#include "cache.h" #include "tag.h" #include "commit.h" #include "pkt-line.h" #include "utf8.h" #include "diff.h" #include "revision.h" int save_commit_buffer = 1; const char *commit_type = "commit"; static struct commit *check_commit(struct object *obj, const unsigned char *sha1, int quiet) { if (obj->type != OBJ_COMMIT) { if (!quiet) error("Object %s is a %s, not a commit", sha1_to_hex(sha1), typename(obj->type)); return NULL; } return (struct commit *) obj; } struct commit *lookup_commit_reference_gently(const unsigned char *sha1, int quiet) { struct object *obj = deref_tag(parse_object(sha1), NULL, 0); if (!obj) return NULL; return check_commit(obj, sha1, quiet); } struct commit *lookup_commit_reference(const unsigned char *sha1) { return lookup_commit_reference_gently(sha1, 0); } struct commit *lookup_commit(const unsigned char *sha1) { struct object *obj = lookup_object(sha1); if (!obj) return create_object(sha1, OBJ_COMMIT, alloc_commit_node()); if (!obj->type) obj->type = OBJ_COMMIT; return check_commit(obj, sha1, 0); } static unsigned long parse_commit_date(const char *buf, const char *tail) { unsigned long date; const char *dateptr; if (buf + 6 >= tail) return 0; if (memcmp(buf, "author", 6)) return 0; while (buf < tail && *buf++ != '\n') /* nada */; if (buf + 9 >= tail) return 0; if (memcmp(buf, "committer", 9)) return 0; while (buf < tail && *buf++ != '>') /* nada */; if (buf >= tail) return 0; dateptr = buf; while (buf < tail && *buf++ != '\n') /* nada */; if (buf >= tail) return 0; /* dateptr < buf && buf[-1] == '\n', so strtoul will stop at buf-1 */ date = strtoul(dateptr, NULL, 10); if (date == ULONG_MAX) date = 0; return date; } static struct commit_graft **commit_graft; static int commit_graft_alloc, commit_graft_nr; static int commit_graft_pos(const unsigned char *sha1) { int lo, hi; lo = 0; hi = commit_graft_nr; while (lo < hi) { int mi = (lo + hi) / 2; struct commit_graft *graft = commit_graft[mi]; int cmp = hashcmp(sha1, graft->sha1); if (!cmp) return mi; if (cmp < 0) hi = mi; else lo = mi + 1; } return -lo - 1; } int register_commit_graft(struct commit_graft *graft, int ignore_dups) { int pos = commit_graft_pos(graft->sha1); if (0 <= pos) { if (ignore_dups) free(graft); else { free(commit_graft[pos]); commit_graft[pos] = graft; } return 1; } pos = -pos - 1; if (commit_graft_alloc <= ++commit_graft_nr) { commit_graft_alloc = alloc_nr(commit_graft_alloc); commit_graft = xrealloc(commit_graft, sizeof(*commit_graft) * commit_graft_alloc); } if (pos < commit_graft_nr) memmove(commit_graft + pos + 1, commit_graft + pos, (commit_graft_nr - pos - 1) * sizeof(*commit_graft)); commit_graft[pos] = graft; return 0; } struct commit_graft *read_graft_line(char *buf, int len) { /* The format is just "Commit Parent1 Parent2 ...\n" */ int i; struct commit_graft *graft = NULL; if (buf[len-1] == '\n') buf[--len] = 0; if (buf[0] == '#' || buf[0] == '\0') return NULL; if ((len + 1) % 41) { bad_graft_data: error("bad graft data: %s", buf); free(graft); return NULL; } i = (len + 1) / 41 - 1; graft = xmalloc(sizeof(*graft) + 20 * i); graft->nr_parent = i; if (get_sha1_hex(buf, graft->sha1)) goto bad_graft_data; for (i = 40; i < len; i += 41) { if (buf[i] != ' ') goto bad_graft_data; if (get_sha1_hex(buf + i + 1, graft->parent[i/41])) goto bad_graft_data; } return graft; } int read_graft_file(const char *graft_file) { FILE *fp = fopen(graft_file, "r"); char buf[1024]; if (!fp) return -1; while (fgets(buf, sizeof(buf), fp)) { /* The format is just "Commit Parent1 Parent2 ...\n" */ int len = strlen(buf); struct commit_graft *graft = read_graft_line(buf, len); if (!graft) continue; if (register_commit_graft(graft, 1)) error("duplicate graft data: %s", buf); } fclose(fp); return 0; } static void prepare_commit_graft(void) { static int commit_graft_prepared; char *graft_file; if (commit_graft_prepared) return; graft_file = get_graft_file(); read_graft_file(graft_file); /* make sure shallows are read */ is_repository_shallow(); commit_graft_prepared = 1; } struct commit_graft *lookup_commit_graft(const unsigned char *sha1) { int pos; prepare_commit_graft(); pos = commit_graft_pos(sha1); if (pos < 0) return NULL; return commit_graft[pos]; } int write_shallow_commits(int fd, int use_pack_protocol) { int i, count = 0; for (i = 0; i < commit_graft_nr; i++) if (commit_graft[i]->nr_parent < 0) { const char *hex = sha1_to_hex(commit_graft[i]->sha1); count++; if (use_pack_protocol) packet_write(fd, "shallow %s", hex); else { if (write_in_full(fd, hex, 40) != 40) break; if (write_in_full(fd, "\n", 1) != 1) break; } } return count; } int unregister_shallow(const unsigned char *sha1) { int pos = commit_graft_pos(sha1); if (pos < 0) return -1; if (pos + 1 < commit_graft_nr) memcpy(commit_graft + pos, commit_graft + pos + 1, sizeof(struct commit_graft *) * (commit_graft_nr - pos - 1)); commit_graft_nr--; return 0; } int parse_commit_buffer(struct commit *item, void *buffer, unsigned long size) { char *tail = buffer; char *bufptr = buffer; unsigned char parent[20]; struct commit_list **pptr; struct commit_graft *graft; if (item->object.parsed) return 0; item->object.parsed = 1; tail += size; if (tail <= bufptr + 46 || memcmp(bufptr, "tree ", 5) || bufptr[45] != '\n') return error("bogus commit object %s", sha1_to_hex(item->object.sha1)); if (get_sha1_hex(bufptr + 5, parent) < 0) return error("bad tree pointer in commit %s", sha1_to_hex(item->object.sha1)); item->tree = lookup_tree(parent); bufptr += 46; /* "tree " + "hex sha1" + "\n" */ pptr = &item->parents; graft = lookup_commit_graft(item->object.sha1); while (bufptr + 48 < tail && !memcmp(bufptr, "parent ", 7)) { struct commit *new_parent; if (tail <= bufptr + 48 || get_sha1_hex(bufptr + 7, parent) || bufptr[47] != '\n') return error("bad parents in commit %s", sha1_to_hex(item->object.sha1)); bufptr += 48; if (graft) continue; new_parent = lookup_commit(parent); if (new_parent) pptr = &commit_list_insert(new_parent, pptr)->next; } if (graft) { int i; struct commit *new_parent; for (i = 0; i < graft->nr_parent; i++) { new_parent = lookup_commit(graft->parent[i]); if (!new_parent) continue; pptr = &commit_list_insert(new_parent, pptr)->next; } } item->date = parse_commit_date(bufptr, tail); return 0; } int parse_commit(struct commit *item) { enum object_type type; void *buffer; unsigned long size; int ret; if (!item) return -1; if (item->object.parsed) return 0; buffer = read_sha1_file(item->object.sha1, &type, &size); if (!buffer) return error("Could not read %s", sha1_to_hex(item->object.sha1)); if (type != OBJ_COMMIT) { free(buffer); return error("Object %s not a commit", sha1_to_hex(item->object.sha1)); } ret = parse_commit_buffer(item, buffer, size); if (save_commit_buffer && !ret) { item->buffer = buffer; return 0; } free(buffer); return ret; } struct commit_list *commit_list_insert(struct commit *item, struct commit_list **list_p) { struct commit_list *new_list = xmalloc(sizeof(struct commit_list)); new_list->item = item; new_list->next = *list_p; *list_p = new_list; return new_list; } unsigned commit_list_count(const struct commit_list *l) { unsigned c = 0; for (; l; l = l->next ) c++; return c; } void free_commit_list(struct commit_list *list) { while (list) { struct commit_list *temp = list; list = temp->next; free(temp); } } struct commit_list * insert_by_date(struct commit *item, struct commit_list **list) { struct commit_list **pp = list; struct commit_list *p; while ((p = *pp) != NULL) { if (p->item->date < item->date) { break; } pp = &p->next; } return commit_list_insert(item, pp); } void sort_by_date(struct commit_list **list) { struct commit_list *ret = NULL; while (*list) { insert_by_date((*list)->item, &ret); *list = (*list)->next; } *list = ret; } struct commit *pop_most_recent_commit(struct commit_list **list, unsigned int mark) { struct commit *ret = (*list)->item; struct commit_list *parents = ret->parents; struct commit_list *old = *list; *list = (*list)->next; free(old); while (parents) { struct commit *commit = parents->item; if (!parse_commit(commit) && !(commit->object.flags & mark)) { commit->object.flags |= mark; insert_by_date(commit, list); } parents = parents->next; } return ret; } void clear_commit_marks(struct commit *commit, unsigned int mark) { while (commit) { struct commit_list *parents; if (!(mark & commit->object.flags)) return; commit->object.flags &= ~mark; parents = commit->parents; if (!parents) return; while ((parents = parents->next)) clear_commit_marks(parents->item, mark); commit = commit->parents->item; } } struct commit *pop_commit(struct commit_list **stack) { struct commit_list *top = *stack; struct commit *item = top ? top->item : NULL; if (top) { *stack = top->next; free(top); } return item; } /* * Performs an in-place topological sort on the list supplied. */ void sort_in_topological_order(struct commit_list ** list, int lifo) { struct commit_list *next, *orig = *list; struct commit_list *work, **insert; struct commit_list **pptr; if (!orig) return; *list = NULL; /* Mark them and clear the indegree */ for (next = orig; next; next = next->next) { struct commit *commit = next->item; commit->indegree = 1; } /* update the indegree */ for (next = orig; next; next = next->next) { struct commit_list * parents = next->item->parents; while (parents) { struct commit *parent = parents->item; if (parent->indegree) parent->indegree++; parents = parents->next; } } /* * find the tips * * tips are nodes not reachable from any other node in the list * * the tips serve as a starting set for the work queue. */ work = NULL; insert = &work; for (next = orig; next; next = next->next) { struct commit *commit = next->item; if (commit->indegree == 1) insert = &commit_list_insert(commit, insert)->next; } /* process the list in topological order */ if (!lifo) sort_by_date(&work); pptr = list; *list = NULL; while (work) { struct commit *commit; struct commit_list *parents, *work_item; work_item = work; work = work_item->next; work_item->next = NULL; commit = work_item->item; for (parents = commit->parents; parents ; parents = parents->next) { struct commit *parent=parents->item; if (!parent->indegree) continue; /* * parents are only enqueued for emission * when all their children have been emitted thereby * guaranteeing topological order. */ if (--parent->indegree == 1) { if (!lifo) insert_by_date(parent, &work); else commit_list_insert(parent, &work); } } /* * work_item is a commit all of whose children * have already been emitted. we can emit it now. */ commit->indegree = 0; *pptr = work_item; pptr = &work_item->next; } } /* merge-base stuff */ /* bits #0..15 in revision.h */ #define PARENT1 (1u<<16) #define PARENT2 (1u<<17) #define STALE (1u<<18) #define RESULT (1u<<19) static const unsigned all_flags = (PARENT1 | PARENT2 | STALE | RESULT); static struct commit *interesting(struct commit_list *list) { while (list) { struct commit *commit = list->item; list = list->next; if (commit->object.flags & STALE) continue; return commit; } return NULL; } static struct commit_list *merge_bases_many(struct commit *one, int n, struct commit **twos) { struct commit_list *list = NULL; struct commit_list *result = NULL; int i; for (i = 0; i < n; i++) { if (one == twos[i]) /* * We do not mark this even with RESULT so we do not * have to clean it up. */ return commit_list_insert(one, &result); } if (parse_commit(one)) return NULL; for (i = 0; i < n; i++) { if (parse_commit(twos[i])) return NULL; } one->object.flags |= PARENT1; insert_by_date(one, &list); for (i = 0; i < n; i++) { twos[i]->object.flags |= PARENT2; insert_by_date(twos[i], &list); } while (interesting(list)) { struct commit *commit; struct commit_list *parents; struct commit_list *n; int flags; commit = list->item; n = list->next; free(list); list = n; flags = commit->object.flags & (PARENT1 | PARENT2 | STALE); if (flags == (PARENT1 | PARENT2)) { if (!(commit->object.flags & RESULT)) { commit->object.flags |= RESULT; insert_by_date(commit, &result); } /* Mark parents of a found merge stale */ flags |= STALE; } parents = commit->parents; while (parents) { struct commit *p = parents->item; parents = parents->next; if ((p->object.flags & flags) == flags) continue; if (parse_commit(p)) return NULL; p->object.flags |= flags; insert_by_date(p, &list); } } /* Clean up the result to remove stale ones */ free_commit_list(list); list = result; result = NULL; while (list) { struct commit_list *n = list->next; if (!(list->item->object.flags & STALE)) insert_by_date(list->item, &result); free(list); list = n; } return result; } struct commit_list *get_octopus_merge_bases(struct commit_list *in) { struct commit_list *i, *j, *k, *ret = NULL; struct commit_list **pptr = &ret; for (i = in; i; i = i->next) { if (!ret) pptr = &commit_list_insert(i->item, pptr)->next; else { struct commit_list *new = NULL, *end = NULL; for (j = ret; j; j = j->next) { struct commit_list *bases; bases = get_merge_bases(i->item, j->item, 1); if (!new) new = bases; else end->next = bases; for (k = bases; k; k = k->next) end = k; } ret = new; } } return ret; } struct commit_list *get_merge_bases_many(struct commit *one, int n, struct commit **twos, int cleanup) { struct commit_list *list; struct commit **rslt; struct commit_list *result; int cnt, i, j; result = merge_bases_many(one, n, twos); for (i = 0; i < n; i++) { if (one == twos[i]) return result; } if (!result || !result->next) { if (cleanup) { clear_commit_marks(one, all_flags); for (i = 0; i < n; i++) clear_commit_marks(twos[i], all_flags); } return result; } /* There are more than one */ cnt = 0; list = result; while (list) { list = list->next; cnt++; } rslt = xcalloc(cnt, sizeof(*rslt)); for (list = result, i = 0; list; list = list->next) rslt[i++] = list->item; free_commit_list(result); clear_commit_marks(one, all_flags); for (i = 0; i < n; i++) clear_commit_marks(twos[i], all_flags); for (i = 0; i < cnt - 1; i++) { for (j = i+1; j < cnt; j++) { if (!rslt[i] || !rslt[j]) continue; result = merge_bases_many(rslt[i], 1, &rslt[j]); clear_commit_marks(rslt[i], all_flags); clear_commit_marks(rslt[j], all_flags); for (list = result; list; list = list->next) { if (rslt[i] == list->item) rslt[i] = NULL; if (rslt[j] == list->item) rslt[j] = NULL; } } } /* Surviving ones in rslt[] are the independent results */ result = NULL; for (i = 0; i < cnt; i++) { if (rslt[i]) insert_by_date(rslt[i], &result); } free(rslt); return result; } struct commit_list *get_merge_bases(struct commit *one, struct commit *two, int cleanup) { return get_merge_bases_many(one, 1, &two, cleanup); } int in_merge_bases(struct commit *commit, struct commit **reference, int num) { struct commit_list *bases, *b; int ret = 0; if (num == 1) bases = get_merge_bases(commit, *reference, 1); else die("not yet"); for (b = bases; b; b = b->next) { if (!hashcmp(commit->object.sha1, b->item->object.sha1)) { ret = 1; break; } } free_commit_list(bases); return ret; } struct commit_list *reduce_heads(struct commit_list *heads) { struct commit_list *p; struct commit_list *result = NULL, **tail = &result; struct commit **other; size_t num_head, num_other; if (!heads) return NULL; /* Avoid unnecessary reallocations */ for (p = heads, num_head = 0; p; p = p->next) num_head++; other = xcalloc(sizeof(*other), num_head); /* For each commit, see if it can be reached by others */ for (p = heads; p; p = p->next) { struct commit_list *q, *base; /* Do we already have this in the result? */ for (q = result; q; q = q->next) if (p->item == q->item) break; if (q) continue; num_other = 0; for (q = heads; q; q = q->next) { if (p->item == q->item) continue; other[num_other++] = q->item; } if (num_other) base = get_merge_bases_many(p->item, num_other, other, 1); else base = NULL; /* * If p->item does not have anything common with other * commits, there won't be any merge base. If it is * reachable from some of the others, p->item will be * the merge base. If its history is connected with * others, but p->item is not reachable by others, we * will get something other than p->item back. */ if (!base || (base->item != p->item)) tail = &(commit_list_insert(p->item, tail)->next); free_commit_list(base); } free(other); return result; }