1*a3a45f30SXin Li /*-
2*a3a45f30SXin Li * Copyright 2003-2005 Colin Percival
3*a3a45f30SXin Li * All rights reserved
4*a3a45f30SXin Li *
5*a3a45f30SXin Li * Redistribution and use in source and binary forms, with or without
6*a3a45f30SXin Li * modification, are permitted providing that the following conditions
7*a3a45f30SXin Li * are met:
8*a3a45f30SXin Li * 1. Redistributions of source code must retain the above copyright
9*a3a45f30SXin Li * notice, this list of conditions and the following disclaimer.
10*a3a45f30SXin Li * 2. Redistributions in binary form must reproduce the above copyright
11*a3a45f30SXin Li * notice, this list of conditions and the following disclaimer in the
12*a3a45f30SXin Li * documentation and/or other materials provided with the distribution.
13*a3a45f30SXin Li *
14*a3a45f30SXin Li * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
15*a3a45f30SXin Li * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
16*a3a45f30SXin Li * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
17*a3a45f30SXin Li * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY
18*a3a45f30SXin Li * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
19*a3a45f30SXin Li * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
20*a3a45f30SXin Li * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
21*a3a45f30SXin Li * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
22*a3a45f30SXin Li * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING
23*a3a45f30SXin Li * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
24*a3a45f30SXin Li * POSSIBILITY OF SUCH DAMAGE.
25*a3a45f30SXin Li */
26*a3a45f30SXin Li
27*a3a45f30SXin Li #if 0
28*a3a45f30SXin Li __FBSDID("$FreeBSD: src/usr.bin/bsdiff/bsdiff/bsdiff.c,v 1.1 2005/08/06 01:59:05 cperciva Exp $");
29*a3a45f30SXin Li #endif
30*a3a45f30SXin Li
31*a3a45f30SXin Li #include "bsdiff/bsdiff.h"
32*a3a45f30SXin Li
33*a3a45f30SXin Li #include <sys/types.h>
34*a3a45f30SXin Li
35*a3a45f30SXin Li #include <err.h>
36*a3a45f30SXin Li #include <string.h>
37*a3a45f30SXin Li
38*a3a45f30SXin Li #include <algorithm>
39*a3a45f30SXin Li
40*a3a45f30SXin Li #include "bsdiff/diff_encoder.h"
41*a3a45f30SXin Li #include "bsdiff/patch_writer.h"
42*a3a45f30SXin Li #include "bsdiff/suffix_array_index.h"
43*a3a45f30SXin Li
44*a3a45f30SXin Li namespace bsdiff {
45*a3a45f30SXin Li
46*a3a45f30SXin Li // TODO(deymo): Deprecate this version of the interface and move all callers
47*a3a45f30SXin Li // to the underlying version using PatchWriterInterface instead. This allows
48*a3a45f30SXin Li // more flexible options including different encodings.
bsdiff(const uint8_t * old_buf,size_t oldsize,const uint8_t * new_buf,size_t newsize,const char * patch_filename,SuffixArrayIndexInterface ** sai_cache)49*a3a45f30SXin Li int bsdiff(const uint8_t* old_buf, size_t oldsize, const uint8_t* new_buf,
50*a3a45f30SXin Li size_t newsize, const char* patch_filename,
51*a3a45f30SXin Li SuffixArrayIndexInterface** sai_cache) {
52*a3a45f30SXin Li BsdiffPatchWriter patch(patch_filename);
53*a3a45f30SXin Li return bsdiff(old_buf, oldsize, new_buf, newsize, 0, &patch,
54*a3a45f30SXin Li sai_cache);
55*a3a45f30SXin Li }
56*a3a45f30SXin Li
bsdiff(const uint8_t * old_buf,size_t oldsize,const uint8_t * new_buf,size_t newsize,PatchWriterInterface * patch,SuffixArrayIndexInterface ** sai_cache)57*a3a45f30SXin Li int bsdiff(const uint8_t* old_buf, size_t oldsize, const uint8_t* new_buf,
58*a3a45f30SXin Li size_t newsize, PatchWriterInterface* patch,
59*a3a45f30SXin Li SuffixArrayIndexInterface** sai_cache) {
60*a3a45f30SXin Li return bsdiff(old_buf, oldsize, new_buf, newsize, 0, patch,
61*a3a45f30SXin Li sai_cache);
62*a3a45f30SXin Li }
63*a3a45f30SXin Li
bsdiff(const uint8_t * old_buf,size_t oldsize,const uint8_t * new_buf,size_t newsize,size_t min_length,PatchWriterInterface * patch,SuffixArrayIndexInterface ** sai_cache)64*a3a45f30SXin Li int bsdiff(const uint8_t* old_buf, size_t oldsize, const uint8_t* new_buf,
65*a3a45f30SXin Li size_t newsize, size_t min_length, PatchWriterInterface* patch,
66*a3a45f30SXin Li SuffixArrayIndexInterface** sai_cache) {
67*a3a45f30SXin Li size_t scsc, scan;
68*a3a45f30SXin Li uint64_t pos=0;
69*a3a45f30SXin Li size_t len;
70*a3a45f30SXin Li size_t lastscan,lastpos,lastoffset;
71*a3a45f30SXin Li uint64_t oldscore;
72*a3a45f30SXin Li ssize_t s,Sf,lenf,Sb,lenb;
73*a3a45f30SXin Li ssize_t overlap,Ss,lens;
74*a3a45f30SXin Li ssize_t i;
75*a3a45f30SXin Li
76*a3a45f30SXin Li std::unique_ptr<SuffixArrayIndexInterface> local_sai;
77*a3a45f30SXin Li SuffixArrayIndexInterface* sai;
78*a3a45f30SXin Li
79*a3a45f30SXin Li if (sai_cache && *sai_cache) {
80*a3a45f30SXin Li sai = *sai_cache;
81*a3a45f30SXin Li } else {
82*a3a45f30SXin Li local_sai = CreateSuffixArrayIndex(old_buf, oldsize);
83*a3a45f30SXin Li if (!local_sai)
84*a3a45f30SXin Li return 1;
85*a3a45f30SXin Li sai = local_sai.get();
86*a3a45f30SXin Li
87*a3a45f30SXin Li // Transfer ownership to the caller.
88*a3a45f30SXin Li if (sai_cache)
89*a3a45f30SXin Li *sai_cache = local_sai.release();
90*a3a45f30SXin Li }
91*a3a45f30SXin Li
92*a3a45f30SXin Li /* Initialize the patch file encoder */
93*a3a45f30SXin Li DiffEncoder diff_encoder(patch, old_buf, oldsize, new_buf, newsize);
94*a3a45f30SXin Li if (!diff_encoder.Init())
95*a3a45f30SXin Li return 1;
96*a3a45f30SXin Li
97*a3a45f30SXin Li /* Compute the differences, writing ctrl as we go */
98*a3a45f30SXin Li scan=0;len=0;
99*a3a45f30SXin Li lastscan=0;lastpos=0;lastoffset=0;
100*a3a45f30SXin Li while(scan<newsize) {
101*a3a45f30SXin Li oldscore=0;
102*a3a45f30SXin Li
103*a3a45f30SXin Li /* If we come across a large block of data that only differs
104*a3a45f30SXin Li * by less than 8 bytes, this loop will take a long time to
105*a3a45f30SXin Li * go past that block of data. We need to track the number of
106*a3a45f30SXin Li * times we're stuck in the block and break out of it. */
107*a3a45f30SXin Li int num_less_than_eight = 0;
108*a3a45f30SXin Li size_t prev_len;
109*a3a45f30SXin Li uint64_t prev_pos, prev_oldscore;
110*a3a45f30SXin Li for(scsc=scan+=len;scan<newsize;scan++) {
111*a3a45f30SXin Li prev_len=len;
112*a3a45f30SXin Li prev_oldscore=oldscore;
113*a3a45f30SXin Li prev_pos=pos;
114*a3a45f30SXin Li
115*a3a45f30SXin Li sai->SearchPrefix(new_buf + scan, newsize - scan, &len, &pos);
116*a3a45f30SXin Li
117*a3a45f30SXin Li for(;scsc<scan+len && scsc+lastoffset<oldsize;scsc++)
118*a3a45f30SXin Li if(old_buf[scsc+lastoffset] == new_buf[scsc])
119*a3a45f30SXin Li oldscore++;
120*a3a45f30SXin Li
121*a3a45f30SXin Li if(((len==oldscore) && (len!=0)) ||
122*a3a45f30SXin Li (len>=oldscore+8 && len>=min_length)) break;
123*a3a45f30SXin Li
124*a3a45f30SXin Li if((scan+lastoffset<oldsize) &&
125*a3a45f30SXin Li (old_buf[scan+lastoffset] == new_buf[scan]))
126*a3a45f30SXin Li oldscore--;
127*a3a45f30SXin Li
128*a3a45f30SXin Li const size_t fuzz = 8;
129*a3a45f30SXin Li if (prev_len-fuzz<=len && len<=prev_len &&
130*a3a45f30SXin Li prev_oldscore-fuzz<=oldscore &&
131*a3a45f30SXin Li oldscore<=prev_oldscore &&
132*a3a45f30SXin Li prev_pos<=pos && pos <=prev_pos+fuzz &&
133*a3a45f30SXin Li oldscore<=len && len<=oldscore+fuzz)
134*a3a45f30SXin Li ++num_less_than_eight;
135*a3a45f30SXin Li else
136*a3a45f30SXin Li num_less_than_eight=0;
137*a3a45f30SXin Li if (num_less_than_eight > 100) break;
138*a3a45f30SXin Li };
139*a3a45f30SXin Li
140*a3a45f30SXin Li if((len!=oldscore) || (scan==newsize)) {
141*a3a45f30SXin Li s=0;Sf=0;lenf=0;
142*a3a45f30SXin Li for(i=0;(lastscan+i<scan)&&(lastpos+i<oldsize);) {
143*a3a45f30SXin Li if(old_buf[lastpos+i]==new_buf[lastscan+i]) s++;
144*a3a45f30SXin Li i++;
145*a3a45f30SXin Li if(s*2-i>Sf*2-lenf) { Sf=s; lenf=i; };
146*a3a45f30SXin Li };
147*a3a45f30SXin Li
148*a3a45f30SXin Li lenb=0;
149*a3a45f30SXin Li if(scan<newsize) {
150*a3a45f30SXin Li s=0;Sb=0;
151*a3a45f30SXin Li for(i=1;(scan>=lastscan+i)&&(pos>=static_cast<uint64_t>(i));i++) {
152*a3a45f30SXin Li if(old_buf[pos-i]==new_buf[scan-i]) s++;
153*a3a45f30SXin Li if(s*2-i>Sb*2-lenb) { Sb=s; lenb=i; };
154*a3a45f30SXin Li };
155*a3a45f30SXin Li };
156*a3a45f30SXin Li
157*a3a45f30SXin Li if(lastscan+lenf>scan-lenb) {
158*a3a45f30SXin Li overlap=(lastscan+lenf)-(scan-lenb);
159*a3a45f30SXin Li s=0;Ss=0;lens=0;
160*a3a45f30SXin Li for(i=0;i<overlap;i++) {
161*a3a45f30SXin Li if(new_buf[lastscan+lenf-overlap+i]==
162*a3a45f30SXin Li old_buf[lastpos+lenf-overlap+i]) s++;
163*a3a45f30SXin Li if(new_buf[scan-lenb+i]==
164*a3a45f30SXin Li old_buf[pos-lenb+i]) s--;
165*a3a45f30SXin Li if(s>Ss) { Ss=s; lens=i+1; };
166*a3a45f30SXin Li };
167*a3a45f30SXin Li
168*a3a45f30SXin Li lenf+=lens-overlap;
169*a3a45f30SXin Li lenb-=lens;
170*a3a45f30SXin Li };
171*a3a45f30SXin Li
172*a3a45f30SXin Li if (!diff_encoder.AddControlEntry(
173*a3a45f30SXin Li ControlEntry(lenf,
174*a3a45f30SXin Li (scan - lenb) - (lastscan + lenf),
175*a3a45f30SXin Li (pos - lenb) - (lastpos + lenf))))
176*a3a45f30SXin Li errx(1, "Writing a control entry");
177*a3a45f30SXin Li
178*a3a45f30SXin Li lastscan=scan-lenb;
179*a3a45f30SXin Li lastpos=pos-lenb;
180*a3a45f30SXin Li lastoffset=pos-scan;
181*a3a45f30SXin Li };
182*a3a45f30SXin Li };
183*a3a45f30SXin Li if (!diff_encoder.Close())
184*a3a45f30SXin Li errx(1, "Closing the patch file");
185*a3a45f30SXin Li
186*a3a45f30SXin Li return 0;
187*a3a45f30SXin Li }
188*a3a45f30SXin Li
189*a3a45f30SXin Li } // namespace bsdiff
190