CISCO-ENTITY-FRU-CONTROL-MIB -- ***************************************************************** -- CISCO-ENTITY-FRU-CONTROL-MIB -- -- October 2002, Srini Kode -- -- October 2003, Wen Xu -- -- November 2003, Vasanta Kottapalli -- -- Copyright (c) 1998 - 2002, 2003 by cisco Systems, Inc. -- All rights reserved. -- ***************************************************************** -- CISCO-ENTITY-FRU-CONTROL-MIB DEFINITIONS ::= BEGIN IMPORTS MODULE-IDENTITY, OBJECT-TYPE, NOTIFICATION-TYPE, Unsigned32 FROM SNMPv2-SMI MODULE-COMPLIANCE, OBJECT-GROUP, NOTIFICATION-GROUP FROM SNMPv2-CONF TEXTUAL-CONVENTION, DisplayString,TimeStamp, TruthValue FROM SNMPv2-TC entPhysicalIndex, entPhysicalContainedIn, entPhysicalModelName, entPhysicalClass, entPhysicalVendorType,entPhysicalName FROM ENTITY-MIB ciscoMgmt FROM CISCO-SMI InetAddressType, InetAddress FROM INET-ADDRESS-MIB; ciscoEntityFRUControlMIB MODULE-IDENTITY LAST-UPDATED "200311240000Z" ORGANIZATION "Cisco Systems, Inc." CONTACT-INFO "Postal: Cisco Systems, Inc. 170 West Tasman Drive San Jose, CA 95134-1706 USA Tel: +1 408 526 4000 E-mail: cs-snmp@cisco.com" DESCRIPTION "The CISCO-ENTITY-FRU-CONTROL-MIB is used to monitor and configure operational status of Field Replaceable Units (FRUs) and other managable physical entities of the system listed in the Entity-MIB (RFC 2737) entPhysicalTable. FRUs include assemblies such as power supplies, fans, processor modules, interface modules, etc. " REVISION "200311240000Z" DESCRIPTION "* Added the enumerations okButPowerOverWarning and okButPowerOverCritical to ModuleOperType Textual Convention." REVISION "200310270000Z" DESCRIPTION "Added poweredDown,poweredUp, powerDenied,powerCycled to ModuleOperType." REVISION "200310230000Z" DESCRIPTION "* Added cefcModuleStateChangeReasonDescr and cefcModuleUpTime in the cefcModuleTable. * Added cefcIntelliModuleTable to provide the IP address information for intelligent modules." REVISION "200307220000Z" DESCRIPTION "* Modified the description for cefcPowerRedudancyMode to indicate that this object reflects the administrative power supply redundancy mode. * Added cefcPowerRedundancyOperMode to reflect the operational status of the power supply redundancy mode. * Deprecated cefcMaxDefaultInLinePower and added cefcMaxDefaultHighInLinePower to replace it. * Modified the DESCRIPTION for cefcFanTrayStatusTable and cefcFanTrayStatusEntry to reflect the right situation." REVISION "200210160000Z" DESCRIPTION "Added: * Added cefcFanTrayStatusChange notification * Added cefcFanTrayStatusChange to cefcMgmtNotificationsGroup2 " REVISION "200210030000Z" DESCRIPTION "Added: * cefcFanTrayStatus table containing fan tray status information. * added cefcPhysical table containing status information of the physical entity. * added cefcUnrecognizedFRU notification. * added cefcMIBFanTrayStatusGroup. * added cefcMIBPhysicalGroup. " REVISION "200209150000Z" DESCRIPTION "Added: * powerSupplyValue table containing information such as, total and used inline and data power, for variable power supplies. * added following object group cefcMIBPowerFRUValueGroup " REVISION "200207120000Z" DESCRIPTION "Added: cefcModuleLastClearConfigTime cefcModuleResetReasonDescription cefcModuleGroupRev1 Modified: Added enumerations watchDogTimeoutReset, resourceOverflowReset, missingTaskReset, lowVoltageReset, controllerReset, systemReset, switchoverReset, upgradeReset, downgradeReset, cacheErrorReset, deviceDriverReset, softwareExceptionReset, restoreConfigReset, abortRevReset, burnBootReset, standbyCdHealthierReset, nonNativeConfigClearReset, and memoryProtectionErrorReset to ModuleResetReasonType TC. " REVISION "200105220000Z" DESCRIPTION "Modified the description for cefcTotalAvailableCurrent. Changed 'cefcPowerRedundancy' in the description to 'cefcPowerRedundancyMode' Also made the file conform to the 72 char line limit. Imported NOTIFICATION-GROUP Added cefcMgmtNotificationsGroup. " REVISION "200001130000Z" DESCRIPTION "Following changes are made in this revision * added following enumerations to ModuleOperType TC: dormant, outOfServiceAdmin, outOfServiceEnvTemp * added outOfServiceAdmin to ModuleAdminType TC * added following notifications: cefcMIBNotificationEnables cefcMIBEnableStatusNotification cefcPowerStatusChange cefcFRUInserted cefcFRURemoved * added following object groups: cefcMIBInLinePowerControlGroup cefcMIBNotificationEnablesGroup " REVISION "9904050000Z" DESCRIPTION "Added module table containing the status information. " ::= { ciscoMgmt 117 } cefcMIBObjects OBJECT IDENTIFIER ::= { ciscoEntityFRUControlMIB 1 } cefcFRUMIBNotificationPrefix OBJECT IDENTIFIER ::= { ciscoEntityFRUControlMIB 2 } cefcMIBConformance OBJECT IDENTIFIER ::= { ciscoEntityFRUControlMIB 3 } -- -- textual conventions -- PowerRedundancyType ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "power supply redundancy modes. valid values are: notsupported(1): Operational state only, indicates that the requested administrative state (redundant(2) or combined(3)) is not supported by the system. redundant(2): A single power supply output can power the entire system, although there may be more than one supply in the system. combined(3): The combined output of the power supplies are available to operate the system. " SYNTAX INTEGER { notsupported(1), redundant(2), combined(3) } PowerAdminType ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "Administratively desired FRU power state types. valid values are: on(1): Turn FRU on. off(2): Turn FRU off. The inline power means that the FRU itself won't cost any power, but the external device connecting to the FRU will drain the power from FRU. For example, the IP phone device. The FRU is a port of a switch with voice ability and IP phone will cost power from the port once it connects to the port. inlineAuto(3): Turn FRU inline power to auto mode. It means that the FRU will try to detect whether the connecting device needs power or not. If it needs power, the FRU will supply power. If it doesn't, the FRU will treat the device as a regular network device. inlineOn(4): Turn FRU inline power to on mode. It means that once the device connects to the FRU, the FRU will always supply power to the device no matter the device needs the power or not. " SYNTAX INTEGER { on(1), off(2), inlineAuto(3), inlineOn(4) } PowerOperType ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "Operational FRU Status types. valid values are: offEnvOther(1) FRU is powered off because of a problem not listed below. on(2): FRU is powered on. offAdmin(3): Administratively off. offDenied(4): FRU is powered off because available system power is insufficient. offEnvPower(5): FRU is powered off because of power problem in the FRU. for example, the FRU's power translation (DC-DC converter) or distribution failed. offEnvTemp(6): FRU is powered off because of temperature problem. offEnvFan(7): FRU is powered off because of fan problems. failed(8): FRU is in failed state. onButFanFail(9): FRU is on, but fan has failed. " SYNTAX INTEGER { offEnvOther(1), on(2), offAdmin(3), offDenied(4), offEnvPower(5), offEnvTemp(6), offEnvFan(7), failed(8), onButFanFail(9) } FRUCurrentType ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "a current measurement, on the system power supply primary output, expressed in cefcPowerUnits. Range is from negative 1 million to positive one million amperes. A negative value expresses current used by the FRU. A positive value expresses current supplied by the FRU. " SYNTAX INTEGER ( -1000000000..1000000000 ) ModuleAdminType ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "Administratively desired module states. Valid values are: enabled(1) module is operational. disabled(2) module is not operational. reset(3) module is reset. outOfServiceAdmin(4) module is powered on but out of service, set by CLI. " SYNTAX INTEGER { enabled(1), disabled(2), reset(3), outOfServiceAdmin(4) } ModuleOperType ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "Operational module states. Valid values are : unknown(1) Module is not in one of other states normal operational states: ok(2) Module is operational. disabled(3) Module is administratively disabled. okButDiagFailed(4) Module is operational but there is some diagnostic information available. transitional states: boot(5) Module is currently in the process of bringing up image. After boot, it starts its operational software and transitions to the appropriate state. selfTest(6) Module is performing selfTest. failure states: failed(7) Module has failed due to some condition not stated above. missing(8) Module has been provisioned, but it is missing mismatchWithParent(9) Module is not compatible with parent entity. Module has not been provisioned and wrong type of module is plugged in. This state can be cleared by plugging in the appropriate module. mismatchConfig(10) Module is not compatible with the current configuration. Module was correctly provisioned earlier, however the module was replaced by an incompatible module. This state can be resolved by clearing the configuration, or replacing with the appropriate module. diagFailed(11) Module diagnostic test failed due to some hardware failure. dormant(12) Module is waiting for an external or internal event to become operational outOfServiceAdmin(13) module is administratively set to be powered on but out of service. outOfServiceEnvTemp(14)Module is powered on but out of service, due to environmental temperature problem. An out-o-service module consumes less power thus will cool down the board. poweredDown(15) Module is in powered down state. poweredUp(16) Module is in powered up state. powerDenied(17) System does not have enough power in power budget to power on this module. powerCycled(18) Module is being power cycled. okButPowerOverWarning(19) Module is drawing more power than allocated to this module. The module is still operational but may go into a failure state. This state may be caused by misconfiguration of power requirements (especially for inline power). okButPowerOverCritical(20) Module is drawing more power than this module is designed to handle. The module is still operational but may go into a failure state and could potentially take the system down. This state may be caused by gross misconfi- guration of power requirements (especially for inline power). " SYNTAX INTEGER { unknown(1), ok(2), disabled(3), okButDiagFailed(4), boot(5), selfTest(6), failed(7), missing(8), mismatchWithParent(9), mismatchConfig(10), diagFailed(11), dormant(12), outOfServiceAdmin(13), outOfServiceEnvTemp(14), poweredDown(15), poweredUp(16), powerDenied(17), powerCycled(18), okButPowerOverWarning(19), okButPowerOverCritical(20) } ModuleResetReasonType ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "Describes the reason for the last module reset operation. unknown(1) source of the reset is not identified. powerUp(2) system power up operation. parityError(3) parity error during system bring up operation. clearConfigReset(4) reset due to clear configuration operation manualReset(5) reset due to administrative request watchDogTimeoutReset(6) reset due to watchdog timeout resourceOverflowReset(7) reset due to resource overflow missingTaskReset(8) reset due to missing task lowVoltageReset(9) reset due to low voltage controllerReset(10) reset by controller systemReset(11) system reset switchoverReset(12) reset due to user initiated graceful switchover upgradeReset(13) reset due to upgrade downgradeReset(14) reset due to downgrade cacheErrorReset(15) reset due to cache error deviceDriverReset(16) reset due to device driver error softwareExceptionReset(17) reset due to software exception restoreConfigReset(18) reset due to configuration restoration abortRevReset(19) reset due to revision change abort burnBootReset(20) reset due to boot image change standbyCdHealthierReset(21) reset to switch to healthier standby card nonNativeConfigClearReset(22) reset due clearing of non-native configuration memoryProtectionErrorReset(23) reset due to memory protection violation " SYNTAX INTEGER { unknown(1), powerUp(2), parityError(3), clearConfigReset(4), manualReset(5), watchDogTimeoutReset(6), resourceOverflowReset(7), missingTaskReset(8), lowVoltageReset(9), controllerReset(10), systemReset(11), switchoverReset(12), upgradeReset(13), downgradeReset(14), cacheErrorReset(15), deviceDriverReset(16), softwareExceptionReset(17), restoreConfigReset(18), abortRevReset(19), burnBootReset(20), standbyCdHealthierReset(21), nonNativeConfigClearReset(22), memoryProtectionErrorReset(23) } FRUTimeSeconds ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "This is a non-negative integer which represents the time in second between two epochs. Since time is not discrete, it is rounded up to the nearest second. For example, if the elapsed time is greater than zero and less or equal to one second, then one second is returned, etc. When objects are defined which use this type, the description of the object identifies both of the reference epochs. " SYNTAX Unsigned32 -- -- MIB variables -- cefcFRUPower OBJECT IDENTIFIER ::= { cefcMIBObjects 1} cefcModule OBJECT IDENTIFIER ::= { cefcMIBObjects 2} cefcMIBNotificationEnables OBJECT IDENTIFIER ::= { cefcMIBObjects 3} cefcFRUFan OBJECT IDENTIFIER ::= { cefcMIBObjects 4} cefcPhysical OBJECT IDENTIFIER ::= { cefcMIBObjects 5} -- -- cefcFRUPowerSupplyGroupTable -- cefcFRUPowerSupplyGroupTable OBJECT-TYPE SYNTAX SEQUENCE OF CefcFRUPowerSupplyGroupEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table lists the redundancy mode and the operational status of the power supply groups in the system." ::= { cefcFRUPower 1 } CefcFRUPowerSupplyGroupEntry ::= SEQUENCE { cefcPowerRedundancyMode PowerRedundancyType, cefcPowerUnits DisplayString, cefcTotalAvailableCurrent FRUCurrentType, cefcTotalDrawnCurrent FRUCurrentType, cefcPowerRedundancyOperMode PowerRedundancyType } cefcFRUPowerSupplyGroupEntry OBJECT-TYPE SYNTAX CefcFRUPowerSupplyGroupEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An cefcFRUPowerSupplyGroupTable entry lists the desired redundancy mode, the units of the power outputs and the available and drawn current for the power supply group. Entries are created by the agent when a power supply group is added to the entPhysicalTable. Entries are deleted by the agent at power supply group removal. " INDEX { entPhysicalIndex } ::= { cefcFRUPowerSupplyGroupTable 1 } cefcPowerRedundancyMode OBJECT-TYPE SYNTAX PowerRedundancyType MAX-ACCESS read-write STATUS current DESCRIPTION "The administratively desired power supply redundancy mode." ::= {cefcFRUPowerSupplyGroupEntry 1 } cefcPowerUnits OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The units of primary supply to interpret cefcTotalAvailableCurrent and cefcTotalDrawnCurrent as power. For example, one 1000-watt power supply could deliver 100 amperes at 10 volts DC. So the value of cefcPowerUnits would be 'at 10 volts DC'. cefcPowerUnits is for display purposes only. " ::= { cefcFRUPowerSupplyGroupEntry 2 } cefcTotalAvailableCurrent OBJECT-TYPE SYNTAX FRUCurrentType MAX-ACCESS read-only STATUS current DESCRIPTION "Total current available for FRU usage." ::= { cefcFRUPowerSupplyGroupEntry 3 } cefcTotalDrawnCurrent OBJECT-TYPE SYNTAX FRUCurrentType MAX-ACCESS read-only STATUS current DESCRIPTION "Total current drawn by powered-on FRUs." ::= { cefcFRUPowerSupplyGroupEntry 4 } cefcPowerRedundancyOperMode OBJECT-TYPE SYNTAX PowerRedundancyType MAX-ACCESS read-only STATUS current DESCRIPTION "The power supply redundancy operational mode." ::= {cefcFRUPowerSupplyGroupEntry 5 } -- -- cefcFRUPowerStatusTable -- cefcFRUPowerStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF CefcFRUPowerStatusEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table lists the power-related administrative status and operational status of the manageable components in the system." ::= { cefcFRUPower 2 } CefcFRUPowerStatusEntry ::= SEQUENCE { cefcFRUPowerAdminStatus PowerAdminType, cefcFRUPowerOperStatus PowerOperType, cefcFRUCurrent FRUCurrentType } cefcFRUPowerStatusEntry OBJECT-TYPE SYNTAX CefcFRUPowerStatusEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An cefcFRUPowerStatusTable entry lists the desired administrative status, the operational status of the power manageable component, and the current required by the component for operation. Entries are created by the agent at system power-up or the insertion of the component. Entries are deleted by the agent at the removal of the component. Only components with power control are listed in the table." INDEX { entPhysicalIndex } ::= { cefcFRUPowerStatusTable 1 } cefcFRUPowerAdminStatus OBJECT-TYPE SYNTAX PowerAdminType MAX-ACCESS read-write STATUS current DESCRIPTION "Administratively desired FRU power state." ::= { cefcFRUPowerStatusEntry 1 } cefcFRUPowerOperStatus OBJECT-TYPE SYNTAX PowerOperType MAX-ACCESS read-only STATUS current DESCRIPTION "Operational FRU power state." ::= { cefcFRUPowerStatusEntry 2 } cefcFRUCurrent OBJECT-TYPE SYNTAX FRUCurrentType MAX-ACCESS read-only STATUS current DESCRIPTION "Current supplied by the FRU (positive values) or current required to operate the FRU (negative values)." ::= { cefcFRUPowerStatusEntry 3 } -- -- cefcMaxDefaultInLinePower -- cefcMaxDefaultInLinePower OBJECT-TYPE SYNTAX INTEGER (0..12500) UNITS "miliwatts" MAX-ACCESS read-write STATUS deprecated DESCRIPTION "The system will provide power to the device connecting to the FRU if the device needs power, like an IP Phone. We call the providing power inline power. This MIB object controls the maximum default inline power for the device connecting to the FRU in the system. If the maximum default inline power of the device is greater than the maximum value reportable by this object, then this object should report its maxiumum reportable value (12500) and cefcMaxDefaultHighInLinePower must be used to report the actual maximum default inline power." DEFVAL { 12500 } ::= { cefcFRUPower 3 } -- -- cefcFRUPowerSupplyValueTable -- cefcFRUPowerSupplyValueTable OBJECT-TYPE SYNTAX SEQUENCE OF CefcFRUPowerSupplyValueEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table lists the power capacity of a power FRU in the system if it provides variable power. Power supplies usually provide either system or inline power. They cannot be controlled by software to dictate how they distribute power. We can also have what are known as variable power supplies. They can provide both system and inline power and can be varied within hardware defined ranges for system and inline limited by a total maximum combined output. They could be configured by the user via CLI or SNMP or be controlled by software internally. This table supplements the information in the cefcFRUPowerStatusTable for power supply FRUs. The cefcFRUCurrent attribute in that table provides the overall current the power supply FRU can provide while this table gives us the individual contribution towards system and inline power. " ::= { cefcFRUPower 4 } cefcFRUPowerSupplyValueEntry OBJECT-TYPE SYNTAX CefcFRUPowerSupplyValueEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An cefcFRUPowerSupplyValueTable entry lists the current provided by the FRU for operation. Entries are created by the agent at system power-up or FRU insertion. Entries are deleted by the agent at FRU removal. Only power supply FRUs are listed in the table. " INDEX { entPhysicalIndex } ::= { cefcFRUPowerSupplyValueTable 1 } CefcFRUPowerSupplyValueEntry ::= SEQUENCE { cefcFRUTotalSystemCurrent FRUCurrentType, cefcFRUDrawnSystemCurrent FRUCurrentType, cefcFRUTotalInlineCurrent FRUCurrentType, cefcFRUDrawnInlineCurrent FRUCurrentType } cefcFRUTotalSystemCurrent OBJECT-TYPE SYNTAX FRUCurrentType MAX-ACCESS read-write STATUS current DESCRIPTION "Total current that could be supplied by the FRU (positive values) for system operations." ::= { cefcFRUPowerSupplyValueEntry 1 } cefcFRUDrawnSystemCurrent OBJECT-TYPE SYNTAX FRUCurrentType MAX-ACCESS read-write STATUS current DESCRIPTION "Amount of current drawn by the FRU's in the system towards system operations from this FRU" ::= { cefcFRUPowerSupplyValueEntry 2 } cefcFRUTotalInlineCurrent OBJECT-TYPE SYNTAX FRUCurrentType MAX-ACCESS read-write STATUS current DESCRIPTION "Total current supplied by the FRU (positive values) for inline operations." ::= { cefcFRUPowerSupplyValueEntry 3 } cefcFRUDrawnInlineCurrent OBJECT-TYPE SYNTAX FRUCurrentType MAX-ACCESS read-write STATUS current DESCRIPTION "Amount of current that is being drawn from this FRU for inline operation." ::= { cefcFRUPowerSupplyValueEntry 4 } cefcMaxDefaultHighInLinePower OBJECT-TYPE SYNTAX Unsigned32 UNITS "miliwatts" MAX-ACCESS read-write STATUS current DESCRIPTION "The system will provide power to the device connecting to the FRU if the device needs power, like an IP Phone. We call the providing power inline power. This MIB object controls the maximum default inline power for the device connecting to the FRU in the system." ::= { cefcFRUPower 5 } -- -- cefcModuleTable -- cefcModuleTable OBJECT-TYPE SYNTAX SEQUENCE OF CefcModuleEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A cefcModuleTable entry lists the operational and administrative status information for ENTITY-MIB entPhysicalTable entries for manageable components of type PhysicalClass module(9). " ::= { cefcModule 1 } cefcModuleEntry OBJECT-TYPE SYNTAX CefcModuleEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A cefcModuleStatusTable entry lists the operational and administrative status information for ENTITY-MIB entPhysicalTable entries for manageable components of type PhysicalClass module(9). Entries are created by the agent at the system power-up or module insertion. Entries are deleted by the agent upon module removal. " INDEX { entPhysicalIndex } ::= { cefcModuleTable 1 } CefcModuleEntry ::= SEQUENCE { cefcModuleAdminStatus ModuleAdminType, cefcModuleOperStatus ModuleOperType, cefcModuleResetReason ModuleResetReasonType, cefcModuleStatusLastChangeTime TimeStamp, cefcModuleLastClearConfigTime TimeStamp, cefcModuleResetReasonDescription DisplayString, cefcModuleStateChangeReasonDescr DisplayString, cefcModuleUpTime FRUTimeSeconds } cefcModuleAdminStatus OBJECT-TYPE SYNTAX ModuleAdminType MAX-ACCESS read-write STATUS current DESCRIPTION "This object provides administrative control of the module. " ::= { cefcModuleEntry 1 } cefcModuleOperStatus OBJECT-TYPE SYNTAX ModuleOperType MAX-ACCESS read-only STATUS current DESCRIPTION "This object shows the module's operational state." ::= { cefcModuleEntry 2 } cefcModuleResetReason OBJECT-TYPE SYNTAX ModuleResetReasonType MAX-ACCESS read-only STATUS current DESCRIPTION "This object identifies the reason for the last reset performed on the module. " ::= { cefcModuleEntry 3 } cefcModuleStatusLastChangeTime OBJECT-TYPE SYNTAX TimeStamp MAX-ACCESS read-only STATUS current DESCRIPTION "The value of sysUpTime at the time the cefcModuleOperStatus is changed. " ::= { cefcModuleEntry 4 } cefcModuleLastClearConfigTime OBJECT-TYPE SYNTAX TimeStamp MAX-ACCESS read-only STATUS current DESCRIPTION "The value of sysUpTime when the configuration was most recently cleared. " ::= { cefcModuleEntry 5 } cefcModuleResetReasonDescription OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "A description qualifying the module reset reason specified in cefcModuleResetReason. Examples: command xyz missing task switch over watchdog timeout etc. cefcModuleResetReasonDescription is for display purposes only. NMS applications must not parse. " ::= { cefcModuleEntry 6 } cefcModuleStateChangeReasonDescr OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "This object displays human-readable textual string which describes the cause of the last state change of the module. This object contains zero length string if no meaningful reason could be provided. Examples: 'Invalid software version' 'Software download failed' 'Software version mismatch' 'Module is in standby state' etc. This object is for display purposes only. NMS applications must not parse this object and take any decision based on its value." ::= { cefcModuleEntry 7 } cefcModuleUpTime OBJECT-TYPE SYNTAX FRUTimeSeconds MAX-ACCESS read-only STATUS current DESCRIPTION "This object provides the up time for the module since it was last re-initialized. This object is not persistent; if a module reset, restart, power off, the up time starts from zero." ::= { cefcModuleEntry 8 } -- -- cefcIntelliModuleTable -- cefcIntelliModuleTable OBJECT-TYPE SYNTAX SEQUENCE OF CefcIntelliModuleEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table sparsely augments the cefcModuleTable (i.e., every row in this table corresponds to a row in the cefcModuleTable but not necessarily vice-versa). A cefcIntelliModuleTable entry lists the information specific to intelligent modules which cannot be provided by the cefcModuleTable." ::= { cefcModule 2 } cefcIntelliModuleEntry OBJECT-TYPE SYNTAX CefcIntelliModuleEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A cefcIntelliModuleTable entry lists the information specific to an intelligent module which cannot be provided by this module's corresponding instance in the cefcModuleTable. Only an intelligent module with Internet address configured has its entry here. An entry of this table is created if an intelligent module is detected by the managed system and its management Internet address is configured on the intelligent module. An entry of this table is deleted if the removal of Internet address configuration of this module or the module itself." INDEX { entPhysicalIndex } ::= { cefcIntelliModuleTable 1 } CefcIntelliModuleEntry ::= SEQUENCE { cefcIntelliModuleIPAddrType InetAddressType, cefcIntelliModuleIPAddr InetAddress } cefcIntelliModuleIPAddrType OBJECT-TYPE SYNTAX InetAddressType MAX-ACCESS read-only STATUS current DESCRIPTION "The type of Internet address by which the intelligent module is reachable." ::= { cefcIntelliModuleEntry 1 } cefcIntelliModuleIPAddr OBJECT-TYPE SYNTAX InetAddress MAX-ACCESS read-only STATUS current DESCRIPTION "The Internet address configured for the intelligent module. The type of this address is determined by the value of the object cefcIntelliModuleIPAddrType." ::= { cefcIntelliModuleEntry 2 } -- -- cefcFanTrayStatusTable -- cefcFanTrayStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF CefcFanTrayStatusEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains the operational status information for all ENTITY-MIB entPhysicalTable entries which have a entPhysicalClass of 'fan'; specifically, all entPhysicalTable entries which represent either: one physical fan, or a single physical 'fan tray' which is a manufactured (inseparable in the field) combination of multiple fans." ::= { cefcFRUFan 1 } cefcFanTrayStatusEntry OBJECT-TYPE SYNTAX CefcFanTrayStatusEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An cefcFanTrayStatusTable entry lists the operational status information for the ENTITY-MIB entPhysicalTable entry which is identified by the value of entPhysicalIndex. The value of entPhysicalClass for the identified entry will be 'fan', and the represented physical entity will be either: one physical fan, or a single physical 'fan tray' which is a manufactured (inseparable in the field) combination of multiple fans. Entries are created by the agent at system power-up or fan or fan tray insertion. Entries are deleted by the agent at the fan or fan tray removal. " INDEX { entPhysicalIndex } ::= { cefcFanTrayStatusTable 1 } CefcFanTrayStatusEntry ::= SEQUENCE { cefcFanTrayOperStatus INTEGER } cefcFanTrayOperStatus OBJECT-TYPE SYNTAX INTEGER { unknown(1), up(2), down(3), warning(4) } MAX-ACCESS read-only STATUS current DESCRIPTION "The operational state of the fan or fan tray. unknown(1) - unknown. up(2) - powered on. down(3) - powered down. warning(4) - partial failure, needs replacement ASAP." ::= { cefcFanTrayStatusEntry 1 } -- -- cefcPhysicalTable -- cefcPhysicalTable OBJECT-TYPE SYNTAX SEQUENCE OF CefcPhysicalEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains one row per physical entity. " ::= { cefcPhysical 1 } cefcPhysicalEntry OBJECT-TYPE SYNTAX CefcPhysicalEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Information about a particular physical entity. " INDEX { entPhysicalIndex } ::= { cefcPhysicalTable 1 } CefcPhysicalEntry ::= SEQUENCE { cefcPhysicalStatus INTEGER } cefcPhysicalStatus OBJECT-TYPE SYNTAX INTEGER { other(1), supported(2), unsupported(3), incompatible(4) } MAX-ACCESS read-only STATUS current DESCRIPTION "The status of this physical entity. other(1) - the status is not any of the listed below. supported(2) - this entity is supported. unsupported(3) - this entity is unsupported. incompatible(4) - this entity is incompatible. It would be unsupported(3), if the ID read from Serial EPROM is not supported. It would be incompatible(4), if in the present configuration this FRU is not supported. " ::= { cefcPhysicalEntry 1 } -- -- notifications -- cefcMIBEnableStatusNotification OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "This variable indicates whether the system produces the cefcMIBNotifications. A false value will prevent FRU notifications from being generated by this system. " DEFVAL { false } ::= { cefcMIBNotificationEnables 1 } cefcMIBNotifications OBJECT IDENTIFIER ::= { cefcFRUMIBNotificationPrefix 0 } cefcModuleStatusChange NOTIFICATION-TYPE OBJECTS { cefcModuleOperStatus, cefcModuleStatusLastChangeTime } STATUS current DESCRIPTION "This notification is generated when the value of cefcModuleOperStatus changes. It can be utilized by an NMS to update the status of the module it is managing. " ::= { cefcMIBNotifications 1 } cefcPowerStatusChange NOTIFICATION-TYPE OBJECTS { cefcFRUPowerOperStatus, cefcFRUPowerAdminStatus } STATUS current DESCRIPTION "The cefcFRUPowerStatusChange notification indicates that the power status of a FRU has changed. The varbind for this notification indicates the entPhysicalIndex of the FRU, and the new operational-status of the FRU." ::= { cefcMIBNotifications 2 } cefcFRUInserted NOTIFICATION-TYPE OBJECTS { entPhysicalContainedIn } STATUS current DESCRIPTION "The cecfFRUInserted notification indicates that a FRU was inserted. The varbind for this notification indicates the entPhysicalIndex of the inserted FRU, and the entPhysicalIndex of the FRU's container." ::= { cefcMIBNotifications 3 } cefcFRURemoved NOTIFICATION-TYPE OBJECTS { entPhysicalContainedIn } STATUS current DESCRIPTION "The cefcFRURemoved notification indicates that a FRU was removed. The varbind for this notification indicates the entPhysicalIndex of the removed FRU, and the entPhysicalIndex of the FRU's container." ::= { cefcMIBNotifications 4 } cefcUnrecognizedFRU NOTIFICATION-TYPE OBJECTS { entPhysicalClass, entPhysicalVendorType, entPhysicalName, entPhysicalModelName, cefcPhysicalStatus } STATUS current DESCRIPTION "The cefcUnrecognizedFRU notification indicates that a FRU was inserted whose product ID is not supported. The varbind for this notification indicates the entPhysicalIndex of the inserted FRU, the entPhysicalClass this FRU belongs to, the entPhysicalVendorType of this FRU, the entPhysicalName of the FRU, the entPhysicalModelName of the inserted FRU, and the cefcPhysicalStatus telling the reason code for sending this notification. " ::= { cefcMIBNotifications 5 } cefcFanTrayStatusChange NOTIFICATION-TYPE OBJECTS { cefcFanTrayOperStatus } STATUS current DESCRIPTION "This notification is generated when the value of cefcFanTrayOperStatus changes. " ::= { cefcMIBNotifications 6 } -- -- conformance information -- cefcMIBCompliances OBJECT IDENTIFIER ::= { cefcMIBConformance 1 } cefcMIBGroups OBJECT IDENTIFIER ::= { cefcMIBConformance 2 } -- -- compliance statements -- cefcMIBPowerCompliance MODULE-COMPLIANCE STATUS obsolete -- superceded by cefcMIBPowerCompliance2 DESCRIPTION "An Entity-MIB implementation can implement this group to provide FRU power status and control." MODULE -- this module MANDATORY-GROUPS { cefcMIBPowerModeGroup } GROUP cefcMIBPowerFRUControlGroup DESCRIPTION "The cefcMIBPowerFRUControlGroup must be implemented for FRUs that have power control" ::= { cefcMIBCompliances 1 } cefcMIBPowerCompliance2 MODULE-COMPLIANCE STATUS deprecated -- superceded by cefcMIBPowerCompliance3 DESCRIPTION "An Entity-MIB implementation can implement this group to provide FRU power status and control." MODULE -- this module MANDATORY-GROUPS { cefcMIBPowerModeGroup, cefcMgmtNotificationsGroup } GROUP cefcMIBPowerFRUControlGroup DESCRIPTION "The cefcMIBPowerFRUControlGroup must be implemented for FRUs that have power control" GROUP cefcMIBModuleGroup DESCRIPTION "The cefcMIBModuleGroup must be implemented for FRUs that are of module type." GROUP cefcMIBInLinePowerControlGroup DESCRIPTION "The cefcMIBInLinePowerControlGroup must be implemented for FRUs that have inline power control" GROUP cefcMIBNotificationEnablesGroup DESCRIPTION "The cefcMIBNotificationEnablesGroup must be implemented for FRUs that have notification" ::= { cefcMIBCompliances 2 } cefcMIBPowerCompliance3 MODULE-COMPLIANCE STATUS deprecated -- superceded by cefcMIBPowerCompliance4 DESCRIPTION "An Entity-MIB implementation can implement this group to provide FRU power status and control." MODULE -- this module MANDATORY-GROUPS { cefcMIBPowerModeGroup, cefcMgmtNotificationsGroup } GROUP cefcMIBPowerFRUControlGroup DESCRIPTION "The cefcMIBPowerFRUControlGroup must be implemented for FRUs that have power control" GROUP cefcMIBModuleGroup DESCRIPTION "The cefcMIBModuleGroup must be implemented for FRUs that are of module type." GROUP cefcMIBInLinePowerControlGroup DESCRIPTION "The cefcMIBInLinePowerControlGroup must be implemented for FRUs that have inline power control" GROUP cefcMIBNotificationEnablesGroup DESCRIPTION "The cefcMIBNotificationEnablesGroup must be implemented for FRUs that have notification" GROUP cefcModuleGroupRev1 DESCRIPTION "The cefcModuleGroupRev1 is not mandatory for agents with FRUs that are of module type." ::= { cefcMIBCompliances 3 } cefcMIBPowerCompliance4 MODULE-COMPLIANCE STATUS deprecated -- superceded by cefcMIBPowerCompliance5 DESCRIPTION "An Entity-MIB implementation can implement this group to provide FRU power status and control." MODULE -- this module MANDATORY-GROUPS { cefcMIBPowerModeGroup, cefcMgmtNotificationsGroup } GROUP cefcMIBPowerFRUControlGroup DESCRIPTION "The cefcMIBPowerFRUControlGroup must be implemented for FRUs that have power control" GROUP cefcMIBModuleGroup DESCRIPTION "The cefcMIBModuleGroup must be implemented for FRUs that are of module type." GROUP cefcMIBInLinePowerControlGroup DESCRIPTION "The cefcMIBInLinePowerControlGroup must be implemented for FRUs that have inline power control" GROUP cefcMIBNotificationEnablesGroup DESCRIPTION "The cefcMIBNotificationEnablesGroup must be implemented for FRUs that have notification" GROUP cefcModuleGroupRev1 DESCRIPTION "The cefcModuleGroupRev1 is not mandatory for agents with FRUs that are of module type." GROUP cefcMIBPowerFRUValueGroup DESCRIPTION "The cefcMIBPowerFRUValueGroup must be implemented for power supply FRUs that have variable output" OBJECT cefcFRUTotalSystemCurrent MIN-ACCESS read-only DESCRIPTION "Write access is not required." OBJECT cefcFRUDrawnSystemCurrent MIN-ACCESS read-only DESCRIPTION "Write access is not required." OBJECT cefcFRUTotalInlineCurrent MIN-ACCESS read-only DESCRIPTION "Write access is not required." OBJECT cefcFRUDrawnInlineCurrent MIN-ACCESS read-only DESCRIPTION "Write access is not required." ::= { cefcMIBCompliances 4 } cefcMIBPowerCompliance5 MODULE-COMPLIANCE STATUS deprecated DESCRIPTION "An Entity-MIB implementation can implement this group to provide FRU power status and control." MODULE -- this module MANDATORY-GROUPS { cefcMIBPowerModeGroup, cefcMgmtNotificationsGroup, cefcMgmtNotificationsGroup2 } GROUP cefcMIBPowerFRUControlGroup DESCRIPTION "The cefcMIBPowerFRUControlGroup must be implemented for FRUs that have power control" GROUP cefcMIBModuleGroup DESCRIPTION "The cefcMIBModuleGroup must be implemented for FRUs that are of module type." GROUP cefcMIBInLinePowerControlGroup DESCRIPTION "The cefcMIBInLinePowerControlGroup must be implemented for FRUs that have inline power control" GROUP cefcMIBNotificationEnablesGroup DESCRIPTION "The cefcMIBNotificationEnablesGroup must be implemented for FRUs that have notification" GROUP cefcModuleGroupRev1 DESCRIPTION "The cefcModuleGroupRev1 is not mandatory for agents with FRUs that are of module type." GROUP cefcMIBPowerFRUValueGroup DESCRIPTION "The cefcMIBPowerFRUValueGroup must be implemented for power supply FRUs that have variable output" GROUP cefcMIBFanTrayStatusGroup DESCRIPTION "The cefcMIBFanTrayStatusGroup must be implemented in all systems which can detect the status of Fan Tray FRUs. " GROUP cefcMIBPhysicalGroup DESCRIPTION "The collection of objects which show information of the Physical Entity. " OBJECT cefcFRUTotalSystemCurrent MIN-ACCESS read-only DESCRIPTION "Write access is not required." OBJECT cefcFRUDrawnSystemCurrent MIN-ACCESS read-only DESCRIPTION "Write access is not required." OBJECT cefcFRUTotalInlineCurrent MIN-ACCESS read-only DESCRIPTION "Write access is not required." OBJECT cefcFRUDrawnInlineCurrent MIN-ACCESS read-only DESCRIPTION "Write access is not required." ::= { cefcMIBCompliances 5 } cefcMIBPowerCompliance6 MODULE-COMPLIANCE STATUS current DESCRIPTION "An Entity-MIB implementation can implement this group to provide FRU power status and control." MODULE -- this module MANDATORY-GROUPS { cefcMIBPowerModeGroup, cefcMgmtNotificationsGroup } GROUP cefcMIBPowerFRUControlGroup DESCRIPTION "The cefcMIBPowerFRUControlGroup must be implemented for FRUs that have power control" GROUP cefcMIBModuleGroup DESCRIPTION "The cefcMIBModuleGroup must be implemented for FRUs that are of module type." GROUP cefcMIBInLinePowerControlGroupRev1 DESCRIPTION "The cefcMIBInLinePowerControlGroup must be implemented for FRUs that have inline power control" GROUP cefcMIBNotificationEnablesGroup DESCRIPTION "The cefcMIBNotificationEnablesGroup must be implemented for FRUs that have notification" GROUP cefcModuleGroupRev1 DESCRIPTION "The cefcModuleGroupRev1 is not mandatory for agents with FRUs that are of module type." GROUP cefcMIBPowerFRUValueGroup DESCRIPTION "The cefcMIBPowerFRUValueGroup must be implemented for power supply FRUs that have variable output" GROUP cefcMIBFanTrayStatusGroup DESCRIPTION "The cefcMIBFanTrayStatusGroup must be implemented in all systems which can detect the status of Fan Tray FRUs. " GROUP cefcMIBPhysicalGroup DESCRIPTION "The collection of objects which show information of the Physical Entity. " GROUP cefcMgmtNotificationsGroup2 DESCRIPTION " The implementation of this group of notifications is optional." OBJECT cefcFRUTotalSystemCurrent MIN-ACCESS read-only DESCRIPTION "Write access is not required." OBJECT cefcFRUDrawnSystemCurrent MIN-ACCESS read-only DESCRIPTION "Write access is not required." OBJECT cefcFRUTotalInlineCurrent MIN-ACCESS read-only DESCRIPTION "Write access is not required." OBJECT cefcFRUDrawnInlineCurrent MIN-ACCESS read-only DESCRIPTION "Write access is not required." GROUP cefcMIBPowerOperModeGroup DESCRIPTION "The cefcMIBPowerOperModeGroup must be implemented for the device which supports power supply operational modes." GROUP cefcModuleExtGroup DESCRIPTION "Implementation of cefcModuleExtGroup is optional." GROUP cefcIntelliModuleGroup DESCRIPTION "Implementation of cefcModuleAddrGroup is optional." OBJECT cefcIntelliModuleIPAddrType SYNTAX INTEGER { ipv4(1) } DESCRIPTION "An implementation is only required to support IPv4 addresses." ::= { cefcMIBCompliances 6 } -- -- units of conformance -- cefcMIBPowerModeGroup OBJECT-GROUP OBJECTS { cefcPowerRedundancyMode, cefcPowerUnits, cefcTotalAvailableCurrent, cefcTotalDrawnCurrent } STATUS current DESCRIPTION "The collection of objects which are used to configure and monitor power-control for FRUs. " ::= { cefcMIBGroups 1 } cefcMIBPowerFRUControlGroup OBJECT-GROUP OBJECTS { cefcFRUPowerAdminStatus, cefcFRUPowerOperStatus, cefcFRUCurrent } STATUS current DESCRIPTION "The collection of objects which are used to configure and monitor power-control for FRUs. " ::= { cefcMIBGroups 2 } cefcMIBModuleGroup OBJECT-GROUP OBJECTS { cefcModuleAdminStatus, cefcModuleOperStatus, cefcModuleResetReason, cefcModuleStatusLastChangeTime } STATUS current DESCRIPTION "The collection of objects which are used to get the operational state and redundancy state of the modules " ::= { cefcMIBGroups 3 } cefcMIBInLinePowerControlGroup OBJECT-GROUP OBJECTS { cefcMaxDefaultInLinePower } STATUS deprecated DESCRIPTION "The collection of objects which are used to configure and monitor inline power control for FRUs. " ::= { cefcMIBGroups 4 } cefcMIBNotificationEnablesGroup OBJECT-GROUP OBJECTS { cefcMIBEnableStatusNotification } STATUS current DESCRIPTION "The collection of objects which are used to enable notification. " ::= { cefcMIBGroups 5 } cefcMgmtNotificationsGroup NOTIFICATION-GROUP NOTIFICATIONS { cefcModuleStatusChange, cefcPowerStatusChange, cefcFRUInserted, cefcFRURemoved } STATUS current DESCRIPTION "The notifications which a FRU Management entity is required to implement." ::= { cefcMIBGroups 6 } cefcModuleGroupRev1 OBJECT-GROUP OBJECTS { cefcModuleLastClearConfigTime, cefcModuleResetReasonDescription } STATUS current DESCRIPTION "The collection of objects which are used to get the operational state and redundancy state of the modules " ::= { cefcMIBGroups 7 } cefcMIBPowerFRUValueGroup OBJECT-GROUP OBJECTS { cefcFRUTotalSystemCurrent, cefcFRUDrawnSystemCurrent, cefcFRUTotalInlineCurrent, cefcFRUDrawnInlineCurrent } STATUS current DESCRIPTION "The collection of objects which are used to retrieve the total and used capacity of a power supply for both system and inline power. " ::= { cefcMIBGroups 8 } cefcMIBFanTrayStatusGroup OBJECT-GROUP OBJECTS { cefcFanTrayOperStatus } STATUS current DESCRIPTION "The collection of objects which show information of the status of Fan Tray FRUs. " ::= { cefcMIBGroups 9 } cefcMIBPhysicalGroup OBJECT-GROUP OBJECTS { cefcPhysicalStatus } STATUS current DESCRIPTION "The collection of objects which show information of the Physical Entity. " ::= { cefcMIBGroups 10 } cefcMgmtNotificationsGroup2 NOTIFICATION-GROUP NOTIFICATIONS { cefcUnrecognizedFRU, cefcFanTrayStatusChange } STATUS current DESCRIPTION "The additional notifications for FRU status." ::= { cefcMIBGroups 11 } cefcMIBPowerOperModeGroup OBJECT-GROUP OBJECTS { cefcPowerRedundancyOperMode } STATUS current DESCRIPTION "The collection of objects which are used to monitor the device's power supply operational redundancy mode." ::= { cefcMIBGroups 12 } cefcMIBInLinePowerControlGroupRev1 OBJECT-GROUP OBJECTS { cefcMaxDefaultHighInLinePower } STATUS current DESCRIPTION "The collection of objects which are used to configure and monitor inline power control for FRUs." ::= { cefcMIBGroups 13 } cefcModuleExtGroup OBJECT-GROUP OBJECTS { cefcModuleStateChangeReasonDescr, cefcModuleUpTime } STATUS current DESCRIPTION "The collection of objects which are used to get the state change reason and up time of the modules. " ::= { cefcMIBGroups 14 } cefcIntelliModuleGroup OBJECT-GROUP OBJECTS { cefcIntelliModuleIPAddrType, cefcIntelliModuleIPAddr } STATUS current DESCRIPTION "The collection of objects which are used to get the information specific to intelligent modules." ::= { cefcMIBGroups 15 } END