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152 lines
3.8 KiB
152 lines
3.8 KiB
/*++
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Copyright (c) 1992 Microsoft Corporation
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Module Name:
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io.c
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Abstract:
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Author:
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Thomas J. Dimitri (TommyD) 08-May-1992
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Environment:
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Kernel Mode - Or whatever is the equivalent on OS/2 and DOS.
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Revision History:
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--*/
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#include "asyncall.h"
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// asyncmac.c will define the global parameters.
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#include "globals.h"
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NTSTATUS
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AsyncSetupIrp(
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IN PASYNC_FRAME Frame,
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IN PIRP irp
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)
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/*++
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This is the routine which intializes the Irp
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--*/
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{
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// PMDL mdl;
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PDEVICE_OBJECT deviceObject=Frame->Info->DeviceObject;
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PFILE_OBJECT fileObject=Frame->Info->FileObject;
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irp->Tail.Overlay.OriginalFileObject = fileObject;
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irp->RequestorMode = KernelMode;
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irp->PendingReturned = FALSE;
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//
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// Fill in the service independent parameters in the IRP.
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//
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irp->UserEvent = NULL;
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irp->Overlay.AsynchronousParameters.UserApcRoutine = NULL;
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irp->Overlay.AsynchronousParameters.UserApcContext = NULL;
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//
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// Now determine whether this device expects to have data buffered to it
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// or whether it performs direct I/O. This is based on the DO_BUFFERED_IO
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// flag in the device object. If the flag is set, then a system buffer is
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// allocated and the caller's data is copied into it. Otherwise, a Memory
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// Descriptor List (MDL) is allocated and the caller's buffer is locked
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// down using it.
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//
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if (deviceObject->Flags & DO_BUFFERED_IO) {
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//
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// The device does not support direct I/O. Allocate a system buffer,
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// and copy the caller's data into it. This is done using an
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// exception handler that will perform cleanup if the operation
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// fails. Note that this is only done if the operation has a non-zero
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// length.
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//
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irp->AssociatedIrp.SystemBuffer = Frame->Frame;
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//
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// Set the IRP_BUFFERED_IO flag in the IRP so that I/O completion
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// will know that this is not a direct I/O operation.
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//
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irp->Flags = IRP_BUFFERED_IO;
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} else if (deviceObject->Flags & DO_DIRECT_IO) {
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//
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// This is a direct I/O operation. Allocate an MDL and invoke the
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// memory management routine to lock the buffer into memory. This
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// is done using an exception handler that will perform cleanup if
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// the operation fails. Note that no MDL is allocated, nor is any
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// memory probed or locked if the length of the request was zero.
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//
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#if DBG
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DbgPrintf(("The DeviceObject is NOT BUFFERED_IO!! IRP FAILURE!!\n"));
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DbgBreakPoint();
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#endif
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} else {
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//
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// Pass the address of the caller's buffer to the device driver. It
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// is now up to the driver to do everything.
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//
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irp->UserBuffer = Frame->Frame;
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}
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// For now, if we get this far, it means success!
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return(STATUS_SUCCESS);
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}
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PASYNC_IO_CTX
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AsyncAllocateIoCtx(
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BOOLEAN AllocateSync,
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PVOID Context
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)
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{
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PASYNC_IO_CTX AsyncIoCtx;
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AsyncIoCtx = ExAllocateFromNPagedLookasideList(&AsyncIoCtxList);
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if (AsyncIoCtx == NULL) {
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return (NULL);
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}
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RtlZeroMemory(AsyncIoCtx, sizeof(ASYNC_IO_CTX));
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AsyncIoCtx->Context = Context;
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AsyncIoCtx->Sync = AllocateSync;
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if (AllocateSync) {
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ASSERT(KeGetCurrentIrql() < DISPATCH_LEVEL);
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KeInitializeEvent(&AsyncIoCtx->Event,
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SynchronizationEvent,
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(BOOLEAN)FALSE);
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}
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return (AsyncIoCtx);
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}
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VOID
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AsyncFreeIoCtx(
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PASYNC_IO_CTX AsyncIoCtx
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)
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{
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ExFreeToNPagedLookasideList(&AsyncIoCtxList,
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AsyncIoCtx);
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}
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