by a zero." ::= { sysTimeMgt 3 } sysTimeZoneName OBJECT-TYPE SYNTAX DisplayString(SIZE(1..30)) MAX-ACCESS read-write STATUS current DESCRIPTION "The name of the time zone." ::= { sysTimeMgt 4 } -- -- fileMgt -- -- Management for File System Manipulate, including files copy, display and delete. fileCopyMgt OBJECT IDENTIFIER ::= { fileMgt 1 } -- -- This mangement performs the copy operation. -- fileCopySrcOperType OBJECT-TYPE SYNTAX INTEGER { file(1), runningCfg(2), startUpCfg(3), tftp(4), unit(5) } MAX-ACCESS read-write STATUS current DESCRIPTION "The Copy Operation in which we want to perform to the fileCopyDestOperType, this operation is similar to the CLI command 'copy fileCopySrcOperType fileCopyDestOperType'. file(1) means we want to perform the 'copy file fileCopyDestType' operation, runningCfg(2) means we want to perform the 'copy running-config fileCopyDestOperType' operation, startUpCfg(3) means we want to perform the 'copy startup-config fileCopyDestOperType' operation, tftp(4) means we want to perform the 'copy tftp fileCopyDestOperType' operation, unit(5) is only avaiable in stacking system, in which we can copy files from one unit to another unit and it means we want to perform the 'copy unit fileCopyDestOperType' operation. The possible permuations is as follow: (1)copy file file (2)copy file runningCfg (3) copy file startUpCfg (4)copy file tftp (5) copy file unit(for stacking system only) (6)copy runningCfg file (7)copy runningCfg startUpCfg (8)copy runningCfg tftp (9)copy startupCfg file (10)copy startupCfg runningcfg (11)copy startupCfg tftp (12)copy tftp file (13)copy tftp runningCfg (14)copy tftp startUpCfg (15)copy unit file." ::= { fileCopyMgt 1} fileCopySrcFileName OBJECT-TYPE SYNTAX DisplayString (SIZE(0..127)) MAX-ACCESS read-write STATUS current DESCRIPTION "The source file name for fileCopyMgt when a copy operation is next requested via this MIB. This value is set to the zero length string when no file name has been specified. Note: if the fileCopySrcOperType is runningCfg(2) or startUpCfg(3), this varible can be ignored." ::= { fileCopyMgt 2 } fileCopyDestOperType OBJECT-TYPE SYNTAX INTEGER { file(1), runningCfg(2), startUpCfg(3), tftp(4), unit(5) } MAX-ACCESS read-write STATUS current DESCRIPTION "The Copy Operation in which we want to perform from the fileCopySrcOperType, this operation is similar to the CLI command 'copy fileCopySrcOperType fileCopyDestOperType'. file(1) means we want to perform the 'copy fileCopySrcType file ' operation, runningCfg(2) means we want to perform the 'copy fileCopySrcOperType running-config ' operation, startUpCfg(3) means we want to perform the 'copy fileCopySrcOperType startup-config ' operation, tftp(4) means we want to perform the 'copy fileCopySrcOperType tftp' operation, unit(5) is only avaiable in stacking system, in which we can copy files from one unit to another unit and it means we want to perform the 'copy fileCopySrcOperType unit' operation. The possible permuations is as follow: (1)copy file file (2)copy file runningCfg (3) copy file startUpCfg (4)copy file tftp (5) copy file unit(for stacking system only) (6)copy runningCfg file (7)copy runningCfg startUpCfg (8)copy runningCfg tftp (9)copy startupCfg file (10)copy startupCfg runningcfg (11)copy startupCfg tftp (12)copy tftp file (13)copy tftp runningCfg (14)copy tftp startUpCfg (15)copy unit file." ::= { fileCopyMgt 3 } fileCopyDestFileName OBJECT-TYPE SYNTAX DisplayString (SIZE(0..127)) MAX-ACCESS read-write STATUS current DESCRIPTION "The destination file name for fileCopyMgt when a copy operation is next requested via this MIB. This value is set to the zero length string when no file name has been specified. Note: if the fileCopyDestOperType is runningCfg(2) or startupCfg(3), this varible can be ignored." ::= { fileCopyMgt 4 } fileCopyFileType OBJECT-TYPE SYNTAX INTEGER { opcode(1), config(2), bootRom(3) } MAX-ACCESS read-write STATUS current DESCRIPTION "Type of file to copy in fileCopyMgt. If the fileCopySrcOperType or fileCopyDestOperType is either runningCfg(2) or startupCfg(3), this varible can be ignored. If the fileCopySrcOperType or fileCopyDestOperType is unit(5), this varibles cannot be set to bootRom(3)." ::= { fileCopyMgt 5 } fileCopyTftpServer OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS read-write STATUS current DESCRIPTION "The IP address of the TFTP server for transfer when a download is next requested via this MIB. This value is set to '0.0.0.0' when no IP address has been specified. If neither fileCopySrcOperType nor fileCopyDestOperType is tftp(4), this variable can be ignored." ::= { fileCopyMgt 6 } fileCopyUnitId OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "Specify the unit of the switch for stackable device when performing the 'copy unit file' or 'copy file unit' action, If neither fileCopySrcOperType nor fileCopyDestOperType is unit(5), this variable can be ignored." ::= { fileCopyMgt 7 } fileCopyAction OBJECT-TYPE SYNTAX INTEGER { notCopying(1), copy(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "Setting this object to copy(2) to begin the copy Operation." ::= { fileCopyMgt 8 } fileCopyStatus OBJECT-TYPE SYNTAX INTEGER { fileCopyTftpUndefError(1), fileCopyTftpFileNotFound(2), fileCopyTftpAccessViolation(3), fileCopyTftpDiskFull(4), fileCopyTftpIllegalOperation(5), fileCopyTftpUnkownTransferId(6), fileCopyTftpFileExisted(7), fileCopyTftpNoSuchUser(8), fileCopyTftpTimeout(9), fileCopyTftpSendError(10), fileCopyTftpReceiverError(11), fileCopyTftpSocketOpenError(12), fileCopyTftpSocketBindError(13), fileCopyTftpUserCancel(14), fileCopyTftpCompleted(15), fileCopyParaError(16), fileCopyBusy(17), fileCopyUnknown(18), fileCopyReadFileError(19), fileCopySetStartupError(20), fileCopyFileSizeExceed(21), fileCopyMagicWordError(22), fileCopyImageTypeError(23), fileCopyHeaderChecksumError(24), fileCopyImageChecksumError(25), fileCopyWriteFlashFinish(26), fileCopyWriteFlashError(27), fileCopyWriteFlashProgramming(28), fileCopyError(29), fileCopySuccess(30), fileCopyCompleted(31) } MAX-ACCESS read-only STATUS current DESCRIPTION "The status of the last copy procedure, if any. This object will have a value of downloadStatusUnknown(2) if no copy operation has been performed." ::= { fileCopyMgt 9 } fileCopyTftpErrMsg OBJECT-TYPE SYNTAX DisplayString(SIZE(0..255)) MAX-ACCESS read-only STATUS current DESCRIPTION "The tftp error messge, this value is meaningful only when the fileCopyStatus is fileCopyTftpUndefError(1)." ::= { fileCopyMgt 10 } fileInfoMgt OBJECT IDENTIFIER ::= { fileMgt 2 } -- -- This mangement performs the display and delete operation. -- fileInfoTable OBJECT-TYPE SYNTAX SEQUENCE OF FileInfoEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contain the information of the file system, we can also perfrom the delete, set startup file operation." ::= { fileInfoMgt 1 } fileInfoEntry OBJECT-TYPE SYNTAX FileInfoEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A conceptually row for fileInfoTable." INDEX { fileInfoUnitID, IMPLIED fileInfoFileName} ::= { fileInfoTable 1 } FileInfoEntry ::= SEQUENCE { fileInfoUnitID Integer32, fileInfoFileName DisplayString, fileInfoFileType INTEGER, fileInfoIsStartUp TruthValue, fileInfoFileSize Integer32, fileInfoCreationTime DisplayString, fileInfoDelete INTEGER } fileInfoUnitID OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "The unit of the switch in a stacking system, in a non-stacking system, it value is always 1." ::= { fileInfoEntry 1 } fileInfoFileName OBJECT-TYPE SYNTAX DisplayString (SIZE (1..32)) MAX-ACCESS not-accessible STATUS current DESCRIPTION "The file Name of the file System in the device." ::= { fileInfoEntry 2 } fileInfoFileType OBJECT-TYPE SYNTAX INTEGER { diag(1), runtime(2), syslog(3), cmdlog(4), config(5), postlog(6), private(7), certificate(8), webarchive(9) } MAX-ACCESS read-only STATUS current DESCRIPTION "The file type of the file System in the device." ::= { fileInfoEntry 3 } fileInfoIsStartUp OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "This flag indicate whether this file is a startup file, Setting this object to truth(1) to indicate this is a startup file, setting this object to false(2) is a invalid operation." ::= { fileInfoEntry 4 } fileInfoFileSize OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The sizes( in bytes) of the file." ::= { fileInfoEntry 5 } fileInfoCreationTime OBJECT-TYPE SYNTAX DisplayString(SIZE(20)) MAX-ACCESS read-only STATUS current DESCRIPTION "The creation time of the file." ::= { fileInfoEntry 6 } fileInfoDelete OBJECT-TYPE SYNTAX INTEGER { noDelete(1), delete(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "Writing this object to delete(2) to delete a file, when read, this always return noDelete(1)." ::= { fileInfoEntry 7 } -- --dnsMgt -- --dnsHostTable dnsDomainLookup OBJECT-TYPE SYNTAX EnabledStatus MAX-ACCESS read-write STATUS current DESCRIPTION "To enable the IP Domain Naming System (DNS)-based host name-to-address translation" ::= { dnsMgt 1 } dnsDomainName OBJECT-TYPE SYNTAX DisplayString(SIZE(0..255)) MAX-ACCESS read-write STATUS current DESCRIPTION "To define a default domain name to complete unqualified host names (names without a dotted-decimal domain name)" ::= { dnsMgt 2 } dnsHostTable OBJECT-TYPE SYNTAX SEQUENCE OF DnsHostEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table is used to define static host name-to-address mapping." ::= { dnsMgt 3 } dnsHostEntry OBJECT-TYPE SYNTAX DnsHostEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A conceptual row for the dnsHostTable." INDEX { dnsHostName, dnsHostIndex } ::= { dnsHostTable 1 } DnsHostEntry ::= SEQUENCE { dnsHostName DisplayString, dnsHostIndex Integer32, dnsHostIp IpAddress } dnsHostName OBJECT-TYPE SYNTAX DisplayString(SIZE(1..255)) MAX-ACCESS not-accessible STATUS current DESCRIPTION "The DNS Host name." ::= { dnsHostEntry 1 } dnsHostIndex OBJECT-TYPE SYNTAX Integer32(1..8) MAX-ACCESS not-accessible STATUS current DESCRIPTION "The secondary index of this dnsHostTable, representing the sequence of the dnsHostIp." ::= { dnsHostEntry 2 } dnsHostIp OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS read-create STATUS current DESCRIPTION "The DNS Host IP." ::= { dnsHostEntry 3 } --dnsAliasTable dnsAliasTable OBJECT-TYPE SYNTAX SEQUENCE OF DnsAliasEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table display the alias of the host name" ::= { dnsMgt 4 } dnsAliasEntry OBJECT-TYPE SYNTAX DnsAliasEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A conceptually row for dnsAliasTable." INDEX { dnsAliasName, dnaAliasAlias } ::= { dnsAliasTable 1 } DnsAliasEntry ::= SEQUENCE { dnsAliasName DisplayString, dnaAliasAlias DisplayString } dnsAliasName OBJECT-TYPE SYNTAX DisplayString(SIZE(1..255)) MAX-ACCESS read-only STATUS current DESCRIPTION "Host Name" ::= { dnsAliasEntry 1 } dnaAliasAlias OBJECT-TYPE SYNTAX DisplayString(SIZE(1..255)) MAX-ACCESS read-only STATUS current DESCRIPTION "Alias" ::= { dnsAliasEntry 2 } --dnsDomainListEntry dnsDomainListTable OBJECT-TYPE SYNTAX SEQUENCE OF DnsDomainListEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table define a list of default domain names to complete unqualified host names" ::= { dnsMgt 5 } dnsDomainListEntry OBJECT-TYPE SYNTAX DnsDomainListEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A conceptually row for dnsDomainListTable." INDEX { dnsDomainListName } ::= { dnsDomainListTable 1 } DnsDomainListEntry ::= SEQUENCE { dnsDomainListName DisplayString, dnsDomainListStatus ValidStatus } dnsDomainListName OBJECT-TYPE SYNTAX DisplayString(SIZE(1..255)) MAX-ACCESS not-accessible STATUS current DESCRIPTION "Domain Name" ::= { dnsDomainListEntry 1 } dnsDomainListStatus OBJECT-TYPE SYNTAX ValidStatus MAX-ACCESS read-create STATUS current DESCRIPTION "Setting this to valid(1) creates an entry. Setting this to invalid(2) destroys an entry." ::= { dnsDomainListEntry 2 } --dnsNameServerEntry dnsNameServerTable OBJECT-TYPE SYNTAX SEQUENCE OF DnsNameServerEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "To specify the address of one or more name servers to use for name and address resolution" ::= { dnsMgt 6 } dnsNameServerEntry OBJECT-TYPE SYNTAX DnsNameServerEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A conceptually row for dnsNameServerTable." INDEX { dnsNameServerIp } ::= { dnsNameServerTable 1 } DnsNameServerEntry ::= SEQUENCE { dnsNameServerIp IpAddress, dnsNameServerStatus ValidStatus } dnsNameServerIp OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS not-accessible STATUS current DESCRIPTION "Ip address of name server" ::= { dnsNameServerEntry 1 } dnsNameServerStatus OBJECT-TYPE SYNTAX ValidStatus MAX-ACCESS read-create STATUS current DESCRIPTION "Setting this to valid(1) creates an entry. Setting this to invalid(2) destroys an entry." ::= { dnsNameServerEntry 2 } --dnsCacheEntry dnsCacheTable OBJECT-TYPE SYNTAX SEQUENCE OF DnsCacheEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "To display the RRs in DNS cache" ::= { dnsMgt 7 } dnsCacheEntry OBJECT-TYPE SYNTAX DnsCacheEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A conceptually row for dnsCacheTable." INDEX { dnsCacheIndex } ::= { dnsCacheTable 1 } DnsCacheEntry ::= SEQUENCE { dnsCacheIndex Integer32, dnsCacheFlag Integer32, dnsCacheType INTEGER, dnsCacheIp IpAddress, dnsCacheTtl Integer32, dnsCacheDomain DisplayString } dnsCacheIndex OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "The sequence number of the entry" ::= { dnsCacheEntry 1 } dnsCacheFlag OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Always get 4, means this record is unreliable" ::= { dnsCacheEntry 2 } dnsCacheType OBJECT-TYPE SYNTAX INTEGER { address(1), cname(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Cache Type: address(1); cname(2)." ::= { dnsCacheEntry 3 } dnsCacheIp OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS read-only STATUS current DESCRIPTION "Cache Ip" ::= { dnsCacheEntry 4 } dnsCacheTtl OBJECT-TYPE SYNTAX Integer32(0..876000) MAX-ACCESS read-only STATUS current DESCRIPTION "Cache Ttl" ::= { dnsCacheEntry 5 } dnsCacheDomain OBJECT-TYPE SYNTAX DisplayString(SIZE(1..255)) MAX-ACCESS read-only STATUS current DESCRIPTION "Cache domain" ::= { dnsCacheEntry 6 } -- -- layer3Mgt -- -- Management for layer 3 settings and protocols. arpMgt OBJECT IDENTIFIER ::= { layer3Mgt 1 } ripMgt OBJECT IDENTIFIER ::= { layer3Mgt 2 } ospfMgt OBJECT IDENTIFIER ::= { layer3Mgt 3 } dvmrpMgt OBJECT IDENTIFIER ::= { layer3Mgt 4 } routeMgt OBJECT IDENTIFIER ::= { layer3Mgt 5 } -- arpMgt arpCacheDeleteAll OBJECT-TYPE SYNTAX INTEGER { delete(1), noDelete(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "To delete all dynamic entries in the ARP cache, write this variable to delete(1). Writing this variable to noDelete(2) has no effect on the device. When read, this variable always returns noDelete(2)." ::= { arpMgt 1 } arpCacheTimeout OBJECT-TYPE SYNTAX Integer32(300..86400) MAX-ACCESS read-write STATUS current DESCRIPTION "The timeout is provided for entries in the ARP Cache. It's for dynamic mapping only. Static mapping by creating a entry that associates a logical address with a physical address is never age out." ::= { arpMgt 2 } arpTrafficStatistics OBJECT IDENTIFIER ::= { arpMgt 3 } arpStatSendRequestPackets OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of ARP Request packets sent by the ARP process." ::= { arpTrafficStatistics 1 } arpStatRcvRequestPackets OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of ARP Request packets received by the ARP process." ::= { arpTrafficStatistics 2 } arpStatSendReplyPackets OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of ARP Reply packets sent by the ARP process." ::= { arpTrafficStatistics 3 } arpStatRcvReplyPackets OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of ARP Reply packets received by the ARP process." ::= { arpTrafficStatistics 4 } arpProxyArpTable OBJECT-TYPE SYNTAX SEQUENCE OF ArpProxyArpEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of Proxy ARP status. This table has entries for all static VLANs." ::= { arpMgt 4 } arpProxyArpEntry OBJECT-TYPE SYNTAX ArpProxyArpEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry in the table, containing information about Proxy ARP configuration." INDEX { arpProxyArpIfIndex } ::= { arpProxyArpTable 1 } ArpProxyArpEntry ::= SEQUENCE { arpProxyArpIfIndex Integer32, arpProxyArpStatus EnabledStatus } arpProxyArpIfIndex OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "This is defined as a VLAN interface. A routing interface is a VLAN binds a IP subnet." ::= { arpProxyArpEntry 1 } arpProxyArpStatus OBJECT-TYPE SYNTAX EnabledStatus MAX-ACCESS read-write STATUS current DESCRIPTION "Enable or Disable Proxy ARP process on an interface" DEFVAL { enabled } ::= { arpProxyArpEntry 2 } -- ripMgt ripTimers OBJECT IDENTIFIER ::= { ripMgt 1 } ripUpdateTime OBJECT-TYPE SYNTAX Integer32 (15..60) MAX-ACCESS read-write STATUS current DESCRIPTION "The update time in seconds controls the advertising of regular update messages. The real working model, while using this timer, the time should be offset by a small random time (+/- 0 to 5 seconds each time it is set." DEFVAL { 30 } ::= { ripTimers 1 } ripTimeoutTime OBJECT-TYPE SYNTAX Integer32 (90..360) MAX-ACCESS read-only STATUS current DESCRIPTION "The timeout timer in seconds governs the validity of a route. It is initialized when a route is established, and any time an update message is received for the route. If the setting time elapses from the last time the timrout was initialized, the route is considered to have expired, and the hop count of the route is set to infinite. It should be at least three times the value of update timer." DEFVAL { 180 } ::= { ripTimers 2 } ripGarbageCollectionTime OBJECT-TYPE SYNTAX Integer32 (60..240) MAX-ACCESS read-only STATUS current DESCRIPTION "When the information about a route becomes invalid, the system should not immediately purge that route from its table. Instead, it continues to advertise the route with a metric of infinite. At the same time, the garbage-collection timer is set for that route. When the count reaches zero, the route is purged from the the table. This timer allows neighbors to become aware of the invalidity of a route prior to purging." DEFVAL { 120 } ::= { ripTimers 3 } ripRoutingProcessStatus OBJECT-TYPE SYNTAX EnabledStatus MAX-ACCESS read-write STATUS current DESCRIPTION "Enable or Disable RIP routing process on a system." DEFVAL { disabled } ::= { ripMgt 2 } ripRouterVersion OBJECT-TYPE SYNTAX INTEGER { byInterface(1), rip1(2), rip2(3) } MAX-ACCESS read-write STATUS current DESCRIPTION "To specify a RIP version used globally by the rourter." DEFVAL { rip2 } ::= { ripMgt 3 } ripInstabilityPreventingTable OBJECT-TYPE SYNTAX SEQUENCE OF RipInstabilityPreventingEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of RIP instability preventing status" ::= { ripMgt 4 } ripInstabilityPreventingEntry OBJECT-TYPE SYNTAX RipInstabilityPreventingEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry in the table, containing information about RIP instability preventing configuration. The ifIndex index is a VLAN's ifIndex" INDEX { ripVlanIndex } ::= { ripInstabilityPreventingTable 1 } RipInstabilityPreventingEntry ::= SEQUENCE { ripVlanIndex Integer32, ripSplitHorizonStatus INTEGER } ripVlanIndex OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "This is defined as a VLAN interface. A routing interface is a VLAN binds a IP subnet." ::= { ripInstabilityPreventingEntry 1 } ripSplitHorizonStatus OBJECT-TYPE SYNTAX INTEGER { splitHorizon(1), poisonReverse(2), none(3) } MAX-ACCESS read-write STATUS current DESCRIPTION "Enable or Disable RIP Poison Reverse on an interface" ::= { ripInstabilityPreventingEntry 2 } ripStatisticsReset OBJECT-TYPE SYNTAX INTEGER { reset(1), noReset(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "Write it to reset(1), the following objects in RFC 1724 should be reset: 1. Global Counters: 'rip2GlobalRouteChanges', 'rip2GlobalQueries'. 2. Interface Status Table, for each 'rip2IfStatAddress': 'rip2IfStatRcvBadPackets', 'rip2IfStatRcvBadRoutes', 'rip2IfStatSendUpdates' 3. Peer Table, for each 'rip2PeerAddress' and 'rip2PeerDomain', 'rip2PeerRcvBadPackets', 'rip2PeerRcvBadRoutes' When read it, this value always is noReset(2)." ::= { ripMgt 5 } ripNetworkAddrTable OBJECT-TYPE SYNTAX SEQUENCE OF RipNetworkAddrEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "" ::= { ripMgt 6 } ripNetworkAddrEntry OBJECT-TYPE SYNTAX RipNetworkAddrEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "" INDEX { ripNetworkAddrAddress } ::= { ripNetworkAddrTable 1 } RipNetworkAddrEntry ::= SEQUENCE { ripNetworkAddrAddress IpAddress, ripNetworkAddrStatus ValidStatus } ripNetworkAddrAddress OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS not-accessible STATUS current DESCRIPTION "The RIP Network address." ::= { ripNetworkAddrEntry 1 } ripNetworkAddrStatus OBJECT-TYPE SYNTAX ValidStatus MAX-ACCESS read-create STATUS current DESCRIPTION "Set this variable to create or destroy a RIP network address." ::= { ripNetworkAddrEntry 2 } -- ospfMgt ospfSystemGroup OBJECT IDENTIFIER ::= { ospfMgt 1 } ospfRouterIdType OBJECT-TYPE SYNTAX INTEGER { auto(1), manual(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Set router ID automatically or manually." DEFVAL { auto } ::= { ospfSystemGroup 1 } ospfRfc1583CompatibleState OBJECT-TYPE SYNTAX EnabledStatus MAX-ACCESS read-write STATUS current DESCRIPTION "Enable or disable rfc1583 compatibility." DEFVAL { disabled } ::= { ospfSystemGroup 2 } ospfAutoCost OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "Set the reference bandwith of auto cost, the unit is Mbps." DEFVAL { 100 } ::= { ospfSystemGroup 3 } ospfOriginateDefaultRoute OBJECT-TYPE SYNTAX EnabledStatus MAX-ACCESS read-write STATUS current DESCRIPTION "Enable or disable ASBR to generate a default external route into an OSPF domain if the default route already exists." DEFVAL { disabled } ::= { ospfSystemGroup 4 } ospfAdvertiseDefaultRoute OBJECT-TYPE SYNTAX INTEGER { always(1), notAlways(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "If enabled, always advertises the default route regardless of whether the default route exists." DEFVAL { notAlways } ::= { ospfSystemGroup 5 } ospfExternalMetricType OBJECT-TYPE SYNTAX INTEGER { type1 (1), type2 (2) } MAX-ACCESS read-write STATUS current DESCRIPTION "External link type associated with the default route advertised into the OSPF routing domain." DEFVAL { type2 } ::= { ospfSystemGroup 6 } ospfDefaultExternalMetric OBJECT-TYPE SYNTAX OspfBigMetric MAX-ACCESS read-write STATUS current DESCRIPTION "Metric used for generating the default route." DEFVAL { 10 } ::= { ospfSystemGroup 7 } ospfSpfHoldTime OBJECT-TYPE SYNTAX Integer32 (0..65535) MAX-ACCESS read-write STATUS current DESCRIPTION "Sets the hold time between two consecutive SPF calculations." DEFVAL { 10 } ::= { ospfSystemGroup 8 } ospfSpfDelayTime OBJECT-TYPE SYNTAX Integer32 (0..65535) MAX-ACCESS read-write STATUS current DESCRIPTION "Sets the delay time to calculate SPF Delay time, in seconds, between when OSPF receives a topology change and when it starts an SPF calculation." DEFVAL { 5 } ::= { ospfSystemGroup 9 } ospfAreaNumber OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Records the OSPF area numbers." DEFVAL { 0 } ::= { ospfSystemGroup 10 } ospfNssaTable OBJECT-TYPE SYNTAX SEQUENCE OF OspfNssaEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A conceptually table for ospfNssaEntry." ::= {ospfMgt 2 } ospfNssaEntry OBJECT-TYPE SYNTAX OspfNssaEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A conceptually row for ospfNssaTable." INDEX { ospfNssaAreaId } ::= { ospfNssaTable 1 } OspfNssaEntry ::= SEQUENCE { ospfNssaAreaId OspfAreaID, ospfNssaRedistributeStatus EnabledStatus, ospfNssaOriginateDefaultInfoStatus EnabledStatus, ospfNssaStatus RowStatus } ospfNssaAreaId OBJECT-TYPE SYNTAX OspfAreaID MAX-ACCESS not-accessible STATUS current DESCRIPTION "The 32-bit identifier for the NSSA. On creation, this can be derived from the instance." ::= { ospfNssaEntry 1 } ospfNssaRedistributeStatus OBJECT-TYPE SYNTAX EnabledStatus MAX-ACCESS read-create STATUS current DESCRIPTION "Enabled or disabled to import routes only into the normal areas, but not into the NSSA area." DEFVAL { enabled } ::= { ospfNssaEntry 2 } ospfNssaOriginateDefaultInfoStatus OBJECT-TYPE SYNTAX EnabledStatus MAX-ACCESS read-create STATUS current DESCRIPTION "Enable or disable to generate a Type 7 default into the NSSA area." DEFVAL { disabled } ::= { ospfNssaEntry 3 } ospfNssaStatus OBJECT-TYPE SYNTAX RowStatus MAX-ACCESS read-create STATUS current DESCRIPTION "The status of this conceptual row entry. This object is used to manage the creation and deletion of conceptual rows. The status column has six defined values: - 'active', which indicates that the conceptual row is available for use by the managed device; - 'notInService', which indicates that the conceptual row exists in the agent, but is unavailable for use by the managed device (see NOTE below); - 'notReady', which indicates that the conceptual row exists in the agent, but is missing information necessary in order to be available for use by the managed device; - 'createAndGo', which is supplied by a management station wishing to create a new instance of a conceptual row and to have its status automatically set to active, making it available for use by the managed device; - 'createAndWait', which is supplied by a management station wishing to create a new instance of a conceptual row (but not make it available for use by the managed device); and, - 'destroy', which is supplied by a management station wishing to delete all of the instances associated with an existing conceptual row. Whereas five of the six values (all except 'notReady') may be specified in a management protocol set operation, only three values will be returned in response to a management protocol retrieval operation: 'notReady', 'notInService' or 'active'. That is, when queried, an existing conceptual row has only three states: it is either available for use by the managed device (the status column has value 'active'); it is not available for use by the managed device, though the agent has sufficient information to make it so (the status column has value 'notInService'); or, it is not available for use by the managed device, and an attempt to make it so would fail because the agent has insufficient information (the state column has value 'notReady'). For a detailed description of this object, please refer to SNMPv2-TC MIB." ::= { ospfNssaEntry 4 } ospfRedistributeTable OBJECT-TYPE SYNTAX SEQUENCE OF OspfRedistributeEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The conceptual table of all of ospfRedistributeEntry." ::= {ospfMgt 3 } ospfRedistributeEntry OBJECT-TYPE SYNTAX OspfRedistributeEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The conceptual row for ospfRedistributeTable." INDEX { ospfRedistributeProtocol } ::= { ospfRedistributeTable 1 } OspfRedistributeEntry ::= SEQUENCE { ospfRedistributeProtocol INTEGER, ospfRedistributeMetricType INTEGER, ospfRedistributeMetric OspfBigMetric, ospfRedistributeStatus RowStatus } ospfRedistributeProtocol OBJECT-TYPE SYNTAX INTEGER { rip(1), static(2), connected(3) } MAX-ACCESS not-accessible STATUS current DESCRIPTION "Protocol ID. Static is not supported now." ::= { ospfRedistributeEntry 1 } ospfRedistributeMetricType OBJECT-TYPE SYNTAX INTEGER { type1(1), type2(2) } MAX-ACCESS read-create STATUS current DESCRIPTION "Metric type." DEFVAL {type2} ::= { ospfRedistributeEntry 2 } ospfRedistributeMetric OBJECT-TYPE SYNTAX OspfBigMetric MAX-ACCESS read-create STATUS current DESCRIPTION "Metric value." DEFVAL {10} ::= { ospfRedistributeEntry 3 } ospfRedistributeStatus OBJECT-TYPE SYNTAX RowStatus MAX-ACCESS read-create STATUS current DESCRIPTION "The status of this conceptual row entry. This object isused to manage the creation and deletion of conceptual rows. The status column has six defined values: - 'active', which indicates that the conceptual row is available for use by the managed device; - 'notInService', which indicates that the conceptual row exists in the agent, but is unavailable for use by the managed device (see NOTE below); - 'notReady', which indicates that the conceptual row exists in the agent, but is missing information necessary in order to be available for use by the managed device; - 'createAndGo', which is supplied by a management station wishing to create a new instance of a conceptual row and to have its status automatically set to active, making it available for use by the managed device; - 'createAndWait', which is supplied by a management station wishing to create a new instance of a conceptual row (but not make it available for use by the managed device); and, - 'destroy', which is supplied by a management station wishing to delete all of the instances associated with an existing conceptual row. Whereas five of the six values (all except 'notReady') may be specified in a management protocol set operation, only three values will be returned in response to a management protocol retrieval operation: 'notReady', 'notInService' or 'active'. That is, when queried, an existing conceptual row has only three states: it is either available for use by the managed device (the status column has value 'active'); it is not available for use by the managed device, though the agent has sufficient information to make it so (the status column has value 'notInService'); or, it is not available for use by the managed device, and an attempt to make it so would fail because the agent has insufficient information (the state column has value 'notReady'). For a detailed description of this object, please refer to SNMPv2-TC MIB." ::= { ospfRedistributeEntry 4 } ospfSummaryAddressTable OBJECT-TYPE SYNTAX SEQUENCE OF OspfSummaryAddressEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The conceptual table of all of ospfSummaryAddressEntry." ::= {ospfMgt 4} ospfSummaryAddressEntry OBJECT-TYPE SYNTAX OspfSummaryAddressEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The conceptual row for ospfSummaryAddressTable." INDEX { ospfSummaryAddress,ospfSummaryMask } ::= { ospfSummaryAddressTable 1 } OspfSummaryAddressEntry ::= SEQUENCE { ospfSummaryAddress IpAddress, ospfSummaryMask IpAddress, ospfSummaryStatus RowStatus } ospfSummaryAddress OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS not-accessible STATUS current DESCRIPTION "Summary address." ::= { ospfSummaryAddressEntry 1 } ospfSummaryMask OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS not-accessible STATUS current DESCRIPTION "Summary mask." ::= { ospfSummaryAddressEntry 2 } ospfSummaryStatus OBJECT-TYPE SYNTAX RowStatus MAX-ACCESS read-create STATUS current DESCRIPTION "The status of this conceptual row entry. This object isused to manage the creation and deletion of conceptual rows. The status column has six defined values: - 'active', which indicates that the conceptual row is available for use by the managed device; - 'notInService', which indicates that the conceptual row exists in the agent, but is unavailable for use by the managed device (see NOTE below); - 'notReady', which indicates that the conceptual row exists in the agent, but is missing information necessary in order to be available for use by the managed device; - 'createAndGo', which is supplied by a management station wishing to create a new instance of a conceptual row and to have its status automatically set to active, making it available for use by the managed device; - 'createAndWait', which is supplied by a management station wishing to create a new instance of a conceptual row (but not make it available for use by the managed device); and, - 'destroy', which is supplied by a management station wishing to delete all of the instances associated with an existing conceptual row. Whereas five of the six values (all except 'notReady') may be specified in a management protocol set operation, only three values will be returned in response to a management protocol retrieval operation: 'notReady', 'notInService' or 'active'. That is, when queried, an existing conceptual row has only three states: it is either available for use by the managed device (the status column has value 'active'); it is not available for use by the managed device, though the agent has sufficient information to make it so (the status column has value 'notInService'); or, it is not available for use by the managed device, and an attempt to make it so would fail because the agent has insufficient information (the state column has value 'notReady'). For a detailed description of this object, please refer to SNMPv2-TC MIB." ::= { ospfSummaryAddressEntry 3 } ospfNetworkAreaAddressTable OBJECT-TYPE SYNTAX SEQUENCE OF OspfNetworkAreaAddressEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The conceptual table of all of ospfNetworkAreaAddressEntry." ::= {ospfMgt 5 } ospfNetworkAreaAddressEntry OBJECT-TYPE SYNTAX OspfNetworkAreaAddressEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The conceptual row for ospfNetworkAreaAddressTable." INDEX { ospfNetworkAareaAddress,ospfNetworkAreaMask } ::= { ospfNetworkAreaAddressTable 1 } OspfNetworkAreaAddressEntry ::= SEQUENCE { ospfNetworkAareaAddress IpAddress, ospfNetworkAreaMask IpAddress, ospfNetworkAreaAreaId IpAddress, ospfNetworkAreaStatus RowStatus } ospfNetworkAareaAddress OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS not-accessible STATUS current DESCRIPTION "NetworkArea address." ::= { ospfNetworkAreaAddressEntry 1 } ospfNetworkAreaMask OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS not-accessible STATUS current DESCRIPTION "NetworkArea mask." ::= { ospfNetworkAreaAddressEntry 2 } ospfNetworkAreaAreaId OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS read-create STATUS current DESCRIPTION "NetworkArea area ID." ::= { ospfNetworkAreaAddressEntry 3 } ospfNetworkAreaStatus OBJECT-TYPE SYNTAX RowStatus MAX-ACCESS read-create STATUS current DESCRIPTION "The status of this conceptual row entry. This object isused to manage the creation and deletion of conceptual rows. The status column has six defined values: - 'active', which indicates that the conceptual row is available for use by the managed device; - 'notInService', which indicates that the conceptual row exists in the agent, but is unavailable for use by the managed device (see NOTE below); - 'notReady', which indicates that the conceptual row exists in the agent, but is missing information necessary in order to be available for use by the managed device; - 'createAndGo', which is supplied by a management station wishing to create a new instance of a conceptual row and to have its status automatically set to active, making it available for use by the managed device; - 'createAndWait', which is supplied by a management station wishing to create a new instance of a conceptual row (but not make it available for use by the managed device); and, - 'destroy', which is supplied by a management station wishing to delete all of the instances associated with an existing conceptual row. Whereas five of the six values (all except 'notReady') may be specified in a management protocol set operation, only three values will be returned in response to a management protocol retrieval operation: 'notReady', 'notInService' or 'active'. That is, when queried, an existing conceptual row has only three states: it is either available for use by the managed device (the status column has value 'active'); it is not available for use by the managed device, though the agent has sufficient information to make it so (the status column has value 'notInService'); or, it is not available for use by the managed device, and an attempt to make it so would fail because the agent has insufficient information (the state column has value 'notReady'). For a detailed description of this object, please refer to SNMPv2-TC MIB." ::= { ospfNetworkAreaAddressEntry 4 } -- -- dvmrpMgt -- dvmrpScalar OBJECT IDENTIFIER ::= { dvmrpMgt 1 } dvmrpVersionString OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The router's DVMRP version information. Similar to sysDescr in MIB-II, this is a free-form field which can be used to display vendor-specific information." ::= { dvmrpScalar 1 } -- dvmrpScalar 2 was previously used for a global -- Generation ID. However, the DVMRP spec changed it to -- a per-interface parameter. dvmrpNumRoutes OBJECT-TYPE SYNTAX Gauge32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of entries in the routing table. This can be used to monitor the routing table size." ::= { dvmrpScalar 3 } dvmrpReachableRoutes OBJECT-TYPE SYNTAX Gauge32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of entries in the routing table with non infinite metrics. This can be used to detect network partitions by observing the ratio of reachable routes to total routes." ::= { dvmrpScalar 4 } -- The DVMRP Interface Table dvmrpInterfaceTable OBJECT-TYPE SYNTAX SEQUENCE OF DvmrpInterfaceEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The (conceptual) table listing the router's multicast- capable interfaces." ::= { dvmrpMgt 2 } dvmrpInterfaceEntry OBJECT-TYPE SYNTAX DvmrpInterfaceEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry (conceptual row) in the dvmrpInterfaceTable. This row augments ipMRouteInterfaceEntry in the IP Multicast MIB, where the threshold object resides." INDEX { dvmrpInterfaceIndex } ::= { dvmrpInterfaceTable 1 } DvmrpInterfaceEntry ::= SEQUENCE { dvmrpInterfaceIndex InterfaceIndex, dvmrpInterfaceLocalAddress IpAddress, dvmrpInterfaceMetric Integer32, dvmrpInterfaceStatus RowStatus, dvmrpInterfaceRcvBadPkts Counter32, dvmrpInterfaceRcvBadRoutes Counter32, dvmrpInterfaceSentRoutes Counter32, dvmrpInterfaceKey SnmpAdminString, dvmrpInterfaceKeyVersion Integer32, dvmrpInterfaceGenerationId Integer32 } dvmrpInterfaceIndex OBJECT-TYPE SYNTAX InterfaceIndex MAX-ACCESS not-accessible STATUS current DESCRIPTION "The ifIndex value of the interface for which DVMRP is enabled." ::= { dvmrpInterfaceEntry 1 } dvmrpInterfaceLocalAddress OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS read-create STATUS current DESCRIPTION "The IP address this system will use as a source address on this interface. On unnumbered interfaces, it must be the same value as dvmrpInterfaceLocalAddress for some interface on the system." ::= { dvmrpInterfaceEntry 2 } dvmrpInterfaceMetric OBJECT-TYPE SYNTAX Integer32 (1..31) MAX-ACCESS read-create STATUS current DESCRIPTION "The distance metric for this interface which is used to calculate distance vectors." DEFVAL { 1 } ::= { dvmrpInterfaceEntry 3 } dvmrpInterfaceStatus OBJECT-TYPE SYNTAX RowStatus MAX-ACCESS read-create STATUS current DESCRIPTION "The status of this entry. Creating the entry enables DVMRP on the virtual interface; destroying the entry or setting it to notInService disables DVMRP on the virtual interface." ::= { dvmrpInterfaceEntry 4 } dvmrpInterfaceRcvBadPkts OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of DVMRP messages received on the interface by the DVMRP process which were subsequently discarded as invalid (e.g. invalid packet format, or a route report from an unknown neighbor)." ::= { dvmrpInterfaceEntry 5 } dvmrpInterfaceRcvBadRoutes OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of routes, in valid DVMRP packets, which were ignored because the entry was invalid." ::= { dvmrpInterfaceEntry 6 } dvmrpInterfaceSentRoutes OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of routes, in DVMRP Report packets, which have been sent on this interface. Together with dvmrpNeighborRcvRoutes at a peer, this object is useful for detecting routes being lost." ::= { dvmrpInterfaceEntry 7 } dvmrpInterfaceKey OBJECT-TYPE SYNTAX SnmpAdminString MAX-ACCESS read-create STATUS current DESCRIPTION "The (shared) key for authenticating neighbors on this interface. This object is intended solely for the purpose of setting the interface key, and MUST be accessible only via requests using both authentication and privacy. The agent MAY report an empty string in response to get, get- next, get-bulk requests." ::= { dvmrpInterfaceEntry 8 } dvmrpInterfaceKeyVersion OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-create STATUS current DESCRIPTION "The highest version number of all known interface keys for this interface used for authenticating neighbors." ::= { dvmrpInterfaceEntry 9 } dvmrpInterfaceGenerationId OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The generation identifier for the interface. This is used by neighboring routers to detect whether the DVMRP routing table should be resent." ::= { dvmrpInterfaceEntry 10 } -- The DVMRP Neighbor Table dvmrpNeighborTable OBJECT-TYPE SYNTAX SEQUENCE OF DvmrpNeighborEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The (conceptual) table listing the router's DVMRP neighbors, as discovered by receiving DVMRP messages." ::= { dvmrpMgt 3 } dvmrpNeighborEntry OBJECT-TYPE SYNTAX DvmrpNeighborEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry (conceptual row) in the dvmrpNeighborTable." INDEX { dvmrpNeighborIfIndex, dvmrpNeighborAddress } ::= { dvmrpNeighborTable 1 } DvmrpNeighborEntry ::= SEQUENCE { dvmrpNeighborIfIndex InterfaceIndex, dvmrpNeighborAddress IpAddress, dvmrpNeighborUpTime TimeTicks, dvmrpNeighborExpiryTime TimeTicks, dvmrpNeighborGenerationId Integer32, dvmrpNeighborMajorVersion Integer32, dvmrpNeighborMinorVersion Integer32, dvmrpNeighborCapabilities BITS, dvmrpNeighborRcvRoutes Counter32, dvmrpNeighborRcvBadPkts Counter32, dvmrpNeighborRcvBadRoutes Counter32, dvmrpNeighborState INTEGER } dvmrpNeighborIfIndex OBJECT-TYPE SYNTAX InterfaceIndex MAX-ACCESS not-accessible STATUS current DESCRIPTION "The value of ifIndex for the virtual interface used to reach this DVMRP neighbor." ::= { dvmrpNeighborEntry 1 } dvmrpNeighborAddress OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS not-accessible STATUS current DESCRIPTION "The IP address of the DVMRP neighbor for which this entry contains information." ::= { dvmrpNeighborEntry 2 } dvmrpNeighborUpTime OBJECT-TYPE SYNTAX TimeTicks MAX-ACCESS read-only STATUS current DESCRIPTION "The time since this DVMRP neighbor (last) became a neighbor of the local router." ::= { dvmrpNeighborEntry 3 } dvmrpNeighborExpiryTime OBJECT-TYPE SYNTAX TimeTicks MAX-ACCESS read-only STATUS current DESCRIPTION "The minimum time remaining before this DVMRP neighbor will be aged out." ::= { dvmrpNeighborEntry 4 } dvmrpNeighborGenerationId OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The neighboring router's generation identifier." ::= { dvmrpNeighborEntry 5 } dvmrpNeighborMajorVersion OBJECT-TYPE SYNTAX Integer32 (0..255) MAX-ACCESS read-only STATUS current DESCRIPTION "The neighboring router's major DVMRP version number." ::= { dvmrpNeighborEntry 6 } dvmrpNeighborMinorVersion OBJECT-TYPE SYNTAX Integer32 (0..255) MAX-ACCESS read-only STATUS current DESCRIPTION "The neighboring router's minor DVMRP version number." ::= { dvmrpNeighborEntry 7 } dvmrpNeighborCapabilities OBJECT-TYPE SYNTAX BITS { leaf(0), prune(1), generationID(2), mtrace(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "This object describes the neighboring router's capabilities. The leaf bit indicates that the neighbor has only one interface with neighbors. The prune bit indicates that the neighbor supports pruning. The generationID bit indicates that the neighbor sends its generationID in Probe messages. The mtrace bit indicates that the neighbor can handle mtrace requests." ::= { dvmrpNeighborEntry 8 } dvmrpNeighborRcvRoutes OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "The total number of routes received in valid DVMRP packets received from this neighbor. This can be used to diagnose problems such as unicast route injection, as well as giving an indication of the level of DVMRP route exchange activity." ::= { dvmrpNeighborEntry 9 } dvmrpNeighborRcvBadPkts OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of packet received from this neighbor which were discarded as invalid." ::= { dvmrpNeighborEntry 10 } dvmrpNeighborRcvBadRoutes OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of routes, in valid DVMRP packets received from this neighbor, which were ignored because the entry was invalid." ::= { dvmrpNeighborEntry 11 } dvmrpNeighborState OBJECT-TYPE SYNTAX INTEGER { oneway(1), active(2), ignoring(3), down(4) } MAX-ACCESS read-only STATUS current DESCRIPTION "State of the neighbor adjacency." ::= { dvmrpNeighborEntry 12 } -- The DVMRP Route Table dvmrpRouteTable OBJECT-TYPE SYNTAX SEQUENCE OF DvmrpRouteEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The table of routes learned through DVMRP route exchange." ::= { dvmrpMgt 4 } dvmrpRouteEntry OBJECT-TYPE SYNTAX DvmrpRouteEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry (conceptual row) containing the multicast routing information used by DVMRP in place of the unicast routing information." INDEX { dvmrpRouteSource, dvmrpRouteSourceMask } ::= { dvmrpRouteTable 1 } DvmrpRouteEntry ::= SEQUENCE { dvmrpRouteSource IpAddress, dvmrpRouteSourceMask IpAddress, dvmrpRouteUpstreamNeighbor IpAddress, dvmrpRouteIfIndex InterfaceIndexOrZero, dvmrpRouteMetric Integer32, dvmrpRouteExpiryTime TimeTicks, dvmrpRouteUpTime TimeTicks } dvmrpRouteSource OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS not-accessible STATUS current DESCRIPTION "The network address which when combined with the corresponding value of dvmrpRouteSourceMask identifies the sources for which this entry contains multicast routing information." ::= { dvmrpRouteEntry 1 } dvmrpRouteSourceMask OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS not-accessible STATUS current DESCRIPTION "The network mask which when combined with the corresponding value of dvmrpRouteSource identifies the sources for which this entry contains multicast routing information." ::= { dvmrpRouteEntry 2 } dvmrpRouteUpstreamNeighbor OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS read-only STATUS current DESCRIPTION "The address of the upstream neighbor (e.g., RPF neighbor) from which IP datagrams from these sources are received." ::= { dvmrpRouteEntry 3 } dvmrpRouteIfIndex OBJECT-TYPE SYNTAX InterfaceIndexOrZero MAX-ACCESS read-only STATUS current DESCRIPTION "The value of ifIndex for the interface on which IP datagrams sent by these sources are received. A value of 0 typically means the route is an aggregate for which no next- hop interface exists." ::= { dvmrpRouteEntry 4 } dvmrpRouteMetric OBJECT-TYPE SYNTAX Integer32 (1..32) MAX-ACCESS read-only STATUS current DESCRIPTION "The distance in hops to the source subnet." ::= { dvmrpRouteEntry 5 } dvmrpRouteExpiryTime OBJECT-TYPE SYNTAX TimeTicks MAX-ACCESS read-only STATUS current DESCRIPTION "The minimum amount of time remaining before this entry will be aged out." ::= { dvmrpRouteEntry 6 } dvmrpRouteUpTime OBJECT-TYPE SYNTAX TimeTicks MAX-ACCESS read-only STATUS current DESCRIPTION "The time since the route represented by this entry was learned by the router." ::= { dvmrpRouteEntry 7 } -- The DVMRP Routing Next Hop Table dvmrpRouteNextHopTable OBJECT-TYPE SYNTAX SEQUENCE OF DvmrpRouteNextHopEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The (conceptual) table containing information on the next hops on outgoing interfaces for routing IP multicast datagrams." ::= { dvmrpMgt 5 } dvmrpRouteNextHopEntry OBJECT-TYPE SYNTAX DvmrpRouteNextHopEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry (conceptual row) in the list of next hops on outgoing interfaces to which IP multicast datagrams from particular sources are routed." INDEX { dvmrpRouteNextHopSource, dvmrpRouteNextHopSourceMask, dvmrpRouteNextHopIfIndex } ::= { dvmrpRouteNextHopTable 1 } DvmrpRouteNextHopEntry ::= SEQUENCE { dvmrpRouteNextHopSource IpAddress, dvmrpRouteNextHopSourceMask IpAddress, dvmrpRouteNextHopIfIndex InterfaceIndex, dvmrpRouteNextHopType INTEGER } dvmrpRouteNextHopSource OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS not-accessible STATUS current DESCRIPTION "The network address which when combined with the corresponding value of dvmrpRouteNextHopSourceMask identifies the sources for which this entry specifies a next hop on an outgoing interface." ::= { dvmrpRouteNextHopEntry 1 } dvmrpRouteNextHopSourceMask OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS not-accessible STATUS current DESCRIPTION "The network mask which when combined with the corresponding value of dvmrpRouteNextHopSource identifies the sources for which this entry specifies a next hop on an outgoing interface." ::= { dvmrpRouteNextHopEntry 2 } dvmrpRouteNextHopIfIndex OBJECT-TYPE SYNTAX InterfaceIndex MAX-ACCESS not-accessible STATUS current DESCRIPTION "The ifIndex value of the interface for the outgoing interface for this next hop." ::= { dvmrpRouteNextHopEntry 3 } dvmrpRouteNextHopType OBJECT-TYPE SYNTAX INTEGER { leaf(1), branch(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Type is leaf if no downstream dependent neighbors exist on the outgoing virtual interface. Otherwise, type is branch." ::= { dvmrpRouteNextHopEntry 4 } -- The DVMRP Prune Table dvmrpPruneTable OBJECT-TYPE SYNTAX SEQUENCE OF DvmrpPruneEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The (conceptual) table listing the router's upstream prune state." ::= { dvmrpMgt 6 } dvmrpPruneEntry OBJECT-TYPE SYNTAX DvmrpPruneEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry (conceptual row) in the dvmrpPruneTable." INDEX { dvmrpPruneGroup, dvmrpPruneSource, dvmrpPruneSourceMask } ::= { dvmrpPruneTable 1 } DvmrpPruneEntry ::= SEQUENCE { dvmrpPruneGroup IpAddress, dvmrpPruneSource IpAddress, dvmrpPruneSourceMask IpAddress, dvmrpPruneExpiryTime TimeTicks } dvmrpPruneGroup OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS not-accessible STATUS current DESCRIPTION "The group address which has been pruned." ::= { dvmrpPruneEntry 1 } dvmrpPruneSource OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS not-accessible STATUS current DESCRIPTION "The address of the source or source network which has been pruned." ::= { dvmrpPruneEntry 2 } dvmrpPruneSourceMask OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS not-accessible STATUS current DESCRIPTION "The address of the source or source network which has been pruned. The mask must either be all 1's, or else dvmrpPruneSource and dvmrpPruneSourceMask must match dvmrpRouteSource and dvmrpRouteSourceMask for some entry in the dvmrpRouteTable." ::= { dvmrpPruneEntry 3 } dvmrpPruneExpiryTime OBJECT-TYPE SYNTAX TimeTicks MAX-ACCESS read-only STATUS current DESCRIPTION "The amount of time remaining before this prune should expire at the upstream neighbor. This value should be the minimum of the default prune lifetime and the remaining prune lifetimes of the local router's downstream neighbors, if any." ::= { dvmrpPruneEntry 4 } -- -- routeMgt -- ipCidrRouteExtTable OBJECT-TYPE SYNTAX SEQUENCE OF IpCidrRouteExtEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This entity's IP Extension Routing table." REFERENCE "Rfc2096 Section 9, IP CIDR Route Table." ::= { routeMgt 2 } ipCidrRouteExtEntry OBJECT-TYPE SYNTAX IpCidrRouteExtEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A particular route to a particular destina- tion, under a particular policy." INDEX { ipCidrRouteExtDest, ipCidrRouteExtMask, ipCidrRouteExtTos, ipCidrRouteExtNextHop } ::= { ipCidrRouteExtTable 1 } IpCidrRouteExtEntry ::= SEQUENCE { ipCidrRouteExtDest IpAddress, ipCidrRouteExtMask IpAddress, ipCidrRouteExtTos Integer32, ipCidrRouteExtNextHop IpAddress, ipCidrRouteExtOspfSubType INTEGER } ipCidrRouteExtDest OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS not-accessible STATUS current DESCRIPTION "The destination IP address of this route. This object may not take a Multicast (Class D) address value. Any assignment (implicit or otherwise) of an instance of this object to a value x must be rejected if the bitwise logical-AND of x with the value of the corresponding instance of the ipCidrRouteMask object is not equal to x." ::= { ipCidrRouteExtEntry 1 } ipCidrRouteExtMask OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS not-accessible STATUS current DESCRIPTION "Indicate the mask to be logical-ANDed with the destination address before being compared to the value in the ipCidrRouteDest field. For those systems that do not support arbitrary subnet masks, an agent constructs the value of the ipCidrRouteMask by reference to the IP Ad- dress Class. Any assignment (implicit or otherwise) of an instance of this object to a value x must be rejected if the bitwise logical-AND of x with the value of the corresponding instance of the ipCidrRouteDest object is not equal to ipCidrRoute- Dest." ::= { ipCidrRouteExtEntry 2 } -- The following convention is included for specification -- of TOS Field contents. At this time, the Host Requirements -- and the Router Requirements documents disagree on the width -- of the TOS field. This mapping describes the Router -- Requirements mapping, and leaves room to widen the TOS field -- without impact to fielded systems. ipCidrRouteExtTos OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "The policy specifier is the IP TOS Field. The encoding of IP TOS is as specified by the following convention. Zero indicates the default path if no more specific policy applies. +-----+-----+-----+-----+-----+-----+-----+-----+ | | | | | PRECEDENCE | TYPE OF SERVICE | 0 | | | | | +-----+-----+-----+-----+-----+-----+-----+-----+ IP TOS IP TOS Field Policy Field Policy Contents Code Contents Code 0 0 0 0 ==> 0 0 0 0 1 ==> 2 0 0 1 0 ==> 4 0 0 1 1 ==> 6 0 1 0 0 ==> 8 0 1 0 1 ==> 10 0 1 1 0 ==> 12 0 1 1 1 ==> 14 1 0 0 0 ==> 16 1 0 0 1 ==> 18 1 0 1 0 ==> 20 1 0 1 1 ==> 22 1 1 0 0 ==> 24 1 1 0 1 ==> 26 1 1 1 0 ==> 28 1 1 1 1 ==> 30" ::= { ipCidrRouteExtEntry 3 } ipCidrRouteExtNextHop OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS not-accessible STATUS current DESCRIPTION "On remote routes, the address of the next sys- tem en route; Otherwise, 0.0.0.0." ::= { ipCidrRouteExtEntry 4 } ipCidrRouteExtOspfSubType OBJECT-TYPE SYNTAX INTEGER { none(1), ospfInter(2), ospfIntra(3), ospfNssa1(4), ospfNssa2(5), ospfType1(6), ospfType2(7) } MAX-ACCESS read-only STATUS current DESCRIPTION "The OSPF SubType, when the ipCidrRouteProto in IP-FORWARD MIB is ospf(13), this object has value (2)-(7), otherwises, this object will always show none(1)." REFERENCE " Rfc2096 Section 9, IP CIDR Route Table." ::= { ipCidrRouteExtEntry 5 } -- -- hsrpMgt -- -- Subgroups cHsrpGlobalConfig OBJECT IDENTIFIER ::= { hsrpMgt 1 } cHsrpGroup OBJECT IDENTIFIER ::= { hsrpMgt 2 } -- Global Config Objects cHsrpConfigTimeout OBJECT-TYPE SYNTAX Unsigned32(1..60) UNITS "minutes" MAX-ACCESS read-write STATUS current DESCRIPTION "The amount of time in minutes a row in cHsrpGrpTable can remain in a state other than active before being timed out." DEFVAL { 5 } ::= { cHsrpGlobalConfig 1 } -- HSRP Tables cHsrpGrpTable OBJECT-TYPE SYNTAX SEQUENCE OF CHsrpGrpEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A table containing information on each HSRP group for each interface." ::= { cHsrpGroup 1 } cHsrpGrpEntry OBJECT-TYPE SYNTAX CHsrpGrpEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Information about an HSRP group. Management applications use cHsrpGrpRowStatus to control entry modification, creation and deletion. Setting cHsrpGrpRowStatus to 'active' causes the router to communicate using HSRP. The value of cHsrpGrpRowStatus may be set to 'destroy' at any time. Entries may not be created via SNMP without explicitly setting cHsrpGrpRowStatus to either 'createAndGo' or 'createAndWait'. Entries can be created and modified via the management protocol or by the device's local management interface. A management application wishing to create an entry should choose the ifIndex of the interface which is to be added as part of an HSRP group. Also, a cHsrpGrpNumber should be chosen. A group number is unique only amongst the groups on a particular interface. The value of the group number appears in packets which are transmitted and received on a LAN segment to which the router is connected. The application must select the group number as explained in the description for cHsrpGrpNumber. If the row is not active, and a local management interface command modifies that row, the row may transition to active state. A row which is not in active state will timeout after a configurable period (five minutes by default). This timeout period can be changed by setting cHsrpConfigTimeout." INDEX { ifIndex, cHsrpGrpNumber } ::= { cHsrpGrpTable 1 } CHsrpGrpEntry ::= SEQUENCE { -- index cHsrpGrpNumber Unsigned32, -- configuration items cHsrpGrpAuth DisplayString, cHsrpGrpPriority Unsigned32, cHsrpGrpPreempt TruthValue, cHsrpGrpPreemptDelay Unsigned32, cHsrpGrpUseConfiguredTimers TruthValue, -- timers cHsrpGrpConfiguredHelloTime Unsigned32, cHsrpGrpConfiguredHoldTime Unsigned32, cHsrpGrpLearnedHelloTime Unsigned32, cHsrpGrpLearnedHoldTime Unsigned32, -- status items cHsrpGrpVirtualIpAddr IpAddress, cHsrpGrpUseConfigVirtualIpAddr TruthValue, cHsrpGrpActiveRouter IpAddress, cHsrpGrpStandbyRouter IpAddress, cHsrpGrpStandbyState HsrpState, cHsrpGrpVirtualMacAddr MacAddress, cHsrpGrpEntryRowStatus RowStatus } cHsrpGrpNumber OBJECT-TYPE SYNTAX Unsigned32(0..255) MAX-ACCESS not-accessible STATUS current DESCRIPTION "This object along with the ifIndex of a particular interface uniquely identifies an HSRP group. Group numbers 0,1 and 2 are the only valid group numbers for TokenRing interfaces. For other media types, numbers range from 0 to 255. Each interface has its own set of group numbers. There's no relationship between the groups configured on different interfaces. Using a group number on one interface doesn't preclude using the same group number on a different interface. For example, there can be a group 1 on an Ethernet and a group 1 on Token Ring. More details can be found from RFC 2281." ::= { cHsrpGrpEntry 1 } cHsrpGrpAuth OBJECT-TYPE SYNTAX DisplayString (SIZE (0..8)) MAX-ACCESS read-create STATUS current DESCRIPTION "This is an unencrypted authentication string which is carried in all HSRP messages. An authentication string mismatch prevents a router interface from learning the designated IP address or HSRP timer values from other HSRP-enabled routers with the same group number. The function of this object is not to supply any sort of security-like authentication but rather to confirm that what's happening is what's intended. In other words, this is meant for sanity checking only." DEFVAL { "cisco" } ::= { cHsrpGrpEntry 2 } cHsrpGrpPriority OBJECT-TYPE SYNTAX Unsigned32(0..255) MAX-ACCESS read-create STATUS current DESCRIPTION "The cHsrpGrpPriority helps to select the active and the standby routers. The router with the highest priority is selected as the active router. In the priority range of 0 to 255, 0 is the lowest priority and 255 is the highest priority. If two (or more) routers in a group have the same priority, the one with the highest ip address of the interface is the active router. When the active router fails to send a Hello message within a configurable period of time, the standby router with the highest priority becomes the active router. A router with highest priority will only attempt to overthrow a lower priority active router if it is configured to preempt. But, if there is more than one router which is not active, the highest priority non-active router becomes the standby router." DEFVAL { 100 } ::= { cHsrpGrpEntry 3 } cHsrpGrpPreempt OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-create STATUS current DESCRIPTION "This object, if TRUE, indicates that the current router should attempt to overthrow a lower priority active router and attempt to become the active router. If this object is FALSE, the router will become the active router only if there is no such router (or if an active router fails)." DEFVAL { false } ::= { cHsrpGrpEntry 4 } cHsrpGrpPreemptDelay OBJECT-TYPE SYNTAX Unsigned32 (0..3600) UNITS "seconds" MAX-ACCESS read-create STATUS current DESCRIPTION "This delay is the time difference between a router power up and the time it can actually start preempting the currently active router. When a router first comes up, it doesn't have a complete routing table. If it's configured to preempt, then it will become the Active router, but it will not be able to provide adequate routing services. The solution to this is to allow for a configurable delay before the router actually preempts the currently active router." DEFVAL { 0 } ::= { cHsrpGrpEntry 5 } cHsrpGrpUseConfiguredTimers OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "HSRP routers learn a group's Hellotime or Holdtime from hello messages. The Hellotime is used to determine the frequency of generating hello messages when this router becomes the active or standby router. The Holdtime is the interval between the receipt of a Hello message and the presumption that the sending router has failed. If this object is TRUE, the cHsrpGrpConfiguredHelloTime and cHsrpGrpConfiguredHoldTime will be used. If it is FALSE, the Hellotime and Holdtime values are learned." ::= { cHsrpGrpEntry 6 } cHsrpGrpConfiguredHelloTime OBJECT-TYPE SYNTAX Unsigned32 UNITS "milliseconds" MAX-ACCESS read-create STATUS current DESCRIPTION "If cHsrpGrpUseConfiguredTimers is true, cHsrpGrpConfiguredHelloTime is used when this router is an active router. Otherwise, the Hellotime learned from the current active router is used. All routers on a particular LAN segment must use the same Hellotime." DEFVAL { 3000 } ::= { cHsrpGrpEntry 7 } cHsrpGrpConfiguredHoldTime OBJECT-TYPE SYNTAX Unsigned32 UNITS "milliseconds" MAX-ACCESS read-create STATUS current DESCRIPTION "If cHsrpGrpUseConfiguredTimers is true, cHsrpGrpConfiguredHoldTime is used when this router is an active router. Otherwise, the Holdtime learned from the current active router is used. All routers on a particular LAN segment should use the same Holdtime. Also, the Holdtime should be at least three times the value of the Hellotime and must be greater than the Hellotime." DEFVAL { 10000 } ::= { cHsrpGrpEntry 8 } cHsrpGrpLearnedHelloTime OBJECT-TYPE SYNTAX Unsigned32 UNITS "milliseconds" MAX-ACCESS read-only STATUS current DESCRIPTION "If the Hellotime is not configured on a router, it can be learned from the Hello messages from active router, provided the Hello message is authenticated. If the Hellotime is not learned from a Hello message from the active router and it is not manually configured, a default value of 3 seconds is recommended." DEFVAL { 3000 } ::= { cHsrpGrpEntry 9 } cHsrpGrpLearnedHoldTime OBJECT-TYPE SYNTAX Unsigned32 UNITS "milliseconds" MAX-ACCESS read-only STATUS current DESCRIPTION "If the Holdtime is not configured on a router, it can be learned from the Hello message from the active router. Holdtime should be learned only if the Hello message is authenticated. If the Holdtime is not learned and it is not manually configured, a default value of 10 seconds is recommended." DEFVAL { 10000 } ::= { cHsrpGrpEntry 10 } cHsrpGrpVirtualIpAddr OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS read-create STATUS current DESCRIPTION "This is the primary virtual IP address used by this group. If this address is configured (i.e a non zero ip address), this value is used. Otherwise, the agent will attempt to discover the virtual address through a discovery process (which scans the hello messages)." DEFVAL { '00000000'H } ::= { cHsrpGrpEntry 11 } cHsrpGrpUseConfigVirtualIpAddr OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "If this object is TRUE, cHsrpGrpVirtualIpAddr was a configured one. Otherwise, it indicates that cHsrpGrpVirtualIpAddr was a learned one." ::= { cHsrpGrpEntry 12 } cHsrpGrpActiveRouter OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS read-only STATUS current DESCRIPTION "Ip Address of the currently active router for this group." ::= { cHsrpGrpEntry 13 } cHsrpGrpStandbyRouter OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS read-only STATUS current DESCRIPTION "Ip Address of the currently standby router for this group." ::= { cHsrpGrpEntry 14 } cHsrpGrpStandbyState OBJECT-TYPE SYNTAX HsrpState MAX-ACCESS read-only STATUS current DESCRIPTION "The current HSRP state of this group on this interface." ::= { cHsrpGrpEntry 15 } cHsrpGrpVirtualMacAddr OBJECT-TYPE SYNTAX MacAddress MAX-ACCESS read-only STATUS current DESCRIPTION "Mac Addresses used are as specified in RFC 2281. For ethernet and fddi interfaces, a MAC address will be in the range 00:00:0c:07:ac:00 through 00:00:0c:07:ac:ff. The last octet is the hexadecimal equivalent of cHsrpGrpNumber (0-255). Some Ethernet and FDDI interfaces allow a unicast MAC address for each HSRP group. Certain Ethernet chipsets(LANCE Ethernet, VGANYLAN and QUICC Ethernet) only support a single Unicast Mac Address. In this case, only one HSRP group is allowed. For TokenRing interfaces, the following three MAC addresses are permitted (functional addresses): C0:00:00:01:00:00 C0:00:00:02:00:00 C0:00:00:04:00:00." ::= { cHsrpGrpEntry 16 } cHsrpGrpEntryRowStatus OBJECT-TYPE SYNTAX RowStatus MAX-ACCESS read-create STATUS current DESCRIPTION "The control that allows modification, creation, and deletion of entries. For detailed rules see the DESCRIPTION for cHsrpGrpEntry." ::= {cHsrpGrpEntry 17 } -- Extention group info cHsrpExtGroup OBJECT IDENTIFIER ::= { hsrpMgt 3 } cHsrpExtIfTrackedTable OBJECT-TYPE SYNTAX SEQUENCE OF CHsrpExtIfTrackedEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A table containing information about tracked interfaces per HSRP group." ::= { cHsrpExtGroup 1 } cHsrpExtIfTrackedEntry OBJECT-TYPE SYNTAX CHsrpExtIfTrackedEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The cHsrpExtIfTrackedEntry allows an HSRP group interface to track one or more interfaces. Weight(priority) is given to each and every interface tracked. When a tracked interface is unavailable, the HSRP priority of the router is decreased. i.e cHsrpGrpPriority value assigned to an HSRP group will reduce by the value assigned to cHsrpExtIfTrackedPriority. This reduces the likelihood of a router with a failed key interface becoming the active router. Setting cHsrpExtIfTrackedRowStatus to active starts the tracking of cHsrpExtIfTracked by the HSRP group. The value of cHsrpExtIfTrackedRowStatus may be set to destroy at any time. Entries may not be created via SNMP without explicitly setting cHsrpExtIfTrackedRowStatus to either 'createAndGo' or 'createAndWait'. Entries can be created and modified via the management protocol or by the device's local management interface. If the row is not active, and a local management interface command modifies that row, the row may transition to active state. A row entry in the cHsrpExtIfTrackedTable can not be created unless the corresponding row in the cHsrpGrpTable has been created. If that corresponding row in cHsrpGrpTable is deleted, the interfaces it tracks also get deleted. A row which is not in active state will timeout after a configurable period (five minutes by default). This timeout period can be changed by setting cHsrpConfigTimeout." INDEX { ifIndex, cHsrpGrpNumber, cHsrpExtIfTracked } ::= { cHsrpExtIfTrackedTable 1 } CHsrpExtIfTrackedEntry ::= SEQUENCE { -- interface which is getting tracked cHsrpExtIfTracked InterfaceIndex, -- Priority cHsrpExtIfTrackedPriority Unsigned32, cHsrpExtIfTrackedRowStatus RowStatus } cHsrpExtIfTracked OBJECT-TYPE SYNTAX InterfaceIndex MAX-ACCESS not-accessible STATUS current DESCRIPTION "Index into the cHsrpExtIfTrackedTable for the corresponding { ifIndex, cHsrpGrpNumber } pair i.e for an HSRP group. This is the ifIndex of the tracked interface." ::= { cHsrpExtIfTrackedEntry 1 } cHsrpExtIfTrackedPriority OBJECT-TYPE SYNTAX Unsigned32 (0..255) MAX-ACCESS read-create STATUS current DESCRIPTION "Priority of the tracked interface for the corresponding { ifIndex, cHsrpGrpNumber } pair. In the range of 0 to 255, 0 is the lowest priority and 255 is the highest. When a tracked interface is unavailable, the cHsrpGrpPriority of the router is decreased by the value of this object instance (If the cHsrpGrpPriority is less than the cHsrpExtIfTrackedPriority, then the HSRP priority becomes 0). This allows a standby router to be configured with a priority such that if the currently active router's priority is lowered because the tracked interface goes down, the standby router can takeover." DEFVAL { 0 } ::= { cHsrpExtIfTrackedEntry 2 } cHsrpExtIfTrackedRowStatus OBJECT-TYPE SYNTAX RowStatus MAX-ACCESS read-create STATUS current DESCRIPTION "The control that allows modification, creation, and deletion of entries. For detailed rules see the DESCRIPTION for cHsrpExtIfTrackedEntry." ::= { cHsrpExtIfTrackedEntry 3 } cHsrpExtSecAddrTable OBJECT-TYPE SYNTAX SEQUENCE OF CHsrpExtSecAddrEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A table containing information about secondary HSRP IP Addresses per interface and group." ::= { cHsrpExtGroup 2 } cHsrpExtSecAddrEntry OBJECT-TYPE SYNTAX CHsrpExtSecAddrEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The CHsrpExtSecAddrEntry allows creation of secondary IP Addresses for each cHsrpGrpEntry row. Secondary addresses can be added by setting cHsrpExtSecAddrRowStatus to be active. The value of cHsrpExtSecAddrRowStatus may be set to destroy at any time. Entries may not be created via SNMP without explicitly setting cHsrpExtSecAddrRowStatus to either 'createAndGo' or 'createAndWait'. Entries can be created and modified via the management protocol or by the device's local management interface. If the row is not active, and a local management interface command modifies that row, the row may transition to active state. A row which is not in active state will timeout after a configurable period (five minutes by default). This timeout period can be changed by setting cHsrpConfigTimeout. Before creation of a cHsrpExtSecAddrEntry row, either cHsrpGrpConfiguredVirtualIpAddr or cHsrpGrpLearnedVirtualIpAddr must have a valid IP Address. This is because a secondary ip address cannot be created unless the primary ip address has already been set. To create a new cHsrpExtSecAddrEntry row, a management station should choose the ifIndex of the interface which is to be added as part of an HSRP group. Also, an HSRP group number and a cHsrpExtSecAddrAddress should be chosen. Deleting a {ifIndex, cHsrpGrpNumber} row in the cHsrpGrpTable will delete all corresponding rows in the cHsrpExtSecAddrTable. Deleting a primary address value in the cHsrpGrpEntry row will delete all secondary addresses for the same {ifIndex, cHsrpGrpNumber} pair." INDEX { ifIndex, cHsrpGrpNumber, cHsrpExtSecAddrAddress } ::= { cHsrpExtSecAddrTable 1 } CHsrpExtSecAddrEntry ::= SEQUENCE { cHsrpExtSecAddrAddress IpAddress, cHsrpExtSecAddrRowStatus RowStatus } cHsrpExtSecAddrAddress OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS not-accessible STATUS current DESCRIPTION "A secondary IpAddress for the {ifIndex, cHsrpGrpNumber} pair. As explained in the DESCRIPTION for cHsrpExtSecAddrEntry, a primary address must exist before a secondary address for the same {ifIndex, cHsrpGrpNumber} pair can be created." ::= { cHsrpExtSecAddrEntry 1 } cHsrpExtSecAddrRowStatus OBJECT-TYPE SYNTAX RowStatus MAX-ACCESS read-create STATUS current DESCRIPTION "The control that allows modification, creation, and deletion of entries. For detailed rules see the DESCRIPTION for cHsrpExtSecAddrEntry." ::= { cHsrpExtSecAddrEntry 2 } -- --mvrMgt -- mvrStatus OBJECT-TYPE SYNTAX EnabledStatus MAX-ACCESS read-write STATUS current DESCRIPTION "Parameter to enable or disable MVR(Multicast VLAN Registration) on the device. NOTE: IGMP Snooping must be enabled first before enabling MVR and MVR will be disabled when IGMP Snooping is disabled." ::= { mvrMgt 1 } mvrVlanId OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "To set VLAN for MVR.The VLAN identified by a particular value of this index is the same VLAN as identified by the same value of dot1qVlanIndex in the Q-BRIDGE-MIB." ::= { mvrMgt 2 } mvrMaxGroups OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The maximum number of MVR groups." ::= { mvrMgt 3 } mvrCurrentGroups OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The current number of MVR groups." ::= { mvrMgt 4} mvrGroupsCtl OBJECT IDENTIFIER ::= { mvrMgt 5 } mvrGroupsCtlId OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS read-write STATUS current DESCRIPTION "The start of a contiguous range of MVR group addresses." ::= { mvrGroupsCtl 1 } mvrGroupsCtlCount OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "The range count for configuring MVR group addresses." ::= { mvrGroupsCtl 2 } mvrGroupsCtlAction OBJECT-TYPE SYNTAX INTEGER { noAction(0), create(1), destory(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "Sets the configure action for a contiguous range of MVR group addresses. The start addresses is the current value of mvrGroupsCtlId and the range count is the current value of mvrGroupsCtlCount. Set this object to create(2) to create MVR group addresses. Set this object to destory(3) to delete MVR group addresses. When the action is complete, this object becomes noAction(1)." ::= { mvrGroupsCtl 3 } mvrGroupTable OBJECT-TYPE SYNTAX SEQUENCE OF MvrGroupEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The table for configuring the MVR group." ::= { mvrMgt 6 } mvrGroupEntry OBJECT-TYPE SYNTAX MvrGroupEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The entry for configuring the MVR group." INDEX {mvrGroupId} ::= { mvrGroupTable 1 } MvrGroupEntry ::= SEQUENCE { mvrGroupId IpAddress, mvrGroutActive INTEGER, mvrGroupStatus INTEGER } mvrGroupId OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS not-accessible STATUS current DESCRIPTION "The multicast address of the MVR group." ::= { mvrGroupEntry 1 } mvrGroutActive OBJECT-TYPE SYNTAX INTEGER { active(1), inactive(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "To indicate if the group has a member or not. If there are no members, the status is inactive(2); otherwise the status is active(1)." ::= { mvrGroupEntry 2 } mvrGroupStatus OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "Setting this to valid(1) creates an entry. Setting this to invalid(2) destroys an entry." ::= { mvrGroupEntry 3 } mvrGroupStaticTable OBJECT-TYPE SYNTAX SEQUENCE OF MvrGroupStaticEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The table for configuring the static members of the MVR group." ::= { mvrMgt 7 } mvrGroupStaticEntry OBJECT-TYPE SYNTAX MvrGroupStaticEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The entry for configuring the static members of the MVR group." INDEX {mvrGroupStaticAddress} ::= { mvrGroupStaticTable 1 } MvrGroupStaticEntry ::= SEQUENCE { mvrGroupStaticAddress IpAddress, mvrGroupStaticPorts PortList, mvrGroupStaticStatus INTEGER } mvrGroupStaticAddress OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS not-accessible STATUS current DESCRIPTION "The multicast address of the MVR group." ::= { mvrGroupStaticEntry 1 } mvrGroupStaticPorts OBJECT-TYPE SYNTAX PortList MAX-ACCESS read-write STATUS current DESCRIPTION "The set of ports configured by management in this entry. Ports entered in this list will be the static members of this MVR group." ::= { mvrGroupStaticEntry 2 } mvrGroupStaticStatus OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "Setting this to valid(1) creates an entry. Setting this to invalid(2) destroys an entry." ::= { mvrGroupStaticEntry 3 } mvrGroupCurrentTable OBJECT-TYPE SYNTAX SEQUENCE OF MvrGroupCurrentEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The table for the current members of the MVR group." ::= { mvrMgt 8 } mvrGroupCurrentEntry OBJECT-TYPE SYNTAX MvrGroupCurrentEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The entry for the current members of the MVR group." INDEX {mvrGroupCurrentAddress} ::= { mvrGroupCurrentTable 1 } MvrGroupCurrentEntry ::= SEQUENCE { mvrGroupCurrentAddress IpAddress, mvrGroupCurrentPorts PortList } mvrGroupCurrentAddress OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS not-accessible STATUS current DESCRIPTION "The multicast address of the MVR group." ::= { mvrGroupCurrentEntry 1 } mvrGroupCurrentPorts OBJECT-TYPE SYNTAX PortList MAX-ACCESS read-only STATUS current DESCRIPTION "The complete set of ports currently associated with this MVR group." ::= { mvrGroupCurrentEntry 2 } mvrPortTable OBJECT-TYPE SYNTAX SEQUENCE OF MvrPortEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The table for configuring the MVR port." ::= { mvrMgt 9 } mvrPortEntry OBJECT-TYPE SYNTAX MvrPortEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The entry for configuring the MVR port." INDEX {mvrIfIndex} ::= { mvrPortTable 1 } MvrPortEntry ::= SEQUENCE { mvrIfIndex InterfaceIndex, mvrPortType INTEGER, mvrPortImmediateLeave EnabledStatus, mvrPortActive INTEGER } mvrIfIndex OBJECT-TYPE SYNTAX InterfaceIndex MAX-ACCESS not-accessible STATUS current DESCRIPTION "The port interface of the portTable. The interface identified by a particular value of this index is the same interface as identified by the same value of ifIndex in the IF-MIB." ::= { mvrPortEntry 1 } mvrPortType OBJECT-TYPE SYNTAX INTEGER { none(0), source(1), receiver(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "For configuring the MVR port type. To disable the MVR port type, use the none(0)." ::= { mvrPortEntry 2 } mvrPortImmediateLeave OBJECT-TYPE SYNTAX EnabledStatus MAX-ACCESS read-write STATUS current DESCRIPTION "To enable immediate leave on MVR port." ::= { mvrPortEntry 3 } mvrPortActive OBJECT-TYPE SYNTAX INTEGER { active(1), inactive(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "To indicate if the port is associated with the MVR group. If the port is the MVR receiver port or the MVR source port in MVR vlan, the status is active(1); otherwise the status is inactive(2)." ::= { mvrPortEntry 4 } mvrRunningStatus OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "Describes the running status of MVR (Multicast VLAN Registration) to the switch. A value of true(1) indicates that all necessary conditions in the MVR environment are satisfied. A value of false(2) indicates that some necessary conditions in the MVR environment are not satisfied." ::= { mvrMgt 10 } -- -- trap definitions -- es4612Traps OBJECT IDENTIFIER ::= { es4612MIBNotifications 1 } es4612TrapsPrefix OBJECT IDENTIFIER ::= { es4612Traps 0 } swPowerStatusChangeTrap NOTIFICATION-TYPE OBJECTS { swIndivPowerUnitIndex, swIndivPowerIndex, swIndivPowerStatus } STATUS current DESCRIPTION "This trap is sent when the power status of an individual power changes." ::= { es4612TrapsPrefix 1 } swFanFailureTrap NOTIFICATION-TYPE OBJECTS { switchUnitIndex, switchFanIndex } STATUS current DESCRIPTION "This trap is sent when the fan is failure." ::= { es4612TrapsPrefix 17 } swFanRecoverTrap NOTIFICATION-TYPE OBJECTS { switchUnitIndex, switchFanIndex } STATUS current DESCRIPTION "This trap is sent when fan failure has recovered." ::= { es4612TrapsPrefix 18 } swPortSecurityTrap NOTIFICATION-TYPE OBJECTS { ifIndex } STATUS current DESCRIPTION "This trap is sent when the port is being intruded. This trap will only be sent when the portSecActionTrap is enabled." ::= { es4612TrapsPrefix 36 } swSmtpConnFailureTrap NOTIFICATION-TYPE OBJECTS { smtpServerIp } STATUS current DESCRIPTION "This trap will be triggered if the SMTP system cannot open a connection to the mail server successfully." ::= { es4612TrapsPrefix 41 } END