/* -*- c-file-style: "linux" -*- rsync -- fast file replication program Copyright (C) 1996-2000 by Andrew Tridgell Copyright (C) Paul Mackerras 1996 Copyright (C) 2002 by Martin Pool This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include "rsync.h" extern int verbose; extern int dry_run; extern int log_format_has_i; extern int log_format_has_o_or_i; extern int daemon_log_format_has_i; extern int am_root; extern int am_server; extern int am_daemon; extern int recurse; extern int relative_paths; extern int keep_dirlinks; extern int preserve_links; extern int preserve_devices; extern int preserve_hard_links; extern int preserve_perms; extern int preserve_uid; extern int preserve_gid; extern int preserve_times; extern int omit_dir_times; extern int delete_before; extern int delete_during; extern int delete_after; extern int module_id; extern int ignore_errors; extern int remove_sent_files; extern int update_only; extern int opt_ignore_existing; extern int inplace; extern int make_backups; extern int csum_length; extern int ignore_times; extern int size_only; extern OFF_T max_size; extern int io_timeout; extern int io_error; extern int sock_f_out; extern int ignore_timeout; extern int protocol_version; extern int fuzzy_basis; extern int always_checksum; extern char *partial_dir; extern char *basis_dir[]; extern int compare_dest; extern int link_dest; extern int whole_file; extern int local_server; extern int list_only; extern int read_batch; extern int only_existing; extern int orig_umask; extern int safe_symlinks; extern long block_size; /* "long" because popt can't set an int32. */ extern int max_delete; extern int force_delete; extern int one_file_system; extern struct stats stats; extern dev_t filesystem_dev; extern char *backup_dir; extern char *backup_suffix; extern int backup_suffix_len; extern struct file_list *the_file_list; extern struct filter_list_struct server_filter_list; int allowed_lull = 0; static int deletion_count = 0; /* used to implement --max-delete */ static int is_backup_file(char *fn) { int k = strlen(fn) - backup_suffix_len; return k > 0 && strcmp(fn+k, backup_suffix) == 0; } /* Delete a file or directory. If DEL_FORCE_RECURSE is set in the flags, or if * force_delete is set, this will delete recursively as long as DEL_NO_RECURSE * is not set in the flags. */ static int delete_item(char *fname, int mode, int flags) { struct file_list *dirlist; char buf[MAXPATHLEN]; int j, dlen, zap_dir, ok; void *save_filters; if (max_delete && deletion_count >= max_delete) return -1; if (!S_ISDIR(mode)) { if (make_backups && (backup_dir || !is_backup_file(fname))) ok = make_backup(fname); else ok = robust_unlink(fname) == 0; if (ok) { if (!(flags & DEL_TERSE)) log_delete(fname, mode); deletion_count++; return 0; } if (errno == ENOENT) return 0; rsyserr(FERROR, errno, "delete_file: unlink %s failed", full_fname(fname)); return -1; } zap_dir = (flags & DEL_FORCE_RECURSE || (force_delete && recurse)) && !(flags & DEL_NO_RECURSE); if (dry_run && zap_dir) { ok = 0; errno = ENOTEMPTY; } else if (make_backups && !backup_dir && !is_backup_file(fname) && !(flags & DEL_FORCE_RECURSE)) ok = make_backup(fname); else ok = do_rmdir(fname) == 0; if (ok) { if (!(flags & DEL_TERSE)) log_delete(fname, mode); deletion_count++; return 0; } if (errno == ENOENT) return 0; if (!zap_dir || (errno != ENOTEMPTY && errno != EEXIST)) { rsyserr(FERROR, errno, "delete_file: rmdir %s failed", full_fname(fname)); return -1; } flags |= DEL_FORCE_RECURSE; /* mark subdir dels as not "in the way" */ dlen = strlcpy(buf, fname, MAXPATHLEN); save_filters = push_local_filters(buf, dlen); dirlist = get_dirlist(buf, dlen, 0); for (j = dirlist->count; j--; ) { struct file_struct *fp = dirlist->files[j]; if (fp->flags & FLAG_MOUNT_POINT) continue; f_name_to(fp, buf); if (delete_item(buf, fp->mode, flags & ~DEL_TERSE) != 0) { flist_free(dirlist); return -1; } } flist_free(dirlist); pop_local_filters(save_filters); if (max_delete && deletion_count >= max_delete) return -1; if (do_rmdir(fname) == 0) { if (!(flags & DEL_TERSE)) log_delete(fname, mode); deletion_count++; } else if (errno != ENOTEMPTY && errno != ENOENT) { rsyserr(FERROR, errno, "delete_file: rmdir %s failed", full_fname(fname)); return -1; } return 0; } /* This function is used to implement per-directory deletion, and is used by * all the --delete-WHEN options. Note that the fbuf pointer must point to a * MAXPATHLEN buffer with the name of the directory in it (the functions we * call will append names onto the end, but the old dir value will be restored * on exit). */ static void delete_in_dir(struct file_list *flist, char *fbuf, struct file_struct *file) { static int min_depth = MAXPATHLEN, cur_depth = -1; static void *filt_array[MAXPATHLEN/2+1]; struct file_list *dirlist; char delbuf[MAXPATHLEN]; STRUCT_STAT st; int dlen, i; if (!flist) { while (cur_depth >= min_depth) pop_local_filters(filt_array[cur_depth--]); min_depth = MAXPATHLEN; cur_depth = -1; return; } if (verbose > 2) rprintf(FINFO, "delete_in_dir(%s)\n", safe_fname(fbuf)); if (allowed_lull) maybe_send_keepalive(); if (file->dir.depth >= MAXPATHLEN/2+1) return; /* Impossible... */ if (max_delete && deletion_count >= max_delete) return; if (io_error && !(lp_ignore_errors(module_id) || ignore_errors)) { rprintf(FINFO, "IO error encountered -- skipping file deletion\n"); max_delete = -1; /* avoid duplicating the above warning */ return; } while (cur_depth >= file->dir.depth && cur_depth >= min_depth) pop_local_filters(filt_array[cur_depth--]); cur_depth = file->dir.depth; if (min_depth > cur_depth) min_depth = cur_depth; dlen = strlen(fbuf); filt_array[cur_depth] = push_local_filters(fbuf, dlen); if (link_stat(fbuf, &st, keep_dirlinks) < 0) return; if (one_file_system && file->flags & FLAG_TOP_DIR) filesystem_dev = st.st_dev; dirlist = get_dirlist(fbuf, dlen, 0); /* If an item in dirlist is not found in flist, delete it * from the filesystem. */ for (i = dirlist->count; i--; ) { if (!dirlist->files[i]->basename) continue; if (flist_find(flist, dirlist->files[i]) < 0) { int mode = dirlist->files[i]->mode; f_name_to(dirlist->files[i], delbuf); if (delete_item(delbuf, mode, DEL_FORCE_RECURSE) < 0) break; } } flist_free(dirlist); } /* This deletes any files on the receiving side that are not present on the * sending side. This is used by --delete-before and --delete-after. */ static void do_delete_pass(struct file_list *flist) { char fbuf[MAXPATHLEN]; int j; for (j = 0; j < flist->count; j++) { struct file_struct *file = flist->files[j]; if (!(file->flags & FLAG_DEL_HERE)) continue; f_name_to(file, fbuf); if (verbose > 1 && file->flags & FLAG_TOP_DIR) rprintf(FINFO, "deleting in %s\n", safe_fname(fbuf)); delete_in_dir(flist, fbuf, file); } } static int unchanged_attrs(struct file_struct *file, STRUCT_STAT *st) { if (preserve_perms && (st->st_mode & CHMOD_BITS) != (file->mode & CHMOD_BITS)) return 0; if (am_root && preserve_uid && st->st_uid != file->uid) return 0; if (preserve_gid && file->gid != GID_NONE && st->st_gid != file->gid) return 0; return 1; } void itemize(struct file_struct *file, int ndx, int statret, STRUCT_STAT *st, int32 iflags, char *hlink) { if (statret == 0) { if (S_ISREG(file->mode) && file->length != st->st_size) iflags |= ITEM_REPORT_SIZE; if (!(iflags & ITEM_NO_DEST_AND_NO_UPDATE)) { int keep_time = !preserve_times ? 0 : S_ISDIR(file->mode) ? !omit_dir_times : !S_ISLNK(file->mode); if ((iflags & (ITEM_TRANSFER|ITEM_LOCAL_CHANGE) && !keep_time) || (keep_time && file->modtime != st->st_mtime)) iflags |= ITEM_REPORT_TIME; if (preserve_perms && file->mode != st->st_mode) iflags |= ITEM_REPORT_PERMS; if (preserve_uid && am_root && file->uid != st->st_uid) iflags |= ITEM_REPORT_OWNER; if (preserve_gid && file->gid != GID_NONE && st->st_gid != file->gid) iflags |= ITEM_REPORT_GROUP; } } else { iflags |= ITEM_IS_NEW; if (!(iflags & (ITEM_HARD_LINKED|ITEM_LOCAL_CHANGE))) iflags |= ITEM_TRANSFER; } iflags &= 0xffff; if ((iflags & SIGNIFICANT_ITEM_FLAGS || verbose > 1 || (hlink && *hlink)) && !read_batch) { if (protocol_version >= 29) { if (ndx >= 0) write_int(sock_f_out, ndx); /* XXX Temorary compatibility hack */ if (iflags & (ITEM_TRANSFER|ITEM_LOCAL_CHANGE)) iflags |= ITEM_REPORT_XATTRS; /* ITEM_UPDATE */ write_shortint(sock_f_out, iflags); if (hlink) write_vstring(sock_f_out, hlink, strlen(hlink)); } else if (ndx >= 0) log_item(file, &stats, iflags, hlink); } } /* Perform our quick-check heuristic for determining if a file is unchanged. */ static int unchanged_file(char *fn, struct file_struct *file, STRUCT_STAT *st) { if (st->st_size != file->length) return 0; /* if always checksum is set then we use the checksum instead of the file time to determine whether to sync */ if (always_checksum && S_ISREG(st->st_mode)) { char sum[MD4_SUM_LENGTH]; file_checksum(fn, sum, st->st_size); return memcmp(sum, file->u.sum, protocol_version < 21 ? 2 : MD4_SUM_LENGTH) == 0; } if (size_only) return 1; if (ignore_times) return 0; return cmp_modtime(st->st_mtime, file->modtime) == 0; } /* * set (initialize) the size entries in the per-file sum_struct * calculating dynamic block and checksum sizes. * * This is only called from generate_and_send_sums() but is a separate * function to encapsulate the logic. * * The block size is a rounded square root of file length. * * The checksum size is determined according to: * blocksum_bits = BLOCKSUM_BIAS + 2*log2(file_len) - log2(block_len) * provided by Donovan Baarda which gives a probability of rsync * algorithm corrupting data and falling back using the whole md4 * checksums. * * This might be made one of several selectable heuristics. */ static void sum_sizes_sqroot(struct sum_struct *sum, int64 len) { int32 blength; int s2length; if (block_size) blength = block_size; else if (len <= BLOCK_SIZE * BLOCK_SIZE) blength = BLOCK_SIZE; else { int32 c; int64 l; int cnt; for (c = 1, l = len, cnt = 0; l >>= 2; c <<= 1, cnt++) {} if (cnt >= 31 || c >= MAX_BLOCK_SIZE) blength = MAX_BLOCK_SIZE; else { blength = 0; do { blength |= c; if (len < (int64)blength * blength) blength &= ~c; c >>= 1; } while (c >= 8); /* round to multiple of 8 */ blength = MAX(blength, BLOCK_SIZE); } } if (protocol_version < 27) { s2length = csum_length; } else if (csum_length == SUM_LENGTH) { s2length = SUM_LENGTH; } else { int32 c; int64 l; int b = BLOCKSUM_BIAS; for (l = len; l >>= 1; b += 2) {} for (c = blength; c >>= 1 && b; b--) {} /* add a bit, subtract rollsum, round up. */ s2length = (b + 1 - 32 + 7) / 8; /* --optimize in compiler-- */ s2length = MAX(s2length, csum_length); s2length = MIN(s2length, SUM_LENGTH); } sum->flength = len; sum->blength = blength; sum->s2length = s2length; sum->count = (len + (blength - 1)) / blength; sum->remainder = (len % blength); if (sum->count && verbose > 2) { rprintf(FINFO, "count=%.0f rem=%ld blength=%ld s2length=%d flength=%.0f\n", (double)sum->count, (long)sum->remainder, (long)sum->blength, sum->s2length, (double)sum->flength); } } /* * Generate and send a stream of signatures/checksums that describe a buffer * * Generate approximately one checksum every block_len bytes. */ static void generate_and_send_sums(int fd, OFF_T len, int f_out, int f_copy) { int32 i; struct map_struct *mapbuf; struct sum_struct sum; OFF_T offset = 0; sum_sizes_sqroot(&sum, len); if (len > 0) mapbuf = map_file(fd, len, MAX_MAP_SIZE, sum.blength); else mapbuf = NULL; write_sum_head(f_out, &sum); for (i = 0; i < sum.count; i++) { int32 n1 = (int32)MIN(len, (OFF_T)sum.blength); char *map = map_ptr(mapbuf, offset, n1); uint32 sum1 = get_checksum1(map, n1); char sum2[SUM_LENGTH]; if (f_copy >= 0) full_write(f_copy, map, n1); get_checksum2(map, n1, sum2); if (verbose > 3) { rprintf(FINFO, "chunk[%.0f] offset=%.0f len=%ld sum1=%08lx\n", (double)i, (double)offset, (long)n1, (unsigned long)sum1); } write_int(f_out, sum1); write_buf(f_out, sum2, sum.s2length); len -= n1; offset += n1; } if (mapbuf) unmap_file(mapbuf); } /* Try to find a filename in the same dir as "fname" with a similar name. */ static int find_fuzzy(struct file_struct *file, struct file_list *dirlist) { int fname_len, fname_suf_len; const char *fname_suf, *fname = file->basename; uint32 lowest_dist = 0x7FFFFFFF; int j, lowest_j = -1; fname_len = strlen(fname); fname_suf = find_filename_suffix(fname, fname_len, &fname_suf_len); for (j = 0; j < dirlist->count; j++) { struct file_struct *fp = dirlist->files[j]; const char *suf, *name; int len, suf_len; uint32 dist; if (!S_ISREG(fp->mode) || !fp->length || fp->flags & FLAG_NO_FUZZY) continue; name = fp->basename; if (fp->length == file->length && fp->modtime == file->modtime) { if (verbose > 4) { rprintf(FINFO, "fuzzy size/modtime match for %s\n", name); } return j; } len = strlen(name); suf = find_filename_suffix(name, len, &suf_len); dist = fuzzy_distance(name, len, fname, fname_len); /* Add some extra weight to how well the suffixes match. */ dist += fuzzy_distance(suf, suf_len, fname_suf, fname_suf_len) * 10; if (verbose > 4) { rprintf(FINFO, "fuzzy distance for %s = %d.%05d\n", name, (int)(dist>>16), (int)(dist&0xFFFF)); } if (dist <= lowest_dist) { lowest_dist = dist; lowest_j = j; } } return lowest_j; } void check_for_finished_hlinks(int itemizing, enum logcode code) { struct file_struct *file; int ndx; while ((ndx = get_hlink_num()) != -1) { if (ndx < 0 || ndx >= the_file_list->count) continue; file = the_file_list->files[ndx]; if (!file->link_u.links) continue; hard_link_cluster(file, ndx, itemizing, code); } } static int phase = 0; /* Acts on the_file_list->file's ndx'th item, whose name is fname. If a dir, * make sure it exists, and has the right permissions/timestamp info. For * all other non-regular files (symlinks, etc.) we create them here. For * regular files that have changed, we try to find a basis file and then * start sending checksums. * * Note that f_out is set to -1 when doing final directory-permission and * modification-time repair. */ static void recv_generator(char *fname, struct file_struct *file, int ndx, int itemizing, int maybe_PERMS_REPORT, enum logcode code, int f_out, int f_out_name) { static int missing_below = -1, excluded_below = -1; static char *fuzzy_dirname = NULL; static struct file_list *fuzzy_dirlist = NULL; struct file_struct *fuzzy_file = NULL; int fd = -1, f_copy = -1; STRUCT_STAT st, partial_st; struct file_struct *back_file = NULL; int statret, stat_errno; char *fnamecmp, *partialptr, *backupptr = NULL; char fnamecmpbuf[MAXPATHLEN]; uchar fnamecmp_type; if (list_only) return; if (!fname) { if (fuzzy_dirlist) { flist_free(fuzzy_dirlist); fuzzy_dirlist = NULL; fuzzy_dirname = NULL; } if (missing_below >= 0) { dry_run--; missing_below = -1; } return; } if (verbose > 2) { rprintf(FINFO, "recv_generator(%s,%d)\n", safe_fname(fname), ndx); } if (server_filter_list.head) { if (excluded_below >= 0) { if (file->dir.depth > excluded_below) goto skipping; excluded_below = -1; } if (check_filter(&server_filter_list, fname, S_ISDIR(file->mode)) < 0) { if (S_ISDIR(file->mode)) excluded_below = file->dir.depth; skipping: if (verbose) { rprintf(FINFO, "skipping server-excluded file \"%s\"\n", safe_fname(fname)); } return; } } if (missing_below >= 0 && file->dir.depth <= missing_below) { dry_run--; missing_below = -1; } if (dry_run > 1) { statret = -1; stat_errno = ENOENT; } else { if (fuzzy_basis && S_ISREG(file->mode)) { char *dn = file->dirname ? file->dirname : "."; /* Yes, identical dirnames are guaranteed to have * identical pointers at this point. */ if (fuzzy_dirname != dn) { if (fuzzy_dirlist) flist_free(fuzzy_dirlist); fuzzy_dirname = dn; fuzzy_dirlist = get_dirlist(fuzzy_dirname, -1, 1); } } statret = link_stat(fname, &st, keep_dirlinks && S_ISDIR(file->mode)); stat_errno = errno; } if (only_existing && statret == -1 && stat_errno == ENOENT) { /* we only want to update existing files */ if (verbose > 1) { rprintf(FINFO, "not creating new file \"%s\"\n", safe_fname(fname)); } return; } if (statret == 0 && !preserve_perms && S_ISDIR(st.st_mode) == S_ISDIR(file->mode)) { /* if the file exists already and we aren't perserving * permissions then act as though the remote end sent * us the file permissions we already have */ file->mode = (file->mode & ~CHMOD_BITS) | (st.st_mode & CHMOD_BITS); } if (S_ISDIR(file->mode)) { /* The file to be received is a directory, so we need * to prepare appropriately. If there is already a * file of that name and it is *not* a directory, then * we need to delete it. If it doesn't exist, then * (perhaps recursively) create it. */ if (statret == 0 && !S_ISDIR(st.st_mode)) { delete_item(fname, st.st_mode, DEL_TERSE); statret = -1; } if (dry_run && statret != 0 && missing_below < 0) { missing_below = file->dir.depth; dry_run++; } if (itemizing && f_out != -1) { itemize(file, ndx, statret, &st, statret ? ITEM_LOCAL_CHANGE : 0, NULL); } if (statret != 0 && do_mkdir(fname,file->mode) != 0 && errno != EEXIST) { if (!relative_paths || errno != ENOENT || create_directory_path(fname, orig_umask) < 0 || do_mkdir(fname, file->mode) < 0) { rsyserr(FERROR, errno, "recv_generator: mkdir %s failed", full_fname(fname)); } } if (set_perms(fname, file, statret ? NULL : &st, 0) && verbose && code && f_out != -1) rprintf(code, "%s/\n", safe_fname(fname)); if (delete_during && f_out != -1 && !phase && (file->flags & FLAG_DEL_HERE)) delete_in_dir(the_file_list, fname, file); return; } if (max_size && file->length > max_size) { if (verbose > 1) { rprintf(FINFO, "%s is over max-size\n", safe_fname(fname)); } return; } if (preserve_links && S_ISLNK(file->mode)) { #ifdef SUPPORT_LINKS if (safe_symlinks && unsafe_symlink(file->u.link, fname)) { if (verbose) { rprintf(FINFO, "ignoring unsafe symlink %s -> \"%s\"\n", full_fname(fname), safe_fname(file->u.link)); } return; } if (statret == 0) { char lnk[MAXPATHLEN]; int len; if (!S_ISDIR(st.st_mode) && (len = readlink(fname, lnk, MAXPATHLEN-1)) > 0) { lnk[len] = 0; /* A link already pointing to the * right place -- no further action * required. */ if (strcmp(lnk, file->u.link) == 0) { if (itemizing) { itemize(file, ndx, 0, &st, 0, NULL); } set_perms(fname, file, &st, maybe_PERMS_REPORT); return; } } /* Not the right symlink (or not a symlink), so * delete it. */ if (S_ISLNK(st.st_mode)) delete_item(fname, st.st_mode, DEL_TERSE); else { delete_item(fname, st.st_mode, DEL_TERSE); statret = -1; } } if (do_symlink(file->u.link,fname) != 0) { rsyserr(FERROR, errno, "symlink %s -> \"%s\" failed", full_fname(fname), safe_fname(file->u.link)); } else { set_perms(fname,file,NULL,0); if (itemizing) { itemize(file, ndx, statret, &st, ITEM_LOCAL_CHANGE, NULL); } if (code && verbose) { rprintf(code, "%s -> %s\n", safe_fname(fname), safe_fname(file->u.link)); } if (remove_sent_files && !dry_run) { char numbuf[4]; SIVAL(numbuf, 0, ndx); send_msg(MSG_SUCCESS, numbuf, 4); } } #endif return; } if (am_root && preserve_devices && IS_DEVICE(file->mode)) { if (statret != 0 || st.st_mode != file->mode || st.st_rdev != file->u.rdev) { delete_item(fname, st.st_mode, DEL_TERSE); if (!IS_DEVICE(st.st_mode)) statret = -1; if (verbose > 2) { rprintf(FINFO,"mknod(%s,0%o,0x%x)\n", safe_fname(fname), (int)file->mode, (int)file->u.rdev); } if (do_mknod(fname,file->mode,file->u.rdev) != 0) { rsyserr(FERROR, errno, "mknod %s failed", full_fname(fname)); } else { set_perms(fname,file,NULL,0); if (itemizing) { itemize(file, ndx, statret, &st, ITEM_LOCAL_CHANGE, NULL); } if (code && verbose) { rprintf(code, "%s\n", safe_fname(fname)); } } } else { if (itemizing) itemize(file, ndx, statret, &st, 0, NULL); set_perms(fname, file, &st, maybe_PERMS_REPORT); } return; } if (preserve_hard_links && hard_link_check(file, ndx, HL_CHECK_MASTER)) return; if (!S_ISREG(file->mode)) { rprintf(FINFO, "skipping non-regular file \"%s\"\n", safe_fname(fname)); return; } if (opt_ignore_existing && statret == 0) { if (verbose > 1) rprintf(FINFO, "%s exists\n", safe_fname(fname)); return; } if (update_only && statret == 0 && cmp_modtime(st.st_mtime, file->modtime) > 0) { if (verbose > 1) rprintf(FINFO, "%s is newer\n", safe_fname(fname)); return; } fnamecmp = fname; fnamecmp_type = FNAMECMP_FNAME; if (statret != 0 && basis_dir[0] != NULL) { int best_match = -1; int match_level = 0; int i = 0; do { pathjoin(fnamecmpbuf, sizeof fnamecmpbuf, basis_dir[i], fname); if (link_stat(fnamecmpbuf, &st, 0) < 0 || !S_ISREG(st.st_mode)) continue; switch (match_level) { case 0: best_match = i; match_level = 1; /* FALL THROUGH */ case 1: if (!unchanged_file(fnamecmpbuf, file, &st)) continue; best_match = i; match_level = 2; /* FALL THROUGH */ case 2: if (!unchanged_attrs(file, &st)) continue; best_match = i; match_level = 3; break; } break; } while (basis_dir[++i] != NULL); if (match_level) { statret = 0; if (i != best_match) { i = best_match; pathjoin(fnamecmpbuf, sizeof fnamecmpbuf, basis_dir[i], fname); if (link_stat(fnamecmpbuf, &st, 0) < 0) { match_level = 0; statret = -1; stat_errno = errno; } } #ifdef HAVE_LINK if (link_dest && match_level == 3) { if (hard_link_one(file, ndx, fname, -1, &st, fnamecmpbuf, 1, itemizing && verbose > 1, code) == 0) return; if (verbose) { rsyserr(FINFO, errno, "link %s => %s", full_fname(fnamecmpbuf), safe_fname(fname)); } match_level = 2; } #endif if (compare_dest || (match_level && match_level < 3)) { fnamecmp = fnamecmpbuf; fnamecmp_type = i; } } } if (statret == 0 && !S_ISREG(st.st_mode)) { if (delete_item(fname, st.st_mode, DEL_TERSE) != 0) return; statret = -1; stat_errno = ENOENT; } if (partial_dir && (partialptr = partial_dir_fname(fname)) != NULL && link_stat(partialptr, &partial_st, 0) == 0 && S_ISREG(partial_st.st_mode)) { if (statret != 0) goto prepare_to_open; } else partialptr = NULL; if (statret != 0 && fuzzy_basis && dry_run <= 1) { int j = find_fuzzy(file, fuzzy_dirlist); if (j >= 0) { fuzzy_file = fuzzy_dirlist->files[j]; f_name_to(fuzzy_file, fnamecmpbuf); if (verbose > 2) { rprintf(FINFO, "fuzzy basis selected for %s: %s\n", safe_fname(fname), safe_fname(fnamecmpbuf)); } st.st_mode = fuzzy_file->mode; st.st_size = fuzzy_file->length; st.st_mtime = fuzzy_file->modtime; statret = 0; fnamecmp = fnamecmpbuf; fnamecmp_type = FNAMECMP_FUZZY; } } if (statret != 0) { if (preserve_hard_links && hard_link_check(file, ndx, HL_SKIP)) return; if (stat_errno == ENOENT) goto notify_others; if (verbose > 1) { rsyserr(FERROR, stat_errno, "recv_generator: failed to stat %s", full_fname(fname)); } return; } if (!compare_dest && fnamecmp_type <= FNAMECMP_BASIS_DIR_HIGH) ; else if (fnamecmp_type == FNAMECMP_FUZZY) ; else if (unchanged_file(fnamecmp, file, &st)) { if (fnamecmp_type == FNAMECMP_FNAME) { if (itemizing) itemize(file, ndx, statret, &st, 0, NULL); set_perms(fname, file, &st, maybe_PERMS_REPORT); if (preserve_hard_links && file->link_u.links) hard_link_cluster(file, ndx, itemizing, code); return; } /* Only --compare-dest gets here. */ if (unchanged_attrs(file, &st)) { itemize(file, ndx, statret, &st, ITEM_NO_DEST_AND_NO_UPDATE, NULL); return; } } prepare_to_open: if (partialptr) { st = partial_st; fnamecmp = partialptr; fnamecmp_type = FNAMECMP_PARTIAL_DIR; statret = 0; } if (dry_run || read_batch || whole_file) goto notify_others; if (fuzzy_basis) { int j = flist_find(fuzzy_dirlist, file); if (j >= 0) /* don't use changing file as future fuzzy basis */ fuzzy_dirlist->files[j]->flags |= FLAG_NO_FUZZY; } /* open the file */ fd = do_open(fnamecmp, O_RDONLY, 0); if (fd == -1) { rsyserr(FERROR, errno, "failed to open %s, continuing", full_fname(fnamecmp)); pretend_missing: /* pretend the file didn't exist */ if (preserve_hard_links && hard_link_check(file, ndx, HL_SKIP)) return; statret = -1; goto notify_others; } if (inplace && make_backups) { if (!(backupptr = get_backup_name(fname))) { close(fd); return; } if (!(back_file = make_file(fname, NULL, NO_FILTERS))) { close(fd); goto pretend_missing; } if (robust_unlink(backupptr) && errno != ENOENT) { rsyserr(FERROR, errno, "unlink %s", full_fname(backupptr)); free(back_file); close(fd); return; } if ((f_copy = do_open(backupptr, O_WRONLY | O_CREAT | O_TRUNC | O_EXCL, 0600)) < 0) { rsyserr(FERROR, errno, "open %s", full_fname(backupptr)); free(back_file); close(fd); return; } fnamecmp_type = FNAMECMP_BACKUP; } if (verbose > 3) { rprintf(FINFO, "gen mapped %s of size %.0f\n", safe_fname(fnamecmp), (double)st.st_size); } if (verbose > 2) rprintf(FINFO, "generating and sending sums for %d\n", ndx); notify_others: write_int(f_out, ndx); if (itemizing) { int iflags = ITEM_TRANSFER; if (always_checksum) iflags |= ITEM_REPORT_CHECKSUM; if (fnamecmp_type != FNAMECMP_FNAME) iflags |= ITEM_USING_ALT_BASIS; itemize(file, -1, statret, &st, iflags, NULL); } if (f_out_name >= 0) { write_byte(f_out_name, fnamecmp_type); if (fnamecmp_type == FNAMECMP_FUZZY) { write_vstring(f_out_name, fuzzy_file->basename, strlen(fuzzy_file->basename)); } } if (dry_run) { if (preserve_hard_links && file->link_u.links) hard_link_cluster(file, ndx, itemizing, code); return; } if (read_batch) return; if (statret != 0 || whole_file) { write_sum_head(f_out, NULL); return; } generate_and_send_sums(fd, st.st_size, f_out, f_copy); if (f_copy >= 0) { close(f_copy); set_perms(backupptr, back_file, NULL, 0); if (verbose > 1) { rprintf(FINFO, "backed up %s to %s\n", safe_fname(fname), safe_fname(backupptr)); } free(back_file); } close(fd); } void generate_files(int f_out, struct file_list *flist, char *local_name, int f_out_name) { int i, lull_mod; char fbuf[MAXPATHLEN]; int itemizing, maybe_PERMS_REPORT; enum logcode code; int need_retouch_dir_times = preserve_times && !omit_dir_times; int need_retouch_dir_perms = 0; int save_only_existing = only_existing; int save_opt_ignore_existing = opt_ignore_existing; allowed_lull = read_batch ? 0 : (io_timeout + 1) / 2; lull_mod = allowed_lull * 5; if (protocol_version >= 29) { itemizing = 1; maybe_PERMS_REPORT = log_format_has_i ? 0 : PERMS_REPORT; code = daemon_log_format_has_i ? 0 : FLOG; } else if (am_daemon) { itemizing = daemon_log_format_has_i && !dry_run; maybe_PERMS_REPORT = PERMS_REPORT; code = itemizing || dry_run ? FCLIENT : FINFO; } else if (!am_server) { itemizing = log_format_has_i; maybe_PERMS_REPORT = log_format_has_i ? 0 : PERMS_REPORT; code = itemizing ? 0 : FINFO; } else { itemizing = 0; maybe_PERMS_REPORT = PERMS_REPORT; code = FINFO; } if (verbose > 2) { rprintf(FINFO, "generator starting pid=%ld count=%d\n", (long)getpid(), flist->count); } if (delete_before && !local_name && flist->count > 0) do_delete_pass(flist); if (whole_file < 0) whole_file = 0; if (verbose >= 2) { rprintf(FINFO, "delta-transmission %s\n", whole_file ? "disabled for local transfer or --whole-file" : "enabled"); } if (protocol_version < 29) ignore_timeout = 1; for (i = 0; i < flist->count; i++) { struct file_struct *file = flist->files[i]; struct file_struct copy; if (!file->basename) continue; /* We need to ensure that any dirs we create have writeable * permissions during the time we are putting files within * them. This is then fixed after the transfer is done. */ if (!am_root && S_ISDIR(file->mode) && !(file->mode & S_IWUSR)) { copy = *file; copy.mode |= S_IWUSR; /* user write */ file = © need_retouch_dir_perms = 1; } recv_generator(local_name ? local_name : f_name_to(file, fbuf), file, i, itemizing, maybe_PERMS_REPORT, code, f_out, f_out_name); if (preserve_hard_links) check_for_finished_hlinks(itemizing, code); if (allowed_lull && !(i % lull_mod)) maybe_send_keepalive(); } recv_generator(NULL, NULL, 0, 0, 0, code, -1, -1); if (delete_during) delete_in_dir(NULL, NULL, NULL); phase++; csum_length = SUM_LENGTH; only_existing = max_size = opt_ignore_existing = 0; update_only = always_checksum = size_only = 0; ignore_times = 1; make_backups = 0; /* avoid a duplicate backup for inplace processing */ /* We expect to just sit around now, so don't exit on a timeout. * If we really get a timeout then the other process should exit. */ ignore_timeout = 1; if (verbose > 2) rprintf(FINFO,"generate_files phase=%d\n",phase); write_int(f_out, -1); /* files can cycle through the system more than once * to catch initial checksum errors */ while ((i = get_redo_num(itemizing, code)) != -1) { struct file_struct *file = flist->files[i]; recv_generator(local_name ? local_name : f_name_to(file, fbuf), file, i, itemizing, maybe_PERMS_REPORT, code, f_out, f_out_name); } phase++; only_existing = save_only_existing; opt_ignore_existing = save_opt_ignore_existing; if (verbose > 2) rprintf(FINFO,"generate_files phase=%d\n",phase); write_int(f_out, -1); /* Read post-redo-phase MSG_DONE and any prior messages. */ get_redo_num(itemizing, code); if (delete_after && !local_name && flist->count > 0) do_delete_pass(flist); if ((need_retouch_dir_perms || need_retouch_dir_times) && !list_only && !local_name && !dry_run) { int j = 0; /* Now we need to fix any directory permissions that were * modified during the transfer and/or re-set any tweaked * modified-time values. */ for (i = 0; i < flist->count; i++) { struct file_struct *file = flist->files[i]; if (!file->basename || !S_ISDIR(file->mode)) continue; if (!need_retouch_dir_times && file->mode & S_IWUSR) continue; recv_generator(local_name ? local_name : f_name(file), file, i, itemizing, maybe_PERMS_REPORT, code, -1, -1); if (allowed_lull && !(j++ % lull_mod)) maybe_send_keepalive(); } } recv_generator(NULL, NULL, 0, 0, 0, code, -1, -1); if (verbose > 2) rprintf(FINFO,"generate_files finished\n"); }