/*++ BUILD Version: 0015    // Increment this if a change has global effects

Copyright (c) Microsoft Corporation. All rights reserved.

Module Name:

    winioctl.h

Abstract:

    This module defines the 32-Bit Windows Device I/O control codes.

Revision History:

--*/


//
// Device interface class GUIDs.
//
// need these GUIDs outside conditional includes so that user can
//   #include <winioctl.h> in precompiled header
//   #include <initguid.h> in a single source file
//   #include <winioctl.h> in that source file a second time to instantiate the GUIDs
//
#ifdef DEFINE_GUID
//
// Make sure FAR is defined...
//
#ifndef FAR
#ifdef _WIN32
#define FAR
#else
#define FAR _far
#endif
#endif

DEFINE_GUID(GUID_DEVINTERFACE_DISK,                   0x53f56307L, 0xb6bf, 0x11d0, 0x94, 0xf2, 0x00, 0xa0, 0xc9, 0x1e, 0xfb, 0x8b);
DEFINE_GUID(GUID_DEVINTERFACE_CDROM,                  0x53f56308L, 0xb6bf, 0x11d0, 0x94, 0xf2, 0x00, 0xa0, 0xc9, 0x1e, 0xfb, 0x8b);
DEFINE_GUID(GUID_DEVINTERFACE_PARTITION,              0x53f5630aL, 0xb6bf, 0x11d0, 0x94, 0xf2, 0x00, 0xa0, 0xc9, 0x1e, 0xfb, 0x8b);
DEFINE_GUID(GUID_DEVINTERFACE_TAPE,                   0x53f5630bL, 0xb6bf, 0x11d0, 0x94, 0xf2, 0x00, 0xa0, 0xc9, 0x1e, 0xfb, 0x8b);
DEFINE_GUID(GUID_DEVINTERFACE_WRITEONCEDISK,          0x53f5630cL, 0xb6bf, 0x11d0, 0x94, 0xf2, 0x00, 0xa0, 0xc9, 0x1e, 0xfb, 0x8b);
DEFINE_GUID(GUID_DEVINTERFACE_VOLUME,                 0x53f5630dL, 0xb6bf, 0x11d0, 0x94, 0xf2, 0x00, 0xa0, 0xc9, 0x1e, 0xfb, 0x8b);
DEFINE_GUID(GUID_DEVINTERFACE_MEDIUMCHANGER,          0x53f56310L, 0xb6bf, 0x11d0, 0x94, 0xf2, 0x00, 0xa0, 0xc9, 0x1e, 0xfb, 0x8b);
DEFINE_GUID(GUID_DEVINTERFACE_FLOPPY,                 0x53f56311L, 0xb6bf, 0x11d0, 0x94, 0xf2, 0x00, 0xa0, 0xc9, 0x1e, 0xfb, 0x8b);
DEFINE_GUID(GUID_DEVINTERFACE_CDCHANGER,              0x53f56312L, 0xb6bf, 0x11d0, 0x94, 0xf2, 0x00, 0xa0, 0xc9, 0x1e, 0xfb, 0x8b);
DEFINE_GUID(GUID_DEVINTERFACE_STORAGEPORT,            0x2accfe60L, 0xc130, 0x11d2, 0xb0, 0x82, 0x00, 0xa0, 0xc9, 0x1e, 0xfb, 0x8b);
DEFINE_GUID(GUID_DEVINTERFACE_COMPORT,                0x86e0d1e0L, 0x8089, 0x11d0, 0x9c, 0xe4, 0x08, 0x00, 0x3e, 0x30, 0x1f, 0x73);
DEFINE_GUID(GUID_DEVINTERFACE_SERENUM_BUS_ENUMERATOR, 0x4D36E978L, 0xE325, 0x11CE, 0xBF, 0xC1, 0x08, 0x00, 0x2B, 0xE1, 0x03, 0x18);

//
// Obsolete device interface class GUID names.
// (use of above GUID_DEVINTERFACE_* names is recommended).
//
#define DiskClassGuid               GUID_DEVINTERFACE_DISK
#define CdRomClassGuid              GUID_DEVINTERFACE_CDROM
#define PartitionClassGuid          GUID_DEVINTERFACE_PARTITION
#define TapeClassGuid               GUID_DEVINTERFACE_TAPE
#define WriteOnceDiskClassGuid      GUID_DEVINTERFACE_WRITEONCEDISK
#define VolumeClassGuid             GUID_DEVINTERFACE_VOLUME
#define MediumChangerClassGuid      GUID_DEVINTERFACE_MEDIUMCHANGER
#define FloppyClassGuid             GUID_DEVINTERFACE_FLOPPY
#define CdChangerClassGuid          GUID_DEVINTERFACE_CDCHANGER
#define StoragePortClassGuid        GUID_DEVINTERFACE_STORAGEPORT
#define GUID_CLASS_COMPORT          GUID_DEVINTERFACE_COMPORT
#define GUID_SERENUM_BUS_ENUMERATOR GUID_DEVINTERFACE_SERENUM_BUS_ENUMERATOR

#endif // DEFINE_GUID

#ifndef _WINIOCTL_
#define _WINIOCTL_


#ifndef _DEVIOCTL_
#define _DEVIOCTL_

// begin_ntddk begin_wdm begin_nthal begin_ntifs
//
// Define the various device type values.  Note that values used by Microsoft
// Corporation are in the range 0-32767, and 32768-65535 are reserved for use
// by customers.
//

#define DEVICE_TYPE DWORD

#define FILE_DEVICE_BEEP                0x00000001
#define FILE_DEVICE_CD_ROM              0x00000002
#define FILE_DEVICE_CD_ROM_FILE_SYSTEM  0x00000003
#define FILE_DEVICE_CONTROLLER          0x00000004
#define FILE_DEVICE_DATALINK            0x00000005
#define FILE_DEVICE_DFS                 0x00000006
#define FILE_DEVICE_DISK                0x00000007
#define FILE_DEVICE_DISK_FILE_SYSTEM    0x00000008
#define FILE_DEVICE_FILE_SYSTEM         0x00000009
#define FILE_DEVICE_INPORT_PORT         0x0000000a
#define FILE_DEVICE_KEYBOARD            0x0000000b
#define FILE_DEVICE_MAILSLOT            0x0000000c
#define FILE_DEVICE_MIDI_IN             0x0000000d
#define FILE_DEVICE_MIDI_OUT            0x0000000e
#define FILE_DEVICE_MOUSE               0x0000000f
#define FILE_DEVICE_MULTI_UNC_PROVIDER  0x00000010
#define FILE_DEVICE_NAMED_PIPE          0x00000011
#define FILE_DEVICE_NETWORK             0x00000012
#define FILE_DEVICE_NETWORK_BROWSER     0x00000013
#define FILE_DEVICE_NETWORK_FILE_SYSTEM 0x00000014
#define FILE_DEVICE_NULL                0x00000015
#define FILE_DEVICE_PARALLEL_PORT       0x00000016
#define FILE_DEVICE_PHYSICAL_NETCARD    0x00000017
#define FILE_DEVICE_PRINTER             0x00000018
#define FILE_DEVICE_SCANNER             0x00000019
#define FILE_DEVICE_SERIAL_MOUSE_PORT   0x0000001a
#define FILE_DEVICE_SERIAL_PORT         0x0000001b
#define FILE_DEVICE_SCREEN              0x0000001c
#define FILE_DEVICE_SOUND               0x0000001d
#define FILE_DEVICE_STREAMS             0x0000001e
#define FILE_DEVICE_TAPE                0x0000001f
#define FILE_DEVICE_TAPE_FILE_SYSTEM    0x00000020
#define FILE_DEVICE_TRANSPORT           0x00000021
#define FILE_DEVICE_UNKNOWN             0x00000022
#define FILE_DEVICE_VIDEO               0x00000023
#define FILE_DEVICE_VIRTUAL_DISK        0x00000024
#define FILE_DEVICE_WAVE_IN             0x00000025
#define FILE_DEVICE_WAVE_OUT            0x00000026
#define FILE_DEVICE_8042_PORT           0x00000027
#define FILE_DEVICE_NETWORK_REDIRECTOR  0x00000028
#define FILE_DEVICE_BATTERY             0x00000029
#define FILE_DEVICE_BUS_EXTENDER        0x0000002a
#define FILE_DEVICE_MODEM               0x0000002b
#define FILE_DEVICE_VDM                 0x0000002c
#define FILE_DEVICE_MASS_STORAGE        0x0000002d
#define FILE_DEVICE_SMB                 0x0000002e
#define FILE_DEVICE_KS                  0x0000002f
#define FILE_DEVICE_CHANGER             0x00000030
#define FILE_DEVICE_SMARTCARD           0x00000031
#define FILE_DEVICE_ACPI                0x00000032
#define FILE_DEVICE_DVD                 0x00000033
#define FILE_DEVICE_FULLSCREEN_VIDEO    0x00000034
#define FILE_DEVICE_DFS_FILE_SYSTEM     0x00000035
#define FILE_DEVICE_DFS_VOLUME          0x00000036
#define FILE_DEVICE_SERENUM             0x00000037
#define FILE_DEVICE_TERMSRV             0x00000038
#define FILE_DEVICE_KSEC                0x00000039
#define FILE_DEVICE_FIPS		0x0000003A

//
// Macro definition for defining IOCTL and FSCTL function control codes.  Note
// that function codes 0-2047 are reserved for Microsoft Corporation, and
// 2048-4095 are reserved for customers.
//

#define CTL_CODE( DeviceType, Function, Method, Access ) (                 \
    ((DeviceType) << 16) | ((Access) << 14) | ((Function) << 2) | (Method) \
)

//
// Macro to extract device type out of the device io control code
//
#define DEVICE_TYPE_FROM_CTL_CODE(ctrlCode)     (((DWORD)(ctrlCode & 0xffff0000)) >> 16)

//
// Define the method codes for how buffers are passed for I/O and FS controls
//

#define METHOD_BUFFERED                 0
#define METHOD_IN_DIRECT                1
#define METHOD_OUT_DIRECT               2
#define METHOD_NEITHER                  3

//
// Define the access check value for any access
//
//
// The FILE_READ_ACCESS and FILE_WRITE_ACCESS constants are also defined in
// ntioapi.h as FILE_READ_DATA and FILE_WRITE_DATA. The values for these
// constants *MUST* always be in sync.
//
//
// FILE_SPECIAL_ACCESS is checked by the NT I/O system the same as FILE_ANY_ACCESS.
// The file systems, however, may add additional access checks for I/O and FS controls
// that use this value.
//


#define FILE_ANY_ACCESS                 0
#define FILE_SPECIAL_ACCESS    (FILE_ANY_ACCESS)
#define FILE_READ_ACCESS          ( 0x0001 )    // file & pipe
#define FILE_WRITE_ACCESS         ( 0x0002 )    // file & pipe

// end_ntddk end_wdm end_nthal end_ntifs

#endif // _DEVIOCTL_


#ifndef _NTDDSTOR_H_
#define _NTDDSTOR_H_

#ifdef __cplusplus
extern "C" {
#endif

//
// IoControlCode values for storage devices
//

#define IOCTL_STORAGE_BASE FILE_DEVICE_MASS_STORAGE

//
// The following device control codes are common for all class drivers.  They
// should be used in place of the older IOCTL_DISK, IOCTL_CDROM and IOCTL_TAPE
// common codes
//

#define IOCTL_STORAGE_CHECK_VERIFY            CTL_CODE(IOCTL_STORAGE_BASE, 0x0200, METHOD_BUFFERED, FILE_READ_ACCESS)
#define IOCTL_STORAGE_CHECK_VERIFY2           CTL_CODE(IOCTL_STORAGE_BASE, 0x0200, METHOD_BUFFERED, FILE_ANY_ACCESS)
#define IOCTL_STORAGE_MEDIA_REMOVAL           CTL_CODE(IOCTL_STORAGE_BASE, 0x0201, METHOD_BUFFERED, FILE_READ_ACCESS)
#define IOCTL_STORAGE_EJECT_MEDIA             CTL_CODE(IOCTL_STORAGE_BASE, 0x0202, METHOD_BUFFERED, FILE_READ_ACCESS)
#define IOCTL_STORAGE_LOAD_MEDIA              CTL_CODE(IOCTL_STORAGE_BASE, 0x0203, METHOD_BUFFERED, FILE_READ_ACCESS)
#define IOCTL_STORAGE_LOAD_MEDIA2             CTL_CODE(IOCTL_STORAGE_BASE, 0x0203, METHOD_BUFFERED, FILE_ANY_ACCESS)
#define IOCTL_STORAGE_RESERVE                 CTL_CODE(IOCTL_STORAGE_BASE, 0x0204, METHOD_BUFFERED, FILE_READ_ACCESS)
#define IOCTL_STORAGE_RELEASE                 CTL_CODE(IOCTL_STORAGE_BASE, 0x0205, METHOD_BUFFERED, FILE_READ_ACCESS)
#define IOCTL_STORAGE_FIND_NEW_DEVICES        CTL_CODE(IOCTL_STORAGE_BASE, 0x0206, METHOD_BUFFERED, FILE_READ_ACCESS)

#define IOCTL_STORAGE_EJECTION_CONTROL        CTL_CODE(IOCTL_STORAGE_BASE, 0x0250, METHOD_BUFFERED, FILE_ANY_ACCESS)
#define IOCTL_STORAGE_MCN_CONTROL             CTL_CODE(IOCTL_STORAGE_BASE, 0x0251, METHOD_BUFFERED, FILE_ANY_ACCESS)

#define IOCTL_STORAGE_GET_MEDIA_TYPES         CTL_CODE(IOCTL_STORAGE_BASE, 0x0300, METHOD_BUFFERED, FILE_ANY_ACCESS)
#define IOCTL_STORAGE_GET_MEDIA_TYPES_EX      CTL_CODE(IOCTL_STORAGE_BASE, 0x0301, METHOD_BUFFERED, FILE_ANY_ACCESS)
#define IOCTL_STORAGE_GET_MEDIA_SERIAL_NUMBER CTL_CODE(IOCTL_STORAGE_BASE, 0x0304, METHOD_BUFFERED, FILE_ANY_ACCESS)
#define IOCTL_STORAGE_GET_HOTPLUG_INFO        CTL_CODE(IOCTL_STORAGE_BASE, 0x0305, METHOD_BUFFERED, FILE_ANY_ACCESS)
#define IOCTL_STORAGE_SET_HOTPLUG_INFO        CTL_CODE(IOCTL_STORAGE_BASE, 0x0306, METHOD_BUFFERED, FILE_READ_ACCESS | FILE_WRITE_ACCESS)

#define IOCTL_STORAGE_RESET_BUS               CTL_CODE(IOCTL_STORAGE_BASE, 0x0400, METHOD_BUFFERED, FILE_READ_ACCESS)
#define IOCTL_STORAGE_RESET_DEVICE            CTL_CODE(IOCTL_STORAGE_BASE, 0x0401, METHOD_BUFFERED, FILE_READ_ACCESS)
#define IOCTL_STORAGE_BREAK_RESERVATION       CTL_CODE(IOCTL_STORAGE_BASE, 0x0405, METHOD_BUFFERED, FILE_READ_ACCESS)

#define IOCTL_STORAGE_GET_DEVICE_NUMBER       CTL_CODE(IOCTL_STORAGE_BASE, 0x0420, METHOD_BUFFERED, FILE_ANY_ACCESS)
#define IOCTL_STORAGE_PREDICT_FAILURE         CTL_CODE(IOCTL_STORAGE_BASE, 0x0440, METHOD_BUFFERED, FILE_ANY_ACCESS)


//
// These ioctl codes are obsolete.  They are defined here to avoid resuing them
// and to allow class drivers to respond to them more easily.
//

#define OBSOLETE_IOCTL_STORAGE_RESET_BUS        CTL_CODE(IOCTL_STORAGE_BASE, 0x0400, METHOD_BUFFERED, FILE_READ_ACCESS | FILE_WRITE_ACCESS)
#define OBSOLETE_IOCTL_STORAGE_RESET_DEVICE     CTL_CODE(IOCTL_STORAGE_BASE, 0x0401, METHOD_BUFFERED, FILE_READ_ACCESS | FILE_WRITE_ACCESS)


//
// IOCTL_STORAGE_GET_HOTPLUG_INFO
//

typedef struct _STORAGE_HOTPLUG_INFO {
    DWORD Size; // version
    BOOLEAN MediaRemovable; // ie. zip, jaz, cdrom, mo, etc. vs hdd
    BOOLEAN MediaHotplug;   // ie. does the device succeed a lock even though its not lockable media?
    BOOLEAN DeviceHotplug;  // ie. 1394, USB, etc.
    BOOLEAN WriteCacheEnableOverride; // This field should not be relied upon because it is no longer used
} STORAGE_HOTPLUG_INFO, *PSTORAGE_HOTPLUG_INFO;

//
// IOCTL_STORAGE_GET_DEVICE_NUMBER
//
// input - none
//
// output - STORAGE_DEVICE_NUMBER structure
//          The values in the STORAGE_DEVICE_NUMBER structure are guaranteed
//          to remain unchanged until the system is rebooted.  They are not
//          guaranteed to be persistant across boots.
//

typedef struct _STORAGE_DEVICE_NUMBER {

    //
    // The FILE_DEVICE_XXX type for this device.
    //

    DEVICE_TYPE DeviceType;

    //
    // The number of this device
    //

    DWORD       DeviceNumber;

    //
    // If the device is partitionable, the partition number of the device.
    // Otherwise -1
    //

    DWORD       PartitionNumber;
} STORAGE_DEVICE_NUMBER, *PSTORAGE_DEVICE_NUMBER;

//
// Define the structures for scsi resets
//

typedef struct _STORAGE_BUS_RESET_REQUEST {
    BYTE  PathId;
} STORAGE_BUS_RESET_REQUEST, *PSTORAGE_BUS_RESET_REQUEST;

//
// IOCTL_STORAGE_MEDIA_REMOVAL disables the mechanism
// on a storage device that ejects media. This function
// may or may not be supported on storage devices that
// support removable media.
//
// TRUE means prevent media from being removed.
// FALSE means allow media removal.
//

typedef struct _PREVENT_MEDIA_REMOVAL {
    BOOLEAN PreventMediaRemoval;
} PREVENT_MEDIA_REMOVAL, *PPREVENT_MEDIA_REMOVAL;

// begin_ntminitape


typedef struct _TAPE_STATISTICS {
    DWORD Version;
    DWORD Flags;
    LARGE_INTEGER RecoveredWrites;
    LARGE_INTEGER UnrecoveredWrites;
    LARGE_INTEGER RecoveredReads;
    LARGE_INTEGER UnrecoveredReads;
    BYTE          CompressionRatioReads;
    BYTE          CompressionRatioWrites;
} TAPE_STATISTICS, *PTAPE_STATISTICS;

#define RECOVERED_WRITES_VALID   0x00000001
#define UNRECOVERED_WRITES_VALID 0x00000002
#define RECOVERED_READS_VALID    0x00000004
#define UNRECOVERED_READS_VALID  0x00000008
#define WRITE_COMPRESSION_INFO_VALID  0x00000010
#define READ_COMPRESSION_INFO_VALID   0x00000020

typedef struct _TAPE_GET_STATISTICS {
    DWORD Operation;
} TAPE_GET_STATISTICS, *PTAPE_GET_STATISTICS;

#define TAPE_RETURN_STATISTICS 0L
#define TAPE_RETURN_ENV_INFO   1L
#define TAPE_RESET_STATISTICS  2L

//
// IOCTL_STORAGE_GET_MEDIA_TYPES_EX will return an array of DEVICE_MEDIA_INFO
// structures, one per supported type, embedded in the GET_MEDIA_TYPES struct.
//

typedef enum _STORAGE_MEDIA_TYPE {
    //
    // Following are defined in ntdddisk.h in the MEDIA_TYPE enum
    //
    // Unknown,                // Format is unknown
    // F5_1Pt2_512,            // 5.25", 1.2MB,  512 bytes/sector
    // F3_1Pt44_512,           // 3.5",  1.44MB, 512 bytes/sector
    // F3_2Pt88_512,           // 3.5",  2.88MB, 512 bytes/sector
    // F3_20Pt8_512,           // 3.5",  20.8MB, 512 bytes/sector
    // F3_720_512,             // 3.5",  720KB,  512 bytes/sector
    // F5_360_512,             // 5.25", 360KB,  512 bytes/sector
    // F5_320_512,             // 5.25", 320KB,  512 bytes/sector
    // F5_320_1024,            // 5.25", 320KB,  1024 bytes/sector
    // F5_180_512,             // 5.25", 180KB,  512 bytes/sector
    // F5_160_512,             // 5.25", 160KB,  512 bytes/sector
    // RemovableMedia,         // Removable media other than floppy
    // FixedMedia,             // Fixed hard disk media
    // F3_120M_512,            // 3.5", 120M Floppy
    // F3_640_512,             // 3.5" ,  640KB,  512 bytes/sector
    // F5_640_512,             // 5.25",  640KB,  512 bytes/sector
    // F5_720_512,             // 5.25",  720KB,  512 bytes/sector
    // F3_1Pt2_512,            // 3.5" ,  1.2Mb,  512 bytes/sector
    // F3_1Pt23_1024,          // 3.5" ,  1.23Mb, 1024 bytes/sector
    // F5_1Pt23_1024,          // 5.25",  1.23MB, 1024 bytes/sector
    // F3_128Mb_512,           // 3.5" MO 128Mb   512 bytes/sector
    // F3_230Mb_512,           // 3.5" MO 230Mb   512 bytes/sector
    // F8_256_128,             // 8",     256KB,  128 bytes/sector
    // F3_200Mb_512,           // 3.5",   200M Floppy (HiFD)
    //

    DDS_4mm = 0x20,            // Tape - DAT DDS1,2,... (all vendors)
    MiniQic,                   // Tape - miniQIC Tape
    Travan,                    // Tape - Travan TR-1,2,3,...
    QIC,                       // Tape - QIC
    MP_8mm,                    // Tape - 8mm Exabyte Metal Particle
    AME_8mm,                   // Tape - 8mm Exabyte Advanced Metal Evap
    AIT1_8mm,                  // Tape - 8mm Sony AIT
    DLT,                       // Tape - DLT Compact IIIxt, IV
    NCTP,                      // Tape - Philips NCTP
    IBM_3480,                  // Tape - IBM 3480
    IBM_3490E,                 // Tape - IBM 3490E
    IBM_Magstar_3590,          // Tape - IBM Magstar 3590
    IBM_Magstar_MP,            // Tape - IBM Magstar MP
    STK_DATA_D3,               // Tape - STK Data D3
    SONY_DTF,                  // Tape - Sony DTF
    DV_6mm,                    // Tape - 6mm Digital Video
    DMI,                       // Tape - Exabyte DMI and compatibles
    SONY_D2,                   // Tape - Sony D2S and D2L
    CLEANER_CARTRIDGE,         // Cleaner - All Drive types that support Drive Cleaners
    CD_ROM,                    // Opt_Disk - CD
    CD_R,                      // Opt_Disk - CD-Recordable (Write Once)
    CD_RW,                     // Opt_Disk - CD-Rewriteable
    DVD_ROM,                   // Opt_Disk - DVD-ROM
    DVD_R,                     // Opt_Disk - DVD-Recordable (Write Once)
    DVD_RW,                    // Opt_Disk - DVD-Rewriteable
    MO_3_RW,                   // Opt_Disk - 3.5" Rewriteable MO Disk
    MO_5_WO,                   // Opt_Disk - MO 5.25" Write Once
    MO_5_RW,                   // Opt_Disk - MO 5.25" Rewriteable (not LIMDOW)
    MO_5_LIMDOW,               // Opt_Disk - MO 5.25" Rewriteable (LIMDOW)
    PC_5_WO,                   // Opt_Disk - Phase Change 5.25" Write Once Optical
    PC_5_RW,                   // Opt_Disk - Phase Change 5.25" Rewriteable
    PD_5_RW,                   // Opt_Disk - PhaseChange Dual Rewriteable
    ABL_5_WO,                  // Opt_Disk - Ablative 5.25" Write Once Optical
    PINNACLE_APEX_5_RW,        // Opt_Disk - Pinnacle Apex 4.6GB Rewriteable Optical
    SONY_12_WO,                // Opt_Disk - Sony 12" Write Once
    PHILIPS_12_WO,             // Opt_Disk - Philips/LMS 12" Write Once
    HITACHI_12_WO,             // Opt_Disk - Hitachi 12" Write Once
    CYGNET_12_WO,              // Opt_Disk - Cygnet/ATG 12" Write Once
    KODAK_14_WO,               // Opt_Disk - Kodak 14" Write Once
    MO_NFR_525,                // Opt_Disk - Near Field Recording (Terastor)
    NIKON_12_RW,               // Opt_Disk - Nikon 12" Rewriteable
    IOMEGA_ZIP,                // Mag_Disk - Iomega Zip
    IOMEGA_JAZ,                // Mag_Disk - Iomega Jaz
    SYQUEST_EZ135,             // Mag_Disk - Syquest EZ135
    SYQUEST_EZFLYER,           // Mag_Disk - Syquest EzFlyer
    SYQUEST_SYJET,             // Mag_Disk - Syquest SyJet
    AVATAR_F2,                 // Mag_Disk - 2.5" Floppy
    MP2_8mm,                   // Tape - 8mm Hitachi
    DST_S,                     // Ampex DST Small Tapes
    DST_M,                     // Ampex DST Medium Tapes
    DST_L,                     // Ampex DST Large Tapes
    VXATape_1,                 // Ecrix 8mm Tape
    VXATape_2,                 // Ecrix 8mm Tape
    STK_9840,                  // STK 9840
    LTO_Ultrium,               // IBM, HP, Seagate LTO Ultrium
    LTO_Accelis,               // IBM, HP, Seagate LTO Accelis
    DVD_RAM,                   // Opt_Disk - DVD-RAM
    AIT_8mm,                   // AIT2 or higher
    ADR_1,                     // OnStream ADR Mediatypes
    ADR_2
} STORAGE_MEDIA_TYPE, *PSTORAGE_MEDIA_TYPE;

#define MEDIA_ERASEABLE         0x00000001
#define MEDIA_WRITE_ONCE        0x00000002
#define MEDIA_READ_ONLY         0x00000004
#define MEDIA_READ_WRITE        0x00000008

#define MEDIA_WRITE_PROTECTED   0x00000100
#define MEDIA_CURRENTLY_MOUNTED 0x80000000

//
// Define the different storage bus types
// Bus types below 128 (0x80) are reserved for Microsoft use
//

typedef enum _STORAGE_BUS_TYPE {
    BusTypeUnknown = 0x00,
    BusTypeScsi,
    BusTypeAtapi,
    BusTypeAta,
    BusType1394,
    BusTypeSsa,
    BusTypeFibre,
    BusTypeUsb,
    BusTypeRAID,
    BusTypeMaxReserved = 0x7F
} STORAGE_BUS_TYPE, *PSTORAGE_BUS_TYPE;

typedef struct _DEVICE_MEDIA_INFO {
    union {
        struct {
            LARGE_INTEGER Cylinders;
            STORAGE_MEDIA_TYPE MediaType;
            DWORD TracksPerCylinder;
            DWORD SectorsPerTrack;
            DWORD BytesPerSector;
            DWORD NumberMediaSides;
            DWORD MediaCharacteristics; // Bitmask of MEDIA_XXX values.
        } DiskInfo;

        struct {
            LARGE_INTEGER Cylinders;
            STORAGE_MEDIA_TYPE MediaType;
            DWORD TracksPerCylinder;
            DWORD SectorsPerTrack;
            DWORD BytesPerSector;
            DWORD NumberMediaSides;
            DWORD MediaCharacteristics; // Bitmask of MEDIA_XXX values.
        } RemovableDiskInfo;

        struct {
            STORAGE_MEDIA_TYPE MediaType;
            DWORD   MediaCharacteristics; // Bitmask of MEDIA_XXX values.
            DWORD   CurrentBlockSize;
            STORAGE_BUS_TYPE BusType;

            //
            // Bus specific information describing the medium supported.
            //

            union {
                struct {
                    BYTE  MediumType;
                    BYTE  DensityCode;
                } ScsiInformation;
            } BusSpecificData;

        } TapeInfo;
    } DeviceSpecific;
} DEVICE_MEDIA_INFO, *PDEVICE_MEDIA_INFO;

typedef struct _GET_MEDIA_TYPES {
    DWORD DeviceType;              // FILE_DEVICE_XXX values
    DWORD MediaInfoCount;
    DEVICE_MEDIA_INFO MediaInfo[1];
} GET_MEDIA_TYPES, *PGET_MEDIA_TYPES;


//
// IOCTL_STORAGE_PREDICT_FAILURE
//
// input - none
//
// output - STORAGE_PREDICT_FAILURE structure
//          PredictFailure returns zero if no failure predicted and non zero
//                         if a failure is predicted.
//
//          VendorSpecific returns 512 bytes of vendor specific information
//                         if a failure is predicted
//
typedef struct _STORAGE_PREDICT_FAILURE
{
    DWORD PredictFailure;
    BYTE  VendorSpecific[512];
} STORAGE_PREDICT_FAILURE, *PSTORAGE_PREDICT_FAILURE;

// end_ntminitape

#ifdef __cplusplus
}
#endif

#endif // _NTDDSTOR_H_

//
// IoControlCode values for disk devices.
//

#define IOCTL_DISK_BASE                 FILE_DEVICE_DISK
#define IOCTL_DISK_GET_DRIVE_GEOMETRY   CTL_CODE(IOCTL_DISK_BASE, 0x0000, METHOD_BUFFERED, FILE_ANY_ACCESS)
#define IOCTL_DISK_GET_PARTITION_INFO   CTL_CODE(IOCTL_DISK_BASE, 0x0001, METHOD_BUFFERED, FILE_READ_ACCESS)
#define IOCTL_DISK_SET_PARTITION_INFO   CTL_CODE(IOCTL_DISK_BASE, 0x0002, METHOD_BUFFERED, FILE_READ_ACCESS | FILE_WRITE_ACCESS)
#define IOCTL_DISK_GET_DRIVE_LAYOUT     CTL_CODE(IOCTL_DISK_BASE, 0x0003, METHOD_BUFFERED, FILE_READ_ACCESS)
#define IOCTL_DISK_SET_DRIVE_LAYOUT     CTL_CODE(IOCTL_DISK_BASE, 0x0004, METHOD_BUFFERED, FILE_READ_ACCESS | FILE_WRITE_ACCESS)
#define IOCTL_DISK_VERIFY               CTL_CODE(IOCTL_DISK_BASE, 0x0005, METHOD_BUFFERED, FILE_ANY_ACCESS)
#define IOCTL_DISK_FORMAT_TRACKS        CTL_CODE(IOCTL_DISK_BASE, 0x0006, METHOD_BUFFERED, FILE_READ_ACCESS | FILE_WRITE_ACCESS)
#define IOCTL_DISK_REASSIGN_BLOCKS      CTL_CODE(IOCTL_DISK_BASE, 0x0007, METHOD_BUFFERED, FILE_READ_ACCESS | FILE_WRITE_ACCESS)
#define IOCTL_DISK_PERFORMANCE          CTL_CODE(IOCTL_DISK_BASE, 0x0008, METHOD_BUFFERED, FILE_ANY_ACCESS)
#define IOCTL_DISK_IS_WRITABLE          CTL_CODE(IOCTL_DISK_BASE, 0x0009, METHOD_BUFFERED, FILE_ANY_ACCESS)
#define IOCTL_DISK_LOGGING              CTL_CODE(IOCTL_DISK_BASE, 0x000a, METHOD_BUFFERED, FILE_ANY_ACCESS)
#define IOCTL_DISK_FORMAT_TRACKS_EX     CTL_CODE(IOCTL_DISK_BASE, 0x000b, METHOD_BUFFERED, FILE_READ_ACCESS | FILE_WRITE_ACCESS)
#define IOCTL_DISK_HISTOGRAM_STRUCTURE  CTL_CODE(IOCTL_DISK_BASE, 0x000c, METHOD_BUFFERED, FILE_ANY_ACCESS)
#define IOCTL_DISK_HISTOGRAM_DATA       CTL_CODE(IOCTL_DISK_BASE, 0x000d, METHOD_BUFFERED, FILE_ANY_ACCESS)
#define IOCTL_DISK_HISTOGRAM_RESET      CTL_CODE(IOCTL_DISK_BASE, 0x000e, METHOD_BUFFERED, FILE_ANY_ACCESS)
#define IOCTL_DISK_REQUEST_STRUCTURE    CTL_CODE(IOCTL_DISK_BASE, 0x000f, METHOD_BUFFERED, FILE_ANY_ACCESS)
#define IOCTL_DISK_REQUEST_DATA         CTL_CODE(IOCTL_DISK_BASE, 0x0010, METHOD_BUFFERED, FILE_ANY_ACCESS)
#define IOCTL_DISK_PERFORMANCE_OFF      CTL_CODE(IOCTL_DISK_BASE, 0x0018, METHOD_BUFFERED, FILE_ANY_ACCESS)



#if(_WIN32_WINNT >= 0x0400)
#define IOCTL_DISK_CONTROLLER_NUMBER    CTL_CODE(IOCTL_DISK_BASE, 0x0011, METHOD_BUFFERED, FILE_ANY_ACCESS)

//
// IOCTL support for SMART drive fault prediction.
//

#define SMART_GET_VERSION               CTL_CODE(IOCTL_DISK_BASE, 0x0020, METHOD_BUFFERED, FILE_READ_ACCESS)
#define SMART_SEND_DRIVE_COMMAND        CTL_CODE(IOCTL_DISK_BASE, 0x0021, METHOD_BUFFERED, FILE_READ_ACCESS | FILE_WRITE_ACCESS)
#define SMART_RCV_DRIVE_DATA            CTL_CODE(IOCTL_DISK_BASE, 0x0022, METHOD_BUFFERED, FILE_READ_ACCESS | FILE_WRITE_ACCESS)

#endif /* _WIN32_WINNT >= 0x0400 */

#if (_WIN32_WINNT >= 0x500)

//
// New IOCTLs for GUID Partition tabled disks.
//

#define IOCTL_DISK_GET_PARTITION_INFO_EX    CTL_CODE(IOCTL_DISK_BASE, 0x0012, METHOD_BUFFERED, FILE_ANY_ACCESS)
#define IOCTL_DISK_SET_PARTITION_INFO_EX    CTL_CODE(IOCTL_DISK_BASE, 0x0013, METHOD_BUFFERED, FILE_READ_ACCESS | FILE_WRITE_ACCESS)
#define IOCTL_DISK_GET_DRIVE_LAYOUT_EX      CTL_CODE(IOCTL_DISK_BASE, 0x0014, METHOD_BUFFERED, FILE_ANY_ACCESS)
#define IOCTL_DISK_SET_DRIVE_LAYOUT_EX      CTL_CODE(IOCTL_DISK_BASE, 0x0015, METHOD_BUFFERED, FILE_READ_ACCESS | FILE_WRITE_ACCESS)
#define IOCTL_DISK_CREATE_DISK              CTL_CODE(IOCTL_DISK_BASE, 0x0016, METHOD_BUFFERED, FILE_READ_ACCESS | FILE_WRITE_ACCESS)
#define IOCTL_DISK_GET_LENGTH_INFO          CTL_CODE(IOCTL_DISK_BASE, 0x0017, METHOD_BUFFERED, FILE_READ_ACCESS)
#define IOCTL_DISK_GET_DRIVE_GEOMETRY_EX    CTL_CODE(IOCTL_DISK_BASE, 0x0028, METHOD_BUFFERED, FILE_ANY_ACCESS)

#endif /* _WIN32_WINNT >= 0x0500 */


#if(_WIN32_WINNT >= 0x0500)
#define IOCTL_DISK_UPDATE_DRIVE_SIZE        CTL_CODE(IOCTL_DISK_BASE, 0x0032, METHOD_BUFFERED, FILE_READ_ACCESS | FILE_WRITE_ACCESS)
#define IOCTL_DISK_GROW_PARTITION           CTL_CODE(IOCTL_DISK_BASE, 0x0034, METHOD_BUFFERED, FILE_READ_ACCESS | FILE_WRITE_ACCESS)

#define IOCTL_DISK_GET_CACHE_INFORMATION    CTL_CODE(IOCTL_DISK_BASE, 0x0035, METHOD_BUFFERED, FILE_READ_ACCESS)
#define IOCTL_DISK_SET_CACHE_INFORMATION    CTL_CODE(IOCTL_DISK_BASE, 0x0036, METHOD_BUFFERED, FILE_READ_ACCESS | FILE_WRITE_ACCESS)
#define IOCTL_DISK_GET_WRITE_CACHE_STATE    CTL_CODE(IOCTL_DISK_BASE, 0x0037, METHOD_BUFFERED, FILE_READ_ACCESS)

#define IOCTL_DISK_DELETE_DRIVE_LAYOUT      CTL_CODE(IOCTL_DISK_BASE, 0x0040, METHOD_BUFFERED, FILE_READ_ACCESS | FILE_WRITE_ACCESS)

//
// Called to flush cached information that the driver may have about this
// device's characteristics.  Not all drivers cache characteristics, and not
// cached properties can be flushed.  This simply serves as an update to the
// driver that it may want to do an expensive reexamination of the device's
// characteristics now (fixed media size, partition table, etc...)
//

#define IOCTL_DISK_UPDATE_PROPERTIES    CTL_CODE(IOCTL_DISK_BASE, 0x0050, METHOD_BUFFERED, FILE_ANY_ACCESS)

//
//  Special IOCTLs needed to support PC-98 machines in Japan
//

#define IOCTL_DISK_FORMAT_DRIVE         CTL_CODE(IOCTL_DISK_BASE, 0x00f3, METHOD_BUFFERED, FILE_READ_ACCESS | FILE_WRITE_ACCESS)
#define IOCTL_DISK_SENSE_DEVICE         CTL_CODE(IOCTL_DISK_BASE, 0x00f8, METHOD_BUFFERED, FILE_ANY_ACCESS)

#endif /* _WIN32_WINNT >= 0x0500 */

//
// The following device control codes are common for all class drivers.  The
// functions codes defined here must match all of the other class drivers.
//
// Warning: these codes will be replaced in the future by equivalent
// IOCTL_STORAGE codes
//

#define IOCTL_DISK_CHECK_VERIFY     CTL_CODE(IOCTL_DISK_BASE, 0x0200, METHOD_BUFFERED, FILE_READ_ACCESS)
#define IOCTL_DISK_MEDIA_REMOVAL    CTL_CODE(IOCTL_DISK_BASE, 0x0201, METHOD_BUFFERED, FILE_READ_ACCESS)
#define IOCTL_DISK_EJECT_MEDIA      CTL_CODE(IOCTL_DISK_BASE, 0x0202, METHOD_BUFFERED, FILE_READ_ACCESS)
#define IOCTL_DISK_LOAD_MEDIA       CTL_CODE(IOCTL_DISK_BASE, 0x0203, METHOD_BUFFERED, FILE_READ_ACCESS)
#define IOCTL_DISK_RESERVE          CTL_CODE(IOCTL_DISK_BASE, 0x0204, METHOD_BUFFERED, FILE_READ_ACCESS)
#define IOCTL_DISK_RELEASE          CTL_CODE(IOCTL_DISK_BASE, 0x0205, METHOD_BUFFERED, FILE_READ_ACCESS)
#define IOCTL_DISK_FIND_NEW_DEVICES CTL_CODE(IOCTL_DISK_BASE, 0x0206, METHOD_BUFFERED, FILE_READ_ACCESS)
#define IOCTL_DISK_GET_MEDIA_TYPES CTL_CODE(IOCTL_DISK_BASE, 0x0300, METHOD_BUFFERED, FILE_ANY_ACCESS)

//
// Define the partition types returnable by known disk drivers.
//

#define PARTITION_ENTRY_UNUSED          0x00      // Entry unused
#define PARTITION_FAT_12                0x01      // 12-bit FAT entries
#define PARTITION_XENIX_1               0x02      // Xenix
#define PARTITION_XENIX_2               0x03      // Xenix
#define PARTITION_FAT_16                0x04      // 16-bit FAT entries
#define PARTITION_EXTENDED              0x05      // Extended partition entry
#define PARTITION_HUGE                  0x06      // Huge partition MS-DOS V4
#define PARTITION_IFS                   0x07      // IFS Partition
#define PARTITION_OS2BOOTMGR            0x0A      // OS/2 Boot Manager/OPUS/Coherent swap
#define PARTITION_FAT32                 0x0B      // FAT32
#define PARTITION_FAT32_XINT13          0x0C      // FAT32 using extended int13 services
#define PARTITION_XINT13                0x0E      // Win95 partition using extended int13 services
#define PARTITION_XINT13_EXTENDED       0x0F      // Same as type 5 but uses extended int13 services
#define PARTITION_PREP                  0x41      // PowerPC Reference Platform (PReP) Boot Partition
#define PARTITION_LDM                   0x42      // Logical Disk Manager partition
#define PARTITION_UNIX                  0x63      // Unix

#define VALID_NTFT                      0xC0      // NTFT uses high order bits

//
// The high bit of the partition type code indicates that a partition
// is part of an NTFT mirror or striped array.
//

#define PARTITION_NTFT                  0x80     // NTFT partition

//
// The following macro is used to determine which partitions should be
// assigned drive letters.
//

//++
//
// BOOLEAN
// IsRecognizedPartition(
//     IN DWORD PartitionType
//     )
//
// Routine Description:
//
//     This macro is used to determine to which partitions drive letters
//     should be assigned.
//
// Arguments:
//
//     PartitionType - Supplies the type of the partition being examined.
//
// Return Value:
//
//     The return value is TRUE if the partition type is recognized,
//     otherwise FALSE is returned.
//
//--

#define IsRecognizedPartition( PartitionType ) (    \
     ((PartitionType & PARTITION_NTFT) && ((PartitionType & ~0xC0) == PARTITION_FAT_12)) ||  \
     ((PartitionType & PARTITION_NTFT) && ((PartitionType & ~0xC0) == PARTITION_IFS)) ||  \
     ((PartitionType & PARTITION_NTFT) && ((PartitionType & ~0xC0) == PARTITION_HUGE)) ||  \
     ((PartitionType & PARTITION_NTFT) && ((PartitionType & ~0xC0) == PARTITION_FAT32)) ||  \
     ((PartitionType & PARTITION_NTFT) && ((PartitionType & ~0xC0) == PARTITION_FAT32_XINT13)) ||  \
     ((PartitionType & PARTITION_NTFT) && ((PartitionType & ~0xC0) == PARTITION_XINT13)) ||  \
     ((PartitionType) == PARTITION_FAT_12)          ||  \
     ((PartitionType) == PARTITION_FAT_16)          ||  \
     ((PartitionType) == PARTITION_IFS)             ||  \
     ((PartitionType) == PARTITION_HUGE)            ||  \
     ((PartitionType) == PARTITION_FAT32)           ||  \
     ((PartitionType) == PARTITION_FAT32_XINT13)    ||  \
     ((PartitionType) == PARTITION_XINT13) )

//++
//
// BOOLEAN
// IsContainerPartition(
//     IN DWORD PartitionType
//     )
//
// Routine Description:
//
//     This macro is used to determine to which partition types are actually
//     containers for other partitions (ie, extended partitions).
//
// Arguments:
//
//     PartitionType - Supplies the type of the partition being examined.
//
// Return Value:
//
//     The return value is TRUE if the partition type is a container,
//     otherwise FALSE is returned.
//
//--

#define IsContainerPartition( PartitionType ) \
    ((PartitionType == PARTITION_EXTENDED) || (PartitionType == PARTITION_XINT13_EXTENDED))

//++
//
// BOOLEAN
// IsFTPartition(
//     IN DWORD PartitionType
//     )
//
// Routine Description:
//
//     This macro is used to determine if the given partition is an FT
//     partition.
//
// Arguments:
//
//     PartitionType - Supplies the type of the partition being examined.
//
// Return Value:
//
//     The return value is TRUE if the partition type is an FT partition,
//     otherwise FALSE is returned.
//
//--

#define IsFTPartition( PartitionType ) \
    (((PartitionType)&PARTITION_NTFT) && IsRecognizedPartition(PartitionType))

//
// Define the media types supported by the driver.
//

typedef enum _MEDIA_TYPE {
    Unknown,                // Format is unknown
    F5_1Pt2_512,            // 5.25", 1.2MB,  512 bytes/sector
    F3_1Pt44_512,           // 3.5",  1.44MB, 512 bytes/sector
    F3_2Pt88_512,           // 3.5",  2.88MB, 512 bytes/sector
    F3_20Pt8_512,           // 3.5",  20.8MB, 512 bytes/sector
    F3_720_512,             // 3.5",  720KB,  512 bytes/sector
    F5_360_512,             // 5.25", 360KB,  512 bytes/sector
    F5_320_512,             // 5.25", 320KB,  512 bytes/sector
    F5_320_1024,            // 5.25", 320KB,  1024 bytes/sector
    F5_180_512,             // 5.25", 180KB,  512 bytes/sector
    F5_160_512,             // 5.25", 160KB,  512 bytes/sector
    RemovableMedia,         // Removable media other than floppy
    FixedMedia,             // Fixed hard disk media
    F3_120M_512,            // 3.5", 120M Floppy
    F3_640_512,             // 3.5" ,  640KB,  512 bytes/sector
    F5_640_512,             // 5.25",  640KB,  512 bytes/sector
    F5_720_512,             // 5.25",  720KB,  512 bytes/sector
    F3_1Pt2_512,            // 3.5" ,  1.2Mb,  512 bytes/sector
    F3_1Pt23_1024,          // 3.5" ,  1.23Mb, 1024 bytes/sector
    F5_1Pt23_1024,          // 5.25",  1.23MB, 1024 bytes/sector
    F3_128Mb_512,           // 3.5" MO 128Mb   512 bytes/sector
    F3_230Mb_512,           // 3.5" MO 230Mb   512 bytes/sector
    F8_256_128,             // 8",     256KB,  128 bytes/sector
    F3_200Mb_512,           // 3.5",   200M Floppy (HiFD)
    F3_240M_512,            // 3.5",   240Mb Floppy (HiFD)
    F3_32M_512              // 3.5",   32Mb Floppy
} MEDIA_TYPE, *PMEDIA_TYPE;

//
// Define the input buffer structure for the driver, when
// it is called with IOCTL_DISK_FORMAT_TRACKS.
//

typedef struct _FORMAT_PARAMETERS {
   MEDIA_TYPE MediaType;
   DWORD StartCylinderNumber;
   DWORD EndCylinderNumber;
   DWORD StartHeadNumber;
   DWORD EndHeadNumber;
} FORMAT_PARAMETERS, *PFORMAT_PARAMETERS;

//
// Define the BAD_TRACK_NUMBER type. An array of elements of this type is
// returned by the driver on IOCTL_DISK_FORMAT_TRACKS requests, to indicate
// what tracks were bad during formatting. The length of that array is
// reported in the `Information' field of the I/O Status Block.
//

typedef WORD   BAD_TRACK_NUMBER;
typedef WORD   *PBAD_TRACK_NUMBER;

//
// Define the input buffer structure for the driver, when
// it is called with IOCTL_DISK_FORMAT_TRACKS_EX.
//

typedef struct _FORMAT_EX_PARAMETERS {
   MEDIA_TYPE MediaType;
   DWORD StartCylinderNumber;
   DWORD EndCylinderNumber;
   DWORD StartHeadNumber;
   DWORD EndHeadNumber;
   WORD   FormatGapLength;
   WORD   SectorsPerTrack;
   WORD   SectorNumber[1];
} FORMAT_EX_PARAMETERS, *PFORMAT_EX_PARAMETERS;

//
// The following structure is returned on an IOCTL_DISK_GET_DRIVE_GEOMETRY
// request and an array of them is returned on an IOCTL_DISK_GET_MEDIA_TYPES
// request.
//

typedef struct _DISK_GEOMETRY {
    LARGE_INTEGER Cylinders;
    MEDIA_TYPE MediaType;
    DWORD TracksPerCylinder;
    DWORD SectorsPerTrack;
    DWORD BytesPerSector;
} DISK_GEOMETRY, *PDISK_GEOMETRY;



//
// This wmi guid returns a DISK_GEOMETRY structure
//
#define WMI_DISK_GEOMETRY_GUID         { 0x25007f51, 0x57c2, 0x11d1, { 0xa5, 0x28, 0x0, 0xa0, 0xc9, 0x6, 0x29, 0x10 } }



//
// The following structure is returned on an IOCTL_DISK_GET_PARTITION_INFO
// and an IOCTL_DISK_GET_DRIVE_LAYOUT request.  It is also used in a request
// to change the drive layout, IOCTL_DISK_SET_DRIVE_LAYOUT.
//

typedef struct _PARTITION_INFORMATION {
    LARGE_INTEGER StartingOffset;
    LARGE_INTEGER PartitionLength;
    DWORD HiddenSectors;
    DWORD PartitionNumber;
    BYTE  PartitionType;
    BOOLEAN BootIndicator;
    BOOLEAN RecognizedPartition;
    BOOLEAN RewritePartition;
} PARTITION_INFORMATION, *PPARTITION_INFORMATION;

//
// The following structure is used to change the partition type of a
// specified disk partition using an IOCTL_DISK_SET_PARTITION_INFO
// request.
//

typedef struct _SET_PARTITION_INFORMATION {
    BYTE  PartitionType;
} SET_PARTITION_INFORMATION, *PSET_PARTITION_INFORMATION;

//
// The following structures is returned on an IOCTL_DISK_GET_DRIVE_LAYOUT
// request and given as input to an IOCTL_DISK_SET_DRIVE_LAYOUT request.
//

typedef struct _DRIVE_LAYOUT_INFORMATION {
    DWORD PartitionCount;
    DWORD Signature;
    PARTITION_INFORMATION PartitionEntry[1];
} DRIVE_LAYOUT_INFORMATION, *PDRIVE_LAYOUT_INFORMATION;

//
// The following structure is passed in on an IOCTL_DISK_VERIFY request.
// The offset and length parameters are both given in bytes.
//

typedef struct _VERIFY_INFORMATION {
    LARGE_INTEGER StartingOffset;
    DWORD Length;
} VERIFY_INFORMATION, *PVERIFY_INFORMATION;

//
// The following structure is passed in on an IOCTL_DISK_REASSIGN_BLOCKS
// request.
//

typedef struct _REASSIGN_BLOCKS {
    WORD   Reserved;
    WORD   Count;
    DWORD BlockNumber[1];
} REASSIGN_BLOCKS, *PREASSIGN_BLOCKS;


#if(_WIN32_WINNT >= 0x500)

//
// Support for GUID Partition Table (GPT) disks.
//

//
// There are currently two ways a disk can be partitioned. With a traditional
// AT-style master boot record (PARTITION_STYLE_MBR) and with a new, GPT
// partition table (PARTITION_STYLE_GPT). RAW is for an unrecognizable
// partition style. There are a very limited number of things you can
// do with a RAW partititon.
//

typedef enum _PARTITION_STYLE {
    PARTITION_STYLE_MBR,
    PARTITION_STYLE_GPT,
    PARTITION_STYLE_RAW
} PARTITION_STYLE;


//
// The following structure defines information in a GPT partition that is
// not common to both GPT and MBR partitions.
//

typedef struct _PARTITION_INFORMATION_GPT {
    GUID PartitionType;                 // Partition type. See table 16-3.
    GUID PartitionId;                   // Unique GUID for this partition.
    DWORD64 Attributes;                 // See table 16-4.
    WCHAR Name [36];                    // Partition Name in Unicode.
} PARTITION_INFORMATION_GPT, *PPARTITION_INFORMATION_GPT;

//
//  The following are GPT partition attributes applicable for any
//  partition type. These attributes are not OS-specific
//

#define GPT_ATTRIBUTE_PLATFORM_REQUIRED             (0x0000000000000001)

//
// The following are GPT partition attributes applicable when the
// PartitionType is PARTITION_BASIC_DATA_GUID.
//

#define GPT_BASIC_DATA_ATTRIBUTE_NO_DRIVE_LETTER    (0x8000000000000000)
#define GPT_BASIC_DATA_ATTRIBUTE_HIDDEN             (0x4000000000000000)
#define GPT_BASIC_DATA_ATTRIBUTE_READ_ONLY          (0x1000000000000000)

//
// The following structure defines information in an MBR partition that is not
// common to both GPT and MBR partitions.
//

typedef struct _PARTITION_INFORMATION_MBR {
    BYTE  PartitionType;
    BOOLEAN BootIndicator;
    BOOLEAN RecognizedPartition;
    DWORD HiddenSectors;
} PARTITION_INFORMATION_MBR, *PPARTITION_INFORMATION_MBR;


//
// The structure SET_PARTITION_INFO_EX is used with the ioctl
// IOCTL_SET_PARTITION_INFO_EX to set information about a specific
// partition. Note that for MBR partitions, you can only set the partition
// signature, whereas GPT partitions allow setting of all fields that
// you can get.
//

typedef SET_PARTITION_INFORMATION SET_PARTITION_INFORMATION_MBR;
typedef PARTITION_INFORMATION_GPT SET_PARTITION_INFORMATION_GPT;


typedef struct _SET_PARTITION_INFORMATION_EX {
    PARTITION_STYLE PartitionStyle;
    union {
        SET_PARTITION_INFORMATION_MBR Mbr;
        SET_PARTITION_INFORMATION_GPT Gpt;
    };
} SET_PARTITION_INFORMATION_EX, *PSET_PARTITION_INFORMATION_EX;


//
// The structure CREATE_DISK_GPT with the ioctl IOCTL_DISK_CREATE_DISK
// to initialize an virgin disk with an empty GPT partition table.
//

typedef struct _CREATE_DISK_GPT {
    GUID DiskId;                    // Unique disk id for the disk.
    DWORD MaxPartitionCount;        // Maximim number of partitions allowable.
} CREATE_DISK_GPT, *PCREATE_DISK_GPT;

//
// The structure CREATE_DISK_MBR with the ioctl IOCTL_DISK_CREATE_DISK
// to initialize an virgin disk with an empty MBR partition table.
//

typedef struct _CREATE_DISK_MBR {
    DWORD Signature;
} CREATE_DISK_MBR, *PCREATE_DISK_MBR;


typedef struct _CREATE_DISK {
    PARTITION_STYLE PartitionStyle;
    union {
        CREATE_DISK_MBR Mbr;
        CREATE_DISK_GPT Gpt;
    };
} CREATE_DISK, *PCREATE_DISK;


//
// The structure GET_LENGTH_INFORMATION is used with the ioctl
// IOCTL_DISK_GET_LENGTH_INFO to obtain the length, in bytes, of the
// disk, partition, or volume.
//

typedef struct _GET_LENGTH_INFORMATION {
    LARGE_INTEGER   Length;
} GET_LENGTH_INFORMATION, *PGET_LENGTH_INFORMATION;

//
// The PARTITION_INFORMATION_EX structure is used with the
// IOCTL_DISK_GET_DRIVE_LAYOUT_EX, IOCTL_DISK_SET_DRIVE_LAYOUT_EX,
// IOCTL_DISK_GET_PARTITION_INFO_EX and IOCTL_DISK_GET_PARTITION_INFO_EX calls.
//

typedef struct _PARTITION_INFORMATION_EX {
    PARTITION_STYLE PartitionStyle;
    LARGE_INTEGER StartingOffset;
    LARGE_INTEGER PartitionLength;
    DWORD PartitionNumber;
    BOOLEAN RewritePartition;
    union {
        PARTITION_INFORMATION_MBR Mbr;
        PARTITION_INFORMATION_GPT Gpt;
    };
} PARTITION_INFORMATION_EX, *PPARTITION_INFORMATION_EX;


//
// GPT specific drive layout information.
//

typedef struct _DRIVE_LAYOUT_INFORMATION_GPT {
    GUID DiskId;
    LARGE_INTEGER StartingUsableOffset;
    LARGE_INTEGER UsableLength;
    DWORD MaxPartitionCount;
} DRIVE_LAYOUT_INFORMATION_GPT, *PDRIVE_LAYOUT_INFORMATION_GPT;


//
// MBR specific drive layout information.
//

typedef struct _DRIVE_LAYOUT_INFORMATION_MBR {
    DWORD Signature;
} DRIVE_LAYOUT_INFORMATION_MBR, *PDRIVE_LAYOUT_INFORMATION_MBR;

//
// The structure DRIVE_LAYOUT_INFORMATION_EX is used with the
// IOCTL_SET_DRIVE_LAYOUT_EX and IOCTL_GET_DRIVE_LAYOUT_EX calls.
//

typedef struct _DRIVE_LAYOUT_INFORMATION_EX {
    DWORD PartitionStyle;
    DWORD PartitionCount;
    union {
        DRIVE_LAYOUT_INFORMATION_MBR Mbr;
        DRIVE_LAYOUT_INFORMATION_GPT Gpt;
    };
    PARTITION_INFORMATION_EX PartitionEntry[1];
} DRIVE_LAYOUT_INFORMATION_EX, *PDRIVE_LAYOUT_INFORMATION_EX;


#endif // (_WIN32_WINNT >= 0x0500)


#if(_WIN32_WINNT >= 0x0500)

//
// The DISK_GEOMETRY_EX structure is returned on issuing an
// IOCTL_DISK_GET_DRIVE_GEOMETRY_EX ioctl.
//

typedef enum _DETECTION_TYPE {
        DetectNone,
        DetectInt13,
        DetectExInt13
} DETECTION_TYPE;

typedef struct _DISK_INT13_INFO {
        WORD   DriveSelect;
        DWORD MaxCylinders;
        WORD   SectorsPerTrack;
        WORD   MaxHeads;
        WORD   NumberDrives;
} DISK_INT13_INFO, *PDISK_INT13_INFO;

typedef struct _DISK_EX_INT13_INFO {
        WORD   ExBufferSize;
        WORD   ExFlags;
        DWORD ExCylinders;
        DWORD ExHeads;
        DWORD ExSectorsPerTrack;
        DWORD64 ExSectorsPerDrive;
        WORD   ExSectorSize;
        WORD   ExReserved;
} DISK_EX_INT13_INFO, *PDISK_EX_INT13_INFO;

typedef struct _DISK_DETECTION_INFO {
        DWORD SizeOfDetectInfo;
        DETECTION_TYPE DetectionType;
        union {
                struct {

                        //
                        // If DetectionType == DETECTION_INT13 then we have just the Int13
                        // information.
                        //

                        DISK_INT13_INFO Int13;

                        //
                        // If DetectionType == DETECTION_EX_INT13, then we have the
                        // extended int 13 information.
                        //

                        DISK_EX_INT13_INFO ExInt13;     // If DetectionType == DetectExInt13
                };
        };
} DISK_DETECTION_INFO, *PDISK_DETECTION_INFO;


typedef struct _DISK_PARTITION_INFO {
        DWORD SizeOfPartitionInfo;
        PARTITION_STYLE PartitionStyle;                 // PartitionStyle = RAW, GPT or MBR
        union {
                struct {                                                        // If PartitionStyle == MBR
                        DWORD Signature;                                // MBR Signature
                        DWORD CheckSum;                                 // MBR CheckSum
                } Mbr;
                struct {                                                        // If PartitionStyle == GPT
                        GUID DiskId;
                } Gpt;
        };
} DISK_PARTITION_INFO, *PDISK_PARTITION_INFO;


//
// The Geometry structure is a variable length structure composed of a
// DISK_GEOMETRY_EX structure followed by a DISK_PARTITION_INFO structure
// followed by a DISK_DETECTION_DATA structure.
//

#define DiskGeometryGetPartition(Geometry)\
                        ((PDISK_PARTITION_INFO)((Geometry)+1))

#define DiskGeometryGetDetect(Geometry)\
                        ((PDISK_DETECTION_INFO)(((PBYTE)DiskGeometryGetPartition(Geometry)+\
                                        DiskGeometryGetPartition(Geometry)->SizeOfPartitionInfo)))

typedef struct _DISK_GEOMETRY_EX {
        DISK_GEOMETRY Geometry;                                 // Standard disk geometry: may be faked by driver.
        LARGE_INTEGER DiskSize;                                 // Must always be correct
        BYTE  Data[1];                                                  // Partition, Detect info
} DISK_GEOMETRY_EX, *PDISK_GEOMETRY_EX;

#endif // (_WIN32_WINNT > 0x0500)

#if(_WIN32_WINNT >= 0x0400)
//
// IOCTL_DISK_CONTROLLER_NUMBER returns the controller and disk
// number for the handle.  This is used to determine if a disk
// is attached to the primary or secondary IDE controller.
//

typedef struct _DISK_CONTROLLER_NUMBER {
    DWORD ControllerNumber;
    DWORD DiskNumber;
} DISK_CONTROLLER_NUMBER, *PDISK_CONTROLLER_NUMBER;
#endif /* _WIN32_WINNT >= 0x0400 */

#if(_WIN32_WINNT >= 0x0500)


//
// IOCTL_DISK_SET_CACHE allows the caller to get or set the state of the disk
// read/write caches.
//
// If the structure is provided as the input buffer for the ioctl the read &
// write caches will be enabled or disabled depending on the parameters
// provided.
//
// If the structure is provided as an output buffer for the ioctl the state
// of the read & write caches will be returned. If both input and outut buffers
// are provided the output buffer will contain the cache state BEFORE any
// changes are made
//

typedef enum {
    EqualPriority,
    KeepPrefetchedData,
    KeepReadData
} DISK_CACHE_RETENTION_PRIORITY;

typedef enum _DISK_WRITE_CACHE_STATE {
    DiskWriteCacheNormal,
    DiskWriteCacheForceDisable,
    DiskWriteCacheDisableNotSupported
} DISK_WRITE_CACHE_STATE, *PDISK_WRITE_CACHE_STATE;


typedef struct _DISK_CACHE_INFORMATION {

    //
    // on return indicates that the device is capable of saving any parameters
    // in non-volatile storage.  On send indicates that the device should
    // save the state in non-volatile storage.
    //

    BOOLEAN ParametersSavable;

    //
    // Indicates whether the write and read caches are enabled.
    //

    BOOLEAN ReadCacheEnabled;
    BOOLEAN WriteCacheEnabled;

    //
    // Controls the likelyhood of data remaining in the cache depending on how
    // it got there.  Data cached from a READ or WRITE operation may be given
    // higher, lower or equal priority to data entered into the cache for other
    // means (like prefetch)
    //

    DISK_CACHE_RETENTION_PRIORITY ReadRetentionPriority;
    DISK_CACHE_RETENTION_PRIORITY WriteRetentionPriority;

    //
    // Requests for a larger number of blocks than this may have prefetching
    // disabled.  If this value is set to 0 prefetch will be disabled.
    //

    WORD   DisablePrefetchTransferLength;

    //
    // If TRUE then ScalarPrefetch (below) will be valid.  If FALSE then
    // the minimum and maximum values should be treated as a block count
    // (BlockPrefetch)
    //

    BOOLEAN PrefetchScalar;

    //
    // Contains the minimum and maximum amount of data which will be
    // will be prefetched into the cache on a disk operation.  This value
    // may either be a scalar multiplier of the transfer length of the request,
    // or an abolute number of disk blocks.  PrefetchScalar (above) indicates
    // which interpretation is used.
    //

    union {
        struct {
            WORD   Minimum;
            WORD   Maximum;

            //
            // The maximum number of blocks which will be prefetched - useful
            // with the scalar limits to set definite upper limits.
            //

            WORD   MaximumBlocks;
        } ScalarPrefetch;

        struct {
            WORD   Minimum;
            WORD   Maximum;
        } BlockPrefetch;
    };

} DISK_CACHE_INFORMATION, *PDISK_CACHE_INFORMATION;

//
// IOCTL_DISK_GROW_PARTITION will update the size of a partition
// by adding sectors to the length. The number of sectors must be
// predetermined by examining PARTITION_INFORMATION.
//

typedef struct _DISK_GROW_PARTITION {
    DWORD PartitionNumber;
    LARGE_INTEGER BytesToGrow;
} DISK_GROW_PARTITION, *PDISK_GROW_PARTITION;
#endif /* _WIN32_WINNT >= 0x0500 */

///////////////////////////////////////////////////////
//                                                   //
// The following structures define disk performance  //
// statistics: specifically the locations of all the //
// reads and writes which have occured on the disk.  //
//                                                   //
// To use these structures, you must issue an IOCTL_ //
// DISK_HIST_STRUCTURE (with a DISK_HISTOGRAM) to    //
// obtain the basic histogram information. The       //
// number of buckets which must allocated is part of //
// this structure. Allocate the required number of   //
// buckets and call an IOCTL_DISK_HIST_DATA to fill  //
// in the data                                       //
//                                                   //
///////////////////////////////////////////////////////

#define HIST_NO_OF_BUCKETS  24

typedef struct _HISTOGRAM_BUCKET {
    DWORD       Reads;
    DWORD       Writes;
} HISTOGRAM_BUCKET, *PHISTOGRAM_BUCKET;

#define HISTOGRAM_BUCKET_SIZE   sizeof(HISTOGRAM_BUCKET)

typedef struct _DISK_HISTOGRAM {
    LARGE_INTEGER   DiskSize;
    LARGE_INTEGER   Start;
    LARGE_INTEGER   End;
    LARGE_INTEGER   Average;
    LARGE_INTEGER   AverageRead;
    LARGE_INTEGER   AverageWrite;
    DWORD           Granularity;
    DWORD           Size;
    DWORD           ReadCount;
    DWORD           WriteCount;
    PHISTOGRAM_BUCKET  Histogram;
} DISK_HISTOGRAM, *PDISK_HISTOGRAM;

#define DISK_HISTOGRAM_SIZE sizeof(DISK_HISTOGRAM)

///////////////////////////////////////////////////////
//                                                   //
// The following structures define disk debugging    //
// capabilities. The IOCTLs are directed to one of   //
// the two disk filter drivers.                      //
//                                                   //
// DISKPERF is a utilty for collecting disk request  //
// statistics.                                       //
//                                                   //
// SIMBAD is a utility for injecting faults in       //
// IO requests to disks.                             //
//                                                   //
///////////////////////////////////////////////////////

//
// The following structure is exchanged on an IOCTL_DISK_GET_PERFORMANCE
// request. This ioctl collects summary disk request statistics used
// in measuring performance.
//

typedef struct _DISK_PERFORMANCE {
        LARGE_INTEGER BytesRead;
        LARGE_INTEGER BytesWritten;
        LARGE_INTEGER ReadTime;
        LARGE_INTEGER WriteTime;
        LARGE_INTEGER IdleTime;
        DWORD ReadCount;
        DWORD WriteCount;
        DWORD QueueDepth;
        DWORD SplitCount;
        LARGE_INTEGER QueryTime;
        DWORD   StorageDeviceNumber;
        WCHAR   StorageManagerName[8];
} DISK_PERFORMANCE, *PDISK_PERFORMANCE;

//
// This structure defines the disk logging record. When disk logging
// is enabled, one of these is written to an internal buffer for each
// disk request.
//

typedef struct _DISK_RECORD {
   LARGE_INTEGER ByteOffset;
   LARGE_INTEGER StartTime;
   LARGE_INTEGER EndTime;
   PVOID VirtualAddress;
   DWORD NumberOfBytes;
   BYTE  DeviceNumber;
   BOOLEAN ReadRequest;
} DISK_RECORD, *PDISK_RECORD;

//
// The following structure is exchanged on an IOCTL_DISK_LOG request.
// Not all fields are valid with each function type.
//

typedef struct _DISK_LOGGING {
    BYTE  Function;
    PVOID BufferAddress;
    DWORD BufferSize;
} DISK_LOGGING, *PDISK_LOGGING;

//
// Disk logging functions
//
// Start disk logging. Only the Function and BufferSize fields are valid.
//

#define DISK_LOGGING_START    0

//
// Stop disk logging. Only the Function field is valid.
//

#define DISK_LOGGING_STOP     1

//
// Return disk log. All fields are valid. Data will be copied from internal
// buffer to buffer specified for the number of bytes requested.
//

#define DISK_LOGGING_DUMP     2

//
// DISK BINNING
//
// DISKPERF will keep counters for IO that falls in each of these ranges.
// The application determines the number and size of the ranges.
// Joe Lin wanted me to keep it flexible as possible, for instance, IO
// sizes are interesting in ranges like 0-4096, 4097-16384, 16385-65536, 65537+.
//

#define DISK_BINNING          3

//
// Bin types
//

typedef enum _BIN_TYPES {
    RequestSize,
    RequestLocation
} BIN_TYPES;

//
// Bin ranges
//

typedef struct _BIN_RANGE {
    LARGE_INTEGER StartValue;
    LARGE_INTEGER Length;
} BIN_RANGE, *PBIN_RANGE;

//
// Bin definition
//

typedef struct _PERF_BIN {
    DWORD NumberOfBins;
    DWORD TypeOfBin;
    BIN_RANGE BinsRanges[1];
} PERF_BIN, *PPERF_BIN ;

//
// Bin count
//

typedef struct _BIN_COUNT {
    BIN_RANGE BinRange;
    DWORD BinCount;
} BIN_COUNT, *PBIN_COUNT;

//
// Bin results
//

typedef struct _BIN_RESULTS {
    DWORD NumberOfBins;
    BIN_COUNT BinCounts[1];
} BIN_RESULTS, *PBIN_RESULTS;

#if(_WIN32_WINNT >= 0x0400)
//
// Data structures for SMART drive fault prediction.
//
// GETVERSIONINPARAMS contains the data returned from the
// Get Driver Version function.
//

#include <pshpack1.h>
typedef struct _GETVERSIONINPARAMS {
        BYTE     bVersion;               // Binary driver version.
        BYTE     bRevision;              // Binary driver revision.
        BYTE     bReserved;              // Not used.
        BYTE     bIDEDeviceMap;          // Bit map of IDE devices.
        DWORD   fCapabilities;          // Bit mask of driver capabilities.
        DWORD   dwReserved[4];          // For future use.
} GETVERSIONINPARAMS, *PGETVERSIONINPARAMS, *LPGETVERSIONINPARAMS;
#include <poppack.h>

//
// Bits returned in the fCapabilities member of GETVERSIONINPARAMS
//

#define CAP_ATA_ID_CMD          1       // ATA ID command supported
#define CAP_ATAPI_ID_CMD        2       // ATAPI ID command supported
#define CAP_SMART_CMD           4       // SMART commannds supported

//
// IDE registers
//

#include <pshpack1.h>
typedef struct _IDEREGS {
        BYTE     bFeaturesReg;           // Used for specifying SMART "commands".
        BYTE     bSectorCountReg;        // IDE sector count register
        BYTE     bSectorNumberReg;       // IDE sector number register
        BYTE     bCylLowReg;             // IDE low order cylinder value
        BYTE     bCylHighReg;            // IDE high order cylinder value
        BYTE     bDriveHeadReg;          // IDE drive/head register
        BYTE     bCommandReg;            // Actual IDE command.
        BYTE     bReserved;                      // reserved for future use.  Must be zero.
} IDEREGS, *PIDEREGS, *LPIDEREGS;
#include <poppack.h>

//
// Valid values for the bCommandReg member of IDEREGS.
//

#define ATAPI_ID_CMD    0xA1            // Returns ID sector for ATAPI.
#define ID_CMD          0xEC            // Returns ID sector for ATA.
#define SMART_CMD       0xB0            // Performs SMART cmd.
                                        // Requires valid bFeaturesReg,
                                        // bCylLowReg, and bCylHighReg

//
// Cylinder register defines for SMART command
//

#define SMART_CYL_LOW   0x4F
#define SMART_CYL_HI    0xC2


//
// SENDCMDINPARAMS contains the input parameters for the
// Send Command to Drive function.
//

#include <pshpack1.h>
typedef struct _SENDCMDINPARAMS {
        DWORD   cBufferSize;            // Buffer size in bytes
        IDEREGS irDriveRegs;            // Structure with drive register values.
        BYTE     bDriveNumber;           // Physical drive number to send
                                                                // command to (0,1,2,3).
        BYTE     bReserved[3];           // Reserved for future expansion.
        DWORD   dwReserved[4];          // For future use.
        BYTE     bBuffer[1];                     // Input buffer.
} SENDCMDINPARAMS, *PSENDCMDINPARAMS, *LPSENDCMDINPARAMS;
#include <poppack.h>

//
// Status returned from driver
//

#include <pshpack1.h>
typedef struct _DRIVERSTATUS {
        BYTE     bDriverError;           // Error code from driver,
                                                                // or 0 if no error.
        BYTE     bIDEError;                      // Contents of IDE Error register.
                                                                // Only valid when bDriverError
                                                                // is SMART_IDE_ERROR.
        BYTE     bReserved[2];           // Reserved for future expansion.
        DWORD   dwReserved[2];          // Reserved for future expansion.
} DRIVERSTATUS, *PDRIVERSTATUS, *LPDRIVERSTATUS;
#include <poppack.h>

//
// bDriverError values
//

#define SMART_NO_ERROR          0       // No error
#define SMART_IDE_ERROR         1       // Error from IDE controller
#define SMART_INVALID_FLAG      2       // Invalid command flag
#define SMART_INVALID_COMMAND   3       // Invalid command byte
#define SMART_INVALID_BUFFER    4       // Bad buffer (null, invalid addr..)
#define SMART_INVALID_DRIVE     5       // Drive number not valid
#define SMART_INVALID_IOCTL     6       // Invalid IOCTL
#define SMART_ERROR_NO_MEM      7       // Could not lock user's buffer
#define SMART_INVALID_REGISTER  8       // Some IDE Register not valid
#define SMART_NOT_SUPPORTED     9       // Invalid cmd flag set
#define SMART_NO_IDE_DEVICE     10      // Cmd issued to device not present
                                        // although drive number is valid
//
// SMART sub commands for execute offline diags
//
#define SMART_OFFLINE_ROUTINE_OFFLINE       0
#define SMART_SHORT_SELFTEST_OFFLINE        1
#define SMART_EXTENDED_SELFTEST_OFFLINE     2
#define SMART_ABORT_OFFLINE_SELFTEST        127
#define SMART_SHORT_SELFTEST_CAPTIVE        129
#define SMART_EXTENDED_SELFTEST_CAPTIVE     130


#include <pshpack1.h>
typedef struct _SENDCMDOUTPARAMS {
        DWORD                   cBufferSize;            // Size of bBuffer in bytes
        DRIVERSTATUS            DriverStatus;           // Driver status structure.
        BYTE                    bBuffer[1];             // Buffer of arbitrary length in which to store the data read from the                                                                                  // drive.
} SENDCMDOUTPARAMS, *PSENDCMDOUTPARAMS, *LPSENDCMDOUTPARAMS;
#include <poppack.h>


#define READ_ATTRIBUTE_BUFFER_SIZE  512
#define IDENTIFY_BUFFER_SIZE        512
#define READ_THRESHOLD_BUFFER_SIZE  512
#define SMART_LOG_SECTOR_SIZE       512

//
// Feature register defines for SMART "sub commands"
//

#define READ_ATTRIBUTES         0xD0
#define READ_THRESHOLDS         0xD1
#define ENABLE_DISABLE_AUTOSAVE 0xD2
#define SAVE_ATTRIBUTE_VALUES   0xD3
#define EXECUTE_OFFLINE_DIAGS   0xD4
#define SMART_READ_LOG          0xD5
#define SMART_WRITE_LOG         0xd6
#define ENABLE_SMART            0xD8
#define DISABLE_SMART           0xD9
#define RETURN_SMART_STATUS     0xDA
#define ENABLE_DISABLE_AUTO_OFFLINE 0xDB
#endif /* _WIN32_WINNT >= 0x0400 */



#define IOCTL_CHANGER_BASE                FILE_DEVICE_CHANGER

#define IOCTL_CHANGER_GET_PARAMETERS         CTL_CODE(IOCTL_CHANGER_BASE, 0x0000, METHOD_BUFFERED, FILE_READ_ACCESS)
#define IOCTL_CHANGER_GET_STATUS             CTL_CODE(IOCTL_CHANGER_BASE, 0x0001, METHOD_BUFFERED, FILE_READ_ACCESS)
#define IOCTL_CHANGER_GET_PRODUCT_DATA       CTL_CODE(IOCTL_CHANGER_BASE, 0x0002, METHOD_BUFFERED, FILE_READ_ACCESS)
#define IOCTL_CHANGER_SET_ACCESS             CTL_CODE(IOCTL_CHANGER_BASE, 0x0004, METHOD_BUFFERED, FILE_READ_ACCESS | FILE_WRITE_ACCESS)
#define IOCTL_CHANGER_GET_ELEMENT_STATUS     CTL_CODE(IOCTL_CHANGER_BASE, 0x0005, METHOD_BUFFERED, FILE_READ_ACCESS | FILE_WRITE_ACCESS)
#define IOCTL_CHANGER_INITIALIZE_ELEMENT_STATUS  CTL_CODE(IOCTL_CHANGER_BASE, 0x0006, METHOD_BUFFERED, FILE_READ_ACCESS)
#define IOCTL_CHANGER_SET_POSITION           CTL_CODE(IOCTL_CHANGER_BASE, 0x0007, METHOD_BUFFERED, FILE_READ_ACCESS)
#define IOCTL_CHANGER_EXCHANGE_MEDIUM        CTL_CODE(IOCTL_CHANGER_BASE, 0x0008, METHOD_BUFFERED, FILE_READ_ACCESS)
#define IOCTL_CHANGER_MOVE_MEDIUM            CTL_CODE(IOCTL_CHANGER_BASE, 0x0009, METHOD_BUFFERED, FILE_READ_ACCESS)
#define IOCTL_CHANGER_REINITIALIZE_TRANSPORT CTL_CODE(IOCTL_CHANGER_BASE, 0x000A, METHOD_BUFFERED, FILE_READ_ACCESS)
#define IOCTL_CHANGER_QUERY_VOLUME_TAGS      CTL_CODE(IOCTL_CHANGER_BASE, 0x000B, METHOD_BUFFERED, FILE_READ_ACCESS | FILE_WRITE_ACCESS)



#define MAX_VOLUME_ID_SIZE       36
#define MAX_VOLUME_TEMPLATE_SIZE 40

#define VENDOR_ID_LENGTH          8
#define PRODUCT_ID_LENGTH        16
#define REVISION_LENGTH           4
#define SERIAL_NUMBER_LENGTH     32

//
// Common structures describing elements.
//

typedef  enum _ELEMENT_TYPE {
    AllElements,        // As defined by SCSI
    ChangerTransport,   // As defined by SCSI
    ChangerSlot,        // As defined by SCSI
    ChangerIEPort,      // As defined by SCSI
    ChangerDrive,       // As defined by SCSI
    ChangerDoor,        // Front panel, used to access internal of cabinet.
    ChangerKeypad,      // Keypad/input on front panel.
    ChangerMaxElement   // Placeholder only. Not a valid type.
} ELEMENT_TYPE, *PELEMENT_TYPE;

typedef  struct _CHANGER_ELEMENT {
    ELEMENT_TYPE    ElementType;
    DWORD   ElementAddress;
} CHANGER_ELEMENT, *PCHANGER_ELEMENT;

typedef  struct _CHANGER_ELEMENT_LIST {
    CHANGER_ELEMENT Element;
    DWORD   NumberOfElements;
} CHANGER_ELEMENT_LIST , *PCHANGER_ELEMENT_LIST;


//
// Definitions for  IOCTL_CHANGER_GET_PARAMETERS
//

//
// Definitions for Features0 of GET_CHANGER_PARAMETERS
//

#define CHANGER_BAR_CODE_SCANNER_INSTALLED  0x00000001 // The medium-changer has a bar code scanner installed.
#define CHANGER_INIT_ELEM_STAT_WITH_RANGE   0x00000002 // The medium-changer has the ability to initialize elements within a specified range.
#define CHANGER_CLOSE_IEPORT                0x00000004 // The medium-changer has the ability to close the i/e port door.
#define CHANGER_OPEN_IEPORT                 0x00000008 // The medium-changer can open the i/e port door.

#define CHANGER_STATUS_NON_VOLATILE         0x00000010 // The medium-changer uses non-volatile memory for element status information.
#define CHANGER_EXCHANGE_MEDIA              0x00000020 // The medium-changer supports exchange operations.
#define CHANGER_CLEANER_SLOT                0x00000040 // The medium-changer has a fixed slot designated for cleaner cartridges.
#define CHANGER_LOCK_UNLOCK                 0x00000080 // The medium-changer can be (un)secured to (allow)prevent media removal.

#define CHANGER_CARTRIDGE_MAGAZINE          0x00000100 // The medium-changer uses cartridge magazines for some storage slots.
#define CHANGER_MEDIUM_FLIP                 0x00000200 // The medium-changer can flip medium.
#define CHANGER_POSITION_TO_ELEMENT         0x00000400 // The medium-changer can position the transport to a particular element.
#define CHANGER_REPORT_IEPORT_STATE         0x00000800 // The medium-changer can determine whether media is present
                                                       // in the IE Port.

#define CHANGER_STORAGE_DRIVE               0x00001000 // The medium-changer can use a drive as an independent storage element.
#define CHANGER_STORAGE_IEPORT              0x00002000 // The medium-changer can use a i/e port as an independent storage element.
#define CHANGER_STORAGE_SLOT                0x00004000 // The medium-changer can use a slot as an independent storage element.
#define CHANGER_STORAGE_TRANSPORT           0x00008000 // The medium-changer can use a transport as an independent storage element.

#define CHANGER_DRIVE_CLEANING_REQUIRED     0x00010000 // The drives controlled by the medium changer require periodic cleaning
                                                       // initiated by an application.
#define CHANGER_PREDISMOUNT_EJECT_REQUIRED  0x00020000 // The medium-changer requires a drive eject command to be issued, before a changer
                                                       // move / exchange command can be issued to the drive.

#define CHANGER_CLEANER_ACCESS_NOT_VALID    0x00040000 // The access bit in GES isn't valid for cleaner cartridges.
#define CHANGER_PREMOUNT_EJECT_REQUIRED     0x00080000 // The medium-changer requires a drive eject command to be issued
                                                       // before a move / exchange command can be issued with the drive as src/dst.

#define CHANGER_VOLUME_IDENTIFICATION       0x00100000 // The medium-changer supports volume identification.
#define CHANGER_VOLUME_SEARCH               0x00200000 // The medium-changer can search for volume information.
#define CHANGER_VOLUME_ASSERT               0x00400000 // The medium-changer can verify volume information.
#define CHANGER_VOLUME_REPLACE              0x00800000 // The medium-changer can replace volume information.
#define CHANGER_VOLUME_UNDEFINE             0x01000000 // The medium-changer can undefine volume information.

#define CHANGER_SERIAL_NUMBER_VALID         0x04000000 // The serial number reported in GetProductData is valid
                                                       // and unique.

#define CHANGER_DEVICE_REINITIALIZE_CAPABLE 0x08000000 // The medium-changer can be issued a ChangerReinitializeUnit.
#define CHANGER_KEYPAD_ENABLE_DISABLE       0x10000000 // Indicates that the keypad can be enabled/disabled.
#define CHANGER_DRIVE_EMPTY_ON_DOOR_ACCESS  0x20000000 // Drives must be empty before access via the door is possible.

#define CHANGER_RESERVED_BIT                0x80000000 // Will be used to indicate Features1 capability bits.


//
// Definitions for Features1 of GET_CHANGER_PARAMETERS
//

#define CHANGER_PREDISMOUNT_ALIGN_TO_SLOT   0x80000001 // The transport must be prepositioned to the slot prior to ejecting the media.
#define CHANGER_PREDISMOUNT_ALIGN_TO_DRIVE  0x80000002 // The transport must be prepositioned to the drive prior to ejecting the media.
#define CHANGER_CLEANER_AUTODISMOUNT        0x80000004 // The device will move the cleaner cartridge back into the slot when cleaning has completed.
#define CHANGER_TRUE_EXCHANGE_CAPABLE       0x80000008 // Device can do src -> dest2 exchanges.
#define CHANGER_SLOTS_USE_TRAYS             0x80000010 // Slots have removable trays, requiring multiple moves for inject/eject.
#define CHANGER_RTN_MEDIA_TO_ORIGINAL_ADDR  0x80000020 // Media must be returned to the slot from which it originated after a move to another element.
#define CHANGER_CLEANER_OPS_NOT_SUPPORTED   0x80000040 // Automated cleaning operations are not supported on this device.
#define CHANGER_IEPORT_USER_CONTROL_OPEN    0x80000080 // Indicates that user action is necessary to open a closed ieport.
#define CHANGER_IEPORT_USER_CONTROL_CLOSE   0x80000100 // Indicates that user action is necessary to close an opened ieport.
#define CHANGER_MOVE_EXTENDS_IEPORT         0x80000200 // Indicates that a move media to the ieport extends the tray.
#define CHANGER_MOVE_RETRACTS_IEPORT        0x80000400 // Indicates that a move media from the ieport retracts the tray.


//
// Definitions for MoveFrom, ExchangeFrom, and PositionCapabilities
//

#define CHANGER_TO_TRANSPORT    0x01 // The device can carry out the operation to a transport from the specified element.
#define CHANGER_TO_SLOT         0x02 // The device can carry out the operation to a slot from the specified element.
#define CHANGER_TO_IEPORT       0x04 // The device can carry out the operation to an IE Port from the specified element.
#define CHANGER_TO_DRIVE        0x08 // The device can carry out the operation to a drive from the specified element.

//
// Definitions for LockUnlockCapabilities
//

#define LOCK_UNLOCK_IEPORT      0x01 // The device can lock/unlock the ieport(s).
#define LOCK_UNLOCK_DOOR        0x02 // The device can lock/unlock the door(s).
#define LOCK_UNLOCK_KEYPAD      0x04 // The device can lock/unlock the keypad.

typedef  struct _GET_CHANGER_PARAMETERS {

    //
    // Size of the structure. Can be used for versioning.
    //

    DWORD Size;

    //
    // Number of N element(s) as defined by the Element Address Page (or equivalent...).
    //

    WORD   NumberTransportElements;
    WORD   NumberStorageElements;                // for data cartridges only
    WORD   NumberCleanerSlots;                   // for cleaner cartridges
    WORD   NumberIEElements;
    WORD   NumberDataTransferElements;

    //
    // Number of doors/front panels (allows user entry into the cabinet).
    //

    WORD   NumberOfDoors;

    //
    // The device-specific address (from user manual of the device) of the first N element. Used
    // by the UI to relate the various elements to the user.
    //

    WORD   FirstSlotNumber;
    WORD   FirstDriveNumber;
    WORD   FirstTransportNumber;
    WORD   FirstIEPortNumber;
    WORD   FirstCleanerSlotAddress;

    //
    // Indicates the capacity of each magazine, if they exist.
    //

    WORD   MagazineSize;

    //
    // Specifies the approximate number of seconds for when a cleaning should be completed.
    // Only applicable if drive cleaning is supported. See Features0.
    //

    DWORD DriveCleanTimeout;

    //
    // See features bits, above.
    //

    DWORD Features0;
    DWORD Features1;

    //
    // Bitmask defining Move from N element to element. Defined by Device Capabilities Page (or equivalent).
    // AND-masking with the TO_XXX values will indicate legal destinations.
    //

    BYTE  MoveFromTransport;
    BYTE  MoveFromSlot;
    BYTE  MoveFromIePort;
    BYTE  MoveFromDrive;

    //
    // Bitmask defining Exchange from N element to element. Defined by Device Capabilities Page (or equivalent).
    // AND-masking with the TO_XXX values will indicate legal destinations.
    //

    BYTE  ExchangeFromTransport;
    BYTE  ExchangeFromSlot;
    BYTE  ExchangeFromIePort;
    BYTE  ExchangeFromDrive;

    //
    // Bitmask defining which elements are capable of lock/unlock. Valid only if
    // CHANGER_LOCK_UNLOCK is set in Features0.
    //

    BYTE  LockUnlockCapabilities;

    //
    // Bitmask defining which elements valid for positioning operations. Valid only if
    // CHANGER_POSITION_TO_ELEMENT is set in Features0.
    //

    BYTE  PositionCapabilities;

    //
    // For future expansion.
    //

    BYTE  Reserved1[2];
    DWORD Reserved2[2];

} GET_CHANGER_PARAMETERS, * PGET_CHANGER_PARAMETERS;


//
// Definitions for IOCTL_CHANGER_GET_PRODUCT_DATA
//

typedef  struct _CHANGER_PRODUCT_DATA {

    //
    // Device manufacturer's name - based on inquiry data
    //

    BYTE  VendorId[VENDOR_ID_LENGTH];

    //
    // Product identification as defined by the vendor - based on Inquiry data
    //

    BYTE  ProductId[PRODUCT_ID_LENGTH];

    //
    // Product revision as defined by the vendor.
    //

    BYTE  Revision[REVISION_LENGTH];

    //
    // Vendor unique value used to globally identify this device. Can
    // be from Vital Product Data, for example.
    //

    BYTE  SerialNumber[SERIAL_NUMBER_LENGTH];

    //
    // Indicates device type of data transports, as defined by SCSI-2.
    //

    BYTE  DeviceType;

} CHANGER_PRODUCT_DATA, *PCHANGER_PRODUCT_DATA;


//
// Definitions for IOCTL_CHANGER_SET_ACCESS
//

#define LOCK_ELEMENT        0
#define UNLOCK_ELEMENT      1
#define EXTEND_IEPORT       2
#define RETRACT_IEPORT      3

typedef struct _CHANGER_SET_ACCESS {

    //
    // Element can be ChangerIEPort, ChangerDoor, ChangerKeypad
    //

    CHANGER_ELEMENT Element;

    //
    // See above for possible operations.
    //

    DWORD           Control;
} CHANGER_SET_ACCESS, *PCHANGER_SET_ACCESS;


//
// Definitions for IOCTL_CHANGER_GET_ELEMENT_STATUS
//

//
// Input buffer.
//

typedef struct _CHANGER_READ_ELEMENT_STATUS {

    //
    // List describing the elements and range on which to return information.
    //

    CHANGER_ELEMENT_LIST ElementList;

    //
    // Indicates whether volume tag information is to be returned.
    //

    BOOLEAN VolumeTagInfo;
} CHANGER_READ_ELEMENT_STATUS, *PCHANGER_READ_ELEMENT_STATUS;

//
// Output buffer.
//

typedef  struct _CHANGER_ELEMENT_STATUS {

    //
    // Element to which this structure refers.
    //

    CHANGER_ELEMENT Element;

    //
    // Address of the element from which the media was originally moved.
    // Valid if ELEMENT_STATUS_SVALID bit of Flags DWORD is set.
    // Needs to be converted to a zero-based offset from the device-unique value.
    //

    CHANGER_ELEMENT SrcElementAddress;

    //
    // See below.
    //

    DWORD Flags;

    //
    // See below for possible values.
    //

    DWORD ExceptionCode;

    //
    // Scsi Target Id of this element.
    // Valid only if ELEMENT_STATUS_ID_VALID is set in Flags.
    //

    BYTE  TargetId;

    //
    // LogicalUnitNumber of this element.
    // Valid only if ELEMENT_STATUS_LUN_VALID is set in Flags.
    //

    BYTE  Lun;
    WORD   Reserved;

    //
    // Primary volume identification for the media.
    // Valid only if ELEMENT_STATUS_PVOLTAG bit is set in Flags.
    //

    BYTE  PrimaryVolumeID[MAX_VOLUME_ID_SIZE];

    //
    // Alternate volume identification for the media.
    // Valid for two-sided media only, and pertains to the id. of the inverted side.
    // Valid only if ELEMENT_STATUS_AVOLTAG bit is set in Flags.
    //

    BYTE  AlternateVolumeID[MAX_VOLUME_ID_SIZE];

} CHANGER_ELEMENT_STATUS, *PCHANGER_ELEMENT_STATUS;

//
// Output buffer. This is same as CHANGER_ELEMENT_STATUS with
// the addition of product info fields. New applications should
// use this struct instead of the older CHANGER_ELEMENT_STATUS
//

typedef  struct _CHANGER_ELEMENT_STATUS_EX {

    //
    // Element to which this structure refers.
    //

    CHANGER_ELEMENT Element;

    //
    // Address of the element from which the media was originally moved.
    // Valid if ELEMENT_STATUS_SVALID bit of Flags DWORD is set.
    // Needs to be converted to a zero-based offset from the device-unique value.
    //

    CHANGER_ELEMENT SrcElementAddress;

    //
    // See below.
    //

    DWORD Flags;

    //
    // See below for possible values.
    //

    DWORD ExceptionCode;

    //
    // Scsi Target Id of this element.
    // Valid only if ELEMENT_STATUS_ID_VALID is set in Flags.
    //

    BYTE  TargetId;

    //
    // LogicalUnitNumber of this element.
    // Valid only if ELEMENT_STATUS_LUN_VALID is set in Flags.
    //

    BYTE  Lun;
    WORD   Reserved;

    //
    // Primary volume identification for the media.
    // Valid only if ELEMENT_STATUS_PVOLTAG bit is set in Flags.
    //

    BYTE  PrimaryVolumeID[MAX_VOLUME_ID_SIZE];

    //
    // Alternate volume identification for the media.
    // Valid for two-sided media only, and pertains to the id. of the inverted side.
    // Valid only if ELEMENT_STATUS_AVOLTAG bit is set in Flags.
    //

    BYTE  AlternateVolumeID[MAX_VOLUME_ID_SIZE];

    //
    // Vendor ID
    //
    BYTE  VendorIdentification[VENDOR_ID_LENGTH];

    //
    // Product ID
    //
    BYTE  ProductIdentification[PRODUCT_ID_LENGTH];

    //
    // Serial number
    //
    BYTE  SerialNumber[SERIAL_NUMBER_LENGTH];

} CHANGER_ELEMENT_STATUS_EX, *PCHANGER_ELEMENT_STATUS_EX;

//
// Possible flag values
//

#define ELEMENT_STATUS_FULL      0x00000001 // Element contains a unit of media.
#define ELEMENT_STATUS_IMPEXP    0x00000002 // Media in i/e port was placed there by an operator.
#define ELEMENT_STATUS_EXCEPT    0x00000004 // Element is in an abnormal state; check ExceptionCode field for more information.
#define ELEMENT_STATUS_ACCESS    0x00000008 // Access to the i/e port from the medium changer is allowed.
#define ELEMENT_STATUS_EXENAB    0x00000010 // Export of media is supported.
#define ELEMENT_STATUS_INENAB    0x00000020 // Import of media is supported.

#define ELEMENT_STATUS_PRODUCT_DATA 0x00000040 // Serial number valid for the drive

#define ELEMENT_STATUS_LUN_VALID 0x00001000 // Lun information is valid.
#define ELEMENT_STATUS_ID_VALID  0x00002000 // SCSI Id information is valid.
#define ELEMENT_STATUS_NOT_BUS   0x00008000 // Lun and SCSI Id fields are not on same bus as medium changer.
#define ELEMENT_STATUS_INVERT    0x00400000 // Media in element was inverted (valid only if ELEMENT_STATUS_SVALID bit is set)
#define ELEMENT_STATUS_SVALID    0x00800000 // SourceElementAddress field and ELEMENT_STATUS_INVERT bit are valid.

#define ELEMENT_STATUS_PVOLTAG   0x10000000 // Primary volume information is valid.
#define ELEMENT_STATUS_AVOLTAG   0x20000000 // Alternate volume information is valid.

//
// ExceptionCode values.
//

#define ERROR_LABEL_UNREADABLE    0x00000001 // Bar code scanner could not read bar code label.
#define ERROR_LABEL_QUESTIONABLE  0x00000002 // Label could be invalid due to unit attention condition.
#define ERROR_SLOT_NOT_PRESENT    0x00000004 // Slot is currently not addressable in the device.
#define ERROR_DRIVE_NOT_INSTALLED 0x00000008 // Drive is not installed.
#define ERROR_TRAY_MALFUNCTION    0x00000010 // Media tray is malfunctioning/broken.
#define ERROR_INIT_STATUS_NEEDED  0x00000011 // An Initialize Element Status command is needed.
#define ERROR_UNHANDLED_ERROR     0xFFFFFFFF // Unknown error condition


//
// Definitions for IOCTL_CHANGER_INITIALIZE_ELEMENT_STATUS
//

typedef struct _CHANGER_INITIALIZE_ELEMENT_STATUS {

    //
    // List describing the elements and range on which to initialize.
    //

    CHANGER_ELEMENT_LIST ElementList;

    //
    // Indicates whether a bar code scan should be used. Only applicable if
    // CHANGER_BAR_CODE_SCANNER_INSTALLED is set in Features0 of CHANGER_GET_PARAMETERS.
    //

    BOOLEAN BarCodeScan;
} CHANGER_INITIALIZE_ELEMENT_STATUS, *PCHANGER_INITIALIZE_ELEMENT_STATUS;


//
// Definitions for IOCTL_CHANGER_SET_POSITION
//

typedef struct _CHANGER_SET_POSITION {


    //
    // Indicates which transport to move.
    //

    CHANGER_ELEMENT Transport;

    //
    // Indicates the final destination of the transport.
    //

    CHANGER_ELEMENT Destination;

    //
    // Indicates whether the media currently carried by Transport, should be flipped.
    //

    BOOLEAN         Flip;
} CHANGER_SET_POSITION, *PCHANGER_SET_POSITION;


//
// Definitions for IOCTL_CHANGER_EXCHANGE_MEDIUM
//

typedef struct _CHANGER_EXCHANGE_MEDIUM {

    //
    // Indicates which transport to use for the exchange operation.
    //

    CHANGER_ELEMENT Transport;

    //
    // Indicates the source for the media that is to be moved.
    //

    CHANGER_ELEMENT Source;

    //
    // Indicates the final destination of the media originally at Source.
    //

    CHANGER_ELEMENT Destination1;

    //
    // Indicates the destination of the media moved from Destination1.
    //

    CHANGER_ELEMENT Destination2;

    //
    // Indicates whether the medium should be flipped.
    //

    BOOLEAN         Flip1;
    BOOLEAN         Flip2;
} CHANGER_EXCHANGE_MEDIUM, *PCHANGER_EXCHANGE_MEDIUM;


//
// Definitions for IOCTL_CHANGER_MOVE_MEDIUM
//

typedef struct _CHANGER_MOVE_MEDIUM {

    //
    // Indicates which transport to use for the move operation.
    //

    CHANGER_ELEMENT Transport;

    //
    // Indicates the source for the media that is to be moved.
    //

    CHANGER_ELEMENT Source;

    //
    // Indicates the destination of the media originally at Source.
    //

    CHANGER_ELEMENT Destination;

    //
    // Indicates whether the media should be flipped.
    //

    BOOLEAN         Flip;
} CHANGER_MOVE_MEDIUM, *PCHANGER_MOVE_MEDIUM;



//
// Definitions for IOCTL_QUERY_VOLUME_TAGS
//

//
// Input buffer.
//

typedef  struct _CHANGER_SEND_VOLUME_TAG_INFORMATION {

    //
    // Describes the starting element for which to return information.
    //

    CHANGER_ELEMENT StartingElement;

    //
    // Indicates the specific action to perform. See below.
    //

    DWORD ActionCode;

    //
    // Template used by the device to search for volume ids.
    //

    BYTE  VolumeIDTemplate[MAX_VOLUME_TEMPLATE_SIZE];
} CHANGER_SEND_VOLUME_TAG_INFORMATION, *PCHANGER_SEND_VOLUME_TAG_INFORMATION;


//
// Output buffer.
//

typedef struct _READ_ELEMENT_ADDRESS_INFO {

    //
    // Number of elements matching criteria set forth by ActionCode.
    //

    DWORD NumberOfElements;

    //
    // Array of CHANGER_ELEMENT_STATUS structures, one for each element that corresponded
    // with the information passed in with the CHANGER_SEND_VOLUME_TAG_INFORMATION structure.
    //

    CHANGER_ELEMENT_STATUS ElementStatus[1];
} READ_ELEMENT_ADDRESS_INFO, *PREAD_ELEMENT_ADDRESS_INFO;

//
// Possible ActionCode values. See Features0 of CHANGER_GET_PARAMETERS for compatibility with
// the current device.
//

#define SEARCH_ALL         0x0 // Translate - search all defined volume tags.
#define SEARCH_PRIMARY     0x1 // Translate - search only primary volume tags.
#define SEARCH_ALTERNATE   0x2 // Translate - search only alternate volume tags.
#define SEARCH_ALL_NO_SEQ  0x4 // Translate - search all defined volume tags but ignore sequence numbers.
#define SEARCH_PRI_NO_SEQ  0x5 // Translate - search only primary volume tags but ignore sequence numbers.
#define SEARCH_ALT_NO_SEQ  0x6 // Translate - search only alternate volume tags but ignore sequence numbers.

#define ASSERT_PRIMARY     0x8 // Assert - as the primary volume tag - if tag now undefined.
#define ASSERT_ALTERNATE   0x9 // Assert - as the alternate volume tag - if tag now undefined.

#define REPLACE_PRIMARY    0xA // Replace - the primary volume tag - current tag ignored.
#define REPLACE_ALTERNATE  0xB // Replace - the alternate volume tag - current tag ignored.

#define UNDEFINE_PRIMARY   0xC // Undefine - the primary volume tag - current tag ignored.
#define UNDEFINE_ALTERNATE 0xD // Undefine - the alternate volume tag - current tag ignored.


//
// Changer diagnostic test related definitions
//
typedef enum _CHANGER_DEVICE_PROBLEM_TYPE {
   DeviceProblemNone,
   DeviceProblemHardware,
   DeviceProblemCHMError,
   DeviceProblemDoorOpen,
   DeviceProblemCalibrationError,
   DeviceProblemTargetFailure,
   DeviceProblemCHMMoveError,
   DeviceProblemCHMZeroError,
   DeviceProblemCartridgeInsertError,
   DeviceProblemPositionError,
   DeviceProblemSensorError,
   DeviceProblemCartridgeEjectError,
   DeviceProblemGripperError,
   DeviceProblemDriveError
} CHANGER_DEVICE_PROBLEM_TYPE, *PCHANGER_DEVICE_PROBLEM_TYPE;


#define IOCTL_SERIAL_LSRMST_INSERT      CTL_CODE(FILE_DEVICE_SERIAL_PORT,31,METHOD_BUFFERED,FILE_ANY_ACCESS)

#define IOCTL_SERENUM_EXPOSE_HARDWARE   CTL_CODE(FILE_DEVICE_SERENUM,128,METHOD_BUFFERED,FILE_ANY_ACCESS)
#define IOCTL_SERENUM_REMOVE_HARDWARE   CTL_CODE(FILE_DEVICE_SERENUM,129,METHOD_BUFFERED,FILE_ANY_ACCESS)
#define IOCTL_SERENUM_PORT_DESC         CTL_CODE(FILE_DEVICE_SERENUM,130,METHOD_BUFFERED,FILE_ANY_ACCESS)
#define IOCTL_SERENUM_GET_PORT_NAME     CTL_CODE(FILE_DEVICE_SERENUM,131,METHOD_BUFFERED,FILE_ANY_ACCESS)


//
// The following values follow the escape designator in the
// data stream if the LSRMST_INSERT mode has been turned on.
//
#define SERIAL_LSRMST_ESCAPE     ((BYTE )0x00)

//
// Following this value is the contents of the line status
// register, and then the character in the RX hardware when
// the line status register was encountered.
//
#define SERIAL_LSRMST_LSR_DATA   ((BYTE )0x01)

//
// Following this value is the contents of the line status
// register.  No error character follows
//
#define SERIAL_LSRMST_LSR_NODATA ((BYTE )0x02)

//
// Following this value is the contents of the modem status
// register.
//
#define SERIAL_LSRMST_MST        ((BYTE )0x03)

//
// Bit values for FIFO Control Register
//

#define SERIAL_IOC_FCR_FIFO_ENABLE      ((DWORD)0x00000001)
#define SERIAL_IOC_FCR_RCVR_RESET       ((DWORD)0x00000002)
#define SERIAL_IOC_FCR_XMIT_RESET       ((DWORD)0x00000004)
#define SERIAL_IOC_FCR_DMA_MODE         ((DWORD)0x00000008)
#define SERIAL_IOC_FCR_RES1             ((DWORD)0x00000010)
#define SERIAL_IOC_FCR_RES2             ((DWORD)0x00000020)
#define SERIAL_IOC_FCR_RCVR_TRIGGER_LSB ((DWORD)0x00000040)
#define SERIAL_IOC_FCR_RCVR_TRIGGER_MSB ((DWORD)0x00000080)

//
// Bit values for Modem Control Register
//

#define SERIAL_IOC_MCR_DTR              ((DWORD)0x00000001)
#define SERIAL_IOC_MCR_RTS              ((DWORD)0x00000002)
#define SERIAL_IOC_MCR_OUT1             ((DWORD)0x00000004)
#define SERIAL_IOC_MCR_OUT2             ((DWORD)0x00000008)
#define SERIAL_IOC_MCR_LOOP             ((DWORD)0x00000010)

#ifndef _FILESYSTEMFSCTL_
#define _FILESYSTEMFSCTL_

//
// The following is a list of the native file system fsctls followed by
// additional network file system fsctls.  Some values have been
// decommissioned.
//

#define FSCTL_REQUEST_OPLOCK_LEVEL_1    CTL_CODE(FILE_DEVICE_FILE_SYSTEM,  0, METHOD_BUFFERED, FILE_ANY_ACCESS)
#define FSCTL_REQUEST_OPLOCK_LEVEL_2    CTL_CODE(FILE_DEVICE_FILE_SYSTEM,  1, METHOD_BUFFERED, FILE_ANY_ACCESS)
#define FSCTL_REQUEST_BATCH_OPLOCK      CTL_CODE(FILE_DEVICE_FILE_SYSTEM,  2, METHOD_BUFFERED, FILE_ANY_ACCESS)
#define FSCTL_OPLOCK_BREAK_ACKNOWLEDGE  CTL_CODE(FILE_DEVICE_FILE_SYSTEM,  3, METHOD_BUFFERED, FILE_ANY_ACCESS)
#define FSCTL_OPBATCH_ACK_CLOSE_PENDING CTL_CODE(FILE_DEVICE_FILE_SYSTEM,  4, METHOD_BUFFERED, FILE_ANY_ACCESS)
#define FSCTL_OPLOCK_BREAK_NOTIFY       CTL_CODE(FILE_DEVICE_FILE_SYSTEM,  5, METHOD_BUFFERED, FILE_ANY_ACCESS)
#define FSCTL_LOCK_VOLUME               CTL_CODE(FILE_DEVICE_FILE_SYSTEM,  6, METHOD_BUFFERED, FILE_ANY_ACCESS)
#define FSCTL_UNLOCK_VOLUME             CTL_CODE(FILE_DEVICE_FILE_SYSTEM,  7, METHOD_BUFFERED, FILE_ANY_ACCESS)
#define FSCTL_DISMOUNT_VOLUME           CTL_CODE(FILE_DEVICE_FILE_SYSTEM,  8, METHOD_BUFFERED, FILE_ANY_ACCESS)
// decommissioned fsctl value                                              9
#define FSCTL_IS_VOLUME_MOUNTED         CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 10, METHOD_BUFFERED, FILE_ANY_ACCESS)
#define FSCTL_IS_PATHNAME_VALID         CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 11, METHOD_BUFFERED, FILE_ANY_ACCESS) // PATHNAME_BUFFER,
#define FSCTL_MARK_VOLUME_DIRTY         CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 12, METHOD_BUFFERED, FILE_ANY_ACCESS)
// decommissioned fsctl value                                             13
#define FSCTL_QUERY_RETRIEVAL_POINTERS  CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 14,  METHOD_NEITHER, FILE_ANY_ACCESS)
#define FSCTL_GET_COMPRESSION           CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 15, METHOD_BUFFERED, FILE_ANY_ACCESS)
#define FSCTL_SET_COMPRESSION           CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 16, METHOD_BUFFERED, FILE_READ_DATA | FILE_WRITE_DATA)
// decommissioned fsctl value                                             17
// decommissioned fsctl value                                             18
#define FSCTL_MARK_AS_SYSTEM_HIVE       CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 19,  METHOD_NEITHER, FILE_ANY_ACCESS)
#define FSCTL_OPLOCK_BREAK_ACK_NO_2     CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 20, METHOD_BUFFERED, FILE_ANY_ACCESS)
#define FSCTL_INVALIDATE_VOLUMES        CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 21, METHOD_BUFFERED, FILE_ANY_ACCESS)
#define FSCTL_QUERY_FAT_BPB             CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 22, METHOD_BUFFERED, FILE_ANY_ACCESS) // FSCTL_QUERY_FAT_BPB_BUFFER
#define FSCTL_REQUEST_FILTER_OPLOCK     CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 23, METHOD_BUFFERED, FILE_ANY_ACCESS)
#define FSCTL_FILESYSTEM_GET_STATISTICS CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 24, METHOD_BUFFERED, FILE_ANY_ACCESS) // FILESYSTEM_STATISTICS
#if(_WIN32_WINNT >= 0x0400)
#define FSCTL_GET_NTFS_VOLUME_DATA      CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 25, METHOD_BUFFERED, FILE_ANY_ACCESS) // NTFS_VOLUME_DATA_BUFFER
#define FSCTL_GET_NTFS_FILE_RECORD      CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 26, METHOD_BUFFERED, FILE_ANY_ACCESS) // NTFS_FILE_RECORD_INPUT_BUFFER, NTFS_FILE_RECORD_OUTPUT_BUFFER
#define FSCTL_GET_VOLUME_BITMAP         CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 27,  METHOD_NEITHER, FILE_ANY_ACCESS) // STARTING_LCN_INPUT_BUFFER, VOLUME_BITMAP_BUFFER
#define FSCTL_GET_RETRIEVAL_POINTERS    CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 28,  METHOD_NEITHER, FILE_ANY_ACCESS) // STARTING_VCN_INPUT_BUFFER, RETRIEVAL_POINTERS_BUFFER
#define FSCTL_MOVE_FILE                 CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 29, METHOD_BUFFERED, FILE_SPECIAL_ACCESS) // MOVE_FILE_DATA,
#define FSCTL_IS_VOLUME_DIRTY           CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 30, METHOD_BUFFERED, FILE_ANY_ACCESS)
// decomissioned fsctl value                                              31
#define FSCTL_ALLOW_EXTENDED_DASD_IO    CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 32, METHOD_NEITHER,  FILE_ANY_ACCESS)
#endif /* _WIN32_WINNT >= 0x0400 */

#if(_WIN32_WINNT >= 0x0500)
// decommissioned fsctl value                                             33
// decommissioned fsctl value                                             34
#define FSCTL_FIND_FILES_BY_SID         CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 35, METHOD_NEITHER, FILE_ANY_ACCESS)
// decommissioned fsctl value                                             36
// decommissioned fsctl value                                             37
#define FSCTL_SET_OBJECT_ID             CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 38, METHOD_BUFFERED, FILE_SPECIAL_ACCESS) // FILE_OBJECTID_BUFFER
#define FSCTL_GET_OBJECT_ID             CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 39, METHOD_BUFFERED, FILE_ANY_ACCESS) // FILE_OBJECTID_BUFFER
#define FSCTL_DELETE_OBJECT_ID          CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 40, METHOD_BUFFERED, FILE_SPECIAL_ACCESS)
#define FSCTL_SET_REPARSE_POINT         CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 41, METHOD_BUFFERED, FILE_SPECIAL_ACCESS) // REPARSE_DATA_BUFFER,
#define FSCTL_GET_REPARSE_POINT         CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 42, METHOD_BUFFERED, FILE_ANY_ACCESS) // REPARSE_DATA_BUFFER
#define FSCTL_DELETE_REPARSE_POINT      CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 43, METHOD_BUFFERED, FILE_SPECIAL_ACCESS) // REPARSE_DATA_BUFFER,
#define FSCTL_ENUM_USN_DATA             CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 44,  METHOD_NEITHER, FILE_ANY_ACCESS) // MFT_ENUM_DATA,
#define FSCTL_SECURITY_ID_CHECK         CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 45,  METHOD_NEITHER, FILE_READ_DATA)  // BULK_SECURITY_TEST_DATA,
#define FSCTL_READ_USN_JOURNAL          CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 46,  METHOD_NEITHER, FILE_ANY_ACCESS) // READ_USN_JOURNAL_DATA, USN
#define FSCTL_SET_OBJECT_ID_EXTENDED    CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 47, METHOD_BUFFERED, FILE_SPECIAL_ACCESS)
#define FSCTL_CREATE_OR_GET_OBJECT_ID   CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 48, METHOD_BUFFERED, FILE_ANY_ACCESS) // FILE_OBJECTID_BUFFER
#define FSCTL_SET_SPARSE                CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 49, METHOD_BUFFERED, FILE_SPECIAL_ACCESS)
#define FSCTL_SET_ZERO_DATA             CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 50, METHOD_BUFFERED, FILE_WRITE_DATA) // FILE_ZERO_DATA_INFORMATION,
#define FSCTL_QUERY_ALLOCATED_RANGES    CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 51,  METHOD_NEITHER, FILE_READ_DATA)  // FILE_ALLOCATED_RANGE_BUFFER, FILE_ALLOCATED_RANGE_BUFFER
// decommissioned fsctl value                                             52
#define FSCTL_SET_ENCRYPTION            CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 53,  METHOD_NEITHER, FILE_ANY_ACCESS) // ENCRYPTION_BUFFER, DECRYPTION_STATUS_BUFFER
#define FSCTL_ENCRYPTION_FSCTL_IO       CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 54,  METHOD_NEITHER, FILE_ANY_ACCESS)
#define FSCTL_WRITE_RAW_ENCRYPTED       CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 55,  METHOD_NEITHER, FILE_SPECIAL_ACCESS) // ENCRYPTED_DATA_INFO,
#define FSCTL_READ_RAW_ENCRYPTED        CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 56,  METHOD_NEITHER, FILE_SPECIAL_ACCESS) // REQUEST_RAW_ENCRYPTED_DATA, ENCRYPTED_DATA_INFO
#define FSCTL_CREATE_USN_JOURNAL        CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 57,  METHOD_NEITHER, FILE_ANY_ACCESS) // CREATE_USN_JOURNAL_DATA,
#define FSCTL_READ_FILE_USN_DATA        CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 58,  METHOD_NEITHER, FILE_ANY_ACCESS) // Read the Usn Record for a file
#define FSCTL_WRITE_USN_CLOSE_RECORD    CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 59,  METHOD_NEITHER, FILE_ANY_ACCESS) // Generate Close Usn Record
#define FSCTL_EXTEND_VOLUME             CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 60, METHOD_BUFFERED, FILE_ANY_ACCESS)
#define FSCTL_QUERY_USN_JOURNAL         CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 61, METHOD_BUFFERED, FILE_ANY_ACCESS)
#define FSCTL_DELETE_USN_JOURNAL        CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 62, METHOD_BUFFERED, FILE_ANY_ACCESS)
#define FSCTL_MARK_HANDLE               CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 63, METHOD_BUFFERED, FILE_ANY_ACCESS)
#define FSCTL_SIS_COPYFILE              CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 64, METHOD_BUFFERED, FILE_ANY_ACCESS)
#define FSCTL_SIS_LINK_FILES            CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 65, METHOD_BUFFERED, FILE_READ_DATA | FILE_WRITE_DATA)
#define FSCTL_HSM_MSG                   CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 66, METHOD_BUFFERED, FILE_READ_DATA | FILE_WRITE_DATA)
// decommissioned fsctl value                                             67
#define FSCTL_HSM_DATA                  CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 68, METHOD_NEITHER, FILE_READ_DATA | FILE_WRITE_DATA)
#define FSCTL_RECALL_FILE               CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 69, METHOD_NEITHER, FILE_ANY_ACCESS)
// decommissioned fsctl value                                             70
#define FSCTL_READ_FROM_PLEX            CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 71, METHOD_OUT_DIRECT, FILE_READ_DATA)
#define FSCTL_FILE_PREFETCH             CTL_CODE(FILE_DEVICE_FILE_SYSTEM, 72, METHOD_BUFFERED, FILE_SPECIAL_ACCESS) // FILE_PREFETCH
#endif /* _WIN32_WINNT >= 0x0500 */

//
// The following long list of structs are associated with the preceeding
// file system fsctls.
//

//
// Structure for FSCTL_IS_PATHNAME_VALID
//

typedef struct _PATHNAME_BUFFER {

    DWORD PathNameLength;
    WCHAR Name[1];

} PATHNAME_BUFFER, *PPATHNAME_BUFFER;

//
// Structure for FSCTL_QUERY_BPB_INFO
//

typedef struct _FSCTL_QUERY_FAT_BPB_BUFFER {

    BYTE  First0x24BytesOfBootSector[0x24];

} FSCTL_QUERY_FAT_BPB_BUFFER, *PFSCTL_QUERY_FAT_BPB_BUFFER;

#if(_WIN32_WINNT >= 0x0400)
//
// Structures for FSCTL_GET_NTFS_VOLUME_DATA.
// The user must pass the basic buffer below.  Ntfs
// will return as many fields as available in the extended
// buffer which follows immediately after the VOLUME_DATA_BUFFER.
//

typedef struct {

    LARGE_INTEGER VolumeSerialNumber;
    LARGE_INTEGER NumberSectors;
    LARGE_INTEGER TotalClusters;
    LARGE_INTEGER FreeClusters;
    LARGE_INTEGER TotalReserved;
    DWORD BytesPerSector;
    DWORD BytesPerCluster;
    DWORD BytesPerFileRecordSegment;
    DWORD ClustersPerFileRecordSegment;
    LARGE_INTEGER MftValidDataLength;
    LARGE_INTEGER MftStartLcn;
    LARGE_INTEGER Mft2StartLcn;
    LARGE_INTEGER MftZoneStart;
    LARGE_INTEGER MftZoneEnd;

} NTFS_VOLUME_DATA_BUFFER, *PNTFS_VOLUME_DATA_BUFFER;

typedef struct {

    DWORD ByteCount;

    WORD   MajorVersion;
    WORD   MinorVersion;

} NTFS_EXTENDED_VOLUME_DATA, *PNTFS_EXTENDED_VOLUME_DATA;
#endif /* _WIN32_WINNT >= 0x0400 */

#if(_WIN32_WINNT >= 0x0400)
//
// Structure for FSCTL_GET_VOLUME_BITMAP
//

typedef struct {

    LARGE_INTEGER StartingLcn;

} STARTING_LCN_INPUT_BUFFER, *PSTARTING_LCN_INPUT_BUFFER;

typedef struct {

    LARGE_INTEGER StartingLcn;
    LARGE_INTEGER BitmapSize;
    BYTE  Buffer[1];

} VOLUME_BITMAP_BUFFER, *PVOLUME_BITMAP_BUFFER;
#endif /* _WIN32_WINNT >= 0x0400 */

#if(_WIN32_WINNT >= 0x0400)
//
// Structure for FSCTL_GET_RETRIEVAL_POINTERS
//

typedef struct {

    LARGE_INTEGER StartingVcn;

} STARTING_VCN_INPUT_BUFFER, *PSTARTING_VCN_INPUT_BUFFER;

typedef struct RETRIEVAL_POINTERS_BUFFER {

    DWORD ExtentCount;
    LARGE_INTEGER StartingVcn;
    struct {
        LARGE_INTEGER NextVcn;
        LARGE_INTEGER Lcn;
    } Extents[1];

} RETRIEVAL_POINTERS_BUFFER, *PRETRIEVAL_POINTERS_BUFFER;
#endif /* _WIN32_WINNT >= 0x0400 */

#if(_WIN32_WINNT >= 0x0400)
//
// Structures for FSCTL_GET_NTFS_FILE_RECORD
//

typedef struct {

    LARGE_INTEGER FileReferenceNumber;

} NTFS_FILE_RECORD_INPUT_BUFFER, *PNTFS_FILE_RECORD_INPUT_BUFFER;

typedef struct {

    LARGE_INTEGER FileReferenceNumber;
    DWORD FileRecordLength;
    BYTE  FileRecordBuffer[1];

} NTFS_FILE_RECORD_OUTPUT_BUFFER, *PNTFS_FILE_RECORD_OUTPUT_BUFFER;
#endif /* _WIN32_WINNT >= 0x0400 */

#if(_WIN32_WINNT >= 0x0400)
//
// Structure for FSCTL_MOVE_FILE
//

typedef struct {

    HANDLE FileHandle;
    LARGE_INTEGER StartingVcn;
    LARGE_INTEGER StartingLcn;
    DWORD ClusterCount;

} MOVE_FILE_DATA, *PMOVE_FILE_DATA;

#if defined(_WIN64)
//
//  32/64 Bit thunking support structure
//

typedef struct _MOVE_FILE_DATA32 {

    UINT32 FileHandle;
    LARGE_INTEGER StartingVcn;
    LARGE_INTEGER StartingLcn;
    DWORD ClusterCount;

} MOVE_FILE_DATA32, *PMOVE_FILE_DATA32;
#endif
#endif /* _WIN32_WINNT >= 0x0400 */

#if(_WIN32_WINNT >= 0x0500)
//
// Structure for FSCTL_FIND_FILES_BY_SID
//

typedef struct {
    DWORD Restart;
    SID Sid;
} FIND_BY_SID_DATA, *PFIND_BY_SID_DATA;
#endif /* _WIN32_WINNT >= 0x0500 */

#if(_WIN32_WINNT >= 0x0500)
//
//  The following structures apply to Usn operations.
//

//
// Structure for FSCTL_ENUM_USN_DATA
//

typedef struct {

    DWORDLONG StartFileReferenceNumber;
    USN LowUsn;
    USN HighUsn;

} MFT_ENUM_DATA, *PMFT_ENUM_DATA;

//
// Structure for FSCTL_CREATE_USN_JOURNAL
//

typedef struct {

    DWORDLONG MaximumSize;
    DWORDLONG AllocationDelta;

} CREATE_USN_JOURNAL_DATA, *PCREATE_USN_JOURNAL_DATA;

//
// Structure for FSCTL_READ_USN_JOURNAL
//

typedef struct {

    USN StartUsn;
    DWORD ReasonMask;
    DWORD ReturnOnlyOnClose;
    DWORDLONG Timeout;
    DWORDLONG BytesToWaitFor;
    DWORDLONG UsnJournalID;

} READ_USN_JOURNAL_DATA, *PREAD_USN_JOURNAL_DATA;

//
//  The initial Major.Minor version of the Usn record will be 2.0.
//  In general, the MinorVersion may be changed if fields are added
//  to this structure in such a way that the previous version of the
//  software can still correctly the fields it knows about.  The
//  MajorVersion should only be changed if the previous version of
//  any software using this structure would incorrectly handle new
//  records due to structure changes.
//
//  The first update to this will force the structure to version 2.0.
//  This will add the extended information about the source as
//  well as indicate the file name offset within the structure.
//
//  The following structure is returned with these fsctls.
//
//      FSCTL_READ_USN_JOURNAL
//      FSCTL_READ_FILE_USN_DATA
//      FSCTL_ENUM_USN_DATA
//

typedef struct {

    DWORD RecordLength;
    WORD   MajorVersion;
    WORD   MinorVersion;
    DWORDLONG FileReferenceNumber;
    DWORDLONG ParentFileReferenceNumber;
    USN Usn;
    LARGE_INTEGER TimeStamp;
    DWORD Reason;
    DWORD SourceInfo;
    DWORD SecurityId;
    DWORD FileAttributes;
    WORD   FileNameLength;
    WORD   FileNameOffset;
    WCHAR FileName[1];

} USN_RECORD, *PUSN_RECORD;

#define USN_PAGE_SIZE                    (0x1000)

#define USN_REASON_DATA_OVERWRITE        (0x00000001)
#define USN_REASON_DATA_EXTEND           (0x00000002)
#define USN_REASON_DATA_TRUNCATION       (0x00000004)
#define USN_REASON_NAMED_DATA_OVERWRITE  (0x00000010)
#define USN_REASON_NAMED_DATA_EXTEND     (0x00000020)
#define USN_REASON_NAMED_DATA_TRUNCATION (0x00000040)
#define USN_REASON_FILE_CREATE           (0x00000100)
#define USN_REASON_FILE_DELETE           (0x00000200)
#define USN_REASON_EA_CHANGE             (0x00000400)
#define USN_REASON_SECURITY_CHANGE       (0x00000800)
#define USN_REASON_RENAME_OLD_NAME       (0x00001000)
#define USN_REASON_RENAME_NEW_NAME       (0x00002000)
#define USN_REASON_INDEXABLE_CHANGE      (0x00004000)
#define USN_REASON_BASIC_INFO_CHANGE     (0x00008000)
#define USN_REASON_HARD_LINK_CHANGE      (0x00010000)
#define USN_REASON_COMPRESSION_CHANGE    (0x00020000)
#define USN_REASON_ENCRYPTION_CHANGE     (0x00040000)
#define USN_REASON_OBJECT_ID_CHANGE      (0x00080000)
#define USN_REASON_REPARSE_POINT_CHANGE  (0x00100000)
#define USN_REASON_STREAM_CHANGE         (0x00200000)

#define USN_REASON_CLOSE                 (0x80000000)

//
//  Structure for FSCTL_QUERY_USN_JOUNAL
//

typedef struct {

    DWORDLONG UsnJournalID;
    USN FirstUsn;
    USN NextUsn;
    USN LowestValidUsn;
    USN MaxUsn;
    DWORDLONG MaximumSize;
    DWORDLONG AllocationDelta;

} USN_JOURNAL_DATA, *PUSN_JOURNAL_DATA;

//
//  Structure for FSCTL_DELETE_USN_JOURNAL
//

typedef struct {

    DWORDLONG UsnJournalID;
    DWORD DeleteFlags;

} DELETE_USN_JOURNAL_DATA, *PDELETE_USN_JOURNAL_DATA;

#define USN_DELETE_FLAG_DELETE              (0x00000001)
#define USN_DELETE_FLAG_NOTIFY              (0x00000002)

#define USN_DELETE_VALID_FLAGS              (0x00000003)

//
//  Structure for FSCTL_MARK_HANDLE
//

typedef struct {

    DWORD UsnSourceInfo;
    HANDLE VolumeHandle;
    DWORD HandleInfo;

} MARK_HANDLE_INFO, *PMARK_HANDLE_INFO;

#if defined(_WIN64)
//
//  32/64 Bit thunking support structure
//

typedef struct {

    DWORD UsnSourceInfo;
    UINT32 VolumeHandle;
    DWORD HandleInfo;

} MARK_HANDLE_INFO32, *PMARK_HANDLE_INFO32;
#endif

//
//  Flags for the additional source information above.
//
//      USN_SOURCE_DATA_MANAGEMENT - Service is not modifying the external view
//          of any part of the file.  Typical case is HSM moving data to
//          and from external storage.
//
//      USN_SOURCE_AUXILIARY_DATA - Service is not modifying the external view
//          of the file with regard to the application that created this file.
//          Can be used to add private data streams to a file.
//
//      USN_SOURCE_REPLICATION_MANAGEMENT - Service is modifying a file to match
//          the contents of the same file which exists in another member of the
//          replica set.
//

#define USN_SOURCE_DATA_MANAGEMENT          (0x00000001)
#define USN_SOURCE_AUXILIARY_DATA           (0x00000002)
#define USN_SOURCE_REPLICATION_MANAGEMENT   (0x00000004)

//
//  Flags for the HandleInfo field above
//
//  MARK_HANDLE_PROTECT_CLUSTERS - disallow any defragmenting (FSCTL_MOVE_FILE) until the
//      the handle is closed
//

#define MARK_HANDLE_PROTECT_CLUSTERS        (0x00000001)

#endif /* _WIN32_WINNT >= 0x0500 */

#if(_WIN32_WINNT >= 0x0500)
//
// Structure for FSCTL_SECURITY_ID_CHECK
//

typedef struct {

    ACCESS_MASK DesiredAccess;
    DWORD SecurityIds[1];

} BULK_SECURITY_TEST_DATA, *PBULK_SECURITY_TEST_DATA;
#endif /* _WIN32_WINNT >= 0x0500 */

#if(_WIN32_WINNT >= 0x0500)
//
//  Output flags for the FSCTL_IS_VOLUME_DIRTY
//

#define VOLUME_IS_DIRTY                  (0x00000001)
#define VOLUME_UPGRADE_SCHEDULED         (0x00000002)
#endif /* _WIN32_WINNT >= 0x0500 */

//
// Structures for FSCTL_FILE_PREFETCH
//

typedef struct _FILE_PREFETCH {
    DWORD Type;
    DWORD Count;
    DWORDLONG Prefetch[1];
} FILE_PREFETCH, *PFILE_PREFETCH;

#define FILE_PREFETCH_TYPE_FOR_CREATE    0x1

// Structures for FSCTL_FILESYSTEM_GET_STATISTICS
//
// Filesystem performance counters
//

typedef struct _FILESYSTEM_STATISTICS {

    WORD   FileSystemType;
    WORD   Version;                     // currently version 1

    DWORD SizeOfCompleteStructure;      // must by a mutiple of 64 bytes

    DWORD UserFileReads;
    DWORD UserFileReadBytes;
    DWORD UserDiskReads;
    DWORD UserFileWrites;
    DWORD UserFileWriteBytes;
    DWORD UserDiskWrites;

    DWORD MetaDataReads;
    DWORD MetaDataReadBytes;
    DWORD MetaDataDiskReads;
    DWORD MetaDataWrites;
    DWORD MetaDataWriteBytes;
    DWORD MetaDataDiskWrites;

    //
    //  The file system's private structure is appended here.
    //

} FILESYSTEM_STATISTICS, *PFILESYSTEM_STATISTICS;

// values for FS_STATISTICS.FileSystemType

#define FILESYSTEM_STATISTICS_TYPE_NTFS     1
#define FILESYSTEM_STATISTICS_TYPE_FAT      2

//
//  File System Specific Statistics Data
//

typedef struct _FAT_STATISTICS {
    DWORD CreateHits;
    DWORD SuccessfulCreates;
    DWORD FailedCreates;

    DWORD NonCachedReads;
    DWORD NonCachedReadBytes;
    DWORD NonCachedWrites;
    DWORD NonCachedWriteBytes;

    DWORD NonCachedDiskReads;
    DWORD NonCachedDiskWrites;
} FAT_STATISTICS, *PFAT_STATISTICS;

typedef struct _NTFS_STATISTICS {

    DWORD LogFileFullExceptions;
    DWORD OtherExceptions;

    //
    // Other meta data io's
    //

    DWORD MftReads;
    DWORD MftReadBytes;
    DWORD MftWrites;
    DWORD MftWriteBytes;
    struct {
        WORD   Write;
        WORD   Create;
        WORD   SetInfo;
        WORD   Flush;
    } MftWritesUserLevel;

    WORD   MftWritesFlushForLogFileFull;
    WORD   MftWritesLazyWriter;
    WORD   MftWritesUserRequest;

    DWORD Mft2Writes;
    DWORD Mft2WriteBytes;
    struct {
        WORD   Write;
        WORD   Create;
        WORD   SetInfo;
        WORD   Flush;
    } Mft2WritesUserLevel;

    WORD   Mft2WritesFlushForLogFileFull;
    WORD   Mft2WritesLazyWriter;
    WORD   Mft2WritesUserRequest;

    DWORD RootIndexReads;
    DWORD RootIndexReadBytes;
    DWORD RootIndexWrites;
    DWORD RootIndexWriteBytes;

    DWORD BitmapReads;
    DWORD BitmapReadBytes;
    DWORD BitmapWrites;
    DWORD BitmapWriteBytes;

    WORD   BitmapWritesFlushForLogFileFull;
    WORD   BitmapWritesLazyWriter;
    WORD   BitmapWritesUserRequest;

    struct {
        WORD   Write;
        WORD   Create;
        WORD   SetInfo;
    } BitmapWritesUserLevel;

    DWORD MftBitmapReads;
    DWORD MftBitmapReadBytes;
    DWORD MftBitmapWrites;
    DWORD MftBitmapWriteBytes;

    WORD   MftBitmapWritesFlushForLogFileFull;
    WORD   MftBitmapWritesLazyWriter;
    WORD   MftBitmapWritesUserRequest;

    struct {
        WORD   Write;
        WORD   Create;
        WORD   SetInfo;
        WORD   Flush;
    } MftBitmapWritesUserLevel;

    DWORD UserIndexReads;
    DWORD UserIndexReadBytes;
    DWORD UserIndexWrites;
    DWORD UserIndexWriteBytes;

    //
    // Additions for NT 5.0
    //

    DWORD LogFileReads;
    DWORD LogFileReadBytes;
    DWORD LogFileWrites;
    DWORD LogFileWriteBytes;

    struct {
        DWORD Calls;                // number of individual calls to allocate clusters
        DWORD Clusters;             // number of clusters allocated
        DWORD Hints;                // number of times a hint was specified

        DWORD RunsReturned;         // number of runs used to satisify all the requests

        DWORD HintsHonored;         // number of times the hint was useful
        DWORD HintsClusters;        // number of clusters allocated via the hint
        DWORD Cache;                // number of times the cache was useful other than the hint
        DWORD CacheClusters;        // number of clusters allocated via the cache other than the hint
        DWORD CacheMiss;            // number of times the cache wasn't useful
        DWORD CacheMissClusters;    // number of clusters allocated without the cache
    } Allocate;

} NTFS_STATISTICS, *PNTFS_STATISTICS;

#if(_WIN32_WINNT >= 0x0500)
//
// Structure for FSCTL_SET_OBJECT_ID, FSCTL_GET_OBJECT_ID, and FSCTL_CREATE_OR_GET_OBJECT_ID
//

#if _MSC_VER >= 1200
#pragma warning(push)
#endif
#pragma warning(disable:4201)       // unnamed struct

typedef struct _FILE_OBJECTID_BUFFER {

    //
    //  This is the portion of the object id that is indexed.
    //

    BYTE  ObjectId[16];

    //
    //  This portion of the object id is not indexed, it's just
    //  some metadata for the user's benefit.
    //

    union {
        struct {
            BYTE  BirthVolumeId[16];
            BYTE  BirthObjectId[16];
            BYTE  DomainId[16];
        } ;
        BYTE  ExtendedInfo[48];
    };

} FILE_OBJECTID_BUFFER, *PFILE_OBJECTID_BUFFER;

#if _MSC_VER >= 1200
#pragma warning(pop)
#else
#pragma warning( default : 4201 )
#endif

#endif /* _WIN32_WINNT >= 0x0500 */


#if(_WIN32_WINNT >= 0x0500)
//
// Structure for FSCTL_SET_SPARSE
//

typedef struct _FILE_SET_SPARSE_BUFFER {
    BOOLEAN SetSparse;
} FILE_SET_SPARSE_BUFFER, *PFILE_SET_SPARSE_BUFFER;


#endif /* _WIN32_WINNT >= 0x0500 */


#if(_WIN32_WINNT >= 0x0500)
//
// Structure for FSCTL_SET_ZERO_DATA
//

typedef struct _FILE_ZERO_DATA_INFORMATION {

    LARGE_INTEGER FileOffset;
    LARGE_INTEGER BeyondFinalZero;

} FILE_ZERO_DATA_INFORMATION, *PFILE_ZERO_DATA_INFORMATION;
#endif /* _WIN32_WINNT >= 0x0500 */

#if(_WIN32_WINNT >= 0x0500)
//
// Structure for FSCTL_QUERY_ALLOCATED_RANGES
//

//
// Querying the allocated ranges requires an output buffer to store the
// allocated ranges and an input buffer to specify the range to query.
// The input buffer contains a single entry, the output buffer is an
// array of the following structure.
//

typedef struct _FILE_ALLOCATED_RANGE_BUFFER {

    LARGE_INTEGER FileOffset;
    LARGE_INTEGER Length;

} FILE_ALLOCATED_RANGE_BUFFER, *PFILE_ALLOCATED_RANGE_BUFFER;
#endif /* _WIN32_WINNT >= 0x0500 */

#if(_WIN32_WINNT >= 0x0500)
//
// Structures for FSCTL_SET_ENCRYPTION, FSCTL_WRITE_RAW_ENCRYPTED, and FSCTL_READ_RAW_ENCRYPTED
//

//
//  The input buffer to set encryption indicates whether we are to encrypt/decrypt a file
//  or an individual stream.
//

typedef struct _ENCRYPTION_BUFFER {

    DWORD EncryptionOperation;
    BYTE  Private[1];

} ENCRYPTION_BUFFER, *PENCRYPTION_BUFFER;

#define FILE_SET_ENCRYPTION         0x00000001
#define FILE_CLEAR_ENCRYPTION       0x00000002
#define STREAM_SET_ENCRYPTION       0x00000003
#define STREAM_CLEAR_ENCRYPTION     0x00000004

#define MAXIMUM_ENCRYPTION_VALUE    0x00000004

//
//  The optional output buffer to set encryption indicates that the last encrypted
//  stream in a file has been marked as decrypted.
//

typedef struct _DECRYPTION_STATUS_BUFFER {

    BOOLEAN NoEncryptedStreams;

} DECRYPTION_STATUS_BUFFER, *PDECRYPTION_STATUS_BUFFER;

#define ENCRYPTION_FORMAT_DEFAULT        (0x01)

#define COMPRESSION_FORMAT_SPARSE        (0x4000)

//
//  Request Encrypted Data structure.  This is used to indicate
//  the range of the file to read.  It also describes the
//  output buffer used to return the data.
//

typedef struct _REQUEST_RAW_ENCRYPTED_DATA {

    //
    //  Requested file offset and requested length to read.
    //  The fsctl will round the starting offset down
    //  to a file system boundary.  It will also
    //  round the length up to a file system boundary.
    //

    LONGLONG FileOffset;
    DWORD Length;

} REQUEST_RAW_ENCRYPTED_DATA, *PREQUEST_RAW_ENCRYPTED_DATA;

//
//  Encrypted Data Information structure.  This structure
//  is used to return raw encrypted data from a file in
//  order to perform off-line recovery.  The data will be
//  encrypted or encrypted and compressed.  The off-line
//  service will need to use the encryption and compression
//  format information to recover the file data.  In the
//  event that the data is both encrypted and compressed then
//  the decryption must occur before decompression.  All
//  the data units below must be encrypted and compressed
//  with the same format.
//
//  The data will be returned in units.  The data unit size
//  will be fixed per request.  If the data is compressed
//  then the data unit size will be the compression unit size.
//
//  This structure is at the beginning of the buffer used to
//  return the encrypted data.  The actual raw bytes from
//  the file will follow this buffer.  The offset of the
//  raw bytes from the beginning of this structure is
//  specified in the REQUEST_RAW_ENCRYPTED_DATA structure
//  described above.
//

typedef struct _ENCRYPTED_DATA_INFO {

    //
    //  This is the file offset for the first entry in the
    //  data block array.  The file system will round
    //  the requested start offset down to a boundary
    //  that is consistent with the format of the file.
    //

    DWORDLONG StartingFileOffset;

    //
    //  Data offset in output buffer.  The output buffer
    //  begins with an ENCRYPTED_DATA_INFO structure.
    //  The file system will then store the raw bytes from
    //  disk beginning at the following offset within the
    //  output buffer.
    //

    DWORD OutputBufferOffset;

    //
    //  The number of bytes being returned that are within
    //  the size of the file.  If this value is less than
    //  (NumberOfDataBlocks << DataUnitShift), it means the
    //  end of the file occurs within this transfer.  Any
    //  data beyond file size is invalid and was never
    //  passed to the encryption driver.
    //

    DWORD BytesWithinFileSize;

    //
    //  The number of bytes being returned that are below
    //  valid data length.  If this value is less than
    //  (NumberOfDataBlocks << DataUnitShift), it means the
    //  end of the valid data occurs within this transfer.
    //  After decrypting the data from this transfer, any
    //  byte(s) beyond valid data length must be zeroed.
    //

    DWORD BytesWithinValidDataLength;

    //
    //  Code for the compression format as defined in
    //  ntrtl.h.  Note that COMPRESSION_FORMAT_NONE
    //  and COMPRESSION_FORMAT_DEFAULT are invalid if
    //  any of the described chunks are compressed.
    //

    WORD   CompressionFormat;

    //
    //  The DataUnit is the granularity used to access the
    //  disk.  It will be the same as the compression unit
    //  size for a compressed file.  For an uncompressed
    //  file, it will be some cluster-aligned power of 2 that
    //  the file system deems convenient.  A caller should
    //  not expect that successive calls will have the
    //  same data unit shift value as the previous call.
    //
    //  Since chunks and compression units are expected to be
    //  powers of 2 in size, we express them log2.  So, for
    //  example (1 << ChunkShift) == ChunkSizeInBytes.  The
    //  ClusterShift indicates how much space must be saved
    //  to successfully compress a compression unit - each
    //  successfully compressed data unit must occupy
    //  at least one cluster less in bytes than an uncompressed
    //  data block unit.
    //

    BYTE  DataUnitShift;
    BYTE  ChunkShift;
    BYTE  ClusterShift;

    //
    //  The format for the encryption.
    //

    BYTE  EncryptionFormat;

    //
    //  This is the number of entries in the data block size
    //  array.
    //

    WORD   NumberOfDataBlocks;

    //
    //  This is an array of sizes in the data block array.  There
    //  must be one entry in this array for each data block
    //  read from disk.  The size has a different meaning
    //  depending on whether the file is compressed.
    //
    //  A size of zero always indicates that the final data consists entirely
    //  of zeroes.  There is no decryption or decompression to
    //  perform.
    //
    //  If the file is compressed then the data block size indicates
    //  whether this block is compressed.  A size equal to
    //  the block size indicates that the corresponding block did
    //  not compress.  Any other non-zero size indicates the
    //  size of the compressed data which needs to be
    //  decrypted/decompressed.
    //
    //  If the file is not compressed then the data block size
    //  indicates the amount of data within the block that
    //  needs to be decrypted.  Any other non-zero size indicates
    //  that the remaining bytes in the data unit within the file
    //  consists of zeros.  An example of this is when the
    //  the read spans the valid data length of the file.  There
    //  is no data to decrypt past the valid data length.
    //

    DWORD DataBlockSize[ANYSIZE_ARRAY];

} ENCRYPTED_DATA_INFO;
typedef ENCRYPTED_DATA_INFO *PENCRYPTED_DATA_INFO;
#endif /* _WIN32_WINNT >= 0x0500 */

#if(_WIN32_WINNT >= 0x0500)
//
//  FSCTL_READ_FROM_PLEX support
//  Request Plex Read Data structure.  This is used to indicate
//  the range of the file to read.  It also describes
//  which plex to perform the read from.
//

typedef struct _PLEX_READ_DATA_REQUEST {

    //
    //  Requested offset and length to read.
    //  The offset can be the virtual offset (vbo) in to a file,
    //  or a volume. In the case of a file offset,
    //  the fsd will round the starting offset down
    //  to a file system boundary.  It will also
    //  round the length up to a file system boundary and
    //  enforce any other applicable limits.
    //

    LARGE_INTEGER ByteOffset;
    DWORD ByteLength;
    DWORD PlexNumber;

} PLEX_READ_DATA_REQUEST, *PPLEX_READ_DATA_REQUEST;
#endif /* _WIN32_WINNT >= 0x0500 */

#if(_WIN32_WINNT >= 0x0500)
//
// FSCTL_SIS_COPYFILE support
// Source and destination file names are passed in the FileNameBuffer.
// Both strings are null terminated, with the source name starting at
// the beginning of FileNameBuffer, and the destination name immediately
// following.  Length fields include terminating nulls.
//

typedef struct _SI_COPYFILE {
    DWORD SourceFileNameLength;
    DWORD DestinationFileNameLength;
    DWORD Flags;
    WCHAR FileNameBuffer[1];
} SI_COPYFILE, *PSI_COPYFILE;

#define COPYFILE_SIS_LINK       0x0001              // Copy only if source is SIS
#define COPYFILE_SIS_REPLACE    0x0002              // Replace destination if it exists, otherwise don't.
#define COPYFILE_SIS_FLAGS      0x0003
#endif /* _WIN32_WINNT >= 0x0500 */

#endif // _FILESYSTEMFSCTL_


//
// These IOCTLs are handled by hard disk volumes.
//

#define IOCTL_VOLUME_BASE   ((DWORD) 'V')

#define IOCTL_VOLUME_GET_VOLUME_DISK_EXTENTS    CTL_CODE(IOCTL_VOLUME_BASE, 0, METHOD_BUFFERED, FILE_ANY_ACCESS)
#define IOCTL_VOLUME_IS_CLUSTERED               CTL_CODE(IOCTL_VOLUME_BASE, 12, METHOD_BUFFERED, FILE_ANY_ACCESS)

//
// Disk extent definition.
//

typedef struct _DISK_EXTENT {
    DWORD           DiskNumber;
    LARGE_INTEGER   StartingOffset;
    LARGE_INTEGER   ExtentLength;
} DISK_EXTENT, *PDISK_EXTENT;

//
// Output structure for IOCTL_VOLUME_GET_VOLUME_DISK_EXTENTS.
//

typedef struct _VOLUME_DISK_EXTENTS {
    DWORD       NumberOfDiskExtents;
    DISK_EXTENT Extents[1];
} VOLUME_DISK_EXTENTS, *PVOLUME_DISK_EXTENTS;


#endif // _WINIOCTL_