648 lines
15 KiB
C
648 lines
15 KiB
C
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/* Lzma decompressor for Linux kernel. Shamelessly snarfed
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*from busybox 1.1.1
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*
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*Linux kernel adaptation
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*Copyright (C) 2006 Alain < alain@knaff.lu >
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*
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*Based on small lzma deflate implementation/Small range coder
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*implementation for lzma.
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*Copyright (C) 2006 Aurelien Jacobs < aurel@gnuage.org >
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*
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*Based on LzmaDecode.c from the LZMA SDK 4.22 (http://www.7-zip.org/)
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*Copyright (C) 1999-2005 Igor Pavlov
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*
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*Copyrights of the parts, see headers below.
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*
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*
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*This program is free software; you can redistribute it and/or
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*modify it under the terms of the GNU Lesser General Public
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*License as published by the Free Software Foundation; either
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*version 2.1 of the License, or (at your option) any later version.
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*
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*This program is distributed in the hope that it will be useful,
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*but WITHOUT ANY WARRANTY; without even the implied warranty of
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*MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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*Lesser General Public License for more details.
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*
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*You should have received a copy of the GNU Lesser General Public
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*License along with this library; if not, write to the Free Software
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*Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
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*/
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#ifndef STATIC
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#include <linux/decompress/unlzma.h>
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#endif /* STATIC */
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#include <linux/decompress/mm.h>
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#define MIN(a, b) (((a) < (b)) ? (a) : (b))
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static long long INIT read_int(unsigned char *ptr, int size)
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{
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int i;
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long long ret = 0;
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for (i = 0; i < size; i++)
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ret = (ret << 8) | ptr[size-i-1];
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return ret;
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}
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#define ENDIAN_CONVERT(x) \
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x = (typeof(x))read_int((unsigned char *)&x, sizeof(x))
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/* Small range coder implementation for lzma.
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*Copyright (C) 2006 Aurelien Jacobs < aurel@gnuage.org >
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*
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*Based on LzmaDecode.c from the LZMA SDK 4.22 (http://www.7-zip.org/)
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*Copyright (c) 1999-2005 Igor Pavlov
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*/
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#include <linux/compiler.h>
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#define LZMA_IOBUF_SIZE 0x10000
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struct rc {
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int (*fill)(void*, unsigned int);
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uint8_t *ptr;
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uint8_t *buffer;
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uint8_t *buffer_end;
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int buffer_size;
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uint32_t code;
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uint32_t range;
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uint32_t bound;
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};
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#define RC_TOP_BITS 24
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#define RC_MOVE_BITS 5
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#define RC_MODEL_TOTAL_BITS 11
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/* Called twice: once at startup and once in rc_normalize() */
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static void INIT rc_read(struct rc *rc)
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{
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rc->buffer_size = rc->fill((char *)rc->buffer, LZMA_IOBUF_SIZE);
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if (rc->buffer_size <= 0)
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error("unexpected EOF");
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rc->ptr = rc->buffer;
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rc->buffer_end = rc->buffer + rc->buffer_size;
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}
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/* Called once */
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static inline void INIT rc_init(struct rc *rc,
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int (*fill)(void*, unsigned int),
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char *buffer, int buffer_size)
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{
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rc->fill = fill;
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rc->buffer = (uint8_t *)buffer;
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rc->buffer_size = buffer_size;
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rc->buffer_end = rc->buffer + rc->buffer_size;
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rc->ptr = rc->buffer;
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rc->code = 0;
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rc->range = 0xFFFFFFFF;
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}
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static inline void INIT rc_init_code(struct rc *rc)
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{
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int i;
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for (i = 0; i < 5; i++) {
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if (rc->ptr >= rc->buffer_end)
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rc_read(rc);
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rc->code = (rc->code << 8) | *rc->ptr++;
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}
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}
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/* Called once. TODO: bb_maybe_free() */
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static inline void INIT rc_free(struct rc *rc)
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{
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free(rc->buffer);
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}
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/* Called twice, but one callsite is in inline'd rc_is_bit_0_helper() */
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static void INIT rc_do_normalize(struct rc *rc)
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{
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if (rc->ptr >= rc->buffer_end)
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rc_read(rc);
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rc->range <<= 8;
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rc->code = (rc->code << 8) | *rc->ptr++;
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}
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static inline void INIT rc_normalize(struct rc *rc)
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{
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if (rc->range < (1 << RC_TOP_BITS))
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rc_do_normalize(rc);
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}
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/* Called 9 times */
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/* Why rc_is_bit_0_helper exists?
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*Because we want to always expose (rc->code < rc->bound) to optimizer
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*/
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static inline uint32_t INIT rc_is_bit_0_helper(struct rc *rc, uint16_t *p)
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{
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rc_normalize(rc);
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rc->bound = *p * (rc->range >> RC_MODEL_TOTAL_BITS);
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return rc->bound;
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}
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static inline int INIT rc_is_bit_0(struct rc *rc, uint16_t *p)
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{
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uint32_t t = rc_is_bit_0_helper(rc, p);
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return rc->code < t;
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}
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/* Called ~10 times, but very small, thus inlined */
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static inline void INIT rc_update_bit_0(struct rc *rc, uint16_t *p)
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{
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rc->range = rc->bound;
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*p += ((1 << RC_MODEL_TOTAL_BITS) - *p) >> RC_MOVE_BITS;
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}
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static inline void rc_update_bit_1(struct rc *rc, uint16_t *p)
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{
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rc->range -= rc->bound;
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rc->code -= rc->bound;
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*p -= *p >> RC_MOVE_BITS;
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}
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/* Called 4 times in unlzma loop */
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static int INIT rc_get_bit(struct rc *rc, uint16_t *p, int *symbol)
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{
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if (rc_is_bit_0(rc, p)) {
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rc_update_bit_0(rc, p);
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*symbol *= 2;
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return 0;
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} else {
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rc_update_bit_1(rc, p);
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*symbol = *symbol * 2 + 1;
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return 1;
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}
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}
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/* Called once */
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static inline int INIT rc_direct_bit(struct rc *rc)
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{
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rc_normalize(rc);
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rc->range >>= 1;
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if (rc->code >= rc->range) {
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rc->code -= rc->range;
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return 1;
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}
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return 0;
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}
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/* Called twice */
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static inline void INIT
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rc_bit_tree_decode(struct rc *rc, uint16_t *p, int num_levels, int *symbol)
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{
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int i = num_levels;
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*symbol = 1;
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while (i--)
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rc_get_bit(rc, p + *symbol, symbol);
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*symbol -= 1 << num_levels;
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}
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/*
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* Small lzma deflate implementation.
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* Copyright (C) 2006 Aurelien Jacobs < aurel@gnuage.org >
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*
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* Based on LzmaDecode.c from the LZMA SDK 4.22 (http://www.7-zip.org/)
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* Copyright (C) 1999-2005 Igor Pavlov
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*/
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struct lzma_header {
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uint8_t pos;
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uint32_t dict_size;
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uint64_t dst_size;
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} __attribute__ ((packed)) ;
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#define LZMA_BASE_SIZE 1846
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#define LZMA_LIT_SIZE 768
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#define LZMA_NUM_POS_BITS_MAX 4
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#define LZMA_LEN_NUM_LOW_BITS 3
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#define LZMA_LEN_NUM_MID_BITS 3
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#define LZMA_LEN_NUM_HIGH_BITS 8
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#define LZMA_LEN_CHOICE 0
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#define LZMA_LEN_CHOICE_2 (LZMA_LEN_CHOICE + 1)
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#define LZMA_LEN_LOW (LZMA_LEN_CHOICE_2 + 1)
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#define LZMA_LEN_MID (LZMA_LEN_LOW \
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+ (1 << (LZMA_NUM_POS_BITS_MAX + LZMA_LEN_NUM_LOW_BITS)))
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#define LZMA_LEN_HIGH (LZMA_LEN_MID \
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+(1 << (LZMA_NUM_POS_BITS_MAX + LZMA_LEN_NUM_MID_BITS)))
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#define LZMA_NUM_LEN_PROBS (LZMA_LEN_HIGH + (1 << LZMA_LEN_NUM_HIGH_BITS))
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#define LZMA_NUM_STATES 12
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#define LZMA_NUM_LIT_STATES 7
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#define LZMA_START_POS_MODEL_INDEX 4
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#define LZMA_END_POS_MODEL_INDEX 14
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#define LZMA_NUM_FULL_DISTANCES (1 << (LZMA_END_POS_MODEL_INDEX >> 1))
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#define LZMA_NUM_POS_SLOT_BITS 6
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#define LZMA_NUM_LEN_TO_POS_STATES 4
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#define LZMA_NUM_ALIGN_BITS 4
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#define LZMA_MATCH_MIN_LEN 2
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#define LZMA_IS_MATCH 0
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#define LZMA_IS_REP (LZMA_IS_MATCH + (LZMA_NUM_STATES << LZMA_NUM_POS_BITS_MAX))
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#define LZMA_IS_REP_G0 (LZMA_IS_REP + LZMA_NUM_STATES)
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#define LZMA_IS_REP_G1 (LZMA_IS_REP_G0 + LZMA_NUM_STATES)
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#define LZMA_IS_REP_G2 (LZMA_IS_REP_G1 + LZMA_NUM_STATES)
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#define LZMA_IS_REP_0_LONG (LZMA_IS_REP_G2 + LZMA_NUM_STATES)
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#define LZMA_POS_SLOT (LZMA_IS_REP_0_LONG \
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+ (LZMA_NUM_STATES << LZMA_NUM_POS_BITS_MAX))
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#define LZMA_SPEC_POS (LZMA_POS_SLOT \
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+(LZMA_NUM_LEN_TO_POS_STATES << LZMA_NUM_POS_SLOT_BITS))
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#define LZMA_ALIGN (LZMA_SPEC_POS \
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+ LZMA_NUM_FULL_DISTANCES - LZMA_END_POS_MODEL_INDEX)
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#define LZMA_LEN_CODER (LZMA_ALIGN + (1 << LZMA_NUM_ALIGN_BITS))
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#define LZMA_REP_LEN_CODER (LZMA_LEN_CODER + LZMA_NUM_LEN_PROBS)
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#define LZMA_LITERAL (LZMA_REP_LEN_CODER + LZMA_NUM_LEN_PROBS)
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struct writer {
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uint8_t *buffer;
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uint8_t previous_byte;
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size_t buffer_pos;
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int bufsize;
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size_t global_pos;
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int(*flush)(void*, unsigned int);
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struct lzma_header *header;
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};
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struct cstate {
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int state;
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uint32_t rep0, rep1, rep2, rep3;
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};
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static inline size_t INIT get_pos(struct writer *wr)
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{
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return
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wr->global_pos + wr->buffer_pos;
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}
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static inline uint8_t INIT peek_old_byte(struct writer *wr,
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uint32_t offs)
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{
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if (!wr->flush) {
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int32_t pos;
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while (offs > wr->header->dict_size)
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offs -= wr->header->dict_size;
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pos = wr->buffer_pos - offs;
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return wr->buffer[pos];
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} else {
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uint32_t pos = wr->buffer_pos - offs;
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while (pos >= wr->header->dict_size)
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pos += wr->header->dict_size;
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return wr->buffer[pos];
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}
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}
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static inline void INIT write_byte(struct writer *wr, uint8_t byte)
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{
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wr->buffer[wr->buffer_pos++] = wr->previous_byte = byte;
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if (wr->flush && wr->buffer_pos == wr->header->dict_size) {
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wr->buffer_pos = 0;
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wr->global_pos += wr->header->dict_size;
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wr->flush((char *)wr->buffer, wr->header->dict_size);
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}
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}
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static inline void INIT copy_byte(struct writer *wr, uint32_t offs)
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{
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write_byte(wr, peek_old_byte(wr, offs));
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}
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static inline void INIT copy_bytes(struct writer *wr,
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uint32_t rep0, int len)
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{
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do {
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copy_byte(wr, rep0);
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len--;
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} while (len != 0 && wr->buffer_pos < wr->header->dst_size);
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}
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static inline void INIT process_bit0(struct writer *wr, struct rc *rc,
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struct cstate *cst, uint16_t *p,
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int pos_state, uint16_t *prob,
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int lc, uint32_t literal_pos_mask) {
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int mi = 1;
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rc_update_bit_0(rc, prob);
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prob = (p + LZMA_LITERAL +
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(LZMA_LIT_SIZE
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* (((get_pos(wr) & literal_pos_mask) << lc)
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+ (wr->previous_byte >> (8 - lc))))
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);
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if (cst->state >= LZMA_NUM_LIT_STATES) {
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int match_byte = peek_old_byte(wr, cst->rep0);
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do {
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int bit;
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uint16_t *prob_lit;
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match_byte <<= 1;
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bit = match_byte & 0x100;
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prob_lit = prob + 0x100 + bit + mi;
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if (rc_get_bit(rc, prob_lit, &mi)) {
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if (!bit)
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break;
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} else {
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if (bit)
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break;
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}
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} while (mi < 0x100);
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}
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while (mi < 0x100) {
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uint16_t *prob_lit = prob + mi;
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rc_get_bit(rc, prob_lit, &mi);
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}
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write_byte(wr, mi);
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if (cst->state < 4)
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cst->state = 0;
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else if (cst->state < 10)
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cst->state -= 3;
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else
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cst->state -= 6;
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}
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static inline void INIT process_bit1(struct writer *wr, struct rc *rc,
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struct cstate *cst, uint16_t *p,
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int pos_state, uint16_t *prob) {
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int offset;
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uint16_t *prob_len;
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int num_bits;
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int len;
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rc_update_bit_1(rc, prob);
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prob = p + LZMA_IS_REP + cst->state;
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if (rc_is_bit_0(rc, prob)) {
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rc_update_bit_0(rc, prob);
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cst->rep3 = cst->rep2;
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cst->rep2 = cst->rep1;
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cst->rep1 = cst->rep0;
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cst->state = cst->state < LZMA_NUM_LIT_STATES ? 0 : 3;
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prob = p + LZMA_LEN_CODER;
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} else {
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rc_update_bit_1(rc, prob);
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prob = p + LZMA_IS_REP_G0 + cst->state;
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if (rc_is_bit_0(rc, prob)) {
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rc_update_bit_0(rc, prob);
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prob = (p + LZMA_IS_REP_0_LONG
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+ (cst->state <<
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LZMA_NUM_POS_BITS_MAX) +
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pos_state);
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if (rc_is_bit_0(rc, prob)) {
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rc_update_bit_0(rc, prob);
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cst->state = cst->state < LZMA_NUM_LIT_STATES ?
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9 : 11;
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copy_byte(wr, cst->rep0);
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return;
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} else {
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rc_update_bit_1(rc, prob);
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||
|
}
|
||
|
} else {
|
||
|
uint32_t distance;
|
||
|
|
||
|
rc_update_bit_1(rc, prob);
|
||
|
prob = p + LZMA_IS_REP_G1 + cst->state;
|
||
|
if (rc_is_bit_0(rc, prob)) {
|
||
|
rc_update_bit_0(rc, prob);
|
||
|
distance = cst->rep1;
|
||
|
} else {
|
||
|
rc_update_bit_1(rc, prob);
|
||
|
prob = p + LZMA_IS_REP_G2 + cst->state;
|
||
|
if (rc_is_bit_0(rc, prob)) {
|
||
|
rc_update_bit_0(rc, prob);
|
||
|
distance = cst->rep2;
|
||
|
} else {
|
||
|
rc_update_bit_1(rc, prob);
|
||
|
distance = cst->rep3;
|
||
|
cst->rep3 = cst->rep2;
|
||
|
}
|
||
|
cst->rep2 = cst->rep1;
|
||
|
}
|
||
|
cst->rep1 = cst->rep0;
|
||
|
cst->rep0 = distance;
|
||
|
}
|
||
|
cst->state = cst->state < LZMA_NUM_LIT_STATES ? 8 : 11;
|
||
|
prob = p + LZMA_REP_LEN_CODER;
|
||
|
}
|
||
|
|
||
|
prob_len = prob + LZMA_LEN_CHOICE;
|
||
|
if (rc_is_bit_0(rc, prob_len)) {
|
||
|
rc_update_bit_0(rc, prob_len);
|
||
|
prob_len = (prob + LZMA_LEN_LOW
|
||
|
+ (pos_state <<
|
||
|
LZMA_LEN_NUM_LOW_BITS));
|
||
|
offset = 0;
|
||
|
num_bits = LZMA_LEN_NUM_LOW_BITS;
|
||
|
} else {
|
||
|
rc_update_bit_1(rc, prob_len);
|
||
|
prob_len = prob + LZMA_LEN_CHOICE_2;
|
||
|
if (rc_is_bit_0(rc, prob_len)) {
|
||
|
rc_update_bit_0(rc, prob_len);
|
||
|
prob_len = (prob + LZMA_LEN_MID
|
||
|
+ (pos_state <<
|
||
|
LZMA_LEN_NUM_MID_BITS));
|
||
|
offset = 1 << LZMA_LEN_NUM_LOW_BITS;
|
||
|
num_bits = LZMA_LEN_NUM_MID_BITS;
|
||
|
} else {
|
||
|
rc_update_bit_1(rc, prob_len);
|
||
|
prob_len = prob + LZMA_LEN_HIGH;
|
||
|
offset = ((1 << LZMA_LEN_NUM_LOW_BITS)
|
||
|
+ (1 << LZMA_LEN_NUM_MID_BITS));
|
||
|
num_bits = LZMA_LEN_NUM_HIGH_BITS;
|
||
|
}
|
||
|
}
|
||
|
|
||
|
rc_bit_tree_decode(rc, prob_len, num_bits, &len);
|
||
|
len += offset;
|
||
|
|
||
|
if (cst->state < 4) {
|
||
|
int pos_slot;
|
||
|
|
||
|
cst->state += LZMA_NUM_LIT_STATES;
|
||
|
prob =
|
||
|
p + LZMA_POS_SLOT +
|
||
|
((len <
|
||
|
LZMA_NUM_LEN_TO_POS_STATES ? len :
|
||
|
LZMA_NUM_LEN_TO_POS_STATES - 1)
|
||
|
<< LZMA_NUM_POS_SLOT_BITS);
|
||
|
rc_bit_tree_decode(rc, prob,
|
||
|
LZMA_NUM_POS_SLOT_BITS,
|
||
|
&pos_slot);
|
||
|
if (pos_slot >= LZMA_START_POS_MODEL_INDEX) {
|
||
|
int i, mi;
|
||
|
num_bits = (pos_slot >> 1) - 1;
|
||
|
cst->rep0 = 2 | (pos_slot & 1);
|
||
|
if (pos_slot < LZMA_END_POS_MODEL_INDEX) {
|
||
|
cst->rep0 <<= num_bits;
|
||
|
prob = p + LZMA_SPEC_POS +
|
||
|
cst->rep0 - pos_slot - 1;
|
||
|
} else {
|
||
|
num_bits -= LZMA_NUM_ALIGN_BITS;
|
||
|
while (num_bits--)
|
||
|
cst->rep0 = (cst->rep0 << 1) |
|
||
|
rc_direct_bit(rc);
|
||
|
prob = p + LZMA_ALIGN;
|
||
|
cst->rep0 <<= LZMA_NUM_ALIGN_BITS;
|
||
|
num_bits = LZMA_NUM_ALIGN_BITS;
|
||
|
}
|
||
|
i = 1;
|
||
|
mi = 1;
|
||
|
while (num_bits--) {
|
||
|
if (rc_get_bit(rc, prob + mi, &mi))
|
||
|
cst->rep0 |= i;
|
||
|
i <<= 1;
|
||
|
}
|
||
|
} else
|
||
|
cst->rep0 = pos_slot;
|
||
|
if (++(cst->rep0) == 0)
|
||
|
return;
|
||
|
}
|
||
|
|
||
|
len += LZMA_MATCH_MIN_LEN;
|
||
|
|
||
|
copy_bytes(wr, cst->rep0, len);
|
||
|
}
|
||
|
|
||
|
|
||
|
|
||
|
STATIC inline int INIT unlzma(unsigned char *buf, int in_len,
|
||
|
int(*fill)(void*, unsigned int),
|
||
|
int(*flush)(void*, unsigned int),
|
||
|
unsigned char *output,
|
||
|
int *posp,
|
||
|
void(*error_fn)(char *x)
|
||
|
)
|
||
|
{
|
||
|
struct lzma_header header;
|
||
|
int lc, pb, lp;
|
||
|
uint32_t pos_state_mask;
|
||
|
uint32_t literal_pos_mask;
|
||
|
uint16_t *p;
|
||
|
int num_probs;
|
||
|
struct rc rc;
|
||
|
int i, mi;
|
||
|
struct writer wr;
|
||
|
struct cstate cst;
|
||
|
unsigned char *inbuf;
|
||
|
int ret = -1;
|
||
|
|
||
|
set_error_fn(error_fn);
|
||
|
if (!flush)
|
||
|
in_len -= 4; /* Uncompressed size hack active in pre-boot
|
||
|
environment */
|
||
|
if (buf)
|
||
|
inbuf = buf;
|
||
|
else
|
||
|
inbuf = malloc(LZMA_IOBUF_SIZE);
|
||
|
if (!inbuf) {
|
||
|
error("Could not allocate input bufer");
|
||
|
goto exit_0;
|
||
|
}
|
||
|
|
||
|
cst.state = 0;
|
||
|
cst.rep0 = cst.rep1 = cst.rep2 = cst.rep3 = 1;
|
||
|
|
||
|
wr.header = &header;
|
||
|
wr.flush = flush;
|
||
|
wr.global_pos = 0;
|
||
|
wr.previous_byte = 0;
|
||
|
wr.buffer_pos = 0;
|
||
|
|
||
|
rc_init(&rc, fill, inbuf, in_len);
|
||
|
|
||
|
for (i = 0; i < sizeof(header); i++) {
|
||
|
if (rc.ptr >= rc.buffer_end)
|
||
|
rc_read(&rc);
|
||
|
((unsigned char *)&header)[i] = *rc.ptr++;
|
||
|
}
|
||
|
|
||
|
if (header.pos >= (9 * 5 * 5))
|
||
|
error("bad header");
|
||
|
|
||
|
mi = 0;
|
||
|
lc = header.pos;
|
||
|
while (lc >= 9) {
|
||
|
mi++;
|
||
|
lc -= 9;
|
||
|
}
|
||
|
pb = 0;
|
||
|
lp = mi;
|
||
|
while (lp >= 5) {
|
||
|
pb++;
|
||
|
lp -= 5;
|
||
|
}
|
||
|
pos_state_mask = (1 << pb) - 1;
|
||
|
literal_pos_mask = (1 << lp) - 1;
|
||
|
|
||
|
ENDIAN_CONVERT(header.dict_size);
|
||
|
ENDIAN_CONVERT(header.dst_size);
|
||
|
|
||
|
if (header.dict_size == 0)
|
||
|
header.dict_size = 1;
|
||
|
|
||
|
if (output)
|
||
|
wr.buffer = output;
|
||
|
else {
|
||
|
wr.bufsize = MIN(header.dst_size, header.dict_size);
|
||
|
wr.buffer = large_malloc(wr.bufsize);
|
||
|
}
|
||
|
if (wr.buffer == NULL)
|
||
|
goto exit_1;
|
||
|
|
||
|
num_probs = LZMA_BASE_SIZE + (LZMA_LIT_SIZE << (lc + lp));
|
||
|
p = (uint16_t *) large_malloc(num_probs * sizeof(*p));
|
||
|
if (p == 0)
|
||
|
goto exit_2;
|
||
|
num_probs = LZMA_LITERAL + (LZMA_LIT_SIZE << (lc + lp));
|
||
|
for (i = 0; i < num_probs; i++)
|
||
|
p[i] = (1 << RC_MODEL_TOTAL_BITS) >> 1;
|
||
|
|
||
|
rc_init_code(&rc);
|
||
|
|
||
|
while (get_pos(&wr) < header.dst_size) {
|
||
|
int pos_state = get_pos(&wr) & pos_state_mask;
|
||
|
uint16_t *prob = p + LZMA_IS_MATCH +
|
||
|
(cst.state << LZMA_NUM_POS_BITS_MAX) + pos_state;
|
||
|
if (rc_is_bit_0(&rc, prob))
|
||
|
process_bit0(&wr, &rc, &cst, p, pos_state, prob,
|
||
|
lc, literal_pos_mask);
|
||
|
else {
|
||
|
process_bit1(&wr, &rc, &cst, p, pos_state, prob);
|
||
|
if (cst.rep0 == 0)
|
||
|
break;
|
||
|
}
|
||
|
}
|
||
|
|
||
|
if (posp)
|
||
|
*posp = rc.ptr-rc.buffer;
|
||
|
if (wr.flush)
|
||
|
wr.flush(wr.buffer, wr.buffer_pos);
|
||
|
ret = 0;
|
||
|
large_free(p);
|
||
|
exit_2:
|
||
|
if (!output)
|
||
|
large_free(wr.buffer);
|
||
|
exit_1:
|
||
|
if (!buf)
|
||
|
free(inbuf);
|
||
|
exit_0:
|
||
|
return ret;
|
||
|
}
|
||
|
|
||
|
#define decompress unlzma
|