Leaked source code of windows server 2003
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315 lines
7.8 KiB

/*++
Copyright (c) 1992 Microsoft Corporation
Module Name:
slipread.c
Abstract:
Author:
Thomas J. Dimitri (TommyD) 08-May-1992
Environment:
Kernel Mode - Or whatever is the equivalent on OS/2 and DOS.
Revision History:
--*/
#if DBG
#define __FILE_SIG__ 'pliS'
#endif
#include "asyncall.h"
NTSTATUS
AsyncWaitMaskCompletionRoutine(
IN PDEVICE_OBJECT DeviceObject,
IN PIRP Irp,
IN PVOID Context);
NTSTATUS
AsyncPPPWaitMask(
IN PASYNC_INFO Info);
NTSTATUS
AsyncSLIPCompletionRoutine(
IN PDEVICE_OBJECT DeviceObject,
IN PIRP Irp,
IN PVOID Context)
/*++
This is the IO Completion routine for ReadFrame.
--*/
{
NTSTATUS status;
PASYNC_INFO pInfo;
ULONG bytesReceived;
PASYNC_FRAME pFrame;
PUCHAR frameStart, frameEnd;
PUCHAR frameEnd2,frameStart2;
LONG bytesWanted; // keep this a long ( < 0 is used)
DeviceObject; // prevent compiler warnings
status = Irp->IoStatus.Status;
bytesReceived=(ULONG)Irp->IoStatus.Information;
IoFreeIrp(Irp);
pInfo=Context;
pFrame=pInfo->AsyncFrame;
switch (status) {
case STATUS_SUCCESS:
//
// Any bytes to process? This can happen if
// the WaitMask completes late and by the time
// we process the read, another event character has come
// in.
//
if (bytesReceived==0) {
break;
}
//
// Update num of bytes read total for this frame
//
pInfo->BytesRead = bytesReceived = pInfo->BytesRead + bytesReceived;
//
// Set frameEnd to last byte processed. Initially,
// we have processed nothing (i.e. processed up to
// the start of the first byte).
//
frameStart=pFrame->Frame + PPP_PADDING;
PROCESS_FRAME:
//
// Now we have actuallyRead bytes unused
// Also, we may have a complete frame.
//
while (*frameStart == SLIP_END_BYTE && --bytesReceived) {
frameStart++;
}
//
// If we reach here, there is no end FLAG
//
if (bytesReceived == 0) {
break;
}
//
// frameEnd is set to the first byte not yet processed.
// If we are starting out, that is the first byte!
//
frameEnd=frameStart;
//
// Assume the start of the frame has the SLIP_END_BYTE
// Look for the second SLIP_END_BYTE (end of frame)
//
while (*frameEnd != SLIP_END_BYTE && --bytesReceived) {
frameEnd++;
}
//
// if bytesReceived is 0, we got nothing
//
// NOTE: if BytesRead gets too high we trash the frame
// because we could not find the FLAG_BYTE
//
if (bytesReceived==0) {
break;
}
if (*(pFrame->Frame+PPP_PADDING) != SLIP_END_BYTE) {
//
// We had garbage at the start. Remove the garbage.
//
pInfo->SerialStats.AlignmentErrors++;
//
// Tell the transport above us that we dropped a packet
// Hopefully, it will quickly resync.
//
AsyncIndicateFragment(
pInfo,
WAN_ERROR_ALIGNMENT);
goto NEXT_SLIP_FRAME;
}
//
// Length of frame is frameEnd - frameStart
//
bytesWanted = (LONG)(frameEnd - frameStart);
frameEnd2 = frameStart2 = frameStart;
//
// Replace back all control chars, ESC, and FLAG chars
//
while (bytesWanted-- > 0) {
if ((*frameEnd2=*frameStart2++) == SLIP_ESC_BYTE) {
//
// We have not run the CRC check yet!!
// We have be careful about sending bytesWanted
// back to -1 on corrupted data
//
bytesWanted--;
*frameEnd2 = SLIP_END_BYTE;
if (*frameStart2++ == SLIP_ESC_ESC_BYTE) {
*frameEnd2 = SLIP_ESC_BYTE;
}
}
frameEnd2++;
}
//
// Change the bytesWanted field to what it normally is,
// the length of the frame.
//
bytesWanted = (LONG)(frameEnd2 - frameStart);
// Keep those stats up to date
{
KIRQL irql;
NTSTATUS Status;
PASYNC_ADAPTER Adapter = pInfo->Adapter;
KeRaiseIrql( (KIRQL)DISPATCH_LEVEL, &irql );
//
// Compressed TCP/IP packets must at least 3 bytes long
//
if (bytesWanted >= 3) {
NdisMWanIndicateReceive(
&Status,
Adapter->MiniportHandle,
pInfo->NdisLinkContext,
frameStart,
bytesWanted);
NdisMWanIndicateReceiveComplete(
Adapter->MiniportHandle,
pInfo->NdisLinkContext);
} else {
pInfo->SerialStats.AlignmentErrors++;
//
// Tell the transport above us that we dropped a packet
// Hopefully, it will quickly resync.
//
AsyncIndicateFragment(
pInfo,
WAN_ERROR_ALIGNMENT);
DbgTracef(-2,("SLIP: Frame too small %u\n", bytesWanted));
}
KeLowerIrql( irql );
}
NEXT_SLIP_FRAME:
//
// if bytesReceived == 0 no frame was found
// thus we must keep the current frame and continue
// processing
//
if (bytesReceived) {
//
// Calculate how much of what we received
// just got passed up as a frame and move the
// rest to the beginning.
//
frameStart=pFrame->Frame + PPP_PADDING;
frameEnd2=frameStart + pInfo->BytesRead;
pInfo->BytesRead =
bytesReceived = (LONG)(frameEnd2-frameEnd);
ASYNC_MOVE_MEMORY(
frameStart, // dest
frameEnd, // src
bytesReceived); // length
//
// Need at least four bytes for a frame to exist
//
if (bytesReceived > 3) {
goto PROCESS_FRAME;
}
}
break;
case STATUS_CANCELLED:
// else this is an anomally!
DbgTracef(-2,("---ASYNC: Status cancelled on read for unknown reason!!\n"));
break;
case STATUS_PENDING:
DbgTracef(0,("---ASYNC: Status PENDING on read\n"));
break;
default:
DbgTracef(-2,("---ASYNC: Unknown status 0x%.8x on read",status));
break;
}
if(status == STATUS_SUCCESS)
{
AsyncPPPWaitMask(pInfo);
}
else if(pInfo->PortState == PORT_CLOSING ||
pInfo->PortState == PORT_CLOSED)
{
KeSetEvent(&pInfo->ClosingEvent,
1,
(BOOLEAN) FALSE);
}
//
// Here we are at the end of processing this IRP so we go
// ahead and post another read from the serial port.
//
pInfo->Flags &= ~(ASYNC_FLAG_SLIP_READ);
DEREF_ASYNCINFO(pInfo, Irp);
// We return STATUS_MORE_PROCESSING_REQUIRED so that the
// IoCompletionRoutine will stop working on the IRP.
return(STATUS_MORE_PROCESSING_REQUIRED);
}