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555 lines
14 KiB
555 lines
14 KiB
/***************************************************************************
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Copyright (c) 1998 Microsoft Corporation
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Module Name:
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WRITE.C
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Abstract:
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Routines that perform write functionality
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Environment:
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kernel mode only
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Notes:
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THIS CODE AND INFORMATION IS PROVIDED "AS IS" WITHOUT WARRANTY OF ANY
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KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE
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IMPLIED WARRANTIES OF MERCHANTABILITY AND/OR FITNESS FOR A PARTICULAR
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PURPOSE.
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Copyright (c) 1998 Microsoft Corporation. All Rights Reserved.
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Revision History:
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9/25/98 : created
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Authors:
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Louis J. Giliberto, Jr.
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****************************************************************************/
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#include <wdm.h>
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#include <ntddser.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include <usb.h>
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#include <usbdrivr.h>
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#include <usbdlib.h>
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#include <usbcomm.h>
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#ifdef WMI_SUPPORT
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#include <wmilib.h>
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#include <wmidata.h>
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#include <wmistr.h>
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#endif
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#include "usbser.h"
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#include "utils.h"
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#include "debugwdm.h"
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#ifdef ALLOC_PRAGMA
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#pragma alloc_text(PAGEUSBS, UsbSer_Write)
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#pragma alloc_text(PAGEUSBS, UsbSerGiveWriteToUsb)
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#endif // ALLOC_PRAGMA
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NTSTATUS
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UsbSerFlush(IN PDEVICE_OBJECT PDevObj, PIRP PIrp)
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{
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NTSTATUS status = STATUS_SUCCESS;
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PDEVICE_EXTENSION pDevExt;
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ULONG pendingIrps;
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UsbSerSerialDump(USBSERTRACEWR, (">UsbSerFlush(%08X)\n", PIrp));
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pDevExt = (PDEVICE_EXTENSION)PDevObj->DeviceExtension;
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//
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// All we will do is wait until the write pipe has nothing pending.
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// We do this by checking the outstanding count, and if it hits 1 or 0,
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// then the completion routine will set an event we are waiting for.
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//
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InterlockedIncrement(&pDevExt->PendingDataOutCount);
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pendingIrps = InterlockedDecrement(&pDevExt->PendingDataOutCount);
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if ((pendingIrps) && (pendingIrps != 1)) {
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//
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// Wait for flush
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//
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KeWaitForSingleObject(&pDevExt->PendingFlushEvent, Executive,
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KernelMode, FALSE, NULL);
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} else {
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if (pendingIrps == 0) {
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//
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// We need to wake others since our decrement caused the event
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//
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KeSetEvent(&pDevExt->PendingDataOutEvent, IO_NO_INCREMENT, FALSE);
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}
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}
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PIrp->IoStatus.Status = STATUS_SUCCESS;
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IoCompleteRequest(PIrp, IO_NO_INCREMENT);
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UsbSerSerialDump(USBSERTRACEWR, ("<UsbSerFlush %08X \n", STATUS_SUCCESS));
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return STATUS_SUCCESS;
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}
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NTSTATUS
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UsbSer_Write(IN PDEVICE_OBJECT PDevObj, PIRP PIrp)
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/*++
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Routine Description:
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Process the IRPs sent to this device for writing.
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Arguments:
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PDevObj - Pointer to the device object for the device written to
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PIrp - Pointer to the write IRP.
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Return Value:
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NTSTATUS
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--*/
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{
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KIRQL oldIrql;
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LARGE_INTEGER totalTime;
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SERIAL_TIMEOUTS timeouts;
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NTSTATUS status;
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PDEVICE_EXTENSION pDevExt = (PDEVICE_EXTENSION)PDevObj->DeviceExtension;
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PIO_STACK_LOCATION pIrpSp = IoGetCurrentIrpStackLocation(PIrp);
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USBSER_ALWAYS_LOCKED_CODE();
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UsbSerSerialDump(USBSERTRACEWR, (">UsbSer_Write(%08X)\n", PIrp));
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PIrp->IoStatus.Information = 0L;
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totalTime.QuadPart = (LONGLONG)0;
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//
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// Quick check for a zero length write. If it is zero length
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// then we are already done!
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//
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if (pIrpSp->Parameters.Write.Length == 0) {
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status = PIrp->IoStatus.Status = STATUS_SUCCESS;
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IoCompleteRequest(PIrp, IO_NO_INCREMENT);
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goto UsbSer_WriteExit;
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}
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//
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// Make sure the device is accepting request and then...
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// Calculate the timeout value needed for the
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// request. Note that the values stored in the
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// timeout record are in milliseconds. Note that
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// if the timeout values are zero then we won't start
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// the timer.
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//
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ACQUIRE_SPINLOCK(pDevExt, &pDevExt->ControlLock, &oldIrql);
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if (pDevExt->CurrentDevicePowerState != PowerDeviceD0) {
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RELEASE_SPINLOCK(pDevExt, &pDevExt->ControlLock, oldIrql);
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status = PIrp->IoStatus.Status = STATUS_UNSUCCESSFUL;
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IoCompleteRequest(PIrp, IO_NO_INCREMENT);
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goto UsbSer_WriteExit;
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}
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timeouts = pDevExt->Timeouts;
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RELEASE_SPINLOCK(pDevExt, &pDevExt->ControlLock, oldIrql);
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if (timeouts.WriteTotalTimeoutConstant
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|| timeouts.WriteTotalTimeoutMultiplier) {
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//
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// We have some timer values to calculate.
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//
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totalTime.QuadPart
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= ((LONGLONG)((UInt32x32To64((pIrpSp->MajorFunction == IRP_MJ_WRITE)
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? (pIrpSp->Parameters.Write.Length)
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: 1,
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timeouts.WriteTotalTimeoutMultiplier)
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+ timeouts.WriteTotalTimeoutConstant))) * -10000;
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}
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//
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// The Irp may be going to the write routine shortly. Now
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// is a good time to init its ref counts.
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//
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USBSER_INIT_REFERENCE(PIrp);
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//
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// We need to see if this Irp should be cancelled.
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//
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ACQUIRE_CANCEL_SPINLOCK(pDevExt, &oldIrql);
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if (PIrp->Cancel) {
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RELEASE_CANCEL_SPINLOCK(pDevExt, oldIrql);
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status = PIrp->IoStatus.Status = STATUS_CANCELLED;
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} else {
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// IoMarkIrpPending(PIrp);
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// status = STATUS_PENDING;
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//
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// We give the IRP to the USB subsystem -- he will need
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// to know how to cancel it himself
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//
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IoSetCancelRoutine(PIrp, NULL);
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RELEASE_CANCEL_SPINLOCK(pDevExt, oldIrql);
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status = UsbSerGiveWriteToUsb(pDevExt, PIrp, totalTime);
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}
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UsbSer_WriteExit:;
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UsbSerSerialDump(USBSERTRACEWR, ("<UsbSer_Write %08X\n", status));
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return status;
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}
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NTSTATUS
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UsbSerWriteComplete(IN PDEVICE_OBJECT PDevObj, IN PIRP PIrp,
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IN PUSBSER_WRITE_PACKET PPacket)
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/*++
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Routine Description:
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This routine is the completion routine for all write requests.
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When a write completes, we go through here in order to free up
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the URB.
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Arguments:
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PDevObj - Pointer to device object
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PIrp - Irp we are completing
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PUrb - Urb which will be freed
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Return Value:
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NTSTATUS -- as stored in the Irp.
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--*/
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{
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NTSTATUS status;
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PIO_STACK_LOCATION pIrpStack = IoGetCurrentIrpStackLocation(PIrp);
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KIRQL cancelIrql;
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PURB pUrb = &PPacket->Urb;
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PDEVICE_EXTENSION pDevExt = PPacket->DeviceExtension;
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ULONG curCount;
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UsbSerSerialDump(USBSERTRACEWR, (">UsbSerWriteComplete(%08X)\n", PIrp));
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status = PIrp->IoStatus.Status;
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if (status == STATUS_SUCCESS) {
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// see if we are reusing an IOCTL IRP
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if(pIrpStack->MajorFunction == IRP_MJ_DEVICE_CONTROL)
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{
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PIrp->IoStatus.Information = 0L;
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}
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else
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{
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PIrp->IoStatus.Information
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= pUrb->UrbBulkOrInterruptTransfer.TransferBufferLength;
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pIrpStack->Parameters.Write.Length = (ULONG)PIrp->IoStatus.Information;
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}
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} else if (status == STATUS_CANCELLED) {
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//
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// If it comes back as cancelled, it may really have timed out. We
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// can tell by looking at the packet attached to it.
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//
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if (PPacket->Status) {
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status = PIrp->IoStatus.Status = PPacket->Status;
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UsbSerSerialDump(USBSERTRACEWR, ("Modified Write Status %08X\n",
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PIrp->IoStatus.Status));
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}
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}
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//
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// Cancel the write timer
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//
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if (PPacket->WriteTimeout.QuadPart != 0) {
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KeCancelTimer(&PPacket->WriteTimer);
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}
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DEBUG_MEMFREE(PPacket);
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//
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// Reset the pend if necessary
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//
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if (PIrp->PendingReturned) {
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IoMarkIrpPending(PIrp);
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}
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//
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// See if we should mark the transmit as empty
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//
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if (InterlockedDecrement(&pDevExt->PendingWriteCount) == 0) {
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UsbSerProcessEmptyTransmit(pDevExt);
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}
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//
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// Notify everyone if this is the last IRP
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//
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curCount = InterlockedDecrement(&pDevExt->PendingDataOutCount);
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if ((curCount == 0) || (curCount == 1)) {
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UsbSerSerialDump(USBSERTRACEWR, ("DataOut Pipe is flushed\n"));
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KeSetEvent(&pDevExt->PendingFlushEvent, IO_NO_INCREMENT, FALSE);
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if (curCount == 0) {
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UsbSerSerialDump(USBSERTRACEWR, ("DataOut Pipe is empty\n"));
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KeSetEvent(&pDevExt->PendingDataOutEvent, IO_NO_INCREMENT, FALSE);
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}
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}
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//
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// Finish off this IRP
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//
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ACQUIRE_CANCEL_SPINLOCK(pDevExt, &cancelIrql);
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UsbSerTryToCompleteCurrent(pDevExt, cancelIrql, status,
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&PIrp, NULL, NULL,
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&pDevExt->WriteRequestTotalTimer, NULL,
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NULL, USBSER_REF_RXBUFFER, FALSE);
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UsbSerSerialDump(USBSERTRACEWR, ("<UsbSerWriteComplete %08X\n", status));
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return status;
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}
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NTSTATUS
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UsbSerGiveWriteToUsb(IN PDEVICE_EXTENSION PDevExt, IN PIRP PIrp,
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IN LARGE_INTEGER TotalTime)
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/*++
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Routine Description:
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This function passes a write IRP down to USB to perform the write
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to the device.
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Arguments:
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PDevExt - Pointer to device extension
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PIrp - Write IRP
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TotalTime - Timeout value for total timer
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Return Value:
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NTSTATUS
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--*/
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{
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NTSTATUS status;
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PURB pTxUrb;
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PIO_STACK_LOCATION pIrpSp;
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KIRQL cancelIrql;
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PUSBSER_WRITE_PACKET pWrPacket;
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USBSER_ALWAYS_LOCKED_CODE();
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UsbSerSerialDump(USBSERTRACEWR, (">UsbSerGiveWriteToUsb(%08X)\n",
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PIrp));
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USBSER_SET_REFERENCE(PIrp, USBSER_REF_RXBUFFER);
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pIrpSp = IoGetCurrentIrpStackLocation(PIrp);
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//
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// Allocate memory for URB / Write packet
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//
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pWrPacket = DEBUG_MEMALLOC(NonPagedPool, sizeof(USBSER_WRITE_PACKET));
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if (pWrPacket == NULL) {
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status = PIrp->IoStatus.Status = STATUS_INSUFFICIENT_RESOURCES;
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ACQUIRE_CANCEL_SPINLOCK(PDevExt, &cancelIrql);
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UsbSerTryToCompleteCurrent(PDevExt, cancelIrql, status, &PIrp,
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NULL,
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&PDevExt->WriteRequestTotalTimer, NULL, NULL,
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NULL, USBSER_REF_RXBUFFER, TRUE);
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return status;
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}
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RtlZeroMemory(pWrPacket, sizeof(USBSER_WRITE_PACKET));
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pTxUrb = &pWrPacket->Urb;
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pWrPacket->DeviceExtension = PDevExt;
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pWrPacket->Irp = PIrp;
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pWrPacket->WriteTimeout = TotalTime;
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if (TotalTime.QuadPart != 0) {
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KeInitializeTimer(&pWrPacket->WriteTimer);
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KeInitializeDpc(&pWrPacket->TimerDPC, UsbSerWriteTimeout, pWrPacket);
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KeSetTimer(&pWrPacket->WriteTimer, TotalTime, &pWrPacket->TimerDPC);
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}
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//
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// Build USB write request
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//
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BuildReadRequest(pTxUrb, PIrp->AssociatedIrp.SystemBuffer,
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pIrpSp->Parameters.Write.Length, PDevExt->DataOutPipe,
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FALSE);
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#if DBG
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if (UsbSerSerialDebugLevel & USBSERDUMPWR) {
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ULONG i;
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DbgPrint("WR: ");
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for (i = 0; i < pIrpSp->Parameters.Write.Length; i++) {
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DbgPrint("%02x ", *(((PUCHAR)PIrp->AssociatedIrp.SystemBuffer) + i) & 0xFF);
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}
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DbgPrint("\n\n");
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}
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#endif
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//
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// Set Irp up for a submit Urb IOCTL
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//
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IoCopyCurrentIrpStackLocationToNext(PIrp);
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pIrpSp = IoGetNextIrpStackLocation(PIrp);
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pIrpSp->MajorFunction = IRP_MJ_INTERNAL_DEVICE_CONTROL;
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pIrpSp->Parameters.Others.Argument1 = pTxUrb;
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pIrpSp->Parameters.DeviceIoControl.IoControlCode
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= IOCTL_INTERNAL_USB_SUBMIT_URB;
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IoSetCompletionRoutine(PIrp, UsbSerWriteComplete, pWrPacket, TRUE, TRUE,
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TRUE);
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//
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// Increment the pending write count
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//
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InterlockedIncrement(&PDevExt->PendingWriteCount);
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InterlockedIncrement(&PDevExt->PendingDataOutCount);
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//
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// Send IRP down
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//
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status = IoCallDriver(PDevExt->StackDeviceObject, PIrp);
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#if 0
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// this is done in the completion routine, so we don't need to do it here
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if (!NT_SUCCESS(status)) {
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ULONG outCount;
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if (InterlockedDecrement(&PDevExt->PendingWriteCount) == 0) {
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UsbSerProcessEmptyTransmit(PDevExt);
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}
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outCount = InterlockedDecrement(&PDevExt->PendingDataOutCount);
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if ((outCount == 0) || (outCount == 1)) {
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KeSetEvent(&PDevExt->PendingFlushEvent, IO_NO_INCREMENT, FALSE);
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if (outCount == 0) {
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KeSetEvent(&PDevExt->PendingDataOutEvent, IO_NO_INCREMENT, FALSE);
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}
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}
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}
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#endif
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UsbSerSerialDump(USBSERTRACEWR, ("<UsbSerGiveWriteToUsb %08X\n", status));
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return status;
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}
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VOID
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UsbSerWriteTimeout(IN PKDPC PDpc, IN PVOID DeferredContext,
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IN PVOID SystemContext1, IN PVOID SystemContext2)
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/*++
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Routine Description:
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This function is called when the write timeout timer expires.
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Arguments:
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PDpc - Unused
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DeferredContext - Actually the write packet
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SystemContext1 - Unused
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SystemContext2 - Unused
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Return Value:
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VOID
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--*/
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{
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PUSBSER_WRITE_PACKET pPacket = (PUSBSER_WRITE_PACKET)DeferredContext;
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UNREFERENCED_PARAMETER(PDpc);
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UNREFERENCED_PARAMETER(SystemContext1);
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UNREFERENCED_PARAMETER(SystemContext2);
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UsbSerSerialDump(USBSERTRACETM, (">UsbSerWriteTimeout\n"));
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if (IoCancelIrp(pPacket->Irp)) {
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pPacket->Status = STATUS_TIMEOUT;
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}
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UsbSerSerialDump(USBSERTRACETM, ("<UsbSerWriteTimeout\n"));
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}
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