from contextlib import contextmanager import filecmp import functools import os try: import posix except ImportError: posix = None import re import stat import sys import sysconfig import tempfile import time import uuid import unittest from ..xattr import get_all from ..platform import get_flags from ..helpers import umount from ..helpers import EXIT_SUCCESS, EXIT_WARNING, EXIT_ERROR from .. import platform # Note: this is used by borg.selftest, do not use or import py.test functionality here. from ..fuse_impl import llfuse, has_pyfuse3, has_llfuse # Does this version of llfuse support ns precision? have_fuse_mtime_ns = hasattr(llfuse.EntryAttributes, 'st_mtime_ns') if llfuse else False try: from pytest import raises except: # noqa raises = None has_lchflags = hasattr(os, 'lchflags') or sys.platform.startswith('linux') try: with tempfile.NamedTemporaryFile() as file: platform.set_flags(file.name, stat.UF_NODUMP) except OSError: has_lchflags = False # The mtime get/set precision varies on different OS and Python versions if posix and 'HAVE_FUTIMENS' in getattr(posix, '_have_functions', []): st_mtime_ns_round = 0 # 1ns resolution elif 'HAVE_UTIMES' in sysconfig.get_config_vars(): st_mtime_ns_round = -3 # 1us resolution else: st_mtime_ns_round = -9 # 1s resolution if sys.platform.startswith('netbsd'): st_mtime_ns_round = -4 # 10us - strange: only >1 microsecond resolution here? def same_ts_ns(ts_ns1, ts_ns2): """compare 2 timestamps (both in nanoseconds) whether they are (roughly) equal""" diff_ts = int(abs(ts_ns1 - ts_ns2)) diff_max = 10 ** (-st_mtime_ns_round) return diff_ts <= diff_max @contextmanager def unopened_tempfile(): with tempfile.TemporaryDirectory() as tempdir: yield os.path.join(tempdir, "file") @functools.lru_cache def are_symlinks_supported(): with unopened_tempfile() as filepath: try: os.symlink('somewhere', filepath) if os.stat(filepath, follow_symlinks=False) and os.readlink(filepath) == 'somewhere': return True except OSError: pass return False @functools.lru_cache def are_hardlinks_supported(): if not hasattr(os, 'link'): # some pythons do not have os.link return False with unopened_tempfile() as file1path, unopened_tempfile() as file2path: open(file1path, 'w').close() try: os.link(file1path, file2path) stat1 = os.stat(file1path) stat2 = os.stat(file2path) if stat1.st_nlink == stat2.st_nlink == 2 and stat1.st_ino == stat2.st_ino: return True except OSError: pass return False @functools.lru_cache def are_fifos_supported(): with unopened_tempfile() as filepath: try: os.mkfifo(filepath) return True except OSError: pass except NotImplementedError: pass except AttributeError: pass return False @functools.lru_cache def is_utime_fully_supported(): with unopened_tempfile() as filepath: # Some filesystems (such as SSHFS) don't support utime on symlinks if are_symlinks_supported(): os.symlink('something', filepath) else: open(filepath, 'w').close() try: os.utime(filepath, (1000, 2000), follow_symlinks=False) new_stats = os.stat(filepath, follow_symlinks=False) if new_stats.st_atime == 1000 and new_stats.st_mtime == 2000: return True except OSError: pass except NotImplementedError: pass return False @functools.lru_cache def is_birthtime_fully_supported(): if not hasattr(os.stat_result, 'st_birthtime'): return False with unopened_tempfile() as filepath: # Some filesystems (such as SSHFS) don't support utime on symlinks if are_symlinks_supported(): os.symlink('something', filepath) else: open(filepath, 'w').close() try: birthtime, mtime, atime = 946598400, 946684800, 946771200 os.utime(filepath, (atime, birthtime), follow_symlinks=False) os.utime(filepath, (atime, mtime), follow_symlinks=False) new_stats = os.stat(filepath, follow_symlinks=False) if new_stats.st_birthtime == birthtime and new_stats.st_mtime == mtime and new_stats.st_atime == atime: return True except OSError: pass except NotImplementedError: pass return False def no_selinux(x): # selinux fails our FUSE tests, thus ignore selinux xattrs SELINUX_KEY = b'security.selinux' if isinstance(x, dict): return {k: v for k, v in x.items() if k != SELINUX_KEY} if isinstance(x, list): return [k for k in x if k != SELINUX_KEY] class BaseTestCase(unittest.TestCase): """ """ assert_in = unittest.TestCase.assertIn assert_not_in = unittest.TestCase.assertNotIn assert_equal = unittest.TestCase.assertEqual assert_not_equal = unittest.TestCase.assertNotEqual if raises: assert_raises = staticmethod(raises) else: assert_raises = unittest.TestCase.assertRaises @contextmanager def assert_creates_file(self, path): assert not os.path.exists(path), f'{path} should not exist' yield assert os.path.exists(path), f'{path} should exist' def assert_dirs_equal(self, dir1, dir2, **kwargs): diff = filecmp.dircmp(dir1, dir2) self._assert_dirs_equal_cmp(diff, **kwargs) def assert_line_exists(self, lines, expected_regexpr): assert any(re.search(expected_regexpr, line) for line in lines), f"no match for {expected_regexpr} in {lines}" def _assert_dirs_equal_cmp(self, diff, ignore_flags=False, ignore_xattrs=False, ignore_ns=False): self.assert_equal(diff.left_only, []) self.assert_equal(diff.right_only, []) self.assert_equal(diff.diff_files, []) self.assert_equal(diff.funny_files, []) for filename in diff.common: path1 = os.path.join(diff.left, filename) path2 = os.path.join(diff.right, filename) s1 = os.stat(path1, follow_symlinks=False) s2 = os.stat(path2, follow_symlinks=False) # Assume path2 is on FUSE if st_dev is different fuse = s1.st_dev != s2.st_dev attrs = ['st_uid', 'st_gid', 'st_rdev'] if not fuse or not os.path.isdir(path1): # dir nlink is always 1 on our FUSE filesystem attrs.append('st_nlink') d1 = [filename] + [getattr(s1, a) for a in attrs] d2 = [filename] + [getattr(s2, a) for a in attrs] d1.insert(1, oct(s1.st_mode)) d2.insert(1, oct(s2.st_mode)) if not ignore_flags: d1.append(get_flags(path1, s1)) d2.append(get_flags(path2, s2)) # ignore st_rdev if file is not a block/char device, fixes #203 if not stat.S_ISCHR(s1.st_mode) and not stat.S_ISBLK(s1.st_mode): d1[4] = None if not stat.S_ISCHR(s2.st_mode) and not stat.S_ISBLK(s2.st_mode): d2[4] = None # If utime isn't fully supported, borg can't set mtime. # Therefore, we shouldn't test it in that case. if is_utime_fully_supported(): # Older versions of llfuse do not support ns precision properly if ignore_ns: d1.append(int(s1.st_mtime_ns / 1e9)) d2.append(int(s2.st_mtime_ns / 1e9)) elif fuse and not have_fuse_mtime_ns: d1.append(round(s1.st_mtime_ns, -4)) d2.append(round(s2.st_mtime_ns, -4)) else: d1.append(round(s1.st_mtime_ns, st_mtime_ns_round)) d2.append(round(s2.st_mtime_ns, st_mtime_ns_round)) if not ignore_xattrs: d1.append(no_selinux(get_all(path1, follow_symlinks=False))) d2.append(no_selinux(get_all(path2, follow_symlinks=False))) self.assert_equal(d1, d2) for sub_diff in diff.subdirs.values(): self._assert_dirs_equal_cmp(sub_diff, ignore_flags=ignore_flags, ignore_xattrs=ignore_xattrs, ignore_ns=ignore_ns) @contextmanager def fuse_mount(self, location, mountpoint=None, *options, fork=True, os_fork=False, **kwargs): # For a successful mount, `fork = True` is required for # the borg mount daemon to work properly or the tests # will just freeze. Therefore, if argument `fork` is not # specified, the default value is `True`, regardless of # `FORK_DEFAULT`. However, leaving the possibility to run # the command with `fork = False` is still necessary for # testing for mount failures, for example attempting to # mount a read-only repo. # `os_fork = True` is needed for testing (the absence of) # a race condition of the Lock during lock migration when # borg mount (local repo) is daemonizing (#4953). This is another # example where we need `fork = False`, because the test case # needs an OS fork, not a spawning of the fuse mount. # `fork = False` is implied if `os_fork = True`. if mountpoint is None: mountpoint = tempfile.mkdtemp() else: os.mkdir(mountpoint) args = ['mount', location, mountpoint] + list(options) if os_fork: # Do not spawn, but actually (OS) fork. if os.fork() == 0: # The child process. # Decouple from parent and fork again. # Otherwise, it becomes a zombie and pretends to be alive. os.setsid() if os.fork() > 0: os._exit(0) # The grandchild process. try: self.cmd(*args, fork=False, **kwargs) # borg mount not spawning. finally: # This should never be reached, since it daemonizes, # and the grandchild process exits before cmd() returns. # However, just in case... print('Fatal: borg mount did not daemonize properly. Force exiting.', file=sys.stderr, flush=True) os._exit(0) else: self.cmd(*args, fork=fork, **kwargs) if kwargs.get('exit_code', EXIT_SUCCESS) == EXIT_ERROR: # If argument `exit_code = EXIT_ERROR`, then this call # is testing the behavior of an unsuccessful mount and # we must not continue, as there is no mount to work # with. The test itself has already failed or succeeded # with the call to `self.cmd`, above. yield return self.wait_for_mountstate(mountpoint, mounted=True) yield umount(mountpoint) self.wait_for_mountstate(mountpoint, mounted=False) os.rmdir(mountpoint) # Give the daemon some time to exit time.sleep(0.2) def wait_for_mountstate(self, mountpoint, *, mounted, timeout=5): """Wait until a path meets specified mount point status""" timeout += time.time() while timeout > time.time(): if os.path.ismount(mountpoint) == mounted: return time.sleep(0.1) message = 'Waiting for {} of {}'.format('mount' if mounted else 'umount', mountpoint) raise TimeoutError(message) @contextmanager def read_only(self, path): """Some paths need to be made read-only for testing If the tests are executed inside a fakeroot environment, the changes from chmod won't affect the real permissions of that folder. This issue is circumvented by temporarily disabling fakeroot with `LD_PRELOAD=`. Using chmod to remove write permissions is not enough if the tests are running with root privileges. Instead, the folder is rendered immutable with chattr or chflags, respectively. """ if sys.platform.startswith('linux'): cmd_immutable = 'chattr +i "%s"' % path cmd_mutable = 'chattr -i "%s"' % path elif sys.platform.startswith(('darwin', 'freebsd', 'netbsd', 'openbsd')): cmd_immutable = 'chflags uchg "%s"' % path cmd_mutable = 'chflags nouchg "%s"' % path elif sys.platform.startswith('sunos'): # openindiana cmd_immutable = 'chmod S+vimmutable "%s"' % path cmd_mutable = 'chmod S-vimmutable "%s"' % path else: message = 'Testing read-only repos is not supported on platform %s' % sys.platform self.skipTest(message) try: os.system('LD_PRELOAD= chmod -R ugo-w "%s"' % path) os.system(cmd_immutable) yield finally: # Restore permissions to ensure clean-up doesn't fail os.system(cmd_mutable) os.system('LD_PRELOAD= chmod -R ugo+w "%s"' % path) class changedir: def __init__(self, dir): self.dir = dir def __enter__(self): self.old = os.getcwd() os.chdir(self.dir) def __exit__(self, *args, **kw): os.chdir(self.old) class environment_variable: def __init__(self, **values): self.values = values self.old_values = {} def __enter__(self): for k, v in self.values.items(): self.old_values[k] = os.environ.get(k) if v is None: os.environ.pop(k, None) else: os.environ[k] = v def __exit__(self, *args, **kw): for k, v in self.old_values.items(): if v is None: os.environ.pop(k, None) else: os.environ[k] = v class FakeInputs: """Simulate multiple user inputs, can be used as input() replacement""" def __init__(self, inputs): self.inputs = inputs def __call__(self, prompt=None): if prompt is not None: print(prompt, end='') try: return self.inputs.pop(0) except IndexError: raise EOFError from None