XUPS-MIB DEFINITIONS ::= BEGIN IMPORTS TimeTicks, Gauge32, Counter32, Integer32 FROM SNMPv2-SMI DisplayString FROM SNMPv2-TC MODULE-IDENTITY, OBJECT-TYPE, NOTIFICATION-TYPE FROM SNMPv2-SMI MODULE-COMPLIANCE, OBJECT-GROUP, NOTIFICATION-GROUP FROM SNMPv2-CONF eaton, xupsEnvironment FROM EATON-OIDS -- Need to import these EMP objects to support PowerMIB-style traps for EMP xupsContactIndex, xupsContactType, xupsContactState, xupsContactDescr, xupsEnvRemoteTemp, xupsEnvRemoteTempLowerLimit, xupsEnvRemoteTempUpperLimit, xupsEnvRemoteHumidity, xupsEnvRemoteHumidityLowerLimit, xupsEnvRemoteHumidityUpperLimit FROM EATON-EMP-MIB; xupsMIB MODULE-IDENTITY LAST-UPDATED "200705030000Z" ORGANIZATION "Eaton Corporation" CONTACT-INFO "Eaton Power Quality Technical Support (PQTS) group www.eaton.com/powerxpert Technical Resource Center phone numbers United States: 1.800.843.9433 or 919.870.3028 Canada: 1.800.461.9166 ext. 260 All other countries: Call your local service representative." DESCRIPTION "Defines Eaton's proprietary PowerMIB for UPS and related device data. Copyright (C) Exide Electronics 1992-98 Copyright (C) Powerware Corporation 1999-2004 Copyright (C) Eaton Corporation (2005-)." REVISION "200705030000Z" DESCRIPTION "Added new value of pxg(5) to xupsSendTrapType for Power Xpert Gateway implementations." REVISION "200703130000Z" DESCRIPTION "Initial SNMPv2-SMI-compliant Version of PowerMIB. Incorporates all revisions of the original xups MIB file through Version 3.13 21-May-04." ::= { eaton 1 } -- xupsMIB { iso org(3) dod(6) internet(1) private(4) -- enterprises(1) eaton(534) xupsMIB(1) } xupsIdent OBJECT IDENTIFIER ::= { xupsMIB 1 } xupsBattery OBJECT IDENTIFIER ::= { xupsMIB 2 } xupsInput OBJECT IDENTIFIER ::= { xupsMIB 3 } xupsOutput OBJECT IDENTIFIER ::= { xupsMIB 4 } xupsBypass OBJECT IDENTIFIER ::= { xupsMIB 5 } -- xupsEnvironment OBJECT IDENTIFIER ::= { xupsMIB 6 } - defined in EATON-OIDS xupsAlarm OBJECT IDENTIFIER ::= { xupsMIB 7 } xupsTest OBJECT IDENTIFIER ::= { xupsMIB 8 } xupsControl OBJECT IDENTIFIER ::= { xupsMIB 9 } xupsConfig OBJECT IDENTIFIER ::= { xupsMIB 10 } xupsTrapControl OBJECT IDENTIFIER ::= { xupsMIB 11 } xupsRecep OBJECT IDENTIFIER ::= { xupsMIB 12 } xupsTopology OBJECT IDENTIFIER ::= { xupsMIB 13 } -- -- xupsIdent group: -- xupsIdentManufacturer OBJECT-TYPE SYNTAX DisplayString (SIZE (0..31)) MAX-ACCESS read-only STATUS current DESCRIPTION "The UPS Manufacturer Name (e.g. Eaton Corporation)." ::= { xupsIdent 1} xupsIdentModel OBJECT-TYPE SYNTAX DisplayString (SIZE (0..63)) MAX-ACCESS read-only STATUS current DESCRIPTION "The UPS Model (e.g. Powerware Plus Model 18)." ::= {xupsIdent 2} xupsIdentSoftwareVersion OBJECT-TYPE SYNTAX DisplayString (SIZE (0..63)) MAX-ACCESS read-only STATUS current DESCRIPTION "The firmware revision level(s) of the UPS microcontroller(s)." ::= {xupsIdent 3} xupsIdentOemCode OBJECT-TYPE SYNTAX Integer32 (0..255) MAX-ACCESS read-only STATUS current DESCRIPTION "A binary code indicating who the UPS was manufactured or labeled for. 0 or 255 indicates Eaton itself." ::= {xupsIdent 4} -- -- xupsBattery group: -- xupsBatTimeRemaining OBJECT-TYPE SYNTAX Integer32 (0..2147483647) UNITS "seconds" MAX-ACCESS read-only STATUS current DESCRIPTION "Battery run time in seconds before UPS turns off due to low battery." ::= { xupsBattery 1} xupsBatVoltage OBJECT-TYPE SYNTAX Integer32 (0..2147483647) UNITS "Volts DC" MAX-ACCESS read-only STATUS current DESCRIPTION "Battery voltage as reported by the UPS meters." ::= {xupsBattery 2} xupsBatCurrent OBJECT-TYPE SYNTAX Integer32 (-2147483648..2147483647) UNITS "Amps DC" MAX-ACCESS read-only STATUS current DESCRIPTION "Battery Current as reported by the UPS metering. Current is positive when discharging, negative when recharging the battery." ::= {xupsBattery 3} xupsBatCapacity OBJECT-TYPE SYNTAX Integer32 (0..100) UNITS "percent" MAX-ACCESS read-only STATUS current DESCRIPTION "Battery percent charge." ::= { xupsBattery 4} xupsBatteryAbmStatus OBJECT-TYPE SYNTAX INTEGER { batteryCharging(1), batteryDischarging(2), batteryFloating(3), batteryResting(4), unknown(5) } MAX-ACCESS read-only STATUS current DESCRIPTION "Gives the status of the Advanced Battery Management; batteryFloating(3) status means that the charger is temporarily charging the battery to its float voltage; batteryResting(4) is the state when the battery is fully charged and none of the other actions (charging/discharging/floating) is being done." ::= { xupsBattery 5} xupsBatteryLastReplacedDate OBJECT-TYPE SYNTAX DisplayString (SIZE (0..16)) MAX-ACCESS read-write STATUS current DESCRIPTION "The date when the Batteries in this UPS were last replaced. Should be the same as xupsConfigInstallDate initially. Free text format, so the preferred local date format may be used (MM/DD/YYYY, DD-Mon-YYYY, etc)." ::= { xupsBattery 6} -- -- xupsInput group: -- xupsInputFrequency OBJECT-TYPE SYNTAX Integer32 (0..2147483647) UNITS "0.1 Hertz" MAX-ACCESS read-only STATUS current DESCRIPTION "The utility line frequency in tenths of Hz." ::= {xupsInput 1} xupsInputLineBads OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of times the Input was out of tolerance in voltage or frequency." ::= {xupsInput 2} xupsInputNumPhases OBJECT-TYPE SYNTAX Integer32 (0..6) MAX-ACCESS read-only STATUS current DESCRIPTION "The number of input phases (normally 1 to 3)." ::= {xupsInput 3} xupsInputTable OBJECT-TYPE SYNTAX SEQUENCE OF XupsInputEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of input table entries. The number of entries is given by the value of xupsInputNumPhases." ::= {xupsInput 4} xupsInputEntry OBJECT-TYPE SYNTAX XupsInputEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The input table entry containing the current, voltage, etc. readings for one phase." INDEX { xupsInputPhase } ::= { xupsInputTable 1 } XupsInputEntry ::= SEQUENCE { xupsInputPhase Integer32, xupsInputVoltage Integer32, xupsInputCurrent Integer32, xupsInputWatts Integer32 } xupsInputPhase OBJECT-TYPE SYNTAX Integer32 (0..6) MAX-ACCESS read-only STATUS current DESCRIPTION "The number of the phase. Serves as index for input table." ::= {xupsInputEntry 1} xupsInputVoltage OBJECT-TYPE SYNTAX Integer32 (0..2147483647) UNITS "RMS Volts" MAX-ACCESS read-only STATUS current DESCRIPTION "The measured input voltage from the UPS meters in volts." ::= {xupsInputEntry 2} xupsInputCurrent OBJECT-TYPE SYNTAX Integer32 (0..2147483647) UNITS "RMS Amps" MAX-ACCESS read-only STATUS current DESCRIPTION "The measured input current from the UPS meters in amps." ::= {xupsInputEntry 3} xupsInputWatts OBJECT-TYPE SYNTAX Integer32 (0..2147483647) UNITS "Watts" MAX-ACCESS read-only STATUS current DESCRIPTION "The measured input real power in watts." ::= {xupsInputEntry 4} xupsInputSource OBJECT-TYPE SYNTAX INTEGER { other(1), none(2), -- For example, Utility failure primaryUtility(3), -- Normal utility feed to the UPS bypassFeed(4), -- Bypass utility, separate from primaryUtility secondaryUtility(5), -- Secondary utility feed (on a dual AC input UPS) generator(6), -- Power provided by a generator flywheel(7), -- Power provided by a flywheel (not necessarily AC) fuelcell(8) -- Power provided by fuel cell(s) (not necessarily AC) } MAX-ACCESS read-only STATUS current DESCRIPTION "The present external source of input power. The enumeration none(2) indicates that there is no external source of power, for example, the UPS is On Battery (an internal source). The bypassFeed(4) can only be used when the Bypass source is known to be a separate utility feed than the primaryUtility(3)." ::= { xupsInput 5 } xupsDualInputStatus OBJECT-TYPE SYNTAX INTEGER { bothSourcesBad(1), -- Both primary and secondary power sources are unavailable primarySourceGood(2), -- Only the Normal (utility) feed to the UPS is available secondarySourceGood(3), -- Only the Secondary power feed is available bothSourcesGood(4) -- Both primary and secondary power sources are available } MAX-ACCESS read-only STATUS current -- For dual-feed UPSs DESCRIPTION "The present status of the sources of input power in a dual source UPS. The enumeration primarySourceGood(2) indicates that the primary source of power is present and within 'normal' ranges for voltage and frequency, but the secondary source is either not present or not in an acceptable range. The enumeration bothSourcesGood(4) indicates that both sources are present and within their respective 'normal' ranges; bothSourcesBad(1) indicates that neither source is present, or, if present, is not within acceptable ranges. This object will only be implemented for UPSs with two sources of input power, e.g., redundant AC feeds or a separate Bypass or Generator source. The secondary source will not be an AC power source in all cases." ::= { xupsInput 6 } xupsSecondaryInputWatch OBJECT-TYPE SYNTAX INTEGER { disabled(1), enabled(2) } MAX-ACCESS read-write STATUS current -- For dual-feed UPSs DESCRIPTION "This object enables(2) or disables(1) the alarms and traps related to the availability and use of the secondary input of a dual-input UPS (i.e., OnAlternatePowerSource and AltPowerNotAvailable). To avoid nuisance alarms and traps, this object should be set to disabled(1) when the UPS is not wired to a secondary source of power. This object will only be implemented for UPSs with two sources of input power, i.e., redundant AC feeds or a separate Bypass or Generator source." ::= { xupsInput 7 } -- -- xupsOutput group: -- xupsOutputLoad OBJECT-TYPE SYNTAX Integer32 (0..200) UNITS "percent" MAX-ACCESS read-only STATUS current DESCRIPTION "The UPS output load in percent of rated capacity." ::= {xupsOutput 1} xupsOutputFrequency OBJECT-TYPE SYNTAX Integer32 (0..2147483647) UNITS "0.1 Hertz" MAX-ACCESS read-only STATUS current DESCRIPTION "The measured UPS output frequency in tenths of Hz." ::= {xupsOutput 2} xupsOutputNumPhases OBJECT-TYPE SYNTAX Integer32 (0..6) MAX-ACCESS read-only STATUS current DESCRIPTION "The number of metered output phases." ::= {xupsOutput 3} xupsOutputTable OBJECT-TYPE SYNTAX SEQUENCE OF XupsOutputEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of output table entries. The number of entries is given by the value of xupsOutputNumPhases." ::= {xupsOutput 4} xupsOutputEntry OBJECT-TYPE SYNTAX XupsOutputEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Output Table Entry containing voltage, current, etc." INDEX { xupsOutputPhase } ::= {xupsOutputTable 1} XupsOutputEntry ::= SEQUENCE { xupsOutputPhase Integer32, xupsOutputVoltage Integer32, xupsOutputCurrent Integer32, xupsOutputWatts Integer32 } xupsOutputPhase OBJECT-TYPE SYNTAX Integer32 (0..6) MAX-ACCESS read-only STATUS current DESCRIPTION "The number {1..3} of the output phase." ::= {xupsOutputEntry 1} xupsOutputVoltage OBJECT-TYPE SYNTAX Integer32 (0..2147483647) UNITS "RMS Volts" MAX-ACCESS read-only STATUS current DESCRIPTION "The measured output voltage from the UPS metering in volts." ::= {xupsOutputEntry 2} xupsOutputCurrent OBJECT-TYPE SYNTAX Integer32 (0..2147483647) UNITS "RMS Amps" MAX-ACCESS read-only STATUS current DESCRIPTION "The measured UPS output current in amps." ::= {xupsOutputEntry 3} xupsOutputWatts OBJECT-TYPE SYNTAX Integer32 (0..2147483647) UNITS "Watts" MAX-ACCESS read-only STATUS current DESCRIPTION "The measured real output power in watts." ::= {xupsOutputEntry 4} xupsOutputSource OBJECT-TYPE SYNTAX INTEGER { other(1), none(2), normal(3), -- normal, single UPS module output bypass(4), battery(5), booster(6), -- Single or Double Boost, line-interactive UPSs only reducer(7), -- Buck, line-interactive UPSs only parallelCapacity(8), -- normal enhanced by Parallel for Capacity operation parallelRedundant(9), -- normal enhanced by Redundant Parallel operation highEfficiencyMode(10), -- normal enhanced by High Efficiency mode maintenanceBypass(11) -- On Maintenance/Manual Bypass mode } MAX-ACCESS read-only STATUS current DESCRIPTION "The present source of output power. The enumeration none(2) indicates that there is no source of output power (and therefore no output power), for example, the system has opened the output breaker." ::= { xupsOutput 5 } -- -- xupsBypass group: -- xupsBypassFrequency OBJECT-TYPE SYNTAX Integer32 (0..2147483647) UNITS "0.1 Hertz" MAX-ACCESS read-only STATUS current DESCRIPTION "The bypass frequency in tenths of Hz." ::= {xupsBypass 1} xupsBypassNumPhases OBJECT-TYPE SYNTAX Integer32 (0..6) MAX-ACCESS read-only STATUS current DESCRIPTION "The number of lines in the UPS bypass table." ::= {xupsBypass 2} xupsBypassTable OBJECT-TYPE SYNTAX SEQUENCE OF XupsBypassEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of bypass table entries. The number of entries is given by the value of xupsBypassNumPhases." ::= {xupsBypass 3} xupsBypassEntry OBJECT-TYPE SYNTAX XupsBypassEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Bypass Table Entry containing voltage for each phase." INDEX { xupsBypassPhase } ::= {xupsBypassTable 1} XupsBypassEntry ::= SEQUENCE { xupsBypassPhase Integer32, xupsBypassVoltage Integer32 } xupsBypassPhase OBJECT-TYPE SYNTAX Integer32 (0..6) MAX-ACCESS read-only STATUS current DESCRIPTION "The Bypass Phase, index for the table." ::= {xupsBypassEntry 1} xupsBypassVoltage OBJECT-TYPE SYNTAX Integer32 (0..2147483647) UNITS "RMS Volts" MAX-ACCESS read-only STATUS current DESCRIPTION "The measured UPS bypass voltage in volts." ::= {xupsBypassEntry 2} -- -- xupsEnvironment group: -- xupsEnvAmbientTemp OBJECT-TYPE SYNTAX Integer32 (-100..200) UNITS "degrees Centigrade" MAX-ACCESS read-only STATUS current DESCRIPTION "The reading of the ambient temperature in the vicinity of the UPS or SNMP agent." ::= { xupsEnvironment 1 } xupsEnvAmbientLowerLimit OBJECT-TYPE SYNTAX Integer32 (-100..200) UNITS "degrees Centigrade" MAX-ACCESS read-write STATUS current DESCRIPTION "The Lower Limit of the ambient temperature; if xupsEnvAmbientTemp falls below this value, the xupsAmbientTempBad alarm will occur." ::= { xupsEnvironment 2 } xupsEnvAmbientUpperLimit OBJECT-TYPE SYNTAX Integer32 (-100..200) UNITS "degrees Centigrade" MAX-ACCESS read-write STATUS current DESCRIPTION "The Upper Limit of the ambient temperature; if xupsEnvAmbientTemp rises above this value, the xupsAmbientTempBad alarm will occur. This value should be greater than xupsEnvAmbientLowerLimit." ::= { xupsEnvironment 3 } xupsEnvAmbientHumidity OBJECT-TYPE SYNTAX Integer32 (0..100) UNITS "percent" MAX-ACCESS read-only STATUS current DESCRIPTION "The reading of the ambient humidity in the vicinity of the UPS or SNMP agent." ::= { xupsEnvironment 4 } -- -- Moved the EMP-based objects, -- from xupsEnvRemoteTemp to xupsEnvRemoteHumidityUpperLimit -- ( { xupsEnvironment 5 to 12 }, including xupsContactSenseTable, -- to separate file Eaton-EMP-MIB.txt -- -- -- xupsAlarm group: -- xupsAlarms OBJECT-TYPE SYNTAX Gauge32 MAX-ACCESS read-only STATUS current DESCRIPTION "The current number of alarm conditions." ::= {xupsAlarm 1} xupsAlarmTable OBJECT-TYPE SYNTAX SEQUENCE OF XupsAlarmEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of alarm table entries. The number of entries is given by the value of xupsAlarms. Note that this table is sparsely (non-consecutively) numbered and will be empty if there are no active alarms." ::= {xupsAlarm 2} xupsAlarmEntry OBJECT-TYPE SYNTAX XupsAlarmEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Alarm Table Entry containing descriptive information for one alarm entry." INDEX { xupsAlarmID } ::= {xupsAlarmTable 1} XupsAlarmEntry ::= SEQUENCE { xupsAlarmID Integer32, xupsAlarmDescr OBJECT IDENTIFIER, xupsAlarmTime TimeTicks } xupsAlarmID OBJECT-TYPE SYNTAX Integer32 (1..2147483647) MAX-ACCESS read-only STATUS current DESCRIPTION "A unique identifier for an alarm condition." ::= {xupsAlarmEntry 1} xupsAlarmDescr OBJECT-TYPE SYNTAX OBJECT IDENTIFIER MAX-ACCESS read-only STATUS current DESCRIPTION "A reference to an alarm description object. The object referenced should not be accessible, but rather be used to provide a unique description of the alarm condition." ::= {xupsAlarmEntry 2} xupsAlarmTime OBJECT-TYPE SYNTAX TimeTicks MAX-ACCESS read-only STATUS current DESCRIPTION "The value of the MIB-II variable sysUpTime when the alarm condition occurred." ::= {xupsAlarmEntry 3} -- -- Well known alarm conditions. -- xupsOnBattery OBJECT IDENTIFIER ::= {xupsAlarm 3} xupsLowBattery OBJECT IDENTIFIER ::= {xupsAlarm 4} xupsUtilityPowerRestored OBJECT IDENTIFIER ::= {xupsAlarm 5} xupsReturnFromLowBattery OBJECT IDENTIFIER ::= {xupsAlarm 6} xupsOutputOverload OBJECT IDENTIFIER ::= {xupsAlarm 7} xupsInternalFailure OBJECT IDENTIFIER ::= {xupsAlarm 8} xupsBatteryDischarged OBJECT IDENTIFIER ::= {xupsAlarm 9} xupsInverterFailure OBJECT IDENTIFIER ::= {xupsAlarm 10} xupsOnBypass OBJECT IDENTIFIER ::= {xupsAlarm 11} xupsBypassNotAvailable OBJECT IDENTIFIER ::= {xupsAlarm 12} xupsOutputOff OBJECT IDENTIFIER ::= {xupsAlarm 13} xupsInputFailure OBJECT IDENTIFIER ::= {xupsAlarm 14} xupsBuildingAlarm OBJECT IDENTIFIER ::= {xupsAlarm 15} xupsShutdownImminent OBJECT IDENTIFIER ::= {xupsAlarm 16} xupsOnInverter OBJECT IDENTIFIER ::= {xupsAlarm 17} xupsAlarmNumEvents OBJECT-TYPE SYNTAX Gauge32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of entries in the UPS event history queue." ::= { xupsAlarm 18 } xupsAlarmEventTable OBJECT-TYPE SYNTAX SEQUENCE OF XupsAlarmEventEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A table of the UPS internal event history queue." ::= { xupsAlarm 19 } xupsAlarmEventEntry OBJECT-TYPE SYNTAX XupsAlarmEventEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "One of the entries in the UPS event history queue." INDEX { xupsAlarmEventID } ::= { xupsAlarmEventTable 1 } -- The first 4 vars in the xAEEntry have been deprecated, since they resulted in -- a flood of difficult to interpret data. They have been replaced by the single -- entry, xupsAlarmEventMsg, which gives a human-readable description of the event. XupsAlarmEventEntry ::= SEQUENCE { xupsAlarmEventID Integer32, xupsAlarmEventDateAndTime DisplayString, xupsAlarmEventKind INTEGER, xupsAlarmEventDescr Integer32, xupsAlarmEventMsg DisplayString } xupsAlarmEventID OBJECT-TYPE SYNTAX Integer32 (1..400) MAX-ACCESS not-accessible STATUS current DESCRIPTION "A unique number that reflects the order in which the event occurred. The oldest event in the queue will be number 1. Subsequent events will be numbered 2, 3, 4, etc." ::= { xupsAlarmEventEntry 1 } xupsAlarmEventDateAndTime OBJECT-TYPE SYNTAX DisplayString (SIZE (0..22)) MAX-ACCESS read-only STATUS deprecated DESCRIPTION "The time and date that an event occurred as recorded in the UPS internal event queue. This string will reflect the time and date as set in the UPS itself and will not be referenced to sysUpTime. The format is MM/DD/YYYY:HH:MM:SS. Time is 24 hour standard." ::= { xupsAlarmEventEntry 2 } xupsAlarmEventKind OBJECT-TYPE SYNTAX INTEGER { occurred (1), cleared (2), unknown (3) } MAX-ACCESS read-only STATUS deprecated DESCRIPTION "Enumerated value that tells whether the event is an occurrence of an alarm condition or a clearing of an alarm condition." ::= { xupsAlarmEventEntry 3 } xupsAlarmEventDescr OBJECT-TYPE SYNTAX Integer32 (0..2147483647) MAX-ACCESS read-only STATUS deprecated DESCRIPTION "A description of the event stored in the UPS event queue. This description will be a sixteen bit integer value representing one of the defined alarms in the Powerware Binary Computer Mode communication specification; for example, a value of 0 represents the 'Inverter AC Over Voltage' alarm (byte 1, bit 0 in the BCM Alarm Map)." ::= { xupsAlarmEventEntry 4 } xupsAlarmEventMsg OBJECT-TYPE SYNTAX DisplayString (SIZE (0..80)) MAX-ACCESS read-only STATUS current DESCRIPTION "A text string describing each entry in the Event Log. The format of this text message is free (not fixed) for the operator to read; good contents would be a time & date stamp, the event type, and a description of the event." ::= { xupsAlarmEventEntry 5 } -- -- More Well known alarm conditions. -- xupsBreakerOpen OBJECT IDENTIFIER ::= {xupsAlarm 20} xupsAlarmEntryAdded OBJECT IDENTIFIER ::= {xupsAlarm 21} xupsAlarmEntryRemoved OBJECT IDENTIFIER ::= {xupsAlarm 22} -- Same as RFC 1628 Well Known Alarms: xupsAlarmBatteryBad OBJECT IDENTIFIER ::= {xupsAlarm 23} xupsOutputOffAsRequested OBJECT IDENTIFIER ::= {xupsAlarm 24} xupsDiagnosticTestFailed OBJECT IDENTIFIER ::= {xupsAlarm 25} xupsCommunicationsLost OBJECT IDENTIFIER ::= {xupsAlarm 26} xupsUpsShutdownPending OBJECT IDENTIFIER ::= {xupsAlarm 27} xupsAlarmTestInProgress OBJECT IDENTIFIER ::= {xupsAlarm 28} -- Alarm for the Ambient Temperature, when outside of lo/hi limits xupsAmbientTempBad OBJECT IDENTIFIER ::= {xupsAlarm 29} -- For Loss of Redundancy in parallel systems xupsLossOfRedundancy OBJECT IDENTIFIER ::= {xupsAlarm 30} -- More Same as RFC 1628 Well Known Alarms: xupsAlarmTempBad OBJECT IDENTIFIER ::= {xupsAlarm 31} xupsAlarmChargerFailed OBJECT IDENTIFIER ::= {xupsAlarm 32} xupsAlarmFanFailure OBJECT IDENTIFIER ::= {xupsAlarm 33} xupsAlarmFuseFailure OBJECT IDENTIFIER ::= {xupsAlarm 34} -- A Relay, Contactor, or Breaker has failed xupsPowerSwitchBad OBJECT IDENTIFIER ::= {xupsAlarm 35} -- One module in a parallel or composite system has failed xupsModuleFailure OBJECT IDENTIFIER ::= {xupsAlarm 36} -- Two Alarms for systems with an Alternate Power Source, such as -- Secondary utility feed (on a dual AC input UPS), generator, -- flywheel, or fuelcell. Enabled by xupsSecondaryInputWatch. xupsOnAlternatePowerSource OBJECT IDENTIFIER ::= {xupsAlarm 37} xupsAltPowerNotAvailable OBJECT IDENTIFIER ::= {xupsAlarm 38} -- Some Notice condition exists which is not covered by the other WKA -- (like an xupsInternalFailure, but at a lower level of urgency) xupsNoticeCondition OBJECT IDENTIFIER ::= {xupsAlarm 39} -- Alarms for the Remote Temperature & Humidity, when outside of lo/hi limits xupsRemoteTempBad OBJECT IDENTIFIER ::= {xupsAlarm 40} xupsRemoteHumidityBad OBJECT IDENTIFIER ::= {xupsAlarm 41} -- Last of the RFC1628 Well Known Alarms: xupsAlarmOutputBad OBJECT IDENTIFIER ::= {xupsAlarm 42} xupsAlarmAwaitingPower OBJECT IDENTIFIER ::= {xupsAlarm 43} -- Alarm for this important UPS mode xupsOnMaintenanceBypass OBJECT IDENTIFIER ::= {xupsAlarm 44} -- -- xupsTest group: -- xupsTestStart OBJECT-TYPE -- formerly called xupsTestBattery SYNTAX INTEGER { testBattery (1), -- formerly called startTest(1) noTestStarted (2), -- no test has been requested since startup testSystem (3), -- start a General Systems Test testSecondarySource (4), -- test if the Secondary power source is good flashLightsTest (5), -- start a test which flashes the UPS lights, and if -- available, sounds the horn to help locate the UPS cancelTest (6) -- try to cancel a test in progress } MAX-ACCESS read-write STATUS current DESCRIPTION "Setting this object initiates the requested Test. If a UPS does not support the requested test, the set operation may succeed but the result will end up as notSupported. When read, this object indicates the last test requested via this object, if any. Currently only the flashLightsTest(5) can be canceled with cancelTest(6)." ::= {xupsTest 1} xupsTestBatteryStatus OBJECT-TYPE SYNTAX INTEGER { unknown (1), passed (2), failed (3), inProgress (4), notSupported (5), inhibited (6), scheduled (7) } MAX-ACCESS read-only STATUS current DESCRIPTION "Reading this enumerated value gives an indication of the (last) UPS Battery test status." ::= {xupsTest 2} xupsLastGeneralTest OBJECT-TYPE SYNTAX INTEGER { noTestStarted (2), -- same values used in xupsTestStart testSystem (3), testSecondarySource (4), flashLightsTest (5) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the last UPS test requested via xupsTestStart or by other non-SNMP means, other than for the testBattery (1) case. The results of the test indicated by this object are reported in xupsLastGeneralTestResult." ::= {xupsTest 3} xupsLastGeneralTestResult OBJECT-TYPE SYNTAX INTEGER { unknown (1), passed (2), failed (3), inProgress (4), notSupported (5), inhibited (6), scheduled (7) } MAX-ACCESS read-only STATUS current DESCRIPTION "Reading this enumerated value gives the result of the test indicated in xupsLastGeneralTest." ::= {xupsTest 4} -- -- xupsControl group: -- xupsControlOutputOffDelay OBJECT-TYPE SYNTAX Integer32 (0..2147483647) UNITS "seconds" MAX-ACCESS read-write STATUS current DESCRIPTION "Setting this value to other than zero will cause the UPS output to turn off after the number of seconds. Setting it to 0 will cause an attempt to abort a pending shutdown." ::= {xupsControl 1} xupsControlOutputOnDelay OBJECT-TYPE SYNTAX Integer32 (0..2147483647) UNITS "seconds" MAX-ACCESS read-write STATUS current DESCRIPTION "Setting this value to other than zero will cause the UPS output to turn on after the number of seconds. Setting it to 0 will cause an attempt to abort a pending startup." ::= {xupsControl 2} xupsControlOutputOffTrapDelay OBJECT-TYPE SYNTAX Integer32 (0..2147483647) UNITS "seconds" MAX-ACCESS read-write STATUS current DESCRIPTION "When xupsControlOutputOffDelay reaches this value, a trap will be sent." ::= {xupsControl 3} xupsControlOutputOnTrapDelay OBJECT-TYPE SYNTAX Integer32 (0..2147483647) UNITS "seconds" MAX-ACCESS read-write STATUS deprecated DESCRIPTION "When xupsControlOutputOnDelay reaches this value, a xupsOutputOff trap will be sent." ::= {xupsControl 4} xupsControlToBypassDelay OBJECT-TYPE SYNTAX Integer32 (0..2147483647) UNITS "seconds" MAX-ACCESS read-write STATUS current DESCRIPTION "Setting this value to other than zero will cause the UPS output to go to Bypass after the number of seconds. If the Bypass is unavailable, this may cause the UPS to not supply power to the load. Setting it to 0 will cause an attempt to abort a pending shutdown." ::= {xupsControl 5} xupsLoadShedSecsWithRestart OBJECT-TYPE SYNTAX Integer32 (0..2147483647) UNITS "seconds" MAX-ACCESS read-write STATUS current DESCRIPTION "Setting this value will cause the UPS output to turn off after the set number of seconds, then restart (after a UPS-defined 'down time') when the utility is again available. Unlike xupsControlOutputOffDelay, which might or might not, this object always maps to the XCP 0x8A Load Dump & Restart command, so the desired shutdown and restart behavior is guaranteed to happen. Once set, this command cannot be aborted. This is the preferred Control object to use when performing an On Battery OS Shutdown." ::= {xupsControl 6} -- -- xupsConfig group: -- xupsConfigOutputVoltage OBJECT-TYPE SYNTAX Integer32 (0..2147483647) UNITS "RMS Volts" MAX-ACCESS read-only STATUS current DESCRIPTION "The nominal UPS Output voltage per phase in volts." ::= {xupsConfig 1} xupsConfigInputVoltage OBJECT-TYPE SYNTAX Integer32 (0..2147483647) UNITS "RMS Volts" MAX-ACCESS read-only STATUS current DESCRIPTION "The nominal UPS Input voltage per phase in volts." ::= {xupsConfig 2} xupsConfigOutputWatts OBJECT-TYPE SYNTAX Integer32 (0..2147483647) UNITS "Watts" MAX-ACCESS read-only STATUS current DESCRIPTION "The nominal UPS available real power output in watts." ::= {xupsConfig 3} xupsConfigOutputFreq OBJECT-TYPE SYNTAX Integer32 (0..2147483647) UNITS "0.1 Hertz" MAX-ACCESS read-only STATUS current DESCRIPTION "The nominal output frequency in tenths of Hz." ::= {xupsConfig 4} xupsConfigDateAndTime OBJECT-TYPE SYNTAX DisplayString (SIZE (0..22)) MAX-ACCESS read-write STATUS current DESCRIPTION "Date and time information for the UPS. Setting this variable will initiate a set UPS date and time to this value. Reading this variable will return the UPS time and date. This value is not referenced to sysUpTime. It is simply the clock value from the UPS real time clock. Format is as follows: MM/DD/YYYY:HH:MM:SS." ::= { xupsConfig 5 } xupsConfigLowOutputVoltageLimit OBJECT-TYPE SYNTAX Integer32 (0..2147483647) UNITS "RMS Volts" MAX-ACCESS read-only STATUS current DESCRIPTION "The Lower limit for acceptable Output Voltage, per the UPS specifications." ::= {xupsConfig 6} xupsConfigHighOutputVoltageLimit OBJECT-TYPE SYNTAX Integer32 (0..2147483647) UNITS "RMS Volts" MAX-ACCESS read-only STATUS current DESCRIPTION "The Upper limit for acceptable Output Voltage, per the UPS specifications." ::= {xupsConfig 7} xupsConfigInstallDate OBJECT-TYPE SYNTAX DisplayString (SIZE (0..16)) MAX-ACCESS read-write STATUS current DESCRIPTION "The date when this UPS was installed. Free text format, so the preferred local date format may be used (MM/DD/YYYY, DD-Mon-YYYY, etc)." ::= {xupsConfig 8} -- -- xupsTrapControl group: -- xupsMaxTrapLevel OBJECT-TYPE SYNTAX INTEGER { none (1), critical (2), major (3), minor (4), allTraps (5) } MAX-ACCESS read-write STATUS current DESCRIPTION "The level of severity of traps which will be sent to the requesting host; individual trap receivers will have individual values for this variable. Values are: (1) none: no traps will be sent to this host; (2) critical: only traps for Critical alarm conditions will be sent to this host; (3) major: Critical and Major traps will be sent; (4) minor: All levels of alarming traps will be sent: Critical, Major, and Minor (This level was added in PowerMIB v3.11) (5) allTraps: all Traps will be sent to this host (Critical, Major, Minor, Informational)." ::= {xupsTrapControl 1} xupsSendTrapType OBJECT-TYPE SYNTAX INTEGER { stnd (1), -- RFC1628 type traps xups (2), -- For PowerMIB traps of type xupsTrapDefined stndPlus (3), -- Deprecated xupsPlus (4), -- Deprecated; for traps of type xupsTrapPortN pxg (5) -- Power Xpert Gateway traps } MAX-ACCESS read-write STATUS current DESCRIPTION "The type of traps which will be sent to the requesting host; individual trap receivers will have individual values for this variable. The additional variables in types (3) and (4) are useful for determining which UPS is the source on multi-port network adapters, and for getting additional descriptive information. Types (1) through (4) are all SNMP version 1 trap PDUs. Values are: (1) stnd: Traps as defined in the Standard UPS MIB (RFC1628) and Generic (MIB II) traps as defined in RFC 1215. (2) xups: xupsTrapDefined Traps as defined in the PowerMIB and Generic (MIB II) traps as defined in RFC 1215. (3 Deprecated) stndPlus: same as stnd plus variables from the interface group and, where appropriate, xupsTrapMessage. (4 Deprecated) xupsPlus: xupsTrapPortN Traps (same as xups plus variables from the interface group) and, for authFail, xupsTrapMessage. (5 pxg: Traps as defined in the Power Xpert Gateway MIB (PXG-MIB)." ::= {xupsTrapControl 2} xupsTrapMessage OBJECT-TYPE SYNTAX DisplayString (SIZE (0..79)) MAX-ACCESS read-only -- actually not-accessible STATUS current DESCRIPTION "A descriptive text message which may be sent with traps to further explain the reason for the trap. This object is not-accessible to MIB browsers, but had to be changed to read-only to satisfy SMIv2 syntax checkers since it is included in traps." ::= {xupsTrapControl 3} -- An Identifier for the PowerMIB traps -- Used below in the section where the traps are defined xupsTrapSource OBJECT IDENTIFIER ::= {xupsTrapControl 4} xupsHeartbeatMinsInterval OBJECT-TYPE SYNTAX Integer32 (0..2147483647) UNITS "Minutes" MAX-ACCESS read-write STATUS current DESCRIPTION "How often to send the xupstdHeartbeat trap, in units of minutes. A setting of 0 disables the Heartbeat function." ::= {xupsTrapControl 5} -- -- xupsRecep group: -- -- (Note that the terms Receptacle, Outlet, and Load Group are used interchangeably -- here and all mean "one of a group of controllable, power-switched outputs") -- xupsNumReceptacles OBJECT-TYPE SYNTAX Integer32 (0..64) MAX-ACCESS read-only STATUS current DESCRIPTION "The number of independently controllable Receptacles, as described in the xupsRecepTable." ::= {xupsRecep 1} xupsRecepTable OBJECT-TYPE SYNTAX SEQUENCE OF XupsRecepEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of receptacle table entries. The number of entries is given by the value of xupsNumReceptacles." ::={xupsRecep 2} xupsRecepEntry OBJECT-TYPE SYNTAX XupsRecepEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A receptacle table entry containing the status and control values for one receptacle." INDEX { xupsRecepIndex } ::= { xupsRecepTable 1 } XupsRecepEntry ::= SEQUENCE { xupsRecepIndex Integer32, xupsRecepStatus INTEGER, xupsRecepOffDelaySecs Integer32, xupsRecepOnDelaySecs Integer32, xupsRecepAutoOffDelay Integer32, xupsRecepAutoOnDelay Integer32, xupsRecepShedSecsWithRestart Integer32 } xupsRecepIndex OBJECT-TYPE SYNTAX Integer32 (1..64) MAX-ACCESS read-only STATUS current DESCRIPTION "The number of the Receptacle. Serves as index for Receptacle table." ::= {xupsRecepEntry 1} xupsRecepStatus OBJECT-TYPE SYNTAX INTEGER { on(1), off(2), pendingOff(3), pendingOn(4), unknown(5), reserved(6), failedClosed(7), failedOpen(8) } MAX-ACCESS read-only STATUS current DESCRIPTION "The Recep Status 1=On/Close, 2=Off/Open, 3=On w/Pending Off, 4=Off w/Pending ON, 5=Unknown, 6=Reserved for future, 7=Failed in Closed position, 8=Failed in Open position." ::={xupsRecepEntry 2} xupsRecepOffDelaySecs OBJECT-TYPE SYNTAX Integer32 (-1..2147483647) UNITS "seconds" MAX-ACCESS read-write STATUS current DESCRIPTION "The Delay until the Receptacle is turned Off. Setting this value to other than -1 will cause the UPS output to turn off after the number of seconds (0 is immediately). Setting it to -1 will cause an attempt to abort a pending shutdown. When this object is set while the UPS is On Battery, it is not necessary to set xupsRecepOnDelaySecs, since the outlet will turn back on automatically when power is available again." ::= {xupsRecepEntry 3} xupsRecepOnDelaySecs OBJECT-TYPE SYNTAX Integer32 (-1..2147483647) UNITS "seconds" MAX-ACCESS read-write STATUS current DESCRIPTION "The Delay until the Receptacle is turned On. Setting this value to other than -1 will cause the UPS output to turn on after the number of seconds (0 is immediately). Setting it to -1 will cause an attempt to abort a pending restart." ::={xupsRecepEntry 4} xupsRecepAutoOffDelay OBJECT-TYPE SYNTAX Integer32 (-1..32767) UNITS "seconds" MAX-ACCESS read-write STATUS current DESCRIPTION "The delay after going On Battery until the Receptacle is automatically turned Off. A value of -1 means that this Output should never be turned Off automatically, but must be turned Off only by command. Values from 0 to 30 are valid, but probably innappropriate. The AutoOffDelay can be used to prioritize loads in the event of a prolonged power outage; less critical loads will turn off earlier to extend battery time for the more critical loads. If the utility power is restored before the AutoOff delay counts down to 0 on an outlet, that outlet will not turn Off." ::= {xupsRecepEntry 5} xupsRecepAutoOnDelay OBJECT-TYPE SYNTAX Integer32 (-1..32767) UNITS "seconds" MAX-ACCESS read-write STATUS current DESCRIPTION "Seconds delay after the Outlet is signaled to turn On before the Output is Automatically turned ON. A value of -1 means that this Output should never be turned On automatically, but only when specifically commanded to do so. A value of 0 means that the Receptacle should come On immediately at power-up or for an On command." ::= {xupsRecepEntry 6} -- xupsRecepAutoOnDelay has three purposes: -- 1. To coordinate the automatic startup of various outlets, when the normal -- auto-sequencing of 1 second per outlet is not adequate. For example, they may -- be used to power up hard disk arrays before CPU units are started. -- 2. To force additional 'Down Time' during xupsRecepOffDelaySecs commands, for -- equipment to be reset, when the standard 'Down Time' is not long enough. -- 3. For the -1 value, to ensure that loads won't be powered until commanded, -- following power-up or a xupsRecepOffDelaySecs command. xupsRecepShedSecsWithRestart OBJECT-TYPE SYNTAX Integer32 (0..2147483647) UNITS "seconds" MAX-ACCESS read-write STATUS current DESCRIPTION "Setting this value will cause the UPS output to turn off after the set number of seconds, then restart (after a UPS-defined 'down time') when the utility is again available. Unlike xupsRecepOffDelaySecs, which might or might not, this object always maps to the XCP 0x8A Load Dump & Restart command, so the desired shutdown and restart behavior is guaranteed to happen. Once set, this command cannot be aborted." ::= {xupsRecepEntry 7} -- -- xupsTopology group: -- xupsTopologyType OBJECT-TYPE SYNTAX Integer32 (0..32767) MAX-ACCESS read-only STATUS current DESCRIPTION "Value which denotes the type of UPS by its power topology. Values are the same as those described in the XCP Topology block's Overall Topology field." ::= {xupsTopology 1} xupsTopoMachineCode OBJECT-TYPE SYNTAX Integer32 (0..32767) MAX-ACCESS read-only STATUS current DESCRIPTION "ID Value which denotes the Powerware model of the UPS for software. Values are the same as those described in the XCP Configuration block's Machine Code field." ::= {xupsTopology 2} xupsTopoUnitNumber OBJECT-TYPE SYNTAX Integer32 (0..64) MAX-ACCESS read-only STATUS current DESCRIPTION "Identifies which unit and what type of data is being reported. A value of 0 means that this MIB information comes from the top-level system view (eg, manifold module or system bypass cabinet reporting total system output). Standalone units also use a value of 0, since they are the 'full system' view. A value of 1 or higher indicates the number of the module in the system which is reporting only its own data in the PowerMIB objects." ::= {xupsTopology 3} xupsTopoPowerStrategy OBJECT-TYPE SYNTAX INTEGER { highAlert(1), standard(2), enableHighEfficiency(3), immediateHighEfficiency(4) } MAX-ACCESS read-write STATUS current DESCRIPTION "Value which denotes which Power Strategy is currently set for the UPS. The values are: highAlert(1) - The UPS shall optimize its operating state to maximize its power-protection levels. This mode will be held for at most 24 hours. standard(2) - Balanced, normal power protection strategy. UPS will not enter HE operating mode from this setting. enableHighEfficiency(3) - The UPS is enabled to enter HE operating mode to optimize its operating state to maximize its efficiency, when conditions change to permit it (as determined by the UPS). forceHighEfficiency(4) - If this value is permitted to be Set for this UPS, and if conditions permit, requires the UPS to enter High Efficiency mode now, without delay (for as long as utility conditions permit). After successfully set to forceHighEfficiency(4), xupsTopoPowerStrategy changes to value enableHighEfficiency(3). xupsOutputSource will indicate if the UPS status is actually operating in High Efficiency mode." ::= {xupsTopology 4} -- ************************************************************************* -- ************************************************************************* -- -- Traps (xupst) -- -- 1) Eaton's traps have been defined in this MIB for three different sources. -- The trap definitions for the three sources are very similar, -- and use the same alarms as their triggers; their names are prefaced -- by xupstb, xupstd, and xupstp to distinguish the three types -- However, the products that the "Basic" and "Port Defined" trap types were -- created for have been obsoleted, so the only trap types in active use -- are the "Defined" (xupstd) traps listed below -- The Obsolete types have been moved to file XUPS_Obsolete.mib -- -- a) OBSOLETE - Basic Agents for which the trap variables have not been -- defined, though trap variables are included with the trap PDU -- xupsNull OBJECT IDENTIFIER ::= { xupsMIB 0 } -- xupsTrapBasic OBJECT IDENTIFIER ::= { xupsNull 0 } -- -- b) Agents with exactly Defined trap variables, which may be -- used as input to trap response macros on management stations -- This trap type is selected by setting xupsSendTrapType to xups(2) xupsTrapDefined OBJECT IDENTIFIER ::= {xupsTrapSource 1} -- Following the recommendations for coexistence between v1 traps -- and v2 notifications, define the snmpTrapOID base with a 0 xupsTrapOidDefined OBJECT IDENTIFIER ::= { xupsTrapDefined 0 } -- -- c) OBSOLETE - Agents with Defined traps including ifIndex and ifDescr, -- which can be used to determine which UPS of a multi-port -- agent (eg, Eaton Network SNMP Adapter) sent the trap -- This trap type was selected by setting xupsSendTrapType to xupsPlus(4) -- xupsTrapPortN OBJECT IDENTIFIER ::= {xupsTrapSource 2} -- -- 2) Trap Severity Level is given as a comment to indicate which -- xupsMaxTrapLevel will result in this trap being sent; -- levels are (in order): Critical, Major, Minor, Informational -- -- **************************************************************************** -- **************************************************************************** -- -- Traps from xupsTrapDefined source (xupstd): -- xupstdControlOff NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage } STATUS current DESCRIPTION "The UPS output power will turn off in a number of seconds equal to upsControlOutputOffTrapDelay." --#SEVERITY CRITICAL ::= { xupsTrapOidDefined 1 } xupstdControlOn NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage } STATUS current DESCRIPTION "The UPS output power will turn on in a number of seconds equal to upsControlOutputOnTrapDelay." --#SEVERITY INFORMATIONAL ::= { xupsTrapOidDefined 2 } xupstdOnBattery NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage } STATUS current DESCRIPTION "The UPS has no AC input power and is running on battery." --#SEVERITY MAJOR ::= { xupsTrapOidDefined 3 } xupstdLowBattery NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage } STATUS current DESCRIPTION "The UPS batteries are low. Tied to low battery alarm condition." --#SEVERITY CRITICAL ::= { xupsTrapOidDefined 4 } xupstdUtilityPowerRestored NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage } STATUS current DESCRIPTION "Input power has been restored after running on battery." --#SEVERITY INFORMATIONAL ::= { xupsTrapOidDefined 5 } xupstdReturnFromLowBattery NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage } STATUS current DESCRIPTION "The battery has recovered from a low battery condition." --#SEVERITY INFORMATIONAL ::= { xupsTrapOidDefined 6 } xupstdOutputOverload NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage } STATUS current DESCRIPTION "The ups has sensed an overload of greater than 106 percent. Tied to the 106% overload alarm." --#SEVERITY MINOR ::= { xupsTrapOidDefined 7 } xupstdInternalFailure NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage } STATUS current DESCRIPTION "Some component of the ups - rectifier, inverter, control panel has failed. Tied to alarms indi- cating failure." --#SEVERITY CRITICAL ::= { xupsTrapOidDefined 8 } xupstdBatteryDischarged NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage } STATUS current DESCRIPTION "The Battery Totally Discharged Alarm has occurred." --#SEVERITY CRITICAL ::= { xupsTrapOidDefined 9 } xupstdInverterFailure NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage } STATUS current DESCRIPTION "The ups inverter is unavailable or malfunctioning due to an internal failure." --#SEVERITY CRITICAL ::= { xupsTrapOidDefined 10 } xupstdOnBypass NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage } STATUS current DESCRIPTION "The ups has gone on bypass for some reason." --#SEVERITY CRITICAL ::= { xupsTrapOidDefined 11 } xupstdBypassNotAvailable NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage } STATUS current DESCRIPTION "The ups bypass is unavailable" --#SEVERITY MAJOR ::= { xupsTrapOidDefined 12 } xupstdOutputOff NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage } STATUS current DESCRIPTION "The ups output is switched off." --#SEVERITY CRITICAL ::= { xupsTrapOidDefined 13 } xupstdInputFailure NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage } STATUS current DESCRIPTION "The ups input power is incorrect in voltage, frequency, or phase rotation." --#SEVERITY MINOR ::= { xupsTrapOidDefined 14 } xupstdBuildingAlarm NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage } STATUS current DESCRIPTION "One of the defined building alarms has occurred." --#SEVERITY MAJOR ::= { xupsTrapOidDefined 15 } xupstdShutdownImminent NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage } STATUS current DESCRIPTION "The ups shutdown imminent alarm has occurred." --#SEVERITY CRITICAL ::= { xupsTrapOidDefined 16 } xupstdOnInverter NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage } STATUS current DESCRIPTION "The ups is returned to utility power running the inverter after either a transfer to bypass or a run on battery." --#SEVERITY INFORMATIONAL ::= { xupsTrapOidDefined 17 } xupstdBreakerOpen NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage } STATUS current DESCRIPTION "One of the UPS breakers or contactors has been opened." --#SEVERITY MAJOR ::= { xupsTrapOidDefined 20 } xupstdAlarmEntryAdded NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage } STATUS current DESCRIPTION "An alarm not defined in the xups Well Known Alarms (eg, an alarm defined in RFC1628) has been added to the Alarm Table." --#SEVERITY MAJOR ::= { xupsTrapOidDefined 21 } xupstdAlarmEntryRemoved NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage } STATUS current DESCRIPTION "An alarm not defined in the xups Well Known Alarms has been removed from the Alarm Table." --#SEVERITY INFORMATIONAL ::= { xupsTrapOidDefined 22 } xupstdAlarmBatteryBad NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage } STATUS current DESCRIPTION "One or more batteries have been determined to require replacement." --#SEVERITY MAJOR ::= { xupsTrapOidDefined 23 } xupstdOutputOffAsRequested NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage } STATUS current DESCRIPTION "The UPS has shutdown as requested, i.e., the output is off." --#SEVERITY INFORMATIONAL ::= { xupsTrapOidDefined 24 } xupstdDiagnosticTestFailed NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage } STATUS current DESCRIPTION "The result of the last diagnostic test indicates a failure." --#SEVERITY MINOR ::= { xupsTrapOidDefined 25 } xupstdCommunicationsLost NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage } STATUS current DESCRIPTION "A problem has been encountered in the communications between the agent and the UPS." --#SEVERITY MAJOR ::= { xupsTrapOidDefined 26 } xupstdUpsShutdownPending NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage } STATUS current DESCRIPTION "An xupsControlOutputOffDelay countdown is underway." --#SEVERITY MAJOR ::= { xupsTrapOidDefined 27 } xupstdAlarmTestInProgress NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage } STATUS current DESCRIPTION "A test is in progress, as initiated and indicated by the xupsTest Group. When the test is complete, one of the following traps will be sent: - xupstdDiagnosticTestFailed if the test fails, - xupstdDiagnosticTestPassed on success, or - xupstdAlarmEntryRemoved in other cases (e.g., Test Canceled)." --#SEVERITY INFORMATIONAL ::= { xupsTrapOidDefined 28 } -- Provide additional information with the AmbientTemp trap xupstdAmbientTempBad NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage, xupsEnvAmbientTemp, xupsEnvAmbientLowerLimit, xupsEnvAmbientUpperLimit } STATUS current DESCRIPTION "The ambient temperature, xupsEnvAmbientTemp, has fallen below the set lower limit, xupsEnvAmbientLowerLimit, or has risen above the set upper limit, xupsEnvAmbientUpperLimit." --#SEVERITY MAJOR ::= { xupsTrapOidDefined 29 } -- Added to support the ConnectUPS Web/SNMP card's ability to monitor contact(s) xupstdContactActiveNotice NOTIFICATION-TYPE OBJECTS { xupsContactIndex, xupsContactType, xupsContactState, xupsContactDescr } STATUS current DESCRIPTION "The Contact indicated by xupsContactIndex is in its Active state. The following are the situations that generate this trap: For xupsContactType: and xupsContactState: normallyOpen(1) and closedWithNotice(4) normallyClosed(2) and openWithNotice(3) anyChange(3) and openWithNotice(3) or closedWithNotice(4)" --#SEVERITY MAJOR ::= { xupsTrapOidDefined 30 } xupstdContactInactiveNotice NOTIFICATION-TYPE OBJECTS { xupsContactIndex, xupsContactType, xupsContactState, xupsContactDescr } STATUS current DESCRIPTION "The Contact indicated by xupsContactIndex has changed to its Inactive state." --#SEVERITY INFORMATIONAL ::= { xupsTrapOidDefined 31 } xupstdLossOfRedundancy NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage } STATUS current DESCRIPTION "A parallel UPS system is no longer operating in N+1 redundant mode; this may be due to module failure or removal, or due to overloading." --#SEVERITY MINOR ::= { xupsTrapOidDefined 32 } xupstdAlarmTempBad NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage } STATUS current DESCRIPTION "An internal temperature is out of tolerance." --#SEVERITY MAJOR ::= { xupsTrapOidDefined 33 } xupstdAlarmChargerFailed NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage } STATUS current DESCRIPTION "An uncorrected problem has been detected within the UPS charger subsystem." --#SEVERITY MAJOR ::= { xupsTrapOidDefined 34 } xupstdAlarmFanFailure NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage } STATUS current DESCRIPTION "The failure of one or more fans in the UPS has been detected." --#SEVERITY MAJOR ::= { xupsTrapOidDefined 35 } xupstdAlarmFuseFailure NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage } STATUS current DESCRIPTION "The failure of one or more fuses has been detected." --#SEVERITY CRITICAL ::= { xupsTrapOidDefined 36 } xupstdPowerSwitchBad NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage } STATUS current DESCRIPTION "A Relay, Contactor, or Breaker has failed." --#SEVERITY CRITICAL ::= { xupsTrapOidDefined 37 } xupstdModuleFailure NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage } STATUS current DESCRIPTION "One module in a parallel or composite system has failed." --#SEVERITY MAJOR ::= { xupsTrapOidDefined 38 } -- xupsInputSource added to this trap's var list xupstdOnAlternatePowerSource NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage, xupsInputSource } STATUS current DESCRIPTION "The system is being powered by its Alternate Power Source, such as a Secondary utility feed (on a dual AC input UPS), generator, flywheel, or fuel cell." --#SEVERITY MINOR ::= { xupsTrapOidDefined 39 } xupstdAltPowerNotAvailable NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage } STATUS current DESCRIPTION "On systems with a separate alternate power source (eg, dual AC inputs), that alternate power source is currently not available. This could be a problem if the primary power source (eg, utility) fails for a period of time longer than that for which the internal batteries can supply power." --#SEVERITY MINOR ::= { xupsTrapOidDefined 40 } xupstdNoticeCondition NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage } STATUS current DESCRIPTION "Some Notice condition exists which is not covered by the other traps. This is like an xupstdInternalFailure, but at a lower severity level." --#SEVERITY MINOR ::= { xupsTrapOidDefined 41 } -- Added to provide additional information with the RemoteTemp and RemoteHumidity xupstdRemoteTempBad NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage, xupsEnvRemoteTemp, xupsEnvRemoteTempLowerLimit, xupsEnvRemoteTempUpperLimit } STATUS current DESCRIPTION "The remote temperature, xupsEnvRemoteTemp, has fallen below the set lower limit, xupsEnvRemoteTempLowerLimit, or has risen above the set upper limit, xupsEnvRemoteTempUpperLimit." --#SEVERITY MAJOR ::= { xupsTrapOidDefined 42 } xupstdRemoteHumidityBad NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage, xupsEnvRemoteHumidity, xupsEnvRemoteHumidityLowerLimit, xupsEnvRemoteHumidityUpperLimit } STATUS current DESCRIPTION "The remote temperature, xupsEnvRemoteHumidity, has fallen below the set lower limit, xupsEnvRemoteHumidityLowerLimit, or has risen above the set upper limit, xupsEnvRemoteHumidityUpperLimit." --#SEVERITY MINOR ::= { xupsTrapOidDefined 43 } xupstdHeartbeat NOTIFICATION-TYPE OBJECTS { xupsInputSource, xupsOutputSource, xupsAlarms } STATUS current DESCRIPTION "A periodic status trap message. It is sent at an interval set by object xupsHeartbeatMinsInterval. The included variables provide a brief statement of the UPS status." --#SEVERITY INFORMATIONAL ::= { xupsTrapOidDefined 44 } xupstdDiagnosticTestPassed NOTIFICATION-TYPE OBJECTS { xupsTestBatteryStatus, xupsLastGeneralTest, xupsLastGeneralTestResult } STATUS current DESCRIPTION "A diagnostic test just completed, and its result is Passed. The included variables provide additional information on the test." --#SEVERITY INFORMATIONAL ::= { xupsTrapOidDefined 45 } xupstdOutputBad NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage } STATUS current DESCRIPTION "The output condition (other than OutputOverload) is out of tolerance." --#SEVERITY CRITICAL ::= { xupsTrapOidDefined 46 } xupstdAwaitingPower NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage } STATUS current DESCRIPTION "The UPS output is off and the UPS is awaiting the return of input power." --#SEVERITY MINOR ::= { xupsTrapOidDefined 47 } xupstdOnMaintenanceBypass NOTIFICATION-TYPE OBJECTS { xupsAlarmID, xupsAlarmDescr, xupsTrapMessage } STATUS current DESCRIPTION "The UPS has been placed on Maintenance / Manual Bypass by an operator." --#SEVERITY MAJOR ::= { xupsTrapOidDefined 48 } xupstdCommEstablished NOTIFICATION-TYPE OBJECTS { xupsIdentModel, xupsOutputSource } STATUS current DESCRIPTION "This trap is sent when the SNMP agent first establishes a communication link with the UPS. The included variables provide identification and UPS status information." --#SEVERITY INFORMATIONAL ::= { xupsTrapOidDefined 49 } xupstdAgentDown NOTIFICATION-TYPE -- OBJECTS { (none) } STATUS current DESCRIPTION "This trap is sent when the SNMP agent is exiting or closing down gracefully. This may be triggered by a signal from the OS to stop this process. In many implementations, it will be followed quickly by a restart of this vital process." --#SEVERITY MINOR ::= { xupsTrapOidDefined 50 } -- -- Conformance-related definitions -- (Defined mostly to satisfy the MIB checkers.) -- xupsConformance OBJECT IDENTIFIER ::= { xupsMIB 100 } xupsIdentFullGroup OBJECT-GROUP OBJECTS { xupsIdentManufacturer, xupsIdentModel, xupsIdentSoftwareVersion, xupsIdentOemCode } STATUS current DESCRIPTION "The Full set of xupsIdent subgroup objects." ::= { xupsConformance 2 } xupsBatteryFullGroup OBJECT-GROUP OBJECTS { xupsBatTimeRemaining, xupsBatVoltage, xupsBatCurrent, xupsBatCapacity, xupsBatteryAbmStatus, xupsBatteryLastReplacedDate } STATUS current DESCRIPTION "The Full set of xupsBattery subgroup objects." ::= { xupsConformance 3 } xupsInputFullGroup OBJECT-GROUP OBJECTS { xupsInputFrequency, xupsInputLineBads, xupsInputNumPhases, xupsInputSource, xupsDualInputStatus, xupsSecondaryInputWatch } STATUS current DESCRIPTION "The Full set of xupsInput subgroup objects." ::= { xupsConformance 4 } xupsInputTableFullGroup OBJECT-GROUP OBJECTS { xupsInputPhase, xupsInputVoltage, xupsInputCurrent, xupsInputWatts } STATUS current DESCRIPTION "The Full set of xupsInputTable subgroup objects." ::= { xupsConformance 5 } xupsOutputFullGroup OBJECT-GROUP OBJECTS { xupsOutputLoad, xupsOutputFrequency, xupsOutputNumPhases, xupsOutputSource } STATUS current DESCRIPTION "The Full set of xupsOutput subgroup objects." ::= { xupsConformance 6 } xupsOutputTableFullGroup OBJECT-GROUP OBJECTS { xupsOutputPhase, xupsOutputVoltage, xupsOutputCurrent, xupsOutputWatts } STATUS current DESCRIPTION "The Full set of xupsOutputTable subgroup objects." ::= { xupsConformance 7 } xupsBypassFullGroup OBJECT-GROUP OBJECTS { xupsBypassFrequency, xupsBypassNumPhases, xupsBypassPhase, xupsBypassVoltage } STATUS current DESCRIPTION "The Full set of xupsBypass subgroup objects." ::= { xupsConformance 8 } xupsEnvironmentFullGroup OBJECT-GROUP OBJECTS { xupsEnvAmbientTemp, xupsEnvAmbientLowerLimit, xupsEnvAmbientUpperLimit, xupsEnvAmbientHumidity } STATUS current DESCRIPTION "The Full set of xupsEnvironment subgroup objects." ::= { xupsConformance 9 } xupsAlarmFullGroup OBJECT-GROUP OBJECTS { xupsAlarms, xupsAlarmID, xupsAlarmDescr, xupsAlarmTime } STATUS current DESCRIPTION "The Full set of xupsAlarm subgroup objects." ::= { xupsConformance 10 } xupsAlarmEventsFullGroup OBJECT-GROUP OBJECTS { xupsAlarmNumEvents, xupsAlarmEventMsg } STATUS current DESCRIPTION "The Full set of Alarm/Event history subgroup objects." ::= { xupsConformance 11 } xupsTestFullGroup OBJECT-GROUP OBJECTS { xupsTestStart, xupsTestBatteryStatus, xupsLastGeneralTest, xupsLastGeneralTestResult } STATUS current DESCRIPTION "The Full set of xupsTest subgroup objects." ::= { xupsConformance 12 } xupsControlFullGroup OBJECT-GROUP OBJECTS { xupsControlOutputOffDelay, xupsControlOutputOnDelay, xupsControlOutputOffTrapDelay, xupsControlToBypassDelay, xupsLoadShedSecsWithRestart } STATUS current DESCRIPTION "The Full set of xupsControl subgroup objects." ::= { xupsConformance 13 } xupsConfigFullGroup OBJECT-GROUP OBJECTS { xupsConfigOutputVoltage, xupsConfigInputVoltage, xupsConfigOutputWatts, xupsConfigOutputFreq, xupsConfigDateAndTime, xupsConfigLowOutputVoltageLimit, xupsConfigHighOutputVoltageLimit, xupsConfigInstallDate } STATUS current DESCRIPTION "The Full set of xupsConfig subgroup objects." ::= { xupsConformance 14 } xupsTrapControlFullGroup OBJECT-GROUP OBJECTS { xupsMaxTrapLevel, xupsSendTrapType, xupsTrapMessage, xupsHeartbeatMinsInterval } STATUS current DESCRIPTION "The Full set of xupsTrapControl subgroup objects." ::= { xupsConformance 15 } xupsRecepFullGroup OBJECT-GROUP OBJECTS { xupsNumReceptacles, xupsRecepIndex, xupsRecepStatus, xupsRecepOffDelaySecs, xupsRecepOnDelaySecs, xupsRecepAutoOffDelay, xupsRecepAutoOnDelay, xupsRecepShedSecsWithRestart } STATUS current DESCRIPTION "The Full set of xupsRecep subgroup objects." ::= { xupsConformance 16 } xupsTopologyFullGroup OBJECT-GROUP OBJECTS { xupsTopologyType, xupsTopoMachineCode, xupsTopoUnitNumber, xupsTopoPowerStrategy } STATUS current DESCRIPTION "The Full set of xupsTopology subgroup objects." ::= { xupsConformance 17 } xupstdNotifyGroup NOTIFICATION-GROUP NOTIFICATIONS { xupstdControlOff, xupstdControlOn, xupstdOnBattery, xupstdLowBattery, xupstdUtilityPowerRestored, xupstdReturnFromLowBattery, xupstdOutputOverload, xupstdInternalFailure, xupstdBatteryDischarged, xupstdInverterFailure, xupstdOnBypass, xupstdBypassNotAvailable, xupstdOutputOff, xupstdInputFailure, xupstdBuildingAlarm, xupstdShutdownImminent, xupstdOnInverter, xupstdBreakerOpen, xupstdAlarmEntryAdded, xupstdAlarmEntryRemoved, xupstdAlarmBatteryBad, xupstdOutputOffAsRequested, xupstdDiagnosticTestFailed, xupstdCommunicationsLost, xupstdUpsShutdownPending, xupstdAlarmTempBad, xupstdAlarmTestInProgress, xupstdAmbientTempBad, xupstdLossOfRedundancy, xupstdAlarmChargerFailed, xupstdAlarmFanFailure, xupstdAlarmFuseFailure, xupstdPowerSwitchBad, xupstdModuleFailure, xupstdOnAlternatePowerSource, xupstdAltPowerNotAvailable, xupstdNoticeCondition, xupstdHeartbeat, xupstdDiagnosticTestPassed, xupstdOutputBad, xupstdAwaitingPower, xupstdOnMaintenanceBypass, xupstdCommEstablished, xupstdAgentDown } STATUS current DESCRIPTION "The Alarm and Event notifications from the xupsTrapDefined source (xupstd)." ::= { xupsConformance 18 } xupstdEMPNotifyGroup NOTIFICATION-GROUP NOTIFICATIONS { xupstdContactActiveNotice, xupstdContactInactiveNotice, xupstdRemoteTempBad, xupstdRemoteHumidityBad } STATUS current DESCRIPTION "The EMP's Alarm and Event notifications from the xupsTrapDefined source (xupstd)." ::= { xupsConformance 19 } xupsMibFullCompliance MODULE-COMPLIANCE STATUS current DESCRIPTION "A compliance statement for all of everything in this MIB." MODULE -- this module MANDATORY-GROUPS { xupsIdentFullGroup, xupsBatteryFullGroup, xupsInputFullGroup, xupsInputTableFullGroup, xupsOutputFullGroup, xupsOutputTableFullGroup, xupsBypassFullGroup, xupsEnvironmentFullGroup, xupsAlarmFullGroup, xupsAlarmEventsFullGroup, xupsTestFullGroup, xupsControlFullGroup, xupsConfigFullGroup, xupsTrapControlFullGroup, xupsRecepFullGroup, xupsTopologyFullGroup, xupstdNotifyGroup, xupstdEMPNotifyGroup } ::= { xupsConformance 20 } xupsDeprecatedGroup OBJECT-GROUP OBJECTS { xupsAlarmEventDateAndTime, xupsAlarmEventKind, xupsAlarmEventDescr, xupsControlOutputOnTrapDelay } STATUS deprecated DESCRIPTION "Contains objects which are now deprecated." ::= { xupsConformance 21 } END