def runTest(self):
skip_without_rsync()
ref_dir = tempfile.mkdtemp(prefix='s3ql-ref-')
try:
populate_dir(ref_dir)
# Make file system and fake high inode number
self.mkfs()
db = Connection(
get_backend_cachedir(self.storage_url, self.cache_dir) + '.db')
db.execute('UPDATE sqlite_sequence SET seq=? WHERE name=?',
(2**31 + 10, 'inodes'))
db.close()
# Copy source data
self.mount()
subprocess.check_call(
['rsync', '-aHAX', ref_dir + '/', self.mnt_dir + '/'])
self.umount()
# Check that inode watermark is high
db = Connection(
get_backend_cachedir(self.storage_url, self.cache_dir) + '.db')
self.assertGreater(
db.get_val('SELECT seq FROM sqlite_sequence WHERE name=?',
('inodes', )), 2**31 + 10)
self.assertGreater(db.get_val('SELECT MAX(id) FROM inodes'),
2**31 + 10)
db.close()
# Renumber inodes
self.fsck()
# Check if renumbering was done
db = Connection(
get_backend_cachedir(self.storage_url, self.cache_dir) + '.db')
self.assertLess(
db.get_val('SELECT seq FROM sqlite_sequence WHERE name=?',
('inodes', )), 2**31)
self.assertLess(db.get_val('SELECT MAX(id) FROM inodes'), 2**31)
db.close()
# Compare
self.mount()
try:
out = check_output([
'rsync', '-anciHAX', '--delete', '--exclude',
'/lost+found', ref_dir + '/', self.mnt_dir + '/'
],
universal_newlines=True,
stderr=subprocess.STDOUT)
except CalledProcessError as exc:
self.fail('rsync failed with ' + exc.output)
if out:
self.fail('Copy not equal to original, rsync says:\n' + out)
self.umount()
finally:
shutil.rmtree(ref_dir)
def runTest(self):
try:
subprocess.call(['rsync', '--version'],
stderr=subprocess.STDOUT,
stdout=open('/dev/null', 'wb'))
except OSError as exc:
if exc.errno == errno.ENOENT:
raise unittest.SkipTest('rsync not installed')
raise
ref_dir = tempfile.mkdtemp()
try:
populate_dir(ref_dir)
# Make file system and fake high inode number
self.mkfs()
db = Connection(get_backend_cachedir(self.storage_url, self.cache_dir) + '.db')
db.execute('UPDATE sqlite_sequence SET seq=? WHERE name=?',
(2 ** 31 + 10, u'inodes'))
db.close()
# Copy source data
self.mount()
subprocess.check_call(['rsync', '-aHAX', ref_dir + '/',
self.mnt_dir + '/'])
self.umount()
# Check that inode watermark is high
db = Connection(get_backend_cachedir(self.storage_url, self.cache_dir) + '.db')
self.assertGreater(db.get_val('SELECT seq FROM sqlite_sequence WHERE name=?', (u'inodes',)), 2 ** 31 + 10)
self.assertGreater(db.get_val('SELECT MAX(id) FROM inodes'), 2 ** 31 + 10)
db.close()
# Renumber inodes
self.fsck()
# Check if renumbering was done
db = Connection(get_backend_cachedir(self.storage_url, self.cache_dir) + '.db')
self.assertLess(db.get_val('SELECT seq FROM sqlite_sequence WHERE name=?', (u'inodes',)), 2 ** 31)
self.assertLess(db.get_val('SELECT MAX(id) FROM inodes'), 2 ** 31)
db.close()
# Compare
self.mount()
rsync = subprocess.Popen(['rsync', '-anciHAX', '--delete',
'--exclude', '/lost+found',
ref_dir + '/', self.mnt_dir + '/'],
stdout=subprocess.PIPE,
stderr=subprocess.STDOUT)
out = rsync.communicate()[0]
if out:
self.fail('Copy not equal to original, rsync says:\n' + out)
elif rsync.returncode != 0:
self.fail('rsync failed with ' + out)
self.umount()
finally:
shutil.rmtree(ref_dir)
def test(self):
skip_without_rsync()
ref_dir = tempfile.mkdtemp(prefix='s3ql-ref-')
try:
populate_dir(ref_dir)
# Make file system and fake high inode number
self.mkfs()
db = Connection(get_backend_cachedir(self.storage_url, self.cache_dir) + '.db')
db.execute('UPDATE sqlite_sequence SET seq=? WHERE name=?',
(2 ** 31 + 10, 'inodes'))
db.close()
# Copy source data
self.mount()
subprocess.check_call(['rsync', '-aHAX', ref_dir + '/',
self.mnt_dir + '/'])
self.umount()
# Check that inode watermark is high
db = Connection(get_backend_cachedir(self.storage_url, self.cache_dir) + '.db')
assert db.get_val('SELECT seq FROM sqlite_sequence WHERE name=?',
('inodes',)) > 2 ** 31 + 10
assert db.get_val('SELECT MAX(id) FROM inodes') > 2 ** 31 + 10
db.close()
# Renumber inodes
self.fsck()
# Check if renumbering was done
db = Connection(get_backend_cachedir(self.storage_url, self.cache_dir) + '.db')
assert db.get_val('SELECT seq FROM sqlite_sequence WHERE name=?',
('inodes',)) < 2 ** 31
assert db.get_val('SELECT MAX(id) FROM inodes') < 2 ** 31
db.close()
# Compare
self.mount()
try:
out = check_output(['rsync', '-anciHAX', '--delete', '--exclude', '/lost+found',
ref_dir + '/', self.mnt_dir + '/'], universal_newlines=True,
stderr=subprocess.STDOUT)
except CalledProcessError as exc:
pytest.fail('rsync failed with ' + exc.output)
if out:
pytest.fail('Copy not equal to original, rsync says:\n' + out)
self.umount()
finally:
shutil.rmtree(ref_dir)
class fsck_tests(unittest.TestCase):
def setUp(self):
self.backend_dir = tempfile.mkdtemp(prefix='s3ql-backend-')
self.backend = local.Backend(
Namespace(storage_url='local://' + self.backend_dir))
self.cachedir = tempfile.mkdtemp(prefix='s3ql-cache-')
self.max_obj_size = 1024
self.dbfile = tempfile.NamedTemporaryFile()
self.db = Connection(self.dbfile.name)
create_tables(self.db)
init_tables(self.db)
self.fsck = Fsck(self.cachedir, self.backend,
{'max_obj_size': self.max_obj_size}, self.db)
self.fsck.expect_errors = True
def tearDown(self):
shutil.rmtree(self.cachedir)
shutil.rmtree(self.backend_dir)
self.dbfile.close()
def assert_fsck(self, fn):
'''Check that fn detects and corrects an error'''
self.fsck.found_errors = False
fn()
self.assertTrue(self.fsck.found_errors)
self.fsck.found_errors = False
self.fsck.check()
self.assertFalse(self.fsck.found_errors)
def test_cache(self):
inode = self.db.rowid(
"INSERT INTO inodes (mode,uid,gid,mtime_ns,atime_ns,ctime_ns,refcount,size) "
"VALUES (?,?,?,?,?,?,?,?)",
(stat.S_IFREG | stat.S_IRUSR | stat.S_IWUSR | stat.S_IXUSR
| stat.S_IRGRP | stat.S_IXGRP | stat.S_IROTH | stat.S_IXOTH,
os.getuid(), os.getgid(), time_ns(), time_ns(), time_ns(), 1, 8))
self._link(b'test-entry', inode)
# Create new block
fh = open(self.cachedir + '/%d-0' % inode, 'wb')
fh.write(b'somedata')
fh.close()
self.assert_fsck(self.fsck.check_cache)
self.assertEqual(self.backend['s3ql_data_1'], b'somedata')
# Existing block
self.db.execute('UPDATE inodes SET size=? WHERE id=?',
(self.max_obj_size + 8, inode))
with open(self.cachedir + '/%d-1' % inode, 'wb') as fh:
fh.write(b'somedata')
self.assert_fsck(self.fsck.check_cache)
# Old block preserved
with open(self.cachedir + '/%d-0' % inode, 'wb') as fh:
fh.write(b'somedat2')
self.assert_fsck(self.fsck.check_cache)
# Old block removed
with open(self.cachedir + '/%d-1' % inode, 'wb') as fh:
fh.write(b'somedat3')
self.assert_fsck(self.fsck.check_cache)
def test_lof1(self):
# Make lost+found a file
inode = self.db.get_val(
"SELECT inode FROM contents_v WHERE name=? AND parent_inode=?",
(b"lost+found", ROOT_INODE))
self.db.execute('DELETE FROM contents WHERE parent_inode=?', (inode, ))
self.db.execute('UPDATE inodes SET mode=?, size=? WHERE id=?',
(stat.S_IFREG | stat.S_IRUSR | stat.S_IWUSR, 0, inode))
def check():
self.fsck.check_lof()
self.fsck.check_inodes_refcount()
self.assert_fsck(check)
def test_lof2(self):
# Remove lost+found
name_id = self.db.get_val('SELECT id FROM names WHERE name=?',
(b'lost+found', ))
inode = self.db.get_val(
'SELECT inode FROM contents WHERE name_id=? AND '
'parent_inode=?', (name_id, ROOT_INODE))
self.db.execute('DELETE FROM inodes WHERE id=?', (inode, ))
self.db.execute(
'DELETE FROM contents WHERE name_id=? and parent_inode=?',
(name_id, ROOT_INODE))
self.db.execute('UPDATE names SET refcount = refcount-1 WHERE id=?',
(name_id, ))
self.assert_fsck(self.fsck.check_lof)
def test_wrong_inode_refcount(self):
inode = self.db.rowid(
"INSERT INTO inodes (mode,uid,gid,mtime_ns,atime_ns,ctime_ns,refcount,size) "
"VALUES (?,?,?,?,?,?,?,?)",
(stat.S_IFREG | stat.S_IRUSR | stat.S_IWUSR, 0, 0, time_ns(),
time_ns(), time_ns(), 1, 0))
self._link(b'name1', inode)
self._link(b'name2', inode)
self.assert_fsck(self.fsck.check_inodes_refcount)
def test_orphaned_inode(self):
self.db.rowid(
"INSERT INTO inodes (mode,uid,gid,mtime_ns,atime_ns,ctime_ns,refcount,size) "
"VALUES (?,?,?,?,?,?,?,?)",
(stat.S_IFREG | stat.S_IRUSR | stat.S_IWUSR, 0, 0, time_ns(),
time_ns(), time_ns(), 1, 0))
self.assert_fsck(self.fsck.check_inodes_refcount)
def test_name_refcount(self):
inode = self.db.rowid(
"INSERT INTO inodes (mode,uid,gid,mtime_ns,atime_ns,ctime_ns,refcount,size) "
"VALUES (?,?,?,?,?,?,?,?)",
(stat.S_IFREG | stat.S_IRUSR | stat.S_IWUSR, 0, 0, time_ns(),
time_ns(), time_ns(), 2, 0))
self._link(b'name1', inode)
self._link(b'name2', inode)
self.db.execute('UPDATE names SET refcount=refcount+1 WHERE name=?',
(b'name1', ))
self.assert_fsck(self.fsck.check_names_refcount)
def test_orphaned_name(self):
self._add_name(b'zupbrazl')
self.assert_fsck(self.fsck.check_names_refcount)
def test_contents_inode(self):
self.db.execute(
'INSERT INTO contents (name_id, inode, parent_inode) VALUES(?,?,?)',
(self._add_name(b'foobar'), 124, ROOT_INODE))
self.assert_fsck(self.fsck.check_contents_inode)
def test_contents_inode_p(self):
inode = self.db.rowid(
"INSERT INTO inodes (mode,uid,gid,mtime_ns,atime_ns,ctime_ns,refcount,size) "
"VALUES (?,?,?,?,?,?,?,?)",
(stat.S_IFDIR | stat.S_IRUSR | stat.S_IWUSR, 0, 0, time_ns(),
time_ns(), time_ns(), 1, 0))
self.db.execute(
'INSERT INTO contents (name_id, inode, parent_inode) VALUES(?,?,?)',
(self._add_name(b'foobar'), inode, 123))
self.assert_fsck(self.fsck.check_contents_parent_inode)
def test_contents_name(self):
inode = self.db.rowid(
"INSERT INTO inodes (mode,uid,gid,mtime_ns,atime_ns,ctime_ns,refcount,size) "
"VALUES (?,?,?,?,?,?,?,?)",
(stat.S_IFDIR | stat.S_IRUSR | stat.S_IWUSR, 0, 0, time_ns(),
time_ns(), time_ns(), 1, 0))
self.db.execute(
'INSERT INTO contents (name_id, inode, parent_inode) VALUES(?,?,?)',
(42, inode, ROOT_INODE))
self.assert_fsck(self.fsck.check_contents_name)
def _add_name(self, name):
'''Get id for *name* and increase refcount
Name is inserted in table if it does not yet exist.
'''
try:
name_id = self.db.get_val('SELECT id FROM names WHERE name=?',
(name, ))
except NoSuchRowError:
name_id = self.db.rowid(
'INSERT INTO names (name, refcount) VALUES(?,?)', (name, 1))
else:
self.db.execute('UPDATE names SET refcount=refcount+1 WHERE id=?',
(name_id, ))
return name_id
def _link(self, name, inode, parent_inode=ROOT_INODE):
'''Link /*name* to *inode*'''
self.db.execute(
'INSERT INTO contents (name_id, inode, parent_inode) VALUES(?,?,?)',
(self._add_name(name), inode, parent_inode))
def test_inodes_size(self):
id_ = self.db.rowid(
"INSERT INTO inodes (mode,uid,gid,mtime_ns,atime_ns,ctime_ns,refcount,size) "
"VALUES (?,?,?,?,?,?,?,?)",
(stat.S_IFREG | stat.S_IRUSR | stat.S_IWUSR, 0, 0, time_ns(),
time_ns(), time_ns(), 1, 128))
self._link(b'test-entry', id_)
obj_id = self.db.rowid(
'INSERT INTO objects (refcount,size) VALUES(?,?)', (1, 36))
block_id = self.db.rowid(
'INSERT INTO blocks (refcount, obj_id, size, hash) '
'VALUES(?,?,?,?)', (1, obj_id, 512, sha256(b'foo')))
self.backend['s3ql_data_%d' % obj_id] = b'foo'
# Case 1
self.db.execute('UPDATE inodes SET size=? WHERE id=?',
(self.max_obj_size + 120, id_))
self.db.execute(
'INSERT INTO inode_blocks (inode, blockno, block_id) VALUES(?, ?, ?)',
(id_, 1, block_id))
self.assert_fsck(self.fsck.check_inodes_size)
# Case 2
self.db.execute('DELETE FROM inode_blocks WHERE inode=?', (id_, ))
self.db.execute(
'INSERT INTO inode_blocks (inode, blockno, block_id) VALUES(?, ?, ?)',
(id_, 0, block_id))
self.db.execute('UPDATE inodes SET size=? WHERE id=?', (129, id_))
self.assert_fsck(self.fsck.check_inodes_size)
# Case 3
self.db.execute(
'INSERT INTO inode_blocks (inode, blockno, block_id) VALUES(?, ?, ?)',
(id_, 1, block_id))
self.db.execute('UPDATE inodes SET size=? WHERE id=?',
(self.max_obj_size + 120, id_))
self.db.execute(
'UPDATE blocks SET refcount = refcount + 1 WHERE id = ?',
(block_id, ))
self.assert_fsck(self.fsck.check_inodes_size)
def test_objects_id(self):
# Create an object that only exists in the backend
self.backend['s3ql_data_4364'] = b'Testdata'
self.assert_fsck(self.fsck.check_objects_id)
# Create an object that does not exist in the backend
self.db.execute(
'INSERT INTO objects (id, refcount, size) VALUES(?, ?, ?)',
(34, 1, 27))
self.assert_fsck(self.fsck.check_objects_id)
def test_blocks_checksum(self):
id_ = self.db.rowid(
"INSERT INTO inodes (mode,uid,gid,mtime_ns,atime_ns,ctime_ns,refcount,size) "
"VALUES (?,?,?,?,?,?,?,?)",
(stat.S_IFREG | stat.S_IRUSR | stat.S_IWUSR, 0, 0, time_ns(),
time_ns(), time_ns(), 1, 8))
self._link(b'test-entry', id_)
# Assume that due to a crash we did not write the hash for the block
self.backend['s3ql_data_4364'] = b'Testdata'
self.db.execute(
'INSERT INTO objects (id, refcount, size) VALUES(?, ?, ?)',
(4364, 1, 8))
block_id = self.db.execute(
'INSERT INTO blocks (obj_id, refcount, size) VALUES(?, ?, ?)',
(4364, 1, 8))
self.db.execute(
'INSERT INTO inode_blocks (inode, blockno, block_id) VALUES(?, ?, ?)',
(id_, 0, block_id))
# Should pick up wrong hash and delete objects
self.fsck.found_errors = False
self.fsck.check_blocks_checksum()
assert self.fsck.found_errors
self.fsck.found_errors = False
self.fsck.check_blocks_checksum()
assert not self.fsck.found_errors
# Should save files in lost+found
self.fsck.found_errors = False
self.fsck.check()
assert self.fsck.found_errors
# Now everything should be good
self.fsck.found_errors = False
self.fsck.check()
assert not self.fsck.found_errors
assert not self.db.has_val(
'SELECT block_id FROM inode_blocks WHERE inode=?', (id_, ))
inode_p = self.db.get_val(
'SELECT parent_inode FROM contents_v WHERE inode=?', (id_, ))
lof_id = self.db.get_val(
"SELECT inode FROM contents_v WHERE name=? AND parent_inode=?",
(b"lost+found", ROOT_INODE))
assert inode_p == lof_id
def test_blocks_obj_id(self):
block_id = self.db.rowid(
'INSERT INTO blocks (refcount, obj_id, size) VALUES(?,?,?)',
(1, 48, 128))
id_ = self.db.rowid(
"INSERT INTO inodes (mode,uid,gid,mtime_ns,atime_ns,ctime_ns,refcount,size) "
"VALUES (?,?,?,?,?,?,?,?)",
(stat.S_IFREG | stat.S_IRUSR | stat.S_IWUSR, 0, 0, time_ns(),
time_ns(), time_ns(), 1, 128))
self.db.execute(
'INSERT INTO inode_blocks (inode, blockno, block_id) VALUES(?,?,?)',
(id_, 0, block_id))
self._link(b'test-entry', id_)
self.assert_fsck(self.fsck.check_blocks_obj_id)
def test_missing_obj(self):
obj_id = self.db.rowid(
'INSERT INTO objects (refcount, size) VALUES(1, 32)')
block_id = self.db.rowid(
'INSERT INTO blocks (refcount, obj_id, size) VALUES(?,?,?)',
(1, obj_id, 128))
id_ = self.db.rowid(
"INSERT INTO inodes (mode,uid,gid,mtime_ns,atime_ns,ctime_ns,refcount,size) "
"VALUES (?,?,?,?,?,?,?,?)",
(stat.S_IFREG | stat.S_IRUSR | stat.S_IWUSR, 0, 0, time_ns(),
time_ns(), time_ns(), 1, 128))
self.db.execute(
'INSERT INTO inode_blocks (inode, blockno, block_id) VALUES(?,?,?)',
(id_, 0, block_id))
self._link(b'test-entry', id_)
self.assert_fsck(self.fsck.check_objects_id)
def test_inode_blocks_inode(self):
obj_id = self.db.rowid(
'INSERT INTO objects (refcount, size) VALUES(1, 42)')
self.backend['s3ql_data_%d' % obj_id] = b'foo'
block_id = self.db.rowid(
'INSERT INTO blocks (refcount, obj_id, size) VALUES(?,?,?)',
(1, obj_id, 34))
self.db.execute(
'INSERT INTO inode_blocks (inode, blockno, block_id) VALUES(?,?,?)',
(27, 0, block_id))
self.assert_fsck(self.fsck.check_inode_blocks_inode)
def test_inode_blocks_block_id(self):
id_ = self.db.rowid(
"INSERT INTO inodes (mode,uid,gid,mtime_ns,atime_ns,ctime_ns,refcount,size) "
"VALUES (?,?,?,?,?,?,?,?)",
(stat.S_IFREG | stat.S_IRUSR | stat.S_IWUSR, 0, 0, time_ns(),
time_ns(), time_ns(), 1, 128))
self.db.execute(
'INSERT INTO inode_blocks (inode, blockno, block_id) VALUES(?,?,?)',
(id_, 0, 35))
self._link(b'test-entry', id_)
self.assert_fsck(self.fsck.check_inode_blocks_block_id)
def test_symlinks_inode(self):
self.db.execute(
'INSERT INTO symlink_targets (inode, target) VALUES(?,?)',
(42, b'somewhere else'))
self.assert_fsck(self.fsck.check_symlinks_inode)
def test_ext_attrs_inode(self):
self.db.execute(
'INSERT INTO ext_attributes (name_id, inode, value) VALUES(?,?,?)',
(self._add_name(b'some name'), 34, b'some value'))
self.assert_fsck(self.fsck.check_ext_attributes_inode)
def test_ext_attrs_name(self):
id_ = self.db.rowid(
"INSERT INTO inodes (mode,uid,gid,mtime_ns,atime_ns,ctime_ns,refcount,size) "
"VALUES (?,?,?,?,?,?,?,?)",
(stat.S_IFREG | stat.S_IRUSR | stat.S_IWUSR, 0, 0, time_ns(),
time_ns(), time_ns(), 1, 128))
self._link(b'test-entry', id_)
self.db.execute(
'INSERT INTO ext_attributes (name_id, inode, value) VALUES(?,?,?)',
(34, id_, b'some value'))
self.assert_fsck(self.fsck.check_ext_attributes_name)
@staticmethod
def random_data(len_):
with open("/dev/urandom", "rb") as fd:
return fd.read(len_)
def test_loops(self):
# Create some directory inodes
inodes = [
self.db.rowid(
"INSERT INTO inodes (mode,uid,gid,mtime_ns,atime_ns,ctime_ns,refcount) "
"VALUES (?,?,?,?,?,?,?)",
(stat.S_IFDIR | stat.S_IRUSR | stat.S_IWUSR, 0, 0, time_ns(),
time_ns(), time_ns(), 1)) for dummy in range(3)
]
inodes.append(inodes[0])
last = inodes[0]
for inode in inodes[1:]:
self.db.execute(
'INSERT INTO contents (name_id, inode, parent_inode) VALUES(?, ?, ?)',
(self._add_name(str(inode).encode()), inode, last))
last = inode
self.assert_fsck(self.fsck.check_loops)
def test_tmpfile(self):
# Ensure that path exists
objname = 's3ql_data_38375'
self.backend[objname] = b'bla'
del self.backend[objname]
path = self.backend._key_to_path(objname)
tmpname = '%s#%d-%d.tmp' % (path, os.getpid(), _thread.get_ident())
with open(tmpname, 'wb') as fh:
fh.write(b'Hello, world')
self.assert_fsck(self.fsck.check_objects_temp)
def test_obj_refcounts(self):
obj_id = self.db.rowid(
'INSERT INTO objects (refcount, size) VALUES(1, 42)')
block_id_1 = self.db.rowid(
'INSERT INTO blocks (refcount, obj_id, size, hash) '
'VALUES(?,?,?,?)', (1, obj_id, 0, sha256(b'foo')))
block_id_2 = self.db.rowid(
'INSERT INTO blocks (refcount, obj_id, size, hash) '
'VALUES(?,?,?,?)', (1, obj_id, 0, sha256(b'bar')))
self.backend['s3ql_data_%d' % obj_id] = b'foo and bar'
inode = self.db.rowid(
"INSERT INTO inodes (mode,uid,gid,mtime_ns,atime_ns,ctime_ns,refcount,size) "
"VALUES (?,?,?,?,?,?,?,?)",
(stat.S_IFREG | stat.S_IRUSR | stat.S_IWUSR, os.getuid(),
os.getgid(), time_ns(), time_ns(), time_ns(), 1, 2048))
self._link(b'test-entry', inode)
self.db.execute(
'INSERT INTO inode_blocks (inode, blockno, block_id) VALUES(?,?,?)',
(inode, 1, block_id_1))
self.db.execute(
'INSERT INTO inode_blocks (inode, blockno, block_id) VALUES(?,?,?)',
(inode, 2, block_id_2))
self.assert_fsck(self.fsck.check_objects_refcount)
def test_orphaned_obj(self):
self.db.rowid('INSERT INTO objects (refcount, size) VALUES(1, 33)')
self.assert_fsck(self.fsck.check_objects_refcount)
def test_wrong_block_refcount(self):
obj_id = self.db.rowid(
'INSERT INTO objects (refcount, size) VALUES(1, 23)')
self.backend['s3ql_data_%d' % obj_id] = b'foo'
block_id = self.db.rowid(
'INSERT INTO blocks (refcount, obj_id, size, hash) '
'VALUES(?,?,?,?)', (1, obj_id, 0, sha256(b'')))
inode = self.db.rowid(
"INSERT INTO inodes (mode,uid,gid,mtime_ns,atime_ns,ctime_ns,refcount,size) "
"VALUES (?,?,?,?,?,?,?,?)",
(stat.S_IFREG | stat.S_IRUSR | stat.S_IWUSR, os.getuid(),
os.getgid(), time_ns(), time_ns(), time_ns(), 1,
self.max_obj_size))
self._link(b'test-entry', inode)
self.db.execute(
'INSERT INTO inode_blocks (inode, blockno, block_id) VALUES(?,?,?)',
(inode, 0, block_id))
self.db.execute(
'INSERT INTO inode_blocks (inode, blockno, block_id) VALUES(?,?,?)',
(inode, 1, block_id))
self.assert_fsck(self.fsck.check_blocks_refcount)
def test_orphaned_block(self):
obj_id = self.db.rowid(
'INSERT INTO objects (refcount, size) VALUES(1, 24)')
self.backend['s3ql_data_%d' % obj_id] = b'foo'
self.db.rowid(
'INSERT INTO blocks (refcount, obj_id, size, hash) VALUES(?,?,?,?)',
(1, obj_id, 3, sha256(b'xyz')))
self.assert_fsck(self.fsck.check_blocks_refcount)
def test_unix_size(self):
inode = 42
self.db.execute(
"INSERT INTO inodes (id, mode,uid,gid,mtime_ns,atime_ns,ctime_ns,refcount,size) "
"VALUES (?,?,?,?,?,?,?,?,?)",
(inode, stat.S_IFIFO | stat.S_IRUSR | stat.S_IWUSR, os.getuid(),
os.getgid(), time_ns(), time_ns(), time_ns(), 1, 0))
self._link(b'test-entry', inode)
self.fsck.found_errors = False
self.fsck.check_unix()
self.assertFalse(self.fsck.found_errors)
self.db.execute('UPDATE inodes SET size = 1 WHERE id=?', (inode, ))
self.fsck.check_unix()
self.assertTrue(self.fsck.found_errors)
def test_unix_size_symlink(self):
inode = 42
target = b'some funny random string'
self.db.execute(
"INSERT INTO inodes (id, mode,uid,gid,mtime_ns,atime_ns,ctime_ns,refcount,size) "
"VALUES (?,?,?,?,?,?,?,?,?)",
(inode, stat.S_IFLNK | stat.S_IRUSR | stat.S_IWUSR, os.getuid(),
os.getgid(), time_ns(), time_ns(), time_ns(), 1, len(target)))
self.db.execute(
'INSERT INTO symlink_targets (inode, target) VALUES(?,?)',
(inode, target))
self._link(b'test-entry', inode)
self.fsck.found_errors = False
self.fsck.check_unix()
self.assertFalse(self.fsck.found_errors)
self.db.execute('UPDATE inodes SET size = 0 WHERE id=?', (inode, ))
self.fsck.check_unix()
self.assertTrue(self.fsck.found_errors)
def test_unix_target(self):
inode = 42
self.db.execute(
"INSERT INTO inodes (id, mode,uid,gid,mtime_ns,atime_ns,ctime_ns,refcount) "
"VALUES (?,?,?,?,?,?,?,?)",
(inode, stat.S_IFCHR | stat.S_IRUSR | stat.S_IWUSR, os.getuid(),
os.getgid(), time_ns(), time_ns(), time_ns(), 1))
self._link(b'test-entry', inode)
self.fsck.found_errors = False
self.fsck.check_unix()
self.assertFalse(self.fsck.found_errors)
self.db.execute(
'INSERT INTO symlink_targets (inode, target) VALUES(?,?)',
(inode, 'foo'))
self.fsck.check_unix()
self.assertTrue(self.fsck.found_errors)
def test_unix_nomode_reg(self):
perms = stat.S_IRUSR | stat.S_IWUSR | stat.S_IROTH | stat.S_IRGRP
stamp = time_ns()
inode = self.db.rowid(
"INSERT INTO inodes (mode,uid,gid,mtime_ns,atime_ns,ctime_ns,refcount) "
"VALUES (?,?,?,?,?,?,?)",
(perms, os.getuid(), os.getgid(), stamp, stamp, stamp, 1))
self._link(b'test-entry', inode)
self.assert_fsck(self.fsck.check_unix)
newmode = self.db.get_val('SELECT mode FROM inodes WHERE id=?',
(inode, ))
self.assertEqual(stat.S_IMODE(newmode), perms)
self.assertEqual(stat.S_IFMT(newmode), stat.S_IFREG)
def test_unix_nomode_dir(self):
perms = stat.S_IRUSR | stat.S_IWUSR | stat.S_IROTH | stat.S_IRGRP
stamp = time_ns()
inode = self.db.rowid(
"INSERT INTO inodes (mode,uid,gid,mtime_ns,atime_ns,ctime_ns,refcount) "
"VALUES (?,?,?,?,?,?,?)",
(perms, os.getuid(), os.getgid(), stamp, stamp, stamp, 1))
inode2 = self.db.rowid(
"INSERT INTO inodes (mode,uid,gid,mtime_ns,atime_ns,ctime_ns,refcount) "
"VALUES (?,?,?,?,?,?,?)", (perms | stat.S_IFREG, os.getuid(),
os.getgid(), stamp, stamp, stamp, 1))
self._link(b'test-entry', inode)
self._link(b'subentry', inode2, inode)
self.assert_fsck(self.fsck.check_unix)
newmode = self.db.get_val('SELECT mode FROM inodes WHERE id=?',
(inode, ))
self.assertEqual(stat.S_IMODE(newmode), perms)
self.assertEqual(stat.S_IFMT(newmode), stat.S_IFDIR)
def test_unix_symlink_no_target(self):
inode = self.db.rowid(
"INSERT INTO inodes (mode,uid,gid,mtime_ns,atime_ns,ctime_ns,refcount) "
"VALUES (?,?,?,?,?,?,?)",
(stat.S_IFLNK | stat.S_IRUSR | stat.S_IWUSR, os.getuid(),
os.getgid(), time_ns(), time_ns(), time_ns(), 1))
self._link(b'test-entry', inode)
self.fsck.check_unix()
self.assertTrue(self.fsck.found_errors)
def test_unix_rdev(self):
inode = 42
self.db.execute(
"INSERT INTO inodes (id, mode,uid,gid,mtime_ns,atime_ns,ctime_ns,refcount) "
"VALUES (?,?,?,?,?,?,?,?)",
(inode, stat.S_IFIFO | stat.S_IRUSR | stat.S_IWUSR, os.getuid(),
os.getgid(), time_ns(), time_ns(), time_ns(), 1))
self._link(b'test-entry', inode)
self.fsck.found_errors = False
self.fsck.check_unix()
self.assertFalse(self.fsck.found_errors)
self.db.execute('UPDATE inodes SET rdev=? WHERE id=?', (42, inode))
self.fsck.check_unix()
self.assertTrue(self.fsck.found_errors)
def test_unix_child(self):
inode = self.db.rowid(
"INSERT INTO inodes (mode,uid,gid,mtime_ns,atime_ns,ctime_ns,refcount) "
"VALUES (?,?,?,?,?,?,?)",
(stat.S_IFREG | stat.S_IRUSR | stat.S_IWUSR, os.getuid(),
os.getgid(), time_ns(), time_ns(), time_ns(), 1))
self._link(b'test-entry', inode)
self.fsck.found_errors = False
self.fsck.check_unix()
self.assertFalse(self.fsck.found_errors)
self.db.execute(
'INSERT INTO contents (name_id, inode, parent_inode) VALUES(?,?,?)',
(self._add_name(b'foo'), ROOT_INODE, inode))
self.fsck.check_unix()
self.assertTrue(self.fsck.found_errors)
def test_unix_blocks(self):
inode = self.db.rowid(
"INSERT INTO inodes (mode,uid,gid,mtime_ns,atime_ns,ctime_ns,refcount) "
"VALUES (?,?,?,?,?,?,?)",
(stat.S_IFSOCK | stat.S_IRUSR | stat.S_IWUSR, os.getuid(),
os.getgid(), time_ns(), time_ns(), time_ns(), 1))
self._link(b'test-entry', inode)
self.fsck.found_errors = False
self.fsck.check_unix()
self.assertFalse(self.fsck.found_errors)
obj_id = self.db.rowid(
'INSERT INTO objects (refcount, size) VALUES(1, 32)')
block_id = self.db.rowid(
'INSERT INTO blocks (refcount, obj_id, size) VALUES(?,?,?)',
(1, obj_id, 0))
self.db.execute(
'INSERT INTO inode_blocks (inode, blockno, block_id) VALUES(?,?,?)',
(inode, 1, block_id))
self.fsck.check_unix()
self.assertTrue(self.fsck.found_errors)
class fs_api_tests(unittest.TestCase):
def setUp(self):
self.backend_dir = tempfile.mkdtemp(prefix='s3ql-backend-')
plain_backend = local.Backend('local://' + self.backend_dir, None, None)
self.backend_pool = BackendPool(lambda: ComprencBackend(b'schwubl', ('zlib', 6),
plain_backend))
self.backend = self.backend_pool.pop_conn()
self.cachedir = tempfile.mkdtemp(prefix='s3ql-cache-')
self.max_obj_size = 1024
# Destructors are not guaranteed to run, and we can't unlink
# the file immediately because apsw refers to it by name.
# Therefore, we unlink the file manually in tearDown()
self.dbfile = tempfile.NamedTemporaryFile(delete=False)
self.db = Connection(self.dbfile.name)
create_tables(self.db)
init_tables(self.db)
# Tested methods assume that they are called from
# file system request handler
llfuse.lock.acquire()
cache = BlockCache(self.backend_pool, self.db, self.cachedir + "/cache",
self.max_obj_size * 5)
self.block_cache = cache
self.server = fs.Operations(cache, self.db, self.max_obj_size,
InodeCache(self.db, 0))
self.server.init()
# Monkeypatch around the need for removal and upload threads
cache.to_remove = DummyQueue(cache)
class DummyDistributor:
def put(self, arg, timeout=None):
cache._do_upload(*arg)
return True
cache.to_upload = DummyDistributor()
# Keep track of unused filenames
self.name_cnt = 0
def tearDown(self):
self.server.inodes.destroy()
llfuse.lock.release()
self.block_cache.destroy()
shutil.rmtree(self.cachedir)
shutil.rmtree(self.backend_dir)
os.unlink(self.dbfile.name)
self.dbfile.close()
@staticmethod
def random_data(len_):
with open("/dev/urandom", "rb") as fd:
return fd.read(len_)
def fsck(self):
self.block_cache.clear()
self.server.inodes.flush()
fsck = Fsck(self.cachedir + '/cache', self.backend,
{ 'max_obj_size': self.max_obj_size }, self.db)
fsck.check()
self.assertFalse(fsck.found_errors)
def newname(self):
self.name_cnt += 1
return ("s3ql_%d" % self.name_cnt).encode()
def test_getattr_root(self):
self.assertTrue(stat.S_ISDIR(self.server.getattr(ROOT_INODE).mode))
self.fsck()
def test_create(self):
ctx = Ctx()
mode = self.dir_mode()
name = self.newname()
inode_p_old = self.server.getattr(ROOT_INODE).copy()
safe_sleep(CLOCK_GRANULARITY)
self.server._create(ROOT_INODE, name, mode, ctx)
id_ = self.db.get_val('SELECT inode FROM contents JOIN names ON name_id = names.id '
'WHERE name=? AND parent_inode = ?', (name, ROOT_INODE))
inode = self.server.getattr(id_)
self.assertEqual(inode.mode, mode)
self.assertEqual(inode.uid, ctx.uid)
self.assertEqual(inode.gid, ctx.gid)
self.assertEqual(inode.refcount, 1)
self.assertEqual(inode.size, 0)
inode_p_new = self.server.getattr(ROOT_INODE)
self.assertGreater(inode_p_new.mtime, inode_p_old.mtime)
self.assertGreater(inode_p_new.ctime, inode_p_old.ctime)
self.server.forget([(id_, 1)])
self.fsck()
def test_extstat(self):
# Test with zero contents
self.server.extstat()
# Test with empty file
(fh, inode) = self.server.create(ROOT_INODE, self.newname(),
self.file_mode(), os.O_RDWR, Ctx())
self.server.release(fh)
self.server.extstat()
# Test with data in file
fh = self.server.open(inode.id, os.O_RDWR)
self.server.write(fh, 0, b'foobar')
self.server.release(fh)
self.server.extstat()
self.server.forget([(inode.id, 1)])
self.fsck()
@staticmethod
def dir_mode():
return (randint(0, 0o7777) & ~stat.S_IFDIR) | stat.S_IFDIR
@staticmethod
def file_mode():
return (randint(0, 0o7777) & ~stat.S_IFREG) | stat.S_IFREG
def test_getxattr(self):
(fh, inode) = self.server.create(ROOT_INODE, self.newname(),
self.file_mode(), os.O_RDWR, Ctx())
self.server.release(fh)
self.assertRaises(FUSEError, self.server.getxattr, inode.id, b'nonexistant-attr')
self.server.setxattr(inode.id, b'my-attr', b'strabumm!')
self.assertEqual(self.server.getxattr(inode.id, b'my-attr'), b'strabumm!')
self.server.forget([(inode.id, 1)])
self.fsck()
def test_link(self):
name = self.newname()
inode_p_new = self.server.mkdir(ROOT_INODE, self.newname(),
self.dir_mode(), Ctx())
inode_p_new_before = self.server.getattr(inode_p_new.id).copy()
(fh, inode) = self.server.create(ROOT_INODE, self.newname(),
self.file_mode(), os.O_RDWR, Ctx())
self.server.release(fh)
safe_sleep(CLOCK_GRANULARITY)
inode_before = self.server.getattr(inode.id).copy()
self.server.link(inode.id, inode_p_new.id, name)
inode_after = self.server.lookup(inode_p_new.id, name)
inode_p_new_after = self.server.getattr(inode_p_new.id)
id_ = self.db.get_val('SELECT inode FROM contents JOIN names ON names.id = name_id '
'WHERE name=? AND parent_inode = ?', (name, inode_p_new.id))
self.assertEqual(inode_before.id, id_)
self.assertEqual(inode_after.refcount, 2)
self.assertGreater(inode_after.ctime, inode_before.ctime)
self.assertLess(inode_p_new_before.mtime, inode_p_new_after.mtime)
self.assertLess(inode_p_new_before.ctime, inode_p_new_after.ctime)
self.server.forget([(inode.id, 1), (inode_p_new.id, 1), (inode_after.id, 1)])
self.fsck()
def test_listxattr(self):
(fh, inode) = self.server.create(ROOT_INODE, self.newname(),
self.file_mode(), os.O_RDWR, Ctx())
self.server.release(fh)
self.assertListEqual([], self.server.listxattr(inode.id))
self.server.setxattr(inode.id, b'key1', b'blub')
self.assertListEqual([b'key1'], self.server.listxattr(inode.id))
self.server.setxattr(inode.id, b'key2', b'blub')
self.assertListEqual(sorted([b'key1', b'key2']),
sorted(self.server.listxattr(inode.id)))
self.server.forget([(inode.id, 1)])
self.fsck()
def test_read(self):
len_ = self.max_obj_size
data = self.random_data(len_)
off = self.max_obj_size // 2
(fh, inode) = self.server.create(ROOT_INODE, self.newname(),
self.file_mode(), os.O_RDWR, Ctx())
self.server.write(fh, off, data)
inode_before = self.server.getattr(inode.id).copy()
safe_sleep(CLOCK_GRANULARITY)
self.assertTrue(self.server.read(fh, off, len_) == data)
inode_after = self.server.getattr(inode.id)
self.assertGreater(inode_after.atime, inode_before.atime)
self.assertTrue(self.server.read(fh, 0, len_) == b"\0" * off + data[:off])
self.assertTrue(self.server.read(fh, self.max_obj_size, len_) == data[off:])
self.server.release(fh)
self.server.forget([(inode.id, 1)])
self.fsck()
def test_readdir(self):
# Create a few entries
names = [ ('entry_%2d' % i).encode() for i in range(20) ]
for name in names:
(fh, inode) = self.server.create(ROOT_INODE, name,
self.file_mode(), os.O_RDWR, Ctx())
self.server.release(fh)
self.server.forget([(inode.id, 1)])
# Delete some to make sure that we don't have continous rowids
remove_no = [0, 2, 3, 5, 9]
for i in remove_no:
self.server.unlink(ROOT_INODE, names[i])
del names[i]
# Read all
fh = self.server.opendir(ROOT_INODE)
self.assertListEqual(sorted(names + [b'lost+found']) ,
sorted(x[0] for x in self.server.readdir(fh, 0)))
self.server.releasedir(fh)
# Read in parts
fh = self.server.opendir(ROOT_INODE)
entries = list()
try:
next_ = 0
while True:
gen = self.server.readdir(fh, next_)
for _ in range(3):
(name, _, next_) = next(gen)
entries.append(name)
except StopIteration:
pass
self.assertListEqual(sorted(names + [b'lost+found']) ,
sorted(entries))
self.server.releasedir(fh)
self.fsck()
def test_forget(self):
name = self.newname()
# Test that entries are deleted when they're no longer referenced
(fh, inode) = self.server.create(ROOT_INODE, name,
self.file_mode(), os.O_RDWR, Ctx())
self.server.write(fh, 0, b'foobar')
self.server.unlink(ROOT_INODE, name)
self.assertFalse(self.db.has_val('SELECT 1 FROM contents JOIN names ON names.id = name_id '
'WHERE name=? AND parent_inode = ?', (name, ROOT_INODE)))
self.assertTrue(self.server.getattr(inode.id).id)
self.server.release(fh)
self.server.forget([(inode.id, 1)])
self.assertFalse(self.db.has_val('SELECT 1 FROM inodes WHERE id=?', (inode.id,)))
self.fsck()
def test_removexattr(self):
(fh, inode) = self.server.create(ROOT_INODE, self.newname(),
self.file_mode(), os.O_RDWR, Ctx())
self.server.release(fh)
self.assertRaises(FUSEError, self.server.removexattr, inode.id, b'some name')
self.server.setxattr(inode.id, b'key1', b'blub')
self.server.removexattr(inode.id, b'key1')
self.assertListEqual([], self.server.listxattr(inode.id))
self.server.forget([(inode.id, 1)])
self.fsck()
def test_rename(self):
oldname = self.newname()
newname = self.newname()
inode = self.server.mkdir(ROOT_INODE, oldname, self.dir_mode(), Ctx())
inode_p_new = self.server.mkdir(ROOT_INODE, self.newname(), self.dir_mode(), Ctx())
inode_p_new_before = self.server.getattr(inode_p_new.id).copy()
inode_p_old_before = self.server.getattr(ROOT_INODE).copy()
safe_sleep(CLOCK_GRANULARITY)
self.server.rename(ROOT_INODE, oldname, inode_p_new.id, newname)
inode_p_old_after = self.server.getattr(ROOT_INODE)
inode_p_new_after = self.server.getattr(inode_p_new.id)
self.assertFalse(self.db.has_val('SELECT inode FROM contents JOIN names ON names.id = name_id '
'WHERE name=? AND parent_inode = ?', (oldname, ROOT_INODE)))
id_ = self.db.get_val('SELECT inode FROM contents JOIN names ON names.id == name_id '
'WHERE name=? AND parent_inode = ?', (newname, inode_p_new.id))
self.assertEqual(inode.id, id_)
self.assertLess(inode_p_new_before.mtime, inode_p_new_after.mtime)
self.assertLess(inode_p_new_before.ctime, inode_p_new_after.ctime)
self.assertLess(inode_p_old_before.mtime, inode_p_old_after.mtime)
self.assertLess(inode_p_old_before.ctime, inode_p_old_after.ctime)
self.server.forget([(inode.id, 1), (inode_p_new.id, 1)])
self.fsck()
def test_replace_file(self):
oldname = self.newname()
newname = self.newname()
(fh, inode) = self.server.create(ROOT_INODE, oldname, self.file_mode(),
os.O_RDWR, Ctx())
self.server.write(fh, 0, b'some data to deal with')
self.server.release(fh)
self.server.setxattr(inode.id, b'test_xattr', b'42*8')
inode_p_new = self.server.mkdir(ROOT_INODE, self.newname(), self.dir_mode(), Ctx())
inode_p_new_before = self.server.getattr(inode_p_new.id).copy()
inode_p_old_before = self.server.getattr(ROOT_INODE).copy()
(fh, inode2) = self.server.create(inode_p_new.id, newname, self.file_mode(),
os.O_RDWR, Ctx())
self.server.write(fh, 0, b'even more data to deal with')
self.server.release(fh)
self.server.setxattr(inode2.id, b'test_xattr', b'42*8')
self.server.forget([(inode2.id, 1)])
safe_sleep(CLOCK_GRANULARITY)
self.server.rename(ROOT_INODE, oldname, inode_p_new.id, newname)
inode_p_old_after = self.server.getattr(ROOT_INODE)
inode_p_new_after = self.server.getattr(inode_p_new.id)
self.assertFalse(self.db.has_val('SELECT inode FROM contents JOIN names ON names.id = name_id '
'WHERE name=? AND parent_inode = ?', (oldname, ROOT_INODE)))
id_ = self.db.get_val('SELECT inode FROM contents JOIN names ON names.id = name_id '
'WHERE name=? AND parent_inode = ?', (newname, inode_p_new.id))
self.assertEqual(inode.id, id_)
self.assertLess(inode_p_new_before.mtime, inode_p_new_after.mtime)
self.assertLess(inode_p_new_before.ctime, inode_p_new_after.ctime)
self.assertLess(inode_p_old_before.mtime, inode_p_old_after.mtime)
self.assertLess(inode_p_old_before.ctime, inode_p_old_after.ctime)
self.assertFalse(self.db.has_val('SELECT id FROM inodes WHERE id=?', (inode2.id,)))
self.server.forget([(inode.id, 1), (inode_p_new.id, 1)])
self.fsck()
def test_replace_dir(self):
oldname = self.newname()
newname = self.newname()
inode = self.server.mkdir(ROOT_INODE, oldname, self.dir_mode(), Ctx())
inode_p_new = self.server.mkdir(ROOT_INODE, self.newname(), self.dir_mode(), Ctx())
inode_p_new_before = self.server.getattr(inode_p_new.id).copy()
inode_p_old_before = self.server.getattr(ROOT_INODE).copy()
inode2 = self.server.mkdir(inode_p_new.id, newname, self.dir_mode(), Ctx())
self.server.forget([(inode2.id, 1)])
safe_sleep(CLOCK_GRANULARITY)
self.server.rename(ROOT_INODE, oldname, inode_p_new.id, newname)
inode_p_old_after = self.server.getattr(ROOT_INODE)
inode_p_new_after = self.server.getattr(inode_p_new.id)
self.assertFalse(self.db.has_val('SELECT inode FROM contents JOIN names ON names.id = name_id '
'WHERE name=? AND parent_inode = ?', (oldname, ROOT_INODE)))
id_ = self.db.get_val('SELECT inode FROM contents JOIN names ON names.id = name_id '
'WHERE name=? AND parent_inode = ?', (newname, inode_p_new.id))
self.assertEqual(inode.id, id_)
self.assertLess(inode_p_new_before.mtime, inode_p_new_after.mtime)
self.assertLess(inode_p_new_before.ctime, inode_p_new_after.ctime)
self.assertLess(inode_p_old_before.mtime, inode_p_old_after.mtime)
self.assertLess(inode_p_old_before.ctime, inode_p_old_after.ctime)
self.server.forget([(inode.id, 1), (inode_p_new.id, 1)])
self.assertFalse(self.db.has_val('SELECT id FROM inodes WHERE id=?', (inode2.id,)))
self.fsck()
def test_setattr(self):
(fh, inode) = self.server.create(ROOT_INODE, self.newname(), 0o641,
os.O_RDWR, Ctx())
self.server.release(fh)
inode_old = self.server.getattr(inode.id).copy()
attr = llfuse.EntryAttributes()
attr.st_mode = self.file_mode()
attr.st_uid = randint(0, 2 ** 32)
attr.st_gid = None
attr.st_atime = randint(0, 2 ** 32) / 10 ** 6
attr.st_mtime = randint(0, 2 ** 32) / 10 ** 6
safe_sleep(CLOCK_GRANULARITY)
self.server.setattr(inode.id, attr)
inode_new = self.server.getattr(inode.id)
self.assertGreater(inode_new.ctime, inode_old.ctime)
for key in attr.__slots__:
if key in ('st_mode', 'st_uid', 'st_atime', 'st_mtime'):
self.assertEqual(getattr(attr, key),
getattr(inode_new, key), '%s mismatch' % key)
elif key != 'st_ctime':
self.assertEqual(getattr(inode_old, key),
getattr(inode_new, key), '%s mismatch' % key)
self.server.forget([(inode.id, 1)])
self.fsck()
def test_truncate(self):
len_ = int(2.7 * self.max_obj_size)
data = self.random_data(len_)
attr = llfuse.EntryAttributes()
(fh, inode) = self.server.create(ROOT_INODE, self.newname(), self.file_mode(),
os.O_RDWR, Ctx())
self.server.write(fh, 0, data)
attr.st_size = len_ // 2
self.server.setattr(inode.id, attr)
self.assertTrue(self.server.read(fh, 0, len_) == data[:len_ // 2])
attr.st_size = len_
self.server.setattr(inode.id, attr)
self.assertTrue(self.server.read(fh, 0, len_)
== data[:len_ // 2] + b'\0' * (len_ // 2))
self.server.release(fh)
self.server.forget([(inode.id, 1)])
self.fsck()
def test_truncate_0(self):
len1 = 158
len2 = 133
attr = llfuse.EntryAttributes()
(fh, inode) = self.server.create(ROOT_INODE, self.newname(),
self.file_mode(), os.O_RDWR, Ctx())
self.server.write(fh, 0, self.random_data(len1))
self.server.release(fh)
self.server.inodes.flush()
fh = self.server.open(inode.id, os.O_RDWR)
attr.st_size = 0
self.server.setattr(inode.id, attr)
self.server.write(fh, 0, self.random_data(len2))
self.server.release(fh)
self.server.forget([(inode.id, 1)])
self.fsck()
def test_setxattr(self):
(fh, inode) = self.server.create(ROOT_INODE, self.newname(),
self.file_mode(), os.O_RDWR, Ctx())
self.server.release(fh)
self.server.setxattr(inode.id, b'my-attr', b'strabumm!')
self.assertEqual(self.server.getxattr(inode.id, b'my-attr'), b'strabumm!')
self.server.forget([(inode.id, 1)])
self.fsck()
def test_names(self):
name1 = self.newname()
name2 = self.newname()
(fh, inode) = self.server.create(ROOT_INODE, name1, self.file_mode(),
os.O_RDWR, Ctx())
self.server.release(fh)
self.server.forget([(inode.id, 1)])
(fh, inode) = self.server.create(ROOT_INODE, name2, self.file_mode(),
os.O_RDWR, Ctx())
self.server.release(fh)
self.server.setxattr(inode.id, name1, b'strabumm!')
self.fsck()
self.server.removexattr(inode.id, name1)
self.fsck()
self.server.setxattr(inode.id, name1, b'strabumm karacho!!')
self.server.unlink(ROOT_INODE, name1)
self.server.forget([(inode.id, 1)])
self.fsck()
def test_statfs(self):
# Test with zero contents
self.server.statfs()
# Test with empty file
(fh, inode) = self.server.create(ROOT_INODE, self.newname(),
self.file_mode(), os.O_RDWR, Ctx())
self.server.release(fh)
self.server.statfs()
# Test with data in file
fh = self.server.open(inode.id, os.O_RDWR)
self.server.write(fh, 0, b'foobar')
self.server.release(fh)
self.server.forget([(inode.id, 1)])
self.server.statfs()
def test_symlink(self):
target = self.newname()
name = self.newname()
inode_p_before = self.server.getattr(ROOT_INODE).copy()
safe_sleep(CLOCK_GRANULARITY)
inode = self.server.symlink(ROOT_INODE, name, target, Ctx())
inode_p_after = self.server.getattr(ROOT_INODE)
self.assertEqual(target, self.server.readlink(inode.id))
id_ = self.db.get_val('SELECT inode FROM contents JOIN names ON names.id = name_id '
'WHERE name=? AND parent_inode = ?', (name, ROOT_INODE))
self.assertEqual(inode.id, id_)
self.assertLess(inode_p_before.mtime, inode_p_after.mtime)
self.assertLess(inode_p_before.ctime, inode_p_after.ctime)
self.server.forget([(inode.id, 1)])
self.fsck()
def test_unlink(self):
name = self.newname()
(fh, inode) = self.server.create(ROOT_INODE, name, self.file_mode(), os.O_RDWR, Ctx())
self.server.write(fh, 0, b'some data to deal with')
self.server.release(fh)
# Add extended attributes
self.server.setxattr(inode.id, b'test_xattr', b'42*8')
self.server.forget([(inode.id, 1)])
inode_p_before = self.server.getattr(ROOT_INODE).copy()
safe_sleep(CLOCK_GRANULARITY)
self.server.unlink(ROOT_INODE, name)
inode_p_after = self.server.getattr(ROOT_INODE)
self.assertLess(inode_p_before.mtime, inode_p_after.mtime)
self.assertLess(inode_p_before.ctime, inode_p_after.ctime)
self.assertFalse(self.db.has_val('SELECT inode FROM contents JOIN names ON names.id = name_id '
'WHERE name=? AND parent_inode = ?', (name, ROOT_INODE)))
self.assertFalse(self.db.has_val('SELECT id FROM inodes WHERE id=?', (inode.id,)))
self.fsck()
def test_rmdir(self):
name = self.newname()
inode = self.server.mkdir(ROOT_INODE, name, self.dir_mode(), Ctx())
self.server.forget([(inode.id, 1)])
inode_p_before = self.server.getattr(ROOT_INODE).copy()
safe_sleep(CLOCK_GRANULARITY)
self.server.rmdir(ROOT_INODE, name)
inode_p_after = self.server.getattr(ROOT_INODE)
self.assertLess(inode_p_before.mtime, inode_p_after.mtime)
self.assertLess(inode_p_before.ctime, inode_p_after.ctime)
self.assertFalse(self.db.has_val('SELECT inode FROM contents JOIN names ON names.id = name_id '
'WHERE name=? AND parent_inode = ?', (name, ROOT_INODE)))
self.assertFalse(self.db.has_val('SELECT id FROM inodes WHERE id=?', (inode.id,)))
self.fsck()
def test_relink(self):
name = self.newname()
name2 = self.newname()
data = b'some data to deal with'
(fh, inode) = self.server.create(ROOT_INODE, name, self.file_mode(), os.O_RDWR, Ctx())
self.server.write(fh, 0, data)
self.server.release(fh)
self.server.unlink(ROOT_INODE, name)
self.server.inodes.flush()
self.assertFalse(self.db.has_val('SELECT inode FROM contents JOIN names ON names.id = name_id '
'WHERE name=? AND parent_inode = ?', (name, ROOT_INODE)))
self.assertTrue(self.db.has_val('SELECT id FROM inodes WHERE id=?', (inode.id,)))
self.server.link(inode.id, ROOT_INODE, name2)
self.server.forget([(inode.id, 2)])
inode = self.server.lookup(ROOT_INODE, name2)
fh = self.server.open(inode.id, os.O_RDONLY)
self.assertTrue(self.server.read(fh, 0, len(data)) == data)
self.server.release(fh)
self.server.forget([(inode.id, 1)])
self.fsck()
def test_write(self):
len_ = self.max_obj_size
data = self.random_data(len_)
off = self.max_obj_size // 2
(fh, inode) = self.server.create(ROOT_INODE, self.newname(),
self.file_mode(), os.O_RDWR, Ctx())
inode_before = self.server.getattr(inode.id).copy()
safe_sleep(CLOCK_GRANULARITY)
self.server.write(fh, off, data)
inode_after = self.server.getattr(inode.id)
self.assertGreater(inode_after.mtime, inode_before.mtime)
self.assertGreater(inode_after.ctime, inode_before.ctime)
self.assertEqual(inode_after.size, off + len_)
self.server.write(fh, 0, data)
inode_after = self.server.getattr(inode.id)
self.assertEqual(inode_after.size, off + len_)
self.server.release(fh)
self.server.forget([(inode.id, 1)])
self.fsck()
def test_failsafe(self):
len_ = self.max_obj_size
data = self.random_data(len_)
(fh, inode) = self.server.create(ROOT_INODE, self.newname(),
self.file_mode(), os.O_RDWR, Ctx())
self.server.write(fh, 0, data)
self.server.cache.clear()
self.assertTrue(self.server.failsafe is False)
datafile = os.path.join(self.backend_dir, 's3ql_data_', 's3ql_data_1')
shutil.copy(datafile, datafile + '.bak')
# Modify contents
with open(datafile, 'rb+') as rfh:
rfh.seek(560)
rfh.write(b'blrub!')
with self.assertRaises(FUSEError) as cm:
with catch_logmsg('^Backend returned malformed data for',
count=1, level=logging.ERROR):
self.server.read(fh, 0, len_)
self.assertEqual(cm.exception.errno, errno.EIO)
self.assertTrue(self.server.failsafe)
# Restore contents, but should be marked as damaged now
os.rename(datafile + '.bak', datafile)
with self.assertRaises(FUSEError) as cm:
self.server.read(fh, 0, len_)
self.assertEqual(cm.exception.errno, errno.EIO)
# Release and re-open, now we should be able to access again
self.server.release(fh)
self.server.forget([(inode.id, 1)])
# ..but not write access since we are in failsafe mode
with self.assertRaises(FUSEError) as cm:
self.server.open(inode.id, os.O_RDWR)
self.assertEqual(cm.exception.errno, errno.EPERM)
# ..ready only is fine.
fh = self.server.open(inode.id, os.O_RDONLY)
self.server.read(fh, 0, len_)
# Remove completely, should give error after cache flush
os.unlink(datafile)
self.server.read(fh, 3, len_//2)
self.server.cache.clear()
with self.assertRaises(FUSEError) as cm:
with catch_logmsg('^Backend lost block',
count=1, level=logging.ERROR):
self.server.read(fh, 5, len_//2)
self.assertEqual(cm.exception.errno, errno.EIO)
# Don't call fsck, we're missing a block
def test_create_open(self):
name = self.newname()
# Create a new file
(fh, inode) = self.server.create(ROOT_INODE, name, self.file_mode(),
os.O_RDWR, Ctx())
self.server.release(fh)
self.server.forget([(inode, 1)])
# Open it atomically
(fh, inode) = self.server.create(ROOT_INODE, name, self.file_mode(),
os.O_RDWR, Ctx())
self.server.release(fh)
self.server.forget([(inode, 1)])
self.fsck()
def test_edit(self):
len_ = self.max_obj_size
data = self.random_data(len_)
(fh, inode) = self.server.create(ROOT_INODE, self.newname(),
self.file_mode(), os.O_RDWR, Ctx())
self.server.write(fh, 0, data)
self.server.release(fh)
self.block_cache.clear()
fh = self.server.open(inode.id, os.O_RDWR)
attr = llfuse.EntryAttributes()
attr.st_size = 0
self.server.setattr(inode.id, attr)
self.server.write(fh, 0, data[50:])
self.server.release(fh)
self.server.forget([(inode.id, 1)])
self.fsck()
def test_copy_tree(self):
ext_attr_name = b'system.foo.brazl'
ext_attr_val = b'schulla dku woumm bramp'
src_inode = self.server.mkdir(ROOT_INODE, b'source', self.dir_mode(), Ctx())
dst_inode = self.server.mkdir(ROOT_INODE, b'dest', self.dir_mode(), Ctx())
# Create file
(fh, f1_inode) = self.server.create(src_inode.id, b'file1',
self.file_mode(), os.O_RDWR, Ctx())
self.server.write(fh, 0, b'file1 contents')
self.server.release(fh)
self.server.setxattr(f1_inode.id, ext_attr_name, ext_attr_val)
# Create hardlink
(fh, f2_inode) = self.server.create(src_inode.id, b'file2',
self.file_mode(), os.O_RDWR, Ctx())
self.server.write(fh, 0, b'file2 contents')
self.server.release(fh)
f2_inode = self.server.link(f2_inode.id, src_inode.id, b'file2_hardlink')
# Create subdirectory
d1_inode = self.server.mkdir(src_inode.id, b'dir1', self.dir_mode(), Ctx())
d2_inode = self.server.mkdir(d1_inode.id, b'dir2', self.dir_mode(), Ctx())
# ..with a 3rd hardlink
f2_inode = self.server.link(f2_inode.id, d1_inode.id, b'file2_hardlink')
# Replicate
self.server.copy_tree(src_inode.id, dst_inode.id)
# Change files
fh = self.server.open(f1_inode.id, os.O_RDWR)
self.server.write(fh, 0, b'new file1 contents')
self.server.release(fh)
fh = self.server.open(f2_inode.id, os.O_RDWR)
self.server.write(fh, 0, b'new file2 contents')
self.server.release(fh)
# Get copy properties
f1_inode_c = self.server.lookup(dst_inode.id, b'file1')
f2_inode_c = self.server.lookup(dst_inode.id, b'file2')
f2h_inode_c = self.server.lookup(dst_inode.id, b'file2_hardlink')
d1_inode_c = self.server.lookup(dst_inode.id, b'dir1')
d2_inode_c = self.server.lookup(d1_inode_c.id, b'dir2')
f2_h_inode_c = self.server.lookup(d1_inode_c.id, b'file2_hardlink')
# Check file1
fh = self.server.open(f1_inode_c.id, os.O_RDWR)
self.assertEqual(self.server.read(fh, 0, 42), b'file1 contents')
self.server.release(fh)
self.assertNotEqual(f1_inode.id, f1_inode_c.id)
self.assertEqual(self.server.getxattr(f1_inode_c.id, ext_attr_name),
ext_attr_val)
# Check file2
fh = self.server.open(f2_inode_c.id, os.O_RDWR)
self.assertTrue(self.server.read(fh, 0, 42) == b'file2 contents')
self.server.release(fh)
self.assertEqual(f2_inode_c.id, f2h_inode_c.id)
self.assertEqual(f2_inode_c.refcount, 3)
self.assertNotEqual(f2_inode.id, f2_inode_c.id)
self.assertEqual(f2_h_inode_c.id, f2_inode_c.id)
# Check subdir1
self.assertNotEqual(d1_inode.id, d1_inode_c.id)
self.assertNotEqual(d2_inode.id, d2_inode_c.id)
self.server.forget(list(self.server.open_inodes.items()))
self.fsck()
def test_copy_tree_2(self):
src_inode = self.server.mkdir(ROOT_INODE, b'source', self.dir_mode(), Ctx())
dst_inode = self.server.mkdir(ROOT_INODE, b'dest', self.dir_mode(), Ctx())
# Create file
(fh, inode) = self.server.create(src_inode.id, b'file1',
self.file_mode(), os.O_RDWR, Ctx())
self.server.write(fh, 0, b'block 1 contents')
self.server.write(fh, self.max_obj_size, b'block 1 contents')
self.server.release(fh)
self.server.forget([(inode.id, 1)])
self.server.copy_tree(src_inode.id, dst_inode.id)
self.server.forget([(src_inode.id, 1), (dst_inode.id, 1)])
self.fsck()
def test_lock_tree(self):
inode1 = self.server.mkdir(ROOT_INODE, b'source', self.dir_mode(), Ctx())
# Create file
(fh, inode1a) = self.server.create(inode1.id, b'file1',
self.file_mode(), os.O_RDWR, Ctx())
self.server.write(fh, 0, b'file1 contents')
self.server.release(fh)
# Create subdirectory
inode2 = self.server.mkdir(inode1.id, b'dir1', self.dir_mode(), Ctx())
(fh, inode2a) = self.server.create(inode2.id, b'file2',
self.file_mode(), os.O_RDWR, Ctx())
self.server.write(fh, 0, b'file2 contents')
self.server.release(fh)
# Another file
(fh, inode3) = self.server.create(ROOT_INODE, b'file1',
self.file_mode(), os.O_RDWR, Ctx())
self.server.release(fh)
# Lock
self.server.lock_tree(inode1.id)
for i in (inode1.id, inode1a.id, inode2.id, inode2a.id):
self.assertTrue(self.server.inodes[i].locked)
# Remove
with self.assertRaises(FUSEError) as cm:
self.server._remove(inode1.id, b'file1', inode1a.id)
self.assertEqual(cm.exception.errno, errno.EPERM)
# Rename / Replace
with self.assertRaises(FUSEError) as cm:
self.server.rename(ROOT_INODE, b'file1', inode1.id, b'file2')
self.assertEqual(cm.exception.errno, errno.EPERM)
with self.assertRaises(FUSEError) as cm:
self.server.rename(inode1.id, b'file1', ROOT_INODE, b'file2')
self.assertEqual(cm.exception.errno, errno.EPERM)
# Open
with self.assertRaises(FUSEError) as cm:
self.server.open(inode2a.id, os.O_RDWR)
self.assertEqual(cm.exception.errno, errno.EPERM)
with self.assertRaises(FUSEError) as cm:
self.server.open(inode2a.id, os.O_WRONLY)
self.assertEqual(cm.exception.errno, errno.EPERM)
self.server.release(self.server.open(inode3.id, os.O_WRONLY))
# Write
fh = self.server.open(inode2a.id, os.O_RDONLY)
with self.assertRaises(FUSEError) as cm:
self.server.write(fh, 0, b'foo')
self.assertEqual(cm.exception.errno, errno.EPERM)
self.server.release(fh)
# Create
with self.assertRaises(FUSEError) as cm:
self.server._create(inode2.id, b'dir1', self.dir_mode(), os.O_RDWR, Ctx())
self.assertEqual(cm.exception.errno, errno.EPERM)
# Setattr
with self.assertRaises(FUSEError) as cm:
self.server.setattr(inode2a.id, dict())
self.assertEqual(cm.exception.errno, errno.EPERM)
# xattr
with self.assertRaises(FUSEError) as cm:
self.server.setxattr(inode2.id, b'name', b'value')
self.assertEqual(cm.exception.errno, errno.EPERM)
with self.assertRaises(FUSEError) as cm:
self.server.removexattr(inode2.id, b'name')
self.assertEqual(cm.exception.errno, errno.EPERM)
self.server.forget(list(self.server.open_inodes.items()))
self.fsck()
def test_remove_tree(self):
inode1 = self.server.mkdir(ROOT_INODE, b'source', self.dir_mode(), Ctx())
# Create file
(fh, inode1a) = self.server.create(inode1.id, b'file1',
self.file_mode(), os.O_RDWR, Ctx())
self.server.write(fh, 0, b'file1 contents')
self.server.release(fh)
# Create subdirectory
inode2 = self.server.mkdir(inode1.id, b'dir1', self.dir_mode(), Ctx())
(fh, inode2a) = self.server.create(inode2.id, b'file2',
self.file_mode(), os.O_RDWR, Ctx())
self.server.write(fh, 0, b'file2 contents')
self.server.release(fh)
# Remove
self.server.forget(list(self.server.open_inodes.items()))
self.server.remove_tree(ROOT_INODE, b'source')
for (id_p, name) in ((ROOT_INODE, b'source'),
(inode1.id, b'file1'),
(inode1.id, b'dir1'),
(inode2.id, b'file2')):
self.assertFalse(self.db.has_val('SELECT inode FROM contents JOIN names ON names.id = name_id '
'WHERE name=? AND parent_inode = ?', (name, id_p)))
for id_ in (inode1.id, inode1a.id, inode2.id, inode2a.id):
self.assertFalse(self.db.has_val('SELECT id FROM inodes WHERE id=?', (id_,)))
self.fsck()
class fs_api_tests(unittest.TestCase):
def setUp(self):
self.backend_dir = tempfile.mkdtemp(prefix='s3ql-backend-')
plain_backend = local.Backend('local://' + self.backend_dir, None,
None)
self.backend_pool = BackendPool(
lambda: ComprencBackend(b'schwubl', ('zlib', 6), plain_backend))
self.backend = self.backend_pool.pop_conn()
self.cachedir = tempfile.mkdtemp(prefix='s3ql-cache-')
self.max_obj_size = 1024
# Destructors are not guaranteed to run, and we can't unlink
# the file immediately because apsw refers to it by name.
# Therefore, we unlink the file manually in tearDown()
self.dbfile = tempfile.NamedTemporaryFile(delete=False)
self.db = Connection(self.dbfile.name)
create_tables(self.db)
init_tables(self.db)
# Tested methods assume that they are called from
# file system request handler
llfuse.lock.acquire()
cache = BlockCache(self.backend_pool, self.db,
self.cachedir + "/cache", self.max_obj_size * 5)
self.block_cache = cache
self.server = fs.Operations(cache, self.db, self.max_obj_size,
InodeCache(self.db, 0))
self.server.init()
# Monkeypatch around the need for removal and upload threads
cache.to_remove = DummyQueue(cache)
class DummyDistributor:
def put(self, arg, timeout=None):
cache._do_upload(*arg)
return True
cache.to_upload = DummyDistributor()
# Keep track of unused filenames
self.name_cnt = 0
def tearDown(self):
self.server.inodes.destroy()
llfuse.lock.release()
self.block_cache.destroy()
shutil.rmtree(self.cachedir)
shutil.rmtree(self.backend_dir)
os.unlink(self.dbfile.name)
self.dbfile.close()
@staticmethod
def random_data(len_):
with open("/dev/urandom", "rb") as fd:
return fd.read(len_)
def fsck(self):
self.block_cache.clear()
self.server.inodes.flush()
fsck = Fsck(self.cachedir + '/cache', self.backend,
{'max_obj_size': self.max_obj_size}, self.db)
fsck.check()
self.assertFalse(fsck.found_errors)
def newname(self):
self.name_cnt += 1
return ("s3ql_%d" % self.name_cnt).encode()
def test_getattr_root(self):
self.assertTrue(stat.S_ISDIR(self.server.getattr(ROOT_INODE).mode))
self.fsck()
def test_create(self):
ctx = Ctx()
mode = self.dir_mode()
name = self.newname()
inode_p_old = self.server.getattr(ROOT_INODE).copy()
safe_sleep(CLOCK_GRANULARITY)
self.server._create(ROOT_INODE, name, mode, ctx)
id_ = self.db.get_val(
'SELECT inode FROM contents JOIN names ON name_id = names.id '
'WHERE name=? AND parent_inode = ?', (name, ROOT_INODE))
inode = self.server.getattr(id_)
self.assertEqual(inode.mode, mode)
self.assertEqual(inode.uid, ctx.uid)
self.assertEqual(inode.gid, ctx.gid)
self.assertEqual(inode.refcount, 1)
self.assertEqual(inode.size, 0)
inode_p_new = self.server.getattr(ROOT_INODE)
self.assertGreater(inode_p_new.mtime, inode_p_old.mtime)
self.assertGreater(inode_p_new.ctime, inode_p_old.ctime)
self.server.forget([(id_, 1)])
self.fsck()
def test_extstat(self):
# Test with zero contents
self.server.extstat()
# Test with empty file
(fh, inode) = self.server.create(ROOT_INODE, self.newname(),
self.file_mode(), os.O_RDWR, Ctx())
self.server.release(fh)
self.server.extstat()
# Test with data in file
fh = self.server.open(inode.id, os.O_RDWR)
self.server.write(fh, 0, b'foobar')
self.server.release(fh)
self.server.extstat()
self.server.forget([(inode.id, 1)])
self.fsck()
@staticmethod
def dir_mode():
return (randint(0, 0o7777) & ~stat.S_IFDIR) | stat.S_IFDIR
@staticmethod
def file_mode():
return (randint(0, 0o7777) & ~stat.S_IFREG) | stat.S_IFREG
def test_getxattr(self):
(fh, inode) = self.server.create(ROOT_INODE, self.newname(),
self.file_mode(), os.O_RDWR, Ctx())
self.server.release(fh)
self.assertRaises(FUSEError, self.server.getxattr, inode.id,
b'nonexistant-attr')
self.server.setxattr(inode.id, b'my-attr', b'strabumm!')
self.assertEqual(self.server.getxattr(inode.id, b'my-attr'),
b'strabumm!')
self.server.forget([(inode.id, 1)])
self.fsck()
def test_link(self):
name = self.newname()
inode_p_new = self.server.mkdir(ROOT_INODE, self.newname(),
self.dir_mode(), Ctx())
inode_p_new_before = self.server.getattr(inode_p_new.id).copy()
(fh, inode) = self.server.create(ROOT_INODE, self.newname(),
self.file_mode(), os.O_RDWR, Ctx())
self.server.release(fh)
safe_sleep(CLOCK_GRANULARITY)
inode_before = self.server.getattr(inode.id).copy()
self.server.link(inode.id, inode_p_new.id, name)
inode_after = self.server.lookup(inode_p_new.id, name)
inode_p_new_after = self.server.getattr(inode_p_new.id)
id_ = self.db.get_val(
'SELECT inode FROM contents JOIN names ON names.id = name_id '
'WHERE name=? AND parent_inode = ?', (name, inode_p_new.id))
self.assertEqual(inode_before.id, id_)
self.assertEqual(inode_after.refcount, 2)
self.assertGreater(inode_after.ctime, inode_before.ctime)
self.assertLess(inode_p_new_before.mtime, inode_p_new_after.mtime)
self.assertLess(inode_p_new_before.ctime, inode_p_new_after.ctime)
self.server.forget([(inode.id, 1), (inode_p_new.id, 1),
(inode_after.id, 1)])
self.fsck()
def test_listxattr(self):
(fh, inode) = self.server.create(ROOT_INODE, self.newname(),
self.file_mode(), os.O_RDWR, Ctx())
self.server.release(fh)
self.assertListEqual([], self.server.listxattr(inode.id))
self.server.setxattr(inode.id, b'key1', b'blub')
self.assertListEqual([b'key1'], self.server.listxattr(inode.id))
self.server.setxattr(inode.id, b'key2', b'blub')
self.assertListEqual(sorted([b'key1', b'key2']),
sorted(self.server.listxattr(inode.id)))
self.server.forget([(inode.id, 1)])
self.fsck()
def test_read(self):
len_ = self.max_obj_size
data = self.random_data(len_)
off = self.max_obj_size // 2
(fh, inode) = self.server.create(ROOT_INODE, self.newname(),
self.file_mode(), os.O_RDWR, Ctx())
self.server.write(fh, off, data)
inode_before = self.server.getattr(inode.id).copy()
safe_sleep(CLOCK_GRANULARITY)
self.assertTrue(self.server.read(fh, off, len_) == data)
inode_after = self.server.getattr(inode.id)
self.assertGreater(inode_after.atime, inode_before.atime)
self.assertTrue(
self.server.read(fh, 0, len_) == b"\0" * off + data[:off])
self.assertTrue(
self.server.read(fh, self.max_obj_size, len_) == data[off:])
self.server.release(fh)
self.server.forget([(inode.id, 1)])
self.fsck()
def test_readdir(self):
# Create a few entries
names = [('entry_%2d' % i).encode() for i in range(20)]
for name in names:
(fh, inode) = self.server.create(ROOT_INODE,
name, self.file_mode(), os.O_RDWR,
Ctx())
self.server.release(fh)
self.server.forget([(inode.id, 1)])
# Delete some to make sure that we don't have continous rowids
remove_no = [0, 2, 3, 5, 9]
for i in remove_no:
self.server.unlink(ROOT_INODE, names[i])
del names[i]
# Read all
fh = self.server.opendir(ROOT_INODE)
self.assertListEqual(sorted(names + [b'lost+found']),
sorted(x[0] for x in self.server.readdir(fh, 0)))
self.server.releasedir(fh)
# Read in parts
fh = self.server.opendir(ROOT_INODE)
entries = list()
try:
next_ = 0
while True:
gen = self.server.readdir(fh, next_)
for _ in range(3):
(name, _, next_) = next(gen)
entries.append(name)
except StopIteration:
pass
self.assertListEqual(sorted(names + [b'lost+found']), sorted(entries))
self.server.releasedir(fh)
self.fsck()
def test_forget(self):
name = self.newname()
# Test that entries are deleted when they're no longer referenced
(fh, inode) = self.server.create(ROOT_INODE, name, self.file_mode(),
os.O_RDWR, Ctx())
self.server.write(fh, 0, b'foobar')
self.server.unlink(ROOT_INODE, name)
self.assertFalse(
self.db.has_val(
'SELECT 1 FROM contents JOIN names ON names.id = name_id '
'WHERE name=? AND parent_inode = ?', (name, ROOT_INODE)))
self.assertTrue(self.server.getattr(inode.id).id)
self.server.release(fh)
self.server.forget([(inode.id, 1)])
self.assertFalse(
self.db.has_val('SELECT 1 FROM inodes WHERE id=?', (inode.id, )))
self.fsck()
def test_removexattr(self):
(fh, inode) = self.server.create(ROOT_INODE, self.newname(),
self.file_mode(), os.O_RDWR, Ctx())
self.server.release(fh)
self.assertRaises(FUSEError, self.server.removexattr, inode.id,
b'some name')
self.server.setxattr(inode.id, b'key1', b'blub')
self.server.removexattr(inode.id, b'key1')
self.assertListEqual([], self.server.listxattr(inode.id))
self.server.forget([(inode.id, 1)])
self.fsck()
def test_rename(self):
oldname = self.newname()
newname = self.newname()
inode = self.server.mkdir(ROOT_INODE, oldname, self.dir_mode(), Ctx())
inode_p_new = self.server.mkdir(ROOT_INODE, self.newname(),
self.dir_mode(), Ctx())
inode_p_new_before = self.server.getattr(inode_p_new.id).copy()
inode_p_old_before = self.server.getattr(ROOT_INODE).copy()
safe_sleep(CLOCK_GRANULARITY)
self.server.rename(ROOT_INODE, oldname, inode_p_new.id, newname)
inode_p_old_after = self.server.getattr(ROOT_INODE)
inode_p_new_after = self.server.getattr(inode_p_new.id)
self.assertFalse(
self.db.has_val(
'SELECT inode FROM contents JOIN names ON names.id = name_id '
'WHERE name=? AND parent_inode = ?', (oldname, ROOT_INODE)))
id_ = self.db.get_val(
'SELECT inode FROM contents JOIN names ON names.id == name_id '
'WHERE name=? AND parent_inode = ?', (newname, inode_p_new.id))
self.assertEqual(inode.id, id_)
self.assertLess(inode_p_new_before.mtime, inode_p_new_after.mtime)
self.assertLess(inode_p_new_before.ctime, inode_p_new_after.ctime)
self.assertLess(inode_p_old_before.mtime, inode_p_old_after.mtime)
self.assertLess(inode_p_old_before.ctime, inode_p_old_after.ctime)
self.server.forget([(inode.id, 1), (inode_p_new.id, 1)])
self.fsck()
def test_replace_file(self):
oldname = self.newname()
newname = self.newname()
(fh, inode) = self.server.create(ROOT_INODE, oldname, self.file_mode(),
os.O_RDWR, Ctx())
self.server.write(fh, 0, b'some data to deal with')
self.server.release(fh)
self.server.setxattr(inode.id, b'test_xattr', b'42*8')
inode_p_new = self.server.mkdir(ROOT_INODE, self.newname(),
self.dir_mode(), Ctx())
inode_p_new_before = self.server.getattr(inode_p_new.id).copy()
inode_p_old_before = self.server.getattr(ROOT_INODE).copy()
(fh, inode2) = self.server.create(inode_p_new.id, newname,
self.file_mode(), os.O_RDWR, Ctx())
self.server.write(fh, 0, b'even more data to deal with')
self.server.release(fh)
self.server.setxattr(inode2.id, b'test_xattr', b'42*8')
self.server.forget([(inode2.id, 1)])
safe_sleep(CLOCK_GRANULARITY)
self.server.rename(ROOT_INODE, oldname, inode_p_new.id, newname)
inode_p_old_after = self.server.getattr(ROOT_INODE)
inode_p_new_after = self.server.getattr(inode_p_new.id)
self.assertFalse(
self.db.has_val(
'SELECT inode FROM contents JOIN names ON names.id = name_id '
'WHERE name=? AND parent_inode = ?', (oldname, ROOT_INODE)))
id_ = self.db.get_val(
'SELECT inode FROM contents JOIN names ON names.id = name_id '
'WHERE name=? AND parent_inode = ?', (newname, inode_p_new.id))
self.assertEqual(inode.id, id_)
self.assertLess(inode_p_new_before.mtime, inode_p_new_after.mtime)
self.assertLess(inode_p_new_before.ctime, inode_p_new_after.ctime)
self.assertLess(inode_p_old_before.mtime, inode_p_old_after.mtime)
self.assertLess(inode_p_old_before.ctime, inode_p_old_after.ctime)
self.assertFalse(
self.db.has_val('SELECT id FROM inodes WHERE id=?', (inode2.id, )))
self.server.forget([(inode.id, 1), (inode_p_new.id, 1)])
self.fsck()
def test_replace_dir(self):
oldname = self.newname()
newname = self.newname()
inode = self.server.mkdir(ROOT_INODE, oldname, self.dir_mode(), Ctx())
inode_p_new = self.server.mkdir(ROOT_INODE, self.newname(),
self.dir_mode(), Ctx())
inode_p_new_before = self.server.getattr(inode_p_new.id).copy()
inode_p_old_before = self.server.getattr(ROOT_INODE).copy()
inode2 = self.server.mkdir(inode_p_new.id, newname, self.dir_mode(),
Ctx())
self.server.forget([(inode2.id, 1)])
safe_sleep(CLOCK_GRANULARITY)
self.server.rename(ROOT_INODE, oldname, inode_p_new.id, newname)
inode_p_old_after = self.server.getattr(ROOT_INODE)
inode_p_new_after = self.server.getattr(inode_p_new.id)
self.assertFalse(
self.db.has_val(
'SELECT inode FROM contents JOIN names ON names.id = name_id '
'WHERE name=? AND parent_inode = ?', (oldname, ROOT_INODE)))
id_ = self.db.get_val(
'SELECT inode FROM contents JOIN names ON names.id = name_id '
'WHERE name=? AND parent_inode = ?', (newname, inode_p_new.id))
self.assertEqual(inode.id, id_)
self.assertLess(inode_p_new_before.mtime, inode_p_new_after.mtime)
self.assertLess(inode_p_new_before.ctime, inode_p_new_after.ctime)
self.assertLess(inode_p_old_before.mtime, inode_p_old_after.mtime)
self.assertLess(inode_p_old_before.ctime, inode_p_old_after.ctime)
self.server.forget([(inode.id, 1), (inode_p_new.id, 1)])
self.assertFalse(
self.db.has_val('SELECT id FROM inodes WHERE id=?', (inode2.id, )))
self.fsck()
def test_setattr(self):
(fh, inode) = self.server.create(ROOT_INODE, self.newname(), 0o641,
os.O_RDWR, Ctx())
self.server.release(fh)
inode_old = self.server.getattr(inode.id).copy()
attr = llfuse.EntryAttributes()
attr.st_mode = self.file_mode()
attr.st_uid = randint(0, 2**32)
attr.st_gid = randint(0, 2**32)
attr.st_atime = randint(0, 2**32) / 10**6
attr.st_mtime = randint(0, 2**32) / 10**6
safe_sleep(CLOCK_GRANULARITY)
self.server.setattr(inode.id, attr)
inode_new = self.server.getattr(inode.id)
self.assertGreater(inode_new.ctime, inode_old.ctime)
for key in attr.__slots__:
if getattr(attr, key) is not None:
self.assertEqual(getattr(attr, key), getattr(inode_new, key))
self.server.forget([(inode.id, 1)])
self.fsck()
def test_truncate(self):
len_ = int(2.7 * self.max_obj_size)
data = self.random_data(len_)
attr = llfuse.EntryAttributes()
(fh, inode) = self.server.create(ROOT_INODE, self.newname(),
self.file_mode(), os.O_RDWR, Ctx())
self.server.write(fh, 0, data)
attr.st_size = len_ // 2
self.server.setattr(inode.id, attr)
self.assertTrue(self.server.read(fh, 0, len_) == data[:len_ // 2])
attr.st_size = len_
self.server.setattr(inode.id, attr)
self.assertTrue(
self.server.read(fh, 0, len_) == data[:len_ // 2] + b'\0' *
(len_ // 2))
self.server.release(fh)
self.server.forget([(inode.id, 1)])
self.fsck()
def test_truncate_0(self):
len1 = 158
len2 = 133
attr = llfuse.EntryAttributes()
(fh, inode) = self.server.create(ROOT_INODE, self.newname(),
self.file_mode(), os.O_RDWR, Ctx())
self.server.write(fh, 0, self.random_data(len1))
self.server.release(fh)
self.server.inodes.flush()
fh = self.server.open(inode.id, os.O_RDWR)
attr.st_size = 0
self.server.setattr(inode.id, attr)
self.server.write(fh, 0, self.random_data(len2))
self.server.release(fh)
self.server.forget([(inode.id, 1)])
self.fsck()
def test_setxattr(self):
(fh, inode) = self.server.create(ROOT_INODE, self.newname(),
self.file_mode(), os.O_RDWR, Ctx())
self.server.release(fh)
self.server.setxattr(inode.id, b'my-attr', b'strabumm!')
self.assertEqual(self.server.getxattr(inode.id, b'my-attr'),
b'strabumm!')
self.server.forget([(inode.id, 1)])
self.fsck()
def test_names(self):
name1 = self.newname()
name2 = self.newname()
(fh, inode) = self.server.create(ROOT_INODE, name1, self.file_mode(),
os.O_RDWR, Ctx())
self.server.release(fh)
self.server.forget([(inode.id, 1)])
(fh, inode) = self.server.create(ROOT_INODE, name2, self.file_mode(),
os.O_RDWR, Ctx())
self.server.release(fh)
self.server.setxattr(inode.id, name1, b'strabumm!')
self.fsck()
self.server.removexattr(inode.id, name1)
self.fsck()
self.server.setxattr(inode.id, name1, b'strabumm karacho!!')
self.server.unlink(ROOT_INODE, name1)
self.server.forget([(inode.id, 1)])
self.fsck()
def test_statfs(self):
# Test with zero contents
self.server.statfs()
# Test with empty file
(fh, inode) = self.server.create(ROOT_INODE, self.newname(),
self.file_mode(), os.O_RDWR, Ctx())
self.server.release(fh)
self.server.statfs()
# Test with data in file
fh = self.server.open(inode.id, os.O_RDWR)
self.server.write(fh, 0, b'foobar')
self.server.release(fh)
self.server.forget([(inode.id, 1)])
self.server.statfs()
def test_symlink(self):
target = self.newname()
name = self.newname()
inode_p_before = self.server.getattr(ROOT_INODE).copy()
safe_sleep(CLOCK_GRANULARITY)
inode = self.server.symlink(ROOT_INODE, name, target, Ctx())
inode_p_after = self.server.getattr(ROOT_INODE)
self.assertEqual(target, self.server.readlink(inode.id))
id_ = self.db.get_val(
'SELECT inode FROM contents JOIN names ON names.id = name_id '
'WHERE name=? AND parent_inode = ?', (name, ROOT_INODE))
self.assertEqual(inode.id, id_)
self.assertLess(inode_p_before.mtime, inode_p_after.mtime)
self.assertLess(inode_p_before.ctime, inode_p_after.ctime)
self.server.forget([(inode.id, 1)])
self.fsck()
def test_unlink(self):
name = self.newname()
(fh, inode) = self.server.create(ROOT_INODE, name, self.file_mode(),
os.O_RDWR, Ctx())
self.server.write(fh, 0, b'some data to deal with')
self.server.release(fh)
# Add extended attributes
self.server.setxattr(inode.id, b'test_xattr', b'42*8')
self.server.forget([(inode.id, 1)])
inode_p_before = self.server.getattr(ROOT_INODE).copy()
safe_sleep(CLOCK_GRANULARITY)
self.server.unlink(ROOT_INODE, name)
inode_p_after = self.server.getattr(ROOT_INODE)
self.assertLess(inode_p_before.mtime, inode_p_after.mtime)
self.assertLess(inode_p_before.ctime, inode_p_after.ctime)
self.assertFalse(
self.db.has_val(
'SELECT inode FROM contents JOIN names ON names.id = name_id '
'WHERE name=? AND parent_inode = ?', (name, ROOT_INODE)))
self.assertFalse(
self.db.has_val('SELECT id FROM inodes WHERE id=?', (inode.id, )))
self.fsck()
def test_rmdir(self):
name = self.newname()
inode = self.server.mkdir(ROOT_INODE, name, self.dir_mode(), Ctx())
self.server.forget([(inode.id, 1)])
inode_p_before = self.server.getattr(ROOT_INODE).copy()
safe_sleep(CLOCK_GRANULARITY)
self.server.rmdir(ROOT_INODE, name)
inode_p_after = self.server.getattr(ROOT_INODE)
self.assertLess(inode_p_before.mtime, inode_p_after.mtime)
self.assertLess(inode_p_before.ctime, inode_p_after.ctime)
self.assertFalse(
self.db.has_val(
'SELECT inode FROM contents JOIN names ON names.id = name_id '
'WHERE name=? AND parent_inode = ?', (name, ROOT_INODE)))
self.assertFalse(
self.db.has_val('SELECT id FROM inodes WHERE id=?', (inode.id, )))
self.fsck()
def test_relink(self):
name = self.newname()
name2 = self.newname()
data = b'some data to deal with'
(fh, inode) = self.server.create(ROOT_INODE, name, self.file_mode(),
os.O_RDWR, Ctx())
self.server.write(fh, 0, data)
self.server.release(fh)
self.server.unlink(ROOT_INODE, name)
self.server.inodes.flush()
self.assertFalse(
self.db.has_val(
'SELECT inode FROM contents JOIN names ON names.id = name_id '
'WHERE name=? AND parent_inode = ?', (name, ROOT_INODE)))
self.assertTrue(
self.db.has_val('SELECT id FROM inodes WHERE id=?', (inode.id, )))
self.server.link(inode.id, ROOT_INODE, name2)
self.server.forget([(inode.id, 2)])
inode = self.server.lookup(ROOT_INODE, name2)
fh = self.server.open(inode.id, os.O_RDONLY)
self.assertTrue(self.server.read(fh, 0, len(data)) == data)
self.server.release(fh)
self.server.forget([(inode.id, 1)])
self.fsck()
def test_write(self):
len_ = self.max_obj_size
data = self.random_data(len_)
off = self.max_obj_size // 2
(fh, inode) = self.server.create(ROOT_INODE, self.newname(),
self.file_mode(), os.O_RDWR, Ctx())
inode_before = self.server.getattr(inode.id).copy()
safe_sleep(CLOCK_GRANULARITY)
self.server.write(fh, off, data)
inode_after = self.server.getattr(inode.id)
self.assertGreater(inode_after.mtime, inode_before.mtime)
self.assertGreater(inode_after.ctime, inode_before.ctime)
self.assertEqual(inode_after.size, off + len_)
self.server.write(fh, 0, data)
inode_after = self.server.getattr(inode.id)
self.assertEqual(inode_after.size, off + len_)
self.server.release(fh)
self.server.forget([(inode.id, 1)])
self.fsck()
def test_failsafe(self):
len_ = self.max_obj_size
data = self.random_data(len_)
(fh, inode) = self.server.create(ROOT_INODE, self.newname(),
self.file_mode(), os.O_RDWR, Ctx())
self.server.write(fh, 0, data)
self.server.cache.clear()
self.assertTrue(self.server.failsafe is False)
datafile = os.path.join(self.backend_dir, 's3ql_data_', 's3ql_data_1')
shutil.copy(datafile, datafile + '.bak')
# Modify contents
with open(datafile, 'rb+') as rfh:
rfh.seek(560)
rfh.write(b'blrub!')
with self.assertRaises(FUSEError) as cm:
with catch_logmsg('^Backend returned malformed data for',
count=1,
level=logging.ERROR):
self.server.read(fh, 0, len_)
self.assertEqual(cm.exception.errno, errno.EIO)
self.assertTrue(self.server.failsafe)
# Restore contents, but should be marked as damaged now
os.rename(datafile + '.bak', datafile)
with self.assertRaises(FUSEError) as cm:
self.server.read(fh, 0, len_)
self.assertEqual(cm.exception.errno, errno.EIO)
# Release and re-open, now we should be able to access again
self.server.release(fh)
self.server.forget([(inode.id, 1)])
# ..but not write access since we are in failsafe mode
with self.assertRaises(FUSEError) as cm:
self.server.open(inode.id, os.O_RDWR)
self.assertEqual(cm.exception.errno, errno.EPERM)
# ..ready only is fine.
fh = self.server.open(inode.id, os.O_RDONLY)
self.server.read(fh, 0, len_)
# Remove completely, should give error after cache flush
os.unlink(datafile)
self.server.read(fh, 3, len_ // 2)
self.server.cache.clear()
with self.assertRaises(FUSEError) as cm:
with catch_logmsg('^Backend lost block',
count=1,
level=logging.ERROR):
self.server.read(fh, 5, len_ // 2)
self.assertEqual(cm.exception.errno, errno.EIO)
# Don't call fsck, we're missing a block
def test_create_open(self):
name = self.newname()
# Create a new file
(fh, inode) = self.server.create(ROOT_INODE, name, self.file_mode(),
os.O_RDWR, Ctx())
self.server.release(fh)
self.server.forget([(inode, 1)])
# Open it atomically
(fh, inode) = self.server.create(ROOT_INODE, name, self.file_mode(),
os.O_RDWR, Ctx())
self.server.release(fh)
self.server.forget([(inode, 1)])
self.fsck()
def test_edit(self):
len_ = self.max_obj_size
data = self.random_data(len_)
(fh, inode) = self.server.create(ROOT_INODE, self.newname(),
self.file_mode(), os.O_RDWR, Ctx())
self.server.write(fh, 0, data)
self.server.release(fh)
self.block_cache.clear()
fh = self.server.open(inode.id, os.O_RDWR)
attr = llfuse.EntryAttributes()
attr.st_size = 0
self.server.setattr(inode.id, attr)
self.server.write(fh, 0, data[50:])
self.server.release(fh)
self.server.forget([(inode.id, 1)])
self.fsck()
def test_copy_tree(self):
ext_attr_name = b'system.foo.brazl'
ext_attr_val = b'schulla dku woumm bramp'
src_inode = self.server.mkdir(ROOT_INODE, b'source', self.dir_mode(),
Ctx())
dst_inode = self.server.mkdir(ROOT_INODE, b'dest', self.dir_mode(),
Ctx())
# Create file
(fh, f1_inode) = self.server.create(src_inode.id, b'file1',
self.file_mode(), os.O_RDWR, Ctx())
self.server.write(fh, 0, b'file1 contents')
self.server.release(fh)
self.server.setxattr(f1_inode.id, ext_attr_name, ext_attr_val)
# Create hardlink
(fh, f2_inode) = self.server.create(src_inode.id, b'file2',
self.file_mode(), os.O_RDWR, Ctx())
self.server.write(fh, 0, b'file2 contents')
self.server.release(fh)
f2_inode = self.server.link(f2_inode.id, src_inode.id,
b'file2_hardlink')
# Create subdirectory
d1_inode = self.server.mkdir(src_inode.id, b'dir1', self.dir_mode(),
Ctx())
d2_inode = self.server.mkdir(d1_inode.id, b'dir2', self.dir_mode(),
Ctx())
# ..with a 3rd hardlink
f2_inode = self.server.link(f2_inode.id, d1_inode.id,
b'file2_hardlink')
# Replicate
self.server.copy_tree(src_inode.id, dst_inode.id)
# Change files
fh = self.server.open(f1_inode.id, os.O_RDWR)
self.server.write(fh, 0, b'new file1 contents')
self.server.release(fh)
fh = self.server.open(f2_inode.id, os.O_RDWR)
self.server.write(fh, 0, b'new file2 contents')
self.server.release(fh)
# Get copy properties
f1_inode_c = self.server.lookup(dst_inode.id, b'file1')
f2_inode_c = self.server.lookup(dst_inode.id, b'file2')
f2h_inode_c = self.server.lookup(dst_inode.id, b'file2_hardlink')
d1_inode_c = self.server.lookup(dst_inode.id, b'dir1')
d2_inode_c = self.server.lookup(d1_inode_c.id, b'dir2')
f2_h_inode_c = self.server.lookup(d1_inode_c.id, b'file2_hardlink')
# Check file1
fh = self.server.open(f1_inode_c.id, os.O_RDWR)
self.assertEqual(self.server.read(fh, 0, 42), b'file1 contents')
self.server.release(fh)
self.assertNotEqual(f1_inode.id, f1_inode_c.id)
self.assertEqual(self.server.getxattr(f1_inode_c.id, ext_attr_name),
ext_attr_val)
# Check file2
fh = self.server.open(f2_inode_c.id, os.O_RDWR)
self.assertTrue(self.server.read(fh, 0, 42) == b'file2 contents')
self.server.release(fh)
self.assertEqual(f2_inode_c.id, f2h_inode_c.id)
self.assertEqual(f2_inode_c.refcount, 3)
self.assertNotEqual(f2_inode.id, f2_inode_c.id)
self.assertEqual(f2_h_inode_c.id, f2_inode_c.id)
# Check subdir1
self.assertNotEqual(d1_inode.id, d1_inode_c.id)
self.assertNotEqual(d2_inode.id, d2_inode_c.id)
self.server.forget(list(self.server.open_inodes.items()))
self.fsck()
def test_copy_tree_2(self):
src_inode = self.server.mkdir(ROOT_INODE, b'source', self.dir_mode(),
Ctx())
dst_inode = self.server.mkdir(ROOT_INODE, b'dest', self.dir_mode(),
Ctx())
# Create file
(fh, inode) = self.server.create(src_inode.id, b'file1',
self.file_mode(), os.O_RDWR, Ctx())
self.server.write(fh, 0, b'block 1 contents')
self.server.write(fh, self.max_obj_size, b'block 1 contents')
self.server.release(fh)
self.server.forget([(inode.id, 1)])
self.server.copy_tree(src_inode.id, dst_inode.id)
self.server.forget([(src_inode.id, 1), (dst_inode.id, 1)])
self.fsck()
def test_lock_tree(self):
inode1 = self.server.mkdir(ROOT_INODE, b'source', self.dir_mode(),
Ctx())
# Create file
(fh, inode1a) = self.server.create(inode1.id, b'file1',
self.file_mode(), os.O_RDWR, Ctx())
self.server.write(fh, 0, b'file1 contents')
self.server.release(fh)
# Create subdirectory
inode2 = self.server.mkdir(inode1.id, b'dir1', self.dir_mode(), Ctx())
(fh, inode2a) = self.server.create(inode2.id, b'file2',
self.file_mode(), os.O_RDWR, Ctx())
self.server.write(fh, 0, b'file2 contents')
self.server.release(fh)
# Another file
(fh, inode3) = self.server.create(ROOT_INODE, b'file1',
self.file_mode(), os.O_RDWR, Ctx())
self.server.release(fh)
# Lock
self.server.lock_tree(inode1.id)
for i in (inode1.id, inode1a.id, inode2.id, inode2a.id):
self.assertTrue(self.server.inodes[i].locked)
# Remove
with self.assertRaises(FUSEError) as cm:
self.server._remove(inode1.id, b'file1', inode1a.id)
self.assertEqual(cm.exception.errno, errno.EPERM)
# Rename / Replace
with self.assertRaises(FUSEError) as cm:
self.server.rename(ROOT_INODE, b'file1', inode1.id, b'file2')
self.assertEqual(cm.exception.errno, errno.EPERM)
with self.assertRaises(FUSEError) as cm:
self.server.rename(inode1.id, b'file1', ROOT_INODE, b'file2')
self.assertEqual(cm.exception.errno, errno.EPERM)
# Open
with self.assertRaises(FUSEError) as cm:
self.server.open(inode2a.id, os.O_RDWR)
self.assertEqual(cm.exception.errno, errno.EPERM)
with self.assertRaises(FUSEError) as cm:
self.server.open(inode2a.id, os.O_WRONLY)
self.assertEqual(cm.exception.errno, errno.EPERM)
self.server.release(self.server.open(inode3.id, os.O_WRONLY))
# Write
fh = self.server.open(inode2a.id, os.O_RDONLY)
with self.assertRaises(FUSEError) as cm:
self.server.write(fh, 0, b'foo')
self.assertEqual(cm.exception.errno, errno.EPERM)
self.server.release(fh)
# Create
with self.assertRaises(FUSEError) as cm:
self.server._create(inode2.id, b'dir1', self.dir_mode(), os.O_RDWR,
Ctx())
self.assertEqual(cm.exception.errno, errno.EPERM)
# Setattr
with self.assertRaises(FUSEError) as cm:
self.server.setattr(inode2a.id, dict())
self.assertEqual(cm.exception.errno, errno.EPERM)
# xattr
with self.assertRaises(FUSEError) as cm:
self.server.setxattr(inode2.id, b'name', b'value')
self.assertEqual(cm.exception.errno, errno.EPERM)
with self.assertRaises(FUSEError) as cm:
self.server.removexattr(inode2.id, b'name')
self.assertEqual(cm.exception.errno, errno.EPERM)
self.server.forget(list(self.server.open_inodes.items()))
self.fsck()
def test_remove_tree(self):
inode1 = self.server.mkdir(ROOT_INODE, b'source', self.dir_mode(),
Ctx())
# Create file
(fh, inode1a) = self.server.create(inode1.id, b'file1',
self.file_mode(), os.O_RDWR, Ctx())
self.server.write(fh, 0, b'file1 contents')
self.server.release(fh)
# Create subdirectory
inode2 = self.server.mkdir(inode1.id, b'dir1', self.dir_mode(), Ctx())
(fh, inode2a) = self.server.create(inode2.id, b'file2',
self.file_mode(), os.O_RDWR, Ctx())
self.server.write(fh, 0, b'file2 contents')
self.server.release(fh)
# Remove
self.server.forget(list(self.server.open_inodes.items()))
self.server.remove_tree(ROOT_INODE, b'source')
for (id_p, name) in ((ROOT_INODE, b'source'), (inode1.id, b'file1'),
(inode1.id, b'dir1'), (inode2.id, b'file2')):
self.assertFalse(
self.db.has_val(
'SELECT inode FROM contents JOIN names ON names.id = name_id '
'WHERE name=? AND parent_inode = ?', (name, id_p)))
for id_ in (inode1.id, inode1a.id, inode2.id, inode2a.id):
self.assertFalse(
self.db.has_val('SELECT id FROM inodes WHERE id=?', (id_, )))
self.fsck()
class fsck_tests(TestCase):
def setUp(self):
self.bucket_dir = tempfile.mkdtemp()
self.bucket = local.Bucket(self.bucket_dir, None, None)
self.cachedir = tempfile.mkdtemp() + "/"
self.blocksize = 1024
self.dbfile = tempfile.NamedTemporaryFile()
self.db = Connection(self.dbfile.name)
create_tables(self.db)
init_tables(self.db)
self.fsck = Fsck(self.cachedir, self.bucket,
{ 'blocksize': self.blocksize }, self.db)
self.fsck.expect_errors = True
def tearDown(self):
shutil.rmtree(self.cachedir)
shutil.rmtree(self.bucket_dir)
def assert_fsck(self, fn):
'''Check that fn detects and corrects an error'''
self.fsck.found_errors = False
fn()
self.assertTrue(self.fsck.found_errors)
self.fsck.found_errors = False
fn()
self.assertFalse(self.fsck.found_errors)
def test_cache(self):
inode = self.db.rowid("INSERT INTO inodes (mode,uid,gid,mtime,atime,ctime,refcount) "
"VALUES (?,?,?,?,?,?,?)",
(stat.S_IFDIR | stat.S_IRUSR | stat.S_IWUSR | stat.S_IXUSR
| stat.S_IRGRP | stat.S_IXGRP | stat.S_IROTH | stat.S_IXOTH,
os.getuid(), os.getgid(), time.time(), time.time(), time.time(), 1))
# Create new block
fh = open(self.cachedir + '%d-1' % inode, 'wb')
fh.write('somedata')
fh.close()
self.assert_fsck(self.fsck.check_cache)
self.assertEquals(self.bucket['s3ql_data_1'], 'somedata')
# This should be ignored
fh = open(self.cachedir + '%d-1' % inode, 'wb')
fh.write('otherdata')
fh.close()
self.assert_fsck(self.fsck.check_cache)
self.assertEquals(self.bucket['s3ql_data_1'], 'somedata')
# Existing block
with open(self.cachedir + '%d-2' % inode, 'wb') as fh:
fh.write('somedata')
self.assert_fsck(self.fsck.check_cache)
# Old block preserved
with open(self.cachedir + '%d-1' % inode, 'wb') as fh:
fh.write('overwriting somedata')
self.assert_fsck(self.fsck.check_cache)
# Old block removed
with open(self.cachedir + '%d-2' % inode, 'wb') as fh:
fh.write('overwriting last piece of somedata')
self.assert_fsck(self.fsck.check_cache)
def test_lof1(self):
# Make lost+found a file
inode = self.db.get_val("SELECT inode FROM contents_v WHERE name=? AND parent_inode=?",
(b"lost+found", ROOT_INODE))
self.db.execute('DELETE FROM contents WHERE parent_inode=?', (inode,))
self.db.execute('UPDATE inodes SET mode=?, size=? WHERE id=?',
(stat.S_IFREG | stat.S_IRUSR | stat.S_IWUSR, 0, inode))
self.assert_fsck(self.fsck.check_lof)
def test_lof2(self):
# Remove lost+found
name_id = self.db.get_val('SELECT id FROM names WHERE name=?', (b'lost+found',))
self.db.execute('DELETE FROM contents WHERE name_id=? and parent_inode=?',
(name_id, ROOT_INODE))
self.assert_fsck(self.fsck.check_lof)
def test_wrong_inode_refcount(self):
inode = self.db.rowid("INSERT INTO inodes (mode,uid,gid,mtime,atime,ctime,refcount,size) "
"VALUES (?,?,?,?,?,?,?,?)",
(stat.S_IFREG | stat.S_IRUSR | stat.S_IWUSR,
0, 0, time.time(), time.time(), time.time(), 1, 0))
self._link('name1', inode)
self._link('name2', inode)
self.assert_fsck(self.fsck.check_inode_refcount)
def test_orphaned_inode(self):
self.db.rowid("INSERT INTO inodes (mode,uid,gid,mtime,atime,ctime,refcount,size) "
"VALUES (?,?,?,?,?,?,?,?)",
(stat.S_IFREG | stat.S_IRUSR | stat.S_IWUSR,
0, 0, time.time(), time.time(), time.time(), 1, 0))
self.assert_fsck(self.fsck.check_inode_refcount)
def test_name_refcount(self):
inode = self.db.rowid("INSERT INTO inodes (mode,uid,gid,mtime,atime,ctime,refcount,size) "
"VALUES (?,?,?,?,?,?,?,?)",
(stat.S_IFREG | stat.S_IRUSR | stat.S_IWUSR,
0, 0, time.time(), time.time(), time.time(), 1, 0))
self._link('name1', inode)
self._link('name2', inode)
self.db.execute('UPDATE names SET refcount=refcount+1 WHERE name=?', ('name1',))
self.assert_fsck(self.fsck.check_name_refcount)
def test_orphaned_name(self):
self._add_name('zupbrazl')
self.assert_fsck(self.fsck.check_name_refcount)
def test_ref_integrity(self):
self.db.execute('INSERT INTO contents (name_id, inode, parent_inode) VALUES(?,?,?)',
(self._add_name('foobar'), 124, ROOT_INODE))
self.fsck.found_errors = False
self.fsck.check_foreign_keys()
self.assertTrue(self.fsck.found_errors)
def _add_name(self, name):
'''Get id for *name* and increase refcount
Name is inserted in table if it does not yet exist.
'''
try:
name_id = self.db.get_val('SELECT id FROM names WHERE name=?', (name,))
except NoSuchRowError:
name_id = self.db.rowid('INSERT INTO names (name, refcount) VALUES(?,?)',
(name, 1))
else:
self.db.execute('UPDATE names SET refcount=refcount+1 WHERE id=?', (name_id,))
return name_id
def _link(self, name, inode):
'''Link /*name* to *inode*'''
self.db.execute('INSERT INTO contents (name_id, inode, parent_inode) VALUES(?,?,?)',
(self._add_name(name), inode, ROOT_INODE))
def test_inode_sizes(self):
id_ = self.db.rowid("INSERT INTO inodes (mode,uid,gid,mtime,atime,ctime,refcount,size) "
"VALUES (?,?,?,?,?,?,?,?)",
(stat.S_IFREG | stat.S_IRUSR | stat.S_IWUSR,
0, 0, time.time(), time.time(), time.time(), 1, 128))
self._link('test-entry', id_)
obj_id = self.db.rowid('INSERT INTO objects (refcount) VALUES(1)')
block_id = self.db.rowid('INSERT INTO blocks (refcount, obj_id, size) VALUES(?,?,?)',
(1, obj_id, 512))
# Case 1
self.db.execute('UPDATE inodes SET block_id=?, size=? WHERE id=?',
(None, self.blocksize + 120, id_))
self.db.execute('INSERT INTO inode_blocks (inode, blockno, block_id) VALUES(?, ?, ?)',
(id_, 1, block_id))
self.assert_fsck(self.fsck.check_inode_sizes)
# Case 2
self.db.execute('DELETE FROM inode_blocks WHERE inode=?', (id_,))
self.db.execute('UPDATE inodes SET block_id=?, size=? WHERE id=?',
(block_id, 129, id_))
self.assert_fsck(self.fsck.check_inode_sizes)
# Case 3
self.db.execute('INSERT INTO inode_blocks (inode, blockno, block_id) VALUES(?, ?, ?)',
(id_, 1, block_id))
self.db.execute('UPDATE inodes SET block_id=?, size=? WHERE id=?',
(block_id, self.blocksize + 120, id_))
self.assert_fsck(self.fsck.check_inode_sizes)
def test_keylist(self):
# Create an object that only exists in the bucket
self.bucket['s3ql_data_4364'] = 'Testdata'
self.assert_fsck(self.fsck.check_keylist)
# Create an object that does not exist in the bucket
self.db.execute('INSERT INTO objects (id, refcount) VALUES(?, ?)', (34, 1))
self.assert_fsck(self.fsck.check_keylist)
def test_missing_obj(self):
obj_id = self.db.rowid('INSERT INTO objects (refcount) VALUES(1)')
block_id = self.db.rowid('INSERT INTO blocks (refcount, obj_id, size) VALUES(?,?,?)',
(1, obj_id, 128))
id_ = self.db.rowid("INSERT INTO inodes (mode,uid,gid,mtime,atime,ctime,refcount,size,block_id) "
"VALUES (?,?,?,?,?,?,?,?,?)",
(stat.S_IFREG | stat.S_IRUSR | stat.S_IWUSR,
0, 0, time.time(), time.time(), time.time(), 1, 128, block_id))
self._link('test-entry', id_)
self.assert_fsck(self.fsck.check_keylist)
@staticmethod
def random_data(len_):
with open("/dev/urandom", "rb") as fd:
return fd.read(len_)
def test_loops(self):
# Create some directory inodes
inodes = [ self.db.rowid("INSERT INTO inodes (mode,uid,gid,mtime,atime,ctime,refcount) "
"VALUES (?,?,?,?,?,?,?)",
(stat.S_IFDIR | stat.S_IRUSR | stat.S_IWUSR,
0, 0, time.time(), time.time(), time.time(), 1))
for dummy in range(3) ]
inodes.append(inodes[0])
last = inodes[0]
for inode in inodes[1:]:
self.db.execute('INSERT INTO contents (name_id, inode, parent_inode) VALUES(?, ?, ?)',
(self._add_name(bytes(inode)), inode, last))
last = inode
self.fsck.found_errors = False
self.fsck.check_inode_refcount()
self.assertFalse(self.fsck.found_errors)
self.fsck.check_loops()
self.assertTrue(self.fsck.found_errors)
# We can't fix loops yet
def test_obj_refcounts(self):
obj_id = self.db.rowid('INSERT INTO objects (refcount) VALUES(1)')
self.db.execute('INSERT INTO blocks (refcount, obj_id, size) VALUES(?,?,?)',
(0, obj_id, 0))
self.db.execute('INSERT INTO blocks (refcount, obj_id, size) VALUES(?,?,?)',
(0, obj_id, 0))
self.assert_fsck(self.fsck.check_obj_refcounts)
def test_orphaned_obj(self):
self.db.rowid('INSERT INTO objects (refcount) VALUES(1)')
self.assert_fsck(self.fsck.check_obj_refcounts)
def test_wrong_block_refcount(self):
obj_id = self.db.rowid('INSERT INTO objects (refcount) VALUES(1)')
block_id = self.db.rowid('INSERT INTO blocks (refcount, obj_id, size) VALUES(?,?,?)',
(1, obj_id, 0))
inode = self.db.rowid("INSERT INTO inodes (mode,uid,gid,mtime,atime,ctime,refcount,size,block_id) "
"VALUES (?,?,?,?,?,?,?,?,?)",
(stat.S_IFIFO | stat.S_IRUSR | stat.S_IWUSR, os.getuid(), os.getgid(),
time.time(), time.time(), time.time(), 1, 0, block_id))
self.db.execute('INSERT INTO inode_blocks (inode, blockno, block_id) VALUES(?,?,?)',
(inode, 1, block_id))
self.assert_fsck(self.fsck.check_block_refcount)
def test_orphaned_block(self):
obj_id = self.db.rowid('INSERT INTO objects (refcount) VALUES(1)')
self.db.rowid('INSERT INTO blocks (refcount, obj_id, size) VALUES(?,?,?)',
(1, obj_id, 0))
self.assert_fsck(self.fsck.check_block_refcount)
def test_unix_size(self):
inode = 42
self.db.execute("INSERT INTO inodes (id, mode,uid,gid,mtime,atime,ctime,refcount,size) "
"VALUES (?,?,?,?,?,?,?,?,?)",
(inode, stat.S_IFIFO | stat.S_IRUSR | stat.S_IWUSR,
os.getuid(), os.getgid(), time.time(), time.time(), time.time(), 1, 0))
self._link('test-entry', inode)
self.fsck.found_errors = False
self.fsck.check_inode_unix()
self.assertFalse(self.fsck.found_errors)
self.db.execute('UPDATE inodes SET size = 1 WHERE id=?', (inode,))
self.fsck.check_inode_unix()
self.assertTrue(self.fsck.found_errors)
def test_unix_size_symlink(self):
inode = 42
target = 'some funny random string'
self.db.execute("INSERT INTO inodes (id, mode,uid,gid,mtime,atime,ctime,refcount,size) "
"VALUES (?,?,?,?,?,?,?,?,?)",
(inode, stat.S_IFLNK | stat.S_IRUSR | stat.S_IWUSR,
os.getuid(), os.getgid(), time.time(), time.time(), time.time(), 1,
len(target)))
self.db.execute('INSERT INTO symlink_targets (inode, target) VALUES(?,?)', (inode, target))
self._link('test-entry', inode)
self.fsck.found_errors = False
self.fsck.check_inode_unix()
self.assertFalse(self.fsck.found_errors)
self.db.execute('UPDATE inodes SET size = 0 WHERE id=?', (inode,))
self.fsck.check_inode_unix()
self.assertTrue(self.fsck.found_errors)
def test_unix_target(self):
inode = 42
self.db.execute("INSERT INTO inodes (id, mode,uid,gid,mtime,atime,ctime,refcount) "
"VALUES (?,?,?,?,?,?,?,?)",
(inode, stat.S_IFCHR | stat.S_IRUSR | stat.S_IWUSR,
os.getuid(), os.getgid(), time.time(), time.time(), time.time(), 1))
self._link('test-entry', inode)
self.fsck.found_errors = False
self.fsck.check_inode_unix()
self.assertFalse(self.fsck.found_errors)
self.db.execute('INSERT INTO symlink_targets (inode, target) VALUES(?,?)', (inode, 'foo'))
self.fsck.check_inode_unix()
self.assertTrue(self.fsck.found_errors)
def test_symlink_no_target(self):
inode = self.db.rowid("INSERT INTO inodes (mode,uid,gid,mtime,atime,ctime,refcount) "
"VALUES (?,?,?,?,?,?,?)",
(stat.S_IFLNK | stat.S_IRUSR | stat.S_IWUSR,
os.getuid(), os.getgid(), time.time(), time.time(), time.time(), 1))
self._link('test-entry', inode)
self.fsck.check_inode_unix()
self.assertTrue(self.fsck.found_errors)
def test_unix_rdev(self):
inode = 42
self.db.execute("INSERT INTO inodes (id, mode,uid,gid,mtime,atime,ctime,refcount) "
"VALUES (?,?,?,?,?,?,?,?)",
(inode, stat.S_IFIFO | stat.S_IRUSR | stat.S_IWUSR,
os.getuid(), os.getgid(), time.time(), time.time(), time.time(), 1))
self._link('test-entry', inode)
self.fsck.found_errors = False
self.fsck.check_inode_unix()
self.assertFalse(self.fsck.found_errors)
self.db.execute('UPDATE inodes SET rdev=? WHERE id=?', (42, inode))
self.fsck.check_inode_unix()
self.assertTrue(self.fsck.found_errors)
def test_unix_child(self):
inode = self.db.rowid("INSERT INTO inodes (mode,uid,gid,mtime,atime,ctime,refcount) "
"VALUES (?,?,?,?,?,?,?)",
(stat.S_IFREG | stat.S_IRUSR | stat.S_IWUSR,
os.getuid(), os.getgid(), time.time(), time.time(), time.time(), 1))
self._link('test-entry', inode)
self.fsck.found_errors = False
self.fsck.check_inode_unix()
self.assertFalse(self.fsck.found_errors)
self.db.execute('INSERT INTO contents (name_id, inode, parent_inode) VALUES(?,?,?)',
(self._add_name('foo'), ROOT_INODE, inode))
self.fsck.check_inode_unix()
self.assertTrue(self.fsck.found_errors)
def test_unix_blocks(self):
inode = self.db.rowid("INSERT INTO inodes (mode,uid,gid,mtime,atime,ctime,refcount) "
"VALUES (?,?,?,?,?,?,?)",
(stat.S_IFSOCK | stat.S_IRUSR | stat.S_IWUSR,
os.getuid(), os.getgid(), time.time(), time.time(), time.time(), 1))
self._link('test-entry', inode)
self.fsck.found_errors = False
self.fsck.check_inode_unix()
self.assertFalse(self.fsck.found_errors)
obj_id = self.db.rowid('INSERT INTO objects (refcount) VALUES(1)')
block_id = self.db.rowid('INSERT INTO blocks (refcount, obj_id, size) VALUES(?,?,?)',
(1, obj_id, 0))
self.db.execute('INSERT INTO inode_blocks (inode, blockno, block_id) VALUES(?,?,?)',
(inode, 1, block_id))
self.fsck.check_inode_unix()
self.assertTrue(self.fsck.found_errors)
def upgrade(bucket):
'''Upgrade file system to newest revision'''
# Access to protected member
#pylint: disable=W0212
log.info('Getting file system parameters..')
seq_nos = [ int(x[len('s3ql_seq_no_'):]) for x in bucket.list('s3ql_seq_no_') ]
seq_no = max(seq_nos)
if not seq_nos:
raise QuietError(textwrap.dedent('''
File system revision too old to upgrade!
You need to use an older S3QL version to upgrade to a more recent
revision before you can use this version to upgrade to the newest
revision.
'''))
param = bucket.lookup('s3ql_metadata')
# Check for unclean shutdown
if param['seq_no'] < seq_no:
if bucket.is_get_consistent():
raise QuietError(textwrap.fill(textwrap.dedent('''\
It appears that the file system is still mounted somewhere else. If this is not
the case, the file system may have not been unmounted cleanly and you should try
to run fsck on the computer where the file system has been mounted most recently.
''')))
else:
raise QuietError(textwrap.fill(textwrap.dedent('''\
It appears that the file system is still mounted somewhere else. If this is not the
case, the file system may have not been unmounted cleanly or the data from the
most-recent mount may have not yet propagated through the backend. In the later case,
waiting for a while should fix the problem, in the former case you should try to run
fsck on the computer where the file system has been mounted most recently.
''')))
# Check that the fs itself is clean
if param['needs_fsck']:
raise QuietError("File system damaged, run fsck!")
# Check revision
if param['revision'] < CURRENT_FS_REV - 1:
raise QuietError(textwrap.dedent('''
File system revision too old to upgrade!
You need to use an older S3QL version to upgrade to a more recent
revision before you can use this version to upgrade to the newest
revision.
'''))
elif param['revision'] >= CURRENT_FS_REV:
print('File system already at most-recent revision')
return
print(textwrap.dedent('''
I am about to update the file system to the newest revision.
You will not be able to access the file system with any older version
of S3QL after this operation.
You should make very sure that this command is not interrupted and
that no one else tries to mount, fsck or upgrade the file system at
the same time.
'''))
print('Please enter "yes" to continue.', '> ', sep='\n', end='')
if sys.stdin.readline().strip().lower() != 'yes':
raise QuietError()
log.info('Upgrading from revision %d to %d...', CURRENT_FS_REV - 1,
CURRENT_FS_REV)
if 's3ql_hash_check_status' not in bucket:
if (isinstance(bucket, LegacyLocalBucket) or
(isinstance(bucket, BetterBucket) and
isinstance(bucket.bucket, LegacyLocalBucket))):
if isinstance(bucket, LegacyLocalBucket):
bucketpath = bucket.name
else:
bucketpath = bucket.bucket.name
for (path, _, filenames) in os.walk(bucketpath, topdown=True):
for name in filenames:
if not name.endswith('.meta'):
continue
basename = os.path.splitext(name)[0]
if '=00' in basename:
raise RuntimeError("No, seriously, you tried to break things, didn't you?")
with open(os.path.join(path, name), 'r+b') as dst:
dst.seek(0, os.SEEK_END)
with open(os.path.join(path, basename + '.dat'), 'rb') as src:
shutil.copyfileobj(src, dst)
basename = basename.replace('#', '=23')
os.rename(os.path.join(path, name),
os.path.join(path, basename))
os.unlink(os.path.join(path, basename + '.dat'))
if isinstance(bucket, LegacyLocalBucket):
bucket = LocalBucket(bucket.name, None, None)
else:
bucket.bucket = LocalBucket(bucket.bucket.name, None, None)
# Download metadata
log.info("Downloading & uncompressing metadata...")
dbfile = tempfile.NamedTemporaryFile()
with tempfile.TemporaryFile() as tmp:
with bucket.open_read("s3ql_metadata") as fh:
shutil.copyfileobj(fh, tmp)
db = Connection(dbfile.name, fast_mode=True)
tmp.seek(0)
restore_legacy_metadata(tmp, db)
# Increase metadata sequence no
param['seq_no'] += 1
bucket['s3ql_seq_no_%d' % param['seq_no']] = 'Empty'
for i in seq_nos:
if i < param['seq_no'] - 5:
del bucket['s3ql_seq_no_%d' % i ]
log.info("Uploading database..")
cycle_metadata(bucket)
param['last-modified'] = time.time() - time.timezone
with bucket.open_write("s3ql_metadata", param) as fh:
dump_metadata(fh, db)
else:
log.info("Downloading & uncompressing metadata...")
dbfile = tempfile.NamedTemporaryFile()
with tempfile.TemporaryFile() as tmp:
with bucket.open_read("s3ql_metadata") as fh:
shutil.copyfileobj(fh, tmp)
db = Connection(dbfile.name, fast_mode=True)
tmp.seek(0)
restore_metadata(tmp, db)
print(textwrap.dedent('''
The following process may take a long time, but can be interrupted
with Ctrl-C and resumed from this point by calling `s3qladm upgrade`
again. Please see Changes.txt for why this is necessary.
'''))
if 's3ql_hash_check_status' not in bucket:
log.info("Starting hash verification..")
start_obj = 0
else:
start_obj = int(bucket['s3ql_hash_check_status'])
log.info("Resuming hash verification with object %d..", start_obj)
try:
total = db.get_val('SELECT COUNT(id) FROM objects')
i = 0
for (obj_id, hash_) in db.query('SELECT obj_id, hash FROM blocks JOIN objects '
'ON obj_id == objects.id WHERE obj_id > ? '
'ORDER BY obj_id ASC', (start_obj,)):
if i % 100 == 0:
log.info(' ..checked %d/%d objects..', i, total)
sha = hashlib.sha256()
with bucket.open_read("s3ql_data_%d" % obj_id) as fh:
while True:
buf = fh.read(128*1024)
if not buf:
break
sha.update(buf)
if sha.digest() != hash_:
log.warn('Object %d corrupted! Deleting..', obj_id)
bucket.delete('s3ql_data_%d' % obj_id)
i += 1
except KeyboardInterrupt:
log.info("Storing verification status...")
bucket['s3ql_hash_check_status'] = '%d' % obj_id
raise QuietError('Aborting..')
log.info('Running fsck...')
fsck = Fsck(tempfile.mkdtemp(), bucket, param, db)
fsck.check()
if fsck.uncorrectable_errors:
raise QuietError("Uncorrectable errors found, aborting.")
param['revision'] = CURRENT_FS_REV
param['seq_no'] += 1
bucket['s3ql_seq_no_%d' % param['seq_no']] = 'Empty'
log.info("Uploading database..")
cycle_metadata(bucket)
param['last-modified'] = time.time() - time.timezone
with bucket.open_write("s3ql_metadata", param) as fh:
dump_metadata(fh, db)
class fs_api_tests(TestCase):
def setUp(self):
self.bucket_dir = tempfile.mkdtemp()
self.bucket_pool = BucketPool(lambda: local.Bucket(self.bucket_dir, None, None))
self.bucket = self.bucket_pool.pop_conn()
self.cachedir = tempfile.mkdtemp() + "/"
self.blocksize = 1024
self.dbfile = tempfile.NamedTemporaryFile()
self.db = Connection(self.dbfile.name)
create_tables(self.db)
init_tables(self.db)
# Tested methods assume that they are called from
# file system request handler
llfuse.lock.acquire()
self.block_cache = BlockCache(self.bucket_pool, self.db, self.cachedir,
self.blocksize * 5)
self.server = fs.Operations(self.block_cache, self.db, self.blocksize)
self.server.init()
# Keep track of unused filenames
self.name_cnt = 0
def tearDown(self):
self.server.destroy()
self.block_cache.destroy()
if os.path.exists(self.cachedir):
shutil.rmtree(self.cachedir)
shutil.rmtree(self.bucket_dir)
llfuse.lock.release()
@staticmethod
def random_data(len_):
with open("/dev/urandom", "rb") as fd:
return fd.read(len_)
def fsck(self):
self.block_cache.clear()
self.server.inodes.flush()
fsck = Fsck(self.cachedir, self.bucket,
{ 'blocksize': self.blocksize }, self.db)
fsck.check()
self.assertFalse(fsck.found_errors)
def newname(self):
self.name_cnt += 1
return "s3ql_%d" % self.name_cnt
def test_getattr_root(self):
self.assertTrue(stat.S_ISDIR(self.server.getattr(ROOT_INODE).mode))
self.fsck()
def test_create(self):
ctx = Ctx()
mode = self.dir_mode()
name = self.newname()
inode_p_old = self.server.getattr(ROOT_INODE).copy()
time.sleep(CLOCK_GRANULARITY)
self.server._create(ROOT_INODE, name, mode, ctx)
id_ = self.db.get_val('SELECT inode FROM contents JOIN names ON name_id = names.id '
'WHERE name=? AND parent_inode = ?', (name, ROOT_INODE))
inode = self.server.getattr(id_)
self.assertEqual(inode.mode, mode)
self.assertEqual(inode.uid, ctx.uid)
self.assertEqual(inode.gid, ctx.gid)
self.assertEqual(inode.refcount, 1)
self.assertEqual(inode.size, 0)
inode_p_new = self.server.getattr(ROOT_INODE)
self.assertGreater(inode_p_new.mtime, inode_p_old.mtime)
self.assertGreater(inode_p_new.ctime, inode_p_old.ctime)
self.fsck()
def test_extstat(self):
# Test with zero contents
self.server.extstat()
# Test with empty file
(fh, inode) = self.server.create(ROOT_INODE, self.newname(),
self.file_mode(), Ctx())
self.server.release(fh)
self.server.extstat()
# Test with data in file
fh = self.server.open(inode.id, os.O_RDWR)
self.server.write(fh, 0, 'foobar')
self.server.release(fh)
self.server.extstat()
self.fsck()
@staticmethod
def dir_mode():
return (randint(0, 07777) & ~stat.S_IFDIR) | stat.S_IFDIR
@staticmethod
def file_mode():
return (randint(0, 07777) & ~stat.S_IFREG) | stat.S_IFREG
def test_getxattr(self):
(fh, inode) = self.server.create(ROOT_INODE, self.newname(),
self.file_mode(), Ctx())
self.server.release(fh)
self.assertRaises(FUSEError, self.server.getxattr, inode.id, 'nonexistant-attr')
self.server.setxattr(inode.id, 'my-attr', 'strabumm!')
self.assertEqual(self.server.getxattr(inode.id, 'my-attr'), 'strabumm!')
self.fsck()
def test_link(self):
name = self.newname()
inode_p_new = self.server.mkdir(ROOT_INODE, self.newname(),
self.dir_mode(), Ctx())
inode_p_new_before = self.server.getattr(inode_p_new.id).copy()
(fh, inode) = self.server.create(ROOT_INODE, self.newname(),
self.file_mode(), Ctx())
self.server.release(fh)
time.sleep(CLOCK_GRANULARITY)
inode_before = self.server.getattr(inode.id).copy()
self.server.link(inode.id, inode_p_new.id, name)
inode_after = self.server.lookup(inode_p_new.id, name)
inode_p_new_after = self.server.getattr(inode_p_new.id)
id_ = self.db.get_val('SELECT inode FROM contents JOIN names ON names.id = name_id '
'WHERE name=? AND parent_inode = ?', (name, inode_p_new.id))
self.assertEqual(inode_before.id, id_)
self.assertEqual(inode_after.refcount, 2)
self.assertGreater(inode_after.ctime, inode_before.ctime)
self.assertLess(inode_p_new_before.mtime, inode_p_new_after.mtime)
self.assertLess(inode_p_new_before.ctime, inode_p_new_after.ctime)
self.fsck()
def test_listxattr(self):
(fh, inode) = self.server.create(ROOT_INODE, self.newname(),
self.file_mode(), Ctx())
self.server.release(fh)
self.assertListEqual([], self.server.listxattr(inode.id))
self.server.setxattr(inode.id, 'key1', 'blub')
self.assertListEqual(['key1'], self.server.listxattr(inode.id))
self.server.setxattr(inode.id, 'key2', 'blub')
self.assertListEqual(sorted(['key1', 'key2']),
sorted(self.server.listxattr(inode.id)))
self.fsck()
def test_read(self):
len_ = self.blocksize
data = self.random_data(len_)
off = self.blocksize // 2
(fh, inode) = self.server.create(ROOT_INODE, self.newname(),
self.file_mode(), Ctx())
self.server.write(fh, off, data)
inode_before = self.server.getattr(inode.id).copy()
time.sleep(CLOCK_GRANULARITY)
self.assertTrue(self.server.read(fh, off, len_) == data)
inode_after = self.server.getattr(inode.id)
self.assertGreater(inode_after.atime, inode_before.atime)
self.assertTrue(self.server.read(fh, 0, len_) == b"\0" * off + data[:off])
self.assertTrue(self.server.read(fh, self.blocksize, len_) == data[off:])
self.server.release(fh)
self.fsck()
def test_readdir(self):
# Create a few entries
names = [ 'entry_%2d' % i for i in range(20) ]
for name in names:
(fh, _) = self.server.create(ROOT_INODE, name,
self.file_mode(), Ctx())
self.server.release(fh)
# Delete some to make sure that we don't have continous rowids
remove_no = [0, 2, 3, 5, 9]
for i in remove_no:
self.server.unlink(ROOT_INODE, names[i])
del names[i]
# Read all
fh = self.server.opendir(ROOT_INODE)
self.assertListEqual(sorted(names + ['lost+found']) ,
sorted(x[0] for x in self.server.readdir(fh, 0)))
self.server.releasedir(fh)
# Read in parts
fh = self.server.opendir(ROOT_INODE)
entries = list()
try:
next_ = 0
while True:
gen = self.server.readdir(fh, next_)
for _ in range(3):
(name, _, next_) = next(gen)
entries.append(name)
except StopIteration:
pass
self.assertListEqual(sorted(names + ['lost+found']) ,
sorted(entries))
self.server.releasedir(fh)
self.fsck()
def test_release(self):
name = self.newname()
# Test that entries are deleted when they're no longer referenced
(fh, inode) = self.server.create(ROOT_INODE, name,
self.file_mode(), Ctx())
self.server.write(fh, 0, 'foobar')
self.server.unlink(ROOT_INODE, name)
self.assertFalse(self.db.has_val('SELECT 1 FROM contents JOIN names ON names.id = name_id '
'WHERE name=? AND parent_inode = ?', (name, ROOT_INODE)))
self.assertTrue(self.server.getattr(inode.id).id)
self.server.release(fh)
self.assertFalse(self.db.has_val('SELECT 1 FROM inodes WHERE id=?', (inode.id,)))
self.fsck()
def test_removexattr(self):
(fh, inode) = self.server.create(ROOT_INODE, self.newname(),
self.file_mode(), Ctx())
self.server.release(fh)
self.assertRaises(FUSEError, self.server.removexattr, inode.id, 'some name')
self.server.setxattr(inode.id, 'key1', 'blub')
self.server.removexattr(inode.id, 'key1')
self.assertListEqual([], self.server.listxattr(inode.id))
self.fsck()
def test_rename(self):
oldname = self.newname()
newname = self.newname()
inode = self.server.mkdir(ROOT_INODE, oldname, self.dir_mode(), Ctx())
inode_p_new = self.server.mkdir(ROOT_INODE, self.newname(), self.dir_mode(), Ctx())
inode_p_new_before = self.server.getattr(inode_p_new.id).copy()
inode_p_old_before = self.server.getattr(ROOT_INODE).copy()
time.sleep(CLOCK_GRANULARITY)
self.server.rename(ROOT_INODE, oldname, inode_p_new.id, newname)
inode_p_old_after = self.server.getattr(ROOT_INODE)
inode_p_new_after = self.server.getattr(inode_p_new.id)
self.assertFalse(self.db.has_val('SELECT inode FROM contents JOIN names ON names.id = name_id '
'WHERE name=? AND parent_inode = ?', (oldname, ROOT_INODE)))
id_ = self.db.get_val('SELECT inode FROM contents JOIN names ON names.id == name_id '
'WHERE name=? AND parent_inode = ?', (newname, inode_p_new.id))
self.assertEqual(inode.id, id_)
self.assertLess(inode_p_new_before.mtime, inode_p_new_after.mtime)
self.assertLess(inode_p_new_before.ctime, inode_p_new_after.ctime)
self.assertLess(inode_p_old_before.mtime, inode_p_old_after.mtime)
self.assertLess(inode_p_old_before.ctime, inode_p_old_after.ctime)
self.fsck()
def test_replace_file(self):
oldname = self.newname()
newname = self.newname()
(fh, inode) = self.server.create(ROOT_INODE, oldname, self.file_mode(), Ctx())
self.server.write(fh, 0, 'some data to deal with')
self.server.release(fh)
self.server.setxattr(inode.id, 'test_xattr', '42*8')
inode_p_new = self.server.mkdir(ROOT_INODE, self.newname(), self.dir_mode(), Ctx())
inode_p_new_before = self.server.getattr(inode_p_new.id).copy()
inode_p_old_before = self.server.getattr(ROOT_INODE).copy()
(fh, inode2) = self.server.create(inode_p_new.id, newname, self.file_mode(), Ctx())
self.server.write(fh, 0, 'even more data to deal with')
self.server.release(fh)
self.server.setxattr(inode2.id, 'test_xattr', '42*8')
time.sleep(CLOCK_GRANULARITY)
self.server.rename(ROOT_INODE, oldname, inode_p_new.id, newname)
inode_p_old_after = self.server.getattr(ROOT_INODE)
inode_p_new_after = self.server.getattr(inode_p_new.id)
self.assertFalse(self.db.has_val('SELECT inode FROM contents JOIN names ON names.id = name_id '
'WHERE name=? AND parent_inode = ?', (oldname, ROOT_INODE)))
id_ = self.db.get_val('SELECT inode FROM contents JOIN names ON names.id = name_id '
'WHERE name=? AND parent_inode = ?', (newname, inode_p_new.id))
self.assertEqual(inode.id, id_)
self.assertLess(inode_p_new_before.mtime, inode_p_new_after.mtime)
self.assertLess(inode_p_new_before.ctime, inode_p_new_after.ctime)
self.assertLess(inode_p_old_before.mtime, inode_p_old_after.mtime)
self.assertLess(inode_p_old_before.ctime, inode_p_old_after.ctime)
self.assertFalse(self.db.has_val('SELECT id FROM inodes WHERE id=?', (inode2.id,)))
self.fsck()
def test_replace_dir(self):
oldname = self.newname()
newname = self.newname()
inode = self.server.mkdir(ROOT_INODE, oldname, self.dir_mode(), Ctx())
inode_p_new = self.server.mkdir(ROOT_INODE, self.newname(), self.dir_mode(), Ctx())
inode_p_new_before = self.server.getattr(inode_p_new.id).copy()
inode_p_old_before = self.server.getattr(ROOT_INODE).copy()
inode2 = self.server.mkdir(inode_p_new.id, newname, self.dir_mode(), Ctx())
time.sleep(CLOCK_GRANULARITY)
self.server.rename(ROOT_INODE, oldname, inode_p_new.id, newname)
inode_p_old_after = self.server.getattr(ROOT_INODE)
inode_p_new_after = self.server.getattr(inode_p_new.id)
self.assertFalse(self.db.has_val('SELECT inode FROM contents JOIN names ON names.id = name_id '
'WHERE name=? AND parent_inode = ?', (oldname, ROOT_INODE)))
id_ = self.db.get_val('SELECT inode FROM contents JOIN names ON names.id = name_id '
'WHERE name=? AND parent_inode = ?', (newname, inode_p_new.id))
self.assertEqual(inode.id, id_)
self.assertLess(inode_p_new_before.mtime, inode_p_new_after.mtime)
self.assertLess(inode_p_new_before.ctime, inode_p_new_after.ctime)
self.assertLess(inode_p_old_before.mtime, inode_p_old_after.mtime)
self.assertLess(inode_p_old_before.ctime, inode_p_old_after.ctime)
self.assertFalse(self.db.has_val('SELECT id FROM inodes WHERE id=?', (inode2.id,)))
self.fsck()
def test_setattr(self):
(fh, inode) = self.server.create(ROOT_INODE, self.newname(), 0641, Ctx())
self.server.release(fh)
inode_old = self.server.getattr(inode.id).copy()
attr = llfuse.EntryAttributes()
attr.st_mode = self.file_mode()
attr.st_uid = randint(0, 2 ** 32)
attr.st_gid = randint(0, 2 ** 32)
attr.st_rdev = randint(0, 2 ** 32)
attr.st_atime = time.timezone + randint(0, 2 ** 32) / 10 ** 6
attr.st_mtime = time.timezone + randint(0, 2 ** 32) / 10 ** 6
time.sleep(CLOCK_GRANULARITY)
self.server.setattr(inode.id, attr)
inode_new = self.server.getattr(inode.id)
self.assertGreater(inode_new.ctime, inode_old.ctime)
for key in attr.__slots__:
if getattr(attr, key) is not None:
self.assertEquals(getattr(attr, key),
getattr(inode_new, key))
def test_truncate(self):
len_ = int(2.7 * self.blocksize)
data = self.random_data(len_)
attr = llfuse.EntryAttributes()
(fh, inode) = self.server.create(ROOT_INODE, self.newname(), self.file_mode(), Ctx())
self.server.write(fh, 0, data)
attr.st_size = len_ // 2
self.server.setattr(inode.id, attr)
self.assertTrue(self.server.read(fh, 0, len_) == data[:len_ // 2])
attr.st_size = len_
self.server.setattr(inode.id, attr)
self.assertTrue(self.server.read(fh, 0, len_)
== data[:len_ // 2] + b'\0' * (len_ // 2))
self.server.release(fh)
self.fsck()
def test_truncate_0(self):
len1 = 158
len2 = 133
attr = llfuse.EntryAttributes()
(fh, inode) = self.server.create(ROOT_INODE, self.newname(),
self.file_mode(), Ctx())
self.server.write(fh, 0, self.random_data(len1))
self.server.release(fh)
self.server.inodes.flush()
fh = self.server.open(inode.id, os.O_RDWR)
attr.st_size = 0
self.server.setattr(inode.id, attr)
self.server.write(fh, 0, self.random_data(len2))
self.server.release(fh)
self.fsck()
def test_setxattr(self):
(fh, inode) = self.server.create(ROOT_INODE, self.newname(),
self.file_mode(), Ctx())
self.server.release(fh)
self.server.setxattr(inode.id, 'my-attr', 'strabumm!')
self.assertEqual(self.server.getxattr(inode.id, 'my-attr'), 'strabumm!')
self.fsck()
def test_statfs(self):
# Test with zero contents
self.server.statfs()
# Test with empty file
(fh, inode) = self.server.create(ROOT_INODE, self.newname(),
self.file_mode(), Ctx())
self.server.release(fh)
self.server.statfs()
# Test with data in file
fh = self.server.open(inode.id, None)
self.server.write(fh, 0, 'foobar')
self.server.release(fh)
self.server.statfs()
def test_symlink(self):
target = self.newname()
name = self.newname()
inode_p_before = self.server.getattr(ROOT_INODE).copy()
time.sleep(CLOCK_GRANULARITY)
inode = self.server.symlink(ROOT_INODE, name, target, Ctx())
inode_p_after = self.server.getattr(ROOT_INODE)
self.assertEqual(target, self.server.readlink(inode.id))
id_ = self.db.get_val('SELECT inode FROM contents JOIN names ON names.id = name_id '
'WHERE name=? AND parent_inode = ?', (name, ROOT_INODE))
self.assertEqual(inode.id, id_)
self.assertLess(inode_p_before.mtime, inode_p_after.mtime)
self.assertLess(inode_p_before.ctime, inode_p_after.ctime)
def test_unlink(self):
name = self.newname()
(fh, inode) = self.server.create(ROOT_INODE, name, self.file_mode(), Ctx())
self.server.write(fh, 0, 'some data to deal with')
self.server.release(fh)
# Add extended attributes
self.server.setxattr(inode.id, 'test_xattr', '42*8')
inode_p_before = self.server.getattr(ROOT_INODE).copy()
time.sleep(CLOCK_GRANULARITY)
self.server.unlink(ROOT_INODE, name)
inode_p_after = self.server.getattr(ROOT_INODE)
self.assertLess(inode_p_before.mtime, inode_p_after.mtime)
self.assertLess(inode_p_before.ctime, inode_p_after.ctime)
self.assertFalse(self.db.has_val('SELECT inode FROM contents JOIN names ON names.id = name_id '
'WHERE name=? AND parent_inode = ?', (name, ROOT_INODE)))
self.assertFalse(self.db.has_val('SELECT id FROM inodes WHERE id=?', (inode.id,)))
self.fsck()
def test_rmdir(self):
name = self.newname()
inode = self.server.mkdir(ROOT_INODE, name, self.dir_mode(), Ctx())
inode_p_before = self.server.getattr(ROOT_INODE).copy()
time.sleep(CLOCK_GRANULARITY)
self.server.rmdir(ROOT_INODE, name)
inode_p_after = self.server.getattr(ROOT_INODE)
self.assertLess(inode_p_before.mtime, inode_p_after.mtime)
self.assertLess(inode_p_before.ctime, inode_p_after.ctime)
self.assertFalse(self.db.has_val('SELECT inode FROM contents JOIN names ON names.id = name_id '
'WHERE name=? AND parent_inode = ?', (name, ROOT_INODE)))
self.assertFalse(self.db.has_val('SELECT id FROM inodes WHERE id=?', (inode.id,)))
self.fsck()
def test_relink(self):
name = self.newname()
name2 = self.newname()
data = 'some data to deal with'
(fh, inode) = self.server.create(ROOT_INODE, name, self.file_mode(), Ctx())
self.server.write(fh, 0, data)
self.server.unlink(ROOT_INODE, name)
self.assertFalse(self.db.has_val('SELECT inode FROM contents JOIN names ON names.id = name_id '
'WHERE name=? AND parent_inode = ?', (name, ROOT_INODE)))
self.assertTrue(self.db.has_val('SELECT id FROM inodes WHERE id=?', (inode.id,)))
self.server.link(inode.id, ROOT_INODE, name2)
self.server.release(fh)
fh = self.server.open(inode.id, os.O_RDONLY)
self.assertTrue(self.server.read(fh, 0, len(data)) == data)
self.server.release(fh)
self.fsck()
def test_write(self):
len_ = self.blocksize
data = self.random_data(len_)
off = self.blocksize // 2
(fh, inode) = self.server.create(ROOT_INODE, self.newname(),
self.file_mode(), Ctx())
inode_before = self.server.getattr(inode.id).copy()
time.sleep(CLOCK_GRANULARITY)
self.server.write(fh, off, data)
inode_after = self.server.getattr(inode.id)
self.assertGreater(inode_after.mtime, inode_before.mtime)
self.assertGreater(inode_after.ctime, inode_before.ctime)
self.assertEqual(inode_after.size, off + len_)
self.server.write(fh, 0, data)
inode_after = self.server.getattr(inode.id)
self.assertEqual(inode_after.size, off + len_)
self.server.release(fh)
self.fsck()
def test_edit(self):
len_ = self.blocksize
data = self.random_data(len_)
(fh, inode) = self.server.create(ROOT_INODE, self.newname(),
self.file_mode(), Ctx())
self.server.write(fh, 0, data)
self.server.release(fh)
self.block_cache.clear()
fh = self.server.open(inode.id, os.O_RDWR)
attr = llfuse.EntryAttributes()
attr.st_size = 0
self.server.setattr(inode.id, attr)
self.server.write(fh, 0, data[50:])
self.server.release(fh)
self.fsck()
def test_copy_tree(self):
src_inode = self.server.mkdir(ROOT_INODE, 'source', self.dir_mode(), Ctx())
dst_inode = self.server.mkdir(ROOT_INODE, 'dest', self.dir_mode(), Ctx())
# Create file
(fh, f1_inode) = self.server.create(src_inode.id, 'file1',
self.file_mode(), Ctx())
self.server.write(fh, 0, 'file1 contents')
self.server.release(fh)
# Create hardlink
(fh, f2_inode) = self.server.create(src_inode.id, 'file2',
self.file_mode(), Ctx())
self.server.write(fh, 0, 'file2 contents')
self.server.release(fh)
f2_inode = self.server.link(f2_inode.id, src_inode.id, 'file2_hardlink')
# Create subdirectory
d1_inode = self.server.mkdir(src_inode.id, 'dir1', self.dir_mode(), Ctx())
d2_inode = self.server.mkdir(d1_inode.id, 'dir2', self.dir_mode(), Ctx())
# ..with a 3rd hardlink
f2_inode = self.server.link(f2_inode.id, d1_inode.id, 'file2_hardlink')
# Replicate
self.server.copy_tree(src_inode.id, dst_inode.id)
# Change files
fh = self.server.open(f1_inode.id, os.O_RDWR)
self.server.write(fh, 0, 'new file1 contents')
self.server.release(fh)
fh = self.server.open(f2_inode.id, os.O_RDWR)
self.server.write(fh, 0, 'new file2 contents')
self.server.release(fh)
# Get copy properties
f1_inode_c = self.server.lookup(dst_inode.id, 'file1')
f2_inode_c = self.server.lookup(dst_inode.id, 'file2')
f2h_inode_c = self.server.lookup(dst_inode.id, 'file2_hardlink')
d1_inode_c = self.server.lookup(dst_inode.id, 'dir1')
d2_inode_c = self.server.lookup(d1_inode_c.id, 'dir2')
f2_h_inode_c = self.server.lookup(d1_inode_c.id, 'file2_hardlink')
# Check file1
fh = self.server.open(f1_inode_c.id, os.O_RDWR)
self.assertEqual(self.server.read(fh, 0, 42), 'file1 contents')
self.server.release(fh)
self.assertNotEqual(f1_inode.id, f1_inode_c.id)
# Check file2
fh = self.server.open(f2_inode_c.id, os.O_RDWR)
self.assertTrue(self.server.read(fh, 0, 42) == 'file2 contents')
self.server.release(fh)
self.assertEqual(f2_inode_c.id, f2h_inode_c.id)
self.assertEqual(f2_inode_c.refcount, 3)
self.assertNotEqual(f2_inode.id, f2_inode_c.id)
self.assertEqual(f2_h_inode_c.id, f2_inode_c.id)
# Check subdir1
self.assertNotEqual(d1_inode.id, d1_inode_c.id)
self.assertNotEqual(d2_inode.id, d2_inode_c.id)
self.fsck()
def test_lock_tree(self):
inode1 = self.server.mkdir(ROOT_INODE, 'source', self.dir_mode(), Ctx())
# Create file
(fh, inode1a) = self.server.create(inode1.id, 'file1',
self.file_mode(), Ctx())
self.server.write(fh, 0, 'file1 contents')
self.server.release(fh)
# Create subdirectory
inode2 = self.server.mkdir(inode1.id, 'dir1', self.dir_mode(), Ctx())
(fh, inode2a) = self.server.create(inode2.id, 'file2',
self.file_mode(), Ctx())
self.server.write(fh, 0, 'file2 contents')
self.server.release(fh)
# Another file
(fh, inode3) = self.server.create(ROOT_INODE, 'file1',
self.file_mode(), Ctx())
self.server.release(fh)
# Lock
self.server.lock_tree(inode1.id)
for i in (inode1.id, inode1a.id, inode2.id, inode2a.id):
self.assertTrue(self.server.inodes[i].locked)
# Remove
with self.assertRaises(FUSEError) as cm:
self.server._remove(inode1.id, 'file1', inode1a.id)
self.assertEqual(cm.exception.errno, errno.EPERM)
# Rename / Replace
with self.assertRaises(FUSEError) as cm:
self.server.rename(ROOT_INODE, 'file1', inode1.id, 'file2')
self.assertEqual(cm.exception.errno, errno.EPERM)
with self.assertRaises(FUSEError) as cm:
self.server.rename(inode1.id, 'file1', ROOT_INODE, 'file2')
self.assertEqual(cm.exception.errno, errno.EPERM)
# Open
with self.assertRaises(FUSEError) as cm:
self.server.open(inode2a.id, os.O_RDWR)
self.assertEqual(cm.exception.errno, errno.EPERM)
with self.assertRaises(FUSEError) as cm:
self.server.open(inode2a.id, os.O_WRONLY)
self.assertEqual(cm.exception.errno, errno.EPERM)
self.server.release(self.server.open(inode3.id, os.O_WRONLY))
# Write
fh = self.server.open(inode2a.id, os.O_RDONLY)
with self.assertRaises(FUSEError) as cm:
self.server.write(fh, 0, 'foo')
self.assertEqual(cm.exception.errno, errno.EPERM)
self.server.release(fh)
# Create
with self.assertRaises(FUSEError) as cm:
self.server._create(inode2.id, 'dir1', self.dir_mode(), Ctx())
self.assertEqual(cm.exception.errno, errno.EPERM)
# Setattr
with self.assertRaises(FUSEError) as cm:
self.server.setattr(inode2a.id, dict())
self.assertEqual(cm.exception.errno, errno.EPERM)
# xattr
with self.assertRaises(FUSEError) as cm:
self.server.setxattr(inode2.id, 'name', 'value')
self.assertEqual(cm.exception.errno, errno.EPERM)
with self.assertRaises(FUSEError) as cm:
self.server.removexattr(inode2.id, 'name')
self.assertEqual(cm.exception.errno, errno.EPERM)
self.fsck()
def test_remove_tree(self):
inode1 = self.server.mkdir(ROOT_INODE, 'source', self.dir_mode(), Ctx())
# Create file
(fh, inode1a) = self.server.create(inode1.id, 'file1',
self.file_mode(), Ctx())
self.server.write(fh, 0, 'file1 contents')
self.server.release(fh)
# Create subdirectory
inode2 = self.server.mkdir(inode1.id, 'dir1', self.dir_mode(), Ctx())
(fh, inode2a) = self.server.create(inode2.id, 'file2',
self.file_mode(), Ctx())
self.server.write(fh, 0, 'file2 contents')
self.server.release(fh)
# Remove
self.server.remove_tree(ROOT_INODE, 'source')
for (id_p, name) in ((ROOT_INODE, 'source'),
(inode1.id, 'file1'),
(inode1.id, 'dir1'),
(inode2.id, 'file2')):
self.assertFalse(self.db.has_val('SELECT inode FROM contents JOIN names ON names.id = name_id '
'WHERE name=? AND parent_inode = ?', (name, id_p)))
for id_ in (inode1.id, inode1a.id, inode2.id, inode2a.id):
self.assertFalse(self.db.has_val('SELECT id FROM inodes WHERE id=?', (id_,)))
self.fsck()
class fsck_tests(unittest.TestCase):
def setUp(self):
self.backend_dir = tempfile.mkdtemp()
self.backend = local.Backend('local://' + self.backend_dir, None, None)
self.cachedir = tempfile.mkdtemp()
self.max_obj_size = 1024
# Destructors are not guaranteed to run, and we can't unlink
# the file immediately because apsw refers to it by name.
# Therefore, we unlink the file manually in tearDown()
self.dbfile = tempfile.NamedTemporaryFile(delete=False)
self.db = Connection(self.dbfile.name)
create_tables(self.db)
init_tables(self.db)
self.fsck = Fsck(self.cachedir, self.backend,
{ 'max_obj_size': self.max_obj_size }, self.db)
self.fsck.expect_errors = True
def tearDown(self):
shutil.rmtree(self.cachedir)
shutil.rmtree(self.backend_dir)
os.unlink(self.dbfile.name)
def assert_fsck(self, fn):
'''Check that fn detects and corrects an error'''
self.fsck.found_errors = False
fn()
self.assertTrue(self.fsck.found_errors)
self.fsck.found_errors = False
self.fsck.check()
self.assertFalse(self.fsck.found_errors)
def test_cache(self):
inode = self.db.rowid("INSERT INTO inodes (mode,uid,gid,mtime,atime,ctime,refcount,size) "
"VALUES (?,?,?,?,?,?,?,?)",
(stat.S_IFREG | stat.S_IRUSR | stat.S_IWUSR | stat.S_IXUSR
| stat.S_IRGRP | stat.S_IXGRP | stat.S_IROTH | stat.S_IXOTH,
os.getuid(), os.getgid(), time.time(), time.time(), time.time(),
1, 8))
self._link('test-entry', inode)
# Create new block
fh = open(self.cachedir + '/%d-0' % inode, 'wb')
fh.write('somedata')
fh.close()
self.assert_fsck(self.fsck.check_cache)
self.assertEquals(self.backend['s3ql_data_1'], 'somedata')
# Existing block
self.db.execute('UPDATE inodes SET size=? WHERE id=?',
(self.max_obj_size + 8, inode))
with open(self.cachedir + '/%d-1' % inode, 'wb') as fh:
fh.write('somedata')
self.assert_fsck(self.fsck.check_cache)
# Old block preserved
with open(self.cachedir + '/%d-0' % inode, 'wb') as fh:
fh.write('somedat2')
self.assert_fsck(self.fsck.check_cache)
# Old block removed
with open(self.cachedir + '/%d-1' % inode, 'wb') as fh:
fh.write('somedat3')
self.assert_fsck(self.fsck.check_cache)
def test_lof1(self):
# Make lost+found a file
inode = self.db.get_val("SELECT inode FROM contents_v WHERE name=? AND parent_inode=?",
(b"lost+found", ROOT_INODE))
self.db.execute('DELETE FROM contents WHERE parent_inode=?', (inode,))
self.db.execute('UPDATE inodes SET mode=?, size=? WHERE id=?',
(stat.S_IFREG | stat.S_IRUSR | stat.S_IWUSR, 0, inode))
def check():
self.fsck.check_lof()
self.fsck.check_inodes_refcount()
self.assert_fsck(check)
def test_lof2(self):
# Remove lost+found
name_id = self.db.get_val('SELECT id FROM names WHERE name=?', (b'lost+found',))
inode = self.db.get_val('SELECT inode FROM contents WHERE name_id=? AND '
'parent_inode=?', (name_id, ROOT_INODE))
self.db.execute('DELETE FROM inodes WHERE id=?', (inode,))
self.db.execute('DELETE FROM contents WHERE name_id=? and parent_inode=?',
(name_id, ROOT_INODE))
self.db.execute('UPDATE names SET refcount = refcount-1 WHERE id=?', (name_id,))
self.assert_fsck(self.fsck.check_lof)
def test_wrong_inode_refcount(self):
inode = self.db.rowid("INSERT INTO inodes (mode,uid,gid,mtime,atime,ctime,refcount,size) "
"VALUES (?,?,?,?,?,?,?,?)",
(stat.S_IFREG | stat.S_IRUSR | stat.S_IWUSR,
0, 0, time.time(), time.time(), time.time(), 1, 0))
self._link('name1', inode)
self._link('name2', inode)
self.assert_fsck(self.fsck.check_inodes_refcount)
def test_orphaned_inode(self):
self.db.rowid("INSERT INTO inodes (mode,uid,gid,mtime,atime,ctime,refcount,size) "
"VALUES (?,?,?,?,?,?,?,?)",
(stat.S_IFREG | stat.S_IRUSR | stat.S_IWUSR,
0, 0, time.time(), time.time(), time.time(), 1, 0))
self.assert_fsck(self.fsck.check_inodes_refcount)
def test_name_refcount(self):
inode = self.db.rowid("INSERT INTO inodes (mode,uid,gid,mtime,atime,ctime,refcount,size) "
"VALUES (?,?,?,?,?,?,?,?)",
(stat.S_IFREG | stat.S_IRUSR | stat.S_IWUSR,
0, 0, time.time(), time.time(), time.time(), 2, 0))
self._link('name1', inode)
self._link('name2', inode)
self.db.execute('UPDATE names SET refcount=refcount+1 WHERE name=?', ('name1',))
self.assert_fsck(self.fsck.check_names_refcount)
def test_orphaned_name(self):
self._add_name('zupbrazl')
self.assert_fsck(self.fsck.check_names_refcount)
def test_contents_inode(self):
self.db.execute('INSERT INTO contents (name_id, inode, parent_inode) VALUES(?,?,?)',
(self._add_name('foobar'), 124, ROOT_INODE))
self.assert_fsck(self.fsck.check_contents_inode)
def test_contents_inode_p(self):
inode = self.db.rowid("INSERT INTO inodes (mode,uid,gid,mtime,atime,ctime,refcount,size) "
"VALUES (?,?,?,?,?,?,?,?)",
(stat.S_IFDIR | stat.S_IRUSR | stat.S_IWUSR,
0, 0, time.time(), time.time(), time.time(), 1, 0))
self.db.execute('INSERT INTO contents (name_id, inode, parent_inode) VALUES(?,?,?)',
(self._add_name('foobar'), inode, 123))
self.assert_fsck(self.fsck.check_contents_parent_inode)
def test_contents_name(self):
inode = self.db.rowid("INSERT INTO inodes (mode,uid,gid,mtime,atime,ctime,refcount,size) "
"VALUES (?,?,?,?,?,?,?,?)",
(stat.S_IFDIR | stat.S_IRUSR | stat.S_IWUSR,
0, 0, time.time(), time.time(), time.time(), 1, 0))
self.db.execute('INSERT INTO contents (name_id, inode, parent_inode) VALUES(?,?,?)',
(42, inode, ROOT_INODE))
self.assert_fsck(self.fsck.check_contents_name)
def _add_name(self, name):
'''Get id for *name* and increase refcount
Name is inserted in table if it does not yet exist.
'''
try:
name_id = self.db.get_val('SELECT id FROM names WHERE name=?', (name,))
except NoSuchRowError:
name_id = self.db.rowid('INSERT INTO names (name, refcount) VALUES(?,?)',
(name, 1))
else:
self.db.execute('UPDATE names SET refcount=refcount+1 WHERE id=?', (name_id,))
return name_id
def _link(self, name, inode, parent_inode=ROOT_INODE):
'''Link /*name* to *inode*'''
self.db.execute('INSERT INTO contents (name_id, inode, parent_inode) VALUES(?,?,?)',
(self._add_name(name), inode, parent_inode))
def test_inodes_size(self):
id_ = self.db.rowid("INSERT INTO inodes (mode,uid,gid,mtime,atime,ctime,refcount,size) "
"VALUES (?,?,?,?,?,?,?,?)",
(stat.S_IFREG | stat.S_IRUSR | stat.S_IWUSR,
0, 0, time.time(), time.time(), time.time(), 1, 128))
self._link('test-entry', id_)
obj_id = self.db.rowid('INSERT INTO objects (refcount,size) VALUES(?,?)', (1, 36))
block_id = self.db.rowid('INSERT INTO blocks (refcount, obj_id, size) VALUES(?,?,?)',
(1, obj_id, 512))
self.backend['s3ql_data_%d' % obj_id] = 'foo'
# Case 1
self.db.execute('UPDATE inodes SET size=? WHERE id=?', (self.max_obj_size + 120, id_))
self.db.execute('INSERT INTO inode_blocks (inode, blockno, block_id) VALUES(?, ?, ?)',
(id_, 1, block_id))
self.assert_fsck(self.fsck.check_inodes_size)
# Case 2
self.db.execute('DELETE FROM inode_blocks WHERE inode=?', (id_,))
self.db.execute('INSERT INTO inode_blocks (inode, blockno, block_id) VALUES(?, ?, ?)',
(id_, 0, block_id))
self.db.execute('UPDATE inodes SET size=? WHERE id=?', (129, id_))
self.assert_fsck(self.fsck.check_inodes_size)
# Case 3
self.db.execute('INSERT INTO inode_blocks (inode, blockno, block_id) VALUES(?, ?, ?)',
(id_, 1, block_id))
self.db.execute('UPDATE inodes SET size=? WHERE id=?',
(self.max_obj_size + 120, id_))
self.db.execute('UPDATE blocks SET refcount = refcount + 1 WHERE id = ?',
(block_id,))
self.assert_fsck(self.fsck.check_inodes_size)
def test_objects_id(self):
# Create an object that only exists in the backend
self.backend['s3ql_data_4364'] = 'Testdata'
self.assert_fsck(self.fsck.check_objects_id)
# Create an object that does not exist in the backend
self.db.execute('INSERT INTO objects (id, refcount, size) VALUES(?, ?, ?)', (34, 1, 27))
self.assert_fsck(self.fsck.check_objects_id)
def test_blocks_obj_id(self):
block_id = self.db.rowid('INSERT INTO blocks (refcount, obj_id, size) VALUES(?,?,?)',
(1, 48, 128))
id_ = self.db.rowid("INSERT INTO inodes (mode,uid,gid,mtime,atime,ctime,refcount,size) "
"VALUES (?,?,?,?,?,?,?,?)",
(stat.S_IFREG | stat.S_IRUSR | stat.S_IWUSR,
0, 0, time.time(), time.time(), time.time(), 1, 128))
self.db.execute('INSERT INTO inode_blocks (inode, blockno, block_id) VALUES(?,?,?)',
(id_, 0, block_id))
self._link('test-entry', id_)
self.assert_fsck(self.fsck.check_blocks_obj_id)
def test_missing_obj(self):
obj_id = self.db.rowid('INSERT INTO objects (refcount, size) VALUES(1, 32)')
block_id = self.db.rowid('INSERT INTO blocks (refcount, obj_id, size) VALUES(?,?,?)',
(1, obj_id, 128))
id_ = self.db.rowid("INSERT INTO inodes (mode,uid,gid,mtime,atime,ctime,refcount,size) "
"VALUES (?,?,?,?,?,?,?,?)",
(stat.S_IFREG | stat.S_IRUSR | stat.S_IWUSR,
0, 0, time.time(), time.time(), time.time(), 1, 128))
self.db.execute('INSERT INTO inode_blocks (inode, blockno, block_id) VALUES(?,?,?)',
(id_, 0, block_id))
self._link('test-entry', id_)
self.assert_fsck(self.fsck.check_objects_id)
def test_inode_blocks_inode(self):
obj_id = self.db.rowid('INSERT INTO objects (refcount, size) VALUES(1, 42)')
self.backend['s3ql_data_%d' % obj_id] = 'foo'
block_id = self.db.rowid('INSERT INTO blocks (refcount, obj_id, size) VALUES(?,?,?)',
(1, obj_id, 34))
self.db.execute('INSERT INTO inode_blocks (inode, blockno, block_id) VALUES(?,?,?)',
(27, 0, block_id))
self.assert_fsck(self.fsck.check_inode_blocks_inode)
def test_inode_blocks_block_id(self):
id_ = self.db.rowid("INSERT INTO inodes (mode,uid,gid,mtime,atime,ctime,refcount,size) "
"VALUES (?,?,?,?,?,?,?,?)",
(stat.S_IFREG | stat.S_IRUSR | stat.S_IWUSR,
0, 0, time.time(), time.time(), time.time(), 1, 128))
self.db.execute('INSERT INTO inode_blocks (inode, blockno, block_id) VALUES(?,?,?)',
(id_, 0, 35))
self._link('test-entry', id_)
self.assert_fsck(self.fsck.check_inode_blocks_block_id)
def test_symlinks_inode(self):
self.db.execute('INSERT INTO symlink_targets (inode, target) VALUES(?,?)',
(42, b'somewhere else'))
self.assert_fsck(self.fsck.check_symlinks_inode)
def test_ext_attrs_inode(self):
self.db.execute('INSERT INTO ext_attributes (name_id, inode, value) VALUES(?,?,?)',
(self._add_name('some name'), 34, b'some value'))
self.assert_fsck(self.fsck.check_ext_attributes_inode)
def test_ext_attrs_name(self):
id_ = self.db.rowid("INSERT INTO inodes (mode,uid,gid,mtime,atime,ctime,refcount,size) "
"VALUES (?,?,?,?,?,?,?,?)",
(stat.S_IFREG | stat.S_IRUSR | stat.S_IWUSR,
0, 0, time.time(), time.time(), time.time(), 1, 128))
self._link('test-entry', id_)
self.db.execute('INSERT INTO ext_attributes (name_id, inode, value) VALUES(?,?,?)',
(34, id_, b'some value'))
self.assert_fsck(self.fsck.check_ext_attributes_name)
@staticmethod
def random_data(len_):
with open("/dev/urandom", "rb") as fd:
return fd.read(len_)
def test_loops(self):
# Create some directory inodes
inodes = [ self.db.rowid("INSERT INTO inodes (mode,uid,gid,mtime,atime,ctime,refcount) "
"VALUES (?,?,?,?,?,?,?)",
(stat.S_IFDIR | stat.S_IRUSR | stat.S_IWUSR,
0, 0, time.time(), time.time(), time.time(), 1))
for dummy in range(3) ]
inodes.append(inodes[0])
last = inodes[0]
for inode in inodes[1:]:
self.db.execute('INSERT INTO contents (name_id, inode, parent_inode) VALUES(?, ?, ?)',
(self._add_name(bytes(inode)), inode, last))
last = inode
self.assert_fsck(self.fsck.check_loops)
def test_obj_refcounts(self):
obj_id = self.db.rowid('INSERT INTO objects (refcount, size) VALUES(1, 42)')
block_id_1 = self.db.rowid('INSERT INTO blocks (refcount, obj_id, size) VALUES(?,?,?)',
(1, obj_id, 0))
block_id_2 = self.db.rowid('INSERT INTO blocks (refcount, obj_id, size) VALUES(?,?,?)',
(1, obj_id, 0))
self.backend['s3ql_data_%d' % obj_id] = 'foo'
inode = self.db.rowid("INSERT INTO inodes (mode,uid,gid,mtime,atime,ctime,refcount,size) "
"VALUES (?,?,?,?,?,?,?,?)",
(stat.S_IFREG | stat.S_IRUSR | stat.S_IWUSR,
os.getuid(), os.getgid(), time.time(), time.time(), time.time(),
1, 2048))
self._link('test-entry', inode)
self.db.execute('INSERT INTO inode_blocks (inode, blockno, block_id) VALUES(?,?,?)',
(inode, 1, block_id_1))
self.db.execute('INSERT INTO inode_blocks (inode, blockno, block_id) VALUES(?,?,?)',
(inode, 2, block_id_2))
self.assert_fsck(self.fsck.check_objects_refcount)
def test_orphaned_obj(self):
self.db.rowid('INSERT INTO objects (refcount, size) VALUES(1, 33)')
self.assert_fsck(self.fsck.check_objects_refcount)
def test_wrong_block_refcount(self):
obj_id = self.db.rowid('INSERT INTO objects (refcount, size) VALUES(1, 23)')
self.backend['s3ql_data_%d' % obj_id] = 'foo'
block_id = self.db.rowid('INSERT INTO blocks (refcount, obj_id, size) VALUES(?,?,?)',
(1, obj_id, 0))
inode = self.db.rowid("INSERT INTO inodes (mode,uid,gid,mtime,atime,ctime,refcount,size) "
"VALUES (?,?,?,?,?,?,?,?)",
(stat.S_IFREG | stat.S_IRUSR | stat.S_IWUSR, os.getuid(), os.getgid(),
time.time(), time.time(), time.time(), 1, self.max_obj_size))
self._link('test-entry', inode)
self.db.execute('INSERT INTO inode_blocks (inode, blockno, block_id) VALUES(?,?,?)',
(inode, 0, block_id))
self.db.execute('INSERT INTO inode_blocks (inode, blockno, block_id) VALUES(?,?,?)',
(inode, 1, block_id))
self.assert_fsck(self.fsck.check_blocks_refcount)
def test_orphaned_block(self):
obj_id = self.db.rowid('INSERT INTO objects (refcount, size) VALUES(1, 24)')
self.backend['s3ql_data_%d' % obj_id] = 'foo'
self.db.rowid('INSERT INTO blocks (refcount, obj_id, size) VALUES(?,?,?)',
(1, obj_id, 3))
self.assert_fsck(self.fsck.check_blocks_refcount)
def test_unix_size(self):
inode = 42
self.db.execute("INSERT INTO inodes (id, mode,uid,gid,mtime,atime,ctime,refcount,size) "
"VALUES (?,?,?,?,?,?,?,?,?)",
(inode, stat.S_IFIFO | stat.S_IRUSR | stat.S_IWUSR,
os.getuid(), os.getgid(), time.time(), time.time(), time.time(), 1, 0))
self._link('test-entry', inode)
self.fsck.found_errors = False
self.fsck.check_unix()
self.assertFalse(self.fsck.found_errors)
self.db.execute('UPDATE inodes SET size = 1 WHERE id=?', (inode,))
self.fsck.check_unix()
self.assertTrue(self.fsck.found_errors)
def test_unix_size_symlink(self):
inode = 42
target = 'some funny random string'
self.db.execute("INSERT INTO inodes (id, mode,uid,gid,mtime,atime,ctime,refcount,size) "
"VALUES (?,?,?,?,?,?,?,?,?)",
(inode, stat.S_IFLNK | stat.S_IRUSR | stat.S_IWUSR,
os.getuid(), os.getgid(), time.time(), time.time(), time.time(), 1,
len(target)))
self.db.execute('INSERT INTO symlink_targets (inode, target) VALUES(?,?)', (inode, target))
self._link('test-entry', inode)
self.fsck.found_errors = False
self.fsck.check_unix()
self.assertFalse(self.fsck.found_errors)
self.db.execute('UPDATE inodes SET size = 0 WHERE id=?', (inode,))
self.fsck.check_unix()
self.assertTrue(self.fsck.found_errors)
def test_unix_target(self):
inode = 42
self.db.execute("INSERT INTO inodes (id, mode,uid,gid,mtime,atime,ctime,refcount) "
"VALUES (?,?,?,?,?,?,?,?)",
(inode, stat.S_IFCHR | stat.S_IRUSR | stat.S_IWUSR,
os.getuid(), os.getgid(), time.time(), time.time(), time.time(), 1))
self._link('test-entry', inode)
self.fsck.found_errors = False
self.fsck.check_unix()
self.assertFalse(self.fsck.found_errors)
self.db.execute('INSERT INTO symlink_targets (inode, target) VALUES(?,?)', (inode, 'foo'))
self.fsck.check_unix()
self.assertTrue(self.fsck.found_errors)
def test_unix_nomode_reg(self):
perms = stat.S_IRUSR | stat.S_IWUSR | stat.S_IROTH | stat.S_IRGRP
stamp = time.time()
inode = self.db.rowid("INSERT INTO inodes (mode,uid,gid,mtime,atime,ctime,refcount) "
"VALUES (?,?,?,?,?,?,?)",
(perms, os.getuid(), os.getgid(), stamp, stamp, stamp, 1))
self._link('test-entry', inode)
self.assert_fsck(self.fsck.check_unix)
newmode = self.db.get_val('SELECT mode FROM inodes WHERE id=?', (inode,))
self.assertEqual(stat.S_IMODE(newmode), perms)
self.assertEqual(stat.S_IFMT(newmode), stat.S_IFREG)
def test_unix_nomode_dir(self):
perms = stat.S_IRUSR | stat.S_IWUSR | stat.S_IROTH | stat.S_IRGRP
stamp = time.time()
inode = self.db.rowid("INSERT INTO inodes (mode,uid,gid,mtime,atime,ctime,refcount) "
"VALUES (?,?,?,?,?,?,?)",
(perms, os.getuid(), os.getgid(), stamp, stamp, stamp, 1))
inode2 = self.db.rowid("INSERT INTO inodes (mode,uid,gid,mtime,atime,ctime,refcount) "
"VALUES (?,?,?,?,?,?,?)",
(perms | stat.S_IFREG, os.getuid(), os.getgid(), stamp,
stamp, stamp, 1))
self._link('test-entry', inode)
self._link('subentry', inode2, inode)
self.assert_fsck(self.fsck.check_unix)
newmode = self.db.get_val('SELECT mode FROM inodes WHERE id=?', (inode,))
self.assertEqual(stat.S_IMODE(newmode), perms)
self.assertEqual(stat.S_IFMT(newmode), stat.S_IFDIR)
def test_unix_symlink_no_target(self):
inode = self.db.rowid("INSERT INTO inodes (mode,uid,gid,mtime,atime,ctime,refcount) "
"VALUES (?,?,?,?,?,?,?)",
(stat.S_IFLNK | stat.S_IRUSR | stat.S_IWUSR,
os.getuid(), os.getgid(), time.time(), time.time(), time.time(), 1))
self._link('test-entry', inode)
self.fsck.check_unix()
self.assertTrue(self.fsck.found_errors)
def test_unix_rdev(self):
inode = 42
self.db.execute("INSERT INTO inodes (id, mode,uid,gid,mtime,atime,ctime,refcount) "
"VALUES (?,?,?,?,?,?,?,?)",
(inode, stat.S_IFIFO | stat.S_IRUSR | stat.S_IWUSR,
os.getuid(), os.getgid(), time.time(), time.time(), time.time(), 1))
self._link('test-entry', inode)
self.fsck.found_errors = False
self.fsck.check_unix()
self.assertFalse(self.fsck.found_errors)
self.db.execute('UPDATE inodes SET rdev=? WHERE id=?', (42, inode))
self.fsck.check_unix()
self.assertTrue(self.fsck.found_errors)
def test_unix_child(self):
inode = self.db.rowid("INSERT INTO inodes (mode,uid,gid,mtime,atime,ctime,refcount) "
"VALUES (?,?,?,?,?,?,?)",
(stat.S_IFREG | stat.S_IRUSR | stat.S_IWUSR,
os.getuid(), os.getgid(), time.time(), time.time(), time.time(), 1))
self._link('test-entry', inode)
self.fsck.found_errors = False
self.fsck.check_unix()
self.assertFalse(self.fsck.found_errors)
self.db.execute('INSERT INTO contents (name_id, inode, parent_inode) VALUES(?,?,?)',
(self._add_name('foo'), ROOT_INODE, inode))
self.fsck.check_unix()
self.assertTrue(self.fsck.found_errors)
def test_unix_blocks(self):
inode = self.db.rowid("INSERT INTO inodes (mode,uid,gid,mtime,atime,ctime,refcount) "
"VALUES (?,?,?,?,?,?,?)",
(stat.S_IFSOCK | stat.S_IRUSR | stat.S_IWUSR,
os.getuid(), os.getgid(), time.time(), time.time(), time.time(), 1))
self._link('test-entry', inode)
self.fsck.found_errors = False
self.fsck.check_unix()
self.assertFalse(self.fsck.found_errors)
obj_id = self.db.rowid('INSERT INTO objects (refcount, size) VALUES(1, 32)')
block_id = self.db.rowid('INSERT INTO blocks (refcount, obj_id, size) VALUES(?,?,?)',
(1, obj_id, 0))
self.db.execute('INSERT INTO inode_blocks (inode, blockno, block_id) VALUES(?,?,?)',
(inode, 1, block_id))
self.fsck.check_unix()
self.assertTrue(self.fsck.found_errors)
