| blob | 4f0eef0ac3c2d20475b0b50e81f4d51cd4f95396 |
1 /*
2 * apply.c
3 *
4 * Copyright (C) Linus Torvalds, 2005
5 *
6 * This applies patches on top of some (arbitrary) version of the SCM.
7 *
8 */
9 #include <fnmatch.h>
17 /*
18 * --check turns on checking that the working tree matches the
19 * files that are being modified, but doesn't apply the patch
20 * --stat does just a diffstat, and doesn't actually apply
21 * --numstat does numeric diffstat, and doesn't actually apply
22 * --index-info shows the old and new index info for paths if available.
23 * --index updates the cache as well.
24 * --cached updates only the cache without ever touching the working tree.
25 */
46 "git-apply [--stat] [--numstat] [--summary] [--check] [--index] [--cached] [--apply] [--no-add] [--index-info] [--allow-binary-replacement] [-z] [-pNUM] [-CNUM] [--whitespace=<nowarn|warn|error|error-all|strip>] <patch>...";
49 nowarn_whitespace,
50 warn_on_whitespace,
51 error_on_whitespace,
52 strip_whitespace,
60 {
64 }
68 }
72 }
76 }
81 }
85 }
87 }
90 {
92 new_whitespace = (apply
93 ? warn_on_whitespace
95 }
96 }
98 /*
99 * For "diff-stat" like behaviour, we keep track of the biggest change
100 * we've seen, and the longest filename. That allows us to do simple
101 * scaling.
102 */
105 /*
106 * Various "current state", notably line numbers and what
107 * file (and how) we're patching right now.. The "is_xxxx"
108 * things are flags, where -1 means "don't know yet".
109 */
112 /*
113 * This represents one "hunk" from a patch, starting with
114 * "@@ -oldpos,oldlines +newpos,newlines @@" marker. The
115 * patch text is pointed at by patch, and its byte length
116 * is stored in size. leading and trailing are the number
117 * of context lines.
118 */
126 };
128 /*
129 * When dealing with a binary patch, we reuse "leading" field
130 * to store the type of the binary hunk, either deflated "delta"
131 * or deflated "literal".
132 */
133 #define binary_patch_method leading
134 #define BINARY_DELTA_DEFLATED 1
135 #define BINARY_LITERAL_DEFLATED 2
151 };
153 #define CHUNKSIZE (8192)
154 #define SLOP (16)
157 {
167 }
174 }
177 /*
178 * Make sure that we have some slop in the buffer
179 * so that we can do speculative "memcmp" etc, and
180 * see to it that it is NUL-filled.
181 */
186 }
189 {
192 len++;
195 }
197 }
200 {
202 }
204 #define TERM_SPACE 1
205 #define TERM_TAB 2
208 {
215 }
218 {
224 /* Proposed "new-style" GNU patch/diff format; see
225 * http://marc.theaimsgroup.com/?l=git&m=112927316408690&w=2
226 */
234 cp++;
235 p_value--;
236 }
238 /* name can later be freed, so we need
239 * to memmove, not just return cp
240 */
244 }
248 }
249 }
250 }
260 }
261 line++;
264 }
271 /*
272 * Generally we prefer the shorter name, especially
273 * if the other one is just a variation of that with
274 * something else tacked on to the end (ie "file.orig"
275 * or "file~").
276 */
281 }
288 }
290 /*
291 * Get the name etc info from the --/+++ lines of a traditional patch header
292 *
293 * NOTE! This hardcodes "-p1" behaviour in filename detection.
294 *
295 * FIXME! The end-of-filename heuristics are kind of screwy. For existing
296 * files, we can happily check the index for a match, but for creating a
297 * new file we should try to match whatever "patch" does. I have no idea.
298 */
300 {
319 }
322 }
325 {
327 }
329 /*
330 * We're anal about diff header consistency, to make
331 * sure that we don't end up having strange ambiguous
332 * patches floating around.
333 *
334 * As a result, gitdiff_{old|new}name() will check
335 * their names against any previous information, just
336 * to make sure..
337 */
338 static char *gitdiff_verify_name(const char *line, int isnull, char *orig_name, const char *oldnew)
339 {
356 }
358 /* expect "/dev/null" */
362 }
363 }
366 {
369 }
372 {
375 }
378 {
381 }
384 {
387 }
390 {
394 }
397 {
401 }
404 {
408 }
411 {
415 }
418 {
422 }
425 {
429 }
432 {
436 }
439 {
443 }
446 {
447 /* index line is N hexadecimal, "..", N hexadecimal,
448 * and optional space with octal mode.
449 */
475 }
477 /*
478 * This is normal for a diff that doesn't change anything: we'll fall through
479 * into the next diff. Tell the parser to break out.
480 */
482 {
484 }
487 {
494 }
496 }
498 /* This is to extract the same name that appears on "diff --git"
499 * line. We do not find and return anything if it is a rename
500 * patch, and it is OK because we will find the name elsewhere.
501 * We need to reliably find name only when it is mode-change only,
502 * creation or deletion of an empty file. In any of these cases,
503 * both sides are the same name under a/ and b/ respectively.
504 */
506 {
520 /* advance to the first slash */
523 /* we do not accept absolute paths */
524 free_first_and_fail:
527 }
531 /* second points at one past closing dq of name.
532 * find the second name.
533 */
535 second++;
545 free_both_and_fail:
548 }
549 /* They must match, otherwise ignore */
554 }
556 /* unquoted second */
560 cp++;
565 }
567 /* unquoted first name */
572 name++;
574 /* since the first name is unquoted, a dq if exists must be
575 * the beginning of the second name.
576 */
587 free_second_and_fail:
590 }
591 np++;
596 /* Good */
599 }
601 }
602 }
604 /*
605 * Accept a name only if it shows up twice, exactly the same
606 * form.
607 */
624 }
630 }
631 }
632 }
634 }
636 /* Verify that we recognize the lines following a git header */
638 {
641 /* A git diff has explicit new/delete information, so we don't guess */
645 /*
646 * Some things may not have the old name in the
647 * rest of the headers anywhere (pure mode changes,
648 * or removing or adding empty files), so we get
649 * the default name from the header.
650 */
655 linenr++;
678 };
692 }
693 }
696 }
699 {
706 }
710 {
735 }
744 }
746 /*
747 * Parse a unified diff fragment header of the
748 * form "@@ -a,b +c,d @@"
749 */
751 {
757 /* Figure out the number of lines in a fragment */
762 }
765 {
779 /* Testing this early allows us to take a few shortcuts.. */
783 /*
784 * Make sure we don't find any unconnected patch fragments.
785 * That's a sign that we didn't find a header, and that a
786 * patch has become corrupted/broken up.
787 */
793 }
798 /*
799 * Git patch? It might not have a real patch, just a rename
800 * or mode change, so we handle that specially
801 */
810 }
813 }
815 /** --- followed by +++ ? */
819 /*
820 * We only accept unified patches, so we want it to
821 * at least have "@@ -a,b +c,d @@\n", which is 14 chars
822 * minimum
823 */
828 /* Ok, we'll consider it a patch */
833 }
835 }
837 /*
838 * Parse a unified diff. Note that this really needs
839 * to parse each fragment separately, since the only
840 * way to know the difference between a "---" that is
841 * part of a patch, and a "---" that starts the next
842 * patch is to look at the line counts..
843 */
844 static int parse_fragment(char *line, unsigned long size, struct patch *patch, struct fragment *fragment)
845 {
863 }
868 }
876 }
878 /* Parse the thing.. */
881 linenr++;
893 oldlines--;
894 newlines--;
896 leading++;
897 trailing++;
900 deleted++;
901 oldlines--;
905 /*
906 * We know len is at least two, since we have a '+' and
907 * we checked that the last character was a '\n' above.
908 * That is, an addition of an empty line would check
909 * the '+' here. Sneaky...
910 */
913 whitespace_error++;
915 squelch_whitespace_errors <
916 whitespace_error)
917 ;
920 patch_input_file,
922 }
923 }
924 added++;
925 newlines--;
929 /* We allow "\ No newline at end of file". Depending
930 * on locale settings when the patch was produced we
931 * don't know what this line looks like. The only
932 * thing we do know is that it begins with "\ ".
933 * Checking for 12 is just for sanity check -- any
934 * l10n of "\ No newline..." is at least that long.
935 */
940 }
941 }
947 /* If a fragment ends with an incomplete line, we failed to include
948 * it in the above loop because we hit oldlines == newlines == 0
949 * before seeing it.
950 */
957 }
960 {
982 }
984 }
987 {
994 }
998 {
999 z_stream stream;
1014 }
1016 }
1022 {
1023 /* Expect a line that begins with binary patch method ("literal"
1024 * or "delta"), followed by the length of data before deflating.
1025 * a sequence of 'length-byte' followed by base-85 encoded data
1026 * should follow, terminated by a newline.
1027 *
1028 * Each 5-byte sequence of base-85 encodes up to 4 bytes,
1029 * and we would limit the patch line to 66 characters,
1030 * so one line can fit up to 13 groups that would decode
1031 * to 52 bytes max. The length byte 'A'-'Z' corresponds
1032 * to 1-26 bytes, and 'a'-'z' corresponds to 27-52 bytes.
1033 */
1051 }
1055 }
1056 else
1059 linenr++;
1065 linenr++;
1068 /* Minimum line is "A00000\n" which is 7-byte long,
1069 * and the line length must be multiple of 5 plus 2.
1070 */
1079 else
1081 /* if the input length was not multiple of 4, we would
1082 * have filler at the end but the filler should never
1083 * exceed 3 bytes
1084 */
1095 }
1109 corrupt:
1116 }
1119 {
1120 /* We have read "GIT binary patch\n"; what follows is a line
1121 * that says the patch method (currently, either "literal" or
1122 * "delta") and the length of data before deflating; a
1123 * sequence of 'length-byte' followed by base-85 encoded data
1124 * follows.
1125 *
1126 * When a binary patch is reversible, there is another binary
1127 * hunk in the same format, starting with patch method (either
1128 * "literal" or "delta") with the length of data, and a sequence
1129 * of length-byte + base-85 encoded data, terminated with another
1130 * empty line. This data, when applied to the postimage, produces
1131 * the preimage.
1132 */
1140 /* there has to be one hunk (forward hunk) */
1143 /* otherwise we already gave an error message */
1150 /* not having reverse hunk is not an error, but having
1151 * a corrupt reverse hunk is.
1152 */
1156 }
1161 }
1164 {
1177 NULL,
1178 };
1187 linenr++;
1192 else
1194 }
1200 linenr++;
1204 }
1205 }
1206 }
1208 /* Empty patch cannot be applied if:
1209 * - it is a binary patch and we do not do binary_replace, or
1210 * - text patch without metadata change
1211 */
1214 ? !allow_binary_replacement
1217 }
1220 }
1222 #define swap(a,b) myswap((a),(b),sizeof(a))
1224 #define myswap(a, b, size) do { \
1225 unsigned char mytmp[size]; \
1226 memcpy(mytmp, &a, size); \
1227 memcpy(&a, &b, size); \
1228 memcpy(&b, mytmp, size); \
1229 } while (0)
1232 {
1245 }
1246 }
1247 }
1249 static const char pluses[] = "++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++";
1250 static const char minuses[]= "----------------------------------------------------------------------";
1253 {
1266 }
1268 /*
1269 * "scale" the filename
1270 */
1283 }
1286 /*
1287 * scale the add/delete
1288 */
1301 }
1304 else
1310 }
1313 {
1330 }
1336 }
1337 }
1339 static int find_offset(const char *buf, unsigned long size, const char *fragment, unsigned long fragsize, int line, int *lines)
1340 {
1356 }
1357 }
1358 }
1360 /* Exact line number? */
1364 /*
1365 * There's probably some smart way to do this, but I'll leave
1366 * that to the smart and beautiful people. I'm simple and stupid.
1367 */
1374 /* "backward" */
1380 }
1389 }
1391 }
1402 }
1404 /*
1405 * We should start searching forward and backward.
1406 */
1408 }
1411 {
1419 }
1422 }
1425 {
1433 }
1435 }
1441 };
1444 {
1445 /* plen is number of bytes to be copied from patch,
1446 * starting at patch+1 (patch[0] is '+'). Typically
1447 * patch[plen] is '\n'.
1448 */
1454 plen--;
1456 plen--;
1457 applied_after_stripping++;
1458 }
1463 }
1465 static int apply_one_fragment(struct buffer_desc *desc, struct fragment *frag, int inaccurate_eof)
1466 {
1486 /*
1487 * "plen" is how much of the line we should use for
1488 * the actual patch data. Normally we just remove the
1489 * first character on the line, but if the line is
1490 * followed by "\ No newline", then we also remove the
1491 * last one (which is the newline, of course).
1492 */
1495 plen--;
1502 }
1510 /* Fall-through for ' ' */
1514 plen);
1517 /* Ignore it, we already handled it */
1521 }
1524 }
1528 oldsize--;
1529 newsize--;
1530 }
1537 /*
1538 * If we don't have any leading/trailing data in the patch,
1539 * we want it to match at the beginning/end of the file.
1540 */
1557 /* Warn if it was necessary to reduce the number
1558 * of context lines.
1559 */
1569 }
1576 }
1578 /* Am I at my context limits? */
1584 }
1585 /* Reduce the number of context lines
1586 * Reduce both leading and trailing if they are equal
1587 * otherwise just reduce the larger context.
1588 */
1592 pos--;
1593 leading--;
1594 }
1598 trailing--;
1599 }
1600 }
1605 }
1608 {
1614 /* Binary patch is irreversible without the optional second hunk */
1619 patch->new_name
1622 }
1627 data,
1638 }
1643 }
1646 {
1655 name);
1657 /* For safety, we require patch index line to contain
1658 * full 40-byte textual SHA1 for old and new, at least for now.
1659 */
1668 /* See if the old one matches what the patch
1669 * applies to.
1670 */
1675 "which does not match the "
1678 }
1680 /* Otherwise, the old one must be empty. */
1684 }
1692 }
1695 /* We already have the postimage */
1706 }
1708 /* We have verified desc matches the preimage;
1709 * apply the patch data to it, which is stored
1710 * in the patch->fragments->{patch,size}.
1711 */
1714 name);
1716 /* verify that the result matches */
1721 }
1724 }
1727 {
1739 }
1741 }
1744 {
1760 }
1761 }
1768 }
1776 /* NUL terminate the result */
1788 }
1791 {
1810 old_name);
1817 /* checkout */
1826 NULL) ||
1829 }
1834 old_name);
1837 }
1853 }
1857 /* A type-change diff is always split into a patch to
1858 * delete old, immediately followed by a patch to
1859 * create new (see diff.c::run_diff()); in such a case
1860 * it is Ok that the entry to be deleted by the
1861 * previous patch is still in the working tree and in
1862 * the index.
1863 */
1865 else
1878 else
1880 }
1883 }
1887 else
1889 }
1890 }
1900 }
1905 }
1908 {
1915 }
1917 }
1920 {
1923 /* Once we start supporting the reverse patch, it may be
1924 * worth showing the new sha1 prefix, but until then...
1925 */
1936 name);
1937 else
1943 else
1946 }
1947 }
1950 {
1954 files++;
1958 }
1961 }
1964 {
1971 else
1974 }
1975 }
1978 {
1981 else
1983 }
1986 {
1991 else
1994 }
1995 }
1998 {
2002 /* Find common prefix */
2016 }
2017 /* p->old_name thru old is the common prefix, and old and new
2018 * through the end of names are renames
2019 */
2024 else
2028 }
2031 {
2047 }
2048 else
2050 }
2051 }
2052 }
2053 }
2056 {
2067 }
2074 }
2075 }
2078 {
2083 }
2086 }
2089 {
2106 }
2111 }
2113 static int try_create_file(const char *path, unsigned int mode, const char *buf, unsigned long size)
2114 {
2118 /* Although buf:size is counted string, it also is NUL
2119 * terminated.
2120 */
2133 }
2137 }
2139 /*
2140 * We optimistically assume that the directories exist,
2141 * which is true 99% of the time anyway. If they don't,
2142 * we create them and try again.
2143 */
2145 {
2156 }
2159 /* We may be trying to create a file where a directory
2160 * used to be.
2161 */
2166 }
2179 }
2183 }
2184 }
2186 }
2189 {
2200 }
2202 /* phase zero is to remove, phase one is to create */
2204 {
2209 }
2214 }
2215 /*
2216 * Rename or modification boils down to the same
2217 * thing: remove the old, write the new
2218 */
2223 }
2226 {
2237 }
2238 }
2239 }
2249 {
2256 }
2262 }
2264 }
2267 {
2293 /* perhaps free it a bit better? */
2295 skipped_patch++;
2296 }
2299 }
2311 }
2333 }
2336 {
2340 }
2342 }
2346 {
2362 }
2369 }
2373 }
2377 }
2382 }
2387 }
2392 }
2397 }
2402 }
2406 }
2411 }
2415 }
2420 }
2424 }
2430 }
2435 }
2439 }
2443 }
2451 }
2462 }
2472 squelched,
2474 }
2477 whitespace_error,
2483 applied_after_stripping,
2488 whitespace_error,
2491 }
2497 }
2500 }