-- ***************************************************************** -- CISCO-C8500-REDUNDANCY-MIB.my: Cat8540MSR Redundancy Management MIB -- -- June 1998, Vasmi Abidi -- -- Copyright (c) 1998, 1999, 2003 by Cisco Systems, Inc. -- All rights reserved. -- -- ***************************************************************** CISCO-C8500-REDUNDANCY-MIB DEFINITIONS ::= BEGIN IMPORTS MODULE-IDENTITY, OBJECT-TYPE, NOTIFICATION-TYPE, Unsigned32 FROM SNMPv2-SMI TEXTUAL-CONVENTION, TimeStamp, TruthValue FROM SNMPv2-TC MODULE-COMPLIANCE, OBJECT-GROUP, NOTIFICATION-GROUP FROM SNMPv2-CONF ciscoMgmt FROM CISCO-SMI; ciscoC8500RedundancyMIB MODULE-IDENTITY LAST-UPDATED "200305040000Z" ORGANIZATION "Cisco Systems, Inc." CONTACT-INFO " Cisco Systems Customer Service Postal: 170 W. Tasman Drive San Jose, CA 95134 USA Tel: +1 800 553-NETS E-mail: cs-atm@cisco.com" DESCRIPTION "This MIB allows management of redundancy of CPU and switch cards for the Catalyst 8540 switch, and other products with similar implementations. The Catalyst 8540 is an ATM switch. It has 13 (or, in some models, 14) slots, of which 2 slots can hold CPU cards, and 3 (or, in some models, 4) slots can hold switch cards. A switch card is one that contains the ATM switching fabric. Two switch cards are combined to operate in 20Gbps switching mode. For CPU cards, 1+1 redundancy is supported. For switch cards, 2+1 redundancy is supported." REVISION "200305040000Z" DESCRIPTION "Added the following scalar objects to ccrCpu group: ccrCpuStandbyEnableMode, ccrCpuSwitchoverTime, ccrForceCounterSync, ccrIfCounterSyncFreq, ccrVcCounterSyncFreq, ccrSigCounterSyncEnable." REVISION "199806220000Z" DESCRIPTION "Initial version of the MIB Module." ::= { ciscoMgmt 105 } -- Terminology -- A "redundancy group" is a set of cards (or, in general, physical or -- logical entities), that may operate in a redundant manner. This -- means that at any time one or more member entities (e.g., cards) of -- the group are 'active', while others are 'standby', such that if an -- active member fails, one of the standby members becomes active in -- its stead. It is also possible for a member to be 'unused', in -- which case it is out of service. See the definition of -- RedundancyMode below. -- A "switchover" is an event in which an active card -- either becomes a standby (because the card failed, or -- because of user configuration) or is removed, and another -- card that was previously standby becomes active. -- Textual Conventions RedundancyStatus ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The operational status of a card." SYNTAX INTEGER { notPresent(1), -- no card in slot ok(2), fault(3) } RedundancyMode ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The redundancy mode of a card. The redundancy mode of a card is part of the state of the redundancy machine (i.e., the hardware or software that implements redundancy). The redundancy modes of all the cards in a redundancy group together represent the state of the redundancy machine for that redundancy group. The inputs to the redundancy machine that cause the redundancy mode of a card to transition from one value to another are events like card failure, card removal, user configuration, etc. Objects defined using this TC have a MAX-ACCESS of read-write or read-create. This allows a user to force the redundancy machine to transition to a desired state. The following values may be written: active(1) - Make this card an active member of the redundancy group. standby(2) - Make this card a standby member of the redundancy group. unused(3) - Do not use this card. Writing the above values may cause a switchover. When read, the values mean: active(1) - This card is an active member of the redundancy group. standby(2) - This card is a standby member of the redundancy group. unused(3) - This card is not being used at present. notPresent(4) - There is no card in the slot. " SYNTAX INTEGER { active(1), -- also called 'primary' standby(2), -- also called 'secondary' unused(3), -- 'not used' or 'non participant' notPresent(4) -- no card in slot } RedundancySlotIndex ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "A value that identifies a physical slot in the chassis. For a chassis with slots that are numbered left to right, the leftmost slot has value 1. For a chassis with slots that are numbered top to bottom, the topmost slot has value 1." SYNTAX Unsigned32 (1..65535) ciscoC8500RedundancyMIBObjects OBJECT IDENTIFIER ::= { ciscoC8500RedundancyMIB 1 } -- groups ccrCpu OBJECT IDENTIFIER ::= { ciscoC8500RedundancyMIBObjects 1 } ccrSwitch OBJECT IDENTIFIER ::= { ciscoC8500RedundancyMIBObjects 2 } -- CPU group ccrCpuTable OBJECT-TYPE SYNTAX SEQUENCE OF CcrCpuEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "There is an entry in this table for each slot that can hold a CPU card." ::= { ccrCpu 1 } ccrCpuEntry OBJECT-TYPE SYNTAX CcrCpuEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Redundancy information for a CPU card." INDEX { ccrCpuSlotIndex } ::= { ccrCpuTable 1 } CcrCpuEntry ::= SEQUENCE { ccrCpuSlotIndex RedundancySlotIndex, ccrCpuMode RedundancyMode, ccrCpuStatus RedundancyStatus } ccrCpuSlotIndex OBJECT-TYPE SYNTAX RedundancySlotIndex MAX-ACCESS not-accessible STATUS current DESCRIPTION "Identifies a chassis slot." ::= { ccrCpuEntry 1 } ccrCpuMode OBJECT-TYPE SYNTAX RedundancyMode MAX-ACCESS read-write STATUS current DESCRIPTION "The redundancy mode of this CPU card." ::= { ccrCpuEntry 2 } ccrCpuStatus OBJECT-TYPE SYNTAX RedundancyStatus MAX-ACCESS read-only STATUS current DESCRIPTION "The operational status of this CPU card." ::= { ccrCpuEntry 3 } ccrSyncConfigOnSet OBJECT-TYPE SYNTAX BITS { runningConfig(0), startupConfig(1) } MAX-ACCESS read-write STATUS current DESCRIPTION "The device's running-configuration and startup-configuration both reside on the active CPU card. This object indicates whether these configurations should be copied from the active CPU to the standby CPU whenever they change. It is acceptable to copy either, both, or neither." ::= { ccrCpu 2 } ccrCpuStandbyEnableMode OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "This object is used to allow or disallow the execution of the enable exec command on the secondary CPU. When set to 'true', the enable exec command can be executed on secondary CPU, and the user may enter enable mode after keying in the password configured. When set to 'false', the enable exec command cannot be executed; thus, no user may enter enabled mode." DEFVAL { false } ::= { ccrCpu 3 } ccrCpuSwitchoverTime OBJECT-TYPE SYNTAX INTEGER (0..65535) UNITS "seconds" MAX-ACCESS read-only STATUS current DESCRIPTION "The time taken for the most recent CPU switchover." ::= { ccrCpu 4 } ccrForceCounterSync OBJECT-TYPE SYNTAX INTEGER { forcesync (1), noop (2) } MAX-ACCESS read-write STATUS current DESCRIPTION "This object is used to force the synchronization of counters from primary CPU to secondary CPU. It should generally be set just before a controlled Route Processor Switchover. When this object is retrieved, the value 'noop' is returned. When this object is set to 'noop' no operation is performed." ::= { ccrCpu 5 } ccrIfCounterSyncFreq OBJECT-TYPE SYNTAX INTEGER (0..1440) UNITS "minutes" MAX-ACCESS read-write STATUS current DESCRIPTION "This object configures the periodicity of interface counter synchronization from primary CPU to secondary CPU. Setting this object to 0 will disable counter synchronization." ::= { ccrCpu 6 } ccrVcCounterSyncFreq OBJECT-TYPE SYNTAX INTEGER (0..1440) UNITS "minutes" MAX-ACCESS read-write STATUS current DESCRIPTION "This object configures the periodicity of Virtual Circuit (VC) counter synchronization from primary CPU to secondary CPU. Setting this object to 0 will disable counter synchronization." ::= { ccrCpu 7 } ccrSigCounterSyncEnable OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "This object configures the synchronization of ATM Signalling Statistics from primary CPU to secondary CPU. When this object is set to 'true', sychronization is enabled. When this object is set to 'false', synchronization is disabled." ::= { ccrCpu 8 } -- Switch Group ccrSwitchTable OBJECT-TYPE SYNTAX SEQUENCE OF CcrSwitchEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "There is an entry in this table for each slot that can hold a switch card. A 'switch card' is a card that contains the ATM switch fabric." ::= { ccrSwitch 1 } ccrSwitchEntry OBJECT-TYPE SYNTAX CcrSwitchEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Redundancy information for a switch card." INDEX { ccrSwitchSlotIndex } ::= { ccrSwitchTable 1 } CcrSwitchEntry ::= SEQUENCE { ccrSwitchSlotIndex RedundancySlotIndex, ccrSwitchMode RedundancyMode, ccrSwitchStatus RedundancyStatus } ccrSwitchSlotIndex OBJECT-TYPE SYNTAX RedundancySlotIndex MAX-ACCESS not-accessible STATUS current DESCRIPTION "Identifies a chassis slot." ::= { ccrSwitchEntry 1 } ccrSwitchMode OBJECT-TYPE SYNTAX RedundancyMode MAX-ACCESS read-write STATUS current DESCRIPTION "The redundancy mode of this switch card." ::= { ccrSwitchEntry 2 } ccrSwitchStatus OBJECT-TYPE SYNTAX RedundancyStatus MAX-ACCESS read-only STATUS current DESCRIPTION "The operational status of this switch card." ::= { ccrSwitchEntry 3 } ccrSwitchLastSwitchoverTime OBJECT-TYPE SYNTAX TimeStamp MAX-ACCESS read-only STATUS current DESCRIPTION "The value of sysUpTime at the last switchover of the switch cards. The value is zero if there was no switchover since agent initialization." ::= { ccrSwitch 2 } ccrSwitchLastSwitchoverReason OBJECT-TYPE SYNTAX INTEGER { none(1), notKnown(2), userInitiated(3), cardFailed(4), cardRecovered(5), cardRemoved(6), -- online removal cardInserted(7) -- online insertion } MAX-ACCESS read-only STATUS current DESCRIPTION "The reason for the last switch card switchover. The value is none(1) if there was no switchover since agent initialization." ::= { ccrSwitch 3 } ccrSwitchBw OBJECT-TYPE SYNTAX INTEGER { tenGbps(1), twentyGbps(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "The switching capacity (i.e., bandwidth) of the switch fabric. tenGbps(1) - 10 Gigabits/sec twentyGbps(2) - 20 Gigabits/sec. " ::= { ccrSwitch 4 } ccrDesiredSwitchBw OBJECT-TYPE SYNTAX INTEGER { tenGbps(1), twentyGbps(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "The desired switching capacity (i.e., bandwidth) of the switch fabric. tenGbps(1) - 10 Gigabits/sec twentyGbps(2) - 20 Gigabits/sec If the value configured by writing to this object is supported by the device, it will be applied at the next reboot. The speed at which the switch fabric is currently operating is reflected by the value of ccrSwitchBw." ::= { ccrSwitch 5 } -- Trap control objects -- None -- Notifications ciscoC8500RedundancyMIBNotificationPrefix OBJECT IDENTIFIER ::= { ciscoC8500RedundancyMIB 2 } ccrMIBNotifications OBJECT IDENTIFIER ::= { ciscoC8500RedundancyMIBNotificationPrefix 0 } ccrCpuStatusChange NOTIFICATION-TYPE OBJECTS { ccrCpuStatus } STATUS current DESCRIPTION "This notification is generated when the value of ccrCpuStatus changes for a CPU card. The varbind indicates the current status of the affected card." ::= { ccrMIBNotifications 1 } ccrSwitchStatusChange NOTIFICATION-TYPE OBJECTS { ccrSwitchStatus } STATUS current DESCRIPTION "This notification is generated when the value of ccrSwitchStatus changes for a switch card. The varbind indicates the current status of the affected card." ::= { ccrMIBNotifications 2 } ccrSwitchModeChange NOTIFICATION-TYPE OBJECTS { ccrSwitchMode } STATUS current DESCRIPTION "This notification is generated when the value of ccrSwitchMode changes from active(1) to either standby(2) or unused(3) or notPresent(4). The varbind indicates the current mode of the affected card." ::= { ccrMIBNotifications 3 } -- Compliance Statements ciscoC8500RedundancyMIBConformance OBJECT IDENTIFIER ::= { ciscoC8500RedundancyMIB 3 } ciscoC8500RedundancyMIBCompliances OBJECT IDENTIFIER ::= { ciscoC8500RedundancyMIBConformance 1 } ciscoC8500RedundancyMIBGroups OBJECT IDENTIFIER ::= { ciscoC8500RedundancyMIBConformance 2 } ciscoC8500RedundancyMIBCompliance MODULE-COMPLIANCE STATUS obsolete DESCRIPTION "The compliance statement for Cisco agents which implement the CISCO-C8500-REDUNDANCY-MIB." MODULE MANDATORY-GROUPS { ccrCpuMibGroup, ccrSwitchMibGroup -- ,ccrNotificationsGroup } ::= {ciscoC8500RedundancyMIBCompliances 1 } ciscoC8500RedundancyMIBComplianceRev1 MODULE-COMPLIANCE STATUS current DESCRIPTION "The compliance statement to include objects related to the redundancy features like enable password on secondary, switchover duration and counter." MODULE MANDATORY-GROUPS { ccrCpuMibGroup1, ccrSwitchMibGroup, ccrNotificationsGroup } ::= {ciscoC8500RedundancyMIBCompliances 2 } -- units of conformance ccrCpuMibGroup OBJECT-GROUP OBJECTS { ccrCpuMode, ccrCpuStatus, ccrSyncConfigOnSet } STATUS obsolete DESCRIPTION "A collection of objects providing the ability to manage CPU card redundancy." ::= { ciscoC8500RedundancyMIBGroups 1 } ccrSwitchMibGroup OBJECT-GROUP OBJECTS { ccrSwitchMode, ccrSwitchStatus, ccrSwitchLastSwitchoverTime, ccrSwitchLastSwitchoverReason, ccrSwitchBw, ccrDesiredSwitchBw } STATUS current DESCRIPTION "A collection of objects providing the ability to manage Switch Fabric card redundancy." ::= { ciscoC8500RedundancyMIBGroups 2 } ccrNotificationsGroup NOTIFICATION-GROUP NOTIFICATIONS { ccrCpuStatusChange, ccrSwitchStatusChange, ccrSwitchModeChange } STATUS current DESCRIPTION "A collection of notifications related to redundancy." ::= { ciscoC8500RedundancyMIBGroups 3 } ccrCpuMibGroup1 OBJECT-GROUP OBJECTS { ccrCpuMode, ccrCpuStatus, ccrSyncConfigOnSet, ccrCpuStandbyEnableMode, ccrCpuSwitchoverTime, ccrForceCounterSync, ccrIfCounterSyncFreq, ccrVcCounterSyncFreq, ccrSigCounterSyncEnable } STATUS current DESCRIPTION "A collection of objects providing the ability to manage CPU card redundancy and redundancy feature for counter, enable password on secondary and switchover duration." ::= { ciscoC8500RedundancyMIBGroups 4 } END