5 struct rev_cache **rev_cache;
6 int nr_revs, alloc_revs;
8 struct rev_list_elem *rle_free;
10 #define BATCH_SIZE 512
12 int find_rev_cache(const unsigned char *sha1)
14 int lo = 0, hi = nr_revs;
16 int mi = (lo + hi) / 2;
17 struct rev_cache *ri = rev_cache[mi];
18 int cmp = memcmp(sha1, ri->sha1, 20);
29 static struct rev_list_elem *alloc_list_elem(void)
31 struct rev_list_elem *rle;
35 rle = xmalloc(sizeof(*rle) * BATCH_SIZE);
36 for (i = 0; i < BATCH_SIZE - 1; i++) {
38 rle[i].next = &rle[i + 1];
40 rle[BATCH_SIZE - 1].ri = NULL;
41 rle[BATCH_SIZE - 1].next = NULL;
49 static struct rev_cache *create_rev_cache(const unsigned char *sha1)
52 int pos = find_rev_cache(sha1);
55 return rev_cache[pos];
57 if (alloc_revs <= ++nr_revs) {
58 alloc_revs = alloc_nr(alloc_revs);
59 rev_cache = xrealloc(rev_cache, sizeof(ri) * alloc_revs);
62 memmove(rev_cache + pos + 1, rev_cache + pos,
63 (nr_revs - pos - 1) * sizeof(ri));
64 ri = xcalloc(1, sizeof(*ri));
65 memcpy(ri->sha1, sha1, 20);
70 static unsigned char last_sha1[20];
72 static void write_one_rev_cache(FILE *rev_cache_file, struct rev_cache *ri)
75 struct rev_list_elem *rle;
81 /* We use last_sha1 compression only for the first parent;
82 * otherwise the resulting rev-cache would lose the parent
86 !memcmp(ri->parents->ri->sha1, last_sha1, 20))
87 flag = (ri->num_parents - 1) | 0x80;
89 flag = ri->num_parents;
91 fwrite(ri->sha1, 20, 1, rev_cache_file);
92 fwrite(&flag, 1, 1, rev_cache_file);
93 for (rle = ri->parents; rle; rle = rle->next) {
94 if (flag & 0x80 && rle == ri->parents)
96 fwrite(rle->ri->sha1, 20, 1, rev_cache_file);
98 memcpy(last_sha1, ri->sha1, 20);
101 /* recursively write children depth first */
102 for (rle = ri->children; rle; rle = rle->next)
103 write_one_rev_cache(rev_cache_file, rle->ri);
106 void write_rev_cache(const char *newpath, const char *oldpath)
108 /* write the following commit ancestry information in
109 * $GIT_DIR/info/rev-cache.
112 * 20-byte SHA1 (commit ID)
114 * - bit 0-6 records "number of parent commit SHA1s to
115 * follow" (i.e. up to 127 children can be listed).
116 * - when the bit 7 is on, then "the entry immediately
117 * before this entry is one of the parents of this
119 * N x 20-byte SHA1 (parent commit IDs)
121 FILE *rev_cache_file;
123 struct rev_cache *ri;
125 if (!strcmp(newpath, oldpath)) {
126 /* If we are doing it in place */
127 rev_cache_file = fopen(newpath, "a");
132 FILE *oldfp = fopen(oldpath, "r");
133 rev_cache_file = fopen(newpath, "w");
136 sz = fread(buf, 1, sizeof(buf), oldfp);
139 fwrite(buf, 1, sz, rev_cache_file);
145 memset(last_sha1, 0, 20);
147 /* Go through available rev_cache structures, starting from
148 * parentless ones first, so that we would get most out of
149 * last_sha1 optimization by the depth first behaviour of
150 * write_one_rev_cache().
152 for (i = 0; i < nr_revs; i++) {
156 write_one_rev_cache(rev_cache_file, ri);
159 for (i = 0; i < nr_revs; i++) {
161 write_one_rev_cache(rev_cache_file, ri);
163 fclose(rev_cache_file);
166 static void add_parent(struct rev_cache *child,
167 const unsigned char *parent_sha1)
169 struct rev_cache *parent = create_rev_cache(parent_sha1);
170 struct rev_list_elem *e = alloc_list_elem();
172 /* Keep the parent list ordered in the same way the commit
173 * object records them.
177 if (!child->parents_tail)
180 child->parents_tail->next = e;
181 child->parents_tail = e;
182 child->num_parents++;
184 /* There is no inherent order of the children so we just
185 * LIFO them together.
187 e = alloc_list_elem();
188 e->next = parent->children;
189 parent->children = e;
191 parent->num_children++;
194 int read_rev_cache(const char *path, FILE *dumpfile, int dry_run)
199 unsigned long ofs, len;
200 struct rev_cache *ri = NULL;
202 fd = open(path, O_RDONLY);
205 return error("cannot open %s", path);
210 if (fstat(fd, &st)) {
214 map = mmap(NULL, st.st_size, PROT_READ, MAP_PRIVATE, fd, 0);
215 if (map == MAP_FAILED) {
221 memset(last_sha1, 0, 20);
225 unsigned char sha1[20];
228 die("rev-cache too short");
229 memcpy(sha1, map + ofs, 20);
230 flag = map[ofs + 20];
232 cnt = (flag & 0x7f) + ((flag & 0x80) != 0);
233 if (len < ofs + (flag & 0x7f) * 20)
234 die("rev-cache too short to have %d more parents",
237 fprintf(dumpfile, "%s", sha1_to_hex(sha1));
239 ri = create_rev_cache(sha1);
241 die("cannot create rev-cache for %s",
243 ri->written = ri->parsed = 1;
248 add_parent(ri, last_sha1);
250 fprintf(dumpfile, " %s",
251 sha1_to_hex(last_sha1));
256 add_parent(ri, map + ofs);
258 fprintf(dumpfile, " %s",
259 sha1_to_hex(last_sha1));
263 fprintf(dumpfile, "\n");
264 memcpy(last_sha1, sha1, 20);
267 die("rev-cache truncated?");
272 int record_rev_cache(const unsigned char *sha1, FILE *dumpfile)
274 unsigned char parent[20];
276 unsigned long size, ofs;
279 struct rev_cache *ri;
281 buf = read_sha1_file(sha1, type, &size);
283 return error("%s: not found", sha1_to_hex(sha1));
284 if (strcmp(type, "commit")) {
286 return error("%s: not a commit but a %s",
287 sha1_to_hex(sha1), type);
289 ri = create_rev_cache(sha1);
293 fprintf(dumpfile, "commit %s\n", sha1_to_hex(sha1));
296 ofs = 46; /* "tree " + hex-sha1 + "\n" */
297 while (!memcmp(buf + ofs, "parent ", 7) &&
298 !get_sha1_hex(buf + ofs + 7, parent)) {
302 if (cnt * 48 + 46 != ofs) {
304 die("internal error in record_rev_cache");
307 ri = create_rev_cache(sha1);
310 for (i = 0; i < cnt; i++) {
311 unsigned char parent_sha1[20];
313 ofs = 46 + i * 48 + 7;
314 get_sha1_hex(buf + ofs, parent_sha1);
315 add_parent(ri, parent_sha1);
316 record_rev_cache(parent_sha1, dumpfile);