bzip2recover.c - platform/external/bzip2 - Git at Google

 /*-----------------------------------------------------------*/
 /*--- Block recoverer program for bzip2                   ---*/
 /*---                                      bzip2recover.c ---*/
 /*-----------------------------------------------------------*/

 /* ------------------------------------------------------------------
    This file is part of bzip2/libbzip2, a program and library for
    lossless, block-sorting data compression.

    bzip2/libbzip2 version 1.0.6 of 6 September 2010
    Copyright (C) 1996-2010 Julian Seward <jseward@bzip.org>

    Please read the WARNING, DISCLAIMER and PATENTS sections in the
    README file.

    This program is released under the terms of the license contained
    in the file LICENSE.
    ------------------------------------------------------------------ */

 /* This program is a complete hack and should be rewritten properly.
 	 It isn't very complicated. */

 #include <stdio.h>
 #include <errno.h>
 #include <stdlib.h>
 #include <string.h>


 /* This program records bit locations in the file to be recovered.
    That means that if 64-bit ints are not supported, we will not
    be able to recover .bz2 files over 512MB (2^32 bits) long.
    On GNU supported platforms, we take advantage of the 64-bit
    int support to circumvent this problem.  Ditto MSVC.

    This change occurred in version 1.0.2; all prior versions have
    the 512MB limitation.
 */
 #ifdef __GNUC__
    typedef  unsigned long long int  MaybeUInt64;
 #  define MaybeUInt64_FMT "%Lu"
 #else
 #ifdef _MSC_VER
    typedef  unsigned __int64  MaybeUInt64;
 #  define MaybeUInt64_FMT "%I64u"
 #else
    typedef  unsigned int   MaybeUInt64;
 #  define MaybeUInt64_FMT "%u"
 #endif
 #endif

 typedef  unsigned int   UInt32;
 typedef  int            Int32;
 typedef  unsigned char  UChar;
 typedef  char           Char;
 typedef  unsigned char  Bool;
 #define True    ((Bool)1)
 #define False   ((Bool)0)


 #define BZ_MAX_FILENAME 2000

 Char inFileName[BZ_MAX_FILENAME];
 Char outFileName[BZ_MAX_FILENAME];
 Char progName[BZ_MAX_FILENAME];

 MaybeUInt64 bytesOut = 0;
 MaybeUInt64 bytesIn  = 0;


 /*---------------------------------------------------*/
 /*--- Header bytes                                ---*/
 /*---------------------------------------------------*/

 #define BZ_HDR_B 0x42                         /* 'B' */
 #define BZ_HDR_Z 0x5a                         /* 'Z' */
 #define BZ_HDR_h 0x68                         /* 'h' */
 #define BZ_HDR_0 0x30                         /* '0' */


 /*---------------------------------------------------*/
 /*--- I/O errors                                  ---*/
 /*---------------------------------------------------*/

 /*---------------------------------------------*/
 static void readError ( void )
 {
    fprintf ( stderr,
              "%s: I/O error reading `%s', possible reason follows.\n",
             progName, inFileName );
    perror ( progName );
    fprintf ( stderr, "%s: warning: output file(s) may be incomplete.\n",
              progName );
    exit ( 1 );
 }


 /*---------------------------------------------*/
 static void writeError ( void )
 {
    fprintf ( stderr,
              "%s: I/O error reading `%s', possible reason follows.\n",
             progName, inFileName );
    perror ( progName );
    fprintf ( stderr, "%s: warning: output file(s) may be incomplete.\n",
              progName );
    exit ( 1 );
 }


 /*---------------------------------------------*/
 static void mallocFail ( Int32 n )
 {
    fprintf ( stderr,
              "%s: malloc failed on request for %d bytes.\n",
             progName, n );
    fprintf ( stderr, "%s: warning: output file(s) may be incomplete.\n",
              progName );
    exit ( 1 );
 }


 /*---------------------------------------------*/
 static void tooManyBlocks ( Int32 max_handled_blocks )
 {
    fprintf ( stderr,
              "%s: `%s' appears to contain more than %d blocks\n",
             progName, inFileName, max_handled_blocks );
    fprintf ( stderr,
              "%s: and cannot be handled.  To fix, increase\n",
              progName );
    fprintf ( stderr,
              "%s: BZ_MAX_HANDLED_BLOCKS in bzip2recover.c, and recompile.\n",
              progName );
    exit ( 1 );
 }


 /*---------------------------------------------------*/
 /*--- Bit stream I/O                              ---*/
 /*---------------------------------------------------*/

 typedef
    struct {
       FILE*  handle;
       Int32  buffer;
       Int32  buffLive;
       Char   mode;
    }
    BitStream;


 /*---------------------------------------------*/
 static BitStream* bsOpenReadStream ( FILE* stream )
 {
    BitStream *bs = malloc ( sizeof(BitStream) );
    if (bs == NULL) mallocFail ( sizeof(BitStream) );
    bs->handle = stream;
    bs->buffer = 0;
    bs->buffLive = 0;
    bs->mode = 'r';
    return bs;
 }


 /*---------------------------------------------*/
 static BitStream* bsOpenWriteStream ( FILE* stream )
 {
    BitStream *bs = malloc ( sizeof(BitStream) );
    if (bs == NULL) mallocFail ( sizeof(BitStream) );
    bs->handle = stream;
    bs->buffer = 0;
    bs->buffLive = 0;
    bs->mode = 'w';
    return bs;
 }


 /*---------------------------------------------*/
 static void bsPutBit ( BitStream* bs, Int32 bit )
 {
    if (bs->buffLive == 8) {
       Int32 retVal = putc ( (UChar) bs->buffer, bs->handle );
       if (retVal == EOF) writeError();
       bytesOut++;
       bs->buffLive = 1;
       bs->buffer = bit & 0x1;
    } else {
       bs->buffer = ( (bs->buffer << 1) | (bit & 0x1) );
       bs->buffLive++;
    };
 }


 /*---------------------------------------------*/
 /*--
    Returns 0 or 1, or 2 to indicate EOF.
 --*/
 static Int32 bsGetBit ( BitStream* bs )
 {
    if (bs->buffLive > 0) {
       bs->buffLive --;
       return ( ((bs->buffer) >> (bs->buffLive)) & 0x1 );
    } else {
       Int32 retVal = getc ( bs->handle );
       if ( retVal == EOF ) {
          if (errno != 0) readError();
          return 2;
       }
       bs->buffLive = 7;
       bs->buffer = retVal;
       return ( ((bs->buffer) >> 7) & 0x1 );
    }
 }


 /*---------------------------------------------*/
 static void bsClose ( BitStream* bs )
 {
    Int32 retVal;

    if ( bs->mode == 'w' ) {
       while ( bs->buffLive < 8 ) {
          bs->buffLive++;
          bs->buffer <<= 1;
       };
       retVal = putc ( (UChar) (bs->buffer), bs->handle );
       if (retVal == EOF) writeError();
       bytesOut++;
       retVal = fflush ( bs->handle );
       if (retVal == EOF) writeError();
    }
    retVal = fclose ( bs->handle );
    if (retVal == EOF) {
       if (bs->mode == 'w') writeError(); else readError();
    }
    free ( bs );
 }


 /*---------------------------------------------*/
 static void bsPutUChar ( BitStream* bs, UChar c )
 {
    Int32 i;
    for (i = 7; i >= 0; i--)
       bsPutBit ( bs, (((UInt32) c) >> i) & 0x1 );
 }


 /*---------------------------------------------*/
 static void bsPutUInt32 ( BitStream* bs, UInt32 c )
 {
    Int32 i;

    for (i = 31; i >= 0; i--)
       bsPutBit ( bs, (c >> i) & 0x1 );
 }


 /*---------------------------------------------*/
 static Bool endsInBz2 ( Char* name )
 {
    Int32 n = strlen ( name );
    if (n <= 4) return False;
    return
       (name[n-4] == '.' &&
        name[n-3] == 'b' &&
        name[n-2] == 'z' &&
        name[n-1] == '2');
 }


 /*---------------------------------------------------*/
 /*---                                             ---*/
 /*---------------------------------------------------*/

 /* This logic isn't really right when it comes to Cygwin. */
 #ifdef _WIN32
 #  define  BZ_SPLIT_SYM  '\\'  /* path splitter on Windows platform */
 #else
 #  define  BZ_SPLIT_SYM  '/'   /* path splitter on Unix platform */
 #endif

 #define BLOCK_HEADER_HI  0x00003141UL
 #define BLOCK_HEADER_LO  0x59265359UL

 #define BLOCK_ENDMARK_HI 0x00001772UL
 #define BLOCK_ENDMARK_LO 0x45385090UL

 /* Increase if necessary.  However, a .bz2 file with > 50000 blocks
    would have an uncompressed size of at least 40GB, so the chances
    are low you'll need to up this.
 */
 #define BZ_MAX_HANDLED_BLOCKS 50000

 MaybeUInt64 bStart [BZ_MAX_HANDLED_BLOCKS];
 MaybeUInt64 bEnd   [BZ_MAX_HANDLED_BLOCKS];
 MaybeUInt64 rbStart[BZ_MAX_HANDLED_BLOCKS];
 MaybeUInt64 rbEnd  [BZ_MAX_HANDLED_BLOCKS];

 Int32 main ( Int32 argc, Char** argv )
 {
    FILE*       inFile;
    FILE*       outFile;
    BitStream*  bsIn, *bsWr;
    Int32       b, wrBlock, currBlock, rbCtr;
    MaybeUInt64 bitsRead;

    UInt32      buffHi, buffLo, blockCRC;
    Char*       p;

    strcpy ( progName, argv[0] );
    inFileName[0] = outFileName[0] = 0;

    fprintf ( stderr,
              "bzip2recover 1.0.6: extracts blocks from damaged .bz2 files.\n" );

    if (argc != 2) {
       fprintf ( stderr, "%s: usage is `%s damaged_file_name'.\n",
                         progName, progName );
       switch (sizeof(MaybeUInt64)) {
          case 8:
             fprintf(stderr,
                     "\trestrictions on size of recovered file: None\n");
             break;
          case 4:
             fprintf(stderr,
                     "\trestrictions on size of recovered file: 512 MB\n");
             fprintf(stderr,
                     "\tto circumvent, recompile with MaybeUInt64 as an\n"
                     "\tunsigned 64-bit int.\n");
             break;
          default:
             fprintf(stderr,
                     "\tsizeof(MaybeUInt64) is not 4 or 8 -- "
                     "configuration error.\n");
             break;
       }
       exit(1);
    }

    if (strlen(argv[1]) >= BZ_MAX_FILENAME-20) {
       fprintf ( stderr,
                 "%s: supplied filename is suspiciously (>= %d chars) long.  Bye!\n",
                 progName, (int)strlen(argv[1]) );
       exit(1);
    }

    strcpy ( inFileName, argv[1] );

    inFile = fopen ( inFileName, "rb" );
    if (inFile == NULL) {
       fprintf ( stderr, "%s: can't read `%s'\n", progName, inFileName );
       exit(1);
    }

    bsIn = bsOpenReadStream ( inFile );
    fprintf ( stderr, "%s: searching for block boundaries ...\n", progName );

    bitsRead = 0;
    buffHi = buffLo = 0;
    currBlock = 0;
    bStart[currBlock] = 0;

    rbCtr = 0;

    while (True) {
       b = bsGetBit ( bsIn );
       bitsRead++;
       if (b == 2) {
          if (bitsRead >= bStart[currBlock] &&
             (bitsRead - bStart[currBlock]) >= 40) {
             bEnd[currBlock] = bitsRead-1;
             if (currBlock > 0)
                fprintf ( stderr, "   block %d runs from " MaybeUInt64_FMT
                                  " to " MaybeUInt64_FMT " (incomplete)\n",
                          currBlock,  bStart[currBlock], bEnd[currBlock] );
          } else
             currBlock--;
          break;
       }
       buffHi = (buffHi << 1) | (buffLo >> 31);
       buffLo = (buffLo << 1) | (b & 1);
       if ( ( (buffHi & 0x0000ffff) == BLOCK_HEADER_HI
              && buffLo == BLOCK_HEADER_LO)
            ||
            ( (buffHi & 0x0000ffff) == BLOCK_ENDMARK_HI
              && buffLo == BLOCK_ENDMARK_LO)
          ) {
          if (bitsRead > 49) {
             bEnd[currBlock] = bitsRead-49;
          } else {
             bEnd[currBlock] = 0;
          }
          if (currBlock > 0 &&
 	     (bEnd[currBlock] - bStart[currBlock]) >= 130) {
             fprintf ( stderr, "   block %d runs from " MaybeUInt64_FMT
                               " to " MaybeUInt64_FMT "\n",
                       rbCtr+1,  bStart[currBlock], bEnd[currBlock] );
             rbStart[rbCtr] = bStart[currBlock];
             rbEnd[rbCtr] = bEnd[currBlock];
             rbCtr++;
          }
          if (currBlock >= BZ_MAX_HANDLED_BLOCKS)
             tooManyBlocks(BZ_MAX_HANDLED_BLOCKS);
          currBlock++;

          bStart[currBlock] = bitsRead;
       }
    }

    bsClose ( bsIn );

    /*-- identified blocks run from 1 to rbCtr inclusive. --*/

    if (rbCtr < 1) {
       fprintf ( stderr,
                 "%s: sorry, I couldn't find any block boundaries.\n",
                 progName );
       exit(1);
    };

    fprintf ( stderr, "%s: splitting into blocks\n", progName );

    inFile = fopen ( inFileName, "rb" );
    if (inFile == NULL) {
       fprintf ( stderr, "%s: can't open `%s'\n", progName, inFileName );
       exit(1);
    }
    bsIn = bsOpenReadStream ( inFile );

    /*-- placate gcc's dataflow analyser --*/
    blockCRC = 0; bsWr = 0;

    bitsRead = 0;
    outFile = NULL;
    wrBlock = 0;
    while (True) {
       b = bsGetBit(bsIn);
       if (b == 2) break;
       buffHi = (buffHi << 1) | (buffLo >> 31);
       buffLo = (buffLo << 1) | (b & 1);
       if (bitsRead == 47+rbStart[wrBlock])
          blockCRC = (buffHi << 16) | (buffLo >> 16);

       if (outFile != NULL && bitsRead >= rbStart[wrBlock]
                           && bitsRead <= rbEnd[wrBlock]) {
          bsPutBit ( bsWr, b );
       }

       bitsRead++;

       if (bitsRead == rbEnd[wrBlock]+1) {
          if (outFile != NULL) {
             bsPutUChar ( bsWr, 0x17 ); bsPutUChar ( bsWr, 0x72 );
             bsPutUChar ( bsWr, 0x45 ); bsPutUChar ( bsWr, 0x38 );
             bsPutUChar ( bsWr, 0x50 ); bsPutUChar ( bsWr, 0x90 );
             bsPutUInt32 ( bsWr, blockCRC );
             bsClose ( bsWr );
          }
          if (wrBlock >= rbCtr) break;
          wrBlock++;
       } else
       if (bitsRead == rbStart[wrBlock]) {
          /* Create the output file name, correctly handling leading paths.
             (31.10.2001 by Sergey E. Kusikov) */
          Char* split;
          Int32 ofs, k;
          for (k = 0; k < BZ_MAX_FILENAME; k++)
             outFileName[k] = 0;
          strcpy (outFileName, inFileName);
          split = strrchr (outFileName, BZ_SPLIT_SYM);
          if (split == NULL) {
             split = outFileName;
          } else {
             ++split;
 	 }
 	 /* Now split points to the start of the basename. */
          ofs  = split - outFileName;
          sprintf (split, "rec%5d", wrBlock+1);
          for (p = split; *p != 0; p++) if (*p == ' ') *p = '0';
          strcat (outFileName, inFileName + ofs);

          if ( !endsInBz2(outFileName)) strcat ( outFileName, ".bz2" );

          fprintf ( stderr, "   writing block %d to `%s' ...\n",
                            wrBlock+1, outFileName );

          outFile = fopen ( outFileName, "wb" );
          if (outFile == NULL) {
             fprintf ( stderr, "%s: can't write `%s'\n",
                       progName, outFileName );
             exit(1);
          }
          bsWr = bsOpenWriteStream ( outFile );
          bsPutUChar ( bsWr, BZ_HDR_B );
          bsPutUChar ( bsWr, BZ_HDR_Z );
          bsPutUChar ( bsWr, BZ_HDR_h );
          bsPutUChar ( bsWr, BZ_HDR_0 + 9 );
          bsPutUChar ( bsWr, 0x31 ); bsPutUChar ( bsWr, 0x41 );
          bsPutUChar ( bsWr, 0x59 ); bsPutUChar ( bsWr, 0x26 );
          bsPutUChar ( bsWr, 0x53 ); bsPutUChar ( bsWr, 0x59 );
       }
    }

    fprintf ( stderr, "%s: finished\n", progName );
    return 0;
 }


 /*-----------------------------------------------------------*/
 /*--- end                                  bzip2recover.c ---*/
 /*-----------------------------------------------------------*/
	/-----------------------------------------------------------/
	/--- Block recoverer program for bzip2 ---/
	/--- bzip2recover.c ---/
	/-----------------------------------------------------------/

	/* ------------------------------------------------------------------
	This file is part of bzip2/libbzip2, a program and library for
	lossless, block-sorting data compression.

	bzip2/libbzip2 version 1.0.6 of 6 September 2010
	Copyright (C) 1996-2010 Julian Seward <jseward@bzip.org>

	Please read the WARNING, DISCLAIMER and PATENTS sections in the
	README file.

	This program is released under the terms of the license contained
	in the file LICENSE.
	------------------------------------------------------------------ */

	/* This program is a complete hack and should be rewritten properly.
	It isn't very complicated. */

	#include <stdio.h>
	#include <errno.h>
	#include <stdlib.h>
	#include <string.h>


	/* This program records bit locations in the file to be recovered.
	That means that if 64-bit ints are not supported, we will not
	be able to recover .bz2 files over 512MB (2^32 bits) long.
	On GNU supported platforms, we take advantage of the 64-bit
	int support to circumvent this problem. Ditto MSVC.

	This change occurred in version 1.0.2; all prior versions have
	the 512MB limitation.
	*/
	#ifdef __GNUC__
	typedef unsigned long long int MaybeUInt64;
	# define MaybeUInt64_FMT "%Lu"
	#else
	#ifdef _MSC_VER
	typedef unsigned __int64 MaybeUInt64;
	# define MaybeUInt64_FMT "%I64u"
	#else
	typedef unsigned int MaybeUInt64;
	# define MaybeUInt64_FMT "%u"
	#endif
	#endif

	typedef unsigned int UInt32;
	typedef int Int32;
	typedef unsigned char UChar;
	typedef char Char;
	typedef unsigned char Bool;
	#define True ((Bool)1)
	#define False ((Bool)0)


	#define BZ_MAX_FILENAME 2000

	Char inFileName[BZ_MAX_FILENAME];
	Char outFileName[BZ_MAX_FILENAME];
	Char progName[BZ_MAX_FILENAME];

	MaybeUInt64 bytesOut = 0;
	MaybeUInt64 bytesIn = 0;


	/---------------------------------------------------/
	/--- Header bytes ---/
	/---------------------------------------------------/

	#define BZ_HDR_B 0x42 /* 'B' */
	#define BZ_HDR_Z 0x5a /* 'Z' */
	#define BZ_HDR_h 0x68 /* 'h' */
	#define BZ_HDR_0 0x30 /* '0' */


	/---------------------------------------------------/
	/--- I/O errors ---/
	/---------------------------------------------------/

	/---------------------------------------------/
	static void readError ( void )
	{
	fprintf ( stderr,
	"%s: I/O error reading `%s', possible reason follows.\n",
	progName, inFileName );
	perror ( progName );
	fprintf ( stderr, "%s: warning: output file(s) may be incomplete.\n",
	progName );
	exit ( 1 );
	}


	/---------------------------------------------/
	static void writeError ( void )
	{
	fprintf ( stderr,
	"%s: I/O error reading `%s', possible reason follows.\n",
	progName, inFileName );
	perror ( progName );
	fprintf ( stderr, "%s: warning: output file(s) may be incomplete.\n",
	progName );
	exit ( 1 );
	}


	/---------------------------------------------/
	static void mallocFail ( Int32 n )
	{
	fprintf ( stderr,
	"%s: malloc failed on request for %d bytes.\n",
	progName, n );
	fprintf ( stderr, "%s: warning: output file(s) may be incomplete.\n",
	progName );
	exit ( 1 );
	}


	/---------------------------------------------/
	static void tooManyBlocks ( Int32 max_handled_blocks )
	{
	fprintf ( stderr,
	"%s: `%s' appears to contain more than %d blocks\n",
	progName, inFileName, max_handled_blocks );
	fprintf ( stderr,
	"%s: and cannot be handled. To fix, increase\n",
	progName );
	fprintf ( stderr,
	"%s: BZ_MAX_HANDLED_BLOCKS in bzip2recover.c, and recompile.\n",
	progName );
	exit ( 1 );
	}



	/---------------------------------------------------/
	/--- Bit stream I/O ---/
	/---------------------------------------------------/

	typedef
	struct {
	FILE* handle;
	Int32 buffer;
	Int32 buffLive;
	Char mode;
	}
	BitStream;


	/---------------------------------------------/
	static BitStream* bsOpenReadStream ( FILE* stream )
	{
	BitStream *bs = malloc ( sizeof(BitStream) );
	if (bs == NULL) mallocFail ( sizeof(BitStream) );
	bs->handle = stream;
	bs->buffer = 0;
	bs->buffLive = 0;
	bs->mode = 'r';
	return bs;
	}


	/---------------------------------------------/
	static BitStream* bsOpenWriteStream ( FILE* stream )
	{
	BitStream *bs = malloc ( sizeof(BitStream) );
	if (bs == NULL) mallocFail ( sizeof(BitStream) );
	bs->handle = stream;
	bs->buffer = 0;
	bs->buffLive = 0;
	bs->mode = 'w';
	return bs;
	}


	/---------------------------------------------/
	static void bsPutBit ( BitStream* bs, Int32 bit )
	{
	if (bs->buffLive == 8) {
	Int32 retVal = putc ( (UChar) bs->buffer, bs->handle );
	if (retVal == EOF) writeError();
	bytesOut++;
	bs->buffLive = 1;
	bs->buffer = bit & 0x1;
	} else {
	bs->buffer = ( (bs->buffer << 1) \| (bit & 0x1) );
	bs->buffLive++;
	};
	}


	/---------------------------------------------/
	/*--
	Returns 0 or 1, or 2 to indicate EOF.
	--*/
	static Int32 bsGetBit ( BitStream* bs )
	{
	if (bs->buffLive > 0) {
	bs->buffLive --;
	return ( ((bs->buffer) >> (bs->buffLive)) & 0x1 );
	} else {
	Int32 retVal = getc ( bs->handle );
	if ( retVal == EOF ) {
	if (errno != 0) readError();
	return 2;
	}
	bs->buffLive = 7;
	bs->buffer = retVal;
	return ( ((bs->buffer) >> 7) & 0x1 );
	}
	}


	/---------------------------------------------/
	static void bsClose ( BitStream* bs )
	{
	Int32 retVal;

	if ( bs->mode == 'w' ) {
	while ( bs->buffLive < 8 ) {
	bs->buffLive++;
	bs->buffer <<= 1;
	};
	retVal = putc ( (UChar) (bs->buffer), bs->handle );
	if (retVal == EOF) writeError();
	bytesOut++;
	retVal = fflush ( bs->handle );
	if (retVal == EOF) writeError();
	}
	retVal = fclose ( bs->handle );
	if (retVal == EOF) {
	if (bs->mode == 'w') writeError(); else readError();
	}
	free ( bs );
	}


	/---------------------------------------------/
	static void bsPutUChar ( BitStream* bs, UChar c )
	{
	Int32 i;
	for (i = 7; i >= 0; i--)
	bsPutBit ( bs, (((UInt32) c) >> i) & 0x1 );
	}


	/---------------------------------------------/
	static void bsPutUInt32 ( BitStream* bs, UInt32 c )
	{
	Int32 i;

	for (i = 31; i >= 0; i--)
	bsPutBit ( bs, (c >> i) & 0x1 );
	}


	/---------------------------------------------/
	static Bool endsInBz2 ( Char* name )
	{
	Int32 n = strlen ( name );
	if (n <= 4) return False;
	return
	(name[n-4] == '.' &&
	name[n-3] == 'b' &&
	name[n-2] == 'z' &&
	name[n-1] == '2');
	}


	/---------------------------------------------------/
	/--- ---/
	/---------------------------------------------------/

	/* This logic isn't really right when it comes to Cygwin. */
	#ifdef _WIN32
	# define BZ_SPLIT_SYM '\\' /* path splitter on Windows platform */
	#else
	# define BZ_SPLIT_SYM '/' /* path splitter on Unix platform */
	#endif

	#define BLOCK_HEADER_HI 0x00003141UL
	#define BLOCK_HEADER_LO 0x59265359UL

	#define BLOCK_ENDMARK_HI 0x00001772UL
	#define BLOCK_ENDMARK_LO 0x45385090UL

	/* Increase if necessary. However, a .bz2 file with > 50000 blocks
	would have an uncompressed size of at least 40GB, so the chances
	are low you'll need to up this.
	*/
	#define BZ_MAX_HANDLED_BLOCKS 50000

	MaybeUInt64 bStart [BZ_MAX_HANDLED_BLOCKS];
	MaybeUInt64 bEnd [BZ_MAX_HANDLED_BLOCKS];
	MaybeUInt64 rbStart[BZ_MAX_HANDLED_BLOCKS];
	MaybeUInt64 rbEnd [BZ_MAX_HANDLED_BLOCKS];

	Int32 main ( Int32 argc, Char** argv )
	{
	FILE* inFile;
	FILE* outFile;
	BitStream* bsIn, *bsWr;
	Int32 b, wrBlock, currBlock, rbCtr;
	MaybeUInt64 bitsRead;

	UInt32 buffHi, buffLo, blockCRC;
	Char* p;

	strcpy ( progName, argv[0] );
	inFileName[0] = outFileName[0] = 0;

	fprintf ( stderr,
	"bzip2recover 1.0.6: extracts blocks from damaged .bz2 files.\n" );

	if (argc != 2) {
	fprintf ( stderr, "%s: usage is `%s damaged_file_name'.\n",
	progName, progName );
	switch (sizeof(MaybeUInt64)) {
	case 8:
	fprintf(stderr,
	"\trestrictions on size of recovered file: None\n");
	break;
	case 4:
	fprintf(stderr,
	"\trestrictions on size of recovered file: 512 MB\n");
	fprintf(stderr,
	"\tto circumvent, recompile with MaybeUInt64 as an\n"
	"\tunsigned 64-bit int.\n");
	break;
	default:
	fprintf(stderr,
	"\tsizeof(MaybeUInt64) is not 4 or 8 -- "
	"configuration error.\n");
	break;
	}
	exit(1);
	}

	if (strlen(argv[1]) >= BZ_MAX_FILENAME-20) {
	fprintf ( stderr,
	"%s: supplied filename is suspiciously (>= %d chars) long. Bye!\n",
	progName, (int)strlen(argv[1]) );
	exit(1);
	}

	strcpy ( inFileName, argv[1] );

	inFile = fopen ( inFileName, "rb" );
	if (inFile == NULL) {
	fprintf ( stderr, "%s: can't read `%s'\n", progName, inFileName );
	exit(1);
	}

	bsIn = bsOpenReadStream ( inFile );
	fprintf ( stderr, "%s: searching for block boundaries ...\n", progName );

	bitsRead = 0;
	buffHi = buffLo = 0;
	currBlock = 0;
	bStart[currBlock] = 0;

	rbCtr = 0;

	while (True) {
	b = bsGetBit ( bsIn );
	bitsRead++;
	if (b == 2) {
	if (bitsRead >= bStart[currBlock] &&
	(bitsRead - bStart[currBlock]) >= 40) {
	bEnd[currBlock] = bitsRead-1;
	if (currBlock > 0)
	fprintf ( stderr, " block %d runs from " MaybeUInt64_FMT
	" to " MaybeUInt64_FMT " (incomplete)\n",
	currBlock, bStart[currBlock], bEnd[currBlock] );
	} else
	currBlock--;
	break;
	}
	buffHi = (buffHi << 1) \| (buffLo >> 31);
	buffLo = (buffLo << 1) \| (b & 1);
	if ( ( (buffHi & 0x0000ffff) == BLOCK_HEADER_HI
	&& buffLo == BLOCK_HEADER_LO)
	\|\|
	( (buffHi & 0x0000ffff) == BLOCK_ENDMARK_HI
	&& buffLo == BLOCK_ENDMARK_LO)
	) {
	if (bitsRead > 49) {
	bEnd[currBlock] = bitsRead-49;
	} else {
	bEnd[currBlock] = 0;
	}
	if (currBlock > 0 &&
	(bEnd[currBlock] - bStart[currBlock]) >= 130) {
	fprintf ( stderr, " block %d runs from " MaybeUInt64_FMT
	" to " MaybeUInt64_FMT "\n",
	rbCtr+1, bStart[currBlock], bEnd[currBlock] );
	rbStart[rbCtr] = bStart[currBlock];
	rbEnd[rbCtr] = bEnd[currBlock];
	rbCtr++;
	}
	if (currBlock >= BZ_MAX_HANDLED_BLOCKS)
	tooManyBlocks(BZ_MAX_HANDLED_BLOCKS);
	currBlock++;

	bStart[currBlock] = bitsRead;
	}
	}

	bsClose ( bsIn );

	/-- identified blocks run from 1 to rbCtr inclusive. --/

	if (rbCtr < 1) {
	fprintf ( stderr,
	"%s: sorry, I couldn't find any block boundaries.\n",
	progName );
	exit(1);
	};

	fprintf ( stderr, "%s: splitting into blocks\n", progName );

	inFile = fopen ( inFileName, "rb" );
	if (inFile == NULL) {
	fprintf ( stderr, "%s: can't open `%s'\n", progName, inFileName );
	exit(1);
	}
	bsIn = bsOpenReadStream ( inFile );

	/-- placate gcc's dataflow analyser --/
	blockCRC = 0; bsWr = 0;

	bitsRead = 0;
	outFile = NULL;
	wrBlock = 0;
	while (True) {
	b = bsGetBit(bsIn);
	if (b == 2) break;
	buffHi = (buffHi << 1) \| (buffLo >> 31);
	buffLo = (buffLo << 1) \| (b & 1);
	if (bitsRead == 47+rbStart[wrBlock])
	blockCRC = (buffHi << 16) \| (buffLo >> 16);

	if (outFile != NULL && bitsRead >= rbStart[wrBlock]
	&& bitsRead <= rbEnd[wrBlock]) {
	bsPutBit ( bsWr, b );
	}

	bitsRead++;

	if (bitsRead == rbEnd[wrBlock]+1) {
	if (outFile != NULL) {
	bsPutUChar ( bsWr, 0x17 ); bsPutUChar ( bsWr, 0x72 );
	bsPutUChar ( bsWr, 0x45 ); bsPutUChar ( bsWr, 0x38 );
	bsPutUChar ( bsWr, 0x50 ); bsPutUChar ( bsWr, 0x90 );
	bsPutUInt32 ( bsWr, blockCRC );
	bsClose ( bsWr );
	}
	if (wrBlock >= rbCtr) break;
	wrBlock++;
	} else
	if (bitsRead == rbStart[wrBlock]) {
	/* Create the output file name, correctly handling leading paths.
	(31.10.2001 by Sergey E. Kusikov) */
	Char* split;
	Int32 ofs, k;
	for (k = 0; k < BZ_MAX_FILENAME; k++)
	outFileName[k] = 0;
	strcpy (outFileName, inFileName);
	split = strrchr (outFileName, BZ_SPLIT_SYM);
	if (split == NULL) {
	split = outFileName;
	} else {
	++split;
	}
	/* Now split points to the start of the basename. */
	ofs = split - outFileName;
	sprintf (split, "rec%5d", wrBlock+1);
	for (p = split; p != 0; p++) if (p == ' ') *p = '0';
	strcat (outFileName, inFileName + ofs);

	if ( !endsInBz2(outFileName)) strcat ( outFileName, ".bz2" );

	fprintf ( stderr, " writing block %d to `%s' ...\n",
	wrBlock+1, outFileName );

	outFile = fopen ( outFileName, "wb" );
	if (outFile == NULL) {
	fprintf ( stderr, "%s: can't write `%s'\n",
	progName, outFileName );
	exit(1);
	}
	bsWr = bsOpenWriteStream ( outFile );
	bsPutUChar ( bsWr, BZ_HDR_B );
	bsPutUChar ( bsWr, BZ_HDR_Z );
	bsPutUChar ( bsWr, BZ_HDR_h );
	bsPutUChar ( bsWr, BZ_HDR_0 + 9 );
	bsPutUChar ( bsWr, 0x31 ); bsPutUChar ( bsWr, 0x41 );
	bsPutUChar ( bsWr, 0x59 ); bsPutUChar ( bsWr, 0x26 );
	bsPutUChar ( bsWr, 0x53 ); bsPutUChar ( bsWr, 0x59 );
	}
	}

	fprintf ( stderr, "%s: finished\n", progName );
	return 0;
	}



	/-----------------------------------------------------------/
	/--- end bzip2recover.c ---/
	/-----------------------------------------------------------/