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449 lines
12 KiB
C
449 lines
12 KiB
C
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/*
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* Block matching used by the file-transfer code.
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*
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* Copyright (C) 1996 Andrew Tridgell
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* Copyright (C) 1996 Paul Mackerras
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* Copyright (C) 2003-2014 Wayne Davison
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 3 of the License, or
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* (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
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License along
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* with this program; if not, visit the http://fsf.org website.
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*/
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#include "rsync.h"
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#include "inums.h"
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extern int checksum_seed;
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extern int append_mode;
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extern int checksum_len;
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int updating_basis_file;
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char sender_file_sum[MAX_DIGEST_LEN];
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static int false_alarms;
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static int hash_hits;
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static int matches;
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static int64 data_transfer;
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static int total_false_alarms;
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static int total_hash_hits;
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static int total_matches;
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extern struct stats stats;
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#define TRADITIONAL_TABLESIZE (1<<16)
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static uint32 tablesize;
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static int32 *hash_table;
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#define SUM2HASH2(s1,s2) (((s1) + (s2)) & 0xFFFF)
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#define SUM2HASH(sum) SUM2HASH2((sum)&0xFFFF,(sum)>>16)
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#define BIG_SUM2HASH(sum) ((sum)%tablesize)
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static void build_hash_table(struct sum_struct *s)
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{
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static uint32 alloc_size;
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int32 i;
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/* Dynamically calculate the hash table size so that the hash load
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* for big files is about 80%. A number greater than the traditional
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* size must be odd or s2 will not be able to span the entire set. */
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tablesize = (uint32)(s->count/8) * 10 + 11;
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if (tablesize < TRADITIONAL_TABLESIZE)
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tablesize = TRADITIONAL_TABLESIZE;
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if (tablesize > alloc_size || tablesize < alloc_size - 16*1024) {
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if (hash_table)
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free(hash_table);
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hash_table = new_array(int32, tablesize);
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if (!hash_table)
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out_of_memory("build_hash_table");
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alloc_size = tablesize;
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}
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memset(hash_table, 0xFF, tablesize * sizeof hash_table[0]);
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if (tablesize == TRADITIONAL_TABLESIZE) {
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for (i = 0; i < s->count; i++) {
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uint32 t = SUM2HASH(s->sums[i].sum1);
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s->sums[i].chain = hash_table[t];
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hash_table[t] = i;
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}
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} else {
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for (i = 0; i < s->count; i++) {
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uint32 t = BIG_SUM2HASH(s->sums[i].sum1);
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s->sums[i].chain = hash_table[t];
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hash_table[t] = i;
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}
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}
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}
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static OFF_T last_match;
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/* Transmit a literal and/or match token.
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*
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* This delightfully-named function is called either when we find a
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* match and need to transmit all the unmatched data leading up to it,
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* or when we get bored of accumulating literal data and just need to
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* transmit it. As a result of this second case, it is called even if
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* we have not matched at all!
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*
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* If i >= 0, the number of a matched token. If < 0, indicates we have
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* only literal data. A -1 will send a 0-token-int too, and a -2 sends
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* only literal data, w/o any token-int. */
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static void matched(int f, struct sum_struct *s, struct map_struct *buf,
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OFF_T offset, int32 i)
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{
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int32 n = (int32)(offset - last_match); /* max value: block_size (int32) */
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int32 j;
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if (DEBUG_GTE(DELTASUM, 2) && i >= 0) {
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rprintf(FINFO,
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"match at %s last_match=%s j=%d len=%ld n=%ld\n",
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big_num(offset), big_num(last_match), i,
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(long)s->sums[i].len, (long)n);
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}
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send_token(f, i, buf, last_match, n, i < 0 ? 0 : s->sums[i].len);
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data_transfer += n;
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if (i >= 0) {
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stats.matched_data += s->sums[i].len;
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n += s->sums[i].len;
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}
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for (j = 0; j < n; j += CHUNK_SIZE) {
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int32 n1 = MIN(CHUNK_SIZE, n - j);
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sum_update(map_ptr(buf, last_match + j, n1), n1);
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}
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if (i >= 0)
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last_match = offset + s->sums[i].len;
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else
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last_match = offset;
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if (buf && INFO_GTE(PROGRESS, 1))
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show_progress(last_match, buf->file_size);
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}
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static void hash_search(int f,struct sum_struct *s,
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struct map_struct *buf, OFF_T len)
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{
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OFF_T offset, aligned_offset, end;
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int32 k, want_i, aligned_i, backup;
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char sum2[SUM_LENGTH];
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uint32 s1, s2, sum;
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int more;
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schar *map;
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/* want_i is used to encourage adjacent matches, allowing the RLL
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* coding of the output to work more efficiently. */
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want_i = 0;
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if (DEBUG_GTE(DELTASUM, 2)) {
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rprintf(FINFO, "hash search b=%ld len=%s\n",
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(long)s->blength, big_num(len));
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}
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k = (int32)MIN(len, (OFF_T)s->blength);
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map = (schar *)map_ptr(buf, 0, k);
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sum = get_checksum1((char *)map, k);
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s1 = sum & 0xFFFF;
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s2 = sum >> 16;
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if (DEBUG_GTE(DELTASUM, 3))
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rprintf(FINFO, "sum=%.8x k=%ld\n", sum, (long)k);
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offset = aligned_offset = aligned_i = 0;
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end = len + 1 - s->sums[s->count-1].len;
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if (DEBUG_GTE(DELTASUM, 3)) {
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rprintf(FINFO, "hash search s->blength=%ld len=%s count=%s\n",
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(long)s->blength, big_num(len), big_num(s->count));
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}
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do {
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int done_csum2 = 0;
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uint32 hash_entry;
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int32 i, *prev;
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if (DEBUG_GTE(DELTASUM, 4)) {
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rprintf(FINFO, "offset=%s sum=%04x%04x\n",
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big_num(offset), s2 & 0xFFFF, s1 & 0xFFFF);
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}
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if (tablesize == TRADITIONAL_TABLESIZE) {
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hash_entry = SUM2HASH2(s1,s2);
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if ((i = hash_table[hash_entry]) < 0)
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goto null_hash;
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sum = (s1 & 0xffff) | (s2 << 16);
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} else {
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sum = (s1 & 0xffff) | (s2 << 16);
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hash_entry = BIG_SUM2HASH(sum);
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if ((i = hash_table[hash_entry]) < 0)
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goto null_hash;
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}
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prev = &hash_table[hash_entry];
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hash_hits++;
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do {
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int32 l;
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/* When updating in-place, the chunk's offset must be
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* either >= our offset or identical data at that offset.
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* Remove any bypassed entries that we can never use. */
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if (updating_basis_file && s->sums[i].offset < offset
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&& !(s->sums[i].flags & SUMFLG_SAME_OFFSET)) {
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*prev = s->sums[i].chain;
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continue;
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}
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prev = &s->sums[i].chain;
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if (sum != s->sums[i].sum1)
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continue;
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/* also make sure the two blocks are the same length */
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l = (int32)MIN((OFF_T)s->blength, len-offset);
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if (l != s->sums[i].len)
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continue;
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if (DEBUG_GTE(DELTASUM, 3)) {
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rprintf(FINFO,
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"potential match at %s i=%ld sum=%08x\n",
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big_num(offset), (long)i, sum);
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}
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if (!done_csum2) {
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map = (schar *)map_ptr(buf,offset,l);
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get_checksum2((char *)map,l,sum2);
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done_csum2 = 1;
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}
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if (memcmp(sum2,s->sums[i].sum2,s->s2length) != 0) {
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false_alarms++;
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continue;
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}
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/* When updating in-place, the best possible match is
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* one with an identical offset, so we prefer that over
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* the adjacent want_i optimization. */
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if (updating_basis_file) {
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/* All the generator's chunks start at blength boundaries. */
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while (aligned_offset < offset) {
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aligned_offset += s->blength;
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aligned_i++;
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}
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if ((offset == aligned_offset
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|| (sum == 0 && l == s->blength && aligned_offset + l <= len))
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&& aligned_i < s->count) {
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if (i != aligned_i) {
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if (sum != s->sums[aligned_i].sum1
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|| l != s->sums[aligned_i].len
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|| memcmp(sum2, s->sums[aligned_i].sum2, s->s2length) != 0)
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goto check_want_i;
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i = aligned_i;
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}
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if (offset != aligned_offset) {
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/* We've matched some zeros in a spot that is also zeros
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* further along in the basis file, if we find zeros ahead
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* in the sender's file, we'll output enough literal data
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* to re-align with the basis file, and get back to seeking
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* instead of writing. */
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backup = (int32)(aligned_offset - last_match);
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if (backup < 0)
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backup = 0;
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map = (schar *)map_ptr(buf, aligned_offset - backup, l + backup)
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+ backup;
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sum = get_checksum1((char *)map, l);
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if (sum != s->sums[i].sum1)
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goto check_want_i;
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get_checksum2((char *)map, l, sum2);
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if (memcmp(sum2, s->sums[i].sum2, s->s2length) != 0)
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goto check_want_i;
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/* OK, we have a re-alignment match. Bump the offset
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* forward to the new match point. */
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offset = aligned_offset;
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}
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/* This identical chunk is in the same spot in the old and new file. */
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s->sums[i].flags |= SUMFLG_SAME_OFFSET;
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want_i = i;
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}
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}
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check_want_i:
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/* we've found a match, but now check to see
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* if want_i can hint at a better match. */
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if (i != want_i && want_i < s->count
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&& (!updating_basis_file || s->sums[want_i].offset >= offset
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|| s->sums[want_i].flags & SUMFLG_SAME_OFFSET)
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&& sum == s->sums[want_i].sum1
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&& memcmp(sum2, s->sums[want_i].sum2, s->s2length) == 0) {
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/* we've found an adjacent match - the RLL coder
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* will be happy */
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i = want_i;
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}
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want_i = i + 1;
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matched(f,s,buf,offset,i);
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offset += s->sums[i].len - 1;
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k = (int32)MIN((OFF_T)s->blength, len-offset);
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map = (schar *)map_ptr(buf, offset, k);
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sum = get_checksum1((char *)map, k);
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s1 = sum & 0xFFFF;
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s2 = sum >> 16;
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matches++;
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break;
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} while ((i = s->sums[i].chain) >= 0);
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null_hash:
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backup = (int32)(offset - last_match);
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/* We sometimes read 1 byte prior to last_match... */
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if (backup < 0)
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backup = 0;
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/* Trim off the first byte from the checksum */
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more = offset + k < len;
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map = (schar *)map_ptr(buf, offset - backup, k + more + backup)
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+ backup;
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s1 -= map[0] + CHAR_OFFSET;
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s2 -= k * (map[0]+CHAR_OFFSET);
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/* Add on the next byte (if there is one) to the checksum */
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if (more) {
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s1 += map[k] + CHAR_OFFSET;
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s2 += s1;
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} else
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--k;
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/* By matching early we avoid re-reading the
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data 3 times in the case where a token
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match comes a long way after last
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match. The 3 reads are caused by the
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running match, the checksum update and the
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literal send. */
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if (backup >= s->blength+CHUNK_SIZE && end-offset > CHUNK_SIZE)
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matched(f, s, buf, offset - s->blength, -2);
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} while (++offset < end);
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matched(f, s, buf, len, -1);
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map_ptr(buf, len-1, 1);
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}
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/**
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* Scan through a origin file, looking for sections that match
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* checksums from the generator, and transmit either literal or token
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* data.
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*
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* Also calculates the MD4 checksum of the whole file, using the md
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* accumulator. This is transmitted with the file as protection
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* against corruption on the wire.
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*
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* @param s Checksums received from the generator. If <tt>s->count ==
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* 0</tt>, then there are actually no checksums for this file.
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*
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* @param len Length of the file to send.
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**/
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void match_sums(int f, struct sum_struct *s, struct map_struct *buf, OFF_T len)
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{
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last_match = 0;
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false_alarms = 0;
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hash_hits = 0;
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matches = 0;
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data_transfer = 0;
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sum_init(checksum_seed);
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if (append_mode > 0) {
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if (append_mode == 2) {
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OFF_T j = 0;
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for (j = CHUNK_SIZE; j < s->flength; j += CHUNK_SIZE) {
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if (buf && INFO_GTE(PROGRESS, 1))
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show_progress(last_match, buf->file_size);
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sum_update(map_ptr(buf, last_match, CHUNK_SIZE),
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CHUNK_SIZE);
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last_match = j;
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}
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if (last_match < s->flength) {
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int32 n = (int32)(s->flength - last_match);
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if (buf && INFO_GTE(PROGRESS, 1))
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show_progress(last_match, buf->file_size);
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sum_update(map_ptr(buf, last_match, n), n);
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}
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}
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last_match = s->flength;
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s->count = 0;
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}
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if (len > 0 && s->count > 0) {
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build_hash_table(s);
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if (DEBUG_GTE(DELTASUM, 2))
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rprintf(FINFO,"built hash table\n");
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hash_search(f, s, buf, len);
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if (DEBUG_GTE(DELTASUM, 2))
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rprintf(FINFO,"done hash search\n");
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} else {
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OFF_T j;
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/* by doing this in pieces we avoid too many seeks */
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for (j = last_match + CHUNK_SIZE; j < len; j += CHUNK_SIZE)
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matched(f, s, buf, j, -2);
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matched(f, s, buf, len, -1);
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}
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if (sum_end(sender_file_sum) != checksum_len)
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overflow_exit("checksum_len"); /* Impossible... */
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|
||
|
/* If we had a read error, send a bad checksum. We use all bits
|
||
|
* off as long as the checksum doesn't happen to be that, in
|
||
|
* which case we turn the last 0 bit into a 1. */
|
||
|
if (buf && buf->status != 0) {
|
||
|
int i;
|
||
|
for (i = 0; i < checksum_len && sender_file_sum[i] == 0; i++) {}
|
||
|
memset(sender_file_sum, 0, checksum_len);
|
||
|
if (i == checksum_len)
|
||
|
sender_file_sum[i-1]++;
|
||
|
}
|
||
|
|
||
|
if (DEBUG_GTE(DELTASUM, 2))
|
||
|
rprintf(FINFO,"sending file_sum\n");
|
||
|
write_buf(f, sender_file_sum, checksum_len);
|
||
|
|
||
|
if (DEBUG_GTE(DELTASUM, 2)) {
|
||
|
rprintf(FINFO, "false_alarms=%d hash_hits=%d matches=%d\n",
|
||
|
false_alarms, hash_hits, matches);
|
||
|
}
|
||
|
|
||
|
total_hash_hits += hash_hits;
|
||
|
total_false_alarms += false_alarms;
|
||
|
total_matches += matches;
|
||
|
stats.literal_data += data_transfer;
|
||
|
}
|
||
|
|
||
|
void match_report(void)
|
||
|
{
|
||
|
if (!DEBUG_GTE(DELTASUM, 1))
|
||
|
return;
|
||
|
|
||
|
rprintf(FINFO,
|
||
|
"total: matches=%d hash_hits=%d false_alarms=%d data=%s\n",
|
||
|
total_matches, total_hash_hits, total_false_alarms,
|
||
|
big_num(stats.literal_data));
|
||
|
}
|