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/*
* shrink_streaming.c - streaming compression implementation
*
* Copyright (C) 2019 Emmanuel Marty
*
* This software is provided 'as-is', without any express or implied
* warranty. In no event will the authors be held liable for any damages
* arising from the use of this software.
*
* Permission is granted to anyone to use this software for any purpose,
* including commercial applications, and to alter it and redistribute it
* freely, subject to the following restrictions:
*
* 1. The origin of this software must not be misrepresented; you must not
* claim that you wrote the original software. If you use this software
* in a product, an acknowledgment in the product documentation would be
* appreciated but is not required.
* 2. Altered source versions must be plainly marked as such, and must not be
* misrepresented as being the original software.
* 3. This notice may not be removed or altered from any source distribution.
*/
/*
* Uses the libdivsufsort library Copyright (c) 2003-2008 Yuta Mori
*
* Inspired by LZ4 by Yann Collet. https://github.com/lz4/lz4
* With help, ideas, optimizations and speed measurements by spke <zxintrospec@gmail.com>
* With ideas from Lizard by Przemyslaw Skibinski and Yann Collet. https://github.com/inikep/lizard
* Also with ideas from smallz4 by Stephan Brumme. https://create.stephan-brumme.com/smallz4/
*
*/
#include <stdlib.h>
#include <string.h>
#include "shrink_streaming.h"
#include "format.h"
#include "frame.h"
#include "lib.h"
#ifdef _WIN32
#include <windows.h>
#else
#include <stdio.h>
#endif
/**
* Delete file
*
* @param pszInFilename name of file to delete
*/
static void lzsa_delete_file(const char *pszInFilename) {
#ifdef _WIN32
DeleteFileA(pszInFilename);
#else
remove(pszInFilename);
#endif
}
/*-------------- File API -------------- */
/**
* Compress file
*
* @param pszInFilename name of input(source) file to compress
* @param pszOutFilename name of output(compressed) file to generate
* @param pszDictionaryFilename name of dictionary file, or NULL for none
* @param nFlags compression flags (LZSA_FLAG_xxx)
* @param nMinMatchSize minimum match size
* @param nFormatVersion version of format to use (1-2)
* @param progress progress function, called after compressing each block, or NULL for none
* @param pOriginalSize pointer to returned input(source) size, updated when this function is successful
* @param pCompressedSize pointer to returned output(compressed) size, updated when this function is successful
* @param pCommandCount pointer to returned token(compression commands) count, updated when this function is successful
* @param pSafeDist pointer to return safe distance for raw blocks, updated when this function is successful
* @param pStats pointer to compression stats that are filled if this function is successful, or NULL
*
* @return LZSA_OK for success, or an error value from lzsa_status_t
*/
lzsa_status_t lzsa_compress_file(const char *pszInFilename, const char *pszOutFilename, const char *pszDictionaryFilename, const unsigned int nFlags, const int nMinMatchSize, const int nFormatVersion,
void(*progress)(long long nOriginalSize, long long nCompressedSize), long long *pOriginalSize, long long *pCompressedSize, int *pCommandCount, int *pSafeDist, lzsa_stats *pStats) {
lzsa_stream_t inStream, outStream;
void *pDictionaryData = NULL;
int nDictionaryDataSize = 0;
lzsa_status_t nStatus;
if (lzsa_filestream_open(&inStream, pszInFilename, "rb") < 0) {
return LZSA_ERROR_SRC;
}
if (lzsa_filestream_open(&outStream, pszOutFilename, "wb") < 0) {
inStream.close(&inStream);
return LZSA_ERROR_DST;
}
nStatus = lzsa_dictionary_load(pszDictionaryFilename, &pDictionaryData, &nDictionaryDataSize);
if (nStatus) {
outStream.close(&outStream);
inStream.close(&inStream);
lzsa_delete_file(pszOutFilename);
return nStatus;
}
nStatus = lzsa_compress_stream(&inStream, &outStream, pDictionaryData, nDictionaryDataSize, nFlags, nMinMatchSize, nFormatVersion, progress, pOriginalSize, pCompressedSize, pCommandCount, pSafeDist, pStats);
lzsa_dictionary_free(&pDictionaryData);
outStream.close(&outStream);
inStream.close(&inStream);
if (nStatus) {
lzsa_delete_file(pszOutFilename);
}
return nStatus;
}
/*-------------- Streaming API -------------- */
/**
* Compress stream
*
* @param pInStream input(source) stream to compress
* @param pOutStream output(compressed) stream to write to
* @param pDictionaryData dictionary contents, or NULL for none
* @param nDictionaryDataSize size of dictionary contents, or 0
* @param nFlags compression flags (LZSA_FLAG_xxx)
* @param nMinMatchSize minimum match size
* @param nFormatVersion version of format to use (1-2)
* @param progress progress function, called after compressing each block, or NULL for none
* @param pOriginalSize pointer to returned input(source) size, updated when this function is successful
* @param pCompressedSize pointer to returned output(compressed) size, updated when this function is successful
* @param pCommandCount pointer to returned token(compression commands) count, updated when this function is successful
* @param pSafeDist pointer to return safe distance for raw blocks, updated when this function is successful
* @param pStats pointer to compression stats that are filled if this function is successful, or NULL
*
* @return LZSA_OK for success, or an error value from lzsa_status_t
*/
lzsa_status_t lzsa_compress_stream(lzsa_stream_t *pInStream, lzsa_stream_t *pOutStream, const void *pDictionaryData, int nDictionaryDataSize,
const unsigned int nFlags, const int nMinMatchSize, const int nFormatVersion,
void(*progress)(long long nOriginalSize, long long nCompressedSize), long long *pOriginalSize, long long *pCompressedSize, int *pCommandCount, int *pSafeDist, lzsa_stats *pStats) {
unsigned char *pInData, *pOutData;
lzsa_compressor compressor;
long long nOriginalSize = 0LL, nCompressedSize = 0LL;
int nResult;
unsigned char cFrameData[16];
int nError = 0;
int nRawPadding = (nFlags & LZSA_FLAG_RAW_BLOCK) ? 8 : 0;
pInData = (unsigned char*)malloc(BLOCK_SIZE * 2);
if (!pInData) {
return LZSA_ERROR_MEMORY;
}
memset(pInData, 0, BLOCK_SIZE * 2);
pOutData = (unsigned char*)malloc(BLOCK_SIZE);
if (!pOutData) {
free(pInData);
pInData = NULL;
return LZSA_ERROR_MEMORY;
}
memset(pOutData, 0, BLOCK_SIZE);
nResult = lzsa_compressor_init(&compressor, BLOCK_SIZE * 2, nMinMatchSize, nFormatVersion, nFlags);
if (nResult != 0) {
free(pOutData);
pOutData = NULL;
free(pInData);
pInData = NULL;
return LZSA_ERROR_MEMORY;
}
if ((nFlags & LZSA_FLAG_RAW_BLOCK) == 0) {
int nHeaderSize = lzsa_encode_header(cFrameData, 16, nFormatVersion);
if (nHeaderSize < 0)
nError = LZSA_ERROR_COMPRESSION;
else {
if (pOutStream->write(pOutStream, cFrameData, nHeaderSize) != nHeaderSize)
nError = LZSA_ERROR_DST;
nCompressedSize += (long long)nHeaderSize;
}
}
int nPreviousBlockSize = 0;
int nNumBlocks = 0;
while (!pInStream->eof(pInStream) && !nError) {
int nInDataSize;
if (nPreviousBlockSize) {
memcpy(pInData + BLOCK_SIZE - nPreviousBlockSize, pInData + BLOCK_SIZE, nPreviousBlockSize);
}
else if (nDictionaryDataSize && pDictionaryData) {
nPreviousBlockSize = nDictionaryDataSize;
memcpy(pInData + BLOCK_SIZE - nPreviousBlockSize, pDictionaryData, nPreviousBlockSize);
}
nInDataSize = (int)pInStream->read(pInStream, pInData + BLOCK_SIZE, BLOCK_SIZE);
if (nInDataSize > 0) {
if ((nFlags & LZSA_FLAG_RAW_BLOCK) != 0 && nNumBlocks) {
nError = LZSA_ERROR_RAW_TOOLARGE;
break;
}
nDictionaryDataSize = 0;
int nOutDataSize;
nOutDataSize = lzsa_compressor_shrink_block(&compressor, pInData + BLOCK_SIZE - nPreviousBlockSize, nPreviousBlockSize, nInDataSize, pOutData, ((nInDataSize + nRawPadding) >= BLOCK_SIZE) ? BLOCK_SIZE : (nInDataSize + nRawPadding));
if (nOutDataSize >= 0) {
/* Write compressed block */
if ((nFlags & LZSA_FLAG_RAW_BLOCK) == 0) {
int nBlockheaderSize = lzsa_encode_compressed_block_frame(cFrameData, 16, nOutDataSize);
if (nBlockheaderSize < 0)
nError = LZSA_ERROR_COMPRESSION;
else {
nCompressedSize += (long long)nBlockheaderSize;
if (pOutStream->write(pOutStream, cFrameData, nBlockheaderSize) != (size_t)nBlockheaderSize) {
nError = LZSA_ERROR_DST;
}
}
}
if (!nError) {
if (pOutStream->write(pOutStream, pOutData, (size_t)nOutDataSize) != (size_t)nOutDataSize) {
nError = LZSA_ERROR_DST;
}
else {
nOriginalSize += (long long)nInDataSize;
nCompressedSize += (long long)nOutDataSize;
}
}
}
else {
/* Write uncompressible, literal block */
if ((nFlags & LZSA_FLAG_RAW_BLOCK) != 0) {
nError = LZSA_ERROR_RAW_UNCOMPRESSED;
break;
}
int nBlockheaderSize = lzsa_encode_uncompressed_block_frame(cFrameData, 16, nInDataSize);
if (nBlockheaderSize < 0)
nError = LZSA_ERROR_COMPRESSION;
else {
if (pOutStream->write(pOutStream, cFrameData, nBlockheaderSize) != (size_t)nBlockheaderSize) {
nError = LZSA_ERROR_DST;
}
else {
if (pOutStream->write(pOutStream, pInData + BLOCK_SIZE, (size_t)nInDataSize) != (size_t)nInDataSize) {
nError = LZSA_ERROR_DST;
}
else {
nOriginalSize += (long long)nInDataSize;
nCompressedSize += (long long)nBlockheaderSize + (long long)nInDataSize;
}
}
}
}
nPreviousBlockSize = nInDataSize;
nNumBlocks++;
}
if (!nError && !pInStream->eof(pInStream)) {
if (progress)
progress(nOriginalSize, nCompressedSize);
}
}
if (!nError) {
int nFooterSize;
if ((nFlags & LZSA_FLAG_RAW_BLOCK) != 0) {
nFooterSize = 0;
}
else {
nFooterSize = lzsa_encode_footer_frame(cFrameData, 16);
if (nFooterSize < 0)
nError = LZSA_ERROR_COMPRESSION;
}
if (pOutStream->write(pOutStream, cFrameData, nFooterSize) != nFooterSize)
nError = LZSA_ERROR_DST;
nCompressedSize += (long long)nFooterSize;
}
if (progress)
progress(nOriginalSize, nCompressedSize);
int nCommandCount = lzsa_compressor_get_command_count(&compressor);
int nSafeDist = compressor.safe_dist;
if (pStats)
*pStats = compressor.stats;
lzsa_compressor_destroy(&compressor);
free(pOutData);
pOutData = NULL;
free(pInData);
pInData = NULL;
if (nError) {
return nError;
}
else {
if (pOriginalSize)
*pOriginalSize = nOriginalSize;
if (pCompressedSize)
*pCompressedSize = nCompressedSize;
if (pCommandCount)
*pCommandCount = nCommandCount;
if (pSafeDist)
*pSafeDist = nSafeDist;
return LZSA_OK;
}
}
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