Source code of Windows XP (NT5)
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/*****************************************************************************
*
* Copyright (c) 1996-1999 Microsoft Corporation
*
* @doc
* @module convert.c | IrSIR NDIS Miniport Driver
* @comm
*
*-----------------------------------------------------------------------------
*
* Author: Scott Holden (sholden)
*
* Date: 10/4/1996 (created)
*
* Contents: Conversion routine from an ndis packet to an ir packet.
*
*
*****************************************************************************/
#include "irsir.h"
extern const USHORT fcsTable[];
ULONG __inline EscapeSlowIrData(PUCHAR Dest, UCHAR SourceByte)
{
switch (SourceByte){
case SLOW_IR_BOF:
case SLOW_IR_EOF:
case SLOW_IR_ESC:
Dest[0] = SLOW_IR_ESC;
Dest[1] = SourceByte ^ SLOW_IR_ESC_COMP;
return 2;
default:
Dest[0] = SourceByte;
return 1;
}
}
/*****************************************************************************
*
* Function: NdisToIrPacket
*
* Synopsis: convert an NDIS packet to an IR packet
*
* Write the IR packet into the provided buffer and report
* its actual size.
*
* Arguments: pThisDev
* pPacket
* irPacketBuf
* irPacketBufLen
* irPacketLen
*
* Returns: TRUE - on success
* FALSE - on failure
*
* Algorithm:
*
* History: dd-mm-yyyy Author Comment
* 10/4/1996 sholden author
*
* Notes:
*
* If failing, *irPacketLen will contain the buffer size that
* the caller should retry with (or 0 if a corruption was detected).
*
*****************************************************************************/
BOOLEAN
NdisToIrPacket(
PIR_DEVICE pThisDev,
PNDIS_PACKET pPacket,
UCHAR *irPacketBuf,
UINT irPacketBufLen,
UINT *irPacketLen
)
{
UINT i;
UINT ndisPacketBytes;
UINT I_fieldBytes;
UINT totalBytes;
UINT ndisPacketLen;
UINT numExtraBOFs;
UINT bufLen;
SLOW_IR_FCS_TYPE fcs;
SLOW_IR_FCS_TYPE tmpfcs;
UCHAR *bufData;
UCHAR nextChar;
PNDIS_BUFFER ndisBuf;
PNDIS_IRDA_PACKET_INFO packetInfo;
DEBUGMSG(DBG_FUNC, ("+NdisToIrPacket\n"));
//
// Initialize locals.
//
ndisPacketBytes = 0;
I_fieldBytes = 0;
totalBytes = 0;
packetInfo = GetPacketInfo(pPacket);
//
// Get the packet's entire length and its first NDIS buffer.
//
NdisQueryPacket(pPacket, NULL, NULL, &ndisBuf, &ndisPacketLen);
//
// Make sure that the packet is big enough to be legal.
// It consists of an A, C, and variable-length I field.
//
if (ndisPacketLen < SLOW_IR_ADDR_SIZE + SLOW_IR_CONTROL_SIZE)
{
DEBUGMSG(DBG_ERR, (" Packet too short in NdisToIrPacket (%d bytes)\n",
ndisPacketLen));
return FALSE;
}
else
{
I_fieldBytes = ndisPacketLen - SLOW_IR_ADDR_SIZE - SLOW_IR_CONTROL_SIZE;
}
//
// Make sure that we won't overwrite our contiguous buffer.
// Make sure that the passed-in buffer can accomodate this packet's
// data no matter how much it grows through adding ESC-sequences, etc.
//
if ((ndisPacketLen > MAX_IRDA_DATA_SIZE) ||
(MAX_POSSIBLE_IR_PACKET_SIZE_FOR_DATA(I_fieldBytes) > irPacketBufLen))
{
//
// The packet is too large
// Tell the caller to retry with a packet size large
// enough to get past this stage next time.
//
DEBUGMSG(DBG_ERR, ("Packet too large in NdisToIrPacket (%d=%xh bytes), \n"
"MAX_IRDA_DATA_SIZE=%d, irPacketBufLen=%d.",
ndisPacketLen, ndisPacketLen, MAX_IRDA_DATA_SIZE, irPacketBufLen));
*irPacketLen = ndisPacketLen;
return FALSE;
}
if (!ndisBuf)
{
DEBUGMSG(DBG_ERR, ("No NDIS_BUFFER in NdisToIrPacket"));
*irPacketLen = 0;
return FALSE;
}
NdisQueryBuffer(ndisBuf, (PVOID *)&bufData, &bufLen);
if (!bufData)
{
DEBUGMSG(DBG_ERR, ("No data in NDIS_BUFFER in NdisToIrPacket"));
*irPacketLen = 0;
return FALSE;
}
fcs = 0xffff;
// Calculate FCS and write the new buffer in ONE PASS.
//
// Now begin building the IR frame.
//
// This is the final format:
//
// BOF (1)
// extra BOFs ...
// NdisMediumIrda packet (what we get from NDIS):
// Address (1)
// Control (1)
// FCS (2)
// EOF (1)
//
// Prepend BOFs (extra BOFs + 1 actual BOF)
//
numExtraBOFs = packetInfo->ExtraBOFs;
if (numExtraBOFs > MAX_NUM_EXTRA_BOFS)
{
numExtraBOFs = MAX_NUM_EXTRA_BOFS;
}
if (pThisDev->fRequireMinTurnAround &&
packetInfo->MinTurnAroundTime>0)
{
//
// A MinTurnAroundTime delay is required, to be implemented
// by inserting extra BOF characters.
//
// TurnaroundBOFS = (BitsPerSec/BitsPerChar) * (uSecDelay/uSecPerSecond)
// 10 1000000
//
ASSERT(pThisDev->currentSpeed<=MAX_SPEED_SUPPORTED);
ASSERT(packetInfo->MinTurnAroundTime<=MAX_TURNAROUND_usec);
//
// The following operation won't overflow 32 bit operators so long
// as currentSpeed<=115200 and MinTurnAroundTime<=10000
//
numExtraBOFs += (pThisDev->currentSpeed * packetInfo->MinTurnAroundTime)
/ (BITS_PER_CHAR*usec_PER_SEC);
//
// Don't need minimum turn around time until our next receive.
//
pThisDev->fRequireMinTurnAround = FALSE;
}
RtlFillMemory(irPacketBuf, numExtraBOFs+1, SLOW_IR_BOF);
totalBytes = numExtraBOFs + 1;
for (i=0; i<ndisPacketLen; i++)
{
ASSERT(bufData);
nextChar = *bufData++;
fcs = (fcs >> 8) ^ fcsTable[(fcs ^ nextChar) & 0xff];
totalBytes += EscapeSlowIrData(&irPacketBuf[totalBytes], nextChar);
if (--bufLen==0)
{
NdisGetNextBuffer(ndisBuf, &ndisBuf);
if (ndisBuf)
{
NdisQueryBuffer(ndisBuf, (PVOID *)&bufData, &bufLen);
}
else
{
bufData = NULL;
}
}
}
if (bufData!=NULL)
{
/*
* Packet was corrupt -- it misreported its size.
*/
DEBUGMSG(DBG_ERR, ("Packet corrupt in NdisToIrPacket (buffer lengths don't add up to packet length)."));
*irPacketLen = 0;
return FALSE;
}
fcs = ~fcs;
// Now we escape the fcs onto the end.
totalBytes += EscapeSlowIrData(&irPacketBuf[totalBytes], (UCHAR)(fcs&0xff));
totalBytes += EscapeSlowIrData(&irPacketBuf[totalBytes], (UCHAR)(fcs>>8));
// EOF
irPacketBuf[totalBytes++] = SLOW_IR_EOF;
*irPacketLen = totalBytes;
DEBUGMSG(DBG_FUNC, ("-NdisToIrPacket converted %d-byte ndis pkt to %d-byte irda pkt:\n", ndisPacketLen, *irPacketLen));
return TRUE;
}