Add giveio device driver source. Requires MS DDK to build.
git-svn-id: svn://svn.savannah.nongnu.org/avrdude/trunk/avrdude@228 81a1dc3b-b13d-400b-aceb-764788c761c2
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/*********************************************************************
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Author: Dale Roberts
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Date: 8/30/95
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Program: GIVEIO.SYS
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Compile: Use DDK BUILD facility
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Purpose: Give direct port I/O access to a user mode process.
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*********************************************************************/
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#include <ntddk.h>
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/*
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* The name of our device driver.
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*/
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#define DEVICE_NAME_STRING L"giveio"
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/*
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* This is the "structure" of the IOPM. It is just a simple
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* character array of length 0x2000.
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*
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* This holds 8K * 8 bits -> 64K bits of the IOPM, which maps the
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* entire 64K I/O space of the x86 processor. Any 0 bits will give
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* access to the corresponding port for user mode processes. Any 1
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* bits will disallow I/O access to the corresponding port.
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*/
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#define IOPM_SIZE 0x2000
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typedef UCHAR IOPM[IOPM_SIZE];
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/*
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* This will hold simply an array of 0's which will be copied
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* into our actual IOPM in the TSS by Ke386SetIoAccessMap().
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* The memory is allocated at driver load time.
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*/
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IOPM *IOPM_local = 0;
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/*
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* These are the two undocumented calls that we will use to give
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* the calling process I/O access.
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*
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* Ke386IoSetAccessMap() copies the passed map to the TSS.
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*
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* Ke386IoSetAccessProcess() adjusts the IOPM offset pointer so that
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* the newly copied map is actually used. Otherwise, the IOPM offset
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* points beyond the end of the TSS segment limit, causing any I/O
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* access by the user mode process to generate an exception.
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*/
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void Ke386SetIoAccessMap(int, IOPM *);
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void Ke386QueryIoAccessMap(int, IOPM *);
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void Ke386IoSetAccessProcess(PEPROCESS, int);
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/*********************************************************************
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Release any allocated objects.
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*********************************************************************/
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VOID GiveioUnload(IN PDRIVER_OBJECT DriverObject)
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{
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WCHAR DOSNameBuffer[] = L"\\DosDevices\\" DEVICE_NAME_STRING;
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UNICODE_STRING uniDOSString;
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if(IOPM_local)
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MmFreeNonCachedMemory(IOPM_local, sizeof(IOPM));
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RtlInitUnicodeString(&uniDOSString, DOSNameBuffer);
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IoDeleteSymbolicLink (&uniDOSString);
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IoDeleteDevice(DriverObject->DeviceObject);
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}
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/*********************************************************************
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Set the IOPM (I/O permission map) of the calling process so that it
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is given full I/O access. Our IOPM_local[] array is all zeros, so
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the IOPM will be all zeros. If OnFlag is 1, the process is given I/O
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access. If it is 0, access is removed.
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*********************************************************************/
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VOID SetIOPermissionMap(int OnFlag)
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{
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Ke386IoSetAccessProcess(PsGetCurrentProcess(), OnFlag);
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Ke386SetIoAccessMap(1, IOPM_local);
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}
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void GiveIO(void)
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{
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SetIOPermissionMap(1);
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}
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/*********************************************************************
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Service handler for a CreateFile() user mode call.
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This routine is entered in the driver object function call table by
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the DriverEntry() routine. When the user mode application calls
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CreateFile(), this routine gets called while still in the context of
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the user mode application, but with the CPL (the processor's Current
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Privelege Level) set to 0. This allows us to do kernel mode
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operations. GiveIO() is called to give the calling process I/O
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access. All the user mode application needs do to obtain I/O access
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is open this device with CreateFile(). No other operations are
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required.
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*********************************************************************/
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NTSTATUS GiveioCreateDispatch(
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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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GiveIO(); // give the calling process I/O access
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Irp->IoStatus.Information = 0;
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Irp->IoStatus.Status = STATUS_SUCCESS;
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IoCompleteRequest(Irp, IO_NO_INCREMENT);
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return STATUS_SUCCESS;
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}
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/*********************************************************************
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Driver Entry routine.
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This routine is called only once after the driver is initially
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loaded into memory. It allocates everything necessary for the
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driver's operation. In our case, it allocates memory for our IOPM
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array, and creates a device which user mode applications can open.
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It also creates a symbolic link to the device driver. This allows
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a user mode application to access our driver using the \\.\giveio
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notation.
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*********************************************************************/
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NTSTATUS DriverEntry(
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IN PDRIVER_OBJECT DriverObject,
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IN PUNICODE_STRING RegistryPath
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)
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{
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PDEVICE_OBJECT deviceObject;
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NTSTATUS status;
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WCHAR NameBuffer[] = L"\\Device\\" DEVICE_NAME_STRING;
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WCHAR DOSNameBuffer[] = L"\\DosDevices\\" DEVICE_NAME_STRING;
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UNICODE_STRING uniNameString, uniDOSString;
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//
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// Allocate a buffer for the local IOPM and zero it.
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//
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IOPM_local = MmAllocateNonCachedMemory(sizeof(IOPM));
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if(IOPM_local == 0)
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return STATUS_INSUFFICIENT_RESOURCES;
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RtlZeroMemory(IOPM_local, sizeof(IOPM));
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//
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// Set up device driver name and device object.
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//
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RtlInitUnicodeString(&uniNameString, NameBuffer);
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RtlInitUnicodeString(&uniDOSString, DOSNameBuffer);
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status = IoCreateDevice(DriverObject, 0,
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&uniNameString,
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FILE_DEVICE_UNKNOWN,
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0, FALSE, &deviceObject);
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if(!NT_SUCCESS(status))
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return status;
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status = IoCreateSymbolicLink (&uniDOSString, &uniNameString);
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if (!NT_SUCCESS(status))
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return status;
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//
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// Initialize the Driver Object with driver's entry points.
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// All we require are the Create and Unload operations.
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//
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DriverObject->MajorFunction[IRP_MJ_CREATE] = GiveioCreateDispatch;
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DriverObject->DriverUnload = GiveioUnload;
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return STATUS_SUCCESS;
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}
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