Leaked source code of windows server 2003
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169 lines
4.6 KiB

/*
** lzexp.c - Routines used in Lempel-Ziv (from their 1977 article) expansion.
**
** Author: DavidDi
*/
// Headers
///////////
#ifndef LZA_DLL
#include <io.h>
#endif
#include "lz_common.h"
#include "lz_buffers.h"
#include "lz_header.h"
#include "lzcommon.h"
/*
** int LZDecode(int doshSource, int doshDest, long cblExpandedLength,
** BOOL bRestartDecoding, BOOL bFirstAlg);
**
** Expand input file to output file.
**
** Arguments: doshSource - DOS file handle of open input file
** doshDest - DOS file handle of open output file
** cblExpandedLength - amount of output file to expand
** bRestartDecoding - flag indicating whether or not to start
** decoding from scratch
** bFirstAlg - flag indicating whether to use ALG_FIRST
** or ALG_LZ
**
** Returns: int - TRUE if expansion was successful. One of the LZERROR_
** codes if the expansion failed.
**
** Globals:
**
** The number of bytes actually expanded will be >= cblExpandedLength. The
** number of bytes actually expanded may be calculated as
** (pbyteOutBuf - rgbyteOutBuf). The expansion will overrun the
** cblExpandedLength request by at most (cbMaxMatchLen - 1) bytes.
*/
INT LZDecode(
INT doshSource,
INT doshDest,
LONG cblExpandedLength,
BOOL bRestartDecoding,
BOOL bFirstAlg,
PLZINFO pLZI)
{
INT i,
cb, // number of bytes to unpack
f; // holds ReadByte() return values
INT oStart; // buffer offset for unpacking
BYTE byte1, byte2; // input byte holders
// !!! Assumes parm pLZI is always valid
#if 0
if (bFirstAlg == TRUE)
pLZI->cbMaxMatchLen = FIRST_MAX_MATCH_LEN;
else
pLZI->cbMaxMatchLen = LZ_MAX_MATCH_LEN;
#else
pLZI->cbMaxMatchLen = FIRST_MAX_MATCH_LEN;
#endif
// Start decoding from scratch?
if (bRestartDecoding == TRUE)
{
// Rewind the compressed input file to just after the compressed file
// header.
if (FSEEK(doshSource, (LONG)HEADER_LEN, SEEK_SET) != (LONG)HEADER_LEN) {
return(LZERROR_BADINHANDLE);
}
// Rewind output file.
if (doshDest != NO_DOSH &&
FSEEK(doshDest, 0L, SEEK_SET) != 0L) {
return(LZERROR_BADOUTHANDLE);
}
// Set up a fresh buffer state.
ResetBuffers();
// Initialize ring buffer.
for (i = 0; i < RING_BUF_LEN - pLZI->cbMaxMatchLen; i++)
pLZI->rgbyteRingBuf[i] = BUF_CLEAR_BYTE;
// Initialize decoding globals.
pLZI->uFlags = 0U;
pLZI->iCurRingBufPos = RING_BUF_LEN - pLZI->cbMaxMatchLen;
}
if ((f = ReadByte(byte1)) != TRUE && f != END_OF_INPUT) {
return(f);
}
// Decode one encoded unit at a time.
FOREVER
{
if (f == END_OF_INPUT) // EOF reached
break;
// Have we expanded enough data yet?
if (pLZI->cblOutSize > cblExpandedLength) // Might want to make this >=.
{
UnreadByte();
return(TRUE);
}
// High order byte counts the number of bits used in the low order
// byte.
if (((pLZI->uFlags >>= 1) & 0x100) == 0)
{
// Set bit mask describing the next 8 bytes.
pLZI->uFlags = ((DWORD)byte1) | 0xff00;
if ((f = ReadByte(byte1)) != TRUE) {
return(LZERROR_READ);
}
}
if (pLZI->uFlags & 1)
{
// Just store the literal byte in the buffer.
if ((f = WriteByte(byte1)) != TRUE) {
return(f);
}
pLZI->rgbyteRingBuf[pLZI->iCurRingBufPos++] = byte1;
pLZI->iCurRingBufPos &= RING_BUF_LEN - 1;
}
else
{
// Extract the offset and count to copy from the ring buffer.
if ((f = ReadByte(byte2)) != TRUE) {
return(LZERROR_READ);
}
cb = (INT)byte2;
oStart = (cb & 0xf0) << 4 | (INT)byte1;
cb = (cb & 0x0f) + MAX_LITERAL_LEN;
for (i = 0; i <= cb; i++)
{
byte1 = pLZI->rgbyteRingBuf[(oStart + i) & (RING_BUF_LEN - 1)];
if ((f = WriteByte(byte1)) != TRUE) {
return( f );
}
pLZI->rgbyteRingBuf[pLZI->iCurRingBufPos++] = byte1;
pLZI->iCurRingBufPos &= RING_BUF_LEN - 1;
}
}
if ((f = ReadByte(byte1)) != TRUE && f != END_OF_INPUT) {
return(f);
}
}
return(TRUE);
}