""" Teuthology task for exercising CephFS client recovery """ import logging from textwrap import dedent import time import distutils.version as version import re import os from teuthology.orchestra import run from teuthology.exceptions import CommandFailedError from tasks.cephfs.fuse_mount import FuseMount from tasks.cephfs.cephfs_test_case import CephFSTestCase from teuthology.packaging import get_package_version log = logging.getLogger(__name__) # Arbitrary timeouts for operations involving restarting # an MDS or waiting for it to come up MDS_RESTART_GRACE = 60 class TestClientNetworkRecovery(CephFSTestCase): REQUIRE_ONE_CLIENT_REMOTE = True CLIENTS_REQUIRED = 2 LOAD_SETTINGS = ["mds_reconnect_timeout", "ms_max_backoff"] # Environment references mds_reconnect_timeout = None ms_max_backoff = None def test_network_death(self): """ Simulate software freeze or temporary network failure. Check that the client blocks I/O during failure, and completes I/O after failure. """ session_timeout = self.fs.get_var("session_timeout") self.fs.mds_asok(['config', 'set', 'mds_defer_session_stale', 'false']) # We only need one client self.mount_b.umount_wait() # Initially our one client session should be visible client_id = self.mount_a.get_global_id() ls_data = self._session_list() self.assert_session_count(1, ls_data) self.assertEqual(ls_data[0]['id'], client_id) self.assert_session_state(client_id, "open") # ...and capable of doing I/O without blocking self.mount_a.create_files() # ...but if we turn off the network self.fs.set_clients_block(True) # ...and try and start an I/O write_blocked = self.mount_a.write_background() # ...then it should block self.assertFalse(write_blocked.finished) self.assert_session_state(client_id, "open") time.sleep(session_timeout * 1.5) # Long enough for MDS to consider session stale self.assertFalse(write_blocked.finished) self.assert_session_state(client_id, "stale") # ...until we re-enable I/O self.fs.set_clients_block(False) # ...when it should complete promptly a = time.time() self.wait_until_true(lambda: write_blocked.finished, self.ms_max_backoff * 2) write_blocked.wait() # Already know we're finished, wait() to raise exception on errors recovery_time = time.time() - a log.info("recovery time: {0}".format(recovery_time)) self.assert_session_state(client_id, "open") class TestClientRecovery(CephFSTestCase): CLIENTS_REQUIRED = 2 LOAD_SETTINGS = ["mds_reconnect_timeout", "ms_max_backoff"] # Environment references mds_reconnect_timeout = None ms_max_backoff = None def test_basic(self): # Check that two clients come up healthy and see each others' files # ===================================================== self.mount_a.create_files() self.mount_a.check_files() self.mount_a.umount_wait() self.mount_b.check_files() self.mount_a.mount_wait() # Check that the admin socket interface is correctly reporting # two sessions # ===================================================== ls_data = self._session_list() self.assert_session_count(2, ls_data) self.assertSetEqual( set([l['id'] for l in ls_data]), {self.mount_a.get_global_id(), self.mount_b.get_global_id()} ) def test_restart(self): # Check that after an MDS restart both clients reconnect and continue # to handle I/O # ===================================================== self.fs.mds_fail_restart() self.fs.wait_for_state('up:active', timeout=MDS_RESTART_GRACE) self.mount_a.create_destroy() self.mount_b.create_destroy() def _session_num_caps(self, client_id): ls_data = self.fs.mds_asok(['session', 'ls']) return int(self._session_by_id(ls_data).get(client_id, {'num_caps': None})['num_caps']) def test_reconnect_timeout(self): # Reconnect timeout # ================= # Check that if I stop an MDS and a client goes away, the MDS waits # for the reconnect period mount_a_client_id = self.mount_a.get_global_id() self.fs.fail() self.mount_a.umount_wait(force=True) self.fs.set_joinable() self.fs.wait_for_state('up:reconnect', reject='up:active', timeout=MDS_RESTART_GRACE) # Check that the MDS locally reports its state correctly status = self.fs.mds_asok(['status']) self.assertIn("reconnect_status", status) ls_data = self._session_list() self.assert_session_count(2, ls_data) # The session for the dead client should have the 'reconnect' flag set self.assertTrue(self.get_session(mount_a_client_id)['reconnecting']) # Wait for the reconnect state to clear, this should take the # reconnect timeout period. in_reconnect_for = self.fs.wait_for_state('up:active', timeout=self.mds_reconnect_timeout * 2) # Check that the period we waited to enter active is within a factor # of two of the reconnect timeout. self.assertGreater(in_reconnect_for, self.mds_reconnect_timeout // 2, "Should have been in reconnect phase for {0} but only took {1}".format( self.mds_reconnect_timeout, in_reconnect_for )) self.assert_session_count(1) # Check that the client that timed out during reconnect can # mount again and do I/O self.mount_a.mount_wait() self.mount_a.create_destroy() self.assert_session_count(2) def test_reconnect_eviction(self): # Eviction during reconnect # ========================= mount_a_client_id = self.mount_a.get_global_id() self.fs.fail() # The mount goes away while the MDS is offline self.mount_a.kill() # wait for it to die time.sleep(5) self.fs.set_joinable() # Enter reconnect phase self.fs.wait_for_state('up:reconnect', reject='up:active', timeout=MDS_RESTART_GRACE) self.assert_session_count(2) # Evict the stuck client self.fs.mds_asok(['session', 'evict', "%s" % mount_a_client_id]) self.assert_session_count(1) # Observe that we proceed to active phase without waiting full reconnect timeout evict_til_active = self.fs.wait_for_state('up:active', timeout=MDS_RESTART_GRACE) # Once we evict the troublemaker, the reconnect phase should complete # in well under the reconnect timeout. self.assertLess(evict_til_active, self.mds_reconnect_timeout * 0.5, "reconnect did not complete soon enough after eviction, took {0}".format( evict_til_active )) # We killed earlier so must clean up before trying to use again self.mount_a.kill_cleanup() # Bring the client back self.mount_a.mount_wait() self.mount_a.create_destroy() def _test_stale_caps(self, write): session_timeout = self.fs.get_var("session_timeout") # Capability release from stale session # ===================================== if write: cap_holder = self.mount_a.open_background() else: self.mount_a.run_shell(["touch", "background_file"]) self.mount_a.umount_wait() self.mount_a.mount_wait() cap_holder = self.mount_a.open_background(write=False) self.assert_session_count(2) mount_a_gid = self.mount_a.get_global_id() # Wait for the file to be visible from another client, indicating # that mount_a has completed its network ops self.mount_b.wait_for_visible() # Simulate client death self.mount_a.suspend_netns() # wait for it to die so it doesn't voluntarily release buffer cap time.sleep(5) try: # Now, after session_timeout seconds, the waiter should # complete their operation when the MDS marks the holder's # session stale. cap_waiter = self.mount_b.write_background() a = time.time() cap_waiter.wait() b = time.time() # Should have succeeded self.assertEqual(cap_waiter.exitstatus, 0) if write: self.assert_session_count(1) else: self.assert_session_state(mount_a_gid, "stale") cap_waited = b - a log.info("cap_waiter waited {0}s".format(cap_waited)) self.assertTrue(session_timeout / 2.0 <= cap_waited <= session_timeout * 2.0, "Capability handover took {0}, expected approx {1}".format( cap_waited, session_timeout )) self.mount_a._kill_background(cap_holder) finally: # teardown() doesn't quite handle this case cleanly, so help it out self.mount_a.resume_netns() def test_stale_read_caps(self): self._test_stale_caps(False) def test_stale_write_caps(self): self._test_stale_caps(True) def test_evicted_caps(self): # Eviction while holding a capability # =================================== session_timeout = self.fs.get_var("session_timeout") # Take out a write capability on a file on client A, # and then immediately kill it. cap_holder = self.mount_a.open_background() mount_a_client_id = self.mount_a.get_global_id() # Wait for the file to be visible from another client, indicating # that mount_a has completed its network ops self.mount_b.wait_for_visible() # Simulate client death self.mount_a.suspend_netns() # wait for it to die so it doesn't voluntarily release buffer cap time.sleep(5) try: # The waiter should get stuck waiting for the capability # held on the MDS by the now-dead client A cap_waiter = self.mount_b.write_background() time.sleep(5) self.assertFalse(cap_waiter.finished) self.fs.mds_asok(['session', 'evict', "%s" % mount_a_client_id]) # Now, because I evicted the old holder of the capability, it should # immediately get handed over to the waiter a = time.time() cap_waiter.wait() b = time.time() cap_waited = b - a log.info("cap_waiter waited {0}s".format(cap_waited)) # This is the check that it happened 'now' rather than waiting # for the session timeout self.assertLess(cap_waited, session_timeout / 2.0, "Capability handover took {0}, expected less than {1}".format( cap_waited, session_timeout / 2.0 )) self.mount_a._kill_background(cap_holder) finally: self.mount_a.resume_netns() def test_trim_caps(self): # Trim capability when reconnecting MDS # =================================== count = 500 # Create lots of files for i in range(count): self.mount_a.run_shell(["touch", "f{0}".format(i)]) # Populate mount_b's cache self.mount_b.run_shell(["ls", "-l"]) client_id = self.mount_b.get_global_id() num_caps = self._session_num_caps(client_id) self.assertGreaterEqual(num_caps, count) # Restart MDS. client should trim its cache when reconnecting to the MDS self.fs.mds_fail_restart() self.fs.wait_for_state('up:active', timeout=MDS_RESTART_GRACE) num_caps = self._session_num_caps(client_id) self.assertLess(num_caps, count, "should have less than {0} capabilities, have {1}".format( count, num_caps )) def _is_flockable(self): a_version_str = get_package_version(self.mount_a.client_remote, "fuse") b_version_str = get_package_version(self.mount_b.client_remote, "fuse") flock_version_str = "2.9" version_regex = re.compile(r"[0-9\.]+") a_result = version_regex.match(a_version_str) self.assertTrue(a_result) b_result = version_regex.match(b_version_str) self.assertTrue(b_result) a_version = version.StrictVersion(a_result.group()) b_version = version.StrictVersion(b_result.group()) flock_version=version.StrictVersion(flock_version_str) if (a_version >= flock_version and b_version >= flock_version): log.info("flock locks are available") return True else: log.info("not testing flock locks, machines have versions {av} and {bv}".format( av=a_version_str,bv=b_version_str)) return False def test_filelock(self): """ Check that file lock doesn't get lost after an MDS restart """ flockable = self._is_flockable() lock_holder = self.mount_a.lock_background(do_flock=flockable) self.mount_b.wait_for_visible("background_file-2") self.mount_b.check_filelock(do_flock=flockable) self.fs.mds_fail_restart() self.fs.wait_for_state('up:active', timeout=MDS_RESTART_GRACE) self.mount_b.check_filelock(do_flock=flockable) # Tear down the background process self.mount_a._kill_background(lock_holder) def test_filelock_eviction(self): """ Check that file lock held by evicted client is given to waiting client. """ if not self._is_flockable(): self.skipTest("flock is not available") lock_holder = self.mount_a.lock_background() self.mount_b.wait_for_visible("background_file-2") self.mount_b.check_filelock() lock_taker = self.mount_b.lock_and_release() # Check the taker is waiting (doesn't get it immediately) time.sleep(2) self.assertFalse(lock_holder.finished) self.assertFalse(lock_taker.finished) try: mount_a_client_id = self.mount_a.get_global_id() self.fs.mds_asok(['session', 'evict', "%s" % mount_a_client_id]) # Evicting mount_a should let mount_b's attempt to take the lock # succeed self.wait_until_true(lambda: lock_taker.finished, timeout=10) finally: # Tear down the background process self.mount_a._kill_background(lock_holder) # teardown() doesn't quite handle this case cleanly, so help it out self.mount_a.kill() self.mount_a.kill_cleanup() # Bring the client back self.mount_a.mount_wait() def test_dir_fsync(self): self._test_fsync(True); def test_create_fsync(self): self._test_fsync(False); def _test_fsync(self, dirfsync): """ That calls to fsync guarantee visibility of metadata to another client immediately after the fsyncing client dies. """ # Leave this guy out until he's needed self.mount_b.umount_wait() # Create dir + child dentry on client A, and fsync the dir path = os.path.join(self.mount_a.mountpoint, "subdir") self.mount_a.run_python( dedent(""" import os import time path = "{path}" print("Starting creation...") start = time.time() os.mkdir(path) dfd = os.open(path, os.O_DIRECTORY) fd = open(os.path.join(path, "childfile"), "w") print("Finished creation in {{0}}s".format(time.time() - start)) print("Starting fsync...") start = time.time() if {dirfsync}: os.fsync(dfd) else: os.fsync(fd) print("Finished fsync in {{0}}s".format(time.time() - start)) """.format(path=path,dirfsync=str(dirfsync))) ) # Immediately kill the MDS and then client A self.fs.fail() self.mount_a.kill() self.mount_a.kill_cleanup() # Restart the MDS. Wait for it to come up, it'll have to time out in clientreplay self.fs.set_joinable() log.info("Waiting for reconnect...") self.fs.wait_for_state("up:reconnect") log.info("Waiting for active...") self.fs.wait_for_state("up:active", timeout=MDS_RESTART_GRACE + self.mds_reconnect_timeout) log.info("Reached active...") # Is the child dentry visible from mount B? self.mount_b.mount_wait() self.mount_b.run_shell(["ls", "subdir/childfile"]) def test_unmount_for_evicted_client(self): """Test if client hangs on unmount after evicting the client.""" mount_a_client_id = self.mount_a.get_global_id() self.fs.mds_asok(['session', 'evict', "%s" % mount_a_client_id]) self.mount_a.umount_wait(require_clean=True, timeout=30) def test_mount_after_evicted_client(self): """Test if a new mount of same fs works after client eviction.""" # trash this : we need it to use same remote as mount_a self.mount_b.umount_wait() cl = self.mount_a.__class__ # create a new instance of mount_a's class with most of the # same settings, but mounted on mount_b's mountpoint. m = cl(ctx=self.mount_a.ctx, client_config=self.mount_a.client_config, test_dir=self.mount_a.test_dir, client_id=self.mount_a.client_id, client_remote=self.mount_a.client_remote, client_keyring_path=self.mount_a.client_keyring_path, cephfs_name=self.mount_a.cephfs_name, cephfs_mntpt= self.mount_a.cephfs_mntpt, hostfs_mntpt=self.mount_b.hostfs_mntpt, brxnet=self.mount_a.ceph_brx_net) # evict mount_a mount_a_client_id = self.mount_a.get_global_id() self.fs.mds_asok(['session', 'evict', "%s" % mount_a_client_id]) m.mount_wait() m.create_files() m.check_files() m.umount_wait(require_clean=True) def test_stale_renew(self): if not isinstance(self.mount_a, FuseMount): self.skipTest("Require FUSE client to handle signal STOP/CONT") session_timeout = self.fs.get_var("session_timeout") self.mount_a.run_shell(["mkdir", "testdir"]) self.mount_a.run_shell(["touch", "testdir/file1"]) # populate readdir cache self.mount_a.run_shell(["ls", "testdir"]) self.mount_b.run_shell(["ls", "testdir"]) # check if readdir cache is effective initial_readdirs = self.fs.mds_asok(['perf', 'dump', 'mds_server', 'req_readdir_latency']) self.mount_b.run_shell(["ls", "testdir"]) current_readdirs = self.fs.mds_asok(['perf', 'dump', 'mds_server', 'req_readdir_latency']) self.assertEqual(current_readdirs, initial_readdirs); mount_b_gid = self.mount_b.get_global_id() # stop ceph-fuse process of mount_b self.mount_b.suspend_netns() self.assert_session_state(mount_b_gid, "open") time.sleep(session_timeout * 1.5) # Long enough for MDS to consider session stale self.mount_a.run_shell(["touch", "testdir/file2"]) self.assert_session_state(mount_b_gid, "stale") # resume ceph-fuse process of mount_b self.mount_b.resume_netns() # Is the new file visible from mount_b? (caps become invalid after session stale) self.mount_b.run_shell(["ls", "testdir/file2"]) def test_abort_conn(self): """ Check that abort_conn() skips closing mds sessions. """ if not isinstance(self.mount_a, FuseMount): self.skipTest("Testing libcephfs function") self.fs.mds_asok(['config', 'set', 'mds_defer_session_stale', 'false']) session_timeout = self.fs.get_var("session_timeout") self.mount_a.umount_wait() self.mount_b.umount_wait() gid_str = self.mount_a.run_python(dedent(""" import cephfs as libcephfs cephfs = libcephfs.LibCephFS(conffile='') cephfs.mount() client_id = cephfs.get_instance_id() cephfs.abort_conn() print(client_id) """) ) gid = int(gid_str); self.assert_session_state(gid, "open") time.sleep(session_timeout * 1.5) # Long enough for MDS to consider session stale self.assert_session_state(gid, "stale") def test_dont_mark_unresponsive_client_stale(self): """ Test that an unresponsive client holding caps is not marked stale or evicted unless another clients wants its caps. """ if not isinstance(self.mount_a, FuseMount): self.skipTest("Require FUSE client to handle signal STOP/CONT") # XXX: To conduct this test we need at least two clients since a # single client is never evcited by MDS. SESSION_TIMEOUT = 30 SESSION_AUTOCLOSE = 50 time_at_beg = time.time() mount_a_gid = self.mount_a.get_global_id() _ = self.mount_a.client_pid self.fs.set_var('session_timeout', SESSION_TIMEOUT) self.fs.set_var('session_autoclose', SESSION_AUTOCLOSE) self.assert_session_count(2, self.fs.mds_asok(['session', 'ls'])) # test that client holding cap not required by any other client is not # marked stale when it becomes unresponsive. self.mount_a.run_shell(['mkdir', 'dir']) self.mount_a.send_signal('sigstop') time.sleep(SESSION_TIMEOUT + 2) self.assert_session_state(mount_a_gid, "open") # test that other clients have to wait to get the caps from # unresponsive client until session_autoclose. self.mount_b.run_shell(['stat', 'dir']) self.assert_session_count(1, self.fs.mds_asok(['session', 'ls'])) self.assertLess(time.time(), time_at_beg + SESSION_AUTOCLOSE) self.mount_a.send_signal('sigcont') def test_config_session_timeout(self): self.fs.mds_asok(['config', 'set', 'mds_defer_session_stale', 'false']) session_timeout = self.fs.get_var("session_timeout") mount_a_gid = self.mount_a.get_global_id() self.fs.mds_asok(['session', 'config', '%s' % mount_a_gid, 'timeout', '%s' % (session_timeout * 2)]) self.mount_a.kill(); self.assert_session_count(2) time.sleep(session_timeout * 1.5) self.assert_session_state(mount_a_gid, "open") time.sleep(session_timeout) self.assert_session_count(1) self.mount_a.kill_cleanup() def test_reconnect_after_blocklisted(self): """ Test reconnect after blocklisted. - writing to a fd that was opened before blocklist should return -EBADF - reading/writing to a file with lost file locks should return -EIO - readonly fd should continue to work """ self.mount_a.umount_wait() if isinstance(self.mount_a, FuseMount): self.mount_a.mount_wait(mntargs=['--client_reconnect_stale=1', '--fuse_disable_pagecache=1']) else: try: self.mount_a.mount_wait(mntopts=['recover_session=clean']) except CommandFailedError: self.mount_a.kill_cleanup() self.skipTest("Not implemented in current kernel") self.mount_a.wait_until_mounted() path = os.path.join(self.mount_a.mountpoint, 'testfile_reconnect_after_blocklisted') pyscript = dedent(""" import os import sys import fcntl import errno import time fd1 = os.open("{path}.1", os.O_RDWR | os.O_CREAT, 0O666) fd2 = os.open("{path}.1", os.O_RDONLY) fd3 = os.open("{path}.2", os.O_RDWR | os.O_CREAT, 0O666) fd4 = os.open("{path}.2", os.O_RDONLY) os.write(fd1, b'content') os.read(fd2, 1); os.write(fd3, b'content') os.read(fd4, 1); fcntl.flock(fd4, fcntl.LOCK_SH | fcntl.LOCK_NB) print("blocklist") sys.stdout.flush() sys.stdin.readline() # wait for mds to close session time.sleep(10); # trigger 'open session' message. kclient relies on 'session reject' message # to detect if itself is blocklisted try: os.stat("{path}.1") except: pass # wait for auto reconnect time.sleep(10); try: os.write(fd1, b'content') except OSError as e: if e.errno != errno.EBADF: raise else: raise RuntimeError("write() failed to raise error") os.read(fd2, 1); try: os.read(fd4, 1) except OSError as e: if e.errno != errno.EIO: raise else: raise RuntimeError("read() failed to raise error") """).format(path=path) rproc = self.mount_a.client_remote.run( args=['python3', '-c', pyscript], wait=False, stdin=run.PIPE, stdout=run.PIPE) rproc.stdout.readline() mount_a_client_id = self.mount_a.get_global_id() self.fs.mds_asok(['session', 'evict', "%s" % mount_a_client_id]) rproc.stdin.writelines(['done\n']) rproc.stdin.flush() rproc.wait() self.assertEqual(rproc.exitstatus, 0)