borg/attic/archive.py

659 lines
25 KiB
Python

from datetime import datetime, timedelta, timezone
from getpass import getuser
from itertools import groupby
import errno
import shutil
import tempfile
from attic.key import key_factory
import msgpack
import os
import socket
import stat
import sys
import time
from io import BytesIO
from attic import xattr
from attic.chunker import chunkify
from attic.hashindex import ChunkIndex
from attic.helpers import Error, uid2user, user2uid, gid2group, group2gid, \
Manifest, Statistics, decode_dict, st_mtime_ns, make_path_safe, StableDict
ITEMS_BUFFER = 1024 * 1024
CHUNK_MIN = 1024
WINDOW_SIZE = 0xfff
CHUNK_MASK = 0xffff
utime_supports_fd = os.utime in getattr(os, 'supports_fd', {})
has_mtime_ns = sys.version >= '3.3'
has_lchmod = hasattr(os, 'lchmod')
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
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 chunkify(self.buffer, WINDOW_SIZE, CHUNK_MASK, CHUNK_MIN, self.key.chunk_seed))
self.buffer.seek(0)
self.buffer.truncate(0)
# Leave the last parital 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"""
def __init__(self, repository, key, manifest, name, cache=None, create=False,
checkpoint_interval=300, numeric_owner=False):
self.cwd = os.getcwd()
self.key = key
self.repository = repository
self.cache = cache
self.manifest = manifest
self.hard_links = {}
self.stats = Statistics()
self.name = name
self.checkpoint_interval = checkpoint_interval
self.numeric_owner = numeric_owner
self.items_buffer = CacheChunkBuffer(self.cache, self.key, self.stats)
self.pipeline = DownloadPipeline(self.repository, self.key)
if create:
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 not self.checkpoint_name 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(self, id):
self.id = id
data = self.key.decrypt(self.id, self.repository.get(self.id))
self.metadata = msgpack.unpackb(data)
if self.metadata[b'version'] != 1:
raise Exception('Unknown archive metadata version')
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"""
t, f = self.metadata[b'time'].split('.', 1)
return datetime.strptime(t, '%Y-%m-%dT%H:%M:%S').replace(tzinfo=timezone.utc) + timedelta(seconds=float('.' + f))
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):
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)
def save(self, name=None):
name = name or self.name
if name in self.manifest.archives:
raise self.AlreadyExists(name)
self.items_buffer.flush(flush=True)
metadata = StableDict({
'version': 1,
'name': name,
'items': self.items_buffer.chunks,
'cmdline': sys.argv,
'hostname': socket.gethostname(),
'username': getuser(),
'time': datetime.utcnow().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 = self.cache.chunks[id]
stats.update(size, csize, count == 1)
self.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):
if dry_run:
if b'chunks' in item:
for _ in self.pipeline.fetch_many([c[0] for c in item[b'chunks']], is_preloaded=True):
pass
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 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):
fd.write(data)
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)
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 = uid or item[b'uid']
gid = gid or item[b'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'])
if fd and utime_supports_fd: # Python >= 3.3
os.utime(fd, None, ns=(item[b'mtime'], item[b'mtime']))
elif utime_supports_fd: # Python >= 3.3
os.utime(path, None, ns=(item[b'mtime'], item[b'mtime']), follow_symlinks=False)
elif not symlink:
os.utime(path, (item[b'mtime'] / 10**9, item[b'mtime'] / 10**9))
def delete(self, cache):
unpacker = msgpack.Unpacker(use_list=False)
for id_, data in zip(self.metadata[b'items'], self.repository.get_many(self.metadata[b'items'])):
unpacker.feed(self.key.decrypt(id_, data))
self.cache.chunk_decref(id_)
for item in unpacker:
if b'chunks' in item:
for chunk_id, size, csize in item[b'chunks']:
self.cache.chunk_decref(chunk_id)
self.cache.chunk_decref(self.id)
del self.manifest.archives[self.name]
self.manifest.write()
self.repository.commit()
cache.commit()
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': 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)
return item
def process_item(self, path, st):
item = {b'path': make_path_safe(path)}
item.update(self.stat_attrs(st, path))
self.add_item(item)
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)
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)
def process_file(self, path, st, cache):
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)
return
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]
# Only chunkify the file if needed
if chunks is None:
with open(path, 'rb') as fd:
chunks = []
for chunk in chunkify(fd, WINDOW_SIZE, CHUNK_MASK, CHUNK_MIN, self.key.chunk_seed):
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])
item = {b'path': safe_path, b'chunks': chunks}
item.update(self.stat_attrs(st, path))
self.stats.nfiles += 1
self.add_item(item)
@staticmethod
def list_archives(repository, key, manifest, cache=None):
for name, info in manifest.archives.items():
yield Archive(repository, key, manifest, name, cache=cache)
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):
self.report_progress('Starting archive consistency check...')
self.repair = repair
self.repository = repository
self.init_chunks()
self.key = self.identify_key(repository)
if not Manifest.MANIFEST_ID in self.chunks:
self.manifest = self.rebuild_manifest()
else:
self.manifest, _ = Manifest.load(repository, key=self.key)
self.rebuild_refcounts()
self.verify_chunks()
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.create(os.path.join(self.tmpdir, 'chunks').encode('utf-8'), capacity=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 not b'cmdline' in data or not b'\xa7version\x01' in data:
continue
try:
archive = msgpack.unpackb(data)
except:
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):
"""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 not chunk_id 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(not chunk_id 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, self.repository.get_many(items)):
unpacker.feed(self.key.decrypt(chunk_id, cdata))
for item in unpacker:
yield item
num_archives = len(self.manifest.archives)
for i, (name, info) in enumerate(list(self.manifest.archives.items()), 1):
self.report_progress('Analyzing archive {} ({}/{})'.format(name, i, num_archives))
archive_id = info[b'id']
if not archive_id 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()