Коллеги!
Так как все таки получить следующие сведения о жестком диске:
1. Сериный номер (не тома, а именно диска)
2. Название (производитель)
3. Ну и что еще есть, например, дата, версия и так далее...
Спасибо, Макс
For i = 0 To NUM_ATTRIBUTE_STRUCTS - 1
If bArrOut(18 + i * 12) > 0 Then
...
...
'' // Right here:
di.Attributes(di.NumAttributes).AttrName = colAttrNames(CStr(bArrOut(18 + i * 12)))
'' //
...
...
di.Attributes(di.NumAttributes).WorstValue = bArrOut(22 + i * 12)
End If
Next i
Melkosoft Visual Basic писал(а):Неправильный вызов процедуры или аргумент
Option Explicit
Public Const MAX_IDE_DRIVES = 4 ' // Max number of drives assuming primary/secondary, master/slave topology
Public Const READ_ATTRIBUTE_BUFFER_SIZE = 512
Public Const IDENTIFY_BUFFER_SIZE = 512
Public Const READ_THRESHOLD_BUFFER_SIZE = 512
Public Const OUTPUT_DATA_SIZE = IDENTIFY_BUFFER_SIZE + 16
'IOCTL commands
Public Const DFP_GET_VERSION = &H74080
Public Const DFP_SEND_DRIVE_COMMAND = &H7C084
Public Const DFP_RECEIVE_DRIVE_DATA = &H7C088
'---------------------------------------------------------------------
' GETVERSIONOUTPARAMS contains the data returned from the
' Get Driver Version function.
'---------------------------------------------------------------------
Public Type GETVERSIONOUTPARAMS
bVersion As Byte ' Binary driver version.
bRevision As Byte ' Binary driver revision.
bReserved As Byte ' Not used.
bIDEDeviceMap As Byte ' Bit map of IDE devices.
fCapabilities As Long ' Bit mask of driver capabilities.
dwReserved(3) As Long ' For future use.
End Type
'Bits returned in the fCapabilities member of GETVERSIONOUTPARAMS
Public Const CAP_IDE_ID_FUNCTION = 1 ' ATA ID command supported
Public Const CAP_IDE_ATAPI_ID = 2 ' ATAPI ID command supported
Public Const CAP_IDE_EXECUTE_SMART_FUNCTION = 4 ' SMART commannds supported
'---------------------------------------------------------------------
' IDE registers
'---------------------------------------------------------------------
Public Type IDEREGS
bFeaturesReg As Byte ' // Used for specifying SMART "commands".
bSectorCountReg As Byte ' // IDE sector count register
bSectorNumberReg As Byte ' // IDE sector number register
bCylLowReg As Byte ' // IDE low order cylinder value
bCylHighReg As Byte ' // IDE high order cylinder value
bDriveHeadReg As Byte ' // IDE drive/head register
bCommandReg As Byte ' // Actual IDE command.
bReserved As Byte ' // reserved for future use. Must be zero.
End Type
'---------------------------------------------------------------------
' SENDCMDINPARAMS contains the input parameters for the
' Send Command to Drive function.
'---------------------------------------------------------------------
Public Type SENDCMDINPARAMS
cBufferSize As Long ' Buffer size in bytes
irDriveRegs As IDEREGS ' Structure with drive register values.
bDriveNumber As Byte ' Physical drive number to send command to (0,1,2,3).
bReserved(2) As Byte ' Bytes reserved
dwReserved(3) As Long ' DWORDS reserved
bBuffer() As Byte ' Input buffer.
End Type
' Valid values for the bCommandReg member of IDEREGS.
Public Const IDE_ATAPI_ID = &HA1 ' Returns ID sector for ATAPI.
Public Const IDE_ID_FUNCTION = &HEC ' Returns ID sector for ATA.
Public Const IDE_EXECUTE_SMART_FUNCTION = &HB0 ' Performs SMART cmd.
' Requires valid bFeaturesReg,
' bCylLowReg, and bCylHighReg
' Cylinder register values required when issuing SMART command
Public Const SMART_CYL_LOW = &H4F
Public Const SMART_CYL_HI = &HC2
'---------------------------------------------------------------------
' Status returned from driver
'---------------------------------------------------------------------
Public Type DRIVERSTATUS
bDriverError As Byte ' Error code from driver, or 0 if no error.
bIDEStatus As Byte ' Contents of IDE Error register.
' Only valid when bDriverError is SMART_IDE_ERROR.
bReserved(1) As Byte
dwReserved(1) As Long
End Type
' bDriverError values
Public Enum DRIVER_ERRORS
SMART_NO_ERROR = 0 ' No error
SMART_IDE_ERROR = 1 ' Error from IDE controller
SMART_INVALID_FLAG = 2 ' Invalid command flag
SMART_INVALID_COMMAND = 3 ' Invalid command byte
SMART_INVALID_BUFFER = 4 ' Bad buffer (null, invalid addr..)
SMART_INVALID_DRIVE = 5 ' Drive number not valid
SMART_INVALID_IOCTL = 6 ' Invalid IOCTL
SMART_ERROR_NO_MEM = 7 ' Could not lock user's buffer
SMART_INVALID_REGISTER = 8 ' Some IDE Register not valid
SMART_NOT_SUPPORTED = 9 ' Invalid cmd flag set
SMART_NO_IDE_DEVICE = 10 ' Cmd issued to device not present
' although drive number is valid
' 11-255 reserved
End Enum
'---------------------------------------------------------------------
' The following struct defines the interesting part of the IDENTIFY
' buffer:
'---------------------------------------------------------------------
Public Type IDSECTOR
wGenConfig As Integer
wNumCyls As Integer
wReserved As Integer
wNumHeads As Integer
wBytesPerTrack As Integer
wBytesPerSector As Integer
wSectorsPerTrack As Integer
wVendorUnique(2) As Integer
sSerialNumber(19) As Byte
wBufferType As Integer
wBufferSize As Integer
wECCSize As Integer
sFirmwareRev(7) As Byte
sModelNumber(39) As Byte
wMoreVendorUnique As Integer
wDoubleWordIO As Integer
wCapabilities As Integer
wReserved1 As Integer
wPIOTiming As Integer
wDMATiming As Integer
wBS As Integer
wNumCurrentCyls As Integer
wNumCurrentHeads As Integer
wNumCurrentSectorsPerTrack As Integer
ulCurrentSectorCapacity As Long
wMultSectorStuff As Integer
ulTotalAddressableSectors As Long
wSingleWordDMA As Integer
wMultiWordDMA As Integer
bReserved(127) As Byte
End Type
'---------------------------------------------------------------------
' Structure returned by SMART IOCTL for several commands
'---------------------------------------------------------------------
Public Type SENDCMDOUTPARAMS
cBufferSize As Long ' Size of bBuffer in bytes (IDENTIFY_BUFFER_SIZE in our case)
DRIVERSTATUS As DRIVERSTATUS ' Driver status structure.
bBuffer() As Byte ' Buffer of arbitrary length in which to store the data read from the drive.
End Type
'---------------------------------------------------------------------
' Feature register defines for SMART "sub commands"
'---------------------------------------------------------------------
Public Const SMART_READ_ATTRIBUTE_VALUES = &HD0
Public Const SMART_READ_ATTRIBUTE_THRESHOLDS = &HD1
Public Const SMART_ENABLE_DISABLE_ATTRIBUTE_AUTOSAVE = &HD2
Public Const SMART_SAVE_ATTRIBUTE_VALUES = &HD3
Public Const SMART_EXECUTE_OFFLINE_IMMEDIATE = &HD4
' Vendor specific commands:
Public Const SMART_ENABLE_SMART_OPERATIONS = &HD8
Public Const SMART_DISABLE_SMART_OPERATIONS = &HD9
Public Const SMART_RETURN_SMART_STATUS = &HDA
'---------------------------------------------------------------------
' The following structure defines the structure of a Drive Attribute
'---------------------------------------------------------------------
Public Const NUM_ATTRIBUTE_STRUCTS = 30
Public Type DRIVEATTRIBUTE
bAttrID As Byte ' Identifies which attribute
wStatusFlags As Integer 'Integer ' see bit definitions below
bAttrValue As Byte ' Current normalized value
bWorstValue As Byte ' How bad has it ever been?
bRawValue(5) As Byte ' Un-normalized value
bReserved As Byte ' ...
End Type
'---------------------------------------------------------------------
' Status Flags Values
'---------------------------------------------------------------------
Public Enum STATUS_FLAGS
PRE_FAILURE_WARRANTY = &H1
ON_LINE_COLLECTION = &H2
PERFORMANCE_ATTRIBUTE = &H4
ERROR_RATE_ATTRIBUTE = &H8
EVENT_COUNT_ATTRIBUTE = &H10
SELF_PRESERVING_ATTRIBUTE = &H20
End Enum
'---------------------------------------------------------------------
' The following structure defines the structure of a Warranty Threshold
' Obsoleted in ATA4!
'---------------------------------------------------------------------
Public Type ATTRTHRESHOLD
bAttrID As Byte ' Identifies which attribute
bWarrantyThreshold As Byte ' Triggering value
bReserved(9) As Byte ' ...
End Type
'---------------------------------------------------------------------
' Valid Attribute IDs
'---------------------------------------------------------------------
Public Enum ATTRIBUTE_ID
ATTR_INVALID = 0
ATTR_READ_ERROR_RATE = 1
ATTR_THROUGHPUT_PERF = 2
ATTR_SPIN_UP_TIME = 3
ATTR_START_STOP_COUNT = 4
ATTR_REALLOC_SECTOR_COUNT = 5
ATTR_READ_CHANNEL_MARGIN = 6
ATTR_SEEK_ERROR_RATE = 7
ATTR_SEEK_TIME_PERF = 8
ATTR_POWER_ON_HRS_COUNT = 9
ATTR_SPIN_RETRY_COUNT = 10
ATTR_CALIBRATION_RETRY_COUNT = 11
ATTR_POWER_CYCLE_COUNT = 12
ATTR_SOFT_READ_ERROR_RATE = 13
ATTR_G_SENSE_ERROR_RATE = 191
ATTR_POWER_OFF_RETRACT_CYCLE = 192
ATTR_LOAD_UNLOAD_CYCLE_COUNT = 193
ATTR_TEMPERATURE = 194
ATTR_REALLOCATION_EVENTS_COUNT = 196
ATTR_CURRENT_PENDING_SECTOR_COUNT = 197
ATTR_UNCORRECTABLE_SECTOR_COUNT = 198
ATTR_ULTRADMA_CRC_ERROR_RATE = 199
ATTR_WRITE_ERROR_RATE = 200
ATTR_DISK_SHIFT = 220
ATTR_G_SENSE_ERROR_RATEII = 221
ATTR_LOADED_HOURS = 222
ATTR_LOAD_UNLOAD_RETRY_COUNT = 223
ATTR_LOAD_FRICTION = 224
ATTR_LOAD_UNLOAD_CYCLE_COUNTII = 225
ATTR_LOAD_IN_TIME = 226
ATTR_TORQUE_AMPLIFICATION_COUNT = 227
ATTR_POWER_OFF_RETRACT_COUNT = 228
ATTR_GMR_HEAD_AMPLITUDE = 230
ATTR_TEMPERATUREII = 231
ATTR_READ_ERROR_RETRY_RATE = 250
End Enum
Private Type OSVERSIONINFO
dwOSVersionInfoSize As Long
dwMajorVersion As Long
dwMinorVersion As Long
dwBuildNumber As Long
dwPlatformId As Long
szCSDVersion As String * 128
End Type
Private Declare Function GetVersionEx Lib "kernel32" Alias "GetVersionExA" (LpVersionInformation As OSVERSIONINFO) As Long
Private Type ATTR_DATA
AttrID As Byte
AttrName As String
AttrValue As Byte
ThresholdValue As Byte
WorstValue As Byte
StatusFlags As STATUS_FLAGS
End Type
Public Type DRIVE_INFO
bDriveType As Byte
SerialNumber As String
Model As String
FirmWare As String
Cilinders As Long
Heads As Long
SecPerTrack As Long
BytesPerSector As Long
BytesperTrack As Long
NumAttributes As Byte
Attributes() As ATTR_DATA
End Type
Public Enum IDE_DRIVE_NUMBER
PRIMARY_MASTER
PRIMARY_SLAVE
SECONDARY_MASTER
SECONDARY_SLAVE
End Enum
Private Declare Function CreateFile Lib "kernel32" Alias "CreateFileA" (ByVal lpFileName As String, ByVal dwDesiredAccess As Long, ByVal dwShareMode As Long, ByVal lpSecurityAttributes As Long, ByVal dwCreationDisposition As Long, ByVal dwFlagsAndAttributes As Long, ByVal hTemplateFile As Long) As Long
Private Declare Function CloseHandle Lib "kernel32" (ByVal hObject As Long) As Long
Private Declare Function DeviceIoControl Lib "kernel32" (ByVal hDevice As Long, ByVal dwIoControlCode As Long, lpInBuffer As Any, ByVal nInBufferSize As Long, lpOutBuffer As Any, ByVal nOutBufferSize As Long, lpBytesReturned As Long, ByVal lpOverlapped As Long) As Long
Public Declare Sub CopyMemory Lib "kernel32" Alias "RtlMoveMemory" (Destination As Any, Source As Any, ByVal Length As Long)
Private Const GENERIC_READ = &H80000000
Private Const GENERIC_WRITE = &H40000000
Private Const FILE_SHARE_READ = &H1
Private Const FILE_SHARE_WRITE = &H2
Private Const OPEN_EXISTING = 3
Private Const FILE_ATTRIBUTE_SYSTEM = &H4
Private Const CREATE_NEW = 1
Private Const INVALID_HANDLE_VALUE = -1
Dim di As DRIVE_INFO
Dim colAttrNames As Collection
'***************************************************************************
' Open SMART to allow DeviceIoControl communications. Return SMART handle
'***************************************************************************
Private Function OpenSmart(drv_num As IDE_DRIVE_NUMBER) As Long
If IsWindowsNT Then
OpenSmart = CreateFile("\\.\PhysicalDrive" & CStr(drv_num), GENERIC_READ Or GENERIC_WRITE, FILE_SHARE_READ Or FILE_SHARE_WRITE, ByVal 0&, OPEN_EXISTING, 0, 0)
Else
OpenSmart = CreateFile("\\.\SMARTVSD", 0, 0, ByVal 0&, CREATE_NEW, 0, 0)
End If
End Function
'****************************************************************************
' CheckSMARTEnable - Check if SMART enable
' FUNCTION: Send a SMART_ENABLE_SMART_OPERATIONS command to the drive
' bDriveNum = 0-3
'***************************************************************************}
Private Function CheckSMARTEnable(ByVal hDrive As Long, DriveNum As IDE_DRIVE_NUMBER) As Boolean
'Set up data structures for Enable SMART Command.
Dim SCIP As SENDCMDINPARAMS
Dim SCOP As SENDCMDOUTPARAMS
Dim lpcbBytesReturned As Long
With SCIP
.cBufferSize = 0
With .irDriveRegs
.bFeaturesReg = SMART_ENABLE_SMART_OPERATIONS
.bSectorCountReg = 1
.bSectorNumberReg = 1
.bCylLowReg = SMART_CYL_LOW
.bCylHighReg = SMART_CYL_HI
'Compute the drive number.
.bDriveHeadReg = &HA0 ' Or (DriveNum And 1) * 16
.bCommandReg = IDE_EXECUTE_SMART_FUNCTION
End With
.bDriveNumber = DriveNum
End With
CheckSMARTEnable = DeviceIoControl(hDrive, DFP_SEND_DRIVE_COMMAND, SCIP, Len(SCIP) - 4, SCOP, Len(SCOP) - 4, lpcbBytesReturned, ByVal 0&)
End Function
'****************************************************************************
' DoIdentify
' Function: Send an IDENTIFY command to the drive
' DriveNum = 0-3
' IDCmd = IDE_ID_FUNCTION or IDE_ATAPI_ID
'*****************************************************************************
Private Function IdentifyDrive(ByVal hDrive As Long, ByVal IDCmd As Byte, ByVal DriveNum As IDE_DRIVE_NUMBER) As Boolean
Dim SCIP As SENDCMDINPARAMS
Dim IDSEC As IDSECTOR
Dim bArrOut(OUTPUT_DATA_SIZE - 1) As Byte
Dim sMsg As String
Dim lpcbBytesReturned As Long
Dim barrfound(100) As Long
Dim i As Long
Dim lng As Long
' Set up data structures for IDENTIFY command.
With SCIP
.cBufferSize = IDENTIFY_BUFFER_SIZE
.bDriveNumber = CByte(DriveNum)
With .irDriveRegs
.bFeaturesReg = 0
.bSectorCountReg = 1
.bSectorNumberReg = 1
.bCylLowReg = 0
.bCylHighReg = 0
' Compute the drive number.
.bDriveHeadReg = &HA0
If Not IsWindowsNT Then .bDriveHeadReg = .bDriveHeadReg Or (DriveNum And 1) * 16
' The command can either be IDE identify or ATAPI identify.
.bCommandReg = CByte(IDCmd)
End With
End With
If DeviceIoControl(hDrive, DFP_RECEIVE_DRIVE_DATA, SCIP, Len(SCIP) - 4, bArrOut(0), OUTPUT_DATA_SIZE, lpcbBytesReturned, ByVal 0&) Then
IdentifyDrive = True
CopyMemory IDSEC, bArrOut(16), Len(IDSEC)
di.Model = SwapStringBytes(StrConv(IDSEC.sModelNumber, vbUnicode))
di.FirmWare = SwapStringBytes(StrConv(IDSEC.sFirmwareRev, vbUnicode))
di.SerialNumber = SwapStringBytes(StrConv(IDSEC.sSerialNumber, vbUnicode))
di.Cilinders = IDSEC.wNumCyls
di.Heads = IDSEC.wNumHeads
di.SecPerTrack = IDSEC.wSectorsPerTrack
End If
End Function
'****************************************************************************
' ReadAttributesCmd
' FUNCTION: Send a SMART_READ_ATTRIBUTE_VALUES command to the drive
' bDriveNum = 0-3
'***************************************************************************}
Private Function ReadAttributesCmd(ByVal hDrive As Long, DriveNum As IDE_DRIVE_NUMBER) As Boolean
Dim cbBytesReturned As Long
Dim SCIP As SENDCMDINPARAMS
Dim drv_attr As DRIVEATTRIBUTE
Dim bArrOut(OUTPUT_DATA_SIZE - 1) As Byte
Dim sMsg As String
Dim i As Long
With SCIP
' Set up data structures for Read Attributes SMART Command.
.cBufferSize = READ_ATTRIBUTE_BUFFER_SIZE
.bDriveNumber = DriveNum
With .irDriveRegs
.bFeaturesReg = SMART_READ_ATTRIBUTE_VALUES
.bSectorCountReg = 1
.bSectorNumberReg = 1
.bCylLowReg = SMART_CYL_LOW
.bCylHighReg = SMART_CYL_HI
' Compute the drive number.
.bDriveHeadReg = &HA0
If Not IsWindowsNT Then .bDriveHeadReg = .bDriveHeadReg Or (DriveNum And 1) * 16
.bCommandReg = IDE_EXECUTE_SMART_FUNCTION
End With
End With
ReadAttributesCmd = DeviceIoControl(hDrive, DFP_RECEIVE_DRIVE_DATA, SCIP, Len(SCIP) - 4, bArrOut(0), OUTPUT_DATA_SIZE, cbBytesReturned, ByVal 0&)
On Error Resume Next
For i = 0 To NUM_ATTRIBUTE_STRUCTS - 1
If bArrOut(18 + i * 12) > 0 Then
di.Attributes(di.NumAttributes).AttrID = bArrOut(18 + i * 12)
di.Attributes(di.NumAttributes).AttrName = "Unknown value (" & bArrOut(18 + i * 12) & ")"
di.Attributes(di.NumAttributes).AttrName = colAttrNames(CStr(bArrOut(18 + i * 12)))
di.NumAttributes = di.NumAttributes + 1
ReDim Preserve di.Attributes(di.NumAttributes)
CopyMemory di.Attributes(di.NumAttributes).StatusFlags, bArrOut(19 + i * 12), 2
di.Attributes(di.NumAttributes).AttrValue = bArrOut(21 + i * 12)
di.Attributes(di.NumAttributes).WorstValue = bArrOut(22 + i * 12)
End If
Next i
End Function
Private Function ReadThresholdsCmd(ByVal hDrive As Long, DriveNum As IDE_DRIVE_NUMBER) As Boolean
Dim cbBytesReturned As Long
Dim SCIP As SENDCMDINPARAMS
Dim IDSEC As IDSECTOR
Dim bArrOut(OUTPUT_DATA_SIZE - 1) As Byte
Dim sMsg As String
Dim thr_attr As ATTRTHRESHOLD
Dim i As Long, j As Long
With SCIP
' Set up data structures for Read Attributes SMART Command.
.cBufferSize = READ_THRESHOLD_BUFFER_SIZE
.bDriveNumber = DriveNum
With .irDriveRegs
.bFeaturesReg = SMART_READ_ATTRIBUTE_THRESHOLDS
.bSectorCountReg = 1
.bSectorNumberReg = 1
.bCylLowReg = SMART_CYL_LOW
.bCylHighReg = SMART_CYL_HI
' Compute the drive number.
.bDriveHeadReg = &HA0
If Not IsWindowsNT Then .bDriveHeadReg = .bDriveHeadReg Or (DriveNum And 1) * 16
.bCommandReg = IDE_EXECUTE_SMART_FUNCTION
End With
End With
ReadThresholdsCmd = DeviceIoControl(hDrive, DFP_RECEIVE_DRIVE_DATA, SCIP, Len(SCIP) - 4, bArrOut(0), OUTPUT_DATA_SIZE, cbBytesReturned, ByVal 0&)
For i = 0 To NUM_ATTRIBUTE_STRUCTS - 1
CopyMemory thr_attr, bArrOut(18 + i * Len(thr_attr)), Len(thr_attr)
If thr_attr.bAttrID > 0 Then
For j = 0 To UBound(di.Attributes)
If thr_attr.bAttrID = di.Attributes(j).AttrID Then
di.Attributes(j).ThresholdValue = thr_attr.bWarrantyThreshold
Exit For
End If
Next j
End If
Next i
End Function
Private Function GetSmartVersion(ByVal hDrive As Long, VersionParams As GETVERSIONOUTPARAMS) As Boolean
Dim cbBytesReturned As Long
GetSmartVersion = DeviceIoControl(hDrive, DFP_GET_VERSION, ByVal 0&, 0, VersionParams, Len(VersionParams), cbBytesReturned, ByVal 0&)
End Function
Public Function GetDriveInfo(DriveNum As IDE_DRIVE_NUMBER) As DRIVE_INFO
Dim hDrive As Long
Dim VerParam As GETVERSIONOUTPARAMS
Dim cb As Long
di.bDriveType = 0
di.NumAttributes = 0
ReDim di.Attributes(0)
hDrive = OpenSmart(DriveNum)
If hDrive = INVALID_HANDLE_VALUE Then Exit Function
If Not GetSmartVersion(hDrive, VerParam) Then Exit Function
If Not IsBitSet(VerParam.bIDEDeviceMap, DriveNum) Then Exit Function
di.bDriveType = 1 + Abs(IsBitSet(VerParam.bIDEDeviceMap, DriveNum + 4))
If Not CheckSMARTEnable(hDrive, DriveNum) Then Exit Function
FillAttrNameCollection
Call IdentifyDrive(hDrive, IDE_ID_FUNCTION, DriveNum)
Call ReadAttributesCmd(hDrive, DriveNum)
Call ReadThresholdsCmd(hDrive, DriveNum)
GetDriveInfo = di
CloseHandle hDrive
Set colAttrNames = Nothing
End Function
Private Function IsWindowsNT() As Boolean
Dim verinfo As OSVERSIONINFO
verinfo.dwOSVersionInfoSize = Len(verinfo)
If (GetVersionEx(verinfo)) = 0 Then Exit Function
If verinfo.dwPlatformId = 2 Then IsWindowsNT = True
End Function
Private Function IsBitSet(iBitString As Byte, ByVal lBitNo As Integer) As Boolean
If lBitNo = 7 Then
IsBitSet = iBitString < 0
Else
IsBitSet = iBitString And (2 ^ lBitNo)
End If
End Function
Private Function SwapStringBytes(ByVal sIn As String) As String
Dim sTemp As String
Dim i As Integer
sTemp = Space(Len(sIn))
For i = 1 To Len(sIn) - 1 Step 2
Mid(sTemp, i, 1) = Mid(sIn, i + 1, 1)
Mid(sTemp, i + 1, 1) = Mid(sIn, i, 1)
Next i
SwapStringBytes = sTemp
End Function
Public Sub FillAttrNameCollection()
Set colAttrNames = New Collection
With colAttrNames
.Add "ATTR_INVALID", "0"
.Add "READ_ERROR_RATE", "1"
.Add "THROUGHPUT_PERF", "2"
.Add "SPIN_UP_TIME", "3"
.Add "START_STOP_COUNT", "4"
.Add "REALLOC_SECTOR_COUNT", "5"
.Add "READ_CHANNEL_MARGIN", "6"
.Add "SEEK_ERROR_RATE", "7"
.Add "SEEK_TIME_PERF", "8"
.Add "POWER_ON_HRS_COUNT", "9"
.Add "SPIN_RETRY_COUNT", "10"
.Add "CALIBRATION_RETRY_COUNT", "11"
.Add "POWER_CYCLE_COUNT", "12"
.Add "SOFT_READ_ERROR_RATE", "13"
.Add "G_SENSE_ERROR_RATE", "191"
.Add "POWER_OFF_RETRACT_CYCLE", "192"
.Add "LOAD_UNLOAD_CYCLE_COUNT", "193"
.Add "TEMPERATURE", "194"
.Add "REALLOCATION_EVENTS_COUNT", "196"
.Add "CURRENT_PENDING_SECTOR_COUNT", "197"
.Add "UNCORRECTABLE_SECTOR_COUNT", "198"
.Add "ULTRADMA_CRC_ERROR_RATE", "199"
.Add "WRITE_ERROR_RATE", "200"
.Add "DISK_SHIFT", "220"
.Add "G_SENSE_ERROR_RATEII", "221"
.Add "LOADED_HOURS", "222"
.Add "LOAD_UNLOAD_RETRY_COUNT", "223"
.Add "LOAD_FRICTION", "224"
.Add "LOAD_UNLOAD_CYCLE_COUNTII", "225"
.Add "LOAD_IN_TIME", "226"
.Add "TORQUE_AMPLIFICATION_COUNT", "227"
.Add "POWER_OFF_RETRACT_COUNT", "228"
.Add "GMR_HEAD_AMPLITUDE", "230"
.Add "TEMPERATUREII", "231"
.Add "READ_ERROR_RETRY_RATE", "250"
End With
End Sub
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