windows-nt/Source/XPSP1/NT/ds/security/csps/cryptoflex/slbzip/zip.cpp

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/* DEC/CMS REPLACEMENT HISTORY, Element ZIP.C */
/* *1 14-NOV-1996 10:27:08 ANIGBOGU "[113914]Compress data to zip format using the deflate algorithm" */
/* DEC/CMS REPLACEMENT HISTORY, Element ZIP.C */
/* PRIVATE FILE
******************************************************************************
**
** (c) Copyright Schlumberger Technology Corp., unpublished work, created 1996.
**
** This computer program includes Confidential, Proprietary Information and is
** a Trade Secret of Schlumberger Technology Corp. All use, disclosure, and/or
** reproduction is prohibited unless authorized in writing by Schlumberger.
** All Rights Reserved.
**
******************************************************************************
**
** compress/zip.c
**
** PURPOSE
**
** Compress data using the deflate algorithm
**
** SPECIAL REQUIREMENTS & NOTES
**
** AUTHOR
**
** J. C. Anigbogu
** Austin Systems Center
** Nov 1996
**
******************************************************************************
*/
#include <ctype.h>
#include <sys/types.h>
#include "comppriv.h"
CompressStatus_t Copy(CompParam_t *comp);
/* ===========================================================================
* Deflate in to out.
* IN assertions: the input and output buffers are cleared.
*/
CompressStatus_t
Zip(
int CompLevel, /* compression level */
CompParam_t *Comp
)
{
unsigned char Flags = 0; /* general purpose bit flags */
unsigned short DeflateFlags = 0; /* pkzip -es, -en or -ex equivalent */
long TimeStamp = 0; /* time_stamp */
LocalBits_t *Bits;
DeflateParam_t *Defl; /* window offset of current block */
LocalDef_t *Deflt;
int Method = CompLevel ? DEFLATED : STORED;
CompressStatus_t Status = COMPRESS_OK;
Comp->OutBytes = 0;
/* Write the header to the gzip buffer. See algorithm.doc for the format */
PutByte(GZIP_MAGIC[0], Comp); /* magic header */
PutByte(GZIP_MAGIC[1], Comp);
PutByte(Method, Comp); /* compression method */
PutByte(Flags, Comp); /* general flags */
PutLong(TimeStamp, Comp);
Comp->pCRC->Compute(NULL, 0);
Comp->HeaderBytes = Comp->OutBytes;
if (Method == STORED)
{
PutByte((unsigned char)0, Comp); /* extra flags */
PutByte(OS_CODE, Comp); /* OS identifier */
Status = Copy(Comp);
if (COMPRESS_OK != Status)
return Status;
}
else
{
Bits = (LocalBits_t *)CompressMalloc(sizeof(LocalBits_t), &Status);
if (Status != COMPRESS_OK)
return Status;
InitializeBits(Bits);
InitMatchBuffer();
Defl = (DeflateParam_t *)CompressMalloc(sizeof(DeflateParam_t), &Status);
if (Status != COMPRESS_OK)
{
CompressFree(Bits);
return Status;
}
Deflt = (LocalDef_t *)CompressMalloc(sizeof(LocalDef_t), &Status);
if (Status != COMPRESS_OK)
{
CompressFree(Bits);
CompressFree(Defl);
return Status;
}
if ((Status = InitLongestMatch(CompLevel, &DeflateFlags,
Defl, Deflt, Comp)) != COMPRESS_OK)
{
CompressFree(Bits);
CompressFree(Defl);
CompressFree(Deflt);
return Status;
}
PutByte((unsigned char)DeflateFlags, Comp); /* extra flags */
PutByte(OS_CODE, Comp); /* OS identifier */
(void)Deflate(CompLevel, Bits, Defl, Deflt, Comp);
CompressFree(Bits);
CompressFree(Defl);
CompressFree(Deflt);
PutLong((unsigned __int32)(*Comp->pCRC), Comp);
PutLong(Comp->BytesIn, Comp);
Comp->HeaderBytes += 2*sizeof(unsigned long);
Status = FlushOutputBuffer(Comp);
if (COMPRESS_OK != Status)
return Status;
}
/* Write the crc and uncompressed size */
return Status;
}
/* ===========================================================================
* Read new data from the current input buffer and
* update the crc and input data size.
* IN assertion: size >= 2 (for end-of-line translation)
*/
int
ReadBuffer(
char *Input,
unsigned int Size,
CompParam_t *Comp
)
{
unsigned long Length;
Assert(Comp->InputSize == 0, "input buffer not empty");
/* Read as much as possible */
Length = MIN(Comp->GlobalSize - Comp->BytesIn, (unsigned long)Size);
if (Length == 0)
return (int)Length;
memcpy((char *)Input, (char *)Comp->GlobalInput + Comp->BytesIn,
(int)Length);
Comp->pCRC->Compute((unsigned char *)Input, (unsigned int)Length);
Comp->BytesIn += Length;
return (int)Length;
}
/* ===========================================================================
* Read a new buffer from the current input.
*/
int
FillBuffer(
unsigned char *Input,
unsigned int Size,
CompParam_t *Comp
)
{
/* Point to the input buffer */
Comp->Input = Comp->InputBuffer;
Comp->GlobalInput = Input;
Comp->GlobalSize = Size;
Comp->WindowSize = (unsigned long) DWSIZE;
ClearBuffers(Comp); /* clear input and output buffers */
Comp->PtrOutput = NULL;
return (int)Size;
}
/* ===========================================================================
* Copy input to output unchanged
* IN assertion: comp->GlobalSize bytes have already been read in comp->GlobalInput.
*/
CompressStatus_t
Copy(
CompParam_t *Comp
)
{
CompressStatus_t Status = COMPRESS_OK;
Comp->pCRC->Compute(Comp->GlobalInput, (unsigned int)Comp->GlobalSize);
PutLong((unsigned __int32)(*Comp->pCRC), Comp);
PutLong(Comp->GlobalSize, Comp);
Status = FlushOutputBuffer(Comp);
if (COMPRESS_OK != Status)
return Status;
Status = WriteBuffer(Comp, Comp->GlobalInput,
(unsigned int)Comp->GlobalSize);
if (COMPRESS_OK != Status)
return Status;
Comp->BytesOut += Comp->GlobalSize;
return Status;
}