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diff --git a/ics-openvpn-stripped/main/lzo/src/lzo1a.c b/ics-openvpn-stripped/main/lzo/src/lzo1a.c
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+/* lzo1a.c -- implementation of the LZO1A algorithm
+
+ This file is part of the LZO real-time data compression library.
+
+ Copyright (C) 1996-2014 Markus Franz Xaver Johannes Oberhumer
+ All Rights Reserved.
+
+ The LZO library is free software; you can redistribute it and/or
+ modify it under the terms of the GNU General Public License as
+ published by the Free Software Foundation; either version 2 of
+ the License, or (at your option) any later version.
+
+ The LZO library is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with the LZO library; see the file COPYING.
+ If not, write to the Free Software Foundation, Inc.,
+ 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
+
+ Markus F.X.J. Oberhumer
+ <markus@oberhumer.com>
+ http://www.oberhumer.com/opensource/lzo/
+ */
+
+
+#include "lzo_conf.h"
+#include "lzo/lzo1a.h"
+
+
+/***********************************************************************
+// The next two defines can be changed to customize LZO1A.
+// The default version is LZO1A-5/1.
+************************************************************************/
+
+/* run bits (3 - 5) - the compressor and the decompressor
+ * must use the same value. */
+#if !defined(RBITS)
+# define RBITS 5
+#endif
+
+/* compression level (1 - 9) - this only affects the compressor.
+ * 1 is fastest, 9 is best compression ratio
+ */
+#if !defined(CLEVEL)
+# define CLEVEL 1 /* fastest by default */
+#endif
+
+
+/* Collect statistics */
+#if 0 && !defined(LZO_COLLECT_STATS)
+# define LZO_COLLECT_STATS 1
+#endif
+
+
+/***********************************************************************
+// You should not have to change anything below this line.
+************************************************************************/
+
+/* check configuration */
+#if (RBITS < 3 || RBITS > 5)
+# error "invalid RBITS"
+#endif
+#if (CLEVEL < 1 || CLEVEL > 9)
+# error "invalid CLEVEL"
+#endif
+
+
+/***********************************************************************
+// internal configuration
+// all of these affect compression only
+************************************************************************/
+
+/* choose the hashing strategy */
+#ifndef LZO_HASH
+#define LZO_HASH LZO_HASH_LZO_INCREMENTAL_A
+#endif
+#define D_INDEX1(d,p) d = DM(DMUL(0x21,DX2(p,5,5)) >> 5)
+#define D_INDEX2(d,p) d = d ^ D_MASK
+
+#include "lzo1a_de.h"
+#include "stats1a.h"
+
+
+/* check other constants */
+#if (LBITS < 5 || LBITS > 8)
+# error "invalid LBITS"
+#endif
+
+
+#if (LZO_COLLECT_STATS)
+ static lzo1a_stats_t lzo_statistics;
+ lzo1a_stats_t *lzo1a_stats = &lzo_statistics;
+# define lzo_stats lzo1a_stats
+#endif
+
+
+/***********************************************************************
+// get algorithm info, return memory required for compression
+************************************************************************/
+
+LZO_EXTERN(lzo_uint) lzo1a_info ( int *rbits, int *clevel );
+
+LZO_PUBLIC(lzo_uint)
+lzo1a_info ( int *rbits, int *clevel )
+{
+ if (rbits)
+ *rbits = RBITS;
+ if (clevel)
+ *clevel = CLEVEL;
+ return D_SIZE * lzo_sizeof(lzo_bytep);
+}
+
+
+/***********************************************************************
+// LZO1A decompress a block of data.
+//
+// Could be easily translated into assembly code.
+************************************************************************/
+
+LZO_PUBLIC(int)
+lzo1a_decompress ( const lzo_bytep in , lzo_uint in_len,
+ lzo_bytep out, lzo_uintp out_len,
+ lzo_voidp wrkmem )
+{
+ lzo_bytep op;
+ const lzo_bytep ip;
+ lzo_uint t;
+ const lzo_bytep m_pos;
+ const lzo_bytep const ip_end = in + in_len;
+
+ LZO_UNUSED(wrkmem);
+
+ op = out;
+ ip = in;
+ while (ip < ip_end)
+ {
+ t = *ip++; /* get marker */
+ LZO_STATS(lzo_stats->marker[t]++);
+
+ if (t == 0) /* a R0 literal run */
+ {
+ t = *ip++;
+ if (t >= R0FAST - R0MIN) /* a long R0 run */
+ {
+ t -= R0FAST - R0MIN;
+ if (t == 0)
+ t = R0FAST;
+ else
+ {
+#if 0
+ t = 256u << ((unsigned) t);
+#else
+ /* help the optimizer */
+ lzo_uint tt = 256;
+ do tt <<= 1; while (--t > 0);
+ t = tt;
+#endif
+ }
+ MEMCPY8_DS(op,ip,t);
+ continue;
+ }
+ t += R0MIN;
+ goto literal;
+ }
+ else if (t < R0MIN) /* a short literal run */
+ {
+literal:
+ MEMCPY_DS(op,ip,t);
+
+ /* after a literal a match must follow */
+ while (ip < ip_end)
+ {
+ t = *ip++; /* get R1 marker */
+ if (t >= R0MIN)
+ goto match;
+
+ /* R1 match - a context sensitive 3 byte match + 1 byte literal */
+ assert((t & OMASK) == t);
+ m_pos = op - MIN_OFFSET;
+ m_pos -= t | (((lzo_uint) *ip++) << OBITS);
+ assert(m_pos >= out); assert(m_pos < op);
+ *op++ = m_pos[0];
+ *op++ = m_pos[1];
+ *op++ = m_pos[2];
+ *op++ = *ip++;
+ }
+ }
+ else /* a match */
+ {
+match:
+ /* get match offset */
+ m_pos = op - MIN_OFFSET;
+ m_pos -= (t & OMASK) | (((lzo_uint) *ip++) << OBITS);
+ assert(m_pos >= out); assert(m_pos < op);
+
+ /* get match len */
+ if (t < ((MSIZE - 1) << OBITS)) /* a short match */
+ {
+ t >>= OBITS;
+ *op++ = *m_pos++;
+ *op++ = *m_pos++;
+ MEMCPY_DS(op,m_pos,t);
+ }
+ else /* a long match */
+ {
+#if (LBITS < 8)
+ t = (MIN_MATCH_LONG - THRESHOLD) + ((lzo_uint)(*ip++) & LMASK);
+#else
+ t = (MIN_MATCH_LONG - THRESHOLD) + (lzo_uint)(*ip++);
+#endif
+ *op++ = *m_pos++;
+ *op++ = *m_pos++;
+ MEMCPY_DS(op,m_pos,t);
+#if (LBITS < 8)
+ /* a very short literal following a long match */
+ t = ip[-1] >> LBITS;
+ if (t) do
+ *op++ = *ip++;
+ while (--t);
+#endif
+ }
+ }
+ }
+
+ *out_len = pd(op, out);
+
+ /* the next line is the only check in the decompressor */
+ return (ip == ip_end ? LZO_E_OK :
+ (ip < ip_end ? LZO_E_INPUT_NOT_CONSUMED : LZO_E_INPUT_OVERRUN));
+}
+
+
+
+/***********************************************************************
+// LZO1A compress a block of data.
+//
+// I apologize for the spaghetti code, but it really helps the optimizer.
+************************************************************************/
+
+#include "lzo1a_cr.ch"
+
+static int
+do_compress ( const lzo_bytep in , lzo_uint in_len,
+ lzo_bytep out, lzo_uintp out_len,
+ lzo_voidp wrkmem )
+{
+ const lzo_bytep ip;
+#if defined(__LZO_HASH_INCREMENTAL)
+ lzo_xint dv;
+#endif
+ const lzo_bytep m_pos;
+ lzo_bytep op;
+ const lzo_bytep const ip_end = in+in_len - DVAL_LEN - MIN_MATCH_LONG;
+ const lzo_bytep const in_end = in+in_len - DVAL_LEN;
+ const lzo_bytep ii;
+ lzo_dict_p const dict = (lzo_dict_p) wrkmem;
+ const lzo_bytep r1 = ip_end; /* pointer for R1 match (none yet) */
+#if (LBITS < 8)
+ const lzo_bytep im = ip_end; /* pointer to last match start */
+#endif
+
+#if !defined(NDEBUG)
+ const lzo_bytep m_pos_sav;
+#endif
+
+ op = out;
+ ip = in;
+ ii = ip; /* point to start of current literal run */
+
+ /* init dictionary */
+#if (LZO_DETERMINISTIC)
+ BZERO8_PTR(wrkmem,sizeof(lzo_dict_t),D_SIZE);
+#endif
+
+ DVAL_FIRST(dv,ip); UPDATE_D(dict,0,dv,ip,in); ip++;
+ DVAL_NEXT(dv,ip);
+
+ do {
+ LZO_DEFINE_UNINITIALIZED_VAR(lzo_uint, m_off, 0);
+ lzo_uint dindex;
+
+ DINDEX1(dindex,ip);
+ GINDEX(m_pos,m_off,dict,dindex,in);
+ if (LZO_CHECK_MPOS_NON_DET(m_pos,m_off,in,ip,MAX_OFFSET))
+ goto literal;
+ if (m_pos[0] == ip[0] && m_pos[1] == ip[1] && m_pos[2] == ip[2])
+ goto match;
+ DINDEX2(dindex,ip);
+ GINDEX(m_pos,m_off,dict,dindex,in);
+ if (LZO_CHECK_MPOS_NON_DET(m_pos,m_off,in,ip,MAX_OFFSET))
+ goto literal;
+ if (m_pos[0] == ip[0] && m_pos[1] == ip[1] && m_pos[2] == ip[2])
+ goto match;
+ goto literal;
+
+literal:
+ UPDATE_I(dict,0,dindex,ip,in);
+ if (++ip >= ip_end)
+ break;
+ continue;
+
+match:
+ UPDATE_I(dict,0,dindex,ip,in);
+#if !defined(NDEBUG) && (LZO_DICT_USE_PTR)
+ assert(m_pos == NULL || m_pos >= in);
+ m_pos_sav = m_pos;
+#endif
+ m_pos += 3;
+ {
+ /* we have found a match (of at least length 3) */
+
+#if !defined(NDEBUG) && !(LZO_DICT_USE_PTR)
+ assert((m_pos_sav = ip - m_off) == (m_pos - 3));
+#endif
+
+ assert(m_pos >= in);
+ assert(ip < ip_end);
+
+ /* 1) store the current literal run */
+ if (pd(ip,ii) > 0)
+ {
+ lzo_uint t = pd(ip,ii);
+
+ if (ip - r1 == MIN_MATCH + 1)
+ {
+ /* Code a context sensitive R1 match.
+ * This is tricky and somewhat difficult to explain:
+ * multiplex a literal run of length 1 into the previous
+ * short match of length MIN_MATCH.
+ * The key idea is:
+ * - after a short run a match MUST follow
+ * - therefore the value m = 000 in the mmmooooo marker is free
+ * - use 000ooooo to indicate a MIN_MATCH match (this
+ * is already coded) plus a 1 byte literal
+ */
+ assert(t == 1);
+ /* modify marker byte */
+ assert((op[-2] >> OBITS) == (MIN_MATCH - THRESHOLD));
+ op[-2] &= OMASK;
+ assert((op[-2] >> OBITS) == 0);
+ /* copy 1 literal */
+ *op++ = *ii;
+ LZO_STATS(lzo_stats->r1_matches++);
+ r1 = ip; /* set new R1 pointer */
+ }
+ else if (t < R0MIN)
+ {
+ /* inline the copying of a short run */
+#if (LBITS < 8)
+ if (t < (1 << (8-LBITS)) && ii - im >= MIN_MATCH_LONG)
+ {
+ /* Code a very short literal run into the
+ * previous long match length byte.
+ */
+ LZO_STATS(lzo_stats->lit_runs_after_long_match++);
+ LZO_STATS(lzo_stats->lit_run_after_long_match[t]++);
+ assert(ii - im <= MAX_MATCH_LONG);
+ assert((op[-1] >> LBITS) == 0);
+ op[-1] = LZO_BYTE(op[-1] | (t << LBITS));
+ MEMCPY_DS(op, ii, t);
+ }
+ else
+#endif
+ {
+ LZO_STATS(lzo_stats->lit_runs++);
+ LZO_STATS(lzo_stats->lit_run[t]++);
+ *op++ = LZO_BYTE(t);
+ MEMCPY_DS(op, ii, t);
+ r1 = ip; /* set new R1 pointer */
+ }
+ }
+ else if (t < R0FAST)
+ {
+ /* inline the copying of a short R0 run */
+ LZO_STATS(lzo_stats->r0short_runs++);
+ *op++ = 0; *op++ = LZO_BYTE(t - R0MIN);
+ MEMCPY_DS(op, ii, t);
+ r1 = ip; /* set new R1 pointer */
+ }
+ else
+ op = store_run(op,ii,t);
+ }
+#if (LBITS < 8)
+ im = ip;
+#endif
+
+
+ /* 2) compute match len */
+ ii = ip; /* point to start of current match */
+
+ /* we already matched MIN_MATCH bytes,
+ * m_pos also already advanced MIN_MATCH bytes */
+ ip += MIN_MATCH;
+ assert(m_pos < ip);
+
+ /* try to match another MIN_MATCH_LONG - MIN_MATCH bytes
+ * to see if we get a long match */
+
+#define PS *m_pos++ != *ip++
+
+#if (MIN_MATCH_LONG - MIN_MATCH == 2) /* MBITS == 2 */
+ if (PS || PS)
+#elif (MIN_MATCH_LONG - MIN_MATCH == 6) /* MBITS == 3 */
+ if (PS || PS || PS || PS || PS || PS)
+#elif (MIN_MATCH_LONG - MIN_MATCH == 14) /* MBITS == 4 */
+ if (PS || PS || PS || PS || PS || PS || PS ||
+ PS || PS || PS || PS || PS || PS || PS)
+#elif (MIN_MATCH_LONG - MIN_MATCH == 30) /* MBITS == 5 */
+ if (PS || PS || PS || PS || PS || PS || PS || PS ||
+ PS || PS || PS || PS || PS || PS || PS || PS ||
+ PS || PS || PS || PS || PS || PS || PS || PS ||
+ PS || PS || PS || PS || PS || PS)
+#else
+# error "MBITS not yet implemented"
+#endif
+ {
+ /* we've found a short match */
+ lzo_uint m_len;
+
+ /* 2a) compute match parameters */
+ assert(ip-m_pos == (int)m_off);
+ --ip; /* ran one too far, point back to non-match */
+ m_len = pd(ip, ii);
+ assert(m_len >= MIN_MATCH_SHORT);
+ assert(m_len <= MAX_MATCH_SHORT);
+ assert(m_off >= MIN_OFFSET);
+ assert(m_off <= MAX_OFFSET);
+ assert(ii-m_off == m_pos_sav);
+ assert(lzo_memcmp(m_pos_sav,ii,m_len) == 0);
+ m_off -= MIN_OFFSET;
+
+ /* 2b) code a short match */
+ /* code short match len + low offset bits */
+ *op++ = LZO_BYTE(((m_len - THRESHOLD) << OBITS) |
+ (m_off & OMASK));
+ /* code high offset bits */
+ *op++ = LZO_BYTE(m_off >> OBITS);
+
+
+#if (LZO_COLLECT_STATS)
+ lzo_stats->short_matches++;
+ lzo_stats->short_match[m_len]++;
+ if (m_off < OSIZE)
+ lzo_stats->short_match_offset_osize[m_len]++;
+ if (m_off < 256)
+ lzo_stats->short_match_offset_256[m_len]++;
+ if (m_off < 1024)
+ lzo_stats->short_match_offset_1024[m_len]++;
+#endif
+
+
+ /* 2c) Insert phrases (beginning with ii+1) into the dictionary. */
+
+#define SI /* nothing */
+#define DI ++ii; DVAL_NEXT(dv,ii); UPDATE_D(dict,0,dv,ii,in);
+#define XI assert(ii < ip); ii = ip; DVAL_FIRST(dv,(ip));
+
+#if (CLEVEL == 9) || (CLEVEL >= 7 && MBITS <= 4) || (CLEVEL >= 5 && MBITS <= 3)
+ /* Insert the whole match (ii+1)..(ip-1) into dictionary. */
+ ++ii;
+ do {
+ DVAL_NEXT(dv,ii);
+ UPDATE_D(dict,0,dv,ii,in);
+ } while (++ii < ip);
+ DVAL_NEXT(dv,ii);
+ assert(ii == ip);
+ DVAL_ASSERT(dv,ip);
+#elif (CLEVEL >= 3)
+ SI DI DI XI
+#elif (CLEVEL >= 2)
+ SI DI XI
+#else
+ XI
+#endif
+
+ }
+ else
+ {
+ /* we've found a long match - see how far we can still go */
+ const lzo_bytep end;
+ lzo_uint m_len;
+
+ assert(ip <= in_end);
+ assert(ii == ip - MIN_MATCH_LONG);
+
+ if (pd(in_end,ip) <= (MAX_MATCH_LONG - MIN_MATCH_LONG))
+ end = in_end;
+ else
+ {
+ end = ip + (MAX_MATCH_LONG - MIN_MATCH_LONG);
+ assert(end < in_end);
+ }
+
+ while (ip < end && *m_pos == *ip)
+ m_pos++, ip++;
+ assert(ip <= in_end);
+
+ /* 2a) compute match parameters */
+ m_len = pd(ip, ii);
+ assert(m_len >= MIN_MATCH_LONG);
+ assert(m_len <= MAX_MATCH_LONG);
+ assert(m_off >= MIN_OFFSET);
+ assert(m_off <= MAX_OFFSET);
+ assert(ii-m_off == m_pos_sav);
+ assert(lzo_memcmp(m_pos_sav,ii,m_len) == 0);
+ assert(pd(ip,m_pos) == m_off);
+ m_off -= MIN_OFFSET;
+
+ /* 2b) code the long match */
+ /* code long match flag + low offset bits */
+ *op++ = LZO_BYTE(((MSIZE - 1) << OBITS) | (m_off & OMASK));
+ /* code high offset bits */
+ *op++ = LZO_BYTE(m_off >> OBITS);
+ /* code match len */
+ *op++ = LZO_BYTE(m_len - MIN_MATCH_LONG);
+
+
+#if (LZO_COLLECT_STATS)
+ lzo_stats->long_matches++;
+ lzo_stats->long_match[m_len]++;
+#endif
+
+
+ /* 2c) Insert phrases (beginning with ii+1) into the dictionary. */
+#if (CLEVEL == 9)
+ /* Insert the whole match (ii+1)..(ip-1) into dictionary. */
+ /* This is not recommended because it is slow. */
+ ++ii;
+ do {
+ DVAL_NEXT(dv,ii);
+ UPDATE_D(dict,0,dv,ii,in);
+ } while (++ii < ip);
+ DVAL_NEXT(dv,ii);
+ assert(ii == ip);
+ DVAL_ASSERT(dv,ip);
+#elif (CLEVEL >= 8)
+ SI DI DI DI DI DI DI DI DI XI
+#elif (CLEVEL >= 7)
+ SI DI DI DI DI DI DI DI XI
+#elif (CLEVEL >= 6)
+ SI DI DI DI DI DI DI XI
+#elif (CLEVEL >= 5)
+ SI DI DI DI DI XI
+#elif (CLEVEL >= 4)
+ SI DI DI DI XI
+#elif (CLEVEL >= 3)
+ SI DI DI XI
+#elif (CLEVEL >= 2)
+ SI DI XI
+#else
+ XI
+#endif
+ }
+
+ /* ii now points to the start of the next literal run */
+ assert(ii == ip);
+ }
+
+ } while (ip < ip_end);
+
+ assert(ip <= in_end);
+
+
+#if defined(LZO_RETURN_IF_NOT_COMPRESSIBLE)
+ /* return -1 if op == out to indicate that we
+ * couldn't compress and didn't copy anything.
+ */
+ if (op == out)
+ {
+ *out_len = 0;
+ return LZO_E_NOT_COMPRESSIBLE;
+ }
+#endif
+
+ /* store the final literal run */
+ if (pd(in_end+DVAL_LEN,ii) > 0)
+ op = store_run(op,ii,pd(in_end+DVAL_LEN,ii));
+
+ *out_len = pd(op, out);
+ return 0; /* compression went ok */
+}
+
+
+/***********************************************************************
+// LZO1A compress public entry point.
+************************************************************************/
+
+LZO_PUBLIC(int)
+lzo1a_compress ( const lzo_bytep in , lzo_uint in_len,
+ lzo_bytep out, lzo_uintp out_len,
+ lzo_voidp wrkmem )
+{
+ int r = LZO_E_OK;
+
+
+#if (LZO_COLLECT_STATS)
+ lzo_memset(lzo_stats,0,sizeof(*lzo_stats));
+ lzo_stats->rbits = RBITS;
+ lzo_stats->clevel = CLEVEL;
+ lzo_stats->dbits = DBITS;
+ lzo_stats->lbits = LBITS;
+ lzo_stats->min_match_short = MIN_MATCH_SHORT;
+ lzo_stats->max_match_short = MAX_MATCH_SHORT;
+ lzo_stats->min_match_long = MIN_MATCH_LONG;
+ lzo_stats->max_match_long = MAX_MATCH_LONG;
+ lzo_stats->min_offset = MIN_OFFSET;
+ lzo_stats->max_offset = MAX_OFFSET;
+ lzo_stats->r0min = R0MIN;
+ lzo_stats->r0fast = R0FAST;
+ lzo_stats->r0max = R0MAX;
+ lzo_stats->in_len = in_len;
+#endif
+
+
+ /* don't try to compress a block that's too short */
+ if (in_len == 0)
+ *out_len = 0;
+ else if (in_len <= MIN_MATCH_LONG + DVAL_LEN + 1)
+ {
+#if defined(LZO_RETURN_IF_NOT_COMPRESSIBLE)
+ r = LZO_E_NOT_COMPRESSIBLE;
+#else
+ *out_len = pd(store_run(out,in,in_len), out);
+#endif
+ }
+ else
+ r = do_compress(in,in_len,out,out_len,wrkmem);
+
+
+#if (LZO_COLLECT_STATS)
+ lzo_stats->short_matches -= lzo_stats->r1_matches;
+ lzo_stats->short_match[MIN_MATCH] -= lzo_stats->r1_matches;
+ lzo_stats->out_len = *out_len;
+#endif
+
+ return r;
+}
+
+
+/*
+vi:ts=4:et
+*/