sysMgmtType Type of network management running on this entity.

sysIpAddr This entity's IP address.

This object is deprecated and replaced by ciiIPAddressType and ciiIPAddress in CISCO-IP-IF-MIB.

sysNetMask This entity's subnet mask.

This object is deprecated and replaced by ciiIPAddressPrefixLength in CISCO-IP-IF-MIB.

sysBroadcast This entity's broadcast address.

This object is deprecated and replaced by ciiIPAddressBroadcast in CISCO-IP-IF-MIB.

sysTrapReceiverTable The trap receiver table (0 to 20 entries). This table lists the addresses of Network Management Stations that should receive trap messages from this entity when an exception condition occurs.

This table is deprecated and replaced by trapDestTable and other tables in SNMP-TARGET- MIB and SNMP-NOTIFICATION-MIB.

sysTrapReceiverEntry A trap receiver table entry.

sysTrapReceiverType Setting this object to invalid(2) removes the corresponding entry from the sysTrapReceiverTable. To add a new entry to the sysTrapReceiverTable, set this object to valid(1) for an IpAddress which is not already in the table.

sysTrapReceiverAddr IP address for trap receiver.

sysTrapReceiverComm Community string used for trap messages to this trap receiver.

sysCommunityTable The community table (4 entries). This table lists community strings and their access levels. When an SNMP message is received by this entity, the community string in the message is compared with this table to determine access rights of the sender.

Note that this item is only accessible when using the community string defined in sysCommunityRwa.

sysCommunityEntry A community table entry.

sysCommunityAccess A value of readWriteAll(4) allows the community to read and write all objects in the MIB. A value of readWrite(3) allows the community to read and write all objects except restricted items such as community strings, which cannot be accessed at all. A value of readOnly(2) allows the community to read all objects except restricted items. A value of other(1) allows no access.

sysCommunityString Configurable community string with access rights defined by the value of sysCommunityAccess.

sysAttachType The requested concentrator attachment type. For a dual attachment concentrator which can be connected to the trunk ring, the first FDDI port is configured as A and the second FDDI port is configured as B. For a single attachment concentrator which can be connected beneath another concentrator, the first FDDI port is configured as M and the second FDDI port is configured as S. For a null attachment concentrator which can be located at the root of the tree, the first two FDDI ports are configured as M. This object does not take effect until the concentrator is reset. The current attachment type can be determined from snmpFddiPORTPCType for ports 1 and 2.

sysTraffic Traffic meter value, i.e. the percentage of bandwidth utilization for the previous polling interval.

sysReset Writing reset(2) to this object resets the control logic of all modules in the system. Writing resetMinDown(3) to this object resets the system with the minimal system down time. The resetMinDown(3) is only supported in systems with redundant supervisors.

This object is deprecated and replaced by csyScheduledReset in CISCO-SYSTEM-MIB.

sysBaudRate The baud rate in bits per second of the RS-232 port.

sysInsertMode The mode for inserting M-ports into the concentrator ring.

sysClearMacTime The time (in hundredths of a second) since mac counters were last cleared. Writing a 0 to this object causes the mac counters to be cleared.

sysClearPortTime The time (in hundredths of a second) since port counters were last cleared. Writing a 0 to this object causes the port counters to be cleared.

sysFddiRingTable The fddi ring map table. This table lists the nodes in the FDDI ring(s) to which the system belongs.

sysFddiRingEntry A FDDI Ring table entry.

sysFddiRingSMTIndex The value of the SMT index associated with this ring.

sysFddiRingAddress The MAC address of this node in the FDDI ring.

sysFddiRingNext The MAC address of the next node in the FDDI ring.

sysEnableModem Indicates whether the RS-232 port modem control lines are enabled.

sysEnableRedirects Indicates whether ICMP redirect messages are sent or received by the system.

sysEnableRmon Indicates whether the SNMP agent supports the RMON MIB.

sysArpAgingTime The aging time for the ARP table.

sysTrafficPeak Peak traffic meter value since the last time port counters were cleared or the system started (see sysClearPortTime).

sysTrafficPeakTime The time (in hundredths of a second) since the peak traffic meter value occurred.

sysCommunityRwa When an SNMP message is received by this entity, the community string in the message is compared with this string first. If it matches, read-write access is granted to all items in the MIB. If it doesn't match, the sysCommunityRw string is compared next.

Note that this item is only accessible when using the community string defined in sysCommunityRwa.

sysCommunityRw When an SNMP message is received by this entity, the community string in the message is compared with this string second. If it matches, read-write access is granted to all items in the MIB except restricted items such as community strings. (Restricted items appear empty when read and return a no such name error when an attempt is made to write them.)  If it doesn't match, the sysCommunityRo string is compared next.

Note that this item is only accessible when using the community string defined in sysCommunityRwa.

sysCommunityRo When an SNMP message is received by this entity, the community string in the message is compared with this string third. If it matches, read-only access is granted to all items in the MIB except restricted items such as community strings. (Restricted items appear empty when read.) If it doesn't match, no access is granted, no response is sent back to the SNMP requester, and an SNMP is sent to the SNMP trap receivers if configured.

Note that this item is only accessible when using the community string defined in sysCommunityRwa.

sysEnableChassisTraps Indicates whether chassisAlarmOn and chassisAlarmOff traps in this MIB should be generated.

sysEnableModuleTraps Indicates whether moduleUp and moduleDown traps in this MIB should be generated.

sysEnableBridgeTraps Indicates whether newRoot and topologyChange traps in the BRIDGE-MIB (RFC 1493) should be generated.

enabled -- both newRoot and topologyChange
          traps are enabled.

disabled -- both of the newRoot and
          topologyChange traps are disabled.

enabledForNewRootOnly -- only the newRoot trap is
          enabled. This value is read-only.

enabledForTopoChangeOnly -- only the
          topologyChange trap is enabled. This
          value is read-only.

This object is deprecated and replaced by stpxNotificationEnable in CISCO-STP-EXTENSIONS-MIB.

sysIpVlan This entity's IP address Virtual LAN association.

sysConfigChangeTime The time (in hundredths of a second) since the configuration of the system was last changed.

sysEnableRepeaterTraps Indicates whether the traps in the REPEATER-MIB (RFC1516) should be generated.

sysBannerMotd Message of the day banner which is displayed on the Command Line Interface before log in.

sysEnableIpPermitTraps Indicates whether the IP permit traps in this MIB should be generated.

sysTrafficMeterTable The system traffic meter table. This table lists the traffic meters available in the system.

sysTrafficMeterEntry A traffic meter table entry.

sysTrafficMeterType The type of traffic meter.

sysTrafficMeter Traffic meter value, i.e. the percentage of bandwidth utilization for the previous polling interval.

sysTrafficMeterPeak Peak traffic meter value since the system started.

sysTrafficMeterPeakTime The time (in hundredths of a second) since the peak traffic meter value occurred.

sysEnableVmpsTraps Indicates whether the vmVmpsChange trap defined in CISCO-VLAN-MEMBERSHIP-MIB should be generated.

sysConfigChangeInfo Indicates which NVRAM block is changed by whom.

sysEnableConfigTraps Indicates whether sysConfigChange trap in this MIB should be generated.

sysConfigRegister The value of configuration register that will be used by the supervisor module when the system is restarted. This MIB object is only supported in systems with supervisor modules having ROMMON support.

The lowest four bits of the configuration register (bits 3,2,1, and 0) form the boot field and the boot field determines whether the system boots from as the following: 0000  -- stay in ROM monitor 0001  -- boot from the first bootable system
        images on the bootflash
0010 to 1111
     -- boot from the first bootable system
        images specified in the sysBootVariable

The bit 5(0x0020) indicates whether the configuration file specified in sysStartupConfigSourceFile will beused recurringly or not whenever the system resets. If this bit is not set, the configuration file(s) specified in sysStartupConfigSourceFile will only be used once and the value of sysStartupConfigSourceFile will be reset to empty string automatically during the next system reset.

If the bit 6(0x0040) is set, the system will start with default configuration.

The bits 11,12 (0x0800, 0x1000) are used to specify the console line speed in ROM monitor mode as the following: 00   -- 9600 01   -- 1200 10   -- 4800 11   -- 2400

The unspecified bits are not used.

sysBootVariable A list of the system boot images in the BOOT environment variable on supervisor modules with ROMMON. The format of sysBootVariable should be: <device>:[<fileName>],1;{<device>:[<fileName>],1;...} If the [fileName] is not specified, the first file on the <device> will be used.

This MIB object is only supported in systems having supervisor modules with ROMMON.

sysBootedImage The name of the system boot image which the system booted from. This MIB object is only supported in the system with Supervisor module 3 present.

sysEnableEntityTrap Indicates whether entConfigChange trap in the ENTITY-MIB should be generated.

sysEnableStpxTrap Indicates whether stpxInconsistencyUpdate and stpxRootInconsistencyUpdate traps in the CISCO-STP-EXTENSIONS-MIB should be generated.

enabled -- the stpxInconsistencyUpdate,
          stpxRootInconsistencyUpdate and
          stpxLoopInconsistencyUpdate traps are
          all enabled.

disabled -- the stpxInconsistencyUpdate,
          stpxRootInconsistencyUpdate and
          stpxLoopInconsistencyUpdate traps
          are all disabled.

enabledForInconOnly -- only the
          stpxInconsistencyUpdate trap is
          enabled. This value is read-only.

enabledForRootOnly -- only the
          stpxRootInconsistencyUpdate trap is
          enabled. This value is read-only.

enabledForLoopOnly -- only the
          stpxLoopInconsistencyUpdate trap is
          enabled. This value is read-only.

enabledForInconRootOnly -- only the
          stpxInconsistencyUpdate and
          stpxRootInconsistencyUpdate traps are
          enabled. This value is read-only.

enabledForInconLoopOnly -- only the
          stpxInconsistencyUpdate and
          stpxLoopInconsistencyUpdate traps are
          enabled. This value is read-only.

enabledForRootLoopOnly -- only the
          stpxRootInconsistencyUpdate and
          stpxLoopInconsistencyUpdate traps are
          enabled. This value is read-only.

This object is deprecated and replaced by stpxNotificationEnable in CISCO-STP-EXTENSIONS-MIB.

sysExtendedRmonVlanModeEnable Indicates whether the Extended RMON VlanMode feature is enabled or not. If it is set to enabled(1), hostTable (rmon 4) will provide the information of a list of VLANs instead of a list of MAC addresses for a monitored trunking port.

sysExtendedRmonNetflowPassword The password for enabling the Extended RMON Netflow feature and this object has to be set before setting sysExtendedRmonNetflowEnable to enabled(1). When reading this object, it will return empty string.

If the platform supports sysExtendedRmonNetflowModuleMask object, this object will be not be supported.

sysExtendedRmonNetflowEnable Indicates whether the Extended RMON Netflow feature is enabled or not. Setting this object to disabled(2), will clear sysExtendedRmonNetflowPassword automatically. Setting this object to enabled(1) will be rejected if sysExtendedRmonNetflowPassword does not contain a valid password.

If the platform supports sysExtendedRmonNetflowModuleMask object, this object will not be supported.

sysExtendedRmonVlanAgentEnable Indicates whether the Extended RMON VlanAgent feature is enabled or not. If it is set to enabled(1), the extended RMON will also provide the information on VLAN based interface in addition to the port based interface for the monitored traffic. Setting this object to enabled(1), it will consume more CPU for processing each monitored frame and affect Extended RMON performance.

sysExtendedRmonEnable Indicates whether the SNMP agent supports the extended RMON feature. noNAMPresent(3) is a read-only value and the agent will return this value when the sysEnableExtendedRmon is set to enabled(1), but Network Analysis module is not present in the system.

sysConsolePrimaryLoginAuthentication Indicates whether TACACS+ or RADIUS is the primary login authentication, i.e which method will be tried first for a console session. If tacacsLoginAuthentication and radiusLoginAuthentication are set to disabled then sysConsolePrimaryLoginAuthentication will have a value of local(3).

This object is deprecated and replaced by cacPriorityTable in CISCO-AAA-CLIENT-MIB.

sysConsolePrimaryEnableAuthentication Indicates whether TACACS+ or RADIUS is the primary enable authentication, i.e which method will be  tried first for a console session. If tacacsEnableAuthentication and radiusEnableAuthentication are set to disabled then sysConsolePrimaryEnableAuthentication will have a value of local(3).

This object is deprecated and replaced by cacPriorityTable in CISCO-AAA-CLIENT-MIB.

sysTelnetPrimaryLoginAuthentication Indicates whether TACACS+ or RADIUS is the primary login authentication, i.e which method will be  tried first for a telnet session. If tacacsLoginAuthentication and radiusLoginAuthentication are set to disabled then sysTelnetPrimaryLoginAuthentication will have a value of local(3).

This object is deprecated and replaced by cacPriorityTable in CISCO-AAA-CLIENT-MIB.

sysTelnetPrimaryEnableAuthentication Indicates whether TACACS+ or RADIUS is the primary enable authentication, i.e which method will be tried first for a telnet session. If tacacsEnableAuthentication and radiusEnableAuthentication are set to disabled then sysTelnetPrimaryEnableAuthentication will have a value of local(3).

This object is deprecated and replaced by cacPriorityTable in CISCO-AAA-CLIENT-MIB.

sysStartupConfigSource Indicates whether the configuration file(s) specified in sysStartupConfigSourceFile will be used recurringly or not whenever the system resets. Setting this object to flashFileNonRecurring(2), the configuration file(s) specified in sysStartupConfigSourceFile will only be used once and the value of sysStartupConfigSourceFile will be reset to empty string automatically during the next system reset.

This MIB object is only supported in systems with SupG supervisor models or supervisor models that have flash file system support.

sysStartupConfigSourceFile Indicates which configuration file(s) on the flash device will be used during the next system startup. If the value of this MIB object contains one or multiple valid configuration file(s), then the valid configuration file(s) will reconfigure the system during the next system startup one by one in the order specified. If the value of this MIB object does not contain the valid configuration file(s) on the device, the NVRAM configuration will be used instead.

For supervisor models wsx5540 and wsx5550, only 'cfg1' and 'cfg2' are valid file names.

For supervisor models with the flash file system support, the valid file name has the format of '<device:><file>[;<device:><file>...]'.

This MIB object is only supported in systems with supervisor models wsx5540 and wsx5550 or supervisor models with the flash file system support.

sysConfigSupervisorModuleNo Indicates the supervisor module (active or standby, if applicable) that the MIB objects sysConfigRegister, sysBootVariable, sysStartupConfigSource, and sysStartupConfigSourceFile are specified for.

This MIB object is only supported by the supervisor modules with the flash file system feature support. The default value for this MIB object is set to the active supervisor module number.

sysStandbyPortEnable Indicates whether the standby port feature is enabled or not. If this object is set to enabled(1), the uplink ports on the standby supervisor module are activated; otherwise, the uplink ports on the standby supervisor remain inactive.

sysPortFastBpduGuard Indicates whether BPDU Guard for Spanning Tree Port Fast Start feature is enabled or not. If the value of this object is set to enabled(1), then when the switch receives a BPDU from a port with the value of portSpantreeFastStart object set to enabled(1), that port is immediately disabled.

This object is deprecated and replaced by stpxFastStartBpduGuardEnable in CISCO-STP-EXTENSIONS-MIB.

sysErrDisableTimeoutEnable Indicates whether errdisable timeout feature is enabled for each of the causes or not. The other(0) is for all causes other than: udld(1), duplexMismatch(2), bpduPortGuard(3), channelMisconfig(4), crossBarFallBack(5), (only supported on platforms
                     that support this errdisable
                     reason.)
gl2ptIngressLoop(6), (only supported on platforms
                     that support this errdisable
                     reason.)
gl2ptThresholdExceed(7), (only supported on
                     platforms that support this
                     errdisable reason.)
bcastSuppression(8), (only supported on platforms
                     that support this errdisable
                     reason.)
arpInspectionRate(9), (only supported on platforms
                     that support this errdisable
                     reason.)
noStaticInlinePwr(10), (only supported on
                      platforms that support this
                      errdisable reason.)
camMonitor(11),       (only supported on
                      platforms that support this
                      errdisable reason.)
gl2ptCdpThresholdExceed(12), (only supported on
                      platforms that support this
                      errdisable reason.)
gl2ptStpThresholdExceed(13), (only supported on
                      platforms that support this
                      errdisable reason.)
gl2ptVtpThresholdExceed(14), (only supported on
                      platforms that support this
                      errdisable reason.)
linkRxCrc(15),        (only supported on
                      platforms that support this
                      errdisable reason.)
linkTxCrc(16),        (only supported on
                      platforms that support this
                      errdisable reason.)
linkInErrors(17),     (only supported on
                      platforms that support this
                      errdisable reason.)
packetBufferError(18), (only supported on
                      platforms that support this
                      errdisable reason.)

A port is in errdisable state if ifAdminStatus of the port in the ifTable is up(1) while the port is shutdown during runtime by the system due to error detection. If the value of object portAdditionalOperStatus for the port is errdisable(11) then that port is in errdisable state.

By setting the bit corresponding to a cause to '1', this errdisable timeout feature is enabled on the system for the ports that are put into errdisable state by that cause, then those ports can be re-enabled automatically during the timeout interval as specified by sysErrDisableTimeoutInterval object after they are put into errdisable state by that cause; otherwise, by setting the bit corresponding to a cause to '0', this errdisable timeout feature is disabled on the system for the ports that are put into errdisable state by that cause, then those ports will remain shutdown until the user re-enable it manually.

sysErrDisableTimeoutInterval Indicates the timeout interval in seconds for errdisable timeout feature.

sysTrafficMonitorHighWaterMark Indicates the high watermark for the switching bus traffic in percentage. Syslog messages will be generated if the switching bus traffic goes over this object value during the polling interval. Setting this object value to 100 would mean no syslog message would be generated. For systems with 3 switching buses, high watermark and syslog will be for each switching bus.

sysHighAvailabilityEnable Indicates whether High System Availability feature is enabled or not. If this feature is enabled, the active supervisor's layer-2 protocol state will be synched to the standby supervisor module, thus maintaining an up-to-date protocol data on the standby supervisor whenever possible.

This object is supported in systems with High System Availability feature support.

sysHighAvailabilityVersioningEnable Indicates whether support for supervisor software image versioning (i.e., the capability to run different images on the active and standby supervisors) for the High System Availability feature is enabled or not.

This object is supported in systems with High System Availability feature support.

sysHighAvailabilityOperStatus Indicates the operational status of High System Availability feature. If the value of this object is notRunning(2), then the reason why this feature is actually not running is specified by the object sysHighAvailabilityNotRunningReason. If the value of this object is running(1), then the value of object sysHighAvailabilityOperReason is empty string.

This object is supported in systems with High System Availability feature support.

sysHighAvailabilityNotRunningReason Indicates the reason why High System Availability feature is not running when the value of sysHighAvailabilityOperStatus is notRunning(2).
The value of this object is empty string when
the value of sysHighAvailabilityOperStatus is running(1).

This object is supported in systems with High System Availability feature support.

sysExtendedRmonNetflowModuleMask Indicates Netflow Export Data (NDE) to be sent to which Network Analysis Modules (NAM) in the same chassis.

If users set a bit from off to on, the system will check the corresponding module is a NAM or not. If it is not, the system should return error.

This mib object will only be supported by the system that can support the multiple NAM modules.

sshPublicKeySize Indicates public key size in bits. In write, if a key does not exist, a value between 512 and 2048 will generate a RSA public key with the value as its key size for secured shell access. If a key exists a value other than 0 is valid, indicating a clear key operation. In read, the current key size is returned if a key exists. If not,a 0 is returned.

sysMaxRmonMemory Indicates the maximum percentage of the memory usage for RMON.

sysMacReductionAdminEnable Indicates whether Mac Reduction feature (to reduce the number of MAC addresses used in bridge identifier) is administratively enabled on the device or not.

sysMacReductionOperEnable Indicates whether Mac Reduction feature (to reduce the number of MAC addresses used in bridge identifier) is operationaly enabled on the device or not.

If the value of this object is true(1), then the accepted values for dot1dStpPriority in BRIDGE-MIB should be multiples of 4096 plus bridge instance ID, such as VlanIndex. Changing this object value might cause the values of dot1dBaseBridgeAddress and dot1dStpPriority in BRIDGE-MIB to be changed also.

sysStatus The operational status of the system.

chassisSysType The chassis system type.

chassisBkplType The chassis backplane type.

chassisPs1Type Type of power supply number 1.

chassisPs1Status Status of power supply number 1. If the status is not ok, the value of chassisPs1TestResult gives more detailed information about the power supply's failure condition(s).

chassisPs1TestResult Test result for power supply number 1. A zero indicates that the supply passed all tests. Bits set in the result indicate error conditions.

chassisPs2Type Type of power supply number 2.

chassisPs2Status Status of power supply number 2. If the status is not ok, the value of chassisPs2TestResult gives more detailed information about the power supply's failure condition(s).

chassisPs2TestResult Test result for power supply number 2. A zero indicates that the supply passed all tests. Bits set in the result indicate error conditions.

chassisFanStatus Status of the chassis fan. If the status is not ok, the value of chassisFanTestResult gives more detailed information about the fan's failure condition(s).

chassisFanTestResult Test result for the chassis fan. A zero indicates that the fan passed all tests. Bits set in the result indicate error conditions.

chassisMinorAlarm The chassis minor alarm status.

chassisMajorAlarm The chassis major alarm status.

chassisTempAlarm The chassis temperature alarm status.

chassisNumSlots The number of slots in the chassis available for plug-in modules.

chassisSlotConfig An indication of which slots in the chassis have modules inserted. This is an integer value with bits set to indicate configured modules. It can be interpreted as a sum of f(x) as x goes from 1 to the number of slots, where f(x) = 0 for no module inserted and f(x) = exp(2, x-1) for a module inserted.

chassisModel The manufacturer's model number for the chassis.

chassisSerialNumber The serial number of the chassis in a numeric format. If the chassis uses an alphanumeric serial number, this MIB object will return 0.

This object is deprecated and replaced by entPhysicalSerialNum in ENTITY-MIB.

chassisComponentTable A list of the chassis related components in the chassis.

This table is deprecated and replaced by entPhysicalTable in ENTITY-MIB.

chassisComponentEntry Entry containing information about one component in the chassis.

chassisComponentIndex A unique value for each chassis related component within the chassis.

chassisComponentType The type of the chassis component.

chassisComponentSerialNumber The serial number of the chassis component.

chassisComponentHwVersion The hardware version of the chassis component.

chassisComponentModel The manufacturer's model number for the chassis component.

chassisSerialNumberString The serial number of the chassis. This MIB object will return the chassis serial number for any chassis that either a numeric or an alphanumeric serial number is being used.

chassisPs3Type Type of power supply number 3. This object is only supported by systems that can have 3 or more power supplies.

chassisPs3Status Status of power supply number 3. If the status is not ok, the value of chassisPs3TestResult gives more detailed information about the power supply's failure condition(s). This object is only supported by systems that can have 3 or more power supplies.

chassisPs3TestResult Test result for power supply number 3. A zero indicates that the supply passed all tests. Bits set in the result indicate error conditions. This object is only supported by systems that can have 3 or more power supplies.

chassisPEMInstalled Indicates whether Power Entry Module is installed into the Chassis or not. Power Entry Module is a connection into the system for an external power supply of -48 Volts. This object is only supported by systems that can have 3 or more power supplies.

moduleTable A list of module entries. The number of entries is the number of modules in the chassis.

moduleEntry Entry containing information about one module in the chassis.

moduleIndex A unique value for each module within the chassis.

moduleType The type of module.

moduleSerialNumber The serial number of the module in a numeric format. If the module uses an alphanumeric serial number, this MIB object will return 0.

This object is deprecated and replaced by entPhysicalSerialNum in ENTITY-MIB.

moduleHwHiVersion The high part of the hardware version of the module. For example, if the hardware version is 3.1, the value of moduleHwHiVersion is 3.

This object is deprecated and replaced by entPhysicalHardwareRev in ENTITY-MIB.

moduleHwLoVersion The low part of the hardware version of the module. For example, if the hardware version is 3.1, the value of moduleHwLoVersion is 1.

This object is deprecated and replaced by entPhysicalHardwareRev in ENTITY-MIB.

moduleFwHiVersion The high part of the firmware version number. For example, if the firmware version is 3.1, the value of moduleFwHiVersion is 3.

This object is deprecated and replaced by entPhysicalFirmwareRev in ENTITY-MIB.

moduleFwLoVersion The low part of the firmware version number. For example, if the firmware version is 3.1, the value of moduleFwLoVersion is 1.

This object is deprecated and replaced by entPhysicalFirmwareRev in ENTITY-MIB.

moduleSwHiVersion The high part of the software version number. For example, if the software version is 3.1, the value of moduleSwHiVersion is 3.

This object is deprecated and replaced by entPhysicalSoftwareRev in ENTITY-MIB.

moduleSwLoVersion The low part of the software version number. For example, if the software version is 3.1, the value of moduleSwLoVersion is 1.

This object is deprecated and replaced by entPhysicalSoftwareRev in ENTITY-MIB.

moduleStatus The operational status of the module. If the status is not ok, the value of moduleTestResult gives more detailed information about the module's failure condition(s).

moduleTestResult The result of the module's self test. A zero indicates that the module passed all tests. Bits set in the result indicate error conditions.

moduleAction This object, when read, returns one of the following results:
   other(1):   module permanently enabled
   enable(3):  module currently enabled
   disable(4): module currently disabled
Setting this object to one of the acceptable values gives the following results:
 other(1):  gives an error
 reset(2):  resets the module's control logic
 enable(3): if the module status is configurable,
             enables the module, else gives error
 disable(4): if the module status is
            configurable, disables the module,
            else gives error.
Setting this object to any other values results in an error.

moduleName A descriptive string used by the network administrator to name the module.

moduleNumPorts The number of ports supported by the module.

modulePortStatus A series of bytes containing status information about the module and each of the ports on the module. The first byte contains the status for the module (same value as moduleStatus), and subsequent bytes contain status for the first through the last ports on the module (same value as portOperStatus).

moduleSubType The type of daughterboard attached to this module.

moduleModel The manufacturer's model number for the module.

moduleHwVersion The hardware version of the module.

moduleFwVersion The firmware version of the module.

moduleSwVersion The software version of the module.

moduleStandbyStatus Redundant status of a module that supports redundancy.

moduleIPAddress If the module has a separate IP address to reach it by, then it is reported here. Otherwise, this object has a value of '00000000H'.

moduleIPAddressVlan If the moduleIPAddress is valid then this object reports the VLAN to access that IP address on. Otherwise this object has a value of zero.

moduleSubType2 The type of daughterboard attached to this module.

moduleSlotNum This value is determined by the chassis slot number where the module is located. Valid entries are 1 to the value of chassisNumSlots

moduleSerialNumberString The serial number of the module. This MIB object will return the module serial number for any module that either a numeric or an alphanumeric serial number is being used.

moduleEntPhysicalIndex The value of the instance of the entPhysicalIndex object, defined in ENTITY-MIB, for the entity physical index corresponding to this module.

moduleAdditionalStatus The additional status of the module.

fruInstalled(0) indicates that whether or not FRU is installed on the module.

powerDenied(1) indicates that whether phones connected to the ports of this module are denied of power.

faulty(2) indicates hardware faulty.

portTable A list of port entries. The number of entries is determined by the number of modules in the chassis and the number of ports on each module.

portEntry Entry containing information for a particular port on a module.

portModuleIndex An index value that uniquely identifies the module where this port is located.

portIndex An index value that uniquely identifies this port within a module. The value is determined by the location of the port on the module. Valid entries are 1 to the value of moduleNumPorts for this module.

portCrossIndex A cross-reference to the port's index within another mib group. The value is dependent on the type of port. For an FDDI port, this corresponds to the snmpFddiPORTIndex.

portName A descriptive string used by the network administrator to name the port.

portType The type of physical layer medium dependent interface on the port.

portOperStatus The current operational status of the port.

portCrossGroupIndex A cross-reference to another mib group for this port. The value is dependent on the type of port. For an FDDI port this corresponds to the snmpFddiPORTSMTIndex.

portAdditionalStatus Additional status information for the port. The value is a sum. It initially takes the value zero, then for each state that is true, 2 raised to a power is added to the sum. The powers are according to the following table:
        State    Power
     Transmit    0
      Receive    1
    Collision    2
Transmit state indicates that at least one packet was transmitted by the port in the last polling period. Receive state indicates that at least one packet was received by the port in the last polling period. Collision state indicates that at least one collision was detected on the port in the last polling period. Note that if a state is not applicable to a particular port or additional status is not supported on a particular port, its value is always false for that port.

portAdminSpeed The desired speed of the port. The current operational speed of the port can be determined from ifSpeed.

portDuplex Indicates whether the port is operating in half- duplex, full-duplex, disagree or auto negotiation mode. If the port could not agree with the far end on port duplex, the port will be in disagree(3) mode.

portIfIndex The value of the instance of the ifIndex object, defined in MIB-II, for the interface corresponding to this port.

portSpantreeFastStart Indicates whether the port is operating in spantree fast start mode. A port with fast start enabled is immediately put in spanning tree forwarding state on link up, rather than starting in blocking state which is the normal operation. This is useful when the port is known to be connected to a single station which has problems waiting for the normal spanning tree operation to put the port in forwarding state.

This object is deprecated and replaced by stpxFastStartPortTable in CISCO-STP-EXTENSIONS-MIB.

portAdminRxFlowControl Indicates the receive flow control administrative status set on the port. If the status is set to on(1), the port will require the far end to send flow control. If the status is set to off(2), the port will not allow far end to send flow control. If the status is set to desired(3), the port will allow the far end to send the flow control.

portOperRxFlowControl Indicates the receive flow control operational status of the port. If the port could not agree with the far end on a link protocol, its operational status will be disagree(3).

portAdminTxFlowControl Indicates the transmit flow control administrative status set on the port. If the status is set to on(1), the port will send flow control to the far end. If the status is set to off(2), the port will not send flow control to the far end. If the status is set to desired(3), the port will send flow control to the far end if the far end supports it.

portOperTxFlowControl Indicates the transmit flow control operational status of the port. If the port could not agree with the far end on a link protocol, its operational status will be disagree(3).

portMacControlTransmitFrames The total number of MAC control frames passed to the MAC sublayer for transmission.

portMacControlReceiveFrames The total number of MAC control frames passed by the MAC sublayer to the MAC Control sublayer on receive.

portMacControlPauseTransmitFrames The total number of PAUSE frames passed to the MAC sublayer for transmission.

portMacControlPauseReceiveFrames The total number of PAUSE frames passed by the MAC sublayer to the MAC Control sublayer on receive.

portMacControlUnknownProtocolFrames The total number of MAC Control frames received with an opcode that is not supported by the device.

portLinkFaultStatus Specifies additional link fault status on a gigabit link.

noFault:
       Link is up and operational.
nearEndFault:
       The port is enabled but there is no GBIC
       present or the local port cannot
       synchronize with the remote end.
nearEndConfigFail:
       The local port has detected a
       configuration mismatch with the remote
       end.
farEndDisable:
       The far end is in the disabled state.
farEndFault:
       The remote port is cannot synchronize.
farEndConfigFail:
       The remote port has detected a
       configuration mismatch with the local end.
notApplicable:
       Link fault status is not applicable on
       this port.

portAdditionalOperStatus The current operational status of the port which is showing additional detailed information of the port.

portInlinePowerDetect Indicate if the port detects an inline power capable device connected to it.

portEntPhysicalIndex The value of the instance of the entPhysicalIndex object, defined in ENTITY-MIB, for the entity physical index corresponding to this port.

portErrDisableTimeOutEnable Indicates whether a port that is put into errdisable state by a cause as specified by sysErrDisableTimeoutEnable will be re-enabled automatically during the timeout interval as specified by sysErrDisableTimeoutInterval.

tftpHost Name of source/destination host for the TFTP transfer or storage device transfer. If the name is for the TFTP transfer, it can be the IP address or the host name. If the name for the storage device transfer, it will be in the format of deviceName: (e.g. slot0:, slot1:).

tftpFile Name of file for the TFTP transfer or for storage device transfer.

tftpModule Which module's code/configuration is being transferred.

tftpAction Setting this object to one of the acceptable values initiates the requested action using the information given in tftpHost, tftpFile, tftpModule.

   downloadConfig(2): receive configuration from
                      host/file
   uploadConfig(3)  : send configuration to
                      host/file
   downloadSw(4)    : receive software image from
                      host/file
   uploadSw(5)      : send software image to
                      host/file
   downloadFw(6)    : receive firmware image from
                      host/file
   uploadFw(7)      : send firmware image to
                      host/file
Setting this object to any other value results in an error.

tftpResult Contains result of the last tftp action request.

brouterEnableRip Indicates whether the RIP protocol is enabled.

brouterEnableSpantree Indicates if Spanning Tree protocol is enabled.

brouterEnableGiantCheck Indicates whether special handling of giant packets is enabled.

brouterEnableIpFragmentation Indicates whether IP fragmentation is enabled.

brouterEnableUnreachables Indicates whether ICMP unreachable messages are sent by the system.

brouterCamAgingTime The aging time for the CAM table. This duplicate item is the same value as dot1dTpAgingTime.

brouterCamMode Mode in which the CAM module is operating.

brouterIpxSnapToEther The default translation for IPX packets when bridging from FDDI SNAP to Ethernet.

brouterIpx8023RawToFddi The default translation for IPX packets when bridging from Ethernet 802.3 Raw to FDDI.

brouterEthernetReceiveMax Maximum number of Ethernet receive buffers processed at one time per port.

brouterEthernetTransmitMax Maximum number of Ethernet transmit buffers processed at one time per port.

brouterFddiReceiveMax Maximum number of FDDI receive buffers processed at one time per port.

brouterFddiTransmitMax Maximum number of FDDI transmit buffers processed at one time per port.

brouterPortTable A list of brouter port entries. The number of entries is determined by the number of modules in the chassis and the number of ports on each module.

brouterPortEntry Entry containing bridge/router information for a particular port on a module.

brouterPortModule An index value that uniquely identifies the module index where this port is located.

brouterPort An index value that uniquely identifies this port within a module (see portIndex).

brouterPortIpVlan The IP Virtual LAN to which this port belongs.

brouterPortIpAddr This port's IP address.

brouterPortNetMask This port's subnet mask.

brouterPortBroadcast This port's broadcast address.

brouterPortBridgeVlan The bridge Virtual LAN to which this port belongs.

brouterPortIpHelpers An indication of which other Virtual LANs UDP/IP broadcasts received on this port will be forwarded to. The normal situation is broadcasts NOT forwarded beyond the originating VLAN, but it can be useful in certain circumstances. This is an octet string value with bits set to indicate forwarded to VLANs. It can be interpreted as a sum of f(x) as x goes from 0 to 1023, where f(x) = 0 for no forwarding to VLAN x and f(x) = exp(2, x) for VLAN x forwarded to. If all bits are 0 or the octet string is zero length, then UDP/IP broadcasts are not being forwarded to other VLANs.

brouterIpx8022ToEther The default translation for IPX packets when bridging from FDDI 802.2 to Ethernet.

brouterEnableTransitEncapsulation Indicates whether Ethernet packets are encapsulated on FDDI via transit encapsulation protocol. Normally this option would be disabled to allow translational bridging between Ethernet and FDDI to take place.

brouterEnableFddiCheck Indicates whether MAC addresses learned one side of a translational bridge should not be allowed to be learned on the other side of the bridge. The presence certain misbehaving devices on the network may require this option to be enabled.

brouterEnableAPaRT Indicates whether the Automatic Packet Recognition and Translation feature is enabled on translational bridge(s) in the box. If APaRT is disabled, the default translations as defined by the objects brouterIpx8022ToEther, brouterIpx8023RawToFddi, brouterIpxSnapToEther, etc, are used on all packets and no automatic learning of translation information is performed.

filterMacTable A list of filter mac entries.

filterMacEntry Entry containing MAC address filter information.

filterMacModule An index value that uniquely identifies the module where this port is located (see portModuleIndex).

filterMacPort An index value that uniquely identifies this port within a module (see portIndex).

filterMacAddress A MAC address. If the source or destination MAC address equals this value, a match occurs. The packet is dropped if a match occurs and deny(1) was specified. The packet is dropped if a match doesn't occur and at least one MAC address filter was specified with permit(3).

filterMacType Setting this object to invalid(2) removes the corresponding entry from the filterMacTable. To add a new entry to the filterMacTable, set this object to deny(1) or any value from permit(3) to denySrcLearn(8) for a module, port, and MAC address not already in the table.

filterVendorTable A list of filter vendor ID entries.

filterVendorEntry Entry containing vendor ID filter information.

filterVendorModule An index value that uniquely identifies the module where this port is located (see portModuleIndex).

filterVendorPort An index value that uniquely identifies this port within a module (see portIndex).

filterVendorId The vendor ID portion of a MAC address. If the source or destination MAC address has the same vendor ID, a match occurs. The packet is dropped if a match occurs and deny(1) was specified. The packet is dropped if a match doesn't occur and at least one Vendor ID filter was specified with permit(3).

filterVendorType Setting this object to invalid(2) removes the corresponding entry from the filterVendorTable. To add a new entry to the filterVendorTable, set this object to deny(1) or permit(3) for a module, port, and vendor ID not already in the table.

filterProtocolTable A list of filter protocol entries.

filterProtocolEntry Entry containing PROTOCOL address filter information.

filterProtocolModule An index value that uniquely identifies the module where this port is located (see portModuleIndex).

filterProtocolPort An index value that uniquely identifies this port within a module (see portIndex).

filterProtocolValue A 16-bit protocol value. If the packet's type field or the packet's DSAP/SSAP field is equal to this value, a match occurs. The packet is dropped if a match occurs and deny(1) was specified. The packet is dropped if a match doesn't occur and at least one protocol type filter was specified with permit(3).

filterProtocolType Setting this object to invalid(2) removes the corresponding entry from the filterProtocolTable. To add a new entry to the filterProtocolTable, set this object to deny(1) or permit(3) for a module, port, and protocol value not already in the table.

filterTestTable A list of filter test entries.

filterTestEntry Entry containing test filter information.

filterTestModule An index value that uniquely identifies the module where this port is located (see portModuleIndex).

filterTestPort An index value that uniquely identifies this port within a module (see portIndex).

filterTestIndex An index value that uniquely identifies a test for a particular module/port.

filterTestType Setting this object to invalid(2) removes the corresponding entry from the filterTestTable. To add a new entry to the filterTestTable, set this object to valid(1) for a module, port, and test index not already in the table.

filterTestOffset A byte offset into packet. Must be a 32-bit word aligned offset, i.e. 0, 4, 8, etc.

filterTestValue A 32-bit value to be compared against the packet location specified by filterTestOffset.

filterTestMask A 32-bit value to be bitwise ANDed with the packet location specified by filterTestOffset before  being compared to filterTestValue.

filterPortTable A list of filter port entries. The number of entries is determined by the number of modules in the chassis and the number of ports on each module.

filterPortEntry Entry containing filter information for a particular port on a module.

filterPortModule An index value that uniquely identifies the module where this port is located (see portModuleIndex).

filterPort An index value that uniquely identifies this port within a module (see portIndex).

filterPortComplex A complex expression made up of the numbers 1 through 8 indicating test results from filterTestIndex and using logical operators '&' (and), '|' (or), '!' (not), and parenthesis. For example: ((1 & 2) | !3). If this complex filter matches a packet, it is dropped.

filterPortBroadcastThrottle The maximum number of broadcast packets per second allowed on this port. If the number of incoming broadcast packets in a one second interval exceeds this amount, packets are dropped for the rest of the interval. If the capability exists, only broadcast packets should be dropped. Otherwise, all packets are dropped during the suppression interval.

A value of 0 indicates broadcast packets should not be limited.

The ability to suppress broadcast packets in this manner exists only on certain ports. If it does not exist on this port, attempts to write a value other than 0 are rejected.

This object also applies to multicast (and/or) unicast suppression when filterPortSuppressionOption is enabled.

filterPortBroadcastThreshold Indicates the integer part of the maximum percentage of available bandwidth allowed for incoming traffic of the specific traffic types on this port. The associated object filterPortBroadcastThresholdFraction indicates the fraction part of the maximum percentage of available bandwidth allowed for incoming traffic of the specific traffic types on this port. Either packets of the specific traffic types are dropped of the port is put into errdisable state depending on the value of filterPortSuppressionViolation on this port if the percentage of incoming traffic of the specific traffic types would exceed this limit. The traffic types that are enabled for this traffic suppression feature is indicated by filterPortBroadcastOption.

The maximum percentage for the combination of this object value and the object value of filterPortBroadcastThresholdFraction is 100.00 which indicates traffic of all traffic types should not be limited.

The ability to suppress traffic in this manner exists only on certain ports. If it does not exist on this port, attempts to write a value of this object other than 100 are rejected.

On platforms where filterPortSuppressionOption object is not supported, this object only applies to broadcast suppression.

filterPortBroadcastDiscards The number of packets discarded due to traffic suppression on this port.

filterPortBroadcastThresholdFraction Indicates the fraction part of the maximum percentage of available bandwidth allowed for incoming traffic of the specific traffic types on this port. The associated object filterPortBroadcastThreshold indicates the integer part of the maximum percentage of available bandwidth allowed for incoming traffic of the specific traffic types on this port. Either packets of the specific traffic types are dropped or the port is put into errdisable state depending on the value of filterPortSuppressionViolation on this port if the percentage of incoming traffic of the specific traffic type would exceed this limit. The traffic types that are enabled for this traffic suppression feature is indicated by filterPortBroadcastOption.

The maximum percentage for the combination of this object value and the object value of filterPortBroadcastThreshold is 100.00 which indicates traffic of all traffic types should not be limited.

The ability to suppress traffic in this manner exists only on certain ports. If it does not exist on this port, attempts to write a value of this object other than 100 are rejected.

On platforms where filterPortSuppressionOption object is not supported, this object only applies to broadcast suppression.

filterPortSuppressionOption Indicates the traffic types that traffic suppression feature is enabled for.

multicast(0) is set when multicast suppression is enabled. unicast(1) is set when unicast suppression is enabled. broadcast(2) is set when broadcast suppression is enabled.

filterPortSuppressionViolation Indicates the action that will be taken on this port when the percentage of either broadcast, multicast or unicast traffic exceeds the limit as indicated by filterPortBroadcastThreshold and filterPortBroadcastThresholdFraction.

dropPackets - the excessive packets will be
           - dropped on this port.

errdisable - the port will be put into errdisable
          - state.

The object is only supported on platforms that support this suppression violation action feature.

monitorSourceModule An index value that uniquely identifies the module where the monitoring source port is located. A value of 0 indicates that the monitorSourcePort is really a source Virtual LAN number. To monitor multiple source ports, this object should be set to 0 and monitorAdminSourcePorts should be configured.

monitorSourcePort An index value that uniquely identifies the monitoring source port within a module or the monitoring source Virtual LAN. To monitor multiple source ports, this object should be set to 0 and monitorAdminSourcePorts should be configured

monitorDestinationModule An index value that uniquely identifies the module where the monitoring destination port is located.

monitorDestinationPort An index value that uniquely identifies the monitoring destination port within a module.

monitorDirection The type of packets to be monitored at the source port.

monitorEnable Indicates whether port monitoring is in progress.

monitorAdminSourcePorts Indicates the administrative status of which ports are monitored. All the monitored ports have to be non-trunking port and belong to the same Virtual LAN. The octet string contains one bit per port. Each bit within the octet string represents one port of the device. The ordering of ports represented within the octet string is in the same order as in the RFC 1493 dot1dStpPortTable.

The bit value interpretation is as follows:
       1 = being monitored
       0 = not being monitored

monitorOperSourcePorts Indicates which ports are actually being monitored. All the monitored ports have to be non-trunking port and belong to the same Virtual LAN. The octet string contains one bit per port. Each bit within the octet string represents one port of the device. The ordering of ports represented within the octet string is in the same order as in the RFC 1493 dot1dStpPortTable.

The bit value interpretation is as follows:
       1 = being monitored
       0 = not being monitored

vlanTable A list of Virtual LAN entries. The number of entries is determined by the number of VLANs supported by the system.

vlanEntry Entry containing information for a particular Virtual LAN.

vlanIndex An index value that uniquely identifies the Virtual LAN associated with this information.

vlanSpantreeEnable Indicates whether Spanning Tree protocol is enabled for this Virtual LAN.

If the device only supports a single global Spanning Tree PVST+ Protocol enable/disable for all the existing VLANs, then the object value assigned to this VLAN will be applied to the object values of all the instances in this table which do not have the value of notApplicable(3).

This object is deprecated and replaced by stpxPVSTVlanEnable in CISCO-STP-EXTENSIONS-MIB.

vlanIfIndex The value of the ifIndex object defined in MIB-II, for the interface corresponding to this VLAN.

This object is deprecated and replaced by vtpVlanIfIndex in CISCO-VTP-MIB.

vlanPortTable A list of Virtual LAN port entries. The number of entries is determined by the number of modules in the chassis and the number of ports on each module.

vlanPortEntry Entry containing Virtual LAN information for a particular port on a module.

vlanPortModule An index value that uniquely identifies the module where this port is located (see portModuleIndex).

vlanPort An index value that uniquely identifies this port within a module (see portIndex).

vlanPortVlan The Virtual LAN to which this port belongs.

vlanPortIslVlansAllowed An indication of which Virtual LANs are allowed on this Inter-Switch Link. This is an octet string value with bits set to indicate allowed VLANs. It can be interpreted as a sum of f(x) as x goes from 0 to 1023, where f(x) = 0 for VLAN x not allowed and f(x) = exp(2, x) for VLAN x allowed.

vlanPortSwitchLevel Indicates the priority level the port uses to access the switching media. If vlanPortSwitchLevel is not applicable to the port, notApplicable(3) will be returned by the device.

vlanPortIslAdminStatus Indicates the administrative status set on the trunk port while the operational status is the one that indicates whether the port is actually trunking or not. If the status is set to off(2), the port is permanently set to be a non-trunk. If the status is set to onNoNegotiate(5), the port is permanently set to be a trunk and no negotiation takes place with the far end to try to ensure consistent operation. If the status is set to on(1), the port initiates a request to become a trunk and will become a trunk regardless of the response from the far end. If the status is set to desirable(3), the port initiates a request to become a trunk and will become a trunk if the far end agrees. If the status is set to auto(4), the port does not initiate a request to become a trunk but will do so if it receives a request to become a trunk from the far end.

vlanPortIslOperStatus Indicates if the port is actually trunking or not. In the case of ISL capable ports, the status depends on the success or failure of the negotiation process initiated by the port to become a trunk or non trunk. In the case of 802.10 capable ports, it is directly related to the on/off administrative status.

vlanPortIslPriorityVlans An indication of which Virtual LANs have a better dot1dStpPortPriority value. This object can be used to perform load balancing on Inter-Switch Links via spanning tree. An Inter-Switch Link has two dot1dStpPortPriority values which are shared by all the Virtual LANs on the link. The Virtual LANs indicated by this object have priority over the other Virtual LANs on the link.

This is an octet string value with bits set to indicate priority VLANs. It can be interpreted as a sum of f(x) as x goes from 0 to 1023, where f(x) = 0 for a VLAN x which does not have priority and f(x) = exp(2, x) for a VLAN x which has priority.

Setting the dot1dStpPortPriority value for any of the Virtual LANs indicated by this object causes the dot1dStpPortPriority value for all the Virtual LANs indicated by this object to be set to the same value.

Setting the dot1dStpPortPriority value for any other Virtual LAN causes the dot1dStpPortPriority value for all other Virtual LANs to be set to the same value.

vlanPortAdminStatus Indicates whether the port will get assigned to a VLAN statically or dynamically. When it is set to dynamic, the needed information will be accessed from one of the Vlan Membership Policy Servers specified in the vmpsTable. Default value is static(1). Note that vlanPortAdminStatus cannot be set to dynamic(2) for a port which has portSecurityAdminStatus set to enabled(1) or for a port which currently has a vlanPortIslOperStatus of trunking(1).

vlanPortOperStatus An indication of the current VLAN status of the port. A status of inactive(1) indicates that a dynamic port does not yet have a VLAN assigned or that a static or dynamic port has been assigned a VLAN that is not currently active. A status of active(2) indicates that the currently assigned VLAN is active. A status of shutdown(3) indicates that the port has been shutdown as a result of a VMPS response on a dynamic port. A status of vlanActiveFault(4) only applies to tokenring ports and indicates that the port is operationally disabled because the TR-CRF VLAN of which the port is a member has active ports on another device and only ports on that remote device may participate in that TR-CRF VLAN.

vlanPortAuxiliaryVlan The Voice Virtual Vlan ID (VVID) to which this port belongs to. If the VVID is not supported on the port, this MIB object will not be configurable and will return 4096.

Setting this MIB object to 4096, the CDP packets transmitting through this port would not include Appliance VLAN-ID TLV.

Setting this MIB object to 4095, the CDP packets transmitting through this port would contain Appliance VLAN-ID TLV with value of 4095 - VoIP and related packets are expected to be sent and received untagged without an 802.1p priority.

Setting this MIB object to 0, the CDP packets transmitting through this port would contain Appliance VLAN-ID TLV with value of 0 - VoIP and related packets are expected to be sent and received with VLAN-id=0 and an 802.1p priority.

Setting this MIB object to N (1..1000|1025..4094), the CDP packets transmitting through this port would contain Appliance VLAN-ID TLV with N - VoIP and related packets are expected to be sent and received with VLAN-id=N and an 802.1p priority.

This object is deprecated and replaced by vmVoiceVlanId in CISCO-VLAN-MEMBERSHIP-MIB.

vmpsTable This table lists a maximum of 3 IP addresses of Vlan Membership Policy Servers.

vmpsEntry A VMPS table entry.

vmpsAddr The IP address of a Vlan Membership Policy Server. To configure the internal VMPS, use the same IP address as specified in sysIpAddr.

vmpsType To add a new entry to the vmpsTable, set this object to primary(2) or other(3) for an IP address which is not already in the table. The primary entry will be used first, if it is reachable. Otherwise one of the other entries will be used. Setting one entry to primary(2) causes any previous primary entry to change to other(3). To remove an entry from the table, set this object to invalid(1).

vmpsAction This object, when read, returns the result of the last action requested: other(1), inProgress(2), success(3), noResponse(3), noPrimaryVmps(5), noDynamicPort(6), or noHostConnected(7).

Setting this object to reconfirm(8) causes the switch to contact the Vlan Membership Policy Server immediately to reconfirm the current VLAN assignments for all dynamic ports on the switch. Normally VLAN assignments for dynamic ports are reconfirmed once an hour.

vmpsAccessed The IP address of the last Vlan Membership Policy Server accessed. If there was no response from the last VMPS request, the value returned is 0.

vlanTrunkMappingMax Maximum number of active configurable trunk VLAN mapping entries allowed. A value of zero indicates no limitation on the number of active configurable trunk VLAN mapping.

vlanTrunkMappingTable This table contains zero or more rows of trunk VLAN to VLAN associations. The maximum number of active entries is determined by vlanTrunkMappingMax.

VLAN above 1k can not be created if the value of corresponding instance of vlanTrunkMappingType is dot1qToisl(2).

vlanTrunkMappingEntry Information about the VLAN mapping of a particular trunk VLAN to another VLAN.

vlanTrunkMappingFromVlan The VLAN with this VLAN ID will be mapped to the VLAN in the corresponding instance of vlanTrunkMappingToVlan in the device.

Agent returns inconsistentValue if this VLAN exists in the device.

Agent returns inconsistentValue if this VLAN is not a reserved VLAN and the value of corresponding instance of vlanTrunkMappingType is reservedToNonReserved(1).

Agent returns wrongValue if this VLAN is not a valid 802.1Q VLAN and the value of corresponding instance of vlanTrunkMappingType is dot1qToisl(2).

vlanTrunkMappingToVlan The VLAN which the corresponding instance of vlanTrunkMappingFromVlan will be mapped to.

Agent returns inconsistentValue if this VLAN exists in the device.

Agent returns inconsistentValue if this VLAN is a reserved VLAN and the value of corresponding instance of vlanTrunkMappingType is reservedToNonReserved(1).

Agent returns inconsistentValue if this VLAN is not a valid ISL VLAN and the value of corresponding instance of vlanTrunkMappingType is dot1qToisl(2).

vlanTrunkMappingType The type of this trunk VLAN mapping.

reservedToNonReserved(1)
   An user defined association which maps a
   reserved VLAN to a non-reserved VLAN.

dot1qToisl(2)
   An user defined association which maps a VLAN
   in 802.1q trunk to a VLAN in ISL trunk.

Implementations are allowed to restrict the available types for this object.

For devices which support the range of VlanIndex between 1024 and 4095, the default value is reservedToNonReserved(1).  The default value is dot1qToisl(2) for devices which do not support the range of VlanIndex between 1024 and 4095.

vlanTrunkMappingOper Indicates whether this VLAN mapping is effective or not.

vlanTrunkMappingStatus The status of this trunk VLAN mapping.

Once a row becomes active, value in any other column within such row cannot be modified except by setting vlanTrunkMappingStatus to notInService(2) for such row.

portSecurityTable A list of port security entries. The number of entries is determined by the number of ports in the system which support the Security feature.

portSecurityEntry Entry containing security information for a particular port.

portSecurityModuleIndex An index value that uniquely identifies the module where this port is located (see portModuleIndex).

portSecurityPortIndex An index value that uniquely identifies this port within a module (see portIndex).

portSecurityAdminStatus When security is enabled, source MAC addresses are monitored for all packets received on the port. If an address is detected that does not match the portSecuritySecureSrcAddr and any corresponding portSecurityExtSecureSrcAddr, of which portSecurityExtModuleIndex and portSecurityExtPortIndex in the portSecurityExtTable is the same as the portSecurityModuleIndex and portSecurityPortIndex, and the number of MAC address learned or configured for this port is equal to portSecurityMaxSrcAddr, the port will shutdown or drop packets. If the portSecurityViolationPolicy is set to shutdown(2), the port is shutdown and a linkDown trap is sent; otherwise the port drops the invalid packets.

portSecurityOperStatus An indication of whether the port has been shut down as a result of an insecure address being detected on a secure port.

portSecurityLastSrcAddr The last source MAC address in a receive packet seen on the port.

portSecuritySecureSrcAddr The address to be compared with source MAC addresses of received packets when the portSecurityAdminStatus is enabled(1). Setting this value to 0.0.0.0.0.0 puts the port in learning mode so that the next source MAC address received by the port becomes the portSecuritySecureSrcAddr.

portSecurityMaxSrcAddr The maximum number (N) of MAC address to be secured on the port. The first N MAC addresses learned or configured are made secured. If the user wants to make the port secured for more than one MAC address, the portSecurityExtTable is used in addition to portSecuritySecureSrcAddr. If changing the maximum number N of Mac address to M, which is smaller than N, some MAC addresses are removed. Setting this value to 1, the portSecurityExtTable will not be used for this port and the corresponding entries for this port will also be removed from portSecurityExtTable.

portSecurityAgingTime The interval in which the port is secured. After the expiration of the time, the corresponding portSecuritySecureSrcAddr or portSecurityExtSecureSrcAddr will be removed from the secure address list. If the value of this object is 0, the aging mechanism is disabled.

portSecurityShutdownTimeOut The interval in which the port is shutdown due to the violation of security. After the expiration of the time all the security configuration of this port is re-installed and the port is enabled. If the value of this object is 0, the port is shut down permanently.

portSecurityViolationPolicy If the value of this object is restrict(1)  - the port drops all packets with
              insecured addresses.
shutdown(2)  - the port is forced to shut down
              if there is a violation of
              security.

portSecurityExtTable A list of port security entries. The number of entries is determined by the number of ports in the system which support the Security feature and the number of MAC addresses learned/configured to be secured per port.

portSecurityExtEntry Entry containing security information for a particular port and a particular MAC address. The entry can be configured by the user and can be added by the agent when the device learns a new secured MAC address.

portSecurityExtModuleIndex An index value that uniquely identifies the module where this port is located (see portModuleIndex).

portSecurityExtPortIndex An index value that uniquely identifies this port within a module (see portIndex).

portSecurityExtSecureSrcAddr An index value that uniquely identifies the  MAC address, which is to be secured.

portSecurityExtControlStatus This object used to add or remove a secured MAC address of the corresponding port in the row. If setting this object to valid(1), the portSecurityExtSecureSrcAddr is made to be secured for the port. If setting this object to invalid(2), the portSecurityExtSecureSrcAddr is no longer to be secured for the current port.

tokenRingPortTable Table containing token ring configuration information.

tokenRingPortEntry Entry containing token ring configuration information for a particular port.

tokenRingModuleIndex An index value that uniquely identifies the module where this port is located (see portModuleIndex).

tokenRingPortIndex An index value that uniquely identifies this port within a module (see portIndex).

tokenRingPortSetACbits Specifies if the AC bits shall be set unconditionally when a port forwards certain LLC frames.

tokenRingPortMode Specifies the port's mode of operation.

auto:       Automatically detect the port mode
           upon insertion.

fdxCport:   Transmit Immediate (full-duplex)
           Concentrator Port

fdxStation: Transmit Immediate (full-duplex)
           Station emulation

hdxCport:   Token Passing Protocol (half-duplex)
           Concentrator Port

hdxStation: Token Passing Protocol (half-duplex)
           Station emulation

riro:       RingIn/RingOut mode. (wsx5031 only)

tokenRingPortEarlyTokenRel This object provides the ability to enable or disable early token release for a particular port.

Early token release only applies to ports operating at 16 Mbps. If ifSpeed reflects 4 Mbps for a particular port, then the corresponding instance of this object will have a value of disabled(2) regardless of attempts to set the object to enabled(1).

Whenever a port is opened with a ring speed of 16 Mbps, by default, early token release will be enabled.

tokenRingPortPriorityThresh The highest token ring frame priority that shall go to the low-priority transmit queue.

tokenRingPortPriorityMinXmit The minimum token priority that will be used for transmit.

tokenRingPortCfgLossThresh Number of configuration loss events during the sample interval which, if exceeded, should cause the port to be disabled. If the port is disabled by this function the port must be administratively re-enabled.

tokenRingPortCfgLossInterval The sampling interval, in minutes, for which the port monitors to see if the configuration loss threshold has been exceeded.

tokenRingDripDistCrfMode This object reflects whether TR-CRFs can be distributed across ISL topologies. Setting this object to enabled(1) allows TR-CRFs to be distributed. Setting this object to disabled(2) prevents TR-CRFs from being distributed across ISL topologies. When this object is set to disabled(2), the system will disable ports involved in the distributed TR-CRF.

tokenRingDripAreReductionMode This object reflects whether or not All Routes Explorer (ARE) reduction capabilities are enabled or disabled on this system. Setting this object to enabled(1) will permit DRiP to participate in the configuration of Token Ring ports ARE reduction capabilities on the system. Setting this object to disabled(2) will prevent DRiP from participating in the configuration of Token Ring port ARE reduction capabilities.

tokenRingDripLocalNodeID The unique system identifier that will be sent in all advertisements generated by this system. It uniquely identifies this system from other DRiP capable systems.

tokenRingDripLastRevision The revision number transmitted in the most recent advertisement. That advertisement may or may not have contained changed data.

tokenRingDripLastChangedRevision The revision number transmitted in the most recent advertisement containing changed data.

tokenRingDripAdvertsReceived The number of DRiP advertisements received by this system.

tokenRingDripAdvertsTransmitted The number of DRiP advertisements transmitted by this system.

tokenRingDripAdvertsProcessed The number of DRiP advertisements processed by this system.

tokenRingDripInputQueueDrops The number of DRiP advertisements dropped from this system's input queue.

tokenRingDripOutputQueueDrops The number of DRiP advertisements dropped from this system's output queue.

tokenRingDripLocalVlanStatusTable A table containing DRiP VLAN status information local to this system. The existence of an entry indicates that at least one local port is assigned to the associated TR-CRF VLAN.

tokenRingDripLocalVlanStatusEntry Entry containing DRiP related information for a particular TR-CRF VLAN.

tokenRingDripVlan A TR-CRF VLAN ID.

tokenRingDripLocalPortStatus This object reflects DRiP's status regarding the overall set of local ports assigned to the TR-CRF VLAN associated with this entry. A value of active(1) indicates that at least one local port is inserted/connected (i.e., active on the Token Ring). A value of inactive(2) indicates that none of the local ports are inserted/connected. All local ports are either disabled or are simply not connected.

tokenRingDripRemotePortStatus This object reflects DRiP's status regarding any ports on remote systems. A value of active(1) indicates that at least one remote port is inserted/connected (i.e., active on the Token Ring). A value of inactive(2) indicates that none of the remote ports are inserted/connected. All remote ports are either disabled or are simply not connected.

tokenRingDripRemotePortConfigured This object reflects whether or not DRiP has detected remote ports assigned to the TR-CRF VLAN associated with this entry. A value of true(1) indicates there is at least one port on a remote system assigned to this TR-CRF VLAN. A value of false(2) indicates no remote ports are assigned to this TR-CRF VLAN.

tokenRingDripDistributedCrf This object reflects whether DRiP considers the TR-CRF VLAN associated with this entry to be distributed across systems. A value of true(1) indicates the TR-CRF is distributed. A value of false(2) indicates the TR-CRF is not distributed.

tokenRingDripBackupCrf This object reflects whether or not the TR-CRF VLAN associated with this entry is configured as a backup TR-CRF. A value of true(1) indicates the TR-CRF is a configured as a backup. A value of false(2) indicates the TR-CRF is not configured as a backup.

tokenRingDripOwnerNodeID The unique identifier  of the system that has advertised that it has local ports assigned to the TR-CRF VLAN associated with this entry.

tokenRingPortSoftErrTable Table containing token ring soft error monitoring configuration information.

tokenRingPortSoftErrEntry Entry containing token ring soft error monitoring configuration information for a particular port.

tokenRingPortSoftErrThresh The number of soft errors reported from a station connected to this port which, if exceeded, should cause a soft error exceeded trap to be issued. The error counters being monitored and compared to this threshold value are all of the error counters in the ringStationTable (see RFC 1513).

tokenRingPortSoftErrReportInterval The sampling period, in seconds, in which each station connected to this port will be monitored for excessive soft error reports. If a station reports more than tokenRingPortSoftErrThreshold errors within the sampling period a trap will be issued to the management station(s). Setting a value of 0 will cause no traps to be sent for this port.

tokenRingPortSoftErrResetCounters When this object is set to reset(2), all Soft Error Monitoring related counters on this port will be set to 0.

tokenRingPortSoftErrLastCounterReset The time (in hundredths of a second) since Soft Error Monitoring counters for this port were last cleared.

tokenRingPortSoftErrEnable Indicates whether the Token Ring Soft Error Monitoring feature is enabled on this port or not. The detailed soft error statistics are provided by Token Ring RMON SNMP objects. Thus, if RMON (sysEnableRmon) is disabled(2) then the soft error statistics will only be available from the CLI.

mcastRouterTable A list of multicast router port entries. The number of entries is determined by the number of ports in the system.

mcastRouterEntry Entry containing multicast router information for a particular port.

mcastRouterModuleIndex An index value that uniquely identifies the module where this port is located (see portModuleIndex).

mcastRouterPortIndex An index value that uniquely identifies this port within a module (see portIndex).

mcastRouterAdminStatus And indication of whether the presence of an IP multicast router on this port is to be determined statically or dynamically. The value routerPresent(1) indicates that the presence of a router is statically configured to be present. The value dynamic(3) indicates the presence is to be learned dynamically.

mcastRouterOperStatus An indication of whether an IP multicast router is present on this port.

mcastEnableCgmp Indicates whether Cisco Group Management Protocol is enabled on the device or not. When CGMP is enabled in conjunction with Cisco routers running CGMP, only the required ports will participate in IP multicast groups.

mcastEnableIgmp Indicates whether Internet Group Management Protocol is enabled on the device or not. When IGMP is enabled in conjunction with Cisco routers running CGMP, only the required ports will participate in IP multicast groups.

mcastEnableRgmp Indicates whether Router Group Management Protocol is enabled on the device or not. When RGMP is enabled in conjunction with Cisco routers running RGMP, multicast data traffic is forwarded only to those multicast routers that are interested to receive that data traffic. IGMP snooping feature must be enabled on the system to make RGMP feature operational.

dnsEnable Indicates if the DNS feature is enabled or disabled.

dnsServerTable This table lists a maximum of 3 DNS servers.

dnsServerEntry A DNS server table entry.

dnsServerAddr The IP address of a DNS server.

dnsServerType To add a new entry to the dnsServerTable, set this object to primary(2) or other(3) for an IP address which is not already in the table. The primary entry will be used first, if it is reachable. Otherwise, one of the other entries will be used. Setting one entry to primary(2) causes any previous primary entry to change to other(3). To remove an entry from the table, set this object to invalid(1).

dnsDomainName DNS domain name.

syslogServerTable This table lists a maximum of 3 system log servers.

syslogServerEntry A system log server table entry.

syslogServerAddr The IP address of a system log Server.

syslogServerType To add/remove a new entry to the syslogServerTable, setting to invalid(2) removes the corresponding entry from the syslogServerTable. To add a new entry into syslogServerTable, set this object to valid(1) for an IP address which is not already in the table.

syslogConsoleEnable Indicate whether the system log messages should be sent to console.

syslogHostEnable Indicate whether the system log messages should be sent to syslog servers.

syslogMessageControlTable This table contains the information about what system log messages should be sent to syslog host, console, login session, and/or logged into the internal buffer.

syslogMessageControlEntry A system log message control table entry.

syslogMessageFacility System log message facility.

syslogMessageSeverity System log message severity.

syslogTimeStampOption Indicates whether syslog Time Stamp Option is enabled or not. If it is set to enabled(1), the Time Stamp will be in the beginning of each syslog message.

syslogTelnetEnable Indicate whether the system log messages should be sent to telnet sessions.

ntpBcastClient Entry which tells if Cat5000 should act as a Broadcast client or not.

ntpBcastDelay Estimated Round trip time (in micro seconds) for NTP broadcasts. The range is from 1 to 999999.

ntpClient Entry which tells if the device can act as a NTP client (in a client-server configuration type).

ntpServerTable A list of NTP Server entries. This table lists a maximum of 10 Entries.

ntpServerEntry Entry containing NTP information for a particular entry.

ntpServerAddress Entry containing NTP Server's IP address.

ntpServerType To add or remove an entry to ntpServerTable. Setting to 1 adds the entry and setting to 2 clears the entry.

ntpServerPublicKey The key to be used when communicating with this server. A key with a value of zero indicates an invalid ntpServerPublicKey. When the authentication feature is enabled the system will not sync with this server when ntpAuthenticationPublicKey doesn't match with NTP Packet's public key.
 or
If the ntpAuthenticationTrustedMode is trusted but encrypted message of ntpAuthenticationSecretKey with NTP packet's data doesn't match with NTP packet's crypto checksum in the message authentication mode (MAC).
 or
If the ntpAuthenticationTrustedMode is untrusted.

In client mode NMP will not send request NTP Packet to the server when ntpServerPublicKey doesn't match with any of the ntpAuthenticationPublicKey in ntpAuthenticationTable.
 or
If the ntpAuthenticationTrustedMode is untrusted.

ntpSummertimeStatus Enabling or Disabling will set the clock ahead or behind 1 hour respectively.(daylight savings time in USA). This command gets active only in Summer time.

ntpSummerTimezoneName Summertime time zone name for display purposes.

ntpTimezoneName Time zone name for display purposes.

ntpTimezoneOffsetHour Time offset (Hour) from Greenwich Mean Time.

ntpTimezoneOffsetMinute Time offset (Minutes) from Greenwich Mean Time.

ntpAuthenticationEnable Specifies if authentication feature is enabled or disabled in the system.

ntpAuthenticationTable A list of NTP Authentication Key entries. This table lists a maximum of 10 Entries

ntpAuthenticationEntry An entry in the ntpAuthenticationTable, containing values of an NTP authentication key pair.

ntpAuthenticationPublicKey A unique value to identify the authentication key. When the authentication feature is enabled and the ntpAuthenticationPublicKey matches with the NTP packet's public key then this entry is used.

ntpAuthenticationSecretKey An arbitrary string known as the secret key used for encrypting of the NTP packet. This key is useful when the ntpAuthenticationTrustedMode is set to trusted(1). This key has to be specified when this ntpAuthenticationEntry is created. When reading this object, it will return empty string.

ntpAuthenticationTrustedMode A flag indicates whether the ntpAuthenticationSecretKey is trusted or untrusted. Setting a ntpAuthenticationSecretKey to trusted(1) allows authentication on NTP packets containing this key, and setting a ntpAuthenticationSecretKey to untrusted(2) drops all NTP packets containing this key.

ntpAuthenticationType To add or remove an entry to ntpAuthenticationTable. Setting to 1 adds the entry and setting to 2 clears the entry.

tacacsLoginAuthentication Indicates whether the login authentication using the TACACS+ feature is enabled or disabled for console sessions and/or telnet sessions.

Setting this object to enabled(1), the login authentication using the TACACS+ feature is enabled for both telnet and console sessions.

Setting this object to disabled(2), the login authentication using the TACACS+ feature is disabled for both telnet and console sessions.

Setting this object to enabledForTelnetOnly(3), the login authentication using the TACACS+ feature is enabled only for telnet sessions, but disabled for console sessions.

Setting this object to enabledForConsoleOnly(4), the login authentication using the TACACS+ feature is enabled only for console sessions, but disabled for telnet sessions.

This object is deprecated and replaced by cacPriorityTable in CISCO-AAA-CLIENT-MIB.

tacacsEnableAuthentication Indicates whether the enable authentication using the TACACS+ feature is enabled or disabled for console sessions and/or telnet sessions based on the value.

Setting this object to enabled(1), the enable authentication using the TACACS+ feature is enabled for both telnet and console sessions.

Setting this object to disabled(2), the enable authentication using the TACACS+ feature is disabled for both telnet and console sessions.

Setting this object to enabledForTelnetOnly(3), the enable authentication using the TACACS+ feature is enabled only for telnet sessions, but disabled for console sessions.

Setting this object to enabledForConsoleOnly(4), the enable authentication using the TACACS+ feature is enabled only for console sessions, but disabled for telnet sessions.

This object is deprecated and replaced by cacPriorityTable in CISCO-AAA-CLIENT-MIB.

tacacsLocalLoginAuthentication Indicates whether the login authentication using local password is enabled or disabled for Console session and/or Telnet session based on the value.

Setting this object to enabled(1),the login authentication using local password is enabled for both telnet and console sessions.

Setting this object to disabled(2), the login authentication using local password is disabled for both telnet and console sessions.

Setting this object to enabledForTelnetOnly(3), the login authentication using local password is enabled only for telnet sessions, but disabled for console session.

Setting this object to enabledForConsoleOnly(4), the login authentication using local password is enabled only for console session, but disabled for telnet sessions.

This object is deprecated and replaced by cacPriorityTable in CISCO-AAA-CLIENT-MIB.

tacacsLocalEnableAuthentication Indicates whether the enable authentication using local password is enabled or disabled for Console session and/or Telnet sessions.

Setting this object to enabled(1),the enable authentication using local password is enabled for both telnet and console sessions.

Setting this object to disabled(2), the enable authentication using local password is disabled for both telnet and console sessions.

Setting this object to enabledForTelnetOnly(3), the enable authentication using local password is enabled only for telnet sessions, but disabled for console sessions.

Setting this object to enabledForConsoleOnly(4), the enable authentication using local password is enabled only for console sessions, but disabled for telnet sessions.

This object is deprecated and replaced by cacPriorityTable in CISCO-AAA-CLIENT-MIB.

tacacsNumLoginAttempts The number of login attempts allowed.

This object is deprecated and replaced by cacMaxLoginAttempt in CISCO-AAA-CLIENT-MIB.

tacacsDirectedRequest Indicates whether the directed-request feature of TACACS+ is enabled or disabled.

tacacsTimeout The duration in seconds to wait for a response from the TACACS+ server host.

This object is deprecated and replaced by cacLockoutPeriodExt in CISCO-AAA-CLIENT-MIB.

tacacsAuthKey The key used in encrypting the packets passed between the TACACS+ server and the client. This key must match the one configured on the server.

Note that this item is only accessible when using the community string defined in sysCommunityRwa.

tacacsServerTable This table lists a maximum of 3 TACACS+ servers.

tacacsServerEntry A TACACS+ server table entry.

tacacsServerAddr The IP address of a TACACS+ Server.

tacacsServerType To add a new entry to the tacacsServerTable, set this object to primary(2) or other(3) for an IP address which is not already in the table. The primary entry will be used first, if it is reachable. Otherwise, one of the other entries will be used. Setting one entry to primary(2) causes any previous primary entry to change to other(3). To remove an entry from the table, set this object to invalid(1).

ipPermitEnable This is deprecated and replaced by ipPermitAccessTypeEnable.

Indicate whether the IP permit feature is enabled or disabled for Telnet and/or SNMP.

Setting this object to enabled(1), the IP permit feature is enabled for both telnet and SNMP.

Setting this object to disabled(2), the IP permit feature is disabled for both telnet and SNMP.

Setting this object to enabledForTelnetOnly(3), the IP permit feature is enabled for Telnet, but disabled for the rest.

Setting this object to enabledForSnmpOnly(4), the IP permit feature is enabled for SNMP, but disabled for the rest.

ipPermitListTable This table lists a maximum of 100 IP Addresses with net masks of IP permit hosts. If ipPermitEnable is set to enabled(1), the system will only accept inbound accesses which come from the configured hosts with their permit access types in this table.

ipPermitListEntry A IP permit list table entry.

ipPermitAddress The IP address of a IP permit host.

ipPermitMask The IP net mask of a IP permit host.

ipPermitType Setting this object to invalid(2), removes the corresponding entry from the ipPermitListTable. To add a new entry into ipPermitListTable, set this object to valid(1), for an IP address and IP net mask which are not already in the table.

ipPermitAccessType The IP access type of a IP permit host. At least one access type has to be set.

ipPermitDeniedListTable This table lists up to 10 the most recently denied IP addresses with the access type.

ipPermitDeniedListEntry A IP permit denied list table entry.

ipPermitDeniedAddress The IP address of a IP permit denied access.

ipPermitDeniedAccess The denied access type.

ipPermitDeniedTime The time (in hundredths of a second) since the IP permit denied access happens.

ipPermitAccessTypeEnable This is to replace ipPermitEnable. Indicates whether the IP permit feature is enabled or disabled for Telnet, SNMP, ssh and http. If a bit is set the coresponding feature is enabled. If a bit is not set the coresponding feature is disabled.

portChannelTable A list of port channel entries. The number of entries is determined by the number of ports in the system which support the Ethernet Channelling feature.

This table is deprecated and replaced by pagpEtherChannelTable in CISCO-PAGP-MIB and dot3adAggTable in IEEE8023-LAG-MIB.

portChannelEntry Entry containing information for a particular port on a module.

portChannelModuleIndex An index value that uniquely identifies the module where this port is located.

portChannelPortIndex An index value that uniquely identifies this port within a module (see portIndex).

portChannelPorts The set of ports on a module channelling together. Each Octet within the value of this object specifies a set of eight ports, with the first octet specifying ports 1 through 8, the second octet specifying ports 9 through 16, etc. Within each octet, the most significant bit represents the lowest numbered port, and the least significant bit rep resents the highest numbered port. Thus, each port is represented by a single bit within the value of this object. If that bit has a value of `1' then that port is included in the set of channel ports. The default value of this object is a string which only has a value of `1' on its own port.

portChannelAdminStatus Indicates the administrative status set on the channel ports. If the status is set to on(1), the channelling is enabled. If the status is set to off(2), the channelling is disabled. If the status is set to desirable(3), the port initiates a pagp negotiation request to become a channel and will become a channel if the far end agrees. If the status is set to auto(4), the port does not initiate a request to become a channel but will do so if it receives a request to become a channel from the far end. If the status is set to desirableSilent(5), the port initiates a pagp negotiation request to become a channel and will become a channel if the far end agrees. If the port doesn't receive any packets from far end, then  after some timeout period the port forms a channel by itself. If the status is set to autoSilent(6), the port does not initiate a request to become a channel, but will do so if it receives a request to become a channel from the far end. If the port doesn't receive any request, then after some timeout period the port forms a channel by itself.

portChannelOperStatus Indicates whether the ports current channelling operational status is channel or not.

portChannelNeighbourDeviceId Indicates the neighbors device id.

portChannelNeighbourPortId Indicates the neighbor ports' Id.

portChannelProtInPackets Indicates the number of protocol packets received on the ports.

portChannelProtOutPackets Indicates the number of protocol packets transmitted on the ports.

portChannelIfIndex The value of the instance of the ifIndex object defined in MIB-II, for the interface corresponding to the channel which the port belongs to. This object will have a non zero value if its portChannelOperStatus is channelling and the link of this port is up.

portCpbTable A list of port capability entries. The number of entries is determined by the number of modules in the chassis and the number of ports on each module.

portCpbEntry Entry containing port capability information for a particular port on a module.

portCpbModuleIndex An index value that uniquely identifies the module where this port is located (see portModuleIndex).

portCpbPortIndex An index value that uniquely identifies this port within a module (see portIndex).

portCpbSpeed Indicates the port speed capability of a port.

portCpbDuplex Indicates the duplex capability of a port. The fdx(4) is specially for tokenring full-duplex and hdx(3) is specially for tokenring half-duplex.

portCpbTrunkEncapsulationType Indicates the VLAN encapsulation capability of a port, The dot10(1) is for 801.10 and dot1q(2) is for 801.1Q.

portCpbTrunkMode Indicates the trunk capability of a port.

portCpbChannel Indicates the channelling capability of a port.

portCpbBroadcastSuppression Indicates the broadcast suppression capability of a port. The pps(0) is for ports capable of specifying suppression in packets per second and percentage(1) is for ports capable of specifying suppression in terms of percentage of bandwidth.

portCpbFlowControl Indicates the flow control capability of a port.

portCpbSecurity Indicates whether a port supports security.

portCpbVlanMembership Indicates the vlan membership capability of a port.

portCpbPortfast Indicates whether a port supports portfast.

portCpbUdld Indicates whether the port is capable of UDLD (UniDirectional Link Detection) or not.

portCpbInlinePower Indicate the inline power capability of a port. 'auto' denotes the ability that the switch automatically determines whether or not power should be provided. 'on' denotes the ability to manually turn on inline power. 'off' denotes the ability to manually turn off inline power. 'static' denotes the ability to preallocate power for a port.

portCpbAuxiliaryVlan Indicate the voice vlan capability of a port.

portCpbSpan Indicates port span capabilities. source(0) denotes the capability of being SPAN source destination(1) denotes the capability of being SPAN destination, reflector(2) denotes the capability of being SPAN reflector.

portCpbCosRewrite Indicates whether a port supports CoS rewrite.

portCpbTosRewrite Indicates the ToS rewrite capability of a port. dscp(0) denotes the port capability to classify packets according to the DSCP. ipPrecedence(1) denotes the port capability to classify packets according to the IP Precedence.

portCpbCopsGrouping The set of ports on a module that are configured together as far as the Differentiated Services Cops feature is concerned. Each Octet within the value of this object specifies a set of eight ports, with the first octet specifying ports 1 through 8, the second octet specifying ports 9 through 16, etc. Within each octet, the most significant bit represents the lowest numbered port, and the least significant bit represents the highest numbered port. Thus, each port is represented by a single bit within the value of this object. If that bit has a value of `1' then that port is included in the set of Cops grouping.

portCpbDot1x Indicates whether a port supports 802.1x.

portCpbIgmpFilter Indicates whether a port supports IGMP filter.

portTopNControlTable A list of top N port control entries.

portTopNControlEntry A set of parameters that control the creation of a report of the top N ports according to several metrics. For example, an instance of the portTopNDuration object might be named portTopNDuration.3

portTopNControlIndex An index that uniquely identifies an entry in the portTopNControl table. Each such entry defines one top N report.

portTopNRateBase The variable for all ports in this system based on which portTopNTable/report is ordered.

This object may not be modified if the associated portTopNStatus object is equal to active(1).

portTopNType The sampling port type.

This object may not be modified if the associated portTopNStatus object is equal to active(1).

portTopNMode The running mode of this portTopN control entry. portTopNForeground (1) means when portTopNTimeRemaining reaches to 0, the report will show on the CLI at once and it won't be kept in the portTopNTable. portTopNBackground (2) means the report will not show on the CLI it will be kept in the portTopNTable.

This object may not be modified if the associated portTopNStatus object is equal to active(1).

portTopNReportStatus The report status of this portTopN control entry. Progressing (1) means that the report of this portTopN control entry is still in progress. The management station can poll this mib object to check the report data is available or not. Ready (2) means the report is available.

portTopNDuration The sampling interval in seconds during which statistics are collected for this report.

When this is set a value and the corresponding portTopNControlEntry is valid, the portTopNTimeRemaining object shall be set to the same value. portTopNTimeRemaining starts at the same value as portTopNDuration and counts down as the collection goes on.

If this object is set to be zero, it will do the collection immediately. And the collecting report value should be the absolute counter value.

portTopNTimeRemaining The number of seconds left in the report currently being collected. When portTopNDuration object is modified by the management station, a new collection is started, possibly aborting a currently running report. The new value is used as the requested duration of this report, which is loaded from the associated portTopNDuration object.

When this object is a non-zero value, any associated portTopNEntries shall be made inaccessible by the monitor.

While the value of this object is non-zero and the corresponding portTopNControlENtry is valid, it decrements by one per second until it reaches zero. During this time, all associated portTopNEntries shall remain inaccessible. At the time that this object decrements to zero, the report is made accessible in the portTopNTable. Thus, the portTopN table is to be created only at the end of the collection interval.

portTopNStartTime The value of sysUpTime when this top N report was last started. In other words, this is the time that the associated portTopNTimeRemaining object was modified to start the requested report.

portTopNRequestedSize The maximum number of ports requested for the top N entry.

When this object is created or modified, the value of portTopNGrantedSize is set as closely to this object as is possible for the particular implementation and available resources. Valid value for this object is 1 to maximum number of physical ports. The default value is 20 ports.

portTopNGrantedSize The maximum number of ports in the top N table. When the associated portTopNRequestedSize object is created or modified, the value of this object should be set as closely to the requested value as is possible for the particular implementation and available resources. The value must not be lowered except as a result of a set to the associated portTopNRequestedSize object. Ports with the highest value of portTopNRateBase shall be placed in this table in decreasing order of this rate until there is no more room or until there are no more ports.

portTopNOwner The entity that configured this entry and is therefore using the resources assigned to it.

portTopNStatus The status of this portTopNControl entry. The Management station sends the user set values with a portTopNStatus value of createAndGo(4). When the agent receives it the collection of the report starts. When the portTopNReportStatus is ready(2) the user can get the reports (portTopNTable). For the current implementation createAndWait(5) will not be supported. There can be only 5 rows in the control table.

portTopNTable A list of top N port entries.

portTopNEntry A set of statistics for a port that is part of a top N report. For example, an instance of the portTopNRateBase object might be named portTopNUtilization.3.10

portTopNIndex An index that uniquely identifies an entry in the portTopN table among those in the same report. This index is between 1 and N, where N is the portTopNGrantedSize of ports with the highest portTopNRateBase. Increasing values of portTopNIndex shall be assigned to entries with decreasing values of portTopNRateBase until index N is assigned to the entry with the lowest value of portTopNRateBase or there are no more portTopNEntries.

portTopNModuleNumber The module number of the port counter data entry.

portTopNPortNumber The port number of the port counter data entry.

portTopNUtilization The utilization of the port in the system. The utilization is computed in the following methods:

Ethernet Utilization: (If Full Duplex, multiply by 2)

10 Mbps         I/O-pkts * (9.6 + 6.4) + (0.8 * I/O-Bytes) Ethernet Util = -----------------------------------------
       Interval * 10,000

       where 9.6 is interframe gap of Ethernet
       6.4 is preamble of Ethernet
       10,000 is 10Mbps

100 Mbps        I/O-pkts * (96 + 64) + (8 * I/O-Bytes) Ethernet Util = --------------------------------------
       Interval * 1,000,000

1000 Mbps       I/O-pkts * (96 + 64) + (8 * I/O-Bytes) Ethernet Util = --------------------------------------
       Interval * 10,000,000

All other       I/O-pkts * (9.6 + 6.4) + (0.8 * I/O-Bytes) Ethernet Util = ------------------------------------------
       Interval * N * 1,000
       (where N is N Mbps)

Token Ring Utilization: (Assuming that Octets is from AC byte through FCS)

4 Mbps                  Pkts * 32 + (8 * Octets) Token Ring Util = 100 * ------------------------
               Interval * 4,000,000
          where 32 is bits in SD, ED, FS and IFG

16 Mbps                 Pkts * 64 + (8 * Octets) Token Ring Util = 100 * ------------------------
               Interval * 16,000,000
         where 64 is bits in SD, ED, FS and IFG

FDDI Utilization:

  I/O-Pkts * (64 + 8 + 32 + 16) + (8 * I/O-Bytes)
FDDI Util = ----------------------------------------------
  Interval * 100,000,000

  where 64 is Preamble of FDDI,
  8 is the Start Delimiter (SD) of FDDI,
  32 is the CRC, and
  16 is the End of Frame Sequence (EFS) of FDDI.

portTopNIOOctets The Input and Output octets of the port in the system.

portTopNIOPkts The Input and Output packets of the port in the system.

portTopNIOBroadcast The Input and Output broadcast packets of the port in the system.

portTopNIOMulticast The Input and Output multicast packets of the port in the system.

portTopNInErrors The Input error packets of the port in the system.

portTopNBufferOverFlow The number of buffer overflow of the port in the system.

mdgGatewayTable This table lists a maximum of 3 MDG gateways.

mdgGatewayEntry A MDG gateway table entry.

mdgGatewayAddr The IP address of a default gateway.

mdgGatewayType To add a new entry to the mdgGatewayTable, set this object to primary(2) or other(3) for an IP address which is not already in the table. The primary entry will be used first, if it is reachable. Otherwise, one of the other entries will be used. Setting one entry to primary(2) causes any previous primary entry to change to other(3). To remove an entry from the table, set this object to invalid(1). Changing an existing entry from primary(2) to other(3) is not allowed. If the value of this object is updated, the corresponding entry of the ipRouteTable (mibII) will be updated and vice versa.

radiusLoginAuthentication Indicates whether the login authentication using RADIUS feature is enabled or disabled for console and/or telnet sessions.

Setting this object to enabled(1), the login authentication using RADIUS feature is enabled for both console and telnet sessions.

Setting this object to disabled(2), the login authentication using RADIUS feature is disabled for both console and telnet sessions.

Setting this object to enabledForTelnetOnly(3),the login authentication using RADIUS feature is enabled only for telnet sessions, but disabled for console session.

Setting this object to enabledForConsoleOnly(4), the login authentication using RADIUS feature is enabled only for console sessions, but disabled for telnet sessions.

This object is deprecated and replaced by cacPriorityTable in CISCO-AAA-CLIENT-MIB.

radiusEnableAuthentication Indicates whether the enable authentication using the RADIUS feature is enabled or disabled for Console and telnet sessions.

Setting this object to enabled(1), the enable authentication using RADIUS feature is enabled for both console and telnet sessions.

Setting this object to disabled(2), the enable authentication using RADIUS feature is disabled for both console and telnet sessions.

Setting this object to enabledForTelnetOnly(3), the enable authentication using RADIUS feature is enabled only for telnet sessions, but disabled for console sessions.

Setting this object to enabledForConsoleOnly(4), the enable authentication using RADIUS feature is enabled only for console sessions, but disabled for telnet sessions.

This object is deprecated and replaced by cacPriorityTable in CISCO-AAA-CLIENT-MIB.

radiusDeadtime Indicates the length of time in minutes that the system will mark the server dead when a RADIUS server does not respond to an authentication request. During the interval of the dead time, any authentication request that comes up would not be sent to that RADIUS server that was marked as dead. The default value of 0 means that the RADIUS servers will not be marked dead if they do not respond.

radiusAuthKey The key used in encrypting the packets passed between the RADIUS server and the client. This key must match the one configured on the server.

Note that this item is only accessible when using the community string defined in sysCommunityRwa.

radiusTimeout This is the time in seconds between retransmissions to the RADIUS server.

radiusRetransmits Indicates number of times the RADIUS server should be tried before giving up on the server.

radiusServerTable This table lists a maximum of 3 RADIUS servers.

This object is deprecated and replaced by crRadiusServerTable in CISCO-RADIUS-MIB.

radiusServerEntry A RADIUS server table entry.

radiusServerAddr The IP address of a RADIUS Server.

radiusServerAuthPort This is the destination UDP port number to which RADIUS messages should be sent. The RADIUS server will not be used for authentication if this port number is 0.

radiusServerType To add a new entry to the radiusServerTable, set this object to primary(2) or other(3) for an IP address which is not already in the table. The primary entry will be used first, if it is reachable. Otherwise, one of the other entries will be used. Setting one entry to primary(2) causes any previous primary entry to change to other(3). To remove an entry from the table, set this object to invalid(1).

traceRouteMaxQueries Maximum number of query entries allowed to be outstanding at any time, in the traceRouteQueryTable. The typical value for this object is 5.

traceRouteQueryTable A control table used to query the information about each gateway along the path to a host by specifying retrieval criteria for the host. The resulting data for each instance of a query in this table is returned in the traceRouteDataTable. The maximum number of entries (rows) in this table cannot exceed the value returned by traceRouteMaxQueries.

traceRouteQueryEntry A conceptual row of the traceRouteQueryTable used to setup retrieval criteria to search for gateways belongs to the path to a particular host identified by its IP address. The actual search is started by setting the value of traceRouteQueryStatus to valid(1).

traceRouteQueryIndex Object which specifies an unique entry in the traceRouteQueryTable.

traceRouteHost Network(IP) address in dotted decimal format or the DNS hostname of the host which is tracerouted.

traceRouteQueryDNSEnable If this value of this object is true, the traceroute operation will do a DNS lookup for each hop on the path, so the corresponding instance of the traceRouteDataTable will contain the host name and the ip address; otherwise, that instance only contains the ip address.

traceRouteQueryWaitingTime The trace route waiting time in seconds for an ICMP response message.

traceRouteQueryInitTTL If this value of this object is set, it allows users skip processing for gateways that are less than traceRouteQueryInitTTL away by sending datagram with the value of this object instead of the default value of one.

traceRouteQueryMaxTTL The maximum TTL value used in outgoing packets.

traceRouteQueryUDPPort The base UDP destination port is used in the traceroute datagrams. This value of this object is often larger than 30,000 to make it improbable that this port is used (this causes the destination host's UDP module to generate an ICMP port unreachable so the traceroute operation knows when the operation is accomplished). The traceroute operation will increment this value of this object each time it sends a datagram. This object should be used in the unlikely event that the destination port is listening to a port in the default traceroute port range.

traceRouteQueryPacketCount Specifies the number of traceroute packets to send to the target host in this sequence.

traceRouteQueryPacketSize Specifies the size of traceroute packets to send to the target host in this sequence.

traceRouteQueryTOS The type of service to be set in the IP header of the outgoing packets.This value can set to see if different types-of-service result in different paths. Not all values of TOS are legal or meaningful (see the IP spec for definitions. Useful values are probably 16 (low delay) and 8 (high throughput).

traceRouteQueryResult The result status of the query. Possible values are:

-1 -Either the query has not been initiated or the agent is busy processing this query instance. Time to completion of the query processing depends on the complexity of the query and the number of matches that satisfy this query.

0..2147483647 - The search has ended and this is the number of rows in the traceRouteDataTable, resulting from this query.

traceRouteQueryTime The value of sysUpTime at the time when the query is configured.

traceRouteQueryOwner The manager entity that configured this entry and is therefore using the resources assigned to it.

traceRouteQueryStatus The status object used to manage rows in this table. When set this object to valid(1), the query is initiated. Once initiated, all the read-write objects of this table can't be modified. To remove an entry from the  table, set this object to invalid(2).

traceRouteDataTable A table containing information about the gateway belongs to the path to the host corresponding to all the completed queries setup in the traceRouteQueryTable.

traceRouteDataEntry A conceptual row of the traceRouteDataTable used to return information about all the gateway belongs to the host of which search criteria is corresponding instance of the traceRouteQueryTable.

traceRouteDataIndex Object which specifies an unique entry in the traceRouteDataTable.

traceRouteDataGatewayName The DNS name of the gateway if available.

traceRouteDataGatewayIp The ip address of the gateway. If the traceroute packet was sent and timed-out, the ip address is set to 0.0.0.0.

traceRouteDataRtt The  round trip time of the current packet that have been sent in this sequence.

traceRouteDataHopCount The number of hop starting from the place where the traceroute operation is initialized to the gateway which has the traceRouteDataGatewayIp.

traceRouteDataErrors The error of the traceroute operation.

fileCopyProtocol The protocol to be used for any remote copy. If the config file transfer is to occur locally on the SNMP agent, the method of transfer is left up to the implementation, and is not restricted to the protocols above.

The value of this object can not be changed when the fileCopyResult object has the value of inProgress(1).

fileCopyRemoteServer The IP address  or the host name of the tftp/rcp remote server from (or to) which to copy the file. If the copy operation  is local on the SNMP agent, this object is not applicable.

The value of this object can not be changed when the fileCopyResult object has the value of inProgress(1).

fileCopySrcFileName The source file name (including the path, if applicable) of the file. The accepted value of this object is 'cfg1' or 'cfg2' when the requested action is one of the following:

copyConfigFromFlashToRuntime(8), and copyConfigFileFromFlashToHost(11).

The value of this object can not be changed when the fileCopyResult object has the value of inProgress(1).

fileCopyDstFileName The destination file name (including the path, if applicable) of the file. The accepted value of this object is 'cfg1' or 'cfg2' when the requested action is one of the following:

copyConfigFromRuntimeToFlash(9), copyConfigFileFromHostToFlash(10).

The value of this object can not be changed when the fileCopyResult object has the value of inProgress(1).

fileCopyModuleNumber The module number specified in the copy operation.

If the value of this object is 0 and the fileCopyAction object has the value of copyImageFromHostToFlash(4), the switch will do multiple download to the modules with matching image type. It is left to the SNMP agent to allow the individual modules to be reset with the downloaded images or not.

The value of this object can not be changed when the fileCopyResult object has the value of inProgress(1).

fileCopyUserName Remote user name for copy via rcp protocol. This object must be specified when the fileCopyProtocol is rcp.

fileCopyAction Setting this object to one of the acceptable values will initiate the requested action using the information provided by fileCopyProtocol, fileCopyRemoteServer, fileCopySrcFileName, fileCopyDstFileName,fileCopyModuleNumber and fileCopyUserName.

copyConfigFromHostToRuntime(2):
  Copy the configuration file from host to
  runtime configuration over the network through
  tftp/rcp. This action will use
  fileCopyProtocol, fileCopyRemoteServer,
  fileCopySrcFileName, fileCopyModuleNumber,
  and fileCopyUserName (if applicable).

copyConfigFromRuntimeToHost(3):
  Copy the runtime configuration to host over the
  network through tftp/rcp. This action will use
  fileCopyProtocol, fileCopyRemoteServer,
  fileCopyModuleNumber, fileCopyDstFileName,
  fileCopyUserName (if applicable), and
  fileCopyRuntimeConfigPart.

copyImageFromHostToFlash(4):
  Copy the image from host to the flash over the
  network through tftp/rcp. It is up to the
  SNMP agent to reset and run the downloaded
  image after copying. This action will use
  fileCopyProtocol, fileCopyRemoteServer,
  fileCopySrcFileName, fileCopyModuleNumber,
  and fileCopyUserName (if applicable).

copyImageFromFlashToHost(5):
  Copy the image from flash to host over the
  switch through tftp/rcp. This action will use
  fileCopyProtocol, fileCopyRemoteServer,
  fileCopyDstFileName, fileCopyModuleNumber,
  and fileCopyUserName (if applicable).

copyConfigFromFlashToRuntime(8):
  Copy the configuration file to the runtime
  configuration locally. This action can perform
  only on the SUPG supervisor model and will
  use fileCopySrcFileName ('cfg1' or 'cfg2').

copyConfigFromRuntimeToFlash(9):
  Copy  the runtime configuration to a
  configuration file on the flash locally. This
  action can perform only on the SUPG supervisor
  model and will use fileCopyDstFileName ('cfg1'
  or 'cfg2'), and fileCopyRuntimeConfigPart.

copyConfigFileFromHostToFlash(10):
  Copy the configuration file from host to the
  runtime configuration over the network through
  tftp/rcp. This action can perform only on the
  SUPG  supervisor model and will use
  fileCopyProtocol, fileCopyRemoteServer,
  fileCopySrcFileName, fileCopyDstFileName,
  fileCopyModuleNumber and fileCopyUserName
  (if applicable).

copyConfigFileFromFlashToHost(11):
  Copy the configuration file on the flash to
  host over the network through tftp/rcp.
  This action can perform only on the
  SUPG supervisor model and will use
  fileCopyProtocol, fileCopyRemoteServer,
  fileCopySrcFileName, fileCopyDstFileName,
  fileCopyModuleNumber and fileCopyUserName
  (if applicable).

copyTechReportFromRuntimeToHost(12):
  Copy the technical report of the system to
  host over the network through tftp only. This
  action will use fileCopyProtocol,
  fileCopyRemoteServer, fileCopyModuleNumber,
  and fileCopyDstFileName.

Setting this object to any other value results in an error.

The value of this object can not be changed when the fileCopyResult object has the value of inProgress(1).

fileCopyResult Contains the result of the last copy action request. If the value of fileCopyResult is rcpError(22), then the detailed rcp error messages are contained in fileCopyResultRcpErrorMessage.

fileCopyResultRcpErrorMessage Contains the detailed rcp error messages if the value of fileCopyResult is rcpError(22) for the last copy action request; otherwise, this MIB object contains the empty string.

fileCopyRuntimeConfigPart Indicates the part of runtime configuration to be copied. This object will only take effect when the object value of fileCopyAction is one of the following:

copyConfigFromRuntimeToHost(3), copyConfigFromRuntimeToFlash(9).

all -- copy all the runtime configuration.

nonDefault --copy only the part of the runtime
            configuration which is different from
            the default configuration.

voicePortIfConfigTable A list of port entries. The number of entries is determined by the number of modules in the chassis and the number of ports with the voice port interface configuration capability in the system.

voicePortIfConfigEntry Entry containing voice interface configuration for a particular port.

voicePortIfConfigModuleIndex An index value that uniquely identifies the module where this port is located.

voicePortIfConfigPortIndex An index value that uniquely identifies this port within a module. The value is determined by the location of the port on the module.

voicePortIfDHCPEnabled Indicate whether DHCP service is enabled.

voicePortIfIpAddress This port's IP address. This object is configurable only if voicePortIfDHCPEnabled is false. When the value of voicePortIfDHCPEnabled is false, this object should be configured.

voicePortIfIpNetMask This port's subnet mask. This object is configurable only if voicePortIfDHCPEnabled is false. When the value of voicePortIfDHCPEnabled is false, this object should be configured.

voicePortIfTftpServerAddress This port's TFTP Server address. This object is configurable only if voicePortIfDHCPEnabled is false. When the value of voicePortIfDHCPEnabled is false, this object should be configured.

voicePortIfGatewayAddress This port's router address. This object is configurable only if voicePortIfDHCPEnabled is false.

voicePortIfDnsServerAddress This port's DNS Server address. This object is configurable only if voicePortIfDHCPEnabled is false.

voicePortIfDnsDomain This port's DNS domain name. This object is configurable only if voicePortIfDHCPEnabled is false.

voicePortIfOperDnsDomain This port's operational DNS domain name. If voicePortIfDHCPEnabled is true, this object indicates the domain name taken from the DHCP server. If voicePortIfDHCPEnabled is false, this object indicates the domain name configured by users for this voice port or the domain name taken from DNS configuration for the system otherwise.

voicePortCallManagerTable A list of call manager entries. The number of entries is determined by the number of modules in the chassis and the number of ports with the voice port interface configuration capability in the system.

voicePortCallManagerEntry Entry containing voice interface configuration for a particular port.

voicePortModuleIndex An index value that uniquely identifies the module where this port is located.

voicePortIndex An index value that uniquely identifies this port within a module.

voicePortCallManagerIndex An index value that uniquely identifies this CallManager within a module/port. A port can register up to 5 CallManager.

voicePortCallManagerIpAddr The Call Manager IP Address of this port. A port can register up to 5 call managers.

voicePortOperDnsServerTable A list of operational DNS entries used by the voice ports.

voicePortOperDnsServerEntry Entry containing infomation on DNS servers may be used for a particular voice port.

If DHCP is enabled on a port, the DNS server IP address will come from the DHCP server. If DHCP is disabled, the DNS server IP address can be configured by users through the mib object voicePortIfDnsServerAddress for a port, otherwise it will be taken from DNS configuration in the system.

voicePortDnsModuleIndex An index value that uniquely identifies the module where this port is located.

voicePortDnsPortIndex An index value that uniquely identifies this port within a module.

voicePortOperDnsServerIndex An index value that uniquely identifies this DNS server within a module/port. This value indicates the priority order among these DNS servers.

voicePortOperDnsServerIpAddr The operational DNS Server IP Address of this port.

voicePortOperDnsServerSource The source of the Dns Server IP Address of this port.

fromDhcp(1) indicates that the DNS server IP address comes from the DHCP server.

fromPortConfig(2) indicates that the DNS server IP address comes from the object voicePorfIfDnsServerAdress.

fromSystemConfig(3) indicates that the DNS server IP address comes from DNS configuration for the system.

portJumboFrameTable A list of port jumbo frame entries. The number of entries is determined by the number of ports in the system which support the Jumbo frame feature.

portJumboFrameEntry Entry containing the jumbo frame configuration for a particular port.

portJumboFrameModuleIndex An index value that uniquely identifies the module where this port is located.

portJumboFramePortIndex An index value that uniquely identifies this port within a module. The value is determined by the location of the port on the module. Valid entries are 1 to the value of moduleNumPorts for this module.

portJumboFrameEnable Indicates the jumbo frame status of the port. If enabled, the port supports frame size greater than the standard ethernet frame size of 1518 bytes.

switchAccelerationModuleTable This table contains a list of the modules for which the switch acceleration capability can be configured.

switchAccelerationModuleEntry A module for which switch acceleration can be configured.

switchAccelerationModuleIndex The value of moduleIndex for the module where switch acceleration feature can be configured.

switchAccelerationModuleEnable Indicates whether switch acceleration is enabled on  this module or not.

When this feature is enabled, the system will
increase the switching bandwidth, but the
ifAdminStatus of any port on this module can not
be set to 'up'.

If the ifAdminStatus of any port on this module is
'up', this feature can not be enabled until
ifAdminStatus of all ports on the module is set
to 'down'.

configMode Configuration mode to store the configuration information.

configTextFileLocation The location of the text configuration file which can be either NVRAM or a file in the FLASH file system. If the location is NVRAM, this object is a zero length octet string. Otherwise, the FLASH file should be specified in <device>:<filename> format. This object is only instantiated when configMode has the value of of text(2).

configWriteMem When this object is set to true(1), the current configuration is saved in text format in the location specified by configTextFileLocation. This object is only instantiated when configMode has the value of text(2). When read, this object always returns false(2).

configWriteMemStatus The status of the current or the most recently completed 'write memory' operation. The possible values are:

 inProgress - 'write' operation in progress;

 succeeded - the 'write' was successful (this
 value is also used when no write has been
 invoked since the last time the local system
 restarted);

 resourceUnavailable, -the 'write' failed because
 insufficeient resource was available.

 badFileName - the 'write' failed because the
 specified destination file was not found.
 This might be due to invalid FLASH device
 name or invalid file name.

 someOtherError - the 'write' failed for some
 other reason.

This object is only instantiated when configMode has the value of text(2).

lerAlarmOn A lerAlarmOn trap signifies that the agent entity has detected that the fddimibPORTLerFlag object in the FDDI-SMT73-MIB (RFC 1512) has transitioned to the true(1) state for one of its ports. The generation of this trap can be controlled by the fddimibPORTLerAlarm object in the FDDI-SMT73-MIB for each port.

lerAlarmOff A lerAlarmOff trap signifies that the agent entity has detected that the fddimibPORTLerFlag object in the FDDI-SMT73-MIB (RFC 1512) has transitioned to the false(2) state for one of its ports. The generation of this trap can be controlled by the fddimibPORTLerAlarm object in the FDDI-SMT73-MIB for each port.

moduleUp A moduleUp trap signifies that the agent entity has detected that the moduleStatus object in this MIB has transitioned to the ok(2) state for one of its modules. The generation of this trap can be controlled by the sysEnableModuleTraps object in this MIB.

moduleDown A moduleDown trap signifies that the agent entity has detected that the moduleStatus object in this MIB has transitioned out of the ok(2) state for one of its modules. The generation of this trap can be controlled by the sysEnableModuleTraps object in this MIB.

chassisAlarmOn A chassisAlarmOn trap signifies that the agent entity has detected the chassisTempAlarm, chassisMinorAlarm, or chassisMajorAlarm object in this MIB has transitioned to the on(2) state. The generation of this trap can be controlled by the sysEnableChassisTraps object in this MIB.

chassisAlarmOff A chassisAlarmOff trap signifies that the agent entity has detected the chassisTempAlarm, chassisMinorAlarm, or chassisMajorAlarm object in this MIB has transitioned to the off(1) state. The generation of this trap can be controlled by the sysEnableChassisTraps object in this MIB.

ipPermitDeniedTrap ipPermitDeniedTrap indicates that IP permit denied access happens. The generation of this trap can be controlled by the sysEnableIpPermitTraps object in this MIB.

sysConfigChangeTrap A sysConfigChange trap signifies that the system configuration in NVRAM is changed. The generation of this trap can be controlled by the sysEnableConfigTraps object in this MIB.

tokenRingSoftErrExceededTrap This trap is generated when a station local to a token ring port exceeds its Soft Error Threshold within the configured interval.

ciscoStackgMIBCompliance The compliance statement for entities which implement the Cisco stack MIB.

ciscoStackgMIBCompliance2 The compliance statement for entities which implement the Cisco stack MIB.

ciscoStackgMIBCompliance3 The compliance statement for entities which implement the Cisco stack MIB.

ciscoStackgMIBCompliance4 The compliance statement for entities which implement the Cisco stack MIB.

ciscoStackgMIBCompliance5 The compliance statement for entities which implement the Cisco stack MIB.

ciscoStackgMIBCompliance6 The compliance statement for entities which implement the Cisco stack MIB.

ciscoStackgMIBCompliance7 The compliance statement for entities which implement the Cisco stack MIB.

systemMiscGroup A collection of objects providing information about the miscellaneous system features.

systemTrapGroup A collection of objects providing information about the SNMP traps feature.

chassisGroup A collection of objects providing information about the chassis of the device.

Implementation of this group is mandatory.

moduleGroup A collection of objects providing information about the modules on the device.

Implementation of this group is mandatory.

portGroup A collection of objects providing information about the ports on the device.

optionalSystemMiscGroup A collection of objects providing information about the miscellaneous system features.

Implementation of this group is optional.

optionalSystemTrapGroup A collection of objects providing information about the SNMP traps feature.

Implementation of this group is optional.

optionalChassisGroup A collection of objects providing information about the chassis of the device.

optionalModuleGroup A collection of objects providing information about the modules on the device.

Implementation of this group is Optional.

optionalPortGroup A collection of objects providing information about the ports on the device.

Implementation of this group is Optional.

systemTrafficGroup A collection of objects providing information about the traffic meter feature.

Implementation of this group is optional. If the traffic meter feature is supported, the entire group should be implemented.

systemFddiGroup A collection of objects providing information about the FDDI ring feature.

Implementation of this group is optional. If the FDDI ring feature is supported, the entire group should be implemented.

systemRmonGroup A collection of objects providing information about the extended RMON feature.

Implementation of this group is optional. If the extended RMON feature is supported, the entire group should be implemented.

authenticationGroup A collection of objects providing information about the authentication features.

Implementation of this group is optional. If the authentication features are supported, the entire group should be implemented.

tftpGroup A collection of objects providing information about the tftp upload/download features.

Implementation of this group is optional. If the tftp upload/download features are supported, the entire group should be implemented.

brouteEnableGroup A collection of objects providing information about the combined bridging/routing feature.

Implementation of this group is optional. If the combined bridging/routing feature is supported, the group should be implemented.

filterGroup A collection of objects providing information about the port filtering feature.

Implementation of this group is optional. If the port filtering feature is supported, parts or all of this group should be implemented.

monitorGroup The collection of deprecated objects for managing the Switched Port Analyzer (SPAN) features.

vlanGroup A collection of objects providing information about the Virtual LAN features.

Implementation of this group is optional.

vmpsGroup A collection of objects providing information about the Vlan Membership Policy Server feature.

Implementation of this group is optional. If the Vlan Membership Policy Server feature is supported, the entire group should be implemented.

tokenRingGroup A collection of objects providing information about the token ring features.

Implementation of this group is optional. If the token ring features are supported, the entire group should be implemented.

mcastGroup A collection of objects providing information about the multicast features.

Implementation of this group is optional. If the multicast features are supported, the entire group should be implemented.

dnsGroup A collection of objects providing information about the DNS feature.

Implementation of this group is optional. If the DNS feature is supported, the entire group should be implemented.

syslogGroup A collection of objects providing information about the system log feature.

Implementation of this group is optional. If the system log feature is supported, the entire group should be implemented.

ntpGroup A collection of objects providing information about the network time protocol feature.

Implementation of this group is optional. If the network time protocol feature is supported, the entire group should be implemented.

ipPermitGroup A collection of objects providing information about the ip permit list feature.

Implementation of this group is optional. If the ip permit list feature is supported, the entire group should be implemented.