Leaked source code of windows server 2003
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12 KiB

/*++
Copyright (c) 1989 Microsoft Corporation
Module Name:
mrcf.c
Abstract:
This module implements the Mrcf compression engine.
Author:
Gary Kimura [GaryKi] 21-Jan-1994
Revision History:
--*/
#include "ntrtlp.h"
#include <stdio.h>
//
// To decompress/compress a block of data the user needs to
// provide a work space as an extra parameter to all the exported
// procedures. That way the routines will not need to use excessive
// stack space and will still be multithread safe
//
//
// Variables for reading and writing bits
//
typedef struct _MRCF_BIT_IO {
USHORT abitsBB; // 16-bit buffer being read
LONG cbitsBB; // Number of bits left in abitsBB
PUCHAR pbBB; // Pointer to byte stream being read
ULONG cbBB; // Number of bytes left in pbBB
ULONG cbBBInitial; // Initial size of pbBB
} MRCF_BIT_IO;
typedef MRCF_BIT_IO *PMRCF_BIT_IO;
//
// Maximum back-pointer value, also used to indicate end of compressed stream!
//
#define wBACKPOINTERMAX (4415)
//
// MDSIGNATURE - Signature at start of each compressed block
//
// This 4-byte signature is used as a check to ensure that we
// are decompressing data we compressed, and also to indicate
// which compression method was used.
//
// NOTE: A compressed block consists of one or more "chunks", separated
// by the bitsEND_OF_STREAM pattern.
//
// Byte Word
// ----------- ---------
// 0 1 2 3 0 1 Meaning
// -- -- -- -- ---- ---- ----------------
// 44 53 00 01 5344 0100 MaxCompression
// 44 53 00 02 5344 0200 StandardCompression
//
// NOTE: The *WORD* values are listed to be clear about the
// byte ordering!
//
typedef struct _MDSIGNATURE {
//
// Must be MD_STAMP
//
USHORT sigStamp;
//
// mdsSTANDARD or mdsMAX
//
USHORT sigType;
} MDSIGNATURE;
typedef MDSIGNATURE *PMDSIGNATURE;
#define MD_STAMP 0x5344 // Signature stamp at start of compressed blk
#define MASK_VALID_mds 0x0300 // All other bits must be zero
//
// Local procedure declarations and macros
//
#define minimum(a,b) (a < b ? a : b)
//
// Local procedure prototypes
//
VOID
MrcfSetBitBuffer (
PUCHAR pb,
ULONG cb,
PMRCF_BIT_IO BitIo
);
VOID
MrcfFillBitBuffer (
PMRCF_BIT_IO BitIo
);
USHORT
MrcfReadBit (
PMRCF_BIT_IO BitIo
);
USHORT
MrcfReadNBits (
LONG cbits,
PMRCF_BIT_IO BitIo
);
NTSTATUS
RtlDecompressBufferMrcf (
OUT PUCHAR UncompressedBuffer,
IN ULONG UncompressedBufferSize,
IN PUCHAR CompressedBuffer,
IN ULONG CompressedBufferSize,
OUT PULONG FinalUncompressedSize
)
/*++
Routine Description:
This routine decompresses a buffer of StandardCompressed or MaxCompressed
data.
Arguments:
UncompressedBuffer - buffer to receive uncompressed data
UncompressedBufferSize - length of UncompressedBuffer
NOTE: UncompressedBufferSize must be the EXACT length of the uncompressed
data, as Decompress uses this information to detect
when decompression is complete. If this value is
incorrect, Decompress may crash!
CompressedBuffer - buffer containing compressed data
CompressedBufferSize - length of CompressedBuffer
WorkSpace - pointer to a private work area for use by this operation
Return Value:
ULONG - Returns the size of the decompressed data in bytes. Returns 0 if
there was an error in the decompress.
--*/
{
MRCF_BIT_IO WorkSpace;
ULONG cbMatch; // Length of match string
ULONG i; // Index in UncompressedBuffer to receive decoded data
ULONG iMatch; // Index in UncompressedBuffer of matched string
ULONG k; // Number of bits in length string
ULONG off; // Offset from i in UncompressedBuffer of match string
USHORT x; // Current bit being examined
ULONG y;
//
// verify that compressed data starts with proper signature
//
if (CompressedBufferSize < sizeof(MDSIGNATURE) || // Must have signature
((PMDSIGNATURE)CompressedBuffer)->sigStamp != MD_STAMP || // Stamp must be OK
((PMDSIGNATURE)CompressedBuffer)->sigType & (~MASK_VALID_mds)) { // Type must be OK
*FinalUncompressedSize = 0;
return STATUS_BAD_COMPRESSION_BUFFER;
}
//
// Skip over the valid signature
//
CompressedBufferSize -= sizeof(MDSIGNATURE);
CompressedBuffer += sizeof(MDSIGNATURE);
//
// Set up for decompress, start filling UncompressedBuffer at front
//
i = 0;
//
// Set statics to save parm passing
//
MrcfSetBitBuffer(CompressedBuffer,CompressedBufferSize,&WorkSpace);
while (TRUE) {
y = MrcfReadNBits(2,&WorkSpace);
//
// Check if next 7 bits are a byte
// 1 if 128..255 (0x80..0xff), 2 if 0..127 (0x00..0x7f)
//
if (y == 1 || y == 2) {
ASSERTMSG("Don't exceed expected length ", i<UncompressedBufferSize);
UncompressedBuffer[i] = (UCHAR)((y == 1 ? 0x80 : 0) | MrcfReadNBits(7,&WorkSpace));
i++;
} else {
//
// Have match sequence
//
//
// Get the offset
//
if (y == 0) {
//
// next 6 bits are offset
//
off = MrcfReadNBits(6,&WorkSpace);
ASSERTMSG("offset 0 is invalid ", off != 0);
} else {
x = MrcfReadBit(&WorkSpace);
if (x == 0) {
//
// next 8 bits are offset-64 (0x40)
//
off = MrcfReadNBits(8, &WorkSpace) + 64;
} else {
//
// next 12 bits are offset-320 (0x140)
//
off = MrcfReadNBits(12, &WorkSpace) + 320;
if (off == wBACKPOINTERMAX) {
//
// EOS marker
//
if (i >= UncompressedBufferSize) {
//
// Done with entire buffer
//
*FinalUncompressedSize = i;
return STATUS_SUCCESS;
} else {
//
// More to do
// Done with a 512-byte chunk
//
continue;
}
}
}
}
ASSERTMSG("Don't exceed expected length ", i<UncompressedBufferSize);
ASSERTMSG("Cannot match before start of uncoded buffer! ", off <= i);
//
// Get the length - logarithmically encoded
//
for (k=0; (x=MrcfReadBit(&WorkSpace)) == 0; k++) { NOTHING; }
ASSERT(k <= 8);
if (k == 0) {
//
// All matches at least 2 chars long
//
cbMatch = 2;
} else {
cbMatch = (1 << k) + 1 + MrcfReadNBits(k, &WorkSpace);
}
ASSERTMSG("Don't exceed buffer size ", (i - off + cbMatch - 1) <= UncompressedBufferSize);
//
// Copy the matched string
//
iMatch = i - off;
while ( (cbMatch > 0) && (i<UncompressedBufferSize) ) {
UncompressedBuffer[i++] = UncompressedBuffer[iMatch++];
cbMatch--;
}
ASSERTMSG("Should have copied it all ", cbMatch == 0);
}
}
}
//
// Internal Support Routine
//
VOID
MrcfSetBitBuffer (
PUCHAR pb,
ULONG cb,
PMRCF_BIT_IO BitIo
)
/*++
Routine Description:
Set statics with coded buffer pointer and length
Arguments:
pb - pointer to compressed data buffer
cb - length of compressed data buffer
BitIo - Supplies a pointer to the bit buffer statics
Return Value:
None.
--*/
{
BitIo->pbBB = pb;
BitIo->cbBB = cb;
BitIo->cbBBInitial = cb;
BitIo->cbitsBB = 0;
BitIo->abitsBB = 0;
}
//
// Internal Support Routine
//
USHORT
MrcfReadBit (
PMRCF_BIT_IO BitIo
)
/*++
Routine Description:
Get next bit from bit buffer
Arguments:
BitIo - Supplies a pointer to the bit buffer statics
Return Value:
USHORT - Returns next bit (0 or 1)
--*/
{
USHORT bit;
//
// Check if no bits available
//
if ((BitIo->cbitsBB) == 0) {
MrcfFillBitBuffer(BitIo);
}
//
// Decrement the bit count
// get the bit, remove it, and return the bit
//
(BitIo->cbitsBB)--;
bit = (BitIo->abitsBB) & 1;
(BitIo->abitsBB) >>= 1;
return bit;
}
//
// Internal Support Routine
//
USHORT
MrcfReadNBits (
LONG cbits,
PMRCF_BIT_IO BitIo
)
/*++
Routine Description:
Get next N bits from bit buffer
Arguments:
cbits - count of bits to get
BitIo - Supplies a pointer to the bit buffer statics
Return Value:
USHORT - Returns next cbits bits.
--*/
{
ULONG abits; // Bits to return
LONG cbitsPart; // Partial count of bits
ULONG cshift; // Shift count
ULONG mask; // Mask
//
// Largest number of bits we should read at one time is 12 bits for
// a 12-bit offset. The largest length field component that we
// read is 8 bits. If this routine were used for some other purpose,
// it can support up to 15 (NOT 16) bit reads, due to how the masking
// code works.
//
ASSERT(cbits <= 12);
//
// No shift and no bits yet
//
cshift = 0;
abits = 0;
while (cbits > 0) {
//
// If not bits available get some bits
//
if ((BitIo->cbitsBB) == 0) {
MrcfFillBitBuffer(BitIo);
}
//
// Number of bits we can read
//
cbitsPart = minimum((BitIo->cbitsBB), cbits);
//
// Mask for bits we want, extract and store them
//
mask = (1 << cbitsPart) - 1;
abits |= ((BitIo->abitsBB) & mask) << cshift;
//
// Remember the next chunk of bits
//
cshift = cbitsPart;
//
// Update bit buffer, move remaining bits down and
// update count of bits left
//
(BitIo->abitsBB) >>= cbitsPart;
(BitIo->cbitsBB) -= cbitsPart;
//
// Update count of bits left to read
//
cbits -= cbitsPart;
}
//
// Return requested bits
//
return (USHORT)abits;
}
//
// Internal Support Routine
//
VOID
MrcfFillBitBuffer (
PMRCF_BIT_IO BitIo
)
/*++
Routine Description:
Fill abitsBB from static bit buffer
Arguments:
BitIo - Supplies a pointer to the bit buffer statics
Return Value:
None.
--*/
{
ASSERT((BitIo->cbitsBB) == 0);
switch (BitIo->cbBB) {
case 0:
ASSERTMSG("no bits left in coded buffer!", FALSE);
break;
case 1:
//
// Get last byte and adjust count
//
BitIo->cbitsBB = 8;
BitIo->abitsBB = *(BitIo->pbBB)++;
BitIo->cbBB--;
break;
default:
//
// Get word and adjust count
//
BitIo->cbitsBB = 16;
BitIo->abitsBB = *((USHORT *)(BitIo->pbBB))++;
BitIo->cbBB -= 2;
break;
}
}