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/*
  LZ4io.c - LZ4 File/Stream Interface
  Copyright (C) Yann Collet 2011-2017

  GPL v2 License

  This program is free software; you can redistribute it and/or modify
  it under the terms of the GNU General Public License as published by
  the Free Software Foundation; either version 2 of the License, or
  (at your option) any later version.

  This program is distributed in the hope that it will be useful,
  but WITHOUT ANY WARRANTY; without even the implied warranty of
  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
  GNU General Public License for more details.

  You should have received a copy of the GNU General Public License along
  with this program; if not, write to the Free Software Foundation, Inc.,
  51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.

  You can contact the author at :
  - LZ4 source repository : https://github.com/lz4/lz4
  - LZ4 public forum : https://groups.google.com/forum/#!forum/lz4c
*/
/*
  Note : this is stand-alone program.
  It is not part of LZ4 compression library, it is a user code of the LZ4 library.
  - The license of LZ4 library is BSD.
  - The license of xxHash library is BSD.
  - The license of this source file is GPLv2.
*/


/*-************************************
*  Compiler options
**************************************/
#ifdef _MSC_VER    /* Visual Studio */
#  pragma warning(disable : 4127)    /* disable: C4127: conditional expression is constant */
#endif
#if defined(__MINGW32__) && !defined(_POSIX_SOURCE)
#  define _POSIX_SOURCE 1          /* disable %llu warnings with MinGW on Windows */
#endif


/*****************************
*  Includes
*****************************/
#include "platform.h"  /* Large File Support, SET_BINARY_MODE, SET_SPARSE_FILE_MODE, PLATFORM_POSIX_VERSION, __64BIT__ */
#include "util.h"      /* UTIL_getFileStat, UTIL_setFileStat */
#include <stdio.h>     /* fprintf, fopen, fread, stdin, stdout, fflush, getchar */
#include <stdlib.h>    /* malloc, free */
#include <string.h>    /* strerror, strcmp, strlen */
#include <time.h>      /* clock */
#include <sys/types.h> /* stat64 */
#include <sys/stat.h>  /* stat64 */
#include "lz4.h"       /* still required for legacy format */
#include "lz4hc.h"     /* still required for legacy format */
#define LZ4F_STATIC_LINKING_ONLY
#include "lz4frame.h"
#include "lz4io.h"


/*****************************
*  Constants
*****************************/
#define KB *(1 <<10)
#define MB *(1 <<20)
#define GB *(1U<<30)

#define _1BIT  0x01
#define _2BITS 0x03
#define _3BITS 0x07
#define _4BITS 0x0F
#define _8BITS 0xFF

#define MAGICNUMBER_SIZE    4
#define LZ4IO_MAGICNUMBER   0x184D2204
#define LZ4IO_SKIPPABLE0    0x184D2A50
#define LZ4IO_SKIPPABLEMASK 0xFFFFFFF0
#define LEGACY_MAGICNUMBER  0x184C2102

#define CACHELINE 64
#define LEGACY_BLOCKSIZE   (8 MB)
#define MIN_STREAM_BUFSIZE (192 KB)
#define LZ4IO_BLOCKSIZEID_DEFAULT 7
#define LZ4_MAX_DICT_SIZE (64 KB)


/**************************************
*  Macros
**************************************/
#define DISPLAY(...)         fprintf(stderr, __VA_ARGS__)
#define DISPLAYLEVEL(l, ...) if (g_displayLevel>=l) { DISPLAY(__VA_ARGS__); }
static int g_displayLevel = 0;   /* 0 : no display  ; 1: errors  ; 2 : + result + interaction + warnings ; 3 : + progression; 4 : + information */

#define DISPLAYUPDATE(l, ...) if (g_displayLevel>=l) { \
            if ( ((clock() - g_time) > refreshRate)    \
              || (g_displayLevel>=4) ) {               \
                g_time = clock();                      \
                DISPLAY(__VA_ARGS__);                  \
                if (g_displayLevel>=4) fflush(stderr); \
        }   }
static const clock_t refreshRate = CLOCKS_PER_SEC / 6;
static clock_t g_time = 0;


/**************************************
*  Local Parameters
**************************************/

struct LZ4IO_prefs_s {
  int passThrough;
  int overwrite;
  int testMode;
  int blockSizeId;
  size_t blockSize;
  int blockChecksum;
  int streamChecksum;
  int blockIndependence;
  int sparseFileSupport;
  int contentSizeFlag;
  int useDictionary;
  unsigned favorDecSpeed;
  const char* dictionaryFilename;
  int removeSrcFile;
};

/**************************************
*  Exceptions
***************************************/
#ifndef DEBUG
#  define DEBUG 0
#endif
#define DEBUGOUTPUT(...) if (DEBUG) DISPLAY(__VA_ARGS__);
#define EXM_THROW(error, ...)                                             \
{                                                                         \
    DEBUGOUTPUT("Error defined at %s, line %i : \n", __FILE__, __LINE__); \
    DISPLAYLEVEL(1, "Error %i : ", error);                                \
    DISPLAYLEVEL(1, __VA_ARGS__);                                         \
    DISPLAYLEVEL(1, " \n");                                               \
    exit(error);                                                          \
}


/**************************************
*  Version modifiers
**************************************/
#define EXTENDED_ARGUMENTS
#define EXTENDED_HELP
#define EXTENDED_FORMAT
#define DEFAULT_DECOMPRESSOR LZ4IO_decompressLZ4F


/* ************************************************** */
/* ****************** Parameters ******************** */
/* ************************************************** */

LZ4IO_prefs_t* LZ4IO_defaultPreferences(void)
{
  LZ4IO_prefs_t* const ret = (LZ4IO_prefs_t*)malloc(sizeof(LZ4IO_prefs_t));
  if (!ret) EXM_THROW(21, "Allocation error : not enough memory");
  ret->passThrough = 0;
  ret->overwrite = 1;
  ret->testMode = 0;
  ret->blockSizeId = LZ4IO_BLOCKSIZEID_DEFAULT;
  ret->blockSize = 0;
  ret->blockChecksum = 0;
  ret->streamChecksum = 1;
  ret->blockIndependence = 1;
  ret->sparseFileSupport = 1;
  ret->contentSizeFlag = 0;
  ret->useDictionary = 0;
  ret->favorDecSpeed = 0;
  ret->dictionaryFilename = NULL;
  ret->removeSrcFile = 0;
  return ret;
}

void LZ4IO_freePreferences(LZ4IO_prefs_t* const prefs)
{
  free(prefs);
}


int LZ4IO_setDictionaryFilename(LZ4IO_prefs_t* const prefs, const char* dictionaryFilename)
{
    prefs->dictionaryFilename = dictionaryFilename;
    prefs->useDictionary = dictionaryFilename != NULL;
    return prefs->useDictionary;
}

/* Default setting : passThrough = 0; return : passThrough mode (0/1) */
int LZ4IO_setPassThrough(LZ4IO_prefs_t* const prefs, int yes)
{
   prefs->passThrough = (yes!=0);
   return prefs->passThrough;
}


/* Default setting : overwrite = 1; return : overwrite mode (0/1) */
int LZ4IO_setOverwrite(LZ4IO_prefs_t* const prefs, int yes)
{
   prefs->overwrite = (yes!=0);
   return prefs->overwrite;
}

/* Default setting : testMode = 0; return : testMode (0/1) */
int LZ4IO_setTestMode(LZ4IO_prefs_t* const prefs, int yes)
{
   prefs->testMode = (yes!=0);
   return prefs->testMode;
}

/* blockSizeID : valid values : 4-5-6-7 */
size_t LZ4IO_setBlockSizeID(LZ4IO_prefs_t* const prefs, unsigned bsid)
{
    static const size_t blockSizeTable[] = { 64 KB, 256 KB, 1 MB, 4 MB };
    static const unsigned minBlockSizeID = 4;
    static const unsigned maxBlockSizeID = 7;
    if ((bsid < minBlockSizeID) || (bsid > maxBlockSizeID)) return 0;
    prefs->blockSizeId = bsid;
    prefs->blockSize = blockSizeTable[prefs->blockSizeId-minBlockSizeID];
    return prefs->blockSize;
}

size_t LZ4IO_setBlockSize(LZ4IO_prefs_t* const prefs, size_t blockSize)
{
    static const size_t minBlockSize = 32;
    static const size_t maxBlockSize = 4 MB;
    unsigned bsid = 0;
    if (blockSize < minBlockSize) blockSize = minBlockSize;
    if (blockSize > maxBlockSize) blockSize = maxBlockSize;
    prefs->blockSize = blockSize;
    blockSize--;
    /* find which of { 64k, 256k, 1MB, 4MB } is closest to blockSize */
    while (blockSize >>= 2)
        bsid++;
    if (bsid < 7) bsid = 7;
    prefs->blockSizeId = bsid-3;
    return prefs->blockSize;
}

int LZ4IO_setBlockMode(LZ4IO_prefs_t* const prefs, LZ4IO_blockMode_t blockMode)
{
    prefs->blockIndependence = (blockMode == LZ4IO_blockIndependent);
    return prefs->blockIndependence;
}

/* Default setting : no block checksum */
int LZ4IO_setBlockChecksumMode(LZ4IO_prefs_t* const prefs, int enable)
{
    prefs->blockChecksum = (enable != 0);
    return prefs->blockChecksum;
}

/* Default setting : checksum enabled */
int LZ4IO_setStreamChecksumMode(LZ4IO_prefs_t* const prefs, int enable)
{
    prefs->streamChecksum = (enable != 0);
    return prefs->streamChecksum;
}

/* Default setting : 0 (no notification) */
int LZ4IO_setNotificationLevel(int level)
{
    g_displayLevel = level;
    return g_displayLevel;
}

/* Default setting : 0 (disabled) */
int LZ4IO_setSparseFile(LZ4IO_prefs_t* const prefs, int enable)
{
    prefs->sparseFileSupport = (enable!=0);
    return prefs->sparseFileSupport;
}

/* Default setting : 0 (disabled) */
int LZ4IO_setContentSize(LZ4IO_prefs_t* const prefs, int enable)
{
    prefs->contentSizeFlag = (enable!=0);
    return prefs->contentSizeFlag;
}

/* Default setting : 0 (disabled) */
void LZ4IO_favorDecSpeed(LZ4IO_prefs_t* const prefs, int favor)
{
    prefs->favorDecSpeed = (favor!=0);
}

void LZ4IO_setRemoveSrcFile(LZ4IO_prefs_t* const prefs, unsigned flag)
{
  prefs->removeSrcFile = (flag>0);
}



/* ************************************************************************ **
** ********************** LZ4 File / Pipe compression ********************* **
** ************************************************************************ */

static int LZ4IO_isSkippableMagicNumber(unsigned int magic) {
    return (magic & LZ4IO_SKIPPABLEMASK) == LZ4IO_SKIPPABLE0;
}


/** LZ4IO_openSrcFile() :
 * condition : `srcFileName` must be non-NULL.
 * @result : FILE* to `dstFileName`, or NULL if it fails */
static FILE* LZ4IO_openSrcFile(const char* srcFileName)
{
    FILE* f;

    if (!strcmp (srcFileName, stdinmark)) {
        DISPLAYLEVEL(4,"Using stdin for input\n");
        f = stdin;
        SET_BINARY_MODE(stdin);
    } else {
        f = fopen(srcFileName, "rb");
        if ( f==NULL ) DISPLAYLEVEL(1, "%s: %s \n", srcFileName, strerror(errno));
    }

    return f;
}

/** FIO_openDstFile() :
 *  condition : `dstFileName` must be non-NULL.
 * @result : FILE* to `dstFileName`, or NULL if it fails */
static FILE* LZ4IO_openDstFile(LZ4IO_prefs_t* const prefs, const char* dstFileName)
{
    FILE* f;
    assert(dstFileName != NULL);

    if (!strcmp (dstFileName, stdoutmark)) {
        DISPLAYLEVEL(4,"Using stdout for output\n");
        f = stdout;
        SET_BINARY_MODE(stdout);
        if (prefs->sparseFileSupport==1) {
            prefs->sparseFileSupport = 0;
            DISPLAYLEVEL(4, "Sparse File Support is automatically disabled on stdout ; try --sparse \n");
        }
    } else {
        if (!prefs->overwrite && strcmp (dstFileName, nulmark)) {  /* Check if destination file already exists */
            f = fopen( dstFileName, "rb" );
            if (f != NULL) {  /* dest exists, prompt for overwrite authorization */
                fclose(f);
                if (g_displayLevel <= 1) {  /* No interaction possible */
                    DISPLAY("%s already exists; not overwritten  \n", dstFileName);
                    return NULL;
                }
                DISPLAY("%s already exists; do you wish to overwrite (y/N) ? ", dstFileName);
                {   int ch = getchar();
                    if ((ch!='Y') && (ch!='y')) {
                        DISPLAY("    not overwritten  \n");
                        return NULL;
                    }
                    while ((ch!=EOF) && (ch!='\n')) ch = getchar();  /* flush rest of input line */
        }   }   }
        f = fopen( dstFileName, "wb" );
        if (f==NULL) DISPLAYLEVEL(1, "%s: %s\n", dstFileName, strerror(errno));
    }

    /* sparse file */
    if (f && prefs->sparseFileSupport) { SET_SPARSE_FILE_MODE(f); }

    return f;
}



/***************************************
*   Legacy Compression
***************************************/

/* unoptimized version; solves endianess & alignment issues */
static void LZ4IO_writeLE32 (void* p, unsigned value32)
{
    unsigned char* const dstPtr = (unsigned char*)p;
    dstPtr[0] = (unsigned char)value32;
    dstPtr[1] = (unsigned char)(value32 >> 8);
    dstPtr[2] = (unsigned char)(value32 >> 16);
    dstPtr[3] = (unsigned char)(value32 >> 24);
}

static int LZ4IO_LZ4_compress(const char* src, char* dst, int srcSize, int dstSize, int cLevel)
{
    (void)cLevel;
    return LZ4_compress_fast(src, dst, srcSize, dstSize, 1);
}

/* LZ4IO_compressFilename_Legacy :
 * This function is intentionally "hidden" (not published in .h)
 * It generates compressed streams using the old 'legacy' format */
int LZ4IO_compressFilename_Legacy(LZ4IO_prefs_t* const prefs, const char* input_filename, const char* output_filename, int compressionlevel)
{
    typedef int (*compress_f)(const char* src, char* dst, int srcSize, int dstSize, int cLevel);
    compress_f const compressionFunction = (compressionlevel < 3) ? LZ4IO_LZ4_compress : LZ4_compress_HC;
    unsigned long long filesize = 0;
    unsigned long long compressedfilesize = MAGICNUMBER_SIZE;
    char* in_buff;
    char* out_buff;
    const int outBuffSize = LZ4_compressBound(LEGACY_BLOCKSIZE);
    FILE* const finput = LZ4IO_openSrcFile(input_filename);
    FILE* foutput;
    clock_t clockEnd;

    /* Init */
    clock_t const clockStart = clock();
    if (finput == NULL)
        EXM_THROW(20, "%s : open file error ", input_filename);

    foutput = LZ4IO_openDstFile(prefs, output_filename);
    if (foutput == NULL) {
        fclose(finput);
        EXM_THROW(20, "%s : open file error ", input_filename);
    }

    /* Allocate Memory */
    in_buff = (char*)malloc(LEGACY_BLOCKSIZE);
    out_buff = (char*)malloc(outBuffSize + 4);
    if (!in_buff || !out_buff)
        EXM_THROW(21, "Allocation error : not enough memory");

    /* Write Archive Header */
    LZ4IO_writeLE32(out_buff, LEGACY_MAGICNUMBER);
    {   size_t const writeSize = fwrite(out_buff, 1, MAGICNUMBER_SIZE, foutput);
        if (writeSize != MAGICNUMBER_SIZE)
            EXM_THROW(22, "Write error : cannot write header");
    }

    /* Main Loop */
    while (1) {
        int outSize;
        /* Read Block */
        size_t const inSize = fread(in_buff, (size_t)1, (size_t)LEGACY_BLOCKSIZE, finput);
        assert(inSize <= LEGACY_BLOCKSIZE);
        if (inSize == 0) break;
        filesize += inSize;

        /* Compress Block */
        outSize = compressionFunction(in_buff, out_buff+4, (int)inSize, outBuffSize, compressionlevel);
        compressedfilesize += outSize+4;
        DISPLAYUPDATE(2, "\rRead : %i MB  ==> %.2f%%   ",
                (int)(filesize>>20), (double)compressedfilesize/filesize*100);

        /* Write Block */
        assert(outSize > 0);
        assert(outSize < outBuffSize);
        LZ4IO_writeLE32(out_buff, (unsigned)outSize);
        {   size_t const writeSize = fwrite(out_buff, 1, outSize+4, foutput);
            if (writeSize != (size_t)(outSize+4))
                EXM_THROW(24, "Write error : cannot write compressed block");
    }   }
    if (ferror(finput)) EXM_THROW(25, "Error while reading %s ", input_filename);

    /* Status */
    clockEnd = clock();
    if (clockEnd==clockStart) clockEnd+=1;  /* avoid division by zero (speed) */
    filesize += !filesize;   /* avoid division by zero (ratio) */
    DISPLAYLEVEL(2, "\r%79s\r", "");   /* blank line */
    DISPLAYLEVEL(2,"Compressed %llu bytes into %llu bytes ==> %.2f%%\n",
        filesize, compressedfilesize, (double)compressedfilesize / filesize * 100);
    {   double const seconds = (double)(clockEnd - clockStart) / CLOCKS_PER_SEC;
        DISPLAYLEVEL(4,"Done in %.2f s ==> %.2f MB/s\n", seconds,
                        (double)filesize / seconds / 1024 / 1024);
    }

    /* Close & Free */
    free(in_buff);
    free(out_buff);
    fclose(finput);
    fclose(foutput);

    return 0;
}


/*********************************************
*  Compression using Frame format
*********************************************/

typedef struct {
    void*  srcBuffer;
    size_t srcBufferSize;
    void*  dstBuffer;
    size_t dstBufferSize;
    LZ4F_compressionContext_t ctx;
    LZ4F_CDict* cdict;
} cRess_t;

static void* LZ4IO_createDict(LZ4IO_prefs_t* const prefs, size_t *dictSize) {
    size_t readSize;
    size_t dictEnd = 0;
    size_t dictLen = 0;
    size_t dictStart;
    size_t circularBufSize = LZ4_MAX_DICT_SIZE;
    char* circularBuf;
    char* dictBuf;
    const char* dictFilename = prefs->dictionaryFilename;
    FILE* dictFile;

    if (!dictFilename) EXM_THROW(25, "Dictionary error : no filename provided");

    circularBuf = (char *) malloc(circularBufSize);
    if (!circularBuf) EXM_THROW(25, "Allocation error : not enough memory");

    dictFile = LZ4IO_openSrcFile(dictFilename);
    if (!dictFile) EXM_THROW(25, "Dictionary error : could not open dictionary file");

    /* opportunistically seek to the part of the file we care about. If this */
    /* fails it's not a problem since we'll just read everything anyways.    */
    if (strcmp(dictFilename, stdinmark)) {
        (void)UTIL_fseek(dictFile, -LZ4_MAX_DICT_SIZE, SEEK_END);
    }

    do {
        readSize = fread(circularBuf + dictEnd, 1, circularBufSize - dictEnd, dictFile);
        dictEnd = (dictEnd + readSize) % circularBufSize;
        dictLen += readSize;
    } while (readSize>0);

    if (dictLen > LZ4_MAX_DICT_SIZE) {
        dictLen = LZ4_MAX_DICT_SIZE;
    }

    *dictSize = dictLen;

    dictStart = (circularBufSize + dictEnd - dictLen) % circularBufSize;

    if (dictStart == 0) {
        /* We're in the simple case where the dict starts at the beginning of our circular buffer. */
        dictBuf = circularBuf;
        circularBuf = NULL;
    } else {
        /* Otherwise, we will alloc a new buffer and copy our dict into that. */
        dictBuf = (char *) malloc(dictLen ? dictLen : 1);
        if (!dictBuf) EXM_THROW(25, "Allocation error : not enough memory");

        memcpy(dictBuf, circularBuf + dictStart, circularBufSize - dictStart);
        memcpy(dictBuf + circularBufSize - dictStart, circularBuf, dictLen - (circularBufSize - dictStart));
    }

    fclose(dictFile);
    free(circularBuf);

    return dictBuf;
}

static LZ4F_CDict* LZ4IO_createCDict(LZ4IO_prefs_t* const prefs) {
    size_t dictionarySize;
    void* dictionaryBuffer;
    LZ4F_CDict* cdict;
    if (!prefs->useDictionary) {
        return NULL;
    }
    dictionaryBuffer = LZ4IO_createDict(prefs, &dictionarySize);
    if (!dictionaryBuffer) EXM_THROW(25, "Dictionary error : could not create dictionary");
    cdict = LZ4F_createCDict(dictionaryBuffer, dictionarySize);
    free(dictionaryBuffer);
    return cdict;
}

static cRess_t LZ4IO_createCResources(LZ4IO_prefs_t* const prefs)
{
    const size_t blockSize = prefs->blockSize;
    cRess_t ress;

    LZ4F_errorCode_t const errorCode = LZ4F_createCompressionContext(&(ress.ctx), LZ4F_VERSION);
    if (LZ4F_isError(errorCode)) EXM_THROW(30, "Allocation error : can't create LZ4F context : %s", LZ4F_getErrorName(errorCode));

    /* Allocate Memory */
    ress.srcBuffer = malloc(blockSize);
    ress.srcBufferSize = blockSize;
    ress.dstBufferSize = LZ4F_compressFrameBound(blockSize, NULL);   /* cover worst case */
    ress.dstBuffer = malloc(ress.dstBufferSize);
    if (!ress.srcBuffer || !ress.dstBuffer) EXM_THROW(31, "Allocation error : not enough memory");

    ress.cdict = LZ4IO_createCDict(prefs);

    return ress;
}

static void LZ4IO_freeCResources(cRess_t ress)
{
    free(ress.srcBuffer);
    free(ress.dstBuffer);

    LZ4F_freeCDict(ress.cdict);
    ress.cdict = NULL;

    { LZ4F_errorCode_t const errorCode = LZ4F_freeCompressionContext(ress.ctx);
      if (LZ4F_isError(errorCode)) EXM_THROW(38, "Error : can't free LZ4F context resource : %s", LZ4F_getErrorName(errorCode)); }
}

/*
 * LZ4IO_compressFilename_extRess()
 * result : 0 : compression completed correctly
 *          1 : missing or pb opening srcFileName
 */
static int
LZ4IO_compressFilename_extRess(LZ4IO_prefs_t* const io_prefs, cRess_t ress,
                               const char* srcFileName, const char* dstFileName,
                               int compressionLevel)
{
    unsigned long long filesize = 0;
    unsigned long long compressedfilesize = 0;
    FILE* srcFile;
    FILE* dstFile;
    void* const srcBuffer = ress.srcBuffer;
    void* const dstBuffer = ress.dstBuffer;
    const size_t dstBufferSize = ress.dstBufferSize;
    const size_t blockSize = io_prefs->blockSize;
    size_t readSize;
    LZ4F_compressionContext_t ctx = ress.ctx;   /* just a pointer */
    LZ4F_preferences_t prefs;

    /* Init */
    srcFile = LZ4IO_openSrcFile(srcFileName);
    if (srcFile == NULL) return 1;
    dstFile = LZ4IO_openDstFile(io_prefs, dstFileName);
    if (dstFile == NULL) { fclose(srcFile); return 1; }
    memset(&prefs, 0, sizeof(prefs));


    /* Set compression parameters */
    prefs.autoFlush = 1;
    prefs.compressionLevel = compressionLevel;
    prefs.frameInfo.blockMode = (LZ4F_blockMode_t)io_prefs->blockIndependence;
    prefs.frameInfo.blockSizeID = (LZ4F_blockSizeID_t)io_prefs->blockSizeId;
    prefs.frameInfo.blockChecksumFlag = (LZ4F_blockChecksum_t)io_prefs->blockChecksum;
    prefs.frameInfo.contentChecksumFlag = (LZ4F_contentChecksum_t)io_prefs->streamChecksum;
    prefs.favorDecSpeed = io_prefs->favorDecSpeed;
    if (io_prefs->contentSizeFlag) {
      U64 const fileSize = UTIL_getFileSize(srcFileName);
      prefs.frameInfo.contentSize = fileSize;   /* == 0 if input == stdin */
      if (fileSize==0)
          DISPLAYLEVEL(3, "Warning : cannot determine input content size \n");
    }

    /* read first block */
    readSize  = fread(srcBuffer, (size_t)1, blockSize, srcFile);
    if (ferror(srcFile)) EXM_THROW(30, "Error reading %s ", srcFileName);
    filesize += readSize;

    /* single-block file */
    if (readSize < blockSize) {
        /* Compress in single pass */
        size_t cSize = LZ4F_compressFrame_usingCDict(ctx, dstBuffer, dstBufferSize, srcBuffer, readSize, ress.cdict, &prefs);
        if (LZ4F_isError(cSize)) EXM_THROW(31, "Compression failed : %s", LZ4F_getErrorName(cSize));
        compressedfilesize = cSize;
        DISPLAYUPDATE(2, "\rRead : %u MB   ==> %.2f%%   ",
                      (unsigned)(filesize>>20), (double)compressedfilesize/(filesize+!filesize)*100);   /* avoid division by zero */

        /* Write Block */
        {   size_t const sizeCheck = fwrite(dstBuffer, 1, cSize, dstFile);
            if (sizeCheck!=cSize) EXM_THROW(32, "Write error : cannot write compressed block");
    }   }

    else

    /* multiple-blocks file */
    {
        /* Write Archive Header */
        size_t headerSize = LZ4F_compressBegin_usingCDict(ctx, dstBuffer, dstBufferSize, ress.cdict, &prefs);
        if (LZ4F_isError(headerSize)) EXM_THROW(33, "File header generation failed : %s", LZ4F_getErrorName(headerSize));
        { size_t const sizeCheck = fwrite(dstBuffer, 1, headerSize, dstFile);
          if (sizeCheck!=headerSize) EXM_THROW(34, "Write error : cannot write header"); }
        compressedfilesize += headerSize;

        /* Main Loop */
        while (readSize>0) {
            size_t outSize;

            /* Compress Block */
            outSize = LZ4F_compressUpdate(ctx, dstBuffer, dstBufferSize, srcBuffer, readSize, NULL);
            if (LZ4F_isError(outSize)) EXM_THROW(35, "Compression failed : %s", LZ4F_getErrorName(outSize));
            compressedfilesize += outSize;
            DISPLAYUPDATE(2, "\rRead : %u MB   ==> %.2f%%   ", (unsigned)(filesize>>20), (double)compressedfilesize/filesize*100);

            /* Write Block */
            { size_t const sizeCheck = fwrite(dstBuffer, 1, outSize, dstFile);
              if (sizeCheck!=outSize) EXM_THROW(36, "Write error : cannot write compressed block"); }

            /* Read next block */
            readSize  = fread(srcBuffer, (size_t)1, (size_t)blockSize, srcFile);
            filesize += readSize;
        }
        if (ferror(srcFile)) EXM_THROW(37, "Error reading %s ", srcFileName);

        /* End of Stream mark */
        headerSize = LZ4F_compressEnd(ctx, dstBuffer, dstBufferSize, NULL);
        if (LZ4F_isError(headerSize)) EXM_THROW(38, "End of file generation failed : %s", LZ4F_getErrorName(headerSize));

        { size_t const sizeCheck = fwrite(dstBuffer, 1, headerSize, dstFile);
          if (sizeCheck!=headerSize) EXM_THROW(39, "Write error : cannot write end of stream"); }
        compressedfilesize += headerSize;
    }

    /* Release file handlers */
    fclose (srcFile);
    if (strcmp(dstFileName,stdoutmark)) fclose (dstFile);   /* do not close stdout */

    /* Copy owner, file permissions and modification time */
    {   stat_t statbuf;
        if (strcmp (srcFileName, stdinmark)
         && strcmp (dstFileName, stdoutmark)
         && strcmp (dstFileName, nulmark)
         && UTIL_getFileStat(srcFileName, &statbuf)) {
            UTIL_setFileStat(dstFileName, &statbuf);
    }   }

    if (io_prefs->removeSrcFile) {  /* remove source file : --rm */
        if (remove(srcFileName))
            EXM_THROW(40, "Remove error : %s: %s", srcFileName, strerror(errno));
    }

    /* Final Status */
    DISPLAYLEVEL(2, "\r%79s\r", "");
    DISPLAYLEVEL(2, "Compressed %llu bytes into %llu bytes ==> %.2f%%\n",
                    filesize, compressedfilesize,
                    (double)compressedfilesize / (filesize + !filesize /* avoid division by zero */ ) * 100);

    return 0;
}


int LZ4IO_compressFilename(LZ4IO_prefs_t* const prefs, const char* srcFileName, const char* dstFileName, int compressionLevel)
{
    UTIL_time_t const timeStart = UTIL_getTime();
    clock_t const cpuStart = clock();
    cRess_t const ress = LZ4IO_createCResources(prefs);

    int const result = LZ4IO_compressFilename_extRess(prefs, ress, srcFileName, dstFileName, compressionLevel);

    /* Free resources */
    LZ4IO_freeCResources(ress);

    /* Final Status */
    {   clock_t const cpuEnd = clock();
        double const cpuLoad_s = (double)(cpuEnd - cpuStart) / CLOCKS_PER_SEC;
        U64 const timeLength_ns = UTIL_clockSpanNano(timeStart);
        double const timeLength_s = (double)timeLength_ns / 1000000000;
        DISPLAYLEVEL(4, "Completed in %.2f sec  (cpu load : %.0f%%)\n",
                        timeLength_s, (cpuLoad_s / timeLength_s) * 100);
    }

    return result;
}


#define FNSPACE 30
int LZ4IO_compressMultipleFilenames(LZ4IO_prefs_t* const prefs,
                              const char** inFileNamesTable, int ifntSize,
                              const char* suffix,
                              int compressionLevel)
{
    int i;
    int missed_files = 0;
    char* dstFileName = (char*)malloc(FNSPACE);
    size_t ofnSize = FNSPACE;
    const size_t suffixSize = strlen(suffix);
    cRess_t ress;

    if (dstFileName == NULL) return ifntSize;   /* not enough memory */
    ress = LZ4IO_createCResources(prefs);

    /* loop on each file */
    for (i=0; i<ifntSize; i++) {
        size_t const ifnSize = strlen(inFileNamesTable[i]);
        if (!strcmp(suffix, stdoutmark)) {
            missed_files += LZ4IO_compressFilename_extRess(prefs, ress,
                                    inFileNamesTable[i], stdoutmark,
                                    compressionLevel);
            continue;
        }
        if (ofnSize <= ifnSize+suffixSize+1) {
            free(dstFileName);
            ofnSize = ifnSize + 20;
            dstFileName = (char*)malloc(ofnSize);
            if (dstFileName==NULL) {
                LZ4IO_freeCResources(ress);
                return ifntSize;
        }   }
        strcpy(dstFileName, inFileNamesTable[i]);
        strcat(dstFileName, suffix);

        missed_files += LZ4IO_compressFilename_extRess(prefs, ress,
                                inFileNamesTable[i], dstFileName,
                                compressionLevel);
    }

    /* Close & Free */
    LZ4IO_freeCResources(ress);
    free(dstFileName);

    return missed_files;
}


/* ********************************************************************* */
/* ********************** LZ4 file-stream Decompression **************** */
/* ********************************************************************* */

/* It's presumed that s points to a memory space of size >= 4 */
static unsigned LZ4IO_readLE32 (const void* s)
{
    const unsigned char* const srcPtr = (const unsigned char*)s;
    unsigned value32 = srcPtr[0];
    value32 += (unsigned)srcPtr[1] <<  8;
    value32 += (unsigned)srcPtr[2] << 16;
    value32 += (unsigned)srcPtr[3] << 24;
    return value32;
}


static unsigned LZ4IO_fwriteSparse(LZ4IO_prefs_t* const prefs, FILE* file, const void* buffer, size_t bufferSize, unsigned storedSkips)
{
    const size_t sizeT = sizeof(size_t);
    const size_t maskT = sizeT -1 ;
    const size_t* const bufferT = (const size_t*)buffer;   /* Buffer is supposed malloc'ed, hence aligned on size_t */
    const size_t* ptrT = bufferT;
    size_t bufferSizeT = bufferSize / sizeT;
    const size_t* const bufferTEnd = bufferT + bufferSizeT;
    const size_t segmentSizeT = (32 KB) / sizeT;

    if (!prefs->sparseFileSupport) {  /* normal write */
        size_t const sizeCheck = fwrite(buffer, 1, bufferSize, file);
        if (sizeCheck != bufferSize) EXM_THROW(70, "Write error : cannot write decoded block");
        return 0;
    }

    /* avoid int overflow */
    if (storedSkips > 1 GB) {
        int const seekResult = UTIL_fseek(file, 1 GB, SEEK_CUR);
        if (seekResult != 0) EXM_THROW(71, "1 GB skip error (sparse file support)");
        storedSkips -= 1 GB;
    }

    while (ptrT < bufferTEnd) {
        size_t seg0SizeT = segmentSizeT;
        size_t nb0T;

        /* count leading zeros */
        if (seg0SizeT > bufferSizeT) seg0SizeT = bufferSizeT;
        bufferSizeT -= seg0SizeT;
        for (nb0T=0; (nb0T < seg0SizeT) && (ptrT[nb0T] == 0); nb0T++) ;
        storedSkips += (unsigned)(nb0T * sizeT);

        if (nb0T != seg0SizeT) {   /* not all 0s */
            errno = 0;
            {   int const seekResult = UTIL_fseek(file, storedSkips, SEEK_CUR);
                if (seekResult) EXM_THROW(72, "Sparse skip error(%d): %s ; try --no-sparse", (int)errno, strerror(errno));
            }
            storedSkips = 0;
            seg0SizeT -= nb0T;
            ptrT += nb0T;
            {   size_t const sizeCheck = fwrite(ptrT, sizeT, seg0SizeT, file);
                if (sizeCheck != seg0SizeT) EXM_THROW(73, "Write error : cannot write decoded block");
        }   }
        ptrT += seg0SizeT;
    }

    if (bufferSize & maskT) {  /* size not multiple of sizeT : implies end of block */
        const char* const restStart = (const char*)bufferTEnd;
        const char* restPtr = restStart;
        size_t const restSize =  bufferSize & maskT;
        const char* const restEnd = restStart + restSize;
        for (; (restPtr < restEnd) && (*restPtr == 0); restPtr++) ;
        storedSkips += (unsigned) (restPtr - restStart);
        if (restPtr != restEnd) {
            int const seekResult = UTIL_fseek(file, storedSkips, SEEK_CUR);
            if (seekResult) EXM_THROW(74, "Sparse skip error ; try --no-sparse");
            storedSkips = 0;
            {   size_t const sizeCheck = fwrite(restPtr, 1, restEnd - restPtr, file);
                if (sizeCheck != (size_t)(restEnd - restPtr)) EXM_THROW(75, "Write error : cannot write decoded end of block");
        }   }
    }

    return storedSkips;
}

static void LZ4IO_fwriteSparseEnd(FILE* file, unsigned storedSkips)
{
    if (storedSkips>0) {   /* implies g_sparseFileSupport>0 */
        int const seekResult = UTIL_fseek(file, storedSkips-1, SEEK_CUR);
        if (seekResult != 0) EXM_THROW(69, "Final skip error (sparse file)\n");
        {   const char lastZeroByte[1] = { 0 };
            size_t const sizeCheck = fwrite(lastZeroByte, 1, 1, file);
            if (sizeCheck != 1) EXM_THROW(69, "Write error : cannot write last zero\n");
    }   }
}


static unsigned g_magicRead = 0;   /* out-parameter of LZ4IO_decodeLegacyStream() */
static unsigned long long LZ4IO_decodeLegacyStream(LZ4IO_prefs_t* const prefs, FILE* finput, FILE* foutput)
{
    unsigned long long streamSize = 0;
    unsigned storedSkips = 0;

    /* Allocate Memory */
    char* const in_buff  = (char*)malloc(LZ4_compressBound(LEGACY_BLOCKSIZE));
    char* const out_buff = (char*)malloc(LEGACY_BLOCKSIZE);
    if (!in_buff || !out_buff) EXM_THROW(51, "Allocation error : not enough memory");

    /* Main Loop */
    while (1) {
        unsigned int blockSize;

        /* Block Size */
        {   size_t const sizeCheck = fread(in_buff, 1, 4, finput);
            if (sizeCheck == 0) break;                   /* Nothing to read : file read is completed */
            if (sizeCheck != 4) EXM_THROW(52, "Read error : cannot access block size "); }
            blockSize = LZ4IO_readLE32(in_buff);       /* Convert to Little Endian */
            if (blockSize > LZ4_COMPRESSBOUND(LEGACY_BLOCKSIZE)) {
            /* Cannot read next block : maybe new stream ? */
            g_magicRead = blockSize;
            break;
        }

        /* Read Block */
        { size_t const sizeCheck = fread(in_buff, 1, blockSize, finput);
          if (sizeCheck!=blockSize) EXM_THROW(52, "Read error : cannot access compressed block !"); }

        /* Decode Block */
        {   int const decodeSize = LZ4_decompress_safe(in_buff, out_buff, blockSize, LEGACY_BLOCKSIZE);
            if (decodeSize < 0) EXM_THROW(53, "Decoding Failed ! Corrupted input detected !");
            streamSize += decodeSize;
            /* Write Block */
            storedSkips = LZ4IO_fwriteSparse(prefs, foutput, out_buff, decodeSize, storedSkips); /* success or die */
    }   }
    if (ferror(finput)) EXM_THROW(54, "Read error : ferror");

    LZ4IO_fwriteSparseEnd(foutput, storedSkips);

    /* Free */
    free(in_buff);
    free(out_buff);

    return streamSize;
}



typedef struct {
    void*  srcBuffer;
    size_t srcBufferSize;
    void*  dstBuffer;
    size_t dstBufferSize;
    FILE*  dstFile;
    LZ4F_decompressionContext_t dCtx;
    void*  dictBuffer;
    size_t dictBufferSize;
} dRess_t;

static void LZ4IO_loadDDict(LZ4IO_prefs_t* const prefs, dRess_t* ress) {
    if (!prefs->useDictionary) {
        ress->dictBuffer = NULL;
        ress->dictBufferSize = 0;
        return;
    }

    ress->dictBuffer = LZ4IO_createDict(prefs, &ress->dictBufferSize);
    if (!ress->dictBuffer) EXM_THROW(25, "Dictionary error : could not create dictionary");
}

static const size_t LZ4IO_dBufferSize = 64 KB;
static dRess_t LZ4IO_createDResources(LZ4IO_prefs_t* const prefs)
{
    dRess_t ress;

    /* init */
    LZ4F_errorCode_t const errorCode = LZ4F_createDecompressionContext(&ress.dCtx, LZ4F_VERSION);
    if (LZ4F_isError(errorCode)) EXM_THROW(60, "Can't create LZ4F context : %s", LZ4F_getErrorName(errorCode));

    /* Allocate Memory */
    ress.srcBufferSize = LZ4IO_dBufferSize;
    ress.srcBuffer = malloc(ress.srcBufferSize);
    ress.dstBufferSize = LZ4IO_dBufferSize;
    ress.dstBuffer = malloc(ress.dstBufferSize);
    if (!ress.srcBuffer || !ress.dstBuffer) EXM_THROW(61, "Allocation error : not enough memory");

    LZ4IO_loadDDict(prefs, &ress);

    ress.dstFile = NULL;
    return ress;
}

static void LZ4IO_freeDResources(dRess_t ress)
{
    LZ4F_errorCode_t errorCode = LZ4F_freeDecompressionContext(ress.dCtx);
    if (LZ4F_isError(errorCode)) EXM_THROW(69, "Error : can't free LZ4F context resource : %s", LZ4F_getErrorName(errorCode));
    free(ress.srcBuffer);
    free(ress.dstBuffer);
    free(ress.dictBuffer);
}


static unsigned long long LZ4IO_decompressLZ4F(LZ4IO_prefs_t* const prefs, dRess_t ress, FILE* srcFile, FILE* dstFile)
{
    unsigned long long filesize = 0;
    LZ4F_errorCode_t nextToLoad;
    unsigned storedSkips = 0;

    /* Init feed with magic number (already consumed from FILE* sFile) */
    {   size_t inSize = MAGICNUMBER_SIZE;
        size_t outSize= 0;
        LZ4IO_writeLE32(ress.srcBuffer, LZ4IO_MAGICNUMBER);
        nextToLoad = LZ4F_decompress_usingDict(ress.dCtx, ress.dstBuffer, &outSize, ress.srcBuffer, &inSize, ress.dictBuffer, ress.dictBufferSize, NULL);
        if (LZ4F_isError(nextToLoad)) EXM_THROW(62, "Header error : %s", LZ4F_getErrorName(nextToLoad));
    }

    /* Main Loop */
    for (;nextToLoad;) {
        size_t readSize;
        size_t pos = 0;
        size_t decodedBytes = ress.dstBufferSize;

        /* Read input */
        if (nextToLoad > ress.srcBufferSize) nextToLoad = ress.srcBufferSize;
        readSize = fread(ress.srcBuffer, 1, nextToLoad, srcFile);
        if (!readSize) break;   /* reached end of file or stream */

        while ((pos < readSize) || (decodedBytes == ress.dstBufferSize)) {  /* still to read, or still to flush */
            /* Decode Input (at least partially) */
            size_t remaining = readSize - pos;
            decodedBytes = ress.dstBufferSize;
            nextToLoad = LZ4F_decompress_usingDict(ress.dCtx, ress.dstBuffer, &decodedBytes, (char*)(ress.srcBuffer)+pos, &remaining, ress.dictBuffer, ress.dictBufferSize, NULL);
            if (LZ4F_isError(nextToLoad)) EXM_THROW(66, "Decompression error : %s", LZ4F_getErrorName(nextToLoad));
            pos += remaining;

            /* Write Block */
            if (decodedBytes) {
                if (!prefs->testMode)
                    storedSkips = LZ4IO_fwriteSparse(prefs, dstFile, ress.dstBuffer, decodedBytes, storedSkips);
                filesize += decodedBytes;
                DISPLAYUPDATE(2, "\rDecompressed : %u MB  ", (unsigned)(filesize>>20));
            }

            if (!nextToLoad) break;
        }
    }
    /* can be out because readSize == 0, which could be an fread() error */
    if (ferror(srcFile)) EXM_THROW(67, "Read error");

    if (!prefs->testMode) LZ4IO_fwriteSparseEnd(dstFile, storedSkips);
    if (nextToLoad!=0) EXM_THROW(68, "Unfinished stream");

    return filesize;
}


#define PTSIZE  (64 KB)
#define PTSIZET (PTSIZE / sizeof(size_t))
static unsigned long long LZ4IO_passThrough(LZ4IO_prefs_t* const prefs, FILE* finput, FILE* foutput, unsigned char MNstore[MAGICNUMBER_SIZE])
{
	size_t buffer[PTSIZET];
    size_t readBytes = 1;
    unsigned long long total = MAGICNUMBER_SIZE;
    unsigned storedSkips = 0;

    size_t const sizeCheck = fwrite(MNstore, 1, MAGICNUMBER_SIZE, foutput);
    if (sizeCheck != MAGICNUMBER_SIZE) EXM_THROW(50, "Pass-through write error");

    while (readBytes) {
        readBytes = fread(buffer, 1, PTSIZE, finput);
        total += readBytes;
        storedSkips = LZ4IO_fwriteSparse(prefs, foutput, buffer, readBytes, storedSkips);
    }
    if (ferror(finput)) EXM_THROW(51, "Read Error");

    LZ4IO_fwriteSparseEnd(foutput, storedSkips);
    return total;
}


/** Safely handle cases when (unsigned)offset > LONG_MAX */
static int fseek_u32(FILE *fp, unsigned offset, int where)
{
    const unsigned stepMax = 1U << 30;
    int errorNb = 0;

    if (where != SEEK_CUR) return -1;  /* Only allows SEEK_CUR */
    while (offset > 0) {
        unsigned s = offset;
        if (s > stepMax) s = stepMax;
        errorNb = UTIL_fseek(fp, (long) s, SEEK_CUR);
        if (errorNb != 0) break;
        offset -= s;
    }
    return errorNb;
}

#define ENDOFSTREAM ((unsigned long long)-1)
static unsigned long long selectDecoder(LZ4IO_prefs_t* const prefs, dRess_t ress, FILE* finput, FILE* foutput)
{
    unsigned char MNstore[MAGICNUMBER_SIZE];
    unsigned magicNumber;
    static unsigned nbFrames = 0;

    /* init */
    nbFrames++;

    /* Check Archive Header */
    if (g_magicRead) {  /* magic number already read from finput (see legacy frame)*/
        magicNumber = g_magicRead;
        g_magicRead = 0;
    } else {
        size_t const nbReadBytes = fread(MNstore, 1, MAGICNUMBER_SIZE, finput);
        if (nbReadBytes==0) { nbFrames = 0; return ENDOFSTREAM; }   /* EOF */
        if (nbReadBytes != MAGICNUMBER_SIZE)
          EXM_THROW(40, "Unrecognized header : Magic Number unreadable");
        magicNumber = LZ4IO_readLE32(MNstore);   /* Little Endian format */
    }
    if (LZ4IO_isSkippableMagicNumber(magicNumber))
        magicNumber = LZ4IO_SKIPPABLE0;   /* fold skippable magic numbers */

    switch(magicNumber)
    {
    case LZ4IO_MAGICNUMBER:
        return LZ4IO_decompressLZ4F(prefs, ress, finput, foutput);
    case LEGACY_MAGICNUMBER:
        DISPLAYLEVEL(4, "Detected : Legacy format \n");
        return LZ4IO_decodeLegacyStream(prefs, finput, foutput);
    case LZ4IO_SKIPPABLE0:
        DISPLAYLEVEL(4, "Skipping detected skippable area \n");
        {   size_t const nbReadBytes = fread(MNstore, 1, 4, finput);
            if (nbReadBytes != 4)
                EXM_THROW(42, "Stream error : skippable size unreadable");
        }
        {   unsigned const size = LZ4IO_readLE32(MNstore);
            int const errorNb = fseek_u32(finput, size, SEEK_CUR);
            if (errorNb != 0)
                EXM_THROW(43, "Stream error : cannot skip skippable area");
        }
        return 0;
    EXTENDED_FORMAT;  /* macro extension for custom formats */
    default:
        if (nbFrames == 1) {  /* just started */
            /* Wrong magic number at the beginning of 1st stream */
            if (!prefs->testMode && prefs->overwrite && prefs->passThrough) {
                nbFrames = 0;
                return LZ4IO_passThrough(prefs, finput, foutput, MNstore);
            }
            EXM_THROW(44,"Unrecognized header : file cannot be decoded");
        }
        {   long int const position = ftell(finput);  /* only works for files < 2 GB */
            DISPLAYLEVEL(2, "Stream followed by undecodable data ");
            if (position != -1L)
                DISPLAYLEVEL(2, "at position %i ", (int)position);
            DISPLAYLEVEL(2, "\n");
        }
        return ENDOFSTREAM;
    }
}


static int LZ4IO_decompressSrcFile(LZ4IO_prefs_t* const prefs, dRess_t ress, const char* input_filename, const char* output_filename)
{
    FILE* const foutput = ress.dstFile;
    unsigned long long filesize = 0;

    /* Init */
    FILE* const finput = LZ4IO_openSrcFile(input_filename);
    if (finput==NULL) return 1;

    /* Loop over multiple streams */
    for ( ; ; ) {  /* endless loop, see break condition */
        unsigned long long const decodedSize =
                        selectDecoder(prefs, ress, finput, foutput);
        if (decodedSize == ENDOFSTREAM) break;
        filesize += decodedSize;
    }

    /* Close input */
    fclose(finput);
    if (prefs->removeSrcFile) {  /* --rm */
        if (remove(input_filename))
            EXM_THROW(45, "Remove error : %s: %s", input_filename, strerror(errno));
    }

    /* Final Status */
    DISPLAYLEVEL(2, "\r%79s\r", "");
    DISPLAYLEVEL(2, "%-20.20s : decoded %llu bytes \n", input_filename, filesize);
    (void)output_filename;

    return 0;
}


static int LZ4IO_decompressDstFile(LZ4IO_prefs_t* const prefs, dRess_t ress, const char* input_filename, const char* output_filename)
{
    stat_t statbuf;
    int stat_result = 0;
    FILE* const foutput = LZ4IO_openDstFile(prefs, output_filename);
    if (foutput==NULL) return 1;   /* failure */

    if ( strcmp(input_filename, stdinmark)
      && UTIL_getFileStat(input_filename, &statbuf))
        stat_result = 1;

    ress.dstFile = foutput;
    LZ4IO_decompressSrcFile(prefs, ress, input_filename, output_filename);

    fclose(foutput);

    /* Copy owner, file permissions and modification time */
    if ( stat_result != 0
      && strcmp (output_filename, stdoutmark)
      && strcmp (output_filename, nulmark)) {
        UTIL_setFileStat(output_filename, &statbuf);
        /* should return value be read ? or is silent fail good enough ? */
    }

    return 0;
}


static int LZ4IO_getCompressedFileInfo(const char* input_filename,  LZ4F_compFileInfo_t* cfinfo){
  const char *b, 
             *e;
  char *t;
  stat_t statbuf;
  size_t readSize = LZ4F_HEADER_SIZE_MAX;
  LZ4F_errorCode_t errorCode;
  dRess_t ress;
  // LZ4F_compFileInfo_t cfinfo = (LZ4F_compFileInfo_t) LZ4F_INIT_FILEINFO;
  /* Open file */
  FILE* const finput = LZ4IO_openSrcFile(input_filename);
  if (finput==NULL) return 1;
  
  /* Get file size */
  if (!UTIL_getFileStat(input_filename, &statbuf)){
    EXM_THROW(60, "Can't stat file : %s", input_filename);
  }

  cfinfo->fileSize = statbuf.st_size;

  /* Get basename without extension */
  b = strrchr(input_filename, '/');
  if (!b){
    b = strrchr(input_filename, '\\');
  }
  if (b && b != input_filename){
    b++;
  } else{
    b=input_filename;
  }
  e = strrchr(b, '.');

  /* Allocate Memory */
  t = malloc( (e-b+1) * sizeof(char));
  ress.srcBuffer = malloc(LZ4IO_dBufferSize);
  if (!t || !ress.srcBuffer)
    EXM_THROW(21, "Allocation error : not enough memory");
  strncpy(t, b, (e-b));
  t[e-b] = '\0';
  cfinfo->fileName = t;

  /* init */
  errorCode = LZ4F_createDecompressionContext(&ress.dCtx, LZ4F_VERSION);
  if (LZ4F_isError(errorCode)) EXM_THROW(60, "Can't create LZ4F context : %s", LZ4F_getErrorName(errorCode));

  if (!fread(ress.srcBuffer, readSize, 1, finput)){
    EXM_THROW(30, "Error reading %s ", input_filename);
  }
  LZ4F_getFrameInfo(ress.dCtx, &cfinfo->frameInfo, ress.srcBuffer, &readSize);

  /* Close input/free resources */
  fclose(finput);
  free(ress.srcBuffer);
  return 0;
}


int LZ4IO_decompressFilename(LZ4IO_prefs_t* const prefs, const char* input_filename, const char* output_filename)
{
    dRess_t const ress = LZ4IO_createDResources(prefs);
    clock_t const start = clock();

    int const missingFiles = LZ4IO_decompressDstFile(prefs, ress, input_filename, output_filename);

    clock_t const end = clock();
    double const seconds = (double)(end - start) / CLOCKS_PER_SEC;
    DISPLAYLEVEL(4, "Done in %.2f sec  \n", seconds);

    LZ4IO_freeDResources(ress);
    return missingFiles;
}


int LZ4IO_decompressMultipleFilenames(LZ4IO_prefs_t* const prefs, const char** inFileNamesTable, int ifntSize, const char* suffix)
{
    int i;
    int skippedFiles = 0;
    int missingFiles = 0;
    char* outFileName = (char*)malloc(FNSPACE);
    size_t ofnSize = FNSPACE;
    size_t const suffixSize = strlen(suffix);
    dRess_t ress = LZ4IO_createDResources(prefs);

    if (outFileName==NULL) return ifntSize;   /* not enough memory */
    ress.dstFile = LZ4IO_openDstFile(prefs, stdoutmark);

    for (i=0; i<ifntSize; i++) {
        size_t const ifnSize = strlen(inFileNamesTable[i]);
        const char* const suffixPtr = inFileNamesTable[i] + ifnSize - suffixSize;
        if (!strcmp(suffix, stdoutmark)) {
            missingFiles += LZ4IO_decompressSrcFile(prefs, ress, inFileNamesTable[i], stdoutmark);
            continue;
        }
        if (ofnSize <= ifnSize-suffixSize+1) { free(outFileName); ofnSize = ifnSize + 20; outFileName = (char*)malloc(ofnSize); if (outFileName==NULL) return ifntSize; }
        if (ifnSize <= suffixSize  ||  strcmp(suffixPtr, suffix) != 0) {
            DISPLAYLEVEL(1, "File extension doesn't match expected LZ4_EXTENSION (%4s); will not process file: %s\n", suffix, inFileNamesTable[i]);
            skippedFiles++;
            continue;
        }
        memcpy(outFileName, inFileNamesTable[i], ifnSize - suffixSize);
        outFileName[ifnSize-suffixSize] = '\0';
        missingFiles += LZ4IO_decompressDstFile(prefs, ress, inFileNamesTable[i], outFileName);
    }

    LZ4IO_freeDResources(ress);
    free(outFileName);
    return missingFiles + skippedFiles;
}


int LZ4IO_displayCompressedFilesInfo(const char** inFileNames, const size_t ifnIdx){
  size_t idx;
  int op_result=0;
  double ratio;
  LZ4F_compFileInfo_t cfinfo;
  DISPLAY("%16s\t%-20s\t%-20s\t%-10s\t%s\n","BlockChecksumFlag","Compressed", "Uncompressed", "Ratio", "Filename");
  for(idx=0; idx<ifnIdx; idx++){
    /* Get file info */
    op_result=LZ4IO_getCompressedFileInfo(inFileNames[idx], &cfinfo);
    if (op_result != 0){
        DISPLAYLEVEL(1, "Failed to get frame info for file %s\n", inFileNames[idx]);
        /* Don't bother trying to process any other file */
        break;
    }
    if(cfinfo.frameInfo.contentSize){
        ratio = (double)cfinfo.fileSize / cfinfo.frameInfo.contentSize;
        DISPLAY("%-16d\t%-20lu\t%-20llu\t%-8.4f\t%s\n",cfinfo.frameInfo.blockChecksumFlag,cfinfo.fileSize,cfinfo.frameInfo.contentSize, ratio, cfinfo.fileName);
    }
    else{
        DISPLAY("%-16d\t%-20lu\t%-20s\t%-10s\t%s\n",cfinfo.frameInfo.blockChecksumFlag,cfinfo.fileSize, "-", "-", cfinfo.fileName);
    }
  }
  return op_result;
}