from datetime import datetime from getpass import getuser from itertools import groupby import errno import shutil import tempfile from attic.key import key_factory from attic.remote import cache_if_remote import msgpack import os import socket import stat import sys import time from io import BytesIO from attic import xattr from attic.platform import acl_get, acl_set from attic.chunker import Chunker from attic.hashindex import ChunkIndex from attic.helpers import parse_timestamp, Error, uid2user, user2uid, gid2group, group2gid, \ Manifest, Statistics, decode_dict, st_mtime_ns, make_path_safe, StableDict, int_to_bigint, bigint_to_int ITEMS_BUFFER = 1024 * 1024 CHUNK_MIN = 1024 CHUNK_MAX = 10 * 1024 * 1024 WINDOW_SIZE = 0xfff CHUNK_MASK = 0xffff ZEROS = b'\0' * CHUNK_MAX utime_supports_fd = os.utime in getattr(os, 'supports_fd', {}) utime_supports_follow_symlinks = os.utime in getattr(os, 'supports_follow_symlinks', {}) has_mtime_ns = sys.version >= '3.3' has_lchmod = hasattr(os, 'lchmod') has_lchflags = hasattr(os, 'lchflags') # Python <= 3.2 raises OSError instead of PermissionError (See #164) try: PermissionError = PermissionError except NameError: PermissionError = OSError class DownloadPipeline: def __init__(self, repository, key): self.repository = repository self.key = key def unpack_many(self, ids, filter=None, preload=False): unpacker = msgpack.Unpacker(use_list=False) for data in self.fetch_many(ids): unpacker.feed(data) items = [decode_dict(item, (b'path', b'source', b'user', b'group')) for item in unpacker] if filter: items = [item for item in items if filter(item)] if preload: for item in items: if b'chunks' in item: self.repository.preload([c[0] for c in item[b'chunks']]) for item in items: yield item def fetch_many(self, ids, is_preloaded=False): for id_, data in zip(ids, self.repository.get_many(ids, is_preloaded=is_preloaded)): yield self.key.decrypt(id_, data) class ChunkBuffer: BUFFER_SIZE = 1 * 1024 * 1024 def __init__(self, key): self.buffer = BytesIO() self.packer = msgpack.Packer(unicode_errors='surrogateescape') self.chunks = [] self.key = key self.chunker = Chunker(WINDOW_SIZE, CHUNK_MASK, CHUNK_MIN, CHUNK_MAX,self.key.chunk_seed) def add(self, item): self.buffer.write(self.packer.pack(StableDict(item))) if self.is_full(): self.flush() def write_chunk(self, chunk): raise NotImplementedError def flush(self, flush=False): if self.buffer.tell() == 0: return self.buffer.seek(0) chunks = list(bytes(s) for s in self.chunker.chunkify(self.buffer)) self.buffer.seek(0) self.buffer.truncate(0) # Leave the last partial chunk in the buffer unless flush is True end = None if flush or len(chunks) == 1 else -1 for chunk in chunks[:end]: self.chunks.append(self.write_chunk(chunk)) if end == -1: self.buffer.write(chunks[-1]) def is_full(self): return self.buffer.tell() > self.BUFFER_SIZE class CacheChunkBuffer(ChunkBuffer): def __init__(self, cache, key, stats): super(CacheChunkBuffer, self).__init__(key) self.cache = cache self.stats = stats def write_chunk(self, chunk): id_, _, _ = self.cache.add_chunk(self.key.id_hash(chunk), chunk, self.stats) return id_ class Archive: class DoesNotExist(Error): """Archive {} does not exist""" class AlreadyExists(Error): """Archive {} already exists""" class IncompatibleFilesystemEncodingError(Error): """Failed to encode filename "{}" into file system encoding "{}". Consider configuring the LANG environment variable.""" def __init__(self, repository, key, manifest, name, cache=None, create=False, checkpoint_interval=300, numeric_owner=False, progress=False): self.cwd = os.getcwd() self.key = key self.repository = repository self.cache = cache self.manifest = manifest self.hard_links = {} self.stats = Statistics() self.show_progress = progress self.last_progress = time.time() self.name = name self.checkpoint_interval = checkpoint_interval self.numeric_owner = numeric_owner self.pipeline = DownloadPipeline(self.repository, self.key) if create: self.items_buffer = CacheChunkBuffer(self.cache, self.key, self.stats) self.chunker = Chunker(WINDOW_SIZE, CHUNK_MASK, CHUNK_MIN, CHUNK_MAX, self.key.chunk_seed) if name in manifest.archives: raise self.AlreadyExists(name) self.last_checkpoint = time.time() i = 0 while True: self.checkpoint_name = '%s.checkpoint%s' % (name, i and ('.%d' % i) or '') if self.checkpoint_name not in manifest.archives: break i += 1 else: if name not in self.manifest.archives: raise self.DoesNotExist(name) info = self.manifest.archives[name] self.load(info[b'id']) def _load_meta(self, id): data = self.key.decrypt(id, self.repository.get(id)) metadata = msgpack.unpackb(data) if metadata[b'version'] != 1: raise Exception('Unknown archive metadata version') return metadata def load(self, id): self.id = id self.metadata = self._load_meta(self.id) decode_dict(self.metadata, (b'name', b'hostname', b'username', b'time')) self.metadata[b'cmdline'] = [arg.decode('utf-8', 'surrogateescape') for arg in self.metadata[b'cmdline']] self.name = self.metadata[b'name'] @property def ts(self): """Timestamp of archive creation in UTC""" return parse_timestamp(self.metadata[b'time']) def __repr__(self): return 'Archive(%r)' % self.name def iter_items(self, filter=None, preload=False): for item in self.pipeline.unpack_many(self.metadata[b'items'], filter=filter, preload=preload): yield item def add_item(self, item): if self.show_progress and time.time() - self.last_progress > 0.2: self.stats.show_progress(item=item) self.last_progress = time.time() self.items_buffer.add(item) if time.time() - self.last_checkpoint > self.checkpoint_interval: self.write_checkpoint() self.last_checkpoint = time.time() def write_checkpoint(self): self.save(self.checkpoint_name) del self.manifest.archives[self.checkpoint_name] self.cache.chunk_decref(self.id, self.stats) def save(self, name=None, timestamp=None): name = name or self.name if name in self.manifest.archives: raise self.AlreadyExists(name) self.items_buffer.flush(flush=True) if timestamp is None: timestamp = datetime.utcnow() metadata = StableDict({ 'version': 1, 'name': name, 'items': self.items_buffer.chunks, 'cmdline': sys.argv, 'hostname': socket.gethostname(), 'username': getuser(), 'time': timestamp.isoformat(), }) data = msgpack.packb(metadata, unicode_errors='surrogateescape') self.id = self.key.id_hash(data) self.cache.add_chunk(self.id, data, self.stats) self.manifest.archives[name] = {'id': self.id, 'time': metadata['time']} self.manifest.write() self.repository.commit() self.cache.commit() def calc_stats(self, cache): def add(id): count, size, csize = cache.chunks[id] stats.update(size, csize, count == 1) cache.chunks[id] = count - 1, size, csize def add_file_chunks(chunks): for id, _, _ in chunks: add(id) # This function is a bit evil since it abuses the cache to calculate # the stats. The cache transaction must be rolled back afterwards unpacker = msgpack.Unpacker(use_list=False) cache.begin_txn() stats = Statistics() add(self.id) for id, chunk in zip(self.metadata[b'items'], self.repository.get_many(self.metadata[b'items'])): add(id) unpacker.feed(self.key.decrypt(id, chunk)) for item in unpacker: if b'chunks' in item: stats.nfiles += 1 add_file_chunks(item[b'chunks']) cache.rollback() return stats def extract_item(self, item, restore_attrs=True, dry_run=False, stdout=False, sparse=False): if dry_run or stdout: if b'chunks' in item: for data in self.pipeline.fetch_many([c[0] for c in item[b'chunks']], is_preloaded=True): if stdout: sys.stdout.buffer.write(data) if stdout: sys.stdout.buffer.flush() return dest = self.cwd if item[b'path'].startswith('/') or item[b'path'].startswith('..'): raise Exception('Path should be relative and local') path = os.path.join(dest, item[b'path']) # Attempt to remove existing files, ignore errors on failure try: st = os.lstat(path) if stat.S_ISDIR(st.st_mode): os.rmdir(path) else: os.unlink(path) except UnicodeEncodeError: raise self.IncompatibleFilesystemEncodingError(path, sys.getfilesystemencoding()) except OSError: pass mode = item[b'mode'] if stat.S_ISDIR(mode): if not os.path.exists(path): os.makedirs(path) if restore_attrs: self.restore_attrs(path, item) elif stat.S_ISREG(mode): if not os.path.exists(os.path.dirname(path)): os.makedirs(os.path.dirname(path)) # Hard link? if b'source' in item: source = os.path.join(dest, item[b'source']) if os.path.exists(path): os.unlink(path) os.link(source, path) else: with open(path, 'wb') as fd: ids = [c[0] for c in item[b'chunks']] for data in self.pipeline.fetch_many(ids, is_preloaded=True): if sparse and ZEROS.startswith(data): # all-zero chunk: create a hole in a sparse file fd.seek(len(data), 1) else: fd.write(data) pos = fd.tell() fd.truncate(pos) fd.flush() self.restore_attrs(path, item, fd=fd.fileno()) elif stat.S_ISFIFO(mode): if not os.path.exists(os.path.dirname(path)): os.makedirs(os.path.dirname(path)) os.mkfifo(path) self.restore_attrs(path, item) elif stat.S_ISLNK(mode): if not os.path.exists(os.path.dirname(path)): os.makedirs(os.path.dirname(path)) source = item[b'source'] if os.path.exists(path): os.unlink(path) os.symlink(source, path) self.restore_attrs(path, item, symlink=True) elif stat.S_ISCHR(mode) or stat.S_ISBLK(mode): os.mknod(path, item[b'mode'], item[b'rdev']) self.restore_attrs(path, item) else: raise Exception('Unknown archive item type %r' % item[b'mode']) def restore_attrs(self, path, item, symlink=False, fd=None): xattrs = item.get(b'xattrs') if xattrs: for k, v in xattrs.items(): try: xattr.setxattr(fd or path, k, v, follow_symlinks=False) except OSError as e: if e.errno != errno.ENOTSUP: raise uid = gid = None if not self.numeric_owner: uid = user2uid(item[b'user']) gid = group2gid(item[b'group']) uid = item[b'uid'] if uid is None else uid gid = item[b'gid'] if gid is None else gid # This code is a bit of a mess due to os specific differences try: if fd: os.fchown(fd, uid, gid) else: os.lchown(path, uid, gid) except OSError: pass if fd: os.fchmod(fd, item[b'mode']) elif not symlink: os.chmod(path, item[b'mode']) elif has_lchmod: # Not available on Linux os.lchmod(path, item[b'mode']) mtime = bigint_to_int(item[b'mtime']) if fd and utime_supports_fd: # Python >= 3.3 os.utime(fd, None, ns=(mtime, mtime)) elif utime_supports_follow_symlinks: # Python >= 3.3 os.utime(path, None, ns=(mtime, mtime), follow_symlinks=False) elif not symlink: os.utime(path, (mtime / 1e9, mtime / 1e9)) acl_set(path, item, self.numeric_owner) # Only available on OS X and FreeBSD if has_lchflags and b'bsdflags' in item: try: os.lchflags(path, item[b'bsdflags']) except OSError: pass def rename(self, name): if name in self.manifest.archives: raise self.AlreadyExists(name) metadata = StableDict(self._load_meta(self.id)) metadata[b'name'] = name data = msgpack.packb(metadata, unicode_errors='surrogateescape') new_id = self.key.id_hash(data) self.cache.add_chunk(new_id, data, self.stats) self.manifest.archives[name] = {'id': new_id, 'time': metadata[b'time']} self.cache.chunk_decref(self.id, self.stats) del self.manifest.archives[self.name] def delete(self, stats): unpacker = msgpack.Unpacker(use_list=False) for items_id, data in zip(self.metadata[b'items'], self.repository.get_many(self.metadata[b'items'])): unpacker.feed(self.key.decrypt(items_id, data)) self.cache.chunk_decref(items_id, stats) for item in unpacker: if b'chunks' in item: for chunk_id, size, csize in item[b'chunks']: self.cache.chunk_decref(chunk_id, stats) self.cache.chunk_decref(self.id, stats) del self.manifest.archives[self.name] def stat_attrs(self, st, path): item = { b'mode': st.st_mode, b'uid': st.st_uid, b'user': uid2user(st.st_uid), b'gid': st.st_gid, b'group': gid2group(st.st_gid), b'mtime': int_to_bigint(st_mtime_ns(st)) } if self.numeric_owner: item[b'user'] = item[b'group'] = None xattrs = xattr.get_all(path, follow_symlinks=False) if xattrs: item[b'xattrs'] = StableDict(xattrs) if has_lchflags and st.st_flags: item[b'bsdflags'] = st.st_flags acl_get(path, item, st, self.numeric_owner) return item def process_dir(self, path, st): item = {b'path': make_path_safe(path)} item.update(self.stat_attrs(st, path)) self.add_item(item) return 'd' # directory def process_fifo(self, path, st): item = {b'path': make_path_safe(path)} item.update(self.stat_attrs(st, path)) self.add_item(item) return 'f' # fifo def process_dev(self, path, st): item = {b'path': make_path_safe(path), b'rdev': st.st_rdev} item.update(self.stat_attrs(st, path)) self.add_item(item) if stat.S_ISCHR(st.st_mode): return 'c' # char device elif stat.S_ISBLK(st.st_mode): return 'b' # block device def process_symlink(self, path, st): source = os.readlink(path) item = {b'path': make_path_safe(path), b'source': source} item.update(self.stat_attrs(st, path)) self.add_item(item) return 's' # symlink def process_stdin(self, path, cache): uid, gid = 0, 0 fd = sys.stdin.buffer # binary chunks = [] for chunk in self.chunker.chunkify(fd): chunks.append(cache.add_chunk(self.key.id_hash(chunk), chunk, self.stats)) self.stats.nfiles += 1 item = { b'path': path, b'chunks': chunks, b'mode': 0o100660, # regular file, ug=rw b'uid': uid, b'user': uid2user(uid), b'gid': gid, b'group': gid2group(gid), b'mtime': int_to_bigint(int(time.time()) * 1000000000) } self.add_item(item) def process_file(self, path, st, cache): status = None safe_path = make_path_safe(path) # Is it a hard link? if st.st_nlink > 1: source = self.hard_links.get((st.st_ino, st.st_dev)) if (st.st_ino, st.st_dev) in self.hard_links: item = self.stat_attrs(st, path) item.update({b'path': safe_path, b'source': source}) self.add_item(item) status = 'h' # regular file, hardlink (to already seen inodes) return status else: self.hard_links[st.st_ino, st.st_dev] = safe_path path_hash = self.key.id_hash(os.path.join(self.cwd, path).encode('utf-8', 'surrogateescape')) ids = cache.file_known_and_unchanged(path_hash, st) chunks = None if ids is not None: # Make sure all ids are available for id_ in ids: if not cache.seen_chunk(id_): break else: chunks = [cache.chunk_incref(id_, self.stats) for id_ in ids] status = 'U' # regular file, unchanged else: status = 'A' # regular file, added # Only chunkify the file if needed if chunks is None: fh = Archive._open_rb(path, st) with os.fdopen(fh, 'rb') as fd: chunks = [] for chunk in self.chunker.chunkify(fd, fh): chunks.append(cache.add_chunk(self.key.id_hash(chunk), chunk, self.stats)) cache.memorize_file(path_hash, st, [c[0] for c in chunks]) status = status or 'M' # regular file, modified (if not 'A' already) item = {b'path': safe_path, b'chunks': chunks} item.update(self.stat_attrs(st, path)) self.stats.nfiles += 1 self.add_item(item) return status @staticmethod def list_archives(repository, key, manifest, cache=None): for name, info in manifest.archives.items(): yield Archive(repository, key, manifest, name, cache=cache) @staticmethod def _open_rb(path, st): flags_normal = os.O_RDONLY | getattr(os, 'O_BINARY', 0) flags_noatime = flags_normal | getattr(os, 'NO_ATIME', 0) euid = None def open_simple(p, s): return os.open(p, flags_normal) def open_noatime(p, s): return os.open(p, flags_noatime) def open_noatime_if_owner(p, s): if euid == 0 or s.st_uid == euid: # we are root or owner of file return open_noatime(p, s) else: return open_simple(p, s) def open_noatime_with_fallback(p, s): try: fd = os.open(p, flags_noatime) except PermissionError: # Was this EPERM due to the O_NOATIME flag? fd = os.open(p, flags_normal) # Yes, it was -- otherwise the above line would have thrown # another exception. nonlocal euid euid = os.geteuid() # So in future, let's check whether the file is owned by us # before attempting to use O_NOATIME. Archive._open_rb = open_noatime_if_owner return fd if flags_noatime != flags_normal: # Always use O_NOATIME version. Archive._open_rb = open_noatime_with_fallback else: # Always use non-O_NOATIME version. Archive._open_rb = open_simple return Archive._open_rb(path, st) class RobustUnpacker(): """A restartable/robust version of the streaming msgpack unpacker """ item_keys = [msgpack.packb(name) for name in ('path', 'mode', 'source', 'chunks', 'rdev', 'xattrs', 'user', 'group', 'uid', 'gid', 'mtime')] def __init__(self, validator): super(RobustUnpacker, self).__init__() self.validator = validator self._buffered_data = [] self._resync = False self._unpacker = msgpack.Unpacker(object_hook=StableDict) def resync(self): self._buffered_data = [] self._resync = True def feed(self, data): if self._resync: self._buffered_data.append(data) else: self._unpacker.feed(data) def __iter__(self): return self def __next__(self): if self._resync: data = b''.join(self._buffered_data) while self._resync: if not data: raise StopIteration # Abort early if the data does not look like a serialized dict if len(data) < 2 or ((data[0] & 0xf0) != 0x80) or ((data[1] & 0xe0) != 0xa0): data = data[1:] continue # Make sure it looks like an item dict for pattern in self.item_keys: if data[1:].startswith(pattern): break else: data = data[1:] continue self._unpacker = msgpack.Unpacker(object_hook=StableDict) self._unpacker.feed(data) try: item = next(self._unpacker) if self.validator(item): self._resync = False return item # Ignore exceptions that might be raised when feeding # msgpack with invalid data except (TypeError, ValueError, StopIteration): pass data = data[1:] else: return next(self._unpacker) class ArchiveChecker: def __init__(self): self.error_found = False self.possibly_superseded = set() self.tmpdir = tempfile.mkdtemp() def __del__(self): shutil.rmtree(self.tmpdir) def check(self, repository, repair=False, last=None): self.report_progress('Starting archive consistency check...') self.repair = repair self.repository = repository self.init_chunks() self.key = self.identify_key(repository) if Manifest.MANIFEST_ID not in self.chunks: self.manifest = self.rebuild_manifest() else: self.manifest, _ = Manifest.load(repository, key=self.key) self.rebuild_refcounts(last=last) if last is None: self.verify_chunks() else: self.report_progress('Orphaned objects check skipped (needs all archives checked)') if not self.error_found: self.report_progress('Archive consistency check complete, no problems found.') return self.repair or not self.error_found def init_chunks(self): """Fetch a list of all object keys from repository """ # Explicity set the initial hash table capacity to avoid performance issues # due to hash table "resonance" capacity = int(len(self.repository) * 1.2) self.chunks = ChunkIndex(capacity) marker = None while True: result = self.repository.list(limit=10000, marker=marker) if not result: break marker = result[-1] for id_ in result: self.chunks[id_] = (0, 0, 0) def report_progress(self, msg, error=False): if error: self.error_found = True print(msg, file=sys.stderr if error else sys.stdout) def identify_key(self, repository): cdata = repository.get(next(self.chunks.iteritems())[0]) return key_factory(repository, cdata) def rebuild_manifest(self): """Rebuild the manifest object if it is missing Iterates through all objects in the repository looking for archive metadata blocks. """ self.report_progress('Rebuilding missing manifest, this might take some time...', error=True) manifest = Manifest(self.key, self.repository) for chunk_id, _ in self.chunks.iteritems(): cdata = self.repository.get(chunk_id) data = self.key.decrypt(chunk_id, cdata) # Some basic sanity checks of the payload before feeding it into msgpack if len(data) < 2 or ((data[0] & 0xf0) != 0x80) or ((data[1] & 0xe0) != 0xa0): continue if b'cmdline' not in data or b'\xa7version\x01' not in data: continue try: archive = msgpack.unpackb(data) # Ignore exceptions that might be raised when feeding # msgpack with invalid data except (TypeError, ValueError, StopIteration): continue if isinstance(archive, dict) and b'items' in archive and b'cmdline' in archive: self.report_progress('Found archive ' + archive[b'name'].decode('utf-8'), error=True) manifest.archives[archive[b'name'].decode('utf-8')] = {b'id': chunk_id, b'time': archive[b'time']} self.report_progress('Manifest rebuild complete', error=True) return manifest def rebuild_refcounts(self, last=None): """Rebuild object reference counts by walking the metadata Missing and/or incorrect data is repaired when detected """ # Exclude the manifest from chunks del self.chunks[Manifest.MANIFEST_ID] def mark_as_possibly_superseded(id_): if self.chunks.get(id_, (0,))[0] == 0: self.possibly_superseded.add(id_) def add_callback(chunk): id_ = self.key.id_hash(chunk) cdata = self.key.encrypt(chunk) add_reference(id_, len(chunk), len(cdata), cdata) return id_ def add_reference(id_, size, csize, cdata=None): try: count, _, _ = self.chunks[id_] self.chunks[id_] = count + 1, size, csize except KeyError: assert cdata is not None self.chunks[id_] = 1, size, csize if self.repair: self.repository.put(id_, cdata) def verify_file_chunks(item): """Verifies that all file chunks are present Missing file chunks will be replaced with new chunks of the same length containing all zeros. """ offset = 0 chunk_list = [] for chunk_id, size, csize in item[b'chunks']: if chunk_id not in self.chunks: # If a file chunk is missing, create an all empty replacement chunk self.report_progress('{}: Missing file chunk detected (Byte {}-{})'.format(item[b'path'].decode('utf-8', 'surrogateescape'), offset, offset + size), error=True) data = bytes(size) chunk_id = self.key.id_hash(data) cdata = self.key.encrypt(data) csize = len(cdata) add_reference(chunk_id, size, csize, cdata) else: add_reference(chunk_id, size, csize) chunk_list.append((chunk_id, size, csize)) offset += size item[b'chunks'] = chunk_list def robust_iterator(archive): """Iterates through all archive items Missing item chunks will be skipped and the msgpack stream will be restarted """ unpacker = RobustUnpacker(lambda item: isinstance(item, dict) and b'path' in item) _state = 0 def missing_chunk_detector(chunk_id): nonlocal _state if _state % 2 != int(chunk_id not in self.chunks): _state += 1 return _state for state, items in groupby(archive[b'items'], missing_chunk_detector): items = list(items) if state % 2: self.report_progress('Archive metadata damage detected', error=True) continue if state > 0: unpacker.resync() for chunk_id, cdata in zip(items, repository.get_many(items)): unpacker.feed(self.key.decrypt(chunk_id, cdata)) for item in unpacker: yield item repository = cache_if_remote(self.repository) num_archives = len(self.manifest.archives) archive_items = sorted(self.manifest.archives.items(), reverse=True, key=lambda name_info: name_info[1][b'time']) end = None if last is None else min(num_archives, last) for i, (name, info) in enumerate(archive_items[:end]): self.report_progress('Analyzing archive {} ({}/{})'.format(name, num_archives - i, num_archives)) archive_id = info[b'id'] if archive_id not in self.chunks: self.report_progress('Archive metadata block is missing', error=True) del self.manifest.archives[name] continue mark_as_possibly_superseded(archive_id) cdata = self.repository.get(archive_id) data = self.key.decrypt(archive_id, cdata) archive = StableDict(msgpack.unpackb(data)) if archive[b'version'] != 1: raise Exception('Unknown archive metadata version') decode_dict(archive, (b'name', b'hostname', b'username', b'time')) # fixme: argv items_buffer = ChunkBuffer(self.key) items_buffer.write_chunk = add_callback for item in robust_iterator(archive): if b'chunks' in item: verify_file_chunks(item) items_buffer.add(item) items_buffer.flush(flush=True) for previous_item_id in archive[b'items']: mark_as_possibly_superseded(previous_item_id) archive[b'items'] = items_buffer.chunks data = msgpack.packb(archive, unicode_errors='surrogateescape') new_archive_id = self.key.id_hash(data) cdata = self.key.encrypt(data) add_reference(new_archive_id, len(data), len(cdata), cdata) info[b'id'] = new_archive_id def verify_chunks(self): unused = set() for id_, (count, size, csize) in self.chunks.iteritems(): if count == 0: unused.add(id_) orphaned = unused - self.possibly_superseded if orphaned: self.report_progress('{} orphaned objects found'.format(len(orphaned)), error=True) if self.repair: for id_ in unused: self.repository.delete(id_) self.manifest.write() self.repository.commit()