/* 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