#include "cache.h" #include "transport.h" #include "run-command.h" #include "pkt-line.h" #include "fetch-pack.h" #include "send-pack.h" #include "walker.h" #include "bundle.h" #include "dir.h" #include "refs.h" /* rsync support */ /* * We copy packed-refs and refs/ into a temporary file, then read the * loose refs recursively (sorting whenever possible), and then inserting * those packed refs that are not yet in the list (not validating, but * assuming that the file is sorted). * * Appears refactoring this from refs.c is too cumbersome. */ static int str_cmp(const void *a, const void *b) { const char *s1 = a; const char *s2 = b; return strcmp(s1, s2); } /* path->buf + name_offset is expected to point to "refs/" */ static int read_loose_refs(struct strbuf *path, int name_offset, struct ref **tail) { DIR *dir = opendir(path->buf); struct dirent *de; struct { char **entries; int nr, alloc; } list; int i, pathlen; if (!dir) return -1; memset (&list, 0, sizeof(list)); while ((de = readdir(dir))) { if (is_dot_or_dotdot(de->d_name)) continue; ALLOC_GROW(list.entries, list.nr + 1, list.alloc); list.entries[list.nr++] = xstrdup(de->d_name); } closedir(dir); /* sort the list */ qsort(list.entries, list.nr, sizeof(char *), str_cmp); pathlen = path->len; strbuf_addch(path, '/'); for (i = 0; i < list.nr; i++, strbuf_setlen(path, pathlen + 1)) { strbuf_addstr(path, list.entries[i]); if (read_loose_refs(path, name_offset, tail)) { int fd = open(path->buf, O_RDONLY); char buffer[40]; struct ref *next; if (fd < 0) continue; next = alloc_ref(path->buf + name_offset); if (read_in_full(fd, buffer, 40) != 40 || get_sha1_hex(buffer, next->old_sha1)) { close(fd); free(next); continue; } close(fd); (*tail)->next = next; *tail = next; } } strbuf_setlen(path, pathlen); for (i = 0; i < list.nr; i++) free(list.entries[i]); free(list.entries); return 0; } /* insert the packed refs for which no loose refs were found */ static void insert_packed_refs(const char *packed_refs, struct ref **list) { FILE *f = fopen(packed_refs, "r"); static char buffer[PATH_MAX]; if (!f) return; for (;;) { int cmp = cmp, len; if (!fgets(buffer, sizeof(buffer), f)) { fclose(f); return; } if (hexval(buffer[0]) > 0xf) continue; len = strlen(buffer); if (len && buffer[len - 1] == '\n') buffer[--len] = '\0'; if (len < 41) continue; while ((*list)->next && (cmp = strcmp(buffer + 41, (*list)->next->name)) > 0) list = &(*list)->next; if (!(*list)->next || cmp < 0) { struct ref *next = alloc_ref(buffer + 41); buffer[40] = '\0'; if (get_sha1_hex(buffer, next->old_sha1)) { warning ("invalid SHA-1: %s", buffer); free(next); continue; } next->next = (*list)->next; (*list)->next = next; list = &(*list)->next; } } } static const char *rsync_url(const char *url) { return prefixcmp(url, "rsync://") ? skip_prefix(url, "rsync:") : url; } static struct ref *get_refs_via_rsync(struct transport *transport, int for_push) { struct strbuf buf = STRBUF_INIT, temp_dir = STRBUF_INIT; struct ref dummy, *tail = &dummy; struct child_process rsync; const char *args[5]; int temp_dir_len; if (for_push) return NULL; /* copy the refs to the temporary directory */ strbuf_addstr(&temp_dir, git_path("rsync-refs-XXXXXX")); if (!mkdtemp(temp_dir.buf)) die_errno ("Could not make temporary directory"); temp_dir_len = temp_dir.len; strbuf_addstr(&buf, rsync_url(transport->url)); strbuf_addstr(&buf, "/refs"); memset(&rsync, 0, sizeof(rsync)); rsync.argv = args; rsync.stdout_to_stderr = 1; args[0] = "rsync"; args[1] = (transport->verbose > 0) ? "-rv" : "-r"; args[2] = buf.buf; args[3] = temp_dir.buf; args[4] = NULL; if (run_command(&rsync)) die ("Could not run rsync to get refs"); strbuf_reset(&buf); strbuf_addstr(&buf, rsync_url(transport->url)); strbuf_addstr(&buf, "/packed-refs"); args[2] = buf.buf; if (run_command(&rsync)) die ("Could not run rsync to get refs"); /* read the copied refs */ strbuf_addstr(&temp_dir, "/refs"); read_loose_refs(&temp_dir, temp_dir_len + 1, &tail); strbuf_setlen(&temp_dir, temp_dir_len); tail = &dummy; strbuf_addstr(&temp_dir, "/packed-refs"); insert_packed_refs(temp_dir.buf, &tail); strbuf_setlen(&temp_dir, temp_dir_len); if (remove_dir_recursively(&temp_dir, 0)) warning ("Error removing temporary directory %s.", temp_dir.buf); strbuf_release(&buf); strbuf_release(&temp_dir); return dummy.next; } static int fetch_objs_via_rsync(struct transport *transport, int nr_objs, struct ref **to_fetch) { struct strbuf buf = STRBUF_INIT; struct child_process rsync; const char *args[8]; int result; strbuf_addstr(&buf, rsync_url(transport->url)); strbuf_addstr(&buf, "/objects/"); memset(&rsync, 0, sizeof(rsync)); rsync.argv = args; rsync.stdout_to_stderr = 1; args[0] = "rsync"; args[1] = (transport->verbose > 0) ? "-rv" : "-r"; args[2] = "--ignore-existing"; args[3] = "--exclude"; args[4] = "info"; args[5] = buf.buf; args[6] = get_object_directory(); args[7] = NULL; /* NEEDSWORK: handle one level of alternates */ result = run_command(&rsync); strbuf_release(&buf); return result; } static int write_one_ref(const char *name, const unsigned char *sha1, int flags, void *data) { struct strbuf *buf = data; int len = buf->len; FILE *f; /* when called via for_each_ref(), flags is non-zero */ if (flags && prefixcmp(name, "refs/heads/") && prefixcmp(name, "refs/tags/")) return 0; strbuf_addstr(buf, name); if (safe_create_leading_directories(buf->buf) || !(f = fopen(buf->buf, "w")) || fprintf(f, "%s\n", sha1_to_hex(sha1)) < 0 || fclose(f)) return error("problems writing temporary file %s", buf->buf); strbuf_setlen(buf, len); return 0; } static int write_refs_to_temp_dir(struct strbuf *temp_dir, int refspec_nr, const char **refspec) { int i; for (i = 0; i < refspec_nr; i++) { unsigned char sha1[20]; char *ref; if (dwim_ref(refspec[i], strlen(refspec[i]), sha1, &ref) != 1) return error("Could not get ref %s", refspec[i]); if (write_one_ref(ref, sha1, 0, temp_dir)) { free(ref); return -1; } free(ref); } return 0; } static int rsync_transport_push(struct transport *transport, int refspec_nr, const char **refspec, int flags) { struct strbuf buf = STRBUF_INIT, temp_dir = STRBUF_INIT; int result = 0, i; struct child_process rsync; const char *args[10]; if (flags & TRANSPORT_PUSH_MIRROR) return error("rsync transport does not support mirror mode"); /* first push the objects */ strbuf_addstr(&buf, rsync_url(transport->url)); strbuf_addch(&buf, '/'); memset(&rsync, 0, sizeof(rsync)); rsync.argv = args; rsync.stdout_to_stderr = 1; i = 0; args[i++] = "rsync"; args[i++] = "-a"; if (flags & TRANSPORT_PUSH_DRY_RUN) args[i++] = "--dry-run"; if (transport->verbose > 0) args[i++] = "-v"; args[i++] = "--ignore-existing"; args[i++] = "--exclude"; args[i++] = "info"; args[i++] = get_object_directory(); args[i++] = buf.buf; args[i++] = NULL; if (run_command(&rsync)) return error("Could not push objects to %s", rsync_url(transport->url)); /* copy the refs to the temporary directory; they could be packed. */ strbuf_addstr(&temp_dir, git_path("rsync-refs-XXXXXX")); if (!mkdtemp(temp_dir.buf)) die_errno ("Could not make temporary directory"); strbuf_addch(&temp_dir, '/'); if (flags & TRANSPORT_PUSH_ALL) { if (for_each_ref(write_one_ref, &temp_dir)) return -1; } else if (write_refs_to_temp_dir(&temp_dir, refspec_nr, refspec)) return -1; i = 2; if (flags & TRANSPORT_PUSH_DRY_RUN) args[i++] = "--dry-run"; if (!(flags & TRANSPORT_PUSH_FORCE)) args[i++] = "--ignore-existing"; args[i++] = temp_dir.buf; args[i++] = rsync_url(transport->url); args[i++] = NULL; if (run_command(&rsync)) result = error("Could not push to %s", rsync_url(transport->url)); if (remove_dir_recursively(&temp_dir, 0)) warning ("Could not remove temporary directory %s.", temp_dir.buf); strbuf_release(&buf); strbuf_release(&temp_dir); return result; } #ifndef NO_CURL static int curl_transport_push(struct transport *transport, int refspec_nr, const char **refspec, int flags) { const char **argv; int argc; if (flags & TRANSPORT_PUSH_MIRROR) return error("http transport does not support mirror mode"); argv = xmalloc((refspec_nr + 12) * sizeof(char *)); argv[0] = "http-push"; argc = 1; if (flags & TRANSPORT_PUSH_ALL) argv[argc++] = "--all"; if (flags & TRANSPORT_PUSH_FORCE) argv[argc++] = "--force"; if (flags & TRANSPORT_PUSH_DRY_RUN) argv[argc++] = "--dry-run"; if (flags & TRANSPORT_PUSH_VERBOSE) argv[argc++] = "--verbose"; argv[argc++] = transport->url; while (refspec_nr--) argv[argc++] = *refspec++; argv[argc] = NULL; return !!run_command_v_opt(argv, RUN_GIT_CMD); } #endif struct bundle_transport_data { int fd; struct bundle_header header; }; static struct ref *get_refs_from_bundle(struct transport *transport, int for_push) { struct bundle_transport_data *data = transport->data; struct ref *result = NULL; int i; if (for_push) return NULL; if (data->fd > 0) close(data->fd); data->fd = read_bundle_header(transport->url, &data->header); if (data->fd < 0) die ("Could not read bundle '%s'.", transport->url); for (i = 0; i < data->header.references.nr; i++) { struct ref_list_entry *e = data->header.references.list + i; struct ref *ref = alloc_ref(e->name); hashcpy(ref->old_sha1, e->sha1); ref->next = result; result = ref; } return result; } static int fetch_refs_from_bundle(struct transport *transport, int nr_heads, struct ref **to_fetch) { struct bundle_transport_data *data = transport->data; return unbundle(&data->header, data->fd); } static int close_bundle(struct transport *transport) { struct bundle_transport_data *data = transport->data; if (data->fd > 0) close(data->fd); free(data); return 0; } struct git_transport_data { unsigned thin : 1; unsigned keep : 1; unsigned followtags : 1; int depth; struct child_process *conn; int fd[2]; const char *uploadpack; const char *receivepack; struct extra_have_objects extra_have; }; static int set_git_option(struct transport *connection, const char *name, const char *value) { struct git_transport_data *data = connection->data; if (!strcmp(name, TRANS_OPT_UPLOADPACK)) { data->uploadpack = value; return 0; } else if (!strcmp(name, TRANS_OPT_RECEIVEPACK)) { data->receivepack = value; return 0; } else if (!strcmp(name, TRANS_OPT_THIN)) { data->thin = !!value; return 0; } else if (!strcmp(name, TRANS_OPT_FOLLOWTAGS)) { data->followtags = !!value; return 0; } else if (!strcmp(name, TRANS_OPT_KEEP)) { data->keep = !!value; return 0; } else if (!strcmp(name, TRANS_OPT_DEPTH)) { if (!value) data->depth = 0; else data->depth = atoi(value); return 0; } return 1; } static int connect_setup(struct transport *transport, int for_push, int verbose) { struct git_transport_data *data = transport->data; data->conn = git_connect(data->fd, transport->url, for_push ? data->receivepack : data->uploadpack, verbose ? CONNECT_VERBOSE : 0); return 0; } static struct ref *get_refs_via_connect(struct transport *transport, int for_push) { struct git_transport_data *data = transport->data; struct ref *refs; connect_setup(transport, for_push, 0); get_remote_heads(data->fd[0], &refs, 0, NULL, for_push ? REF_NORMAL : 0, &data->extra_have); return refs; } static int fetch_refs_via_pack(struct transport *transport, int nr_heads, struct ref **to_fetch) { struct git_transport_data *data = transport->data; char **heads = xmalloc(nr_heads * sizeof(*heads)); char **origh = xmalloc(nr_heads * sizeof(*origh)); const struct ref *refs; char *dest = xstrdup(transport->url); struct fetch_pack_args args; int i; struct ref *refs_tmp = NULL; memset(&args, 0, sizeof(args)); args.uploadpack = data->uploadpack; args.keep_pack = data->keep; args.lock_pack = 1; args.use_thin_pack = data->thin; args.include_tag = data->followtags; args.verbose = (transport->verbose > 0); args.quiet = (transport->verbose < 0); args.no_progress = args.quiet || (!transport->progress && !isatty(1)); args.depth = data->depth; for (i = 0; i < nr_heads; i++) origh[i] = heads[i] = xstrdup(to_fetch[i]->name); if (!data->conn) { connect_setup(transport, 0, 0); get_remote_heads(data->fd[0], &refs_tmp, 0, NULL, 0, NULL); } refs = fetch_pack(&args, data->fd, data->conn, refs_tmp ? refs_tmp : transport->remote_refs, dest, nr_heads, heads, &transport->pack_lockfile); close(data->fd[0]); close(data->fd[1]); if (finish_connect(data->conn)) refs = NULL; data->conn = NULL; free_refs(refs_tmp); for (i = 0; i < nr_heads; i++) free(origh[i]); free(origh); free(heads); free(dest); return (refs ? 0 : -1); } static int push_had_errors(struct ref *ref) { for (; ref; ref = ref->next) { switch (ref->status) { case REF_STATUS_NONE: case REF_STATUS_UPTODATE: case REF_STATUS_OK: break; default: return 1; } } return 0; } static int refs_pushed(struct ref *ref) { for (; ref; ref = ref->next) { switch(ref->status) { case REF_STATUS_NONE: case REF_STATUS_UPTODATE: break; default: return 1; } } return 0; } static void update_tracking_ref(struct remote *remote, struct ref *ref, int verbose) { struct refspec rs; if (ref->status != REF_STATUS_OK && ref->status != REF_STATUS_UPTODATE) return; rs.src = ref->name; rs.dst = NULL; if (!remote_find_tracking(remote, &rs)) { if (verbose) fprintf(stderr, "updating local tracking ref '%s'\n", rs.dst); if (ref->deletion) { delete_ref(rs.dst, NULL, 0); } else update_ref("update by push", rs.dst, ref->new_sha1, NULL, 0, 0); free(rs.dst); } } #define SUMMARY_WIDTH (2 * DEFAULT_ABBREV + 3) static void print_ref_status(char flag, const char *summary, struct ref *to, struct ref *from, const char *msg, int porcelain) { if (porcelain) { if (from) fprintf(stdout, "%c\t%s:%s\t", flag, from->name, to->name); else fprintf(stdout, "%c\t:%s\t", flag, to->name); if (msg) fprintf(stdout, "%s (%s)\n", summary, msg); else fprintf(stdout, "%s\n", summary); } else { fprintf(stderr, " %c %-*s ", flag, SUMMARY_WIDTH, summary); if (from) fprintf(stderr, "%s -> %s", prettify_refname(from->name), prettify_refname(to->name)); else fputs(prettify_refname(to->name), stderr); if (msg) { fputs(" (", stderr); fputs(msg, stderr); fputc(')', stderr); } fputc('\n', stderr); } } static const char *status_abbrev(unsigned char sha1[20]) { return find_unique_abbrev(sha1, DEFAULT_ABBREV); } static void print_ok_ref_status(struct ref *ref, int porcelain) { if (ref->deletion) print_ref_status('-', "[deleted]", ref, NULL, NULL, porcelain); else if (is_null_sha1(ref->old_sha1)) print_ref_status('*', (!prefixcmp(ref->name, "refs/tags/") ? "[new tag]" : "[new branch]"), ref, ref->peer_ref, NULL, porcelain); else { char quickref[84]; char type; const char *msg; strcpy(quickref, status_abbrev(ref->old_sha1)); if (ref->nonfastforward) { strcat(quickref, "..."); type = '+'; msg = "forced update"; } else { strcat(quickref, ".."); type = ' '; msg = NULL; } strcat(quickref, status_abbrev(ref->new_sha1)); print_ref_status(type, quickref, ref, ref->peer_ref, msg, porcelain); } } static int print_one_push_status(struct ref *ref, const char *dest, int count, int porcelain) { if (!count) fprintf(stderr, "To %s\n", dest); switch(ref->status) { case REF_STATUS_NONE: print_ref_status('X', "[no match]", ref, NULL, NULL, porcelain); break; case REF_STATUS_REJECT_NODELETE: print_ref_status('!', "[rejected]", ref, NULL, "remote does not support deleting refs", porcelain); break; case REF_STATUS_UPTODATE: print_ref_status('=', "[up to date]", ref, ref->peer_ref, NULL, porcelain); break; case REF_STATUS_REJECT_NONFASTFORWARD: print_ref_status('!', "[rejected]", ref, ref->peer_ref, "non-fast forward", porcelain); break; case REF_STATUS_REMOTE_REJECT: print_ref_status('!', "[remote rejected]", ref, ref->deletion ? NULL : ref->peer_ref, ref->remote_status, porcelain); break; case REF_STATUS_EXPECTING_REPORT: print_ref_status('!', "[remote failure]", ref, ref->deletion ? NULL : ref->peer_ref, "remote failed to report status", porcelain); break; case REF_STATUS_OK: print_ok_ref_status(ref, porcelain); break; } return 1; } static void print_push_status(const char *dest, struct ref *refs, int verbose, int porcelain, int * nonfastforward) { struct ref *ref; int n = 0; if (verbose) { for (ref = refs; ref; ref = ref->next) if (ref->status == REF_STATUS_UPTODATE) n += print_one_push_status(ref, dest, n, porcelain); } for (ref = refs; ref; ref = ref->next) if (ref->status == REF_STATUS_OK) n += print_one_push_status(ref, dest, n, porcelain); *nonfastforward = 0; for (ref = refs; ref; ref = ref->next) { if (ref->status != REF_STATUS_NONE && ref->status != REF_STATUS_UPTODATE && ref->status != REF_STATUS_OK) n += print_one_push_status(ref, dest, n, porcelain); if (ref->status == REF_STATUS_REJECT_NONFASTFORWARD) *nonfastforward = 1; } } static void verify_remote_names(int nr_heads, const char **heads) { int i; for (i = 0; i < nr_heads; i++) { const char *local = heads[i]; const char *remote = strrchr(heads[i], ':'); if (*local == '+') local++; /* A matching refspec is okay. */ if (remote == local && remote[1] == '\0') continue; remote = remote ? (remote + 1) : local; switch (check_ref_format(remote)) { case 0: /* ok */ case CHECK_REF_FORMAT_ONELEVEL: /* ok but a single level -- that is fine for * a match pattern. */ case CHECK_REF_FORMAT_WILDCARD: /* ok but ends with a pattern-match character */ continue; } die("remote part of refspec is not a valid name in %s", heads[i]); } } static int git_transport_push(struct transport *transport, struct ref *remote_refs, int flags) { struct git_transport_data *data = transport->data; struct send_pack_args args; int ret; if (!data->conn) { struct ref *tmp_refs; connect_setup(transport, 1, 0); get_remote_heads(data->fd[0], &tmp_refs, 0, NULL, REF_NORMAL, NULL); } args.send_mirror = !!(flags & TRANSPORT_PUSH_MIRROR); args.force_update = !!(flags & TRANSPORT_PUSH_FORCE); args.use_thin_pack = data->thin; args.verbose = !!(flags & TRANSPORT_PUSH_VERBOSE); args.quiet = !!(flags & TRANSPORT_PUSH_QUIET); args.dry_run = !!(flags & TRANSPORT_PUSH_DRY_RUN); ret = send_pack(&args, data->fd, data->conn, remote_refs, &data->extra_have); close(data->fd[1]); close(data->fd[0]); ret |= finish_connect(data->conn); data->conn = NULL; return ret; } static int disconnect_git(struct transport *transport) { struct git_transport_data *data = transport->data; if (data->conn) { packet_flush(data->fd[1]); close(data->fd[0]); close(data->fd[1]); finish_connect(data->conn); } free(data); return 0; } static int is_local(const char *url) { const char *colon = strchr(url, ':'); const char *slash = strchr(url, '/'); return !colon || (slash && slash < colon) || has_dos_drive_prefix(url); } static int is_file(const char *url) { struct stat buf; if (stat(url, &buf)) return 0; return S_ISREG(buf.st_mode); } struct transport *transport_get(struct remote *remote, const char *url) { struct transport *ret = xcalloc(1, sizeof(*ret)); ret->remote = remote; if (!url && remote && remote->url) url = remote->url[0]; ret->url = url; if (remote && remote->foreign_vcs) { transport_helper_init(ret, remote->foreign_vcs); return ret; } if (!prefixcmp(url, "rsync:")) { ret->get_refs_list = get_refs_via_rsync; ret->fetch = fetch_objs_via_rsync; ret->push = rsync_transport_push; } else if (!prefixcmp(url, "http://") || !prefixcmp(url, "https://") || !prefixcmp(url, "ftp://")) { transport_helper_init(ret, "curl"); #ifdef NO_CURL error("git was compiled without libcurl support."); #else ret->push = curl_transport_push; #endif } else if (is_local(url) && is_file(url)) { struct bundle_transport_data *data = xcalloc(1, sizeof(*data)); ret->data = data; ret->get_refs_list = get_refs_from_bundle; ret->fetch = fetch_refs_from_bundle; ret->disconnect = close_bundle; } else { struct git_transport_data *data = xcalloc(1, sizeof(*data)); ret->data = data; ret->set_option = set_git_option; ret->get_refs_list = get_refs_via_connect; ret->fetch = fetch_refs_via_pack; ret->push_refs = git_transport_push; ret->disconnect = disconnect_git; data->thin = 1; data->conn = NULL; data->uploadpack = "git-upload-pack"; if (remote && remote->uploadpack) data->uploadpack = remote->uploadpack; data->receivepack = "git-receive-pack"; if (remote && remote->receivepack) data->receivepack = remote->receivepack; } return ret; } int transport_set_option(struct transport *transport, const char *name, const char *value) { if (transport->set_option) return transport->set_option(transport, name, value); return 1; } int transport_push(struct transport *transport, int refspec_nr, const char **refspec, int flags, int *nonfastforward) { *nonfastforward = 0; verify_remote_names(refspec_nr, refspec); if (transport->push) return transport->push(transport, refspec_nr, refspec, flags); if (transport->push_refs) { struct ref *remote_refs = transport->get_refs_list(transport, 1); struct ref *local_refs = get_local_heads(); int match_flags = MATCH_REFS_NONE; int verbose = flags & TRANSPORT_PUSH_VERBOSE; int quiet = flags & TRANSPORT_PUSH_QUIET; int porcelain = flags & TRANSPORT_PUSH_PORCELAIN; int ret; if (flags & TRANSPORT_PUSH_ALL) match_flags |= MATCH_REFS_ALL; if (flags & TRANSPORT_PUSH_MIRROR) match_flags |= MATCH_REFS_MIRROR; if (match_refs(local_refs, &remote_refs, refspec_nr, refspec, match_flags)) { return -1; } ret = transport->push_refs(transport, remote_refs, flags); if (!quiet || push_had_errors(remote_refs)) print_push_status(transport->url, remote_refs, verbose | porcelain, porcelain, nonfastforward); if (!(flags & TRANSPORT_PUSH_DRY_RUN)) { struct ref *ref; for (ref = remote_refs; ref; ref = ref->next) update_tracking_ref(transport->remote, ref, verbose); } if (!quiet && !ret && !refs_pushed(remote_refs)) fprintf(stderr, "Everything up-to-date\n"); return ret; } return 1; } const struct ref *transport_get_remote_refs(struct transport *transport) { if (!transport->remote_refs) transport->remote_refs = transport->get_refs_list(transport, 0); return transport->remote_refs; } int transport_fetch_refs(struct transport *transport, struct ref *refs) { int rc; int nr_heads = 0, nr_alloc = 0, nr_refs = 0; struct ref **heads = NULL; struct ref *rm; for (rm = refs; rm; rm = rm->next) { nr_refs++; if (rm->peer_ref && !is_null_sha1(rm->old_sha1) && !hashcmp(rm->peer_ref->old_sha1, rm->old_sha1)) continue; ALLOC_GROW(heads, nr_heads + 1, nr_alloc); heads[nr_heads++] = rm; } if (!nr_heads) { /* * When deepening of a shallow repository is requested, * then local and remote refs are likely to still be equal. * Just feed them all to the fetch method in that case. * This condition shouldn't be met in a non-deepening fetch * (see builtin-fetch.c:quickfetch()). */ heads = xmalloc(nr_refs * sizeof(*heads)); for (rm = refs; rm; rm = rm->next) heads[nr_heads++] = rm; } rc = transport->fetch(transport, nr_heads, heads); free(heads); return rc; } void transport_unlock_pack(struct transport *transport) { if (transport->pack_lockfile) { unlink_or_warn(transport->pack_lockfile); free(transport->pack_lockfile); transport->pack_lockfile = NULL; } } int transport_disconnect(struct transport *transport) { int ret = 0; if (transport->disconnect) ret = transport->disconnect(transport); free(transport); return ret; } /* * Strip username (and password) from an url and return * it in a newly allocated string. */ char *transport_anonymize_url(const char *url) { char *anon_url, *scheme_prefix, *anon_part; size_t anon_len, prefix_len = 0; anon_part = strchr(url, '@'); if (is_local(url) || !anon_part) goto literal_copy; anon_len = strlen(++anon_part); scheme_prefix = strstr(url, "://"); if (!scheme_prefix) { if (!strchr(anon_part, ':')) /* cannot be "me@there:/path/name" */ goto literal_copy; } else { const char *cp; /* make sure scheme is reasonable */ for (cp = url; cp < scheme_prefix; cp++) { switch (*cp) { /* RFC 1738 2.1 */ case '+': case '.': case '-': break; /* ok */ default: if (isalnum(*cp)) break; /* it isn't */ goto literal_copy; } } /* @ past the first slash does not count */ cp = strchr(scheme_prefix + 3, '/'); if (cp && cp < anon_part) goto literal_copy; prefix_len = scheme_prefix - url + 3; } anon_url = xcalloc(1, 1 + prefix_len + anon_len); memcpy(anon_url, url, prefix_len); memcpy(anon_url + prefix_len, anon_part, anon_len); return anon_url; literal_copy: return xstrdup(url); }