#include "cache.h" #include "remote.h" #include "refs.h" #include "commit.h" #include "diff.h" #include "revision.h" #include "dir.h" #include "tag.h" static struct refspec s_tag_refspec = { 0, 1, 0, "refs/tags/*", "refs/tags/*" }; const struct refspec *tag_refspec = &s_tag_refspec; struct counted_string { size_t len; const char *s; }; struct rewrite { const char *base; size_t baselen; struct counted_string *instead_of; int instead_of_nr; int instead_of_alloc; }; static struct remote **remotes; static int remotes_alloc; static int remotes_nr; static struct branch **branches; static int branches_alloc; static int branches_nr; static struct branch *current_branch; static const char *default_remote_name; static int explicit_default_remote_name; static struct rewrite **rewrite; static int rewrite_alloc; static int rewrite_nr; #define BUF_SIZE (2048) static char buffer[BUF_SIZE]; static const char *alias_url(const char *url) { int i, j; char *ret; struct counted_string *longest; int longest_i; longest = NULL; longest_i = -1; for (i = 0; i < rewrite_nr; i++) { if (!rewrite[i]) continue; for (j = 0; j < rewrite[i]->instead_of_nr; j++) { if (!prefixcmp(url, rewrite[i]->instead_of[j].s) && (!longest || longest->len < rewrite[i]->instead_of[j].len)) { longest = &(rewrite[i]->instead_of[j]); longest_i = i; } } } if (!longest) return url; ret = xmalloc(rewrite[longest_i]->baselen + (strlen(url) - longest->len) + 1); strcpy(ret, rewrite[longest_i]->base); strcpy(ret + rewrite[longest_i]->baselen, url + longest->len); return ret; } static void add_push_refspec(struct remote *remote, const char *ref) { ALLOC_GROW(remote->push_refspec, remote->push_refspec_nr + 1, remote->push_refspec_alloc); remote->push_refspec[remote->push_refspec_nr++] = ref; } static void add_fetch_refspec(struct remote *remote, const char *ref) { ALLOC_GROW(remote->fetch_refspec, remote->fetch_refspec_nr + 1, remote->fetch_refspec_alloc); remote->fetch_refspec[remote->fetch_refspec_nr++] = ref; } static void add_url(struct remote *remote, const char *url) { ALLOC_GROW(remote->url, remote->url_nr + 1, remote->url_alloc); remote->url[remote->url_nr++] = url; } static void add_url_alias(struct remote *remote, const char *url) { add_url(remote, alias_url(url)); } static struct remote *make_remote(const char *name, int len) { struct remote *ret; int i; for (i = 0; i < remotes_nr; i++) { if (len ? (!strncmp(name, remotes[i]->name, len) && !remotes[i]->name[len]) : !strcmp(name, remotes[i]->name)) return remotes[i]; } ret = xcalloc(1, sizeof(struct remote)); ALLOC_GROW(remotes, remotes_nr + 1, remotes_alloc); remotes[remotes_nr++] = ret; if (len) ret->name = xstrndup(name, len); else ret->name = xstrdup(name); return ret; } static void add_merge(struct branch *branch, const char *name) { ALLOC_GROW(branch->merge_name, branch->merge_nr + 1, branch->merge_alloc); branch->merge_name[branch->merge_nr++] = name; } static struct branch *make_branch(const char *name, int len) { struct branch *ret; int i; char *refname; for (i = 0; i < branches_nr; i++) { if (len ? (!strncmp(name, branches[i]->name, len) && !branches[i]->name[len]) : !strcmp(name, branches[i]->name)) return branches[i]; } ALLOC_GROW(branches, branches_nr + 1, branches_alloc); ret = xcalloc(1, sizeof(struct branch)); branches[branches_nr++] = ret; if (len) ret->name = xstrndup(name, len); else ret->name = xstrdup(name); refname = xmalloc(strlen(name) + strlen("refs/heads/") + 1); strcpy(refname, "refs/heads/"); strcpy(refname + strlen("refs/heads/"), ret->name); ret->refname = refname; return ret; } static struct rewrite *make_rewrite(const char *base, int len) { struct rewrite *ret; int i; for (i = 0; i < rewrite_nr; i++) { if (len ? (len == rewrite[i]->baselen && !strncmp(base, rewrite[i]->base, len)) : !strcmp(base, rewrite[i]->base)) return rewrite[i]; } ALLOC_GROW(rewrite, rewrite_nr + 1, rewrite_alloc); ret = xcalloc(1, sizeof(struct rewrite)); rewrite[rewrite_nr++] = ret; if (len) { ret->base = xstrndup(base, len); ret->baselen = len; } else { ret->base = xstrdup(base); ret->baselen = strlen(base); } return ret; } static void add_instead_of(struct rewrite *rewrite, const char *instead_of) { ALLOC_GROW(rewrite->instead_of, rewrite->instead_of_nr + 1, rewrite->instead_of_alloc); rewrite->instead_of[rewrite->instead_of_nr].s = instead_of; rewrite->instead_of[rewrite->instead_of_nr].len = strlen(instead_of); rewrite->instead_of_nr++; } static void read_remotes_file(struct remote *remote) { FILE *f = fopen(git_path("remotes/%s", remote->name), "r"); if (!f) return; remote->origin = REMOTE_REMOTES; while (fgets(buffer, BUF_SIZE, f)) { int value_list; char *s, *p; if (!prefixcmp(buffer, "URL:")) { value_list = 0; s = buffer + 4; } else if (!prefixcmp(buffer, "Push:")) { value_list = 1; s = buffer + 5; } else if (!prefixcmp(buffer, "Pull:")) { value_list = 2; s = buffer + 5; } else continue; while (isspace(*s)) s++; if (!*s) continue; p = s + strlen(s); while (isspace(p[-1])) *--p = 0; switch (value_list) { case 0: add_url_alias(remote, xstrdup(s)); break; case 1: add_push_refspec(remote, xstrdup(s)); break; case 2: add_fetch_refspec(remote, xstrdup(s)); break; } } fclose(f); } static void read_branches_file(struct remote *remote) { const char *slash = strchr(remote->name, '/'); char *frag; struct strbuf branch = STRBUF_INIT; int n = slash ? slash - remote->name : 1000; FILE *f = fopen(git_path("branches/%.*s", n, remote->name), "r"); char *s, *p; int len; if (!f) return; s = fgets(buffer, BUF_SIZE, f); fclose(f); if (!s) return; while (isspace(*s)) s++; if (!*s) return; remote->origin = REMOTE_BRANCHES; p = s + strlen(s); while (isspace(p[-1])) *--p = 0; len = p - s; if (slash) len += strlen(slash); p = xmalloc(len + 1); strcpy(p, s); if (slash) strcat(p, slash); /* * With "slash", e.g. "git fetch jgarzik/netdev-2.6" when * reading from $GIT_DIR/branches/jgarzik fetches "HEAD" from * the partial URL obtained from the branches file plus * "/netdev-2.6" and does not store it in any tracking ref. * #branch specifier in the file is ignored. * * Otherwise, the branches file would have URL and optionally * #branch specified. The "master" (or specified) branch is * fetched and stored in the local branch of the same name. */ frag = strchr(p, '#'); if (frag) { *(frag++) = '\0'; strbuf_addf(&branch, "refs/heads/%s", frag); } else strbuf_addstr(&branch, "refs/heads/master"); if (!slash) { strbuf_addf(&branch, ":refs/heads/%s", remote->name); } else { strbuf_reset(&branch); strbuf_addstr(&branch, "HEAD:"); } add_url_alias(remote, p); add_fetch_refspec(remote, strbuf_detach(&branch, 0)); /* * Cogito compatible push: push current HEAD to remote #branch * (master if missing) */ strbuf_init(&branch, 0); strbuf_addstr(&branch, "HEAD"); if (frag) strbuf_addf(&branch, ":refs/heads/%s", frag); else strbuf_addstr(&branch, ":refs/heads/master"); add_push_refspec(remote, strbuf_detach(&branch, 0)); remote->fetch_tags = 1; /* always auto-follow */ } static int handle_config(const char *key, const char *value, void *cb) { const char *name; const char *subkey; struct remote *remote; struct branch *branch; if (!prefixcmp(key, "branch.")) { name = key + 7; subkey = strrchr(name, '.'); if (!subkey) return 0; branch = make_branch(name, subkey - name); if (!strcmp(subkey, ".remote")) { if (!value) return config_error_nonbool(key); branch->remote_name = xstrdup(value); if (branch == current_branch) { default_remote_name = branch->remote_name; explicit_default_remote_name = 1; } } else if (!strcmp(subkey, ".merge")) { if (!value) return config_error_nonbool(key); add_merge(branch, xstrdup(value)); } return 0; } if (!prefixcmp(key, "url.")) { struct rewrite *rewrite; name = key + 4; subkey = strrchr(name, '.'); if (!subkey) return 0; rewrite = make_rewrite(name, subkey - name); if (!strcmp(subkey, ".insteadof")) { if (!value) return config_error_nonbool(key); add_instead_of(rewrite, xstrdup(value)); } } if (prefixcmp(key, "remote.")) return 0; name = key + 7; if (*name == '/') { warning("Config remote shorthand cannot begin with '/': %s", name); return 0; } subkey = strrchr(name, '.'); if (!subkey) return 0; remote = make_remote(name, subkey - name); remote->origin = REMOTE_CONFIG; if (!strcmp(subkey, ".mirror")) remote->mirror = git_config_bool(key, value); else if (!strcmp(subkey, ".skipdefaultupdate")) remote->skip_default_update = git_config_bool(key, value); else if (!strcmp(subkey, ".url")) { const char *v; if (git_config_string(&v, key, value)) return -1; add_url(remote, v); } else if (!strcmp(subkey, ".push")) { const char *v; if (git_config_string(&v, key, value)) return -1; add_push_refspec(remote, v); } else if (!strcmp(subkey, ".fetch")) { const char *v; if (git_config_string(&v, key, value)) return -1; add_fetch_refspec(remote, v); } else if (!strcmp(subkey, ".receivepack")) { const char *v; if (git_config_string(&v, key, value)) return -1; if (!remote->receivepack) remote->receivepack = v; else error("more than one receivepack given, using the first"); } else if (!strcmp(subkey, ".uploadpack")) { const char *v; if (git_config_string(&v, key, value)) return -1; if (!remote->uploadpack) remote->uploadpack = v; else error("more than one uploadpack given, using the first"); } else if (!strcmp(subkey, ".tagopt")) { if (!strcmp(value, "--no-tags")) remote->fetch_tags = -1; } else if (!strcmp(subkey, ".proxy")) { return git_config_string((const char **)&remote->http_proxy, key, value); } return 0; } static void alias_all_urls(void) { int i, j; for (i = 0; i < remotes_nr; i++) { if (!remotes[i]) continue; for (j = 0; j < remotes[i]->url_nr; j++) { remotes[i]->url[j] = alias_url(remotes[i]->url[j]); } } } static void read_config(void) { unsigned char sha1[20]; const char *head_ref; int flag; if (default_remote_name) // did this already return; default_remote_name = xstrdup("origin"); current_branch = NULL; head_ref = resolve_ref("HEAD", sha1, 0, &flag); if (head_ref && (flag & REF_ISSYMREF) && !prefixcmp(head_ref, "refs/heads/")) { current_branch = make_branch(head_ref + strlen("refs/heads/"), 0); } git_config(handle_config, NULL); alias_all_urls(); } /* * We need to make sure the tracking branches are well formed, but a * wildcard refspec in "struct refspec" must have a trailing slash. We * temporarily drop the trailing '/' while calling check_ref_format(), * and put it back. The caller knows that a CHECK_REF_FORMAT_ONELEVEL * error return is Ok for a wildcard refspec. */ static int verify_refname(char *name, int is_glob) { int result; result = check_ref_format(name); if (is_glob && result == CHECK_REF_FORMAT_WILDCARD) result = CHECK_REF_FORMAT_OK; return result; } /* * This function frees a refspec array. * Warning: code paths should be checked to ensure that the src * and dst pointers are always freeable pointers as well * as the refspec pointer itself. */ static void free_refspecs(struct refspec *refspec, int nr_refspec) { int i; if (!refspec) return; for (i = 0; i < nr_refspec; i++) { free(refspec[i].src); free(refspec[i].dst); } free(refspec); } static struct refspec *parse_refspec_internal(int nr_refspec, const char **refspec, int fetch, int verify) { int i; int st; struct refspec *rs = xcalloc(sizeof(*rs), nr_refspec); for (i = 0; i < nr_refspec; i++) { size_t llen; int is_glob; const char *lhs, *rhs; is_glob = 0; lhs = refspec[i]; if (*lhs == '+') { rs[i].force = 1; lhs++; } rhs = strrchr(lhs, ':'); /* * Before going on, special case ":" (or "+:") as a refspec * for matching refs. */ if (!fetch && rhs == lhs && rhs[1] == '\0') { rs[i].matching = 1; continue; } if (rhs) { size_t rlen = strlen(++rhs); is_glob = (1 <= rlen && strchr(rhs, '*')); rs[i].dst = xstrndup(rhs, rlen); } llen = (rhs ? (rhs - lhs - 1) : strlen(lhs)); if (1 <= llen && memchr(lhs, '*', llen)) { if ((rhs && !is_glob) || (!rhs && fetch)) goto invalid; is_glob = 1; } else if (rhs && is_glob) { goto invalid; } rs[i].pattern = is_glob; rs[i].src = xstrndup(lhs, llen); if (fetch) { /* * LHS * - empty is allowed; it means HEAD. * - otherwise it must be a valid looking ref. */ if (!*rs[i].src) ; /* empty is ok */ else { st = verify_refname(rs[i].src, is_glob); if (st && st != CHECK_REF_FORMAT_ONELEVEL) goto invalid; } /* * RHS * - missing is ok, and is same as empty. * - empty is ok; it means not to store. * - otherwise it must be a valid looking ref. */ if (!rs[i].dst) { ; /* ok */ } else if (!*rs[i].dst) { ; /* ok */ } else { st = verify_refname(rs[i].dst, is_glob); if (st && st != CHECK_REF_FORMAT_ONELEVEL) goto invalid; } } else { /* * LHS * - empty is allowed; it means delete. * - when wildcarded, it must be a valid looking ref. * - otherwise, it must be an extended SHA-1, but * there is no existing way to validate this. */ if (!*rs[i].src) ; /* empty is ok */ else if (is_glob) { st = verify_refname(rs[i].src, is_glob); if (st && st != CHECK_REF_FORMAT_ONELEVEL) goto invalid; } else ; /* anything goes, for now */ /* * RHS * - missing is allowed, but LHS then must be a * valid looking ref. * - empty is not allowed. * - otherwise it must be a valid looking ref. */ if (!rs[i].dst) { st = verify_refname(rs[i].src, is_glob); if (st && st != CHECK_REF_FORMAT_ONELEVEL) goto invalid; } else if (!*rs[i].dst) { goto invalid; } else { st = verify_refname(rs[i].dst, is_glob); if (st && st != CHECK_REF_FORMAT_ONELEVEL) goto invalid; } } } return rs; invalid: if (verify) { /* * nr_refspec must be greater than zero and i must be valid * since it is only possible to reach this point from within * the for loop above. */ free_refspecs(rs, i+1); return NULL; } die("Invalid refspec '%s'", refspec[i]); } int valid_fetch_refspec(const char *fetch_refspec_str) { const char *fetch_refspec[] = { fetch_refspec_str }; struct refspec *refspec; refspec = parse_refspec_internal(1, fetch_refspec, 1, 1); free_refspecs(refspec, 1); return !!refspec; } struct refspec *parse_fetch_refspec(int nr_refspec, const char **refspec) { return parse_refspec_internal(nr_refspec, refspec, 1, 0); } static struct refspec *parse_push_refspec(int nr_refspec, const char **refspec) { return parse_refspec_internal(nr_refspec, refspec, 0, 0); } static int valid_remote_nick(const char *name) { if (!name[0] || is_dot_or_dotdot(name)) return 0; return !strchr(name, '/'); /* no slash */ } struct remote *remote_get(const char *name) { struct remote *ret; int name_given = 0; read_config(); if (name) name_given = 1; else { name = default_remote_name; name_given = explicit_default_remote_name; } ret = make_remote(name, 0); if (valid_remote_nick(name)) { if (!ret->url) read_remotes_file(ret); if (!ret->url) read_branches_file(ret); } if (name_given && !ret->url) add_url_alias(ret, name); if (!ret->url) return NULL; ret->fetch = parse_fetch_refspec(ret->fetch_refspec_nr, ret->fetch_refspec); ret->push = parse_push_refspec(ret->push_refspec_nr, ret->push_refspec); return ret; } int remote_is_configured(const char *name) { int i; read_config(); for (i = 0; i < remotes_nr; i++) if (!strcmp(name, remotes[i]->name)) return 1; return 0; } int for_each_remote(each_remote_fn fn, void *priv) { int i, result = 0; read_config(); for (i = 0; i < remotes_nr && !result; i++) { struct remote *r = remotes[i]; if (!r) continue; if (!r->fetch) r->fetch = parse_fetch_refspec(r->fetch_refspec_nr, r->fetch_refspec); if (!r->push) r->push = parse_push_refspec(r->push_refspec_nr, r->push_refspec); result = fn(r, priv); } return result; } void ref_remove_duplicates(struct ref *ref_map) { struct ref **posn; struct ref *next; for (; ref_map; ref_map = ref_map->next) { if (!ref_map->peer_ref) continue; posn = &ref_map->next; while (*posn) { if ((*posn)->peer_ref && !strcmp((*posn)->peer_ref->name, ref_map->peer_ref->name)) { if (strcmp((*posn)->name, ref_map->name)) die("%s tracks both %s and %s", ref_map->peer_ref->name, (*posn)->name, ref_map->name); next = (*posn)->next; free((*posn)->peer_ref); free(*posn); *posn = next; } else { posn = &(*posn)->next; } } } } int remote_has_url(struct remote *remote, const char *url) { int i; for (i = 0; i < remote->url_nr; i++) { if (!strcmp(remote->url[i], url)) return 1; } return 0; } static int match_name_with_pattern(const char *key, const char *name, const char *value, char **result) { const char *kstar = strchr(key, '*'); size_t klen; size_t ksuffixlen; size_t namelen; int ret; if (!kstar) die("Key '%s' of pattern had no '*'", key); klen = kstar - key; ksuffixlen = strlen(kstar + 1); namelen = strlen(name); ret = !strncmp(name, key, klen) && namelen >= klen + ksuffixlen && !memcmp(name + namelen - ksuffixlen, kstar + 1, ksuffixlen); if (ret && value) { const char *vstar = strchr(value, '*'); size_t vlen; size_t vsuffixlen; if (!vstar) die("Value '%s' of pattern has no '*'", value); vlen = vstar - value; vsuffixlen = strlen(vstar + 1); *result = xmalloc(vlen + vsuffixlen + strlen(name) - klen - ksuffixlen + 1); strncpy(*result, value, vlen); strncpy(*result + vlen, name + klen, namelen - klen - ksuffixlen); strcpy(*result + vlen + namelen - klen - ksuffixlen, vstar + 1); } return ret; } int remote_find_tracking(struct remote *remote, struct refspec *refspec) { int find_src = refspec->src == NULL; char *needle, **result; int i; if (find_src) { if (!refspec->dst) return error("find_tracking: need either src or dst"); needle = refspec->dst; result = &refspec->src; } else { needle = refspec->src; result = &refspec->dst; } for (i = 0; i < remote->fetch_refspec_nr; i++) { struct refspec *fetch = &remote->fetch[i]; const char *key = find_src ? fetch->dst : fetch->src; const char *value = find_src ? fetch->src : fetch->dst; if (!fetch->dst) continue; if (fetch->pattern) { if (match_name_with_pattern(key, needle, value, result)) { refspec->force = fetch->force; return 0; } } else if (!strcmp(needle, key)) { *result = xstrdup(value); refspec->force = fetch->force; return 0; } } return -1; } static struct ref *alloc_ref_with_prefix(const char *prefix, size_t prefixlen, const char *name) { size_t len = strlen(name); struct ref *ref = xcalloc(1, sizeof(struct ref) + prefixlen + len + 1); memcpy(ref->name, prefix, prefixlen); memcpy(ref->name + prefixlen, name, len); return ref; } struct ref *alloc_ref(const char *name) { return alloc_ref_with_prefix("", 0, name); } static struct ref *copy_ref(const struct ref *ref) { struct ref *cpy; size_t len; if (!ref) return NULL; len = strlen(ref->name); cpy = xmalloc(sizeof(struct ref) + len + 1); memcpy(cpy, ref, sizeof(struct ref) + len + 1); cpy->next = NULL; cpy->symref = ref->symref ? xstrdup(ref->symref) : NULL; cpy->remote_status = ref->remote_status ? xstrdup(ref->remote_status) : NULL; cpy->peer_ref = copy_ref(ref->peer_ref); return cpy; } struct ref *copy_ref_list(const struct ref *ref) { struct ref *ret = NULL; struct ref **tail = &ret; while (ref) { *tail = copy_ref(ref); ref = ref->next; tail = &((*tail)->next); } return ret; } static void free_ref(struct ref *ref) { if (!ref) return; free_ref(ref->peer_ref); free(ref->remote_status); free(ref->symref); free(ref); } void free_refs(struct ref *ref) { struct ref *next; while (ref) { next = ref->next; free_ref(ref); ref = next; } } static int count_refspec_match(const char *pattern, struct ref *refs, struct ref **matched_ref) { int patlen = strlen(pattern); struct ref *matched_weak = NULL; struct ref *matched = NULL; int weak_match = 0; int match = 0; for (weak_match = match = 0; refs; refs = refs->next) { char *name = refs->name; int namelen = strlen(name); if (!refname_match(pattern, name, ref_rev_parse_rules)) continue; /* A match is "weak" if it is with refs outside * heads or tags, and did not specify the pattern * in full (e.g. "refs/remotes/origin/master") or at * least from the toplevel (e.g. "remotes/origin/master"); * otherwise "git push $URL master" would result in * ambiguity between remotes/origin/master and heads/master * at the remote site. */ if (namelen != patlen && patlen != namelen - 5 && prefixcmp(name, "refs/heads/") && prefixcmp(name, "refs/tags/")) { /* We want to catch the case where only weak * matches are found and there are multiple * matches, and where more than one strong * matches are found, as ambiguous. One * strong match with zero or more weak matches * are acceptable as a unique match. */ matched_weak = refs; weak_match++; } else { matched = refs; match++; } } if (!matched) { *matched_ref = matched_weak; return weak_match; } else { *matched_ref = matched; return match; } } static void tail_link_ref(struct ref *ref, struct ref ***tail) { **tail = ref; while (ref->next) ref = ref->next; *tail = &ref->next; } static struct ref *try_explicit_object_name(const char *name) { unsigned char sha1[20]; struct ref *ref; if (!*name) { ref = alloc_ref("(delete)"); hashclr(ref->new_sha1); return ref; } if (get_sha1(name, sha1)) return NULL; ref = alloc_ref(name); hashcpy(ref->new_sha1, sha1); return ref; } static struct ref *make_linked_ref(const char *name, struct ref ***tail) { struct ref *ret = alloc_ref(name); tail_link_ref(ret, tail); return ret; } static char *guess_ref(const char *name, struct ref *peer) { struct strbuf buf = STRBUF_INIT; unsigned char sha1[20]; const char *r = resolve_ref(peer->name, sha1, 1, NULL); if (!r) return NULL; if (!prefixcmp(r, "refs/heads/")) strbuf_addstr(&buf, "refs/heads/"); else if (!prefixcmp(r, "refs/tags/")) strbuf_addstr(&buf, "refs/tags/"); else return NULL; strbuf_addstr(&buf, name); return strbuf_detach(&buf, NULL); } static int match_explicit(struct ref *src, struct ref *dst, struct ref ***dst_tail, struct refspec *rs) { struct ref *matched_src, *matched_dst; int copy_src; const char *dst_value = rs->dst; char *dst_guess; if (rs->pattern || rs->matching) return 0; matched_src = matched_dst = NULL; switch (count_refspec_match(rs->src, src, &matched_src)) { case 1: copy_src = 1; break; case 0: /* The source could be in the get_sha1() format * not a reference name. :refs/other is a * way to delete 'other' ref at the remote end. */ matched_src = try_explicit_object_name(rs->src); if (!matched_src) return error("src refspec %s does not match any.", rs->src); copy_src = 0; break; default: return error("src refspec %s matches more than one.", rs->src); } if (!dst_value) { unsigned char sha1[20]; int flag; dst_value = resolve_ref(matched_src->name, sha1, 1, &flag); if (!dst_value || ((flag & REF_ISSYMREF) && prefixcmp(dst_value, "refs/heads/"))) die("%s cannot be resolved to branch.", matched_src->name); } switch (count_refspec_match(dst_value, dst, &matched_dst)) { case 1: break; case 0: if (!memcmp(dst_value, "refs/", 5)) matched_dst = make_linked_ref(dst_value, dst_tail); else if((dst_guess = guess_ref(dst_value, matched_src))) matched_dst = make_linked_ref(dst_guess, dst_tail); else error("unable to push to unqualified destination: %s\n" "The destination refspec neither matches an " "existing ref on the remote nor\n" "begins with refs/, and we are unable to " "guess a prefix based on the source ref.", dst_value); break; default: matched_dst = NULL; error("dst refspec %s matches more than one.", dst_value); break; } if (!matched_dst) return -1; if (matched_dst->peer_ref) return error("dst ref %s receives from more than one src.", matched_dst->name); else { matched_dst->peer_ref = copy_src ? copy_ref(matched_src) : matched_src; matched_dst->force = rs->force; } return 0; } static int match_explicit_refs(struct ref *src, struct ref *dst, struct ref ***dst_tail, struct refspec *rs, int rs_nr) { int i, errs; for (i = errs = 0; i < rs_nr; i++) errs += match_explicit(src, dst, dst_tail, &rs[i]); return errs; } static const struct refspec *check_pattern_match(const struct refspec *rs, int rs_nr, const struct ref *src) { int i; int matching_refs = -1; for (i = 0; i < rs_nr; i++) { if (rs[i].matching && (matching_refs == -1 || rs[i].force)) { matching_refs = i; continue; } if (rs[i].pattern && match_name_with_pattern(rs[i].src, src->name, NULL, NULL)) return rs + i; } if (matching_refs != -1) return rs + matching_refs; else return NULL; } /* * Note. This is used only by "push"; refspec matching rules for * push and fetch are subtly different, so do not try to reuse it * without thinking. */ int match_refs(struct ref *src, struct ref *dst, struct ref ***dst_tail, int nr_refspec, const char **refspec, int flags) { struct refspec *rs; int send_all = flags & MATCH_REFS_ALL; int send_mirror = flags & MATCH_REFS_MIRROR; int errs; static const char *default_refspec[] = { ":", 0 }; if (!nr_refspec) { nr_refspec = 1; refspec = default_refspec; } rs = parse_push_refspec(nr_refspec, (const char **) refspec); errs = match_explicit_refs(src, dst, dst_tail, rs, nr_refspec); /* pick the remainder */ for ( ; src; src = src->next) { struct ref *dst_peer; const struct refspec *pat = NULL; char *dst_name; if (src->peer_ref) continue; pat = check_pattern_match(rs, nr_refspec, src); if (!pat) continue; if (pat->matching) { /* * "matching refs"; traditionally we pushed everything * including refs outside refs/heads/ hierarchy, but * that does not make much sense these days. */ if (!send_mirror && prefixcmp(src->name, "refs/heads/")) continue; dst_name = xstrdup(src->name); } else { const char *dst_side = pat->dst ? pat->dst : pat->src; if (!match_name_with_pattern(pat->src, src->name, dst_side, &dst_name)) die("Didn't think it matches any more"); } dst_peer = find_ref_by_name(dst, dst_name); if (dst_peer) { if (dst_peer->peer_ref) /* We're already sending something to this ref. */ goto free_name; } else { if (pat->matching && !(send_all || send_mirror)) /* * Remote doesn't have it, and we have no * explicit pattern, and we don't have * --all nor --mirror. */ goto free_name; /* Create a new one and link it */ dst_peer = make_linked_ref(dst_name, dst_tail); hashcpy(dst_peer->new_sha1, src->new_sha1); } dst_peer->peer_ref = copy_ref(src); dst_peer->force = pat->force; free_name: free(dst_name); } if (errs) return -1; return 0; } struct branch *branch_get(const char *name) { struct branch *ret; read_config(); if (!name || !*name || !strcmp(name, "HEAD")) ret = current_branch; else ret = make_branch(name, 0); if (ret && ret->remote_name) { ret->remote = remote_get(ret->remote_name); if (ret->merge_nr) { int i; ret->merge = xcalloc(sizeof(*ret->merge), ret->merge_nr); for (i = 0; i < ret->merge_nr; i++) { ret->merge[i] = xcalloc(1, sizeof(**ret->merge)); ret->merge[i]->src = xstrdup(ret->merge_name[i]); if (remote_find_tracking(ret->remote, ret->merge[i]) && !strcmp(ret->remote_name, ".")) ret->merge[i]->dst = xstrdup(ret->merge_name[i]); } } } return ret; } int branch_has_merge_config(struct branch *branch) { return branch && !!branch->merge; } int branch_merge_matches(struct branch *branch, int i, const char *refname) { if (!branch || i < 0 || i >= branch->merge_nr) return 0; return refname_match(branch->merge[i]->src, refname, ref_fetch_rules); } static struct ref *get_expanded_map(const struct ref *remote_refs, const struct refspec *refspec) { const struct ref *ref; struct ref *ret = NULL; struct ref **tail = &ret; char *expn_name; for (ref = remote_refs; ref; ref = ref->next) { if (strchr(ref->name, '^')) continue; /* a dereference item */ if (match_name_with_pattern(refspec->src, ref->name, refspec->dst, &expn_name)) { struct ref *cpy = copy_ref(ref); cpy->peer_ref = alloc_ref(expn_name); free(expn_name); if (refspec->force) cpy->peer_ref->force = 1; *tail = cpy; tail = &cpy->next; } } return ret; } static const struct ref *find_ref_by_name_abbrev(const struct ref *refs, const char *name) { const struct ref *ref; for (ref = refs; ref; ref = ref->next) { if (refname_match(name, ref->name, ref_fetch_rules)) return ref; } return NULL; } struct ref *get_remote_ref(const struct ref *remote_refs, const char *name) { const struct ref *ref = find_ref_by_name_abbrev(remote_refs, name); if (!ref) return NULL; return copy_ref(ref); } static struct ref *get_local_ref(const char *name) { if (!name) return NULL; if (!prefixcmp(name, "refs/")) return alloc_ref(name); if (!prefixcmp(name, "heads/") || !prefixcmp(name, "tags/") || !prefixcmp(name, "remotes/")) return alloc_ref_with_prefix("refs/", 5, name); return alloc_ref_with_prefix("refs/heads/", 11, name); } int get_fetch_map(const struct ref *remote_refs, const struct refspec *refspec, struct ref ***tail, int missing_ok) { struct ref *ref_map, **rmp; if (refspec->pattern) { ref_map = get_expanded_map(remote_refs, refspec); } else { const char *name = refspec->src[0] ? refspec->src : "HEAD"; ref_map = get_remote_ref(remote_refs, name); if (!missing_ok && !ref_map) die("Couldn't find remote ref %s", name); if (ref_map) { ref_map->peer_ref = get_local_ref(refspec->dst); if (ref_map->peer_ref && refspec->force) ref_map->peer_ref->force = 1; } } for (rmp = &ref_map; *rmp; ) { if ((*rmp)->peer_ref) { int st = check_ref_format((*rmp)->peer_ref->name + 5); if (st && st != CHECK_REF_FORMAT_ONELEVEL) { struct ref *ignore = *rmp; error("* Ignoring funny ref '%s' locally", (*rmp)->peer_ref->name); *rmp = (*rmp)->next; free(ignore->peer_ref); free(ignore); continue; } } rmp = &((*rmp)->next); } if (ref_map) tail_link_ref(ref_map, tail); return 0; } int resolve_remote_symref(struct ref *ref, struct ref *list) { if (!ref->symref) return 0; for (; list; list = list->next) if (!strcmp(ref->symref, list->name)) { hashcpy(ref->old_sha1, list->old_sha1); return 0; } return 1; } static void unmark_and_free(struct commit_list *list, unsigned int mark) { while (list) { struct commit_list *temp = list; temp->item->object.flags &= ~mark; list = temp->next; free(temp); } } int ref_newer(const unsigned char *new_sha1, const unsigned char *old_sha1) { struct object *o; struct commit *old, *new; struct commit_list *list, *used; int found = 0; /* Both new and old must be commit-ish and new is descendant of * old. Otherwise we require --force. */ o = deref_tag(parse_object(old_sha1), NULL, 0); if (!o || o->type != OBJ_COMMIT) return 0; old = (struct commit *) o; o = deref_tag(parse_object(new_sha1), NULL, 0); if (!o || o->type != OBJ_COMMIT) return 0; new = (struct commit *) o; if (parse_commit(new) < 0) return 0; used = list = NULL; commit_list_insert(new, &list); while (list) { new = pop_most_recent_commit(&list, TMP_MARK); commit_list_insert(new, &used); if (new == old) { found = 1; break; } } unmark_and_free(list, TMP_MARK); unmark_and_free(used, TMP_MARK); return found; } /* * Return true if there is anything to report, otherwise false. */ int stat_tracking_info(struct branch *branch, int *num_ours, int *num_theirs) { unsigned char sha1[20]; struct commit *ours, *theirs; char symmetric[84]; struct rev_info revs; const char *rev_argv[10], *base; int rev_argc; /* * Nothing to report unless we are marked to build on top of * somebody else. */ if (!branch || !branch->merge || !branch->merge[0] || !branch->merge[0]->dst) return 0; /* * If what we used to build on no longer exists, there is * nothing to report. */ base = branch->merge[0]->dst; if (!resolve_ref(base, sha1, 1, NULL)) return 0; theirs = lookup_commit(sha1); if (!theirs) return 0; if (!resolve_ref(branch->refname, sha1, 1, NULL)) return 0; ours = lookup_commit(sha1); if (!ours) return 0; /* are we the same? */ if (theirs == ours) return 0; /* Run "rev-list --left-right ours...theirs" internally... */ rev_argc = 0; rev_argv[rev_argc++] = NULL; rev_argv[rev_argc++] = "--left-right"; rev_argv[rev_argc++] = symmetric; rev_argv[rev_argc++] = "--"; rev_argv[rev_argc] = NULL; strcpy(symmetric, sha1_to_hex(ours->object.sha1)); strcpy(symmetric + 40, "..."); strcpy(symmetric + 43, sha1_to_hex(theirs->object.sha1)); init_revisions(&revs, NULL); setup_revisions(rev_argc, rev_argv, &revs, NULL); prepare_revision_walk(&revs); /* ... and count the commits on each side. */ *num_ours = 0; *num_theirs = 0; while (1) { struct commit *c = get_revision(&revs); if (!c) break; if (c->object.flags & SYMMETRIC_LEFT) (*num_ours)++; else (*num_theirs)++; } /* clear object flags smudged by the above traversal */ clear_commit_marks(ours, ALL_REV_FLAGS); clear_commit_marks(theirs, ALL_REV_FLAGS); return 1; } /* * Return true when there is anything to report, otherwise false. */ int format_tracking_info(struct branch *branch, struct strbuf *sb) { int num_ours, num_theirs; const char *base; if (!stat_tracking_info(branch, &num_ours, &num_theirs)) return 0; base = branch->merge[0]->dst; base = shorten_unambiguous_ref(base, 0); if (!num_theirs) strbuf_addf(sb, "Your branch is ahead of '%s' " "by %d commit%s.\n", base, num_ours, (num_ours == 1) ? "" : "s"); else if (!num_ours) strbuf_addf(sb, "Your branch is behind '%s' " "by %d commit%s, " "and can be fast-forwarded.\n", base, num_theirs, (num_theirs == 1) ? "" : "s"); else strbuf_addf(sb, "Your branch and '%s' have diverged,\n" "and have %d and %d different commit(s) each, " "respectively.\n", base, num_ours, num_theirs); return 1; } static int one_local_ref(const char *refname, const unsigned char *sha1, int flag, void *cb_data) { struct ref ***local_tail = cb_data; struct ref *ref; int len; /* we already know it starts with refs/ to get here */ if (check_ref_format(refname + 5)) return 0; len = strlen(refname) + 1; ref = xcalloc(1, sizeof(*ref) + len); hashcpy(ref->new_sha1, sha1); memcpy(ref->name, refname, len); **local_tail = ref; *local_tail = &ref->next; return 0; } struct ref *get_local_heads(void) { struct ref *local_refs = NULL, **local_tail = &local_refs; for_each_ref(one_local_ref, &local_tail); return local_refs; } struct ref *guess_remote_head(const struct ref *head, const struct ref *refs, int all) { const struct ref *r; struct ref *list = NULL; struct ref **tail = &list; if (!head) return NULL; /* * Some transports support directly peeking at * where HEAD points; if that is the case, then * we don't have to guess. */ if (head->symref) return copy_ref(find_ref_by_name(refs, head->symref)); /* If refs/heads/master could be right, it is. */ if (!all) { r = find_ref_by_name(refs, "refs/heads/master"); if (r && !hashcmp(r->old_sha1, head->old_sha1)) return copy_ref(r); } /* Look for another ref that points there */ for (r = refs; r; r = r->next) { if (r != head && !hashcmp(r->old_sha1, head->old_sha1)) { *tail = copy_ref(r); tail = &((*tail)->next); if (!all) break; } } return list; }