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Add libmspack to rbutil

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Change-Id: I520c14131ec1e12013f106c13cba00aac058ad83
Reviewed-on: http://gerrit.rockbox.org/391
Reviewed-by: Dominik Riebeling <Dominik.Riebeling@gmail.com>
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Amaury Pouly 2013-03-11 18:46:03 +01:00 committed by Dominik Riebeling
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This folder contains the mspack project for MS files compression/decompression.
These files are distributed under the LGPL.
The source files have been last synced with libmspack-0.3alpha
http://sourceforge.net/projects/libmspack/on January 28, 2013

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/* This file is part of libmspack.
* (C) 2003-2004 Stuart Caie.
*
* libmspack is free software; you can redistribute it and/or modify it under
* the terms of the GNU Lesser General Public License (LGPL) version 2.1
*
* For further details, see the file COPYING.LIB distributed with libmspack
*/
#ifndef MSPACK_CAB_H
#define MSPACK_CAB_H 1
#include <mszip.h>
#include <qtm.h>
#include <lzx.h>
/* generic CAB definitions */
/* structure offsets */
#define cfhead_Signature (0x00)
#define cfhead_CabinetSize (0x08)
#define cfhead_FileOffset (0x10)
#define cfhead_MinorVersion (0x18)
#define cfhead_MajorVersion (0x19)
#define cfhead_NumFolders (0x1A)
#define cfhead_NumFiles (0x1C)
#define cfhead_Flags (0x1E)
#define cfhead_SetID (0x20)
#define cfhead_CabinetIndex (0x22)
#define cfhead_SIZEOF (0x24)
#define cfheadext_HeaderReserved (0x00)
#define cfheadext_FolderReserved (0x02)
#define cfheadext_DataReserved (0x03)
#define cfheadext_SIZEOF (0x04)
#define cffold_DataOffset (0x00)
#define cffold_NumBlocks (0x04)
#define cffold_CompType (0x06)
#define cffold_SIZEOF (0x08)
#define cffile_UncompressedSize (0x00)
#define cffile_FolderOffset (0x04)
#define cffile_FolderIndex (0x08)
#define cffile_Date (0x0A)
#define cffile_Time (0x0C)
#define cffile_Attribs (0x0E)
#define cffile_SIZEOF (0x10)
#define cfdata_CheckSum (0x00)
#define cfdata_CompressedSize (0x04)
#define cfdata_UncompressedSize (0x06)
#define cfdata_SIZEOF (0x08)
/* flags */
#define cffoldCOMPTYPE_MASK (0x000f)
#define cffoldCOMPTYPE_NONE (0x0000)
#define cffoldCOMPTYPE_MSZIP (0x0001)
#define cffoldCOMPTYPE_QUANTUM (0x0002)
#define cffoldCOMPTYPE_LZX (0x0003)
#define cfheadPREV_CABINET (0x0001)
#define cfheadNEXT_CABINET (0x0002)
#define cfheadRESERVE_PRESENT (0x0004)
#define cffileCONTINUED_FROM_PREV (0xFFFD)
#define cffileCONTINUED_TO_NEXT (0xFFFE)
#define cffileCONTINUED_PREV_AND_NEXT (0xFFFF)
/* CAB data blocks are <= 32768 bytes in uncompressed form. Uncompressed
* blocks have zero growth. MSZIP guarantees that it won't grow above
* uncompressed size by more than 12 bytes. LZX guarantees it won't grow
* more than 6144 bytes. Quantum has no documentation, but the largest
* block seen in the wild is 337 bytes above uncompressed size.
*/
#define CAB_BLOCKMAX (32768)
#define CAB_INPUTMAX (CAB_BLOCKMAX+6144)
/* CAB compression definitions */
struct mscab_compressor_p {
struct mscab_compressor base;
struct mspack_system *system;
/* todo */
};
/* CAB decompression definitions */
struct mscabd_decompress_state {
struct mscabd_folder_p *folder; /* current folder we're extracting from */
struct mscabd_folder_data *data; /* current folder split we're in */
unsigned int offset; /* uncompressed offset within folder */
unsigned int block; /* which block are we decompressing? */
struct mspack_system sys; /* special I/O code for decompressor */
int comp_type; /* type of compression used by folder */
int (*decompress)(void *, off_t); /* decompressor code */
void *state; /* decompressor state */
struct mscabd_cabinet_p *incab; /* cabinet where input data comes from */
struct mspack_file *infh; /* input file handle */
struct mspack_file *outfh; /* output file handle */
unsigned char *i_ptr, *i_end; /* input data consumed, end */
unsigned char input[CAB_INPUTMAX]; /* one input block of data */
};
struct mscab_decompressor_p {
struct mscab_decompressor base;
struct mscabd_decompress_state *d;
struct mspack_system *system;
int param[3]; /* !!! MATCH THIS TO NUM OF PARAMS IN MSPACK.H !!! */
int error, read_error;
};
struct mscabd_cabinet_p {
struct mscabd_cabinet base;
off_t blocks_off; /* offset to data blocks */
int block_resv; /* reserved space in data blocks */
};
/* there is one of these for every cabinet a folder spans */
struct mscabd_folder_data {
struct mscabd_folder_data *next;
struct mscabd_cabinet_p *cab; /* cabinet file of this folder span */
off_t offset; /* cabinet offset of first datablock */
};
struct mscabd_folder_p {
struct mscabd_folder base;
struct mscabd_folder_data data; /* where are the data blocks? */
struct mscabd_file *merge_prev; /* first file needing backwards merge */
struct mscabd_file *merge_next; /* first file needing forwards merge */
};
#endif

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/* This file is part of libmspack.
* (C) 2003-2004 Stuart Caie.
*
* libmspack is free software; you can redistribute it and/or modify it under
* the terms of the GNU Lesser General Public License (LGPL) version 2.1
*
* For further details, see the file COPYING.LIB distributed with libmspack
*/
/* CAB compression implementation */
#include <system.h>
#include <cab.h>
struct mscab_compressor *
mspack_create_cab_compressor(struct mspack_system *sys)
{
/* todo */
return NULL;
}
void mspack_destroy_cab_compressor(struct mscab_compressor *self) {
/* todo */
}

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/* This file is part of libmspack.
* (C) 2003-2004 Stuart Caie.
*
* libmspack is free software; you can redistribute it and/or modify it under
* the terms of the GNU Lesser General Public License (LGPL) version 2.1
*
* For further details, see the file COPYING.LIB distributed with libmspack
*/
#ifndef MSPACK_CHM_H
#define MSPACK_CHM_H 1
#include <lzx.h>
/* generic CHM definitions */
#define chmhead_Signature (0x0000)
#define chmhead_Version (0x0004)
#define chmhead_HeaderLen (0x0008)
#define chmhead_Unknown1 (0x000C)
#define chmhead_Timestamp (0x0010)
#define chmhead_LanguageID (0x0014)
#define chmhead_GUID1 (0x0018)
#define chmhead_GUID2 (0x0028)
#define chmhead_SIZEOF (0x0038)
#define chmhst_OffsetHS0 (0x0000)
#define chmhst_LengthHS0 (0x0008)
#define chmhst_OffsetHS1 (0x0010)
#define chmhst_LengthHS1 (0x0018)
#define chmhst_SIZEOF (0x0020)
#define chmhst3_OffsetCS0 (0x0020)
#define chmhst3_SIZEOF (0x0028)
#define chmhs0_Unknown1 (0x0000)
#define chmhs0_Unknown2 (0x0004)
#define chmhs0_FileLen (0x0008)
#define chmhs0_Unknown3 (0x0010)
#define chmhs0_Unknown4 (0x0014)
#define chmhs0_SIZEOF (0x0018)
#define chmhs1_Signature (0x0000)
#define chmhs1_Version (0x0004)
#define chmhs1_HeaderLen (0x0008)
#define chmhs1_Unknown1 (0x000C)
#define chmhs1_ChunkSize (0x0010)
#define chmhs1_Density (0x0014)
#define chmhs1_Depth (0x0018)
#define chmhs1_IndexRoot (0x001C)
#define chmhs1_FirstPMGL (0x0020)
#define chmhs1_LastPMGL (0x0024)
#define chmhs1_Unknown2 (0x0028)
#define chmhs1_NumChunks (0x002C)
#define chmhs1_LanguageID (0x0030)
#define chmhs1_GUID (0x0034)
#define chmhs1_Unknown3 (0x0044)
#define chmhs1_Unknown4 (0x0048)
#define chmhs1_Unknown5 (0x004C)
#define chmhs1_Unknown6 (0x0050)
#define chmhs1_SIZEOF (0x0054)
#define pmgl_Signature (0x0000)
#define pmgl_QuickRefSize (0x0004)
#define pmgl_Unknown1 (0x0008)
#define pmgl_PrevChunk (0x000C)
#define pmgl_NextChunk (0x0010)
#define pmgl_Entries (0x0014)
#define pmgl_headerSIZEOF (0x0014)
#define pmgi_Signature (0x0000)
#define pmgi_QuickRefSize (0x0004)
#define pmgi_Entries (0x0008)
#define pmgi_headerSIZEOF (0x000C)
#define lzxcd_Length (0x0000)
#define lzxcd_Signature (0x0004)
#define lzxcd_Version (0x0008)
#define lzxcd_ResetInterval (0x000C)
#define lzxcd_WindowSize (0x0010)
#define lzxcd_CacheSize (0x0014)
#define lzxcd_Unknown1 (0x0018)
#define lzxcd_SIZEOF (0x001C)
#define lzxrt_Unknown1 (0x0000)
#define lzxrt_NumEntries (0x0004)
#define lzxrt_EntrySize (0x0008)
#define lzxrt_TableOffset (0x000C)
#define lzxrt_UncompLen (0x0010)
#define lzxrt_CompLen (0x0018)
#define lzxrt_FrameLen (0x0020)
#define lzxrt_Entries (0x0028)
#define lzxrt_headerSIZEOF (0x0028)
/* CHM compression definitions */
struct mschm_compressor_p {
struct mschm_compressor base;
struct mspack_system *system;
char *temp_file;
int use_temp_file;
int error;
};
/* CHM decompression definitions */
struct mschmd_decompress_state {
struct mschmd_header *chm; /* CHM file being decompressed */
off_t offset; /* uncompressed offset within folder */
off_t inoffset; /* offset in input file */
struct lzxd_stream *state; /* LZX decompressor state */
struct mspack_system sys; /* special I/O code for decompressor */
struct mspack_file *infh; /* input file handle */
struct mspack_file *outfh; /* output file handle */
};
struct mschm_decompressor_p {
struct mschm_decompressor base;
struct mspack_system *system;
struct mschmd_decompress_state *d;
int error;
};
#endif

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/* This file is part of libmspack.
* (C) 2003-2004 Stuart Caie.
*
* libmspack is free software; you can redistribute it and/or modify it under
* the terms of the GNU Lesser General Public License (LGPL) version 2.1
*
* For further details, see the file COPYING.LIB distributed with libmspack
*/
/* CHM compression implementation */
#include <system.h>
#include <chm.h>
struct mschm_compressor *
mspack_create_chm_compressor(struct mspack_system *sys)
{
/* todo */
return NULL;
}
void mspack_destroy_chm_compressor(struct mschm_compressor *self) {
/* todo */
}

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/* This file is part of libmspack.
* (C) 2003-2004 Stuart Caie.
*
* libmspack is free software; you can redistribute it and/or modify it under
* the terms of the GNU Lesser General Public License (LGPL) version 2.1
*
* For further details, see the file COPYING.LIB distributed with libmspack
*/
#ifndef MSPACK_DES_H
#define MSPACK_DES_H 1
/* DES encryption / decryption definitions */
#endif

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/* This file is part of libmspack.
* (C) 2003-2004 Stuart Caie.
*
* libmspack is free software; you can redistribute it and/or modify it under
* the terms of the GNU Lesser General Public License (LGPL) version 2.1
*
* For further details, see the file COPYING.LIB distributed with libmspack
*/
#ifndef MSPACK_HLP_H
#define MSPACK_HLP_H 1
#include <lzss.h>
/* generic HLP definitions */
/* HLP compression definitions */
struct mshlp_compressor_p {
struct mshlp_compressor base;
struct mspack_system *system;
/* todo */
};
/* HLP decompression definitions */
struct mshlp_decompressor_p {
struct mshlp_decompressor base;
struct mspack_system *system;
/* todo */
};
#endif

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/* This file is part of libmspack.
* (C) 2003-2004 Stuart Caie.
*
* libmspack is free software; you can redistribute it and/or modify it under
* the terms of the GNU Lesser General Public License (LGPL) version 2.1
*
* For further details, see the file COPYING.LIB distributed with libmspack
*/
/* HLP compression implementation */
#include <system.h>
#include <hlp.h>
struct mshlp_compressor *
mspack_create_hlp_compressor(struct mspack_system *sys)
{
/* todo */
return NULL;
}
void mspack_destroy_hlp_compressor(struct mshlp_compressor *self) {
/* todo */
}

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/* This file is part of libmspack.
* (C) 2003-2004 Stuart Caie.
*
* libmspack is free software; you can redistribute it and/or modify it under
* the terms of the GNU Lesser General Public License (LGPL) version 2.1
*
* For further details, see the file COPYING.LIB distributed with libmspack
*/
/* HLP decompression implementation */
#include <system.h>
#include <hlp.h>
struct mshlp_decompressor *
mspack_create_hlp_decompressor(struct mspack_system *sys)
{
/* todo */
return NULL;
}
void mspack_destroy_hlp_decompressor(struct mshlp_decompressor *self) {
/* todo */
}

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/* This file is part of libmspack.
* (C) 2003-2010 Stuart Caie.
*
* libmspack is free software; you can redistribute it and/or modify it under
* the terms of the GNU Lesser General Public License (LGPL) version 2.1
*
* For further details, see the file COPYING.LIB distributed with libmspack
*/
#ifndef MSPACK_KWAJ_H
#define MSPACK_KWAJ_H 1
#include <lzss.h>
/* generic KWAJ definitions */
#define kwajh_Signature1 (0x00)
#define kwajh_Signature2 (0x04)
#define kwajh_CompMethod (0x08)
#define kwajh_DataOffset (0x0a)
#define kwajh_Flags (0x0c)
#define kwajh_SIZEOF (0x0e)
/* KWAJ compression definitions */
struct mskwaj_compressor_p {
struct mskwaj_compressor base;
struct mspack_system *system;
/* todo */
int param[2]; /* !!! MATCH THIS TO NUM OF PARAMS IN MSPACK.H !!! */
int error;
};
/* KWAJ decompression definitions */
struct mskwaj_decompressor_p {
struct mskwaj_decompressor base;
struct mspack_system *system;
int error;
};
struct mskwajd_header_p {
struct mskwajd_header base;
struct mspack_file *fh;
};
/* input buffer size during decompression - not worth parameterising IMHO */
#define KWAJ_INPUT_SIZE (2048)
/* huffman codes that are 9 bits or less are decoded immediately */
#define KWAJ_TABLEBITS (9)
/* number of codes in each huffman table */
#define KWAJ_MATCHLEN1_SYMS (16)
#define KWAJ_MATCHLEN2_SYMS (16)
#define KWAJ_LITLEN_SYMS (32)
#define KWAJ_OFFSET_SYMS (64)
#define KWAJ_LITERAL_SYMS (256)
/* define decoding table sizes */
#define KWAJ_TABLESIZE (1 << KWAJ_TABLEBITS)
#if KWAJ_TABLESIZE < (KWAJ_MATCHLEN1_SYMS * 2)
# define KWAJ_MATCHLEN1_TBLSIZE (KWAJ_MATCHLEN1_SYMS * 4)
#else
# define KWAJ_MATCHLEN1_TBLSIZE (KWAJ_TABLESIZE + (KWAJ_MATCHLEN1_SYMS * 2))
#endif
#if KWAJ_TABLESIZE < (KWAJ_MATCHLEN2_SYMS * 2)
# define KWAJ_MATCHLEN2_TBLSIZE (KWAJ_MATCHLEN2_SYMS * 4)
#else
# define KWAJ_MATCHLEN2_TBLSIZE (KWAJ_TABLESIZE + (KWAJ_MATCHLEN2_SYMS * 2))
#endif
#if KWAJ_TABLESIZE < (KWAJ_LITLEN_SYMS * 2)
# define KWAJ_LITLEN_TBLSIZE (KWAJ_LITLEN_SYMS * 4)
#else
# define KWAJ_LITLEN_TBLSIZE (KWAJ_TABLESIZE + (KWAJ_LITLEN_SYMS * 2))
#endif
#if KWAJ_TABLESIZE < (KWAJ_OFFSET_SYMS * 2)
# define KWAJ_OFFSET_TBLSIZE (KWAJ_OFFSET_SYMS * 4)
#else
# define KWAJ_OFFSET_TBLSIZE (KWAJ_TABLESIZE + (KWAJ_OFFSET_SYMS * 2))
#endif
#if KWAJ_TABLESIZE < (KWAJ_LITERAL_SYMS * 2)
# define KWAJ_LITERAL_TBLSIZE (KWAJ_LITERAL_SYMS * 4)
#else
# define KWAJ_LITERAL_TBLSIZE (KWAJ_TABLESIZE + (KWAJ_LITERAL_SYMS * 2))
#endif
struct kwajd_stream {
/* I/O buffering */
struct mspack_system *sys;
struct mspack_file *input;
struct mspack_file *output;
unsigned char *i_ptr, *i_end;
unsigned int bit_buffer, bits_left;
int input_end;
/* huffman code lengths */
unsigned char MATCHLEN1_len [KWAJ_MATCHLEN1_SYMS];
unsigned char MATCHLEN2_len [KWAJ_MATCHLEN2_SYMS];
unsigned char LITLEN_len [KWAJ_LITLEN_SYMS];
unsigned char OFFSET_len [KWAJ_OFFSET_SYMS];
unsigned char LITERAL_len [KWAJ_LITERAL_SYMS];
/* huffman decoding tables */
unsigned short MATCHLEN1_table [KWAJ_MATCHLEN1_TBLSIZE];
unsigned short MATCHLEN2_table [KWAJ_MATCHLEN2_TBLSIZE];
unsigned short LITLEN_table [KWAJ_LITLEN_TBLSIZE];
unsigned short OFFSET_table [KWAJ_OFFSET_TBLSIZE];
unsigned short LITERAL_table [KWAJ_LITERAL_TBLSIZE];
/* input buffer */
unsigned char inbuf[KWAJ_INPUT_SIZE];
/* history window */
unsigned char window[LZSS_WINDOW_SIZE];
};
#endif

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/* This file is part of libmspack.
* (C) 2003-2004 Stuart Caie.
*
* libmspack is free software; you can redistribute it and/or modify it under
* the terms of the GNU Lesser General Public License (LGPL) version 2.1
*
* For further details, see the file COPYING.LIB distributed with libmspack
*/
/* KWAJ compression implementation */
#include <system.h>
#include <kwaj.h>
struct mskwaj_compressor *
mspack_create_kwaj_compressor(struct mspack_system *sys)
{
/* todo */
return NULL;
}
void mspack_destroy_kwaj_compressor(struct mskwaj_compressor *self) {
/* todo */
}

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/* This file is part of libmspack.
* (C) 2003-2010 Stuart Caie.
*
* KWAJ is a format very similar to SZDD. KWAJ method 3 (LZH) was
* written by Jeff Johnson.
*
* libmspack is free software; you can redistribute it and/or modify it under
* the terms of the GNU Lesser General Public License (LGPL) version 2.1
*
* For further details, see the file COPYING.LIB distributed with libmspack
*/
/* KWAJ decompression implementation */
#include <system.h>
#include <kwaj.h>
/* prototypes */
static struct mskwajd_header *kwajd_open(
struct mskwaj_decompressor *base, const char *filename);
static void kwajd_close(
struct mskwaj_decompressor *base, struct mskwajd_header *hdr);
static int kwajd_read_headers(
struct mspack_system *sys, struct mspack_file *fh,
struct mskwajd_header *hdr);
static int kwajd_extract(
struct mskwaj_decompressor *base, struct mskwajd_header *hdr,
const char *filename);
static int kwajd_decompress(
struct mskwaj_decompressor *base, const char *input, const char *output);
static int kwajd_error(
struct mskwaj_decompressor *base);
static struct kwajd_stream *lzh_init(
struct mspack_system *sys, struct mspack_file *in, struct mspack_file *out);
static int lzh_decompress(
struct kwajd_stream *kwaj);
static void lzh_free(
struct kwajd_stream *kwaj);
static int lzh_read_lens(
struct kwajd_stream *kwaj,
unsigned int type, unsigned int numsyms,
unsigned char *lens, unsigned short *table);
static int lzh_read_input(
struct kwajd_stream *kwaj);
/***************************************
* MSPACK_CREATE_KWAJ_DECOMPRESSOR
***************************************
* constructor
*/
struct mskwaj_decompressor *
mspack_create_kwaj_decompressor(struct mspack_system *sys)
{
struct mskwaj_decompressor_p *self = NULL;
if (!sys) sys = mspack_default_system;
if (!mspack_valid_system(sys)) return NULL;
if ((self = (struct mskwaj_decompressor_p *) sys->alloc(sys, sizeof(struct mskwaj_decompressor_p)))) {
self->base.open = &kwajd_open;
self->base.close = &kwajd_close;
self->base.extract = &kwajd_extract;
self->base.decompress = &kwajd_decompress;
self->base.last_error = &kwajd_error;
self->system = sys;
self->error = MSPACK_ERR_OK;
}
return (struct mskwaj_decompressor *) self;
}
/***************************************
* MSPACK_DESTROY_KWAJ_DECOMPRESSOR
***************************************
* destructor
*/
void mspack_destroy_kwaj_decompressor(struct mskwaj_decompressor *base)
{
struct mskwaj_decompressor_p *self = (struct mskwaj_decompressor_p *) base;
if (self) {
struct mspack_system *sys = self->system;
sys->free(self);
}
}
/***************************************
* KWAJD_OPEN
***************************************
* opens a KWAJ file without decompressing, reads header
*/
static struct mskwajd_header *kwajd_open(struct mskwaj_decompressor *base,
const char *filename)
{
struct mskwaj_decompressor_p *self = (struct mskwaj_decompressor_p *) base;
struct mskwajd_header *hdr;
struct mspack_system *sys;
struct mspack_file *fh;
if (!self) return NULL;
sys = self->system;
fh = sys->open(sys, filename, MSPACK_SYS_OPEN_READ);
hdr = (struct mskwajd_header *) sys->alloc(sys, sizeof(struct mskwajd_header_p));
if (fh && hdr) {
((struct mskwajd_header_p *) hdr)->fh = fh;
self->error = kwajd_read_headers(sys, fh, hdr);
}
else {
if (!fh) self->error = MSPACK_ERR_OPEN;
if (!hdr) self->error = MSPACK_ERR_NOMEMORY;
}
if (self->error) {
if (fh) sys->close(fh);
if (hdr) sys->free(hdr);
hdr = NULL;
}
return hdr;
}
/***************************************
* KWAJD_CLOSE
***************************************
* closes a KWAJ file
*/
static void kwajd_close(struct mskwaj_decompressor *base,
struct mskwajd_header *hdr)
{
struct mskwaj_decompressor_p *self = (struct mskwaj_decompressor_p *) base;
struct mskwajd_header_p *hdr_p = (struct mskwajd_header_p *) hdr;
if (!self || !self->system) return;
/* close the file handle associated */
self->system->close(hdr_p->fh);
/* free the memory associated */
self->system->free(hdr);
self->error = MSPACK_ERR_OK;
}
/***************************************
* KWAJD_READ_HEADERS
***************************************
* reads the headers of a KWAJ format file
*/
static int kwajd_read_headers(struct mspack_system *sys,
struct mspack_file *fh,
struct mskwajd_header *hdr)
{
unsigned char buf[16];
int i;
/* read in the header */
if (sys->read(fh, &buf[0], kwajh_SIZEOF) != kwajh_SIZEOF) {
return MSPACK_ERR_READ;
}
/* check for "KWAJ" signature */
if (((unsigned int) EndGetI32(&buf[kwajh_Signature1]) != 0x4A41574B) ||
((unsigned int) EndGetI32(&buf[kwajh_Signature2]) != 0xD127F088))
{
return MSPACK_ERR_SIGNATURE;
}
/* basic header fields */
hdr->comp_type = EndGetI16(&buf[kwajh_CompMethod]);
hdr->data_offset = EndGetI16(&buf[kwajh_DataOffset]);
hdr->headers = EndGetI16(&buf[kwajh_Flags]);
hdr->length = 0;
hdr->filename = NULL;
hdr->extra = NULL;
hdr->extra_length = 0;
/* optional headers */
/* 4 bytes: length of unpacked file */
if (hdr->headers & MSKWAJ_HDR_HASLENGTH) {
if (sys->read(fh, &buf[0], 4) != 4) return MSPACK_ERR_READ;
hdr->length = EndGetI32(&buf[0]);
}
/* 2 bytes: unknown purpose */
if (hdr->headers & MSKWAJ_HDR_HASUNKNOWN1) {
if (sys->read(fh, &buf[0], 2) != 2) return MSPACK_ERR_READ;
}
/* 2 bytes: length of section, then [length] bytes: unknown purpose */
if (hdr->headers & MSKWAJ_HDR_HASUNKNOWN2) {
if (sys->read(fh, &buf[0], 2) != 2) return MSPACK_ERR_READ;
i = EndGetI16(&buf[0]);
if (sys->seek(fh, (off_t)i, MSPACK_SYS_SEEK_CUR)) return MSPACK_ERR_SEEK;
}
/* filename and extension */
if (hdr->headers & (MSKWAJ_HDR_HASFILENAME | MSKWAJ_HDR_HASFILEEXT)) {
off_t pos = sys->tell(fh);
char *fn = (char *) sys->alloc(sys, (size_t) 13);
/* allocate memory for maximum length filename */
if (! fn) return MSPACK_ERR_NOMEMORY;
hdr->filename = fn;
/* copy filename if present */
if (hdr->headers & MSKWAJ_HDR_HASFILENAME) {
if (sys->read(fh, &buf[0], 9) != 9) return MSPACK_ERR_READ;
for (i = 0; i < 9; i++, fn++) if (!(*fn = buf[i])) break;
pos += (i < 9) ? i+1 : 9;
if (sys->seek(fh, pos, MSPACK_SYS_SEEK_START))
return MSPACK_ERR_SEEK;
}
/* copy extension if present */
if (hdr->headers & MSKWAJ_HDR_HASFILEEXT) {
*fn++ = '.';
if (sys->read(fh, &buf[0], 4) != 4) return MSPACK_ERR_READ;
for (i = 0; i < 4; i++, fn++) if (!(*fn = buf[i])) break;
pos += (i < 4) ? i+1 : 4;
if (sys->seek(fh, pos, MSPACK_SYS_SEEK_START))
return MSPACK_ERR_SEEK;
}
*fn = '\0';
}
/* 2 bytes: extra text length then [length] bytes of extra text data */
if (hdr->headers & MSKWAJ_HDR_HASEXTRATEXT) {
if (sys->read(fh, &buf[0], 2) != 2) return MSPACK_ERR_READ;
i = EndGetI16(&buf[0]);
hdr->extra = (char *) sys->alloc(sys, (size_t)i+1);
if (! hdr->extra) return MSPACK_ERR_NOMEMORY;
if (sys->read(fh, hdr->extra, i) != i) return MSPACK_ERR_READ;
hdr->extra[i] = '\0';
hdr->extra_length = i;
}
return MSPACK_ERR_OK;
}
/***************************************
* KWAJD_EXTRACT
***************************************
* decompresses a KWAJ file
*/
static int kwajd_extract(struct mskwaj_decompressor *base,
struct mskwajd_header *hdr, const char *filename)
{
struct mskwaj_decompressor_p *self = (struct mskwaj_decompressor_p *) base;
struct mspack_system *sys;
struct mspack_file *fh, *outfh;
if (!self) return MSPACK_ERR_ARGS;
if (!hdr) return self->error = MSPACK_ERR_ARGS;
sys = self->system;
fh = ((struct mskwajd_header_p *) hdr)->fh;
/* seek to the compressed data */
if (sys->seek(fh, hdr->data_offset, MSPACK_SYS_SEEK_START)) {
return self->error = MSPACK_ERR_SEEK;
}
/* open file for output */
if (!(outfh = sys->open(sys, filename, MSPACK_SYS_OPEN_WRITE))) {
return self->error = MSPACK_ERR_OPEN;
}
self->error = MSPACK_ERR_OK;
/* decompress based on format */
if (hdr->comp_type == MSKWAJ_COMP_NONE ||
hdr->comp_type == MSKWAJ_COMP_XOR)
{
/* NONE is a straight copy. XOR is a copy xored with 0xFF */
unsigned char *buf = (unsigned char *) sys->alloc(sys, (size_t) KWAJ_INPUT_SIZE);
if (buf) {
int read, i;
while ((read = sys->read(fh, buf, KWAJ_INPUT_SIZE)) > 0) {
if (hdr->comp_type == MSKWAJ_COMP_XOR) {
for (i = 0; i < read; i++) buf[i] ^= 0xFF;
}
if (sys->write(outfh, buf, read) != read) {
self->error = MSPACK_ERR_WRITE;
break;
}
}
if (read < 0) self->error = MSPACK_ERR_READ;
sys->free(buf);
}
else {
self->error = MSPACK_ERR_NOMEMORY;
}
}
else if (hdr->comp_type == MSKWAJ_COMP_SZDD) {
self->error = lzss_decompress(sys, fh, outfh, KWAJ_INPUT_SIZE,
LZSS_MODE_EXPAND);
}
else if (hdr->comp_type == MSKWAJ_COMP_LZH) {
struct kwajd_stream *lzh = lzh_init(sys, fh, outfh);
self->error = (lzh) ? lzh_decompress(lzh) : MSPACK_ERR_NOMEMORY;
lzh_free(lzh);
}
else {
self->error = MSPACK_ERR_DATAFORMAT;
}
/* close output file */
sys->close(outfh);
return self->error;
}
/***************************************
* KWAJD_DECOMPRESS
***************************************
* unpacks directly from input to output
*/
static int kwajd_decompress(struct mskwaj_decompressor *base,
const char *input, const char *output)
{
struct mskwaj_decompressor_p *self = (struct mskwaj_decompressor_p *) base;
struct mskwajd_header *hdr;
int error;
if (!self) return MSPACK_ERR_ARGS;
if (!(hdr = kwajd_open(base, input))) return self->error;
error = kwajd_extract(base, hdr, output);
kwajd_close(base, hdr);
return self->error = error;
}
/***************************************
* KWAJD_ERROR
***************************************
* returns the last error that occurred
*/
static int kwajd_error(struct mskwaj_decompressor *base)
{
struct mskwaj_decompressor_p *self = (struct mskwaj_decompressor_p *) base;
return (self) ? self->error : MSPACK_ERR_ARGS;
}
/***************************************
* LZH_INIT, LZH_DECOMPRESS, LZH_FREE
***************************************
* unpacks KWAJ method 3 files
*/
/* import bit-reading macros and code */
#define BITS_TYPE struct kwajd_stream
#define BITS_VAR lzh
#define BITS_ORDER_MSB
#define BITS_NO_READ_INPUT
#define READ_BYTES do { \
if (i_ptr >= i_end) { \
if ((err = lzh_read_input(lzh))) return err; \
i_ptr = lzh->i_ptr; \
i_end = lzh->i_end; \
} \
INJECT_BITS(*i_ptr++, 8); \
} while (0)
#include <readbits.h>
/* import huffman-reading macros and code */
#define TABLEBITS(tbl) KWAJ_TABLEBITS
#define MAXSYMBOLS(tbl) KWAJ_##tbl##_SYMS
#define HUFF_TABLE(tbl,idx) lzh->tbl##_table[idx]
#define HUFF_LEN(tbl,idx) lzh->tbl##_len[idx]
#define HUFF_ERROR return MSPACK_ERR_DATAFORMAT
#include <readhuff.h>
/* In the KWAJ LZH format, there is no special 'eof' marker, it just
* ends. Depending on how many bits are left in the final byte when
* the stream ends, that might be enough to start another literal or
* match. The only easy way to detect that we've come to an end is to
* guard all bit-reading. We allow fake bits to be read once we reach
* the end of the stream, but we check if we then consumed any of
* those fake bits, after doing the READ_BITS / READ_HUFFSYM. This
* isn't how the default readbits.h read_input() works (it simply lets
* 2 fake bytes in then stops), so we implement our own.
*/
#define READ_BITS_SAFE(val, n) do { \
READ_BITS(val, n); \
if (lzh->input_end && bits_left < lzh->input_end) \
return MSPACK_ERR_OK; \
} while (0)
#define READ_HUFFSYM_SAFE(tbl, val) do { \
READ_HUFFSYM(tbl, val); \
if (lzh->input_end && bits_left < lzh->input_end) \
return MSPACK_ERR_OK; \
} while (0)
#define BUILD_TREE(tbl, type) \
STORE_BITS; \
err = lzh_read_lens(lzh, type, MAXSYMBOLS(tbl), \
&HUFF_LEN(tbl,0), &HUFF_TABLE(tbl,0)); \
if (err) return err; \
RESTORE_BITS; \
if (make_decode_table(MAXSYMBOLS(tbl), TABLEBITS(tbl), \
&HUFF_LEN(tbl,0), &HUFF_TABLE(tbl,0))) \
return MSPACK_ERR_DATAFORMAT;
#define WRITE_BYTE do { \
if (lzh->sys->write(lzh->output, &lzh->window[pos], 1) != 1) \
return MSPACK_ERR_WRITE; \
} while (0)
static struct kwajd_stream *lzh_init(struct mspack_system *sys,
struct mspack_file *in, struct mspack_file *out)
{
struct kwajd_stream *lzh;
if (!sys || !in || !out) return NULL;
if (!(lzh = (struct kwajd_stream *) sys->alloc(sys, sizeof(struct kwajd_stream)))) return NULL;
lzh->sys = sys;
lzh->input = in;
lzh->output = out;
return lzh;
}
static int lzh_decompress(struct kwajd_stream *lzh)
{
register unsigned int bit_buffer;
register int bits_left, i;
register unsigned short sym;
unsigned char *i_ptr, *i_end, lit_run = 0;
int j, pos = 0, len, offset, err;
unsigned int types[6];
/* reset global state */
INIT_BITS;
RESTORE_BITS;
memset(&lzh->window[0], LZSS_WINDOW_FILL, (size_t) LZSS_WINDOW_SIZE);
/* read 6 encoding types (for byte alignment) but only 5 are needed */
for (i = 0; i < 6; i++) READ_BITS_SAFE(types[i], 4);
/* read huffman table symbol lengths and build huffman trees */
BUILD_TREE(MATCHLEN1, types[0]);
BUILD_TREE(MATCHLEN2, types[1]);
BUILD_TREE(LITLEN, types[2]);
BUILD_TREE(OFFSET, types[3]);
BUILD_TREE(LITERAL, types[4]);
while (!lzh->input_end) {
if (lit_run) READ_HUFFSYM_SAFE(MATCHLEN2, len);
else READ_HUFFSYM_SAFE(MATCHLEN1, len);
if (len > 0) {
len += 2;
lit_run = 0; /* not the end of a literal run */
READ_HUFFSYM_SAFE(OFFSET, j); offset = j << 6;
READ_BITS_SAFE(j, 6); offset |= j;
/* copy match as output and into the ring buffer */
while (len-- > 0) {
lzh->window[pos] = lzh->window[(pos+4096-offset) & 4095];
WRITE_BYTE;
pos++; pos &= 4095;
}
}
else {
READ_HUFFSYM_SAFE(LITLEN, len); len++;
lit_run = (len == 32) ? 0 : 1; /* end of a literal run? */
while (len-- > 0) {
READ_HUFFSYM_SAFE(LITERAL, j);
/* copy as output and into the ring buffer */
lzh->window[pos] = j;
WRITE_BYTE;
pos++; pos &= 4095;
}
}
}
return MSPACK_ERR_OK;
}
static void lzh_free(struct kwajd_stream *lzh)
{
struct mspack_system *sys;
if (!lzh || !lzh->sys) return;
sys = lzh->sys;
sys->free(lzh);
}
static int lzh_read_lens(struct kwajd_stream *lzh,
unsigned int type, unsigned int numsyms,
unsigned char *lens, unsigned short *table)
{
register unsigned int bit_buffer;
register int bits_left;
unsigned char *i_ptr, *i_end;
unsigned int i, c, sel;
int err;
RESTORE_BITS;
switch (type) {
case 0:
i = numsyms; c = (i==16)?4: (i==32)?5: (i==64)?6: (i==256)?8 :0;
for (i = 0; i < numsyms; i++) lens[i] = c;
break;
case 1:
READ_BITS_SAFE(c, 4); lens[0] = c;
for (i = 1; i < numsyms; i++) {
READ_BITS_SAFE(sel, 1); if (sel == 0) lens[i] = c;
else { READ_BITS_SAFE(sel, 1); if (sel == 0) lens[i] = ++c;
else { READ_BITS_SAFE(c, 4); lens[i] = c; }}
}
break;
case 2:
READ_BITS_SAFE(c, 4); lens[0] = c;
for (i = 1; i < numsyms; i++) {
READ_BITS_SAFE(sel, 2);
if (sel == 3) READ_BITS_SAFE(c, 4); else c += (char) sel-1;
lens[i] = c;
}
break;
case 3:
for (i = 0; i < numsyms; i++) {
READ_BITS_SAFE(c, 4); lens[i] = c;
}
break;
}
STORE_BITS;
return MSPACK_ERR_OK;
}
static int lzh_read_input(struct kwajd_stream *lzh) {
int read;
if (lzh->input_end) {
lzh->input_end += 8;
lzh->inbuf[0] = 0;
read = 1;
}
else {
read = lzh->sys->read(lzh->input, &lzh->inbuf[0], KWAJ_INPUT_SIZE);
if (read < 0) return MSPACK_ERR_READ;
if (read == 0) {
lzh->input_end = 8;
lzh->inbuf[0] = 0;
read = 1;
}
}
/* update i_ptr and i_end */
lzh->i_ptr = &lzh->inbuf[0];
lzh->i_end = &lzh->inbuf[read];
return MSPACK_ERR_OK;
}

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/* This file is part of libmspack.
* (C) 2003-2004 Stuart Caie.
*
* libmspack is free software; you can redistribute it and/or modify it under
* the terms of the GNU Lesser General Public License (LGPL) version 2.1
*
* For further details, see the file COPYING.LIB distributed with libmspack
*/
#ifndef MSPACK_LIT_H
#define MSPACK_LIT_H 1
#include <lzx.h>
#include <des.h>
#include <sha.h>
/* generic LIT definitions */
/* LIT compression definitions */
struct mslit_compressor_p {
struct mslit_compressor base;
struct mspack_system *system;
/* todo */
};
/* LIT decompression definitions */
struct mslit_decompressor_p {
struct mslit_decompressor base;
struct mspack_system *system;
/* todo */
};
#endif

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/* This file is part of libmspack.
* (C) 2003-2004 Stuart Caie.
*
* libmspack is free software; you can redistribute it and/or modify it under
* the terms of the GNU Lesser General Public License (LGPL) version 2.1
*
* For further details, see the file COPYING.LIB distributed with libmspack
*/
/* LIT compression implementation */
#include <system.h>
#include <lit.h>
struct mslit_compressor *
mspack_create_lit_compressor(struct mspack_system *sys)
{
/* todo */
return NULL;
}
void mspack_destroy_lit_compressor(struct mslit_compressor *self) {
/* todo */
}

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/* This file is part of libmspack.
* (C) 2003-2004 Stuart Caie.
*
* libmspack is free software; you can redistribute it and/or modify it under
* the terms of the GNU Lesser General Public License (LGPL) version 2.1
*
* For further details, see the file COPYING.LIB distributed with libmspack
*/
/* LIT decompression implementation */
#include <system.h>
#include <lit.h>
struct mslit_decompressor *
mspack_create_lit_decompressor(struct mspack_system *sys)
{
/* todo */
return NULL;
}
void mspack_destroy_lit_decompressor(struct mslit_decompressor *self) {
/* todo */
}

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/* This file is part of libmspack.
* (C) 2003-2004 Stuart Caie.
*
* libmspack is free software; you can redistribute it and/or modify it under
* the terms of the GNU Lesser General Public License (LGPL) version 2.1
*
* For further details, see the file COPYING.LIB distributed with libmspack
*/
#ifndef MSPACK_LZSS_H
#define MSPACK_LZSS_H 1
#ifdef __cplusplus
extern "C" {
#endif
/* LZSS compression / decompression definitions */
#define LZSS_WINDOW_SIZE (4096)
#define LZSS_WINDOW_FILL (0x20)
#define LZSS_MODE_EXPAND (0)
#define LZSS_MODE_MSHELP (1)
#define LZSS_MODE_QBASIC (2)
/**
* Decompresses an LZSS stream.
*
* Input bytes will be read in as necessary using the system->read()
* function with the input file handle given. This will continue until
* system->read() returns 0 bytes, or an error. Errors will be passed
* out of the function as MSPACK_ERR_READ errors. Input streams should
* convey an "end of input stream" by refusing to supply all the bytes
* that LZSS asks for when they reach the end of the stream, rather
* than return an error code.
*
* Output bytes will be passed to the system->write() function, using
* the output file handle given. More than one call may be made to
* system->write().
*
* As EXPAND.EXE (SZDD/KWAJ), Microsoft Help and QBasic have slightly
* different encodings for the control byte and matches, a "mode"
* parameter is allowed, to choose the encoding.
*
* @param system an mspack_system structure used to read from
* the input stream and write to the output
* stream, also to allocate and free memory.
* @param input an input stream with the LZSS data.
* @param output an output stream to write the decoded data to.
* @param input_buffer_size the number of bytes to use as an input
* bitstream buffer.
* @param mode one of #LZSS_MODE_EXPAND, #LZSS_MODE_MSHELP or
* #LZSS_MODE_QBASIC
* @return an error code, or MSPACK_ERR_OK if successful
*/
extern int lzss_decompress(struct mspack_system *system,
struct mspack_file *input,
struct mspack_file *output,
int input_buffer_size,
int mode);
#ifdef __cplusplus
}
#endif
#endif

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/* This file is part of libmspack.
* (C) 2003-2010 Stuart Caie.
*
* LZSS is a derivative of LZ77 and was created by James Storer and
* Thomas Szymanski in 1982. Haruhiko Okumura wrote a very popular C
* implementation.
*
* libmspack is free software; you can redistribute it and/or modify it under
* the terms of the GNU Lesser General Public License (LGPL) version 2.1
*
* For further details, see the file COPYING.LIB distributed with libmspack
*/
#include <system.h>
#include <lzss.h>
#define ENSURE_BYTES do { \
if (i_ptr >= i_end) { \
read = system->read(input, &inbuf[0], \
input_buffer_size); \
if (read <= 0) { \
system->free(window); \
return (read < 0) ? MSPACK_ERR_READ \
: MSPACK_ERR_OK; \
} \
i_ptr = &inbuf[0]; i_end = &inbuf[read]; \
} \
} while (0)
#define WRITE_BYTE do { \
if (system->write(output, &window[pos], 1) != 1) { \
system->free(window); \
return MSPACK_ERR_WRITE; \
} \
} while (0)
int lzss_decompress(struct mspack_system *system,
struct mspack_file *input,
struct mspack_file *output,
int input_buffer_size,
int mode)
{
unsigned char *window, *inbuf, *i_ptr, *i_end;
unsigned int pos, i, c, invert, mpos, len;
int read;
/* check parameters */
if (!system || input_buffer_size < 1 || (mode != LZSS_MODE_EXPAND &&
mode != LZSS_MODE_MSHELP && mode != LZSS_MODE_QBASIC))
{
return MSPACK_ERR_ARGS;
}
/* allocate memory */
window = (unsigned char *) system->alloc(system, LZSS_WINDOW_SIZE + input_buffer_size);
if (!window) return MSPACK_ERR_NOMEMORY;
/* initialise decompression */
inbuf = &window[LZSS_WINDOW_SIZE];
memset(window, LZSS_WINDOW_FILL, (size_t) LZSS_WINDOW_SIZE);
pos = LZSS_WINDOW_SIZE - ((mode == LZSS_MODE_QBASIC) ? 18 : 16);
invert = (mode == LZSS_MODE_MSHELP) ? ~0 : 0;
i_ptr = i_end = &inbuf[0];
/* loop forever; exit condition is in ENSURE_BYTES macro */
for (;;) {
ENSURE_BYTES; c = *i_ptr++ ^ invert;
for (i = 0x01; i & 0xFF; i <<= 1) {
if (c & i) {
/* literal */
ENSURE_BYTES; window[pos] = *i_ptr++;
WRITE_BYTE;
pos++; pos &= LZSS_WINDOW_SIZE - 1;
}
else {
/* match */
ENSURE_BYTES; mpos = *i_ptr++;
ENSURE_BYTES; mpos |= (*i_ptr & 0xF0) << 4;
len = (*i_ptr++ & 0x0F) + 3;
while (len--) {
window[pos] = window[mpos];
WRITE_BYTE;
pos++; pos &= LZSS_WINDOW_SIZE - 1;
mpos++; mpos &= LZSS_WINDOW_SIZE - 1;
}
}
}
}
/* not reached */
system->free(window);
return MSPACK_ERR_OK;
}

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/* This file is part of libmspack.
* (C) 2003-2004 Stuart Caie.
*
* The LZX method was created by Jonathan Forbes and Tomi Poutanen, adapted
* by Microsoft Corporation.
*
* libmspack is free software; you can redistribute it and/or modify it under
* the terms of the GNU Lesser General Public License (LGPL) version 2.1
*
* For further details, see the file COPYING.LIB distributed with libmspack
*/
#ifndef MSPACK_LZX_H
#define MSPACK_LZX_H 1
#ifdef __cplusplus
extern "C" {
#endif
/* LZX compression / decompression definitions */
/* some constants defined by the LZX specification */
#define LZX_MIN_MATCH (2)
#define LZX_MAX_MATCH (257)
#define LZX_NUM_CHARS (256)
#define LZX_BLOCKTYPE_INVALID (0) /* also blocktypes 4-7 invalid */
#define LZX_BLOCKTYPE_VERBATIM (1)
#define LZX_BLOCKTYPE_ALIGNED (2)
#define LZX_BLOCKTYPE_UNCOMPRESSED (3)
#define LZX_PRETREE_NUM_ELEMENTS (20)
#define LZX_ALIGNED_NUM_ELEMENTS (8) /* aligned offset tree #elements */
#define LZX_NUM_PRIMARY_LENGTHS (7) /* this one missing from spec! */
#define LZX_NUM_SECONDARY_LENGTHS (249) /* length tree #elements */
/* LZX huffman defines: tweak tablebits as desired */
#define LZX_PRETREE_MAXSYMBOLS (LZX_PRETREE_NUM_ELEMENTS)
#define LZX_PRETREE_TABLEBITS (6)
#define LZX_MAINTREE_MAXSYMBOLS (LZX_NUM_CHARS + 50*8)
#define LZX_MAINTREE_TABLEBITS (12)
#define LZX_LENGTH_MAXSYMBOLS (LZX_NUM_SECONDARY_LENGTHS+1)
#define LZX_LENGTH_TABLEBITS (12)
#define LZX_ALIGNED_MAXSYMBOLS (LZX_ALIGNED_NUM_ELEMENTS)
#define LZX_ALIGNED_TABLEBITS (7)
#define LZX_LENTABLE_SAFETY (64) /* table decoding overruns are allowed */
#define LZX_FRAME_SIZE (32768) /* the size of a frame in LZX */
struct lzxd_stream {
struct mspack_system *sys; /* I/O routines */
struct mspack_file *input; /* input file handle */
struct mspack_file *output; /* output file handle */
off_t offset; /* number of bytes actually output */
off_t length; /* overall decompressed length of stream */
unsigned char *window; /* decoding window */
unsigned int window_size; /* window size */
unsigned int window_posn; /* decompression offset within window */
unsigned int frame_posn; /* current frame offset within in window */
unsigned int frame; /* the number of 32kb frames processed */
unsigned int reset_interval; /* which frame do we reset the compressor? */
unsigned int R0, R1, R2; /* for the LRU offset system */
unsigned int block_length; /* uncompressed length of this LZX block */
unsigned int block_remaining; /* uncompressed bytes still left to decode */
signed int intel_filesize; /* magic header value used for transform */
signed int intel_curpos; /* current offset in transform space */
unsigned char intel_started; /* has intel E8 decoding started? */
unsigned char block_type; /* type of the current block */
unsigned char header_read; /* have we started decoding at all yet? */
unsigned char posn_slots; /* how many posn slots in stream? */
unsigned char input_end; /* have we reached the end of input? */
int error;
/* I/O buffering */
unsigned char *inbuf, *i_ptr, *i_end, *o_ptr, *o_end;
unsigned int bit_buffer, bits_left, inbuf_size;
/* huffman code lengths */
unsigned char PRETREE_len [LZX_PRETREE_MAXSYMBOLS + LZX_LENTABLE_SAFETY];
unsigned char MAINTREE_len [LZX_MAINTREE_MAXSYMBOLS + LZX_LENTABLE_SAFETY];
unsigned char LENGTH_len [LZX_LENGTH_MAXSYMBOLS + LZX_LENTABLE_SAFETY];
unsigned char ALIGNED_len [LZX_ALIGNED_MAXSYMBOLS + LZX_LENTABLE_SAFETY];
/* huffman decoding tables */
unsigned short PRETREE_table [(1 << LZX_PRETREE_TABLEBITS) +
(LZX_PRETREE_MAXSYMBOLS * 2)];
unsigned short MAINTREE_table[(1 << LZX_MAINTREE_TABLEBITS) +
(LZX_MAINTREE_MAXSYMBOLS * 2)];
unsigned short LENGTH_table [(1 << LZX_LENGTH_TABLEBITS) +
(LZX_LENGTH_MAXSYMBOLS * 2)];
unsigned short ALIGNED_table [(1 << LZX_ALIGNED_TABLEBITS) +
(LZX_ALIGNED_MAXSYMBOLS * 2)];
unsigned char LENGTH_empty;
/* this is used purely for doing the intel E8 transform */
unsigned char e8_buf[LZX_FRAME_SIZE];
};
/**
* Allocates and initialises LZX decompression state for decoding an LZX
* stream.
*
* This routine uses system->alloc() to allocate memory. If memory
* allocation fails, or the parameters to this function are invalid,
* NULL is returned.
*
* @param system an mspack_system structure used to read from
* the input stream and write to the output
* stream, also to allocate and free memory.
* @param input an input stream with the LZX data.
* @param output an output stream to write the decoded data to.
* @param window_bits the size of the decoding window, which must be
* between 15 and 21 inclusive.
* @param reset_interval the interval at which the LZX bitstream is
* reset, in multiples of LZX frames (32678
* bytes), e.g. a value of 2 indicates the input
* stream resets after every 65536 output bytes.
* A value of 0 indicates that the bistream never
* resets, such as in CAB LZX streams.
* @param input_buffer_size the number of bytes to use as an input
* bitstream buffer.
* @param output_length the length in bytes of the entirely
* decompressed output stream, if known in
* advance. It is used to correctly perform the
* Intel E8 transformation, which must stop 6
* bytes before the very end of the
* decompressed stream. It is not otherwise used
* or adhered to. If the full decompressed
* length is known in advance, set it here.
* If it is NOT known, use the value 0, and call
* lzxd_set_output_length() once it is
* known. If never set, 4 of the final 6 bytes
* of the output stream may be incorrect.
* @return a pointer to an initialised lzxd_stream structure, or NULL if
* there was not enough memory or parameters to the function were wrong.
*/
extern struct lzxd_stream *lzxd_init(struct mspack_system *system,
struct mspack_file *input,
struct mspack_file *output,
int window_bits,
int reset_interval,
int input_buffer_size,
off_t output_length);
/* see description of output_length in lzxd_init() */
extern void lzxd_set_output_length(struct lzxd_stream *lzx,
off_t output_length);
/**
* Decompresses entire or partial LZX streams.
*
* The number of bytes of data that should be decompressed is given as the
* out_bytes parameter. If more bytes are decoded than are needed, they
* will be kept over for a later invocation.
*
* The output bytes will be passed to the system->write() function given in
* lzxd_init(), using the output file handle given in lzxd_init(). More than
* one call may be made to system->write().
* Input bytes will be read in as necessary using the system->read()
* function given in lzxd_init(), using the input file handle given in
* lzxd_init(). This will continue until system->read() returns 0 bytes,
* or an error. Errors will be passed out of the function as
* MSPACK_ERR_READ errors. Input streams should convey an "end of input
* stream" by refusing to supply all the bytes that LZX asks for when they
* reach the end of the stream, rather than return an error code.
*
* If any error code other than MSPACK_ERR_OK is returned, the stream
* should be considered unusable and lzxd_decompress() should not be
* called again on this stream.
*
* @param lzx LZX decompression state, as allocated by lzxd_init().
* @param out_bytes the number of bytes of data to decompress.
* @return an error code, or MSPACK_ERR_OK if successful
*/
extern int lzxd_decompress(struct lzxd_stream *lzx, off_t out_bytes);
/**
* Frees all state associated with an LZX data stream. This will call
* system->free() using the system pointer given in lzxd_init().
*
* @param lzx LZX decompression state to free.
*/
void lzxd_free(struct lzxd_stream *lzx);
#ifdef __cplusplus
}
#endif
#endif

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/* This file is part of libmspack.
* (C) 2003-2004 Stuart Caie.
*
* The LZX method was created by Jonathan Forbes and Tomi Poutanen, adapted
* by Microsoft Corporation.
*
* libmspack is free software; you can redistribute it and/or modify it under
* the terms of the GNU Lesser General Public License (LGPL) version 2.1
*
* For further details, see the file COPYING.LIB distributed with libmspack
*/
/* LZX compression implementation */
#include <system.h>
#include <lzx.h>
/* todo */

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/* This file is part of libmspack.
* (C) 2003-2004 Stuart Caie.
*
* The LZX method was created by Jonathan Forbes and Tomi Poutanen, adapted
* by Microsoft Corporation.
*
* libmspack is free software; you can redistribute it and/or modify it under
* the terms of the GNU Lesser General Public License (LGPL) version 2.1
*
* For further details, see the file COPYING.LIB distributed with libmspack
*/
/* LZX decompression implementation */
#include <system.h>
#include <lzx.h>
/* Microsoft's LZX document (in cab-sdk.exe) and their implementation
* of the com.ms.util.cab Java package do not concur.
*
* In the LZX document, there is a table showing the correlation between
* window size and the number of position slots. It states that the 1MB
* window = 40 slots and the 2MB window = 42 slots. In the implementation,
* 1MB = 42 slots, 2MB = 50 slots. The actual calculation is 'find the
* first slot whose position base is equal to or more than the required
* window size'. This would explain why other tables in the document refer
* to 50 slots rather than 42.
*
* The constant NUM_PRIMARY_LENGTHS used in the decompression pseudocode
* is not defined in the specification.
*
* The LZX document does not state the uncompressed block has an
* uncompressed length field. Where does this length field come from, so
* we can know how large the block is? The implementation has it as the 24
* bits following after the 3 blocktype bits, before the alignment
* padding.
*
* The LZX document states that aligned offset blocks have their aligned
* offset huffman tree AFTER the main and length trees. The implementation
* suggests that the aligned offset tree is BEFORE the main and length
* trees.
*
* The LZX document decoding algorithm states that, in an aligned offset
* block, if an extra_bits value is 1, 2 or 3, then that number of bits
* should be read and the result added to the match offset. This is
* correct for 1 and 2, but not 3, where just a huffman symbol (using the
* aligned tree) should be read.
*
* Regarding the E8 preprocessing, the LZX document states 'No translation
* may be performed on the last 6 bytes of the input block'. This is
* correct. However, the pseudocode provided checks for the *E8 leader*
* up to the last 6 bytes. If the leader appears between -10 and -7 bytes
* from the end, this would cause the next four bytes to be modified, at
* least one of which would be in the last 6 bytes, which is not allowed
* according to the spec.
*
* The specification states that the huffman trees must always contain at
* least one element. However, many CAB files contain blocks where the
* length tree is completely empty (because there are no matches), and
* this is expected to succeed.
*
* The errors in LZX documentation appear have been corrected in the
* new documentation for the LZX DELTA format.
*
* http://msdn.microsoft.com/en-us/library/cc483133.aspx
*
* However, this is a different format, an extension of regular LZX.
* I have noticed the following differences, there may be more:
*
* The maximum window size has increased from 2MB to 32MB. This also
* increases the maximum number of position slots, etc.
*
* The format now allows for "reference data", supplied by the caller.
* If match offsets go further back than the number of bytes
* decompressed so far, that is them accessing the reference data.
*/
/* import bit-reading macros and code */
#define BITS_TYPE struct lzxd_stream
#define BITS_VAR lzx
#define BITS_ORDER_MSB
#define READ_BYTES do { \
unsigned char b0, b1; \
READ_IF_NEEDED; b0 = *i_ptr++; \
READ_IF_NEEDED; b1 = *i_ptr++; \
INJECT_BITS((b1 << 8) | b0, 16); \
} while (0)
#include <readbits.h>
/* import huffman-reading macros and code */
#define TABLEBITS(tbl) LZX_##tbl##_TABLEBITS
#define MAXSYMBOLS(tbl) LZX_##tbl##_MAXSYMBOLS
#define HUFF_TABLE(tbl,idx) lzx->tbl##_table[idx]
#define HUFF_LEN(tbl,idx) lzx->tbl##_len[idx]
#define HUFF_ERROR return lzx->error = MSPACK_ERR_DECRUNCH
#include <readhuff.h>
/* BUILD_TABLE(tbl) builds a huffman lookup table from code lengths */
#define BUILD_TABLE(tbl) \
if (make_decode_table(MAXSYMBOLS(tbl), TABLEBITS(tbl), \
&HUFF_LEN(tbl,0), &HUFF_TABLE(tbl,0))) \
{ \
D(("failed to build %s table", #tbl)) \
return lzx->error = MSPACK_ERR_DECRUNCH; \
}
#define BUILD_TABLE_MAYBE_EMPTY(tbl) do { \
lzx->tbl##_empty = 0; \
if (make_decode_table(MAXSYMBOLS(tbl), TABLEBITS(tbl), \
&HUFF_LEN(tbl,0), &HUFF_TABLE(tbl,0))) \
{ \
for (i = 0; i < MAXSYMBOLS(tbl); i++) { \
if (HUFF_LEN(tbl, i) > 0) { \
D(("failed to build %s table", #tbl)) \
return lzx->error = MSPACK_ERR_DECRUNCH; \
} \
} \
/* empty tree - allow it, but don't decode symbols with it */ \
lzx->tbl##_empty = 1; \
} \
} while (0)
/* READ_LENGTHS(tablename, first, last) reads in code lengths for symbols
* first to last in the given table. The code lengths are stored in their
* own special LZX way.
*/
#define READ_LENGTHS(tbl, first, last) do { \
STORE_BITS; \
if (lzxd_read_lens(lzx, &HUFF_LEN(tbl, 0), (first), \
(unsigned int)(last))) return lzx->error; \
RESTORE_BITS; \
} while (0)
static int lzxd_read_lens(struct lzxd_stream *lzx, unsigned char *lens,
unsigned int first, unsigned int last)
{
/* bit buffer and huffman symbol decode variables */
register unsigned int bit_buffer;
register int bits_left, i;
register unsigned short sym;
unsigned char *i_ptr, *i_end;
unsigned int x, y;
int z;
RESTORE_BITS;
/* read lengths for pretree (20 symbols, lengths stored in fixed 4 bits) */
for (x = 0; x < 20; x++) {
READ_BITS(y, 4);
lzx->PRETREE_len[x] = y;
}
BUILD_TABLE(PRETREE);
for (x = first; x < last; ) {
READ_HUFFSYM(PRETREE, z);
if (z == 17) {
/* code = 17, run of ([read 4 bits]+4) zeros */
READ_BITS(y, 4); y += 4;
while (y--) lens[x++] = 0;
}
else if (z == 18) {
/* code = 18, run of ([read 5 bits]+20) zeros */
READ_BITS(y, 5); y += 20;
while (y--) lens[x++] = 0;
}
else if (z == 19) {
/* code = 19, run of ([read 1 bit]+4) [read huffman symbol] */
READ_BITS(y, 1); y += 4;
READ_HUFFSYM(PRETREE, z);
z = lens[x] - z; if (z < 0) z += 17;
while (y--) lens[x++] = z;
}
else {
/* code = 0 to 16, delta current length entry */
z = lens[x] - z; if (z < 0) z += 17;
lens[x++] = z;
}
}
STORE_BITS;
return MSPACK_ERR_OK;
}
/* LZX static data tables:
*
* LZX uses 'position slots' to represent match offsets. For every match,
* a small 'position slot' number and a small offset from that slot are
* encoded instead of one large offset.
*
* position_base[] is an index to the position slot bases
*
* extra_bits[] states how many bits of offset-from-base data is needed.
*
* They are generated like so:
* for (i = 0; i < 4; i++) extra_bits[i] = 0;
* for (i = 4, j = 0; i < 36; i+=2) extra_bits[i] = extra_bits[i+1] = j++;
* for (i = 36; i < 51; i++) extra_bits[i] = 17;
* for (i = 0, j = 0; i < 51; j += 1 << extra_bits[i++]) position_base[i] = j;
*/
static const unsigned int position_base[51] = {
0, 1, 2, 3, 4, 6, 8, 12, 16, 24, 32, 48, 64, 96, 128, 192, 256,
384, 512, 768, 1024, 1536, 2048, 3072, 4096, 6144, 8192, 12288,
16384, 24576, 32768, 49152, 65536, 98304, 131072, 196608, 262144,
393216, 524288, 655360, 786432, 917504, 1048576, 1179648, 1310720,
1441792, 1572864, 1703936, 1835008, 1966080, 2097152
};
static const unsigned char extra_bits[51] = {
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, 14, 14, 15, 15, 16, 16,
17, 17, 17, 17, 17, 17, 17, 17, 17, 17, 17, 17, 17, 17, 17
};
static void lzxd_reset_state(struct lzxd_stream *lzx) {
int i;
lzx->R0 = 1;
lzx->R1 = 1;
lzx->R2 = 1;
lzx->header_read = 0;
lzx->block_remaining = 0;
lzx->block_type = LZX_BLOCKTYPE_INVALID;
/* initialise tables to 0 (because deltas will be applied to them) */
for (i = 0; i < LZX_MAINTREE_MAXSYMBOLS; i++) lzx->MAINTREE_len[i] = 0;
for (i = 0; i < LZX_LENGTH_MAXSYMBOLS; i++) lzx->LENGTH_len[i] = 0;
}
/*-------- main LZX code --------*/
struct lzxd_stream *lzxd_init(struct mspack_system *system,
struct mspack_file *input,
struct mspack_file *output,
int window_bits,
int reset_interval,
int input_buffer_size,
off_t output_length)
{
unsigned int window_size = 1 << window_bits;
struct lzxd_stream *lzx;
if (!system) return NULL;
/* LZX supports window sizes of 2^15 (32Kb) through 2^21 (2Mb) */
if (window_bits < 15 || window_bits > 21) return NULL;
input_buffer_size = (input_buffer_size + 1) & -2;
if (!input_buffer_size) return NULL;
/* allocate decompression state */
if (!(lzx = (struct lzxd_stream *) system->alloc(system, sizeof(struct lzxd_stream)))) {
return NULL;
}
/* allocate decompression window and input buffer */
lzx->window = (unsigned char *) system->alloc(system, (size_t) window_size);
lzx->inbuf = (unsigned char *) system->alloc(system, (size_t) input_buffer_size);
if (!lzx->window || !lzx->inbuf) {
system->free(lzx->window);
system->free(lzx->inbuf);
system->free(lzx);
return NULL;
}
/* initialise decompression state */
lzx->sys = system;
lzx->input = input;
lzx->output = output;
lzx->offset = 0;
lzx->length = output_length;
lzx->inbuf_size = input_buffer_size;
lzx->window_size = 1 << window_bits;
lzx->window_posn = 0;
lzx->frame_posn = 0;
lzx->frame = 0;
lzx->reset_interval = reset_interval;
lzx->intel_filesize = 0;
lzx->intel_curpos = 0;
lzx->intel_started = 0;
lzx->error = MSPACK_ERR_OK;
/* window bits: 15 16 17 18 19 20 21
* position slots: 30 32 34 36 38 42 50 */
lzx->posn_slots = ((window_bits == 21) ? 50 :
((window_bits == 20) ? 42 : (window_bits << 1)));
lzx->o_ptr = lzx->o_end = &lzx->e8_buf[0];
lzxd_reset_state(lzx);
INIT_BITS;
return lzx;
}
void lzxd_set_output_length(struct lzxd_stream *lzx, off_t out_bytes) {
if (lzx) lzx->length = out_bytes;
}
int lzxd_decompress(struct lzxd_stream *lzx, off_t out_bytes) {
/* bitstream and huffman reading variables */
register unsigned int bit_buffer;
register int bits_left, i=0;
unsigned char *i_ptr, *i_end;
register unsigned short sym;
int match_length, length_footer, extra, verbatim_bits, bytes_todo;
int this_run, main_element, aligned_bits, j;
unsigned char *window, *runsrc, *rundest, buf[12];
unsigned int frame_size=0, end_frame, match_offset, window_posn;
unsigned int R0, R1, R2;
/* easy answers */
if (!lzx || (out_bytes < 0)) return MSPACK_ERR_ARGS;
if (lzx->error) return lzx->error;
/* flush out any stored-up bytes before we begin */
i = lzx->o_end - lzx->o_ptr;
if ((off_t) i > out_bytes) i = (int) out_bytes;
if (i) {
if (lzx->sys->write(lzx->output, lzx->o_ptr, i) != i) {
return lzx->error = MSPACK_ERR_WRITE;
}
lzx->o_ptr += i;
lzx->offset += i;
out_bytes -= i;
}
if (out_bytes == 0) return MSPACK_ERR_OK;
/* restore local state */
RESTORE_BITS;
window = lzx->window;
window_posn = lzx->window_posn;
R0 = lzx->R0;
R1 = lzx->R1;
R2 = lzx->R2;
end_frame = (unsigned int)((lzx->offset + out_bytes) / LZX_FRAME_SIZE) + 1;
while (lzx->frame < end_frame) {
/* have we reached the reset interval? (if there is one?) */
if (lzx->reset_interval && ((lzx->frame % lzx->reset_interval) == 0)) {
if (lzx->block_remaining) {
D(("%d bytes remaining at reset interval", lzx->block_remaining))
return lzx->error = MSPACK_ERR_DECRUNCH;
}
/* re-read the intel header and reset the huffman lengths */
lzxd_reset_state(lzx);
R0 = lzx->R0;
R1 = lzx->R1;
R2 = lzx->R2;
}
/* read header if necessary */
if (!lzx->header_read) {
/* read 1 bit. if bit=0, intel filesize = 0.
* if bit=1, read intel filesize (32 bits) */
j = 0; READ_BITS(i, 1); if (i) { READ_BITS(i, 16); READ_BITS(j, 16); }
lzx->intel_filesize = (i << 16) | j;
lzx->header_read = 1;
}
/* calculate size of frame: all frames are 32k except the final frame
* which is 32kb or less. this can only be calculated when lzx->length
* has been filled in. */
frame_size = LZX_FRAME_SIZE;
if (lzx->length && (lzx->length - lzx->offset) < (off_t)frame_size) {
frame_size = lzx->length - lzx->offset;
}
/* decode until one more frame is available */
bytes_todo = lzx->frame_posn + frame_size - window_posn;
while (bytes_todo > 0) {
/* initialise new block, if one is needed */
if (lzx->block_remaining == 0) {
/* realign if previous block was an odd-sized UNCOMPRESSED block */
if ((lzx->block_type == LZX_BLOCKTYPE_UNCOMPRESSED) &&
(lzx->block_length & 1))
{
READ_IF_NEEDED;
i_ptr++;
}
/* read block type (3 bits) and block length (24 bits) */
READ_BITS(lzx->block_type, 3);
READ_BITS(i, 16); READ_BITS(j, 8);
lzx->block_remaining = lzx->block_length = (i << 8) | j;
/*D(("new block t%d len %u", lzx->block_type, lzx->block_length))*/
/* read individual block headers */
switch (lzx->block_type) {
case LZX_BLOCKTYPE_ALIGNED:
/* read lengths of and build aligned huffman decoding tree */
for (i = 0; i < 8; i++) { READ_BITS(j, 3); lzx->ALIGNED_len[i] = j; }
BUILD_TABLE(ALIGNED);
/* no break -- rest of aligned header is same as verbatim */
case LZX_BLOCKTYPE_VERBATIM:
/* read lengths of and build main huffman decoding tree */
READ_LENGTHS(MAINTREE, 0, 256);
READ_LENGTHS(MAINTREE, 256, LZX_NUM_CHARS + (lzx->posn_slots << 3));
BUILD_TABLE(MAINTREE);
/* if the literal 0xE8 is anywhere in the block... */
if (lzx->MAINTREE_len[0xE8] != 0) lzx->intel_started = 1;
/* read lengths of and build lengths huffman decoding tree */
READ_LENGTHS(LENGTH, 0, LZX_NUM_SECONDARY_LENGTHS);
BUILD_TABLE_MAYBE_EMPTY(LENGTH);
break;
case LZX_BLOCKTYPE_UNCOMPRESSED:
/* because we can't assume otherwise */
lzx->intel_started = 1;
/* read 1-16 (not 0-15) bits to align to bytes */
ENSURE_BITS(16);
if (bits_left > 16) i_ptr -= 2;
bits_left = 0; bit_buffer = 0;
/* read 12 bytes of stored R0 / R1 / R2 values */
for (rundest = &buf[0], i = 0; i < 12; i++) {
READ_IF_NEEDED;
*rundest++ = *i_ptr++;
}
R0 = buf[0] | (buf[1] << 8) | (buf[2] << 16) | (buf[3] << 24);
R1 = buf[4] | (buf[5] << 8) | (buf[6] << 16) | (buf[7] << 24);
R2 = buf[8] | (buf[9] << 8) | (buf[10] << 16) | (buf[11] << 24);
break;
default:
D(("bad block type"))
return lzx->error = MSPACK_ERR_DECRUNCH;
}
}
/* decode more of the block:
* run = min(what's available, what's needed) */
this_run = lzx->block_remaining;
if (this_run > bytes_todo) this_run = bytes_todo;
/* assume we decode exactly this_run bytes, for now */
bytes_todo -= this_run;
lzx->block_remaining -= this_run;
/* decode at least this_run bytes */
switch (lzx->block_type) {
case LZX_BLOCKTYPE_VERBATIM:
while (this_run > 0) {
READ_HUFFSYM(MAINTREE, main_element);
if (main_element < LZX_NUM_CHARS) {
/* literal: 0 to LZX_NUM_CHARS-1 */
window[window_posn++] = main_element;
this_run--;
}
else {
/* match: LZX_NUM_CHARS + ((slot<<3) | length_header (3 bits)) */
main_element -= LZX_NUM_CHARS;
/* get match length */
match_length = main_element & LZX_NUM_PRIMARY_LENGTHS;
if (match_length == LZX_NUM_PRIMARY_LENGTHS) {
if (lzx->LENGTH_empty) {
D(("LENGTH symbol needed but tree is empty"))
return lzx->error = MSPACK_ERR_DECRUNCH;
}
READ_HUFFSYM(LENGTH, length_footer);
match_length += length_footer;
}
match_length += LZX_MIN_MATCH;
/* get match offset */
switch ((match_offset = (main_element >> 3))) {
case 0: match_offset = R0; break;
case 1: match_offset = R1; R1=R0; R0 = match_offset; break;
case 2: match_offset = R2; R2=R0; R0 = match_offset; break;
case 3: match_offset = 1; R2=R1; R1=R0; R0 = match_offset; break;
default:
extra = extra_bits[match_offset];
READ_BITS(verbatim_bits, extra);
match_offset = position_base[match_offset] - 2 + verbatim_bits;
R2 = R1; R1 = R0; R0 = match_offset;
}
if ((window_posn + match_length) > lzx->window_size) {
D(("match ran over window wrap"))
return lzx->error = MSPACK_ERR_DECRUNCH;
}
/* copy match */
rundest = &window[window_posn];
i = match_length;
/* does match offset wrap the window? */
if (match_offset > window_posn) {
/* j = length from match offset to end of window */
j = match_offset - window_posn;
if (j > (int) lzx->window_size) {
D(("match offset beyond window boundaries"))
return lzx->error = MSPACK_ERR_DECRUNCH;
}
runsrc = &window[lzx->window_size - j];
if (j < i) {
/* if match goes over the window edge, do two copy runs */
i -= j; while (j-- > 0) *rundest++ = *runsrc++;
runsrc = window;
}
while (i-- > 0) *rundest++ = *runsrc++;
}
else {
runsrc = rundest - match_offset;
while (i-- > 0) *rundest++ = *runsrc++;
}
this_run -= match_length;
window_posn += match_length;
}
} /* while (this_run > 0) */
break;
case LZX_BLOCKTYPE_ALIGNED:
while (this_run > 0) {
READ_HUFFSYM(MAINTREE, main_element);
if (main_element < LZX_NUM_CHARS) {
/* literal: 0 to LZX_NUM_CHARS-1 */
window[window_posn++] = main_element;
this_run--;
}
else {
/* match: LZX_NUM_CHARS + ((slot<<3) | length_header (3 bits)) */
main_element -= LZX_NUM_CHARS;
/* get match length */
match_length = main_element & LZX_NUM_PRIMARY_LENGTHS;
if (match_length == LZX_NUM_PRIMARY_LENGTHS) {
if (lzx->LENGTH_empty) {
D(("LENGTH symbol needed but tree is empty"))
return lzx->error = MSPACK_ERR_DECRUNCH;
}
READ_HUFFSYM(LENGTH, length_footer);
match_length += length_footer;
}
match_length += LZX_MIN_MATCH;
/* get match offset */
switch ((match_offset = (main_element >> 3))) {
case 0: match_offset = R0; break;
case 1: match_offset = R1; R1 = R0; R0 = match_offset; break;
case 2: match_offset = R2; R2 = R0; R0 = match_offset; break;
default:
extra = extra_bits[match_offset];
match_offset = position_base[match_offset] - 2;
if (extra > 3) {
/* verbatim and aligned bits */
extra -= 3;
READ_BITS(verbatim_bits, extra);
match_offset += (verbatim_bits << 3);
READ_HUFFSYM(ALIGNED, aligned_bits);
match_offset += aligned_bits;
}
else if (extra == 3) {
/* aligned bits only */
READ_HUFFSYM(ALIGNED, aligned_bits);
match_offset += aligned_bits;
}
else if (extra > 0) { /* extra==1, extra==2 */
/* verbatim bits only */
READ_BITS(verbatim_bits, extra);
match_offset += verbatim_bits;
}
else /* extra == 0 */ {
/* ??? not defined in LZX specification! */
match_offset = 1;
}
/* update repeated offset LRU queue */
R2 = R1; R1 = R0; R0 = match_offset;
}
if ((window_posn + match_length) > lzx->window_size) {
D(("match ran over window wrap"))
return lzx->error = MSPACK_ERR_DECRUNCH;
}
/* copy match */
rundest = &window[window_posn];
i = match_length;
/* does match offset wrap the window? */
if (match_offset > window_posn) {
/* j = length from match offset to end of window */
j = match_offset - window_posn;
if (j > (int) lzx->window_size) {
D(("match offset beyond window boundaries"))
return lzx->error = MSPACK_ERR_DECRUNCH;
}
runsrc = &window[lzx->window_size - j];
if (j < i) {
/* if match goes over the window edge, do two copy runs */
i -= j; while (j-- > 0) *rundest++ = *runsrc++;
runsrc = window;
}
while (i-- > 0) *rundest++ = *runsrc++;
}
else {
runsrc = rundest - match_offset;
while (i-- > 0) *rundest++ = *runsrc++;
}
this_run -= match_length;
window_posn += match_length;
}
} /* while (this_run > 0) */
break;
case LZX_BLOCKTYPE_UNCOMPRESSED:
/* as this_run is limited not to wrap a frame, this also means it
* won't wrap the window (as the window is a multiple of 32k) */
rundest = &window[window_posn];
window_posn += this_run;
while (this_run > 0) {
if ((i = i_end - i_ptr) == 0) {
READ_IF_NEEDED;
}
else {
if (i > this_run) i = this_run;
lzx->sys->copy(i_ptr, rundest, (size_t) i);
rundest += i;
i_ptr += i;
this_run -= i;
}
}
break;
default:
return lzx->error = MSPACK_ERR_DECRUNCH; /* might as well */
}
/* did the final match overrun our desired this_run length? */
if (this_run < 0) {
if ((unsigned int)(-this_run) > lzx->block_remaining) {
D(("overrun went past end of block by %d (%d remaining)",
-this_run, lzx->block_remaining ))
return lzx->error = MSPACK_ERR_DECRUNCH;
}
lzx->block_remaining -= -this_run;
}
} /* while (bytes_todo > 0) */
/* streams don't extend over frame boundaries */
if ((window_posn - lzx->frame_posn) != frame_size) {
D(("decode beyond output frame limits! %d != %d",
window_posn - lzx->frame_posn, frame_size))
return lzx->error = MSPACK_ERR_DECRUNCH;
}
/* re-align input bitstream */
if (bits_left > 0) ENSURE_BITS(16);
if (bits_left & 15) REMOVE_BITS(bits_left & 15);
/* check that we've used all of the previous frame first */
if (lzx->o_ptr != lzx->o_end) {
D(("%ld avail bytes, new %d frame", lzx->o_end-lzx->o_ptr, frame_size))
return lzx->error = MSPACK_ERR_DECRUNCH;
}
/* does this intel block _really_ need decoding? */
if (lzx->intel_started && lzx->intel_filesize &&
(lzx->frame <= 32768) && (frame_size > 10))
{
unsigned char *data = &lzx->e8_buf[0];
unsigned char *dataend = &lzx->e8_buf[frame_size - 10];
signed int curpos = lzx->intel_curpos;
signed int filesize = lzx->intel_filesize;
signed int abs_off, rel_off;
/* copy e8 block to the e8 buffer and tweak if needed */
lzx->o_ptr = data;
lzx->sys->copy(&lzx->window[lzx->frame_posn], data, frame_size);
while (data < dataend) {
if (*data++ != 0xE8) { curpos++; continue; }
abs_off = data[0] | (data[1]<<8) | (data[2]<<16) | (data[3]<<24);
if ((abs_off >= -curpos) && (abs_off < filesize)) {
rel_off = (abs_off >= 0) ? abs_off - curpos : abs_off + filesize;
data[0] = (unsigned char) rel_off;
data[1] = (unsigned char) (rel_off >> 8);
data[2] = (unsigned char) (rel_off >> 16);
data[3] = (unsigned char) (rel_off >> 24);
}
data += 4;
curpos += 5;
}
lzx->intel_curpos += frame_size;
}
else {
lzx->o_ptr = &lzx->window[lzx->frame_posn];
if (lzx->intel_filesize) lzx->intel_curpos += frame_size;
}
lzx->o_end = &lzx->o_ptr[frame_size];
/* write a frame */
i = (out_bytes < (off_t)frame_size) ? (unsigned int)out_bytes : frame_size;
if (lzx->sys->write(lzx->output, lzx->o_ptr, i) != i) {
return lzx->error = MSPACK_ERR_WRITE;
}
lzx->o_ptr += i;
lzx->offset += i;
out_bytes -= i;
/* advance frame start position */
lzx->frame_posn += frame_size;
lzx->frame++;
/* wrap window / frame position pointers */
if (window_posn == lzx->window_size) window_posn = 0;
if (lzx->frame_posn == lzx->window_size) lzx->frame_posn = 0;
} /* while (lzx->frame < end_frame) */
if (out_bytes) {
D(("bytes left to output"))
return lzx->error = MSPACK_ERR_DECRUNCH;
}
/* store local state */
STORE_BITS;
lzx->window_posn = window_posn;
lzx->R0 = R0;
lzx->R1 = R1;
lzx->R2 = R2;
return MSPACK_ERR_OK;
}
void lzxd_free(struct lzxd_stream *lzx) {
struct mspack_system *sys;
if (lzx) {
sys = lzx->sys;
sys->free(lzx->inbuf);
sys->free(lzx->window);
sys->free(lzx);
}
}

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/* This file is part of libmspack.
* (C) 2003-2004 Stuart Caie.
*
* The deflate method was created by Phil Katz. MSZIP is equivalent to the
* deflate method.
*
* libmspack is free software; you can redistribute it and/or modify it under
* the terms of the GNU Lesser General Public License (LGPL) version 2.1
*
* For further details, see the file COPYING.LIB distributed with libmspack
*/
#ifndef MSPACK_MSZIP_H
#define MSPACK_MSZIP_H 1
#ifdef __cplusplus
extern "C" {
#endif
/* MSZIP (deflate) compression / (inflate) decompression definitions */
#define MSZIP_FRAME_SIZE (32768) /* size of LZ history window */
#define MSZIP_LITERAL_MAXSYMBOLS (288) /* literal/length huffman tree */
#define MSZIP_LITERAL_TABLEBITS (9)
#define MSZIP_DISTANCE_MAXSYMBOLS (32) /* distance huffman tree */
#define MSZIP_DISTANCE_TABLEBITS (6)
/* if there are less direct lookup entries than symbols, the longer
* code pointers will be <= maxsymbols. This must not happen, or we
* will decode entries badly */
#if (1 << MSZIP_LITERAL_TABLEBITS) < (MSZIP_LITERAL_MAXSYMBOLS * 2)
# define MSZIP_LITERAL_TABLESIZE (MSZIP_LITERAL_MAXSYMBOLS * 4)
#else
# define MSZIP_LITERAL_TABLESIZE ((1 << MSZIP_LITERAL_TABLEBITS) + \
(MSZIP_LITERAL_MAXSYMBOLS * 2))
#endif
#if (1 << MSZIP_DISTANCE_TABLEBITS) < (MSZIP_DISTANCE_MAXSYMBOLS * 2)
# define MSZIP_DISTANCE_TABLESIZE (MSZIP_DISTANCE_MAXSYMBOLS * 4)
#else
# define MSZIP_DISTANCE_TABLESIZE ((1 << MSZIP_DISTANCE_TABLEBITS) + \
(MSZIP_DISTANCE_MAXSYMBOLS * 2))
#endif
struct mszipd_stream {
struct mspack_system *sys; /* I/O routines */
struct mspack_file *input; /* input file handle */
struct mspack_file *output; /* output file handle */
unsigned int window_posn; /* offset within window */
/* inflate() will call this whenever the window should be emptied. */
int (*flush_window)(struct mszipd_stream *, unsigned int);
int error, repair_mode, bytes_output;
/* I/O buffering */
unsigned char *inbuf, *i_ptr, *i_end, *o_ptr, *o_end, input_end;
unsigned int bit_buffer, bits_left, inbuf_size;
/* huffman code lengths */
unsigned char LITERAL_len[MSZIP_LITERAL_MAXSYMBOLS];
unsigned char DISTANCE_len[MSZIP_DISTANCE_MAXSYMBOLS];
/* huffman decoding tables */
unsigned short LITERAL_table [MSZIP_LITERAL_TABLESIZE];
unsigned short DISTANCE_table[MSZIP_DISTANCE_TABLESIZE];
/* 32kb history window */
unsigned char window[MSZIP_FRAME_SIZE];
};
/* allocates MS-ZIP decompression stream for decoding the given stream.
*
* - uses system->alloc() to allocate memory
*
* - returns NULL if not enough memory
*
* - input_buffer_size is how many bytes to use as an input bitstream buffer
*
* - if repair_mode is non-zero, errors in decompression will be skipped
* and 'holes' left will be filled with zero bytes. This allows at least
* a partial recovery of erroneous data.
*/
extern struct mszipd_stream *mszipd_init(struct mspack_system *system,
struct mspack_file *input,
struct mspack_file *output,
int input_buffer_size,
int repair_mode);
/* decompresses, or decompresses more of, an MS-ZIP stream.
*
* - out_bytes of data will be decompressed and the function will return
* with an MSPACK_ERR_OK return code.
*
* - decompressing will stop as soon as out_bytes is reached. if the true
* amount of bytes decoded spills over that amount, they will be kept for
* a later invocation of mszipd_decompress().
*
* - the output bytes will be passed to the system->write() function given in
* mszipd_init(), using the output file handle given in mszipd_init(). More
* than one call may be made to system->write()
*
* - MS-ZIP will read input bytes as necessary using the system->read()
* function given in mszipd_init(), using the input file handle given in
* mszipd_init(). This will continue until system->read() returns 0 bytes,
* or an error.
*/
extern int mszipd_decompress(struct mszipd_stream *zip, off_t out_bytes);
/* frees all stream associated with an MS-ZIP data stream
*
* - calls system->free() using the system pointer given in mszipd_init()
*/
void mszipd_free(struct mszipd_stream *zip);
#ifdef __cplusplus
}
#endif
#endif

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/* This file is part of libmspack.
* (C) 2003-2004 Stuart Caie.
*
* The deflate method was created by Phil Katz. MSZIP is equivalent to the
* deflate method.
*
* libmspack is free software; you can redistribute it and/or modify it under
* the terms of the GNU Lesser General Public License (LGPL) version 2.1
*
* For further details, see the file COPYING.LIB distributed with libmspack
*/
/* MS-ZIP compression implementation */
#include <system.h>
#include <mszip.h>
/* todo */

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/* This file is part of libmspack.
* (C) 2003-2010 Stuart Caie.
*
* The deflate method was created by Phil Katz. MSZIP is equivalent to the
* deflate method.
*
* libmspack is free software; you can redistribute it and/or modify it under
* the terms of the GNU Lesser General Public License (LGPL) version 2.1
*
* For further details, see the file COPYING.LIB distributed with libmspack
*/
/* MS-ZIP decompression implementation. */
#include <system.h>
#include <mszip.h>
/* import bit-reading macros and code */
#define BITS_TYPE struct mszipd_stream
#define BITS_VAR zip
#define BITS_ORDER_LSB
#define BITS_LSB_TABLE
#define READ_BYTES do { \
READ_IF_NEEDED; \
INJECT_BITS(*i_ptr++, 8); \
} while (0)
#include <readbits.h>
/* import huffman macros and code */
#define TABLEBITS(tbl) MSZIP_##tbl##_TABLEBITS
#define MAXSYMBOLS(tbl) MSZIP_##tbl##_MAXSYMBOLS
#define HUFF_TABLE(tbl,idx) zip->tbl##_table[idx]
#define HUFF_LEN(tbl,idx) zip->tbl##_len[idx]
#define HUFF_ERROR return INF_ERR_HUFFSYM
#include <readhuff.h>
#define FLUSH_IF_NEEDED do { \
if (zip->window_posn == MSZIP_FRAME_SIZE) { \
if (zip->flush_window(zip, MSZIP_FRAME_SIZE)) { \
return INF_ERR_FLUSH; \
} \
zip->window_posn = 0; \
} \
} while (0)
/* match lengths for literal codes 257.. 285 */
static const unsigned short lit_lengths[29] = {
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
};
/* match offsets for distance codes 0 .. 29 */
static const unsigned short dist_offsets[30] = {
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
};
/* extra bits required for literal codes 257.. 285 */
static const unsigned char lit_extrabits[29] = {
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
};
/* extra bits required for distance codes 0 .. 29 */
static const unsigned char dist_extrabits[30] = {
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
};
/* the order of the bit length Huffman code lengths */
static const unsigned char bitlen_order[19] = {
16, 17, 18, 0, 8, 7, 9, 6, 10, 5, 11, 4, 12, 3, 13, 2, 14, 1, 15
};
/* inflate() error codes */
#define INF_ERR_BLOCKTYPE (-1) /* unknown block type */
#define INF_ERR_COMPLEMENT (-2) /* block size complement mismatch */
#define INF_ERR_FLUSH (-3) /* error from flush_window() callback */
#define INF_ERR_BITBUF (-4) /* too many bits in bit buffer */
#define INF_ERR_SYMLENS (-5) /* too many symbols in blocktype 2 header */
#define INF_ERR_BITLENTBL (-6) /* failed to build bitlens huffman table */
#define INF_ERR_LITERALTBL (-7) /* failed to build literals huffman table */
#define INF_ERR_DISTANCETBL (-8) /* failed to build distance huffman table */
#define INF_ERR_BITOVERRUN (-9) /* bitlen RLE code goes over table size */
#define INF_ERR_BADBITLEN (-10) /* invalid bit-length code */
#define INF_ERR_LITCODE (-11) /* out-of-range literal code */
#define INF_ERR_DISTCODE (-12) /* out-of-range distance code */
#define INF_ERR_DISTANCE (-13) /* somehow, distance is beyond 32k */
#define INF_ERR_HUFFSYM (-14) /* out of bits decoding huffman symbol */
static int zip_read_lens(struct mszipd_stream *zip) {
/* for the bit buffer and huffman decoding */
register unsigned int bit_buffer;
register int bits_left;
unsigned char *i_ptr, *i_end;
/* bitlen Huffman codes -- immediate lookup, 7 bit max code length */
unsigned short bl_table[(1 << 7)];
unsigned char bl_len[19];
unsigned char lens[MSZIP_LITERAL_MAXSYMBOLS + MSZIP_DISTANCE_MAXSYMBOLS];
unsigned int lit_codes, dist_codes, code, last_code=0, bitlen_codes, i, run;
RESTORE_BITS;
/* read the number of codes */
READ_BITS(lit_codes, 5); lit_codes += 257;
READ_BITS(dist_codes, 5); dist_codes += 1;
READ_BITS(bitlen_codes, 4); bitlen_codes += 4;
if (lit_codes > MSZIP_LITERAL_MAXSYMBOLS) return INF_ERR_SYMLENS;
if (dist_codes > MSZIP_DISTANCE_MAXSYMBOLS) return INF_ERR_SYMLENS;
/* read in the bit lengths in their unusual order */
for (i = 0; i < bitlen_codes; i++) READ_BITS(bl_len[bitlen_order[i]], 3);
while (i < 19) bl_len[bitlen_order[i++]] = 0;
/* create decoding table with an immediate lookup */
if (make_decode_table(19, 7, &bl_len[0], &bl_table[0])) {
return INF_ERR_BITLENTBL;
}
/* read literal / distance code lengths */
for (i = 0; i < (lit_codes + dist_codes); i++) {
/* single-level huffman lookup */
ENSURE_BITS(7);
code = bl_table[PEEK_BITS(7)];
REMOVE_BITS(bl_len[code]);
if (code < 16) lens[i] = last_code = code;
else {
switch (code) {
case 16: READ_BITS(run, 2); run += 3; code = last_code; break;
case 17: READ_BITS(run, 3); run += 3; code = 0; break;
case 18: READ_BITS(run, 7); run += 11; code = 0; break;
default: D(("bad code!: %u", code)) return INF_ERR_BADBITLEN;
}
if ((i + run) > (lit_codes + dist_codes)) return INF_ERR_BITOVERRUN;
while (run--) lens[i++] = code;
i--;
}
}
/* copy LITERAL code lengths and clear any remaining */
i = lit_codes;
zip->sys->copy(&lens[0], &zip->LITERAL_len[0], i);
while (i < MSZIP_LITERAL_MAXSYMBOLS) zip->LITERAL_len[i++] = 0;
i = dist_codes;
zip->sys->copy(&lens[lit_codes], &zip->DISTANCE_len[0], i);
while (i < MSZIP_DISTANCE_MAXSYMBOLS) zip->DISTANCE_len[i++] = 0;
STORE_BITS;
return 0;
}
/* a clean implementation of RFC 1951 / inflate */
static int inflate(struct mszipd_stream *zip) {
unsigned int last_block, block_type, distance, length, this_run, i;
/* for the bit buffer and huffman decoding */
register unsigned int bit_buffer;
register int bits_left;
register unsigned short sym;
unsigned char *i_ptr, *i_end;
RESTORE_BITS;
do {
/* read in last block bit */
READ_BITS(last_block, 1);
/* read in block type */
READ_BITS(block_type, 2);
if (block_type == 0) {
/* uncompressed block */
unsigned char lens_buf[4];
/* go to byte boundary */
i = bits_left & 7; REMOVE_BITS(i);
/* read 4 bytes of data, emptying the bit-buffer if necessary */
for (i = 0; (bits_left >= 8); i++) {
if (i == 4) return INF_ERR_BITBUF;
lens_buf[i] = PEEK_BITS(8);
REMOVE_BITS(8);
}
if (bits_left != 0) return INF_ERR_BITBUF;
while (i < 4) {
READ_IF_NEEDED;
lens_buf[i++] = *i_ptr++;
}
/* get the length and its complement */
length = lens_buf[0] | (lens_buf[1] << 8);
i = lens_buf[2] | (lens_buf[3] << 8);
if (length != (~i & 0xFFFF)) return INF_ERR_COMPLEMENT;
/* read and copy the uncompressed data into the window */
while (length > 0) {
READ_IF_NEEDED;
this_run = length;
if (this_run > (unsigned int)(i_end - i_ptr)) this_run = i_end - i_ptr;
if (this_run > (MSZIP_FRAME_SIZE - zip->window_posn))
this_run = MSZIP_FRAME_SIZE - zip->window_posn;
zip->sys->copy(i_ptr, &zip->window[zip->window_posn], this_run);
zip->window_posn += this_run;
i_ptr += this_run;
length -= this_run;
FLUSH_IF_NEEDED;
}
}
else if ((block_type == 1) || (block_type == 2)) {
/* Huffman-compressed LZ77 block */
unsigned int match_posn, code;
if (block_type == 1) {
/* block with fixed Huffman codes */
i = 0;
while (i < 144) zip->LITERAL_len[i++] = 8;
while (i < 256) zip->LITERAL_len[i++] = 9;
while (i < 280) zip->LITERAL_len[i++] = 7;
while (i < 288) zip->LITERAL_len[i++] = 8;
for (i = 0; i < 32; i++) zip->DISTANCE_len[i] = 5;
}
else {
/* block with dynamic Huffman codes */
STORE_BITS;
if ((i = zip_read_lens(zip))) return i;
RESTORE_BITS;
}
/* now huffman lengths are read for either kind of block,
* create huffman decoding tables */
if (make_decode_table(MSZIP_LITERAL_MAXSYMBOLS, MSZIP_LITERAL_TABLEBITS,
&zip->LITERAL_len[0], &zip->LITERAL_table[0]))
{
return INF_ERR_LITERALTBL;
}
if (make_decode_table(MSZIP_DISTANCE_MAXSYMBOLS,MSZIP_DISTANCE_TABLEBITS,
&zip->DISTANCE_len[0], &zip->DISTANCE_table[0]))
{
return INF_ERR_DISTANCETBL;
}
/* decode forever until end of block code */
for (;;) {
READ_HUFFSYM(LITERAL, code);
if (code < 256) {
zip->window[zip->window_posn++] = (unsigned char) code;
FLUSH_IF_NEEDED;
}
else if (code == 256) {
/* END OF BLOCK CODE: loop break point */
break;
}
else {
code -= 257; /* codes 257-285 are matches */
if (code >= 29) return INF_ERR_LITCODE; /* codes 286-287 are illegal */
READ_BITS_T(length, lit_extrabits[code]);
length += lit_lengths[code];
READ_HUFFSYM(DISTANCE, code);
if (code > 30) return INF_ERR_DISTCODE;
READ_BITS_T(distance, dist_extrabits[code]);
distance += dist_offsets[code];
/* match position is window position minus distance. If distance
* is more than window position numerically, it must 'wrap
* around' the frame size. */
match_posn = ((distance > zip->window_posn) ? MSZIP_FRAME_SIZE : 0)
+ zip->window_posn - distance;
/* copy match */
if (length < 12) {
/* short match, use slower loop but no loop setup code */
while (length--) {
zip->window[zip->window_posn++] = zip->window[match_posn++];
match_posn &= MSZIP_FRAME_SIZE - 1;
FLUSH_IF_NEEDED;
}
}
else {
/* longer match, use faster loop but with setup expense */
unsigned char *runsrc, *rundest;
do {
this_run = length;
if ((match_posn + this_run) > MSZIP_FRAME_SIZE)
this_run = MSZIP_FRAME_SIZE - match_posn;
if ((zip->window_posn + this_run) > MSZIP_FRAME_SIZE)
this_run = MSZIP_FRAME_SIZE - zip->window_posn;
rundest = &zip->window[zip->window_posn]; zip->window_posn += this_run;
runsrc = &zip->window[match_posn]; match_posn += this_run;
length -= this_run;
while (this_run--) *rundest++ = *runsrc++;
if (match_posn == MSZIP_FRAME_SIZE) match_posn = 0;
FLUSH_IF_NEEDED;
} while (length > 0);
}
} /* else (code >= 257) */
} /* for(;;) -- break point at 'code == 256' */
}
else {
/* block_type == 3 -- bad block type */
return INF_ERR_BLOCKTYPE;
}
} while (!last_block);
/* flush the remaining data */
if (zip->window_posn) {
if (zip->flush_window(zip, zip->window_posn)) return INF_ERR_FLUSH;
}
STORE_BITS;
/* return success */
return 0;
}
/* inflate() calls this whenever the window should be flushed. As
* MSZIP only expands to the size of the window, the implementation used
* simply keeps track of the amount of data flushed, and if more than 32k
* is flushed, an error is raised.
*/
static int mszipd_flush_window(struct mszipd_stream *zip,
unsigned int data_flushed)
{
zip->bytes_output += data_flushed;
if (zip->bytes_output > MSZIP_FRAME_SIZE) {
D(("overflow: %u bytes flushed, total is now %u",
data_flushed, zip->bytes_output))
return 1;
}
return 0;
}
struct mszipd_stream *mszipd_init(struct mspack_system *system,
struct mspack_file *input,
struct mspack_file *output,
int input_buffer_size,
int repair_mode)
{
struct mszipd_stream *zip;
if (!system) return NULL;
input_buffer_size = (input_buffer_size + 1) & -2;
if (!input_buffer_size) return NULL;
/* allocate decompression state */
if (!(zip = (struct mszipd_stream *) system->alloc(system, sizeof(struct mszipd_stream)))) {
return NULL;
}
/* allocate input buffer */
zip->inbuf = (unsigned char *) system->alloc(system, (size_t) input_buffer_size);
if (!zip->inbuf) {
system->free(zip);
return NULL;
}
/* initialise decompression state */
zip->sys = system;
zip->input = input;
zip->output = output;
zip->inbuf_size = input_buffer_size;
zip->input_end = 0;
zip->error = MSPACK_ERR_OK;
zip->repair_mode = repair_mode;
zip->flush_window = &mszipd_flush_window;
zip->i_ptr = zip->i_end = &zip->inbuf[0];
zip->o_ptr = zip->o_end = NULL;
zip->bit_buffer = 0; zip->bits_left = 0;
return zip;
}
int mszipd_decompress(struct mszipd_stream *zip, off_t out_bytes) {
/* for the bit buffer */
register unsigned int bit_buffer;
register int bits_left;
unsigned char *i_ptr, *i_end;
int i, state, error;
/* easy answers */
if (!zip || (out_bytes < 0)) return MSPACK_ERR_ARGS;
if (zip->error) return zip->error;
/* flush out any stored-up bytes before we begin */
i = zip->o_end - zip->o_ptr;
if ((off_t) i > out_bytes) i = (int) out_bytes;
if (i) {
if (zip->sys->write(zip->output, zip->o_ptr, i) != i) {
return zip->error = MSPACK_ERR_WRITE;
}
zip->o_ptr += i;
out_bytes -= i;
}
if (out_bytes == 0) return MSPACK_ERR_OK;
while (out_bytes > 0) {
/* unpack another block */
RESTORE_BITS;
/* skip to next read 'CK' header */
i = bits_left & 7; REMOVE_BITS(i); /* align to bytestream */
state = 0;
do {
READ_BITS(i, 8);
if (i == 'C') state = 1;
else if ((state == 1) && (i == 'K')) state = 2;
else state = 0;
} while (state != 2);
/* inflate a block, repair and realign if necessary */
zip->window_posn = 0;
zip->bytes_output = 0;
STORE_BITS;
if ((error = inflate(zip))) {
D(("inflate error %d", error))
if (zip->repair_mode) {
/* recover partially-inflated buffers */
if (zip->bytes_output == 0 && zip->window_posn > 0) {
zip->flush_window(zip, zip->window_posn);
}
zip->sys->message(NULL, "MSZIP error, %u bytes of data lost.",
MSZIP_FRAME_SIZE - zip->bytes_output);
for (i = zip->bytes_output; i < MSZIP_FRAME_SIZE; i++) {
zip->window[i] = '\0';
}
zip->bytes_output = MSZIP_FRAME_SIZE;
}
else {
return zip->error = (error > 0) ? error : MSPACK_ERR_DECRUNCH;
}
}
zip->o_ptr = &zip->window[0];
zip->o_end = &zip->o_ptr[zip->bytes_output];
/* write a frame */
i = (out_bytes < (off_t)zip->bytes_output) ?
(int)out_bytes : zip->bytes_output;
if (zip->sys->write(zip->output, zip->o_ptr, i) != i) {
return zip->error = MSPACK_ERR_WRITE;
}
/* mspack errors (i.e. read errors) are fatal and can't be recovered */
if ((error > 0) && zip->repair_mode) return error;
zip->o_ptr += i;
out_bytes -= i;
}
if (out_bytes) {
D(("bytes left to output"))
return zip->error = MSPACK_ERR_DECRUNCH;
}
return MSPACK_ERR_OK;
}
void mszipd_free(struct mszipd_stream *zip) {
struct mspack_system *sys;
if (zip) {
sys = zip->sys;
sys->free(zip->inbuf);
sys->free(zip);
}
}

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/* This file is part of libmspack.
* (C) 2003-2004 Stuart Caie.
*
* The Quantum method was created by David Stafford, adapted by Microsoft
* Corporation.
*
* libmspack is free software; you can redistribute it and/or modify it under
* the terms of the GNU Lesser General Public License (LGPL) version 2.1
*
* For further details, see the file COPYING.LIB distributed with libmspack
*/
#ifndef MSPACK_QTM_H
#define MSPACK_QTM_H 1
#ifdef __cplusplus
extern "C" {
#endif
/* Quantum compression / decompression definitions */
#define QTM_FRAME_SIZE (32768)
struct qtmd_modelsym {
unsigned short sym, cumfreq;
};
struct qtmd_model {
int shiftsleft, entries;
struct qtmd_modelsym *syms;
};
struct qtmd_stream {
struct mspack_system *sys; /* I/O routines */
struct mspack_file *input; /* input file handle */
struct mspack_file *output; /* output file handle */
unsigned char *window; /* decoding window */
unsigned int window_size; /* window size */
unsigned int window_posn; /* decompression offset within window */
unsigned int frame_todo; /* bytes remaining for current frame */
unsigned short H, L, C; /* high/low/current: arith coding state */
unsigned char header_read; /* have we started decoding a new frame? */
int error;
/* I/O buffers */
unsigned char *inbuf, *i_ptr, *i_end, *o_ptr, *o_end;
unsigned int bit_buffer, inbuf_size;
unsigned char bits_left, input_end;
/* four literal models, each representing 64 symbols
* model0 for literals from 0 to 63 (selector = 0)
* model1 for literals from 64 to 127 (selector = 1)
* model2 for literals from 128 to 191 (selector = 2)
* model3 for literals from 129 to 255 (selector = 3) */
struct qtmd_model model0, model1, model2, model3;
/* three match models.
* model4 for match with fixed length of 3 bytes
* model5 for match with fixed length of 4 bytes
* model6 for variable length match, encoded with model6len model */
struct qtmd_model model4, model5, model6, model6len;
/* selector model. 0-6 to say literal (0,1,2,3) or match (4,5,6) */
struct qtmd_model model7;
/* symbol arrays for all models */
struct qtmd_modelsym m0sym[64 + 1];
struct qtmd_modelsym m1sym[64 + 1];
struct qtmd_modelsym m2sym[64 + 1];
struct qtmd_modelsym m3sym[64 + 1];
struct qtmd_modelsym m4sym[24 + 1];
struct qtmd_modelsym m5sym[36 + 1];
struct qtmd_modelsym m6sym[42 + 1], m6lsym[27 + 1];
struct qtmd_modelsym m7sym[7 + 1];
};
/* allocates Quantum decompression state for decoding the given stream.
*
* - returns NULL if window_bits is outwith the range 10 to 21 (inclusive).
*
* - uses system->alloc() to allocate memory
*
* - returns NULL if not enough memory
*
* - window_bits is the size of the Quantum window, from 1Kb (10) to 2Mb (21).
*
* - input_buffer_size is the number of bytes to use to store bitstream data.
*/
extern struct qtmd_stream *qtmd_init(struct mspack_system *system,
struct mspack_file *input,
struct mspack_file *output,
int window_bits,
int input_buffer_size);
/* decompresses, or decompresses more of, a Quantum stream.
*
* - out_bytes of data will be decompressed and the function will return
* with an MSPACK_ERR_OK return code.
*
* - decompressing will stop as soon as out_bytes is reached. if the true
* amount of bytes decoded spills over that amount, they will be kept for
* a later invocation of qtmd_decompress().
*
* - the output bytes will be passed to the system->write() function given in
* qtmd_init(), using the output file handle given in qtmd_init(). More
* than one call may be made to system->write()
*
* - Quantum will read input bytes as necessary using the system->read()
* function given in qtmd_init(), using the input file handle given in
* qtmd_init(). This will continue until system->read() returns 0 bytes,
* or an error.
*/
extern int qtmd_decompress(struct qtmd_stream *qtm, off_t out_bytes);
/* frees all state associated with a Quantum data stream
*
* - calls system->free() using the system pointer given in qtmd_init()
*/
void qtmd_free(struct qtmd_stream *qtm);
#ifdef __cplusplus
}
#endif
#endif

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/* This file is part of libmspack.
* (C) 2003-2004 Stuart Caie.
*
* The Quantum method was created by David Stafford, adapted by Microsoft
* Corporation.
*
* This decompressor is based on an implementation by Matthew Russotto, used
* with permission.
*
* libmspack is free software; you can redistribute it and/or modify it under
* the terms of the GNU Lesser General Public License (LGPL) version 2.1
*
* For further details, see the file COPYING.LIB distributed with libmspack
*/
/* Quantum decompression implementation */
/* This decompressor was researched and implemented by Matthew Russotto. It
* has since been tidied up by Stuart Caie. More information can be found at
* http://www.speakeasy.org/~russotto/quantumcomp.html
*/
#include <system.h>
#include <qtm.h>
/* import bit-reading macros and code */
#define BITS_TYPE struct qtmd_stream
#define BITS_VAR qtm
#define BITS_ORDER_MSB
#define READ_BYTES do { \
unsigned char b0, b1; \
READ_IF_NEEDED; b0 = *i_ptr++; \
READ_IF_NEEDED; b1 = *i_ptr++; \
INJECT_BITS((b0 << 8) | b1, 16); \
} while (0)
#include <readbits.h>
/* Quantum static data tables:
*
* Quantum uses 'position slots' to represent match offsets. For every
* match, a small 'position slot' number and a small offset from that slot
* are encoded instead of one large offset.
*
* position_base[] is an index to the position slot bases
*
* extra_bits[] states how many bits of offset-from-base data is needed.
*
* length_base[] and length_extra[] are equivalent in function, but are
* used for encoding selector 6 (variable length match) match lengths,
* instead of match offsets.
*
* They are generated with the following code:
* unsigned int i, offset;
* for (i = 0, offset = 0; i < 42; i++) {
* position_base[i] = offset;
* extra_bits[i] = ((i < 2) ? 0 : (i - 2)) >> 1;
* offset += 1 << extra_bits[i];
* }
* for (i = 0, offset = 0; i < 26; i++) {
* length_base[i] = offset;
* length_extra[i] = (i < 2 ? 0 : i - 2) >> 2;
* offset += 1 << length_extra[i];
* }
* length_base[26] = 254; length_extra[26] = 0;
*/
static const unsigned int position_base[42] = {
0, 1, 2, 3, 4, 6, 8, 12, 16, 24, 32, 48, 64, 96, 128, 192, 256, 384, 512, 768,
1024, 1536, 2048, 3072, 4096, 6144, 8192, 12288, 16384, 24576, 32768, 49152,
65536, 98304, 131072, 196608, 262144, 393216, 524288, 786432, 1048576, 1572864
};
static const unsigned char extra_bits[42] = {
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, 14, 14, 15, 15, 16, 16, 17, 17, 18, 18, 19, 19
};
static const unsigned char length_base[27] = {
0, 1, 2, 3, 4, 5, 6, 8, 10, 12, 14, 18, 22, 26,
30, 38, 46, 54, 62, 78, 94, 110, 126, 158, 190, 222, 254
};
static const unsigned char length_extra[27] = {
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
};
/* Arithmetic decoder:
*
* GET_SYMBOL(model, var) fetches the next symbol from the stated model
* and puts it in var.
*
* If necessary, qtmd_update_model() is called.
*/
#define GET_SYMBOL(model, var) do { \
range = ((H - L) & 0xFFFF) + 1; \
symf = ((((C - L + 1) * model.syms[0].cumfreq)-1) / range) & 0xFFFF; \
\
for (i = 1; i < model.entries; i++) { \
if (model.syms[i].cumfreq <= symf) break; \
} \
(var) = model.syms[i-1].sym; \
\
range = (H - L) + 1; \
symf = model.syms[0].cumfreq; \
H = L + ((model.syms[i-1].cumfreq * range) / symf) - 1; \
L = L + ((model.syms[i].cumfreq * range) / symf); \
\
do { model.syms[--i].cumfreq += 8; } while (i > 0); \
if (model.syms[0].cumfreq > 3800) qtmd_update_model(&model); \
\
while (1) { \
if ((L & 0x8000) != (H & 0x8000)) { \
if ((L & 0x4000) && !(H & 0x4000)) { \
/* underflow case */ \
C ^= 0x4000; L &= 0x3FFF; H |= 0x4000; \
} \
else break; \
} \
L <<= 1; H = (H << 1) | 1; \
ENSURE_BITS(1); \
C = (C << 1) | PEEK_BITS(1); \
REMOVE_BITS(1); \
} \
} while (0)
static void qtmd_update_model(struct qtmd_model *model) {
struct qtmd_modelsym tmp;
int i, j;
if (--model->shiftsleft) {
for (i = model->entries - 1; i >= 0; i--) {
/* -1, not -2; the 0 entry saves this */
model->syms[i].cumfreq >>= 1;
if (model->syms[i].cumfreq <= model->syms[i+1].cumfreq) {
model->syms[i].cumfreq = model->syms[i+1].cumfreq + 1;
}
}
}
else {
model->shiftsleft = 50;
for (i = 0; i < model->entries; i++) {
/* no -1, want to include the 0 entry */
/* this converts cumfreqs into frequencies, then shifts right */
model->syms[i].cumfreq -= model->syms[i+1].cumfreq;
model->syms[i].cumfreq++; /* avoid losing things entirely */
model->syms[i].cumfreq >>= 1;
}
/* now sort by frequencies, decreasing order -- this must be an
* inplace selection sort, or a sort with the same (in)stability
* characteristics */
for (i = 0; i < model->entries - 1; i++) {
for (j = i + 1; j < model->entries; j++) {
if (model->syms[i].cumfreq < model->syms[j].cumfreq) {
tmp = model->syms[i];
model->syms[i] = model->syms[j];
model->syms[j] = tmp;
}
}
}
/* then convert frequencies back to cumfreq */
for (i = model->entries - 1; i >= 0; i--) {
model->syms[i].cumfreq += model->syms[i+1].cumfreq;
}
}
}
/* Initialises a model to decode symbols from [start] to [start]+[len]-1 */
static void qtmd_init_model(struct qtmd_model *model,
struct qtmd_modelsym *syms, int start, int len)
{
int i;
model->shiftsleft = 4;
model->entries = len;
model->syms = syms;
for (i = 0; i <= len; i++) {
syms[i].sym = start + i; /* actual symbol */
syms[i].cumfreq = len - i; /* current frequency of that symbol */
}
}
/*-------- main Quantum code --------*/
struct qtmd_stream *qtmd_init(struct mspack_system *system,
struct mspack_file *input,
struct mspack_file *output,
int window_bits, int input_buffer_size)
{
unsigned int window_size = 1 << window_bits;
struct qtmd_stream *qtm;
int i;
if (!system) return NULL;
/* Quantum supports window sizes of 2^10 (1Kb) through 2^21 (2Mb) */
if (window_bits < 10 || window_bits > 21) return NULL;
input_buffer_size = (input_buffer_size + 1) & -2;
if (input_buffer_size < 2) return NULL;
/* allocate decompression state */
if (!(qtm = (struct qtmd_stream *) system->alloc(system, sizeof(struct qtmd_stream)))) {
return NULL;
}
/* allocate decompression window and input buffer */
qtm->window = (unsigned char *) system->alloc(system, (size_t) window_size);
qtm->inbuf = (unsigned char *) system->alloc(system, (size_t) input_buffer_size);
if (!qtm->window || !qtm->inbuf) {
system->free(qtm->window);
system->free(qtm->inbuf);
system->free(qtm);
return NULL;
}
/* initialise decompression state */
qtm->sys = system;
qtm->input = input;
qtm->output = output;
qtm->inbuf_size = input_buffer_size;
qtm->window_size = window_size;
qtm->window_posn = 0;
qtm->frame_todo = QTM_FRAME_SIZE;
qtm->header_read = 0;
qtm->error = MSPACK_ERR_OK;
qtm->i_ptr = qtm->i_end = &qtm->inbuf[0];
qtm->o_ptr = qtm->o_end = &qtm->window[0];
qtm->input_end = 0;
qtm->bits_left = 0;
qtm->bit_buffer = 0;
/* initialise arithmetic coding models
* - model 4 depends on window size, ranges from 20 to 24
* - model 5 depends on window size, ranges from 20 to 36
* - model 6pos depends on window size, ranges from 20 to 42
*/
i = window_bits * 2;
qtmd_init_model(&qtm->model0, &qtm->m0sym[0], 0, 64);
qtmd_init_model(&qtm->model1, &qtm->m1sym[0], 64, 64);
qtmd_init_model(&qtm->model2, &qtm->m2sym[0], 128, 64);
qtmd_init_model(&qtm->model3, &qtm->m3sym[0], 192, 64);
qtmd_init_model(&qtm->model4, &qtm->m4sym[0], 0, (i > 24) ? 24 : i);
qtmd_init_model(&qtm->model5, &qtm->m5sym[0], 0, (i > 36) ? 36 : i);
qtmd_init_model(&qtm->model6, &qtm->m6sym[0], 0, i);
qtmd_init_model(&qtm->model6len, &qtm->m6lsym[0], 0, 27);
qtmd_init_model(&qtm->model7, &qtm->m7sym[0], 0, 7);
/* all ok */
return qtm;
}
int qtmd_decompress(struct qtmd_stream *qtm, off_t out_bytes) {
unsigned int frame_todo, frame_end, window_posn, match_offset, range;
unsigned char *window, *i_ptr, *i_end, *runsrc, *rundest;
int i, j, selector, extra, sym, match_length;
unsigned short H, L, C, symf;
register unsigned int bit_buffer;
register unsigned char bits_left;
/* easy answers */
if (!qtm || (out_bytes < 0)) return MSPACK_ERR_ARGS;
if (qtm->error) return qtm->error;
/* flush out any stored-up bytes before we begin */
i = qtm->o_end - qtm->o_ptr;
if ((off_t) i > out_bytes) i = (int) out_bytes;
if (i) {
if (qtm->sys->write(qtm->output, qtm->o_ptr, i) != i) {
return qtm->error = MSPACK_ERR_WRITE;
}
qtm->o_ptr += i;
out_bytes -= i;
}
if (out_bytes == 0) return MSPACK_ERR_OK;
/* restore local state */
RESTORE_BITS;
window = qtm->window;
window_posn = qtm->window_posn;
frame_todo = qtm->frame_todo;
H = qtm->H;
L = qtm->L;
C = qtm->C;
/* while we do not have enough decoded bytes in reserve: */
while ((qtm->o_end - qtm->o_ptr) < out_bytes) {
/* read header if necessary. Initialises H, L and C */
if (!qtm->header_read) {
H = 0xFFFF; L = 0; READ_BITS(C, 16);
qtm->header_read = 1;
}
/* decode more, up to the number of bytes needed, the frame boundary,
* or the window boundary, whichever comes first */
frame_end = window_posn + (out_bytes - (qtm->o_end - qtm->o_ptr));
if ((window_posn + frame_todo) < frame_end) {
frame_end = window_posn + frame_todo;
}
if (frame_end > qtm->window_size) {
frame_end = qtm->window_size;
}
while (window_posn < frame_end) {
GET_SYMBOL(qtm->model7, selector);
if (selector < 4) {
/* literal byte */
struct qtmd_model *mdl = (selector == 0) ? &qtm->model0 :
((selector == 1) ? &qtm->model1 :
((selector == 2) ? &qtm->model2 :
&qtm->model3));
GET_SYMBOL((*mdl), sym);
window[window_posn++] = sym;
frame_todo--;
}
else {
/* match repeated string */
switch (selector) {
case 4: /* selector 4 = fixed length match (3 bytes) */
GET_SYMBOL(qtm->model4, sym);
READ_MANY_BITS(extra, extra_bits[sym]);
match_offset = position_base[sym] + extra + 1;
match_length = 3;
break;
case 5: /* selector 5 = fixed length match (4 bytes) */
GET_SYMBOL(qtm->model5, sym);
READ_MANY_BITS(extra, extra_bits[sym]);
match_offset = position_base[sym] + extra + 1;
match_length = 4;
break;
case 6: /* selector 6 = variable length match */
GET_SYMBOL(qtm->model6len, sym);
READ_MANY_BITS(extra, length_extra[sym]);
match_length = length_base[sym] + extra + 5;
GET_SYMBOL(qtm->model6, sym);
READ_MANY_BITS(extra, extra_bits[sym]);
match_offset = position_base[sym] + extra + 1;
break;
default:
/* should be impossible, model7 can only return 0-6 */
D(("got %d from selector", selector))
return qtm->error = MSPACK_ERR_DECRUNCH;
}
rundest = &window[window_posn];
frame_todo -= match_length;
/* does match destination wrap the window? This situation is possible
* where the window size is less than the 32k frame size, but matches
* must not go beyond a frame boundary */
if ((window_posn + match_length) > qtm->window_size) {
/* copy first part of match, before window end */
i = qtm->window_size - window_posn;
j = window_posn - match_offset;
while (i--) *rundest++ = window[j++ & (qtm->window_size - 1)];
/* flush currently stored data */
i = (&window[qtm->window_size] - qtm->o_ptr);
/* this should not happen, but if it does then this code
* can't handle the situation (can't flush up to the end of
* the window, but can't break out either because we haven't
* finished writing the match). bail out in this case */
if (i > out_bytes) {
D(("during window-wrap match; %d bytes to flush but only need %d",
i, (int) out_bytes))
return qtm->error = MSPACK_ERR_DECRUNCH;
}
if (qtm->sys->write(qtm->output, qtm->o_ptr, i) != i) {
return qtm->error = MSPACK_ERR_WRITE;
}
out_bytes -= i;
qtm->o_ptr = &window[0];
qtm->o_end = &window[0];
/* copy second part of match, after window wrap */
rundest = &window[0];
i = match_length - (qtm->window_size - window_posn);
while (i--) *rundest++ = window[j++ & (qtm->window_size - 1)];
window_posn = window_posn + match_length - qtm->window_size;
break; /* because "window_posn < frame_end" has now failed */
}
else {
/* normal match - output won't wrap window or frame end */
i = match_length;
/* does match _offset_ wrap the window? */
if (match_offset > window_posn) {
/* j = length from match offset to end of window */
j = match_offset - window_posn;
if (j > (int) qtm->window_size) {
D(("match offset beyond window boundaries"))
return qtm->error = MSPACK_ERR_DECRUNCH;
}
runsrc = &window[qtm->window_size - j];
if (j < i) {
/* if match goes over the window edge, do two copy runs */
i -= j; while (j-- > 0) *rundest++ = *runsrc++;
runsrc = window;
}
while (i-- > 0) *rundest++ = *runsrc++;
}
else {
runsrc = rundest - match_offset;
while (i-- > 0) *rundest++ = *runsrc++;
}
window_posn += match_length;
}
} /* if (window_posn+match_length > frame_end) */
} /* while (window_posn < frame_end) */
qtm->o_end = &window[window_posn];
/* if we subtracted too much from frame_todo, it will
* wrap around past zero and go above its max value */
if (frame_todo > QTM_FRAME_SIZE) {
D(("overshot frame alignment"))
return qtm->error = MSPACK_ERR_DECRUNCH;
}
/* another frame completed? */
if (frame_todo == 0) {
/* re-align input */
if (bits_left & 7) REMOVE_BITS(bits_left & 7);
/* special Quantum hack -- cabd.c injects a trailer byte to allow the
* decompressor to realign itself. CAB Quantum blocks, unlike LZX
* blocks, can have anything from 0 to 4 trailing null bytes. */
do { READ_BITS(i, 8); } while (i != 0xFF);
qtm->header_read = 0;
frame_todo = QTM_FRAME_SIZE;
}
/* window wrap? */
if (window_posn == qtm->window_size) {
/* flush all currently stored data */
i = (qtm->o_end - qtm->o_ptr);
/* break out if we have more than enough to finish this request */
if (i >= out_bytes) break;
if (qtm->sys->write(qtm->output, qtm->o_ptr, i) != i) {
return qtm->error = MSPACK_ERR_WRITE;
}
out_bytes -= i;
qtm->o_ptr = &window[0];
qtm->o_end = &window[0];
window_posn = 0;
}
} /* while (more bytes needed) */
if (out_bytes) {
i = (int) out_bytes;
if (qtm->sys->write(qtm->output, qtm->o_ptr, i) != i) {
return qtm->error = MSPACK_ERR_WRITE;
}
qtm->o_ptr += i;
}
/* store local state */
STORE_BITS;
qtm->window_posn = window_posn;
qtm->frame_todo = frame_todo;
qtm->H = H;
qtm->L = L;
qtm->C = C;
return MSPACK_ERR_OK;
}
void qtmd_free(struct qtmd_stream *qtm) {
struct mspack_system *sys;
if (qtm) {
sys = qtm->sys;
sys->free(qtm->window);
sys->free(qtm->inbuf);
sys->free(qtm);
}
}

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/* This file is part of libmspack.
* (C) 2003-2010 Stuart Caie.
*
* libmspack is free software; you can redistribute it and/or modify it under
* the terms of the GNU Lesser General Public License (LGPL) version 2.1
*
* For further details, see the file COPYING.LIB distributed with libmspack
*/
#ifndef MSPACK_READBITS_H
#define MSPACK_READBITS_H 1
/* this header defines macros that read data streams by
* the individual bits
*
* INIT_BITS initialises bitstream state in state structure
* STORE_BITS stores bitstream state in state structure
* RESTORE_BITS restores bitstream state from state structure
* ENSURE_BITS(n) ensure there are at least N bits in the bit buffer
* READ_BITS(var,n) takes N bits from the buffer and puts them in var
* PEEK_BITS(n) extracts without removing N bits from the bit buffer
* REMOVE_BITS(n) removes N bits from the bit buffer
*
* READ_BITS simply calls ENSURE_BITS, PEEK_BITS and REMOVE_BITS,
* which means it's limited to reading the number of bits you can
* ensure at any one time. It also fails if asked to read zero bits.
* If you need to read zero bits, or more bits than can be ensured in
* one go, use READ_MANY_BITS instead.
*
* These macros have variable names baked into them, so to use them
* you have to define some macros:
* - BITS_TYPE: the type name of your state structure
* - BITS_VAR: the variable that points to your state structure
* - define BITS_ORDER_MSB if bits are read from the MSB, or
* define BITS_ORDER_LSB if bits are read from the LSB
* - READ_BYTES: some code that reads more data into the bit buffer,
* it should use READ_IF_NEEDED (calls read_input if the byte buffer
* is empty), then INJECT_BITS(data,n) to put data from the byte
* buffer into the bit buffer.
*
* You also need to define some variables and structure members:
* - unsigned char *i_ptr; // current position in the byte buffer
* - unsigned char *i_end; // end of the byte buffer
* - unsigned int bit_buffer; // the bit buffer itself
* - unsigned int bits_left; // number of bits remaining
*
* If you use read_input() and READ_IF_NEEDED, they also expect these
* structure members:
* - struct mspack_system *sys; // to access sys->read()
* - unsigned int error; // to record/return read errors
* - unsigned char input_end; // to mark reaching the EOF
* - unsigned char *inbuf; // the input byte buffer
* - unsigned int inbuf_size; // the size of the input byte buffer
*
* Your READ_BYTES implementation should read data from *i_ptr and
* put them in the bit buffer. READ_IF_NEEDED will call read_input()
* if i_ptr reaches i_end, and will fill up inbuf and set i_ptr to
* the start of inbuf and i_end to the end of inbuf.
*
* If you're reading in MSB order, the routines work by using the area
* beyond the MSB and the LSB of the bit buffer as a free source of
* zeroes when shifting. This avoids having to mask any bits. So we
* have to know the bit width of the bit buffer variable. We use
* <limits.h> and CHAR_BIT to find the size of the bit buffer in bits.
*
* If you are reading in LSB order, bits need to be masked. Normally
* this is done by computing the mask: N bits are masked by the value
* (1<<N)-1). However, you can define BITS_LSB_TABLE to use a lookup
* table instead of computing this. This adds two new macros,
* PEEK_BITS_T and READ_BITS_T which work the same way as PEEK_BITS
* and READ_BITS, except they use this lookup table. This is useful if
* you need to look up a number of bits that are only known at
* runtime, so the bit mask can't be turned into a constant by the
* compiler.
* The bit buffer datatype should be at least 32 bits wide: it must be
* possible to ENSURE_BITS(17), so it must be possible to add 16 new bits
* to the bit buffer when the bit buffer already has 1 to 15 bits left.
*/
#ifndef BITS_VAR
# error "define BITS_VAR as the state structure poiner variable name"
#endif
#ifndef BITS_TYPE
# error "define BITS_TYPE as the state structure type"
#endif
#if defined(BITS_ORDER_MSB) && defined(BITS_ORDER_LSB)
# error "you must define either BITS_ORDER_MSB or BITS_ORDER_LSB"
#else
# if !(defined(BITS_ORDER_MSB) || defined(BITS_ORDER_LSB))
# error "you must define BITS_ORDER_MSB or BITS_ORDER_LSB"
# endif
#endif
#if HAVE_LIMITS_H
# include <limits.h>
#endif
#ifndef CHAR_BIT
# define CHAR_BIT (8)
#endif
#define BITBUF_WIDTH (sizeof(bit_buffer) * CHAR_BIT)
#define INIT_BITS do { \
BITS_VAR->i_ptr = &BITS_VAR->inbuf[0]; \
BITS_VAR->i_end = &BITS_VAR->inbuf[0]; \
BITS_VAR->bit_buffer = 0; \
BITS_VAR->bits_left = 0; \
BITS_VAR->input_end = 0; \
} while (0)
#define STORE_BITS do { \
BITS_VAR->i_ptr = i_ptr; \
BITS_VAR->i_end = i_end; \
BITS_VAR->bit_buffer = bit_buffer; \
BITS_VAR->bits_left = bits_left; \
} while (0)
#define RESTORE_BITS do { \
i_ptr = BITS_VAR->i_ptr; \
i_end = BITS_VAR->i_end; \
bit_buffer = BITS_VAR->bit_buffer; \
bits_left = BITS_VAR->bits_left; \
} while (0)
#define ENSURE_BITS(nbits) do { \
while (bits_left < (nbits)) READ_BYTES; \
} while (0)
#define READ_BITS(val, nbits) do { \
ENSURE_BITS(nbits); \
(val) = PEEK_BITS(nbits); \
REMOVE_BITS(nbits); \
} while (0)
#define READ_MANY_BITS(val, bits) do { \
unsigned char needed = (bits), bitrun; \
(val) = 0; \
while (needed > 0) { \
if (bits_left <= (BITBUF_WIDTH - 16)) READ_BYTES; \
bitrun = (bits_left < needed) ? bits_left : needed; \
(val) = ((val) << bitrun) | PEEK_BITS(bitrun); \
REMOVE_BITS(bitrun); \
needed -= bitrun; \
} \
} while (0)
#ifdef BITS_ORDER_MSB
# define PEEK_BITS(nbits) (bit_buffer >> (BITBUF_WIDTH - (nbits)))
# define REMOVE_BITS(nbits) ((bit_buffer <<= (nbits)), (bits_left -= (nbits)))
# define INJECT_BITS(bitdata,nbits) ((bit_buffer |= \
(bitdata) << (BITBUF_WIDTH - (nbits) - bits_left)), (bits_left += (nbits)))
#else /* BITS_ORDER_LSB */
# define PEEK_BITS(nbits) (bit_buffer & ((1 << (nbits))-1))
# define REMOVE_BITS(nbits) ((bit_buffer >>= (nbits)), (bits_left -= (nbits)))
# define INJECT_BITS(bitdata,nbits) ((bit_buffer |= \
(bitdata) << bits_left), (bits_left += (nbits)))
#endif
#ifdef BITS_LSB_TABLE
/* lsb_bit_mask[n] = (1 << n) - 1 */
static const unsigned short lsb_bit_mask[17] = {
0x0000, 0x0001, 0x0003, 0x0007, 0x000f, 0x001f, 0x003f, 0x007f, 0x00ff,
0x01ff, 0x03ff, 0x07ff, 0x0fff, 0x1fff, 0x3fff, 0x7fff, 0xffff
};
# define PEEK_BITS_T(nbits) (bit_buffer & lsb_bit_mask[(nbits)])
# define READ_BITS_T(val, nbits) do { \
ENSURE_BITS(nbits); \
(val) = PEEK_BITS_T(nbits); \
REMOVE_BITS(nbits); \
} while (0)
#endif
#ifndef BITS_NO_READ_INPUT
# define READ_IF_NEEDED do { \
if (i_ptr >= i_end) { \
if (read_input(BITS_VAR)) \
return BITS_VAR->error; \
i_ptr = BITS_VAR->i_ptr; \
i_end = BITS_VAR->i_end; \
} \
} while (0)
static int read_input(BITS_TYPE *p) {
int read = p->sys->read(p->input, &p->inbuf[0], (int)p->inbuf_size);
if (read < 0) return p->error = MSPACK_ERR_READ;
/* we might overrun the input stream by asking for bits we don't use,
* so fake 2 more bytes at the end of input */
if (read == 0) {
if (p->input_end) {
D(("out of input bytes"))
return p->error = MSPACK_ERR_READ;
}
else {
read = 2;
p->inbuf[0] = p->inbuf[1] = 0;
p->input_end = 1;
}
}
/* update i_ptr and i_end */
p->i_ptr = &p->inbuf[0];
p->i_end = &p->inbuf[read];
return MSPACK_ERR_OK;
}
#endif
#endif

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/* This file is part of libmspack.
* (C) 2003-2010 Stuart Caie.
*
* libmspack is free software; you can redistribute it and/or modify it under
* the terms of the GNU Lesser General Public License (LGPL) version 2.1
*
* For further details, see the file COPYING.LIB distributed with libmspack
*/
#ifndef MSPACK_READHUFF_H
#define MSPACK_READHUFF_H 1
/* This implements a fast Huffman tree decoding system.
*/
#if !(defined(BITS_ORDER_MSB) || defined(BITS_ORDER_LSB))
# error "readhuff.h is used in conjunction with readbits.h, include that first"
#endif
#if !(defined(TABLEBITS) && defined(MAXSYMBOLS))
# error "define TABLEBITS(tbl) and MAXSYMBOLS(tbl) before using readhuff.h"
#endif
#if !(defined(HUFF_TABLE) && defined(HUFF_LEN))
# error "define HUFF_TABLE(tbl) and HUFF_LEN(tbl) before using readhuff.h"
#endif
#ifndef HUFF_ERROR
# error "define HUFF_ERROR before using readhuff.h"
#endif
#ifndef HUFF_MAXBITS
# define HUFF_MAXBITS 16
#endif
/* Decodes the next huffman symbol from the input bitstream into var.
* Do not use this macro on a table unless build_decode_table() succeeded.
*/
#define READ_HUFFSYM(tbl, var) do { \
ENSURE_BITS(HUFF_MAXBITS); \
sym = HUFF_TABLE(tbl, PEEK_BITS(TABLEBITS(tbl))); \
if (sym >= MAXSYMBOLS(tbl)) HUFF_TRAVERSE(tbl); \
(var) = sym; \
i = HUFF_LEN(tbl, sym); \
REMOVE_BITS(i); \
} while (0)
#ifdef BITS_ORDER_LSB
# define HUFF_TRAVERSE(tbl) do { \
i = TABLEBITS(tbl) - 1; \
do { \
if (i++ > HUFF_MAXBITS) HUFF_ERROR; \
sym = HUFF_TABLE(tbl, \
(sym << 1) | ((bit_buffer >> i) & 1)); \
} while (sym >= MAXSYMBOLS(tbl)); \
} while (0)
#else
#define HUFF_TRAVERSE(tbl) do { \
i = 1 << (BITBUF_WIDTH - TABLEBITS(tbl)); \
do { \
if ((i >>= 1) == 0) HUFF_ERROR; \
sym = HUFF_TABLE(tbl, \
(sym << 1) | ((bit_buffer & i) ? 1 : 0)); \
} while (sym >= MAXSYMBOLS(tbl)); \
} while (0)
#endif
/* make_decode_table(nsyms, nbits, length[], table[])
*
* This function was originally coded by David Tritscher.
* It builds a fast huffman decoding table from
* a canonical huffman code lengths table.
*
* nsyms = total number of symbols in this huffman tree.
* nbits = any symbols with a code length of nbits or less can be decoded
* in one lookup of the table.
* length = A table to get code lengths from [0 to nsyms-1]
* table = The table to fill up with decoded symbols and pointers.
* Should be ((1<<nbits) + (nsyms*2)) in length.
*
* Returns 0 for OK or 1 for error
*/
static int make_decode_table(unsigned int nsyms, unsigned int nbits,
unsigned char *length, unsigned short *table)
{
register unsigned short sym, next_symbol;
register unsigned int leaf, fill;
#ifdef BITS_ORDER_LSB
register unsigned int reverse;
#endif
register unsigned char bit_num;
unsigned int pos = 0; /* the current position in the decode table */
unsigned int table_mask = 1 << nbits;
unsigned int bit_mask = table_mask >> 1; /* don't do 0 length codes */
/* fill entries for codes short enough for a direct mapping */
for (bit_num = 1; bit_num <= nbits; bit_num++) {
for (sym = 0; sym < nsyms; sym++) {
if (length[sym] != bit_num) continue;
#ifdef BITS_ORDER_MSB
leaf = pos;
#else
/* reverse the significant bits */
fill = length[sym]; reverse = pos >> (nbits - fill); leaf = 0;
do {leaf <<= 1; leaf |= reverse & 1; reverse >>= 1;} while (--fill);
#endif
if((pos += bit_mask) > table_mask) return 1; /* table overrun */
/* fill all possible lookups of this symbol with the symbol itself */
#ifdef BITS_ORDER_MSB
for (fill = bit_mask; fill-- > 0;) table[leaf++] = sym;
#else
fill = bit_mask; next_symbol = 1 << bit_num;
do { table[leaf] = sym; leaf += next_symbol; } while (--fill);
#endif
}
bit_mask >>= 1;
}
/* exit with success if table is now complete */
if (pos == table_mask) return 0;
/* mark all remaining table entries as unused */
for (sym = pos; sym < table_mask; sym++) {
#ifdef BITS_ORDER_MSB
table[sym] = 0xFFFF;
#else
reverse = sym; leaf = 0; fill = nbits;
do { leaf <<= 1; leaf |= reverse & 1; reverse >>= 1; } while (--fill);
table[leaf] = 0xFFFF;
#endif
}
/* next_symbol = base of allocation for long codes */
next_symbol = ((table_mask >> 1) < nsyms) ? nsyms : (table_mask >> 1);
/* give ourselves room for codes to grow by up to 16 more bits.
* codes now start at bit nbits+16 and end at (nbits+16-codelength) */
pos <<= 16;
table_mask <<= 16;
bit_mask = 1 << 15;
for (bit_num = nbits+1; bit_num <= HUFF_MAXBITS; bit_num++) {
for (sym = 0; sym < nsyms; sym++) {
if (length[sym] != bit_num) continue;
#ifdef BITS_ORDER_MSB
leaf = pos >> 16;
#else
/* leaf = the first nbits of the code, reversed */
reverse = pos >> 16; leaf = 0; fill = nbits;
do {leaf <<= 1; leaf |= reverse & 1; reverse >>= 1;} while (--fill);
#endif
for (fill = 0; fill < (bit_num - nbits); fill++) {
/* if this path hasn't been taken yet, 'allocate' two entries */
if (table[leaf] == 0xFFFF) {
table[(next_symbol << 1) ] = 0xFFFF;
table[(next_symbol << 1) + 1 ] = 0xFFFF;
table[leaf] = next_symbol++;
}
/* follow the path and select either left or right for next bit */
leaf = table[leaf] << 1;
if ((pos >> (15-fill)) & 1) leaf++;
}
table[leaf] = sym;
if ((pos += bit_mask) > table_mask) return 1; /* table overflow */
}
bit_mask >>= 1;
}
/* full table? */
return (pos == table_mask) ? 0 : 1;
}
#endif

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/* This file is part of libmspack.
* (C) 2003-2004 Stuart Caie.
*
* libmspack is free software; you can redistribute it and/or modify it under
* the terms of the GNU Lesser General Public License (LGPL) version 2.1
*
* For further details, see the file COPYING.LIB distributed with libmspack
*/
#ifndef MSPACK_LZSS_H
#define MSPACK_LZSS_H 1
/* SHA-1 message digest definitions */
#endif

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/* This file is part of libmspack.
* (C) 2003-2004 Stuart Caie.
*
* libmspack is free software; you can redistribute it and/or modify it under
* the terms of the GNU Lesser General Public License (LGPL) version 2.1
*
* For further details, see the file COPYING.LIB distributed with libmspack
*/
#ifdef HAVE_CONFIG_H
# include <config.h>
#endif
#include <system.h>
#ifndef LARGEFILE_SUPPORT
const char *largefile_msg = "library not compiled to support large files.";
#endif
int mspack_version(int entity) {
switch (entity) {
/* CHM decoder version 1 -> 2 changes:
* - added mschmd_sec_mscompressed::spaninfo
* - added mschmd_header::first_pmgl
* - added mschmd_header::last_pmgl
* - added mschmd_header::chunk_cache;
*/
case MSPACK_VER_MSCHMD:
return 2;
case MSPACK_VER_LIBRARY:
case MSPACK_VER_SYSTEM:
case MSPACK_VER_MSCABD:
case MSPACK_VER_MSSZDDD:
case MSPACK_VER_MSKWAJD:
return 1;
case MSPACK_VER_MSCABC:
case MSPACK_VER_MSCHMC:
case MSPACK_VER_MSLITD:
case MSPACK_VER_MSLITC:
case MSPACK_VER_MSHLPD:
case MSPACK_VER_MSHLPC:
case MSPACK_VER_MSSZDDC:
case MSPACK_VER_MSKWAJC:
return 0;
}
return -1;
}
int mspack_sys_selftest_internal(int offt_size) {
return (sizeof(off_t) == offt_size) ? MSPACK_ERR_OK : MSPACK_ERR_SEEK;
}
/* validates a system structure */
int mspack_valid_system(struct mspack_system *sys) {
return (sys != NULL) && (sys->open != NULL) && (sys->close != NULL) &&
(sys->read != NULL) && (sys->write != NULL) && (sys->seek != NULL) &&
(sys->tell != NULL) && (sys->message != NULL) && (sys->alloc != NULL) &&
(sys->free != NULL) && (sys->copy != NULL) && (sys->null_ptr == NULL);
}
/* returns the length of a file opened for reading */
int mspack_sys_filelen(struct mspack_system *system,
struct mspack_file *file, off_t *length)
{
off_t current;
if (!system || !file || !length) return MSPACK_ERR_OPEN;
/* get current offset */
current = system->tell(file);
/* seek to end of file */
if (system->seek(file, (off_t) 0, MSPACK_SYS_SEEK_END)) {
return MSPACK_ERR_SEEK;
}
/* get offset of end of file */
*length = system->tell(file);
/* seek back to original offset */
if (system->seek(file, current, MSPACK_SYS_SEEK_START)) {
return MSPACK_ERR_SEEK;
}
return MSPACK_ERR_OK;
}
/* definition of mspack_default_system -- if the library is compiled with
* MSPACK_NO_DEFAULT_SYSTEM, no default system will be provided. Otherwise,
* an appropriate default system (e.g. the standard C library, or some native
* API calls)
*/
#ifdef MSPACK_NO_DEFAULT_SYSTEM
struct mspack_system *mspack_default_system = NULL;
#else
/* implementation of mspack_default_system for standard C library */
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <stdarg.h>
struct mspack_file_p {
FILE *fh;
const char *name;
};
static struct mspack_file *msp_open(struct mspack_system *self,
const char *filename, int mode)
{
struct mspack_file_p *fh;
const char *fmode;
switch (mode) {
case MSPACK_SYS_OPEN_READ: fmode = "rb"; break;
case MSPACK_SYS_OPEN_WRITE: fmode = "wb"; break;
case MSPACK_SYS_OPEN_UPDATE: fmode = "r+b"; break;
case MSPACK_SYS_OPEN_APPEND: fmode = "ab"; break;
default: return NULL;
}
if ((fh = (struct mspack_file_p *) malloc(sizeof(struct mspack_file_p)))) {
fh->name = filename;
if ((fh->fh = fopen(filename, fmode))) return (struct mspack_file *) fh;
free(fh);
}
return NULL;
}
static void msp_close(struct mspack_file *file) {
struct mspack_file_p *self = (struct mspack_file_p *) file;
if (self) {
fclose(self->fh);
free(self);
}
}
static int msp_read(struct mspack_file *file, void *buffer, int bytes) {
struct mspack_file_p *self = (struct mspack_file_p *) file;
if (self && buffer && bytes >= 0) {
size_t count = fread(buffer, 1, (size_t) bytes, self->fh);
if (!ferror(self->fh)) return (int) count;
}
return -1;
}
static int msp_write(struct mspack_file *file, void *buffer, int bytes) {
struct mspack_file_p *self = (struct mspack_file_p *) file;
if (self && buffer && bytes >= 0) {
size_t count = fwrite(buffer, 1, (size_t) bytes, self->fh);
if (!ferror(self->fh)) return (int) count;
}
return -1;
}
static int msp_seek(struct mspack_file *file, off_t offset, int mode) {
struct mspack_file_p *self = (struct mspack_file_p *) file;
if (self) {
switch (mode) {
case MSPACK_SYS_SEEK_START: mode = SEEK_SET; break;
case MSPACK_SYS_SEEK_CUR: mode = SEEK_CUR; break;
case MSPACK_SYS_SEEK_END: mode = SEEK_END; break;
default: return -1;
}
#ifdef HAVE_FSEEKO
return fseeko(self->fh, offset, mode);
#else
return fseek(self->fh, offset, mode);
#endif
}
return -1;
}
static off_t msp_tell(struct mspack_file *file) {
struct mspack_file_p *self = (struct mspack_file_p *) file;
#ifdef HAVE_FSEEKO
return (self) ? (off_t) ftello(self->fh) : 0;
#else
return (self) ? (off_t) ftell(self->fh) : 0;
#endif
}
static void msp_msg(struct mspack_file *file, const char *format, ...) {
va_list ap;
if (file) fprintf(stderr, "%s: ", ((struct mspack_file_p *) file)->name);
va_start(ap, format);
vfprintf(stderr, format, ap);
va_end(ap);
fputc((int) '\n', stderr);
fflush(stderr);
}
static void *msp_alloc(struct mspack_system *self, size_t bytes) {
#ifdef DEBUG
/* make uninitialised data obvious */
char *buf = malloc(bytes + 8);
if (buf) memset(buf, 0xDC, bytes);
*((size_t *)buf) = bytes;
return &buf[8];
#else
return malloc(bytes);
#endif
}
static void msp_free(void *buffer) {
#ifdef DEBUG
char *buf = buffer;
size_t bytes;
if (buf) {
buf -= 8;
bytes = *((size_t *)buf);
/* make freed data obvious */
memset(buf, 0xED, bytes);
free(buf);
}
#else
free(buffer);
#endif
}
static void msp_copy(void *src, void *dest, size_t bytes) {
memcpy(dest, src, bytes);
}
static struct mspack_system msp_system = {
&msp_open, &msp_close, &msp_read, &msp_write, &msp_seek,
&msp_tell, &msp_msg, &msp_alloc, &msp_free, &msp_copy, NULL
};
struct mspack_system *mspack_default_system = &msp_system;
#endif

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/* This file is part of libmspack.
* (C) 2003-2004 Stuart Caie.
*
* libmspack is free software; you can redistribute it and/or modify it under
* the terms of the GNU Lesser General Public License (LGPL) version 2.1
*
* For further details, see the file COPYING.LIB distributed with libmspack
*/
#ifndef MSPACK_SYSTEM_H
#define MSPACK_SYSTEM_H 1
#ifdef __cplusplus
extern "C" {
#endif
/* ensure config.h is read before mspack.h */
#ifdef HAVE_CONFIG_H
# include <config.h>
#endif
#include <mspack.h>
/* fix for problem with GCC 4 and glibc (thanks to Ville Skytta)
* http://bugzilla.redhat.com/bugzilla/show_bug.cgi?id=150429
*/
#ifdef read
# undef read
#endif
#ifdef DEBUG
# include <stdio.h>
/* Old GCCs don't have __func__, but __FUNCTION__:
* http://gcc.gnu.org/onlinedocs/gcc/Function-Names.html
*/
# if __STDC_VERSION__ < 199901L
# if __GNUC__ >= 2
# define __func__ __FUNCTION__
# else
# define __func__ "<unknown>"
# endif
# endif
# define D(x) do { printf("%s:%d (%s) ",__FILE__, __LINE__, __func__); \
printf x ; fputc('\n', stdout); fflush(stdout);} while (0);
#else
# define D(x)
#endif
/* CAB supports searching through files over 4GB in size, and the CHM file
* format actively uses 64-bit offsets. These can only be fully supported
* if the system the code runs on supports large files. If not, the library
* will work as normal using only 32-bit arithmetic, but if an offset
* greater than 2GB is detected, an error message indicating the library
* can't support the file should be printed.
*/
#ifdef HAVE_LIMITS_H
# include <limits.h>
#endif
#if ((defined(_FILE_OFFSET_BITS) && _FILE_OFFSET_BITS >= 64) || \
(defined(FILESIZEBITS) && FILESIZEBITS >= 64) || \
(defined(SIZEOF_OFF_T) && SIZEOF_OFF_T >= 8) || \
defined(_LARGEFILE_SOURCE) || defined(_LARGEFILE64_SOURCE))
# define LARGEFILE_SUPPORT
# define LD "lld"
# define LU "llu"
#else
extern const char *largefile_msg;
# define LD "ld"
# define LU "lu"
#endif
/* endian-neutral reading of little-endian data */
#define __egi32(a,n) ( ((((unsigned char *) a)[n+3]) << 24) | \
((((unsigned char *) a)[n+2]) << 16) | \
((((unsigned char *) a)[n+1]) << 8) | \
((((unsigned char *) a)[n+0])))
#define EndGetI64(a) ((((unsigned long long int) __egi32(a,4)) << 32) | \
((unsigned int) __egi32(a,0)))
#define EndGetI32(a) __egi32(a,0)
#define EndGetI16(a) ((((a)[1])<<8)|((a)[0]))
/* endian-neutral reading of big-endian data */
#define EndGetM32(a) (((((unsigned char *) a)[0]) << 24) | \
((((unsigned char *) a)[1]) << 16) | \
((((unsigned char *) a)[2]) << 8) | \
((((unsigned char *) a)[3])))
#define EndGetM16(a) ((((a)[0])<<8)|((a)[1]))
extern struct mspack_system *mspack_default_system;
/* returns the length of a file opened for reading */
extern int mspack_sys_filelen(struct mspack_system *system,
struct mspack_file *file, off_t *length);
/* validates a system structure */
extern int mspack_valid_system(struct mspack_system *sys);
#if HAVE_STRINGS_H
# include <strings.h>
#endif
#if HAVE_STRING_H
# include <string.h>
#endif
#if HAVE_MEMCMP
# define mspack_memcmp memcmp
#else
/* inline memcmp() */
static inline int mspack_memcmp(const void *s1, const void *s2, size_t n) {
unsigned char *c1 = (unsigned char *) s1;
unsigned char *c2 = (unsigned char *) s2;
if (n == 0) return 0;
while (--n && (*c1 == *c2)) c1++, c2++;
return *c1 - *c2;
}
#endif
#ifdef __cplusplus
}
#endif
#endif

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/* This file is part of libmspack.
* (C) 2003-2004 Stuart Caie.
*
* libmspack is free software; you can redistribute it and/or modify it under
* the terms of the GNU Lesser General Public License (LGPL) version 2.1
*
* For further details, see the file COPYING.LIB distributed with libmspack
*/
#ifndef MSPACK_SZDD_H
#define MSPACK_SZDD_H 1
#include <lzss.h>
/* input buffer size during decompression - not worth parameterising IMHO */
#define SZDD_INPUT_SIZE (2048)
/* SZDD compression definitions */
struct msszdd_compressor_p {
struct msszdd_compressor base;
struct mspack_system *system;
int error;
};
/* SZDD decompression definitions */
struct msszdd_decompressor_p {
struct msszdd_decompressor base;
struct mspack_system *system;
int error;
};
struct msszddd_header_p {
struct msszddd_header base;
struct mspack_file *fh;
};
#endif

24
rbutil/rbutilqt/mspack/szddc.c Normal file
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/* This file is part of libmspack.
* (C) 2003-2004 Stuart Caie.
*
* libmspack is free software; you can redistribute it and/or modify it under
* the terms of the GNU Lesser General Public License (LGPL) version 2.1
*
* For further details, see the file COPYING.LIB distributed with libmspack
*/
/* SZDD compression implementation */
#include <system.h>
#include <szdd.h>
struct msszdd_compressor *
mspack_create_szdd_compressor(struct mspack_system *sys)
{
/* todo */
return NULL;
}
void mspack_destroy_szdd_compressor(struct msszdd_compressor *self) {
/* todo */
}

247
rbutil/rbutilqt/mspack/szddd.c Normal file
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/* This file is part of libmspack.
* (C) 2003-2010 Stuart Caie.
*
* SZDD is a format used in the MS-DOS commands COMPRESS.EXE and
* EXPAND.EXE. The compression method is attributed to Steven Zeck,
* however it's pretty much identical to LZSS.
*
* libmspack is free software; you can redistribute it and/or modify it under
* the terms of the GNU Lesser General Public License (LGPL) version 2.1
*
* For further details, see the file COPYING.LIB distributed with libmspack
*/
/* SZDD decompression implementation */
#include <system.h>
#include <szdd.h>
/* prototypes */
static struct msszddd_header *szddd_open(
struct msszdd_decompressor *base, const char *filename);
static void szddd_close(
struct msszdd_decompressor *base, struct msszddd_header *hdr);
static int szddd_read_headers(
struct mspack_system *sys, struct mspack_file *fh,
struct msszddd_header *hdr);
static int szddd_extract(
struct msszdd_decompressor *base, struct msszddd_header *hdr,
const char *filename);
static int szddd_decompress(
struct msszdd_decompressor *base, const char *input, const char *output);
static int szddd_error(
struct msszdd_decompressor *base);
/***************************************
* MSPACK_CREATE_SZDD_DECOMPRESSOR
***************************************
* constructor
*/
struct msszdd_decompressor *
mspack_create_szdd_decompressor(struct mspack_system *sys)
{
struct msszdd_decompressor_p *self = NULL;
if (!sys) sys = mspack_default_system;
if (!mspack_valid_system(sys)) return NULL;
if ((self = (struct msszdd_decompressor_p *) sys->alloc(sys, sizeof(struct msszdd_decompressor_p)))) {
self->base.open = &szddd_open;
self->base.close = &szddd_close;
self->base.extract = &szddd_extract;
self->base.decompress = &szddd_decompress;
self->base.last_error = &szddd_error;
self->system = sys;
self->error = MSPACK_ERR_OK;
}
return (struct msszdd_decompressor *) self;
}
/***************************************
* MSPACK_DESTROY_SZDD_DECOMPRESSOR
***************************************
* destructor
*/
void mspack_destroy_szdd_decompressor(struct msszdd_decompressor *base)
{
struct msszdd_decompressor_p *self = (struct msszdd_decompressor_p *) base;
if (self) {
struct mspack_system *sys = self->system;
sys->free(self);
}
}
/***************************************
* SZDDD_OPEN
***************************************
* opens an SZDD file without decompressing, reads header
*/
static struct msszddd_header *szddd_open(struct msszdd_decompressor *base,
const char *filename)
{
struct msszdd_decompressor_p *self = (struct msszdd_decompressor_p *) base;
struct msszddd_header *hdr;
struct mspack_system *sys;
struct mspack_file *fh;
if (!self) return NULL;
sys = self->system;
fh = sys->open(sys, filename, MSPACK_SYS_OPEN_READ);
hdr = (struct msszddd_header *) sys->alloc(sys, sizeof(struct msszddd_header_p));
if (fh && hdr) {
((struct msszddd_header_p *) hdr)->fh = fh;
self->error = szddd_read_headers(sys, fh, hdr);
}
else {
if (!fh) self->error = MSPACK_ERR_OPEN;
if (!hdr) self->error = MSPACK_ERR_NOMEMORY;
}
if (self->error) {
if (fh) sys->close(fh);
if (hdr) sys->free(hdr);
hdr = NULL;
}
return hdr;
}
/***************************************
* SZDDD_CLOSE
***************************************
* closes an SZDD file
*/
static void szddd_close(struct msszdd_decompressor *base,
struct msszddd_header *hdr)
{
struct msszdd_decompressor_p *self = (struct msszdd_decompressor_p *) base;
struct msszddd_header_p *hdr_p = (struct msszddd_header_p *) hdr;
if (!self || !self->system) return;
/* close the file handle associated */
self->system->close(hdr_p->fh);
/* free the memory associated */
self->system->free(hdr);
self->error = MSPACK_ERR_OK;
}
/***************************************
* SZDDD_READ_HEADERS
***************************************
* reads the headers of an SZDD format file
*/
static unsigned char szdd_signature_expand[8] = {
0x53, 0x5A, 0x44, 0x44, 0x88, 0xF0, 0x27, 0x33
};
static unsigned char szdd_signature_qbasic[8] = {
0x53, 0x5A, 0x20, 0x88, 0xF0, 0x27, 0x33, 0xD1
};
static int szddd_read_headers(struct mspack_system *sys,
struct mspack_file *fh,
struct msszddd_header *hdr)
{
unsigned char buf[8];
/* read and check signature */
if (sys->read(fh, buf, 8) != 8) return MSPACK_ERR_READ;
if ((mspack_memcmp(buf, szdd_signature_expand, 8) == 0)) {
/* common SZDD */
hdr->format = MSSZDD_FMT_NORMAL;
/* read the rest of the header */
if (sys->read(fh, buf, 6) != 6) return MSPACK_ERR_READ;
if (buf[0] != 0x41) return MSPACK_ERR_DATAFORMAT;
hdr->missing_char = buf[1];
hdr->length = EndGetI32(&buf[2]);
}
else if ((mspack_memcmp(buf, szdd_signature_qbasic, 8) == 0)) {
/* special QBasic SZDD */
hdr->format = MSSZDD_FMT_QBASIC;
if (sys->read(fh, buf, 4) != 4) return MSPACK_ERR_READ;
hdr->missing_char = '\0';
hdr->length = EndGetI32(buf);
}
else {
return MSPACK_ERR_SIGNATURE;
}
return MSPACK_ERR_OK;
}
/***************************************
* SZDDD_EXTRACT
***************************************
* decompresses an SZDD file
*/
static int szddd_extract(struct msszdd_decompressor *base,
struct msszddd_header *hdr, const char *filename)
{
struct msszdd_decompressor_p *self = (struct msszdd_decompressor_p *) base;
struct mspack_file *fh, *outfh;
struct mspack_system *sys;
off_t data_offset;
if (!self) return MSPACK_ERR_ARGS;
if (!hdr) return self->error = MSPACK_ERR_ARGS;
sys = self->system;
fh = ((struct msszddd_header_p *) hdr)->fh;
/* seek to the compressed data */
data_offset = (hdr->format == MSSZDD_FMT_NORMAL) ? 14 : 12;
if (sys->seek(fh, data_offset, MSPACK_SYS_SEEK_START)) {
return self->error = MSPACK_ERR_SEEK;
}
/* open file for output */
if (!(outfh = sys->open(sys, filename, MSPACK_SYS_OPEN_WRITE))) {
return self->error = MSPACK_ERR_OPEN;
}
/* decompress the data */
self->error = lzss_decompress(sys, fh, outfh, SZDD_INPUT_SIZE,
hdr->format == MSSZDD_FMT_NORMAL
? LZSS_MODE_EXPAND
: LZSS_MODE_QBASIC);
/* close output file */
sys->close(outfh);
return self->error;
}
/***************************************
* SZDDD_DECOMPRESS
***************************************
* unpacks directly from input to output
*/
static int szddd_decompress(struct msszdd_decompressor *base,
const char *input, const char *output)
{
struct msszdd_decompressor_p *self = (struct msszdd_decompressor_p *) base;
struct msszddd_header *hdr;
int error;
if (!self) return MSPACK_ERR_ARGS;
if (!(hdr = szddd_open(base, input))) return self->error;
error = szddd_extract(base, hdr, output);
szddd_close(base, hdr);
return self->error = error;
}
/***************************************
* SZDDD_ERROR
***************************************
* returns the last error that occurred
*/
static int szddd_error(struct msszdd_decompressor *base)
{
struct msszdd_decompressor_p *self = (struct msszdd_decompressor_p *) base;
return (self) ? self->error : MSPACK_ERR_ARGS;
}