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SSD erkennen?

Ein Thema von Mattze · begonnen am 6. Jan 2012 · letzter Beitrag vom 28. Dez 2016
Antwort Antwort
Seite 3 von 5     123 45      
Mattze

Registriert seit: 6. Jan 2005
664 Beiträge
 
#21

AW: SSD erkennen?

  Alt 7. Jan 2012, 10:49
Vielen Dank und Au-weiha!
Ich werde wohl langsam alt!

Vielleicht nicht direkt das, aber mit diesen Dingen habe ich doch schon gearbeitet
als ich die ganzen Speicher und deren Herstellerbezeichnung (und ein paar Daten) auslesen wollte.

Ich muss dringend etwas tun, damit mein Hirn nicht ganz einrostet!

Gruß
Mattze
  Mit Zitat antworten Zitat
Mattze

Registriert seit: 6. Jan 2005
664 Beiträge
 
#22

AW: SSD erkennen?

  Alt 28. Mär 2012, 18:32
Hallo,

ich komme leider erst jetzt wieder dazu, mich damit weiter zu beschäftigen und...
ich finde es nicht!
Ich kriege die Rotationsgeschwindigkeit einfach nicht raus.
Irgendwann, als ich mich mit DeviceIoControl näher beschäftigt habe, habe ich mal etwas davon gelesen - bin ich mir sicher.
Nun finde ich es nicht mehr. In der Struktur für IOCTL_ATA_PASS_THROUGH finde ich auch nix.
Für einen kleiner Tipp wäre ich dankbar.

Gruß
Mattze
  Mit Zitat antworten Zitat
Benmik

Registriert seit: 11. Apr 2009
560 Beiträge
 
Delphi 12 Athens
 
#23

AW: SSD erkennen?

  Alt 23. Apr 2016, 16:19
Ja, jetzt sind ja schlappe 4 Jährchen vergangen, ob Mattze immer noch über der Antwort brütet?
Jedenfalls brauchte ich auch eine funktionierende SSD-Erkennung und habe mich mal ungeniert hier bedient.
Das funktioniert auch, hat aber einen großen Pferdefuß: Man braucht Administratorrechte für das CreateFile.
Kennt jemand eine Lösung, wo es auch ohne geht? Oder ist das prinzipiell unmöglich?
Delphi-Quellcode:
uses Winapi.Windows,System.SysUtils,System.Types,System.UITypes,Vcl.Dialogs;

type
  { ATA_PASS_THROUGH_EX }
  _ATA_PASS_THROUGH_EX = packed record
    Length: Word;
    AtaFlags: Word;
    PathId: UCHAR;
    TargetId: UCHAR;
    Lun: UCHAR;
    ReservedAsUchar: UCHAR;
    DataTransferLength: ULONG;
    TimeOutValue: ULONG;
    ReservedAsUlong: ULONG;
    DataBufferOffset: ULONG_PTR;
    PreviousTaskFile: array [0..7] of UCHAR;
    CurrentTaskFile: array [0..7] of UCHAR;
  end;
  {$EXTERNALSYM _ATA_PASS_THROUGH_EX}
  ATA_PASS_THROUGH_EX = _ATA_PASS_THROUGH_EX;
  {$EXTERNALSYM  ATA_PASS_THROUGH_EX}
  TAtaPassThroughEx = _ATA_PASS_THROUGH_EX;
  PAtaPassThroughEx = ^TAtaPassThroughEx;

  { ATAIdentifyDeviceQuery }
  TATAIdentifyDeviceQuery = packed record
    header: ATA_PASS_THROUGH_EX;
    data: array [0..255] of Word;
  end;

const
{$IF RTLVersion < 22.0}
  FILE_DEVICE_CONTROLLER = $00000004;
  {$EXTERNALSYM FILE_DEVICE_CONTROLLER}

  FILE_READ_ACCESS = $0001;
  {$EXTERNALSYM FILE_READ_ACCESS}

  FILE_WRITE_ACCESS = $0002;
  {$EXTERNALSYM FILE_WRITE_ACCESS}
{$IFEND}

  ATA_FLAGS_DRDY_REQUIRED = $01;
  ATA_FLAGS_DATA_IN = $02;
  ATA_FLAGS_DATA_OUT = $04;
  ATA_FLAGS_48BIT_COMMAND = $08;
  ATA_FLAGS_USE_DMA = $10;
  ATA_FLAGS_NO_MULTIPLE = $20;

  IOCTL_SCSI_BASE = FILE_DEVICE_CONTROLLER;
  IOCTL_ATA_PASS_THROUGH = (IOCTL_SCSI_BASE shl 16) or
                            ((FILE_READ_ACCESS or FILE_WRITE_ACCESS) shl 14) or
                            ($040B shl 2) or
                            (METHOD_BUFFERED);
{$IF RTLversion < 22.0}
const
  FILE_READ_DATA = $0001;
  {$EXTERNALSYM FILE_READ_DATA}

  FILE_READ_ATTRIBUTES = $0080;
  {$EXTERNALSYM FILE_READ_ATTRIBUTES}

  FILE_DEVICE_MASS_STORAGE = $0000002d;
  {$EXTERNALSYM FILE_DEVICE_MASS_STORAGE}

  IOCTL_STORAGE_BASE = FILE_DEVICE_MASS_STORAGE;
  {$EXTERNALSYM IOCTL_STORAGE_BASE}

  FILE_ANY_ACCESS = 0;
  {$EXTERNALSYM FILE_ANY_ACCESS}

  METHOD_BUFFERED = 0;
  {$EXTERNALSYM METHOD_BUFFERED}

  IOCTL_STORAGE_QUERY_PROPERTY = (IOCTL_STORAGE_BASE shl 16) or
                                 (FILE_ANY_ACCESS shl 14) or
                                 ($0500 shl 2) or
                                 (METHOD_BUFFERED);
  {$EXTERNALSYM IOCTL_STORAGE_QUERY_PROPERTY}
{$IFEND}

type
  { STORAGE_PROPERTY_ID }
  _STORAGE_PROPERTY_ID = (
    StorageDeviceProperty = 0,
    StorageAdapterProperty = 1,
    StorageDeviceIdProperty = 2,
    StorageDeviceUniqueIdProperty = 3,
    StorageDeviceWriteCacheProperty = 4,
    StorageMiniportProperty = 5,
    StorageAccessAlignmentProperty = 6,
    StorageDeviceSeekPenaltyProperty = 7,
    StorageDeviceTrimProperty = 8,
    StorageDeviceWriteAggregationProperty = 9,
    StorageDeviceDeviceTelemetryProperty = 10
  );
  {$EXTERNALSYM _STORAGE_PROPERTY_ID}
  STORAGE_PROPERTY_ID = _STORAGE_PROPERTY_ID;
  {$EXTERNALSYM  STORAGE_PROPERTY_ID}
  TStoragePropertyId = _STORAGE_PROPERTY_ID;
  PStoragePropertyId = ^TStoragePropertyId;

  { STORAGE_QUERY_TYPE }
  _STORAGE_QUERY_TYPE = (
    PropertyStandardQuery = 0,
    PropertyExistsQuery = 1,
    PropertyMaskQuery = 2,
    PropertyQueryMaxDefined = 3
  );
  {$EXTERNALSYM _STORAGE_QUERY_TYPE}
  STORAGE_QUERY_TYPE = _STORAGE_QUERY_TYPE;
  {$EXTERNALSYM  STORAGE_QUERY_TYPE}
  TStorageQueryType = _STORAGE_QUERY_TYPE;
  PStorageQueryType = ^TStorageQueryType;

  { STORAGE_PROPERTY_QUERY }
  _STORAGE_PROPERTY_QUERY = packed record
    PropertyId: DWORD;
    QueryType: DWORD;
    AdditionalParameters: array[0..9] of Byte;
  end;
  {$EXTERNALSYM _STORAGE_PROPERTY_QUERY}
  STORAGE_PROPERTY_QUERY = _STORAGE_PROPERTY_QUERY;
  {$EXTERNALSYM  STORAGE_PROPERTY_QUERY}
  TStoragePropertyQuery = _STORAGE_PROPERTY_QUERY;
  PStoragePropertyQuery = ^TStoragePropertyQuery;

  { DEVICE_SEEK_PENALTY_DESCRIPTOR }
  _DEVICE_SEEK_PENALTY_DESCRIPTOR = packed record
    Version: DWORD;
    Size: DWORD;
    IncursSeekPenalty: ByteBool;
    Reserved: array[0..2] of Byte;
  end;
  {$EXTERNALSYM _DEVICE_SEEK_PENALTY_DESCRIPTOR}
  DEVICE_SEEK_PENALTY_DESCRIPTOR = _DEVICE_SEEK_PENALTY_DESCRIPTOR;
  {$EXTERNALSYM  DEVICE_SEEK_PENALTY_DESCRIPTOR}
  TDeviceSeekPenaltyDescriptor = _DEVICE_SEEK_PENALTY_DESCRIPTOR;
  PDeviceSeekPenaltyDescriptor = ^TDeviceSeekPenaltyDescriptor;
    type
      { DISK_EXTENT }
      _DISK_EXTENT = packed record
        DiskNumber: DWORD;
        StartingOffset: LARGE_INTEGER;
        ExtentLength: LARGE_INTEGER;
        Reserved: array [0..3] of Byte;
      end;
      {$EXTERNALSYM _DISK_EXTENT}
      DISK_EXTENT = _DISK_EXTENT;
      {$EXTERNALSYM  DISK_EXTENT}
      TDiskExtent = _DISK_EXTENT;
      PDiskExtent = ^TDiskExtent;

      { VOLUME_DISK_EXTENTS }
      _VOLUME_DISK_EXTENTS = packed record
        NumberOfDiskExtents: DWORD;
        Reserved: array [0..3] of Byte;
        Extents: array [0..0] of DISK_EXTENT;
      end;
      {$EXTERNALSYM _VOLUME_DISK_EXTENTS}
      VOLUME_DISK_EXTENTS = _VOLUME_DISK_EXTENTS;
      {$EXTERNALSYM  VOLUME_DISK_EXTENTS}
      TVolumeDiskExtents = VOLUME_DISK_EXTENTS;
      PVolumeDiskExtents = ^TVolumeDiskExtents;

    {$IF RTLVersion < 22.0}
    const
      IOCTL_VOLUME_BASE = $00000056;
      {$EXTERNALSYM IOCTL_VOLUME_BASE}

      IOCTL_VOLUME_GET_VOLUME_DISK_EXTENTS = (IOCTL_VOLUME_BASE shl 16) or
                                             (FILE_ANY_ACCESS shl 14) or
                                             (0 shl 2) or
                                             (METHOD_BUFFERED);
  {$EXTERNALSYM IOCTL_VOLUME_GET_VOLUME_DISK_EXTENTS}
{$IFEND}

function HasNominalMediaRotationRate(const PhysicalDrivePath: String): Boolean;
function HasNoSeekPenalty(const PhysicalDrivePath: String): Boolean;
procedure PathnameToPhysicalDriveNumber(const Path: String; var PhysicalDrives: TIntegerDynArray);
function IstSSD(LW:Char):Boolean;

implementation

function HasNominalMediaRotationRate(const PhysicalDrivePath: String): Boolean;
var
  h: THandle;
  ATAIdentifyDeviceQuery: TATAIdentifyDeviceQuery;
  RSize: DWORD;
begin

  h := CreateFile(PChar(PhysicalDrivePath),GENERIC_READ or GENERIC_WRITE,
                  FILE_SHARE_READ or FILE_SHARE_WRITE,nil,
                  OPEN_EXISTING,FILE_ATTRIBUTE_NORMAL,0);
  if h = INVALID_HANDLE_VALUE then
  begin
    RaiseLastOSError;
  end;

  try
    FillChar(ATAIdentifyDeviceQuery,SizeOf(ATAIdentifyDeviceQuery),0);
    with ATAIdentifyDeviceQuery do
    begin
      header.Length := SizeOf(header);
      header.AtaFlags := ATA_FLAGS_DATA_IN;
      header.DataTransferLength := SizeOf(data);
      header.TimeOutValue := 3; // sec
      header.DataBufferOffset := SizeOf(header);
      header.CurrentTaskFile[6] := $EC; // ATA IDENTIFY DEVICE command
    end;

    RSize := 0;
    if DeviceIoControl(h,IOCTL_ATA_PASS_THROUGH,
                       @ATAIdentifyDeviceQuery,SizeOf(ATAIdentifyDeviceQuery),
                       @ATAIdentifyDeviceQuery,SizeOf(ATAIdentifyDeviceQuery),
                       RSize,nil) = False then
    begin
      RaiseLastOSError;
    end;

    Result := (ATAIdentifyDeviceQuery.data[217] = 1);

  finally
    CloseHandle(h);
  end;

end;

function HasNoSeekPenalty(const PhysicalDrivePath: String): Boolean;
var
  h :THandle;
  StoragePropertyQuery: TStoragePropertyQuery;
  DeviceSeekPenaltyDescriptor: TDeviceSeekPenaltyDescriptor;
  RSize: DWORD;
begin

  h := CreateFile(PChar(PhysicalDrivePath),FILE_READ_ATTRIBUTES,
                  FILE_SHARE_READ or FILE_SHARE_WRITE,nil,
                  OPEN_EXISTING,FILE_ATTRIBUTE_NORMAL,0);
  if h = INVALID_HANDLE_VALUE then
  begin
    RaiseLastOSError;
  end;

  try
    with StoragePropertyQuery do
    begin
      PropertyId := Ord(StorageDeviceSeekPenaltyProperty);
      QueryType := Ord(PropertyStandardQuery);
    end;

    FillChar(DeviceSeekPenaltyDescriptor,SizeOf(DeviceSeekPenaltyDescriptor),0);
    RSize := 0;
    if DeviceIoControl(h,IOCTL_STORAGE_QUERY_PROPERTY,
                       @StoragePropertyQuery,SizeOf(StoragePropertyQuery),
                       @DeviceSeekPenaltyDescriptor,SizeOf(DeviceSeekPenaltyDescriptor),
                       RSize,nil) = False then
    begin
      RaiseLastOSError;
    end;

    Result := not DeviceSeekPenaltyDescriptor.IncursSeekPenalty;

  finally
    CloseHandle(h);
  end;
end;

procedure PathnameToPhysicalDriveNumber(const Path: String; var PhysicalDrives: TIntegerDynArray);
var
  h: THandle;
  I: Integer;
  MountPoint: String;
  VolumeName: String;
  Size: DWORD;
  RSize: DWORD;
  P: PVolumeDiskExtents;
  lpFilePart : PWideChar;
  lpBuffer : PWideChar;
begin

  SetLength(PhysicalDrives,0);
  lpBuffer := nil;
  { Pathname to mount point }
  Size := GetFullPathName(PWideChar(Path),0,lpBuffer,lpFilePart);
  SetLength(MountPoint,Size);
  if GetVolumePathName(PAnsiChar(Path),PAnsiChar(MountPoint),Size) = False then
  begin
    RaiseLastOSError;
  end;
  SetLength(MountPoint,StrLen(PWideChar(MountPoint)));

  { Mount point to logical volume name }
  Size := 50; // Recomended size from http://msdn.microsoft.com/en-us/library/windows/desktop/aa364994.aspx
  SetLength(VolumeName,Size);
  if GetVolumeNameForVolumeMountPoint(PAnsiChar(MountPoint),PAnsiChar(VolumeName),Size) = False then
  begin
    RaiseLastOSError;
  end;
  SetLength(VolumeName,StrLen(PChar(VolumeName)));
  VolumeName := ExcludeTrailingPathDelimiter(VolumeName);

  { Open volume }
  h := CreateFile(PChar(VolumeName),FILE_READ_ATTRIBUTES,
                  FILE_SHARE_READ or FILE_SHARE_WRITE,nil,
                  OPEN_EXISTING,FILE_ATTRIBUTE_NORMAL,0);
  if h = INVALID_HANDLE_VALUE then
  begin
    RaiseLastOSError;
  end;

  try
    Size := SizeOf(TVolumeDiskExtents);
    P := AllocMem(Size);
    try
      FillChar(P^,Size,0);
      RSize := 0;
      if DeviceIoControl(h,IOCTL_VOLUME_GET_VOLUME_DISK_EXTENTS,
                         nil,0,
                         P,Size,
                         RSize,nil) = False then
      begin
        if GetLastError <> ERROR_MORE_DATA then
        begin
          RaiseLastOSError;
        end;

        Size := SizeOf(TVolumeDiskExtents) +
                SizeOf(DISK_EXTENT) * (P^.NumberOfDiskExtents - 1);
        ReallocMem(P,Size);
        FillChar(P^,Size,0);
        if DeviceIoControl(h,IOCTL_VOLUME_GET_VOLUME_DISK_EXTENTS,
                           nil,0,
                           P,Size,
                           RSize,nil) = False then
        begin
          RaiseLastOSError;
        end;
      end;

      SetLength(PhysicalDrives,P^.NumberOfDiskExtents);
      for I := 0 to P^.NumberOfDiskExtents - 1 do
      begin
        PhysicalDrives[I] := P^.Extents[I].DiskNumber;
      end;

    finally
      FreeMem(P);
    end;

  finally
    CloseHandle(h);
  end;

end;

function IstSSD(LW:Char):Boolean;
var
  Index: Integer;
  Filename: String;
  PhysicalDrives: TIntegerDynArray;
  PhysicalDrivePath: String;
  IsSSD: Boolean;
begin
  Result := False;
  Filename := LW + ':\';
  SetLength(PhysicalDrives,0);
  PathnameToPhysicalDriveNumber(Filename,PhysicalDrives);
  try
    IsSSD := False;
    for Index := Low(PhysicalDrives) to High(PhysicalDrives) do
    begin
      PhysicalDrivePath := Format('\\.\PhysicalDrive%d',[PhysicalDrives[Index]]);
      try
        IsSSD := IsSSD or HasNominalMediaRotationRate(PhysicalDrivePath);
      except
        { Ignore }
      end;
      if IsSSD = True then
      begin
        exit(True);
      end;
    end;
  finally
    SetLength(PhysicalDrives,0);
  end;
end;

end.
  Mit Zitat antworten Zitat
t.roller
(Gast)

n/a Beiträge
 
#24

AW: SSD erkennen?

  Alt 23. Apr 2016, 19:52
Es gibt S.M.A.R.T.-Werte, die nur bei SSD vorhanden sind, z.B.
230, E6, Drive Life Protection Status:
100 (protection is not active) oder 90 (protection is active)
231, E7, SSD Life Left 1-100 %
Info:
MKP_306_SMART_attribute.pdf
  Mit Zitat antworten Zitat
Benmik

Registriert seit: 11. Apr 2009
560 Beiträge
 
Delphi 12 Athens
 
#25

AW: SSD erkennen?

  Alt 23. Apr 2016, 20:04
Leider ist es so, dass sich die Hersteller nicht an standardisierte S.M.A.R.T.-Werte halten. Bei der hier untersuchten SSD fehlt die 231 zum Beispiel einfach.
  Mit Zitat antworten Zitat
Shark99

Registriert seit: 16. Mai 2007
403 Beiträge
 
#26

AW: SSD erkennen?

  Alt 30. Mai 2016, 18:45
Ich habe den Code von Benmik getestet und merkwürdigerweise funktioniert er nur auf meinem Windows 10 PC. Auf einem Windows 7 PC mit der gleichen SSD bekomme ich hier:
Delphi-Quellcode:
    if DeviceIoControl(h,IOCTL_ATA_PASS_THROUGH,
                       @ATAIdentifyDeviceQuery,SizeOf(ATAIdentifyDeviceQuery),
                       @ATAIdentifyDeviceQuery,SizeOf(ATAIdentifyDeviceQuery),
                       RSize,nil) = False then
    begin
      RaiseLastOSError;
    end;
den Fehler: The program issued a command but the command length is incorrect.

Ich vermute dass diese Struktur:
Delphi-Quellcode:
 IOCTL_ATA_PASS_THROUGH = (IOCTL_SCSI_BASE shl 16) or
                            ((FILE_READ_ACCESS or FILE_WRITE_ACCESS) shl 14) or
                            ($040B shl 2) or
                            (METHOD_BUFFERED);
nicht ganz richtig ist.

Für Hilfe wäre ich dankbar.
  Mit Zitat antworten Zitat
Shark99

Registriert seit: 16. Mai 2007
403 Beiträge
 
#27

AW: SSD erkennen?

  Alt 30. Mai 2016, 19:40
Hab einen Fix gefunden:
Delphi-Quellcode:
  { ATAIdentifyDeviceQuery }
  TATAIdentifyDeviceQuery = packed record
    header: ATA_PASS_THROUGH_EX;
    data: array [0..8191] of Word;
  end;
  Mit Zitat antworten Zitat
Mattze

Registriert seit: 6. Jan 2005
664 Beiträge
 
#28

AW: SSD erkennen?

  Alt 31. Mai 2016, 06:20
Hallo,

so mache ich das nun seit langer Zeit auch.
Allerdings reichen bei mir 255 Worte.

Delphi-Quellcode:
// ATA_PASS_THROUGH_EX
    _ATA_PASS_THROUGH_EX = packed record
      Length: Word;
      AtaFlags: Word;
      PathId: UChar;
      TargetId: UCHAR;
      Lun: UCHAR;
      ReservedAsUchar: UCHAR;
      DataTransferLength: ULONG;
      TimeOutValue: ULONG;
      ReservedAsUlong: ULONG;
      DataBufferOffset: ULONG_PTR;
      PreviousTaskFile: array [0..7] of UCHAR;
      CurrentTaskFile: array [0..7] of UCHAR;
    end;
    {$EXTERNALSYM _ATA_PASS_THROUGH_EX}
    ATA_PASS_THROUGH_EX = _ATA_PASS_THROUGH_EX;
    {$EXTERNALSYM  ATA_PASS_THROUGH_EX}
    TAtaPassThroughEx = _ATA_PASS_THROUGH_EX;
    PAtaPassThroughEx = ^TAtaPassThroughEx;

// ATAIdentifyDeviceQuery
    TATAIdentifyDeviceQuery = packed record
      header: ATA_PASS_THROUGH_EX;
      data: array [0..255] of Word;
    end;
Bisher hatte ich damit keine Probleme (Win 7, 8, 8.1, 10. Alles pro und 64Bit. Übersetzt mit Delphi 7 pro, also 32 Bit)

Gruß
Mattze
  Mit Zitat antworten Zitat
Benmik

Registriert seit: 11. Apr 2009
560 Beiträge
 
Delphi 12 Athens
 
#29

AW: SSD erkennen?

  Alt 5. Jun 2016, 14:22
Aber an der Notwendigkeit der Administratorrechte hat sich nichts geändert?
  Mit Zitat antworten Zitat
t.roller
(Gast)

n/a Beiträge
 
#30

AW: SSD erkennen?

  Alt 5. Jun 2016, 16:52
Ab WINDOWS8 gibt es über WMI mehr Informationen, siehe:

MSFT_PhysicalDisk class

MediaType
Data type: UInt16
Access type: Read-only
The media type of the physical disk.
Value Meaning
0 Unspecified
3 HDD
4 SSD

SpindleSpeed
Data type: UInt32
Access type: Read-only
Qualifiers: Required, Units ("RPM")
The rotational speed of spindle-based physical disks. For solid
state devices (SSDs) or other non-rotational media, this member
should be set to 0. For rotating media that has an unknown speed,
this member should be set to 0xFFFFFFFF (UINT32_MAX).

Beispiel geht auch OHNE Administrator-Rechte und bei USB-Disks.
Delphi-Quellcode:
// This code was generated by the Wmi Delphi Code Creator http://theroadtodelphi.wordpress.com
// Version: 1.8.3.0
// LIABILITY DISCLAIMER
// THIS GENERATED CODE IS DISTRIBUTED "AS IS". NO WARRANTY OF ANY KIND IS EXPRESSED OR IMPLIED.
// YOU USE IT AT YOUR OWN RISK. THE AUTHOR NOT WILL BE LIABLE FOR DATA LOSS,
// DAMAGES AND LOSS OF PROFITS OR ANY OTHER KIND OF LOSS WHILE USING OR MISUSING THIS CODE.
program WMI_PhysicalDisk;

{$APPTYPE CONSOLE}

uses
 // SysUtils, ActiveX, ComObj, Variants;
  System.SysUtils,
  Winapi.ActiveX,
  System.Win.ComObj,
  System.Variants;

function VarToInt(const AVariant: Variant): INT64;// integer;
begin Result := StrToIntDef(Trim(VarToStr(AVariant)), 0); end;

procedure GetMSFT_PhysicalDiskInfo;
const
  WbemUser =''; WbemPassword =''; WbemComputer ='localhost';
  wbemFlagForwardOnly = $00000020;
var
  FSWbemLocator : OLEVariant;
  FWMIService : OLEVariant;
  FWbemObjectSet: OLEVariant;
  FWbemObject : OLEVariant;
  oEnum : IEnumvariant;
  iValue : LongWord;
begin;
  FSWbemLocator := CreateOleObject('WbemScripting.SWbemLocator');
  FWMIService := FSWbemLocator.ConnectServer(WbemComputer, 'root\Microsoft\Windows\Storage', WbemUser, WbemPassword);
  FWbemObjectSet:= FWMIService.ExecQuery('SELECT * FROM MSFT_PhysicalDisk','WQL',wbemFlagForwardOnly);
  oEnum := IUnknown(FWbemObjectSet._NewEnum) as IEnumVariant;
  while oEnum.Next(1, FWbemObject, iValue) = 0 do
  begin
    Writeln(Format('AllocatedSize %d',[VarToInt(FWbemObject.AllocatedSize)]));// Uint64
    Writeln(Format('BusType %d',[VarToInt(FWbemObject.BusType)]));// Uint16
// Writeln(Format('CannotPoolReason %d',[VarToInt(FWbemObject.CannotPoolReason)]));// Array of Uint16
    Writeln(Format('CanPool %s',[VarToStr(FWbemObject.CanPool)]));// Boolean
    Writeln(Format('Description %s',[VarToStr(FWbemObject.Description)]));// String
    Writeln(Format('DeviceId %s',[VarToStr(FWbemObject.DeviceId)]));// String
    Writeln(Format('EnclosureNumber %d',[VarToInt(FWbemObject.EnclosureNumber)]));// Uint16
    Writeln(Format('FirmwareVersion %s',[VarToStr(FWbemObject.FirmwareVersion)]));// String
    Writeln(Format('FriendlyName %s',[VarToStr(FWbemObject.FriendlyName)]));// String
    Writeln(Format('HealthStatus %d',[VarToInt(FWbemObject.HealthStatus)]));// Uint16
    Writeln(Format('IsIndicationEnabled %s',[VarToStr(FWbemObject.IsIndicationEnabled)]));// Boolean
    Writeln(Format('IsPartial %s',[VarToStr(FWbemObject.IsPartial)]));// Boolean
    Writeln(Format('LogicalSectorSize %d',[VarToInt(FWbemObject.LogicalSectorSize)]));// Uint64
    Writeln(Format('Manufacturer %s',[VarToStr(FWbemObject.Manufacturer)]));// String
    Writeln(Format('MediaType %d',[VarToInt(FWbemObject.MediaType)]));// Uint16
    Writeln(Format('Model %s',[VarToStr(FWbemObject.Model)]));// String
    Writeln(Format('ObjectId %s',[VarToStr(FWbemObject.ObjectId)]));// String
// Writeln(Format('OperationalStatus %d',[VarToInt(FWbemObject.OperationalStatus)]));// Array of Uint16
    Writeln(Format('OtherCannotPoolReasonDescription %s',[VarToStr(FWbemObject.OtherCannotPoolReasonDescription)]));// String
    Writeln(Format('PartNumber %s',[VarToStr(FWbemObject.PartNumber)]));// String
    Writeln(Format('PassThroughClass %s',[VarToStr(FWbemObject.PassThroughClass)]));// String
    Writeln(Format('PassThroughIds %s',[VarToStr(FWbemObject.PassThroughIds)]));// String
    Writeln(Format('PassThroughNamespace %s',[VarToStr(FWbemObject.PassThroughNamespace)]));// String
    Writeln(Format('PassThroughServer %s',[VarToStr(FWbemObject.PassThroughServer)]));// String
    Writeln(Format('PhysicalLocation %s',[VarToStr(FWbemObject.PhysicalLocation)]));// String
    Writeln(Format('PhysicalSectorSize %d',[VarToInt(FWbemObject.PhysicalSectorSize)]));// Uint64
    Writeln(Format('SerialNumber %s',[VarToStr(FWbemObject.SerialNumber)]));// String
    Writeln(Format('Size %d',[VarToInt(FWbemObject.Size)]));// Uint64
    Writeln(Format('SlotNumber %d',[VarToInt(FWbemObject.SlotNumber)]));// Uint16
    Writeln(Format('SoftwareVersion %s',[VarToStr(FWbemObject.SoftwareVersion)]));// String
    Writeln(Format('SpindleSpeed %d',[VarToInt(FWbemObject.SpindleSpeed)]));// Uint32
// Writeln(Format('SupportedUsages %d',[VarToInt(FWbemObject.SupportedUsages)]));// Array of Uint16
    Writeln(Format('UniqueId %s',[VarToStr(FWbemObject.UniqueId)]));// String
    Writeln(Format('Usage %d',[VarToInt(FWbemObject.Usage)]));// Uint16

    Writeln('-------------------------------------------------------------------');
    FWbemObject:=Unassigned;
  end;
end;
begin
 try
    CoInitialize(nil);
    try
      GetMSFT_PhysicalDiskInfo;
    finally
      CoUninitialize;
    end;
 except
    on E:EOleException do
        Writeln(Format('EOleException %s %x', [E.Message,E.ErrorCode]));
    on E:Exception do
        Writeln(E.Classname, ':', E.Message);
 end;
 Writeln('Press Enter to exit');
 Readln;
end.
Beispiel-Ausgabe: PhysicalDisk1 = SSD/USB, PhysicalDisk0 = HDD0

AllocatedSize 0
BusType 7
CanPool False
Description
DeviceId 1
EnclosureNumber 0
FirmwareVersion 3004
FriendlyName PhysicalDisk1
HealthStatus 0
IsIndicationEnabled
IsPartial True
LogicalSectorSize 512
Manufacturer KINGSTON
MediaType 0
Model SV300S37A240G
OtherCannotPoolReasonDescription
PartNumber
PassThroughClass
PassThroughIds
PassThroughNamespace
PassThroughServer
PhysicalLocation
PhysicalSectorSize 512
SerialNumber 00A1234xxxxxx
Size 0
SlotNumber 0
SoftwareVersion
SpindleSpeed -1
UniqueId
Usage 1
--------------------------------------------------
AllocatedSize 0
BusType 11
CanPool False
Description
DeviceId 0
EnclosureNumber 0
FirmwareVersion 2BC10001
FriendlyName PhysicalDisk0
HealthStatus 0
IsIndicationEnabled
IsPartial True
LogicalSectorSize 512
Manufacturer
MediaType 3
Model ST2000LM003 HN-M201RAD
OtherCannotPoolReasonDescription
PartNumber
PassThroughClass
PassThroughIds
PassThroughNamespace
PassThroughServer
PhysicalLocation
PhysicalSectorSize 4096
SerialNumber S346J9xxxxxxxx
Size 0
SlotNumber 0
SoftwareVersion
SpindleSpeed -1
UniqueId 50004xxxxxxxxx
Usage 1
--------------------------------------------------

Geändert von t.roller ( 5. Jun 2016 um 17:56 Uhr)
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