380 lines
13 KiB
C
380 lines
13 KiB
C
/*++
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Copyright (c) 1991-1998 Microsoft Corporation
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Module Name:
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ioctl.c
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Abstract:
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Author:
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Neil Sandlin (neilsa) 26-Apr-99
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Environment:
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Kernel mode only.
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--*/
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#include "pch.h"
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#ifdef ALLOC_PRAGMA
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#pragma alloc_text(PAGE,MemCardDeviceControl)
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#endif
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NTSTATUS
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MemCardDeviceControl(
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IN PDEVICE_OBJECT DeviceObject,
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IN PIRP Irp
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)
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/*++
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Routine Description:
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This routine is called by the I/O system to perform a device I/O
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control function.
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Arguments:
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DeviceObject - a pointer to the object that represents the device
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that I/O is to be done on.
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Irp - a pointer to the I/O Request Packet for this request.
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Return Value:
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STATUS_SUCCESS or STATUS_PENDING if recognized I/O control code,
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STATUS_INVALID_DEVICE_REQUEST otherwise.
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--*/
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{
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PIO_STACK_LOCATION irpSp;
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PMEMCARD_EXTENSION memcardExtension;
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PDISK_GEOMETRY outputBuffer;
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NTSTATUS status;
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ULONG outputBufferLength;
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UCHAR i;
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ULONG formatExParametersSize;
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PFORMAT_EX_PARAMETERS formatExParameters;
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MemCardDump( MEMCARDIOCTL, ("MemCard: IOCTL entered\n") );
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memcardExtension = DeviceObject->DeviceExtension;
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irpSp = IoGetCurrentIrpStackLocation( Irp );
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//
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// If the device has been removed we will just fail this request outright.
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//
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if ( memcardExtension->IsRemoved ) {
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Irp->IoStatus.Information = 0;
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Irp->IoStatus.Status = STATUS_DELETE_PENDING;
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IoCompleteRequest( Irp, IO_NO_INCREMENT );
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return STATUS_DELETE_PENDING;
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}
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//
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// If the device hasn't been started we will let the IOCTL through. This
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// is another hack for ACPI.
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//
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if (!memcardExtension->IsStarted) {
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IoSkipCurrentIrpStackLocation( Irp );
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return IoCallDriver( memcardExtension->TargetObject, Irp );
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}
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switch( irpSp->Parameters.DeviceIoControl.IoControlCode ) {
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case IOCTL_MOUNTDEV_QUERY_DEVICE_NAME: {
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PMOUNTDEV_NAME mountName;
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MemCardDump( MEMCARDIOCTL, ("MemCard: DO %.8x Irp %.8x IOCTL_MOUNTDEV_QUERY_DEVICE_NAME\n",
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DeviceObject, Irp));
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ASSERT(memcardExtension->DeviceName.Buffer);
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if ( irpSp->Parameters.DeviceIoControl.OutputBufferLength <
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sizeof(MOUNTDEV_NAME) ) {
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status = STATUS_INVALID_PARAMETER;
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break;
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}
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mountName = Irp->AssociatedIrp.SystemBuffer;
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mountName->NameLength = memcardExtension->DeviceName.Length;
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if ( irpSp->Parameters.DeviceIoControl.OutputBufferLength <
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sizeof(USHORT) + mountName->NameLength) {
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status = STATUS_BUFFER_OVERFLOW;
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Irp->IoStatus.Information = sizeof(MOUNTDEV_NAME);
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break;
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}
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RtlCopyMemory( mountName->Name, memcardExtension->DeviceName.Buffer,
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mountName->NameLength);
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status = STATUS_SUCCESS;
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Irp->IoStatus.Information = sizeof(USHORT) + mountName->NameLength;
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break;
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}
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case IOCTL_MOUNTDEV_QUERY_UNIQUE_ID: {
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PMOUNTDEV_UNIQUE_ID uniqueId;
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MemCardDump( MEMCARDIOCTL, ("MemCard: DO %.8x Irp %.8x IOCTL_MOUNTDEV_QUERY_UNIQUE_ID\n",
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DeviceObject, Irp));
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if ( !memcardExtension->InterfaceString.Buffer ||
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irpSp->Parameters.DeviceIoControl.OutputBufferLength <
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sizeof(MOUNTDEV_UNIQUE_ID)) {
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status = STATUS_INVALID_PARAMETER;
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break;
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}
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uniqueId = Irp->AssociatedIrp.SystemBuffer;
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uniqueId->UniqueIdLength =
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memcardExtension->InterfaceString.Length;
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if (irpSp->Parameters.DeviceIoControl.OutputBufferLength <
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sizeof(USHORT) + uniqueId->UniqueIdLength) {
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status = STATUS_BUFFER_OVERFLOW;
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Irp->IoStatus.Information = sizeof(MOUNTDEV_UNIQUE_ID);
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break;
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}
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RtlCopyMemory( uniqueId->UniqueId,
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memcardExtension->InterfaceString.Buffer,
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uniqueId->UniqueIdLength );
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status = STATUS_SUCCESS;
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Irp->IoStatus.Information = sizeof(USHORT) +
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uniqueId->UniqueIdLength;
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break;
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}
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case IOCTL_MOUNTDEV_QUERY_SUGGESTED_LINK_NAME: {
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MemCardDump(MEMCARDIOCTL,("MemCard: DO %.8x Irp %.8x IOCTL_MOUNTDEV_QUERY_SUGGESTED_LINK_NAME\n",
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DeviceObject, Irp));
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status = STATUS_INVALID_DEVICE_REQUEST;
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break;
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}
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case IOCTL_DISK_GET_MEDIA_TYPES: {
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ULONG ByteCapacity;
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MemCardDump(MEMCARDIOCTL,("MemCard: DO %.8x Irp %.8x IOCTL_DISK_GET_MEDIA_TYPES\n",
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DeviceObject, Irp));
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outputBufferLength = irpSp->Parameters.DeviceIoControl.OutputBufferLength;
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outputBuffer = (PDISK_GEOMETRY) Irp->AssociatedIrp.SystemBuffer;
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//
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// Make sure that the input buffer has enough room to return
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// at least one descriptions of a supported media type.
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//
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if (outputBufferLength < (sizeof(DISK_GEOMETRY))) {
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status = STATUS_BUFFER_TOO_SMALL;
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break;
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}
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//
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// Assume success, although we might modify it to a buffer
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// overflow warning below (if the buffer isn't big enough
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// to hold ALL of the media descriptions).
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//
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status = STATUS_SUCCESS;
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i = 0;
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Irp->IoStatus.Information = 0;
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//
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// Fill in capacities from 512K to 8M
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//
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for (ByteCapacity = 0x80000; ByteCapacity <= 0x800000; ByteCapacity*=2) {
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if (outputBufferLength < (sizeof(DISK_GEOMETRY) + Irp->IoStatus.Information)) {
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status = STATUS_BUFFER_OVERFLOW;
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break;
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}
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outputBuffer->MediaType = FixedMedia;
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outputBuffer->Cylinders.LowPart = ByteCapacity / (8 * 2 * 512);
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outputBuffer->Cylinders.HighPart = 0;
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outputBuffer->TracksPerCylinder = 2;
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outputBuffer->SectorsPerTrack = 8;
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outputBuffer->BytesPerSector = 512;
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MemCardDump( MEMCARDIOCTL, ("MemCard: Cyls=%x\n", outputBuffer->Cylinders.LowPart));
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outputBuffer++;
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Irp->IoStatus.Information += sizeof( DISK_GEOMETRY );
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}
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break;
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}
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case IOCTL_DISK_CHECK_VERIFY:
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MemCardDump( MEMCARDIOCTL, ("MemCard: DO %.8x Irp %.8x IOCTL_DISK_CHECK_VERIFY\n",
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DeviceObject, Irp));
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status = STATUS_SUCCESS;
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break;
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case IOCTL_DISK_GET_DRIVE_GEOMETRY: {
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PDISK_GEOMETRY outputBuffer = (PDISK_GEOMETRY) Irp->AssociatedIrp.SystemBuffer;
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MemCardDump( MEMCARDIOCTL, ("MemCard: DO %.8x Irp %.8x IOCTL_DISK_GET_DRIVE_GEOMETRY\n",
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DeviceObject, Irp));
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if ( irpSp->Parameters.DeviceIoControl.OutputBufferLength < sizeof( DISK_GEOMETRY ) ) {
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status = STATUS_INVALID_PARAMETER;
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break;
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}
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status = STATUS_SUCCESS;
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if (!memcardExtension->ByteCapacity) {
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//
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// Just zero out everything. The
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// caller shouldn't look at it.
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//
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outputBuffer->MediaType = Unknown;
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outputBuffer->Cylinders.LowPart = 0;
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outputBuffer->Cylinders.HighPart = 0;
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outputBuffer->TracksPerCylinder = 0;
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outputBuffer->SectorsPerTrack = 0;
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outputBuffer->BytesPerSector = 0;
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} else {
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//
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// Return the geometry of the current
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// media.
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//
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outputBuffer->MediaType = FixedMedia;
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outputBuffer->Cylinders.HighPart = 0;
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outputBuffer->Cylinders.LowPart = memcardExtension->ByteCapacity / (8 * 2 * 512);
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outputBuffer->TracksPerCylinder = 2;
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outputBuffer->SectorsPerTrack = 8;
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outputBuffer->BytesPerSector = 512;
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}
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MemCardDump( MEMCARDIOCTL, ("MemCard: Capacity=%.8x => Cyl=%x\n",
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memcardExtension->ByteCapacity, outputBuffer->Cylinders.LowPart));
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Irp->IoStatus.Information = sizeof( DISK_GEOMETRY );
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break;
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}
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case IOCTL_DISK_IS_WRITABLE: {
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MemCardDump( MEMCARDIOCTL, ("MemCard: DO %.8x Irp %.8x IOCTL_DISK_IS_WRITABLE\n",
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DeviceObject, Irp));
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if ((memcardExtension->PcmciaInterface.IsWriteProtected)(memcardExtension->UnderlyingPDO)) {
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status = STATUS_INVALID_PARAMETER;
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} else {
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status = STATUS_SUCCESS;
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}
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break;
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}
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case IOCTL_DISK_VERIFY: {
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PVERIFY_INFORMATION verifyInformation = Irp->AssociatedIrp.SystemBuffer;
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if (irpSp->Parameters.DeviceIoControl.InputBufferLength < sizeof(VERIFY_INFORMATION)) {
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status = STATUS_INVALID_PARAMETER;
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break;
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}
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//NOTE: not implemented
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Irp->IoStatus.Information = verifyInformation->Length;
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status = STATUS_SUCCESS;
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break;
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}
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case IOCTL_DISK_GET_DRIVE_LAYOUT: {
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PDRIVE_LAYOUT_INFORMATION outputBuffer = (PDRIVE_LAYOUT_INFORMATION) Irp->AssociatedIrp.SystemBuffer;
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MemCardDump( MEMCARDIOCTL, ("MemCard: DO %.8x Irp %.8x IOCTL_DISK_GET_DRIVE_LAYOUT\n",
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DeviceObject, Irp));
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if ( irpSp->Parameters.DeviceIoControl.OutputBufferLength < sizeof(DRIVE_LAYOUT_INFORMATION) ) {
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status = STATUS_INVALID_PARAMETER;
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break;
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}
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RtlZeroMemory(outputBuffer, sizeof(DRIVE_LAYOUT_INFORMATION));
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outputBuffer->PartitionCount = 1;
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outputBuffer->PartitionEntry[0].StartingOffset.LowPart = 512;
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outputBuffer->PartitionEntry[0].PartitionLength.LowPart = memcardExtension->ByteCapacity;
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outputBuffer->PartitionEntry[0].RecognizedPartition = TRUE;
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status = STATUS_SUCCESS;
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Irp->IoStatus.Information = sizeof(DRIVE_LAYOUT_INFORMATION);
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break;
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}
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case IOCTL_DISK_GET_PARTITION_INFO: {
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PPARTITION_INFORMATION outputBuffer = (PPARTITION_INFORMATION)Irp->AssociatedIrp.SystemBuffer;
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MemCardDump( MEMCARDIOCTL, ("MemCard: DO %.8x Irp %.8x IOCTL_DISK_GET_PARTITION_INFO\n",
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DeviceObject, Irp));
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if ( irpSp->Parameters.DeviceIoControl.OutputBufferLength < sizeof( PARTITION_INFORMATION ) ) {
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status = STATUS_INVALID_PARAMETER;
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break;
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}
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RtlZeroMemory(outputBuffer, sizeof(PARTITION_INFORMATION));
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outputBuffer->RecognizedPartition = TRUE;
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outputBuffer->StartingOffset.LowPart = 512;
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outputBuffer->PartitionLength.LowPart = memcardExtension->ByteCapacity;
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status = STATUS_SUCCESS;
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Irp->IoStatus.Information = sizeof( PARTITION_INFORMATION );
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break;
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}
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case IOCTL_DISK_SET_DRIVE_LAYOUT:
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MemCardDump( MEMCARDIOCTL, ("MemCard: DO %.8x Irp %.8x IOCTL_DISK_SET_DRIVE_LAYOUT\n",
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DeviceObject, Irp));
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case IOCTL_MOUNTMGR_CHANGE_NOTIFY:
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case IOCTL_MOUNTDEV_LINK_CREATED:
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case IOCTL_MOUNTDEV_LINK_DELETED:
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default: {
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MemCardDump(MEMCARDIOCTL,
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("MemCard: IOCTL - unsupported device request %.8x\n", irpSp->Parameters.DeviceIoControl.IoControlCode));
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status = STATUS_INVALID_DEVICE_REQUEST;
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break;
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//IoSkipCurrentIrpStackLocation( Irp );
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//status = IoCallDriver( memcardExtension->TargetObject, Irp );
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//return status;
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}
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}
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if ( status != STATUS_PENDING ) {
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Irp->IoStatus.Status = status;
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if (!NT_SUCCESS( status ) && IoIsErrorUserInduced( status )) {
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IoSetHardErrorOrVerifyDevice( Irp, DeviceObject );
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}
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MemCardDump( MEMCARDIOCTL, ("MemCard: DO %.8x Irp %.8x IOCTL comp %.8x\n", DeviceObject, Irp, status));
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IoCompleteRequest( Irp, IO_NO_INCREMENT );
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}
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MemCardDump( MEMCARDIOCTL, ("MemCard: DO %.8x Irp %.8x IOCTL <-- %.8x \n", DeviceObject, Irp, status));
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return status;
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}
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