1. Dell R710 Drive Slot Sensor For Storage Drive Fault Was Asserted
  2. Drive Slot Sensor For Storage Drive Fault Was Asserted Dell
Sensor

17 SATA 3.0 connector 18 M.2 storage drive slot 19 M.2 Wi-Fi card slot 20 Thermal sensor connector 21 Illuminated red dot connector22 Front USB 2.0 23 Front USB 2.0 connector 24 Serial connector (optional) 25 Thunderbolt connector 26 PCI Express card slot (physical link width x16; negotiable link width x4, x1) 27 PCI Express x1 card slot28 x16. 05:43:55 Disk or disk bay 2 (Drive Slot (Bay) - Drive 2): Deassertion: In Critical Array. By what I notice, the drive 2 failed, then drive in slot 3 start to rebuild in order to get into the array, and after completing rebuild., drive 2 went online again, maybe because the lack of stress allow it to, how ever, drive 2 was the one.

  • Storage device. 2.5-inch form factor, 7-mm (0.28-inch) height hard disk drive. M.2 solid-state drive. Intel® Optane™ memory. To know the storage drive capacity: 1. Right-click the Start button to open the Start context menu. Click Disk Management. Note: The storage drive capacity indicated by the system is less than the nominal.
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Section: Configuration (5)
Updated: 2020-09-03
IndexReturn to Main Contents

NAME

freeipmi_interpret_sel.conf - specify system event log (SEL) interpretation rules

DESCRIPTION

The/etc/freeipmi//freeipmi_interpret_sel.confdefines how IPMI system event log entries should beinterpreted. IPMI system events specify a number ofstates/thresholds when they are read. Based on thosestates/thresholds, libraries and tools such aslibipmimonitoring(3)andipmi-sel(8)can report if an event is 'good' or 'bad' via a report of a NOMINAL,WARNING, or CRITICAL state. A different state can be reported for anevent depending on if it is asserted or deasserted.

Each of the states listed below are (hopefully) descriptive enoughto describe the state conditions that may be set/unset for eachsensor or event type. For more detailed information on each of theindividual states listed below, please see the IPMI Specification'Sensor and Event Code Tables'.Ipmi-sensors(8)can be used to determine the sensor types and the states/thresholdsthat exist on a system by outputting very verbose output and seeingwhat types of Assertion or Deassertion events are possible.

Each of the events below may may take 1 or 2 of the following statesas input.

Nominal - Signal Nominal reading if event tripped

Drive Slot Sensor For Storage Drive Presence Was Asserted

Warning - Signal Warning reading if event tripped

Critical - Signal Critical reading if event tripped

If only one state is listed, that state will be interpreted when theevent is asserted or deasserted. If two states are listed, the firststate will be interpreted when an event is asserted, and the laterwill be interpreted when an event is deasserted.

Not all IPMI sensor types and event types are currently supported. Ifyou would like more to be supported, please e-mail the FreeIPMImailing list.

The default values selected for individual events beingtripped are based on best guesses and motherboards being analyzed.If you think they should be changed, please e-mail the FreeIPMImailing list to discuss what the defaults should be.

Most default interpretations can be determined quite easily and canmeet the needs of most users. For example, a reading of'Performance_Met' is normally better than 'Performance_Lags'.However, some sensors can be ambiguous and depend completely on themanufacturer. For example, 'State_Asserted' vs. 'State_Deasserted'are completely at the interpretation of the vendor. Users are advisedto adjust the interpretations below as needed for their machines.

FORMAT

The configuration options that can be specified in the configurationfile are listed below. Each configuration option must be listed on aseparate line. Arguments for an option are separated by any amount ofwhitespace. Multiple arguments are also separated by whitespace.Comments can be marked by using the pound sign ('#') character, andlines can be continued on the next using backslash (').

OPTIONS

IPMI_System_Boot_Initiated_Initiated_By_Power_UpDefaults to Nominal.IPMI_System_Boot_Initiated_Initiated_By_Hard_ResetDefaults to Nominal.IPMI_System_Boot_Initiated_Initiated_By_Warm_ResetDefaults to Nominal.IPMI_System_Boot_Initiated_User_Requested_PXE_BootDefaults to Nominal.IPMI_System_Boot_Initiated_Automatic_Boot_To_DiagnosticDefaults to Nominal.IPMI_System_Boot_Initiated_OS_Run_Time_Software_Initiated_Hard_ResetDefaults to Warning.IPMI_System_Boot_Initiated_OS_Run_Time_Software_Initiated_Warm_ResetDefaults to Warning.IPMI_System_Boot_Initiated_System_RestartDefaults to Nominal.
IPMI_Boot_Error
The following states correspond to Boot Error sensor events w/Boot Error specific output events.
IPMI_Boot_Error_No_Bootable_Media
Defaults to Critical.
IPMI_Boot_Error_Non_Bootable_Diskette_Left_In_Drive
Defaults to Critical.
IPMI_Boot_Error_PXE_Server_Not_Found
Defaults to Critical.
IPMI_Boot_Error_Invalid_Boot_Sector
Defaults to Critical.
IPMI_Boot_Error_Timeout_Waiting_For_User_Selection_Of_Boot_Source
Defaults to Warning.
IPMI_Boot_Error_State
The following states correspond to Boot Error sensor events thatreport an assertion or deassertion.
IPMI_Boot_Error_State_Deasserted
Defaults to Nominal.
IPMI_Boot_Error_State_Asserted
Defaults to Critical.
IPMI_Boot_Error_Transition_Severity
The following states correspond to Boot Error sensor events thatreport on device severity.
IPMI_Boot_Error_Transition_Severity_Transition_To_OK
Defaults to Nominal.
IPMI_Boot_Error_Transition_Severity_Transition_To_Non_Critical_From_OK
Defaults to Warning.
IPMI_Boot_Error_Transition_Severity_Transition_To_Critical_From_Less_Severe
Defaults to Critical.
IPMI_Boot_Error_Transition_Severity_Transition_To_Non_Recoverable_From_Less_Severe
Defaults to Critical.
IPMI_Boot_Error_Transition_Severity_Transition_To_Non_Critical_From_More_Severe
Defaults to Warning.
IPMI_Boot_Error_Transition_Severity_Transition_To_Critical_From_Non_Recoverable
Defaults to Critical.
IPMI_Boot_Error_Transition_Severity_Transition_To_Non_Recoverable
Defaults to Critical.
IPMI_Boot_Error_Transition_Severity_Monitor
Defaults to Warning.
IPMI_Boot_Error_Transition_Severity_Informational
Defaults to Nominal.
IPMI_OS_Boot
The following states correspond to OS Boot sensor events w/OS Boot specific output events.
IPMI_OS_Critical_Stop_Critical_Stop_During_OS_LoadDefaults to Critical.IPMI_OS_Critical_Stop_Run_Time_Critical_StopDefaults to Critical.IPMI_OS_Critical_Stop_OS_Graceful_StopDefaults to Warning.IPMI_OS_Critical_Stop_OS_Graceful_ShutdownDefaults to Warning.IPMI_OS_Critical_Stop_Soft_Shutdown_Initiated_By_PEFDefaults to Warning.IPMI_OS_Critical_Stop_Agent_Not_RespondingDefaults to Critical.
IPMI_OS_Critical_Stop_State
The following states correspond to OS Critical Stop sensor events thatreport an assertion or deassertion.
IPMI_OS_Critical_Stop_State_Deasserted
Defaults to Nominal.
IPMI_OS_Critical_Stop_State_Asserted
Defaults to Critical.
IPMI_Slot_Connector
The following states correspond to Slot Connector sensor events w/Slot Connector specific output events.
IPMI_Slot_Connector_Fault_Status_Asserted
Defaults to Critical.
IPMI_Slot_Connector_Identify_Status_Asserted
Defaults to Warning.
IPMI_Slot_Connector_Slot_Connector_Device_Installed_Attached
Defaults to Nominal.
IPMI_Slot_Connector_Slot_Connector_Ready_For_Device_Installation
Defaults to Nominal.
IPMI_Slot_Connector_Slot_Connector_Ready_For_Device_Removal
Defaults to Nominal.
IPMI_Slot_Connector_Slot_Power_Is_Off
Defaults to Nominal.
IPMI_Slot_Connector_Slot_Connector_Device_Removal_Request
Defaults to Warning.
IPMI_Slot_Connector_Interlock_Asserted
Defaults to Warning.
IPMI_Slot_Connector_Slot_Is_Disabled
Defaults to Warning.
IPMI_Slot_Connector_Slot_Holds_Spare_Device
Defaults to Nominal.
IPMI_Slot_Connector_Transition_Severity
The following states correspond to Slot Connector sensor events thatreport on device severity.
IPMI_Slot_Connector_Transition_Severity_Transition_To_OK
Defaults to Nominal.
IPMI_Slot_Connector_Transition_Severity_Transition_To_Non_Critical_From_OK
Defaults to Warning.
IPMI_Slot_Connector_Transition_Severity_Transition_To_Critical_From_Less_Severe
Defaults to Critical.
IPMI_Slot_Connector_Transition_Severity_Transition_To_Non_Recoverable_From_Less_Severe
Defaults to Critical.
IPMI_Slot_Connector_Transition_Severity_Transition_To_Non_Critical_From_More_Severe
Defaults to Warning.
IPMI_Slot_Connector_Transition_Severity_Transition_To_Critical_From_Non_Recoverable
Defaults to Critical.
IPMI_Slot_Connector_Transition_Severity_Transition_To_Non_Recoverable
Defaults to Critical.
IPMI_Slot_Connector_Transition_Severity_Monitor
Defaults to Warning.
IPMI_Slot_Connector_Transition_Severity_Informational
Defaults to Nominal.
IPMI_System_ACPI_Power_State
IPMI_System_ACPI_Power_State_S0_G0
Defaults to Nominal.
IPMI_System_ACPI_Power_State_S1
Defaults to Nominal.
IPMI_System_ACPI_Power_State_S2
Defaults to Nominal.
IPMI_System_ACPI_Power_State_S3
Defaults to Nominal.
IPMI_System_ACPI_Power_State_S4
Defaults to Nominal.
IPMI_System_ACPI_Power_State_S5_G2
Defaults to Nominal.
IPMI_System_ACPI_Power_State_S4_S5_Soft_Off
Defaults to Nominal.
IPMI_System_ACPI_Power_State_G3_Mechanical_Off
Defaults to Nominal.
IPMI_System_ACPI_Power_State_Sleeping_in_an_S1_S2_or_S3_States
Defaults to Nominal.
IPMI_System_ACPI_Power_State_G1_Sleeping
Defaults to Nominal.
IPMI_System_ACPI_Power_State_S5_Entered_By_Override
Defaults to Nominal.
IPMI_System_ACPI_Power_State_Legacy_ON_State
Defaults to Nominal.
IPMI_System_ACPI_Power_State_Legacy_OFF_State
Defaults to Nominal.
IPMI_System_ACPI_Power_State_Unspecified
Defaults to Critical.
IPMI_System_ACPI_Power_State_Unknown
Defaults to Critical.
IPMI_Watchdog2
The following states correspond to Watchdog 2 sensor events w/Watchdog 2 specific output events.
IPMI_Watchdog2_Timer_Expired
Defaults to Warning.
IPMI_Watchdog2_Hard_Reset
Defaults to Critical.
IPMI_Watchdog2_Power_Down
Defaults to Critical.
IPMI_Watchdog2_Power_Cycle
Defaults to Critical.
IPMI_Watchdog2_Reserved1
Defaults to Nominal.
IPMI_Watchdog2_Reserved2
Defaults to Nominal.
IPMI_Watchdog2_Reserved3
Defaults to Nominal.
IPMI_Watchdog2_Reserved4
Defaults to Nominal.
IPMI_Watchdog2_Timer_Interrupt
Defaults to Warning.
IPMI_Platform_Alert
The following states correspond to Platform Alert sensor events w/Platform Alert specific output events.
IPMI_LAN_HeartbeatDefaults to Nominal.IPMI_LAN_Heartbeat_LostDefaults to Warning.
IPMI_Management_Subsystem_Health
The following states correspond to Management Subsystem Health sensor events w/Management Subsystem Health specific output events.
IPMI_Management_Subsystem_Health_Sensor_Access_Degraded_Or_Unavailable
Defaults to Critical.
IPMI_Management_Subsystem_Health_Controller_Access_Degraded_Or_Unavailable
Defaults to Critical.
IPMI_Management_Subsystem_Health_Management_Controller_Off_Line
Defaults to Critical.
IPMI_Management_Subsystem_Health_Management_Controller_Unavailable
Defaults to Critical.
IPMI_Management_Subsystem_Health_Sensor_Failure
Defaults to Critical.
IPMI_Management_Subsystem_Health_FRU_Failure
Defaults to Critical.
IPMI_Battery
The following states correspond to Battery sensor events w/Battery specific output events.
IPMI_Battery_Battery_Low
Defaults to Warning.
IPMI_Battery_Battery_Failed
Defaults to Critical.
IPMI_Battery_Battery_Presence_Detected
Defaults to Nominal.
IPMI_Session_Audit
The following states correspond to Session Audit sensor events w/Session Audit specific output events.
IPMI_Session_Audit_Session_Activated
Defaults to Nominal.
IPMI_Session_Audit_Session_Deactivated
Defaults to Nominal.
IIPMI_Session_Audit_Invalid_Username_Or_Password
Defaults to Warning.
IPMI_Session_Audit_Invalid_Password_Disable
Defaults to Critical.
IPMI_Version_Change_Transition_Severity
The following states correspond to Version Change sensor events thatVersion Change specific output events.
IPMI_Version_Change_Hardware_Change_Detected_With_Associated_Entity
Defaults to Warning.
IPMI_Version_Change_Firmware_Or_Software_Change_Detected_With_Associated_Entity
Defaults to Warning.
IPMI_Version_Change_Hardware_Incompatability_Detected_With_Associated_Entity
Defaults to Critical.
IPMI_Version_Change_Firmware_Or_Software_Incompatability_Detected_With_Associated_Entity
Defaults to Critical.
IPMI_Version_Change_Entity_Is_Of_An_Invalid_Or_Unsupported_Hardware_Version
Defaults to Critical.
IPMI_Version_Change_Entity_Contains_An_Invalid_Or_Unsupported_Firmware_Or_Software_Version
Defaults to Critical.
IPMI_Version_Change_Hardware_Change_Detected_With_Associated_Entity_Was_Successful
Defaults to Nominal.
IPMI_Version_Change_Software_Or_FW_Change_Detected_With_Associated_Entity_Was_Successful
Defaults to Nominal.
IPMI_FRU_State
The following states correspond to FRU State sensor events w/FRU State specific output events.
IPMI_FRU_State_FRU_Not_Installed
Defaults to Critical.
IPMI_FRU_State_FRU_Inactive
Defaults to Critical.
IPMI_FRU_State_FRU_Activation_Requested
Defaults to Warning.
IPMI_FRU_State_FRU_Activation_In_Progress
Defaults to Warning.
IPMI_FRU_State_FRU_Active
Defaults to Nominal.
IPMI_FRU_State_FRU_Deactivation_Requested
Defaults to Warning.
IPMI_FRU_State_FRU_Deactivation_In_Progress
Defaults to Warning.
IPMI_FRU_State_FRU_Communication_Lost
Defaults to Critical.
IPMI_OEM
The following configuration options can be used to configure OEMsystem event log events. Interpretations rules for a specificcombination of Manufacturer-ID, Product-ID, andRecord-Type, are iterated through and the worst resulting sensorstate is returned (i.e. Warning < Nominal, Critical < Warning). If nomatch is found, no state is returned for the OEM event.For each of the configuration options below, <Manufacturer-ID>is the numeric IANA manufacturer ID for the manufacturer in question.The <Product-ID> is one or more numeric IDs representing themanufacturer's product. The <Product-ID> can be listed as asingle numeric number (e.g. 1234), a range of IDs separated by a dash(e.g. 12-20), or a list of specific product IDs separted by a plus(e.g. 12+19+22). Both the Manufacturer-ID andProduct-ID can be found usingbmc-info(8).Multiple <Manufacturer-ID> and <Product-ID> pairs can beinput separated by commas.
IPMI_OEM_Sensor_System_Event_Record<Manufacturer-ID>:<Product-ID>,... Event-Reading-Type-CodeSensor-TypeEvent-DirectionEventData1EventData2EventData3State
IPMI_OEM_System_Event_Record can be used to configure a stateinterpretation for a specific Manufacturer-ID,Product-ID, Event-Reading-Type-Code, andSensor-Type combination, and a specific Event-Direction,EventData1, EventData2, and EventData3. TheEvent-Direction field must specify Assertion,Deassertion, or ANY. Each of the EventData fieldsmust specify a hex byte to match or the keyword ANY to matchanything. The Event-Reading-Type-Code and Sensor-Typeneed not be OEM types. They may be non-OEM types and used to provideinterpretation rules for sensors that may be behaving outside thestandard of the IPMI specification.
IPMI_OEM_Timestamped_Record<Manufacturer-ID>:<Product-ID>,... Record-TypeOEMDATA1OEMDATA2OEMDATA3OEMDATA4OEMDATA5OEMDATA6State
IPMI_OEM_Timestamped_Record can be used to configure aninterpretation for a specific Manufacturer-ID, Product-ID,Record-Type, and OEM data combination. The Record-Typemust be a legal record type for OEM Timestamped Records (currently0xC0-0xDF). Each of the OEMDATA fields must specify a hex byteto match or the keyword ANY to match anything.
IPMI_OEM_Non_Timestamped_Record<Manufacturer-ID>:<Product-ID>,... Record-TypeOEMDATA1OEMDATA2OEMDATA3OEMDATA4OEMDATA5OEMDATA6OEMDATA7OEMDATA8OEMDATA9OEMDATA10OEMDATA11OEMDATA12OEMDATA13State
IPMI_OEM_Non_Timestamped_Record can be used to configure aninterpretation for a specific Manufacturer-ID, Product-ID,Record-Type, and OEM data combination. The Record-Typemust be a legal record type for OEM Non-Timestamped Records (currently0xEO-0xFF). Each of the OEMDATA fields must specify a hex byteto match or the keyword ANY to match anything.

FILES

/etc/freeipmi//freeipmi_interpret_sel.conf

REPORTING BUGS

Report bugs to <freeipmi-users@gnu.org> or <freeipmi-devel@gnu.org>.

COPYRIGHT

Copyright (C) 2007-2015 Lawrence Livermore National Security, LLC.

This library is free software; you can redistribute it and/or modifyit under the terms of the GNU General Public License as published bythe Free Software Foundation; either version 3 of the License, or (atyour option) any later version.

SEE ALSO

libfreeipmi(3), libipmimonitoring(3), ipmi-sel(8)

Index

NAME
DESCRIPTION
FORMAT
OPTIONS
FILES
REPORTING BUGS
COPYRIGHT
SEE ALSO
DriveThis document was created byman2html,using the manual pages.

Dell R710 Drive Slot Sensor For Storage Drive Fault Was Asserted

Time: 17:11:55 GMT, September 04, 2020

Drive Slot Sensor For Storage Drive Fault Was Asserted Dell

  • Oracle® Exadata X8-2 Database Server Service Manual
  • Document Information
  • Using This Documentation
  • About the Oracle Exadata X8-2 Database Server
  • Installation Procedure
    • Installation Procedure Overview
  • Troubleshooting and Diagnostics
  • Preparing for Service
  • Servicing Storage Drives
  • Servicing Fan Modules
  • Servicing Power Supplies
  • Servicing the DIMMs
  • Servicing PCIe Risers
  • Servicing PCIe Cards
  • Servicing the Battery
  • Servicing Processors
  • Servicing the Disk Backplane
  • Servicing the Front LED Indicator Module
  • Servicing the Temperature Sensor
  • Servicing the Internal HBA Card and HBA Super Capacitor
  • Servicing the Internal HBA Cables
  • Servicing Other Cables
  • Servicing the Motherboard Assembly
  • Returning the Server to Operation
  • Identifying the Server Ports
  • Setting Up BIOS Configuration Parameters
  • BIOS Setup Utility Menu Options
  • Monitoring Components and Identifying SNMP Messages
  • Index