cpqDaMibRevMajor The Major Revision level. A change in the major revision level represents a major change in the architecture of the MIB.  A change in the major revision level may indicate a significant change in the information supported and/or the meaning of the supported information, correct interpretation of data may require a MIB document with the same major revision level.

cpqDaMibRevMinor The Minor Revision level. A change in the minor revision level may represent some minor additional support, no changes to any pre-existing information has occurred.

cpqDaMibCondition The overall condition (status) of the system represented by this MIB.

cpqDaNw3xDriverName Array Controller Driver Interface Name.

This is the name of the device driver for the Array Controllers.

cpqDaNw3xDriverVer Array Controller Driver Interface Version.

This is the version number of the device driver for the Array Controllers.

cpqDaNw3xPollType Array Controller Driver Interface Poll Type.

The Insight Agent collects information from the device driver in two ways:

Polled (2)
  Indicates that the information is periodically requested and
  stored by the server based agent and is available when
  requested.

Demand (3)
  Indicates that the information is collected at the time of
  the request.

cpqDaNw3xPollTime Array Controller Driver Interface Poll Time.

If the Poll Type is Polled, this value shows how frequently, in seconds, the instrument agent requests Information from the device driver.

For example, if the Poll Type is Polled and the Poll Time is two, the instrument agent will poll the device driver every two seconds.

To change the Poll Time for NetWare, unload and then reload the instrument agent using the following commands:

   UNLOAD CPQDSKSA
   LOAD CPQDSKSA [/Un]

The parameter /U specifies the frequency of updates in seconds. The variable n represents the number of seconds that the NLM should wait before collecting new data.  The minimum value is one second.  The maximum value is 300 seconds (five minutes).

cpqDaNw3xDriverStatTable Array Controller Driver Statistics Table.

This is a table of logical drive statistics which are gathered by the device driver.

cpqDaNw3xDriverStatEntry Array Controller Driver Statistics Table Entry.

One entry in the driver statistics table. Each entry represents a logical drive for which the statistics are kept.

cpqDaNw3xCntlrIndex Array Controller Index.

This maps the logical drives into their respective controllers. This controller index matches the controller group entries.

cpqDaNw3xLogDrvIndex Array Logical Drive Index.

This is the logical drive number which keeps track of multiple instances of logical drives which are on the same controller. For each controller index value, the logical drive index starts at 1 and increments for each logical drive.

cpqDaNw3xTotalReads Array Logical Drive Total Reads.

This shows the total number of reads performed by the IDA device driver to this logical drive.  This number is reset each time the device driver is loaded for this logical drive.

cpqDaNw3xTotalWrites Array Logical Drive Total Writes.

This shows the total number of writes performed by the IDA device driver to this logical drive.  This number is reset each time the device driver is loaded for this logical drive.

cpqDaNw3xCorrReads Array Logical Drive Corrected Reads.

This is the total number of read commands sent to the specified logical drive which had to be corrected by fault tolerance.  This number is reset each time the device driver is loaded for this logical drive.

If the number of corrected reads is higher than normal for a particular system, check the physical drive screen for abnormal activity.  There may be a problem with a drive. If you suspect that a problem exists, schedule server down time to run diagnostics on the monitored system.

cpqDaNw3xCorrWrites Array Logical Drive Corrected Writes.

This is the total number of write commands sent to the specified logical drive which had to be corrected by fault tolerance.  This number is reset each time the device driver is loaded for this logical drive.

If the number of corrected writes is higher than normal for a particular system, check the physical drive screen for abnormal activity.  There may be a problem with a drive. If you suspect that a problem exists, schedule server down time to run diagnostics on the monitored system.

cpqDaNw3xFatalReads Array Logical Drive Fatal Reads.

This is the total number of read commands sent to the specified logical drive which failed.  This number is reset each time the device driver is loaded for this logical drive.

The drive array was unable to correct these reads.  Check the drive status to see if any of the drives have failed.  If a drive has failed you will need to replace the drive.

cpqDaNw3xFatalWrites Array Logical Drive Fatal Writes.

This is the total number of write commands sent to the specified logical drive which failed.  This number is reset each time the device driver is loaded for this logical drive.

The drive array was unable to correct these writes.  Check the drive status to see if any of the drives have failed.  If a drive has failed you will need to replace the drive.

cpqDaNw3xVolMapTable Volume Map Table.

This is a table of NetWare volumes which map into the logical drives

cpqDaNw3xVolMapEntry Volume Map Table Entry.

One entry in the volume map table. Each entry represents a logical drive for which the volume map is kept.

cpqDaNw3xVolCntlrIndex Array Controller Index.

This maps the logical drives into their respective controllers. This controller index matches the controller group entries.

cpqDaNw3xVolLogDrvIndex Array Logical Drive Index.

This is the logical drive number which keeps track of multiple instances of logical drives which are on the same controller. For each controller index value, the logical drive index starts at 1 and increments for each logical drive.

cpqDaNw3xVolMap NetWare Volume Map.

This is a data structure containing the volume mappings for this logical drive. There are 8 entries in a volume mapping. Each entry has the following format. An entry can be null indicating no mapping exists.

   BYTE    Name[16]
   BYTE    Segment

cpqDaOsCommonPollFreq The Insight Agent's polling frequency.

The frequency, in seconds, at which the Insight Agent requests information from the device driver.  A frequency of zero (0) indicates that the Insight Agent retrieves the information upon request of a management station, it does not poll the device driver at a specific interval.

If the poll frequency is zero (0) all attempts to write to this object will fail.  If the poll frequency is non-zero, setting this value will change the polling frequency of the Insight Agent.  Setting the poll frequency to zero (0) will always fail, an agent may also choose to fail any request to change the poll frequency to a value that would severely impact system performance.

cpqDaOsCommonModuleTable A table of software modules that provide an interface to the device this MIB describes.

cpqDaOsCommonModuleEntry A description of a software module that provides an interface to the device this MIB describes.

cpqDaOsCommonModuleIndex A unique index for this module description.

cpqDaOsCommonModuleName The module name.

cpqDaOsCommonModuleVersion The module version in XX.YY format.

Where XX is the major version number and YY is the minor version number.  This field will be a null (size 0) string if the agent cannot provide the module version.

cpqDaOsCommonModuleDate The module date.

field  octets  contents                  range =====  ======  =======                  =====
 1      1-2   year                      0..65536
 2       3    month                     1..12
 3       4    day                       1..31
 4       5    hour                      0..23
 5       6    minute                    0..59
 6       7    second                    0..60
              (use 60 for leap-second)

This field will be set to year = 0 if the agent cannot provide the module date.  The hour, minute, and second field will be set to zero (0) if they are not relevant.  The year field is set with the most significant octect first.

cpqDaOsCommonModulePurpose The purpose of the module described in this entry.

cpqDaOsCommonCollectionReset Drive Array MIB Collection Reset.

This variable is used to force the collection agent for this MIB to scan the associated hardware for configuration changes.

The following values are defined:

other(1)
The agent is unable to determine if collection reset is
supported.  Any attempts to write to this variable will be
ignored.

resetSupported(2)
The agent supports collection reset.  A value of doReset(4)
may be written to force a collection reset.

resetNotSupported(3)
The agent does not support collection reset.  Any attempts to
write to this variable will be ignored.

doReset(4)
This is a write only value used to cause a collection reset.
Writing this value is only allowed when a read of this variable
returns resetSupported(2).

cpqDaCntlrTable Array Controller Table.

cpqDaCntlrEntry Array Controller Entry.

cpqDaCntlrIndex Array Controller Index.

This value is a logical number whose meaning is OS dependent. Each physical controller has one unique controller number associated with it.

cpqDaCntlrModel Array Controller Model.

The type of controller card.  The valid types are:

Other  (1)
 You may need to upgrade your driver software and\or instrument
 agent(s).  You have a drive array controller in the system
 that the instrument agent does not recognize.

IDA (2)
 Compaq 32-Bit Intelligent Drive Array Controller.
 The physical drives are located inside the system.

IDA Expansion (3)
 Compaq 32-Bit Intelligent Drive Array Expansion Controller.
 The physical drives are located in the Array Expansion System
 that is connected to the system by a cable.

IDA - 2 (4)
 Compaq Intelligent Drive Array Controller-2 (IDA-2).
 The physical drives are located inside the system.

SMART (5)
 Compaq SMART Array Controller.  The physical drives can be
 located inside the system or outside the system in a ProLiant
 Storage System that is connected to the system by a cable.

SMART - 2/E (6)
 Compaq SMART-2/E Array Controller.  The physical drives can be
 located inside the system or outside the system in a ProLiant
 Storage System that is connected to the system by a cable.

SMART - 2/P (7)
 Compaq SMART-2/P Array Controller.  The physical drives can be
 located inside the system or outside the system in a ProLiant
 Storage System that is connected to the system by a cable.

SMART - 2SL (8)
 Compaq SMART-2SL Array Controller.  The physical drives can be
 located inside the system or outside the system in a ProLiant
 Storage System that is connected to the system by a cable.

Smart - 3100ES (9)
 Compaq Smart Array 3100ES Controller.  The physical drives are
 located inside the system.

Smart - 3200 (10)
 Compaq Smart Array 3200 Controller.  The physical drives can
 be located inside the system or outside the system in a
 ProLiant Storage System that is connected to the system by a
 cable.

SMART - 2DH (11)
 Compaq SMART-2DH Array Controller.  The physical drives can be
 located inside the system or outside the system in a ProLiant
 Storage System that is connected to the system by a cable.

Smart - 221 (12)
 Compaq Smart Array 221 Controller.  The physical drives can be
 located inside the system or outside the system in a ProLiant
 Storage System that is connected to the system by a cable.

Smart Array 4250ES (13)
 Compaq Smart Array 4250ES Controller.  The physical drives are
 located inside the system.

Smart Array 4200 (14)
 Compaq Smart Array 4200 Controller.  The physical drives can
 be located inside the system or outside the system in a
 ProLiant Storage System that is connected to the system by a
 cable.

Integrated Smart Array (15)
 Compaq Integrated Smart Array Controller.  The physical drives
 can be located inside the system or outside the system in a
 ProLiant Storage System that is connected to the system by a
 cable.

Smart Array 431 (16)
 Compaq Smart Array 431 Controller.  The physical drives can be
 located inside the system or outside the system in a ProLiant
 Storage System that is connected to the system by a cable.

Smart Array 5300 (17)
 HP Smart Array 5300 Controller.

RAID LC2 Controller (18)
 Compaq RAID LC2 Controller.

Smart Array 5i (19)
 HP Smart Array 5i Controller.

Smart Array 532 (20)
 Compaq Smart Array 532 Controller.

Smart Array 5312 (21)
 Compaq Smart Array 5312 Controller.

Smart Array 641 (22)
 HP Smart Array 641 Controller.

Smart Array 642 (23)
 HP Smart Array 642 Controller.

Smart Array 6400 (24)
 HP Smart Array 6400 Controller.

Smart Array 6400 EM (25)
 HP Smart Array 6400 EM Controller.

Smart Array 6i (26)
 HP Smart Array 6i Controller.

cpqDaCntlrFWRev Array Controller Firmware Revision.

The firmware revision of the drive array controller. This value can be used to help identify a particular revision of the controller.

cpqDaCntlrStndIntr The status of the Standard Interface.

The Standard Interface is how DOS communicates with a drive. The following values are valid for Standard Interface:

Other (1)
 The device driver may not be loaded for this controller.
 The instrument agent could not read the information from the
 device.  Please load the device driver.

Primary (2)
 The Standard Interface is using the primary address for
 communication.  DOS can access this drive and use this drive
 as the primary boot device if it has been configured for this
 purpose.

Secondary (3)
 The Standard Interface is using the secondary address for
 communication.  DOS can access these drives, but cannot boot
 from them.

Disabled (4)
 The Standard Interface is not enabled for communication.
 DOS will not be able to access these drives.

Unavailable (5)
 This controller does not support a Standard Interface.
 DOS cannot access these drives.

cpqDaCntlrSlot Array Controller Slot.

This identifies the physical slot where the array controller resides in the system.  For example, if this value is three, the array controller is located in slot three of your computer.

cpqDaCntlrCondition The condition of the device.  This value represents the overall condition of this controller, and any associated logical drives, physical drives, and array accelerators.

cpqDaCntlrProductRev Array Controller Product Revision.

The Product Revision of the drive array controller.  This value can be used to further identify a particular revision of the controller model.  This will be one character ASCII value that is zero terminated.  If the controller model or the firmware does not support the product revision, the agents will return a NULL string.

cpqDaCntlrPartnerSlot Array Controller Partner Slot.

For duplexed array controllers, this is the slot number of the partner controller.  For non-duplexed controllers, the value should be -1.

cpqDaCntlrCurrentRole Array Controller Current Role.

For duplexed array controllers, this is the controllers current role.  The following values are valid:

other (1)
 Indicates that the instrument agent does not recognize the
 role of the controller.  You may need to upgrade the instrument
 agent.

notDuplexed (2)
 This array controller is not duplexed.

active (3)
 This duplexed array controller is the active controller.

backup (4)
 This duplexed array controller is the backup controller.

cpqDaCntlrBoardStatus Array Controller Board Status.

The following values are valid:

other (1)
 Indicates that the instrument agent does not recognize the
 status of the controller.  You may need to upgrade the instrument
 agent.

ok (2)
 The array controller is operating properly.

generalFailure (3)
 The array controller is failed.

cableProblem (4)
 The array controller has a cable problem.  Please check
 all cable connections to this controller.

poweredOff (5)
 The array controller is powered off.  Please replace the
 controller and restore power to the slot.

cpqDaCntlrPartnerBoardStatus Array Controller Partner Board Status.

The following values are valid:

other (1)
 Indicates that the instrument agent does not recognize the
 status of the controller.  You may need to upgrade the instrument
 agent.

ok (2)
 The partner array controller is operating properly.

generalFailure (3)
 The partner array controller is the failed.

cableProblem (4)
 The partner array controller has a cable problem.  Please check
 all cable connections to this controller.

poweredOff (5)
 The array controller is powered off.  Please replace the
 controller and restore power to the slot.

cpqDaCntlrBoardCondition The condition of the device.  This value represents the condition of the controller and any associated array accelerators.

cpqDaCntlrPartnerBoardCondition The condition of the device.  This value represents the condition of the controller and any associated array accelerators.

cpqDaCntlrDriveOwnership Array Controller Drive Ownership.

For duplexed controllers, indicates to which controller slot the shared devices are associated.

The following values are valid:

other (1)
 Indicates that the instrument agent does not recognize the
 status of the controller.  You may need to upgrade the instrument
 agent.

owner (2)
 All the logical, physical and spare drives are associated
 with this controller.

notOwner (3)
 The logical, physical and spare drives are not associated
 with this controller.

cpqDaCntlrSerialNumber Array Controller Serial Number.

The serial number of the array controller.  This field will be a null (size 0) string if the controller does not support serial number.

cpqDaCntlrRedundancyType Array Controller Redundancy Type.

The following values are valid:

other (1)
 Indicates that the instrument agent does not recognize the
 redundancy type of the controller.  You may need to upgrade
 the instrument agent.

notRedundant (2)
 The array controller is not in a redundant configuration.

driverDuplexing (3)
 The array controller is using a controller duplexing algorithm
 implemented exclusively in the operating system driver.

fwActiveStandby (4)
 The array controller is using an active/standby algorithm
 implemented in the controller firmware and the operating system
 driver.

fwPrimarySecondary (5)
 The array controller is using a primary/secondary algorithm
 implemented in the controller firmware and the operating system
 driver.

cpqDaCntlrRedundancyError Array Controller Redundancy Error.

The following values are valid:

other (1)
 Indicates that the instrument agent does not recognize the
 redundancy error of the controller.  You may need to upgrade
 the instrument agent.

noFailure (2)
 No failures have been detected.

noRedundantController (3)
 No redundant controller is installed.

differentHardware (4)
 The other controller indicates a different hardware model.

noLink (5)
 An inter-controller link to the other controller could not be
 established.

differentFirmware (6)
 The other controller indicates a different firmware version.

differentCache (7)
 The other controller indicates a different cache size.

otherCacheFailure (8)
 The other controller indicates a cache failure.

noDrives (9)
 This controller cannot see any attached drives, but the other
 controller can.

otherNoDrives (10)
 This controller can see the attached drives, but the other
 controller cannot.

unsupportedDrives (11)
 One or more attached drives has been determined to be incapable
 of properly supporting redundant controller operation.

expandInProgress (12)
 Expand operation in progress.  Redundant operation not
 supported until expand operation is complete.

cpqDaCntlrAccessModuleStatus Array Controller RAID ADG Enabler Module Status.

The following values are valid:

other (1)
 Indicates that the agent does not recognize the RAID ADG
 Enabler Module status.  You may need to upgrade the agent.

notSupported (2)
 Indicates that the RAID ADG Enabler Module is not supported on
 this type of controller.

notPresent (3)
 Indicates that the RAID ADG Enabler Module is not present or
 is not accessible.

badSignature (4)
 Indicates that the RAID ADG Enabler Module is present, but has
 an incorrect signature.

badChecksum (5)
 Indicates that the RAID ADG Enabler Module is present, but the
 checksum failed.

fullyFunctional (6)
 Indicates that the RAID ADG Enabler Module is present and
 fully functional.

upgradeFirmware (7)
 Indicates that the RAID ADG Enabler Module is present, but a
 firmware upgrade is required to make it fully functional.

cpqDaCntlrDaughterBoardType Array Controller Daughter Board Type.

The following values are valid:

other (1)
 Indicates that the agent does not recognize the daughter
 board type.  You may need to upgrade the agent.

notSupported (2)
 Indicates that the daughter board type field is not supported
 on this type of controller.

notPresent (3)
 Indicates that no daughter board is present.

scsiBoardPresent (4)
 Indicates that the SCSI daughter board is present.

fibreBoardPresent (5)
 Indicates that the Fibre daughter board is present.

cpqDaCntlrHwLocation A text description of the hardware location of the controller. A NULL string indicates that the hardware location could not be determined or is irrelevant.

cpqDaCntlrNumberOfBuses Array Controller Number of Buses.

This value is the number of buses on the controller.

cpqDaCntlrBlinkTime Controller Physical Drive Blink Time Count.

The controller blink time variable allows the drive tray LEDs of all physical drives attached to this controller to blink. This value indicates the amount of time, in tenths of a second, that the physical drive LEDs will continue to blink.  A value of zero indicates the drive LEDs are not blinking.  If the value cannot be determined or no drive on this controller is in a hot plug tray, 4,294,967,295 is returned.

To blink the drive LEDs on all physical drives attached to this controller, set this value to the time to blink in tenths of seconds.

To stop the drive LEDs from blinking, set this value to 0.

cpqDaCntlrRebuildPriority Array Controller Rebuild Priority.

This is the controller's rebuild priority.  The following values are valid:

other (1)
 Indicates that the instrument agent does not recognize the
 rebuild priority the controller.  You may need to upgrade the
 instrument agent.

low (2)
 The rebuild priority is low.

medium (3)
 The rebuild priority is medium.

high (4)
 The rebuild priority is high.

cpqDaCntlrExpandPriority Array Controller Expand Priority.

This is the controller's expand priority.  The following values are valid:

other (1)
 Indicates that the instrument agent does not recognize the
 expand priority the controller.  You may need to upgrade the
 instrument agent.

low (2)
 The expand priority is low.

medium (3)
 The expand priority is medium.

high (4)
 The expand priority is high.

cpqDaAccelTable Array Accelerator Board Table.

cpqDaAccelEntry Array Accelerator Board Entry.

cpqDaAccelCntlrIndex Array Accelerator Board Controller Index.

This value is a logical number whose meaning is OS dependent. The value has a direct mapping to the controller table index such that controller 'i' has accelerator table entry 'i'.

cpqDaAccelStatus Array Accelerator Board Status.

This describes the status of the accelerator write cache.

The status can be:

Other (1)
 Indicates that the instrument agent does not recognize the
 status of the Array Accelerator.  You may need to upgrade
 the instrument agent.

Invalid (2)
 Indicates that an Array Accelerator board has not been
 installed in this system or is present but not configured.

Enabled (3)
 Indicates that write cache operations are currently configured
 and enabled for at least one logical drive.

Temporarily Disabled (4)
 Indicates that write cache operations have been temporarily
 disabled. View the Array Accelerator Board Error Code object
 to determine why the write cache operations have been
 temporarily disabled.

Permanently Disabled (5)
 Indicates that write cache operations have been permanently
 disabled.  View the Array Accelerator Board Error Code object
 to determine why the write cache operations have been disabled.

cpqDaAccelMemory Write Cache Memory.

This shows the amount of memory allocated for the write cache in kilobytes.  Because data is kept in duplicate (mirrored), the actual amount of usable memory is half the amount shown.

cpqDaAccelBadData Array Accelerator Board Bad Data.

The following values are valid:

None (2)
 Indicates that no data loss occurred.  The battery packs were
 properly charged when the system was initialized.

Possible (3)
 Indicates that at power up, the battery packs were not
 sufficiently charged.  Because the batteries did not retain
 sufficient charge when the system resumed power, the board
 has not retained any data that may have been stored.
 If no data was on the board, no data was lost.  Several things
 may have caused this condition:

 * If the system was without power for eight days, and the
   battery packs were on (battery packs only activate if
   system looses power unexpectedly), any data that may have
   been stored in the cache was lost.

 * There may be a problem with the battery pack.
   See the Battery Status for more information.

 * This status will also appear if the Array Accelerator
   board is replaced with a new board that has discharged
   batteries.  No data has been lost in this case, and posted
   writes will automatically be enabled when the batteries
   reach full charge.

cpqDaAccelErrCode Array Accelerator Board Error Code.

Use this to determine the status of the write cache operations.

The status can be:

Other (1)
 Indicates that the instrument agent does not recognize the
 error code.  You may need to update your software.

Invalid (2)
 Indicates that write cache operations are currently
 configured and enabled for at least one logical drive.
 No write cache errors have occurred.

Bad Configuration (3)
 Indicates that write cache operations are temporarily
 disabled.  The Array Accelerator board was configured
 for a different controller.  This error could be caused
 if boards were switched from one system to another.
 Rerun the configuration utility and ensure that the board
 has been properly configured for this system.
 Note: If data from another system was stored on the board,
 running configuration utility will cause the data to be lost.

Low Battery Power (4)
 Indicates that write cache operations are temporarily
 disabled due to insufficient battery power.  Please view
 the Battery Status object instance for more information.

Disable Command Issued (5)
 Indicates that write cache operations are temporarily
 disabled.  The device driver issues this command when
 the server is taken down.  This condition should not
 exist when the system regains power.

No Resources Available (6)
 Indicates that write cache operations are temporarily
 disabled.  The controller does not have sufficient
 resources to perform write cache operations.
 For example, when a replaced drive is being rebuilt,
 there will not be sufficient resources.  Once the
 operation that requires the resources has completed,
 this condition will clear and write cache operations
 will resume.

Board Not Connected (7)
 Indicates that write cache operations are temporarily
 disabled.  The Array Accelerator board has been
 configured but is not currently attached to the
 controller. Check the alignment of the board and
 connections.

Bad Mirror Data (8)
 Indicates that write cache operations have been
 permanently disabled.  The Array Accelerator board stores
 mirrored copies of all data.  If data exists on the
 board when the system is first powered up, the board
 performs a data compare test between the mirrored copies.
 If the data does not match, an error has occurred.
 Data may have been lost.  Your board may need servicing.

Read Failure (9)
 Indicates that write cache operations have been permanently
 disabled.  The Array Accelerator board stores mirror copies
 of all data.  While reading the data from the board, memory
 parity errors have occurred.  Both copies were corrupted and
 cannot be retrieved.  Data has been lost, and you should
 service the board.

Write Failure (10)
 Indicates that write cache operations have been permanently
 disabled.  This error occurs when an unsuccessful attempt was
 made to write data to the Array Accelerator board.  Data could
 not be written to write cache memory in duplicate due to the
 detection of parity errors.  This error does not indicate data
 loss.  You should service the Array Accelerator board.

Config Command (11)
 Indicates that write cache operations have been permanently
 disabled.  The configuration of the logical drives has changed.
 You need to reconfigure the Array Accelerator board.

Expand in Progress (12)
 Indicates that cache operations are temporarily disabled
 due to an expand of a logical drive.  When the expand
 operation completes, the accelerator will be enabled.

Snapshot In Progress (13)
 Indicates that cache operations are temporarily disabled
 due to a snapshot operation that is queued up or in progress.
 When the snapshot operation completes, the accelerator will
 be enabled.

Redundant Low Battery (14)
 Indicates that cache operations are temporarily disabled.
 The redundant controller has insufficient cache battery power.

Redundant Size Mismatch (15)
 Indicates that cache operations are temporarily disabled.
 The cache sizes on the redundant controllers do not match.

Redundant Cache Failure (16)
 Indicates that cache operations are temporarily disabled.
 The cache on the redundant controller has failed.

Excessive ECC Errors (17)
 Indicates that write cache operations have been permanently
 disabled.  The number of cache lines experiencing excessive
 ECC errors has reached a preset limit.

RAID ADG Enabler Module Missing (18)
 Indicates that write cache operations have been temperarily
 disabled.  A RAID ADG logical drive is configured but the
 RAID ADG Enabler Module is broken or missing.

Power On Self Test (Post) ECC Errors (19)
 Indicates that write cache operations have been permanently
 disabled.  The cache has been disabled due to a large number
 of ECC errors detected while testing the cache during Power
 On Self Test (Post).

cpqDaAccelBattery Array Accelerator Board Battery Status.

This monitors the status of each battery pack on the board.  The batteries can only recharge when the system has power applied.

The following values are valid:

Other (1)
 Indicates that the instrument agent does not recognize
 battery status.  You may need to update your software.

Ok (2)
 Indicates that a particular battery pack is fully charged.

Charging (3)
 The battery power is less than 75%.  The Drive Array
 Controller is attempting to recharge the battery.  A
 battery can take as long as 36 hours to fully recharge.
 After 36 hours, if the battery has not recharged, it is
 considered failed.

Failed (4)
 The battery pack is below the sufficient voltage level and
 has not recharged in 36 hours.  Your Array Accelerator board
 needs to be serviced.

Degraded (5)
 The battery is still operating, however, one of the batteries
 in the pack has failed to recharge properly.  Your Array
 Accelerator board should be serviced as soon as possible.

NotPresent (6)
 There are no batteries associated with this controller.

cpqDaAccelReadErrs Array Accelerator Board Read Errors.

This shows the total number of read memory parity errors that were detected while reading from the Array Accelerator board. The mirrored copy of data on the board can be accessed to obtain correct data if a memory parity errors occurs.

Memory parity errors occur when the system detects that information has not been transferred correctly.  A parity bit is included for each byte of information stored in memory. When the microprocessor reads or writes data, the system counts the value of the bits in each byte.  If a total does not match the system's expectations, a parity error has occurred. A bad memory chip, memory corruption, or lack of refresh may cause memory parity errors.

cpqDaAccelWriteErrs Array Accelerator Board Write Errors.

This shows the total number of write memory parity errors that were detected while writing to the Array Accelerator board.

Write parity errors occur when the system detects that information has not been transferred to the Array Accelerator board correctly.  A parity bit is included for each byte of information stored in memory.  When the microprocessor reads or writes data, the system counts the value of the bits in each byte.  If the total does not match the system's expectations, a parity error has occurred.

cpqDaAccelCondition The condition of the device.  This value represents the overall condition of this array accelerator.

cpqDaAccelReadMemory Read Cache Memory.

This shows the amount of memory allocated for the read cache in kilobytes.  Because data is kept in duplicate (mirrored), the actual amount of usable memory is half the amount shown.

Read cache is not available on IDA, IDA-2, IDA Expansion System, or SMART controllers.  Entries for these controllers will return 0 for this value.

cpqDaAccelSerialNumber Array Accelerator Serial Number.

The serial number of the Array Accelerator.  This field will be a null (size 0) string if the accelerator does not support serial number.

cpqDaAccelTotalMemory Total Cache Memory.

This value is the total amount of accelerator memory in kilobytes, including both battery-backed and non-battery-backed memory.

cpqDaAccelReadCachePercent Read Cache Percent.

This shows the percent of cache memory allocated for read ahead caching.  If the data cannot be determined or is not applicable, the value is set to 4,294,967,295.

cpqDaAccelWriteCachePercent Write Cache Percent.

This shows the percent of cache memory allocated for posted write caching.  If the data cannot be determined or is not applicable, the value is set to 4,294,967,295.

cpqDaLogDrvTable Drive Array Logical Drive Table.

A table of logical drive entries.

cpqDaLogDrvEntry Drive Array Logical Drive Entry.

A logical drive entry.

cpqDaLogDrvCntlrIndex Drive Array Logical Drive Controller Index.

This maps the logical drives into their respective controllers. Controller index 'i' under the controller group owns the associated drives in the logical drive group which use that index.

cpqDaLogDrvIndex Drive Array Logical Drive Index.

This logical drive number keeps track of multiple instances of logical drives which are on the same controller.  For each controller index value, the logical drive index starts at 1 and increments for each logical drive.

cpqDaLogDrvFaultTol Logical Drive Fault Tolerance.

This shows the fault tolerance mode of the logical drive. The following values are valid for the Logical Drive Fault Tolerance:

None (2)
 Fault tolerance is not enabled.  If a physical drive reports
 an error, the data cannot be recovered by the drive array
 controller.

Mirroring (3)
 For each physical drive, there is a second physical drive
 containing identical data. If a drive fails, the data can be
 retrieved from the mirror drive.

Data Guard (4)
 One of the physical drives is used as a data guard drive and
 contains the exclusive OR of the data on the remaining drives.
 If a failure is detected, the drive array controller rebuilds
 the data using the data guard information plus information
 from the other drives.

Distributed Data Guard (5)
 Distributed Data Guarding, sometimes referred to as RAID 5,
 is similar to Data Guarding, but instead of storing the parity
 information on one drive, the information is distributed across
 all of the drives.  If a failure is detected, the drive array
 controller rebuilds the data using the data guard information
 from all the drives.

Advanced Data Guarding (7)
 Advanced Data Guarding (RAID ADG) is the fault tolerance method
 that provides the highest level of data protection.  It
 'stripes' data and parity across all the physical drives in the
 configuration to ensure the uninterrupted availability of
 uncorrupted data.  This fault-tolerance method is similar to
 distributed data guard (RAID 5) in that parity data is
 distributed across all drives in the array, except in RAID ADG
 the capacity of multiple drives is used to store parity data.
 Assuming the capacity of 2 drives is used for parity data,
 this allows continued operation despite simultaneous failure of
 any 2 drives in the array, whereas RAID 4 and RAID 5 can only
 sustain failure of a single drive.

cpqDaLogDrvStatus Logical Drive Status.

The logical drive can be in one of the following states:

Ok (2)
 Indicates that the logical drive is in normal operation mode.

Failed (3)
 Indicates that more physical drives have failed than the
 fault tolerance mode of the logical drive can handle without
 data loss.

Unconfigured (4)
 Indicates that the logical drive is not configured.

Recovering (5)
 Indicates that the logical drive is using Interim Recovery Mode.
 In Interim Recovery Mode, at least one physical drive has
 failed, but the logical drive's fault tolerance mode lets the
 drive continue to operate with no data loss.

Ready Rebuild (6)
 Indicates that the logical drive is ready for Automatic Data
 Recovery.  The physical drive that failed has been replaced,
 but the logical drive is still operating in Interim Recovery
 Mode.

Rebuilding (7)
 Indicates that the logical drive is currently doing Automatic
 Data Recovery.  During Automatic Data Recovery, fault tolerance
 algorithms restore data to the replacement drive.

Wrong Drive (8)
 Indicates that the wrong physical drive was replaced after a
 physical drive failure.

Bad Connect (9)
 Indicates that a physical drive is not responding.

Overheating (10)
 Indicates that the drive array enclosure that contains the
 logical drive is overheating.  The drive array is still
 functioning, but should be shutdown.

Shutdown (11)
 Indicates that the drive array enclosure that contains the
 logical drive has overheated.  The logical drive is no longer
 functioning.

Expanding (12)
 Indicates that the logical drive is currently doing Automatic
 Data Expansion.  During Automatic Data Expansion, fault
 tolerance algorithms redistribute logical drive data to the
 newly added physical drive.

Not Available (13)
 Indicates that the logical drive is currently unavailable.
 If a logical drive is expanding and the new configuration
 frees additional disk space, this free space can be
 configured into another logical volume.  If this is done,
 the new volume will be set to not available.

Queued For Expansion (14)
 Indicates that the logical drive is ready for Automatic Data
 Expansion.  The logical drive is in the queue for expansion.

cpqDaLogDrvAutoRel Array Controller Logical Drive Auto-Reliability Delay.

This value indicates how many seconds the logical drive will wait with no requests before beginning Auto-Reliability monitoring. For example, the default value is five, so the logical drive will begin Auto-Reliability monitoring if it receives no requests for five seconds.  If the value is zero, the logical drive will not perform Auto-Reliability monitoring.  Auto-Reliability only operates if the logical drive is configured in one of the fault tolerance modes.

If the logical drive receives a request while performing Auto-Reliability monitoring, the drive will stop monitoring to process the request.  Once it has satisfied all incoming requests, the drive will wait for the Auto-Reliability delay to expire before returning to Auto-Reliability monitoring.

Auto-Reliability monitoring is a process to insure the highest level of data reliability.  In this process each disk is scanned to verify that all of the sectors in the drive array are readable.  If the Auto-Reliability monitoring process detects any bad sectors on the drives, it automatically remaps these bad sectors where possible.

cpqDaLogDrvRebuildBlks Logical Drive Rebuild Blocks Remaining.

After a failed physical drive has been replaced, the physical drive must have its data rebuilt.  This value shows how many blocks of data still need to be rebuilt.  When the value reaches zero, the rebuilding process is complete.  The drive array continues to operate in interim recovery mode while a drive is rebuilding.

When a logical volume is Expanding, the drive must redistribute the logical volume data across the physical drives.  This value shows how many blocks of data still need to be redistributed. When the value reaches zero, the expand process is complete. The drive array continues to operate normally while the drive is expanding.

This value is only valid if the Logical Drive Status is rebuilding (7) or expanding (12).

cpqDaLogDrvHasAccel Logical Drive Has Array Accelerator Board.

This indicates whether the logical drive has an Array Accelerator board configured and enabled.  The following values are valid:

Other (1)
 Indicates that the instrument agent does not recognize the
 Array Accelerator board.  You may need to upgrade your software.

Unavailable (2)
 Indicates that there is no Array Accelerator board configured
 for this logical drive.

Enabled (3)
 Indicates that the Array Accelerator board is configured and
 enabled for this logical drive.

Disabled (4)
 Indicates that the Array Accelerator board is configured but
 not enabled for this logical drive.

cpqDaLogDrvAvailSpares Drive Array Logical Drive Available Spares.

This indicates if this logical drive has one or more spares designated for it that are not currently in use by another drive. Each octet present will be a physical drive ID that is an available spare for this logical drive.  These are the same ID's which can be used as indexes into the physical drive table. An octet string of length zero indicates that there are no available spares for this logical drive.

cpqDaLogDrvSize Logical Drive Size.

This is the size of the logical drive in megabytes.  This value is calculated using the value 1,048,576 (2^20) as a megabyte. Drive manufacturers sometimes use the number 1,000,000 as a megabyte when giving drive capacities so this value may differ from the advertised size of a drive.

cpqDaLogDrvPhyDrvIDs Drive Array Logical Drive Physical Drive IDs.

This lists the physical drive IDs which are associated with this logical drive. These are the same IDs which can be used as indices into the physical drive table. Each byte of the string is an index.

cpqDaLogDrvCondition The Logical Drive condition.

This value represents the overall condition of this logical drive and any associated physical drives.

cpqDaLogDrvPercentRebuild Logical Drive Percent Rebuild.

After a failed physical drive has been replaced, the physical drive must have its data rebuilt.  This value is the percent complete of the rebuild.  When the value reaches 100, the rebuilding process is complete.  The drive array continues to operate in interim recovery mode while a drive is rebuilding.

When a logical volume is Expanding, the drive must redistribute the logical volume data across the physical drives.  This value shows how many blocks of data still need to be redistributed. When the value reaches one hundred (100), the expand process is complete.  The array continues to operate normally while the drive is expanding.

This value is only valid if the Logical Drive Status is rebuilding (7) or expanding (12).

If the value cannot be determined or a rebuild is not active, the value is set to 4,294,967,295.

cpqDaLogDrvStripeSize Logical Drive Stripe Size.

This is the size of a logical drive stripe in kilobytes.

cpqDaLogDrvOsName Logical Drive OS Name.

The OS name for this array logical drive.  This field will be a null (size 0) string if the agent does not support OS name.

cpqDaLogDrvBlinkTime Logical Drive Physical Drive Blink Time Count.

The logical drive blink time variable allows the drive tray LEDs of all physical drives in a logical drive to blink.  This value indicates the amount of time, in tenths of a second, that the physical drive LEDs will continue to blink.  A value of zero indicates the drive LEDs are not blinking.  If the value cannot be determined or no drive in this logical drive is in a hot plug tray, 4,294,967,295 is returned.

To blink the drive LEDs on all physical drives in this logical drive (including any configured spare drives), set this value to the time to blink in tenths of seconds.

To stop the drive LEDs from blinking, set this value to 0.

cpqDaLogDrvSpareReplaceMap Logical Drive Spare To Replacement Drive Map.

This data structure contains the spare to physical drive replacement map.  The format is:

 octet  contents
 =====  ========
   1    Spare drive physical drive index
   2    Replaced drive physical drive index

These 2 octets are repeated for each replaced drive.  For n replaced drives, the string is 2 * n octets long.  An octet string of length zero indicates that there are no replaced drives currently in use.

cpqDaLogDrvRebuildingPhyDrv Logical Drive Physical Drive Rebuilding Index.

This is the physical drive index of the physical drive that is currently rebuilding.  If the value cannot be determined or is not applicable, the value is set to -1.

cpqDaSpareTable Drive Array Spare Table.

A table of spare entries.

cpqDaSpareEntry Drive Array Spare Entry.

An entry in the spare table.

cpqDaSpareCntlrIndex Drive Array Spare Controller Index.

This index maps the spare drive back to the controller to which it is attached.  The value of this index is the same as the one used under the controller group.

cpqDaSparePhyDrvIndex Drive Array Spare Physical Drive Index.

This index maps the spare to the physical drive it represents. The value of this index is the same as the one used with the physical drive table.

cpqDaSpareStatus Spare Status.

This shows the status of the on-line spare drive.

The following values are valid for the spare status:

Failed (3)
 The on-line spare has failed and is no longer available for use.

Inactive (4)
 The monitored system has an on-line spare configured, but is
 not currently in use.

Building (5)
 A physical drive has failed. Automatic Data Recovery
 is in progress to recover data to the on-line spare.

Active (6)
 A physical drive has failed. Automatic Data Recovery is
 complete.  The system is using the on-line spare as a
 replacement for the failed drive.

cpqDaSpareReplacedDrv Spare Replaced Drive.

If the spare status is active(6) or building(5), then this has the physical drive number of the replaced drive.  Otherwise a value of -1 will be returned.

cpqDaSpareRebuildBlks Drive Array Spare Number Of Rebuild Blocks Left.

If the spare status is building(5), then this is the number of blocks left to rebuild before completion.

The data contained on the failed physical drive must be reconstructed from the fault tolerance data and copied to the spare so that the spare can function in place of the failed drive.

When the number reaches zero (0), the building process is complete and the spare has replaced the physical drive.

cpqDaSpareCondition The Spare Drive condition.

This value represents the overall condition of this spare drive and any associated physical drives.

cpqDaSpareBusNumber Spare Drive SCSI Bus Number.

The bus number indicates to which SCSI bus this spare drive is attached.  The first instance is one and increments for each SCSI bus on a controller.  A value of -1 will be returned if the spare drive is attached to a controller that does not support multiple SCSI busses.  This is not supported by the IDA, IDA Expansion, or IDA-2 controllers.

cpqDaSpareBay Spare Drive Bay Location.

This value matches the bay location where the physical drive has been installed.  For a SCSI drive, this is the SCSI ID of the drive.

cpqDaSpareReplacedDrvBusNumber Spare Replaced Drive Bus Number.

If the spare status is active(6) or building(5), then this has the physical drive bus number of the replaced drive. If the value cannot be determined or is not applicable, the value is set to -1.

cpqDaSpareReplacedDrvBay Spare Replaced Drive Bay.

If the spare status is active(6) or building(5), then this has the physical drive bay number of the replaced drive. If the value cannot be determined or is not applicable, the value is set to -1.

cpqDaSparePercentRebuild Drive Array Spare Percent Rebuild.

If the spare status is building(5), then this is percent complete of of the rebuild.

The data contained on the failed physical drive must be reconstructed from the fault tolerance data and copied to the spare so that the spare can function in place of the failed drive.

When the number reaches one hundred (100), the building process is complete and the spare has replaced the physical drive.

If the value cannot be determined or a rebuild is not active, the value is set to 4,294,967,295.

cpqDaPhyDrvTable Drive Array Physical Drive Table.

A table of physical drive entries.

cpqDaPhyDrvEntry Drive Array Physical Drive Entry.

A physical drive entry.

cpqDaPhyDrvCntlrIndex Drive Array Physical Drive Controller Index.

This index maps the physical drive back to the controller to which it is attached. The value of this index is the same as the one used under the controller group.

cpqDaPhyDrvIndex Drive Array Physical Drive Index.

This index is used for selecting the physical drive table entry. This number, along with the cpqDaPhyDrvCntlrIndex uniquely identify a specific physical drive.

cpqDaPhyDrvModel Physical Drive Model.

This is a text description of the physical drive.  The text that appears depends upon who manufactured the drive and the drive type.

If a drive fails, note the model to identify the type of drive necessary for replacement.

If a model number is not present, you may not have properly initialized the drive array to which the physical drive is attached for monitoring.

cpqDaPhyDrvFWRev Physical Drive Firmware Revision.

This shows the physical drive revision number.

If the firmware revision is not present, you have not properly initialized the drive array.

cpqDaPhyDrvBay Physical Drive Bay Location.

This value matches the bay location where the physical drive has been installed.  For a SCSI drive, this is the SCSI ID of the drive.

cpqDaPhyDrvStatus Physical Drive Status.

This shows the status of the physical drive.

The following values are valid for the physical drive status:

other (1)
 Indicates that the instrument agent does not recognize
 the drive.  You may need to upgrade your instrument agent
 and/or driver software.

ok (2)
 Indicates the drive is functioning properly.

failed (3)
 Indicates that the drive is no longer operating and
 should be replaced.

predictiveFailure(4)
 Indicates that the drive has a predictive failure error and
 should be replaced.

cpqDaPhyDrvFactReallocs This shows the number of spare sectors available for remapping at the time the physical drive was shipped. The physical drive will use these spare sectors for remapping bad sectors that exist on the drive.  Not all drives support factory reallocation.

cpqDaPhyDrvUsedReallocs Physical Drive Used Reallocated Sectors.

This shows the number of sectors of the reallocation area that have been used by the physical drive.

To see how many sectors were originally available for use in the reallocation area, refer to the factory reallocation information if it exists.  Not all drives support factory reallocation.

Because of the nature of magnetic disks, certain sectors on a drive may have media defects. The reallocation area is part of the disk drive that the drive manufacturer sets aside to compensate for these defects. The drive array controller writes information addressed from these unusable sectors to available sectors in the reallocation area.  If too many sectors have been reallocated, there may be a problem with the drive.

If you suspect a problem, schedule server down time to run diagnostics to verify that a problem exists.

cpqDaPhyDrvRefHours Reference Time in hours.

This shows the total number of hours that a physical drive has been spinning since the drive was stamped.  The drive will have either been stamped when it left the factory or when you ran diagnostics on your new drive.  You can use the reference time to calculate rates for other physical drive events.

cpqDaPhyDrvHReads Sectors Read (high).

The phyDrvHReads and the phyDrvReads together shows the total number of sectors read from the physical disk drive during the reference time (phyDrvRefHours).

The actual number of sectors read equals the phyDrvHReads times 2^32 plus the phyDrvReads.

This information may be useful for determining rates. For instance, if you wanted to calculate the average number of reads per hour of operation, divide this number by the reference hours.

cpqDaPhyDrvReads Sectors Read (low).

The phyDrvHReads and the phyDrvReads together shows the total number of sectors read from the physical disk drive during the reference time (phyDrvRefHours).

The actual number of sectors read equals the phyDrvHReads times 2^32 plus the phyDrvReads.

This information may be useful for determining rates. For instance, if you wanted to calculate the average number of reads per hour of operation, divide this number by the reference hours.

cpqDaPhyDrvHWrites Sectors Written (high).

The phyDrvHWrites and the phyDrvWrites together shows the total number of sectors written to the physical disk drive during the reference hours (phyDrvRefHours).

The actual number of sectors written equals the phyDrvHWrites times 2^32 plus the phyDrvWrites.

This information may be useful for determining rates. For instance, if you wanted to calculate the average number of writes per hour of operation, divide this number by the reference hours.

cpqDaPhyDrvWrites Sectors Written (low).

The phyDrvHWrites and the phyDrvWrites together shows the total number of sectors written to the physical disk drive during the reference hours (phyDrvRefHours).

The actual number of sectors written equals the phyDrvHWrites times 2^32 plus the phyDrvWrites.

This information may be useful for determining rates. For instance, if you wanted to calculate the average number of writes per hour of operation, divide this number by the reference hours.

cpqDaPhyDrvHSeeks Total Seeks (high).

The phyDrvHSeeks and the phyDrvSeeks together shows the total number of seek operations performed by the physical disk drive during the reference hours (phyDrvRefHours).

The actual number of seeks equals the phyDrvHSeeks times 2^32 plus the phyDrvWriteSeeks.

cpqDaPhyDrvSeeks Total Seeks (low).

The phyDrvHSeeks and the phyDrvSeeks together shows the total number of seek operations performed by the physical disk drive during the reference hours (phyDrvRefHours).

The actual number of seeks equals the phyDrvHSeeks times 2^32 plus the phyDrvWriteSeeks.

cpqDaPhyDrvHardReadErrs Hard Read Errors.

This shows the number of read errors that have occurred on a drive that could not be recovered by a physical drive's Error Correction Code (ECC) algorithm or through retries during the reference time (phyDrvRefTime).  Over time, a disk drive may produce these errors.  If you receive these errors, a problem may exist with your drive.

The value increases every time the physical drive detects another error.

The severity of these errors depends on whether the monitored system is running in a fault tolerant mode. With fault tolerance, the controller can remap data to eliminate the problems caused by these errors.  In either case, if you see an increase in these errors, schedule server down time to run diagnostics to verify that a problem exists.

cpqDaPhyDrvRecvReadErrs Recovered Read Errors.

This shows the number of read errors corrected through physical drive retries during the reference time (phyDrvRefTime).

Over time, all disk drives produce these errors.  If you notice a rapid increase in the value for Recovered Read Errors (or Hard Read Errors), a problem may exist with the drive.  The value increases every time the physical drive detects and corrects another error.

Expect more Recovered Read Errors than Hard Read Errors. If you suspect that a problem may exist with the drive, schedule server down time to run diagnostics.

cpqDaPhyDrvHardWriteErrs Hard Write Errors.

This shows the number of write errors that could not be recovered by a physical drive during the reference time (phyDrvRefTime).

Over time a disk drive may detect these errors. If you notice an increase in the value shown for Hard Write Errors or Recovered Write Errors, a problem may exist with the drive.  The value increases every time the physical drive detects another error. On average, these errors should occur less frequently than read errors.  If you see an increase in these errors, schedule server down time to run diagnostics to verify that a problem exists.

cpqDaPhyDrvRecvWriteErrs Recovered Write Errors.

This shows the number of write errors corrected through physical drive retries or recovered by a physical drive during the reference time (phyDrvRefTime).

Over time a disk drive may produce these errors.

If you notice an increase in the value shown for Hard Write Errors or Recovered Write Errors, a problem may exist with the drive.

The value increases every time the physical drive detects and corrects an error. Only an unusually rapid increase in these errors indicates a problem.

On average, these errors should occur less frequently than hard read errors.  If you suspect that a problem may exist with the drive, schedule server down time to run diagnostics.

cpqDaPhyDrvHSeekErrs Seek Errors (High).

The phyDrvHSeekErrs and the phyDrvSeekErrs together shows the total number of times that the physical disk drive detected a seek error during the reference hours (phyDrvRefHours).

The actual number of seek errors equals the phyDrvHSeekErrs times 2^32 plus the phyDrvWriteSeekErrs.

Over time, a disk drive usually produces these errors. If you notice a rapid increase in the value shown for Seek Errors, this physical drive may be failing.

The value increases every time the physical drive produces another error. Only an unusually rapid increase in these errors indicates a problem. If you suspect that a problem exists, schedule server down time to run diagnostics.

cpqDaPhyDrvSeekErrs Seek Errors (low). The phyDrvHSeekErrs and the phyDrvSeekErrs together shows the total number of times that the physical disk drive detected a seek error during the reference hours (phyDrvRefHours).

The actual number of seek errors equals the phyDrvHSeekErrs times 2^32 plus the phyDrvWriteSeekErrs.

Over time, a disk drive usually produces these errors. If you notice a rapid increase in the value shown for Seek Errors, this physical drive may be failing.

The value increases every time the physical drive produces another error. Only an unusually rapid increase in these errors indicates a problem. If you suspect that a problem exists, schedule server down time to run diagnostics.

cpqDaPhyDrvSpinupTime Spin up Time in tenths of seconds.

This is the time it takes for a physical drive to spin up to full speed.

Disks require time to gain momentum and reach operating speed. As cars are tested to go from 0 mph to 60 mph in x number of seconds, drive manufacturers have preset expectations for the time it takes the drive to spin to full speed. Drives that do not meet these expectations may have problems.

The value may be zero (0) under one of the following conditions:

*  If you are monitoring a physical drive that is part of the
  monitored system's internal drive array storage, and you use a
  warm boot to reset the monitored system. During a warm boot,
  the drives continue to spin.

*  If you are monitoring a physical drive in an ProLiant Storage
  System and you reset the monitored system but not the
  ProLiant Storage System.

cpqDaPhyDrvFunctTest1 Functional Test 1.

This provides information about a series of tests that indicate how well a physical drive works. These tests compare the way the physical drive currently operates when performing various tasks with the way it worked when it was new.

A percent value is displayed that represents how the drive works currently when compared to how the drive worked when new.  New drives operate at the 100 percent level.  By default, if the current value is less than or equal to 80 percent, a problem may exist.

If you suspect a problem, schedule server down time to run diagnostics to verify that a problem exists.

If the value cannot be determined, it is set to 4,294,967,295.

cpqDaPhyDrvFunctTest2 Functional Test 2.

This provides information about a series of tests that indicate how well a physical drive works. These tests compare the way the physical drive currently operates when performing various tasks with the way it worked when it was new.

A percent value is displayed that represents how the drive works currently when compared to how the drive worked when new.  New drives operate at the 100 percent level. By default, if the current value is less than or equal to 80 percent, a problem may exist.

If you suspect a problem, schedule server down time to run diagnostics to verify that a problem exists.

If the value cannot be determined, it is set to 4,294,967,295.

cpqDaPhyDrvFunctTest3 Functional Test 3.

This provides information about a series of tests that indicate how well a physical drive works. These tests compare the way the physical drive currently operates when performing various tasks with the way it worked when it was new.

A percent value is displayed that represents how the drive works currently when compared to how the drive worked when new.  New drives operate at the 100 percent level. By default, if the current value is less than or equal to 80 percent, a problem may exist.

If you suspect a problem, schedule server down time to run diagnostics to verify that a problem exists.

If the value cannot be determined, it is set to 4,294,967,295.

cpqDaPhyDrvDrqTimeouts DRQ Timeouts.

The number of times that a physical drive continued to request data,  but did not get a command completion during the reference time (phyDrvRefTime). This value increases every time a DRQ timeout occurs for the physical drive.

A defective drive or cable may cause DRQ timeouts to occur. If you see an increase in these errors, complete the following steps for the monitored system:

1.  Check the cables connecting the drive to ensure that
   they are intact.

2.  If the cables are properly connected, schedule server down
   time to run diagnostics to verify that a problem exists.

If the value is not supported, it is set to 4,294,967,295.

cpqDaPhyDrvOtherTimeouts Other Timeouts.

The number of times that a physical drive did not respond with an interrupt within a controller-defined period of time after a command had been issued during the reference time (phyDrvRefTime). This does not include DRQ timeouts.

If you suspect a problem, complete the following steps for the monitored system:

1.  Check the cables connecting the drive to ensure that they
   are intact.

2.  If the cables are properly connected, schedule server down
   time to run diagnostics to verify that a problem
   exists.

cpqDaPhyDrvSpinupRetries Spin up Retries.

The number of times that a physical drive had to retry to spin up before successfully achieving operating speed during the reference time (phyDrvRefTime). This value represents the spin-up retries that occurred since the last time you turned on the monitored system.

If you suspect a problem, schedule server down time to run diagnostics verify that a problem exists.

cpqDaPhyDrvBadRecvReads Recovery Failed (Bad) Read Error.

The number of times a read error occurred while performing Automatic Data Recovery from this physical drive to another drive during the reference time (phyDrvRefTime).

If a read error occurs, Automatic Data Recovery stops. These errors indicate that the physical drive has failed. If you suspect a problem, schedule server down time to run diagnostics to verify that a problem exists.

cpqDaPhyDrvBadRecvWrites Recovery Failed (Bad) Write Error.

The number of times a write error occurred while performing Automatic Data Recovery from another drive to this physical drive during the reference time (phyDrvRefTime).

If a write error occurs, Automatic Data Recovery stops. These errors indicate that the physical drive has failed. If you suspect a problem, schedule server down time to run diagnostics to verify that a problem exists.

cpqDaPhyDrvFormatErrs Format Error.

The number of times a format operation failed when the controller attempted to remap a bad sector during the reference time (phyDrvRefTime).  Zero indicates that no format errors have occurred.  The value increases each time a format error occurs. A failed format operation may cause the controller to mark a drive failed.

If you suspect a problem, schedule server down time to run diagnostics verify a problem exists.

cpqDaPhyDrvPostErrs Power On Self Test (Post) Error.

The number of times that a physical drive failed its self test during the reference time (phyDrvRefTime).

The physical drive does a self test each time power is applied to the system.

If the value is not supported, it is set to 4,294,967,295.

cpqDaPhyDrvNotReadyErrs Drive Not Ready Errors.

The number of times the physical drive failed after the spin up command was issued during the reference time (phyDrvRefTime). When the spin up command was issued, the drive failed to reach its ready state.  If the current value is zero, the drive has not failed.  If the current value is greater than zero, at least one failure occurred.

This error could be caused because the physical drive has failed to spin.

If you suspect a problem:

1.  Check the cables connecting the drive to ensure that they
   are intact.

2.  If the cables are properly connected, schedule server down
   time to run diagnostics to verify that a problem exists.

cpqDaPhyDrvReallocAborts Physical Drive Reallocation Aborts.

The number of times the physical drive has failed due to an error that occurred when the controller was trying to reallocate a bad sector during the reference time (phyDrvRefTime).  Zero (0) indicates that no Reallocation Abort errors have occurred. The value increases each time a Reallocation Abort error occurs.

Because of the nature of magnetic disks, certain sectors on a drive may have media defects.  The reallocation area is part of the disk drive that is set aside to compensate for these defects. The array controller writes information addressed from unusable sectors to available sectors in the reallocation area.

If you suspect a problem, schedule server down time to run diagnostics verify a problem exists.

cpqDaPhyDrvThreshPassed Physical Drive Factory Threshold Passed (Exceeded).

When the drive is shipped, certain thresholds have been set to monitor performance of the drives.  For example, a threshold might be set for Spin up Time.  If the time that it takes the drive to spin up exceeds the factory threshold, there may be a problem with one of the drives.

If you suspect a problem, schedule server down time to run diagnostics.

Note:   These thresholds may be under warranty under certain
       conditions.

cpqDaPhyDrvHasMonInfo Physical Drive Has Monitor Information.

All of the physical disk table fields except for the physical disk status (phyDrvStatus) and the bay location (phyDrvBayLocation) are invalid unless this field has a value of true(2).

cpqDaPhyDrvCondition The condition of the device. This value represents the overall condition of this physical drive.

cpqDaPhyDrvHotPlugs Physical Drive Hot Plug Count.

This value indicates the number of times this physical drive was hot-plugged (removed) from a ProLiant Storage System. This is not supported by the IDA, IDA Expansion, or IDA-2 controllers.

cpqDaPhyDrvMediaErrs Physical Drive Media Failure Count.

This value indicates the number of times this physical drive was failed due to unrecoverable media errors.  This is not supported by the IDA, IDA Expansion, or IDA-2 controllers.

cpqDaPhyDrvHardwareErrs Physical Drive Hardware Error Count.

This value indicates the number of times this physical drive returned a bad hardware status. The drive may be failed if retries do not work.  This is not supported by the IDA, IDA Expansion, or IDA-2 controllers.

cpqDaPhyDrvAbortedCmds Physical Drive Aborted Command Failures.

This value indicates the number of times this physical drive was failed due to aborted commands that could not be retried successfully.  This is not supported by the IDA, IDA Expansion, or IDA-2 controllers.

cpqDaPhyDrvSpinUpErrs Physical Drive Spin-Up Failure Count.

This value indicates the number of times this physical drive was failed due to a failure of a spin-up command.  This is not supported by the IDA, IDA Expansion, or IDA-2 controllers.

cpqDaPhyDrvBadTargetErrs Physical Drive Bad Target Count.

This value indicates the number of times this physical drive performed some action that did not conform to the SCSI-2 bus protocol.  These actions will cause the SCSI bus to be reset. This is not supported by the IDA, IDA Expansion, or IDA-2 controllers.

cpqDaPhyDrvLocation Drive Physical Location.

This is the physical location of where the drive is located. The following values are defined:

other(1)
 The location of the drive is not known.

internal(2)
 The drive is located inside of the computer system box.

external(3)
 The drive is located outside of the computer system box.

proLiant(4)
 The drive is located outside of the computer system box
 in a ProLiant Storage System.

cpqDaPhyDrvSize Physical Drive Size in MB.

This is the size of the physical drive in megabytes.  This value is calculated using the value 1,048,576 (2^20) as a megabyte. Drive manufacturers sometimes use the number 1,000,000 as a megabyte when giving drive capacities so this value may differ from the advertised size of a drive.  This field is only applicable for controllers which support SCSI drives, and therefore is not supported by the IDA or IDA-2 controllers. The field will contain 0xFFFFFFFF if the drive capacity cannot be calculated or if the controller does not support SCSI drives.

cpqDaPhyDrvBusFaults Physical Drive Bus Fault Count.

This value indicates the number of times that a bus fault was detected for the drive by the controller.  This is not supported by the IDA, IDA Expansion, or IDA-2 controllers.

cpqDaPhyDrvIrqDeglitches Physical Drive IRQ Deglitch Count.

This is not supported by the IDA, IDA Expansion, or IDA-2 controllers.

cpqDaPhyDrvHotPlug Physical Drive Hot Plug Support Status.

The following values are defined:

other(1)
 The Insight Agent is unable to determine if this drive
 supports hot plug replacement.

hotPlug(2)
 The drive supports hot plug replacement.

nonhotPlug(3)
 The drive does not support hot plug replacement.

cpqDaPhyDrvPlacement Physical Drive Placement.

The following values are defined:

other(1)
 The agent is unable to determine if the drive is internal or
 external to the system chassis.

internal(2)
 The drive is located in the system chassis.

external(3)
 The drive is located outside the system chassis in an
 expansion box.

cpqDaPhyDrvBusNumber Physical Drive SCSI Bus Number.

The bus number indicates to which SCSI bus this physical drive is attached.  The first instance is one and increments for each SCSI bus on a controller.  A value of -1 will be returned if the physical drive is attached to a controller that does not support multiple SCSI busses.  This is not supported by the IDA, IDA Expansion, or IDA-2 controllers.

cpqDaPhyDrvSerialNum Physical Drive Serial Number.

This is the serial number assigned to the physical drive. This value is based upon the serial number as returned by the SCSI inquiry command but may have been modified due to space limitations.  This can be used for identification purposes.

cpqDaPhyDrvPreFailMonitoring Drive Array Physical Drive Predictive Failure Monitoring.

The following values are defined:

other(1)
 The agent is unable to determine if the drive supports
 predictive failure monitoring.

notAvailable(2)
 This drive does not support predictive failure monitoring.

available(3)
 This drive supports predictive failure monitoring.

cpqDaPhyDrvCurrentWidth Drive Array Physical Drive Current Width.

The following values are defined:

other(1)
 The agent is unable to determine the current negotiated data
 transfer width for this drive.

narrow(2)
 The negotiated data transfer width for this drive is narrow
 (8 data bits).

wide16(3)
 The negotiated data transfer width for this drive is wide
 (16 data bits).

cpqDaPhyDrvCurrentSpeed Drive Array Physical Drive Current Data Transfer Speed.

The following values are defined:

other(1)
 The agent is unable to determine the current negotiated data
 transfer speed for this drive.

asynchronous(2)
 The negotiated data transfer speed for this drive is
 asynchronous.

fast(3)
 The negotiated data transfer speed for this drive is 10 million
 transfers per second).

ultra(4)
 The negotiated data transfer speed for this drive is 20 million
 transfers per second.

ultra2(5)
 The negotiated data transfer speed for this drive is 40 million
 transfers per second.

ultra3(6)
 The negotiated data transfer speed for this drive is 80 million
 transfers per second.

ultra320(7)
 The negotiated data transfer speed for this drive is 160
 million transfers per second.

cpqDaPhyDrvFailureCode Drive Array Physical Drive Failure Code.

This value is the drive failure reason code returned by the array firmware.  It is valid only when the drive is failed. If the drive is not failed, 0 is returned.

cpqDaPhyDrvBlinkTime Physical Drive Blink Time Count.

This value indicates the amount of time, in tenths of a second, that the physical drive LEDs will continue to blink.  A value of zero indicates the drive LEDs are not blinking.  If the value cannot be determined or the drive is not in a hot plug tray, 4,294,967,295 is returned.

To blink the drive LEDs, set this value to the time to blink in tenths of seconds.

To stop the drive LEDs from blinking, set this value to 0.

cpqDaPhyDrvSmartStatus Physical Drive S.M.A.R.T Status.

The following values are defined:

other(1)
 The agent is unable to determine if the status of S.M.A.R.T
 predictive failure monitoring for this drive.

ok(2)
 Indicates the drive is functioning properly.

replaceDrive(3)
 Indicates that the drive has a S.M.A.R.T predictive failure
 error and should be replaced.

cpqDaPhyDrvConfigurationStatus Physical Drive Configuration Status.

The following values are defined:

other(1)
 The agent is unable to determine the configuration status of
 this physical drive.

configured(2)
 Indicates the drive is configured to be part of a logical
 drive as either a member drive or a spare drive.

notConfigured(3)
 Indicates the drive is not configured to be part of a logical
 drive as either a member drive or a spare drive.

cpqDaPhyDrvRotationalSpeed Drive Array Physical Drive Rotational Speed.

The following values are defined:

other(1)
 The agent is unable to determine the rotational speed for
 this drive.

rpm7200(2)
 The rotational speed for this drive is 7200 rpm.

rpm10K(3)
 The rotational speed for this drive is 10000 rpm.

rpm15K(4)
 The rotational speed for this drive is 15000 rpm.

cpqDaPhyDrvErrTable Drive Array Physical Drive Error Log Table.

A table of physical drive entries.  The Error Log Table is not supported by the IDA, IDA Expansion, or IDA-2 controllers.

cpqDaPhyDrvErrEntry Drive Array Physical Drive Entry.

cpqDaPhyDrvErrCntlrIndex Drive Array Physical Drive Error Log Controller Index.

This index maps the physical drive back to the controller to which it is attached. The value of this index is the same as the one used under the controller group.

cpqDaPhyDrvErrIDIndex Drive Array Physical Drive Error Log Index.

This index is used for selecting the physical drive table entry. This number, along with the cpqDaPhyDrvErrCntlrIndex uniquely identify a specific physical drive.

cpqDaPhyDrvErrIndex Drive Array Physical Drive Error Log Index.

This index is used for selecting the physical drive table entry. This number, along with the cpqDaPhyDrvErrCntlrIndex uniquely identify a specific physical drive.

cpqDaPhyDrvErrType Physical Drive Error Log Error Type.

The type of error in the error log.  The valid types are:

Other (1)
 Indicates that the instrument agent does not recognize the
 type of error in the error log.

No Error (2)
 Indicates that this error log entry does not have an error.

SCSI Error (3)
 Indicates that this error log entry is a SCSI Error.

CAM Error (4)
 Indicates that this error log entry is a CAM error.

cpqDaPhyDrvScsiOp Physical Drive Error Log SCSI Operation.

This is the SCSI Command Operation Code byte associated with the error log entry.  For further specifications consult a SCSI-2 logical specification or other SCSI reference.

cpqDaPhyDrvScsiStatus Physical Drive Error Log SCSI Status.

This is the SCSI Status Code byte associated with the error log entry.  For further specifications consult a SCSI-2 logical specification or other SCSI reference.

cpqDaPhyDrvCamStatus Physical Drive Error Log CAM Status.

This is the SCSI CAM Status byte associated with the error log entry.  For further specifications consult a SCSI-2 logical specification or other SCSI reference.

cpqDaPhyDrvSenseKey Physical Drive Error Log Sense Key.

This is the SCSI Sense Key byte associated with the error log entry.  For further specifications consult a SCSI-2 logical specification or other SCSI reference.

cpqDaPhyDrvQualifier Physical Drive Error Log Qualifier.

This is the SCSI Additional Sense Code Qualifier byte (as returned by the Request Sense command) associated with the error log entry. For further specifications consult a SCSI-2 logical specification or other SCSI reference.

cpqDaPhyDrvSenseCode Physical Drive Error Log Sense Code.

This is the SCSI Sense Code associated with the error log entry. For further specifications consult a SCSI-2 logical specification or other SCSI reference.

cpqDaPhyDrvBlockValid Physical Drive Error Log Block Address Is Valid.

The valid values are:

False (1)
 Indicates that the Block Address object (cpqDaPhyDrvBlock)
 is not a valid address.

True (2)
 Indicates that the Block Address object (cpqDaPhyDrvBlock)
 is a valid address.

cpqDaPhyDrvBlock Physical Drive Error Log Block Address.

This is the SCSI Block Address (as returned by the Request Sense Command) associated with the error log entry.  For further specifications consult a SCSI-2 logical specification or other SCSI reference.

cpqDaPhyDrvTime Physical Drive Error Log Reference Time.

This gives a relative time stamp as to when the error log entry occurred.  The Reference Time shows the number of hours that a physical drive has been spinning since the drive was initialized for monitor and performance.

cpqDaPhyDrvUserDesc Physical Drive Error Log User Description.

This is a string built by the agent which contains the Reference Time (cpqDaPhyDrvTime) and a brief description of the disk error associated with the particular error log entry.  This field is being deprecated, and future management station applications should be aware that this field may not contain ASCII string data.

cpqDaPhyDrvErrDesc The index used to display an error associated with a physical drive.

This number refers to an entry in a list of error strings enumerating the possible physical drive errors associated with a particular physical disk drive.

The valid values are:

DriveFailure (1)
 The Management Station should display the following string:
 'Drive Failure'.

CommFailure(2)
 The Management Station should display the following string:
 'Communication Failure'.

DriveIOError(3)
 The Management Station should display the following string:
 'Drive I/O Error'.

SCSICommError(4)
 The Management Station should display the following string:
 'SCSI Communication Error'.

UpgradeRequired(5)
 The Management Station should display the following string:
 'Configuration Utility or OS upgrade required'.

DriveWriteProtected(6)
 The Management Station should display the following string:
 'Drive Write Protected - Check Drive Jumpers'.

InvalidRequest(7)
 The Management Station should display the following string:
 'Invalid Request'.

SCSIMessageError(8)
 The Management Station should display the following string:
 'SCSI Message Error'.

ControllerFailure(9)
 The Management Station should display the following string:
 'Controller Failure'.

InternalExternalConflict(10)
 The Management Station should display the following string:
 'Internal/External Conflict on Port 1'.

InternalDriveFailure(11)
 The Management Station should display the following string:
 'Internal Drive Failure'.

SCSIErrorOutOfRange(12)
 The Management Station should display the following string:
 'SCSI Error, Sense Code = %xh' where %x is the value of the
  cpqDaPhyDrvSenseCode object.  This index will only be provided
  if the specified object exceeds the valid range.

CAMErrorOutOfRange(13)
 The Management Station should display the following string:
 'CAM Error, CAM status =%xh' where %x is the value of the
 cpqDaPhyDrvCamStatus object.  This index will only be provided
 if the specified object exceeds the valid range.

ErrorTypeOutOfRange(14)
 The Management Station should display the following string:
 'Error type =%xh' where %x is the value of the
 cpqDaPhyDrvErrType object.  This index will only be provided
 if the specified object exceeds the valid range.

cpqDaPhyDrvThrTable Drive Array Physical Drive Threshold Table.

A table of physical drive threshold entries.

cpqDaPhyDrvThrEntry Drive Array Physical Drive Threshold Entry.

A physical drive threshold entry.

cpqDaPhyDrvThrCntlrIndex Drive Array Physical Drive Threshold Controller Index.

This index maps the physical drive thresholds back to the controller to which it is attached. The value of this index is the same as the one used under the controller group.

cpqDaPhyDrvThrIndex Drive Array Physical Drive Threshold Index.

This index maps the thresholds to a physical drive.  The value of this index is the same as the one used with the physical drive table.

cpqDaPhyDrvThrUsedReallocs Used Reallocated Sectors Maximum Threshold.

This shows the maximum threshold of the reallocation area that has been used by the physical drive.

This threshold is associated with the cpqDaPhyDrvUsedReallocs object in the Physical Drive Table.

cpqDaPhyDrvThrRefHours Reference Time Maximum Threshold in hours.

This shows the maximum threshold in hours that a physical drive has been spinning since the drive was stamped.

This threshold is associated with the cpqDaPhyDrvRefHours object in the Physical Drive Table.

cpqDaPhyDrvThrHardReadErrs Hard Read Errors Maximum Threshold.

This shows the maximum threshold of read errors on a drive that could not be recovered by a physical drive's Error Correction Code (ECC) algorithm or through retries during the reference time (phyDrvRefTime).

This threshold is associated with the cpqDaPhyDrvHardReadErrs object in the Physical Drive Table.

cpqDaPhyDrvThrRecvReadErrs Recovered Read Errors Maximum Threshold.

This shows the maximum threshold of read errors corrected through physical drive retries during the reference time (phyDrvRefTime).

This threshold is associated with the cpqDaPhyDrvRecvReadErrs object in the Physical Drive Table.

cpqDaPhyDrvThrHardWriteErrs Hard Write Errors Maximum Threshold.

This shows the maximum threshold of write errors that could not be recovered by a physical drive during the reference time (phyDrvRefTime).

This threshold is associated with the cpqDaPhyDrvHardWriteErrs object in the Physical Drive Table.

cpqDaPhyDrvThrRecvWriteErrs Recovered Write Errors Maximum Threshold.

This shows the maximum threshold of write errors corrected through physical drive retries or recovered by a physical drive during the reference time (phyDrvRefTime).

This threshold is associated with the cpqDaPhyDrvRecvWriteErrs object in the Physical Drive Table.

cpqDaPhyDrvThrHSeekErrs Seek Errors Maximum Threshold (high).

The cpqDaphyDrvThrHSeekErrs and the cpqDaphyDrvThrSeekErrs together show the maximum threshold of total number of times that the physical disk drive detected a seek error during the reference hours (phyDrvRefHours).

This threshold is associated with the cpqDaPhyDrvHSeekErrs object in the Physical Drive Table.

cpqDaPhyDrvThrSeekErrs Seek Errors Maximum Threshold (low).

The cpqDaphyDrvThrHSeekErrs and the cpqDaphyDrvThrSeekErrs together show the maximum threshold of total number of times that the physical disk drive detected a seek error during the reference hours (phyDrvRefHours).

This threshold is associated with the cpqDaPhyDrvSeekErrs object in the Physical Drive Table.

cpqDaPhyDrvThrSpinupTime Spin up Time Maximum Threshold in tenths of seconds.

This shows the maximum of time it takes for a physical drive to spin up to full speed.

This threshold is associated with the cpqDaPhyDrvSpinupTime object in the Physical Drive Table.

cpqDaPhyDrvThrFunctTest1 Functional Test 1 Minimum Threshold.

This provides the minimum threshold for information about a series of tests that indicate how well a physical drive works. These tests compare the way the physical drive currently operate when performing various tasks with the way it worked when it was new.

This threshold is associated with the cpqDaPhyDrvFunctTest1 object in the Physical Drive Table.

cpqDaPhyDrvThrFunctTest2 Functional Test 2 Minimum Threshold.

This provides the minimum threshold for information about a series of tests that indicate how well a physical drive works. These tests compare the way the physical drive currently operates when performing various tasks with the way it worked when it was new.

This threshold is associated with the cpqDaPhyDrvFunctTest2 object in the Physical Drive Table.

cpqDaPhyDrvThrFunctTest3 Functional Test 3 Minimum Threshold.

This provides the minimum threshold for information about a series of tests that indicate how well a physical drive works. These tests compare the way the physical drive currently operates when performing various tasks with the way it worked when it was new.

This threshold is associated with the cpqDaPhyDrvFunctTest3 object in the Physical Drive Table.

cpqDaPhyDrvThrDrqTimeouts DRQ Timeouts Maximum Threshold.

This shows the maximum threshold of the number of times that a physical drive continued to request data, but did not get a command completion during the reference time (phyDrvRefTime).

This threshold is associated with the cpqDaPhyDrvDrqTimeouts object in the Physical Drive Table.

cpqDaPhyDrvThrOtherTimeouts Other Timeouts Maximum Threshold.

This shows the maximum threshold of the number of times that a physical drive did not respond with an interrupt within a controller-defined period of time after a command had been issued during the reference time (phyDrvRefTime).

This threshold is associated with the cpqDaPhyDrvOtherTimeouts object in the Physical Drive Table.

cpqDaPhyDrvThrSpinupRetries Spin up Retries Maximum Threshold.

This shows the maximum threshold of the number of times that a physical drive had to retry to spin up before successfully achieving operating speed during the reference time (phyDrvRefTime).

This threshold is associated with the cpqDaPhyDrvSpinupRetries object in the Physical Drive Table.

cpqDaPhyDrvThrBadRecvReads Recovery Failed (Bad) Read Error Maximum Threshold.

This shows the maximum threshold of the number of times a read error occurred while performing Automatic Data Recovery from this physical drive to another drive during the reference time (phyDrvRefTime).

This threshold is associated with the cpqDaPhyDrvBadRecvReads object in the Physical Drive Table.

cpqDaPhyDrvThrBadRecvWrites Recovery Failed (Bad) Write Error Maximum Threshold.

This shows the maximum threshold of the number of times a write error occurred while performing Automatic Data Recovery from another drive to this physical drive during the reference time (phyDrvRefTime).

This threshold is associated with the cpqDaPhyDrvBadRecvWrites object in the Physical Drive Table.

cpqDaPhyDrvThrFormatErrs Format Error Maximum Threshold.

This shows the maximum threshold of the number of times a format operation failed when the controller attempted to remap a bad sector during the reference time (phyDrvRefTime).

This threshold is associated with the cpqDaPhyDrvFormatErrs object in the Physical Drive Table.

cpqDaPhyDrvThrPostErrs Power On Self Test (Post) Error Maximum Threshold.

This shows the maximum threshold of the number of times that a physical drive failed its self test during the reference time (phyDrvRefTime).

This threshold is associated with the cpqDaPhyDrvPostErrs object in the Physical Drive Table.

cpqDaPhyDrvThrNotReadyErrs Drive Not Ready Errors Maximum Threshold.

This shows the maximum threshold of the number of times the physical drive failed after the spin up command was issued during the reference time (phyDrvRefTime).  When the spin up command was issued, the drive failed to reach its ready state.

This threshold is associated with the cpqDaPhyDrvNotReadyErrs object in the Physical Drive Table.

cpqDaPhyDrvThrReallocAborts Physical Drive Reallocation Aborts Maximum Threshold.

This shows the maximum threshold of the number of times the physical drive has failed due to an error that occurred when the controller was trying to reallocate a bad sector during the reference time (phyDrvRefTime).

This threshold is associated with the cpqDaPhyDrvReallocAborts object in the Physical Drive Table.

cpqDaPhyDrvThrHotPlugs Physical Drive Hot Plug Count Maximum Threshold.

This shows the maximum threshold of the number of times this physical drive can be hot-plugged (removed) from a ProLiant Storage System.

This threshold is associated with the cpqDaPhyDrvHotPlugs object in the Physical Drive Table.

cpqDaPhyDrvThrMediaErrs Physical Drive Media Failure Count Maximum Threshold.

This shows the maximum threshold of the number of times this physical drive can be failed due to unrecoverable media errors.

This threshold is associated with the cpqDaPhyDrvMediaErrs object in the Physical Drive Table.

cpqDaPhyDrvThrHardwareErrs Physical Drive Hardware Error Count Maximum Threshold.

This shows the maximum threshold of the number of times this physical drive can return a bad hardware status.  The drive may be failed if retries do not work.  This is not supported by the IDA, IDA Expansion, or IDA-2 controllers.

This threshold is associated with the cpqDaPhyDrvHardwareErrs object in the Physical Drive Table.

cpqDaPhyDrvThrAbortedCmds Physical Drive Aborted Command Failures Maximum Threshold.

This shows the maximum threshold of the number of times this physical drive can be failed due to aborted commands that could not be retried successfully.  This is not supported by the IDA, IDA Expansion, or IDA-2 controllers.

This threshold is associated with the cpqDaPhyDrvAbortedCmds object in the Physical Drive Table.

cpqDaPhyDrvThrSpinUpErrs Physical Drive Spin-Up Failure Count Maximum Threshold.

This shows the maximum threshold of the number of times this physical drive was failed due to a failure of a spin-up command. This is not supported by the IDA, IDA Expansion, or IDA-2 controllers.

This threshold is associated with the cpqDaPhyDrvSpinUpErrs object in the Physical Drive Table.

cpqDaPhyDrvThrBadTargetErrs Physical Drive Bad Target Count Maximum Threshold.

This shows the maximum threshold of the number of times this physical drive can perform some action that did not conform to the SCSI-2 bus protocol. These actions will cause the SCSI bus to be reset. This is not supported by the IDA, IDA Expansion, or IDA-2 controllers.

This threshold is associated with the cpqDaPhyDrvBadTargetErrs object in the Physical Drive Table.

cpqDaPhyDrvThrViUsedReallocs Used Reallocated Sectors Threshold Has Been Violated.

This is used to indicate whether the number of used sectors of the reallocation area for a physical drive has ever exceeded the maximum allowable threshold.

The valid values are:

false (1)
 Indicates that the Used Reallocated Sectors object
 (cpqDaPhyDrvUsedReallocs) value has not exceeded
 the maximum threshold (cpqDaPhyDrvThrUsedReallocs).

true (2)
 Indicates that the Used Reallocated Sectors object
 (cpqDaPhyDrvUsedReallocs) value has exceeded
 the maximum threshold (cpqDaPhyDrvThrUsedReallocs).

unknown (4294967295)
 The agent is unable to determine if the drive has a
 threshold violation.

cpqDaPhyDrvThrViSpinupTime Spin up Time in tenths of seconds Threshold Has Been Violated.

This is used to indicate whether the time it took for a physical drive to spin up to full speed has ever exceeded the maximum allowable threshold.

The valid values are:

false (1)
 Indicates that the Spin up Time object (cpqDaPhyDrvSpinupTime)
 value has not exceeded the maximum threshold
 (cpqDaPhyDrvThrSpinupTime).

true (2)
 Indicates that the Spin up Time object (cpqDaPhyDrvSpinupTime)
 value has exceeded the maximum threshold
 (cpqDaPhyDrvThrSpinupTime).

unknown (4294967295)
 The agent is unable to determine if the drive has a
 threshold violation.

cpqDaPhyDrvThrViFunctTest1 Functional Test 1 Threshold Has Been Violated.

This is used to indicate whether the percentage value returned from Functional Test 1 has every dropped below the allowable threshold for that test.

The valid values are:

false (1)
 Indicates that the Functional Test 1 object
 (cpqDaPhyDrvFunctTest1) value has not fallen below the
 minimum threshold (cpqDaPhyDrvThrFunctTest1).

true (2)
 Indicates that the Functional Test 1 object
 (cpqDaPhyDrvFunctTest1) value has fallen below
 the minimum threshold (cpqDaPhyDrvThrFunctTest1).

unknown (4294967295)
 The agent is unable to determine if the drive has a
 threshold violation.

cpqDaPhyDrvThrViFunctTest2 Functional Test 2 Threshold Has Been Violated.

This is used to indicate whether the percentage value returned from Functional Test 2 has every dropped below the allowable threshold for that test.

The valid values are:

false (1)
 Indicates that the Functional Test 2 object
 (cpqDaPhyDrvFunctTest2) value has not fallen below
 the minimum threshold (cpqDaPhyDrvThrFunctTest2).

true (2)
 Indicates that the Functional Test 2 object
 (cpqDaPhyDrvFunctTest2) value has fallen below
 the minimum threshold (cpqDaPhyDrvThrFunctTest2).

unknown (4294967295)
 The agent is unable to determine if the drive has a
 threshold violation.

cpqDaPhyDrvThrViFunctTest3 Functional Test 3 Threshold Has Been Violated.

This is used to indicate whether the percentage value returned from Functional Test 3 has every dropped below the allowable threshold for that test.

The valid values are:

false (1)
 Indicates that the Functional Test 3 object
 (cpqDaPhyDrvFunctTest3) value has not fallen below
 the minimum threshold (cpqDaPhyDrvThrFunctTest3).

true (2)
 Indicates that the Functional Test 3 object
 (cpqDaPhyDrvFunctTest3) value has fallen below
 the minimum threshold (cpqDaPhyDrvThrFunctTest3).

unknown (4294967295)
 The agent is unable to determine if the drive has a
 threshold violation.

cpqDaPhyDrvThrBusFaults Physical Drive Bus Fault Count Maximum Threshold.

This shows the maximum threshold of the number of times this physical drive can return a bus fault status. The drive may be failed if retries do not work.  This is not supported by the IDA, IDA Expansion, or IDA-2 controllers.

This threshold is associated with the cpqDaPhyDrvBusFaults object in the Physical Drive Table.

cpqDaPhyDrvThrIrqDeglitches Physical Drive IRQ Deglitch Count Maximum Threshold.

This shows the maximum threshold of the number of times this physical drive can return a IRQ deglitch status. The drive may be failed if retries do not work.  This is not supported by the IDA, IDA Expansion, or IDA-2 controllers.

This threshold is associated with the cpqDaPhyDrvIrqDeglitches object in the Physical Drive Table.

cpqDaCntlrPerfTable Drive Array Controller Performance Monitor Table.

A table of controller entries supporting the performance monitor information.

cpqDaCntlrPerfEntry Drive Array Controller Performance Monitor Entry.

A performance monitor entry.

cpqDaCntlrPerfCntlrIndex Drive Array Controller Performance Monitor Controller Index.

This maps the performance monitor information into their respective controllers which support performance data.

cpqDaCntlrPerfInstance Drive Array Controller Performance Monitor Instance Index.

This maps the performance monitor information for a specific controller and sample interval to controllers which support performance data.

cpqDaCntlrPerfSampleInterval Array Controller Performance Monitor Sample Interval.

This value indicates the length of the performance interval for this controller and all logical volumes associated with this controller.  This value is reported in seconds.

cpqDaCntlrPerfVersion Array Controller Performance Monitor Version.

This value specifies the version of the performance monitor interface.

cpqDaCntlrPerfCpuPercentBusy Array Controller Performance Monitor Cpu Percent Busy.

This value specifies the total CPU percent busy as a number from 0 to 100 inclusive.

If the value cannot be determined, the value is set to -1.

cpqDaCntlrPerfCommandCount Array Controller Performance Monitor Command Count.

This value shows the total number of read and write commands processed in this sample.  This value is expressed in read and write commands per second.

cpqDaCntlrPerfAvgLatency Array Controller Performance Monitor Average Command Latency.

This value shows the average command latency for this sample in 1/10,000 second units.

cpqDaLogDrvPerfTable Drive Array Logical Drive Performance Monitor Table.

A table of logical drive entries supporting the performance monitor information.

cpqDaLogDrvPerfEntry Drive Array Logical Drive Performance Monitor Entry.

A performance monitor entry.

cpqDaLogDrvPerfCntlrIndex Drive Array Logical Drive Performance Monitor Controller Index.

This maps the performance monitor information into their respective controllers which support performance data.

cpqDaLogDrvPerfIndex Drive Array Logical Drive Performance Monitor Drive Index.

This maps the performance monitor information into their respective logical drives which support performance data.

cpqDaLogDrvPerfInstance Drive Array Logical Drive Performance Monitor Instance Index.

This maps the performance monitor information for a specific controller, logical drive and sample interval to controllers which support performance data.

cpqDaLogDrvPerfSampleInterval Array Logical Drive Performance Monitor Sample Interval.

This value indicates the length of the performance interval for this controller and all logical volumes associated with this controller.  This value is reported in seconds.

cpqDaLogDrvPerfAvgQueueDepth Array Logical Drive Performance Monitor Average Queue Depth.

This value indicates the average command queue depth of the logical volume.

cpqDaLogDrvPerfReads Array Logical Drive Performance Monitor Reads.

This value is the count of read requests for the logical volume expressed in reads per second.

cpqDaLogDrvPerfWrites Array Logical Drive Performance Monitor Writes.

This value is the count of write requests for the logical volume expressed in writes per second.

cpqDaLogDrvPerfTotalIO Array Logical Drive Performance Monitor Total I/O.

This value shows the total number of read and write requests for the logical volume expressed in reads and writes per second.

cpqDaLogDrvPerfCacheHits Array Logical Drive Performance Monitor Cache Hits.

This value shows the total number of read cache hits for the logical volume.  This value is expressed in cache hits per second.

cpqDaLogDrvPerfCacheMisses Array Logical Drive Performance Monitor Cache Misses.

This value shows the total number of read cache misses for the logical volume.  This value is expressed in cache misses per second.

cpqDaLogDrvPerfReadAheadSectors Array Logical Drive Performance Monitor Read Ahead Sectors.

This value shows the total number read ahead sectors pre-fetched for the logical volume for this interval.  This value is expressed in sectors per second.

cpqDaLogDrvPerfSectorsRead Array Logical Drive Performance Monitor Sectors Read.

This value shows the number of sectors read for the logical volume for this interval.  This value is expressed in sectors per second.

cpqDaLogDrvPerfSectorsWritten Array Logical Drive Performance Monitor Sectors Written.

This value shows the number of sectors written for the logical volume for this interval.  This value is expressed in sectors per second.

cpqDaTapeDrvTable Drive Array Tape Drive Table.

A table of tape drive entries.

cpqDaTapeDrvEntry Drive Array Tape Drive Entry.

A tape drive entry.

cpqDaTapeDrvCntlrIndex Drive Array Tape Drive Controller Index.

This index maps the tape drive back to the controller to which it is attached. The value of this index is the same as the one used under the controller group.

cpqDaTapeDrvBusIndex Drive Array Tape Drive SCSI Bus Index.

This is the controller SCSI bus to which the tape drive is attached.

cpqDaTapeDrvScsiIdIndex Drive Array Tape Drive SCSI Index.

This is the SCSI Target Id of the tape drive.

cpqDaTapeDrvLunIndex Drive Array Tape Drive Logical Unit Number Index.

This is the logical unit number of the tape drive.

cpqDaTapeDrvName Drive Array Tape Drive Model Name.

This is the model name of the tape drive.  It can be used for identification purposes.

cpqDaTapeDrvSerialNumber Drive Array Tape Drive Serial Number.

This is the unit serial number for the tape drive.  It can be used for identification purposes.

cpqDaTapeDrvFwRev Drive Array Tape Drive Firmware Revision.

This is firmware revision level of the tape drive.  It can be used for identification purposes.

cpqDaTapeDrvStatus Drive Array Tape Drive Status.

The tape drive can be in one of the following states:

other(1)
 The tape drive is in a state other than one of those listed
 below.

ok(2)
 Indicates that the tape drive is in normal operation mode.
 No user action is necessary.

degraded(3)
 Indicates that the tape drive has degraded in some manner.

failed(4)
 Indicates that the tape drive has failed and can no longer
 return data.  The tape drive may need to be replaced.

offline(5)
 Indicates that the Agents can no longer communicate with the
 tape drive.  This could be caused by a cabling problem or the
 tape drive may be powered off.

missingWasOk(6)
 Indicates that a tape drive had a status of OK and is no
 longer present.  The drive has been removed.

missingWasOffline(7)
 Indicates that a tape drive had a status of OFFLINE and is no
 longer present.  The drive has been removed.

cpqDaTapeDrvCondition Drive Array Tape Drive Condition.

This value represents the overall condition of the tape drive.

cpqDaTapeDrvFwSubtype Drive Array Tape Drive Firmware Subtype.

This is used to differentiate the firmware versions which have the same tape drive type (as specified by cpqDaTapeDrvType).  Tape drives will contain a value of 1 for this variable when they first ship, and this value will be incremented if future versions are shipped which are not firmware compatible with the predecessor.  If the tape drive does not support this capability, a value of 0 will be returned.

cpqDaTapeDrvType Drive Array Tape Drive Type.

This is the drives model, and can be used for identification purposes.  The following values are defined:

other(1)
  The management agent does not recognize this model.
  You may need to upgrade your software.

cpqDat4-16(2)
  Compaq 4/8-Gigabyte TurboDAT Drive.

cpqDatAuto(3)
  Compaq TurboDAT Autoloader.

cpqDat2-8(4)
  Compaq 2/8-Gigabyte TurboDAT Drive.

cpqDlt10-20(5)
  Compaq 10/20-GB DLT Drive.

cpqDlt20-40(6)
  Compaq 20/40-GB DLT Drive.

cpqDlt15-30(7)
  Compaq 15/30-GB DLT Drive.

cpqDlt35-70(8)
  Compaq 35/70-GB DLT Drive.

cpqDat4-8(9)
  Compaq 4/8-GB DAT Drive.

cpqSlr4-8(10)
  Compaq 4/8-GB SLR Drive.

cpqDat12-24(11)
  Compaq 12/24-GB DAT Drive.

cpqDatAuto12-24(12)
  Compaq 12/24-GB DAT Autoloader.

cpqAit35(14)
  Compaq AIT 35GB Drive.

cpqAit50(15)
  Compaq AIT 50GB Drive.

cpqDat20-40(16)
  Compaq 20/40GB DAT Drive.

cpqDlt40-80(17)
  Compaq 40/80GB DLT Drive.

cpqDatAuto20-40(18)
  Compaq 20/40GB DAT Autoloader.

cpqDaTapeDrvCleanReq Drive Array Tape Drive Cleaning Required.

This is an indication of whether the tape drive heads require a cleaning session to occur.  If this variable indicates a need to clean the tape heads, then a cleaning tape will need to be inserted and run through a cleaning cycle.

This variable can be in one of the following states:

other(1)
The tape drive does not support monitoring of the cleaning
required status.

true(2)
The tape drive requires a cleaning tape session in order
to clean the heads.

false(3)
The tape drive does not require any cleaning tape session.

cpqDaTapeDrvCleanTapeRepl Drive Array Tape Drive Cleaning Tape Replacement.

This variable is only applicable to autoloader tape drives. This variable indicates whether the cleaning tape which is inserted in an autoloader needs to be replaced because its cleaning capability is exhausted (it is at end of tape).

This variable can be in one of the following states:

other(1)
The tape drive does not support monitoring of the cleaning
tape replacement status.

true(2)
The autoloader tape drive requires a new cleaning tape to
be inserted.

false(3)
The tape drive does not require a new cleaning tape.

cpqDaTapeDrvCleanTapeCount Drive Array Tape Drive Cleaning Tape Count.

This variable is a count from a tape drive of the number of cleanings done by the tape cleaner last in the drive.

cpqDaTapeDrvLibraryDrive Drive Array Tape Drive Library Drive.

This variable indicates whether or not the tape drive is part of a tape library.  It can be in one of the following states:

other(1)
Indicates that the instrument agent cannot determine if the
tape drive is part of a tape library.

true(2)
The tape drive is part of a tape library.

false(3)
The tape drive is not part of a tape library.

cpqDaTapeDrvMagSize Tape Physical Drive Magazine Size.

This variable indicates the number of tape slots available in the tape autoloader magazine cartridge that is currently loaded into the tape drive.

For non-autoloader devices, this value will be -1.

cpqDaTapeDrvHotPlug Drive Array Tape Drive Hot Plug Support Status.

The following values are defined:

other(1)
 The agent is unable to determine if this drive
 supports hot plug replacement.

hotPlug(2)
 The drive supports hot plug replacement.

nonhotPlug(3)
 The drive does not support hot plug replacement.

cpqDaTapeDrvPlacement Drive Array Tape Drive Placement.

The following values are defined:

other(1)
 The agent is unable to determine if the tape drive is
 internal or external to the system chassis.

internal(2)
 The tape drive is located in an internal Proliant system
 chassis.

external(3)
 The tape drive is located in an external Proliant storage
 system.

cpqDaTapeDrvCurrentWidth Drive Array Tape Drive Current Width.

The following values are defined:

other(1)
 The agent is unable to determine the current negotiated data
 transfer width for this drive.

narrow(2)
 The negotiated data transfer width for this drive is narrow
 (8 data bits).

wide16(3)
 The negotiated data transfer width for this drive is wide
 (16 data bits).

cpqDaTapeDrvCurrentSpeed Drive Array Tape Drive Current Data Transfer Speed.

The following values are defined:

other(1)
 The agent is unable to determine the current negotiated data
 transfer speed for this drive.

asynchronous(2)
 The negotiated data transfer speed for this drive is
 asynchronous.

fast(3)
 The negotiated data transfer speed for this drive is 10 million
 transfers per second).

ultra(4)
 The negotiated data transfer speed for this drive is 20 million
 transfers per second.

ultra2(5)
 The negotiated data transfer speed for this drive is 40 million
 transfers per second.

ultra3(6)
 The negotiated data transfer speed for this drive is 80 million
 transfers per second.

cpqDaTapeCountersTable Drive Array Tape Counters Table.

cpqDaTapeCountersEntry Drive Array Tape Counters Entry.

cpqDaTapeCountersCntlrIndex Drive Array Tape Counters Controller Index.

This index maps the tape drive back to the controller to which it is attached. The value of this index is the same as the one used under the controller group.

cpqDaTapeCountersBusIndex Drive Array Tape Counters Scsi Bus Index.

This is the controller SCSI bus to which the tape drive is attached.

cpqDaTapeCountersScsiIdIndex Drive Array Tape Counters SCSI Index.

This is the SCSI Target Id of the tape drive.

cpqDaTapeCountersLunIndex Drive Array Tape Counters Logical Unit Number Index.

This is the logical unit number of the tape drive.

cpqDaTapeCountersReWrites Tape Device Re-write count.

This is the number of times blocks had to be re-written to the device.  This value is maintained since the Tape Hardware Interface driver was loaded.

Re-write errors may occasionally occur.  If this value should rise dramatically, you may need to clean the device.  If you continue to have re-writes, you may have a problem.  Some common causes include radio frequency interference (RFI) on the bus cables, bad or missing terminating resisters on the drives or having more than one device with the same SCSI ID.  Insure the bus cable is free of obstructions and that the devices on the bus are properly configured.

cpqDaTapeCountersReReads Tape Device Re-read count.

This is the number of times blocks had to be re-read from the device.  This value is maintained since the Tape Hardware Interface driver was loaded.

Re-read errors may occasionally occur.  If this value should rise dramatically, you may need to clean the device.  If you continue to have re-reads, you may have a problem.  Some common causes include radio frequency interference (RFI) on the bus cables, bad or missing terminating resisters on the drives or having more than one device with the same SCSI ID.  Insure the bus cable is free of obstructions and that the devices on the bus are properly configured.

cpqDaTapeCountersTotalErrors Tape Device Total Errors.

This is the total number of read/write errors encountered. This value is maintained since the Tape Hardware Interface driver was loaded.

Errors may occasionally occur.  If this value should rise dramatically, you may need to clean the device.  If you continue to have errors, you may have a problem.  Some common causes include radio frequency interference (RFI) on the bus cables, bad or missing terminating resisters on the drives or having more than one device with the same SCSI ID.  Insure the bus cable is free of obstructions and that the devices on the bus are properly configured.

cpqDaTapeCountersTotalUncorrectable Tape Device Total Uncorrectable Errors.

This is the total number of read and write errors which could not be corrected.  This value is maintained since the Tape Hardware Interface driver was loaded.

Errors may occasionally occur.  If this value should rise dramatically, you may need to clean the device.  If you continue to have errors, you may have a problem.  Some common causes include radio frequency interference (RFI) on the bus cables, bad or missing terminating resisters on the drives or having more than one device with the same SCSI ID.  Insure the bus cable is free of obstructions and that the devices on the bus are properly configured.

cpqDaTapeCountersTotalBytes Tape Device Total Bytes.

This is the number total number of bytes read/written to the tape currently installed in the device.  This value is reset whenever a new tape is inserted into the device.

cpqDaTapeLibraryTable Drive Array Tape Library Table.

cpqDaTapeLibraryEntry Drive Array Tape Library Entry.

cpqDaTapeLibraryCntlrIndex Drive Array Tape Library Controller Index.

This index maps the tape library back to the controller to which it is attached. The value of this index is the same as the one used under the controller group.

cpqDaTapeLibraryScsiBus Drive Array Tape Library Scsi Bus.

The bus index indicates to which SCSI bus instance on a controller this table entry belongs.  The instances start at one and increment for each SCSI bus on a controller.

cpqDaTapeLibraryScsiTarget Drive Array Tape Library Scsi Target.

The target index indicates to which SCSI ID on a controller SCSI bus this table entry belongs.

cpqDaTapeLibraryScsiLun Drive Array Tape Library Scsi Lun.

The Lun index indicates to which logical unit on a SCSI ID on a controller SCSI bus this table entry belongs.

cpqDaTapeLibrarySerialNumber Drive Array Tape Library Serial Number.

This is the unit serial number for the tape library.  It can be used for identification purposes.

cpqDaTapeLibraryModel Drive Array Tape Library Model.

This is the model name of the tape library.  It can be used for identification purposes.

cpqDaTapeLibraryFWRev Drive Array Tape Library Serial Number.

This is firmware revision level of the tape library.  It can be used for identification purposes.

cpqDaTapeLibraryStatus Drive Array Tape Library Status.

The library can be in one of the following states:

other(1)
 The library is in a state other than one of those listed
 below.

ok(2)
 Indicates that the library is in normal operation mode.
 No user action is necessary.

degraded(3)
 Indicates that the library has degraded in some manner.

failed(4)
 Indicates that the library has failed and can no longer
 return data.  The library may need to be replaced.

offline(5)
 Indicates that the Insight Agents can no longer communicate with
 the library.  This could be caused by a cabling problem or the
 library may be powered off.

cpqDaTapeLibraryDoorStatus Drive Array Tape Library Door Status.

The door can be in one of the following states:

other(1)
 The door is in a state other than one of those listed
 below.

notSupported(2)
 The door status is not supported by the device.

closed(3)
 The door is closed.

open(4)
 The door is open.

cpqDaTapeLibraryCondition Drive Array Tape Library Condition.

This value represents the overall condition of the tape library.

cpqDaTapeLibraryOverallCondition Drive Array Tape Library Overall Condition.

This value represents the overall condition of the tape library and any associated tape drives.

cpqDaTapeLibraryLastError Drive Array Tape Library Last Error.

This is the last error returned by the tape library.

cpqDaTapeLibraryStatHours Drive Array Tape Library Stat Hours.

This is the number of hours of operation for the library.

cpqDaTapeLibraryStatMoves Drive Array Tape Library Stat Moves.

This is the number of tape moves for the library loader arm.

cpqDaTapeLibraryDriveList Drive Array Tape Library Tape Drive List.

This is a data structure containing the list of tape drive ids that are present in this library.  The format is:

 field  octets  contents
 =====  ======  ========
   1      1     Tape controller slot index
   2      2     Tape drive SCSI bus
   3      3     Tape drive SCSI target
   4      4     Tape drive SCSI logical unit number

These 4 octets are repeated for each drive in the library.  For n tape drives in a library, the string is 4 * n octets long.

cpqDaTapeLibraryCurrentWidth Drive Array Tape Library Current Width.

The following values are defined:

other(1)
 The agent is unable to determine the current negotiated data
 transfer width for this library.

narrow(2)
 The negotiated data transfer width for this library is narrow
 (8 data bits).

wide16(3)
 The negotiated data transfer width for this library is wide
 (16 data bits).

cpqDaTapeLibraryCurrentSpeed Drive Array Tape Library Current Data Transfer Speed.

The following values are defined:

other(1)
 The agent is unable to determine the current negotiated data
 transfer speed for this library.

asynchronous(2)
 The negotiated data transfer speed for this library is
 asynchronous.

fast(3)
 The negotiated data transfer speed for this library is 10
 million transfers per second).

ultra(4)
 The negotiated data transfer speed for this library is 20
 million transfers per second.

ultra2(5)
 The negotiated data transfer speed for this library is 40
 million transfers per second.

ultra3(6)
 The negotiated data transfer speed for this library is 80
 million transfers per second.

cpqDaTapeLibraryDriveList2 Drive Array Tape Library Tape Drive List 2.

This is a data structure containing the list of tape drive ids that are present in this library.  The format is:

 field  octets  contents
 =====  ======  ========
   1     1-4    Tape controller index
   2      5     Tape drive SCSI bus
   3      6     Tape drive SCSI target
   4      7     Tape drive SCSI logical unit number

These 7 octets are repeated for each drive in the library.  For n tape drives in a library, the string is 7 * n octets long.

cpqDaTrapPkts The total number of trap packets issued by the drive array enterprise since the instrument agent was loaded.

cpqDaTrapLogMaxSize The maximum number of entries that will currently be kept in the trap log.  If the maximum size has been reached and a new trap occurs the oldest trap will be removed.

cpqDaTrapLogTable An ordered list of trap log entries (conceptually a queue).

The trap log entries will be kept in the order in which they were generated with the most recent trap at index 1 and the oldest trap entry at index trapLogMaxSize.  If the maximum number size has been reached and a new trap occurs the oldest trap will be removed when the new trap is added so the trapMaxLogSize is not exceeded.

cpqDaTrapLogEntry A description of a trap event.

cpqDaTrapLogIndex This value uniquely identifies this trapLogEntry at this time.

The most recent trap will have an index of 1 and the oldest trap will have an index of trapLogMaxSize.  Because of the queue-like nature of the trapLog this particular trap event's index will change as new traps are issued.

cpqDaTrapType The type of the trap event that this entry describes.

This number refers to an entry in a list of traps enumerating the possible traps the Drive Array agent may issue.

cpqDaTrapTime The time of the trap event that this entry describes.

The time is given in year (first octet), month, day of month, hour, minute, second (last octet) order.  Each octet gives the value in BCD.