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path: root/src/Common/Inflate.c
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/* inflate.c -- put in the public domain by Mark Adler */

/* Decompresses raw data compressed using the DEFLATE algorithm (RFC 1951) */

/* You can do whatever you like with this source file, though I would
   prefer that if you modify it and redistribute it that you include
   comments to that effect with your name and the date.  Thank you.

   History:
   vers    date          who           what
   ----  ---------  --------------  ------------------------------------
    a    ~~ Feb 92  M. Adler        used full (large, one-step) lookup table
    b1   21 Mar 92  M. Adler        first version with partial lookup tables
    b2   21 Mar 92  M. Adler        fixed bug in fixed-code blocks
    b3   22 Mar 92  M. Adler        sped up match copies, cleaned up some
    b4   25 Mar 92  M. Adler        added prototypes; removed window[] (now
                                    is the responsibility of unzip.h--also
                                    changed name to slide[]), so needs diffs
                                    for unzip.c and unzip.h (this allows
                                    compiling in the small model on MSDOS);
                                    fixed cast of q in huft_build();
    b5   26 Mar 92  M. Adler        got rid of unintended macro recursion.
    b6   27 Mar 92  M. Adler        got rid of nextbyte() routine.  fixed
                                    bug in inflate_fixed().
    c1   30 Mar 92  M. Adler        removed lbits, dbits environment variables.
                                    changed BMAX to 16 for explode.  Removed
                                    OUTB usage, and replaced it with flush()--
                                    this was a 20% speed improvement!  Added
                                    an explode.c (to replace unimplod.c) that
                                    uses the huft routines here.  Removed
                                    register union.
    c2    4 Apr 92  M. Adler        fixed bug for file sizes a multiple of 32k.
    c3   10 Apr 92  M. Adler        reduced memory of code tables made by
                                    huft_build significantly (factor of two to
                                    three).
    c4   15 Apr 92  M. Adler        added NOMEMCPY do kill use of memcpy().
                                    worked around a Turbo C optimization bug.
    c5   21 Apr 92  M. Adler        added the WSIZE #define to allow reducing
                                    the 32K window size for specialized
                                    applications.
    c6   31 May 92  M. Adler        added some typecasts to eliminate warnings
    c7   27 Jun 92  G. Roelofs      added some more typecasts (444:  MSC bug).
    c8    5 Oct 92  J-l. Gailly     added ifdef'd code to deal with PKZIP bug.
    c9    9 Oct 92  M. Adler        removed a memory error message (~line 416).
    c10  17 Oct 92  G. Roelofs      changed ULONG/UWORD/byte to ulg/ush/uch,
                                    removed old inflate, renamed inflate_entry
                                    to inflate, added Mark's fix to a comment.
   c10.5 14 Dec 92  M. Adler        fix up error messages for incomplete trees.
    c11   2 Jan 93  M. Adler        fixed bug in detection of incomplete
                                    tables, and removed assumption that EOB is
                                    the longest code (bad assumption).
    c12   3 Jan 93  M. Adler        make tables for fixed blocks only once.
    c13   5 Jan 93  M. Adler        allow all zero length codes (pkzip 2.04c
                                    outputs one zero length code for an empty
                                    distance tree).
    c14  12 Mar 93  M. Adler        made inflate.c standalone with the
                                    introduction of inflate.h.
   c14b  16 Jul 93  G. Roelofs      added (unsigned) typecast to w at 470.
   c14c  19 Jul 93  J. Bush         changed v[N_MAX], l[288], ll[28x+3x] arrays
                                    to static for Amiga.
   c14d  13 Aug 93  J-l. Gailly     de-complicatified Mark's c[*p++]++ thing.
   c14e   8 Oct 93  G. Roelofs      changed memset() to memzero().
   c14f  22 Oct 93  G. Roelofs      renamed quietflg to qflag; made Trace()
                                    conditional; added inflate_free().
   c14g  28 Oct 93  G. Roelofs      changed l/(lx+1) macro to pointer (Cray bug)
   c14h   7 Dec 93  C. Ghisler      huft_build() optimizations.
   c14i   9 Jan 94  A. Verheijen    set fixed_t{d,l} to NULL after freeing;
                    G. Roelofs      check NEXTBYTE macro for EOF.
   c14j  23 Jan 94  G. Roelofs      removed Ghisler "optimizations"; ifdef'd
                                    EOF check.
   c14k  27 Feb 94  G. Roelofs      added some typecasts to avoid warnings.
   c14l   9 Apr 94  G. Roelofs      fixed split comments on preprocessor lines
                                    to avoid bug in Encore compiler.
   c14m   7 Jul 94  P. Kienitz      modified to allow assembler version of
                                    inflate_codes() (define ASM_INFLATECODES)
   c14n  22 Jul 94  G. Roelofs      changed fprintf to macro for DLL versions
   c14o  23 Aug 94  C. Spieler      added a newline to a debug statement;
                    G. Roelofs      added another typecast to avoid MSC warning
   c14p   4 Oct 94  G. Roelofs      added (voidp *) cast to free() argument
   c14q  30 Oct 94  G. Roelofs      changed fprintf macro to MESSAGE()
   c14r   1 Nov 94  G. Roelofs      fixed possible redefinition of CHECK_EOF
   c14s   7 May 95  S. Maxwell      OS/2 DLL globals stuff incorporated;
                    P. Kienitz      "fixed" ASM_INFLATECODES macro/prototype
   c14t  18 Aug 95  G. Roelofs      added inflate() to use zlib functions;
                                    changed voidp to zvoid; moved huft_build()
                                    and huft_free() to end of file
   c14u   1 Oct 95  G. Roelofs      moved G into definition of MESSAGE macro
   c14v   8 Nov 95  P. Kienitz      changed ASM_INFLATECODES to use a regular
                                    call with __G__ instead of a macro
    c15   3 Aug 96  M. Adler        fixed bomb-bug on random input data (Adobe)
   c15b  24 Aug 96  M. Adler        more fixes for random input data
   c15c  28 Mar 97  G. Roelofs      changed USE_ZLIB fatal exit code from
                                    PK_MEM2 to PK_MEM3
    c16  20 Apr 97  J. Altman       added memzero(v[]) in huft_build()
   c16b  29 Mar 98  C. Spieler      modified DLL code for slide redirection

   fork	 12 Dec 07					Adapted for TrueCrypt
 */


/*
   Inflate deflated (PKZIP's method 8 compressed) data.  The compression
   method searches for as much of the current string of bytes (up to a
   length of 258) in the previous 32K bytes.  If it doesn't find any
   matches (of at least length 3), it codes the next byte.  Otherwise, it
   codes the length of the matched string and its distance backwards from
   the current position.  There is a single Huffman code that codes both
   single bytes (called "literals") and match lengths.  A second Huffman
   code codes the distance information, which follows a length code.  Each
   length or distance code actually represents a base value and a number
   of "extra" (sometimes zero) bits to get to add to the base value.  At
   the end of each deflated block is a special end-of-block (EOB) literal/
   length code.  The decoding process is basically: get a literal/length
   code; if EOB then done; if a literal, emit the decoded byte; if a
   length then get the distance and emit the referred-to bytes from the
   sliding window of previously emitted data.

   There are (currently) three kinds of inflate blocks: stored, fixed, and
   dynamic.  The compressor outputs a chunk of data at a time and decides
   which method to use on a chunk-by-chunk basis.  A chunk might typically
   be 32K to 64K, uncompressed.  If the chunk is uncompressible, then the
   "stored" method is used.  In this case, the bytes are simply stored as
   is, eight bits per byte, with none of the above coding.  The bytes are
   preceded by a count, since there is no longer an EOB code.

   If the data are compressible, then either the fixed or dynamic methods
   are used.  In the dynamic method, the compressed data are preceded by
   an encoding of the literal/length and distance Huffman codes that are
   to be used to decode this block.  The representation is itself Huffman
   coded, and so is preceded by a description of that code.  These code
   descriptions take up a little space, and so for small blocks, there is
   a predefined set of codes, called the fixed codes.  The fixed method is
   used if the block ends up smaller that way (usually for quite small
   chunks); otherwise the dynamic method is used.  In the latter case, the
   codes are customized to the probabilities in the current block and so
   can code it much better than the pre-determined fixed codes can.

   The Huffman codes themselves are decoded using a multi-level table
   lookup, in order to maximize the speed of decoding plus the speed of
   building the decoding tables.  See the comments below that precede the
   lbits and dbits tuning parameters.

   GRR:  return values(?)
           0  OK
           1  incomplete table
           2  bad input
           3  not enough memory
 */


/*
   Notes beyond the 1.93a appnote.txt:

   1. Distance pointers never point before the beginning of the output
      stream.
   2. Distance pointers can point back across blocks, up to 32k away.
   3. There is an implied maximum of 7 bits for the bit length table and
      15 bits for the actual data.
   4. If only one code exists, then it is encoded using one bit.  (Zero
      would be more efficient, but perhaps a little confusing.)  If two
      codes exist, they are coded using one bit each (0 and 1).
   5. There is no way of sending zero distance codes--a dummy must be
      sent if there are none.  (History: a pre 2.0 version of PKZIP would
      store blocks with no distance codes, but this was discovered to be
      too harsh a criterion.)  Valid only for 1.93a.  2.04c does allow
      zero distance codes, which is sent as one code of zero bits in
      length.
   6. There are up to 286 literal/length codes.  Code 256 represents the
      end-of-block.  Note however that the static length tree defines
      288 codes just to fill out the Huffman codes.  Codes 286 and 287
      cannot be used though, since there is no length base or extra bits
      defined for them.  Similarily, there are up to 30 distance codes.
      However, static trees define 32 codes (all 5 bits) to fill out the
      Huffman codes, but the last two had better not show up in the data.
   7. Unzip can check dynamic Huffman blocks for complete code sets.
      The exception is that a single code would not be complete (see #4).
   8. The five bits following the block type is really the number of
      literal codes sent minus 257.
   9. Length codes 8,16,16 are interpreted as 13 length codes of 8 bits
      (1+6+6).  Therefore, to output three times the length, you output
      three codes (1+1+1), whereas to output four times the same length,
      you only need two codes (1+3).  Hmm.
  10. In the tree reconstruction algorithm, Code = Code + Increment
      only if BitLength(i) is not zero.  (Pretty obvious.)
  11. Correction: 4 Bits: # of Bit Length codes - 4     (4 - 19)
  12. Note: length code 284 can represent 227-258, but length code 285
      really is 258.  The last length deserves its own, short code
      since it gets used a lot in very redundant files.  The length
      258 is special since 258 - 3 (the min match length) is 255.
  13. The literal/length and distance code bit lengths are read as a
      single stream of lengths.  It is possible (and advantageous) for
      a repeat code (16, 17, or 18) to go across the boundary between
      the two sets of lengths.
 */


/* #define DEBUG */
#define INFMOD          /* tell inflate.h to include code to be compiled */
#include "inflate.h"


#ifndef WSIZE           /* default is 32K */
#  define WSIZE 0x8000  /* window size--must be a power of two, and at least */
#endif                  /* 32K for zip's deflate method */

#if (defined(DLL) && !defined(NO_SLIDE_REDIR))
#  define wsize G._wsize    /* wsize is a variable */
#else
#  define wsize WSIZE       /* wsize is a constant */
#endif


#ifndef NEXTBYTE        /* default is to simply get a byte from stdin */
#  define NEXTBYTE getchar()
#endif

#ifndef MESSAGE   /* only used twice, for fixed strings--NOT general-purpose */
#  define MESSAGE(str,len,flag)  fprintf(stderr,(char *)(str))
#endif

#ifndef FLUSH           /* default is to simply write the buffer to stdout */
#  define FLUSH(n) fwrite(redirSlide, 1, n, stdout)  /* return value not used */
#endif
/* Warning: the fwrite above might not work on 16-bit compilers, since
   0x8000 might be interpreted as -32,768 by the library function. */

#ifndef Trace
#  ifdef DEBUG
#    define Trace(x) fprintf x
#  else
#    define Trace(x)
#  endif
#endif

G_struct G;
uch redirSlide [WSIZE];

/*---------------------------------------------------------------------------*/
#ifdef USE_ZLIB


/*
   GRR:  return values for both original inflate() and inflate()
           0  OK
           1  incomplete table(?)
           2  bad input
           3  not enough memory
 */

/**************************/
/*  Function inflate()  */
/**************************/

int inflate(__G)   /* decompress an inflated entry using the zlib routines */
    __GDEF
{
    int err=Z_OK;

#if (defined(DLL) && !defined(NO_SLIDE_REDIR))
    if (G.redirect_slide)
        wsize = G.redirect_size, redirSlide = G.redirect_buffer;
    else
        wsize = WSIZE, redirSlide = slide;
#endif

    G.dstrm.next_out = redirSlide;
    G.dstrm.avail_out = wsize;

    G.dstrm.next_in = G.inptr;
    G.dstrm.avail_in = G.incnt;

    if (!G.inflInit) {
        unsigned i;
        int windowBits;

        /* only need to test this stuff once */
        if (zlib_version[0] != ZLIB_VERSION[0]) {
            Info(slide, 0x21, ((char *)slide,
              "error:  incompatible zlib version (expected %s, found %s)\n",
              ZLIB_VERSION, zlib_version));
            return 3;
        } else if (strcmp(zlib_version, ZLIB_VERSION) != 0)
            Info(slide, 0x21, ((char *)slide,
              "warning:  different zlib version (expected %s, using %s)\n",
              ZLIB_VERSION, zlib_version));

        /* windowBits = log2(wsize) */
        for (i = ((unsigned)wsize * 2 - 1), windowBits = 0;
             !(i & 1);  i >>= 1, ++windowBits);
        if ((unsigned)windowBits > (unsigned)15)
            windowBits = 15;
        else if (windowBits < 8)
            windowBits = 8;

        G.dstrm.zalloc = (alloc_func)Z_NULL;
        G.dstrm.zfree = (free_func)Z_NULL;

        Trace((stderr, "initializing inflate()\n"));
        err = inflateInit2(&G.dstrm, -windowBits);

        if (err == Z_MEM_ERROR)
            return 3;
        else if (err != Z_OK)
            Trace((stderr, "oops!  (inflateInit2() err = %d)\n", err));
        G.inflInit = 1;
    }

#ifdef FUNZIP
    while (err != Z_STREAM_END) {
#else /* !FUNZIP */
    while (G.csize > 0) {
        Trace((stderr, "first loop:  G.csize = %ld\n", G.csize));
#endif /* ?FUNZIP */
        while (G.dstrm.avail_out > 0) {
            err = inflate(&G.dstrm, Z_PARTIAL_FLUSH);

            if (err == Z_DATA_ERROR)
                return 2;
            else if (err == Z_MEM_ERROR)
                return 3;
            else if (err != Z_OK && err != Z_STREAM_END)
                Trace((stderr, "oops!  (inflate(first loop) err = %d)\n", err));

#ifdef FUNZIP
            if (err == Z_STREAM_END)    /* "END-of-entry-condition" ? */
#else /* !FUNZIP */
            if (G.csize <= 0L)          /* "END-of-entry-condition" ? */
#endif /* ?FUNZIP */
                break;

            if (G.dstrm.avail_in <= 0) {
                if (fillinbuf(__G) == 0)
                    return 2;  /* no "END-condition" yet, but no more data */

                G.dstrm.next_in = G.inptr;
                G.dstrm.avail_in = G.incnt;
            }
            Trace((stderr, "     avail_in = %d\n", G.dstrm.avail_in));
        }
        FLUSH(wsize - G.dstrm.avail_out);   /* flush slide[] */
        Trace((stderr, "inside loop:  flushing %ld bytes (ptr diff = %ld)\n",
          (long)(wsize - G.dstrm.avail_out),
          (long)(G.dstrm.next_out-(Bytef *)redirSlide)));
        G.dstrm.next_out = redirSlide;
        G.dstrm.avail_out = wsize;
    }

    /* no more input, so loop until we have all output */
    Trace((stderr, "beginning final loop:  err = %d\n", err));
    while (err != Z_STREAM_END) {
        err = inflate(&G.dstrm, Z_PARTIAL_FLUSH);
        if (err == Z_DATA_ERROR)
            return 2;
        else if (err == Z_MEM_ERROR)
            return 3;
        else if (err == Z_BUF_ERROR) {              /* DEBUG */
            Trace((stderr, "zlib inflate() did not detect stream end (%s, %s)\n"
              , G.zipfn, G.filename));
            break;
        } else if (err != Z_OK && err != Z_STREAM_END) {
            Trace((stderr, "oops!  (inflate(final loop) err = %d)\n", err));
            DESTROYGLOBALS()
            EXIT(PK_MEM3);
        }
        FLUSH(wsize - G.dstrm.avail_out);   /* final flush of slide[] */
        Trace((stderr, "final loop:  flushing %ld bytes (ptr diff = %ld)\n",
          (long)(wsize - G.dstrm.avail_out),
          (long)(G.dstrm.next_out-(Bytef *)redirSlide)));
        G.dstrm.next_out = redirSlide;
        G.dstrm.avail_out = wsize;
    }
    Trace((stderr, "total in = %ld, total out = %ld\n", G.dstrm.total_in,
      G.dstrm.total_out));

    G.inptr = (uch *)G.dstrm.next_in;
    G.incnt = (G.inbuf + INBUFSIZ) - G.inptr;  /* reset for other routines */

    err = inflateReset(&G.dstrm);
    if (err != Z_OK)
        Trace((stderr, "oops!  (inflateReset() err = %d)\n", err));

    return 0;
}


/*---------------------------------------------------------------------------*/
#else /* !USE_ZLIB */


/* Function prototypes */
#ifndef OF
#  ifdef __STDC__
#    define OF(a) a
#  else
#    define OF(a) ()
#  endif
#endif /* !OF */
int inflate_codes OF((__GPRO__ struct huft *tl, struct huft *td,
                      int bl, int bd));
static int inflate_stored OF((__GPRO));
static int inflate_fixed OF((__GPRO));
static int inflate_dynamic OF((__GPRO));
static int inflate_block OF((__GPRO__ int *e));


/* The inflate algorithm uses a sliding 32K byte window on the uncompressed
   stream to find repeated byte strings.  This is implemented here as a
   circular buffer.  The index is updated simply by incrementing and then
   and'ing with 0x7fff (32K-1). */
/* It is left to other modules to supply the 32K area.  It is assumed
   to be usable as if it were declared "uch slide[32768];" or as just
   "uch *slide;" and then malloc'ed in the latter case.  The definition
   must be in unzip.h, included above. */


/* unsigned wp;  moved to globals.h */     /* current position in slide */


/* Tables for deflate from PKZIP's appnote.txt. */
static ZCONST unsigned border[] = { /* Order of the bit length code lengths */
        16, 17, 18, 0, 8, 7, 9, 6, 10, 5, 11, 4, 12, 3, 13, 2, 14, 1, 15};
static ZCONST ush cplens[] = {  /* Copy lengths for literal codes 257..285 */
        3, 4, 5, 6, 7, 8, 9, 10, 11, 13, 15, 17, 19, 23, 27, 31,
        35, 43, 51, 59, 67, 83, 99, 115, 131, 163, 195, 227, 258, 0, 0};
        /* note: see note #13 above about the 258 in this list. */
static ZCONST ush cplext[] = {  /* Extra bits for literal codes 257..285 */
        0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 2, 2, 2, 2,
        3, 3, 3, 3, 4, 4, 4, 4, 5, 5, 5, 5, 0, 99, 99}; /* 99==invalid */
static ZCONST ush cpdist[] = {  /* Copy offsets for distance codes 0..29 */
        1, 2, 3, 4, 5, 7, 9, 13, 17, 25, 33, 49, 65, 97, 129, 193,
        257, 385, 513, 769, 1025, 1537, 2049, 3073, 4097, 6145,
        8193, 12289, 16385, 24577};
static ZCONST ush cpdext[] = {  /* Extra bits for distance codes */
        0, 0, 0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6,
        7, 7, 8, 8, 9, 9, 10, 10, 11, 11,
        12, 12, 13, 13};


/* moved to consts.h (included in unzip.c), resp. funzip.c */
#if 1
/* And'ing with mask_bits[n] masks the lower n bits */
ZCONST ush near mask_bits[] = {
    0x0000,
    0x0001, 0x0003, 0x0007, 0x000f, 0x001f, 0x003f, 0x007f, 0x00ff,
    0x01ff, 0x03ff, 0x07ff, 0x0fff, 0x1fff, 0x3fff, 0x7fff, 0xffff
};
#endif /* 0 */


/* Macros for inflate() bit peeking and grabbing.
   The usage is:

        NEEDBITS(j)
        x = b & mask_bits[j];
        DUMPBITS(j)

   where NEEDBITS makes sure that b has at least j bits in it, and
   DUMPBITS removes the bits from b.  The macros use the variable k
   for the number of bits in b.  Normally, b and k are register
   variables for speed and are initialized at the begining of a
   routine that uses these macros from a global bit buffer and count.

   In order to not ask for more bits than there are in the compressed
   stream, the Huffman tables are constructed to only ask for just
   enough bits to make up the end-of-block code (value 256).  Then no
   bytes need to be "returned" to the buffer at the end of the last
   block.  See the huft_build() routine.
 */

/* These have been moved to globals.h */
#if 0
ulg bb;                         /* bit buffer */
unsigned bk;                    /* bits in bit buffer */
#endif

#ifndef CHECK_EOF
#  define CHECK_EOF   /* default as of 5.13/5.2 */
#endif

#ifndef CHECK_EOF
#  define NEEDBITS(n) {while(k<(n)){b|=((ulg)NEXTBYTE)<<k;k+=8;}}
#else
#  define NEEDBITS(n) {while(k<(n)){int c=NEXTBYTE;if(c==EOF)return 1;\
    b|=((ulg)c)<<k;k+=8;}}
#endif                      /* Piet Plomp:  change "return 1" to "break" */

#define DUMPBITS(n) {b>>=(n);k-=(n);}


/*
   Huffman code decoding is performed using a multi-level table lookup.
   The fastest way to decode is to simply build a lookup table whose
   size is determined by the longest code.  However, the time it takes
   to build this table can also be a factor if the data being decoded
   are not very long.  The most common codes are necessarily the
   shortest codes, so those codes dominate the decoding time, and hence
   the speed.  The idea is you can have a shorter table that decodes the
   shorter, more probable codes, and then point to subsidiary tables for
   the longer codes.  The time it costs to decode the longer codes is
   then traded against the time it takes to make longer tables.

   This results of this trade are in the variables lbits and dbits
   below.  lbits is the number of bits the first level table for literal/
   length codes can decode in one step, and dbits is the same thing for
   the distance codes.  Subsequent tables are also less than or equal to
   those sizes.  These values may be adjusted either when all of the
   codes are shorter than that, in which case the longest code length in
   bits is used, or when the shortest code is *longer* than the requested
   table size, in which case the length of the shortest code in bits is
   used.

   There are two different values for the two tables, since they code a
   different number of possibilities each.  The literal/length table
   codes 286 possible values, or in a flat code, a little over eight
   bits.  The distance table codes 30 possible values, or a little less
   than five bits, flat.  The optimum values for speed end up being
   about one bit more than those, so lbits is 8+1 and dbits is 5+1.
   The optimum values may differ though from machine to machine, and
   possibly even between compilers.  Your mileage may vary.
 */

static ZCONST int lbits = 9;    /* bits in base literal/length lookup table */
static ZCONST int dbits = 6;    /* bits in base distance lookup table */


#ifndef ASM_INFLATECODES

#pragma warning(disable:4131)

int inflate_codes(__G__ tl, td, bl, bd)
     __GDEF
struct huft *tl, *td;   /* literal/length and distance decoder tables */
int bl, bd;             /* number of bits decoded by tl[] and td[] */
/* inflate (decompress) the codes in a deflated (compressed) block.
   Return an error code or zero if it all goes ok. */
{
  register unsigned e;  /* table entry flag/number of extra bits */
  unsigned n, d;        /* length and index for copy */
  unsigned w;           /* current window position */
  struct huft *t;       /* pointer to table entry */
  unsigned ml, md;      /* masks for bl and bd bits */
  register ulg b;       /* bit buffer */
  register unsigned k;  /* number of bits in bit buffer */


  /* make local copies of globals */
  b = G.bb;                       /* initialize bit buffer */
  k = G.bk;
  w = G.wp;                       /* initialize window position */


  /* inflate the coded data */
  ml = mask_bits[bl];           /* precompute masks for speed */
  md = mask_bits[bd];
  while (1)                     /* do until end of block */
  {
    NEEDBITS((unsigned)bl)
    if ((e = (t = tl + ((unsigned)b & ml))->e) > 16)
      do {
        if (e == 99)
          return 1;
        DUMPBITS(t->b)
        e -= 16;
        NEEDBITS(e)
      } while ((e = (t = t->v.t + ((unsigned)b & mask_bits[e]))->e) > 16);
    DUMPBITS(t->b)
    if (e == 16)                /* then it's a literal */
    {
      redirSlide[w++] = (uch)t->v.n;
      if (w == wsize)
      {
        FLUSH(w);
        w = 0;
      }
    }
    else                        /* it's an EOB or a length */
    {
      /* exit if end of block */
      if (e == 15)
        break;

      /* get length of block to copy */
      NEEDBITS(e)
      n = t->v.n + ((unsigned)b & mask_bits[e]);
      DUMPBITS(e);

      /* decode distance of block to copy */
      NEEDBITS((unsigned)bd)
      if ((e = (t = td + ((unsigned)b & md))->e) > 16)
        do {
          if (e == 99)
            return 1;
          DUMPBITS(t->b)
          e -= 16;
          NEEDBITS(e)
        } while ((e = (t = t->v.t + ((unsigned)b & mask_bits[e]))->e) > 16);
      DUMPBITS(t->b)
      NEEDBITS(e)
      d = w - t->v.n - ((unsigned)b & mask_bits[e]);
      DUMPBITS(e)

      /* do the copy */
      do {
#if (defined(DLL) && !defined(NO_SLIDE_REDIR))
        if (G.redirect_slide) {/* &= w/ wsize unnecessary & wrong if redirect */
          if (d >= wsize)
            return 1;           /* invalid compressed data */
          n -= (e = (e = wsize - (d > w ? d : w)) > n ? n : e);
        }
        else
#endif
          n -= (e = (e = wsize - ((d &= wsize-1) > w ? d : w)) > n ? n : e);
#ifndef NOMEMCPY
        if (w - d >= e)         /* (this test assumes unsigned comparison) */
        {
          memcpy(redirSlide + w, redirSlide + d, e);
          w += e;
          d += e;
        }
        else                    /* do it slowly to avoid memcpy() overlap */
#endif /* !NOMEMCPY */
          do {
            redirSlide[w++] = redirSlide[d++];
          } while (--e);
        if (w == wsize)
        {
          FLUSH(w);
          w = 0;
        }
      } while (n);
    }
  }


  /* restore the globals from the locals */
  G.wp = w;                       /* restore global window pointer */
  G.bb = b;                       /* restore global bit buffer */
  G.bk = k;


  /* done */
  return 0;
}

#endif /* ASM_INFLATECODES */



static int inflate_stored(__G)
     __GDEF
/* "decompress" an inflated type 0 (stored) block. */
{
  unsigned n;           /* number of bytes in block */
  unsigned w;           /* current window position */
  register ulg b;       /* bit buffer */
  register unsigned k;  /* number of bits in bit buffer */


  /* make local copies of globals */
  Trace((stderr, "\nstored block"));
  b = G.bb;                       /* initialize bit buffer */
  k = G.bk;
  w = G.wp;                       /* initialize window position */


  /* go to byte boundary */
  n = k & 7;
  DUMPBITS(n);


  /* get the length and its complement */
  NEEDBITS(16)
  n = ((unsigned)b & 0xffff);
  DUMPBITS(16)
  NEEDBITS(16)
  if (n != (unsigned)((~b) & 0xffff))
    return 1;                   /* error in compressed data */
  DUMPBITS(16)


  /* read and output the compressed data */
  while (n--)
  {
    NEEDBITS(8)
    redirSlide[w++] = (uch)b;
    if (w == wsize)
    {
      FLUSH(w);
      w = 0;
    }
    DUMPBITS(8)
  }


  /* restore the globals from the locals */
  G.wp = w;                       /* restore global window pointer */
  G.bb = b;                       /* restore global bit buffer */
  G.bk = k;
  return 0;
}


/* Globals for literal tables (built once) */
/* Moved to globals.h                      */
#if 0
struct huft *fixed_tl = (struct huft *)NULL;
struct huft *fixed_td;
int fixed_bl, fixed_bd;
#endif

static int inflate_fixed(__G)
     __GDEF
/* decompress an inflated type 1 (fixed Huffman codes) block.  We should
   either replace this with a custom decoder, or at least precompute the
   Huffman tables. */
{
  /* if first time, set up tables for fixed blocks */
  Trace((stderr, "\nliteral block"));
  if (G.fixed_tl == (struct huft *)NULL)
  {
    int i;                /* temporary variable */
    unsigned l[288];      /* length list for huft_build */

    /* literal table */
    for (i = 0; i < 144; i++)
      l[i] = 8;
    for (; i < 256; i++)
      l[i] = 9;
    for (; i < 280; i++)
      l[i] = 7;
    for (; i < 288; i++)          /* make a complete, but wrong code set */
      l[i] = 8;
    G.fixed_bl = 7;
    if ((i = huft_build(__G__ l, 288, 257, cplens, cplext,
                        &G.fixed_tl, &G.fixed_bl)) != 0)
    {
      G.fixed_tl = (struct huft *)NULL;
      return i;
    }

    /* distance table */
    for (i = 0; i < 30; i++)      /* make an incomplete code set */
      l[i] = 5;
    G.fixed_bd = 5;
    if ((i = huft_build(__G__ l, 30, 0, cpdist, cpdext,
                        &G.fixed_td, &G.fixed_bd)) > 1)
    {
      huft_free(G.fixed_tl);
      G.fixed_tl = (struct huft *)NULL;
      return i;
    }
  }

  /* decompress until an end-of-block code */
  return inflate_codes(__G__ G.fixed_tl, G.fixed_td,
                             G.fixed_bl, G.fixed_bd) != 0;
}



static int inflate_dynamic(__G)
  __GDEF
/* decompress an inflated type 2 (dynamic Huffman codes) block. */
{
  int i;                /* temporary variables */
  unsigned j;
  unsigned l;           /* last length */
  unsigned m;           /* mask for bit lengths table */
  unsigned n;           /* number of lengths to get */
  struct huft *tl;      /* literal/length code table */
  struct huft *td;      /* distance code table */
  int bl;               /* lookup bits for tl */
  int bd;               /* lookup bits for td */
  unsigned nb;          /* number of bit length codes */
  unsigned nl;          /* number of literal/length codes */
  unsigned nd;          /* number of distance codes */
#ifdef PKZIP_BUG_WORKAROUND
  unsigned ll[288+32]; /* literal/length and distance code lengths */
#else
  unsigned ll[286+30]; /* literal/length and distance code lengths */
#endif
  register ulg b;       /* bit buffer */
  register unsigned k;  /* number of bits in bit buffer */


  /* make local bit buffer */
  Trace((stderr, "\ndynamic block"));
  b = G.bb;
  k = G.bk;


  /* read in table lengths */
  NEEDBITS(5)
  nl = 257 + ((unsigned)b & 0x1f);      /* number of literal/length codes */
  DUMPBITS(5)
  NEEDBITS(5)
  nd = 1 + ((unsigned)b & 0x1f);        /* number of distance codes */
  DUMPBITS(5)
  NEEDBITS(4)
  nb = 4 + ((unsigned)b & 0xf);         /* number of bit length codes */
  DUMPBITS(4)
#ifdef PKZIP_BUG_WORKAROUND
  if (nl > 288 || nd > 32)
#else
  if (nl > 286 || nd > 30)
#endif
    return 1;                   /* bad lengths */


  /* read in bit-length-code lengths */
  for (j = 0; j < nb; j++)
  {
    NEEDBITS(3)
    ll[border[j]] = (unsigned)b & 7;
    DUMPBITS(3)
  }
  for (; j < 19; j++)
    ll[border[j]] = 0;


  /* build decoding table for trees--single level, 7 bit lookup */
  bl = 7;
  i = huft_build(__G__ ll, 19, 19, NULL, NULL, &tl, &bl);
  if (bl == 0)                        /* no bit lengths */
    i = 1;
  if (i)
  {
    if (i == 1)
      huft_free(tl);
    return i;                   /* incomplete code set */
  }


  /* read in literal and distance code lengths */
  n = nl + nd;
  m = mask_bits[bl];
  i = l = 0;
  while ((unsigned)i < n)
  {
    NEEDBITS((unsigned)bl)
    j = (td = tl + ((unsigned)b & m))->b;
    DUMPBITS(j)
    j = td->v.n;
    if (j < 16)                 /* length of code in bits (0..15) */
      ll[i++] = l = j;          /* save last length in l */
    else if (j == 16)           /* repeat last length 3 to 6 times */
    {
      NEEDBITS(2)
      j = 3 + ((unsigned)b & 3);
      DUMPBITS(2)
      if ((unsigned)i + j > n)
      {
        huft_free(tl);
        return 1;
      }
      while (j--)
        ll[i++] = l;
    }
    else if (j == 17)           /* 3 to 10 zero length codes */
    {
      NEEDBITS(3)
      j = 3 + ((unsigned)b & 7);
      DUMPBITS(3)
      if ((unsigned)i + j > n)
      {
        huft_free(tl);
        return 1;
      }
      while (j--)
        ll[i++] = 0;
      l = 0;
    }
    else                        /* j == 18: 11 to 138 zero length codes */
    {
      NEEDBITS(7)
      j = 11 + ((unsigned)b & 0x7f);
      DUMPBITS(7)
      if ((unsigned)i + j > n)
      {
        huft_free(tl);
        return 1;
      }
      while (j--)
        ll[i++] = 0;
      l = 0;
    }
  }


  /* free decoding table for trees */
  huft_free(tl);


  /* restore the global bit buffer */
  G.bb = b;
  G.bk = k;


  /* build the decoding tables for literal/length and distance codes */
  bl = lbits;
  i = huft_build(__G__ ll, nl, 257, cplens, cplext, &tl, &bl);
  if (bl == 0)                        /* no literals or lengths */
    i = 1;
  if (i)
  {
    if (i == 1) {
      //if (!uO.qflag)
        MESSAGE((uch *)"(incomplete l-tree)  ", 21L, 1);
      huft_free(tl);
    }
    return i;                   /* incomplete code set */
  }
  bd = dbits;
  i = huft_build(__G__ ll + nl, nd, 0, cpdist, cpdext, &td, &bd);
  if (bd == 0 && nl > 257)    /* lengths but no distances */
  {
    //if (!uO.qflag)
      MESSAGE((uch *)"(incomplete d-tree)  ", 21L, 1);
    huft_free(tl);
    huft_free(td);
    return 1;
  }
  if (i == 1) {
#ifdef PKZIP_BUG_WORKAROUND
    i = 0;
#else
    //if (!uO.qflag)
      MESSAGE((uch *)"(incomplete d-tree)  ", 21L, 1);
    huft_free(td);
    td = NULL;
#endif
  }
  if (i)
  {
    huft_free(tl);
    return i;
  }


  /* decompress until an end-of-block code */
  i = inflate_codes(__G__ tl, td, bl, bd);

  /* free the decoding tables, return */
  huft_free(tl);
  huft_free(td);

  if (i)
    return 1;

  return 0;
}



static int inflate_block(__G__ e)
  __GDEF
  int *e;               /* last block flag */
/* decompress an inflated block */
{
  unsigned t;           /* block type */
  register ulg b;       /* bit buffer */
  register unsigned k;  /* number of bits in bit buffer */


  /* make local bit buffer */
  b = G.bb;
  k = G.bk;


  /* read in last block bit */
  NEEDBITS(1)
  *e = (int)b & 1;
  DUMPBITS(1)


  /* read in block type */
  NEEDBITS(2)
  t = (unsigned)b & 3;
  DUMPBITS(2)


  /* restore the global bit buffer */
  G.bb = b;
  G.bk = k;


  /* inflate that block type */
  if (t == 2)
    return inflate_dynamic(__G);
  if (t == 0)
    return inflate_stored(__G);
  if (t == 1)
    return inflate_fixed(__G);


  /* bad block type */
  return 2;
}



int inflate(__G)
     __GDEF
/* decompress an inflated entry */
{
  int e;                /* last block flag */
  int r;                /* result code */
//#ifdef DEBUG
//  unsigned h = 0;       /* maximum struct huft's malloc'ed */
//#endif

#if (defined(DLL) && !defined(NO_SLIDE_REDIR))
  if (G.redirect_slide)
    wsize = G.redirect_size, redirSlide = G.redirect_buffer;
  else
    wsize = WSIZE, redirSlide = slide;   /* how they're #defined if !DLL */
#endif

  /* initialize window, bit buffer */
  G.wp = 0;
  G.bk = 0;
  G.bb = 0;


  /* decompress until the last block */
  do {
//#ifdef DEBUG
//    G.hufts = 0;
//#endif
    if ((r = inflate_block(__G__ &e)) != 0)
      return r;
//#ifdef DEBUG
//    if (G.hufts > h)
//      h = G.hufts;
//#endif
  } while (!e);


  /* flush out redirSlide */
  FLUSH(G.wp);


  /* return success */
  //Trace((stderr, "\n%u bytes in Huffman tables (%d/entry)\n",
  //       h * sizeof(struct huft), sizeof(struct huft)));
  return 0;
}



int inflate_free(__G)
     __GDEF
{
  if (G.fixed_tl != (struct huft *)NULL)
  {
    huft_free(G.fixed_td);
    huft_free(G.fixed_tl);
    G.fixed_td = G.fixed_tl = (struct huft *)NULL;
  }
  return 0;
}

#endif /* ?USE_ZLIB */


/*
 * GRR:  moved huft_build() and huft_free() down here; used by explode()
 *       and fUnZip regardless of whether USE_ZLIB defined or not
 */


/* If BMAX needs to be larger than 16, then h and x[] should be ulg. */
#define BMAX 16         /* maximum bit length of any code (16 for explode) */
#define N_MAX 288       /* maximum number of codes in any set */


int huft_build(
  __GDEF
  ZCONST unsigned *b,   /* code lengths in bits (all assumed <= BMAX) */
  unsigned n,           /* number of codes (assumed <= N_MAX) */
  unsigned s,           /* number of simple-valued codes (0..s-1) */
  ZCONST ush *d,        /* list of base values for non-simple codes */
  ZCONST ush *e,        /* list of extra bits for non-simple codes */
  struct huft **t,      /* result: starting table */
  int *m                /* maximum lookup bits, returns actual */
  )
/* Given a list of code lengths and a maximum table size, make a set of
   tables to decode that set of codes.  Return zero on success, one if
   the given code set is incomplete (the tables are still built in this
   case), two if the input is invalid (all zero length codes or an
   oversubscribed set of lengths), and three if not enough memory.
   The code with value 256 is special, and the tables are constructed
   so that no bits beyond that code are fetched when that code is
   decoded. */
{
  unsigned a;                   /* counter for codes of length k */
  unsigned c[BMAX+1];           /* bit length count table */
  unsigned el;                  /* length of EOB code (value 256) */
  unsigned f;                   /* i repeats in table every f entries */
  int g;                        /* maximum code length */
  int h;                        /* table level */
  register unsigned i;          /* counter, current code */
  register unsigned j;          /* counter */
  register int k;               /* number of bits in current code */
  int lx[BMAX+1];               /* memory for l[-1..BMAX-1] */
  int *l = lx+1;                /* stack of bits per table */
  register unsigned *p;         /* pointer into c[], b[], or v[] */
  register struct huft *q;      /* points to current table */
  struct huft r;                /* table entry for structure assignment */
  struct huft *u[BMAX];         /* table stack */
  unsigned v[N_MAX];            /* values in order of bit length */
  register int w;               /* bits before this table == (l * h) */
  unsigned x[BMAX+1];           /* bit offsets, then code stack */
  unsigned *xp;                 /* pointer into x */
  int y;                        /* number of dummy codes added */
  unsigned z;                   /* number of entries in current table */


  /* Generate counts for each bit length */
  el = n > 256 ? b[256] : BMAX; /* set length of EOB code, if any */
  memset(c, 0, sizeof(c));
  p = (unsigned *)b;  i = n;
  do {
    c[*p]++; p++;               /* assume all entries <= BMAX */
  } while (--i);
  if (c[0] == n)                /* null input--all zero length codes */
  {
    *t = (struct huft *)NULL;
    *m = 0;
    return 0;
  }


  /* Find minimum and maximum length, bound *m by those */
  for (j = 1; j <= BMAX; j++)
    if (c[j])
      break;
  k = j;                        /* minimum code length */
  if ((unsigned)*m < j)
    *m = j;
  for (i = BMAX; i; i--)
    if (c[i])
      break;
  g = i;                        /* maximum code length */
  if ((unsigned)*m > i)
    *m = i;


  /* Adjust last length count to fill out codes, if needed */
  for (y = 1 << j; j < i; j++, y <<= 1)
    if ((y -= c[j]) < 0)
      return 2;                 /* bad input: more codes than bits */
  if ((y -= c[i]) < 0)
    return 2;
  c[i] += y;


  /* Generate starting offsets into the value table for each length */
  x[1] = j = 0;
  p = c + 1;  xp = x + 2;
  while (--i) {                 /* note that i == g from above */
    *xp++ = (j += *p++);
  }


  /* Make a table of values in order of bit lengths */
  memset(v, 0, sizeof(v));
  p = (unsigned *)b;  i = 0;
  do {
    if ((j = *p++) != 0)
      v[x[j]++] = i;
  } while (++i < n);
  n = x[g];                     /* set n to length of v */


  /* Generate the Huffman codes and for each, make the table entries */
  x[0] = i = 0;                 /* first Huffman code is zero */
  p = v;                        /* grab values in bit order */
  h = -1;                       /* no tables yet--level -1 */
  w = l[-1] = 0;                /* no bits decoded yet */
  u[0] = (struct huft *)NULL;   /* just to keep compilers happy */
  q = (struct huft *)NULL;      /* ditto */
  z = 0;                        /* ditto */

  /* go through the bit lengths (k already is bits in shortest code) */
  for (; k <= g; k++)
  {
    a = c[k];
    while (a--)
    {
      /* here i is the Huffman code of length k bits for value *p */
      /* make tables up to required level */
      while (k > w + l[h])
      {
        w += l[h++];            /* add bits already decoded */

        /* compute minimum size table less than or equal to *m bits */
        z = (z = g - w) > (unsigned)*m ? *m : z;        /* upper limit */
        if ((f = 1 << (j = k - w)) > a + 1)     /* try a k-w bit table */
        {                       /* too few codes for k-w bit table */
          f -= a + 1;           /* deduct codes from patterns left */
          xp = c + k;
          while (++j < z)       /* try smaller tables up to z bits */
          {
            if ((f <<= 1) <= *++xp)
              break;            /* enough codes to use up j bits */
            f -= *xp;           /* else deduct codes from patterns */
          }
        }
        if ((unsigned)w + j > el && (unsigned)w < el)
          j = el - w;           /* make EOB code end at table */
        z = 1 << j;             /* table entries for j-bit table */
        l[h] = j;               /* set table size in stack */

        /* allocate and link in new table */
        if ((q = (struct huft *)malloc((z + 1)*sizeof(struct huft))) ==
            (struct huft *)NULL)
        {
          if (h)
            huft_free(u[0]);
          return 3;             /* not enough memory */
        }
//#ifdef DEBUG
//        G.hufts += z + 1;         /* track memory usage */
//#endif
        *t = q + 1;             /* link to list for huft_free() */
        *(t = &(q->v.t)) = (struct huft *)NULL;
        u[h] = ++q;             /* table starts after link */

        /* connect to last table, if there is one */
        if (h)
        {
          x[h] = i;             /* save pattern for backing up */
          r.b = (uch)l[h-1];    /* bits to dump before this table */
          r.e = (uch)(16 + j);  /* bits in this table */
          r.v.t = q;            /* pointer to this table */
          j = (i & ((1 << w) - 1)) >> (w - l[h-1]);
          u[h-1][j] = r;        /* connect to last table */
        }
      }

      /* set up table entry in r */
      r.b = (uch)(k - w);
      if (p >= v + n)
        r.e = 99;               /* out of values--invalid code */
      else if (*p < s)
      {
        r.e = (uch)(*p < 256 ? 16 : 15);  /* 256 is end-of-block code */
        r.v.n = (ush)*p++;                /* simple code is just the value */
      }
      else
      {
        r.e = (uch)e[*p - s];   /* non-simple--look up in lists */
        r.v.n = d[*p++ - s];
      }

      /* fill code-like entries with r */
      f = 1 << (k - w);
      for (j = i >> w; j < z; j += f)
        q[j] = r;

      /* backwards increment the k-bit code i */
      for (j = 1 << (k - 1); i & j; j >>= 1)
        i ^= j;
      i ^= j;

      /* backup over finished tables */
      while ((i & ((1 << w) - 1)) != x[h])
        w -= l[--h];            /* don't need to update q */
    }
  }


  /* return actual size of base table */
  *m = l[0];


  /* Return true (1) if we were given an incomplete table */
  return y != 0 && g != 1;
}



int huft_free (struct huft *t)
         /* table to free */
/* Free the malloc'ed tables built by huft_build(), which makes a linked
   list of the tables it made, with the links in a dummy first entry of
   each table. */
{
  register struct huft *p, *q;


  /* Go through linked list, freeing from the malloced (t[-1]) address. */
  p = t;
  while (p != (struct huft *)NULL)
  {
    q = (--p)->v.t;
    free((zvoid *)p);
    p = q;
  }
  return 0;
}


// Main public function. Decompresses raw data compressed using the DEFLATE algorithm (RFC 1951 - e.g. zlib, gzip).
// Returns 0 if decompression fails or, if successful, returns the size of the decompressed data.
int DecompressDeflatedData (char *out, char *in, int inLength)
{
	G.outbufptr = out;
    G.inptr = in;
    G.incnt = inLength;
	G.outCounter = 0;

	if (inflate(__G) != 0)
	{
		// Error decompressing
		return 0;
	}
	return G.outCounter;
}
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